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Bently Nevada 330103-07-16-05-02-00 3300 XL 8 mm Proximity Probe with M10 x 1 Metric Thread and API 670 Standard Compliance
Bently Nevada 330103-07-16-05-02-00 3300 XL 8 mm Proximity Probe with M10 x 1 Metric Thread and API 670 Standard Compliance
3300 XL 8mm Proximity Probe axial thrust position sensor
radial vibration probe Bently Nevada 3300 XL system
steam turbine vibration monitoring gas turbine shaft displacement
Lugar de origem:
EUA
Marca:
Bently Nevada
Número do modelo:
330103-07-16-05-02-00
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Detalhes do produto
Modelo:
330103-07-16-05-02-00
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 axial thrust position sensor
,radial vibration probe Bently Nevada 3300 XL system
,steam turbine vibration monitoring gas turbine shaft displacement
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 330103-07-16-05-02-00 3300 XL 8 mm Proximity Probe
| Feature | Specification |
|---|---|
| Model Series | 3300 XL 8 mm Proximity Probe |
| Part Number | 330103-07-16-05-02-00 |
| Thread Type | M10 x 1 (Metric Thread) |
| Unthreaded Length (07) | 70 mm |
| Overall Case Length (16) | 160 mm |
| Total Length (05) | 0.5 metre (1.6 feet) |
| Armor Option (03) | Unarmored |
| Connector Option (02) | Miniature coaxial ClickLoc connector with connector protector |
| Agency Approval (00) | Not required (General Purpose) |
| Linear Range | 2.0 mm (80 mils) |
| Scale Factor | 7.87 V/mm (200 mV/mil) |
| Standard Calibration | AISI 4140 Steel |
Contact Us for Pricing or Technical Support:
Contact: Miya Zheng
Email: sales@amikon.cn
WhatsApp: +86 180 2077 6792
Key Features
- Precision 3300 XL System Accuracy
The 330103-07-16-05-02-00 is part of the Bently Nevada 3300 XL 8mm system, and it’s generally known for stable linear response in real field conditions. The scale factor is 7.87 V/mm (200 mV/mil), which gives consistent output for radial vibration probe and axial position sensor applications. In practice, it’s often used in steam turbine vibration monitoring or gas turbine shaft displacement setups where signal stability matters more than anything else. - Optimized Metric Housing (M10x1)
Mechanically, this version uses an M10 x 1 metric thread. The 70 mm unthreaded section plus 160 mm overall length makes it suitable for deeper mounting positions. Usually you see this kind of configuration in industrial rotating machinery housings where space is not very friendly, like centrifugal pump monitoring or turbine casings. It’s not complicated, but it fits international installation habits quite well. - Reliable ClickLoc™ Connector
The ClickLoc™ coaxial connector is a small detail but important in the field. It gives a solid snap-in connection with gold-to-gold contact, which helps reduce signal instability caused by vibration or loose fitting. In power plant instrumentation or critical asset protection environments, this kind of connector design simply reduces a lot of maintenance headaches during shutdowns or inspections. - API 670 Standard Compliance
This probe is designed in line with API 670 requirements, which is basically the baseline standard for machinery protection systems in high-risk rotating equipment. You’ll find it commonly applied in steam turbines, gas turbines, and centrifugal compressors. In emergency shutdown system (ESD) configurations, it often plays a front-end role in vibration or displacement signal collection. - Enhanced Interconnectivity
It works directly with the 330180 Proximitor Sensor and 330130 Extension Cable, forming a complete chain inside the Bently Nevada 3500 monitoring system. Integration is straightforward, and in most cases replacement doesn’t require major reconfiguration. This makes it practical for System 1 condition monitoring setups and 3500 rack module installations where uptime is critical. - Non-Contact Displacement Technology
Based on eddy current principles, this is a non-contact measurement probe. It’s typically used for shaft vibration measurement, shaft eccentricity, and differential expansion monitoring. In some setups, it also supports REBAM® monitoring applications. The key point is simple: no physical contact with the shaft, but still stable high-resolution displacement feedback for rotating machinery protection systems.
