Courtesy of Steven Engineering, Inc. 230 Ryan Way, South San Francisco, CA General Inquiries: (800)

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1 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Control Catalogue

2 The specialist brand which does more for you Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Sensors Sensors Control Control Motors Motors Our in-depth knowledge of your business combined with our unrivalled expertise ensure that you benefit from an innovative range of customised products.

3 Control Contents Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Crouzet, the Control specialist...0 How to order...06 The Crouzet offer...07 Logic controllers... DIN rail mounted timers... Panel mounted timers... Control relays... Solid state relays... Solid state I/O modules... Temperature controllers... Counters and ratemeters... Cam timers... Machine safety... Micro-PLCs Index by part number...6 General conditions of sale...7

4 A brand which sets the standard Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) An acknowledged specialist With 0 years experience and extensive technical and industrial expertise, Crouzet is a key player in the Control market. Already world leader in time management functions and management of physical values, Crouzet is determined to keep forging ahead. It is not by chance that we have won the confidence of many manufacturing companies. Confidence which Crouzet s workforce strive to maintain and develop on a daily basis. A technological advance From pure esearch and Development to simply improving a standard product, our policy of constant re-evaluation means that we can offer customised products without ever ceasing to innovate: the Millenium II + logic controller is a perfect illustration of this approach.

5 A brand which stands out from the crowd Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Crouzet is able to approach each project as a true specialist, going beyond a simple product response to offer you a complete solution. Our extensive range of unique products and unmatched expertise make Crouzet one of the major players in the field of Control. Our offer hinges on specialities: Time management Management of physical Counting and electrical values Skill and proximity In response to the growing need for customisation, from pre-design through to maintenance, our Product adaptation centre can offer you expert advice on how products can be adapted or combined, and their environments modified accordingly: product integration is guaranteed. Our distributors and specialist integrators are trained to guide you in finding the best solution, offering you a hands-on approach at local level. Our responsive team of sales engineers and our technical and logistics departments are ready to work with you in developing and industrialising your products. An international organisation dedicated to improving your efficiency Because you have diverse requirements, our solutions are designed to adapt to all your needs, in terms of technology, standards, timescales and budget. By combining the skills of our engineers and sales managers, we can offer you the best possible response time. Our priority is to satisfy your expectations to the fullest degree, and work closely with you throughout your project.

6 To order Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) See back page for details of your local Crouzet office Standard products, not in stock Give the reference in black and the additional characteristics Special products, adaptations, additional information Let s work together to find a customised solution Standard products Give the reference in white. Warning: The technical information in this catalogue is given for information only and does not constitute a contractual obligation. COZET Automatismes and its subsidiaries reserve the right to make any modifications without notice. It is essential to contact us for any special use/application of our products, and it is the responsibility of the purchaser to check, in particular using all appropriate tests, that the product used is suitable for the application. Our guarantee may under no circumstances be invoked, nor our responsibility sought for any application of our products such as, amongst others, modification, addition, use in combination with other electrical or electronic components, circuits or mounting systems, or any other inappropriate equipment or substance which has not been expressly approved by us prior to the finalisation of the sale. 6

7 The Crouzet offer Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Motors DC motors, brushless motors, Linear motors, Synchronous motors, Stepper motors, Asynchronous motors, Fans Pneumatic Electro-pneumatic miniature control valves, Intrinsically safe miniature solenoid valves, Multi-fluid solenoid valves, Position detectors, Man / Machine Interface components, Pressure switches and amplifiers, Pneumatic logic components, Vacuum handling components Senior products Control Timers, Logic controller, Counters, atemeters, Control relays, Solid state relays, I/O modules, Temperature controllers, Micro- PLCs, Machine Safety, Control units for burners Sensors Limit switches, Microswitches, Inductive proximity sensors, Capacitive proximity sensors, Photoelectric sensors, eadout modules Heavy duty control components Control and signalling components, Terminals, Displays, Selector switches, Consoles and control desks, Custom designed control units To meet your maintenance requirements, the senior products site contains a selection of products which no longer appear in this catalogue. To assist your search, this webspace will help you find the technical and price characteristics to enable you to procure these products. And of course, your Crouzet contact is always on hand to help fill in the information required, or to suggest the optimum replacement solution. 7

8 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

9 Logic Logic controller controller Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

10 Selection guide Millenium II + logic controller Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Inputs 8 PNP ( analogue) 8 NPN ( analogue) PNP (8 analogue) NPN ( analogue) Power supplies Outputs relays 8 A solid state digital/pwm 0.7 A relays 8 A 8 relays 8 A 8 solid state digital/pwm 0.7 A 8 relays 8 A Voltage VDC VDC 00 to 0 VAC VAC VDC VDC VDC VDC VDC 00 to 0 VAC 0 VAC VAC VDC VDC VDC LCD display With Without With Without With Without With Without With Without With Without With Without With Without With Without With Without With Without With Without With Without With Without Type SA EC SA EC SA EC SA EC SA EC SA EC SA EC SA 0 XT 0 EC 0 SA 0 XT 0 EC 0 EX 0 SA 0 XT 0 EC 0 EX 0 SA 0 XT 0 EC 0 EX 0 SA 0 XT 0 EC 0 SA 0 XT 0 EC 0 EX 0 SA 0 XT 0 EC 0 EX 0 Page 6 Page 8 Page 6 Page 8 Page 6 Page 8 Page 6 Page 8 Page 6 Page 8 Page 6 Page 8 Page 6 Page 8 Page 6 Page 7 Page 8 Page 6 Page 7 Page 8 Page 7 Page 6 Page 7 Page 8 Page 7 Page 6 Page 7 Page 8 Page 7 Page 6 Page 7 Page 8 Page Page 7 Page 8 Page 7 Page 6 Page 7 Page 8 Page 7 0 VAC / VDC W.9 A Page SA series EC series SA 0 series EC. EX 0 series XT 0 series 0 VAC / VDC 0 W. A Page Millenium II + power supply 0

11 Adjacent extensions XC 0 Inputs Outputs Voltage Type VDC PNP relays 8 A VDC 00 to 0 VAC XC 0 Page 0 VAC NPN relays 8 A VDC XC 0 Page 0 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Local extensions Starter kit VDC AS-i exchange unit VDC MODBS exchange unit XC 0 XC 0 Page Page M-M local link ( modules) XL 0 Page 0 Digital/PWM solid state outputs 0.7 A XL 0 Page 0 relay outputs XL 06 Page 0 Inputs Outputs Voltage LCD display 8 PNP PNP relays 8 relays VDC 00 to 0 VDC VDC 00 to 0 VDC With With Type KIT SA KIT SA 0 KIT XT 0 KIT SA 0 KIT XT 0 Page Page Each kit consists of: - a standard or expandable Millenium II ( VDC or 00 to 0 VAC versions) - a PC/Millenium II programming cable - an interactive CD OM including the software workshop, the tutorial, the application library and technical brochures. Special starter kits Type Designation Level control KIT Level control Page Each kit consists of: SA + programming software + programming cable + level sensor adaptor + level sensors S7 Type Designation Temperature control KIT Heating, cooling and air conditioning Page Each kit consists of: SA + programming software + programming cable + PS power supply + temperature sensor + solid state relay with heatsink Accessories Programming cable SB Page MODEM KIT STN Page MODEM KIT GSM Page Waterproof adaptor EC/SA Page Waterproof adaptor SA0/XT0/EC0/EX0 Page Waterproof adaptor SA0/XT0/EC0/EX0 + extension module Page Temperature sensor (-0 C/+0 C) Page PWM/0-0V convertor Page -0mA/0-0V convertor Page Programming software on CD OM Page EEPOM memory module Page XC 0 XC 0 XL 0 / XL 0 Programming cable Page Panel mounting adaptor EC/SA Page Panel mounting adaptor EC0/SA0/XT0/EX0 Page Ambient temperature sensor (-0 to +0 C) Page Duct temperature sensor (-0 to +0 C) Page Outside temperature sensor (-0 to +0 C) Page emote/submersible temperature sensor (-0 to +0 C) Page

12 Millenium II +: general characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Starter kit Blind Temperature sensors Special starter kits Bare board Power supply Level detection Local extensions Accessories Standard Expandable Insulation Safety class Earthing Protection Certifications Conformity to standards EN EN EN MΩ 0 industrial / II domestic casing None IP0 / Terminal block IP0 IP00 for CN and CN0 CE, L, cl Programming method Function blocks/sfc Program size 8 blocks Program memory Flash EEPOM emovable memory EEPOM Data memory 6 bits / 6 words backed up for 0 years LCD display Display with lines of characters eal-time clock Drift < min/month at C with user-definable correction of drift Data retention : 0 years (lithium battery) Storage temperature ( 0 C) Operating temperature ( o C) - + elative humidity (no 90 9 % condensation) Dimensions (l x h x w) SA-EC : 7 x 90 x 60 mm SA0-XT0 : x 90 x 60 mm EC0-EX0 CN : 7 x 90 x mm CN0 : x 90 x mm Electrical characteristics Power supply 00-0 V AC Operating voltage 00 V AC 0 V AC +0 % - % 0/60 Hz Operating limits 8 V AC 6 V AC Immunity from micro power cuts 0 ms Maximum inrush current A Max. absorbed power SA-EC-CN : 6 VA SA0-EC0-CN0 : 6. VA XT0-EX0 : 8 VA Power supply V AC Operating voltage V AC +0 % - % 0/60 Hz Operating limits 0. V AC 8.8 V AC Immunity from micro power cuts 0 ms Maximum inrush current. A Max. absorbed power SA-EC-CN : 6 VA SA0-EC0-CN0 : 6. VA XT0-EX0 : 8 VA Power supply V DC Operating voltage V DC +0 % - % Operating limits 0. V DC 8.8 V DC Immunity from micro power cuts ms Maximum inrush current 6 A Max. absorbed power SA-EC-CN :. W SA0-EC0-CN0 : W XT0-EX0 : W Adjacent extensions Communication modules Power supply V DC Operating voltage V DC +0% -% +0% -% for XT0 relay Operating limits 0. V DC.6 V DC 0.68 VDC.6 V DC for XT 0 relay Immunity from micro power cuts ms Maximum Inrush current 6 A Max. absorbed power SA-EC-CN :. W SA0-EC0-CN0 :. W XT0-EX0 :. W 00-0 V AC input Input voltage (V AC) 00-0 (+0 % / - %) Supply frequency range (Hz) 0/60 Hz Input impedance (kω) 700 Pull-in voltage 80 at logic state (V AC) Drop-out voltage 0 at logic state 0 (V AC) esponse time 0 Status indicator On LCD screen for SA, SA0 and XT0 V AC input Input voltage (V AC) (+0 % / - %) Supply frequency range 0/60 Hz Input impedance (kω) Pull-in voltage at logic state (V AC) Drop-out voltage at logic state 0 (V AC) esponse time 0 ms Status indicator On LCD screen for SA, SA0 and XT0 Analogue input ( V DC model only) CN-SA-EC inputs from I to I8 CN0-SA0-EC0-XT0 8 inputs from I to I Measurement range (0 0 V) or (0 V power supply) esolution 8 bits Conversion time 0 ms Max input voltage 8.8 V DC Input impedance (kω) > Accuracy +/- % Drift Temperature +/- LSB Potentiometer control. kω / 0. W V DC input Current drain (+0 % - %) V DC Input current. ma /. ma max. Input impedance 6.8 kω Pull-in voltage V DC at logic state Drop-out voltage V DC at logic state 0 esponse time 0 ms Galvanic isolation No Sensor type Contact or -wire PNP or -wire NPN Status indicator On LCD screen for SA, SA0 and XT0

13 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) V DC input Input voltage (+0 % - %) V DC (except XT0 +0 % - %) Input current.9 ma /. ma max. Input impedance 6. kω Pull-in voltage at logic state 8 V DC Drop-out voltage at logic state 0 V DC esponse time 0 ms Sensor type Contact or PNP or -wire NPN Galvanic isolation No Status indicator On LCD screen for SA, SA0 and XT0 Analogue input ( V DC model only) CN - SA - EC inputs I to I8 CN0-SA0-EC0-XT0 8 inputs I to I8 Measurement range 0 0 V esolution 8 bits Conversion time (ms) 0 Max input voltage.6 V DC Input impedance (kω) > 0 ( typically) Precision ± % Temp. dependent derating ± LSB Potentiometer control. kω / 0. W elay output Max. breaking voltage 0 V AC / 0 V DC Breaking current 8 A Service life 8 A / 0 V AC resistive ( operations) Minimum load 0 ma to V DC esponse time 0 ms Status indicator On LCD screen for SA, SA0 and XT0 TO / PWM solid state output PWM solid state output SA-EC-CN : O to O SA0-XT0-EC0-CN0 : O to O6 Breaking current -8.8 V DC Breaking voltage 0.7 A / -8.8 V DC Min. load ma Maximum inductive load 0.7 A Maximum incandescent load 0. A Leakage 0. ma / V DC esponse time ms Insulation No PWM frequency 0 Hz to 90 Hz (user-definable) PWM cyclic ratio 0 to 00 % (6 steps) PWM precision at 0 Hz < % (from % to 8 %) load at 0 ma PWM precision at 00 Hz < 0 % (from 0 % to 80 %) load at 0 ma Status indicator On LCD screen for SA, SA0 and XT0

14 Millenium II + Starter kit Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Discover the benefits of Millenium II+ Each kit includes : - a standard or expandable Millenium II+ - a PC/Millenium progrmming cable - an interactive CD-om including the software workshop, tutorial, application library and technical brochures. Specifications Type Input Output Supply Code KIT SA 8 relays V DC relays 00-0 V AC Kit SA 0 8 relays V DC relays 00-0 VAC Kit XT 0 8 relays V DC relays 00-0 V AC Special starter kits Special Millenium II kits with all the extras needed for your application Each kit includes : - a standard or expandable Millenium II+ - a PC/Millenium programming cable - an interactive CD-OM including the software workshop, tutorial, application library and technical brochures. Specifications Type Designation Supply Code Level control KIT Level control V AC Temperature control KIT Heating, cooling and air conditioning V DC To order, see page 6

15 Millenium II + Level detection Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Intuitive programming via function block (FBD) or grafcet (SFC) Function : timing, counting, etc Application-specific functions : rotation, cam timers, calculation, etc Discrete, analogue or potentiometer inputs elay, solid state or PWM outputs Backlit LCD display Program password protection Integral calender and clock ser-definable from the front panel Non-expandable Specifications Type Input Output Supply Code SA + level sensor adaptor 8 relays V AC Dimensions SA 90 mm 8 mm L N A O O O O 7 mm I I I I I I6 I7 I8 B Esc OK 9, mm 60 mm Level sensor adaptor, 60, 8 7, To order, see page 6

16 Millenium II + Standard Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Intuitive programming via function block (FBD) or grafcet (SFC) Function : timing, counting, etc Application-specific functions : rotation, cam timers, calculation, etc Discrete, analogue or potentiometer inputs elay, solid state or PWM outputs Backlit LCD display Program password protection Integral calender and clock ser-definable from the front panel Non-expandable Specifications Type Input Output Supply Code SA 8 PNP relays VDC relays 00-0 VAC relays VAC PNP solid state VDC PNP relays V DC PNP solid state V DC NPN relays VDC SA 0 PNP 8 relays VDC relays 00-0 VAC relays VAC PNP 8 solid state VDC PNP 8 relays V DC PNP 8 solid state V DC NPN 8 relays VDC Dimensions SA SA 0 90 mm 8 mm General characteristics see page L N A O O O O 7 mm I I I I I I6 I7 I8 B Esc OK 9, mm 60 mm 90 mm 8 mm mm L N I I I I I I6 I7 I8 I9 I0 I I A B Esc OK,6 mm 60 mm To order, see page 6 6

17 Millenium II + Expandable Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Expandable : communication, inputs/outputs, etc Intuitive programming via function block (FBD) or grafcet (SFC) Function : timing, counting, etc Application-specific functions : rotation, cam timers, calculation, etc Discrete, analogue or potentiometer inputs elay, solid state or PWM outputs Backlit LCD display Program password protection Integral calender and clock ser-definable from the front panel Can take an XC adjacent extension and an XL local extension Specifications Type Input Output Supply Code XT 0 PNP 8 relays VDC PNP 8 relays 00-0 VAC PNP 8 relays VAC PNP 8 solid state VDC PNP 8 relays V DC PNP 8 solid state V DC NPN 8 relays VDC EX 0 PNP 8 relays V DC relays 00-0 V AC relays V AC PNP 8 solid state V DC NPN 8 relays V DC Dimensions XT 0 EX 0 90 mm 8 mm General characteristics see page mm L N I I I I I I6 I7 I8 I9 I0 I I A B Esc OK,6 mm 60 mm 90 mm 8 mm mm L N I I I I I I6 I7 I8 I9 I0 I I,6 mm 60 mm To order, see page 6 7

18 Millenium II + Blind Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) No display or parameter-setting buttons Intuitive programming via function block (FBD) or grafcet (SFC) Function : timing, counting, etc Application-specific functions : rotation, cam timers, calculation, etc Discrete, analogue or potentiometer inputs elay, solid state or PWM outputs Program protected by a password Integral calendar and clock Specifications Type Input Output Supply Code EC 8 PNP relays VDC relays 00-0 VAC relays VAC PNP solid state VDC PNP relays V DC PNP solid state V DC NPN relays VDC EC 0 PNP 8 relays VDC relays 00-0 VAC relays VAC PNP 8 solid state VDC PNP 8 relays V DC PNP 8 solid state V DC NPN 8 relays VDC Dimensions EC EC 0 90 mm 8 mm L N O O O O General characteristics see page 7 mm I I I I I I6 I7 I8 9, mm 60 mm 90 mm 8 mm mm L N I I I I I I6 I7 I8 I9 I0 I I,6 mm 60 mm To order, see page 6 8

19 Millenium II + Bare board Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) For mass-production applications Intuitive programming via function block (FBD) or grafcet (SFC) Function : timing, counting, etc Application-specific functions : rotation, cam timers, calculation, etc Discrete, analogue or potentiometer inputs elay, solid state or PWM outputs Program protected by password Integral calendar and clock Specifications Type Input Output Supply Code CN 8 PNP relays V DC relays 00-0 V AC relays V AC PNP solid state V DC PNP relays V DC PNP solid state V DC NPN relays V DC CN 0 PNP 8 relays V DC relays 00-0 V AC relays V AC PNP 8 solid state V DC PNP 8 relays V DC PNP 8 solid state V DC NPN 8 relays V DC Dimensions CN CN 0 90 mm 8 mm General characteristics see page 7 mm 9, mm mm 90 mm 8 mm mm,6 mm mm To order, see page 6 9

20 Millenium II + Local extensions Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) For XT 0 only ( local extension per module) Millenium - Millenium local link Doubles the hardware and software capacities Transparent communication between two XT 0 units Max. distance between two XT 0 units : 0 metres Cable type : screened twisted pair Specifications Type Designation Supply Code XL 0 M - M local link ( modules) universal XL 0 solid state outputs universal XL 06 relay outputs 00 0 V AC Adjacent extensions For XT 0 only (one adjacent extension per module) or 6 additional inputs/outputs Specifications Type Designation Supply Code XC 0 inputs PNP relay outputs V DC inputs relay outputs V AC inputs relay outputs 00-0 V AC inputs relay outputs V DC inputs NPN relay outputs V DC Dimensions XC 0 90 mm 8 mm 6 mm X C 0 mm 60 mm To order, see page 6 0

21 Millenium II + Communication modules Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) For XT 0 only (one adjacent extension per module) Communication using MODBS or AS-i protocol (Slave module) Specifications Type Designation Supply Code XC 0 AS-i communication module V DC V DC XC 0 MODBS communication module V DC V DC Modems TC GSM Dimensions xc0/xc0 90 mm 8 mm 6 mm X C 0 mm 60 mm modem mm 6 mm 0 mm 7 mm To order, see page 6

22 Modular power supply Power supply Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) The output voltage can be adjusted from 00 to 0 % with a potentiometer in order to compensate for possible voltage drops. Output voltage existance is indicated by a continuously lit LED. A flashing LED indicates an autoprotection mode. egulated, power surge and short circuit safe, the new switching power supplies easily fit into control panels. Specifications Type Voltage Nominal power Code PS V DC W V DC 0 W General characteristics Input voltage Output voltage Nominal power Technology Short-circuit protection Overload protection eset after overload automatic Status indication Output LED Mounting DIN rail EN 00 Conformity to standards EN 008- EN 008- CEI CEI 90 Certifications Dimensions PS 66,6 mm 90 mm 0 mm,6 mm mm 6, mm 60 mm 7 mm 90 mm 00 mm 00 0 V AC single phase : V DC : V DC ajustable de 00 à 0 % : W : 0W Electronic with primary decoupling CE, L-CSA, TüV, CTick To order, see page 6

23 Accessories Front panel adaptors Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Specifications Type Designation Code Front panel adaptor Front panel adaptor for EC-SA Front panel adaptor for EC0-SA0-XT0-EX Waterproof panel Waterproof panel adaptor for SA-EC Waterproof panel adaptor for SA0-XT0-EC0-EX Waterproof panel adaptor for SA0-XT0-EC0-EX0 + extension Interconnection cables Specifications Type Designation Code Programming cables Programming cable 9-pin D connector Programming cable SB Modem cable Programming tools Specifications Type Designation Code Software Programming software on CD OM Modem installation software Module EEPOM memory module Convertors Specifications Type Designation Input Output Code Convertor 0-0 ma / 0-0 V Input module 0-0 ma / 0-0 V Convertor PWM / 0-0V Output module PWM 0-0V To order, see page 6

24 Temperature sensors Temperature sensors Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Built-in converter : 0-0 V DC output Applications : Industrial and domestic Specifications Type ange Accuracy Protection casing Protection probe Code Zone C -0. C +. C IP Ventilation duct C -0. C +.9 C IP6 IP Outdoor C -0. C +. C IP emote/submersible probe C -0. C +. C IP6 IP Outdoor C -0. C +.9 C IP6 IP Accessories Accessories Operating temperature ( o C) Operating pressure (bar) Code Copper protective sleeve for Stainless steel (6) protective sleeve for Heat transfer compound General characteristics Supply voltage V DC (±0 %) Output 0 0 V DC Temperature coefficients Derating 0.0 % / C of full scale Temperature coefficients Offset. mv / C Ambient temperature ( o C) Ambient humidity 9 % H Material housing Self-extinguishing To order, see page 6

25 Dimensions mm ø mm ø 7 mm 80 mm Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) mm 8 mm B Ø mm for screw M x 8 C Cut-outs D Fixing holes E Bolt hole M F Maximum thickness 6 mm and mm 70 mm mm 98 mm Accessories for and B Screw M 67 mm 70 mm ø 7 mm ø mm 80 mm 8 mm 98 mm mm 9 mm 98 mm ø 6 mm mm 67 mm 67 mm 0 mm 0 mm m ø 6 mm ø 7 mm ø mm 8 mm 8 mm

26 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

27 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) DIN DIN rail-mounted rail-mounted Timers Timers 7

28 Selection guide CHONOS DIN rail mounted timers Function Delay on energisation (A) Casing 7. mm mm Output Voltage Connection Designation Solid state to 0 VAC/DC Screw terminals ated current MAS 0.7 A Page 6 VDC relays 8-pin OA 8 A Page to 0 VAC Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) MONO-FNCTION Timing on impulse (one shot) (B) Timing after impulse Off-delay timer (C) Timing on energisation (H) Delay on de-energisation True delay off (K) Starting Star-Delta (Q) Delay on energisation (A) Delay on energisation with memory (At) Timing on energisation (H) Timing on energisation with memory (Ht) Cyclic timing Pause starting (L) Cyclic timing Pulse starting (Li) 7. mm. mm 7. mm. mm Plug-in 7. mm. mm. mm 7. mm. mm Plug-in 7. mm. mm 7. mm. mm Plug-in relay relay relays Solid state relays relay relay relays relay Solid state relay relays VDC to 0 VAC VDC to 0 VAC to 0 VAC VDC to 0 VAC VDC to 0 VAC VDC to 0 VAC VDC to 0 VAC to 0 VAC VDC to 0 VAC Screw terminals Screw terminals 8-pin -pin Screw terminals Screw terminals Screw terminals Screw terminals MB Page 6 8 A TB Page 8 MC Page 6 TC Page 8 8 A OC Page PC MHS 0.7 A Page 6 TK 8 A Page 8 TQ 8 A Page 8 MA Page 6 TA TA 8 A Page 8 -pin PA Page Screw terminals Screw terminals 8-pin -pin MH Page 6 8 A TH Page 8 MLS ML TL OL PL 0.7 A 8 A Page 6 Page 8 Page MA TA OL 8

29 CHONOS DIN rail mounted timers Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) MLTI-FNCTION relay Solid state relay relays relay relays relay relays Timing ranges 0. s to 00 hrs (generic to all CHONOS ) MONO-FNCTION Function Delay on energisation (A) Delay on energisation with memory (At) Timing on impulse (one shot) Shaping (B) Timing after impulse Off-delay timer (C) Timing on energisation (H) Timing on energisation with memory (Ht) Cyclic timing Pause start (D) Cyclic timing Pulse start (Di) Pulse output (adjustable) (Bw) Timing after closing and opening of control contact (Ac) Delay on energisation by switch (non resettable) (Ad) Flashing single cycle by switch (non resettable) (Ah) Safe-guard (N) Delayed safe-guard (O) Delayed fixed-length pulse (P) Impulse counter (delay on) (Pt) Impulse relay (TL) Timed impulse relay (Tt) Timing after pulse on control contact (W) Function Delay on energisation (A) Casing 7. mm. mm Plug-in 7. mm. mm Output Voltage Connection Designation VAC/DC to 0 VAC/DC VDC to 0 VAC to 0 VAC VAC/DC to 0 VAC/DC VDC to 0 VAC VAC/DC VDC to 0 VAC to 0 VAC VAC/DC to 0 VAC/DC VDC to 0 VAC VAC/DC to 0 VAC/DC VDC to 0 VAC Screw terminals Spring terminals Screw terminals Spring terminals Screw terminals 8-pin -pin Screw terminals M M Mc M MS T T Tc T T T T O O O P P P MX TX TX ated current 8 A 0.7 A Output Voltage* Connection Designation ated current VDC VDC relays VAC 8-pin TMA A 0 VAC 0 to 0 VAC VDC VDC relays VAC -pin TMA A 0 VAC 0 to 0 VAC 8 A 8 A Page 6 Page 8 Page Page 6 Page 8 Page 6 Mc T O DIN rail mounted miniature timers TMA Timing ranges 0. s to 00 hrs *8 VAC or VDC possible if an additional resistor is used 9

30 S/SE series DIN rail mounted timers Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) MONO-FNCTION Function VDC VAC Faston A 60 min 8 VAC connectors SAS 0,7 A Page 0 0 VAC 6. mm Ap Ad Ai B Bp Bd C Cp Cd E Ep Ed Timing (to be specified when ordering) 00 s 60 min 60 min 60 min 00 s 60 min 60 min 00 s 60 min 0 min 0 min 0 min Voltage 0-0 VAC VDC VAC 8 VAC 0 VAC 0-0 VAC VDC VAC 8 VAC 0 VAC 0-0 VAC VDC VAC 8 VAC 0 VAC 0-0 VAC VAC 8 VAC 0 VAC 0 VAC VAC 8 VAC 0 VAC 0 VAC VAC 8 VAC 0 VAC 0 VAC VAC 8 VAC 0 VAC 0 VAC VAC 8 VAC 0 VAC 0 VAC VAC 8 VAC 0 VAC 0 VAC VAC 8 VAC 0 VAC 0 VAC VAC 8 VAC 0 VAC 0 VAC VAC 8 VAC 0 VAC 0 VAC Connection Faston connectors 6. mm Faston connectors 6. mm Faston connectors 6. mm Faston connectors 6. mm Faston connectors 6. mm Faston connectors 6. mm Faston connectors 6. mm Faston connectors 6. mm Faston connectors 6. mm Faston connectors 6. mm Faston connectors 6. mm Faston connectors 6. mm Designation SAS P SAS D SAS I SBS SBS P SBS D SCS SCS P SCS D SDS B SDS BP SDS BD Solid state output 0,7 A 0,7 A 0,7 A 0,7 A 0,7 A 0,7 A 0,7 A 0,7 A 0,7 A 0,7 A 0,7 A 0,7 A Page 0 Page 0 Page 0 Page Page Page Page Page Page Page 6 Page 6 Page 6 0

31 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) MONO-FNCTION Function Timing (to be Solid Voltage Connection Designation specified when ordering) state output E s 0 to 0 VAC Faston SDS A connectors 0 to 0 VAC 6. mm SDS A 0,7 A Page 6 E s 0 to 0 VAC Faston SHS B connectors 0 to 0 VAC 6. mm SHS B 0,7 A Page 6 VAC 8 VAC Faston H ( wire) 60 min connectors SHS B 0,7 A Page 0 VAC 6. mm 0 VAC VAC 8 VAC Faston Hp ( wire) 00 s connectors SHS BP 0,7 A Page 0 VAC 6. mm 0 VAC VAC 8 VAC Faston Hd ( wire) 60 min connectors SHS BD 0,7 A Page 0 VAC 6. mm 0 VAC VAC 8 VAC Faston Hi ( wire) 60 min connectors SHI S 0,7 A Page 0 VAC 6. mm 0 VAC VAC 8 VAC Faston H ( wire) 00 s connectors SHS 0,7 A Page 0 VAC 6. mm 0 VAC VAC 8 VAC Faston H ( wire) 60 min connectors SHS P 0,7 A Page 0 VAC 6. mm 0 VAC VAC 8 VAC Faston Hp ( wire) 60 min connectors SHS D 0,7 A Page 0 VAC 6. mm 0 VAC Prevention of compressor short-cycling (ACC) Prevention of compressor short-cycling (ACC) Prevention of compressor short-cycling (ACC) Prevention of compressor short-cycling (La) Prevention of compressor short-cycling (L) 0 min 0 min 80 s 0 s 0 s T on : 60 min T off : 60 min T on : 60 min T off : 60 min VAC 8 VAC 0 VAC 0 VAC VAC 8 VAC 0 VAC 0 VAC VAC 8 VAC 0 VAC 0 VAC VAC 8 VAC 0 VAC 0 VAC VAC 8 VAC 0 VAC 0 VAC Faston connectors 6. mm Faston connectors 6. mm Faston connectors 6. mm Faston connectors 6. mm Faston connectors 6. mm SAS X SAS C SAS CB 0,7 A 0,7 A 0,7 A Page 60 Page 60 Page 60 SGS 0,7 A Page 8 SGS I 0,7 A Page 8 Prevention of compressor short-cycling (X) T on : 60 min T off : 60 min VAC 8 VAC 0 VAC 0 VAC Cosses faston 6, mm SFS 0,7 A Page 9

32 Heat exchanger defrost relay for air conditioning system Function Frost formation monitored by temperature probe Choice of defrosting time Timing max. Voltage Connection Designation Output 90 min 90 to 60 VAC Faston connectors 6. mm NF relay Page 6 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) MLTI-FNCTION Function Output Timing Designation -- relay 6 s to min TOP min to h Solid state output A Electromechanical DIN rail mounted timers Voltage VAC to 8 VAC 0 to 7 VAC 0 to 0 VAC VAC to 8 VAC 0 to 7 VAC Connection Screw terminals Page 6 NF 0 to 0 VAC TOP 000

33 Basic principles Timers Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) A timer is a control component which, after a preset time, energises an output contact. The start of a timing cycle, single or repetitive, is produced by timer energisation or by maintained or pulse control contacts with, as a result, a large number of potential functions. There are two types of presentation: DIN rail mounted Product designed for mounting within a control panel. Panel-mounted Product designed to be fitted on a panel in order to be accessible by the user. There are two types of output: Timed contacts dependent on the value of the set time. Instantaneous contacts operating simultaneously with the energisation or de-energisation of the product in instantaneous fashion (excluding certain cases, for example: memory). Note: Electro-mechanical timers with automatic reset are fitted with: either a standard clutch : during timing, the electro-clutch is energised or a reversed clutch : during timing the electro-clutch is de-energised. Timers with manual reset require "manual" intervention for the commencement of a new cycle which involves resetting the timing selector. Definitions Minimum control contact time This is the minimum pulse time required to effect timing control. eset time (or return) This is the time required at the end of a cycle for resetting the timer to start a new cycle. Accuracy This is the maximum difference between the selected and the actual timing of the cycle chosen. It is expressed as a percentage of the maximum value of the timing range considered within normal operating parameters. Maximum operating current This is the maximum uninterrupted current at which the timer may function permanently within normal operating parameters when the timer contact is closed. Thermal intensity Current limit in continuous duty for a circuit with the highest possible level of current which a previously closed contact circuit can tolerate at all times in specified conditions. Contact rating This is the value of the current that can be switched by a contact in certain specified conditions. Insulation to standard VDE 0 group C, IEC. and IEC 66 Spécifications pour le dimensionnement des lignes de fuite et distance dans l'air du matériel électrique. Protection To IEC 9: classification of the levels of protection obtained by casings, terminal against solid matter against liquids Protection from voltage surge This protection is designed to eliminate voltage peaks generated by the industrial environment. It is generally provided by a varistor, the capacity of which is expressed in joules. Example: joules = 000V x 00 A x µs For circuits with strong electrical interference (over joules) the user should ensure adequate protection. Electromagnetic compatibility Electromagnetic compatibility tests measure the degree of immunity which a piece of equipment shows to various types of disturbance as defined in IEC standards. Controls Quality control Our products are quality controlled systematically during assembly and on completion. The overseeing of control checks in the workshop, the use of collected data and any resulting product assessments form the essential role of Quality Control. All our products undergo a final check, either 00% or on a selective basis according to French standard X 06-0, which provides for a classification of possible defects in three groups : critical, major, minor. Note: According to customer requirements and for certain product ranges which must meet particular requirements expressed in a specification, it is always possible to create or to modify a quality standard on the basis of a normal or special existing product and to vary the level of inspection. It can happen that the tolerance level is set at zero for certain parameters directly linked to the completion of a function for which total success must be assured: a defect is therefore fatal. Such specific requirements do, however, entail a significant increase in product costs.

34 FNCTIONS : Supply C (Y) : Control contact : Output or load relay T : Timing : indefinite Function B : Timing on impulse one shot On pulse (with constant supply) Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Function A : Delay on energisation Single timing cycle which begins on energisation. The output changes state after timing. relays timed or relay timed and instantaneous Function Ab : One-shot cycle The output changes states at the end of the set time T, for a period T. Both T and T independently adjustable. Function Ac : Timing after closing and opening of control contact After energisation, closure of the control contact causes the timing period T to commence and output relay (or the load) changes state at the end of this interval. When contact C (Y) opens, relay resets after a second timing period T. relays timed or relay timed and instantaneous Function Ad : Delay on energisation by switch (not resettable) After power-up, pressing or holding down the switch starts timing. At the end of timing, the output is energised. The output will be reset the next time the switch is pressed or held down. Function Ah : Flashing single cycle by switch (not resettable) After power-up, pressing or holding down the switch starts timing. At the end of timing,the output is energised. At the end of this second timing, the output falls back to its initial value. Function At : Timing on energisation with memory Provides a cumulative time for contact opening. The output changes states at the end of the set time. relays timed or relay timed and instantaneous / INST T relay C T C / Inst. C / Inst. C / Inst. relay relais C relay C T T T t T t T T T T T T T T t T = t+t t T = t+t After energisation; a pulse ( 0 ms) or a maintained control contact will cause the output to change state which reverts to the rest position at the end of timing. N.B. : this process enables shortening or lengthening of a signal. relays timed or relay timed and instantaneous Function Bw : Pulse output (adjustable) A output relay (or the load) changes state, and remains in the changed-over state for the timing period, both when control contact C (Y) closes and when it opens. relays timed or relay timed and instantaneous Function C : Timing after impulse Delay OFF (with constant supply) After energisation, once the control contact is closed the output state changes. Timing will only begin on the re-opening of this control contact (one shot). elay returns to its initial position at the end of the timing period. relays timed or relay timed and instantaneous Function D ou Di : Flip-flop epetitive cycle which switches the output alternately between the rest and operating position for equal time bases. T + T = T total Function D: the cycle begins with the output in rest position. Pause start. relays timed or relay timed and instantaneous Function Di: the cycle begins with the output in the operating position. Pulse start. relays timed or relay timed and instantaneous Function H : Timing on energisation Interval timer - one shot On energisation, the output changes state, remains in that state for the duration of timing and resets at the end of the single cycle. N.B. This is complementary to function A. relays timed or relay timed and instantaneous C / Inst. relay C relay C T C C / inst. T / T T Inst. relay T T / Inst. / Inst. relay C relay T T T T relay T T T T T T T T

35 8 8 8 Function Ht : Delay on energisation with memory Function P : Delayed fixed-length pulse Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Provides a cumulative time for contact opening. On energisation, the output changes state, remains in that state for the duration of timing and resets at the end of the single cycle. relays timed or relay timed and instantaneous Function K : Delay on de-energisation - True delay OFF On energisation, the output changes state. On de-energisation timing commences and the output only returns to the reset condition after timing. relays timed or relay timed and instantaneous Function L : Cyclic timing - Asymmetrical recycler epetitive cycle comprising independent adjustable time bases. Each time base corresponds alternately to a different output state. N.B. : The cycle starts with the output in the rest position. relays timed or relay timed and instantaneous Function Li : Cyclic timing - Asymmetrical recycler epetitive cycle comprising independent adjustable time bases. Each time base corresponds alternately to a different output state. N.B. : The cycle starts with the output in the operating position. relays timed or relay timed and instantaneous Function N : "Safe-guard" At the first control pulse the output is energised. To complete the timing the interval between the two control pulses must be greater than the timing set. Function O : "Delayed safe-guard" On energisation, a first timing sequence occurs and the output changes state. With the closing of the control contact, the output resets and the timing starts, with the output being activated after timing. For the timing to be completed, the interval between the closing of two control contacts must be greater than the timing set. C / C / Inst. relay relay / relay T T t T T t relay T T C C T T T T t T = t+t T t T = t+t T T T Timing begins on energisation. At the end of the timing period output relay (or the load) changes state for a period of approx. 00 milliseconds. Function Pt : Impulse counter (delay on) Calculates the total opening time of a contact. At the end of timing, the output is energised for approximately 00 ms. Function Q : "Star-delta" At the end of timing, the output is not energised. It remains "open" (not conducting) and will only change state after the fixed time of Ti has elapsed. Dwell time selectable Function T : Timing on energisation with memory a - energisation by control signal The timer sums the times for which the control contact is closed (C). eset is by the reset signal (C) only. b - energisation by supply voltage The timer sums the times for which the supply voltage () is on. eset is by the reset signal (C) only Function T : Impulse relay After power-up, pressing or holding down the switch closes the relay. Pressing the switch a second time opens the relay. Function Tt : Timed impulse relay After power-up, pressing or holding down the switch closes the relay and starts timing. The relay opens at the end of timing or when the switch is pressed a second time. Function W : Timing after pulse on control contact After energisation, if the control contact opens it causes output relay (or the load) to change state and timing to start. At the end of the timing period, relay resets to its original state. C C C C T t t P T= t+t T P P = 00 ms T Ti T t

36 Chronos timers 7. mm DIN rail mounting Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) elay or solid state output Multi-function or mono-function Multi-range Multi-voltage Screw or spring terminals LED status indicator (relay version) Option of connecting an external power supply to the control input -wire sensor control option Specifications Type Functions Output Nominal rating Connections Supply voltage Code M A - At - B - C- H - Ht - Di - D - Ac - Bw changeover relay 8 A Screw terminals V DC / 0 V AC MA A - At changeover relay 8 A Screw terminals V DC / 0 VAC MB B changeover relay 8 A Screw terminals V DC / 0 V AC MC C changeover relay 8 A Screw terminals V DC / 0 V AC MH H - Ht changeover relay 8 A Screw terminals V DC / 0 V AC ML Li-L changeover relay 8 A Screw terminals V DC / 0 V AC M A - At - B - C - H - Ht - Di - D - Ac - Bw changeover relay 8 A Screw terminals V DC / AC M A - At - B - C - H - Ht-Di - D - Ac - Bw changeover relay 8 A Screw terminals 0V AC / DC Mc A - At - B - C - H - Ht - Di - D - Ac - Bw changeover relay 8 A Spring terminals 0 V AC/DC MX Ad - Ah - N - O - P - Pt - Tl - Tt - W changeover relay 8 A Screw terminals V DC / 0 V AC MS A - At - B - C - H - Ht - Di - D - Ac - Bw Solid state 0.7 A Screw terminals 0 V AC MAS A Solid state 0.7 A Screw terminals 0V AC / DC MHS H Solid state 0.7 A Screw terminals 0 V AC MLS Li - L Solid state 0.7 A Screw terminals 0 V AC Connections changeover relay output changeover relay output Solid state output A-At / H-Ht / B / C / Di-D / Ac / BW - Ad - Ah - N - O - P - Pt - Tl - Tt - W Solid state output A / H General characteristics see page + A A ± ± Y A A 6 8 Li - L Solid state output L / Li + A A A A A A Y 6 Y 8 Y Y A A MLTI 8 A-At / H-Ht / B / C / Di-D / Ac / BW - Ad - Ah - N - O - P - Pt - Tl - Tt - W Y Y To order, see page 6 6

37 Dimensions, 7, Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Curves 60 Function A Function Ac Function Ad Delay on energisation T, Timing after closing and opening of control contact Function Ah Function At Function B C / Inst. T T T T Flashing single cycle by switch (non resettable) relay Timing on energisation with memory relay Function Bw Function C Function D C Delay on energisation by switch (non resettable) relay Timing on impulse one short relay Pulse output (adjustable) relay Timing after impulse timer Flip-flop relay Pause start Function Di Function H Function Ht T T T T T Flip-flop relay Pulse start Timing on energisation relay Delay on energisation with memory relay Function L Function Li Function N T T Double temporisation relay Asymmetrical recycler relay Pulse start Safe-guard Function O Function P Function Pt C Delayed safe-guard Delayed fixed-length pulse Impulse counter (delay on) relay Function Tl Function Tt Function W C T T T C C C C T T T t T T t T = t+t T P P = 00 ms C C C C C C T T T t T T t T = t+t t t P T= t+t T T t T Impulse relay Timed impulse relay Timing after pulse on control contact 7

38 Chronos timers. mm DIN rail mounting Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Multi-function or mono-function Multi-range Multi-voltage Screw or spring terminals LED status indicator Option of connecting an external power supply to the control input -wire sensor control option Specifications Type Functions Output Nominal rating Connections Supply voltage Code T A - At - B - C - H - Ht - Di - D - Ac - Bw changeover relay 8 A Screw terminals V DC / 0 V AC TA A - At changeover relay 8 A Screw terminals V DC / 0 V AC TB B changeover relay 8 A Screw terminals V DC/ 0 V AC TC C changeover relay 8 A Screw terminals V DC / 0 V AC TH H - Ht changeover relay 8 A Screw terminals V DC / 0 V AC TL Li - L changeover relay 8 A Screw terminals V DC / 0 V AC TQ Q changeover relay 8 A Screw terminals V DC / 0 V AC T A - At - B - C - H - Ht - Di - D - Ac - Bw changeover relay 8 A Screw terminals V DC / 0 V AC T A - At - B - C - H - Ht - Di - D - Ac - Bw changeover relay 8 A Screw terminals 0 V AC/ DC Tc A - At - B - C - H - Ht - Di - D - Ac - Bw changeover relay 8 A Spring terminals 0 V AC / DC TX Ad - Ah - N - O - P- Pt - TL - Tt - W change over relay 8 A Screw terminals V DC / 0 V AC T A - At - B - C - H - Ht - Di - D - Ac -Bw timed changeover relays 8 A Screw terminals V DC / 0 V AC including instantaneous TA A - At changeover relays 8 A Screw terminals V DC / 0 V AC TK K change over relays 8 A Screw terminals V DC / 0 V AC T A - At - B - C - H - Ht - Di - D - Ac - Bw timed changeover relays including instantaneous 8 A Screw terminals V AC / DC TQ6 Q : Star / Delta change over relay 8 A Screw terminals V DC / 0 V AC T A, B, C, H, Di, Ac, Bw + (At, Ht, D) timed changeover relays 8 A Screw terminals 0 V AC including instantaneous TX Ad - Ah - N - O - P - Pt - TL - Tt - W timed changeover relays including instantaneous 8 A Screw terminals V DC / 0 V AC Connections changeover relay output changeover relay output changeover relay output A - At - B - C - H - Ht - Di - D - Ac - Bw - Ad - Ah - N - O - P - Pt - TL - Tt - Li - L changeover relay outputs changeover relay outputs + A - At - B - C - H - Ht - Di - D - Ac - Bw - Ad - Ah - N - O - P - Pt - TL - Tt - W General characteristics see page + A A A A Y Y / 6/ 8/ K + A A + A A A Y Y 6 8 Q + A A 8 8 To order, see page 6 8

39 Dimensions, 6, A Y 7 78 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Curves 9 Function A Function A Function Ac Delay on energisation Delay on energisation with timed outputs or timed and instantaneous Function Ac Fonction Ad Function Ah C / Inst. Timing after closing and opening of control contact timers or relays, including instantaneous Delay on energisation by switch (non resettable) Function At Function At Fonction B C Timing on energisation with memory relay output Timing on energisation with memory with timed outputs or timed and instantaneous Function B Function Bw Function Bw C / Inst. Timing on impulse one shot with timed outputs or timed and instantaneous Pulse output (adjustable) relay output Function C Function C Function D C Timing after impulse timer T t T Timing after impulse with timed outputs or timed and instantaneous Function D Function Di Function Di / Inst. T T Flip-flop Pulse start with timed outputs or timed and instantaneous T t T = t+t T T 8 6 A / Inst. C C / Inst. C C / inst. Flip-flop relay output Pulse start T T T T T t T t T = t+t T T C T Timing after closing and opening of control contact relay C / Inst. Flashing single cycle by switch (non resettable) relay C Timing on impulse one shot relay output C T Pulse output (adjustable) with timed outputs or timed and instantaneous T T Flip-flop relay output Pause start Flip-flop Pulse start with timed outputs or timed and instantaneous T T T T T T / T T Inst. T 9

40 8 8 8 Function H Function H Function Ht T Timing on energisation relay output / Inst. T Timing on energisation with timed outputs or timed and instantaneous C t t T = t+t Delay on energisation with memory relay output Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Function Ht Function K Function L C / Inst. t Delay on energisation with memory with timed outputs or timed and instantaneous Delay on de-energisation True delay OFF relay outputs Function Li Function N Function O T T Asymmetrical recycler relay output Pulse start t T = t+t Safe-guard Function P Function Pt Function Q Delayed fixed-length pulse relay output Impulse counter (delay on) Star-delta Function Tl Function Tt Function W C T P P = 00 ms C C C Asymetrical recycler relay output Pause start Delayed safe-guard Impulse relay output Timed impulse relay output Timing after pulse on control contact T t t P T= t+t T T T C T T C T t T T Ti T 0

41 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

42 Chronos timers Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Plug-in Multi-function or mono-function Multi-range Multi-voltage elay output or : 8 A - 0 V (0 A L) LED status indicator Option of connecting an external power supply to the control input -wire sensor control option Specifications Type Functions Output Nominal rating Connections Supply voltage Code O A - At - B - C - H - Ht - Di - D - Ac - Bw changeover relay 8 A 8-pin V DC / 0 V AC OA A changeover relays 8 A 8-pin V DC / 0 V AC OC C changeover relay 8 A 8-pin V DC / 0 V AC OL Li - L changeover relay 8 A 8-pin V DC / 0 V AC O A - At - B - C - H - Ht - Di - D - Ac - Bw changeover relay 8 A 8-pin V AC / DC O A - At - B - C - H - Ht - Di - D - Ac - Bw changeover relay 8 A 8-pin 0 V AC / DC P A - At - B - C - H - Ht - Di - D - Ac - Bw timed changeover relays including instantaneous 8 A -pin V DC / 0 V AC PA A - At changerover relays 8 A -pin V DC / 0 V AC PC C changeover relays 8 A -pin V DC / 0 V AC PL Li - L changeover relays 8 A -pin V DC / 0 V AC P A - At - B - C - H - Ht - Di - D - Ac - Bw timed changeover relays including instantaneous 8 A -pin V AC / DC P A - At - B - C - Ht - Di - D - Ac - Bw timed changeover relays including instantaneous 8 A -pin 0 V AC / DC Accessories Code 8-pin connector base 6 8 -pin connector base (for the whole range) Connections 8-pin relay output 8-pin relay outputs 8-pin relay output 6 Functions A - At / H - Ht/ B / C / Di - D / Ac / Bw Function A Functions Li - L -pin relay outputs Functions A - At / H - Ht / B / C / Di - D / Ac / Bw General characteristics see page + Y Y pin relay outputs Functions L - Li To order, see page 6

43 Dimensions 7,,, Accessories Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Curves Function A Function A Function A Delay on energisation relay output Delay on energisation timers Delay on energisation with timed outputs or timed and instantaneous Function Ac Function Ac Function At C T Timing after closing and opening of control contact relay output Timing after closing and opening of control contact with timed outputs or timed and instantaneous Function At Function B Function B C / Inst. Timing on energisation with memory with timed outputs or timed and instantaneous Timing on impulse one shot relay output Function Bw Function Bw Function C C Pulse output (adjustable) relay output Pulse output (adjustable) with timed outputs or timed and instantaneous Timing on energisation with memory relay output Timing on impulse one shot with timed outputs or timed and instantaneous Timing after impulse timer Function C Function D Function D C / / T T T T Inst. inst. T Timing after impulse with timed outputs or timed and instantaneous Flip-flop relay output Pause start Flip-flop Pause start with timed outputs or timed and instantaneous Function Di Function Di Function H Flip-flop relay output Pulse start T T T T t T t T = t+t T / C / Inst. C C / Inst. T T T T T T Flip-flop Pause start with timed outputs or timed and instantaneous T T / Inst. C C / Inst. C T T t t T = t+t Timing on energisation relay output T T

44 Function H Function Ht Function Ht / Inst. T Timing on energisation timers or relays, including instantaneous C t t T = t+t Delay on energisation with memory relay Delay on energisation with memory timers or relays, including instantaneous C / Inst. t t T = t+t Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Function L Function L Function Li Asymmetrical recycler relay Pause start Asymmetrical recycler relay Pulse start timers Function Li T T / T T Asymmetrical recycler relay Pulse start timers / T T T T Asymemetrical recycler relay Pulse start

45 Chronos timers: general characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) mm. mm Plug-in Timing epetition accuracy with constant ± 0. % (IEC 8-) parameters Temperature drift ± 0.0 % / C Voltage drift ± 0. % / V Display accuracy according to IEC ± 0 % / C 8- Minimum pulse duration typically 0 ms (relay version) Minimum pulse duration typically 0 ms (solid state version) Minimum pulse duration typically 00 ms (relay version under load) Maximum reset time by deenergisation typically (relay 00 ms version) Maximum reset time by deenergisation typically (solid state 0 ms version) Immunity from micro power cuts : > 0 ms typical Supply Multi-voltage power supply Depending on version Frequency (Hz) 0 / 60 Operating range 8 to 0 % n (8 to 0 % n for V AC/DC) Operator factor 00 % Max. absorbed power 0.6 W V AC/DC. W 0 V AC VA 0 V AC Output specification elay output or changeover relays, AgNi 000 VA/80 W (cadmium-free) ated power 000 VA/80 W Maximum breaking current 8 A AC 8A DC Minimum breaking current 0 ma / V DC Voltage breaking capacity 0 V AC/V DC Electrical life (operations) 0 operations 8 A 0 V resistive Mechanical life (operations) x0 6 Breakdown voltage acc. to IEC. kv / min / ma / 0 Hz 8- Impulse voltage acc. to IEC 66-, kv, wave. / 0 µs IEC 8- Solid state output 7. mm ated power 0.7 A AC/DC 0 C (0. A L) Derating ma / C Maximum admissible current 0 A 0 ms Minimum breaking current 0 ma Leakage current < ma Voltage breaking capacity 0 V AC/V DC Maximum voltage drop at wire V - wire 8V terminals Electrical life (operations) 0 8 Mechanical life (operations) 0 8 Breakdown voltage acc. to IEC. kv to ma / min 66, IEC - Input type Volt-free contact -wire PNP output control option residual voltage : 0.V whatever the timer power supply Timing ranges (7 ranges) s - 0 s - min - 0 min - h - 0 h - 00 h Other characteristics Conforming to standards IEC 8-, EN 008-/, EN 008-/, LV directives (7//EEC + 9/ 68/EEC (CE marking) + EMC (89/ 6/EEC + IEC (7. mm) ) Approvals L - CSA - cl pending Temperatures limits use ( C) Temperature limits stored ( C) Installation category Voltage surge category (acc. to IEC 66-) Creepage distance and clearance kv / acc. to IEC 66- Protection (IEC 9) Terminal IP 0 Protection (IEC 9) Housing IP 0 Degree of protection acc. to IEC IP 0 9 Front face (except Tk) Vibration resistance f = 0 - Hz acc. to IEC A = 0. mm elative humidity no 9 % without condensation condensation acc. to 68-- Electromagnetic compatibility - Level III (Air 8 KV / Contact 6 KV) Immunity to electrostatic discharges acc to IEC 000- Immunity to electrostatic fields Level III 0V/m (80 MHz to GHz) acc. ENV 00/0 (IEC 000--) Immunity to rapid transient bursts Level III (direct kv / Capacitive acc. to IEC coupling clamp KV) Immunity to shock waves on Level III ( KV / common mode power supply acc. to IEC KV/residual current mode KV) Immunity to radiofrequency in common mode acc. to ENV (CEI ) Immunity to voltage dips and breaks acc. to IEC Mains-borne and radiated emissions acc. to EN 0 (EN 0 Group ) Fixing : Symmetrical DIN rail (EN 00) Connection capacity - without ferrule Level III (0V rms : 0. MHz to 80 MHz) 0 %/0 ms 60 %/00 ms > 9 %/ s Class B mm x. mm Connection capacity - with ferrule x. mm Spring terminals, terminals per. mm connection point - flexible wire Spring terminals, terminals per. mm connection point - rigid wire Material housing Self-extinguishing Weight : casing 7. mm 60 g Weight : casing. mm 90 g Weight : plug-in casing 80 g

46 TM miniature timers Plug-IN Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Miniature plug-in timer ( x 7 mm) Function A : Delay on energisation Multi-range 0. s to 0 h Excellent noise resistance elay output, or changeover contacts Specifications Type Functions elay outputs Nominal rating Supply voltage Absorbed power (W) Code TMA A timed changeover A AC VDC A timed changeover A AC VDC A timed changeover A AC VAC A timed changeover A AC 0 VAC A timed changeover A AC 0 VAC TMA A timed changeover A AC V DC A timed changeover A AC V DC A timed changeover A AC V AC A timed changeover A AC 7 V AC A timed changeover A AC 0 V AC Accessories Code PCB base TMA Base for DIN rail mounting TMA Spring clips for DIN rail mounting base 6 70 Spring clips for PCB base 6 70 PCB base TMA Base for DIN rail mounting TMA Connections TMA Supply / Timed or instantaneous (switch set to "INST") relay outputs 9 8 (-) (+) 8 TMA + - (-) Supply / / / Timed or instantaneous (switch set to "INST") relay outputs (+) To order, see page 6 6

47 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Timing ranges 0. s 0s 0. min 0 min 0. h 0 h 0 00 h Display accuracy -0 % / + 0 % at C of full scale, according to CEI/EN68 epetition accuracy (with constant parameters) ± 0. % Drift Temperature ± 0.0 %/ C Drift Voltage ± 0. %/V Maximum reset time by de-energisation during timed delay 0 ms Maximum reset time by de-energisation after timing 0 ms Operating range ± % of supply (AC) ±0 % of supply (DC) Frequency (Hz) 0/60 Hz ± Hz Immunity from micro power cuts : typical < ms ipple ± 0 % (DC) Operator factor 00 % Output specification Maximum power rating (resistive) 0 VA / 0 W Minimum current 00 ma Maximum breaking voltage 0 V AC Type of contacts AgNi Max. permitted number of operations at max 0 V AC resistive per hour 600 Electrical life at I max., 0 V AC resistive (number of operations) 0 Mechanical life (operations) 0 7 Breakdown voltage conforming to IEC/EN 68- and kv at ma / min / 0 Hz Function and use Display of output state by LED Green : power on yellow : output on Conformity to standards CEI/EN68-, CEI/EN6060-, EN008-, EN , CEI/ EN6060--, Directives BT (7//CEE + 9/68/CEE (CE marking) ) + CEM (89/6/CEE) Approvals L - cl Temperatures limits use ( C) Temperature limits stored ( C) Insulation coordination (IEC 6066-) kv / surge category Degree of protection IEC 609 IP 0 (casing) Vibration resistance acc. to IEC f = 0 Hz A = 0. mm elative humidity (no condensation) 9 % max (CEI ) Electromagnetic compatibility Class according to EN68-/A Immunity to electrostatic discharges acc. IEC/EN Level III (Air 8 K : contact 6kV) Immunity to electrostatic fields acc. ENV 00/0 (IEC 000--) Level III (0 V/m : 6 MHz to GHz / 900 MHz) Immunity to rapid transient bursts acc. to IEC Level III (Direct kv : coupled kv) Immunity to radio frequency in common mode acc. to ENV (CEI ) Level III (0 V (rms) : 0. MHz to 80 Mhz) Immunity to shock waves according to IEC/EN AC : level III (common mode kv, differential mode : kv DC : MC/MD : 0. kv Immunity to voltage dips and breaks acc. to IEC % / 0 ms 60 % / 00 ms / s > 9 % s Mains-borne and radiated emissions acc. to EN 0 (EN 0 Group Class B ) Material housing Self-extinguishing Weight (g) 7

48 Dimensions Base for DIN rail mounting TMA Spring clip for DIN rail base , Spring clip for PCB base , Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Base for DIN rail mounting TMA PCB base TMA , TMA - TMA Curves TMA, 68,,,, 9, =, = PCB base TMA TMA relays relays, 6,, 6, n T 9, =, = 7,,, 9, 0,,8 0,, ,, T,, = x, =, x6, Other information For single-range versions, please consult us. 8

49 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

50 S/SE timers Delay on energisation Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Solid state output Mono-function Mono-range-timing fixed, or adjustable by external or built-in potentiometer Mono-voltage Solid state output 0.7 A at 0 C Versions : or wire Fully sealed for protection by encapsulation in polyurethane resin Connection by 6. mm Faston blade terminals Specifications Type Voltage Functions Maximum timing (to be specified or ordering) Features Code SAS V DC A 60 min Timing, series connection V AC DC 0/60 Hz A 60 min Timing, series connection 8 V AC DC 0/60 Hz A 60 min Timing, series connection 0 V AC0/60 Hz DC A 60 min Timing, series connection 0 0 V AC 0/60 Hz DC A 60 min Timing, series connection SASP V DC Ap 00 s Adjustable timing with integral potentiometer V AC DC 0/60 Hz Ap 00 s Adjustable timing with integral potentiometer 8 V AC DC 0/60 Hz Ap 00 s Adjustable timing with integral potentiometer 0 V AC 0/60 Hz DC Ap 00 s Adjustable timing with integral potentiometer 0 0 V AC 0/60 Hz DC Ap 00 s Adjustable timing with integral potentiometer SASD V DC Ad 60 min Adjustable timing with remote potentiometer V AC DC 0/60 Hz Ad 60 min Adjustable timing with remote potentiometer 8 V AC DC 0/60 Hz Ad 60 min Adjustable timing with remote potentiometer 0 V AC 0/60 Hz DC Ad 60 min Adjustable timing with remote potentiometer 0 0 V AC 0/60 Hz DC Ad 60 min Adjustable timing with remote potentiometer SAIS V DC Ai 60 min Timing, parallel connection V AC DC 0/60 Hz Ai 60 min Timing, parallel connection 8 V AC DC 0/60 Hz Ai 60 min Timing, parallel connection 0 V AC 0/60 Hz DC Ai 60 min Timing, parallel connection 0 0 V AC 0/60 Hz DC Ai 60 min Timing, parallel connection General characteristics Accuracy Function A, Ai, Ad : ± 0 % Function Ap : -0 % +0 % epetition accuracy (with constant parameters) ± 0. % Variation according to VDE C : ± % C : ± % eset time during timed delay 0 ms eset time after timing ms Immunity from micro power cuts < 0 ms Nominal current - I max at 0 C 0.7 A Nominal current - I min 0 ma Maximum admissible current 0 A < 0.0 s Leakage current at 0 o C ma Voltage drop at terminals. V Derating ma / C Electrical life (number of operations) > 0 8 Weight (g) SAS, SASP, SASD : g SAIS : 60 g To order, see page 6. Accessories, dimensions, function and use, Other information, see page 6. 0

51 Connections SAS SASP SASD Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) SAIS Curves Function A Function Ap Function Ad Function Ai To order, see page 6. Accessories, dimensions, function and use, Other information, see page 6.

