All IPs > Interface Controller & PHY > USB
The USB Interface Controller & PHY semiconductor IP category encompasses a variety of products and solutions essential for managing USB data transfer protocols and physical layer connectivity. Universal Serial Bus (USB) technology has become a fundamental element in electronic devices, providing a ubiquitous interface for data transfer, charging, and peripheral connectivity. This category includes specialized semiconductor IPs designed to implement USB standards such as USB 2.0, USB 3.0, and USB 3.1, enabling high-speed communication and seamless integration in various applications.
A USB Interface Controller plays a critical role in the communication process by handling the data exchange between the USB host and peripheral devices. It interprets USB signals, manages data flow control, and ensures compliance with USB protocols. Meanwhile, the PHY, or Physical Layer, acts as the bridge between the USB digital signals and the physical transmission medium. Together, the Interface Controller and PHY ensure the proper functioning of USB ports in devices ranging from smartphones and laptops to industrial machines and automotive systems.
Incorporating USB Interface Controller & PHY semiconductor IPs into designs provides manufacturers with flexibility and scalability. These IPs can be customized to meet the specific data rate, power consumption, and physical space requirements of diverse applications. This adaptability allows for efficient and cost-effective integration of USB functionality, reducing time-to-market and maximizing performance.
Products in this category are crucial for any device requiring USB connectivity. They are used in a vast array of applications, including consumer electronics, computer peripherals, automotive infotainment systems, and industrial control systems. Designing with these semiconductor IPs ensures compliance with global USB standards, enabling compatibility across devices and enhancing user experience by facilitating easy data transfer and device interoperability.
KPIT Technologies is a forerunner in developing AUTOSAR-compliant platforms that support the evolution of software-defined vehicles. Their solutions facilitate efficient software integration, middleware development, and high-level application performance optimization. By using advanced tools and methodologies, KPIT helps speed up the production timelines of modern vehicles, ensuring compliance with both AUTOSAR Classic and Adaptive frameworks. Their technologies enable automakers to minimize platform validation times and reduce integration complexities, thereby enhancing the scalability and functionality of vehicle systems.
Silicon Creations' LVDS Interfaces provide a low-power, high-speed data communication solution ideal for connecting integrated circuits in close proximity. Known for their low noise and power efficiency, these interfaces are widely used in applications ranging from display technology to telecommunications. These robust LVDS solutions support high data rates and are highly adaptable to various process nodes from 90nm to more advanced 7nm FinFET, making them suitable for both legacy and cutting-edge technologies. They ensure data integrity and signal stability across different conditions and configurations, leveraging enhanced CDR architectures. With extensive configurations supporting uni-directional and bi-directional operation, the LVDS interfaces provide flexibility for custom communications setups and are compliant with multiple standards like Camera Link and FPD-Link. Their capability to manage high-speed data links with precision positions them as essential components in demanding electronic applications.
The SerDes Interfaces from Silicon Creations feature cutting-edge capabilities for high-speed serial data transmission in semiconductor devices. Supporting a vast range of industry protocols, these interfaces offer both flexibility and performance, making them ideal for varied high-bandwidth applications. These interfaces accommodate rates from as low as 100Mbps to an impressive 32.75Gbps, covering a wide spectrum of technologies from JESD204 to PCIe and V-by-One. They include programmable serialization and deserialization features, along with advanced techniques for reducing latency, ensuring the rapid delivery and reception of data streams. Built on proven IP platforms, the SerDes interfaces integrate advanced PLLs to manage jitter and power consumption effectively. With adaptability to a multitude of fabrication nodes, these solutions meet the diverse needs of networked devices and high-speed interconnects, showcasing Silicon Creations’ expertise in providing industry-leading communication solutions.
KPIT Technologies provides robust digital frameworks that enable advanced connectivity amongst vehicle systems, driven by software innovation. These solutions are integral in turning vehicles into hubs of data exchange and engaging passenger experiences. This includes state-of-the-art in-vehicle infotainment systems and augmented reality interfaces, aiming to improve user satisfaction through personalized, secure, and efficient vehicle interactions. KPIT enhances cloud-driven solutions that effectively integrate these technological marvels, ensuring elasticity in scaling and optimizing connectivity solutions for the modern mobility ecosystem.
This LPDDR4/4X/5 Secondary/Slave PHY provides sophisticated memory-side interfacing capabilities that support AI processors and next-gen ASIC designs. It effectively integrates with devices requiring high-speed, low-power LPDDR communication, aligning with international JEDEC standards. While designed for usage on TSMC's 7nm technology, this IP can adapt to other processes, expanding its scope across advanced and emerging memory technologies such as DRAM and various non-volatile options.
