Samwon Tech TEMP880S Instuctions For Installation And Use Download

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THERMAL SHOCK TEST CONTROLLER

TEMP880S

INSTRUCTION MANUAL

Summary of Contents for TEMP880S

Page 1: ...THERMAL SHOCK TEST CONTROLLER TEMP880S INSTRUCTION MANUAL ...

Page 2: ...Graph and Graph Record Set Screen 37 2 10 Pattern Set Screen 39 2 10 1 File edit screen 42 2 10 2 Time signal setting screen 43 2 10 3 Pattern name set 45 2 11 Display Set 46 2 12 System Setting Screen 47 2 12 1 Input and input revision for sections 48 2 12 2 Control output and transmission setting screen 53 2 12 3 Inner signal setting screen 57 2 12 4 PID set screen 59 2 12 5 DO CONFIG setting sc...

Page 3: ...l attention B Represents a Grounding Terminal Please make sure the product is earthed when installing and using C Represents Additional explanation Describes supplementary explanation D Represents Reference Describes referential explanation and reference page 음Cautions for the manual음 A Make sure the final users keep this manual and place it at which it can be easily found B Use the product after ...

Page 4: ...m Responsibility음 A The company is not liable for any warranty or obligations that are not specified in quality A A A guarantee qualification of the company B The company is not liable for any direct or indirect harm of the user or third person which are A caused by unexpected defect or natural disaster 음Quality guarantee qualification음 A The product is under warranty for one year from purchase Fo...

Page 5: ...Confirm feature code of label on the right side of the box or left side of the product case Model Feature Code Appendix Code UDC Contents 1 I O1 BOARD 10 POINT basis 24V SMPS internally equipped 2 I O2 BOARD 10 POINT addition 0 RS232C basis 1 RS485 option TEMP880S UDC UDC100 option In the case of generic model the code is TEMP880S 10 I O 10POINT RS232C 1 2 2 Contents confirmation Confirm the follo...

Page 6: ... parts and replace them before the period exceeds FUSE SR 5 630mA 250VAC equivalent product semi permanent BACKLIGHT 10 000 15 000 HOUR RELAY JQ1P DC24V equivalent product less than ON OFF 300 000 times BATTERY ER3VT 3 6V 1 2AA equivalent product less than 200 000 HOUR For batteries use the identical product or the ones with same capacity to prevent explosion Also separate used batteries from othe...

Page 7: ...lation A Do not place machines or wires that cause noise B Keep the product within 10 50 20 90 RH dew free Especially keep it away from things B that generate heat extremely C Do not install the product on a slant D Keep the product within 25 70 5 95 RH dew free When operating it below 10 warm it B up enough before use it 가 E When wiring turn off all power source F This product operates at 100 240...

Page 8: ...SAMWONTECH 1st Edition of TEMP880S IM Sep 21 2005 Page 6 101 1 3 3 EXTERIOR SIZE 1 3 4 PANEL CUTTING SIZE 1 General Adhesion 2 Close Adhesion ...

Page 9: ...rt the product from the back side into the installing hole as figure above 3 Fix the mainframe using fixed mount located on left and right side of the mainframe 3 by the use of a driver When you fix the fixed mount do not tighten it intensely Cautions on the fixation of a fixed mount Panel Thickness 1 0 04 10 0 39 mm inch DRIVER FIXED MOUNT INSERT DIRECTION PANEL ...

Page 10: ...rt Power source should be supplied to the inner part of TEMP 880S through the power cutoff Use the power cutoff after it is earthed evenly Ground Connection N2 L2 G2 N1 L1 G1 Contact Input 접점입력 DI SSR SCR Recorder Control Transmission Output Relay Contact Output Relay Contact Output Chamber Case Circuit Breaker Circuit Breaker 24V Use for IO2 option Power ...

Page 11: ...and contact B Solenoid Coil Solenoid Valve C Power source line D Induced load E Inverter F Commutator of motor G Phase angle control SCR H Wireless communicator I Welding machine J High voltage lighter Solution for noise Pay attention to the following matters to avoid the source of noise when you wire A Wire input circuit with space from the power and ground connection circuit B Use shield wire fo...

Page 12: ...ARD TEMP880S 10 RS232C I O1 OPTION1 TEMP880S 11 RS485 I O1 Add UDC option TEMP880S 10 UDC Add UDC Option TEMP880S 11 UDC OPTION2 TEMP880S 20 RS232C I O1 I O2 OPTION3 TEMP880S 21 RS485 I O1 1 O2 Add UDC Option TEMP880S 20 UDC Add UDC Option TEMP880S 21 UDC RS232C RS485 RTX I O2 LINK I O2 LINK RS485 RTX SG RS232C RS485 RTX RS485 RTX SG ...

Page 13: ...11 RLY7_NC RLY7_NO COM4 RLY8_NO RLY8_NC RLY9_NC RLY9_NO COM5 RLY10_NO RLY10_NC External connecting switch RLY 10 It operates by being connected to AND P10 AOUT1 AOUT1 Temperature heatin g control output AOUT2 AOUT2 Freezing control output RET1 RET1 Transmission output 1 RET2 RET2 Transmission output 2 RLY6 COM3 RLY5 RLY4 COM2 RLY3 RLY2 COM1 RLY1 24V GND DI_COM DI8 DI6 DI4 DI2 DI_COM DI7 DI5 DI3 DI...

Page 14: ... 3304 or cable that has similar capacity for the power source wiring 1 4 2 5 WIRING ANALOG INPUT Turn off the mainframe of Temp880S and external power source due to potential electric shocks Use input wire that is adhere to shield Also shield should be done as 1point ground connection Wire measuring input signal line leaving a space from the power circuit or ground connection circuit Use wire that...

Page 15: ... shield attached Shield should be done as 1point ground connection Temperature heating Control Output Wire SSR 4 20mA Cooling Control Output Wire SSR 4 20mA SSR 12VDC min 600Ω min SCR 4 20mADC min 600Ω max SSR 12VDC min 600Ω min SCR 4 20mADC min 600Ω max Transmission Output 1 Wire 4 20mA Transmission Output 2 Wire 4 20mA Caution CONTROL VALVE I O1 BOARD SHIELD Class 3 Ground ACTUATOR AOUT1 AOUT1 C...

