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's digital connected solutions offer an innovative framework for automotive companies aiming to leverage the vast possibilities of cloud and AI technologies. The focus is on enabling advanced vehicle management features from remote software operation to predictive analytics, transforming the role of software in the automotive industry. These solutions allow the seamless integration of cloud services with vehicle systems, enhancing end-user experiences through data-driven insights. KPIT offers customized platforms that streamline vehicle diagnostics, improve operational efficiencies, and enable features such as predictive maintenance and remote updates. Comprehensive service offerings ensure that customers benefit from vast data collection, robust asset management, and integrated analytics. KPIT not only provides the technical structure necessary for managing connected systems but also plays a pivotal role in crafting strategic roadmaps for deployment. The evolution of connected solutions by KPIT aims to simplify the management of automotive software, offering flexibility through remote service management and vehicle-to-cloud interactions. These advancements demonstrate KPIT’s commitment to pushing the boundaries of automotive technology.
The USB PHY offered is designed to ensure seamless integration for USB interface connections, particularly excelling at high-speed data transfers. Capable of handling the USB 2.0 standards, it facilitates robust data processing, making it a preferred choice for devices requiring reliable USB connectivity. The architecture is optimized to reduce latency while boosting data throughput, ensuring faster and more efficient communication between devices.\n\nThis IP core can be implemented in various consumer electronics, from personal computing devices to portable storage units, where consistent and high-speed USB operations are critical. It’s designed to seamlessly integrate into existing systems, minimizing engineering overhead and maximizing performance outcomes. It achieves this by offering low EMI emissions alongside high accuracy in data conversion processes.\n\nThe USB PHY also ensures compliance with industry protocols, providing advanced functionalities like high-power efficiency and flexibility in accommodating different supply voltages. This IP core is crucial for devices that demand extensive data transfer capacities without compromising on power consumption or connectivity reliability.
The CT25205 is a digital IP core developed to provide essential functionality for 10BASE-T1S Ethernet communications. Adhering to the IEEE 802.3cg standard, this core encompasses the PMA, PCS, and PLCA Reconciliation Sublayer blocks to facilitate effective data transmission. Designed in Verilog 2005 HDL, the CT25205 is versatile, synthesizable across standard cells and FPGA systems, and easily integrates with CSMA/CD Ethernet MACs via MII. This integration allows existing MAC devices to leverage advanced PLCA features without extensive modifications. Additionally, the CT25205's connection to the OPEN Alliance 10BASE-T1S PMD interface makes it ideal for use in Zonal Gateways SoCs and MCUs, driving efficient 10BASE-T1S communication with a host of innovative capabilities.
The High Channel Count DMA IP Core for PCI Express is engineered for high-throughput applications involving numerous data sources. It efficiently manages up to 64 data streams, storing them in separate host memory regions via DMA operations. With support for up to 8 AXI4 Master interfaces for user logic and capability to read data over DMA with 16 AXI Stream Masters, it facilitates the creation of sophisticated PCIe endpoints without requiring advanced PCI Express knowledge. Users transmit or receive only payload data, with the core automatically handling PCI Express packet generation. This capability, combined with compatibility for data streaming, Ethernet, and coprocessor applications, ensures swift development and integration into complex systems.
The Programmable TCP Offload Engine (TOE) from LeWiz is designed to enhance network performance by offloading TCP/IP processing tasks from the host CPU. This IP core allows servers and networking devices to handle data transmissions more efficiently while freeing up processor resources for other tasks. LeWiz's TOE is highly programmable, providing the flexibility for customizing network protocols and applications without compromising on performance. This capability ensures that enterprises can tailor the TOE to fit specific network requirements, thus optimizing the use of available network resources and enhancing data throughput. Engineered for robust multi-session handling, LeWiz's TOE is suited to environments where managing numerous simultaneous connections is necessary, such as data centers and cloud services. By significantly reducing CPU overhead associated with TCP/IP processing, the Programmable TOE increases data transfer efficiency, contributing to overall system performance enhancements.
