Description
Specifications Table
Product Material – High-grade ABS housing with corrosion-resistant components Grade – Industrial/Research Grade Application – Temperature control, process automation, lab instrumentation
Product Overview
The Advanced PID Controller with Microcontroller is engineered for high-precision temperature regulation in laboratory and research environments. Featuring an advanced proportional-integral-derivative (PID) algorithm, this controller ensures minimal overshoot and rapid stabilization, making it ideal for applications requiring tight thermal control. The integrated microcontroller allows for programmable setpoints, real-time monitoring, and adaptive tuning, enhancing both accuracy and efficiency. Its robust ABS housing provides durability, while the corrosion-resistant internal components ensure long-term reliability even in demanding conditions. The controller supports multiple input types (thermocouples, RTDs) and offers intuitive digital interfacing for seamless integration with existing lab setups. Whether used for maintaining consistent temperatures in incubators, reactors, or other critical equipment, this PID controller delivers unmatched performance with minimal manual intervention.
FAQs
1. What type of sensors are compatible with this PID controller?
This controller supports K-type thermocouples, PT100 RTDs, and other standard temperature sensors commonly used in lab environments.
2. Can the PID parameters be manually adjusted?
Yes, the microcontroller allows manual tuning of proportional, integral, and derivative gains for customized control optimization.
3. Is this controller suitable for high-temperature applications?
It is designed for temperatures up to 300°C, depending on the connected sensor’s specifications.
4. Does it require external power, or can it run on batteries?
This controller operates on a standard 220V AC power supply and does not support battery operation.
5. How does the auto-tuning feature work?
The microcontroller analyzes system response and automatically adjusts PID values to achieve optimal stability without manual input.
