Broadcast Antenna Systems for FM, TV, MMDS, DAB and DVB Photo on title page: Antenna System with 12 bays for DVB-T. Catalogue Issue 06/2007 Kathrein Plant IV near Rosenheim, Germany 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, MMDS, 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 our claim “Quality leads the way” on a daily basis. One of the fundamental principles is to always be on the lookout for the best solution for our customer. 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. 3 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. 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. 4 Band I (VHF) Antenna Systems 47 ... 88 MHz Band I (VHF) Antennas 47 ... 88 MHz Antenna Systems The antenna systems listed are examples of typical configurations. The mechanical and electrical data can be used to estimate gain, size and mechanical loads of a system. The final configuration and technical data of an individually designed antenna system, meeting the customer’s specific 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 II (FM) Antenna Systems 87.5 – 108 MHz Band II (FM) Antennas 87.5 – 108 MHz Band III (VHF) Antenna Systems 174 – 230 MHz Band III (VHF) Antennas 174 – 230 MHz Band IV/ V (UHF) Antenna Systems 470 – 862 MHz Band IV/ V (UHF) Antennas 470 – 862 MHz L Band Antenna Systems 1452 – 1492 MHz L Band Antennas 1452 – 1492 MHz MMDS 2500 – 2700 MHz Relay Receiving Antennas and Special Antenna Systems Power Splitters Further Components Technical Annex Summary of Types The articles are listed by type number in numerical order. Type No. Page 715 ... Type No. Page Type No. Page Type No. Page 750 10060 108 751 10282 144 764 487 143 751 10283 144 764 488 143 764 489 143 764 491 143 764 493 143 764 494 143 764 495 143 764 496 143 764 497 143 764 499 143 715 022 94 750 10062 109 715 849 36 750 10082 100 750 10083 100 750 10085 73 732 ... 732 319 157 750 10086 45 732 327 157 750 10094 128 752 ... 752 183 754 ... 754 154 734 ... 43 750 101.. 734 360 157 750 10112 110 755 ... 734 361 157 750 10113 110 755 587 734 362 157 750 10114 110 734 363 157 750 10115 110 757 ... 734 364 157 750 10116 110 757 629 734 365 157 750 10117 110 750 10118 110 759 ... 750 10120 111 759 044 750 100.. 6 38 43 765 ... 765 537 132 765 814 143 765 815 143 765 816 143 158 765 817 143 43 750 10008 38 750 10122 111 759 13232 117 765 818 143 750 10012 103 750 10124 111 759 13851 116 765 819 143 750 10013 103 750 10125 111 759 14152 118 765 820 143 750 10016 102 750 10128 113 765 821 143 750 10017 102 750 10130 112 761 ... 765 822 143 750 10022 44 750 10131 112 761 327 765 823 143 750 10023 44 750 10132 112 765 824 143 750 10025 82 750 10183 40 765 825 143 750 10026 82 750 10190 127 762 109 43 765 826 143 750 10031 102 750 10191 127 762 943 50 765 827 143 750 10032 102 750 10194 128 765 828 143 750 10033 75 765 829 143 750 10034 51 751 ... 750 10035 51 751 10215 145 750 10045 101 751 10216 145 764 ... 750 10046 101 751 10217 145 764 485 750 10047 101 751 10281 144 764 486 105 762 ... 763 ... 763 715 50 766 ... 766 393 132 143 766 394 132 143 766 396 133 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 766 397 133 768 331 144 770 518 143 772 999 103 766 398 133 768 332 144 770 519 143 766 400 133 768 333 144 770 520 143 773 ... 766 401 133 768 334 144 770 521 143 773 000 103 766 402 133 768 335 144 770 652 121 773 332 103 766 404 133 768 336 144 770 653 124 773 333 103 766 405 133 768 340 144 770 721 129 773 361 80 766 406 133 768 341 144 770 722 129 773 643 70 766 614 84 768 342 144 770 732 120 768 343 144 770 733 120 768 344 144 770 776 49 774 038 95 767 ... 774 ... 767 006 106 768 345 144 770 777 49 774 039 95 767 141 70 768 476 41 770 793 120 774 040 95 767 194 132 768 494 75 770 794 120 774 041 95 767 195 132 770 795 120 774 046 95 767 196 132 769 ... 770 881 106 774 047 95 767 198 133 769 006 80 770 947 122 774 052 96 767 199 133 769 731 99 770 948 123 774 321 37 767 200 133 767 202 133 770 ... 767 203 133 770 144 143 771 038 130 775 000 53 767 204 133 770 145 143 771 304 107 775 001 53 767 206 133 770 146 143 771 870 129 775 002 53 767 207 133 770 147 143 771 917 126 775 130 50 767 208 133 770 148 143 775 738 48 767 230 132 770 149 143 772 ... 775 838 48 767 231 132 770 510 143 772 310 125 775 861 107 767 232 132 770 511 143 772 500 39 767 234 132 770 512 143 772 501 39 767 235 132 770 513 143 772 502 39 767 236 132 770 514 143 772 549 103 770 515 143 772 550 103 770 516 143 772 899 81 770 517 143 772 900 81 768 ... 768 000 72 771 ... 775 ... ... 7 Summary of Types The articles are listed by type number in numerical order. Type No. Page 776 ... Page Type No. Page Type No. K 52 31 188 36 K 61 14 01 155 K 73 ... Page 776 012 135 K 52 31 51 71 K 61 14 02 155 K 73 31 41 98 776 015 104 K 52 31 57 71 K 61 14 03 155 K 73 31 47 98 776 064 83 K 52 31 81 7 16 K 61 14 04 155 776 165 97 K 52 31 82 7 16 K 61 14 05 155 776 166 97 K 52 31 83 7 16 K 61 15 11 156 776 167 97 K 52 31 84 7 16 K 61 15 12 156 776 168 97 K 52 31 85 7 16 K 61 15 13 156 776 202 97 K 52 31 86 7 16 K 61 15 21 156 776 203 97 K 52 33 57 67 K 61 15 22 156 K 52 33 58 67 K 61 15 23 156 K 52 34 17 38 K 61 15 31 156 K 52 ... 8 Type No. K 52 07 517 78 K 52 34 517 69 K 61 15 32 156 K 52 07 527 78 K 52 34 527 69 K 61 15 33 156 K 52 07 537 78 K 52 34 81 7 17 K 61 15 41 156 K 52 14 17 47 K 52 34 82 7 17 K 61 15 42 156 K 52 14 517 77 K 52 34 83 7 17 K 61 15 43 156 K 52 14 527 77 K 52 34 84 7 17 K 61 15 52 156 K 52 16 81 7 18 K 52 34 85 7 17 K 61 15 61 156 K 52 16 82 7 18 K 52 34 86 7 17 K 61 15 62 156 K 52 16 83 7 18 K 52 40 17 46 K 61 16 01 158 K 52 16 84 7 18 K 52 40 517 74 K 61 16 02 158 K 52 16 85 7 18 K 52 40 527 74 K 61 30 1 155 K 52 16 86 7 18 K 61 30 2 155 K 52 17 517 76 K 53 ... K 52 17 527 76 K 53 32 187 42 K 72 ... K 52 17 537 76 K 53 32 188 42 K 72 23 41 105 K 52 22 17 52 K 53 33 57 68 K 72 23 47 105 K 52 22 51 79 K 53 33 58 68 K 72 31 47 94 K 52 22 57 79 K 72 31 57 104 K 52 30 57 66 K 61 ... K 72 36 41 93 K 52 30 58 66 K 61 12 0 158 K 72 36 47 93 K 52 31 187 36 K 61 13 0 158 Systems 47... 88 MHz Antenna Systems 47 ... 88 MHz 9 TV Transmitting Antenna with dipole panels K 52 31 8.. 47 … 88 MHz Antenna array of dipole panels K 52 31 8.. for different radiation patterns, especially suitable for mounting on square masts. ● 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. Max. power Vertical radiation pattern Horizontal radiation pattern Half antenna splitting Pressurization Painting Grounding Max. wind velocity Connectors according to IEC, EIA or DIN. One channel in Band I (47 … 88 MHz) s < 1.05 in one channel 50 Ω Horizontal Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. According to customer’s requirements. Null fill and beam tilt upon request. Omnidirectional, directional or custom-designed. Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. Splitters and connecting cables can be supplied with dry air (please specify when ordering). If required, the antenna is painted in aviation warning colours. Via mounting parts. 225 km/h H Input Frequency range VSWR Impedance Polarization Internal connections S ● 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 dB Frequency in MHz Frequency in MHz Frequency in MHz bay 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 2 3 4 2 3 4 2 3 4 2 3 4 5 6 2 3 4 5 6 2 3 4 5 6 1 2 4 6 8 2 3 4 2 3 4 2 3 4 2 3 4 2 3 4 5.4 3.5 2.0 8.4 6.6 5.0 11.5 9.6 8.1 13.3 11.4 9.9 14.5 12.6 11.1 280 450 620 620 950 1250 1250 1750 2500 1750 2770 3700 2500 3700 4920 250 400 540 540 840 1100 1100 1550 2200 1550 2450 3260 2200 3260 4350 220 350 460 460 750 970 970 1480 1960 1480 2200 2920 1960 2920 3900 200 320 440 440 700 900 900 1360 1800 1360 2000 2700 1800 2700 3560 190 300 420 420 660 850 850 1300 1710 1300 1900 2550 1710 2550 3370 180 300 400 400 630 800 800 1250 1630 1250 1820 2420 1630 2420 3200 4.0 6.0 7.3 8.0 12.0 14.5 16.0 24.0 29.0 24.1 36.0 43.6 32.1 48.1 58.1 3.5 5.3 6.5 7.0 10.6 13.0 14.0 21.2 26.0 21.0 31.8 39.0 28.0 42.4 52.0 3.3 5.0 6.0 6.5 10.0 12.0 13.0 20.0 24.0 19.5 30.0 36.0 26.0 40.0 48.0 3.2 4.8 5.9 6.3 9.6 11.8 12.6 19.2 23.6 18.9 28.8 35.4 25.2 38.4 47.2 * 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 dB null fill: 0.3 – 1.0 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). 10 2.8 4.2 5.3 5.6 8.5 10.5 11.2 17.0 21.0 16.8 25.5 31.5 22.4 34.0 42.0 2.6 3.9 4.8 5.2 7.8 9.5 10.4 15.6 19.0 15.6 23.4 28.5 20.8 31.2 38.0 4.5 4.0 3.6 3.3 2.9 2.7 10.9 (6.4) 9.6 (5.6) 8.6 (5.0) 8.0 (4.7) 7.0 (4.1) 6.5 (3.8) 23.7 (6.4) 20.8 (5.6) 18.6 (5.0) 17.4 (4.7) 15.2 (4.1) 14.1 (3.8) 36.5 (6.4) 32.0 (5.6) 28.6 (5.0) 26.7 (4.7) 23.3 (4.1) 21.7 (3.8) 49.3 (6.4) 43.2 (5.6) 38.6 (5.0) 36.1 (4.7) 31.5 (4.1) 29.3 (3.8) Systems 47... 88 MHz TV Transmitting Antenna with dipole panels K 52 31 8.. 47 … 88 MHz Horizontal Radiation Patterns Vertical Radiation Patterns Examples of typical horizontal antenna arrays and their horizontal radiation patterns for minimal mast dimensions. Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. 2 bays Equal power splitting 1,0 E rel 0,5 0 10 20 30 α° 40 30 α° 40 30 α° 40 30 α° 40 4 bays 1,0 E rel 0,5 3 0 dB 3 10 dB 10 0 10 20 0 Equal power splitting Different power splitting 4/10 P 6 bays 1,0 E rel 1/10 P 0,5 4/10 P 0 10 20 1/10 P 8 bays 1,0 E rel 0,5 0 dB 3 3 dB 10 10 0 10 20 *) without null fill with null fill and beam tilt 0 11 TV Transmitting Antenna with dipole panels K 52 34 8.. 47 … 88 MHz Antenna array of dipole panels K 52 34 8.. for different radiation patterns, especially suitable for mounting on triangular or round masts. ● 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. Max. power Vertical radiation pattern Horizontal radiation pattern Half antenna splitting Pressurization Painting Grounding Max. wind velocity Connectors according to IEC, EIA or DIN. One channel in Band I (47 … 88 MHz) s < 1.05 in one channel 50 Ω Horizontal Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. According to customer’s requirements. Null fill and beam tilt upon request. Omnidirectional, directional or custom-designed. Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. Splitters and connecting cables can be supplied with dry air (please specify when ordering). If required, the antenna is painted in aviation warning colours. Via mounting parts. 225 km/h H Input Frequency range VSWR Impedance Polarization Internal connections S ● 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 dB Frequency in MHz Frequency in MHz Frequency in MHz bay 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 2 3 4 2 3 4 2 3 4 2 3 4 5 6 2 3 4 5 6 2 3 4 5 6 1 2 4 6 8 2 3 2 3 2 3 2 3 2 3 3.9 1.7 6.9 4.7 9.9 7.7 11.7 9.5 12.9 10.7 310 470 650 990 1310 1910 1910 2820 2600 3800 275 410 550 820 1095 1645 1645 2645 2190 3290 250 375 500 750 1000 1500 1500 2250 2000 3000 235 350 470 700 935 1405 1405 2105 1870 2810 205 310 410 620 825 1235 1235 1855 1650 2470 195 290 390 580 775 1165 1165 1745 1550 2330 3.9 5.7 7.9 11.4 15.8 22.8 23.6 31.5 34.2 45.6 3.4 5.1 6.7 10.1 14.4 20.2 20.1 30.3 26.8 40.4 3.3 4.8 6.5 9.6 13.0 19.2 19.5 28.8 26.0 38.4 3.0 4.4 6.0 8.8 12.0 17.6 18.0 26.4 24.0 35.2 * 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 dB null fill: 0.3 – 1.0 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). 12 2.8 4.1 5.5 8.1 11.0 16.2 16.5 24.3 22.0 32.4 2.5 3.8 5.0 7.5 10.0 15.0 15.0 22.5 20.0 30.0 4.5 4.0 3.6 3.3 2.9 2.7 10.9 (6.4) 23.7 (6.4) 36.5 (6.4) 49.3 (6.4) 9.6 (5.6) 20.8 (5.6) 32.0 (5.6) 43.2 (5.6) 8.6 (5.0) 18.6 (5.0) 28.6 (5.0) 38.6 (5.0) 8.0 (4.7) 17.4 (4.7) 26.7 (4.7) 36.1 (4.7) 7.0 (4.1) 15.2 (4.1) 23.3 (4.1) 31.5 (4.1) 6.5 (3.8) 14.1 (3.8) 21.7 (3.8) 29.3 (3.8) Systems 47... 88 MHz TV Transmitting Antenna with dipole panels K 52 34 8.. 47 … 88 MHz Horizontal Radiation Patterns Vertical Radiation Patterns Examples of typical horizontal antenna arrays and their horizontal radiation patterns for minimal mast dimensions. Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. 2 bays Equal power splitting 1,0 E rel 60° 0,5 0 10 20 30 α° 40 30 α° 40 30 α° 40 30 α° 40 4 bays 1,0 E rel 0,5 3 0 dB 3 10 dB 10 0 10 20 0 Different power splitting 3/4 P 3/7 P 6 bays 1,0 E rel 60° 0,5 0 1/7 P 1/4 P 10 20 3/7 P 8 bays 1,0 E rel 0,5 0 3 dB 3 10 dB 10 0 10 20 *) without null fill with null fill and beam tilt 0 13 14 Antennas 47... 88 MHz Antennas for TV in lower VHF Band 47 ... 88 MHz Model Types: K 52 16 8. ., K 52 31 8. ., K 52 34 8. . Type No. Description Frequency range Gain Polarization Page K 52 31 8. . Directional Antenna, steel 47 ... 88 MHz 7.5 dB horizontal 16 K 52 34 8. . Directional Antenna, steel 47 ... 88 MHz 7.0 dB horizontal 17 K 52 16 8. . 8 Element Yagi Antenna, aluminum 47 ... 88 MHz 6.0 dB horizontal or vertical 18 15 K 52 31 8. . Directional Antenna 47 ... 88 MHz ● ● Directional antenna of hot-dip galvanized steel. Especially suitable for square and round masts. Radiation Patterns (at mid-band) 72° 3 dB 10 0 in E-plane Horizontal Radiation Pattern 56° 3 Length see table dB 10 0 in H-plane Vertical Radiation Pattern Type No. Order No. K 52 31 81 7 601 070 K 52 31 82 7 601 071 Frequency range Channel 47 – 54 MHz 2 54 – 61 MHz 3 2 Input VSWR Gain (ref. λ/2 dipole) Polarization Impedance Max. power Dimensions in mm A B C Weight in kg Wind load in kN (at v = 160 km/h) frontal lateral Max. wind velocity 3360 3200 1330 140 2960 2800 1180 124 2.60 1.30 2.30 1.20 K 52 31 83 7 601 072 K 52 31 84 7 601 819 K 52 31 85 7 601 820 K 52 31 86 7 601 821 60 – 68 MHz 66 – 72 MHz 76 – 82 MHz 4 3 4 5 7-16 female (type gas-stop) < 1.15 7.5 dB Horizontal (vertical upon request) 50 Ω 6 kW (higher power upon request) 2640 2470 2165 2500 2340 2040 1060 995 875 110 100 94 82 – 88 MHz 2.10 1.10 2.05 1.10 1.80 1.00 6 2015 1900 820 89 1.60 0.90 225 km/h Material: Hot-dip galvanized steel. Radome: Fiberglass. Mounting: Mounting hardware and mounting dimensions upon request. Grounding: Via mounting parts. Combinations: The antenna is especially suitable as a component in arrays to achieve various radiation patterns. Particularly for square and round masts. 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. Scope of supply: Antenna consisting of two half-wave dipoles with reflector screens. 16 ● ● Antennas 47... 88 MHz K 52 34 8. . Directional Antenna 47 ... 88 MHz Directional antenna of hot-dip galvanized steel. Especially suitable for triangular and round masts. Radiation Patterns (at mid-band) 80° 3 dB 10 0 in E-plane Horizontal Radiation Pattern 56° 3 0 Length see table in H-plane Vertical Radiation Pattern Type No. Order No. K 52 34 81 7 602 037 K 52 34 82 7 602 038 Frequency range Channel 47 – 54 MHz 2 54 – 61 MHz 3 2 Input VSWR Gain (ref. λ/2 dipole) Polarization Impedance Max. power Dimensions in mm A B C Weight in kg Wind load in kN (at v = 160 km/h) frontal lateral Max. wind velocity dB 10 3360 3200 1330 148 2960 2800 1180 137 2.60 1.30 2.20 1.20 K 52 34 83 7 602 039 K 52 34 84 7 602 040 K 52 34 85 7 602 041 K 52 34 86 7 602 042 60 – 68 MHz 66 – 72 MHz 76 – 82 MHz 4 3 4 5 7-16 female < 1.15 7 dB Horizontal 50 Ω 6 kW (higher power on request) 2640 2470 2165 2500 2340 2040 1060 995 875 125 117 103 82 – 88 MHz 2.05 1.15 1.90 1.10 1.70 1.00 6 2015 1900 820 97 1.55 0.95 225 km/h Material: Hot-dip galvanized steel. Radome: Fiberglass. Mounting: Mounting hardware and mounting dimensions upon request. Grounding: Via mounting parts. Combinations: The antenna is especially suitable as a component in arrays to achieve various radiation patterns. Particularly for triangular and round masts. 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. Scope of supply: Antenna consisting of two half-wave dipoles with reflector screens. 17 K 52 16 8. . Directional Antenna 47 ... 88 MHz ● 8 element Yagi-antenna of weather-proof aluminum, fiberglass-elements with encapsulated copper stranded wire. Radiation Patterns (at mid-band) 68° 3 dB 10 0 in E-plane Horizontal Radiation Pattern C 128° A B 10 3 dB Length see table 0 in H-plane Vertical Radiation Pattern Type No. Order No. K 52 16 81 7 600 223 K 52 16 82 7 600 225 Frequency range 47 – 54 MHz 2 54 – 61 MHz 3 2 Channel Input VSWR Gain (ref. λ/2 dipole) Polarization Impedance Max. power Dimensions in mm A B C Weight in kg Wind load in N (at v = 160 km/h) Horizontally polarized frontal lateral Vertically polarized frontal lateral Packing in cm Max. wind velocity K 52 16 83 7 600 227 K 52 16 84 7 601 822 K 52 16 85 7 601 823 K 52 16 86 7 601 824 82 – 88 MHz 3500 3000 2225 18 60 – 68 MHz 66 – 72 MHz 76 – 82 MHz 4 3 4 5 7-16 female < 1.15 6 dB Horizontal or vertical by conversion of the clamps 50 Ω 200 W (higher power upon request) 2950 2700 2420 2120 2510 2240 2070 1810 1950 1740 1610 1410 15 12.5 11.5 10 715 675 715 790 615 575 615 675 540 475 540 615 330 x 76 x 13 275 x 76 x 13 250 x 76 x 13 6 1970 1680 1310 9 500 440 500 565 440 375 440 500 400 350 400 465 222 x 76 x 13 192 x 76 x13 177 x 76 x 13 160 km/h 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. Special features: The antenna is shipped dismounted. Combinations: Two or more antennas can be combined to achieve higher gain and longer, narrower beam width. Grounding: Via mounting parts. 18 Systems 87.5 – 108 MHz Antenna Systems 87.5 – 108 MHz 19 FM Transmitting Antenna with dipole panels K 52 31 1. . 87.5 – 108 MHz Antenna array of dipole panels K 52 31 1. . for different radiation patterns, especially suitable for mounting on square masts. ● 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. Impedance Polarization Internal connections Max. power Vertical radiation pattern Horizontal radiation pattern Half antenna splitting Pressurization Painting Grounding Max. wind velocity No. of bays Panels per bay 1 2 3 4 5.0 3.5 2.0 2 2 3 4 4 Connectors according to IEC, EIA or DIN. 87.5 – 108 MHz s < 1.2 throughout the whole frequency range. Lower VSWR for single channels upon request. 50 Ω Horizontal or vertical Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. According to customer’s requirements. Null fill and beam tilt upon request. Omnidirectional, directional or custom-designed. Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. Splitters and connecting cables can be supplied with dry air (please specify when ordering). If required, the antenna is painted in aviation warning colours. Via mounting parts. 225 km/h Gain* (at mid-band) dB times Weight (without mounting hardware) kg Antenna height H m Windload (v = 160 km/h) kN 3.2 2.2 1.6 140 200 260 2.5 2.7 4.0 4.7 8.0 6.5 5.0 6.3 4.5 3.2 260 400 530 5.7 5.5 8.0 9.5 2 3 4 11.0 9.5 8.0 12.6 8.9 6.3 530 790 1080 12.1 11.0 16.0 19.0 6 2 3 4 12.8 11.3 9.7 19.1 13.0 9.3 790 1200 1610 18.5 16.5 24.0 28.5 8 2 3 4 14.0 12.5 11.0 25.1 17.8 12.6 1080 1610 2150 24.9 22.0 32.0 38.0 * 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 dB null fill: 0.3 – 1.0 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). 20 H Input Frequency range VSWR 3200 mm ● Horizontal Radiation Patterns Vertical Radiation Patterns Examples of typical horizontal antenna arrays and their horizontal radiation patterns for minimal mast dimensions. Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. Systems 87.5 – 108 MHz FM Transmitting Antenna with dipole panels K 52 31 1. . 87.5 – 108 MHz 2 bays Equal power splitting 1,0 E rel 0,5 0 10 20 30 α° 40 30 α° 40 30 α° 40 30 α° 40 4 bays 1,0 E rel 0,5 3 0 dB 3 10 dB 10 0 10 20 0 Equal power splitting Different power splitting 4/10 P 6 bays 1,0 E rel 1/10 P 0,5 4/10 P 0 10 20 1/10 P 8 bays 1,0 E rel 0,5 0 dB 3 3 dB 10 10 0 10 20 *) without null fill with null fill and beam tilt 0 21 FM Transmitting Antenna with dipole panels K 52 34 1. 87.5 – 108 MHz Antenna array of dipole panels K 52 34 1. for different radiation patterns, especially suitable for mounting on triangular or round masts. ● 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. Impedance Polarization Internal connections Max. power Vertical radiation pattern Horizontal radiation pattern Half antenna splitting Pressurization Painting Grounding Max. wind velocity No. of bays Panels per bay 1 2 3 3.9 1.7 2 2 3 4 Connectors according to IEC, EIA or DIN. 87.5 – 108 MHz s < 1.2 throughout the whole frequency range. Lower VSWR for single channels upon request. 50 Ω Horizontal Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. According to customer’s requirements. Null fill and beam tilt upon request. Omnidirectional, directional or custom-designed. Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. Splitters and connecting cables can be supplied with dry air (please specify when ordering). If required, the antenna is painted in aviation warning colours. Via mounting parts. 225 km/h Gain* (at mid-band) dB times Weight (without mounting hardware) kg Antenna height H m Windload (v = 160 km/h) kN 2.5 1.5 150 220 2.5 3.0 4.2 6.9 4.7 4.9 3.0 290 420 5.7 6.0 8.4 2 3 9.9 7.7 9.8 5.9 560 850 12.1 12.0 16.8 6 2 3 11.7 9.5 14.8 8.9 850 1290 18.5 18.0 25.2 8 2 3 12.9 10.7 19.5 11.7 1150 1700 24.9 24.0 33.6 * 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 dB null fill: 0.3 – 1.0 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). 