52 S/SE timers Timing on impulse, one shot Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Solid state output Mono-range-timing fixed, or adjustable by external or built-in potentiometer Mono-voltage Solid state output 0.7 A at 0 C Versions : or wire Fully sealed for protection by encapsulation in polyurethane resin Connection by 6. mm Faston blade terminals Specifications Type Voltage Functions Maximum timing (to be specified or ordering) Features Code SBS V AC 0/60 Hz B 60 min Fixed timing 8 V AC 0/60 Hz B 60 min Fixed timing 0 V AC 0/60 Hz B 60 min Fixed timing 0 V AC 0/60 Hz B 60 min Fixed timing SBSP V AC 0/60 Hz Bp 00 s Adjustable timing with integral potentiometer 8 V AC 0/60 Hz Bp 00 s Adjustable timing with integral potentiometer 0 V AC 0/60 Hz Bp 00 s Adjustable timing with integral potentiometer 0 V AC 0/60 Hz Bp 00 s Adjustable timing with integral potentiometer SBSD V AC 0/60 Hz Bd 60 min Adjustable timing with remote potentiometer 8 V AC 0/60 Hz Bd 60 min Adjustable timing with remote potentiometer 0 V AC 0/60 Hz Bd 60 min Adjustable timing with remote potentiometer 0 V AC 0/60 Hz Bd 60 min Adjustable timing with remote potentiometer General characteristics Accuracy Function B, Bd : ± 0 % Function Bp : -0 % +0 % epetition accuracy (with constant parameters) ± 0. % Variation according to VDE C : ± % C : ± % Min. control pulse 0 ms eset time during timed delay 800 ms Immunity from micro power cuts < 0 ms Nominal current - I max at 0 C 0.7 A Nominal current - I min ma Maximum admissible current 0 A < 0.0 s Leakage current at 0 o C ma Voltage drop at terminals. V Derating ma / C Electrical life (number of operations) > 0 8 Weight (g) Curves Function B Function Bp Function Bd Connections SBS SBSP SBSD To order, see page 6. Accessories, dimensions, function and use, Other information, see page 6.

53 S/SE timers Timing after impulse Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Solid state output Mono-range-timing fixed, or adjustable by external or built-in potentiometer Mono-voltage Solid state output 0.7 A at 0 C Versions : or wire Fully sealed for protection by encapsulation in polyurethane resin Connection by 6. mm Faston blade terminals Specifications Type Voltage Functions Maximum timing (to be specified or ordering) Features Code SCS V AC 0/60 Hz C 60 min Fixed timing 8 V AC 0/60 Hz C 60 min Fixed timing 0 V AC 0/60 Hz C 60 min Fixed timing 0 V AC 0/60 Hz C 60 min Fixed timing SCSP V AC 0/60 Hz Cp 00 s Adjustable timing with integral potentiometer 8 V AC 0/60 Hz Cp 00 s Adjustable timing with integral potentiometer 0 V AC 0/60 Hz Cp 00 s Adjustable timing with integral potentiometer 0 V AC 0/60 Hz Cp 00 s Adjustable timing with integral potentiometer SCSD V AC 0/60 Hz Cd 60 min Adjustable timing with remote potentiometer 8 V AC 0/60 Hz Cd 60 min Adjustable timing with remote potentiometer 0 V AC 0/60 Hz Cd 60 min Adjustable timing with remote potentiometer 0 V AC 0/60 Hz Cd 60 min Adjustable timing with remote potentiometer General characteristics Accuracy Function C, Cd : ± 0 % Function Cp : -0 % +0 % epetition accuracy (with constant parameters) ± 0. % Variation according to VDE C : ± % C : ± % Min. control pulse 0 ms eset time during timed delay 800 ms Immunity from micro power cuts < 0 ms Nominal current - I max at 0 C 0.7 A Nominal current - I min ma Maximum admissible current 0 A < 0.0 s Leakage current at 0 o C ma Voltage drop at terminals. V Derating ma / C Electrical life (number of operations) > 0 8 Curves Function C Function Cp Function Cd Connections SCS SCSP SCSD To order, see page 6. Accessories, dimensions, function and use, Other information, see page 6.

54 S/SE timers Timing on energisation Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Solid state output Mono-funtion Mono-range-timing fixed, or adjustable by external or built-in potentiometer Mono-voltage Solid state output 0.7 A at 0 C Versions : or wire Fully sealed for protection by encapsulation in polyurethane resin Connection by 6. mm Faston blade terminals Specifications Type Voltage Functions Maximum timing (to be specified or ordering) Features Code SHSB V AC 0/60 Hz H ( wire) 60 min Fixed timing 8 V AC 0/60 Hz H ( wire) 60 min Fixed timing 0 V AC 0/60 Hz H ( wire) 60 min Fixed timing 0 V AC 0/60 Hz H ( wire) 60 min Fixed timing SHSBP V AC 0/60 Hz Hp ( wire) 00 s Adjustable timing with integral potentiometer 8 V AC 0/60 Hz Hp ( wire) 00 s Adjustable timing with integral potentiometer 0 V AC 0/60 Hz Hp ( wire) 00 s Adjustable timing with integral potentiometer 0 V AC 0/60 Hz Hp ( wire) 00 s Adjustable timing with integral potentiometer SHSBD V AC 0/60 Hz Hd ( wire) 60 min Adjustable timing with remote potentiometer 8 V AC 0/60 Hz Hd ( wire) 60 min Adjustable timing with remote potentiometer 0 V AC 0/60 Hz Hd ( wire) 60 min Adjustable timing with remote potentiometer 0 V AC 0/60 Hz Hd ( wire) 60 min Adjustable timing with remote potentiometer SHIS V AC 0/60 Hz Hi ( wire) 60 min Fixed timing 8 V AC 0/60 Hz Hi ( wire) 60 min Fixed timing 0 V AC 0/60 Hz Hi ( wire) 60 min Fixed timing 0 V AC 0/60 Hz Hi ( wire) 60 min Fixed timing SHS V AC 0/60 Hz H ( wire) 00 s Fixed timing 8 V AC 0/60 Hz H ( wire) 00 s Fixed timing 0 V AC 0/60 Hz H ( wire) 00 s Fixed timing 0 V AC 0/60 Hz H ( wire) 00 s Fixed timing SHSP V AC 0/60 Hz H ( wire) 00 s Adjustable timing with integral potentiometer 8 V AC 0/60 Hz H ( wire) 00 s Adjustable timing with integral potentiometer 0 V AC 0/60 Hz H ( wire) 00 s Adjustable timing with integral potentiometer 0 V AC 0/60 Hz H ( wire) 00 s Adjustable timing with integral potentiometer SHSD V AC 0/60 Hz Hp ( wire) 60 min Adjustable timing with remote potentiometer 8 V AC 0/60 Hz Hp ( wire) 60 min Adjustable timing with remote potentiometer 0 V AC 0/60 Hz Hp ( wire) 60 min Adjustable timing with remote potentiometer 0 V AC 0/60 Hz Hp ( wire) 60 min Adjustable timing with remote potentiometer General characteristics Accuracy Function H, Hd, Hi : ± 0 % Function Hp : -0 % +0 % epetition accuracy (with constant parameters) ± 0. % Variation according to VDE C : ± % C : ± % eset time during timed delay 0 ms eset time after timing 0 ms Immunity from micro power cuts < 0 ms Nominal current - I max at 0 C 0.7 A Nominal current - I min Function H, Hi : ma Function HB : ma Maximum admissible current 0 A < 0.0 s Leakage current at 0 o C Function H, Hi : ma Function HB : 6 ma Voltage drop at terminals Function H, Hi :. V Function HB : 8 V Derating ma / C Electrical life (number of operations) > 0 8 Weight (g) H, Hd, Hp : 0 Hi : 60 To order, see page 6. Accessories, dimensions, function and use, Other information, see page 6.

55 Curves Function Hb Function Hp Function Hd Function Hi Function H Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Connections SHSB SHSBP SHSBD SHIS SHS SHSP ~ S A 8 A ~ SHSD To order, see page 6. Accessories, dimensions, function and use, Other information, see page 6.

56 S/SE timers Cyclic timing functions Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Solid state output Mono-funtion Mono-range-timing fixed, or adjustable by external or built-in potentiometer Mono-voltage Solid state output 0.7 A at 0 C Fully sealed for protection by encapsulation in polyurethane resin Connection by 6. mm Faston blade terminals Specifications Type Voltage Functions Maximum timing (to be specified or ordering) Features Code SDSB V AC 0/60 Hz E 0 min Fixed timing 8 V AC 0/60 Hz E 0 min Fixed timing 0 V AC 0/60 Hz E 0 min Fixed timing 0 V AC 0/60 Hz E 0 min Fixed timing SDSBP V AC 0/60 Hz Ep 0 min Adjustable timing with integral potentiometer 8 V AC 0/60 Hz Ep 0 min Adjustable timing with integral potentiometer 0 V AC 0/60 Hz Ep 0 min Adjustable timing with integral potentiometer 0 V AC 0/60 Hz Ep 0 min Adjustable timing with integral potentiometer SDSB V AC 0/60 Hz Ed 0 min Adjustable timing with remote potentiometer 8 V AC 0/60 Hz Ed 0 min Adjustable timing with remote potentiometer 0 V AC 0/60 Hz Ed 0 min Adjustable timing with remote potentiometer 0 V AC 0/60 Hz Ed 0 min Adjustable timing with remote potentiometer SDSA V AC 0/60 Hz E s Fixed timing SDSA V AC 0/60 Hz E s Fixed timing SDSB V AC 0/60 Hz E s Fixed timing SDSB V AC 0/60 Hz E s Fixed timing General characteristics Accuracy Functions E, Ed : ± 0 % Functions Ep, E, E : -0 % +0 % epetition accuracy (with constant parameters) ± 0. % (E, Ep, Ed) Variation according to VDE C : ± % C : ± % eset time during timed delay 0 ms Immunity from micro power cuts < 0 ms Nominal current - I max at 0 C Functions E, Ed, Ep : 0.7 A Functions E, E : A Nominal current - I min Functions E, Ed, Ep : ma Functions E, E : 0 ma Maximum admissible current 0 A < 0.0 s Leakage current at 0 o C 6 ma Voltage drop at terminals Functions E, Ed, Ep : 8 V Functions E, E : V Derating Functions E, Ed, Ep : ma / C Functions E, E : 0 ma / C Electrical life (number of operations) > 0 8 Weight (g) E, Ed, Ep : 0 E, E : 60 To order, see page 6. Accessories, dimensions, function and use, Other information, see page 6. 6

57 Connections SDSB SDSBP SDSBD Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) SDSA or A Curves Function E Function Ep Function Ed Function E Function E To order, see page 6. Accessories, dimensions, function and use, Other information, see page 6. 7

58 S/SE timers Fixed cyclic timing Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Solid state output Mono-funtion Mono-range-timing fixed Mono-voltage Solid state output 0.7 A at 0 C Percentage timer Fully sealed for protection by encapsulation in polyurethane resin Connection by 6. mm Faston blade terminals Specifications Type Voltage Functions Maximum timing (to be specified or ordering) Features Code SGS V AC 0/60 Hz La : cyclic, pause start T on : 60 min / T off : 60 min Fixed timing 8 V AC 0/60 Hz La : cyclic, pause start T on : 60 min / T off : 60 min Fixed timing 0 V AC 0/60 Hz La : cyclic, pause start T on : 60 min / T off : 60 min Fixed timing 0 V AC 0/60 Hz La : cyclic, pause start T on : 60 min / T off : 60 min Fixed timing SGSI V AC 0/60 Hz L : cyclic, pulse start T on : 60 min / T off : 60 min Fixed timing 8 V AC 0/60 Hz L : cyclic, pulse start T on : 60 min / T off : 60 min Fixed timing 0 V AC 0/60 Hz L : cyclic, pulse start T on : 60 min / T off : 60 min Fixed timing 0 V AC 0/60 Hz L : cyclic, pulse start T on : 60 min / T off : 60 min Fixed timing General characteristics Precision epetition accuracy (with constant parameters) ± 0. % Variation according to VDE C : ± % C : ± % eset time during timed delay 00 ms eset time after timing 00 ms (SFS) Immunity from micro power cuts < 0 ms Output specification Nominal current - I max at 0 C 0.7 A Nominal current - I min ma Maximum admissible current 0 A < 0.0 s Leakage current at 0 o C ma Voltage drop at terminals. V Derating ma / C Electrical life (number of operations) > 0 8 Weight (g) Curves Function La Connections SGS - SGSI Function L To order, see page 6. Dimensions see page 6. 8

59 S/SE timers Percentage timer Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Solid state output Mono-funtion Mono-range-timing fixed Mono-voltage Solid state output 0.7 A at 0 C Percentage timer Fully sealed for protection by encapsulation in polyurethane resin Connection by 6. mm Faston blade terminals Specifications Type Voltage Functions Maximum timing (to be specified or ordering) Features Code SFS V AC 0/60 Hz X T : 60 min / T : 60 min Fixed timing 8 V AC 0/60 Hz X T : 60 min / T : 60 min Fixed timing 0 V AC 0/60 Hz X T : 60 min / T : 60 min Fixed timing 0 V AC 0/60 Hz X T : 60 min / T : 60 min Fixed timing General characteristics Accuracy ± 0 % epetition accuracy (with constant parameters) ± 0. % Variation according to VDE C : ± % C : ± % eset time during timed delay 00 ms eset time after timing 00 ms (SFS) Immunity from micro power cuts < 0 ms Nominal current - I max at 0 C 0.7 A Nominal current - I min ma Maximum admissible current 0 A < 0.0 s Leakage current at 0 o C ma Voltage drop at terminals. V Derating ma / C Electrical life (number of operations) > 0 8 Weight (g) Curves Function X Connections SFS To order, see page 6. Dimensions see page 6. 9

60 S/SE timers Compressor timer Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Solid state output Mono-funtion Mono-range-timing fixed Mono-voltage Solid state output 0.7 A at 0 C Specially suitable for compressors and heat pumps Fully sealed for protection by encapsulation in polyurethane resin Connection by 6. mm Faston blade terminals Specifications Type Voltage Functions Maximum timing Features Code (to be specified or ordering) SASX V AC 0/60 Hz ACC : Anti-short cycle special compressor model 0 min Fixed timing 8 V AC 0/60 Hz ACC : Anti-short cycle special compressor model 0 min Fixed timing 0 V AC 0/60 Hz ACC : Anti-short cycle special compressor model 0 min Fixed timing 0 V AC 0/60 Hz ACC : Anti-short cycle special compressor model 0 min Fixed timing SASC V AC 0/60 Hz ACC : Anti-short cycle special compressor model 0 min Fixed timing 8 V AC 0/60 Hz ACC : Anti-short cycle special compressor model 0 min Fixed timing 0 V AC 0/60 Hz ACC : Anti-short cycle special compressor model 0 min Fixed timing 0 V AC 0/60 Hz ACC : Anti-short cycle special compressor model 0 min Fixed timing SASCB V AC 0/60 Hz ACC : Anti-short cycle special compressor model 80 s - 0 s - 0 s Fixed timing 8 V AC 0/60 Hz ACC : Anti-short cycle special compressor model 80 s - 0 s - 0 s Fixed timing 0 V AC 0/60 Hz ACC : Anti-short cycle special compressor model 80 s - 0 s - 0 s Fixed timing 0 V AC 0/60 Hz ACC : Anti-short cycle special compressor model 80 s - 0 s - 0 s Fixed timing General characteristics Accuracy / : ± 0 % : ± 0 % epetition accuracy (with constant parameters) / : ± 0. % : ± % Variation according to VDE C / : ± % 0 +0 C : ± 0 % eset time during timed delay / : 00 ms eset time after timing ms Immunity from micro power cuts < 0 ms Nominal current - I max at 0 C 0.7 A Nominal current - I min 0 ma Maximum admissible current 0 A < 0.0 s Leakage current at 0 o C 6 ma Voltage drop at terminals / :. V, : 8 V Derating ma / C Electrical life (number of operations) > 0 8 Weight (g) 60 Curves Function ACC Function ACC Function ACC Connections SASX SASC SASCB To order, see page 6. Dimensions see page 6. 60

61 Accessories Code TPe compatible potentiometer for remote setting of timing period Dimensions Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Mounting on symmetrical DIN rail EN 00 Mounting on symmetrical DIN rail EN 00 with accessory : Function and use Protection against voltage surge + 00 V 00 µs Temperature limit operation ( C) Temperature limits stored ( C) Insulation according to standard VDE 00 group C 0 V Approvals in progress L - CSA Conformity VDE 0 0 Protection rating IP0 Connection : Faston 6. mm Mounting : on symmetrical DIN rail mm (EN 00) and on panel by x M screws Other information Non stocked, minimum order quantity 00 units 6

62 Defrost relay for air conditioning and industrial refrigeration NF Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Frost formation monitored by tamperature probe. Choice of defrosting time. Specifications Type Code NF General characteristics Supply voltage V AC 0/60 Hz Maximum frequency variations ± Hz Choice of total compressor operating time before defrosting (using switch min, 0 min, 7 min, 90 min on underside of unit) Defrosting time 0 min ± 0 % Temperature 0 - C Temperature 0 +8 C Probe KTY - kω Length of temperature probe cable.6 m Absorbed power 6 VA Weight (g) elay outputs changeover Type of contacts AgNi - cadmium-free Breaking capacity 000 VA AC resistive ; 80 W Maximum breaking current 8 V AC DC Minimum breaking current 0 ma AC DC Max. breaking voltage 0 VAC Electrical life (number of operations) 0 at 000 VA resistive Mechanical life (operations) 0 x 0 6 Terminals faston type 6. mm Temperature limits (use) according to IEC Casing 0 + C Temperature limits (use) according to IEC Probe C elative humidity (acc. to IEC 68..0) 9 % Temperature limits (stored) for casing and probe acc. to IEC 68../ C Degree of protection (IEC 9) Front face IP 0 Protection (IEC 9) Housing IP 0 Electromagnetic compatibility IEC.. class III IEC 000..////6 level IEC 000..II EN 0 class B Breakdown voltage according to IEC -. kv AC / min / ma / 0 Hz Insulation resistance (IEC.) < 00 M Ω at 00 V DC Shock resistance according to IEC 66-/. with the unit switched off kv / wave. / 0 µs Insulation coordination IEC 66- Dimensions NF Mounting on DIN rail on panel using M screws ,, To order, see page 6 6

63 Connections Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Th Principles 6 B Z Z A A S S +8 C - C t t t ON OFF T= t + t + t 7 0mn B Z Z A A B Auxiliary power supply contact C Compressor control thermostat D Compressor contactor coil E Compressor control F Probe G Power supply H Defrost control Operating principle The NF defrost relay can be used to optimize the operation of the exchanger in air-conditioning or refrigeration unit. Compact in size, and with IP0 protection, it is easy to install using screws or by fixing on a DIN rail. The temperature probe supplied with the NF relay can be disconnected, and should be placed on the exchanger. The standard length of the cable between the probe and the NF relay is.6 m. Other lengths are available to order depending on quantity. With a choice of different defrosting times, the unit is easily adapted to the particular installation conditions. Operating mode In an air-conditioning system, when the surface temperature of the exchanger between the cooling fluid and the air is too low, frost forms on the surface and the exchanger performs less efficiently. Defrosting is then necessary by reversing the cycle or using heating resistors. When the the total operating time of the set reaches time T (eg : 0 min) while the surface temperature of the exchanger is below 0 (- C), the defrost cycle is determined as time t (0 min). The defrost cycle stops before the end of this time period if the temperature of the cold exchanger exceeds 0 (8 C). If pressed for more than seconds, the button on the top initiates a defrost cycle (if the probe temperature is below 8 C). This stops automatically at the end of 0 minutes or immediately if one of the power supply wires (terminals A or A) or probe wires (terminals Z or Z) is disconnected momentarily. 6

64 DIN rail mounted TOP 000 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Multi-function Multi-range Mono-voltage timed changeover + instantaneous contact Elapsed time can be saved mechanically in the event of a break in supply Progress of a cycle displayed Housing for DIN rail mounting Specifications Type elay outputs Functions Voltage Code 6 s - min timed changeover A Multi-function : - - V AC 88 0 instantaneous 8 V AC min - h timed changeover A instantaneous Options 0 7 V AC V AC 88 0 Multi-function : - - V AC V AC V AC V AC 88 0 Code Inverter for DC supply - 8 V Inverter for DC supply 0. 7 V Dimensions B With memory C Without memory B Fixing holes Ø To order, see page 6 6

65 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Precision Precision limit error ± % (± % / 6 s) epetition accuracy ±. % (± % / 6 s) eset time 0.0 s Output specification Timed two-pole Instantaneous single pole Thermal rating 6. A ating (cos ϕ = 0.) 0 operations A - 0 V Function and use Voltage variation at maximum temperature of o C according to IEC 00 Absorbed power-motor VA cos µ 0.7 Operator factor 00 % Temperature limit operation ( C) -0 + C Temperature limits stored ( C) C Environmental protection Tropicalised to IEC Vibration withstand on axes (Veritas standard) G - Hz Dielectric test voltage according to IEC or VDE V - n 60 V 000 V - n > 60 V Insulation according to standard VDE 00 group C 80 V AC - 0 V DC Protection Housing IP 0 Protection Terminal IP 0 Conformity to standards NFC 0 - VDE or ICE Connection : By screws in front face with self-lifting grips Terminal capacity Single-wire (-) x mm Terminal capacity : Multi-wire with self-crimping ferrules (-) x mm Mounting by screw x M Mounting : on symmetrical DIN rail mm (EN 000) Weight (g) 8 Connections Function Function Function Internal layout Curves MA A MS A 8 6 Terminal identification A - A : Supply Timed contact - Instantaneous contact Function Function Function MI A A MS A V +0 % - V - % - 8 V +0 % - 0 V -0 % - 7 V 0 % - 0 V - 0 % - 0 V 0 % MI A 8 6 MS Function : On energisation, chance of contact bounce on instantaneous contact for 0 ms Other information For 60 Hz frequency please consult us 6

66 Standards and approvals Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Our timers are designed according to international recommendations (IEC), American (L), Canadian (CSA) and German (VDE) standards, European standards (EN), etc. Proof of compliance with these standards and recommendations is demonstrated by approval (a symbol or certificate of conformity granted by an accredited body) or by the manufacturer's declaration of conformity (drafted in accordance with ISO/IEC guidelines). We have indicated the principal approvals so far obtained in the table below. Conformity to standards is indicated in the "technical characteristics". Machine safety Our products are compatible with standard EN 600- (IEC 0-) concerning the safety of electrical equipment for machinery. Approval markings National approvals Conformity L ASE CSA BV VDE Switzerland Canada nited States France Germany 66

67 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Panel Panel mounted mounted Timers Timers 67

68 Selection guide Panel-mounted electronic timers Function Output Voltage to 0 VDC to 0 VAC Connection Designation TM 8 A ated current Timing 0.0 s to 00 h Page 7 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) MONO-FNCTION MLTI-FNCTION A A-B-C-W- G-Ac-Bw A-A-H- H-Q-Q- D-Di A-Ab-B-C D-Di-H-T A-B-C D Di-H A-A-AM AMt relays Solid state relays relays relay relay relays VAC/DC 0 VAC 0 to 0 VAC 00 to 0 VAC/DC VDC to 0 VDC to 0 VAC to 0 VDC to 0 VAC VDC / VDC VAC / to 8 VAC 00 to 7 VAC / 0 to 0 VAC VDC / to 8 VAC/DC VAC/DC / 0 to 0 VAC VAC/DC / 8 VAC/DC VAC/DC / 0 VAC VAC/DC / 0 to 0 VAC VDC / to 8 VAC/DC VAC/DC / 0 to 0 VAC VDC / to 8 VAC/DC VDC / 0 to 0 VAC VAC/DC / 0 VAC 8-pin Screw terminals -pin 8-pin -pin 8-pin -pin 8-pin -pin 8-pin -pin 8-pin -pin -pin 8-pin -pin TIME 8 LCD display MBA F mm MBA F mm TM 8 TM 8 X TOP 98 LCD display TIME 8 LCD display TIME 86 LCD display TIME 8 LCD display TIME 8 LCD display A 00 ma 00 ma 0.0 s to 9999 h 0. s to s 0. s to 0 s s to 60 s 0. min to 0 min min to 60 min 0. s to s 0. s to 0 s s to 60 s 0. min to 0 min min to 60 min A 0.0 s to 00 h A 0.0 s to 00 h to 0 VDC L-Li-G-Gi relays to 0 VAC 8-pin TM 8 L A 0.0 s to 00 h Page 8 Page 90 A 0.0 s to h Page 78 8 A 0.0 s to h Page 7 Page 7 Page 7 Page 8 Page 86 8 A 0.0 s to h Page 8 TIME 8 MBA TM 8 TOP 98 TIME 86 68

69 Panel-mounted electromechanical timers Function Output Voltage Designation ated current Model min Max. display time min 0 s min min Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) MONO-FNCTION MLTI-FNCTION A Function -- relay relays relays Output relay 88 6 Single-pole Manual reset VAC / 0 VAC Two-pole 6 A Voltage VAC to 8 VAC 0 to 7 VAC 0 to 0 VAC Manual reset Three-pole Manual reset Designation TOP x 8 ated current A 0 min 60 min 0 min h h 0 h min min 0 min 60 min 0 min h h 0 h min min 0 min 60 min 0 min h h 0 h Timing 6 s to min 6 min to h 6 s to min 6 min to h 6 s to min 6 min to h 6 s to min 6 min to h 6 s to min 6 min to h 6 s to min 6 min to h 8 min 6 min h min h min h 0 min 8 h 0 min min 0 s min 8 min 6 min h min h min h 0 min 8 h 0 min min 0 s min 8 min 6 min h min h min h 0 min 8 h 0 min Connection Screw terminals 8-pin Screw terminals 8-pin Screw terminals 8-pin Screw terminals 8-pin Page 96 Page series 88 6 series series TOP

70 Basic principles Timers Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) A timer is a control component which, after a preset time, energises an output contact. The start of a timing cycle, single or repetitive, is produced by timer energisation or by maintained or pulse control contacts with, as a result, a large number of potential functions. There are two types of presentation: DIN rail mounted Product designed for mounting within a control panel. Panel-mounted Product designed to be fitted on a panel in order to be accessible by the user. There are two types of output: Timed contacts dependent on the value of the set time. Instantaneous contacts operating simultaneously with the energisation or de-energisation of the product in instantaneous fashion (excluding certain cases, for example: memory). Note: Electro-mechanical timers with automatic reset are fitted with: either a standard clutch : during timing, the electro-clutch is energised or a reversed clutch : during timing the electro-clutch is de-energised. Timers with manual reset require "manual" intervention for the commencement of a new cycle which involves resetting the timing selector. Definitions Minimum control contact time This is the minimum pulse time required to effect timing control. eset time (or return) This is the time required at the end of a cycle for resetting the timer to start a new cycle. Accuracy This is the maximum difference between the selected and the actual timing of the cycle chosen. It is expressed as a percentage of the maximum value of the timing range considered within normal operating parameters. Maximum operating current This is the maximum uninterrupted current at which the timer may function permanently within normal operating parameters when the timer contact is closed. Thermal intensity Current limit in continuous duty for a circuit with the highest possible level of current which a previously closed contact circuit can tolerate at all times in specified conditions. Contact rating This is the value of the current that can be switched by a contact in certain specified conditions. Insulation to standard VDE 0 group C, IEC. and IEC 66 Spécifications pour le dimensionnement des lignes de fuite et distance dans l'air du matériel électrique. Protection To IEC 9: classification of the levels of protection obtained by casings, terminal against solid matter against liquids Protection from voltage surge This protection is designed to eliminate voltage peaks generated by the industrial environment. It is generally provided by a varistor, the capacity of which is expressed in joules. Example: joules = 000V x 00 A x µs For circuits with strong electrical interference (over joules) the user should ensure adequate protection. Electromagnetic compatibility Electromagnetic compatibility tests measure the degree of immunity which a piece of equipment shows to various types of disturbance as defined in IEC standards. Controls Quality control Our products are quality controlled systematically during assembly and on completion. The overseeing of control checks in the workshop, the use of collected data and any resulting product assessments form the essential role of Quality Control. All our products undergo a final check, either 00% or on a selective basis according to French standard X 06-0, which provides for a classification of possible defects in three groups : critical, major, minor. Note: According to customer requirements and for certain product ranges which must meet particular requirements expressed in a specification, it is always possible to create or to modify a quality standard on the basis of a normal or special existing product and to vary the level of inspection. It can happen that the tolerance level is set at zero for certain parameters directly linked to the completion of a function for which total success must be assured: a defect is therefore fatal. Such specific requirements do, however, entail a significant increase in product costs. 70

71 Standards and approvals Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Our timers are designed according to international recommendations (IEC), American (L), Canadian (CSA) and German (VDE) standards, European standards (EN), etc. Proof of compliance with these standards and recommendations is demonstrated by approval (a symbol or certificate of conformity granted by an accredited body) or by the manufacturer's declaration of conformity (drafted in accordance with ISO/IEC guidelines). We have indicated the principal approvals so far obtained in the table below. Conformity to standards is indicated in the "technical characteristics". Machine safety Our products are compatible with standard EN 600- (IEC 0-) concerning the safety of electrical equipment for machinery. Approval markings National approvals Conformity L ASE CSA BV VDE Switzerland Canada nited States France Germany 7

72 FNCTIONS : Supply C (Y) : Control contact : Output or load relay T : Timing : indefinite Function B : Timing on impulse one shot On pulse (with constant supply) Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Function A : Delay on energisation Single timing cycle which begins on energisation. The output changes state after timing. relays timed or relay timed and instantaneous Function Ab : One-shot cycle The output changes states at the end of the set time T, for a period T. Both T and T independently adjustable. Function Ac : Timing after closing and opening of control contact After energisation, closure of the control contact causes the timing period T to commence and output relay (or the load) changes state at the end of this interval. When contact C (Y) opens, relay resets after a second timing period T. relays timed or relay timed and instantaneous Function Ad : Delay on energisation by switch (not resettable) After power-up, pressing or holding down the switch starts timing. At the end of timing, the output is energised. The output will be reset the next time the switch is pressed or held down. Function Ah : Flashing single cycle by switch (not resettable) After power-up, pressing or holding down the switch starts timing. At the end of timing,the output is energised. At the end of this second timing, the output falls back to its initial value. Function At : Timing on energisation with memory Provides a cumulative time for contact opening. The output changes states at the end of the set time. relays timed or relay timed and instantaneous / INST T relay C T C / Inst. C / Inst. relay relais C relay C C T T T t T T T T T T T T T t T = t+t After energisation; a pulse ( 0 ms) or a maintained control contact will cause the output to change state which reverts to the rest position at the end of timing. N.B. : this process enables shortening or lengthening of a signal. relays timed or relay timed and instantaneous Function Bw : Pulse output (adjustable) A output relay (or the load) changes state, and remains in the changed-over state for the timing period, both when control contact C (Y) closes and when it opens. relays timed or relay timed and instantaneous Function C : Timing after impulse Delay OFF (with constant supply) After energisation, once the control contact is closed the output state changes. Timing will only begin on the re-opening of this control contact (one shot). elay returns to its initial position at the end of the timing period. relays timed or relay timed and instantaneous Function D ou Di : Flip-flop epetitive cycle which switches the output alternately between the rest and operating position for equal time bases. T + T = T total Function D: the cycle begins with the output in rest position. Pause start. relays timed or relay timed and instantaneous Function Di: the cycle begins with the output in the operating position. Pulse start. relays timed or relay timed and instantaneous Function H : Timing on energisation Interval timer - one shot On energisation, the output changes state, remains in that state for the duration of timing and resets at the end of the single cycle. C / Inst. relay C relay C T C C / inst. T relay C / T T Inst. relay T T / Inst. relay T T T T relay T T T T T T T / Inst. t t T = t+t N.B. This is complementary to function A. relays timed or relay timed and instantaneous / Inst. T 7

73 8 8 8 Function Ht : Delay on energisation with memory Function P : Delayed fixed-length pulse Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Provides a cumulative time for contact opening. On energisation, the output changes state, remains in that state for the duration of timing and resets at the end of the single cycle. relays timed or relay timed and instantaneous Function K : Delay on de-energisation - True delay OFF On energisation, the output changes state. On de-energisation timing commences and the output only returns to the reset condition after timing. relays timed or relay timed and instantaneous Function L : Cyclic timing - Asymmetrical recycler epetitive cycle comprising independent adjustable time bases. Each time base corresponds alternately to a different output state. N.B. : The cycle starts with the output in the rest position. relays timed or relay timed and instantaneous Function Li : Cyclic timing - Asymmetrical recycler epetitive cycle comprising independent adjustable time bases. Each time base corresponds alternately to a different output state. N.B. : The cycle starts with the output in the operating position. relays timed or relay timed and instantaneous Function N : "Safe-guard" At the first control pulse the output is energised. To complete the timing the interval between the two control pulses must be greater than the timing set. Function O : "Delayed safe-guard" On energisation, a first timing sequence occurs and the output changes state. With the closing of the control contact, the output resets and the timing starts, with the output being activated after timing. For the timing to be completed, the interval between the closing of two control contacts must be greater than the timing set. C / C / Inst. relay relay / relay T T t T T t relay T T C C T T T T t T = t+t T t T = t+t T T T Timing begins on energisation. At the end of the timing period output relay (or the load) changes state for a period of approx. 00 milliseconds. Function Pt : Impulse counter (delay on) Calculates the total opening time of a contact. At the end of timing, the output is energised for approximately 00 ms. Function Q : "Star-delta" At the end of timing, the output is not energised. It remains "open" (not conducting) and will only change state after the fixed time of Ti has elapsed. Dwell time selectable Function T : Timing on energisation with memory a - energisation by control signal The timer sums the times for which the control contact is closed (C). eset is by the reset signal (C) only. b - energisation by supply voltage The timer sums the times for which the supply voltage () is on. eset is by the reset signal (C) only Function T : Impulse relay After power-up, pressing or holding down the switch closes the relay. Pressing the switch a second time opens the relay. Function Tt : Timed impulse relay After power-up, pressing or holding down the switch closes the relay and starts timing. The relay opens at the end of timing or when the switch is pressed a second time. Function W : Timing after pulse on control contact After energisation, if the control contact opens it causes output relay (or the load) to change state and timing to start. At the end of the timing period, relay resets to its original state. C C C C T t t P T= t+t T P P = 00 ms T Ti T t 7

74 Analogue TM 8 TM 8 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Multi-function or mono-function Multi-range from 0.0 s to 00 h Multi-voltage to 0 VDC / to 0 V AC Time setting displayed on dial changeover relays A / 0 VAC Display of power and output states by LEDs Housing 8 x 8 mm Specifications Type Functions elay outputs Max. breaking current Supply voltage Connection Code TM 8 A, B, C, W, G, Ac, Bw timed changeover A / 0 VAC 0 VDC Plug-in way VAC TM 8 A A timed changeover A / 0 VAC 0 VDC Plug-in 8 way VAC TM 8 X A, A, H, H, Q, Q, D-Di changeover or timed A / 0 VAC 0 VDC Plug-in 8 way and instantaneous 0 VAC TM 8 L L, Li, G, Gi timed changeover A / 0 VAC 0 VDC 0 VAC Plug-in way Accessories Code -pin connector base pin connector base 6 0 Spring clips (packet of ) Black front face. For grey and other colours please consult us General characteristics Supply voltage n 0 VDC 0 V AC Operating range ± 0 % DC supply - % / + 0 % AC supply Frequency 0 / 60 Hz Power consumption.8 VA / 0 VAC. VA / 0 VAC. VA / VAC 0. W / VDC 0.8 W / VDC Timing ranges ( available options) 0,0, s 0, min. 0, h 0,0 s 0, 0 min. 0, 0 h 0, s 0 min. 0 h 0, 0 s 00 min. 00 h 0 s 00 s epetition accuracy ± 0. % of full scale at C (typical with constant parameters) Temperature drift according to CEI/EN 68 ± 0.0 % of full scale Display accuracy ± % of full scale at C Minimum pulse duration STAT ms Minimum pulse duration GATE 60 ms Minimum pulse duration ESET 60 ms Start-up delay after power cut (STAT linked) 0 ms Output specification Nominal rating x A Nominal insulation voltage 0 VAC ated power (resistive load) 000 VA Minimum current 0 ma Electrical life at I max. 0 V AC resistive (number of operations) 0 Mechanical life (operations) 0 x 0 6 Function and use Display of output state by LEDs Green : power ON, flashing during timing Yellow : ON output ON, OFF output OFF Operating temperature range ( C) -0 + Storage temperature range ( C) Breakdown voltage KV Protection class (IEC 609) - Panel-mounted IP 0 Protection class (IEC 609) - Casing IP 0 Material housing self-extinguishing Weight (g) 0 To order, see page 6 7

75 Dimensions TM 8 / A / X / L 9, 8 6,8 6,, 96,8 8 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Connector base , 7,8 Connections Panel cut-out TM 8 TM 8 A TM 8 X ~ + - ~ TM 8 L Curves ~ + -, 6 B 0 8 Function A (TM 8 A) Delay on energisation 7 8 eset 6,, Function H Timing on energisation 6 ( 7 ) ( 6 8 ) ( ) 0, Start 6 7 Gate 8 9 Gate off start on start ( 7 ) ( 6 8 ) ( ) T T L G T T 8,,, ~ + - ~ Function A Delay on energisation ( 7 ) ( 6 8 ) ( ) Function H Timing on energisation ( 7 ) ( 6 8 ) ( ) T T T T ~ + - ~ Function A Delay on energisation ( 7 ) ( 6 8 ) ( ) Function Q Star-delta ( 7 ) ( 6 8 ) ( ) T T Ti T T Ti T 7

76 Function Q Star-delta Function D-Di Cyclic timing : symetric recycler ( 7 ) ( 7 ) ( 6 8 ) ( 6 8 ) ( ) T Ti T T Ti ( ) T T T T Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Function A (TM 8 ) Delay on energisation ( 0 ) Start ( 6 ) Gate ( ) eset ( 7 ) ( ) ( 8 9 ) Function C Timing after impulse- Delay off with constant supply ( 0 ) Start ( 6 ) Gate ( ) eset ( 7 ) ( ) ( 8 9 ) Function G Cyclic function ( 0 ) Start ( 6 ) Gate ( ) eset ( 7 ) ( ) ( 8 9 ) T t t T= t+t Function Bw Pulse output (adjustable) ( 0 ) Start ( 6 ) Gate ( ) eset ( 7 ) ( ) ( 8 9 ) T T T T T T T t t T T T=t+t T P T P T t P T = t+t t t T P t P = t+t+t T T T t t t t T T T=t+t T=t+t Function B Timing on impulse 0 Start 6 Gate eset 7 ( ) ( 8 9 ) Function L/Li - G/Gi Cyclic timing : asymetrical recycler L Li G Gi ( 0 ) Gate ( ) OFF start / ON start ( 6 ) L /G ( 7 ) ( ) ( 8 9 ) T T T t t T T T T= t+t Function W Timing after impulse on control contact ( 0 ) Start ( 6 ) Gate ( ) eset ( 7 ) ( ) ( 8 9 ) T T t t T T T=t+t Function Ac Timing after closing and opening of control contact ( 0 ) Start ( 6 ) Gate ( ) eset ( 7 ) ( ) ( 8 9 ) T T T t t t t T T T T T=t+t T=t+t Ton Toff Toff Ton Ton Ton Ton Ton t Ton Ton t t t t t t t t t t t t Toff Toff P P t T T t t Toff = Ton = Ton = Toff = Ton = t+t Ton = t+t t+t t+t t+t t+t P=t+t+t P=t+t+t+t 76

77 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

78 TOP 98 digital timers TOP 98 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) elay output digital timer Multi-voltage (voltage range) changeover relay Elapsed time can be saved in the event of a break in supply Optional locking via keyboard of eset key and access to timing values Connection by -pin base Housing 8 x 8 mm Specifications Type Functions elay outputs Supply voltage Nominal rating Code TOP 98 A - Ab - B - C - D - Di - H - T timed changeover / V DC A AC A - Ab - B - C - D - Di - H - T timed changeover /.8 VAC A AC A - Ab - B - C - D - Di - H - T timed changeover 0.7/0.0VAC A AC Accessories Code -pin connector socket pin rear base pin solder-connected plug Asymmetrical adaptor Spring clips Dimensions Panel cut-out B Panel thickness to. mm C Clip for panel-mounting D Positioning screw, 69,, 8 ST ENT 8 CHECK P TOP 98 -pole rear base Panel-mounted 7 7 0, -pin connector socket pin solder-connected plug 6 076, 8,7 0, To order, see page 6 78

79 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Display Number of digits Height of digits 8 mm Precision Timing ranges (7 programmable ranges) s s - 99 min 9 s min min - 99 h 9 min h epetition accuracy (even with variation of temperature) * if start T ON ± 0.00 % ± 0 ms ± 0 ms * Display accuracy ± 0.0 % ± 0 ms eset time by de-energisation 0.0 s eset time by control contact 0.0 s eset time by reset to zero 0.0 s Input specification Control and zero-reset input - By contact Control and zero-reset input - Solid state PNP Level 0 0 V Control and zero-reset input - Solid state PNP Level 0 V Impedance 0 kω ± 0 % Min. control pulse 0 ms Output specification Nominal rating A V AC A V DC Nominal insulation voltage 0 V AC DC Maximum power rating (resistive) 0 VA - 0 W Electrical life at I max., 0 V AC resistive (cycles) 0 Mechanical life (operations) x 0 7 Max. permitted number of operations per hour at A 0VAC resistive 60 Function and use Functions and EEPOM configuration stored for (years) 0 Voltage variation + 0 % - % Immunity from micro power cuts ms Maximum power consumption 0. W/ V DC W/ V DC. VA/ V AC VA/8 V AC 8 VA/ V AC 7 VA/0 V AC Temperatures limits use ( C) Temperature limits stored ( C) Protection class according to NFC C 000-IEC 9-DIN 000 Panelmounted Insulation according to standard VDE 00-IEC group C 0 V AC DC Breakdown voltage according to IEC - kv Test on power supply (IEC-80- level ) kv Test on input signal (IEC-80- level ) kv Damped oscillatory wave (IEC--) kv Impulse voltage (IEC ) kv Electrostatic discharge on face (IEC 80-) kv Degree of protection front face IP 6 Mounting Front panel, by clip Mounting base-mounted on socket Weight (g) 00 Connections u Start B VAC or + VDC C VAC or + 0VDC + ST + 79

80 Curves Function A Delay on energisation Function Ab Cyclic timing Single cycle Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) B without memory C with memory Function B Timing on impulse (one shot) B without memory C with memory Function Di or L Cyclic timing t t B without memory C with memory Function H Timing on energisation t B without memory C with memory t t t t t t t t t t t t t t t t t -7 B without memory C with memory Function C Timing after impulse (delay off) B without memory C with memory Function D or La Cyclic timing t t t t t t t B without memory C with memory Function T Timing on energisation with memory T= t + t t t t t t t B without memory C with memory t t t t t t t t t t t t t t t t t t 80

81 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

82 8/ 8/ 8 digital timers Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) elay output digital timer Multi-range Multi-voltage or relay outputs eset function on panel (Timers 8) Data saved in the event of a break in supply (Timer 8) Access to programming lockable (Timer 8 and 8) p or down timing mode Internal power supply by battery (0 years / 0 C) Specifications Type Functions Connections elay outputs Supply voltage Nominal rating Code Timer 8 A 8-pin plug-in double timed changeover V AC DC x A A 8-pin plug-in double timed changeover 0 V AC x A A 8-pin plug-in double timed changeover 0 0 V AC x A Timer 8 A, B, C, D, Di, H 8-pin plug-in timed changeover VDC/ to 8V ACDC 8 A A, A, AM, AMt -pin plug-in timed changeover or instantaneous V AC/0 to 0V AC x 8 A A, A, AM, AMt -pin plug-in timed changeover or instantaneous VDC/ to 8V ACDC x 8 A A, B, C, D, Di, H -pin plug-in timed changeover V AC/0 to 0 V AC 8 A Timer 8 A, A, AM, AMt -pin plug-in timed changeover or instantaneous V DC / to 8 V AC DC x 8 A A, A, AM, AMt -pin plug-in timed changeover or instantaneous V AC DC / 0 V AC x 8 A A, A, AM, AMt -pin plug-in timed changeover or instantaneous V DC / 0 to 0 V AC x 8 A Accessories Code Asymmetrical adaptor A pin solder-connected plug 6 0 -pin solder-connected plug Spring clips pin connector socket pin connector socket 6 8 -pole rear base Curves Function A Function A Function A T t<t t<t T t<t t<t T Delay on energisation timed relay Delay on energisation timed relay instantaneous relay Delay on energisation timed relays Function AM Function AMt Function B t t Delay on energisation Memory during and after timing. eset T T=t+t t t T T=t+t Delay on energisation Memory during timing. eset Function C Function D Function Di T T T T T T Timing after impulse (delay off) Flip-flop Flip-flop 8-9- Timing on impulse (one shot) T T T T T T Function H T Timing or energisation To order, see page 6 8

