Title :
Energy storage at 77 K in multilayer ceramic capacitors
Author :
Lawless, W.N. ; Clark, C.F., Jr.
Author_Institution :
CeramPhysics Inc., Westerville, OH, USA
fDate :
5/1/1997 12:00:00 AM
Abstract :
A ceramic material having a large dielectric constant at 77 K, /spl epsi/=8000-12000, has been developed for capacitive energy storage at this temperature. A large matrix of multilayer ceramic capacitors were fabricated using conventional tape-casting methods to optimize the dielectric breakdown strength at 77 K, and measured energy storage values on these capacitors range up to 6 J/cm3 at 77 K. An unfused bank of these capacitors was voltage-cycled 105 times at 77 K without failure, and the heating effects during cycling were immeasurably small (i.e., nitrogen boiloff was monitored). An electrocaloric effect on discharge (/spl Delta/T/spl sim/1 K) contributes to the thermal stability. Measurements of the frequency dependence of the dielectric properties of the ceramic at 77 K indicate a fundamental limit of about 8 μs for the switching repetition rate. Improved capacitor-manufacturing methods are discussed which can increase the energy density to the 20-30 J/cm3 range.
Keywords :
capacitor storage; ceramic capacitors; electric breakdown; electric strength; permittivity; thermal stability; 77 K; 8 mus; capacitive energy storage; dielectric breakdown strength; dielectric constant; electrocaloric effect; energy density; frequency dependence; heating effects; multilayer ceramic capacitors; switching repetition rate; tape-casting methods; thermal stability; unfused bank; Capacitors; Ceramics; Dielectric breakdown; Dielectric constant; Dielectric materials; Dielectric measurements; Energy storage; Nonhomogeneous media; Optimization methods; Temperature;
Journal_Title :
Aerospace and Electronic Systems Magazine, IEEE
