Band-pass Filter 890 … 960 Mhz

Transcript

“Quality leads the way” Being the oldest and largest antenna manufacturer worldwide, we take on every day the challenge arising from our own motto. One of our basic principles is to look always for the best solution in order to satisfy our customers. Our quality assurance system conforms to DIN EN ISO 9001 and applies to the product range of the company: Antenna systems, communication products as well as active and passive distribution equipment. Target Groups: This catalogue is aimed at • System suppliers of mobile communication networks • Manufacturers of mobile radio equipment • Operators of various mobile communication networks • Authorities and organisations concerned with safety issues • Community offices, authorities, organisations and private companies Edition 2007 Internet: http://www.kathrein.de KATHREIN-Werke KG . Phone +49 8031 184-0 . Fax +49 8031 184-494 Anton-Kathrein-Straße 1 – 3 . P.O. Box 10 04 44 . 83004 Rosenheim . Germany Antennen . Electronic Filters Duplexers Multiband Combiners Hybrid Combiners System Components 3-dB Couplers Hybrid Combiner 4 : 4 Hybrid Combiner 2 : 1 Hybrid Ring Junctions Decoupled Power Splitters 4.7-dB, 6-dB, 7-dB, 10-dB Couplers Bias Tees Measuring Directional Coupler Circulators DC-Stops Attenuators 50-Ÿ Loads Power Distribution Unit DTMAs Application Notes 3 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 725 704 24, 25 725 705 22, 23 782 10298 78, 79 790 213 100 792 966 102 782 10301 146 790 384 8, 9 792 967 102 727 380 727 381 24, 25 782 10302 148 790 385 8, 9 792 972 105 24, 25 782 10305 72, 73 790 533 10, 11 793 004 46, 47 728 044 97 782 10306 72, 73 790 534 10, 11 793 005 46, 47 728 055 22, 23 782 10312 128, 129 790 881 98, 99 793 006 86 728 954 58, 59 782 10313 130, 131 791 145 60, 61 793 105 100 729 812 97 782 10315 132, 133 791 375 113 793 106 100 730 312 22, 23 782 10316 134, 135 791 376 113 793 107 100 782 10319 115 791 397 36, 37 793 108 100 782 10147 150 782 10320 115 791 398 34, 35 793 131 20, 21 782 10148 152 782 10325 16 791 498 98, 99 793 301 106 782 10151 154, 155 782 10326 18, 19 791 594 36, 37 793 304 107 782 10161 48, 49 782 10341 64 791 600 94 793 423 74, 75 782 10162 48, 49 782 10344 116, 117 791 918 119 793 424 74, 75 782 10164 48, 49 782 10346 68, 69 791 919 119 793 425 76, 77 782 10165 48, 49 782 10347 156 791 920 119 793 426 76, 77 782 10167 50 782 10348 156 791 921 119 793 506 85 782 10168 42, 43 782 10349 156 791 946 28, 29 793 528 78, 79 782 10169 42, 43 782 10350 65 791 962 95 793 529 78, 79 782 10170 42, 43 782 10390 14 792 078 94 793 532 66, 67 782 10171 42, 43 782 10391 15 792 079 95 793 533 66, 67 782 10172 42, 43 782 10400 136, 137 792 122 12, 13 793 538 54 782 10192 53 782 10401 138, 139 792 170 100 793 539 26, 27 782 10193 53 782 10403 140, 141 792 180 100 793 540 30, 31 782 10215 44, 45 782 10404 142, 143 792 219 32, 33 793 554 87 782 10216 44, 45 782 10406 144, 145 792 542 51 793 555 90 782 10243 74, 75 782 10415 51 792 544 52 782 10244 74, 75 782 10429 108 792 691 96 K 62 26 11 1 122 782 10245 76, 77 782 10453 110,111,112 792 699 88 K 62 26 20 1 123 782 10246 76, 77 782 10454 110,111,112 792 702 89 K 62 26 20 7 123 782 10248 70, 71 