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Bently Nevada 9200

Your Professional Bently Nevada 9200 Supplier

 

Our goal is to become your true partner in the field of bently nevada 9200 in China. We specialize in PLC modules, DCS control cards, ESD control cards, turbine supervisory, vibration monitoring and asset protection system. We have a skilled engineering team dedicated to refining every stage, from product development and process improvement to production oversight, ensuring every product delivered meets rigorous quality and performance standards. The price is competitive and the product is quality-assured, which is a good choice for your long-term cooperation.

 

 
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Why Choose Us

 

 

Product application: Our products are ABB, Bently Nevada, Invensys, etc. These products are widely used in CNC machinery and metallurgy, oil and gas, petrochemical, chemical and other industries.


Our experience: We are an industrial automation equipment supplier, we focus on PLC DCS and TSl system modules and spare parts for 10 years.


Our services: In the pre-sales stage, our team of experts will recommend the most suitable products according to the needs of customers and provide detailed technical consultation. During the sales period, we ensure timely delivery and provide installation guidance. For after-sales, we provide long-term technical support, warranty services and spare parts to help customers maximize the use of products and get reliable maintenance during use.

 

Bently Nevada 9200-01-01-10-00 Seismoprobe Velocity Transducer

 

Advantages of Bently Nevada 9200

Ruggedness: The solid-state technology used in Bently Nevada's Velomitor family, which includes the 9200, provides improved performance and ruggedness for casing velocity measurement.


Moving-coil technology: The moving-coil design makes the 9200 less sensitive to impact excitation compared to integrating accelerometers.


Portability and power efficiency: The 9200 is designed for portability and doesn't require external power, making it convenient for various measurement applications.


Corrosion resistance: It offers excellent resistance to corrosive environments, eliminating the need for additional protective measures.

 

 

Specification of Bently Nevada 9200

 

 

Sensitivity

20 mV/mm/s (500 mV/in/s), ±5% when properly terminated and oriented at the angle of calibration.

Calibration Load

10 kΩ (measured between terminals "A" and "B", output taken across these pins).

Sensitivity Temperature Coefficient

0.2% per °C.

Frequency Response

4.5 to 1000 Hz (270 to 60,000 CPM); +0, -3 dB typical.

10 to 1000 Hz (600 to 60,000 CPM); +0, -3 dB typical.

15 to 1000 Hz (900 to 60,000 CPM); +0, -3 dB typical.

Dynamic Operating Range

2.54 mm (0.100 in) peak-to-peak maximum displacement.

Velocity Range

25 mm/s (1 in/s) at +22°C with 25 mm/s casing vibration at 100 Hz (6000 cpm) and a 10 kΩ load.

Coil Resistance

1.25 kΩ ±5%

Locked Coil Inductance

125 mH, typical.

Amplitude Linearity

±5% from 0.01 to 5.0 in/s (0.254 to 127 mm/s) at 100 Hz (6000 CPM).

Shock Resistance

Withstands 50 g peak maximum acceleration along non-sensitive axis.

Transverse Sensitivity

±10% maximum of the sensitive axis sensitivity at 100 Hz and 1.0 in/s (2.54 cm/s).

Polarity of Output Signal

Pin A goes positive with respect to Pin B when the transducer case velocity is towards the connector.

Lead Wire Length

Up to 305 meters (1,000 feet) maximum between Seismoprobe Velocity Transducer and 3300 or 3500 Monitor.

 

 

Features of Bently Nevada 9200

Moving coil technology: The 9200 Seismoprobe uses moving coil technology to provide a voltage output that is proportional to the vibration velocity. This design makes it less sensitive to pulse or shock excitation than solid-state velocity sensors that include an integrated accelerometer.


Two-wire design: The sensor directly outputs a voltage proportional to the vibration velocity.
No external power required: The 9200 Seismoprobe does not require an external power source, making it convenient for portable or temporary setups, especially for field use.


Interconnect cables: 9200 and 74712 sensors can be connected to other instruments using interconnect cables, which are available in a variety of lengths and configurations

Bently Nevada 9200-03-05-10-00 Seismoprobe Velocity Transducers

 

Application of Bently Nevada 9200
 
 

Rotating machinery monitoring

Used to monitor the vibration of rotating equipment such as motors, pumps, fans, compressors, and turbines. Helps identify common mechanical failures such as imbalance, misalignment, bearing wear, and shaft bending.

 
 
 

Industrial equipment health management

As a key tool for predictive maintenance, it continuously monitors vibration data to detect equipment abnormalities in advance. Reduce unexpected downtime and extend equipment life.

 
 
 

Oil and gas industry

Monitor the vibration of compressors, pumps, and pipeline systems to prevent leaks or accidents caused by mechanical failures.

 

 

Bently Nevada 330400-02-05 Accelerometer Acceleration Transducers

 

Components of Bently Nevada 9200

Two-wire transducer: This is the core component that senses the vibration velocity. It uses moving-coil technology to produce a voltage output proportional to the vibration velocity.

 

Appropriate cable: A cable connects the transducer to the monitoring system.

 

Optional velocity-to-displacement converter: This component can convert the velocity signal to a displacement signal, which may be useful in certain applications.

 

 

Packing and Shipping of Bently Nevada 9200

 

 

Packing

Box

Shipping

Shipped by road, sea, rail

 

 

FAQ

 

 

Q: How does the Bently Nevada vibration sensor work?

A: Bently Nevada vibration probes operate based on the eddy current principle. These proximity transducers measure the distance between the probe tip and the observed surface. The proximitor generates a low-power radio frequency (RF) signal, which is transmitted to a coil inside the probe tip through an extension cable.

Q: What is inside vibration sensor?

A: The vibration sensor consists of a piezoelectric crystal that has a seismic mass attached to it. When the equipment/machine under study experiences vibrations, the crystal is subjected to stress, and an electric signal is generated, which is then converted to valuable data.

Q: How does a vibration sensor module work?

A: Vibration sensors work by detecting the motion of a material or object by sensing its frequency. The faster the movement, the higher the frequency detected on a vibration sensor. In manufacturing, for example, when a machine is vibrating abnormally, it may experience problems with its bearings.

Q: What are the three main components of a vibration system?

A: Three major elements comprise the vibratory systems: Inertia element (mass, which oscillates or vibrates), elastic element (spring, which temporarily stores energy during vibration), and energy-dissipative element (damper, which dissipates the energy).

Q: How do you test a vibration sensor?

A: Place the sensor on a vibration table capable of generating a range of frequencies. Apply vibrations at different frequencies and record the sensor's output.

Q: Which of the following locations is not a good application for a vibration sensor?

A: The vibration sensor should not be installed in places where strong vibrations, shocks, high temperatures, high pressure, dust, or water are generated.

Q: What is the operating voltage of a vibration sensor?

A: It can be used for various purposes, such as detecting door knocks, machine malfunctions, car collisions, or alarm systems. It operates from 3.3 V to 5 V.

As one of the leading bently nevada 9200 manufacturers and suppliers, we warmly welcome you to buy discount bently nevada 9200 from our factory. All our products are with high quality and competitive price.

Bently Nevada 330400 02 05 Accelerometer Acceleration Transducers, 330400-02-05, Bently Nevada 330400 02 05