Page 16: ...0VAC 5A NC Normal Close Below 30VDC 1A Below 250VAC 2A NO Normal Open Below 30VDC 5A Below 250VAC 5A NC Normal Close Below 30VDC 1A Below 250VAC 2A Below 30VDC 5A Below 250VAC 5A Below 30VDC 5A Below 250VAC 5A Below 30VDC 5A Below 250VAC 5A Below 30VDC 5A Below 250VAC 5A Caution RLY1 RLY2 COM1 I O1 BOARD RLY3 RLY4 COM2 I O1 BOARD RLY5 RLY6 COM3 I O1 BOARD RLY17 RLY18 COM3 I O2 BOARD RLY19 RLY20 CO...

Page 17: ...f electric shocks Use voltage free contact point relay contact point for external contact point For turned of terminal voltage about 5V and turned on present about 1mA use voltage free contact point that has enough switch ability Use open collector which has under 2V and 100μA present when turned on RELAY Contact Point Input TRANSISTOR Contact Point Input Caution DI1 DI2 DI8 I O1 BOARD DI_COM DI1 ...

Page 18: ...AC or diode when using DC parallel to prevent relay breakdown Recommended CR FILTER Sungho Electronics BSE104R120 25V 0 1μ 120Ω HANA PARTS CO HN2EAC 松尾電機株 CR UNIT 953 955 etc 株指月電機製作所 SKV SKVB etc 信英通信工業株 CR CFS CR U etc DC RELAY AC RELAY Caution EXTERNAL DC POWER METER R DIODE Connect to RELAY COIL directly RELAY Use RELAY COIL that is below ground connection capacity of controller EXTERNAL AL...

Page 19: ...880S to connect multidrop maximum of 99 For TEMP880S or MASTER PC PLC connect division resistance 200Ω 1 4W on both sides of communication channel 1 4 2 10 2 Wiring RS232C CONNECTOR Wiring with D Sub 9 PIN Caution Master Station TEMP880S TERMINAL BOARD Class 3 Ground SHIELD Division Resistance RTX RTX SG Class 3 Ground Division Resistance RTX RTX SG RTX RTX SG TEMP880S Master Station TEMP880S RD 2...

Page 20: ...wing table 1 1 Table 1 1 BASIC SETTING BUTTON Button Type Button Explanation 1 Upper Main Bar Change screen according to left and right touch 2 General Active Button For general action or choice 3 Page Up Down Button Used for switching pages in the same screen 4 Setting Value Choice Button Used for choosing setting value 5 Setting Value Input Button Switch to setting value input screen 6 Setting V...

Page 21: ...ETTING Setting value does not get entered when key lock is turned on enter after turn off key lock Refer to 2 7 ACTION SETTING SCREEN for detail 2 1 3 VALIDITY FOR SETTING BUTTON AND SETTONG VALUE The product is made to check validity of entered setting value by making beeping noise beep when press general setting button and setting value is entered correctly beep bleep Data entered by setting val...

Page 22: ...put key 2 2 1 FUNCTION OF SETTING VALUE INPUT KEY 1 Shows parameter 2 Shows setting range 3 When exceeds setting range error message LIMIT ERR appears 4 Use this button to stop entering data and return to the original screen 5 When erase all input data 6 When enter decimal points 7 When save entered data and restore the original screen 8 When edit entered data erase data one by one 9 When enter si...

Page 23: ... IM Sep 21 2005 Page 21 101 2 3 General Operation Setting Flow Chart The picture below roughly diagrammatize the flow Program Stop Password Setting System Setting DI Error Occurred Program Setting Main Screen Initial Screen Input Power ...

Page 24: ...EEN after three seconds automatically Diagram 2 1 Initial Screen No Instruction Contents Additional Explanation 1 Version Indicates version info of the product V1R0 VERSION 1 REVISION 0 2 Co Name Indicates name of the company 3 Phone Indicates contact phone number 4 Webpage Indicates webpage address It may be edited at 2 12 8 INITIAL DISPLAY SETTING 1 4 3 2 ...

Page 25: ...g Shifts to present time and reserved setting screen Refer to 2 8 RESERVED SETTING 4 Graph Display Shifts to graph display and graph record setting screen Refer to 2 9 GRAPH AND GRAPH RECORD SETTING 5 Pattern Setting Shifts to pattern setting menu screen Refer to 2 10 PATTERN SETTING 6 Screen Setting Shifts to tuning key display setting and screen light control screen Refer to 2 11 SCREEN CHOICE 7...

Page 26: ... set operation pattern number 6 Time Button Displays present time and if you press button LCD screen turns off If you wish to turn on when nothing is displayed but operated normal press anywhere on screen Set automatic turn off time in 2 7 MOTON SETTING For long durability of the back light ten munutes are initially set up Set present time in 2 8 RESERVED SETTING 7 Operation Button Displays a conf...

Page 27: ...s yellow lamp when a heat shock tester is operating normal temperature part 14 Low Temperature Room Operation Lamp Displays blue lamp when a heat shock tester is operating low temperature part Turns off when preheating Pattern Type There are two pattern types Type 1 2 as for Elevator Type and four pattern types Type 1 2 3 4 as for Damper Type The pattern type can be set up in 2 10 PATTERN SETTING ...

Page 28: ...ving period is 60 seconds and 4 days if saving period is 30 seconds 3 Delete Button Delete graph display data 4 Graph Display Display Room PV Display red 5 RON ROF Button Select graph display save Save RON PV Graph Do not save ROF PV Graph 6 30S 60S Button Select graph save cycle Save 30S 30sec cycle Save 60S 60sec cycle 7 Back Next Button Shifts to back next stage of X axis time scale MOTION CONF...

Page 29: ...if you press YES If you press NO it restores as diagram 2 3 3 Pattern End Blinks when set program ends Disappears if you press anywhere on the screen Even though relay and time which are PTEND parameter are set in 2 12 5 DO CONFIG SET relay is turned off when message disappears 4 Start Time Displays start time for reserved operation 5 Reservation Blinks if reserved operation is set Set operation p...

