All IPs > Automotive > LIN
Automotive Local Interconnect Network (LIN) semiconductor IPs are vital components in modern vehicle communication systems. These low-cost, reliable solutions are designed to enhance in-vehicle networking by facilitating communication between different elements of an automotive electronic system. LIN protocols are crucial for non-critical communication networks in vehicles, enabling effective interconnection of various electronic components such as sensors, actuators, and controllers.
The primary application of LIN semiconductor IP is in the automotive industry, specifically designed to support body electronics such as door modules, seat controls, and climate systems. As automobiles continue to integrate more electronic systems, the demand for efficient, cost-effective, and easily implementable communication solutions like LIN is growing. LIN IPs offer a low-cost alternative to more complex networks, ensuring smooth, reliable operation for non-mission-critical automotive functions.
Within this category, you'll find semiconductor IPs that include LIN transceivers, LIN controllers, and integrated LIN controllers with transceivers. These components simplify the development process by providing ready-to-implement solutions that meet automotive industry standards. They are designed to support the robust requirements of automotive environments, including temperature ranges, voltage levels, and signal integrity.
Overall, Automotive LIN semiconductor IPs are indispensable for manufacturers aiming to optimize vehicle performance and reliability while managing costs. By utilizing these IPs, manufacturers can ensure that their vehicles maintain seamless internal communication for secondary systems, enhancing both functionality and user experience.
Silvaco delivers robust, silicon-proven IP designed for automotive use, catering to the demanding requirements of in-vehicle networking and SoC subsystems. The range covers network standards such as FlexCAN with CAN-FD, FlexRay, and LIN. Their Automotive SoC solutions incorporate critical cores and peripherals to enhance system reliability and performance, crafted for seamless integration into critical automotive applications. This IP is thoroughly verified to meet rigorous automotive standards, facilitating the swift development of dependable electronic systems for vehicles.
The SiFive Automotive E6-A processor is crafted to meet the burgeoning demands of the automotive sector, offering a suite of RISC-V safety processors that comply with ISO26262 standards. Featuring balanced performance and efficiency, the E6-A series supports automotive safety functions across ASIL B and D ratings. This processor is ideal for advanced driver-assistance systems (ADAS), in-vehicle infotainment, and automotive body control, emphasizing low power consumption and compact design, all while ensuring high reliability and system security.
The SiFive Automotive suite provides optimized RISC-V processors tailored for automotive applications, ensuring not only performance but also adherence to industry safety standards like ISO26262 and ISO/SAE 21434. These processors cater to advanced automotive systems, offering scalability, low power consumption, and robust security measures. They're designed to handle the high demands of next-generation vehicles, covering everything from safety islands to central computing requirements while being flexible enough to adapt to emerging automotive challenges.
The 802.15.4 Transceiver Core from RF Integration is a highly specialized solution for low-power personal area networks (PANs). Compatible with the IEEE 802.15.4 standard, this transceiver is essential for applications such as Zigbee networks, which are utilized extensively in smart home and industrial IoT systems. It encompasses both RF front-end and digital baseband components needed for effective low-data-rate communication across short to medium ranges. The core is engineered to provide energy-efficient performance, catering to the needs of battery-operated devices where power conservation is paramount. By supporting diverse network topologies and node densities, it enhances the flexibility of network deployment. Additionally, it can be integrated into various products ranging from smart meters and industrial controls to personal health devices and smart lighting systems, facilitating the growth of interconnected smart applications.
The ACAM solution from NOVELIC represents a significant innovation in automotive in-cabin monitoring technology. Utilizing a 60GHz radar sensor, ACAM offers comprehensive monitoring capabilities within vehicle interiors, ensuring enhanced safety for occupants. This solution stands out for its ability to deliver detailed analyses of passenger presence and behavior, distinguishing between humans and inanimate objects with ease. Equipped to comply with Euro NCAP requirements, ACAM offers a suite of protective features including child presence detection to prevent unattended child accidents. The system's seat occupancy detection further ensures that safety features are deployed effectively, while its intrusion alert capabilities enhance overall vehicle security. The ACAM's multifunctionality is achieved through its capability to monitor vital signs such as respiration rates, thus offering applications in both comfort and healthcare settings. With its machine learning integration, it even enables gesture controls, allowing drivers to manage vehicle features effortlessly without distraction.
The SFA 350A is tailored for advanced ADAS applications in automotive systems, supporting quad-channel capabilities for comprehensive sensing and processing. This component ensures superior safety and operational control in vehicles by integrating data from multiple sensors, facilitating autonomous driving technologies and driver assistance features. Perfectly suited for modern smart vehicles, it enhances navigational accuracy and safety.
The DCAN XL IP offers a transformative breakthrough in bridging traditional CAN FD with high-speed Ethernet, achieving data rates up to 20 Mbit/s. Designed as an advanced solution for automotive and industrial communication systems, it integrates a CAN SIC XL transceiver to handle bitrates exceeding 10Mbps efficiently. A pivotal feature of DCAN XL is its dual compatibility, allowing seamless transitions across varied networking environments. This makes it suitable for applications demanding flexible and rapid data exchange, such as in automated systems and connected vehicle platforms, providing reliable communication links that maintain system integrity and performance. Employers of DCAN XL benefit from enhanced communication capacity without the need for extensive architectural adjustments. This core not only ensures consistent data flow but also supports future-proofing of existing systems as the industry demand for advanced communication solutions continues to grow.
Developed under the AUTODRIVE project, the V2X Router is engineered to enable robust communication between vehicles and road infrastructure. This gateway supports ETSI ITS-G5 protocol stack tailored for intelligent transportation systems, ensuring seamless interaction through various communication protocols including IEEE 802.11p, LTE, and LoRA. This router facilitates cooperative driving, allowing vehicles to exchange critical information such as position, speed, and direction, significantly enhancing traffic efficiency and safety.
The Zeus Embedded Module, based on the AMD ZU11EG/ZU19EG Zynq Ultrascale+ MPSoC FPGA, combines innovative ARM and FPGA architecture to deliver enhanced analytics, control, and differentiation. This module is optimized for applications in software-defined radio, radar systems, electronic warfare, and precision measurements. It features a variety of design tools and reference designs to facilitate project development, offering multi-processing capabilities due to its MPSoC architecture, which integrates multiple microprocessors on a single chip.