Bandwidth optimization of an integrated microstrip circulator and antenna assembly: part 2 / Jeffrey L. Young... [et. al.] | |
Otros Autores: | Adams, Ryan S. ; Johnson, Christopher M. ; O'neil, Benton ; Young, Jeffrey L.. |
Tema(s): | |
Resumen: | The integration of a ferrite circulator with an arbitrary load - such as a wideband antenna - is considered by examining the conditions for perfect circulation over large bandwidths. These conditions relax the requirements of the loading impedance from being purely real (e.g., 50 ohms) to being complex, per a circulation impedance equation. The impedance equation is couched in terms of open-circuit impedance parameters, which are the natural parameters for describing an embedded microstrip circulator. By means of a rigorous field analysis, the impedance parameters are computed by modeling the microstrip ferrite circuit as a closed PEC/PMC cavity |
SOLICITAR EL ARTICULO EN EL PROGRAMA DE ELECTRONICA Y TELECOMUNICACIONES
Electrónica y Telecomunicaciones
Sistemas
The integration of a ferrite circulator with an arbitrary load - such as a wideband antenna - is considered by examining the conditions for perfect circulation over large bandwidths. These conditions relax the requirements of the loading impedance from being purely real (e.g., 50 ohms) to being complex, per a circulation impedance equation. The impedance equation is couched in terms of open-circuit impedance parameters, which are the natural parameters for describing an embedded microstrip circulator. By means of a rigorous field analysis, the impedance parameters are computed by modeling the microstrip ferrite circuit as a closed PEC/PMC cavity
No hay comentarios en este titulo.