All IPs > Memory Controller & PHY > SD
In the rapidly evolving world of technology, effective data management is crucial for the seamless operation of electronic devices. At the heart of this data management is the SD Memory Controller and PHY semiconductor IPs found in our catalog at Silicon Hub. These IPs are essential components that facilitate enhanced communication between the host system and SD memory cards—one of the most ubiquitous forms of removable storage in today's devices.
SD Memory Controllers are pivotal in managing data flow to and from SD cards. They encode and decode commands and data that are transferred via the SD bus, ensuring integrity and speed in data transfer, which is essential for applications ranging from simple consumer electronics to sophisticated industrial equipment. These controllers are vital in mitigating latency issues, increasing data throughput, and optimizing power consumption, making them indispensable in portable devices such as cameras, smartphones, and tablets.
On the other hand, the PHY (physical layer) of the SD interface plays a critical role in the signal integrity and timing required for high-speed SD card access. PHY semiconductor IPs handle the electrical signaling and the analog aspects of data transmission. With PHY IPs, devices can achieve higher data rates while maintaining compliance with international standards, ensuring interoperability and reliability across different hardware architectures and devices.
Our selection of SD Memory Controller and PHY semiconductor IPs caters to varied design needs, offering solutions that enhance performance, reduce time-to-market, and maintain cost-effectiveness. These components are essential for designers seeking to implement robust, high-performance memory solutions in compact form factors, thereby supporting the increasing demand for efficient memory storage in diverse technological applications."}]} en pulling from industry knowledge and experience. Our carefully curated catalog at Silicon Hub is crafted to ensure precision, reliability, and advanced functionality, meeting the needs of modern high-performance and energy-efficient digital systems. With our extensive range of semiconductor IP solutions, you can confidently design products that resonate with consumer demands for speed, reliability, and versatility.
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.
The AXI4 DMA Controller is a highly versatile IP core that supports multi-channel data transfers, ranging from 1 to 16 channels, depending on system requirements. Optimized for high throughput, this controller excels in transferring both small and large data sets effectively. It features independent DMA Read and Write Controllers for enhanced data handling with options for FIFO transfers to a diverse array of memory and peripheral configurations. This IP core offers significant flexibility with its programmable burst sizes, supporting up to 256 beats and adhering to critical boundary crossings in the AXI specification.
The MVWS4000 series integrates three crucial environmental sensing modalities—humidity, pressure, and temperature—into a single, compact package. These digital sensors are built on a proprietary Silicon Carbide platform, offering enhanced reliability and energy efficiency. Ideal for OEM and battery-operated devices, they bridge the gap between performance and power conservation.\n\nThese sensors exhibit remarkable accuracy, with 1.5% for humidity, 1.0 hPa for pressure, and 0.3°C for temperature. Crafted for long-term stability, the sensors are suitable for demanding, resource-constrained applications. Their compact dimensions, along with a desirable operating range, make them versatile for various implementations.\n\nGiven their design for reduced energy use, these sensors are excellent for portable and embedded systems. With digital interfaces, including I2C and SPI, they offer flexible integration paths for manufacturers aiming to meet varied application requirements in industrial, consumer, medical, and automotive sectors.
Flash solutions from PRSsemicon incorporate comprehensive design and verification IPS, constantly updated to harmonize with the latest specifications. These solutions support a breadth of flash memory and storage interface standards, ensuring top-tier performance in varied applications.\n\nThe suite includes UFS, eMMC, and SDIO configurations, providing a full spectrum of device and host functionalities, from SPI and XSPI controllers to serial and general flash controllers. Their IPs are engineered with a strong emphasis on backward compatibility, granting seamless adaptability across different generations of technology.\n\nThese flash solutions are designed to be integral to advanced data storage tasks, meeting the rigorous demands of accuracy and speed vital in environments like consumer electronics and data-intensive computing systems. By extending versatile memory interfacing options, PRSsemicon sets a standard in offering reliable, high-speed storage IPs.
