professional broadcast antennas
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BCAProfessional Broadcast Antennas
00_Umschlag_TS_DAB.indd 1 20.07.11 10:50
Kathrein Plant IV near Rosenheim, Germany
Catalogue Issue 07/2011
00_Umschlag_TS_DAB.indd 2 20.07.11 10:50
3
Kathrein Broadcast Antennas
Kathrein is one of the world’s leading manufacturers of professional broadcast antenna systems, including a full range of transmitting antennas for FM, TV, DAB and DVB broadcasting.
KATHREIN-Werke KG was founded in 1919 in Rosenheim, Germany, to produce antennas and lightning protection equipment.
Since 1955 Kathrein has been supplying professional antenna systems of all sizes to broadcasters in every part of the world, from Canada to China and from Norway to South Africa.
Right from the start Kathrein has maintained a high level of engineering capability. Today there is a team of antenna and mechanical engineers dealing exclusively with broadcast transmitting antennas.This highly qualified engineering team is responsible for:
– Design of components (antennas, power splitters, etc.).
– Design and optimization of complete antenna systems.
– Installation and testing of antenna systems.
– Project management.
Kathrein can provide turn-key installations in cooperation with other contractors or using the customer’s installation personnel.
Customers are welcome to take advantage of the technical expertise available from Kathrein and to discuss their specific requirements. If your needs cannot be met with our standard components we are prepared to develop special solutions for you.
Kathrein’s quality management system is certified in accordance with ISO 9001, which includes not only all manufacturing operations, but also design processes.
“Quality leads the way”As the world’s oldest and largest antenna manufacturer, we live up to claim “Quality leads the way” on a daily basis. One of the fundamental principies is to always be on the lookout for the best solution for our customers.
Our quality assurance system and our environmental management system apply to the entire company and are certified by TÜV according to EN ISO 9001 and EN ISO 14001.
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4
Please note:As a result of more stringent legal regulations and judgements regarding product liability, we are obliged to point out certain risks that may arise when products are used under extraordinary operating conditions.
The mechanical design is based on the environmental conditions as stipulated in ETS 300 019-1-4, which include the static mechanical load imposed on an antenna by wind at maximum velocity.
Extraordinary operating conditions, such as heavy icing or exceptional dynamic stress (e.g. strain caused by oscillating support structures), may result in the breakage of an antenna or even cause it to fall to the ground.
Cylindrical bodies can show crosswind response, which can cause the supporting structure to oscillate and to be damaged (see EN 1991-1-4 or EN 1993-3-1).Prismatic bodies, even with non-circular cross-section can show crosswind response, which can cause the supporting structure to oscillate (see EN 191-1-4 or EN 1993-3-1).
These facts must be considered during the site planning process.
The maximum wind velocities listed should be understood in the sense of working values according to DIN and EN standards. These values include a safety factor below the ultimate limit state (elastic limit or permanent deformation). For these wind velocities we guarantee the mechanical safety and the electrical integrity of our antennas.
00_Allgemeines.indd 4 20.07.11 11:17
Antenna Systems
The antenna systems listed are examples of typical confi gurations.
The mechanical and electrical data can be used to estimate gain, size and mechanical loads of a system.
The fi nal confi guration and technical data of an individually designed antenna system, meeting the customer’s specifi c needs, will be determined by the Kathrein engineers.
Antennas, Power Splitters and Accessories
The basic antennas and related components shown in this catalog are only a small portion of the Kathrein broadcast product line.Many special versions are available, with different connectors, higher power ratings, and other features such as special probes or extra ice protection.
Your enquiries are most welcome and we would like to discuss your special requirements.
Band I (VHF) Antenna Systems47 ... 88 MHz
Band I (VHF) Antennas47 ... 88 MHz
Band II (FM) Antenna Systems87.5 – 108 MHz
Band II (FM) Antennas87.5 – 108 MHz
Band III (VHF) Antenna Systems174 – 230 MHz
Band III (VHF) Antennas174 – 230 MHz
Band IV/V (UHF) Antenna Systems470 – 862 MHz
Band IV/V (UHF) Antennas470 – 862 MHz
L Band Antenna Systems1452 – 1492 MHz
Power Splitters
Futher Components
Technical Annex
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Summary of Types
The articles are listed by type number in numerical order.
Type No. Page Type No. Page Type No. Page Type No. Page Type No. Page
600 ...
600 204 51
600 223 18
600 225 18
600 227 18
600 232 52
600 234 79
600 241 68
600 256 73
600 261 69
600 263 50
600 265 75
600 267 75
600 479 132
600 480 132
600 481 130
600 482 130
600 483 130
600 484 130
600 504 130
600 505 130
600 821 130
600 843 131
600 844 131
600 845 131
600 846 131
600 847 131
600 848 131
600 849 131
600 850 131
600 851 131
600 869 131
600 870 131
600 871 131
600 874 131
600 875 131
600 890 77
600 891 77
600 892 77
600 991 131
601 ...
601 070 16
601 071 16
601 072 16
601 157 72
601 278 40
601 417 97
601 584 103
601 629 40
601 647 132
601 694 41
601 695 103
601 699 71
601 709 99
601 768 43
601 787 102
601 819 16
601 820 16
601 821 16
601 822 18
601 823 18
601 824 18
601 835 72
601 939 71
601 940 69
601 966 97
601 979 43
602 ...
602 036 68
602 037 17
602 038 17
602 039 17
602 040 17
602 041 17
602 042 17
602 052 132
602 232 72
602 371 99
710 ...
710 747 69
715 ...
715 022 97
715 849 40
734 ...
734 360 112
734 361 112
734 362 112
734 363 112
734 364 112
734 365 112
736 ...
736 801 120
736 802 120
736 803 120
736 804 120
736 805 120
750 ...
750 807 68
750 100..
750 10008 41
750 10012 101
750 10013 101
750 10016 101
750 10017 101
750 10031 101
750 10032 101
750 10033 76
750 10034 47
750 10035 47
750 10060 108
750 10062 108
750 10063 108
750 10066 106
750 10067 106
750 10068 106
750 10069 106
750 10082 99
750 10083 99
750 10085 74
750 101..
750 10112 108
750 10113 108
750 10114 108
750 10115 108
750 10116 108
750 10117 108
750 10118 108
750 10120 110
750 10122 110
750 10124 110
750 10125 110
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Summary of Types
The articles are listed by type number in numerical order.
Type No. Page Type No. Page Type No. Page Type No. Page Type No. Page
750 10128 112
750 10130 111
750 10131 111
750 10132 111
750 10161 80
750 10175 101
750 10180 107
750 10192 102
750 102..
750 10225 44
750 10226 44
750 10240 78
750 10242 78
750 10245 81
750 10246 81
750 10247 81
750 10266 45
750 10267 45
750 10270 104
750 10271 104
750 10272 104
750 10290 82
750 10291 82
750 10292 82
750 10295 83
750 10296 83
750 10297 83
750 103..
750 10315 101
750 10350 70
750 10351 70
751 ...
751 10215 121
751 10216 121
751 10217 121
751 10281 120
751 10282 120
751 10283 120
752 ...
752 183 41
754 ...
754 154 44
755 ...
755 587 44
757 ...
757 629 44
759 ...
759 044 132
759 13232 115
759 13851 114
759 14152 116
762 ...
762 109 44
762 943 46
763 ...
763 715 46
764 ...
764 485 119
764 486 119
764 487 119
764 488 119
764 489 119
764 491 119
764 493 119
764 494 119
764 495 119
764 496 119
764 497 119
764 499 119
765 ...
765 814 119
765 815 119
765 816 119
765 817 119
765 818 119
765 819 119
765 820 119
765 821 119
765 822 119
765 823 119
765 824 119
765 825 119
765 826 119
765 827 119
765 828 119
765 829 119
767 ...
767 006 106
768 ...
768 331 120
768 332 120
768 333 120
768 334 120
768 335 120
768 336 120
768 340 120
768 341 120
768 342 120
768 343 120
768 344 120
768 345 120
768 494 76
769 ...
769 731 99
770 ...
770 144 119
770 145 119
770 146 119
770 147 119
770 148 119
770 149 119
770 510 119
770 511 119
770 512 119
770 513 119
770 514 119
770 515 119
770 516 119
770 517 119
770 518 119
770 519 119
770 520 119
770 521 119
770 776 48
770 777 48
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Summary of Types
The articles are listed by type number in numerical order.
Type No. Page Type No. Page Type No. Page Type No. Page Type No. Page
772 ...
772 500 42
772 501 42
772 502 42
772 549 101
772 550 101
772 999 101
773 ...
773 000 101
773 332 101
773 333 101
773 361 80
774 ...
774 038 97
774 039 97
774 040 97
774 041 97
774 046 97
774 047 97
774 052 97
775 ...
775 000 53
775 001 53
775 002 53
775 130 46
775 738 49
775 838 49
776 ...
776 165 99
776 166 99
776 167 99
776 168 99
776 202 99
776 203 99
K 52 ...
K 52 14 17 51
K 52 16 81 7 18
K 52 16 82 7 18
K 52 16 83 7 18
K 52 16 84 7 18
K 52 16 85 7 18
K 52 16 86 7 18
K 52 17 517 77
K 52 17 527 77
K 52 17 537 77
K 52 22 17 52
K 52 22 57 79
K 52 30 57 68
K 52 30 58 68
K 52 31 187 40
K 52 31 188 40
K 52 31 57 73
K 52 31 81 7 16
K 52 31 82 7 16
K 52 31 83 7 16
K 52 31 84 7 16
K 52 31 85 7 16
K 52 31 86 7 16
K 52 33 57 69
K 52 33 58 69
K 52 34 17 41
K 52 34 517 72
K 52 34 527 72
K 52 34 528 72
K 52 34 81 7 17
K 52 34 82 7 17
K 52 34 83 7 17
K 52 34 84 7 17
K 52 34 85 7 17
K 52 34 86 7 17
K 52 40 17 50
K 52 40 517 75
K 52 40 527 75
K 53 ...
K 53 32 187 43
K 53 32 188 43
K 53 33 57 71
K 53 33 58 71
K 61 ...
K 61 12 0 132
K 61 13 0 132
K 61 14 01 130
K 61 14 02 130
K 61 14 03 130
K 61 14 04 130
K 61 14 05 130
K 61 15 11 131
K 61 15 12 131
K 61 15 13 131
K 61 15 21 131
K 61 15 22 131
K 61 15 23 131
K 61 15 31 131
K 61 15 32 131
K 61 15 33 131
K 61 15 41 131
K 61 15 42 131
K 61 15 43 131
K 61 15 52 131
K 61 15 61 131
K 61 15 62 131
K 61 16 01 132
K 61 16 02 132
K 61 30 1 130
K 61 30 2 130
K 72 ...
K 72 23 41 103
K 72 23 47 103
K 72 31 47 97
K 72 36 47 102
K 73 ...
K 73 31 47 99
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9
Syste
ms
47
...8
8 M
Hz
Antenna Systems 47 ... 88 MHz
01_Band_I_Systeme_01_Band_I_Systeme 20.07.11 10:01 Seite 9
10
TV Transmitting AntennaPolarization
l Antenna array of straight dipole panels (page 16) for different radiation patterns, especiallysuitable for mounting on square masts.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency One channel in Band I (47 … 88 MHz)
VSWR s < 1.05 in one channel
Impedance 50 Ω
Polarization Horizontal
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional, directional or custom-designed.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Grounding Via mounting parts.
Max. wind velocity 225 km/h
No. of Panels Gain* Weight in kg (without mounting hardware) Windload in kN (160 km/h) Antenna height H in m (Spacing S in m)
bays per in Frequency in MHz Frequency in MHz Frequency in MHz
bay dBd 47–54 54–61 60–68 66–72 76–82 82–88 47–54 54–61 60–68 66–72 76–82 82–88 47–54 54–61 60–68 66–72 76–82 82–88
21) 31) 41) 21) 31) 41) 21) 31) 41)
22) 32) 42) 52) 62) 22) 32) 42) 52) 62) 22) 32) 42) 52) 62)
2 5.4 280 250 220 200 190 180 3.7 3.3 2.9 2.7 2.4 2.2
1 3 3.5 450 400 350 320 300 300 6.2 5.4 4.8 4.4 3.9 3.7 4.5 4.0 3.6 3.3 2.9 2.7
4 2.0 620 540 460 440 420 400 7.4 6.5 5.8 5.3 4.7 4.4
2 8.4 620 540 460 440 420 400 7.4 6.5 5.8 5.3 4.7 4.4
2 3 6.6 950 840 750 700 660 630 12.4 10.9 9.7 8.9 7.8 7.3 10.9 9.6 8.6 8.0 7.0 6.5
4 5.0 1250 1100 970 900 850 800 14.9 13.0 11.6 10.7 9.4 8.8 (6.4) (5.6) (5.0) (4.7) (4.1) (3.8)
2 11.5 1250 1100 970 900 850 800 14.9 13.0 11.6 10.7 9.4 8.8
4 3 9.6 1750 1550 1480 1360 1300 1250 24.9 21.8 19.3 17.8 15.7 14.7 23.7 20.8 18.6 17.4 15.2 14.1
4 8.1 2500 2200 1960 1800 1710 1630 29.7 26.0 23.1 21.3 18.8 17.6 (6.4) (5.6) (5.0) (4.7) (4.1) (3.8)
2 13.3 1750 1550 1480 1360 1300 1250 22.3 19.5 17.3 16.0 14.1 13.2
6 3 11.4 2770 2450 2200 2000 1900 1820 37.3 32.6 29.0 26.6 23.5 22.0 36.5 32.0 28.6 26.7 23.3 21.7
4 9.9 3700 3260 2920 2700 2550 2420 44.6 39.0 34.7 32.0 28.2 26.4 (6.4) (5.6) (5.0) (4.7) (4.1) (3.8)
2 14.5 2500 2200 1960 1800 1710 1630 29.7 26.0 23.1 21.3 18.8 17.6
8 3 12.6 3700 3260 2920 2700 2550 2420 49.7 43.5 38.6 35.5 31.3 29.3 49.3 43.2 38.6 36.1 31.5 29.3
4 11.1 4920 4350 3900 3560 3370 3200 59.4 52.0 46.2 42.6 37.6 35.2 (6.4) (5.6) (5.0) (4.7) (4.1) (3.8)
* Attenuation of the internal cabling and the gain-decrease in case of null fill in thevertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
1) System B, Europa2) System M, N, America
S
H
47…88 MHz
H
01_Band_I_Systeme_01_Band_I_Systeme 20.07.11 10:01 Seite 10
11
Syste
ms
47
...8
8 M
Hz
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns
for minimal mast dimensions.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
3 dB
10
0
3 dB
10
0
3 dB
10
0
3 dB
10
0
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
2 bays
4 bays
6 bays
8 bays
*) without null fillwith null fill and beam tilt
Equal power splitting
Equal power splitting Different power splitting
4/10 P
4/10 P
1/10 P
1/10 P
H
TV Transmitting AntennaPolarization
47…88 MHz
01_Band_I_Systeme_01_Band_I_Systeme 20.07.11 10:01 Seite 11
No. of Panels Gain* Weight in kg (without mounting hardware) Windload in kN (160 km/h) Antenna height H in m (Spacing S in m)
bays per in Frequency in MHz Frequency in MHz Frequency in MHz
bay dBd 47–54 54–61 60–68 66–72 76–82 82–88 47–54 54–61 60–68 66–72 76–82 82–88 47–54 54–61 60–68 66–72 76–82 82–88
21) 31) 41) 21) 31) 41) 21) 31) 41)
22) 32) 42) 52) 62) 22) 32) 42) 52) 62) 22) 32) 42) 52) 62)
12
TV Transmitting AntennaPolarization
l Antenna array of bent dipole panels (page 17) for different radiation patterns, especially suitable for mounting on triangular or round masts.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency One channel in Band I (47 … 88 MHz)
VSWR s < 1.05 in one channel
Impedance 50 Ω
Polarization Horizontal
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional, directional or custom-designed.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Grounding Via mounting parts.
Max. wind velocity 225 km/h
2 3.9 310 275 250 235 205 195 4.1 3.3 2.9 2.7 2.4 2.2 4.5 4.0 3.6 3.3 2.9 2.71
3 1.7 470 410 375 350 310 290 5.6 4.9 4.4 4.1 3.6 2.9
2 6.9 650 550 500 470 410 390 8.1 6.5 5.8 5.3 4.7 4.4 10.9 9.6 8.6 8.0 7.0 6.52
3 4.7 990 820 750 700 620 580 11.3 9.9 8.9 8.2 7.1 5.9 (6.4) (5.6) (5.0) (4.7) (4.1) (3.8)
2 9.9 1310 1095 1000 935 825 775 16.3 13.0 11.6 10.7 9.4 8.8 23.7 20.8 18.6 17.4 15.2 14.14
3 7.7 1910 1645 1500 1405 1235 1165 22.5 19.8 17.8 16.3 14.3 11.8 (6.4) (5.6) (5.0) (4.7) (4.1) (3.8)
2 11.7 1910 1645 1500 1405 1235 1165 24.4 19.5 17.3 16.0 14.1 13.2 36.5 32.0 28.6 26.7 23.3 21.76
3 9.5 2820 2645 2250 2105 1855 1745 33.8 29.6 26.6 24.5 21.4 17.7 (6.4) (5.6) (5.0) (4.7) (4.1) (3.8)
2 12.9 2600 2190 2000 1870 1650 1550 32.5 26.0 23.1 21.3 18.8 17.6 49.3 43.2 38.6 36.1 31.5 29.38
3 10.7 3800 3290 3000 2810 2470 2330 45.0 39.5 35.5 32.6 28.5 23.5 (6.4) (5.6) (5.0) (4.7) (4.1) (3.8)
S
H
* Attenuation of the internal cabling and the gain-decrease in case of null fill in thevertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
47…88 MHz
H
1) System B, Europa2) System M, N, America
01_Band_I_Systeme_01_Band_I_Systeme 20.07.11 10:01 Seite 12
13
Syste
ms
47
...8
8 M
Hz
3 dB
10
0
60
°
3 dB
10
0
60
°
3 dB
10
0
3 dB
10
0
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
2 bays
4 bays
6 bays
8 bays
3/4 P
1/4 P
3/7 P
1/7 P
3/7 P
Equal power splitting
Different power splitting
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns
for minimal mast dimensions.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
*) without null fillwith null fill and beam tilt
TV Transmitting AntennaPolarization
47…88 MHz
H
01_Band_I_Systeme_01_Band_I_Systeme 20.07.11 10:01 Seite 13
14
01_Band_I_Systeme_01_Band_I_Systeme 20.07.11 10:01 Seite 14
Antennas for TV in lower VHF Band
47 ... 88 MHz
15
An
ten
nas
47
...8
8 M
Hz
02_Band_I_Antennen_02_Band_I_Antennen 20.07.11 10:02 Seite 15
16
Panel AntennaPolarization
l Especially suitable for square and round masts.