22 H Input Frequency range VSWR 3200 mm ● Horizontal Radiation Patterns Vertical Radiation Patterns Examples of typical horizontal antenna arrays and their horizontal radiation patterns for minimal mast dimensions. Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. Systems 87.5 – 108 MHz FM Transmitting Antenna with dipole panels K 52 34 1. 87.5 – 108 MHz 2 bays Equal power splitting 1,0 E rel 60° 0,5 0 10 20 30 α° 40 30 α° 40 30 α° 40 30 α° 40 4 bays 1,0 E rel 0,5 3 0 dB 3 10 dB 10 0 10 20 0 Different power splitting 3/4 P 6 bays 3/7 P 1,0 E rel 60° 0,5 1/7 P 0 1/4 P 10 20 3/7 P 8 bays 1,0 E rel 0,5 0 3 dB 3 10 dB 10 0 10 20 *) without null fill with null fill and beam tilt 0 23 FM Transmitting Antenna with dipole panels K 53 32 1. . 87.5 – 108 MHz Antenna array of circularly polarized dipole panels K 53 32 1. . for different radiation patterns, especially suitable for mounting on square masts. ● 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. Impedance Polarization Internal connections Max. power Vertical radiation pattern Horizontal radiation pattern Half antenna splitting Pressurization Painting Grounding Max. wind velocity No. of bays Panels per bay 1 2 3 4 2.0 0.5 –1.0 2 2 3 4 4 Connectors according to IEC, EIA or DIN. 87.5 – 108 MHz s < 1.2 throughout the whole frequency range. Lower VSWR for single channels upon request. 50 Ω Linear, circular or elliptical Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. According to customer’s requirements. Null fill and beam tilt upon request. Omnidirectional, directional or custom-designed. Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. Splitters and connecting cables can be supplied with dry air (please specify when ordering). If required, the antenna is painted in aviation warning colours. Via mounting parts. 225 km/h Gain* (at mid-band) dB times Weight (without mounting hardware) kg Antenna height H m Windload (v = 160 km/h) kN 1.6 1.1 0.8 200 320 420 2.2 5.0 3.5 2.0 3.2 2.4 1.6 420 750 850 5.2 5.5 8.7 11.0 2 3 4 8.0 6.5 5.0 6.3 4.5 3.2 850 1530 1660 11.2 11.0 17.4 22.0 6 2 3 4 9.8 8.3 6.7 9.6 6.8 4.7 1530 1870 2240 17.2 16.5 26.1 33.0 8 2 3 4 11.0 9.5 8.0 12.6 8.9 6.3 1660 2240 2970 23.2 22.0 34.8 44.0 2.75 4.35 5.5 * 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 – 0.5 dB null fill: 0.3 – 1.0 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). 24 H Input Frequency range VSWR 3000 mm ● Horizontal Radiation Patterns Vertical Radiation Patterns Examples of typical horizontal antenna arrays and their horizontal radiation patterns for minimal mast dimensions. Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. Systems 87.5 – 108 MHz FM Transmitting Antenna with dipole panels K 53 32 1. . 87.5 – 108 MHz 2 bays Equal power splitting 1,0 E rel 0,5 0 10 20 30 α° 40 30 α° 40 30 α° 40 30 α° 40 4 bays 1,0 E rel 0,5 3 0 dB 3 10 dB 10 0 10 20 0 Equal power splitting Different power splitting 4/10 P 6 bays 1,0 E rel 4/10 P 0,5 1/10 P 0 10 20 1/10 P 8 bays 1,0 E rel 0,5 0 3 dB 3 10 dB 10 0 10 20 *) without null fill with null fill and beam tilt 0 25 FM Transmitting Antenna with dipole panels K 53 36 1. . 87.5 – 108 MHz Antenna array of circularly polarized dipole panels K 53 36 1. . for different radiation patterns, especially suitable for mounting on triangular or round masts. ● 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. Impedance Polarization Internal connections Max. power Vertical radiation pattern Horizontal radiation pattern Half antenna splitting Pressurization Painting Grounding Max. wind velocity No. of bays Panels per bay 1 2 3 0.0 –2.0 2 2 3 4 Connectors according to IEC, EIA or DIN. 87.5 – 108 MHz s < 1.2 throughout the whole frequency range. Lower VSWR for single channels upon request. 50 Ω Circular Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. According to customer’s requirements. Null fill and beam tilt upon request. Omnidirectional, directional or custom-designed. Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. Splitters and connecting cables can be supplied with dry air (please specify when ordering). If required, the antenna is painted in aviation warning colours. Via mounting parts. 225 km/h Gain* (at mid-band) dB times Weight (without mounting hardware) kg Antenna height H m Windload (v = 160 km/h) kN 1.0 0.6 140 200 1.82 2.4 3.5 3.1 1.1 2.0 1.3 260 430 4.82 4.8 7.0 2 3 6.2 4.2 4.2 2.6 580 800 10.82 9.6 14.0 6 2 3 8.1 6.1 6.5 4.1 800 1230 16.82 14.4 21.0 8 2 3 9.3 7.3 8.5 5.4 1100 1590 22.82 19.2 28.0 * 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 dB null fill: 0.3 – 1.0 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). 26 H Input Frequency range VSWR 3000 mm ● Horizontal Radiation Patterns Vertical Radiation Patterns Examples of typical horizontal antenna arrays and their horizontal radiation patterns for minimal mast dimensions. Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. Systems 87.5 – 108 MHz FM Transmitting Antenna with dipole panels K 53 36 1. . 87.5 – 108 MHz 2 bays Equal power splitting 1,0 E rel 60° 0,5 0 10 20 30 α° 40 30 α° 40 30 α° 40 30 α° 40 4 bays 1,0 E rel 0,5 3 0 dB 3 10 dB 10 0 10 20 0 Different power splitting 6 bays 3/7P 1,0 3/4P E rel 60° 0,5 1/7P 0 1/4P 10 20 3/7P 8 bays 1,0 E rel 0,5 0 3 dB 3 10 dB 10 0 10 20 *) without null fill with null fill and beam tilt 0 27 FM Transmitting Antenna with Broadband Sidemount Antenna K 53 35 1. . 87.5 – 108 MHz ● Antenna array of elliptically polarized dipole panels K 53 35 1. . for different radiation patterns, especially suitable for mounting on pipes. ● The feeder network is made up of coaxial power splitters and flexible connecting cables. Input Frequency range VSWR Impedance Polarization Internal connections Max. power Vertical radiation pattern Horizontal radiation pattern Half antenna splitting Pressurization Painting Grounding Max. wind velocity Connectors according to IEC, EIA or DIN. 87.5 – 108 MHz s < 1.25 throughout the whole frequency range. Lower VSWR for single channels upon request. 50 Ω Elliptical Connectors according to IEC or EIA are used throughout the system, allowing easy assembly and maintenance. According to customer’s requirements. Null fill and beam tilt upon request. Omnidirectional,with preferred direction. Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. Splitters and connecting cables can be supplied with dry air (please specify when ordering). If required, the antenna is painted in aviation warning colours. Via mounting parts. 225 km/h > 500 mm 2100 mm H No. of bays Gain* (at mid-band) dB times Weight (without mounting hardware) kg Antenna height H m Windload (v = 160 km/h) frontal N lateral N 1 –1.5 0.7 25 0.834 115 365 4 4.5 2.8 100 7.13 460 1460 6 5.5 3.6 150 11.33 690 2190 8 7.5 5.6 200 15.53 920 2920 10 8.8 7.6 250 19.73 1150 3650 * 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 dB null fill: 0.3 – 1.0 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). 28 > 500 mm FM Transmitting Antenna with Broadband Sidemount Antenna K 53 35 1. . 87.5 – 108 MHz Vertical Radiation Patterns Systems 87.5 – 108 MHz Typical Horizontal Radiation Pattern (at mid-band) Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. 4 bays 1,0 E rel 0,5 10 10 20 30 α° 40 30 α° 40 30 α° 40 30 α° 40 dB 0 3 0 6 bays 1,0 E rel 0,5 0 10 20 8 bays 1,0 E rel 0,5 0 10 20 10 bays 1,0 E rel 0,5 0 *) 10 20 without null fill with null fill and beam tilt 29 FM Transmitting Antenna (Superturnstile Antenna) 87.5 – 108 MHz K 52 97 1. . Self-supporting hot-dip galvanized steel superturnstile antenna. Up to 4 bays may be stacked. ● Optionally up to 8 bays may be stacked if the superturnstile antennas are mounted inside a self-supporting fiberglass cylinder. Impedance Polarization Max. power Vertical radiation pattern Horizontal radiation pattern Half antenna splitting Internal connections Structure Mounting Ice protection Grounding Max. wind velocity No. of bays Type No. / Order No. 1 2 4 K 52 97 11 K 52 97 12 K 52 97 14 Connectors according to IEC, EIA or DIN. 87.5 – 108 MHz s < 1.2 throughout the whole frequency range. Tuning not required. 50 Ω Horizontal According to customer’s requirements, 10 kW max. per bay. Null fill and beam tilt upon request. Omnidirectional Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. The radiating elements are fed with coaxial connecting cables and hybrid couplers. Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. Superturnstile antenna on self-supporting hot dip galvanized steel structure. Up to 4 bays may be stacked. On top of existing structure by means of a flange. Under icing the fiberglass cover over the feedslots and the rugged construction keep the antenna in proper function. Via mounting parts. 160 km/h Gain* (at mid-band) dB times 1 4 7 1.26 2.51 5.00 Weight Antenna Windload (without cylinder) height H (without cylinder) kg m (160 km/h) kN 275 550 1450 3 6 12 3.2 6.5 15.0 * 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 – 0.4 dB null fill: 0.3 – 1.0 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). 30 H Input Frequency range VSWR 3000 mm ● FM Transmitting Antenna (Superturnstile Antenna) 87.5 – 108 MHz K 52 97 1. . Vertical Radiation Patterns Systems 87.5 – 108 MHz Typical Horizontal Radiation Pattern (at mid-band) Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. 1 bay 100 E rel 50 3 dB 10 0 0 10 20 30 α° 40 30 α° 40 30 α° 40 2 bays 100 E rel 50 0 10 20 4 bays 100 E rel 50 0 *) 10 20 without null fill with null fill and beam tilt 31 ● Such antenna systems provide signal coverage in all azimuth directions as shown in the horizontal radiation pattern below. (The horizontal radiation pattern will be distorted, if a significantly bigger mast is used). Input Frequency range VSWR Impedance Polarization Internal connections Max. power Vertical radiation pattern Horizontal radiation pattern Half antenna splitting Pressurization Painting Grounding Max. wind velocity No. of bays Gain* (at mid-band) dB times Connectors according to IEC, EIA or DIN. 87.5 – 108 MHz s < 1.25 throughout the whole frequency range. Lower VSWR for single channels upon request. 50 Ω Vertical Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. According to customer’s requirements. Null fill and beam tilt upon request. Omnidirectional. Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. Splitters and connecting cables can be supplied with dry air (please specify when ordering). If required, the antenna is painted in aviation warning colours. Via mounting parts. 225 km/h Weight (without mounting hardware) kg Antenna height H m Windload (v = 160 km/h) frontal N lateral N 1 2.0 1.6 25 1.38 115 220 2 5.0 3.2 25 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 * 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 dB null fill: 0.3 – 1.0 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). 32 2100 mm An economic FM-transmitting antenna system can be built by stacking 2 or more vertical dipoles 762 943 in front of a thin tubular mast. H ● > 250 mm K 53 37 1. . FM-Transmitting Antenna 87.5 – 108 MHz K 53 37 1. . FM-Transmitting Antenna 87.5 – 108 MHz Systems 87.5 – 108 MHz Vertical Radiation Patterns Typical Horizontal Radiation Pattern (at mid-band beamtilt ≈1°) Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. 4 bays 1,0 E rel 220° 0,5 10 10 20 30 α° 40 30 α° 40 30 α° 40 30 α° 40 dB 3 0 0 6 bays 1,0 E rel 0,5 0 10 20 8 bays 1,0 E rel 0,5 0 10 20 10 bays 1,0 E rel 0,5 0 *) 10 20 without null fill with null fill and beam tilt 33 34 Model Types: K 52 14 1. ., K 52 22 1. ., K 52 31 1. ., K 52 34 1. ., K 52 35 1. ., K 52 40 1. ., K 52 97 1. ., K 53 22 1. ., K 53 31 1. ., K 53 32 1. ., K 53 35 1. ., K 53 36 1. ., K 53 37 1. ., K 53 38 1. ., K 53 39 1. ., K 53 40 1. ., Type No. Description Frequency range Gain Polarization Page K 52 31 18. Directional Antenna, steel 87.5 – 108 MHz 7.5 dB horizontal or vertical 36 715 849 Directional Antenna, steel 87.5 – 108 MHz 7.5 dB horizontal or vertical 36 774 321 Directional Antenna, steel 87.5 – 108 MHz 7.5 dB horizontal or vertical 37 K 52 34 17 Directional Antenna, steel 87.5 – 108 MHz 7.0 dB horizontal 38 750 10008 Directional Antenna, steel 87.5 – 108 MHz 7.0 dB horizontal 38 752 183 Directional Antenna, steel 87.5 – 108 MHz 7.0 dB horizontal 38 772 500 Directional Antenna, steel 87.5 – 108 MHz 6.0 dB vertical 39 772 501 Directional Antenna, steel 87.5 – 108 MHz 6.0 dB vertical 39 772 502 Directional Antenna, steel 87.5 – 108 MHz 6.0 dB vertical 39 750 10183 Directional Antenna, steel 87.5 – 108 MHz 4.0 dB vertical 40 768 476 Dual Band Directional Antenna, steel .66 – 73 MHz 87.5 – 108 MHz 6.0 dB 7.5 dB horizontal horizontal 41 K 53 32 18. Directional Antenna, steel 87.5 – 108 MHz 7.5 dB 4.5 dB linear circular 42 754 154 Directional Antenna, steel 87.5 – 108 MHz 3.5 dB circular 43 755 587 Directional Antenna, steel 87.5 – 108 MHz 3.5 dB circular 43 757 629 Directional Antenna, steel 87.5 – 108 MHz 3.5 dB circular 43 762 109 Directional Antenna, steel 87.5 – 108 MHz 3.5 dB circular 43 750 10022 Broadband FM Sidemount Antenna, steel 87.5 – 108 MHz –1.5 dB elliptical 44 750 10023 Broadband FM Sidemount Antenna, steel 87.5 – 108 MHz –1.5 dB elliptical 44 750 10086 Directional Antenna, steel, aluminum 87.5 – 108 MHz 5.5 dB Horizontal and vertical 45 K 52 40 17 4 Element Yagi Antenna, aluminum 87.5 – 108 MHz 5.5 dB horizontal or vertical 46 K 52 14 17 9 Element Yagi Antenna, aluminum 87.5 – 108 MHz 7.5 dB horizontal 47 775 738 Directional Antenna, steel 87.5 – 108 MHz 5.0 dB vertical 48 775 838 Directional Antenna, steel 87.5 – 108 MHz 5.0 dB vertical 48 770 776 3 Element Yagi Antenna, steel 87.5 – 108 MHz 4.0 dB vertical 49 770 777 3 Element Yagi Antenna, steel 87.5 – 108 MHz 4.0 dB vertical 49 762 943 Broadband Dipole for Tubular Mast, steel 87.5 – 108 MHz 2.0 dB vertical 50 763 715 Broadband Dipole for Tubular Mast, steel 87.5 – 108 MHz 2.0 dB vertical 50 775 130 Broadband Dipole for Tubular Mast, steel 87.5 – 108 MHz 2.0 dB vertical 50 750 10034 Directional Antenna, steel 87.5 – 108 MHz 3.0 dB vertical 50 750 10035 Directional Antenna, steel 87.5 – 108 MHz 3.0 dB vertical 51 K 52 22 17 Log.-per. Directional Antenna, steel 87.5 – 108 MHz 6.0 dB horizontal 52 775 000 Directional Antenna, steel 87.5 – 108 MHz 6.0 dB vertical 53 775 001 Directional Antenna, steel 87.5 – 108 MHz 6.0 dB vertical 53 775 002 Directional Antenna, steel 87.5 – 108 MHz 6.0 dB vertical 53 35 Antennas 87.5 – 108 MHz Antennas for FM in VHF Band 66 – 73 MHz and 87.5 – 108 MHz K 52 31 1. . Directional Antenna 87.5 – 108 MHz ● ● Broadband directional antenna of hot-dip galvanized steel. Especially suitable for square masts. Type No. Order No. K 52 31 187 601 278 Input (type gas-stop) Frequency range VSWR Gain (ref. to λ/2 dipole) Impedance Polarization Max. power 7-16 female Weight Wind load (at 160 km/h) Horizontally polarized Vertically polarized Max. wind velocity Material: K 52 31 188 601 629 715 849 7/8″ EIA-flange 13-30 female 87.5 – 108 MHz < 1.15 7.5 dB at mid-band 50 Ω Horizontal or vertical 2.5 kW 4 kW 6 kW (higher power upon request) 64 kg frontal / lateral: 1500 N / 875 N frontal / lateral: 1500 N / 825 N 225 km/h Hot-dip galvanized steel. Radome: Fiberglass. Mounting: Mounting hardware and mounting dimensions upon request. 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. Grounding: Via mounting parts. Combinations: The antenna is especially suitable as a component in arrays to achieve various radiation patterns. Particularly for square masts. Scope of supply: Antenna without mounting clamps. Special features: The antenna is shipped dismounted. Radiation Patterns (at mid-band) 73° 0 in E-plane 36 3 dB 3 10 dB 10 57° 0 in H-plane A: 2490 mm B: 1740 mm C: 730 mm K 52 31 1. . Directional Antenna 87.5 – 108 MHz ● Broadband directional antenna of hot-dip galvanized steel. Especially suitable for square masts. Type No. / Order No. 774 321 Frequency range Input (type gas-stop) VSWR Gain (ref. to λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Horizontally polarized Vertically polarized Max. wind velocity Antennas 87.5 – 108 MHz ● 87.5 – 108 MHz 7/8″ EIA-flange < 1.15 7.5 dB at mid-band 50 Ω Horizontal or vertical 4 kW (higher power upon request) 85 kg frontal / lateral: 2000 N / 1380 N frontal / lateral: 2000 N / 1250 N 220 km/h Material: Hot-dip galvanized steel. Radome: Fiberglass. Mounting: Mounting hardware and mounting dimensions upon request. 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. Grounding: Via mounting parts. Combinations: The antenna is especially suitable as a component in arrays to achieve various radiation patterns. Particularly for square masts. Scope of supply: Antenna without mounting clamps. Special features: The antenna is shipped dismounted. A: 2490 mm B: 2700 mm C: 832 mm Radiation Patterns (at mid-band) 70° 0 in E-plane 3 dB 3 10 dB 10 65° 0 in H-plane 37 K 52 34 1. . Directional Antenna 87.5 – 108 MHz ● ● Broadband directional antenna of hot-dip galvanized steel. Especially suitable for triangular and round masts. B Type No. Order No. K 52 34 17 601 694 Input (type gas-stop) Frequency range VSWR Gain (ref. to λ/2 dipole) Impedance Polarization Max. power 7-16 female 750 10008 752 183 7/8″ EIA-flange 13-30 female 87.5 – 108 MHz < 1.2 7 dB at mid-band 50 Ω Horizontal 2.5 kW 4 kW 6 kW (higher power upon request) 66 kg frontal: 1700 N lateral: 875 N 225 km/h Weight Wind load (at 160 km/h) Max. wind velocity Material: Hot-dip galvanized steel. Radome: Fiberglass. Mounting: Mounting hardware and mounting dimensions upon request. 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. Grounding: Via mounting parts. 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 without mounting clamps. Special features: The antenna is shipped dismounted. Radiation Patterns (at mid-band) 80° 0 in E-plane Horizontal Radiation Pattern 38 3 dB 3 10 dB 10 56° 0 in H-plane Vertical Radiation Pattern A C A: 2490 mm B: 1740 mm C: 760 mm K 53 31 1. . Directional Antenna 87.5 – 108 MHz ● Vertically polarized directional antenna. Especially suitable for triangular and round masts. Type No. / Order No. Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load frontal: (at 160 km/h) lateral: Max. wind velocity Dimensions A B 772 500 772 501 772 502 7-16 female (type gas-stop) 7/8″ EIA-flange 87.5 – 108 MHz < 1.15 6 dB at mid-band 50 Ω Vertical 5 kW 65 kg 1550 N 850 N 225 km/h 2200 mm 2000 mm 1 5/8″ EIA-flange 2.5 kW 65 kg 1550 N 850 N Antennas 87.5 – 108 MHz ● A 14 kW 75 kg 1620 N 970 N 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. B 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. 772 500 Radiation Patterns (at mid-band) 76° 70° 10 0 E-plane Vertical Radiation Pattern 3 dB dB 3 10 0 H-plane Horizontal Radiation Pattern 39 K 53 31 1. . Directional Antenna 87.5 – 108 MHz Vertically polarized directional antenna. Type No. / Order No. Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight approx. Wind load approx. frontal: (at 160 km/h) lateral: Max. wind velocity 750 10183 7/8″ EIA-flange 87.5 – 108 MHz < 1.3 4 dB at mid-band 50 Ω Vertical 5 kW 41 kg 650 N 850 N 225 km/h Material: Hot-dip galvanized steel. Radome: Fiberglass. Mounting: Mounting hardware upon request. Grounding: Via mounting parts. Ice protection: Even under icy conditions the antenna keeps operating due to the radomes covering the feed areas. Scope of supply: Antenna consisting of one half-wave dipole with reflector screen. Special features: The antenna is shipped dismounted. 1280 1900 ● 7/8˝ EIA All dimensions in mm Radiation Patterns (at mid-band) 135° 10 3 3 dB 10 dB 70° 0 in H-plane Horizontal Radiation Pattern 40 0 in E-plane Vertical Radiation Pattern 853 K 52 35 1. . Dual Band Directional Antenna 66 – 73 MHz / 87.5 – 108 MHz ● Dipole panel for OIRT and CCIR bands for FM radio. Especially suitable for square masts. Type No. / Order No. Antennas 87.5 – 108 MHz ● 768 476 Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity Material: 7-16 female OIRT: 66 – 73 MHz / CCIR: 87.5 – 108 MHz 66 – 73 MHz: ≤ 1.3 / 87.5 – 108 MHz: ≤ 1.2 66 – 73 MHz: 6 dB / 87.5 – 108 MHz: 7.5 dB 50 Ω Horizontal 6 kW (higher power upon request) 135 kg frontal: 2.5 kN lateral: 1.1 kN 225 km/h B C A Hot-dip galvanized steel. Radome: Fiberglass. Mounting: Mounting hardware and mounting dimensions upon request. 