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.
Silicon Library's HDMI Receiver (Rx) IP is designed to provide a seamless interface for receiving high-definition digital video and audio from HDMI sources. It supports both HDMI 1.4 and 2.0 standards to ensure interoperability with a broad range of HDMI-compliant devices, encompassing applications in consumer electronics and multimedia systems. Engineered for precision and efficiency, the HDMI Rx IP features powerful decoding technology that ensures high fidelity and accurate playback of digital media content. The receiver is tailored for environments that require robust handling of HD and UHD content, offering enhanced image and sound capabilities to deliver an immersive viewing experience. The HDMI Rx offers adaptive equalization and clock signal management to maintain signal integrity at various transmission distances. With its low-power architecture and versatile configuration options, this IP provides an adaptable solution that meets the demands of modern multimedia systems, delivering unrivaled performance in digital data reception.
The MIPITM V-NLM-01 is specialized for efficient image noise reduction using non-local mean (NLM) algorithms. This resourceful hard core supports parameterized search-window sizes and a customizable number of bits per pixel to enhance visual output quality remarkably. Designed to facilitate HDMI outputs at resolutions up to 2048×1080 at frame rates ranging from 30 to 60 fps, it delivers flexibility for numerous imaging applications. Its efficient implementation renders it suitable for tasks demanding high-speed processing and precise noise reduction in video outputs. The MIPITM V-NLM-01’s algebraic approach to noise reduction ensures exceptional image clarity and fidelity, making it indispensable for high-definition video processing environments. Its adaptability for variable processing requirements makes it a robust solution for current and future video standards.
Silicon Library's DisplayPort/eDP IP delivers a versatile solution for high-definition display interfaces, empowering a wide range of electronic devices to transmit and receive vivid visual content. Compatible with the latest DisplayPort standards, this IP supports robust data throughput, making it ideal for demanding applications like high-resolution monitors, gaming displays, and sophisticated multimedia setups. The DisplayPort Tx/Rx IP supports a data rate of up to 8.1 Gbps per channel, enabling efficient transmission of complex visual streams and ensuring clarity and depth in displayed content. This makes it suitable for devices that require high-bandwidth audio-visual data communication, enforcing seamless integration into electronic products ranging from PCs and tablets to monitors and high-end home cinema systems. With strong focus on performance and reliability, DisplayPort/eDP IP employs advanced protocols to manage bandwidth allocation while maintaining signal integrity over various transmission lengths. Optional integration of HDCP (High-bandwidth Digital Content Protection) ensures secure data exchange, reinforcing content protection across transmission networks.
The DisplayPort Transmitter from Trilinear Technologies offers a robust solution for high-quality video and audio signal transmission. Designed with compliance and compatibility in mind, this transmitter ensures seamless integration with various display devices, supporting a wide array of resolutions and audio formats. Its advanced features facilitate reliable performance across multiple platforms, upholding Trilinear's reputation for excellence in connectivity products. Engineered to handle the intricacies of digital video transfer, Trilinear's DisplayPort Transmitter integrates smoothly into systems, delivering high-speed data transfer while minimizing signal disruptions. This IP's architecture supports adaptive sync technologies, optimizing refresh rates for improved picture clarity and reduced latency. Through rigorous in-lab testing, it consistently meets industry standards, providing manufacturers with a dependable component for their product designs. Incorporating the DisplayPort Transmitter into a design not only boosts the performance but also extends the product life cycle by ensuring that it stays aligned with emerging digital protocol standards. Its design is forward-thinking, allowing for updates and upgrades as new technology becomes available, thus safeguarding investments. This IP is crucial for any developer aiming to produce top-tier, future-ready display solutions.
