Description
Product Description
Overview
The PR6423/01M-010 paired with CON021 constitutes a high-precision eddy current measurement system, purpose-built by EPRO for continuous shaft monitoring in rotating machinery. Designed for non-contact displacement tracking, the system ensures stable, reliable measurement in demanding industrial environments.
Engineered to withstand vibration, thermal stress, and exposure to oil or contaminants, this assembly combines a high-temperature-resistant proximity probe with a signal conditioning converter to deliver accurate, linear outputs directly proportional to surface displacement.
Key Features and Technical Specifications
-
System Type: Eddy current displacement measurement assembly
-
Probe Model: PR6423/01M-010
-
Converter Model: CON021 signal conditioning unit
-
Measurement Principle: Electromagnetic eddy current induction
-
Probe Diameter: 8 mm
-
Cable Length: 10 m, integrated shielded coaxial cable
-
Measurement Range: Approx. 2–4 mm (dependent on calibration)
-
Sensitivity: ~8 mV/µm (typical; varies by configuration)
-
Linearity: ≤ ±1% full scale
-
Frequency Response: DC up to 10 kHz (sensor chain dependent)
-
Converter Bandwidth: 0–20 kHz (-3 dB)
-
Output Signal: Analog voltage proportional to displacement
-
Supply Voltage: ±15 V DC via CON021 module
-
Operating Temperature: -35°C to +180°C
-
Protection Rating: IP67 (probe), IP20 (converter)
-
Weight: 0.22 kg
Applications
Ideal for vibration analysis, axial and radial displacement monitoring, and real-time shaft dynamics assessment in turbines, motors, pumps, and compressors. Its high durability makes it suitable for harsh mechanical environments and high-temperature operations.
FAQ
Q: Can the probe operate in continuous high-temperature conditions?
A: Yes, the PR6423/01M-010 is rated for continuous operation up to +180°C.
Q: Is the output compatible with standard data acquisition systems?
A: The analog voltage output is directly proportional to displacement and compatible with most DAQ or PLC systems.
Q: How does this model compare to PR6422?
A: Compared to the PR6422, PR6423/01M-010 offers higher thermal resistance and a wider frequency response, enhancing measurement stability under vibration and ther