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8/13/2019 7-Antenna Principle and Model Selection-47
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WCDMA Antenna Principle and Modelselection
ZTE University
TD&W&PCS BSS Course Team
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Objectives
At the end of this course, you will be able to:
Grasp Signification of Antenna Technical
Parameters. Grasp Antenna Model Selection
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Content
Principles of Antenna
Model Selection of Antenna
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Principles of Antenna (1)
What is antenna?
Antenna converts the electrical signals from the conductive wire
into radio wave and transmits it into the air
Antenna collects the radio wave and converts it into electrical
signals
Blahblahblah bl ah
Principles of Antenna
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Principles of Antenna (2)
When the conductive wire has alternating current, it can form radiation
of electromagnetic wave, with the radioactive capacity related to the
length and form of the conductive wire.
When the length of the conductive wire increases to a degree
comparable to wavelength, the current on the conductive wire sharply
increases, forming strong radiation. Generally the straight conductive
wire above that can form noticeable radiation is called dipole .
Principles of Antenna
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Principles of Antenna (3)
A dipole with the two rods of the same length is called
symmetrical dipole, or 1/2 wavelength dipole. A single 1/2
wavelength symmetrical dipole can be used independently, or
multiple 1/2 wavelength symmetrical dipole can form an antenna
array.
Wavelength
1/2 Wavelength
1/4 Wavelength
1/4 Wavelength
1/2 Wavelength
dipole
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Outer View of Antenna (1)
--- Outdoor NodeB patch directional antenna
Principles of Antenna
P i i l f A t
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Outer View of Antenna (2)
Indoor ceiling-mount antenna Indoor wall-mount antenna
--- Indoor antenna
Principles of Antenna
P i i l f A t
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For example, 1 symmetrical dipole
Receiving power: 1mW
Antenna array of 4 symmetrical dipoles
Receiving power: 4 mW
GAIN= 10log(4mW/1mW) = 6dBd
The high gain of the patch antenna is formed by the antenna array of multiplebasic dipoles
Gain of Antenna
Principles of Antenna
Principles of Antenna
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Gain of Antenna
The definition of the gain of an antenna is related to the 1/2
wavelength dipole or the omni radiator.
The omni radiator assumes that the radiation powers in all directions
are equal. The gain of the antenna in a certain direction is a value of
the field strength generated in this direction over the intensity by theomni radiator in this direction.
Generally the gain of the antenna has two units: dBd and dBi.
dBi indicates the field strength in the direction of the largest radiation
of the antenna, compared with the reference value of the omni radiator.
The gain of the antenna compared with the 1/2 wavelength dipole is
indicated with dBd.
0dBd=2.15 dBi
Principles of Antenna
Principles of Antenna
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Difference of dBd and dBi
2.15dB
Pattern radiation of a
single symmetrical dipoleA omni homogeneous
radiator has the same
radiation in all directions
Gain of an antenna compared with a
symmetrical dipole is indicated with dBd.
Gain of an antenna compared with an omni
homogeneous radiator is indicated with dBi.
For example: 3dBd = 5.15dBi
Principles of Antenna
Principles of Antenna
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Antenna Direction (1)
The antenna direction refers to the capability of radiating
electromagnetic wave in a certain direction.
For the receiving antenna, pattern means the receiving
capability of the wave promulgated from differentdirections.
The characteristic curve of antenna direction is usually
indicated with pattern.
Pattern is employed to describe the capability of
transmitting/receiving electromagnetic wave in alldirections in the space.
