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13

PID Mode:

 When set for heating or cooling, the program performs PID operation via input temperature and setting temperature,

with the operation result output for the temperature control. A PID parameter and control period must be set for this function; these
parameters can also be generated automatically via auto-tuning (AT).
a

  A total of six sets of PID parameters are available, one of which can be selected for carrying out PID, and the program may

automatically select a set of PID that is most close to the input value. In order to achieve this, each set of PID parameters has 
a reference input setting value which allows the user to set for manual setting or for auto-tuning (AT). E.G., for the six sets of 
PID parameters as shown below, SV is reference input setting. Let us select the 4

th

 set as the PID running parameter: i.e., 

P=40, I=220, D=55, IOF=30%. If we select AT to find the set closest to the setting value with a setting input of 230, the 
program will automatically find the second set as the running parameter for PID operation. 

SV 

80 

160 

240 

320 

400 

480 

120 

46 

70 

60 

40 

50 

100 

140 

180 

200 

220 

240 

25 

35 

45 

50 

55 

60 

IOF 

20 

10 

30 

20 

30 

21 

b

  Set PID parameters and the control period: in which PID parameters can be adjusted manually according to system 

characteristics or created automatically by AT, the pre-set integral value is set as I parameter 

0, allowing for promptly 

achieving the setting value; unit is % output; proportional error compensation is: when I parameter is set to =0, for the 
adjustment of reduced time to reach the temperature. The Control Period is the period of PID operation, if the control period is 
10s, it means a PID operation is carried out every 10s. The result is then output to control the temperature. If the system 
heats up quickly, the control period shall not be set too long. For relay output, the lifespan of the relay shall be considered; a 
short period will shorten the lifespan of relay.   

c

  Coef and DeadBand are added in the PID parameter for double output (one for heating and one for cooling). Coef refers to 

the ratio between the first and second portions of output (P parameter of second group =Coef*P, Coef= 0.01~99.99); 
DeadBand is the overlapping temperature of the P output of the first group and the second group. 

Set parameter

  to 

  in 

Initial Setting Mode

 

To set for heating or cooling control: Select desired output control by parameter 

  in 

Initial Setting Mode

. If no

board is inserted in Output2, selection items are: H1, C1 (H for heating, C for cooling, 1 for output 1). If a board is inserted in
Output 2, selection items are: H1H2, C1H2… H1A2(H for heating, C for cooling, 1 for output 1, 2 for output 2, A for Alarm 3 )

Select number of PID sets as running parameter and set PID parameter: Select 0~5, 

, by parameter 

  in

Regulation Mode

, then press 

  key to set the selected PID parameter including “SV‘x’”, ”P‘x’”, ”I‘x’”, ”d‘x’”, and ”ioF‘x’”,

where ‘x’ is the  pre-selected set  as the PID  running parameter,  which can be 0~5. “SV‘x’” is the reference temperature
setting value; “P‘x’”, ”I‘x’”, ”d‘x’”, ”ioF‘x’” correspond to P, I, D, and IOF.

Set the control period: in parameter

Regulation Mode

, PV displays “o‘x’-‘y’”, ‘x’ is 1(output 1) or 2 (output 2), ‘y’ is H(Heating)

or C (Cooling)

 

Set double output Coef: Set Coef value by parameter 

  in 

Regulation Mode

 

 

Set DeadBand of double output: Set DeadBand zone by parameter 

  in 

Regulation Mode

 

 

Set control to running mode: Set parameter 

  in 

Operation Mode

  to 

 

Set  AT:  Set  parameter 

  to 

  in 

Regulation  Mode

.  The  selected  number  of  PID  will  be  adjusted 

automatically.  After  that,  a  pre-set  parameter  of  integrated  PID  value  will  be  created  automatically  and  the  display  will 
automatically alter into 

Note: When performing AT, the entire system must complete setting; i.e. the input Sensor must be wired and correctly set, and the 

output must be connected to a heater or cooler pipe. 

MANUAL Mode:

 Manual control function, may force output of a fixed value; normally operated by combining switchover of PID

control.

a

  Switch from PID control to manual control: Control output will maintain the original control output before switching over to

manual control. E.g., if the control output before the PID calculation is 20%, then the control output after switching to manual 
control is 20%. You may force a fixed output value after a switchover, for example: controlling the output to be 40%. 

b

  Switch from manual control to PID control: if manual control before switching-over to PID control is 40%, the program will 

take 40% as the initial value for calculating the PID value and output the new control.   

Note: If power of machine is switched off in manual control mood, the output % will be maintained when the power is switched on 

again.     

Set parameter

  to 

  in 

Initial Setting Mode

 

Set control period: in parameter 

Regulation Mode

, PV displays “o‘x’-‘y’”, ‘x’ is 1 (output 1) or 2 (output 2), ‘y’ is H (Heating)

Summary of Contents for CND3 Series

Page 1: ...CND3 Series Temperature Controller www omegamanual info Shop online at omega com For latest product manuals User sGuide e mail info omega com...

