Description
Technical Parameters
Technical Specifications
|
Manufacture |
General Electric(GE) |
|
Model |
CM400RGICH1A |
| Part Number | CM400RGICH1ADC |
|
Description |
High-Density Power Distribution Board |
|
Origin |
USA |
|
Dimension |
30*20*10cm |
|
Weight |
0.25kg |
Product Details
In large industrial control systems (such as gas or steam turbine control, energy management, process automation, etc.), the internal modules of controllers, distributed I/O units, network switching equipment, etc., all requirea reliable and orderly power supply. As a high-density power distribution board, the main purpose of CM400RGICH1ADC is:The direct current power (typically 28 V DC) from the main power supply system is stably distributed to a large number of I/O modules and network devices.
√ Power supply output distribution
CM400RGICH1A provides multiple DC power output channels and can support the power output for up to approximately 24 standard I/O modules.
The output power is isolated and protected to prevent a single path failure from affecting the overall system power supply.
Support multiple power supply points for network switching devices (such as Ethernet switches, power bus driver boards, etc.)
The PTC (positive temperature coefficient) current protection device is integrated into each output channel, serving for overcurrent protection and limiting the spread of faults.
CM400RGICH1A provides multiple DC power output channels and can support the power output for up to approximately 24 standard I/O modules.
The output power is isolated and protected to prevent a single path failure from affecting the overall system power supply.
Support multiple power supply points for network switching devices (such as Ethernet switches, power bus driver boards, etc.)
The PTC (positive temperature coefficient) current protection device is integrated into each output channel, serving for overcurrent protection and limiting the spread of faults.
Installation and Connection
In the GE Mark VIe control system, the CM400RGICH1A is usually used in a modular form in conjunction with the controller, I/O Packs, network modules, monitoring interfaces, etc.
Install using the DIN-Rail (rail) or standard control cabinet method
The compact design makes it easy to arrange side by side with the standard modules in the control cabinet.
Support the integration of standardized connectors such as J1 and J2 with other system modules.
Output power connection: Supply power to I/O Packs, network devices, and other modules;
Support redundant architecture: Combine with multiple power supply modules to builda dual power supply or a Triple Modular Redundancy (TMR) power supply structure.
Modular maintenance: For upgrades or replacements, it can be easily disassembled and replaced.
The modular and highly scalable power architecture design of the CM400RGICH1A meets the requirements of modern automation systems for maintainability, high availability, and precise management.
Install using the DIN-Rail (rail) or standard control cabinet method
The compact design makes it easy to arrange side by side with the standard modules in the control cabinet.
Support the integration of standardized connectors such as J1 and J2 with other system modules.
Output power connection: Supply power to I/O Packs, network devices, and other modules;
Support redundant architecture: Combine with multiple power supply modules to builda dual power supply or a Triple Modular Redundancy (TMR) power supply structure.
Modular maintenance: For upgrades or replacements, it can be easily disassembled and replaced.
The modular and highly scalable power architecture design of the CM400RGICH1A meets the requirements of modern automation systems for maintainability, high availability, and precise management.
Application scenario
In industrial automation control platforms (such as Mark VIe), the control architecture employs a centralized controller to connect multiple adjacent I/O modules and network devices. Power distribution is an indispensable part of the control cabinet, especially in scenarios that require high-density I/O and redundant power supply, such as:
✔ Large-scale gas/steam turbine control system
✔ Power plant process control system
✔ Chemical process automation
✔ Monitoring and control architecture for high-speed production lines
✔ Distributed Control System (DCS) and PLC network
✔ Large-scale gas/steam turbine control system
✔ Power plant process control system
✔ Chemical process automation
✔ Monitoring and control architecture for high-speed production lines
✔ Distributed Control System (DCS) and PLC network