All IPs > Automotive > Safe Ethernet
In the rapidly evolving automotive industry, the demand for reliable and secure communication systems is paramount. Safe Ethernet semiconductor IPs have become essential components in modern vehicles, facilitating high-speed and dependable data transfer within the complex network of automotive systems. These IPs are specifically designed to meet the rigorous safety standards and protocols required in the automotive sector, ensuring that all electronic control units (ECUs) communicate effectively and efficiently.
Safe Ethernet semiconductor IPs are integral to the operation of advanced driver-assistance systems (ADAS), infotainment systems, and vehicle-to-everything (V2X) communications. They provide a robust framework that supports secure data transmission while minimizing latency and maximizing data integrity. By enabling seamless connectivity across various in-vehicle networks, these semiconductor IPs enhance the overall driving experience and pave the way for autonomous vehicle technologies.
The products in this category are engineered to withstand the harsh conditions typical of automotive environments, including temperature extremes, electromagnetic interference, and vibrations. These semiconductor IPs adhere to the industry's stringent automotive Ethernet standards, such as IEEE 802.1AS and ISO 26262, ensuring that they provide safety-compliant solutions. As vehicles become more connected and automated, Safe Ethernet solutions play an increasingly critical role in maintaining the safety and reliability of these intricate systems.
Choosing the right Safe Ethernet semiconductor IP can significantly impact the performance and safety of your automotive systems. Our extensive selection offers customizable options that cater to various design requirements, making it easier for manufacturers to implement secure and efficient network solutions. Explore our comprehensive range to find the perfect match for your automotive networking needs, and stay ahead in the innovative world of vehicular technology.
Time-Triggered Ethernet (TTEthernet) is a cutting-edge data communication solution tailored for aviation and space sectors requiring dual fault-tolerance and redundancy. Critically designed to support environments with high safety-criticality, TTEthernet embodies an evolutionary step in Ethernet communication by integrating deterministic behavior with conventional Ethernet benefits. This blend of technologies facilitates the transfer of data with precision timing, ensuring that all communications occur as scheduled—a vital feature for mission-critical operations. TTEthernet is particularly advantageous in applications requiring high levels of data integrity and latency control. Its deployment across triple-redundant network architectures ensures that even in case of component failures, the network continues to function seamlessly. Such redundancy is necessary in scenarios like human space missions, where data loss or delay is not an option. TTTech's TTEthernet offerings, which also include ASIC designs, meet the European Cooperation for Space Standardization (ECSS) standards, reinforcing their reliability and suitability for the most demanding applications. Supporting both end systems and more intricate system-on-chip designs, this technology synchronizes all data flow to maintain continuity and consistency throughout the network infrastructure.
The Time-Triggered Protocol (TTP) stands out as a robust framework for ensuring synchronous communication in embedded control systems. Developed to meet stringent aerospace industry criteria, TTP offers a high degree of reliability with its fault-tolerant configuration, integral to maintaining synchrony across various systems. This technology excels in environments where timing precision and data integrity are critical, facilitating accurate information exchange across diverse subsystems. TTTech’s TTP implementation adheres to the SAE AS6003 standard, making it a trusted component among industry leaders. As part of its wide-ranging applications, this protocol enhances system communication within commercial avionic solutions, providing dependable real-time data handling that ensures system stability. Beyond aviation, TTP's applications can also extend into the energy sector, demonstrating its versatility and robustness. Characterized by its deterministic nature, TTP provides a framework where every operation is scheduled, leading to predictable data flow without unscheduled interruptions. Its suitability for field-programmable gate arrays (FPGAs) allows for easy adaptation into existing infrastructures, making it a versatile tool for companies aiming to upgrade their communication systems without a complete overhaul. For engineers and developers, TTP provides a dependable foundation that streamlines the integration process while safeguarding communication integrity.