The 5th Generation Power Metering solution by Dolphin Semiconductor is a cutting-edge IP offering, designed for single or three-phase detection with a strong focus on energy efficiency and accuracy in power metering applications. This advanced platform leverages a 24-bit ADC for high-precision energy measurements, ensuring low noise at low frequencies, minimal offset, and high total harmonic distortion (THD) performance. Developed to simplify and accelerate design processes while supporting scalability across multiple power metering solutions, this IP optimizes cost and complexity. It includes integrated power computation algorithms that streamline operations, supported with optional power and energy computation engines requiring minimal computational resources from a supporting MCU SoC. The IP offers significant benefits such as error measurement well below 0.1% over a 1/7000 range, making it ideal for smart energy applications. Additionally, it features synchronized channels with phase shifting calibration, eliminating the need for input DC blocking capacitors. Compatible with process nodes from 180nm down to 40nm, this power metering solution offers a flexible, cost-effective IP robust for contemporary semiconductor applications.
The SD UHSII IP from Silicon Library Inc. provides high-speed data transfer capabilities for SD card interfaces. Engineered to support SD4.x specifications, it enhances data throughput for memory card applications widely used in consumer electronics and portable devices. This IP ensures that reading and writing operations are swift, efficient, and reliable. This IP excels in delivering enhanced data speeds necessary for modern applications, such as 4K video recording and large file transfers, where high performance is essential. It seamlessly integrates into devices like digital cameras, camcorders, and smartphones, ensuring optimal access and storage of digital content. Designed to minimize power consumption while maximizing data rate efficiency, the SD UHSII IP stands out as a crucial component in devices requiring rapid and reliable storage solutions. Its ability to handle high data volumes is complemented by robust security protocols, ensuring data integrity and protection during transfers.
Arasan's MIPI DSI-2 Transmitter IP is designed to facilitate high-speed data transmission between video processors and display modules. It is compatible with the MIPI DSI-2 standard, delivering outstanding efficiency in the transfer of high-definition video content. Suited to a variety of display technologies, the IP significantly enhances the picture quality and refresh rate, supporting vivid multimedia experiences in devices such as smartphones, tablets, and in-vehicle infotainment systems. Engineered for seamless integration within existing infrastructures, this IP is ideal for applications where power efficiency is as critical as performance, delivering optimal power consumption, which extends battery life without compromising on quality. Its compliance with the DSI-2 standard allows for easy adaptability in evolving ecosystems, providing the flexibility needed to accommodate future development demands. The DSI-2 Transmitter IP is crafted to meet the stringent requirements of mobile and automotive industries, ensuring robustness and extending the usability of multimedia devices. This capability ensures that it remains a ubiquitous choice for manufacturers who are looking to deliver enhanced user experiences with reliable performance in high-bandwidth display operations.
The S9 microSD and SD Controller from Hyperstone is designed to deliver high reliability and flexibility in demanding industrial environments. Developed with a deep understanding of NAND flash's operational demands, the controller integrates hyReliability™ and hyMap® technologies to provide superior data management and protection. Focusing on security, the S9 controller is available in specialized variants that include advanced security features designed to meet specific industrial requirements. This security-centric design ensures that the controller can provide robust protection for sensitive data, making it suitable for applications requiring data integrity and protection. Additionally, the controller supports a wide range of interfaces up to the SD 7.1 standard, ensuring compatibility with the latest storage demands. The turnkey nature of the controller, together with its flexibility and support for custom firmware extensions, makes it an attractive choice for various SD card-based applications in industrial settings.
