DEIF RMC-131D2 Current Relay Module
Product Details Introduction
The DEIF RMC-131D2 current relay module is an electronic device commonly used in power systems and electrical control applications to monitor and control current to ensure system stability and safety. The following are some common product features of the DEIF RMC-131D2 current relay module:
Current monitoring: RMC-131D2 can monitor the current in a circuit and is usually used to measure and record the changes and waveforms of the current.
Current protection: The DEIF RMC-131D2 current relay module usually has a current protection function, which can monitor whether the current exceeds the preset threshold and take corresponding measures, such as disconnecting the circuit or triggering an alarm, to prevent overload or short circuit.
Multifunctional protection: In addition to current protection, RMC-131D2 may also have other multifunctional protection functions, such as voltage, frequency, phase sequence, and ground fault protection.
Programmability: This current relay module typically has high programmability, allowing users to customize protection parameters and logic based on specific application requirements.
Communication interface: RMC-131D2 usually has a communication interface, such as a serial or Ethernet interface, for communication and data exchange with other devices and systems.
Event recording: The DEIF RMC-131D2 current relay module is usually able to record and store event and fault information for subsequent analysis and diagnosis.
User friendliness: Devices typically have an easy-to-use user interface for easy configuration and operation.
Reliability: DEIF products typically have high reliability and can operate stably under various environmental conditions.
Applicable field: The RMC-131D2 current relay module is widely used in fields such as power systems, power stations, electrical control, industrial automation, etc. to ensure current monitoring and protection.
Product picture display
Related products:
Reviews
There are no reviews yet.