Log In

All IPs > Automotive > CAN XL

Automotive CAN XL Semiconductor IP Solutions

In the automotive industry, the demand for faster and more efficient communication networks has spurred the development and implementation of advanced semiconductor IPs. Among these innovations is the CAN XL (Controller Area Network Extra Long) protocol, an extension of the traditional CAN protocol, engineered to meet the evolving connectivity needs of modern vehicles. As automotive systems become more interconnected and data-driven, the need for high-speed, reliable data exchange has become crucial. CAN XL semiconductor IPs are specially designed to facilitate these requirements by offering higher data transfer rates and improved flexibility compared to their predecessors.

CAN XL is particularly attractive for its ability to support higher payload capacities, making it well-suited for applications that involve heavy data loads, such as advanced driver-assistance systems (ADAS), infotainment systems, and real-time sensor interfacing. By leveraging CAN XL semiconductor IPs, automotive manufacturers can ensure that vehicle communication systems maintain robustness and efficiency, even in high-demand scenarios. This results in improved vehicle performance and enhanced safety features, making it a key component in the modern automotive landscape.

Moreover, CAN XL semiconductor IPs offer scalability, allowing them to be seamlessly integrated into existing CAN networks within vehicles. This backward compatibility ensures that automotive manufacturers can upgrade their systems without a complete overhaul, preserving both time and cost efficiencies. The ease of integration and adaptation to varying automotive architectures underline the importance of CAN XL in facilitating the transition to more advanced vehicular technologies.

In the Silicon Hub's automotive CAN XL category, you will find a wide range of semiconductor IP solutions, including transceiver interfaces, controllers, and bridge IPs, all designed to optimize the use of CAN XL in automotive applications. These semiconductor IPs are pivotal in ensuring that the next generation of vehicles are connected, efficient, and reliable, aligning with the industry's push towards intelligent transportation systems and autonomous driving.

All semiconductor IP

EW6181 GPS and GNSS Silicon

The EW6181 is an advanced multi-GNSS silicon solution designed for high sensitivity and precision. This powerful chip supports GPS, Glonass, BeiDou, Galileo, SBAS, and A-GNSS, offering integration flexibility with various applications. Its built-in RF frontend and digital baseband facilitate robust signal processing, controlled by an ARM MCU. The EW6181 integrates essential interfaces for diverse connectivity, matched with DC-DC converters and LDOs to minimize BOM in battery-driven setups. This silicon marries low power demands with strong functional capabilities, thanks to proprietary algorithms that optimize its operation. It’s engineered to deliver exceptional accuracy and sensitivity in both standalone and cloud-related environments, adapting smoothly to connected ecosystems for enhanced efficiency. Its compact silicon footprint further enhances its suitability for applications needing prolonged battery life and reliable positioning. With a focus on Antenna Diversity, the EW6181 shines in dynamic applications like action cameras and smartwatches, ensuring clear signal reception even when devices rapidly rotate. This aspect accentuates the chip's ability to maintain consistent performance across a range of challenging environments, reinforcing its role in the forefront of GNSS technology.

EtherWhere Corporation
All Foundries
7nm
3GPP-5G, AI Processor, ATM / Utopia, Bluetooth, CAN, CAN XL, CAN-FD, Fibre Channel, FlexRay, GPS, JESD 204A / JESD 204B, OBSAI, Optical/Telecom, Photonics, RF Modules, USB, W-CDMA
View Details

Ncore Cache Coherent Interconnect

Ncore Cache Coherent Interconnect is designed to tackle the multifaceted challenges in multicore SoC systems by introducing heterogeneous coherence and efficient cache management. This NoC IP optimizes performance by ensuring high throughput and reliable data transmission across multiple cores, making it indispensable for sophisticated computing tasks. Leveraging advanced cache coherency, Ncore maintains data integrity, crucial for maintaining system stability and efficiency in operations involving heavy computational loads. With its ISO26262 support, it caters to automotive and industrial applications requiring high reliability and safety standards. This interconnect technology pairs well with diverse processor architectures and supports an array of protocols, providing seamless integration into existing systems. It enables a coherent and connected multicore environment, enhancing the performance of high-stakes applications across various industry verticals, from automotive to advanced computing environments.

Arteris
15 Categories
View Details

Time-Triggered Protocol

The Time-Triggered Protocol (TTP) designed by TTTech is an advanced communication protocol meant to enhance the reliability of data transmission in critical systems. Developed in compliance with the SAE AS6003 standard, this protocol is ideally suited for environments requiring synchronized operations, such as aeronautics and high-stakes energy sectors. TTP allows for precise scheduling of communication tasks, creating a deterministic communication environment where the timing of data exchanges is predictable and stable. This predictability is crucial in eliminating delays and minimizing data loss in safety-critical applications. The protocol lays the groundwork for robust telecom infrastructures in airplanes and offers a high level of system redundancy and fault tolerance. TTTech’s TTP IP core is integral to their TTP-Controller ASICs and is designed to comply with stringent integrity and safety requirements, including those outlined in RTCA DO-254 / EUROCAE ED-80. The versatility of TTP allows it to be implemented across varying FPGA platforms, broadening its applicability to a wide range of safety-critical industrial systems.

