All IPs > Interface Controller & PHY > V-by-One
V-by-One semiconductor IP solutions represent a leap forward in high-speed serial communication interfaces, designed to streamline connectivity and enhance the efficiency of modern electronic systems. Originating from the need to handle higher data rates with minimal signal interference, V-by-One technology has become an industry standard in the realm of high-definition displays and beyond. This category in our Silicon Hub is dedicated to providing a comprehensive selection of V-by-One interface controllers and physical layer (PHY) IPs, crucial for optimizing data transmission in various high-performance applications.
The primary utilization of V-by-One semiconductor IPs lies in their ability to manage significant data throughput while maintaining signal integrity over shorter physical connections. These IPs are essential in digital signage, television displays, and automotive infotainment systems, where large volumes of data must be seamlessly transmitted across different components. V-by-One IPs support resolutions such as 4K and 8K, enabling clear, vivid imagery without lag or distortion, making them indispensable for next-generation visual technologies.
Within this category, you will find a range of products designed to meet various design requirements and technical specifications. Our selection includes versatile V-by-One interface controllers known for their adaptability in handling diverse multimedia and data communication tasks. Additionally, our PHY IP offerings ensure robust signal processing, providing the hardware capabilities necessary to sustain high-speed data flow in complex electronic environments.
Whether you're developing consumer electronics, automotive, or industrial equipment, implementing V-by-One semiconductor IP solutions can greatly improve your product's performance. By ensuring superior data transmission efficiency and reducing electromagnetic interference, these IP solutions facilitate cutting-edge innovations for manufacturers and designers who demand the best in interface technology. Explore our extensive catalog to find the right V-by-One IPs that align with your production goals and technical needs.
The GL3590-S is a USB 3.2 Gen 2 Hub Controller designed to provide seamless connectivity via integrated USB Type-C® support. This controller is capable of managing multiple upstream ports, making it ideal for complex data management tasks in modern electronics. Its sophisticated architecture allows for high-speed data transfer, ensuring efficiency in demanding computational environments. Integrated with USB 3.2 Gen 2 hub capabilities, the GL3590-S supports rapid data exchange rates essential for applications needing swift resolution and connectivity. The device plays a crucial role in amplifying the USB connection bandwidth, thereby enhancing the performance and reliability of connected devices. Moreover, this hub controller is equipped with advanced compatibility features, supporting various data transfer protocols. It aims to streamline the integration process across computing platforms, providing a robust solution for today's data-driven ecosystems.
Universal Chiplet Interconnect Express, or UCIe, is a forward-looking interconnect technology that enables high-speed data exchanges between various chiplets. Developed to support a modular approach in chip design, UCIe enhances flexibility and scalability, allowing manufacturers to tailor systems to specific needs by integrating multiple functions into a single package. The architecture of UCIe facilitates seamless data communication, crucial in achieving high-performance levels in integrated circuits. It is designed to support multiple configurations and implementations, ensuring compatibility across different designs and maximizing interoperability. UCIe is pivotal in advancing the chiplet strategy, which is becoming increasingly important as devices require more complex and diverse functionalities. By enabling efficient and quick interchip communication, UCIe supports innovation in the semiconductor field, paving the way for the development of highly efficient and sophisticated systems.
The ARINC 818 Product Suite by Great River Technology provides a comprehensive solution for high-performance digital video transmission in avionics applications. It supports the implementation, qualification, testing, and simulation of ARINC 818 products. This suite allows developers to access essential ARINC 818 tools and resources. It ensures optimal performance and reliability in mission-critical equipment by offering both hardware and software components tailored for the ARINC 818 standard. With its focus on high-speed data transfer and signal integrity, the ARINC 818 Product Suite is ideal for applications requiring lossless video transmission and real-time data handling in challenging conditions.
Eliyan's NuLink Die-to-Die (D2D) PHY products are designed to provide high-performance, low-power connectivity between chips, or 'chiplets,' in a system. Using standard organic laminate packaging, these IP cores maintain power and performance levels that would traditionally require advanced packaging techniques like silicon interposers. This eliminates the need for such technology, allowing cost-effective system design and reducing thermal, test, and production challenges while maintaining performance. Eliyan’s approach enables flexibility, allowing a broad substrate area that supports more chiplets in the package, significantly boosting performance and power metrics. These D2D PHY cores accommodate various industry standards, including UCIe and BoW, providing configurations tailor-made for optimal bump map layout, thus enhancing overall system efficiency.
The SERDES solutions by Analog Bits are integral components for high-speed data transfer applications, effectively serializing and deserializing data streams to improve bandwidth efficiency in electronic devices. These SERDES IPs support data rates that suit a variety of communication standards, including Ethernet and PCI Express. Leveraging state-of-the-art design techniques, these solutions optimize data throughput and reduce latency, providing the necessary data integrity and speed for applications like telecommunications and high-performance computing. Their scalable architecture allows for customization across different technology nodes, catering to specific design needs and operational environments. Analog Bits' SERDES IPs are commonly implemented in data-intensive applications, making them suitable for industries demanding high-speed connectivity, such as data centers, automotive electronics, and mobile communications. These products are validated on leading process nodes, ensuring that they deliver consistent performance even under stringent conditions.