ISELED represents a breakthrough in automotive lighting with its integration of RGB LED control and communication in a single, smart LED component. This innovative system simplifies lighting design by enabling digital color value input for immediate autonomous color mixing and temperature adjustments, reducing both complexity and cost in vehicles. ISELED operates by implementing a manufacturer-calibrated RGB LED setup suitable for diverse applications, from ambient to functional lighting systems within vehicles. Utilizing a bidirectional communication protocol, ISELED manages up to 4,079 addressable LEDs, offering easy installation and high precision control over individual light characteristics, ideal for creating dynamic and at times synchronized lighting across the automotive interior. This technology ultimately enhances network resilience with features like DC/DC conversion from a standard 12V battery, consistent communication despite power variations, and compatibility with software-free Ethernet bridge systems for streamlined connectivity. This strong focus on reducing production and operational costs, while simultaneously broadening lighting functionality, positions ISELED as a modern solution for smart automotive lighting architectures.
The eSi-ADAS suite is a specialized radar co-processor IP designed to enhance the performance and capabilities of radar systems within Advanced Driver Assistance Systems. It is particularly beneficial for applications requiring quick and responsive situational awareness like automotive radar systems, as well as drones and UAVs. This IP package includes radar hardware accelerators, FFT engines, optimized Constant False Alarm Rate (CFAR) processing, and Kalman Filters, making it a versatile and powerful solution for radar signal processing. The modular architecture supports real-time tracking of numerous objects and is optimized for low power and high efficiency.
The Network Protocol Accelerator Platform (NPAP) is engineered to accelerate network protocol processing and offload tasks at speeds reaching up to 100 Gbps when implemented on FPGAs, and beyond in ASICs. This platform offers patented and patent-pending technologies that provide significant performance boosts, aiding in efficient network management. With its support for multiple protocols like TCP, UDP, and IP, it meets the demands of modern networking environments effectively, ensuring low latency and high throughput solutions for critical infrastructure. NPAP facilitates the construction of function accelerator cards (FACs) that support 10/25/50/100G speeds, effectively handling intense data workloads. The stunning capabilities of NPAP make it an indispensable tool for businesses needing to process vast amounts of data with precision and speed, thereby greatly enhancing network operations. Moreover, the NPAP emphasizes flexibility by allowing integration with a variety of network setups. Its capability to streamline data transfer with minimal delay supports modern computational demands, paving the way for optimized digital communication in diverse industries.
Bluespec's Portable RISC-V Cores are designed to bring flexibility and extended functionality to FPGA platforms such as Achronix, Xilinx, Lattice, and Microsemi. They offer support for operating systems like Linux and FreeRTOS, making them versatile for various applications. These cores are accompanied by standard open-source development tools, which facilitate seamless integration and development processes. By utilizing these tools, developers can modify and enhance the cores to suit their specific needs, ensuring a custom fit for their projects. The portable cores are an excellent choice for developers looking to deploy RISC-V architecture across different FPGA platforms without being tied down to proprietary solutions. With Bluespec's focus on open-source, users can experience freedom in innovation and development without sacrificing performance or compatibility.
aiSim 5 represents a pivotal advancement in the simulation of automated driving systems, facilitating realistic and efficient validation of ADAS and autonomous driving components. Designed to exceed conventional expectations, aiSim 5 combines high-fidelity sensor and environment simulation with an AI-based digital twin concept to deliver unparalleled simulation accuracy and realism. It is the first simulator to be certified at ISO 26262 ASIL-D level, offering users the utmost industry trust.\n\nThe simulated environments are rooted in physics-based sensor data and cover a wide spectrum of operational design domains, including urban areas and highways. This ensures the simulation tests AD systems under diverse and challenging conditions, such as adverse weather events. aiSim 5's modular architecture supports easy integration with existing systems, leveraging open APIs to ensure seamless incorporation into various testing and continuous integration pipelines.\n\nNotably, aiSim 5 incorporates aiFab's domain randomization to create extensive synthetic data, mirroring real-world variances. This feature assists in identifying edge cases, allowing developers to test system responsiveness in rare but critical scenarios. By turning the spotlight on multi-sensor simulation and synthetic data generation, aiSim 5 acts as a powerful tool to accelerate the development lifecycle of ADAS and AD technologies, fostering innovation and development efficiency.\n\nThrough its intuitive graphical interface, aiSim 5 democratizes access to high-performance simulations, supporting operating systems like Microsoft Windows and Linux Ubuntu. This flexibility, coupled with the tool’s compatibility with numerous standards such as OpenSCENARIO and FMI, makes aiSim an essential component for automotive simulation projects striving for precision and agility.
