Da. Barton et Go. Zimmerman, Superconducting AC/DC power conversion using high-temperature superconducting components, IEEE APPL S, 9(2), 1999, pp. 685-688
The trend towards DC transmission of power, especially when using supercond
uctors, has made the conversion of power from AC to DC and DC to AC a criti
cal element of many electrical systems. We designed and tested a AC to DC a
nd DC to AC converter which used HTS cryotron switches, The superconducting
elements were made from yttrium barium copper oxide, and the converter was
operated at 77 Kelvin, Both AC to DC and DC to AC conversion has been demo
nstrated, and the conversion has been shown to be relatively independent of
frequency over a wide range. The converter was tested with a current of a
few amperes, but is upwardly scalable to thousands of amperes. At larger cu
rrents the converter is more efficient as much of the power loss occurs in
a separate control circuit which carries a current that does not scale with
the amount of current controlled. Significant sources of inefficiencies re
main which make the initial device impractical for actual use; however, the
proposed improvements in material and design should allow the converter to
be used in practical applications and outperform conventional methods ni c
onversion such as thyristors.