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.
Sunplus' LVDS IP provides a high-speed solution for data transmission across electronic devices, optimizing communication between integrated circuits. LVDS, or Low-Voltage Differential Signaling, is an effective way to achieve rapid data transfer rates with minimal electromagnetic interference, making it ideal for high-performance computer and multimedia applications. The IP is a key component in facilitating the transfer of video and display data, ensuring a crisp and clear output. Its ability to handle high data transfer speeds while maintaining a reduced power footprint is advantageous for modern consumer electronics that prioritize both performance and energy efficiency. With its adaptable design, Sunplus' LVDS IP can be integrated across a wide array of devices, providing developers with the flexibility needed for customized solutions. Its robust signal management capabilities ensure that data integrity is preserved even in complex operational environments, enhancing overall system reliability and user satisfaction.
The CXL 3.1 Switch by Panmnesia is a high-performance solution facilitating flexible and scalable inter-device connectivity. Designed for data centers and HPC systems, this switch supports extensive device integration, including memory, CPUs, and accelerators, thanks to its advanced connectivity features. The switch's design allows for complex networking configurations, promoting efficient resource utilization while ensuring low-latency communication between connected devices. It stands as an essential component in disaggregated compute environments, driving down latency and operational costs.
The CT25205 is a comprehensive digital core designed for IEEE 802.3cg® 10BASE-T1S Ethernet applications, incorporating the Physical Medium Attachment (PMA), Physical Coding Sublayer (PCS), and Physical Layer Coordination (PLCA) Reconciliation Sublayers. Written in Verilog 2005 HDL, this IP core is versatile enough to be implemented in standard cells and FPGA systems. It interfaces seamlessly with IEEE Ethernet MACs through a Media Independent Interface (MII), and the PLCA RS supports legacy MACs, enhancing functionality without additional extensions. The PMA is compatible with OPEN Alliance 10BASE-T1S PMD, perfect for Zonal Gateways and MCUs in advanced network architectures.
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 HOTLink II Product Suite is another remarkable offering from Great River Technology. Built to complement their ARINC 818 suite, HOTLink II provides an integrated framework for crafting high-performance digital data links. This suite ensures seamless, secure, and reliable data transmission over fiber or copper cables across various platforms. Developed with a focus on flexibility and functionality, the HOTLink II capabilities enhance system integrators' ability to deploy effective communication solutions within aircraft and other demanding environments. The emphasis on robust, low-latency data transfer makes it an ideal choice for real-time applications where precision and reliability are paramount. Broad compatibility is a hallmark of HOTLink II, facilitating integration into diverse infrastructures. Backed by Great River Technology's expertise and support, customers are empowered to advance their system communication capabilities efficiently and cost-effectively.
Designed for 10BASE-T1S applications, the CT25203 serves as an essential analog front-end component of Ethernet transceivers. This IP component helps connect host controllers and switches by implementing a 3-pin interface compliant with the OA TC14 specification. It ensures high EMC performance thanks to its compact 8-pin design and manufacturing on high-voltage process technology. Particularly suited for automotive and industrial use, this IP core demonstrates versatility, offering robust communication with minimal footprint.
The GL3590-S is a USB 3.2 Gen 2 hub controller that seamlessly integrates multiple upstream ports with native USB Type-C functionality. Designed for versatility, it handles both SuperSpeed+ and Full-Speed data connections, ensuring backwards compatibility with USB 2.0 and 1.1. Notably, this controller supports devices drawing up to 2.4A, optimally fast-charging portable devices even when systems are in sleep or power-off states. Functionality extends to its multiple TT architecture which dedicates transaction processing to each downstream port, maintaining full-speed throughput under heavy operations. The GL3590-S manages power efficiently, adhering to USB-IF battery charging standards, thus supporting various device charging needs like Apple and Samsung Galaxy as well as BC1.2 standards. Configurations allow for flexible downstream ports, critical for customization and dynamic power management. Additionally, it includes advanced features such as built-in ESD protection, EMI reduction capabilities, firmware-upgradeable systems, and multi-port configurations catering to both original equipment manufacturer (OEM) and aftermarket applications. It’s an ideal choice for those seeking an integrated solution for USB hubs in docking stations, motherboards, and monitors.