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. Grounding: Via mounting parts. Combinations: The antenna is especially suitable as a component in arrays to achieve various radiation patterns. Particularly for square masts. Scope of supply: Antenna consisting of two half-wave dipoles with reflector screens. Special features: The antenna is shipped dismounted. A: 2840 mm B: 1500 mm C: 1080 mm Radiation Patterns (at mid-band) 72° 0 in E-plane Horizontal Radiation Pattern 3 dB 3 10 dB 10 70° 0 in H-plane Vertical Radiation Pattern 41 K 53 32 1. . Directional Antenna 87.5 – 108 MHz ● Broadband directional antenna made of hot-dip galvanized steel. ● Especially suitable for square masts. ● Optionally for circular, horizontal, vertical or slant polarization. B 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. Impedance Max. power Weight Wind load (at 160 km/h) Max. wind velocity 4 x 7-16 female 4 x 7/8 ″ EIA-flange 87.5 – 108 MHz < 1.25 (linear polarization) < 1.1 (circular polarization) 7.5 dB at mid-band (linear polarization) 4.5 dB at mid-band (circular polarization) 50 Ω 2.5 kW for each input 4 kW for each input (higher power upon request) 89 kg Frontal: 1.60 kN Lateral: 1.13 kN 225 km/h 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. Ice protection: Even under severe icy conditions the antenna is still functional due to its heavy-duty construction and the fibreglass covers of the feeding points. Grounding: Via mounting parts. Polarization: Suitable feeding of the horizontal and vertical dipole pairs optionally result in left or right hand circular or elliptical or slant polarization or simultaneous horizontal and vertical polarization. Combinations: A = B: 2200 mm C= 830 mm Radiation Patterns (at mid-band) Horizontal Polarization (bent dipoles) 66° 3 10 3 0 0 in E-plane Horizontal Radiation Pattern 62° The antenna will be shipped dismounted. 42 3 64° 10 dB Special features: in H-plane Vertical Radiation Pattern Vertical Polarization (straight dipoles) 10 Antenna without mounting clamps. 62° 10 The antenna is especially suitable as a component in arrays to achieve various radiation patterns. Particularly for square masts. Scope of supply: K 53 32 187 dB Gain (ref. λ/2 dipole) A K 53 32 188 601 979 0 in H-plane Horizontal Radiation Pattern 3 dB Input Frequency range VSWR K 53 32 187 601 768 dB Type No. Order No. C 0 in E-plane Vertical Radiation Pattern K 53 36 1. . Directional Antenna 87.5 – 108 MHz ● Circularly polarized broadband directional antenna of hot-dip galvanized steel. ● Especially suitable for triangular and round masts. A Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) 754 154 757 629 755 587 762 109 2 x 7-16 female 2 x 13-30 female 87.5 – 108 MHz < 1.2 3.5 dB at mid-band 50 Ω Circular 2.5 kW for each input 5 kW for each input 60 kg frontal: 1250 N lateral: 875 N 225 km/h Max. wind velocity Material: Hot-dip galvanized steel. Radome: Fiberglass. Mounting: Mounting hardware and mounting dimensions upon request. 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. Grounding: Via mounting parts. 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 without mounting clamps. Special features: The antenna is shipped dismounted. Antennas 87.5 – 108 MHz Type No. normal position Order No. rotated position B C A = B: 1820 mm C: 900 mm Radiation Patterns (at mid-band) 76° 3 dB 10 0 43 K 53 35 1. . Broadband FM Sidemount Antenna 87.5 – 108 MHz ● Omnidirectional propagation with preferred direction. Mounting to pipes. ● Elliptical polarization. ● Type No. / Order No. Input Frequency VSWR in one channel Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity Packing size 750 10022 750 10023 7/8˝ EIA-flange 1 5/8˝ EIA-flange 87.5 – 108 MHz < 1.5 –1.5 dBd at mid-band 50 Ω Elliptical 5 kW 10 kW (at 40 °C ambient temperature) 25 kg frontal: 115 N lateral: 365 N 240 km/h 1300 x 1300 x 200 mm Material: Hot-dip galvanized steel. Ice protection: Feed point radome (optional). Mounting: To pipes of 75 – 125 mm ∅ by means of 2 mounting clamps, supplied. Grounding: Via mounting parts. A B Horizontal Radiation Patterns (at mid-band) Polarization and Pattern depending on mast structure behind 750 10023 A = 1385 mm B = approx. 834 mm dB 3 0 Vertical Polarization 44 dB 10 10 3 0 Horizontal Polarization ● 2 x 4 element broadband Yagi antenna. ● Component for low power transmitting antennas. Type No. / Order No. Antennas 87.5 – 108 MHz K 53 34 1. . Directional Antenna 87.5 – 108 MHz 750 10086 Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity Packing size 2 x 7-16 female 87.5 – 108 MHz s < 1.3 5.5 dB at mid-band 50 Ω Horizontal and vertical 2 x 500 W (at 40 °C ambient temperature) 25 kg frontal: 115 N lateral: 365 N 240 km/h 160 x 160 x 1930 mm Material: Supporting pipe: Hot-dip galvanized steel. Director pipe and reflector: Weather-proof aluminum. Radiator in fiberglass radome. Mounting: To pipes of 60 – 120 mm diameter by means of mounting clamps, supplied. Grounding: Via mounting parts. Special features: The antenna is shipped dismounted. B A A = approx. 1560 mm B = 1700 mm Radiation Patterns (at mid-band) 102° 102° 65° dB 3 0 in E-plane 3 dB 10 10 0 in H-plane 45 K 52 40 1. . Directional Antenna 87.5 – 108 MHz ● 4 element broadband Yagi antenna. ● Component for low power transmitting antennas. Type No. Order No. K 52 40 17 600 263 Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Horizontally polarized Vertically polarized Max. wind velocity Packing size 7-16 female 87.5 – 108 MHz s < 1.3 5.5 dB at mid-band 50 Ω Horizontal or vertical 500 W (at 40 °C ambient temperature) 13.5 kg frontal / lateral: 215 N / 160 N frontal / lateral: 215 N / 340 N 225 km/h 160 x 160 x 1900 mm 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. Combinations: The antenna is especially suitable as a component in arrays to achieve various radiation patterns. Special features: The antenna is shipped dismounted. New: The design has been improved to allow use of both polarizations. B A A = 1400 mm B = 1700 mm Radiation Patterns (at mid-band) 102° 102° 65° Assembly dB 3 0 in E-plane 46 3 dB 10 10 0 in H-plane K 52 14 1. . Directional Antenna 87.5 – 108 MHz ● 9 element broadband Yagi antenna of weatherproof aluminum. Antennas 87.5 – 108 MHz B C A A: 3160 mm B: 1840 mm C: 1750 mm 7-16 female 87.5 – 108 MHz < 1.4 7.5 dB at mid-band 50 Ω Horizontal or vertical 500 W 16 kg frontal / lateral: 575 N / 625 N 225 km/h frontal / lateral: 575 N / 665 N 200 km/h 3100 x 220 x 220 mm Material: Weather-proof aluminum. Radiator in fiberglass radome. Mounting: To pipes of 60 – 115 mm diameter by means of mounting clamps, supplied. Radiation Patterns (at mid-band) 56° 10 3 0 in E-plane 72° 10 3 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. dB Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Horizontally polarized Max. wind velocity Vertically polarized Max. wind velocity Packing size K 52 14 17 600 204 dB Type No. Order No. 0 in H-plane 47 K 53 40 1. . Directional Antenna 87.5 – 108 MHz ● 4 elements broadband Yagi antenna. Mounting to pipes. ● Vertically polarized. ● 5 dB gain. Type No. / Order No. 775 738 Input Frequency VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity Packing size 775 838 7/8˝ EIA-flange 7-16 female 87.5 – 108 MHz < 1.3 5 dB at mid-band 50 Ω Vertical 5 kW 3 kW (at 40 °C ambient temperature) 20 kg frontal: 230 N lateral: 400 N 225 km/h 1800 x 1750 x 95 mm Material: Hot-dip galvanized steel. Mounting: To pipes of 60 – 125 mm ∅ by means of 2 U-bolts, supplied. Grounding: Via mounting parts. Specials: The antenna may be equipped with ice protection set Type No. 753 10118 for use at sites with icy conditions (please order separately). The max. wind velocity with an ice layer of 3 cm is 130 km/h. 1750 mm ● 1600 mm Radiation Patterns (at mid-band) 120° 0 in H-plane Horizontal Radiation Pattern 3 dB 3 10 dB 10 60° 0 in E-plane Vertical Radiation Pattern Assembly 48 ● Vertically polarized. ● 4 dB gain. Type No. / Order No. Input 770 776 770 777 7/8˝ EIA-flange Frequency VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity Packing size 7-16 female (type gas-stop) 87.5 – 108 MHz < 1.3 4 dB at mid-band 50 Ω Vertical 5 kW 3 kW (at 40 °C ambient temperature) 13 kg frontal: 165 N lateral: 275 N 225 km/h 1890 x 1550 x 92 mm Material: Hot-dip galvanized steel. Mounting: To pipes of 60 – 125 mm ∅ by means of 2 U-bolts, supplied. Grounding: Via mounting parts. Accessories: The antenna may be equipped with ice protection set Type No. 774 168 for use at sites with icy conditions (please order separately). The max. wind speed with an ice layer of 3 cm is 130 km/h. 1822 mm ● 3 elements broadband Yagi antenna. Mounting to pipes. ● Antennas 87.5 – 108 MHz K 53 39 1. . Directional Antenna 87.5 – 108 MHz 1300 mm Radiation Patterns (at mid-band) 150° 10 3 3 dB 10 dB 70° 0 in H-plane Horizontal Radiation Pattern 0 in E-plane Vertical Radiation Pattern Assembly 49 K 53 37 1. . Broadband Dipole for Tubular Mast 87.5 – 108 MHz ● Omnidirectional propagation with preferred direction. ● Mounting to pipes. ● Vertically polarized. ● 2 dB gain. Type No. / Order No. Input Max. power Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Wind load frontal: (at 160 km/h) lateral: Weight Max. Wind velocity Packing 762 943 763 715 775 130 7-16 female 7/8″ 1 5/8″ (type gas-stop) EIA-flange EIA-flange 3 kW 5 kW 10 kW (at 40 °C ambient temperature) 87.5 – 108 MHz s < 1.3 s < 1.25 2 dB at mid-band 50 Ω Vertical 115 N 165 N 220 N 340 N 13 kg 22 kg 225 km/h 300 km/h 1552 x 1186 x 197 mm Material: Hot-dip galvanized steel. Mounting: To pipes of 60 – 125 mm by means of 2 mounting clamps, supplied. Grounding: Via mounting parts. A B 763 715 A: 1380 mm / B: 830 mm Radiation Patterns (at mid-band) 220° 70° 0 in H-plane Horizontal Radiation Pattern 50 3 dB 3 10 dB 10 0 in E-plane Vertical Radiation Pattern ● Vertically polarized. ● 3 dB gain. Type No. 750 10035 Input Frequency VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity Packing size 750 10034 7-16 female 7/8˝ EIA-flange (type gas-stop) 87.5 – 108 MHz < 1.3 3 dB at mid-band 50 Ω Vertical 3 kW 5 kW (at 40 °C ambient temperature) 13 kg frontal: 180 N lateral: 320 N 225 km/h 1850 x 1100 x 92 mm 1800 mm ● 2 elements broadband Yagi antenna. Mounting to pipes. ● Antennas 87.5 – 108 MHz K 53 38 1. . Directional Antenna 87.5 – 108 MHz 870 mm 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) 175° 75° 0 in H-plane Horizontal Radiation Pattern 3 dB 3 10 dB 10 0 in E-plane Vertical Radiation Pattern 51 K 52 22 1. . Directional Antenna 87.5 – 108 MHz Logarithmic-periodic broadband directional antenna with extremely low side-lobes. ● Especially rugged design of hot-dip galvanized steel. ● High reliability even under heavy icy conditions. ● Type No. Order No. K 52 22 17 600 232 Input Frequency range VSWR Gain (ref. to λ/2 dipole) Impedance Side-lobe suppression Polarization 7-16 female 87.5 – 108 MHz < 1.3 6 dB at mid-band 50 Ω > 25 dB Horizontal (special version for vertical polarization upon request) 2 kW (higher power upon request) 46 kg frontal: 500 N lateral: 875 N 225 km/h 2650 x 2100 x 370 mm Max. power Weight Wind load (at 160 km/h) Max. wind velocity Packing size 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. 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. Radiation Patterns (at mid-band) 95° 60° 0 in E-Plane Horizontal Radiation Pattern 52 3 dB 3 10 dB 10 0 in H-Plane Vertical Radiation Pattern A B A: 2600 mm B: 2050 mm K 53 22 1. . Directional Antenna 87.5 – 108 MHz Logarithmic-periodic broadband directional antenna with extremely low side-lobes. ● Especially rugged design of hot-dip galvanized steel. ● High reliability even under heavy icy conditions. Type No. / Order No. 775 000 Input (type gas-stop) 7-16 female Frequency range VSWR Gain (ref. to λ/2 dipole) Impedance Side-lobe suppression Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity Packing size 775 001 Antennas 87.5 – 108 MHz ● 775 002 7/8″ 1 5/8″ EIA-flange EIA-flange 87.5 – 108 MHz < 1.3 6 dB at mid-band 50 Ω > 25 dB Vertical 2.5 kW 5 kW 10 kW (at 40 °C ambient temperature) 46 kg frontal: 500 N lateral: 1000 N 225 km/h 2650 x 2100 x 370 mm 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. 2570 2034 Material: 7/8″ EIA 775 001 Radiation Patterns (at mid-band) 95° 60° 0 in H-Plane Horizontal Radiation Pattern 3 dB 3 10 dB 10 0 in E-Plane Vertical Radiation Pattern 53 54 Systems 174 – 230 MHz Antenna Systems 174 – 230 MHz 55 TV Transmitting Antenna with dipole panels K 52 33 5. . 174 – 230 MHz Antenna array of dipole panels K 52 33 5. . for different radiation patterns, especially suitable for mounting on square masts. ● 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. Internal connections Max. power Vertical radiation pattern Horizontal radiation pattern Half antenna splitting Pressurization Painting Grounding Max. wind velocity No. of bays Panels per bay 1 2 3 4 9.0 7.6 6.1 2 2 3 4 4 Connectors according to IEC, EIA or DIN. 174 – 230 MHz < 1.05 in the operating channels after tuning. 50 Ω Horizontal. Application of panels K 53 33 57 allows vertical polarization as well. Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. According to customer’s requirements. Null fill and beam tilt upon request. Omnidirectional, directional or custom-designed. Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. Splitters and connecting cables can be supplied with dry air (please specify when ordering). If required, the antenna is painted in aviation warning colours. Via mounting parts. 225 km/h Gain* (at mid-band) dB times Weight (without mounting hardware) kg Antenna height H m Windload (v = 160 km/h) kN 7.9 5.8 4.1 130 195 270 2.8 11.8 10.4 8.9 15.1 11.0 7.8 270 390 540 6.0 5.0 7.5 10.0 2 3 4 14.7 13.3 11.8 29.5 21.4 15.1 540 780 1080 12.4 10.0 15.0 20.0 6 2 3 4 16.4 15.0 13.5 43.7 31.6 22.4 810 1170 1640 18.8 15.0 22.5 30.0 8 2 3 4 17.6 16.2 14.7 57.5 41.7 29.5 1080 1640 2160 25.2 20.0 30.0 40.0 2.5 3.75 5.0 * 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 dB null fill: 0.3 – 1.0 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). 56 H Input Frequency range VSWR Impedance Polarization 3200 mm ● TV Transmitting Antenna with dipole panels K 52 33 5. . 174 – 230 MHz Horizontal Radiation Patterns Vertical Radiation Patterns Examples of typical horizontal antenna arrays and their horizontal radiation patterns for minimal mast dimensions. Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. 2 bays Equal power splitting Systems 174 – 230 MHz 100 E rel 50 0 5 10 α° 4 bays 100 E rel 50 3 0 dB 3 10 dB 10 0 Equal power splitting 0 5 Different power splitting 10 α° 6 bays 100 4/13 P E rel 1/13 P 50 4/13 P 0 5 10 α° 4/13 P 8 bays 100 E rel 50 10 0 3 dB dB 3 10 0 0 *) 5 10 α° without null fill with null fill and beam tilt 57 TV Transmitting Antenna with dipole panels K 52 34 5. . 174 ... 230 MHz Antenna array of dipole panels K 52 34 5.. for different radiation patterns, especially suitable for mounting on triangular or round masts. ● 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. Max. power Vertical radiation pattern Horizontal radiation pattern Half antenna splitting Pressurization Painting Grounding Max. wind velocity No. of bays Panels per bay 1 2 3 3.9 1.7 2 2 3 4 Connectors according to IEC, EIA or DIN. 174 – 202 MHz resp. 202 – 230 MHz < 1.05 in the operating channels after tuning. 50 Ω Horizontal Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. According to customer’s requirements. Null fill and beam tilt upon request. Omnidirectional, directional or custom-designed. Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. Splitters and connecting cables can be supplied with dry air (please specify when ordering). If required, the antenna is painted in aviation warning colours. Via mounting parts. 225 km/h Gain* (at mid-band) dB times Weight (without mounting hardware) kg Antenna height H m Windload (v = 160 km/h) kN 2.5 1.5 50 70 1.2 0.9 1.25 6.9 4.7 4.9 3.0 95 140 2.8 1.8 2.5 2 3 9.9 7.7 9.8 5.9 180 270 6.0 3.6 5.0 6 2 3 11.7 9.5 14.8 8.9 270 400 9.2 5.4 7.5 8 2 3 12.9 10.7 19.5 11.7 360 540 12.4 7.2 10.0 * 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 dB null fill: 0.3 – 1.0 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). 58 H Input Frequency range VSWR Impedance Polarization Internal connections 1600 mm ● TV Transmitting Antenna with dipole panels K 52 34 5. . 174 ... 230 MHz Horizontal Radiation Patterns Vertical Radiation Patterns Examples of typical horizontal antenna arrays and their horizontal radiation patterns for minimal mast dimensions. Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. 2 bays Equal power splitting Systems 174 – 230 MHz 1,0 E rel 60° 0,5 0 10 20 30 α° 40 30 α° 40 30 α° 40 30 α° 40 4 bays 1,0 E rel 0,5 3 0 dB 3 10 dB 10 0 10 20 0 Different power splitting 6 bays 3/4 P 3/7 P 1,0 E rel 60° 0,5 0 1/7 P 1/4 P 10 20 3/7 P 8 bays 1,0 E rel 0,5 0 3 dB 3 10 dB 10 0 10 20 *) without null fill with null fill and beam tilt 0 59 TV Transmitting Antenna (Superturnstile Antenna) 174 – 230 MHz K 52 97 5. . Superturnstile Antenna made of hot-dip galvanized steel for mounting on top of mast. ● Up to 4 bays may be built as self-supporting version. Up to 16 bays can be stacked inside a self-supporting G.R.P. cylinder. Vertical radiation pattern Horizontal radiation pattern Half antenna splitting Internal connections Mounting Ice protection Grounding Max. wind velocity Connectors according to IEC, EIA or DIN. 174 – 230 MHz < 1.05 in the operating channel 50 Ω Horizontal According to customer’s requirements, 10 kW max. per bay. Null fill and beam tilt upon request. Omnidirectional Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. The radiating elements are fed with coaxial connecting cables and hybrid couplers. Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. On top of existing structure by means of a flange. The radiating slots are protected by a fiberglass cover. Cylinder provides full protection. Via mounting parts resp. via 4 grounding ropes at the exterior cylinder-surface. As required. H Input Frequency range VSWR Impedance Polarization Max. power 1500 mm ● ∅ 1.6 m G.R.P. cylinder No. of bays 2 4 8 12 16 Gain* (at mid-band) dB times 4.0 7.0 10.0 11.8 13.0 2.5 5.0 10.0 15.1 20.0 Weight kg without with cylinder cylinder 150 310 660 1010 1360 depending on fiberglasscylinder Antenna height H m Windload (v = 160 km/h) kN 3.0 6.0 12.0 18.0 24.0 4.0 8.0 16.0 24.0 34.0 Wind load with cylinder * 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 dB null fill: 0.3 – 1.0 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). 60 TV Transmitting Antenna (Superturnstile Antenna) 174 – 230 MHz K 52 97 5. . Typical Horizontal Radiation Pattern (at mid-band) Vertical Radiation Patterns Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. 2 bays Systems 174 – 230 MHz 100 E rel 50 10 0 dB 3 10 20 30 α° 40 30 α° 40 30 α° 40 30 α° 40 0 4 bays 100 E rel 50 0 10 20 8 bays 100 E rel 50 0 10 20 12 bays 100 E rel 50 0 *) 10 20 without null fill with null fill and beam tilt 61 TV Transmitting Antenna with dipole panels K 52 30 5. . 174 – 230 MHz Typical antenna array with dipole panels K 52 30 5. . ● 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. Connectors according to IEC, EIA or DIN. 174 – 230 MHz < 1.05 in the operating channel after tuning or < 1.1 in the whole range 50 Ω Horizontal or vertical Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. According to customer’s requirements. The examples of radiation patterns are valid for horizontal polarization. At vertical polarization patterns vary slightly. Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. Splitters and connecting cables can be supplied with dry air (please specify when ordering). Via mounting parts. 225 km/h / 200 km/h Impedance Polarization Internal connections Max. power Radiation pattern Half antenna splitting Pressurization Grounding Max. wind velocity No. of bays Panels per bay Gain* (at mid-band) dB times Weight (without mounting hardware) kg Antenna height H m Windload (v = 160 km/h) kN 1 2 3 4 5.5 4.3 3.1 3.5 2.7 2.0 66 94 122 1.3 1.1 1.85 2.2 2 2 3 4 8.5 7.3 6.1 7.1 5.4 4.1 122 173 224 2.9 2.2 3.7 4.4 4 2 3 4 11.5 10.3 9.1 14.1 10.7 8.1 224 346 453 6.1 4.4 7.4 8.8 * 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 dB null fill: 0.2 – 0.5 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). 62 H Input Frequency range VSWR 1600 mm ● TV Transmitting Antenna with dipole panels K 52 30 5. . 174 – 230 MHz Horizontal Radiation Patterns Vertical Radiation Patterns Examples of typical horizontal antenna arrays and their horizontal radiation patterns for minimal mast dimensions. Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. 1 bay Equal power splitting Systems 174 – 230 MHz E rel 50 0 0 10 20 30 40 50 40 50 40 50 40 50 α° 2 bays E rel 50 3 0 dB 3 10 dB 10 0 0 Equal power splitting 0 10 Different power splitting 20 30 α° 3 bays 4/6 P 1/6 P E rel 50 0 1/6 P 0 10 20 30 α° 4 bays E rel 50 0 dB 3 3 0 dB 10 10 0 0 10 20 30 α° 63 Combined Antenna Systems for TV and DAB TV: 174 – 223 MHz DAB: 174 – 240 MHz K 53 32 5. . Dual-polarized antenna systems for simultaneous transmission of DAB and TV. TV Frequency range VSWR Polarization Input Impedance Max. power Max. wind velocity DAB 174 – 223 MHz 174 – 240 MHz < 1.05 1.1 in the operating channels after tuning Horizontal Vertical Connectors according to IEC, EIA or DIN. 50 Ω According to customer’s requirements. 225 km/h Internal connections: Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. Vertical radiation pattern: Null fill and beam tilt on request. Horizontal radiation pattern: Omnidirectional, directional or custom-designed. Different radiation patterns for TV and DAB can be realized. Half antenna splitting: Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. Pressurization: Splitters and connecting cables can be supplied with dry air (please specify when ordering). Painting: If required, the antenna is painted in aviation warning colours. Grounding: Via mounting parts. 