Page 30: ...ned 8 SEC Time Displays time set up of zone concerned 9 Operation Time Displays the whole operation time up to the present Whole operation time Start accumulation again from 0000H00M when 9999H59M 10 Hold Button Hold on to the set point of the present temperature or hold it off 11 Step Button End the present segment and shifts to the next segment Starts operation ignoring WAIT when it is STEP unde...

Page 31: ...on a lamp in zone concerned when preheating and precooling and turn off a lamp in zone completed of preheating and precooling 6 Cycle Displays the number of repetition of pattern concerned 7 Remaining Time Displays remaining time of the total operation time 8 Operation Time Displays the entire process time operated up to the present 9 High Temperature Room PV SP MV Displays PV temperature measure ...

Page 32: ...rogram Operation 1screen High temperature room operation Normal temperature room operation Diagram 2 14 Program Operation 1screen Diagram 2 15 Program Operation 1screen Low temperature room operation Turning key display Diagram 2 16 Program Operation 1screen Diagram 2 17 Program Operation 1screen when turning high temperature room when holding 1 ...

Page 33: ...E Low Temperature Room LOW TEMP ZONE No Setting High Temperature Room PV Preheating SP H PV WAIT SP Low Temperature Room PV Precooling SP L PV WAIT SP Setting Preheating SP Preheating Deviation High Temperature Room PV Preheating SP Preheating Deviation H WAIT SP H WSP DEV H PV H WAIT SP H WSP DEV Precooling SP Precooling Deviation Low Temperature Room PV Precooling SP Precooling Deviation L WAIT ...

Page 34: ... Auto Tuning Operation It is impossible to perform auto tuning or auto tuning is forced to be terminated under the following conditions When a thermal shock tester stops running When a sensor burns out When a user manually stops auto tuning before the automatic termination after the operation of auto tuning A manufacturing company sets P I D parameters so that a thermal shock tester can make optim...

Page 35: ...OT Operate from the position of SEG that was operating shortly before outage after WAIT 2 Fuzzy Setting Settles control during the occurrence of disturbance 3 Locking Setting Setting cancel key lock Possible only to shift screen and execute key input lockup cancellation 4 Defrost Cycle It fixes motion cycle of defrost control 0 9999 5 Defrost Temperature Input defrost temperature set value of low ...

Page 36: ...y Internal motion of fuzzy function 1 When pointer value PV gets close to set point SP supporting set point SUPER SP starts calculating 2 Treat this calculated value from the previous step as set point and calculate control output MV Overshoot is repressed Changes of pointer value PV according to the function of fuzzy Fuzzy OFF Fuzzy ON Fuzzy Motion PV SP Fuzzy ON PV SP SUPER SP ...

Page 37: ...nd Defrost time goes by set value of low temperature room is changed to precooling set value which is set up in the present program pattern and a thermal shock tester is converted to under operation preparation Wait until low temperature room completes precooling Examples Defrost CYCLE 3 intervals Defrost SP 20 Defrost Time 10 min Diagram 25 Defrost Control Cycle Example Diagram 26 Defrost Control...

Page 38: ...reserve time and operation Diagram 2 27 Reserve Set Screen No Instruction Contents Additional Explanation 1 Present Time Sets and displays the present time Year month day hour minute 2 Reserve Time Sets and displays reserve operation time Year month day hour minute 3 Reserve Set Turns on off reservation Refer to diagram 2 7 3 2 1 ...

Page 39: ...ction Contents Additional Explanation 1 UDC Button Shifts to UDC set screen UDC Option use 2 Pattern Number Sets pattern number to graph 3 Graph Indicator Indicates SP value of laboratory Indicated in blue Time scale changes as you press the button 0H 1H 2H 3H 4H 0H 3H 6H 9H 12H 0H 6H 12H 18H 24H 0H 12H 24H 48H 72H 4 Time Button Changes X axis time scale of graph 0H 24H 48H 72H 96H 5 Back Next But...

Page 40: ... PTN Selects parameter for pattern PTN set repetition set test name PTN input PARA Selects all parameters except PARA the ones selected at PTN and PARA communication related PARA parameters ALL Selects all parameters except ALL communication related ones 5 Transmission Direction Selects upload download Upload Transmits selected object Upload from UDC100 to TEMP880S Download Transmits selected obje...

Page 41: ...ttern Name Set 4 Pattern End Decide operation mode when pattern ends RESET PT ENDs HOLD Hold at the last SEG 5 Pattern Type Indication Indicates program pattern type The pattern type is displayed in order when 5 is touched As for ELEVATOR TYPE indicated as two types as for DAMPER TYPE indicated as four types 6 TSP Set Sets program pattern target set point TSP TSP RL RH 7 TIME Set Sets program patt...

Page 42: ...h as the number of inputted repetition set Cycle Refer to Diagram 2 32 Diagram 2 32 Operation of Program Pattern Type 1 2 As for program pattern type 1 it operates from low temperature room high temperature room and operates as much as the number of inputted repetition set Cycle Refer to Diagram 2 33 Diagram 2 33 Operation of Program Pattern Type 2 Program Pattern Type High Temp Room TSP Temperatu...

Page 43: ...oom and operates as much as the number of inputted repetition set Cycle refer to Diagram 2 35 Diagram 2 35 Operation of Program Pattern Type 4 High Temp RoomTSP Temperature Low Temp Room TSP Normal Temp Room TIME CYCLE 1 Time Normal Temp Room TSP High Temp Room TIME Normal Temp Room TIME Low Temp Room TIME Normal Temp Room TIME CYCLE n High Temp Room TIME Normal Temp Room TIME Low Temp Room TIME H...

Page 44: ...that you wish to delete 4 Pattern Copy Button Copy pattern set on 1 to pattern set 2 Cannot copy without setting point of the original pattern 5 Pattern Delete Button Initialize setting point of pattern which is set in 3 6 Total Delete Button Initialize setting point of all patterns Cannot restore deleted pattern Message Type Display Message Explanation 7 Results Displays copy and delete info Acti...

Page 45: ...t set segment Setting NO 02 07 Stops output as much of on time at set segment and off time after output occurs 2 10 2 1 How to Set Time Signal Time Signal 2 of Segment 01 is to set TYPE 1 Time Signal 3 is toset TYPE 2 and Time Signal 4 is to set TYPE 7 Diagram 2 39 Befor Setting Time Signal Diagram 2 40 Time Signal Setting Input Key 1 Diagram2 40 Time Signal Setting Input Key is displayed if you p...

