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The work explores extending time interleaving in A/D converters, by
applying a high-level of parallelism to one of the slowest and simplest types of
data-converters, the counter ADC. The motivation for the work is to realise
high-performance re-configurable A/D converters for use in multi-standard and
multi-PHY communication receivers with signal bandwidths in the 10s to 100s of
MHz. The counter ADC requires only a comparator, a ramp signal, and a
digital counter, where the comparator compares the sampled input against all
possible quantisation levels sequentially. This work explores arranging counter
ADCs in large time-interleaved arrays, building a Time Interleaved Counter
(TIC) ADC. The key to realising a TIC ADC is distributed sampling and a
global multi-phase ramp generator realised with a novel figure-of-8 rotating
resistor ring. Furthermore Counter ADCs allow for re-configurability between
effective sampling rate and resolution due to their sequential comparison of
reference levels in conversion. A prototype TIC ADC of 128-channels was
fabricated and measured in 0.13μm CMOS technology, where the same block can
be configured to operate as a 7-bit 1GS/s, 8-bit 500MS/s, or 9-bit 250MS/s dataconverter.
The ADC achieves a sub 400fJ/step FOM in all modes of
configuration
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