Microstrip-line feed circularly polarized cylindrical dielectric resonator antenna

A circularly polarized antenna, realized in a low-cost technology with an integrated feed, is presented for the land-mobile satellite seruice. This antenna presents large bandwidth, high gain, and good axial ratio in all frequency ranges.

## A new and simple technique for obtaining circular polar-( ) ization CP radiation of a single-feed microstrip antenna is demonstrated. This CP design is achie¨ed by insetting a single slit to the boundary of the microstrip patch, and placing a single feed along an axis 45Њ to the one containing

Figure 10 Loci of frequency and location versus distance where double nulls and strong double dips are occurring for x s y10 m in s Ž . Ž . the lossless dielectric media of ⑀ s 1.8, 2, 3. a Frequency. b r Location dip separation distance converges to the cavity size as the source point approaches th

Figure 4 Signal gain and noise figure as a function of laser wavelength The effects of the laser wavelength on the probe signal at s 1550 nm are given in Figure 4. As mentioned earlier, s the presence of an oscillating laser signal within the wavelength range of 1528᎐1533 nm reduces the upper level

An aperture-coupled dielectric resonator antenna using a strip-line feed is in¨estigated experimentally. As compared to the pre¨ious microstrip-line ¨ersion, the new configuration eliminates the problems of backside radiation through the slot and frequency dispersion. The measured return loss, radia