Title :
Novel CMOS Circuits to Measure Data-Dependent Jitter, Random Jitter, and Sinusoidal Jitter in Real Time
Author :
Ichiyama, Kiyotaka ; Ishida, Masahiro ; Yamaguchi, Takahiro J. ; Soma, Mani
Author_Institution :
Advantest Labs. Ltd., Sendai
fDate :
5/1/2008 12:00:00 AM
Abstract :
This paper presents a new zero dead-time architecture for data jitter measurement, which is suitable for on- or off-chip implementations. Two circuits for measurement of data-dependent jitter (DDJ), random jitter (RJ), and sinusoidal jitter (SJ) are demonstrated. The circuits were implemented in a 0.11-mum CMOS process with 1.2-V supply. They utilize a data-to-clock converter, pulse generators, and an integrator followed by a sample-and-hold. The circuits do not require a reference clock, and can demodulate a jittery random binary sequence to output either a DDJ or RJ or SJ waveform in real time. The SJ sensitivity of the circuit with sample-and-hold is 11 muV/ps with an error of 1.56 psRMS for a 2.5-Gb/s seven-stage pseudorandom binary sequence. The RJ sensitivity of the other circuit without sample-and-hold is 38 muV/ps.
Keywords :
CMOS integrated circuits; circuit noise; jitter; noise measurement; CMOS circuits; data jitter measurement; data-dependent jitter; data-to-clock converter; pulse generator; random binary sequence; random jitter; real time jitter measurement; reference clock; sinusoidal jitter; zero dead-time architecture; Data-dependent jitter (DDJ); deterministic jitter (DJ); jitter spectrum; random jitter (RJ); sinusoidal jitter (SJ); timing jitter; total jitter (TJ); zero dead-time (ZDT) measurement;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2008.920174
