1. Automatically recognize scene changes and achieve precise control

Equipped with PID parameter fault tolerance function, it can simulate expert thinking to adjust the working state of the PID controller in various scenarios such as changing the given value, pure lag delay, additional disturbance, opening the furnace door, unexpected power outage, etc., so that accurate control without overshoot and overshoot can still be achieved on site.

2. Self learning function, better control effect with more use

At the end of self-tuning, the control effect may not be optimal yet. The system has self-learning function and analyzes the data of each control process to continuously optimize the control scheme. Therefore, after using it for a period of time, the control effect will be better.

3. AAT advanced and fast self-tuning, saving debugging time

In addition to the classic AT self-tuning function, the newly developed AAT advanced fast self-tuning function can analyze the heating curve and calculate PID parameters when the equipment is powered on and heated up, without the need for back and forth oscillation like traditional ATs, greatly saving equipment debugging time.

4. Powerful program control and curve fitting technology

• Programmable instruments have multi-stage program control functions, which can achieve temperature rise/fall control of any slope. They have programmable/operable commands such as jump (loop), run, pause, and stop, and allow the program to be modified at any time during control operation; The use of Al artificial intelligence adjustment algorithm with curve fitting function can achieve smooth and even curve control effect.

• It can backup and store 10 sets of 50 programs, with the ability to select multiple sets of program segments.

• Allow automatic switching between two sets of PID parameters based on the given value SV.