All IPs > Wireless Communication > GPS
The GPS (Global Positioning System) category under Wireless Communication in Silicon Hub's semiconductor IP catalog represents a cornerstone in modern navigation and location solutions. GPS technology has revolutionized the way devices interact with the world, offering precise positioning and time synchronization. Semiconductor IPs designed for GPS applications empower an array of electronic devices, from consumer electronics to automotive systems, with the ability to pinpoint location with impressive accuracy.
In this category, you'll find semiconductor IPs that provide the essential building blocks for incorporating GPS capabilities into various products. These semiconductor IPs typically include components for signal processing, RF front-end design, and integration support for multi-frequency GPS systems. This is crucial for applications requiring high precision and reliability, such as navigation systems, geolocation services, and time-sensitive financial transactions. The IPs enable seamless connectivity and integration, catering to the diverse demands of modern electronics.
GPS semiconductor IPs play a critical role in not just consumer devices like smartphones and wearables, but also in more complex systems such as autonomous vehicles and industrial IoT devices. These IP blocks ensure that products can efficiently and accurately track location in real-time, crucial for enhancing user experience and operational efficiency. By leveraging these semiconductor IPs, developers can focus on innovation within their unique applications, leaving the complexities of GPS integration to the experts.
As the demand for precise location services continues to escalate, the GPS category of semiconductor IPs in Silicon Hub supports the evolutionary paths of newer technologies such as GPS with augmentation systems and integrated GNSS solutions. These advancements open doors to improved accuracy and functionality, paving the way for new applications and enhanced device capabilities. With such a dynamic portfolio, designers can tailor GPS functionalities to meet the specific needs of their end applications confidently and effectively.
The EW6181 is an advanced multi-GNSS silicon solution designed for high sensitivity and precision. This powerful chip supports GPS, Glonass, BeiDou, Galileo, SBAS, and A-GNSS, offering integration flexibility with various applications. Its built-in RF frontend and digital baseband facilitate robust signal processing, controlled by an ARM MCU. The EW6181 integrates essential interfaces for diverse connectivity, matched with DC-DC converters and LDOs to minimize BOM in battery-driven setups. This silicon marries low power demands with strong functional capabilities, thanks to proprietary algorithms that optimize its operation. It’s engineered to deliver exceptional accuracy and sensitivity in both standalone and cloud-related environments, adapting smoothly to connected ecosystems for enhanced efficiency. Its compact silicon footprint further enhances its suitability for applications needing prolonged battery life and reliable positioning. With a focus on Antenna Diversity, the EW6181 shines in dynamic applications like action cameras and smartwatches, ensuring clear signal reception even when devices rapidly rotate. This aspect accentuates the chip's ability to maintain consistent performance across a range of challenging environments, reinforcing its role in the forefront of GNSS technology.
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.
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.
OneNav presents the innovative L5-direct GNSS Receiver, a specialized component drawing focus to accuracy and reliability by operating independently of the L1 signal. Leveraging L5 Band signals, this receiver captures and maintains precise location data while ensuring protection against signal jamming. Incorporating a single RF chain, the system reduces redundancy and facilitates optimal antenna placement to enhance device designs in space-restricted environments. This approach critically lowers system costs while delivering robust, reliable location tracking ideal for wearables and IoT applications. The L5-direct receiver integrates seamlessly across multiple satellite constellations like GPS, Galileo, QZSS, and BeiDou, delivering accurate data regardless of environmental constraints. Its refinement in multipath error reduction through machine learning ensures the most precise data acquisition, even in dense urban landscapes. Enhanced with Application Specific Array Processor, the receiver accelerates signal acquisition without sacrificing time or power, ensuring reliable operation wherever used. Additionally, L5-direct GNSS stands out by optimizing power usage, with solutions designed specifically for extended battery life in ultra-low-power devices. Its adaptability allows for integration into diverse systems, serving industries with requirements across different geographies or use cases—from standalone GNSS ASICs to flexible modems and application processors. Featuring silicon-proven capabilities, such as a hot start fix in under one second and open-sky accuracy within 1.5 meters, L5-direct GNSS leads the way for next-generation technology in critical mission deployments.
