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.
EZiD211 is a state-of-the-art modulator and demodulator designed to enhance satellite communication systems, supporting DVB-S2X. This product focuses on managing low Earth, medium Earth, and geostationary satellite communications with advanced features such as beam hopping, VLSNR, and superframe support, making it an ideal choice for future satellite technologies. The aim of EZiD211 is to improve satellite communication efficiency and accuracy, providing a robust solution for data, IoT, and modem infrastructure. The design has been executed under European programs to showcase new functionalities and ensure the product meets the highest standards for commercial use. EASii IC leverages the latest developments in DVB standards to ensure that EZiD211 can handle various environments, offering enhanced performance through its wide range of features. The product is available in a QFN 13×13 package, with options for evaluation boards, supporting seamless integration into existing systems.
The JPEG Encoder is a sophisticated tool designed for efficient image compression, particularly suited for machine vision applications and deployment in standard FPGAs. This IP is engineered to handle pixel bit depths up to 12 bits and is available in two main versions: the L1 monochrome multiplexed pipeline and the L2 dual pipe version for high-quality YUV422 encoding. The L2 variant supports high-definition video processing, such as 1280x720 resolution at 60 frames per second, with a higher clock variant reaching up to 200MHz on specific platforms. A distinctive feature of this JPEG Encoder is its low latency performance, consuming minimal power through synchronous distributed operations. It also supports full deployment of UDP/Ethernet streaming solutions and reference designs applicable across various camera interfaces. Additionally, the software side is well-integrated with open-source applications like gstreamer, ensuring smooth operation on Linux and Windows. The encoder not only excels in typical lossy compression but can also be adapted for high-speed DPCM compression, making it suitable for diverse imaging needs, including medical imaging. Furthermore, it supports complex wavelet coding kernels and offers dual-channel Huffman/Golomb-Rice coding capabilities, enhancing its versatility for encoding Luma and Chroma channels simultaneously.
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.
The DVB-S2-LDPC-BCH IP core is designed to meet the stringent requirements of satellite digital video broadcasting by offering a sophisticated forward error correction subsystem. This product leverages LDPC codes combined with BCH codes to facilitate near Shannon limit performance, ensuring quasi-error-free operation even under demanding transmission conditions. Key features include an irregular parity check matrix, layered decoding, and a minimum sum algorithm, all of which contribute to its high efficiency. The soft decision decoding mechanism further enhances performance through its ability to handle varying levels of noise and transmission errors. With full compliance to the ETSI EN 302 307-1 standards, this IP core guarantees compatibility with existing and future broadcasting standards. This solution delivers a complete package for implementing resilient communication links in satellite transmission systems. The product's ability to manage complex decoding tasks in a power-efficient manner significantly reduces operational costs, making it ideal for applications that require both high performance and energy savings.
Offering complete compliance to the ITU-T H.265 standard, this HEVC decoder system provides ultra-low latency decoding and supports resolutions up to 4Kp60. As a standalone FPGA solution, it is ideal for high-performance video processing tasks. The system can be packaged alongside Korusys' High Performance FPGA PCIe Accelerator Card, offering an augmented decoding capacity for high-demand applications.
The ISDB-T 1-Segment Tuner is specifically crafted to meet the demands of digital broadcasting for handheld and portable devices. It plays a crucial role in decoding terrestrial digital television signals in countries where the ISDB-T standard is implemented. With its ability to capture and process 1-segment broadcasting efficiently, this tuner provides users with access to digital TV broadcasts on-the-go. The tuner is known for its low power consumption, an essential feature for portable devices to extend battery life while maintaining consistent performance. Designed with high sensitivity and selectivity, the ISDB-T 1-Segment Tuner ensures clear and stable reception even in areas with weak signal strength. Its robust error correction algorithms enhance reliability, making it suitable for use in various environmental conditions, whether in urban areas or rural setups. The component’s compact size allows for easy integration into a wide array of consumer electronics, such as smartphones, digital cameras, and portable media players. This tuner's advanced technology supports seamless transitions between different broadcast standards and ensures compatibility with both legacy and next-generation digital broadcasting technologies. It serves as a pivotal component in personal media devices, enabling high-quality multimedia experiences wherever digital signals are available. By embracing the tuner, manufacturers can extend the capabilities of their devices, providing enhanced functionalities to end-users seeking the latest in digital media access.
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.
StreamDSP's MIPI Video Processing Pipeline is crafted for seamless integration into advanced embedded systems, offering a turnkey solution for video handling and processing. It supports the MIPI CSI-2 and DSI-2 standards, allowing it to process various video formats and resolutions efficiently, including ultra-high-definition video. The architecture is designed to work with or without frame buffering, depending on latency needs, enabling system designers to tailor performance to specific application requirements. This flexibility ensures that StreamDSP's video pipeline can handle the demands of cutting-edge video applications like real-time video analysis and broadcast video streaming, while maintaining optimal resource usage.
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.
