Series Temperature Controller Instruction Sheet
Contents
1. 2010 04 20 http www delta com tw industrialautomation 5011628505 DBC5 Series Temperature Controller Instruction Sheet Thank you very much for purchasing DELTA B Series Please read this instruction sheet before using your B series to ensure proper operation and please keep this instruction sheet handy for quick reference B Precaution N DANGER Caution Electric Shock 1 Do not touch the AC terminals while the power is supplied to the controller to prevent an electric shock 2 Make sure power is disconnected while checking the unit inside 3 The symbol indicates that this Delta B Series Temperature Controller is protected throughout by DOUBLE INSULATION or REINFORCED INSULATION equivalent to Class II of IEC 536 N WARNING This controller is an open type temperature controller Make sure to evaluate any dangerous application in which a serious human injury or serious property damage may occur 1 Always use recommended solder less terminals Fork terminal with isolation M3 screw width is 7 0mm 6 0mm for DTB 4824 hole diameter 3 2mm Screw size M3 x 6 5 With 6 8 x 6 8 square washer Screw size for DTB4824 M3 x 4 5 With 6 0 x 6 0 square washer Recommended tightening torque 0 4 N m 4kgf cm Applicable wire Solid twisted wire of 2 mm 12AWG to 24AWG Please be sure to tighten them properly Do not allow dust or foreign objects to fall inside the controller to prevent it from malfunctioning Never modi2. C Thermocouple S type 6 5 0 1 700 C Thermocouple R type 5 EN 0 1 700 C Thermocouple N type 4 on 200 1 300 C Thermocouple E type 3 ENEJ 0 600 C Thermocouple T type 2 ENS 200 400 C Thermocouple J type 1 Low 100 1 200 C Thermocouple K type 0 B 200 1 300 C Note 1 An internal 249Q precision resistor for the current input is built in please refer to the item How To Set Up Current Input Note 2 5P Operation mode must be set if user wishes to specify decimal point position Except for the thermocouple B S R type the decimal point positions of all the other thermocouple type input sensors can be set The default range of analog input is 999 9 999 For example when a 0 20mA analog input is selected as the input temperature sensor type 999 indicates OmA and 9 999 indicates 20mA If change the input range to 0 2 000 then 0 indicates OmA and 2 000 indicates 20mA One display scale is equal to 0 01mA B Operation e There are three modes of operation operation regulation and initial setting When power is applied controller gets into the operation mode Press the key to switch to regulation mode If the key is pressed for more than 3 seconds controller will switch to the initial setting mode Pressing the key while in the regulation mode or initial setting mode forces the controller to return to the operation mode e PV SV Sets the temperature set point and displays the temperature process value
3. Use keys to set the temperature set point e Setting method While in any function mode press the key to select the desired function and use the keys to change settings e Press key to save the changes The next flow chart shows how to switch for settings and internal functions Press il for less than 3 sec Press Mill for more than 3 sec ac arc WOES geil gt initial Setting ode ode a M Press Press ace Regulation Mode Operation Mode Initial Setting Mode ARE Auto tuning Use key to set temperature set MTA set input type Set in PID control and RUN mode point 2 Press Gas V Press E Vv Press Wd V Pda 4 groups PID modes n 0 3 When NS Control setting RUN or STOP t PUn Set temperature unit n 4 PID control is auto regulated Not display when in analog input Press Was V Press Sms V Press Was V Regulation Mode Operation Mode Initial Setting Mode REP pp control offset setting GER Start pattern setting EE set upper limit of temperature range When PID control is ON and Ti 0 set the PID program control and PSEP Time value of PdoF setting Press his V Press td V Press Ss V HES Heating hysteresis setting MEF Decimal point position selection ERST Set lower limit of temperature range Set in ON OFF control mode except for B S R type all the other types can be set Cp Press Uh V Press Y Press VES V a Cooling hysteresis setting AL tH Upper limit alarm 1 CtcL Select control mode See Pattern Set in ON OFF cont