Silicon Creations crafts highly reliable LVDS interfaces designed to meet diverse application needs, going from bi-directional I/Os to specialized uni-directional configurations. Spanning process compatibilities from 90nm CMOS to advanced 7nm FinFET, these interfaces are a cornerstone for high-speed data communication systems, thriving particularly in video data transmission and chip-to-chip communications. Supporting robust data rates over multiple channels, the LVDS Interfaces guarantee flexible programmability and protocol compatibility with standards such as FPD-Link and Camera-Link. They capitalize on proven PLL and CDR architectures for superior signal integrity and error-free data transfers. Operating efficiently in various technology nodes, they remain highly effective across collaborative chipset environments. The interfaces are fortified with adaptable features like dynamic phase alignment to stabilize data sequences and on-die termination options for superior signal integrity. Their proven record places them as a critical enabler in applications where consistent high-speed data transfer is paramount, demonstrating Silicon Creations’ prowess in delivering industry-leading communication solutions.
The Multi-Protocol SerDes provided by Silicon Creations serves as an essential component for high-speed data interfaces across multiple industry protocols. This SerDes portfolio accommodates a vast array of protocols such as PCIe, JESD204, XAUI, and many more, facilitating broad compatibility with industry standards. Operating across 12nm to 180nm processes, these interfaces support data rates from 100 Mbps to an impressive 32.75 Gbps. Incorporating advanced features like programmable de-serialization widths and adaptive equalization, the Multi-Protocol SerDes ensures optimal signal integrity and performance even in demanding environments. The design includes jitter cleaner functions and employs low-latency optimized PMAs, delivering high precision and speed across various operational scenarios. This comprehensive adaptability ensures seamless integration into a wide range of applications from communications to high-performance computing. Supported by robust architectures, the SerDes enables enhanced efficiency and reliability, featuring low power consumption and reduced area overheads. With a commitment to customer satisfaction, Silicon Creations offers complete solutions through partnerships with leading controller vendors, cementing its products as high-value choices for modern electronic systems.
The HOTLink II Product Suite by Great River Technology is tailored for mission-critical avionics systems requiring robust data communication. It enables seamless data transfer and ensures consistent performance under high-stress operational environments. This suite incorporates advanced technologies to handle complex data streams effectively. It includes component options that enhance data throughput and communication efficiency, meeting stringent industry standards for avionics platforms. Designed with precision, the HOTLink II suite supports the integration and management of large datasets, ensuring that avionics systems can perform efficiently and reliably, crucial for modern aircraft and defense applications.
The DisplayPort 1.4 IP-core offered by Parretto B.V. is a compact yet potent solution for DisplayPort connectivity needs. Supporting a range of link rates from 1.62 to 8.1 Gbps, this IP-core accommodates varied setups with ease, including embedded DisplayPort (eDP) applications. It provides support for multiple lane configurations and both native video and AXI stream interfaces. The inclusion of Single and Multi Stream transport modes enhances its versatility for different video applications. Tailored for modern FPGA devices, the core supports a comprehensive video format range, including RGB and various YCbCr colorspaces. A standout feature is the secondary data packet interface, enabling audio and metadata transport alongside video signals. This makes it a full-fledged solution for video-centric applications, complemented by a Video Toolbox geared for video processing tasks like timing and test pattern generation. Parretto ensures the IP-core's adaptability by offering it with a thin host driver and API for seamless integration. The core is compatible with an extensive list of FPGA devices, such as AMD UltraScale+ and Intel Arria 10 GX. Customers benefit from the availability of source code via GitHub, promoting easier customization and deep integration into diverse systems. Comprehensive documentation supports the IP-core, ensuring efficient setup and utilization.
The RISCV SoC developed by Dyumnin Semiconductors is engineered with a 64-bit quad-core server-class RISCV CPU, aiming to bridge various application needs with an integrated, holistic system design. Each subsystem of this SoC, from AI/ML capabilities to automotive and multimedia functionalities, is constructed to deliver optimal performance and streamlined operations. Designed as a reference model, this SoC enables quick adaptation and deployment, significantly reducing the time-to-market for clients. The AI Accelerator subsystem enhances AI operations with its collaboration of a custom central processing unit, intertwined with a specialized tensor flow unit. In the multimedia domain, the SoC boasts integration capabilities for HDMI, Display Port, MIPI, and other advanced graphic and audio technologies, ensuring versatile application across various multimedia requirements. Memory handling is another strength of this SoC, with support for protocols ranging from DDR and MMC to more advanced interfaces like ONFI and SD/SDIO, ensuring seamless connectivity with a wide array of memory modules. Moreover, the communication subsystem encompasses a broad spectrum of connectivity protocols, including PCIe, Ethernet, USB, and SPI, crafting an all-rounded solution for modern communication challenges. The automotive subsystem, offering CAN and CAN-FD protocols, further extends its utility into automotive connectivity.