64 1600 mm ● Antennas for TV and DAB in upper VHF Band 174 – 230 MHz Model Types: K 52 07 5. ., K 52 14 5. ., K 52 17 5. ., K 52 22 5. ., K 52 30 5. ., K 52 31 5. ., K 52 33 5. ., K 52 34 5. ., K 52 40 5. ., K 53 20 5. ., K 53 31 5. ., K 53 32 5. ., K 53 33 5. ., K 53 36 5. ., K 53 37 5. ., K 53 40 5. ., Description Frequency range Gain Polarization Page K 52 30 5. Directional Antenna, steel 174 – 230 MHz 8.0 dB horizontal or vertical 66 K 52 33 5. Directional Antenna, steel 174 – 230 MHz 11.0 dB horizontal 67 K 53 33 5. Directional Antenna, steel 174 – 254 MHz 11.0 dB vertical 68 K 52 34 5.. Directional Antenna, steel 174 … 230 MHz 7.0 dB horizontal 69 767 141 Directional Antenna, steel 174 – 209 MHz 7.5 dB horizontal 70 773 643 Directional Antenna, steel 174 – 209 MHz 7.5 dB horizontal 70 K 52 31 5. Directional Antenna, aluminum 174 – 230 MHz 7.5 dB horizontal or vertical 71 768 000 Directional Antenna for TV, steel Directional Antenna for DAB, steel 174 – 223 MHz 220 – 240 MHz 7.5 dB 7.5 dB horizontal vertical 72 750 10085 Directional Antenna for TV and DAB/DMB, steel 174 – 223 MHz 174 – 240 MHz 7.5 dB 4.5 dB linear circular 73 K 52 40 5.. 5 Element Yagi Antenna, aluminum 174 … 230 MHz 6.0 dB horizontal 74 768 494 5 Element Yagi Antenna, aluminum 215 – 242 MHz 6.0 dB vertical 75 750 10003 5 Element Yagi Antenna, aluminum 202 – 230 MHz 6.0 dB vertical 75 K 52 17 5.. 15 Element Yagi Antenna, aluminum 174 … 230 MHz 8.0 dB horizontal or vertical 76 K 52 14 5.. 16 Element Yagi Antenna, aluminum 174 … 230 MHz 11.0 dB horizontal 77 K 52 07 5.. 15 Element Yagi Antenna, aluminum 174 … 230 MHz 8.0 dB horizontal or vertical 78 K 52 22 5. Log.-per. Directional Antenna, steel 174 – 230 MHz 8.5 dB horizontal or vertical 79 769 006 Dipole Antenna for DAB, steel 216 – 240 MHz 5.5 dB vertical 80 773 361 Dipole Antenna for DAB, steel 216 – 240 MHz 5.5 dB vertical 80 772 899 Omnidirectional Antenna for DAB, steel 216 – 240 MHz 3.0 dB vertical 81 772 900 Omnidirectional Antenna for DAB, steel 216 – 240 MHz 6.0 dB vertical 81 750 10025 Omnidirectional Antenna for DAB, steel 216 – 240 MHz 6.0 dB vertical 82 750 10026 Omnidirectional Antenna for DAB, steel 216 – 240 MHz 3.0 dB vertical 82 776 064 Directional Antenna for DAB, steel 216 – 240 MHz 11.5 dB vertical 83 766 614 Omnidirectional Antenna, steel 223 – 230 MHz .0 dB vertical 84 Antennas 174 – 230 MHz Type No. 65 K 52 30 5. . Directional Antenna 174 – 230 MHz ● ● Broadband directional antenna of hot-dip galvanized steel. Especially suitable for square and round masts. Type No. Order No. K 52 30 57 600 241 Input Frequency range VSWR Gain (ref. to λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Horizontally polarized Vertically polarized Max. wind velocity Packing size K 52 30 58 602 036 7-16 female 7/8˝ EIA-flange (type gas-stop) 174 – 230 MHz < 1.08 8 dB at mid-band 50 Ω Horizontal or vertical 2 kW 2.5 kW (higher power upon request) 23 kg 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. 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. Grounding: Via mounting parts. Combinations: The antenna is especially suitable as a component in arrays to achieve various radiation patterns. Particularly for square and round masts. Scope of supply: Antenna without mounting clamps. Radiation Patterns (at mid-band) 64° 0 in E-Plane 66 64° 3 dB 10 dB 3 C frontal / lateral: 750 N / 315 N frontal / lateral: 750 N / 375 N 225 km/h 1350 x 1350 x 550 mm Material: 10 A 0 in H-Plane B A: 1300 mm B: 1300 mm C: 490 mm K 52 33 5. . Directional Antenna 174 – 230 MHz Horizontally polarized broadband directional antenna of hot-dip galvanized steel. ● Especially suitable for square masts. ● K 52 33 57 600 261 Input Frequency range VSWR Gain (ref. to λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity Packing size Material: K 52 33 58 601 940 7-16 female 7/8˝ EIA-flange (type gas-stop) 174 – 230 MHz < 1.1 11 dB at mid-band 50 Ω Horizontal 2 kW 2.5 kW (higher power upon request) 60 kg frontal: 1625 N lateral: 875 N 225 km/h 2850 x 1350 x 500 mm 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. 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. Grounding: Via mounting parts. Combinations: The antenna is especially suitable as a component in arrays to achieve various radiation patterns. Particularly for square masts. Scope of supply: Antenna without mounting clamps. A Antennas 174 – 230 MHz Type No. Order No. B C A: 2800 mm B: 1300 mm C: 415 mm Radiation Patterns (at mid-band) 66° 32° 0 in E-plane Horizontal Radiation Pattern 3 dB 3 10 dB 10 0 in H-plane Vertical Radiation Pattern 67 K 53 33 5. . Directional Antenna 174 – 254 MHz ● Vertically polarized broadband directional antenna of hot-dip galvanized steel. Type No. Order No. K 53 33 57 601 699 Input Frequency range VSWR Gain (ref. to λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity Packing size K 53 33 58 601 939 7-16 female 7/8˝ EIA-flange (type gas-stop) 174 – 254 MHz < 1.1 11 dB at mid-band 50 Ω Vertical 2 kW 2.5 kW (higher power upon request) 55 kg frontal: 2.00 kN lateral: 1.15 kN 225 km/h 2850 x 1350 x 500 mm 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. 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. Grounding: Via mounting parts. Combinations: The antenna is especially suitable as a component in arrays to achieve various radiation patterns. Scope of supply: Antenna with 8 screws M 16 x 80. Radiation Patterns (at mid-band) 64° 0 in H-plane Horizontal Radiation Pattern 68 3 dB 3 32° 10 dB 10 B 0 in E-plane Vertical Radiation Pattern A A: 2800 mm B: 1300 mm C: 400 mm C K 52 34 5. . Directional Antenna 174 … 240 MHz ● Broadband directional antenna of hot-dip galvanized steel. Especially suitable for triangular and round masts. Type No. Order No. K 52 34 517 601 157 Input Frequenca range VSWR Gain (ref. to λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity B K 52 34 527 601 835 7-16 female (type gas-stop) 174 – 202 MHz 202 – 240 MHz < 1.15 7 dB 50 Ω Horizontal 2 kW (higher power upon request) 20 kg frontal: 375 N lateral: 375 N 225 km/h 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. 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. Grounding: Via mounting parts. 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 without mounting clamps. A Antennas 174 – 230 MHz ● C A: 1200 mm B: 860 mm C: 405 mm Radiation Patterns (at mid-band) 80° 0 in E-plane Horizontal Radiation Pattern 3 dB 3 10 dB 10 56° 0 in H-plane Vertical Radiation Pattern 69 K 52 34 5. . Directional Antenna 174 ... 230 MHz ● ● Broadband directional antenna of hot-dip galvanized steel. Especially suitable for square masts. B 773 643 Input Frequenca range VSWR Gain (ref. to λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) 767 141 7-16 female (type gas-stop) 174 – 209 MHz 202 – 230 MHz < 1.15 7.5 dB 50 Ω Horizontal 2 kW (higher power upon request) 46 kg frontal: 1250 N lateral: 625 N 225 km/h 1400 x 1000 x 800 mm Max. wind velocity Packing size Hot-dip galvanized steel. Protective cover: Fiberglass. Mounting: Mounting hardware and mounting dimensions upon request. 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. Grounding: Via mounting parts. Combinations: The antenna is especially suitable as a component in arrays to achieve various radiation patterns. Particularly for square masts. Scope of supply: Antenna without mounting clamps. C Material: Radiation Patterns (at mid-band) 56° 69° dB 3 0 in E-plane Horizontal Radiation Pattern 70 3 dB 10 10 A Type No. / Order No. 0 in H-plane Vertical Radiation Pattern A: 1233 mm B: 872 mm C: 558 mm K 52 31 5. . Directional Antenna 174 – 230 MHz Broadband directional antenna of weather-resistant aluminum. Type No. Order No. K 52 31 57 600 256 Input Frequency range VSWR Gain (ref. to λ/2 dipole) Impedance Polarization 7-16 female N female 174 – 230 MHz < 1.15 7.5 dB at mid-band 50 Ω Horizontal or vertical by conversion of two clamps 500 W 7 kg Max. power Weight Wind load Horizontal (160 km/h) Vertical (160 km/h) Max. wind velocity Horizontal Vertical Packing size K 52 31 51 600 837 A Antennas 174 – 230 MHz ● frontal / lateral: 440 N / 200 N frontal / lateral: 440 N / 350 N 225 km/h 200 km/h 1240 x 1240 x 120 mm 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. C B A: 1200 mm B: 1200 mm C: 360 mm Radiation Patterns (at mid-band) 66° 0 in E-Plane 3 dB 3 10 dB 10 61° 0 in H-Plane 71 K 53 32 5. . Directional Antenna for TV and DAB TV: 174 – 223 MHz / DAB: 220 – 240 MHz ● ● Dual-polarized antenna. Specially designed for simultaneous operation of TV in Band III and DAB in Channel 12 and Channel 13. mm ■ 1200 Type No. / Order No. 768 000 Input 1 x 7-16 female / horizontal (type gas-stop) 1 x 7-16 female / vertical (type gas-stop) Frequency range for horizontal polarization vertical polarization VSWR Gain (ref. to λ/2 dipole) Impedance Polarization Max. power 1 Channel at Band III DAB: 220 – 240 MHz < 1.15 7.5 dB 50 Ω TV: horizontal / DAB: vertical 2 kW per input (at 40 °C ambient temperature) 30 kg frontal: 815 N lateral: 570 N 225 km/h Weight Windload (at 160 km/h) Max. wind velocity Material: Hot-dip galvanized steel. Radome: Fiberglass Mounting: Using M16 screws (supplied) to suitable attachment construction. Antennas K 52 30 5. may be replaced by 768 000 without altering mounting fixture. Mounting dimensions upon request. Scope of delivery: Antenna supplied without clamps. Grounding: Via mounting parts. Radiation Patterns for horizontal polarization Radiation Patterns for vertical polarization (at mid-band) (at mid-band) 0 E-plane Horizontal Radiation Pattern 72 3 10 dB dB 3 10 0 H-plane Vertical Radiation Pattern 66° 54° 3 10 dB 10 54° 0 H-plane Horizontal Radiation Pattern 3 dB 64° 0 E-plane Vertical Radiation Pattern K 53 32 5. . Directional Antenna for TV and DAB/DMB 174 – 223 MHz (240 MHz) ● ● Dual-polarized antenna (horizontal/vertical). Optionally circular or slant polarization. 1300 mm Type No. / Order No. 750 10085 2 x 7-16 female (type gas-stop) linear: horizontal, vertical, slant circular 174 – 223 MHz 174 – 240 MHz < 1.2 (linear polarization) < 1.1 (circular polarization) 7.5 dB (linear polarization) 4.5 dB (circular polarization) 50 Ω 2 kW per input (at 40 °C ambient temperature) 35 kg frontal: 680 N lateral: 630 N 225 km/h Frequency range for vertical polarization VSWR Gain (ref. to λ/2 dipole) Impedance Max. power Weight Windload (at 160 km/h) Max. wind velocity Antennas 174 – 230 MHz Input Polarization Material: Hot-dip galvanized steel. Radome: Fiberglass Mounting: Using M16 screws (supplied) to suitable attachment construction. Mounting dimensions upon request. Scope of delivery: Antenna supplied without clamps. Grounding: Via mounting parts. Radiation Patterns for horizontal polarization Radiation Patterns for vertical polarization (at mid-band) (at mid-band) 10 0 E-plane Horizontal Radiation Pattern 0 H-plane Vertical Radiation Pattern 3 65° 10 dB 3 10 dB 3 dB 10 60° 55° 0 H-plane Horizontal Radiation Pattern 3 dB 65° 0 E-plane Vertical Radiation Pattern 73 K 52 40 5. . Directional Antenna 174 ... 230 MHz 5 element broadband Yagi antenna of weather-proof aluminum. ● Component for low power transmitting antennas. ● Type No. Order No. K 52 40 517 600 265 Frequency range (ch = channel) Dimensions A B Input Gain (ref. to λ/2 dipole) VSWR Impedance Polarization Max. power Weight Wind load (at 160 km/h) frontal: lateral: Max. wind velocity Packing size K 52 40 527 600 267 174 – 202 MHz 202 – 230 MHz (ch 5 – ch 8) (ch 9 – ch 12) 930 mm 810 mm 885 mm 765 mm 7-16 female 6 dB < 1.15 50 Ω Horizontal 100 W (higher power upon request) 5 kg 114 N 102 N 102 N 91 N 225 km/h 970 x 200 x 135 mm 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. Radiation Patterns (at mid-band) 110° 55° 0 in E-plane Horizontal Radiation Pattern 74 3 dB 3 10 dB 10 0 in H-plane Vertical Radiation Pattern A A B B Lengths see table K 53 40 5. . Directional Antenna for DAB 215 – 242 MHz 5 element broadband Yagi antenna of weather-proof aluminum. ● Component for low power transmitting antennas. ● Especially for DAB. ● A Max. wind velocity Packing size 750 10033 215 – 242 MHz 202 – 230 MHz 7-16 female 6 dB < 1.2 50 Ω Vertical 400 W 5 kg frontal: 100 N lateral: 150 N 225 km/h 970 x 200 x 135 mm Material: Weather-proof aluminum. Radiator in fiberglass radome. Mounting: To pipes of 60 – 115 mm ∅ by means of mounting clamps, supplied. Attention: Mounting must be done with waterhole downwards. 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. A: 830 mm B: 765 mm waterhole Radiation Patterns (at mid-band) 110° 55° 0 in H-Plane Horizontal Radiation Pattern 3 dB 3 10 dB 10 0 in E-Plane Vertical Radiation Pattern 75 Antennas 174 – 230 MHz Frequency range Input Gain (ref. to λ/2 dipole) VSWR Impedance Polarization Max. power Weight Wind load (160 km/h) 768 494 B Type No. / Order No. K 52 17 5. . Directional Antenna 174 … 230 MHz ● 15 element broadband Yagi antenna of weather-proof aluminum. 110 Lengths see table Mounting flange 85 ø 11 mm 85 Type No. Order No. K 52 17 517 600 890 K 52 17 537 600 892 174 – 188 MHz L1 L2 L3 2000 mm 1200 mm 900 mm frontal / lateral: 364 N / 313 N 427 N / 540 N 1850 mm 1100 mm 850 mm frontal / lateral: 330 N / 290 N 404 N / 490 N 1700 mm 950 mm 750 mm frontal / lateral: 290 N / 280 N 364 N / 427 N Wind load (at 160 km/h) horizontal: vertical: Max. wind velocity horizontal: 225 km/h 225 km/h 225 km/h vertical: 190 km/h 225 km/h 225 km/h Packing size 2040 x 170 x 170 mm 1900 x 170 x 170 mm 1750 x 170 x 170 mm 62° 10 3 0 in E-plane 60° 10 3 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. 76 dB 188 – 209 MHz 209 – 230 MHz 7-16 female < 1.15 8 dB 50 Ω Horizontal or vertical 100 W (higher power upon request) 14 kg 12.7 kg 12 kg Radiation Patterns (at mid-band) dB Frequency range Input VSWR Gain (ref. to λ/2 dipole) Impedance Polarization Max. power Weight Dimensions (Lengths) K 52 17 527 600 891 110 0 in H-plane K 52 14 5. . Directional Antenna 174 … 230 MHz ● 16 element Yagi antenna of weather-proof aluminum. A C D Antennas 174 – 230 MHz B Lengths see table Frequency range (ch = channel) Input VSWR Gain (ref. to λ/2 dipole) Impedance Polarization Max. power Weight Dimensions (Lengths) A B C D Wind load (at 140 km/h) frontal: lateral: Max. wind velocity Packing size K 52 14 517 600 206 K 52 14 527 600 208 174 – 202 MHz 202 – 230 MHz (ch 5 – ch 8) (ch 9 – ch 12) 7-16 female < 1.15 11 dB 50 Ω Horizontal 100 W (higher power upon request) 12 kg 11 kg 3360 mm 2900 mm 2060 mm 2000 mm 880 mm 760 mm 955 mm 825 mm 210 N 290 N Radiation Patterns (at mid-band) 44° 10 3 dB Type No. Order No. 0 in E-plane Horizontal Radiation Pattern 185 N 250 N 48° 140 km/h 3350 x 170 x 170 mm 2880 x 170 x 170 mm Support: Weather-proof aluminum. Dipole cover: Fiberglass. Clamp: Hot-dip galvanized steel. Mounting: To pipes of 60 – 115 mm ∅ by means of mounting clamp, 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. 3 dB 10 Material: 0 in H-plane Vertical Radiation Pattern 77 K 52 07 5. . Directional Antenna 174 … 230 MHz ● Particularly light 15 element Yagi antenna of weather-proof aluminum. B C A Lengths see table Type No. Order No. K 52 07 527 601 516 K 52 07 537 601 517 174 – 188 MHz Material: Weather-proof aluminum: Dipole cover: Hostalen. Mounting: To pipes of 57 – 105 mm ∅ by means of supplied U-bolts. A B C 53° 10 3 dB Wind load (at 160 km/h) horizontal: vertical: Max. wind velocity Packing size 188 – 209 MHz 209 – 230 MHz 7-16 female < 1.2 8 dB 50 Ω Horizontal or vertical by conversion of the U-bolts 100 W (higher power upon request) 7.5 kg 7.2 kg 6.8 kg 2010 mm 1865 mm 1720 mm 1020 mm 940 mm 840 mm 900 mm 850 mm 760 mm frontal / lateral: frontal / lateral: frontal / lateral: 239 N / 279 N 222 N / 267 N 199 N / 250 N 239 N / 313 N 222 N / 290 N 199 N / 250 N 225 km/h 2040 x 170 x 170 mm 1900 x 170 x 170 mm 1760 x 170 x 170 mm Radiation Patterns (at mid-band) 0 in E-plane 68° 10 3 dB Frequency range Input VSWR Gain (ref. to λ/2 dipole) Impedance Polarization Max. power Weight Dimensions (Lengths) K 52 07 517 601 515 0 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. 78 in H-plane K 52 22 5. . Directional Antenna 174 – 230 MHz Logarithmic-periodic broadband directional antenna with high side-lobe suppression. ● Especially rugged design of hot-dip galvanized steel. ● K 52 22 57 600 234 Input Frequency range VSWR Gain (ref. to λ/2 dipole) Impedance Side-lobe suppression Polarization 7-16 female N female 174 – 230 MHz < 1.2 8.5 dB at mid-band 50 Ω > 25 dB Horizontal or vertical by conversion of two clamps 1 kW (higher power upon request) 27 kg Max. power Weight Wind load (at 160 km/h) horizontal: vertikal: Max. wind velocity Packing size K 52 22 51 601 340 frontal / lateral: 250 N / 500 N frontal / lateral: 250 N / 313 N 225 km/h 2450 x 290 x 1100 mm 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. B Antennas 174 – 230 MHz Type No. Order No. A A: 2300 mm B: 890 mm Radiation Patterns (at mid-band) 53° 0 in E-plane 3 dB 3 10 dB 10 68° 0 in H-plane 79 K 53 36 5. . Dipole Antenna for DAB 216 – 240 MHz ● Dipole antenna for side-mounting to masts. C Type No. / Order No. Input 769 006 773 361 7-16 female Frequency range VSWR Gain (ref. to λ/2 dipole) Impedance Polarization Max. power Weight Wind load (160 km/h) Max. wind velocity Packing size 7-16 female (type gas-stop) 216 – 240 MHz 184 – 230 MHz < 1.2 < 1.3 5.5 dB in preferred direction 50 Ω Vertical 2 kW (at 40 °C ambient temperature) 15 kg frontal: 240 N lateral: 440 N 225 km/h 2310 x 420 x 160 mm Material: Hot-dip galvanized steel. Radome: Fiberglass. Mounting: Laterally using 8 screws M 12 x 50 to suitable flange (see draft). 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. Grounding: Via mounting parts. Note: The radiation in the mast direction will be reduced proportionally to the size of the mast. B A D Radiation Patterns (at mid-band) Flange 32° 0 in H-plane Horizontal Radiation Pattern 80 3 dB 3 10 dB 10 A: 2205 mm B: 1100 mm C: 372 mm D: 315 mm 0 in E-plane Vertical Radiation Pattern K 53 20 5. . Omnidirectional Antenna for DAB 216 – 240 MHz Type No. / Order No. 772 899 7-16 female (type gas-stop) 216 – 240 MHz < 1.2 3 dB 6 dB 50 Ω Vertical 1 kW 2 kW (higher power upon request) 37 kg 67 kg 500 N 900 N 200 km/h 2900 mm 5000 mm 186 mm 3030 x 400 x 400 mm 5230 x 400 x 400 mm Weight Windload (at 160 km/h) Max. wind velocity Length Radome diameter Packing size Material: Radiator: Hot-dip galvanized steel. Radome: Fiberglass, brown. Antenna base: Aluminum. Mounting: With standard flange with 320 mm diameter. Antennas 174 – 230 MHz Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power 772 900 Attention: The aluminum flange may only be mounted to a flat base-plate (max. unevenness 0.5 mm) with a suitable drilled hole in the center for the both 7-16 connectors. Fastening torque MA = 50 Nm (MoS2-lubricated; washer acc. DIN 125 between casted flange and bolt head) Grounding: Continuous earth connection between antenna tip and base. Remark: Special versions with higher input power or modified frequency range or electrical beam tilt are available upon request. Bottom view Vertical Radiation Patterns 7-16 female (at mid-band, beamtilt ≈1°) 28° 14° 10 0 772 899 3 dB 3 dB 10 0 772 900 ∅ 18 280 320 81 K 53 20 5. . Omnidirectional Antenna for DAB 216 – 240 MHz Type No. / Order No. 750 10026 Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power 750 10025 2 x 7-16 female (type gas-stop) 216 – 240 MHz < 1.2 3 dB 6 dB 50 Ω Vertical 2 x 1 kW 2 x 2 kW (at 40 °C ambient temperature) 42 kg 73 kg 500 N 900 N 200 km/h 2900 mm 5000 mm 186 mm 3030 x 400 x 400 mm 5230 x 400 x 400 mm Weight Windload (at 160 km/h) Max. wind velocity Length Radome diameter Packing size Material: Radiator: Hot-dip galvanized steel. Radome: Fiberglass, brown. Antenna base: Aluminum. Mounting: With standard flange with 320 mm diameter. Attention: The aluminum flange may only be mounted to a flat base-plate (max. unevenness 0.5 mm) with a suitable drilled hole in the center for the both 7-16 connectors. Fastening torque MA = 50 Nm (MoS2-lubricated; washer acc. DIN 125 between casted flange and bolt head) Grounding: Continuous earth connection between antenna tip and base. Remark: Special versions with higher input power or modified frequency range or electrical beam tilt are available upon request. Bottom view 2 x 7-16 female Vertical Radiation Patterns (at mid-band) 28° 14° 10 0 750 10026 82 3 dB 3 dB 10 0 750 10025 ∅ 18 280 320 K 53 31 5. . Directional Antenna for DAB 216 – 240 MHz Especially designed for operation in DAB. Suitbale for omnidirectional pattern with 5 panels in one bay. Type No. / Order No. 776 064 Max. wind velocity Packing size Material: Hot-dip galvanized steel. Weather protection: Fiberglass. Mounting: By means of 4 screws M 16 x 40 to a suitable construction. Mounting hardware upon request. 