The LVDS/D-PHY Combo Receiver by Mixel is intended for high-throughput environments where compatibility with both LVDS and D-PHY standards is essential. It combines the benefits of a source-synchronous physical layer for MIPI D-PHY and the TIA/EIA-644 standard LVDS, offering significant versatility. Its high-performance architecture ensures rapid data provisioning with minimized energy requirements, making it ideal for use in devices where efficient power handling and robust communication interfaces are necessary.
The PolarFire FPGA Family by Microsemi is engineered to deliver cost-effectiveness alongside exceptional power efficiency, positioning itself as the optimal choice for mid-range FPGA applications. Crafted to offer transceivers ranging from 250 Mbps to a robust 12.7 Gbps, these FPGAs cater to diverse bandwidth requirements. With logic elements spanning 100K to 500K and incorporating up to 33 Mbits of RAM, the PolarFire series seamlessly addresses demanding processing needs while ensuring secure and reliable performance. At the heart of its design philosophy is a focus on best-in-class security features combined with high reliability, making it particularly relevant for industries like automotive, industrial, and communication infrastructures where failure is not an option. It supports applications that require low power consumption without sacrificing performance, which is increasingly important in today's energy-conscious environments. These FPGAs find their versatility in a range of applications, from driving advancements in ADAS in the automotive industry to supporting broadband and 5G mobile infrastructures in telecommunications. The family also extends its use cases to data center technologies, highlighting its adaptability and efficiency in both digital and analog processing fields. With such a broad spectrum of applicability, the PolarFire FPGA Family stands as a shining example in Microsemi's product arsenal, delivering solutions tuned for innovation and performance.
The Multi-Channel Flex DMA IP Core offers an adaptable solution for handling up to 16 streaming channels, each managed independently to prevent mutual obstruction. Users can customize the data rate for each channel to optimize interfacing simplicity while incorporating prioritized FIFO buffers to ensure crucial data streams maintain supremacy. Designed with streaming and co-processor applications in mind, this IP core reads data from any source, processes it, and disseminates it to designated targets. Additionally, the core includes mechanisms for monitoring CRC errors along PCI Express links, enabling the prompt identification and exclusion of assemblies with subpar signal integrity during production testing. This core is paramount in safety-critical applications, where signal integrity and real-time data management are vital, offering high reliability and responsiveness in demanding environments. Its blend of efficiency and precision makes it a favorite for being able to swiftly adapt to varied processing needs without compromising on performance quality.
The Mixed-Signal CODEC offered by Archband Labs stands out as a versatile solution integrating both analog and digital functionalities. This CODEC is designed to meet the demands of various audio and voice processing applications, ensuring high fidelity and low power consumption. Equipped with robust conversion capabilities, it's suitable for a range of environments from wearable tech to automotive systems, ensuring clear and precise sound reproduction. The CODEC forms a crucial part of devices like smart home appliances and AR/VR gadgets, where audio quality is paramount.
The eSPI Master/Slave Controller effectively conforms to the Enhanced SPI specification, providing programmable functionality for master/slave configurations. With compliance to eSPI Bus Protocols, it supports various hardware interconnects, including AMBA AXI and AHB, making it suitable for both low and high-performance embedded systems. The controller is designed to address diverse operational needs, from consumer electronics to automotive applications, where reliability and accuracy in data transfers are critical. Its versatile architecture supports flexible deployment in complex system environments, enhancing communication efficiency across integrated networks.
The USB PHY is crafted to facilitate seamless data transfer and communication through USB 2.0 protocols. Capable of efficient data encoding and decoding, this technology supports various electronic devices that require high-speed communication. Designed with power efficiency in mind, the USB PHY minimizes energy consumption while delivering robust and reliable performance. Silicon Library’s USB PHY is engineered to ensure compatibility with a wide range of systems, making it an adaptable solution for diverse applications. From consumer electronics to industrial devices, it plays a critical role in managing data traffic and optimizing system operations. Featuring a high degree of integration, the USB PHY minimizes the need for additional components, ultimately reducing design complexity and cost. Its reliability and performance have made it a preferred choice for developers seeking to implement efficient and dependable USB communications.