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-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 MPEG-H Audio System is a revolutionary advancement in audio coding for television and virtual reality applications. It is designed to deliver immersive, 3D audio experiences that enhance both broadcast and user-driven environments. Its pioneering interactive sound capabilities empower users to personalize audio settings according to their preferences, making it ideal for both professional and home entertainment systems. In television broadcasting, MPEG-H integrates seamlessly with existing infrastructure, offering an unparalleled audio experience that keeps pace with the rapidly evolving media landscape. The system supports both traditional and next-generation broadcast standards, ensuring a wide range of compatibility and future-readiness. For virtual reality, MPEG-H plays a crucial role in creating realistic audio environments, augmenting visual experiences with soundscapes that adapt to user perspectives. It provides a new level of audio detail and spatial accuracy, which is crucial for immersive applications where sound directionality enhances the realism and engagement of the user experience.
Creonic's Turbo encoders and decoders are meticulously designed to support error correction in both satellite and terrestrial communication applications. The turbo coding process enhances data reliability and efficiency, making it indispensable in digital communication systems where bandwidth and power efficiency are paramount. These IP cores are aligned with leading standards such as DVB-RCS2 and LTE, ensuring they meet the rigorous demands of high-performance systems. The Turbo technology employed by Creonic optimizes for high throughput while maintaining low error rates, making these IP cores vital for communication networks where performance consistency is critical. Commercial and military users alike benefit from the robust error correction capabilities these encoders and decoders provide, as they improve signal reliability over varying transmission conditions. This consistent reliability translates to a reduction in retransmissions and improved overall communication efficiency. Moreover, the flexibility and configurability of Creonic's Turbo IP cores allow for tailored solutions across different platforms, including both FPGA and ASIC. This adaptability ensures that the cores can be embedded effectively across a variety of hardware architectures, thereby broadening the scope of applications they can support.
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 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.
LDPC encoders and decoders by Creonic are engineered to deliver high performance and reliability in various communication standards. These IP cores are crucial in mitigating errors during data transmission and ensuring robust communication, which is essential for modern satellite and terrestrial communication systems. By implementing advanced low-density parity-check algorithms, these encoders and decoders enhance the error correction capabilities of communication networks. They support a wide range of applications including DVB-S2/S2X, 5G-NR, and WiMedia, among others, offering unparalleled flexibility in deployment. The LDPC technology is particularly relevant in environments that demand mission-critical data integrity, such as aerospace and defense, where standard protocols like CCSDS are employed. Creonic's implementation focuses on optimizing throughput and achieving low latency, thus enabling efficient processing even in high-speed communication scenarios. This makes these encoders and decoders an ideal choice for industries that prioritize high-bandwidth and low-error communication channels. Further bolstering their performance, Creonic’s LDPC offerings include support for various technological advancements like multi-gigabit wireless communication and DOCSIS 3.1 for broadband applications. The flexibility in configuration and the ability to fit seamlessly into both FPGA and ASIC platforms ensure that these IP cores can meet diverse customer specifications and performance benchmarks.
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 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.
Creonic's Polar encoders and decoders stand at the forefront of forward error correction technologies, vital for ensuring integrity and performance in complex communication networks. Polar codes, being part of modern communication protocols, such as 5G, offer substantial improvements in error correction capability while also enhancing data rates. Creonic has developed Polar IP cores with a focus on optimizing these advantages, thus supporting a wide range of implementations from cellular to satellite communications. These IP cores address the need for high-speed data transmission by maximizing coding efficiency and minimizing latency, which is critical for modern network infrastructure. The Polar encoders and decoders are versatile in their applicability across various systems and are adaptable to specific customer requirements through systematic optimization processes. This adaptability ensures that the IP cores can successfully address different deployment scenarios while maintaining elevated levels of performance. Creonic’s Polar technology is engineered to integrate seamlessly into existing hardware frameworks, offering support for both FPGA and ASIC environments. This ensures that the Polar IP cores are not only functional across diverse platforms but also contribute to the reduction of error rates in various communication systems, enhancing overall network reliability and efficiency.
The Advanced Video Transmission Toolkit by FastVDO is a comprehensive solution for simulating and analyzing video encoders, FECs, and transmission channels. This toolkit is designed to enhance the understanding and improvement of video quality during transmission. By supporting video standards like H.264, H.265, H.266, and AV1, the toolkit allows for an in-depth assessment of video quality under various conditions. Additionally, it incorporates advanced FECs, including Polar, LDPC, and Turbo codes, which are used in several industry standards such as Wi-Fi and 5G. The toolkit also accommodates diverse channel models, from AWGN and Rayleigh fading to burst error scenarios, providing a holistic environment for transmission analysis. FastVDO’s Advanced Video Transmission Toolkit is crucial for professionals looking to optimize video communications, particularly over lossy wireless channels. It offers a reliable platform for evaluating and refining error protection techniques, ensuring that video content remains intact and of high quality during transmission. By simulating different types of network conditions, users can better prepare and adapt their systems to handle real-world challenges. Moreover, the toolkit's ability to simulate and assess the quality of received videos makes it invaluable for content creators, broadcasters, and engineers striving for excellence in video quality management. Its comprehensive approach to transmission simulation distinguishes it as an essential tool in the pursuit of innovation in video communications.
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