User Manual - SAMWONTECH
Contents
1. 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 23 176 SAMWONTECH 1 4 Display function and name gt TEMP2000M display part D Cover When the cover is opened the electric power switch inserting part of SD card and mini USB connection part are displayed 2 TEMP2000M display part electric power switch 3 SD CARD insertion part Use for SD CARD option 4 LED The yellow lamp is ON when the first electric power is ON 5 Screen display part 60 MINI USB Use by the user is impossible 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 24 176 SAMWONTECH 1 5 Control part LED gt COM LED blinks when the communication between display part and control part are connected gt COM2 LED blinks when the communication between control part and l O1 board is connected gt MV LED blinks depending on the control output for temperature A Main unit LED displaying the communication between display part and main unit Main output display LED Main and l O1 BOARD communication Electric power display LED display B Sub unit LED for displaying LED for is playing the communication between the OUT1 output main un2. COMI Display part control es part and cone a E El al OUT Cu OUT dl ET ST SSR SCR RET a TS SSR SCR RET NY NY i COM a I O board COND yu 65 OUT2 err OUT2 ioc d AL n JS SSR SCR RET al ae SSR SCR RET connection A AT ISN HBA Sub unit HET P INPUT Es B El i 4 e it er x SAT Ss E M INPUT 24V DC L El A B 8 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 16 176 SAMWON TECH 1 3 2 4 1 01 BOARD terminal Electric power 1 01 LINK n Communicatio terminal CNK rN rN RLY 1 EJ RETA I REYG AE Yo REY A REY e RA Een em m sm nc 1 3 2 5 1 02 BOARD terminal J 1 02 LINK yl PL D Page DEL 8 2014 2nd Edition of TEMP2000M_Series M A SAMWON TECH 1 3 3 Electric power wiring gt For electric power cable make wiring using the cable with equivalent performance of vinyl insulation cable KSC 3304 lt Wiring method for electric power of each unit E Sll AE Communicati on cable MPO310AS ell ISl miell 24V DC Communicati on ca
3. 00 03 02 DO CONFIGURATION 04 08 AM END SIGNAL Ere D ita 00 DELAY TIME 00 00 M S OPER TIME 00 00 M S PROG RELAY DELAY TIME 00 00 M S Fig 13 8 Other signal relay setting the 3 screen D Setting the stationary operation program operation termination relay and delay time operation timeWhen the use is set for the user button the corresponding button is displayed at the operation screen 5 FIX relay The set relay is ON when the stationary time set operation is terminated PROG relay The set relay is ON when the program operation is terminated Delay time The set relay is ON when the set delay time is passed Operation time The relay is OFF when the stationary or program termination signal relay is ON after the set operation time is passed 2 Setting the user button relay Y N for use of the button is set in 13 System initial setting When the user button is set the user can use the wanted relay by setting in 10 DO relay output and the set relay is operated when is pressed at the screen for stationary program stop operation and the corresponding button is displayed on the operation screen 3 Setting the HBA signal relay Table 13 10 Other signal relay setting the 3 screen parameter FX rlay BABS 0 PROG rly 0 322 A885 0 User button output relay 0 322 ABS 0 HBAsignarelay 0 322 A
4. Fig 11 6 Sensor input setting the 1 screen In case of DVC setting D It sets the digit under the decimal point Refer to Fig 11 9 Decimal point setting screen 2 It sets the scope of use for the voltage input sensor 3 SCALE upper limit lower limit It sets the display scale for the input voltage 2nd Edition of TEMP2000M Series IM April 8 2014 Page 90 176 SAMWONTECH gt One of five sensor types can be selected TY SENSOR INPUT SET 04 00 AM SENSOR RANGE RANGE HIGH 2 000 Y RANGE LOW 0 400 Y DISPLAY UNIT UNIT SELECT T Fig 11 7 Sensor type setting screen In case of DCV setting gt One of 12 units can be selected and used 00 03 02 _ Sil INPUT SET 0402 AN DOT POSITION PY WHEN S OPN DOT POSITION M QUNSET UP DOWN Fig 11 8 Display unit setting screen In case of DCV setting 2nd Edition of TEMP2000M Series IM April 8 2014 Page 91 176 SAMWONTECH gt Itis a screen to select the place of decimal point 00 03 02 L SENSOR INPUT SET 04 02 AM SENSOR RANGE RANGE HIGH RANGE LOW BIAS SENSOR FILTER SCALE HIGH SCALE LOW PY WHEN S OPN QQUNSET UP DOWN Fig 11 9 Decimal point setting screen In case of DCV setting Table 11 1 Sensor input setting the 1 screen parameter oetting range Unit Initial data rem TIC RTD DOY aas Sd TOKA TO TCAE TOS si TB 1635 Gat TC N TC U TC W TC PLA
5. THE DI3 ERROR OCCURRED DIA NAME THE DI4 ERROR OCCURRED DIS NAME THE DIS ERROR OCCURRED DIS NAME THE DIG ERROR OCCURRED DIT NAME THE DIT ERROR OCCURRED DIB NAME THE DI8 ERROR OCCURRED Fig 19 6 DI error name setting screen DI ERROR NAME SET CLR SP ENTER a Fig 19 7 Display name setting screen in case of DI occurrence Table 19 6 DI error name setting screen parameter Setting range Initial data DI 4n name 0 9 A Z Special character up THE Di n ERROR OCCURRED to 24 characters i DI 4m name 0 9 A Z Special character THE Di m ERROR OCCURRED to 42 characters tn 1 8 x m 9 16 2nd Edition of TEMP2000M Series IM April 8 2014 Page 142 176 SAMWON TECH 19 2 2 DI error occurrence photo setting gt Iit can be only set when display type is Picture gt If internal memory has photo file BMP Picture is displayed when DI error occurs gt With SD CARD option photos can be uploaded and please refer to the 20 User screen 11 07 08 PS CUSTOMER PICTURES SET 10 04 AM SD CARD MEMORY Dee A DID BMP wA DI2 BHP w DIT BMP 013 6MP DIM BMP O WEjDIA DP A DITZ BMP me G E B DIS BMP E DITS BMP wejDIG BMP m4 D114 BMP im O17 BMP wa D115 BMP A 013 BMP i DIT BMP 4 Fig 19 8 Display photo setting screen when DI error occurs 1 D 53 is inactivated si
6. The Y N button for use can be set in 21 System initial setting When the user button is used the relay wanted by user can be set and used in the 13 DO Relay setting Ex It is used for ON OFF of chamber output ON OFF 5 The set relay is operated when the User button is pressed in the stationary and program still operation screen It displays the stationary operation processing time 5 It is a button for operation stop 2nd Edition of TEMP2000M Series IM April 8 2014 Page 33 176 SAMWON TECH 5 FIX OPERATION STOP SP EED Mv E SP EED Mv GERE SP EZ Mv EED 50 0 TOC 1500 poes SP ELO Mv ED SP E Mv GENET SP ED mv GEIED 2000 e500 300 0 mum ovp Fig 3 5 Stationary operation the 1 operation screen 2 D t displays the user tag The setting for the user tag and name can be set in 7 1 Screen display setting gt itis the operation screen in case of 2 4 sub channels l 00 02 a way FIX OPERATION RUN 04 1 n S OPEN E EU sp E wy GEHL nETTI OPEN OPEN 2 le Fig 3 6 Screen for 2 channels of sub channel 00 s FIX OPERATION RUN METER cn OPEN S OPEN SP GD Mv SP D MV Gil S OPEN S OPEN Pu SP gt Mv GM sr GENS wv Guin UU UU ES UNNI __ PUN TIMESO000801M558 O Fig 3 7 Screen for 4channels of sub channel 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 384 176 SAMWONTECH 3 2 3 Stationary operation th
7. After calibration the current indicated value De ox a L 6 6 p N DAYA qp Uk d P d 2 a O 7 yo zd o A s gut INRL ID 27 Input Comp Input Comp Input Comp Input Comp Input Comp Input Comp Input Comp Input Comp INRH 4T Point 1 Point 2 Point 3 Point 4 Point 5 Point 6 Point 7 Point 8 Calculation method by Compensation Section D Compensated Temperature between Low Limit Input Comp Point 1 Section Actual Sensor Temperature Input Comp 1 Value 2 Compensated Temperature between Input Comp 1 Input Comp 2 Section Actual Sensor Temperature Actual Sensor Temperature Input Comp Point 1 X Input Comp 2 Value Input Comp 1 Value Input Comp 1 Value Input Comp Point 2 Input Comp Point 1 3 Compensated Temperature between Input Comp 2 Input Comp 3 Section Actual Sensor Temperature Actual Sensor Temperature Input Comp Point 2 X Input Comp 3 Value Input Comp 2 Value Input Comp 2 Value Input Comp Point 3 Input Comp Point 2 4 Compensated Temperature between Input Comp 3 Input Comp 4 Section Actual Sensor Temperature Actual Sensor Temperature Input Comp Point 3 X Input Comp 4 Value Input Comp 3 Value Input Comp 3 Value Input Comp Point 4 Input Comp Point 3 2nd Edition of TEMP2000M Series IM April 8 2014 Page
8. B Ground terminal shall be displayed Make the ground with the ground surface in case of product installation and manipulation C Supplement explanation shall be displayed AN The information to supplement the explanation is described NOTE D References shall be displayed ES lt describes the points to be referred and the reference page N Cautions in this instruction manual CAUTION A AUTO TUNING shall be delivered for the final user to keep always and it shall be kept in the place within the reach anytime B Use this product after full understanding on the auto tuning C AUTO TUNING is the description on the details of function of the product and the other points besides the auto tuning shall not be warranted D A part of whole part of auto tuning shall not be edited or copied for use E The description in auto tuning may be changed randomly without pre notice or warning F Even though this auto tuning is made with full effort it will be appreciated if you inform to the point of purchase Dealer shop in case of finding the deficiencies mistake and omission in the description 2nd Edition of TEMP2000M Series IM April 8 2014 Page 1 176 SAMWON TECH IN Safety and cautions in the modification Change CAUTION on the product Change on the product A Use this product after full understanding on the cautions Instructions for the safety in auto tuning for the protection and
9. button during operation The message is disappeared when the corresponding part is touched in case of display of the message showing the operation termination t is same with the program operation termination 5 FIX OPERATION STOP sp MESA MV 20 0 50 0 00 0 150 0 D Mv EE Sr GED Mv D Sp GED mv E roa 250 0 300 0 Lis ie iss Tis iss ise er oz a Fig 3 9 Stationary operation still screen 1 5 FIX OPERATION STOP sp MESA m GRE 250 0 50 0 quja a 150 0 200 0 250 0 300 0 Fig 3 10 Stationary operation still screen 2 2nd Edition of TEMP2000M Series IM April 8 2014 Page 36 176 SAMWON TECH 3 3 Program operation 3 3 1 Program operation the 1 still screen Select the operation method of Pattern in 4 Operation related motion setting gt When Operation state screen is selected in 3 1 Main screen it converts to Stationary operation the 1 still screen gt Refer to the 5 1 Program pattern setting for pattern setting gt Iit converts to Fig 3 13 Program operation the 1 operation screen when Operation button at the bottom is pressed in the Fig 3 11 Program the 1 still screen DISSE gt PROGRAM STOP EXPERIMENT OF PATTERN 1 oes PTN NO ja SP Eu Mv GREED SP sss MV ED SP essi Mv ED eoc c t3 eoc SP E Mv REED SP ED Mv aL 250 0 250 0 Rag dl gt Fig 3 11 Program operation the 1 still screen 1 gt When
10. 2 When Measure Point does not reach Wait Zone within Wait Time Set AA DIPL ETC TAE O Ei NERO L1 7 707 2 1500D Wait Zone Wait Zone bru EE EPEPLEM LEE A teal t het AAN Ji veo da eoe Hei I nA OPI I TAI Aq a eene ne rox eaa ce x d I nc 8s DR I e i sl ru yet ala la EEES A E i Release WAIT Operation WAIT Operation otep to the next Segment Actual Delay Time n1 progression Segment n Segment n 1 Segment n 2 2nd Edition of TEMP2000M Series IM April 8 2014 Page 68 176 SAMWONTECH 5 6 Experiment name setting gt The experiment name can be set to each pattern gt Refer to 3 3 2 Program operation the 1 operation screen 00 03 02 A PATTERN NAME SET 03 40 AM PATTERN NAME SET PATTERN 1 EXPERIMENT OF PATTERN 1 PATTERN 2 EXPERIMENT OF PATTERN 2 PATTERN 3 EXPERIMENT OF PATTERN 3 PATTERN 4 EXPERIMENT OF PATTERN 4 D PATTERN 5 EXPERIMENT OF PATTERN 5 PATTERN 6 EXPERIMENT OF PATTERN E PATTERN 7 EXPERIMENT OF PATTERN 7 PATTERN 8 EXPERIMENT OF PATTERN 8 Fig 5 11 Experiment name setting screen D The experiment name of each pattern can be input 2 It converts to the next or previous experiment name screen gt When Emi ami Name button is pressed the input key to set the experiment name is displayed 00 03 02 AS PATTERN NAME SET 0340 AN Fig 5 12 Experiment name input screen Table 5 6 Experiment name setting parameter Setting ra
11. 3 LCD brightness is controlled with button The buzzer sound which is created in DI error is not OFF even though it is set in non use 4 The user tag name can be set Maximum 6 digits can be set and the set tag shall be displayed on the operation screen 5 Refer to Fig 7 2 User tag name setting screen The pen name of graph pen related parameter setting is changed In case of sub channel of pen selection Refer to Fig 6 9 Graph amp Save setting the 4 screen 2 5 It moves to the next or previous screen 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 77 176 SAMWONTECH gt itis a screen to set the user tag name 00 03 02 A B en d ra on Bl je EE DISPLAY SET 03 51 AN 12 7 2 Setting of user tag name screen 4 7 1 Display set the e parameter Setting range Initial data foam siii iaa ie 799 MN jugum 0 9 A Z Special character ABS SUB CH n Maximum 6 characters xn 21 6 2nd Edition of TEMP2000M Series IM April 8 2014 Page 78 176 SAMWONTECH 7 2 DI error occurrence history view gt itisa screen to display the DI type date and time where the error is created Maximum 30 error history is displayed The earliest numbers out of the displayed errors are deleted when more than 30 errors are created and the created errors are added at the end z DI ERROR HISTORY i ERROR HISTORY Fig 7 3 DI error creati
12. D SCH1 ALT RLY sd AL2 RLY o ScH2 AL2 PLY o SCH3 AL2 RLY 0 sH AL2 PLY o SCHS AL2 ALY 0 SCH AL2 RLY o SCH2 AL1 RLY SCH3 AL1 RLY SCH4 AL1 RLY SCHI ALT RLY per p EN D v D p sCHB ALT RLY Fig 22 9 Sub channel control output setting screen D It sets the alarm signal relay in sub channel 2 t moves the screen to the next and previous screen Table 22 4 Sub channel control output setting screen parameter Setting range Initial data din lt can be set in 1 6 2nd Edition of TEMP2000M Series IM April 8 2014 Page 164 176 SAMWONTECH 22 5 2 Sub channel heater disconnection signal setting screen gt itis a screen to set the sub channel heater disconnection signal 2 DO CONFIGURATION SUB CHANNEL HBA SIGNAL D SCHI HBA RLY o sweumRY o SCH3 HBA RLY o SCHAHBARLY o SCH5 HBA RLY o smemamv o Fig 22 10 Sub channel heater disconnection signal setting screen D lt sets the Sub channel heater disconnection signal Table 22 5 Sub channel heater disconnection signal setting screen parameter Setting range Initial data x din lt can be set in 1 6 2nd Edition of TEMP2000M Series IM April amp 2014 Page 165 176 SAMWONTECH 22 6 sub channel communication environment setting 22 6 1 Sub channel communication setting gt It is a screen to select the necessary item for SYNC communication gt lt selects the sub channel communicatio
13. EME o AE o AE EEE EA AE EA AA EEE gt EEE By reece carey ME EA MEn EA EA DI2 ERROR OCCURRENCE 03 55 AM Fig 7 5 Screen of DI when error is displayed in photo 2nd Edition of TEMP2000M Series IM April 8 2014 Page 80 176 SAMWONTECH 3 Heater disconnection state gt itisa screen to display the heater disconnection creation WFP HEATER BREAK STATUS 03 58 AN HEATER BREAK ALARM MAIN CH D gt SUB CHI 8 P D Y SUB CH3 SUB cha B SUB CHS A SUB CHE Fig 7 4 Heater disconnection state creation When the heater is disconnected which is connected to the main and sub channel it is changed into It is the name of main and sub channel It displays the current data on the heater It moves to the next or previous screen DOO go 4 7 3 Display set the 2d screen parameter Setting range Initial data E disconnection electric current display 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 81 176 SAMWON TECH 8 Time setting gt itis a screen to set the current time and operation appointment time 6 CURRENT TIME amp RESERVE TIME SET te CURRENT TIME Fig 8 1 Time setting screen D It sets the year month day and time The present time cannot be changed during the recording of the measured data and operation 2 It sets the year month day and time for appointed operation 3 When Appointment button is pressed the
14. Non operation The fuzzy function is not used i Operation lt uses the fuzzy function and the overshoot is inhibited 4 It automatically increases or decreases with the set ratio in case of setting data change It is applied only in stationary operation The operation is terminated when the set time is coincided with the set data of total operation processing time in 3 2 2 Stationary operation the 1 operation screen It is available in stationary operation only 6 The key pad to input the password is display when the main button is pressed in the operation screen at the setting of the main button control is set Fig 4 2 Reference When Parsa key lock button is pressed every parameter is not available w The screen movement and key lock release is available 2nd Edition of TEMPZ000M Series IM April 8 2074 Page 49 176 SAMWONTECH H 4 1 Operation related motion parameter Setting range Initial value Operation method Pattern Stationary ABS a AA Stop Restart Continue ABS stop blackout Fuzzy function No motion Motion ABS oe EUS 0 00 100 00 MIN EUS MIN EUS 0 00 MIN change ratio operation 0 9999 HOUR E Minute O 59 MIN ABS Main button Non use Use ABS Non use restriction Key lock OFF ON ABS OFF gt The following screen is for the main button restriction setting of the main button gt The password setting key pad is displayed when the main button is pressed in operation scree
15. Sec OSec 5 sec bsec i A I 2s o PL sP 2nd Edition of TEMP2000M_Series IM April 8 2014 Page 100 176 SAMWON TECH 12 1 2 3 Over Integral Prevention gt itis one of efficient method to control when disturbance occurs zc This function suppresses overshoot due to over integral when control output reaches to max value gt it does not work when l 0 at PID set value When there is no Over Integral Prevention ARW function a Control Output MV Current PV NPV Target SP om de So PS e Ye Pa a e Y e so e e e oP 90 oo Starting Clearing Breaking up Disturbance Disturbance acumulated integral term NPV starts decreasing by external shcok In spite of clearing disturbance MV starts decreasing from Then it makes MV increase and reach to MV should be lasting 10096 by the peak point 10096 output generating acumulative integral term dissolving acumulatied integral term gt it takes time to dissolve the accumulated integral term even Disturbance is released and NOTE cause big Overshoot and take time for NPV to be stable When there is Over Integral Prevention ARW function a Control Output MV PV NPV Target SP i P BAND O E EE OACI AO a e otta eene e PEL e e ecc rr ee a Laos a Inverse calculation by ARW Starting Breaking up Disturbance Disturbance acumulated integral term NPV starts decreasi
16. Upload It means the transmitting the selected items out of the saved data in SD card to TEMP2000M Ptn The pattern set in 5 1 Program pattern setting can be downloaded or uploaded Para The set parameter can be downloaded or uploaded is All The pattern and parameter can be downloaded or uploaded 2 It displays current SD CARD capacity t is displayed when SD CARD is inserted 3 The BS Transmitting button is activated when the program and stationary operation are stopped and download or upload is available when Bm Transmitting button is pressed Table 6 3 Graph amp Save the 5 screen parameter Setting range Initial data Transmission item PTN Para All ABS direction 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 76 176 SAMWONTECH Screen display setting 7 1 Screen display setting gt itis a screen to set the font and to control the screen brightness to be displayed in operation screen queen DISPLAY SET BUZZER SOUND USER TAG QD UNUSE Quse SCHI NAME SUB CHI BACKLIGHT SAVING SCH2 NAME SUB CH2 oF tine i ww SOHS NAME SUB CH3 SCH4 NAME sue CHA SCH5 NAME SUB CHB Hil SCHB NAME SUB CHB Fig 7 1 Screen display setting the 1 screen D It sets the Y N of buzzer sound 2 The back light saving time can be set The power saving operation time sets the operation point of the back light OFF when there is no button control
17. 176 SAMWONTECH 22 3 Sub channel sensor input setting gt it selects the sensor input setting of sub channel in Fig 22 2 Sub channel system parameter setting screen gt Sensor setting shall be set at the first i JC Ie C 3 MB 2 9 SENSOR INPUT SET SUB CHANNEL pom a SENSOR TYPE OTHER PARAMETER a SENSOR FILTER O SEC 5 m SENSOR RANGE BIAS ENS 7 a RANGE HIGH 1970 0 c PY WHEN S OPN RANGE LOW 200 0 c UNSET QGuP QDON 9 T C DISPLAY 8 Qrc icHRIc RIC Fig 22 3 Input sensor setting the screen of sub channel In case of T C setting D It sets the input sensor of sub channel Refer to Table 22 2 Sensor No Parameter for the unit described with EU and EUS shall be changed proportionally with the current data in case of sensor change However the upper lower range setting data is initialized t cannot be changed during operation 2 It sets the scope of use for the set sensor The parameter related with EU and EUS such as auto tuning and alarm can be changed in its operation point and setting data at the changes of the Lower limit range RL and Upper limit range RH Refer to Table 22 1 Sensor input setting the screen parameter of sub channel 3 It sets the use non use of thermocouple t selects the use non use of RUC when the sensory type is T C 4 It selects the group of channel to be applied in case of parameter change Bit changes only the paramete
18. 5 Screen display part 5 7 inch EN NN play p ocreen display part 5 inch 1 01 Relay 12point Basic E TO Board LMO Relay 12point Basic 1 01 2 Relay 32point 3 SD card option s Communication RS232C RS485 Basic A 5 mE L5 TEMP oub channel 9 Sub channel LI L 0 2nd Edition of TEMP2000M_Series IM April 8 2014 Page G 176 SAMWON TECH 1 1 2 Check the packing contents gt Check whether the following contents are contained TEMP2000M SERIES TEMP2000M SERIES TEMP2000M SERIES Main body display part CONTROL PART Main CONTROL PART Sub O1 BOARD SD CARD 1 02 BOARD Cable 2m Cable 1m Cable 3m In case of In case of Fixing mount End bar PCecontrol CONTROL DISPLAY PART option selection option selection PARTS1 O1 control part Product for independent selling 2nd Edition of TEMP2000M Series IM Apri 8 2014 Page 4 176 SAMWON TECH 1 1 3 Processing of the damaged product gt Contact to the point of product purchase or sales department of our company when the product is damaged at the external inspection on the product as in the above or omission of the parts Exchange period for the parts with life span CAUTION pb Check the corresponding exchange period for the following life span part
