COMP SIZE HIGH PRECISI IMERS VARIOUS OUPU & OPERAI MODE YPES SDX (one) SDX imers Features UL File No.: E22222 CSA File No.: LR3929 3 operation modes added for fuller lineup Now, operation modes include not only On Delay, but Flicker, One Shot, and One Cycle modes as well. Operation can be checked easily : Green Operation: Orange LED display Output contact relay construction Available contact relay output s: 2C and 4C Panels can be installed In addition to conventional DIN rail installation, panels can be installed using an mounting frame. he compact timer size means that larger panels can be used. Compliant with UL, CSA and CE. Output terminal A plug-in terminal and printed circuit terminal are provided. Easier than ever to read and use Large-sized transparent dial makes setting time easy! High precision Repeatability error: % RoHS Directive compatibility information http://www.nais-e.com/ Product s Plug-in terminal Power -delay operating ime range 0. to s 0. to 3 s 0. to 0 s to 30 s 0. to 3 min 0. to 0 min to 30 min 0. to 3 h 0. to s 0. to 3 s 0. to 0 s to 30 s 0. to 3 min 0. to 0 min to 30 min 0. to 3 h * Wire springs (ADX800) are included. 24V SDX-A2C0.S-24V SDX-A2CS-24V SDX-A2C3S-24V SDX-A2CS-24V SDX-A2C0S-24V SDX-A2C30S-24V SDX-A2C60S-24V SDX-A2C3M-24V SDX-A2C0M-24V SDX-A2C30M-24V SDX-A2C60M-24V SDX-A2C3H-24V SDX-A4C0.S-24V SDX-A4CS-24V SDX-A4C3S-24V SDX-A4CS-24V SDX-A4C0S-24V SDX-A4C30S-24V SDX-A4C60S-24V SDX-A4C3M-24V SDX-A4C0M-24V SDX-A4C30M-24V SDX-A4C60M-24V SDX-A4C3H-24V 00 to 20V SDX-A2C0.S-20V SDX-A2CS-20V SDX-A2C3S-20V SDX-A2CS-20V SDX-A2C0S-20V SDX-A2C30S-20V SDX-A2C60S-20V SDX-A2C3M-20V SDX-A2C0M-20V SDX-A2C30M-20V SDX-A2C60M-20V SDX-A2C3H-20V SDX-A4C0.S-20V SDX-A4CS-20V SDX-A4C3S-20V SDX-A4CS-20V SDX-A4C0S-20V SDX-A4C30S-20V SDX-A4C60S-20V SDX-A4C3M-20V SDX-A4C0M-20V SDX-A4C30M-20V SDX-A4C60M-20V SDX-A4C3H-20V 200 to 220V SDX-A2C0.S-220V SDX-A2CS-220V SDX-A2C3S-220V SDX-A2CS-220V SDX-A2C0S-220V SDX-A2C30S-220V SDX-A2C60S-220V SDX-A2C3M-220V SDX-A2C0M-220V SDX-A2C30M-220V SDX-A2C60M-220V SDX-A2C3H-220V SDX-A4C0.S-220V SDX-A4CS-220V SDX-A4C3S-220V SDX-A4CS-220V SDX-A4C0S-220V SDX-A4C30S-220V SDX-A4C60S-220V SDX-A4C3M-220V SDX-A4C0M-220V SDX-A4C30M-220V SDX-A4C60M-220V SDX-A4C3H-220V 220 to 240V SDX-A2C0.S-240V SDX-A2CS-240V SDX-A2C3S-240V SDX-A2CS-240V SDX-A2C0S-240V SDX-A2C30S-240V SDX-A2C60S-240V SDX-A2C3M-240V SDX-A2C0M-240V SDX-A2C30M-240V SDX-A2C60M-240V SDX-A2C3H-240V SDX-A4C0.S-240V SDX-A4CS-240V SDX-A4C3S-240V SDX-A4CS-240V SDX-A4C0S-240V SDX-A4C30S-240V SDX-A4C60S-240V SDX-A4C3M-240V SDX-A4C0M-240V SDX-A4C30M-240V SDX-A4C60M-240V SDX-A4C3H-240V
