Title :
A high-resolution, compact, and low-power ADC suitable for array implementation in standard CMOS
Author :
Jansson, Christer
Author_Institution :
Dept. of Phys. & Meas. Technol., Linkoping Univ., Sweden
fDate :
11/1/1995 12:00:00 AM
Abstract :
An analog-to-digital converter (ADC) circuit is proposed that utilizes the linearity of the single-bit first-order sigma-delta in a first mode technique. In a second mode, successive approximation is used to convert the remaining voltage from the first conversion to increase the resolution without significantly increasing the conversion time. Both operations can be made in the same hardware, and only a counter is needed as decimation filter so that the converter becomes both area and power efficient. A channel of the ADC implemented in standard CMOS occupies an area of 40×1640 μm2. The control logic and reference voltage generation circuits, common for the ADC array, occupy a similar area. Estimated power consumption per ADC channel is about 0.5 mW including reference voltage generation. The conversion speed per ADC channel is 12.8 ksamples/s at a clock rate of 3.4 MHz. The ADC concept is suitable whenever a high resolution at a moderate speed is needed
Keywords :
CMOS integrated circuits; frequency response; integrated circuit noise; sigma-delta modulation; thermal noise; 0.5 mW; 3.4 MHz; A/D convertor; analog-to-digital converter; array implementation; compact design; decimation filter; high-resolution ADC; low-power ADC; power consumption; reference voltage generation circuits; single-bit first-order sigma-delta; standard CMOS implementation; successive approximation; Analog-digital conversion; CMOS logic circuits; Counting circuits; Delta-sigma modulation; Filters; Hardware; Linearity; Logic arrays; Logic circuits; Voltage control;
Journal_Title :
Circuits and Systems I: Fundamental Theory and Applications, IEEE Transactions on