The HDMI Transmitter (Tx) IP from Silicon Library is an advanced integration solution designed to seamlessly transmit high-definition digital video and audio data. Supporting HDMI 1.4 and 2.0 versions, this transmitter IP provides a comprehensive interface for high-speed digital signals between various electronic devices, such as Blu-ray players, gaming consoles, and home theater systems. This IP component provides excellent adaptability, enabling it to support multiple video resolutions and refresh rates. It's engineered for ease of integration into consumer electronics, ensuring high reliability in transmitting data over HDMI connections. From standard HD to UHD content, the HDMI Tx IP delivers crisp, clear image quality and immersive audio, crucial for today's high-demand multimedia applications. The architecture of the HDMI Tx IP includes clock domain crossing and sound processing capabilities, offering a holistic approach to managing digital media streams. Internal optimizations reduce latency, thus enabling synchronous data transmission across long distances. Whether it's for personal entertainment systems or professional display equipment, the HDMI Tx IP is a versatile tool in managing audio-visual content distribution.
The HOTLink II Product Suite is specifically designed to enhance and support optical communication within advanced avionics systems. It stands as a pivotal element for systems requiring robust high-speed data transmission, such as graphics generation and flight simulation. The product suite offers engineers a reliable framework to develop and optimize communication channels within their systems, addressing the need for precise data flow in demanding operational environments. This suite's capabilities extend to simplifying design processes by integrating essential tools that facilitate the development of complex communication systems. Such systems are vital for ensuring seamless data transmission in avionics, where precision and reliability are crucial. The HOTLink II Product Suite empowers developers to create highly efficient optical interfaces that meet the challenges of modern aerospace and defense applications. In addition to its core functions, the suite offers comprehensive resources that aid in enhancing the overall performance of optical data links. It provides engineers with the flexibility to adapt the technology for use across various platforms, ensuring consistency and reliability of data flow, which is essential for maintaining the integrity of flight-critical systems.
The YouMIPI solution is tailored for seamless integration of MIPI CSI and DSI interfaces. Brite's solution manages sensor data conversion to imagery format, along with configurable noise reduction features to minimize EMI impacts. Compliance with the latest MIPI CSI and DSI standards ensures broad application compatibility, supporting multiple image formats for diverse visualization applications. This comprehensive solution focuses on maintaining data integrity while overcoming typical signal interference challenges in high-speed transmission environments.
The DisplayPort Receiver from Trilinear Technologies is crafted to provide seamless reception of video and audio signals in high-definition formats. With an eye towards zero latency and maximum fidelity, this product integrates advanced signal processing capabilities to maintain the integrity of the transmitted media. Designed to be compatible with a wide variety of display technologies, it ensures a premium user experience across different devices and environments. Trilinear’s design approach to the DisplayPort Receiver emphasizes resilience and reliability. Its robust architecture supports error correction mechanisms that safeguard against signal degradation, ensuring that users receive the best possible visual and auditory outputs. This resilience is critical in maintaining consistent performance in dynamic environments where signal reliability is paramount. Engineered for today's demanding multimedia applications, the DisplayPort Receiver is built to handle various signal complexities with ease. It supports multiple high-definition video streams and uncompressed audio channels, making it a versatile component for modern display solutions. Its proven performance in Trilinear's development labs underpins its readiness for commercial deployment, ensuring that it meets stringent quality benchmarks before reaching customers.
Canova Tech's CT20601 is a comprehensive USB Type-C interface IP core tailored for USB Power Delivery devices. It covers VCONN and VBUS management, making it capable of supporting dual-role ports and ensuring smooth operation even in dead-battery scenarios. The CT20601 integrates seamlessly with Power Delivery systems, enhancing connectivity with various peripherals. It features mechanisms like Fast Role Swap, which are essential for maintaining stable and reliable communication under varying power conditions. Ideal for use in diverse electronic devices, the CT20601 is a pivotal element in creating advanced USB-PD power solutions, enabling efficient power transfer and robust data management while simplifying design integration for technology developers.