Order No. 601 070 601 071 601 072 601 819 601 820 601 821
K 52 31 81 7 K 52 31 82 7 K 52 31 83 7 K 52 31 84 7 K 52 31 85 7 K 52 31 86 7
Input
Max. power
Frequency
Channel System B, Europa
System M, N, America
VSWR
Gain (at mid-band)
Impedance
Polarization
Weight
Wind load in kN (at 160 km/h)
frontal
lateral
Max. wind velocity
Dimensions in mm A
B
C
7-16 female
6 kW (higher power upon request)
47 – 54 MHz 54 – 61 MHz 60 – 68 MHz 66 – 72 MHz 76 – 82 MHz 82 – 88 MHz
2 3 4
2 3 4 5 6
< 1.15
7.5 dBd
50 Ω
Horizontal
140 kg 124 kg 110 kg 100 kg 94 kg 89 kg
2.50 2.20 1.95 1.80 1.60 1.50
1.25 1.10 0.95 0.90 0.80 0.75
225 km/h
3360 2960 2640 2470 2165 2015
3200 2800 2500 2340 2040 1900
1330 1180 1060 995 875 820
Material: Hot-dip galvanized steel. Radome: Fiberglass.
Mounting: Mounting hardware and mounting dimensions upon request.
Grounding: Via mounting parts.
Scope of supply: Antenna consisting of two half-wave dipoles with reflector screens.
Special features: The antenna is shipped dismounted.
Ice protection: Even under severe icy conditions the antenna is still functional due to its heavy-duty
construction and the fiberglass covers for the feeding points.
Combinations: The antenna is especially suitable as a component in arrays to achieve various radiation
patterns. Particularly for square and round masts.
Length see table
Horizontal Radiation Pattern
Vertical Radiation Pattern
Radiation Patterns
(at mid-band)
3 dB
10
0
72°
3 dB
10
0
56°
47…88 MHz
H
02_Band_I_Antennen_02_Band_I_Antennen 20.07.11 10:02 Seite 16
17
An
ten
nas
47
...8
8 M
Hz
l Especially suitable for triangular and round masts.
3 dB
10
0
56°
Horizontal Radiation Pattern
Vertical Radiation Pattern
Radiation Patterns
(at mid-band)
3 dB
10
0
80°
Order No. 602 037 602 038 602 039 602 040 602 041 602 042
K 52 34 81 7 K 52 34 82 7 K 52 34 83 7 K 52 34 84 7 K 52 34 85 7 K 52 34 86 7
Input
Max. power
Frequency
Channel System B, Europa
System M, N, America
VSWR
Gain (at mid-band)
Impedance
Polarization
Weight
Wind load in kN (at 160 km/h)
frontal
lateral
Max. wind velocity
Dimensions in mm A
B
C
7-16 female
6 kW (higher power on request)
47 – 54 MHz 54 – 61 MHz 60 – 68 MHz 66 – 72 MHz 76 – 82 MHz 82 – 88 MHz
2 3 4
2 3 4 5 6
< 1.15
7 dBd
50 Ω
Horizontal
148 kg 137 kg 125 kg 117 kg 103 kg 97 kg
2.50 2.20 2.00 1.85 1.60 1.45
1.30 1.20 1.10 1.00 0.90 0.85
225 km/h
3360 2960 2640 2470 2165 2015
3200 2800 2500 2340 2040 1900
1330 1180 1060 995 875 820
Material: Hot-dip galvanized steel. Radome: Fiberglass.
Mounting: Mounting hardware and mounting dimensions upon request.
Grounding: Via mounting parts.
Scope of supply: Antenna consisting of two half-wave dipoles with reflector screens.
Special features: The antenna is shipped dismounted.
Ice protection: Even under icy conditions the antenna keeps operating due to the radomes covering the feed
areas.
Combinations: The antenna is especially suitable as a component in arrays to achieve various radiation
patterns. Particularly for triangular and round masts.
Length see table
Panel AntennaPolarization
47…88 MHz
H
02_Band_I_Antennen_02_Band_I_Antennen 20.07.11 10:02 Seite 17
18
Order No. 600 223 600 225 600 227 601 822 601 823 601 824
K 52 16 81 7 K 52 16 82 7 K 52 16 83 7 K 52 16 84 7 K 52 16 85 7 K 52 16 86 7
Input
Max. power
Frequency
Channel System B, Europa
System M, N, America
VSWR
Gain (at mid-band)
Impedance
Polarization
Weight
Wind load in N (at 160 km/h)
Horizontally polarized frontal
lateral
Vertically polarized frontal
lateral
Max. wind velocity
Dimensions in mm A
B
C
7-16 female
500 W
47 – 54 MHz 54 – 61 MHz 60 – 68 MHz 66 – 72 MHz 76 – 82 MHz 82 – 88 MHz
2 3 4
2 3 4 5 6
< 1.15
6 dBd
50 Ω
Horizontal or vertical by conversion of the clamps
18 kg 15 kg 12.5 kg 11.5 kg 10 kg 9 kg
715 615 540 500 440 400
675 575 475 440 375 350
715 615 540 500 440 400
790 675 615 565 500 465
160 km/h
3500 2950 2700 2420 2120 1970
3000 2510 2240 2070 1810 1680
2225 1950 1740 1610 1410 1310
Material: Support: Weather-proof aluminum. Elements: Fiberglass with inlaid copper wire.
Cover: Fiberglass. Clamp: Hot-dip galvanized steel.
Mounting: To pipes of 60 – 115 mm diameter by means of mounting clamps, supplied.
Grounding: Via mounting parts.
Special features: The antenna is shipped dismounted.
Combinations: Two or more antennas can be combined to achieve higher gain and longer, narrower
beam width.
l 8 element Yagi-antenna of weather-proof aluminum, fiberglass-elements
with encapsulated copper stranded wire.
3 dB
10
0
68°
3 dB
10
0
128°
in E-plane
Horizontal Radiation Pattern
in H-plane
Vertical Radiation Pattern
Radiation Patterns
(at mid-band)
C
B
A
Length see table
Yagi AntennaPolarization
47…88 MHz
H V
02_Band_I_Antennen_02_Band_I_Antennen 20.07.11 10:02 Seite 18
19
Syste
ms
87.5
–108 M
Hz
Antenna Systems87.5 – 108 MHz
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 19
20
FM Transmitting AntennaPolarization
l Antenna array of dipole panels (page 40) for different radiation patterns.
l Especially suitable for mounting on square masts.
l The feeder network is made up of coaxial power splitters and flexible connecting cables inaccordance with the radiation patterns specification and the transmitting power.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency 87.5 – 108 MHz
VSWR s < 1.2 throughout the whole frequency range.Lower VSWR for single channels upon request.
Impedance 50 Ω
Polarization Horizontal
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional, directional or custom-designed.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Grounding Via mounting parts.
Max. wind velocity 225 km/h
No. Panels Gain* Weight Antenna Windloadof per (at mid-band) (without mounting height H (v = 160 km/h)
bays bay dBd times hardware) kg m kN
2 5.0 3.2 140 2.41 3 3.5 2.2 200 2.5 3.9
4 2.0 1.6 260 4.9
2 8.0 6.3 260 4.92 3 6.5 4.5 400 5.7 7.9
4 5.0 3.2 530 9.8
2 11.0 12.6 530 9.84 3 9.5 8.9 790 12.1 15.8
4 8.0 6.3 1080 19.5
2 12.8 19.1 790 14.66 3 11.3 13.0 1200 18.5 23.6
4 9.7 9.3 1610 29.3
2 14.0 25.1 1080 19.58 3 12.5 17.8 1610 24.9 31.5
4 11.0 12.6 2150 39.0
* Attenuation of the internal cabling and the gain-decrease in case of null fill in thevertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
87.5–108 MHz
H
3200
mm
H
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 20
21
Syste
ms
87.5
–108 M
Hz
3 dB
10
0
3 dB
10
0
3 dB
10
0
3 dB
10
0
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
2 bays
4 bays
6 bays
8 bays
Equal power splitting
Equal power splitting Different power splitting
1/10 P
4/10 P
4/10 P
1/10 P
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns
for minimal mast dimensions.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
*) without null fillwith null fill and beam tilt
H
FM Transmitting AntennaPolarization
87.5–108 MHz
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 21
22
FM Transmitting AntennaPolarization
87.5–108 MHz
V
l Antenna array of dipole panels (page 40) for different radiation patterns.
l Especially suitable for mounting on square masts.
l The feeder network is made up of coaxial power splitters and flexible connecting cables inaccordance with the radiation patterns specification and the transmitting power.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency 87.5 – 108 MHz
VSWR s < 1.2 throughout the whole frequency range.Lower VSWR for single channels upon request.
Impedance 50 Ω
Polarization Vertical
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional, directional or custom-designed.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Grounding Via mounting parts.
Max. wind velocity 225 km/h
No. Panels Gain* Weight Antenna Windloadof per (at mid-band) (without mounting height H (v = 160 km/h)
bays bay dBd times hardware) kg m kN
2 5.4 3.5 140 2.31 3 3.7 2.3 200 1.8 3.8
4 2.3 1.7 260 4.7
2 8.4 6.9 260 4.72 3 6.7 4.7 400 4.8 7.7
4 5.3 3.4 530 9.3
2 11.4 13.8 530 9.34 3 9.7 9.3 790 10.8 15.3
4 8.3 6.8 1080 18.6
2 13.2 20.9 790 14.06 3 11.5 14.1 1200 16.8 23.0
4 10.1 10.2 1610 27.9
2 14.4 27.5 1080 18.68 3 12.7 18.6 1610 25.8 30.6
4 11.3 13.5 2150 37.2
* Attenuation of the internal cabling and the gain-decrease in case of null fill in thevertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
3000
mm
H
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 22
23
Syste
ms
87.5
–108 M
Hz
V
FM Transmitting AntennaPolarization
87.5–108 MHz
10
3
0
Bd
10
3
0
Bd
10
3
0
Bd
10
3
0
Bd
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
2 bays
4 bays
6 bays
8 bays
Equal power splitting
Equal power splitting Different power splitting
1/10 P
4/10 P
4/10 P
1/10 P
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns
for minimal mast dimensions.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
*) without null fillwith null fill and beam tilt
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 23
24
FM Transmitting AntennaPolarization
l Antenna array of dipole panels (page 41) for different radiation patterns.
l Especially suitable for mounting on triangular or round masts.
l The feeder network is made up of coaxial power splitters and flexible connecting cables inaccordance with the radiation patterns specification and the transmitting power.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency 87.5 – 108 MHz
VSWR s < 1.2 throughout the whole frequency range.Lower VSWR for single channels upon request.
Impedance 50 Ω
Polarization Horizontal
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional, directional or custom-designed.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Grounding Via mounting parts.
Max. wind velocity 225 km/h32
00 m
m
H
No. Panels Gain* Weight Antenna Windloadof per (at mid-band) (without mounting height H (v = 160 km/h)
bays bay dBd times hardware) kg m kN
2 3.9 2.5 150 2.91
3 1.7 1.5 2202.5
4.4
2 6.9 4.9 290 5.92
3 4.7 3.0 4205.7
8.8
2 9.9 9.8 560 11.84
3 7.7 5.9 85012.1
17.5
2 11.7 14.8 850 17.66
3 9.5 8.9 129018.5
26.3
2 12.9 19.5 1150 23.58
3 10.7 11.7 170024.9
35.0
* Attenuation of the internal cabling and the gain-decrease in case of null fill in thevertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
87.5–108 MHz
H
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 24
25
Syste
ms
87.5
–108 M
Hz
FM Transmitting AntennaPolarization
3 dB
10
0
60
°
3 dB
10
0
60
°
3/4 P
1/4 P
3 dB
10
0
3 dB
10
0
3/7 P
3/7 P
1/7 P
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
2 bays
4 bays
6 bays
8 bays
Equal power splitting
Different power splitting
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns
for minimal mast dimensions.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
*) without null fillwith null fill and beam tilt
87.5–108 MHz
H
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 25
26
FM Transmitting AntennaPolarization
87.5–108 MHz
V
l Antenna array of dipole panels (page 42) for different radiation patterns.
l Especially suitable for mounting on triangular or round masts.
l The feeder network is made up of coaxial power splitters and flexible connecting cables inaccordance with the radiation patterns specification and the transmitting power.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency 87.5 – 108 MHz
VSWR s < 1.2 throughout the whole frequency range.Lower VSWR for single channels upon request.
Impedance 50 Ω
Polarization Vertical
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional, directional or custom-designed.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Grounding Via mounting parts.
Max. wind velocity 225 km/h30
00 m
m
H
No. Panels Gain* Weight Antenna Windloadof per (at mid-band) (without mounting height H (v = 160 km/h)
bays bay dBd times hardware) kg m kN
2 3.9 2.5 150 2.41
3 1.7 1.5 2202.2
3.9
2 6.9 4.9 290 4.82
3 4.7 3.0 4205.2
7.7
2 9.9 9.8 560 9.64
3 7.7 5.9 85011.2
15.5
2 11.7 14.8 850 14.36
3 9.5 8.9 129017.2
23.2
2 12.9 19.5 1150 19.18
3 10.7 11.7 170023.2
30.9
* Attenuation of the internal cabling and the gain-decrease in case of null fill in thevertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 26
27
Syste
ms
87.5
–108 M
Hz
FM Transmitting AntennaPolarization
87.5–108 MHz
V
10
3
0
Bd
60
°
10
3
0
Bd
60
°
3/4 P
1/4 P
10
3
0
Bd
10
3
0
Bd
3/7 P
3/7 P
1/7 P
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
2 bays
4 bays
6 bays
8 bays
Equal power splitting
Different power splitting
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns
for minimal mast dimensions.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
*) without null fillwith null fill and beam tilt
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 27
28
FM Transmitting AntennaPolarization
l Antenna array of circularly polarized dipole panels (page 43) for different radiation patterns.
l Especially suitable for mounting on square masts.
l The feeder network is made up of coaxial power splitters and flexible connecting cables in accordance with the radiation patterns specification and the transmitting power.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency 87.5 – 108 MHz
VSWR s < 1.2 throughout the whole frequency range.Lower VSWR for single channels upon request.
Impedance 50 Ω
Polarization Linear, circular or elliptical
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional, directional or custom-designed.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Grounding Via mounting parts.
Max. wind velocity 225 km/h30
00 m
m
H
No. Panels Gain* Weight Antenna Windloadof per (at mid-band) (without mounting height H (v = 160 km/h)
bays bay dBd times hardware) kg m kN
2 2.0 1.6 200 2.71 3 0.5 1.1 320 2.2 4.3
4 –1.0 0.8 420 5.4
2 5.0 3.2 420 5.42 3 3.5 2.4 750 5.2 8.5
4 2.0 1.6 850 10.8
2 8.0 6.3 850 10.84 3 6.5 4.5 1530 11.2 17.0
4 5.0 3.2 1660 21.5
2 9.8 9.6 1530 16.16 3 8.3 6.8 1870 17.2 25.5
4 6.7 4.7 2240 32.3
2 11.0 12.6 1660 21.58 3 9.5 8.9 2240 23.2 34.0
4 8.0 6.3 2970 43.0
* Attenuation of the internal cabling and the gain-decrease in case of null fill in thevertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
87.5–108 MHz
H V X
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 28
29
Syste
ms
87.5
–108 M
Hz
FM Transmitting AntennaPolarization
3 dB
10
0
3 dB
10
0
3 dB
10
0
3 dB
10
0
4/10 P
4/10 P
1/10 P
1/10 P
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
2 bays
4 bays
6 bays
8 bays
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns
for minimal mast dimensions.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
*) without null fillwith null fill and beam tilt
Equal power splitting
Equal power splitting Different power splitting
H V X
87.5–108 MHz
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 29
30
FM Transmitting AntennaPolarization
l Antenna array of circularly polarized dipole panels (page 44) for different radiation patterns.
l Especially suitable for mounting on triangular or round masts.
l The feeder network is made up of coaxial power splitters and flexible connecting cables in accordance with the radiation patterns specification and the transmitting power.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency 87.5 – 108 MHz
VSWR s < 1.2 throughout the whole frequency range.Lower VSWR for single channels upon request.
Impedance 50 Ω
Polarization Circular
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional, directional or custom-designed.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Grounding Via mounting parts.
Max. wind velocity 225 km/h
3000
mm
H
No. Panels Gain* Weight Antenna Windloadof per (at mid-band) (without mounting height H (v = 160 km/h)
bays bay dBd times hardware) kg m kN
2 0.0 1.0 140 2.11
3 –2.0 0.6 2001.82
3.3
2 3.1 2.0 260 4.32
3 1.1 1.3 4304.82
6.5
2 6.2 4.2 580 8.54
3 4.2 2.6 80010.82
13.0
2 8.1 6.5 800 12.86
3 6.1 4.1 123016.82
19.5
2 9.3 8.5 1100 17.08
3 7.3 5.4 159022.82
26.0
* Attenuation of the internal cabling and the gain-decrease in case of null fill in thevertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain decrease of –3 dB due to circular polarization is already considered.Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
87.5–108 MHz
X
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 30
31
Syste
ms
87.5
–108 M
Hz
FM Transmitting AntennaPolarization
3 dB
10
0
60°
3 dB
10
0
60°
3/4 P
1/4 P
3/7 P
3/7 P
1/7 P
3 dB
10
0
3 dB
10
0
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
2 bays
4 bays
6 bays
8 bays
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns
for minimal mast dimensions.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
*) without null fillwith null fill and beam tilt
Equal power splitting
Different power splitting
87.5–108 MHz
X
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 31
32
FM Transmitting Antenna Polarization
l Antenna array of elliptically polarized dipole panels (page 45) for different radiation patterns
l Especially suitable for mounting on pipes.
l The feeder network is made up of coaxial power splitters and flexible connecting cablesin accordance with the radiation patterns specification and the transmitting power.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency 87.5 – 108 MHz
VSWR s < 1.25 throughout the whole frequency range.Lower VSWR for single channels upon request.
Impedance 50 Ω
Polarization Elliptical
Internal connections Connectors according to IEC or EIAare used throughout the system,
allowing easy assembly and maintenance.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional,with preferred direction.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Grounding Via mounting parts.
