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 constitutes a range of resources specifically tailored for systems utilizing HOTLink II™ technology. This suite is engineered to manage high-speed video and data communication in environments where reliability and precision are paramount. It is ideal for applications in aerospace where maintaining high data integrity is critical. The suite provides robust solutions for both the development and operational stages, enhancing system performance. With its extensive support for different phases of product lifecycle management, the HOTLink II suite ensures that products meet the high standards required for mission-critical military and industrial applications.
The H.264 FPGA Encoder and CODEC Micro Footprint Cores from A2e Technologies is a highly customizable IP core designed specifically for FPGAs. This core is notable for its small size and high speed, capable of supporting 1080p60 H.264 Baseline video with a single core. Featuring exceptionally low latency, as little as 1ms at 1080p30, it offers a customizable solution for various video resolutions and pixel depths. These capabilities make it a competitive choice for applications requiring high-performance video compression with minimal footprint. Designed to be ITAR compliant and licensable, the H.264 core can be tailored to meet specific requirements, offering flexibility in video applications. This product is especially suitable for industries where space and performance are critical, such as defense and industrial controls. The core can work efficiently across a range of resolutions and color depths, providing the potential for integration into a wide array of devices and systems. The company's expertise ensures that this H.264 core is not only versatile but also comes with the option of a low-cost evaluation license, allowing potential users to explore its capabilities before committing fully. With A2e's strong support and integration services, customers have assurance that even complex design requirements can be met with experienced guidance.
Analog Bits' SERDES (Serializer/Deserializer) solutions offer high-speed data transmission capabilities designed to meet the demands of contemporary electronic systems. These SERDES IPs are engineered to maximize data throughput while minimizing latency, thus enhancing overall system performance across various applications, such as computing, networking, and storage. The technology excels in maintaining data integrity over long distances and reducing electromagnetic interference, making it suitable for environments where high-speed data transmission is crucial. Analog Bits' SERDES is adaptable to multiple process nodes, providing flexibility and compatibility with a wide range of semiconductor manufacturing technologies. This high-performance SERDES IP addresses the challenges of integrating high-speed interfaces into complex SoCs, offering robust solutions that ensure efficient data transport. By achieving an optimal balance between speed and power efficiency, Analog Bits continues to deliver solutions that meet the needs of advancing digital communication infrastructures.
Engineered for superior performance, Silicon Library's HDMI Rx module guarantees high-quality reception of HDMI signals. Designed to handle both HDMI 1.4 and 2.0 standards, this module is capable of processing the highest quality video and audio signals, making it essential for high-definition displays and multimedia devices. The HDMI Rx solution is optimized for minimal signal degradation, ensuring that the output is as clear and responsive as the input, even in environments with high interference. This IP can support resolutions up to 4K, offering an unparalleled visual experience for end-users. Beyond its technical capabilities, Silicon Library’s HDMI Rx is built to integrate smoothly into various systems, from consumer electronics to automotive applications. Its efficient architecture not only ensures fidelity in audio and video output but also promotes energy-efficient operation.
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 1.4 core by Parretto offers a comprehensive solution for implementing DisplayPort functionalities in electronic designs. This IP supports both source (DPTX) and sink (DPRX) configurations, making it a versatile choice for any DisplayPort application. It operates at link rates of 1.62, 2.7, 5.4, and 8.1 Gbps, including embedded DisplayPort rates, and supports 1, 2, and 4 DP lanes. The IP core is built with adaptability in mind, featuring native video and AXI stream video interfaces. It supports both Single Stream Transport (SST) and Multi Stream Transport (MST) modes, accommodating diverse video streaming needs. With dual and quad pixels per clock transmission, it can deliver up to 10-bit video in various colorspaces such as RGB, YCbCr 4:4:4, YCbCr 4:2:2, and YCbCr 4:2:0. Additionally, the DisplayPort 1.4 IP core includes a secondary data packet interface for audio and metadata transport, enhancing multimedia performance. It comes with an accessible Video Toolbox that includes a timing generator, test pattern generator, and video clock recovery feature. Parretto provides full source code access, ensuring customizable integration and increased product reliability.
