All IPs > Interface Controller & PHY > HDMI
The HDMI (High-Definition Multimedia Interface) segment in the Interface Controller & PHY category offers a diverse range of semiconductor IPs that are crucial for managing video and audio data transmission between electronic devices. HDMI has become a universal standard in digital video and audio interfaces, prominently featured in today’s consumer electronics, including televisions, digital projectors, media players, and gaming consoles. The implementation of HDMI technology within semiconductor IPs ensures seamless connectivity and high-quality data exchanges that devices require to deliver superior performance and user experiences.
HDMI Interface Controller & PHY semiconductor IPs are designed to handle complex signal processing tasks that are necessary for both sending and receiving high-definition, uncompressed video and multi-channel audio streams. The PHY (Physical Layer) component plays a vital role in managing the physical media dependences and transmitting data across HDMI cables. This facilitates secure, reliable transmissions needed to support high bandwidth and high-resolution content, such as 4K Ultra HD, HDR (High Dynamic Range), and beyond. These IPs ensure signals maintain integrity and quality from source to display, minimizing latency and distortion that can affect viewer satisfaction.
These semiconductor IPs accommodate a range of features required by modern devices to enhance interoperability and flexibility. Advanced characteristics include support for various HDMI standards (such as HDMI 2.0, 2.1) that offer higher bandwidths, newer color spaces, and additional features like Enhanced Audio Return Channel (eARC) and robust content protection mechanisms. The integration of HDMI Interface Controller & PHY IPs into electronic design provides developers with the tools necessary to innovate and adapt to the evolving demands of digital multimedia markets.
In today’s technologically driven world, HDMI Interface Controller & PHY semiconductor IPs are indispensable for manufacturers seeking to create comprehensive and competitive digital media products. Whether for integrating into home entertainment systems, professional AV solutions, or portable devices, these IPs provide essential solutions for the next generation of electronics that promise enhanced multimedia experiences with impeccable quality and reliability.
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.
DisplayPort and Embedded DisplayPort (eDP) IP by Silicon Library enables advanced digital display connectivity, offering superior video performance and enhanced sound. Designed to serve high-resolution displays, this IP supports next-gen display protocols, delivering robust signal quality and efficient energy use.
HDMI Receiver IP by Silicon Library allows for the efficient and reliable reception of high-definition audio and video signals from a variety of HDMI sources. This IP component guarantees the integrity of transmitted data by employing advanced error correction methodologies, thus ensuring high quality and undistorted playback. The design focuses on supporting multiple HDMI standard versions, accommodating a wide spectrum of device connectivity requirements while maintaining backward compatibility. Its architecture emphasizes minimal delay in signal processing, allowing real-time multimedia to be displayed without lag, which is critical for both consumer electronics and professional audio-visual installations. This IP is engineered to handle the challenges of signal timing paths and electromagnetic interference, ensuring robust performance even in challenging environments. Applications extend from home entertainment setups to advanced multimedia presentation systems, offering flexibility and reliability based on users' specific demands and technological configurations.
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.
The THOR platform by Presto Engineering is a versatile NFC (Near Field Communication) sensor and data logging solution tailored for high-demand industrial and medical markets. It features multi-protocol NFC support and can integrate with external sensors, providing a platform for continuous data monitoring applications. THOR is designed to be highly customizable to meet specific requirements, with an emphasis on low-power operation which can be powered through energy harvesting. Its applications are vast, from industrial monitoring to smart medical wearables, providing secure data logging capabilities with AES/DES encryption.
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.
The HDMI Transmission technology from Silicon Library is crafted to support high-definition multimedia interface standards, ensuring high-quality video and audio output from multiple types of consumer electronics such as televisions, projectors, and displays. This transmitter module facilitates high-speed data transfer, capable of handling vast bandwidths necessary for crystal-clear signal transmissions. HDMI Tx excels in maintaining signal integrity over various transmission lengths, upholding quality across different configurations. It's designed for compatibility with multiple iterations of HDMI standards, making it versatile for integration into both existing and up-and-coming technologies. The IP facilitates seamless connection abilities, simplifying the user experience and enhancing multimedia interaction at home and in professional environments. Moreover, the transmitter supports high-definition resolutions, ensuring crystal-clear images and sound for viewers. It proves invaluable not only for entertainment devices but also for professional applications such as monitors and video conferencing equipment, where image fidelity and signal reliability are paramount.