The AXI Bridge for PCIe is a versatile Smartlogic solution featuring up to four AXI4 interfaces. This IP core seamlessly translates AXI read and write commands into PCIe Transaction Layer Packets, maintaining continuous parallel operations across all interfaces with zero interference. Unused interfaces can be deactivated to conserve logical resources, highlighting its efficiency-oriented design. The inclusion of a high-performance kernel mode driver enhances its operability on Windows and Linux systems, paving the way for easy software integration. This characteristic allows users to transfer payloads without delving into the complexities of PCIe packet formation. Ideal for various applications, especially in networking, this component provides dependable solutions where high throughput and low-latency data interactions are essential. It stands out for its ability to support dynamic Ethernet applications, ensuring that network environments function optimally at all times.
The Multi-Channel AXI DMA Engine excels in bridging AXI Stream and AXI Memory mapped operations, managed by a potent DMA engine. Capable of processing data from 16 AXI Stream Slave inputs, it ensures efficient data writing and reading into DDR memories. AXI Stream Masters can extract information, enabling further DSP processing across multiple streams. The inclusion of programmable address generators allows non-linear data storage, simplifying the retrieval process for algorithmic units by categorizing data in easily manageable sections or Regions of Interest (ROI). This functionality greatly aids subsequent data sorting and processing activities. By facilitating compatibility with GStreamer and offering Linux driver support, this IP core is versatile for use in SoC-based environments that demand seamless data handling and processing. Its adaptability extends to non-SoC FPGAs requiring efficient DDR data buffering, making it indispensable for a wide array of data-intensive digital environments.
The SPI Master/Slave Controller by Digital Blocks is crafted for seamless integration into systems requiring robust serial data exchange. This Verilog IP core supports both master and slave operations over AMBA AXI, AHB, or APB interfaces. The architecture is optimized for efficient communication with external SPI master or slave devices, ensuring reliable data transfers in various industrial and consumer applications. Its adaptable design is particularly suited for environments where multi-faceted peripheral interfaces are necessary, facilitating complex system integrations with multiple SPI-enabled components.
The AXI Bridge with DMA for PCIe from Smartlogic is engineered for high-performance data transfer applications, providing an array of industry-standard AXI interfaces. Designed to handle complex data streaming from FPGA to Host or vice versa, this IP core supports concurrent operations across all interfaces without interference. Its smart design allows for easy access to remote memory locations for shared and peer-to-peer memory applications. This product is notable for its ability to manage continuous data flow effectively, making it ideal for developers crafting sophisticated PCIe endpoints without deep protocol expertise. The inclusion of a kernel mode driver for Windows and Linux ensures smooth software integration, simplifying the deployment in diverse operating systems. Such integration allows developers to focus on transmitting raw data rather than crafting compliant PCIe packets, reducing complexity and development time. The core is especially valuable in network applications, where seamless Ethernet compatibility is crucial. Its robustness makes it well-suited for applications needing reliable data exchange and control over extensive data transactions, particularly in environments demanding high processing throughput and modular expansion capabilities.
The eSi-Comms IP offers parameterizable and configurable solutions for modern air interface standards, such as Wi-Fi, LTE, and DVB. It features advanced DSP algorithms for synchronization, equalization, and modulation, thereby enhancing the robustness of communication links. Suitable for wireless sensor networks, remote metering, and broadcast applications, eSi-Comms delivers efficient transceiver designs optimized for power and area. Supported by C, SystemC, CUDA, and MATLAB libraries, it facilitates swift development and integration into existing systems, ensuring a reduced time-to-market and minimized risk.
The LVDS Serializer from Mixel is a high-efficiency component designed for converting parallel data streams into serial data format. With capabilities that maximize data rates up to 5Gbps, it serves high-performance applications needing efficient data transmission over minimal wiring. Implemented using digital CMOS technology, this serializer works over four channels, allowing smooth integration into systems demanding high throughput with reduced electromagnetic interference. Its adaptations make it well-suited for data-intensive environments such as high-speed data acquisition systems or video transmission interfaces.
The CT25205 integrates several building blocks of the IEEE 802.3cg 10BASE-T1S Ethernet Physical Layer. Designed with Verilog HDL, this digital core is optimized for implementation on both standard cells and FPGA architectures, ensuring seamless compatibility with IEEE Ethernet MAC interfaces through MII. The core's standout feature is the integrated Physical Layer Collision Avoidance (PLCA) Reconciliation Sublayer, which allows existing MACs to leverage PLCA benefits without additional hardware modifications. A key aspect of this design is its connectivity to an OPEN Alliance 10BASE-T1S PMD Interface, streamlining integration into Zonal Gateways and MCUs. Paired with Canova Tech's complementary IPs, such as the CT25208 MAC controller, CT25205 forms the backbone of cutting-edge communication systems in industries requiring efficient data exchange. The CT25205 supports a wide array of industrial applications due to its robustness and capability to enhance the existing communication frameworks. It is particularly well-suited for automotive and industrial environments where reliable and durable Ethernet solutions are crucial.
