Bently Nevada 330104-01-04-15-02-05 3300 XL 8 mm Metric Proximity Probe
| Company Information | ||||||||
| [email protected] | ||||||||
| Mobile | +8615305023276 | |||||||
| +8615305023276 | ||||||||
| 15305023276 | ||||||||
| Add to | Room 1004, No. 62 Xiangxiu Li, Siming District, Xiamen City, Fujian Province, China | |||||||
Technical Specifications
| Parameter | Specification |
|---|---|
| Model | 330104-01-04-15-02-05 |
| Product Type | 3300 XL 8 mm Metric Proximity Probe |
| Manufacturer | Bently Nevada |
| System Series | 3300 XL Condition Monitoring System |
| Measurement Principle | Eddy current non-contact displacement measurement |
| Measured Variables | Shaft vibration, shaft displacement, shaft axial/radial position |
| Compatible System | 3300 XL Proximitor + monitoring modules |
| Output Signal | Linear analog signal via Proximitor signal conditioning |
| Application Areas | Steam turbines, gas turbines, compressors, pumps, generators |
| Installation Type | Fixed probe installation for rotating machinery monitoring |
| Construction Type | 8 mm metric probe design |
| Thread Standard | Metric mounting configuration |
| Environmental Suitability | High temperature, high vibration, industrial contaminated environments |
| Cable System | Integrated coaxial extension cable system |
| Operating Characteristics | High accuracy, stable long-distance signal transmission |
| Total Length | 1.5 meters |
| Weight | 0.485 kg |
FAQ
Q1: What is the primary function of the 330104-01-04-15-02-05 proximity probe?
A: The primary function of this 8 mm metric proximity probe is to provide continuous, non-contact measurement of shaft vibration, displacement, and position in rotating machinery. It operates as part of the Bently Nevada 3300 XL eddy current measurement system, where it detects extremely small changes in the distance between the probe tip and a conductive target surface such as a rotating shaft. These variations are converted into electrical signals that represent mechanical motion. This enables precise monitoring of rotor dynamics, early fault detection, and real-time machinery protection in critical industrial systems.
Q2: Where is this probe typically used in industrial applications?
A: This probe is widely used in high-value rotating equipment across industries such as power generation, oil and gas, petrochemical processing, and heavy manufacturing. Typical applications include steam turbines, gas turbines, centrifugal compressors, large industrial pumps, and generators. In these systems, shaft vibration and displacement must be continuously monitored to prevent catastrophic failures, making this probe a key component in predictive maintenance and condition-based monitoring strategies.
Q3: How does the eddy current measurement principle work in this probe?
A: The probe operates by generating a high-frequency electromagnetic field at its sensing tip. When this field interacts with a conductive material such as a steel shaft, eddy currents are induced on the surface of the target. As the distance between the probe and the shaft changes, the strength of these eddy currents varies proportionally. The system converts these variations into a linear voltage signal, which is then processed by a Proximitor module. This allows highly accurate, non-contact measurement without physical wear or mechanical interference.
Q4: How does the probe integrate into the 3300 XL monitoring system?
A: The probe is part of a three-component measurement chain consisting of the probe, a Proximitor signal conditioner, and a monitoring system. The probe captures raw displacement data from the rotating shaft. This signal is transmitted through a coaxial cable to the Proximitor, which amplifies, linearizes, and conditions the signal. The processed output is then sent to the monitoring system for analysis, trend recording, and alarm generation. This architecture ensures stable and accurate measurement even in harsh industrial environments.
Q5: What are the typical signs of probe malfunction?
A: A malfunctioning probe may exhibit unstable output signals, increased noise levels, signal drift, intermittent signal loss, or complete signal failure. In a monitoring system, these issues may appear as erratic vibration readings, flat-line signals, or sudden unexplained changes in trend data. Common root causes include cable damage, connector corrosion, improper installation, electromagnetic interference, or internal degradation of the sensing coil. Because the probe operates with very small signal variations, even minor faults can significantly impact measurement reliability.