19. DIB DETECTION A TYPE QB TYPE DI DETECTION A TYPE B TYPE DIS DETECTION A TYPE 3 B TYPE Setting range nitial data A contact point B contact point A contact point nN 1 16 2nd Edition of TEMP2000M Series IM April 8 2014 Page 138 176 SAMWONTECH gt Operation type for respective DI signals can be set gt 8 types of operation can be set DI1 DI16 are set 00 03 02 DI CONFIGURATION DIT OPERATION DIS OPERATION D ERROR 9 RUN STOP 8 D12 OPERATION e eERROR HD 4 PTN SELECT BY DI Fig 19 3 DI function and action setting the 3 screen D DI1 Operation type is set Error When DI1 error occurs Character or Picture is displayed according to display type When error is created it is displayed in Letter or Photo depending on the display pattern s Run Stop When DI1 error occurs run terminates in the point where error is cleared after run 2 DI2 Operation type is set Error When DI2 error occurs Character or Picture is displayed according to display type Hold When DI2 error occurs screen of current run is held and Hold is cleared in the point where error is cleared t can be only done in case of programmed run 3 DI3 Operation type is set Error When DIS error occurs Character or Picture is displayed according to display type lt Step When DIS error occurs it is compulsorily moved from current segment in progr
20. Even if it is set for 0 buzzer is alarmed in case of DI error occurrence f DI 1 2 3 Operation type is set for Run Stop Hold and Step buzzer is not alarmed However it is set for error buzzer is alarmed 3 Delay time of DI sensing is set When the physical DI contact is occurred it operates with DI input when the contact point is ON during the contact point setting time 4 It moves to next screen next or previous screen Table 19 1 DI function and operation setting the 1 screen parameter Parameter oetting range Display type character photo Buzzer duration time 0 00 99 59 MIN SEC DI sensing delay time 0 00 99 59 MIN SEC 2nd Edition of TEMP2000M Series IM April amp 2014 Page 137 176 SAMWONTECH gt DI sensing type is set DI CONFIGURATION DIT DETECTION QD A TYPE B TYPE DI2 DETECTION A TYPE 3 B TYPE DIS DETECTION A TYPE 3 B TYPE D14 DETECTION Qi A TYPE 3 B TYPE Fig 19 2 DI function and action setting the 2 screen D Corresponding DI sensing type is selected between A and B contact points A contact point Once DI contact point input is on it operates on condition that DI is input B contact point Once DI contact point input is off it operates on condition that DI is input 2 Move the page up down in current screen Table 19 2 DI function and operation setting the on screen parameter DIS DETECTION A TYPE 3 B TYPE
21. HIGH POINT 4 HYSTERESIS BE LOW POINT gt 5 Y C DELAY TIME HYSTERESIS DELAY TIME Fig 17 4 Alarming signal setting the2nd screen 3 D Alarming set value is set 2 Hysteresis which applies during alarming operation is set 3 If the condition of alarming signal is met actual alarm is generated after the time set for delay time is passed 4 Upper limit deviation value is set in case of deviation alarming 5 Lower limit deviation value is set in case of deviation alarming Table 17 2 Alarming signal setting the on screen Setting range nitial data Non use AH F AL F DH F DL F DH R DL R DO F DI F AH R Alarming n type ALA AH FS AL FS AB Non use DH FS DL FS DA Ro DE AS DO FS Di AH RS AL RS EU 100 0 Alarming n POINT EU 5 0 105 0 U Alarming n type not Deviation Alarm S Alarming n upper o limit POINT d EUS 100 0 100 096 Alarming n type S E EU Alarming n lower iati D A m eviation Alarm hysteresis Bald delay 0 00 99 59 MIN SEC 90 00 dn 1 4 2nd Edition of TEMP2000M Series IM April 8 2014 Page 127 176 SAMWON TECH 17 1 3 Segment alarming signal setting screen This is the screen for setting SEG alarming 8alarms can be set SEG alarming signal operation is carried out according to the setting in the alarming type the types of alarming amounts to 20 SEGMENT ALARM SIGNAL SET 04 31 AN SEG ALM1 TYPE SEG ALM2 TYPE TYP
22. IM April 8 2014 Page 85 176 SAMWON TECH The system parameter setting screen is as follows Gf SYSTEM PARAMETER SET Ko Input set na no UU Ua U 2 03 56 AM i INPUT SET NE ALARM amp HBA DI CONFIG a dia Y OUTPUT SET INNER SIGNAL ON OFF SIGNAL PID GROUP COMMUNICATION A A j 4 PICTURES VIEW INITIAL SETTING fr DO CONFIG Fig 10 3 System parameter setting screen Parameter setting related with input sensor type and sensor input Output set Parameter setting related with output type and output Inner signal Parameter setting related with inner signal ON OFF signal Parameter setting related with ON OFF signal Alarm amp HBA Parameter setting related with alarm signal and heater disconnection PID group Parameter setting related with PID Communication Parameter setting related with communication DO config Parameter setting related with I O board relay output signal DI config Parameter setting related with outside contact input signal Pictures view Parameter setting related with user BMP setting screen Initial set Parameter setting related with basic setting related with screen configuration Channel change c The wrong operation can be created when the setting data is changed into the wrong data inside the system setting screen m User screen setting It is activated with SD card option and inactiv
23. Insertion BN Deletion button are activated 03 23 AM nig INSERT T 02 SEGMENT 03 SEGMEN DELETE 200 0 200 0 200 0 200 0 TIMECH M S 000 01 00 001 00 01 00 00 01 00 00 01 omar 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 a a ur n po m v gr sa mtu emt 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 58 1 76 SAMWON TECH gt When setting data button is pressed the input key is displayed to set the setting data 777 PATTERN SET em T Hg pig INSERT gesc i I CLEAR ENTER 00 03 09 00 03 02 03 23 AM pig INSERT Desc ENTER A 4c gt When is 22 time signal button is pressed the input to set the time signal is displayed gt When TS button is pressed the time signal between TS1 TS8 can be set 2 PATTERN SET DT ru E pg iNSERT CMa NET 8A Cesc 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 59 176 SAMWON TECH gt When SEG alarming button is pressed the input key to set the SEG alarming is displayed 00 03 02 777 PATTERN SET 0323 AM Esos gig INSERT SSS gt When SEG PID pig INSERT i Q ESC ENTER EENS gt Input the time signal and SEG alarming by pressing ENTER button gt Select e ESC button in order to escape from the input screen The setting data in 5 4 Time signal
24. OFF signal operation is set 2 Middle SP in the ON OFF signal operation is set 3 Upper limit SP in the ON OFF signal operation is set 4 Operation point in upper limit zone is set 5 Operation point in lower limit zone is set Table 16 1 ON OFF signal setting Parameter Parameter Initial data T4n LOW SP EU 0 0 100 0 EU 0 0 Lower limit range lt CH1 T n LOW SP lt Tn T n MIDDLE SP MIDDLE SP EU 0 0 T n HIGH SP lt T n HIGH SP S Upper limit range EU 0 0 T n HIGH deviation EUS 0 0 10 0 EUS 0 0 Tun LOW deviation EUS 0 0 10 0 EUS 0 0 in 1 6 2nd Edition of TEMP2000M Series IM April 8 2014 Page 122 176 SAMWON TECH gt Explanation of HIGH LOW deviation operation c HIGH deviation operation Operation D Middle SP lt Present indication value PV Upper limit SP Present indication value PV 2 Present set value SP HIGH deviation Operation will be Present indication value PV lt Present set value SP HIGH deviation Operation will be zc LOW deviation Operation 2 Upper limit SP Present indication value PV lt Middle SP Present indication value PV Present set value SP LOW deviation Operation will be Present indication value PV lt Present set value SP LOW deviation Operation will be x Refer to the 16 2 ON OFF signal operation ON ORF QN OFF Page LOF TIO 2nd Edition of TEMP2000M Series IM April 8 2014 SAMWON TECH 16 2 ON OFF
25. Parameter oetting range Initial data 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 42 176 SAMWON TECH gt FIX and PROGRAM AUTO TUNING SEG m INRH INRL Indicates input sensor range c Threshold 1 4 Indicates threshold value of PID No c Auto Tuning Indicates PID No selected for Auto Tuning c Auto Tuning Set Point Indicates currently running Set Point Sheehan oe tac uA EQUI T QUIM E e x E Ue mote A E T AEPIAMIMI INNO oes tes EEEE EEL TESE Rae Me e enu LAGUNA pIG MIU A IQ ERR A Uer SR E Ap FIX OPERATION AUTO TUNING SEG INRH pho 11000 900 Thieshold4e sss Se ences tis e 1800 3650 Threshold oc E 5 Lepo Threshold Z pee 400 850 TRESNO pese seta ween pain maine 1200 F150 INRL ins PO A Auto 3 5 2 f A4 Tuning Auto Tuning PID No 1 3 5 ALGO ly PROGRAM OPERATION AUTO TUNING SEG Threshold2 Threshold 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 43 176 IN PRI SAMWONTECH 3 4 2 Auto tuning Zone PID type Ihe tuning is made with the target of the center point of boundary data in PID No group set in auto tuning parameter and the tuning data is saved into the set PID No The current setting data is changed into the auto tuning setting data when the auto tuning is performed c The SEG is held during program operation The current setting data is changed into previous setting data during auto tuning
26. SSR 24V DC 12V DC min 60082 min B Current output SCR oHIELD Control panel OUT TS OUT t The 3 class OUT2 QUI2 SCR 4 20mA DC 6009 max SHIELD Receiver Recorder and etc L The 3 class A 20mA DC 600 max 2nd Edition of TEMPZ2000M Series IM April 8 2014 Page 20 176 SAMWON TECH 1 3 3 3 3 Output Relay wiring for external connection point Please switch off the electric power and power supply to outside from the TEMP2000M main body certainly in case of wiring the external contact point output because there is an electric shock risk Connecting point output RELAY NORMAL OPEN under 30VDC 1A under 250VAC 1A Under 30V DC 1A under 250V AC 1A Under 30V DC 1A under 250V AC 1A 1 01 BOARD 1 02 BOARD NO NORMAL OPEN Under 30V DC 1A Under 250V AC 1A Under 30V DC 1A under 250V AC 1A NC NORMAL CLOSE Under 30V DC 1A Under 250V AC 1A RLY9 NC REYTING RLY9_NO RLY11_NO RLY10_NC RLY12 NC RLY10 NO RLY T2 NO COM COM 1 01 BOARD 1 01 BOARD 1 3 3 4 Input wiring for contact point DI Use the dry contact point for the external connection point Relay contact point Use the dry contact with sufficient opening and closing capacity for the terminal voltage About 5V in case of OFF and electric current About 1 mA in case of ON gt Use the both terminal voltage under 2V and under 100uA of leak current in case of contact point ON when the open collector is u
27. Te JPT A JPT B When sensor group is RTD 1 20MV 0 100MV When sensor group is DCV C EE RR RR io AL C F SPACE Pa kPa RH iS mV V amp Torr Kgf When sensor group is DCV 1 TC RJC HNO IC Ciena Ge HEDIS AUS RS When sensor group is T C Lower limit range lt Upper limit Lower limit range range EU EU 0 0 Inout calibration EUS 100 0 100 0 EUS EUS 0 0 a ee et SCALE upper limit 199 9 3000 0 C C 100 0 PP When sensor group is DCV SCALE lower limit lt SCALE upper 0 0 m limit SCALE lower limit When sensor group is DCV The upper limit lower limit for the sensor group sensor type upper limit lower limit of the scope display unit scale upper limit lower limit cannot be changed during operation ABS TOI When sensor group is T C 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 92 176 SAMWON TECH 11 1 2 Sensor input the 2 screen gt It calibrates the temperature range input gt Ihe range calibration is applied in the form of the equation of the first between the calibration points SENSOR PIECE BIAS 04 02 AN PIECE BIAS POINT VALUE a D PIECES 00 B 00 PIECE BIAS2 100 00 2 PIECE BIAS3 O PIECE Bl454 PIECE BIASS PIECE BIASB PIECE BIAS PIECE BIASB Fig 11 10 Sensor input calibration screen for each range D It sets the input calibration of the temperature 2 It sets the temperature at each b
28. creation the DI1 creation is neglected for 1 minute and DI error screen is displayed when DI1 creation state after 1 minute The neglect ion here means the DI error screen gt pue Buzzer blocking button is button to block the warning sound during DI error creation Ex Explanation on the lamp state x DI related lamp is ON in DI related error creation AMEN Character BEl Photo DI related lamp is OFF after DI error creation EA Si Character Bl Photo m M na n9 OW Ua UY DI ERROR OCCURRENCE ares EIS gt EEE GEES AE A EEE EEE HES CEI gt EEE EEE EEE EERE EEE GEE EEE na n9 VU Us U DI2 ERROR OCCURRENCE 03 55 AM Fig 19 13 Screen of DI when error is displayed in photo 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 145 176 SAMWONTECH 20 User screen gt The screen is displayed in SD CARD option only 20 1 User screen setting 20 1 1 User screen setting the 1 screen 00 03 02 EZ PICTURES VIEW SET eee VIEW OPERATION m UNUSE Quse coos a ROTATE TIME 2 START TIME 00 05 M S 3 INTERVAL TIME 00 05 M S Tu Fig 20 1 User screen setting the screen D It sets the use non use of the user screen The user screen is operated ON when more than one selected photo file exist inside the internal memory 2 It sets the user screen operation time he operation is started when there is no key input during the setting time 3 It co
29. it starts with start setting data SSP regardless of starting condition STC 5 It sets the segment to terminate the partial repetitive operation out of set pattern It sets the repetition frequency of partial repetitive operation out of the set patterns C It displays the experiment name of the set pattern m The change of experiment name is available only in 5 6 Experiment name setting The change is impossible as it is only for reading It sets to decide the next motion when the set pattern operation is terminated Operation stop The pattern termination signal is created and the program stops w SEG hold It is operated with the last operation s1 and the holding state is maintained Connection operation The pattern which is set the connection pattern is operated Table5 2 Repetition setting parameter Setting range Initial data Repetition frequency 0 Infinite repetition 999 ABS Motion in pattern termination e a E oe ABS Operation stop Continuous operation segment for starting of the 0 99 ABS repetition setting 1 4 Termination segment of 2 ABS repetition setting 1 4 Repetition frequency 1 4 ABS setting 2nd Edition of TEMP2000M Series IM April 8 2014 Page 61 176 SAMWONTECH 5 3 File editing gt itis a screen to copy or delete the segment data input to the pattern in 5 1 Program pattern setting gt The pattern No under operation cannot be deleted The deleted pattern cannot be reco
30. locked fully by pushing the lower part Main unit oub unit Main BACK COVER ASSY oub BACK COVER ASSY Main body sub body Check whether the hook is fully assembly after assembling the product main body to the back cover assembly There is a big possibility of communication function disorder when it is incompletely assembled 2nd Edition of TEMP2000M Series IM April 8 2014 Page 13 176 SAMWONTECH 5 Fix by inserting the fixing unit for each unit not to be separated as shown in the figure Fixing unit TEMP2000M l 2000M W EN P20C00NM COM MV Mi TXIRX y MV1 TURX SAMWON TECH 2nd Edition of TEMP2000M Series IM April 8 2014 Page 14 176 SAMWON TECH 1 3 Wiring IN Cautions CAUTION y Switch off the main power of every supplied gauge and wire after checking with the tester whether the electric power on the wiring cable is on gt Do not contact with the terminal absolutely because there is a possibility of electricity after switching on Make wire connection after switching off on the wire certainly 1 3 1 How to wire 1 3 1 1 Recommended specification for electric power cable gt Vinyl insulated cable KSC 3304 0 9 2 0 mm 1 3 1 2 Recommended specification for terminal gt Use the insulated sleeve attached pressured terminal which is proper for M3 screw as shown in the figure Over 3 0mm Over 3 0mm Under 5 8mm Under 5 8mm 1 3 1 3 Measure for the no
31. motion can be input to the wanted time signal group by pressing TS1 TS8 button Table 5 1 Pattern editing parameter Initial data TPV SPV SSP ABS TPV Starting condition SSP EU 0 0 100 0 EU 0 0 Segment n Target SP n EU 0 0 100 0 n EU n EU 0 0 00 00 01 OFF 999 59 59 Hour ABS 00 00 01 Min Sec segment n SEG alarming 1 segment n time segment n SEG PID 0 Time signal No 8 shall not be used when electric output setting data is used for sub output x din 1 99 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 60 176 SAMWON TECH 5 2 Pattern repetition setting gt itis a screen to set the function for the entire set pattern or partial repetition gt In addition the motion can be set in pattern operation termination M MM UU ua Ue m REPFAT SET 00 03 02 PATTERN SELECT O PATTERN NO 7 PATTERN REPEAT E REPEAT COUNT 3 LINK PATTERN SEGMENT REPEAT NO 1 4 START SEGMENT o 5 END SEGMENT RE 6 REPEAT CUNT o Fig 5 3 Screen for repetition setting of pattern and segment D The pattern No to perform the repetition operation is set 2 It sets the repetition operation frequency of the set pattern S It sets the pattern No to be operated continuously at the termination of operation for the set pattern 4 It sets the segment to start the partial repetitive operation out of the set patterns When the starting segment is 1
32. operation is started at the appointed time When Appointment button is pressed the appointed time is displayed on the operation screen as in the Fig 8 2 Operation appointment setting screen a n9 OW E Fa p D V PROG RESERVED EXPERIMENT OF PATTERN 1 SIE pra No UN soo GED wn 25 0 S O0OPEN S OPEN 0 0 SP aT Mv REO sp D mv GG sP D mv D 0 0 0 0 0 0 Fig 8 2 Operation appointment setting screen 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 82 176 SAMWON TECH Table 8 1 Appointment UTER THERE NERIS setting parameter Parameter Setting range range Initial data NCCM NN NNNM RC RNC Present time m m e gt m wm el m e fese HEEL e IC ww el 5 operation Www vs e Appointment Click for appointment AM12 00 AM 00 00 PM12 00 PM 12 00 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 83 176 SAMWON TECH 9 Communication error When communication between display and control unit is wrong the message like the Control part was disconnected is displayed in Fig 9 1 Control Unit Communication error screen gt When communication between display and I O board communication is wrong the message like I O board was disconnected is displayed in in Fig 9 2 I O board Communication error screen a PROGRAM STOP EXPERIMENT OF PAT
33. parameters in currently selected channel gt Edi changes every channel parameter simultaneously 4 It moves the screen to the next and previous screen 5 It moves to the corresponding channel in case of parameter setting 6 It selects the type of the set alarm signal 2nd Edition of TEMP2000M Series IM April amp 2014 Page 169 176 SAMWONTECH gt it changes every channel parameter simultaneously ALARM SIGNAL SET SUB CHANNEL ALARMT TYPE ALARM2 TYPE TYPE SELECT OFF TYPE SELECT OFF Fig 22 17 Sub channel alarm signal setting the 2 screen 3 Table 22 8 Sub channel alarm signal setting screen parameter Setting range Initial data Non use AH F AL F DH F DL F DH R DL R DO F DI F AH R AL R AH FS AL FS CH n alarm m Upe DH FS DL FS DH RS DL RS DO FS DI FS AH RS AL RS x d1n 1 6 dm 1 2 2nd Edition of TEMP2000M Series IM April 8 2014 Page 170 176 SAMWONTECH 22 3Sub channel heater disconnection alarm signal setting gt Itis a screen to set the sub channel heater disconnection alarm signal POINT DEAD BAND Fig 22 18 Heater disconnection alarm signal screen 1 D It displays the current data on the heater 2 t sets the electric current data to generate the alarm by recognizing the heater disconnection 3 It sets the blind zone when the heat disconnection alarm is operated 4 It selects the group of channel to be applied in case of p
34. screen parameter Setting range Initial data 2nd Edition of TEMP2000M Series IM April amp 2014 Page 108 176 SAMWONTECH 13 1 5 Manual signal Arithmetic signal relay setting screen gt lt sets the relay No for the manual signal gt itis used when the arbitrary relay is output with manual key or communication a PUMP PPP M y HANDAL SIGNAL ETE O MANT RELAY MAN RELAY MAN2 RELAY MANG RELAY MANS RELAY MANS RELAY aos o o MANA RELAY MANIO RELAY 0 0 MANO RELAY MAN11 RELAY MANG RELAY MANT2 RELAY MANT MAN2 MANS MAN4 MANS MANG MAN MANO MANS MANTO MANT1 MANT2 Fig 13 5 Manual signal setting screen D It sets the relay No 2 It sets the relay of the corresponding No in ON manually Key operation The output of relay No 5 is ON when Manual 1 button is pressed after inputting 5 in manual 1 relay column 3 It moves the page up down Table 13 5 Manual signal setting screen parameter Setting range Initial data 2nd Edition of TEMP2000M Series IM April amp 2014 Page 109 176 SAMWONTECH gt itis a screen to set the arithmetic relay signal gt The arithmetic signal can be set up to 3 7 DO CONFIGURATION a LOGICAL SIGNAL 1 D OUTPUT RELAY o OPERAND O SOURCE RELAY E Pa SOURCE RELAY2 LOGICAL SIGNAL OUTPUT RELAY OPERAND ano M SOURCE RELAY E NN SOURCE RELAY2 0 LOGICAL SIGNAL 3 E OUTPUT RELAY TUM OPERAND
35. setting data is initialized t cannot be changed during operation 2 It determines the type of input sensor The setting screen is displayed Fig 11 2 Sensor type setting screen In case of T C setting z Refer to Table 11 1 Sensor input setting the 1 screen parameter 3 It set the display unit The setting screen is displayed like Fig 11 3 Display unit setting screen In case of T C setting Refer to Table 11 1 Sensor input setting the 1 screen parameter It sets the use non use of thermocouple t selects the use non use of RUC when the sensory type is T C It moves to Fig 10 1 Main screen 6 It sets the scope of use for the set sensor The parameter related with EU and EUS such as auto tuning and alarm can be changed in its operation point and setting data at the changes of the Lower limit range RL and Upper limit range RH Refer to Table 11 1 Sensor input setting the screen parameter D It moves from present screen to the next screen Input calibration BIAS function t calibrates the temperature input deviation 9 Sensor filter t sets the sensor filter time when the high frequency noise is included into input signal The operation direction for the PV Present Value is set in case of sensor disconnection lt moves to Fig 10 3 System parameter setting screen nd Edition of TEMPZ000M Series IM April 8 2074 Page 88 176 SAMWONTECH SENSOR
36. the pattern repetitions state Pattern repetition frequency 000 000 The front digits show the repletion frequency and the rear digits show the set repetition frequency 7 The No of PID zone is expressed which is being adopted currently It displays the processing time and setting time of the segments which are being progressed s SEG time 000H00M008 000H00M00S The time in the front means the segment processing time and the time in the back means the setting time in the 5 1 Program pattern setting 9 It means current date time and the LCD screen blinks when it is pressed The red lamp is ON when the date time button is pressed on the operation still screen The green lamp is ON when the date time button is pressed on the operation screen It moves to the Fig 3 1 Main screen The key pad to input the password is displayed at the main button restriction setting 4D It moves from the current screen to the other screen 42 The partial repetition state is displayed SEG repetition frequency 00 00 The front digits show the repeated processing frequency and the rear digits display the set repetition frequency 43 The program operation processing time is displayed 2nd Edition of TEMP2000M Series IM April 8 2014 Page 38 176 SAMWONTECH gt lt is the screen for measured data setting data control output quantity and sub channel tag name gt The pattern No cannot be set during operation SP ED Mv enki S