Applications
- Radial Vibration Monitoring
This probe is mainly used for radial vibration monitoring, meaning it tracks how the shaft moves dynamically relative to its bearings. In real operation, this kind of signal is what engineers rely on to spot imbalance, misalignment, or early bearing wear. On high-speed rotating machinery, even small changes show up clearly here, so it usually becomes one of the first layers of protection in the system. - Axial (Thrust) Position Measurement
It also handles axial or thrust position measurement, basically watching the shaft’s longitudinal movement. This sounds simple, but in practice it’s critical. If axial movement goes out of control, you can end up with rotor-to-stator contact, which is basically the kind of failure nobody wants to see. That’s why it’s commonly used in steam turbines and large centrifugal compressors, where thrust control is tightly monitored. - Steam and Gas Turbine Protection
In power generation setups, especially steam and gas turbines, this M10x1 metric probe is pretty common. It feeds real-time vibration and thermal expansion data into systems like the Bently Nevada 3500 platform. Usually it sits there quietly, but its job is to make sure the turbine stays within safe operating limits. When something drifts, the protection logic depends heavily on this kind of signal. - Shaft Eccentricity & REBAM® Monitoring
It’s also used for shaft eccentricity, sometimes called runout, especially during startup and shutdown when the shaft is not fully stable yet. That’s the moment where bow or mechanical deformation shows up. In addition, it can work with REBAM® (Rolling Element Bearing Activity Monitor) setups to catch early-stage bearing issues before they turn into real damage. Basically, it helps catch problems early instead of waiting for failure. - API 670 Compliant Machinery Protection
This probe is part of API 670 compliant machinery protection systems, which basically means it fits the standard used for critical industrial protection. In many configurations, it’s tied into Emergency Shutdown Systems (ESD). When vibration crosses defined thresholds, it can contribute to automatic trip decisions. Not the “main brain” of the system, but definitely a trusted input source. - Critical Asset Condition Monitoring
Beyond turbines, it’s also used across a wider range of rotating equipment. In centrifugal and axial compressors, it helps track shaft stability and aerodynamic issues like surge. In gearboxes, it’s more about gear mesh condition and higher-frequency vibration behavior. For pumps and large industrial motors, it runs continuously as part of condition monitoring, basically acting as an always-on health signal for critical assets.
Frequently Asked Questions
Q1: What are the primary technical specifications of the 330103-07-16-05-02-00 proximity probe?
A: The 330103-07-16-05-02-00 is from the Bently Nevada 3300 XL 8mm series, M10 x 1 metric thread type. Nothing fancy in structure, but the dimensions are quite specific: 70 mm unthreaded part, 160 mm total case length, and a 0.5 m unarmored cable. In practice, it’s used for non-contact displacement measurement in rotating equipment, basically the kind of probe you see in turbine or compressor setups where stability matters more than appearance.
Q2: Is the 330103-07-16-05-02-00 suitable for monitoring shaft vibration in steam turbines?
A: Yes, and it’s actually one of the common use cases. In steam turbines, it’s usually sitting there doing radial vibration monitoring and also axial thrust position. Since it’s built to API 670 level requirements, it gets pulled into critical protection loops. In some systems, it’s also part of ESD logic, so if vibration goes too high, it’s part of the chain that helps trigger shutdown decisions.
Q3: What type of connection system does the 330103-07-16-05-02-00 utilize?
A: It uses ClickLoc™ coaxial connector (Option 02). In simple terms, it’s a push-and-lock type connection with gold-to-gold contact. Sounds small, but in the field this matters a lot—vibration, heat, oil mist, all these things can mess with weak connections. This design just makes it less likely to loosen or drift over time, and swapping probes is also faster.
Q4: Can the 330103-07-16-05-02-00 be integrated into a Bently Nevada 3500 monitoring rack?
A: Yes, no issue there. It works with 330180 Proximitor Sensor, and then feeds into 3500/40M or 3500/42M modules inside a 3500 rack. This is a pretty standard setup in condition monitoring systems. Usually once it’s in the system, it just runs continuously without much attention unless something actually goes wrong.
Q5: Why is the "07-16" dimension code important for the 330103-07-16-05-02-00?
A: “07-16” is basically telling you the physical size: 70 mm unthreaded and 160 mm total length. Not something you ignore, because in real machines space is often tight. If the casing is deep or awkward, this dimension decides whether the probe fits directly or becomes a headache during installation.
Q6: Does the 330103-07-16-05-02-00 require specialized calibration for standard steel shafts?
A: No, it comes factory calibrated for AISI 4140 steel. Scale factor is already set at 200 mV/mil (7.87 V/mm), so usually you don’t touch anything in the field. Install it, connect it, and it works with the existing system setup. Calibration is more or less handled at factory level, not something you redo on site in normal cases.
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