Brand:WOODWARD
Model:5462-948
Module Type:Thermocouple Card
Operating Temperature Range:-40°C to 85°C
Power Supply Voltage:12VDC ±10%
Input Resistance:150Ω
Accuracy:+/- 0.2% FS
Output Signals:0-10V DC or 4-20mA
Communication Interface:RS-485 Modbus RTU
Relay Output:Single 2A @ 24VDC
Data Acquisition Speed:5 samples/sec
Environmental Rating:IP20
Dimensions:120mm x 50mm x 10mm
Weight:50g
The WOODWARD 5462-948 Thermocouple Card is a high-performance temperature measurement solution tailored for industrial environments where accuracy and reliability are paramount. Designed with a robust and durable construction, this module ensures precise temperature readings over a broad operating range from -40°C to +125°C, making it suitable for a variety of industrial processes and applications.
Featuring a high-resolution input of 1 kiloohm, the module offers unparalleled precision with a resolution of 0.01°C, enabling users to monitor temperature changes with exceptional detail. Its accuracy is further enhanced with a specified tolerance of +/- 0.5°C at 25°C, ensuring dependable performance under varying conditions.
With a power consumption of up to 250 mW, the WOODWARD 5462-948 Thermocouple Card operates efficiently, minimizing energy usage without compromising on performance. It supports RS-485 Modbus communication interface, facilitating seamless integration with existing industrial control systems for data transmission and control purposes.
The module is designed to withstand harsh industrial environments, with an operating voltage range of DC 15 to 35V and a maximum operating current of 10 mA. This ensures it can function reliably in diverse electrical settings. Additionally, its compact dimensions of 80mm x 50mm x 20mm make it easy to install on various mounting surfaces, including panels.
Equipped with a panel mount design, the WOODWARD 5462-948 Thermocouple Card provides a secure and convenient installation option, allowing for quick deployment in industrial control systems. It is a perfect choice for industries requiring precise temperature monitoring, contributing to enhanced operational efficiency and quality control.
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