Wavelength in GSM
There are many different types of electromagnetic waves.
These electromagnetic waves can be described by a sinusoidal function, which is
characterized by wavelength. Wavelength (l) is the
length of one complete oscillation and is measured in meters (m). Frequency and
wavelength are related via the speed of propagation, which for radio waves is
the speed of light (3 x10^8 m/s or meters per second).
The wavelength of a frequency can be determined by using the
following formula:
Wavelength = Speed / Frequency
Thus, for GSM 900 the wavelength is:
Wavelength = 3×10^8 m/s / 900
MHz
Wavelength = 300,000,000 m/s
/ 900,000,000
Wavelength = 0.33 m (or 33 cm)
From this formula it can be determined that the higher the frequency,
the shorter the wavelength. Lower frequencies, with longer wavelengths, are
better suited to transmission over large distances, because they bounce on the
surface of the earth and in the atmosphere. Television and FM radio are
examples of applications, which use lower frequencies.
Higher frequencies, with shorter wavelengths, are better
suited to transmission over small distances, because they are sensitive to such
problems as obstacles in the line of the transmission path. Higher frequencies
are suited to small areas of coverage, where the receiver is relatively close
to the transmitter.
The frequencies used by mobile systems compromise between
the coverage advantages offered by lower frequencies and the closeness-to-the-receiver
advantages offered by use of higher frequencies.
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