Arasan's UFS 4.0 Host IP is specifically tailored for high-performance applications requiring rapid data access and storage. UFS, standing for Universal Flash Storage, represents a significant advancement over previous eMMC technologies, offering impressive speed gains and power efficiencies. This IP supports data transmission rates up to 46.4 Gbps per lane, making it ideal for modern smartphones, tablets, and automotive systems aiming for top-tier performance. The IP encompasses support for advanced UFS features such as Write Turbo and Performance Throttling Mitigation, enhancing storage management and extending device battery life. These attributes ensure that devices leveraging UFS 4.0 can handle multiple complex tasks concurrently without latency or speed drawbacks. By integrating robust error correction measures and wear-leveling techniques, the UFS 4.0 Host IP not only boosts performance but also ensures longevity of flash storage components. This makes it indispensable for any application demanding both speed and dependability, extending its use to areas like virtual reality (VR) and industrial IoT, where seamless data handling is critical.
The MIPI CSI-2 Receiver IP from Arasan provides a robust solution for high-speed camera serial interface requirements, primarily used in image sensors and processors. It is fully compliant with MIPI CSI-2 specification, offering seamless integration in mobile and automotive applications. Known for high adaptability, this IP allows for flexible data transmission configurations. Supporting a broad range of data lanes, the receiver ensures high-quality image capture and processing efficiency. Besides delivering bandwidth-efficient transfers, the IP is engineered for low power consumption, crucial for battery-operated devices such as smartphones and tablets. Moreover, the compliance with CSI-2 specification ensures smooth migration paths for future developments and upgrades in camera technology, making it a future-proof investment for System-on-Chip (SoC) designers who require consistent performance coupled with scalable solutions. This receiver IP's robust design consists of several features that enhance optimization for automotive, consumer electronics, and IoT devices, including real-time data streaming and reduced latency. Ultimately, the MIPI CSI-2 Receiver IP reflects Arasan's commitment to delivering high-performance solutions that streamline development cycles and maintain interoperability across various platforms.
The iCan System® offers a comprehensive modular solution for In-Flight Entertainment (IFE) and Cabin Management Systems (CMS). Designed to integrate seamlessly with existing aircraft networks, it supports multiple communication needs, enhancing both cabin management and passenger experience. Its modularity allows for flexible configuration, tailoring to specific aircraft requirements.
This multi-channel DMA controller is crafted for handling multiple data streams efficiently, supporting from 1 to 16 channels and slated for future enhancements up to 256 channels. It includes dedicated DMA Read and Write controllers to maximize data throughput and provides options for FIFO buffering, ensuring seamless integration with various memory and peripheral systems. With the flexibility to manage diverse data setups effectively, the DB9000-AXI excels in optimizing system performance within complex digital infrastructures.
The eMMC 5.1 Device Controller IP from Arasan provides streamlined support for enhanced memory management in portable electronic devices. It delivers advanced features such as 'command queuing' which allows for efficient data transfer rates while minimizing system overhead. It is backward compatible with previous eMMC versions, allowing seamless integration in existing systems while providing enhanced specifications for new developments. One of the standout features is its compliance with Automotive Safety Integrity Level B (ASIL B) requirements, targeting applications in autonomous and advanced driver-assistance systems (ADAS). Its architecture ensures high reliability and robustness, critical in automotive memory systems where precision and data integrity are paramount. The controller IP supports improved data throughput, low-density parity checks, and enhanced strobe technology, leading to faster and more reliable data transfers across platforms. This combination of attributes makes it an optimal choice for application in smartphones, tablets, and increasingly in automotive solutions where reliability, speed, and extensive compatibility with various operating systems are pivotal.
SD Express FPGA IP core enables high-speed data transfer by leveraging PCIe and NVMe protocols over an SD card interface. It supports backward compatibility with legacy SD modes while offering significantly enhanced performance for storage applications. This enables the high-speed data transfer for next-generation storage applications as it supports the data rates significantly higher than traditional SD cards. Designed for FPGA-based implementations, it provides flexibility for custom storage solutions in embedded and industrial applications.
XtremeSilica's UFS Controller represents the forefront in high-speed, reliable storage interface technology, perfect for mobile and consumer electronics. It supports rapid data transfer rates, facilitating advanced storage solutions that meet the growing demand for quick and efficient data access. This controller provides significant benefits for mobile platforms, automotive systems, and beyond, supporting seamless data traffic, which is crucial for high-capacity storage requirements.
