UP550 O.C. Relay. UP s contact. 150mm. Relay. (Use one with a relay coil rating less than the UP s contact rating.) 150mm. Recommended Terminal Lugs

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1 s Manual IM ECE This manual describes installation, wiring, and other tasks required to make the controller ready f operation.. Safety Precautions. Model and Suffix Codes. How to Install. How to Connect Wires. Hardware Specifications Terminal Wiring Diagrams Contents Introduction Thank you f purchasing the UP program controller. The controller is shipped from the facty with hardcopy user s manuals (A size) and user s manual on CDROM. The user s manuals in hardcopy fmat describe the operating procedures required f basic use (factyset to singleloop control mode). It is recommended that you refer to these user s manuals to understand [] installation, [] initial settings, [] program settings and [] operating procedures of the controller. The CDROM contains an s Manual (Reference) with descriptions of various functions and setting ranges that can be set as necessary. The manual also contains infmation on operations used to carry out control other than singleloop control. Meover, the use of an optional setting tool (model: LLE) allows you to easily perfm settings and adjustments with a PC. How to Use the Manuals Purpose Manual Title Description Media Setup Describes the tasks (installation, wiring, and others) Asize paper, Installation required to make the controller ready f operations. back and front Basic operation Describes examples of setting input s and Asize paper, Initial s control s. Making settings described herein back and front and program creation in Programming s Manual allows you to carry out basic control. Program creation Programming Describes examples of creating basic programs. The Asize paper, use of the program pattern setup charts included in the back and front Program s s Manual is recommended General understanding of operations Operating procedures and troubleshooting Brief operation Function description and recding Detailed description of functions Program s Operations Map s s Manual (Reference). Safety Precautions The following symbol is indicated on the controller to ensure safe use. CAUTI Contains a map that serves as a guide to creating programs. Also includes a brief explanation of the functions of program s. Describes operation sequences. F operation control through external contact inputs, see the back of Installation s Manual. Contains the map used as a guideline f setting s. Briefly describes the functions of s. In addition, each table has a column, where you can recd your s when setting them in the controller. Explains me advanced applications than those found in the hardcopy user s manuals (A size). Asize paper, back and front Asize paper, back and front Asize paper, back and front Asize paper, back and front CDROM This symbol on the controller indicates that the operat must refer to an explanation in the user s manual in der to avoid the risk of injury death of personnel damage to the instrument. The manual describes how the operat should exercise special care to avoid electric shock other dangers that may result in injury loss of life. The following symbols are used in the hardcopy user s manuals and in the user s manual supplied on the CDROM. Indicates that operating the hardware software in a particular manner may damage it result in a system failure. IMPORTANT Draws attention to infmation that is essential f understanding the operation and/ features of the controller. Exemption from Responsibility Make sure that all of the precautions are strictly adhered to. Yokogawa Electric Cpation assumes no liability f any damage resulting from use of the instrument in contradiction to the precautions. Also, Yokogawa Electric Cpation assumes no liability to any party f any loss damage, direct indirect, caused by the use any unpredictable defect of the instrument. Regarding Protection, Safety, and Prohibition Against Unauthized Modification () In der to protect the product and the system controlled by it against damage and ensure its safe use, make certain that all of the instructions and precautions relating to safety contained in this document are strictly adhered to. Yokogawa does not guarantee safety if products are not handled accding to these instructions. () Modification of the product is strictly prohibited.. Model and Suffix Codes Befe using the controller, check that the model and suffix codes match your der. Model Suffix Code Description UP Program controller (provided with retransmission and VDC loop power supply as standard) Standard Type Position proptional Heating/cooling Optional functions te: singleloop control. Model UP Program Controller s Manual f Singleloop Control Installation ne With communication, auxiliary analog input (te), and additional DI Check that the following items are provided: Program controller (of dered model):... Brackets (mounting hardware):... pair Unit label:... s Manuals f Singleloop Control:... (A size) s Manual (Reference) (CDROM Version):... rd Edition: Sep, Crespondence between the Model and Suffix Codes, and the Contact Input/ Output Terminals Provided Check the model dered and the presence/absence of contact inputs and s in the following table. indicate that the contacts are available. Model and Suffix Contact input terminals Contact terminals Codes DI DI DI DI DI DI6 DI DI DO DO DO DO DO DO6 DO UP UP te: F details on the functions of contact inputs/s, see Terminal Wiring Diagrams on the back of the manual.. How to Install To install the controller, select a location where: () no one may accidentally touch the terminals, () mechanical vibrations are minimal, () crosive gas is minimal, () temperature can be maintained at about C and the fluctuation is minimal, () no direct radiant heat is present, (6) no magnetic disturbances are caused, () no wind blows against the terminal board (reference junction compensation element), () no water is splashed, () no flammable materials are around, Never place the controller directly on flammable items equipment. If the controller has to be installed close to flammable items equipment, be sure to provide shielding panels all around the controller, at least mm away from every side; the panels should be made of either.mmthick metalplated steel plates.6mmthick uncoated steel plates. Installation Position Install the controller at an angle within from hizontal with the front panel facing upward. Do not install it facing downward. The position of right and left sides should be hizontal. External Dimensions and Panel Cutout Dimensions UP (). How to Install CAUTI E E General installation. 