4. 1012H 1013H 1014H 1015H 1016H 1017H 1018H 1019H 101AH 101BH 101CH 101DH 1020H 1021H 1022H 1023H 1024H 1025H 1026H 1027H 1028H 1029H 102AH 102BH 102CH 102DH 102FH Content Set point SV Upper limit of temperature range Lower limit of temperature range Input temperature sensor type Control method Heating Cooling control selection 1st group of Heating Cooling control cycle 2nd group of Heating Cooling control cycle PB Proportional band Ti Integral time Td Derivative time Integration default Proportional control offset error value when Ti 0 The setting of COEF when Dual Loop output control are used The setting of Dead band when Dual Loop output control are used Hysteresis setting value of the 1st output group Hysteresis setting value of the 2nd output group Output value read and write of Output 1 Output value read and write of Output 2 Upper limit regulation of analog linear output Lower limit regulation of analog linear output Temperature regulation value Analog decimal setting Time for valve from full open to full close Dead Band setting of valve Upper limit of feedback signal set by valve Lower limit of feedback signal set by valve PID parameter selection SV value corresponded to PID value Alarm 1 type Alarm 2 type Alarm 3 type System alarm setting Upper limit alarm 1 Lower limit alarm 1 Upper limit alarm 2 Lower limit alarm 2 Upper limit alarm 3 Lower limit alarm 3 Rea
5. ON for enabling feedback and OFF for disabling feedback When Eb Pe to 1 it means signal feedback function is activated and will come up selections as follows E Upper Lower limit of valve feedback by auto tuning EZA must set to Eta for showing up this selection PRIM D A value when value fully opens Set E be 1 for auto setting or 0 for manual setting PRIMI D A value when value fully closes Set E be 1 for auto setting or 0 for manual setting Note If feedback function setting is with problem program will see the setting as feedback disabled B RS 485 Communication 1 Supporting transmission speed 2 400 4 800 9 600 19 200 38 400bps 2 Non supported formats 7 N 1 or 8 O 2 or 8 E 2 3 Communication protocol Modbus ASCII or RTU 4 Function code 03H to read the contents of register Max 8 words 06H to write 1 one word into register 02H to read the bits data Max 16 bits O5H to write 1 one bit into register 5 Address and Content of Data Register Address Content Explanation 1000H Process value PV Measuring unit is 0 1 updated one time in 0 4 second The following reading value display indicates error occurs 8002H Initial process Temperature value is not got yet 8003H Temperature sensor is not connected 8004H Temperature sensor input error Address 1001H 1002H 1003H 1004H 1005H 1006H 1007H 1008H 1009H 100AH 100BH 100CH 100DH 100EH 100FH 1010H 1011H
6. Please refer to the contents of the Alarm Outputs for detail Please refer to the contents of the Alarm Outputs for detail Please refer to the contents of the Alarm Outputs for detail Please refer to the contents of the Alarm Outputs for detail Please refer to the contents of the Alarm Outputs for detail bO Alm3 b1 Alm2 b2 F b3 C b4 Alm1 b5 OUT2 b6 OUT1 b7 AT bO Set b1 Select b2 Up b3 Down 0 is to push 0 Normal 1 All setting lock 11 Lock others than SV value Unit 0 1A V1 00 indicates 0x100 Address 1030H 1032H 1033H 1034H 1035H 1036H 1040H 1047H 1050H 1057H 1060H 1067H 2000H 203FH 2080H 20BFH 6 Address Address 0800H 0801H 0802H 0803H 0804H 0805H 0806H 0807H 0808H 0809H 080AH 080BH 080CH 080DH 080EH 0810H 0811H 0812H 0813H 0814H 0815H 0816H 0817H 0818H Content Start pattern number Read program Step time left second Read program Step time left minute Head present executing program step number Read present executing program pattern number Head program dynamic set value Actual step number setting inside the correspond pattern Cycle number for repeating the execution of the correspond pattern Link pattern number setting of the correspond pattern Pattern 0 7 temperature set point setting Pattern 0 temperature is set to 2000H 2007H Pattern 0 7 execution time setting Pattern 0 time is set to 2080H 2087
7. UTD om i 0 6 Gs d uc ALM rosea 485 c al Cae m o E993 Eo DATA E om j 9 88 S Y E DC24V RTD ye eae VAN RTD KK ov SL CI AIG Mz SAN L N 44 88 DTB4848 DTB4848 09 0 MIN voc No OUT2 4 20mA ES ALM3 o 10V F dae ccm z RTD 1g ALM 2 CO ai 1 ry OO Oa a 250Vac OD a COM 45 5 DTB4896 DTB4896 DTB9696 60 0 min DATA DEAS OV 240V A0 1m edes O Q on 240 alle 120 0 min 91 5 2 RS 485 DATA mc i2 Dc24v SG 3 ALME m cT Tiai oma 5 225 531 Ev1 da cos POL D M 14vDc Ev2 fac om T gt 6 250Vac HN UMS VO Q9 pve OD Um n im 8 48 NS eld Oi EM E 19 59s 250Vac S Een 360Vac Ga G9 col 5 LS luc tl Go cowl at ow sd EZ Y br EI f B 14455 as DTB9696 DTB9696RRV 110 0 min DATA 4 A OV 1 AC 100 240V Pn RS 485 sO OO Of 50 80 Hz DATA TO 4d DC24V in ALM2 ml 120 0 min 61 05 8 pas OO oo 19 oPEN Rc 10 20 voron POWER ALME gt asas m 5 OO ALM gt SHORT ALMI CE SHORT CLOSE E A CLOSE TARS OOo IN 19 Q9 uoron POWER B Error Acknowledgement amp Display Communication error code response description Error Status 102EH 4750H 0001H M A 0002H 8002H 0003H 8003H 0004H 8004H 0005H N A 0006H 8006H 0007H N A Display message Power ON PV DTB series Firmware V1 50 SV Output VR type with Event option Sensor didn t connect PV No SV