782 10455 110,111,112 792 745 101 K 62 26 21 1 123 782 10249 70, 71 782 10456 110,111,112 792 763 114 K 62 26 21 7 123 782 10250 70, 71 782 10460 62, 63 792 789 20, 21 K 62 26 30 1 123 782 10251 70, 71 782 10474 124 792 790 20, 21 K 62 26 30 7 123 782 10253 110,111,112 782 10500 92 792 791 20, 21 K 62 26 31 1 123 782 10254 110,111,112 782 10502 93 792 792 20, 21 K 62 26 31 7 123 782 10255 110,111,112 782 10532 91 792 815 101 K 62 26 40 1 123 782 10256 110,111,112 782 10550 109 792 816 101 K 62 26 41 1 123 792 817 101 K 62 26 50 1 123 123 782 10257 44, 45 782 10264 80 784 10235 118 792 819 101 K 62 26 50 7 782 10265 44, 45 784 10236 118 792 820 101 K 62 26 51 1 123 782 10278 72, 73 784 10237 118 792 821 101 K 62 26 61 1 122 782 10279 72, 73 784 10238 118 792 822 101 K 63 70 61 84 782 10294 120 784 10367 122 792 937 100 K 63 70 67 84 782 10295 121 784 10470 122 792 964 102 K 63 73 621 98, 99 782 10296 17 792 965 102 4 Filters Filters 5 6 Summary of Articles Filters: Description Type No. Frequency range Max. Input power Page ... tunable bandwidth – fixed bandwidth Band-pass Filter 790 385 890 – 915 MHz 50 W 8, 9 Band-pass Filter 790 384 935 – 960 MHz 50 W 8, 9 Band-pass Filter 790 534 890 – 915 MHz 250 W 10, 11 Band-pass Filter 790 533 935 – 960 MHz 250 W 10, 11 Band-pass Filter 792 122 880 – 960 MHz 250 W 12, 13 Band-pass Filter 782 10390 890 – 960 MHz 400 W 14 Band-pass Filter 782 10391 890 – 960 MHz 400 W 15 Band-pass Filter 782 10325 894 – 960 MHz 250 W 16 Band-pass Filter 782 10296 907 – 960 MHz 250 W 17 Band-pass Filter 782 10326 890 – 915 MHz 50 W 18, 19 Band-stop Filter 792 789 Pass-band: 890.5 – 915.0 MHz Stop-band: 885.0 – 890.0 MHz 25 W 20, 21 Band-stop Filter 792 790 Pass-band: 897.0 – 915.0 MHz Stop-band: 891.5 – 896.5 MHz 25 W 20, 21 Band-stop Filter 792 791 Pass-band: 894.5 – 915.0 MHz Stop-band: 890.4 – 893.6 MHz 25 W 20, 21 Band-stop Filter 792 792 Pass-band: 894.5 – 915.0 MHz Stop-band: 890.0 – 894.0 MHz 25 W 20, 21 Band-stop Filter 793 131 Pass-band: 890.0 – 915.0 MHz Stop-band: 883.0 – 888.0 MHz 25 W 20, 21 Band-pass Filter 725 705 890 … 960 MHz 50 W 22, 23 Band-pass Filter 730 312 890 … 960 MHz 50 W 22, 23 Band-pass Filter 728 055 890 … 960 MHz 50 W 22, 23 Band-stop Filter 725 704 890 … 960 MHz 100 W 24, 25 Band-stop Filter 727 380 890 … 960 MHz 100 W 24, 25 Band-stop Filter 727 381 890 … 960 MHz 100 W 24, 25 Low-pass Filter 793 539 876 – 960 MHz 300 W 26, 27 Band-pass Filter 791 946 1710 – 1785 MHz 35 W 28, 29 Band-pass Filter 793 540 1710 – 1880 MHz 500 W 30, 31 Band-stop Filter 792 219 1800 … 2000 MHz 25 W 32, 33 Band-pass Filter 791 398 1800 … 2000 MHz 15 W 34, 35 Band-stop Filter 791 594 1550 … 1700 MHz 15 W 36, 37 Band-stop Filter 791 397 1700 … 1900 MHz 15 W 36, 37 7 Band-pass Filter, 50 W 890 – 915 / 935 – 960 MHz The Band-pass Filter is suitable for use as a receiving or transmitting filter for one or several receiving or transmitting channels. It can be used: – to improve the input selectivity of receivers and amplifiers, – to increase the isolation of transmitters whose respective antennas are mounted close together, – to suppress noise sidebands and intermodulation products, – as a duplexer component. Design and construction: The Band-pass