Is this your business? Claim it to manage your IP and profile
This NFC/RFID transceiver is crafted to excel in both near-field communication (NFC) and radio-frequency identification (RFID) applications, providing a flexible interface for data transmission and reception. The transceiver is built upon UMC's 180nm CMOS process, ensuring a balance between performance efficiency and cost-effectiveness. Engineered for interoperability with various NFC/RFID systems, it offers robust read/write capabilities and features that enhance secure data exchange and system integrity. Its compact design and low power consumption make it well-suited for smartcard applications, mobile devices, and secure entry systems where data privacy and swift communication are paramount. The transceiver's ability to support multiple standards and protocols makes it an optimal choice for developers aiming to integrate cutting-edge NFC/RFID solutions into their products. It is particularly advantageous for applications targeting contactless payment systems and inventory tracking, where reliability and security are paramount concerns.
The GPS/Galileo/GLONASS multisystem single-band receiver is a sophisticated solution designed to operate with multiple navigation systems. This integrated receiver combines tri-system support, ensuring reliable performance across GPS, Galileo, and GLONASS networks. The architecture is optimized for single-band operation, facilitating seamless navigation data reception with enhanced precision and minimal signal interference. Built using a robust 180nm SMIC CMOS process, this receiver caters to applications demanding high accuracy and robustness in varying environments. The design emphasizes low power consumption, making it ideal for portable and remote devices that require efficient energy management without compromising on performance. Incorporating advanced signal processing technology, the receiver is suited for applications in personal navigation devices, smart transportation systems, and any application where geographic positioning is critical. Its flexible configuration options enable developers to tailor the receiver's functionality to specific project requirements, rendering it a versatile choice among navigation solutions providers.
This receiver integrates support for multiple global navigation satellite systems, including GPS, Galileo, BeiDou, and GLONASS, into a robust single-band receiver design. Leveraging cutting-edge bi-CMOS technology from TSMC's 180nm process, this IP block is engineered for efficiency and adaptability across various geolocation applications. The design focus of this receiver is on delivering high-precision location data with low latency and high reliability. Its architecture is tailored to handle an extensive array of signals, thereby enhancing its functionality in environments with varying satellite availability. This IP is particularly suited for applications that demand precise geolocation, such as advanced mapping, geofencing, and asset tracking in complex urban or natural landscapes. By integrating this receiver, engineers can achieve superior system accuracy and operational flexibility.
The multiband multistandard direct-conversion TV tuner is a versatile solution engineered to handle multiple bands and standards in television signal reception. This tuner adopts a direct-conversion architecture, enabling seamless conversion of TV signals for better performance in digital and analog broadcast environments. Crafted using TSMC's 180nm biCMOS technology, it provides superior sensitivity and wide frequency coverage. The device efficiently supports a broad array of television standards, which ensures compatibility across different regional broadcast technologies. Its architecture minimizes signal loss and distortion, critical for maintaining high-quality video and audio outputs. Intended for integration into set-top boxes, televisions, and media capture devices, this tuner meets the needs of consumers requiring reliable signal processing capability in diverse ambient conditions. Its design facilitates easy integration with minimal implementation challenges, making it a staple in modern broadcasting and multimedia solutions.
This dual-channel receiver RFIC is designed to accommodate multiple GNSS systems, including GLONASS, GPS, Galileo, and BeiDou. It supports a single-band operation that facilitates enhanced signal reception and processing capabilities across two channels simultaneously. This ensures robust functionality even in challenging signal environments. Developed with a focus on precision and efficiency, this product employs a 180nm SMIC CMOS technology, targeted to optimize power usage and offer extensive operational flexibility in a compact form. The design priorities include minimizing noise and maximizing signal throughput, which are critical in applications necessitating accurate synchronization and high-quality signal reception. Typical applications encompass an array of sectors, such as autonomous navigation, fleet management, and time synchronization systems where dual-channel processing enhances data reliability. Its resilience to interference and its ability to process concurrent signals make it a preferable choice for high-demand positioning and tracking solutions.
Join the world's most advanced semiconductor IP marketplace!
It's free, and you'll get all the tools you need to evaluate IP, download trial versions and datasheets, and manage your evaluation workflow!
To evaluate IP you need to be logged into a buyer profile. Select a profile below, or create a new buyer profile for your company.