Principles of Antenna
Principles of Antenna
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Antenna Pattern (2)
Top view
Principles of Antenna
Principles of Antenna
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120(eg)
Peak
- 10dB point
- 10dB point
60 (eg) Peak
- 3dB point
- 3dB point
15 (eg) Peak
Peak - 3dB
Peak - 3dB
32 (eg) Peak
Peak - 10dB
Peak - 10dB
Vertical pattern
3dB beamwidthHorizontal pattern
10dB beamwidth
Beamwidth of Antenna
Principles of Antenna
Principles of Antenna
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Horizontal Lobe 3dB Width
Principles of Antenna
Principles of Antenna
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Directional antenna Omni antenna
Vertical Lobe 3dB Width
Principles of Antenna
Principles of Antenna
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Impact of Vertical Lobe
The relatively narrow 3 dB width of the vertical lobe will
generate more coverage dead zones. With two antennae
without downtilt hung at high places, the wide vertical lobe in
read generates a dead zone with the length being OX, smaller
than OX for that of the narrow vertical lobe in blue.
p
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Work Frequency Range of Antenna
In disregard of transmitting or receiving antenna, it always
works within a certain frequency range. With the considerations
of out-of-band anti-interference capacity, the usual practice is toselect the bandwidth of the antenna that just meets the
frequency requirements.
At 850MHz, the 1/2
wavelength is best
At
890MHz Antenna
dipole
At
820MHz
p
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Polarization of Antenna
The field direction of the electromagnetic field of the antenna radiation is thepolarization of the antenna. The NodeB antenna usually applies linearpolarization. With the ground as reference plane, if the field vector isperpendicular to the ground, it is vertical polarization (VP); if the field vector isparallel to the ground, it is horizontal polarization (HP). In the case of a dual-
polarization antenna, the +45 and -45 orthogonal dual-linear polarization areadopted.
Vertical
polarization
Horizontal
polarization
+ 45 tilted polarization - 45 tiltedpolarization
Principles of Antenna
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Dual-polarization Antenna
The dual-polarization consists of two antennae with orthogonal poles
within the same radome. The adoption of dual-polarization antenna can
sharply reduce the number of antennae, streamline the installation
engineering of antenna, lower cost, and save space in antenna
installation.
V/H
(vertical/horizontal) Tilt (+/- 45)
Principles of Antenna
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Antenna Beam Downtilt
Applied to suppress coverage and reduce cross-
modulation
Two modes: Mechanical downtilt and electrical downtilt
Principles of Antenna
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Impact of Downtilt on Coverage
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Beam Downtilt
The purpose of the downtilt technology is to tilt the main beam to
reduce the radiation level to the adjacent coverage cells. In the case,
though the frequency level at the edge of the cell is reduced, theinterference level is much lower than the frequency level.
No downtiltElectrical
downtilt
Mechanical
downtilt
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Phase Shifter
Principle of Electrical Downtilt
Principles of Antenna
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Electrical Downtilt and Mechanical Downtilt
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F/R Ratio
In the antenna pattern, the ratio of max. value of front and back
lobes is called front/back ratio . The F/R ratio of the outdoor
NodeB antenna is preferably generally larger than 25dB.
Front powerRear power
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Input Impedance of Antenna
The ratio of the signal voltage and the signal current of the
antenna and the feeder connection points, or the two ends of
the feeding points, is called impedance of antenna.
Input impedance has resistance component and reactance
component. For any antenna, we make adjustment through the
antenna impedance. Within the required work frequency range,
the real part of impedance is very small and imaginary part is
very close to 50 , so that the antenna impedance is Zin = Rin
= 50 . This is necessary to ensure the impedance of antenna
and that of feeder to be well matched.
Principles of Antenna
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VSWR
The generation of VSWR : As the incident wave power is transmitted
to the antenna input end and is not completely absorbed (radiation.
Reflection wave is generated and stacked to generate VSWR.
The value of VSWR is between 1 and infinite. VSWR is 1, indicating
full match. VSWR is infinite, indicating full reflection and full mismatch.
9.5 W80ohms
50 ohms
Forward: 10W
Backward: 0.5W
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Reflection coefficient :
||=|(Za-Zo)/(Za+Zo)|
Za: Input impedance
Zo: Antenna standard input impedance
VSWR=(1+||)/(1-||).
RL=-20lg||,
eg:
if VSWR=1.5:1, then RL=-13.98dB.
VSWR
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Side Lobe Suppression and Null Fill-in
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Content
Principles of AntennaModel Selection of Antenna
Model Selection of Antenna
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Parameters Related to Antenna Model Selection
In selecting antennae, a large number of antennae is
involved.
