GE IS200VSPAH1ACC Enhanced Signal Processing Control Board Module for Mark VI Turbine Control Platforms
GE IS200VSPAH1ACC Enhanced Signal Processing Control Board Module for Mark VI Turbine Control Platforms
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Brand:GE Fanuc PLC Item No.:GE IS200VSPAH1ACC Product Origin:USA Product Dimensions:210 mm × 160 mm × 32 mm Product Weight:0.72 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 IS200VSPAH1ACC is an enhanced signal processing control board module engineered for integration within the Mark VI turbine control system. Designed for high-demand power generation environments, this board is responsible for managing internal signal coordination and supporting stable turbine control execution.
With a reinforced PCB layout and industrial-grade components, the IS200VSPAH1ACC delivers dependable performance in continuous-duty applications. Its design emphasizes electrical stability, precision signal handling, and seamless compatibility with Mark VI rack structures. For facilities seeking reliable long-term operation and reduced downtime risk, this module provides a trusted solution.
Technical Specifications
Technical Parameter
Description
Model
IS200VSPAH1ACC
Module Type
Signal Processing Control Board Module
Compatible System
Mark VI Turbine Control System
Power Method
Backplane powered
Installation
Rack-mounted PCB
Dimensions (L × W × H)
210 mm × 160 mm × 32 mm
Weight
0.72 kg
Operating Temperature
0°C to +60°C
Storage Temperature
-40°C to +85°C
Humidity Range
5–95% non-condensing
Application Environment
Industrial power generation
Recommended Related Models
To build a stable and efficient turbine control architecture, the following modules are commonly paired with the IS200VSPAH1ACC:
GE IS200VSPAH1A
GE IS200VRTDH1D
GE IS200VCRCH1B
GE IS200VCMIH1B
GE IS200VAICH1D
These components enhance control coordination, communication integrity, and system-level performance.
Popular GE Mark VI Modules
Frequently implemented across turbine automation projects:
GE IS200DSPXH1D
GE IS200TSVOH1B
GE IS200TBAIH1C
GE IS215UCVEM06A
GE IS200VTURH1B
These modules are widely used in both new installations and modernization programs.
Typical Applications
The IS200VSPAH1ACC module is suitable for:
Gas turbine control systems
Steam turbine regulation
Combined-cycle power plants
Industrial cogeneration facilities
Turbine monitoring and protection systems
Its stable architecture supports deterministic control behavior in critical energy production environments.
Competitive Advantages
Precision Signal Processing
Optimized for accurate handling of internal control signals.
Industrial-Grade Durability
Resistant to vibration and temperature fluctuations typical in turbine cabinets.
Seamless Rack Integration
Designed for direct installation within Mark VI control racks.
Stable Continuous Operation
Engineered for 24/7 duty cycles in mission-critical facilities.
Reduced Maintenance Risk
High-quality components contribute to extended service intervals.
Technical FAQs
1. What system is the IS200VSPAH1ACC designed for?
It is designed for use within the Mark VI turbine control platform.
2. What are the physical dimensions?
210 mm × 160 mm × 32 mm.
3. What is the weight of the module?
Approximately 0.72 kg.
4. How is the module powered?
It receives power through the system backplane.
5. What distinguishes the ACC version from the base model?
The ACC revision reflects an updated configuration within the same functional series.
6. Is it suitable for gas and steam turbines?
Yes, it supports both turbine types within compatible systems.
7. What operating temperature range does it support?
0°C to +60°C.
8. Can it be used in retrofit projects?
Yes, it is frequently used in system upgrades and maintenance replacements.
9. Does it require direct field wiring?
No, it interfaces through the rack backplane and associated modules.
10. Is it intended for continuous industrial operation?
Yes, it is built for long-term operation in power generation environments.