SDX operating ime range 0. to s 0. to 3 s 0. to 0 s to 30 s 0. to 3 min 0. to 0 min to 30 min 0. to 3 h 0. to s 0. to 3 s 0. to 0 s to 30 s 0. to 3 min 0. to 0 min to 30 min 0. to 3 h * Wire springs (ADX800) are included. 2V SDX-A2C0.S-2V SDX-A2CS-2V SDX-A2C3S-2V SDX-A2CS-2V SDX-A2C0S-2V SDX-A2C30S-2V SDX-A2C60S-2V SDX-A2C3M-2V SDX-A2C0M-2V SDX-A2C30M-2V SDX-A2C60M-2V SDX-A2C3H-2V SDX-A4C0.S-2V SDX-A4CS-2V SDX-A4C3S-2V SDX-A4CS-2V SDX-A4C0S-2V SDX-A4C30S-2V SDX-A4C60S-2V SDX-A4C3M-2V SDX-A4C0M-2V SDX-A4C30M-2V SDX-A4C60M-2V SDX-A4C3H-2V 24V SDX-A2C0.S-24V SDX-A2CS-24V SDX-A2C3S-24V SDX-A2CS-24V SDX-A2C0S-24V SDX-A2C30S-24V SDX-A2C60S-24V SDX-A2C3M-24V SDX-A2C0M-24V SDX-A2C30M-24V SDX-A2C60M-24V SDX-A2C3H-24V SDX-A4C0.S-24V SDX-A4CS-24V SDX-A4C3S-24V SDX-A4CS-24V SDX-A4C0S-24V SDX-A4C30S-24V SDX-A4C60S-24V SDX-A4C3M-24V SDX-A4C0M-24V SDX-A4C30M-24V SDX-A4C60M-24V SDX-A4C3H-24V Please select power flicker, power one-shot or power one-cycle specifications based on the ordering information listed below. ORDERING INFORMAI Ex. SDX- C 2C S 20V Operation mode Control output arrangement ime range * Operating * F: Power Flicker S: Power One-shot C: Power One-cycle 2C: 4C: *For other time range s and operating s, please consult us. 0.S: S: 0. to s 3S: 0. to 3 s S: 0S: 0. to 0 s 30S: to 30 s 60S: 3M: 0. to 3 min 0M: 0. to 0 min 30M: to 30 min 60M: 3H: 0. to 3 h 24V: 24V 20V: 00 to 20V 220V: 200 to 220V 240V: 220 to 240V 2V: 2V 24V: 24V PC board terminal Power -delay ime range 0. to s 0. to 3 s 0. to 0 s to 30 s 0. to s 0. to 3 s 0. to 0 s to 30 s 60 s * Wire springs (ADX800) are included. 00 to 20V SDX-A2C0.S-20VP SDX-A2CS-20VP SDX-A2C3S-20VP SDX-A2CS-20VP SDX-A2C0S-20VP SDX-A2C30S-20VP SDX-A2C60S-20VP SDX-A4C0.S-20VP SDX-A4CS-20VP SDX-A4C3S-20VP SDX-A4CS-20VP SDX-A4C0S-20VP SDX-A4C30S-20VP SDX-A4C60S-20VP 200 to 220V SDX-A2C0.S-220VP SDX-A2CS-220VP SDX-A2C3S-220VP SDX-A2CS-220VP SDX-A2C0S-220VP SDX-A2C30S-220VP SDX-A2C60S-220VP SDX-A4C0.S-220VP SDX-A4CS-220VP SDX-A4C3S-220VP SDX-A4CS-220VP SDX-A4C0S-220VP SDX-A4C30S-220VP SDX-A4C60S-220VP 24V SDX-A2C0.S-24VP SDX-A2CS-24VP SDX-A2C3S-24VP SDX-A2CS-24VP SDX-A2C0S-24VP SDX-A2C30S-24VP SDX-A2C60S-24VP SDX-A4C0.S-24VP SDX-A4CS-24VP SDX-A4C3S-24VP SDX-A4CS-24VP SDX-A4C0S-24VP SDX-A4C30S-24VP SDX-A4C60S-24VP
Specifications ype operating operating Rated operating 24V, 00 to 20V, 200 to 220V, 220 to 240V 2V, 24V Allowable operating range Rated frequency 80 to 0% of rated operating 0/60Hz common ripple Full-wave rectified (Approx. 48%) Rated power consumption Rated control capacity UL/CSA rating Output arrangement ime accuracy (max.) Operating time fluctuation & Power off time change error emperature error Voltage error Setting error Min. power off time Contact resistance (Initial value) Life Mechanical (constant) Electrical (constant) Insulation resistance (Initial value) Breakdown (Initial value) Functional Vibration resistance Destructive Functional Shock resistance Destructive Max. temperature rise Ambient temperature Ambient humidity *Power one-shot of s : +(2% + 0 ms) Max. 3VA Max. 2W [imed -out ]: 7A 20V [imed -out ]: A 20V (resistive load) [imed -out ]: 7A 2, 6A 20V, /6HP 2, 20V, PILO DUY C300 [imed -out ]: A 20V, /0HP 2, 20V, PILO DUY C300, [Except 0.s & s s] ±% [0.s ]: ±(2%+0ms) [s ]: ±(%+0ms) (power off time change at the range of 0. s to h) ±% (at 20 C ambient temp. at the range of 0 to +0 C +4 to +22 F) [Except 0.s & s s] ±% [0.s ]: ±(2%+0ms) [s ]: ±(%+0ms) (at the operating changes between 20 to +0%) ±0% (Full-scale value) 00ms Max. 00mΩ (at A, 6V ) 0 7 2 0 (at rated control capacity) Min. 00MΩ Between live and dead metal parts/input and output Min. 00MΩ Between contact sets Min. 00MΩ Between contacts (At 00V ) 00Vrms for min Between live and dead metal parts/input and output 00Vrms for min Between contact sets 000Vrms for min Between contacts 0 to Hz: cycle/min double amplitude of 0.mm (0min on 3 axes) 0 to Hz: cycle/min double amplitude of 0.7mm (h on 3 axes) Min. 98m/s 2 (4 times on 3 axes) Min. 980m/s 2 ( times on 3 axes) 70 C 8 F 0 to 0 C + 4 to 22 F 30 to 8% RH (non-condensing) SDX Dimensions Plug-in terminal 28..22 SDX 22..870 UP 2..846 7.9 2.280 2.7 2.07 Printed circuit board terminal 28..22 22..870 UP 2..846.22.97 4..6.22 3.3.97 4..6.22 3.3 4.4.7 3.3 3.3 7.9 2.280..09 3..38 4.4 2.7 0...7 2.07.020.97.09.97 4..6.22 4..6.22 erminal layouts and Wiring diagram 9 3 Operating 4 8 2 4 PC board pattern 9 3 mm inch 0 2 6 3 7 Operating 4 8 2 4 (For the operating, terminal 4 is +, and terminal 3 is.) 4..6 4..6 SDX olerance: ±0. ±.020 3.3 0.4.409 6.8.66 8- φ 2 hole 8- φ.079 hole 4.4.7 8.9.30 0.4.409 6.8.66 4- φ 2 hole 4- φ.079 hole 3.3 General tolerance: ±0. ±.004
SDX Applicable standard Safety standard EMC Data EN682- (EMI)EN6000-6-4 Radiation interference electric field strength Noise terminal (EMS)EN6000-6-2 Static discharge immunity RF electromagnetic field immunity EF/B immunity Surge immunity Conductivity noise immunity Power frequency magnetic field immunity Voltage dip/instantaneous stop/voltage fluctuation immunity. Load control capacity and life Switching capacity Life curve Pollution Degree 2/Over Category II ( ) Pollution Degree 2/Over Category II ( ) EN0 Group ClassA EN0 Group ClassA EN6000-4-2 4 kv contact 8 kv air EN6000-4-3 0 V/m AM modulation (80 MHz to GHz) 0 V/m pulse modulation (89 MHz to 90 MHz) EN6000-4-4 2 kv (power supply line) kv (signal line) EN6000-4- kv (power line) EN6000-4-6 0 V/m AM modulation (0. MHz to 80 MHz) EN6000-4-8 30 A/m (0 Hz) EN6000-4- 0 ms, 30% (rated ) 00 ms, 60% (rated ),000 ms, 60% (rated ),000 ms, 9% (rated ) Load current, A 0 7 No. of operations, 0 4,000 00 400 No load life No load life: Min. 0 7 ope. Rated load life: Min. 2 0 ope. (20V cosφ = ) 0. 300 200 0.0 0 00,000 Load, V 00 0 2 4 6 8 Load current, A 2. ime accuracy Voltage error test I 3 s range, 20V operating 6 pcs. Voltage error test II 3 s range, 220V operating 3 pcs. Voltage error test III 3 s range, 24V operating 3 pcs. 0.2 0. Voltage error, % 0.2 0. Voltage error, % 0.2 0. Voltage error, % 80 Applied, %V 00 0. 0 80 Applied, %V 00 0. 0 80 0 Applied, 00 %V 0. 0.2 0.2 0.2 emperature error test I 3 s range, 20V operating 4 pcs. emperature error test II 3 s range, 220V operating 4 pcs. emperature error test III 3 s range, 24V operating 3 pcs. 0. emperature error, % 0. emperature error, % 0. emperature error, % 0 Ambient temperature, C 20 0 0 Ambient temperature, C 20 0 0 Ambient temperature, C 20 0 0. 0. 0.
