All IPs > Wireless Communication > Wireless USB
In the dynamic world of wireless communication, Wireless USB technology plays an increasingly pivotal role in delivering seamless data transfer between devices without the need for cables. This category of semiconductor IPs focuses on enabling Wireless USB functionalities, which are essential for modern electronic devices that aim to offer convenience and enhanced user experiences. Wireless USB technology facilitates short-range wireless connectivity offering versatility and speed similar to traditional USB connections but without the physical limitations of cables.
The semiconductor IPs in this category are integral for developing solutions that require efficient wireless data transmission in a variety of applications. Among these, consumer electronics such as wireless peripherals, portable data storage devices, and innovative smart devices leverage Wireless USB IPs to enhance their connectivity features. Designers and engineers frequently incorporate these IPs to create products that meet the increasing demand for media-rich and data-intensive applications that require robust and reliable wireless connectivity.
Products offered in the Wireless USB semiconductor IP category include complete protocol stacks, radio frequency transceivers, and baseband processors specifically optimized for Wireless USB applications. These IP solutions are designed to minimize power consumption while maximizing data throughput and range, which is critical for portable and battery-powered devices. With such IPs, manufacturers can provide consumers with faster and more flexible data exchange capabilities without compromising on performance or battery life.
Adopting Wireless USB semiconductor IPs also enables the development of next-generation devices with enhanced data transfer speeds and expanded connection capacities. This positions original equipment manufacturers (OEMs) to meet the growing demands for wireless technologies that support smarter, more interconnected ecosystems. As such, Wireless USB IPs remain a critical component for innovation in sectors from consumer electronics to industrial applications, where quick and efficient data flow is paramount.
aiSim 5 is a state-of-the-art automotive simulation platform designed for ADAS and autonomous driving testing. Recognized as the world's first ISO26262 ASIL-D certified simulator, it offers unparalleled accuracy and determinism in simulating various driving scenarios and environmental conditions. The simulator integrates AI-based digital twin technology and an advanced rendering engine to create realistic traffic scenarios, helping engineers verify and validate driver assistance systems. Harnessing powerful physics-based simulation capabilities, aiSim 5 replicates real-world phenomena like weather effects and complex traffic dynamics with precision. By offering a comprehensive set of 3D assets and scenarios, it allows for the extensive testing of systems in both typical and edge conditions. With its flexible and open architecture, aiSim 5 can seamlessly integrate into existing testing toolchains, supporting significant variations in sensor configurations and driving algorithms. The platform encourages innovation in simulation methodologies by providing tools for scenario randomization and synthetic data generation, crucial for developing resilient ADAS applications. Additionally, its cloud-ready architecture makes it applicable across various hardware platforms, turning simulation into a versatile resource available on inexpensive or high-end computing configurations alike.
Packetcraft's Bluetooth LE Audio Solutions offer a full suite of host, controller, and LC3 components optimized for seamless transition to Bluetooth LE Audio. The platform supports Auracast broadcast audio and True Wireless Stereo (TWS), making it adaptable to prevalent chipsets and providing flexibility to product companies. The modular design facilitates simplified integration, ensuring companies can leverage advanced audio capabilities in a variety of applications. As Bluetooth audio technology evolves, Packetcraft remains at the leading edge, offering industry-leading solutions that cater to modern audio requirements.
TES Electronic Solutions provides a comprehensive Ultra-Wideband (UWB) technology suite tailored for high-precision ranging and communication applications. UWB Technology & IP is designed to offer robust wireless data transmission, combining low power consumption with high data rates, ideal for indoor positioning and real-time location tracking systems. The UWB solutions support various industrial standards, ensuring interoperability across different platforms and systems, which is essential for modern interconnected environments. With its strong signal resilience and multipath immunity, UWB Technology & IP is particularly effective in environments with reflective materials or where traditional wireless technologies might struggle. This technology is vital in applications requiring precision, such as asset tracking, position monitoring, and security systems. TES's framework ensures flexibility, allowing for customization and optimization based on unique client requirements, facilitating integration into existing and future communication infrastructures.
