IDT's contactless position sensor solutions are magnet-free, significantly reducing materials costs while providing immunity to magnetic stray fields – a mandatory requirement for many applications, particularly in automotive. Instead of magnets, the inductive position sensors interface with low-cost PCB-based coils and simple metallic targets, providing single-chip design flexibility for rotary end-of shaft (on-axis) sensors, rotary side shaft (off-axis) sensors, linear position sensors, and arc position sensors; from small angles up to full 360° absolute angle sensing. The devices are automotive-qualified and ISO 11452-8 compliant, making them suitable for use in a wide range of automotive, industrial and consumer applications.
Benefits of IDT's Contactless Position Sensor Solution
IDT's position sensors provide numerous benefits over traditional Hall effect and xMR sensors. Some of the most important benefits include:
Download: ZMID520x Inductive Position Sensor Family Overview (PDF)
Download: Sensing Technologies and Sensor Solutions Overview (PDF | English, 简体中文)
Featured Position Sensor Products (Linear, Rotary, Angle / Arc)
|ZMID5201||Inductive position sensor IC with analog output||Buy Now|
|ZMID5202||Inductive position sensor IC with PWM output||Buy Now|
|ZMID5203||Inductive position sensor IC with SENT output||Buy Now|
|ZMID5201STKIT||Inductive position sensing starter kit with arc, rotary, and linear||Buy Now|
About Contactless (Non-contact) Inductive Position Sensor ICs
At their most basic function, a position sensor is any device that provides measurement data based on position of a moving object. Traditional magnet-based solutions measure angular position using variations of magnetic field amplitude induced by the displacement or rotation of a moving magnet. However, these solutions are expensive and have operating temperature limitations. IDT's no-contact, magnet-free inductive position sensor ICs interface with thin PCB-based coils and a metallic target to determine position and provide accurate position data back to the system. These inductive, contactless solutions offer significant advantages in cost, temperature range, reliability, design flexibility, and immunity to magnetic stray fields.