Uniquify's High-Speed SerDes Technology showcases an array of versatile standards compatible with demanding applications. This SerDes technology supports a bit-rate of up to 4 Gbps per channel, with an aggregate bit-rate capability of 64 Gbps across 16 channels. It is crafted for deployment in video display processor applications and photonics optical transceiver systems, which are crucial for server and network backbones. An exemplary application of this technology is within HDMI interfaces, which support HDMI 1.4 capabilities, offering bit-rates up to 3.4 Gbps per TMDS clock lane, accommodating video resolutions up to 4K at 30 fps. This specific adaptation of the SerDes technology ensures seamless integration with complex multimedia environments, maintaining high performance across frequency operation bands from 25MHz to 340MHz. The SerDes technology by Uniquify is fabricated utilizing advanced process technologies from prominent foundries such as TSMC. The utilization of TSMC's 28HPM process contributes to the robustness and performance reliability that this technology delivers, enabling it to meet the needs of modern, high-speed data transmission applications.
Tentiva is a versatile Video FMC board designed for modular video processing applications. It stands out with its high degree of customization enabled by two dedicated PHY slots, which support an array of PHY cards for flexible connectivity. The PHY slots facilitate robust high-speed communication, with data rates reaching up to 20 Gbps, ideal for demanding video processing tasks. Modularity is at the heart of the Tentiva design, allowing users to effortlessly add or remove PHY cards as needed. This adaptability makes it suitable for a wide range of applications, whether it's for cascading multiple boards or supporting different video standards. The available PHY cards include DisplayPort transmitters and receivers as well as embedded DisplayPort solutions, covering a broad spectrum of connectivity needs. Integrated to work with FPGA development boards equipped with FMC headers, Tentiva ensures compatibility across a variety of vendor products, offering seamless integration for video processing workflows. Its design is particularly beneficial for developers seeking a scalable and adaptable solution to integrate into FPGA-based systems.
KNiulink offers a versatile SerDes solution designed for high-speed data transmission with applications across PCIe, Rapid IO, and SATA/SAS protocols. This solution is engineered with advanced architectures and technologies to meet the demands of low power consumption while maintaining high performance. It features configuration flexibility, enabling seamless integration with user logic or SOC for optimized system performance.
Korusys' Video Wall Display Management System is engineered to process and display video content across an array of monitors with high precision and flexibility. Utilizing both Display Port and HDMI inputs, the system allows the presentation of video on multiple screens, supporting configurations up to 4 outputs. This capability is particularly beneficial for digital signage and large-scale public displays. The solution offers several configuration options, including cloning, stretching and bezel compensation, to tailor the video output according to specific display arrangements. It supports high resolutions up to 3840x2400p60, ensuring sharp and clear visual presentations. Ease of use is further enhanced through a user interface that facilitates easy control and configuration. By leveraging FPGA technology, the Video Wall Display Management System exhibits low latency and reliable performance crucial for real-time display applications. Whether in commercial or public settings, such as conferences or exhibitions, this system ensures seamless synchronization across multiple screens, improving the visual experience significantly.
The SERDES (Serializer/Deserializer) solutions offered by Analog Bits are recognized for their low power consumption and customization adaptability to meet unique requirements. With proven capabilities in 8nm, 7nm, and 5nm process nodes, these SERDES support multi-protocols including PCIe Gen 4/5, SAS, and USB, making them a versatile choice for a variety of high-performance applications. The products are engineered to offer flexibility in placement and support unlimited lane count, ensuring optimal functionality across various platform requirements. Their small die area and reduced latency enhance chip-to-chip communication efficiency.
InPsytech's Display Interface IP supports a wide range of display technologies, including DP 1.4, HDMI, and LVDS. These interfaces are vital for high-definition visual data transmission, catering to applications in consumer electronic devices and professional displays. The Display Interface solutions emphasize quality, ensuring crisp, clear image rendering and reliable connectivity.
The USB3.1 Type-C PHY from Naneng Microelectronics supports data transfer rates up to 10Gbps, aligned with the Type-C specifications. This PHY core is intended for USB communication, providing a seamless and efficient data transfer interface for a variety of electronic devices. Its comprehensive design ensures compliance with the latest USB standards, facilitating smooth connectivity in modern electronics. By offering support for Type-C connectors, the PHY enables reversible plug orientation and scalable power delivery, making it suitable for use in laptops, smartphones, and other portable devices. Its robust design accommodates high bandwidth data streams while managing power consumption effectively, reflecting its suitability for high-performance consumer electronics. The PHY's integration capabilities simplify board design requirements, reducing time-to-market and design complexity. It presents a considerable advancement in USB technology, blending high data rate support with enhanced power delivery features, ensuring that devices maintain consistent performance even under demanding conditions.