37. 00 00 00 60160 00 00 00 00 00 00 00 Midi 0000 0000 0000 0000 gt When the Pattern No is touched in the screen the input key is displayed for pattern number input Q6 non 00 03 U FATTE SET 03 21 AM ENS alg INSERT CW CARMTMET AN CAAT 84 1 6 BS AA 00 1 gcrear i I 0 a a _ M DA 200 0 200 0 200 0 00 01 00 001 00 01 00 00 01 00 00 01 r se 00 00 00 00 00 00 00 00100 00 00 00100 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 60 00 oe 0000 0000 0000 0000 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 5 176 SAMWON TECH gt It is the screen for the start condition with SPV PATTERN SET PTN NO START CODE gig INSERT SEMEN U Sc acr D SEGMENT 03 sEGMENI 04 gt 200 0 200 0 200 0 200 0 1 M S 000 01 00 001 00 01 00 00 01 00 00 01 vu 00 00 00 00 00 00 00 00100 00 00 00100 00 00 00 i 60 00 00 00 00 00 00 00 00 00 00 00 00 00 00 OO 0000 0000 0000 0000 gt It is the screen for the start condition with SSP PATTERN SET alg INSERT WEN mp SE LIV y 12 i QNI r 4 esr Or mN TES ml PAPA 200 0 200 0 200 0 200 0 pue 444004 000014 0000 id 00000 sy 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 pl p mane p nm oc e a prn pnm rmn amt gt When this is inactivated l
38. 000 00 00 TST7CHOUR MIN SEC DELAY TIME OPER TIME DELAY TIME OPER TIME DELAY TIME 000 00 00 000 00 00 DELAY TIME 000 00 00 000 00 00 OPER TIME OPER TIME Fig 5 8 Time signal setting the 3 screen fS TIME SIGNAL SET TST8CHOUR MIN SEC 000 00 00 000 00 00 TSTSCHOUR MIN SEC 000 00 00 000 00 00 TS20C HOUR MIN SEC 000 00 00 000 00 00 DELAY TIME OPER TIME DELAY TIME OPER TIME DELAY TIME OPER TIME e C Fig 5 9 Time signal setting the 4 screen D The time signal is ON after the setting time from the corresponding segment starting point till the delayed time However the time sign is not ON when the delay time is bigger than corresponding segment time 2 The time signal operated in ON by the delayed time in the corresponding segment is ON only for the setting time in the operation time However when Delay time Motion time is bigger than corresponding segment time the time signal is ON during corresponding segment operation and it does not make influence on the next segment Table 5 4 Time signal parameter Setting range Initial data 000 00 00 OFF oe Min m mm 000 00 00 OFF 999 59 59 Hr Min Sec Operation time ABS 000 00 00 2nd Edition of TEMP2000M Series IM April 8 2014 Page 65 176 SAMWON TECH 5 4 3 Examples of operation when the input time signal oetting Time signal operation O
39. 000M Series IM April 8 2014 Page 161 176 SAMWON TECH 22 4 Sub channel control output setting gt itis a screen to set the parameter related with the control output setting of the sub channel gt It selects the control output setting of sub channel in Fig 22 2 Sub channel system parameter setting screen 00 03 02 n 90 MN CONTROL OUTPUT SET SUB CHANNEL Y 04 38 AM 4 OUTPUT TYPE OUTPUT RATE SET DIRECTION BOW Ba IE 6 2 rev Qro D TEN PRESET OUTPUT a AA 2 ERES 9 Fig 22 7 Sub channel control output setting screen 1 D It sets the output type of the selected sub channel output terminal 2 It sets the operation method of PID control m Refer to 12 1 2 1 Operation direction 3 It sets the period for control output operation in case of SSR SOLID STATE RELAY control output 4 lt selects the group of channel to be applied in case of parameter change EX It changes only the parameters in currently selected channel S it changes every channel parameter simultaneously 5 It sets the increasing change rate of the output when the control output is increased 6 It sets the decreasing change rate of the output when the control output is decreased D It moves to the corresponding channel in case of parameter setting It disconnects the output by PID and sends the output in emergency in case of STOP and S OPN 9 lt sets the excessive integration prevention ratio Data which are adopted in operation of
40. 1 00 03 02 DI CONFIGURATION 04 33 AM DIT SIGNAL D13 SIGNAL ETE OPERATION ERR STOP A OPERAT ON ERR STOP iM dm ERR STOP TM STOP DI 2 SIGNE TGNAL OPERATION R ERR STOP KA SETTING DI ERROR SCREEN OPERATION STATUS Fig 19 5 DI function and action setting the 4 screen 2 gt DI Operation type Error Stop When DI error occurs DI error screen is displayed and Run stops Time Stop When DI error occurs DI error screen is displayed and Run stops after delay time to be set Error Run When DI error occurs DI error screen is displayed and current Run status is maintained Run When DI error occurs DI error screen is not displayed and current Run status is maintained Status indicating lamp and error signal is generated in the Run the 2 screen Table 19 5 DI function and operation setting the 4 screen parameter Setting range Initial data Error Stop Time Stop Error Run Run Error Stop DI n signal x n 1 16 2nd Edition of TEMP2000M Series IM April 8 2014 Page 141 176 SAMWONTECH 19 2 DI error name 19 2 1 DI error name setting gt Iit can be only set when display type is Character gt This is the screen for inputting DI error name gt Di error name can be input up to 24 characters 00 03 02 O DI ERROR NAME SET DA 33 AM DI ERROR NAME DIT NAME THE DIT ERROR OCCURRED DI2 NAME THE DI2 ERROR OCCURRED DI3 NAME
41. 2 PID1 auto tuning setting data Lower limit range Boundary data2 Boundary datal 2 PID2 auto tuning setting data Boundary datal Boundary data3 Boundary data2 PID3 auto tuning setting data Boundary data2 gt Boundary data4 Boundary data3 2 PID4 auto tuning setting data Boundary datas Upper limit range Boundary data4 2 PID5 auto tuning setting data Boundary data4 Upper limit range Lower limit range PID6 auto tuning setting data Lower limit range 3 2nd Edition of TEMP2000M Series IM April 8 2014 Page 46 176 SAMWONTECH 3 5 Sub channel auto tuning gt itis a screen for auto tuning of the sub channel gt The sub channel processes the tuning with set SP Y PROGRAM RUN EXPERIMENT OF PATTERN 1 MEAN s oc m GER oo TE 03 16 AM SP OD mv ELO sp GED mv GIC S OPEN PEN UU D SP GNIS mv of coll oo 00 00 A D D DB oo 0 EMO Se E SUB CH3 f 2000 03 02 03 14AM 2000 03 02 04 15AM Fig 3 19 Screen set with sub 2 tuning D The auto tuning is performed or released with current setting data 2 t selects the main or sub sub channel which will perform the auto tuning c The corresponding sub channel is set and the auto tuning is processed PROGRAM RUNT EXPERIMENT OF PATTERN 1 RUN 03 16 AM sp oO MV i AUTO TUNING SP Ge awe BHHHD Good 2000 03 02 03 14AM 2000 03 02 04 15AM Fig 3 20 Screen of processing of au
42. 94 176 SAMWON TECH 5 Compensated Temperature between Input Comp 4 Input Comp 5 Section Actual Sensor Temperature Actual Sensor Temperature Input Comp Point 4 X Input Comp 5 Value Input Comp 4 Value Input Comp 4 Value Input Comp Point 5 Input Comp Point 4 6 Compensated Temperature between Input Comp 5 Input Comp 6 Section Actual Sensor Temperature Actual Sensor Temperature Input Comp Point 5 X Input Comp 6 Value Input Comp 5 Value Input Comp 5 Value Input Comp Point 6 Input Comp Point 5 7 Compensated Temperature between Input Comp 6 Input Comp 7 Section Actual Sensor Temperature Actual Sensor Temperature Input Comp Point 6 X Input Comp 7 Value Input Comp 6 Value Input Comp 6 Value Input Comp Point 7 Input Comp Point 6 Compensated Temperature between Input Comp Input Comp 8 Section Actual Sensor Temperature Actual Sensor Temperature Input Comp Point 7 X Input Comp 8 Value Input Comp 7 Value Input Comp Value Input Comp Point 8 Input Comp Point 7 9 Compensated Temperature between Input Comp Point 8 High Limit Section Actual Sensor Temperature Input Comp 8 Value 2nd Edition of TEMP2000M Series IM April 8 2074 Page 95 176 SAMWONTECH 12 Control 4 Transmitting output 12 1 Control output setting 12 1 1 Output setting the 1 screen gt Iit sets the output type for temperature contro
43. A 2nd Edition of TEMP2000M Series IM April amp 2014 Page 131 176 SAMWONTECH 18 PID Group 18 1 PID application scope setting 18 1 1 PID application scope setting the 1 screen gt This is made up of 6 PIDs gt Light green color is displayed in corresponding PIP number during stationary FIX and programmed run Su PID RANGE SET 04 31 AM PID RANGE RNG LOW REF HY S RNG HIGH DEY PID MEE I REF P4 60 0 80 0 TUNING POINT TUNING POINT Ene pal Fig 18 1 PID application scope setting the screen gt Upper limit range Lower limit range displays zone for all span t is only for reading so it is impossible to change gt Limit HYS sets hysteresis width when selects PID group in zone PID gt deviation PID sets deviation when selects deviation PID gt Boundary datal 4 sets boundary data dividing zone PID for all span gt Tuning reference value sets auto tuning point applied in auto tuning D Pushing the number leads to corresponding PID group setting screen c Pushing button leads to PID group setting screen 2 It moves the page up down on the current screen 2nd Edition of TEMP2000M Series IM April 8 2014 Page 132 176 SAMWON TECH Table 18 1 PID group setting the 1 screen parameter Initial data Lower limit range Boundary datal Lower limit range Upper limit range 5 Lower limit range Boundary data2 EU 0 0 100 0 2 Lower limit rang
44. ALI 90 Example gt INPUT T C K2 gt RANGE 200 00 C RL 1370 00 C RH A AN cic ing EU O 100 200 00 1370 00 C 585 00 C EU 100 100 1770 00 1370 00 200 000 EUS 0 100 0 1570 00T 785 00 EUS 100 100 1570 00 1570 00 2nd Edition of TEMP2000M_Series IM April 8 2014 Page 176 176 SAMWON TECH SAWON SAMWONTECH CO LTD Contact to the sales department for questions for 203 dong 03 ho Bucheon Technopark product and technology consulting 192 Yakdae dong Wonmi gu Bucheon City Gyeonggi do TEL 82 0 82 920 91 20 FAX 82 0 32 326 9119 http www samwontech com E mail webmaster osamwontech com This instruction manual may be changed without prior notice The first edition was issued in Dec 2011 This instruction manual shall not be copied re edited and transferred in any type partially or entirely without permission from Samwon Tech
45. AM PID GROUP COMMUNICATION INITIAL SETTING 22 2 Sub channel system parameter setting screen 2nd Edition of TEMP2000M Series IM April 8 2014 Page 155 176 SAMWON TECH Parameter setting related with input sensor type and D sensor input of sub channel OUTPUT SET Parameter setting related with output type and output of sub channel ALARM amp HBA Parameter setting related with alarm signal and heater disconnection of sub channel PID group Parameter setting related with PID of sub channel Communication Parameter setting related with communication of sub channel DO CONFIG Parameter setting related with I O board relay output Signal of sub channel INITIALSET TING sub channel initial setting Channel change Refer to Fig 22 1 Sub channel parameter setting screen with setting the system parameter in main or sub channel 22 2 oystem parameter setting procedure gt The system parameter setting procedures which shall be preferentially treated in product installation are INPUT SET as follows D Temperature sensor tie setting 2 Sensor use scope setting 3 Other parameter setting CD Output type setting 2 Output direction setting 3 Other parameter setting PAGE 156 OUTPUT SET pa DO CONFIG DO CONFIG Parameter setting PAGE 163 Parameter setting PAGE 165 PAGE 161 2nd Edition of TEMP2000M Series IM April 8 2014 Page 156
46. BS 0 The relay No 13 32 can be used when I O2 BOARD option is added Table 13 11 Definition of relay operation time for each signal In case of deleting the message by touching the screen Operation until the set relay Termination signal In case of deleting the message by touching the screen Operation until screen Error signal In case of recovery after the set relay operation time Operation until recovery Sensor after creation time disconnection signal Standby signal In case of recovery during the set relay operation time Operation until the set relay after creation operation 2nd Edition of TEMP2000M_Series IM April 8 2014 Page 114 176 SAMWON TECH 13 3 UP SOAK DOWN Signal Operation gt Input Sensor Temperature K2 Range 200 00C 1370 00 C gt Up Down Signal Range gt EUS 0 EUS 1096 0 00 20 00 Up Soak Down Relay Operation according to Set Value gt Operation Type Pattern Operation gt Up Temperature D D gt Soak Temperature gt 2 Minute gt Down Temperature gt 02 gt Fix Operation Temp Up Do not use Change Relay Output Rate Operation Temp Soak Relay Output Temp Down Relay Output gt Operation Type gt Fix Operation gt Up Temperature OZ G gt Soak Temperature gt 2 Minute gt Down Temperature 900529 t 19 gt Fix Operation Do not use Change Rate Operation Temp Up Relay Output m Soak Si
47. E SBAL 1 7 SEAL 2 E SEHBA Fig 21 3 System initial setting the 2 screen 2nd Edition of TEMP2000M Series IM April amp 2014 Page 153 176 SAMWONTECH 21 3 Initial screen operation gt Initial screen when the power is ON Display pattern Letter gt Refer to 2 1 Basic operation flow diagram SAMWONTECH CO LTD TEL 82 32 326 91 20 HTTP WWW SAMWONTECH GOM WELCOME u for purci ng Furnace controller pro after read instruction manual for safety to contact t Fig 21 4 Initial screen 1 gt Initial screen when the power is ON Display pattern Photo The controller leader of the 21st centur Fig 21 5 Initial screen 2 2nd Edition of TEMP2000M Series IM April 8 2014 Page 154 176 SAMWON TECH 22 Sub channel setting 22 1 Sub channel system parameter setting screen The system parameter setting screen is as follows YO SYSTEM PARAMETER SET INPUT SET m e ON OFF SIGNAL OUTPUT SET ALARM amp HBA DI CONFIG m DO CONFIG Fig A 00 03 02 CH Y 03 58 AM a A INNER SIGNAL PID GROUP a gt d w 4 y E EU PICTURES VIEW INITIAL SETTING COMMUNICATION 22 1 System parameter setting screen gt The sub channel system parameter changed with amp is as follows Gf SYSTEM PARAMETER SET SUB CHANNEL em E S INPUT SET OUTPUT SET ms ALARM amp HBA DO CONFIG Fig AN no no UU Ua Ue 04 36
48. E SELECT OFF TYPE SELECT oF Md Fig 17 5 SEG alarming signal setting screen Table 17 3 SEG alarming signal setting screen Setting range nitial data Non use AH F AL F DH F Non use DL F DH R DL R DO F DI F AH R AL R EU 100 096 alarming n type not DO F DI F DO FS and DI FS SEG alarming n type SEG alarming n POINT EU 5 0 105 0 not DO F DI F DO FS and DI FS SEG alarming n lower limit POINT SEG alarming n EUS 0 0 100 0 hysteresis SEG alarming n 0 00 99 59 MIN SEC delay time x n 1 8 EUS 0 5 00 00 SEG alarming n EUS 0 0 Upper limit POINT EUS 100 0 100 0 alarming n type 2nd Edition of TEMP2000M Series IM April 8 2014 Page 128 176 SAMWON TECH Q 2 D Y IA gt 3 Q F lt O D l i Standby Alarming type Output direction elo e Non Deviation Forward Reverse Hee B E Deviation High Limit W Deviation Low Limit M B Deviation High Limit BH HM Deviation Low Limit M M cane el Deviation Range muuz fe Deviation Range Display Limit ARE AL F DH F DL F DH R DL R High Limit Point Low Limit Point DO Q m AH R AL R AH FS AL FS DH FS DL FS DALES DL RS High Limit Point Low Limit Point High Limit Point Low Limit Point Deviation High Limit Mm E Deviation Low Limit M E Deviation High Limit B Y E Deviation Low Limi
49. EGMENT 600 END PATTERN Fig 5 5 File editing screen 2 Table 5 3 File editing parameter e pa e 13 Copy memes oo Copy Non use Use Non use Selective Startpattem oso ass o Refer to Table 5 4 for message expression Table 5 4 Message expression Contents of message Explanation io Stored erie seco It is displayed to copy when A is stored into the pattern od ein ci n It is displayed when the selected pattern copy is completed The deletion of the selected pattern was It is displayed when the selected pattern is deleted completed completely The deletion of every pattern is It is displayed when every pattern is completely deleted completed The pattern to be copies is being used It is displayed when the pattern is being used 2nd Edition of TEMP2000M Series IM April 8 2014 Page 63 1 76 SAMWONTECH 5 4 Time signal operation gt The time signal motion is classified into ON OFF Motion time setting motion and the set time signal is used for time signal No setting in the segment setting of 5 1 Program pattern setting 5 4 1 Time signal ON OFF Motion UD TIME SIGNAL SET 000 00 10 TIME SIGNAL O TSSCHOUR MIN SEC O DELAY TIME DELAY TIME 000 00 00 OPER TIME OPER TIME 000 00 00 TIME SIGNAL 1 TS4 HOUR MIN SEC DELAY TIME DELAY TIME 000 00 00 OPER TIME OPER TIME 000 00 00 TS2 HOUR MIN SEC TS5 HOUR MIN SEC DELAY TIME 000 00 00 DELAY T
50. IATION se o DELAY TIME 00 00 H M OPER TIME 00 00 M S Fig 13 7 Other signal relay setting the 1 screen D It sets the operation RUN signal relay and delay time 5 The set relay is ON after the set delay time 2 It sets the sensor disconnection signal relay and keeping time The set relay is ON when the sensor is disconnected during operation 5 The relay stays in ON during the setting time and operation state is maintained later on in case of sensor disconnection 3 It sets standby WAIT signal and holding time 4 Setting the stationary timer signal relay deviation delay time and operation time Deviation Present value PV Set value SP lt the relay is ON during operation time M S from deviation till delay time H M Namely the relay is ON during operation time M S when the data of Present value PV Set value SP is within the deviation 5 Delay time The set relay is ON after the set delay time is elapsed Operation time The set relay is OFF after the set operation time elapse when the stationary timer signal relay operation state is maintained Operation only in stationary operation 5 Stop or operation time The relay is OFF when 00 00 M S is input he processing time is continued out of the deviation during relay time operation 5 It moves the page up down 2nd Edition of TEMP2000M Series IM April amp 2014 Page 111 176 SAMWO
51. IME 00 00 00 OPER TIME 000 00 00 OPER TIME 000 00 00 Fig 5 6 Time signal setting the 1 screen D The time signal is OFF during the segment operation time corresponding to 0 The change is impossible as it is only for reading 2 The time signal is ON during the segment operation time corresponding to 1 The change is impossible as it is only for reading 3 The screen moves up down with 6 time signal unit 5 4 2 Time signal time setting motion gt Time signal 2 20 TS2 20 is operated depending on the delay time and operation time fS TIME SIGNAL SET TSBCHOUR MIN SEC SICHOUR MIN SEC DELAY TIME 000 00 00 DELAY TIME 000 00 00 OPER TIME 000 00 00 OPER TIME 000 00 00 TSTCHOUR MIN SEC TSTOCHOUR MIN SEC DELAY TIME 000 00 00 DELAY TIME 000 00 00 OPER TIME 000 00 00 OPER TIME 000 00 00 TSBCHOUR MIN SEC TSTICHOUR MIN SEC DELAY TIME 00 00 00 DELAY TIME 000 00 00 OPER TIME 00 00 00 OPER TIME 000 00 00 Fig 5 7 Time signal setting the 2 screen 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 64 176 SAMWONTECH fS TIME SIGNAL SET TST2CHOUR MIN SEC 000 00 00 000 00 00 TSTICHOUR MIN SECO 000 00 00 000 00 00 TSTACHOUR MIN SEC DELAY TIME OPER TIME DELAY TIME OPER TIME 00 03 02 03 30 AM TSTSCHOUR MIN SEC 000 00 00 000 00 00 TSTSCHOUR MIN SEC 000 00 00
52. INPUT SET 00 03 02 03 59 AM SENSOR GROUP erc eno Qu na n9 OW Ua Ue 03 59 AM SENSOR RANGE RANGE HIGH 1370 0 c RANGE LOW 200 0 c BIAS EU c SENSOR FiLTER 0 SEC PV WHEN S 0PN QQUNSET UP C9 DOWN Fig 11 3 Display unit setting screen In case of T C RTO setting When the temperature sensor is set in RTO the following screen is displayed SENSOR INPUT SET SENSOR TYPE SENSOR SELECT PTA DISPLAY UNIT UNIT SELECT du iM 00 03 02 03 59 AM SENSOR RANGE RANGE HIGH ABC RANGE LOW ASC BIAS II c SENSOR FILTER SEC PY WHEN S OPN QUNSET QUP 9 DOWN Fig 11 4 Sensor input setting the 1 screen In case of RTD setting 2nd Edition of TEMP2000M Series IM April 8 2014 Page 89 176 SAMWONTECH gt One of the 6 sensor types can be selected SY SENSOR INPUT SET T SENSOR GROLIP SENSOR RANGE erc RID Qv SENSOR TYPE SENSOR SELECT PT KA DISPLAY Us Fig 11 5 Sensor type setting screen In case of RTD setting gt When the temperature sensor is set in DCV the following screen is displayed WS SENSOR INPUT SET SENSOR RANGE RANGE HIGH 2 000 V e SENSOR TYPE RANGE LOW 0 400 V SENSOR SELECT 0 4 2 0V BIAS SENSOR FILTER DISPLAY UNIT SCALE HIGH 100 0 UNIT SELECT ju KA i SCALE LOW DOT POSITION PV WHEN S OPN O DOT POSITION 1 M QUNSET QUP DOWN
53. It leads to the next or previous screen Table 17 1 Alarming signal set setting the 1 screen parameter Setting range rial data Alarming operation Run Always ABS 2nd Edition of TEMP2000M Series IM April 8 2014 Page 125 176 SAMWONTECH 17 1 2 Alarming signal setting the 2 screen This is the screen for setting alarming gt 4 signals can be set Alarming signal operation is carried out according to the setting in the alarming type the types of alarming amounts to 20 00 03 02 ALARM SIGNAL SET 04 29 AM ALARMT TYPE ALAPMO TYPE Er O TYPE SELECT OFF TYPE SELECT OFF Fig 17 2 Alarming signal setting the 2 screen 1 00 03 02 ALARM SIGNAL SET 04 29 AM ALARM TYPE ALARM TYPE ETE gt E AL FS DH FS DL FS DH RS DL RS DO FS La Fig 17 3 Alarming signal setting the 2 screen 2 D Alarming signal object is set 2 Screen is moved up down with 2 alarming signal units 3 Type of alarming signal which was set is selected Refer to the Table 17 4 Alarming type 2nd Edition of TEMP2000M Series IM April 8 2014 Page 126 176 SAMWON TECH gt If type of alarming is set to AH F and DO FS in the Fig 17 3 Alarming signal setting the 2nd screen the following screen is displayed I UU Usa U 2 ALARM SIGNAL SET 04 30 AM ALARMT TYPE ALARM TYPE TYPE SELECT AH F TYPE SELECT Do F Md ALAPMT PARAMETER ALARM PARAMETER POINT
54. K SUM C39 MODBUS ASC C39 MODBUS RTU BALD RATE PARITY BPS SELECT 115200 a Sn Go STOP BIT LENGTH E 38400 OTHER PARAMETER ADDRESS 1 57600 RESPONSE TIME 0 S i 115200 Fig 14 2 Communication setting screen RS232C RS485 2 Table 14 1 Communication setting screen RS232C RS485 parameter oetting range Initial data PC LINK PC LINK SUM MODBUS ASC MODBUS RTU PC LINK SUM 9600 19200 38400 57600 115200 ABS 115200 A O E mas low ACC ose ers 2nd Edition of TEMP2000M Series IM April 8 2014 Page 117 176 SAMWONTECH 14 2 Communication environment setting Ethernet gt Conditions of Ethernet communication are set RS232C 485 communication is provided as a basic and RS232C 485 communication is not usable in case of using Ethernet option The serial communication using RS232C 485 is not available in case of Ethernet communication selection When DHCP is not used in Ethernet setting it can be used when IP address subnet mask gateway are set Refer to Fig 9 7 Ethernet DHCP no use screen gt Network setting is made automatically when DHCP is used in Ethernet setting WAN COMMUNICATION SET DHCP FUNCT TON D 3 UNUSE Y USE NETWORK SET 2 IP ADDRESS Ea SUBNET MASK ME Ea GATEWAY Fig 14 3 Communication environment setting screen Ethernet D Setting Y N for IP auto setting use in network 2 Manual setting of net work IP 3 Use to
55. NAL i eer or ed RET ord HBA INPUT UNUSED SENSOR IN Fig 12 3 SSR output terminal setting screen 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 97 176 SAMWONTECH gt It is a screen to set the SCR output terminal transmitting output and sub output When the sub output is set it can be set in Fig 5 2 Pattern editing screen na AO B BED ES CONTROL OUTPUT SET 04 12 AN OUTPUT TERMINAL PA out eT v Jrer ore j HBA INPUT UNUSED SENSOR IN Fig 12 4 SCR output terminal and transmitting output terminal setting screen Table 12 1 Output setting the 1 screen parameter SSR Output Heater output Non use ABS Heater output SCR output ASA ro nc Hansiniss on ABS Transmission output output Non use 2nd Edition of TEMP2000M Series IM April 8 2014 Page 98 1 76 SAMWONTECH 12 1 2 Output setting the 2 screen gt Iit sets control related parameter M CONTROL OUTPUT SET 04 13 AM OUTPUT RATE SET O UP RATE 0 0 HEAR 6 DOWN RATE 00 8 S re 7 CYCLE TIM 2 CYCLE TIME PRESET OUTPUT ARW 9 9 AT GAIN Fig 12 5 Output setting the 2 screen It sets the operation method of PID control Refer to 12 1 2 1 Operation direction D It sets the period for control output operation in case of SSR SOLID STATE RELAY control output 42 It disconnects the output by PID and sends the output in emer