Filter consists of 6 high Q resonators. Filter characteristics: Broad pass band range with low insertion loss, high stop band attenuation, steepened filter curve through additional stop poles. Technical Data Type No. 790 385 Pass band 890.0 – 915.0 MHz Insertion loss Stop band attenuation VSWR Impedance Input power Temperature range g Connectors Application Mounting g Weight g Packing g size Dimensions (w x h x d) 8 790 384 935.0 – 960.0 MHz < 0.7 dB > 65 dB (935.0 – 960.0 MHz) > 65 dB (890.0 – 915.0 MHz) < 1.3 (890.0 – 915.0 MHz) < 1.3 (935.0 – 960.0 MHz) 50 Ÿ < 50 W –10 … +55 °C N female Indoor With 3 screws (max. 3 mm diameter) 0.67 kg g 190 mm x 80 mm x 155 mm 160 mm x 31 mm x 141 mm (including connectors and mounting feet) Band-pass Filter, 50 W 890 – 915 / 935 – 960 MHz Typical Attenuation Curves 790 385 790 384 Diagram I: Attenuation/dB Attenuation/dB Diagram I: 0 10 20 30 0 10 20 30 40 40 50 50 60 60 70 70 80 80 90 90 100 100 652.5 702.5 752.5 802.5 852.5 902.5 697.5 747.5 797.5 952.5 1002.5 1052.5 1102.5 1152.5 847.5 897.5 947.5 997.5 1047.5 1097.5 1147.5 1197.5 Frequency/MHz Frequency/MHz Diagram II: Attenuation/dB Attenuation/dB Diagram II: 0 10 20 890 – 915 30 0 10 20 935 – 960 30 40 40 50 50 60 60 70 70 80 80 90 90 100 100 852.5 862.5 872.5 882.5 892.5 902.5 912.5 922.5 897.5 907.5 917.5 932.5 942.5 952.5 927.5 937.5 947.5 977.5 987.5 997.5 Diagram III: Attenuation/dB Attenuation/dB Diagram III: 0 0.5 1.0 890 – 915 1.5 0 0.5 1,0 935 – 960 1.5 2.0 2.0 2.5. 2.5 3.0 3.0 3.5 3.5 4.0 4.0 4.5 4.5 5.0 5.0 877.5 882.5 887.5 957.5 967.5 Frequency/MHz Frequency/MHz 892.5 897.5 902.5 907.5 912.5 917.5 922.5 927.5 Frequency/MHz 922.5 927.5 932.5 937.5 942.5 947.5 952.5 957.5 962.5 967.5 972.5 Frequency/MHz 9 Band-pass Filter, 250 W 890 – 915 / 935 – 960 MHz The Band-pass Filter is suitable for use as a receiving or transmitting filter for one or several receiving or transmitting channels. It can be used: – to improve the input selectivity of receivers and amplifiers, – to increase the isolation of transmitters whose respective antennas are mounted close together, – to suppress noise sidebands and intermodulation products, – as a duplexer component. Design and construction: The Band-pass Filter consists of 6 high Q resonators. Filter characteristics: Broad pass band range with low insertion loss, high stop band attenuation, steepened filter curve through additional stop poles. 204 56 15 140 2.5 13.2 12 17 7.5 5 2 24 Technical Data Type No. 790 534 Pass band 890.0 – 915.0 MHz Insertion loss Stop band attenuation VSWR Impedance Input power Temperature range Connectors Application Mounting Weight Packing size Dimensions (w x h x d) 10 790 533 935.0 – 960.0 MHz < 0.4 dB > 65 dB (935.0 – 960.0 MHz) > 65 dB (890.0 – 915.0 MHz) < 1.3 (890.0 – 915.0 MHz) < 1.3 (935.0 – 960.0 MHz) 50 Ÿ < 250 W –10 … +55 °C 7-16 female Indoor With 3 screws (max. 4 mm diameter) 1.5 kg 230 mm x 130 mm x 250 mm 160 mm x 62 mm x 221 mm (including connectors and mounting feet) ø4.5 180 Band-pass Filter, 250 W 890 – 915 / 935 – 960 MHz Typical Attenuation Curves 790 534 790 533 Diagram I: Attenuation/dB Attentuation/dB Diagram I: 0 10 20 30 0 10 20 30 40 40 50 50 60 60 70 70 80 80 90 90 100 100 652.5 