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🖥️ IS220UCSAH1AK General Electric Standalone Processor Module – Product Overview
The IS220UCSAH1AK is a standalone processor module developed by General Electric (GE), designed to serve as a powerful computing unit within industrial control and automation systems. Known for its robustness and reliable performance, this processor module is integral to GE’s Mark VIe control systems, offering efficient processing, scalability, and seamless integration with other system components.
📊 Product Datasheet – Technical Specifications
| Parameter | Specification |
|---|---|
| Model Number | IS220UCSAH1AK |
| Manufacturer | General Electric (GE) |
| Product Type | Standalone Processor Module |
| Processor Architecture | 32-bit RISC architecture |
| Operating System | Real-time OS (proprietary) |
| Memory | 8 MB RAM (expandable) |
| Storage | 4 MB Flash memory |
| Communication Ports | Ethernet, Serial RS-232/485 |
| Input/Output Support | Compatible with Mark VIe I/O modules |
| Power Supply | 24 V DC |
| Operating Temperature | -40°C to +85°C |
| Mounting | Rack mount (standard GE chassis) |
| Dimensions (HxWxD) | Approx. 200 mm x 150 mm x 50 mm |
| Weight | Approximately 1.5 kg |
| Certifications | UL, CE, CSA |
🔍 Functional Features
- Robust Processing Power: The 32-bit RISC processor delivers high-speed execution for complex control algorithms and data management.
- Real-Time Operation: Embedded real-time operating system ensures deterministic response for critical industrial applications.
- Scalability: Compatible with multiple I/O modules and control systems, providing flexibility for various plant sizes.
- Network Integration: Ethernet and serial ports enable efficient communication with HMIs, PLCs, and other automation devices.
- High Reliability: Designed to operate under harsh industrial conditions with extended temperature tolerance.
- Maintenance-Friendly: Modular design allows easy replacement and upgrades with minimal downtime.
🏭 Typical Applications
The IS220UCSAH1AK processor module is widely applied in:
- Power plant turbine and generator control
- Petrochemical process automation
- Oil and gas production facilities
- Water treatment plant control systems
- Manufacturing plant automation
Its ability to handle complex control strategies makes it suitable for environments demanding reliability and precision.
📰 Industry Update
As industrial automation advances, standalone processor modules like the IS220UCSAH1AK are evolving to meet higher demands for connectivity, cybersecurity, and data analytics. Integration with modern Ethernet-based networks and compatibility with legacy systems provide a bridge toward digital transformation. Industry leaders emphasize the importance of reliable hardware platforms to ensure continuous operation amid growing cyber threats and process complexity.
🔗 Learn More
For further product details, pricing inquiries, and technical assistance, visit:
🌐 https://www.fy-module.com/
🌐 https://www.fy-module.com/
📦 Recommended Similar Models
| Model Number | Product Name | Key Features | Application |
|---|---|---|---|
| IS220UCSAH1AJ | GE Standalone Processor Module | Similar performance, minor firmware differences | Mark VIe control systems |
| IS220UCSAH2AK | GE High-Capacity Processor Module | Increased memory and faster processor speed | Large-scale industrial control |
| IS215UCSBH1AK | GE Basic Processor Module | Entry-level processor for small control tasks | Small automation units |
| IS410UCSAH1AK | GE Redundant Processor Module | Dual processor for enhanced reliability | Critical safety systems |
| IS220UCSBH1AK | GE Compact Processor Module | Smaller footprint, cost-effective | Mid-size plants |
Summary
The IS220UCSAH1AK General Electric Standalone Processor Module provides a robust, reliable solution for industrial automation control. Its high-performance processor, real-time operation, and flexible communication options allow it to seamlessly integrate into complex control environments. Designed for durability and ease of maintenance, this module supports critical infrastructure by ensuring precision and continuous operation.
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