83 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Display Number of digits Height of digits 8 mm Precision Timing ranges s / s / 9999 s / 99 mn 9 s / mn / mn 9999 mn / 99 h 9 mn / h / h / 9999 h epetition accuracy (with constant parameters) ± 0.0 % ± 0 ms Display accuracy ± 0.0 % ± 0 ms Min. control pulse 0 ms Maximum reset time by de-energisation during timed delay 0 ms Maximum reset time by de-energisation after timing 0 ms Output specification Nominal rating TIME 8-8 : 8 A AC 8 A DC, TIME 8 : A AC A DC Max. breaking voltage 0 AC 0 V DC Maximum power rating (resistive) TIME 8-8 : 000 VA - 90 W, TIME 8 : 0 VA - 0 W Maximum admissible current A < 0.0 s Minimum current 00 ma Electrical life at I max., 0 V AC resistive (cycles) 0 Max. permitted number of operations at max 0 V AC resistive per hour 600 Mechanical life (operations) x 0 6 Function and use Voltage variation TIME 8 : + 0 % - % Immunity from micro power cuts < 0.0 s Max. absorbed power 0. W / V VA / V 0. W / V. VA / 0 V W / 8 V VA / 0 V Temperatures limits use ( C) -0 C +60 C Temperature limits stored ( C) -0 C +70 C Degree of protection front face IP6 Insulation according to standard VDE 00-IEC group C Protection class according to TE C IEC 9 - DIN 000 Conformity to standards ICE - VDE 0-0 Mounting Front panel, by clip Mounting base-mounted on socket Material Self-extinguishing L 9 grade Vo Weight (g) TIME 8 : 00, TIME 8-8 : 0 8

84 VALID MODE Dimensions Panel cut-out 8 9,7 7, 6 8 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) pole rear base Panel-mounted 7 7 0, pin or -pin solder connected plug , 8,7 0, B Panel thickness to. mm C Clip for panel-mounting D Positioning screw Connector socket -pin pin 6 8 8

85 Connections Timer 8 - -pin Timer 8-8-pin Timer 8 - -pin Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Supply -- Timed output contact 8--6 Timed output contact Timer 8-8 pin Timer 8 - -pin Timer 8-8-pin ~ + B Other loads may be connected in parallel Timer 8 - -pin ~ ~ + ~ Start eset B Other loads may be connected in parallel ~ + -0 Supply (-) Bridge - Control contact or reset -- Timed output contact Timer 8 - -pin ~ / -7 Supply (-7) Bridge -- Timed output contact 8-9- Timed or instantaneous output contact ~ + ~ - B Other loads may be connected in parallel -7 Supply (-8) Bridge -6 Control contact reset -- Timed output contact Start

86 86 digital timers 86 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) elay output Multi-range Multi-voltage relay output Access to programming locked p or down timing mode Internal power supply by battery (0 years / 0 C) Specifications Type Functions Connections elay outputs Supply voltage Nominal rating Code Timer 86 A, B, C, D, Di, H 8-pin plug-in timed changeover V AC DC/8 V AC DC 8 A A, B, C, D, Di, H 8-pin plug-in timed changeover V AC DC/0 V AC 8 A A, B, C, D, Di, H 8-pin plug-in timed changeover V AC DC/0.0 V AC 8 A A, B, C, D, Di, H -pin plug-in timed changeover V AC DC/8 V AC DC 8 A A, B, C, D, Di, H -pin plug-in timed changeover V AC DC/8 V AC DC 8 A A, B, C, D, Di, H -pin plug-in timed changeover V AC DC/0. 0 V AC 8 A Accessories Code Asymmetrical adaptor A pin solder-connected plug 6 0 -pin solder-connected plug pin solder-connected base Spring clips pin connector socket pin connector socket 6 8 -pin rear base Connections Timer pin Timer 86-8-pin Timer pin ~ + ~ - B Other loads may be connected in parallel B Other loads may be connected in parallel -0 Supply (-) Bridge for V supply - Control contact reset -- Timed output contact Timer 86-8-pin -7 Supply (-8) Bridge for V supply -6 Control contact reset -- Timed output contact Start ~ + ~ Start To order, see page 6 86

87 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Display Number of digits Height of digits 7 mm Precision Timing ranges s s 9999 s 99 mn 9 s mn mn 9999 mn 99 h 9 mn h h 9999 h epetition accuracy (with constant parameters) ± 0.0 % ± 0 ms Display accuracy ± 0.0 % ± 0 ms Min. control pulse 0 ms Maximum reset time by de-energisation during timed delay 0 ms Maximum reset time by de-energisation after timing 0 ms Output specification Nominal rating 8 A AC 8 A DC Max. breaking voltage 0 AC 0 V DC Maximum power rating (resistive) 000 VA - 90 W Maximum admissible current A < 0.0 s Minimum current 00 ma Electrical life at I max., 0 V AC resistive (cycles) 0 Max. permitted number of operations at max 0 V AC resistive per hour 600 Mechanical life (operations) x 0 6 Function and use Voltage variation + 0 % - % Immunity from micro power cuts < 0.0 s Maximum power consumption 0. W/ V. W/8 V VA/ V,, VA/8 V VA/0 V VA/0 V Temperatures limits use ( C) Temperature limits stored ( C) Degree of protection front face IP6 Insulation according to standard VDE 00-IEC group C Protection class according to TE C IEC 9 - DIN 000 Conformity to standards ICE - VDE 0-0 Mounting Front panel, by clip Mounting base-mounted on socket Material Self-extinguishing L 9 grade Vo Weight (g) 00 Curves Function A Function B Function C /6 -/6 T T T Delay on energisation timed relay Timing on impulse (on shot) Timing after impulse (delay off) Function D Function Di Function H T T T T T T T T T T T Flip-flop Flip-flop Timing or energisation 87

88 VALID MODE Dimensions Panel cut-out 8 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) ,7 7, 6 -pole rear base Panel-mounted 7 7 0, 7 Connector socket-pin pin pin or -pin solder-connected plug , 0, 8,7 B Panel thickness to. mm C Clip for panel-mouting D Positioning srew 8-pin solder-connected base B holes 8, 7, 9 Ø9,8x0,7 88

89 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

90 MBA Ø panel-mounted timers MBA Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Solid state output Panel-mounted pushbutton-type timer Function A delay on energisation 0 timing ranges : 0.0 s to 60 min Supply V DC and 0 0 V DC AC 0 60 Hz Fast adjustment of timing period on PLCs (compatible with IEC) IP 6 Specifications Type Functions Time ranges Output Supply voltage Nominal rating Code MBAF A 0. s s State 00 0 V AC/DC 00 ma A 0. s 0 s State 00 0 V AC/DC 00 ma A s 60 s State 00 0 V AC/DC 00 ma A 0. min 0 min State 00 0 V AC/DC 00 ma A min 60 min State 00 0 V AC/DC 00 ma MBAF A 0. s s State V DC 00 ma A 0. s 0 s State V DC 00 ma A s 60 s State V DC 00 ma A 0. min 0 min State V DC 00 ma A min 60 min State V DC 00 ma General characteristics Precision epetition accuracy (with constant parameters) +/-0. % Display accuracy ± % Maximum reset time by de-energisation MBAF during timed delay 7 ms Maximum reset time by de-energisation MBAF after timing ms Maximum reset time by de-energisation MBAF after timing 60 ms Maximum reset time by de-energisation MBAF after timing 0 ms Output specification Solid state open collector PNP output Voltage drop at terminals MBAF : V AC MBAF : V DC Nominal rating MBAF : 00 ma at 00C (derating ma/ C) MBAF : 00 ma at 0 C (derating. ma/ C) Leakage current MBAF : ma AC MBAF : 0. ma DC Electrical life (number of operations) > 0 8 Protection against polarity inversions MBAF Protection against load short circuits MBAF Immunity from micro power cuts Function and use Display of output state by LED : output in operation Display of output state by LED : Power on Dielectric strength 00 V / 0 Hz / min ipple ± 0 % Consumption Temperatures limits use ( C) Temperature limits stored ( C) Varistor protection against overvoltage Drift Temperature +/- 0.0 %/ C Drift Voltage +/- 0. %/V Conformity to standards VDE 0 / ICE / ICE / ICE 80 Protection class according to NFC C 000-IEC 9-DIN 000 Panelmounted IP6 Protection class according to NFC C IEC 9 - DIN 000 IP0 Terminal Material housing Terminal capacity Single-wire x mm Terminal capacity Multi-wire with ferrule x. mm Terminal screws M Tightening torque (Nm) 0. Nm Weight (g) 7 To order, see page 6 90

91 Dimensions Panel cut-out, A,mm +0, - 0 Ø9 Ø Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) B Panel C Nut D Sealing ring Connections. 8 mm 7, 0 min. Version 0-0 V DC AC 0-60 Hz Version V DC on relay Version V DC on PLC A A (+) (-) (+) (-) B Load B Load B Input C Output 8 A A 0 min A + E S A - 9

92 Panel-mounted electromechanical timers Top 000 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) elay output Mono-voltage timed changeover and instantaneous contact Elapsed time can be saved mechanically in the event of a break in supply Progress of cycle displayed Housing 8 x 8 mm Connection by screw-terminal base or 8-pin base Specifications Type elay outputs Functions Voltages Code 6 s - mm time changeover A Multi-function - - V AC instantaneous 8 V AC V AC V AC V AC V AC V AC V min - h timed changeover A Multi-function - - V AC - 0 Hz instantaneous VAC 0 Hz V AC - 0 Hz VAC 0 Hz V AC - 0 Hz VAC 0 Hz V AC - 0 Hz VAC 0 Hz Accessories Code Solder tag connector 8-pin pin connector base 6 8 Invertor for DC supply CC 8 V DC Invertor for DC supply CC0 7 V DC Curves Function Function Function On energisation, chance of contact bounce on instantaneous contact for 0 ms. To order, see page 6 9

93 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Precision Precision limit error ± % (± %/6 s) epetition accuracy ±. % (± %/6 s) Selection precision See "timing ranges" table for scale graduation eset time 0.0 s Output specification Timed two-pole Instantaneous single pole Thermal rating 6. A ating (cos ϕ = 0.) 0 operations A - 0 V Function and use Absorbed power--motor VA cos ϕ 0.8 Voltage variation at maximum temperature of o C according to IEC 00 V +0 % - V - % 8 V +0 % - 0 V -0 % 7 V 0 % - 0 V -0 % 0 V 0 % Operator factor 00 % Temperatures limits use ( C) -0 + Temperature limits stored ( C) Environmental protection Tropicalised to IEC Vibration withstand on axes (Veritas standard) G - Hz Dielectric test voltage according to IEC or VDE V - n 60 V 000 V - n > 60 V Insulation according to standard VDE 00 group C 80 V AC - 0 V DC Protection Housing IP 0 Protection Terminal IP 0 Conformity to standards NFC 0 - VDE or ICE 9 Connection : Screw/saddle Terminal capacity Single-wire or leads Multi-wire mm Terminal capacity Multi-wire or leads 0. - mm Mounting : Base mounting on 8-pin socket Weight (g) 8 Dimensions Panel cut-out B Panel depth 0 mm max. C M screw Solder tag connector pin Screw terminal or connector socket pin B Panel depth 0 mm max. Inverter for DC supply : - 8 V DC : 0-7 V DC Weight 0 g B Fixing holes ø 9

94 Connections Function Function Function Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) MA A MS A Internal layout Terminal identification Internal layout 88 6 Terminal identification Supply 8--6 Timed contact - Instantaneous contact 8 6 MI A A MS A A-A Supply -6-8 Timed contact - Instantaneous contact MI A 8 6 MS 9

95 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

96 Panel-mounted electromechanical timers Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Manual reset elay output Mono-function Mono-range Mono-voltage Manual reset Progress of cycle displayed Output :. or changeover contacts (max of 6 A per contact) Mounting option Specifications Type Voltage elay outputs Breaking capacity Version Maximum available timing Dial graduation Code per contact 886 7/0 V AC 0 Hz timed 6 A min min 0 s s min min 0 s min 8 min min min 6 min min 0 s min h min min h h min min h h 0 min 0 min h 8 h 0 min h /0 V AC 0 Hz timed 6 A min min 0 s s min min 0 s min 8 min min min 6 min min 0 s min h min min h h min min 88 6 h h 0 min 0 min h 8 h 0 min h /0 V AC 0 Hz timed 6 A min min 0 s s min min 0 s min 8 min min min 6 min min 0 s min h min min h h min min h h 0 min 0 min h 8 h 0 min h Accessories Code Invertor for DC supply. 8 V Invertor for DC supply 0. 7 V General characteristics Precision Precision limit error ± % Output specification Timed two-pole or or Thermal rating 0 A Mechanical life (operations) > 0 7 ating (cos ϕ = 0.) 0 operations 6 A - 0 V Function and use Voltage variation at maximum temperature of o C according to IEC % - % n Absorbed power--motor. VA cos ϕ 0.8 Operator factor 00 % Temperatures limits use ( C) Temperature limits stored ( C) Environmental protection Protected metal components - Insulated motor coil Vibration withstand on axes (Veritas standard) G - Hz Dielectric test voltage according to IEC - or VDE V - n 60 V Insulation according to standard VDE 00 group C 80 V AC, 0 V DC Protection : terminal IP0 Operating position- any Connection : Tags 6. Connection : Motor leads 0 mm Mounting by screw x M - x M Weight (g) / To order, see page 6 96

97 Dimensions Panel cut-out Inverter for DC supply : - 8 V DC : 0-7 V DC Weight 0 g Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) : L = 7 mm 88 6 : L = 8, mm : L = 9 mm Connections pole poles poles B ed C Blue D White B ed C Blue D White B Fixing holes ø B ed C Blue D White pole poles poles Curves MS poles pole poles poles MS MS MS 97

98 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

99 Control Control relays relays Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

100 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

101 Selection guide PHASE control relays Control function Output relay Operating range Designation Power supply Loss or inversion of one of the phases changeover changeovers x 0 to 0 V AC EWS EWS x 00 to 00 V AC Page 0 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Total phase failure Phase sequence Voltage drop on one or more phases Total phase failure Phase sequence Voltage drop on one or more phases Asymmetry between phases of to % Phase sequence Loss of one or more phases ndervoltage Supply voltage setpoint adjustable by potentiometer Asymmetry between phases of to 0 % Phase sequence Loss of one or more phases with 9% regenerated supply voltage Supply configuration Single-phase Self-powered No Yes changeovers changeovers changeovers changeover changeovers Measurement range 0. to 60 V DC x 0 V AC x 00 V AC x 0 V AC x 00 V AC 80 to 60 V AC 0 to 0 V AC 0 to 60 V AC 0 to 80 V AC 0 to 0 V AC 80 to 0 V AC 60 to 660 V AC 0.8 to. x supply voltage EW EWA FW FWA FWA Designation x 0 V AC x 00 V AC x 0 V AC x 00 V AC x 0 V AC x 80 V AC x 00 V AC x V AC x 0 V AC x 80 V AC x 7 V AC x 0 V AC x 00 V AC x 0 V AC x 00 V AC Power supply V DC V AC EL 0. to 60 V AC/DC 0 V AC to 600 V DC V AC EH to 600 V AC/DC 0 V AC 0. to 60 V DC HD-L V AC 0. to 60 V AC/DC LCD Display 0 V AC to 600 V DC HD-H V AC to 600 V AC/DC LCD Display 0 V AC - ES ESF thresholds (high/low) 0 V AC V DC 0 V AC V DC 0 V AC V DC 0 V AC V DC 0 to 80 V AC/DC 6 to 60 V AC/DC 0 to 80 V AC/DC 6 to 60 V AC/DC Page Page Page Page 6 EWA. mm casing FW mm casing VOLTAGE control relays Page 8 Page 0 Page 0 EL. mm casing HD-L. HD-H 6 mm casing LCD Display -phase Yes - FS - Phase-to-phase control FSN - Control between phase and neutral x 0 V AC x 00 V AC x 0 V AC x 00 V AC Page FS mm casing 0

102 CENT control relays Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Control function ALTENATING current DIECT current ALTENATING and DIECT current Measurement range to 0 A 0 to 00 A With current transformer (optional) to 00 ma 0. to 0 A to 00 ma 0. to 0 A Motor LOAD control relay (Cos. ) Control function Controlling motor under/overload by measuring the phase shift between the voltage and the current ( ) Designation MCI EIT EIL HDI-L LCD Display EIH HDI-H LCD Display Output relay Power supply V AC/DC - 0 to 0 V AC V DC V AC 8 V AC 0 V AC 0 V AC V DC V DC V AC V DC V AC Page Page 6 Page 6 Page 0 Page 6 Page 0 8 V AC EIL 0 V AC Page 6 HDI-L LCD Display 0 V AC V AC 0 V AC 0 V AC V AC Page 0 8 V AC EIH 0 V AC Page 6 HDI-H LCD Display changeovers ( per threshold) Motor NDESPEED control relay Control function Control of motor underspeed, stopping, running speed or jamming. Output relay changeover Motor THEMAL POTECTION relay Control function Control of machine temperatures by integrated PTC probes with line break or probe short-circuit detection. Output relay NO contact Designation FFP Independent adjustment of min. and max. thresholds 0 V AC V AC 0 V AC 0 V AC Power supply x 0 V AC x 00 V AC x 0 V AC x 80 V AC x 7 V AC Page 0 Page Designation Power supply V DC V AC FL 0 V AC Page 6 0 V AC Designation ETM changeover ETM changeovers ETM Power supply V AC/DC 0 V AC 0 V AC V AC/DC 0 V AC 0 V AC V AC/DC 0 V AC 0 V AC Page 8 MCI 7. mm casing EIH. mm casing HDI-L. HDI-H 6 mm casing LCD Display MOTO control relays FFP mm casing FL mm casing ETM. mm casing 0

103 elays for controlling LEVELS of conductive liquids Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Control function Filling O emptying with timing ( or levels: high/low) Filling O emptying ( levels: high/low) Emptying ( or levels: high/low) Combined filling AND emptying ( levels: high/low) Function Control fan speeds in air-conditioning applications For 0 to 00 W asynchronous motor with permanent dephasing via capacitor Sensitivity LOW sensitivity 0 - k NOMAL sensitivity k - 00 k HIGH sensitivity 0 k - M Designation ENM Power supply V AC 0 V AC 0 V AC Page 06 V AC Without alarm Sensitivity k - 00 k EN 0 V AC Page 0 0 V AC V AC With alarm 8 V AC (Overflow or running dry) FN Sensitivity k - 00 k 0 V AC Page 6 0 V AC V AC Sensitivity k - 00 k LN 0 V AC Page 0 0 V AC V AC 8 V AC FN 0 V AC Page Sensitivity k - 00 k 0 V AC V AC LN 0 V AC Page 0 V AC Control voltage 0 / 0 V Page ENM. mm casing FN mm casing LN mm casing Single-phase 00 W variable speed controller Power supply 0 VAC Output relay Current 8 A VT 00 0

104 Level control EN filling or emptying function Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) egulation of two levels (min./max.) Monitoring filling (P) or emptying (DOWN), selected by a switch on the front panel. Probes supplied with AC current. Sensitivity adjustable on front panel from kω to 00 kω. Specifications Type Characteristics Voltages Code EN Monitoring filling (P) V AC Monitoring emptying (DOWN) 8 V AC V AC V AC General characteristics Operating range x n Maximum power consumption VA Adjustable sensitivity kω 00 kω Measurement accuracy (at maximum sensitivity) ± 0 % Electrode voltage (max) V AC (0/60 Hz) Electrode current (maximum) ma (0/60 Hz) Maximum cable capacity 0 nf esponse time high level 00 ms esponse time low level 00 ms Output relay (according to AC resistive load) AgNi changeover relay 8 A AC max. Galvanic isolation via transformer ( kv, 8 mm creepage distance) Class II VDE 0 Isolation of contacts and electrodes from power supply. kv AC Operating temperature range ( C) C Storage temperature range ( C) C Weight (g) 0 Dimensions EN, 7 Connections EN 9 A C Min Max 6 78, A Y 8 6 A A A-A : power supply To order, see page 6 0

105 Principles Monitoring filling or emptying EN Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) n Down p Maximum level Minimum level Output relay : Down or p B C D Other information T Operating principle Monitoring maximum and/or minimum levels of conductive liquids (tap water, sea water, waste water, chemical solutions, coffee, etc). The principle is based on measuring the apparent resistance of the liquid between two submerged probes. When this value is lower than the preset threshold displayed on the unit s front panel, the output relay changes state. To prevent any occurrences of electrolysis, an AC current is passed through the probes. Areas of application include the agri-food, chemical and other industries. Adjusting two levels : Minimum/Maximum The output relay changes state when the level of liquid reaches the maximum electrode, with the minimum electrode submerged. It returns to its initial state when the minimum probe is no longer in contact with the liquid. Note If the power break T lasts for second or more, the relay reenergises instantly when in "P" mode and is de-energised when in "DOWN" mode. The probe cable (maximum length 00 metres) does not have to be screened, but avoid mounting it in parallel with the power supply cables. A screened cable can be used with the screening connected to the common terminal. 0

106 Level control ENM filling or emptying with adjustable time delay Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) egulation of one or two levels (min./max.) Monitoring filling (P) or emptying (DOWN) selected by a switch on the front panel. Probes supplied with AC current. Sensitivity adjustable on front panel from 0 Ω to M Ω. Time delay preventing wave effect adjustable from 0. to s. Specifications Type Characteristics Voltages Code ENM Monitoring filling (P) V AC Monitoring emptying (DOWN) 8 V AC V AC V AC General characteristics Operating range x n Maximum power consumption VA Adjustable sensitivity 0 Ω MΩ Measurement accuracy (at maximum sensitivity) ± 0 % Electrode voltage (max) V AC (0/60 Hz) Electrode current (maximum) ma (0/60 Hz) Maximum cable capacity 0 nf esponse time high level 00 ms esponse time low level 00 ms Output relay (according to AC resistive load) AgNi changeover relay 8 A AC max. Galvanic isolation via transformer ( kv, 8 mm creepage distance) Class II VDE 0 Isolation of contacts and electrodes from power supply. kv AC Operating temperature range ( C) C Storage temperature range ( C) C Weight (g) 0 Dimensions ENM, , A Y 8 6 A To order, see page 6 06

107 Connections Adjusting two levels Monitoring filling "p" S T N S S T N Monitoring emptying "Down" S Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) M B Common C Off D On E Output A-A : power supply Principles Operating principle B Common C Off D Output A-A : power supply General principle : The ENM monitors the levels of conductive liquids. The principle is based on measuring the apparent resistance of the liquid between two submerged probes. When this value is lower than the preset threshold displayed on the unit s front panel, the relay changes state. To prevent any occurrences of electrolysis, an AC current is passed through the probes. A rotary switch on the front panel can be used to select the desired function and sensitivity range. A level can be monitored using the nd rotary switch. In this instance, the max. probe remains above the liquid and an adjustable time delay prevents the wave effect. A green LED indicates that the supply voltage is present. A yellow LED indicates the output relay s state. When the green and yellow LEDs are flashing, this indicates an incompatible adjustment position. otary switch in mode - Activation time - Filling function B Level C elay otary switch in mode - Activation time - Emptying function B Level C elay P A C Min Max A Max. Min. T T T T T T T T M P Monitoring a level, filling function, activation time (level : - on delay, function p LS (Low Sensitivity : 0 W to kw), p St (Standard Sensitivity : kw to 00 kw), p HS (High Sensitivity : 0 kw to MW). When the level of liquid drops below the probe for a period exceeding the value of time delay T set on the front panel, the relay energises and remains on until the level of liquid reaches the probe again. If the level of liquid returns above the level set before the time delay elapses, the relay does not come on. Note When the power returns after a power break, the output relay only energises after time delay T if the level of liquid is below the threshold. Monitoring a level, emptying function, activation time (level : - on delay, function Dwn LS (Low Sensitivity : 0 W to kw), Dwn St (Standard Sensitivity : kw to 00 kw), Dwn HS (High Sensitivity : 0 kw to MW). A C Max A When the level of liquid rises above the probe for a period exceeding the value of time delay T set on the front panel, the relay energises and remains on until the level of liquid drops back below the probe. If the level of liquid drops back below the level set before the time delay elapses the relay does not come on. Note When the power returns after a power break, the output relay only energises after delay time T if the level of liquid is above the threshold. Max. 07

108 otary switch in mode - Deactivation time - Filling function Monitoring a level, filling function, deactivation time (level : - off delay, function p LS (Low Sensitivity : 0 W to kw) or p St (Standard Sensitivity : kw to 00 kw) or p HS (High Sensitivity : 0 kw to MW). Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) B Level C elay otary switch in mode - Deactivation time - Emptying function B Level C elay Monitoring two levels, emptying function B Maximum level C Minimum level D Output relay : Down Monitoring two levels, filling function B Maximum level C Minimum level D Output relay : p Other information T T T T T T T T When the liquid level drops below the probe the relay energises immediately and remains on until the level of liquid reaches the probe again and remains above it for a period exceeding time delay T set on the front panel. If the level of liquid drops back below the level set before the time delay elapses, the relay remains on. Note When the power returns after a power break, the output relay energises immediately if the liquid level is below the threshold. Monitoring a level, emptying function, deactivation time (level : - off delay, function Dwn LS (Low Sensitivity : 0 W to kw) or Dwn St (Standard Sensitivity : kw to 00 kw) or Dwn HS (High Sensitivity : 0 kw to MW). When the level of liquid rises above the probe the relay energises immediately and remains on until the level of liquid drops back below the probe for a period exceeding the value of time delay T set on the front panel. If the level of liquid returns above the level set before the time delay elapses the relay remains on. Note When the power returns after a power break, the output relay energises immediately if the level of liquid is above the threshold. Monitoring two levels, emptying function (level :, function Dwn LS (Low Sensitivity : 0 W to kw), Dwn St (Standard Sensitivity : kw to 00 kw), Dwn HS (High Sensitivity : 0 kw to MW). The output relay remains open as long as the level of liquid has not reached the maximum probe. Once the maximum level is reached the contact closes and the tank can then be emptied (valve opened, pump started, etc). When the level drops below the minimum level the contact opens and interrupts the emptying process. Note : when monitoring two levels the time delay preventing the wave effect is not in operation. Note When the power returns after a power break, the output relay energises immediately if the level of liquid is above the threshold. Monitoring two levels, filling function (level :, function p LS (Low Sensitivity : 0 W to kw) or p St (Standard Sensitivity : kw to 00 kw) or p HS (High Sensitivity : 0 kw to MW). The output relay remains on as long as the level of liquid has not reached the maximum probe. As soon as the maximum level is reached the contact opens and pumping stops. When the level drops below the minimum level the contact closes again and pumping restarts to bring the level of liquid back up. Note : When monitoring the two levels the time delay preventing the wave effect is not in operation. Note When the power returns after a power break, the output relay energises immediately if the level of liquid is below the threshold. The probe cable (maximum length 00 metres) does not have to be screened, but avoid mounting it in parallel with the power supply cables. A screened cable can be used with the screening connected to the common terminal. 08

109 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

110 Level control LN plug-in emptying function Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) elay for controlling level of conductive liquids egulation of two levels : - minimum - maximum Empty function Plug in (8 or pins) Sensitivity adjustable from kω to 00 kω Specifications Type Supply voltage Base Code LN V AC 8-pin V AC 8-pin V AC 8-pin V AC -pin V AC -pin V AC -pin V AC -pin (special base) General characteristics Supply voltage n 0 V, 0 V, 8 V, V AC, 0/60 Hz Operating range 0.8. x n Max. absorbed power VA Adjustable sensitivity kω 00 kω Measurement accuracy (at maximum sensitivity) 0 +0 % Electrode voltage (max) V AC (0/60 Hz) Electrode current (maximum) ma (0/60 Hz) Maximum cable capacity 0 nf esponse time high level 00 ms esponse time low level 00 ms Output relay (according to AC resistive load) AgCdO switch 8 A AC max. Galvanic isolation via transformer ( kv, 8 mm creepage distance) Class II VDE 0 Isolation of contacts and electrodes from power supply. kv AC Temperature limit operation ( C) Temperature limits stored ( C) Weight (g) 0 Dimensions LN, LN Connector sockets -pin: pin : x Ø To order, see page 6 0

111 Connections LN S T B Input C Common D LN -pin E LN 8-pin Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) M Principles P Emptying control n B Max. level C Min. level D Output relay E Down F nit power-up G Controlled level H Empty function Max. Min. T 6 7 Min. Max. 6 7 Operating principle Control of maximum and/or minimum levels of conductive liquids (tap water, sea water, waste water, chemical solutions, coffee etc). The principle is based on measurement of the apparent resistance of the liquid between two submerged probes. When this value is lower than the preset threshold on the unit front face, the output relay changes state. To avoid electrolytic phenomena, an AC current funs across the probes. Applications found in environmental, chemical industries and food technology etc. egulation of two levels : Minimum / Maximum The output relay changes state when the level of liquid reaches the maximum electrode, with the minimum electrode submerged. It returns to its initial state when the minimum probe is no longer in contact with the liquid. Note The probe wire (maximum 00 metres) does not have to be screened, but avoid mounting it in parallel with the power supply wires. A screened wire can be used, with the screening connected to the common.

112 Level control LN plug-in filling/emptying function Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) elay for controlling level of conductive liquids Combined fill and empty functions Combined regulation of pumping out a well and filling a tank Plug in ( pins) Output relay status display LED Sensitivity adjustable from kω to 00 kω Specifications Type Supply voltage Base Code LN V AC -pin V AC -pin V AC -pin V AC -pin (special base) General characteristics Supply voltage n 0 V, 0 V, 8 V, V AC, 0/60 Hz Operating range 0.8. x n Max. absorbed power VA Adjustable sensitivity kω 00 kω Measurement accuracy (at maximum sensitivity) 0 +0 % Electrode voltage (max) V AC (0/60 Hz) Electrode current (maximum) ma (0/60 Hz) Maximum cable capacity 0 nf esponse time high level 00 ms esponse time low level 00 ms Output relay (according to AC resistive load) AgCdO switch 8 A AC max. Galvanic isolation via transformer ( kv, 8 mm creepage distance) Class II VDE 0 Isolation of contacts and electrodes from power supply. kv AC Temperatures limits use ( C) Temperature limits stored ( C) Weight (g) 0 Dimensions LN Connections LN, S T LN Connector sockets -pin: pin : B Push button C Output D Tank E Input F Common G Wells x Ø M P Max Max Min Min 6 To order, see page 6

113 Principles Emptying control Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) n Max. Min. Max. Min. B Push button C Well D Tank E Output relay Operating principle Control of maximum and/or minimum levels of conductive liquids (tap water, sea water, waste water, chemical solutions, coffee etc). The principle is based on measurement of the apparent resistance of the liquid between two submerged probes. When this value is lower than the preset threshold on the unit front face, the output relay changes state. To avoid electrolytic phenomena, an AC current funs across the probes. Applications found in environmental, chemical industries and food technology etc. Combined Fill / Empty function The output relay changes state when the level of liquid in the tank reaches the "max" electrode, with the "min" electrode submerged. It returns to its initial state when the "min" sensor is no longer in contact with the liquid. When the level of liquid in the well reaches the "min" electrode, the pump stops. If, on power-up or after a power break, the "max" electrode in the tank is above the surface, reset the device by pressing the PB pushbutton. Note The probe wire (maximum 00 metres) does not have to be screened, but avoid mounting it in parallel with the power supply wires. A screened wire can be used, with the screening connected to the common.

114 Level control FN filling/emptying function Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Control and automatic regulation of liquid levels. Sensitivity adjustement from to 00 kω. Combined regulation : emptying a well and filling a tank LEDs indicate power supply and state of the output relay. Specifications Type Voltages Code FN VAC VAC VAC VAC General characteristics Power supply characterisitcs Operating range 0.8 to. n except 0 V AC : 0.8 to. n Nominal power VA max. to n + % Maximal power VA to n ; % Immunity from micro power cuts 0 ms Delay on pick-up T = 00 ms esponse time on power-down T = 00 ms Insulation coordination Category III, degree of pollution conforming to IEC 66. / VDE 00 : KV/ Control technical characteristics Sensitivity range k to 00 kω Display accuracy ± 0 % with maximum sensitivity Electrode voltage V AC ( Hz) Electrode current ma Accuracy ± 0 % with maximum sensitivity esponse time on immersion T = 00 ms esponse time on emersion T = 700 ms Output characteristics Output AgCdO changeover Breaking capacity 000 VA - 80 W Maximum breaking current 8 A AC DC Minimum breaking current 00 ma AC DC Max. breaking voltage 0 V AC DC Mechanical life (operations) x 0 6 Electrical life AC 000 VA - 0 operations Electrical life AC Cos ϕ = operations Electrical life AC L/ = 00 ms operations General characteristics Material housing Self-extinguishing Terminal capacity x. mm with ferrule x. mm without ferrule Temperature limit operation (IEC 68..) ( C) Temperature limits stored (IEC 68../) ( C) elative humidity (no condensation) 9 % (+ % ; - %) Weight (g) 0 To order, see page 6

115 Dimensions FN, 77, Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Connections FN Principles n L L L L Max Min Max Min A A B Min Well C Min Tank D P.B. C Min. 00 Min. Max. Max. Max. Min. C M 78, P Max. 89,7 99, Min. C T T T T B Start C Stop D Well or feeder tank E Tank F P.B. A - A : Supply voltage - - : Ouput relay () C - Min - Max : Tank probe inputs C - Min - Max : Well or feeder tank probe inputs Operating principle Control of filling a tank at levels (Min, Max) with simultaneous emptying control of the well or supply tank at levels (Min, Max) in order to protect the pump from draining. The principle is based on measurement of the apparent resistance of the liquid between the submerged probes. To avoid electrolytic phenomena, an AC current runs across the probes. In certain applications, a slight adjustment of the sensitivity enables the detection of undesirable elements such as the presence of foam or surface bubbles or the appearance of leakage impedance between probles (extended line capacity, humidity, etc). Filling / Emptying combined function The output relay changes state (de-energises) when the level of liquid in the tank reaches the Max proble, with the Min probe submerged. It returns to its initial state (reattaches) when the Min probe is no longer in contact with the liquid. When the level of liquid in the well reaches the Min probe, the pump stops (relay unstuck. Protection : prevents the pump from running when empty). If the well Max probe is not submerged on power-up or after a power cut, the device must be reactivated by pressing the pushbutton (P.B.). T : Delay on pick-up T : esponse time on emersion T : esponse time on immersion T : esponse time on power-down

116 Level control FN filling/emptying function with alarm Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Automatic control and regulation of liquid levels. sensitivity ranges. Filling or emptying function selected via dip switch. High or low alarm selected via dip switch. Memory can be selected. LEDs indicate state of power supply, output relay and alarm relay. Specifications Type Voltages Code FN LS 0 VAC FN VAC VAC VAC VAC General characteristics Power supply characterisitcs Supply voltage n 0, 0, 8 and V AC 0/60 Hz galvanic isolation via transformer Operating range 0.8 to. n except 0 V AC : 0.8 to. n Nominal power VA at n Maximal power VA at n + % Immunity from micro power cuts 0 ms Delay on pick-up T = approx. s esponse time on power up T = 00 ms Insulation coordination Category III, degree of pollution conforming to IEC 66. / VDE00 : kv/ Control technical characteristics Sensitivity range FN kω 00 kω Sensitivity range FHLS 0 Ω kω Display accuracy ± 0 % whith at maximum sensitivity Electrode voltage V AC (0/60 Hz) Electrode current ma esponse time on immersion T = 00 ms esponse time on emersion T = 700 ms Output characteristics Output AgCdO changeover Breaking capacity FN LS : 000 VA FN : 80 W Maximum breaking current FN LS : 8 A AC FN : 8 A DC Minimum breaking current FN LS : 00 ma AC FN : 00 ma DC Max. breaking voltage FN LS : 0 V AC FN : 0 V DC Mechanical life (operations) x 0 6 Electrical life AC 000 VA - 0 operations Electrical life AC Cos ϕ = operations Electrical life AC L/ = 00 ms operations General characteristics Material housing Self-extinguishing Terminal capacity x. mm with ferrule x. mm without ferrule Temperature limit operation (IEC 68..) ( C) Temperature limits stored (IEC 68../) ( C) elative humidity (no condensation) 9 % (+ % ; - %) Weight (g) 80 To order, see page 6 6

117 Dimensions FN / FN LS, 77, Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Connections egulating with "up" filling control L L L L Principles Filling control with low alarm n Al. Max Min 7 00 Filling control with high alarm n Al. Max Min M P T A C Min. Max. Al. A T T T T T Al. 78, Al. Max. 89,7 99, A - A : Supply voltage - - : Output relay () - - : Alarm output relay () C - Min - Max - Al. : Probe inputs On power-up, probe AI. is submerged, relays and are energised and the pump is ON : filling starts, the LED for relay is lit. When the level reaches the Max probe, relay de-energises and the pump is OFF : filling stops, the LED for relay goes off. elay re-energises when the Min probe emerges. In the event of a fault (level continues to fall) probe AI. emerges, relay deenergises and the alarm is triggered : the LED for relay is lit. This fault can be stored B Memory OFF C Memory ON T : Delay on pick-up T : esponse time on immersion T : esponse time on emersion T : esponse time on power-down On power-up, the level in the tank is low, relays and are energised and the pump is ON : filling starts, the LED for relay is lit. When the level reaches the Max probe, relay deenergises and the pump is OFF : filling stops, the relay LED goes off. If, in the event of a fault, the level continues to rise and reaches proble AI., relay de-energises and the alarm is triggered : the LED for relay is lit. B Memory OFF C Memory ON T T T T T T : Delay on pick-up T : esponse time on immersion T : esponse time on emersion This fault can be stored. 7

118 Emptying control with low alarm n Max On power-up, probes Min, Max and AI. are submerged, relays and are energised and the pump is ON : emptying starts, the LED for relay is lit. When the Min probe emerges, relay goes off. If, in the event of a fault, the level continues to fall and probe AI. emerges, relay deenergises and the alarm is triggered : the LED relay is lit. This fault can be stored. Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Min Al. T Emptying control with high alarm n Al. Max Min T Programming T T B Memory C Alarm D Function E Low F Emptying G High H Filling T T T T T T 0 OFF ON 6 7 T 0 B Memory OFF C Memory ON T : Delay on pick-up T : esponse time on immersion T : esponse time on emersion On power-up, probes Min, Max are submerged and probe AI. is above the level of the liquid. elays and are energised and the pump is ON : emptying starts, the LED for relay is lit. When the Min probe emerges, relay de-energises and the pump if OFF : emptying stops, the LED for relay goes off. If, in the event of a fault, the level continues to rise and reaches proble AI., relay de-energises and the alarm is triggered : the LED for relay is lit. This fault can be stored. B Memory OFF C Memory ON T : Delay on pick-up T : esponse time on immersion T : esponse time on emersion T : esponse time on power-down Operating principle Control of the level of a conductive liquid at specific points (high and low levels) with an alarm for a level which is abnormally high or low. The principle is based on measurement of the apparent resistance of the liquid between submerged probes. When this value is lower than the present threshold on the unit front face, the output relay and/or the alarm relay change state. The avoid electrolytic phenomena, an AC current runs across the probes. Adjusting sensitivity Set the sensitivity so that the relay will change state when the probes are in contact with the liquid. Then check that the relay returns to its initial position as soon as the probes emerge. In certain applications, fine-tuning the sensitivity prevents inappropriate detection, such as the presence of foam or bubbles on the surface or the occurrence of leakage impedance between probes (extended line capacity, humidity, etc). Note : Latching of the alarm relay in de-energised state if a fault occurs can the programmed via a switch on the underside of the underside of the unit (only when the unit is switched off). To reset alarm relay, cut the power, as long as the levels are reset. Programming The FN level controller can be programmed using switches on the lower panel : Note : Memory, Alarm and Function must only be selected when the unit is switched off. 8

119 Level control Electrode holders and level probes Accessories for level control Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Specifications Type Accessories Operating temperature ( o C) Pressure Code S8 A light, compact, -probe electrode holder (stainless 80 Max. : kg/cm steel). Electrode holder and 000 mm probe. Particularly recommended for drinks vending machines and in cases where installation space is limited. S Electrode holder with a single probe supplied in a 00 Max. : Kg/cm standard length of 000 mm. (0 stainless steel) Mounting with external /8" BSP thread and hexagonal head. se mm. spanner for hexagon. Suitable for use on boilers, autoclaves S7 Protected electrode for mounting by suspension. Protective shell : PC (S7) Electrode : stainless steel Length of cable as requested (ref. C) : S Dimensions Suitable for high pressures and high temperatures. Metal parts of stainless steel, isolated by ceramic. /8" BSP mounting thread S S7 S G /8A 80 Ø Electrode holder with a single probe supplied in a standard length of 000mm. (0 stainless steel). Mounting with external /8" BSP thread and hexagonal head. se mm. spanner for hexagon. Suitable for use on boilers, autoclaves and under high temperature conditions up to 00 C and high pressure conditions up to kg/cm S8 60 Ø Protected electrode for mounting by suspension. Protective shell : PC (S7) Electrode : stainless steel. Length of cable as requested (C) : Max. : Kg/cm C 9, A light, compact, -probe electrode holder (stainless steel). Electrode holder and 000 mm probe. Particularly recommanded for drinks vending machines and in cases where installation space is limited. 6, ,7 9 B 9. Across flats C / width D / width E /8 tapered NPT Suitable for high pressures and high temperatures. For use up to 0 C and kg/cm. Metal parts of stainless steel, isolated by ceramic. /8" BSP mounting thread. Ambiante température : 80 C Max. pressure : kg/cm To order, see page 6 9

120 Phase control Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) EWS / EWS phase sequence and loss of phase Space savings, accurate measurement and optimized functions all improve the efficiency of your electrical installation. Control : You simply install your EWS phase control relay and without any adjustment you can monitor the loss or inversion of one of the phases. Safety : The EWs range enables you to choose the level of safety for your installation by using versions with, or output changeovers. Self-powered : Simple to install, EWS control relays use the controlled mains supply for their own power supply voltage. Specifications Type Output relay Code EWS changeover EWS changeovers General characteristics Operating range VAC Operating range AC V Frequency 0 / 60 Hz +/- Hz Maximum consumption VA Output Output relay or changeovers Type of contacts No cadmium Nominal rating 8 A Maximum breaking voltage 0 V AC Max. voltage 0 V AC Nominal breaking capacity 000 VA Min. breaking current 0 ma / V Electrical life (number of operations) AC : 0 operations at 8A / 0 VAC. Maximum rate (at full load) 60 operations /hour Mechanical life (operations) x 0 7 Pick-up delay T 00 ms Turn-off delay T 00 ms in the event of phase failure Connection capacity - without ferrule x. mm x mm Connection capacity - with ferrule x. mm Max. tightening torque Nm (screw M / IEC 97- Environment Operating temperature range ( o C) Storage temperature ( 0 C) Material housing Self-extinguishing Protection (IEC 609) - Casing IP0 Protection (IEC 609) - Term. block IP0 Dielectric strength (IEC 60-). KV / mn / ma / 0 Hz Insulation coordination (IEC 6066-) Overvoltage category III, degree of pollution Weight (g) 0 Dimensions EWS / EWS 7, 78, 89,7 99, 00 7, To order, see page 6 0

121 Connections Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) EWS EWS EWS Monitoring of three-phase motor. Manual re-engage after disappearance of the fault. L S T L L L L L EWS Principles Timing diagrams EWS B Phase L C Phase L D Phase L E elay Timing diagrams EWS B Phase L C Phase L D Phase L E elay L L L L L L A MA A S T A d B Isolating switch C Contactor D Alarm E Auxiliary power supply for contactor coil and signalling D V W M ~ B Isolating switch C Contactor D Alarm E Auxiliary power supply for contactor coil and signalling Operating principle EWS/EWS relays monitor the correct sequencing of phases L, L and L as well as the loss of one of these phases. When the phase sequence is correct, the output relay is energised, indicated by a yellow LED. The relay de-energises (LED off) if one of the following faults occurs : Incorrect sequence of phases at terminals L, L and L Total loss of one phase or all three phases (loss of phase detection threshold < 0 VAC)

122 Phase control EW / EWA phase asymmetry, sequence, loss or volt drop Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Control : - imbalance (asymmetry) between phases (for EWA) - phase sequence - phase failure - voltage drop on one or more phases Asymmetry rate can be adjusted on front face from - % to + % of n (for EWA) x 0 V AC and x 00 V AC power supply Dual frequency : 0 and 60 Hz. Indication of phase presence relay state by yellow LED Output relay : x 8A changeover. Specifications Type Voltage Code EW 0 V AC V AC 8 87 EWA 0 V AC V AC General characteristics Input Nominal supply voltage range n V AC 0 V V AC 00 V Operating range +/ -0 % de n Frequency 0-60 Hz +/- Hz Maximum consumption 7 VA at n / 0 Hz (0 VA at 60 Hz) VA at n + % / 0 HZ (7 VA at HZ) Output Output relay changeovers Type of contacts No Cadmium Nominal rating 8 A Maximum breaking voltage 0 V AC / 0 V AC Nominal breaking capacity 000 VA Min. breaking current 00 ma / V Electrical life (number of operations) AC : 0 operations at 8 A / 0 V AC Maximum rate (at full load) 60 operations / hour Mechanical life (operations) x 0 7 Fault occurrence time T < 00 ms Fault disappearance time T < 00 ms Connection capacity - without ferrule x. mm x mm Connection capacity - with ferrule x. mm Max. tightening torque Nm (vis M / IEC 97-) Environment Operating temperature range ( o C) Storage temperature ( 0 C) elative humidity (no condensation) 9 % H Material housing Self-extinguishing Protection (IEC 609) - Casing IP0 Protection (IEC 609) - Term. block IP0 Dielectric strength (IEC 60-). KV / mn / ma / 0 Hz Insulation coordination (IEC 6066-) Overvoltage category III, degree of pollution : KV / Vibration (IEC ) Amplitude : 0. mm peak Frequency : 0- Hz Weight (g) 0 To order, see page 6

123 Dimensions EW, 6, EWA, 6, A Y A Y Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Connections EW Principles EW / EWA 00% 0% 00% 0% 00% 0% -/- -/- L L L V W B Phase L C Phase L D Phase L E elais 9 L L L EW T T T T T T T T A EWA L L L V W L L L 7 EWA Operating principle EW relays monitor the correct sequencing of phases L, L and L as well as a regeneration rate of 90 % : -0 % of n for EW relays. When the phase sequence is correct, the output relay is energised, indicated by a yellow LED. The relay de-energises (LED off) if one of the following faults occurs : - Incorrect sequence of phases at terminals L, L and L, - Voltage drop on one or more phases. Operating principle EWA relays monitor the correct sequencing of phases L, L and L as well as asymmetry rate of - to -% of n for EWA relays. When the phase sequence is correct, the ouptut relay is energised, indicated by a yellow LED. The relay de-energises (LED off) if one of the following faults occurs: - Incorrect sequence of phases at terminals L, L and L - Voltage drop on one or more phases A

124 Phase control FW phase sequence, loss or volt drop Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Controls : - phase sequence - loss of one or more phases - undervoltage Control power from sensed circuit Potentiometer for adjusting network voltage Time delay in the event of a fault adjustable : 0. to 0 s x 8 changeover relay outputs Voltage and relay indication via LEDs Specifications Type Voltages Setting range Code FW x 0 VAC V AC x 80 VAC 0-0 V AC x 00 VAC 0-60 V AC x VAC 0-80 V AC x 0 VAC 0-0 V AC x 80 VAC 80-0 V AC x 7 VAC V AC General characteristics Technical specifications Supply Self-powered L - L terminals Operating range 0.7. x n Frequency (Hz) 0 / 60 Hz Consumption 6 VA max. Immunity from micro power cuts 0 ms Delay on pick-up 00 ms Insulation coordination Category III Degree of pollution according to IEC 66-, VDE 00 : KV/ Input circuit Measurement input resistance KΩ x n egeneration rate max 70 % of preset threshold nder-voltage detection (symmetrical drop) AC 0 % of preset threshold Threshold display accuracy ± 0 % Output circuit Output relay AgCdO changeovers Breaking capacity 000 VA AC - 80 W DC Maximum breaking current 8 A AC DC Minimum breaking current 00 ma AC DC Max. breaking voltage 0 V AC DC Electrical life (A) AC : 000 VA - 0 operations AC : cos ϕ = operations DC : L/ = 00 ms operations Mechanical life (operations) x 0 Maximum rate (at full load) 60 operations/h General characteristics Time delay in the event of a fault 0. to 0 s (0 + 0 %) Display voltage presence green LED Display elay yellow LED Housing Self-extinguishing Terminals without ferrule x. mm Terminals with ferrule x. mm Terminals Tightening 0.6 mn max. Temperature limit operation ( C) Temperature limits stored ( C) elative humidity (no condensation) 9 % Vibration Amplitude 0. mm Vibration Frequency 0 - Hz Insulation resistance > 00 MΩ sous 00 V Approval L and cl File E 87 Dielectric strength kv at ma for minute/0hz Weight (g) 0 To order, see page 6

125 Dimensions FW,6 77, Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Connections FW B Isolating switch C Contactor D Alarm E Auxiliary power supply Principles FW 7 A MA (L) V (L) W (L) / A S T A d 00 D 0% 0% 0% S T V W M ~ T T T 78, 89,7 99, FW Monitoring of three-phase motor. Manual re-engage after disappearance of the fault. B Isolating switch C Contactor D Alarm E Auxiliary power supply for contactor coil and signalling FW V W L L L Terminal identification L-L-L -phase network being monitored -- Output relay -- Output relay Operating principle In a -phase network, the FW simultaneously monitors phase sequencing, loss of phase with a maximum regeneration rate of 70 % of the voltage displayed by a potentiometer on the front face, and symmetrical voltage drop on the phases of less than 0 % of the preset value. When the phases succeed on another, the output relay is activated and indicated via a yellow LED. The output relay de-energises (LED off) after a time delay T, adjustable between 0. and 0 seconds on the front face, if one of the following faults is present : - reversed direction of phase rotation, - absence of one or more phases, - volgage drop. ~ Note : Time delay T is not operational during loss of L and L. It operates during loss of L, phase inversion or voltage drop. Its role is to prevent spurious triggering of output relays during transient states, notably during motor starting.

