Product Introduction
The Epro MMG1070/02TS Eddy Current Displacement Sensor is a precision monitoring component used in industrial condition monitoring systems. It is engineered to measure the displacement of metallic surfaces—typically rotating shafts—without mechanical contact.
Using electromagnetic eddy current technology, the sensor produces highly stable measurement signals that can be used to analyze shaft position, vibration levels, and mechanical alignment. This information is essential for predictive maintenance programs that aim to detect equipment faults before catastrophic failures occur.
The MMG1070/02TS sensor integrates a 3-meter cable, simplifying installation in turbine monitoring systems, compressor protection systems, and other critical machinery monitoring setups.
Technical Specifications
| Parameter | Specification |
|---|
| Manufacturer | Epro |
| Model | MMG1070/02TS |
| Sensor Type | Eddy Current Displacement Sensor |
| Measurement Principle | Eddy Current Non-Contact Sensing |
| Application | Shaft Displacement and Vibration Monitoring |
| Cable Length | 3 meters |
| Signal Type | Analog displacement signal |
| Target Material | Conductive metal surfaces |
| Industrial Usage | Turbines, compressors, generators, pumps |
| Installation Method | Probe-based monitoring system integration |
| Dimensions | Not specified |
| Weight | 0.9 kg (1.98 lb) |
Industrial Monitoring Scenarios
The Epro MMG1070/02TS Eddy Current Displacement Sensor is designed for high-precision, non-contact measurement of shaft displacement and vibration in rotating machinery. Utilizing eddy current sensing technology, the sensor can detect minute changes in position without physical contact, ensuring stable measurements even in harsh industrial environments.
This type of sensor is widely used in predictive maintenance and condition monitoring systems for critical rotating equipment. Typical industrial applications include:
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Turbine shaft vibration monitoring in power plants
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Compressor and pump shaft displacement measurement
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Bearing clearance monitoring in large rotating machinery
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Steam and gas turbine condition monitoring systems
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Generator rotor position measurement
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Industrial predictive maintenance platforms
The sensor works with eddy current probes and monitoring systems to provide continuous feedback on machine condition, helping prevent unexpected mechanical failures.
Functional Advantages
Non-Contact Measurement Technology
The sensor uses eddy current principles to measure displacement without physical contact, reducing mechanical wear and extending service life.
High Sensitivity for Micron-Level Detection
It can detect extremely small changes in shaft position, making it suitable for vibration and displacement monitoring in high-precision equipment.
Stable Performance in Harsh Environments
The sensor is designed to operate reliably in environments with vibration, temperature variation, and electromagnetic interference.
Optimized Cable Length for Industrial Installations
The integrated 3-meter cable allows flexible installation within monitoring systems without requiring additional signal extension components.
Reliable Signal Transmission
The sensor transmits stable analog signals to vibration monitoring systems, enabling accurate real-time equipment diagnostics.
Technical FAQs
1. What measurement principle does the MMG1070/02TS use?
It uses eddy current sensing technology to measure displacement between the probe and the metallic target surface.
2. What types of machinery commonly use this sensor?
Rotating equipment such as steam turbines, gas turbines, compressors, pumps, and generators frequently use this type of displacement sensor.
3. What is the purpose of the eddy current measurement method?
It allows precise non-contact displacement measurement, which is critical for monitoring rotating shafts and bearing clearances.
4. Can the sensor operate in high-vibration environments?
Yes, it is specifically designed for vibration monitoring systems used in heavy industrial machinery.
5. What type of monitoring systems is it compatible with?
It is typically used with machinery protection systems and vibration monitoring platforms.
6. What materials can be measured using this sensor?
The sensor works with conductive metal targets, commonly steel shafts in rotating equipment.
7. Does cable length affect signal quality?
The 3-meter integrated cable is optimized for stable signal transmission within industrial monitoring systems.
8. Is the sensor suitable for continuous monitoring applications?
Yes, it is designed for continuous real-time monitoring of critical machinery.
9. Can the sensor detect shaft vibration as well as displacement?
Yes, it can measure both dynamic vibration and static displacement of rotating shafts.
10. What industries typically implement this type of sensor?
Industries such as power generation, oil and gas, petrochemical processing, and heavy manufacturing commonly use eddy current displacement sensors.
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