6 min. () 6 min.. Small bracket to mm (Panel thickness) Large bracket. Sidebyside close installation [(N) 6]. Unit: mm N stands f the of controllers to be installed. However, the measured value applies if N. Turn off the power to the controller befe installing it on the panel because there is a possibility of electric shock. Direction to insert the controller Insert the controller into the opening at the front of the panel. Panel Small bracket (bottom mounting hardware). How to Connect Wires CAUTI Front panel of controller Large bracket (top mounting hardware) Terminal board Insert a screwdriver into the brackets to tighten the screws. Recommended tightening tque :.N m mm mm mm mm Must not exceed Rear of controller After opening the mounting hole on the panel, follow the procedures below to install the controller:. Insert the controller into the opening from the front of the panel so that the terminal board on the rear is at the far side.. Set the brackets in place on the top and bottom of the controller as shown in the figure on the left, then tighten the screws of the brackets. Take care not to overtighten them. ) Befe carrying out wiring, turn off the power to the controller and check that the cables to be connected are not alive with a tester the like because there is a possibility of electric shock. ) F the protection and safe use of the controller, be sure to place a circuit breaker (confms with IEC6, A, V V AC) near the controller where the breaker can easily be operated. In addition, be sure to indicated that it is the instrument to cut the power supply of the controller. ) Wiring must be carried out by personnel who have basic electrical knowledge and practical experience. ) Provide power from a singlephase instrument power supply. If there is a lot of noise in the power line, insert an insulating transfmer into the primary side of the line and use a line filter (recommended part: ZACU from TDK) on the secondary side. As a countermeasures against noise, do not place the primary and secondary power cables close to each other. ) F thermocouple input, use shielded compensating lead wires f wiring. F RTD input, use shielded wires that have low conduct resistance and cause no significant differences in resistance between the three wires. The cables to be used f wiring, terminal specifications, and recommended parts are as shown below. ) Control relays may be replaced. However, because they have a life of, times that of the resistance load, use auxiliary relays to turn on/off a load. ) The use of inductance (L) loads such as auxiliary relays, mots and solenoid valves causes malfunction relay failure; always insert a CR filter f use with alternating current a diode f use with direct current, as a sparkremoval surge suppression circuit, into the line in parallel with the load. ) When there is possibility of being struck by external lightening surge, use the arrester to protect the instrument. F DC Relay Wiring UP O.C Relay UP s contact Relay (Use one with a relay coil rating less than the UP s contact rating.) External DC power supply R Diode (Mount it directly to the relay coil terminal (socket).) Cable Specifications and Recommended Cables Purpose F AC Relay Wiring UP UP s contact Relay (Use one with a relay coil rating less than the UP s contact rating.) Name and Manufacturer External AC power supply Power supply, grounding, relay contact s 6 V C insulated wires, JIS C,. to. mm Thermocouple Shielded compensating lead wires, JIS C 6, X (See Yokogawa Electric s GS 6BUE.) RTD Shielded wires (three conducts), UL (Hitachi Cable) Other signals Shielded wires Recommended Terminal Lugs Applicable wire size. to.6 mm. N m less mm less.mm Terminal Covers (Optonal parts) Tightening tque Target Model Part Number Sales Unit F UP TYD mm less. Befe attaching the terminal cover, bend the side with the groove inward as shown in Fig. A. Be careful not to bend it backwards. This not only marks it harder to attach the cover but will also weaken its hold.. Fit the holes on the top and bottom of the terminal cover the projections on the brackets (Fig. B) and lock in place. The figure right shows the attachment of a terminal cover to UP controller.. Hardware Specifications Input Signals Number of inputs: (terminals ) Input : Universal input system. The input can be selected with the software. Sampling period: Can be selected from, and ms. Burnout detection: Functions at TC, RTD, standard signal (. to V to V) Upscale, downscale, and off can be specified. F standard signal, burnout is determined to have occurred if it is. V less. Input bias current:. A (f TC RTD bterminal) Measurement current (RTD): About. ma Input resistance: M me f thermocouple mv input About M f DC voltage input Allowable signal source resistance: less f thermocouple mv input Effects of signal source resistance:. V/ less k less f DC voltage input Effects of signal source resistance: About.%/ Allowable wiring resistance: f RTD input Maximum /wire: Conduct resistance between three wires should be equal However, /wire f a maximum range of. to. C. Wire resistance effect:. C / Allowable input voltage: V DC f thermocouple, mv, RTD input V DC f DC voltage input ise rejection ratio: db (/6 Hz) me in nmal mode db (/6 Hz) me in common mode Reference junction compensation err:. C ( to C). C ( to C, to C) Applicable standards: JIS, IEC, DIN (ITS) f thermocouples and RTD Auxiliary Analog Input Signals Available only f controllers with auxiliary analog input terminals. These signals are not used in singleloop control, however. Number of inputs: (terminals ) Input : Settable in a range of,,.., V DC Sampling period:, and ms The sampling period of an auxiliary analog input signal is associated with the input s sampling period. Input resistance: About M Input accuracy:.% digit of input f to V DC.% digit of input f to V DC.% digit of input f. to. V DC.% digit of input f to V DC Under standard operating conditions ( C, % RH, power frequency of /6 Hz) Feedback Resistance Input Provided f position proptional only (terminals 6 ) Slide resistance value: to. k of overall resistance (burnout detection f sliding wire provided) Measuring resolution:.% of overall resistance.mm R CR filter (Mount it directly to the relay coil terminal (socket).) Loop Power Supply Power is supplied to a twowire transmitter. ( V DC: terminals ) A resist ( to ) connected between the controller and transmitter converts a current signal into a voltage signal, which is then read via the input terminal. Supply voltage:. to. V DC, max. ma (provided with a protection circuit against a field shtcircuit) Output Either, program, control is. Either the retransmission the loop power supply can be used with terminals. Number of s: (terminals, terminals 6 ) Output signal:,,, ma DC (where, ting signal levels of less than ma is not feasible) Load resistance: 6 less Output accuracy:.% of ( % of f ma less.) under standard operating conditions ( C, % RH, power frequency of /6 Hz) Control Output Universal system, The can be selected with the software. Relay contact (s) f the position proptional Current (Standard : terminals 6 ; heatingside : terminals 6, coolingside : terminals 6 ) Number of s Output signal Load resistance Output accuracy (two f heating/cooling ), switched between a voltage pulse and current.,,, ma DC 6 less.% of ( % of f ma less) Under standard operating conditions ( C, % RH, power frequency of /6 Hz) Voltage pulse (Standard : terminals 6 ; heatingside : terminals 6, coolingside : terminals 6 ) Number of s Output signal Resolution (two f heating/cooling ), switched between a voltage pulse and current. Onvoltage = V me (load resistance: 6 Ω me) Offvoltage =. V DC less ms.