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Bently Nevada 330104-15-23-10-02-00 8 mm Proximity Probe with API 670 Compliance and Miniature ClickLoc Coaxial Connector
Bently Nevada 330104-15-23-10-02-00 8 mm Proximity Probe with API 670 Compliance and Miniature ClickLoc Coaxial Connector
3300 XL 8mm Proximity Probe 3300 XL Transducer System
radial vibration measurement steam turbine vibration sensor
fluid-film bearing monitoring non-contact shaft monitoring
Lugar de origem:
EUA
Marca:
Bently Nevada
Número do modelo:
330104-15-23-10-02-00
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Detalhes do produto
Modelo:
330104-15-23-10-02-00
País de origem:
EUA
Local de envio:
Xiamen,China
Envio:
TNT, DHL, FedEx, EMS, UPS
Quantidade mínima:
1 peça
Embalagem:
Nova embalagem original
Destacar:
3300 XL 8mm Proximity Probe 3300 XL Transducer System
,radial vibration measurement steam turbine vibration sensor
,fluid-film bearing monitoring non-contact shaft monitoring
Termos do pagamento & do transporte
Quantidade de ordem mínima
1
Preço
66USD
Detalhes da embalagem
Novo e original
Tempo de entrega
2-3 dias úteis
Termos de pagamento
T/T
Habilidade da fonte
Em estoque
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Descrição do produto
Bently Nevada 330104-15-23-10-02-00 3300 XL 8 mm Proximity Probe
Product Overview
| Category | Parameter | Data |
|---|---|---|
| Model Configuration | Base Model (330104) | 3300 XL 8 mm Probe, M10 x 1 thread, ruggedized with integral armor |
| Unthreaded Length Option (15) | 150 mm | |
| Overall Case Length Option (23) | 230 mm | |
| Total Length Option (10) | 1.0 metre (3.3 feet) | |
| Connector and Cable-Type Option (02) | Miniature coaxial ClickLoc™ connector, standard cable | |
| Agency Approval Option (00) | Not required | |
| Physical Dimensions | Probe Diameter | 8 mm |
| Thread Type | Metric M10 × 1 | |
| Mechanical Design | Cable Protection | Integral stainless steel armor |
| Pressure Sealing | Built-in Viton® O-ring differential seal | |
| Measurement Specs | Linear Range | 2 mm (80 mils) |
| Incremental Scale Factor (ISF) | 7.87 V/mm (200 mV/mil) | |
| Standard Target Material | AISI 4140 Steel | |
| Environmental Limits | Probe Operating Temperature | -35°C to +177°C (-31°F to +350°F) |
| Tensile Strength | Probe case to cable: 330 N (75 lbf) maximum |
Looking for pricing, availability, or immediate dispatch? Get in touch with our team:
Contact: Miya Zheng
Email: sales@amikon.cn
WhatsApp: +86 180 2077 6792
Key Features
- Rugged Armor Defense: The integrated stainless steel armor, wrapped in a heavy-duty FEP jacket, stops abrasive friction and aggressive synthetic lubes from killing the internal cable.
- Built for Deep Machinery Cavities: Combining a 150mm unthreaded body with a 230mm total case length, this metric M10 probe slips straight into heavy-walled bearing pedestals without rattling.
- Zero-Leak Pressure Boundary: We rely on an internal Viton® O-ring that seals tightly against casing differentials, blocking hot oil or hazardous process gas from escaping the machine.
- ClickLoc™ Anti-Vibration Coupling: The gold-plated ClickLoc™ coaxial terminal clicks securely into place, ensuring high-frequency asset vibration won't back the connector off over time.
- Clean 1-Metre Wiring: The standard 1.0-meter tail ends right inside the junction box, getting rid of messy cable loops before bridging to your 330130 extension wire.
- API 670 Standard Layout: Fits seamlessly into any plant-wide emergency shutdown (ESD) matrix requiring strict API 670 non-contact sensor loops.
- Stable Eddy-Current Tracking: Tracks radial shaft movement and thrust float with sub-micron precision, keeping your machinery protection rack fed with clean data.
- Drop-In Legacy Fit: Swaps directly into older Bently Nevada hardware stacks, including standard 3500/40M monitors, with zero field recalibration.
- Thermal Shift Resistance: Holds its 200 mV/mil calibration curve steady, even when the turbine spikes from freezing ambient cold up to +177°C.
- Tough PPS Sensor Tip: The Polyphenylene Sulfide head is molded directly onto the steel body, handling heavy chemical attack and stray particulate impacts without cracking.
Applications
Critical Asset Protection (MPS)
When dealing with heavy turbo-machinery, this probe acts as the front-line defense. It keeps a continuous eye on dynamic shaft orbits, runout profiles, and oil film behavior inside high-speed bearings. If a rotor shifts along its axis, the probe catches the move early enough to trigger a trip before stators and rotors collide. It is the go-to proximity loop for API 670-mandated shutdown systems.
Steam & Gas Turbine Diagnostics
Large utility steam turbines run hot and feature massive double-walled shells. The 150mm unthreaded length allows this sensor to reach past the outer casing to read true shaft dynamics under full thermal soak. On gas turbines, it handles the aggressive thermal cycles without signal drift, tracking compressor and turbine rotor displacements 24/7.
Centrifugal Compressors & Process Pumps
In refinery loops and gas processing facilities, centrifugal compressors run under high velocities where surge conditions can ruin an asset in seconds. This sensor monitors fast-acting shaft displacements to flag instabilities before damage escalates. The Viton® seal holds back high casing pressures, keeping process fluids exactly where they belong.
