Accelerometer for Advanced

Data Collection

· Built-in IEPE circuit, isolation output, constant current source power supply.

· Laser seal welded.

· Using military connector, can be used for on-line monitoring in harsh industrial site.

· Temperature measurement: optional (RH103T).

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What Is a Accelerometer?

An accelerometer is a sensor that measures the acceleration or vibration of a moving object. The RH113 Low Frequency Top Exit Vibration Sensor is an advanced accelerometer designed to provide high-precision low-frequency vibration measurements for industrial and mechanical systems. Designed to detect subtle vibrations, the sensor is ideal for applications where low-frequency vibrations are critical for performance monitoring or predictive maintenance.

Advantages of a Accelerometer

①　High Precision and Sensitivity：The RH113 accelerometer offers outstanding precision in vibration detection.

②　Robust and Durable Construction:Built to withstand harsh environments, the RH113 is designed with durability in mind.

③　Real-Time Vibration Monitoring:By providing real-time feedback on vibrations, the RH113 enables proactive monitoring of machinery conditions.

④　Durability: Ideal for industrial use, with a rugged design that can withstand extreme conditions.

Accelerometers are an important tool for any organization seeking to optimize operational efficiency and minimize downtime.

Choose The Right Accelerometers

Selecting the right accelerometer is critical for accurate motion and vibration measurement. Whether you need real-time data for condition-based monitoring or high-precision data for industrial applications, our line of high-performance accelerometers ensures reliable results, optimized efficiency, and seamless integration to meet your specific needs.

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Accelerometers

Applications of accelerometers

Accelerometers are increasingly used in many industries and have become a key tool for real-time monitoring and fault prevention. Major applications include:

①Mechanical equipment monitoring: real-time monitoring of vibration data, prediction of equipment failure, and reduction of downtime.

②Structural health monitoring: dynamic monitoring of structures such as bridges, buildings, and aircraft to ensure safety.

③Automotive industry: accelerometers help detect vibration and shock to improve vehicle performance and safety.

The wide application of accelerometers helps various industries improve efficiency, extend equipment life, and optimize resource allocation.

Energy Sector Optimization with Wireless Sensors

Why Accelerometers Are Essential for Predictive Maintenance?

Accelerometers are essential for predictive maintenance because they provide real-time data on vibration and motion, helping to detect problems before they lead to failure.

Early Fault Detection

Identify anomalies in mechanical vibrations as early as possible.

Reduce Downtime

Enable proactive maintenance to minimize unexpected failures.

Cost Effectiveness

Help avoid costly repairs and replacements by accurately predicting problems.

Accelerometer Workflow for Efficient Equipment Monitoring

Measuring vibrations is a critical step in the condition monitoring process for industrial equipment. By following a systematic approach, you can obtain accurate data to diagnose equipment health effectively：

①　Installation and configuration:Install the accelerometer at key locations on the target device or structure, such as bearings, motors, or machine housings.

②　Data acquisition: The accelerometer monitors the vibration, shock, or acceleration changes of the device in real time and converts the data into electronic signals.

③　Data transmission and analysis: The data is transmitted to the monitoring platform or data center.

④　Fault detection and diagnosis: By analyzing the data collected by the accelerometer, it can identify whether the device has abnormal vibration patterns and warn of potential faults.

⑤　Reporting and maintenance recommendations: Based on the data analysis results, maintenance reports are generated and repair recommendations are provided.

2.Energy Sector Optimization with Wireless Sensors

FAQ

Q:What is an accelerometer?

A:An accelerometer is a sensor that measures acceleration. It detects changes in motion, vibration, or shock, converting these movements into data that can be analyzed for monitoring and diagnostics in a variety of applications.

Q:What industries can benefit from using accelerometers?

Q:How accurate are accelerometers in detecting faults?

Q:Can accelerometers be used in remote monitoring systems?

Q:How do accelerometers help reduce maintenance costs?