All IPs > Multimedia > DVB
Digital Video Broadcasting (DVB) represents a suite of internationally accepted standards for digital television. This technology enables multimedia content to be delivered efficiently over various terrestrial, cable, and satellite networks, providing high-quality video and audio streams. In the realm of digital broadcasting, semiconductor IPs tailored for DVB applications are crucial for manufacturers looking to deliver cost-effective, high-performance solutions.
DVB semiconductor IPs are optimized for encoding, transmitting, and receiving high-definition digital broadcasts. They are essential components in the design and manufacture of countless multimedia devices, ensuring compatibility with DVB standards such as DVB-T2, DVB-S2, and DVB-C2. These IPs support complex modulation techniques and are capable of handling large data streams while maintaining integrity and minimizing latency.
In addition to enhancing the performance of set-top boxes, televisions, and digital video recorders, DVB semiconductor IPs are also utilized in portable media players and integrated broadcasting systems. They provide the building blocks necessary for consistent and reliable media streaming, supporting multiple video formats and audio codecs.
As the demand for high-definition and ultra-high-definition broadcast content grows, DVB semiconductor IPs offer scalable and flexible solutions. These IPs facilitate innovation in the broadcasting market, enabling companies to adapt quickly to new standards and technologies while ensuring seamless user experiences across a wide range of media platforms. Whether for consumer entertainment devices or professional broadcast equipment, DVB semiconductor IPs are central to achieving robust digital video transmission and reception.
The EZiD211, also known as Oxford-2, is a leading-edge demodulator and modulator developed by EASii IC to facilitate advanced satellite communications. It embodies a sophisticated DVB-S2X wideband tuner capable of supporting LEO, MEO, and GEO satellites, integrating proprietary features like Beam Hopping, VLSNR, and Super Frame applications. With EZiD211 at the helm, satellite communications undergo a transformation in efficiency and capacity, addressing both current and future demands for fixed data infrastructures, mobility, IoT, and M2M applications. Its technological forefront facilitates seamless operations in varied European space programs, validated by its full production readiness. EZiD211's design offers a unique capability to manage complex satellite links, enhance performance, and ensure robust and reliable data transmission. EASii IC provides comprehensive support through evaluation boards and samples, allowing smooth integration and testing to meet evolving satellite communication standards.
A2e's H.264 FPGA Encoder and CODEC Micro Footprint Cores provide a customizable solution targeting FPGAs. Known for its small size and rapid execution, the core supports 1080p60 H.264 Baseline with a singular core, making it one of the industry's swiftest and most efficient FPGA offerings. The core is compliant with ITAR, offering options to adjust pixel depths and resolutions according to specific needs. Its high-performance capability includes offering a latency of just 1ms at 1080p30, which is crucial for applications demanding rapid processing speeds. This licensable core is ideal for developers needing robust video compression capabilities in a compact form factor. The H.264 cores can be finely tuned to meet unique project specifications, enabling developers to implement varied pixel resolutions and depths, further enhancing the core's versatility for different application requirements. With a licensable evaluation option available, prospective users can explore the core’s functionalities before opting for full integration. This flexibility makes it suitable for projects demanding customizable compression solutions without the burden of full-scale initial commitment. Furthermore, A2e provides comprehensive integration and custom design services, allowing these cores to be seamlessly absorbed into existing systems or developed into new solutions. This support ensures minimized risk and accelerated project timelines, allowing developers to focus on innovation and efficiency in their video-centric applications.
The ISDB-T 1-Segment Tuner from RF Integration is specially crafted to cater to digital broadcasting needs, particularly for mobile and handheld devices. This tuner is integral to receiving broadcast signals compliant with the ISDB-T standard, ensuring you have access to digital television and other mobile multimedia services. Designed with emphasis on power efficiency, the tuner is well-suited for use in a variety of portable devices, including smartphones and tablets, where battery life is a critical concern. It manages to combine low power usage with high performance, ensuring clear reception and processing of broadcast signals even in challenging conditions. The tuner's architecture incorporates advanced RF components that facilitate excellent signal acquisition and fidelity, essential for an enjoyable viewing experience. RF Integration's expertise in RF and analog designs is evident in this product, ensuring it stands out in the competitive field of digital broadcast technology. With the capability to handle fluctuating signal conditions, the ISDB-T 1-Segment Tuner is a reliable component for any modern media device.
