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| Mobile | +8613666033393 | |||||||
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| Add | Room 1004, No. 62 Xiangxiu Li, Siming District, Xiamen City, Fujian Province, China | |||||||
Product Introduction
The GE IS210JPDHG1A Din Rail Module is a robust industrial interface module designed for GE Mark VIe and related control systems. Engineered for secure DIN-rail mounting, this module provides reliable power distribution and signal interface capabilities in demanding environments. Its rugged construction, advanced noise filtering, and simplified wiring features make it ideal for applications requiring dependable power delivery and communication between field devices and central controllers. The IS210JPDHG1A is widely used in turbine control, energy management, and process automation, offering stable operation even in electrically noisy industrial settings.
Product Specifications
| Parameter | Description |
|---|---|
| Model Number | IS210JPDHG1A |
| Product Type | DIN-rail mounted interface/power distribution module |
| Primary Function | Power and signal interface for GE Mark VIe control systems |
| Input Voltage Range | 18 – 32 V DC |
| Output Channels | Multiple isolated low-voltage outputs |
| Communication Interface | Supports Modbus/TCP or proprietary GE backplane signals |
| Protection Features | Surge suppression, reverse-polarity protection, over-current trip |
| Operating Temperature | –40 °C to +70 °C |
| Humidity Range | 0–95 % non-condensing |
| Insulation Resistance | >100 MΩ @ 500 V DC |
| Shock Resistance | 30 g, 11 ms half-sine |
| Vibration Tolerance | Up to 5 g, 10–2000 Hz |
| Diagnostics | On-board LED indicators for status and fault detection |
| Mounting Type | Standard 35 mm DIN rail |
| Cooling | Natural convection |
| Dimensions (W×H×D) | 260 × 120 × 65 mm |
| Weight | 0.85 kg |
| Compliance | CE, RoHS, UL recognized |
Applications
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Turbine Control Systems – Provides stable power and communication interfaces for gas and steam turbine Mark VIe controllers.
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Industrial Automation – Distributes control power and handles signal routing in complex production lines.
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Energy Management – Interfaces with power monitoring systems in substations and renewable energy farms.
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Oil & Gas Operations – Connects field sensors and actuators to SCADA and DCS networks in rugged environments.
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Process Manufacturing – Supports chemical, pulp & paper, and steel plant automation where high reliability is essential.
Advantages
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Simplified Installation: DIN-rail mounting allows quick integration and easy maintenance.
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Enhanced Electrical Protection: Built-in surge suppression and reverse-polarity protection safeguard downstream devices.
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Stable Performance: Wide input voltage tolerance ensures steady operation during power fluctuations.
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Comprehensive Diagnostics: LED indicators and internal self-test functions enable rapid fault detection and troubleshooting.
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Flexible Integration: Fully compatible with GE Mark VIe architecture and other industrial control systems.
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Industrial-Grade Design: Rugged housing and high-quality components provide excellent resistance to shock, vibration, and harsh ambient conditions.
Frequently Asked Questions (FAQ)
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What type of backplane or communication protocol does the IS210JPDHG1A support?
It supports GE proprietary Mark VIe backplane signaling and optional Modbus/TCP for integration with third-party systems. -
How is power distribution managed across multiple output channels?
Internal current-limited regulators ensure each channel receives stable and isolated voltage. -
Does the module include galvanic isolation between input and output circuits?
Yes, opto-isolators and isolated DC/DC converters provide full galvanic separation. -
How does the module protect against transient voltage spikes?
Integrated TVS diodes and surge suppression networks absorb and divert transient energy. -
Is hot-swap installation possible while the system remains powered?
Yes, when installed in a Mark VIe frame configured for live insertion, hot-swap is supported. -
What diagnostic information is provided by the onboard LEDs?
LEDs indicate power status, communication activity, and fault conditions such as over-current or under-voltage. -
What is the recommended grounding configuration for optimal performance?
A single-point earth ground with low impedance is recommended to reduce electromagnetic interference. -
How is thermal management achieved without active cooling?
Large copper planes and efficient layout dissipate heat naturally via convection. -
Can the module handle rapid cycling of input power without damage?
Yes, protective circuits and wide-voltage regulators allow frequent power transitions without stress. -
What testing or certification ensures industrial reliability?
The board meets CE, RoHS, and UL standards, and is factory-tested for shock, vibration, and electrical endurance.
Related Models – Same Series or Function
| Model | Description |
|---|---|
| IS210JPDCG1A | DIN-rail DC distribution module with expanded outputs |
| IS210JPDMG2A | High-current power interface board |
| IS210JPDFH1B | Field I/O DIN-rail communication module |
| IS210JPDHG2A | Enhanced version with dual redundant channels |
| IS210JPDSG1C | Signal conditioning DIN-rail assembly |
| IS210JPDHG3B | Heavy-duty variant with extended voltage range |
Popular GE Control System Models
| Model | Description |
|---|---|
| IS200DSPXH1D | Digital signal processor board for Mark VIe |
| IS210AEPSG2B | High-efficiency power supply board |
| IS210VSPAH1A | Monitoring assembly module for vibration analysis |
| IS200TRPGH2B | Primary trip terminal board with redundant trip channels |
| IS200VCRCH1B | VME communication controller for turbine control |
| IS210BPPH2BLD | High-density printed circuit control board |
