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access icon free All-digital synchronous 2 × time-difference amplifier based on time register

© The Institution of Engineering and Technology
Received 09/05/2017, Published 06/07/2017

A novel 2 × time-difference amplifier (TDA) in 65 nm CMOS technology is presented. Unlike traditional analogue TDA, the proposed TDA, employing an all-digital synchronous architecture, achieves 2 × TDA in a time subtracting way based on time register. Multi-path negative skewed gated delay cells are utilised to minimise gating skew error in the time register. To make up for the delay mismatch in the two time registers, a foreground calibration scheme that calibrates the input offset of the phase detectors at the same time is applied. The TDA gain ranges from 1.99 to 2.02 over ± 150 ps input time-difference range and the standard variation of the gain is 0.02 under various process, voltage and temperature (PVT) conditions. The simulated average of power consumption is 62 μW under 100 MHz clock frequency.

Inspec keywords: CMOS digital integrated circuits; amplifiers; phase detectors

Other keywords: analogue TDA; input time-difference range; size 65 nm; foreground calibration scheme; CMOS technology; time register; multipath negative skewed gated delay cells; gating skew error minimization; power 62 muW; delay mismatch; phase detectors; frequency 100 MHz; time subtracting way; all-digital synchronous time-difference amplifier

Subjects: CMOS integrated circuits; Modulators, demodulators, discriminators and mixers; Amplifiers

References

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      • 3. Straayer, M.: ‘Noise shaping techniques for analog and time to digital converters using voltage controlled oscillators’. Ph.D. dissertation, Massachusetts Institute of Technology, Cambridge, MA, USA, 2008.
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      • 6. Kim, B., Kim, H., Kim, C.: ‘An 8bit, 2.6 ps two-step TDC in 65 nm CMOS employing a switched ring-oscillator based time amplifier’. IEEE Custom Integrated Circuits Conf., San Jose, CA, USA, September 2015, pp. 14.
http://iet.metastore.ingenta.com/content/journals/10.1049/el.2017.1771
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