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Non-contact, inductive displacement sensors from Micro-Epsilon operate according to the eddy current measuring principle. Unlike conventional, inductive displacement sensors, they measure on ferromagnetic and non-ferromagnetic materials providing high accuracy, frequency response and temperature stability. Due to their immunity to oil, dirt, pressure and temperature, these inductive eddy current sensors are primarily used for integration in machines and facilities.
Unit of Measure

Specifications

Static Resolution at 20 Hertz (Hz) Full Scale Output (FSO)1 N/A 0.005 %
Dynamic Resolution at 20 Kilohertz (kHz) Full Scale Output (FSO)2 N/A 0.025 %
Frequency Response at -3 Decibel (dB)3 N/A 5 kHz20 kHz20 Hz

Measuring Rate

 N/A 50 kSa/s
Linearity Full Scale Output (FSO)4 N/A <±0.2 %

Temperature Compensation Range

 N/A 10 to 50 ºC

Synchronization

 N/A With LF and HF Variants
Target Material5 N/A Aluminum Steel

Number of Characteristic Curves

 N/A 1

Direct Current (DC) Supply Voltage

 N/A 12 to 32 V

Power Consumption

 N/A 2.5 W

Digital Interface

 N/A Industrial Ethernet

Analog Output Current

 N/A 4 to 20 mA

Analog Output Voltage

 N/A 0 to 10 V

Note for Analog Output

 N/A Short Circuit Proof

Connection

 N/A Industrial Ethernet: 5-pole M12 connector Sensor: plug connector triaxial socket Supply/signal: 8-pole M12 connector

Mounting

 N/A Through Bores

Storage Temperature Range

 N/A -10 to 70 ºC

Operation Temperature Range

 N/A 0 to 50 ºC

Shock (DIN-EN 60068-2-27)

 N/A 15 g6 ms in 3 axes, 2 directions and 1000 shocks each ms

Vibration (DIN-EN 60068-2-6)

 N/A 5 g10 to 500 Hz in 3 axes, 2 directions and 10 cycles each

Protection Class (DIN-EN 60529)

 N/A Ingress Protection (IP67) (Plugged)

Material

 N/A Die-Cast Aluminum

Approximate Weight

 N/A 230 g

Characteristics

Characteristics

 N/A
  • Wide range of applications with numerous sensor models
  • High temperature stability
  • High resolution and linearity
  • Frequency response 20 kHz (-3dB)
  • Sensors for ferromagnetic and non-ferromagnetic targets
  • Analog output (U/I) Digital output
  • Intuitive configuration via web interface

Additional Information

N/A Performance and universality for industrial use
The eddyNCDT 3070 is a powerful, inductive sensor system based on eddy currents for measuring ranges smaller than 1 mm. The system comprises a compact controller, a sensor and an integrated cable and is factorycalibrated either for ferromagnetic or nonferromagnetic materials.

Ideal for integration into plant and machinery
As sensor and controller are temperaturecompensated, a high measurement accuracy can be achieved even in fluctuating temperatures. The sensors are designed for ambient temperatures up to a maximum of +200 ºC and an ambient pressure up to 700 bar. The compact controller design as well as the sensor robustness make the measuring system ideal for integration into plant and machinery.

New benchmark in controller technology
The industrial-grade M12 Ethernet interface offers a modern fieldbus connection. Configurable analog outputs enable to output the measured values as voltage or current. For multi-system operation, the systems come with a new kind of frequency separation (LF/HF) which enables to operate several sensors next to one another without requiring any synchronization.

Features

Features

 N/A
  • Active temperature compensation for sensor and controller
  • Frequency separation (LF & HF)
  • Industrial Ethernet interface
  • Intuitive web interface
  • Multipoint calibration regardless of the distance (up to 3-point calibration)
  • Scalable measuring range via analog output (teach function)
  • Scalable analog output

Note

N/A For operating several eddyNCDT measuring systems, a new frequency separation (LF/HF) is provided. The frequency separation enables multi-channel operation without mutual influence. This function makes a synchronization cable superfluous.

When connecting a PC via the Ethernet interface, a modern web interface can be accessed without any further installation and enables the parameterization of sensor and controller. The DT3071 controller provides enhanced features such as 5-point calibration, setting of switching and temperature outputs, as well as storage of multiple characteristic curves.

  • 1 RMS noise relates to mid of measuring range.
  • 2 RMS noise relates to mid of measuring range.
  • 3 Selectable
  • 4 Value with 3-point linearization.
  • 5 Steel: St37 Stahl DIN1.0037/Aluminum: AlCuMgPb3.1645/AlMg3.