Abstract
This brief presents a digital-to-time converter (DTC) based on a reconfigurable delay-locked loop that employs dual feedback taps and interpolation at the output of two charge pumps biased with programmable complementary currents from a current digital-to-analog converter (I-DAC) to achieve fine delay tuning. Through selection of the feedback and output delay line taps, the 65-nm CMOS prototype can be configured to achieve different specs, such as a 24.5 ps delay span with a 0.46 ps maximum delay step and 1.33 ps maximum RMS jitter or a span of 244 ps with a 3.30 ps maximum step and 2.63 ps maximum RMS jitter when a 7-bit I-DAC and a 2 GHz input are used. A simple digital predistortion method to compensate for the inherent nonlinearity of the architecture is presented and experimentally shown to improve the worst-case integral nonlinearity from-14.3 LSB (-27.6 ps) to +1.79 LSB (+3.43 ps) for the 244 ps delay span case, and by 67%-88% at all taps for the same loop configuration. Excluding the I-DAC, which would require an estimated 0.2 mW, the DTC consumes 0.665 mW from a 1.25-V
Original language | British English |
---|---|
Article number | 8681392 |
Pages (from-to) | 763-767 |
Number of pages | 5 |
Journal | IEEE Transactions on Circuits and Systems II: Express Briefs |
Volume | 66 |
Issue number | 5 |
DOIs | |
State | Published - May 2019 |
Keywords
- charge pump
- Delay-locked loop
- DTC
- embedded phase interpolation
- predistortion
- tunable delay
- voltage-controlled delay line