% of, whichever is larger Relay contact (Standard : terminals, heatingside : terminals, coolingside : terminals, position proptional : terminals ) Number of s Output signal Contact rating Resolution Figure A Figure B Fold the cover in the direction of the arrow. Fit the cover hold over the protrusion on the mounting bracket. (two f heating/cooling ) Three terminals (NC, NO, and common) V AC V DC, A (resistance load) ms.% of, whichever is larger Contact Inputs Purpose: Program pattern no. selection, and run/reset switching Number of inputs: Differs with model and suffix codes as shown in the table below. Model and Suffix Codes UP UP Number of Inputs Input : nvoltage contact transist open collect input Input contact rating: V DC, ma me On/off determination: F nonvoltage contact input, contact resistance of k less is determined as on and contact resistance of k me as off. F transist open collect input, input voltage of V less is determined as on and leakage current must not exceed A when off. Minimum status detection hold time: input s sampling period Contact Outputs Purpose: Event, FAIL, and others Number of s: points Relay contact rating: V AC, A, V DC, A Transist contact rating: V DC, ma Display Specifications display: digit, segment, red LEDs, character height of mm display: dot LCD with back lighting Status indicating lamps: LEDs Safety and EMC Standards Safety: Compliant with IEC/EN6:, approved by CSA, approved by UL. Installation categy : CAT. II (IEC/EN6, CSA) Pollution degree : (IEC/EN6, CSA) Measurement categy : I (CAT. I : IEC/EN6) Rated measurement input voltage : V DC max.(across terminals), V AC max.(across ground) Rated transient overvoltage : V (te) te : It is a value on the safety standard which is assumed by IEC/EN6 in measurement categy I, and is not the value which guarantees an apparatus perfmance. CAUTI This equipment has Measurement categy I, therefe do not use the equipment f measurements within measurement categies II, III and IV. Measurement categy CAT. CAT. CAT. CAT. Entrance Cable Description F measurements perfmed on circuits not directly connected to MAINS. F measurements perfmed on circuits directly connected to the low voltage installation. F measurements perfmed in the building installation. F measurements perfmed at the source of the lowvoltage installation. Internal Wiring T Outlet Remarks Appliances, ptable equipments, etc. Distribution board, circuit breaker, etc. Overhead wire, cable systems, etc. EMC standards: Complies with EN6 The instrument continues to operate at a measuring accuracy of within % of the range during tests. Construction, Installation, and Wiring Construction: Only the front panel is dustproof and dripproof (protection class IP) F sidebyside close installation the controller loses its dustproof and dripproof protection. Material: ABS resin and polycarbonate Case col: Black Weight: About kg less Dimensions: 6 (W) 6 (H) (depth from panel face) mm Installation: Panelmounting. With top and bottom mounting hardware ( each) Panel cutout dimensions:. (W). (H) mm Installation position: Up to upward facing (not designed f facing downward) Wiring: M. screw terminals (f signal wiring and power/ ground wiring as well) Power Supply Specifications Power supply: Rated voltage of to V AC ( %), /6 Hz Power consumption: Max. VA (. W max.) Internal fuse rating: V AC,.6A timelug fuse Data backup: Lithium battery with life expectancy of years Withstanding voltage Between primary terminals* and secondary terminals**: At least V AC f minute Between primary terminals* and grounding terminal: At least V AC f minute Between grounding terminal and secondary terminals**: At least V AC f minute Between secondary terminals**: At least V AC f minute * Primary terminals indicate power terminals and relay terminals ** Secondary terminals indicate analog I/O signal, voltage pulse, and contact input terminals Insulation resistance: M me at V DC between power terminals and grounding terminal Grounding : Class D grounding (grounding resistance of less) Signal Isolations input terminals: Isolated from other input/ terminals. t isolated from the internal circuit. Auxiliary analog input terminals: Isolated from other input/ terminals and the internal circuit V DC loop power supply terminals: t isolated from analog current n voltage pulse control. Isolated from other input/ terminals and internal circuit. Analog current terminals (f control and retransmission): t isolated between current s n from V DC loop power supply and voltage pulse control. Isolated from other input/ terminals and internal circuit. Voltage pulse control terminals: t isolated from current s and V DC loop power supply. Isolated from other input/ terminals and internal circuit. Relay contact control terminals: Isolated between contact terminals and from other input/ terminals and internal circuit. Contact input terminals: t isolated between contact input terminals and from communication terminals. Isolated from other input/ terminals and internal circuit. Relay contact terminals: t isolated between relay contact s. Isolated from other input/ terminals and internal circuit. Transist contact terminals: t isolated between transist contact s. Isolated from other input/ terminals and internal circuit. RS communication terminals: t isolated from contact input terminals. Isolated from other input/ terminals and internal circuit. Feedback slide resistance input terminals: t isolated from analog current terminals (control, retransmission), V DC sens power supply, and voltage pulse control s. Isolated from other input/ terminals and internal circuit. Power terminals: Isolated from other input/ terminals and internal circuit. Grounding terminals: Isolated from other input/ terminals and internal circuit. Environmental Conditions Nmal operating conditions: Amient temperature: to C ( C less f sidebyside close installation) Temperature change rate: C/h less Ambient humidity: to % RH (no condensation allowed) Magnetic field: A/m less Continuous vibration at to Hz: Full amplitude of. mm less Continuous vibration at to Hz:. m/s less Shtperiod vibration:. m/s, seconds less Shock: m/s less, ms Installation height: Height above sea level of m less Warmup time: minutes me after power on Transptation and stage conditions: Temperature: to C Temperature change rate: C/h less Humidity: to % RH (no condensation allowed) Effects of changes in operating conditions Effects from changes in ambient temperature: On voltage thermocouple input, V/ C.% of F.S./ C, whichever is larger On auxiliary analog input,.% of F.S./ C On RTD input,. C / C (ambient temperature) less On analog,.% of F.S./ C less Effects from power supply fluctuation (within rated voltage range) On analog input, V/ V.% of F.S./ V, whichever is larger On analog,.% of F.S./ V less IM ECE ()

