All IPs > Wireless Communication > UWB
Ultra-wideband (UWB) technology represents a breakthrough in wireless communication, where devices utilize a wide spectrum of frequencies for secure and efficient data transmission. UWB semiconductor IPs are critical components in developing these cutting-edge wireless solutions, enabling devices to operate with exceptional precision. These IPs support high data rates and are crucial for applications that require real-time data streaming and localization.
One of the most significant advantages of UWB semiconductor IPs is their ability to provide precise location and spatial awareness, making them indispensable in industries such as consumer electronics, automotive, and IoT. In consumer electronics, UWB technology allows for seamless connectivity with smart devices, ensuring fast and interference-free communication. Automotive applications benefit from UWB's precision in navigation and vehicular communication systems, enhancing safety and efficiency on the road.
In the realm of the Internet of Things (IoT), UWB technology facilitates high-speed, low-power communication necessary for smart home devices, industrial automation, and more. The robustness of UWB against interference from other wireless technologies makes it ideal for environments with dense wireless traffic. Moreover, UWB semiconductor IPs play a crucial role in enhancing security features due to their ability to operate with low probability of interception.
The range of products you will find within the UWB semiconductor IP category includes transceivers, modems, and baseband processors, each designed to harness the full potential of ultra-wideband technology. As UWB continues to evolve, innovations in semiconductor IPs will pave the way for more advanced and efficient wireless communication systems, ensuring that technology keeps pace with the needs of connectivity in modern applications.
**Ceva-Waves Links** is a growing family of multi-standard wireless platforms. By optimizing connectivity support for various combinations of **Wi-Fi, Bluetooth, 802.15.4, and ultra-wideband (UWB)**, the Ceva-Waves Links family provides preconfigured, optimized solutions for SoCs requiring multiple connectivity standards. All Ceva-Waves Links configurations are based on field-proven Ceva-Waves hardware IP and software stacks. Unique Ceva coexistence algorithms ensure efficient and interference-free operation of multiple connections while sharing one radio. The **Ceva-Waves Links family** offers combinations of Ceva-Waves Wi-Fi, Ceva-Waves Bluetooth, 802.15.4 (supporting protocols such as Thread, Matter and Zigbee), and Ceva-Waves UWB hardware IP, integrated with Ceva or third-party radios and CPU- and OS-agnostic software stacks. New platforms will be introduced to address market trends or customers’ demands. [**Learn more about Ceva-Waves Links family solution>**](https://www.ceva-ip.com/product/ceva-waves-links/?utm_source=silicon_hub&utm_medium=ip_listing&utm_campaign=ceva_waves_links_page)
**Ceva-Waves UWB platform** cuts the development time and risk for implementing a wide range of UWB functionality in SoCs. It provides optimized MAC and PHY hardware IP and supporting software for secure and accurate ranging, and Doppler Radar presence detection applications. It can be implemented in an SoC independently or in conjunction with the Ceva-Waves Bluetooth platform, as well as part of the Ceva-Waves Links family of multiprotocol platforms. The Ceva-Waves UWB platform includes hardware IP for an optimized UWB MAC and PHY meeting 802.15.4 HRP, FiRa 3.0, and the Car Connectivity Consortium Digital Key 3.0 (CCC DK3.0) requirements. The platform includes advanced Wi-Fi interference suppression. A comprehensive suite of CPU-agnostic software stacks that support FiRa 3.0 MAC, CCC DK3.0 MAC, and radar for implementing applications such as automotive digital keys and in-cabin child-presence detection (CPD), general power-saving presence detection in laptops, TVs and smart buildings, asset tracking tags, real-time location services (RTLS), and tap-free payment. [**Learn more about our UWB soluion>**](https://www.ceva-ip.com/product/ceva-waves-uwb/?utm_source=silicon_hub&utm_medium=ip_listing&utm_campaign=ceva_waves_uwb_page)
The HOTLink II Product Suite by Great River Technology is tailored for mission-critical avionics systems requiring robust data communication. It enables seamless data transfer and ensures consistent performance under high-stress operational environments. This suite incorporates advanced technologies to handle complex data streams effectively. It includes component options that enhance data throughput and communication efficiency, meeting stringent industry standards for avionics platforms. Designed with precision, the HOTLink II suite supports the integration and management of large datasets, ensuring that avionics systems can perform efficiently and reliably, crucial for modern aircraft and defense applications.
