Title :
A 10-b, 75-MHz two-stage pipelined bipolar A/D converter
Author :
Colleran, William T. ; Abidi, A.A.
Author_Institution :
Dept. of Electr. Eng., California Univ., Los Angeles, CA, USA
fDate :
12/1/1993 12:00:00 AM
Abstract :
A 4-b flash first quantizer is cascaded with an efficient 7-b second quantizer to attain 10-b resolution after error correction. As the second quantizer itself embodies analog subranging through folding and interpolation, its complexity is comparable with that of the first quantizer. An input track and hold preceding the first quantizer acquires dynamic signals with low distortion, and a second track and hold delays the analog residue signal to pipeline the operation of the two quantizers. This collection of components, accompanied by all necessary digital circuits for encoding and error correction is fabricated on an all-NPN 4-GHz fT bipolar IC measuring 4×4 mm, which dissipates 800 mW from ±5-V supplies. At a 75-MEPi conversion rate, the untrimmed ADC exhibits 59 db S/(N+D) with a 6-MHz full-scale input, which diminishes by only 3 dB when the input frequency rises to 50 MHz
Keywords :
analogue-digital conversion; bipolar integrated circuits; error correction; interpolation; pipeline processing; 10-b resolution; 4 GHz; 50 MHz; 59 dB; 75 MHz; 800 mW; all-NPN 4-GHz bipolar IC; analog residue signal delay; analog subranging; complexity; conversion rate; dynamic signal acquisition; encoding; error correction; flash first quantizer; folding; input track and hold; interpolation; power dissipation; two-stage pipelined bipolar A/D converter; Bipolar integrated circuits; Delay; Digital circuits; Digital integrated circuits; Distortion; Encoding; Error correction; Interpolation; Pipelines; Signal resolution;
Journal_Title :
Solid-State Circuits, IEEE Journal of