The DisplayPort Transmitter is designed to meet the VESA DisplayPort 1.4 standard, offering advanced functionality for high-performance video interface applications. This IP core is optimized for seamless integration into FPGA and ASIC platforms, facilitating high-speed data transfer for displays. With robust PHY interface options, it supports a wide range of process technologies, ensuring compatibility across different hardware setups.
The MIPI CSI2MUX-A1F is a CSI2 Video Multiplexer designed to aggregate inputs from up to four CSI2 cameras into a single output stream. Compliant with CSI2 rev 1.3 and DPHY rev 1.2, this video multiplexer can manage data transmission at 4 x 1.5Gbps. It's perfect for applications requiring efficient conversion from multiple image sources to a consolidated feed.
Secure Protocol Engines are high-performance IP solutions tailored to manage intensive network and security operations. These IP blocks are designed to handle offloading of network processing tasks, enhancing system efficiency and performance. With integration ease and high compatibility across systems, they offer robust security by accelerating cryptographic protocols immensely necessary in today’s fast-paced digital environments.
The High-Channel-Count DMA IP Core is specialized for memory-intensive applications demanding high throughput, accommodating up to 64 data streams. It efficiently allocates streams within distinct host memory regions via DMA while facilitating user logic interfacing through up to 8 AXI4 (Full/Lite) masters. In addition to supporting data reading with up to 16 AXI Stream masters, this core simplifies the development of complex PCIe endpoints by enabling users to focus solely on data payloads, eliminating the need for intricate PCIe packet management. This capability makes it ideal for data-intensive operations such as streaming, Ethernet applications, and high-level computations. The IP core is equipped for Ethernet compatibility and comes with a detailed schematic to assist in implementation, ensuring that network congestion or interruptions have minimal impact on its performance. It is designed to support high-performance data handling and fast processing for real-time applications.
Mixel’s LVDS/D-PHY Combo Transmitter is a versatile component tailored for high-speed data transmission. It integrates a MIPI D-PHY with a robust LVDS transmitter, creating a platform capable of handling the diverse requirements of modern telecommunications. This combo allows seamless interfacing between components using different signaling standards, enhancing system compatibility. Through its energy-efficient architecture, the transmitter is suited for applications that prioritize reduced power consumption without compromising on speed, such as in mobile or portable devices.
The MIPI SVRPlus-8L-F is an advanced 8-lane, second-generation Serial Video Receiver designed specifically for FPGA applications. It supports CSI2 rev 2.0 and DPHY rev 1.2, allowing it to handle high-speed data transmission efficiently. The receiver can manage 16 virtual channels and provides 4 pixels output per clock cycle, complete with calibration support. Furthermore, it includes communication error statistics to ensure reliability.
The MIPI SVTPlus-8L-F is an innovative 8-lane, second-generation Serial Video Transmitter crafted for FPGA contexts. It aligns with CSI2 rev 2.0 and DPHY rev 1.2 standards, ensuring robust and efficient data transmission. Operating at a remarkable speed of 12Gbps, this transmitter is optimized for high-performance environments where precision and speed are paramount.
The U9 Flash Memory Controller by Hyperstone is designed for USB 3.1 interfaces, meeting the rigorous demands of industrial applications. It features the hyReliability flash management system and a hyMap Flash Translation Layer to ensure exceptional endurance and minimal write amplification. The controller integrates a high-performance AES encryption engine and a turnkey solution that includes firmware, reference schematics, and development hardware. This makes it ideal for reliable USB flash drive designs.
The MIPI SVRPlus2500 is a sophisticated 4-lane video receiver that adheres to CSI2 rev 2.0 and DPHY rev 1.2 standards. Designed to support low clock ratings for simpler timing closure, it offers PRBS support and outputs 4/8/16 pixels per clock. This receiver incorporates 16 virtual channels and 1:16 input deserializers per lane, making it a versatile choice for intricate video applications. Handling data rates up to 4 x 2.5Gbps, it is built for high-efficiency environments.