The DisplayPort Transmitter is a highly advanced solution designed to seamlessly transmit high-definition audio and video data between devices. It adheres to the latest VESA standards, ensuring it can handle DisplayPort 1.4 and 2.1 specifications with ease. The transmitter is engineered to support a plethora of audio interfaces including I2S, SPDIF, and DMA, making it highly adaptable to a wide range of consumer and professional audio-visual equipment. With features focused on AV sync and timing recovery, it ensures smooth and uninterrupted data flow even in the most demanding applications. This transmitter is particularly beneficial for those wishing to integrate top-of-the-line audio and video synchronization within their projects, offering customizable sound settings that can accommodate unique user requirements. It's robust enough to be used across industry sectors, from high-end consumer electronics like gaming consoles and home theater systems to professional equipment used in broadcast and video wall displays. Moreover, the DisplayPort Transmitter's architecture facilitates seamless integration into existing FPGA and ASIC systems without a hitch in performance. Comprehensive compliance testing ensures that it is compatible with a wide base of devices and technologies, making it a dependable choice for developers looking to provide comprehensive DisplayPort solutions. Whether it's enhancing consumer electronics or powering complex industry-specific systems, the DisplayPort Transmitter is built to deliver exemplary performance.
Topaz FPGAs are designed for high-volume production applications where cost efficiency, compact form factor, and energy efficiency are paramount. These FPGAs integrate a set of commonly used features and protocols, such as MIPI, Ethernet, and PCIe Gen3, making them ideal for use in machine vision, robotics, and consumer electronics. With logic densities ranging from 52,160 to 326,080 logic elements, Topaz FPGAs provide versatile support for complex applications while keeping power consumption low.\n\nThe advanced Quantum™ compute fabric in Topaz allows for effective packing of logic in XLR cells, which enhances the scope for innovation and design flexibility. These FPGAs excel in applications requiring substantial computational resources without a hefty power draw, ensuring broad adaptability across various use cases. Topaz's integration capabilities allow for straightforward system expansion, enabling seamless scaling of operations from R&D phases to full production.\n\nThe Topaz FPGA family is engineered to cater to extended product life cycles, which is crucial for industries like automotive and industrial automation where long-term system stability is essential. With multiple package options, including small QFP packages for reduced BoM costs, Topaz FPGAs provide an economically attractive option while ensuring support for high-speed data applications. Efinix's commitment to maintaining a stable product supply until at least 2045 assures partners of sustained innovation and reliability.
The V-By-One HS technology by Silicon Library is crafted to facilitate high-speed data transfers across various digital display interfaces. This innovation enhances video signal transmission efficiency, offering a solution to effectively handle increased video bandwidths necessary for high-resolution content display. Targeted specifically at eliminating bottlenecks in transmission over longer distances, V-By-One HS supports data rates that cater to the growing demand for higher refresh rates in modern displays. It is ideal for use in television screens, computer monitors, and other display devices that require seamless data transfer coupled with low latency performance. Furthermore, this technology prioritizes energy efficiency, leveraging innovative techniques to reduce power consumption without sacrificing performance. The IP allows for an extended range of uses in both consumer and commercial digital display systems, proposing a scalable solution adaptable to various technological advancements.
The DisplayPort Receiver is an essential component for receiving and interpreting high-quality audio and video data streams from a DisplayPort source. Compatible with the latest VESA DisplayPort standards, this receiver is built to handle both screen and audio signals with precision and minimal latency. It integrates sophisticated timing recovery features and boasts compliance with I2S and SPDIF audio protocols, ensuring that it remains versatile across different devices and applications. This receiver is designed to serve industries such as consumer electronics and professional video production, where reliability in signal reception and minimal downtime are crucial. Its capability to work seamlessly with multiple interfaces makes it a versatile asset for developers aiming to build robust multimedia systems, whether it be digital televisions, gaming devices, or large-scale video walls. Equipped to sync efficiently with various compilers on architectures like x86 and ARM, it guarantees that integration is both smooth and effective, validating its potential as a component for high-performance SoCs and FPGAs. The DisplayPort Receiver stands out with its real-time performance capabilities and ensures that the final output maintains high fidelity, catering to sectors that require uncompromised audio-visual quality.
Secure Protocol Engines from Secure-IC are designed to enhance network and security processing in data centers by offloading heavy computational tasks. These engines feature some of the industry's fastest SSL/TLS handshaking capabilities, paired with ultra-high-performance MACsec and IPsec processing. By managing demanding network tasks, Secure Protocol Engines enable data centers to optimize resources and improve system performance significantly. As data transmission and sensitive information exchange become increasingly common, these engines provide crucial support in maintaining robust security measures against interception and unauthorized access. The Secure Protocol Engines are optimized to integrate seamlessly with existing infrastructures, ensuring minimized impact on overall system efficiency and maximizing throughput and security.