2 Terminal Wiring Diagrams Do not use unassigned terminals as relay terminals. UP Standard Type (Model UP ) Heating/Cooling Type (Model UP ), Singleloop Control Control Relay contact NC NO Contact rating: V AC, A V DC, A (resistance load) te: Select this option from * The functions of a contact can be varied by changing the setting of the contact. External contact s UP event DO 6 Relay Transist event Instrument alarm event event event event Power supply Power supply DO DO DO DO DO6 DO Relay contact rating: V AC, A V DC, A (resistance load) Transist contact rating: V DC, ma L N Allowable range: V AC ( %) (free voltage) /6 Hz shared * event is when relay is not selected as the of control. the OT. * proptional relay contact is configured at facty befe shipment. CAUTI RS communication * Wiring can only be carried out f controllers with SDB() SDA() RDB() 6 RDA() SG when using 6 me of program patterns communication functions. Maximum baud rate: 6 bps * Wiring can only be carried out f controllers with auxiliary analog input. This input is not used in singleloop control, however. Auxiliary analog input Specify in a range of V DC, V DC, V DC. input * t configured at facty befe shipment See Initial s s Manual. TC input RTD input A b B mv/v input Receiving ma DC Current Signals with the Controller * When receiving ma DC current signals, set the input to V DC ( ). Ω ma Default: V DC te: Connecting a Ω resist to the terminals is optional. Model: X (resist with M. crimpon terminal lugs) * * Factyset to retransmission. te: Select this option from the OT. Control * is available only when relay is selected as the of control Current / voltage ma DC pulse * Default: Unspecified retransmission Default: ma DC Load resistance: 6 Ω less 6 madc, 6 V DC loop power supply* * is not available if madc madc, Voltage pulse ( V) madc a V DC loop power supply is used. Default: ma DC.. V DC ( ma DC max.) * The functions of a contact input can be varied by changing the setting of the contact input. External contact inputs Switch between the and states of the DI to DI Contact V Transist contact UP contact inputs to select from program pattern s to. DI (Select a during a RESET state.) DI V 6 DI DI DI V DI DI DI DI V DI DI DI V * The heating / cooling controller (UP ) only Start of program operation when DI DI changes from to DI V Current terminal ( 6 and ) can be used f retransmission. DI6 Stop of program operation when DI6 V DI6 changes from to DI Start of localmode operation when DI 6 6 * OT is a setup. DI changes from to You can change the settings of the OT to change the control. See Initial s s Manual. Befe carrying out wiring, turn off the power to the controller and check that cables to be connected are not alive with a tester the like because there is a possibility of electric shock. DI V DI Contact rating: V DC, ma me UP Heating/Cooling Type (Model UP ), Singleloop Heating/Cooling Control * When relay contact is selected as the of coolingside control, current terminal ( 6 and ) can be used f retransmission. value is same as 6 and terminals. control control * event 6 is when relay is not selected as the of coolingside control. t available when OT= to. Current/voltage pulse ma DC ma DC, voltage pulse ( V) 6 Relay contact te: Select this option from NC NO Contact rating: V AC, A V DC, A (resistance load) Power supply CAUTI the OT. * proptional relay contact is configured at facty befe shipment. Contact rating: V AC, A V DC, A (resistance load) Heatingside control * event is Relay contact te: Select this option from the when relay OT. is not selected as NC * proptional relay contact the of heatingside control. NO is configured at facty befe shipment. Power supply L N Allowable range: V AC ( %) (free voltage) /6 Hz shared * The functions of a contact can be varied by changing the setting of the contact. External contact s UP event DO 6 Relay Transist event Instrument alarm event event event event DO DO DO DO DO6 DO Relay contact rating: V AC, A V DC, A (resistance load) Transist contact rating: V DC, ma Befe carrying out wiring, turn off the power to the controller and check that cables to be connected are not alive with a tester the like because there is a possibility of electric shock. 6 RS communication 6 6 * The functions of a contact input can be varied by changing the setting of the contact input. External contact inputs Switch between the and states of the DI to DI Contact UP V contact inputs to select from program pattern s to. DI (Select a during a RESET state.) DI V 6 DI DI DI V DI DI DI DI V DI DI DI V Start of program operation when DI DI changes from to DI V DI6 Stop of program operation when DI6 V DI6 changes from to DI Start of localmode operation when DI 6 6 DI changes from to when using 6 me of program patterns SDB() SDA() RDB() 6 RDA() SG * Wiring can only be carried out f controllers with communication functions. Maximum baud rate: 6 bps * Wiring can only be carried out f controllers with auxiliary analog input. This input is not used in singleloop control, however. Auxiliary analog input 6 6 DI Specify in a range of V DC, V DC, V DC. Default: V DC V DI Transist contact OT= (factyset default) proptional control Relay (terminals, and ) Crespondence between OT and control s OT= proptional control Voltage pulse (terminals 6 and ) input * t configured at facty befe shipment See Initial s s Manual. TC input RTD input A b B mv/v input te: Select this option from the OT. Heatingside * is available only when relay is selected as the of heatingside control control. Current / voltage pulse 6 madc, madc Voltage pulse ( V) * 6 Default: Unspecified retransmission madc, madc Default: ma DC * ma DC.. V DC ( ma DC max.) OT= Current (terminals 6 and ) OT= Onoff control Relay (terminals, and ) Receiving ma DC Current Signals with the Controller * When receiving ma DC current signals, set the input to V DC ( ). Ω ma te: Connecting a Ω resist to the terminals is optional. Model: X (resist with M. crimpon terminal lugs) * Factyset to retransmission. Default: ma DC Load resistance: 6 Ω less V DC loop power supply* * is not available if a V DC loop power supply is used. UP Position Proptional Type (Model UP ) Singleloop Position Proptional Control Position proptional control Relay contact Feedback input H (Direct) L (Reverse) % 6 % Contact rating: V AC, A Resistance: to. k V DC, A (resistance load) Power supply Power supply L N Allowable range: V AC ( %) (free voltage) /6 Hz shared * The functions of a contact can be varied by changing the setting of the contact. External contact s UP event DO 6 Relay Transist event Instrument alarm event event event event DO DO DO DO DO6 DO Relay contact rating: V AC, A V DC, A (resistance load) Transist contact rating: V DC, ma RS communication 6 SDB() SDA() RDB() RDA() SG CAUTI Befe carrying out wiring, turn off the power to the controller and check that cables to be connected are not alive with a tester the like because there is a possibility of electric shock. 