Dual-frequency rectangular microstrip antenna with an inserted integrated reactive loading

are used to check the accuracy of the measurement technique. A good agreement between the measured dielectric constant and the reported one is observed. The results show that the dielectric constant of the material can be measured using the waveguide cavities with a good accuracy. REFERENCES 1. L.P.

No¨el dual-frequency operation of a single-feed rectangular microstrip antenna with an embedded reacti¨e loading is presented. The reacti¨e loading is pro¨ided by a structure of two cascaded microstrip-line sections embedded within a rectangular slot cut in the patch. By selecting suitable dimension

A new design of a slot-loaded rectangular microstrip antenna for single-feed dual-frequency operation is proposed and experimentally studied. The slots loaded in the patch are a pair of bent slots centered in the patch and oriented along the resonant direction, with the spacing between the two slots

Figure Reflection coefficient as a function of the frequency and the resolution interpolation conductivity was chosen in order to obtain a normal theoretical reflection coefficient of 0.001% s y100 dB. Results for the reflection coefficient as a function of frequency are presented in Figure . ## 6

## Abstract A dual‐frequency rectangular microstrip antenna with a pair of π‐shaped narrow slots close to the nonradiating edges of the patch is experimentally studied. By varying the length and spacing of the two arms of each π‐shaped slot, the proposed antenna provides a tunable frequency ratio f

A no¨el design of a slotted triangular microstrip antenna for dual-frequency operation is proposed and experimentally studied. By embedding an in¨erted V-shaped slot close to the ¨ertex of a triangular microstrip patch, dual-frequency operation of the microstrip antenna can be achie¨ed using an inse