Improved Multistage Continuous-Time Pipelined Analog-to-Digital Converters and the Implicit Decimation Property.

The continuous-time pipeline (CTP) analog-to-digital converter is an emerging technique that combines the benefits of pipelining with continuous-time operation. Prior-art multistage CTP ADCs have employed stages with identical transfer functions. This work proposes the use of non-identical (and appropriately chosen) transfer functions for different stages of the pipeline. We investigate the benefits of this approach when compared with conventional techniques. We also demonstrate that the sharp filtering offered by a multi-stage CTP can be exploited to implicitly decimate the output sequence of the converter. This is accomplished by clocking the back-end ADC at a lower rate, and by appropriately modifying the digital reconstruction filters. The implicit-decimation theory is supported with measurement results from a three-stage CTP designed in a 65nm CMOS process. The converter achieves 70.4dB SNDR in a 100MHz bandwidth with its front-end operating at $f_{s}\,{=}\,800$ MHz, while the back-end samples at $f_{s}/2$. [ABSTRACT FROM AUTHOR]