The MIPITM V-NLM-01 is a specialized non-local mean image noise reduction product designed to enhance image quality through sophisticated noise reduction techniques. This hardware core features a parameterized search-window size and adjustable bits per pixel, ensuring a high degree of customization and efficiency. Supporting HDMI with resolutions up to 2048×1080 at 30 to 60 fps, it is ideally suited for applications requiring image enhancement and processing.
Brite Semiconductor's YouMIPI offers a complete set of solutions for MIPI interfaces, particularly focusing on the CSI and DSI standards. The solution is adept at handling data from a sensor to the image processing parts of a system, converting byte streams into pixel data while mitigating electromagnetic interference through configurable data scrambling. Featuring compliance with multiple versions of the MIPI standards, YouMIPI supports substantial data rates across several lanes in C-PHY and D-PHY configurations, allowing for flexible integration with a wide range of application processors. The architecture provides efficient multi-channel distribution and manages synchronization effortlessly, addressing both high-speed and low-power operational modes as specified by MIPI. YouMIPI is particularly designed for use in camera modules and display interfaces in mobile devices, automotive solutions, and consumer electronics. The robust design underpinning YouMIPI ensures optimal data handling and high-quality signal processing for superior image and display performance.
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.
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 HDMI 2.1b IP Core by Bitec is a robust solution designed to support the latest in HDMI technology standards, delivering ultra-high data transfer capabilities ideal for advanced video applications. It ensures seamless HDMI interconnectivity, allowing for the highest quality visual display and audio performance in electronic devices. This IP Core is targeted at customers looking to integrate the latest HDMI functionalities into their products, thereby ensuring compatibility with modern home entertainment and professional AV equipment. The HDMI 2.1b standard introduced enhancements such as dynamic HDR support and increased bandwidth to accommodate resolutions up to 10K. Through the use of Bitec’s IP Core, customers can benefit from features that support variable refresh rates, reducing latency and ensuring a smoother display performance. This makes it particularly appealing for applications in gaming or intensive video processing environments where performance cannot be compromised. Additionally, Bitec's HDMI 2.1b IP Core is characterized by its optimized architecture, which facilitates the reliable streaming of content without compression, maintaining the integrity of visual and audio data. It is a versatile choice for developers keen on crafting products that deliver outstanding media experiences while aligning with the latest standards of multimedia communications.
The CT20601 provides an integrated solution for USB Type-C applications, managing VCONN and VBUS for dual-role ports. It ensures functionality even in dead-battery operations. Designed for seamless integration, this IP core simplifies the design of USB Power Delivery solutions up to 100W. It supports both power negotiation and robust multimedia capabilities, ensuring efficient and secure power management application in consumer electronics, industrial devices, and more.
The BW9906 is a high-speed linear redriver designed to extend USB4 signals across devices. Compliant with the USB4 specification, it efficiently manages data integrity across longer PCB traces or cables, ensuring optimized signal quality. The BW9906's functionality is centered around its four-channel, 20Gbps capacity, which comes with adjustable equalization and gain controls to precisely mitigate potential signal loss. Utilizing advanced power management, the BW9906 capitalizes on ultra-low power consumption during device idleness while maintaining robust performance during active states. This efficiency makes it particularly suited for integration into space-constrained applications such as laptops and docking stations. Furthermore, the redriver supports various states out of the box, contributing to reduced power draw and increased device longevity. Engineered for future-ready hardware setups, this product is ideal for environments requiring significant data throughput across connected systems. Its streamlined architecture reduces design complexity, enabling manufacturability alongside existing display and computer interconnection technologies.
Focused on ensuring reliable data transmission over Ethernet networks, this MAC unit incorporates fault resilience features that maintain network integrity even during faults. Designed with critical industrial and commercial applications in mind, it supports stable and secure data exchange, aiming to minimize disruptions in communication links.
