Επαναληπτικές Ασκήσεις Γλώσσας, Γ' τάξη, 7η Ενότητα: Ιστορίες του χειμώνα
ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η
-
Upload
ender-sali -
Category
Documents
-
view
224 -
download
2
Transcript of ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η
![Page 1: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/1.jpg)
ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣΕΠΙΚΟΙΝΩΝΙΕΣ
Διδάσκων
Λούβρος Σπυρίδων
Επίκουρος Καθηγητής - ΤΕΣΥΔ
ΔΙΑΛΕΞΗ 7
ΕΠΙΓΕΙΑ ΜΙΚΡΟΚΥΜΑΤΙΚΗ ΖΕΥΞΗ (MW LINK) – ΣΧΕΔΙΑΣΜΟΣ 1ο Μέρος
![Page 2: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/2.jpg)
HopTerminal Terminal
IndoorUnits
IndoorUnits
Terminology
![Page 3: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/3.jpg)
BSC/RNC
The mobile transport networkNetwork evolution
![Page 4: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/4.jpg)
BSC/RNC
Increase capacity
Add sites
The mobile transport networkNetwork evolution
![Page 5: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/5.jpg)
BSC/RNC
Increase capacity
Add sites
Extend SDH rings
The mobile transport networkNetwork evolution
![Page 6: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/6.jpg)
BSC/RNC
Point-to-multipointIncrease capacity
Add sites
Extend SDH rings
The mobile transport networkNetwork evolution
![Page 7: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/7.jpg)
Microwave transmission networks
A microwave transmission network can be considered to consist of fourdifferent subnetworks.
• Traffic network; traffic distribution and traffic related equipment for the transport from BSC/RNC to ”the last site”
• Syncronization network; transport of synchronization signal from BSC/RNC to transmission equipment and radio base stations.
• Management network; for the supervision of every node in the transmission network.
• Radio network; microwave radio communication to carry traffic, synchronization and management.
![Page 8: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/8.jpg)
Microwave systemsMarket Products
Point to Multipoint Radio
Point to Point RadioCapacities per radio hop• MINI-LINK TN R4.0
PDH: 2 - 75xE1, 4 – 80xDS1 SDH/Sonet: up to 4xSTM-1/OC-3Ethernet: up to 600Mbit/sPmp: up to 4 terminals per sector
• MINI-LINK E PDH: 2 – 17xE1, 4 – 16xDS1Ethernet: up to 34Mbit/s (Eth over E3)
• Marconi LH 2.5.4: SDH/Sonet: up to 20xSTM-1/OC-3Ethernet over SDH via OMS 8xx
![Page 9: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/9.jpg)
ΔΙΑΔΙΚΑΣΙΑ ΣΧΕΔΙΑΣΜΟΥ
![Page 10: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/10.jpg)
The prediction cycle (1)
• Free-space loss• Gas attenuation
Link budget
• Rain attenuation• Diffraction – Refraction loss
• Multipath propagation
Quality and Availability
• Interference
”Slow”
”Fast”+
• Obstacle loss• Reflection loss
•BBER •ESR •SESR •UATR
Frequency planningLoss & attenuation Fading prediction
Fade marginObjectivesfulfilled?
No
Yes
Thresholddegradation
Fading probabilityPath loss
Not always presentHave to be predicted
![Page 11: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/11.jpg)
The prediction cycle (2)- influence factors
Link budget
Frequency planningLoss & attenuation Fading prediction
Fade margin
Path lossThresholddegradation
Fading probability
Network topologyFrequency reuseTerrainAntenna propertiesPolarizationModulation ...
HoplengthFrequencyTerrainAntenna heightClimate ...
HoplengthFrequencyPolarizationTerrainClimateAtmosphere ...
Quality and Availability
Diversity improvementObjectivesTx power
Rx thresholdAntenna gainBranching loss
![Page 12: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/12.jpg)
The ITU-R matrix of recommendations
Multip.-Flat
Multip.-Sel.
Rain
Refr.-Diffr.