Max. wind velocity 225 km/h
No. Gain* Weight Antenna Windloadof (at mid-band) (without mounting height H (v = 160 km/h)
bays dBd times hardware) kg m frontal N lateral N
4 4.5 2.8 100 7.13 460 1460
6 6.3 4.3 150 11.33 690 2190
8 7.5 5.6 200 15.53 920 2920
10 8.5 7.1 250 19.73 1150 3650
12 9.3 8.5 300 23.93 1380 4380
16 10.5 11.2 350 28.13 1840 5840
* Attenuation of the internal cabling and the gain-decrease in case of null fill in thevertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
> 500 mm
2100 mm
H
> 500 mm
87.5–108 MHz
X
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 32
33
Syste
ms
87.5
–108 M
Hz
FM Transmitting Antenna Polarization
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
*) without null fillwith null fill and beam tilt
dB
10
3
0
Typical Horizontal Radiation Pattern(at mid-band)
100
50
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
4 bays
6 bays
8 bays
10 bays
87.5–108 MHz
X
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 33
34
FM-Transmitting AntennaPolarization
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency 87.5 – 108 MHz
VSWR s < 1.3 throughout the whole frequency range.Lower VSWR for single channels upon request.
Impedance 50 Ω
Polarization Vertical
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Grounding Via mounting parts.
Max. wind velocity 225 km/h
No. Gain* Weight Antenna Windloadof (at mid-band) (without mounting height H (v = 160 km/h)
bays dBd times hardware) kg m frontal N lateral N
2 5.0 3.2 50 3.48 230 440
4 8.0 6.3 100 7.68 460 880
6 9.7 9.3 150 11.88 690 1320
8 11.0 12.6 200 16.08 920 1760
10 11.8 15.1 250 20.28 1150 2200
12 12.7 18.6 300 24.48 1380 2640
16 14.0 25.1 350 32.88 1840 3520
* Attenuation of the internal cabling and the gain-decrease in case of null fill in thevertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
2100
mm
> 2
50
mm
H
l An economic FM-transmitting antenna system can be built by stacking
2 or more vertical dipoles (page 46) in front of a tubular mast (∅ 60–120 mm).
l Such antenna systems provide signal coverage in all azimuth directions as shown in the horizontal radiation pattern below.
87.5–108 MHz
V
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 34
35
Syste
ms
87.5
–108 M
Hz
FM-Transmitting AntennaPolarization
100
50
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20
E rel
30 40α°
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
4 bays
6 bays
8 bays
12 bays
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
*) without null fillwith null fill and beam tilt
3 dB
10
0
220°
Typical Horizontal Radiation Pattern(at mid-band beamtilt ≈1°)
87.5–108 MHz
V
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 35
36
FM Transmitting AntennaPolarization
l Self-supporting hot-dip galvanized steel superturnstile antenna. Up to 4 bays may be stacked.
l Optionally up to 8 bays may be stacked if the superturnstile antennas are mounted inside aself-supporting fiberglass cylinder.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements,10 kW max. per bay.
Frequency 87.5 – 108 MHz
VSWR s < 1.2 throughout the whole frequency range.Tuning not required.
Impedance 50 Ω
Polarization Horizontal
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Internal connections The radiating elements are fed withcoaxial connecting cables and hybrid couplers.
Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Structure Superturnstile antenna on self-supportinghot dip galvanized steel structure.
Up to 4 bays may be stacked.
Mounting On top of existing structure by means of a flange.
Ice protection Under icing the fiberglass cover over the feedslots and the rugged construction keep
the antenna in proper function.
Grounding Via mounting parts.
Max. wind velocity 160 km/h
3000
mm
H
No. Gain* Weight Antenna Windloadof (at mid-band) (without cylinder) height H (without cylinder)
bays dBd times kg m (160 km/h) kN
1 1 1.26 275 3 3.22 4 2.51 550 6 6.54 7 5.00 1450 12 14.0
* Attenuation of the internal cabling and the gain-decrease in case of null fill in thevertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.4 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
87.5–108 MHz
H
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 36
37
Syste
ms
87.5
–108 M
Hz
FM Transmitting AntennaPolarization
3 dB
10
0
Typical Horizontal Radiation Pattern(at mid-band)
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
*) without null fillwith null fill and beam tilt
87.5–108 MHz
H
100
50
0 10 20 α°
E rel
30 40
100
50
0 10 α°
E rel
30 4020
100
50
0 10 20 α°
E rel
30 40
100
50
0 10 20 α°
E rel
30 40
1 bay
2 bays
4 bays
8 bays
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 37
38
03_FM_Systeme_03_FM_Systeme 20.07.11 10:03 Seite 38
39
An
ten
nas
87.5
–108 M
Hz
Antennas for FM in VHF Band
87.5 – 108 MHz
04_FM_Antennen_04_FM_Antennen 20.07.11 11:50 Seite 39
40
Panel Antenna
Polarization
Input 7-16 female 7/8 EIA-flange 13-30 female
Max. power 2.5 kW 4 kW 6 kW
Frequency 87.5 – 108 MHz
VSWR < 1.15
Gain (at mid-band) 7.5 dBd
Impedance 50 Ω
Polarization Horizontal or vertical
Weight 64 kg
Wind load (at 160 km/h)Horizontally polarized frontal / lateral: 1500 N / 875 NVertically polarized frontal / lateral: 1500 N / 825 N
Max. wind velocity 225 km/h
Order No. 601 278 601 629 715 849
K 52 31 187 K 52 31 188
3 dB
10
0
57°
3 dB
10
0
73°
in E-plane in H-plane
Radiation Patterns (at mid-band)
l Especially suitable for square masts.
Material: Hot-dip galvanized steel.
Radome: Fiberglass.
Mounting: Mounting hardware and mounting dimensions
upon request.
Grounding: Via mounting parts.
Scope of supply: Antenna without mounting clamps.
Special features: The antenna is shipped dismounted.
Ice protection: Even under severe icy conditions the antenna is
still functional due to its heavy-duty construction
and the fiberglass covers for the feeding points.
Combinations: The antenna is especially suitable as a
component in arrays to achieve various radiation
patterns. Particularly for square masts.
A: 2490 mmB: 1740 mmC: 730 mm
87.5–108 MHz
H V
04_FM_Antennen_04_FM_Antennen 20.07.11 11:50 Seite 40
Panel Antenna
Polarization
41
An
ten
nas
87.5
–108 M
Hz
87.5–108 MHz
H
Radiation Patterns (at mid-band)
l Especially suitable for triangular and round masts.
Material: Hot-dip galvanized steel.
Radome: Fiberglass.
Mounting: Mounting hardware and mounting dimensions
upon request.
Grounding: Via mounting parts.
Scope of supply: Antenna without mounting clamps.
Special features: The antenna is shipped dismounted.
Ice protection: Even under severe icy conditions the antenna is
still functional due to its heavy-duty construction
and the fiberglass covers for the feeding points.
Combinations: The antenna is especially suitable as a
component in arrays to achieve various radiation
patterns. Particularly for triangular and round
masts.
Input 7-16 female 7/8 EIA-flange 13-30 female
Max. power 2.5 kW 4 kW 6 kW
Frequency 87.5 – 108 MHz
VSWR < 1.2
Gain (at mid-band) 7 dBd
Impedance 50 Ω
Polarization Horizontal
Weight 66 kg
Wind load (at 160 km/h) frontal: 1700 Nlateral: 875 N
Max. wind velocity 225 km/h
Order No. 601 694 750 10008 752 183
K 52 34 17
A
B
3 dB
10
0
56°
3 dB
10
0
80°
Horizontal Radiation Pattern Vertical Radiation Pattern
A: 2490 mmB: 1740 mmC: 760 mm
C
04_FM_Antennen_04_FM_Antennen 20.07.11 11:50 Seite 41
42
l Especially suitable for triangular and round masts.
B
A
Panel Antenna
Polarization
87.5–108 MHz
V
A: 2200 mmB: 2000 mm
Order No. 772 500 772 501 772 502
Input 7-16 female 7/8 1 5/8EIA-flange EIA-flange
Max. power 2.5 kW 5 kW 14 kW
Frequency 87.5 – 108 MHz
VSWR < 1.15
Gain (at mid-band) 6 dBd
Impedance 50 Ω
Polarization Vertical
Weight 65 kg 65 kg 75 kg
Wind load frontal: 1550 N 1550 N 1620 N(at 160 km/h) lateral: 850 N 850 N 970 N
Max. wind velocity 225 km/h
Material: Hot-dip galvanized steel.
Radome: Fiberglass.
Mounting: To a vertical pipe of ∅ 89 mm by 3 pcs. U-bolts
(supplied) or to proper flanges.
Mounting dimensions upon request.
Grounding: Via mounting parts.
Ice protection: Even under icy conditions the antenna keeps
operating due to the radomes covering the feed
areas.
Combinations: The antenna is especially suitable as a
component in arrays to achieve various radiation
patterns. Particularly for triangular and round
masts.
Scope of supply: Antenna consisting of two half-wave dipoles with
reflector screen and 3 U-bolts.
Special features: The antenna is shipped dismounted.
Radiation Patterns (at mid-band)
Vertical Radiation Pattern Horizontal Radiation Pattern
3 dB
10
0
67°
3 dB
10
0
70°
04_FM_Antennen_04_FM_Antennen 20.07.11 11:50 Seite 42
Panel Antenna
Polarization
43
An
ten
nas
87.5
–108 M
Hz
87.5–108 MHz
H V X
Input 4 x 7-16 female 4 x 7/8 EIA-flange
Max. power 2.5 kW per input 4 kW per input
Frequency 87.5 – 108 MHz
VSWR < 1.25 (linear polarization)
< 1.1 (circular polarization)
Gain (at mid-band) 7.5 dBd (linear polarization)
4.5 dBd (circular polarization)
Impedance 50 Ω
Polarization Horizontal, vertical, circular
Weight 89 kg
Wind load (at 160 km/h) Frontal: 1600 N
Lateral: 1130 N
Max. wind velocity 225 km/h
Order No. 601 768 601 979
K 53 32 187 K 53 32 188
l Optionally for circular, horizontal, vertical or slant polarization.
l Especially suitable for square masts.
4 dipoles are arranged symmetrically in front of a reflector screen. With suitable
feeding the antenna radiates circularly polarized. An isolation of 40 – 50 dB
between horizontal and vertical pairs of dipoles is achieved through the spezial
design. This design permits the transmission of 2 programs – horizontally and
vertically polarized – independently from each other.
Material: Hot-dip galvanized steel.
Weather protection: fiberglass cover.
Mounting: The antenna must be mounted so that
the bent radiators are horizontally
polarized. Mounting dimensions and
mounting hardware on request.
Grounding: Via mounting parts.
Scope of supply: Antenna without mounting clamps.
Special features: The antenna will be shipped dismounted.
Ice protection: Even under severe icy conditions the
antenna is still functional due to its
heavy-duty construction and the fibre -
glass covers of the feeding points.
Combinations: The antenna is especially suitable as a
com ponent in arrays to achieve various
radiation patterns. Particularly for square
masts.
Polarization: Suitable feeding of the horizontal and
vertical dipole pairs optionally result in
left or right hand circular or elliptical or
slant polarization or simul taneous
horizontal and vertical polarization.
Radiation Patterns
(at mid-band)
Horizontal Polarization(bent dipoles)
in E-planeHorizontal Radiation Pattern
in H-planeHorizontal Radiation Pattern
in H-planeVertical Radiation Pattern
in E-planeVertical Radiation Pattern
3 dB
10
0
64°
3 dB
10
0
62°
3 dB
10
0
66°
3 dB
10
0
62°
Vertical Polarization(straight dipoles)
A
B
C
A = B: 2200 mmC: 830 mm
04_FM_Antennen_04_FM_Antennen 20.07.11 11:50 Seite 43
44
Input 2 x 7-16 2 x 7/8 2 x 13-30female EIA-flange female
Max. power 2.5 kW 5 kWper input per input
Frequency 87.5 – 108 MHz
VSWR < 1.2
Gain (at mid-band) 3.5 dBd
Impedance 50 Ω
Polarization Circular
Weight 60 kg
Wind load (at 160 km/h) frontal: 1250 N
lateral: 875 N
Max. wind velocity 225 km/h
Order No. normal position 754 154 750 10225 755 587
rotated position 757 629 750 10226 762 109
A
BC
3 dB
10
0
76°
Radiation Patterns
(at mid-band)
A = B: 1820 mmC: 900 mm
l Especially suitable for triangular and round masts.
Material: Hot-dip galvanized steel.
Radome: Fiberglass.
Mounting: Mounting hardware and mounting dimensions
upon request.
Grounding: Via mounting parts.
Scope of supply: Antenna without mounting clamps.
Special features: The antenna is shipped dismounted.
Ice protection: Even under severe icy conditions the antenna is
still functional due to its heavy-duty construction
and the fiberglass covers for the feeding points.
Combinations: The antenna is especially suitable as a
component in arrays to achieve various radiation
patterns. Particularly for triangular and round
masts.
Panel Antenna
Polarization
87.5–108 MHz
X
Horizontal and Vertical Radiation Pattern
04_FM_Antennen_04_FM_Antennen 20.07.11 11:50 Seite 44
45
An
ten
nas
87.5
–108 M
Hz
87.5–108 MHz
X
A
B
Input 7/8˝ EIA-flange 1 5/8˝ EIA-flange
Max. power 5 kW 10 kW
Frequency 87.5 – 108 MHz
VSWR < 1.5
Gain (at mid-band) –1.5 dBd
Impedance 50 Ω
Polarization Elliptical
Weight 25 kg
Wind load (at 160 km/h) frontal: 115 N
lateral: 365 N
Max. wind velocity 240 km/h
Order No. 750 10266 750 10267
Dipol Antenna
Polarization
l Omnidirectional propagation with preferred direction.
l Mounting to pipes.
Material: Hot-dip galvanized steel.
Mounting: To pipes of 75 – 125 mm ∅ by means
of 2 mounting clamps, supplied.
Grounding: Via mounting parts.
Ice protection: Feed point radome (optional).
Horizontal Radiation Patterns (at mid-band)Polarization and Pattern
depending on mast structure behind
Vertical Polarization Horizontal Polarization
3 dB
10
0
dB
10
3
0
A: 1385 mmB: approx. 834 mm
04_FM_Antennen_04_FM_Antennen 20.07.11 11:50 Seite 45
46
Input 7-16 female 7/8 1 5/8EIA-flange EIA-flange
Max. power 3 kW 5 kW 10 kW
Frequency 87.5 – 108 MHz
VSWR s < 1.3 s < 1.25
Gain (at mid-band) 2 dBd
Impedance 50 Ω
Polarization Vertical
Weight 13 kg 22 kg
Wind load frontal: 115 N 165 N(at 160 km/h) lateral: 220 N 340 N
Max. Wind velocity 225 km/h 300 km/h
Order No. 762 943 763 715 775 130
Material: Hot-dip galvanized steel.
Mounting: To pipes of 60 – 125 mm by means of 2 mounting clamps, supplied.
Grounding: Via mounting parts.
Dipole Antenna
Polarization
l Omnidirectional propagation with preferred direction.
l For tubular masts.
3 dB
10
0
220°
3 dB
10
0
70°
Horizontal Radiation Pattern Vertical Radiation Pattern
Radiation Patterns (at mid-band)
A
A: 1380 mmB: 830 mm
B
87.5–108 MHz
V
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47
An
ten
nas
87.5
–108 M
Hz
A: 1800 mmB: 870 mm
87.5–108 MHz
V
Input 7-16 female 7/8˝ EIA-flange
Max. power 3 kW 5 kW
Frequency 87.5 – 108 MHz
VSWR < 1.3
Gain (at mid-band) 3 dBd
Impedance 50 Ω
Polarization Vertical
Weight 13 kg
Wind load (at 160 km/h) frontal: 180 N
lateral: 320 N
Max. wind velocity 225 km/h
Order No. 750 10035 750 10034
Yagi Antenna
Polarization
Material: Hot-dip galvanized steel.
Mounting: To pipes of 60 – 125 mm ∅ by means
of 2 U-bolts, supplied.
Grounding: Via mounting parts.
Radiation Patterns (at mid-band)
Horizontal Radiation Pattern Vertical Radiation Pattern
3 dB
10
0
175°
3 dB
10
0
75°
A
B
04_FM_Antennen_04_FM_Antennen 20.07.11 11:50 Seite 47
48
Input 7-16 female 7/8˝ EIA-flange
Max. power 3 kW 5 kW
Frequency 87.5 – 108 MHz
VSWR < 1.3
Gain (at mid-band) 4 dBd
Impedance 50 Ω
Polarization Vertical
Weight 13 kg
Wind load (at 160 km/h) frontal: 165 N
lateral: 275 N
Max. wind velocity 225 km/h
Order No. 770 777 770 776
Yagi Antenna
Polarization
Material: Hot-dip galvanized steel.
Mounting: To pipes of 60 – 125 mm ∅ by means
of 2 U-bolts, supplied.
Grounding: Via mounting parts.
Radiation Patterns (at mid-band)
Horizontal Radiation Pattern Vertical Radiation Pattern
A
3
10
0
150°
dB
3 dB
10
0
70°
B
87.5–108 MHz
V
A: 1822 mmB: 1300 mm
04_FM_Antennen_04_FM_Antennen 20.07.11 11:50 Seite 48
49
An
ten
nas
87.5
–108 M
Hz
Yagi Antenna
Polarization
87.5–108 MHz
V
Input 7-16 female 7/8˝ EIA-flange
Max. power 3 kW 5 kW
Frequency 87.5 – 108 MHz
VSWR < 1.3
Gain (at mid-band) 5 dBd
Impedance 50 Ω
Polarization Vertical
Weight 20 kg
Wind load (at 160 km/h) frontal: 200 N
lateral: 390 N
Max. wind velocity 225 km/h
Order No. 775 838 775 738
Material: Hot-dip galvanized steel.
Mounting: To pipes of 60 – 125 mm ∅ by means
of 2 U-bolts, supplied.
Grounding: Via mounting parts.
Radiation Patterns (at mid-band)
Horizontal Radiation Pattern Vertical Radiation Pattern
120°
3 dB
10
0
3 dB
10
0
60°
A
B
A: 1750 mmB: 1600 mm
04_FM_Antennen_04_FM_Antennen 20.07.11 11:50 Seite 49
50
3 dB
10
0
65°
3 dB
10
0
102°102°
in E-plane in H-plane
A: 1400 mmB: 1700 mm
Input 7-16 female
Max. power 500 W
Frequency 87.5 – 108 MHz
VSWR s < 1.3
Gain (at mid-band) 5.5 dBd
Impedance 50 Ω
Polarization Horizontal or vertical
Weight 13.5 kg
Wind load (at 160 km/h)
Horizontally polarized frontal / lateral: 215 N / 160 N
Vertically polarized frontal / lateral: 215 N / 340 N
Max. wind velocity 225 km/h
Order No. 600 263
K 52 40 17
Material: Supporting pipe: Hot-dip galvanized steel.
Director pipe and reflector: Weather-proof
aluminum. Radiator in fiberglass radome.
Mounting: To pipes of 60 – 115 mm diameter by means
of mounting clamps, supplied.
Grounding: Via mounting parts.
