General Electric’s (GE) Fanuc brand recently introduced the VMIVME-3215-000, a high-performance embedded computer module designed for industrial automation control applications. The module is notable for its excellent processing power and rich I/O interface, which is suitable for performing a variety of complex industrial control tasks.

The VMIVME-3215-000 module’s fanless design offers high reliability, stability and the ability to operate over a wide temperature range, making it capable of adapting to a variety of harsh industrial environments. In addition, the module supports multiple operating systems and programming languages for easy development and integration. Its long life, low power consumption and easy maintenance provide users with a reliable industrial automation control solution
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The module also has the characteristics of a smart 8-channel thermocouple board, which can accept multiple thermocouple types at the same time, such as J, K, T, E, R, S, B, N, W-Re, etc. It performs reference (cold) junction temperature compensation and provides linearization processing that enhances the accuracy of temperature measurements. All inputs are filtered and isolated, and overvoltage protection ensures system stability and safety
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In addition, the VMIVME-3215-000 has 32 analog output channels, each equipped with A 12-bit D/A converter (DAC), providing random updating (non-scanning) and dual buffered output over a high pressure range of 0.80. This output capability makes the module ideal for applications such as data acquisition systems, control systems, precision analog excitation, and automated test equipment (ATE).

The introduction of the VMIVME-3215-000 module further enriches GE Fanuc’s product line in the field of industrial automation and, with its high performance and reliability, is expected to become an important component in the field of industrial automation control. With the advancement of Industry 4.0, this module is expected to play a key role in multiple fields such as intelligent manufacturing, precision engineering and process control.