- Overview
- Specifications
- Description
- Application
- Compatible Vibration Probe Types
- Characteristics
- Frequently Asked Questions
- Recommended Products
Overview
Place of Origin: |
USA |
Brand Name: |
GE |
Model Number: |
IS200TVIBH2BBB IS200TVIBH2B |
Packaging Details: |
Original new Factory Sealed |
Delivery Time: |
5-7 days |
Payment Terms: |
T/T |
Supply Ability: |
In stock |
Specifications
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Part Number: |
IS200TVIBH2BBB IS200TVIBH2B |
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Manufacturer: |
General Electric |
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Country of Manufacture: |
United States of America (USA) |
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Product Type: |
Vibration Terminal Board |
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Series: |
Mark VI |
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Operating Temperature: |
-30 to +65 °C |
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Dimensions: |
33 x 17.7 x 5 cm |
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Weight: |
0.85 kg |
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Power Supply Voltage: |
Supplied by VVIB board (-28 V DC) |
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Internal Power: |
On-board regulator provides -23 to -26 V DC excitation (with short-circuit protection) |
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Redundancy: |
Diode high-select circuit |
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Terminal Connection: |
2 large screw terminals with numbering |
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Number of Input Channels: |
Refer to GE official documentation (possibly 14 connector plugs) |
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Supported Probe Types: |
Proximitor, Seismic, Accelerometer, Velomitor (e.g., Bently Nevada) |
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Installation Method: |
Connection via cable to VVIB vibration monitoring module |
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Signal Processing: |
Analog signal conditioning, filtering, amplification (depends on design) |
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Jumper Switches: |
Paired jumper switches for circuit wiring adjustment |
Description
IS200TVIBH2BBB IS200TVIBH2B is a Vibration Terminal Board developed by GE. It is a part of Mark VI control system. Through its robust operational framework and support for various probe types, the TVIB board plays a vital role in the Mark VI system's vibration monitoring and management capabilities. By providing reliable power supply, efficient signal processing, and alarm/trip logic generation, the TVIB contributes to the overall reliability and performance of industrial machinery, ultimately enhancing operational efficiency and minimizing downtime.
Application
Thermal power plants (gas turbines/steam turbines): Monitor bearing vibration in heavy-duty units such as the GE Frame 9F/7F to prevent rotor-stator rubbing due to excessive vibration.
Petrochemical complexes: Protect turbine units driving large compressors (such as syngas compressors).
Nuclear power plant turbine control: Serves as the core input layer for vibration protection in the Mark VI redundancy architecture.
Large pumping stations and mining drives: Monitor the operational smoothness of high-power motors.
Compatible Vibration Probe Types
1 Proximity: Measures the distance between the probe and the monitored surface.
2 Velocity: Measures the rate of change of displacement with respect to time.
3 Acceleration: Measures the rate of change of velocity with respect to time.
4 Seismic: Specially designed for monitoring ground vibration and seismic activity.
5 Phase: Provides information about the phase relationship between different vibration signals.
Characteristics
1 Facilitate the connection of Bently Nevada vibration monitoring equipment, additional functionality with BNC connectors, allowing portable vibration data gathering equipment to be plugged in for predictive maintenance purposes.
2 Feature connectors for permanent cabling of Bently Nevada vibration monitoring equipment. This setup enables continuous monitoring and analysis of turbine vibration, essential for detecting potential issues and ensuring optimal machinery performance. Power Supply: Power for the vibration probes is provided by the VVIB (Vibration Input Vector Board), which operates in either Simplex or TMR (Triple Modular Redundancy) mode. This ensures reliable and continuous power delivery to the probes, regardless of the system's redundancy configuration.
3 Signal Processing: The probe signals are routed back to the VVIB, where they undergo analog-to-digital conversion (A/D). This digital conversion process ensures accurate representation of vibration data, which is then transmitted over the VME (Versa Module Eurocard) bus to the controller for analysis and further action.
4 Alarm and Trip Logic: Within the controller, various alarms and trip logic mechanisms are generated based on the analyzed vibration data. These include alarms for vibration levels, eccentricity, and axial position deviations. The trip logic ensures timely intervention in case of abnormal vibration patterns, helping prevent potential machinery failures.
5 Power Source and Redundancy: For Proximitor power, a -28 V DC source is supplied to the TVIB terminal board from the VME board. In TMR systems, a diode high-select circuit is employed to select the highest -28 V DC bus for redundancy purposes. Additionally, regulators on the terminal board provide individual excitation sources ranging from -23 to -26 V DC, with built-in short circuit protection.
6 Sampling and Processing: Probe inputs are sampled at high speed over discrete time periods by the VVIB board. This rapid sampling rate ensures real-time monitoring of vibration levels with high accuracy and precision, enabling early detection of any anomalies or deviations.
Frequently Asked Questions
Q: What is IS200TVIBH2BBB IS200TVIBH2B?
A: IS200TVIBH2BBB IS200TVIBH2B is a Vibration Terminal Board developed by GE under the Mark VI series.
Q: What types of vibration probes does the IS200TVIBH2BBB IS200TVIBH2B TVIB support?
A: It supports Proximitor, Seismic, Accelerometer, and Velomitor probes provided by Bently Nevada, ensuring comprehensive vibration monitoring capabilities.
Q: Where does the power for the vibration probes come from of IS200TVIBH2BBB IS200TVIBH2B?
A: Power for the vibration probes is supplied by the VVIB boards, which operate in either Simplex or TMR mode, ensuring continuous and reliable power delivery.
Q: What happens to the probe signals after they are processed by the IS200TVIBH2BBB IS200TVIBH2B TVIB?
A: After processing, the probe signals are converted from analog to digital (A/D) and transmitted over the VME bus to the controller for analysis and further action.
Q: What types of alarms and trip logic are generated in the controller of IS200TVIBH2BBB IS200TVIBH2B?
A: The controller generates alarms and trip logic for vibration levels, eccentricity, and axial position deviations, enabling timely intervention and preventive maintenance to mitigate potential machinery failures.