8. current execution step will display on SV display After select EM press key and then the residual time of the current execution step will display on SV display B PID Control One group can be selected from any one of 4 groups PID parameters P I D IOF for PID control After AT PID value and temperature setting will be stored in the selected one group BET DEZ PIDn n 0 4 from which 0 3 correspond to each PID parameter Poou n 4 auto PID parameter Program will automatically select a most useful PID parameter based on current temperature setting Displayed SV values correspond to KH EFE IT EFE Temperature setting corresponded to the selected PID parameter via user defined or AT Valve Control When use valve control as output control there are 2 Relay outputs for motor forward reverse control one output 1 for valve open the other output 2 for valve close The output volume is controlled by valve open close and it can be set with feedback function enabled or disabled When feedback is disabled output 1 will keep output while valve fully opens and output 2 will keep output while valve fully closes But if feedback is enabled please follow the parameter setting for valve control as follows EH Time for valve from full close to full open EH Dead Band setting of valve The value of current valve output minus previous one must be greater than Dead Band value otherwise valve will remain OFF ED Signal feedback setting
9. mode EVENT DTB series allows user can switch two temperature setting value by changing the status open short of EVENT 2 Each temperature setting value has independent control parameters B PID Program Control Ramp Soak Program Control Description of Function and Parameters Setting PID program control by 8 patterns Pattern No 0 7 is supported in DTB series Each pattern contains 8 steps step No 0 7 one Link Pattern parameter one Cycle parameter and one Actual Step parameter Start Pattern Pirn is in operation mode and it is used to set the Start Pattern of PID program control This parameter appear in PSEP mode only Steps Include set point X and execution time T these two parameters setting The set point SV should reach temperature X after the period of execution time T If the set point is the same as the result of the previous setting then it is called Soak program control If not then itis called Ramp program control Therefore PID program control is also called Ramp Soak program control The default of step No 0 in this controller is Soak program control The controller will control the temperature PV to reach the set point X and then keep the temperature at set point X The period of execution time is time T which provided by step No O Link Pattern Parameter For example when set end to 2 it indicates that pattern No 2 will execute next after the execution of pattern No 0 If set to E it indicat
10. 0 5V 0 10VDC 6 R Relay output SPDT SPST 1 16 DIN and 1 32 DIN size 250VAC 5A V Voltage pulse output 14V 10 20 Max 40mA DTB Series Panel size WxH 2nd output group selection None No EVENT input No CT Current transformer T CT Current transformer is provided No EVENT EVENT inputs CT function E EVENT input is provided No CT Current input optional transformer V Valve control Note 1 DTB4824 series no optional function provided and no extra alarm output supported but user can set 2nd output as alarm mode Note 2 DTB4848 series only one alarm output when optional function supported but user can set 2nd output as 2nd alarm output Note 3 Valve control with feedback selection is only available for DTB4896RRV DTB9696HRvV B Specifications Input voltage Operation voltage rrange Power consumption Memory Protection Display method Sensor type Control mode Control output Display accuracy Sampling rate RS 485 communication Vibration resistance Shock resistance Ambient temperature Storage temperature Altitude Relative humidity Panel protection level AC100 240V 50 60Hz DC24V 10 Rated voltage AC 85 110 DC 90 110 5VA max EEPROM 4K bit non volatile memory number of writes 100 000 2 line x 4 character 7 segment LED display Process value PV Red color Set point SV Green color Thermocouple K J T E N R S B L U TXK 3 wire P