The SafeIP TriplePHY represents the pinnacle of Siliconally’s technology in safe communication solutions, elevating the standard for IEEE 802.3 compliant systems. As an extension of the DualPHY capabilities, this offering provides an additional channel, strengthening secure communication pathways within highly automated and sophisticated system environments. It caters to industries that rely heavily on rapid, real-time data transmission and demands seamless error detection to maintain operational efficacy.\n\nThe TriplePHY harnesses the power of GlobalFoundries 22FDX, an advanced platform known for its high-performance, energy-efficient attributes. This underlying technology equips the TriplePHY with ultra-low latency and exceptional signal reliability, necessary for maintaining integrity in critical communication systems. Siliconally's dedication to rigorous testing ensures this IP remains silicon-proven and highly adaptable across various technology nodes.\n\nWith its introduction, the product redefines the benchmarks in safety-critical communication, accommodating multiple parallel data streams without compromising on speed or accuracy. It is engineered to react swiftly to erroneous data in milliseconds, thus safeguarding against potential system niggles before they escalate. Adhering to ISO 26262, the TriplePHY stands as a premier choice for sectors like autonomous driving, aerospace, and heavy industrial operations.\n\nThis solution not only enhances operational safety but also advances system integration processes through its compatibility with market standards. Its three-channel advantage enhances redundancy and data path integrity, aligning with Siliconally's vision of providing cutting-edge safety solutions where milliseconds matter.
The 4.25 Gbps Multi-Standard SerDes is a high-speed serializer/deserializer block capable of supporting data rates up to 4.25 Gbps. Its multi-standard capability allows for integration into a variety of architectures, enhancing both data throughput and system interoperability. Built using robust digital CMOS technology, it efficiently manages high-bandwidth tasks while maintaining low power consumption. This SerDes is particularly useful in applications requiring extensive data channels, such as complex communication networks and multimedia interfaces.
ASRC-Lite is a streamlined audio sample rate converter designed for applications requiring efficient and precise audio data conversion. This versatile solution is engineered to handle multiple audio sample rates, effectively converting audio signals with minimal latency and high sound quality. The ASRC-Lite is ideal for systems where performance and resource efficiency are paramount, embodying Coreworks' commitment to delivering high-quality audio processing capabilities. With a focus on flexibility and integration, the ASRC-Lite can be seamlessly incorporated into a variety of audio applications, ranging from consumer electronics to professional audio equipment. The module is equipped with dynamic features that ensure precise sample rate conversion across different audio formats, supporting optimal performance in real-time environments. As audio systems become increasingly complex, the ASRC-Lite provides a reliable and scalable solution that addresses the evolving needs of audio signal processing. Building on Coreworks' extensive expertise in digital audio processing, the ASRC-Lite exemplifies the marriage of cutting-edge technology and user-oriented design. By offering robust support for low-latency audio conversion, it enables developers to create sophisticated audio solutions that maintain the integrity and clarity of the original sound. This audio sample rate converter is a testament to Coreworks’ innovation in developing functionally advanced yet resource-conscious IP solutions.
Mixel’s LVDS Deserializer is engineered to convert high-speed serial data streams back to parallel data format. Implemented with digital CMOS technology, it supports up to 5Gbps data rate over multiple channels, enabling efficient data handling in data-centric systems. This component ensures reliable data integrity and quick adaptation to different data transmission needs, making it particularly suited for applications such as image processing, high-definition video decoding, and other systems where data precision and speed are critical.
The MIPI SVTPlus2500 is an advanced 4-lane video transmitter that uses CSI2 rev 2.0 and DPHY rev 1.2 protocols. Optimized for easy timing closure through its low clock rating, it includes PRBS support and can handle 8/16 pixel input per clock. With the capability to manage 16 virtual channels at a speed of 4 x 2.5Gbps, this transmitter is ideal for dynamic video environments that demand flexibility and precise programmable timing parameters.
The D-PHY, part of the MIPI Alliance's suite of physical layer specifications, is designed for lower-power applications. Mixel's D-PHY is optimized for mobile, IoT, and wearable devices, delivering high data rates while ensuring power efficiency. The design supports multiple power modes and a wide range of data rates, providing vendors with the flexibility to balance battery life with performance demands. Mixel supports adaptability through various process nodes, ensuring that the D-PHY core can be integrated seamlessly across different manufacturing processes.
Trilinear's DisplayPort Receiver core adheres to the VESA DisplayPort 1.4 standard, offering superior performance for receiving high-definition video streams. This core is engineered to support an extensive PHY interface range, ensuring easy deployment in both FPGA and ASIC applications. With its flexible design, it provides excellent compatibility across multiple silicon process nodes, catering to a variety of technical demands.
