GE IS200VSPAH1A Advanced Signal Processing Control Board Module for Mark VI Turbine Automation Systems
GE IS200VSPAH1A Advanced Signal Processing Control Board Module for Mark VI Turbine Automation Systems
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Brand:GE Fanuc PLC Item No.:GE IS200VSPAH1A Product Origin:USA Product Dimensions:210 mm × 160 mm × 32 mm Product Weight:0.70 kg Payment:T/T, Western Union, Credit Card Goods_stock:15 Shipping Port:Xiamen, China Lead Time:1-3 Days Condition:Brand New And Original Warranty:1 Year Certificate:COO
The GE IS200VSPAH1A is a specialized signal processing control board developed for the Mark VI turbine control platform. Designed for high-demand industrial power environments, this module plays a critical role in managing system-level signal conditioning, processing, and coordination inside turbine automation cabinets.
Engineered with industrial durability in mind, the IS200VSPAH1A supports precise operational control in gas and steam turbine applications. Its stable architecture and optimized board layout contribute to reliable long-term operation in facilities where continuous uptime is essential. This module is commonly selected for both system maintenance projects and strategic modernization upgrades.
Technical Specifications
Specification
Details
Model
IS200VSPAH1A
Product Type
Signal Processing Control Board Module
Platform
Mark VI Turbine Control System
Power Supply
Backplane powered
Mounting
Rack-mounted PCB
Dimensions (L × W × H)
210 mm × 160 mm × 32 mm
Weight
0.70 kg
Operating Temperature
0°C to +60°C
Storage Temperature
-40°C to +85°C
Relative Humidity
5–95% non-condensing
Typical Installation
Turbine control cabinet
Recommended Associated Modules
To optimize overall control system performance, the following modules are often deployed alongside the IS200VSPAH1A:
GE IS200VRTDH1D
GE IS200VCRCH1B
GE IS200VCMIH1B
GE IS200VAICH1D
GE IS200TSPCH1C
These boards complement signal processing, communication management, and I/O functionality within Mark VI systems.
Frequently Used GE Mark VI Modules
In turbine control environments, the following models are widely adopted:
GE IS200DSPXH1D
GE IS200TSVOH1B
GE IS200TBAIH1C
GE IS215UCVEM06A
GE IS200VTURH1B
They are commonly integrated into both new installations and system upgrade projects.
Industrial Applications
The IS200VSPAH1A module is suitable for:
Gas turbine control systems
Steam turbine automation
Combined-cycle power plants
Industrial power generation facilities
Turbine protection and monitoring frameworks
Its precision signal handling capabilities contribute to stable turbine regulation and consistent plant output.
Performance Advantages
High-Precision Signal Management
Optimized for accurate processing within turbine control loops.
Robust Industrial Construction
Built to withstand vibration, thermal variation, and continuous-duty cycles.
Seamless Integration
Fully compatible with Mark VI rack architecture for efficient installation.
Operational Stability
Supports deterministic control responses in time-sensitive applications.
Long Service Lifecycle
Designed for extended operational reliability with minimal maintenance intervention.
Technical FAQs
1. What system is the IS200VSPAH1A designed for?
It is designed for integration within the Mark VI turbine control system.
2. What are its physical dimensions?
210 mm × 160 mm × 32 mm.
3. What is the weight of the module?
Approximately 0.70 kg.
4. How is it powered?
It receives power through the system backplane.
5. Is it compatible with gas and steam turbines?
Yes, it supports both application types within the Mark VI platform.
6. What is its main function?
It manages signal processing and internal control coordination.
7. What environmental conditions can it operate in?
0°C to +60°C operating temperature, up to 95% non-condensing humidity.
8. Can it be used in retrofit projects?
Yes, it is commonly applied in modernization and replacement scenarios.
9. Does it require external wiring?
No direct field wiring; it interfaces via the system rack.
10. Is it suitable for continuous operation?
Yes, it is engineered for 24/7 industrial turbine control environments.
