Title :
Dynamic-range enhancement of an optimized 1-bit A/D converter
Author :
Tapang, Giovanni ; Saloma, Caesar
Author_Institution :
Nat. Inst. of Phys., Univ. of the Philippines, Diliman, Philippines
fDate :
1/1/2002 12:00:00 AM
Abstract :
A technique is demonstrated for extending the dynamic range of 1-bit analog-to-digital converters (ADCs) that sample at the maximum rate using a sinusoid reference r(t)=Ar cos(2πfrt). The ADC has a detection limit B=πAr δ/▵, where 2δs is the base-clock period, and ▵=sampling interval=1/2fr⩾2δ. Optimal sampling is achieved at ▵=2δ, but with large quantization errors found in the sampled representation of the input signal s(t). Dithering with noise nσ(t) of appropriate variance σ2 is utilized to measure a subthreshold s(t) where |s(t)|<B for all t. Both uniform white noise (UWN) and Gaussian white noise (GWN) are utilized. With UWN dithering at σ=B, we could reduce the errors to levels that are produced by an equivalent q-bit amplitude-sampling (bipolar) ADC by observing the dithered signal s(t)+nσ(t) over a time duration of T[(0.116/|V|)(2q-1)]0.995, where T is the sampling period, and ±V are the ADC supply voltages. With GWN dithering at σ=0.5 B, the duration required is T[(0.109/V)(2q-1)] 0.996
Keywords :
Gaussian noise; analogue-digital conversion; circuit noise; errors; signal sampling; white noise; 1 bit; A/D converter; Gaussian white noise; analog-to-digital converters; crossing sampling; dithered signal; dynamic range enhancement; noise dithering; optimal sampling; optimized ADCs; sinusoid reference; uniform white noise; 1f noise; Analog-digital conversion; Dynamic range; Noise generators; Noise measurement; Quantization; Sampling methods; Signal to noise ratio; Strontium; White noise;
Journal_Title :
Circuits and Systems II: Analog and Digital Signal Processing, IEEE Transactions on