Such parameters as radiation pattern, gain, horizontal
lobe width, vertical lobe width, and downtilt mode are
selected according to the terrain, ground objects, height
of NodeB, and coverage radius in the coverage.
The selection of other parameters is relatively simple and
done according to the designed system.
Model Selection of Antenna
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Polarization Mode (1)
NodeB antenna adopts linear polarization mode.
In particular, single-polarization antenna adopts vertical
linear polarization, whereas dual-polarization antenna
adopts 45 dual-linear polarization.
Model Selection of Antenna
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Polarization Mode (2)
In downtown of cities, the number of
NodeB is large, and the coverage radius of
each NodeB is small. It is suggested to
adopt dual-polarization antenna.
In suburb and countryside, the number of
NodeB is small and the coverage radius is
large relatively. Space diversity can beadopted to enhance the receiving effect of
the NodeB. The single-polarization
antenna can be adopted.
Model Selection of Antenna
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Antenna Radiation Direction
For an omni antenna, the radiation intensity in
all directions on the same horizontal plane isequal in theory. It is applicable to the omni cell.
The selection of omni antenna to achieve
large-scope coverage in the countryside is
economical
The directional antenna enables the direction
of the radiation of the antenna in the horizontal
plane. It is applicable for the coverage of
sector cell. Directional antenna can beselected for downtown and suburb of cities.
Model Selection of Antenna
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Horizontal Lobe Width
The horizontal lobe width of the omni antenna is all 360.
In the cases of 20 and 30 widths, the gain is high. They areapplied for the coverage of the narrow land stripes or express
highways.
In the case of 65 width, it is applied mostly in the typical three-sector NodeB configuration in the densely populated city areas.
In the case of 95 width, it is applied mostly in the typical three-
sector NodeB configuration in the suburban areas. In the case of 105 width, it is applied mostly in the typical three-
sector NodeB configuration in the sparsely populated areas.
Model Selection of Antenna
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Suggestions for different scenarios:
Model Selection of Antenna
Downtown of cities
The S111 NodeB in downtown of cities generally adopts
antennae with 65 horizontal lob width and 7 to 10
vertical lobe width, with the gain of the antennae rangingwithin 15 to 18 dBi. For the S110 or directional single-
sector station, the antennae with 65 , 90 or wider
horizontal lobe width. The selection is based on the actual
situation. The selection of vertical lobe and gain is the
same as the S111 station. For omni station, antennae withsmall gain and electronic downtilt are selected.
Model Selection of Antenna
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Model Selection of Antenna
Suburb and countryside
Directional antennae adopt antennae with 90 horizontal
lobe width and 5 to 7 vertical lobe width, with the gain
ranging within 15 to 18 dBi. Omni antennae adopts
antennae with 5 to 7 vertical lobe width, with the gain
ranging within 9 to 12 dBi.
M d l S l i f A
Model Selection of Antenna
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Model Selection of Antenna
Water surface (large lake and sea surface), gobi, and desert
Directional antenna: If the coverage is relatively open and wide,
antennae with 90 or 105 horizontal lobe width and 5 to 7 , with
the gain ranging within 14 to 18dBi ,vertical lobe width can be
selected. If the coverage distance is long but the width is narrow
(e.g., lake and terrain factors), the 65 narrow beamwidth antenna
can be selected.
Omni antenna: The antennae with 5 to 7 vertical lobe width and
gain ranging within 9 to 12dBi can be selected
M d l S l ti f A t
Model Selection of Antenna
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Model Selection of Antenna
Narrow land strips such highway and railway
Antennae for highway and railway are selected according to
the coverage line distance and shape of the highway and
railway concerned.
If the line is relatively straightforward, high-gain antennaewith 20 to 30 horizontal lobe width and 5 to 7 vertical lobe
width can be selected.
If the line is a curve in a large amplitude, antennae with 65,
90, or even larger horizontal lobe width, and with 5 to 7
vertical lobe width can be selected.
