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  • GE RS-FS-9001 362A1052P004 Redundant Fan System Module
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  • GE RS-FS-9001 362A1052P004 Redundant Fan System Module

    110V-380V
    5W-130W
    1A-30A
    1 year
    30
    United States, France, Japan, Viet Nam, Australia, Russia, Germany, Italy, Arabia

    GE RS-FS-90001 (material number: 362A1052P004) is a high reliability redundant fan system module designed specifically for the cooling needs of industrial grade equipment. This module relies on GE's profound technical accumulation in the field of industrial control, with the core design concept of "redundant backup". It can provide continuous and stable heat dissipation support for key equipment such as servers, control cabinets, power equipment, and automation systems, effectively avoiding operational failures, data loss, or downtime caused by equipment overheating. It is the core heat dissipation component that ensures the continuous operation of equipment in industrial scenarios.

    • ¥22735.00
      ¥28457.00
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    Weight:2.580KG
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Description

GE RS-FS-90001 (material number: 362A1052P004) is a high reliability redundant fan system module designed specifically for the cooling needs of industrial grade equipment. This module relies on GE's profound technical accumulation in the field of industrial control, with the core design concept of "redundant backup". It can provide continuous and stable heat dissipation support for key equipment such as servers, control cabinets, power equipment, and automation systems, effectively avoiding operational failures, data loss, or downtime caused by equipment overheating. It is the core heat dissipation component that ensures the continuous operation of equipment in industrial scenarios.




GE RS-FS-9001 362A1052P004 Redundant Fan System Module

Product Overview

GE RS-FS-90001 (material number: 362A1052P004) is a high reliability redundant fan system module designed specifically for the cooling needs of industrial grade equipment. This module relies on GE's profound technical accumulation in the field of industrial control, with the core design concept of "redundant backup". It can provide continuous and stable heat dissipation support for key equipment such as servers, control cabinets, power equipment, and automation systems, effectively avoiding operational failures, data loss, or downtime caused by equipment overheating. It is the core heat dissipation component that ensures the continuous operation of equipment in industrial scenarios.

This module not only has efficient heat dissipation performance, but also integrates intelligent monitoring and fault warning functions, which can seamlessly adapt to GE series industrial control equipment and various mainstream third-party devices. It is widely used in industries such as power, metallurgy, petrochemicals, and intelligent manufacturing that require high stability in equipment operation.


Core technical characteristics

1. Dual redundancy design to ensure operational continuity

The module adopts a redundant architecture of primary and backup dual fans. Under normal operating conditions, the dual fans work together to evenly distribute the heat dissipation load and extend the service life of a single fan; When one of the fans fails (such as stalling or abnormal speed), the system can automatically detect and trigger redundant switching within 500ms. The faulty fan will immediately exit, and the backup fan will run at 100% rated power to ensure uninterrupted heat dissipation. This design achieves an average time between failures (MTBF) of over 150000 hours for the module, significantly improving the reliability of the equipment's cooling system.

2. Efficient heat dissipation performance, suitable for multiple scene requirements

The module is equipped with GE customized high static pressure centrifugal fans, with a single fan rated air volume of up to 280CFM (cubic feet per minute) and a maximum static pressure of 12mmHg ₂ O, which can quickly remove the heat accumulated inside the equipment. The fan adopts aerodynamic optimized blade design, which improves heat dissipation efficiency while controlling operating noise below 55dB (measured at a distance of 1 meter), meeting the requirements of industrial sites for noise environment. In addition, the module supports wide range environmental temperature adaptation and can operate stably under extreme temperature conditions of -10 ℃~60 ℃, suitable for harsh industrial scenarios such as high temperature and high dust.

3. Intelligent monitoring and fault warning

The module integrates high-precision speed sensors and intelligent control chips, which can collect real-time data such as fan speed, module temperature, and operating status, and upload the data to the equipment main control system or monitoring platform through RS-485/Modbus communication interface. When abnormal situations such as fan failure, voltage abnormality, module overheating, etc. are detected, not only will local alarms be triggered through the module's built-in LED indicator light (red/green dual color), but also fault alarm signals will be sent to the monitoring system, supporting remote fault diagnosis and positioning, reducing maintenance personnel's on-site troubleshooting time.

4. High compatibility and convenient installation

The module adopts a standardized mechanical structure design, with dimensions suitable for most GE industrial control cabinets and server chassis, and supports customized installation brackets to adapt to third-party devices. The electrical interface adopts anti misconnection design, supports DC 24V wide voltage input (adaptation range: DC 18V~30V), and can be directly connected to industrial equipment DC power supply system. The overall weight of the module is only 1.2kg, and it adopts a snap on installation method, which can be installed and disassembled without professional tools, improving maintenance convenience.


Key technical parameters

Product Model

RS-FS-90001 (Material Number: 362A1052P004)

Fan configuration

Dual fan redundancy (primary/backup switching)

rated air volume

280CFM/fan (560CFM when dual fans work together)

Rated static pressure

≤12mmH₂O

input voltage

DC 18V~30V (rated 24V)

Rated power consumption

15W (dual fan operation)/8W (single fan operation)

ambient temperature

Work: -10 ℃~60 ℃; Storage: -40 ℃~85 ℃

communication interface

RS-485/Modbus RTU

Dimensions (length x width x height)

150mm×120mm×45mm

weight

About 1.2kg

Protection level

IP30 (dust-proof)

MTBF

≥ 150000 hours


Installation and maintenance precautions

1. Installation specifications

-Before installation, it is necessary to confirm that the equipment installation space size matches the module, ensure that the module air inlet and outlet are unobstructed, and reserve at least 50mm of ventilation gap;

-When wiring, it is necessary to strictly follow the electrical interface identification, distinguish the positive and negative poles, and avoid module damage caused by reverse connection;

-The module should be installed in a location with minimal vibration inside the device to avoid prolonged and severe vibration affecting the lifespan of the fan;

-After installation, it is necessary to verify through the monitoring system that the module communication is normal, the fan speed is stable, and there are no alarm signals.

2. Daily maintenance

-It is recommended to clean the dust screens of the module's air inlet and outlet every 3 months to avoid dust accumulation and affect heat dissipation efficiency;

-Regularly check the parameters such as fan speed and module temperature through the monitoring system to confirm that the operating status is normal;

-When a module malfunctions and alarms, the power supply should be cut off before maintenance. When replacing the fan, GE original accessories should be used to avoid compatibility issues;

-When storing modules, it is necessary to avoid humid and corrosive environments. If they are idle for a long time, they should be tested every 6 months to ensure stable performance.


Application scenarios

This module, with its high reliability and wide environmental adaptability, is widely used in the following scenarios:

1. Power industry: Substation automation control cabinet, power inspection terminal, energy storage system battery cabinet heat dissipation;

2. Intelligent manufacturing: industrial robot control cabinets, PLC control systems, and heat dissipation of automated production line equipment;

3. Petrochemical industry: on-site instrument cabinets, explosion-proof control cabinets, and heat dissipation for oil and gas extraction equipment;

4. Data center: GE industrial server, edge computing node equipment heat dissipation;

5. Metallurgical mines: Control equipment and sensor node heat dissipation in high-temperature environments.

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