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.
Silicon Library Inc. provides a DisplayPort/eDP solution that forms a connection backbone in modern digital displays, supporting DP/eDP 1.4 standards. This interface IP is pivotal in ensuring pristine video and audio delivery specially adapted for use in monitors, laptops, and high-resolution screens. Crafted to handle significant data throughputs, this IP ensures seamless integration into high-end display systems. Its robust design allows for the smooth transfer of high-definition content, eliminating bottlenecks that are common in high-data environments. This efficiency is vital for next-generation devices that rely on Prompt rendering and delivery of complex visual data. Designed with versatility in mind, the DisplayPort/eDP caters to both embedded device needs and standalone display needs, offering exceptional performance and reliability. It's an essential component for manufacturers looking to implement top-grade visual technologies in devices aiming for a premium user experience.
The HDMI Rx from Silicon Library Inc. is designed to receive large volumes of both video and audio data, adhering to HDMI 1.4 and 2.0 standards. This IP is integral to processing high-definition multimedia content, making it essential for a plethora of consumer electronics that require reliable input interfaces. Engineered to work seamlessly with HDMI Tx components, it ensures that end devices can fully receive and display high-resolution content without delays or quality degradation. This functionality is critical in applications ranging from home theater setups to professional audio-visual equipment, where user expectations for seamless performance are paramount. The emphasis on maintaining audiovisual integrity makes this HDMI Rx a vital component for manufacturers aiming to augment their devices’ multimedia capabilities. It showcases a meticulous approach to design, guaranteeing compatibility with the latest HDMI standards for an uncompromised media consumption experience.
The THOR platform is a versatile tool for developing application-specific NFC sensor and data logging solutions. It incorporates silicon-proven IP blocks, creating a comprehensive ASIC platform suitable for rigorous monitoring and continuous data logging applications across various industries. THOR is designed for accelerated development timelines, leveraging low power and high-security features. Equipped with multi-protocol NFC capabilities and integrated temperature sensors, the THOR platform supports a wide range of external sensors, enhancing its adaptability to diverse monitoring needs. Its energy-efficient design allows operations via energy harvesting or battery power, ensuring sustainability in its applications. This platform finds particular utility in sectors demanding precise environmental monitoring and data management, such as logistics, pharmaceuticals, and industrial automation. The platform's capacity for AES/DES encrypted data logging ensures secure data handling, making it a reliable choice for sectors with stringent data protection needs.
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 HDMI Tx solution provides a robust output interface for high-definition video and audio transmission, compatible with both HDMI 1.4 and 2.0 standards. It supports a variety of high-resolution formats, ensuring superior image quality and sound clarity in consumer electronics. The transmitter is designed to meet modern multimedia standards, facilitating extensive connectivity for a range of audio-visual equipment. This IP includes features that optimize its function in a multitude of display devices, such as televisions, monitors, and projectors. By integrating this HDMI Tx, manufacturers can enhance the multimedia capabilities of their devices, providing end-users with vibrant and detailed video output necessary for a superior viewing experience. Silicon Library Inc.’s HDMI Tx also embodies efficient power management and supports extensive data transfer speeds. It is crafted to ensure consistent performance across various consumer and professional electronic devices, thereby broadening the application reach of this high-performance IP module.
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.
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.
The APIX3 transmitter and receiver modules represent Inova Semiconductors' cutting-edge advancement in automotive multimedia innovation. Highlighting its versatility, APIX3 is developed to meet the rigorous demands of modern infotainment systems and premium cockpit architectures, supporting data rates up to 12 Gbps when utilizing quad twisted pair cabling. This provides high-resolution display connections, ideal for ultra-high-definition video applications within vehicles. Engineered for future scalability, APIX3 modules enable multiple video channels to traverse a singular connection, adhering to cost-effective implementations while maintaining high-performance standards. Compatibility extends to Ethernet technologies, ensuring seamless integration into existing vehicle communication systems and infrastructures, fostering more connected and smarter vehicles. The APIX3 infrastructure also features advanced diagnostic capabilities which foresee potential cable issues, accommodation through active equalizers that automatically adjust to transmission paths, and temperature adaptations. Such features significantly reduce maintenance needs, avoiding unplanned service interruptions, and contributing to safe, reliable data transmission.
Facilitate inter-chip communication within your AMD Zynq 7000 All Programmable SoC designs with the logiSPI IP core. It serves as a bridge between the Serial Peripheral Interface (SPI) and AXI4, simplifying the integration of various MCU components into your systems. This module is indispensable for ensuring smooth, reliable interfacing between digital devices in complex circuit designs.
