Measurement of jitter in a long Josephson junction soliton oscillator clock source

Author

Habif, Jonathan L. ; Mancini, Cesar A. ; Bocko, Mark F.

Author_Institution

Dept. of Electr. & Comput. Eng., Rochester Univ., NY, USA

Volume

11

Issue

1

fYear

2001

fDate

3/1/2001 12:00:00 AM

Firstpage

1086

Lastpage

1089

Abstract

Stability of Josephson junction clock sources can be a limiting factor in the operation of RSFQ digital and mixed signal circuits. We have developed techniques for the characterization of the short-term stability, i.e., the jitter, of Josephson junction clock sources, and in this paper we present measurements of the jitter for a long Josephson junction soliton oscillator clock. The output frequency of the soliton oscillator was prescaled by using a chain of T flip-flops and using a current bias feedback the oscillator was phase locked to a stable room temperature RP source. Phase noise spectra of the clock signal were measured at the successive stages of the T flip-flop chain and interpreted to infer the cycle-to-cycle jitter of the soliton oscillator. The jitter at the output of the soliton oscillator was measured to be 60 fs at a frequency of 26 GHz, or 0.16% of the period of the clock

Keywords

Josephson effect; circuit stability; clocks; feedback oscillators; flip-flops; phase locked oscillators; phase noise; solitons; superconducting device noise; superconducting integrated circuits; timing jitter; 26 GHz; RF source; T flip-flop; current feedback; jitter; long Josephson junction; phase locking; phase noise spectra; soliton oscillator clock; stability; superconducting RSFQ circuit; Circuit stability; Clocks; Flip-flops; Frequency; Jitter; Josephson junctions; Oscillators; Output feedback; Solitons; Temperature;

fLanguage

English

Journal_Title

Applied Superconductivity, IEEE Transactions on

Publisher

ieee

ISSN

1051-8223

Type

jour

DOI

10.1109/77.919536

Filename

919536