The CANmodule-III is a sophisticated full CAN controller designed to handle communication on the CAN bus with outstanding efficiency. Built upon Bosch's fundamental CAN architecture, this module is fully CAN 2.0B compliant, facilitating seamless communication transactions across the network. It is optimized for system-on-chip integrations, providing customizable options to cater to specific application requirements. The module stands out with its inherited functions which ensure uninterrupted main core operations, even when additional functionalities are layered around it. Having been deployed in various applications from aerospace to industrial control, the CANmodule-III's proven reliability makes it a preferred choice for developers seeking robust communication solutions in FPGA and ASIC technologies.
The AST 500 and AST GNSS-RF are multifaceted SOC and RF solutions designed for GNSS applications. They support a wide array of constellations such as GPS, GLONASS, NavIC, and others, in multiple frequency bands, enhancing navigation performance. These ICs integrate features like secure boots and data encryption, facilitating robust security measures crucial for sensitive data. The AST GNSS-RF is equipped with capabilities for L1, L2, L5, and S band reception, catering to high-fidelity signal requirements across various applications. The support for dual-band reception ensures that ionosphere errors are minimized, offering exceptional positioning accuracy.
D2D® Technology, developed by ParkerVision, is a revolutionary approach to RF conversion that transforms how wireless communication operates. This technology eliminates traditional intermediary stages, directly converting RF signals to digital data. The result is a more streamlined and efficient communication process that reduces complexity and power consumption. By bypassing conventional analog-to-digital conversion steps, D2D® achieves higher data accuracy and reliability. Its direct conversion approach not only enhances data processing speeds but also minimizes energy usage, making it an ideal solution for modern wireless devices that demand both performance and efficiency. ParkerVision's D2D® technology continues to influence a broad spectrum of wireless applications. From improving the connectivity in smartphones and wearable devices to optimizing signal processing in telecommunication networks, D2D® is a cornerstone of ParkerVision's technological offerings, illustrating their commitment to advancing communication technology through innovative RF solutions.
LightningBlu is a state-of-the-art multi-gigabit connectivity solution for high-speed rail networks, delivering continuous high-speed data transfer between trackside and train systems. This innovative solution works within the mmWave spectrum of 57-71 GHz and is certified for long-term, low-maintenance deployment. It seamlessly integrates with existing trackside networks to provide a stable, high-capacity communication bridge essential for internet access, entertainment, and real-time information services aboard high-speed trains. The LightningBlu system includes robust trackside nodes and compact train-top nodes designed for seamless installation, significantly enhancing operational efficiencies and passenger experience by providing internet speeds superior to traditional mobile broadband services. With aggregate throughputs reaching around 3 Gbps, LightningBlu sets the standard for rail communications by supporting speeds at which data demands are met with ease. Crucially, LightningBlu is a key component in transforming the railway telecommunications landscape, offering upgraded technology that enables uninterrupted and enhanced passenger digital services even in the busiest railways across the UK and USA. Through its advanced mmWave technology, it ensures that the connectivity needs of the modern commuter are met consistently and effectively, paving the way for a new era in transit communication.
The 802.11ah HaLow transceiver is designed to provide efficient and reliable connectivity for IoT devices, utilizing sub-GHz frequencies to ensure long-range transmission while maintaining minimal power consumption. This transceiver is a perfect fit for environments where traditional Wi-Fi bands fall short due to range or power constraints. Offering superior penetration through obstacles and walls, this transceiver is ideally suited for industrial IoT, smart agriculture, and connected home systems. Its long-range capabilities make it especially useful in applications requiring broad coverage across expansive areas or dense urban settings. Beyond range enhancements, the 802.11ah HaLow standard supported by this transceiver allows for interoperability with various IoT ecosystems, simplifying device integration and promoting scalability. By balancing power efficiency and connectivity, it supports seamless operation for battery-operated devices, aiding in the creation of sustainable IoT networks.
The RWM6050 Baseband Modem is an innovative component of Blu Wireless's mmWave technology portfolio, architected to support high-bandwidth, high-capacity data communications. Designed in collaboration with industry leaders Renesas, this modem unit stands out for its efficiency and versatility, effectively marrying physical modem layers with advanced processing capabilities. The RWM6050 modem is instrumental in providing seamless data transmission for access and backhaul networks. Built to accommodate varying channelisation modes, the RWM6050 supports deep levels of customisation for different bandwidth requirements and transmission distances. It handles multi-gigabit throughput, which makes it ideal for expanding connectivity in urban or industrial areas with dense infrastructure requirements. From smart cities to complex transport systems, this baseband modem scales effectively to meet demanding data needs. Equipped with dual modems and integrated mixed-signal front-end capabilities, the RWM6050 offers a flexible solution for evolving communication infrastructures. Its design ensures optimization for real-time digital signal processing, beamforming, and adaptable connectivity management. The RWM6050 is a key enabler in unlocking the full potential of mmWave technology in a variety of settings, furthering connectivity innovations.