The TSN Switch for Automotive Ethernet is designed to address the needs of modern automotive networks by offering time-sensitive networking capabilities. This switch is tailored to manage Ethernet-based communication in vehicles, ensuring low-latency and reliable data transmission. It supports complex automotive network architectures, making it ideal for real-time communication requirements in vehicles. With its robust time-sensitive networking features, this switch is capable of guaranteeing data delivery within tight time constraints, a critical requirement for advanced driver assistance systems (ADAS) and autonomous driving. It integrates seamlessly within the automotive Ethernet ecosystem, providing scalability and integration flexibility. The switch is engineered to support the industry's move towards centralized vehicle networking, improving data throughput and reducing cabling complexity. The switch’s architecture supports multiple ports, allowing for the connection of various vehicle subsystems within a unified network framework. Implementing this technology can drastically improve the efficiency and reliability of in-vehicle communication systems. The TSN capabilities optimize network traffic management, ensure the prioritization of time-critical messages, and enhance the overall stability and predictability of automotive data flows.
LightningBlu is a state-of-the-art multi-gigabit connectivity solution for high-speed rail networks, delivering continuous high-speed data transfer between trackside and train systems. This innovative solution works within the mmWave spectrum of 57-71 GHz and is certified for long-term, low-maintenance deployment. It seamlessly integrates with existing trackside networks to provide a stable, high-capacity communication bridge essential for internet access, entertainment, and real-time information services aboard high-speed trains. The LightningBlu system includes robust trackside nodes and compact train-top nodes designed for seamless installation, significantly enhancing operational efficiencies and passenger experience by providing internet speeds superior to traditional mobile broadband services. With aggregate throughputs reaching around 3 Gbps, LightningBlu sets the standard for rail communications by supporting speeds at which data demands are met with ease. Crucially, LightningBlu is a key component in transforming the railway telecommunications landscape, offering upgraded technology that enables uninterrupted and enhanced passenger digital services even in the busiest railways across the UK and USA. Through its advanced mmWave technology, it ensures that the connectivity needs of the modern commuter are met consistently and effectively, paving the way for a new era in transit communication.
The DisplayPort Transmitter from Trilinear Technologies is a sophisticated solution designed for high-performance digital video streaming applications. It is compliant with the latest VESA DisplayPort standards, ensuring compatibility and seamless integration with a wide range of display devices. This transmitter core supports high-resolution video outputs and is equipped with advanced features like adaptive sync and panel refresh options, making it ideal for consumer electronics, automotive displays, and professional AV systems. This IP core provides reliable performance with minimal power consumption, addressing the needs of modern digital ecosystems where energy efficiency is paramount. It includes customizable settings for audio and video synchronization, ensuring optimal output quality and user experience across different devices and configurations. By reducing load on the system processor, the DisplayPort Transmitter guarantees a seamless streaming experience even in high-demand environments. In terms of integration, Trilinear's DisplayPort Transmitter is supported with comprehensive software stacks allowing for easy customization and deployment. This ensures rapid product development cycles and aids developers in managing complex video data streams effectively. The transmitter is particularly optimized for use in embedded systems and consumer devices, offering robust performance capabilities that stand up to rigorous real-time application demands. With a focus on compliance and testing, the DisplayPort Transmitter is pre-tested and proven to work seamlessly with a variety of hardware platforms including FPGA and ASIC technologies. This robustness in design and functionality underlines Trilinear's reputation for delivering reliable, high-quality semiconductor IP solutions that cater to diverse industrial applications.
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.
The QUIC Protocol Core by Design Gateway is a high-speed, low-latency communication core designed to optimize network traffic in environments prone to congestion. It offers exceptional performance benefits over traditional protocols, leveraging the latest technology in secure and reliable data transmission.\n\nThis core is engineered to support high-speed environments, enhancing data throughput while reducing the likelihood of packet loss. It is particularly effective in networks with high congestion, where maintaining a seamless and efficient flow of data is critical. The QUIC Protocol Core's design focuses on minimizing latency, providing faster data exchange and enhancing overall network performance.\n\nIntegrating this protocol core into existing network infrastructure supports secure, encrypted data communication, vital for maintaining data integrity across various network environments. Its high-performance capabilities reduce overhead and improve application response times, making it indispensable for modern, high-speed data networks.\n\nBy incorporating the QUIC Protocol Core, businesses can optimize their network capabilities, ensuring secure, efficient, and reliable communications that are crucial for today's technology-driven communication systems.
Silicon Creations' Bi-Directional LVDS Interfaces are engineered to offer high-speed data transmission with exceptional signal integrity. These interfaces are designed to complement FPGA-to-ASIC conversions and include broad compatibility with industry standards like FPD-Link and Camera-Link. Operating efficiently over processes from 90nm to 12nm, the LVDS interfaces achieve data rates exceeding 3Gbps using advanced phase alignment techniques. A standout feature of this IP is its capability to handle independent LVCMOS input and output functions while maintaining high compatibility with TIA/EIA644A standards. The bi-directional nature allows for seamless data flow in chip-to-chip communications, essential for modern integrated circuits requiring high data throughput. The design is further refined with trimmable on-die termination, enhancing signal integrity during operations. The LVDS interfaces are versatile and highly programmable, meeting bespoke application needs with ease. The interfaces ensure robust error rate performance across varying phase selections, making them ideal for video data applications, controllers, and other high-speed data interfaces where reliability and performance are paramount.