3. Environmental durability Surge testing Model Surge 00 to 20V 200 to 220V 2V 24V 48V 00 to 0V,000V,000V Applied : Unipolar full-wave of ± (.2 x 0) µs No. of times applied: times, continuously Locations at which is applied: Between power supply terminals (between 3 and 4) Results: No differences from withstand surge s listed above. Noise testing Item Power supply weight Noise Noise generation Noise simulator,000 V Rise: ns Pulse width: µs, 0 ns Repetition cycle: 0 ms Pulse polarity: Positive, negative Applied modes: Normal mode and Common mode Results Not affected Cold and heat testing Conditions Left for hour at high temperature of 80 C 76 F and low temperature of 2 C 3 F (2 times) Humidity testing Conditions Left for 00 hours at ambient temperature of 40 (C, at relative humidity of 90 to 9%. SDX Results Appearance Operation Insulation performance No irregularities Results Appearance Operation Insulation performance No irregularities Operation mode and color Scale intervals Operation Power -delay Power Ficker Description iming operation will start when the power is supplied, and the control output turns on after the setting time. When the power is supplied, the control output turns on after the setting time and then turns off after the setting time. his operation is repeated sequentially. ime chart t t < Operation mode indicator color Yellow Blue ime 0. Scale intervals 0.0 (0.02 in a range of 0. to 0.) 0.0 3 0. 0.2 0 30 60 0. 2 Power One-shot When the power is supplied, control output turns on for the setting time. Green Power One-cycle When the power is supplied, the control output turns on for one pulse after the setting time. One pulse time: Approx. s Red
SDX Precautions during usage. erminal wiring Make sure that terminals are wired carefully and correctly, referring to the terminal layout and wiring diagrams. 2. Assembly ) A dedicated terminal base or socket should be used for attachment. 2) o assure that characteristics are maintained, do not remove the case. 3. Rest periods After unscheduled operations have been completed, or if the timer operation power supply has been turned off at any time during operation, a rest period of at least 0. seconds should be allowed before resuming operation. 4. External surge protection may be required if the following values are exceeded. Otherwise, the internal circuit will be damaged. Operation Surge Single-pole, full-wave for surge waveform [±(.2 0) µs] Surge (%) 00 90 0 30 0 0 00 to 20V 200 to 220V Crest value.2 ime (µs) 2V 24V,000V 48V he typical surge absorption elements include a varistor, a capacitor, and a diode. If a surge absorption element is used, use an oscilloscope to see whether or not the foreign surge exceeding the specified value appears.. Phase synchronization using load If the turning on of the timer output relay is synchronized to the power supply phase, there may be times when the service life is shortened because of electrical factors, or when a locking phenomenon (defective relay return) occurs because of contact point welding or a shift in the contact relay. Check the operation using the actual timer. 0 00 to 0V 6. Soldering and cleaning ) A flux-tight construction is not used with this timer, so be careful that flux does not get inside the case. 2) erminals should be soldered by hand (at a soldering iron temperature of 300 C 72 F, for less than 3 seconds, using a 30 to 60 W soldering iron). Automatic soldering should be avoided. 3) Cleaning should be avoided as much as possible. If the timer has to be cleaned, make sure no cleaning fluid gets inside the main unit case. 7. Installing the unit ) he wire spring included in the product packaging is for the HC relay terminal block. 2) he wire spring is not usable with an HJ relay terminal block, so the stopper plate spring B (ADX802: HJ relay terminal block plate spring) (sold separately) for the SDH should be purchased. 8. Others ) When connecting the operating power supply, make sure that no leakage current enters the timer. For example, when performing contact protection, if set up like that of fig. A, leaking current will pass through C and R, enter the unit, and cause incorrect operation. he fig. B shows the correct setup. Operating power supply Operating power supply Leakage current R (Fig. A) (Fig. B) C R C When a contact switch having an operation indicating lamp (lamp equipped limit switch, etc.) is used to apply power to the timer, a resistor having a value equal to or greater than the value below shall be connected in series with the lamp. 00 to 20V operating : Min. 33kΩ 200 to 220V operating : Min. 82kΩ Resistor Neon lamp Example of limit switches with lamp. VL with lamp, Vertical with lamp, ML with lamp. 2) When setting the time, the dial should be kept within the range indicated on the dial face. he 0 marking on the dial indicatesf the minimum time during which the control time can be varied (it does not indicate 0 seconds). 9. Acquisition of CE marking Please abide by the conditions below when using in applications that comply with EN682-. ) Over category II, pollution level 2 ( ) Over category II, pollution level ( ) 2) he load connected to the output contact should have basic insulation. his timer is protected with basic insulation and can be double-insulated to meet EN/IEC requirements by using basic insulation on the load. 3) Please use a power supply that is protected by an overcurrent protection device which complies with the EN/IEC standard (example: 20 V A fuse, etc.). 4) You must use a terminal socket or socket for the installation. Do not touch the terminals or other parts of the timer when it is powered. When installing or un-installing, make sure that no is being applied to any of the terminals. ) Do not use this timer as a safety circuit. For example when using a timer in a heater circuit, etc., provide a protection circuit on the machine side.