Title :
Superconducting digital electronics
Author :
Tahara, Shuichi ; Yorozu, Shinichi ; Kameda, Yoshio ; Hashimoto, Yoshihito ; Numata, Hideaki ; Satoh, Tetsuro ; Hattori, Wataru ; Hidaka, Mutsuo
Author_Institution :
Fundamental Res. Labs., NEC Corp., Ibaraki, Japan
fDate :
3/1/2001 12:00:00 AM
Abstract :
Superconducting devices have intrinsically superior characteristics to those of semiconductor devices. Presently, we can fabricate more than twenty thousand junctions on one chip using niobium technology. We have demonstrated the operation of a network system with a superconducting interconnection chip using voltage-state logic. Single flux quantum devices are promising for future superconducting applications because the clock frequency of SFQ logic is higher than that of voltage-state. We have proposed a high-end switch based on hybrid architecture using optical devices, semiconductors and SFQ devices. To demonstrate the high-speed operation of SFQ circuits, we developed an arbiter circuit that uses SFQ components and the arbiter circuit operates at 60 GHz. We also have developed a high Tc superconducting (HTS) SFQ sampler system for observing ultra-fast signal waveforms. In addition, we will discuss the prospects of future superconducting devices based on the fabrication technologies we developed
Keywords :
superconducting integrated circuits; 60 GHz; Nb; SFQ logic circuit; SFQ sampler; arbiter circuit; fabrication technology; high temperature superconductor; high-end switch; hybrid architecture; niobium junction technology; superconducting device; superconducting digital electronics; superconducting interconnection network; ultra-fast signal waveform; voltage state logic circuit; Clocks; High temperature superconductors; Integrated circuit interconnections; Josephson junctions; Logic devices; Niobium; Semiconductor devices; Superconducting devices; Superconducting logic circuits; Voltage;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
