Equilateral triangular waveguide antenna - a spectral domain analysis

An amplifier-type acti¨e microstrip antenna, as a transmitting antenna, consisting of a passi¨e broadband slotted triangular microstrip antenna and a coplanar amplifier circuitry for enhanced gain and bandwidth, is demonstrated. The acti¨e microstrip antenna studied ( here is printed on an inexpensi

## Figure 10 Transmittance of x-component from anisotropic plate with and without grid as a function of frequency frequency. However, the parasitic component with the grid becomes much bigger when the frequency shifts far away from the center frequency. ## V. CONCLUSIONS The anisotropic FDTD fo

Figure 10 Magnitude of the electric current on an unmitered 45Њ bend discontinuity w x agreement with those presented in 8 . A traveling-wave configuration is also obtained for the electric surface current Ž . distribution shown in Figure 10 before the numerically matched load. ## IV. CONCLUSION I

that a very coarse grid was used with EF equations, with only two cells between the microstrip and the ground plane and four cells across the microstrip. The maximum error in the 20᎐60 GHz frequency band is 1.5, 6.7, and 13.5% using the enhanced EF, split-cell, and staircase techniques, respectively