The TSN Switch for Automotive Ethernet is designed to facilitate real-time data transmission across automotive networks. It supports the latest standards for time-sensitive networking, ensuring minimal latency and maximum data throughput. The switch integrates seamlessly into existing automotive infrastructure, providing reliable and efficient connectivity solutions for modern vehicles. Enhancing the communication framework, this switch is optimized for vehicular environments, accommodating complex data streams and ensuring robustness even in harsh conditions. Its design is meticulously detailed to support advanced automotive protocols, providing a stable platform for future automotive innovations. The switch enables safe and synchronized data exchange, vital for the growing demands of connected vehicles. With a focus on cost-efficiency and deployment flexibility, it is an essential component for building the next generation of intelligent transportation systems.
The PCD03D Turbo Decoder is adept at handling multiple state decoding for standards such as DVB-RCS and IEEE 802.16 WiMAX. Its core design features an 8-state duobinary decoding structure, facilitating precise and quick signal deconstruction. Additionally, the optional inclusion of a 64-state Viterbi decoder enhances versatility and performance in various environments. This decoder is tailored for applications where agility and high data throughput are critical, making it an invaluable asset in wireless communication infrastructures. The decoder’s architecture supports expansive VHDL core integration, providing durable solutions across FPGA platforms.
Korusys offers a state-of-the-art SMPTE 2059-2 solution designed to provide precise synchronization of video and audio signals using an FPGA platform. This system is engineered for professional broadcast environments requiring high accuracy and low latency AV content alignment over IP networks. By leveraging IEEE1588v2 compliant software, the solution guarantees exact timing alignment and timecode generation for seamless integration into the broadcast workflow. The system's adaptability allows it to cater to varying framerate requirements, supported by a comprehensive API for configuration and control. With its compact design, it is easy to deploy and integrate, making it an essential tool for modern broadcasting operations.
Time-Sensitive Networking (TSN) is designed to address the ever-growing needs of modern industrial and automotive digital ecosystems. Leveraging precise time synchronization and deterministic data delivery, TSN ensures that data packets are transmitted with minimal latency and maximum reliability. This technology is particularly beneficial for industries where real-time operations and data accuracy are paramount, such as automotive and industrial automation sectors. TTTech's TSN capabilities include a comprehensive range of chip designs that can be incorporated into microcontrollers and sophisticated systems-on-chip (SoC). These designs are compatible with IEEE standards for features such as frame preemption and redundancy, allowing for sophisticated network constructs that meet specific industry needs. With hundreds of consumer and enterprise products integrated with TSN technology, TTTech maintains a leading position in standardizing and implementing this forward-looking networking framework. Beyond its operational reliability, TSN offers significant advantages in scalability and flexibility, making it suitable for evolving technology landscapes. The compatibility of this technology with existing infrastructures enhances the adoption process, providing seamless integration and reducing potential system disruptions. By supporting various industry-standard features, TTTech’s TSN solutions ensure continuous, precise, and effective data management across connected industrial systems.
The ARINC 664 (AFDX) End System is a specialized module developed to implement an Avionics Full-Duplex Switched Ethernet (AFDX) network. Conforming to ARINC 664 Part 7 specifications, this system is pivotal in avionics communication, offering reliable full-duplex communication. The system is designed to enhance data throughput and ensure deterministic transmission, critical for real-time avionic applications. It is an essential solution for platforms requiring robust data exchange across aviation networks, leveraging high fault-tolerance and redundancy.
