BENTLY 3701/55 289761-01 Seismic Velocity Transducer

Description

1. Core Overview & Working Principle

2. Key Features

• Self-Powered:​ Generates its own signal, requiring no external power supply (2-wire system).
• Rugged Design:​ Built for harsh industrial environments with high temperatures, moisture, and vibration.
• Low-Impedance Output:​ Provides a robust signal that can be transmitted over long cable runs with minimal noise pickup.
• Integral Cable:​ Many versions come with a permanently attached, armored cable for durability.
• Broad Frequency Range:​ Typically effective from around 4.5 Hz to 1000 Hz, making it suitable for monitoring vibration related to rotational speeds (1X, 2X) and many common fault frequencies.

3. Model Number Breakdown & Specifications

• Sensitivity:​ 100 mV/in/s​ (±5%) @ 100 Hz (or equivalent in metric, ~4 mV/mm/s). The exact sensitivity for part number 289761-01 is specified on its individual calibration sheet.
• Frequency Response:​ 4.5 Hz to 1000 Hz​ (±3 dB). The lower limit (4.5 Hz) is the natural frequency​ of the suspended magnet system.
• Measurement Range:​ Up to 2.0 in/s peak​ (51 mm/s peak) velocity.
• Phase Response:​ Linear within the specified frequency range, allowing it to be used for phase analysis.
• Electrical Output:​ Two-wire, ground-isolated.
• Operating Temperature:​ Up to 125°C (257°F)​ for the sensor body.
• Mounting:​ Standard ¼-28 UNF threaded stud​ or M6 x 1.0 threaded stud​ on the base.
• Connector:​ Often an integral cable with a MIL-C-5015​ style connector or a BNC connector​ at the end. The exact connector type is defined by the part number suffix.

4. System Integration & Signal Conditioning

• Connection:​ The transducer is directly connected to a vibration monitor​ or conditioning module​ (e.g., Bently Nevada 3300, 3500, or Trendmaster® Pro systems) via its coaxial cable.
• Signal Path:​
  Machine Vibration​ → 3701/55 Transducer​ → Velocity Signal (AC Voltage)​ → Monitor Input.
• Conditioning:​ The monitor may integrate the velocity signal to produce a displacement​ (µm peak-to-peak) display or perform further processing for alarms and trends.
• Mounting:​ Must be securely and rigidly mounted to the machine casing, typically on a clean, flat, unpainted surface, oriented in the desired measurement direction (vertical, horizontal, axial).

5. Typical Applications

• Casing Vibration Monitoring:​ Primary method for monitoring vibration on machines with rolling element bearings​ (e.g., motors, pumps, fans, gearboxes) where shaft-relative probes are not applicable.
• Low-to-Medium Speed Machinery:​ Ideal for machines where the fundamental running speed is within the transducer’s frequency range (e.g., > ~300 RPM to account for the 4.5 Hz lower limit).
• General Machinery Protection:​ Used in pairs (horizontal and vertical) on bearing housings to detect unbalance, misalignment, looseness, and other mechanical faults.
• Supplemental Monitoring:​ Often used alongside shaft-relative probes (like the EPRO PR6423) on fluid-film bearing machines to provide a complete vibration picture.