56. NTECH The stationary timer signal operation is calculated again in operation starting changing the set value SP electric power ON When it is set for immediate operation in electricity ON NOTE recovery operation in black out or product is ON x When the recovery motion is re starting or continue in black out it operates in same pattern Namely the delay time starts again after recover of electric power in operation state otationary timer signal relay operation Table 13 8 Other signal relay setting the 1 screen Parameter Setting range Initial data Operation signal relay 0 32 ABS Operation signal delay time 00 00 99 59 MIN SEC Sensor disconnection signal relay ses D Sensor disconnection signal holding 00 00 99 59 MIN SEC time M com T 2nd Edition of TEMP2000M Series IM April amp 2014 Page 112 176 SAMWONTECH gt itis a screen for other signal relay setting the 2nd screen 00 03 02 DO CONFIGURATION dcm SLOPE SIGNAL ETE O UP RELAY we g 2 SOAK RELAY DOWN RELAY 0 ce PEF SIGNAL 1 REF RELAY 0 DELAY TIME 2 REF RELAY 0 DELAY TIME i ERROR SIGNAL 4 ERROR RELAY a 0 KEEP TIME 00 00 M S 2 SETUP Fig 13 8 Other signal relay setting the 2 screen D It sets the ascending descending signal relay and operation deviation he state lamp of the operation screen and relay is operated at the same time n case of program operation The relay
57. OFF signal and delay time for each ON OFF signal gt The set ON OFF signal sends the actual contact point output after elapsing the set time for delay when the signal creation condition is made DO CONFIGURATION 04 24 AM ON OFF SIGNAL ETE T1 RELAY DELAY TIME gt T2 RELAY DELAY TIME T3 RELAY DELAY TIME T4 RELAY DELAY TIME TS RELAY DELAY TIME TB RELAY DELAY TIME Tf RELAY DELAY TIME Fig 13 3 ON OFF signal relay setting screen D It sets the ON OFF signal relay and delay time T1 T7 Table 13 3 ON OFF signal relay setting screen parameter Setting range Initial data ON OFF signal 1 0 30 ON OFF signal 7 relay ON OFF signal 1 delay time 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 107 176 SAMWONTECH 13 1 4 DI signal relay setting screen gt It sets the relay No for DI signal gt DI signal send the contact point output to the set relay in case of DI error creation of corresponding No 7 DO CONFIGURATION DI SIGNAL DI1 RELAY DI2 RELAY DIS RELAY DI4 RELAY DIS RELAY DIG RELAY DI RELAY DIG RELAY D19 RELAY DI 10 RELAY DI 11 RELAY DI 12 RELAY DI 13 RELAY DI 14 RELAY DI 15 RELAY DI 15 RELAY Fig 13 4 DI signal relay setting screen CD lt sets the DI signal relay DlI1 0116 DI signal is operated when the operation type is set with Error in 19 1 2 DI function and operation setting Table 13 4 DI signal relay setting
58. P zx mv ED 250 0 i mmn D SUO az E 50 0 o s pa Fig 3 14 Program operation the operation screen 3 D The current setting data is maintained HOLD ON or released HOLD OFF 2 It terminates the segment which is being processed and moves forcibly to the next segment 3 It performs or releases the auto tuning with current setting data The Y N of the tuning button can be set in 18 PID Group 4 The main and sub channel to perform the auto tuning are selected It is the user button The use non use can be set at the 21 System initial setting When the user button is used the wanted relay the user can be set and used in 13 DO relay setting Ex It is used for the chamber lamp output ON OFF The set relay is operated when the User button is pressed in the stationary and program still operation screen 6 It displays the user tag The user tag setting can be set in the 7 1 Screen display setting x The buttons of D are not displayed in the program operation and still screen 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 39 176 SAMWONTECH 3 3 3 Program operation the ne operation screen The left side of the screen displays the measurement data setting data and control output quantity amp Check box sets the display for Y N of the data gt Press the lee Saving button on the middle of the right to save the data recording the button into the internal memor
59. PID group setting screen 1 D Proportional P area It controls to the direction to reduce the deviation between the setting data SP and indication value PV When the proportional integer is large it approaches rapidly to the setting data SP and indication value PV but it may make the bad influence on the control safety due to the vibration of control output MV When the proportional integer is small the indication value approaches to the setting data SP slowly in stabilization but there is a possibility to create the residual deviation 2 Integration I time The control output MV gets smaller when the integration time gets longer accordingly the approaching time to the setting data SP gets longer The control output MV gets bigger when the integration time gets shorter accordingly the approaching time to the setting data SP gets shorter he integration operation can delete the residual deviation which can be taken place in PO operation When the integration time is too short there is a possibility to stay in incapability 3 Differential D time It inhibits the changes of deviation PV SP by calculating the control output MV corresponding to deviation PV SP change rate t has an effect of speedier approach to the setting data SP and inhibiting the abrupt change in indication value PV or external disturbance 4 Output upper limit lower limit It sets the upper limit lower limit in control out
60. R re ERA EE AE QU VOR C A MAC A RATS AT 3 6 Auto tuning and tuning point AAA RRA AC NTAL AEG BY Doe E Ae E UA OP OG WIAA WIN S 48 4 Operation related motion setting 4 1 Operation method setting DA EI NR RA rte SAA TD pM EAE E a a 49 4 2 FUZZY operation PA AAA T I y do PRSE ARS AA E AAA E eee ee AS qu d bU er ee AA a demi dat 51 43 setting data change ratio SLOPE operation Tee Lee ee AA AA ARA CR EAS eee ace ee Wo a 52 9 Program setting 5 1 Program pattern setting UE a ob CR OUR AEREAS ARI eS ae eu Nob s eoa qo da ide aca ah AS E 5A 5 Pattern repetition setting ee e alc Scar eee ee DI ae e MAI ee ee NAAA ee ee eee eee ee 61 53 File editing Cece eT A RRA A a GAL C ISE RARAS ee A S 909 NORTE AA dU e A ARANA ds 62 54 Time signal operation CETTE CoS RC OI Ca CER EE ARAUCA CARCER E OUR CK IR SE ARANA 64 55 standby operation eer ee ee an Se eee ee re ee a ee ee ee E AE ERA OR NC ee ere A wer R LONE ERAS 67 5 6 Experiment name setting IEA DARSE ANS DETRAS AAA EAS SRA ARA ERRATA DAS I IIT ILL 69 6 Graph display and saving setting 2nd Edition of TEMP2000M Series IM April 8 2014 SAMWON TECH 6 1 Pattern graph display eee CLEC TUE ERA AA ADE AAA ii AA ae 70 6 2 Measured data PV graph View AO gor cea Run ee eee VARAS Rs 72 6 3 oetting the measure data PV graph saving er rM PLU NAE 4 6 4 SD memory storage setting ere ea dod e c addo AS Arp WO qe S ERE DU dX wi V Rd ex UE ws 16 7 Screen display setting 7 1 Screen display setting ee er NS O
61. RY iw DI 1 EMP iw DI2 EMP iv DI3 EMP jui DI4 EMP l DI5 EMP iv DI6 EMP E DI7 EMP i DI8 EMP 4 DI 9 BMP E DI 10 BMP E DI 11 EMP iu DI 12 BMP i DI 13 BMP BA DI 14 BNP ju DI 15 BMP ie DI 16 BNP 11 01 08 AAA 10 04 AM 19 10 Display photo setting screen when DI error occurs 3 gt Selected file hw can be used for screen which is displayed when error occurs gt If error occurs in non selected DI default photo in internal memory is displayed aro INTERNAL MEMORY USE TOTAL MEMORY 22 3MB 1882 3MB 19 11 Display photo setting screen when DI error occurs 4 Fig E iw D110 8MP je DI 11 BMP ie 0114 BMP je 01 15 BMP m CUSTOMER PICTURES SET SD CARD MEMORY ie D11 BIP ivi DI2 BMP iw DI3 BMP iw DI4 BMP iw DI5 BMP i DI5 EMP i D17 MP iw DI8 BMP 2nd Edition of TEMP2000M Series IM April 8 2014 je DIS BMP HA DI 10 8PP W DI 11 6NP ied DI 12 8NP E DI 13 BPP iv DI 14 EP E DI 15 0b P b DI 16 BMP 11 07 08 10 04 AM Page 144 176 SAMWONTECH 19 3 DI error creation screen gt itis the screen of DI error creation gt When ise Recovery button is pressed it is converted to the operation screen by escaping from DI error screen i The same error creation is neglected for 1 minute when it is escaped from the screen through the DI er Recovery button after DI creation Ex When it is escaped with Recovery during DI1
62. S 9 00 13000 300 2500 F 200 900 0 800 F 0 400 L Qe 1800 C 6 0 900C 68 00 4000 69 00 9000 C 2 15 2 00 0 300 0 T 0 0 600 0 F N 80 300 2400 f DE 0 0 2300 0 F 0 0 1600 0 F 200 400 200 1000 200 200 0 400 e 0 400 DN U 0 0 400 0 C O 1000 200 0 400 0 s 00 4000 0 0 700 0 200 0 1000 0 200 0 200 0 90 300 750 F 0 0 1000 0 300 400 F 0 1800 F 300 0 1800 0 F 300 0 400 0 F 0 0 700 0 F 0 200 C 0 0 2300 0 O 400 98 32 4200 F 200 200 C 96 0 2300 CC W 200 0 400 0 Lo 9 d 0 1390 CC PL 300 0 400 0 F 2nd Edition of TEMP2000M Series IM April 8 2014 Page 160 176 SAMWON TECH B RID TYPE TYPE NO 121 122 uiia 123 124 900 0 TOOQ OPE NO 107 2200 7850 108 2000 890 0 C des 109 300 1500 F 110 200 07 500504 111 200 200 6 123 2002200 6 EZ O 400 C 126 O 400 C 113 2200 0 200 0 129 900 wes200 FF 130 02000 F bro 900 c 200 T 131 900 0 1200 0 F 116 118 119 120 lar 200 0 200 0 C 128 0 0 400 0 C 132 0 0 800 0 F 133 50 00 150 00 C 134 148 0 300 0 F 114 0 0 400 0 C m OCV NO NO 141 Aluluwolwln wn ES O lt alallala gt NIDII BO Po 2nd Edition of TEMP2
63. SOURCE RELAY n SOURCE RELAY2 E Fig 13 6 Manual signal setting screen D It sets the output of arithmetic signal 2 It sets the relay1 No which is necessary for arithmetic s S It sets the relay2 No which is necessary for arithmetic s 4 The arithmetic relay 1 and 2 are calculated with AND OR NAND NOR XOR and the output is ON on the relay set on the arithmetic output relay column 5 It moves the page up down Table 13 6 Manual signal setting screen parameter Arithmetic output relay 0 82 ABS 0 Arithmeticrelayt O32 ABS 0 Aithmeticrelay2 AAS 0 __ Table 13 7 Arithmetic operator operation ANO e NAND Arithmetic Arithmetic Mene AU ele Arithmetic Arithmetic ADAMS output output output relay 1 relay2 relay 1 relay2 Arithmetic Arithmetic Arithmetic Arithmetic Arithmetic Arithmetic output output relay 1 relay2 relay 1 relay2 relay relay OrF OFF ON OFF OFF OFF OFF 2nd Edition of TEMP2000M Series IM April 8 2014 Page 110 176 SAMWONTECH 13 2 Other signal relay setting 13 2 1 Other signal relay setting the 1 screen gt It is a screen to set the operation signal and sensor disconnection signal a o 02 DO CONFIGURATION 04 25 AM RUN STGNAL O RUN RELAY 0 DELAY TIME 00 00 M S SENSOR OPEN SIGNAL 2 S OPN RELAY 0 KEEP TIME 00 00 M S WATT SIGNAL 3 WAIT RELAY 0 KEEP TIME 00 00 M S FIX TIMER SIGNAL TIMER RELAY 0 DEV
64. STEM PASSMOPD LSS MAIN D PASSWORD o v DISPLAY METHOD USER KEY 2 TEXT PICTURE UNUSE Qus b INIT TNFORMAT TON INFORMAT I ONT SAMWONTECH CO LTD 6 3 INFORMAT ON2 TEL H2 32 32B 3120 INFORMAT ONS HTTP WWW SAMWONTECH COM Fig 21 1 System initial setting the first screen 1 D It sets the language for use 2 It sets the initial screen display when the power is ON 3 It sets the phrase displayed on the initial screen when power is ON The information display 1 2 3 phrases can be set maximum 24 letters can be input w The display pattern shall be set in letter 4 It sets the password used in system screen entry The password was set with 0 5 It sets the use non use of the user button in stationary FIX and program operation screen It changes every parameter into the factory initial state It moves to the next or previous screen 2nd Edition of TEMP2000M Series IM April amp 2014 Page 151 176 SAMWON TECH itis a screen which is set with display pattern in photo gt The functions of 9 can be used when the display pattern is set in photo 00 03 02 E INITIAL DISPLAY 04 35 AM SYSTEM PASSWORD QD ess Fig 21 2 System initial setting the first screen 2 D It selects the photo displayed at the initial screen when power is ON 2 The INIT BMP file inside the SD card is uploaded into the internal memory Refer t
65. Series IM April 8 2074 Page 52 176 SAMWON TECH 5 Program setting gt When program setting button is pressed in 3 1 Main screen it is converted to Fig 5 1 Program setting screen gt ltis a screen group to set the parameter related with program operation ESF PROGRAM SET D PATTERN SET 2 4 000 00 10 TIME SIGNAL T REPEAT SET WAIT SET na n9 CRIS GEUZ 03 18 AM wi FILE EDIT A B PATTERN NAME Fig 5 1 Program setting screen Pattern Set It moves to the pattern editing screen Repeat Set It moves to the screen for setting the pattern and segment repetition setting 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 538 176 SAMWONTECH 5 1 Program pattern setting gt Itis a screen to set the segment according to the pattern No gt Refer to the time signal setting 5 4 Time signal motion for time signal setting O0 03 02 FATTETIN SET 03 21 AM 9 glgiNSERT lt SE 3ME NI Ul SEGMER pap SEGMEN Arat nim MEN an i ex 200 0 200 0 200 0 200 0 000 01 00 001 00 01 00 00 01 00 00 01 i x 00 00 00 00100 00 00 00 00 00 00 00 00 00 00 00 SIGNAL 00 00 00 00 00 00 00 00 00 00 O0 00 00 00 O0 00 d a quie Pt sn p n eT gr e n e P p SM p paa mte t e pes f C 6 6 amp Fig 5 2 Pattern editing screen D Input the pattern No to set the segment 2 The starting condition for program operation can be s
66. TERN 1 03 57 AM Pwo MEE secon EMEN SS imam 7300 2000 D Mv O SP GEI Mv GRE sp S OPEN S OPEN 0 0 0 0 0 0 0 0 Fig 9 1 Control unit communication error screen A PROGRAM STOP EXPERIMENT OF PATTERN 1 03 56 AM Wo ATI soo EMEN E Ee au CHE ES S OPEN C OPEN 0 0 SP GEID Mv REO sp GNE mv GEED se D mv D 0 0 0 0 0 0 Fig 9 2 I O Board communication error screen x No communication situation D Communication cable defect 2 No connection of communication cable 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 84 176 SAMWONTECH 10 System setting 10 1 Main screen gt The basic screen is as follows FT MAIN MENU vd e GRAPH amp REC OPER SCREEN SE z3 e PROGRAM SET RESERVE SET DISPLAY SET Fig 10 1 Main screen gt When and in Fig 10 1 Main screen are pressed in sequence the screen Fig 10 2 Password input screen is displayed gt When the password is input in Fig 10 2 Password input screen it is converted to Fig 10 3 System parameter setting screen The password is set in O when it is outgoing from factory Set the password in 21 System initial setting when there is a necessity to block the access of the general user CI MAIN MENU 997 05 03 02 Y 03 50 AM GRAPH amp REC OPER SCREEN FUNCTION amp FIX E all e J pee HUDUBGCCOES Fig 10 2 Password input screen 2nd Edition of TEMP2000M Series
67. alue of Inner Signal Type is within the High Low Operation Range Within Range Operation Sensor Range Low IS Range Low IS Range High sensor Range High 4 gt Inner signal ON Section c Qut of Range Inner Signal becomes ON when current value of Inner Signal Type is out of the High Low Operation Range Out of Range Operation Out of Range Operation Sensor Range Low IS Range Low Inner Signal ON Section 2nd Edition of TEMP2000M Series IM April 8 2014 IS Rande High Sensor Range Hiah Innier Signal ON Section Page SAMWON TECH 3 The upper and lower limit of application object and delay time are set 4 Screen is moved up down with 2 inner signal units Table 15 1 Inner signal setting parameter Setting range Initial data Inner signal n application type of OP PV TSP ABS Inner signal n operation band within range out of range ABS Upper limit range EU 0 0 100 0 inner signal n Lower limit range lt inner signal n Upper limit range EU EU 0 0 Inner signal n operation range Lower limit EU 0 0 range x di can be set among 1 8 2nd Edition of TEMP2000M_Series IM April 8 2014 Page 120 176 SAMWON TECH 15 2 Inner signal operation gt While target value carries out the same operation with target value of programmed control when change ratio SLOPE is set in stationary operation target value carry out the operation with s
68. anged in name changing on this screen 2 It selects the parameter to be displayed by pen 1 i PV on the main is display when CH1 PV is selected PV can be displayed by selecting the sub channel to be displayed when the sub channel is selected S It sets the scale of the pen 4 It selects the parameter to be displayed by pen 2 The SP in the main is displayed when CH1 SP is selected PV can be displayed by selecting the sub channel to be displayed when the sub channel is selected 5 It moves the page up down at the curent screen 6 It selects the parameter to be displayed by pen 3 MV on the main is display when CH1 MV is selected PV can be displayed by selecting the sub channel to be displayed when the sub channel is selected It selects the parameter to be displayed by pen 4 PV can be displayed by selecting non use or sub channel w Pen 5 6 is same with pen 4 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 75 176 SAMWONTECH 6 4 SD memory storage setting gt Itis a set the necessary item in data backup on SD card c t is a screen to display only in SD card option PY SD MEMORY RECORD SET BACKUP ITEM PIN QOPARA BALL DIRECTION DOWNLOAD KA ME EXE Fig 6 11 Graph 8 Save setting the 5 screen D It sets the transmitting item and transmitting direction in SD CARD and TEMP2000M Download lt means the transmitting the selected items out of the TEMP2000M internal data to SD card
69. apply the changed conditions of Ethernet related parameters 4 Message box Ethernet apply In case of operation c Ethernet ready Ethernet normal operation Connection error No connection of Ethernet cable or in failure m Ethernet apply RESP ERR Ethernet communication failure Table 14 2 Communication setting screen Ethernet parameter oetting range Initial data zs Operation IP address 1 255 192 168 0 100 Subnet mask 255 255 299 200 0 2nd Edition of TEMP2000M Series IM April amp 2014 Page 118 176 SAMWON TECH 15 Inner signal IS 15 1 Inner signal setting gt This is the screen where objects of application types and contents about operation for respective inner signal can be set gt 8types of inner signal operations IS1 188 can be set gt Inner signal operation range and delay time can be set in the Fig 15 1 Inner signal setting the 1 screen 00 03 02 04 27 AM WPF INNER SIGNAL SET 131 TYPE 132 TYPE O Or rv Qr Or rv Qr IST RANGE amp DELAY RANGE HIGH 0 0 EE 0 0 EE 00 00 M S RANGE LOW DELAY TIME Fig 15 1 Inner signal setting the 1 screen D Set Inner Signal Application Type i SP Present Setting Point PV Process Value When selected to PV it has hysteresis of EUS 0 596 Not Changeable c TSP Target Setting Point for Program Control 2 Set Inner Signal Operation Band c Within Range Inner Signal becomes ON when current v
70. arameter change ES It changes only the parameters in currently selected channel gt Ej it changes every channel parameter simultaneously 5 It sets the electric power frequency 6 It moves to the corresponding channel in case of parameter setting 2nd Edition of TEMP2000M Series IM April 8 2014 Page 171 176 SAMWON TECH gt it changes every channel parameter simultaneously HEATER BREAK ALARM SET SUB CHANNEL E 152 HEATER BREAK ALARM POWER FREQUENCY CURRENT 3 50HzZ 60H7 POINT DEAD BAND Fig 22 19 Heater disconnection alarm signal screen 2 Table 22 9 Heater disconnection alarm signal screen Setting range nitial data current 0 50A When HBA option is A 50A Alarm setting 0 100A When HBA option is B 100A ABS 0 12A When HBA option is C 12A 0 10A When HBA option is A 50A Blind zone 0 20A When HBA option is B 100A ABS 1 0 2A When HBA option is C 12A frequency 2nd Edition of TEMP2000M Series IM April 8 2014 Page 172 176 SAMWON TECH 22 8 sub channel PID group setting gt itisa screen to set the details for PID in each sub channel gt It selects the sub channel PID group in Fig 22 2 Sub channel system parameter setting screen T PID GROUP SUB CHANNEL er 11 12 22 IZ UZ AM PID ALUE 9 C OUTPUT LIMIT HIGH LIMIT 100 0 X o LOW LIMIT 0 0 X MANUAL RESET 5 MANUAL RESET E 50 0 Fig 22 20 Sub channel
71. asic point for temperature calibration 3 It sets the calibration temperature at each basic temperature 4 It displays the input calibration adopted temperature The change by touching is impossible as it is only for reading Table 11 2 Sensor input TT calibration screen for each range Setingrange Input calibration 1 data Input calibration 2 data Input calibration 3 data Input calibration 4 data Input calibration 5 data EUS 10 0 10 096 EUS 0 0 Inout calibration 6 data Inout calibration 7 data Inout calibration 8 data EU 0 0 100 0 EUO 0 Inout calibration 1 point py Or Lower unl range ee TURN HE MB PV of Input calibration point E be ix V of Input calibration2 point EU 100 0 Input calibration 3 point V of Input calibration3 point EU 100 0 Input calibration 6 point Input calibration point Input calibration 8 point P Input calibration 4 point P Input calibration 5 point Sy 9f mput calpration point Ev PV of Input calibration5 point i PV of Input calibration6 point P V of Input calibration point EU 100 0 PV of Input calibration8 point lt PV of Upper limit range EU 100 0 IA IA IA IA IA IA IA A 2nd Edition of TEMP2000M Series IM April 8 2014 Page 93 1 76 SAMWON TECH 11 3 PIECE BIAS setting gt Iit displays Section Input Compensation gt Iit explains for CH1 and CH2 is same as CHI Seas sensor measurements OF ae LI LI LI LI
72. ated without option Refer to Fig 22 1 Sub channel parameter setting screen with setting the system parameter in main or sub channel 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 86 176 SAMWONTECH 10 2 System parameter setting procedure gt The system parameter setting procedures which shall be preferentially treated in product installation are as follows CD Temperature sensor type setting Input set 2 Sensor use scope setting PAGE 88 3 Other parameter setting CD Output type setting Output set 2 Output direction setting PAGE 96 3 Other parameter setting DO CONFIG Parameter setting PAGE 105 Parameter setting PAGE 115 2nd Edition of TEMP2000M Series IM April 8 2014 Page 87 176 SAMWON TECH 11 Sensor input 11 1 Sensor input setting 11 1 1 Sensor input the 1 screen gt Temperature T C RTD DCV sensor is selected The sensor setting shall be set at first certainly SENSOR INPUT SET 00 03 02 03 58 AM SENSOR GROUP SENSOR RANGE O OTC RD Doc RANGE HIGH 6 SENSOR TYPE RANGE LOW SENSOR SELECT TC K2 eis SENSOR FILTER DISPLAY UNIT 9 3 UNIT SELECT c M PV WHEN S OPN SH UNSET UP DOWN Fig 11 1 Input sensor setting the 1 screen In case of T C setting D It sets the input sensor Parameter for the unit described with EU and EUS shall be changed proportionally with the current data in case of sensor change However the upper lower range