The Alcora V-by-One HS Daughter Card is tailored for high-speed digital interfacing, specifically aligning with FPGA development boards via FMC connectors. The card features 8 RX and 8 TX lanes, with the option to combine two FMC cards for a total of 16 lanes. This configuration supports video resolutions up to 4K at 120Hz or 8K at 30Hz, demonstrating its capability to handle large volumes of data efficiently. Designed to meet the demanding requirements of high-resolution and high-frame-rate applications, the Alcora card integrates dual clock generators to optimize signal clarity by synthesizing the transceiver reference clock and minimizing jitter. This characteristic is crucial in maintaining data integrity and ensuring smooth video performance, making the Alcora an optimal choice for flat panel display integration. Featuring flexible connectivity options, the Alcora card is available in both 51-pin and 41-pin header variants. This design ensures that it can provide a comprehensive interface to meet various technical challenges, advancing the capabilities of high-speed digital communications within FPGA systems.
APIX3 represents the latest evolution in high-speed data transmission modules, engineered specifically for automotive infotainment and cockpit architectures. Designed to interface seamlessly within vehicle IT landscapes, it supports transmissions up to 12 Gbps using shielded or quad twisted pair cables. APIX3 offers unique capabilities like multiple video stream handling on a single connection and supports advanced diagnostics, including cable health checks for predictive maintenance. This technology is backward compatible with APIX2, enhancing modular flexibility across previous and new vehicle designs. With support for UHD automotive display resolutions, APIX3 ensures all-in-one connectivity solutions for complex exterior and interior automotive systems. The APIX3 modules enable comprehensive networking through various serial interface protocols and are positioned as go-to solutions for future-proofing in-car data systems. Each channel within APIX3 is fine-tuned for specific needs, from video data handling to full-duplex telecommunications. Additionally, APIX3 supports Ethernet connectivity for seamless integration into the larger automotive communication network. Thanks to its efficient design, APIX3 provides stability and enhanced bandwidth support, delivering robust performance suited for both entry-level and high-end automotive systems.
The ARINC 818 Product Suite offered by Great River Technology is designed to support the entire lifecycle of ARINC 818 enabled systems. This suite offers tools for the development, qualification, and testing of ARINC 818 products. With robust simulation capabilities and expert guidance, clients benefit from a streamlined process to bring complex ARINC 818-based systems to functional reality. Whether for airborne, ground, or naval applications, the suite provides comprehensive support in implementing ARINC 818 protocols. Great River Technology's ARINC 818 tools are the cornerstone for organizations needing to integrate advanced video and data systems operationally. The product suite includes a development suite and flyable products, offering resources for learning, implementing, and testing ARINC 818 standards. Their unique ability to productize every aspect of the ARINC 818 standard demonstrates unparalleled commitment to customer success in avionic technology. Clients can access specialized interface solutions that facilitate easy integration into varied technological environments. As a leading supplier of ARINC 818 tools globally, Great River Technology supports the development and qualification of systems to assure performance in demanding operational circumstances.
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.
As part of the advanced communication toolkit, the DSER12G addresses the need for robust data/clock recovery and deserialization at rates between 8.5Gb/s to 11.3Gb/s. Prominent in 10GbE, OC-192, and equivalent setups, it boasts ultra-low power design principles grounded in IBM's 65nm technology. Supporting high noise immunity and compact integration, it is a cornerstone in systems requiring efficient data management and communications interfaces across various digital infrastructures.
Integrated with advanced PCI Express Rev. 2.1 capabilities, the GL9767 card reader controller is equipped to manage a wide range of SD memory card types. It features robust support for high-capacity cards up to 128TB and ultra-fast data transfer protocols, including SD Express cards offering speeds up to 3940MB/s. This high level of performance is accompanied by power efficiency, thanks to features like ASPM and advanced runtime power management. Its architecture accommodates a variety of high-speed signaling specifications, including UHS-II and SD 8.0, ensuring full compatibility with the latest memory card technologies. Integrated voltage regulation and switching contribute to its minimal energy consumption while maintaining high transfer rates suitable for demanding applications. Capable of fitting seamlessly into modern systems, the GL9767 is engineered to support seamless PCIe hot plug-and-play functionality, making it suitable for use in consumer electronics, computing, and storage industries. It serves as an ideal hub for facilitating data-intensive operations with minimal latency and high efficiency.
