Please Leave Us A Message
Privacy statement: Your privacy is very important to Us. Our company promises not to disclose your personal information to any external company with out your explicit permission.
XMTA-JK208 two-way Temperature controller
Instruction manual
Ⅰ.Summary
XMT*JK series two-way Temperature Controller can connect two sensors synchronously and conveniently, diminish the instrument`s volume. It has a separate auto-tune mode and PID parameter function with more precision and more reliability in whole machine control.
Ⅱ.Primary technical standard:
1.Input signal: CU50(-50.0~150.0℃).Pt100(-19.9~600.0℃).K(0~1300℃).
E(0~700.0℃).J(0~900.0℃)
2.Accuracy: ±0.5%F.S±byte
3.Output method: relay AC220V 3A(resistance load)
4.control mode: difference control-on/off and PID control
5.Input power: AC85~242V 50/60Hz
6.Environment Temperature: 0 to 50℃, Humidity: ≤85%RH
7.Face Size: 160×80×110 mm Hole Size : 152×76 mm
96×96×110 mm Hole Size : 92×92 mm
72×72×110 mm Hole Size :68×68 mm
Ⅲ.Panel board instruction(consult)
Ⅳ.connection scheme(consult)
Ⅴ.Code setting mode
| Series | Code | Name | Setting range | Manual | Remarks | |||||
|
First
Menu | 0 | LOCK | Code lock | 0~50 | 18-all the parameter can be revised,
| 18 | ||||
| 1 | Sn | Input type | -- | CU50.Pt100.K.E.J | K | |||||
| 2 | DT | The preset temperature value |
±180.0 | When the temperature difference control effectively |
| |||||
| 3 | CAL | Temperature limit alarm | ±180.0 | When the temperature difference control effectively |
| |||||
| 4 | t | Output cycle | 0~120 S | relay control action cycle setting | 10 S | |||||
| 5 | dp | display accuracy | 0~1 | 0. no decimal; 1.have decimal | 0 | |||||
| 6 | P-SH | Upper limit | P-SL~full range | this parameter resreict enactment value`s upper | according request | |||||
| 7 | P-SL | lower limit | Range jumping-off ~P-SH | this parameter resreict enactment value`s low | according request | |||||
| 8 | OPA | 0~1 | 0:Dual control instrument; 1:Temperature control |
| ||||||
| 9 |
DIS | The difference between the display mode | 0~1 | 0:normal 1: PV2 Display the temperature difference, SV2 Display setting temperature |
| |||||
| 10 | Add | address | 1~64 (1~9999) | Meter`s NO (in minitype as print times) | 1 | |||||
| 11 | bt | baud rate | 0~3 | 0:1200; 1:2400; 3:4800; 4:9600 | 9600 | |||||
| first channel parameters | ||||||||||
|
Second
Menu | 10 | SP1 | The first channel control setpoint | Range by P-SL.P-SH decide | Control value setting | default
| ||||
| 11 | LA1 | Alarm value setting | Range by P-SL.P-SH decide | Output mode decide by `AL-P` | default | |||||
| 12 | SC1 | Sensor error amendment | ±20.0 | The sensor have deviation can use item to revisal | 0.0 | |||||
| 13 | P1 | Proportion modulus | 0~100 | When P↑, proportion function↓, clash↓, but too big will add the heating time When P=0, the instrument is ON/OFF control. | 15.0 | |||||
|
14 |
I1 |
Calculus time |
0~3000 | Set integral time so as to unchain residual deflection caused by proportion control. To increase it, the static difference will be reduced, but when it is too high ,thestatic difference will drift instability. |
240 | |||||
|
15 |
D1 | differential time |
0~200S | Set differential time to avoid fluctuation of output so as to improve the steady of control. |
30 | |||||
| 16 | Hy1 | Main control by drop in level | 0.1~50.0 | It only controls at ON/OFF | 1.0 | |||||
| 17 | At1 | Setting itself | 0~1 | 0:close setting itself function 1:open setting itself function | 0 | |||||
| Second channel parameters | ||||||||||
|
|
| SP2 | The Second channel control setpoint | Range by P-SL.P-SH decide | Control value setting | default
| ||||
|
| LA2 | Alarm value setting | Range by P-SL.P-SH decide | Output mode decide by `AL-P` | default | |||||
|
| SC2 | Sensor error amendment | ±20.0 | The sensor have deviation can use item to revisal | 0.0 | |||||
|
| P2 | Proportion modulus | 0~100 | When P↑, proportion function↓, clash↓, but too big will add the heating time When P=0, the instrument is ON/OFF control. | 15.0 | |||||
|
|
I2 |
Calculus time |
0~3000 | Set integral time so as to unchain residual deflection caused by proportion control. To increase it, the static difference will be reduced, but when it is too high ,thestatic difference will drift instability. |
240 | |||||
|
|
D2 | differential time |
0~200S | Set differential time to avoid fluctuation of output so as to improve the steady of control. |
30 | |||||
|
|
||||||||||