The RFicient chip is designed for the Internet of Things (IoT) applications, famously recognized for its ultra-low-power operations. It aims to innovate the IoT landscape by offering a highly efficient receiver technology that significantly reduces power consumption. This chip supports energy harvesting to ensure sustainable operation and contributes to green IoT development by lessening the dependency on traditional power sources. Functionally, the RFicient chip enhances IoT devices' performance by providing cutting-edge reception capabilities, which allow for the consistent and reliable transmission of data across varied environments. This robustness makes it ideal for applications in industrial IoT settings, including smart cities and agricultural monitoring, where data integrity and longevity are crucial. Technically advanced, the RFicient chip's architecture employs intelligent design strategies that leverage low-latency responses in data processing, making it responsive and adaptable to rapid changes in its operational environment. These characteristics position it as a versatile solution for businesses aiming to deploy IoT networks with minimal environmental footprint and extended operational lifespan.
CLOP Technologies' 60GHz Wireless Solution offers businesses an impressive alternative to traditional networking systems. Leveraging the IEEE 802.11ad WiFi standard and Wireless Gigabit Alliance MAC/PHY specifications, this solution achieves a peak data rate of up to 4.6Gbps. This makes it particularly suited for applications that require significant bandwidth, such as real-time, uncompressed HD video streaming and high-speed data transfers — operations that are notably quicker compared to current WiFi systems. The solution is engineered to support 802.11ad IP networking, providing a platform for IP-based applications like peer-to-peer data transfer and serving as a router or access point. Its architecture includes a USB 3.0 host interface and mechanisms for RF impairment compensation, ensuring both ease of access for host compatibility and robust performance even under high data rate operations. Operating on a frequency band ranging from 57GHz to 66GHz, the wireless solution utilizes modulation modes such as BPSK, QPSK, and 16QAM. It incorporates forward error correction (FEC) with LDPC codes, providing various coding rates for enhanced data integrity. Furthermore, the system boasts AES-128 hardware security, with quality of service maintained through IEEE 802.11e standards.
The eSi-Comms suite from EnSilica stands as a highly parametizable set of communications IP, integral for developing devices in the RF and communications sectors. This suite focuses on enhancing wireless performance and maintaining effective communication channels across various standards. The modular design ensures adaptability to multiple air interface standards such as Wi-Fi, LTE, and others, emphasizing flexibility and customizability.\n\nThis communication IP suite includes robust components optimized for low-power operation while ensuring high data throughput. These capabilities are particularly advantageous in designing devices where energy efficiency is as critical as communication reliability, such as in wearables and healthcare devices.\n\nMoreover, eSi-Comms integrates seamlessly into broader system architectures, offering a balanced approach between performance and resource utilization. Thus, it plays a pivotal role in enabling state-of-the-art wireless and RF solutions, whether for next-gen industrial applications or advanced consumer electronics.
Akronic's extensive specialization in mmW-IC Wireless Transceivers makes them a leader in the field of integrated transceivers for telecom and radar applications. Their design philosophy combines rigorous CMOS and BiCMOS device optimization with system architecture selection to achieve superior high-frequency operation. Their expertise spans frequencies from 6 GHz to 120 GHz, focusing on delivering high-speed communication links and advanced radar sensing capabilities. The company boasts prowess in producing integrated solutions for wireless high-speed communication, such as wireless links at various GHz bands and E-band point-to-point communications. They cater to multi-Gbps wireless systems, addressing both indoor and outdoor requirements effectively. Furthermore, their expertise extends to millimeter-wave radar sensors, with competence in FMCW radar transceivers designed for diverse automotive and sensing applications. Akronic leverages an extensive design framework that includes custom passives, sophisticated EM simulations, and meticulous chip-to-PCB transition design. This ensures that first-silicon success probability is maximized, maintaining alignment with operational specifications and market demands. Their robust industrial experience allows them to translate complex client requirements into tangible silicon solutions, cementing their role as a pivotal player in the industry.
CoreVCO is a versatile voltage-controlled oscillator designed for high-frequency applications where stability and precision are vital. This VCO is tailored to deliver optimal performance over a range of frequencies, making it suitable for integration in a variety of RF systems including communication networks and signal processing applications. CoreHW's VCO features advanced phase noise management, which is critical in maintaining signal integrity for high-speed data transmissions. Its design facilitates seamless adaptability to different electronic environments, supporting robust performance across sectors like telecommunications and consumer electronics. The compact and energy-efficient design of CoreVCO allows for its use in portable and battery-powered devices. This adaptability ensures that CoreVCO can meet the demands of modern, high-tech environments requiring stable and precise frequency generation.