702.5 752.5 805.5 852.5 902.5 952.5 1002.5 1052.5 1102.5 1152.5 697.5 747.5 797.5 847.5 897.5 947.5 997.5 1047.5 1097.5 1147.5 1197.5 Frequency/MHz Frequency/MHz Diagram II: Attenuation/dB Attentuation/dB Diagram II: 0 10 20 890 – 915 30 0 10 20 935 – 960 30 40 40 50 50 60 60 70 70 80 80 90 90 100 100 852.5 862.5 872.5 882.5 892.5 902.5 912.5 922.5 932.5 942.5 952.5 897.5 907.5 917.5 927.5 937.5 947.5 957.5 967.5 Frequency/MHz Diagram III: Attenuation/dB Diagram III: Attentuation/dB 977.5 987.5 997.5 Frequency/MHz 0 0.5 1.0 890 – 915 1.5 0 0.5 1.0 935 – 960 1.5 2.0 2.0 2.5 2.5 3.0 3.0 3.5 3.5 4.0 4.0 4.5 4.5 5.0 5.0 877.5 882.5 887.5 892.5 897.5 902.5 907.5 912.5 917.5 922.5 927.5 Frequency/MHz 922.5 927.5 932.5 937.5 942.5 947.5 952.5 957.5 962.5 967.5 972.5 Frequency/MHz 11 Band-pass Filter, 250 W 880 – 960 MHz The Band-pass Filter is suitable for use as a receiving or transmitting filter for one or several receiving or transmitting channels. It can be used: – to improve the input selectivity of receivers and amplifiers, – to increase the isolation of transmitters whose respective antennas are mounted close together, – to suppress noise sidebands and intermodulation products, – as a duplexer component. Design and construction: The Band-pass Filter consists of 4 high Q resonators. 2 22 ø4.5 140 max. 3.5 17 13.2 M6 12 59.6 12 Technical Data Type No. Pass band Insertion loss Stop band attenuation VSWR 792 122 880 – 960 MHz < 0.15 dB (880 – 960 MHz) > 65 dB (0 – 448 MHz) > 60 dB (1710 – 2000 MHz) < 1.3 (880.0 – 960.0 MHz) Impedance 50 Ÿ Input power < 250 W Temperature range Connectors Application Mounting Weight Packing size Dimensions (w x h x d) 12 –20 … +55 °C 7-16 female Indoor With 3 screws (max. 4 mm diameter) 1.1 kg 200 mm x 200 mm x 90 mm 155 mm x 161.5 mm x 62 mm (including connectors and mounting feet) 120.4 0.8 1.2 61 61.8 30 144.4 155 15 56 150 Filter characteristics: Broad pass band range with low insertion loss, high stop band attenuation, steepened filter curve through additional stop poles. Band-pass Filter, 250 W 890 – 960 MHz Typical Attenuation Curves 792 122 Attenuation/dB Diagram I 0 10 20 30 40 50 60 70 80 90 100 420 520 620 720 820 920 1020 1120 1220 1320 1420 Frequency/MHz Attenuation/dB Diagram II 0 0.1 0.2 880 – 960 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 820 840 860 880 900 920 940 960 980 1000 1020 Frequency/MHz 13 Band-pass Filter Pass band 890 – 960 MHz Stop band 0 – 888 MHz Frequency spacing 2 MHz The Band-pass Filter is designed as a GSM Tx/Rx preselector filter in order to suppress interfering transmitting signals of an adjacent AMPS or CDMA frequency band. Port 2 • Suitable for indoor applications • Built-in DC stop Port 1 Port 2 Typical Attenuation Curves Attenuation/dB Diagram I 0 10 0 – 888 890 – 960 20 30 40 Port 1 50 60 70 80 Technical Data 90 Pass band Insertion loss Stop band attenuation VSWR Impedance Input power 782 10390 890 – 960 MHz < 1.5 dB (890 – 892 MHz) < 0.8 dB (892 – 893 MHz) < 0.6 dB (893 – 905 MHz) < 0.3 dB (905 – 960 MHz) > 50 dB (0 – 880 MHz) > 40 dB (880 – 885 MHz) > 30 dB (885 – 888 MHz) < 1.25 (890 – 960 MHz) 50 Ÿ 100 865 3.0 Port 1: 7-16 female / Port 2: 7-16 male 3.5 Application Indoor 4.0 