The DisplayPort/eDP by Silicon Library is designed to provide high-performance interfaces capable of delivering exceptional video clarity and fidelity. Supporting DisplayPort 1.4 standards, this module is ideal for high-resolution displays, ensuring sharp and fluid visual output. This IP ensures seamless data transfer for video signals with high bandwidth efficiency, making it extremely suitable for advanced multimedia applications. It supports a range of resolutions, including Ultra HD, and facilitates excellent color depth and dynamic range in visual displays. Silicon Library's DisplayPort/eDP module offers exceptional flexibility in integration across a plethora of consumer electronic devices, enhancing their visual performance. With features optimized for energy efficiency and reduced latency, this product is perfect for modern applications that demand the pinnacle of video output technology.
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.
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.
Silicon Library's HDMI Tx solutions deliver exceptional performance for transmitting high-definition video and audio signals. They offer full compliance with HDMI 1.4 and 2.0 standards, ensuring a wide range of compatibility with modern displays and audio systems. This transmitter module is engineered to support the delivery of pristine video and multi-channel audio from any HDMI-enabled source. Their HDMI Tx IP ensures minimal latency and high reliability, maintaining the quality of transmissions even over long distances or in complex environments. It supports resolutions up to 4K, bringing pixel-perfect quality to home theater systems, automotive infotainment, and various other multimedia applications. With power efficiency and robust design, the HDMI Tx IP offered by Silicon Library excels in integrating seamlessly into existing systems, enhancing them with cutting-edge transmission capabilities. Its broad range of feature sets leads to an accessible, high-performance solution for diverse needs.
Matterhorn USB4 Retimer stands as an advanced engineering marvel, redefining the data transfer potential of USB4 technologies. This retimer allows for optimized data transfer rates, pushing the boundaries set by new-gen USB4 specifications. As technology rapidly evolves, the Matterhorn positions itself as a versatile component, capable of enhancing everyday consumer laptops and devices into high-performance units fit for gaming. Key to its operation is Matterhorn's ability to manage power effectively, maintaining low active power consumption and reducing the bill of materials cost. It achieves full USB4 compliance, ensuring devices can achieve top speeds while retaining backward compatibility with older USB standards like USB 3.2. This ensures it meets the diverse demands of end-users, enhancing the performance of a wide array of peripherals. Matterhorn's design is compact, maximizing maneuverability in system assembly with packages up to 50% smaller than competing products. As a plug-and-play solution, it requires minimal tuning, offering seamless integration into systems that demand high-speed data transactions. The embedded diagnostics tools further add to its usability, providing real-time insights into the retimer's performance and health, making it a top choice for achieving high data integrity in complex 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.
Bitec's HDMI 2.1b IP Core is engineered to enable seamless HDMI connectivity in both FPGA and ASIC devices. Designed with a high level of parameterization, it supports uncompressed 8K60 4:2:0 video formats as well as compressed formats through Display Stream Compression (DSC). The core is compatible with a range of HDMI standards including 2.0b, 1.4a, and DVI, providing flexibility across various interface needs. Audio and auxiliary data are managed efficiently, allowing for enhanced development and testing capabilities of HDMI interfaces, while also accommodating advanced video formats and control packets. This IP core supports deep-color modes up to 16 bits and includes features like Audio Return Channel (ARC/eARC) and High-bandwidth Digital Content Protection (HDCP 1.4/2.3). Designed to harmonize with third-party SERDES, it enables rapid deployment of high-performance image processing systems. The HDMI 2.1b IP core can be configured to work in parallel with Bitec’s DisplayPort IP Core, facilitating DP++ compatibility for combined DisplayPort and HDMI connectivity. Offering comprehensive support for various video and audio formats, the core is geared towards premium user experiences, supporting multiple-channel audio and raw data streams. The optional DSC feature broadens its application to demanding high-resolution displays, with capabilities to ‘share’ the DSC core for optimal operation in systems integrating both HDMI and DisplayPort interfaces.
Dedicated to enhancing camera interfacing, YouMIPI solutions include CSI and DSI interface technologies tailored to boost signal integrity and system integration. These solutions are designed to accommodate high-throughput requirements, fundamental for advanced multimedia communications.
The High-Speed Interface Technology from VeriSyno is engineered to meet the evolving needs of modern semiconductor design. Built to facilitate rapid data transfer, this technology supports a wide array of protocols including USB, DDR, MIPI, HDMI, PCIe, SATA, and XAUI. By providing robust IP that can operate under 28-90nm process nodes, it ensures compatibility and flexibility for diverse applications. This interface technology is not only defined by its speed but also by its adaptability, offering IP customization and migration to serve advanced process needs. It enables seamless communication between high-performance chips, addressing various industrial and consumer demands. With focus on reliability and performance, the High-Speed Interface Technology helps manufacturers achieve desired speed and efficiency in their products, fostering advancements in electronic design and integrated circuit functionality. It lays the groundwork for powerful connectivity essential in today’s fast-paced tech landscape.