Special features: The antenna is shipped dismounted.
Combinations: The antenna is especially suitable as a
component in arrays to achieve various radiation
patterns.
l Component for low power transmitting antennas.
B
A
Radiation Patterns (at mid-band)
Yagi Antenna
Polarization
87.5–108 MHz
H V
04_FM_Antennen_04_FM_Antennen 20.07.11 11:50 Seite 50
51
Input 7-16 female
Max. power 500 W
Frequency 87.5 – 108 MHz
VSWR < 1.4
Gain (at mid-band) 7.5 dBd
Impedance 50 Ω
Polarization Horizontal or vertical
Weight 16 kg
Wind load (at 160 km/h)
Horizontally polarized frontal / lateral: 575 N / 625 N
Max. wind velocity 225 km/h
Vertically polarized frontal / lateral: 575 N / 665 N
Max. wind velocity 200 km/h
Order No. 600 204
K 52 14 17
3 dB
10
0
56°
3 dB
10
0
72°
in E-plane
in H-plane
Radiation Patterns
(at mid-band)
A
C
B
A: 3160 mmB: 1840 mmC: 1750 mm
l High gain antenna for low power transmitting stations.
Material: Weather-proof aluminum.
Radiator in fiberglass radome.
Mounting: To pipes of 60 – 115 mm diameter by means
of mounting clamps, supplied.
Grounding: Via mounting parts.
Special features: The antenna is shipped dismounted.
Combinations: Two or more antennas can be combined to achieve higher gain and longer, narrower beam width.
An
ten
nas
87.5
–108 M
Hz
Yagi Antenna
Polarization
87.5–108 MHz
H V
04_FM_Antennen_04_FM_Antennen 20.07.11 11:50 Seite 51
52
Input 7-16 female
Max. power 2 kW
Frequency 87.5 – 108 MHz
VSWR < 1.3
Gain (at mid-band) 6 dBd
Impedance 50 Ω
Polarization Horizontal
Weight 46 kg
Wind load (at 160 km/h) frontal: 500 N
lateral: 875 N
Max. wind velocity 225 km/h
Side-lobe suppression > 25 dB
Order No. 600 232
K 52 22 17
l Logarithmic-periodic broadband directional antenna with extremely low side-lobes.
l High reliability even under heavy icy conditions.
Material: Hot-dip galvanized steel.
Mounting: To pipes of 60 – 115 mm diameter by means
of mounting clamps, supplied.
Attention: Antenna may not be installed with
vertical polarization.
Special version for vertical polarization upon
request.
Grounding: Via mounting parts.
Combinations: Several antennas can be combined to increase
the gain and to produce radiation patterns with
very high side-lobe suppressions.
3 dB
10
0
60°
3 dB
10
0
95°
Horizontal Radiation Pattern Vertical Radiation Pattern
Radiation Patterns (at mid-band)
A
B
A: 2600 mmB: 2050 mm
Log.-Per. Antenna
Polarization
87.5–108 MHz
H
04_FM_Antennen_04_FM_Antennen 20.07.11 11:50 Seite 52
53
Input 7-16 7/8 1 5/8
female EIA-flange EIA-flange
Max. power 2.5 kW 5 kW 10 kW
Frequency 87.5 – 108 MHz
VSWR < 1.3
Gain (at mid-band) 6 dBd
Impedance 50 Ω
Polarization Vertical
Weight 46 kg
Wind load (at 160 km/h) frontal: 500 N
lateral: 1000 N
Max. wind velocity 225 km/h
Side-lobe suppression > 25 dB
Order No. 775 000 775 001 775 002
l Logarithmic-periodic broadband directional antenna with extremely low side-lobes.
l High reliability even under heavy icy conditions.
Material: Hot-dip galvanized steel.
Mounting: To pipes of 60 – 115 mm diameter by means
of mounting clamps, supplied.
Grounding: Via mounting parts.
Combinations: Several antennas can be combined to increase
the gain and to produce radiation patterns with
very high side-lobe suppressions.
3 dB
10
0
60°
3 dB
10
0
95°
Vertical Radiation PatternHorizontal Radiation Pattern
Radiation Patterns (at mid-band)
An
ten
nas
87.5
–108 M
Hz
Log.-Per. Antenna
Polarization
87.5–108 MHz
V
AB
A: 2034 mmB: 2570 mm
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54
04_FM_Antennen_04_FM_Antennen 20.07.11 11:50 Seite 54
55
Syste
ms
174
–230 M
Hz
Antenna Systems174 – 230 MHz
05_Band_III_Systeme_05_Band_III_Systeme 20.07.11 10:04 Seite 55
56
VHF Transmitting AntennaPolarization
l Antenna array of dipole panels (page 69) for different radiation patterns.
l Especially suitable for mounting on square masts.
l The feeder network is made up of coaxial power splitters and flexible connecting cablesin accordance with the radiation patterns specification and the transmitting power.
Input Connectors according to IEC, EIA or DIN.
Frequency range 174 – 230 MHz
VSWR < 1.05 in the operating channels after tuning.
Impedance 50 Ω
Polarization Horizontal. Application of panels K 53 33 57allows vertical polarization as well.
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Max. power According to customer’s requirements.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional, directional or custom-designed.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Grounding Via mounting parts.
Max. wind velocity 225 km/h
No. Panels Gain* Weight Antenna Windloadof per (at mid-band) (without mounting height H (v = 160 km/h)
bays bay dB times hardware) kg m kN
2 9.0 7.9 130 2.51 3 7.6 5.8 195 2.8 4.1
4 6.1 4.1 270 5.0
2 11.8 15.1 270 5.02 3 10.4 11.0 390 6.0 8.3
4 8.9 7.8 540 10.0
2 14.7 29.5 540 10.04 3 13.3 21.4 780 12.4 16.5
4 11.8 15.1 1080 20.0
2 16.4 43.7 810 15.06 3 15.0 31.6 1170 18.8 24.8
4 13.5 22.4 1640 30.0
2 17.6 57.5 1080 20.08 3 16.2 41.7 1640 25.2 33.0
4 14.7 29.5 2160 40.0
* Referred to λ/2 dipole. Attenuation of the internal cabling and the gain-decrease
in case of null fill in the vertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
3200
mm
H
174–230 MHz
H
05_Band_III_Systeme_05_Band_III_Systeme 20.07.11 10:04 Seite 56
57
Syste
ms
174
–230 M
Hz
*) without null fillwith null fill and beam tilt
3 dB
10
0
3 dB
10
0
3 dB
10
0
3 dB
10
0
4/13 P
4/13 P
4/13 P
1/13 P
100
50
0 5 10 α°
E rel
100
50
0 5 10 α°
E rel
100
50
0 5 10 α°
E rel
100
50
0 5 10 α°
E rel
2 bays
4 bays
6 bays
8 bays
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns
for minimal mast dimensions.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
Equal power splitting
Equal power splitting Different power splitting
VHF Transmitting AntennaPolarization
174–230 MHz
H
05_Band_III_Systeme_05_Band_III_Systeme 20.07.11 10:04 Seite 57
58
1600
mm
H
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency 174 – 230 MHz
VSWR < 1.05 in the operating channel after tuningor < 1.1 in the whole range
Impedance 50 Ω
Polarization Horizontal
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Radiation pattern The examples of radiation patterns are validfor horizontal polarization.
At vertical polarization patterns vary slightly.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Grounding Via mounting parts.
Max. wind velocity 225 km/h / 200 km/h
No. Panels Gain* Weight Antenna Windloadof per (at mid-band) (without mounting height H (v = 160 km/h)
bays bay dB times hardware) kg m kN
2 5.5 3.5 66 1.11 3 4.3 2.7 94 1.3 1.8
4 3.1 2.0 122 2.1
2 8.5 7.1 122 2.12 3 7.3 5.4 173 2.9 3.6
4 6.1 4.1 224 4.3
2 11.5 14.1 224 4.34 3 10.3 10.7 346 6.1 7.3
4 9.1 8.1 453 8.5
* Referred to λ/2 dipole. Attenuation of the internal cabling and the gain-decrease
in case of null fill in the vertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.4 dBnull fill: 0.2 – 0.5 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
VHF Transmitting AntennaPolarization
174–230 MHz
H
l Antenna array of dipole panels (page 68) for different radiation patterns.
l Especially suitable for mounting on square masts.
l The feeder network is made up of coaxial power splitters and flexible connecting cablesin accordance with the radiation patterns specification and the transmitting power.
05_Band_III_Systeme_05_Band_III_Systeme 20.07.11 10:04 Seite 58
59
Syste
ms
174
–230 M
Hz
3 dB
10
0
4/6 P
1/6 P
1/6
P
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
1 bay
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
2 bays
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
3 bays
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
4 bays
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns
for minimal mast dimensions.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
Equal power splitting
Equal power splitting Different power splitting
VHF Transmitting AntennaPolarization
174–230 MHz
H
3 dB
10
0
3 dB
10
0
3 dB
10
0
05_Band_III_Systeme_05_Band_III_Systeme 20.07.11 10:04 Seite 59
60
VHF Transmitting AntennaPolarization
174–230 MHz
V
1500
mm
H
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency 174 – 230 MHz
VSWR < 1.05 in the operating channel after tuningor < 1.1 in the whole range
Impedance 50 Ω
Polarization Vertical
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Radiation pattern The examples of radiation patterns are validfor horizontal polarization.
At vertical polarization patterns vary slightly.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Grounding Via mounting parts.
Max. wind velocity 225 km/h / 200 km/h
No. Panels Gain* Weight Antenna Windloadof per (at mid-band) (without mounting height H (v = 160 km/h)
bays bay dB times hardware) kg m kN
2 4.5 2.8 80 1.21 3 2.7 1.9 116 1.3 1.9
4 1.9 1.5 152 2.4
2 7.5 5.6 152 2.42 3 5.7 3.7 224 2.7 3.8
4 4.9 3.1 260 4.8
2 10.5 11.2 260 4.84 3 8.7 7.4 450 5.5 7.5
4 7.9 6.2 605 9.5
* Referred to λ/2 dipole. Attenuation of the internal cabling and the gain-decrease
in case of null fill in the vertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.4 dBnull fill: 0.2 – 0.5 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
l Antenna array of dipole panels (page 70) for different radiation patterns.
l Especially suitable for mounting on square masts.
l The feeder network is made up of coaxial power splitters and flexible connecting cablesin accordance with the radiation patterns specification and the transmitting power.
05_Band_III_Systeme_05_Band_III_Systeme 20.07.11 10:04 Seite 60
61
Syste
ms
174
–230 M
Hz
VHF Transmitting AntennaPolarization
174–230 MHz
V
10
3
0
Bd
10
3
0
Bd
10
3
0
Bd
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
1 bay
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
2 bays
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
3 bays
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
50
00 10 20 30 40 50 α °
E rel
4 bays
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns
for minimal mast dimensions.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
Equal power splitting
Equal power splitting
05_Band_III_Systeme_05_Band_III_Systeme 20.07.11 10:04 Seite 61
62
l Antenna array of dipole panels (page 72) for different radiation patterns.
l Especially suitable for mounting on triangular or round masts.
l The feeder network is made up of coaxial power splitters and flexible connecting cablesin accordance with the radiation patterns specification and the transmitting power.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency 174 – 202 MHz resp. 202 – 230 MHz
VSWR < 1.05 in the operating channels after tuning.
Impedance 50 Ω
Polarization Horizontal
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional, directional or custom-designed.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Grounding Via mounting parts.
Max. wind velocity 225 km/h
No. Panels Gain* Weight Antenna Windloadof per (at mid-band) (without mounting height H (v = 160 km/h)
bays bay dB times hardware) kg m kN
2 3.9 2.5 50 0.81
3 1.7 1.5 701.2
1.2
2 6.9 4.9 95 1.72
3 4.7 3.0 1402.8
2.4
2 9.9 9.8 180 3.34
3 7.7 5.9 2706.0
4.8
2 11.7 14.8 270 5.06
3 9.5 8.9 4009.2
7.2
2 12.9 19.5 360 6.68
3 10.7 11.7 54012.4
9.6
* Referred to λ/2 dipole. Attenuation of the internal cabling and the gain-decrease
in case of null fill in the vertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
1600
mm
H
VHF Transmitting AntennaPolarization
174–230 MHz
H
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63
Syste
ms
174
–230 M
Hz
Equal power splitting
Different power splitting
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns
for minimal mast dimensions.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
*) without null fillwith null fill and beam tilt
3 dB
10
0
60°
3 dB
10
0
60°
3/4 P
1/4 P
3 dB
10
0
3 dB
10
0
3/7 P
1/7 P
3/7 P
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
1,0
0,5
0 10 20 α°
E rel
30 40
2 bays
4 bays
6 bays
8 bays
VHF Transmitting AntennaPolarization
174–230 MHz
H
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64
l Superturnstile Antenna made of hot-dip galvanized steel for mounting on top of mast.
l Up to 6 bays may be built as self-supporting version. Up to 16 bays can be stackedinside a self-supporting G.R.P. cylinder.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements,10 kW max. per bay.
Frequency 174 – 230 MHz
VSWR < 1.05 in the operating channel
Impedance 50 Ω
Polarization Horizontal
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Internal connections The radiating elements are fed withcoaxial connecting cables and hybrid couplers.
Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Mounting On top of existing structure by means of a flange.
Ice protection The radiating slots are protected by a fiberglasscover. Cylinder provides full protection.
Grounding Via mounting parts resp. via 4 grounding ropesat the exterior cylinder-surface.
Max. wind velocity As required.15
00 m
m
H
∅ 1.6 mG.R.P. cylinder
No. Gain* Weight kg Antenna Windloadof (at mid-band) without with height H (v = 160 km/h) kN
bays dB times cylinder cylinder m with withoutcylinder cylinder
2 4.0 2.5 150depending
3.0 4.0 1.54 7.0 5.0 310
on6.0 8.0 3.4
6 8.8 7.6 470fiber-
9.0 12.0 5.68 10.0 10.0 660
glass-12.0 16.0 –
12 11.8 15.1 1010cylinder
18.0 24.0 –16 13.0 20.0 1360 24.0 32.0 –
* Referred to λ/2 dipole. Attenuation of the internal cabling and the gain-decrease
in case of null fill in the vertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
Wind load with cylinder
VHF Transmitting AntennaPolarization
174–230 MHz
H
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65
Syste
ms
174
–230 M
Hz
Typical Horizontal Radiation Pattern(at mid-band)
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
*) without null fillwith null fill and beam tilt
3 dB
10
0
100
50
0 10 α°
E rel
30 4020
100
50
0 10 α°
E rel
30 4020
8 bays
100
50
0 10 20 α°
E rel
30 40
2 bays
100
50
0 10 α°
E rel
30 4020
4 bays
12 bays
VHF Transmitting AntennaPolarization
174–230 MHz
H
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66
05_Band_III_Systeme_05_Band_III_Systeme 20.07.11 10:04 Seite 66
Antennas for TV and DAB in upper VHF Band
174 – 230 MHz
67
An
ten
nas
174
–230 M
Hz
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 67
68
Input 7-16 female 7/8˝ EIA-flange 13-30 female
Max. power 2 kW 2.5 kW
(higher power upon request)
Frequency range 174 – 230 MHz
VSWR < 1.08
Gain (at mid-band) 8 dBd
Impedance 50 Ω
Polarization Horizontal or vertical
Weight 23 kg
Wind load (at 160 km/h)Horizontal: frontal / lateral: 750 N / 315 N
Vertical: frontal / lateral: 750 N / 375 N
Max. wind velocity 225 km/h
Order No. 600 241 602 036 750 807
K 52 30 57 K 52 30 58
l Especially suitable for square and round masts.
Material: Hot-dip galvanized steel.
Weather protection: Fiberglass.
Mounting: By means of the pair of hot-dip galvanized
steel clamps:
K 61 12 0 to pipes of 60 – 115 mm ∅
K 61 13 0 to pipes of 115 – 210 mm ∅
(please order separately).
Mounting dimensions upon request.
Grounding: Via mounting parts.
Scope of supply: Antenna without mounting clamps.
Ice protection: Even under severe icy conditions the antenna is
still functional due to its heavy-duty construction
and the fiberglass covers for the feeding points.
Combinations: The antenna is especially suitable as a
component in arrays to achieve various radiation
patterns. Particularly for square and round
masts.
3 dB
10
0
62°
3 dB
10
0
60°
in E-Plane in H-Plane
Radiation Patterns (at mid-band)
Panel AntennaPolarization
174–230 MHz
H V
A
B
C
A: 1300 mmB: 1300 mmC: 490 mm
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 68
69
An
ten
nas
174
–230 M
Hz
l Especially suitable for square masts.
Material: Hot-dip galvanized steel.
Weather protection: Fiberglass.
Mounting: By means of the pair of hot-dip galvanized
steel clamps:
K 61 16 01 to pipes of 77 mm ∅
K 61 16 02 to pipes of 60 – 125 mm ∅
(please order separately).
Further mounting hardware and mounting
dimensions upon request.
Grounding: Via mounting parts.
Scope of supply: Antenna without mounting clamps.
Ice protection: Even under severe icy conditions the antenna is
still functional due to its heavy-duty construction
and the fiberglass covers for the feeding points.
Combinations: The antenna is especially suitable as a
component in arrays to achieve various radiation
patterns. Particularly for square masts.
Radiation Patterns (at mid-band)
Input 7-16 female 7/8˝ EIA-flange 13-30 female
Max. power 2 kW 3 kW 5 kW(higher power upon request)
Frequency range 174 – 230 MHz
VSWR < 1.1
Gain (at mid-band) 11 dBd
Impedance 50 Ω
Polarization Horizontal
Weight 60 kg
Wind load (at 160 km/h) frontal: 1625 Nlateral: 875 N
Max. wind velocity 225 km/h
Order No. 600 261 601 940 710 747
K 52 33 57 K 52 33 58
A: 2800 mmB: 1300 mmC: 415 mm
3 dB
10
0
25°
3 dB
10
0
62°
Horizontal Radiation Pattern Vertical Radiation Pattern
B
A
C
Panel AntennaPolarization
174–230 MHz
H
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 69
70
l Especially suitable for square and round masts.
Panel AntennaPolarization
174–240 MHz
V
Order No. 750 10350 750 10351
Input 7-16 female 7/8ʺ EIA fl angeMax. power 2 kW 3 kW
(at 40 °C ambient temperature)Frequency range 174 – 240 MHzVSWR 174 – 230 MHz: < 1.1
230 – 240 MHz: < 1.12Gain (at mid-band) 8 dBdImpedance 50 ΩPolarization VerticalWeight 35 kgWind load (at 160 km/h) Frontal: 500 N
Lateral: 690 NMax. wind velocity 225 km/h
Material: Hot-dip galvanized steel.Weather protection: Fiberglass.