Fadi
ng
Mec
hani
sms
Frequency arrangement
Fre
quen
cy P
lann
ing
Qua
lity
& A
vaila
bilit
y ITU-T G.821
ITU-T G.826
ITU-T G.827
ITU-T G.828
F.74
6-9
F.74
7-0
P.3
41-5
P.4
53-9
P.5
25-2
P.5
26-1
0P
.527
-3P
.530
-12
P.5
81-2
P.6
76-7
P.8
33-6
P.8
34-6
P.8
35-4
P.8
36-3
P.8
37-5
P.8
38-3
P.8
40-3
P.8
41-4
P.1
057-
2
F.10
93-2
F.55
7-4
F.59
4-4
F.63
4-4
F.69
6-2
F.69
7-2
F.75
1-2
F.38
4-10
F.38
7-10
F.49
7-7
F.59
5-9
F.63
5-6
F.74
8-4
F.10
99-4
P.8
32-2
P.1
407-
3
P.1
510-
0
F.13
30-2
F.16
05-0
F.38
5-9
F.38
6-8
F.63
6-3
F.63
7-3
F.74
9-2
F.38
3-8
F.13
99-1
F.17
03-0
F.16
68-1
F.69
5-0
F.55
6-1
F.75
2-2
P.1
410-
4
Atte
nuat
ion
Loss Atmosph.
Free-space
Reflection
Obstacle
Rain
ITU-RRecommendations
![Page 13: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/13.jpg)
Transmisson project overviewNominal planning - So far nothing is confirmed.
Planned Links
![Page 14: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/14.jpg)
Transmisson project overviewSite acqusition – find the sites
Siteacquisition
Legalaccess • Find and acquire suitable sites
• Site acquisition report • Legal Permits granted • Signed lease contract
Main Activities:
Questions to be answered like:Is there from microwave transmission point of view free line of sight in desiered direction(s)
or has the transmission network topology to be redisigned because of no line of sight?
![Page 15: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/15.jpg)
Transmisson project overviewRealized transmission planning
• Realized Transmission Plan• Network Management System Plan
Main Activities:Transmission
planning
Realized transmission plan
Sites are found, the microwave transmission network topology perhaps redisigned. Detailed microwave planning to meet Quality and Availability objectives, losses, antenna height, frequency planning...
![Page 16: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/16.jpg)
Transmisson project overviewRealized transmission planning
Planned Links Confirmed Links
![Page 17: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/17.jpg)
Transmisson project overviewCivil works
• Civil Work Detailed Design• Site Constructions
Civilworks
Main Activities:
![Page 18: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/18.jpg)
Transmisson project overviewTransmission design and engineering
Transmissiondesign andengineering
Site InstallationDocument
• Site Installation DocumentMain Activities:
expected RF input level, transmitter output power, frequency, antenna size(s) and mounting height(s).
![Page 19: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/19.jpg)
Transmisson project overviewSite integration
Acceptance Test Document
Site integration • Acceptance acc. to contract
Main Activities:
Are the Q&A objectives met? How to test?
![Page 20: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/20.jpg)
ΕΦΑΡΜΟΓΗ
Σχεδιασμός μικροκυματικής ζεύξης κοντινής απόστασης – Short Haul MW Link Design
ΔΙΚΤΥΟ ΜΕΤΑΔΟΣΗΣ (Transmission Network)ΚΙΝΗΤΗΣ ΤΗΛΕΦΩΝΙΑΣ
![Page 21: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/21.jpg)
Τοπολογίες δικτυου
Network Topologies
• Chain • Star• Tree• Ring• Combinations
![Page 22: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/22.jpg)
Chain topology
: BTS Site
: BTS Site connected to BSC (nodal point)
+ Low concentration of equipment at nodal point
- High capacity near nodal point• One link failure affects many
sites• Extended bandwidth
(Time slot grooming, aggregation?)
Rural area commonly. Noise limited
![Page 23: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/23.jpg)
Star topology
: BTS Site: BTS Site connected to BSC
+ Independent paths• Link failure is limited
- Line-of-sight- High concentration of
equipment at nodal point• Require enough space to install
antennas• Interference problems
Dense area commonly. Interference limited.
![Page 24: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/24.jpg)
Tree topolgy
1+1 hop for protection: BTS Site
: BTS Site connected to BSC
+ Line of sight+ Short paths (compared to
Star)• Require smaller antennas
+ Frequency reuse- Availability
• One link failure affects many sites- High capacity near nodal
point• Difficult to expand
(grooming, aggregation?)
Dense area commonly. Interference and noise limited.