Page 46: ...0 Time signal NO 06 Setting point Established ZONE TIME ON TIME OFF TIME 4 ON TIME 00 00 Time signal NO 07 Setting point EXAMPLE OF TIME SIGNAL INPUT USE ON OFF Time Signal 1 ZONE OFF TIME OFF TIME ON TIME OFF ON Time Signal 1 OFF TIME OFF ON Time Signal 2 OFF TIME OFF ON Time Signal 3 ON TIME High Temp Room 8HOUR Normal Temp Room 8HOUR Low Temp Room 8HOUR ZONE High Temp Room 8HOUR Normal Temp Roo...

Page 47: ...st Name Diagram 2 42 Pattern Name Setting Input Key 3 Diagram2 42 Pattern Name Setting Input Key is displayed if you press anywhere of 1 on the previous screen of Diagram2 41 Pattern Name Setting will be displayed 4 Setting the name of pattern which is wanted by pressing Button in order as 2 8 3 5 3 3 2 6 2 3 3 3 9 3 3 3 7 3 3 3 8 3 3 3 7 4 of the Diagram 2 42 Pattern Name Setting Input Key 1 5 3 ...

Page 48: ...matic turn off Initially set 10 minutes for longing the back light life 3 Light Increasing Button Lightens screen 4 Light Decreasing Button Darkens screen Screen light may change as a trait of STN LCD For example it looks darker in winter and lighter in summer Adjust light using this button 5 Error History Button Shifts to error history screen 6 Error Occurrence Order Displays error occurrence ord...

Page 49: ...setting screen Refer to 2 12 2 Control Output AND TRANSMISSION SETTING 3 INNER SIGNAL Shifts to inner signal setting screen Refer to 2 12 3 INNER SIGNAL SETTING 4 PID GROUP Shifts to PID related setting screen Refer to 2 12 4 PID SETTING 5 DO CONFIG Shifts to additional output setting screen Refer to 2 12 5 DO CONFIG SETTING 6 ALARM DI Shifts to alarm DI setting screen Refer to 2 12 6 ALARM AND DI...

Page 50: ...TING 7 FILTER TIME Removes noise when measuring input includes noise of high frequency 8 High Temperature Room SP Sets upper and lower limits of TSP WAIT SP setting range of high temperature room during program input 9 Normal Temperature Room SP Sets upper and lower limits of TSP WAIT SP setting range of normal temperature room during program input 10 Low Temperature Room SP Sets upper and lower l...

Page 51: ... 1200 0 300 0 2300 0 TC J 4 E 200 0 1000 0 300 0 1800 0 TC E 5 T 200 0 400 0 300 0 750 0 TC T 6 R 0 0 1700 0 32 3100 TC R 7 B 0 0 1800 0 32 3300 TC B 8 S 0 0 1700 0 32 3100 TC S 9 L 200 0 900 0 300 0 1600 0 TC L 10 N 200 0 1300 0 300 0 2400 0 TC N 11 U 200 0 400 0 300 0 750 0 TC U 12 W 0 0 2300 0 32 4200 0 TC W 13 Platinel Ⅱ 0 0 1390 0 32 0 2500 0 T C TC P Display 5 105 of the above range Kinds of...

Page 52: ...EUS RANGE CENTER POINT EUS 100 100 RL RH RH RL 2 RL EUS 100 100 RH RL RL RH RL EUS 100 100 0 RH RL RH RL 2 EUS 100 100 RH RL RH RL 0 INPUT T C TC T RANGE 200 0 RL 400 0 RH RANGE CENTER POINT EUS 100 100 200 0 400 0 100 0 EUS 100 100 800 0 400 0 200 0 EUS 100 100 0 600 0 300 0 EUS 100 100 600 0 600 0 0 0 ABS doesn t change along input of absolute value Engineering Units EU EUS RH RL EU 100 100 EU 0...

Page 53: ...near equation between each revision points Diagram 2 48 Section Input Revision Setting No Instruction Contents Additional Explanation 1 DRY TEMP DIFFERENCE VALUE Sets revision temperature at each standard temperature 2 DRY TEMP REFERENCE POINT Sets each standard temperature 3 BIASED DRY TEMP PV Display temperature input revision is applied 1 2 3 ...

Page 54: ...nput Pn P Standard Temperature Pn D Revision Temperature POINT n DPV Pn P POINT n DDV Pn D n 1 2 3 4 5 6 7 8 B PV at RL POINT1 S PV P1 D B PV at POINT1 POINT2 S PV S PV P1 P X P1 D B PV at POINT7 POINT8 S PV S PV P7 P X P7 D B PV at POINT8 RH S PV P8 D P8 D P2 D Sensor Input Revision Setting P1 P P1 D S PV B PV P2 D P1 D P2 P P1 P P8 P P7 P P8 D P7 D P2 P P3 P P4 P P5 P P8 P P7 P P6 P P3 D P4 D P5...

Page 55: ...ts right and reverse motion of PID control 3 CYCLE Sets output cycle when Control Output is SSR Solid State Relay Controls senstively if output cycle is short 4 PRESET OUT Cuts PID output from STOP S OPN ERROR occurring and displays PRESET OUT 5 ANTI RESET WIND UP When control output exceeds setting point it prevents WIND UP by stopping reset wind up operation and sets point of resuming PID operat...

Page 56: ...plies only when a kind of control output is SSR Solid State Relay Indicates on off time of one cycle where output cycle is 10 sec Control Output 30 Control Output 50 Control Output 70 Right and Reverse Motion Control output MV Deviation PV SP 0 100 Right Reverse Control output increase when PV SP Control output increase when PV SP CYCLE TIME ...

Page 57: ...as diagram above and it takes time for pointing value PV to be stablized W h e n t h e r e i s a p o s s i b i l i t y o f A N T I R E S E T W I N D U P From the point where pointing value PV enters into P BAND overshoot is small and PV is stablized fast because accumulation of the integral value is solved Example of how to set P BAND Sensor Input 0 0 100 0 Current Operation PID No 1 P of PID1 gro...