Attachment: Radiator and refl ector are split into two parts for easier mounting.
Grounding: Via mounting parts.
Ice protection: Even under severe icy conditions the antenna is still functional due to its heavy-duty construction and the fi berglass covers for the feeding points.
Combinations: The antenna is especially suitable as a component in arrays to achieve various radiation patterns. Particularly for square and round masts.
Radiation Patterns (at mid-band)
3 dB
10
0
59°
3 dB
10
0
68°
Horizontal Radiation Pattern Vertical Radiation Pattern
A: 1300 mmB: 1300 mmC: 400 mm
B
A
C
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71
An
ten
nas
174
–230 M
Hz
Input 7-16 female 7/8˝ EIA-flange
Max. power 2 kW 3 kW(higher power upon request)
Frequency range 174 – 254 MHz
VSWR < 1.1
Gain (at mid-band) 11 dBd
Impedance 50 Ω
Polarization Vertical
Weight 55 kg
Wind load (at 160 km/h) frontal: 2.00 kNlateral: 1.15 kN
Max. wind velocity 225 km/h
Order No. 601 699 601 939
K 53 33 57 K 53 33 58
A: 2800 mmB: 1300 mmC: 400 mm
B
3 dB
10
0
25°
3 dB
10
0
62°
Horizontal Radiation Pattern Vertical Radiation Pattern
Radiation Patterns (at mid-band)
l Especially suitable for square masts.
Material: Hot-dip galvanized steel.
Weather protection: Fiberglass.
Mounting: By means of 8 screws M 16 x 80 to a suitable
construction.
Mounting hardware and mounting dimensions
upon request.
Grounding: Via mounting parts.
Scope of supply: Antenna with 8 screws M 16 x 80.
Ice protection: Even under severe icy conditions the antenna is
still functional due to its heavy-duty construction
and the fiberglass covers for the feeding points.
Combinations: The antenna is especially suitable as a
component in arrays to achieve various radiation
patterns.
C
A
Panel AntennaPolarization
174–254 MHz
V
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72
A: 1200 mmB: 860 mmC: 405 mm
A
B
C
Input 7-16 female 7/8˝ EIA-flange
Max. power 2 kW 2.5 kW(higher power upon request)
Frequency range 174 – 202 MHz 202 – 240 MHz
VSWR < 1.15
Gain (at mid-band) 7 dBd
Impedance 50 Ω
Polarization Horizontal
Weight 20 kg
Wind load (at 160 km/h) frontal: 375 Nlateral: 375 N
Max. wind velocity 225 km/h
Order No. 601 157 601 835 602 232
K 52 34 517 K 52 34 527 K 52 34 528
3 dB
10
0
80°
3 dB
10
0
56°
Horizontal Radiation Pattern Vertical Radiation Pattern
Radiation Patterns (at mid-band)
l Especially suitable for triangular and round masts.
Material: Hot-dip galvanized steel.
Weather protection: Fiberglass.
Mounting: By means of the pair of hot-dip galvanized
steel clamps:
K 61 12 0 to pipes of 60 – 115 mm ∅
K 61 13 0 to pipes of 115 – 210 mm ∅
(please order separately).
Further mounting hardware and mounting
dimensions upon request.
Grounding: Via mounting parts.
Scope of supply: Antenna without mounting clamps.
Ice protection: Even under severe icy conditions the antenna is
still functional due to its heavy-duty construction
and the fiberglass covers for the feeding points.
Combinations: The antenna is especially suitable as a
component in arrays to achieve various radiation
patterns. Particularly for triangular and round
masts.
Panel AntennaPolarization
174...240 MHz
H
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 72
73
An
ten
nas
174
–230 M
Hz
Input 7-16 female
Max. power 1 kW
Frequency range 174 – 230 MHz
VSWR < 1.15
Gain (at mid-band) 7.5 dBd
Impedance 50 Ω
Polarization Horizontal or verticalby conversion of two clamps
Weight 7 kg
Wind load (160 km/h)Horizontal: frontal / lateral: 440 N / 250 N
Vertical: frontal / lateral: 440 N / 350 N
Max. wind velocityHorizontal: 225 km/h
Vertical: 200 km/h
Order No. 600 256
K 52 31 57
l Light weight panel of weather-resistant aluminum.
Material: Weather-resistant aluminum.
Mounting: To pipes of 60 – 115 mm ∅ by means
of mounting clamps, supplied
Grounding: Via mounting parts.
Combinations: The antenna is especially suitable as a
component in arrays to achieve various
radiation patterns.
Special features: The antenna will be shipped dismounted.
3 dB
10
0
66°
3 dB
10
0
61°
in E-Plane in H-Plane
Radiation Patterns (at mid-band)
A
B
C
A: 1200 mmB: 1200 mmC: 360 mm
Panel AntennaPolarization
174–230 MHz
H V
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 73
74
Panel Antenna
Polarization
l Dual-polarized antenna (horizontal/vertical).l Optionally circular or slant polarization.l For TV and DAB at the same time.
A
H-planeHorizontal Radiation Pattern
E-planeVertical Radiation Pattern
Radiation Patterns for vertical polarization(at mid-band)
E-planeHorizontal Radiation Pattern
H-planeVertical Radiation Pattern
Radiation Patterns for horizontal polarization(at mid-band)
dB
10
3
0
65°
dB
10
3
0
60°
dB
10
3
0
65°
dB
10
3
0
55°
Input 2 x 7-16 female
Max. power 2 kW per input
Frequency range 174 – 223 MHzfor vertical polarization 174 – 240 MHz
VSWR < 1.2 (linear polarization)< 1.1 (circular polarization)
Gain (at mid-band) 7.5 dBd
Impedance 50 Ω
Polarization linear: horizontal, vertical, slantcircular
Weight 35 kg
Windload (at 160 km/h) frontal: 850 Nlateral: 720 N
Max. wind velocity 225 km/h
Order No. 750 10085
Material: Hot-dip galvanized steel.
Radome: Fiberglass
Mounting: Using M16 screws (supplied) to suitable
attachment construction.
Mounting dimensions upon request.
Grounding: Via mounting parts.
Scope of supply: Antenna supplied without clamps.
174–240 MHz
H V X
A: 1300 mmB: 1300 mmC: 465 mm
BC
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 74
75
An
ten
nas
174
–230 M
Hz
Input 7-16 female
Max. power 400 W
Frequency range 174 – 202 MHz 202 – 230 MHz
VSWR < 1.15
Gain (at mid-band) 6 dBd
Impedance 50 Ω
Polarization Horizontal
Weight 5 kg
Wind load (at 160 km/h)frontal: 115 N 100 Nlateral: 100 N 90 N
Max. wind velocity 225 km/h
Dimensions A 930 mm 810 mmB 885 mm 765 mm
3 dB
10
0
55°
3 dB
10
0
110°
Horizontal Radiation Pattern Vertical Radiation Pattern
Order No. 600 265 600 267
K 52 40 517 K 52 40 527 A
BB
A
Lengths see table
Radiation Patterns (at mid-band)
l For low power transmitting antennas.
Material: Weather-proof aluminum.
Radiator in fiberglass radome.
Mounting: To pipes of 60 – 115 mm ∅ by means
of mounting clamps, supplied.
Grounding: Via mounting parts.
Combinations: The antenna is especially suitable as a
component in arrays to achieve various
radiation patterns.
Special features: The antenna will be shipped dismounted.
Yagi AntennaPolarization
174...230 MHz
H
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 75
76
768 000
1300 mm
750 10085
Input 7-16 female
Max. power 400 W
Frequency range 215 – 242 MHz 202 – 230 MHz
VSWR < 1.2
Gain (at mid-band) 6 dBd
Impedance 50 Ω
Polarization Vertical
Weight 5 kg
Wind load (160 km/h) frontal: 100 Nlateral: 150 N
Max. wind velocity 225 km/h
Order No. 768 494 750 10033
Material: Weather-proof aluminum.
Radiator in fiberglass radome.
Mounting: To pipes of 60 – 115 mm ∅ by means
of mounting clamps, supplied.
Grounding: Via mounting parts.
Combinations: The antenna is especially suitable as a
component in arrays to achieve various
radiation patterns.
Special features: The antenna will be shipped dismounted.
3 dB
10
0
55°
3 dB
10
0
110°
Vertical Radiation PatternHorizontal Radiation Pattern
Radiation Patterns (at mid-band)
l For low power transmitting antennas.
A
B
A: 830 mmB: 765 mm
Yagi AntennaPolarization
215–242 MHz
V
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 76
77
An
ten
nas
174
–230 M
Hz
Input 7-16 female
Max. power 400 W
Frequency range 174 – 188 MHz 188 – 209 MHz 209 – 230 MHz
VSWR < 1.15
Gain (at mid-band) 8 dBd
Impedance 50 Ω
Polarization Horizontal or vertical
Weight 14 kg 12.7 kg 12 kg
Wind load (at 160 km/h) frontal / lateral: frontal / lateral: frontal / lateral:horizontal: 400 N / 290 N 365 N / 275 N 315 N / 250 N
vertical: 400 N / 475 N 365 N / 440 N 315 N / 390 N
Max. wind velocityhorizontal: 225 km/h 225 km/h 225 km/h
vertical: 190 km/h 225 km/h 225 km/h
Dimensions (Lengths)A 2000 mm 1850 mm 1700 mmB 1200 mm 1100 mm 950 mmC 900 mm 850 mm 750 mm
Order No. 600 890 600 891 600 892
K 52 17 517 K 52 17 527 K 52 17 537
3 dB
10
0
62°
3 dB
10
0
60°
Lengths see table
in E-plane
in H-plane
Radiation Patterns
(at mid-band)
Material: Elements: Weather-proof aluminum.
Dipole cover: Fiberglass.
Support and flange: Hot-dip galvanized steel.
Mounting: By means of mounting flange, supplied.
Grounding: Via mounting parts.
Combinations: Two or more antennas can be combined to
achieve higher gain and longer, narrower beam
width.
Special features: The antenna is shipped dismounted.
Yagi AntennaPolarization
174...230 MHz
H V
l For low power transmitting antennas.
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 77
78
Log.-Per. AntennaPolarization
174–240 MHz
H V
Input 7-16 female 7-16 female
Max. power 2 kW 2 kW
Frequency range 174 – 240 MHz
VSWR ≤ 1.25
Gain (at mid-band) 5 dBd
Impedance 50 Ω
Polarization Horizontal or vertical
Weight 5.5 kg 10 kg
Wind load (at 160 km/h) frontal: 100 Nlateral: 190 N
Max. wind velocity 225 km/h
Weight Aluminum Hot-dip galvanized steel
Order No. 750 10240 750 10242
10
3
0
dB
60°110°
10
3
0
dB
in H-plane in E-plane
Radiation Patterns (at mid-band)
Mounting: To pipes of 40 – 95 mm diameter by means
of mounting clamps, supplied.
Grounding: The inner conductor is DC grounded.
l Logarithmic-periodic broadband directional antenna with high side-lobe suppression.
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 78
79
An
ten
nas
174
–230 M
Hz
Input 7-16 female
Max. power 1 kW (higher power upon request)
Frequency range 174 – 230 MHz
VSWR < 1.2
Gain (at mid-band) 8.5 dBd
Impedance 50 Ω
Polarization Horizontal or vertical
Side-lobe suppression > 25 dB
Weight 27 kg
Wind load (at 160 km/h)Horizontal: frontal / lateral: 240 N / 525 N
Vertical: frontal / lateral: 240 N / 350 N
Max. wind velocity 225 km/h
Order No. 600 234
K 52 22 57
A: 2300 mmB: 890 mm
3 dB
10
0
68°
3 dB
10
0
53°
in E-plane in H-plane
B
A
Radiation Patterns (at mid-band)
l Logarithmic-periodic broadband directional antenna with high side-lobe suppression.
Material: Hot-dip galvanized steel.
Mounting: To pipes of 60 – 115 mm ∅ by means
of mounting clamps, supplied.
Grounding: Via mounting parts.
Combinations: Several antennas can be combined to increase
the gain and to produce radiation patterns with
very high side-lobe suppressions.
Log.-Per. AntennaPolarization
174–230 MHz
H V
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 79
80
Input 7-16 female 7-16 female
Max. power 2 kW
Frequency range 200 – 240 MHz 184 – 230 MHz
VSWR < 1.2 < 1.3
Gain (at mid-band) 5.5 dBd
Impedance 50 Ω
Polarization Vertical
Weight 15 kg
Wind load (160 km/h) frontal: 250 Nlateral: 440 N
Max. wind velocity 225 km/h
Order No. 750 10161 773 361
3 dB
10
0
200°
3 dB
10
0
32°
Horizontal Radiation Pattern Vertical Radiation Pattern
B
A
D
C
A: 2205 mmB: 1100 mmC: 372 mmD: 315 mm
Radiation Patterns (at mid-band)
l Dipole antenna for side-mounting to masts.
Material: Hot-dip galvanized steel.
Radome: Fiberglass.
Mounting: Laterally using 8 screws M 12 x 50 to suitable
flange (see draft).
Grounding: Via mounting parts.
Ice protection: Even under severe icy conditions the antenna is
still functional due to its heavy-duty construction
and the fiberglass covers for the feeding points.
Note: The radiation in the mast direction will be
reduced proportionally to the size of the mast.
Dipole AntennaPolarization
184–230 MHz
V
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 80
81
An
ten
nas
174
–230 M
Hz
Dipole AntennaPolarization
174–240 MHz
V
Input 7-16 female 7/8ʺ EIA-flange 15/8ʺ EIA-flange
Max. power *)2 kW 3 kW 5 kW
Frequency range 174 – 240 MHz
VSWR < 1.2
Gain (at mid-band) 4.8 dBd
Impedance 50 Ω
Polarization Vertical
Weight 20 kg
Windload Frontal: 510 N (at 160 km/h)Lateral: 620 N (at 160 km/h)
Max. wind velocity 225 km/h
Order No. 750 10245 750 10246 750 10247
Material: Weather-proof aluminum.
Weather protection: Fiberglass.
Mounting: To tubular masts by using the mounting clamp
753 10299. The clamp is suitable for tube
diameters 90 – 160 mm.
Ice protection: Even under icy conditions the antenna is still
functional due to the fiberglass covers for the
feeding points.
Special features: Connector on the side at bottom of the antenna.
Grounding: Via mounting parts.
10
3
0
Bd
230°
10
3
0
Bd
32°
Horizontal Radiation Pattern Vertical Radiation Pattern2.5° electrical downtilt
Radiation Patterns (at mid-band)
B
A
Picture shows top mounted antennawith attachment accessories.
l Weather-proof aluminum.l For mounting at the top or on the side of a mast.
A: 2850 mmB: 500 mm
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 81
82
Dipole AntennaPolarization
174–240 MHz
V
l Hot-dip galvanized steel.l Especially suitable for mounting at the top of masts.
Input 7-16 female 7/8ʺ EIA-flange 15/8ʺ EIA-flange
Max. power *)2 kW 3 kW 5 kW
Frequency 174 – 240 MHz
VSWR < 1.2
Gain (at mid-band) 5.0 dBd
Impedance 50 Ω
Polarization Vertical
Weight 30 kg
Windload Frontal: 380 N (at 160 km/h)
Lateral: 460 N (at 160 km/h)
Max. wind velocity 225 km/h
Order No. 750 10290 750 10291 750 10292
Material: Hot-dip galvanized steel.
Weather protection: Fiberglass.
Mounting: On top of a suitable flange with at least 135 mm
diameter.
Grounding: Via mounting parts.
Ice protection: Even under icy conditions the antenna is still
functional due to the fiberglass covers for the
feeding points.
10
3
0
Bd
230°
10
3
0
Bd
30°
Horizontal Radiation Pattern Vertical Radiation Pattern2.5° electrical downtilt
Radiation Patterns (at mid-band)
B
A
A: 2537 mmB: 460 mm
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 82
83
An
ten
nas
174
–230 M
Hz
Material: Hot-dip galvanized steel.
Weather protection: Fiberglass.
Mounting: Laterally using 8 screws M12x60 to suitable
flange.
Grounding: Via mounting parts.
Ice protection: Even under icy conditions the antenna is still
functional due to the fiberglass covers for the
feeding points.
Note: The radiation in the mast direction will be
reduced proportionally to the side of the mast.
Input 7-16 female 7/8ʺ EIA-flange 15/8ʺ EIA-flange
Max. power *)2 kW 3 kW 5 kW
Frequency 174 – 240 MHz
VSWR < 1.2
Gain (at mid-band) 5.0 dBd
Impedance 50 Ω
Polarization Vertical
Weight 24 kg
Windload Frontal: 480 N (at 160 km/h)
Lateral: 540 N (at 160 km/h)
Max. wind velocity 225 km/h
Order No. 750 10295 750 10296 750 10297
10
3
0
Bd
230°
10
3
0
Bd
30°
Horizontal Radiation Pattern Vertical Radiation Pattern2.5° electrical downtilt
Radiation Patterns (at mid-band)
B
A
DC
Dipole AntennaPolarization
174–240 MHz
V
l Hot-dip galvanized steel.l For side-mounting to masts.
A: 2326 mmB: 460 mmC: 520 mmD: 1280 mm
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 83
84
06_Band_III_Antennen_06_Band_III_Antennen 20.07.11 11:48 Seite 84
85
Syste
ms
470
–862 M
Hz
Antenna Systems470 – 862 MHz
07_UHF_Systeme_07_UHF_Systeme 20.07.11 10:06 Seite 85
86
UHF Transmitting AntennaPolarization
470–862 MHz
l Antenna systems consisting of dipole panels (page 96 – 101) for various radiation patterns.
l The feeder network is made up of coaxial power splitters and flexible connecting cablesin accordance with the radiation patterns specification and the transmitting power.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency 470 – 862 MHz
VSWR < 1.05 in the operating channels after tuning,on steel carrier: < 1.15 in band,in GRP cylinder: < 1.2 in band.
Impedance 50 Ω
Polarization Horizontal with dipole panelsK 72 30 4. . – K72 32 4. .
or vertical with dipole panelsK 73 30 4. . – K 73 32 4. .
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional, directional or custom-designed.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Structure 2 versions are available: a) Panels mounted onhot-dip galvanized steel spine.
b) Panels mounted inside self-supportingfiberglass cylinder (1.6 m )
Grounding Via mounting parts.
Max. wind velocity As required.