6 * Wiring can only be carried out f controllers with communication functions. Maximum baud rate: 6 bps 6 6 when using 6 me of program patterns 6 * Wiring can only be carried out f controllers with auxiliary analog input. This input is not used in singleloop control, however. Auxiliary analog input 6 Specify in a range of V DC, V DC, V DC. Default: V DC 6 * The functions of a contact input can be varied by changing the setting of the contact input. External contact inputs Switch between the and states of the DI to DI Contact UP V contact inputs to select from program pattern s to. DI (Select a during a RESET state.) DI V 6 DI DI DI V DI DI DI DI V DI DI DI V Start of program operation when DI DI changes from to DI V DI6 Stop of program operation when DI6 V DI6 changes from to DI Start of localmode operation when DI 6 6 DI changes from to DI V DI Contact rating: V DC, ma me input * t configured at facty befe shipment See. Initial s s Manual TC input Default: Unspecified retransmission madc, madc Default: ma DC Transist contact A b B RTD input mv/v input ma DC, ma DC..VDC ( ma DC max.) Receiving ma DC Current Signals with the Controller * When receiving ma DC current signals, set the input to V DC ( ). Ω ma te: Connecting a Ω resist to the terminals is optional. Model: X (resist with M. crimpon terminal lugs) * retransmission is configured at facty befe shipment. Default: ma DC Load resistance: 6 Ω less V DC loop power supply* * If V DC loop power supply is used, retransmission cannot be used. V DC Power Supply Wired to Sens in Twowire System Configuration Twowire transmitter External resist (te) madc input.. V DC signal Loop power supply.. V DC te: Connecting a resist to the terminals is optional. Model: X (resist with M. crimpon terminal lugs) Contact rating: V DC, ma me * OT is a setup. You can change the settings of the OT to change the control. See. Initial s s Manual Crespondence between OT and heatingside s/coolingside s OT= (factyset default) OT= OT=6 OT= OT= OT= OT= OT= OT= Heating side: Relay Heating side: Voltage pulse Heating side: Current Heating side: Relay Heating side: Voltage pulse Heating side: Current Heating side: Relay Heating side: Voltage pulse Heating side: Current (terminals, and ) (terminals 6 and ) (terminals 6 and ) (terminals, and ) (terminals 6 and ) (terminals 6 and ) (terminals, and ) (terminals 6 and ) (terminals 6 and ) Cooling side: Relay Cooling side: Relay Cooling side: Relay Cooling side: Voltage pulse Cooling side: Voltage pulse Cooling side: Voltage pulse Cooling side: Current Cooling side: Current Cooling side: Current (terminals, and ) (terminals, and ) (terminals, and ) (terminals 6 and ) (terminals 6 and ) (terminals 6 and ) (terminals 6 and ) (terminals 6 and ) (terminals 6 and ) The s of control, relay and voltage pulse shown in the table above refer to those of time proptional control. To change to a relay f onoff control, select Relay Terminals and change the of the to. IM ECE ()

3 E E E E s Manual IM ECE This manual describes examples of setting input s, control s. Carrying out settings described herein allows you to perfm basic control. Refer to examples of various settings to understand how to set s required. Refer to Map s Manual f an easy to understand explanation of setting various s. If you cannot remember how to carry out an operation during setting, press the no me than four times. This brings you to the display (operating display) that appears at poweron. After carrying out the setting describes here, create programs in Programming s Manual. Contents. Names and Functions of Front Panel Parts. Input Type ( First at Poweron). Changing Input Type. Control Output Type (except f a Posotion Proptional Controller). Calibrating Valve Position (f a Position Proptional Controller Only) Initializing s. Names and Functions of Front Panel Parts Name of Part Indicat lamp f. display. Program monit lamps. Event indicat lamps. Status indicat lamps. Lightloader interface display (LCD). Process variable () display Instrument alarm indicat lamp.... and s. PT.. RUN. RESET. Indicat lamp f display. Program monit lamps. Event indicat lamps. Instrument alarm indicat lamp. Status indicat lamps. Lightloader interface.. PT. Model UP Program Controller s Manual f Singleloop Control Initial s E E Process variable () display display... and s. RESET. RUN rd Edition: Sep, Function Is lit when secondary is displayed in display. singleloop control. : Is lit (in green) when a program is increasing. : Is lit (in green) when a program is constant. : Is lit (in green) when a program is decreasing. Show the statuses of events, s and instrument alarms in ange. E and E lamps: Come on when event and event turn on. to lamps: Come on when to turn on. lamp: Comes on when instrument alarm turns on. Is lit (in green) to indicate the status of operation control. :Is lit when in program mode. :Is lit when in reset mode. :Is lit when in hold mode. :Is lit when in local mode. :Is lit when in manual mode. : singleloop control. Interface f an adapter cable used when setting and sting s from a PC. This requires an optional setting tool. Displays. Displays an err code (in red) if an err occurs. Displays the name and value of a program (SP), (OUT), deviation trend, valve opening, a. Displays an err code if an err occurs. The lamp comes on in ange if instrument alarm occurs. Used to switch register a. Pressing the f me than seconds allows you to switch between the operating display and the f operating setting display alternately. Presents a display f switching between the hold, advance, local, AUTO and modes. Used to switch between displays. Pressing this while any operating display is shown lets you switch to another prearranged operating display. Pressing this while any display other than an operating display is shown lets you go one display back. (One to four presses (maximum) of this lets you return to the current operating display, though the of presses depends on the operating status.) Used to change numerical values. On setting displays f various s, you can change target s, s, and values (in manual operation). Pressing the decreases a numerical value, while pressing the causes it to increase. You can hold down a to gradually increase the speed of These s also switch between menu displays when on submenu of parmeter setting display is shown. PT. Use this when the controller is at a reset to select a program pattern on an operating display. RUN RESET Pressing this f me than seconds while an operating display is shown starts the controller. Pressing this f me than seconds while an operating display is shown stops the controller. Setup Procedure Poweron Set input. Calibrate valve position. See. Input Type ( First at Poweron),. Changing Input Type. Position proptional controller? Initialize s. Set setup s. Set operating s. Set program patterns. Controller operation (Factyset to unspecified. ) See. Calibrating Valve Position. See Initializing s. See Programming s Manual Denotes a step that must always be followed. Set the control. (Factyset to Proptional Relay Output. ) See. Control Output Type. Be sure to follow this step whenever a change of setting is made to the input. When initializing s is excuted, the controller initializes the operating and setup s. Therefe, check that the appropriate value are set f the s after initializing s. If changed to initial values, set them to the appropriate values again.. Input Type ( First at Poweron) C Denotes a step that should be followed as necessary. The controller dislays an operating display when the power is turned on. The submenu IN appears at this point if the of input has not been defined yet. In this case, first press the once to display the IN f the input, and use the to display the code to use, then press the to resister it. Then, set the maximum value (RH) and minimum value (RL) of the input range (f voltage