73. ation o A MI ES gt GE mv GED ut Enn 00 0 150 0 AI d 200 0 o 350 30080 s SES o gt PORRAS D mme 1 0 an Tine coors Fig 3 4 Stationary operation the 1 operation screen 1 D It displays the current operation status 2 It displays current setting data 3 It displays the current measured data 4 It displays the current setting data of the sub channel 5 It displays the current measured data of the sub channel 6 The ON state of the state lamp is displayed in red and OFF state is in dark grey 5 The state lamp can be set in Fig 21 3 System initial setting screen 7 The No of PID group is expressed which is being adopted currently m The adopted PID group can be checked in 18 PID group It displays the current date time and the LCD screen is OFF when it is pressed 5 The red lamp is ON when the date time button is pressed in the operation still screen The green lamp is ON when the date time button is pressed on the operation screen 9 It moves to the Fig 3 1 Main screen The key pad to input the password is displayed in case of main button restriction setting It moves to the next screen from current screen d It performs or releases the auto tuning with current setting data The Y N of the tuning button display can be set in 18 PID group 12 The main sub Sub channel is selected for performing the auto tuning 3 It is the user button
74. ble MP0310AS 24V DC 24V DC Electric power gt 24V DC B UR i 1 E 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 18 176 SAMWON T ECH Wiring method for electric power control unit of each unit ax ISI NE ap EXE DC Ear 24V DC 1 3 3 1 Measured input ANALOG INPUT wiring gt Switch off the electric power and external power supply on the main body of TEMP2000M certainly in case of wiring the measurement input because there is a risk of electric shock Use the shield attached input wire Make one point ground for shield gt Make the wiring for the measurement input signal line with leaving the gap from the electric power circuit or ground circuit Use the electric cable with less cable resistance and cable with no resistance difference among 3 lines A Temperature measuring resistor input RTD INPUT SHIELD RTD The 3rd class B DC VOLTAGE INPUT C DC CURRENT INPUT HE se Tres al The 3 class 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 19 176 SAMWON TECH 1 3 3 2 Control output ANALOG OUTPUT wiring gt Connect using caution for the output polarity The wrong connection becomes a reason of the main body Use the shield attached cable for output wiring In addition make one point connection for the shield A Electric voltage pulse output SSR SHIELD Control panel The 3 class
75. creen setting the 2 screen 1 the selected photo files selected from SD CARD memory i is uploaded to the internal memory gt The message The upload is being processed displayed during upload at the bottom of screen rs CUSTOMER PICTURES SET INTERNAL MEMORY SD CARD MEMORY ji CS1 BMP WA CS2 BMP i CS10 BMP t A CS3 BMP A CS BP T BA CSA BMP A CS12 BMP MA CS5 BMP ig CS13 BMP E mA CSB BMP A CS14 BMP iu CS7 BMP ie CS15 BMP E je CS8 BMP we CS16 BMP i Fig 20 3 User screen setting the 2 screen 2 2nd Edition of TEMP2000M Series IM April 8 2014 Page 147 176 SAMWON TECH gt The message The upload is completed is displayed at the completion of upload at the bottom of screen gt When the upload is completed the photo files inside the internal memory is activated for selection T CUSTOMER PICTURES SET INTERNAL MEMORY SD CARD MEMORY j CS8 BMP E CS10 BMP tj CS11 BMP 5j CS13 BMP INTERNAL MEMORY y CSS BMP y CS10 BMP 0S11 BMP CS12 BMP y CS13 BMP w CS14 BMP CS15 BMP i CS16 BMP USE TOTAL MEMORY iij CS2 BMP iij CS3 BMP jj CS4 BMP wa CS5 BMP jui CSB BMP w CS7 BMP CSB BMP E CUSTOMER PICTURES SET iui CS10 BMP jj CS11 BMP ji CS12 BMP iij CS13 BMP ii CS14 BMP iij CS15 BMP iui CS16 BMP SD CARD MEMORY ji CS1 BMP iui CS2 BMP ji CS3 BMP ji CS4 BMP ji CS5 BMP iij CSB BMP jui CS7 BMP CSB BMP 2nd Ed
76. e Lower limit range RP1 lt Upper limit range 5 RP2 lt RP3 lt RP4 lt Upper Lower limit range Boundary data3 limit range 3 Lower limit range Upper limit range 5 Lower limit range Boundary data4 4 Lower limit range Upper limit range 5 EUS 0 0 10 0 EUS 0 3 EUS 0 0 100 0 EUS 0 0 0 01 1 00 0 10 gt Example according to PID control type D DV Control gt Output MV Change Rate is small in D DV control lt has small overshoot and time to reach TSP is delayed a little bit gt it is proper to apply for equipment which is sensitive to the change rate of Output MV gt Output MV Change Rate is big in D PV control It has more overshoot and time to reach TSP is quicker than D DV Control gt itis proper to apply for equipment which responds late according to change rate of Output MV 2nd Edition of TEMP2000M Series IM April 8 2014 Page 133 176 SAMWON TECH 18 1 2 PID application scope setting the 2 screen gt This is the screen for setting parameter related to the control features in case of PID control and copying time constant between PID groups QE CONTROL PROPERTY 04 31 AN TUNING KEY DISPLAY PID COPY ETE D QHiDE QiDISPLAY SOURCE GRP 4 gt TARGET GRP 5 2 PID SELECTION MODE D Qsc Qo Fig 18 2 PID application scope setting the 2 screen D Use no use of tuning key is set 2 PID type is set 3 Reference is set
77. e iS clicked at the basic setting button in the above Table 2 1 gt The error message LIMIT ERROR is appeared on the input data display window with error sound Beep when the data out of the setting range is input D Input key for setting the number OC apafafefls o es a je o o Juanas 2 Input key for setting the pattern experiment name and DI error name as Ape cfofet rj sj af ify ee fl o fr jajaj sir uv wt zt cole 1 273 4 5 6 ejan os ODO Refer to the 19 DI function and operation setting for DI error name input key 3 Input key for time signal setting 001H OOM 005 sJ2lalals e es Lom ODO D Input key for SEG alarm setting 0000 jz sj s Is Le fol gs z ef 9 oac mz as ae 2nd Edition of TEMP2000M_Series IM April 8 2014 Page 28 176 SAMWON T ECH 5 User tag input key SEEN ae dedo fer fs alo ls ef o fr jajaj s lr bebedor aj2l sfal s e e os os jejelol e amm Display in case out of the setting range INPUT ERROR BOOBS CIs Touch key lock release gt Input after in OFF Lock release state of Key lock because the setting data is not input when the Key lock is ON Locked state A Refer to the 4 Operation motion setting for details of setting 2 3 1 Effectiveness of the setting button and setting data gt This product is designed as follows when the setting data input button
78. e operation screen for saving into internal memory 00 03 02 03 42 AM METN PY e 200 0 E 1 SAT Pr OC ey py Fig 6 7 Graph amp Save setting the 2 screen Display of stored screen D When PV file button is pressed it shows the saved file in the internal memory 2 It displays the saved file into the internal memory in 8 units 3 When up down button is pressed it moves to the 8 units of stored files 4 The recorded PV file in the internal memory is copied to the SD card When there is no SD card option it is inactivated during the PV graph saving in operation screen When the graph is not saved it cannot be transmitted into the internal memory as the memory is not saved 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 73 176 SAMWON TECH 6 3 Setting the measure data PV graph saving gt itis a screen to set the display range and sampling time in 3 2 3 Stationary operation the 2 operation screen and 3 3 3 Program operation the pna operation screen PT Py GRAPH DRAWING SET D RECORDING CYCLE O SAMPL ING TIME 00 01 M S RECORD MEDIA 3 Qs Qeon Fig 6 8 Graph 8 Save setting the 3 screen D It sets the PV graph saving period t cannot be saved during PV graph saving About 25 days of saving is available when the sampling time is set 1 second in saving into the internal memory 2 It sets the Y N of the data saving into SD CARD 5 Auto It sa
79. e 2 operation screen gt amp Check box sets the display for Y N of the data gt The data stored in the internal memory is erased when the electric power is OFF lt Save the important graph file with SD card i Refer to the 6 2 Measurement data PV graph view Xx The down load with the SD card is not available during the saving the measurement data setting data and control output quantity which is being recorded into the internal memory e FIX OPERATION RUN 04 15 AM TU ii E IIIA o i pe Vasa fo A Ma p p A OO Fig 3 8 Stationary operation the png operation screen D It displays the channel which is being saved 2 The capacity of internal memory is displayed c About 25 days of storage is possible when the sampling time is made in 1 second 3 The recording is started depending on the saving media setting of 6 Graph display and storage setting 9 when the save button is pressed 4 t deletes every file saved in the internal memory 2nd Edition of TEMP2000M Series IM April 8 2014 Page 35 176 SAMWON TECH 3 2 4 Stationary operation still screen The stationary operation is terminated while the Time setting operation is terminated is appeared as shown in the following screen when the operation is stopped by passing the setting time in 4 Operation related motion setting gt The message is not appeared on the screen when it is forced to terminate by pressing the Stop
80. e corresponding part is touched in case of display of the message showing the operation t is same with the stationary operation termination PROGRAM STOP EXPERIMENT OF PATTERN 1 M PTN NO A SP zu Mv eR SP zuo Mv AED SP zu wv aD 250 0 250 0 250 0 SPEED Mv GERE SP essi Mv SED SP D mv GEXED 250 0 250 0 250 0 s1 is2 tsa isa iso ise rst r2 183 184 f e key 38 3 16 Ee 1888 aA se 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 41 176 SAMWONTECH 3 4 Auto tuning screen gt The auto tuning method is categorized into SEG PID type and zone PID type gt The auto tuning hold and step key cannot be used during program operation 3 4 1 Auto tuning SEG PID type The SEG PID type process the auto tuning based on the currently setting data and the tuning data is saved into PID No set in the parameter The currently setting data becomes the auto tuning setting data during auto tuning operation c The SEG is held during program operation The operation is made in currently setting data during auto tuning termination x The SEG is processed during the program operation Y PROGRAM RUN EXPERIMENT OF PATTERN 1 DE 03 12 Ah 2000 03 02 03 13AM 2000 03 02 04 14AM Fig 3 17 SEG PID auto tuning screen D It sets the PID No lt The tuning data is saved in selected No at the completion of auto tuning Table 3 3 Auto tuning SEG parameter
81. e rag ee AOS A eR eee AR ARA AROS ae ee ae VAYA 7 DI error occurrence history view AAA E SARA SE AAA AAA T ET E 19 7 3 Heater short state us S anions ba Be ae uM Ci xe E ea E QM S ia eed Ida E ata s M paa Gee urat Cc deb QE V ATE ee Bales 81 8 Time setting eS C UP DEI SRI EE a eee ty Pu DEM perve UM te Nu E ART 82 9 Communication GOP tb 2 84 System setting 10 System setting 10 1 Main SC QGQ n hmmm e hh heh he hh Hem HI Mtn 85 10 2 oystem parameter setting procedure SCC NOR RN deeds d OR D 6 aer m ATA E Ao a on dede ar a Ue pci A AS TR 87 11 Sensor input Sensor input setting VA EA eS a eee BE Oe ote ac dr ADR e AS wie x LEA A AE AAA uiv OE 88 1 1 2 Sectional input calibration setting EEEE E EE ee ee E a ure AN esce E EAEE EE OE 94 12 Control amp Transmitting output 12 1 Control output setting ee ee c aa A AA O A A A A A Ed 96 12 2 Transmission output setting SEDO ETA AS ATAN REISER SAA ee ee ee er ee ee ee ee 103 13 DO relay output 13 1 Relay No and parameter setting exea Manta aq o SA E tata eie QR E a p Ey RN EA SUR QUE IR RU EE YS E ERR e oar 105 13 2 Other signal relay setting sed atari o eda ei sc CR Sao i AA ae er uo dics on aou CR ER RE RAS ARAS CA d ee eee o ee ES 1 1 1 13 3 UP SOAK DOWN signal operation A A E A AS OS A E ARCO 115 14 Communication 141 Communication environment setting RS2820 AOS DO nono pa 116 14 2 Gommunication environment setting Ethernet MEANS CU LO SAS AR AA ANA 1 18 15 Inne
82. en mas Insert button is pressed 9 When the segment is deleted one of the buttons www Segment 01 99 is selected and pressed the selected button from EXE Segment 01 99 and BW Delete button are activated The selected segment can be deleted when BN Delete button is pressed The screen moves to the left right with 4 segment units 1 When m Pattern button is pressed it moves to the Fig 5 1 Program setting screen 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 54 176 SAMWON TECH PROGRAM RUN START gt PROGRAM OPERARTION START is done according to the setting of STC START CODE NOTE Setup 1 Setting Point Preferred Program Operation STC SSP gt When program operation starts SP starts from SSP and operates until SP1 under 1SEG for set Time 1 TM1 SP SSP TMI TM2 2 Slope Preferred Program Operation STC S PV gt When program operation starts Setting Point SP starts from the present Process Value PV and operates until Setting Point 1 SP1 under SEG1 Based on the contents of program patten remaining time is calculated as time is passed till operation starting point D When Segment 2 is the first maintaining section Present Program Pointing Value Operation Start C e 1 2 S 4 Segment 2 When Segment 3 is the first maintaining section Present Program Pointing Value Operation Start E L D jj o d s T EGSPEI 1 2 8 4 Segment 3 When there
83. eration the 1 still scree gt Select the operation method in Stationary in 4 Operation related motion setting gt When Operation state screen is selected in 3 1 Main screen it converts to Stationary operation the 1 still screen gt The following is the screen for 6 channel of sub channel 1 prn pier 5 FIX OPERATION STOP 01 14 PM s GEEA m E 5800 E D Mv EED sp a Mv D SP OE mv ED 50 0 100 0 150 0 SP mcas MV merca SP ema SP Gana MV Gs 200 0 ap 300 0 A1 a2 A3 aa RN ieer STALT STAL2 S2al T S24L2 P Fig 3 2 Stationary operation the 1 still screen gt When the Setting data is touched for setting data input the input key is displayed gt When the Setting is touched in the sub channel the input key is displayed 5 FIX OPERATION STOP sjepspersTeT es ow er epe o enum omm Fig 3 3 Setting data input screen Table 3 1 Stationary still screen parameter Parameter Setting range Initial data Setting data SP EU 0 0 100 0 EU 0 0 EU Sensor input data range Refer to Engineering Unit 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 382 176 SAMWONTECH e operation screen 3 2 2 Stationary operation the gt itis the screen for measured data setting data control output quantity and lamp operation state gt The setting data input key is displayed when the Setting data is touched during oper
84. ess to next segment t can be only done in case of programmed run 4 DI4 8 Operation type is set 5 Error When DI4 8 error occurs Character or Picture is displayed according to display type w Pattern When DI4 8 error occurs it is compulsorily moved to corresponding pattern according to Pattern selection by DI t can be only done in case of programmed run Table 19 3 DI function and operation setting the 3 screen parameter Parameter DI1 Operation type ABS Error DI2 Operation type ABS Error DI3 Operation type ABS Error DI4 8 Operation type ABS Error DI9 Operation type ABS Error DI10 Operation type ABS Error DI11 Operation type ABS Error DI12 16 Operation type ABS Error 2nd Edition of TEMP2000M_Series IM April 8 2014 Page 139 176 SAMWON TECH Table 19 4 Pattern selection by DI Pattern number DIB D7 co c o OO ZI Z OO ZI zZ O O ZI zZ 2nd Edition of TEMP2000M_Series IM April 8 2074 C Y KK Page Z Zz O FF O FF O z 40 176 SAMWONTECH 19 1 2 DI function and operation setting the 4 screen gt Operation for respective DI signal can be set DI CONFIGURATION DIT SIGNAL DIS SIGNAL OPERATION ERR STOP iM OPERAT ON ERR STOP iM DIZ STGNAL MERC OPERATION ERR stoP RA OPERATION ERR sTo dl SETTING DI ERROR SCREEN OPERATION STATUS Fig 19 4 DI function and action setting the 4 screen
85. et by selecting any of TPV SPV and SSP TPV The setting data for starting program operation SP is started with the present measured data PV regardless of the tendency or starting setting data SSP and processes setting data 1 SP1 set segment 1 SEG1 for the setting time TM1 SPV The setting data SP in program operation start is started from present measured data PV and processes to the setting data 1 SP1 which is set to segment 1 SEG he remained time for operation time is calculated by regarding the times is passed till the program operation time by referring to the program pattern contents a SSP The setting data SP in program operation starting process during the set time TM1 from the start setting data SSP till the setting data SP1 set in the segment SEG1 3 The setting data of the segment to be operated is set 4 The time for the segment to be operated is set The time signal for the segment to be operated is set 8 time signals can be set in each segment and each time signal can be set by selecting out of 20 types Refer to 5 4 Time signal motion 6 The SEG alarming of the segment to be operated is set 7 The SEG PID for the segment to be operated is set When the segment is inserted one of the buttons sai Segment 01 99 is selected and pressed the selected button from Segment 01 99 and ms Insert button are activated The selected segment can be inserted wh
86. et value SP when change ratio SLOPE is not set in stationary operation oetting Inner signal operation Input 0 0 100 0 gt EUS 0 5 0 5 Operation Type Pattern SEG2 1 SEGS SEG4 SEGS TYPE Target Value PV Range Low 30 0 Range High 50 0 Oper Band In Band INB Delay Time 00 00 Input 0 0 100 0 gt EUS 0 5 0 5 Operation Type Pattern SEG2 SEG3 SEG4 SEG5 PV TYPE Target Value PV Range Low 30 0 Range High 50 0 Oper Band Outside Band OUTB Delay Time 00 00 SEG2 SEGS SEGA SEGS Input 0 0 100 0 Operation Type Pattern TYPE Set Point SP Range Low 30 0 Range High 50 0 Oper Band In Band INB Delay Time 00 10 Inout 0 0 100 0 Operation Type Pattern SEG2 SEG3 SEG4 SEG5 SP TYPE Target Set Point TSP Range Low 30 0 Range High 50 0 Oper Band Outside Band OUTB Delay Time 00 00 2nd Edition of TEMP2000M Series IM April 8 2014 Page 121 176 SAMWON TECH 16 ON OFF signal gt This is the screen for setting ON OFF signal range and deviation of upper and lower limit gt 6 ON OFF signals can be set gt Relay number and delay time can be set in the Fig 13 3 ON OFF signal relay setting screen 16 1 ON OFF signal setting 16 1 1 ON OFF signal setting 00 03 02 ON OFF SIGNAL ap Fig 16 1 ON OFF signal setting screen D Lower limit SP in the ON
87. excessive integration prevention function Refer to 12 1 2 3 Excessive integration prevention It is used for overall controlling the PID data manually depending on the system characteristics after auto tuning Control output PID X Control time constant GAIN Refer to 12 1 2 4 Control time constant 2nd Edition of TEMP2000M Series IM April 8 2014 Page 162 176 SAMWON TECH gt it changes every channel parameter simultaneously 00 03 02 MI CONTROL OUTPUT SET SUB CHANNEL E 2 0207 OUTPUT TYPE OUTPUT PATE SET ssR SCR UP RATE DOWN RATE CYCLE TIME PRESET OUTPUT CYCLE TIME ARW Fig 22 8 Sub channel control output Table 22 3 Sub channel control output setting screen parameter Parameter Setting range Initial data type ABS operation aaa Decreasing 0 0 OFF 100 0 SEC E 0 0 OFF change rate Output in case of 5 0 105 096 emergency E fe Excessive integration 0 0 AUTO 0 0 200 096 96 100 0 prevention vontiel ile 0 1 10 0 ABS 1 0 constant 2nd Edition of TEMP2000M Series IM April amp 2014 Page 163 176 SAMWONTECH 22 5 Sub channel relay No setting 22 5 1 Sub channel control output setting screen gt itis a screen to set the alarm signal in sub channel gt it selects the sub channel DO relay setting in Fig 22 2 Sub channel control output setting screen 00 03 02 2 DO CONFIGURATION SUB CHANNEL 04 39 AM ALARM SIGNAL ETE
88. g dimension D Cut the panel to be installed Refer to 1 2 3 panel cutting dimension 2 Insert the product on the installation hole from the rear side of the main body as shown in the above diagram 3 Fix the main body using the fixing mount on the upper and lower power of the main body It is same with the picture User the screwdriver gt In case of installing with VESA mount i VESA dimension 75 75 is same in every product VESA dimension 75 75 x Cautions Apply MA AL 6L bolt in fixing on vesa hole 2nd Edition of TEMP2000M Series IM Apri 8 2014 Page 9 176 SAMWON TECH 1 2 4 2 How to install control part gt In case of installing DIN rail 1 DIN rail preparation Ne pe FO O a N OOOO 1 130 2 Insert the part on the main unit and sub unit into the rail first as shown in the picture and push D part and the installation shall be made the latch to lock into the rail as shown in the picture BACK COVER 3 Assemble the installed main unit and sub unit to the direction of arrow as shown in the following picture 2nd Edition of TEMPZ000M Series IM April 8 2074 Page 10 176 SAMWONTECH 4 Both ends of unit is fixed with end bar when the main and sub units are installed not be m
89. gency in case of STOP and S OPN 43 t sets the excessive integration prevention ratio Data which are adopted in operation of excessive integration prevention function Refer to 12 1 2 3 Excessive integration prevention It is used for overall controlling the PID data manually depending on the system characteristics after auto tuning Control output PID X Control time constant GAIN i Refer to 12 1 2 4 Control time constant 5 It sets the increasing change rate of the output when the control output is increased 16 It sets the decreasing change rate of the output when the control output is decreased 17 The page moves up down from the present screen 4 12 2 Output setting the on screen parameter Setting range Initial data Lowe p om pos 8 UP RATE 0 0 OFF 100 0 SEC DOWN RATE 0 0 OFF 100 0 SEC 2nd Edition of TEMP2000M Series IM April 8 2014 Page 99 176 SAMWON TECH 12 1 2 1 Operation Direction Control Output MV Reverse Forward Control Output increase when PV is bigger than SP Cooling Dehumidify Control Output Increase when PV is smaller than SP gt Heating Humidity 076 Deviation PV SP 12 1 2 2 Output Cycle gt Applies only when control output type is SSR Solid State Relay gt It refers one cycle of ON OFF at setup time gt SSR with output cycle is 10 second Control output MV 30 Control output MV 5096 Control output MV 70
90. gnal Relay does not become ON Temp Soak f Lamp Display for Fix Operation Only Tuo Down Status Lamp is ON at Relay Output operation screen 2nd Edition of TEMP2000M_Series IM April 8 2014 Page 115 176 SAMWONTECH 14 Communication 14 1 Communication environment setting RS232C RS485 14 1 1 Communication setting the 1 screen gt Communication protocol and conditions are set 00 03 02 MEN COMMUNICATION SET 04 28 AN PROTOCOL D POL INK PCLINK SUM C9 MODBUS ASC C9 MODBUS RTU BAUD RATE PARITY 2 BPS SELECT 115200 KA NONE GQ EVEN o0dD DATA LENGTH OTHER PARAMETER 4 ADDRESS 5 RESPONSE TIME O MS Fig 14 1 Communication setting screen RS232C RS485 1 D Communication protocol is set 2 Communication speed is set z refer to Fig 14 2 Communication setting screen RS232C RS485 2 3 Stop bit is set 4 Communication address is set n case of RS485 communication addresses can be set differently up to 99 units and 5 Reponses time is set Parity is set NONE No parity EVEN Even parity ODD Odd parity 7 Data length is set Data length is fixed for when communication protocol is set to MODBUS ASC Data length is fixed for 8 when communication protocol is set to MODBUS RTU 2nd Edition of TEMP2000M Series IM April amp 2014 Page 116 176 SAMWON TECH 3 MAN COMMUNICATION SET ue PROTOCOL PCL INK PCLIN