TTTech Computertechnik AG
AMBA AHB / APB/ AXI, CAN, CAN XL, CAN-FD, Ethernet, FlexRay, LIN, MIPI, Processor Core Dependent, Safe Ethernet, Temperature Sensor
View Details

eSi-ADAS

The eSi-ADAS suite from EnSilica is a tailored collection of radar accelerator IPs designed to enhance automotive, drone, and UAV systems through advanced radar co-processing capabilities. This IP facilitates superior performance and enhanced situational awareness, crucial for applications requiring rapid and responsive decision-making. It merges cutting-edge radar technology with automotive standards, providing a robust platform for developing state-of-the-art driver assistance systems.\n\nThe suite’s radar co-processor engine is integral to improving radar system capabilities, ensuring that all signals are processed efficiently and accurately. This not only boosts the overall performance of radar systems but also aids in minimizing integration risks, streamlining the development process.\n\nFurthermore, eSi-ADAS supports various radar applications, enhancing safety and automation within the automotive sector. Its adaptability to UAV and drone designs also marks it as a versatile solution for unmanned systems, where responsiveness and precision are key.

EnSilica
AI Processor, CAN XL, CAN-FD, Safe Ethernet, Security Processor
View Details

RFicient chip for IoT

The RFicient chip is designed for the Internet of Things (IoT) applications, famously recognized for its ultra-low-power operations. It aims to innovate the IoT landscape by offering a highly efficient receiver technology that significantly reduces power consumption. This chip supports energy harvesting to ensure sustainable operation and contributes to green IoT development by lessening the dependency on traditional power sources. Functionally, the RFicient chip enhances IoT devices' performance by providing cutting-edge reception capabilities, which allow for the consistent and reliable transmission of data across varied environments. This robustness makes it ideal for applications in industrial IoT settings, including smart cities and agricultural monitoring, where data integrity and longevity are crucial. Technically advanced, the RFicient chip's architecture employs intelligent design strategies that leverage low-latency responses in data processing, making it responsive and adaptable to rapid changes in its operational environment. These characteristics position it as a versatile solution for businesses aiming to deploy IoT networks with minimal environmental footprint and extended operational lifespan.

Fraunhofer Institute for Integrated Circuits IIS
GLOBALFOUNDRIES, Intel Foundry
40/45nm, 250nm
3GPP-5G, 3GPP-LTE, AI Processor, CAN, CAN XL, CAN-FD, Coprocessor, DSP Core, FlexRay, GPS, IoT Processor, LIN, OBSAI, Power Management, UWB, W-CDMA, Wireless Processor, Wireless USB
View Details

Wireless non-radiative energy transfer

This technology represents a significant innovation in the field of wireless energy transfer, allowing for the efficient transmission of power without physical connections or radiation. By leveraging magnetic resonance, this non-radiative energy transfer system can power devices over distances with high efficiency. It's designed to be safe and environmentally friendly, avoiding the pitfalls of electromagnetic radiation while maintaining a high level of power transfer efficiency. The technology finds its applications in various sectors, including consumer electronics, automotive, and industrial applications where it provides a seamless and reliable solution to power transfer needs. The system's capability to transfer power efficiently without contact makes it ideal for scenarios where traditional power connections might be impractical or inconvenient, enabling new levels of convenience and flexibility for users. Designed to integrate smoothly with existing infrastructure, this energy transfer system can significantly reduce reliance on traditional charging methods, paving the way for more innovative and sustainable energy solutions. Furthermore, the system's architecture is geared towards scalability and adaptability, making it suitable for a wide range of devices and use cases.

WiTricity
CAN XL, Coder/Decoder, D/A Converter, Input/Output Controller, Interrupt Controller, PLL, Power Management, RF Modules, UWB
View Details

SafeIP™ SinglePHY

The SafeIP™ SinglePHY is a pioneering solution in the realm of safe communication technology. Designed to provide 100 MBit/s bandwidth, it balances high performance with a compact form factor and exceptionally low power consumption. The core functionalities of SinglePHY include advanced features like Open Alliance TC10 Sleep/Wake capability, streaming of debug data, and the ability to halt data transmission to maintain a safe operating state. Further, it includes comprehensive diagnostics for cable faults and a built-in self-test for logic verification. These capabilities make it ideal for automotive applications that demand high reliability. This IP also integrates a range of interfaces, from Media Independent Interfaces to APB and IEEE 1500 interfaces, ensuring robust data exchange and configuration capabilities. It is recognized for its rigorous compliance with numerous standards, including the Open Alliance and IEEE 802.3, ensuring seamless industry integration. With a footprint of 0.900mm x 0.630mm, it offers a small yet powerful solution optimized for the automotive industry's stringent requirements. SafeIP™ SinglePHY is built on the GlobalFoundries 22FDX platform, capitalizing on the node's high-performance computing and ultra-low leakage. Its energy consumption is notably low at just 34mW, underscoring its efficiency. Moreover, this PHY adheres strictly to EMC compliance standards, both in conducted and radiated emissions, securing its position as an industry-leading solution for automotive-grade Ethernet communication.

