Measurement Object |
N/A Aluminum: AlCuMgPb3.1645 |
Measuring Range |
N/A 2 mm |
Offset Distance |
N/A 0.2 mm |
Linearity ≤ 0.25% Full Scale Output (FSO) |
N/A 5 µm |
Resolution ≤ 0.05% Full Scale Output (FSO)1 | N/A 1 µm |
Repeatability of Full Scale Output (FSO) |
N/A ≤ 0.05 % |
Maximum Sensitivity Deviation |
N/A ≤ 1 % |
Frequency Response |
N/A 5 kHz-3 dB |
Midrange Measuring Range (MMR) Temperature Stability |
N/A 0.025 % FSO/ºC |
Sensor Temperature Compensation Range |
N/A 10 to 125 ºC |
Optional Sensor Temperature Compensation Range |
N/A -30 to 180 ºC |
Controller Temperature Compensation Range |
N/A 10 to +60 ºC |
Sensor Ambient Temperature Range |
N/A -30 to +125 ºC |
Optional Sensor Ambient Temperature Range |
N/A -30 to 180 ºC |
Controller Ambient Temperature |
N/A -20 to +70 ºC |
Design |
N/A Shielded |
Recommended Measurement Object Geometry (Flat) Diameter |
N/A 24 mm |
Sensor Cable Length |
N/A 1 m |
Connector |
N/A 5-Pin M12 |
Outputs |
N/A 0.5 to 9.5 V |
Power Supply |
N/A 12 to 32 V |
Protection Class |
N/A Ingress Protection (IP67) |
Sensor, Cable, and Controller Resistance Pressure |
N/A 10 bar |
Weight |
N/A 75 g |
N/A
|
N/A
The eddyNCDT 3005 is a new, powerful eddy current measurement system for fast, high precision displacement measurements. The system comprises a compact controller, a sensor and an integrated cable and is factory-calibrated for ferromagnetic and non-ferromagnetic materials. |
N/A The eddyNCDT 3005 provides ease of use and high measurement accuracy, offering an outstanding price/performance ratio. Therefore, the sensor is ideally suited to OEM integration and mechanical engineering applications. Particularly where pressure, dirt, oil and high temperatures are present, the eddyNCDT 3005 is suitable. Where high volume orders are required, customer-specific designs can be tailored to suit individual requirements. |
N/A If two or more systems operate next to one another, there is no need for synchronization. For operating several systems, a new frequency separation is provided, which enables to operate these systems in parallel without influencing one another. Tuning via synchronization cable is not necessary. |