The XCM_64X64_A is a specialized ASIC boasting an array of 128 ADCs, each 2-bit and sampling at 1GSps. It comes with a VGA front end and functions as a cross-correlator, tested for applications in synthetic radar receivers and spectrometers, notably used by NASA. Fabricated on IBM's 45nm SOI CMOS technology, this IP addresses the needs for low power consumption and high data throughput, particularly in bandwidths ranging from 10MHz to 500MHz.
The HDMI 2.1b IP Core is a sophisticated piece of technology designed to facilitate the integration of HDMI connectivity in modern digital devices. This core boasts support for the newest HDMI standards, enabling ultra-high-speed video and audio transmission. It ensures compatibility across a wide array of display devices, making it a versatile component for manufacturers aiming to deliver cutting-edge multimedia experiences. With advanced signal processing capabilities, this IP core allows for the transmission of video resolutions up to 8K, providing users with unparalleled clarity and detail. It has been engineered to minimize latency and optimize throughput, making it ideal for applications demanding high bandwidth and quick response times. The HDMI 2.1b IP Core is essential for any product aiming to stay current with the latest in digital interfacing technology. This core supports a variety of audio formats, ensuring an immersive audio experience that complements its high-definition video capabilities. Its robust architecture is designed to handle the most demanding multimedia applications, providing a reliable and efficient performance while maintaining low power consumption and a compact footprint.
The U9 is a USB 3.1 controller that has been meticulously constructed to meet the exacting requirements of industrial applications. It brings with it hyReliability™ flash management, a flexible ECC engine, and a powerful AES encryption feature, all encapsulated within an optimized 32-bit RISC core. The versatile controller continuously updates its flash memory chip support to ensure its applicability for emerging storage necessities, also featuring GPIOs for customized applications using interfaces like SPI and I2C. Its design includes temperature sensing capabilities and offers a turnkey solution package, streamlining the integration into complex systems.
The CIoT25 chip offers a versatile and power-efficient solution tailored for IoT applications. Integrating Cortus's matured expertise in RISC-V architecture, the CIoT25 is a strategic asset for developers aiming to deploy IoT devices that demand both cost-efficiency and non-negotiable performance. Designed for operation in the sub-1 GHz unlicensed ISM bands, this chip supports a range of industrial applications requiring reliable and long-range communication, making it ideal for sectors such as agriculture, retail, and city infrastructures. An amalgamation of smart design and high functionality allows the CIoT25 to manage data transmission effectively while maintaining low power consumption. This capability ensures devices can remain operational in remote environments with minimal intervention. The architecture's compact instruction set enhances code density, optimizing the chip for IoT systems prioritizing swift data processing without energy drain complexities. Cortus positions the CIoT25 as a key component for businesses investing in IoT expansion, enabling swift and efficient integration. By delivering seamless support for modern communication protocols, Cortus empowers users to innovate with confidence, ensuring that their IoT devices embody robustness and cutting-edge technology. This makes the CIoT25 a critical tool for maximizing return on IoT investments while facilitating sustainable and future-ready technological evolution.
DSER12G is engineered for robust data and clock recovery, supporting data rates from 8.5 to 11.3Gb/s. It operates independently on data coding and offers deserialization in a 1:32 ratio. Tested on fiber optic transceiver ASICs, the IP utilizes IBM's 65nm 10LPe process to ensure low power operation and high performance in SONET/SDH OC-192 systems, making it a critical component in high-speed data transfer,
The Multi-Channel AXI DMA Engine bridges AXI Stream and AXI memory-mapped systems using a robust DMA engine. It can handle data from up to 16 AXI Stream Slave inputs concurrently, writing and reading from AXI memory-mapped spaces like DDR. With AXI Stream Master capabilities, it enables data retrieval and multi-stream processing by subsequent DSP units. Programmable address generators permit non-linear data writing, effectively easing future algorithmic processing tasks and sorting data for regions of interest. Common in SoC-based FPGA usages, it processes camera and A/D converter streams into SoC DDR, with GStreamer-compatible Linux driver support unlocking powerful open-source frameworks for video processing.