Page 58: ...ower limit of output of transmission 1 3 RET2 SLELCT Chooses transmission 1 kind RTP PV laboratory PV HTP PV high temperature room PV LTP PV low temperature room PV 4 RET2 RANGE Sets the upper and lower limit of output of transmission 1 Transmission output is displayed as 4 20mA If you want to use transmission output as 1 5V Please use it after attaching 250Ω RN TYPE resistance precision resistanc...

Page 59: ...AY TIME Sets delay time of Inner Signal 4 TYPE BUTTON Selects Inner Signal kind to use SP Present Setting Point PV Present pointing value It has hysteresis of EUS 0 5 impossible to change when selected to PV 5 BAND BUTTON Selects direction of Inner Signal 6 Screen Move Button Sets eight inner signals using UP DOWN button Switches screen to two Inner Signal units 3 2 1 5 4 Operating Direction of In...

Page 60: ...HIGH 50 0 DIRECT IN BAND DELAY TIME 00 10 INPUT 0 0 100 0 TYPE SP RANGE LOW 30 0 RANGE HIGH 50 0 DIRECT OUT BAND DELAY TIME 00 10 Example of Inner Signal Operation 50 0 30 0 ON OFF IS HYS 50 5 HYS 29 5 PV INB HYS 49 5 HYS 30 5 50 0 30 0 ON OFF IS PV OUTB OUTB 50 0 30 0 SP INB DELAY TIME SP OUTB OUTB ON OFF IS 50 0 30 0 ON OFF IS DELAY TIME Normal Temp Room HighTemp Room Normal Temp Room LowTemp Ro...

Page 61: ... setting point of 2 12 1 1 Temperature Input Setting changes Cannot amend 4 REFERENCE POINT2 5 REFERENCE POINT1 Sets limit value which selects ZONE PID for temperature SPAN RL RP1 RP2 RH 6 TEMP RANGE LOW Low limit of temperature It changes as TEMP RL TEMP RANGE LOW setting point of 2 12 1 1 Temperature Input Setting changes Cannot amend 7 REFERENCE HYSTERESIS Selects ysteresis width when selecting...

Page 62: ... room 12 CONTROL MODE Sets D DV or D PV as operation mode when controls PID Initial value is D PV H SP High temperature room SP L SP Low temperature room SP H RDV High temperature room deviation L RDV Low temperature room deviation H RDV deviation PID Deviation PID applied with H RDV value L RDV deviation PID Deviation PID applied with L RDV value Example of PID Sector Set Screen H SP H SP H RDV L...

Page 63: ... setting point RDV D DV Control Explanation During D DV control since changing rate of output MV is small overshoot is little and time to target setting point TSP is delayed a little bit Suitable for a device which responses sensitively upon output MV changing rate D PV Control Explanation During D DV control since changing rate of output MV is large overshoot happens and time to target setting po...

Page 64: ...INTEGRAL TIME Sets integral time Expanding integral time Control Output MV is lessened Therefore approaching time to setting point SP is lengthened Shortening integral time Control Output MV is increased Therefore approaching time to setting point is shortened Intergal operation can eliminate remaining derivitation at program operation If integral time is too short controlling may become impossibl...

Page 65: ... I O relay board Diagram 2 54 DO CONFIG Setting 1screen Diagram 2 55 DO CONFIG Setting 2screen Diagram 2 56 DO CONFIG Setting 3screen Diagram 2 57 DO CONFIG Setting 4screen Diagram 2 58 DO CONFIG Setting 5screen Diagram 2 59 DO CONFIG Setting 6screen Diagram 2 60 DO CONFIG Setting 7screen 1 2 3 8 9 10 11 4 5 6 7 12 13 14 15 20 22 21 23 16 17 18 19 ...

Page 66: ...P Converts RUN STOP and displays DI Error screen RUN Maintains RUN condition and displays DI Error screen When STOP RUN simultaneously occur STOP RUN 7 WAIT DAMPER OFF Determines whether there is output of DAMPER OFF during WAIT 8 RUN SIGNAL Sets relay number to output Operation Run Signal Relay is turned on after time you set 9 END SIGNAL Sets relay number of signal to output when program operati...

Page 67: ...for the 1st cooler operation 19 2nd REF SIGNAL Sets relay number to output signal for the 2nd cooler operation 20 High Temperature Room FAN Sets relay number of FAN value of high temperature room to output 21 Low Temperature Room FAN Sets relay number of FAN value of low temperature room to output It is always outputted except for STOP condition DEFROST WAIT HOLD included 22 Laboratory FAN Sets re...

Page 68: ...ower limit of deviation Reverse Nothing DI F Within the range of upper and lower limit deviation Reverse Nothing AH R Upper limit of PV Reverse Nothing AL R Lower limit of PV Reverse Nothing AH FS Upper limit of PV Right Existent AL FS Lower limit of PV Right Existent DH FS Upper limit of deviation Right Existent DL FS Lower limit of deviation Right Existent DH FS Upper limit of deviation Reverse ...

Page 69: ...efer to 2 12 5 2 DI Error Name Setting Alarm Operation also runs during operation stop status Alarm Operation PV Upper Limit Deviation Out of Lower and Upper Limit Deviation Within Lower and Upper Limit Deviation PV Lower Limit Deviation PV OFF ALM ON HYS DEV OFF ALM ON HYS SP PV OFF ALM ON HYS DEV ALM ON HYS SP OFF DEV ALM ON HYS SP OFF OFF ALM ON HYS DEV 0 DEV ALM ON HYS SP OFF OFF ALM ON HYS DE...

Page 70: ...er to 2 10 6 1 How To Set Pattern Name for DI name setting 4 NEXT BUTTON Moves to Alarm Setting Screen Refer to 2 12 6 1 Alarm Setting 2 12 6 3 SCREEN DURING DI ERROR OCCURRENCE Diagram 2 63 Screen During DI Error Occurrence No Instruction Contents Additional Explanation 1 EXIT BUTTON Exits error screen Returns to Operation Screen Displays error screen again if error is not resolved 2 STOP BUTTON ...