Built-in DC stop 4.5 Dimensions (w x h x d) 14 387 mm x 137 mm x 130 mm 92 mm x 72.5 mm x 329.5 mm (including connectors and mounting feet) 935 945 955 965 955 965 890 – 960 Connectors Packing size 925 1.5 2.5 With 4 screws (max. 4 mm diameter) 2 kg 915 1.0 –20 … +55 °C Mounting Weight 905 0.5 2.0 Special features 895 Diagram II < 400 W (935 – 960 MHz) Temperature range 885 0 < –160 dBc (3rd order; with 2 x 20 W) Intermodulation products 875 Frequency/MHz Attenuation/dB Type No. 5.0 865 875 885 895 905 915 925 935 945 Frequency/MHz Band-pass Filter Pass band 890 – 960 MHz Stop band 0 – 889 MHz Frequency spacing 1 MHz Port 2 The Band-pass Filter is designed as a GSM Tx/Rx preselector filter in order to suppress interfering transmitting signals of an adjacent AMPS or CDMA frequency band. • Suitable for indoor applications • Built-in DC stop Port 1 Port 2 Typical Attenuation Curves Attenuation/dB Diagram I 0 10 0 – 889 890 – 960 20 30 40 Port 1 50 60 70 80 Technical Data 90 782 10391 Pass band Insertion loss Stop band attenuation VSWR < < < < < > > 890 – 960 MHz 4.0 dB (890 – 891 MHz) 2.5 dB (891 – 892 MHz) 1.0 dB (892 – 893 MHz) 0.6 dB (893 – 905 MHz) 0.3 dB (905 – 960 MHz) 50 dB (0 – 869 MHz) 30 dB (869 – 889 MHz) < 1.3 (891 – 960 MHz) 100 865 2.5 –5 … +45 °C 3.0 Connectors Port 1: 7-16 female / Port 2: 7-16 male 3.5 Application Indoor 4.0 Built-in DC stop 4.5 Dimensions (w x h x d) 935 945 955 965 955 965 890 – 960 < –160 dBc (3rd order; with 2 x 20 W) Packing size 925 1.5 2.0 With 4 screws (max. 4 mm diameter) 2 kg 915 1.0 < 400 W (925 – 960 MHz) Mounting Weight 905 0.5 Input power Special features 895 Diagram II 50 Ÿ Temperature range 885 0 Impedance Intermodulation products 875 Frequency/MHz Attenuation/dB Type No. 5.0 865 875 885 895 905 915 925 935 945 Frequency/MHz 387 mm x 137 mm x 130 mm 92 mm x 72.5 mm x 329.5 mm (including connectors and mounting feet) 15 Band-pass Filter 894 – 960 MHz The Band-pass Filter is designed as a GSM Tx/Rx preselector filter in order to suppress interfering transmitting signals of an adjacent AMPS or CDMA frequency band. • Suitable for indoor applications • Built-in DC stop Typical Attenuation Curves Attenuation/dB Diagram I 0 10 20 0 – 881 894 – 960 30 40 50 60 70 80 90 Technical Data Pass band Insertion loss 782 10325 > 50 dB (0 – 881 MHz) VSWR < 1.2 (894 – 960 MHz) Impedance 50 Ÿ Input power < 250 W Temperature range 885 895 905 915 925 935 945 955 965 955 965 894 – 960 MHz < 0.5 dB (894 – 960 MHz) Stop band attenuation Intermodulation products 875 Frequency/MHz < –160 dBc (3rd order; with 2 x 20 W) –20 … +55 °C Connectors 7-16 female Application Indoor Diagram II Attenuation/dB Type No. 100 865 0 0.5 1.0 894 – 960 1.5 2.0 2.5 3.0 Special features Mounting Weight Packing size Dimensions (w x h x d) 16 Built-in DC stop With 4 screws (max. 4 mm diameter) Approx. 