PCS2100 is a modem chip specifically crafted for Wi-Fi HaLow IoT applications, part of Palma Ceia's lineup designed according to IEEE 802.11ah standard. This chip empowers IoT devices by ensuring effective long-range communication over low power networks, essential for smart networks scaling up extensive regions. It functions over sub-gigahertz bands, distinguishing itself by enabling communication extending up to 1 kilometer. This expansive reach, combined with the high-density network support, makes the PCS2100 exceptionally suitable for smart city infrastructures and industrial IoT networks. The chip's architecture allows it to operate over 755 to 928 MHz bands with great efficiency, abiding to different regional regulations. Enhanced by protocols that minimize power use, such as Target Wake Time, this chip ensures long battery life in IoT deployments, pivotal for resource-heavy setups like smart manufacturing. The PCS2100 includes robust security protocols, supporting WPA3 Personal and others, to ensure secure data transmission across device connections.
The UHS-II solution is crafted to enhance data transfer rates within low-voltage environments. It particularly supports high-definition content transmission, which is critical for modern mobile devices requiring seamless streaming and heavy data loads. Utilizing a modular design approach, it ensures a robust and efficient layout that facilitates optimal performance and reliability.
The TCP/UDP/IP Network Protocol Accelerator Platform (NPAP) is designed to expedite data transmission while ensuring low latency across Ethernet links. With high-bandwidth capabilities, this platform supports a range of Ethernet speeds from 1G to 100G. The solution benefits from custom hardware acceleration, offloading TCP/UDP/IP tasks to FPGAs, thus freeing up CPU resources for other computational tasks. Significant improvements in network throughput and latency reduction are achieved by integrating complete TCP/UDP/IP connectivity into FPGAs, essential for high-performance applications without using a CPU at all. The NPAP platform offers a highly modular TCP/UDP/IP stack, adaptable to various processing environments. Capable of operating at full line rates in both FPGA (70 Gbps) and ASIC (over 100 Gbps) domains, the platform features 128-bit wide bi-directional data paths and streaming interfaces. It supports scalable processing with multiple parallel TCP engines, allowing seamless operations in data centers and SmartNICs while providing deterministic performance thanks to embedded hardware processing. An additional feature of NPAP is its comprehensive integration within a remote evaluation system. Users can test the platform's capabilities remotely through a dedicated lab, aiding in rapid evaluation without the need for extensive on-site hardware setups. This makes it highly beneficial for applications such as networked storage, iSCSI systems, and automotive backbones, where high data throughput and minimal delay are critical requirements.
The Universal Chiplet Interconnect Express (UCIe) by Extoll is a cutting-edge technology designed to meet the increasing demand for seamless integration of chiplets within a system. UCIe offers a highly efficient interconnect framework that underpins the foundational architecture of heterogeneous systems, enabling enhanced interoperability and performance across various chip components. UCIe distinguishes itself by offering an ultra-low power profile, making it a preferred option for power-sensitive applications. Its design focuses on facilitating high bandwidth data transfer, essential for modern computing environments that require the handling of vast amounts of data with speed and precision. Furthermore, UCIe supports a diverse range of process nodes, ensuring it integrates well with existing and emerging technologies. This innovation plays a pivotal role in accelerating the transition to advanced chiplet-based architectures, enabling developers to create systems that are both scalable and efficient. By providing a robust interconnect solution, UCIe helps reduce overall system complexity, lowers development costs, and improves design flexibility — making it an indispensable tool for forward-thinking semiconductor designs.
The FaintStar sensor is engineered primarily for medium to high precision star tracking applications, including navigation and rendezvous tasks in aerospace settings. Characterized by its 1020 x 1020 pixel array and a 10μm pitch, it includes 12-bit A-to-D conversion, ensuring significant detail in imaging precision. The sensor’s design is robust and reliable, evident in its Flight-proven Technology Readiness Level 9 (TRL9) status, affirming its tested and trusted use in critical missions. An important feature of the FaintStar is its 'light-to-centroids' image processing capability, which is highly attuned to the needs of aerospace navigation, providing accurate and reliable data processing needed for space applications. The sensor includes connectivity options via a SpaceWire LVDS command/data interface, capable of 40Mb/s and 80Mb/s speeds, facilitating seamless communication. Its construction is specifically tailored to withstand the challenging conditions of space, highlighting radiation tolerance including Total Ionizing Dose (TiD), proton sensitivity, and Single Event Effects (SEE) data are verified. Being ITAR-free enhances its accessibility for international collaborations, while it meets the standards set by ESCC 2269000-evaluated and ESCC 9020 flight model procurement, ensuring compliance and reliability in operational use.