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.
hellaPHY Positioning Solution is an advanced edge-based software that significantly enhances cellular positioning capabilities by leveraging 5G and existing LTE networks. This revolutionary solution provides accurate indoor and outdoor location services with remarkable efficiency, outperforming GNSS in scenarios such as indoor environments or dense urban areas. By using the sparsest PRS standards from 3GPP, it achieves high precision while maintaining extremely low power and data utilization, making it ideal for massive IoT deployments. The hellaPHY technology allows devices to calculate their location autonomously without relying on external servers, which safeguards the privacy of the users. The software's lightweight design ensures it can be integrated into the baseband MCU or application processors, offering seamless compatibility with existing hardware ecosystems. It supports rapid deployment through an API that facilitates easy integration, as well as Over-The-Air updates, which enable continuous performance improvements. With its capability to operate efficiently on the cutting edge of cellular standards, hellaPHY provides a compelling cost-effective alternative to traditional GPS and similar technologies. Additionally, its design ensures high spectral efficiency, reducing strain on network resources by utilizing minimal data transmission, thus supporting a wide range of emerging applications from industrial to consumer IoT solutions.
The MGNSS IP Core is a versatile baseband integration solution designed for GNSS and application SoCs. It supports a full range of GNSS signals, accommodating both legacy and future constellations, making it suitable for automotive, smartphones, precision, and IoT applications. This IP core is engineered to offer dual-frequency GNSS capabilities by processing two RF channels, enhancing the device's resilience against interference. Energy-efficient by design, it includes configurations for low-power applications and is compliant with AMBA AHB standards, ensuring seamless integration with CPU systems across different platforms. Its design supports pulse-per-second (PPS) and real-time kinematics (RTK) for precise positioning, which is essential for high-precision applications.
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.
This system enhances positioning accuracy by utilizing three different satellite constellations - GPS, GLONASS, and NavIC. This multi-constellation approach ensures that users receive the most accurate and reliable position information possible, making it ideal for applications where precision is critical. The system is designed to work efficiently in challenging environments with limited sky visibility, such as urban environments or dense forests. By leveraging signals from multiple satellites, it significantly reduces errors and improves location accuracy, even under suboptimal conditions. SkyTraq's technology is suitable for a broad spectrum of uses, including personal navigation devices, fleet management, and surveying tools, offering high reliability and consistency. Its ability to maintain continuous and accurate positioning is a testament to SkyTraq's commitment to advancing navigation technology.
The L1 Band GNSS Transceiver Core from RF Integration is crafted to enhance your GPS-based systems with improved precision in location and timing. This core is designed to support not only the existing GPS signals but also signals from newer systems such as GLONASS, Galileo, and Beidou. The core’s architecture allows for versatile implementation in both commercial and military applications, providing robust performance in L1, L2, and L5 bands. Utilizing a combination of advanced RF design techniques, the transceiver core ensures optimal power efficiency while maintaining high sensitivity and signal integrity. The integration of both analog and digital components within the core facilitates seamless data processing and communication, making it a vital component in modern navigation systems. Additionally, the transceiver is engineered to operate reliably in challenging environments, providing accurate positioning data even in urban canyons or indoors. Overall, the L1 Band GNSS Transceiver Core is at the forefront of satellite navigation technology, offering a compact and efficient solution for cutting-edge applications. By incorporating this core into your systems, you can ensure improved accuracy and reliability, thereby enhancing the overall user experience and operational efficacy of your devices.
SkyTraq's Dead-Reckoning Navigation Technology combines satellite positioning with inertial navigation systems to maintain accurate navigation even when satellite signals are unavailable. This intelligent blending of data sources ensures uninterrupted service, crucial for navigation in urban canyons or tunnels where traditional GPS signals fail. At the heart of this technology is the integration of a 6-axis IMU, vehicle odometer, and barometric sensors to calculate precise location data. This fusion of sensor inputs not only provides high accuracy but also offers altitude differentiation, which is particularly beneficial in multi-level environments like parking structures. SkyTraq's dead-reckoning solutions are designed to be seamlessly integrated into automotive and industrial applications, providing consistent and reliable navigation aids regardless of environmental conditions. This technology supports a new wave of autonomous and semi-autonomous vehicles, enhancing safety and operational efficiency even in the most challenging scenarios.