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. Grounding: Via mounting parts. Combinations: The antenna is especially suitable as a component in arrays to achieve various radiation patterns. Scope of supply: Antennas 174 – 230 MHz Weight Wind load (at 160 km/h) 7-16 female (type gas-stop) 216 – 240 MHz (219 – 233 MHz) < 1.15 (< 1.10) 11.5 dB at mid-band 50 Ω Vertical 2 kW (higher power upon request) 50 kg frontal: 1050 N lateral: 1200 N 225 km/h 2530 x 1330 x 680 mm 30 Input Frequency range VSWR Gain (ref. to λ/2 dipole) Impedance Polarization Max. power 35 ∅ 18 1200 ● 2400 ● 7-16 female Antenna with 4 screws M 16 x 40. 60 1200 Radiation Patterns (at mid-band) 5 52° 0 in H-plane Horizontal Radiation Pattern 3 dB 3 28° 10 dB 10 250 0 in E-plane Vertical Radiation Pattern 83 K 53 37 5. . Omnidirectional Antenna 223 – 230 MHz ● Omnidirectional broadband antenna for mounting on the mast top. ø 70 Type No. / Order No. 766 614 7-16 female 223 – 230 MHz < 1.3 50 Ω 0 dB Vertical 1 kW 6 kg approx. 60 N (at 160 km/h) 225 km/h Material: Hot-dip galvanized steel. All screws and nuts: Stainless steel. Mounting: To standard flange with diameter 130 mm, with 4 screws M 12. Grounding: Via mounting parts. 1074 Input Frequency range VSWR Impedance Gain (ref. λ/2 dipole) Polarization Max. power Weight Wind load Max. wind velocity ø 14 (4x) ø 100 ø 130 Radiation patterns (at mid-band) 78° 3 0 10 dB 3 0 H-plane Horizontal radiation pattern 84 3 10 10 10 3 dB 0 0 E-plane Vertical radiation pattern ø 100 ø 130 Flange Systems 470 – 862 MHz Antenna Systems 470 – 862 MHz 85 TV Transmitting Antenna with panels K 72 30 4. . – K 72 32 4. . or K 73 30 4. . – K 73 32 4. . 470 – 862 MHz ● Antenna systems consisting of dipole panels K 72 30 4. . – K 72 32 4. . or K 73 30 4. . – K 73 32 4. . for various radiation patterns. ● 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. Max. power Vertical radiation pattern Horizontal radiation pattern Half antenna splitting Pressurization Painting Structure Grounding Max. wind velocity Gain* (at mid-band) dB times Weight (without mounting hardware) kg Antenna height H m 1150 mm Internal connections Connectors according to IEC, EIA or DIN. 470 – 862 MHz < 1.05 in the operating channels after tuning. 50 Ω Horizontal with dipole panels K 72 30 4. . – K72 32 4. . or vertical with dipole panels K 73 30 4. . – K 73 32 4. . Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. According to customer’s requirements. Null fill and beam tilt upon request. Omnidirectional, directional or custom-designed. Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. Splitters and connecting cables can be supplied with dry air (please specify when ordering). If required, the antenna is painted in aviation warning colours. 2 versions are available: a) Panels mounted on hot-dip galvanized steel spine. b) Panels mounted inside self-supporting fiberglass cylinder (1.6 m ∅) Via mounting parts. As required. H Input Frequency range VSWR Impedance Polarization No. of bays Panels per bay Windload / kN** (v = 160 km/h) with with spine cylinder 1.6 m ∅ 4 2 3 4 15.2 13.6 12.3 33.1 22.9 17.0 120 160 210 4.45 6.0 6.0 6 2 3 4 17.0 15.4 14.1 50.1 34.7 25.7 170 240 330 6.75 9.5 9.0 8 2 3 4 18.2 16.6 15.3 66.1 45.7 33.9 240 320 420 9.05 13.0 12.0 12 2 3 4 20.0 18.4 17.1 100.0 69.2 51.3 350 490 670 13.65 20.5 18.0 16 2 3 4 21.2 19.6 18.3 131.8 91.2 67.6 450 690 890 18.25 28.0 24.0 * 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 dB null fill: 0.3 – 1.0 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). ** Average values, depending on design and arrangement. 86 TV Transmitting Antenna with panels K 72 30 4. . – K 72 32 4. . or K 73 30 4. . – K 73 32 4. . 470 – 862 MHz Horizontal Radiation Patterns Vertical Radiation Patterns Examples of typical horizontal antenna arrays and their horizontal radiation patterns for minimal mast dimensions. Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. 4 bays Equal power splitting 100 E rel 50 5 α° 10 α° 10 α° 10 α° 10 Systems 470 – 862 MHz 0 8 bays 100 E rel 50 dB 3 3 dB 10 10 0 5 0 0 Equal power splitting Different power splitting 12 bays 100 E rel 1/10 P 1/10 P 4/10 P 50 4/10 P 0 5 16 bays 100 E rel 50 10 0 3 dB dB 3 10 0 5 *) without null fill with null fill and beam tilt 0 87 TV Transmitting Antenna (Superturnstile Antenna) 470 – 862 MHz K 72 20 4. . Input Frequency range VSWR Impedance Polarization Max. power Vertical radiation pattern Horizontal radiation pattern Half antenna splitting Internal connections Structure Mounting Ice protection Grounding No. of bays 2 4 8 12 16 Gain* (at mid-band) dB times 7.0 10.0 13.0 14.8 16.0 5.0 10.0 20.0 30.2 39.8 Connectors according to IEC, EIA or DIN. 470 – 862 MHz < 1.05 in operating channels 50 Ω Horizontal According to customer’s requirements, 10 kW max. per bay. Null fill and beam tilt upon request. Omnidirectional Upon request, the antenna can be divided into 2 halves (for measurement and maintenance). The 2 halves are connected by a 2-way power splitter or patch panel. The radiating elements are fed with coaxial connecting cables and hybrid couplers. Connectors according to IEC, EIA or DIN are used throughout the system, allowing easy assembly and maintenance. Superturnstile antenna in self-supporting fiberglass-cylinder. Up to 16 bays may be stacked. On top of existing structure by means of a flange. Fiberglass-cylinder (= supporting structure) Via mounting parts resp. via 4 grounding ropes at the exterior cylinder-surface. Weight (with cylinder) kg Antenna height H m Windload (v = 160 km/h) kN 400 800 1600 2600 3600 2.25 4.5 9.0 13.5 18.0 3.0 6.0 12.0 18.0 24.0 * 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 dB null fill: 0.3 – 1.0 dB Gain figures are valid for the direction of maximum radiation (see diagrams on following page). 88 1125 mm Superturnstile antenna in a self-supporting fiberglass cylinder with 1.60 m diameter. H ● TV Transmitting Antenna (Superturnstile Antenna) 470 – 862 MHz K 72 20 4. . Typical Horizontal Radiation Pattern (at mid-band) Vertical Radiation Patterns Examples of typical vertical radiation patterns*) for several bays of identical, vertically stacked antenna arrays. 4 bays 100 E rel 50 3 dB 10 0 5 α° 10 α° 10 α° 10 α° 10 Systems 470 – 862 MHz 0 8 bays 100 E rel 50 0 5 12 bays 100 E rel 50 0 5 16 bays 100 E rel 50 0 *) 5 without null fill with null fill and beam tilt 89 90 Antennas for TV in UHF Band 470 – 862 MHz Model Types: K 72 20 4. ., K 72 23 4. ., K 72 31 4. ., K 72 31 5. ., K 72 32 4. ., K 72 36 4. ., K 73 30 4. ., K 73 30 5. ., K 73 31 4. ., K 73 31 6. ., K 73 32 4. ., K 73 33 4. ., Description Frequency range Gain Polarization Page K 72 36 4. Directional Antenna, aluminum 470 – 790 MHz 8.0 dB horizontal 93 K 72 31 4. Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 94 715 022 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 94 774 038 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 95 774 039 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 95 774 040 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 95 774 041 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 95 774 046 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 95 774 047 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 95 774 052 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 96 776 165 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB vertical 97 776 166 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB vertical 97 776 167 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB vertical 97 776 168 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB vertical 97 776 202 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB vertical 97 776 203 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB vertical 97 K 73 31 4. Directional Antenna, aluminum 470 – 860 MHz 11.0 dB vertical 98 769 731 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB vertical 99 750 10082 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB vertical 100 750 10083 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB vertical 100 750 10045 Directional Antenna, aluminum 470 – 860 MHz 10.5 dB vertical 101 750 10046 Directional Antenna, aluminum 470 – 860 MHz 10.5 dB vertical 101 750 10047 Directional Antenna, aluminum 470 – 860 MHz 10.5 dB vertical 101 750 10016 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 102 750 10017 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 102 750 10031 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 102 750 10032 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 102 772 549 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 103 772 550 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 103 772 999 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 103 773 000 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 103 773 332 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 103 773 333 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 103 750 10012 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 103 750 10013 Directional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 103 K 72 31 57 Directional Antenna, aluminum 646 – 860 MHz 10.0 dB horizontal 104 776 015 Directional Antenna, aluminum 646 – 860 MHz 10.0 dB horizontal 104 Antennas 470 – 862 MHz Type No. ... 91 Antennas for TV in UHF Band 470 – 860 MHz Type No. 92 Description Frequency range Gain Polarization Page K 72 23 4. Log.-per Directional Antenna, aluminum 470 – 860 MHz 9.0 dB horizontal or vertical 105 761 327 Log.-per Directional Antenna, aluminum 470 – 860 MHz 9.0 dB horizontal or vertical 105 767 006 Omnidirectional Antenna, aluminum 470 – 860 MHz 5.0 dB horizontal 106 770 881 Omnidirectional Antenna, aluminum 470 – 860 MHz 8.0 dB horizontal 106 771 304 Omnidirectional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 107 775 861 Omnidirectional Antenna, aluminum 470 – 860 MHz 11.0 dB horizontal 107 750 10060 Omnidirectional Antenna, aluminum 470 – 702 MHz 3.0 – 4.5 dB vertical 108 750 10062 Omnidirectional Antenna, aluminum 470 – 702 MHz 5.5 – 7.0 dB vertical 109 750 10112 Omnidirectional Antenna, copper and brass 470 – 502 MHz 6.5 dB vertical 110 750 10113 Omnidirectional Antenna, copper and brass 502 – 534 MHz 7.0 dB vertical 110 750 10114 Omnidirectional Antenna, copper and brass 534 – 574 MHz 7.5 dB vertical 110 750 10115 Omnidirectional Antenna, copper and brass 574 – 614 MHz 7.5 dB vertical 110 750 10116 Omnidirectional Antenna, copper and brass 614 – 662 MHz 8.0 dB vertical 110 750 10117 Omnidirectional Antenna, copper and brass 654 – 702 MHz 8.0 dB vertical 110 750 10118 Omnidirectional Antenna, copper and brass 694 – 750 MHz 8.5 dB vertical 110 750 10120 Directional Indoor Antenna, brass 470 – 534 MHz 5.0 dB vertical 111 750 10122 Directional Indoor Antenna, brass 534 – 614 MHz 5.0 dB vertical 111 750 10124 Directional Indoor Antenna, brass 614 – 702 MHz 5.0 dB vertical 111 750 10125 Directional Indoor Antenna, brass 702 – 750 MHz 5.0 dB vertical 111 750 10130 Omnidirectional Indoor Antenna, aluminum 470 – 558 MHz 0 dB vertical 112 750 10131 Omnidirectional Indoor Antenna, aluminum 550 – 638 MHz 0 dB vertical 112 750 10132 Omnidirectional Indoor Antenna, aluminum 574 – 702 MHz 0 dB vertical 112 750 10128 Bidirectional Antenna, tin plated copper 470 – 860 MHz 2 dB vertical 113 K 72 36 4. Directional Antenna 470 – 790 MHz ● Horizontally polarized broadband directional antenna made of aluminum and protected by a fiberglass cover. Type No. Order No. K 72 36 47 601 787 Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) 7-16 female N female 470 – 790 MHz s < 1.12 8 dB at mid-band 50 Ω Horizontal 500 W (higher power upon request) 6 kg Frontal: 250 N Rearside: 375 N Lateral: 125 N 225 km/h 567 x 567 x 294 mm Max. wind velocity Packing size A K 72 36 41 601 921 B C Reflector screen and dipoles: Weather-resistant aluminum. Protective cover: Fiberglass. Colour: White, upon request orange. Attachment elbow: Hot-dip galvanized steel. Attachment: (please order separately) E.g. by using clamps K 61 14 0… to tubular masts of 40 – 521 mm diameter. Further attachment parts and mounting dimensions upon request. 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. Combinations: The antenna is particularly suitable for use in combinations in order to achieve various radiation patterns. Scope of delivery: Directional antenna with one weather protection unit each for straight connectors and elbow connectors. A = B: 500 mm C: 190 mm Antennas 470 – 862 MHz Material: Radiation Patterns (at mid-band) 0 in E-plane Horizontal Radiation Pattern 3 190 dB 3 Weather protection 10 dB 10 61° 400 61° mm 0 in H-plane Vertical Radiation Pattern All dimensions in mm 93 K 72 31 4. . Directional Antenna 470 – 860 MHz ● Horizontally or vertically polarized broadband directional antenna made of aluminum and protected by a fiberglass cover. 500 Input Frequency range VSWR Gain (ref. λ/2 dipole) Polarization Max. power Wind load (at 160 km/h) 7-16 female 13-30 female 470 – 860 MHz s < 1.1 11 dB at mid-band Horizontal 1 kW 2 kW Frontal: 565 N Rearside: 815 N Lateral: 250 N 225 km/h 12 kg 1062 x 562 x 275 mm 1000 x 500 x 190 mm Max. wind velocity Weight Packing size Height/width/depth 715 022 Material: Reflector screen and dipoles: Weather-resistant aluminum. Protective cover: Fiberglass. Attachment elbow: Hot-dip galvanized steel. Attachment: (please order separately) E.g. by using clamps K 61 14 0… to tubular masts of 40 – 521 mm diameter. Further attachment parts and mounting dimensions upon request. Grounding: Via mounting parts. Ice protection: The dipoles remain fully functioning even in icy conditions as the fiberglass cover protects the whole antenna and also the antenna is of a very robust design. Combinations: The antenna is particularly suitable for use in combinations in order to achieve various radiation patterns. Scope of supply: Directional antenna with one weather protection unit each for straight connectors and elbow connectors. 1000 K 72 31 47 601 417 Horizontal polarization 190 Type No. Order No. 910 Weather protection Radiation Patterns (at mid-band) 62° 28° 19 0 10 0 Horizontal Pattern 94 3 dB dB 3 10 0 Vertical Pattern K 72 31 47 All dimensions in mm K 72 31 4. . Directional Antenna 470 – 860 MHz ● Horizontally polarized broadband directional antenna made of aluminum and protected by a fiberglass cover. ● Similar to type K 72 31 47. Max. wind velocity Packing size Height/width/depth 774 046 774 047 774 038 774 039 7-16 female 1 kW 13-30 female 7/8″ EIA-flange 470 – 860 MHz < 1.1 11 dB at mid-band 50 Ω Horizontal 2 kW 1.5 kW 12 kg Frontal: 565 N Rearside: 815 N Lateral: 250 N 225 km/h 1062 x 562 x 294 mm 1000 x 500 x 190 mm Reflector screen and dipoles: Weather-resistant aluminum. Protective cover: Fiberglass. Attachment plate: Hot-dip galvanized steel. Attachment: Using M 8 x 35 screws (supplied) to suitable attachment construction. Mounting dimensions upon request. Grounding: Via mounting parts. Ice protection: The dipoles remain fully functioning even in icy conditions as the fiberglass cover protects the whole antenna and also the antenna is of a very robust design. Combinations: The antenna is particularly suitable for use in combinations in order to achieve various radiation patterns. Scope of supply: The 7-16 female connector is supplied with a weather protection unit. Weather protection 1020 Material: Horizontal polarization Antennas 470 – 862 MHz Input (from below) Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) 774 040 774 041 1000 white orange 190 Type No. Order No. 500 Radiation Patterns (at mid-band) 62° 28° 10 0 in E-plane Horizontal Pattern 3 dB dB 3 10 0 in H-plane Vertical Pattern 774 040 64 All dimensions in mm 95 K 72 31 4. . Directional Antenna 470 – 860 MHz ● Horizontally polarized broadband directional antenna made of aluminum and protected by a fiberglass cover. ● Similar to type K 72 31 47. Type No. / Order No. Max. wind velocity Weight Packing size Height/width/depth 774 052 Reflector screen and dipoles: Weather-resistant aluminum. Protective cover: Fiberglass. Colour: White, upon request orange. Attachment elbow and attachment plate: Hot-dip galvanized steel. Attachment: (please order separately) E.g. by using clamps K 61 14 0… to tubular masts of 40 – 521 mm diameter. Further attachment parts and mounting dimensions upon request. Grounding: Via mounting parts. Ice protection: The dipoles remain fully functioning even in icy conditions as the fiberglass cover protects the whole antenna and also the antenna is of a very robust design. Combinations: The antenna is particularly suitable for use in combinations in order to achieve various radiation patterns. Scope of supply: Directional antenna with one weather protection unit. Horizontal polarization Weather protection 910 Material: 1000 7-16 female Horizontal s < 1.1 11 dB at mid-band 470 – 860 MHz 1 kW Frontal: 565 N Rearside: 815 N Lateral: 250 N 225 km/h 12 kg 1062 x 562 x 294 mm 1000 x 500 x 190 mm 190 Input (from below) Polarization VSWR Gain (ref. λ/2 dipole) Frequency range Max. power Wind load (at 160 km/h) 500 Radiation patterns (at mid-band) 62° 28° 19 10 0 in E-plane Horizontal Pattern 96 3 dB dB 3 0 10 0 in H-plane Vertical Pattern All dimensions in mm K 73 31 4. . Directional Antenna 470 – 860 MHz ● Vertically polarized broadband directional antenna made of aluminum and protected by a fiberglass cover. ● Similar to type K 73 31 47. 776 202 776 203 7-16 female 1 kW 13-30 female 7/8″ EIA-flange 470 – 860 MHz < 1.12 11 dB at mid-band 50 Ω Vertical 2 kW 1.5 kW 12 kg Frontal: 565 N Rearside: 815 N Lateral: 250 N 225 km/h 1062 x 562 x 294 mm 1000 x 500 x 190 mm Reflector screen and dipoles: Weather-resistant aluminum. Protective cover: Fiberglass. Attachment plate: Hot-dip galvanized steel. Attachment: Using M 8 x 35 screws (supplied) to suitable attachment construction. Mounting dimensions upon request. Grounding: Via mounting parts. Ice protection: The dipoles remain fully functioning even in icy conditions as the fiberglass cover protects the whole antenna and also the antenna is of a very robust design. Combinations: The antenna is particularly suitable for use in combinations in order to achieve various radiation patterns. Scope of supply: The 7-16 female connector is supplied with a weather protection unit. Weather protection 1020 Material: Vertical polarization Antennas 470 – 862 MHz Max. wind velocity Packing size Height/width/depth 776 167 776 168 1000 Input (from below) Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) 776 165 776 166 52 white orange 190 Type No. Order No. 500 Radiation Patterns (at mid-band) 62° 28° 10 0 in H-plane Horizontal Pattern 3 64 dB dB 3 10 0 in E-plane Vertical Pattern All dimensions in mm 97 K 73 31 4. . Directional Antenna 470 – 860 MHz ● Horizontally or vertically polarized broadband directional antenna made of aluminum and protected by a fiberglass cover. 