This paper presents an analog front-end circuit for a 60-GHz proximity wireless communication receiver. The feature of the proposed analog front-end circuit is a bandwidth more than 1-GHz wide. To expand the bandwidth of a low-pass filter and a voltage gain amplifier, a technique to reduce the parasitic capacitance of a transconductance amplifier is proposed. Since the bandwidth is also limited by on-resistance of the ADC sampling switch, a switch separation technique for reduction of the on-resistance is also proposed. In a high-speed ADC, the SNDR is limited by the sampling jitter. The developed high resolution VCO auto tuning effectively reduces the jitter of PLL. The prototype is fabricated in 65nm CMOS. The analog front-end circuit achieves over 1-GHz bandwidth and 27.2-dB SNDR with 224mW Power consumption.

Sampling clock jitter degrades the dynamic range of an analog-to-digital converter (ADC). In this letter, a low-power low-noise clock signal generator for ADCs is described. As a clock signal generator, a ring-VCO-based charge pump PLL is used to reduce power dissipation within a given jitter specification. The clock signal generator is fabricated on a CMOS chip with 200-MSPS 10-bit ADC. The measured results show that the ADC keeps a 60-MHz input bandwidth and 53-dB dynamic range and a next-generation mobile wireless terminal can be realized with the ADCs and the on-chip low-power clock generator.