Title :
A 10-bit fast lock data recovery compensating pulse-width distortion for isolated data communications
Author :
Akita, Hironobu ; Ito, Takasuke ; Hayakawa, Keita ; Matsudaira, Nobuaki ; Yamamoto, Hirofumi ; Chao Chen ; Ohtsuka, Shigeki ; Taguchi, Shinichirou
Author_Institution :
DENSO Corp., Kariya, Japan
Abstract :
This paper presents a fast lock data recovery, which can compensate pulse-width distortion of the data signal waveform caused by the optocoupler. The proposed technique exploits the nature that only the rising edges of the data have a fixed amount of time delay at the output of the optocoupler. This delay is cancelled out by a recursive digital calculation after the bit number estimation using the blind oversampling. An experimental prototype fabricated in an in-house 40-V 0.8-um SOI BCD automotive process compensates more than ±50% pulse-width distortion with only 10-bit training as a preamble pattern. It can be applied with an inaccurate CR oscillator with 0.17-UI (unit interval) peak-to-peak jitter and up to ±10% frequency offset between the transmitter and the receiver.
Keywords :
automotive electronics; data communication; on-board communications; optical couplers; oscillators; silicon-on-insulator; CR oscillator; bit number estimation; blind oversampling; data signal waveform; fast lock data recovery compensating pulse-width distortion; in-house SOI BCD automotive process; isolated data communications; optocoupler output; peak-to-peak jitter; preamble pattern; recursive digital calculation; size 0.8 mum; time delay; voltage 40 V; word length 10 bit; Clocks; Distortion measurement; Image edge detection; Niobium; Oscillators; Pulse measurements; Size measurement;
Conference_Titel :
SoC Design Conference (ISOCC), 2014 International
DOI :
10.1109/ISOCC.2014.7087546