Q6: What factors can affect measurement accuracy?
A: Measurement accuracy can be influenced by several mechanical and environmental conditions, including incorrect probe-to-target gap setting, shaft surface condition (such as roughness, oxidation, or coating), temperature variations, electromagnetic interference, and mechanical instability. Installation errors such as misalignment or loose mounting can also lead to nonlinear output or signal drift. Maintaining correct installation geometry and stable operating conditions is essential for ensuring consistent and accurate measurement performance.
Q7: How can technicians verify proper operation of the probe?
A: Technicians typically verify probe performance by monitoring signal stability under normal machine operation and comparing readings against expected vibration behavior. A properly functioning probe should produce a smooth, linear, and repeatable response as shaft position changes. Calibration checks using reference gap values are also commonly performed to confirm system accuracy. Any sudden deviation from baseline trends, increased signal noise, or inconsistent output may indicate installation issues or hardware degradation requiring inspection.
Q8: How can long-term reliability of the probe be improved?
A: Long-term reliability depends heavily on correct installation practices, stable mechanical mounting, and proper cable management. Ensuring secure probe positioning reduces mechanical stress and signal variation. Proper shielding and grounding help minimize electromagnetic interference, which is critical for low-level signal integrity. Regular inspection of connectors, cables, and mounting hardware is recommended, especially in high-vibration environments. Additionally, keeping the installation area free from oil contamination, moisture, and debris helps maintain consistent performance and extends operational lifespan.
Bently Nevada 330104-01-04-15-02-05 3300 XL 8 mm Metric Proximity Probe is in stock. Please contact us for a quick quote and competitive pricing.
| Company Information | ||||||||
| [email protected] | ||||||||
| Mobile | +8615305023276 | |||||||
| +8615305023276 | ||||||||
| 13950166376 | ||||||||
| Add to | Room 1004, No. 62 Xiangxiu Li, Siming District, Xiamen City, Fujian Province, China | |||||||
Company Introduction
Xiamen Shengruite Trading Co., Ltd. is a company specializing in the supply of industrial PLC spare parts.
We provide high-quality PLC spare parts to customers in the global manufacturing, energy and power, chemical and other fields.
Since its establishment in 2011, after 13 years of rapid development, the cumulative global shipments have reached 223,650 pieces, with an annual output value of US$50 million.
Successfully served more than 500 customers in more than 100 countries and regions including Saudi Arabia, UAE, the United States, Europe, Africa, and Southeast Asia
Our Mission
Provide customers with the best quality PLC spare parts and the fastest delivery service to ensure that their industrial automation systems are always in the best operating condition.
We provide a 1-year warranty service, and we support returns and exchanges for any issues to ensure your rights and interests are fully protected.
We can provide detailed product images upon request, and our team can arrange warehouse photos for confirmation to ensure you have all the information you need before making a purchase.
Shipping times vary depending on your location. With the support of our 16 global warehouses, we strive to deliver orders as quickly as possible. Contact us to get an estimated delivery time for your specific location.
The minimum order quantity (MOQ) is typically one unit. However, for larger orders, please contact us for potential discounts and pricing details.
Yes, we offer competitive pricing for bulk purchases. Please reach out to our sales team with the specifics of your order to receive a custom quote.
We accept various payment methods for wholesale orders, including bank transfers (T/T), letters of credit, and other options upon agreement. For large transactions, please contact us directly for payment terms.
Yes, we offer flexible ordering options for both small and large quantities. Whether youre looking for a single unit or a large batch, we can accommodate your needs.
We occasionally offer promotional discounts for new wholesale customers. Contact us to learn more about any current offers available for first-time buyers.
If you are unsure of compatibility with your existing setup please provide your system details and our support team can verify compatibility prior to purchase.
Returns are accepted within 30 days if the product is unused, unopened, and in its original packaging. Please note that return shipping and associated costs are the buyer\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\’s responsibility.
Yes, we offer technical support for the installation and integration of our products. Our team can assist with setup, configuration, and troubleshooting to ensure a smooth installation.