11. Connect EEPROM error PV Err Error SV EEPROM B How to Set Up Current Input poti For normal input NV NER x l Sy PIN HEADER UP i Ti R X PWB PV read back 1000H 4700H Error status PV unstable Re initial no temperature at this time Input sensor did not connect Input signal error Over input range ADC fail EEPROM read write error Normal display Present value Set value Input error Error Input Input over range PV flash when over ET uy nu d i c3 Ca Ont mm uin c3 nr mm uin For current input 4 20mA 0 20mA P iia d PIN HEADER NT
12. H Explanation 0 7 N indicate that this pattern is executed from step 0 to step N 0 99 indicate that this pattern has been executed for 1 100 times 0 8 8 indicates the program end 0 7 indicates the next execution pattern number after executing the current pattern 999 9 999 Time O 900 1 minute per scale and Content of Bit Register First bit of reading will put into LSB Write data FFOOH for bit set OOOOH for bit clear Content Head AT LED status Read Output 1 LED status Read Output 2 LED status Read Alarm 1 LED status Read F LED status Read C LED status Read Alarm 2 LED status Read Alarm 3 LED status Read SET key status Read FUNCTION key status Read UP key status Read DOWN key status Read Event 1 status Read Event 2 status Read System Alarm status Communication write in selection Temperature unit display selection Decimal point position selection AT setting Control RUN STOP setting STOP setting for PID program control Temporarily STOP for PID program control Valve feedback setting status Auto tuning valve feedback status Explanation 0 OFF 1 ON 0 OFF 1 ON O OFF 1 ON 0 OFF 1 ON 0 OFF 1 ON 0 OFF 1 ON 0 OFF 1 ON 0 OFF 1 ON 0 Press down 0 Press down 0 Press down 0 Press down 1 Event action 1 Event action 1 Alarm action Communication write in disabled 0 default Communication write in enabled 1 C linear input default 1 F 0 Except
13. available only for the controller with current transformer AL L SV AL H 14 When program control is end status alarm output is ON 15 When RAMP UP status happens to PID program control alarm output is ON 16 When RAMP DOWN status happens to PID program control alarm output is ON 17 When SOAK status happens to PID program control alarm output is ON 18 When RUN status happens to PID program control alarm output is ON Note AL H and AL L include AL1H AL2H AL3H and AL1L AL2L AL3L B Current Transformer CT Function The Current Transformer CT function is used with the alarm output When using a current transformer CT with the controller change the corresponding alarm output mode to mode 13 alarm output set value is 13 then turn to operation mode and set the current lower limit and current upper limit You can set current alarm range between 0 5A 30A display resolution is 0 1A and measure accuracy is 0 5A B EVENT Inputs Function There are two optional event inputs contact inputs supported EVENT1and EVENT2 in DTB series EVENT1 RUN STOP operation can be executed by RUN STOP parameters Operation Mode or via the communication User also can control RUN STOP operation by EVENT 1 in DTB series The control output is ON if the circuit of EVENT 1 is open when the controller is operating Otherwise the controller will stop output if the circuit of EVENT 1 is short or when the system parameter of the controller is set to STOP
14. cked with the exception of the SV value Press and key simultaneously the Lock status can be released m Alarm Outputs There are up to three groups of alarm outputs and each group allows eighteen alarm types in the initial setting mode The alarm output is activated whenever the process temperature value PV is getting higher or lower than the set point of alarm limit Set value Alarm Type Alarm output operation 0 Alarm function disabled Output is OFF Deviation upper and lower limit ON Em o um 1 This alarm output operates when PV value is higher than the setting value SV AL H or lower re A A A than the setting value SV AL L SV AL L SV SV AL H 2 Deviation upper limit i This alarm output operates when PV value is higher than the setting value SV AL H SV SV AL H m M ON 3 Deviation lower limit orr AAA This alarm output operates when PV value is lower than the setting value SV AL L Reverse deviation upper and lower limit ON 7 A 4 This alarm output operates when PV value is in the range of the setting value SV AL H and the OFF A a setting value SV AL L SV AL L SV SV AL H Absolute value upper and lower limit Ns 5 This alarm output operates when PV value is higher than the setting value AL H or lower than OFF a z the setting value AL L RETE AH 6 Absolute value upper limit Es La This alarm output operates when PV value is higher than the setting value AL H A y Set va
