Title :
A 12 mW Low Power Continuous-Time Bandpass ΔΣ Modulator With 58 dB SNDR and 24 MHz Bandwidth at 200 MHz IF
Author :
Hyungil Chae ; Jaehun Jeong ; Manganaro, Gabriele ; Flynn, Michael P.
Author_Institution :
Univ. of Michigan, Ann Arbor, MI, USA
Abstract :
A 800 MS/s low power fourth-order continuous-time bandpass ΔΣ modulator (CTBPDSM) with 24 MHz bandwidth at a 200 MHz IF uses a novel power-efficient resonator with a single amplifier as a loopfilter. The single op-amp resonator employs positive feedback to increase the Q-factor. A new fourth-order architecture is introduced for system simplicity and power efficiency. Reducing the number of feedback DACs lowers the power consumption and simplifies the modulator structure. A prototype ADC achieves 58 dB SNDR, 60 dB DR and 65 dB IM3, with a total power consumption of 12 mW. The total die area in 65 nm CMOS is 0.2 mm2.
Keywords :
CMOS integrated circuits; HF amplifiers; Q-factor; analogue-digital conversion; band-pass filters; continuous time filters; delta-sigma modulation; low-power electronics; operational amplifiers; resonators; CMOS process; Q-factor; SNDR; bandwidth 24 MHz; continuous time bandpass ΔΣ modulator; feedback DAC; fourth order architecture; frequency 200 MHz; loopfilter; low power fourth order CTBPDSM; noise figure 58 dB; noise figure 60 dB; noise figure 65 dB; positive feedback; power 12 mW; power consumption; power efficiency; power efficient resonator; single op-amp resonator; single operational amplifier; size 2 mm; size 65 nm; Feedforward neural networks; Frequency modulation; Noise; Power demand; Q-factor; Transfer functions; ADC; bandpass; continuous-time; delta-sigma; low power; resonator; single op-amp;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2013.2291713