126 Phase control FWA/FWA phase asymmetry self-powered Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Controls : - imbalance (asymmetry) between phases, - phase sequencing - loss of phase with regeneration of 9 % of n. Asymmetry rate adjustable on front face ( % to 0 %). Supply on -phase networks x 0 V AC and x 00 V AC. Dual frequency : 0 and 60 Hz. Presence of phases and state of relay indicated via LEDs. Delay in the event of a fault adjustable from 0. to 0 seconds. Output relay : 8A changeover. Specifications Type Output Supply voltage Code FWA relay x 0 VAC x 00 VAC FWA relays x 0 VAC x 00 VAC 8 87 Principles FWA / FWA 6 00 % 0 % 00 % 0 % 00 % 0 % 00 % 0 % T T T T T T T B Phase L C Phase L D Phase L E Asymmetry F Threshold asymmetry rate G / Output relay (yellow LED) H Hysteresis T : Delay in the event of a fault T : Delay on power-down T : Delay on power-up T T L L 7 Operating principle The device is self-powered by two phases. A green LED indicates the presence of the power supply voltage. When the phase sequence is correct and the asymmetry rate is lower than the threshold displayed on the front face, the ouput relay is energised, indicated by a yellow LED. The output relay de-energises after a delay T, adjustable from the front face, if one of the following faults is present : - incorrect phase sequence, - absence of L, - asymmetry rate higher than the threshold displayer. This imbalance represents the increase or decrease in the voltabe of two phases compared to the voltage of a different phase. The ouput relay de-energises instantaneously in the event of a break on L or L. A hysteresis fixed at approximately 0 % ensures bounce-free relay switching around the threshold. As differential measurement is used, the FWA does not react to symmetrical increases of decrases in the network. To order, see page 6 6

127 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Technical specifications Auxiliary power supply Auxiliary voltage (self powered from terminals L and L) 0 V AC, 00 V AC Operating range 0.8. x n Frequency (Hz) 0-60 Hz Consumption VA max. to n/8 VA to n &plus ; 0 % Immunity from micro power cuts 0 ms Delay on power-up T s max. Delay on power-down T 00 ms max. Insulation coordination Installation category III, Degree of pollution, conforming to IEC 66-, VDE 00 : KV/ Input circuit -phase network Nominal voltage FWA: x 0 V AC FWA: x 00 V AC -phase network Operating range FWA: 8 to 7 V AC FWA: 0 to 80 V AC Frequency (can be altered via switch underneath device) 0 and 60 Hz egeneration rate Maximum 9 % n Adjustment of asymmetry rate to 0 % n Threshold display accuracy (in accordance with VDE0) ± 0 % at full scale Temperature drift 0. % / o C epetition accuracy ± % at full scale Fixed hysteresis 0 % of displayed threshold Output circuit Output volt-free changeover relay Type of contacts AgCdO Breaking capacity 000 VA - 80 W DC Max. breaking current 8 V AC DC Max. breaking voltage 0 V AC DC Min. breaking current 00 ma AC DC Electrical life AC 000 VA - 0 operations Electrical life AC Cos ϕ = operations Electrical life AC L/ = 00 ms operations Maximum rate 60 operations / hour at full load Mechanical life (operations) x 0 6 General characteristics Time delay in the event of a fault T 0. to 0 s ( %) Display Powr supply green LED Display elay yellow LED Class of protection (9) - Term. block IP 0 Class of protection (IEC 9) - Casing IP 0 Material housing Self-extinguishing Mounting Panel or DIN-rail mounted Weight (g) 60 Tightening capacity of terminals x. mm with ferrule, x. mm without ferrule Tightening torque (M screw / IEC 97.) 0.6 Nm max -0 C +60 C Temperature limits stored (IEC 68../) C -0 C +70 C elative humidity (acc. to IEC 68..0) 9 % ( + % - %) no condensation Vibration (IEC 68..6) Amplitude 0. mm Vibration (IEC68..6) Frequence 0 to Hz Insulation resistance (IEC.) > 00 mω at 00 V DC Breakdown voltage according to IEC -. KV / mn / ma / 0 Hz Impulse voltage (IEC. /66.) KV / Wave. - 0 µs Dimensions FWA/FWA, ,, 89,7 99, 00 7

128 Connections Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) FWA/FWA FWA/FWA FWA/FWA Monitoring of three-phase motor. Manual re-engage after disappearance of the fault. S T S T S T FWA/FWA A MA Y S T d B Isolating switch C Alarm D N A MA S T A S T A d B Isolating switch C Contactor D Alarm E Auxiliary power supply V W M ~ D V W M ~ B Isolating switch C Contactor D Alarm E Auxiliary power supplu for contactor coil and signalling 8

129 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

130 Control with LCD display - Voltage - Current HD / HDI Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Displays the current value and the preset value on LCD Controls AC and DC signals (automatic detection) Selectable overload or underload mode Threshold and hysteresis can be adjusted separately Memory function in case of fault Delay on threshold crossing Specifications HD - L HD - H HDI - L HDI - H Measurement ranges 0. to 60 V to 600 V to 00 ma 0. to 0 A Supply voltage DC VAC VAC VAC Input circuits Input resistance Maximum permanent voltage at 0 oc Peak overload < ms at 0 oc E-M : 0. - V E-M : - 0 V E-M : 6-60 V E-M : kω E-M : 0kΩ E-M : 60kΩ E-M : V E-M : 0 V E-M : 0 V E-M : 0 V E-M : 00 V E-M : 00 V E-M : - 0 V E-M : 0-00 V E-M : V E-M : 00 kω E-M : 00 kω E-M : 60 kω E-M : 00 V E-M : 0 V E-M : 60 V E-M : kv E-M : kv E-M : kv E-M : - 0 ma E-M : 0-00 ma E-M : 0-00 ma E-M : Ω E-M : Ω E-M : 0, Ω E-M : 0 ma E-M : 00 ma E-M : A E-M : A E-M : A E-M : 8 A E-M : 0, - A E-M : 0, - A E-M : - 0 A E-M : 0, Ω E-M : 0,0 Ω E-M : 0,0 Ω E-M : A E-M : 0 A E-M : A E-M : 7 A E-M : 0 A E-M : 0 A Max. line voltage Mains 77 / 80 VAC Mains 77 / 80 VAC Mains 77 / 80 VAC Mains 77 / 80 VAC Dimensions HDI / HD A A 6 E E E M Non available in Germany Non available in Germany 0

131 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Supply Supply voltage 0, 0, V AC - 0 / 60 Hz V DC no galvanic isolation protected against polarity reversal Operating range 0.8 to.0 x n Maximum power consumption VA at 0, 0 and V AC W at VDC Immunity from micro power cuts 0 ms Delay on pick-up 00 ms Insulation coordination Category III Degree of pollution according to IEC 66- VDE 00 : KV/ Output circuit Output AgCdO changeover relay - A - 0 V Minimum current 00 ma Mechanical life (operations) x 0 6 Maximum rate 60 operations / h at full load Electrical life (A) AC : 0 VA - 0 operations AC : cosϕ = operations DC : L/ = 00 ms operations General characteristics Delay on threshold crossing 0. to sec ± 0 % Display on LCD elay status OVE or NDE mode Memory function Type of signal (AC or DC) Measurement overflow Class of protection (9) - Term. block IP 0 Protection class (IEC 9) - Panel-mounted IP 0 Class of protection (IEC 9) - Casing IP 0 Material housing Self-extinguishing Weight (g) 60 Terminal capacity x. mm with ferrule x. mm without ferrule Tightening 0.6 mn max. Temperature limits used ( C) o C Temperature limits stored ( C) C elative humidity (no condensation) 9 % (+ % - %) Dielectric strength CEI.,. KV / min / ma / 0 Hz Hysteresis Adjustable from to 0 % of threshold Frequency of measured signal 0 00 Hz Threshold display accuracy ± 0 % epetition accuracy (with constant parameters) ±0. % Drift Temperature ±0.0 % / C Drift Voltage 0. %

132 Connections Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) HDI / HD HDI A MA ~ + ~ - (+) A A E (+) (+) E (+) E M(-) A E E E d Y Y M A DC (-) >< (-) OV D N S T V W M ~ HD ~ + ~ _ (+) S A E E E DC M A (-) (-) OV B AC or DC voltage to be controlled L L

133 Principles Operating principle These devices are designed to control an AC or DC electrical signal : voltage using HDs, current using HDIs. The threshold and hysteresis can be adjusted separately via two potentiometers on the front face. Before powering up the device, the operating mode should be selected using two dipswitches located under the device (with/without memory, over/under value). The mode is validated when power is applied to terminals A - A. The signal to be monitored is connected between terminals E, E, or E (depending on the range) and terminal M. Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Control of voltage (HD) or current (HDI) without memory B Threshold C Oper. Overload D Threshold E Oper. nderload F Hysteresis When the value of the controlled signal, AC or DC, reaches the threshold set on the front face, the output relay opens (failsafe) at the end of time delay T. It closes immediately when the signal goes below (or above in under value mode) the threshold minus hysteresis (plus hysteresis in under value mode). Notes Control of voltage (HD) or current (HDI) with memory T T T T 6 6 The threshold crossing time delay T, which can be adjusted on the front face from 0. to sec, ensures immunity to transients and other inferference, thus preventing spurious triggering of the output relay. In "under value" mode, the absolute value of the hysteresis cannot be more than the maximum of the measurement range. When the threshold is reached, the output relay opens at the end of time-out T and remains in that position. To reset the relay, the supply must be cut. This operating mode enables the detection of over or under values of short duration. B Threshold C Oper. Overload D Threshold E Oper. nderload F Hysteresis G Memory

134 Current control MCI AC current control Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Current transformer fitted by passing a cable through the front AC current threshold adjustable from to 0 A AC (0 Hz to 00 Hz) via button on front elay output A - 0 V AC - N/O contact. Multivoltage power supply : 0 to 0 AC 0-60 Hz V AC DC 7. mm casing clips on symmetrical DIN rail Specifications Type Supply voltage Code MCI V AC DC / 0-0 VAC General characteristics Characteristics Supply voltage n V AC DC/0-0 V AC Frequency (Hz) 0 / 60 Hz Operating range ± % for V AC DC - % to 0 % of 0 V to 0 VAC Maximum consumption VA to VAC 9 VA to 0 VAC 0.6 W to VDC Drift Temperature 0.06 % / o C epetition accuracy 0. % elative humidity 9 % H Input Measured current range from A to 0 sinusoidal Frequency range of measured current from 0 Hz to 00 Hz Display accuracy ± 0 % of the max. scale value Switching hysteresis % of the value displayed Maximum permanent current 0 A Accidental overload current 00 A / s esponse time to sensing T 00 ms ± 0 % esponse time to sensing T 0 ms ± 0 % Delay on pick-up T 00 ms maximum Output circuit Output One normally open contact Breaking capacity 0 VA Maximum breaking current A AC DC Minimum breaking current 0 ma AC DC Max. breaking voltage 0 V AC DC Electrical life (A) 0 operations to 0 VA resistive Mechanical life (operations) 0 x 0 6 Type of contacts AgCdO Tightening capacity of terminals x. mm with ferrule or x. mm without ferrule Temperature limit operation ( C) -0 C +60 C Temperature limits stored ( C) -0 C +70 C Weight (g) 80 Dielectric strength. KV / mn / ma / 0 Hz (CEI.) Non available in Germany To order, see page 6

135 Dimensions MCI 7, Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Connections MCI A - A : Power supply VAC A - A : Power supply 0 VAC Principles MCI A-A 0 0 I (+) (-) Ø, 6,8 A A T 8, I,7 A T B threshold C elay D Amplitude of measured current E Hysteresis = Threshold - % F Closed G Open T 8, Operating principle The relay contact ( and ) closes if the current is greater than the threshold. The relay contact ( and ) opens if the current is less than % (hysteresis) of the threshold. Note : Delay on pick-up (T) 00 ms maximum. esponse time to sensing (T) 00 ms ± 0 %. esponse time to turn-off (T) 0 ms ± 0 %. The graduated set-point scale on the front relates to sinusoidal or delta current measurement. The MCI can measure non-sinusoidal currents, for example currents subject to phase control. In this case, the display may be affected by an error coefficient which is a function of the tripping angle of the phase controller (form factor).

136 Current control EI AC/DC current control Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Space savings, accurate measurement and optimized functions all improve the efficiency of your electrical installation. Control : Select Over-current or nder-current control mode, by means of a dip switch on the underside of the unit. Safety : Choose whether or not to activate the fault memorisation function, and set the threshold crossing delay T and the inhibit time delay T in the same way. In addition, AC/DC mode is detected automatically. Accuracy : products, EIL, EIH or EIT enable you to choose the best product for greater accuracy of measurement, provided by a microcontroller. Specifications EIL EIH EIT Supply voltage V DC V AC V AC V AC V AC Measurement range 00 ma 0. 0 A 0 00 A with current transformer Inputs Sensitivity Input resistance Accessories E-M E-M E-M E-M : 0 ma E-M : 0 00 ma E-M : 0 00 ma E-M : Ω E-M : Ω E-M : 0. Ω E-M E-M E-M E-M : 0. A E-M : 0. A E-M : 0 A E-M : 0. Ω E-M : 0.0 Ω E-M : 0.0 Ω E-M 0 00 A Code Current transformers for EIT 00 A / 0 ma General characteristics Supply voltage n 0 V, 0 V, 8 V, Va 0 / 60 Hz (galvanic isolation by transformer) V DC (No galvanic isolation). In this case, the product power supply and measuring circuit power supply must be electrically isolated. Operating range 0.8. n Maximum power consumption VA AC W DC Frequency of measured signal 0 00 Hz Adjustable hysteresis 0 % of the displayed threshold Threshold value 0 00 % of the measurement range Display accuracy of the preset threshold ±0 % epetition accuracy with constant parameters ±0. % Drift Voltage ±0. % (±0 % n) Drift Temperature ±0.0 % Delays on power up (T) s 0 s ±0 % Delay on energisation T 0. s s ±0 % Delay on pick-up 00 ms Output relay changeover AgNi, 8A AC max Temperature limit operation ( C) Temperature limits stored ( C) Weight (g) 0 0 Ω To order, see page 6 6

137 Dimensions EIL / EIH / EIT, 6, A Y Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Connections EIL / EIH Principles 9 AC/DC control with memory n (+) (-) A A E (+) E (+) M (-) B Threshold C Hysteresis D PPE function E NDE function F nit power-up G Controlled current H Memory E (+) AC/DC control without memory n T T T T T T I T T T A T T T EIT A A E (+) M (-) A - A : Supply voltage Operating principle AC/DC control without memory When the value of the controlled current, either AC or DC, reaches the threshold displayed on the front face, the output relay changes state at the end of time delay T. It returns instantly to the initial state when the current drops below the hysteresis threshold, or when the power supply is disconnected. AC/DC control with memory The output relay changes state at the end of time delay T and remains latched in this position. To reset the memory function the auxiliary supply must be disconnected. Over-current function (PPE) The time delay on energisation T prevents current peaks due to motor starting. The delay on upward crossing of threshold T provides immunity to transients and other interference, thereby preventing spurious triggering of the output relay. nder-current function (NDE) The time delay on energisation T prevents the occurrence of current troughs. The delay on downward crossing of threshold T provides immunity to random dips, thereby preventing spurious triggering of the output relay. Note : In underload function, the absolute value of the hysteresis cannot be greater than the measurement range maximum. B Threshold C Hysteresis D PPE function E NDE function F nit power-up G Controlled current I T T T T 6 7

138 Voltage control EL/EH AC/DC voltage control Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Voltage monitoring relays to cover 6 ranges of measurement : 0.V to 600V Automatic recognition AC/DC Frequency up to 00 Hz Specifications EL Supply voltage V DC V AC V AC V AC Measurement range V 600 V Input Sensitivity Input resistance General characteristics E-M E-M E-M E-M : 0, to V E-M : to 0V E-M : 6 to 60V E-M : kω E-M : 0kΩ E-M : 60kΩ EH E-M E-M E-M E-M : to 0V E-M : 0 to 00V E-M : 60 to 600V E-M : 00kΩ E-M : 00kΩ E-M : 600kΩ Supply voltage n V, 0 V, 0 V, 0/60 Hz (galvanic isolation via transformer) V (no galvanic isolation). In this case, the product power supply and measuring circuit power supply must be electrically isolated. Operating range 0.8. n Maximum power consumption VA / W Frequency of measured signal 0 00 Hz Threshold e Adjustment from 0 to 00 % of the measurement range Hysteresis Adjustment from to 0 % of the displayed threshold Display accuracy ± 0 % of the full scale Delay on energisation T 0. s ±0 % Output relay AgNi changeover, 8 A max Temperature se ( C) Storage temperature ( 0 C) Dimensions EL / EH, , A Y 8 6 A To order, see page 6 8

139 Connections Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) EL (+) (-) A A A - A : Supply voltage Principles E (+) E (+) M (-) E (+) Control of AC/DC voltage without memory n Control of AC/DC voltage with memory n T T T T EL / EH ~ + B Supply voltage to be monitored When the value of the controlled voltage, AC or DC, reaches the treshold e displayed on the front face, the output relay changes state at the end of a time delay T, which can be set on the front face at between 0. and s. Once the voltage drops below to 0 % of the treshold (hysteresis), the output relay changes state again instantly. Changing the hysteresis onthe front face does not therefore modify the value of the preset treshold. B Treshold e C Hysteresis D PPE function E NDE function F nit power-up G Controlled voltage When the value of the controlled voltage, AC or DC, reaches the treshold e displayed on the front face, the output relay changes state at the end of a time delay T, which can be set on the front face at between 0. and s and remains latched in this position. B Treshold e C Hysteresis D PPE function E NDE function F nit power-up G Controlled voltage H Memory ~ _ S (+) A E E E DC M A (-) (-) OV L L 9

140 Voltage control ES/ESF AC/DC voltage control with memory function Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Control their own supply Automatically detect the AC or DC signal ES for the control of over/under voltage (selectable) ESF for the control between values (window function) Fault memory selectable Specifications Supply voltage V DC V AC/DC V AC/DC Supply voltage Threshold e ES 7. to 8 V DC to 0 V AC/DC 0 to 7 V AC/DC with protection against connection errors Direct adjustment 9.6 to.6 V DC 0 to 80 V AC/DC 6 to 60 V AC/DC ESF 0 to 80 V AC/DC 6 to 60 V AC/DC with protection against connection errors Adjustable from 0 to 80 V AC/DC 6 to 60 VAC/DC Hysteresis Adjustment from to 0 % Fixed % Display Green LED : SupplyFixed yellow LED : relay state over voltagehigh LED : elay state Fixed yellow LED : elay state over voltagefalshing yellow LED : elay state undervoltage General characteristics Maximum power consumption 0. W at V DC 0. VA at 80 V and 60 VAC. W at 80 V and 60 V AC Frequency of measured signal 0/60 Hz Display accuracy (of the full scale) ± 0 % Delay on upward crossing of threshold 0. s ± 0 % Output relay AgNi changeover 8 A max Temperature se ( C) Storage temperature ( 0 C) Dimensions ES / ESF, , A Y 8 6 A To order, see page 6 0

141 Connections ES / ESF ES / ESF (+) A + ~ A Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) (-) Principles ES: voltage control without memory n B Threshold e C Hysteresis D PPE function E NDE function F nit power-up G Controlled voltage ES: voltage control with memory n ESF n A T T T T B High threshold C Low threshold D nit power-up E Hysteresis F Controlled voltage T T ~ B Supply voltage to be monitored Operating principle ES - The operating principle of the ES control relays is identical to that for the E control relays. Two operating mode are available : - AC / DC voltage control without memory - AC / DC voltage control with memory Note : Time delay T on crossing the upper and lower thresholds provides protection to transients, thus preventing spurious triggering of the output relay. B Threshold e C Hysteresis D PPE function E NDE function F nit power-up G Controlled voltage H Memory Operating principle A ESF - The ESF window threshold relay controls an electrical voltage which acts as its own power supply (simplified wiring). When the value of the controlled voltage, AC or DC, goes outside the window, the output relay de-energises at the end of a time delay T which can be set on the front face at between 0. and s. It switches back on when the voltage returns within the window and stays between the upper and lower thresholds displayed by two potentiometers on the front face. Fixed hysteresis ensures bounce-free relay switching around the threshold. Note : Time delay T on crossing the upper and lower thresholds provides protection to transients, thus preventing spurious triggering of the output relay.

142 Voltage control FS / FSN -phase voltage control Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Controls over- and undervoltages on own power supply (window-type). FS : phase-to-phase / FSN : phase and neutral. Minimum and maximum thresholds can be adjusted separately Detects absence of neutral on FSN. Delay on crossing upper or lower threshold adjustable between 0. and 0 sec. on front face. yellow LEDs indicate over- and undervoltages. green LED indicates presence of power supply. output relays : high and low threshold. separate time delays. Specifications Type Supply voltage Lower treshold pper treshold Code FS x 0 V AC 9 to to x 00 V AC 0 to 9 08 to FSN x 0 V AC to 0 to x 00 V AC 9 to to General characteristics Power supply characterisitcs Supply voltage n on terminals L - L 0 and 00 V AC ± 0 % -0 / 60 Hz Power (W) VA maximum to n 8 VA maximum to n +0 % Delay on pick-up Approximately s Immunity from micro power cuts 0 ms Insulation coordination Instalation category III, degree of pollution conforming to IEC 66. / VDE 00 : KV/ Control circuit characteristics Adjustment of upper threshold 0 to % of n Adjustment of lower threshold 8 to 98 % of n Fault delay 0. to 0 sec (0, +0 %) Hysteresis Approximately % Display accuracy ± 0 % epetition accuracy upper threshold : 0.06 %, lower threshold : 0.09 % Drift Temperature ± 0.0 % / o C Output characteristics Output AgCdO changeover Breaking capacity 000 VA - 80 W Maximum breaking current 8 A AC DC Max. breaking voltage 0 V AC DC Minimum breaking current 00 ma AC DC Mechanical life (operations) 0 x 0 6 Electrical life AC 000 VA - 0 operations Electrical life AC Cosϕ = operations Electrical life AC L/ = 00 ms operations General characteristics Delay on threshold crossing 0. to 0 s (0 ± 0 %) Display Powr supply Green LED Display overvoltage relay Yellow LED Display undervoltage relay Yellow LED Class of protection (9) - Term. block IP 0 Class of protection (IEC 9) - Casing IP 0 Material housing Self-extinguishing Mounting Panel or DIN-rail mounted Weight (g) 0 Tightening capacity of terminals x. mm with ferrule x. mm without ferrule Tightening torque 0.6 Nm maximum (M screw / IEC 97-) Temperature limits se (IEC 68..) C -0 C +60 C Temperature limits stored (IEC 68../) C -0 C +70 C elative humidity (acc. to IEC 68..0) 9 % (+ % ; - %) no condensation Vibration (IEC 68..6) Amplitude 0. mm Vibration (IEC68..6) Frequence 0 to Hz Insulation resistance (IEC.) > 0 MΩ at 00 V DC Breakdown voltage according to IEC - >. kv / mn / ma / 0 Hz Impulse voltage (IEC. /66.) kv / Wave. - 0 µs To order, see page 6

143 Dimensions FS / FSN,6 77, Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Connections FS B Auxiliary power supply FS S T L - L - L : -phase network being monitored - - : Output relay () lower threshold - - : Output relay () upper threshold Principles FS / FSN A 00 B -phase network C pper threshold D Lower threshold S T A S T 0 S T ~ > < T Tr T T 78, FSN S T N 89,7 99, A B Auxiliary power supply S T N A S T N FSN S T ~ > < N Operating priciple The two relays are energised when the measured voltages are between the minimum and maximum thresholds which can be separately adjuste via two potentiometers on the front face. If one or more voltages goes outside the window, the relay corresponding to the fault de-energises following a delay which can be adjusted on the front face. The relays each have individual delays (0. to 0 sec.). A hysteresis fixed at % ensures bounce-free relay switching when the voltage levels return to a value between the upper and lower theresholds. The unit is not affected by the phase sequence nor by harmonic distortion. A green LED indicates the presence of the power supply voltage. Two yellow LEDs indicate when the upper and lower thresholds have been exceeded. The LEDs go out when the voltages are within the set window.

144 Motor control FFP motor load (cosine ϕ) control Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Self-powered Controls motor overload and underload Measures the phase shift between the current and the voltage (cosine ϕ) Independent adjustment of min. and max. thresholds from 0. to 0.99 Power-on inhibit time adjustable between 0. and 0 sec. Fault delay adjustable between 0. and sec. output relays (one per threshold). LEDs indicate power supply and state of output relays. Specifications Type Supply voltage Code FFP x 0 VAC x 00 VAC x 0 VAC x 80 VAC x 7 VAC General characteristics Power supply characterisitcs Supply voltage n 0, 00, 0, 80, 7 V AC - 0/60 Hz Self-powered via L and L Operating range 0.8 to. n Nominal power VA to n Maximal power VA to n + % Immunity from micro power cuts 0 ms Insulation coordination Category III, degree of pollution conforming to IEC 66. / VDE 00 : KV/ Control / input circuit characteristics Threshold display 0. to 0.99 Voltage input circuit resistance approx. kω (n) Current measurement by internal shunt via terminals Current range 0. to 0 A Input resistance 0 mω Maximum permanent current A (0 C) Peak overload 0 A (< s) (0 C) Delays on power up (T) 0. to 0 s - ± 0 % of full scale Delay on energisation T 0. to s - ± 0 % of full scale Frequency (Hz) 0 / 60 Hz Hysteresis 0 % fixed for Cosϕ e ; 0. 0 %<Hyst.<0 % for Cosϕ<0. Display accuracy ± 0 % of full scale epetition accuracy ± 0.8 % with constant parameters Drift Temperature ± 0.0 % / o C Output characteristics Output AgCdO changeover Breaking capacity 000 VA - 80 W Maximum breaking current 8 A AC DC Minimum breaking current 00 ma AC DC Max. breaking voltage 0 V AC DC Mechanical life (operations) 0 x 0 6 Electrical life AC 00VA - 0 operations Electrical life AC Cosϕ = operations Electrical life AC L/ = 00 ms operations General characteristics Material housing Self-extinguishing Terminal capacity x. mm with ferrule x. mm without ferrule Temperature limit operation (IEC 68..) ( C) Temperature limits stored (IEC 68../) ( C) elative humidity (no condensation) 9 % (+ % ; - %) Weight (g) 60 To order, see page 6

145 Dimensions FFP, 77, Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Connections FFP Operation on -phase network I < 0 A AC x 00 V~ B Internal shunt L - L - L : Network to be monitored E : Current read output - - : Low threshold output relay () - - : High threshold output relay () Principles FFP Cos ϕ L L T E 00 B -phase network C Cos ϕ D Maximum E Minimum L T T M 78, 89,7 99, FFP Operation on -phase network I > 0 A AC x 00 V~ L L E L B Internal shunt C External current transformer L - L - L : Network to be monitored E : Current read output - - : Low threshold output relay () - - : High threshold output relay () Operating principle M FFP Operation on single phase network 0 V AC 0 V~ B Internal shunt C Charge L - L - L : Network to be monitored E : Current read output - - : Low threshold output relay () - - : High threshold output relay () The FFP control relay is used for motor protection. The variation in the power factor (current / voltage phase-shift or cosine ϕ) is related to the variation in the mechanical load of the motor. The FFP control relay monitors the power factor, and therefore the mechanical load, and ensures that it stays between two defined, adjustable limits. A green LED indicates presence of the power supply. Two yellow LEDs display the state of the output relays. On power-up, both output relays are closed for the duration of the inhibit time (T adjustable beween 0. and 0 seconds). If the value of the power factor is between the two threshold values set, both relays are closed. If the power factor exceeds the maximum threshold value set by the user, the high threshold relay de-energises after a delay T (adjustable between 0. and seconds). During this delay, the green LED flashes ( Hz). The relay closes again when the measured value drops below the threshold less the hysteresis. If the power factor drops below the minimum threshold value set by the user, the low threshold relay de-energises after a delay (T adjustable between 0. and seconds). During this delay, the green LED flashes. The relay closes again when the measured value is ( Hz) above the threshold plus the hysteresis. If the value of the high threshold is set as less than or equal to the low threshold value, the green LED flashes quickly ( Hz). L L E L

146 Motor control FL motor underspeed control Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Control of underspeed, stopping, running speed, or jamming of a motor. Data collected by three-wire or NAM sensor, or by contact or voltage Delay adjustable from 00 ms to 0 min in subranges. Delay on energisation adjustable from 0. to 0 sec. LEDs indicate power supply and state of output relay. Specifications Type Supply voltage Code FL VDC VAC VAC VAC General characteristics Power supply characterisitcs Supply voltage n, 0, 0 VAC 0 / 60 Hz Galvanic isolation via transformer V DC without galvanic isolation 0.8 to. N Operating range Maximum power consumption - Version AC. VA max. at N and VA at n + % Maximum power consumption - Version DC W max. at n and. W at n + % Immunity from micro power cuts 0 ms Insulation coordination Category III, degree of pollution conforming to IEC 66. / VDE 00 : KV/ Control / input circuit characteristics Input circuit -wire sensors V PNP (0 ma max.) Input circuit NAM sensor 8. V on kω Input circuit Contact Volt-free Input circuit Voltage input 0 V max. Input resistance 6 kω except for NAM kω High state Min.. V, max. 0 V Low state Min. 0 V, max. V Breaking frequency 00 Hz Minimum pulse time ms Minimum time between pulses ms Selection of delay and memory function 8-position switch on front face Selection of delay and memory function - No memory 0. to s, to 0 s, 0. to min, to 0 min Selection of delay and memory function - With memory 0. to s, to 0 s, 0. to min, to 0 min Hysteresis % of treshold displayed Display accuracy 0 % of full scale (@ C) epetition accuracy ± 0. % with constant parameters Drift Temperature ± 0. % / C Voltage-dependent drift ± % / V eset time 00 ms minimum eset time S 00 ms minimum Inhibit time delay 0. to 0 s ± 0 % Output characteristics Output AgCdO changeover Breaking capacity 000 VA - 80 W Maximum breaking current 8 A AC DC Minimum breaking current 00 ma AC DC Max. breaking voltage 00 V AC DC Mechanical life (operations) x 0 6 Electrical life AC : 000 VA - 0 operations AC : Cos ϕ = operations DC : L/ = 00 ms operations Maximum rate 60 operations / hour at full load General characteristics Material housing Self-extinguishing Terminal capacity x. mm with ferrule x. mm without ferrule Temperature limit operation (IEC 68..) ( C) Temperature limits stored (IEC 68../) ( C) elative humidity (no condensation) 9 % (+ % ; - %) Weight (g) To order, see page 6 6

147 Dimensions Connection FL, 77, FL +~ + _ S + _ Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Principles Without latching 0 B Hysteresis C Speed displayed D Output relay E Inhibition delay With latching S , 00 ms min. 89,7 99, Operating principle _~ B Voltage C -wire PNP D Volt-free contact E Namur A - A : Supply voltage - - : Output relay () + V - E - 0 V : PNP three-wire sensor E - 0 V : Voltage input +8 V -Y : Contact / NAM sensor input The FL control relay can be used to solve underspeed problems : conveyor belts, conveyors, etc wehere the crossing of a low speed threshold should trigger an alarm. Speed data is collected via a sensor such as a three-wire output proximity sensor, an NAM sensor or by volt-free contact or voltage. On power-up, to allow the process which is being controlled to reach its operating speed, control is inhibited for a time of between 0. and 0 sec, which can be adjusted on the front face. If starting requires an inhibition time above 0 seconds, external contact S must be closed during starting to inhibit the FL (during this time the yellow LED flashes), then opened when the nominal speed has been reached. On each cycle of the process being controlled, the sensor sends a pulse to the FL. Each of these pulses resets the internal time delay of the FL. If the time between two pulses is less than the value set on the FL, the delay is reset on each pulse and the output relay remains closed. If the speed of the process decreases, the time between pulses increases. When the time between two pulses is greater than the value set on the FL, the controlled process is in underspeed mode, the output relay of the FL changes state (opens). The output relay closes again when the speed of the controlled process exceeds the preset value plus the hysteresis ( % of the value displayed). If "memory" mode is activated, the relay remains open when an underspeed fault is detected. In this case, the output relay can only close again after a manual reset has been performed by closing external contact S. A yellow LED indicates the state of the relay. A green LED indicates the presence of the power supply. B Hysteresis C Speed displayed D Output relay E Inhibition delay F Inhibition delay + S + A Y V e OV - + 8V Y A _ 7

148 Motor control ETM / ETM / ETM motor thermal protection Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Controls temperature of machines using built-in PTC probes Line break or probe short-circuit detection Version ETM / ETM : Fault latching function Pushbutton for local reset emote reset via external contact Pushbutton test facility LEDs to indicate relay and power supply status Specifications Type Output Supply voltage Code ETM N/O contact V AC/DC N/O contact 0 V AC N/O contact 0 V AC ETM changeover V AC/DC changeover 0 V AC changeover 0 V AC ETM changeovers V AC changeovers 0 V AC changeovers 0 V AC General characteristics Power supply characterisitcs Supply voltage n 0, 0 and VAC 0 / 60 Hz Galvanic isolation by transformer VDC no galvanic isolation 0.8 to.0 n VA VA 0 ms 00 ms Operating range Nominal power Maximal power Immunity from micro power cuts Delay on pick-up Insulation coordination Category III, degree of pollution conforming to IEC 66. / VDE 00 : KV/ Input circuit characteristics Max. resistance of cold probes 00 Ω Trip threshold 00 Ω ± 0 % eset threshold 60 Ω ± 0 % Short-circuit detection 0-0 Ω Measurement voltage as per IEC -. V epetition accuracy with constant parameters ± 0.0 % with constant parameters Temperature drift ± 0.0 % / o C Voltage-dependent drift - % Output characteristics Output AgNi 90/0 Breaking capacity 000 VA - 80 W Max. breaking current 8 A AC Max. breaking voltage 0 V AC Min. breaking current 00 ma AC DC Maximum rate 60 operations / hour at full load Mechanical life (operations) x 0 6 Electrical life AC : 000 VA - 0 operations AC : Cos ϕ = operations DC : L/ = 00 ms operations General characteristics eset time 00 ms esponse time 00 ms Display on ETM/ETM - power supply green LED Display on ETM/ETM - elay yellow LED Class of protection (9) - Term. block IP 0 Class of protection (IEC 9) - Casing IP 0 Material housing Self-extinguishing Weight (g) Terminal capacity x. mm with ferrule x. mm without ferrule Temperature limit operation (IEC 68..) ( C) C Temperature limits stored (IEC 68../) ( C) C elative humidity (no condensation) 9 % (+ % ; - %) To order, see page 6 8

149 Dimensions ETM / ETM / ETM 77, Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Connections ETM ETM ETM A - A : Supply voltage - : Output relay T - T : External PTC probe ETM ST CTP DIN 08 A T T A S0 S h A ϑ+ N C : Contactor S : ON button S0 : OFF button S : emote reset contact h : Fault indicator c T T r > Y Y A c S c 78, M~ 6 Y Y A, 89,7 99, + CTP DIN 08 A T T ϑ+ A Y Y - B Fault memory A - A : Supply voltage - - : Output relay T - T : External PTC probe Y - Y : emote reset contact PTC DIN 08 A A Y T A - A : Supply voltage - - : Low threshold output relay () - - : High threshold output relay () T - T : External PTC probe Y - Y : emote reset contact Y T 9

150 Principles eset WITHOT fault latching (Y and Y not connected for ETM/ETM) Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) B nit power-up C esistance between terminals T and T D Output relay PTC probe specification According to standard DIN 08 (or IEC -) 0 0 ( ) Operating principle Control relay is used in combination with PTC thermistor probes (not supplied) for thermal protection of machines (motors, alternators, transformers, etc). The probes are placed at critical points on the equipment to be protected (normally inserted into the stator windings of motors). The resistance of the PTC probe has a positive temperature coefficient. As soon as the nominal trip temperature of the probe is exceeded, the resistance of the probe increases rapidly. Protection relay detects this and opens the power supply circuit of the protected equipment (eg motor) and the yellow fault indicator LED lights up (version ETM/ETM). Test button The ETM/ETM has a TEST button which can be used to simulate a thermal overload in order to test the service condition of the relay. Tripping The relay drops out as soon as the protected equipment is subjected to a thermal overload, shortcircuit or break in the probe measuring circuit. Early warning of tripping If the equipment being protected has another PTC proble with a lower nominal trip temperature, a second ETM/ETM/ETM relay can be used to give early warning of tripping and thus prevent breaks in operation. Control relay ETM/ETM/ETM is automatically reset as soon as the temperature drops below the trip threshod (the yellow fault indicator LED goes out). B esistance (Ω) C Nominal temperature Tripping ( C) eset WITH fault latching (only for ETM/ETM) (Y and Y connected) B.P. "reset" S TNF-0 TNF- TNF TNF+ TNF+ ϑ( C) The relay is reset either using the ESET pushbutton on the front face or by opening the external contact S (remote reset), or by cutting the auxiliary power supply (terminals A - A). If the auxiliary power is cut for a period of time greater than the reset time (00 ms), the relay is reactivated if the proble detects a normal temperature when the power supply voltage is restored. B nit power-up C Latching contact D esistance between terminals T and T E Output relay 0

151 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

152 Variable speed Single-phase 00 W Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Control fan speeds in air-conditioning applications For 0 to 00 W asynchronous motor at 0 V AC with permanent dephasing via capacitor 0 / 0 V control input Quiet Specifications Type Designation Code VT 00 VT Dimensions Connections ph N Power ON Fan Output ph ph N Capa NC NC NC 0-0VDC ,, 89,7 99, B 0 V AC mains input 0 Hz single-phase C Earth D Neutral E Phases F 0-0 V DC control input cable (-wire screened) G Screening H Single-phase asynchronous motor (0 V ; 0 Hz) with permanent dephasing via capacitor I Main phase J Auxiliary phase To order, see page 6

153 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Technical specifications Supply Voltage 0 V AC ± % Frequency 0 Hz ± Hz Power consumption. VA Internal protection Against voltage surges 0-0 V input Input voltage 0 0 V DC Max. voltage 0 V DC Input impedance (kω) 0 kω Protection Against reversal of direction Transfer characteristics Linearized Motor control Characteristics of the load Supply 0 V AC ± % ; 0 Hz ± Hz Absorbed power 0 00 W cos ϕ at 0 V AC 0.9 to 80 V AC Voltage range (MS) at 0 V AC nominal 0-0 V control input 80 V V (± V) elay breaking capacity 8 A / 0 V AC / AC Display LED on Power supply present LED off Power supply missing Environmental characteristics Climatic environment Operation Temperature ( o C) + +0 elative humidity 8 % to 0 C Storage Temperature ( C) Humidity < 70 % Mechanical environment esistance to vibrations Amplitude 0. mm Frequency range (Hz) 0 Number of axes Cycle duration (min) Number of cycles 0 Weight (g) 0 Dimensions x 78 x 0 mm Connection solid without ferrule x. mm Connection stranded without ferrule x. mm Mounting DIN rail or panel mounted Material housing Self-extinguishing Material terminal block Self-extinguishing Packaging Individual Packed in lots of Electromagnetic environment Product EMC standard IEC 800- (09/96) Environment Domestic and similar (residential, commercial and light industry) Immunity to bursts of fast transients Tested in accordance with IEC Power supply : kv (direct) 0-0 V input : 0. kv (connection) Immunity to electrostatic discharges Tested in accordance with IEC Discharges on contact : 6 kv Discharges into the air : 8 kv Immunity to impulse voltage Tested in accordance with IEC Power supply : kv (line-to-line connection) Power supply : kv (connection btwn line & earth) Immunity to radiated electromagnetic fields Tested in accordance with IEC Frequency range 6 MHz to GHz Level of severity : V/m Immunity to harmonic distortion Tested in accordance with IEC (class ) THD in steady state 8 % Immunity to voltage fluctuations Tested in accordance with IEC (class ) Level ± 0 % Duration < 60 s Immunity to frequency variations Tested in accordance with IEC (class ) Level ± Hz Conducted emissions Tested in accordance with EN 0 (9) / group Level of severity : Class B Frequency range : 0. to 0 MHz adiated emissions Tested in accordance with EN 0 (9) / group Level of severity : Class B Frequency range : 0 MHz to GHz Dielectric withstand to impulses Tested in accordance with IEC 66- Impulse :. / 0 µs Level :. kv

154 Principles Basic controller Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Crouzet controller Curves Operating principle Phase control by modification of the aperture angle of a triac. 0-0 V input : Motor control activated when input higher than V ± 0 mv. Comment : When the motor starts, control is forced to full speed for seconds. The current harmonics circulate in both motor phases and generate constant noise. B 0 V AC mains C Motor D Dephasing capacitors The current harmonics circulate in a single phase and generate very little noise. C Motor D Dephasing capacitors E 0 V AC mains F Auxiliary phase power-up contact 0 V V V 80 V B Input C Output s s t t t Transfert function V 80 V B Input C Output V 0 V

155 Solid Solid state state relays relays Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

156 Selection guide Solid state relays Solid state relays - resistive and inductive load Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) THYISTO Mains supply Single-phase Current* A Output voltage to 8 V DC to V DC Designation GMS Inductive load A to 80 V AC to V DC GMS Page 79 Page 79 0 A to 00 V DC to 80 V AC 8 to 660 V AC A to 80 V AC to V DC to V DC 8 to 6 V AC / DC 90 to 80 V AC / DC to V DC 8 to 6 V AC / DC 90 to 80 V AC / DC to V DC 80 to 80 V AC / DC 90 to 0 V AC GN GD Integrated heatsink A to 00 V DC to V DC GN A to 80 V AC 8 to 660 V AC to 80 V AC 8 to 660 V AC to V DC 80 to 80 V AC / DC 90 to 0 V AC to V DC 80 to 80 V AC / DC 90 to 0 V AC to V DC 8 to 6 V AC / DC 90 to 80 V AC / DC to V DC 8 to 6 V AC / DC 90 to 80 V AC / DC GD Integrated heatsink 0 A to 0 V DC to V DC GN A 8 to 660 V AC A 8 to 660 V AC 0 A 7 A 00 A A to 80 V AC 8 to 660 V AC to 80 V AC 8 to 660 V AC to 80 V AC 8 to 660 V AC to 80 V AC 8 to 660 V AC Control voltage to V DC 90 to 80 V DC to V DC 90 to 80 V AC to V DC 8 to 6 V AC / DC 90 to 80 V AC / DC to V DC 8 to 6 V AC / DC 90 to 80 V AC / DC to V DC 8 to 6 V AC / DC 90 to 80 V AC / DC to V DC 8 to 6 V AC / DC 90 to 80 V AC / DC to V DC 8 to 6 V AC / DC 90 to 80 V AC / DC to V DC 8 to 6 V AC / DC 90 to 80 V AC / DC to V DC 8 to 6 V AC / DC 90 to 80 V AC / DC to V DC 8 to 6 V AC / DC 90 to 80 V AC / DC GN GD Integrated heatsink GD Integrated heatsink esistive load Page 79 Page 70 Page 76 Page 6 Page 70 Page 6 Page 76 Page 70 Page 6 Page 6 Page 76 Page 6 Page 76 Page 6 Page 6 GN Page 76 Page 76 GN Page 76 Page 76 GN Page 76 Page 76 GN Page 76 Page 76 *The current ratings should be checked against the thermal curves (see catalogue) in order to select the appropriate heatsink For a GN relay with cover For a GN relay without cover 8 0 GMS GD. mm GD mm GD 90 mm GN with cover GN without cover 6

157 Mains supply Current* Output voltage Control voltage Designation to V DC x A 8 to 660 V AC 90 to 80 V AC / DC GD esistive load Page 68 Inductive load Page 68 Two-phase to V DC A to 80 V AC 7 to V DC DAL Page 7 Page 7 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) THYISTO TIAC Three-phase Three-phase changeover Single-phase to V DC 0 A to 80 V AC 7 to V DC DAL to V DC x A 8 to 660 V AC 90 to 80 V AC / DC GD 0 A A to 80 V AC to 80 V AC Page 66 Page 66 *The current ratings should be checked against the thermal curves (see catalogue) in order to select the appropriate heatsink For a GN relay with cover For a GN relay without cover 87 0 GNA GNA Page 7 x 0 A to 660 V AC to V DC GA Page 90 to V DC x A to 660 V AC 90 to 80 V AC GA to V DC x A to 660 V AC 90 to 80 V AC GA x A to 80 V AC to V DC GA0 to V DC 8 to 6 V AC / DC 90 to 80 V AC / DC to V DC 8 to 6 V AC / DC 90 to 80 V AC / DC Solid state relays GA and GA8 range TIAC TIAC Mains supply Single-phase Solid state relays - GZ Mains supply Single-phase Current* A A Current* A 0 A Output voltage to 80 V AC A to 80 V AC to 80 V AC Output voltage to 80 V AC 6 to 0 V AC to 80 V AC 6 to 0 V AC Control voltage to V DC to V DC to V DC to V DC Control voltage Designation Page 90 Page 90 Page 7 Page 7 Page 7 Page 90 Page 90 Page 90 Page 88 *The current ratings should be checked against the thermal curves (see catalogue) in order to select the appropriate heatsink to connect *The current ratings should be checked against the thermal curves (see catalogue) in order to select the appropriate heatsink to connect GZ Designation GA8 GA GA8 GA8 C Circuit Page 86 Page 86 Yes to V DC GZ No Page 86 Page 86 No Yes No Yes No Yes esistive load Page 8 Page 8 Page 8 esistive load Inductive load Page 8 Page 8 Inductive load DAL GA GA8 GZ 7

158 elay-heatsink assembly for DIN rail mounting Mains supply Single-phase Designation GA0 A GA0 A esistive load x Inductive load x Designation GA A GA 0 A esistive load x Inductive load Page 80 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Solid state relays - HP Function AC control contactor Current 0 A single-pole Output voltage 90 to 60 V AC Control voltage 90 to 60 V AC Designation HP Page 60 DC control contactor 0 A single-pole 90 to 60 V AC to V DC HP Page 60 Day/night contactor 0 A single-pole 90 to 60 V AC 90 to 60 V AC HP Page 60 Impulse relay 0 A single-pole 90 to 60 V AC 90 to 60 V AC HP Page 60 SMAT MODLE - Control module for Hockey puck type solid state relays Function Provides both visual and electrical information if a fault occurs in the circuit or on the solid state relay being controlled. For mounting on single-phase "hockey puck" type solid state relays. Current to A Output voltage to V DC Control voltage to V DC Désignation SMAT MODLE Page 8 HP 8

159 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

160 Hybrid power relays HP Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) A in a case only 7. mm wide Service life > million operations at full load Silent operation Functions : contactor - impulse relay - day / night contactor Clips onto a mm DIN rail L/ L (listed) approval NF-SE label "CE" / Low Voltage Directive conformity Specifications Type Input voltage Frequency Thresholds OFF control Thresholds ON control Code Day/night contactor V AC 0 / 60 Hz 0 6 V AC V AC Impulse relay V AC 0 / 60 Hz 0 6 V AC V AC Contactor V AC 0 / 60 Hz 0 6 V AC V AC V DC 0 / 60 Hz 0 V DC V DC V AC 0 / 60 Hz 0 V AC 8 6 V AC General characteristics Input characteristics Minimum duration of the control 0 ms Output characteristics Max. current 0 A (AC / AC / AC7a) Overload current 0 A (IEC ) AC- :. x Ie - 60 s : 0-0 Minimum current 00 ma (AC / AC / AC7a) Frequency 0 / 60 Hz Contact N.O Number of operations > Leakage current < ma Acoustic noise in steady state < db at m Acoustic noise on switching < 0 db at 0. m Tightening capacity of terminals x. mm up ; with ferrule x. mm up ; without ferrule x mm up ; without ferrule Tightening torque Nm max. M screw (IEC6097-) Operating temperature ( o C) - + Storage temperature ( 0 C) elative humidity (no condensation) 90 9 % Material housing Self-extinguishing Protection (IEC 9) Housing IP0 Protection (IEC 9) Terminal IP0 Weight (g) 70 Dimensions 8 8, 60 7, To order, see page 6 60

161 Connections A I N A N I A Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) A V A Principles A LOAD Operating principles V AC/... V DC Contactor The contactor output is closed when the control voltage is present at the control input terminals. The contactor output is open when there is no voltage at the control input terminals. The LED is lit when the output is active. Impulse relay The impulse relay output changes state on each impulse at the control input terminals, and remains in that state between each impulse. The output changes state on the rising edge of the control state change. The pushbutton on the front can be used to select an operating mode : Automatic (LED lit) : Impulse relay function (Auto) Forced operation (LED flashing) : output closed (ON) Stop (LED not lit) : output open (OFF) Day/night contactor The contactor output is closed when the control voltage is present at the control input terminals. The contactor output is open when there is no voltage at the control input terminals. The pushbutton on the front can be used to select an operating mode : Automatic (LED lit) : Day/night contactor function (Auto) Forced operation (LED flashing) : output closed (ON) When the control changes state, the day/night contactor reverts to automatic mode. Stop (LED not lit) : output open (OFF) Conformity with standars IEC/EN (industrial environment) IEC/EN (domestic environment) IEC/EN (medical environment) IEC/EN (connection for industrial env.) IEC/EN (connection for domestic env.) Insulation coordination: Installation category: Degree of pollution: According to IEC/EN : Breakdown voltage according to IEC/EN : KV/Min / ma / 0 Hz Insulation resistance according to IEC/EN : > MΩ /00VDC / Min Vibrations according to IEC/EN : frequencies: 0 to Hz amplitude: 0. mm 6

162 GD single or double phase DIN rail mounting GD range. mm single phase Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Single phase Complete, compact units Tailor-made solution to current sinks DIN rail and panel mounting ating : and A (Triac) - A (SC) Protection by C filter Optional protection by removable varistor LED display of input status L-Cul approval and CE marking Specifications Type Current Output voltage Input voltage Code Zero voltage switching (Triac) A - 80 V AC 90-0 V AC V DC V AC/ DC A - 80 V AC 90-0 V AC V DC V AC/ DC Zero voltage switching (SC) A V AC V AC DC V DC V AC Instantaneous switching (SC) A V AC - V DC Connections GD range - single-phase with triac + Curves + GD range - single-phase with SC Zero voltage switching GD range. mm - A (Triac) GD range. mm - A (Triac) A (SC) I(A) t ( C) 0 0 I (A) t ( C) GD range - single-phase with SC Instantaneous switching 0 0 I (A) t ( C) To order, see page 6 6

163 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Output characteristics Voltage range (Vrms max) Triac : -80 Thyristor : Peak voltage - t = min (V) Triac : 600 Thyristor : 00 Maximum off-state leakage at Vmax and T = C (maeff per phase) Triac : Thyristor : 0 Minimum current ma(rms) per phase Triac : 0 Thyristor : 00 Max. -cycle surge A(peak) Triac : 00-0 Thyristor : 70 Max. -second surge A(peak) Triac : 0-7 Thyristor : On-state voltage drop at I max V(peak) Triac :.6 Thyristor :.6 I t (t = 0 ms) (A s) Triac : -70 Thyristor : 0 Static (off-state) dv/dt (V/µs) Triac : 00 Thyristor : 00 Supply frequency range Triac : 7 80 Hz Thyristor : 7 80 Hz Cos ϕ (Zero voltage) Triac : > 0. Thyristor : > 0. th junction / ambient air ( o C/W) Triac : Thyristor :. Inputs specifications Input voltage Triac : AC/DC Thyristor : - DC Turn-off voltage (V) Triac : 0 Veff Thyristor : VDC Maximum current at Vmax Triac :. maeff Thyristor : ma Nominal input resistance (kω) Triac : Thyristor : esponse time (close) (ms) Triac : 0 ms Thyristor : 0. cycle max. esponse time (open) (ms) Triac : 0 ms Thyristor : 0. cycle max. General characteristics Operating temperature ( o C) Storage temperature ( 0 C) Input to output insulation voltage V(rms) 000 Dielectric strength V(rms) 00 Input/output capacitance (pf) 8 Material housing Self-extinguishing (L 9 V0) Material baseplate Aluminium Weight (g) 0 Terminal capacity Ø mm max. Dimensions 98 87, ,,,,,0 Ø,,8 6,80 0,80 6

164 GD single or double phase DIN rail mounting GD ange mm single phase Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Single phase Complete, compact units Tailor-made solution to current sinks DIN rail and panel mounting ating : and A Back-to-back SCs Protection by C filter Optional protection by removable varistor LED display of input status L-Cul approval and CE marking Specifications Type Current Output voltage Input voltage Code Zero voltage switching SC output A V AC V AC / DC V DC 8 0 A V AC V AC / DC V DC 8 0 Instantaneous switching Thyristor output A V AC - V DC 8 0 General characteristics A 8 0 Output characteristics Voltage range (Vrms max) Peak voltage - t = min (V) 000 () Maximum off-state leakage at Vmax and T = C (maeff per phase) Minimum current ma(rms) 00 Max. -cycle surge A(peak) 70 Max. -second surge A(peak) On-state voltage drop at Imax and T = o C V(peak).6 I t (t = 0 ms) (A s) A : 60 A : 000 Static (off-state) dv/dt (V/µs) 00 Supply frequency range 7 80 Cos ϕ (Zero voltage) > 0. th junction / ambient air ( o C/W) A :.78 C A :.6 C/W Inputs specifications Input voltage A : AC/DC A : - DC Turn-off voltage (V) A : 0 Veff A : V DC Maximum current at Vmax A : 0 maeff A : ma Nominal input resistance (kω) A : A : esponse time (close) (ms) A : 0 ms A : 0. cycle max. esponse time (open) (ms) A : 0 ms A : 0. cycle max. General characteristics Operating temperature C Temperature stored C Input to output insulation voltage V(rms) 000 Dielectric strength V(rms) 00 Input/output capacitance (pf) 8 Material housing Self-extinguishing (L 9 V0) Material baseplate aluminium Weight (g) 90 Input terminal capacity Ø mm max. Output terminal capacity Ø.6 mm max. To order, see page 6 6

165 Dimensions,70,,0 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) , Connections GD range - single-phase with SC Zero voltage switching Curves Ø,, 9,0 GD range mm - A 0 0 I (A),8 6, t ( C) 0,80 GD range - single-phase with SC Instantaneous switching GD range mm - A I (A) t ( C) GD range - single-phase with SC Instantaneous switching 6

166 GD three-phase DIN rail mounting GD ange 90 mm phase Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Three-phase Complete, compact units Tailor-made solution to current sinks DIN rail and panel mounting ating : x A Back-to-back SCs Protection by C filter Optional protection by removable varistor LED display of input status L-Cul approval and CE marking Specifications Type Current Output voltage Input voltage Code SC zero voltage switching x 0 A V AC V AC / DC V DC SC Instantaneous switching x 0 A V AC - V DC 8 0 General characteristics Output characteristics Voltage range (Vrms max) Peak voltage ( min) V(peak) 00 Maximum current x (A) Maximum off-state leakage at Vmax and T = C (maeff per phase) 0 Minimum current (marms per phase) 00 Max cycle surge T = o C A(rms) 00 Max second surge T = o C A(rms) On-state voltage drop at Imax and T = o C V(peak).6 I t (t = 0 ms) (A s) 60 Static (off-state) dv/dt (V/µs) 00 Supply frequency range 7 80 Hz Cos ϕ (Zero voltage) > 0. th junction / ambient air ( o C/W) C/W Inputs specifications Input voltage AC/DC - DC Turn-off voltage (V) 0 Veff V DC Maximum current at Vmax 0 maeff 0 ma Nominal input resistance (kω) esponse time (close) (ms) 0 ms 0. cycle max. esponse time (open) (ms) 0 ms 0. cycle max. General characteristics Operating temperature ( o C) Storage temperature ( 0 C) Input to output insulation voltage V(rms) 000 Dielectric strength V(rms) 00 Material housing Self-extinguishing (L 9 V0) Material baseplate aluminium Input/output capacitance (pf) 8 Weight (g) 90 To order, see page 6 66