![Page 25: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/25.jpg)
Ring topology
: BTS Site
: BTS Site connected to BSC
+ Availability • There is an alternative path
- Line of sight• Every site to be connected with
two other sites- Equipment cost
• MINI-LINK TN, E1 SNCP protectionor Digital Cross Connector required
- High traffic capacity• Require high band width
![Page 26: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/26.jpg)
Network topology
How do I plan the Transmission Network?
: BTS
: BSC or intercity transfer point
![Page 27: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/27.jpg)
Network topologyΥπό φυσιολογικές συνθήκες το δίκτυο χωρίζεται σε διαφορετικές ομάδες Βάσει τοπικού σχεδιασμού. Συνήθως σχεδιάζουμε βάσει clusters
Cluster Solution
• Common topology solution, this is a very common and easy solution touse this.
• A cluster size with less than 25 GSM BTS per cluster is an Ericssonrecommended based on required transmission capacity to the cluster.
• To minimize the number of cascade hops the hub site in each clustershall be positioned in the centre of it.
![Page 28: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/28.jpg)
Network topology
Cluster 4
Cluster 3
Cluster 2Cluster 1
Cluster Solution• Common topology solution.• A cluster size with
10-25 BTS/cluster is common.(GSM)
: BTS
: BSC or Intercity transfer point
BSC
![Page 29: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/29.jpg)
Network topology
BSC
Cluster 4
Cluster 3
Cluster 2Cluster 1
Connection between Cluster – BSC• Protected 1+1 hop is required.• Radios operating in lower
frequency bands are normally used.
• Dimension the links with spare capacity for future expansion
• Each cluster can be connected to a cross-connector node to minimise required link capacity, (grooming) towards BSC.
![Page 30: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/30.jpg)
Radio frequency bands
“High” frequency• Easier to get license• Short range• Generally used in
urban areas• Limiting factor: rain
“Low” frequency• Long range• Good resistance to
rain fading• Generally used in
rural areas• Limiting factor:
multipath fading
Example14 frequency bands [GHz]
38322826231815131110
87
6U6L
![Page 31: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/31.jpg)
Frequency plan, sub-bands18GHz band
11/15 1010 17706.5 18009.5 18716.5 19019.5
12/16 1010 17933.5 18236.5 18943.5 19246.5
21/25 340 18580 18670 18948 19910
31/35 1560 17700 18003 19260 19563
Lower sub-bandTx frequency [MHz]
Upper sub-bandTx frequency [MHz]
Sub-bands
Duplex
“CD” [MHz] Loweredge
Loweredge
Upperedge
Upperedge
- - -
- - -
Upper bandLower band
18/15Duplex (1010 MHz)
18/11
17.7
GH
z
19.7
GH
z
![Page 32: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/32.jpg)
Sub-band pair
High bandradio
Low bandradio
TXRX
17755.00 MHz17755.00 MHz
18765.00 MHz18765.00 MHz
TX RX
18/11 18/15
18/15Duplex (1010 MHz)
17.7
GH
z
19.7
GH
z
18/11
Upperedge
Loweredge
UpperedgeLo
wer
sub
-ban
d
Upp
er s
ub-b
and
Loweredge
![Page 33: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/33.jpg)
Lower and upper frequency edge
11/15 1010 17706.5 18009.5 18716.5 19019.5
Lower sub-bandTx frequency [MHz]
Upper sub-bandTx frequency [MHz]
Sub-bands
Duplex
“CD” [MHz] Loweredge
Loweredge
Upperedge
Upperedge
Lowest usable Tx centre frequenciesat channel spacing of 28 and 14MHz
14MHz 28MHz28MHz
17720.50 MHz7MHz 14MHz
17713.50 MHz
14MHz
Lower edge
Channelspacing
![Page 34: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/34.jpg)
AntennasThe largest antennas are mainly used for long range, low frequency trunk links commonly in rural or semi-rural areas.
A single polarized antenna radiats at one polarization at the time. It can be adjusted for either Vertical (default setting) or Horizontal polarization.
The use of Horizontal polarization is commonly due to the necessesity to reduce interference between nearby radio hops using the same or an adjacent radio channel.
A dual polarized antenna has two feeders and radiates simultaneously on both Vertical and Horizontal polarization.
This gives a possibility to doubble the traffic capacity over the radio hop without employing an extra radio channel.