Flexibilis Redundant Switch (FRS) is an innovative Layer-2 Ethernet switch IP core, supporting both High-Availability Seamless Redundancy (HSR) and Parallel Redundancy Protocol (PRP). This triple-speed switch operates on a gigabit full-duplex mode across all ports, making it a high-performing solution for Ethernet redundancy demands in industrial automation environments. The FRS IP core integrates transparent clock functionality based on the IEEE 1588 Precision Time Protocol (PTP), essential for time-sensitive networking. As an FPGA implementation, FRS can be utilized in both gigabit and 100Mbps rings without the need for separate RedBox devices, which allows for streamlined and cost-effective setup. It supports various Ethernet interface types, including copper and fiber, and provides packet forwarding at wire-speed with advanced filtering and prioritization capabilities. FRS can be employed in multitude configurations—from three to eight ports—suitable for diverse applications ranging from simple end-node connections to more complex network architectures. Its adaptability makes it an ideal choice for enhancing network reliability where time synchronization and redundancy are critical.
The Korusync IEEE1588 PCIe Card from Korusys is specifically manufactured for high-precision synchronization tasks in telecommunication networks. Compliant with PTPv2 and telecom profiles, this card offers an Ethernet port and SMA connectivity for enhanced accuracy. It generates a software clock with exceptionally accurate timing, providing precise synchronization ideal for time-critical applications. Although the product is now limited in availability for small purchases, it remains an invaluable tool for large-scale operations seeking dependable synchronization solutions.
PhantomBlu represents Blu Wireless's state-of-the-art mmWave technology tailored for military and defense use. This advanced solution supports tactical communication between vehicles, whether on land, sea, or air, by leveraging a stealthy mesh network capable of running applications and IP networking over an anti-jam resistant infrastructure. The PhantomBlu network offers flexibility and scalability to meet various operational demands within defense environments, from securing critical infrastructure to enabling convoy communications and integrating airborne systems. Its ability to provide high bandwidth in real-time ensures communication is reliable and secure, even in complex and hostile environments. With features like 10x data rates compared to Wi-Fi and 5G, reduced size, weight, and power requirements, and future-proof scalability, PhantomBlu is built for seamless integration with existing military systems. The solution further offers long-range communication up to 4km, incorporating advanced features like antenna beamforming for improved signal processing, making it a robust component for military networks.
For aviation and space applications, TTTech offers Deterministic Ethernet technology that ensures reliable and predictable data flow in safety-critical environments. A significant feature of this technology is its ability to offer certifiable Ethernet chip designs that are versatile and applicable across various platforms. As part of its adaptability, the technology complies with industry standards such as ARINC 664 part 7, supporting Time-Triggered Ethernet (TTEthernet) and Time Sensitive Networking (TSN) connectivity. Suitable for use in highly demanding environments, this solution maintains critical system functions under stringent conditions while ensuring a high level of performance and safety. In addition to its application in aviation, Deterministic Ethernet is well-suited for harsh environments where reliability is paramount. Utilizing TTEthernet, it incorporates triple-redundant network frameworks that cater to dual fault-tolerance requirements necessary for human spaceflight missions. Notably, this technology has been successfully implemented in the NASA Orion spacecraft, highlighting its capability and significance in critical aerospace operations. TTTech's Deterministic Ethernet can be integrated into various end systems or more complex configurations, aligning with the Time-Triggered Ethernet ECSS engineering standard. Given its integration efficacy, this technology supports seamless use across multiple platforms, enhancing both legacy systems and new infrastructures. For operators in aerospace and heavy industries, it allows for effective and comprehensive data exchange even in the most extreme conditions.
The ULYSS MCU from Cortus pairs cost efficiency with cutting-edge capabilities to cater to the demanding requirements of advanced automotive applications. Built on the RISC-V architecture, this microcontroller facilitates robust performance ranging from 120MHz to an impressive 2GHz. It's designed to seamlessly handle complex automotive tasks, leveraging a 32/64-bit architecture that ensures both power and efficiency for intricate onboard processes. Its adaptability makes it an ideal solution for the automotive industry's evolving technological landscape. In addition to its impressive processing speed, the ULYSS MCU incorporates several high-end features, such as enhanced security modules that are crucial for automotive safety systems. This makes it suitable for applications in which reliability and precision are paramount. Furthermore, its scalability allows it to be integrated within various automotive segments from advanced driver-assistance systems (ADAS) to autonomous driving technologies. By embracing the flexibility of the RISC-V architecture, the ULYSS MCU offers developers the freedom to innovate without the limitations often associated with proprietary cores. The integration of modern functionalities promises to keep pace with the future demands of the automotive field, ensuring both longevity and relevance in the market.