167 Dimensions 80,70,,0 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) , Connections GD range - three-phase with SC A+ A- Curves Ø,, 9,0 90 GD range 90 mm - x 0 A,8 I(A) t ( C) ,80 0,

168 GD double phase DIN rail mounting GD ange 90 mm double phase Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Double phase Complete, compact units Tailor-made solution to current sinks DIN rail and panel mounting ating : x A Back-to-back SCs Protection by C filter Optional protection by removable varistor LED display of input status L-Cul approval and CE marking Specifications Type Current Output voltage Input voltage Code SC zero voltage switching x A V AC V AC / DC V DC SC Instantaneous switching x A V AC - V DC 8 0 General characteristics Output specifications Voltage range (Vrms max) Peak voltage ( min) V(peak) 00 Maximum current 00 Maximum off-state leakage at Vmax and T = C (maeff per phase) xa Minimum current (marms per phase) 00 Max cycle surge T = o C A(rms) 00 Max second surge T = o C A(rms) On-state voltage drop at Imax and T = o C V(peak).6 I t (t = 0 ms) (A s) 60 Supply frequency range 7 80 Hz Cos ϕ (Zero voltage) > 0. th junction / ambient air ( o C/W) 0.9 Inputs specifications Input voltage AC/DC - DC Turn-off voltage (V) 0 Veff V DC Maximum current at Vmax 0 maeff 0 ma Nominal input resistance (kω) esponse time (close) (ms) 0 ms 0. cycle max. esponse time (open) (ms) 0 ms 0. cycle max. General characteristics Operating temperature ( o C) Storage temperature ( 0 C) Input to output insulation voltage V(rms) 000 Dielectric strength V(rms) 00 Input/output capacitance (pf) 8 Material housing Self-extinguishing (L 9 V0) Material baseplate aluminium Weight (g) 90 To order, see page 6 68

169 Dimensions 80,70,,0 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) , Curves Ø,, 9,0 90 GD range 90 mm - x A,8 I(A) t ( C) 6,80 0,80 69

170 GN single-phase GND DC output Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) FET transistor versions 0, and 0 A Bipolar transistor version 0 A Control voltage : to V Optimum thermal response Available with or without protective cover L/Cul, TV approval and CE marking Specifications Type Current Output voltage Input voltage Protective cover Code FET version 0 A - 00 V DC - V DC with protective cover A - 00 V DC - V DC with protective cover A - 0 V DC - V DC with protective cover A - 00 V DC - V DC without protective cover 8 80 A - 00 V DC - V DC without protective cover A - 0 V DC - V DC without protective cover Bipolar version 0 A - 60 V DC - V DC with protective cover A - 60 V DC - V DC without protective cover 8 70 General characteristics Output characteristics Voltage range (Vrms max) FET 0A : - 00 FET A : - 00 FET 0A : - 0 Bipolar 0A : - 60 Minimum current ma(rms) FET 0A : FET A : FET 0A : Bipolar 0A : 0 Max. non-rep. 0 µ (T= C) (A) FET 0A : 90 FET A : 0 FET 0A : 60 Max. non-rep. s surge (T= C) (A) 0A : 90 Thermal resistance Junction to casing ( o C/W) FET 0A :. FET A :. FET 0A :. Bipolar 0A :.7 Inputs specifications Turn-off voltage (V) Max. controled current (ma) FET : 0 Bipolar :. esponse time (close) (ms) FET : Bipolar : 00 esponse time on closing (ms) FET : 00 Bipolar : 00 General characteristics Operating temperature ( o C) Storage temperature ( 0 C) Input to output insulation voltage V(rms) 000 Dielectric strength V(rms) 00 Input/output capacitance (pf) 8 Material housing L 9 V Material baseplate zamak Weight With cover : g Without cover : 97 g To order, see page 6 70

171 Dimensions, (.7), (0.87) Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) , (.) Curves GN SS FET 0 A GN SS FET A GN SS FET 0 A 7 (0.7), (.7) B Load current (A) C Ambient temperature ( C) D Heatsink GN SS BIPOLA 0 A 7,9 (.) 9 (0.7), (0.), (0.8),9 (0.7) 6, (0.) ,7 (.88), () 6, (.0) , C/W.0 C/W , C/W.0 C/W B Load current (A) C Ambient temperature ( C) D Heatsink , C/W.0 C/W B Load current (A) C Ambient temperature ( C) D Heatsink.0 C/W.0 C/W B Load current (A) C Ambient temperature ( C) D Heatsink 7

172 GN single-phase GNA - Triac output Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Intented for resistive loads Current ratings 0 and A Output voltage to 80 V AC "Zero voltage" switching Optimum thermal response Control input - V DC, 8 to 6 V AC, 90 to 80 V AC Connection via screws or faston connectors L / Cul, TV approval and CE marking Specifications Type Current Output voltage Input voltage Code Screw 0 A -80 V AC - V DC V AC/DC V AC/DC 8 90 A -80 V AC - V DC V AC/DC V AC/DC 8 9 Fast on 0 A -80 V AC - V DC V AC/DC V AC/DC A -80 V AC - V DC V AC/DC V AC/DC 8 99 General characteristics Output characteristics ange -80 V AC Non-rep. peak voltage (Vp) 00 Maximum off-state leakage at Vmax and T = C (maeff per phase).7 Minimum current (ma) 00 Max. non-rep.-cycle surge (T= C) (A) 0 (0 A) 7 ( A) Max. non-rep. s surge (T= C) (A) 00 (0 A) 0 ( A) I t (0-60 Hz) (A s) 0 - (0 A) 88-0 ( A) Voltage drop at Imax (T= C) (V).6 (0 A).8 ( A) Static dv/dt (V/µs) 00 Thermal resistance Junction to casing ( o C/W) (0 A) ( A) Inputs specifications ange - V DC 8-6 V AC/DC VAC/DC Turn-off voltage (V) - V DC : 8-6 V AC/DC : V AC/DC : 0 Max. current (ma) - V DC : 8-6 V AC/DC : V AC/DC : 8. esponse time (close) (ms) - V DC : 8. (60Hz) 0 (0Hz) 8-6 V AC/DC : V AC/DC : 0 esponse time on closing (ms) - V DC : 8. (60Hz) 0 (0 Hz) 8-6 V AC/DC : V AC/DC : 0 General characteristics Operating temperature ( o C) Storage temperature ( 0 C) Input to output insulation voltage V(rms) 000 Dielectric strength V(rms) 00 Input/output capacitance (pf) 8 Frequency (Hz) 7 6 Material housing L 9 V Material baseplate zamak Weight (g) 97 To order, see page 6 7

173 Dimensions, (.7), (0.87) Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) , (.) Curves (0.7), (.7) 7,9 (.) 9 (0.7), () 6, (.0) 0 A A, (0.), (0.8),9 (0.7) 6, (0.).0 C/W 7,7 (.88).0 C/W.0 C/W. C/W.0 C/W C/W.0 C/W.0 C/W. C/W.0 C/W

174 DAL two-phase solid state relay DAL Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) ating xa or x0a Output voltage to 80 V Back-to-back SC Instantaneous or zero volt switching Input to output insulation voltage : 000 V Protection by C filter L-Cul approval Tüv and CE marking Specifications Type Current Output voltage Input voltage Switching Code Dual range A - 80 V AC - V DC Zero voltage A - 80 V AC 7 - V DC Zero voltage A - 80 V AC - V DC Zero voltage A - 80 V AC 7 - V DC Zero voltage A - 80 V AC - V DC Instantaneous A - 80 V AC 7 - V DC Instantaneous A - 80 V AC - V DC Instantaneous A - 80 V AC 7 - V DC Instantaneous General characteristics Output characteristics Peak voltage ( min) V(peak) 0 On-state voltage drop at Imax and T = o C V(peak).6 Max. leakage current ma (rms) 7 Minimum current ma (rms) 00 Max cycle surge A o C 00 (A) 780 (0A) Max second surge A o C 0 (A) (0A) I t A s) 0 (A) (0A) Static (off-state) dv/dt (V/µs) 00 Thermal resistance Junction to casing ( o C/W) 0.6 (A) 0. (0A) Supply frequency range (Hz) 7 6 Cos ϕ (Zero voltage) > 0. Inputs specifications Turn-off voltage (V) V DC Maximum current at Vmax (ma) Characteristics Operating temperature ( o C) Storage temperature ( 0 C) Input to output insulation voltage V(rms) 000 Dielectric strength V(rms) 00 Input/output capacitance (pf) 8 Material housing Self-extinguishing (L 9 V) Material baseplate Zamak Weight (g) 97 To order, see page 6 7

175 Dimensions B Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Connections Equivalent circuits Curves 7,6 (0.), (0.), (0.886) A 0 A A 0,0 0,0 0,0 0,0 0,0 7, (.),9 (0.7),9 (.6) 7,7 (.88) 9, (0.7) 8,7 (.), (0.7) 0, C/W.0 C/W. C/W.0 C/W Dual SS thermal curves with both outputs switched on at the same time C A A B B A 80,0 70,0 60,0 0,0 0,0 0,0 0,0 0,0 0, C/W.0 C/W. C/W.9 C/W Dual SS thermal curves with both outputs switched on at the same time C 7

176 GN single-phase GN AC output Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) EMC compatible for industrial environments built-in transient protections Optimum thermal response egulated control input Control status LED Available with or without protective cover Specifications Current Output voltage Input voltage Instantaneous Zero voltage with cover without cover with cover without cover A V AC V AC/DC A V AC 8-6 V AC/DC A V AC - V DC A -80 V AC V AC/DC A -80 V AC 8-6 V AC/DC A -80 V AC - V DC A V AC V AC/DC A V AC 8-6 V AC/DC A V AC - V DC A -80 V AC V AC/DC A -80 V AC 8-6 V AC/DC A -80 V AC - V DC A V AC V AC/DC A V AC 8-6 V AC/DC A V AC - V DC A -80 V AC V AC/DC A -80 V AC 8-6 V AC/DC A -80 V AC - V DC A V AC 8-6 V AC/DC A V AC V AC/DC A V AC - V DC A -80 V AC 8-6 V AC/DC A -80 V AC V AC/DC A -80 V AC - V DC A V AC 8-6 V AC/DC A V AC V AC/DC A V AC - V DC A -80 V AC 8-6 V AC/DC A -80 V AC V AC/DC A -80 V AC - V DC A V AC V AC/DC A V AC 8-6 V AC/DC A V AC - V DC A -80 V AC V AC/DC A -80 V AC 8-6 V AC/DC A -80 V AC - V DC , (.7) Dimensions, (.7), (.86) 7,9 (.) 0 (0.786),9 (0.7) 6, (0.) 8, (0.), (.7), () 7,7 (.88) 7, (.) 7 (0.7), (.7), (.7), (0.87) 7,9 (.) 9 (0.7), (0.), (0.8),9 (0.7) 6, (0.) 7,7 (.88), () 6, (.0) To order, see page 6 76

177 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) General characteristics Operating temperature ( o C) Storage temperature ( 0 C) Input to output insulation voltage V(rms) 000 Dielectric strength V(rms) 00 Input/output capacitance (pf) 8 Frequency (Hz) 7 80 Material housing polycarbonate L-9V Material baseplate Zamak Weight (g) IP0 : IP00 : 97 Control specifications Turn-off voltage (V) - VDC : V 8-6 VDC : V VDC/AC : 0V Max. controled current (ma) - VDC : 8-6 VDC : VDC/AC : 8. Turn-on time (ms) (zero voltage relay) - VDC : 8. (60Hz) - 0 (0Hz) 8-6 VDC : VDC/AC : 0 Turn-on-time (ms) (instantaneous relay) 0. esponse time on closing (ms) - VDC : 8. (60Hz) - 0 (0Hz) 8-6 VDC : VDC/AC : 0 Output specifications Non-rep. peak voltage (Vp) -80 VAC : VAC : 00 Max. non-rep. s surge (T= C) (A) 0A : 00 A : 00 0A : 780 7A : A : 00 A : 700 Max. non-rep.-cycle surge (T= C) (A) 0A : 80 A : 0 0A : 7A : 00 00A : 60 A : 0 Maximum off-state leakage at Vmax and T = C ma(rms) -80 VAC : VAC : Minimum current (ma) 00 I t (0-60 Hz) (A s) 0A : 7-0 A : 0-0 0A : -0 7A : A : A : 0-0 Voltage drop at Imax (T= C) (V) 0A :. A :. 0A :. 7A :. 00A :. A :. Static dv/dt (V/µs) 00 Thermal resistance Junction to casing ( o C/W) 0A : 0. A : 0. 0A : 0. 7A : 0. 00A : 0. A : 0. 77

178 Curves GN 0 AMP SS (00 & 600 V) GN AMP SS (00 & 600 V) GN 0 AMP SS (00 & 600 V) 0,0,0 0,0 8,0 0,0 0,0 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) ,0,0,0 0, ,0 C/W,0 C/W 7,0 C/W B Load current (A) C Ambient temperature ( C) D Heatsink B Load current (A) C Ambient temperature ( C) D Heatsink B Load current (A) C Ambient temperature D Heatsink GN 7 AMP SS (00 & 600 V) GN 00 AMP SS (00 & 600 V) GN AMP SS (00 & 600 V) 7,0 0,0,0 0, B Load current (A) C Ambient temperature ( C) D Heatsink 0, C/W 0, C/W 0,7 C/W C/W, C/W,0 0,0,0 0, ,0 90,0 80,0 70,0 60,0 0,0 0,0 0,0 0,0,0 C/W, C/W,7 C/W,0 CW B Load current (A) C Ambient temperature ( C) D Heatsink,0 CW 0,0 0, , C/W 0, C/W 0, C/W 0,7 C/W,0 C/W 0,0 0,0 0,0 0, ,0 00,0 7,0 0,0,0 0, C/W 0,7 C/W,0 C/W, C/W B Load current (A) C Ambient temperature ( C) D Heatsink,0 C/W 0, , C/W 0, C/W 0, C/W 0,7 C/W,0 C/W 78

179 GMS single-phase DIN rail mounting GMS range Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Complete, compact units DIN rail and panel mounting Input voltage - V DC regulated Input to output insulation voltage : Kv LED display of input status eplaceable protection fuse L-Cul approval and CE marking Specifications Type Switching Current Output voltage Input voltage Code Transistor zero voltage A -8 V DC - V DC mm Zero voltage A - 80 V AC - V DC Instantaneous A - 80 V DC - V DC General characteristics Operating temperature ( 0 C) -0 to +80 Storage temperature ( 0 C) -0 to +00 Input to output insulation voltage (Vrms) 000 Input/output capacitance (pf) 8 Capacity of input and output terminals With ferrule : x. mm, Without ferrule : x. mm and x mm 8 Dimensions 8 Equivalent circuits AC output module Curves Sortie AC + 6 LED 9, 0,6 7, DC output module Sortie DC + LED Non available in Germany B ating (Arms) C Ambient temperature ( C) B ating (Arms) C Ambient temperature ( C) To order, see page 6 79

180 elay-heatsink assemblies DIN rail mounting Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Specifications Type elay Sink DIN rail adaptor Protective cover Code GA0- A GA- A GA- A GA- A GA- A Current (A) Temperatures ( C) Code To order, see page 6 80

181 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

182 PCB-mountable GA and GA8 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) PCB-mountable (flat pack = GA, SIP = GA8) ating : A- A Peak voltage : 600 V Will withstand a -cycle 00 A surge TIAC outputs L - cl A approval and CE marking Zero voltage or instantaneous switching (A only) Input to output insulation voltage : 000 V Protection by C filter Specifications Type Current Input voltage Switching Code GA range A - V DC Zero voltage 8 06 GA8 range A - V DC Instantaneous V DC Zero voltage A - V DC Zero voltage 8 06 A - V DC Instantaneous V DC Zero voltage General characteristics Output characteristics Voltage range V (rms) max -80 / -80 Peak voltage ( min) V(peak) -80 : : 80 Maximum current A(rms) -80 : or depending on part no. -80 : Minimum current ma(rms) 0.0 Max. -cycle surge (Apeak) 00 Max. leakage current (maeff) 6 On-state voltage drop at Imax and T = o C V(peak) -80 :.6-80 :.6 Static (off-state) dv/dt (V/µs) 00 esponse time (close) (cycle) 0. Frequency (Hz) 7 6 Inputs specifications Input voltage - V DC Turn-off voltage (V) V DC Max input current ma (at Vmax) Nominal input resistance (kω) regulated Characteristics Operating temperature ( o C) Storage temperature ( 0 C) Input to output insulation voltage V(rms) 000 Vrms Input/output capacitance (pf) 8 Weight (g) To order, see page 6 8

183 Dimensions GA GA8,6 6,, Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) General tolerances ± 0. General tolerances ± 0. Connections Equivalent circuits + B Matching and trigger circuit (zero voltage) Curves,8 7,9,8 8, 7,6 0,,0 B ating (Vpeak) C Ambient temperature + 0, 9, , 0,89,9, 0,, 7,8 7,6 B ating (Vpeak) C Ambient temperature ( C),

184 SMAT module Control module for solid state relays Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Patented operating principle ( ). Provides both visual and electrical information if a fault occurs in the circuit or on the solid state relay being controlled For mounting on single-phase "hockey-puck" type solid state relays. Peak voltage 00 V AC : suitable for solid state relays with DC input and A AC output. Alarm output : - V = push-pull transistor. Optical isolation 000 V AC. Conforms with EC low-voltage directive. Specifications Type Current Output voltage Input voltage Code " hockey puck " ma V DC V DC General characteristics Electrical characteristics Maximum voltage (V DC) Minimum voltage (V DC) Max. voltage in stopped state (V DC) Line voltage V(rms) Peak voltage ( min. max) V(peak) 00 Leaking current (at maximum line voltage) ma (rms) 8 DC power supply / Alarm output Voltage alarm output (V DC) Current alarm output (ma) 60 Characteristics Operating temperature range ( C) Storage temperature range ( C) Input / output insulation voltage (limited to ma for sec. - Ta = C) V(rms) 000 Dimensions 7,9,, To order, see page 6 8

185 Connections Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Curves B SMAT SS power supply C SS input D Green LED E Mains presence F Load : closed circuit G SS : external short-circuit on output terminals H SS : output failed (internal short-circuit) I Alarm output J Alarm LED B Mains V AC C Solid state relay D Alarm output (- V DC) () E Auxiliary power supply (- V DC () F ed LED : Alarm G Green LED : Input H SS Input (- V DC) () I Common J Load The SS input, the SMAT MODLE alarm output and the SMAT MODLE + power supply all share the same-terminal Operating principle The SMAT MODLE can be mounted on any single-phase solid state relay with DC input / AC output in a "hockey puck" casing. The SMAT MODLE has constant power supply to ensure that both the relay and the load being controlled are functioning correctly. The SMAT MODLE provides information on the relay status by means of an LED display and an alarm output. Operation Power is supplied to the SMAT MODLE between its - V DC terminal (+) and the - terminal of the solid state relay control input. During correct operation when the relay is not being controlled, the alarm output is at - VDC and the LED are off. During correct operation when the relay is not being controlled, the green LED is on and the alarm remains at - VDC If the mains voltage is lost or there is a short-circuited on the relay output, the alarm output changes to 0 VDC and the red LED flashes. If the relay output is faulty, the alarm output changes to 0 VDC and the red LED comes on. 8

186 Low cost solid state relays GZ range Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Low-cost solid state relay - Triac output Extra-slim casing Output current and 0 A Output voltages -80 V AC and 6-0 V AC Control input - V DC Version with low off-state leakage (no C circuit) Optical isolation KV L-Cul approval and CE marking Specifications Type Current Input voltage Switching Circuit C Code GZ range A - V DC zero voltage no Zero voltage yes 8 00 Instantaneous no 8 00 Instantaneous yes 8 00 Zero voltage no 8 00 Zero voltage yes Instantaneous no 8 00 Instantaneous yes A - V DC Zero voltage yes 8 60 Zero voltage no 8 00 Zero voltage yes 8 0 Instantaneous no 8 0 Instantaneous yes 8 0 Zero voltage no 8 0 Zero voltage no 8 0 Instantaneous yes 8 70 General characteristics Output characteristics Voltage range V (rms) max -80 / 6-0 Peak voltage ( min) V(peak) 600 (-80) 800 (6-0) Leakage current (maeff) -80 :. 6-0 :. Off-state leakage at Vmax and C - Low off-state leakage - 0. no C circuit (ma) Static dv/dt - Standard (V/µs) 00 Static dv/dt Low off-state leakage-no C circuit (V/µs) 0 Maximum current A(rms) (-80) 0 (6-0) Minimum current ma(rms) 00 Max. -second surge A(peak) -80 : : 60 Max. -cycle surge A(peak) -80 : : 00 On-state voltage drop at I max V(peak) -80 : :. I t (t = 0 ms) (A s) I t (t = 8. ms) (A s) 0 Frequency (Hz) 7 6 Thermal resistance Junction to casing ( o K/W) -80 : 6-0 :. Inputs specifications Input voltage V DC Turn-off voltage (V) Max input current (ma) -80 : V DC 6-0 : 6 V DC Turn-on time (ms) (zero voltage relay) 0. Turn-on-time (ms) (instantaneous relay) 0. esponse time on closing (cycle) 0. Characteristics Operating temperature range ( C) Storage temperature range ( C) Input to output insulation voltage V(rms) 000 Dielectric strength V(rms) 00 Input/output capacitance (pf) 8 To order, see page 6 86

187 Dimensions 8, (.) Ø,0 (0.99), (), () Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) , (0.), (), (0.) Connections Curves 0.76 (0.0),7 (0.) A version 0 A version +,0,0 0,0 9,0 8,0 7,0 6,0 B Current A(rms) C Ambient temperature ( C), (0.6) 6, (.8), , (.) 66,8 (.6) 80 0, C/W 0,7 C/W,0 C/W, C/W,0 C/W 6, (0.),8 (0.) (0.) 0,0 8,0 6,0,0,0 0, C/W 0,0 0,7 C/W,0 C/W 8,0 6,0, C/W,0 C/W B Current A(rms) C Ambient temperature ( C) 87

188 GA three-phase GA0 three-phase changeover Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) everses rotation of three-phase motors Output voltage -80 V AC Input voltage - V AC Input to output insulation voltage : 00 ms Interlock against simultaneous actuation in both directions Back-to-back SCs Input to output insulation voltage : 000 V AC Protected by C filter and overvoltage limiter Direction of rotation displayed by green LEDs Specifications Type Current Output voltage Input voltage Code Alternative current A - 80 V AC - V DC Accessories DIN rail heatsinks 6 76 Heat transfer compound 8 7 Protective cover General characteristics Output characteristics Peak voltage ( min) V(peak) 000 Minimum current (marms) 00 Max cycle surge T = o C A(rms) 70 Max. leakage current (maeff) 0 I t (t = 0 ms) (A s) 6 On-state voltage drop at Imax and T = o C V(peak).6 Thermal resistance Junction to casing ( C / W) 0. Static (off-state) dv/dt (V/µs) 00 Frequency (Hz) 7 6 esponse time (close) (ms) 0. esponse time (open) (ms) 0 eversing time (ms) 00 Inputs specifications Input voltage Turn-off voltage (V) Max input current Nominal resistyance (+/-0 % at C) (kω) Characteristics V DC Operating temperature ( o C) Storage temperature ( 0 C) Input to output insulation voltage V(rms) Dielectric strength V(rms) Input/output capacitance (pf) 8 Material housing Material baseplate Weight (g) 0 ma (input regulated current and limited) - 0 to + 00 o C 000 V AC 000 V AC Self-extinguishing aluminium Code To order, see page 6 88

189 Dimensions ,6 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) , B M screw C M. screws Tolérances générales ± 0. Connections L L L Curves L L V AF A A L L Thermal dissipation curves GA0 range - A B Dissipated power (W) C On-state current (A) D Ambient temperature ( C) E Basseplate temperature ( C) F No heatsink 9 V,6 7,6 6, 7, V M W C / W C / W 0, C / W C / W Equivalent circuits AF + A - A + B Front C ear D Input E Output ~ L ~ ~ L ~ V 89

190 GA three-phase GA three-phase Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) For controlling three-phase loads ating 0,, A Output voltages to 660 Vrms Control voltage - V = or V AC Peak voltage : 00 V Back-to-back SC output Input to output insulation voltage : 000 Vrms Protected against overvoltages by C filter and overvoltage limiter Zero voltage or instantaneous switching Specifications Type Current Input voltage Switching Code ange GA 0 A - V DC Instantaneous V DC Zero voltage A - V DC Instantaneous V AC Instantaneous V DC Zero voltage V AC Zero voltage A - V DC Instantaneous V AC Instantaneous V DC Zero voltage V AC Zero voltage Accessories Code Heatsink 6 76 DIN rail heatsinks 6 76 Heat transfer compound 8 7 Protective cover General characteristics Output characteristics Voltage range V (rms) max -660 Peak voltage ( min) V(peak) 00 Minimum current ma(rms) 00 Max. -cycle surge A(peak) 0A : 60 A : 70 A : 0 Leakage current (maeff) 0 I t (t = 0 ms) (A s) 0A : 8 A : 6 A : 000 On-state voltage drop at Imax and T = o C V(peak).6 Thermal resistance Junction to casing ( C / W) 0A : 0. A : 0. A : 0. Frequency (Hz) 7 6 Static (off-state) dv/dt (V/µs) 00 esponse time (close) (ms) 0 ms max. (- VDC) 0 ms max. (90-80 VAC) esponse time (open) (ms) 0 ms max. (- VDC) 0 ms max. (90-80 VAC) Inputs specifications Max input current (ma) 0 (90-80 AC) 0 (- DC) Turn-off voltage (V) 0 AC (90-80 AC) DC (- DC) Nominal resistance (kω) Characteristics Operating temperature ( o C) Storage temperature ( 0 C) -0 to +00 Input to output insulation voltage V(rms) 000 Breakdown voltage (T= C, s) V(rms) 000 Input/output capacitance (pf) < 8 Insulation resistance 0 Material housing Self-extinguishing Material baseplate aluminium Weight (g) 0 To order, see page 6 90

191 Dimensions 0 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) B 6 M screws C M. screws Connections Equivalent circuits A+, A- B Input C Output A+ -A ± 0, V ± 0, 7,6 V W W 7, 9

192 Curves GA range - 0 A GA range - A Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) B Dissipated power (W) C On-state current (A) D Ambient temperature ( C) E Baseplate temperature ( C) F No heatsink GA range - A B Dissipated power (W) C On-state current (A) D Ambient temperature ( C) E Baseplate temperature ( C) C / W 0, C / W 0,8 C / W C / W 0, C / W C / W B Dissipated power (W) C On-state current (A) D Ambient temperature ( C) E Baseplate temperature ( C) 0, C / W C / W C / W 9

193 Accessories for solid state relays THEMSTATE heat seal Characteristics Part numbers Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Heat transfer compound FEAZ quick-blow fuses Protection for solid state relays Particular attention must be paid to thermal considerations in order to improve the reliability and power of solid state relays. It is extremely important to consider the quality of the interface between the relay and the heatsink (Ocs). Air pockets or gaps risk causing hot spots and a significant rise in temperature. Compared with the published thermal dissipation curves, performance is likely to be inferior or inconsistent. See the power curves and the description of heat transfer and of the heatsink presented in the corresponding individual technical data sheets. We are pleased to offer cut-out pads of Thermstrate thermal interface which replace messy and uneven heat transfer compounds. This pad is made of an aluminium substrate covered on each side with a "touch-dry" thermal compound. If the temperature exceeds C, the thermal compound wetting action allows it to fill any gaps, while its natural capillary action draws it to the edge of the interface between the mating surfaces, thus preventing it spreading. To order a supply of pads with the corresponding relay, please specify: For the G, GA, GF and GT ranges For the -phase GA0 range and the GA range Sold in packs of (representing lot) per part number. Thermstrate is a registered trademark of Power Devices, Inc Part number Characteristics 8 7 Material: silicon/zinc oxide paste Weight: 0 g ange Max. rating (Arms) I t relay (A s) Fuse part number GN Contact us GA GA GA0 6 GA / GA8 Part numbers To ensure that the solid state relay is fully protected, we recommend the use of quick-blow fuses. Their role is to protect the solid state relay against short-circuits. The fuse rating is determined as follows : I t fuse < I t relay. se the table below to determine the appropriate FEAZ fuse for the solid state relay you have selected. These fuses can be obtained from your usual FEAZ distributor (please consult us for a list of stockists). Very high breaking capacity fuses for protecting power semi-conductors. I t fuse < I t solid state relay Part numbers Type ange Varistor GA - G (6-0 V a and V a) In packs of GA0 Single 6 7 Fuses for GMS relays GMS A and C In packs of GMS A In packs of

194 Accessories for solid state relays Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Heatsinks , , 0, 7,8 66 x 0, Adaptors for fixing on panel (set of ) 0 0 7,6 7, ±0,, ±0, 76, 87 M Part numbers ange Thermal Length Weight resistance phase G, GA, GT, GF, 0.6 C/W L = 00 mm 90 g GN C/W L = 60 mm 70 g 6 79 Material: black anodised aluminium ange Thermal Length Weight resistance phase G, GA, GT, GF, C/W GN L = 70 mm 60 g Material: black anodised aluminium ange Thermal Length Weight resistance phase G, GA, GT, GF, C/W GN L = 8 mm 0 g 6 76 Material: black anodised aluminium ange Thermal Length Weight resistance phases x G, GA, GT, GF 0.7 C/W or x phase x GA0, GA, GN L = 7 mm 6 g 6 76 Material: black anodised aluminium ange Thermal Length Weight resistance phase G, GA, GT, GF, C/W GN L = 0 mm 0 g 6 78 Material: black anodised aluminium Part number Heatsink

195 Accessories for solid state relays Protective cover 6, 8,8 8,8 Ø,9 Part number Characteristics Material Fits GA range Polycarbonate L 9 V ,9 8,89 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) , 7, 7, 7,,78,9, 8,8 8,8 Ø,9,, DIN rail adaptor x M 8,7 7,6 6,9 0,6 9,9,9,9 6, 8,7 9, 7,,78,9, Ø,,0, 0,7 6,8 6,8 8, 6,67 7,6 6, 8,89 7,6 6, Characteristics Material Fits GA0 range Polycarbonate L 9 V Characteristics Material Weight Fits G, GA, GF GA, GF and GT Polycarbonate L 9 V0 g Part number Characteristics Weight Suitable for use with heatsinks 6 760, 6 76 and 6 76 g

196 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

197 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Solid Solid state state I/O I/O modules modules

198 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

199 Selection guide Simm interfacing modules Module type Control voltage V DC Output type Transistor A Max. switching voltage to 8 V DC Min. current ma Max. current Triac 0. A to 0 V AC 0. ma 0. A A Page 0 Transistor 0. A 0. ma 0. A to 8 V DC Transistor A ma A Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Output module Input module V DC Triac 0. A to 0 V AC 0. ma 0. A Page 0 Triac A 0 to 80 V AC 0 ma A changeover relay 0 V AC/DC 0 ma/ V DC 6 A V AC/DC changeover relay 0 V AC/DC 0 ma/ V DC 6 A Page 0 changeover relay 0 V AC/DC 0 ma/ V DC 6 A 0 V AC/DC Transistor 0. A to 8 V DC Page 0 0. ma 0. A Triac 0. A to 0 V AC 0 V AC 0 V AC/DC V DC V AC/DC 0 V AC/DC Transistor 0. A Transistor A Triac 0. A to 8 V DC to 0 V AC changeover relay 0 V AC/DC changeover relay NO relay 0 V AC/6 V DC 0 V AC/6 V DC changeover relay 0 V AC/6 V DC changeover relay 0 V AC/6 V DC 0. ma ma 0. ma 0 ma/ V DC 0. A A 0. A 6 A ma/ V DC 0 ma ma/ V DC 0 ma ma/ V DC 0 ma Page 0 Page 0 Page 00 Page 00 Page 00 0 V AC/DC changeover relay 0 V AC/6 V DC ma/ V DC 0 ma Page

200 Input and output modules Input module SImm Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) A range of space-saving modules for isolation of input signals. Only 6. mm wide and 6 mm deep. DIN rail mounting. Built-in LED shows the status of the input signal for diagnostic purposes. Bridges enable quick and easy linking of the common voltages to save time and reduce installation errors. Identification zone on front face. Connection by screw terminals. Specifications Type Control voltage Control voltage range Current consumption Code Changeover relay output 0 ma - 0 VAC / 6 VDC VDC 9. 0 VAC / DC 0 ma 8 06 VAC / DC 9. 0 VAC / DC 0 ma VAC / DC 9 VAC / DC ma VAC / DC 9 VAC / DC ma Normally open relay output 0 ma - 0 VAC / 6 VDC VDC 9. 0 VDC 0 ma 8 07 General characteristics esponse time (close) (ms) 8 esponse time on closing (ms) 0 Operating frequency (maxi) 0 Hz Mechanical life (operations) 0 x 0 6 Electrical life (number of operations) 6 x 0 6 Protection rating IP 0 Operating temperature ( o C) Storage temperature ( 0 C) Weight (g) Contact AgSnO gold plated 90 Dimensions Changeover relay output 6, Connections / 06 / 06 / Normally open relay output 78 6, To order, see page 6 00

201 Curves 8 06 / 06 / 06 / A 6 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) sing information C Exceeding the value given for the output relay current will remove the gold plating from the contacts and we cannot then guarantee correct operation at low currents. 6 0

202 Input and output modules Output module SImm Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) A range of space-saving modules for isolation of input signals. Only 6. mm wide and 6 mm deep. DIN rail mounting. Built-in LED shows the status of the input signal for diagnostic purposes. Bridges enable quick and easy linking of the common voltages to save time and reduce installation errors. Identification zone on front face. Connection by screw terminals. Specifications Type Control voltage Control voltage range Turn-off voltage (V) Max. current Current Code consumption Transistor output V DC 0 V DC V DC A 6 ma A - à 8 V DC 0 V AC/DC 70 0 V AC/DC 0 V AC/DC A 7 ma V AC 90 0 V AC 0 V AC A 8. ma 8 00 Transistor output A - à 8 V DC Triac output 0. A - à 0 V AC Triac output A - à 0 V AC elay output 6 A - 0 V AC Dimensions Transistor or triac outputs 78 Connections 8 00 / 00 / / 0 / / 0 / 0 / 06 6, 8 V DC. V DC V DC 7 A 6 ma 8 00 V DC 0 V DC V DC 7 A 6 ma V AC 90 0 V AC 0 V AC 7 A 7 ma 8 0 V DC 6. V DC V DC A 6 ma 8 00 V DC 0 V DC V DC A 6 ma V AC/DC 70 0 V AC/DC V AC/DC A 6 ma V AC 0 0 V AC 80 V AC A 7 ma 8 0 V DC 0 V DC V DC 0 A 6 ma 8 0 V DC 9. 0 V DC ma 8 0 V AC/DC 9. 0 V AC/DC ma V AC/DC 9 V AC/DC - - ma V AC/DC 9 V AC/DC - - ma Changeover relay output 6, / 0 / 0 / To order, see page 6 0

203 Curves 8 00 / 00 / / 0 / / 0 / 0 / 0 0. A A 0. A Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) C / 0 / 0 / 06 0 A C A C C C 6 0

204 Solid state I/O modules and mounting boards Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Industrial format Its imaginative design enables either input or output modules to be connected to the mounting boards The boards can be used to create applications with between and channels. Made to order products : Please consult us 0

205 Temperature Temperature controllers controllers Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

206 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

207 Selection guide Temperature controllers Action type Input type Control type Alarm Number of displays Designation (-0 to +0 C) Temperature Output Output Supply voltage Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) esistance (0 to +0 C) temperature detector (0 to +0 C) PT 00 (-wire) (0 to +00 C) Heating Digital (0 to +00 C) or Proportional - - CT 8 A derivative (0 to +0 C) elay A - 0 VAC Page 0 Thermocouple J (0 to +0 C) Heating AND/ O Cooling Thermocouple K niversal configurable: esistance temperature detector PT 00 (--wire)/ Thermocouples J-K--S-L-N/Voltage esistance temperature detector PT 00 (-wire)/ Thermocouples J-K--S-T-L-N/ Voltage/current PID with adaptive tune ( digits) ( digits) () Optional Modbus-Jbus S 8 link on request for MIC 8 controllers Heating O Cooling Heating AND Cooling esistance temperature detector PT 00 (-wire)/ Thermocouples J-K-L-N esistance temperature detector PT 00 (-wire)/ Thermocouples J-K-L-N PID with adaptive tune PID with adaptive tune - ( digits) ( digits) ( digits) (0 to +600 C) (0 to +800 C) (0 to +00 C) CTD MIC 8 Without MODBS J.BS S 8 () link MIC 8 With MODBS J.BS S 8 () link CTD CTD 6 CTH 6 elay A Solid state elay A Solid state elay A Solid state elay A Solid state elay A Solid state elay A Solid state elay A Solid state elay A Solid state elay A Solid state elay A Solid state elay A Solid state 00 to 0 VAC elay A VAC/DC Solid state elay A elay A elay A 00 to 0 VAC VAC/DC 00 to 0 VAC VAC/DC 00 to 0 VAC VAC/DC 00 to 0 VAC VAC/DC 00 to 0 VAC VAC/DC 00 to 0 VAC VAC/DC 00 to 0 VAC VAC/DC Page 9 Page Page 6 Page 6 With this function, the controller performs initial auto tuning of the PID control parameters and performs adaptive tuning of these parameters during operation CT 8 A CTD MIC 8 CTD CTH

208 COMMON FNCTIONS FO THE ANGE OF DIGITAL CONTOLLES Sommaire général SMAT function : auto-tune and adaptive tune Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) The entire range incorporates an algorithm known as SMAT. This algorithm calculates the PID control parameters automatically on starting (auto-tune) and during the process if any changes occur (adaptive tune) without any user intervention. Starting period The SMAT function triggers its auto-tune action to calculate the PID parameters. This enables an optimum approach to reaching the setpoint. During the process The SMAT function triggers its adaptive tune action to recalculate the PID parameters if there is a change in the setpoint or a modification to the load. SOFT-STAT function : gradual preheating This function provides gradual preheating of the process. This makes it possible to prolong the lifetime of the heating element and avoid any thermal shocks. If you require this function, simply set the required output power (OLH) for preheating as well as its action time (t OL). On starting, the inhibition function for the temperature threshold alarm ensures that no fault indication will be acknowledged during preheating. In addition, these controllers also offer the possibility of programming a ramp to gradually increase power to further limit the risk of thermal shocks. OFFSET function : constant offset value There are many applications where it is often difficult to install a sensor in the most ideal location. Indeed, in several cases, the sensor is installed quite far away from the desired location. Installing a sensor at such a distance can generate a measured value which is not actually representative of the process value. It is for this reason that our controllers offer the possibility of programming a constant shift value known as an OFFSET. This OFFSET is the difference between the actual temperature to be measured and the temperature of the location where the sensor is installed. Thus, the value read on the controller is that of the temperature at the monitoring point and not the value at the sensor installation point. Measurement Setpoint Output power 00% OLH Starting Output power limit threshold tol Display reading Starting period Auto-tune During the process Adaptive tune Starting Control Time Output power limit time Gradual power increase ramp (%/s) with OFFSET without OFFSET constant programmed deviation (known as OFFSET) Time Measurement 08

209 SP ADDITIONAL FNCTIONS ONLY AVAILABLE ON THE MIC 8 AND CTD Two independent ramps for switching from one setpoint to another. Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Some processes require a ramp with a gradual increase in power to reach a new setpoint value. In addition, this ramp may require a different gradient in order to switch from one setpoint to another. This second value may be higher or lower than the original. For example, a process may require a rapid heating period and a slow cooling period. It is for this reason that the MIC offers these two options. Two ramps can be programmed independently - one to rise from «SP A» to a higher setpoint value «SP B» and the second to reduce to a lower setpoint «SP C». Note: This function can also be applied to switching from SP to SP. SP : Normal operating temperature of the process SP : Temperature when idle. SP / SP are selected by an external switch without needing to touch the MIC 8 controller, and via the keypad on the CTD. Heating element break monitoring function This function continuously monitors current at the load. It informs the user immediately of a break in the heating element. MIC 8: Loads up to 00 A can be checked using an external current transformer. In addition, the load current can be monitored during the process. Its value in amps can be read directly by pressing the F key. CTD : The software integrates this function without a sensor. Communication via the S 8 serial link compatible with C.BS, MODBS and J.BS protocol DIAL operator console F SP B SP C SP A Current threshold to be checked Setpoint ramps which can be programmed independently to switch from one setpoint to another st setpoint change Main MIC 8 output MIC 8 load break monitoring input Main output Alarm output CY nd setpoint change Switching device Solid state relay Load Current transformer Load break alarm output Time Time 7 PX PLC 79 / 79 counter MIC 8 EM C MIC 8 controller O T F ST F 09

210 Analogue temperature controllers CT8A Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Input by J-K thermo-couple or by thermo-resistance Pt 00 (-wire) regulation modes : ON/OFF or proportional derivative selected by wiring elay output Specifications Type Designation Temperatures Scale divisions Code CT8A esistance temperature detector PT C C C C C Thermocouple J C C C Thermocouple K C C Accessories Code Solder tag connector 8-pin 6 0 Screw terminal or connector socket - 8-pin 6 0 Protective cover IP General characteristics Supply voltage n 0 to 0 VAC 0/60 Hz Operating range 0.8 to. x n Maximum power consumption VA Inputs Thermocouple according to IEC 8 J - K Automatic cold-junction compensation For J - K : semi-conductor Max. line resistance 0 Ω esist. temp. detector Pt 00 according to IEC 7 -wire Derating following line resistance C / 0. Ω Derating with regard to the setpoint Per 0 o C variation in ambient temperature J - K : C Pt 00 : 0. C Derating with regard to the setpoint J - K : C Per 0 Ω of line resistance variation Derating with regard to the setpoint 0. % Per 0 % variation in supply voltage Operation ON/OFF output action 0. % Fixed hysteresis Derived proportional output action % Fixed proportional band (% of full scale) Derived proportiona output action s Period proportional band Output Changeover relay A / 0 V AC max. Mechanical life (operations) x0 Behaviour in the event of sensor failure elay in rest position Scale evolution 80 mm Display accuracy J-K (full scale) ± % Display accuracy Pt 00 (of the full scale) ±. % Temperature limit operation ( C) 0 + Temperature limits stored ( C) Insulation according to standard VDE 00 Group C for 0 Protection class according to DIN 000 Casing IP0 Protection class according to DIN 000 Front panel IP Mounting Clip Connection Solder terminals socket, 8 poles Weight (g) 0 To order, see page 6 0

211 Dimensions Panel cut-out Screw terminal or connector socket - 8-pin base : ref. 6 0 for panel mounting Screw terminal or connector socket - 8-pin base : ref. 6 0 for mounting on DIN rail mm EN 00 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Connector socket Solder tag connector, 8-pin : ref. 6 0 Protective cover - IP : Connections Curves ON/OFF output action - CT8A B Temperature C Setpoint D Output ON E Output OFF F Time G Hysteresis (0. %) 6 Dimensions - mounting Proportional derivative (PD) action - CT8A 7 B Temperature C Setpoint D Output ON E Output OFF F Time H Proportional band (PB) 7 Other information Other possible output type : solid state 0 Other possible supply voltages : V AC and 0 V AC. Please consult us.

212 SP Digital temperature controllers MIC 8 MIC8 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Heating and / or cooling function independent alarms Load break detection setpoint which can be selected remotely Manual / automatic power adjustment S 8 / MODBS-JBS serial communication option Specifications Type Voltages Output Code Without S 8 link 00 to 0 VAC elay Logic VACDC elay Logic 89 0 With S 8 link 00 to 0 VAC elay Logic 89 8 VACDC elay 89 0 Logic 89 Accessories Code Current transformers 0 A / 0 ma Current transformers A / 0 ma Current transformers 0 A / 0 ma Current transformers for EIT 00 A / 0 ma Dimensions MIC 8 Current transformer Panel cut-out 6 O T 8 MIC 8 F EM C F ST 8, x Ø,9 7, ,6 7-0,6 0 To order, see page 6

213 Connections elay output Logic output Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) B 0 V AC / A resistive C Supply D Linear E Main output 0 V AC / A resistive -- : Serial link - : Input 0 ma AC (Current transformer connected for load break monitoring or selection of nd setpoint) Applications Display NO OT C NO OT / OT - ~ S 8 TX- / X- TX+ / X+ 0V CT / SP - SP C NO O T MIC 8 F EM C F ST SP NO OT C NO - ~ OT / OT S 8 TX- / X- TX+ / X+ 0V CT / SP - SP B 0 V AC / A resistive C Supply D Linear E Main output 0 V AC / A resistive -- : Serial link - : Input 0 ma AC (Current transformer connected for load break monitoring or selection of nd setpoint) B Lower display : - setpoint - output power - heating element consumption (in amps) - abbreviation of the parameter selected during programming C Main output status LED, lit when the output is active. D Cool output or alarm output status LED, lit when the output is active E Load break alarm output and/or alarm output status LED, lit when the output is active F Manual/automatic operation. The LED flashes when the controller is in manual mode G Parameter modification and direct access to the setpoint H Parameter selection and validation in configuration and parameter definition modes. This key is also used to display the output power and the heating element consumption I SP LED flashes slowly when control occurs at setpoint SP. SP LED flashes rapidly when the setpoint value is programmed via the S8 serial link J LED indicating the SMAT function K When the sensor input is connected to a thermocouple or a Pt00, the LED corresponding to the selected unit of measurement is lit L EM LED on when the controller is communicating via the S8 serial link M pper display : -measurement -parameter values during programming

214 Digital temperature controllers MIC 8 MIC8 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) General characteristics Supply 00 to 0 VAC, VACDC Frequency (Hz) 0 / 60 Tolerance - % +0 % n Consumption 8 VA max. Display measurement red LEDs- digits, 7 segment, height 0 mm Display setpoint green LEDs- digits, 7 segment, height 7. mm Serial link Type S8 Protocol MODBS, J.BS Address Number of data bits 8 Transmission speed Bauds Parity even, odd, no Stop bit Physical details and protection Insulation resistance conforming > 00 MΩ to IEC 8 Insulation voltage according to 00 V IEC 8 Immunity to interference Level conforming to IEC 80- Immunity to interference 8000 V conforming to IEC 80- Accuracy ± 0. % of the full measurement scale ± digit at an ambient temperature of o C at n Temperature limit operation ( C) 0 +0 Temperature limits stored ( C) C elative humidity (no 0 8 % h condensation) Housing Material housing self-extinguishing L9 grade VO Front panel Polycarbonate membrane Protection class according to IEC IP 9 (IEC 70-) Connection screw terminals Weight (g) 0 Approvals L / CSA in progress Protection Safe-guard detects a fault in the equipment caused by external interference and activates automatic reset without modification of the process. Switch the configuration and calibration are accessed via an internal switch, can only be accessed when the device is unplugged. Control characteristics Control algorithm PID with auto-tune and adaptive tune : SMAT Control type heat or cool heat / cool Sampling time linear input 0 ms Sampling time TC and TD input 00 ms Proportional band Pb heat or cool.0 to 00 % of scale amplitude Proportional band Pb heat - cool. to 00 % of scale amplitude Proportional band Pb - Note : if Pb = 0 % discrete action Hysteresis (during discrete action) 0. to 0 % of scale amplitude Integral time ti 0 s to 0 min Note : if ti > 0 min integral action is inactive Derivative time td. s to 0 min Note : if td=0 derivative action is inactive Cycle time heating s 00 s Cycle time cooling s 00 s Heat-cool control rc x heat proportional band Cool proportional band Heat-cool control rc : relative gain Heat-cool control dead.overlap band -0 % to + 0 % of the heat proportional band Characteristics Inputs Thermocouples J, K,, S, and N IEC 8- Thermocouples L DIN 70 eference junction Automatic cold junction compensation : 0 to 0 o C (Thermocouples) eference junction drift 0. C / C Input impedance (kω) > M Ω Calibration (IEC 8-) esist. temp. detector -wire Pt 00 conforming to DIN 760 Line resistance 0 Ω max. (esistance temperature detector) Input type and standard range TC L (0/00 C) (0/60 F) (0/900 C) J (0/00 C) (0/80 F) (0/000 C) K (0/00 C) (0/90 F) (0/00 C) N (0/00 C) (0/0 F) (0/760 C) (0/00 F) S (0/760 C) (0/00 F) Input types and standard (-99.9/00.0 C) (-99.9/00.0 F) rangetd Pt00 (-00/800 C) (-0/70 F) Measurement range Decimal point adjustable : , , , Current transformer input for monitoring the load break Input 0 ma AC Measurement range with 0 A 00 A transformer esolution 0 to 0 A : 0. A to 00 A : A Measurement logic threshold elay output : NO or NC Logic output : level or 0 Measurement update period 0 ms Setpoints - main setpoint : SP - auxiliary setpoint : SP Selection input SP/SP 0 ma AC selection via external N/C type contact Output Type of output discontinuous Action type can be programmed for heating and/or cooling Limitation of output power : SOFT- adjustable from 0 to 00 % STAT- heat action Limitation of output power : SOFT- adjustable from -00 to +00 % STAT-heat/cool action Output specification OT Main output N/O contact A 0 V AC resistive (N/C contact is possible via a jumper) OT Main output logic Level 0 : <0. V DC Level : V DC±0 0 ma max V DC±0 ma max Main output cycle time s 99 s OT Cool output or alarm N/O-A contact, 0 V AC resistive output OT Load break output and/or N/O-A contact, 0 V AC resistive alarm output Description of alarms and Type of output direct or reverse Functions absolute alarm band alarm deviation alarm eset to zero Manual / automatic Inhibition Configuration Alarm threshold - absolute alarm absolute value independent from SP Alarm threshold - band alarm value relative to SP, adjustable from 0 to 00 C/ F Alarm threshold - deviation alarm value relative to SP, adjustable from-00 C/ F (negative deviation) to + 00 C/ F (positive deviation) Alarm 0. to 0 % of scale amplitude

215 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

216 Digital temperature controllers CTH/CTD CTD /6 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) CTH 6 Heating / cooling function Measurement and setpoint display CTD CTD Heating or cooling function Measurement display Measurement deviation display-setpoint via LED configurable alarm CTD 6 CTD 6 Heating or cooling function Measurement and setpoint display configurable alarm Specifications Type Supply voltage Output Code CTH V AC elay Logic 89 8 V AC DC elay 89 0 Logic 89 CTD 00 0 V AC elay Logic 89 8 V AC DC elay 89 0 Logic 89 CTD V AC elay Logic 89 8 V AC DC elay 89 0 Logic 89 Connections CTH 6 relay output CTH 6 logic output CTD relay output B Supply C Main output 0 V AC / A resistive D Cool output 0 AC / A resistive E - : Input 0 ma AC (Current transformer connected for load break monitoring or selection of nd setpoint) CTD logic output B Supply C Main output 0- V DC / 0 ma max D Cool output 0 V AC / A rtesistive E - : Input 0 ma AC (Current transformer connected for load break monitoring or selection of nd setpoint) B Supply C Main output 0 V AC / A D Alarm output 0 V AC / A E Thermocouple or resistance temperature detector connection B Supply C Main output 0- V DC / 0 ma max D Alarm output 0 V AC / A E Thermocouple or resistance temperature detector connection To order, see page 6 6

217 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Supply 00 to 0 VAC Frequency (Hz) 0 / 60 Tolerance - % +0 % n Consumption VA Display CTD Measurement or setpoint : red LEDs, -digit, 7-segment, height 0 mm Display CTH 7 / CTD 6 Measurement : red LEDs, -digit, 7-segment, height 0 mm Setpoint : green LEDs, -digit, 7-segment, height 7. mm Protection Switch the configuration and calibration are accessed via an internal switch, which can only be accessed when the equipment is disconnected Physical details and protection Insulation resistance conforming to IEC 8 > 00 MΩ Insulation voltage according to IEC 8 00 V Immunity to interference conforming to IEC 80- Level Immunity to interference conforming to IEC V Accuracy ± 0. % of the full measurement scale at an ambient temperature of o C at n Temperature limit operation ( C) 0 +0 C Temperature limits stored ( C) C elative humidity (h no condensation) 0 8 % Housing Material housing self-extinguishing L9 VO grade Front panel polycarbonate membrane Protection class according to IEC 9 (IEC 70-) IP Connection screw terminals Weight (g) 60 Approvals L/CSA Characteristics Inputs Thermocouples J, K, and N IEC 8- Thermocouples L DIN 70 eference junction Automatic cold junction compesation : 0 to 0 o C (Thermocouples) eference junction drift 0. C / C Line resistance 00 Ω max Calibration (IEC 8-) IEC 8 - esist. temp. detector Pt 00 according to IEC 7 -wire Line resistance < Ω Input type and standard range TC L (0/800 C) (0/999 F) / J (0/800 C) (0/999 F) K (0/999 C) (0/999 F) / N (0/999 C) (0/999 F) Input types and standard rangetd Pt00 (-99/00 C) (-9.9/99.9 F) (-99/999 C) Output Type of output discontinuous Action type CTH 6 - CTD - CTD 6 heating-cooling Limitation of output power : SOFT-STAT- heat action adjustable from 0 to 00 % Limitation of output power : SOFT-STAT-heat/cool action adjustable from -00 to + 00 % Main output changeover relay A 0 V AC resistive Main output--logic Max. load : 700 Ω Level 0 : < 0. V DC Level : V DC ± 0 0 ma max V DC ± 0 ma max Main output cycle time s 00 s Cool output CTH 6 only N/O- A contact, 0 V AC resistive Alarm output CTD -CTD 6 only N/O- A contact, 0 V AC resistive Control characteristics Control algorithm PID with auto-tune and adaptive tune : SMAT Control type CTD CTD 6 heating or cooling Control type CTH 6 heating-cooling Sampling time 00 ms Proportional band Pb CTD - CTD 6.0 % to 99.9 % of scale amplitude Proportional band Pb CTH 6. % to 99.9 % of scale amplitude Proportional band Pb. Note : if Pb = 0 % discrete action Hysteresis (during discrete action) 0. % to 0 % of scale amplitude Integral time ti min 0 s to 0 min 0 s (0 s resolution) Derivative time td. Note : if td=0 s to 9 min 9 s Cycle time heating s 00 s Cycle time cooling (CTH6 only) s 00 s Heat-cool control CTH 6 : Cool proportional band rc x heat proportional band Heat-cool control : rc : relative gain Heat-cool control CTH 6 : dead.overlap band -0 % to + 0 % of the heat proportional band Alarms (on CTD and CTD 6 only) Type of output direct or reverse Functions absolute alarm, band alarm, deviation alarm eset to zero manual Inhibition can be configured Alarm threshold - absolute alarm absolute value independent from SP Alarm threshold - band alarm value relative to SP, adjustable from 0 to 00 C/ F Alarm threshold - deviation alarm value relative to SP, adjustable from-99 C/ F (negative deviation) to +00 C/ F (positive deviation) Alarm 0. to 0 % of scale amplitude 7 7