15. d LED status Read pushbutton status Setting lock status CT read value Software version Explanation 8006H Cannot get temperature value ADC input error 8007H Memory read write error Unit is 0 1 C or F The data content should not be higher than the temperature range The data content should not be lower than the temperature range Please refer to the contents of the Temperature Sensor Type and Temperature Range for detail 0 PID 1 ON OFF 2 manual tuning 3 PID grogram control 0 Heating 1 Cooling 2 Heating Cooling 3 Cooling Heating 0 99 0 0 5 sec 0 99 0 0 5 sec 0 1 999 9 0 9 999 0 9 999 0 100 unit is 0 1 0 100 unit is 0 1 0 01 99 99 999 9 999 0 9 999 0 9 999 Unit is 0 1 write operation is valid under manual tuning mode only Unit is 0 1 write operation is valid under manual tuning mode only 1 Unit 2 8uA Current Output 1 3mV Linear Voltage Output 1 Unit 2 8uA Current Output 1 3mV Linear Voltage Output 999 999 unit 0 1 0 3 0 999 9 0 100 unit 0 1 0 1 024 0 1 024 0 4 Only valid within available range unit 0 1 scale Please refer to the contents of the Alarm Outputs for detail Please refer to the contents of the Alarm Outputs for detail Please refer to the contents of the Alarm Outputs for detail 0 None default 1 3 Set Alarm 1 to Alarm 3 Please refer to the contents of the Alarm Outputs for detail
16. e control In DTB series P Proportional Band l Integral Time and D Derivative Time parameters are automatically set by using the Auto tuning AT function EH This parameter is for the control mode that must be Dual Loop output control with PID control method configured The value of P and D of 1st output group can be set immediately The P value of 2nd output group is equal to P value of 1st output group x BEBE and the value of and D of 2nd output group are the same as the value of and D of 1st output group ERE Dead Band shown as the following figure 1 2 and 3 This parameter sets an area in which the heating and cooling control output is O centering around the set point in a Dual Loop output control mode Dead band Output Deadband dead Output Dead band dead band width positive band width negative Heating hysteresis Cooling hysteresis ON Heating Cooling OFF seot Poses Cooling De Cooling A 0 V PV P Set point j n l j pam Set point Set point Figure 1 Output operation of ON OFF control during dual loop output control Figure 2 PID control Dead Band is positive Figure 3 PID control Dead Band is negative EZH Settings lock To avoid incorrect operation two key lock functions are provided ot if Lock 1 can lock all settings All parameters and temperature settings can be locked to disable changes BERI Lock 2 can lock settings except the SV Set point value All parameters and temperature settings can be lo
17. e value function Displayed when valve control is ON Press M Press WV Press V PESE Time setting for valve from full close EREJE Display and adjust output value of 1st RIETI ascii RTU communication formats to full open Displayed when valve control is Output group selection ON Display in PID control mode and manual RUN mode Press Vv Press V Press V MEF vave Deadband setting ERR Display and adjust output value of 2 BIBIT Communication address setting Displayed when valve control is ON output group Display in dual loop PID control mode and manual RUN mode om Press M Press M Press V Regulation Mode Operation Mode Initial Setting Mode PEN Upper limit regulation of valve output E i case of using an external CT the BERE communication baud rate setting with feedback to controller Display when controller displays the current value being valve signal feedback function is ON measured by CT if the control output is ON p C Press lt gt V Press gt to return to set target temperature Press ld y FERE 1 ower limit regulation of valve output GRA valve output with feedback Display BERI pata length setting with feedback to controller Display when when valve feedback function is ON valve signal feedback function is ON Press M Press V Press WV tPaF Regulate temperature deviation value DA value feedback of valve Prey Parity bit setting Display when valve feedback function is ON Press v Press back to target temperature Press