Siliconally GmbH
GLOBALFOUNDRIES
22nm FD-SOI
AMBA AHB / APB/ AXI, ATM / Utopia, CAN XL, Ethernet, USB
View Details

CANsec Controller Core

The CANsec Controller Core is engineered to provide enhanced security features for automotive CAN networks. Traditional CAN networks are not inherently secure, posing challenges in protecting against unauthorized access and data tampering. This controller core integrates security protocols directly into the CAN framework, offering an encryption-enabled solution tailored for modern automotive needs. This controller core implements standardized security measures, ensuring confidentiality, integrity, and authenticity of CAN messages. By incorporating advanced cryptographic algorithms, the CANsec Controller Core meets stringent security requirements without compromising the performance that automotive applications demand. Its design focuses on minimizing resource consumption while providing robust security enhancements. Ideal for vehicles requiring secure communication between various electronic control units (ECUs), the core upholds the automotive industry’s increasing emphasis on cybersecurity. The CANsec Controller Core is versatile in its implementation, suitable for both new vehicle architectures and as an upgrade to existing systems, making it a vital component of future-proof automotive design.

Fraunhofer Institute for Photonic Microsystems (IPMS)
CAN, CAN XL, CAN-FD, Cryptography Cores, Cryptography Software Library, Embedded Security Modules, Security Protocol Accelerators, Temperature Sensor
View Details

SafeIP™ DualPHY

SafeIP™ DualPHY advances safe communication technology by supporting both 100 and 1000 MBit/s Ethernet transmission speeds. Renowned for its robust features, DualPHY integrates seamlessly with system architectures that require flexibility in speed and bandwidth. It includes functionalities for Open Alliance TC10 Sleep/Wake and streaming of debug data, with capabilities for precise error management and cable fault diagnostics. The technology is structured to employ two media-dependent interfaces, alongside a media-independent interface for robust physical layer communication. This is crucial for applications requiring adaptability and precision, especially in automotive settings where tolerance to network failures and sudden disruptions are important. Operating on the GlobalFoundries 22FDX platform enhances its low-voltage and high-performance attributes, positioning it as an appropriate solution for automotive environments. Furthermore, it maintains EMC compliance with standards defined by the Open Alliance, ensuring noise emissions are controlled within acceptable limits. With a typical power consumption of 250mW and dimensions of 1.800mm x 0.850mm, DualPHY combines efficiency with performance to meet the demands of high-speed automotive networking.

Siliconally GmbH
GLOBALFOUNDRIES
22nm FD-SOI
AMBA AHB / APB/ AXI, ATM / Utopia, CAN XL, Ethernet, USB
View Details

PhantomBlu - Tactical Communications

PhantomBlu is a sophisticated mmWave communication solution specifically designed for the defense sector, empowering military operations with robust, high-performance connectivity. Leveraging advanced mmWave technology, it supports tactical connections between land, sea, and air platforms, enabling seamless IP networking over a secure, anti-jam resistant mesh network. PhantomBlu’s design is optimized for rapid deployment and versatile use across various challenging military and defense environments. The PhantomBlu system offers unprecedented connectivity and integration capabilities, supporting high-bandwidth, low-latency communications essential for defense operations. It features LPI (Low Probability of Interception) and LPD (Low Probability of Detection), ensuring stealth and operational security. Its adaptive networking solutions significantly enhance situational awareness and interoperability amongst varied defense assets, assuring seamless transfer of C4ISR data. Whether deployed across large terrains or in mobile units, PhantomBlu's resilience and scalability ensure that defense teams operate with confidence. Its advanced capabilities are critical in mitigating risks and enhancing strategic emission, making it an invaluable asset for modern military communications needs.

Blu Wireless Technology Ltd.
Intel Foundry, Samsung
28nm, 65nm
24 Categories
View Details

System and method for alignment and compatibility detection for a wireless power transfer system

This innovative system is designed to enhance the user experience of wireless power transfer applications by ensuring precise alignment and compatibility between power transmitters and receivers. It includes mechanisms for detecting the positioning of a device relative to a charging source, optimizing the alignment process to ensure efficient energy transfer. The system's compatibility detection capabilities allow it to recognize and adapt to various device specifications and charging standards, reducing the risk of charging errors and improving overall system reliability. With this system, users can achieve optimal alignment automatically, making the process of wireless charging simpler and more intuitive. The technology is particularly beneficial in scenarios where positioning is critical for energy transfer efficiency, such as in automotive or portable device applications. It addresses common challenges in wireless power systems, such as alignment drift and signal path obstructions, ensuring that power is delivered smoothly and consistently.

