- Increase precise and accurate measurement outputs with the new AS5147U and AS5247U rotary position sensors
- Enable more efficient operation of electric motors in power steering, braking systems and more for tomorrow’s greener car
- Lower system cost due to smaller form factor, increased reliability, and full stray field
immunity in the absence of costly shielding materials
- Safer vehicle operation from improved self-diagnostic features suitable for ASIL
The two new position sensors bring new benefits and a lower system cost to the automotive industry. The ams AS5147U is an intelligent magnetic rotary position sensor chip for use in electric motors that run at speeds up to 28,000rpm. The new AS5247U is a dual stacked-die version, which provides the redundancy required for the most demanding ASIL D-rated functional safety applications.
These new products respond to the automotive industry’s efforts to build safer, smarter, greener
- Enable more efficient operation of high-speed motors. The sensors incorporate new DFS™ (Dynamic Filter System) technology for more accurate, low-noise position measurements at rotation speed. The DAEC™ (Dynamic Angle Error Correction) technology in the sensors enables almost zero latency at high speed, for ultra-accurate, real-time angle measurement. This combination is unique to ams.
- Embed a comprehensive set of self-diagnostic features to support automotive manufacturers’ programs for complying with the strict specifications of the ISO 26262 functional safety standard. The new AS5x47U sensors also implement cyclic redundancy check (CRC) protection on communications with external devices.
- Lower the cost of implementing motor control – all ams position sensors are inherently immune to interference from stray magnetic fields thanks to their patented differential sensing architecture. With ever more components radiating magnetism, the sensor requires no shielding to protect it from external magnetic fields induced by charging stations, motors, solenoids, high-voltage cabling, and other sources.
- Enable smaller, more reliable motor systems reducing cost of materials and of production.
- Enhance the ams position sensors’ Digital Signal Processor (DSP) core which performs measurement processing inside the chip. Measurement outputs in standard UVW, ABI and PWM formats are easy for automotive designers to implement in new, smarter vehicle control systems.
“Advanced electrification means valuable reductions in the environmental impact of next-generation vehicles – and is one of the key steps the automotive industry is taking to make cars greener. The latest position sensor technology from ams helps the industry to accelerate the implementation of electrification through easy-to-use position measurements that maximize torque and efficiency in high-speed motors.”
Ready-made measurement solution
The AS5x47U products are highly integrated position measurement solutions incorporating magnetic sensor elements, analog signal conditioning and a powerful DSP-based processing engine. The sensors provide a choice of convenient output formats:
- ABI incremental outputs (industry standard), now in a higher 14-bit resolution vs. 12-bit outputs from earlier versions of the AS5x47 family
- UVW outputs for implementation in the commutation scheme of a brushless DC (BLDC) motor.
- Digital PWM signals which, can be handled directly by an external microcontroller or microprocessor.
- High-speed standard serial peripheral interface (SPI) now protected by 8-bit CRC.
The AS5147U and AS5247U position sensors are available now in production volumes. For more technical information or to request samples, go to https://ams.com/as5147u and https://ams.com/as5247u.
ams is a registered trademark of ams AG. In addition many of our products and services are registered or filed trademarks of ams Group. All other company or product names mentioned herein may be trademarks or registered trademarks of their respective owners. Information provided in this press release is accurate at time of publication and is subject to change without advance notice.