91. grostat Use after fixing on the holes on the board with bolts and nuts O The level of excessive voltage is category II and the use environment is DEGREETI 2nd Edition of TEMPZ000M Series IM April 8 2074 Page 6 176 SAMWONTECH 1 2 2 External dimension Unit mm 1 2 2 1 External dimension of display part for each model epolelrio a L FE oe w A A 4008 Main unit oub unit 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 7 176 SAMWON TECH 1 2 2 3 1 01 BOARD external dimension 1 2 3 Panel cutting dimension gt in case of general attaching X Panel cutting dimension for each model Unit mm MODEL A B C lore 137 5 250 Us 0088 C Minimum 2nd Edition of TEMP2000M Series IM Apri 8 2014 Page 86 176 SAMWON TECH 1 2 4 How to attach mount 1 2 4 1 How to install display part gt TEMP2000M DISPLAY UNIT panel installation method Fixing Phillips screwdriver L d xo Panel thickness 2 mm The installation of fixing mount on the left right upper and lower part of disolav doesn t matter Panel Refer to the panel cuttin
92. iation 2 Integral time I When integral time is set long control output MV decreases therefore time to approach set value SP is longer When integral time is set short control output MV increases therefore time to approach set value SP is shorter Integral operation can eliminate residual deviation which may result from P operation f integral time is too short it may result in out of control 3 Differential time D calculates control output MV corresponding to deviation PV SP change ratio So keeps deviation PV SP from changing Speed to approach set value SP is faster so it prevents rapid change in indication value PV or disturbance 4 Output upper limit lower limit sets upper and lower limit of operation scope in control output When changing output upper limit and lower limit it applies to control output during auto tuning When control output type is SSH it operates with 0 100 output value irrespective of limit value which is set for output upper and lower limit during auto tuning Correction value If integral time I is 0 during PID control parameter which is used to apply manual set value for integral time in PID calculation 6 Hysteresis value is set during ON OFF control gt OUTPUT LIMIT parameter is displayed only when PID control activated P 0 gt ON OFF HYSTERESIS parameter is displayed only when ON OFF control activated P 0 2nd Edition of TEMP2000M Ser
93. ies IM April 8 2014 Page 135 176 SAMWON TECH Table 18 3 PID group setting screen parameter Parameter Proportion band zin O ON OFF control 0 1 1000 0 oetting range Initial data LEN EEC Differential time n 06000 SEC e Output upper limit n 0 0 100 0 96 Output lower limit n Correction value n 5 0 105 0 96 Upper limit hysteresis itn during ON OFF control Lower limit hysteresis itn during ON OFF control in 1 6 EUS 0 0 10 0 EUS 0 0 10 0 output lower limit 4n lt output upper limit n 100 0 o o EUS 0 5 EUS 0 5 2nd Edition of TEMP2000M_Series IM April 8 2014 Page 30 7 1 48 SAMWON TECH 19 DI function and operation 19 1 DI operation setting 19 1 1 DI function and operation setting the 1 screen gt Display type can be set for photo only when SD CARD option is selected DI CONFIGURATION pce DISPLAY METHOD QD TEXT PICTURE a BUZZER TIME 2 KEEP TIME 00 0 M S DI DETECTION TIME 3 DETECT TIME 00 01 M S Fig 19 1 DI function and action setting the 1 screen D It sets display type when DI error occurs character refer to the Fig 19 12 Screen whose DI error display type is character z Photo refer to the Fig 19 13 Screen whose DI error display type is photo Only if internal memory has Fig File BMP photo is displayed when DI errors occurs 2 It sets the time of buzzer alarm in case of DI occurrence i
94. is no maintaining section Present Program Pointing Value Operation Start NE NK E SSP 1 2 3 4 Segment 2nd Edition of TEMP2000M Series IM April 8 2014 Page 55 176 SAMWON TECH 4 When there is only rising section without maintaining section Present Program Pointing Value Operation Start Operation Not started ETE E e E SSP 2 Segment 5 When maintaining section starts from Segment 1 Present Program Pointing Value Operation Start A SSP 1 2 segment 3 Time Preferred Program Operation STC T PV gt When program operation starts Setting Point SP starts from the present pointing value regardless of slope or Starting Setting Point SSP and progresses till Setting Point 1 SP1 for set time Present Program Pointing Value Operation Start p L 3B E L wq p pex L 9 Gr X jj 1 2 3 4 Segment 2nd Edition of TEMP2000M Series IM April 8 2014 Page 56 176 SAMWONTECH gt lt is the screen for sub output setting screen gt Select sub output in 12 1 Control amp Transmitting output gt itis expressed in red in pattern editing screen and the sub output can be set 00 03 02 PATTERN SET 03 21 AM T Hn START CODE plgINSERT MENT A i SEGMENT 01 SEGMENT 02 SEGMENT 03 SEGMENT 04 Mo ICE 200 0 200 0 200 0 200 0 000 01 00 001 00 01 00 00 01 00 00 01 i se 00 00 00 00 00 00 00 00100 00 00 00100 00 00 00 00 00 00 00
95. is on till Tartest setting data TSP Setting temperature Deviation 2 It sets the holding signal relay and holding time n case of stationary operation The state lamp is in operation screen but the relay output is not created n case of program operation The state lamp and relay on the operation screen are ON during Holding range operation time SEG TIME Setting temperature Holding time 3 It sets the relay and delay time of the 1 2 refrigerator operation signal 4 It sets the error signal relay and holding time The error is occurred during stop and operation the set relay is ON The relay holds the ON state during setting time and it is OFF after holding time The relay keeps ON state when the error is not recovered during holding time and relay is OFF at the error recovery time Table 13 9 Other signal relay setting the 2 screen Parameter Ascending relay application deviation EUS 0 0 10 0 E EUS 0 0 ri nal play ome MS o escena ana m xm NS 9 Descending relay application deviation EUS 0 0 10 0 uM EUS 0 0 Freezer signal REF relay 00 00 99 59 MIN SEC ABS 00 00 delay time wecWwbte we 4 wl ww cM 00 00 99 59 MIN SEC ABS 00 00 delay time mewams O e 9 1 3 2nd Edition of TEMP2000M Series IM April 8 2014 Page 113 176 SAMWONTECH gt Itis a screen to set the operation termination signal and U KEY relay gt
96. is pressed or to check the effectiveness of the input setting data by sound s Beep When the basic setting button is pressed or the setting data is input normally Beep and beep When the input data by the setting data input key is out of the input range gt Do not press with the sharp thing Pencil and etc or excessive power when the basic setting Cautions in manipulation button and setting data input key are pressed It may become the reason for the malfunction or damage on the touch panel CAUTION 2nd Edition of TEMP2000M Series IM April 8 2014 Page 29 176 SAMWON T ECH 2 3 2 Setting data input method gt Ihe input data used in product is set by the setting data input key test name input key and time signal input When button in Table 2 1 is pressed the setting data input key is appeared the data to be set can be input gt Refer to 5 4 Time signal operation for time signal input key gt Function and explanation of setting data input key EINEN a Qee ds ls les Los BE CODO y 6 D 9 D It displays the Parameter 2 It displays the Setting range 3 When the setting range is out of the Setting data display window the error message LIMIT ERROR is displayed 4 It is used when it returns to the original screen after stopping the input 5 It returns to the original screen after saving the input data 6 It is used to input the decimal point D It is u
97. ise gt Noise source Relay and contact point oolenoid coil and solenoid valve Electric power line Induction load Inventor Commutator in motor Phase angle control SCR Wireless communication device Welding machine High pressure ignition device and etc LOS e TO ON ON ON NNN NS NS SSS SS G pes I RA L Z gt Measure for the noise Make the wiring in cautious about the following points for the noise creation source A Make wiring with leaving gap between electric circuit and ground circuit for input circuit B Use the shield wire for the noise from the electrostatic induction Connect the shield wire to the ground terminal with using caution not to contact with the 2 point ground as occasion demands C Make the wire for the input by twisting tightly against the noise from electric induction D Make the wire by referring 1 3 3 5 Use of sub relay as necessary 2nd Edition of TEMP2000M_Series IM April 8 2014 Page 15 176 SAMWON TECH 1 3 2 Terminal layout 1 3 2 2 TEMP2000M display part terminal Electric power 24V DC COM Connect display part and connection part to PC Ethernet COMI Display part control part and connection part COM2 Display part and PCconnection part RS485 1 3 2 3 Control part terminal
98. it and sub unit EE LED for display the OUT2 output LED for displaying the electric power 2nd Edition of TEMP2000M Series IM April 8 2014 Page 25 176 SAMWON TECH 2 Manipulation and setting gt This produce is composed of dialogue style screen in touch screen method and it is a programmable controller designed easy for use by the customer 2 1 Basic operation flow chart When the electric power is ON after the installation of the product the initial screen is displayed sequentially and it converts to the program stop screen automatically t takes about 22 seconds for screen loading gt When the ls main button is pressed on the right upper most at the program stop screen it converts to the main screen Refer to the 21 System initial setting amp for initial screen change Ss Thank you fc Ae cha urnace controller production Ple ase use after read instruction i nanual fo safety Free to contact to our paria Div for a production inquiry and after service gt SAMWON TECH Logo display screen Initial screen TNT ST ee MES PROGRAM STOP EXPERIMENT OF PATTERN 1 4y PTN NO SEG NO o E ys OPER SCREEN FUNCTION amp FIX m m md jam ri riim e ST T ore PROGRAM SET RESERVESET DISPLAY SET EETAS TAS Pee p Main screen Program Stop Screen 2nd Edition of TEMP2000M_Series IM April 8 2014 Page 26 176 SAMWON TECH 2 2 setting button ope
99. ition of TEMP2000M Series IM April 8 2014 ie CS9 BMP W CS10 BMP A CS11 BMP ie CS12 BMP w CS13 BMP iui CS14 BMP ie CS15 BMP ii CS16 BMP 22 3MB 1882 3MB Fig 20 5 User screen setting the 2 screen 4 Page 148 176 SAMWONTECH 20 2 User screen operation gt Refer to 20 1 1 User screen setting the 1 screen gt 16 photos can be used for user screen When the user screen is used it is operated when there is no key operation during setting time When there are a few photos stored at the internal memory it is displayed by converting the screen gt When DI error is created on the user screen during operation the DI error screen is displayed 5 DI error display pattern is displayed regardless of Letter and Photo m NE NUN 9 button is gt When anywhere of the screen is touched during user screen operation appeared The controller lez der of the 21st centul 0 o 4 Fig 20 6 User screen D 2 User screen is terminated and recovers to the operation screen When the time is passed user screen is operated again O SS lt moves from the present user screen to the previous user screen t is not operated when user screen file is only 1 3 A It stops the user screen for a while DPP t moves from the present user screen to the previous user screen It is not operated when user screen file is only 1 B EX AMO button is disappeared in the use
100. l CONTROL OUTPUT SET ca OUTT TERMINAL O SS GSR OUT TERMINAL 2 ssR sScR Fig 12 1 Control output setting the 1 screen D It sets the output type of the OUT1 output terminal n case of SSR it is displayed like Fig 12 3 SSR Output terminal setting screen 2 It sets the output type of OUT2 output terminal n case of SCR it is displayed like Fig 12 4 SCR Output terminal and transmitting output terminal setting screen 3 It moves the screen to the next or before 4 The page moves up down from the present screen 2nd Edition of TEMPZ000M Series IM April 8 2074 Page 96 176 SAMWON TECH gt Iit sets the type of output for temperature control gt The following figure is the setting on the product It is a screen to check set with the graphics na AO O AS D ati G Ea Perry CONTROL OUTPUT SET 04 11 AM OUTPUT TERMINAL n EROR z E HEAT ouT Md D DUT2 E p ord 2 A H mu ERE a b SENSOR IN Fig 12 2 Output terminal displays screen D When OUT1 is set in SSR at Fig 12 1 Output setting the 1 screen The setting screen is displayed like Fig 12 3 SSR Output terminal setting screen 2 When OUT is set in SCR at Fig 12 1 Output setting the 1 screen it is displayed like Fig 12 4 SCR Output terminal and transmitting output terminal setting screen 3 It moves the screen to the next or before a m9 UW D3 U f CONTROL OUTPUT SET 04 12 AM OUTPOT TERMI
101. n ES FIX OPERATION STOP o 250 0 w ECEE ee 250 0 SEED Mv GRE SP GED Mv ED SP ELO Mv EED Fig 4 2 Main button restriction setting 2nd Edition of TEMPZ000M Series IM April 8 2074 Page 50 176 SAMWON TECH 4 2 FUZZY function gt FUZZY function can effectively control the overshoot that may occur when intense fluctuating load or frequent Set Point changing Before PV approaches to SP automatically calculated SUPER SP can restrain overshoot FUZZY OB Time a FUZZY ON e e senor IN SO Reo Time SUPER SP Overshoot control Calculating SUPER SP Generating MV by assuming SUPER SP as real SP 2nd Edition of TEMP2000M Series IM April 8 2014 Page 51 176 SAMWON TECH 4 3 SP SLOPE function gt SP SLOPE function to make the Set Point ascend or descent gradually overtime gt When changing the Target SP during FIX run operation NSP current SP will be changed from current PV to Target SP gradually by assigned ramping rate gt SP SLOPE Operation gt Operation gt Fix Operation gt Temperature Change Ratio gt 20 0 C Min e iP SP Change 2 Min Amount of change to TSP SP TSP PV and Slope 20 0 C min gt 70 0 30 0 40 0 it will take 2 min to ramp up to TSP m For 2 minutes NSP will be changed from 30 0C to 70 0C at a constant rate of 20 C min 2nd Edition of TEMPZ2000M
102. n environment in Fig 22 2 Sub channel communication system parameter setting screen REMOTE BIAS 2 SP BIAS o EB Fig 22 11 Sub channel communication setting screen 1 D It sets the use non use of SYNC communication operation 2 It sets the calibration data to be applied to such channel setting data SP in the main channel of SYNC operation 3 It selects the group of channel to be applied in case of parameter change E it changes only the parameters in currently selected channel ES it changes every channel parameter simultaneously gt It changes every channel parameter simultaneously B MAN SYNC COMMUNICATION SET SUB CHANNEL 9 2 55 2 SYNC RUM WITH MCH 0 UNUSE QUSE REMOTE BIAS SP BIAS 0 EE Fig 22 12 Sub channel communication setting screen 2 E 22 6 PAME mcs N 1 Ste Welle Setting range Initial data SYNC communication Non use Use Non use Operation lo ia le EUS 20 0 20 0 calibration data 2nd Edition of TEMP2000M Series IM April 8 2014 Page 166 176 SAMWON TECH 22 6 2 SYNC Communication operation gt SYNC communication is an operation type for sub channel to synchronize the operation state and setting data SP of the main channel Temperature Time No application of operation calibration data Temperature Main Channel A Sub channel 1 da Sub channel 2 Application of operation calibration data The operation in same setting temperature SP o
103. nce there is no relevant file in internal memory 2 Picture corresponding to DI among photo files BMP saved in SO CARO is displayed Only selected files can be uploaded into internal memory 3 This is the button used to upload files in SD CARD into internal memory 4 It displays current SD CARD capacity t displays only when SD CARD is inserted gt When lee upload button is pushed in Fig 19 10 Display photo setting screen when DI error occurs 31 only photo files selected lM in SD CARD are uploaded into internal memory gt Message which says Now upload in progress is displayed at the bottom of screen during upload CUSTOMER PICTURES SET INTERNAL MEMORY SD CARD MEMORY wj DIS BMP ij D110 BMP A DITI BIP A DIT2 BhP se DIT3 BMP w DI14 BM w DI15 Bh E El E DE E E E El w D116 BM Fig 19 9 Display photo setting screen when DI error occurs 2 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 143 176 SAMWON TECH gt When upload is completed message which says Unload is completed is displayed at the bottom of screen gt Once upload is completed photo files in internal memory are activated for selection H II CUSTOMER PICTURES SET INTERNAL MEMORY E DI 1 BMP E 012 BMP ES 013 BP ES O14 BMP Es DIS BMP C DIG BYP les DIT BMP E 018 BMP Fig E DI 9 BvP 6 DI10 BVP Ej 0111 BP ES DI 12 Bye Ey DI 13 BP E 01 4 BP p 0115 BMP SD CARD MEMO
104. ng by external shcok In spite of clearing disturbance Then it makes MV increase and reach to the peak point 10096 output generating Clearing MV starts decreasing from MV should be lasting 10096 by dissolving acumulatied acumulative integral term integral term Reverse calculate the integral term until NPV enters P BAND and reduce the integral term OTE dissolve time after disturbance released It reduces Overshoot and NPV is stabilized quickly 2nd Edition of TEMP2000M Series IM April 8 2014 Page 101 176 SAMWON TECH Example What is the P BAND when Input Range High RH 100 00 Input Range Low RL 100 0 Rate P 10 0 Over Integral Prevent ARW 20096 Answer Input Range RH RL 100 0 2100 00 200 0 2 Input Range x Rate P 200 07 X 10 0 20 00 9 P BAND 2 x ARW 20 00 x 200 40 0 12 1 2 4 Control Constant itis used to change control characteristic based on preset PID value after Auto Tuning gt Control Constant is adjustable according to the control object and its characteristic Control Constant lt 1 0 It has quick response time but has higher haunting Control Constant gt 1 0 It has less overshoot but has slower response time NPV Control Constant lt 1 0 A Control Constant 1 0 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 102 176 SAMWON TECH 12 2 Transmission output setting 12 2 1 Output setting the 3 screen gt itis a sc
105. nge Initial data Experiment name Us A L Special character ABS EXPERIMENT OF PATTERN 1 80 1 80 Maximum 24 characters 2nd Edition of TEMP2000M Series IM April 8 2014 Page 69 176 SAMWON TECH 6 Graph display and saving setting 6 1 Pattern graph display This screen displays the operation pattern and process time with graph during program operation gt It converts to the 1 screen Pattern graph display when Graph amp Save is selected at the upper left of Fig 3 1 Main Screen pul is a screen to display the pu pattern in Fig 5 2 Pattern editing screen ANS Pattern No and Wild Display time can be changed during the graph process PY PATTERN GRAPH VIEW 03 40 AN Fig 6 1 Graph amp Save the 1 screen Time axis base change AA Na AO VU Us U PY PATTERN GRAPH VIEW Fig 6 2 Graph amp Save the 1 screen Pattern graph display D It displays the graph setting menu The parameter related with the pattern graph operation is displayed at the bottom depending on the ON OFF operation of graph menu button 2 The pattern No to be expressed is set a When 1 Pattern No button is pressed the key to set the pattern No is displayed Refer to Fig 6 4 Pattern No Input Screen 3 The time of X axis on the graph X is set When EM Display time button is pressed the key to set the time
106. nverts the user screen conversion time The stored photos are converted in set time period 4 It moves to the next or previous screen Table 20 1 User screen setting the 1 screen parameter Initial data Start time 0 05 99 59 MIN SEC Operatio n time screen setting conversion 0 01 99 59 MIN SEC time 2nd Edition of TEMP2000M Series IM April 8 2014 Page 146 176 SAMWON TECH 20 1 2 User screen setting the 2 screen gt Itis a screen to show the photo file BMP stored in SO CARD gt The SD CARD without file is inactivated The selection and upload are not available ys n Y Y e CUSTOMER PICTURES SET ICAA INTERNAL MEMORY SD CARD MEMORY A CS9 BMP A CS10 BMP j E iw CS11 BMP 2 m Lj iui CS12 BMP D gt 3 E E A CS13 BMP il E wa CS14 BMP jui CS15 BMP iui CS18 BMP a USE TOTAL MEMORY 20 5MB 1882 3MB Fig 20 2 User screen setting the and screen 1 D 54 is inactivated because there is not corresponding file at the internal memory 2 It displays the photo file corresponding to user screen out of the photo files BMP stored in SD card The only selected file can be uploaded into the internal memory 3 It uploads the photo files BM stored into the SD CARD into the internal memory 4 It displays the current SD CARD capacity t is displayed only when SD CARD is inserted gt When E Upload button is pressed in Fig 20 2 User s
107. o 9 2 BMP file making 3 It sets the use non use of the INIT BMP stored in SD card i L4 button is inactivated when there is no INIT BMP file 4 lt initializes the internal memory Table 21 1 System initial setting the first screen parameter Setting range nitial data Language Kin English Korean Chinese A English display A System password 0 9999 setting A Informatio 0 9 A Z Special letter Max SAMWONTECH CO LTD Initial n display 1 24 Screen Informatio 0 9 A Z Special letter Max TEL 82 32 326 0120 informati n display 2 24 on j d Informatio 0 9 A Z Special letter Max HTTP WWW SAMWONTECH COM n display 3 24 Internal memory Total capacity 28 5MB BS BS ABS BS ABS ABS ABS 2nd Edition of TEMP2000M Series IM April 8 2014 Page 152 176 SAMWONTECH 21 2 State display lamp setting gt itis a screen to set the types of lamp to be displayed in the stationary FIX and program operation the 1 screen gt Maximum 24 lamps can be selected FEF STATUS DISPLAY ee LAMP SELECT 20 wisi MAIS Miss Mis MISS Miss BIST me ise MATS MATS2 MATS Isi BATSS TSE mets Tse MAL AA MAS AAA SALI ES SAL2 EdSAL3 SALA BARUN 4 IREF aj 2REF SD EDI ao Bos DIA Bos Bois Bol Bois pois Bono pol paola Bora Bora EjDI15 4D116 M HBA RA STAL T 24 SIAL2 EJ STHBA A S2AL 1 A S2AL2 E S2HBA E S3AL 1 5 S3AL 2 E SSHBA E SAAL 1 E S4AL2 E S4HBA E S5AL 1 F S5AL 2 E SSHBA
108. o install at the place where the flammable stuffs exist N Cautions in installaiton CAUTION A Do not place the device or wire which become the cause of the noise near to this product B Use the product within 10 50 C 20 90 RH The dew shall not be made Especially do not place the excessive heating device at near Do not install the product in declining D Keep the product within 5 70 C 5 95 RH The dew shall not be made Especially use after full warming up when it is used in under 10 C Make wiring after switching off of every device during the wiring Cautions in electric shock G This product operates in 24V DC 22VAmax without special manipulation There is a risk of the electric shock and fire when it is used in the abnormal electric source H Do not work with wet hand There is a risk of the electric shock Keep the basic cautions to reduce the fire electric shock and risk of injury in use J Install and use according to the instructions on the installation manual K Refer to the installation instruction for the necessary information for the ground However do not ground to the water pipe gas pipe phone line and lightening rod There is a risk of explosion and ignition L Do not switch on before connection of the devices of the product It may cause the failure M Do not close the ventilation hole on the product It may cause the failure N Do not decline the I O BOARD and install inside the hy
