Dz ふ z cos θ Figure 2: Far-field radiation for half-wavelength dipole. Part 1: Design of 2.4 GHz...
dz ふ z cos θ Figure 2: Far-field radiation for half-wavelength dipole. Part 1: Design of 2.4 GHz dipole antenna You are tasked with developing an antenna for a Radar that operates in the ISM (Instrument, Scientific, Medical) band. The band of frequency is defined from 2.4 GHz to 2.5 GHz. Now that you have walked through the steps to generate the electromagnetic fields and the average power density, you can use this information to characterize and complete the design of the half-wavelength dipole. Calculate the length for the half-wavelength dipole to radiate electromagnetic energy at 2.4 GHz? 1.
dz ふ z cos θ Figure 2: Far-field radiation for half-wavelength dipole. Part 1: Design of 2.4 GHz dipole antenna You are tasked with developing an antenna for a Radar that operates in the ISM (Instrument, Scientific, Medical) band. The band of frequency is defined from 2.4 GHz to 2.5 GHz. Now that you have walked through the steps to generate the electromagnetic fields and the average power density, you can use this information to characterize and complete the design of the half-wavelength dipole. Calculate the length for the half-wavelength dipole to radiate electromagnetic energy at 2.4 GHz? 1.