D
H
No. Panels Gain* Weight** Antenna Windload**/ kNof per (at mid-band) (without height H / m (v = 160 km/h)
bays bay dB times mounting with with with withhardware) spine cylinder spine cylinder
kg 1.6 m 1.6 m
2 15.0 31.6 1204 3 13.6 22.9 160 4.45 4.3 6.0 6.0
4 11.8 15.1 210
2 16.8 47.9 1706 3 15.4 34.7 240 6.75 6.5 9.5 9.0
4 13.6 22.9 330
2 18.0 63.1 2408 3 16.6 45.7 320 9.05 8.7 13.0 12.0
4 14.8 30.2 420
2 19.8 95.5 35012 3 18.4 69.2 490 13.65 13.1 20.5 18.0
4 16.6 45.7 670
2 21.0 125.9 45016 3 19.6 91.2 690 18.25 17.5 28.0 24.0
4 17.8 60.3 890
* Referred to /2 dipole. Attenuation of the internal cabling and the gain-decrease
in case of null fill in the vertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
** Average values, depending on design and arrangement.
D = 1150 mm on steel carrierD = 1100 mm in GRP cylinder
H V
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87
Syste
ms
470
–862 M
Hz
UHF Transmitting AntennaPolarization
470–862 MHz
3 dB
10
0
3 dB
10
0
3 dB
10
0
3 dB
10
0
100
50
0 5 10
E rel
α°
100
50
0 5 10
E rel
α°
100
50
0 5 10
E rel
α°
100
50
0 5 10
E rel
α°
4 bays
8 bays
12 bays
16 bays
*) without null fillwith null fill and beam tilt
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns
for minimal mast dimensions.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
Equal power splitting
Equal power splitting Different power splitting
4/10 P
4/10 P
1/1
0 P
1/1
0 P
H V
07_UHF_Systeme_07_UHF_Systeme 20.07.11 10:06 Seite 87
88
l Superturnstile antenna in a self-supporting fiberglass cylinder with 1.60 m diameter.
950 m
m
H
No. Gain* Weight** Antenna Windload**of (at mid-band) (with cylinder) height H (v = 160 km/h)
bays dB times kg m kN
2 7.7 5.9 350 1.9 2.54 10.7 11.8 700 3.8 5.08 13.7 23.4 1400 7.6 10.0
12 15.5 35.5 2200 11.4 15.016 16.7 46.8 3050 15.2 20.0
* Referred to /2 dipole. Attenuation of the internal cabling and the gain-decrease
in case of null fill in the vertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
** Average values, depending on design and arrangement.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements,6 kW max. per bay.
Frequency 470 – 862 MHz
VSWR < 1.05 in operating channels after tuningor < 1.15 in band.
Impedance 50 Ω
Polarization Horizontal
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional, circularity < ±1.5 dB
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Internal connections The radiating elements are fed withcoaxial connecting cables and hybrid couplers.
Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Structure Superturnstile antenna in self-supportingfiberglass-cylinder.
Up to 16 bays may be stacked.
Mounting On top of existing structure by means of a flange.
Ice protection Fiberglass-cylinder (= supporting structure)
Grounding Via mounting parts resp. via 4 grounding ropesat the exterior cylinder-surface.
UHF Transmitting AntennaPolarization
470–862 MHz
H
07_UHF_Systeme_07_UHF_Systeme 20.07.11 10:06 Seite 88
89
Syste
ms
470
–862 M
Hz
3 dB
10
0
100
50
0 5 10
E rel
α°
100
50
0 5 10
E rel
α°
12 bays
100
50
0 5 10
E rel
α°
4 bays
100
50
0 5 10
E rel
α°
8 bays
16 bays
Typical Horizontal Radiation Pattern(at mid-band)
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
*) without null fillwith null fill and beam tilt
UHF Transmitting AntennaPolarization
470–862 MHz
H
07_UHF_Systeme_07_UHF_Systeme 20.07.11 10:06 Seite 89
90
UHF Transmitting AntennaPolarization
470–806 MHz
H
936.A
2638
S
ubje
ct
to a
ltera
tion.
l Antenna systems consisting of special dipole panels mounted on a pentagonal steelspine.
l The feeder network is made up of coaxial power splitters and flexible connecting cablesin accordance with the radiation patterns specification and the transmitting power.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency 470 – 806 MHz
VSWR < 1.15 in band
Impedance 50 Ω
Polarization Horizontal
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional, circularity < ±1.5 dB.
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Structure Panels mounted onhot-dip galvanized steel spine.
Grounding Via mounting parts.
Max. wind velocity As required.
1150
mm
H
No. Panels Gain* Weight** Antenna Windload**of per (at mid-band) (without height H (v = 160 km/h)
bays bay dB times mounting m kNhardware)
kg
4 5 11.7 14.8 1600 4.45 7.5
6 5 13.5 22.4 2100 6.75 11.0
8 5 14.8 30.2 3000 9.05 15.0
12 5 16.5 44.7 4300 13.65 22.0
16 5 17.8 60.3 5900 18.25 29.0
* Referred to /2 dipole. Attenuation of the internal cabling and the gain-decrease
in case of null fill in the vertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
** Average values, depending on design and arrangement.
07_UHF_Systeme_07_UHF_Systeme 20.07.11 10:06 Seite 90
91
Syste
ms
470
–862 M
Hz
UHF Transmitting AntennaPolarization
470–806 MHz
H
100
50
0 5 10
E rel
α°
100
50
0 5 10
E rel
α°
100
50
0 5 10
E rel
α°
100
50
0 5 10
E rel
α°
4 bays
8 bays
12 bays
16 bays
*) without null fillwith null fill and beam tilt
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
10
3
0
Bd
Directional patterns on request!
Omnidirectional patterns
07_UHF_Systeme_07_UHF_Systeme 20.07.11 10:06 Seite 91
92
UHF Transmitting AntennaPolarization
470–862 MHz
V
4 8 10.3 10.7 1500 1100 4.15 3.72 7.5 6.0
6 8 12.1 16.2 2100 1650 6.25 5.62 11.0 9.0
8 8 13.3 21.4 3100 2200 8.35 7.52 15.0 12.0
12 8 15.1 32.4 4400 3300 12.55 11.32 22.0 18.0
16 8 16.3 42.7 5800 4400 16.75 15.12 29.0 24.0
l Antenna systems consisting of special dipole panels mounted on anortagonal steel spine.
l The feeder network is made up of coaxial power splitters and flexible connecting cables in accordance with the radiation patternsspecification and the transmitting power.
Input Connectors according to IEC, EIA or DIN.
Max. power According to customer’s requirements.
Frequency 470 – 862 MHz
VSWR < 1.2 in band
Impedance 50 Ω
Polarization Vertical
Internal connections Connectors according to IEC, EIA or DINare used throughout the system,
allowing easy assembly and maintenance.
Vertical radiation pattern Null fill and beam tilt upon request.
Horizontal radiation pattern Omnidirectional, circularity < ±1 dB(directional or custom-designed on request).
Half antenna splitting Upon request, the antenna can be divided into2 halves (for measurement and maintenance).
The 2 halves are connected by a2-way power splitter or patch panel.
Pressurization Splitters and connecting cables can be suppliedwith dry air (please specify when ordering).
Painting If required, the antenna is painted in aviationwarning colours.
Structure 2 versions are available: a) Panels mounted onhot-dip galvanized steel spine.
b) Panels mounted inside self-supportingfiberglass cylinder (1.6 m )
Grounding Via mounting parts.
Max. wind velocity As required.
No. Panels Gain* Weight** Antenna Windload**/ kNof per (at mid-band) kg height H / m (v = 160 km/h)
bays bay dB times with with with with with withspine cylinder spine cylinder spine cylinder
1.6 m 1.6 m 1.6 m
* Referred to /2 dipole. Attenuation of the internal cabling and the gain-decrease
in case of null fill in the vertical radiation pattern are not considered.Approximate values for gain decrease:
cable attenuation: 0.2 – 0.5 dBnull fill: 0.3 – 1.0 dB
Gain figures are valid for the direction of maximum radiation (see diagrams onfollowing page).
** Average values, depending on design and arrangement.
1050 m
m
H
950 m
m
H
07_UHF_Systeme_07_UHF_Systeme 20.07.11 10:06 Seite 92
93
Syste
ms
470
–862 M
Hz
UHF Transmitting AntennaPolarization
470–862 MHz
V
100
50
0 5 10
E rel
α°
100
50
0 5 10
E rel
α°
100
50
0 5 10
E rel
α°
100
50
0 5 10
E rel
α°
4 bays
8 bays
12 bays
16 bays
*) without null fillwith null fill and beam tilt
Horizontal Radiation Patterns
Examples of typical horizontalantenna arrays and their horizontal radiation patterns.
Vertical Radiation Patterns
Examples of typical verticalradiation patterns*) for several bays
of identical, vertically stacked antenna arrays.
Directional patterns on request!
Omnidirectional patterns
10
3
0
Bd
07_UHF_Systeme_07_UHF_Systeme 20.07.11 10:06 Seite 93
94
07_UHF_Systeme_07_UHF_Systeme 20.07.11 10:06 Seite 94
Antennas for TV in UHF Band470 – 862 MHz
95
An
ten
nas
470
–862 M
Hz
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 95
96
Frequency 470 – 862 MHz
VSWR s < 1.1
Gain (at mid-band) 11 dBd
Polarization Horizontal
Weight 12 kg
Wind load (at 160 km/h) Frontal: 565 NRearside: 815 NLateral: 250 N
Max. wind velocity 225 km/h
Specifications
l Designed for open steel spinesl Suitable for transposers
Horizontalpolarization
1000
190
500
UHF PanelPolarization
470–862 MHz
H
Material: Reflector screen and dipoles: Weather-resistantaluminum. Protective cover: Fiberglass.Attachment elbow: Hot-dip galvanized steel.
Mounting: E.g. by using clamps K 61 14 0… to tubular (please order separately) masts of 40 – 521 mm diameter.
Further attachment parts and mounting dimensions upon request.
Grounding: Via mounting parts.
Scope of supply: Directional antenna with one weather protectionunit each for straight connectors and elbowconnectors.
Ice protection: The dipoles remain fully functioning even in icyconditions as the fiberglass cover protects thewhole antenna and also the antenna is of a veryrobust design.
Combinations: The antenna is particularly suitable for use in combinations in order to achieve variousradiation patterns.
3 dB
10
0
62°
3 dB
10
0
28°
Horizontal Pattern Vertical Pattern
Radiation Patterns (at mid-band)
910
190
Weatherprotection
Examples with different connectors and mounting possibilities:
1020
64
Weatherprotection
All dimensions in mm
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 96
97
An
ten
nas
470
–862 M
Hz
UHF PanelPolarization
470–862 MHz
H
Order No. Polarization Max. Connector Connector Mounting Colorpower shape bracket
601 417 H 1 kW 7-16 female Traffic white
(K 72 31 47) RAL 9016
601 966 H 1 kW 7-16 female Traffic orange
RAL 2009
774 040 H 1 kW 7-16 female Traffic white
RAL 9016
774 041 H 1 kW 7-16 female Traffic orange
RAL 2009
774 052 H 1 kW 7-16 female Traffic white
RAL 9016
774 038 H 1.5 kW 7/8ʺ EIA flange Traffic white
RAL 9016
774 039 H 1.5 kW 7/8ʺ EIA flange Traffic orange
RAL 2009
715 022 H 2 kW 13-30 female Traffic white
RAL 9016
774 046 H 2 kW 13-30 female Traffic white
RAL 9016
774 047 H 2 kW 13-30 female Traffic orange
RAL 2009
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 97
98
Frequency range 470 – 862 MHz
VSWR s < 1.12
Gain (at mid-band) 11 dBd
Polarization Vertical
Weight 12 kg
Wind load (at 160 km/h) Frontal: 565 NRearside: 815 NLateral: 250 N
Max. wind velocity 225 km/h
Specifications
l Designed for open steel spinesl Suitable for transposers
Verticalpolarization
1000
190
500
UHF PanelPolarization
470–862 MHz
V
Material: Reflector screen and dipoles: Weather-resistantaluminum. Protective cover: Fiberglass.Attachment elbow: Hot-dip galvanized steel.
Mounting: E.g. by using clamps K 61 14 0… to tubular (please order separately) masts of 40 – 521 mm diameter.
Further attachment parts and mounting dimensions upon request.
Grounding: Via mounting parts.
Scope of supply: Directional antenna with one weather protectionunit each for straight connectors and elbowconnectors.
Ice protection: The dipoles remain fully functioning even in icyconditions as the fiberglass cover protects thewhole antenna and also the antenna is of a veryrobust design.
Combinations: The antenna is particularly suitable for use in combinations in order to achieve variousradiation patterns.
3 dB
10
0
62°
3 dB
10
0
28°
Horizontal Pattern Vertical Pattern
Radiation Patterns (at mid-band)
1020
64
Weatherprotection
Examples with different connectors and mounting possibilities:
1020
64
Weatherprotection
All dimensions in mm
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 98
99
An
ten
nas
470
–862 M
Hz
UHF PanelPolarization
470–862 MHz
V
Order No. Polarization Max. Connector Connector Mounting Colorpower shape bracket
601 709 V 1 kW 7-16 female Traffic white
(K 73 31 47) RAL 9016
602 371 V 1 kW 7-16 female Traffic orange
RAL 2009
769 731 V 1 kW 7-16 female Traffic white
RAL 9016
776 165 V 1 kW 7-16 female Traffic white
RAL 9016
776 166 V 1 kW 7-16 female Traffic orange
RAL 2009
750 10082 V 1.5 kW 7/8ʺ EIA flange Traffic white
RAL 9016
750 10083 V 1.5 kW 7/8ʺ EIA flange Traffic orange
RAL 2009
776 202 V 1.5 kW 7/8ʺ EIA flange Traffic white
RAL 9016
776 203 V 1.5 kW 7/8ʺ EIA flange Traffic orange
RAL 2009
776 167 V 2 kW 13-30 female Traffic white
RAL 9016
776 168 V 2 kW 13-30 female Traffic orange
RAL 2009
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 99
100
1020
64
Frequency range 470 – 862 MHz
VSWR s < 1.1
Gain (at mid-band) 11 dBd
Polarization Horizontal
Weight 10 kg
Wind load (at 160 km/h) Frontal: 565 NRearside: 815 NLateral: 250 N
Max. wind velocity 225 km/h
Specifications
l Especially designed for square steel spines
Horizontalpolarization
1000
190
500
UHF PanelPolarization
470–862 MHz
H
Material: Reflector screen and dipoles: Weather-resistantaluminum. Protective cover: Fiberglass.Attachment elbow: Hot-dip galvanized steel.
Mounting: E.g. by using clamps K 61 14 0… to tubular (please order separately) masts of 40 – 521 mm diameter.
Further attachment parts and mounting dimensions upon request.
Grounding: Via mounting parts.
Scope of supply: Directional antenna with one weather protectionunit each for straight connectors and elbowconnectors.
Ice protection: The dipoles remain fully functioning even in icyconditions as the fiberglass cover protects thewhole antenna and also the antenna is of a veryrobust design.
Combinations: The antenna is particularly suitable for use in combinations in order to achieve variousradiation patterns.
3 dB
10
0
56°
3 dB
10
0
26°
Horizontal Pattern Vertical Pattern
Radiation Patterns (at mid-band)
1020
64
Weatherprotection
Examples with different connectors and mounting possibilities:
All dimensions in mm
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 100
101
An
ten
nas
470
–862 M
Hz
UHF PanelPolarization
470–862 MHz
H
Order No. Polarization Max. Connector Connector Mounting Colorpower shape bracket
772 549 H 1 kW 7-16 female Traffic white
RAL 9016
772 550 H 1 kW 7-16 female Traffic orange
RAL 2009
750 10315 H 1 kW 7-16 female Traffic red
RAL 3020
750 10175 H 1 kW 7-16 female Stone grey
RAL 7030
750 10012 H 1.5 kW 7/8ʺ EIA flange Traffic white
RAL 9016
750 10013 H 1.5 kW 7/8ʺ EIA flange Traffic orange
RAL 2009
750 10031 H 1.5 kW 7/8ʺ EIA flange Traffic white
RAL 9016
750 10032 H 1.5 kW 7/8ʺ EIA flange Traffic orange
RAL 2009
773 000 H 2 kW 13-30 female Traffic white
RAL 9016
772 999 H 2 kW 13-30 female Traffic orange
RAL 2009
750 10016 H 3 kW 15/8ʺ EIA flange Traffic white
RAL 9016
750 10017 H 3 kW 15/8ʺ EIA flange Traffic orange
RAL 2009
773 333 H 3 kW 15/8ʺ EIA flange Traffic white
RAL 9016
773 332 H 3 kW 15/8ʺ EIA flange Traffic orange
RAL 2009
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 101
102
Order No. 601 787 750 10192K 72 36 47
Input 7-16 female
Max. power 750 W
Frequency range 470 – 790 MHz
VSWR s < 1.12
Gain (at mid-band) 8 dBd
Impedance 50 Ω
Polarization Horizontal
Weight 6 kg
Wind load (at 160 km/h) Frontal: 250 NRearside: 375 NLateral: 100 N
Max. wind velocity 225 km/h
3 dB
10
0
60°
3 dB
10
0
60°
Horizontal Radiation Pattern Vertical Radiation Pattern
A = B: 500 mmC: 190 mm
B
A
C
Weather protection
64
510
750 10192
All dimensions in mm
Radiation Patterns (at mid-band)
Material: Reflector screen and dipoles: Weather-resistant
aluminum. Protective cover: Fiberglass.
Colour: White, upon request orange.
Attachment: Hot-dip galvanized steel.
Mounting: E.g. by using clamps K 61 14 0… to tubular
(please order masts of 40 – 521 mm diameter.
separately) Further attachment parts and mounting
dimensions upon request.
Grounding: Via mounting parts.
Scope of supply: Directional antenna with one weather protection
unit each for straight connectors and elbow
connectors.
Ice protection: Even under severe icy conditions the antenna is
still functional due to its heavy-duty construction
and the fiberglass covers for the feeding points.
Combinations: The antenna is particularly suitable for use
in combinations in order to achieve various
radiation patterns.
Panel AntennaPolarization
470–790 MHz
H V
l Especially designed for multipattern antennas.
Weather protection
190
400
601 787
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 102
103
An
ten
nas
470
–862 M
Hz
Log.-Per. AntennaPolarization
470–862 MHz
H V
Order No. 601 584 601 695K 72 23 47 K 72 23 41
Material: Radiator: Weather-resistant aluminum.
Radome: Fiberglass, colour: Grey.
Mounting kit: Aluminum.
All screws and nuts: Stainless steel.
Mounting: To tubular masts of 48 – 115 mm diameter using
supplied clamps.
Grounding: Via mounting parts.
Ice protection: Since radiating system is fully protected by the
radome and due to its very sturdy construction,
the antenna remains fully operational even under
heavy icy conditions.
Combinations: Several antennas can be combined to increase
the gain and to produce radiation patterns with
very high side-lobe suppressions.
In H-Plane
3 dB
10
0
65°
l High side-lobe suppression.