Dyumnin's RISCV SoC is built around a robust 64-bit quad-core server class RISC-V CPU, offering various subsystems that cater to AI/ML, automotive, multimedia, memory, and cryptographic needs. This SoC is notable for its AI accelerator, including a custom CPU and tensor flow unit designed to expedite AI tasks. Furthermore, the communication subsystem supports a wide array of protocols like PCIe, Ethernet, and USB, ensuring versatile connectivity. As for the automotive sector, it includes CAN and SafeSPI IPs, reinforcing its utility in diverse applications such as automotive systems.
The Catalyst-GbE provides high-performance networking solutions for PXIe systems, equipped to handle intensive data transmission tasks efficiently. Featuring state-of-the-art COTS NIC modules, it delivers superior Ethernet connectivity by leveraging Intel and NVIDIA Mellanox technology. Designed to operate within a single-slot PXIe/CPCIe configuration, Catalyst-GbE modules provide exceptional value and performance for PXIe systems, achieving rapid deployment with their 30-day delivery window. Their modularity makes them suitable for a range of tasks, ensuring seamless integration into existing systems while offering excellent pricing and value in the marketplace. By facilitating robust Ethernet connectivity, the Catalyst-GbE enhances networking capabilities within PXIe platforms, fitting perfectly for applications needing multiple high-speed data lanes like test and measurement and rapid data processing setups.
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 INAP590T is a cutting-edge digital multi-channel SerDes transmitter specifically crafted for high-speed infotainment applications. Found in the APIX3 suite, this component is built to ensure seamless interactions between HDMI interfaces and APIX2 technology, featuring HDCP support for secure content transmission. This transmitter facilitates a DC-balanced, low latency point-to-point link, perfect for applications requiring robust data transmission like immersive in-car entertainment systems. Capable of handling dual high-definition content streams and supporting resolutions up to 1920x1080 at 30Hz, the INAP590T is ideal for modern display technologies within vehicles. It includes multiple interface options and supports comprehensive full-duplex communication channels, allowing for flexible system design and integration. Furthermore, the robust diagnostic features ensure optimal operation and readily identify potential issues for proactive maintenance. Designed for scalability and forward compatibility, the INAP590T supports extensive bandwidth requirements and is packaged for installation convenience. The integration of Ethernet interfaces, along with GPIO configurations, enables versatile connectivity options to meet diverse automotive needs, ensuring broad applicability across current and next-generation vehicles.
The PCS2500 functions as a Wi-Fi HaLow Access Point, dynamically managing IoT devices within extensive networks while operating under the IEEE 802.11ah specification. It serves as the gateway for IoT networks, efficiently linking devices within its range through sub-gigahertz frequencies over distances of up to 1 kilometer. This highly integrated chip supports both 1 MHz and 2 MHz channel bandwidths, ensuring reliable communication and flexible use within various regional frequency regulations. It combines superior bandwidth and low power consumption through innovative features such as Resource Allocation Windowing and Target Wake Time, making it ideal for high-density IoT deployments. The PCS2500 is fortified with robust security protocols and includes digital functions for streamlined system integration, facilitating a seamless setup as a high-performance access point. High spectral sensitivity and its vast connection capacity contribute to its role in efficiently managing extensive sensor networks, establishing itself as a foundational component for smart industries and consumer hardware networks.
Designed for high-capacity data transfer over fiber optic networks, the SER12G facilitates 32:1 serialization for robust telecommunications. Capable of sustaining data rates from 8.5Gb/s to 11.3Gb/s, this module is essential for SONET/SDH and 10GbE operations, embracing IBM's 65nm CMOS technology. The design boasts low power requirements and integrates CMU and frac N PLL, making it suitable for both line and host side transmission, effectively enhancing data throughput and signal integrity.
The Video Wall Display Management System is a flexible solution using FPGA technology, designed for high-quality image processing and output across multiple displays. It handles input from HDMI or Display Port sources, delivering processed video synchronized on up to four individual screens. This system is ideal for setups requiring intricate video configurations, such as digital signage or multi-display environments. It supports resolutions up to 3840x2400p60 for input and up to 1920x1200p60 for outputs, providing excellent image clarity and synchronization. Its flexibility is enhanced by supported configuration modes including Stretch, Cloned, and Independent outputs, with customizable bezel compensation. A software API facilitates easy configuration and control, ensuring seamless management of video outputs. The Video Wall System is continually being refined, with future developments aiming at greater support for larger display setups through linked FPGA units. This system provides a robust solution for customizable, high-quality video display management, catering to diverse application needs.
