The eddyNCDT 3001 is a new, efficient, inductive displacement sensor based on eddy currents whose compact dimensions have to date only been reserved for inductive proximity switches. The temperature-compensated design provides high stability even in fluctuating ambient temperatures. The eddyNCDT 3001 comes with integrated electronics, offering an outstanding price/performance ratio and easy operation.
The eddyNCDT 3005 is a compact, high-power inductive measuring system (eddy current) for high speed and precision displacement and position measurements. The system comprises a robust controller, a sensor and an integrated cable and is factory-calibrated either for ferromagnetic or non-ferromagnetic materials.
The eddyNCDT 3060 is a new and powerful inductive measuring system for fast, high precision displacement measurements. The system comprises a compact controller, a sensor and an integrated cable and is factory-calibrated either for ferromagnetic or non-ferromagnetic materials. With more than 400 compatible sensor models, high speed and smart signal processing, the eddyNCDT 3060 defines a new performance class in inductive displacement measurement.
Non-contact eddyNCDT 3300 eddy current displacement sensors are designed for use in factory automation, for machine monitoring, for quality control and quality assurance. More than 80 differentes sensors models are available.
turboSPEED DZ140 is designed for measuring the revolutions of turbochargers. Turbo speed sensors are extremely compact and directly integrated into the turbocharger housing.
All electronics are located in a miniature aluminum housing for easy integration into the engine compartment. Compared to other eddy current speed measuring systems, the DZ140 offers maximum immunity to interference (EMI), both in test rig operations and on-vehicle testing. The DZ140 eddy current measuring system is resistant to oil and dirt, which is a key advantage over optical speed measuring systems. This guarantees high precision and reliable measurement results in the harshest environment conditions.