A 1Mb/s 3.2–4.4GHz reconfigurable FM-UWB transmitter in 0.18µm CMOS
Radio Frequency Integrated Circuits Symposium(2011)
Abstract
This paper presents a 1Mb/s frequency-modulated ultra-wideband (FM-UWB) transmitter for robust non-invasive short range communications. A 51MHz 8-modulo fractional-N PLL with a relaxation VCO is designed to generate a 2-FSK modulated triangular waveform which directly modulates an RF oscillator. The amplitude of the triangular waveform is controlled digitally, determining the RF bandwidth of the UWB spectrum. The center frequency of the RF oscillator is set by a semi-digital quasi-continuous frequency-locked loop (FLL) which enables digital tuning of the UWB frequency band. A 3.2-4.4GHz prototype FM-UWB transmitter is implemented in 0.18μm CMOS, achieving the data rate higher than the reported by at least four times.
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Key words
semidigital quasi-continuous frequency-locked loop,cmos integrated circuits,uwb frequency band,frequency 3.2 ghz to 4.4 ghz,reconfigurable fm-uwb transmitter,digital tuning,uwb spectrum,frequency 51 mhz,radio transmitters,rf oscillator,bit rate 1 mbit/s,voltage-controlled oscillators,robust noninvasive short range communications,waveform analysis,frequency modulation,2-fsk modulated triangular waveform,triangular waveform amplitude,8-modulo fractional-n pll,ultra wideband communication,size 0.18 mum,phase locked loops,frequency-modulated ultra-wideband transmitter,frequency locked loops,tuning,data rate,fll,relaxation vco,radiofrequency oscillators,cmos,center frequency,rf bandwidth,oscillations,frequency control,ultra wideband,frequency shift keying,spectrum,radio frequency
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