Silicon Library Inc. offers a high-quality DisplayPort/eDP IP that supports seamless transmission of audio and video data for modern display standards. Engineered for compatibility with DP/eDP 1.4 standards, this IP is geared toward contemporary computing and media devices requiring sharp and clear image displays. The DisplayPort/eDP interface is crucial for devices like monitors, laptops, and all-in-one PCs. It provides a robust link for transmitting high-definition content, capable of managing complex video signals with multiple streams efficiently. The IP is designed to support high-bandwidth communication, enabling it to handle resolutions required for newer display technologies, including 4K and 8K displays. Optimized for power and performance, the DisplayPort/eDP IP integrates features like adaptive sync, dynamic refresh rates, and multi-monitor support. Its low-power footprint and efficiency in managing resources make it suitable for portable and high-performance devices where display quality is paramount.
Trilinear Technologies has developed a cutting-edge DisplayPort Receiver that enhances digital connectivity, offering robust video reception capabilities necessary for today's high-definition video systems. Compliant with VESA standards, the receiver supports the latest DisplayPort specifications, effortlessly handling high-bandwidth video data necessary for applications such as ultra-high-definition televisions, professional video wall setups, and complex automotive display systems. The DisplayPort Receiver is designed with advanced features that facilitate seamless video data acquisition and processing, including multi-stream transport capabilities for handling multiple video streams concurrently. This is particularly useful in professional display settings where multiple input sources are needed. The core also incorporates adaptive sync features, which help reduce screen tearing and ensure smooth video playback, enhancing user experience significantly. An important facet of the DisplayPort Receiver is its low latency and high-efficiency operations, crucial for systems requiring real-time data processing. Trilinear's receiver core ensures that video data is processed with minimal delay, maintaining the integrity and fidelity of the original visual content. This makes it a preferred choice for high-performance applications in sectors like gaming, broadcasting, and high-definition video conferencing. To facilitate integration and ease of use, the DisplayPort Receiver is supported by a comprehensive suite of development tools and software packages. This makes the deployment process straightforward, allowing developers to integrate the receiver into both FPGA and ASIC environments with minimal adjustments. Its scalability and flexibility mean it can meet the demands of a wide range of applications, solidifying Trilinear Technologies' position as a leader in the field of semiconductor IP solutions.
Engineered to enhance data processing efficiency, the TCP/IP Offload Engine by Chevin Technology offers a significant boost in networking tasks by transferring processing workloads from CPUs to faster-processing hardware. This IP core supports 10 and 25Gbps data rates, allowing it to handle substantial data transfer needs frequently seen in distributed systems and cloud environments, reducing latency and freeing up CPU resources for other critical functions. Achieving optimal throughput and low latency, this offload engine is ideal for high-performance computing environments where speed and efficiency are non-negotiable. It excels in scenarios where large sets of data need to be managed efficiently, ensuring that network performance is not a bottleneck in overall system performance. Key to its operation is the ability to maintain consistent performance across various implementations, particularly those that leverage advanced FPGA platforms. This core streamlines networking tasks while simultaneously supporting scalability, making it a practical and efficient solution for enterprise-level networking projects.
hellaPHY Positioning Solution is an advanced edge-based software that significantly enhances cellular positioning capabilities by leveraging 5G and existing LTE networks. This revolutionary solution provides accurate indoor and outdoor location services with remarkable efficiency, outperforming GNSS in scenarios such as indoor environments or dense urban areas. By using the sparsest PRS standards from 3GPP, it achieves high precision while maintaining extremely low power and data utilization, making it ideal for massive IoT deployments. The hellaPHY technology allows devices to calculate their location autonomously without relying on external servers, which safeguards the privacy of the users. The software's lightweight design ensures it can be integrated into the baseband MCU or application processors, offering seamless compatibility with existing hardware ecosystems. It supports rapid deployment through an API that facilitates easy integration, as well as Over-The-Air updates, which enable continuous performance improvements. With its capability to operate efficiently on the cutting edge of cellular standards, hellaPHY provides a compelling cost-effective alternative to traditional GPS and similar technologies. Additionally, its design ensures high spectral efficiency, reducing strain on network resources by utilizing minimal data transmission, thus supporting a wide range of emerging applications from industrial to consumer IoT solutions.
The Alcora V-by-One HS Daughter Card by Parretto B.V. is designed to facilitate high-speed video data transmission with minimal wire insulation. Featuring V-by-One HS technology, it provides seamless connectivity for large video content transfer over fewer cables, supporting high-definition resolutions efficiently. Alcora's focus on V-by-One HS technology makes it suitable for applications where reduced cable clutter and high data transfer rates are necessary. It becomes an excellent choice for display applications that demand clean setups while transmitting vast amounts of data. By integrating this daughter card, system designers can achieve a streamlined architecture that supports robust video transmission without the associated clutter, keeping systems neat and efficient. Its compatible interface ensures it integrates well with existing video systems, offering scalable and future-proof solutions.
