Title :
Low-Distortion Wideband Delta-Sigma ADCs With Shifted Loop Delays
Author :
Xin Meng ; Yi Zhang ; Tao He ; Temes, Gabor C.
Author_Institution :
Sch. of Electr. Eng. & Comput. Sci., Oregon State Univ., Corvallis, OR, USA
Abstract :
This paper presents several novel low-power low-distortion ΔΣ modulator topologies with shifted loop delays. Both single-sampled and double-sampled modulators are discussed. The proposed architectures can relax the critical timing for quantization and for dynamic element matching. A delay-free integrator in the last stage is used to perform the active summation, hence eliminating the active adder. The reduced input swing of the last integrator relaxes the OTA´s requirements. The proposed topology simplifies the feed-forward paths, and saves power consumption and capacitor area. Noise-coupled technique can also be utilized to enhance the noise shaping. To verify the effect of the proposed topology, single- and double-sampled third-order ΔΣ modulators with and without noise coupling were analyzed and simulated.
Keywords :
adders; delay circuits; delta-sigma modulation; feedforward amplifiers; integrated circuit noise; low-power electronics; operational amplifiers; power consumption; OTA requirements; active adder elimination; active summation; capacitor area; critical timing; delay-free integrator; double-sampled modulators; dynamic element matching; feed-forward paths; input swing reduction; low-distortion wideband delta-sigma ADC; low-power low-distortion ΔΣ modulator topology; noise shaping enhancement; noise-coupled technique; operational transconductance amplifiers; power consumption; quantization; shifted loop delays; single-sampled modulators; third-order ΔΣ modulators; Delays; Modulation; Noise; Noise shaping; Quantization (signal); Topology; Cascaded integrators; delta-sigma modulator; low-distortion; noise-coupled; shifted loop delays;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2014.2362972