The Cobalt GNSS Receiver represents a paradigm shift in the design of System-on-Chip (SoC) technologies, particularly in its integration of ultra-low-power GNSS capabilities. Developed in collaboration with CEVA DSP and supported by the European Space Program Agency, Cobalt is engineered for efficiency and precision in resource-constrained environments. Its architecture supports standalone and cloud-assisted positioning using Galileo, GPS, and Beidou constellations, optimizing the balance between power consumption and market reach. One of the distinctive features of Cobalt is its ability to integrate seamlessly into NB-IoT SoCs, providing an easy GNSS option that is cost-effective and resource-efficient. By leveraging shared resources between the GNSS receiver and modem, this solution not only reduces the footprint of the device but also enhances its cost efficiency, making it an attractive option for mass-market applications. Critical sectors such as logistics, agriculture, insurance, and even animal tracking benefit from Cobalt’s ability to maintain high sensitivity and accuracy, while operating at low power consumption. Cobalt’s design incorporates advanced processing techniques that ensure low MIPS and memory requirements, contributing to its small size and low operational costs. This strategic use of technology empowers clients to deploy wide-scale tracking applications with confidence, knowing that their solutions are backed by robust and reliable location tracking capabilities. With its state-of-the-art sensitivity and precision, Cobalt stands as a pivotal element in the evolution of GNSS technology integration into modern IoT systems.
PhantomBlu is a sophisticated mmWave communication solution specifically designed for the defense sector, empowering military operations with robust, high-performance connectivity. Leveraging advanced mmWave technology, it supports tactical connections between land, sea, and air platforms, enabling seamless IP networking over a secure, anti-jam resistant mesh network. PhantomBlu’s design is optimized for rapid deployment and versatile use across various challenging military and defense environments. The PhantomBlu system offers unprecedented connectivity and integration capabilities, supporting high-bandwidth, low-latency communications essential for defense operations. It features LPI (Low Probability of Interception) and LPD (Low Probability of Detection), ensuring stealth and operational security. Its adaptive networking solutions significantly enhance situational awareness and interoperability amongst varied defense assets, assuring seamless transfer of C4ISR data. Whether deployed across large terrains or in mobile units, PhantomBlu's resilience and scalability ensure that defense teams operate with confidence. Its advanced capabilities are critical in mitigating risks and enhancing strategic emission, making it an invaluable asset for modern military communications needs.
The 802.11 LDPC core by Wasiela is designed to provide high data rate wireless communication with increased error correction capabilities. Leveraging low-density parity-check (LDPC) codes, this product significantly enhances the reliability of wireless networks by correcting errors that occur during data transmission. It is particularly tailored for environments where maintaining high throughput is critical, such as in dense urban areas or during streaming high-definition content across networks. Wasiela’s design implements an efficient iterative decoding process, adjusting the number of iterations dynamically to ensure optimal performance. The 802.11 LDPC is compatible with various wireless communication standards, making it a versatile choice for manufacturers aiming to integrate robust error correction features in their devices. This core is also optimized for low power consumption, ensuring it meets the power efficiency standards required by modern wireless devices. By ensuring frame-to-frame configuration capabilities, the 802.11 LDPC core not only operates efficiently under varying conditions but also provides seamless adaptability across different data rates. This adaptability makes it well-suited for evolving network demands, meeting the needs of next-generation applications with ease.
Actt's 2.4GHz ISM Band RF technology offers a highly integrated RF solution tailored for modern wireless communication needs. This IP is built to support low power consumption while maintaining high performance standards, suitable for both industrial and consumer applications that operate within the 2.4GHz ISM band. Designed to facilitate seamless wireless communication, this RF technology is compatible with multiple protocols including Bluetooth, enhancing its applicability across a host of devices. Its low energy footprint allows it to be used effectively in battery-powered devices without draining the power supply, ensuring prolonged functioning. The 2.4GHz ISM Band RF technology is engineered to handle extensive data transmission, providing robust and reliable connectivity. This makes it perfect for applications in areas such as home automation, health monitoring devices, and personal electronics looking to leverage this band for efficient communication.
The Wireless Baseband IP from Low Power Futures is designed to optimize ultra-low-power consumption while minimizing footprint and code size. It includes a comprehensive configuration of baseband processor hardware IP, link layer, or medium access control layer firmware, built specifically for IoT applications including beacons, smart sensors, connected audio, and more. The IP offers easy integration into systems on a chip (SoC) and has been fully validated on an FPGA platform to ensure standards compliance and ease of use for developers. Built-in security features further enhance its suitability for secure IoT device deployments.