The SER12G IP focuses on robust serialization with a 32:1 capability for data rates between 8.5 and 11.3Gb/s. Uniquely developed for fiber optic transceivers, this component offers increased reliability by managing independent on data coding. Based in IBM's 65nm 10LPe technology, it proves effective for SONET/SDH OC-192 transmitters, enhancing line rate output data retiming via a low-power, high-efficiency framework, fully supporting CMU integration with a fractional-N PLL.
The USB 2.0 PHY Core from Soft Mixed Signal is engineered to meet the modern demands of USB connectivity by offering full compliance with the latest USB 2.0 specifications. This core delivers a complete transceiver solution with support for high-speed modes while incorporating On-The-Go (OTG) capabilities, which allows devices to operate independently in a manner of host or peripheral, enhancing interaction versatility. Important design features include clock recovery from high data rates of 480 Mbps, operated through a high-frequency PLL. Advanced transmitter and receiver capabilities support both high-speed and full-speed modes, maintaining robust signal integrity under various operational conditions. The implementation of UTMI and/or UTMI+ interfaces allows for efficient data transfer across differing bus widths, accommodating both 8-bit and 16-bit architectures. For added functionality, the solution is equipped with calibrated switchable resistors for differential signaling, alongside optional charge pumps and VBus functionalities for OTG applications. This enhances flexibility in supporting diverse hardware platforms such as PC peripherals, mobile devices, and more, thus reducing integration time and risk for system developers striving to meet stringent market requirements.
Arasan's USB 3.0 Device IP provides a significant performance enhancement for USB-enabled devices, seamlessly extending beyond the capabilities of USB 2.0 by introducing SuperSpeed USB 3.0 at 5Gbps. This comprehensive solution is designed for easy integration into SoC designs, offering backward compatibility along with energy-efficient features such as power management options. It supports advanced data handling mechanisms for high-performance computing, mobile, and consumer applications, ensuring substantial improvements in data throughput and power consumption.
The NB-IoT C200 from Cortus offers a robust solution for low-power wide-area network (LPWAN) applications. As IoT expansions continue in smart cities and other sectors, the NB-IoT C200 stands out as a reliable connectivity module designed to meet demanding data transmission requirements while conserving energy. The chip integrates NB-IoT and Bluetooth Low Energy functionalities, facilitating broader and more efficient device communications. Designed for the sub-1 GHz unlicensed ISM bands, this module is especially well-suited for applications that require long-range, low-power communication. Cortus ensures that this product is optimized for seamless integration into various industry applications, such as smart metering, logistics, and environmental monitoring. Its compatibility with existing IoT infrastructures means quicker deployment times and better scaling potential for IoT systems looking to expand their reach without incurring additional energy or infrastructure costs. The focus on efficient power usage allows the NB-IoT C200 to operate in remote or hard-to-reach areas, where frequent maintenance is impractical. With a proven track in reducing operational costs and simplifying IoT device creation, the NB-IoT C200 supports businesses in achieving stricter sustainability targets by significantly lowering the carbon footprint of smart devices. This integration strength affords businesses the ability to enhance Internet-of-Things strategies with confidence, ensuring connectivity remains robust and future-ready as technologies advance.
The HDMI 2.0b IP Core enables seamless HDMI connectivity without compromising on quality and performance. It facilitates the transmission of video and audio signals at high speeds, supporting UHD resolutions and a wide range of color formats, essential for modern digital electronics. Capable of handling large volumes of data, this IP core is ideal for devices requiring extensive bandwidth and rapid data transfer rates, such as digital signage and high-performance multimedia players. Its architecture supports advanced features like dynamic range and detailed color corrections, enhancing the overall user experience by delivering vivid visuals and crisp audio outputs. The HDMI 2.0b IP Core is designed with compliance and compatibility in mind, ensuring that devices meet or exceed industry standards. It represents a comprehensive solution for manufacturers aiming to incorporate the latest HDMI technologies in their products, providing them with a reliable, cost-effective way to enhance device capabilities.
