When you're struggling with precise temperature control for micro objects, X-Meritan, manufacturer of the high-performance ATC-M1 Temp Controller with Short-Cycle PID and designed for micro objects, offers peace of mind. We offer professional after-sales support. Regardless of any technical challenges, our team of experts is always on hand to provide fast and effective solutions. Choose us and let our technology work for you, taking the worry out of your day.
When your design is constrained by limited internal space, especially when working with miniature optical devices like DFB lasers and TO-CAN packages with integrated coolers and probes, a compact and efficient temperature control solution is essential. X-Meritan's ATC-M1 Temp Controller with Short-Cycle PID and Designed for Micro Objects boasts an exceptionally compact size, easily fitting seamlessly into your space-constrained system. If you're looking for such a solution, contact us in China today to receive detailed technical data and sample quotes for the ATC-M1 and experience firsthand how X-Meritan can bring value to your project.
Product Name: Temperature Control Panel
Model: ATC-M1
Board supply voltage: 3.0 - 5.0VDC
Output efficiency: ≈80%
TEC maximum voltage: 4.3V @ 5V supply
2.5V @ 3.3V supply
TEC maximum current: 2.5A
Temperature sensor: 10K NTC
Temperature control stability: 0.001°C
Temperature setting: potentiometer or analog input
Temperature control range: +10°C to +40°C (default)
Factory default set temperature: 25°C
Factory default maximum output voltage: 2.0V
Factory default maximum output current: 1.0A
Can be adjusted using the W9 potentiometer
Operating temperature: -40°C to +45°C
Dimensions: 34mm x 20mm, height: 15.5mm (5.5mm including pins)
The ATC-M1 Temp Controller with Short-Cycle PID and designed for Micro Objects utilizes a high-cost TEC temperature control chip and a short-cycle PID control algorithm, achieving temperature control accuracy of up to 0.001°C. This board utilizes a continuous output drive mode, ensuring continuous and stable temperature control throughout the control cycle, providing optimal control.
Ultra-small semiconductor cooler temperature control boards are widely used in DFB and TO-packaged optical devices. These boards, which integrate a cooler and temperature probe, are extremely sensitive to temperature fluctuations, requiring a high-precision temperature control system to ensure long-term performance stability and reliability.
Other highly sensitive, extremely small systems are often used in precision laboratory equipment, portable medical instruments, and military micro-devices. These temperature control systems require zero vibration, zero contamination, low power consumption, and fast real-time response. The ATC-M1, with its short-cycle PID control algorithm and continuous output drive mode, precisely meets these stringent requirements, providing stable and reliable temperature control for various high-end micro-systems.