Page 2: ...rves the right to alter specifications without notice U S A Headquarters Servicing North America Omega Engineering Inc Toll Free 1 800 826 6342 USA Canada only Customer Service 1 800 622 2378 USA Cana...

Page 3: ...or connecting the thermocouple wires 6 Please use wires with resistance when extending or connecting a platinum resistance thermometer RTD 7 Please keep the wire as short as possible when wiring a pl...

Page 4: ...Note Not all combinations may be available Check website under All Models to see list of available models...

Page 5: ...perature 20 C 65 C Altitude Max 2000m Relative Humidity 35 80 RH non condensing Operation There are three modes of operation operation regulation and initial setting When power is applied controller g...

Page 6: ...for the selection of Thermocouple or Platinum Resistance types PT TEMP UNIT Set temperature unit it wil not be displayed when in analog input mode TEMP HIGH Set up upper temperature limit the upper li...

Page 7: ...will select P value accordingly 47 6 I Integral Time Setting display when Crtl PID FUZZY 2PID this parameter is set automatically when TUNE AT Set I value according to the selection of PID No n 0 5 Wh...

Page 8: ...eters into the selected PID group Select the n th PID n 0 5 press to set 0 5 th PID parameters Set up the 0 th PID temperature value press Set up the 5 th PID temperature value press Set up the 0 th p...

Page 9: ...to change the PV and SV display unit select decimal point and switch between F In Operation Mode SP 1 displays decimal place ex 25 5 degree SP 0 displays integral number ex 25 degree In Initial Settin...

Page 10: ...put 4 20mA or linear voltage output 0 10V user s desire output value can be attained by using compensation function For example the analog output 1 can be adjusted in and parameters in Regulation Mode...

Page 11: ...ent output L Linear voltage output S SSR output SV 3 rd digit indicates the function of accessory 2 N No function C CT measure E EVENT1 input R REMOTE input SV 4 th digit indicates the function of acc...

Page 12: ...e Some of the terms are explained as follows a Initial pattern set the program to start running at a sequential number of patterns b Initial Step set the program to start running at a sequential numbe...

Page 13: ...Y position of parameter in Initial Setting Mode e g xxxY Y is 0 or 1 0 normal 1 power off saving Note When any settings or changes of the program parameters are made please save the settings changes t...

Page 14: ...adjustment by parameter in Regulation Mode Remote lower limit Setting Remote lower limit by parameter in Regulation Mode Remote higher limit Setting Remote higher limit by parameter in Regulation Mode...

Page 15: ...Initial Setting Mode To set for heating or cooling control Select desired output control by parameter in Initial Setting Mode If no board is inserted in Output2 selection items are H1 C1 H for heating...

Page 16: ...and the AT LED in the panel goes out The calculated PID parameters are displayed in and of which their content can be revised by the user Automatic switching over Multiple PID sets Set parameter to 0...

Page 17: ...g Set a value corresponding to Y position by parameter in Initial Setting Mode such as xxYx Y can be 0 or 1 0 30A 1 100A CT2 100A setting Set a value corresponding to Y position by parameter in Initia...

Page 18: ...on F1 F2 button can be used to switch between PID and MANUAL control mode ALRS Selecting this function F1 F2 button can be used to reset Alarm Hold status SV2 Selecting this function F1 F2 button can...

Page 19: ...will return to PV SV display mode 3 Enter the new password two times in the screen The screen will return to PV SV display mode with the keys unlocked If the two entries of password are not the same...

Page 20: ...if PV value is lower than the setting value SV AL H This alarm output is OFF when PV value is higher than the setting value SV AL L ON OFF SV AL H SV AL L SV 9 Disconnection Alarm This alarm output op...

Page 21: ...PV Measuring unit is 0 1 updated one time in 0 1 second The following reading value display indicates error occurs 8002H Initial process Temperature value is not got yet 8003H Temperature sensor is n...

Page 22: ...r 0 15 1032H Remaining time of the executed step second Only read 1033H Remaining time of the executed step minute Only read 1034H No of currently executed step Only read 1035H No of currently execute...

Page 23: ...Linear Output 2 Adjust current 1scale 1 A Adjust voltage 1scale 1mV 1119H Adjust Lower Limit of Analog Linear Output 2 Adjust current 1scale 1 A Adjust voltage 1scale 1mV 111AH Adjust Retransmission...

Page 24: ...Starting data address 10H 08H Starting data address 10H 08H 00H 10H 01H 10H 01H 10H Number of data word Bit 00H 00H Start address data 1000H 081xH 01H 17H Data content 03H FFH Data content 03H FFH 02H...

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Page 28: ...http www omega com to contact OMEGA Engineering Inc 800 Connecticut Ave Suite 5N01 Norwalk CT 06854 USA Customer Service 1 800 622 2378 USA Canada only Engineering Service 1 800 872 9436 USA Canada on...

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