Input impedance of a slot-coupled cylindrical-circular microstrip patch antenna

The input impedance and mutual coupling of cylindrical-circular microstrip patch antennas in the TM,, mode are experimentally studied. Measured results for the antennas on curued surfaces of different cylinder radii are presented, and the curvature effects on the input impedance and mutual coupling

and the procedure is straightforward. This model is suitable for the thermal design of high-power HBTs and HBT largesignal models, which includes the self-heating effect.

## Measured input impedance and mutual coupling of cylindrical-rectangular microstrip antennas opemrerl in h e TMol mode are presented and discussed. Results for the antennas on curued surfaces of dqferent cylinder radii are giuen, and the cun~ature effects on the input impedance and mutual couplin

A no¨el microstrip-fed slot-coupled dual-stacked self-complementary patch antenna is designed and presented. Measured results show that the impedance bandwidth of the self-complementary patch antenna is wider than a con¨entional microstrip-fed slot-coupled dualstacked patch antenna. Radiation patter

The subject of study is a conical wraparound short-circuited microstrip antenna operating in dual frequency range. Experimental radiation patterns of two modes, corresponding to symmetrically and asymmetrically excited cones, are compared with the calculated ones based on semiinfinite cone theory. T