Title :
L-band high power electronically rotatable ferrite half-wave plate
Author :
Boyd, Charles R., Jr. ; Hord, William E. ; Van Dyke, Steven T. ; McKechnie, Scott
Author_Institution :
Microwave Applic. Group, Santa Maria, CA, USA
Abstract :
Rotatable ferrite half-wave plates allow efficient selection of any desired amount of reciprocal vector rotation when excited by a linearly polarized wave, or any desired amount of reciprocal phase change with circularly polarized excitation. Ability to handle high peak power levels requires careful selection of the ferrite material properties, and high average power handling can be promoted by incorporating heat sinking into the structure. This paper describes the design approach and characteristics of an air-cooled ferrite half-wave plate operating in the vicinity of 1.3 GHz. frequency at a peak power level of 65 kW. and an average power level of 6,500 W. Measured data are presented for an engineering model unit with 0.4 dB. maximum insertion loss, capable of switching between any two states in approximately 500 microseconds.
Keywords :
ferrites; optical retarders; L-band high power electronically rotatable ferrite half-wave plate; air-cooled ferrite half-wave plate; circularly polarized excitation; ferrite material properties; frequency 1.3 GHz; heat sinking; high average power handling; linearly polarized wave; power 65 kW; power 6500 W; reciprocal phase change; reciprocal vector rotation; Data engineering; Ferrites; Frequency; Heat sinks; L-band; Material properties; Optical retarders; Polarization; Power engineering and energy; Power measurement; Polarization; birefringence; ferrimagnetic materials; ferrite devices; microwave phase shifters; waveguide components;
Conference_Titel :
Microwave Symposium Digest (MTT), 2010 IEEE MTT-S International
Conference_Location :
Anaheim, CA
Print_ISBN :
978-1-4244-6056-4
Electronic_ISBN :
0149-645X
DOI :
10.1109/MWSYM.2010.5515508
