DocumentCode
1050528
Title
A 14-bit 125 MS/s IF/RF Sampling Pipelined ADC With 100 dB SFDR and 50 fs Jitter
Author
Ali, Ahmed M A ; Dillon, Christopher ; Sneed, Robert ; Morgan, Andrew S. ; Bardsley, Scott ; Kornblum, John ; Wu, Lu
Author_Institution
Analog Devices Inc, Greensboro, NC
Volume
41
Issue
8
fYear
2006
Firstpage
1846
Lastpage
1855
Abstract
This paper describes a 14-bit, 125 MS/s IF/RF sampling pipelined A/D converter (ADC) that is implemented in a 0.35mum BiCMOS process. The ADC has a sample-and-hold circuit that is integrated in the first pipeline stage, which removes the need for a dedicated sample-and-hold amplifier (i.e., "SHA-less"). It also has a sampling buffer that is turned off during the hold clock phases to save power. To accurately estimate and minimize the clock jitter, a new jitter simulation technique was used whose results were verified on silicon. The measured silicon results indicate the highest published IF sampling performance to date and prove the viability of the "SHA-less" architecture for IF/RF sampling ADCs. The ADC is calibration-free and achieves a DNL of less than 0.2 LSB and INL of 0.8 LSB. The SNR is 75 dB below Nyquist, and stays above 71 dB up to 500 MHz. The low-frequency SFDR is about 100 dB, and stays above 90 dB up to about 300 MHz. This is also the first ADC to achieve 14-bit level performance for input signal frequencies up to 500 MHz and to have a total RMS jitter of only 50 fs
Keywords
BiCMOS integrated circuits; analogue-digital conversion; buffer circuits; jitter; sample and hold circuits; 0.35 micron; 14 bit; 50 fs; AD converter; BiCMOS process; IF sampling performance; IF-RF sampling pipelined ADC; SHA-less architecture; clock jitter; hold clock phases; jitter simulation technique; low-frequency SFDR; sample-and-hold circuit; Calibration; Capacitors; Clocks; Error correction; Jitter; Pipelines; RF signals; Radio frequency; Sampling methods; Silicon; A/D converter; IF sampling; SHA-less; analog-to-digital converter (ADC); buffer; jitter; pipeline;
fLanguage
English
Journal_Title
Solid-State Circuits, IEEE Journal of
Publisher
ieee
ISSN
0018-9200
Type
jour
DOI
10.1109/JSSC.2006.875291
Filename
1661760
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