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.
Analog Bits offers a highly adaptable SERDES solution aimed at multi-protocol integrations necessary for modern communication systems. Designed to meet the needs of PCIe Gen 3/4/5 technologies, these SERDES IPs provide exceptional customization to suit specific market needs while maintaining low power usage and minimizing die area. Developed on silicon processes such as 8nm, 7nm, and 5nm, the SERDES offerings support a variety of protocols like PCIe, SAS, and SATA, and ensure low-latency communications. Suitable for applications across FPGA designs, mobile computing, and other interfaces where high bandwidth and flexible deployment are critical.
YouMIPI includes comprehensive solutions for MIPI CSI and DSI interface implementations, enabling high-quality data stream management for cameras and displays. This ensures optimal performance in digital image processing, making it ideal for multimedia applications that require seamless data interface efficiency.
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.
Matterhorn acts as a state-of-the-art USB4 retimer that redefines high-speed data transfer capabilities. With low active power consumption in both USB4 and DisplayPort alternate modes, it simplifies system design and reduces bill of materials costs. Matterhorn assures full compliance with USB4, USB 3.2, and DisplayPort specifications, optimizing throughput while keeping risk minimal. Notably compact, Matterhorn occupies up to 50% less space than comparable devices, facilitating easier integration into a variety of consumer electronics. It features robust diagnostics including EyeScope and BER monitors, ensuring reliable performance throughout the product lifecycle. The simplicity of integration, coupled with dynamic correction capabilities, means it requires no system tuning post-installation. Supporting speeds of up to 40 Gbit/s for USB4 and up to 20 Gbit/s for Thunderbolt applications, Matterhorn is tailored for high-performance mobile, desktop, and display applications. It provides significant enhancements in terms of bandwidth and device performance, securing its position as a top choice for modern connectivity solutions.
The HDMI 2.1b IP Core from Bitec enables advanced HDMI interconnectivity in both FPGA and ASIC environments, supporting uncompressed video formats up to 8K60. This IP core is highly flexible, offering a range of parametric adjustments that ensure optimized design for both FPGA and ASIC workflows. It retains compatibility across a spectrum of HDMI and DVI standards. Key features include support for deep-color formats and a variety of channel audio options, enhancing both video and audio quality. A major advantage of this core is its seamless interface capability, which makes it adaptable to various system requirements. Its robust design integrates auxiliary data streams and optional encryption solutions, ensuring secure and efficient data handling. This core is ideal for scenarios that demand high-performance video processing and transmission, supporting a wide array of formats and uses.
The Fault Resistant Ethernet MAC by Green IP Core ensures reliable network communication by incorporating advanced fault tolerance into its architecture. This MAC (Media Access Control) aims to maintain seamless data transfer even in environments prone to packet loss or signal degradation, such as industrial settings and aerospace applications. This IP improves upon traditional MAC designs by implementing sophisticated error detection and correction mechanisms. These systems actively monitor the data flow, swiftly identifying and responding to faults that could compromise network stability and data integrity. This proactive approach minimizes the risk of data loss and reduces downtime, critical factors for operations depending on precise and continuous communication. Moreover, the Ethernet MAC is versatile, supporting a variety of protocols and configurations to suit the diverse needs of different environments. This adaptability ensures that it can be integrated into existing infrastructures, providing an efficient upgrade path for enhanced network reliability. Its design optimizes performance without compromising the speed and efficiency of data transmissions, making it suitable for any application where dependable network operation is essential.
The CT20601 IP core is an innovative USB Type-C interface solution supporting VCONN and VBUS management, designed to enable dual-role ports in electronic devices. This core is essential for applications requiring dynamic power negotiation and flexible functional roles, making it ideal for creating advanced USB Power Delivery systems. The CT20601 supports dead-battery operations and integrates smoothly with the broader power management ecosystem, facilitating device versatility and enhancing multimedia capabilities.
The USB3.1 Type-C PHY is an advanced interface solution designed to support the latest in USB connectivity standards. This product handles data transfer rates up to 10Gbps, providing a fast and reliable medium for data exchange between devices. The Type-C connector standard ensures a reversible plug orientation, enhancing user convenience and design flexibility. The PHY's architecture is optimized for both power efficiency and high-speed data communication, suitable for a broad range of consumer electronics, from smartphones and tablets to laptops and peripheral devices. It provides a robust channel for data transfer, video output, and power delivery, all through a single innovative connector. Incorporating this USB3.1 Type-C PHY into device architectures enhances their compatibility with modern USB-enabled ecosystems, offering seamless interoperability and future-proofing electronic products. Its efficient design supports robust data pathways essential for multimedia applications and fast charging capabilities, establishing it as a critical component for developers targeting the expanding market for comprehensive digital connectivity solutions.