Designed specifically for automotive applications, the SiFive Automotive E6-A processor offers a balanced blend of performance and power efficiency. This series is engineered for critical tasks in vehicles, including infotainment systems, advanced driver-assistance systems (ADAS), and central computing. The E6-A platform focuses on reliability and safety, key requirements in the automotive industry. The E6-A cores provide scalable performance with 32-bit architectures, optimizing both power and cost efficiencies. It supports up to 8-stage pipelines, making it suitable for real-time processing demands essential for automotive functions. Certified for ISO 21434 and ISO 26262 ASIL B and D levels, it ensures the highest safety standards required for automotive applications. The SiFive Automotive E6-A extends its capabilities with support for zonal compute, safety islands, and microcontrollers, making it adaptable for various automotive setups. By meeting high safety and performance criteria, this processor line is suited for the evolving landscape of automotive electronics, offering manufacturers a reliable platform for building next-generation vehicle technologies.
The IEEE1588 Precision Time Protocol (PTP) solution from Korusys is a robust and customizable system built to achieve high precision network synchronization. It features a complete stack for both master and slave operations, supporting up to 4000 slaves with unmatched performance stability. This system includes network simulation tools to tailor its operation to specific network conditions and offers unparalleled flexibility through its modular design. The solution is ideal for applications needing precise time distribution and accuracy, ensuring synchronization across diverse network setups. This scalable architecture enhances its reliability in complex network environments, providing thorough evaluation measures through detailed simulation and testing.
The XRS7000 Series Switches integrate High-Availability Seamless Redundancy (HSR) and Parallel Redundancy Protocol (PRP) capabilities in one compact solution, supporting industrial grade Ethernet applications. These switches facilitate seamless data communication over Ethernet, ensuring that there is uninterrupted redundancy in network setups. It's engineered for optimal operation in demanding environments such as industrial automation, substation automation, and vehicle communication systems, where reliability and time synchronization are key. The XRS7000 Series stands out with its integrated circuits (ICs) which support the IEEE 1588 standard, providing precise time synchronization essential for high-performance applications. These devices are designed to eliminate any single points of failure, thus safeguarding network availability and data integrity in critical infrastructures. Furthermore, they accommodate both cut-through and store-and-forward operation modes, ensuring high flexibility and adaptability in network configurations. With features like multi-gigabit data forwarding, VLAN tagging, and quality of service controls, the XRS7000 series ensures prioritized data transmission and minimizes latency, thereby enhancing network performance. The switches' compatibility with both copper and fiber Ethernet interfaces further broadens their applicability across various industrial contexts.
The V2X Router facilitates robust communication between vehicles and infrastructure, pivotal in developing smart transport networks. It leverages advanced vehicular communication protocols to ensure consistent, reliable data exchange, enhancing road safety and traffic management. By integrating with existing vehicular systems, the V2X Router supports various applications such as real-time traffic updates, collision avoidance, and emergency response coordination. This enables vehicles to interact intelligently with traffic signals, road signage, and other infrastructure elements, promoting a seamless flow of information reducing congestion and improving road safety. The V2X Router's ability to scale with infrastructure development makes it an essential component of modern smart city initiatives. Its adoption facilitates the transition to more connected and autonomous vehicular ecosystems, driving efficiency and safety in urban transport networks.
The Flexibilis Redundant Card (FRC) is a PCIe Network Interface Card designed for High-Availability Seamless Redundancy (HSR) and Parallel Redundancy Protocol (PRP) in Ethernet networks. With its four RJ45 ports, it provides seamless redundant communication, ensuring that critical traffic remains uninterrupted, an essential requirement in sectors like power utilities and substation automation. FRC is built to integrate smoothly into existing infrastructure, allowing it to function as a regular Ethernet card, while also offering robust redundancy features. It achieves clock synchronization using the Precision Time Protocol (PTP), providing highly accurate timing which is crucial in power automation networks. Its architecture allows for full-speed non-blocking switching, enabling efficient data flow without bottlenecks. Besides its technical capabilities, FRC offers user-friendly management through either a Graphical User Interface (GUI) or the NETCONF configuration and management protocol. These features, combined with its adaptability for various mounting configurations, make it an ideal solution for modern high-reliability network environments.
