Manufacturer:General Electric
Model Number:DS3800NTCF1A1A
Application Type:Industrial Control System Component
Thermocouple Compatibility:Versatile with various types of thermocouples
Operating Temperature Range:-40°C to 85°C
Input Resistance:500 Ohms
Accuracy at 25°C:+/- 0.5% of full scale
Response Time:Less than 1 second under steady state conditions
Power Consumption:Less than 10 mA
Communication Protocol:RS-485 for MODBUS RTU
The GE DS3800NTCF1A1A Thermocouple Board is engineered to provide unparalleled accuracy and reliability in temperature sensing for industrial automation processes. This board is specifically designed for seamless integration into GE‘s advanced PLC (Programmable Logic Controller) systems, ensuring optimal performance in various industrial settings.
Crafted from high-grade conductive metals and insulators, this thermocouple board is built to withstand harsh environmental conditions, making it suitable for applications ranging from chemical processing plants to power generation facilities. Its robust design ensures longevity and minimal maintenance requirements.
Featuring 2-wire thermocouple inputs, the DS3800NTCF1A1A simplifies installation and reduces wiring costs, enhancing the efficiency of your industrial control network. The board supports a wide operating temperature range of -40°C to +70°C, making it versatile for use in diverse geographical locations.
With its low power consumption of just 5W, the DS3800NTCF1A1A Thermocouple Board is energy-efficient, contributing to sustainable industrial operations. It is compatible with GE‘s Mark VI and subsequent PLC models, ensuring compatibility with cutting-edge technology.
Our team of experts at [Your Company Name] offers comprehensive support, including installation guidance, training sessions, and ongoing maintenance services to ensure that you derive maximum value from the DS3800NTCF1A1A Thermocouple Board. Choose [Your Company Name] for reliable industrial automation solutions that drive productivity and efficiency.
There are no reviews yet.