1.6 kg 277 mm x 167 mm x 144 mm 128 mm x 78 mm x 205.6 mm (including connectors and mounting feet) 3.5 4.0 4.5 5.0 865 875 885 895 905 915 925 935 945 Frequency/MHz Band-pass Filter 907 – 960 MHz The Band-pass Filter is designed as a GSM Tx/Rx preselector filter in order to suppress interfering transmitting signals of an adjacent AMPS or CDMA frequency band. • Suitable for indoor applications • Built-in DC stop Typical Attenuation Curves Attenuation/dB Diagram I 0 10 20 869 – 894 907 – 960 30 40 50 60 70 80 90 Technical Data Pass band < 0.5 dB (907 – 960 MHz) Stop band attenuation > 50 dB (869 – 894 MHz) < 1.2 (907 – 960 MHz) Impedance 50 Ÿ Input power < 250 W Intermodulation products Temperature range < –160 dBc (3rd order; with 2 x 20 W) –20 … +55 °C Connectors 7-16 female Application Indoor Special features Mounting Weight Packing size Dimensions (w x h x d) 885 895 905 915 925 935 945 955 965 955 965 Frequency/MHz 907 – 960 MHz Insertion loss VSWR 875 782 10296 Built-in DC stop With 4 screws (max. 4 mm diameter) 1.6 kg 277 mm x 167 mm x 144 mm 128 mm x 78 mm x 213.6 mm (including connectors and mounting feet) Diagram II Attenuation/dB Type No. 100 865 0 0.5 1.0 907 – 960 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 865 875 885 895 905 915 925 935 945 Frequency/MHz 17 Band-pass Filter 890 – 915 MHz The Band-pass Filter is designed as a GSM Tx/Rx preselector filter in order to suppress interfering transmitting signals of an adjacent AMPS or CDMA frequency band. • Suitable for indoor applications • DC grounded Technical Data Type No. Pass band Insertion loss Stop band attenuation VSWR 782 10326 890 – 915 MHz < 2.5 dB (890 – 892 MHz) < 1.0 dB, typically 0.5 dB (892 – 915 MHz) > 50 dB (0 – 886 MHz) > 35 dB (886 – 888.5 MHz) < 1.25 (890 – 915 MHz) Impedance 50 Ÿ Input power < 50 W Temperature range Connectors Application Special features Mounting Weight Dimensions (w x h x d) 18 +10 … +40 °C N female Indoor DC signals shorted to ground With 4 screws (max. 4 mm diameter) Approx. 1.3 kg Approx. 182 mm x 90 mm x 64 mm (excluding connectors and mounting feet) Band-pass Filter 890 – 915 MHz Typical Attenuation Curves 782 10326 Attenuation/dB Diagram I 0 10 20 890 – 915 0 – 888.5 30 40 50 60 70 80 90 100 865 875 885 895 905 915 925 935 945 955 965 955 965 Frequency/MHz Attenuation/dB Diagram II 0 0.5 1.0 890 – 915 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 865 875 885 895 905 915 925 935 945 Frequency/MHz 19 Band-stop Filter (AMPS/CDMA) Suppression Filter) 885.0 – 890.0 MHz, 891.5 – 896.5 MHz, 890.4 – 893.6 MHz, 890.0 – 894.0 MHz, 883.0 – 888.0 MHz The Band-stop Filter is suitable for suppressing interfering signals in the GSM receiving band which are generated as a result of simultaneously operating AMPS transmitting frequencies. By using the Band-stop Filter (together with an existing band-pass filter) almost the full GSM receiving bandwidth can be used with the exception of a narrow transition gap. Output Input Design and construction: The Band-stop Filter is made up of 4 high Q ceramic resonators. Filter characteristics: Broad pass band range with low insertion loss for the GSM receiving band, very steep filter curve with high attenuation of the upper part of the AMPS transmitting band. Typical Attenuation Curves 792 789 Diagram II Attenuation/dB Attenuation/dB Diagram I 0 5 10 890.5 – 915 885 – 890 15 0 0.5 1.0 20 2.0 25 2.5 30 3.0 35 3.5 40 4.0 45 4.5 50 890.5 – 915 885 – 890 1.5 5.0 875 880 885 890 895 900 905 910 915 920 925 875 880 885 890 Frequency/MHz 895 900 905 910 915 920 925 Frequency/MHz Technical Data Type No. Pass