Secure Protocol Engines by Secure-IC focus on enhancing security and network processing efficiency for System-on-Chip (SoC) designs. These high-performance IP blocks are engineered to handle intensive security tasks, offloading critical processes from the main CPU to improve overall system efficiency. Designed for seamless integration, these modules cater to various applications requiring stringent security standards. By leveraging cryptographic acceleration, Secure Protocol Engines facilitate rapid processing of secure communications, allowing SoCs to maintain fast response times even under high-demand conditions. The engines provide robust support for a broad range of security protocols and cryptographic functions, ensuring data integrity and confidentiality across communication channels. This ensures that devices remain secure from unauthorized access and data breaches, particularly in environments prone to cyber threats. Secure Protocol Engines are integral to designing resilient systems that need to process large volumes of secure transactions, such as in financial systems or highly regulated industrial applications. Their architecture allows for scalability and adaptability, making them suitable for both existing systems and new developments in the security technology domain.
VeriSyno Microelectronics offers Digital Systems and Security Solutions designed to enhance the robustness and efficiency of modern digital applications. This comprehensive suite includes IPs for PSRAM interfaces, network protocols like vMAC, and security mechanisms, addressing the critical needs for secure and efficient digital communications. The digital solutions are engineered to meet stringent security protocols, ensuring data integrity and protection in various applications. VeriSyno's expertise in digital system design enables the development of reliable solutions that integrate seamlessly into existing infrastructures, enhancing both system performance and security. These solutions are suitable for a broad spectrum of digital applications, including consumer electronics, automotive, and industrial systems, where efficient data handling and security are paramount. With ongoing innovation, VeriSyno maintains its competitive edge by adapting to emerging industry requirements and introducing forward-thinking digital solutions.
The IPMX Core is a cutting-edge solution for leveraging the latest AV-over-IP standards within professional AV systems. By adopting the open specification IPMX protocol, Nextera Video enables seamless communication over IP networks, transforming the efficiency of media transport globally. Its foundation on proven standards like SMPTE ST 2110 and NMOS enhances its interoperability and scalability. Designed for versatile video and audio integration, the IPMX Core supports both compressed and uncompressed media, providing flexibility across a spectrum of resolutions up to 8K. This adaptability caters to diverse media landscapes, accommodating different frame rates, color spaces, and sample rates, while maintaining low latency and high-quality delivery. Nextera’s IPMX Core stands at the forefront of AV-over-IP technology, offering essential features like encrypted data transport, asynchronous video support, and industry-standard NMOS control. This makes it a formidable choice for any organization seeking to future-proof its AV infrastructure through robust IP technologies that meet rigorous professional standards.
Korusys' Video Wall Display Management System is a versatile solution designed to enhance visual presentations across multiple monitors. It accommodates input and output through HDMI or DisplayPort, and offers up to four distinct video outputs. With support for resolutions up to 3840x2400 for input and 1920x1200 for output at 60Hz, this system features configurable bezel compensation and advanced image processing capabilities. Users benefit from clone and stretch operational modes, in addition to a comprehensive software API for detailed configuration and control.
The PCS2100 serves as a pillar for IoT connectivity, employing Wi-Fi HaLow technology to deliver extended range and low-power operation. It's specifically crafted to meet the unique demands of IoT devices, ensuring reliable internet access with less power consumption. The standard offers sub-GHz operation essential for improved penetration and coverage, making it ideal for industrial and smart agriculture applications. By leveraging the advantages of Wi-Fi HaLow, the PCS2100 facilitates robust communications over larger distances than traditional Wi-Fi, whilst still maintaining efficient power use—a critical factor for remote and battery-operated devices. This substantial range capability is further enhanced by its compatibility with existing Wi-Fi protocols, easing integration concerns. The PCS2100 demonstrates exceptional adaptability, catering to a wide array of IoT connectivity requirements. It supports the deployment of not only consumer-grade devices but also critical infrastructure components, underlining its importance in the advancement of smart city and AI-driven automation technologies.
LTTS's USB solutions provide a comprehensive range of high-speed data transfer capabilities, supporting up to 10 Gbps. As a leader in USB technology innovation, our solutions encompass the latest USB standards, facilitating swift and seamless data exchange across various devices. This suite of USB solutions is essential for devices that prioritize high data transfer rates to optimize user interactions with technology. These solutions are designed to support USB 3.0, 3.1, and 3.2 standards, allowing both backward compatibility and future-proofing for devices. Consequently, manufacturers can ensure ongoing support for a wide array of peripherals, from legacy USB components to the latest high-speed interfaces. This versatility positions LTTS’s USB technology at the forefront of connectivity innovations. Impressive in its adaptability, LTTS's USB solutions cater to a broad range of electronic components, including portable devices, computers, and peripherals that demand efficient and rapid data processing. By enabling such dynamic connectivity, LTTS aids in building comprehensive ecosystems that align with users' intricate, fast-paced digital requirements.
To augment their diverse microcontroller IP lineup, Syntill8 provides an array of peripheral interface IP cores designed to integrate seamlessly with their 8051 microcontrollers. The suite includes a Two-Wire Slave Interface (M2WIS) and a Four-Wire Slave Interface (M4WIS), which complement the integral interfaces within the microcontroller cores. Additionally, the UDPMAC core caters to networking needs, providing a robust 1-Gigabit UDP/Ethernet MAC solution. These peripheral integrations enable comprehensive connectivity options for diverse applications.