![Page 35: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/35.jpg)
Antennas
Ø = 0.2m
Ø =
0.6
m
Ø =
0.3
m
Short-Haul LINK Point to point antennas directional parabolic antennas available in the following diameters:0.2m (only as single polarized)
0.3m 0.6m
0.9m 1.2m
1.8m 2.4m
3.0m 3.7m
• Single polarization antennasIntegrated radio mounting up to antenna diameter1.8m
• Dual polarization antennasIntegrated radio mounting to 0.3 and 0.6mantennas.
![Page 36: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/36.jpg)
Antenna performanceHPBW: Half Power Beam Width, the angle where the gain is reduced by 3dB.
A standard performance antenna, Std, is without radome and without absorbing material. Its main use is in rural areas with no interference problems. Thereby only the largest antennas at low frequency are available as Std performance. (1.8m is also available as Std perf. at 13GHz).
All diameters of single polarized are available as HP antennas.
Dual polarized antennas are only available as HP antennas.
Standard performance antennas fulfil at least RPE (radiation pattern enveloppe) class 1 defined in ETSI EN 302 217-4-1 V1.1.3 (2004-12).
High performance antennas fulfil at least RPE class 2 defined in ETSI EN 302 217-4-2 V1.2.1 (2006-06). Most even fulfil RPE class 3.
![Page 37: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/37.jpg)
Antenna performance”Standard performance, Std”
”High performance, HP”All diameters single pol.All diameters dual pol.
Absorbing material
Radom
Reduced side-loobs
Gain and HPBWthe same.
Ø: 1.8m, 2.4m, 3.0m, 3.7m @ 6/7/8GHz1.8m @ 13GHzSingle pol.
![Page 38: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/38.jpg)
HP vs Std antennaNext slide is an axample of Radiation Pattern Envelope diagram, RPE diagram, for two single polarized antennas.
In the RPE a Standard antenna is compared to a High Performance antenna.
Solid lines represent Co-polarization (the polarization the antenna is set to) gain and dashed lines represent cross-polarization gain.
It can be seen that for these antennas the HP antenna is somewhat better, reduced side lobs, from 30 degrees and considerably better from 60 degrees. Co-polarization gain in the main beam for the antennas above is 39.3dBi (at mid-band).
Cross-polar discrimination is minimum 30 dB in azimuth over an angle twice the half power beam width (HPBW ~1.7 degree) of the co-polarized main beam and 32dB within the 1 dB co-polarized contour (=“absolute main beam”).
![Page 39: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/39.jpg)
HP vs Std antennaExample 1.8m, 6GHz, RPE diagram.
Gai
n [d
Bi]
Angle of azimuth relative to main beam axis [degrees]
Std ant.HP ant.
Cross polarization gain
StdHP
Co polarization gain
1.8m 6GHz, Standard and High Performance antennas
![Page 40: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/40.jpg)
PolarizationSingle polarized antennas V (Default)
H
V
H
Vertical pol.V
H
Horizontal pol.
Polarization is set by turning the antenna feeder
![Page 41: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/41.jpg)
Polarization
Carrier
Carrier
InterfererInterferer
The interference situation (and thereby the performance) in the above example can be very much improved by letting one of the hops be horizontaly polarized
Hint: A way to improve the performance would be to use different channels for the two hops. Using an additional channel shall however be the ”last resort” when trying to reduce interference. Frequency channels are costly and always a lack of, so use them with care and try other means first!
![Page 42: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/42.jpg)
Dual polarized antenna• Two wave guide interfaces
One per polarization• Integrated mounting of radios to
0.3 and 0.6m antennas• Separate mounting of radios to
1.2 – 3.7m antennas• Cross polarization discrimination
in main beam, XPD, typically 32dB
Pol.1
Pol.2
![Page 43: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/43.jpg)
Dual polarized antenna
With or without XPIC
Ch.1
Ch.1
Ch. 1, Pol.2 Traffic stream 2
Pol.1
Pol.2
Ch. 1, Pol.1 Traffic stream 2
Dual polarized hop gives the possibility to double the traffic capacity per bandwidth compared to single polarized.
![Page 44: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/44.jpg)
Dual polarized antennaDual polarized antennas are availablefor integrated mounting in the sizes0.3 and 0.6m.