Page 71: ...l Explanation 1 PROTOCOL Sets communication protocol Operating Program for the company is PC LINK1 SUM CHECK 2 BIT PER SEC Sets communication speed 3 STOP BIT Sets stop bit 4 PARITY Sets parity 5 DATA LENGTH Sets data length 6 ADDRESS Sets address It can be used by connecting and designating different addresses up to 99 when communicating via RS485 7 RESPONSE TIME Sets response time 4 2 3 5 6 7 1 ...

Page 72: ...word All data will be initialized to a state of being delivered from a factory 3 LANGUAGE SET Selects language English or Chinese System inner setting screen displays English regardless of a kind of language 4 INFORMATION1 You can enter company name up to 18 letters of number and English combined 5 INFORMATION2 You can enter company phone number up to 18 letters of number and English combined 6 IN...

Page 73: ...perature room FAN output displaying lamp 4 N2GAS Speedy cooling output displaying lamp HD ON High temperature room DAMP ON displaying lamp HD OFF High temperature room DAMP OFF displaying lamp RD ON Laboratory DAMP ON displaying lamp 5 RD OFF Laboratory DAMP OFF displaying lamp LD ON Low temperature room DAMP ON displaying lamp LD OFF Low temperature room DAMP OFF displaying lamp 1 REF Signal disp...

Page 74: ...n Screen Diagram 2 67 Password Input Screen Diagram 2 68 Password input Screen System Setting Section Input Revision68 No Instruction Contents Additional Explanation 1 INPUT PASSWORD Inputs password for entering System Setting Screen initial password is 0 Switch password at 2 12 8 1 sec Display Setting 2 INPUT PASSWORD Inputs password for entering input revision screen 1 2 ...

Page 75: ...0 EU 0 0 DEFR TIME DEFROST TIME 1 99 ABS 1 DEFR M OPER DEFROST MANUAL OPERATION OFF ON ABS OFF 2 8 Reserve Setting Symbol Parameter Setting Range Unit Initial Value Y YEAR 0 99 ABS 0 1 M MONTH 1 12 ABS 0 1 D DAY 1 31 ABS 0 1 H HOUR 0 23 ABS 0 1 M MINUTE 0 59 ABS 0 0 RESERVE MODE RESERVE MODE OFF ON ABS OFF 2 9 Graph and Graph Record Setting Symbol Parameter Setting Range Unit Initial Value PTNO PA...

Page 76: ...RN NUMBER 1 120 ABS 0 2 11 Screen Selection Symbol Parameter Setting Range Unit Initial Value TUNING KEY TUNING KEY DISPLAY BUTTON DISP HIDE ABS DISP LIGHT OFF LIGHT OFF 0 99 ABS 10 CONTRAST SET CONTRAST GROUP SET 8 LEVEL ABS 4 LEVEL 2 12 1 1 Input Setting Symbol Parameter Setting Range Unit Initial Value SENSOR SENSOR SET TC K1 TC K2 TC J TC J TC E TC T TC R TC B TC S TC L TC N TC U TC W TC PA AB...

Page 77: ...ol Output and Transmission Setting Symbol Parameter Setting Range Unit Initial Value TYPE COMMON OUTPUT TYPE SSR SCR ABS SSR DIRECT COMMON OUTPUT DIRECTION REV FWD ABS REV CYCLE COMMON OUTPUT CYCLE TIME 1 300 SEC ABS 1 P OUT PRESET OUTPUT 5 0 105 0 0 0 ARW ANTI RESET WINDUP 0 0 AUTO 0 1 200 0 100 0 WSP DEV WAIT SP DEVIATION EUS 10 EUS EUS 0 0 RET1 SELECT RET2 SELECT RETRANSMISSION SELECT RTP PV HT...

Page 78: ...S EUS 0 0 L RDV REFERENCE DEVIATION EUS 0 0 100 0 EUS EUS 0 0 RHY REFERENCE HYSTERESIS EUS 0 0 100 0 EUS EUS 0 3 H TEMP PID NO H TEMP PID NO 1 2 3 4 ABS 1 L TEMP PID NO L TEMP PID NO 1 2 3 4 ABS 1 CONTROL MODE CONTROL MODE D DV D PV ABS D PV P 1 4 PROPORTIONAL BAND 0 1 999 9 ABS 5 0 I 1 4 INTEGRAL TIME 0 6000S ABS 120S D 1 4 DERIVATIVE TIME 0 6000S ABS 30S OH 1 4 OUTPUT LIMIT HIGH ABS 100 0 OL 1 4...

Page 79: ...LAY ZONE DAMPER ON SIGNAL RELAY 0 OFF 20 ABS 0 HD ON CPARA RD ON CPARA LD ON CPARA ZONE DAMPER ON SIGNAL TIME 0 999 SEC ABS 0 HD OFF RELAY RD OFF RELAY LD OFF RELAY ZONE DAMPER OFF SIGNAL RELAY 0 OFF 20 ABS 0 HD OFF CPARA RD OFF CPARA LD OFF CPARA ZONE DAMPER OFF SIGNAL TIME 0 999 SEC ABS 0 ERROR RELAY ERROR RELAY 0 OFF 20 ABS 0 ERROR CPARA ERROR SIGNAL TIME 0 999 MIN ABS 0 SOL RELAY SOL RELAY 0 O...

Page 80: ... Symbol Parameter Setting Range Unit Initial Value PROTOCOL PROTOCOL PCL0 PC LINK PCL1 PC LINK with SUM CHECK MODA MODBUS ASCII MODR MODBUS RTU SYNM SYNC MASTER ABS PCL1 BPS BIT PER SEC 600 1200 2400 4800 9600 ABS 9600 STOP BIT STOP BIT 1 2 ABS 1 PARITY PARITY NONE EVEN ODD ABS NONE D LENGTH DATA LENGTH 7 8 ABS 8 ADDRESS ADDRESS 1 99 however Max 99 Sets ABS 1 RESPONSE RESPONSE TIME 0 10 ABS 0 2 12...

Page 81: ...he following parameter during the communication PARAMETER Setting Value Contents PCL0 Basic Protocol PCL1 Basic Protocol Check Sum MODA MODBUS ASCII MODR MODBUS RTU PROTOCOL SYNM SYNC MASTER 9600 9600 bps 4800 4800 bps 2400 2400 bps 1200 1200 bps Communication Speed BPS 600 1600 bps NONE None Parity EVEN Even Parity PARITY ODD Odd Parity 1 1 bit STOP BIT 2 2 bits 8 8 bits DATA LENGTH 7 7 bits ADDR...

