Abstract
In this paper, a K-band complementary metal-oxide-semiconductor (CMOS) ultra-wide-band (UWB) radar is presented. Using an equivalent time sampling technique with a delay-locked loop (DLL), virtual 5 Gs/s high-speed sampling is implemented without using a high-speed analog–digital converter. The receiver comprises a low-noise amplifier, radiofrequency variable amplifier, mixer, and baseband analog, whereas the transmitter comprises switching and driver amplifiers. For the UWB signal, a voltage-controlled oscillator-based impulse generator provides a periodic pulse signal using a switching amplifier controlled by a DLL clock. The proposed UWB radar SoC is fabricated using a 65 nm CMOS wafer, and the measured conversion gain and noise figure of the radar receiver are 79 dB and 7.4 dB, respectively, at 24 GHz. Consequently, we confirm that the measurement of the 11.3 m standard sphere is feasible.
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