Bentley 330102-00-60-10-02-01 Eddy Current Probe Product Description

I. Product Overview

330102-00-60-10-02-01 is a 3300 XL 8mm armored eddy current probe under the Bently Nevada brand of Baker Hughes. It is the core sensing component of the 3300 XL sensor system and requires an extension cable and a preamplifier to form a complete monitoring chain. The product features a 3/8-24 UNF standard thread and an armored stainless steel protective structure, specifically designed for harsh industrial environments. It is used for non-contact high-precision measurement of shaft vibration, axial displacement, phase angle, and rotational speed of rotating machinery, in accordance with API 670 industry standards. It has the characteristics of stable measurement, strong anti-interference, and wide temperature tolerance, and is widely used in large-scale unit condition monitoring in power, petrochemical, and metallurgical industries.

II. Basic Information

Model: 330102-00-60-10-02-01

Brand: Bently Nevada

Series: 3300 XL 8mm Eddy Current Sensor System

Type: Armored Proximity Eddy Current Probe

Thread Specification: 3/8-24 UNF American Standard Fine Tooth Thread

Structural Characteristics: Stainless steel armored housing, high mechanical strength, resistant to bending, compression, and oil mist and water vapor

Model Code Meaning: 00 represents the length of the non-threaded section is 0 inches; 60 represents the total length of the housing is 6.0 inches; 10 represents the total length of the probe's built-in cable is 1 meter; 02 represents the micro ClickLoc coaxial connector; 01 represents the standard certification configuration

Connector Type: Micro ClickLoc Coaxial Connector, reliable connection, convenient plug and unplug

Certification: CE, UL, CSA, compatible with industrial safety and electromagnetic compatibility standards

Protection Grade: IP65 (probe body), compatible with oil mist, dust, and water vapor conditions

Compatible Systems: 3300 XL full series preamplifiers (such as 330100 series), 3500/3300 TSI systems

III. Electrical and Mechanical Parameters

Electrical Parameters

Sensitivity: 7.87V/mm (200mV/mil), linear error ≤ ±1%

Linear Range: 2.0mm (80mil), effective range 0.25mm–2.3mm

Output Signal: Cooperates with preamplifier to output - 1VDC to - 17VDC standard DC voltage

Frequency Response: 0–10kHz (+0/-3dB), covering the entire vibration frequency band of rotating machinery

Probe DC Resistance: 7.59Ω ± 0.50Ω (1 meter cable)

Minimum Target Diameter: 8.9mm (0.35 inches), recommended shaft diameter ≥ 50.8mm (2 inches)

Environmental Parameters

Probe Working Temperature: Standard - 52℃ to + 177℃; High-temperature version can reach + 218℃

Storage Temperature: -52℃ to + 260℃

Relative Humidity: 5%–95% (no condensation)

Anti-interference: Complies with CE EMI/RFI standards, tolerant to variable frequency drives, motors, etc. strong electromagnetic interference Mechanical parameters

Overall length of the housing: 6.0 inches (suitable for medium-depth installation holes)

Cable specification: 1-meter stainless steel armored cable, resistant to oil, aging, and mechanical damage

Installation torque: Recommended 1.1–1.4N・m, avoid damage to the threads

Cable bending radius: ≥ 5 times the cable diameter, to prevent the armored layer from breaking

IV. Core functions

1. Non-contact precise measurement

Based on the eddy current effect, the end coil of the probe receives the 0.5–2MHz high-frequency excitation signal from the preamplifier, generating an alternating magnetic field; when close to the metal shaft body, the surface of the shaft induces eddy currents, reversing the impedance of the coil, combined with the preamplifier to convert it into a linear voltage signal, accurately reflecting the gap change between the probe and the shaft, achieving synchronous measurement of static displacement and dynamic vibration.

2. Armor protection and high reliability

The entire structure adopts a stainless steel armored design, the cable and connector are integrated for protection, capable of withstanding on-site oil mist, water vapor, dust, and mechanical collisions, suitable for harsh working conditions such as compressors and steam turbines; the patented TipLoc forming process ensures a firm adhesion between the probe end and the housing, combined with the CableLoc cable design, the tensile strength reaches 330N, with no signal drift during long-term operation, and an average downtime of long.