The DisplayPort 1.4 provides a comprehensive solution for DisplayPort needs by offering both source (DPTX) and sink (DPRX) configurations. It supports various link rates from 1.62 Gbps to 8.1 Gbps, including embedded DisplayPort (eDP) rates. This versatility makes it ideal for a wide range of applications, including those requiring either Single Stream Transport (SST) or Multi Stream Transport (MST). With support for dual and quad pixels per clock, as well as 8 & 10-bit video in RGB and YUV 4:4:4 color spaces, the DisplayPort 1.4 is well-equipped to handle high-resolution video tasks. The robust features of DisplayPort 1.4 include a Secondary Data Packet Interface designed for audio and metadata transport, ensuring comprehensive support for multimedia applications. Parretto also enhances the IP with a Video Toolbox containing a timing generator, test pattern generator, and video clock recovery functions. These components facilitate seamless integration and operational efficiency within a wide array of systems. This product supports numerous FPGA devices, such as AMD UltraScale+, Intel Cyclone 10 GX, and Lattice CertusPro-NX, giving users flexibility in their choice of hardware. The availability of source code on GitHub allows users to tailor the IP specifically to their design requirements, broadening the scope of customization and ensuring a perfect fit in various applications.
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.
Bridging complex data communication requirements, the SERDES12G offers comprehensive serialization/deserialization capabilities, supporting 32:1 and 1:32 operations at speeds of 8.5Gb/s to 11.3Gb/s. With robust low power features, its design leverages IBM's 65nm technology, vital for SONET/SDH and XFI protocols in modern telecommunication systems. By integrating CDR and CMU, it provides high performance and stability, ensuring seamless data handling across a wide array of applications.
SERDES solutions from Analog Bits deliver ultra-low-power, high-performance signal transmission with flexibility for diverse interfaces like PCIe, SAS, and USB. Capable of supporting high-speed, multi-protocol operations, these solutions enable efficient chip-to-chip communication with minimal latency and die area, customizable for a wide range of market applications.
The Serial Peripheral Interface (SPI) MRAM by Everspin is crafted to meet the needs of applications requiring rapid data transactions with minimal pin usage. This memory solution excels in speed, offering reading and writing operations faster than many parallel MRAMs due to the efficiency of its four data lines in Quad SPI mode.\n\nThis device is encased in a compact 16-pin SOIC package and engineered for low power consumption while maintaining swift data access at 52MB per second. Such capabilities make it suitable for systems requiring efficient space management alongside robust performance, such as industrial computing and embedded system applications.\n\nSPI MRAM is designed for simplicity in integration, supporting both rapid prototyping and long-term deployments in data-intensive environments. Systems such as next-generation RAID controllers and embedded logs benefit from its fast access speeds and non-volatile characteristics, ensuring data retention even during unforeseen power outages.
The INAP375R receiver, functioning as a complementary device to the INAP375T transmitter, is an essential component for high-speed serial data communication in car displays and camera systems. This receiver utilizes the APIX2 technology to maintain a DC-balanced, AC-coupled low latency, point-to-point link over shielded twisted pair (STP) cables. Its physical layer can support data transfer rates up to 3 Gbps, offering low electromagnetic interference (EMI) for delicate automotive electronics. Primarily targeting automotive display applications, the INAP375R supports flexible video interfaces that can handle 1 to 2 independent video streams, managing both parallel RGB and LVDS connections with ease. The receiver is engineered with an integrated Media Independent Interface (MII) that interfaces directly with Ethernet MACs, expanding its application potential to full network capabilities. The presence of a full-duplex communication channel ensures uninterrupted, synchronized data, video, and audio transmission across system components. This device is packaged in an LQFP or aQFN format, providing robust design options to accommodate diverse automotive circuit board specifications. It also features advanced diagnostic capabilities to maximize reliability and minimal error rates, making it suitable for critical automotive applications such as infotainment systems, rear-seat entertainment setups, and driver assistance systems.
The Obsidian Technology OTC9115 USB 3.1 Cable Marker is an advanced tool for identifying and marking USB 3.1 cables. Designed to facilitate easy cable management, this product helps reduce losses and mishandling in professional environments. It integrates seamlessly into existing cable systems, providing an efficient solution without compromising on aesthetic appeal or functionality. This cable marker stands out by offering robust connectivity features that maintain high-speed data transfers while marking the cable for easy identification. The durable construction ensures longevity in various environmental conditions, making it ideal for industrial, office, and high-tech workspaces. Whether used in a bustling office or a high-demand technical environment, the OTC9115 ensures cables are easily identifiable, enhancing both the appearance and functionality of cable management systems.