The BW9906 is a high-speed USB4 redriver optimized for maintaining signal integrity over extended distances. Compliant with USB4 standards, this 20Gbps four-channel linear redriver ensures optimal data integrity by compensating for signal loss commonly encountered across printed circuit boards and cables. It features adjustable equalizer settings and a flat gain controller which work in tandem to improve performance and meet USB compliance standards. Notably, the redriver supports both UHBR20 of DisplayPort 2.1 and DP alternate modes, making it versatile for a wide range of applications. It offers an integrated auxiliary channel and supports a selectable lane order for optimized PCB layout. The device promises low power consumption, with an active state power of 637mW and a minimized power usage of 3.3mW during sleep states. The BW9906's ability to independently operate each channel further enhances its efficiency, making it ideal for energy-conscious devices. Designed to be compact but powerful, the BW9906 is used extensively in computing devices such as desktops, laptops, cellular phones, tablets, and docking stations. Its advanced power management modes facilitate efficient power use, thus extending the longevity of portable electronic devices.
The DisplayPort 1.4a technology developed by Bitec facilitates direct connection and data transmission to DisplayPort-enabled devices, allowing high-speed data transfer for video and audio integration. This IP is engineered to support advanced video features such as High Dynamic Range (HDR) and resolutions beyond 4K, making it suitable for professional displays.\n\nIt offers a versatile connection solution catering to rising demands in the video display sector, enabling efficient, clean transmission pathways without the need for conversion or additional interfacing components. This choice makes it ideal for integration into devices within a variety of environments, from consumer electronics to professional broadcast setups.\n\nBeyond providing standard DisplayPort functionalities, it upholds advances in video data throughput, essential for future-proofing devices as the industry marches towards higher resolutions and more integrated audio-visual experiences. With the complexities of digital video growing, such forward-thinking solutions keep manufacturers ahead in delivering user-centric, reliable display technologies.
The HDMI 1.4 Transmitter IP is a silicon-proven core designed to facilitate the integration of HDMI functionalities into system-on-chip (SoC) products. It streamlines the implementation of high-definition multimedia interfaces, reducing the bill of materials cost and saving board space, which is crucial for consumer electronics such as DVD players, Blu-ray players, and audio/video receivers. This IP supports HDMI 1.4 standards and offers features such as HDCP 1.3 encryption, crucial for secure content transmission. It is engineered with built-in self-test capabilities (BIST), which facilitates the diagnostics and assurance of reliable performance standards, making it suitable for extensive application deployments. Ideal for environments demanding robust audio and video delivery, the HDMI 1.4 Transmitter IP ensures devices can handle 3D video formats and Ethernet channel communications within HDMI cables. This integration leads to robust digital connections in audio and visual devices, significantly enhancing multimedia equipment performance.
M31's DisplayPort TX IP offers high-performance capabilities for video and graphic data transfer, supporting data rates up to 20Gbps. It can manage multiple lanes for data throughput and includes advanced features like main link transmitter swing and pre-emphasis levels. As integral components of modern digital video interfaces, these capabilities ensure superior display performance, crucial for applications ranging from high-end monitors to sophisticated multimedia systems.
The Dual-mode DP/HDMI Transmitter IP is known for its robust capabilities in handling both DisplayPort and HDMI outputs, making it a versatile solution for environments that require flexible connectivity options. This transmitter provides the core logic needed to facilitate high-speed digital video and audio signals across multiple output platforms, ensuring smooth and vivid content delivery. It combines sophisticated analog and digital logic designs to meet demanding signal processing requirements, integrating technologies such as equalizers, PLLs, and more, to maintain data integrity and synchronization. The transmitter supports complex mixed signal layouts, essential in blending display protocols and ensuring cross-compatibility in various systems. Particularly valuable in applications where both DisplayPort and HDMI connectivity might be required (such as multimedia players, gaming devices, and integrated computer systems), this versatile tech empowers designers to incorporate these essential functions into broader electronic designs with increased efficiency and reliability.