Dolphin Technology's I/O products encompass a vast selection of interface IPs known for their high-performance capabilities. These I/O components are designed to complement various process technologies, ensuring reliability and efficiency in applications ranging from core limited designs to flip-chip utilizations. The product range includes standard I/O, high-speed I/O, and specialty interface I/O that can be customized for specific design requirements. The portfolio comprises various specialized I/Os like High Voltage Tolerant GPIO, LVDS Tx/Rx, and several DDR and SD IO variations, each built to meet demanding design specifications. Dolphin Technology’s offerings are fully equipped with compilers that allow for customization, ensuring each I/O library can be tailored to address process and chip-specific needs, thereby delivering optimal performance and versatility. These I/O solutions are available in multiple forms, including inline styles and flip-chip arrangements, which assist in the efficient use of space and signal integrity in complex semiconductor designs. The capability to integrate with different technology levels further broadens the applicability of these products, making them suitable for a diverse set of industry requirements.
Arasan's USB 3.0 Device IP is adeptly designed for high-speed data communication, enhancing connectivity across various consumer electronics and embedded computing systems. Its compliance with the USB 3.0 specification ensures rapid data transmission, significantly bolstering system efficiency. This IP core supports data rates up to 5Gbps, a considerable improvement over its predecessors, facilitating low latency and high throughput. It also incorporates mechanisms for error correction and data integrity verification, providing enhanced reliability for demanding applications. The USB 3.0 Device IP is conducive to use in a plethora of applications, from high-definition video cameras to peripheral devices in medical electronics, offering a versatile solution that aligns with the growing demand for advanced USB interfaces in the technology landscape.
RF Integration's 802.11 Transceiver Core is engineered to provide high efficiency and performance for wireless communication applications. It supports various 802.11 standards, allowing for versatile integration into modern wireless network environments. This transceiver core is designed to facilitate seamless connectivity and data transfer, crucial for enabling robust Wi-Fi communication. The core incorporates sophisticated signal modulation and demodulation techniques to ensure optimal wireless performance. It is crafted to operate effectively across multiple bands, providing high data throughput and expanded wireless range. By integrating this core, devices can achieve reliable wireless connectivity, making it an ideal choice for consumer electronics, mobile devices, and other networked systems. Advanced power management features are embedded within the core's design, aimed at minimizing energy consumption and extending device battery life. Such efficiency makes it particularly suited for portable and mobile communications technology, highlighting its role in enhancing the user experience for connected wireless environments.
Canova Tech's CT20601 is a comprehensive USB Type-C interface IP core tailored for USB Power Delivery devices. It covers VCONN and VBUS management, making it capable of supporting dual-role ports and ensuring smooth operation even in dead-battery scenarios. The CT20601 integrates seamlessly with Power Delivery systems, enhancing connectivity with various peripherals. It features mechanisms like Fast Role Swap, which are essential for maintaining stable and reliable communication under varying power conditions. Ideal for use in diverse electronic devices, the CT20601 is a pivotal element in creating advanced USB-PD power solutions, enabling efficient power transfer and robust data management while simplifying design integration for technology developers.
The SafeIP SinglePHY stands out as a crucial component in Siliconally's suite of communication solutions. Specifically tailored for IEEE 802.3 communication, this patented technology elevates communication safety standards to new heights. Designed for fail-safe and operational continuity, the SinglePHY offers unprecedented speed in error detection, a necessity for system-critical environments where milliseconds can make a difference. Utilizing the advanced GlobalFoundries 22FDX platform, it guarantees high-performance computing capabilities with low power consumption, which are essential attributes for automotive market applications.\n\nThis silicon-proven solution is engineered to seamlessly integrate into complex systems, providing robust real-time fault responses. Its agility in responding to critical failures protects both human and technological assets, making it highly desirable in any high-stakes industry. The solution offers an innovative shift to enhancing communication safety while maintaining compatibility with existing IEEE 802.3 standards.\n\nSafeIP SinglePHY is aimed at serving various sectors, including automotive, aerospace, and heavy industry, meeting the rigorous demands of ISO 26262 standards. Every design is delivered with thorough integration views and quality assurance documents, ensuring the high standard of Siliconally's IP offerings is upheld.\n\nIn focusing on the SinglePHY, Siliconally invites industries to adopt a solution that promises agile development backed by rigorous testing and industry compliance, paving the way for safer automated and autonomous systems.