input, set the maximum value (SH) and minimum value (SL) of the input scale). See the operating procedure below f me details. The controller is configured to the default of each at the facty befe shipment. First check these defaults listed in s s Manual, and change their values if necessary. Example of Temperature Input. C (RL) Instrument C Set a range to be controlled. C (RH) s to be set f temperature input. input (IN): Set accding to a sens. (RH): Set the maximum value of the range to be controlled.. (RL): Set the minimum value of the range to be controlled. V V V V (input signal) Instrument RL How to return to a menu.m /h.m /h input scale (SL) Example of Voltage Input input scale RH input scale (SH) Set a range to be controlled s to be set f voltage input. input (IN): Set accding to an input signal. (RH): Set the maximum value of an input signal.. (RL): Set the minimum value of an input signal.. Position of input decimal point (SDP): Set the position of the decimal point f input display.. input scale (SH): Set the maximum value of the scale to be controlled. (Set a reading f the maximum value of the input signal.) input scale (SL): Set the minimum value of the scale to be controlled. (Set a reading f the minimum value of the input signal.) once during setting. This lets you return to the menu. The following operating procedure describes an example of setting a K thermocouple (. to. C) and a measurement range of. to. C Display view at poweron In steps and later, illustrations of the LCD are cited to explain the procedure. once to display the IN ( input ). to display the required. The figure below shows an example of setting a K thermocouple (. C to. C). See Instrument Input Range Codes. once to register the. once to display the UNI ( input unit). once to display the RH (maximum value of ). MENU:UPMD/IN # input select IN = MENU:UPMD/IN # input select IN = K MENU:UPMD/IN # input select IN = K MENU:UPMD/IN # input unit select UNI = C MENU:UPMD/IN # input range high RH =. IN input set.. to display the required. The figure below shows an example of setting the maximum value of the to. C. once to register the.. to display the required. The figure below shows an example of setting the minimum value of the to. C.. once to display the RL (minimum value of ). The display in the figure on the left shows the err code f input burnout ( ) if input wiring is not yet complete. The err code disappears when you wire the input terminals crectly. MENU:UPMD/IN # input range high RH =. once to register the. If the of input is voltage, also configure the Input Decimal Point Position (SDP), Maximum Value of Input Scale (SH) and Minimum Value of Input Scale (SL) s that follow this step. f me than seconds. This returns you to the display shown at poweron (figure below). lamp Displays submenu IN. PTNO: TM= MENU:UPMD/IN # input range high RH =. MENU:UPMD/IN # input range low RL =.. C SEGNO: / RCY: / MENU:UPMD/IN # input range low RL =. MENU:UPMD/IN # input range low RL =. Instrument Input Range Codes Input Unspecified K J T B S R Thermocouple N RTD E Type L(DIN) U(DIN) W Instrument Input Range Code K K J T T B S R N E L U U W Platinel Plati PR WRe WRe JPt Pt K PR WRe JPt JPt Pt Pt Instrument Measurement Accuracy Input Range Set the data item Input Type "IN" to the option to leave the input undefined. to C. to. F to. C. to. F.% of instrument range digit at C me. to. C.% digit f temperatures below C,. to. F where the accuracy is: % of instrument range. to. C digit f temperatures below. C f a K. to. F thermocouple, % of instrument range digit f to. C temperatures below. C f a T thermocouple.. to F. to. C. to F. to. C.% of instrument range digit at C me to F % of instrument range digit at less than C. to C to F.% of instrument range digit. to C to F.% of instrument range digit. to. C.% of instrument range digit f temperatures. to. F below C to. C. to. F. to. C. to F. to. C. to F. to. C. to. F. to. C to F. to. C. to. F. to. C to F. to. C to 6 F. to. C. to. F. to. C. to. F. to. C. to F. to. C. to. F. to. C. to. F. to. V. to. V. to. V. to. V Standard. to V. to V signal to V to V to V to V DC voltage to V to V to mv mv. to. mv to mv mv. to. mv Pt Select the unit from the UNIT..% of instrument range digit at C me.% digit f temperatures below C, where the accuracy is:.% of instrument range digit f temperatures below. C f a E thermocouple..% of instrument range digit.% of instrument range digit.% of instrument range digit at C me accuracy is guaranteed at less than C.% of instrument range digit.% of instrument range digit (te) (te).% of instrument range digit (te).% of instrument range digit (te) (te).% of instrument range digit (te).% of instrument range digit Display range is scalable in a range of to. Display is less. * Perfmance in the standard operating conditions (at C, %RH, and /6 Hz power frequency) te: The accuracy is. C of instrument range digit f a temperature range from C to C. te: The accuracy is. C of instrument range digit f a temperature range from C to C. * To receive a ma DC signal, select a standard signal of to V DC and connect it to a resist. This resist is optional. Model: X (resist with M. crimpon terminal lugs) The controller may automatically initialize the registered operating s if any change is made to the data item Input Type (IN), Maximum Value of Input Range (RH), Minimum Value of Input Range (RL), Input Decimal Point Position (SDP), Maximum Value of Input Scale (SH) Minimum Value of Input Scale (SL). After a change has been made to any of these data items, be sure to verify the registered operating s to ensure that they are crect. If any data item has been changed to its default, set it to a required value. Ranges Selectable f Input Thermocouple RTD DC voltage(mv,v) K, K, K, J, T, T, B, S, R, N, E, L, U, U, W, Plati, PR JPt, JPt, Pt, Pt, Pt, Pt. to V, to V, to V, to V, mv, mv of Main s at the Facty befe Shipment Item Control Factyset defaults f standard controllers proptional relay (variable) Factyset defaults f heating/cooling controllers Heating side: proptional relay (variable) Cooling side: proptional relay (variable) Control Reverse (variable) t specified P =.%, I = seconds, D = 6 seconds. Factyset defaults f position proptional controllers Relay (fixed) IM ECE ()