• No flexible waveguide losses, 0.2-1.4 dB gained per terminal depending on frequency
• Reduced necessary output power• Reduced footprint by up to 70%
0.3 m• Frequencies from 15 to 38 GHz
0.6 m• Frequencies from 13 to 38 GHz
![Page 45: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/45.jpg)
Dual polarized antenna
Maximum XPD in main beam
Mid-band main beam gain
![Page 46: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/46.jpg)
Wind loadOperational Requirement• All antennas: 50 m/s
Survival Requirement• 0.2 - 1.2 m: 70 m/s• 1.8 m: 67 m/s• 2.4 - 3.7 m: 55 m/s
FM
Wind load torque M [Nm] at 50m/s:
Antennasize [m]
0.3 1.2 2.41.8 3.0 3.7
1000
3000
5000
7000
9000
11000
0.3 1.2 2.41.8 3.0 3.7
Antennasize [m]2000
6000
10000
14000
18000
22000
Wind load force F [N] at 50m/s:
Do
not u
se fo
r cal
cula
tions
!
![Page 47: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/47.jpg)
Power splitters (coupler)
for RAU1 radios for RAU2 radios
~3dB loss
~3dB loss
Symmetrical Power Splitter1+1 Working stand-by
2+0
Radio 1
Radio 2
~1dB loss
~6dB loss
Asymmetrical Power Splitter1+1 Hot stand-by
Radio 1
Radio 2• 1+1 Hot stand-by (without Space diversity)• 1+1 Working stand-by with Frequency diversity• 2+0 using different channels, same polarization
![Page 48: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/48.jpg)
Power splitters (coupler)Introduced loss
S13
S23
Symmetrical Power Splitter
Radio 1
Radio 2
S13
S23
Asymmetrical Power Splitter
Radio 1
Radio 2
Loss
in d
B p
er b
ranc
h
![Page 49: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/49.jpg)
Flexible wave guide
Flexible wave guides are used to interconnect the radio and the antenna at separate mount
• 2.4m, 3.0m and 3.7m single polarized.• All dual polarized. • RAU1 power splitter to antenna.• Special installations
![Page 50: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/50.jpg)
Configurations1+1 Hot stand-by
1 radio channel
Power Splitter
• 2 radios per terminal connected to 1 antenna • Improved availability by hardware redundancy• 1 radio channel• 1 transmitter active per terminal
• Tx switch on hardware alarm• 2 radios receiving per terminal
• 1 Rx per terminal selected as active• Rx switch on hardware alarm
TX RX
![Page 51: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/51.jpg)
ConfigurationsDiversity
Space diversity is a technique to get ”long” radiohops at ”low” frequencies.
Frequency diversity is a technique to get ”long” radiohops at ”low” frequencies but is rather seldom used due to the need for two radio channels.
In most cases Hot stand-by with space diversity is the prefered solution as it gives equal performance improvment with just one channel.
Working standby with frequency diversity can be the better choice if diversity is needed but to mount two antennas would mean great difficulties and/or costs.
![Page 52: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/52.jpg)
Configurations1+1 Hot stand-by with space diversity
TX RX
• Radios connected to separate antennas • Hardware availability improvement, channel arrangement
and Tx switching as 1+1 Hot Stand• Improved transmission quality by Space Diversity• Rx switching on hardware and radio propagation alarms
• Multipath fading • Reflection
1 radio channel
![Page 53: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/53.jpg)
Configurations1+1 Working stand-by with frequency diversity
2 radio channels
• 2 radios per terminal connected to 1 antenna• Improved availability by hardware redundancy• Improved transmission quality by frequency diversity
• Multipath fading• 2 radio channels• 2 radios transmitting, 2 radios receiving per terminal• 1 receiver per terminal selected as active• Receiver switch on alarm
• Hardware and propagation alarms
Power Splitter
RXTX
![Page 54: ΑΣΥΡΜΑΤΕΣ-ΔΟΡΥΦΟΡΙΚΕΣ_διάλεξη 7η](https://reader034.fdocuments.net/reader034/viewer/2022051709/577ccee21a28ab9e788e6f1b/html5/thumbnails/54.jpg)
Configurations1+1 Working stand by with frequency and space diversity
TX RX
• Radios connected to separate antennas • Hardware availability improvement and channel arrangement
as 1+1 Working Standby• Improved transmission quality by combination of frequency
and Space diversity• Rx switching on hardware and radio propagation alarms
• Multipath fading • Reflection
2 radio channels
For ”severe” propagation conditions.