The THOR Toolbox provides a multifaceted platform for NFC and UHF connectivity, tailored for a wide range of IoT applications. It contains high-precision NFC components optionally combined with UHF for diverse data transfer capabilities, allowing for secure identification processes. This adaptability across multiple protocols makes it a valuable tool for capturing data and providing early-stage design validation for emerging technologies. Incorporating a robust temperature sensor, THOR measures environmental conditions with high accuracy, which is critical in industrial settings. It supports external sensor interfacing through analog and digital connections, providing flexibility in data acquisition. The toolbox also includes encryption features to ensure data integrity and security, making it ideal for applications requiring stringent data management, such as medical devices. Tailored for sectors facing rigorous demands like the industrial and medical markets, THOR's efficient memory storage and configurable data logging offer scalable solutions across safety, logistics, and healthcare monitoring domains. By enabling rapid development and deployment demonstrations, it significantly accelerates project timelines from concept to completion.
SafeIP DualPHY builds upon the foundational capabilities of the SinglePHY by enhancing network communication reliability and safety in the IEEE 802.3 standard realm. Offering dual-channel capabilities, it supports both 100BASE-T1 and 1000BASE-T1 communications, providing scalable solutions across different industry requirements. Utilizing robust real-time communication technology, the DualPHY is engineered to handle critical error detections faster than its peers, ensuring uninterrupted operations especially in systems where delays can cost lives.\n\nThis innovative product supports the automotive Ethernet sector and is a frontrunner in adapting to the increasing demands for system safety in modern vehicles and automated environments. The DualPHY leverages the same state-of-the-art GlobalFoundries 22FDX platform, enabling impressive energy efficiency and seamless system integration. With a silicon-proven track record, its rapid fail-safe responses and operational continuity features make it an invaluable asset for the automotive, aerospace, and heavy machinery industries.\n\nIts design adopts Siliconally’s agile methodology, encouraging iterative development and integration, ensuring the IP product is continuously evolved and improved to meet demanding market needs. By offering dual communication pathways, it replicates and complements SinglePHY’s capabilities, ensuring even higher reliability in critical applications.\n\nThis product is engineered to be completely compatible with other standard PHYs, and offers flexibility in integration, ensuring it is a viable choice for industries looking to enhance their communication infrastructures. It stands as a testament to Siliconally’s commitment to promoting safety and reliability in high-risk operational environments.
The VoSPI Rx for FLIR Lepton IR Sensor by BitSim NOW is tailored for capturing and managing infrared sensor data effectively. Designed to work with Xilinx-7 platforms, this IP is aimed at applications requiring precise thermal imaging and data processing. It optimizes the data acquisition process by ensuring successful and efficient data reception from infrared sensors, crucial in fields like surveillance, medical imaging, and industrial automation. This receiver is an essential component for those looking to integrate advanced thermal sensing capabilities into their technology solutions, offering robust performance and reliability.
The 100BASE-T1 Ethernet PHY is an innovative solution for Ethernet connectivity, providing minimal wiring requirements and compact footprint benefits. It enables high-speed communication of 100Mbps over a single unshielded twisted pair (UTP) cable. This PHY is designed to be lightweight and features low power consumption, making it an ideal choice for applications that demand high-speed data transfer in constrained spaces.<br><br>This technology leverages advanced electrical engineering to achieve robust connectivity, ensuring data integrity over extended cable lengths compared to other solutions. Its compatibility with IEEE standards ensures it can be easily integrated into existing systems, enhancing their performance with minimal adjustments.<br><br>Such innovation aligns with evolving connectivity needs, making the 100BASE-T1 Ethernet PHY suitable for a broad range of industries, including automotive, where streamlined wiring can substantially reduce manufacturing costs and complexity.
This specialized Slave Side SPI/QPI Controller is characterized by its compliance with standard SPI products from Macronix, proving its versatility in numerous advanced memory configurations and AI systems. Operating efficiently up to 133MHz, this interface is crucial for applications demanding reliable data communication and high integration flexibility. Green Mountain Semiconductor offers dedicated design support for customized modifications, ensuring the IP aligns with client-specific technological frameworks and objectives.