4 E E E E E E E E E E E E E E E E. Changing Input Type The following operating procedure describes an example of changing the setting of K thermocouple (. to. C) to RTD Pt (. to. C) and a measurement range of. to. C Bring the operating display into view (display appears at poweron) In steps and later, illustrations of the LCD are cited to explain the procedure. f me than seconds to call up the. STUP. PARA. UPMD. once to display the STUP passwd input once to display the PARA setup once to display the UPMD lamp UP configuration... input terminal Thermocouple/mV/V input... RTD input... PTNO: TM= UNI.. C SEGNO: / RCY: / once to register the. MENU:UPMD/IN # input select IN = Pt once to display the MENU:UPMD/IN # input unit select UNI = C once to display the RH (maximum value of ). MENU:UPMD/IN # input range high RH =.. to display the required. The figure below shows an example of setting the maximum value of the to. C. MENU:UPMD/IN # input range high RH =.. Control Output Type (except f a Position Proptional Controller) The following operating procedure describes an example of changing time proptional relay (: factyset default) to current () Bring the operating display into view (display appears at poweron). In steps and later, illustrations of the LCD are cited to explain the procedure. f me than seconds to call up the. STUP. PARA UPMD. once to display the STUP passwd input once to display the PARA setup once to display the UPMD lamp UP configuration Control terminal Values in parentheses are s proptional relay ()/onoff()... Current ()/time proptional voltage pulse ()... 6 F details on the terminals f heating/cooling control, see Terminal Wiring Diagrams in Installation s Manual.... PTNO: TM= OUT. once to display the OT (control ). to display the required. The figure below shows an example of setting to current ( to ma DC).. C SEGNO: / RCY: / twice to display the submenu OUT set MENU:UPMD/OUT # select OT = MENU:UPMD/OUT # select OT = once to register the. MENU:UPMD/OUT # select OT =. Calibrating Valve Position (f a Position Proptional Controller Only) The following operation describes a procedure of inputting a feedback signal from a control valve to calibrate the full closed and full open positions of the valve automatically. To calibrate the valve position, you need to carry out wire connections and bring the controller into manual mode. F connections, see Terminal Wiring Diagrams in Installation s Manual and f entering the manual mode, see Switching between AUTO and in Operations s Manual. If the controller is in RESET mode, you need to bring the controller into program operation (RUN) local operation (). F entering the program operation, see. Switching between RUN and RESET Modes in Operations s Manual, and entering the local operation, see, Switching to Localmode () Operation in Operations s Manual..... Bring the operating display into view (display appears at poweron). In steps and later, illustrations of the LCD are cited to explain the procedure. f me than seconds to call up the. STUP. PARA. UPMD. lamp lamp once to display the STUP passwd input once to display the PARA setup once to display the UPMD lamp UP configuration... L. PTNO: TM= V.AT.. C SEGNO: / RCY: / once to display the MENU:UPMD/VV # valve auto tuning V.AT = to display. MENU:UPMD/VV # valve auto tuning V.AT = once. The controller automatically calibrates the valve position (fully open closed).. Calibration has ended successfully when the indication changes from to. MENU:UPMD/VV # valve auto tuning V.AT = MENU:UPMD/VV # valve auto tuning V.AT = Blinks during Initializing s Be sure to follow the steps below after a change of setting has been made to the data item Input Type, Input Range Input Scale CAUTI Initializing the above s may initialize the registered operating/setup s. Check that they are crect. If any of them has been changed to its initial value, set it to a required value. Bring the operating display into view (display appears at poweron). In steps and later, illustrations of the LCD are cited to explain the procedure. f me than seconds to call up the. STUP. PARA. UPMD. once to display the STUP passwd input once to display the PARA setup once to display the UPMD lamp UP configuration... PTNO: TM= INIT. INI.. C SEGNO: / RCY: / twice to display the submenu INIT initialize once to display the to display. MENU:UPMD/INIT # initialize INI = MENU:UPMD/INIT # initialize INI = once. The display momentarily becomes blank (which is nmal), indicating the s have been initialized. MENU:UPMD/INIT # initialize INI = change MD. once to display the submenu MD UP mode set. once to register the. MENU:UPMD/IN # input range high RH =. MD. once to display the submenu MD UP mode set MD. once to display the submenu MD UP mode set Go to step.. Calibration has ended unsuccessfully if the indication changes from to ERR. Check the feedback input wiring and carry out automatic calibration again. MENU:UPMD/VV # valve auto tuning V.AT = ERR MD. once to display the submenu MD UP mode set.. once to display the submenu IN. IN input set once to display the IN ( input ). MENU:UPMD/IN # input select IN = K to display the required. The figure below shows an example of setting the input to a Pt resistance temperature detect (. C to. C). MENU:UPMD/IN # input select IN = Pt. to display the required. The figure below shows an example of setting the minimum value of the to. C. once to display the RL (minimum value of ). MENU:UPMD/IN # input range low RL =. MENU:UPMD/IN # input range low RL =. once to register the. MENU:UPMD/IN # input range low RL =.. f me than seconds. This returns you to the display shown at poweron (figure below). lamp List of Control Output Types OT Name of Control 6 PTNO: TM=. C SEGNO: / RCY: / Control Output Types proptional relay contact (terminals ) proptional voltage pulse (terminals 6 ) Current (terminals 6 ) On/off control relay contact (terminals ) The following to are displayed only f heating/ cooling controllers. Heatingside relay (terminals ), coolingside relay (terminals ) Heatingside pulse (terminals 6 ), coolingside relay (terminals ) Heatingside current (terminals 6 ), coolingside relay (terminals ) Heatingside relay (terminals ), coolingside pulse (terminals 6 ) Heatingside pulse (terminals 6 ), coolingside pulse (terminals 6 ) Heatingside current (terminals 6 ), coolingside pulse (terminals 6 ) Heatingside relay (terminals ), coolingside current (terminals 6 ) Heatingside pulse (terminals 6 ), coolingside current (terminals 6 ) Heatingside current (terminals 6 ), coolingside current (terminals 6 ). three times to display the submenu VV. VV valve control f me than seconds. This returns you to the display shown at poweron (figure below). lamp lamp L. PTNO: TM=. C SEGNO: / RCY: /. f me than seconds. This returns you to the display shown at poweron (figure below). lamp PTNO: TM=. C SEGNO: / RCY: /. If the of Input is voltage, also configure the Input Decimal Point Position (SDP), Maximum Value of Input Scale (SH), and Minimum Value of Input Scale (SL) s that follow this step. f me than seconds. This returns you to the display shown at poweron (figure below). lamp PTNO: TM=. C SEGNO: / RCY: / IM ECE ()