18. e do not touch any internal circuit within this period 15 Do not use acid or alkaline liquids for cleaning Please use a soft dry cloth to clean the controller 16 This instrument is not furnished with a power switch or fuse Therefore if a fuse or power switch is required install the protection close to the instrument Recommended fuse rating Rated voltage 250 V Rated current 1 A Fuse type Time lag fuse 17 This controller does not provide overcurrent protection Use of this product requires that suitable overcurrent protection device s must be added to ensure compliance with all relevant electrical standards and codes Rated 250 V 15 Amps max A suitable disconnecting device should be provided near the controller in the end use installation B Display LED amp Pushbuttons o0 ROI oo ON 1 PV Present value SV Set value AT Auto tuning LED OUT1 OUT2 Output LED Select amp setup keys C F Celsius amp Fahrenheit LED ALM1 ALM3 Alarm output LED Digit adjustment keys B Ordering Information DTB 5 l6 7 8 DTB Delta B Series Temperature Controller a 4824 1 32 DIN W48 x H24mm 4896 1 8 DIN W48 x H96mm a 4848 1 16 DIN W48 x H48mm 2 9696 1 4 DIN W96 x H96mm R Relay output SPDT SPST 1 16 DIN and 1 32 DIN size 250VAC 5A l V Voltage pulse output 14V 10 20 Max 40mA 1st output group selection C DC current output 4 20mA L Linear voltage output
19. ern ETH Set additional execution cycle Switch to BEB and continue to set No 0 Unit hh mm number 0 99 Press V Press Was V Set step No 07 in order FATA Set link pattern OFF indicates the ER exit temperature of step No 7 of program end pattern No 0 Press V ERE Edit time of step No 7 of pattern No 0 Unit hh mm Press Eo set actual step No Press 2 return to pattern No editing mode Dual Loop Output Control Heating Cooling Control Temperature control can be achieved either by heating or cooling In DTB series heating and cooling can be operated simultaneously Dual Loop output control to perform temperature control When Dual Loop output control are used two control outputs must be connected to the heating and cooling devices Please refer to the following for the operation ERIM This parameter is used to select heating or cooling action if operate either heating or cooling function in this controller When selecting HEBET 1st output group is heating reverse control and when selecting HIM 1st output group is cooling forward control At this moment 2nd output group is regarded as an alarm output If user select EE or BRE it indicates that user can operate Dual Loop output control function in this controller When selecting Hc Ol 1st output group is heating reverse control and 2nd output group is cooling forward control When selecting BERN 1st output group is cooling forward control and 2nd output group is heating revers
20. es the program will stop after executing the current pattern and the temperature will keep at the set point of the last step Cycle Parameter Additional execution cycle number For example when set BERE to 2 it indicates that pattern No 4 should execute twice in addition Include origin one time execution total execute three times Actual Step Parameter Execution step number per pattern can set to 0 7 For example when set EE to 2 it indicates that pattern No 7 will not execute other steps than step 0 to step2 Execution When a is set to EZA the program will start to execute in order from the step 0 of start pattern When Pa is set to When 6 8 is set to BEI the program will stop and the temperature at that time will be controlled at the set point before program stop the program will stop and the control output is disabled Select ES again then the program will restart and execute from step O of start pattern When el is set to Had the program will hold and the temperature at that time will be controlled at the set point before program hold Select ES again then the program will follow the step before hold and start to execute through the rest of the time Display During PID program control the SV default display is P XX P indicates the current execution pattern and XX indicates the current execution step Press to change the display item After select LS press key and then the temperature set point of the
