Title :
Inductor design for cryogenic power electronics
Author_Institution :
Naval Res. Lab., Washington, DC, USA
fDate :
6/1/2005 12:00:00 AM
Abstract :
The core losses of a number of ferrite compositions as well as several metallic ferromagnetic materials have been measured at 78 K. From these measurements we can estimate the power dissipation of a conventional inductor (copper windings, magnetic core) at low temperature. It is found that the magnetic losses generally increase on cooling; this counteracts the reduction in copper losses, and the dissipation would not be much different than its room temperature value. If superconducting windings are substituted for the copper, there remains a tradeoff between losses in the core and in the superconductor. Optimization of this combination will require extensive modeling; it may be that the best solution involves no magnetic core at all.
Keywords :
cryogenic electronics; eddy current losses; power electronics; power inductors; superconducting coils; cryogenic power electronics; ferrite compositions; inductor design; magnetic losses; metallic ferromagnetic materials; power dissipation; superconducting coils; Copper; Core loss; Cryogenics; Ferrites; Inductors; Loss measurement; Magnetic cores; Power electronics; Power measurement; Temperature; Cryogenic electronics; inductors; soft magnetic materials; superconducting coils;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2005.849678
