GE Fanuc
GE Fanuc IS200STAOH2AAA Mark VIe Vibration I/O Pack
In stock, ready to ship
Manufacturer: GE Fanuc
Product No.: IS200STAOH2AAA
Product Type: I/O Pack
Product Origin: USA
Payment: T/T
Weight: 760g
Shipping port: Xiamen
Warranty: 12 months
Yes, we provide a 30-day money-back guarantee for all purchases.
Yes, all items come with a 12-month warranty from the date of shipment.
The IS200STAOH2AAA is a Vibration Input/Output (I/O) Pack manufactured by GE Fanuc for the Mark VIe control system. This module is engineered to condition, transmit, and digitize vibration and position signals with high accuracy. It interfaces with the Control Module to provide crucial data for machinery protection and performance monitoring.
Designed to meet demanding industrial standards, IS200STAOH2AAA supports multiple transducer types and delivers real-time condition feedback, making it ideal for gas turbines, steam turbines, and compressor systems.
Key Features
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Condition-based monitoring for rotating equipment
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Interfaces with proximity probes and velocity sensors
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Real-time vibration and position data to the controller
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Robust build for harsh industrial environments
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Easy integration with the Mark VIe platform
Technical Specifications
| Specification | Details |
|---|---|
| Part Number | IS200STAOH2AAA |
| Manufacturer | GE Fanuc |
| Product Series | Mark VIe |
| Product Type | Vibration I/O Pack |
| Input Types | Proximity probes, accelerometers, velocity sensors |
| Input Channels | Supports multiple input channels for vibration monitoring |
| Output Interface | Digital communication with controller modules |
| Operating Temperature | –30°C to +65°C |
| Storage Temperature | –40°C to +85°C |
| Humidity Rating | Up to 95%, non-condensing |
| Mounting | DIN rail or panel-mounted |
| Weight | Approximately 0.8 kg (1.76 lbs) |
Application Scenarios
The GE IS200STAOH2AAA module is widely used in:
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Gas and steam turbine vibration monitoring
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Compressor protection systems
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Rotating machinery condition diagnostics
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Industrial automation systems requiring real-time vibration analysis