GE IC200CHS002 Compact I/O Carrier Module - Image 1

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GE IC200CHS002 Compact I/O Carrier Module

Product Introduction

The GE IC200CHS002 is a compact I/O carrier module designed for industrial automation applications. It is part of the VersaMax series, originally produced by GE Intelligent Platforms (GE IP) and now owned by Emerson Automation Solutions. This module provides a flexible and universal I/O structure for both local and remote configurations, supporting various industrial automation needs.

Technical Specifications

Number of Terminals: 36 IEC box-type terminals, arranged in two groups (A1-A18 and B1-B18)
Voltage Range: 0-264 VAC (withstands transient voltages up to 300 VAC)
Current Rating: 2 amperes per point; 8 amperes per power/common terminal

Category: GE

Description

Wire Size Compatibility:
- Single wire: AWG #14 (2.1 mm²) to AWG #22 (0.36 mm²)
- Double wire (for shorting terminals): AWG #18 (0.86 mm²)
Terminal Torque: Recommended torque of 0.37 to 0.45 pound-feet per terminal
Module Dimensions: 110.5 x 70 x 139.7 millimeters
Mounting: Designed for horizontal installation only
Keying Dial: Embedded keying dial to match the specified keying position of hosted I/O modules
Carrier Mate Connectors: For quick assembly and connection to the backplane
Module Latch Hole: For locking the hosted I/O module in place

Functional Features

Compact Design: The module’s compact design saves space and facilitates easy installation in control cabinets.
Flexible Configuration: Supports up to 32 I/O points or high-density I/O devices from the same VersaMax product series.
Robust Terminal Design: Terminals can withstand high voltages and currents, ensuring reliable operation in industrial environments.
Easy Maintenance: Allows for troubleshooting and replacement of I/O modules without removing existing wiring terminals.
Hot Swappable: Modules can be replaced without powering down the system, reducing downtime.
Protection Mechanisms: Built-in protection against voltage surges and overcurrent conditions.
Labeling: Comes with labels that can be inserted into the module’s transparent door for easy identification of terminals.

Application Scenarios

Manufacturing: Used in assembly lines and process control systems to monitor and control various industrial devices such as motors, valves, and sensors.
Energy Management: Deployed in power generation and distribution systems to monitor and control energy consumption, ensuring grid reliability and efficiency.
Water and Wastewater Treatment: Utilized to control valves, pumps, and other equipment in water treatment plants, ensuring accurate dosing of chemicals and efficient water distribution.
Building Automation: Employed in smart building systems to control HVAC equipment, lighting, and security systems, enhancing energy efficiency and occupant comfort.
Oil and Gas: Installed in remote and hazardous locations to monitor and control production processes, withstanding extreme temperatures and explosive atmospheres.
Transportation: Used in traffic monitoring and control systems to manage vehicle flow and ensure road safety.

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