| Parameter Code | Description | Typical Setting | | -------------- | -------------------------------------------------- | ------------------------------------------------- | | | Proportional Band (0-9999) | Set based on PID autotuning results | | I | Integral Time (0-3600 seconds) | Set based on PID autotuning results | | D | Derivative Time (0-3600 seconds) | Set based on PID autotuning results | | AL1 | Alarm 1 value | Sets the high alarm threshold | | AL2 | Alarm 2 value | Sets the low alarm threshold | | SN | Input sensor selection | Select your sensor type: 'K', 'PT1', 'Pt100', etc. | | DP | Decimal point position | Set if displaying non-integer values | | At | PID Autotuning Enable/Disable | Set to '1' or 'ON' to start autotuning |
Displays the current measured temperature in red. SV (Set Value): Displays the target temperature in green. SET Key: Used to enter parameter menus and confirm changes.
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| Control Mode | Description | Best Application | | ------------- | ------------------------------------------------------------------------------------------------------------------------------------- | ----------------------------------------------------- | | | Simple relay toggles on when PV < SV, off when PV > SV. Causes temperature oscillations. | Low-precision applications (e.g., warning, not control) | | Time-Proportional | Output is pulsed at fixed cycle; ON time proportional to error. Smoother than On-Off. | Simple industrial ovens and heaters | | Standard PID | P, I, and D terms continuously calculate output to minimize error. Provides stable and accurate control. | Most general-purpose heating applications | | Fuzzy PID | Combines PID with fuzzy logic rules, improving response to large disturbances. Excellent for complex or nonlinear systems. | Plastic/rubber machinery, systems with variable loads |
: Mount the controller in a place with minimal dust and no corrosive or flammable gases. Conditions | Parameter Code | Description | Typical Setting
is an intelligent, high-precision digital temperature controller commonly used in industrial applications such as metallurgy, chemical processing, and heat press machinery. It utilizes a (Proportional-Integral-Derivative) algorithm to provide stable temperature regulation with rapid response times and minimal overshoot. 1. Key Technical Specifications Model Temperature Range 0°C to 1000°C (typically 0-400°C for standard models) Input Signals Thermocouple (Type K, J), RTD (Pt100) Control Mode PID or ON/OFF control Output Type Relay (up to 10A) or SSR (Solid State Relay) Power Supply 85–264V AC, 50/60Hz Dimensions 48mm x 48mm x 103mm (Panel Mount) 2. Wiring Instructions
The Ultimate Guide to the XMTG-2000 Temperature Controller: Manual, Setup, and Troubleshooting SET Key: Used to enter parameter menus and confirm changes
Access the menu and verify code matches your exact sensor type. No display power Blown fuse or incorrect voltage input. Check line voltage. Ensure Terminals 1 and 2 receive power. If youg., K-type thermocouple, Pt100)
Relay contact, SSR (Solid State Relay) voltage pulse, or 4-20mA current Supported Input Sensors