500 K 73 31 41 601 492 Max. wind velocity Weight Packing size Height/width/depth 7-16 female 470 – 860 MHz s < 1.12 11 dB at mid-band Vertical 0.5 kW 1 kW Frontal: 565 N Rearside: 815 N Lateral: 250 N 225 km/h 12 kg 1062 x 562 x 275 mm 1000 x 500 x 190 mm Reflector screen and dipoles: Weather-resistant aluminum. Protective cover: Fiberglass. Attachment elbow: Hot-dip galvanized steel. Attachment: (please order separately) E.g. by using clamps K 61 14 0… to tubular masts of 40 – 521 mm diameter. Further attachment parts and mounting dimensions upon request. Grounding: Via mounting parts. Ice protection: The dipoles remain fully functioning even in icy conditions as the fiberglass cover protects the whole antenna and also the antenna is of a very robust design. Combinations: The antenna is particularly suitable for use in combinations in order to achieve various radiation patterns. Scope of supply: Directional antenna with one weather protection unit each for straight connectors and elbow connectors. Vertical polarization Weather protection 910 Material: 1000 N female 52 Input Frequency range VSWR Gain (ref. λ/2 dipole) Polarization Max. power Wind load (at 160 km/h) K 73 31 47 601 709 190 Type No. Order No. Radiation Patterns (at mid-band) 62° 28° 19 0 10 0 Horizontal Pattern 98 3 dB dB 3 10 0 Vertical Pattern All dimensions in mm K 73 31 4. . Directional Antenna 470 – 860 MHz ● Vertically polarized broadband directional antenna made of aluminum and protected by a fiberglass cover. ● Similar to type K 73 31 47. Type No. / Order No. Attachment: Using M 8 x 35 screws (supplied) to suitable attachment construction. Grounding: Via mounting parts. Ice protection: The dipoles remain fully functioning even in icy conditions as the fiberglass cover protects the whole antenna and also the antenna is of a very robust design. Combinations: The antenna is particularly suitable for use in combinations in order to achieve various radiation patterns. Scope of supply: The 7-16 female connector is supplied with a weather protection unit. Antennas 470 – 862 MHz Reflector screen and dipoles: Weather-resistant aluminum. Protective cover: Fiberglass. Attachment plate: Hot-dip galvanized steel. Vertical polarization Weather protection 1020 Material: 1000 7-16 female 470 – 860 MHz < 1.12 11 dB at mid-band 50 Ω Vertical 1 kW 12 kg Frontal: 565 N Rearside: 815 N Lateral: 250 N 225 km/h 1062 x 562 x 294 mm 1000 x 500 x 190 mm 52 Max. wind velocity Packing size Height/width/depth 769 731 190 Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) 500 Radiation Patterns (at mid-band) 1962° 0 28° 10 0 in H-plane Horizontal Pattern 3 64 dB dB 3 10 0 in E-plane Vertical Pattern All dimensions in mm 99 K 73 31 4. . Directional Antenna 470 – 860 MHz Vertically polarized broadband directional antenna made of aluminum and protected by a fiberglass cover. white orange Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity Packing size Height/width/depth 750 10082 750 10083 7/8″ EIA flange 470 – 860 MHz s < 1.12 11 dB at mid-band 50 Ω Vertical 1.5 kW 12 kg Frontal: 565 N Rearside: 815 N Lateral: 250 N 225 km/h 1062 x 562 x 294 mm 1000 x 500 x 190 mm 1000 Type No. Order No. 500 Vertical polarization 190 ● Material: Reflector screen and dipoles: Weather-resistant aluminum. Protective cover: Fiberglass. Attachment plate: Hot-dip galvanized steel. Attachment: Using M8 x 35 screws (supplied) to suitable attachment construction. Mounting dimensions upon request. Grounding: Via mounting parts. Ice protection: The dipoles remain fully functioning even in icy conditions as the fiberglass cover protects the whole antenna and also the antenna is of a very robust design. Combinations: The antenna is particularly suitable for use in combinations in order to achieve various radiation patterns. EIA flange 1020 52 7/8″ Radiation Patterns (at mid-band) 62° 28° 10 0 in H-plane Horizontal Pattern 100 3 dB dB 3 10 64 0 in E-plane Vertical Pattern All dimensions in mm K 73 31 4. . Directional Antenna 470 – 860 MHz ● Vertically polarized broadband directional antenna made of aluminum and protected by a fiberglass cover. ● Especially suitable for ortogonal steel spines. Material: Reflector screen and dipoles: Weather-resistant aluminum. Protective cover: Fiberglass. Attachment plate: Hot-dip galvanized steel. Attachment: Using M 8 x 35 screws (supplied) to suitable attachment construction. Grounding: Via mounting parts. Ice protection: The dipoles remain fully functioning even in icy conditions as the fiberglass cover protects the whole antenna and also the antenna is of a very robust design. Combinations: The antenna is particularly suitable for multi-panel arrangements. Vertical polarization 74 54 52 Max. wind velocity Packing size Height/width/depth 7-16 female 470 – 860 MHz < 1.15 10.5 dB at mid-band 50 Ω Vertical 1 kW 10 kg Frontal: 410 N Lateral: 250 N 225 km/h 1140 x 330 x 240 mm 1045 x 323 x 193 mm 1020 Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) 750 10045 750 10046 750 10047 Antennas 470 – 862 MHz grey white orange 1045 Type No. Order No. Radiation Patterns (at mid-band) 70° 323 28° 10 0 Horizontal Pattern 3 dB dB 3 10 0 Vertical Pattern All dimensions in mm 101 K 72 32 4. . Directional Antenna 470 – 860 MHz Horizontally polarized broadband directional antenna made of aluminum and protected by a fiberglass cover. white orange Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity Packing size Height/width/depth 750 10031 750 10032 7/8″ 750 10016 750 10017 EIA flange 15/8″ EIA flange 470 – 860 MHz s < 1.1 11 dB at mid-band 50 Ω Horizontal 1.5 kW 3 kW 10 kg 10.5 kg Frontal: 565 N Rearside: 815 N Lateral: 250 N 225 km/h 1062 x 562 x 294 mm 1000 x 500 x 190 mm 1000 Type No. Order No. 500 Horizontal polarization 190 ● Material: Reflector screen and dipoles: Weather-resistant aluminum. Protective cover: Fiberglass. Attachment plate: Hot-dip galvanized steel. Attachment: Using M 8 x 35 screws (supplied) to suitable attachment construction. Mounting dimensions upon request. Grounding: Via mounting parts. Ice protection: The dipoles remain fully functioning even in icy conditions as the fiberglass cover protects the whole antenna and also the antenna is of a very robust design. Combinations: The antenna is particularly suitable for use in combinations in order to achieve various radiation patterns. EIA flange 1020 7/8″ Radiation Patterns (at mid-band) 56° 26° 10 0 in E-plane Horizontal Pattern 102 3 dB dB 3 10 0 in H-plane Vertical Pattern 750 10031 750 10032 All dimensions in mm 64 K 72 32 4. . Directional Antenna 470 – 860 MHz 500 Horizontally polarized broadband directional antenna made of aluminum and protected by a fiberglass cover. Input (from below) 772 549 772 550 750 10012 750 10013 Max. wind velocity Packing size Height/width/depth 1 kW 773 333 773 332 7/8″ EIA 13-30 female 15/8″ EIA flange flange 470 – 860 MHz s < 1.1 11 dB at mid-band 50 Ω Horizontal 1.5 kW 2 kW 3 kW 9.5 kg 10 kg Frontal: 565 N Rearside: 815 N Lateral: 250 N 225 km/h 1062 x 562 x 294 mm 1000 x 500 x 190 mm 7-16 female Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) 773 000 772 999 Material: Reflector screen and dipoles: Weather-resistant aluminum. Protective cover: Fiberglass. Attachment plate: Hot-dip galvanized steel. Attachment: Using M 8 x 35 screws (supplied) to suitable attachment construction. Mounting dimensions upon request. Grounding: Via mounting parts. Ice protection: The dipoles remain fully functioning even in icy conditions as the fiberglass cover protects the whole antenna and also the antenna is of a very robust design. Combinations: The antenna is particularly suitable for use in combinations in order to achieve various radiation patterns. Scope of supply: The 7-16 female connector is supplied with a weather protection unit. Antennas 470 – 862 MHz white orange 1000 Type No. Order No. 190 ● Horizontal polarization 1020 Weather protection Radiation Patterns (at mid-band) 56° 26° 10 0 in E-plane Horizontal Pattern 3 dB dB 3 10 0 in H-plane Vertical Pattern 772 549 772 550 64 All dimensions in mm 103 K 72 31 5. Directional Antenna 675 – 860 MHz ● Horizontally polarized broadband directional antenna made of aluminum and protected by a fiberglass cover. B Type No. Order No. Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Max. power Weight Wind load (at 160 km/h) K 72 31 57 602 204 776 015 7-16 female 646 – 860 MHz 13-30 female 646 – 860 MHz < 1.1 10 dB at mid-band 50 Ω Horizontal 1 kW 2 kW 8 kg Frontal: 315 N Rearside: 500 N Lateral: 160 N 225 km/h 970 x 410 x 240 mm Max. wind velocity Packing size Material: Reflector screen and dipoles: Weather-resistant aluminum. Radome: Fiberglass, colour: White, upon request orange. Fittings: Hot-dip galvanized steel. Attachment: (please order separately) E.g. by using clamps K 61 14 0… to tubular masts of 40 – 521 mm diameter. Further attachment parts and mounting dimensions upon request. 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. Grounding: Via mounting parts. Combinations: The antenna is particularly suitable for use in combinations in order to achieve various radiation patterns. Scope of delivery: Directional antenna with one weather protection unit each for straight connectors and elbow connectors. Radiation Patterns (at mid-band) 69° 28° 0 Horizontal Radiation Pattern 104 3 dB 10 dB 10 3 A 0 Vertical Radiation Pattern Horizontal polarization C A: 880 mm B: 315 mm C: 150 mm K 72 23 4. Directional Antenna 470 – 860 MHz ● Logarithmic-periodic broadband directional antenna in fiberglas radome. ● High side-lobe suppression. C Type No. Order No. 761 327 K 72 23 41 601 695 7-16 female Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity Packing size Material: 7-16 female N female 470 – 860 MHz < 1.25 9 dB at mid-band 50 Ω > 23 dB at 470 – 500 MHz > 25 dB at 500 – 860 MHz Either horizontal or vertical by repositioning two clamps 100 W 30 W 30 W 9 kg For horizontal pol.: frontal/lateral: 63 / 102 N For vertical pol.: frontal/lateral: 63 / 500 N For horizontal pol.: 225 km/h For vertical pol.: 180 km/h 1172 x 372 x 224 mm 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. 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. 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. For horizontal polarization A: 1153 mm B: 353 mm C: 180 mm A B For vertical polarization D: 140 mm D D For horizontal polarization Radiation Patterns (at mid-band) For vertical polarization 53° dB 0 In E-Plane 3 dB 10 10 3 65° 0 In H-Plane 105 Antennas 470 – 862 MHz Input Frequency range VSWR Gain (ref. to λ/2 dipole) Impedance Side-lobe suppression K 72 23 47 601 584 K 72 20 4. . Omnidirectional Antenna 470 – 860 MHz Broadband omnidirectional antenna. Type No. / Order No. Number of bays Input Frequency range VSWR Gain Vertical 3 dB beam width Impedance Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity Height H 767 006 770 881 1 2 7-16 female 7/8″ EIA 470 – 860 MHz < 1.1 5 dB 8 dB at mid-band at mid-band 22° 11° 50 Ω Horizontal 1 kW 2 kW (at 40 °C ambient temperature) 20 kg 40 kg 285 N 570 N 225 km/h 1.15 m 2.3 m H ● Material: Omnidirectional antenna in protective fiberglass radome with a diameter of 300 mm. Flange: Aluminum. Attachment: To tubular masts with a diameter of 100 – 160 mm by using the attachment accessories 768 853 (see photo) or on a flange (see draft). Grounding: Via mounting parts. Upper side max. 190 150 4 x M12 Base flange Radiation Patterns (at mid-band) 100 E rel 100 E rel 50 50 3 dB 10 0 10 20 α° 0 10 20 0 Horizontal Radiation Pattern 106 Vertical Radiation Pattern 1 bay (767 006) Vertical Radiation Pattern 2 bays (770 881) α° K 72 20 4. . Omnidirectional Antenna 470 – 860 MHz Broadband omnidirectional antenna Type No. / Order No. 771 304 Number of bays Input Input feed by Frequency range VSWR Gain (ref. to λ/dipole) Vertical 3 dB beamwidth Impedance Polarization Max. power Weight Windload (at 160 km/h) Max. wind velocity Height Packing size 775 861 4 4 15/8″ EIA flange 15/8″ EIA flange Coupler Splitter 470 – 860 MHz 1.1 in the whole frequency range < 1.05 in the operating channel (optimization by tuning) 11 dB at mid-band 5.5° 50 Ω Horizontal 4 kW (average) (at 40 °C ambient temperature) 170 kg 1.45 kN 225 km/h 5.1 m 5400 x 500 x 600 mm Material: Omnidirectional antenna in protective fiberglass radome with a diameter of 300 mm. Mounting: On top of existing structure by means of an adapter. Mounting dimensions upon request. Grounding: Continuous earth connection between antenna tip and base. Special features: (only 775 861) Antenna is equipped with a special power splitter including tuning section to allow optimization of VSWR < 1.05 within operating channel. Antennas 470 – 862 MHz ● 280 diameter 18 Radiation Patterns (at mid-band) 4 bays 100 300 E rel 50 3 dB 10 0 Horizontal Radiation Pattern 0 10 20 α° Vertical Radiation Pattern 107 K 73 20 4. . Omnidirectional Antenna 470 – 702 MHz Broadband omnidirectional antenna Type No. / Order No. 750 10060 Input Frequency range VSWR Gain (ref. λ/2 dipole) Vertical 3 dB beam width Impedance Polarization Max. power Weight Wind load (at 160 km/h) Max. wind velocity Height 7-16 female 470 – 702 MHz < 1.3 (better VSWR values upon request) 3.0 – 4.5 dB 20° – 30° 50 Ω Vertical 750 W (at 40 °C ambient temperature) 16 kg 225 N 225 km/h 1400 mm Material: Omnidirectional antenna in protective fiberglass radome with a diameter of 230 mm. Flange: Hot-dip galvanized steel. Attachment: Onto a fitting counterflange or to tubular masts by using the steel adapter 753 10237 (weight 9 kg, suitable for tube diameters 100 – 160 mm). Grounding: Via mounting parts. ~1400 ● ∅ 230 ∅ 245 ∅ 200 55 7-16 female 5xM12 Bottom view with attachment accessories Radiation Patterns (at mid-band) 10 0 Horizontal Radiation Pattern 108 3 dB dB 3 10 0 Vertical Radiation Pattern K 73 20 4. . Omnidirectional Antenna 470 – 702 MHz Broadband omnidirectional antenna 750 10062 7-16 female 470 – 702 MHz < 1.3 5.5 – 7 dB 11° – 22° 50 Ω Vertical 1 kW (at 40 °C ambient temperature) 40 kg 490 N 225 km/h 1927 mm Weight Wind load (at 160 km/h) Max. wind velocity Height Material: 1927 Input Frequency range VSWR Gain (ref. λ/2 dipole) Vertical 3 dB beam width Impedance Polarization Max. power Omnidirectional antenna in protective fiberglass radome with a diameter of 332 mm. Flange: Hot-dip galvanized steel. Attachment: ∅ 332 Onto a fitting counterflange or to tubular masts by using the steel adapter 753 10232 (weight 13.5 kg, suitable for tube diameters 100 – 160 mm). Lightning protection: Lightning rod Grounding: Via mounting parts. ∅ 356 ∅ 280 7-16 female 6xM12 Bottom view Radiation Patterns (at mid-band) 15° 3 10 dB 10 0 Horizontal Radiation Pattern 3 0 Vertical Radiation Pattern 1 ° electrical downtilt 109 Antennas 470 – 862 MHz Type No. / Order No. dB ● K 73 20 4. . Omnidirectional Antenna 470 – 750 MHz ● Center fed collinear antenna Vertical Polarized Omni Antenna for Ch 21 – Ch 55 750 750 750 750 750 750 750 Frequency range 10112 10113 10114 10115 10116 10117 10118 470 502 534 574 614 654 694 – – – – – – – 502 534 574 614 662 702 750 MHz MHz MHz MHz MHz MHz MHz Input VSWR Impedance Polarization Max. power Weight Radome diameter Wind load (at 150 km/h) Max. wind velocity Packing size Length Channel Ch Ch Ch Ch Ch Ch Ch 21 25 29 34 39 44 49 – – – – – – – Ch Ch Ch Ch Ch Ch Ch Gain (ref. λ/2 dipole) 24 28 33 38 44 49 55 6.5 7 7.5 7.5 8 8 8.5 dB dB dB dB dB dB dB Half-power beam width 13° 12° 11° 10° 9.5° 9° 8.5° 3113 mm Type No. / Order No. 7-16 female connector 1.4 50 Ω Vertical 400 W (at 50 °C ambient temperature) 8.0 kg 51 mm 220 N 180 km/h 3379 x 206 x 1522 mm 3113 mm Material: Radiator: Copper and brass. Radome: Fiberglass, colour: Grey Antenna base: Aluminum. Mounting kit, screws and nuts: Stainless steel. Mounting: The antenna can be attached laterally at the tip of a tubular mast of 50 – 94 mm diameter (connecting cable runs outside the mast). Grounding: Earthing cross-section of 22 mm2 copper between antenna tip and base. um maximtop mast 150 dB 10 3 230 * 0 Vertical Pattern Half-power beam width: * see table above 110 104 K 73 33 4. . Directional Indoor Antenna 470 – 750 MHz Vertical Polarized Indoor Antenna for DVB-H Input VSWR Gain (ref. λ/2 dipole) Half-power beam width Impedance Polarization Max. power Protection class Weight Packing size Height/width/depth 750 10122 750 10124 750 10125 470 – 534 MHz 534 – 614 MHz 614 – 702 MHz 702 – 750 MHz Ch 21 – Ch 28 Ch 29 – Ch 38 Ch 39 – Ch 49 Ch 50 – Ch 55 N female connector < 2.0 Approx. 5 dB Horizontal: Approx. 90° 50 Ω Vertical 50 W (at 50 °C ambient temperature) IP 30 1390 g 315 x 252 x 62 mm 302 x 243 x 50 mm 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. Antennas 470 – 862 MHz Frequency range 750 10120 90° 10 3 dB Type No. / Order No. 0 Horizontal Pattern Mounting: Mount the attachment plate to the wall using two screws of 4 mm diameter in the position as indicated. Align the antenna over the attachment plate. Pull the antenna down to the stop. 111 K 73 20 4. . Indoor Omnidirectional Antenna 470 – 750 MHz Vertical Polarized Indoor Antenna for DVB-H Type No. / Order No. 750 10130 Frequency range 750 10131 750 10132 470 – 574 MHz 526 – 670 MHz 598 – 750 MHz Ch 21 – Ch 33 Ch 28 – Ch 45 Ch 37 – Ch 55 N female connector < 2.0 Approx. 0 dB 50 Ω Vertical 50 W (at 50 °C ambient temperature) IP 30 450 g 267 x 267 x 114 mm 258 mm 77 mm (without connector) Input VSWR Gain (ref. λ/2-dipole) Impedance Polarization Max. power Protection class Weight Packing size Diameter Height 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. 46 mm 112 5 mm dia. 160 mm 3 holes dia. 5 mm N connector, female K 73 21 4. . Bidirectional Antenna 470 – 702 MHz Particulary suitable for DVB-H 750 10128 N female 470 – 860 MHz 470 – 750 MHz: < 1.7 750 – 860 MHz: < 2.2 2 dB 50 Ω Vertical 250 W (at 50 °C ambient temperature) IP 33 0.8 kg Frontal: 25 N (at 150 km/h) Lateral: 65 N (at 150 km/h) Rearside: 35 N (at 150 km/h) 200 km/h 422 x 212 x 95 mm 310 / 55 / 190 mm Gain (ref. λ/2 dipole) Impedance Polarization Max. power (total) Protection class Weight Wind load Max. wind velocity Packing size Height/width/depth Material: Radiator: Tin plated brass. Reflector: Weather-proof aluminum. Radome: High impact plastic, colour: Grey. All screws and nuts: Stainless steel. 8.5 mm 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) 734 734 734 734 734 734 360 361 362 363 364 365 2 2 2 2 2 2 clamps clamps clamps clamps clamps clamps 220° Weight Units per approx. antenna Remarks Mast: Mast: Mast: Mast: Mast: Mast: 34 60 80 100 120 45 – – – – – – 60 80 100 120 140 125 mm mm mm mm mm mm diameter diameter diameter diameter diameter diameter 60 g 70 g 80 g 90 g 110 g 80 g 1 1 1 1 1 1 10 3 dB Type No. Description Antennas 470 – 862 MHz Input Frequency range VSWR 400 mm Type No. / Order No. 371 mm ● 0 Typical Horizontal Pattern 113 114 Systems 1452 – 1492 MHz Antenna Systems 1452 – 1492 MHz 115 Transmitting Antenna with panels K 83 30 6. . 1452 – 1492 MHz Type No. / Order No. Input connector Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Input power Polarization Half-power beam width Height Weight Windload (at 160 km/h) Max. wind velocity 759 13851 7-16 female 1452 – 1492 MHz < 1.2 10.5 dB 50 Ω 800 W (RMS) Vertical Vertical: 9° 3.000 mm (incl. lightning rod) 125 kg 0.8 kN 200 km/h 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 3 dB 10 0 Horizontal Radiation Pattern 116 Transmitting Antenna with panels K 83 30 6. . 1452 – 1492 MHz 1 5/8″ EIA-flange 1452 – 1492 MHz < 1.2 13 dB 50 Ω max. 3 kW (RMS) Vertical Vertical: 4.5° on request 4.900 mm (excl. lightning rod) 160 kg 0.1 kN 200 km/h 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 Systems 1452 – 1492 MHz Input connector Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Input power Polarization Half-power beam width Downtilt Height Weight Windload (at 160 km/h) Max. wind velocity 759 13232 10 3 dB Type No. / Order No. 0 Horizontal Radiation Pattern 117 Transmitting Antenna for large structures with panels K 83 30 6. . 1452 – 1492 MHz Type No. / Order No. Input connector Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Input power Polarization Beam tilt Distance of panels Height Weight Windload (at 160 km/h) Max. wind velocity 759 14152 1 5/8″ EIA-flange 1452 – 1492 MHz < 1.2 9.5 dB 50 Ω max. 2 kW (RMS) Mixed polarized (+45° and –45°) 3° or on request 10.000 mm 1302 mm per unit approx. 180 kg 1.1 kN 200 km/h 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. –45° r +45° +45° –45° Grounding: The metal parts of the antenna are DC grounded. Also the inner conductors of the antenna panels are DC grounded. 3 dB 10 0 Horizontal Radiation Pattern Models: 118 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 Antennas for DAB in L Band 1452 – 1492 MHz Model Types: K 83 20 6. ., K 83 30 6. . Description Frequency range Gain Polarization Page 770 732 Dipole Panel 65° 1452 – 1492 MHz 8.0 dB vertical 120 770 733 Dipole Panel 65° 1452 – 1492 MHz 10.5 dB vertical 120 770 793 Dipole Panel 65° 1452 – 1492 MHz 13.5 dB vertical 120 770 794 Dipole Panel 65° 1452 – 1492 MHz 15.0 dB vertical 120 770 795 Dipole Panel 65° 1452 – 1492 MHz 16.0 dB vertical 120 770 652 Dipole Panel 90° 1452 – 1492 MHz 12.5 dB vertical 121 770 947 Dipole Panel 90° 1452 – 1492 MHz 15.5 dB vertical 122 770 948 Dipole Panel 160° 1452 – 1492 MHz 14.0 dB vertical 123 770 653 Dipole Panel 160° 1452 – 1492 MHz 11.0 dB vertical 124 772 310 Dipole Panel 180° 1452 – 1492 MHz 13.5 dB vertical 125 771 917 Dipole Panel 180° 1452 – 1492 MHz 10.5 dB vertical 126 750 10190 Dipole Panel 70° 1452 – 1492 MHz 14.0 dB +45° 127 750 10191 Dipole Panel 70° 1452 – 1492 MHz 14.0 dB –45° 127 750 10094 Dipole Panel 70° 1452 – 1492 MHz 14.0 dB +45° 128 750 10194 Dipole Panel 70° 1452 – 1492 MHz 14.0 dB –45° 128 770 721 Omnidirectional Antenna 1452 – 1492 MHz 7.0 dB vertical 129 770 722 Omnidirectional Antenna 1452 – 1492 MHz 10.0 dB vertical 129 771 870 Omnidirectional Antenna 1452 – 1492 MHz 11.5 dB vertical 129 771 038 Omnidirectional Antenna 1452 – 1492 MHz 10.0 dB vertical 130 Antennas 1452 – 1492 MHz Type No. 119 K 83 30 6. . Panel for DAB in L Band 65° Half-power Beam Width 770 733 770 793 770 794 Bottom or top 7-16 female connector 1452 – 1492 MHz < 1.25 < 1.25 < 1.25 10.5 dB 13.5 dB 15 dB 50 Ω Vertical < 1.3 8 dB 210 mm 1.5 kg < 1.25 16 dB 65° 27° 13° 9° 6.5° 200 W (at 50 °C ambient temperature) 155 mm 49 mm 405 mm 795 mm 1185 mm 1575 mm 2 kg 3 kg 4.5 kg 5.5 kg 40 N 15 N 45 N 80 N 30 N 90 N 160 N 60 N 180 N 200 km/h 240 N 100 N 280 N Material: Reflector screen and radiator: Copper. Radome: Fiberglass, colour: Grey. All screws and nuts: Stainless steel. Mounting: Walls: Using two mounting plates already attached to the antenna. Masts: Using two clamps suitable for the mast diameter (order separately). Ice protection: 155 Height see table 55° 770 795 320 N 140 N 380 N ∅ 8.5 34 64 Since the radiating system is protected by the radome and due to its very sturdy construction, the antenna remains operational even under icy conditions. Grounding: The metal parts of the antenna, including the mounting kit, are DC grounded. The inner conductor is also DC grounded. 