GE IS200TSVCH2AED – Advanced Sensor & Vibration Conditioning Module

1. Product Summary

The GE IS200TSVCH2AED (MRP246517) is a refined Vibration and Sensor Conditioning Module engineered for integration within GE Mark VI/Mark VIe turbine control systems. Designed for precision and long-term reliability, it ensures stable signal acquisition from critical rotating machinery, supporting both real-time monitoring and predictive maintenance workflows.

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2. Technical Parameters

Item	Description
Module Code	IS200TSVCH2AED
Manufacturing Reference	MRP246517
System Platform	GE Mark VI / Mark VIe
Function	Vibration, proximity probe, and sensor conditioning
Signal Processing	High-resolution A/D conversion
Isolation	Multi-layer electrical isolation for noise suppression
Diagnostics	Built-in status and fault indicators
Mounting	Standard GE rack-based installation
Durability	EMI-resistant industrial-grade electronics

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3. Functional Characteristics

• High-precision monitoring of turbine vibration and shaft condition

• Converts analog signals into stable digital outputs for turbine controllers

• Internal filtering architecture for noise-free sensor performance

• Minimal latency communication with GE control processors

• Supports diverse transducer types used in rotating machinery

• Designed for continuous operation under harsh temperature and vibration conditions

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4. Structural Composition

The IS200TSVCH2AED incorporates a multi-stage internal circuitry layout:

A. Sensor Input Layer

Accepts vibration probes, velocity sensors, and proximity transducers with protection against transient spikes.

B. Analog Signal Conditioning

Includes amplification, low-pass filtering, and interference suppression for crisp, reliable measurements.

C. Digital Conversion Engine

High-resolution converters digitize the conditioned sensor signals for real-time turbine system evaluation.

D. Backplane Interface Section

Provides deterministic communication to the turbine control processor through GE’s high-speed bus.

E. Onboard Diagnostics Module

LED indicators and internal logic allow rapid fault localization and system health assessment.

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5. Application Domains

The module is widely deployed across heavy industrial sectors:

• Steam & gas turbine vibration protection

• Power generation and grid-connected turbine installations

• Petrochemical compressor and pump monitoring

• High-speed industrial rotating equipment

• Predictive maintenance and condition-based monitoring systems

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6. Key Advantages

• Delivers stable, accurate sensor data essential for turbine safety

• Enhances early fault detection to prevent catastrophic machinery failures

• Provides superior immunity to electromagnetic noise

• Easy replacement and integration within existing GE control racks

• Long service life with minimal maintenance requirements

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7. Installation & Maintenance

• Ensure firm seating in the appropriate GE rack slot

• Use shielded cabling for vibration and proximity transducers

• Verify grounding to avoid interference loops

• Check diagnostic LEDs after power-up to confirm proper operation

• Perform periodic calibration pursuant to GE turbine control maintenance procedures

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Conclusion

The GE IS200TSVCH2AED (MRP246517) stands as a robust, precision-engineered sensor interface module essential for turbine protection and advanced monitoring. Its stable performance, comprehensive diagnostics, and industrial-grade design make it a dependable choice for critical vibration and condition assessment tasks.