Bitec's VESA Display Stream Compression (DSC) IP Core is crafted to meet the demands of modern video compression technologies by offering a visually lossless solution for real-time video streams. This IP core enables interoperability and efficient video data transmission by compressing video streams in a way that maintains quality while reducing bandwidth requirements significantly. With the growing need for efficient data handling in display technologies, DSC offers an industry-standard approach to shrink video sizes without losing image quality, thus enabling smoother and more efficient streaming and broadcasting processes. It’s particularly advantageous for high-definition interfaces like HDMI and DisplayPort, making it an essential component for manufacturers and developers focused on delivering high-resolution visual content. The core constructs a streamlined data flow, adaptable to various protocols and configurations, making it suitable for integration in both consumer electronics and professional broadcasting equipment. Serving as a bridge between high-quality display needs and limited bandwidth, the DSC IP core facilitates the adoption of higher-resolution displays such as 8K, without the penalties traditionally associated with high data throughput.
Korusys's Video Wall System transforms conventional display management with versatile video processing capabilities for large format displays. Featuring support for HDMI and DisplayPort inputs, it allows videos to be displayed across multiple monitors, achieving stunning visual configurations. With the ability to clone, stretch, or independently configure outputs, it is highly adaptable for digital signage and public displays. The Video Wall System integrates EDID parsing for seamless resolution management and includes a comprehensive software API paired with a GUI for effortless system control. Its modular design ensures flexibility, allowing integration into existing AV infrastructures or scalable deployment for larger screens through linking multiple FPGAs.
The VIDIO 12G SDI FMC Daughter Card empowers developers with cutting-edge broadcast video technology. Supporting high-resolution interfaces such as 12G SDI and 10G IP, it is compatible with AMD/Xilinx and Intel/Altera FPGA frameworks, facilitating the creation of applications like IP gateways, format converters, and signal extenders. Designed for integration into diverse development boards, this card guarantees exceptional performance by leveraging the latest chipset technologies from Texas Instruments, ensuring precise signal processing and minimal jitter.
The IPMX Core represents a next-generation solution tailored for Professional AV use, relying on the ST 2110 standards combined with NMOS control. It supports comprehensive audio and video streaming, including compressed and uncompressed formats, with exceptionally low latency. Compatible with a variety of network and hardware configurations, this core empowers AV professionals to deliver high-quality, interoperable IP-based media using contemporary network speeds and advanced encryption protocols for secure content distribution.
The HDCP 1.x/2.x IP Core from Bitec ensures secure transmission of high-definition multimedia content between devices. Designed to support both the HDCP 1.x and 2.x standards, it provides robust protection of digital audio and video content over HDMI and DisplayPort interfaces. This core is indispensable for manufacturers seeking to prevent unauthorized copying and redistribution of digital content as it moves through various media devices. HDCP (High-bandwidth Digital Content Protection) is crucial in maintaining the integrity and quality of digital content broadcast or streamed across different devices. By incorporating this IP core into their designs, clients can leverage seamless integration of content protection mechanisms, thus safeguarding intellectual property rights while ensuring compliance with industry standards. With capabilities that align with current and evolving digital content regulations, this IP core provides portable and flexible solutions that can easily be adapted for various media content distribution applications. The offering from Bitec allows for a scalable, cost-effective means to support high-definition secure content transmission across multiple devices and platforms.
The USB3.1 Type-C PHY by Naneng Microelectronics is a high-performance interface IP designed to meet the demanding requirements of modern USB applications. Supporting data rates up to 10Gbps, this PHY is engineered to deliver robust and reliable connectivity in consumer electronics and computing devices. Its Type-C interface is capable of reversible plug orientation and cable direction, making it versatile and user-friendly for various devices. The PHY also includes support for DisplayPort over USB-C, allowing it to handle audio and visual data in addition to its standard USB functions. This integration simplifies device design by combining multiple functionalities within a single interface. Designed to operate at multiple nodes such as 55nm and 14nm, the USB3.1 Type-C PHY provides a scalable and flexible solution that adapts to different manufacturing needs. With its comprehensive feature set, it serves as a core component for high-speed data transmission in tablets, smartphones, and laptops.