Memory Slave Controller IP forms a bridge between the SD host and user interface, enabling the data transfer between each other. This IP will send the response to the SD host depending on the command issued and also communicates with the user through a register interface for control and status. The Controller has two different variants depending on the availability of the processor towards user side. One being the AXI4 -lite or AHB complaint interface for accessing through processor and other is simple general-purpose interface which can be used without the processor.
XtremeSilica's SD Card Controller provides robust functionality for managing removable storage solutions. Ideal for consumer electronics and embedded applications, it enhances data access speeds while maintaining compatibility with various SD standards. This controller supports a range of SD card configurations, ensuring high reliability and performance, facilitating swift data exchange and storage, essential for portable devices and multimedia applications.
The Ultra-High Throughput VESA DSC 1.2b Decoder from Alma Technologies is designed to flawlessly decompress deep color video streams, ideal for state-of-the-art display technologies. Engineered to operate with low-latency, this decoder is perfect for environments requiring superior image quality and speed, handling the decompression of high-definition video at rates suitable for next-generation display applications. With its robust, scalable architecture, the DSC 1.2b Decoder can handle large volumes of compressed video without succumbing to latency issues. It supports high-bandwidth interface decompression, requisite for advanced display applications such as 10K video at 120Hz. This ensures ultra-smooth video playback and exceptional visual fidelity across demanding video systems. Designed for critical applications across broadcasting, gaming, and professional media settings, this decoder maintains a balance between high performance and minimal silicon resource usage. Its flexibility in supporting various chroma samples and color depths further extends its applicability in maintaining the most stringent video quality standards.
The TCAM Compiler offered by GUC provides a high-speed memory solution central to modern networking and telecommunications products. Optimized for rapid search operations, the Ternary Content Addressable Memory (TCAM) facilitates efficient data retrieval by storing up to three possible values for each bit, significantly expediting search processes within complex data sets. GUC’s TCAM Compiler is instrumental in applications demanding quick access to large data volumes, such as routing and switching devices in communication networks. The compiler’s robust design provides high-speed operations while managing power consumption effectively, addressing the stringent requirements of telecommunications infrastructure. Its adaptable architecture supports various custom implementations, making it conducive to tailored solutions. By leveraging high-speed serotonin logic integrated within the TCAM, GUC ensures systems can access data at incredible speeds without compromising on efficiency or accuracy, embodying the company's dedication to forward-thinking memory technology solutions.
Alma Technologies' DSC v1.2b IP cores provide industry-leading visually lossless compression for display streams, suitable for high-resolution video displays. This IP core supports an advanced compression algorithm that permits the transmission of high-definition content with reduced bandwidth requirement, crucial for optimizing video display technologies. The DSC v1.2b IP offers seamless support for a range of color sampling formats and high bit-depth precision, extending its use across varying outcomes, from consumer electronics to professional display systems. Its encoding and decoding capabilities ensure that even complex video streams are handled with minimal latency and exceptional image quality. This IP core is ideal for high-performance display scenarios such as broadcasting, gaming, and digital signage. By using DSC v1.2b IP, developers can promise their end-users superior display quality with efficient use of available transmission medium capacity, ensuring a compelling visual experience.
Corigine’s Advanced TCAM provides high-efficiency table management for routers and switches to maintain packet forwarding and security rules. It incorporates an innovative algorithm enhancing search performance and capacity, crucial for maintaining high-speed network operations in modern data centers. This TCAM solution excels in its deterministic search process, achieving a throughput of one cycle per search operation. This translates into significant speed and efficiency, handling millions of IPv4 routes and numerous rules efficiently. Its compact design, coupled with the capability to perform multiple parallel searches, embodies power efficiency and high capacity, tailored for deployment in edge and core routing equipment. By implementing reliable parity and ECC, Corigine ensures data integrity and minimizes error rates. This makes their TCAM particularly effective in high-speed data environments, supporting the increasing demands for rapid data access and processing in network infrastructure.
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