1-1hit |
A cyclic analog-to-digital (A/D) converter is developed which accomplishes an n-b conversion in n/2 clock cycles. The architecture consists of two 1-b quantizers connected in a loop. A CMOS design of the 1-b quantizer is given to evaluate the performance of the A/D converter when implemented using presently available process. Spice simulations and error analyses show that a resolution higher than 10-b and a sampling rate up to 1.4 Msps are attainable with a 3-µm CMOS process. A prototype converter breadboarded using discrete components has confirmed the principles of operation and error analyses. The device count and the power consumption are small compared to those of a successive-approximation A/D converter. A chip area required for the CMOS implementation is also small because only four unit capacitors are involved. Therefore, the architecture proposed herein is most suited for high accuracy, medium speed A/D conversion.