218 Dimensions CTH / CTD Panel cut-out Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) ST F ,6-0,6 0 8

219 Temperature controller/indicator CTD CTD Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Concentrated technology and power, using the minimum of space. The Smart function ensures precision auto-tuning of the CTD Specifications Type Output Output Supply Code CTD relay A-0 V resistive load relay A-0 V resistive load 00-0 AC AC-DC logic V-0 ma 00-0 AC AC-DC 89 7 logic V-0 ma logic V-0 ma 00-0 AC AC-DC 89 7 General characteristics Display digits niversal input (configurable) Thermocouples J (-00.0/999.9 C) (-0/80 F) K (-00/70 C) (-0/00 F) (-0/760 C) (-60/00 F) S (-0/760 C) (-60/00 F) T (-99.9/00 C) (-0/70 F) L (-00.0/900.0 C) (-0/60 F) N (-00/00 C) (-0/0 F) niversal input (configurable) Pt 00 and -wire (-99.9/80.0 C) (-0/60 F) niversal input (configurable) Linear 0-60 mv, -60 mv Dimensions x 8 x 0 mm Control PID algorithm Auto-tune using SMAT function Inverse and/or direct action Soft start function for preheating Alarms Configurable Control loop monitoring eference points Selected with the ramp function between them Connection emovable screw terminal block Weight (g) 90 Degree of protection of front panel IP 6 - Nema X Dimensions ,6 0, +0, 0 Outline and cut out dimensions To order, see page 6 9

220 Temperature probes Temperature probes Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Thermocouple J : - Nickel-plated brass eyelet - Stainless steel casing - Stainless steel sheath Thermocouple K PT 00 Class B : - Stainless steel sheath - Aluminium vee Connection / Sub-base / Flange Specifications Type Designation Temperature Characteristics Code Thermocouple Thermocouple probe J max : 00 C Thermocouple probe J with nickelplated / PT00 brass eyelet Ø 6. mm, connection sleeve Ø x 0 mm in stainless steel 6 L. Glass filament cable with stainless steel braid : m long Hot junction isolated from earth max : 600 C Thermocouple probe J with casing St. steel 0 L Ø mm : 00 mm long PVC cable : m long Junction cannot be removed Junction isolated from earth max : 00 C Thermocouple probe J with sheath St. steel 6 L Ø 6 mm : 00 mm long Glass filament cable with stailess steel braid : m long Junction isolated from earth Thermocouple probe J with sheath ST steel 6 L Ø mm : 0 mm long Glass filament cable with stainless steel braid : m long Junction isolated from earth Thermocouple probe K max : 00 C Thermocouple probe K with casing St. steel 0 L Ø mm : 00 mm long PVC cable : m long Junction isolated from earth PT00 probe Class B max : 00 C PT00 probe Class B with sheath St. steel 6 L Ø 6 mm : 00 mm long Silicon teflon cable : m long -wire assembly max : 00 C PT00 probe Class B with sheath St. steel 6 L Ø 6 mm : 0 mm long Glass filament cable with stainless steel braid : m long -wire assembly max : 00 C PT00 probe Class B Aluminium vee : 0 mm long Silicom teflon cable : m long -wire assembly Supplied with fixing clamp Accessories Characteristics Code Connection Sliding connection / " BSP CYL. St. steel 6 L Ø mm Sliding connection / " BSP CYL. St. steel 6 L Ø 6 mm Sliding connection / " BSP CYL. St. steel 6 L Ø 6 mm Sub-base Sliding connection / " BSP CYL Ø mm Nickel-plated steel Flange Galvanised steel flange Ø 6 mm To order, see page 6 0

221 Dimensions Connection : Connection : Connection : Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Sub-base : Flange : / G 9 Ø / G B 7 across flat Thermocouple probe J : Thermocouple probe J : B Flexible C Stainless steel sleeve Thermocouple probe J : Thermocouple probe J : Thermocouple probe K : PT00 probe Class B : Ø 6 B Flexible C Stainless steel sleeve Ø 8 Ø 000 Ø 6 PT00 probe Class B : PT00 probe Class B : Ø, Ø Ø 6 Ø 6, 0 Ø Ø Ø 6 Ø 6 / G Ø 7 0 6, 8 Ø Ø B Aluminium vee Ø / G 80 0 Ø, 0 Ø Ø 00 Ø

222 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

223 Counters Counters and and atemeters atemeters Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

224 Selection guide Counters Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) WITHOT PESELECTION Function Counters and impulse counters x 8 6 x 7 6 x 8 Dimensions (mm) digits 6 digits LCD 8 digits digits 6 digits digits 6 digits Display - 0 to 60 Hz - 0 to 60 Hz 00 Hz 7 KHz 7. KHz LCD 8 x 7. KHz 8 digits - 0 to 60 Hz - 0 to 60 Hz - 0 to 60 Hz - 0 to 60 Hz Max. counting speed - Volt-free or Solid state contact Voltage Volt-free contact. Solid state or Voltage Solid state Voltage - - Counter input Volt-free contact V DC V AC V AC 0 V AC V DC V AC V AC 0 V AC Lithium battery Lithium battery V DC V AC V AC 0 V AC V DC V AC V AC 0 V AC V DC V AC V AC 0 V AC V DC V AC V AC Supply voltage Yes No Yes No Yes Yes No Yes No Manual reset Electromechanical counter x 8 mm CP 9 CP 9 CP 08 - C08 sealed version 08 Electromechanical counter 6 x 7 mm Electromechanical counter 6 x 8 mm Designation CP - CP Timing range Page 6 Page 0 Page 0 Page 6 Page 6 Page 8 Page 60 Page 6 Electromechanical counter x 8 mm CP 08 Electromechanical counter 6 x 7 mm Electromechanical counter 6 x 8 mm 0 V AC 6 x 7 LCD 8 digits KHz Volt-free contact. Solid state or Voltage Lithium battery Yes - Page

225 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) WITHOT PESELECTION Function Hour counter/ Chronometer Hour counters Hour totalizer module Totalizer and ratemeter Tachometer LCD x 8 7 KHz 6 digits LCD x 8-6 digits 8 x 8 8 x Dimensions (mm) 0 Hz digits Voltage LCD 8 digits Display 60 Hz 7. KHz Max. counting speed Volt-free contact Lithium Second Yes CP 08H Minute battery Hour Page 0 Volt-free contact or Solid state CP Voltage Counter input Volt-free contact Lithium battery 8 to 6 V AC 6 to 8 V AC 0 to 7 V AC 0 to 0 V AC to 0 V AC 0 to 7 V AC 0 to 0 V AC Lithium battery Supply voltage No No Yes CH 8 G C08 sealed version E E LCD Volt-free contact. Lithium 6 x 7 KHz Yes - 6 digits Solid state or Voltage battery Yes Manual reset CP Designation Second Minute Hour Hour Hour Timing range Page Page 66 Page 6 Page 8 LCD Volt-free contact. Lithium 6 x 7 KHz Yes 9 - Page 8 digits Solid state or Voltage battery Page CP CH 8 G 9 8

226 Function Counting input modes Display Number of presets P pcounting DN Downcounting CML Cumulative counting DI Directional up-down counting IND Independent up-down counting PH Encoder phase shift PH Encoder phase shift X PH Encoder phase shift X BATCH Batch counting Dimensions (mm) Max. counting speed (KHz) Output 0 to 0 VDC Supply voltage Designation Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) WITH PESELECTION pcounter Downcounter x x x 8 x 8 x x x 8 x 8 x x x x x x x x 7 x 7 x x x 8 x 8 x x x x 8 x 8 x x x 8 x 8 x x x x 8 x 8 x x x x x x x x 7 x 7 LCD digits LCD red digits LCD 6 digits LCD red 6 digits LCD digits LCD digits LCD red digits LCD red digits LCD 6 digits LCD red 6 digits changeover contact and solid state changeover contact and solid state contact and solid state contact solid state contact solid state contact solid state contact solid state changeover and solid state 0 to VAC 80 to 60 VAC CP 0 to 0 VDC 0 to VAC 80 to 60 VAC 0 to 0 VDC 0 to VAC 80 to 60 VAC CP 0 to 0 VDC 0 to VAC 80 to 60 VAC 0 to 0 VDC 0 to VAC 80 to 60 VAC 0 to 0 VDC 0 to VAC 80 to 60 VAC 0 to 0 VDC 0 to VAC CP7 7 CP to 60 VAC CP 0 to 0 VDC 0 to VAC 80 to 60 VAC 0 to 0 VDC 0 to VAC 80 to 60 VAC CP 0 to 0 VDC 0 to VAC 80 to 60 VAC 0 to 0 VDC 0 to VAC 80 to 60 VAC CP 0 to 0 VDC 0 to VAC 80 to 60 VAC 0 to 0 VDC 0 to VAC 80 to 60 VAC CP 0 to 0 VDC 0 to VAC 80 to 60 VAC 0 to 0 VDC 0 to VAC 80 to 60 VAC 0 to 0 VDC 0 to VAC 80 to 60 VAC CP7 7 CP7 7 Page Page Page 6 Page 7 Page Page Page Page Page 6 Page 7 CP CP7 7 CP CP7 7 6

227 Function Number of presets P pcounting DN Downcounting CML Cumulative counting DI Directional up-down counting IND Independent up-down counting Counting input modes Dimensions (mm) PH Encoder phase shift PH Encoder phase shift X PH Encoder phase shift X BATCH Batch counting Display Max. counting speed (KHz) Output 0 to 0 VDC Supply voltage Designation Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) WITH PESELECTION pcounter Downcounter Batch counter Chronometer Tachometer eminder of input counting modes: x x x x x x x x x 8 x 8 x x x x x x x x x 8 x 8 x x x x x x x x x 7 x 7 P pcounting DN Downcounting CML.... Cumulative counting DI Directional up-down counting IND Independent up-down counting PH Encoder phase shift PH Encoder phase shift X PH Encoder phase shift X BATCH..... Batch counting LCD digits LCD red digits LCD 6 digits LCD red 6 digits contact solid state contact solid state changeover and solid state 0 to VAC 80 to 60 VAC CP 9 0 to 0 VDC 0 to VAC 80 to 60 VAC 0 to 0 VDC 0 to VAC 80 to 60 VAC CP 9 0 to 0 VDC 0 to VAC 80 to 60 VAC 0 to 0 VDC 0 to VAC 80 to 60 VAC 0 to 0 VDC 0 to VAC 80 to 60 VAC CP7 79 CP7 79 Page Page Page 6 Page 7 CP 9 CP

228 Our range of counters will handle a vast variety of applications Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Preselection down counters Signal to cut Inputs A and B out of phase Encoder Motor Slowdown P OT P OT MODE P P ST P OT P OT MODE P P ST Cutting to length (paper, textiles, wood, etc.) CP7 Encoder Slowdown Stop Monitoring of length fed out Amount dispensed Fast-fill valve CP7 Slow-fill valve P ST CP Control of filling 8

229 Impulse / hour totalizers Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Counting parts eadout of flow rate Photocell Motor CP / eadout of length drawn off Tachometers 9 9 Photocell eadout of speed 9 Motor Inductive sensor Inductive sensor 8 eadout of number of bottles or output rate of filling line 9

230 Basic principles of tachometers Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) General Tachometers can be used to measure speeds (of linear or rotary movement), rates (per minute or per hour), or rates of flow (volumetric, etc.). Pulses are fed to the tachometer at the frequency to be measured. A scale factor is applied to produce readings of the desired type (linear speeds, flow rates, etc.). Crouzet/Syrelec tachometers operate on different principles : - The fixed time base principle, and - The reciprocal principle - Principle of the fixed time base tachometer The tachometer totals the number of pulses received during a fixed period of time known as the time base. At the end of this period, a value for the frequency measured is shown on the display. The time base can be set at the time of installation. It is calculated from the formula shown below, where : B : is the time base being calculated, N d : is the number of pulses per revolution, N t : is the number of revolutions per minute, and V : is the value that will appear on the display. The time base is given by : Once the time base has been calculated, it is set by means of DIP switches (or changeover switches) situated on the unit. As an example: Assume a sensor emits 8 pulses per revolution. What you want to see on the display is a speed in revs per minute. The maximum this speed can be is 000 rpm. N d = 8 N t = 000 V = N t (since what you want displayed is a speed in rpm). Fixed time base tachometers are useful for high speeds but, if the accuracy obtained is to be good, it is essential for the number of pulses per revolution to be high. To overcome this drawback, Crouzet Automation can supply reciprocal tachometers. These need only a single pulse per revolution and are able to measure both high and low speeds. - Principle of the reciprocal tachometer This tachometer measures the intervals between n count pulses (the period) and then performs the calculation to obtain a frequency. f = T B= Vx60 Nt xnd 000 x60 B= = 7, secondes 000x8 The parameters which govern this tachometer are the following : Measurement begins the sampling time (T r ) the time limit for measurement (T L ) T T TL Measurement ends Time limit for measurement Pulses emitted by the sensor Measurement ends at the rising edge of the first pulse after T r. If no pulse is received after T, the system waits until the time limit T L and then shows zero on the display. If the frequency of the signal is low, conditions are as shown below : Tr T Enables end of measurement The interval between rising edges is very much longer than T r. The tachometer displays 0 until time T, at which it displays the new value. 0

231 Preselection and multifunction up/down counters 8x8 CP : back-lit LCD display CP ed illuminated display Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Physical details and protection Immunity from micro power cuts Version 0 to 0 V DC : 0 ms Version 0 to V AC : 0 ms Version 80 to 60 V AC : 0 ms 9 % elative humidity (no condensation) Altitude m Insulation (IEC 66-). kω Standards Conforming to IEC : Level Conforming to IEC : Level Conforming to IEC : Level Conforming to IEC : Level Conforming to EN 0/ group : Class A Vibration resistance in axes acc. 0 - Hz / 0. mm to IEC Material Self-extinguishing Connection by screw terminals Tightening capacity x. mm Mounting Front panel, by clip Front panel protection IP Front panel watertight seal Temperatures limits use ( C) 0 + Temperature limits stored ( C) Weight (g) 00 Outputs solid state characteristics Type NPN open collector Maximum current 00 ma Maximum voltage 0 V DC Voltage drop <. V esponse time < 0 µs Outputs elay characteristics Current rating A Maximum voltage 0 V AC Max contact rating (resistive) - 00 VA AC ated current 0 ma esponse time < 0 ms Mechanical life (operations) x 0 6 Permitted number of operations at x 0 A AC Output modes : maintained or t = 0. s to 9.9 s for types 9 and pulsed 9 t = 00 ms for other types Single shot or repetitive (immediate auto reset) Supply (min/max values) 0 0 V DC 0 V AC V AC Maximum consumption - Version W DC Maximum consumption - Version 0 VA AC Operating characteristics Functions Preselection up/down counter Multifunction : counters, "Batch" counters, tachometers and chronometers Number of presets or Back-lit LCD or red illuminated Current value : digits display Preset : digits Height of digits Current value : 8 mm Preset : mm Display details Simultaneous readout of count value and preset Inputs specifications counting inputs IN, IN Input modes P, DN, CML, DI, IND PHASE, PHASE x PHASE x Input by contact, voltage or solid state device for -wire and -wire detection using external resistor (NPN or PNP if present) Low level High level Impedance Counting speed Counter Counting speed - Multifunction Counter P, DOWN, DI Counter non simultaneous IND, CML (IN & IN non simultaneous) Counter IND, CML (IN & IN simultaneous) Counter / Tachometer PH, PH Counter /Tachometer PH, PH (except in Batch mode) Counter PH Tachometer P, DOWN, DI Tachometer IND, CML (IN IN non simultaneous) Tachometer IND, CML (IN IN simultaneous) Tachometer PH eset eset to zero or to preset Minimum pulse time Low level High level Impedance Option to protect against reset from front panel Scale factor (each input pulse is multiplied by this figure) Decimal point selectable for ease of reading Sensor supply Version AC Sensor supply Version DC Programming and current value backed up via EEPOM memory V DC 0 V DC 0 KΩ khz or 0 Hz. khz PH 7. khz 7. khz.0 khz.0 khz.0 khz. khz 9.0 khz 9.0 khz.0 khz.0 khz From front panel : if not protected in programming phase Electrical : by contact, voltage or solid state device (NPN or PNP if present) ms 0 V DC 0 V DC 0 KΩ xxxxx, xxxx.x, xxx.xx, xx.xxx, V DC / 00 ma n - V / 00 ma 8

232 Preselection and multifunction up/down counters 8x8 CP : back-lit LCD display Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Presets and scale factor easy to alter Large back-lit LCD display or red illuminated display Simultaneous display of current value and preset Safeguarded : good resistance to interference Backed up on EEPOM memory Slide-out electronics for easy maintenance Specifications Type Time base Counting input modes Designation Output Voltages Code - preset - P, DN, PH p/down counter contact and solid state 0 to 0 VDC to VAC to 60 VAC changeover relay 0 to 0 VDC to VAC to 60 VAC preset - P, DN, PH p/down counters solid states 0 to 0 V to VAC to 60 VAC contacts 0 to 0 VDC to VAC to 60 VAC preset - DI, IND, CML, PH p/down counters solid states 0 to 0 VDC to VAC to 60 VAC contacts 0 to 0 VDC to VAC to 60 VAC preset 99h9min - 99min9s s -h Connections P, DN, IND, CML, DI, PH, PH, PH Multifunctions : Counters - "Batch" counters - tachometers and chronometers NO, solid states 0 to 0 VDC to VDC to 60 VDC NO, contacts 0 to 0 VDC to VDC to 60 VDC B Supply B Supply B Supply B Supply To order, see page 6. Curves : see page 8

233 Preselection and multifunction up/down counters 8x8 CP ed illuminated display Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Presets and scale factor easy to alter Large back-lit LCD display or red illuminated display Simultaneous display of current value and preset Safeguarded : good resistance to interference Backed up on EEPOM memory Slide-out electronics for easy maintenance Specifications Type Time base Counting input modes Designation Output Voltages Code - preset - P, DN, PH p/down counter NO, contact and 0 to 0 VDC solid state 0 to VAC to 60 VAC changeover relay 0 to 0 VDC to VAC to 60 VAC preset - P, DN, PH p/down counters NO, solid states 0 to 0 VDC to VAC to 60 VAC NO, contacts 0 to 0 VDC to VAC to 60 VAC preset - DI, IND, CML, PH p/down counters NO, solid states 0 to 0 VDC to VAC to 60 VAC NO, contacts 0 to 0 VDC to VAC to 60 VAC preset 99h9min - 99min9s s - h Dimensions CP 8 P, DN, IND, CML, DI, PH, PH, PH P 8 ST Panel cut-out Multifunctions : Counters - "Batch" counters - Totalizers - Tachometers - Chronometers NO, solid states 0 to 0 VDC to VAC to 60 VAC to 0 VDC to VAC to 60 VAC B Panel thickness to 0 mm C Fixing clip D Positioning screw 8 To order, see page 6. Curves : see page 8

234 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

235 Preselection and Multifunction up/down counters 7x7 CP7 : Back lit display CP7 : red illuminated display Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Physical details and protection Immunity from micro power cuts Version 0 to 0 V DC : 0 ms Version 0 to V AC : 0 ms Version 80 to 60 V AC : 0 ms 9 % elative humidity (no condensation) Altitude m Insulation (IEC-66-). kv Standards Conforming to IEC : Level Conforming to IEC : Level Conforming to IEC : Level Conforming to IEC : Level Conforming to EN 0/ group : Class A Vibration resistance in axes acc. 0 - Hz / 0. mm to IEC Material Self-extinguishing Connection by screw terminals Terminal capacity x. mm Mounting Front panel, by clip Front panel protection IP Front panel watertight seal Temperatures limits use ( C) 0 + Temperature limits stored ( C) Weight (g) 90 Outputs solid state characteristics Type NPN open collector Maximum current 00 ma Maximum voltage 0 V DC Voltage drop <. V esponse time < 0 µs elay output characteristics or changeover relays Current rating A Maximum voltage 0 V AC Max contact rating (resistive) - 00 VA AC ated current 00 ma esponse time < 0 ms Mechanical life (operations) x 0 7 Electrical life under I max. x 0 resistive AC Output modes : maintened or t = 0.9 s to 9.9 s for types 79 and pulsed (fixed pulse duration) 79 t = 00 ms for other types Single shot or repetitive (immediate auto reset) Supply (min/max values) 0 0 V DC 0 V AC V AC Maximum consumption - Version < W DC Maximum consumption - Version < VA AC Operating characteristics Functions Preselection up/down counter Multifunction : counters, "Batch" counters, tachometers and chronometers Number of presets or Back-lit LCD or red illuminated display Current value : 6 digits Preset : 6 digits Height of digits Current value : 0 mm Preset : 6 mm Display details Inputs specifications counting inputs IN, IN inhibit input Input modes P, DN, CML, DI, IND PHASE, PHASE x PHASE x Contact, voltage or solid state (NPN/PNP by changeover switch) Low level 0 V DC High level 0 V DC Impedance 0 kω Counting speed Counter khz (. khz in phase ) 0 Hz in debounce mode Counting speed - Multifunction Counter P, DOWN, DI 7. khz Counter non simultaneous IND, 7. khz CML (IN & IN non simultaneous) Counter IND, CML (IN & IN.0 khz simultaneous) Counter / Tachometer PH, PH.0 khz Counter /Tachometer PH, PH.0 khz (except in Batch mode) Counter PH. khz Tachometer P, DOWN, DI 9.0 khz Tachometer IND, CML (IN IN 9.0 khz non simultaneous) Tachometer IND, CML (IN IN.0 khz simultaneous) Tachometer PH.0 khz Totalizer P, DOWN, DI 6.0 khz Totalizer IND, CML (IN & IN 6.0 khz non simultaneous) Totalizer IND, CML (IN & IN.0 khz simultaneous) Totalizer PH, PH. khz Totalizer PH. khz eset eset to zero or to preset Minimum pulse time Low level High level Impedance Option to protect against reset from front panel Scale factor (each input pulse is multiplied by this figure) Decimal point selectable for ease of reading Sensor supply Version AC Sensor supply Version DC Programming and current value backed up via EEPOM memory From front panel : if not protected in programming phase Electrical : by contact, voltage or solid state device (NPN or PNP if present) ms 0 V DC 0 V DC 0 kω xxxxxx, xxxxx.x, xxxx.xx, xxx.xxx, xx.xxxx V DC / 00 ma n - V / 00 ma 8

236 Preselection and Multifunction up/down counters 7x7 CP7 : Back lit display Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Presets and scale factor easy to alter Large back-lit LCD display or red illuminated display Simultaneous display of current value and preset Safeguarded : good resistance to interference Backed up on EEPOM memory Slide-out electronics for easy maintenance Specifications Type Time base Counting input modes Designation Output Voltages Code 7- preset - P, DN, IND, CML, DI, p/down counters changeover realy 0 to 0 VDC PH, PH, PH + solid state relay 0 to VAC to 60 VAC preset - P, DN, IND, CML, DI, PH, PH, PH 79- preset 99h9min - 99min9s s - h h min Connections B Supply P, DN, IND, CML, DI, PH, PH, PH B Supply p/down counters Multifunctions : Counters - "Batch" counters - Tachometers and chronometers - Totalizers changeover relays + solid states changeover relays + solid states 0 to 0 VDC to VAC to 60 VAC to 0 VDC to VAC to 60 VAC To order, see page 6. Curves : see page 8 6

237 Preselection and Multifunction up/down counters 7x7 CP7 : red illuminated display Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Presets and scale factor easy to alter Large back-lit LCD display or red illuminated display Simultaneous display of current value and preset Safeguarded : good resistance to interference Backed up on EEPOM memory Slide-out electronics for easy maintenance Specifications Type Time base Counting input modes Designation Output Voltages Code 7- preset - P, DN, IND, CML, DI, p/down counter changeover relay + 0 to 0 VDC PH, PH, PH solid state 0 to VAC to 60 VAC preset - P, DN, IND, CML, DI, PH, PH, PH 79- preset 99h9min - 99min9s s - h h min Dimensions CP7 0 7 P P OT P OT P 7 ST P, DN, IND, CML, DI, PH, PH, PH B Panel thickness C Screw p/down counter Multifunctions : Counters - "Batch" counters - Totalizers - Tachometers - Chronometers changeover relays + solid states changeover relays + solid states Panel cut-out to 0 VDC to VAC to VAC to 0 VDC to VAC to 60 VAC To order, see page 6. Curves : see page 8 7

238 Compteurs Preselection à préselection and multifunction et multifonctions counters CP CP - CP7 - CP7 Input Modes modes d'entrées Output modes Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Input modes P DN IND CML DI PH PH PH Input IN Display Input IN Display Input IN Input IN Display (0 P) Display (P 0) PNP Count on rising edge NPN Count on falling edge Input IN count in the direction of the cycle Input IN count in the opposite direction from the cycle Display (0 P) channel up/down counter Display (P 0) channel up/down counter Input IN count in the direction of the cycle Input IN count in the direction of the cycle Display (0 P) channel up/down counter Display (P 0) channel up/down counter Input IN pulses Input IN count in the opposite direction from the cycle Display (0 P) channel up/down counter Display (P 0) channel up/down counter Signal 90 } out of phase Input IN, counts on rising and falling edges Input IN, direction of count reversed if IN in advance of IN Display (0 P) Display (P 0) Input IN, counts on rising and falling edges Input IN, counts on rising and falling edges, direction of count reversed if IN in advance of IN Display (0 P) Display (P 0) 0 6 n n- n- n- n- n- n n n - n - n - n - n - n n - 0 n n- n - n - n - n p 7... DOWN 0 0 n n - n - n - n - n - n n - =0 =n n - n - n - n- n - n - 0 n n- n- n- n- n- n- n- n- n n n- n- n- n- n- n-6 n-7 p Single shot Maintained Pulsed (transient pulse) (t = 00 ms) t = 0.s to 9.9s for multifunction epetitive cycle Pulsed with auto reset to value of P (or P for preset) (t = 00 ms) t = 0.s to 9.9s for multifunction Count in the direction of the cycle Preset P 0 P P P- P P+ P P+ P P----- ON OFF or ou Presets P 0 P-----P+ P P- P P- P P P P- P P+ P P+ P P----- ON OFF Preset P P P- P P+ P+ P+ P P- Presets P 0 P P+ P P- P----- P P+ P P P- P P+ P+--- P P- P P 0 P P P P n n P P+ 0 P P n n Batch counter function Principle P is the batch preset. When P is displayed, the value displayed on the upper digits represents the current counter value (reset to P). In this configuration the ST key on the front panel reinitialises the current value. When P (batch preset) is displayed, the value displayed on the upper digits represents the value of the Batch counter. In this configuration the ST key on the front panel resets the batch counter. An electrical reset (ST terminal) still resets the current counter value and that of the batch counter Example On a packing line, bottles need to be counted into packs of 6 bottles and then dispatched in a box containing a batch of packs. P : current counter preset value : P : batch counter preset value : 0000 Current counter Batch counter Totalizer function On multifunction CP7 Totalizer reset via front panel only Current value reset via front panel and electrical. t t t t Count in the opposite direction from the cycle t P P----- ON OFF ON OFF ON OFF 8

239 Compteurs Multifunction à préselection counters CP et - multifonctions CP7 CP - CP7 Tachometer Modes d'entrées function Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Measurement principle Measurement begins on a rising edge of the signal to be measured. The measurement time is greater than T, but less than TL. Measurement stops at the end of the current period (), after T. If the period () does not end before TL, the measurement result will be zero (0). The outputs are updated each time measurement ends according to the selected output mode. Maintained output : output active if the measured speed is greater than the preset speed. Pulsed output : output activated during time T, when the preset threshold is crossed. Speed Application example You wish to display a linear speed of.00 m/s for a drive pulley rotating at 00 rpm. A sensor on this pulley delivers one pulse per revolution, ie: V = Ns Cœf PX n equired display: V =.00 (result in m/s PX = ) Given that: n = Ns = 00 = 60 Hence Cœf = V n Cœf = 00 = 0 Ns PX Chronometer function (Precision : 0 ppm) POG IN P P 0 Out () Out Out () Out () Maintained output () Pulsed output POG IN t Input IN Display (0 P), -channel pulse measurement Display (P 0), -channel pulse measurement POG IN Input IN Display (0 P), -channel pulse measurement Display (P 0), -channel pulse measurement Input IN (start counting) Input IN (stop counting) Display (0 P), measurement on separate channels Display (P 0), measurement on separate channels Signal measurement period Time T Measurement precision : 00 + (00 / T) PPM Example : for T = s 00 PPM (0.0%) Speed In addition, the decimal point is positioned in the hundreds (xxxx.xx). Selection of T : you wish the measurement to be updated every seconds if T = s. Selection of TL > T, for example TL = s. 00 rpm The tachometer function can also be used to calculate a flow rate. T T Tn Tn - T Time TL Start of measurement P P 0 Out () Out Out () Out T T Tn --- Tn - T 0 T T + T Tn - (T + T) T T T T + T Tn Tn - T Tn - (T + T) T T + T Tn - (T + T) Signal to be measured m/s End of measurement t 8 9

240 Totalizers - LCD x 8 (Hour counter/chronometer) CP : 08/08H Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) or 6-figure display, height 7 mm Totalizer : - 7 khz and 0 Hz inputs - Max. counting capacity impulses Hour counter/chronometer : - Start/stop/ inputs - time ranges : hours min s - 99 h 9 min 9 s - Lithium battery powered - eset either from front panel or remotely Specifications Type Designation Code 08 Impulse counter H Hour counter / chronometer Accessories Code Adaptor for cut-out Ø 0 (dimensions Ø 7 mm) Adaptor for cut-out x mm (dimensions x mm) Adaptor for cut-out x0 mm (dimensions 9x mm) Dimensions Accessory 08-08H Connections 8 08,6 7,,,8 Panel cut-out Accessory 08-08H H eset En. In. L In. H 8, 08, , 0 0, , Enable eset eset 00 ms Prog. Start/Stop B Seal C Fixing bracket Accessory 08-08H , 8, 60,, 08 H 08 H B eset input C Enable reset D Slow counting E 0V F High-speed counting B High-speed counting input C Slow counting input and reset D Enable reset input B eset input C Enable reset D Common E Prog. F Start/Stop B Start/Stop input Prog. eset C Enable eset input To order, see page 6 0

241 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Functions Impulse counter (08) Hour counter/chronometer (08H) Solid state input Display 8 digits LCD (08) 6 digits LCD (08H) Height of digits 7 mm Counting capacity 0 to (08) Time ranges For the 08H : 0 to h 0 to min 0 to s 0 to 99h9min9s Time base Quartz (precision ± 0 ppm) Possibility of reloading current value (08H) Input Volt-free contact For the 08H : Start/Stop input 0 ms min (terminals -) eset input (AZ) 00 ms min (terminals -) Prog input (terminals -) Authorised reset input (terminals -) Slow counting input (In.L) For the 08: 0 Hz TOFF : ms min TON : ms min Current output : µa max Leakage current in OFF state 0. µa max esidual voltage : 0. V max Volt-free contact or transistor NPN open collector High-speed input (In.H) For the 08: 7 khz max TOFF : 70 µs min TON : 70 µs min Level 0 : 0 to VDC Level : to 0 VDC Current consumption : 6 ma max at VDC eset to zero Volt-free contact or transistor NPN open collector : ms min (08) 00 ms min (08H) eset via Front panel adiated field IEC 000--, level, 0 V/ M 6 MHz to GHz Fast transients IEC 000--, level, KV Damped oscillatory wave IEC., level, KV Electrostatic discharge IEC 000--, level, 8 KV Function and use Material Self-extinguishing Connection by screw terminals at rear of casing terminals Tightening capacity x. mm Mounting By bracket Degree of protection front face IP 6 Temperature limit operation ( C) 0 + Temperature limits stored ( C) Conformity to standards VDE 00 - ICE 66 - ICE 8 - ICE. - ICE. - ICE 80.- ICE 80. Weight (g) 60 Supply lithium battery - Life (years) 8 (08) (08H) 8

242 Hour counters - LCD x 8 / Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Start input and zero reset : solid state () or voltage () Integral module for voltage inputs (-0VAC/VDC, 8-0 VAC) time ranges h, min, s, 99 h 9 min 9 s Possibility of loading the current value Lithium battery supply - -year life eset to zero : front panel or external with inhibit facility Bezels for x 0, x, Ø 0 Specifications Type Designation Code Hour counter - LCD x 8 solid state input Hour counter - LCD x 8 voltage input Accessories Code Adaptor for cut-out Ø 0 (dimensions Ø 7 mm) Adaptor for cut-out x mm (dimensions x mm) Adaptor for cut-out x 0 mm (dimensions 9 x mm) Dimensions 8 atchet action fixing yoke Panel cut-out (Max. thickness 0 mm) unit nit spacing Accessory Accessory Accessory , 8, 60,6 6,8 9 8, +0, ,6,8-0 8 To order, see page 6

243 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Functions Hour counter Display 6 digits LCD Height of digits 7 mm Time ranges 0 to h 0 to min 0 to s 0 to 99h9min9s Time base : Crystal controlled (Accuracy ± 0) Possibility of reloading current value Input One start/stop input by volt-free contact or NPN/PNP open-collector transistor (terminals -) Minimum time closed 0 ms Input One start/stop input Two voltage levels Terminals V AC / DC Terminals V AC Minimum pulse time AC 0 ms Minimum pulse time DC ms eset to zero - Panel Switch no to OFF inhibited Switch no to ON active eset to zero - External Volt-free contact or open collector (terminals -) Min time closed 00 ms eset to zero - External Voltage - Terminals V AC / DC Voltage - Terminals V AC Minimum pulse time 00 ms The reset is galvanically isolated from the counting input (-only) Supply and lithium battery Service life (years) Supply can be switched off by Dipswitch-n o no situated underneath the unit Function and use Material Self-extinguishing Connection by 6 screw terminals at rear of casing Tightening capacity *. mm Fixed using bracket Degree of protection front face IP 66 Temperature limit operation ( C) -0 + Temperature limits stored ( C) Conformity to standards VDE 00 - ICE 66 - ICE 8 - ICE. - ICE. - ICE 80.- ICE 80. Weight (g) : 60 : 6 8

244 Connections Start-stop input or reset input - Volt-free contact Start-stop input or reset input - Volt-free contact 6 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) A eset inputs B Start/stop inputs B eset input C eset common D Start/stop common E Start/stop input F Not connected G Not connected Start-stop input or reset input - NPN transistor B or C or A NC NC A eset inputs B Start/stop inputs B eset 8 to 0 V AC C eset common D eset to 0 V AC / DC E to 0 V AC / DC F Start/stop common G 8 to 0 V AC Start-stop input or reset input - PNP transistor 9 B or C or B or C or Start/Stop input : voltage eset : voltage Start/Stop input : live contact eset : live contact 8-0V~ -0V~/ Start/Stop input : PNP transistor or - wire PNP proximity switch (for switch with leakage current 0. ma) PNP eset : NPN transistor or -wire NPN proximity switch (for switch with leakage current 0. ma) + + NPN Start/Stop input : -wire proximity switch B OV 0V OV -0V max 9 OV ** = 70 Ω / W for a -wire switch with leakage current. ma -0V -0V~/= 8-0V~ eset : PNP transistor or -wire PNP proximity switch (for switch with leakage current 0. ma) + PNP OV 6-0V Start/Stop input : -wire proximity switch 0V max OV ** = 70 Ω / W for a -wire switch with leakage current. ma eset : -wire proximity switch 0V OV ** = 70 Ω / W for a -wire switch with leakage current. ma max -0V~/ 8-0V~ 8-0V~ -0V~/ Start/Stop input : NPN transistor or - wire NPN proximity switch (for switch with leakage current 0. ma) + NPN OV 6 eset : -wire proximity switch 0V max OV ** = 70 Ω / W for a -wire switch with leakage current. ma -0V

245 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

246 Totalizers - LCD x 8 CP : / Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Display : 8 digit LCD, 7 mm height Supply : alkaline batteries or lithium batteries Counting input : solid state (-0 VDC) or voltage (up to 0 VAC) Dimensions DIN - x 8 mm eset to zero : front panel or external with inhibit facility Bezels x 0, x, Ø0 Specifications Type Designation Code Solid state input, lithium battery Voltage input, lithium battery Accessories Code Adaptor for cut-out Ø 0 (dimensions Ø 7 mm) Adaptor for cut-out x mm (dimensions x mm) Adaptor for cut-out x 0 mm (dimensions 9 x mm) Dimensions mm 8mm atchet action fixing yoke Panel cut-out (Max. thickness 0 mm) unit nit spacing Accessory Accessory Accessory ,6mm 6mm 8,8mm 9 8, +0, ,6, , 8, 60 To order, see page 6 6

247 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Functions Impulse counter Display 8 digits LCD Height of digits 7 mm Counting capacity 0 to Input slow counting input for contact closure on NPN open-collector transistor input (terminals -) input for high speed counting signal from voltage level (terminals -) -0 V DC Low level V DC High level -0 V DC Input input for slow counting voltage levels Terminals - -0 V AC / DC Terminals V AC eset to zero - Panel Switch no. to OFF inhibited Switch no to ON active eset to zero - External Volt-free contact or open collector (terminals -) eset to zero - External Voltage - Terminals - -0 V AC / DC Voltage - Terminals V AC The reset is galvanically isolated from the counting input Slow counting 0 Hz Minimum pulse time. ms Low level. High level High-speed counting () 7. khz max. High-speed counting () 70 µs Low level - High level Input levels - 0 V DC Input impedance (kω). KΩ min Supply alkaline batteries - Life (years) lithium battery - Life (years) 8 Supply can be switched off by Dipswitch-n o no situated underneath the unit Function and use Material Self-extinguishing Connection by 6 screw terminals at rear of casing Tightening capacity *. mm Fixed using bracket Degree of protection front face IP 66 Temperature limit operation ( C) -0 + Temperature limits stored ( C) Insulation resistance (IEC.) 00 MΩ (00 V=) Breakdown voltage according to IEC V / 0 HZ / min. Conformity to standards VDE 00 - ICE 66 - ICE 8 - ICE. - ICE. - ICE 80.- ICE 80. Weight (g) : 60 : 6 Connections High-speed counting input NPN transistor or -wire NPN proximity switch -0V NPN ms 0 Hz.0V B eset input C 0 V eset D 0 V counting E Slow counting F High-speed counting A : eset input B : Counting inputs A 7, khz B 8.. 0V 0V ~ ~/ A. 8. 0V 0V ~/ ~ B eset 8 to 0 V AC C 0 V eset D eset to 0 V AC / DC E to 0 V AC DC F 0 V G 8 to 0 V AC A : eset input B : Counting inputs B OV 8 7

248 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) High-speed counting input Voltage -0V + Slow counting input or reset input - Start-stop input or reset input - Counting and general reset input B or C or Slow counting input or reset input : Volt-free contact B or C or Counting input : Live contact eset : PNP transistor or -wire PNP proximity switch (for switch with leakage current ma) Counting input : -wire proximity switch** 0V -0V~/= 8-0V~ + PNP max OV ** = 70 Ω / W for a -wire switch with leakage current. ma eset : -wire proximity switch** 0V OV ** = 70 Ω / W for a -wire switch with leakage current. ma OV Slow counting input or reset input - Start-stop input or reset input - Counting and general reset input V max B or C or High-speed counting input -wire proximity switch -0V Counting input : Voltage eset : Live contact -0V~/ 8-0V~ OV Counting input : NPN transistor or -wire NPN proximity switch (for switch with leakage current ma) eset : -wire proximity switch** OV ** = 70 Ω / W for a -wire switch with leakage current. ma 6 High-speed counting input PNP transistor or -wire PNP proximity switch (for switch with leakage current ma) -0V + PNP High-speed counting input -wire proximity switch OV eset : voltage 8-0V~ -0V~/ -0V Counting input : PNP transistor or -wire PNP proximity switch (for switch with leakage current ma) -0V 8-0V~ + -0V~/ PNP + NPN 0V max OV -0V OV eset : NPN transistor or -wire NPN proximity switch (for switch with leakage current ma) + NPN OV Counting input : -wire proximity switch** 0V OV ** = 70 Ω / W for a -wire switch with leakage current. ma max -0V 8

249 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

250 Total/partial impulse counters - LCD x 8 9/9 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Partial or total count display Counting capacity : partial : 0 to total : 0 to Counting inputs and reset inputs : solid state (9) voltage (9) Decimal point Integral module for voltage inputs ( to 0 V AC / DC, 8 to 0 V AC) Lithium battery. years life Panel reset to zero facility for the partial count Panel or electrical reset to zero for the total count Bezels for x 0, x, Ø 0 Specifications Type Designation Code 9 Solid state input Voltage input Accessories Code Adaptor for cut-out Ø 0 (dimensions Ø 7 mm) Adaptor for cut-out x mm (dimensions x mm) Adaptor for cut-out x 0 mm (dimensions 9 x mm) Dimensions Panel cut-out (Max. thickness 0 mm) unit nit spacing atchet action fixing yoke Accessory Accessory Accessory , 8, 60,6 6,8 +0, ,6,8-0, To order, see page 6 0

251 General characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Functions Impulse counter Display 8 digits LCD Height of digits 7 mm Counting capacity 0 to Input 9 One counting input by volt-free contact or NPN/PNP open-collector transistor (terminals - ) Minimum time closed 0 ms Input 9 counting input voltages levels Terminals - -0 V AC / DC Terminals V AC The inputs are galvanically isolated from one another eset to zero - Panel Always enabled for partial counter eset to zero - External 9 (total counter) Volt-free contact or NPN open-collector transistor (terminals -) Minimum time closed 0 ms eset to zero - External 9 (total counter) Voltage - Terminals - -0 V AC / DC Voltage - Terminals V AC Minimum time closed 0 ms The reset is galvanically isolated from the counting input (9-only) Counting speed 9 Selectable from dipswitch n or 00 Hz 9 Hz Slow counting Hz max Minimum pulse time.low level. High level ms High-speed counting Maximum 00 Hz Minimum pulse time low level ms, high level ms Minimum pulse time.low level. High level ms Supply lithium battery Service life (years) Supply can be switched off by Dipswitch-n o no situated underneath he unit Function and use Material Self-extinguishing Connection by 6 screw terminals at rear of casing Tightening capacity x. mm Fixed using bracket Degree of protection front face IP66 Temperature limit operation ( C) -0 + Temperature limits stored ( C) Conformity to standards VDE 00 - ICE 66 - ICE 8 - ICE. - ICE. - ICE 80.- ICE 80. Weight (g) 9 : 60 9 : 6 8

252 Connections 9 9 Counting and general reset input - 9 Volt-free contact 6 6 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) A General reset input B Counting inputs B General reset input C General reset common D Count common E Counting F Not connected G Not connected Start/stop input or reset input - 9 NPN transistor 9 B or C or eset 9 Voltage eset 9 PNP transistor or -wire PNP proximity switch (for switch with leakage current 0. ma) eset 9 NPN transistor or -wire NPN proximity switch (for switch with leakage current 0. ma) Counting input 9 -wire proximity switch A 8-0V~ -0V~/ PNP + + NPN OV 0V B OV NC NC OV ** = 70 Ω / W for a -wire switch with leakage current. ma -0V max -0V A General reset inputs B Counting inputs B eset 8 to 0 V AC C General reset common D eset to 0 V AC / DC E to 0 AC DC F Count common G 8 to 0 V AC Counting and general reset input - 9 PNP transistor 9 B or C or 8.. 0V 0V ~ ~/ Counting input 9 Live contact Counting input 9 PNP transistor or -wire PNP proximity switch (for switch with leakage current 0. ma) Counting input 9 -wire proximity switch 0V OV ** = 70 Ω / W for a -wire switch with leakage current. ma eset 9 -wire proximity switch A -0V~/= 8-0V~ + PNP max 0V. 8. 0V 0V ~/ ~ OV OV ** = 70 Ω / W for a -wire switch with leakage current. ma 6-0V max B B or C or Counting input 9 Voltage eset 9 Live contact -0V~/ 8-0V~ 8-0V~ -0V~/ Counting input 9 NPN transistor or -wire NPN proximity switch (for switch with leakage current 0. ma) + NPN OV eset 9 -wire proximity switch 0V max OV ** = 70 Ω / W for a -wire switch with leakage current. ma 6-0V

253 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

254 Totalizer - atemeter - Totalizer and atemeter - LCD 6 x 7 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) / / 9 Display LCD 0 mm Input : contact, voltage or solid-state (PNP/NPN) Front panel or electrical reset to zero Lithium battery - 8 years life Scale factor : 0.00 to 9999 ( and 9) Decimal point selectable ( and 9) ate ( and 9) Specifications Type Designation Code Totalizer atemeter Totalizer counter and atemeter General characteristics Lithium battery V DC Life (years) 8 A power supply must be provided for a sensor ( V DC) Material : self-extinguishing (L9VO) Degree of protection front face IP 6 Mounting (panel-mounting/slide-action clips) Connections at rear of case Screw terminals Waterproof gasket for panel sealing Temperature limit operation ( C) 0 + Temperature limits stored ( C) Weight (g) 60 Dimensions panel cut-out 68 0,7 B Mounting 6 7 ESET To order, see page 6

255 Connections Terminal markings Type Type - 9 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) B Common 0 V C Slow counting input D High-speed counting E emote reset ( - 9) F Enable/disable front reset button () Programming ( - 9) Slow counting Volt-free contact or NPN transistor Type Type Type High-speed counting. NPN transistor. emote reset. By NPN transistor. emote reset by contact () emote reset, volt-free contact (9) High-speed counting. PNP transistor. Type Type - 9 Type 9 - Front reset enable () Programming enable (9, ) Type 9-7,K High speed counting. PNP transistor.0v.0v OV Slow counting. Volt-free contact..0v 7,K High-speed counting. By NPN transistor or voltage level..0v OV 8

256 Totalizer/hour counter module C08 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Liquid crystal display : 8 digits, 7 mm high Low consumption Small dimensions Time base : Crystal controlled Sealed version (C08W) Specifications Type Designation Code C08 Sealed version General characteristics Characteristics Functions Impulse / hour counter Display 8 digits LCD Height of digits 7 mm Counting capacity 0 to Inputs input for high-speed counting signal from voltage level Counting speed 7. khz Minimum pulse time 70 µs Low level V High level V input for slow counting signal from volt-free contact or NPN opencollector transistor Counting speed 0 Hz Minimum time closed ms eset Volt-free contact or NPN open-collector transistor Min time closed ms Supply V Minimum. V Maximum V Consumption < µa (typically 6 µa) Function and use Material : Clear polycarbonate Connection solder on to 6 pins or wire wrap Mounted on p.c. by screws and nuts Protection C08 IP 0 Protection C08W IP 67 Temperature limit operation ( C) C Temperature limits stored ( C) C Weight (g) 0 Dimensions Implantation, 7,7 7,7 0,6 C08 P +,7,7,, M,6 9 0, 6,7 B Symbol for display overrun,,, 7 7,, 9 0 To order, see page 6 6

257 Connections Terminal markings 6 P + Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) B eset C Supply D Slow input E High-speed input F Programming G Supply Applications High-speed counting 7. khz + + C P B Battery supply V C to V voltage count D to Z = V = 80 Ω = V = k = V = k Precautions : these devices use CMOS technology and should be handled accordingly. High-speed counting 7. khz + - z v V 80kΩ + C 08 - P V kω V,kΩ Hour counter + + P - C 08 - B Battery supply V C to Z D Stop/Start B Supply C to V voltage count D to Z = V = 80 Ω = V = k = V = k Precautions : these devices use CMOS technology and should be handled accordingly. + - Slow counting (max 0 Hz) C 08 - P B Battery supply V C to Z D Slow input 8 7

258 Totalizer/hour counter module 08 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Highly reliable Large 8 mm digits Very low consumption < µa (typically 6 µa) Small dimensions With or without front panel reset Specifications Type eset to zero Version Code 08 front panel and electrical panel mounting 08 E electrical panel mounting 08 E General characteristics Characteristics Functions Impulse/hour counter Display 8 digits LCD Height of digits 8 mm Counting capacity For totalizer : 0 to For hour counter : 0 to h 99 esolution /00h Inputs input for high-speed counting signal from voltage level Counting speed 7. khz Minimum pulse time 70 µs Low level V High level. e + 0. V input for slow counting signal from volt-free contact or NPN opencollector transistor Counting speed 0 Hz Min time closed ms eset Volt-free contact or NPN transistor Minimum time closed ms Low level max 0.7 V Supply V Minimum. V Maximum V Function and use Temperature limit operation ( C) C Temperature limits stored ( C) C Dimensions Mounting 0,6 6, 7,78 7,78 - P +,7,,7,,, 8 7,8 7,6,88,, B Symbol for display overrun To order, see page 6 8

259 Connections Terminal markings 6 P + Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) B eset C Supply D Slow input E High-speed input F Programming G Supply Applications se of Elapsed time function B Battery supply V C to Z D Validation High-speed counting 7. khz + - B Supply C to Z + + P - 08 H - z v V 80kΩ P V kω V,kΩ High-speed counting 7. khz B Battery supply V C to Z D Battery E - - P E 0k - 0kΩ + E E Z - High-speed counting 7. khz + - E z v B Supply C to Z V - V,kΩ / Ω P Slow counting (max 0 khz) P B Battery supply V C to Z D Slow input 8V,kΩ Ω v 0kΩ + - E E z 8 9

260 Electro-mechanical impulse counters totalizing - 6 x 7 6 x 7 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Front panel 6 x 7 mm 6 or digits, mm in height With or without manual zero reset White digits on black background Specifications Type Voltages Frequency (Hz) Code Without zero reset 0 VAC VAC VAC VDC With zero reset 0 VAC VAC VAC VDC General characteristics Counting capacity imp without zero reset imp with zero reset Height of digits mm Max. count rate AC 8 imp / s DC imp / s Min. count rate AC 8 ms DC 0 ms Min pause time between pulses AC 8 ms DC 0 ms Max. pulse length (count coil) no limit Voltage variation + 0 % / - % from n Absorbed power V AC / V AC :. VA 0 V AC :. VA V DC : 0.8 W Mechanical life count function (operations) > 0 x 0 6 Voltage tests to IEC 60 V : 00 V > 60 V : 000 V Protection Housing IP 0 Protection Terminal IP 00 Environmental protection Metal parts protected (by surface treatment) or non-corroding Maintenance None Operating position Yes Temperature limit operation ( C) Temperature limits stored ( C) Connection 6. Faston connectors or link screws Mounting x Ø. screws - F 90 o on front panel Weight (g) 0 To order, see page 6 60

261 Dimensions : 6 x 7-6 decades : ear panels 7 8, 9, 6 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) , 0 Ø,, : 6 x 7 - decades : ear panels 8,, , 0, : Panel cut-out,,7 sing information 0 No count pulse must be received during the zero reset time. If a pulse is received, damage may be caused., 6 8 6