The JPEG Encoder IP by Section5 is a robust compression tool designed to facilitate high-quality image and video encoding. Compliant with ITU standards, it supports up to 12-bit depths, offering flexibility for various applications. This encoder is particularly valued in machine vision and network streaming, where its low power consumption and minimal latency make it ideal for high-performance environments. Its dual-pipe architecture enhances its efficiency, allowing for simultaneous high-quality encoding streams, such as YUV422 up to 1280x720 at 60 frames per second. This encoder is versatile, supporting a range of pixel depths and ensuring high compression efficiency with minimal data loss. It is especially optimized for use in FPGA environments, designed to work without the need for external RAM, further reducing its power footprint. The encoder's architecture also supports Ethernet transmission, making it incredibly flexible for different applications, from camera solutions to embedded systems. Section5’s JPEG Encoder is highly customizable, with support for various configurations and different bitstreams compatible with projects requiring either stand-alone or fully integrated solutions. Developers can leverage this IP for creating robust solutions in fields such as security, video conferencing, and broadcast, benefiting from its superior image quality and reliability.
The H.265 HEVC Decoder System by Korusys offers an ultra-low latency and robust solution for decoding HEVC video streams, fully compliant with the ITU-T H.265 standard. Tailored for Intel FPGA platforms, this decoder fits a wide range of applications from high-end broadcast to consumer electronics. It supports high-definition video resolutions up to 4K with efficient error concealment features. The solution is available as a standalone IP core or as part of a comprehensive package with added design services for optimal implementation. Its flexible architecture is designed to support various video profiles and output configurations.
StreamDSP's MIPI Video Processing Pipeline offers a comprehensive solution for integrating video streams into FPGA-based environments. Supporting Avalon and AXI-4 Streaming protocols, it is highly adaptable to different sensor video formats and frame rates, extending capability to 4K resolutions at 60fps. The pipeline is adept at handling complex processing tasks, including Bayer demosaicing and gamma correction, designed to enhance video output while maintaining minimal latency through optional frame buffering.
The DVB-S2X LDPC Decoder is a powerful FEC core decoder for Digital Video Broadcasting via Satellite. It implements extensions to the DVB-S2 design for better performance and efficiency as well as robust service availability.
Recognized as a powerful tool in audio coding, the MPEG-H Audio System has transformed audio experiences for both television and virtual reality ecosystems. By supporting immersive and interactive soundscapes, it allows viewers to control elements like dialogue levels and creates a more personalized listening experience. The adoption of this system in international broadcasting standards is a testament to its robustness and innovation.
The IPMX Core is a cutting-edge solution for leveraging the latest AV-over-IP standards within professional AV systems. By adopting the open specification IPMX protocol, Nextera Video enables seamless communication over IP networks, transforming the efficiency of media transport globally. Its foundation on proven standards like SMPTE ST 2110 and NMOS enhances its interoperability and scalability. Designed for versatile video and audio integration, the IPMX Core supports both compressed and uncompressed media, providing flexibility across a spectrum of resolutions up to 8K. This adaptability caters to diverse media landscapes, accommodating different frame rates, color spaces, and sample rates, while maintaining low latency and high-quality delivery. Nextera’s IPMX Core stands at the forefront of AV-over-IP technology, offering essential features like encrypted data transport, asynchronous video support, and industry-standard NMOS control. This makes it a formidable choice for any organization seeking to future-proof its AV infrastructure through robust IP technologies that meet rigorous professional standards.
The ISDB-T Modulator delivers robust capabilities for both professional TV networks and custom point-to-point radio links. This modulator core is fully compliant with ARIB STD-B31 and ABNT NBR 15601, ensuring compatibility across a broad range of broadcasting applications. Its adaptable framework makes it suitable for diverse broadcast needs, facilitating the efficient transmission of digital television signals. Through this, broadcasters can achieve a more reliable and consistent service quality across different market segments.
