Product Name:3300 XL 8 mm Proximity Probes
Brand Name: BENTLY NEVADA
Model Number:330103-00-07-10-02-00
Country of Origin:USA
Warranty: 12 Months
Whatsapp:+86 18159889985
Email:[email protected]
Brand Name: |
BENTLY NEVADA |
Model Number: |
330103-00-07-10-02-00 |
Country of Origin: |
USA |
Packaging Details: |
Original new Factory Sealed |
Delivery Time: |
Delivery time in stock |
Payment Terms: |
T/T |
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Sales Manager: |
Stella |
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Send an email: |
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Contact in Whatsapp: |
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Parameter |
Specification |
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Manufacturer |
Bently Nevada (Baker Hughes) |
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Base Model |
330103 – 3300 XL 8 mm Proximity Probe, M10 × 1 metric thread, without armor |
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Unthreaded Length (Position A) |
00 = 0 mm (fully threaded) |
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Overall Case Length (Position B) |
07 = 7 mm (0.28 in) |
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Total Cable Length (Position C) |
10 = 1.0 meter (3.3 feet) |
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Connector & Cable Type (Position D) |
02 = Miniature coaxial ClickLoc connector, standard cable |
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Agency Approval (Position E) |
00 = No hazardous area certification required |
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Thread Type |
M10 × 1 (metric), maximum thread engagement 15 mm |
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Probe Tip Diameter |
8 mm (0.31 in) |
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Tip Material |
Polyphenylene sulfide (PPS) |
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Case Material |
AISI 303 or 304 stainless steel |
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Linear Range |
2 mm (80 mils) from 0.25 mm to 2.3 mm (10 to 90 mils) |
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Output Voltage Range |
Approximately –1 Vdc to –17 Vdc |
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Recommended Gap (Radial Vibration) |
–9 Vdc ≘ 1.27 mm (50 mils) |
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Incremental Scale Factor (ISF) |
7.87 V/mm (200 mV/mil) ±5 % |
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Deviation from Straight Line (DSL) |
< ±0.025 mm (±1 mil) at 0 °C to +45 °C (+32 °F to +113 °F) |
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Frequency Response |
0 to 10 kHz, +0 dB, –3 dB |
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Probe Temperature Range |
–52 °C to +177 °C (–62 °F to +350 °F) |
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Temperature (Probe Tip Only) |
–52 °C to +177 °C |
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Cable Insulation |
Standard FEP (Fluoroethylene Propylene) |
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Pressure Seal |
Viton® O-ring (seals differential pressure between tip and case) |
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Minimum Target (Flat) |
15.2 mm (0.6 in) diameter |
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Minimum Shaft Diameter |
50.8 mm (2.0 in) |
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Recommended Minimum Shaft Diameter |
76.2 mm (3.0 in) |
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Probe DC Resistance |
7.59 Ω ± 0.50 Ω (1.0 m cable) |
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Minimum Cable Bend Radius |
25.4 mm (1.0 in) |
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Tensile Strength (Probe Case to Lead) |
330 N (75 lbf) |
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Recommended Probe Torque |
11.2 N·m (100 in·lbf) |
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Weight (Probe Only) |
323 g/m of cable |
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Field Wiring |
0.2 to 1.5 mm² (16 to 24 AWG), 3-conductor shielded triad, max. 305 m (1,000 ft) to monitor |
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API Compliance |
Fully complies with API 670 Standard (4th Edition) |
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FCC & EMC |
Complies with FCC Part 15; meets EN 61000-6-2 and EN 61000-6-4 |
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Functional Safety |
SIL 2 (HFT = 0), SIL 3 (HFT = 1) |
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RoHS |
Compliant with EU RoHS 2011/65/EU |
The Bently Nevada 330103‑00‑07‑10‑02‑00 is a non‑armored, metric‑threaded eddy‑current proximity probe from the 3300 XL 8 mm series. Its part number suffix represents: 330103 (M10 × 1 thread, no armor), 00 (unthreaded length of 0 mm), 07 (overall case length of 7 mm), 10 (total cable length of 1.0 meter), 02 (standard cable with ClickLoc connector), and 00 (no hazardous area approval). The 330103‑00‑07‑10‑02‑00 provides an output voltage that is directly proportional to the probe‑to‑target distance, enabling both static position and dynamic vibration measurements. With a compact fully‑threaded body (0 mm unthreaded) and a short 7 mm case, it is engineered for space‑constrained installations.