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.
ZIA Image Signal Processing technology provides state-of-the-art solutions for optimizing image quality and enhancing vision-based systems. This technology is integral to applications requiring precise image analysis, such as surveillance cameras and automotive safety systems. It supports various image processing tasks, including de-noising, color correction, and sharpness enhancement, delivering superior visual output even under challenging conditions. ZIA's adaptable architecture supports integration into a range of devices, ensuring broad applicability across multiple sectors.
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.
The VoSPI Rx for FLIR Lepton IR Sensor is designed to cater to infrared sensor needs for various applications. Specially configured to support the FLIR Lepton sensor, this receiver facilitates effective and precise data handling of infrared signals, crucial in environments demanding high thermal accuracy. It provides real-time processing capabilities, aligning with the rigorous demands of security and monitoring applications. This receiver excels in maintaining data integrity, ensuring that the thermal data transmitted across platforms is of the highest accuracy. Its sophisticated engineering allows it to work seamlessly with other system components, enhancing system performance and reliability. The receiver is integrated with features that boost signal processing while minimizing latency, providing a seamless operational environment. This ensures that users can rely on it for consistent performance across various industry applications, boosting both efficiency and reliability.
In smartphone applications, ActLight’s Dynamic PhotoDetector (DPD) offers a step-change in photodetection technology, enhancing features such as proximity sensing and ambient light detection. This high sensitivity sensor, with its ability to detect subtle changes in light, supports functions like automatic screen brightness adjustments and energy-efficient proximity sensing. Designed for low voltage operation, the DPD effectively reduces power consumption, making it suitable for high-performance phones without increasing thermal load. The technology also facilitates innovative applications like 3D imaging and eye-tracking, adding richness to user experiences in gaming and augmented reality.
ArrayNav is at the forefront of GNSS enhancements, utilizing multiple antennas to improve the sensitivity and performance of navigation systems. This sophisticated technology significantly boosts GNSS accuracy in challenging environments such as urban canyons. By leveraging up to four antennas, ArrayNav mitigates multipath issues and strengthens signal reception, dramatically enhancing performance. The heart of ArrayNav's innovation lies in its ability to filter out unwanted signals like interference or jamming attempts, ensuring the precision of GNSS operations. As each antenna adds unique benefits, this system ensures reliable navigation across diverse scenarios, whether in open areas or densely constructed urban landscapes. ArrayNav's technology is pivotal in the automotive sector, especially within advanced driver-assistance systems (ADAS). By providing sharper, more reliable positioning data, it contributes to improved safety and efficiency in vehicular systems, showcasing its indispensable role in modern navigation.
The Complete 5G NR Physical Layer solution by AccelerComm is meticulously optimized for 3GPP 5G NTN networks, aiming to enhance link performance with leading SWaP (Size, Weight, and Power) parameters. This solution supports a variety of applications including broadband, D2D (Direct to Device), and defense. With its openly licensable IP, available across multiple platforms such as arm processors, AI engines, and FPGA, it ensures the necessary flexibility for broad architecture compatibility. Complete reference systems facilitate early integration and testing, while additional consulting services provide expertise in early project phases.
This technology represents a significant innovation in the field of wireless energy transfer, allowing for the efficient transmission of power without physical connections or radiation. By leveraging magnetic resonance, this non-radiative energy transfer system can power devices over distances with high efficiency. It's designed to be safe and environmentally friendly, avoiding the pitfalls of electromagnetic radiation while maintaining a high level of power transfer efficiency. The technology finds its applications in various sectors, including consumer electronics, automotive, and industrial applications where it provides a seamless and reliable solution to power transfer needs. The system's capability to transfer power efficiently without contact makes it ideal for scenarios where traditional power connections might be impractical or inconvenient, enabling new levels of convenience and flexibility for users. Designed to integrate smoothly with existing infrastructure, this energy transfer system can significantly reduce reliance on traditional charging methods, paving the way for more innovative and sustainable energy solutions. Furthermore, the system's architecture is geared towards scalability and adaptability, making it suitable for a wide range of devices and use cases.
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.
