MOTOROLA MVME761-001 is a multifunctional channel thermoelectric module designed for thermoelectric signal measurement and acquisition. The following is a detailed introduction to the product:
1. Basic information
Brand: MOTOROLA
Model: MVME761-001
Type: Channel thermoelectric module
2. Technical specifications
Multi-channel input: The module has multiple input channels, each of which can be connected to a thermocouple or temperature sensor, so that temperature signals at multiple points can be measured and collected simultaneously.
Thermocouple type support: Supports a variety of common thermocouple types, such as K-type, J-type, T-type, etc., to meet different temperature measurement needs.
High resolution and accuracy: With high resolution and accuracy, it can accurately measure and convert thermoelectric signals to ensure the accuracy and reliability of temperature data.
Communication interface: It is usually equipped with a communication interface, such as Ethernet or serial interface, which enables it to communicate data with other devices or systems, realize remote monitoring and control, and integrate with other automation systems.
3. Functional characteristics
Signal conversion function: The thermoelectric signals generated by thermocouples are usually analog signals, and MVME761-001 can convert these analog signals into digital signals for further processing, control or data transmission.
High-performance processor: The module has a built-in high-performance processor with fast data processing and computing capabilities, supports real-time control applications, and has fast response time and high-precision control capabilities.
High reliability: The module design has been verified and tested, with high reliability, can operate stably in industrial environments, and adapt to various harsh industrial environments.
IV. Application fields
Industrial automation: In the manufacturing industry, it is used for temperature monitoring and control of equipment to ensure the stability and efficiency of the production process.
Power system: In the power system, it is used to monitor and control the temperature of power equipment to prevent failures and accidents caused by overheating.
Chemical field: In chemical production, it is used to monitor and control temperature changes during chemical reactions to ensure product quality and production safety.
Automation control: In the automation control system, it serves as an interface for temperature signal acquisition and conversion to achieve real-time monitoring and control of temperature signals.