109. on X axis is displayed The time on the X axis can be changed during operation 4 It moves to the current screen to the next screen 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 70 176 SAMWONTECH 5 When the gt Left Right button is pressed at present page it changes into the previous next stage on the time axis gt itis a screen to display the process time of the segment PY PATTERN GRAPH VIEW D Fig 6 3 Graph amp Save the 1 screen Program operation D It displays the current temperature even during the operation 2 lt colors into light green on the part where the operation is processed 3 It displays the set pattern process time in 5 1 Program pattern setting gt itis a screen to input the pattern No to be displayed on the graph gt The pattern No can be input even during operation WEZ PATTERN GRAPH VIEW GE ajaja le fe o es Ios a CES Fig 6 4 Pattern No input screen Table 6 1 Graph 8 Save the 1 screen parameter Setting range data Pattern Pattern No e ee es e ee latina 30 min 1 hour 3 hours 6 hours pios cd 12 hours 24 hours 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 71 176 SAMWON TECH 6 2 Measured data PV graph view gt itis a screen to display by opening the data file recorded in 3 2 3 Stationary operation the Due operation screen and 3 3 3 Prog
110. on history screen D The history is display in case of DI error creation The name set in 19 2 DI error name is displayed x The change is impossible as it is only for reading 2 It deletes entire DI error creation history 3 It checks the next or previous error history Table 7 2 Display set the on screen parameter Setting range Initial data omiso ass nonse Entire deletion Non use Use 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 79 176 SAMWONTECH gt It is a screen for DI error creation The character and photo screen setting can be made in 19 DI function and operation setting gt When Recovery button is pressed it is converted to the operation screen by escaping from DI error screen The same error creation is neglected for 1 minute when it is escaped from the screen through the DI s Recovery button after DI creation Ex When it is escaped with Recovery during DI1 creation the DI1 creation is neglected for 1 minute and DI error screen is displayed when DI1 creation state after 1 minute The neglect ion here means the DI error screen p am Buzzer blocking button is button to block the warning sound during DI error creation Ex Explanation on the lamp state x DI related lamp is ON in DI related error creation x DI related lamp is OFF after DI error creation da Character Bill Photo w Character BBl Photo oo DI ERROR OCCURRENCE 03 54 AN gt
111. oved Comi MV COM PWR SAMWONITIECH SS eS AA How to assemble the end bar Firstly insert the end bar Push up the end bar to Fasten the screw the upper side of rail arrow direction 2nd Edition of TEMP2000M Series IM April 8 2014 Page 11 176 SAMWON TECH gt in case of installing on the wall directly 1 Disassemble the back cover of main and sub unit as follows Main unit oub unit oub unit Back cover Main unit Back cover 2 Pullin D pushing D Pushing 2 Pulling Disassemble the back cover by pulling part after pressing part D of main unit Check the space to install in consideration of external dimension of screw hole and back cover 2 Check the space to install in consideration of external dimension of screw hole and back cover Main unit back cover oub unit back cover 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 12 176 SAMWONTECH 3 Assemble back cover and fix on the wall with screw Fastening torque recommended for screw 0 3 N m 3kgf cm Main unit Sub unit BACK COVER BACK COVER Be cautious for the foreign material not to be put into the connector in case of fixing the back cover on the wall Possibility of communication connection fault Be cautious for the exposed board surface not to be scratched or damaged 4 Insert the upper part of the main and sub body on the main sub back cover and assemble for hook to be
112. peration time 1 Delay time 000 00 00 Time signal 2 setting data N SEG TIME 2 Delay time Operation time SEGMENT N 1 SEG TIME N SEG TIME N 1 SEG TIME e Operation time lt gt 2 Delay time Delay tim 000 00 00 N Time signal 3 setting data SEGMENT N 1 SEG TIME Operation time 3 Delay time 000 00 00 Time signal 4 N SEG TIME setinde lt Delay time Operation time SEGMENT w t does not make influence on the next segment Operation time 4 Delay time 000 00 00 Time signal 5 setting data SEGMENT N 1 SEG TIME 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 66 176 SAMWON TECH 5 5 Standby operation gt Itis a screen to set the standby range and time to standby during program operation gt The set standby operation here is applied to 5 1 Program pattern setting Definition on standby operation Qondition for entering the standby operation When the measured data do not enter to the standby operation setting range within segment time Qondition for releasing the standby operation lt When the measured data enters to the standby operation within segment time When the standby time is not set initial value the standby time shall have the infinite value A m SET 03 38 AM WAIT TIME 3 WAIT TIME 00 00 H M WAIT USE METHOD 4 Dal QOSoK SEG Fig 5 10 Screen for setting the standby operation D It sets Y N of using the standb
113. put operation range When the output upper limit lower limit is changed it is applied to the control output MV in auto tuning When the type of control output is SSR it is operated in 0 100 output regardless of the restricted value set in the upper limit lower limit Calibration data When the integration time I is 0 during PID control it sets the parameter to apply the manually set data into the integration time item of PID calculation 6 It selects the group of channel to be applied in case of parameter change ES It changes only the parameters in currently selected channel gt Edit changes every channel parameter simultaneously It moves to the corresponding channel in case of parameter setting 2nd Edition of TEMP2000M Series IM April amp 2014 Page 173 176 SAMWON TECH gt it changes every channel parameter simultaneously Se PID GROUP SUB CHANNEL PID VALUE OUTPUT LIMIT HIGH LIMIT 100 0 LOW LIMIT 0 0 MANUAL RESET MANUAL RESET 50 0 EE Fig 22 21 Sub channel PID group setting screen 2 Table 22 10 Sub channel PID group setting screen parameter Parameter oetting range Initial data MEE 0 0 ON OFF control 0 1 1000 0 CH n integration time 06000 SEC time CH n output upper limit 0 0 100 0 output lower limit lt output upper limit CH n output lower limit CH n calibration data 5 0T05 0 96 dn 1 6 2nd Edition of TEMP2000M Serie
114. r of channel selected currently gt ES It changes the parameter of every channel as same Sensor filter The sensor filter time is set when the high frequency noise is included into the input signal 60 It moves the screen to the next and previous screen Input calibration BIAS function t calibrates temperature input deviation It moves to the corresponding channel in when the parameter is set 9 lt sets the operation direction of the PV Present Value in case of sensor disconnection It is a table to be list the representative sensor No when the sensor type is selected a lt moves to Fig 22 2 System parameter setting screen 2nd Edition of TEMP2000M Series IM April 8 2014 Page 157 176 SAMWONTECH gt it changes every channel parameter simultaneously SENSOR INPUT SET SUB CHANNEL 04 36 AN OTHER PARAMETER RANGE HIGH 1370 0 EB RANGE LOW 200 0 c UNSET UP Q DOWN Fig 22 4 Sensor input setting the 1 screen of sub channel 2 gt When the temperature sensor is set in RTD the following screen is displayed 00 03 02 04 37 AM SENSOR RANGE RANGE HIGH 850 EB RANGE LOW 200 c QUNSET UP C9 DOWN qa Fig 22 5 Sensor input setting the screen of sub channel In case of RTD setting 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 158 176 SAMWON TECH gt When the temperature sensor is set in DCV the following screen is displayed na no UU U
115. r operation with constant deviation is available for sub channel depending on the program operation of the main channel gt The present value PV of the channel which is controlled and dispersion can be recorded by connecting the additional sensor 2nd Edition of TEMP2000M Series IM April 8 2014 Page 167 176 SAMWONTECH 22 Sub channel alarming signal setting 22 7 1 Sub channel alarm signal setting the 1 screen gt itis the Sub channel alarm signal setting the 1 screen gt It selects the alarm amp heater disconnection of sub channel in Fig 22 2 Sub channel system parameter setting screen ALARM SIGNAL SET SUB CHANNEL FETA e ALAPM OPERATION O QRN Qawvs 4 H FS WP PY HIGH LIMITED ALARM FORWARD STANDBY STANDBY ACTION FORWARD ACTIONCNORMAL OPEN REVERSE ACTIONCNORMAL CLOSE HIGH LIMITED ALARM LOW LIMITED ALARM INSIDE DEVIATION RANGE QUTSIDE DEVIATION RANGE ABSOLUTE VALUECPV ALARM DEVIATION VALUECIPV SPIJ ALARM GJ pe X O ise JUD En Fig 22 13 Sub channel alarm signal setting the 1 screen 1 D It sets the alarm operation Operation It performs the alarm operation only in operation Always It performs the alarm operation regardless of operation stop 2 It selects the group of channel to be applied in case of parameter change EJ It changes only the parameters in currently selected channel gt Edit changes every channel paramete
116. r screen The controller lea der be of the 21st centur el gt ol OF 2nd Edition of TEMP2000M Series IM April 8 2074 Page 149 176 SAMWON TECH 20 3 BMP file making Ss Use Photoshop program S for making BMP file certainly Picture Plat used generally in the computer cannot be used because the bit map cannot be set in 16BIT gt BMP file composition 16BIT X1 R5 G5 B5 BMP gt Resolution w User screen 640 X 480 Pixel nitial screen 640 X 480 Pixel c Dl error screen 520 X 422 Pixel File name i User screen CS1 BMP CS2 BMP CS3 BMP CS14 BMP CS15 BMP CS16 BMP Total 16 units Initial screen INIT BMP Dl error screen DI1 BMP DI2 BMP DIS BMP DI14 BMP DI15 BMP DI16 BMP Total 16 units t cannot be used when the user screen initial screen and DI error screen are saved with another file name which is not designated Use the extension with BMP when the file is saved in Photoshop program The folder name inside the SD CARO is appointed with BMP With regards to the BMP instruction manual download from the homepage of our company 2nd Edition of TEMP2000M Series IM April 8 2014 Page 150 176 SAMWONTECH 21 System initial setting 21 1 Basic screen display setting 21 1 1 Basic screen display setting gt The setting is available with languages and system initialization 00 03 02 ES INITIAL DISPLAY E ANGUAGE S SY
117. r signal 15 1 Inner signal setting VS pad dub aes e EO ee race opo ee Sor vuv RA ao od Sob Rp Rr v apte doo Glos qo Spp cbr aar ae 1 19 15 2 Inner signal operation rn rrc TUI 121 16 ON OFF signal 16 1 ON OFF signal setting Rey pu Pup obe Vw aveo hs Sp Sp Re Vp NP I vas pg id Pe tqv ER o a 122 2nd Edition of TEMP2000M Series IM April 8 2014 SAMWON TECH 20 21 22 16 2 ON OFF Signal operation AA ee eT ee eee A RS AAA EN ee eee 124 Alarming signal 17 1 Alarming signal setting AREA IAS A SAA AS d ac a RC SAA RAN ASIA S d ous 125 172 Alarming signal operation RAS AA TRAE AR EDI ASA SRA SIA AAA 130 17 3 Heater short alarming signal ERE OA DADA ASS A O SA En 131 PID Group 18 1 PIO application SCODe setting Pana DN 132 18 2 PID group setting RSS SAA ARAS SD ARS ACA A AS aeq eee E E NN 135 DI function and operation 19 1 DI Operation setting UE Dag acp Acre acd E ONE E AL LN Ca ra Ku A S DN NA SALE ES CD RA de rt prd AR a ARE 137 19 2 DI error name essem hme imeem tnn 142 19 3 DI error creation SC QGQ n tmm IIIA III Ie mI eet 145 User screen 20 1 User Screen setting SAA AS AA ESA AAA ES A NARA L4 RA ore ARA AS AA AA tee 146 20 2 User screen operation AS EA E A A DAA A SAP e E 149 20 3 BMP file making method PAURA A ARRANCA ew E S AA A Ad RAE eee 150 System initial setting 21 Basic screen display setting AR e E ACI DU o P bc ee ee tUe I AER aoc oa ee ee ee er ere eee 1 51 21 P S
118. r simultaneously 3 It moves the screen to the next and previous screen 4 It moves to the corresponding channel in case of parameter setting gt it changes every channel parameter simultaneously i m PY HIGH LIMITED ALARM FORWARD STANDBY STANDBY ACTION FORWARD ACTIONCNORMAL OPEN REVERSE ACTIONCNORMAL CLOSE HIGH LIMITED ALARM LOW LIMITED ALARM INSIDE DEVIATION RANGE QUTSIDE DEVIATION RANGE ABSOLUTE YALUECPY ALARM DEVIATION VALUECIPV SPIJ ALARM 3 me E ENT 8 Fig 22 14 Sub channel alarm signal setting the 1 screen 2 Table 22 7 Sub channel alarm signal setting the 1 screen parameter Setting range Initial data 2nd Edition of TEMP2000M Series IM April 8 2014 Page 168 176 SAMWONTECH 22 7 2 Sub channel alarm signal setting the 2 screen gt lt is the sub channel alarm signal setting the 1 screen 2 ALARMT TYPE QD TYPE SELECT OFF 3 4 Fig 22 15 Sub channel alarm signal setting the 1 screen 1 Q ALARM SIGNAL SET SUB CHANNEL rx 12 01 AM ALARMT TYPE ALARM TYPE ETE HETHETE gt ane as me for f Fig 22 16 Sub channel alarm signal setting the 2nd screen 2 D It sets the objects of alarm signal Refer to Table 17 4 Alarm type 2 It changes the parameters of the currently selected channel 3 It selects the group of channel to be applied in case of parameter change ES It changes only the
119. ram the 2 operation screen gt The date and time stored in the internal memory is displayed on the top of the screen 00 03 02 03 42 AM NN es faic IES CA ESA IS 1371 MATN PY pus n RECS 2 y PA Qs on PA Pw PARA E T jy RI S I WEN SPA ES gt JM ILI X a 228 6 5 DHE amp HA AA AM 2 SM DAH EA amp 8 D It displays the channel which is being saved now t disappears from the graph screen when checked button is pressed and when amp is pressed again it displays on the graph screen Refer to Fig 6 5 Fig 6 6 Graph amp Save setting the 2 screen 2 It moves from current screen to the next screen 3 It moves to the start and end of the displayed PV graph page 4 It moves on the graph screen by one page 5 The blue line on the graph screen is moved up down by 1 dot When the screen is touched it displays the data on the indicated point while the blue line is moved gt It is a screen without the selection items in the channel items which is being saved AAA A ERGS SEZ 03 42 AM MEP A MESA USE TOTAL MEMORY 7 0MB 1910 5MB Fig 6 6 Graph amp Save setting the 2 screen Graph display is not selected 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 72 176 SAMWONTECH ltis a screen to display the saved file into the internal memory gt Refer to 3 2 3 Stationary operation the pne operation screen and 3 3 3 Program operation the on
120. ration gt Basic setting buttons are shown in Table 2 1 Table 2 1 Basic setting button Button type Button operation Touch the Setting Data in the stationary stop operation screen s Emmi e and it is used for setting the wanted setting data by the user The Pattern No part shall be touched in the program still screen and it is used for setting the wanted pattern No by the user It is used for inputting the general number and name It is used for selecting one of the many types It is used for setting the segment operation time and etc It is used for selecting one of 2 3 parameter settings ON state OFF state Inactive state It is used for selecting the use or non use of the corresponding parameter ON state OFF state Inactive state It is used for general screen conversion It is used for the increase and reduction of the page on the same screen It is used for the page conversion by the increase or reduction of the time axis on the same screen It moves to the beginning and end of the PV graph page displayed on 6 2 Measurement data PV graph view It is used for moving the PV display axis up down of the PV display axis in 6 2 Measurement data PV graph view 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 27 176 SAMWON T ECH 2 3 How to set the parameters gt The following setting data input key is displayed and the necessary data can be input when th
121. reated from the normal use defined in auto tuning B The repair by the failure created after the warranty period of the product shall be processed in real cost Payment according to the defined condition by our company C The following cases are processed in real cost even it is the failure created within the warranty period 1 Defect by the mistake and fault of the user Ex Initialization due to the loss of the password and etc 2 Failure by the natural disaster Ex Fire and flood and etc 3 Failure by the movement after the product installation 4 Failure by the random disassembly change or damaged on the product 5 Failure by the abnormal electric source such as the instable electric power 6 Others Please contact the point of purchasing and sales department of our company in case of necessity for after sales service due to the failure D 2nd Edition of TEMP2000M_Series IM April 8 2014 Page 2 176 SAMWON TECH 1 1 Checking the product Check whether there is no damage on the product by inspecting on the exterior when the product is accepted In addition check the following points 1 1 1 Check the specification of the ordered product Check whether the accepted product is same with the ordered specification How to check Check the model name specification code on the right of packing box and label on the left of product case TEMP2LJOOM OLT LVLET LT L D 2 3 amp
122. reen for setting the type of transmitting output Either PV or SP can be set for transmission output RETRANSMISSION SET RET TYPE ETE RET RANGE RANGE HIGH 100 0 EE RANGE LOW 0 0 EE Fig 12 6 Output setting the 3 screen In case of PV SP setting D lt sets the type of transmitting output 2 lt sets the upper limit lower limit of the transmission output range Table 12 3 Output setting the 3 screen parameter Parameter Unit Default RET Range High EU 0 0 100 0 E EU 100 0 PV U U 100 RET Range LOW RET Range High lt RET Range Low EU EU 0 096 2nd Edition of TEMP2000M Series IM April amp 2014 Page 103 176 SAMWON TECH 12 2 2 Output by Retransmission Type gt Retransmission Output is 4 20mA gt Attach 2502 Precision Resistor between both Retransmission terminal when use 1 5V retransmission output When Retransmission Type is PV or SP 4 0mA 12 0mA 20 0mA Ru Range Low Range High Range Low 2 Range High i When Retransmission Type is MV 4 0mA 12 0mA 20 0mA 0 0 50 076 100 0 2nd Edition of TEMP2000M_Series IM April 8 2014 Page 104 176 SAMWON TECH 13 DO relay output 13 1 Relay No and parameter setting gt When the state created during operation is output to the I O relay board the relay No corresponding state is set gt Relay No 13 32 can be used for 1 02 BOARD option addition 13 1 1 Inner signal Time signal
123. relay setting screen gt When the set relay No is overlapped the relay is operated OR condition if any signal out of the set signals is output 00 03 02 04 23 AM 155 RELAY IS2 RELAY ISB RELAY IS3 RELAY IS RELAY 154 RELAY 158 RELAY TS5 RELAY o TS6 RELAY TS RELAY TS8 RELAY Fig 13 1 Inner signal Time signal relay setting screen D lt sets the relay of the inner signal 151 1S8 2 t sets the relay of the time signal TS1 TS8 3 lt moves from present screen to the next screen Table 13 1 Inner signal time signal relay setting screen parameter Parameter Setting range Initial data 2nd Edition of TEMP2000M Series IM April amp 2014 Page 105 176 SAMWONTECH 13 1 2 Alarm signal SEG alarm signal relay setting screen DO CONFIGURATION ALARM SIGNAL AL1 RELAY AL3 RELAY 0 0 AL2 RELAY 0 AL4 RELAY SEG ALARM SIGNAL SEG ALT RELAY 0 SEG ALS RELAY 0 SEG AL RELAY 0 SEG AL4 RELAY 0 Fig 13 2 Alarm signal SEG alarm signal relay setting screen D lt sets the alarm signal relay AL1 AL4 2 t sets SEG Alarm signal relay SEG AL1 SEG AL4 Table 13 2 Alarm signal SEG alarm signal relay setting screen parameter Setting range Initial data oEG Alarm signall SEG Alarm signal4 0 32 relay 2nd Edition of TEMP2000M Series IM April amp 2014 Page 106 176 SAMWONTECH 13 1 3 ON OFF signal relay setting screen gt lt sets the relay No for the ON
124. ry pm Aly m j pem am die Fw p amm bem ms r F7 y e j E om I LJ e f M j IN it Ww E Mee a T 1 P Xr d ul ee vl i LH m ha AA d us UA a mus k j 2011 12 07 05 56AM TEMP2500m OGRAMMARLF ane y TEMPERATURE Cow ir Instruction Manual SAMWON TECH E This edition is common manual for TEMP2500M TEMP2700M 1 Safety instruction Cautions 1 1 Checking the product CEUTA ee TEL IAN Cee ee Le NAAA AAA AAN 3 1 2 Exterior and how to install AIRIS AROS IRAN SE ORCR SUP DDR A ee AA ADA ERR 6 1 3 Wiring ASAS PU eee Paca VIS OR o AA E ep ar wc aA d NOE S RAR AS RR e Re 15 1 4 Display function and hnlamQe ssssssee III MIA 24 1 5 Gontrol part LED Cece Tere SAS AR ART AA CAS a TEE X ek e NC RAR ARAS RASO DAR E 25 2 Manipulation and setting 2 1 Basic operation flow chart RR IED AAA SATA ARRASATE RARAS C e ERA RARA 26 2 2 oetting button Operation rU Lp TITLE TROP IIS RAE AAA DAS ARALAR A AAD ERS AAA AAA IA RAE AAA 27 2 3 How to set the parameters a Guter Nus cae edo MON SSA AER AAA dr 28 3 Setting operation state 3 1 Main SC eeN mI IIIA hh eh Ihe heme minm 31 3 2 Stationary FIX operation TREC E CERT TEETER ECE SCE Ee ST eT SE AIDA AA 7115272252513 72210541 32 3 3 Program operation ETS NECARE ERU ee ee Tee Tee do CX RRA eee ES UR NORD AAA A RA 31 3 4 Auto tuning screen e M amp c tettt IIIIIHIIhhhhhhIIheHhh hhHhhm hie heme 42 3 5 Sub channel auto tuning AE AOS Re Lee Ce IEPS ARR AE ACE ee U
125. s IM April 8 2014 Page 174 176 SAMWONTECH 22 9 Sub channel basic screen display setting gt When it Is initialized the parameters in every sub channel is initialized gt it selects the sub channel system initial setting in Fig 22 2 Sub channel system parameter setting screen Ep SYSTEM INITIALIZATION SUB CHANNEL Fig 22 22 Sub channel basic screen display setting D It changes every channel parameter simultaneously 2nd Edition of TEMP2000M Series IM April 8 2014 Page 175 176 SAMWON TECH Mbps dr d EU EUS units are used to explain CONTROLLER PARAMETER Parameters with unit displayed with EU EUS are changed proportional to existing Data when there is change in Sensor Type IN T or Hight Low Limit in Input Range INRH INRL Hight amp Low Range Limit set value is initialized in this case EU Engineering Unit Value according to Range of Instrument EUS Engineering Unit Range according to the Span of Instrument AA R a gt RH Input Range High Limit eeeocooseccocesceccesesssocesccososcocososeseceseseoscoosoceccseoccccceccecceeeeceecceceecceeee EU 100 100 EU O 100 RL 0 RH EUS O 100 EUS 100 100 RHI PRL gt Range of EU EUS e tS US MEN EU O 100 RL RH RH RLI 2 RL u 100 100 IRH RLI TRLI RH Rb EUS 0O 100 O RH RL I RH RL 2 Eus 100 100 1AH ALI 1IAH
126. s U 2 SENSOR INPUT SET SUB CHANNEL VERE OTHER PARAMETER SENSOR RANGE D RANGE HIGH ps RANGE LOW 1 000 V 2 SCALE HIGH 300 0 c SCALE LOW 0 0 EG DOT POSITION 3 por Position 1 M Fig 22 6 Sensor input setting of sub channel In case of DVC D lt sets the scope of use for the voltage input sensor 2 lt sets the display scale for the input voltage 3 lt sets the digit under the decimal point Table 22 1 Sensor input setting the 1 screen parameter of sub channel Parameter Setting range Initial data Sensor type Refer to Table 22 2 Sensor No ABS TC K2 Decimal point 03 ABS When sensor group is DCV ABS 4 1 TOCTRJIG Thermocouple display T C TC RJC RJC When sensor TES Lower limit range lt Upper limit range EU EU 0 0 Input calibration EUS 100 0 100 0 EUS EUS 0 0 199 9 3000 0 C E When sensor ovou is DCV SCALE lower limit lt SCALE upper 50 p limit i When sensor group is DCV The upper limit lower limit for the sensor group sensor type upper limit lower limit of the scope display unit scale upper limit lower limit cannot be changed during operation Lower limit range sensor filter SCALE upper limit SCALE lower limit 2nd Edition of TEMP2000M Series IM April 8 2014 Page 159 176 SAMWON TECH Table 22 2 Sensor No B T C Lo ene A 3 57 do 3100 F 8 100 400 8 60 32 33007 F 8 00 8000 C