The HDMI 2.0b IP Core by Bitec provides a robust solution for integrating HDMI capabilities within devices, supporting high-resolution outputs while optimizing on-chip resources. This core is designed to handle pixel clocks up to 600MHz, making it a preferred choice for implementing Ultra High Definition (UHD) displays on resource-constrained FPGA devices. It offers comprehensive support for a variety of video and audio formats, including RGB and YCbCr color spaces, as well as multiple channels of audio, ensuring compatibility with diverse media standards. Additionally, this IP core minimizes device I/O pin usage by operating at 1-, 2-, or 4-symbols per clock, which makes it suitable for both low and high-end device technologies. Flexible and scalable, the HDMI 2.0b IP Core is equipped with auxiliary data stream capabilities, allowing for nuanced control over development and testing of interfaces. It accommodates optional support for both Consumer Electronics Control (CEC) and High-bandwidth Digital Content Protection (HDCP), enhancing security and inter-device communication while ensuring compliance with the latest multimedia standards.
This innovative system is designed to enhance the user experience of wireless power transfer applications by ensuring precise alignment and compatibility between power transmitters and receivers. It includes mechanisms for detecting the positioning of a device relative to a charging source, optimizing the alignment process to ensure efficient energy transfer. The system's compatibility detection capabilities allow it to recognize and adapt to various device specifications and charging standards, reducing the risk of charging errors and improving overall system reliability. With this system, users can achieve optimal alignment automatically, making the process of wireless charging simpler and more intuitive. The technology is particularly beneficial in scenarios where positioning is critical for energy transfer efficiency, such as in automotive or portable device applications. It addresses common challenges in wireless power systems, such as alignment drift and signal path obstructions, ensuring that power is delivered smoothly and consistently.
Bitec's DisplayPort 1.4a IP Core is designed to facilitate direct connectivity to DisplayPort devices, enabling manufacturers to develop high-performance video displays. This IP core supports variable link rates across multiple lanes, offering flexibility and power efficiency for systems seeking to enhance video display capabilities. The IP core delivers superior performance with support for high bit-depth color formats and advanced video streaming options such as Multi-Stream Transport (MST) and Display Stream Compression (DSC). This makes it suitable for ultra-high-definition displays like 4K and beyond, optimizing both video and audio data flows while minimizing display latency. In addition to its robust support for HDCP encryption and compatibility with DVI, the core offers power-optimized architecture designed to align with the reduced power footprints of modern computing devices. With its comprehensive feature set, including forward error correction and auxiliary data channel support, this IP core makes implementing DisplayPort technology seamless, adaptable, and efficient across various consumer and commercial electronics platforms.
The DisplayPort 1.1a Transmitter offers a fully-compliant solution for digital video and audio transmission, supporting resolutions of considerable quality. This transmitter is essential for developers integrating high-definition multimedia interface technologies into a diverse range of consumer electronics. Its design enables reliable video and audio streaming by incorporating HDCP content protection compliance, which is crucial for safeguarding copyrighted content during transmission. This protection is an integral feature for professional broadcast environments and consumer applications. Beyond its secure transmission capabilities, this transmitter supports large data streams with minimal latency, thereby improving the quality of interactive displays and ensuring that video synchronization is maintained. This characteristic is increasingly important as high-definition multimedia becomes the norm across computing devices.
The Display Interface product offerings are engineered to address modern display connectivity requirements, providing robust PHYs for DP, eDP, HDMI, LVDS, and MIPI protocols. These interfaces are critical for high-resolution video display and interaction, offering support for various digital video formats. With a focus on reducing electromagnetic interference and power consumption, the Display Interface solutions maintain superior video quality across different devices. The flexibility to switch between different display protocols makes this suite essential for consumer electronics, industrial applications, and automotive displays. Its adaptability ensures it meets rigorous standards for performance and reliability in fast-evolving digital display environments.
This product serves as a bridge for high-definition audio and video signals, converting them from DisplayPort to MIPI-DSI interfaces. It is ideally suited for integrating into the next generation of mobile devices and VR headsets, requiring efficient and low-latency signal processing. The integration enables these devices to deliver ultra-clear, crisp visuals coupled with high-quality sound, essential for immersive experiences. The converter's ability to handle multiple lanes of data transmission ensures that all connected devices can maintain high performance without compromising quality. It supports a variety of screen resolutions, making it highly versatile for cutting-edge display technologies. This flexibility solidifies its position as a vital component in high-end consumer electronics and mobile hardware. Moreover, the efficiency of this conversion technology translates into longer battery life for portable devices. By optimizing the power usage during signal conversion, it contributes to the device's overall energy efficiency, providing users with extended use without frequent recharging.