The XCM_64X64 offers complete cross-correlation capabilities across 64x2 channels, supporting bandwidths of 10MHz to 500MHz. Leveraging IBM's 45nm SOI CMOS technology, this cross-correlator is designed for synthetic radar receivers and spectrometers, achieving ultra-low power consumption, crucial for NASA's demanding applications. Its advanced design integrates collaboratively tested configurations to ensure efficient and high-speed data processing.
The OTC9115 USB 3.1 Cable Marker is a highly integrated chip that serves as a comprehensive solution for USB PD Type-C baseband cables. Designed to occupy minimal silicon space, it caters to high-volume production while maintaining low production costs. This single-chip solution requires only two external capacitors and features a 4-pin package with an area less than 1mm². INTEGRATED PROM allows customization to suit various vendor specifications, responding to a wide array of vendor messages automatically. It boasts an active Ra pull-down feature, consuming a mere 10µA at 5V, and offers a power efficiency under 5mW due to its low duty cycle. The PROM is programmed post-assembly, enhancing production efficiency, and includes a fuse lock function to secure configurations. Enhanced for high functionality without external components, the product incorporates a physical layer from the OTC9107 port chip. This handles CC line driving and reception, and includes features such as a data slicer, activity detection, voltage level detection, all within a highly efficient slew rate controlled driver. Supported in different packages, this cable marker is essential for manufacturers striving for reliable and cost-effective solutions.
SERDES12G provides an integrated solution for data serialization and deserialization, supporting robust 32:1/1:32 operation at data speeds from 8.5 to 11.3Gb/s. Designed for high-performance fiber optic transceivers, this IP in IBM's 65nm 10LPe process ensures strong noise immunity and low-power operation, making it optimal for critical communication standards like SONET/SDH OC-192. It integrates CMU with a fractional-N PLL, delivering precision in clock management and data integrity.
MosChip's USB2.0 Host controller is meticulously designed for high-speed communications, interfacing between USB ports and a system's microprocessor. It complies with the EHCI and OHCI specifications, catering to diverse speed devices attached to the root port. This IP supports advanced Link Power Management features and provides flexible connectivity solutions in any data management system. By facilitating quick data transfers, the Host Controller becomes indispensable for systems requiring efficient management of multiple peripherals. The capability to interface with various system buses through a VCI interface ensures high adaptability and integration ease. Notably, its parallel operation with USB2.0 enables expansive device connectivity and streamlined control procedures. The implementation of a comprehensive power management system accentuates its proficiency in managing system resources effectively, minimizing power consumption while maintaining superior performance standards. Across different industries, this USB Host Controller remains a fundamental element for technology solutions needing reliable and versatile peripheral management.
Ceva's Waves Wi-Fi Platforms represent an advanced suite of embeddable Wi-Fi IPs designed to support evolving wireless communication needs from Wi-Fi 4 to Wi-Fi 7. This platform is aimed at delivering high-performance wireless connectivity across a broad range of devices and applications, from mobile gadgets to industrial IoT networks. The extensive range of these platforms makes them suitable for applications requiring versatile connectivity solutions. With their ability to handle high-speed data rates and provide extensive coverage, they are poised to meet the challenges of modern connectivity demands. The Wi-Fi Platforms support multiple frequency bands and advanced networking standards, ensuring compatibility with future technologies. Designed to be power-conscious, these Wi-Fi platforms are optimized for low energy consumption, enhancing their viability for power-sensitive applications. Their modular nature strengthens developers' flexibility, allowing easy adaptation and integration into existing systems to enhance connectivity without compromising on design constraints.
The CT20601 offers a comprehensive USB Type-C interface solution designed for dual-role ports and power delivery. This IP core manages VCONN and VBUS efficiently, supporting diverse operations like dead-battery power-up scenarios. Its architecture facilitates safe and efficient power negotiation up to 100W while also enabling audio and video signal transmission. Moreover, the CT20601 integrates swiftly with other controllers, ensuring multimedia and data optimization for a seamless user experience with USB Power Delivery features.