The DVB-S2 Modulator is engineered to accommodate both DVB-S2 and DVB-S2X satellite forward-link specifications. This high-performance modulator core supports (A)PSK modulation schemes and is particularly suitable for both broadcasting and interactive applications. Its design is focused on delivering advanced functionalities while ensuring compliance with dynamic satellite communication standards. This makes it well-suited for a variety of professional and commercial telecommunications applications. The modulator is ideal for delivering superior broadcast experiences with increased efficiency and reliability.
The DVB-Satellite Modulator is a high-performance modulator core designed to adhere to DVB-S, DSNG, DVB-S2, and DVB-S2X satellite forward-link specifications. This versatile modulator core is engineered for both broadcasting and interactive applications, accommodating a variety of modulation schemes including (A)PSK. Its robust framework is capable of delivering efficient and reliable operations in challenging satellite communication environments. The modulator's design prioritizes support for advanced satellite communication standards, ensuring its place in future-ready satellite systems.
Designed for maximum compatibility and efficiency, the ATSC 8-VSB Modulator serves both professional TV network applications and custom point-to-point radio links. Its comprehensive compliance with ATSC A/53 8-VSB standards guarantees reliable performance across multiple broadcast scenarios. The modulator's versatile design supports varied operational environments, making it indispensable for broadcasters who require versatile and robust transmission solutions. Its emphasis on delivering flawless signal integrity ensures top-notch broadcast quality for diverse applications.
The DVB-T2 Demodulator and LDPC/BCH Decoder is a comprehensive system designed for use with an RF tuner and an analog to digital converter. It features compliance with DVB-T2 EN302 755 V1.2.1, Rev.9 standards and supports flexible channel bandwidths ranging from 1.7 MHz to 10 MHz. The system boasts capabilities like IF input support, SISO operation, sampling frequency offset tracking and compensation, carrier frequency offset detection and correction, and support for BPSK, QPSK, and QAM constellations (16, 64, 256). It includes a layered Min-Sum LDPC decoder and a BCH decoder, with parallel and serial MPEG outputs. The demodulator operates with a single external clock and can be externally configured via an SPI port, enhancing its flexibility and integration into set-top boxes and digital TV receivers.
Focused on meeting the ETSI DVB-CID carrier identification standard (EN103129), the DVB-CID Modulator integrates both modulation and channel coding functionalities into a single cohesive core. This integration is aimed at addressing specific carrier identification requirements within satellite communication systems. By streamlining these processes, the modulator enhances operational efficiencies while ensuring adherence to key industry standards. The DVB-CID Modulator effectively supports sophisticated satellite communication systems demanding reliable carrier identification capabilities.
The DVB-S2-LDPC-BCH decoder is pivotal for digital video broadcasting applications, particularly in satellite transmissions requiring robust FEC subsystems. The IP employs LDPC codes integrated with BCH codes to deliver a near-error-free operation closely approaching the Shannon limit. Key technologies supporting this include the irregular parity check matrix for enhanced correction, layered decoding for improved efficiency, and the minimum sum algorithm allowing for soft decision processing. This sophisticated decoding approach ensures high-performance data transmission, adhering to stringent industry standards.
The DVB-T2 Modulator stands out with its powerful FPGA or ASIC implementation, designed to perform efficient modulation as per the DVB-T2 ETSI EN302 755 standards. This comprehensive solution encompasses all necessary functions to facilitate high-performance terrestrial broadcasts. The modulator is crafted for use in a range of broadcast networks, offering flexibility and adaptability in its application. This makes it a go-to solution for broadcasters aiming to leverage the power of DVB-T2 technology to deliver superior terrestrial broadcast services.
