MIK-2100 Single-loop digital display controller

Single-loop digital display controller with automatic SMD packaging technology, has a strong anti-jamming capability. Designed with dual-screen LED display, it could display more contents. It can be used in conjunction with various sensors、transmitters to display temperature, pressure, liquid level, speed, force and other physical parameters, and to output alarm control, analog transmission, RS-485/232 communication etc.

Characteristics

Double four-digit LED display;

10 types of dimensions available;

Standard snap-in installation;

Power supply: AC/DC100~240V (Frequency 50/60Hz)  Power consumption≤5W DC 12~36V  Power consumption≤3W

  • Specification

 Product  Single-loop digital display controller
 Model MIK-2100
 Dimension A. 160*80*110mm
B. 80*160*110mm
C. 96*96*110mm
D. 96*48*110mm
E. 48*96*110mm
F.72*72*110mm
H. 48*48*110mm
K.160*80*110mm
L. 80*160*110mm
M. 96*96*110mm
Measurement accuracy ±0.2%FS
Transmission output Analog output----4-20 mA, 1-5v, 0-10mA, 0-5V, 0-20mA, 0-10V
Alarm Output ALM----With upper and lower limit alarm function, with alarm return difference setting; Relay capacity:
AC125V/0.5A (small) DC24V/0.5A (small) (Resistive load)
AC220V/2A(big) DC24V/2A(big) (Resistive load)
Note: When the load exceeds the relay contact capacity, please do not directly carry the load
Power supply AC/DC100~240V (Frequency 50/60Hz)  Power consumption≤5W
DC 12~36V  Power consumption≤3W
Use environment Operating temperature (-10~50℃) No condensation, no icing
Printout RS232 printing interface, micro-matched printer can realize manual, timing and alarm printing functions

 

  • Introduction

Single-loop controller

Single-loop digital controller

Single-loop digital display controller with automatic SMD packaging technology, has a strong anti-jamming capability. Designed with dual-screen LED display, it could display more contents. It  can be used in conjunction with various sensors, transmitters to display temperature, pressure, liquid level, speed, force and other physical parameters, and to output alarm control, analog transmission, RS-485/232 communication etc. More than the traditional digital display meters is a new function to restore the factory default parameters, with easier operation and better applicability.

A single-loop display controller is a type of process control device that is used to regulate a single process variable, such as temperature or pressure, in an industrial setting. It consists of a microprocessor-based controller and a display that allows operators to view the current value of the process variable and the setpoint.

The controller receives input from a sensor, which measures the process variable, and uses this information to make adjustments to a final control element, such as a valve or heater, in order to maintain the desired setpoint. The display on the controller provides real-time information about the process variable and allows operators to monitor the performance of the system.

Some specific features and advantages of single-loop display controllers include:

  • Accuracy: These controllers are highly accurate, which is critical in industrial settings where even small variations in process variables can have significant consequences.
  • Flexibility: Single-loop display controllers are highly versatile and can be used to regulate a wide range of process variables, including temperature, pressure, flow, and level.
  • Ease of use: These controllers are typically user-friendly, with intuitive interfaces that allow operators to set the desired set point and make adjustments as needed.
  • Data logging: Many modern single-loop display controllers include data logging capabilities, which allow operators to track performance over time and identify trends or potential issues.
  • Cost-effective: Compared to more complex process control systems, single-loop display controllers are generally less expensive and easier to install and maintain.

Some common applications of single-loop display controllers include regulating the temperature of industrial ovens or furnaces, controlling the pressure of compressed air systems, and maintaining the flow rate of fluids in chemical processing plants.

Input signal type list:

Graduation Number Pn Signal type Measure range Graduation Number Pn Signal type Measure range
0 TC B 400~1800℃ 18 Remote Resistance 0-350Ω -1999~9999
1 TC S 0~1600℃ 19 Remote Resistance 3 0-350Ω -1999~9999
2 TC K 0~1300℃ 20 0-20mV -1999~9999
3 TC E 0~1000℃ 21 0-40mV -1999~9999
4 TC T -200.0~400.0℃ 22 0-100mV -1999~9999
5 TC J 0~1200℃ 23 -20-20mV -1999~9999
6 TC R 0~1600℃ 24 -100-100mV -1999~9999
7 TC N 0~1300℃ 25 0-20mA -1999~9999
8 F2 700~2000℃ 26 0-10mA -1999~9999
9 TC Wre3-25 0~2300℃ 27 4-20mA -1999~9999
10 TC Wre5-26 0~2300℃ 28 0-5V -1999~9999
11 RTD  Cu50 -50.0~150.0℃ 29 1-5V -1999~9999
12 RTD  Cu53 -50.0~150.0℃ 30 -5-5V -1999~9999
13 RTD  Cu100 -50.0~150.0℃ 31 0-10V -1999~9999
14 RTD  Pt100 -200.0~650.0℃ 32 0-10mA square -1999~9999
15 RTD  BA1 -200.0~600.0℃ 33 4-20mA square -1999~9999
16 RTD  BA2 -200.0~600.0℃ 34 0-5V square -1999~9999
17 Linear resistance 0~400Ω -1999~9999 35 1-5V square -1999~9999

 

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