The Ceva-Waves UWB platform provides a robust Ultra-wideband solution that allows for precise ranging and secure communication in SoCs. This platform is suitable for applications where precise location tracking and secure communication are paramount, such as automotive digital keys and real-time location systems (RTLS).\n\nFeaturing optimized MAC and PHY hardware with advanced interference management techniques, Ceva-Waves UWB provides GHz-level bandwidth to enable high-speed data transfer with centimeter-level accuracy in location tracking.\n\nThe platform supports industry standards such as FiRa 3.0 and CCC Digital Key 3.0, ensuring it meets modern demands of secure connectivity in automotive and consumer electronics. With a foundation for rapid application deployment, the Ceva-Waves UWB platform is integral for next-gen secure positioning technologies.
The INAP375T transmitter provides a high-speed digital serial link specifically designed for display and camera applications in automotive environments. Utilizing APIX2 technology, it supports DC-balanced, AC-coupled low latency connections over shielded twisted pair (STP) cables, facilitating data transfer with a bandwidth reaching up to 3 Gbps. This transmitter offers a flexible video interface that can accommodate one or two independent video streams, integrating seamlessly with video resolutions such as 1600x600 pixels at refresh rates up to 100Hz. Notably, the device supports comprehensive full-duplex communication channels, reinforcing connectivity for diverse automotive applications. With its sophisticated AShell protocol, the INAP375T ensures error-detection and seamless data transmission. Connectivity extends further through a Media Independent Interface (MII), which allows direct pairing with an Ethernet media access controller, ensuring robust network capabilities. Moreover, the inclusion of a built-in audio path permits synchronous transmission of multiple stereo audio channels, contributing to enhanced multimedia experiences inside vehicles. Featuring a versatile LQFP or aQFN package, the INAP375T is engineered to support backward compatibility with APIX1 technology, offering substantial flexibility across legacy and modern systems. Its sophisticated configuration options, accessed via interfaces like SPI, further bolster its position as an integral component in advanced driver assistance and infotainment systems in the automotive industry.
The ARINC664 End System is engineered for aerospace applications, providing a crucial interface between aircraft Line Replaceable Units (LRUs) and the ARINC664 network. This IP core adheres to the ARINC664 part 7 standards, facilitating secure and efficient data communication in high-speed avionics networks. This robust connectivity solution supports aerospace industry's increasing demand for reliable and high-performance communication systems.
The N5186A MXG Vector Signal Generator is a highly sophisticated testing device engineered to deliver cutting-edge performance for both wireless communication and aerospace and defense applications. It serves as an essential tool for engineers demanding a high level of precision in signal generation, from basic waveform outputs to complex digital modulation. With broad frequency coverage, the N5186A handles a wide array of signal types, making it indispensable for developing and testing RF systems. Its unmatched accuracy and simplicity in configuration allow engineers to simulate real-world conditions effectively, facilitating design verification in highly demanding testing scenarios. The generator's superior phase noise performance and extensive modulation capabilities ensure that advanced communication protocols and modulation schemes can be tested thoroughly. Designed to meet the rigorous needs of next-generation communication systems, it supports both standard and custom-developed signals, enhancing simulation fidelity for emerging technology validations.
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.
The MIFARE Certification Technologies is a critical component in the realm of certification technologies, especially focusing on contactless smart card solutions. As urban centers integrate smart solutions for transportation, access control, and payment systems, MIFARE technology offers robust security and efficient processing. LSI-TEC ensures that products comply with stringent security and functionality standards through comprehensive certification. In the smart card sector, precision and compliance are pivotal for market acceptance. MIFARE Certification Technologies offer a seamless validation process, validating contactless products' interoperability and compliance with industry norms. This ensures reliability and security in every transaction or access operation. By leveraging these technologies, LSI-TEC plays an essential role in advancing secure, seamless, and scalable payment solutions. Their certification processes help partners and clients meet international standards, facilitating smoother integration into global markets, and setting a benchmark in smart card technology certification.
The High-Speed Interface by IPGoal is engineered to facilitate rapid data transfer and reliable communications. Its core competitiveness is rooted in advanced serial connection technology, making it optimal for applications that demand swift and stable data exchange. This interface assures users of both high data throughput and low power consumption, essential for modern devices where battery longevity and performance are crucial. The High-Speed Interface is widely applicable across sectors, from consumer electronics to industrial applications, showcasing its versatility and technological robustness. With proven mass production capabilities, the interface offers assurance of quality and reliability, underpinned by rigorous testing and validation processes. This product is an excellent choice for businesses seeking to enhance connectivity solutions in their projects.
