A 0.3-V 7.6-fJ/conv-step delta-sigma time-to-digital converter with a gated-free ring oscillator
Journal
Proceedings - 2017 IEEE 15th International New Circuits and Systems Conference, NEWCAS 2017
Pages
221-224
Date Issued
2017
Author(s)
Abstract
An energy efficient delta-sigma time-to-digital converter (TDC) is presented in this paper. Compared with conventional circuit techniques, non-ideal effects associated with switching noise and transistor leakage can be generally prevented due to the use of a gated-free ring oscillator and leakage-suppression switches in the circuit implementation. The proposed TDC is fabricated in 90-nm CMOS, consuming a current of 5 μA from a 0.3-V supply. With first-order shaping of the quantization noise, the circuit demonstrates an equivalent number of bits (ENOB) of 10.9 bits in 50-kHz signal bandwidth. © 2017 IEEE.
Event(s)
15th IEEE International New Circuits and Systems Conference, NEWCAS 2017
Subjects
Low power; Low voltage; Noise shaping; Oversampling; Time-domain; Time-to-digital converter (TDC)
SDGs
Other Subjects
Energy efficiency; Oscillators (electronic); Quantization (signal); Signal processing; Time domain analysis; Low Power; Low voltages; Noise-shaping; Over sampling; Time domain; Time to digital converters; Frequency converters
Type
conference paper