Channel Sounding is the latest advancement in Bluetooth technology, offering high-precision distance measurement and location capabilities. This innovative technology provides a wide range of applications and competitive use cases, suited for environments requiring accurate spatial awareness. With Channel Sounding, users can achieve enhanced accuracy in measuring distances, making it ideal for automotive, industrial, and consumer electronics applications. Available as part of Packetcraft's suite, this solution represents the future of Bluetooth’s role in distance-based measurement technologies.
Built to facilitate low-power, short-range communications, Low Power Futures' IEEE 802.15.4 WPAN offering is crafted to include both the physical and MAC layers for compliance with recent amendments of the IEEE standard. The design supports BPSK and OQPSK modulations with optional GFSK modulator, covering sub-gigahertz and 2.4 GHz frequency bands. It's equipped with built-in security features, making it fitting for applications requiring reliable, low-power networking such as home automation, smart metering, and industrial IoT communications.
Digital Pre-Distortion (DPD) is integral to modern RF communication systems, specifically designed to enhance the efficiency of RF power amplifiers. By addressing signal distortion caused by the memory effect in amplifiers, DPD ensures superior signal quality and reliability. This technology is pivotal in applications that require precision in signal transmission, such as in telecommunications and broadcasting. DPD functions by pre-emptively counteracting distortion in the signal path, thereby improving the linearity of the amplifier. This adjustment results in lower error rates and higher fidelity in signal representation. The increased efficiency of power amplifiers translates to lower energy consumption and operational costs, making DPD a cost-effective solution for high-demand environments. The versatility of DPD allows it to be seamlessly integrated into various system architectures, ensuring it can meet the dynamic needs of different RF applications. Its implementation facilitates the achievement of stringent industry standards in signal quality, supporting the burgeoning demand for enhanced communication infrastructures.
The NDR504 is a versatile 40 GHz converter specifically designed to extend RF capabilities up to 40 GHz, offering a 4-channel downconversion from 18 GHz to 40 GHz. It's equipped with intermediate frequency (IF) outputs below 18 GHz, making it an essential tool for achieving superior RF reach. This product exemplifies Epiq Solutions' commitment to providing high-performance SDR systems that deliver unmatched visibility and precision in complex RF environments. Dedicated to reducing development risks while enhancing product launch speed, this converter is more than just a technological asset; it’s a key enabler for mission-critical RF signaling tasks, helping ensure signal integrity across vast frequency ranges.
Cortus CIoT25 is a comprehensive IoT solution built around the powerful RISC-V architecture, aimed at providing efficient and low-cost alternatives for connected devices. This product is particularly engineered to cater to the vast ecosystem of the internet of things, boasting reduced energy consumption and enhanced connectivity features. Its architecture supports a range of advanced IoT applications by offering robust and secure communication protocols adaptable to varying network requirements. Focused on delivering a high degree of flexibility, the CIoT25 integrates numerous peripherals and interfaces, enabling seamless implementation in diverse IoT environments. This makes it an ideal candidate for consumer electronics, smart home solutions, and other technology-driven applications that require energy efficiency and reliable performance. The product is designed to meet the growing demand for smart applications, facilitating effortless interaction and real-time data transmission. In the context of its usage, the CIoT25 aligns with Cortus' strategy of embedding resilience and scalability into its IoT offerings. This adaptability ensures that the CIoT25 can be customized to meet the specific technological goals of enterprises aiming for innovative IoT deployments, aligning with the broader trends in smart tech development.
The Cortus NB-Iot C200 is designed to fulfill the growing demand for efficient NB-IoT solutions, particularly in the realm of low-power wide-area networks (LPWANs). Tailored to support a broad spectrum of IoT applications, this product promises exceptional power efficiency and extended coverage, crucial for devices operating in remote locations or challenging environments. Thanks to its integration within a robust RISC-V architecture, the NB-Iot C200 offers enhanced connectivity capabilities while maintaining reduced energy consumption. Apart from its technical specifications, the NB-Iot C200 is crafted with versatility in mind, making it suitable for both consumer and industrial uses. It can be deployed to streamline operations in smart cities, agriculture, logistics, and manufacturing sectors, offering real-time data collection and delivery. By incorporating advanced features that ensure secure data communication, this solution stands out as a reliable component for future IoT networks. Additionally, the NB-Iot C200 is designed to seamlessly integrate with Cortus' existing suite of intellectual property, allowing developers to build customized solutions that align with specific project requirements. This flexibility ensures that the product remains applicable across a wide variety of devices and industry needs, reinforcing its placement as a cornerstone in Cortus' diverse product lineup.
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