Title :
High-frequency operation of quantum flux parametron (QFP) based shift registers and frequency prescalers
Author :
Casas, Juan ; Kamikawai, Ryotaro ; Goto, Eiichi
Author_Institution :
Res. Dev. Corp. of Japan, Tokyo, Japan
fDate :
1/1/1992 12:00:00 AM
Abstract :
Quantum flux parametron (QFP) shift registers employing four-phase clocking are designed. In order to generate subharmonics of a given clock frequency, one to four single-bit shift registers are cascaded in a closed-loop configuration. The clock is obtained by shorting the end of the microstrip clock lines, and is applied as a standing wave. Using this scheme it is observed that for some frequencies, the crosstalk between the output and clock signals is dramatically reduced. The clock current amplitude margin is deduced from the maximum operating frequency of some of the devices; it is at least 17% at operating frequencies beyond 5 GHz. The 1-bit device is observed to operate from DC up to 16.2 GHz and the 4-bit shift register structure functions at frequencies over 5 GHz
Keywords :
frequency dividers; scaling circuits; shift registers; superconducting logic circuits; 0 to 16.2 GHz; 1 to 4 bit; QFP; clock current amplitude margin; clock subharmonics generation; closed-loop configuration; crosstalk; four bit shift register; four-phase clocking; frequency prescalers; operating frequency; operation; quantum flux parametron; shift registers; single-bit shift registers; Clocks; Crosstalk; Electronics packaging; Frequency; Frequency conversion; Frequency measurement; Frequency synthesizers; Helium; Logic gates; Microstrip; Shift registers; Superconducting devices; Superconducting logic circuits;
Journal_Title :
Solid-State Circuits, IEEE Journal of