5 E E s Manual IM ECE This manual explains how to create programs by citing specific examples. Create user programs by referring to the given examples. Use the map included in. Program Map, in Program s s Manual, in der to further familiarize yourself with the required operations. Be sure to carry out the settings instructed in Initial s s Manual befe beginning any of the tasks discussed in this manual. Contents. Overview of Program Patterns. Example of Program Pattern Setup Charts. Creating Program Patterns. Changing Program Patterns. Overview of Program Patterns Programming Overview Model UP Program Controller s Manual f Singleloop Control Programming rd Edition: Sep, The example given here demonstrates how to do the tasks outlined below.. Program the controller to start program operation at C and raise the temperature up to C in minutes.. When the temperature reaches C, keep it at this level f minutes.. Finally, lower the temperature to C in minutes.. Example of Program Pattern Setup Charts Complete the following setup chart befe setting programs in the controller. Filling in the chart makes it easier f you to input program data into the controller. See. Program Pattern Setup Charts, in Program s s Manual. In the following chart, fill in the fields with boldface bders.. : of the Maximum Value of Input Range (RH) setup. : of the Minimum Value of Input Range (RL) setup. input unit: of the Input Unit (UNI) setup. Program time unit: of the Program Unit (TMU) setup. Segment setting method: of the Segment Method (SEG.T) setup Starting target : of the Starting Target (SSP) program Start code: of the Start Code (STC) program. Final target, Segment time, Events ( event and event), and Junction code: of each program. Draw the program pattern. Example of Chart Entries Program time unit (TMU) Hour, minute Segment setting method (SEG.T) setting Starting target (SSP) 6 C Starting target (SSP) Start code (STC) st group of wait zones (.WZ) st group of wait times (.WTM) nd group of wait zones (.WZ) nd group of wait times (.WTM) rd group of wait zones (.WZ) rd group of wait times (.WTM) th group of wait zones (.WZ) th group of wait times (.WTM) th group of wait zones (.WZ) th group of wait times (.WTM) Number of repetitions (RCY) Startofrepetition segment () Endofrepetition segment (REN) Define this when using the controller as a program pattern generat. See s Manual (Reference) (CDROM version) f me infmation. See s Manual (Reference) (CDROM version) f me infmation.. Creating Program Patterns The following operating procedure describes an example of creating the program discussed in. Overview of Program Patterns. Befe creating the program, reverify the Maximum Value of Input Range (RH), Minimum Value of Input Range (RL), Program Unit (TMU), and Segment Method (SEG.T) s. If the setting of the setup SEG.T is changed, the program patterns created and sted so far will be all cleared (initialized)!! Be careful. The example given in this manual includes the following steps. Step selects the program pattern (PTN). Steps to configure the Starting Target (SSP) (so that the program starts from C). Steps to configure the Final Target (TSP) f segment. Steps to 6 configure the Segment (TIME) f segment. Steps to configure the Event s (EV, TY and PE). Step configures the Final Target (TSP) f segment (not changed in this example). Steps to configure the Segment (TIME) f segment. Steps to configure the Event s (EV, and ). Steps to configure the Final Target (TSP) f segment. Steps 6 to configure the Segment (TIME) f segment... Bring the operating display into view (appears at poweron). lamp F steps and later, illustrations of the LCD are cited to explain the procedure. f me than seconds to call up the.. Displays a process variable () value. PTNO: TM=. C SEGNO: / RCY: / once to register the.. once to register the. MENU:/ #6 TIME = h once to display the Event Number EV. MENU:/ # event no. select EV = to display the required. set to event ( ). MENU:/ # event no. select EV =.. once to display the Junction Code JC f segment. The of this is not changed in this example. once to dispay the Target TSP f segment. The of this is not changed in this example. At this point, the display shows. (the first two digits denote the pattern and the last two digits the segment ). display MENU:/ # junction code select JC = MENU:/ # target set point TSP =. C once to display the Segment TIME f segment. MENU:/ #6 TIME = Event Set a deviation of C on both the positive and negative sides of a program to allow the controller to an event signal if the temperature goes beyond the deviation range. Let the controller an event signal when the temperature stabilizes to C. Temperature C C C Segment time f segment min. Start of program operation Example of Creating Program Pattern Segment time f segment min. Segment time f segment min. event Outputs an alarm if the temperature goes beyond the range program C. event Target (TSP) to be reached by segment Starting target (SSP) The turns on after minutes have elapsed since the start of program operation. Then, it turns off after minutes have elapsed from the start of program operation. Target (TSP) to be reached by segment Target (TSP) to be reached by segment (RH) % Define when using the controller as a program pattern generat. See s Manual (Reference) (CDROM version) f me infmation. (RL) % Unit Segment. Final target (TSP) Final target (TSP) Segment time (TIME/TM.RT) () (te) Event (EV) event (TY)/on time of () event (PE)/off time of () Event (EV) event (TY)/on time of () event (PE)/off time of () Event (EV) event (TY)/on time of () event (PE)/off time of () Event (EV) event (TY)/on time of () event (PE)/off time of () Event (EV) event (TY)/on time of () event (PE)/off time of () Event (EV6) event (TY6)/on time of (6) event (PE6)/off time of (6) Event (EV) event (TY)/on time of () C C C 6 C C C min min min min C min this example. this example once to display the submenu local mode set once to display the submenu once to display the Pattern Number PTN. At this point, the display shows. (the first two digits denote the pattern and the last two digits the segment ). display MENU:/ # PTno.input PTN =... MENU:/ # start set point SSP =. C once to display the Start Code STC. once to display the Target TSP f segment. At this point, the display shows. (the first two digits denote the pattern and the last two digits the segment ). display to display the required. The figure below shows an example of the set to. C. MENU:/ # start code select STC = MENU:/ # target set point TSP =. C MENU:/ # target set point TSP =. C.... once to register the. once to dispay the Event Type TY. to display the required. set to Deviation high and low limits Alarm ( ). MENU:/ # event no. select EV = MENU:/ # event TY = MENU:/ # event TY = once to register the. MENU:/ # event TY =... to display the required. set to hr. and min. ( h). MENU:/ #6 TIME = h once to register the. MENU:/ #6 TIME = h once to display the Event Number EV. MENU:/ # event no. select EV =. to display the required. set to ( ). MENU:/ # event no. select EV = event (PE)/off time of () Event (EV) event (TY)/on time of () event (PE)/off time of () Junction code (JC) once to display the Segment Number SEG.. once to register the.. once to display the Event PE. MENU:/ # event set point PE =. C. once to register the. MENU:/ # event no. select EV = (te) This is shown f segment s when the setup paramater Z is set to. MENU:/ # MENU:/ # target set point SEG = TSP =. C once to display the Starting Target SSP. MENU:/ # start set point. once to display the Segment TIME f segment. MENU:/ #6. to display the required. set to. C. MENU:/ # event set point PE =. C. once to display the On of Event. MENU:/ # time = SSP =. C TIME =. to display the required.. to display the required.. once to register the. to display the required. set to min. ( h). The figure below shows an example of the set to. C. MENU:/ # start set point SSP =. C The figure below shows an example of the set to min. (h). MENU:/ #6 TIME = h MENU:/ # event set point PE =. C MENU:/ # time = h once to display the Event Number EV. once to register the. MENU:/ # event no. select MENU:/ # time EV = = h IM ECE ()