Bitec's HDMI 2.0b solution enhances HDMI connectivity by supporting expanded bandwidth requirements key to modern audiovisual systems. It supports resolutions up to 4K at 60Hz, harnessing up to 18Gbps of data transfer capacity. This capability is vital for ensuring consumer and professional devices meet the expectations of today's visually-rich content landscapes.\n\nThe IP core integrates seamless compatibility across a vast network of devices, connecting home systems, gaming consoles, and professional media setups. This broad integration capacity maintains the flexibility required for various implementations, making it a foundational aspect of modern multimedia systems.\n\nIncorporating Bitec's 2.0b IP into systems bolsters audio-visual signal exchange with a focus on enhanced audio return channels and improved syncing features. As electronic devices increasingly converge technology platforms, such interoperability is vital in delivering consistent, high-quality user experiences globally, across entertainment and professional audio-visual landscapes.
Allowing seamless HDMI interconnectivity, this HDMI 2.1b solution by Bitec is designed to facilitate advanced video transmission. It extends support to the latest HDMI standards, enabling the delivery of ultra-high-definition video and audio. This system showcases exceptional bandwidth capabilities, offering up to 48Gbps data rates, accommodating 4K and 8K resolutions, which are essential for modern high-definition displays and content.\n\nThe integration of this technology ensures compatibility across a multitude of devices, maintaining high-performance standards expected in professional audiovisual systems. Industries deploying large-scale high-definition display setups can benefit significantly from the robust features offering. Its design simplicity allows smooth incorporation into a variety of applications, ranging from home entertainment systems to large-scale digital signage.\n\nFurthermore, this IP offers backward compatibility, supporting functionalities and connections with previous HDMI versions. This versatility is particularly advantageous for developers looking to bridge older hardware systems with new-generation multimedia technologies, ensuring a seamless user experience without the need to overhaul existing infrastructure. As the demand for high-definition and immersive viewing experiences grows, this product stands out for its advanced support capabilities and efficient data processing.
The DisplayPort 1.1a Transmitter is a powerful interface designed to fully comply with DisplayPort 1.1a standards, incorporating High-bandwidth Digital Content Protection (HDCP) specifications. This transmitter is crafted for high-fidelity digital signals, ensuring secure content delivery across diverse device setups and maintaining compatibility with a wide array of digital displays. Engineered to support the intricate needs of digital video transmission, the transmitter provides an excellent solution for systems requiring reliable and scalable DisplayPort interfaces. It ensures all necessary signal requirements for DisplayPort sources, and in HDMI mode, it efficiently uses external DisplayPort to HDMI converters to maintain functionality in mixed environments. Ideal for integration into device designs where connectivity expansion and digital signal management are paramount, this transmitter supports a wide range of applications. It bridges the gap between older and newer standards, enhancing system scalability and versatility while maintaining the performance necessary for high-definition content.
The GreenIPCore Fault Resistant Ethernet MAC is specifically designed for enhancing data transmission reliability over Ethernet networks. This IP integrates advanced fault detection and correction methods to ensure consistent and error-free communication, even in environments susceptible to data integrity threats. Its design caters to applications requiring high data throughput and reliability, such as in automotive networking and industrial automation, where communication failures can lead to significant disruptions. By providing robust connectivity solutions, it ensures seamless network operations that are critical for modern networked systems.
The ARINC 818-3 Core extends the capabilities of its predecessor to include enhanced features for modern avionics systems. It offers support for various input and output video resolutions, lending flexibility to adapting to new and existing systems. The core promises a smooth and synchronized video transmission across aerospace applications.
The ARINC 818-2 Core is designed for high-definition video transmission in aerospace environments, supporting the ARINC 818 standard. This core is optimized for high-speed, reliable communication and accommodates various resolutions and video formats. It ensures real-time high definition video transmission while allowing custom frame compliant implementations.