3. Wide temperature stability and temperature compensation

Built-in high-temperature coils and insulating materials, combined with the system's automatic temperature compensation circuit, in the - 52℃ to + 177℃ wide temperature range, the sensitivity stability is ≤ ±1.5%, able to withstand temperature fluctuations in working conditions, ensuring accurate long-term monitoring data.

4. Quick installation and interchangeability

Standard 3/8-24 UNF threads are compatible with universal installation bases, the micro ClickLoc connector can be quickly plugged and unplugged without tools; probes, extension cables, and preamplifiers of the same specification can be interchanged on-site without secondary calibration, reducing maintenance downtime.

5. Fault diagnosis and system compatibility

Can be combined with the preamplifier to achieve line fault self-check, identifying probe breakage, short circuit, cable damage, etc., outputting fault signals for alarm; compatible with 3500/3300 TSI systems, PLCs, DCSs, supports real-time data collection, over-limit alarm, and fault recording.

V. Working principle

The core of the probe is the end high-frequency coil, the preamplifier injects high-frequency alternating current into the coil, generating a stable alternating magnetic field; when the probe approaches the rotating metal shaft (conductor), the magnetic field induces a closed eddy current on the shaft surface, the eddy current-generated reverse magnetic field will change the inductance and impedance of the probe coil; the probe transmits the impedance change signal to the preamplifier, the preamplifier converts it into a standard DC voltage signal at a fixed ratio of 7.87V/mm, the larger the gap, the closer the voltage is to - 17V, the smaller the gap, the closer it is to - 1V, thus accurately measuring dynamic parameters such as shaft vibration and axial displacement.

VI. Installation and wiring requirements

Installation position: Vertically installed on the radial or axial direction of the measured shaft, the end of the probe is parallel to the shaft surface, avoiding measurement errors caused by inclination; the installation area should be away from strong magnetic fields and heating elements, reducing interference.

Gap setting: It is recommended to set at the midpoint of the linear range (approximately 1.27mm), corresponding to - 9VDC output from the preamplifier, achieving the best linearity and stability.

Thread installation: 3/8-24 UNF threads are screwed into the base, the torque is controlled within 1.1–1.4N・m, avoiding over-tightening and damaging the threads or squeezing the cable.

Cable laying: The armored cable bending radius is ≥ 5 times the cable diameter, avoiding sharp-angle bending; separate wiring from power cables to prevent electromagnetic interference; the total length strictly matches the 1-meter specification, and cannot be randomly cut.

Connector connection: The micro ClickLoc connector is inserted into the slot, hearing a "click" sound indicates locking, ensuring a firm connection and stable signal transmission.

VII. Typical application scenarios Electric power industry: Monitoring of shaft vibration and axial displacement for steam turbine generators, feedwater pumps, induced draft fans, and exhaust fans to prevent rotor friction and bearing wear.

Petrochemical industry: Condition monitoring for centrifugal compressors, gas turbines, process pump sets, and mixing units to ensure continuous production and predict shaft system failures.

Metallurgical industry: Monitoring of vibration and displacement for blast furnace fans, large transmission motors, and rotating components of rolling mills to avoid equipment overload damage.

Industrial drives: Measurement of key phase, speed, and eccentricity for large motors and high-speed rotating equipment to provide data for dynamic balance correction and fault diagnosis.

TSI system support: As the front-end sensing component of the 3300 XL system, it is equipped with a preamplifier and monitoring card to build a safety protection and condition monitoring system for rotating machinery.

VIII. Product Advantages

High protection: Stainless steel armored structure, IP65 protection, capable of withstanding harsh conditions such as oil mist, dust, and moisture.

High precision: Standard sensitivity of 7.87V/mm, small linear error, strong temperature stability, meeting API 670 high-precision requirements.

Easy maintenance: Components are interchangeable, allowing for quick on-site replacement without calibration; connectors can be plugged and unplugged without tools, simplifying maintenance procedures.

Strong adaptability: 3/8 - 24 UNF standard threads, compatible with the entire 3300 XL system, suitable for both new and old monitoring equipment.

Long service life: Industrial-grade materials resistant to high temperatures and aging, tested under harsh conditions, supporting 7×24-hour continuous operation.