120° 10 3 0 Accessories for Antennas 770 732, 770 733, 770 793, 770 794 (order separately) Type No. Order No. Description 734 734 734 734 734 734 2 2 2 2 2 2 360 361 362 363 364 365 clamps clamps clamps clamps clamps clamps Remarks 34 60 80 100 120 45 – – – – – – 60 80 100 120 140 125 mm mm mm mm mm mm diameter diameter diameter diameter diameter diameter Horizontal Pattern Units per antenna 1 1 1 1 1 1 120 1 clamp 1 clamp 1 clamp 50 – 115 mm diameter 110 – 220 mm diameter 210 – 380 mm diameter * 10 3 0 Accessories for Antenna 770 795 (order separately) 738 546 850 10002 850 10003 65° dB Connector position Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Half-power beam width Horizontal plane Vertical plane Max. power Width Depth Height Weight Wind load (at 160 km/h) Frontal: Lateral: Rearside: Max. wind velocity 770 732 dB Type No. / Order No. 2 2 2 Vertical Half-power beam width: * see table above K 83 30 6. . Panel for DAB in L Band 90° Half-power Beam Width 155 Type No. / Order No. Max. wind velocity Packing size Height/width/depth Bottom or top 7-16 female connector 1452 – 1492 MHz 12.5 dB < 1.25 50 Ω Vertical Horizontal: 90°/ Vertical: 12° 500 W (at 50 °C ambient temperature) 3.7 kg Frontal: 200 N Lateral: 80 N Rearside: 230 N 200 km/h 1087 x 172 x 259 mm 988 / 155 / 49 mm Material: Reflector screen and radiator: Copper. Radome: Fiberglass, colour: Grey. All screws and nuts: Stainless steel. Mounting: Walls: Using two mounting plates already attached to the antenna. Masts: Using two clamps suitable for the mast diameter (order separately). ∅ 8.5 34 64 Since the radiating system is protected by the radome and due to its very sturdy construction, the antenna remains operational even under icy conditions. The metal parts of the antenna, including the mounting kit, are DC grounded. The inner conductor is also DC grounded. Antennas 1452 – 1492 MHz Grounding: 90° 3 dB Ice protection: 988 1036 1066 Connector position Input Frequency range Gain (ref. λ/2 dipole) VSWR Impedance Polarization Half-power beam width Max. power Weight Windload (at 160 km/h) 770 652 0 Horizontal Pattern Accessories (order separately) Description 734 734 734 734 734 734 2 2 2 2 2 2 360 361 362 363 364 365 clamps clamps clamps clamps clamps clamps Remarks 34 60 80 100 120 45 – – – – – – 60 80 100 120 140 125 mm mm mm mm mm mm diameter diameter diameter diameter diameter diameter 12° Units per antenna 1 1 1 1 1 1 10 3 dB Type No. Order No. 0 Vertical Pattern 121 K 83 30 6. . Panel for DAB in L Band 90° Half-power Beam Width 155 Max. power Weight Windload (at 160 km/h) Max. wind velocity Packing size Height/width/depth Material: Reflector screen and radiator: Copper. Radome: Fiberglass, colour: Grey. All screws and nuts: Stainless steel. 2026 ∅ 8.5 Mounting: Walls: Using two mounting plates already attached to the antenna. Masts: Using two clamps suitable for the mast diameter (order separately). Ice protection: Since the radiating system is protected by the radome and due to its very sturdy construction, the antenna remains operational even under icy conditions. Grounding: 1996 Bottom 7-16 female connector 1452 – 1492 MHz < 1.25 15.5 dB 50 Ω Vertical Horizontal: 90°/ Vertical: 5.5° 1° electr. downtilt 500 W (at 50 °C ambient temperature) 6.9 kg Frontal: 400 N Lateral: 180 N Rearside: 480 N 200 km/h 2044 x 172 x 72 mm 1942 / 155 / 49 mm 1942 Connector position Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Half-power beam width 770 947 34 64 90° The metal parts of the antenna, including the mounting kit, are DC grounded. The inner conductor is also DC grounded. 3 dB Type No. / Order No. 0 Horizontal Pattern Accessories (order separately) Type No. Order No. Description 738 546 850 10002 850 10003 1 clamp 1 clamp 1 clamp Remarks 50 – 115 mm diameter 110 – 220 mm diameter 210 – 380 mm diameter Units per antenna 2 2 2 5.5° 3 dB 10 0 Vertical Pattern 1° electrical downtilt 122 K 83 30 6. . Panel for DAB in L Band 160° Half-power Beam Width 155 Max. wind velocity Packing size Height/width/depth Material: Reflector screen and radiator: Copper. Radome: Fiberglass, colour: Grey. All screws and nuts: Stainless steel. 2026 1996 ∅ 8.5 Mounting: Walls: Using two mounting plates already attached to the antenna. Masts: Using two clamps suitable for the mast diameter (order separately). Ice protection: Since the radiating system is protected by the radome and due to its very sturdy construction, the antenna remains operational even under icy conditions. Grounding: The metal parts of the antenna, including the mounting kit, are DC grounded. The inner conductor is also DC grounded. 34 64 160° Antennas 1452 – 1492 MHz Max. power Weight Windload (at 160 km/h) Bottom 7-16 female connector 1452 – 1492 MHz 14 dB < 1.25 50 Ω Vertical Horizontal: 160° / Vertical: 5.5° 1° electrical downtilt 500 W (at 50 °C ambient temperature) 7.3 kg Frontal: 440 N Lateral: 230 N Rearside: 480 N 200 km/h 2047 x 172 x 259 mm 1942 / 155 / max. 168 mm 1942 Connector position Input Frequency range Gain (ref. λ/2 dipole) VSWR Impedance Polarization Half-power beam width 770 948 10 220° 3 dB Type No. / Order No. 0 Horizontal Pattern Accessories (order separately) Description 738 546 850 10002 850 10003 1 clamp 1 clamp 1 clamp Remarks 50 – 115 mm diameter 110 – 220 mm diameter 210 – 380 mm diameter Units per antenna 2 2 2 5.5° 10 3 dB Type No. Order No. 0 Vertical Pattern 1° electrical downtilt 123 K 83 30 6. . Panel for DAB in L Band 160° Half-power Beam Width 155 770 653 Max. wind velocity Packing size Height/width/depth Bottom or top 7-16 female connector 1452 – 1492 MHz 11 dB < 1.25 50 Ω Vertical Horizontal: 160°/ Vertical: 12° 500 W (at 50 °C ambient temperature) 4 kg Frontal: 220 N Lateral: 130 N Rearside: 280 N 200 km/h 1087 x 172 x 259 mm 988 / 155 / max. 168 mm Material: Reflector screen and radiator: Copper. Radome: Fiberglass, colour: Grey. All screws and nuts: Stainless steel. Mounting: Walls: Using two mounting plates already attached to the antenna. Masts: Using two clamps suitable for the mast diameter (order separately). Ice protection: Since the radiating system is protected by the radome and due to its very sturdy construction, the antenna remains operational even under icy conditions. Grounding: The metal parts of the antenna, including the mounting kit, are DC grounded. The inner conductor is also DC grounded. 988 1036 1066 Connector position Input Frequency range Gain (ref. λ/2 dipole) VSWR Impedance Polarization Half-power beam width Max. power Weight Windload (at 160 km/h) ∅ 8.5 34 64 160° 10 220° 3 dB Type No. 0 Horizontal Pattern Accessories (order separately) Type No. Order No. Description 734 734 734 734 734 734 2 2 2 2 2 2 Remarks Units per antenna 12° clamps clamps clamps clamps clamps clamps 34 60 80 100 120 45 – – – – – – 60 80 100 120 140 125 mm mm mm mm mm mm diameter diameter diameter diameter diameter diameter 1 1 1 1 1 1 10 3 dB 360 361 362 363 364 365 0 Vertical Pattern 124 K 83 30 6. . Panel for DAB in L Band 180° Half-power Beam Width 155 Max. wind velocity Packing size Height/width/depth Material: Reflector screen and radiator: Copper. Radome: Fiberglass, colour: Grey. All screws and nuts: Stainless steel. Mounting: Walls: Using two mounting plates already attached to the antenna. Masts: Using two clamps suitable for the mast diameter (order separately). Ice protection: Since the radiating system is protected by the radome and due to its very sturdy construction, the antenna remains operational even under icy conditions. Grounding: 2026 1942 ∅ 8.5 The metal parts of the antenna, including the mounting kit, are DC grounded. The inner conductor is also DC grounded. 34 64 Antennas 1452 – 1492 MHz Max. power Weight Windload (at 160 km/h) Bottom 7-16 female connector 1452 – 1492 MHz 13.5 dB < 1.25 50 Ω Vertical Horizontal: 180° / Vertical: 5.5° 1° electrical downtilt 500 W (at 50 °C ambient temperature) 7.3 kg Frontal: 440 N Lateral: 230 N Rearside: 480 N 200 km/h 2047 x 172 x 259 mm 1942 / 155 / max. 168 mm 180° 10 dB Connector position Input Frequency range Gain (ref. λ/2 dipole) VSWR Impedance Polarization Half-power beam width 772 310 1996 Type No. / Order No. 0 Horizontal Pattern Accessories (order separately) Description 738 546 850 10002 850 10003 1 clamp 1 clamp 1 clamp Remarks 50 – 115 mm diameter 110 – 220 mm diameter 210 – 380 mm diameter Units per antenna 2 2 2 5.5° 10 3 dB Type No. Order No. 0 Vertical Pattern 1° electrical downtilt 125 K 83 30 6. . Panel for DAB in L Band 180° Half-power Beam Width 155 Type No. / Order No. Max. wind velocity Packing size Height/width/depth Bottom or top 7-16 female connector 1452 – 1492 MHz 10.5 dB < 1.25 50 Ω Vertical Horizontal: 180°/ Vertical: 12° 500 W (at 50 °C ambient temperature) 4 kg Frontal: 220 N Lateral: 130 N Rearside: 280 N 200 km/h 1087 x 172 x 259 mm 988 / 155 / max. 168 mm Material: Reflector screen and radiator: Copper. Radome: Fiberglass, colour: Grey. All screws and nuts: Stainless steel. Mounting: Walls: Using two mounting plates already attached to the antenna. Masts: Using two clamps suitable for the mast diameter (order separately). Ice protection: Since the radiating system is protected by the radome and due to its very sturdy construction, the antenna remains operational even under icy conditions. The metal parts of the antenna, including the mounting kit, are DC grounded. The inner conductor is also DC grounded. ∅ 8.5 34 64 180° 10 dB Grounding: 988 1036 1066 Connector position Input Frequency range Gain (ref. λ/2 dipole) VSWR Impedance Polarization Half-power beam width Max. power Weight Windload (at 160 km/h) 771 917 0 Horizontal Pattern Accessories (order separately) Description 734 734 734 734 734 734 2 2 2 2 2 2 360 361 362 363 364 365 clamps clamps clamps clamps clamps clamps Remarks 34 60 80 100 120 45 – – – – – – 60 80 100 120 140 125 mm mm mm mm mm mm diameter diameter diameter diameter diameter diameter Units per antenna 1 1 1 1 1 1 12° 10 3 dB Type No. Order No. 0 Vertical Pattern 126 K 83 31 6. Panel for DAB/DMB in L Band 70° Half-power Beam Width 750 10190 +45° or –45° Polarization Bottom 7-16 female 1452 – 1492 MHz < 1.3 14 dB 50 Ω +45° –45° Horizontal: 70°/ Vertical: 8° 500 W (at 50 °C ambient temperature) 6.5 kg 310 N (bei 150 km/h) 200 km/h 1404 x 172 x 92 mm 1302 / 155 / 69 mm Reflector screen: Tin-plated copper, Radiator: Tin-plated zinc. Radome: Fiberglas, colour: Grey. All screws and nuts: Stainless steel. Mounting: ∅ 8.5 Walls: Using two mounting plates already attached to the antenna. Masts: Using two clamps suitable for the mast diameter (order separately). Ice protection: Since the radiating system is protected by the radome and due to its very sturdy construction, the antenna remains operational even under icy conditions. Combinations: In combination with the other polarized antenna, both antennas are particularly suitable as a component in large distance multipanel configurations. No deep minima will show up in the overlapping zone between different dual polarized antennas. Grounding: The metal parts of the antenna, including the mounting kit, are DC grounded. The inner conductor is also DC grounded. 35 64 –45° +45° 155 Bottom view Antennas 1452 – 1492 MHz Material: 750 10191 70° 10 3 dB Connector position Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Half-power beam width Max. power Weight Wind load Max. wind velocity Packing size Hight/width/depth 750 10190 1302 1356 1386 Type No. / Order No. 69 ● 0 Horizontal Pattern Accessories (order separately) 734 734 734 734 734 734 360 361 362 363 364 365 Description 2 2 2 2 2 2 clamps clamps clamps clamps clamps clamps Remarks 34 60 80 100 120 45 – – – – – – 60 80 100 120 140 125 mm mm mm mm mm mm diameter diameter diameter diameter diameter diameter 8° Units per antenna 1 1 1 1 1 1 3 dB Type No. 0 Vertical Pattern 127 K 83 31 6. Panel for DAB/DMB in L Band 70° Half-power Beam Width 750 10094 +45° or –45° Polarization 3° electrical downtilt Connector position Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Half-power beam width Max. power Weight Wind load Max. wind velocity Packing size Hight/width/depth Material: 750 10094 750 10194 Bottom 7-16 female 1452 – 1492 MHz < 1.3 14 dB 50 Ω +45° –45° Horizontal: 70°/ Vertical: 8° 3° electrical downtilt 500 W (at 50 °C ambient temperature) 6.5 kg 310 N (bei 150 km/h) 200 km/h 1404 x 172 x 92 mm 1302 / 155 / 69 mm Reflector screen: Tin-plated copper, Radiator: Tin-plated zinc. Radome: Fiberglas, colour: Grey. All screws and nuts: Stainless steel. Mounting: ∅ 8.5 35 64 Walls: Using two mounting plates already attached to the antenna. Masts: Using two clamps suitable for the mast diameter (order separately). Ice protection: Since the radiating system is protected by the radome and due to its very sturdy construction, the antenna remains operational even under icy conditions. Combinations: In combination with the other polarized antenna, both antennas are particularly suitable as a component in large distance multipanel configurations. No deep minima will show up in the overlapping zone between different dual polarized antennas. –45° +45° 155 Bottom view 70° 10 3 Grounding: The metal parts of the antenna, including the mounting kit, are DC grounded. The inner conductor is also DC grounded. dB Type No. / Order No. 1302 1356 1386 ● 69 ● 0 Horizontal Pattern Accessories (order separately) 734 734 734 734 734 734 128 360 361 362 363 364 365 Description 2 2 2 2 2 2 clamps clamps clamps clamps clamps clamps Remarks 34 60 80 100 120 45 – – – – – – 60 80 100 120 140 125 mm mm mm mm mm mm diameter diameter diameter diameter diameter diameter 8° Units per antenna 1 1 1 1 1 1 3 dB Type No. 0 Vertical Pattern 3° electrical downtilt K 83 20 6. . Omnidirectional Antenna for DAB in L Band 1452 – 1492 MHz ● Center fed collinear antennas with 7 dB, 10 dB and 11.5 dB gain. Omni 1470 360° 7dB/10dB/11.5dB Input Frequency range VSWR Gain (ref. λ/2 dipole) Impedance Polarization Vertical half-power beam width Max. power Weight Radome diameter Wind load (at 160 km/h) Max. wind velocity Packing size Length 770 721 770 722 771 870 7 dB 7-16 female connector 1452 – 1492 MHz < 1.25 10 dB 50 Ω Vertical 6.5° 11.5 dB 13° 4° 973 mm Type No. / Order No. 200 W (at 50 °C ambient temperature) 4.5 kg 6.0 kg 8.0 kg 51 mm 114 N 171 N 239 N 200 km/h 188 x 102 x 1246 mm 188 x 102 x 2216 mm 148 x 112 x 3316 mm 973 mm 1944 mm 2994 mm Radiator: Copper and brass. Radome: Fiberglass, colour: Grey Antenna base: Aluminum. Mounting kit, screws and nuts: Stainless steel. Mounting: The antenna can be attached laterally at the tip of a tubular mast of 50 – 94 mm diameter (connecting cable runs outside the mast). Grounding: Earthing cross-section of 22 mm2 copper between antenna tip and base. 770 721 Antennas 1452 – 1492 MHz Material: * um maximtop mast 150 3 dB 230 10 0 Vertical Pattern at mid-band. Half-power beam width: * see table above. 1° electrical downtilt 104 129 K 83 20 6. . Omnidirectional Antenna for DAB in L Band 1452 – 1492 MHz Center fed collinear antenna with 10 dB gain and 3° downtilt. Type No. / Order No. 771 038 Input Frequency range VSWR Gain (bez. λ/2 dipole) Impedance Polarization Vertical half-power beam width Max. power Weight Radome diameter Wind load (at 160 km/h) Max. wind velocity Packing size Length 7-16 female connector 1452 – 1492 MHz < 1.25 10 dB 50 Ω Vertical 6.5° 3° electr. downtilt 200 W (at 50 °C ambient temperature) 6.0 kg 51 mm 171 N 200 km/h 188 x 102 x 2216 mm 1944 mm Material: Radiator: Copper and brass. Radome: Fiberglass, colour: Grey Antenna base: Aluminum. Mounting kit, screws and nuts: Stainless steel. Mounting: The antenna can be attached laterally at the tip of a tubular mast of 50 – 94 mm diameter (connecting cable runs outside the mast). Grounding: Earthing cross-section of 22 mm2 copper between antenna tip and base. 6,5° 1944 mm ● um maximtop mast 150 3 dB 230 10 0 Vertical Pattern at mid-band. Half-power beam width 6.5° 3° electrical downtilt 104 130 MMDS (Wireless Cable) 2500 – 2700 MHz Wireless Cable (also known as MMDS) systems are used to distribute up to 31 channels of television programming throughout a city or urban area. KATHREIN offers a selection of 40 models of professional transmitting antennas for Wireless Cable services, with a choice of horizontal or vertical polarization, five different horizontal radiation patterns and gain options to meet your specific requirements. All antennas are composed of similar dipole modules housed in a robust GRP radome for weather protection. The use of parallel-fed elements assures constant vertical patterns across the full band and allows the use of beamtilt and null fill to optimize coverage. ● VSWR is 1.2:1 (or better) across full 200 MHz bandwidth. ● 1.2 kW input power rating is standard for all models. ● Full selection of patterns & gain to optimize coverage. ● Parallel feed system provides maximum stability. ● Electrical beamtilt and null fill for coverage enhancement. ● Designed for severe environments. No pressurization is required. ● Superb performance and long-term reliability. Systems 2500 – 2700 MHz This new product line offers a number of advantages, including: 131 MMDS (Wireless Cable) 2500 – 2700 MHz Omnidirectional Pattern HORIZONTAL PATTERNS Bidirectional Pattern MECHANICAL PROPERTIES Weight: 27 kg Height: 1704 mm RELATIVE FIELD 4 MODULES 35 kg Height: 2212 mm Gain: 16 dBi 0.5 MMH-4/O (765 537) MMH-4/H (767 230) MMV-4/O (767 194) MMV-4/H (767 234) 1.0 Gain: 14.1 dBi Gain: 17.7 dBi 0.5 MMH-6/O (766 393) MMH-6/H (767 231) MMV-6/O (767 195) MMV-6/H (767 235) 1.0 Gain: 15.2 dBi Gain: 18.8 dBi 0.5 MMH-8/O (766 394) MMH-8/H (767 232) MMV-8/O (767 196) MMV-8/H (767 236) 0° Windload: 330 N Weight: 43 kg Height: 2880 mm Windload: 430 N RELATIVE FIELD 8 MODULES 0° Windload at 160 km/h 132 0 Gain: 12.4 dBi 0° RELATIVE FIELD Weight: 0 3 1.0 Windload: 225 N 6 MODULES 3 10 dB VERTICAL PATTERNS dB 10 5° 5° 5° 10° 10° 10° 15° 15° 15° 20° 20° 20° MMDS (Wireless Cable) 2500 – 2700 MHz 3 0 10 3 0 Gain: 18.5 dBi Gain: 15.5 dBi Gain: 14.1 dBi MMH-4/C (766 404) MMH-4/B (766 400) MMH-4/A (766 396) MMV-4/C (767 206) MMV-4/B (767 202) MMV-4/A (767 198) Gain: 20.2 dBi Gain: 17.2 dBi Gain: 15.8 dBi MMH-6/C (766 405) MMH-6/B (766 401) MMH-6/A (766 397) MMV-6/C (767 207) MMV-6/B (767 203) MMV-6/A (767 199) Gain: 21.3 dBi Gain: 18.3 dBi Gain: 16.9 dBi MMH-8/C (766 406) MMH-8/B (766 402) MMH-8/A (766 398) MMV-8/C (767 208) MMV-8/B (767 204) MMV-8/A (767 200) Horizontal Polarization Vertical Polarization 133 Systems 2500 – 2700 MHz 0 10 240° Pattern dB 3 dB 10 150° Pattern dB 70° Pattern MMDS (Wireless Cable) 2500 – 2700 MHz Type No. / Order No. Connector Frequency range VSWR Impedance Polarization Vertical radiation patterns Max. power Max. wind velocity See Type No. on page 132 and 133 7/8″ EIA flange 2500 – 2700 MHz 1.2 : 1 maximum across the full 200 MHz bandwidth 50 Ω Choise of horizontal or vertical polarized models. 1° electrical downtilt and 15% null fill are standard. Other values available as options. 1.2 kW (at 50 °C ambient temperature) 225 km/h Material: Radome: Fiberglass, brown. Antenna base: Aluminum. Mounting: Flange mount to top of support structure. Directional models may be side-mounted using a bracket. ø 186 Height Attention: The aluminum flange may only be mounted to a flat base-plate (max. uneveness 0.5 mm) with a drilled hole of 100 mm diameter in the center for the 7/8″ EIA flange connector. Grounding: Via mounting parts. Label shows center of main beam 180 7/8″ EIA flange 35 ∅ 17 ∅ 18 280 320 All dimensions in mm Mounting bracket 134 MMDS (Wireless Cable) 2500 – 2700 MHz 776 012 Type No. / Order No. 776 012 Connector Frequency range VSWR 2 x 7/8″ EIA flange 2500 – 2700 MHz 1.2 : 1 maximum across the full 200 MHz bandwidth 50 Ω vertically polarized 3° electrical downtilt 25% null fill on the first lobe and 15% on the second lobe 1.2 kW (at 50 °C ambient temperature) 225 km/h Impedance Polarization Vertical radiation patterns Max. power Max. wind velocity Material: Radome: Fiberglass, brown. Antenna base: Aluminum. Mounting: Flange mount to top of support structure. Directional models may be side-mounted using a bracket. ø 186 2880 Attention: The aluminum flange may only be mounted to a flat base-plate (max. unevenness 0.5 mm) with a drilled hole of 180 mm diameter in the center for the two 7/8″ EIA flange connectors. Grounding: Via mounting parts. Systems 2500 – 2700 MHz Label shows center of main beam 90 180 2 x 7/8 EIA-flange ∅ 18 ∅ 17 280 320 All dimensions in mm Mounting bracket 135 136 Special Systems Relay Receiving Antennas and Special Antenna Systems 137 Relay Receiving Antennas for TV and FM Broadcasting Receiving antenna systems with high side-lobe suppression and notches for the suppression of interference can significantly improve the signal quality of the relay receiving systems. Due to ever-increasing transmitter density, relay receiving systems can suffer difficulties due to co-channel or adjacent channel interference. In mountainous regions additional interference may be caused by reflected signals that arrive delayed. In order to suppress such interference, several individual antennas can be combined. Optimization of both the mechanical array and the electrical feeder system results in notches in the direction of the disturbance. Array patterns with notches in two different directions can also be produced to suppress interference coming from a variety of sources. To solve interference problems Kathrein offers receiving antennas with high side-lobe suppression for all frequency ranges. 