Three magnet-free inductive position sensors from Renesas provide a cost-effective alternative to magnetic and optical encoders. With different coil architectures, the ICs address a wide range of applications in robotics, medical devices, smart buildings, home appliances, and motor control.
The dual-coil RAA2P3226 uses a Vernier architecture to deliver up to 19-bit resolution and 0.01° absolute accuracy, providing true power-on position feedback for precision robotic joints. The single-coil RAA2P3200 prioritizes high-speed, low-latency operation for motor commutation in e-bikes and cobots, with built-in protection for robust industrial use. Also using single-coil sensing, the RAA2P4200 offers a compact, cost-efficient option for low-speed applications such as service robots, power tools, and medical devices.
All three sensors share a common inductive sensing core that enables accurate, contactless position measurement in harsh industrial environments. Each device supports rotary on-axis, off-axis, arc, and linear configurations, and includes automatic gain control to compensate for air-gap variations. A 16-point linearization feature enhances accuracy.
The sensors are now in volume production, supported by a web-based design tool that automates coil layout, simulation, and tuning.