262 Electro-mechanical impulse counters totalizing - x 8 x 8 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Front panel x 8 mm 6 or digits, mm in height With or without manual zero reset White digits on black background Specifications Type Voltages Frequency (Hz) Code Without zero reset 0 VAC VAC VAC VDC With zero reset (manual) 0 VAC VAC VAC VDC General characteristics Counting capacity imp, without zero reset imp with zero reset Height of digits mm Max. count rate AC 8 imp/s DC imp/s Min. count rate AC 8 ms DC 0 ms Min pause time between pulses AC 8 ms DC 0 ms Max. pulse length (count coil) no limit Voltage variation + 0 % / - % from n Operator factor 00 % Absorbed power V AC / V AC :. VA 0 V AC :. VA V DC : 0.8 W Mechanical life count function (operations) > 0 x 0 6 Voltage tests to IEC V : 00 V > 60 V : 000 V Protection Housing IP 0 Protection Terminal IP 00 Environmental protection Metal parts protected (by surface treatment) or non-corroding Maintenance None Operating position Yes Temperature limit operation ( C) Temperature limits stored ( C) Connection 6. Faston connectors or link screws Mounting x M screws - F90 o on front panel Weight (g) 0 To order, see page 6 6

263 Dimensions : x 8-6 decades : ear panels 8, 8, 9, 6 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Ø, : x 8 - decades : ear panels 8 8,,, 6, 0 Ø, : Panel cut-out, 7 sing information M No count pulse must be received during the zero reset time. If a pulse is received, damage may be caused. 8 6

264 Electro-mechanical impulse counters totalizing - 6 x 8 6 x 8 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Front panel 6 x 8 6 or digits, mm in height With or without manual zero reset White digits on black background Specifications Type Voltages Frequency (Hz) Code Without zero reset 0 VAC VAC VAC VDC Without zero reset (manual) 0 VAC VAC VAC VDC General characteristics Counting capacity imp, without zero reset imp, with zero reset Height of digits mm Max. count rate AC 8 imp/s DC imp/s Min. count rate AC 8 ms DC 0 ms Min pause time between pulses AC 8 ms DC 0 ms Max. pulse length (count coil) no limit Voltage variation + 0 % / - % from n Absorbed power V AC / V AC :. VA 0 V AC :. VA V DC : 0.8 W Mechanical life count function (operations) > 0 x 0 6 Voltage tests to IEC V : 00 V > 60 V : 000V Protection Housing IP 0 Protection Terminal IP 00 Environmental protection Metal parts protected (by surface treatment) or non-corroding Maintenance None Operating position Yes Temperature limit operation ( C) Temperature limits stored ( C) Connection 6. Faston connectors or link screws Mounting x Ø. F90 o on front panel Weight (g) 0 To order, see page 6 6

265 Dimensions : 6 x 8 : 6 decades : ear panels 8 8, 9, 6 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) , 0 Ø,, : 6 x 8 - decades : ear panels 8,, , 0 Ø, : Panel cut-out Ø,7 sing information 0 No count pulse must be received during the zero reset time. If a pulse is received, damage may be caused., 6 8 6

266 Electro-mechanical hour counter CH 8 G CH 8 G Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) x 8 front panel Capacity h ( h) un indicator Panel-mounted Can be mounted inside cabinet with DIN rail socket connector Specifications Type Frequency (Hz) Voltages Code CH 8 G 0 0 to 0 VAC to 7 VAC to 8 VAC to 6 VAC to 7 VAC to 0 VAC to 0 VAC Accessories Code DIN socket rail connector Bezel (grey) x mm General characteristics Counting capacity eset to zero without ead accuracy / 00 h Digit size H x L :.8 x.6 mm Colour of hour numbers White on black Colour of decimal digits ed on black Voltage variation % from n Time base Synchronous motor Max. absorbed power VA Motor start up < s Voltage tests to IEC V : 00 V > 60 V : 000 V Accuracy AC mains supply Environmental protection Metal parts protected (by surface treatment) or non-corroding Casing in Noryl - L Listed Degree of protection front face IP 0 Operating position Yes Temperature limit operation ( C) -0 + Temperature limits stored ( C) Vibration resistance Hz / 0. G (IEC 68..6) Approvals L - CSA - VDE Connections (panel mounted version) Tags 6. mm Connections (DIN rail mounted version) Screw terminals Tightening capacity. mm Weight (g) 60 To order, see page 6 66

267 Dimensions Panel-mounted DIN rail mounted via clip-on connector socket Circular cut-out Ø h 8 8 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Square cut-out sing information CH8G with a 80 V AC supply, connect a 0 KΩ, W resistor in series with the 0 V 8 67

268 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

269 Cam Cam Timers Timers Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

270 Selection guide Cam timers Features Number of standard circuits 7 ating Standard cycle duration Programm storage medium Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) With external knob With internal knob Fast cycle-end or speeds 6 to circuits to circuits Panel-mounted to circuits Base-mounted to circuits to circuits A 0 AC 0 A 0 AC 0 A 0 AC 0 A 0 AC 0 A 0 AC 0 A 0 AC 0 A 0 AC 0 A 0 AC s to h s to h s to h s to h s to h s to h s to h min to 0h - Adjustable cams - Precut cams - Striker cams - Mixed - Adjustable cams - Precut cams - Striker cams - Mixed - Adjustable cams - Precut cams - Striker cams - Mixed - Adjustable cams - Precut cams - Striker cams - Mixed - Adjustable cams - Precut cams - Striker cams - Mixed - Adjustable cams - Precut cams - Striker cams - Mixed - Adjustable cams - Precut cams - Striker cams - Mixed - Adjustable cams - Precut cams - Striker cams - Mixed Page 7 Page 7 Page 7 Page 76 Page 78 Page 78 Page 80 Page 8 70

271 Basic concepts relating to a timer Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Circuits Introduction Our timers are pieces of automatic control equipment which, during a cycle, are intended to operate a series of contacts in a preset order following a program. The cycle may be single (non-repetitive), repetitive, or step by step. Though often decried, timers will greatly simplify automatic control systems and allow much other hardware to be dispensed with. Basic concept They consist of: a driving device: gearmotor a program storage medium: adjustable, precut or striker cams and output devices: microswitches, miniature valves Program storage mediums Adjustable cam Striker cam Precut cam Max space 80 Program representation The positions and sequence of the commands in the program will be fully defined by a diagram. Diagram plotting By convention, the lower line represents the rest position and the upper the working position. The heavy lines mean that the contact is closed. The total cycle duration is represented in degrees for the cams. Importante note Only the theoretical electrical (or pneumatic) values will be used for plotting the diagrams. The equivalent mechanical values are peculiar to the individual unit and are calculated when setting up the program or cutting the cam contour. Example: Diagramm for a cam timer P P P Cycle duration = min 0 60 T Start of cycle End of cycle At the same time, a diagram plotted in this way also indicates the contour of the equivalent program storage medium : working = peak (or material present), rest = trough (or material cut away). A heavy line indicates that the contact is closed. For ease of cutting, the troughs should preferably be shorter than the peaks Mechanical and electrical sizes By convention, we have adopted these definitions: Size of mechanical space : the actual dimension, measurable on the program storage medium, of the feature which causes the contact to change over Size of electrical (or pneumatic) space : the electrical (or pneumatic) result obtained. Accuracy and repeatability Basic definitions Maximum repeatability error : (a) Maximum possible difference between the theoretical size of a switching interval and the value obtained. Maximum repeatability error : Maximum + or - error from the mean likely to be found for a number of measurements of an interval between two switching points. Switching interval : Interval between any two points at which switching takes place (in the same circuit or two different circuits) in a diagram. Theoretical switching interval Minimum time and interval between switching In the same circuit The minimum time is determined by the speed of cam movement and the technology of each particular unit. For cam timers : by providing a mechanical space sufficiently large to enable the lever of the output device to drop. In the individual specifications, the minimum time is given as a proportion of a value which represents the duration of the program. Example : or the type 88 6 cam timer, the minimum time is equal to /60th of the total duration of a cycle. The minimum interval is restricted solely by the mechanical strength of the web of material between two successive spaces or by the thickness of the strikers. It is given as a proportion of the same reference value as the minimum time. For the program storage medium, i.e. the cam, N repetitions of a pairing of minimum time with minimum interval gives the maximum number of switching operations by the output device which are possible. This number is quoted in each specification

272 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Between differents circuits The individual accuracy of any given unit and the scatter caused by the cutting or adjustment of the cams mean that we have to allow for a certain tolerance between the theoretical diagram and that actually obtained. When plotting the theoretical diagram, there are two possible eventualities: it is absolutely essential that the chronological order of the changes of state is maintained (Fig.A). When this is the case, the diagram interval between two switching operations must be at least equal to the accuracy. the chronological order of the changes of states need not be maintained (Fig. B) X Applications tilisation X Y Y f x-y A There are vast numbers of possible applications for these timers. In the commonest application, the timer performs repeated cycles which cause contacts to be closed for fixed lengths of time. It may also perform a single cycle but the program is still a function of time in this case. Examples: movement of automatic milling machine tables, periodic lubrication, animated shop-window displays, staged start-up of sets of pumps, automatic presses, industrial washing machines,etc. The above applications are termed "open-ended" because the sequential progress of the operations is dependent solely on time and there is no check that the operation called for has actually taken place. The main application for timers is in sequential automatic control systems where a check on the completion of an operation causes the next operation to begin (limit switch, thermostat, timeclock). When this is the case the timer is used in the step by step mode. The program is not run as a function of time but in response to external commands, and the motor merely serves to move the program forward in steps. Step by step applications of this kind are in fact the ones for which timers can most usefully be employed. Though often decried, they allow automatic control systems to be greatly simplified and much of the hardware, such as relays and memories, needed for other techniques to be dispensed with. In the same unit, the timer may control not only switching operations which follow one another in a precise order but also series of step by step sequences and sequences proportional to time, sequences run in two directions, and so on. The circuits used are simple and there is a special technique for them which is easily modelled. If the power fails, the timers may either: remain in position, in which case the orders given are held in store, which is an intrinsic feature of the device, or return to their starting point as soon as the power comes back on. The cycle then begins again from the beginning. Examples of step by step applications (see page 8) Control of machine tools, preselection counters, automatic car parks, vulcanising presses, systems for feeding livestock, etc. B ndefined = individual accuracy of any given unit A copy (a photocopy or dyeline print)) of the diagram shown below on page 7 will enable you to give us details of the particular profile to be cut in our works.the changeover points will need to be entered in degrees with due allowance for the characteristics of the timer selected. The cams are fitted in ascending numerical order reading away from the drive motor. Some E typical circuits xemples de branchement See page 8. Standards Normes et and homologations approvals Our timers are generally designed according to international standards, IEC, American standards (L-CSA) and/or European standards (EN), VDE etc. Quality Quality control Our products are quality controlled systematically during assembly and on completion. The overseeing of control checks in the workshop, the use of data collected and possible product assessments which can occur form the essential role of Quality Control. All our products undergo a final check, either at 00% or on a selective basis following French standard X 06-0, which provides for a classification of possible defects in groups : critical, major, minor. Different tolerance thresholds (matching necessarily varied statistical analyses) are thus determined as a function of the possible repercussions of any anomalies during the life of the product in normal use, such as defined in the preceding sections. The size of the batches, the sampling quantities and the standards selected combine to define the thresholds. Note: According to customer requirements and for certain product ranges which must meet specific needs expressed in a specification, it is always possible to create or to modify a quality standard on a normal or special existing product and to vary the level of inspection. It can happen that the tolerance level is set at zero for certain parameters directly linked to the completion of a function for which total success must be assured : a defect is therefore fatal. Such specific requirements do, however, lead to a significant increase in product costs. 7

273 Timers Precut cam Setting a timer to the diagram shown below : The cams are cut in our works to a diagram (see page 7) which you send us with your order. e e 0 T T Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Adjustable cam Grey cam-half: beginning of setting (beginning of rest position) ed cam-half: end of setting (end of rest position) The markings are read from the tool, as shown in the illustration above (except in the case of 88 6) Note: The accuracies quoted will be achieved provided the cams are always adjusted in the same direction of rotation. A number in line with each cam allows the circuit concerned to be identified easily. Striker cam Striker cam part no (cam with 60 slots, increment 6 ) Pack of strikers, part no Kit comprising : 0 strikers for raising and lowering levers 0 spacer strikers with an angular width of 6 pliers for easier fitting and removal of the strikers. Other characteristics are the same as for the precut cam. Cam : Cycle duration = min (closest to motor) : move one of the segments to the point where the lever drops into the trough and lock it there; this point will form the beginning of the cycle. Switch the motor on for seconds (equivalent to ) (starting and stopping are instantaneous). Move the second segment of the cam to the point where the microswitch is to change state and lock it there. Cam : Switch the motor on again for seconds (interval between the end of the cam space and the beginning of the cam space). Set the beginning and end of the space in the same way as for cam. Note: In the case of simple diagrams which need no great accuracy, such as cams each containing a minimum space, positioned 80 apart, turn the motor shaft by hand to find the points for tripping the microswitches by eye. Precut cams or complex diagrams: We see to the setting and cutting of the cams in our works. Please send us a diagram with your order (see page 7). Do not exceed the limiting characteristics of the timer: minimum space, minimum peak, maximum number of spaces, accuracy, maximum switching rate, etc. 9 7

274 Cam timers 88 6, to 0 circuits Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Standard cycle duration Types Features Number of standard circuits Characteristics Drive device Type of standard gearmotor Max voltage variation Absorbed power cos Transition time Single direction Stopping performance - No. of rotor revs. Number of off-load starts Mechanical strength of gearbox Method of gearmotor coupling (to cams) Program storage medium Cams Minimum space or pulse (electrical) Min. peak between two spaces (electrical) Max. number of spaces per cam Max. switching rate in rotation Accuracy Precision limit error epeat accuracy Selection precision Output specification Protected microswitch type ating Mechanical life esistive torque per circuit General specifications Permitted voltage variation at C maximum temperature is in accordance with IEC --00 (NFC 0) Duty factor Temperature se limits Stored Test voltages under IEC -, VDE 0/0, IEC 6 class (protection against electric shocks) Environmental protection Operating position Protection IEC 9 The installer must ensure adequate guarding (< IP0) Conformity to standards NFC 0, IEC --00, VDE 0/0 Connection Approvals * produced on request Mounting Weight Motors : to terminal strip Microswitches : % of n. W s / x 06 cm. dan External friction adjustable, with strikers or precut (/0 cycle duration) (/0 cycle duration) adjustable : with strikers or precut - 0 rpm Adjustable cam ± 6 Precut cam ±. Adjustable cam ± Precut cam ± 0. (6 for cam with strikers) 8 60 Nominal 0 A - 0 V Thermal A -0 V 0 7 operations To trip cm.n Tripped 0. cm.n 00 % C C Voltages 60 V = 000 V - Voltages > 60 V = 000 V Tropicalised to IEC standard Any IP 0 W blade (6.) W blade (6.) See below By screws M on n 00 mm symmetrical d DIN rail See table page 7 s - h With external knob Program storage medium Other information s - h With internal knob s - h With fast cycle-end or speeds Standard To special order To special order Adjustable cam Precut cam (with no selector knob) On request Striker cam (strikers supplied with unit) All types of cam can be fitted to the same timer Standard cycle duration Cycle Gearbox Cycle Gearbox Cycle Gearbox duration output speed duration output speed duration output speed * s 0 rpm 90 s / rpm ** h rph * s 0 rpm min / rpm ** h 0 / rph * s rpm min / rpm ** h / rph * 6 s 0 rpm min / rpm ** h / rph * 7. s 8 rpm min / rpm ** h / rph * 0 s 6 rpm 6 min /6 rpm ** 6 h /6 rph * s rpm 0 min /0 rpm ** h / rph * s rpm min / rpm ** h / rph * 0 s rpm min / rpm 0 s rpm 0 min /0 rpm 60 s rpm 0 min /0 rpm * For stepping operation please enquire * * At these speeds, allowance must be made for bounce and transition time. Direction of rotation One-way or two-way (standard clockwise direction) Two-way motor type 8 0 : obtainable speed, for other speeds see motors catalogue 0 volt capacitor 0. µf ± 0 %. ef: 6 90 Supply voltage direction - dual-voltage 7 / 0 V 0 Hz Standard Accessories Striker cams Packet of extra strikers Inverter for DC supply (for a 0 Hz AC motor of the same voltage) Output power max. of 0 VA directions - single voltage 0 V - 0 Hz V c 8 V c 0 7 V c Timers classed as Standard Products are only available from our distributors. For other voltages and frequencies and DC, please consult us. Basic concepts see page 7. For some typical circuits, see page

275 Features Motor connections to terminal strip - Easy adjustment with knob or tool Dimensions with external knob Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Internal layout MS Microswitch operating curve Number of operations L esistive circuit in c = ms Inductive circuit { in a ~ cos = 0.8 Mechanical life of 8 60 microswitch Diagram Gearmotor options rpm rpm Operation - < - > or single voltage ating in Amps Number of circuits The program can only be run in one direction. The gearmotors used are of the Y 8 type (with roller free-wheel) High-speed gearmotor: max. speed is a function of the resistive torque. Only versions with adjustable and striker cams are supplied with internal knob. Versions with fully precut cams have no knob. A - Low-speed motor clockwise B - High-speed motor anti-clockwise To order, specify: Standard products, stocked Standard products, non stocked Type Program storage medium Types Circuits Dimension Dimension Weight A B (g) with internal knob Types Circuits Dimension Dimension Weight A B (g) with fast cycle-end or speeds Types Circuits Dimension Dimension Weight A B (g) Cycle duration Accessory Example : Cam timer with external knob circuits - Adjustable cams - 60 s - rpm - 7/0 V - 0 Hz - Packet of extra strikers 79 6 Direction of rotation Supply voltage 6 9 7

276 Cam timers from 6 to circuits Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Characteristics Drive device Type of standard gearmotor depending on number of circuits and speed (see graph) Max voltage variation Absorbed power cos Transition time Single direction Stopping performance - No. of rotor revs. Number of off-load starts Mechanical strength of gearbox Method of gearmotor coupling (to cams) Program storage medium Cams Minimum space or pulse (electrical) Min. peak between two spaces (electrical) Max. number of spaces per cam Max. switching rate in rotation Accuracy Precision limit error epeat accuracy Selection precision Output specification Protected microswitch type ating Mechanical life esistive torque per circuit General specifications Permitted voltage variation at C maximum temperature is in accordance with IEC --00 (NFC 0) Duty factor Temperature se limits Stored Test voltages under IEC -, VDE 0/0, IEC 6 class (protection against electric shocks) Environmental protection Operating position Protection IEC 9 The installer must ensure adequate guarding (< IP 0) Conformity to standards NFC 0, IEC --00, VDE 0/0 Connection Motors Microswitches Mounting Weight Other information % of n W s / 0 x 0 6 cm. dan Friction % of n. W s / x 0 6 cm. dan Friction adjustable, with strikers or precut (/0 cycle duration) (/0 cycle duration) adjustable : - with strikers or precut - 0 rpm Adjustable cam ±. Precut cam ±. ± 0. (6 for cam with strikers) 8 60 Nominal 0 A - 0 V Thermal A -0 V 0 7 operations To trip cm.n Tripped 0. cm.n 00 % C C Voltages 60 V = 000 V - Voltages > 60 V = 000 V Tropicalised to IEC standard Any IP 0 Leads : 0 mm W blade (6.) By screw M on n 00 mm symmetrical d DIN rail See table page 77 Timers classed as Standard Products are only available from our distributors. For other voltages and frequencies and DC, please consult us. Basic concepts see page 7. For some typical circuits, see page 8. Standard cycle duration Types Number of standard circuits Direction of rotation or directions Supply voltage Standard Accessories Striker cams Packet of extra strikers Inverter for DC supply (for a 0 Hz AC motor of the same voltage) Output power max. of 0 VA s - h Program storage medium Standard To special order To special order Adjustable cam Precut cam (with no selector knob) On request All types of cam can be fitted to the same timer Standard cycle duration Cycle Gearbox Cycle Gearbox Cycle Gearbox duration output speed duration output speed duration output speed * s 0 rpm 90 s / rpm ** h rph * s 0 rpm min / rpm ** h 0 / rph * s rpm min / rpm ** h / rph * 6 s 0 rpm min / rpm ** h / rph * 7. s 8 rpm min / rpm ** h / rph * 0 s 6 rpm 6 min /6 rpm ** 6 h /6 rph * s rpm 0 min /0 rpm ** h / rph * s rpm min / rpm ** h / rph * 0 s rpm min / rpm 0 s rpm 0 min /0 rpm 60 s rpm 0 min /0 rpm * For stepping operation please enquire * * At these speeds, allowance must be made for bounce and transition time. V c 8 V c 0 7 V c Striker cam (strikers supplied with unit) 0 V 0 Hz

277 Features Dimensions - Easy adjustment with knob or tool (see page 7) - Mounting by screws or on n 00 mm symmetrical d DIN rail (EN 00) 7, Internal layout Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) MS { Microswitch operating curve - < - > or single voltage Nb Number de cycles of operations in c L esistive circuit = ms { Inductive circuit in a ~ cos = 0.8 Mechanical life of 8 60 microswitch Diagram Gearmotor options rpm rpm To order, specify: L I en A Number of circuits Types Circuits Dimension Dimension Weight A B* * For fitting with motor 8 with motor 8 0 take off 6 mm Cam timers with fully precut cams and selector knob from 6 to circuits Type xø, A B, Supplied with internal or external selector knob; the graduations in this case merely show the progress of the cycle.,8 9 Standard products, non stocked Type Program storage medium Cycle duration Example : Cam timer Base-mounted - Adjustable cams - 60 s - rpm - direction - 0 V - 0 Hz - Packet of extra strikers 79 6 Direction of rotation Supply voltage 6 Accessory 77

278 Cam timers from and circuits Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Characteristics Drive device Type of standard gearmotor Max voltage variation Absorbed power cos Transition time Single direction Stopping performance - No. of rotor revs. Number of off-load starts Mechanical strength of gearbox Method of gearmotor coupling (to cams) Program storage medium Cams Minimum space or pulse (electrical) Min. peak between two spaces (electrical) Max. number of spaces per cam Max. switching rate in rotation Accuracy Precision limit error epeat accuracy Selection precision Output specification Protected microswitch type ating Mechanical life esistive torque per circuit General specifications Permitted voltage variation at C maximum temperature is in accordance with IEC --00 (NFC 0) Duty factor Temperature se limits Stored Test voltages under IEC -, VDE 0/0, IEC 6 class (protection against electric shocks) Environmental protection Operating position Protection IEC 9 The installer must ensure adequate guarding (< IP 0) Conformity to standards NFC 0, IEC --00, VDE 0/0 Connection Other information Motors : to terminal strip Microswitches : Approvals * produced on request Mounting By screws M Weight on n 00 mm symmetrical d DIN rail % of n W s / 0 x 0 6 cm. dan External friction adjustable, with strikers or precut (/0 cycle duration) (/0 cycle duration) adjustable : with strikers or precut - 0 rpm Adjustable cam ± 6 Precut cam ±. Adjustable cam ± Precut cam ± 0. (6 for cam with strikers) 8 60 Nominal 0 A - 0 V Thermal A -0 V 0 7 operations To trip cm.n Tripped 0. cm.n W blade (6.) W blade (6.) Bureau véritas Bureau véritas - - * CSA - * L * CSA - * L Fond d'armoire Façade 00 % C C Voltages 60 V = 000 V - Voltages > 60 V = 000 V Tropicalised to IEC standard Any IP 0 See table page 79 8 > rpm % of n. W s / x 0 6 cm. dan External friction Timers classed as Standard Products are only available from our distributors. For other voltages and frequencies and DC, please consult us. Basic concepts see page 7. For some typical circuits, see page 8. - Standard cycle duration Types/Features Number of standard circuits Mounting (see dimension) s - h Program storage medium Standard To special order To special order Adjustable cam Precut cam (with no selector knob) On request Striker cam (strikers supplied with unit) All types of cam can be fitted to the same timer Standard cycle duration Cycle Gearbox Cycle Gearbox Cycle Gearbox duration output speed duration output speed duration output speed * s 0 rpm 90 s / rpm ** h rph * s 0 rpm min / rpm ** h 0 / rph * s rpm min / rpm ** h / rph * 6 s 0 rpm min / rpm ** h / rph * 7. s 8 rpm min / rpm ** h / rph * 0 s 6 rpm 6 min /6 rpm ** 6 h /6 rph * s rpm 0 min /0 rpm ** h / rph * s rpm min / rpm ** h / rph * 0 s rpm min / rpm 0 s rpm 0 min /0 rpm 60 s rpm 0 min /0 rpm * For stepping operation please enquire * * At these speeds, allowance must be made for bounce and transition time. Direction of rotation or directions (Motor type depends on the number of circuits and the speed, and is selected by the factory) Supply voltage direction - dual-voltage 7 / 0 V 0 Hz Standard Accessories Striker cam Packet of extra strikers Inverter for DC supply (for a 0 Hz AC motor of the same voltage) Output power max. of 0 VA Base-mounted () - - Panel-mounted () directions - single voltage 0 V - 0 Hz V c 8 V c 0 7 V c

279 Features Dimensions - Motor connections to terminal strip - Easy adjustment with knob or tool (see page 7) - Akulon insulation - Mounting on DIN rail d mm symmetrical (EN 00) Base-mounted Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Internal layout MS Microswitch operating curve Diagram Gearmotor options Nb Number de cycles of operations L in c L esistive circuit = ms Inductive circuit { in a ~ cos = 0.8 Mechanical life of 8 60 microswitch rpm rpm To order, specify: - < - > or single voltage ating in Amps Number of circuits Fixing from front Details of cut-out and transverse dimensions Ø XØ, Types Circuits Dimension L Dimension L Weight () () () () (g) Standard products, non stocked Type Program storage medium Cycle duration Direction of rotation Accessory Example : Cam timer with external knob circuits - Adjustable cams - 60 s - rpm - 7/0 V - 0 Hz - Packet of extra strikers 79 6 Supply voltage 6 79

280 Cam timers 88 6 from and circuits Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Characteristics Drive device Type of standard gearmotor depending on number of circuits and speed (see graph) Max voltage variation Absorbed power cos Transition time Single direction Stopping performance - No. of rotor revs. Number of off-load starts Mechanical strength of gearbox Method of gearmotor coupling (to cams) * Friction to special order Program storage medium Cams Minimum space or pulse (electrical) Min. peak between two spaces (electrical) Max. number of spaces per cam Max. switching rate in rotation Accuracy Precision limit error epeat accuracy Selection precision Output specification Protected microswitch type ating Mechanical life esistive torque per circuit General specifications Permitted voltage variation at C maximum temperature is in accordance with IEC --00 (NFC 0) Duty factor Temperature se limits Stored Test voltages under IEC -, VDE 0/0, IEC 6 class (protection against electric shocks) Environmental protection Operating position Protection IEC 9 The installer must ensure adequate guarding (< IP 0) Conformity to standards NFC 0, IEC --00, VDE 0/0 Connection Approvals Mounting Weight Other information Motors Microswitches % of n W s / 0 x 0 6 cm. dan * By screw with strikers or precut (/0 cycle duration) (/0 cycle duration) with strikers or precut - 0 rpm Precut cam ± Precut cam ± 0. (6 for cam with strikers) 8 60 Nominal 0 A - 0 V Thermal A -0 V 0 7 operations To trip cm.n Tripped 0. cm.n % of n. W s / x 0 6 cm. dan * By screw 00 % C C Voltages 60 V = 000 V - Voltages > 60 V = 000 V Tropicalised to IEC standard Any IP 0 Leads : 0 mm W blade (6.) L (special version) - Veritas test agency (France) By screws M on n 00 mm symmetrical d DIN rail See table page 8 Timers classed as Standard Products are only available from our distributors. For other voltages and frequencies and DC, please consult us. Basic concepts see page 7. For some typical circuits, see page 8. Standard cycle duration s - h Types Number of standard 88 6 circuits 88 6 Program storage medium Standard To special order To special order Adjustable cam All types of cam can be fitted to the same timer Standard cycle duration Cycle Gearbox Cycle Gearbox Cycle Gearbox duration output speed duration output speed duration output speed * s 0 rpm 90 s / rpm ** h rph * s 0 rpm min / rpm ** h 0 / rph * s rpm min / rpm ** h / rph * 6 s 0 rpm min / rpm ** h / rph * 7. s 8 rpm min / rpm ** h / rph * 0 s 6 rpm 6 min /6 rpm ** 6 h /6 rph * s rpm 0 min /0 rpm ** h / rph * s rpm min / rpm ** h / rph * 0 s rpm min / rpm 0 s rpm 0 min /0 rpm 60 s rpm 0 min /0 rpm * For stepping operation please enquire * * At these speeds, allowance must be made for bounce and transition time. Direction of rotation or directions Supply voltage Standard Accessories Striker cam Packet of extra strikers Inverter for DC supply (for a 0 Hz AC motor of the same voltage) Output power max. of 0 VA Precut cam (with no selector knob) On request Striker cam (strikers supplied with unit) 0 V 0 Hz V c 8 V c 0 7 V c

281 Features Dimensions - Insulating support Internal layout 7, Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) MS Microswitch operating curve Diagram Gearmotor options < - > or single voltage Nb Number de cycles of operations L in c L esistive circuit = ms { Inductive circuit in a ~ cos = 0.8 Mechanical life of 8 60 microswitch rpm rpm To order, specify: ating in Amps Number of circuits Types Circuits Dimension Weight A* * For fitting with motor 8 with motor 8 0 take off 6 mm A 9 Standard products, non stocked Program Cycle Direction of Supply Type storage medium duration rotation voltage Example : Cam timer Adjustable cams - 60 s - rpm - 0 V - 0 Hz - Packet of extra strikers Accessory 8

282 Cam timers 88 6 from to circuits Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Characteristics Drive device Type of standard gearmotor Absorbed power Motor output Max. heating-up Number of off-load starts Maximum permitted torque from gearmotor under continuous conditions Method of gearmotor igid coupling Friction to (to cams) special order Program storage medium Precut cam Minimum space or pulse (electrical) (* cycle duration) Min. peak between two spaces (electrical) (* cycle duration) Max. number of spaces per precut cam Max. switching rate in rotation (limit on number of circuits) see resistive torque Accuracy Precision limit error : precut cam (* Factory) Output specification Protected microswitch type ating Nominal Thermal Mechanical life (operations) esistive torque To trip per circuit Tripped General specifications Permitted voltage variation at C maximum temperature is in accordance with IEC --00 (NFC 0) Duty factor Temperature se limits Stored Test voltages under IEC -, VDE 0/0, IEC 6 class (protection against electric shocks) Environmental protection Operating position Protection IEC 9 The installer must ensure adequate guarding (< IP 0) Connection Mounting Weight Other information Motors Microswitches By screw 8 0 W 0.6 W 0 C N.m - /7 * 9 -./60 * Timers classed as Standard Products are only available from our distributors. For other voltages and frequencies and DC, please consult us. Basic concepts see page 7. For some typical circuits, see page 8. rpm ± A - 0 V a 0 A - 0 V c N.m 0.0 N.m 00 % C C 60 V = 000 V 60 V = 000 V Protected metal components Insulated motor coil Any IP 0 Leads 0 mm W blade (6.) xm - xm See table page 8 Standard cycle duration Types Number of standard circuits Program storage medium Precut cams Standard cycle duration s - h Cycle Gearbox Cycle Gearbox duration output speed duration output speed 60 s rpm * * h rph min / rpm * * h / rph min / rpm * * h / rph 0 min /0 rpm * * h / rph * * 0 h /0 rph * * At these speeds, allowance must be made for bounce and transition time. Direction of rotation or directions (standard clockwise) Supply voltage Standard Accessories Inverter for DC supply (for a 0 Hz AC motor of the same voltage) Output power max. of 0 VA V c 8 V c 0 7 V c 0 V - 0 Hz

283 Internal layout Dimensions Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) MS Microswitch operating curve Diagram Gearmotor options < - > or single voltage Nb Number de cycles of operations L in c L= ms esistive circuit { Inductive circuit in a ~ cos = 0.8 Mechanical life of 8 60 microswitch rpm rpm To order, specify: ating in Amps Number of circuits L Types L Weight (mm) (g) ,, 7, 7, 8 6 x M x M, 80 9 Type Program storage medium Cycle duration Direction of rotation Supply voltage 6 Accessory Standard products, non stocked Example : Cam timer Precut cam - 60 s - rpm - direction - 0 V - 0 Hz - Inverter

284 Some typical circuits Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) One speed of rotation Continuous rotation or advance MA MA = On/off switch MP = Timer motor P, P etc. = Timer contacts Single cycle, start at pulse Short cycle IMP MP MP P P IMP = Push button to start cycle MP = Timer motor P, P = Timer contacts rpm x min. space < pulse < step 60 P Long cycle In the above case, the minimum length of pulse required may be prohibitive. The circuit shown below cuts this minimum length to the pull-in time of the relay. P IMP MP P P P IMP = Starting push button = elay coil, = elay contacts MP = Timer motor P, P = Timer contacts Note: We do not supply the relay Pulse from IMP, change over maintains own supply during space at P P P P P P 0 0 P P P 0 Min. space Min. pulse rpm Single cycle, started by maintained contact MA MA = On/off switch MP = Timer motor P, P etc. = Timer contacts st changeover of MA = Start of cycle changeover of P = End of cycle nd changeover of MA = eturn to origin N.B. : Time for nd changeover of MA min space x rpm > 60 Sequenced step by step By pulse The layout is identical to that shown for with or without relays. The contour of cam will set the desired number of steps. B MP P P P Fc IMP MP 0 P P IMP = Push button for manual start Fc = Limit switch B = Timed contact MP = Timer motor P, P, P = Timer contacts min. space x rpm < pulse < step 60 P P P P P The load circuits change over either at the halt positions (e.g. P), or during the movement through a step thus setting the output pulses as a function of the size of the space and the duration of the cycle (e.g.p). Other contacts can be connected in parallel with IMP and each pulse will then cause a fresh step. Typical applications : sequenced control of machine-tools, complex automatic cycles, preselection impulse counters with fixed or multiple settings N.B. : consult us for sequenced step by step operation or for using microswitches as changeover switches 0 P P Min. space top rpm Min. pulse = Step duration at origin 60 st halt Halt at origin Halt Halt Halt Halt step rpm 60 8

285 Some typical circuits Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) By maintained contact The cam profile will determine the number of steps as shown in diagram. Bi = two-position actuating contact MP = timer motor P, P etc. = timer contacts st changeover of Bi = advance by one step, P changes over nd changeover of Bi = advance by one step, P changes over Changeover time of Bi = > step Intermittent advance controlled by external time-base MT = Time-base motor MP = Timer motor Continuous rotation in both directions Continuous rotation in forward or reverse Example : Program which follows a step by step rise and return cycle (symmetrical) in one direction and a continuous return in the other, etc. Continuous single-cycle rotation in forward or reverse direction Example : Successive start-up of pumps or compressors with shutdown in reverse order. Start position can be returned to in course of rotation. P MP MT Bi P c MP c MP inv inv MT P MP P P P P P Inv. - Direction changer MP = eversible motor 8 70 C = Timer capacitor P, P = Timer contacts step 0 P P P 6 60 Forward direction everse direction 0 60 P P P P 0 Halt Halt Halt step rpm rpm 60 Forward everse direction direction P P 0 rpm 60 Two speeds of rotation As in the case of the basic units, the low-speed motor can be connected for: - continuous cycling - single cycles - stepping action. The presence of the high-speed motor increases the options available by allowing: - automatic or controlled fast cycle-end - reset to origin after power failure - two-speed stepping action - two-speed continuous cycling. Controlled fast cycle-end with halt at origin A P M AS IMP ML M P P ML M P P P ML = low-speed motor M = high-speed motor M.A. to M = motor ML turns M.A. to A = motor M fed from P, fast reset to origin P P P P P P 0 0 P P P P Changeover of drive contact Slow cycle Fast cycle Single-cycle timer - fast cycle-end after voltage off or deliberate halt = relay coil,, = relay contacts AS = Safety stop-switch IMP = Start ML = Low-speed motor M = High-speed motor P, P, etc.= Timer contacts Pulse from IMP - provides own supply via, P ML switched on by, supply to P, P via Changeover of P = End of cycle Voltage off;, and change over Voltage comes back on - supply to M via P and P; when P changes over, supply fed to ML

286 Continuous cycling timer - fast cycle-end after voltage off and cycle resumed at slow constant speed Closure of a contact Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) MA P When MA closes,, & change over - there is supply to ML so P changes over. Voltage off -, & change over Voltage back on - M is supplied via P and P - when P changes over, there is supply to ML Single-cycle timer, halt in intermediate position, fast cycle-end after voltage off and cycle resumed at slow speed MA 0 P Same operation as in example - ML turns until P changes over. There are other possible layouts, please consult us. Important note : These circuits require one or more control circuits (P, P). In your order, be sure to state the total number of control circuits used. educing the minimum opening or closing time of contacts A single minimum time which is too short during a program may sometimes prevent a timer from being used. A special circuit allows this problem to be overcome. 0 P M ML P P P P P M ML 0, s P P Example : The minimum time normally obtainable with a standard cut-out is /60th of the total duration of the cycle, i.e. second. P P P 0 P P P P 60 top mini P P Circuit : a second contact, connected in series with the first, closes out of synchronisation with the first. There is only a supply to the load circuit while both contacts are closed. Opening of a contact P Load P Load 0 P P These circuits, which can be used with all timers, allow the minimum time interval to be reduced by approximately half. N.B. : These two circuits can only be obtained with adjustable cams. s Electrical result obtained 0 P P Electrical result obtained s 0, s s s 0, s

287 Name of customer : Account : Plan : Timer : Motor : Cycle duration : Diagram No Please quote for any new order Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) T T T T T 6 T 7 T 8 T 9 T 0 T T T T T T 6 T 7 T 8 T 9 T 0 T T 9 T 87

288 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

289 Machine Machine safety safety Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

290 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

291 Selection guide Safety relays Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Emergency stop Mobile guard monitoring -hand control Functions Timed contacts Emergency stop Mobile guard monitoring Zero speed monitoring of a motor Extension of number of contacts for safety relays elevelling zone control VAC/DC 0 to 60 VAC VAC/DC 0 to 60 VAC/DC VAC 0 VAC VAC/DC VAC 0 VAC. mm mm 0 VAC/DC. mm Screw terminals Spring terminals Screw terminals Spring terminals Screw terminals mm Screw terminals KNA XS KNAC XS KZP S KNA S KNAC XS KNA S KZH S KZH XS Page 9 Page 06 instantaneous timed VAC/DC mm Screw KZ S Page 00 terminals timed 0 VAC/DC mm Screw KSW S Page 0 terminals Depending on main relay Level of safety Safety contacts Output contacts Data contacts VAC/DC Supply voltage 0 0 to 60. mm VAC/DC 0 to 60 VAC Casing Spring terminals Screw terminals Spring terminals Screw terminals Connection KZEC XS KZE XS KZEC XS KZE XS Designation Page 0 VAC/DC. mm Screw KZHNV XS Page 98 terminals KNA XS KZH S KSW S KZHNV XS 0 9

292 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Conformity Sommaire général European "Machinery" Directive 89/9/EEC French Decree 9/ European "sage" Directive 89/6/EEC French Decree 9-0 / 9- European "EMC" Directive 89 6/EEC IEC 696- IEC 66- EN 008- EN 008- EN 600- EN 9- and EN 7 / 97 Type III C (KZH-XS and KZH-S) EN 9- EN 8 EN 088 L 08 L C- No. -M9 (C) L GS-ET-0 BG Harmonised European standards These standards have been developed to enable designers, manufacturers or any other person to interpret the essential requirements of the directives in order to ensure conformity with European law. The standards are designed as a framework and general guide for producing machines which will be safe under normal operating conditions Main harmonised standards relating to safety EN 98/7 Machine safety EN 8 Machine safety Basic concepts Emergency stop equipment General design principles Functional aspects EN Machine safety EN 088 Machine safety Electrical machine equipment Latching and interlocking mechanisms Mobile guards EN 9- Machine safety EN 7 Machine safety Parts of control systems relating to safety -hand control device Tables of risks and categories 9

293 Sommaire général Safety category for control systems (according to EN 9-) Categories Summary of requirements System behaviour Main basis of safety Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) B The part of the machine control system relating to safety and/or protective devices, as well as its components, must be designed, selected, assembled and combined using the most advanced methods in order to be able to cope with expected influences. The requirements of B apply. Proven components and safety principles must be used. The requirements of B and the use of proven safety principles apply. The safety function must be checked at suitable intervals by the machine control system. Note : suitable times will depend on the application and the type of machine. The control system must be designed so that : a) a single fault in control does not cause the loss of the safety function. b) if reasonably possible, the single fault must be detected by suitable measures using the most advanced technology. The requirements of B and the use of proven safety principles apply. The control system must be designed so that : a) a single fault in control does not cause the loss of the safety function, and b) if possible, the single fault should be detected, by the next call to the safety function, or c) if b) is not possible, an accumulation of faults should not cause the loss of the safety function. - If a fault occurs, it may cause the loss of the safety function. - Certain faults are not detected. As described for category B, but with greater reliability in relation to the safety of the safety function. - The appearance of a fault may cause the loss of the safety function between checking intervals. - the fault is detected by the check. - When there is a single fault, the safety function continues to operate. - Certain faults are detected, but not all. - The accumulation of non-detected faults may lead to the loss of the safety function. - When faults appear, the safety function continues to operate. - Faults will be detected in time to avoid the loss of the safety function. By selecting components and safety principles By structure Estimation of the risk in the event of a fault and selection of a suitable category (according to EN 9-) Starting point for estimating the risk for the part of the control system relating to safety. S F Seriousness of injury S Slight injury S Serious, irreversible injury to one or more person(s) or death Frequency and duration of exposure F are to quite frequent F Frequent to continuous S S F F P P P P Normal category for the level of risk Categories B 0 P Possibility of avoiding the dangerous phenomenon P Possible under certain conditions P arely possible Go to the next highest category if the solution is standardised B. - : Categories for the parts of the control system relating to safety Go to the next lowest category if the solution is standardised 9

294 o Safety relay Emergency stop Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) KNA-XS / KNA-S / KZP-S "Emergency stop" and "mobile guard monitoring" functions Control device with one or two channels "N/O" safety contacts with linked contacts 6A / 0 AC "N/C" signalling contact Level according to NF.EN 9- KNA-S ( mm) Integrity check on control devices Separate return loop KZP-S ( mm) Four input circuits Specifications Type Supply voltage Connections Weight (g) Code KNA-XS V AC/DC Screw terminals V AC Screw terminals KNAC-XS V AC/DC Spring terminals V AC Spring terminals KNA-S V AC/DC Screw terminals V AC Screw terminals V AC Screw terminals KZP-S V AC/DC Screw terminals General characteristics Operating range Precision eset time Maximum response time on emergency stop Output specification Number of safety circuits Number of data circuits Function and use Max. absorbed power - % / + 0 % of n for AC - % / + % of n for DC < ms < 0 ms "N/O" AgSnO contacts "NC" AgSnO contacts KNA-XS / KNA-S : AC.6 VA / DC W KZP-S : AC VA / DC W Dielectric strength.9 kv according to CEI 66- esistance to tracking Material group III EMC immunity according to EN 008- adiated electromagnetic field 80 MHz to GHz/900 MHz (ENV 00/0) KNA-XS : 0 V/m Level acc. to IEC KNA-S/KZP-S : 0 V/m Level X acc. to IEC Electrostatic discharge 8 kv in the air acc. to IEC KNA-S / KZP-S : kv in the air acc. to IEC Shock waves KNA-XS : - Common mode kv acc. to IEC KNA-S / KZP-S : - Level acc. to IEC Common mode kv for V and V - Common mode kv for 0 V ( kv residual current mode for KNA-S) adio frequencies in common mode KNA-XS : - 0 V rms Level according to IEC KhZ TO 80 MHz (ENV 0) according to IEC KNA-S / KZP-S : - 0 Vrms Level X acc. to IEC khz to 80 MHz (ENV 0) according to IEC To order, see page 6 9

295 Dimensions KNA-XS Mounting - emoving KNA-S / KZP-S Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) ,6 Connections KNA-XS KNA-S KZP-S A-A Power supply Control device (s) Y-Y Start / validation -/-/- "N/O" safety contacts - "N/C" signaling contacts Principles 8 A Y Y PW OT KNA-XS A 90 A-A Power supply Y-Y / Y-Y edundant inputs with differentiated voltage for control devices Y-Y Start/validation S-S Short-circuit protection on start / validation input X-X eturn loop -/-/- "N/O" safety contacts - "N/C" signalling contacts Control devices : The KZP-S is used to obtain and maintain a category level of safety for an installation with two control devices. Depending on the degree of safety required, KNA-XS / KNA-S / KZP-S can receive the following components as inputs : - pushbutton for start or validation (Y-Y) -emergency stop pushbuttons with one or two contacts (A-A) two contacts KNA-S : Y-Y and Y-Y, two contacts KZP-S : Y-Y / Y-Y and Y-Y / Y-Y - position sensors (limit switches) with one or two contacts (A-A) two contacts KNA-S : Y-Y and Y-Y, two contacts KZP-S : Y-Y / Y-Y and Y-Y / Y-Y, Y Y Y A X Y PW OT S S KNA-S A PE Y Y Y X Y A-A Power supply Y-Y / Y-Y edundant inputs with differentiated voltage for control devices Y-Y / T-T edundant inputs with differentiated voltage for control devices Y-Y Start/validation S-S / S-S Short-circuit protection on start/validation input -/-/- "N/O" safety contacts - "N/C" signalling contacts A positive break operation device must be used if a single channel is used. To increase the degree of safety, one "N/C" auxiliary contact per power contactor is wired in series with the start (or validation) pushbutton, to ensure selfchecking in this part of the installation. Control devices : The KNA / KZP has three "N/O" safety contacts (-/-/-) and one "N/C" signalling contact (-). One or more control devices may be wired up to the breaking capacity of the safety contacts : 00 VA. However, to limit internal heating, it is advisable not to exceed 0 A thermal for all three contacts. The signalling contact can be wired on a PLC input or integrated into a fault signalling system. 68, S Y Y A S S PW OT S Y Y KZP-S A Y Y Y Y Y Y 0 Extending the number of contacts : The number of contacts can be extended and the breaking capacity thus increased. To do this, use the KZE-XS. 9

296 Applications KNA-XS Category KNA-XS Category V V Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) B Control device with one channel without return loop C Validation D Two coils per contact E Emergency stop KNA-S Category 0V + Vcc c c c 0V A Y Y A C C YY Y A X Y S S B S and S bridged for start/validation input protection C Emergency stop D - to PLC or fault circuit E Start KNA-S A Y Y NC Y X Y C C C 0V A Y Y A C C B Control channel with channels with return loop C Validation D One coil per contact E Emergency stop KNA-S Category + Vcc c c c 0V C C YY Y A X Y S S KNA-S A Y Y NC Y X Y C C C B "Light on" reflex cells C - to PLC or fault circuit D Start E Compulsory : S and S bridged for start/validation input protection 96

297 Level - KZP-S Level - KZP-S + V A S Y Y S S S YY A } V Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) c c c 0V A Y Y Y YYY C C C B Start C S-S and S-S bridged for start/validation input protection A 8 c c c 0V A S Y Y S S S YY A Y Y Y YYY C C C B PLC outputs C NO D Cover E NF F S-S and S-S bridged for short-circuit protection on the validation line G PLC input H Include an "N/C" contact from each power contactor in the start/ validation line (return loop) I Start

298 Safety relay elevelling zone check Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) "elevelling zone check" functions conforming to EN 8 Control device with two channels "N/O" safety contacts with linked contacts 6A/0 V AC "N/C" signalling contact-a Level according to NF.EN 9- Specifications Type Supply voltage Connections Weight (g) Code KZHNV-XS V AC DC Screw terminal General characteristics Supply Operating range - % / + 0 % of n for AC - % / + % of n for DC Precision Synchronisation difference < 00 ms esponse time on release of control device < 0 ms Output specification Number of safety circuits "N/O" AgSnO contacts Number of data circuits "N/C" AgSnO contacts Function and use Max. absorbed power. VA - V AC /. W - V DC Dielectric strength.9 kv according to IEC 66- esistance to tracking Material group III EMC immunity according to EN 008- adiated electromagnetic field 0 V/m Level X acc. to IEC Mhz to Ghz (ENV 00/0) Electrostatic discharge kv in the air (CEI 000..) Shock waves Level (IEC 000..) Common mode kv for V DC and V AC adio frequencies in common mode 0 Vrms on inputs / Level (IEC ) 0 Vrms on supp. / Level X (IEC ) 0 khz to 80 Mhz (ENV 0) acc. to IEC Dimensions KZHNV-XS 68, , Mounting - emoving To order, see page 6 98

299 Connections KZHNV-XS A Y Y PW Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) A-A Power supply Y-Y / Y-Y edundant inputs with differantiated voltage for control devices -/- "N/O" safety contacts - "N/C" signalling contacts Applications KZHNV-XS OT + Z+ +Z KZHNV-XS A Y Y B Turn-off information from the enable relay C High speed contactor turn-off contact (optional) D elevelling zone E Enable F Electronic client card G Check state of safety relay H Level sensors I Door safety line shunt Y Y Y Y V 0 V A Y Y PW OT + Z+ +Z KZHNV-XS A Y Y

300 Safety relay Timed contacts Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) "Emergency stop" and "mobile guard monitoring" functions Safety timer function from 0. s to 0 s Integrity check on control devices "N/O" instantaneous safety contact with linked contacts-6a/0 V AC "N/O" timed safety contact with linked contacts - 6A/ 0 V AC "N/C" timed safety contact with linked contacts-6a/ 0 V AC "N/C" timed signalling contact Level according to NF.EN 9- Specifications Type Supply voltage Connections Weight (g) Code KZ-S V AC DC Spring terminals General characteristics Supply Operating range - % / + 0 % of n for AC - % / + % of n for DC Precision eset time < ms Maximum response time on emergency stop < 0 ms Output specification Number of safety circuits instantaneous : "NO" AgSnO timed : "N/O" + "NC" AgSnO contact Number of data circuits "NC" AgSno contact Function and use Absorbed power AC.6 VA / DC W Dielectric strength,9 kv according to IEC 66- esistance to tracking Material group III EMC immunity according to EN 008- adiated electromagnetic field 0 V/m Level X acc. to IEC MHz to GHz / 900 MHz (ENV 00/0) Electrostatic discharge kv in the air acc. to IEC Shock waves Level acc. to IEC Common mode kv for 0 V AC Common mode kv for V DC and V AC adio frequencies in common mode 0 V rms Level X acc. to IEC khz to 80 MHz (ENV 0) acc. to IEC Dimensions KZ-S 68, Mounting - emoving To order, see page 6 00

301 Connections KZ-S Y Y 7 A Y Y Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) A-A Power supply Y-Y / Y-Y edundant inputs with differentiated voltage for control devices Y-Y Start/validation - "N/O" instantaneous safety contact - "N/O" timed safety contact - "N/C" timed safety contact - "N/C" timed data contact Principles PW OT B Timed C Power-up Control devices : Depending on the degree of safety required, KZ-S can receive the following components as inputs : - emergency stop pushbuttons with two contacts (Y-Y and Y-Y) - position sensors (limit switches) with one or two contacts (Y-Y and Y-Y) - auxiliary contact for electromagnetic lock (Y-Y and Y-Y) - pushbutton for start or validation (Y-Y) A positive break operation device must be used if a single contact is used. Control devices : The KZ-S has one "N/O" instantaneous safety category contact (-), one "N/O" timed safety category contact (-) and one "N/C" (-) signalling contact. One or more control devices may be wired up to the breaking capacity of the safety contacts : 00 VA. Extending the number of contacts : The number of contacts of the KZ-XS can be extended and the breaking capacity thus increased. To do this, use the KZE-XS. Applications KZ-S used for deferred access K K B Opening C Opening D Start E Emergency stop K K KZ-S A 6 Y Y 8 6 V C Y Y Y Y c c Y Y 0V YY 7 A Y Y K 7 K K K KZ-S A 6 YY 8 6 C C A-A Y-Y Y-Y Y-Y C M KZ-S used for breaking M and M in sequence c c c c Y Y Y Y Y Y C YY A Y Y K K K K KZ-S A YY C C C C C C M C C M 0 0

302 Safety relay Extension relay Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Extending the number of contacts in a safety relay sed to increase the breaking capacity of the main unit "CE" conforming product / BG approved Safety via redundancy and self-checking "N/O" safety contacts with linked contacts 6 A / 0 V AC "N/C" return loop Specifications Type Supply voltage Connections Weight (g) Code KZE-XS V AC DC Screw terminals / 60 V AC Screw terminals KZEC-XS V Spring terminals V Spring terminals General characteristics Supply Operating range - % / + 0 % of n for AC - % / + % of n for DC Precision Synchronisation difference < ms Maximum response time on emergency stop at n 0 ms Output specification Number of data circuits "NO" AgSnO contact eturn loop "NC" AgSnO contact Function and use Max. absorbed power AC.6 VA / DC W Dielectric strength.9 kv according to CEI 66- esistance to tracking Material group III EMC immunity according to EN 008- adiated electromagnetic field 0 V/m Level acc. to IEC MHz to GHz / 900 MHz (ENV 00/0) Electrostatic discharge 8 kv in the air acc. to IEC Shock waves Common mode kv acc. to IEC adio frequencies in common mode 0 Vrms Level acc. to IEC khz to 80 MHz (ENV 0) acc. to IEC Dimensions KZE-XS 68,6 Principles , Mounting - emoving Control devices : Depending on the degree of safety required, the KZE-XS can be controlled by one or two channels. In most cases, control by one channel will be sufficient. Please consult your inspection office for further information. Control devices : The KZE-XS has three "N/O" safety contacts (-/-/-) and a return loop (X-X) which must be included in the "start / validation" line (Y-Y) of the main unit. One or more control devices may be wired up to the breaking capacity of the safety contacts : 00 VA. However, to limit internal heating in the KZE-XS, it is advisable not to exceed 0 A thermal for all three contacts. Extending the number of contacts : It is possible to wire several extension KZE-XS units in cascade. All the return loops (X-X) will be in series with the "start/validation" line (Y-Y) of the main unit. To order, see page 6 0

