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Bently Nevada 9200-01-05-10-00 Seismoprobe Velocity Transducer

The Bently Nevada 9200-01-05-10-00, also cataloged as the 9200 Seismoprobe, operates as a dedicated hardware component for measuring absolute vibration velocity of bearing housings and structural components within industrial monitoring platforms.

Hardware Specifications

Parameter Specification
Model 9200-01-05-10-00
Brand Bently Nevada
Origin USA
Weight 0.3 kg
Dimensions Standard industrial housing
Operating Temp -35 deg C to +121 deg C
Power Consumption Self-generating (Passive)
Output Signal Proportional voltage
Frequency Response 10 Hz to 1,000 Hz

Mechanical Monitoring and TSI Characteristics

The Bently Nevada 9200 series transducer utilizes a moving-coil design that generates a voltage output directly proportional to vibration velocity, providing performance optimized for low-to-medium frequency ranges. This device facilitates machinery protection by tracking absolute housing vibration, which allows for effective monitoring of bearing health. The sensor design requires vertical mounting orientation (0 deg ±2.5 deg) to maintain accurate rotor dynamics feedback and signal calibration. Cross-talk suppression is inherent in the robust seismoprobe construction, ensuring that housing vibrations are isolated from external environmental interference.

Frequently Asked Questions

Q: Does the transducer require an external power supply? A: No, the 9200-01-05-10-00 is an electrodynamic sensor that self-generates the output signal, functioning as a passive two-wire device.

Q: How is the transducer integrated into the field environment? A: The device features a top-mount terminal block for wiring and a circular M10 x 1 threaded base, which permits secure attachment to bearing housings and structures.

Field Installation Guidelines

  1. Ensure the mounting surface is prepared for the M10 x 1 threaded stud to guarantee a stable mechanical connection.
  2. Verify that the transducer is oriented vertically to meet the specified 0 deg ±2.5 deg mounting requirements.
  3. Terminate the field wiring at the top-mount terminal block, ensuring correct polarity for the self-generating voltage output.
  4. Confirm the installation complies with API 670 guidelines for machinery protection systems before system initialization.

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