chapter 4 the rf link · 2016-03-08 · chapter 4 the rf link the fundamental elements of the...
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Chapter 4 The RF Link
The fundamental elements of the communications
satellite Radio Frequency (RF) or free space link are
introduced.
Basic transmission parameters, such as
Antenna gain,
Beamwidth,
Free-space path loss,
The basic link power equation
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The concept of system noise and how it is quantified
on the RF link is then developed, such as
-Noise power,
-Noise temperature,
-Noise figure,
-Figure of merit
-The carrier-to noise ratio
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5.1 Transmission Fundamentals
The basic parameters of the link are
pt = transmitted power (watts);
pr = received power (watts);
gt = transmit antenna gain;
gr = receive antenna gain;
r = path distance (meters).
Figure 5.1 Basic communications link
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*An electromagnetic wave, referred to as a radiowave at radio frequencies, is nominally defined in the range
of ∼100MHz to 100+GHz.
The frequency and wavelength in free space are related
by
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Table 5.1 Wavelength and frequency
Figure 5.2 Definition of wavelength
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Figure 5.3 Inverse square law of radiation
*Consider a radiowave propagating in free space from a
point source P of power pt watts.
*The wave is isotropic in space, i.e., spherically
radiating from the point source P,
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The density over a sphere of radius rb is
The ratio of power densities is given by
The power flux density (or power density), over the
surface of a sphere of radius ra
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5.1.1 Effective Isotropic Radiated Power (eirp)
The effective isotropic radiated power, eirp is
eirp ≡ pt gt
EIRP = Pt + Gt in dB
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5.1.2 Power Flux Density (pfd) The power density, in watts/m2, at the distance r
from the transmit antenna with a gain gt , is defined
as the power flux density (pfd)r
Figure 4.4 Power flux density
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Or, in terms of the eirp,
The power flux density expressed in dB, will be
With r in meters,
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5.1.3 Antenna Gain
*Isotropic power radiation is usually not effective for
satellite communications links, because the power
density levels will be low for most applications
*Some directivity (gain) is desirable for both the
transmit and receive antennas.
*Consider first a lossless (ideal) antenna with a physical
aperture area ofA(m2).
*The gain of the ideal antenna
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*So the ideal antennas are not practical, because some
energy is reflected, some energy is absorbed by lossy
components (feeds, struts, subreflectors).
*To account for this, an effective aperture, Ae, is
defined in terms of an aperture efficiency
physical antenna gain as g,
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5.1.3.1 Circular Parabolic Reflector Antenna
*The circular parabolic reflector is the most common
type of antenna used for satellite earth
station and spacecraft antennas.
* It is easy to construct, and has good gain and
beamwidth characteristics.
*The physical area of the aperture of a circular
parabolic aperture is given by
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From the antenna gain Equation
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5.1.3.2 Beamwidth
*Most antennas have sidelobes, or regions where the
gain may increase due to physical structure
elements or the characteristics of the antenna design
*Sidelobes are a concern as a possible source for
noise and interference,
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*This for satellite ground antennas located near to other
antennas or sources of power in the same frequency
band as the satellite link.
The beamwidth for a parabolic reflector antenna
is the 1/2 power beamwidth in degrees,
d is the antenna diameter in meters,
f is the frequency in GHz.
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5.1.4 Free-Space Path Loss
The power pr intercepted by the receiving antenna will be
Where
pt transmitter power in watts
gt transmitter antenna gain
Is the effective aperture (eq 15)
Then Eq. 5-22
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Rearranging Equation (5.22) in a slightly different form,
inverse square loss
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Free space path loss is reciprocal of inverse square loss
For the range r in meters, and the frequency f in GHz
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For the range r in km,
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5.1.5 Basic Link Equation for Received Power
We now have all the elements necessary to define the
basic link equation for determining the received power
at the receiver antenna terminals for a satellite link
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Sample Calculation for Ku-Band Link
55.0A
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