Description
Detailed Parameter Table
| Parameter Name | Parameter Value |
| Product Model | 990 – 10 – XX – 02 – 00 |
| Manufacturer | BENTLY NEVADA |
| Product Category | Vibration Transmitter |
| Product Origin | USA |
| Weight | 460g |
| Warranty | 12 months |
| Input | 3300 NSV proximity probe signal |
| Output | 4 – 20 mA, proportional to vibration amplitude |
| Power | Loop – powered, eliminating the need for an external power supply |
| Mounting | DIN – rail or bulkhead |
| Operating Temperature | – 20 °C to + 70 °C |
| Humidity | 5 % – 95 % RH, non – condensing |
| Full – scale Option | Denoted by ’10’ (Details not fully clear from available data, likely related to measurement range) |
| System Length | Designated as ‘XX’ (Exact length not specified, may vary based on application needs) |
| Mounting Option | ’02’ indicates bulkhead screws |
| Agency Approval Option | ’00’ implies no approval required |
| Transducer Tip Material | Likely polyphenylene sulfide (PPS) based on similar models |
| Transducer Case Material | AISI 303 or 304 stainless steel (SST) as per similar models |
| Probe Cable | 75Ω coaxial, fluoroethylene propylene (FEP) insulated as in related models |
| Optional Cable Armor | Flexible AISI 302 SST with optional FEP outer jacket in similar setups |
| Tensile Strength | 222 N (50 lbf) maximum between probe case and probe lead (assumed from related models) |
| Application Areas | Original Equipment Manufacturers (OEMs) integrating vibration monitoring into centrifugal air compressors, small pumps, motors, fans, and other rotating machinery |
| Minimum Order Quantity | Not specified (Typically 1 in many industrial component sales) |
| Price | Varies by supplier, not available from current data |
BENTLY 990-10-XX-02-00,163930-01
Product Introduction
The BENTLY NEVADA 990 – 10 – XX – 02 – 00 is a compact and highly functional vibration transmitter engineered for harsh industrial environments. It plays a crucial role in measuring shaft vibration within rotating machinery. By converting the analog vibration signal into a standard 4 – 20 mA output, it enables seamless integration into various industrial control systems. This makes it an ideal choice for OEMs looking to incorporate vibration monitoring capabilities into their machinery, especially centrifugal air compressors and other similar rotating equipment.
Core Advantages and Technical Highlights
Integrated Proximitor Sensor: One of the significant advantages of the 990 – 10 – XX – 02 – 00 is the integrated proximitor sensor. This feature eliminates the need for an external unit, which simplifies the installation process and reduces overall costs. In a manufacturing plant with multiple rotating machinery, the ease of installation provided by this integrated sensor can save a substantial amount of time and resources during the setup phase.
Loop – powered Design: The loop – powered design is another key feature. It draws power from the control loop, eliminating the need for a separate external power supply. This not only reduces the complexity of the wiring but also enhances the reliability of the transmitter, as there are fewer components that could potentially fail.
Compact Size: Its compact size makes it suitable for installation in tight spaces. In machinery where space is at a premium, such as small – scale compressors or motors, this vibration transmitter can be easily installed without the need for major modifications to the equipment’s structure.
4 – 20 mA Output: The standard 4 – 20 mA output is compatible with most industrial control systems. This wide compatibility ensures that the transmitter can be used in a variety of industrial setups, from small – scale manufacturing units to large – scale industrial plants.
Non – interacting Zero and Span: The non – interacting zero and span functionality allows for easy field calibration. Maintenance technicians can quickly and accurately calibrate the transmitter in the field, ensuring its accurate performance over time.
Not OK / Signal Defeat Circuit: The built – in not OK / signal defeat circuit is designed to prevent false alarms. In industrial environments, false alarms can lead to unnecessary shutdowns and costly downtime. This circuit ensures that alarms are only triggered when there is a genuine issue with the machinery’s vibration, improving the overall efficiency of the monitoring system.
Typical Application Scenarios
Centrifugal Air Compressors: In the manufacturing of compressed air systems, the 990 – 10 – XX – 02 – 00 is commonly used to monitor the vibration of centrifugal air compressors. By continuously measuring the shaft vibration, it can detect early signs of issues such as bearing wear or misalignment. For example, in a paint – manufacturing plant where compressed air is used for spray – painting operations, any disruption in the compressor’s operation due to excessive vibration can lead to inconsistent paint application. The vibration transmitter helps in preventing such issues by providing real – time data on the compressor’s health.