303 Connections A X X PW OT Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) A-A Power supply-control device (s) - eturn contact -/-/- "N/O" safety contacts X-X Internal return loop Applications KZE-XS A X X Example of wiring KZE-XS controlled by a single channel as an extension of a KNA-XS 0V V c c A Y Y KNA-XS A C C B Emergency stop C Start D X-X of the KZE-XS bridged KNA-S with KZE-XS extension unit + V A X X KZE-XS A C C C C6 Y Y A X Y KNA-S A YY X Y A X X KZE-XS A Two KZE-XS as extensions of a KNA-XS c c c c c 0V V c c B Emergency stop C Start A Y Y KNA-XS A C C A X X KZE-XS A A X X KZE-XS A C C C C6 C7 C8 C9 0 0V B Start C Emergency stop C C C C C 0

304 Safety relay Zero speed monitoring Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) "Zero speed monitoring" function for a single or - phase motor Detection of actual stopping by measuring remanent voltages "N/O" safety contact with linked contacts-6 A / 0 V AC "N/C" safety contact with linked contacts-6 A / 0 V AC Separate return loop Level according to NF.EN 9- Specifications Type Supply voltage Connections Weight (g) Code KSW-S V AC DC Screw terminals General characteristics Supply Operating range - % / + 0 % of n for AC - % / + % of n for DC Precision eset time (self-test) s Setting for channels and 0 mv 00 mv +/- % Synchronisation difference < s Hysteresis 0 % +/- 0 % Output specification Number of safety circuits "N/O" + "NC" contact AgSnO Function and use Max. absorbed power AC.6 VA / DC W Dielectric strength.9 kv according to IEC 66- esistance to tracking Material group III EMC immunity according to EN 008- adiated electromagnetic field 0 V/m Level X acc. to IEC MHz to GHz / 900 MHz (ENV 00 / 0) Electrostatic discharge kv in the air acc. IEC Shock waves Level according to IEC Common mode kv for V DC and V AC adio frequencies in common mode 0 V rms Level X acc.to IEC khz to 80 MHz (ENV 0) acc. to IEC Dimensions KSW-S 68, Mounting - emoving To order, see page 6 0

305 Connections NC X NC NC A NC X NC L L PW OT A-A Power supply X-X eturn loop L-L Input channel (motor winding) L-L Input channel (motor winding) - "N/O" safety contacts - "N/C" safety contacts Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Principles Self-test : When terminals A-A are powered up, a test sequence is initiated : the output relays (terminals - and -) are energised for. s then separate for. s. If no fault is detected, the relays reattach. This test checks : - failure of the output contacts (terminals - and -) - breaking of one of the phases (L, L or L) - the validity of the return loop (X-X) - the failure of an internal component Safety function : When an electric motor rotates while no longer supplied with power, it behaves like a generator, supplying voltage (called remanent) to the terminals of its windings. This voltage varies according to several parameters : speed of rotation, the motor characteristics, remanent magnetisation, inertia of the mechanical assembly. The KSW-S measures this voltage and interprets it so that the doors and mobile guards can only be opened once the motor has actually stopped. Setting : Both channels are set on the front of the KSW-S using two potentiometers. This mitigates the effects of any imbalance between the windings or remanent voltages. Setting is within a range of 0 mv to 00 mv in order to adapt a threshold to a slow or zero speed, which is not dangerous for the operator. Control devices : The KSW-S has one "N/O" (-) and one "N/C" (-) safety contact. One or more control devices may be wired up to the breaking capacity of the safety contacts : 00 VA Extending the number of contacts : The number of contacts of the KSW-XS can be extended and the breaking capacity thus increased. To do this, use the KZE-XS Applications Example KSW-S A NC PE L NC NC NC L NC NC Y Y Y Y 0V + V Y Y c Y Y Y A X Y S S KNA-S A YY Y X Y C C c A X X L L KSW-S A L L L L L L C C M 0 B Opening C Opening D Start E Indicator lit if motor running F Emergency stop 0

306 Safety relay -hand control Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Type III C "-hand control" functions according to EN 7/97 Control device with two channels Level according to NF.EN 9- "KZH-XS" : "N/O" safety contacts with linked contacts-6a/0 VAC "KZH-S" : "N/O" safety contacts with linked contacts-6a/0 VAC "NC" signalling contact Specifications Type Supply voltage Connections Weight (g) Code KZH-XS VAC DC Screw terminal KZH-S V AC DC Screw terminal V AC Screw terminal V AC Screw terminal General characteristics Operating range - % / +0 % of n for AC -0 % / + % of n for DC Synchronisation difference KZH-XS : < 00 ms eset time KZH-S / < 00 ms esponse time on release of control device KZH-S : < 0 ms Maximum response time on emergency stop at n KZH-S : < 0 ms Number of safety circuits KZH-XS : "N/O" AgSnO contacts KZH-S : "N/O" AgSnO contacts Number of data circuits KZH-S : "NC" AgSnO contacts Max. absorbed power KZH-XS : AC. VA / DC. W KZH-S : AC. VA / DC. W / -0 AC. VA Dielectric strength.9 kv according to IEC 66- esistance to tracking Material group III adiated electromagnetic field 0 V / m Level X acc. to IEC MHz to GHz / 900 MHz (ENV00 / 0) Electrostatic discharge kv in the air acc. to IEC Shock waves Level acc. to IEC Common mode kv for V DC and V AC KZH-S / Common mode kv for 0 V AC kv residual current mode adio frequencies in common mode 0 V rms on inputs / level acc. to IEC V rms on supp. / Level X acc. to IEC khz to 80 MHz (ENV 0) acc. to IEC Dimensions KZH-XS KZH-S Mounting - emoving 68, , 68, To order, see page 6 06

307 Connections KZH-XS KZH-S Y Y Y Y A Y Y A N N Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) A-A Power supply Y-Y-Y / Y-Y-Y edundant inputs with differentiated voltage for control devices -/- "N/O" safety contacts Principles A-A Power supply Y-Y-Y / Y-Y-Y edundant inputs with differentiated voltage for control devices -/-/- "N/O" safety contacts - "N/C" signalling contacts Control devices : The KZH-XS and KZH-S can receive the following components as inputs : - two pushbuttons with two positions "N/O" + "N/C" (Y-Y-Y and Y-Y-Y) - one or two emergency stop pushbuttons with one or two channels (A-A). Control devices : The KZH-XS has two "N/O" safety contacts (-/-). One or more control devices may be wired up to the breaking capacity of the safety contacts : 00 VA. However, to limit internal heating in the KZH-XS, it is advisable not to exceed 8 A thermal for both contacts. The KZH-S has three "N/O" safety contacts (-/-/-) and one "N/C" signalling contact (/). One or more control devices may be wired up to the breaking capacity of the safety contacts : 00 VA. However, to limit internal heating in the KZH-S, it is advisable not to exceed 0 A thermal for both contacts. Extending the number of contacts : The number of contacts can be extended and the breaking capacity thus increased. To do this, use the KZE-XS. Applications KZH-XS 0V V PW OT KZH-XS A Y Y Y B Emergency stop C -hand control console Y A YY KZH-XS A Y Y Y C C PW OT KZH-S A PE PE Y Y Y KZH-S 0V + V S S B Emergency stop C Signalling Y Y Y A N N KZH-S A PE Y YY C C C 0 07

308 KZH-S with KZE-X extension module + V S c Y Y Y A N N A X X c Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) V S B Emergency stop c KZH-S A PE Y YY C C KZE-XS A C C C c c 08

309 Safety relay: general characteristics Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Emergency stop Timed contacts Extension relay Zero speed monitoring -hand control Supply Supply voltage V AC 0 / 60 Hz V DC maximum ripple 0 % On/off indication power supply voltage LED Output specification Type Volt-free outputs Breaking capacity (V resistive) 00 VA Max. breaking current 6.8 A Max. breaking voltage 0 V AC Electrical endurance 0 operations at 00 VA resistive.0 operations at 00 VA resistive Mechanical life (operations) 0 7 Function and use On/off indication internal relay status LED Operating temperature ( C) IEC Storage temperature (IEC 68--) (ºC) Internal voltage V DC EMC immunity according to EN 008- fast transients kv directly acc. to IEC kv directly for the 0 V <ac> version Kv when coupled Drop-out / short breaks / microbreaks n-0 % for 0 ms every s n-60 % for 00 ms every s according to IEC 696-/97 n-00 % for 0 ms every 00 ms n-0 % for 0 ms every 00 ms n-0 % for 00 ms every s Material Polycarbonate Self-extinguishing-L9 class VO Protection Housing IP 0 Protection Terminal IP 0 Tightening capacity x. mm multicore with ferrule x. mm solid conductor Spring terminals, terminals per connection point - rigid wire. mm Spring terminals, terminals per connection point - flexible wire. mm 0 09

310 Two-hand control console Two-hand control Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) sed in conjunction with a "KZH" safety start module for two-hand control applications : folding, clipping, punching, rail-cutting, bending, drilling, presses, etc. Supplied with an emergency stop button and springreturn mushroom head pushbuttons. Conforms to EN 7 concerning safety applications Specifications Type Designation Code KSP KSP two-hand control console KSP console fixing foot Accessories Code Mushroom head emergency stop Spring-return pushbuttons Dimensions ~ 800 Ø , To order, see page 6 0

311 Micro-PLCs Micro-PLCs Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

312 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800)

313 PX micro-plcs Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Compact... high-performance... user-friendly, with 0 to 8 modular I/O Extension modules : digital and analogue I/O, khz high-speed counter and communications Communication using ASI, CBS (MODBS compatible), POFIBS, and POFIBS/MODBS, MODBS/ASI and PO- FIBS/ASI gateways ASIO 0 and 67 inputs/outputs using ASI for distributed control system applications Programmed via PX C and C consoles or using PX C software under Windows Applications for control systems with centralised or distributed architecture PX 0 (0 to 0 I/O) PX 0 (0 to 0 I/O) PX 0 (0 to 8 I/O) PX, the standard open-access range, compatible with I/O extension modules : - Digital I/O. - Analogue I/O. - Versions for communication using CBS (Modbus compatible), Profibus and ASI (Device Net and Interbus S being developed). - emote I/O using ASI and CBS protocols. The modular internal design of the PX using plug-in boards offers the opportunity for multiple special configurations. extension modules Approvals - CE marking (conforming to the low voltage directive 7//EEC) - L and C/L approval. - Level electromagnetic compatibility in accordance with EN 600- and IEC 80-//. - Adapted for use in an industrial environment (conforming to IEC -). Easy to use - DIN rail mounted. - Screw terminals able to take x. mm wires. - Compact dimensions, 90 x 0 x or mm depending on the version. 0 to 8 Inputs/Outputs - Isolated VDC inputs. For or -wire NPN/PNP detectors and volt-free contacts. - x. khz high-speed counter input. - Independent, A - 0 VDC relay outputs or 0. A - VDC NPN/PNP transistor outputs. - Analogue I/O 0-0 V or 0-0 ma. - Pt 00 inputs - 0 C +80 C. - Auxiliary power supply modules VDC output, 0 or 0 VAC input. Flexible - Extension modules for digital and analogue I/O, communications, etc., for low cost system upgrades. Applications for control systems with centralised architecture µpx 0 (6 inputs / outputs) µpx (9 inputs / 6 outputs) µpx ( inputs / 0 outputs) mm - one of the smallest PLCs on the market µpx, the low-cost range for constructing simple control systems with digital I/O. Compact size, ease of programming and installation make the µpx 0, and three products which can do just about anything! Powerful - A 6-bit micro-controller. - Non-volatile EEPOM program memory holding 00 or 700 program steps depending on the model. More than 0 instructions available (including arithmetic). - Data memory x 6 bit words (6 words for µpx 0, and ). - 6 pre-programmed timer functions. - counters. eal-time clock - Clock - Calendar - Time counter Programming languages - elay ladder diagrams. - Function charts. - Natural language. Diagnostics - Indicators for I/O states and correct PLC operation.

314 Distributed control system modules MID Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) PC or PLC ser-definable functions filtering and counting up to 00 Hz on digital inputs time delay on digital outputs (steady, pulsed, flashing etc.) from 00 ms to 00 min. threshold check or scaling of analogue inputs freezing or fallback of digital and analogue outputs in the case of a fault emovable reference labels for inputs/outputs Galvanic isolation Sub-base of to terminal blocks with internal pre-wired commons Mechanical location coding for mounting I/O modules on terminal block sub-bases. p to 8 sensors or actuators per module INDSTIAL in their functions and presentation emovable modules OPEN to fieldbuses Connection to Cbus*, Profibus FMS and DP, Can Open *Modbus compatible MID parameters entered via switches Exchange unit for connecting to fieldbuses p to 8 digital or analogue I/O modules

315 Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Distributed control system with remote inputs/outputs Applications PLC or PC card For assembly machines, special production machines, conveyors, rotating machines, etc. CBM, BMS : lighting, security, air conditioning, car parks, etc. On-board control systems : lorries, rail transport etc. Distributed control system with remote inputs/outputs and local processing by CP module Applications PLC or PC card Adapted to the specific needs of delocalised control-command functions and to processing reflex functions (personnel and machine safety). For modular machines or machines with flexible configuration : design, acceptance tests, simplified operation and maintenance. FLEXIBLE for all control system architectures Centralised control system I/O CP I/O CP I/O I/O CP I/O Applications Compact control system applications with a small number of wire-to-wire I/O : lifts, coffee machines, vending machines, animated advertising panels, etc.

316 Index by part number Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Part numbers Description Page Part numbers Description Page Digital temperature controllers MIC 8 - Current transformers 0 A / 0 ma Digital temperature controllers MIC 8 - Current transformers A / 0 ma 8 7 Temperature sensors - Heat transfer Digital temperature controllers MIC 8 - compound Current transformers 0 A / 0 ma 8 7 Heat transfer compound Current control - Current transformers for Heat transfer compound 9 EIT 00 A / 0 ma Digital TOP pin solder-connected 78 plug Chronos - -pin connector base (for the whole range) Analogue TM 8 - -pin connector 7 base 6 8 Chronos - 8-pin connector base 6 0 Analogue TM 8-8-pin connector base Digital 86-8-pin solder-connected plug Miniature - Spring clips for teminal base Miniature - Spring clips for P.C.B. base Miniature - Base for DIN rail mounting 6 TMA Miniature - Base for DIN rail mounting 6 TMA Miniature - Base for printed circuit board 6 TMA Miniature - Base for printed circuit board 6 TMA 6 70 Heat seal Heat seal Fuses for GMS relays Fuses for GMS relays Varistor protection for solid state relays Varistor protection for solid state relays Heatsinks Heatsinks Heatsinks Three-phase alternative current - Heatsink Heatsinks Three-phase changeover, AC - DIN rail 88 heatsinks 6 76 DIN rail adaptor Heatsinks Three-phase alternative current - Protective 90 cover Protective cover Three-phase changeover, AC - Protective 88 cover Protective cover Protective cover Adaptors for fixing on panel (set of ) Electro-mechanical hour counter CH 8 66 G - DIN socket rail connector Electro-mechanical hour counter CH 8 66 G - Bezel (grey) x mm Totalizers - LCD x 8 (Hour counter/ 0 chronometer) - Adaptor for cut-out Ø 0 (dimensions Ø 7 mm) Totalizers - LCD x 8 (Hour counter/ 0 chronometer) - Adaptor for cut-out x mm (dimensions x mm) Totalizers - LCD x 8 (Hour counter/ chronometer) - Adaptor for cut-out x0 mm (dimensions 9x mm) Striker cams Striker cams Striker cams Striker cams Packet of extra strikers Packet of extra strikers Packet of extra strikers Packet of extra strikers Analogue temperature controllers - Protective 0 cover IP Digital TOP 98 - Spring clips Digital TOP pole rear base Digital TOP 98 - Asymmetrical adaptor Digital - 8-pin solder-connector base Level control - S Level control - S Temperature probes - Thermocouple / 0 PT Temperature probes - Thermocouple / 0 PT Temperature probes - Thermocouple / 0 PT Temperature probes - Thermocouple / 0 PT Temperature probes - Thermocouple / 0 PT Temperature probes - Thermocouple / 0 PT Temperature probes - Thermocouple / 0 PT Temperature probes - Thermocouple / 0 PT Temperature probes - Connection Temperature probes - Connection Temperature probes - Connection Temperature probes - Sub-base Temperature probes - Flange Level control - S Level control - S Two-hand control console - Mushroom 0 head emergency stop Two-hand control console - Spring-return pushbuttons Three-phase alternative current - ange 90 GA 8 08 Three-phase alternative current - ange 90 GA 8 08 Three-phase alternative current - ange 90 GA elay-heatsink assembly - Assembly Three-phase alternative current - ange 90 GA Three-phase alternative current - ange 90 GA SMAT SS - " hockey puck " 8 6

317 Index by part number Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Part numbers Description Page Part numbers Description Page 8 06 PCB-mountable - GA range Single-phase, two-phase or three-phase, PCB-mountable - GA8 range 8 AC with integrated heatsink, for DIN rail PCB-mountable - GA8 range 8 and baseplate mounting - mm 8 06 PCB-mountable - GA8 range Single-phase, two-phase or three-phase, Three-phase changeover, AC - Alternative 88 AC with integrated heatsink, for DIN rail current and baseplate mounting -. mm elay-heatsink assembly - Assembly Single-phase, two-phase or three-phase, Three-phase alternative current - ange 90 AC with integrated heatsink, for DIN rail GA and baseplate mounting -. mm elay-heatsink assembly - Assembly Single-phase, two-phase or three-phase, Three-phase alternative current - ange 90 AC with integrated heatsink, for DIN rail GA and baseplate mounting - mm Three-phase alternative current - ange Single-phase, two-phase or three-phase, 68 GA AC with integrated heatsink, for DIN rail elay-heatsink assembly - Assembly 80 and baseplate mounting - SC zero voltage switching Three-phase alternative current - ange 90 GA 8 0 Single-phase, two-phase or three-phase, Three-phase alternative current - ange 90 AC with integrated heatsink, for DIN rail GA and baseplate mounting - SC Instanta elay-heatsink assembly - Assembly Single-phase, two-phase or three-phase, AC with integrated heatsink, for DIN rail and baseplate mounting -. mm Single-phase, two-phase or three-phase, AC with integrated heatsink, for DIN rail and baseplate mounting -. mm Single-phase, two-phase or three-phase, AC with integrated heatsink, for DIN rail and baseplate mounting -. mm Single-phase, two-phase or three-phase, AC with integrated heatsink, for DIN rail and baseplate mounting -. mm Single-phase, AC and DC 7. mm for DIN rail mounting - Transistor Single-phase, AC and DC 7. mm for DIN rail mounting - 7. mm Single-phase, AC and DC 7. mm for DIN rail mounting - 7. mm Single-phase, two-phase or three-phase, AC with integrated heatsink, for DIN rail and baseplate mounting - Zero voltage switching SC output 8 0 Single-phase, two-phase or three-phase, AC with integrated heatsink, for DIN rail and baseplate mounting - Zero voltage switching SC output 8 0 Single-phase, two-phase or three-phase, AC with integrated heatsink, for DIN rail and baseplate mounting - Instantaneous switching Thyristor output 8 0 Single-phase, two-phase or three-phase, AC with integrated heatsink, for DIN rail and baseplate mounting - Zero voltage switching SC output 8 0 Single-phase, two-phase or three-phase, AC with integrated heatsink, for DIN rail and baseplate mounting - Instantaneous switching Thyristor output 8 0 Single-phase, two-phase or three-phase, AC with integrated heatsink, for DIN rail and baseplate mounting - Zero voltage switching SC output Single-phase, two-phase or three-phase, AC with integrated heatsink, for DIN rail and baseplate mounting - mm Single-phase, two-phase or three-phase, AC with integrated heatsink, for DIN rail and baseplate mounting - 90 mm Threephase neous switching 8 0 Single-phase, two-phase or three-phase, 68 AC with integrated heatsink, for DIN rail and baseplate mounting - SC zero voltage switching Single-phase, two-phase or three-phase, 66 AC with integrated heatsink, for DIN rail and baseplate mounting - SC zero voltage switching 8 0 Single-phase, two-phase or three-phase, 66 AC with integrated heatsink, for DIN rail and baseplate mounting - SC zero voltage switching 8 0 Single-phase, two-phase or three-phase, 66 AC with integrated heatsink, for DIN rail and baseplate mounting - SC Instantaneous switching 8 0 SMAT SS - Self checking Solid state relays - GZ range Solid state relays - GZ range Solid state relays - GZ range Solid state relays - GZ range Solid state relays - GZ range Solid state relays - GZ range Solid state relays - GZ range Solid state relays - GZ range Solid state relays - GZ range Solid state relays - GZ range Solid state relays - GZ range Solid state relays - GZ range Solid state relays - GZ range Solid state relays - GZ range Solid state relays - GZ range Solid state relays - GZ range Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase 76 7

318 Index by part number Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Part numbers Description Page Part numbers Description Page 8 08 Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase 76 8 Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Single-phase Single-phase GN - Bipolar version Single-phase GN - Single-phase Single-phase GN - FET VESION Single-phase GN - Single-phase Single-phase GN - FET VESION Single-phase GN - Single-phase Single-phase GN - FET VESION Single-phase GN - Single-phase Single-phase GN - Screw Single-phase GN - Single-phase Single-phase GN - Screw Single-phase GN - Single-phase Single-phase GN - Screw Single-phase GN - Single-phase Single-phase GN - Fast on Single-phase GN - Single-phase Single-phase GN - Fast on Single-phase GN - Single-phase Single-phase GN - Fast on Single-phase GN - Single-phase Single-phase GN - Screw Single-phase GN - Single-phase Single-phase GN - Screw Single-phase GN - Single-phase Single-phase GN - Screw Single-phase GN - Single-phase Single-phase GN - Fast on Single-phase GN - Single-phase Single-phase GN - Fast on Single-phase GN - Single-phase Single-phase GN - Fast on Single-phase GN - Single-phase 76 8

319 Index by part number Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) CC 8 V DC DIN rail mounted - Inverter for DC supply Inverter for DC supply 8 V Inverter for DC supply 8 V Inverter for DC supply 8 V Inverter for DC supply 8 V Inverter for DC supply 8 V Inverter for DC supply 8 V Inverter for DC supply V Inverter for DC supply V Inverter for DC supply V Inverter for DC supply V DIN rail mounted - Inverter for DC supply Inverter for DC supply 0 7 V Inverter for DC supply 0 7 V Inverter for DC supply 0 7 V Inverter for DC supply 0 7 V Inverter for DC supply 0 7 V Level control - EN Level control - EN Level control - EN Level control - EN Level control - ENM Level control - ENM Level control - ENM Level control - ENM Level control - LN Level control - LN Level control - LN Level control - LN Level control - LN Level control - LN Level control - LN Level control - LN Level control - LN Level control - FN Level control - FN Level control - FN Level control - FN Level control - FN Level control - FN Level control - FN Level control - FN Level control - FN LS Level control - LN Level control - LN Current control - EIL Current control - EIL Current control - EIL Current control - EIL Current control - EIL Current control - EIH 6 Part numbers Description Page Part numbers Description Page Single-phase GN - Single-phase Current control - EIH Single-phase GN - Bipolar version Current control - EIH Single-phase GN - FET VESION Current control - EIH Single-phase GN - FET VESION Current control - EIH Single-phase GN - FET VESION Current control - EIT Hybrid power relays - Contactor Current control - EIT Hybrid power relays - Contactor Current control - EIT Hybrid power relays - Contactor Current control - EIT Hybrid power relays - Impulse relay Current control - EIT Hybrid power relays - Day/night contactor Current control - MCI Two-phase solid state relay - Dual range Control with LCD display - Voltage - Current Two-phase solid state relay - Dual range 7 - HDI - L Two-phase solid state relay - Dual range Control with LCD display - Voltage - Current Two-phase solid state relay - Dual range 7 - HDI - L Two-phase solid state relay - Dual range Control with LCD display - Voltage - Current Two-phase solid state relay - Dual range 7 - HDI - L Two-phase solid state relay - Dual range Control with LCD display - Voltage - Current 0 - HDI - L Two-phase solid state relay - Dual range Panel-mounted - Invertor for DC supply Control with LCD display - Voltage - Cur- 0 rent - HDI - H Control with LCD display - Voltage - Current 0 - HDI - H Control with LCD display - Voltage - Current 0 - HDI - H Control with LCD display - Voltage - Current 0 - HDI - H Voltage control - EL Voltage control - EL Voltage control - EL Voltage control - EL Voltage control - EH Voltage control - EH Voltage control - EH Voltage control - EH Voltage control - ES Voltage control - ES Voltage control - ES Voltage control - ESF Voltage control - ESF Control with LCD display - Voltage - Current 0 - HD - L Control with LCD display - Voltage - Current 0 - HD - L Control with LCD display - Voltage - Current 0 - HD - L Control with LCD display - Voltage - Current 0 - HD - L Control with LCD display - Voltage - Current 0 - HD - H Control with LCD display - Voltage - Current 0 - HD - H Control with LCD display - Voltage - Current 0 - HD - H Control with LCD display - Voltage - Current 0 - HD - H Phase control - EWS Phase control - FW Phase control - FW Phase control - FW Phase control - FW Phase control - FW Phase control - FW Phase control - FW Voltage control - FS Voltage control - FS Voltage control - FS 8 87 Voltage control - FS Phase control - FWA Phase control - FWA Phase control - FWA 6 9

320 Index by part number Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Part numbers Description Page Part numbers Description Page 8 87 Phase control - FWA Totalizer - atemeter - Totalizer and Motor control - FFP atemeter - LCD 6 x Motor control - FFP Totalizer - atemeter - Totalizer and Motor control - FFP atemeter - LCD 6 x Motor control - FFP Totalizer - atemeter - Totalizer and Motor control - FFP atemeter - LCD 6 x Phase control - EWA Preselection and multifunction up/down Phase control - EWA counters 8x8 - - preset 8 87 Phase control - EW Preselection and multifunction up/down 8 87 Phase control - EW counters 8x8 - - preset Motor control - ETM Preselection and multifunction up/down Motor control - ETM 8 counters 8x8 - - preset Motor control - ETM Preselection and multifunction up/down Motor control - ETM 8 counters 8x8 - - preset Motor control - ETM Preselection and multifunction up/down Motor control - ETM 8 counters 8x8 - - preset Motor control - ETM Preselection and multifunction up/down Motor control - ETM 8 counters 8x8 - - preset Motor control - ETM Preselection and multifunction up/down Motor control - FL Motor control - FL 6 counters 8x8 - - preset Motor control - FL Preselection and multifunction up/down Motor control - FL 6 counters 8x8 - - preset Variable speed - VT Preselection and multifunction up/down Phase control - EWS 0 counters 8x8 - - preset Preselection and multifunction up/down counters 8x8 - - preset Preselection and multifunction up/down counters 8x8 - - preset Safety relay - KNA-XS Preselection and multifunction up/down Safety relay - KNA-XS 96 counters 8x8 - - preset Two-hand control console - KSP Preselection and multifunction up/down Two-hand control console - KSP Safety relay - KSW-S 0 counters 8x8 - - preset 8 00 Safety relay - KNA-S Preselection and multifunction up/down 8 00 Safety relay - KNA-S 96 counters 8x8 - - preset Safety relay - KNA-S Preselection and multifunction up/down Safety relay - KZHNV-XS 9 counters 8x8 - - preset Safety relay - KZP-S Preselection and multifunction up/down Safety relay - KZH-XS 06 counters 8x8 - - preset Safety relay - KZH-S Preselection and multifunction up/down Safety relay - KZH-S 06 counters 8x8 - - preset Safety relay - KZH-S Preselection and multifunction up/down Safety relay - KZ-S 00 counters 8x8 - - preset Safety relay - KZE-XS Preselection and multifunction up/down Safety relay - KZE-XS 0 counters 8x8 - - preset Safety relay - KNAC-XS Preselection and multifunction up/down Safety relay - KNAC-XS 96 counters 8x8 - - preset Safety relay - KZEC-XS Preselection and multifunction up/down Safety relay - KZEC-XS 0 counters 8x8 - - preset Preselection and multifunction up/down counters 8x8 - - preset Preselection and multifunction up/down Totalizer/hour counter module counters 8x8 - - preset Totalizer/hour counter module Preselection and multifunction up/down Totalizer/hour counter module counters 8x8 - - preset Totalizer/hour counter module Preselection and multifunction up/down Totalizer/hour counter module - C08 6 counters 8x8 - - preset Totalizers - LCD x Preselection and multifunction up/down Totalizers - LCD x 8-6 counters 8x8 - - preset Hour counters - LCD x Preselection and multifunction up/down Hour counters - LCD x 8 - counters 8x8 - - preset Total/partial impulse counters - LCD x Preselection and multifunction up/down 8-9 counters 8x8 - - preset Total/partial impulse counters - LCD x Preselection and multifunction up/down 8-9 counters 8x8 - - preset Totalizers - LCD x 8 (Hour counter/ Preselection and multifunction up/down chronometer) - 08 counters 8x8 - - preset Totalizers - LCD x 8 (Hour counter/ chronometer) - 08H Preselection and multifunction up/down counters 8x8 - - preset 0

321 Index by part number Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Part numbers Description Page Part numbers Description Page Preselection and multifunction up/down counters 8x8 - - preset Preselection and Multifunction up/down counters 7x7-79- preset Preselection and multifunction up/down counters 8x8 - - preset Preselection and multifunction up/down counters 8x8 - - preset 88 0 DIN rail mounted - 6 s min 6 Preselection and multifunction up/down 88 0 DIN rail mounted - 6 s min 6 counters 8x8 - - preset 88 0 DIN rail mounted - 6 s min Preselection and multifunction up/down 88 0 DIN rail mounted - 6 min h 6 counters 8x8 - - preset 88 0 DIN rail mounted - 6 min h Preselection and multifunction up/down DIN rail mounted - 6 min h 6 counters 8x8-9- preset DIN rail mounted - 6 min h Preselection and multifunction up/down DIN rail mounted - 6 s min 6 counters 8x8-9- preset Panel-mounted - 6 s mm Preselection and multifunction up/down Panel-mounted - 6 s mm 9 counters 8x8-9- preset Panel-mounted - 6 s mm Preselection and multifunction up/down Panel-mounted - 6 min h 9 counters 8x8-9- preset Panel-mounted - 6 min h Preselection and multifunction up/down Panel-mounted - 6 min h 9 counters 8x8-9- preset Panel-mounted - 6 min h Preselection and multifunction up/down Panel-mounted - 6 s mm 9 counters 8x8-9- preset Panel-mounted - 6 s mm Preselection and multifunction up/down Panel-mounted - 6 s mm 9 counters 8x8-9- preset Panel-mounted - 6 s mm Preselection and multifunction up/down Panel-mounted - 6 s mm 9 counters 8x8-9- preset Panel-mounted - 6 min h Preselection and multifunction up/down Panel-mounted - 6 min h Panel-mounted - 6 min h 9 counters 8x8-9- preset Panel-mounted - 6 min h Preselection and multifunction up/down 88 6 Cam timers circuit 8 counters 8x8-9- preset Panel-mounted Preselection and multifunction up/down Panel-mounted counters 8x8-9- preset Panel-mounted Preselection and multifunction up/down Panel-mounted counters 8x8-9- preset Panel-mounted Preselection and Multifunction up/down Panel-mounted counters 7x7-7- preset Panel-mounted Preselection and Multifunction up/down Panel-mounted counters 7x7-7- preset 88 6 Cam timers circuits Preselection and Multifunction up/down Panel-mounted counters 7x7-7- preset Panel-mounted Preselection and Multifunction up/down Panel-mounted counters 7x7-7- preset Panel-mounted Preselection and Multifunction up/down Panel-mounted counters 7x7-7- preset 88 6 Panel-mounted Preselection and Multifunction up/down Panel-mounted counters 7x7-7- preset 88 6 Panel-mounted Preselection and Multifunction up/down Cam timers circuits 8 counters 7x7-7- preset Panel-mounted Preselection and Multifunction up/down Panel-mounted counters 7x7-7- preset Panel-mounted Preselection and Multifunction up/down Panel-mounted counters 7x7-7- preset Panel-mounted Preselection and Multifunction up/down Panel-mounted counters 7x7-7- preset Panel-mounted Preselection and Multifunction up/down Panel-mounted counters 7x7-7- preset Cam timers with external knob 7 circuits Preselection and Multifunction up/down Cam timers with internal knob circuits 7 counters 7x7-7- preset 88 6 Cam timers with fast cycle-end or Preselection and Multifunction up/down 6 speeds circuits counters 7x7-79- preset 88 6 Cam timers with external knob circuits Preselection and Multifunction up/down Cam timers with internal knob 0 circuits 7 counters 7x7-79- preset 88 6 Cam timers with fast cycle-end or Preselection and Multifunction up/down 6 speeds 0 circuits counters 7x7-79- preset 88 6 Cam timers with external knob 7 circuits Preselection and Multifunction up/down Cam timers with internal knob circuits Cam timers with fast cycle-end or 7 counters 7x7-79- preset Preselection and Multifunction up/down 7 speeds circuits Cam timers with external knob circuits 7 counters 7x7-79- preset Cam timers with internal knob 0 circuits 7

322 Index by part number Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Part numbers Description Page Part numbers Description Page Cam timers with fast cycle-end or speeds 0 circuits Cam timers with external knob circuits Cam timers with external knob 0 circuits Cam timers with internal knob 0 circuits Cam timers with internal knob 8 circuits Cam timers with fast cycle-end or 7 speeds 9 circuits Cam timers with fast cycle-end or 7 speeds 8 circuits Cam timers circuits Cam timers circuits Cam timers with fully precut cams and 77 selector knob Cam timers 6 circuits Cam timers 8 circuits Cam timers 0 circuits Cam timers circuits Cam timers circuits Cam timers 6 circuits Cam timers 8 circuits Cam timers 0 circuits Cam timers circuits Cam timers circuit Cam timers circuits Chronos - MS Chronos - MAS Chronos - MHS Chronos - MLS Chronos - M Chronos - M Chronos - M Chronos - MA Chronos - MB Chronos - MC Chronos - MH Chronos - ML Chronos - MX Chronos - Mc Digital - Timer Digital - Timer Digital - Timer Digital - Timer Digital - Timer Digital - Timer Digital - Timer Digital - Timer Digital - Timer Digital - Timer Digital TOP 98 - TOP Digital TOP 98 - TOP Digital TOP 98 - TOP Digital 86 - Timer Digital 86 - Timer Digital 86 - Timer Digital 86 - Timer Digital 86 - Timer Digital 86 - Timer Chronos - T Chronos - T Chronos - T Chronos - TA Chronos - TB Chronos - TC Chronos - TH Chronos - TL Chronos - TQ Chronos - TQ Chronos - TX Chronos - TA Chronos - TK Chronos - T Chronos - T Chronos - T Chronos - TX Chronos - Tc Chronos - O Chronos - O Chronos - O Chronos - OC Chronos - OL Chronos - OA Chronos - P Chronos - P Chronos - P Chronos - PA Chronos - PC Chronos - PL Analogue TM 8 - TM Analogue TM 8 - TM 8 A Analogue TM 8 - TM 8 X Analogue TM 8 - TM 8 L Miniature - TMA Miniature - TMA Miniature - TMA Miniature - TMA Miniature - TMA Miniature - TMA Miniature - TMA Miniature - TMA Miniature - TMA Miniature - TMA Defrost relay for air conditioning and 6 industrial refrigeration - NF MBA (Ø mm) - MIN BO MBA (Ø mm) - MBAF MBA (Ø mm) - MIN BO MBA (Ø mm) - MBAF MBA (Ø mm) - MIN BO MBA (Ø mm) - MBAF MBA (Ø mm) - MIN BO MBA (Ø mm) - MBAF MBA (Ø mm) - MIN BO MBA (Ø mm) - MBAF Millenium II - CN Millenium II - CN Millenium II - CN Millenium II - CN Millenium II - CN Millenium II - CN Millenium II - CN Millenium II - CN Millenium II - CN Millenium II - CN Millenium II - CN Millenium II - CN Millenium II - CN Millenium II - CN Millenium II - EC Millenium II - EC Millenium II - EC Millenium II - EC Millenium II - EC Millenium II - EC Millenium II - EC Millenium II - EC Millenium II - EC Millenium II - EC Millenium II - EC Millenium II - EC Millenium II - EC Millenium II - EC 0 8

323 Index by part number Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Part numbers Description Page Part numbers Description Page Millenium II - SA Analogue temperature controllers Millenium II - SA 6 CT8A Millenium II - SA Analogue temperature controllers Millenium II - SA 6 CT8A Millenium II - SA Analogue temperature controllers Millenium II - SA 6 CT8A Millenium II - SA Analogue temperature controllers Millenium II - SA 0 6 CT8A Millenium II - SA Analogue temperature controllers Millenium II - SA 0 6 CT8A Millenium II - SA Temperature controllers CTH/CTD - CTD Millenium II - SA Millenium II - SA Temperature controllers CTH/CTD - CTD Millenium II - SA Millenium II - XT Temperature controllers CTH/CTD - CTD Millenium II - XT Millenium II - XT Temperature controllers CTH/CTD - CTD Millenium II - XT Millenium II - XT Digital temperature controllers MIC Millenium II - XT Millenium II - XT 0 7 Without S 8 link Millenium II - KIT SA Digital temperature controllers MIC Millenium II - KIT SA Without S 8 link Millenium II - Kit SA Digital temperature controllers MIC Millenium II - Kit SA 0 Without S 8 link Millenium II - Kit XT Digital temperature controllers MIC Millenium II - Kit XT 0 Without S 8 link Millenium II - Programming software on 89 0 Temperature controllers CTH/CTD - CTD 6 CD OM Millenium II - EEPOM memory module Temperature controllers CTH/CTD - CTD Millenium II - PC-module link interface Accessories - Software 89 Temperature controllers CTH/CTD - CTD Programming cable SB Millenium II - Modems 89 8 Temperature controllers CTH/CTD - CTD Millenium II - Modems Modem cable 89 0 Digital temperature controllers MIC Accessories - Convertor PWM / 0-0V With S 8 link Accessories - Software Digital temperature controllers MIC Accessories - Convertor 0-0 ma / 0-0 V With S 8 link Millenium II - XL Digital temperature controllers MIC Millenium II - XL 0 0 With S 8 link Millenium II - XC Digital temperature controllers MIC Millenium II - XC 0 0 With S 8 link Millenium II - XC Temperature controllers CTH/CTD - CTH Millenium II - XC Millenium II - XC Temperature controllers CTH/CTD - CTH Millenium II - XC Millenium II - XC Temperature controllers CTH/CTD - CTH Millenium II - XL Millenium II - SA + level sensor 89 8 Temperature controllers CTH/CTD - CTH 6 adaptor Millenium II - EX Temperature controller/indicator CTD Millenium II - EX CTD Millenium II - EX Temperature controller/indicator CTD Millenium II - EX CTD Millenium II - EX Temperature controller/indicator CTD 9 - CTD Temperature controller/indicator CTD 9 - CTD Analogue temperature controllers Temperature controller/indicator CTD 9 CT8A - CTD Analogue temperature controllers Temperature controller/indicator CTD 9 CT8A - CTD Analogue temperature controllers Accessories - Front panel adaptor CT8A Accessories - Front panel adaptor Analogue temperature controllers Temperature sensors - Copper protective CT8A sleeve for Analogue temperature controllers Temperature sensors - Stainless steel CT8A (6) protective sleeve for Temperature sensors - Zone

324 Index by part number Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Part numbers Description Page Part numbers Description Page Temperature sensors - Ventilation duct Electro-mechanical impulse counters Temperature sensors - Outdoor totalizing - x 8 - With zero reset Temperature sensors - emote/submersible (manual) probe Electro-mechanical impulse counters Temperature sensors - Outdoor totalizing - x 8 - With zero reset Accessories - Front panel adaptor (manual) Accessories - Front panel adaptor Electro-mechanical impulse counters Accessories - Front panel adaptor totalizing - x 8 - With zero reset Electro-mechanical hour counter CH 8 G - CH 8 G Electro-mechanical hour counter CH 8 G - CH 8 G Electro-mechanical hour counter CH 8 G - CH 8 G Electro-mechanical hour counter CH 8 G - CH 8 G Electro-mechanical hour counter CH 8 G - CH 8 G Electro-mechanical hour counter CH 8 G - CH 8 G Electro-mechanical hour counter CH 8 G - CH 8 G Electro-mechanical impulse counters totalizing - 6 x 7 - Without zero reset Electro-mechanical impulse counters totalizing - 6 x 7 - Without zero reset Electro-mechanical impulse counters totalizing - 6 x 7 - Without zero reset Electro-mechanical impulse counters totalizing - 6 x 7 - Without zero reset Electro-mechanical impulse counters totalizing - 6 x 7 - With zero reset Electro-mechanical impulse counters totalizing - 6 x 7 - With zero reset Electro-mechanical impulse counters totalizing - 6 x 7 - With zero reset Electro-mechanical impulse counters totalizing - 6 x 7 - With zero reset Electro-mechanical impulse counters totalizing - 6 x 8 - Without zero reset Electro-mechanical impulse counters totalizing - 6 x 8 - Without zero reset Electro-mechanical impulse counters totalizing - 6 x 8 - Without zero reset Electro-mechanical impulse counters totalizing - 6 x 8 - Without zero reset Electro-mechanical impulse counters totalizing - 6 x 8 - Without zero reset (manual) Electro-mechanical impulse counters totalizing - 6 x 8 - Without zero reset (manual) Electro-mechanical impulse counters totalizing - 6 x 8 - Without zero reset (manual) Electro-mechanical impulse counters totalizing - 6 x 8 - Without zero reset (manual) Electro-mechanical impulse counters totalizing - x 8 - Without zero reset Electro-mechanical impulse counters totalizing - x 8 - Without zero reset Electro-mechanical impulse counters totalizing - x 8 - Without zero reset Electro-mechanical impulse counters totalizing - x 8 - Without zero reset (manual) Electro-mechanical impulse counters totalizing - x 8 - With zero reset (manual) 6

325 Memo: Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Plus d informations sur

326 Memo: Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Plus d informations sur

327 Conditions of sale. Acceptance All orders are accepted subject to the following Conditions of Sale which cannot be varied except expressly and in writing by us. These terms and conditions shall prevail over any terms and conditions contained in a purchaser s order. Any sale by us to purchaser subsequent to an order or other notification incorporating any Conditions of Purchase of the Purchaser shall not be deemed to constitute an acceptance by us of the purchaser s Conditions of Purchase. 9. Errors We reserve the right to correct all typographical and clerical errors and the purchaser may not rely on any such information thus erroneously provided. 0. Proper law The parties hereby agree that any contract made between them and any question thereby arising shall be governed by English law. Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) Prices and discounts All prices and discount rates are subject to alteration without notice and the rate applicable to a particular order will be our price and discount rates current at the date of despatch irrespective of the price and discount rate stated in our acknowledgement. Minimum order charge payable.. Payment Payment must be made with the order in cash without any deduction (other than any discount rate previously agreed by us) unless monthly or other terms have been approved by us prior to the order being made.. Despatch dates Despatch dates given are based on our best information at the time quoted, but are given as estimates only. We reserve the right to postpone any quoted despatch or delivery dates without prior notice and without liability for any delay. Delivery weeks are numbered - from January to December.. Cancellation or amendment We reserve the right to cancel or amend a purchaser s order if it is impractical or impossible for us to fulfil the order by reason of any act of God, war, civil disturbance, strike, lockout, cessation of work, combination of workmen or employees, legislation or restriction of any governmental or other authority, breakdown or interruption of transport, force majeure or any other circumstances beyond our control and in such circumstances the obligations of each part hereunder shall be wholly or partially suspended during the continuance and to the extent of such prevention, interruption or hindrance. 6. Descriptions Technical information relating to our products as set out in our catalogue(s) and description literature may be varied by us from time to time due to manufacturing and other factors. Every effort will be made to keep our literature and catalogues up-to-date but the purchaser should make specific enquiries and satisfy himself that any order given by him is of products and specifications currently available, and supplied by us at the time the order is given. Every endeavour will be made by us to correct and up-date our literature from time to time as the situation shall require but we accept no liability for minor or trifling misdescription. 7. Delivery complaints Non delivery within 0 days of the date of despatch must be reported immediately in writing to us and to the carriers. Any damage or shortfall in delivery must be reported in writing to us within three days of delivery giving a statement of the alleged shortfall or damage. We shall not be liable for any claims in respect of the above complaints unless they have been reported in accordance with this Clause. 8. Warranty We shall repair or, at our option, replace without charge any products manufactured and supplied by us hereunder which prove defective within twelve months from the date of despatch POVIDED ALWAYS, that a) such products have not been structurally modified or misused or misapplied; b) they are returned to us carriage paid; c) all terms agreed by us for payment of such goods have been strictly complied with; d) any claim hereunder is made within 0 days of the date of discovery of the defect. POVIDED THAT this Warranty shall not extend to any prototype(s) nor any pre-production batch supplied for customer evaluation. Where it appears to us following an inspection of the return of goods that no defect rendering the goods unmerchantable or fit for their purpose exists or has existed since despatch by us we shall be entitled at our absolute discretion to return the goods henceforth to the buyer who shall thereupon bear and be responsible for cost of carriage thereby incurred. Save as provided above we accept no liability in contract or tort whatsoever in respect of defects in goods sold by us save where such liability cannot be limited or exclused in law.. Intellectual property The purchaser hereby agrees and undertakes not to copy, publicise or make available to any third party any drawings, designs, patterns, tooling written instructions, software specifications etc produced and supplied by us in connection with any order placed under these conditions save in accordance with any licence granted by us and it is hereby agreed that the same shall remain our property and must be returned to us on demand free of charge. Where software is incorporated in our product and sold to the purchaser as a package the software remains our property and the purchaser has a no-exclusive right of use. As a consequence, the purchaser is forbidden to reproduce, except for the purchasers own security copy purposes, alter or publish such software as is marketed by us or otherwise inform unauthorised persons.. Title We retain ownership in the goods until full payment has been made and goods supplied that have not been paid for must be held by the purchaser on our behalf as follows : a) It shall be the duty of the purchaser to preserve and store goods delivered in an identifiable form and not to mix or make the said goods until payment is received by us in full, unless written consent is other-wise given. Further if such written consent is given, it is agreed that you will hold the proceeds of sale on trust for us in a separate identifiable bank account until the payment is made in full. b) It is further hereby agreed that in the event of the purchaser becoming bankrupt or having a eceiving Order or Administration Order made or making arrangements with creditors for commencing to be wound up then the purchaser will notify us forthwith and we shall be entitled to give notices and instructions to the purchaser in accordance with clause (a) above. Nothing in this sub-clause shall prejudice our rights with regard to clause (a) above.. Minimum order charge 00 (excluding Post and Packing)+VAT. Orders for less than 00 will be charged as 00. VAT will be added at the relevant rate. G

328 Crouzet around the world Courtesy of Steven Engineering, Inc. 0 yan Way, South San Francisco, CA General Inquiries: (800) ASTIA Crouzet GmbH Spengergasse / A-00 Wien Tel. : +(0)/687 Fax : +(0)/687 com-at@crouzet.com Customer services Tel. : +9(0) 0/ und 08 Fax : +9(0) 0/ com-at@crouzet.com BELGIM Crouzet NV/SA Koning Albert I Laan Wemmel Tel. : + (0) Fax : + (0) com-be@crouzet.com Customer services Tel. : (F) Tel. : (NL) Fax : infocom@crouzet.com BAZIL Crouzet do Brasil ua Antonio das Chagas, 9 Chacara Santo Antonio CEP Sao Paolo -SP Tel. : com-dvi@crouzet.com Customer services Tel. : Fax : infocom@crouzet.com CHINA Crouzet Asia Dynasty Business Center, 0-F 7 Wu Lu Mu Qi (N) oad SHANGHAI Tel. : +(86-) Fax +(86-) com-cn@crouzet.com Customer Services Tel. : Fax : infocom@crouzet.com CZECH EPBLIC Crouzet GmbH Otto-Hahn Str. D-07 Hilden Postfach 0 D-070 Hilden Tel. : +9(0) Fax : +9(0) com-cz@crouzet.com Customer services Tel. : +9(0) 0/ und 08 Fax : +9(0) 0/ com-cz@crouzet.com FANCE Crouzet Automatismes SAS Ventes France rue du docteur Abel - BP Valence cedex 9 Tel. : Fax N Azur com-fr@crouzet.com Customer services N Indigo Fax : infocom@crouzet.com GEMANY Crouzet GmbH Otto-Hahn Str. D-07 HILDEN Postfach 0 D-070 HILDEN Tel. : +9(0) Fax : +9(0) com-de@crouzet.com Customer services Tel. : +9(0) Fax : +9(0) com-de@crouzet.com HONG-KONG Crouzet Asia Ltd Suite, /F, Tower, Metro Plaza Hing Fong oad Kwai Chung, N.T. Hong Kong Tel. : Fax : com-cn@crouzet.com Customer services Tel. : Fax : infocom@crouzet.com HNGAY Crouzet GmbH Otto-Hahn-Str. D-07 Hilden Postfach 0 D-070 Hilden Tel: +9(0) Fax:+9(0) com-hu@crouzet.com Customer services Tel. : +9(0) 0/ und 08 Fax : +9(0) 0/ com-hu@crouzet.com INDIA Crouzet India India liaison office nit No. -D, SPL ENDELY III Floor, 6, Cubbon road BANGALOE Tel.: Fax: crz_bangalore@crouzet.com Customer services Tel. : Fax : infocom@crouzet.com ITALY Crouzet Componenti s.r.l. Via Brembo, 09 Milano Tel. : Fax : com-it@crouzet.com Distributed by : MEXICO Crouzet Mexicana SA Aquiles Serdan n 6 San Felipe Hueyotlipan C.P Puebla Mexico Tel. : + 0 9/ 0 Fax : com-mx@crouzet.com Customer services Tel. : Fax : infocom@crouzet.com POLAND Crouzet GmbH l. yżowa PL-0-8 Warszawa Tel. : +8(0)/87080 Fax : +8(0)/ com-pl@crouzet.com Customer services Tel. : +9(0) 0/ und 08 Fax : +9(0) 0/ com-pl@crouzet.com SPAIN Crouzet España C/ Aragón, - a 080 Barcelona Tel. : Fax : es-consultas@crouzet.es Customer services Tel : Fax : infocom@crouzet.com SWEDEN Crouzet AB Malmgårdsvägen 6 Box 8 - SE Stockholm Tel. : Fax : crouzet@crouzet.se Customer services Denmark, Finland, Norway and Sweden Tel. : Fax : order@crouzet.se SWITZELAND Crouzet AG Gewerbepark - Postfach 6 CH-06 Mägenwil Tel. : +(0)6/ Fax : +(0)6/ com-ch@crouzet.com Customer services Tel. : +(0)6/ Fax : +(0)6/ com-ch@crouzet.com THE NETHELANDS Crouzet BV Industrieweg 7 8 N Zoeterwoude Tel. : + (0) Fax : + (0)7-7 com-nl@crouzet.com Customer Services Tel. : Fax : infocom@crouzet.com NITED KINGDOM Crouzet Ltd Intec - Wade oad Basingstoke - Hampshire G 8NE Tel. : + (0) Fax : + (0) info@crouzet.co.uk SA Crouzet Corporation 0 airline drive, suite 00 Coppell Texas 709 Tel. : Fax : com-us@crouzet.com Customer Services Tel.: Fax : infocom@crouzet.com OTHE CONTIES Crouzet Automatismes SAS Division Ventes Internationales, rue du docteur Abel - BP Valence cedex 9 - Fr Tel. : Fax : com-dvi@crouzet.com Customer services Tel. : Fax : infocom@crouzet.com Warning: The product information contained in this catalogue is given purely as information and does not constitute a representation, warrantly or any form of contractual commitment. COZET Automatismes and its subsidiaries reserve the right to modify their products without notice. It is imperative that we should be consulted over any particular use or application of our products and it is the responsability of the buyer to establish, particularly through all the appropriate tests, that the product is suitable for the use or application.nder no circumstances will our warranty apply, nor shall we be held responsible for any application (such as any modification, addition, deletion, use in conjunction with other electrical or electronic components, circuits or assemblies, or any other unsuitable material or substance) which has not been expressly agreed by us prior to the sale of our products. éf G (Published November 00) - Communication Crouzet Automatismes - Dépot légal en cours - Peillon & Associés - Photos : Ginko - Daniel Lattard