127. s and exchange before passing the exchange period when it is necessary M RELAY JQ1P DC18V ALD18V equivalent Under 300 000 times of ON OFF B BATTERY CR2030 3V equivalent Under 200 000 hours A Contact to the point of product purchase or sales department of our comp for the exchange of the life span parts 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 5 176 SAMWON TECH 1 2 Exterior and how to install 1 2 1 Installation location and environment IN Cautions in installation location and environment CAUTION A Handle after switching on at the state of installing this product on the panel because there is a risk of electric shocking Cautions for electric shocking B Do not install this product at the following location and environment A place where a person can touch the terminal point without recognition A place exposed directly to the mechanical vibrato or impact A place exposed to the corrosive gas or combustible gas A place with big temperature change A place with excessive high Over 50 C or low Under 10 C temperature A place exposed directly to the direct sunlight A place influenced by electromagnetic wave A place with high humidity A place over 85 of ambient humidity A place where the flammable stuffs are placed at the surrounding A place with many dust or salts A place exposed to the ultra violet light zc Even though the case of this product is made of non flammable material such as ABS PC do n
128. safety of the product of the system to be connected for use B Our company is not responsible for the use and handling and every loss incurred due to the negligence without following auto tuning C In case of installing the additional protective or safety circuit for the protection and safe of this product or the system connected this product shall be installed at the outside of the product The modification Change or addition to this product is prohibited D Do not disassemble repair or modify randomly lt may cause the electric shock fire and mal operation E Please contact the sales department of our company in case of changing the part or consumables of this product F Do not allow the inflow of the moisture to this product It may cause a failure G Do not apply strong impact on this product It may cause the damage on the product or mal operation IN For exemption of their product CAUTION A Our company is not responsible for any warrant or liabilities on the product except the contents defined in quality assurance condition of our company B Our company is not responsible for any direct or indirect damage to the user or third party due to the unexpected defect and natural disaster in use of this product N For the quality insurance condition of this product CAUTION A The warrant period of the product shall be 1 year from the date of purchasing and it shall be repaired in free of charge in case of the failure c
129. sed Relay contact point input Transistor contact point input DI1 DI2 DI16 DI COM 1 01 BOARD 1 01 BOARD 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 21 176 SAMWON TECH 1 3 3 5 Use of sub relay gt ON OFF the load with use of sub relay in case that the resistance load exceeds the relay specification gt in case of using the inductance L load such as the sub relay and solenoid valve insert the CR filter In using AC or diode In using DC by constituting the surge suppressor circuit for spark removing certainly because it becomes a reason for mal operation and relay failure gt Recommended CR filter Sungho Electronics BSE104R120 25V 0 11 12092 c HANA PARTS CO HN2EAC Songmi Electric Co CR UNIT 953 955 etc Jiwoel Electric Manufacturing Co SKV SKVB etc c Shinyoung Communication Co CR CFS CR U etc D In case of OC relay x RELAY External DC current M Gauge y Use the relay coil with capacity under the contact point capacity DIODE Direct connect to the relay coil terminal 2 In case of AC relay x RELAY K CR filter Use the relay coil with capacity under the Direct connect to the relay contact point capacity 4 coil terminal 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 22 176 SAMWON TECH 1 3 3 Display part communication wiring method 15 20mm Minimum marginal dimension in case of cable connection
130. sed to input the sign It is used to change the input data the input data is erased by a single character 9 It is used to erase all input data It displays the previously input setting data Ex Setting data input method gt The method to change the setting data 49 4 into 12 5 is as follows Press the setting data input button on the corresponding screen Press the corresponding figures 0 2 3 0 5 in sequence and press ENTER key 6 finally 5 joo Ae le lso es os ODO vens no 2nd Edition of TEMP2000M Series IM April 8 2014 Page 30 176 SAMWONTECH 3 Setting operation state 3 1 Main screen 00 02 24 PYY MAIN MENU Wu GRAPH amp REC OPER SCREEN FUNCTION 8 FIX E O PROGRAM SET RESERVE SET rones It moves to the screen to set the use non use of the graph display graph recording and SD recording use OPER SCREEN It moves to the stop operation screen FUNCTION amp FIX lt moves to the function and operation method setting screen PROGRAM SET It moves to the program setting menu screen RESERVE SET It moves to the current time appointed operation time setting screen DISPLAY SET It moves to the screen for setting the screen brightness adjustment PV font buzzer sound use non use and backlight electricity saving 2nd Edition of TEMP2000M_Series IM April 8 2014 Page 31 176 SAMWON TECH 3 2 Stationary FIX operation 3 2 1 Stationary op
131. signal operation Relay time is the one which is set in the ON OFF signal delay time of DO relay setting gt LSP LOW SP MSP MIDDLE SP HSP HIGH SP NPV NOW PV NSP NOW SP gt LD LOW deviation HD HIGH deviation T ON OFF signal gt ON OFF signal operation according to PV setting ON OFF signal operation C NPV lt LSP gt always OFF MSP 2 LSP NPV lt MSP gt NPV 2 NSP LD ON gt NPV NSP LD OFF 3 MSP lt NPV lt HSP gt NPV 2 NSP HD ON gt NPV lt NSP HD OFF MSP DELAY T 4 NPV gt LSP gt always OFF 2nd Edition of TEMPZ2000M Series IM April 8 2014 Page 124 176 SAMWONTECH 17 Alarming signal 17 1 Alarming signal setting 1 st 17 1 1 Alarming signal set the screen gt This is the screen for setting alarming signal ALARM SIGNAL SET ALARM OPERATION QD QRN Quas H FS WP PY HIGH LIMITED ALARM FORWARD STANDBY STANDBY ACTION FORWARD ACTIONCNORMAL OPEN REVERSE ACTIONCNORMAL CLOSE HIGH LIMITED ALARM LOW LIMITED ALARM INSIDE DEVIATION RANGE QUTSIDE DEVIATION RANGE ABSOLUTE VALUECPV ALARM DEVIATION V LUECIPV SPIJ ALARM GJ ipe CE El ED jes Fig 17 1 Alarming signal set the screen D Alarming operation is set Run Alarming operation is only carried out during run Always Alarming operation is always carried out irrespective of Run Stop 2
132. t E ceee Deviation Range mee u f u Deviation Range DO FS DI FS AH RS AL RS High Limit Point Low Limit Point 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 129 176 SAMWON TECH 17 2 Alarming signal operation PV upper imt PV upper limit Deviation upper limit Deviation upper limit limi qu d gt L P Lower limit deviation seting H P Upper imit deviation setting L P Lower limit deviation seting H P Upper imit deviation setting 2nd Edition of TEMP2000M Series IM April 8 2014 Page 130 176 SAMWON TECH 17 3 Heater disconnection alarming signal gt This is the screen for setting heater disconnection alarming signal HEATER BREAK ALARM SET 04 31 AM HEATER BREAK ALARM POWER FREQUENCY CURRENT 50H7 60H7 D POINT DEAD BAND Fig 17 6 heater short alarming signal setting screen D Current value on the heater is displayed 2 The current data which generates alarming is set by identifying heater disconnection 3 Heater short alarming sets blind band during operation 4 Power frequency is set Table 17 5 Heater short alarming signal setting screen Setting range Initial data Lema Je c 0 50A if HBA option A 50A when alarming is set 0 100A if HBA option B 100A ABS 0 12A if HBA option C 12A O 10A if HBA option A 50A Dead band 0 20A if HBA option B 100A 0 2A if HBA option C 12
133. tate display lamp setting dE ER E oe ao se at ie tao NA AR dps og De NUR P ee IDEE DER ole dod che andes cde Dep acce wee CR ar deed 153 21 3 Initial screen operation AAA a tan AA ee ee ee ee EP EE Mr Ee Mn 154 oub channel setting 22 1 Sub channel system parameter setting screen s 155 22 2 System parameter setting procedure e e nne 156 22 3 Sub channel sensor input setting sss Henn nnne 157 22 4 Sub channel control output setting 9 n 162 225 Sub channel relay No setting nnne 164 22 6 Sub channel communication environment setting v 166 22 7 Sub channel alarming signal setting HH 168 22 8 Sub channel PID group setting ss nnne 173 22 9 Sub channel system initialization setting e e 175 Engineering Units 2nd Edition of TEMP2000M Series IM April 8 2014 SAMWON TECH 1 Safety instruction Cautions Thank you for your choice our multi channel programmable controller TEMP2000M This installation manual describes how to install this product IN safety symbol mark CAUTION A Handle with care or Caution shall be expressed In case of violation of this point it may cause the death heavy injury or severe damage on the device orotect the human body and device 2 Installation manual The cautions are described in case of the threatening to the life and body due to the electric shock and etc 1 Product It is displayed in case that there are points to be recognized certainly to CAUTION
134. termination i The SEG is processed during program operation gt Ihe auto tuning data is not saved into PID No when it is forcibly released during automatic auto tuning The tuning data is not saved into the PID No during automatic auto tuning when in case of blackout AN no no UU Ua Ue gt PROGRAM RUN EXPERIMENT OF PATTERN 1 03 14 AN so EAS w GE imn O 0 0 O Fig 3 18 Zone PID auto tuning screen D The tuning data is saved with selected PID No at the completion of auto tuning zc The figures inside the box display the PID No w When the auto is selected the tuning data is save sequentially in 1 6 Table 3 4 Auto tuning Zone parameter Setting range Initial value AUTO TUNING OFF 1 6 Auto N Cautions in auto tuning Zone type gt Even single PID No is not saved when the Auto tuning is forcibly terminated CAUTION b Even single PID No is not saved in case of blackout 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 44 176 SAMWON TECH gt FIX and PROGRAM AUTO TUNING Zone INRH INRL Indicates input sensor range ied idieadas to roS rai tede octets ius aida di jo ban ai riter todas laeso B eve Pin bed dee E cepto rto dudit ac ias Neb debi dora adictos hoi dic dereud terris ineo ter Leh oro betreuen dos ai criada teorie ule Los leere edad catis dae PROGRAM OPERATION AUTO ke S h O d 2 c Threshold 1 4 Indicates threshold value of PID No i A
135. the Pattern No is touched in the screen the input key is displayed for pattern number input 73 PROGRAM STOP EXPERIMENT OF PATTERN 1 GO AUN 1 SP zz Mv EXE SP D Mv GEED SP Ga wv RED ii am ii Le ii m ii saag afefe fels ef eo ex CAREEN KE un EA 3 CLEAR ENTER Fig 3 12 Pattern number input Table 3 2 Program still screen parameter Setting range Initial data number gt it is not operated when the program is not input on the pattern number displayed on the screen CAUTION i Refer to 5 1 Program pattern setting 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 37 176 SAMWONTECH pal 3 3 2 Program operation the still screen gt lt is the screen for measured data setting data control output quantity and operation state gt The pattern No cannot be set during operation o gt h SP GERD Mv Gas SP 6D Mv ED a 250 0 o ESOT O Ml o ETICA y 00 2500 6 9 LPIN SEG 0104 PIN RPT 000 001 SEG RPT 00 00 RPT 00 00 Md Ruw PiD 1 SEG TIME O00HO0M2ES RUN TIME 0000H00M265 ME Fig 3 13 Program operation the 1 still screen 2 D It displays the current operation status 2 It displays current pattern No and SEG No 3 It displays the current measured data 4 It displays the current measured data of the sub channel It displays current program pattern No and SEG No 6 It displays
136. to tuning in sub channel 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 47 176 SAMWON TECH 3 6 AUTO TUNING and TUNING POINT gt Auto Tuning is a strong function to establish optimal P l D value automatically by calculating the characteristics of the control system gt While generating ON OFF control output signal for 2 5 cycles the controller measures the PV response of the control system with a limit cycle method and calculate the optimal P I D value with the oscillation data gt Auto Tuning process can be carried out on FIX PRORGAM RUN state and after completion of Auto Tuning process calculated P l D value with SP will be automatically stored on P I D parameters of corresponding zone gt lt executes sequential Auto Tuning and store to PID sequentially when select Auto from Auto Tuning Parameter gt Auto tuning procedure with a set point Operation Type Fix Operation Input Sensor Temperature K2 Range 200 0 1370 0 C Auto Tuning Point 0 25 EUS 0 2596 3 9 C Set Point SP 50 0 C OL 0 0 OH 100 0 Parameter Settings Process of auto tuning PID Control Auto Tuning Point Tuning Procedure gt Auto Tuning Precautions D The tuning point does not change even if the SP is changed during auto tuning When auto tuning has completed operation continues again with the changed SP If S OPN occurs during auto tuning the process stops PID stays the same before a
137. uto Tuning Indicates PID No selected for Auto Tuning i Auto Tuning Set Point Indicates currently running Set Point sshold3 pedida is iria do Threshold 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 45 176 SAMWON TECH gt Tuning point calculation in zone type shall be made as follows D Tuning point 1 PID1 range auto tuning is performed imi Boundary datal Lower limit range PID1 auto tuning setting data Eom range 2 2 Tuning point 2 PID2 range auto tuning is performed A l Boundary data2 Boundary data PID2 auto tuning setting data Boundary datal d 5 A 3 Tuning point 3 PID3 range auto tuning is performed Boundary data3 Boundary data2 PID3 auto tuning setting data Boundary data y gt y 4 Tuning point 4 PID4 range auto tuning is performed Boundary data4 Boundary data3 PID4 auto tuning setting data Boundary data3 4 gt 2 Tuning point 5 w PID5 range auto tuning is performed i Upper limit range Boundary data4 PID5 auto tuning setting data Boundary data4 pp g y 2 Tuning point 6 lt PID6 range auto tuning is performed imi Upper limit range Lower limit range PID6 auto tuning setting data M IU Tens AA 7 Tuning point Auto w The al in PIDI 6 range is processed sequentially w The auto tunned PID data is saved into PID1 6 range Boundary data1 Lower limit range
138. uto tuning Auto tuning stops automatically if the second cycle is operated longer for 2 hours PID may change during auto tuning but when the process is finished the PID will be reset to new calculated value from auto tuning process If auto tuning is terminated by force the PID is the same value as it was before auto tuning began O 698 2nd Edition of TEMP2000M Series IM April 8 2014 Page 48 176 SAMWON TECH 4 Operation related motion setting 4 1 Operation method setting gt itis a screen for the additional function of the general device and the additional installation in stationary operation FUNCTION amp FIX OPERATION con EIS OPERATION MODE TIME OPERATION D PROG FIX 3 UNUSE QUSE POMER STOP MODE HAE O stop Dor un PESTRICT OF MAIN 3 UNUSE USE SP SLOPE USER PASSWORD a 4 SP SLOPE 00 c Fig 4 1 Screen for setting operation related motion D Either of the pattern or stationary operation can be selected for setting 2 The recovery motion can be set in case of blackout Stop It is a motion to return to the operation stop state when the power is returned after blackout in operation state Restart It is a motion to start the operation from the beginning after blackout in operation state Continuous lt is a motion to return to the operation state before the blackout after blackout in operation state 3 The control is stabilized in case of external problem is created
139. vered 00 03 02 FILE EDIT 03 34 AM COPY SOURCE COPY TARGET PATTERN NO 1 m START PATTERN END PATTEFN FILE INFORMATION DELETE PATTERN USED PATTERN 40 START PATTERN USED SEGMENT 600 END PATTERN SO 0 0 Fig 5 4 File editing screen 1 D It sets the original pattern No to be copied 2 It set the first and last digit of the pattern No to be copied The first pattern is copied when the end pattern is 0 3 Total set pattern number is displayed in 5 1 Program pattern setting The change is impossible as it is only for reading 4 It displays the total segment number set in 5 1 Program pattern setting x The change is impossible as it is only for reading It set the first and last digit of the pattern No to be deleted When the end pattern is 0 only the start pattern is deleted It copies the pattern set in to the pattern set in 2 The pattern setting data in is initialized Every pattern setting data is initialized 2nd Edition of TEMPZ2000M Series IM April 8 2074 Page 62 176 SAMWON TECH gt When the copy and deletion are made by wrong input of the pattern No the message like It is the parameter setting mistake Is displayed at the bottom of the screen 00 03 02 A we FILE EDIT 03 34 AM COPY SOURCE COPY TARGET PATTERN NO 1 m START PATTERN END PATTERN FILE INFORMATION DELETE PATTERN USED PATTERN 40 START PATTERN USED S
140. ves the data automatically in link with Operation Stop Manual It saves the data manually by the save key on the operation the 2 screen 3 It sets the saving media where the data to be saved he saved data stored into the internal memory is erased when the power is OFF Table 6 2 Graph amp Save the 3 screen parameter Initial data 00 01 99 59 Min Sec ABS 00 01 Save motion setting Auto Manual ABS Save media Memory SD card both of them ABS Both of them 2nd Edition of TEMP2000M_Series IM April 8 2074 Page 74 176 SAMWONTECH gt Itis a screen to set the pen using on the PV graph gt it can set up to Pen 6 00 03 02 PPI GRAPH PEN PARAMETER SET 03 43 AM PENT NAME PEN2 NAME ETE D NAME SET MAIN PV NAME SET MAIN SP PENT SELECT PEN SELECT 2 Qi cH1 PV SUB CH Qi CH1 sP Y SUB CH D PENT SCALE PEN2 SCALE 3 DISPLAY HIGH 1370 0 amp DISPLAY HIGH Ima c E DISPLAY LOW 200 0 BE DISPLAY LOW Ze E 6 Fig 6 9 Graph amp Save setting the 4 screen 1 W GRAPH PEN PARAMETER SET QU PENS NAME PENA NAME ETT NI SELEC PENA SELECT O UNUSE SUB CH D SUB CH SELECT 1 PENS SCALE PENA SCALE DISPLAY HIGH 100 0 DISPLAY HIGH Jo E DISPLAY LOW 0 0 DISPLAY LOW D c Fig 6 10 Graph amp Save setting the 4 screen 2 D It sets the pen name on PV graph t is changed at the tag name change in Fig 7 1 Screen Display Setting However the user tag name is not ch
141. when zone PID is used 4 PID group number to copy from is set 5 PID group number to copy to is set When PID to copy from is 1 6 and PID to copy to is 1 6 or O ALL all the PID values are copied Table 18 2 PID group setting the 2nd screen parameter Setting range Initial data Yes or no of tuning key display hidden display display zone PID zone PID selection criteria zone PID selection criteria PV PSP 0 PV Sony copy from PID group number to i copy to 2nd Edition of TEMP2000M Series IM April 8 2014 Page 134 176 SAMWON TECH 18 2 PID group setting 18 2 1 PID group setting screen gt This is the screen for setting the details for respective PID groups gt PID group is set for 1 6 00 035 02 c PID GROUP 1 04 31 AM PID VALUE ON OFF HYSTERESIS ETE D HIGH HYS eae Cc 2 LOW HYS 5 a 6 OUTPUT LIMIT HIGH LIMIT 100 0 o LOW LIMIT 0 0 EE MANUAL RESET 6 MANUAL RESET 50 0 Fig 18 3 PIO group setting screen D Proportion area P controls in the way to reduce deviation between set value SP and indication value PV When proportion integer is large indication value PV approaches quickly to set value SP However it may have a negative influence on the stability of control due to the control output MV fluctuation When proportion integer is small indication value PV approaches slowly and stably to set value SP but it may cause residual dev
142. y gt The data stored in the internal memory is erased when the electric power is OFF Save the important graph file with SD card i Refer to the 6 2 Measurement data PV graph view Xx The down load with the SD card is not available during the saving the measurement data setting data and control output quantity which is being recorded into the internal memory O PROGRAM RUN EXPERIMENT OF PATTERN 1 00 03 02 02 29 AM HET PO e E 200 J00 A 1 Fig 3 15 Program operation the pre operation screen D It displays the measurement data setting data and control output quantity which are being operated 2 The capacity of internal memory is displayed c About 25 days of storage is possible when the sampling time is made in 1 second 3 It is a button to save the measurement data setting data and control output quantity which are being recorded into the internal memory 4 lt deletes every file saved in the internal memory 2nd Edition of TEMPZ000M Series IM April 8 2074 Page 40 176 SAMWON TECH 3 3 4 Program operation still screen The program operation is terminated while the Program operation is terminated is appeared as shown in the following screen when the setting range operation is stopped in every segment saved into the pattern The message is not appeared on the screen when it is forced to terminate by pressing the Stop button during operation The message is disappeared when th
143. y operation 2 It sets the operation range to adapt the standby operation 3 When the measured data do not enter the standby operation range the standby time to be applied is set When the standby operation time is set as 00 00 it standby infinitely until entering to the standby operation range 4 lt sets the standby operation method in Total or SEG Maintain m When the entire is set the standby operation is applied to the entire segment set in 5 1 Program pattern setting When the SEG Maintain is set the standby operation is applied only to the segment for maintain range which is set in 5 1 Program pattern setting Table 5 5 Standby operation setting parameter Setting range Initial data Standby operation range EUS 0 00 100 00 EUS EUS 0 00 Standby operation time 0 00 99 59 Hr Min ABS 00 00 standby operation type Entire SEG Maintain ABS 2nd Edition of TEMP2000M Series IM April 8 2014 Page 67 176 SAMWON TECH gt The relation between s1 and standby time is as follows gt S1 scope It displays the standby operation range D Release WAIT Operation within WAIT TIME Wait Time oet Point sah ana is i aa Gu V TER diane 0 5 EAN Rr X EARIHIEEI COGNO NARRA eO ER IP YR RO EN FO Wait Zone Wait Zone ae A P y a j is Release WAIT Operation WAIT Operation i Step to the next Segment A Actual Delay Time n 1 progression Segmentn e Segment n 1 o Segment n 2
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