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This paper presents the theory, design, and implementation of an 8PSK direct-demodulation receiver based on a novel multi-phase RF-correlation concept. The output of this RF-to-bits receiver architecture is demodulated bits,… Click to show full abstract
This paper presents the theory, design, and implementation of an 8PSK direct-demodulation receiver based on a novel multi-phase RF-correlation concept. The output of this RF-to-bits receiver architecture is demodulated bits, obviating the need for power-hungry high-speed-resolution data converters. A single-channel 115–135-GHz receiver prototype was fabricated in a 55-nm SiGe BiCMOS process. A max conversion gain of 32 dB and a min noise figure (NF) of 10.3 dB were measured. A data rate of 36 Gb/s was wirelessly measured at 30-cm distance with the received 8PSK signal being directly demodulated on-chip at a bit-error rate (BER) of 1e-6. The measured receiver sensitivity at this BER is −41.28 dBm. The prototype occupies 2.5 $\times $ 3.5 mm2 of die area, including PADs and test circuits (2.5-mm2 active area), and consumes a total dc power of 200.25 mW.
Journal Title: IEEE Journal of Solid-State Circuits
Year Published: 2019
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