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The mmW-IC Wireless Transceivers from Akronic are particularly tailored for high-speed communication and radar sensor applications. These transceivers support frequencies up to 120GHz, offering a versatile platform for developing complex wireless communication systems. The transceivers are optimized using cutting-edge CMOS and BiCMOS technology, ensuring superior performance in terms of bandwidth and signal clarity. These integrated transceivers enable multi-Gbps wireless connections, specifically targeting E-band link applications. They also offer robust solutions for automotive radar systems, leveraging mm-Wave technology for enhanced sensor accuracy in both short-range and long-range scenarios. The use of custom passives and sophisticated circuit topologies significantly boosts the likelihood of achieving first-silicon success and minimizing iterations. Akronic's rigorous design approach combines thorough process simulations and careful packaging with innovative circuit design strategies. This ensures that these mmW transceivers are not only cost-effective but also highly reliable in practical deployments. Their applications cover a wide range, from backhaul and fronthaul systems in telecommunication to advanced imaging and radar sensing technologies that demand precision and high-speed data transmission.
The Analog/Mixed-Signal IC from Akronic is designed to meet the evolving demands of modern telecommunication and radar systems. This product excels in integrating various signal conversion and frequency synthesis functions, which are crucial for high-capacity data transmission and precise signal modulation. The IC employs sophisticated low-pass filters like Chebyshev and Butterworth to ensure optimal signal integrity and minimal distortion across a wide range of frequencies. Akronic's Analog/Mixed-Signal IC is notable for its versatile performance in base-band functions such as voltage references and gain-control operations. This versatility is underpinned by advanced components like power detectors and RSSI AGC loops, which contribute to maintaining consistent signal quality. The IC is also adept at handling high-speed ADCs and DACs, with a focus on achieving high cut-off frequencies exceeding 1GHz. One of the defining features of this IC is its frequency synthesis capability, supported by both fractional and integer-N PLLs and various reference divide and multiplier configurations. The IC's design incorporates multi-modulus prescalers, MASH, PFDs, and sophisticated loop filters, alongside highly stable VCOs and advanced ALC mechanisms. With these features, Akronic offers a robust solution for applications requiring precise frequency control and modulation.
Akronic's RF & mm-Wave IC is expertly crafted to cater to the high-frequency demands characteristic of modern wireless communication systems. Spanning frequencies from several hundred MHz to over 100GHz, this IC encompasses numerous essential RF technologies. It prioritizes high-performance device modeling and sophisticated chip layouts essential for efficient RF/mmW frequencies. Key functional components within the RF & mm-Wave IC include both single and dual sideband mixers and a range of amplifiers such as variable gain, power, and low noise types. This IC series is meticulously designed to ensure optimal output power and linearity, leveraging its active biasing techniques and robust circuit topologies. Additionally, the inclusion of variable gain amplifiers allows for flexible signal control, enhancing adaptability across various systems. Given its wide applicability, the IC is used for numerous applications, including 802.11n, backhaul, and fronthaul systems, as well as FMCW radars. It incorporates multiple frequency doubling and tripling techniques, RSSI, and intricate LO generation schemes like poly-phase filters, which help in reducing signal error and distortion. The overall design methodology is underlined by an extensive focus on electromagnetic simulations, ensuring reliability and precision in signal transmission and reception.
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