ParkerVision's Energy Sampling Technology is a state-of-the-art solution in RF receiver design. It focuses on achieving high sensitivity and dynamic range by implementing energy sampling techniques. This technology is critical for modern wireless communication systems, allowing devices to maintain optimal signal reception while consuming less power. Its advanced sampling methods enable superior performance in diverse applications, making it a preferred choice for enabling efficient wireless connectivity. The energy sampling technology is rooted in ParkerVision's expertise in matched filter concepts. By applying these concepts, the technology enhances the modulation flexibility of RF systems, thereby expanding its utility across a wide range of wireless devices. This capability not only supports devices in maintaining consistent connectivity but also extends their battery life due to its low energy requirements. Overall, ParkerVision's energy sampling technology is a testament to their innovative approach in RF solutions. It stands as an integral part of their portfolio, addressing the industry's demand for high-performance and energy-efficient wireless technology solutions.
IMST's Custom Radio Modules offer innovative, easy-to-integrate wireless solutions for various applications. Designed for use in license-free frequency bands, these modules support embedded software, RF circuit design, and are compatible with a range of wireless standards. Whether creating a custom device or developing new technologies, this solution provides step-by-step support throughout the entire process, ensuring that clients can leverage advanced wireless communications smoothly and effectively.
CANmodule-IIIx represents a cutting-edge CAN controller featuring post-modern enhancements for high-performance communication. This advanced controller, while fully adhering to CAN 2.0B standards, boasts 32 receive and 32 transmit mailboxes. Tailored for streamlined integrations, it ensures flexibility and innovation be it an FPGA or an ASIC system. By preserving the core's fundamental function while allowing added wrapping features, the CANmodule-IIIx provides unmatched adaptability without compromising on performance. The module has demonstrated its efficiency in sectors like automotive and telecommunications, ensuring swift data transactions and system reliability across various operational environments.
The PCS2100 serves as a pillar for IoT connectivity, employing Wi-Fi HaLow technology to deliver extended range and low-power operation. It's specifically crafted to meet the unique demands of IoT devices, ensuring reliable internet access with less power consumption. The standard offers sub-GHz operation essential for improved penetration and coverage, making it ideal for industrial and smart agriculture applications. By leveraging the advantages of Wi-Fi HaLow, the PCS2100 facilitates robust communications over larger distances than traditional Wi-Fi, whilst still maintaining efficient power use—a critical factor for remote and battery-operated devices. This substantial range capability is further enhanced by its compatibility with existing Wi-Fi protocols, easing integration concerns. The PCS2100 demonstrates exceptional adaptability, catering to a wide array of IoT connectivity requirements. It supports the deployment of not only consumer-grade devices but also critical infrastructure components, underlining its importance in the advancement of smart city and AI-driven automation technologies.
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 INAP590T is a transmitter module embedded within the APIX3 framework, delivering unparalleled data transfer capabilities for high-resolution automotive display systems. It supports HDMI 1.4a video interface and integrates seamlessly with existing in-car networks. This module offers advanced features such as scalable bandwidth, cable adaptability, and error correction, making it a reliable choice for next-generation infotainment architectures.
Engineered for next-generation IoT applications, the PCS2500 functions as an access point utilizing Wi-Fi HaLow to extend connectivity for a multitude of devices. This IP supports innovations in IoT networks by providing a powerful station for device coordination, simplifying network management, and optimizing resource use throughout diverse environments. Wi-Fi HaLow's long-range and robust connection capabilities ensure that the PCS2500 can manage a greater number of nodes compared to traditional access points, all the while maintaining a reliable link with minimal power usage—a vital aspect in IoT and smart homes where energy efficiency is paramount. This makes it an integral part of large-scale IoT deployments. Notably, the PCS2500 is designed to align with existing Wi-Fi infrastructure, facilitating seamless upgrades to incorporate IoT functionality in enterprises and urban environments. Its comprehensive coverage and efficiency can propel cities toward smarter, more connected solutions, while also supporting the infrastructure necessary for smart grids and future-ready environments.
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.
The CANmodule-IIx is a versatile FIFO-based CAN controller designed for robust communication solutions. This module guarantees full compliance with CAN 2.0B specifications, offering unmatched support for system-on-chip configurations. Ingeniously crafted for flexibility, this controller serves a wide array of applications like industrial automation and network communications. The FIFO-based architecture ensures efficient message handling, particularly in environments demanding high-speed data transactions. With successful deployments in multiple technology platforms, the CANmodule-IIx stands as an enduring solution for businesses striving to enhance bus-based communication efficiency.