Small – scale Rotating Machinery: In facilities with small pumps, motors, or fans, this vibration transmitter is also widely used. In a food – processing plant, small motors drive conveyor belts that transport food products. Monitoring the vibration of these motors using the 990 – 10 – XX – 02 – 00 can help in detecting any abnormal vibrations that could potentially lead to product spills or damage to the machinery.
163930 – 01 (Insufficient Data – Hypothetical Expansion)
Potential Product Category and General Assumptions
Based on the BENTLY NEVADA product line, the 163930 – 01 could potentially be a component related to their machinery monitoring or protection systems. Given the lack of specific data, we can make some educated guesses. It might be a sensor module, a communication interface, or a power – related component for their larger monitoring systems such as the 3500 series.
If it were a sensor module, it could be designed to measure additional parameters such as temperature, pressure, or axial displacement in industrial machinery. For example, in a power generation plant, temperature sensors are crucial for monitoring the performance of generators and turbines. If 163930 – 01 were a temperature – sensing module, it could be integrated with other BENTLY NEVADA monitoring components to provide a comprehensive view of the machinery’s health.
If it were a communication interface, it could be used to transfer data between different parts of the monitoring system. In a large – scale industrial complex with multiple monitoring devices, a reliable communication interface is essential for aggregating and analyzing data from various sensors. The 163930 – 01 could potentially be designed to support protocols such as Modbus or Ethernet, enabling seamless data transfer between sensors, transmitters, and control units.
If it were a power – related component, it could be responsible for providing stable power to other modules in the monitoring system. In industrial environments, where electrical power can be subject to fluctuations, a reliable power – conditioning component like the 163930 – 01 could ensure the proper operation of sensitive monitoring equipment.
BENTLY 990-10-XX-02-00,163930-01
Installation, Commissioning and Maintenance Instructions (for 990 – 10 – XX – 02 – 00)
Installation Preparation
Before installing the 990 – 10 – XX – 02 – 00 vibration transmitter, ensure that the power to the associated machinery and any connected control systems is turned off. This is a critical safety measure to prevent electrical shock during installation. The installation area should be clean and free from dust, debris, and any corrosive substances. Tools such as a screwdriver (for bulkhead mounting) or DIN – rail mounting clips (if using DIN – rail mounting) should be prepared. Make sure to have the 3300 NSV proximity probe and its associated extension cable ready for connection. Follow the grounding procedures carefully as specified in the product manual. Proper grounding helps to minimize electrical interference and ensures the safe operation of the transmitter. When handling the transmitter and the probe, avoid dropping or subjecting them to excessive mechanical stress.
Commissioning
Once installed, power on the system. Check the output signal using a suitable multimeter or a monitoring device compatible with the 4 – 20 mA signal. Verify that the output is within the expected range based on the machinery’s normal vibration levels. Use the non – interacting zero and span potentiometers to fine – tune the output if necessary. The test input pin can be used to quickly verify the signal integrity. Ensure that the not OK / signal defeat circuit is functioning correctly by simulating a faulty sensor or connection (following proper safety procedures) and observing that no false alarms are triggered.
Maintenance Suggestions
For regular maintenance, visually inspect the transmitter and the connected probe and cable for any signs of physical damage, such as cuts, abrasions, or corrosion. Check the mounting to ensure it is secure. Periodically clean the transmitter and the probe to remove any accumulated dust or debris, especially if used in a dusty environment. Use a soft, dry cloth for cleaning. If the transmitter is used in a high – humidity environment, check for any signs of moisture ingress. In case of any issues with the output signal, first check the connections at both ends of the cable. Use a multimeter to test the continuity of the cable and check for any breaks in the conductors. If the problem persists, refer to the product manual for further troubleshooting steps or contact BENTLY NEVADA’s technical support.
Service and Guarantee Commitment (for 990 – 10 – XX – 02 – 00)
We are committed to the quality of the BENTLY 990 – 10 – XX – 02 – 00 vibration transmitter. It comes with a comprehensive 12 – month warranty. In the event of any manufacturing defects, we will replace the transmitter free of charge within the warranty period. Our after – sales service is designed to be responsive and efficient. Our technical support team is available to assist with any installation – related questions, commissioning issues, or troubleshooting requirements. We strive to ensure that the 990 – 10 – XX – 02 – 00 continues to perform optimally throughout its service life, providing you with a reliable vibration – monitoring solution for your industrial machinery.
