Methode torque sensor. For example, through a patented process it is possible to magnetically encode a region of the Flexplate; there are no magnets or other sensing targets fitted to the Flexplate. Methode’s patented non-contact sensor technology utilizes fundamental mechanical and magnetic properties of a material to measure the applied torque or force. The process involves permanently magnetizing the torque transmitting shaft. Methode pioneers and begins manufacturing “complex insert-molded” Leadframes for power and signal distribution within automotive transmissions; and its first “non-contact” Magneto-elastic torque sensor for use on the Bombardier Spyder’s power steering system Torque sensors are indispensable tools for measuring and monitoring torque across a wide range of industries. MAGNETO-ELASTIC TORQUE SENSOR Durable and robust torque sensing devices which can withstand operation in high temperatures up to 210°C Submersible in caustic fluids Easy integration, compact design, low space requirements, inside-shaft design option Durable, reliable and accurate No calibration required over the lifetime of the unit Methode’s magnetoelastic sensor technology can be applied to components other than a shaft in order to measure torque. ACTIVE SUSPENSION TORQUE SENSOR Automotive application in harsh environments Contactless torque measurement of the Tier 1 metal shaft Torque sensor measures external forces on the suspension system The active roll system reduces roll angle during cornering. Understanding the types, working principles, and applications of torque sensors helps in selecting the right device to achieve optimal performance and efficiency. Able to withstand high levels of vibration, shock and temperature with no degradation of signal calibration over lifetime. Methodes magnetoelastic torque sensors are fully contactless and designed for rugged and harsh environments. ivqrql utwbjo tmwa xvjefr pqbwrr pdkj qzecpf srlzxzm mrpc itwkw