Page 82: ...Communication 4 2 2 Connecting the terminal plate of TEMP880S of RS485 Communication MULTIDROP is possible up to the number of 99 in case of SLAVE TEMP880 Make sure to connect the vertical section resistance 200Ω 1 4W in case of the TEMP880S or MASTER PC PLC etc Master Station TEMP880S Terminal Class 3 Ground SHIELD Vertical i t RTX RTX SG Class 3 Ground Vertical Terminal RTX RTX SG RTX RTX SG TEM...

Page 83: ...Communication Command having a code value 0x02 with a STX Start of Text which is a letter of Ascii 2 ADDRESS Indicate the ADDRESS which is a number of TEMP880S that you intend to communicate with 3 COMMAND COMMAND for Communication refer to 4 3 2 4 3 9 4 Divider Indicate the Divider which separates the Command and Data by comma 5 Data part Indicate the letter line which has a regular form of a let...

Page 84: ...f D Register RRD Random Read of D Register WSD Series Write of D Register WRD Random Write of D Register STD Random Registration of D Register CLD Call of D Register which is registered at STD Each Command can read or write D Register up to the number of 32 And it should be re registered after the power is on in case of STD CLD when its power source s off because the registered contents are initia...

Page 85: ...without a point of 16 number D ex In case of reading a D Register from Temperature PV D0001 to SP D0002 Transmission stx 01RSD 02 0001 cr lf Transmission including Check Sum stx 01RSD 02 0001C5 cr lf stx 0x02 cr 0x0d lf 0x0a In case the received value of each PV SP is 50 0 and 30 0 will be received as below Reception stx 01RSD OK 01F4 012C cr lf Reception including Check Sum stx 01RSD OK 01F4 012C...

Page 86: ...e number of Byte 1 2 3 1 2 1 4 1 4 1 S T Contents X Addr RRD OK dddd 1 dddd 2 1 4 1 4 2 1 1 C L dddd n 1 dddd n SUM R F The number of 1 32 dddd F Data without a point of decimal number 16 number D ex In case of reading the D Register of PV D0001 SP D0002 Transmission stx 01RRD 02 0001 0002 cr lf Transmission Including Check Sum stx 01RRD 02 0001 0002B2 cr lf In case the value of D0001 is 50 0 and ...

Page 87: ...tents X Addr WSD Number D Reg No1 dddd 1 1 4 1 4 2 1 1 C L dddd n 1 dddd n SUM R F Response The number of Byte 1 2 3 1 2 2 1 1 S T Contents X Addr WSD OK SUM C R L F The number of 1 32 dddd F Data without a point of decimal number 16 number D ex In case of using defrost SP D0100 and defrost time D0111 Reception stx 0101WSD 02 0110 0001 0002 cr lf Reception including Check Sum stx 01WSD 02 0110 000...

Page 88: ...ddr WRD Number D Reg No1 dddd 1 1 4 1 4 2 1 1 C L D Reg No n dddd n SUM R F Response The number of Byte 1 2 3 1 2 2 1 1 S T Contents X Addr WRD OK SUM C R L F The number of 1 32 dddd F Data without a point of decimal number 16 number D ex In case of using data to Outage Mode D0105 and Outage Time D0125 Transmission stx 01RRD 02 0001 0002 cr lf Transmission Including Check Sum stx 01WRD 02 0105 000...

Page 89: ...of Byte 1 2 3 1 2 1 4 1 4 1 S T Contents X Addr STD Numb er D Reg No1 D Reg No2 1 4 1 4 2 1 1 C L D Reg No n 1 D Reg No n SUM R F Response The number of Byte 1 2 3 1 2 2 1 1 S T Contents X Addr STD OK SUM C R L F Number 1 32 ex In case of registering PV D0001 laboratory temperature SP D0002 Transmission stx 01STD 02 0001 0002 cr lf Transmission including Check Sum stx 01STD 02 0001 0002B5 cr lf ...

Page 90: ...ter which is already registered at TEMP880S by STD Command Formate of Transmission The number of Byte 1 2 3 2 1 1 S T Contents X Addr CLD SUM C R L F Response The number of Byte 1 2 3 1 2 1 4 1 4 1 S T Contents X Addr CLD OK dddd 1 dddd 2 1 4 1 4 2 1 1 C L dddd n 1 dddd n SUM R F Number 1 32 dddd Data without a point of 16 number ...

Page 91: ...dication of a basic driving related information X D0100 D0199 FUNCTION Set up the driving related Information D0200 D0299 RESERVATION Set up the time and reservation functions D0300 D0399 IS Set up the inner signal D0400 D0499 ALARM Set up the Alarming and Time Signal D0500 D0599 PID P I D Setting D0700 D0799 COMM Indication of communication related information X D0800 D0899 OUTPUT Set up the Cont...

Page 92: ...D ON IS8 8 H TEMP RUN LD OFF 9 N TEMP RUN SOL V 10 L TEMP RUN 1 REF 11 HIGH DEFROST 2 REF 12 NORMAL DEFROST HIGH FAN 13 ROOM FAN 14 LOW FAN 15 N2GAS SYSERR DOSTSL DOSTSH DIDATA ERROR ERROR bit D0015 D0016 D0017 D0018 D0019 D0020 0 RELAY 1 RELAY 17 DI1 H TEMP OVER R TEMP OVER 1 RELAY 2 RELAY 18 DI2 H TEMP OVER R TEMP OVER 2 SYS ERR RELAY 3 RELAY 19 DI3 H TEMP BOUT R TEMP BOUT 3 RELAY 4 RELAY 20 DI4...

Page 93: ... D Reg Signs Contents D0021 PROC_TIME_H Operation time hour D0022 PROC_TIME_M Operation time min D0023 RUN_CYCLE Present repeating frequency D0024 TOTAL_CYCLE Total repeating frequency which is set up D0025 SET_SEGMENT_H Present segment setting time hour D0026 SET_SEGMENT_M Present segment setting time min D0027 RUN_SEGMENT_H Repeating frequency of a Segment which is on the process D0028 RUN_SEGME...

