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Vehicle grade chip application - car lights

The car light chip mainly includes MCU, DC-DC, LDO, linear chip, switch chip, CAN and LIN transceiver, etc. Under the trend of intelligent car lights, the application of chips in car lights is particularly important. For example, adaptive high beam (ADB) technology can recognize the direction and distance of incoming vehicles based on camera input video signals, adjust the area of light illumination accordingly, avoid dazzling other vehicle drivers, and ensure driving safety.

The localization of automotive grade chips is currently a major trend, especially in applications such as car lights, doors and windows, where more domestic MCU products are entering the automotive supply chain.



Application of automotive grade chips in the field of intelligent vehicles&FAQ

1. Engine control: Vehicle grade chips are used to control the operation of the engine, improve combustion efficiency, and reduce emissions.

2. Safety systems: including anti lock braking system (ABS), electronic stability control (ESC), and airbag control, which rely on vehicle grade chips to achieve fast and accurate data processing.

3. In car infotainment system: Vehicle grade chips handle navigation, music, communication, and other entertainment functions, while ensuring stability and reliability during vehicle operation.

4. Advanced Driver Assistance Systems (ADAS): These systems include adaptive cruise control, lane keeping assistance, automatic parking, etc., and require vehicle grade chips for complex data processing and decision-making.

5. Autonomous driving: With the development of autonomous driving technology, automotive grade chips play a core role in processing sensor data, environmental perception, and decision-making.

6. Vehicle to Everything (V2X): Vehicle grade chips support communication between vehicles and other vehicles, infrastructure, pedestrians, and networks, improving traffic efficiency and safety.

7. Electric and hybrid power systems: Vehicle grade chips manage battery charging, energy recovery, and motor control to improve the performance and efficiency of electric vehicles.

8. Body Control Module (BCM): Vehicle grade chips control windows, door locks, lighting, and other body functions, providing convenience and enhanced user experience. The application of automotive grade chips in the field of intelligent vehicles is very extensive, and they play a key role in improving vehicle performance and safety.



Automotive Grade Chip refers to a chip designed and manufactured specifically for automotive applications, and that meets strict automotive industry standards. This type of chip needs to maintain stable and reliable performance in harsh environments such as extreme temperature range, high vibration, high voltage, high humidity, EMI, etc., and usually needs to pass the inspection of automotive industry quality standards such as AEC-Q series certification. Vehicle grade chips are widely used in various subsystems such as engine control, braking systems, safety systems, in car entertainment information systems, ADAS, etc.

The main difference between automotive grade chips and consumer grade chips lies in their design standards and application environments. Vehicle grade chips need to meet higher reliability, durability, and safety requirements as they are typically used for critical systems in automobiles such as safety, power, and control. In contrast, consumer grade chips may focus more on performance and cost-effectiveness rather than long-term stability and performance in harsh environments. Vehicle grade chips typically undergo stricter testing and certification processes to ensure that they can reliably operate throughout the entire lifecycle of the vehicle.

  • The development trend of automotive grade chips is towards higher integration, stronger computing power, and lower power consumption. With the development of automotive intelligence and electrification, automotive grade chips not only need to support traditional control functions, but also need to support emerging technologies such as advanced driver assistance systems (ADAS), autonomous driving, and vehicle to vehicle connectivity (V2X). In addition, automotive grade chips also need to meet higher safety and reliability standards to meet the strict requirements of the automotive industry for functional safety and network security. With the advancement of technology, it is expected that automotive grade chips will become more intelligent, providing more value-added services and better user experience.

Under the background of national policy support and rapidly growing market demand, domestically produced automotive grade chips have shown enormous development potential. The technological level and market share have significantly improved, especially in the application fields of car lights, doors and windows, where more domestic MCU products have entered the automotive supply chain. However, compared with foreign automotive chip companies, there is still a certain gap in scale, technology, and cost for domestically produced automotive grade chips. Domestic automotive chip companies need to take a series of measures to address the new challenges of the AI era, including organizational support, product layout, talent assurance, and ecological expansion.

The design and manufacturing of automotive grade chips need to meet strict automotive industry standards, which ensure the reliability and long-term stability of the chips under extreme temperature, vibration, and humidity conditions. In addition, automotive grade chips typically require functional safety and information security features to prevent potential security risks and network attacks. With the advancement of technology, the application of automotive grade chips in smart cars will become more widespread, providing consumers with a safer and smarter driving experience.

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