15.1 WAVES, TRANSMISSION LINES, WAVEGUIDES, AND ANTENNA FUNDAMENTALS 677
system that involves antennas (with no conductors in the propagation medium) and the following
nomenclature:Pt Power generated by the transmitter
Lt,Lr Transmitting-path loss (representing the power reduction caused by the transmission line
or waveguide that connects to the transmitting antenna) and receiving-path loss
Lta,Lra Transmitting antenna loss and receiving antenna loss
R Distance of separation between the antennas
S Signal power available at the lossless antenna output
Sr Signal power available at the receiver inputRadio transmission consists of antennas at the source and at the destination. It requires the
signal to be modulated on a high-frequency carrier, which usually is a sinusoid. Driven by an
appropriate carrier, the transmitting antenna launches an electromagnetic wave that propagates
through space without the help of a transmission line. A portion of the radiated power is collected
at the receiving antenna.
Thewavelengthλof the radio wave in air is related to the carrier frequencyfcby
fcλ=c= 3 × 108 m/s (15.1.16)
The radio-transmission loss differs from that of a transmission line in two ways: (i) it increases as
the square of the separating distance instead of exponentially, and (ii) it can be partly compensated
by the antenna gains.
Antenna gain depends on both shape and size.Dipole antennas,commonly used at lower
radio frequencies, are made up of a rod or wire of lengthλ/10 toλ/2, and have an antenna-gain
range of 1.5 to 1.64 (1.8 to 2.1 dB).Horn antennasandparabolic dishes(so named after their
shapes) have much more gain at higher frequencies. A useful, although approximate, expression
for gain is given byTransmitterInformation-bearing
signalTransmitting
path lossesLtTransmitting
antenna lossReceiving
path lossesReceiving
antenna lossLossless
antenna MediumLta
PtReceiverInformation-bearing
signal Sr Lr Lra SRFigure 15.1.5Communication system elements involving antennas.