-
M18 Inductive Proximity Sensor1. Standard M18 thread design for easy system integration. . 2. Nickel-plated copper housing provides excellent resistance to mechanical stress and impact. . 3. Equipped with LED status indicatorsread more
-
Inductive Approach Sensor1. The plastic housing acts as an insulator, allowing direct mounting on metal panels or brackets. . 2. The square structure allows for more compact arrangement on PCB boards or in narrow mountingread more
-
NPN Proximity Switch1. Square miniature design saves installation space and can be embedded in narrow or densely packed equipmen. . 2. No mechanical contact in the sensing part avoids wear, significantly extendingread more
-
PNP Proximity Sensor1. Brass nickel-plated housing, high mechanical strength, impact and wear resistance. . 2. Fully threaded housing, easy to install and clamp with a wrench, saving space. . 3. IP67 protection ratingread more
-
Optical Proximity Sensor1. Multiple detection distances are available, ranging from 1.5mm (M8) to 15mm (M30), to meet various application accuracy requirements. . 2. M08/M12/M18/M30 all-brass nickel-plated housing providesread more
-
Waterproof Proximity Sensor1. Fully sealed plastic casing: The core waterproof advantage stems from the use of engineering plastics; the fully sealed casing is integrally injection molded. . 2. While achieving effectiveread more
Inductive sensors from Micro-Epsilon are based on the eddy current principle and designed for non-contact measurement of displacement, distance, position, oscillation and vibrations....
Inductive proximity sensors are operated using an Eddy Current Killed Oscillator (ECKO) principle. This type of sensor consists of four elements: coil, oscillator, trigger circuit, and an output. The...
Digital/Inductive Current Sensors. Digital/Inductive Open loop current sensors provide digital output that changes from Vcc to 0.4 V when current exceeds operation point. Not damaged by...
Sensor methods can help you integrate inductive sensors into your products by providing application engineering and support, such as: Statistical and Monte Carlo analysis of performance and...
Inductive sensors are designed to measure AC power and typically operate between 20 Hz and 100 Hz, although some units will work in the kilohertz range. A well-designed inductive sensor can be...
Inductive sensing is based on two physical laws of electromagnetism: Ampere's law where a current produces a magnetic field; and Faradays law of induction where a changing magnetic...