Compressors – Non‑contact shaft vibration and position monitoring for oil‑film bearing machines
Steam & Gas Turbines – Radial vibration monitoring in high‑speed rotating machinery
Pumps & Gearboxes – Bearing health assessment and real‑time displacement tracking
Turboexpanders – Thrust position and axial displacement measurement
Industrial Motors & Generators – Speed reference and Keyphasor once‑per‑revolution timing
Fluid‑Film Bearing Equipment – Static position and dynamic vibration measurement within API 670 linear range
Power Plants & Refineries – Predictive maintenance and condition monitoring for critical asset protection
Ultra‑Compact Fully‑Threaded Body (0 mm Unthreaded, 7 mm Case) – Specifically designed for mounting locations where axial clearance is extremely limited; the 330103‑00‑07‑10‑02‑00 fits where standard probes cannot.
Eddy Current Non‑Contact Sensing – Outputs a voltage linearly proportional to distance, measuring both static (position) and dynamic (vibration) displacement.
API 670 Compliant – Full compliance with the American Petroleum Institute’s API 670 Standard (4th Edition) for mechanical configuration, linear range, accuracy, and temperature stability.
Fully Interchangeable Components – Any 3300 XL probe, extension cable, or Proximitor sensor is electrically and physically interchangeable, eliminating bench calibration and component matching.
Gold‑Plated ClickLoc Connector – Finger‑tight, corrosion‑resistant connector with an audible click and a locking mechanism that prevents loosening without special tools.
High Mechanical Robustness – Patented TipLoc and CableLoc designs provide 330 N (75 lbf) tensile strength between probe case and probe lead.
Excellent Environmental Resistance – PPS probe tip resists chemicals and moisture; Viton® O‑ring seals differential pressure between tip and case.
Superior EMI/RFI Immunity – Meets European CE mark approvals without requiring special shielded conduit or metallic housings, reducing installation complexity and cost.
Non‑Contact Radial Vibration Monitoring – Converts shaft displacement into an analog voltage for early detection of imbalance, misalignment, looseness, and bearing faults.
Axial (Thrust) Position Measurement – Tracks static shaft displacement in fluid‑film bearing machines to identify abnormal thrust loads or axial movement.
Keyphasor Reference Generation – Provides a once‑per‑revolution timing pulse for speed measurement, overspeed protection, and phase‑based diagnostics.
Dynamic Signal Output – Delivers peak‑to‑peak vibration displacement data for real‑time machinery protection systems.
Predictive Maintenance Integration – Interfaces with Bently Nevada 3500 racks, 1900/65 monitors, and Trendmaster® systems for continuous online condition assessment and root‑cause analysis.
Q1: What is the key difference between this 330103‑00‑07‑10‑02‑00 and the 330103‑00‑08‑05‑02‑00?
A1: Both share the same M10 × 1 metric thread and no armor. The main differences are the overall case length (7 mm vs. 80 mm) and total cable length (1.0 m vs. 0.5 m). The 330103‑00‑07‑10‑02‑00 is a very short case variant for extremely tight mounting locations.
Q2: Does this probe require an extension cable?
A2: No. The total cable length is 1.0 meter (3.3 feet), which is a one‑meter system and does not require an extension cable. For longer runs, you must select a probe with a shorter integral cable (e.g., 0.5 m) and add a matching extension cable.
Q3: Why is the recommended gap setting –9 Vdc, and how do I achieve it?
A3: –9 Vdc corresponds to approximately 1.27 mm (50 mils) from the target, which is the center of the 2 mm linear range. To achieve this, power the system with –24 V, aim the probe tip at a clean AISI 4140 steel target, and adjust the physical gap until the output voltage reads –9 Vdc.
Q4: Can the 330103‑00‑07‑10‑02‑00 be used in hazardous areas?
A4: The suffix 00 in the agency‑approval position means this variant is not certified for hazardous locations. If ATEX, IECEx, or CSA certifications are required, order the same base probe with 05 in the final position (e.g., 330103‑00‑07‑10‑02‑05) and install the Proximitor sensor per Bently Nevada drawings 141092 (ia) or 140979 (nA/ec) with IP54 terminal protection.
Q5: How do I verify the probe is functioning correctly after installation?
A5: Use the 3300 XL test plug (part number 148722‑01 or 330180). Plug it into the test pin holes on the Proximitor sensor’s terminal strip while the field wiring remains connected. Measure the output voltage; it should correspond to the physical gap. Compare with the system’s known output‑vs‑distance curve to confirm integrity.
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