FaintStar Sensor-on-a-Chip is a flagship product from Caeleste, designed to operate effectively in the most challenging environments, particularly in space and scientific imaging. This sensor integrates advanced technologies to ensure low noise, high sensitivity, and high dynamic range, which are critical for capturing faint astronomical objects or conducting detailed scientific research. The sensor's architecture facilitates high-speed operation without compromising on the fidelity of data, making it ideal for missions such as those undertaken by the European Space Agency (ESA).\n\nThis sensor is exemplary in combining sophisticated readout circuits with photonic efficiency, ensuring minimal noise and optimal performance over extended periods in space. Caeleste’s expertise in low-light imaging is evident as the FaintStar is engineered to handle extreme conditions of outer space while still providing clear, accurate data essential for mission success.\n\nFaintStar showcases Caeleste’s capability in creating custom-built solutions that meet exacting scientific demands. The sensor is crafted with a focus on robustness, ensuring durability in harsh environments, which is crucial for reliable long-term deployment in space missions or scientific experiments.
DapTechnology's FireSpy Bus Analyzer series represents the culmination of extensive R&D in IEEE-1394 and AS5643 standards. These analyzers provide robust tools for analyzing IEEE-1394 networks, offering critical insights into bus transactions. The FireSpy analyzers are engineered to handle different bus configurations, ranging from single to multi-bus setups, making them versatile tools for monitoring and diagnostics across various applications. The FireSpy family of analyzers is designed to support the integration of Mil1394 protocol modules, which is critical for aerospace and defense industries. By delivering in-depth data analysis and high-level diagnostic capabilities, these analyzers help optimize network performance and troubleshoot issues effectively. With the release of their 4th generation, DapTechnology has pushed the boundaries with enhanced functionality and performance, setting a new standard for IEEE-1394 bus analyzers. The FireSpy analyzers excel in versatility and scalability. They cater to a broad spectrum of use cases, equipping users with the means to adapt to diverse testing environments. Incorporating IEEE-1394 protocols with high precision, these devices extend beyond mere analysis, facilitating extensive network simulations and testing, essential for developing reliable, high-performance IEEE-1394 networks.
The Flat Panel Display Interface for Advanced Processes by Curious Corporation is a sophisticated solution aimed at enhancing display technologies. This interface supports high-speed data transfer between the processor and display panels, making it ideal for modern electronic displays that require quick refresh rates and low power usage. Designed for use in digital displays, this interface ensures sharp and vibrant image rendering, utilizing advanced technology to manage data flow seamlessly. It is perfect for devices where visual clarity and power efficiency are paramount, such as smartphones, tablets, and wearable devices. Incorporating this interface into display systems enhances the overall viewing experience by providing a stable connection that can handle a wide range of display resolutions and formats. It is highly adaptable to different manufacturing processes, ensuring longevity and compatibility with future display technology advancements.
The INAP375R Receiver is a component of the APIX2 technology suite, tailored to meet the stringent demands of automotive infotainment systems. It supports bi-directional, high-speed data transfer over a single twisted pair cable, up to distances of 12 meters, offering flexibility for complex vehicle architectures. The receiver integrates advanced error correction protocols and supports RGB and LVDS video interfaces, making it ideal for high-definition display applications in vehicles.
MIFARE Certification Technologies provide a comprehensive suite for certification related to mobile and IoT platforms. This technology is at the forefront of ensuring compliance and reliability in embedded systems used within public transportation and personal devices. It focuses on ensuring that devices meet rigorous global standards for communication and data transfer security. Utilizing robust protocols, these technologies facilitate seamless integration with existing infrastructures, promoting enhanced accessibility and user experience. The certification process involves extensive validation checks to ensure system integrity, sustainability, and efficient operation within diverse environments. By certifying embedded software, it supports manufacturers in achieving compliance with regulatory requirements, empowering them with a market advantage. This technology is essential for companies looking to maintain competitive status by ensuring their products meet necessary communication standards. It demonstrates a commitment to quality and security in data handling, solidifying a product's credibility and operational reliability. MIFARE Certification Technologies pave the way for future-ready solutions, blending technological prowess with market needs.
The V2X Router is engineered to facilitate communication between vehicles and surrounding infrastructure, promoting safer and smarter urban mobility. Its design allows for seamless integration into existing roadway systems to enable cars, traffic signals, and control centers to share data collectively, improving traffic management and reducing congestion. The router utilizes advanced communication protocols to ensure secure and rapid data exchange, thereby enhancing situational awareness and response times in dynamic urban settings. This is achieved through vehicle-to-everything (V2X) technology, which supports real-time communication between interconnected roadway components. Capable of operating reliably under various environmental conditions, the V2X Router is a pivotal component in modernizing urban transportation frameworks. Its implementation paves the way for more efficient traffic systems, reducing the likelihood of accidents and streamlining the flow of transport networks.
