July 2, 2021 - ON Semiconductor (Nasdaq: ON), driving energy efficient innovations, will showcase its latest industry-leading power and sensing technologies for new energy vehicles at the Shanghai International Automotive Manufacturing Technology & Material Show (AMTS) to be held from July 7-10.
As one of the top 10 suppliers of semiconductors to the global automotive sector, ON Semiconductor will demonstrate its innovative image sensing and LiDAR solutions, with Strata-enabled LED lighting solutions for ADAS/autonomous driving to improve safety and driver comfort. The company will also showcase a variety of power modules, including advanced SiC solutions for EV powertrains, on-board chargers (OBC) and 48 V system for cleaner cars.
Visitors to the ON Semiconductor booth located at #E24 in W4 Hall will be treated to demonstrations of a selection of the following solutions:
The AR0144AT Driving Monitoring System features a 1.0 MP sensor optimized for high sensitivity to infrared (940 nm) LED lighting, and industry-leading shutter efficiency for precise eye/head tracking. Its small footprint enables easy integration within instrument clusters and infotainment systems.
The high-resolution depth data provided by LiDAR enables instantaneous and accurate object identification in challenging low light conditions. A reference design for the latest automotive qualified SiPM, RDM 1x16 array enables cost-effective, long range LiDAR solutions that will take safety and autonomous driving to the next level.
The ready-to-use Strata Enabled LED lighting EVK and Pixel Lighting Controller reference design offers a comprehensive evaluation experience to test, measure, and control various critical design parameters in LED vehicle lighting systems. This helps design engineers determine if the solution is compatible and a good fit for their automotive lighting application.
It is applicable in a range of scenarios, including dashboards, rear combination lamps (RCL), daytime running lights (DRL), fog lights, center high mounted stop lamp (CHMSL) arrays, turn signals and other externally modulated devices.
The VE TracTM traction inverter power modules – including the 6-pack Single Side Direct Cooling power integrated modules (PIMs), Dual Side Cooling PIM and SiC-based modules – have been specifically designed for the main traction inverters that drive electric motors in modern EVs. These compact solutions are optimized to offer best-in-class electric and thermal performance, and address other challenges, such as power dissipation and switching efficiency.
Based on a high voltage super−junction MOSFET, the 6.6 kW SiC OBC platform is a high efficiency and high-power density reference design that features an interleaving PFC and a full-bridge LLC. These advanced and extremely robust components increase operating efficiency by up to 95%.
The combination of a modular approach and a user-friendly GUI enable the three-phase, 11 kW OBC PFC+LLC platform to evaluate the SiC devices in an OBC application.
The 6.6 kW Totem Pole PFC for the OBC evaluation board provides a reference design for a multi-channel interleaved bridgeless topology which can reduce component count, lower conduction losses, and increase efficiency to up to 97%.
48 V System
Automotive power modules (APMs) will also be showcased. Designed to withstand the vibration and mechanical stresses inherent in the vehicle environment, the high-power density modules are efficient, reliable, and offer low thermal resistance. They make it much simpler for designers to implement the building blocks of Mild Hybrid Electric Vehicle systems.
ON Semiconductor will also address the Autonomous Vehicle Development and Intelligent Connected Vehicle Technology Conference to be held in the Forum Area in W4 Hall at 3:30 p.m. on July 7. Dr Yolanda Xi, Greater China marketing director of Intelligent Sensing Group will present on the topic of “Intelligent sensing solutions empower the new demands of autonomous driving”.
To pre-register as a visitor to AMTS 2021, please visit https://www.shanghaiamts.com/Visitor/en/login.