The BW9906 is a robust 20Gbps 4-channel linear redriver that complies with the USB4 specification, serving the intricate requirements of high-speed signal applications. This redriver is engineered to provide adjustable equalization and flat gain control, crucial for optimizing performance over PCB traces and cables where signal integrity might degrade. With its single supply voltage operation at 3.3V and ultra-low power consumption, the BW9906 is particularly suited for applications in notebooks, PCs, and docking stations. Each of its channels can operate independently, allowing for tailored performance to meet specific system requirements. Advanced power management features allow the BW9906 to enter ultra-low power states when idle, contributing to energy efficiency in extended operations. Its compliant design with the UHBR20 of the DisplayPort 2.1 specification and support for DisplayPort Alternate Mode further extends its utility in multimedia and video processing sectors, making it an essential component for modern computing devices.
The Dual-mode DP/HDMI Transmitter IP represents a seamless interface solution that bridges the functionality of DisplayPort and HDMI 1.4b standards. Embedded within modern SoCs, this IP addresses the growing requirement for flexible display output options, allowing integration with a variety of displays ranging from HDMI-equipped TVs to DisplayPort monitors. By unifying these two prevalent interface types, the transmitter IP supports an adaptable approach to multimedia delivery, expanding its versatility across multiple platform types. The intricacies of this IP’s design involve precision mixed-signal engineering, with its framework providing adaptability in content transmission to accommodate both static and dynamic data flow needs. A sophisticated logic design within the IP enables efficient conversion processes, managing various channel configurations and data throughput scenarios with minimal latency. This performance-oriented design promotes enhanced visual fidelity and reduced power consumption, supporting a broad range of consumer and professional applications. Engineers utilizing the Dual-mode DP/HDMI Transmitter IP can capitalize on its ability to work with multiple video resolutions and frequencies, handling 3D and high-definition content with superior alignment. In addition, the transmitter offers design advantages through space-efficient implementation, assisting developers in minimizing board space requirements and managing production costs effectively, making it an appealing addition in high-performance media devices.
Bitec's HDMI 2.0b IP Core enhances digital video and audio connectivity by providing seamless HDMI interconnectivity without needing additional ASSP devices. This IP core supports ultra-high-definition video via pixel clocks up to 600 MHz and is compatible with deep color formats, accommodating a wide range of video and audio configurations. It includes support for advanced video features like 3D and Multi-Stream Transport audio. The core is designed for efficient resource use, ensuring minimal pin usage while maintaining high performance. It serves a broad spectrum of video resolutions and audio channels, making it a versatile choice for modern video solutions.
This High-Speed Interface Technology provides robust and high-performance connectivity solutions across a variety of electronic devices. Designed to support advanced semiconductor processes ranging from 28nm to 90nm, this technology facilitates seamless integration into modern microelectronics. It is tailored for high-speed data transfer, ensuring that electronic components can communicate efficiently and reliably. The High-Speed Interface encompasses technologies such as USB, DDR, MIPI, HDMI, PCIe, SATA, and XAUI. These interfaces are engineered to meet the increasing demand for faster and more efficient data processing in today's rapidly evolving digital landscape.
The DisplayPort 1.1a Transmitter is a sophisticated core designed to be fully compliant with the DisplayPort 1.1a standard, including High-bandwidth Digital Content Protection (HDCP) content specifications. This transmitter is integral to ensuring seamless video and audio data transmission, characterized by high-resolution graphical interfaces suited for a variety of consumer electronics, including personal computers and digital displays. The IP core facilitates the integration of advanced video features while maintaining compatibility with existing infrastructure, thereby enhancing both performance and user experience. By embedding the capabilities of DisplayPort 1.1a within a system-on-chip (SoC), this transmitter IP allows for high-speed data transfer and multi-channel connectivity. Its implementation supports efficient bandwidth management, enabling devices to deliver vivid and responsive visual outputs without degrading performance. This level of functionality ensures that the DisplayPort 1.1a Transmitter IP remains a valuable asset in the development of leading-edge digital media solutions. Moreover, the DisplayPort 1.1a Transmitter incorporates robust analog design techniques, leveraging equalizer, phase-locked loop (PLL), and delay-locked loop (DLL) technologies to optimize signal clarity and reduce interference. This technology guarantees that digital displays connected through the IP offer maximum visual clarity and reliability, making it ideal for high-fidelity entertainment systems as well as professional display scenarios.
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