Altek's AI Camera Module exemplifies innovation in the realm of smart imaging solutions, designed to serve as a critical component in AI recognition and video processing systems. This module integrates advanced image processing capabilities, enabling it to deliver superior high-resolution images that are indispensable for AI-driven applications. With an expert blend of lens design and software integration, the module achieves optimal performance in AI and IoT contexts. This modular solution is highly adaptable, supporting edge computing to meet real-time data processing needs. It can cater to high-resolution demands such as 2K and 4K video quality, enhancing detail and clarity for surveillance or autonomous platforms. Its rich functionality spans a range of use cases, from facial recognition and tracking to complex video analytics, ensuring clients have a flexible solution that fits into various AI ecosystems. Altek’s AI Camera Module is designed for seamless integration, offering capabilities that span across consumer electronics, industrial applications, and smart cities. It stands out by providing robust performance and high adaptability to different environments, harnessing machine learning algorithms to improve precision and efficiency. The module's collaboration potential with global brands underlines its reliability and advanced technological framework, making it a go-to choice for organizations aiming to excel in high-end AI+IoT implementations.
eSi-Crypto offers a robust suite of encryption and authentication solutions designed for ASIC and FPGA implementations. Characterized by low resource usage and high throughput, this cryptographic IP includes True Random Number Generators (TRNGs) that are compliant with NIST standards and can be integrated as a hard macro in the target technology. The IP supports several algorithms, such as CRYSTALS Kyber, CRYSTALS Dilithium for post-quantum cryptography, and widely used standards like RSA and AES, facilitating secure communication across diverse applications. It is compatible with AMBA APB/AHB as well as AXI bus interfaces, making it a versatile choice for sophisticated security needs.
ISPido on VIP Board is a tailored run-time solution designed specifically for Lattice Semiconductors' VIP board, offering enhanced image processing capabilities. Designed for real-time image sharpness and balance, the system provides both automatic configuration options and manual fine-tuning capabilities through a menu interface. This interface allows the selection of different gamma tables, application of convolutional filters, and more. The VIP Board includes CrossLink and HDMI bridges and uses Sony IMX 214 image sensors with an ECP5-85 FPGA processor, ensuring robust processing power and high-quality image output. With a resolution output of 1920 x 1080p over HDMI and YCrCb 4:2:2 format, this board is instrumental in achieving runtime calibration. Overall, ISPido on VIP Board offers a customizable platform for image processing tasks, balancing ease of use with powerful processing capabilities, thus supporting a variety of video and vision applications.
The Serial Peripheral Interface (SPI) MRAM is designed for systems that require fast data retrieval and minimal pin usage. With quad SPI capabilities, it achieves read and write speeds of up to 52MBps, surpassing traditional 8-bit parallel MRAM. Packaged in a compact 16-pin SOIC, this SPI MRAM is perfect for modern RAID controllers, server system logs, and storage buffers, providing high-speed data and program memory solutions.
ASRC-Pro is an advanced audio sample rate converter tailored for high-end audio applications that demand superior sound fidelity and versatility. This IP is engineered to manage complex audio streams, providing seamless and accurate conversion between different audio sample rates while ensuring minimal distortion and optimal sound quality. ASRC-Pro is suitable for a wide range of professional audio and broadcast environments, setting the benchmark for performance and reliability in audio processing. Coreworks has developed the ASRC-Pro to meet the exacting standards of audio professionals. It offers a comprehensive suite of features that facilitate the manipulation of audio data, enhancing both usability and integration within larger audio architectures. The ASRC-Pro supports a variety of audio formats and sample rates, allowing developers to create diverse audio solutions that are flexible and scalable. Its superior noise reduction capabilities and robust architecture make it a preferred choice for applications where sound quality is non-negotiable. Moreover, the ASRC-Pro is exemplary of Coreworks' dedication to providing state-of-the-art solutions in digital signal processing. With its advanced processing capabilities and user-centric design, this converter enables the delivery of pristine audio clarity, making it invaluable for high-fidelity audio systems and applications. By incorporating Coreworks' cutting-edge technologies, ASRC-Pro enhances the end-user’s auditory experience with precision and clarity.
CoMira's Ethernet UMAC IP offers an all-encompassing solution for high-speed Ethernet networking needs. This IP is engineered to handle multi-channel and multi-speed operations with ease, supporting a wide variety of data rates from 1G to 1.6T. Utilizing a novel time-sliced architecture, it delivers maximum density for high port count scenarios while maintaining extremely low latencies, making it ideal for data center applications. The UMAC IP complies with various industry standards including IEEE 802.3bs and 25G/50G Ethernet Consortium guidelines, yet it is designed to be flexible, allowing for custom and non-standard operational modes tailored to the specific needs of each customer.