A fully computer-oriented synthesis of the optimum circuit pattern of a 3-dB hybrid ring based upon the planar circuit concept is described. In the synthesis process, the contour-integral method, and Powell's method are used for the circuit analysis, the optimization, respectively. The synthesized optimum patterns are given in normalized curves, parameters which can directly be used in practical circuit design. The validity of the theory is confirmed by experiment. It is shown both theoretically, experimentally that the planar circuit approach can, not only prevent the deterioration of the hybrid characteristics due to the widening of the circuit, but bring forth hybrid characteristics somewhat better than the distributed constant model. It is also shown that the obtained optimized characteristics can further be improved by addition of simple external circuits.
[1]
K. Gruner.
Method of Synthesizing Nonuniform Waveguides
,
1974
.
[2]
G. Riblet.
A Directional Coupler with Very Flat Coupling
,
1978
.
[3]
T. Okoshi,et al.
The Segmentation Method--An Approach to the Analysis of Microwave Planar Circuits (Short Papers)
,
1976
.
[4]
T. Okoshi,et al.
Computer-Aided Synthesis of Planar Circuits
,
1977
.
[5]
G. P. Riblet,et al.
An Eigenadmittance Condition Applicable to Symmetrical Four-Port Circulators and Hybrids
,
1978
.
[6]
T. Okoshi,et al.
The Planar Circuit - An Approach to Microwave Integrated Circuitry
,
1972
.