A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
LOW FIRING TEMPERATURE DIELECTRIC MATERIALS DESIGNED TO BE CO-FIRED WITH HIGH BISMUTH GARNET FERRITES FOR MINIATURIZED ISOLATORS AND CIRCULATORS
Disclosed herein are embodiments of low temperature co-fireable dielectric materials which can be used in conjunction with high dielectric materials to form composite structures, in particular for isolators and circulators for radiofrequency components. Embodiments of the low temperature co-fireable dielectric materials can be scheelite or garnet structures, for example, bismuth vanadate. Adhesives and/or glue is not necessary for the formation of the isolators and circulators.
LOW FIRING TEMPERATURE DIELECTRIC MATERIALS DESIGNED TO BE CO-FIRED WITH HIGH BISMUTH GARNET FERRITES FOR MINIATURIZED ISOLATORS AND CIRCULATORS
Disclosed herein are embodiments of low temperature co-fireable dielectric materials which can be used in conjunction with high dielectric materials to form composite structures, in particular for isolators and circulators for radiofrequency components. Embodiments of the low temperature co-fireable dielectric materials can be scheelite or garnet structures, for example, bismuth vanadate. Adhesives and/or glue is not necessary for the formation of the isolators and circulators.
LOW FIRING TEMPERATURE DIELECTRIC MATERIALS DESIGNED TO BE CO-FIRED WITH HIGH BISMUTH GARNET FERRITES FOR MINIATURIZED ISOLATORS AND CIRCULATORS
HILL MICHAEL DAVID (author) / CRUICKSHANK DAVID BOWIE (author) / SHUNKWILER JEFFREY ALAN (author) / JIANG JOHN JIANZHONG (author) / FIROR DAVID MARTIN (author) / POLISETTY SRINIVAS (author)
2019-12-26
Patent
Electronic Resource
English
| European Patent Office | 2023
| European Patent Office | 2023
| European Patent Office | 2024
| European Patent Office | 2023
Materials, devices and methods related to below-resonance radio-frequency circulators and isolators
| European Patent Office | 2023