Input 7-16 female N female
Max. power 100 W
Frequency range 470 – 862 MHz
VSWR < 1.25
Gain (at mid-band) 9 dBd
Impedance 50 Ω
Side-lobe suppression > 23 dB at 470 – 500 MHz> 25 dB at 500 – 862 MHz
Polarization horizontal or vertical
Weight 9 kg
Wind load (at 160 km/h)horizontal: frontal/lateral: 63 / 100 N
vertical: frontal/lateral: 63 / 500 N
Max. wind velocity horizontal: 225 km/hvertical: 180 km/h
In E-Plane
dB
10
53°
Radiation Patterns (at mid-band)
D
D
C
B
A
D: 140 mm
A: 1153 mm
B: 353 mm
C: 180 mm
For horizontal polarization
For vertical polarization
For horizontal polarization
For vertical polarization
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 103
104
l Low power Superturnstile antennasl Plug and Play Antennas fully assembledl Low wind load and low weight
UHF OmniPolarization
470–862 MHz
H
Order No. 750 10270 750 10271 750 10272
Input connector 7-16 female 7-16 female 7-16 female
Max. power 350 W 750 W 1 kW
Frequency range 470 – 862 MHz 470 – 862 MHz 470 – 862 MHz
VSWR ≤ 1.2 ≤ 1.2 ≤ 1.2
Gain (at mid-band) 2.0 dBd 4.5 dBd 7.5 dBd
Radome diameter 230 mm 230 mm 230 mm
Height 0.8 m 1.3 m 2.2 m
Weight 13 kg 16 kg 24 kg
Wind load (at 160 km/h) 110 N 200 N 370 N
Material: Omnidirectional antenna in protective fiberglass radome
with a diameter of 230 mm.
Radome color: Light grey (RAL 7035).
Flange: Hot-dip galvanized steel.
Attachment: Onto a fitting counterflange or to tubular masts by using
an optional steel adapter.
Grounding: Via mounting parts.
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 104
105
An
ten
nas
470
–862 M
Hz
UHF OmniPolarization
470–862 MHz
H
3 dB
10
0
Typical Horizontal Radiation Pattern
Horizontal Radiation Pattern(at mid-band)
Vertical Radiation Patterns(at mid-band)
100
50
0 10 20
E rel
30 40α°
750 10272
100
50
0 10 20
E rel
30 40α°
750 10270
100
50
0 10 20
E rel
30 40α°
750 10271
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 105
106
l Medium and high power Superturnstile antennasl Plug and Play Antennas fully assembledl Low wind load and low weight
UHF OmniPolarization
470–862 MHz
H
Order No. 767 006 750 10066 750 10067 750 10068 750 10069
Input connector 7-16 female 15/8ʺ EIA flange 15/8ʺ EIA flange 15/8ʺ EIA flange 31/8ʺ EIA flange
Max. power 1 kW 2.5 kW 5 kW 5 kW 7.5 kW
Frequency range 470 – 862 MHz 470 – 862 MHz 470 – 862 MHz 470 – 862 MHz 470 – 862 MHz
VSWR ≤ 1.1 ≤ 1.1 ≤ 1.1 ≤ 1.1 ≤ 1.1
Gain (at mid-band) 5.0 dBd 4.5 dBd 7.5 dBd 10.5 dBd 10.5 dBd
Radome diameter 300 mm 332 mm 332 mm 333 mm 333 mm
Height 1.2 m 1.4 m 2.4 m 4.8 m 4.8 m
Weight 20 kg 45 kg 70 kg 140 kg 145 kg
Wind load (at 160 km/h) 285 N 340 N 590 N 1200 N 1200 N
Material: Omnidirectional antenna in protective fiberglass radome.
Radome color: Light grey (RAL 7035) or customized.
Flange: Hot-dip galvanized steel.
Attachment: Onto a fitting counterflange or to tubular masts by using
an optional steel adapter.
Grounding: Via mounting parts.
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 106
107
An
ten
nas
470
–862 M
Hz
UHF OmniPolarization
470–862 MHz
H
Order No. 750 10180
Input connector 31/8ʺ EIA flange
Max. power 15 kW
Frequency range 470 – 862 MHz
VSWR ≤ 1.1
Gain (at mid-band) 12.0 dBd
Radome diameter 520 mm
Height 7.5 m
Weight 650 kg
Wind load (at 160 km/h) 4500 N
Available options for 750 10180:Hook-in ladderAviation warning light
3 dB
10
0
Typical Horizontal Radiation Pattern
100
50
0 5
E rel
10α°
100
50
0 5
E rel
10α°
750 10068 / 750 10069
100
50
0 10 20
E rel
30 40α°
750 10066
100
50
0 10 20
E rel
30 40α°
750 10067
750 10180
*) without null fillwith null fill and beam tilt
Vertical Radiation Patterns(at mid-band)
Examples of typical verticalradiation patterns*)
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 107
108
l Plug and Play Antennas
UHF OmniPolarization
470–750 MHz
V
Order No.750 10112 –
750 10060 750 10062 750 10063750 10118
Input connector 7-16 female 7-16 female 7-16 female 7/8ʺ EIA flange
Max. power 400 W 500 W 1 kW 1 kW
Frequency range 470 – 750 MHz 470 – 702 MHz 470 – 702 MHz 470 – 702 MHzin 7 subbands
VSWR ≤ 1.4 ≤ 1.3 ≤ 1.3 ≤ 1.3
Gain 6.5 – 8.0 dBd 3.0 – 4.5 dBd 5.5 – 7.0 dBd 5.5 – 7.0 dBd
Radome diameter 51 mm 230 mm 332 mm 332 mm
Height 3.1 m 1.4 m 1.9 m 1.9 m
Weight 8 kg 16 kg 40 kg 40 kg
Wind load (at 160 km/h) 250 N 230 N 470 N 470 N
Material: Omnidirectional antenna in protective fiberglass radome.
Radome color: Light grey (RAL 7035).
Flange: Hot-dip galvanized steel.
Attachment: Onto a fitting counterflange or to tubular masts by using
an optional steel adapter.
Grounding: Via mounting parts.
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 108
109
UHF OmniPolarization
470–750 MHz
V
10
3
0
Bd
Horizontal Radiation Pattern(at mid-band)
Vertical Radiation Patterns(at mid-band)
100
50
0 10 20
E rel
30 40α°
100
50
0 10 20
E rel
30 40α°
750 10115750 10112 – 750 10118
750 10060
750 10062 / 750 10063
100
50
0 10 20
E rel
30 40α°
750 10060
750 10162 / 750 10063
10
3
0
BddB
10
3
0
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 109
110
l Vertical Polarized Indoor Antenna for DVB-H
Input N female
Max. power 50 W (at 50 °C ambient temperature)
Frequency range 470 – 534 MHz 534 – 614 MHz 614 – 702 MHz 702 – 750 MHzCh 21 – Ch 28 Ch 29 – Ch 38 Ch 39 – Ch 49 Ch 50 – Ch 55
VSWR < 2.0
Gain (at mid-band) 5 dBd
Impedance 50 Ω
Polarization Vertical
Protection class IP 30
Weight 1390 g
Order No. 750 10120 750 10122 750 10124 750 10125
Material: Reflector: Brass.
Radome: High impact polystyrol, colour: White.
Additional painting is possible.
Mounting plates: Stainless steel.
Mounting: Two holes of 6 mm diameter in the mounting
plate. Screws are not supplied
Grounding: All metal parts inclusive the inner conductor are
DC grounded.
Indoor AntennaPolarization
470–750 MHz
V
A: 302 mmB: 243 mmC: 50 mm
3 dB
10
0
90°
Horizontal Radiation Pattern
Radiation Pattern (at mid-band)
A
C
B
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 110
111
An
ten
nas
470
–862 M
Hz
l Vertical Polarized Indoor Antenna for DVB-H
Indoor Omni AntennaPolarization
470–750 MHz
V
Input N female
Max. power 50 W (at 50 °C ambient temperature)
Frequency range 470 – 574 MHz 526 – 670 MHz 598 – 750 MHzCh 21 – Ch 33 Ch 28 – Ch 45 Ch 37 – Ch 55
VSWR < 2.0
Gain (at mid-band) 0 dBd
Impedance 50 Ω
Polarization Vertical
Protection class IP 30
Weight 450 g
Order No. 750 10130 750 10131 750 10132
Material: Reflector: Aluminum.
Radome: High impact polystyrol, colour: White.
Additional painting is possible.
Mounting: Three holes in the base enable a mounting on
the ceiling. Two types of screws are supplied.
For the N connector a hole in the ceiling with a
diameter of 35 mm is required.
Grounding: All metal parts including the inner conductor
are DC grounded.
A: 258 mmB: 77 mm
(without connector)
A
B
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 111
112
Typical Horizontal Pattern
3 dB
10
0
220°
Material: Radiator: Tin plated brass.
Reflector: Weather-proof aluminum.
Radome: High impact plastic, colour: Grey.
All screws and nuts: Stainless steel.
Mounting: Wall mounting: No additional mounting kit
needed.
For pipe mast mounting use clamps listed below
(order separately).
Ice protection: The radiating system is protected by the radome.
Due to its very sturdy construction, the antenna
remains operational even under icy conditions.
Grounding: All metal parts of the antenna as well as the
inner conductor are DC grounded.
Accessories (order separately)
734 360 2 clamps Mast: 34 – 60 mm diameter 60 g 1
734 361 2 clamps Mast: 60 – 80 mm diameter 70 g 1
734 362 2 clamps Mast: 80 – 100 mm diameter 80 g 1
734 363 2 clamps Mast: 100 – 120 mm diameter 90 g 1
734 364 2 clamps Mast: 120 – 140 mm diameter 110 g 1
734 365 2 clamps Mast: 45 – 125 mm diameter 80 g 1
Type No. Description RemarksWeight Units perapprox. antenna
A
C
Order No. 750 10128
Input N female
Max. power (total) 250 W
Frequency 470 – 862 MHz
VSWR 470 – 750 MHz: < 1.7750 – 862 MHz: < 2.2
Gain (at mid-band) 2 dBd
Impedance 50 Ω
Polarization Vertical
Protection class IP 33
Weight 0.8 kg
Wind load Frontal: 25 N (at 150 km/h)Lateral: 65 N (at 150 km/h)Rearside: 35 N (at 150 km/h)
Max. wind velocity 200 km/h
l Particulary suitable for DVB-Hl For indoor or outdoor use
Dipole AntennaPolarization
470–862 MHz
V
B
Radiation Pattern (at mid-band)
A: 310 mmB: 190 mmC: 55 mm
08_UHF_Antennen_08_UHF_Antennen 20.07.11 10:07 Seite 112
113
Syste
ms
14
52
–1492 M
Hz
Antenna Systems1452 – 1492 MHz
09_L-Band_Systeme_09_L-Band_Systeme 20.07.11 10:08 Seite 113
114
0
3
10
dB
Horizontal Radiation Pattern
Input 7-16 female
Max. power 800 W
Frequency 1452 – 1492 MHz
VSWR < 1.2
Gain 10.5 dBd
Impedance 50 Ω
Polarization Vertical
Half-power beam width Vertical: 9°
Height 3.000 mm (incl. lightning rod)
Weight 125 kg
Windload (at 160 km/h) 1.15 kN
Max. wind velocity 200 km/h
Order No. 759 13851
Material: Reflector screen and radiators: Copper.
Radomes: Fiberglass, colour: Grey.
Panel pipe: Hot-dip galvanized steel.
All screws and nuts: Stainless steel.
Mounting: Panel pipe mounted with suitable clamps or
additional flange on existing mast structures.
A version supplied with fixing flange is available
upon request.
Grounding: The metal parts of the antenna are DC grounded.
Also the inner conductors of the antenna panels
are DC grounded.
Packing infomation: Wooden crate: 2.700 x 800 x 900 mm
Total weight: 400 kg
Transmitting AntennaPolarization
1452–1492 MHz
V
09_L-Band_Systeme_09_L-Band_Systeme 20.07.11 10:08 Seite 114
115
Syste
ms
14
52
–1492 M
Hz
0
3
10
dB
Horizontal Radiation Pattern
Input 1 5/8ʺ EIA-flange
Max. power 3 kW
Frequency 1452 – 1492 MHz
VSWR < 1.2
Gain 13 dBd
Impedance 50 Ω
Polarization Vertical
Half-power beam width Vertical: 4.5°
Downtilt on request
Height 4.900 mm (excl. lightning rod)
Weight 160 kg
Windload (at 160 km/h) 1.85 kN
Max. wind velocity 200 km/h
Order No. 759 13232
Material: Reflector screen and radiators: Copper.
Radomes: Fiberglass, colour: Grey.
Panel pipe: Hot-dip galvanized steel.
All screws and nuts: Stainless steel.
Mounting: Panel pipe mounted with suitable clamps or
additional flange on existing mast structures.
A version supplied with fixing flange is available
upon request.
Grounding: The metal parts of the antenna are DC grounded.
Also the inner conductors of the antenna panels
are DC grounded.
Packing infomation: 2 wooden crate: approx. 2.700 x 800 x 900 mm
Total weight: 180 kg, each
Transmitting AntennaPolarization
1452–1492 MHz
V
09_L-Band_Systeme_09_L-Band_Systeme 20.07.11 10:08 Seite 115
116
0
3
10
dB
Horizontal Radiation Pattern
Input 1 5/8ʺ EIA-flange
Max. power 2 kW
Frequency 1452 – 1492 MHz
VSWR < 1.2
Gain 9.5 dBd
Impedance 50 Ω
Polarization Mixed polarized (+45° and –45°)
Beam tilt 3° or on request
Distance of panels 10.000 mm
Height 1302 mm per unit
Weight approx. 180 kg
Windload (at 160 km/h) 1.1 kN
Max. wind velocity 200 km/h
Order No. 759 14152
Material: Reflector screen and radiators: Copper.
Radomes: Fiberglass, colour: Grey.
Panel pipe: Hot-dip galvanized steel.
All screws and nuts: Stainless steel.
Mounting: Panel pipe mounted with suitable clamps or
additional flange on existing mast structures.
A version supplied with fixing flange is available
upon request.
Grounding: The metal parts of the antenna are DC grounded.
Also the inner conductors of the antenna panels
are DC grounded.
Models: Models 750 10094 (+45°) and 750 10194 (–45°)
L-Band Antenna Panel with 70° half-power
beamwidth, 3° electrical downtilt,
max. power 500 W, height 1302 mm
r+45° +45°
–45°
–45°
Transmitting AntennaPolarization
1452–1492 MHz
V
l Especially designed for large structures.
09_L-Band_Systeme_09_L-Band_Systeme 20.07.11 10:08 Seite 116
117
Po
wer
Sp
litt
ers
Power Splitters
10_Splitters_13_Splitters 20.07.11 10:08 Seite 117
118
High Power Splitters47 … 88 MHz, 87.5 – 108 MHz, 174 – 230 MHz, 470 – 862 MHz
Length approx. 2400 mm 1700 mm 850 mm 700 mm
with tuning unit approx. 2600 mm – 1500 mm 1000 mm
Input power 1 – 200 kW 1 – 200 kW 1 – 150 kW 1 – 70 kW
Connectors 7-16, 13-30, 7/8 , 1 5/8 , 3 1/8 , 4 1/2 , 6 1/8 EIA flange
(or other connectors upon request)
Impedance 50 Ω
VSWR < 1.05 in each frequency range
Insertion loss < 0.05 dB
Frequency 47 ... 88 87.5 – 108 174 – 230 470 – 862range MHz MHz MHz MHz
l All power splitters are matched in the whole frequency range with VSWR < 1.05.
l The additional tuning unit can be used to optimize the input impedanceof the antenna system on site.
l Special versions with unequal power splitting, alternative connectors or up to 16 outputs are available on request.
Material: Outer conductor: Brass with protective grey paint.
Inner conductor: Brass or aluminum.
Mounting: On flat surfaces using the standard mounting equipment
consisting of 2 bracket arms (supplied) or steel frame (order
separately).
Pressurization: The pressurization-tight transformer casing has an opening to
balance out excess pressure.
For pressurized operation (typically at 300 mbar) this opening
must be closed with the supplied sealing screw.
IP 65 (closed ventiation tube for pressurized operation)
IP 53 (opened ventilation tube for non-presserized operation)
Weather protection: The RF connectors can be additionally protected with the sealing
tape (please order separately).
Example:Tunable 16-way splitter with
different power splitting and with a measuring link.
Example:4-way splitter with standard-
attachment.
11 mm
11 mm
10_Splitters_13_Splitters 20.07.11 10:08 Seite 118
119
Po
wer
Sp
litt
ers
Medium Power Splitters47 … 88 MHz, 87.5 – 108 MHz, 174 – 230 MHz, 470 – 862 MHz
Length approx. 2400 mm 1650 mm 845 mm 560 mm
with tuning unit approx. 2600 mm – 1500 mm 860 mm
Input power 3 kW 2.5 kW 2 kW 1 kW
Connectors 7-16 female (other connectors upon request)
Impedance 50 Ω
VSWR < 1.05
Insertion loss < 0.05 dB
Frequency 47 ... 88 87.5 – 108 174 – 230 470 – 862range MHz MHz MHz MHz
l All power splitters are matched in the whole frequency range with VSWR < 1.05.
l The additional tuning unit can be used to optimize the input impedanceof the antenna system on site.
l Special versions with unequal power splitting, alternative connectors or up to 12 outputs are available on request.
l Power splitters for 66 – 72 MHz, 76 – 82 MHz, 82 – 88 MHz are available on request.
Material: Outer conductor: Brass with protective grey paint.
Inner conductor: Brass or aluminum.
Mounting: On flat surfaces using the standard mounting equipment supplied
(Bracket arm, 130 mm). To tubes of 30 – 340 mm diameter by
means of 2 tension band clamps Type No. 759 044 (please order
separately).
Pressurization: The pressurization-tight transformer casing has an opening to
balance out excess pressure.
For pressurized operation (typically at 300 mbar) this opening
must be closed with the supplied sealing screw.
IP 65 (closed ventiation tube for pressurized operation)
IP 53 (opened ventilation tube for non-presserized operation)
Weather protection: The RF connectors can be additionally protected with the sealing
tape (please order separately).
2 765 814 765 814 765 814 770 144 770 510 764 485 770 516 764 493
3 765 815 765 820 765 825 770 145 770 511 764 486 770 517 764 494
4 765 816 765 821 765 826 770 146 770 512 764 487 770 518 764 495
5 765 817 765 822 765 827 770 147 770 513 764 488 770 519 764 496
6 765 818 765 823 765 828 770 148 770 514 764 489 770 520 764 497
8 765 819 765 824 765 829 770 149 770 515 764 491 770 521 764 499
Order No. of available power splitters – without tuning unit – with tuning unit
Number 47 – 54 54 – 61 60 – 68 87.5 – 108 174 – 230 470 – 862 174 – 230 470 – 862of outputs MHz MHz MHz MHz MHz MHz MHz MHz
759 044
L 130 mm
10_Splitters_13_Splitters 20.07.11 10:08 Seite 119
120
Low Power Splitters174 – 230 MHz, 470 – 862 MHz and1452 – 1492 MHz
Order No. Description Remarks
736 801 1 clamp Mast: 34 – 60 mm diameter
736 802 1 clamp Mast: 60 – 80 mm diameter
736 803 1 clamp Mast: 80 – 100 mm diameter
736 804 1 clamp Mast: 100 – 120 mm diameter
736 805 1 clamp Mast: 120 – 140 mm diameter
Connector (female) N 7-16 N 7-16 N 7-16
Max. power 1 kW 2 kW 1 kW 2 kW 1 kW 2 kW
(at 50 °C ambient temp.)
