AP-S International Symposium, 1977, Stanford University, Stanford, California |
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Page 231
... monopole , i.e. , πT kh = 2 ' at 1 GHz . For a dipole configuration , a 15 cm long glass rod is used as a substrate for the deposited element . Once the antenna dimensions are determined , the desired resistive loading profile was ...
... monopole , i.e. , πT kh = 2 ' at 1 GHz . For a dipole configuration , a 15 cm long glass rod is used as a substrate for the deposited element . Once the antenna dimensions are determined , the desired resistive loading profile was ...
Page 302
... monopole as a canonical problem ; this problem can be treated by alternative almost analytical methods ( 1 ) and the results so obtained agree with experiment . The wire segment diameter is chosen so as to give the best polar pattern ...
... monopole as a canonical problem ; this problem can be treated by alternative almost analytical methods ( 1 ) and the results so obtained agree with experiment . The wire segment diameter is chosen so as to give the best polar pattern ...
Page 303
... monopole to determine the optimum wire diameter . Armoured vehicles were then represented by a rectangular box with monopole ; this enabled cheap models to be made for anechoic chamber experiments with a scale frequency of 3 MHz ...
... monopole to determine the optimum wire diameter . Armoured vehicles were then represented by a rectangular box with monopole ; this enabled cheap models to be made for anechoic chamber experiments with a scale frequency of 3 MHz ...
Common terms and phrases
Adaptive Array amplitude analysis anechoic chamber angle antenna system AP-S Session aperture approximation axial ratio axis azimuth band bandwidth beam beamwidth boresight calculated circular coefficients components corrugated cross-polarization curve cylinder desired signal determined diameter dielectric diffraction DIPLEXER dipole distribution E-plane effects electric field electromagnetic Electronics experimental feed ferrite frequency function gain geometry helix horn horn antenna IEEE IEEE Trans impedance input integral equation June 21 Laboratory lens linear magnetic matrix measured method microstrip Microwave mode near-field numerical obtained offset orthogonal output parameters performance phase error phase shifter phased array planar plane polarization probe problem propagation radar radiation pattern random range reference reflector antenna region resonance satellite scan scattering shown in Figure sidelobe solution space spherical surface symmetric technique theoretical theory tion transmitting vector vertical wave waveguide wavelength wire