Abstract :
An expression for the electric field radiated by an arbitrary current distribution is given, which leads to a straightforward characterization of an antenna by a complex vector called the equivalent length. All classical transmitting parameters-such as the radiated power density, power intensity, radiation resistance, directional gain, and gain-are simple functions of the equivalent length. The same is true for the receiving parameters: induced voltage, available power, equivalent surface, and antenna factor. Eliminating the equivalent length between the gain and an equivalent surface provides a simple, direct, and general proof of the fundamental relation for antennas
Keywords :
antenna radiation patterns; current distribution; receiving antennas; transmitting antennas; antenna factor; arbitrary current distribution; available power; complex vector; directional gain; electric field radiated; equivalent length; equivalent surface; gain; induced voltage; power intensity; radiated power density; radiation resistance; receiving properties; transmitting properties; Antenna radiation patterns; Antenna theory; Books; Current distribution; Electric resistance; Polarization; Receiving antennas; Surface resistance; Transmitting antennas; Voltage;