Number of outputs 2 3 4
Frequency range 174 – 230 MHz
Impedance 50 Ω
VSWR < 1.07
Insertion loss < 0.05 dB
Max. size 800 / 82 / 82 mm
Order No. 768 343 768 334 768 344 768 335 768 345 768 336
174 – 230 MHz
Connector (female) N 7-16 N 7-16 N 7-16
Max. power 500 W 1 kW 500 W 1 kW 500 W 1 kW
(at 50 °C ambient temp.)
Number of outputs 2 3 4
Frequency range 470 – 862 MHz
Impedance 50 Ω
VSWR < 1.07
Insertion loss < 0.05 dB
Max. size 520 / 82 / 82 mm
Order No. 768 340 768 331 768 341 768 332 768 342 768 333
470 – 862 MHz
Material: Case: Aluminum.
Inner conductor: Brass.
Mounting: Bracket included for wall mounting.
May be attached to tubular masts using clamps
listed below (order separately).
Number of outputs 2 3 4
Connector (female) 7-16
Max. power 700 W
(at 50 °C ambient temp.)
Frequency range 1452 – 1492 MHz
Impedance 50 Ω
VSWR < 1.1
Insertion loss < 0.05 dB
Max. size 160 / 82 / 82 mm
Order No. 751 10281 751 10282 751 10283
1452 – 1492 MHz
768 332
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121
Po
wer
Sp
litt
ers
Low Power Splitter87.5 – 108 MHz
For connecting ... antennas 2 3 4
Input 7-16 female (equipment and antenna side)
Frequency range 87.5 – 108 MHz
VSWR < 1.07
Impedance 50 Ω
Max. power 500 W (at 50 °C ambient temperature)
Insertion loss < 0.15 dB
Maximum cable diameter For equipment and antenna side:7/8
Packing size 200 x 170 x 115 mm
Material: Housing: Weather-resistant cast aluminum.
Weather protection: UV-resistant weather-proof
housing.
Attachment: To tubular masts of 60 – 320 mm diameter
using supplied non-corrosive clamp strap
(1020 x 20 x 1 mm).
Order No. 751 10215 751 10216 751 10217
Outputs
Outputs
Input
Compact broadband power splitter for low-loss connection of several antennas:
Low power splitters for connecting several antennas
Example 4-way antenna splitter
A: 140 mmB: 110 mmC: 80 mmD: 100mm
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122
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123
Furt
her
Com
pone
nts
Components for Antenna Systems
Filter and CombinersPatch PanelsDehydrators
Coaxial Cables and AccessoriesDirect Access UnitsMounting Hardware
Furt
her
Com
pone
nts
11_Further_Components.indd 123 20.07.11 10:11
124
Filters and CombinersFM
l Easy expandable system design.l Temperature compensated.l High Q-cavities enable close channel spacing. High Q-cavities enable close channel spacing. High Q-cavities enable close channel spacing. High Q-cavities enable close channel spacing.
-5 -4 -3 -2 -1 f 0 +1 +2 +3 +4 +5
High Q-cavities enable close channel spacing.
5
0
4
3
2
1
-0.4 -0.2 f 0 +0.2 +0.4 8.0+6.0+6.0-8.0- +1.0-1.0
50
0 High Q-cavities enable close channel spacing.0 High Q-cavities enable close channel spacing.
40
30
20
10Atte
nuat
ion/
dBl
uatio
n/dBl High Q-cavities enable close channel spacing.
uatio
n/dB High Q-cavities enable close channel spacing.
Frequency/MHz
Atte
nuat
ion/
dB
Frequency/MHz
BCACombiners and Filters for
FM Broadcast and TV Systems
ABRIDGEMENT
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Furt
her
Com
pone
nts
Filter and CombinersVHF, UHF
l Several transmitters can be combined to one common antenna.l Kathrein supplies products of high quality brands.
Photo: Spinner
Photo: Exir
Photo: Comtech
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Patch Panels
l Switching device for: – different transmitters – antenna halves – backup systems – dummy loads
Easy connection and disconnectionof switching ports by special U-Links
Dummyload
Antenna
Example: 3-ports, 1 U-Link
Transmitter
Example: 6-ports, 3 U-Links
Transmitter
HalfAntenna
HalfAntenna
Easy connection and disconnection of switching ports by special U-Links
Patch panel in combination with a UHF combiner
Photo: Spinner Photo: Exir
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Dehydrators
l Continuous air pressure within RF transmission lines.l Prevents the occurance of humidity and condensation.l Maintenance-free with fully automatic regeneration.l 19ʺ rack-mounted or wall-mounted.
Dehydrator
Dual feeder system
Air distributor
Cable connector Gas inlet
Plastic air hose
Typical ventilating system
Photo: Friedl + Müller Photo: Cibred
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Coaxial Cablesand Accessories
l Branch cables completely configurated, phase-adjusted and fully tested.l Feeder cables incl. accessories up to 61/8ʺ.l Fire retardant jacket available.l Air or foam dielectric cables.
Photo: RFS Photo: RFS
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Direct Access Units
l Quick and direct access to feeder cables.l Accurate measurements of VSWR and electrical length.l Antenna testing and tuning without dismantling the connected feeders.l For outdoor application.l Suitable for all broadcast standards.
Normal operation
Through-section
Antennamain splitter
Main feeder Main feeder
Antennamain splitter
Measurement insert
Measurement operation
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Mounting Hardwarefor UHF Panels
Components for mounting UHF panels to pipe masts.
Material: Hot-dip galvanized steel. Stainless steel bolts and nuts are supplied.
Pair of clamps for one UHF panelOrder No. Suitable for pipe
mast of mm ∅Weight
kg600 481 K 61 14 01 40 – 95 1.6600 482 K 61 14 02 60 – 115 1.6600 483 K 61 14 03 115 – 210 4.0600 484 K 61 14 04 210 – 380 7.2600 821 K 61 14 05 380 – 521 10.2
Tilt brackets (pair)Order No. 600 504 (K 61 30 1)
For beam tilt down to 10°
Slant compensation kitOrder No. 600 505 (K 61 30 2)
Pair of plates for compensating the slant (15 mm per m) on tapered masts
Pair of clamps 600 483
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Mounting Hardwarefor UHF Panels
Components for mounting UHF panels to pipe masts.
Material: Hot-dip galvanized steel. Stainless steel bolts and nuts are supplied.
Remark: The radius from the center of the array to the reference point of the panel is given by the distance A.
Pair of clamps for two UHF panelOrder No. Suitable for pipe
mast of mm ∅Weight
kgDistance
A/mmAngle α between directions of the two UHF panels
600 869600 870600 871
K 61 15 11K 61 15 12K 61 15 13
70 – 150150 – 300300 – 400
6.48.88.8
308 80°
600 843600 844600 845
K 61 15 21K 61 15 22K 61 15 23
70 – 150150 – 300300 – 400
6.48.88.8
266 90°
Pair of clamps for three UHF panelOrder No. Suitable for pipe
mast of mm ∅Weight
kgDistance
A/mmAngle α between directions of the three UHF panels
600 846600 847600 848
K 61 15 31K 61 15 32K 61 15 33
70 – 150150 – 300300 – 400
8.49.29.2
308 80°
600 849600 850600 851
K 61 15 41K 61 15 42K 61 15 43
70 – 150150 – 300300 – 400
8.49.29.2
266 90°
Pair of clamps for four UHF panelOrder No. Suitable for pipe
mast of mm ∅Weight
kgDistance
A/mmAngle α between directions of the four UHF panels
600 875600 991600 874
K 61 15 52K 61 15 61K 61 15 62
150 – 300 70 – 150150 – 260
272626
308258258
80°90°90°
Special features: A part of the mount can be swivelled out for easier mast climbing.
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Mounting Hardware
Components for mounting antennas or splitters to pipe masts.
Stainless steel bolts and nuts are supplied.
Pair of clamps for one VHF panelOrder No. Suitable for pipe
mast of mm ∅Weight
kg600 479 K 61 12 0 60 – 115 3.4600 480 K 61 13 0 115 – 210 4.5
Pair of clamps for one VHF panelOrder No. Suitable for pipe
mast of mm ∅Weight
kg601 647 K 61 16 01 77 5.8602 052 K 61 16 02 60 – 125 5.6
Tension band for mounting medium power splittersOrder No. Suitable for pipe
mast of mm ∅Weight
kg759 044 30 – 340 0.65
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133
Tech
nica
lA
nnex
Technical Annex
3 dB
10
0Te
chni
cal
Ann
ex
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Antenna SystemConfigurations
Three-sided Panel Array
The individual panels are designed to cover an azimuth sector of 120 degrees and three panels fed with equal power will result in an omni-directional pattern. Directional horizontal radiation patterns can be achieved by using a different panel arrangement and/or feeding the panels with unequal power levels. This arrangement is especially suitable for triangular and round towers or masts. These broadband systems are available with horizontal or circular polarization.
Four-sided Panel Array
The individual panels are designed to cover an azimuth sector of 90 degrees so that four panels fed with equal power will produce an omni-directional pattern. Again, directional horizontal radiation pattern can be produced with other panel arrangements and unequal power fed to various panels in the array.This configuration is especially suitable for square towers or masts.These broadband systems can be supplied for any polarization.
Turnstile and Superturnstile-Antennas
This type of antenna (also known as a “batwing”) produces an excellent horizontally polarized omni-directional pattern.A metal mast can be placed in the center of a turnstile-antenna as long as the mast has a small diameter relative to the wave-length of the signal.
3 dB
10
0
3 dB
10
0
3 dB
10
0
3 dB
10
0
3/7 P
3/7 P
1/7 P
4/10 P
4/10 P
1/10 P
1/10 P
Kathrein offers a wide variety of antenna systems, allowing the broadcaster to select the optimum configuration for each station.Following is an overview of various arrays and their typical characteristics and advantages.
Equal power splitting
Equal power splitting
Pane
l arr
ange
men
tPa
nel a
rran
gem
ent
Hor
izon
tal
radi
atio
n pa
ttern
(at m
id-b
and)
Hor
izon
tal
radi
atio
n pa
ttern
(at m
id-b
and)
Different power splitting
Different power splitting
~0.7 λ
0.5 λ 0.25 λ
~0.7 λ
0.5 λ 0.25 λ
Superturnstile Antenna
Turnstile Antenna
jU
U~~ 90°
ϑ
ϑ
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Tech
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Antenna SystemConfigurations
Multi-panel Array
If the cross section of the mast or tower is more than one wavelength it is impossible to obtain a satisfactory omni-directional horizontal radiation pattern using three or four panels per bay. However, an omni pattern can be achieved by increasing the number of panels per bay.The horizontal patterns of these “multi-panel” arrays will vary with frequency, but they can be designed for excellent omni performance over limited bandwidths.Multi-panel arrays are available with horizontal or vertical polarization.
Special Antenna Systems Inside Self-supporting GRP Towers
A large-diameter GRP (Glass Reinforced Plastic) pipe can be utilized to substitute a metal support structure and enclose an antenna system.The GRP pipe is transparent to RF energy and it allows the antenna engineer to use an optimized antenna design with a small cross-section at the center of the pipe. Antenna elements may be dipoles or turnstiles.The GRP pipe also provides excellent protection against severe environmental conditions such as rain, ice, snow, wind and corrosive agents and it allows access for inspections and maintenance at any time.Horizontally and vertically polarized systems can be supplied.
Relay Receiving Antennas
For professional receive applications such as transposer/translator inputs Kathrein offer a full range of antennas including yagis and logarithmic-periodic types.UHF models are equipped with radomes to assure reliable operation in icing conditions and to protect the antennas against weather damage.
Arrays of these antennas are available to provide very high gain, extremely narrow main lobes, and high rejection of co-channel and other interfering signals coming into the rear and sides of the array. Receiving antennas and arrays are available with either horizontal or vertical polarization.
Examples for Radiation Patterns
47 … 88 MHz
174 – 230 MHz
47 … 88 MHz
470 – 860 MHz
3 units K 52 16 8..
3 units K 52 22 5..
2 units K 52 22 1..
4 units K 72 23 4..
3 dB
10
0
10 dB expanded
3 dB
10
0
10 dB expanded
3 dB
10
0
10 dB expanded
3 dB
10
0
10 dB expanded
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Glossary of BroadcastAntenna Terms
Antenna Gain
The gain of an array describes the increase of signal in the main radiation direction which is produced by reducing radiation in all other directions and concentrating it in the main beam. The gain of a broadcast antenna system is normally increased by using a larger number of vertical bays (increasing the vertical aperture) and thereby forming a more narrow vertical radiation pattern.In the case of a directional antenna system the gain is increased by reducing or eliminating radiation toward azimuth segments and re- directing it toward the areas where coverage is desired.
When calculating the gain of an array the losses in the feeder cables and the power splitters must be taken into account.
Downtilt in Panel Arrays
When transmitting antennas are located on ele-vated sites it is often beneficial to tilt the main beam of the vertical radiation pattern downward to provide higher signal levels in the areas to be served. There are two ways to accomplish downtilt (also known as “beam tilt”). The panels can be mechanically tilted to direct the beam downward, or phase differences can be introduced into the array feeder system to achieve electrical tilt.
Impedance Tuning
While the VSWR of a well-designed antenna system can be optimized by the use of tuning devices it is not possible to achieve broad bandwidth by compensating for poor components with tuners.The characteristics of a truly high quality antenna system are established in many ways, beginning with proper component design and manufacture followed by competent system design and installation.
Mast or Tower Dimensions for Panel Arrays
The radiation pattern of a panel array depends on the relative positions of the individual panels in space and the relative amplitude and phase of the RF energy fed to each panel. Therefore it is necessary to have exact dimensional information about the supporting tower or mast if one is to optimize an array design.
The cross section of the mast or tower should be less than one wavelength for a good omni pattern. As the cross section increases beyond one wavelength nulls in the horizontal radiation pattern will rapidly become deeper.
Measurement Links
When large-diameter coax lines are used in an antenna system it is not possible to easily connect measurement equipment without dis assembly of the coax system. In these cases it is advisable to install measurement links in the coax feeders to allow convenient connection of test equipment to the antenna system.
Mismatch Compensation
In a broadcast panel array the impedance match of individual panels can be disturbed by mutual coupling, icing and the presence of nearby obstacles. For this reason it is necessary to design the feed system so as to cancel reflections within the array and thereby minimize the presence of reflected signal at the antenna system input. This technique is also known as impedance compensation.
Null Fill
Panel arrays with multiple vertical bays will exhibit deep nulls in the vertical radiation pattern if all bays are fed with equal phase and amplitude. It is important to fill these nulls for proper signal coverage.For TV systems it is not sufficient to provide the minimum signal level, but it is necessary to make the direct signal bigger than any reflexion to avoid ghost pictures.
There are three methods of introducing null fill in a panel array:
– Mechanically tilting some panels downward – Using a non-linear phase taper between bays– Using an unequal power split between bays
Since some energy is taken from the main beam to fill the null, the maximum gain of the antenna system will be reduced, typically 0.5 to 1.5 dB, when null fill is introduced.
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Glossary of BroadcastAntenna Terms
Polarization
The polarization is defined as the direction of the electrical vector, in practice the plane of the dipoles.The electric field of an antenna system can be split into a horizontal and a vertical component. If there is only one component, the polarization is pure horizontal or vertical (plane polarized). If there are two components which are not in phase, the polarization is elliptical.For slant polarization both must exist and they must be in phase.When an antenna produces vertically and horizontally polarized fields with equal amplitude and with a phase difference of exactly 90 degrees, the resulting signal is circularly polarized.
Power Rating of Components
Generally, the power rating of components refers to the maximum CW power (or mean power) level that can be applied to the input.The maximum mean power output of a TV transmitter occurs during transmission of a black picture and it is typically equal to 70 % of the peak sync power level.
Split Antenna Systems
An antenna system can usually be divided into upper and lower halves which can be operated separately.This arrangement allows the use of one half for broadcast operations while the other half is available for painting or maintenance or other work that must be performed in close proximity to the antenna.
The signal level will be reduced by 6 dB if one half of the antenna is fed with one half of the normal transmitter power. If the full transmitter power is available, the use of one half of the antenna will reduce the signal level by only 3 dB.
It will be necessary to climb the mast or tower to perform antenna switching unless a coax patch panel is installed at the transmitter output with two main feeders up to the antenna inputs.
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The following information is required to design an optimum antenna system for you:Company information:Company name:Contact person:Address:Phone:Fax:E-mail:Station information:Station name:Coordinates:Station height (m): Antenna height (m):
Project information:Polarization: Horizontal Vertical Circular Elliptical Frequency (MHz) or channels:Transmitter power (kW):Min. power rating for system (kW): Analog Digital Antenna gain: Number of bays: ERP:Combiner: Yes No Direct Access Unit: Yes No Patch panel: Yes No Half antenna mode No Half power Full power 1 Feeder 2 Feeders Horizontal Radiation Pattern:Omnidirectional or directional(if directional specify requirements)
Vertical Radiation Pattern:Beam tilt (in degrees):Null-fill (in %):Tower / Mast:Square Triangular Round Pipe mast Azimuth direction of tower face:Side length or diameter:Vertical antenna aperture:Feeder cable:Air Foam Size: Connectors:Length (m): Dehydrator: Yes No Remarks:e.g. special climatic conditions
Please contact: KATHREIN-Werke KG · Department BCA · e-mail: broadcast@kathrein.deFax +49 8031 184-495 · Anton-Kathrein-Str. 1 – 3 · P.O. Box 10 04 44 · D-83004 Rosenheim · Germany
Tech
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Internet: www.kathrein.de E-Mail: broadcast@kathrein.de
KATHREIN-Werke KG · Phone +49 80 31 184-0 · Fax +49 80 31 184-495Anton-Kathrein-Straße 1 – 3 · P.O. Box 10 04 44 · D-83004 Rosenheim · Germany
9981
.157
4/07
11/5
/ZW
T/M
M
Sub
ject
to a
ltera
tion.
Prof
essi
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Bro
adca
st A
nten
nas
00_Umschlag_TS_DAB.indd 3 20.07.11 10:50
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