Thermodynamic Expansion & Speed Loops
During cold start-ups, machine rotors and casings expand at completely different rates. This probe maps out that differential expansion (DE) to flag structural binding. It also monitors shaft eccentricity to check for rotor sag or thermal bow before rolling the train. Plus, it serves as a crisp Keyphasor® speed reference pulse for downstream phase tracking and dynamic balancing.
Tough Bearing Box Environments
Routing wires inside an active bearing housing is a mess. High-velocity oil spray and tiny flying metal shards will chew through standard cables. The probe's stainless armor keeps the core wire protected. It is widely deployed across critical turbo-generators, high-speed gearboxes, and large refinery air blowers that cannot afford unplanned downtime.
Frequently Asked Questions
Q1: What unique installation environments is the Bently Nevada part number 330104-15-23-10-02-00 specifically designed for?
A1: This 330104-15-23-10-02-00 is basically made for those deep and tight installation spots you often see in turbomachinery. Think thick double-walled casings or heavy-duty bearing housings where standard probes just don’t reach properly. The key thing here is the mechanical layout — 150 mm unthreaded section plus a 230 mm overall case length. That setup allows the 8 mm probe tip to go deeper into the machine cavity and actually sit where fluid-film bearings are being monitored. On top of that, the integral stainless steel armor is not just a nice add-on. In real field conditions, you’re dealing with hot oil spray and constant mechanical rubbing inside the housing, so this protection really helps the cable survive long-term routing stress.
Q2: How does the 330104-15-23-10-02-00 proximity probe comply with API 670 standards for machinery protection?
A2: From an API 670 perspective, the 330104-15-23-10-02-00 fits into the standard non-contact eddy current measurement setup used for critical machinery protection. Usually it runs as part of a full 3300 XL system — paired with a 3300 XL extension cable and a Proximitor® sensor. Together, this setup delivers stable displacement and vibration monitoring. The probe provides a 2 mm (80 mils) linear range, and the ISF is 7.87 V/mm (200 mV/mil) when referenced to AISI 4140 steel targets. That stability is what makes it suitable for rotating machinery protection applications. In real use, the output can go straight into Bently Nevada 3500/40M monitoring modules. From there, it supports radial vibration, axial thrust position, or shaft eccentricity signals, and in some setups it even ties into ESD shutdown logic for critical protection.
Q3: What type of connector interface does the 330104-15-23-10-02-00 utilize, and how does it prevent signal degradation?
A3: This model uses a ClickLoc™ miniature coaxial connector, tied to the “-02” configuration. It’s basically a gold-plated click-lock design. In practice, once it’s connected, it locks in pretty firmly, so under continuous vibration from heavy rotating equipment, it doesn’t easily loosen or drift. That mechanical stability matters more than people think. A lot of signal issues in the field come from micro-disconnections or unstable contact, not the sensor itself. With the controlled 50-ohm impedance path, the 330104-15-23-10-02-00 helps keep signal attenuation low, so things like dynamic runout or phase timing data stay clean all the way through the extension cable loop.
Q4: Can the 330104-15-23-10-02-00 handle high-pressure differentials and fluid leakage within steam or gas turbines?
A4: Yes, it’s designed for pretty harsh turbine environments, including steam and gas turbine applications where pressure differentials and leakage risks are always a concern. The probe head is built with Polyphenylene Sulfide (PPS), and it’s molded directly with an AISI 304 stainless steel housing. Combined with a Viton® O-ring seal, the whole structure is aimed at keeping the internal turbine environment isolated from the sensor body. In real operation, that means lubrication oil or process gases are far less likely to migrate into the probe interface area. Temperature-wise, it holds up in a range from -35°C to +177°C, which is pretty standard for high-temperature proximity probe applications in industrial turbomachinery.
Q5: What are the cable length restrictions when integrating the 330104-15-23-10-02-00 into a complete 3300 XL transducer system?
A5: This 330104-15-23-10-02-00 comes with an integrated 1.0-meter cable (Option -10), and that basically defines how the rest of the system needs to be built around it. In a full 3300 XL transducer system, total system length has to stay consistent for calibration purposes — typically 5.0 meters or 9.0 meters overall. So in practice, you’ll match it with a 330130 extension cable, usually either 4.0 m or 8.0 m depending on the configuration you’re building. One thing people sometimes overlook: if you mismatch cable lengths, you’re not just changing physical distance — you’re also affecting electrical capacitance. That directly impacts the calibrated 200 mV/mil scale factor, and in a 3500 rack system, that can lead to inaccurate readings.
Compatible Components
| Component 1 | Component 2 |
|---|---|
| 3500/22M 288055-01 | 128229-01 |
| 3500/33 149986-01 | 128240-01 |
| 3500/60 163179-01 | 133396-01 |
| 3500/72M 176449-08 | 146031-01 |
| 3500/62 163179-03 | 330103-00-04-10-02-00 |
| 3500/40M 140734-01 | 330104-00-06-05-02-00 |
| 330500-02-00 | 330105-02-12-05-02-00 |
| 135137-01 | 330106-05-30-05-02-00 |
| 149992-02 | 330106-05-30-10-02-05 |
| 147663-01 | 330130-040-00-00 |
| 3500/94 145988-01 | 330130-040-01-00 |
| 140482-01 | 330180-91-05 |
| 330500-00-20 | 3500/20 |
| 170133-090-00 | 3500/45 176449-04 |
| 3500/32M 149986-02 | 3500/60 |
| 1900/65A 172323-01 | 3500/64M |
| 330180-X0-05 | 330103-00-06-10-02-00 |
| 125720-01 | 330106-05-30-10-02-00 |
| 125760-01 | 133442-01 |
| 125768-01 | 330180-90-00 |
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