The QAM Demodulator from IPrium is a crucial component for modern communication systems, known for its ability to precisely demodulate quadrature amplitude modulated signals. This tool is pivotal for applications requiring the efficient reception and processing of complex data signals. QAM Demodulators decode the amplitude and phase information of signals, providing critical functionalities in systems that demand high bandwidth and reliable data integrity. These demodulators are extensively used in digital television, broadband communications, and data broadcasting, reflecting their versatility in handling high-speed data streams. By utilizing advanced algorithms, IPrium's QAM Demodulator achieves enhanced performance, ensuring minimal signal distortion and high data accuracy. It is designed to cope with varying channel conditions, making it a staple in both commercial and high-end communication systems worldwide.
Trimension SR250 is designed to optimize application performance in ultra-wideband (UWB) technology. This solution allows for precise location tracking across a range of scenarios, including automotive and industrial applications. Its robust architecture is tailored for seamless integration with existing systems, enhancing overall functionality and user experience. Trimension SR250's UWB capabilities make it a versatile choice for developers looking to implement real-time tracking and proximity-based solutions. The SR250 module stands out for its high accuracy and reliability, which are crucial for applications requiring consistent performance in dynamic environments. This technology supports various use cases, such as enhancing vehicular safety through reliable in-car communications and expanding the capabilities of smart infrastructure. With its cutting-edge design, the Trimension SR250 ensures minimal interference, thus guaranteeing stable operations even in densely populated wireless environments. Furthermore, Trimension SR250 is engineered for energy efficiency, aligning with the industry's move towards sustainable technology use. Its power optimization features make it suitable for battery-powered devices, extending operational time without frequent charging. This innovative UWB solution exemplifies NXP's dedication to providing cutting-edge technologies that meet modern demands for precision and efficiency.
Trimension SR040 is engineered for ultra-precision tracking and communication in fast-evolving technological landscapes, particularly focusing on proximity-based applications. This module is crucial for systems where detailed spatial awareness and communication are required, like in industrial automation and automotive safety applications. It effectively bridges the gap between advanced technology and practical, everyday usage through its precise UWB capabilities. Among its innovative features, the SR040 supports seamless integration into broader systems, enhancing network capabilities and improving device-to-device communication. This is particularly beneficial in crowded signal environments where reliable communication is necessary. The SR040 allows for tight spatial resolutions and high accuracy, making it a trusted choice for developers who need consistent and reliable performance. NXP developers focused on energy optimization to ensure the SR040 meets the industry's call for environmentally friendly solutions. Its ability to operate efficiently on minimal power supports the longevity of battery-driven devices. As smart technology becomes more prevalent, the Trimension SR040 stands out by offering efficient, scalable, and sustainable solutions for future connectivity challenges.
Designed for high-precision, short-range location services, the Trimension SR150 offers unrivaled performance in UWB technology for spatial awareness applications. This product serves industries such as automotive and industrial automation, where short-range communication and location tracking are critical. Fully compatible with modern technologies, the SR150 module enables seamless interactions within smart ecosystems. The versatility and adaptability of the Trimension SR150 make it perfect for various applications, including real-time asset tracking and enhanced vehicular communication systems. It significantly improves situational awareness, providing insights that are essential for safety and efficiency in automotive and industrial settings. The robust capabilities of the SR150 module ensure that it retains superior functioning amidst challenging environments. Combining state-of-the-art technology with energy-efficient design, the Trimension SR150 highlights NXP’s commitment to sustainability and innovation. Its low power consumption extends device lifespan, making it an ideal component for devices requiring long operation times. By focusing on providing stable and accurate UWB performance, this product supports the growing demand for precise and reliable location services.
The E-band Wireless Multi-gigabit Modem is recognized for its ability to deliver exceptionally high data rates in wireless communication systems. Operating within the E-band frequency spectrum, it facilitates the transmission of multi-gigabit data over short distances, ideal for applications requiring large bandwidth and high-speed data transfer. This modem supports infrastructure requirements that demand rapid data exchange, making it suitable for use in mobile backhaul, fiber extension, and enterprise networks. The device offers the flexibility needed for efficiently managing high data loads, ensuring stable performance even in densely populated network environments. IPrium’s E-band Wireless Multi-gigabit Modem is engineered to meet the demands of next-generation telecom infrastructure, providing the reliability and speed that modern communication systems necessitate. Its advanced design and capabilities underscore its importance in today’s fast-paced wireless communications sector.
APIX3 Technology expands upon previous generations by providing up to 12Gbps data transfer over simple shielded twisted pair or advanced quad twisted pair cables. This capability supports multiple high-definition video streams for advanced infotainment and cockpit applications. It enhances flexibility and performance in automotive networking through backward compatibility, full duplex communication, and advanced diagnostic and cable monitoring features.
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