21. for the thermocouple B S R type all the other thermocouple type are valid 0 or 1 OFF 0 default ON 1 0 STOP 1 RUN default 0 RUN default 1 STOP 0 RUN default 1 Temporarily STOP 0 w o feedback default 1 feedback function 0 Stop AT default 1 Start AT 7 Communication Transmission Format Command Code 02 read N bits 05 write 1 bit O3 read N words 06 write 1 word 10 ASCII Mode Read command STX ADR 1 ADR 0 CMD 1 CMD 0 Starting data address Number of data word Bit LRC 1 LRC 0 END 1 END 0 LRC checksum LRC check is the added sum from complementary of 2 EAH RTU Mode Head command 2 Default Communication Response Setting ADR CMD Starting data address Number of data word Bit CRC 1 CRC 0 01H 03H 10H 00H 00H 02H COH CBH 01H 02H 08H 10H 00H 09H BBH A9H Read command response STX ADR 1 ADR 0 CMD 1 CMD 0 Number of data count by byte Start address data 1000H 081xH Address data 1001H LRC 1 LRC 0 END 1 END 0 Address to Data content For example 01H 03H 10 OOH OOH 02H 16H then take the Head command response ADR CMD Number of data count by byte Start address data 1000H 081xH Address data 1001H CRC 1 CRC 0 01H 03H 04H 01H F4H 03H 20H BBH 15H 01H 02H 02H 17H 01H 77H 88H Write command STX ADR 1 ADR 0 CMD 1 CMD 0 Starting data address Data c
22. fy or disassemble the controller Do not connect anything to the No used terminals Make sure all wires are connected to the correct polarity of terminals Do not install and or use the controller in places subject to e Dust or corrosive gases and liquid High humidity and high radiation Vibration and shock High voltage and high frequency Must turn power off when wiring and changing a temperature sensor Be sure to use compensating wires that match the thermocouple types when extending or connecting the thermocouple wires Please use wires with resistance when extending or connecting a platinum resistance thermometer RTD Please keep the wire as short as possible when wiring a platinum resistance thermometer RTD to the controller and please route power wires as far as possible from load wires to prevent interference and induced noise 11 This controller is an open type unit and must be placed in an enclosure away from high temperature humidity dripping water corrosive materials airborne dust and electric shock or vibration 12 Please make sure power cables and signals from instruments are all installed properly before energizing the controller otherwise serious damage may occur 13 Please do not touch the terminals in the controller or try to repair the controller when power is applied to prevent an electric shock 14 Wait at least one minute after power is disconnected to allow capacitors to discharge and pleas
23. latinum RTD Pt100 JPt100 Analog input 0 5V O 10V O 20 mA 4 20 mA 0 50mV PID ON OFF Manual or PID program control Ramp Soak control Relay output SPDT SPST 1 16 DIN and 1 32 DIN size Max load 250VAC 5A resistive load Voltage pulse output DC 14V Max output current 40mA Current output DC 4 20m A output Load resistance Max 6000 Linear voltage output 0 10V 0 or 1 digit to the right of the decimal point selectable Analog input 150 msec per scan Thermocouple or Platinum RTD 400 msec per scan MODBUS ASCII RTU communication protocol 10 to 55Hz 10m s for 10min each in X Y and Z directions Max 300m sf 3 times in each 3 axes 6 directions 0 C 50 C 20 C 65 C 2 000m or less 35 80 non condensing IP65 B Temperature Sensor Type amp Temperature Range Input Temperature Sensor Type 0 50mV Analog Input 17 LED Display Temperature Range 999 9 999 Register Value Input Temperature Sensor Type Register Value LED Display Temperature Range 4 20mA Analog Input 16 ARY 999 9 999 0 20mA Analog Input 15 Aho 999 9 999 OV 10V Analog Input 14 8 999 9 999 OV 5V Analog Input 13 ENT 999 9 999 Platinum Resistance Pt100 12 EIS 200 600 C Platinum Resistance JPt100 11 JPE 20 400 C Thermocouple TXK type 10 EYP 200 800 C Thermocouple U type 9 Lg 200 500 C Thermocouple L type 8 200 850 C Thermocouple B type 7 EM 100 1 800
24. lue Alarm Type Alarm output operation 7 Absolute value lower limit or NN This alarm output operates when PV value is lower than the setting value AL L ALCL Deviation upper and lower limit with standby sequence ON W E 8 This alarm output operates when PV value reaches set point SV value and the value is higher OFF i i than the setting value SV AL H or lower than the setting value SV AL L SV AL L SV SV AL H Deviation upper limit with standby sequence ON 9 This alarm output operates when PV value reaches set point SV value and the reached value OFF A a is higher than the setting value SV AL H SV SV AL H Deviation lower limit with standby sequence ON mu 10 This alarm output operates when PV value reaches the set point SV value and the reached OFF A i value is lower than the setting value SV AL L SV AL L SV Hysteresis upper limit alarm output ON oe 11 This alarm output operates if PV value is higher than the setting value SV AL H This alarm OFF ER output is OFF when PV value is lower than the setting value SV AL L AL L AL H Hysteresis lower limit alarm output o 12 This alarm output operates if PV value is lower than the setting value SV AL H This alarm OFF a output is OFF when PV value is higher than the setting value SV AL L AL H AL L CT alarm output Cm mm 13 This alarm operates when the current measured by transformer CT is lower than AL L or OFF 7 i higher than AL H This alarm output is