The Multi-channel ATSC 8-VSB Modulator enhances broadcasting flexibility by supporting multiple channels within ATSC A/53 8-VSB standards. Tailored to meet professional TV network and custom point-to-point radio link needs, this modulator core facilitates complex broadcast operations. It enables seamless integration and high-quality signal transmission across varied operational environments. By efficiently managing multiple channels, it empowers broadcasters to optimize signal delivery and enhance their overall transmission capabilities.
The 12G-SDI Playback and Capture System is a versatile FPGA-based solution designed for video capture and playback over Quad 3G-SDI interfaces. The system includes an FPGA image set for generating test patterns, capturing data from SDI inputs, and playing back over SDI. It can be integrated with a PCIe interface for enhanced performance in host machines, featuring Linux-based software and drivers to facilitate video processing. This IP core is available independently or paired with the High Performance FPGA PCIe Accelerator Card, offering a robust solution for applications requiring high-definition video handling and processing.
Turbo encoding and decoding remain a cornerstone in high-reliability communication systems. Creonic's turbo IP cores meet stringent integration standards, providing optimal performance and compatibility with CCSDS, among other protocols. These cores are perfect for spaces where telemetry, telecommand, and resistance to radiation effects are essential. Tailored for space applications, these turbo cores integrate seamlessly into environment-specific systems, complying with protocol prerequisites and offering unmatched reliability. They ensure steady performance even in challenging environments, making them indispensable in sophisticated communication networks. Their adaptable framework accommodates varied system requirements, making integration into existing setups both straightforward and efficient. With Creonic's turbo encoders and decoders, users can expect enhanced data integrity, making them ideal for critical communication solutions requiring utmost precision and reliability.
Creonic's LDPC encoder and decoder cores deliver impressive throughput and scalability, catering to applications in DVB-S2X, 5G-NR, and Wi-Fi environments. These cores are architecturally optimized for both ASIC and FPGA implementations, offering minimal bit error rates and efficient resource usage. Despite their high performance, the cores maintain low latency, crucial for real-time communication systems. The cores support a range of communication protocols, ensuring robust error correction for high-speed data transmission. Their design enhances connectivity by maintaining short block lengths and allowing straightforward deployment across various hardware platforms. Through integrating these LDPC cores, users can achieve cutting-edge connectivity and signal integrity. Engineered for flexibility, the cores allow for easy customization based on client-specific requirements. They are particularly well-suited for telecom infrastructure where precision and efficiency are paramount. Explore Creonic's LDPC offerings for reliable and highly efficient communication solutions.
Creonic offers Polar code IP cores that excel in providing efficient encoding and decoding for applications requiring predictable latency and compact design footprints. These cores are ideally suited for low-latency environments such as 5G control channels and IoT deployments, where timing and reliability cannot be compromised. The Polar IP cores are optimized for short to medium block lengths, ensuring fast processing without sacrificing coding gain. Their adaptability makes them a top choice for designing communication systems that must adhere to strict timing constraints while maintaining area efficiency. By implementing Polar codes, users can achieve rigorous performance standards and flexibility, which are crucial for modern communication infrastructures. These cores offer a solution to developers seeking standard-compliant, high-performance coders perfect for innovative tech landscapes.
The HDMI 2.0 IP core offers a full-featured solution for HDMI connectivity, suitable for diverse multimedia applications. This IP core is meticulously crafted to support both HDMI 1.4 and 2.0 standards, addressing varied compatibility requirements. Designed for precision, this IP facilitates seamless video processing with both RGB and YCbCr 4:4:4 formats, offering compatibility for 8-bit video systems. Engineered to enhance digital interface connections, this core enables dual and quad pixel clock configurations, ensuring efficient data throughput and quality rendering. Exclusive to the Lattice CertusPro-NX series, this IP integrates easily into existing systems, providing robust video transmission capabilities for high-performance exhibits and displays. Signifying Parretto’s commitment to quality and reliability, the HDMI 2.0 core is optimized for streamlined performance, reducing latency and accommodating high-definition outputs. Through this IP core, Parretto addresses the evolving demands of video technology, proving indispensable for video data processing in today's high-resolution domains. Its comprehensive support and flexibility make it a prime choice for developers focused on advanced video display solutions.
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