X-Meritan is a leading China quality ATC-M1 Temp Controller with Short-Cycle PID and Designed for Micro Objects supplier. Engineering challenges involving miniature optical devices like DFB lasers require precise thermal regulation within extremely confined spaces. By manufacturing these specialized controllers in our China-based facility, X-Meritan provides global developers with a high-performance solution that balances ultra-compact dimensions with a rapid-response control architecture.
The quality ATC-M1 Temp Controller with Short-Cycle PID and Designed for Micro Objects manufactured from X-Meritan is a flagship thermal management module optimized for TO-CAN packages and micro-electronic assemblies. This controller utilizes a specialized short-cycle PID algorithm to provide instantaneous corrections, ensuring that micro-scale thermal masses remain stable despite external fluctuations. As a dedicated manufacturer, X-Meritan has engineered the ATC-M1 to integrate seamlessly into systems where internal space is a critical constraint, delivering industrial-grade precision without the footprint of traditional controllers.
| Parameter | Technical Requirement / Value |
| Product Name | Temperature Control Panel |
| Model Number | ATC-M1 |
| Board Supply Voltage (DC) | 3.0V - 5.0V |
| Output Efficiency | Approximately 80% |
| TEC Maximum Voltage | 4.3V (at 5V supply) / 2.5V (at 3.3V supply) |
| TEC Maximum Current | 2.5A |
| Temperature Sensor Type | 10K NTC |
| Temperature Control Stability | 0.001 degree C |
| Temperature Setting Method | Potentiometer or Analog Input |
| Default Temperature Control Range | +10 to +40 degrees C |
| Factory Default Set Temperature | 25 degrees C |
| Factory Default Max Output Voltage | 2.0V |
| Factory Default Max Output Current | 1.0A |
| Adjustment Method | W9 Potentiometer |
| Operating Temperature Range | -40 to +45 degrees C |
| Dimensions (L x W) | 34mm x 20mm |
| Total Height | 15.5mm |
| Pin Height | 5.5mm |
Short-Cycle PID Algorithm
The controller features an optimized feedback loop designed for micro objects with low thermal inertia, providing rapid stabilization and high-frequency corrective responses.
Extreme Space-Saving Design
Engineered for high-density integration, the ATC-M1 fits into the tightest internal cavities of miniature optical devices and sensor housings.
Seamless TO-CAN Integration
Specifically designed to manage DFB lasers and TO-CAN packages with integrated coolers and probes, ensuring accurate wavelength stabilization.
High-Efficiency Thermal Output
Despite its small size, the ATC-M1 delivers consistent power to micro-coolers, maintaining a stable thermal environment for sensitive semiconductor junctions.
Industrial-Grade Reliability
Manufactured in our ISO-compliant factory, each unit undergoes rigorous testing to ensure it can withstand the demanding environments of telecommunications and aerospace sensing.
Our ATC-M1 Temp Controller with Short-Cycle PID and Designed for Micro Objects are now widely used in the following areas:
DFB Laser Diode Stabilization: The ATC-M1 provides the precise, short-cycle feedback necessary to prevent frequency drift in high-speed optical fiber communication modules.
TO-CAN Package Thermal Management: Ideal for cooling and monitoring semiconductor components housed in miniature TO-type metal cans with limited thermal mass.
Micro-Optical Sensing: Ensures the accuracy of compact infrared sensors and molecular detectors by maintaining a rock-steady operating temperature.
Q: Why is "Short-Cycle PID" important for the ATC-M1 Temp Controller with Short-Cycle PID and Designed for Micro Objects?
A: Micro objects heat up and cool down much faster than larger systems. Short-cycle PID allows the controller to update its output at a higher frequency, preventing the temperature "overshoot" that often occurs with standard industrial controllers.
Q: Can the ATC-M1 fit into existing miniature optical systems?
A: Yes. The ATC-M1 Temp Controller with Short-Cycle PID and Designed for Micro Objects is one of our most compact designs, specifically created for systems where space is a critical bottleneck, such as integrated photonics and portable diagnostic tools.
Q: Does X-Meritan provide technical assistance for the initial system integration?
A: Absolutely. Our team of experts is on hand to provide fast and effective solutions, offering comprehensive after-sales support to ensure the ATC-M1 performs optimally within your specific hardware design.
1. Unlike traders, X-Meritan operates its own specialized factory in China. We maintain full traceability of every component in the ATC-M1, ensuring that industrial-grade reliability is built into every unit from the PCB level up.
2. We don't just sell boards; our team includes application engineers who have worked directly on DFB laser and TO-CAN integration projects. We provide specific advice on thermal resistance matching and PID parameter pre-setting for your micro-objects.
3. Our controllers are already deployed in high-stakes environments, including optical fiber communications and medical diagnostics, where a 0.1°C drift can result in system failure.
4. We understand the fast-paced nature of R&D for micro-electronic devices. We maintain ready-to-ship stock for the ATC-M1 to support your immediate testing and verification needs, backed by detailed technical data sheets.
5. With years of production and collaboration experience, X-Meritan ensures that all products meet the necessary industrial standards for global markets, providing a reliable supply chain for international manufacturers.
