X-Meritan is a professional distributor of TCB-NE-AH Temp Controller with High Precision and High Power in China. With extensive industry experience and high-quality products, we have a good reputation in the field. New and old customers are welcome to inquire and place orders.
To address the matching difficulties and signal attenuation issues associated with traditional instruments and actuators, we launched the TCB-NE-AH Temp Controller with High Precision and High Power. This controller offers high accuracy (±0.1°C) and a single-channel output of tens of kilowatts, resolving difficulties and potential risks for customers.There is no aging component problem brought by traditional potentiometers, only full digital processing. From data acquisition to signal output, good consistency, stable and reliable performance
supports more than 50 sections of program temperature control and can be configured with complex processes such as heating, cooling, constant temperature, and circulation to meet various stringent process requirements.
We strictly follow the ISO9001 quality management system standards; CE, UL international certification, from component procurement to manufacturing, testing to delivery, full process quality control. We also provide customized services for you, according to the special scenarios of customer needs, quickly provide solutions. We also have technical support services during sales and quick response services after sales.
Power supply voltage AC 220V ±10%, 50/60Hz
Power consumption < 30W
Temperature input Pt100
Sampling resolution 0.01°C
Control mode PID, ON/OFF, program temperature control
Communication interface RS-485
Dimensions: 144mm × 144mm × 150mm
As a manufacturer of TCB-NE-AH Temp Controller with High Precision and High Power, our products can be widely used in high-precision temperature control and power control industries, such as electronic component aging testing, high-temperature reaction and processing, as well as in home appliances, medicine, new energy, new materials, and even aerospace manufacturing and scientific research.
First, we employ high-precision, low-temperature drift sensors and 24-bit analog-to-digital converters. Second, we employ advanced digital filtering algorithms to eliminate noise interference. Finally, through intelligent PID self-tuning and adaptive algorithms, we dynamically optimize control parameters to ensure optimal control under various operating conditions. Furthermore, a scientific heat dissipation design not only ensures the stable operation of internal electronic components but also effectively suppresses temperature drift.