WiTricity
CAN XL, Gen-Z, HDMI, Input/Output Controller, PLL, RF Modules, USB
View Details

Wireless energy transfer with interference enhancement

Incorporating advanced interference management techniques, this wireless energy transfer solution enhances the efficiency and reliability of power transmission over the air. By dynamically adjusting to environmental factors that typically cause interference, this technology ensures a stable power transfer even in challenging conditions. Employing sophisticated algorithms, the system manages power distribution to minimize interference, optimizing the performance and enabling it to power multiple devices simultaneously without conflicts. This advancement is particularly relevant in urban and industrial settings where electromagnetic interference is common, significantly improving energy transfer capabilities in such environments. The system’s ability to maintain high power transfer efficiency amidst potential sources of disruption expands its applicability in both consumer and industrial domains. It integrates seamlessly with existing wireless power infrastructure, offering a robust solution that can adapt to a multitude of environments and requirements. This technology provides distinct advantages for applications requiring high reliability and uninterrupted power delivery, positioning it as a vital component in the evolution of wireless power systems.

WiTricity
CAN XL, D/A Converter, Input/Output Controller, MIPI, PLL, Power Management, RF Modules
View Details

Automotive IP Suite

InPsytech's Automotive IP Suite encompasses a comprehensive range of interfaces and controllers tailored for the automotive industry. These IPs are engineered to address unique automotive requirements such as reliability, safety, and performance, ensuring that automotive electronics meet regulatory standards and consumer expectations. The suite includes interfaces for common automotive communication protocols and specialized controllers for managing sensor inputs, power distribution, and data handling. By integrating these components, automotive manufacturers can enhance vehicle functionality and connectivity, paving the way for smarter, more secure vehicles. Given the industry's move towards autonomous and connected vehicles, InPsytech's automotive solutions prioritize scalability and compatibility with emerging technologies. Together, these features ensure that manufacturers can meet evolving demands, from electric vehicle support systems to advanced driver assistance applications.

InPsytech, Inc.
CAN XL, LIN
View Details

IMG DXS GPU

IMG DXS GPU is engineered to meet the needs of automotive and industrial applications where functional safety is paramount. Built on efficient PowerVR architecture, it ensures high-performance graphics rendering with a focus on reduced power consumption. The DXS technology supports comprehensive safety suites, catering to ADAS and digital cockpit applications, thereby addressing stringent automotive safety standards.

Imagination Technologies
Arbiter, CAN XL, CAN-FD, DSP Core, GPU, Input/Output Controller, Interrupt Controller, LIN, Other, Peripheral Controller, Processor Cores, Timer/Watchdog
View Details

CAN XL

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.

Premium Vendor
DCD-SEMI
All Foundries
All Process Nodes
CAN, CAN XL, CAN-FD, Other, Safe Ethernet
View Details

APIX3 Technology

APIX3 Technology expands upon previous generations by providing up to 12Gbps data transfer over simple shielded twisted pair or advanced quad twisted pair cables. This capability supports multiple high-definition video streams for advanced infotainment and cockpit applications. It enhances flexibility and performance in automotive networking through backward compatibility, full duplex communication, and advanced diagnostic and cable monitoring features.

INOVA Semiconductors GmbH
CAN XL, Ethernet, Gen-Z, HDMI, SATA, USB, UWB
View Details
Sign up to Silicon Hub to buy and sell semiconductor IP

Sign Up for Silicon Hub

Join the world's most advanced semiconductor IP marketplace!

It's free, and you'll get all the tools you need to discover IP, meet vendors and manage your IP workflow!

No credit card or payment details required.

Sign up to Silicon Hub to buy and sell semiconductor IP

Welcome to Silicon Hub

Join the world's most advanced AI-powered semiconductor IP marketplace!

It's free, and you'll get all the tools you need to advertise and discover semiconductor IP, keep up-to-date with the latest semiconductor news and more!

Plus we'll send you our free weekly report on the semiconductor industry and the latest IP launches!

Switch to a Silicon Hub buyer account to buy semiconductor IP

Switch to a Buyer Account

To evaluate IP you need to be logged into a buyer profile. Select a profile below, or create a new buyer profile for your company.

Add new company

Switch to a Silicon Hub buyer account to buy semiconductor IP

Create a Buyer Account

To evaluate IP you need to be logged into a buyer profile. It's free to create a buyer profile for your company.

Chatting with Volt