The USB3 Vision Device Core from Euresys is designed to provide robust support for the USB3 Vision standard, a crucial element in modern machine vision applications. This IP core leverages the high bandwidth capabilities of USB3 connections to deliver rapid data transfer rates, making it indispensable for high-resolution imaging applications where speed is of the essence. By integrating this core into FPGA architectures, developers can achieve significant improvements in data throughput and system performance, which are essential for demanding imaging tasks across various industries. The USB3 Vision Device Core's compatibility with leading FPGA platforms, such as AMD and Intel, ensures wide applicability and ease of integration into existing systems. Its design enables flexible configuration and seamless operation across different environments, catering to the diverse needs of machine vision and industrial automation applications. Whether for enhancing existing setups or deploying new imaging systems, the Euresys USB3 Vision Device Core is a reliable and efficient choice that enables advanced image processing with minimal delay.
The APIX3 Transmitter and Receiver Modules represent the pinnacle of automotive data communication, offering superior bandwidth and versatility for in-car network architectures. Capable of handling up to 12Gbps with quad twisted pair connections, APIX3 supports Ultra High Definition video resolutions across multiple channels concurrently. These modules also feature robust diagnostic and cable monitoring capabilities, ensuring uninterrupted operation and ease of maintenance in automotive environments.
DapTechnology's FireTrac AS5643 interface cards are crafted to enhance Mil1394 data processing. Recognized for their advanced capabilities, these cards offer crucial support for simulation and testing, making them an industry-approved choice for aerospace applications. The product line showcases DapTechnology's commitment to providing robust solutions for IEEE-1394 and Mil1394 data protocols, ensuring reliable data handling in critical environments. The FireTrac interface cards incorporate the functionalities needed for seamless AS5643 integration, including data encapsulation and decapsulation at unprecedented benchmarks. This enhances compatibility and performance within aerospace projects. DapTechnology's FireTrac cards offer comprehensive support for various interfaces, aligning with evolving industry standards and client requirements. Engineered with precision, the FireTrac series extends DapTechnology's legacy in interface solutions. These cards support a variety of Mil1394 environments, enabling high-speed data transmission and accurate signal processing, which are essential for the rigorous demands of modern avionics systems. With their innovative technology, FireTrac cards promote the development of robust and scalable aerospace network systems.
The INAP590T is a transmitter module embedded within the APIX3 framework, delivering unparalleled data transfer capabilities for high-resolution automotive display systems. It supports HDMI 1.4a video interface and integrates seamlessly with existing in-car networks. This module offers advanced features such as scalable bandwidth, cable adaptability, and error correction, making it a reliable choice for next-generation infotainment architectures.
Engineered for next-generation IoT applications, the PCS2500 functions as an access point utilizing Wi-Fi HaLow to extend connectivity for a multitude of devices. This IP supports innovations in IoT networks by providing a powerful station for device coordination, simplifying network management, and optimizing resource use throughout diverse environments. Wi-Fi HaLow's long-range and robust connection capabilities ensure that the PCS2500 can manage a greater number of nodes compared to traditional access points, all the while maintaining a reliable link with minimal power usage—a vital aspect in IoT and smart homes where energy efficiency is paramount. This makes it an integral part of large-scale IoT deployments. Notably, the PCS2500 is designed to align with existing Wi-Fi infrastructure, facilitating seamless upgrades to incorporate IoT functionality in enterprises and urban environments. Its comprehensive coverage and efficiency can propel cities toward smarter, more connected solutions, while also supporting the infrastructure necessary for smart grids and future-ready environments.
The XILINX NVME HOST RECORDER IP is optimized for high-speed data processing and efficient storage management, enabling smooth handling of NVMe protocols across varied applications. It is specifically tailored to deliver high throughput and low latency, making it ideal for rapid data access and real-time processing environments. With an architectural emphasis on scalability and performance, this IP seamlessly integrates NVMe functionalities to boost data handling capabilities. Its versatility ensures compatibility across multiple systems, enhancing reliability and operational efficiency. This adaptability makes it crucial for applications requiring robust data management. The design of the XILINX NVME HOST RECORDER IP focuses on minimizing power usage, thereby promoting more sustainable and cost-effective operations. Its efficient resource management extends the lifecycle of deployed systems, making it an essential component for modern computing infrastructures aiming for optimal data control and management performance.
The LineSpeed FLEX Family encompasses a range of 100G PHY products designed to facilitate high-speed communications across various interfaces, including retiming, gearbox functions, and multiplexing. These products comply with industry standards, such as IEEE, offering wide-ranging compatibility for diverse networking environments. Notably, the family supports a variety of data rates from 10G to 100G, allowing for mixed and independent port speeds. The retimers in particular are protocol-independent, providing a flexible solution adaptable to many networking configurations, particularly in line cards and modules, where space and efficiency are critical. The LineSpeed FLEX products also feature robust error correction capabilities, including on-chip RS-FEC. This assures data integrity across extensive network infrastructures, thus mitigating signal degradation over long distances. By simplifying the integration process and ensuring consistent performance, LineSpeed FLEX is integral to modern network practices, accommodating dense 10G Ethernet configurations and high-reliability systems.
The ATEK367P4 is a phase shifter that operates in the 2 to 4 GHz band, offering a phase range of 0 to 375 degrees. It has a low loss of 3 dB, providing flexibility and precision in phase adjustments. With its ability to manage an IP1dB of 20 dBm, the phase shifter is well-suited for advanced RF and microwave applications requiring compact integration and high reliability.