The USB3.1 Type-C PHY is a cutting-edge solution engineered to enhance USB connectivity with support for data rates up to 10Gbps. This PHY seamlessly supports USB Type-C connectors, facilitating reversible plug orientation and enabling robust data transfer capabilities. Designed to align with eDP V1.4 transmission standards, it ensures compatibility with the latest display protocols. This PHY solution is optimized for integration with modern designs, supporting manufacturing processes at both 55nm and 14nm nodes, demonstrating its versatility across various fabrication technologies. The design is focused on achieving maximum performance with minimal power consumption, contributing significantly to efficient system designs. Its comprehensive features enhance the user experience by ensuring fast and effective data communication. The USB3.1 Type-C PHY stands as a testament to Naneng's commitment to innovation and excellence in semiconductor design, providing a reliable and future-proof interface solution for contemporary electronic devices.
Bitec’s HDMI 2.0b IP Core is a powerful solution for enabling HDMI connectivity across a broad spectrum of electronic devices. It brings high-speed digital video and audio transmission capabilities to consumer electronics, including televisions, monitors, and home theater systems. With support for resolutions up to 4K at 60Hz, it is designed to meet the growing demands of high-definition video applications. This IP Core supports a wide range of features including deeper color depths up to 48 bits, and enhanced operational efficiencies for transmission, creating ultra-clear and smooth visuals. The HDMI 2.0b standard also supports High Dynamic Range (HDR), which translates into vibrant images with higher contrast ratios and more precise color rendering, a must for modern entertainment systems. By incorporating Bitec’s HDMI 2.0b IP Core, manufacturers can provide consumers with enhanced audio and video quality, meeting the expectations of an increasingly tech-savvy market. This integration enables devices to deliver features like multi-stream audio, synchronized audio streams, and dynamic auto lipsync, ensuring an immersive audiovisual experience. Its capability to handle complex signal processing with minimal latency makes the HDMI 2.0b IP Core an indispensable element in advancing the multimedia functionalities of consumer electronics, facilitating seamless content interaction.
The Ceva-Waves Wi-Fi Platforms portfolio provides a flexible suite for implementing Wi-Fi connectivity in a range of SoCs, from low-power IoT devices to high-performance multi-user hubs. This solution supports Wi-Fi versions from Wi-Fi 4 through to Wi-Fi 7, offering adaptability for every level of throughput demand and application scope.\n\nThe platform includes PHY and MAC layer IP that supports contemporary modulation techniques to ensure robust data transmission across various bandwidth and spectrum allocations. The harmonized operation of Wi-Fi along with other wireless technologies, such as Bluetooth and UWB, within the same ecosystem is facilitated by a shared interface, enhancing device connectivity efficiency.\n\nOptimized for reduced size and energy consumption, the Ceva-Waves Wi-Fi Platforms are ideal for dynamic environments where maintaining high-speed connections and multi-user access is critical, such as smart home systems, industrial control networks, and enterprise communication hubs.
High-Speed Interface Technology by VeriSyno is engineered to leverage advanced node processes ranging from 28nm to 90nm. This technology meticulously caters to the critical need for fast data transfer in modern computing environments. Designed with precision, these IPs support a variety of interfaces including USB, DDR, MIPI, HDMI, PCle, and SATA among others, highlighting the versatility of their engineering. The core strength of this high-speed solution lies in its adaptability to multiple process nodes, meeting customer demands for scalable solutions. Trusted by numerous clients, this technology enhances device compatibility and interoperability, crucial for today’s high-performance electronics. With capabilities to provide tailored IP porting services, VeriSyno ensures that their products align with both state-of-the-art and traditional processes. Further, the company provides dedicated support to ensure seamless integration and maximal performance. Their expertise in the domain makes these high-speed interfaces a reliable choice for next-generation consumer electronics, telecommunications, and data processing sectors.
intoPIX's SDI Mapping IP Cores offer a unique solution to efficiently transport compressed video formats like TicoXS over legacy SDI interfaces. This innovative technology maximizes the use of existing SDI infrastructure, allowing the transport of higher bandwidth and resolution video signals, such as 4K and 8K, over standard HD-SDI or 3G-SDI lines. The SDI Mapping IP Cores employ advanced processing techniques to replace the legacy video data with compressed data, improving bandwidth efficiency by more than 20% on top of the lightweight compression techniques. This technology is crucial for broadcasters and content providers who need to maintain high-quality video transmission while upgrading their systems to support higher resolutions. By implementing this IP, users can significantly reduce the cost and complexity of their video transport systems, leveraging existing infrastructure to its fullest potential. This flexibility allows for seamless integration into digital video workflows, ensuring high reliability and compatibility across various media platforms and devices.
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