Mobile Industry Processor Interface (MIPI) technologies are crucial for the seamless connection of processors to peripheral devices in mobile and other portable applications. The MIPI suite includes D-PHY and Combo PHY options, offering TX & RX capabilities along with DSI and CSI controllers. This allows for high-speed data transfer with minimal power usage, meeting the demands of modern mobile devices. Designed for flexibility, MIPI solutions support a wide range of applications in multimedia and visual systems, improving signal integrity and reducing interference. The sophisticated design is integral for developing new mobile technologies and maintaining high standards in device interoperability and performance.
The USB 4 v2.0 Verification IP from Truechip adheres strictly to the USB4 specification v2.0, as outlined in October 2022, ensuring cutting-edge compliance. This VIP supports USB3.2 Specification, Revision 1.1, maintaining backward compatibility with USB2.0, making it a versatile solution for modern connectivity needs. Furthermore, its alignment with USB Power Delivery Release 3.1 and Type-C v2.2 enhances its utility across a wide array of applications, from mobile devices to larger computing systems.
SDI Mapping IP Cores from intoPIX are designed for converting SDI interfaces to handle more complex and higher-resolution video streams, carrying JPEG XS or TICO RDD35 over existing SDI infrastructure. This innovative IP core allows 4K or 8K video to be transported efficiently over deployed SDI cabling systems, preserving the legacy equipment while dramatically enhancing its capabilities. The solution includes unique processing methods to remove forbidden codewords like EAV/SAV, allowing for up to 20% more compression efficiency. This not only saves bandwidth but also supports enhanced interoperability between different manufacturers' equipment globally. With SDI still being a widely used standard in broadcasting, these IP cores offer an elegant upgrade path to accommodate modern video standards without overhauling existing infrastructure, thereby saving significant cost and integration time.
The HDMI 1.4 Transmitter IP is a compact, high-efficiency component designed to facilitate seamless HDMI integration in consumer electronics. Supporting up to 4K resolution, it is crafted to meet the requirements of modern high-definition media devices. This transmitter aids manufacturers in reducing the complexity and cost of their products while delivering high-quality multimedia output. Its integration of digital and analog designs in a compact form factor enables it to fit seamlessly into existing chip architecture, optimizing space without sacrificing performance. Ideal for products ranging from media players to tablets, this transmitter ensures compatibility with the extensive HDMI ecosystem, providing manufacturers with flexibility and consumers with reliable, high-definition connectivity. It also incorporates essential features like audio return channel and Ethernet channel, making it a comprehensive solution for digital media transmission.
The DISPLAY PORT cores from Logic Fruit Technologies support the latest Display Port specifications up to 8.1 Gbps. These cores support multi-stream and single-stream transport, enabling robust multimedia performance across varied channels and formats including HDR metadata and multiple audio outputs. Adhering to DP 2.0/eDP 1.5 standards, these cores offer dynamic configuration of lanes and link rates, suitable for delivering superior performance in display technologies.
The DISPLAY PORT cores from Logic Fruit Technologies support the latest Display Port specifications up to 8.1 Gbps. These cores support multi-stream and single-stream transport, enabling robust multimedia performance across varied channels and formats including HDR metadata and multiple audio outputs. Adhering to DP 2.0/eDP 1.5 standards, these cores offer dynamic configuration of lanes and link rates, suitable for delivering superior performance in display technologies.
The Dual-mode DP/HDMI Transmitter IP delivers unparalleled versatility in data transmission, allowing simultaneous support for DisplayPort and HDMI technologies. Ideal for use in applications where multi-standard compatibility is essential, it provides an efficient and robust solution for display interfacing. It is characterized by its superior design that enables smooth transitioning between DisplayPort and HDMI signals. This adaptability allows it to connect with disparate multimedia devices seamlessly, making it invaluable for consumer electronics that require compatibility across different display systems. Engineered for high-performance, it employs advanced logic designs to minimize latency and optimize data throughput, assuring that devices can deliver high-quality multimedia seamlessly. This dual-mode functionality not only expands the potential applications of the device but also simplifies the design process for manufacturers looking to incorporate both display technologies.
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