The INAP375T Transmitter is a high-speed data transmission solution specifically designed for the automotive industry. It employs the second generation APIX2 technology, which delivers high-speed differential data through a single twisted pair cable, supporting data rates up to 3Gbps. This transmitter can handle complex multimedia data like video and audio while maintaining robust error correction through the AShell protocol, ensuring reliable data communication within vehicles.
The OTC9115 is designed for use in identifying and marking USB 3.1 cables. It ensures efficient communication and compatibility when integrating with USB systems. The device supports high-speed data transmission and incorporates robust error-checking mechanisms, making it reliable for modern applications. This IP has been adopted by numerous manufacturers due to its dependable performance and compliance with current USB standards.
The Ultra-High Throughput VESA DSC 1.2b Decoder from Alma Technologies is designed to flawlessly decompress deep color video streams, ideal for state-of-the-art display technologies. Engineered to operate with low-latency, this decoder is perfect for environments requiring superior image quality and speed, handling the decompression of high-definition video at rates suitable for next-generation display applications. With its robust, scalable architecture, the DSC 1.2b Decoder can handle large volumes of compressed video without succumbing to latency issues. It supports high-bandwidth interface decompression, requisite for advanced display applications such as 10K video at 120Hz. This ensures ultra-smooth video playback and exceptional visual fidelity across demanding video systems. Designed for critical applications across broadcasting, gaming, and professional media settings, this decoder maintains a balance between high performance and minimal silicon resource usage. Its flexibility in supporting various chroma samples and color depths further extends its applicability in maintaining the most stringent video quality standards.
Alma Technologies' DSC v1.2b IP cores provide industry-leading visually lossless compression for display streams, suitable for high-resolution video displays. This IP core supports an advanced compression algorithm that permits the transmission of high-definition content with reduced bandwidth requirement, crucial for optimizing video display technologies. The DSC v1.2b IP offers seamless support for a range of color sampling formats and high bit-depth precision, extending its use across varying outcomes, from consumer electronics to professional display systems. Its encoding and decoding capabilities ensure that even complex video streams are handled with minimal latency and exceptional image quality. This IP core is ideal for high-performance display scenarios such as broadcasting, gaming, and digital signage. By using DSC v1.2b IP, developers can promise their end-users superior display quality with efficient use of available transmission medium capacity, ensuring a compelling visual experience.
The HyperBus Flash Interface from Mobiveil reduces pin count while significantly increasing performance compared to traditional SPI or parallel interfaces. The HyperBus is an optimal choice for high-performance flash storage systems, delivering up to 333 MB/s throughput via a streamlined 12-pin interface. This controller caters to emerging storage requirements across a broad range of industrial and consumer electronics applications.
The RT583 is designed to support Matter, a unified connectivity standard, along with Thread and Bluetooth 5 LE technologies. This SoC facilitates the creation of highly interoperable smart home devices, ensuring seamless communication across various platforms and brands. With integrated advanced security features, the RT583 is primed for applications that demand reliable and secure connectivity, such as in-home automation and professional installations. It provides a solid foundation for rapidly developing smart home ecosystems.
The RT582 is a high-performance system-on-chip (SoC) incorporating Bluetooth 5 Low Energy connectivity paired with robust processing capabilities. Built around an ARM Cortex-M3 core, it provides efficient handling of wireless protocols and application processing. This SoC supports a variety of communication standards and features an extensive range of peripherals, thus offering flexibility and efficiency for IoT device development. It is particularly suited for applications like wearables and home automation where power efficiency and solid performance are priorities.
The core implements a UDP/IP hardware protocol stack that enables high-speed communication over a LAN or a point-to-point connection. It is ideal to offload systems from demanding tasks of UDP/IP and to enable media streaming in both FPGA and RISC designs. The core supports ARP request, reply and manages 32-entry ARP cache. ICMP ping reply is included. The core provides DHCP client engine, which can get an IP address from external DHCP servers. The 10G UDPIP Core implements V3 IGMP membership Query/Report messaging. The UDP jumbo packets are supported as well as UDP port number filters and VLAN.\n\nIP/UDP checksum generation and validation are implemented. MDIO bus access to external device via AXI4-Lite bus is included. IP raw packets are supported in both TX and RX.\n\nIP fragmentation and TCP hardware protocol stack companion core are available on demand.\n\nThe core supports 32 RX channels and 32 TX channels. Each of the RX channels can be configured and associated with any of five RX ports. Each of the TX channels can be used to send IP packets on any of five TX Ports.\n\nThe core connects to user logic through Control Interface of AXI4-Lite buses; five RX Dedicated Ports of AXI4-Stream buses and five TX Dedicated Ports of AXI4-Stream buses.\n\nThe core connects to 10G MAC module through AXI4-Stream bus. KMX 10G MAC and PCS cores are available to our customers.\n\nThe core is designed to well handle exceptions of internal memory exhaustion and invalid incoming packets while it makes the max use of internal memory to deal with TX and RX burst traffic effectively.\n\nThere is a fully implemented reference design which is shipped with the core delivery.
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