The Cortex-A725 processor is designed to deliver premium performance with energy efficiency, extending the capabilities of modern consumer devices. As part of the Armv9.2 architecture, this processor is optimized for sustained high performance within a constrained power envelope, making it perfect for devices such as smartphones, tablets, and laptops that require consistent performance without excessive power consumption. Built with DynamIQ technology, the Cortex-A725 provides a robust platform for demanding applications, including AAA mobile gaming and web browsing. The processor ensures that users experience smooth, responsive computing even under resource-intensive conditions. The integration with Arm's advanced graphics technologies also enhances its capability to deliver enriched graphical experiences. Arm's focus on configurability makes the Cortex-A725 adaptable to various market needs, offering an area-optimized design to support cost-sensitive applications. It continues the legacy of high-performance computing that Arm processors are known for, providing developers with the tools necessary to innovate and meet consumer demands effectively.
The Automotive Multigigabit Ethernet Switch with Multilayer Security epitomizes advanced networking capabilities designed specifically for automotive cybersecurity needs. This high-performing Ethernet switch is engineered to support multigigabit data transfer rates essential for connected vehicle technologies. Built with inherent security layers, the switch emphasizes robust cybersecurity measures, ensuring data integrity and secure communications essential in the context of modern vehicular networks. It supports real-time data processing required for next-generation automotive systems, offering seamless connectivity while assuring high-speed data handling. This switch is particularly valuable in automotive scenarios, providing a critical infrastructure for connected and autonomous vehicle applications. It underscores the growing convergence of automotive and IT sectors, providing secure and efficient networking solutions necessary for advanced vehicular operations.
Designed with the unique needs of automotive and audio-video bridging (AVB) applications in mind, the AVB/Automotive Ethernet Switch offers sophisticated network management capabilities. This switch features multiple data ports and is reinforced by its compatibility with the specific protocols that govern automotive and AVB standards. The switch ensures proper synchronization and data prioritization across all nodes, which is essential in automotive systems for seamless communication. It's capable of handling real-time audio and video data streams with minimal latency. With built-in support for relevant QoS and VLAN protocols, this switch ensures stable and reliable connections which are critical in environments where safety and consistent performance are stringent requirements. Its deployment ensures automotive applications and AVB systems are not just operationally efficient, but safe and reliable.
DCAN XL redefines data communication by bridging the performance gap between CAN FD and 100Mbit Ethernet, setting a new benchmark in high-speed, flexible connectivity. With data rates up to 20 Mbit/s and payloads reaching 2048 bytes, it delivers unprecedented throughput—far beyond traditional CAN standards. Engineered for versatility, DCAN XL supports advanced protocol layering and Ethernet frame tunneling, making it an ideal choice for future-proof automotive, industrial, and IoT applications. It retains the robustness and reliability of the CAN protocol while offering full backward compatibility with Classical CAN, CAN FD, and CAN XL—ensuring effortless integration into existing systems. For physical layer connectivity, DCAN XL interfaces seamlessly with standard CAN transceivers (sub-10Mbps) and CAN SIC XL transceivers (above 10Mbps), providing flexibility without compromise. It’s not just evolution—it’s the next revolution in controller area networking.
The USB 4 v2.0 Verification IP from Truechip adheres strictly to the USB4 specification v2.0, as outlined in October 2022, ensuring cutting-edge compliance. This VIP supports USB3.2 Specification, Revision 1.1, maintaining backward compatibility with USB2.0, making it a versatile solution for modern connectivity needs. Furthermore, its alignment with USB Power Delivery Release 3.1 and Type-C v2.2 enhances its utility across a wide array of applications, from mobile devices to larger computing systems.
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