25. ontent LRC1 LRC 0 END 1 END 0 Write command ADR CMD Starting data address Data content CRC 1 CRC 0 01H 06H 10H 01H 03H 20H DDH E2H 01H 05H 08H 10H FFH 00H 8FH 9FH Write command response SIX ADR 1 ADR 0 CMD 1 CMD 0 Starting data address Data content LRC1 LRC 0 END 1 END 0 Write command response ADR CMD Starting data address Data content CRC 1 CRC 0 01H 06H 10H 01H 03H 20H DDH E2H Write hex value 1234 into register at 472AH and 1234 again into register at 474EH Re power DTB to complete the default setting Mounting 1 2 3 4 Insert the controller through the panel cutout Insert the mounting bracket into the mounting groove at the top and bottom of the controller Push the mounting bracket forward until the bracket stops at panel wall Insert and tighten screws on bracket to secure the controller in place r 4 vs E E 1 a Si i ees The screw torque should be 0 8kgf cm to 1 5kgf cm 01H 05H 08H 10H FFH 00H 8FH 9FH Installing mounting bracket B Panel Cutout amp Terminal Definitions CT Wiring Method if CT function is selected jn x Lo an a E es AC power supply Terminal Definition DC power supply Panel Cutout DTB4824 DTB4824 La 65 MIA N OUT 2 Ed
26. rol mode This parameter is available only when ALA1 and Set Editing Selection for detail function is enabled Press VES 7 Press Was V Press ths 7 HE Pd or ERE Heating Cooling control Lower limit alarm 1 This parameter Select heating cooling control or dual cycle setting Set in PID control mode is available only when ALA1 function is loop output control enabled Press ts V Press ws V Press ths 7 HCPg Control cycle setting of 2 output RLOH Upper limit alarm 2 This parameter is GERE Alarm 1 mode setting group available only when ALA2 function is Set in PID control and Dual Loop output enabled control mode e zx Press 2 V Press z V Press kil v BETIS P value of 1 8 2 output group EREA Lower limit alarm 2 This parameter is Alarm 2 mode setting during dual loop output control available only when ALA2 function is P value of 2 output group P value of 1 enabled output group x COEF 5 Press tis V7 Press V Press V ERGE Deadbana GREE Upper limit alarm 3 This parameter is EEE Alarm 3 mode setting Set in Dual Loop output control mode available only when ALAS function is enabled C Press V Press 3 Press M FEES switch setting for feedback signal of BEREH 1 ower limit alarm 3 This parameter is BEREI Set system alarm value Displayed with valve control is ON available only when ALAS function is enabled Co Press ts v Press d y Press Ud V7 PELIS Automatically regulate feedback Setting lock mode BEETI Enable disable communication writ
27. vV eRe Regulate upper limit of analog StoP Stop bit setting output value The setting is displayed when in analog output Cc Press V Press to return to input type setting Erlo Regulate lower limit of analog output value The setting is displayed when in analog output Press d to return to auto tuning mode 1 Scale 2 8uA 1 3mV for tuning output value PID mode selection any one of 4 groups PID modes n 0 3 can be selected When n 4 program will automatically select 1 group PID that is most useful for target temperature Pedal Seletc n 0 4 to decide PID mode 5 0 PID setting n 0 EPE PID setting n 3 Press Was V Press Wed V EIU Proportion band setting n 0 Ee Proportion band setting n 3 Press Vv Press Was V Eh Ti setting n 0 ie Ti setting n 3 Press V Press Was V Td setting n 0 EFE Td setting n 3 Press V Press Was V BET Integral deviation setting n 0 Lor 3 Integral deviation setting n 3 AT setting AT setting Press gt 0 3 groups of PID Press II back to PID deviation setting Press Ii back to PID deviation setting Pattern and step editing selection edit BT parameter The following display is the example operation of pattern No O PRta Select desired editing pattern ELI Edit temperature of step No 0 of PESH Select actual step No when program number Select OFF pattern No 0 control is executing Press I y select number Press Ul y Press Id y Exit pattern and step editing selection ERNE Edit time of step No 0 of patt
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