Thermocouple/RTD Universal input Multi-Loop Temperature Controller 4~20mA Current output

Types:KCM-XJ81W KCM-XJ8W

Introduction:
Service Life: Use the Digital Controller within the following temperature and humidity ranges:
Temperature: −10 to 55°C (with no icing or condensation), Humidity: 25% to 85%.
●2~8 channels of temperature controls are packed into 96 x 96 x 110mm or 160 x 80 x 110mm case.
●2~8 kinds of combinations of temperature set value, PID constant, alarm set value, etc.
●Can be connect the following sensors and signals to the universal input(K.E,J.T.S,R,B,N,PT100).Number of Inputs:2~8 points
●An optional communications interface, RS-232C or RS-485 is available for networking to computers, PLCs and SCADA software.
Input Sensor:
●Temperature input: CU50(–50.0~150.0℃)/PT100(–199.9~600.0℃)/K(–30.0~1300℃)/E(–30.0~700.0℃)/J(–30.0~900.0℃)/T(–199.9~400.0℃)/S(–30~1600℃)
Control Outputs:
●Relay output
●Voltage output (for driving SSR)
●PID linear current output(4-20mA /0-10v)
●Zero-cross output(for driving Triac)
(A single functional)
Alarms:
●One Relay output (Optional features)
Dimensions:
h×w×d(Unit: mm) 160×80×85 152×76;
A:96×96×110 92×92;
D:72×72×110 68×68;
R(din35): 88mm ×107mm ×59mm 。
Transfer Output:
(Optional features)With any model that provides a transfer process value as a 4 to 20 mA or 1 to 5 V transfer output.
Communications:
(Optional features)
Communication method:RS-232C (3-wire) OR RS-485 (2-wire)
Communication speed:2400, 4800, 9600 BPS
Bit format Start bit: 1
Data bit:For MODBUS 8 bit only

Terminal Arrangement:

Register Address Code Name Manual Setting range Ex-Factory
The first public parameters
0 LocK Set data lock LOCK=18, Set data unlock
LOCK≠18, Set data lock.
0~50 18
1 TS Input type Cu50(–50.0~150.0℃);    Pt100 ()–199.9~600.0℃);  K(-30.0~1300℃) ;  E( -30.0~700.0℃);  J (-30.0~900.0℃);
T( -199.9~400.0℃);  S( -30~1600℃);
  _____ K
2 ALP Alarm output Opt. 0: Alarm function OFF;
‘1’ Process high alarm;
‘2’ Process low alarm;
‘3’ Deviation High alarm ;
‘4’ Deviation low alarm;
‘5’ Deviation high/low alarm;
‘6 Band alarm.
0~10 According to the request
3 Kt PID control cycle. PID control response time 0~120 S 10 S
4 dp Decimal point position selection Set the position of the decimal point for the measured value to be displayed. 0~1  
0
5 P-SH Range high The control is displayed after the Input type and Input range. P-SL~9999 1300
6 P-SL Range low -1999~P-SH 0
7 OP-B AUX  output Opt. 0:no output;             
1:RS232 or RS485;
2:contact the micro-printer; ‘
3:transmitter 0~10mA
4:transmitter4~20mA
0~4 READ ONLY
  8 Addr Address Communication address can be set from 0 to 255 1~255   1
9 Baud Communication speed 1200;  2400;  4800;   9600; ____ 9600
The Parameters of  Each channels(Channel menu level)
1 SP+N (1~4) Setting Values Of channel N,(N=1-4) Set the temperature set value (SV) which is the target value for control    
2 AL+N Alarm of chnnel N,(N=1-4) please refer to ALP for the alarm mode suitable. Determined by P-SL P-SH  
3 PB+N PV Bias The value set in the PV bias is added to the actual input value to correct the input value. ±20.0 0.0
  4 KP+N Proportional band Set when PI or PID control is performance. For heating / cooling PID action.
When P=0,the meter is ON/OFF control
1~100  
  5 KI+N Integral time Eliminates offset occurring in proportional control. 0~3000 500
6 KD+N Derivative time Prevents overshoot and/or undershoot caused by integral action effect.. 0~2000S  
30S
7 Hy+N Differential gap When the control is ON/OFF control(P=0)
Relay contact may repeat its turning ON and OFF due to input fluctuation if measured value (PV) is near the alarm set value.the differential gap setting can prevent the relay contact from ON or OFF repetition.
0.1~50.0  
0.5
8 At+N Autotuning (AT) with learning function 1: Autotuning (AT) with learning start
0: Autotuning (AT) with learning stop
Turns OFF automatically when the AT with learning function is completed.
0~1  0
9 COL+N System function Opt. ‘0’:reverse control(heating)
‘1’:positive control(cooling)
0~1  0