16° Kathrein’s log.-per. antennas have been specially developed for such purposes. For example over the whole TV Band III range they achieve a side-lobe suppression value of more than 25 dB in both the horizontal and the vertical patterns. A further advantage of our log.-per. antennas is that their excellent radiation characteristics are hardly affected at all by very heavy ice formation. 3 dB 10 0 Horizontal radiation pattern Half-power beam width: 16° Side-lobe suppression: > 30 dB If high quality individual antennas are used, array patterns with particularly high side-lobe suppression can be produced. The following examples show measured radiation patterns of antenna arrays for all VHF and TV transmitting ranges (the side-lobes were enlarged by a factor of 10 to ease identification). Examples for Horizontal Radiation Patterns 10 dB expanded 0 3 units K 52 16 8.. 138 3 0 2 units K 52 22 1.. 470 – 860 MHz 10 dB expanded 10 dB 3 10 dB expanded 10 dB 10 174 – 230 MHz 3 10 dB expanded 10 0 3 units K 52 22 5.. 3 dB 87.5 – 108 MHz dB 47 … 88 MHz 0 4 units K 72 23 4.. Special Antenna Systems Kathrein’s sales range includes antennas and accessories for – all frequency ranges from 47 MHz to 2700 MHz – transmitter power ratings from 100 W to 200 kW and – various mast types (round, triangular, square or reinforced fibre-glass material). Furthermore, Kathrein will design and put together special constructions to solve all problems related to a specific site and to fulfil customers’ special requests. Typical examples: – Antennas and power splitters with an extended frequency range. – Antennas suitable for withstanding extreme weather conditions both on the coast and on the top of high mountains (see Säntis photo, Switzerland). – Antennas with a heated surface to eliminate damage to people through falling ice. – Multi-pattern systems for transmitting several channels with different horizontal patterns via one signal antenna system to make optimum use of the available mast height (see Marlow photo). Special Systems Säntis transmitter in Switzerland VHF and TV antenna systems completely enclosed in a heated GRP radome. Combiners and layout for Marlow transmitter in Germany. Multi-pattern antenna system for 7 FM channels. 139 140 Power Splitters Power Splitters 141 High Power Splitters 47 … 88 MHz, 87.5 – 108 MHz, 174 – 230 MHz, 470 – 862 MHz ● All power splitters are matched in the whole frequency range with VSWR < 1.05. ● The additional tuning unit can be used to optimize the input impedance of the antenna system on site. ● Special versions with unequal power splitting, alternative connectors or up to 16 outputs are available on request. Frequency range Length approx. with tuning unit approx. Input power Connectors Impedance VSWR Insertion loss 47 ... 88 MHz 87.5 – 108 MHz 174 – 230 MHz 470 – 862 MHz 2400 mm 1700 mm 850 mm 700 mm 2600 mm – 1500 mm 1000 mm 1 – 200 kW 1 – 200 kW 1 – 150 kW 1 – 70 kW 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) 50 Ω < 1.05 in each frequency range < 0.05 dB 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. 11 mm ∅ 11 mm ∅ Example: 4-way splitter with standardattachment. 142 Medium Power Splitters 47 … 88 MHz, 87.5 – 108 MHz, 174 – 230 MHz, 470 – 862 MHz All power splitters are matched in the whole frequency range with VSWR < 1.05. ● The additional tuning unit can be used to optimize the input impedance of the antenna system on site. ● Special versions with unequal power splitting, alternative connectors or up to 12 outputs are available on request. ● Power splitters for 66 – 72 MHz, 76 – 82 MHz, 82 – 88 MHz are available on request. Frequency range 47 ... 88 MHz 174 – 230 MHz Length approx. with tuning unit approx. Input power Connectors Impedance VSWR Insertion loss 2400 mm 1650 mm 845 mm 560 mm 2600 mm – 1500 mm 860 mm 3 kW 2.5 kW 2 kW 1 kW 7-16 female (other connectors upon request) 50 Ω < 1.05 < 0.05 dB 470 – 862 MHz 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). Type No. ( Order No.) of available power splitters – without tuning unit Number of outputs 2 3 4 5 6 8 47 – 54 MHz 54 – 61 MHz 60 – 68 MHz 765 765 765 765 765 765 765 765 765 765 765 765 765 765 765 765 765 765 814 815 816 817 818 819 814 820 821 822 823 824 814 825 826 827 828 829 87.5 – 108 MHz 770 770 770 770 770 770 144 145 146 147 148 149 174 – 230 MHz 770 510 770 511 770 512 770 513 770 514 770 515 130 mm 470 – 862 MHz 764 764 764 764 764 764 485 486 487 488 489 491 759 044 – with tuning unit 174 – 230 MHz 770 770 770 770 770 770 516 517 518 519 520 521 470 – 862 MHz 764 764 764 764 764 764 Power Splitters 87.5 – 108 MHz L ● 493 494 495 496 497 499 143 Low Power Splitters 174 – 230 MHz, 470 – 862 MHz and 1452 – 1492 MHz 174 – 230 MHz Type No. / Order No. Connector (female) Max. power (at 50 °C ambient temp.) Number of outputs Frequency range Impedance VSWR Insertion loss Max. size 768 343 768 334 768 344 768 335 768 345 768 336 N 1 kW 7-16 2 kW N 1 kW 7-16 2 kW N 1 kW 7-16 2 kW 2 3 174 – 230 MHz 50 Ω < 1.07 < 0.05 dB 800 / 82 / 82 mm 4 470 – 862 MHz Type No. / Order No. Connector (female) Max. power (at 50 °C ambient temp.) Number of outputs Frequency range Impedance VSWR Insertion loss Max. size 768 340 768 331 768 341 768 332 768 342 768 333 N 500 W 7-16 1 kW N 500 W 7-16 1 kW N 500 W 7-16 1 kW 2 3 470 – 862 MHz 50 Ω < 1.07 < 0.05 dB 520 / 82 / 82 mm 4 751 10281 751 10282 751 10283 2 3 7-16 700 W 4 1452 – 1492 MHz Type No. / Order No. Number of outputs Connector (female) Max. power (at 50 °C ambient temp.) Frequency range Impedance VSWR Insertion loss Max. size 1452 – 1492 MHz 50 Ω < 1.1 < 0.05 dB 160 / 82 / 82 mm Material: Case: Aluminum. Inner conductor: Brass. Mounting: Bracket included for wall mounting. May be attached to tubular masts using clamps listed below (order separately). Type No. Order No. 736 736 736 736 736 144 801 802 803 804 805 Description 1 1 1 1 1 clamp clamp clamp clamp clamp Remarks Mast: Mast: Mast: Mast: Mast: 34 60 80 100 120 – – – – – 60 80 100 120 140 mm mm mm mm mm diameter diameter diameter diameter diameter 768 332 Low Power Splitter 87.5 – 108 MHz Low power splitters for connecting several antennas 751 10215 For connecting ... antennas Input Frequency range VSWR Impedance Max. power Insertion loss Maximum cable diameter 2 3 4 7-16 female (equipment and antenna side) 87.5 – 108 MHz > 1.07 50 Ω 400 W (at 50 °C ambient temperature) < 0.15 dB For equipment and antenna side: 7/ ″ 8 200 x 170 x 115 mm Packing size 751 10216 751 10217 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). A: B: C: D: 140 mm 110 mm 80 mm 100mm Example 4-way antenna splitter Power Splitters Typ No. / Order No. Compact broadband power splitter for low-loss connection of several antennas: Outputs Outputs Input 145 146 Components for Antenna Systems Filters and Combiners Measuring Links Patch Panels Coaxial Cables Dehydrators Transmitter Rohde & Schwarz Mounting Hardware Further accessories available for completing antenna systems: – Probe Sections – Mechanical Oscillation Dampers Patch Panel Spinner Further Components – Obstruction Lights Combiner Network Kathrein 147 148 Filters and Combiners Kathrein offers a full range of filters and combiners to complete or extend FM and TV antenna systems. Combiner units of starpoint, stretchline and directional filter design and filters as well as any combinations thereof are available for all frequency ranges from 47 – 860 MHz and for any power levels from 10 Watt – 100 kW. Special designs can be offered on request, e.g.: – Filters for the reduction of spurious emissions, especially for DAB. – Filters for the suppression of IM products. – OIRT-CCIR multiplexers for combining signals in the OIRT (66 – 73 MHz) and the CCIR (87.5 – 108 MHz) frequency ranges. – Multi pattern antenna systems consisting of a sophisticated arrangement of combiners, power splitters, feeder lines and antenna panels allowing the multiple use of the antenna aperture. Further Components A separate catalogue “Filters and Combiners” is available from Kathrein. FM combiner of multi-pattern antenna system Marlow. 149 Measuring Links Devices for non-mechanical opening of cables for measurement purposes Applications Measuring links are devices that are connected into RF cable runs. Thus it is possible to open the cable run in an electrical (non-mechanical) way, allowing to measure into the cable in both directions. When closed (in its operating condition), the measuring link is a completely homogeneous, uniform section of the transmission line and does not affect the cut-off frequency of the transmission line system. Measuring Heads To permit cable measurements to be performed, 3 measuring heads are available to each size of measuring links: 1. A measuring head allowing measurements to be taken in one of both directions with the cable section not measured being short-circuited. Connectors: 7-16 or N female. 2. A measuring head with 2 test connectors allows to measure in both cable directions. Connectors: 7-16 or N female. 3. A measurement head for cases where the measuring link is used for providing an emergency cable connection. Measuring heads of this type can be used to couple out the full incoming RF energy. Design Features Measuring link in a cable run The measuring links are completely watertight and weatherproof. They are manufactured of red brass and are therefore resistant to corrosive environments of any nature. The measuring links are available in versions with cable connections from 6 1/8″ to 1 5/8″ EIA-flange or connectors 13-30 and 7-16. Technical details are available upon request. Typical Use of Measuring Links Measuring link with 3 1/8″ EIA-flanges antenna main splitter normal operation measuring link switched through testing measuring link with measuring head feeder cable Tx power 150 Measuring link with 3 1/8″ EIA-flanges and 7-16 measuring head Patch Panels Switching device for providing a spare connection between transmitter and antenna Upon request, the switching points of the quick-release connectors can be equipped with safety contacts to avoid the connection of transmitters to unload switching points. Applications Connections If required, patch panels can be used to provide an instant replacement of non-operational transmission line connections between transmitters and antennas or half antennas. To meet different requirements, customerspecified patch panels are available with virtually any connector type and switching capability. The connections for transmitter cables or rigid transmission lines to the antennas or transmitters are available with straight, or when equipped with angle flanges, with backwards, downwards or upwards orientation. Design Features Normally, a patch panel consists of a frontpanel made of aluminum that contains switching points and connectors with locking brackets. Each patch panel can be equipped with a duplex power splitter and with a simultaneous combining filter, if required. Typically, patch panels are intended to be installed into rack cabinets. Operation The connectors with quickrelease locking brackets have been proven in applications where spare connections must be established within just a few seconds. Typical Application (Example: Half Antenna Patch Panel) Normal Operation Half Antenna Operation power splitter upper half antenna lower half antenna U-Link or Further Components transmitter or combiner 151 Coaxial Cables and Accessories A wide variety of coaxial cables, connectors, cable clamps, earthing kits, hoisting sockets and other accessories are available for main and branch feeders. All components are of broadband type. The minimum size of coaxial components is determined by the power handling requirements and environmental conditions. Oversized coaxial cables are often used to reduce cable losses. Coaxial cables The power handling capacity and the attenuation vary greatly with the frequency. The cables are semi-flexible due to the use of corrugated copper tubes as outer conductors. The inner conductor is centered using a polyethylene helix or polyethylene foam. Air dielectric cables are available in following dimensions: 3/8″ 5/8″ 7/8″ 1 1/8″ 1 5/8″ 2 1/4″ 3″ 3 1/8″ 4″ 4 1/8″ 5″ 6 1/8″ Air dielectric cables can be filled with dry air or nitrogen of 0.1 – 0.3 bar excess pressure. Foam dielectric cables are available in following dimensions: 3/8″ 1/2″ 5/8″ 7/8″ 1 1/4″ 1 5/8″ Special versions: Cables with fire retardent jacket or super-flexible types for narrow bends or improved power handling capacity are available on request. Connectors Coaxial connectors for semi-flexible cables or rigid lines and adaptors are available in following sizes: N 7-16 13-30 7/8″ EIA 1 5/8″ EIA 3 1/8″ EIA 4 1/2″ EIA 6 1/8″ EIA 152 Further Components Coaxial Cables Typical Installation Approach 153 Dehydrators 19″ rack version Wall-mounted version Equipment for maintaining continous air pressure within RF transmission lines and antenna systems Cable connector Typical ventilating system Feeder cable Plastic air hose Hose connection Applications Transmitting and receiving antenna systems whose RF transmission lines such as coaxial cables and power splitter assemblies are filled with dehydrated air operate with increased reliability. Operation It is recommended to use dehydrators with fully automatic regeneration of the desiccant that allow to continously maintain and monitor the air pressure within RF transmission and antenna systems. Design features Maintenance-free dehydrators for virtually any application are available in different versions such as wall-mounted units or rack-mount units for installation into standardized racks with various levels of compressor power and pressure categories. Technical details are available upon request. 154 Mounting hardware for 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 panel Type No. K K K K K 61 61 61 61 61 14 14 14 14 14 01 02 03 04 05 Order No. Suitable for pipe Weight masts of mm ∅ kg 600 600 600 600 600 481 482 483 484 821 40 – 95 60 – 115 115 – 210 210 – 380 380 – 521 1.6 1.6 4.0 7.2 10.2 Pair of clamps K 61 14 03 Tilt brackets (pair) Type No. K 61 30 1 Order No. 600 504 For beam tilt down to 10° Slant compensation kit Type No. K 61 30 2 Order No. 600 505 Further Components Pair of plates for compensating the slant (15 mm per m) on tapered masts 155 Mounting hardware for 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 panels Type No. Order No. Suitable for pipe masts of mm ∅ Weight kg Distance Angle α between A/mm directions of the two UHF panels K 61 15 11 K 61 15 12 K 61 15 13 600 869 600 870 600 871 70 – 150 150 – 300 300 – 400 6.4 8.8 8.8 308 80° K 61 15 21 K 61 15 22 K 61 15 23 600 843 600 844 600 845 70 – 150 150 – 300 300 – 400 6.4 8.8 8.8 266 90° Pair of clamps for three UHF panels Type No. Order No. Suitable for pipe masts of mm ∅ Weight kg Distance Angle α between A/mm directions of the three UHF panels K 61 15 31 K 61 15 32 K 61 15 33 600 846 600 847 600 848 70 – 150 150 – 300 300 – 400 8.4 9.2 9.2 308 80° K 61 15 41 K 61 15 42 K 61 15 43 600 849 600 850 600 851 70 – 150 150 – 300 300 – 400 8.4 9.2 9.2 266 90° Pair of clamps for four UHF panels Type No. K 61 15 52 K 61 15 61 K 61 15 62 Order No. Suitable for pipe masts of mm ∅ Weight kg 600 875 600 991 600 874 150 – 300 70 – 150 150 – 260 27 26 26 Distance Angle α between A/mm directions of the four UHF panels 308 258 258 80° 90° 90° Special features: A part of the mount can be swivelled out for easier mast climbing. 156 Mounting hardware for L Band panels Components for mounting L Band panels to pipe masts. Material: Stainless steel. Bolts and nuts are supplied. Pair of clamps for one L Band panel Type No. / Order No. 734 734 734 734 734 734 360 361 362 363 364 365 Suitable for pipe masts of mm ∅ 34 60 80 100 120 45 – – – – – – 60 80 100 120 140 125 Weight g approx. 60 70 80 90 110 80 Screws supplied 86 10 4 2 0 Downtilt kit Type No. / Order No. 732 327 (additional clamps are required for mounting, see table) Slant compensation kit Type No. / Order No. 732 319 77 mm Further Components is used for compensating conical masts (additional clamps are required for mounting, see table) 55 mm Weight: 200 g 157 Mast clamps Components for mounting antennas or splitters to pipe masts. A Stainless steel bolts and nuts are supplied. Type No. K 61 12 0 (pair of clamps) Order No. Suitable for pipe masts of mm ∅ 600 479 60 – 115 Weight kg Dimensions mm 3.4 A: 140 B: 250 C: 150 B 17.5 mm ∅ C Mast clamps for panels K 52 30 5. and K 52 34 5.. A Type No. K 61 13 0 (pair of clamps) Order No. Suitable for pipe masts of mm ∅ 600 480 115 – 210 Weight kg Dimensions mm 4.5 A: 240 B: 250 C: 180 B 17.5 mm ∅ C Mast clamps for panels K 52 30 5. and K 52 34 5.. B Type No. Order No. Suitable for pipe masts of mm ∅ Weight kg K 61 16 01 (without picture) 601 647 77 suitable for panels K 52 33 5. 5.8 K 61 16 02 602 052 60 – 125 5.6 Dimensions mm A: 50 B: 125 A Mast clamps for panels K 52 33 5. Type No. / Order No. 759 044 Suitable for pipe masts of mm ∅ Weight kg 30 – 340 0.65 Dimensions mm Tension band for mounting of the medium power splitters to pipe masts 158 Technical Annex 3 dB 10 159 Technical Annex 0 Antenna System Configurations 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 Three-sided Panel Array Panel arrangement 3/7 P 1/7 P 3/7 P 3 10 dB 10 3 0 dB Horizontal radiation pattern (at mid-band) 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. Different power splitting 0 Equal power splitting Different power splitting Four-sided Panel Array Panel arrangement 1/10 P 4/10 P 1/10 P 3 10 dB 10 3 0 0 Turnstile Antenna ϑ 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 wavelength of the signal. 160 U ~ ~ jU 90° ϑ Superturnstile Antenna 0.7 λ ~ 0.25 λ 0.5 λ dB Horizontal radiation pattern (at mid-band) 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. 4/10 P Antenna System Configurations 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 Examples for Radiation Patterns 47 … 88 MHz 10 dB 3 10 dB expanded 0 3 0 3 units K 52 16 8.. 2 units K 52 22 1.. 174 – 230 MHz 470 – 860 MHz 10 dB expanded 10 3 10 dB expanded 10 0 3 units K 52 22 5.. 3 0 4 units K 72 23 4.. 161 Technical Annex 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. 10 dB 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. 10 dB expanded dB Relay Receiving Antennas 87.5 – 108 MHz dB 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. Glossary of Broadcast Antenna 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 redirecting it toward the areas where coverage is desired. 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 disassembly 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 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 elevated 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. 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 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. 162 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. Glossary of Broadcast Antenna 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. 163 Technical Annex 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. 164 The following information is required to design an optimum antenna system for you: customer address phone FAX station name: location: frequency (MHz) or channels transmitter power (kW) ■ analog min. power rating for system (kW): ■ digital antenna gain or ERP or number of bays: polarization: horizontal or vertical or slant horizontal radiation pattern omni or directional (if directional specificy requirements) vertical radiation pattern beam tilt: null fill: tower feeder square or triangular or round side length or diameter: azimuth direction of tower face: vertical antenna aperture: air or foam half antenna no mode half power size connectors full power length 1 feeder dehydrator 2 feeders patch panel combiner measurement link special climatic conditions Technical Annex Please contact KATHREIN-Werke KG · G. Klauser · Telephone +49 8031 184-958 · Fax +49 8031 184-495 Anton-Kathrein-Str. 1 – 3 · P.O. Box 10 04 44 · D-83004 Rosenheim · Germany · e-mail: [email protected] Subject to alteration. 9981.0510/0607/3/ZW/PF Internet: http://www.kathrein.de KATHREIN-Werke KG . Telephone +49 8031 184-0 . Fax +49 8031 184-495 Anton-Kathrein-Straße 1 – 3 . P.O. Box 10 04 44 . D-83004 Rosenheim . Germany
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