Page 94: ...h is for driving a Program D0109 DEFROST_CYCLE Set up defrost cycle D0110 DEFROST_SP Set up defrost temperature D0111 DEFROST_TIME Set up defrost time D0112 DEFROST Set up whether to use manual defrost 0 OFF 1 ON D Register related to Motions D Reg Signs Driving Contents Setting Value Contents RUN 1 PROG RUN HOLD 2 HOLD ON OFF STEP 3 SEGMENT STEP D0101 MODE STOP 4 PROG STOP STOP 0 Set up the STOP ...

Page 95: ... D0205 N_MIN Present time of TEMP880S min D0206 RUN_YEAR Reservation time of TEMP880S year D0207 RUN_MONTH Reservation time of TEMP880S month D0208 RUN_DAY Reservation time of TEMP880S day D0209 RUN_HOUR Reservation time of TEMP880S hour D0210 RUN_MIN Reservation time of TEMP880S min D0211 SET_YEAR Set up the time year D0212 SET_MONTH Set up the time month D0213 SET_DAY Set up the time day D0214 S...

Page 96: ...tting Error of D1000 D1003 D1010 HTEMP_TSP PT USED a pertinent pattern is the condition of PROG RUN D1011 NTEMP_TSP Normal temperature room TSP to read or write D1012 LTEMP_TSP Low temperature room TSP to read or write D1013 HTEMP_TIME High temperature room setting time to read or write D1014 NTEMP_TIME Normal temperature room to read or write D1015 LTEMP_TIME Low temperature room to read or write...

Page 97: ...tern at TEMP880S 1 Set up the program pattern at D1000 2 Set up data to record at D1010 D1031 3 Set up the WRITE TRIGGER 3 at D1003 4 Wait until it s DONE 1 after reading the data of D1004 4 4 4 4 Copy Delete of Pattern Insert Delete of Segment Copy of Program Pattern 1 Set up the original pattern No to copy at D1000 2 Set up the No of pattern at D1001 to copy the original pattern 3 Set up D1003 P...

Page 98: ... OH2 11 OTHER_STS DEFROST_TIME SET_YEAR IS2_DELAY_TM AL2_POINT OL2 12 IS_STS DEFROST_RLYOUT SET_MONTH IS2_BAND AL3_POINT 13 TS_STS SET_DAY AL4_POINT 14 AL_STS SET_HOUR IS3_TYPE PB3 15 SYS_ERR_STS SET_MIN IS3_HIGH AL1_HYS TI3 16 UO_STSSL RP1 IS3_LOW AL2_HYS TD3 17 UO_STSSH RP2 IS3_DELAY_TM AL3_HYS OH3 18 DI_DATA HTEMP_RDV IS3_BAND AL4_HYS OL3 19 ADERR_STS_L LTEMP_RDV 20 ADERR_STS_H RHY IS4_TYPE 21 ...

Page 99: ... FUNCTION RESERVATION IS ALARM PID NO 0 100 200 300 400 500 36 HTEMP_WSP IS6_BAND 37 LTEMP_WSP 38 IS7_TYPE 39 IS7_HIGH 40 IS7_LOW 41 IS7_DELAY_TM 42 IS7_BAND 43 44 IS8_TYPE 45 IS8_HIGH 46 IS8_LOW 47 IS8_DELAY_TM 48 IS8_BAND 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 ...

Page 100: ...dition of TEMP880S IM Sep 21 2005 Page 98 101 D Register 0000 0599 PROCESS FUNCTION RESERVATION IS ALARM PID NO 0 100 200 300 400 500 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 ...

Page 101: ...LOW_BIAS 10 LOW_ARW HTEMP_TSP 11 ROOM_FILTER NTEMP_TSP 12 HIGH_WSPDEV HIGH_FILTER LTEMP_TSP 13 LOW_WSPDEV LOW_FILTER HTEMP_TIME 14 NTEMP_TIME 15 RET1_SELECT HIGH_SH LTEMP_TIME 16 RET1_SH HIGH_SL HTEMP_WSP 17 RET1_SL 18 NORMAL_SH LTEMP_WSP 19 RET2_SELECT NORMAL_SL HTEMP_TS1 20 RET2_SH HTEMP_TS2 21 RET2_SL LOW_SH HTEMP_TS3 22 DO_DI5 LOW_SL NTEMP_TS1 23 DO_DI5OUT NTEMP_TS2 24 DO_DI5MODE DFR_SH NTEMP_...

Page 102: ...O 600 700 800 900 1000 1100 36 37 38 39 40 DO_IS1 PTNAME_WORD1 41 DO_IS2 PTNAME_WORD2 42 DO_IS3 PTNAME_WORD3 43 DO_IS4 PTNAME_WORD4 44 DO_IS5 PTNAME_WORD5 45 DO_IS6 46 DO_IS7 47 DO_IS8 48 49 50 DO_TS1 51 DO_TS2 52 DO_TS3 53 DO_DFR 54 55 DO_AL1 56 DO_AL2 57 DO_AL3 58 DO_AL4 59 60 61 62 63 64 65 66 67 68 69 70 DO_RUN 71 DO_RUNPARA ...

Page 103: ...0 72 DO_END 73 DO_ENDPARA 74 DO_HDON 75 DO_HDONPARA 76 DO_HDOFF 77 DO_HDOFFPARA 78 DO_RDON 79 DO_RDONPARA 80 DO_RDOFF 81 DO_RDOFFPARA 82 DO_LDON 83 DO_LDONPARA 84 DO_LDOFF 85 DO_LDOFFPARA 86 DO_ERROR 87 DO_ERRORPARA 88 DO_SOLV 89 DO_SOLVPARA 90 DO_1REF 91 DO_1REFPARA 92 DO_2REF 93 DO_REFPARA 94 DO_HFAN 95 DO_RFAN 96 DO_LFAN 97 DO_N2GAS 98 DO_N2GASPARA 99 ...

Page 104: ... Wonmi gu Buchon Gyeonggi do Korea 420 773 TEL 82 32 326 9120 9121 FAX 82 32 326 9119 http www samwontech com E mail webmaster samwontech com The contents of this document are subject to change without prior notice Printed in Korea Sep 2005 A All Rights Reserved Copyright ⓒ 2005 Samwontech Co Ltd ...

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