The V2X Router is an innovative communication solution that facilitates vehicle-to-everything (V2X) interactions, crucial for the advancement of smart transportation systems. This router enables vehicles to communicate not only with each other but also with traffic systems and infrastructure, enhancing real-time data exchanges that are essential for autonomous and connected vehicle environments. It supports seamless interactions by employing a suite of communication protocols tailored to automotive standards, ensuring low latency and high reliability essential for real-time decision-making. Through its advanced data processing and communication features, the V2X Router aids in accident prevention, traffic management, and facilitates the smooth implementation of intelligent transport systems. As a vital component of future transportation networks, this technology contributes to creating safer roads and improving traffic flow. The edge in connectivity provided by this router is instrumental in evolving the current capabilities of smart cities, making them more responsive and adaptable to inhabitants' needs.
The FireSpy Bus Analyzer series offers comprehensive solutions for IEEE-1394 bus analysis. Designed with flexibility in mind, the series provides in-depth protocol analysis, utilizing various optical and electrical modules for optimal performance. Perfectly suited for any application that demands precision and electronic control, the line is equipped to handle various IEEE-1394a and IEEE-1394b operations, offering transmission capacities ranging from S100 to S3200. By integrating Mil1394 protocol modules, these analyzers provide meticulous data capture, manipulation, and display functions, making them an essential tool for complex network maintenance and troubleshooting. The FireSpy series is grounded in the highest standards of aerospace technology, ensuring users are able to enhance connectivity and stability across their network systems. With robust diagnostics and monitoring capabilities, the series guarantees reliable data integrity and network performance monitoring. Its compatibility with a range of data protocols makes it highly versatile for complex and mission-critical environments, where rapid and consistent data flow is paramount. Furthermore, users benefit from FireSpy's sophisticated filtering capabilities that ensure precise real-time monitoring and analysis. These features, combined with user-friendly software, provide intuitive interfaces for efficient operation while retaining superior protocol compliance and meticulous testing routines, ensuring the application of rigorous standards across various sectors.
The LineSpeed FLEX Family encompasses a suite of 100G PHY products that support data rates and high-speed mechanisms essential for contemporary networking demands. These products include versatile functions such as retimers, gearboxes, and redundant links, enabling flexible data management on line cards or in modular systems. Each unit in the LineSpeed Family is engineered to meet stringent industry standards, ensuring compatibility and seamless integration across multiple infrastructures. LineSpeed products are designed to cater to diverse protocol requirements while supporting widely used IEEE and OIF network standards. They incorporate advanced retimer and forward error correction technologies, which ensure data integrity and enhance transmission over significant distances. By offering a common register structure, these products simplify system design and reduce deployment complexities related to differing protocol speeds. These solutions are essential for high-bandwidth environments, offering robust support for Ethernet and optical data transmission needs. The platforms cater to applications that necessitate high-reliability and low-latency data transfers, such as data center operations and telecommunications infrastructure. LineSpeed's dynamic architecture supports dense 10GbE aggregation from fewer ports and provides the flexibility necessary for modern network topologies.
FireTrac is an interface card that brings powerful enhancements for advanced MIL-STD-1394 or AS5643 data processing. It serves as a comprehensive platform that supports simulation and testing solutions, designed to handle intricate network traffic effectively. Its architecture is built to offer seamless data encapsulation and transmission, meeting specific integrative demands of aerospace systems. This card is engineered to promt seamless compatibility and superior performance in avionics applications, addressing specific protocols and data processing needs. The scale of configurability within FireTrac allows users to tailor it precisely to their system requirements, offering a degree of versatility that ensures it supports various host platforms through easy adaptation and scalability. Though built primarily for aerospace, its functionality can extend to industrial uses where precision in data handling and maintenance is crucial. The technology behind FireTrac allows for the generation and reception of real-time AS5643 signals that are vital in military and aerospace endeavors. This crucial component advocates performance reliability through robust design features and advanced AS5643 protocol support, capable of sustaining high-channel counts and ensuring precise timing even under the most demanding circumstances.
The AL-AVPLR-IPC is a compact, efficient H.264 AV decoder designed for industrial and consumer electronic applications. Built around the Zynq 7010 platform, it features dual ARM Cortex-A9 cores, making it well-suited for digital signage and infotainment systems. It supports high-definition video decoding with built-in audio processing capabilities, ensuring synchronized playback of multimedia content. Its architecture takes advantage of extensive programmable resources while optimizing power usage, balancing low operational cost with performance demands.
The AC97 Audio Controller offers compliant support for the AC97 Rev 2.3 standard, ensuring compatibility with a range of audio codecs and devices. This controller enables high-fidelity audio data management and is widely used in various multimedia and communication applications. It seamlessly integrates into systems that require robust and clear audio signal processing.
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