GE IC695PSD140A Input Power Module

GE IC695PSD140A Input Power Module

Product Overview

The GE IC695PSD140A input power module is the core power supply component of the General Electric (GE) PACSystems RX3i series programmable automation controllers. As the "energy heart" of the system, it specifically provides stable and reliable DC power for the RX3i series controllers and various I/O modules and communication modules connected to them. This module adopts efficient power conversion technology, with a wide voltage input range, perfect protection mechanism, and excellent anti-interference performance. It can adapt to complex and changing industrial power supply environments, ensuring the continuous and stable operation of automation control systems under various working conditions. It is widely used in industrial fields such as manufacturing, energy, chemical, transportation, etc., which require extremely high power supply reliability.

Core Features

1. Wide range input and stable output

Supporting wide range communication input, it can adapt to the power supply needs of different regions and scenarios, effectively addressing voltage fluctuations in industrial power grids. The module adopts a high-precision voltage stabilization circuit design internally, which can convert fluctuating input voltage into stable DC output. The output voltage has high accuracy and small ripple, providing a pure power supply environment for the backend load module and avoiding module failures or data transmission errors caused by unstable voltage.

2. Comprehensive security protection mechanism

Built in multiple safety protection functions, including overcurrent protection, overvoltage protection, short circuit protection, over temperature protection, and under voltage protection. When there is a power supply abnormality (such as high/low input voltage), load failure (such as short circuit, overload), or abnormal temperature of the module itself, the protection mechanism will quickly respond by cutting off the output or limiting the current, effectively protecting the power module itself and the connected backend load equipment, reducing the risk of equipment damage, and improving the safety and fault tolerance of the system.

3. Efficient energy saving and low loss

Adopting advanced switching power supply technology, the power conversion efficiency is high, effectively reducing energy loss and meeting the energy-saving needs of industry. In the long-term operation process, the low loss characteristic can not only reduce electricity expenses, but also reduce the heat generation of the module itself, extend the service life of the equipment, and reduce the heat dissipation burden on industrial sites, adapting to harsh working environments such as high temperatures.

4. Convenient redundant configuration and maintenance

Supporting redundant power supply configuration, multiple IC695PSD140A modules can be used in parallel. When one module fails, the other modules can automatically and seamlessly take over the power supply task, ensuring uninterrupted system power supply and greatly improving the reliability of the control system. The module adopts standardized design, and the installation method is perfectly compatible with the RX3i series backplane, making it easy to plug and unplug; At the same time, it is equipped with clear status indicator lights, which can intuitively display the operating status of the power supply (such as normal, fault, overload, etc.), making it easy for staff to quickly troubleshoot problems and reduce maintenance costs.

5. Strong anti-interference and environmental adaptability

Adopting multiple electromagnetic compatibility (EMC) design, it has excellent anti electromagnetic interference capability and can effectively resist electromagnetic radiation, surges and other interference signals in industrial sites, ensuring stable power output. The module is manufactured with industrial grade high-quality components, which have good anti vibration and anti impact performance. It has a wide working temperature range and can operate stably in harsh environments ranging from -20 ℃ to 60 ℃. It is suitable for various industrial scenarios such as dust and humidity.

Key technical parameters

compatible system

GE PACSystems RX3i Series

Input voltage range

100V~240V AC (wide input)

input frequency

50Hz~60Hz (adaptive)

output voltage

24V DC (precise voltage regulation)

output current

14A (rated output)

Output Ripple and Noise

≤ 100mVp-p (under full load conditions)

conversion efficiency

≥ 85% (typical value, full load)

Working temperature range

-20℃~60℃

Storage temperature range

-40℃~85℃

relative humidity

5%~95% (no condensation)

Vibration level

Compliant with IEC 60068-2-6 standard, 10Hz~500Hz, acceleration 5g

Impact level

Compliant with IEC 60068-2-27 standard, peak acceleration of 25g, continuous for 11ms

protection function

Overcurrent, Overvoltage, Short Circuit, Over Temperature, Undervoltage Protection

Installation method

Compatible with RX3i series standard backplate, rail mounted installation

Mechanical dimensions (length x width x height)

Approximately 100mm × 160mm × 80mm (subject to actual product)

Applicable scenarios

The GE IC695PSD140A input power module is widely used in various industrial automation control scenarios due to its stable power supply performance, comprehensive protection mechanism, and good environmental adaptability. Typical applications include:

-High end manufacturing production lines, such as automotive welding production lines, semiconductor packaging and testing equipment, precision electronic assembly lines, etc., provide stable power supply for various high-precision I/O modules and motion control modules, ensuring the precision and efficiency of the production process.

-Energy monitoring and control system: an automated control system suitable for thermal power generation, hydropower generation, photovoltaic power stations and substations, which responds to voltage fluctuations in the power grid, provides reliable power supply for monitoring modules, actuators and other equipment, and ensures the safety of energy production and transmission.

-In the field of chemical and petrochemical engineering, it can resist high temperature, humidity, and electromagnetic interference in scenarios such as chemical reactor control and oil pipeline transportation monitoring, providing stable power supply for explosion-proof control modules and ensuring the safety and controllability of the production process.

-Transportation and logistics automation: such as rail transit signal control systems, port container loading and unloading equipment, intelligent warehousing sorting systems, etc., adapt to complex outdoor or vehicular environments, ensure continuous and stable power supply, and avoid equipment failures or process interruptions caused by power outages.

-Medical equipment and food processing: In medical diagnostic equipment (such as industrial testing instruments) and sterile food processing production lines, low ripple and high stability output characteristics meet the strict requirements of equipment for power supply quality, ensuring product quality and testing accuracy.

Instructions for use

Before installation, it is necessary to confirm the compatibility of the module model with the RX3i series backplane and load module, and check whether the input voltage range matches the on-site power supply parameters to avoid module damage caused by model mismatch or voltage misconnection.

2. During the installation process, it is necessary to strictly follow electrical safety regulations, ensure good module grounding, secure input and output wiring, and avoid loose connections that may cause poor contact or arc faults; When wiring, it is necessary to cut off the on-site power supply and live operation is strictly prohibited.

When configuring redundancy, it is necessary to use IC695PSD140A modules of the same model and batch to ensure performance matching between modules. At the same time, wiring and parameter settings should be carried out according to GE's official specifications to ensure seamless and reliable redundancy switching.

4. During use, the module status indicator light should be checked regularly. If a fault indicator light is on, the input power supply and load situation should be checked in a timely manner. If necessary, professional personnel should be contacted for testing; Regularly clean the dust on the surface of the module and the heat dissipation holes to ensure good heat dissipation.

5. Modules should be avoided from being installed near direct sunlight, high-temperature heat sources, or locations prone to water accumulation. The working environment should be kept ventilated and dry, away from strong electromagnetic interference sources (such as high-power motors, frequency converters, etc.), and shielding measures should be taken if necessary.

When a module fails, the input power should be immediately cut off, and GE authorized after-sales service personnel should be contacted for repair or replacement. It is strictly prohibited to disassemble the internal structure of the module by oneself to avoid safety risks or expanding the scope of the fault.