M d l S l ti f A t
Model Selection of Antenna
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Model Selection of Antenna
Areas of a complicated terrain with a large fall
In the actual networking planning, there may be a scenario that
features a large fall. In that case, antennae with 10 to 18
vertical lobe width can be selected according to the actual
situation. In another case, the area that needs a large coverage
is higher than the mount height of the antennae. The antennae
with 18 to 30 vertical lobe width can be selected according to
the actual situation.
Do ntilt Mode of Antennae (1)
Model Selection of Antenna
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Downtilt Mode of Antennae (1)
In the case of mechanical downtilt antenna, it is tilted when they are installed.
The price is low. It is mostly applied in the scenario with the downtilt angle
smaller than 10.
In the case of electrical downtilt antenna, the price is relatively high, yet with a
larger downtilt range (larger than 10. When the downtilt angle is wide, the
antenna pattern shows no obvious distortion, and the back lobe of the antenna
will also be downtilted at the same time. In particular, the fixed electrical downtilt antenna with a small angle plus the
mechanical downtilt scheme has advantages in performance and cost, which is
the mainstream option of downtilt.
Antenna downtilt modes fall into mechanical downtilt and electrical downtilt.
Electrical downtilt can be further divided into fixed electrical downtilt and
adjustable electrical downtilt.
Downtilt Mode of Antennae (2)
Model Selection of Antenna
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Downtilt Mode of Antennae (2)
The application of electrical downtilt antenna includes the following
scenarios:
In the case of city sites with specially small coverage radius, large downtilt
angle is needed to reduce the interference with the adjacent cells. In the case of high sites, to reduce the interference with the adjacent cells
and the problem of light shadow, it is better to select the first upper side
lobe suppression and the first null fill-in, with large-angle electrical downtilt
or adjustable electrical downtilt antenna. In the case of sites higher than the surroundings (e.g., mountain top and
riverside), electrical downtilt antenna can be selected.
Omni antenna cannot be mechanically downtilted. High omni NodeB should
select the electrical downtilt antenna with different angles according to thedifferent situations.
Down tilt angle of Antennae (1)
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Down tilt angle of Antennae (1)
In downtown area
: mechanical down tilt ; H: effective height;
L: cell radius; :Vertical Lobe 3dB Width ;
e: electrical down tilt;
= arctg(H/L) + /2 e
Down tilt angle of Antennae (2)
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Down tilt angle of Antennae (2)
= arctg(H/L) e
In rural area
: mechanical down tilt ; H: effective height;
L: cell radius; :Vertical Lobe 3dB Width ;
e: electrical down tilt;
Examples of Antennae (1)
Model Selection of Antenna
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Examples of Antennae (1)
Type: Outdoor omni antenna
Antenna manufacturer: KATHREIN
Model: HXS-201-60-1.9-6-2GHz-60Work frequency: 1920 MHz ~ 2170MHZ
Gain: 11.6 dBi
Horizontal 3dB beamwidth: 360
Polarization: Vertical
Angle: 0
Input impedance: 50
Dimensions:60 1500mm
Weight: 3.8kg
Applicable scenario: Suburb and countryside
Examples of Antennae (2)
Model Selection of Antenna
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Examples of Antennae (2)
Type: Outdoor directional antenna
Antenna manufacturer: KATHREIN
Model: TDJS-2000-18-H65-3GWork frequency: 1920 MHz ~ 2170MHZ
Gain: 18dBi
Horizontal 3dB beamwidth: 65
Polarization:45 polarizationAngle: 0 ~ 15
Input impedance: 50
Dimensions: 1300mm 160mm 75mm
Weight: 4.5kg
Applicable scenario: High-density downtown
and resident areas
Examples of Antennae (3)
Model Selection of Antenna
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Examples of Antennae (3)
Type: Indoor directional antenna
Antenna manufacturer: Mobile Antenna Technologies (Shenzhen)
Model: MB5F-70/40-9/6-WWork frequency: 1710 MHz ~ 2170MHZ
Gain: 6 dBi
Horizontal 3dB beamwidth: 40
Polarization: VerticalAngle: 0
Input impedance: 50
Dimensions: 240 220 65mm
Weight: 1.5kg
Applicable scenario: Interior of buildings
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