SkyTraq's Real-Time Kinematic (RTK) system offers carrier phase positioning with centimeter-level accuracy, suitable for precision guidance and mapping applications. This technology is crucial for tasks requiring high precision, such as surveying and automated control in agriculture and construction. By utilizing multiple satellite constellations, it ensures reliable positioning information even in complex environments. The RTK system achieves fast convergence times and enhanced performance in dynamic conditions, thanks to its multi-band, multi-GNSS capabilities. This makes it particularly effective for applications where both precision and speed are critical. Its compact form factor enables integration into a wide range of devices and systems, supporting both base and rover configurations. Moreover, SkyTraq's RTK technology includes moving base functionality, allowing the determination of precise heading information. This feature is indispensable for autonomous vehicles and other navigation-dependent technologies, ensuring accurate and stable guidance under varying conditions.
Socionext's SC1260 radar sensor is an innovative 60GHz sensor crafted for precise monitoring in automotive settings. Designed with an advanced antenna-in-package technology, it offers unparalleled precision for interior sensing applications. These sensors play a crucial role in enhancing passenger safety by providing accurate real-time occupancy data. The SC1260 integrates high-tech algorithms and forward-thinking design, making it a vital component in next-gen automotive interiors. It not only ensures occupant protection but also augments the overall in-car experience by integrating safety and efficiency.
The Automated Railway Crossing Surveillance System, known as PAKS, offers groundbreaking solutions for enhancing the safety and management of railway intersections. By implementing advanced surveillance technologies, PAKS ensures that crossings are monitored continuously and efficiently, reducing the risk of accidents and improving traffic flow. This system uses high-resolution cameras paired with state-of-the-art data analysis software to detect and report any obstructions or malfunctions in real time. By providing live updates and alerts to authorities, it facilitates timely interventions that can prevent potential incidents. The system's robust design allows it to operate effectively under varying weather conditions, making it a dependable choice for railway management worldwide. PAKS represents a significant leap forward in railway safety technology, combining innovative surveillance methods with reliable communication channels to enhance both operational efficiency and public safety.
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.
ChipCraft's GNSS Receiver addresses a diverse set of positioning requirements by integrating advanced technologies in satellite navigation. This GNSS core is a powerhouse of precision and efficiency, offering solutions with robust performance capabilities for a multitude of applications, including IoT devices and autonomous vehicles. Engineered for reliability, the GNSS Receiver delivers rapid time-to-first-fix, even in challenging environments, enhancing its suitability for ground-breaking navigation solutions. Its compatibility with multiple GNSS constellations ensures users receive an uninterrupted stream of precise location data. The scalable design of the GNSS Receiver supports integration with other systems, such as RISC-V processors, to optimize functionality across various platforms. It is primed for tasks needing high accuracy and dependability, such as mapping, surveying, and smart city infrastructure monitoring. By leveraging ChipCraft's silicon-proven IP, this GNSS Receiver offers a reliable, comprehensive solution with reduced power consumption and significant space savings, demonstrating ChipCraft's dedication to advancing GNSS technology into new industry standards.
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.
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.
ERA™ RF Monitoring offers a sophisticated RF spectrum analysis solution, designed to facilitate continuous real-time monitoring of RF environments. It operates efficiently across a wide frequency range, ensuring users gain deep insights into RF activities for enhanced situational awareness. This monitoring system is crucial for maintaining oversight of spectrum usage and detecting unauthorized transmissions, which is vital in sensitive and secure environments. ERA represents Epiq Solutions' commitment to providing top-tier technological support for RF spectrum management, ensuring operations are conducted with the utmost precision and reliability. This innovative system is an essential tool for entities that require strong RF surveillance capabilities, encompassing defense, security, and strategic communication sectors.
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