Title :
Integrated self-biased hexaferrite microstrip circulators for millimeter-wavelength applications
Author :
Oliver, S.A. ; Shi, P. ; McGruer, N.E. ; Vittoria, C. ; Hu, W. ; How, H. ; McKnight, S.W. ; Zavracky, P.M.
Author_Institution :
Center for Subsurface Sensing & Imaging Syst., Northeastern Univ., Boston, MA, USA
fDate :
2/1/2001 12:00:00 AM
Abstract :
Planar microstrip Y-junction circulators have been fabricated from metallized 130-μm-thick self-biased strontium hexaferrite ceramic die, and then bonded onto silicon die to yield integrated circulator circuits. The impedance matching networks needed to transform the low-impedance circulator outputs were deployed on low-loss alumina or glass dielectrics to minimize circuit losses. These magnetically self-biased circulators show a normalized isolation and insertion loss of 33 and 2.8 dB, respectively, and a 1% bandwidth for an isolation of 20 dB. Application of small (H<1.5 kOe) magnetic bias fields improved the isolation and insertion loss values to 50 and 1.6 dB, respectively. This design may form the basis for future monolithic millimeter-wave integrated circulator circuits that do not require magnets
Keywords :
MIMIC; ferrite circulators; impedance matching; losses; magnetic millimetre wave devices; microstrip components; millimetre wave circulators; strontium compounds; 1.6 dB; 130 micron; 2.8 dB; Al2O3; EHF; MM-wave circulators; Si; Si die; Sr hexaferrite ceramic die; SrFe12O19; hexaferrite microstrip circulators; impedance matching networks; insertion loss; integrated circulator circuits; integrated microstrip circulators; isolation; low-impedance circulator outputs; low-loss alumina dielectric; low-loss glass dielectric; magnetic bias fields; magnetically self-biased circulators; millimeter-wavelength applications; monolithic MM-wave integrated circulator circuits; planar microstrip Y-junction circulators; self-biased microstrip circulators; Bonding; Ceramics; Circulators; Dielectric losses; Insertion loss; Integrated circuit metallization; Integrated circuit yield; Microstrip; Silicon; Strontium;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