band Insertion loss (dB) (dB) Stop band Stop band attenuation VSWR 792 789 792 790 792 791 792 792 793 131 890.5 – 915.0 MHz 897.0 – 915.0 MHz 894.5 – 915.0 MHz 894.5 – 915.0 MHz 890.0 – 915.0 MHz < 1.2 (890.5–891.0 MHz) < 1.3 (897.0–897.6 MHz) < 0.6 (894.5–915.0 MHz) < 1.3 (894.5–895.1 MHz) < 0.5 (890.0–915.0 MHz) < 0.5 (891.0–915.0 MHz) < 0.6 (897.6–915.0 MHz) < 0.6 (895.1–915.0 MHz) 885.0 – 890.0 MHz 891.5 – 896.5 MHz 890.4 – 893.6 MHz 890.0 – 894.0 MHz 883.0 – 888.0 MHz > 30 dB > 30 dB > 30 dB > 30 dB > 35 dB < 1.3 Impedance 50 Ÿ Input power < 25 W Temperature range Connectors Application Mounting Weight Packing size Dimensions (w x h x d) 20 –20 … +55 °C SMA female Indoor With 4 screws (max. 4 mm diameter) 3.7 kg 262 mm x 144 mm x 262 mm 209 mm x 93 mm x 224 mm (including connectors and mounting feet) Band-stop Filter (AMPS/CDMA) Suppression Filter) 885.0 – 890.0 MHz, 891.5 – 896.5 MHz, 890.4 – 893.6 MHz, 890.0 – 894.0 MHz, 883.0 – 888.0 MHz Typical Attenuation Curves 792 790 Attenuation/dB Attenuation/dB Diagram I 0 5 10 897 – 915 891.5 – 896.5 15 Diagram II 0 0.5 1.0 20 2.0 25 2.5 30 3.0 35 3.5 40 4.0 45 4.5 50 897 – 915 891.5 – 896.5 1.5 5.0 875 880 885 890 895 900 905 910 915 920 925 875 880 885 890 895 900 905 Frequency/MHz 792 791 Attenuation/dB Attenuation/dB Diagram I 0 5 10 894.5 – 915 15 920 925 Diagram II 0.5 1.0 894.5 – 915 1.5 2.0 25 2.5 30 3.0 35 3.5 40 4.0 45 4.5 5.0 875 880 885 890 895 900 905 910 915 920 925 875 880 885 890 895 900 905 Frequency/MHz 792 792 Attenuation/dB 0 5 10 890 – 894 910 915 920 925 Frequency/MHz Diagram I Attenuation/dB 915 0 20 50 894.5 – 915 15 Diagram II 0 0.5 1.0 894.5 – 915 1.5 20 2.0 25 2.5 30 3.0 35 3.5 40 4.0 45 4.5 50 5.0 875 880 885 890 895 900 905 910 915 920 925 875 880 885 890 895 900 905 Frequency/MHz 793 131 Attenuation/dB 0 5 10 883 – 888 910 915 920 925 Frequency/MHz Diagram I Attenuation/dB 910 Frequency/MHz 890 – 915 15 Diagram II 0 0.5 1.0 890 – 915 1.5 20 2.0 25 2.5 30 3.0 35 3.5 40 4.0 45 4.5 50 5.0 875 880 885 890 895 900 905 910 915 920 Frequency/MHz 925 875 880 885 890 895 900 905 910 915 920 925 Frequency/MHz 21 Band-pass Filter 890 … 960 MHz The Band-pass Filter is used when several frequencies are to be attenuated outside a narrow passband. It is particularly suitable for laboratory test purposes, because of its ease of tuning. It can be used: – to improve the input selectivity of receivers and amplifiers, – to increase the isolation of transmitters whose respective antennas are mounted close together, – to suppress noise sidebands and intermodulation products, – as a combiner component. 725 705 Design and construction: The Band-pass Filter consists of capacitively shortened h/4 coaxial resonators. The resonators of the multicavity band-pass filter are interconnected by cables of h/4 length. The pass band frequency and the insertion loss are tunable. Filter characteristics: Narrow pass band with low insertion loss, high stop-band attenuation. Variable filter curves are possible in order to meet the desired stop-band attenuation. Tuning: The Band-pass Filter is tuned to the desired passband frequency and insertion loss at the factory. Please specify desired pass band frequency and insertion loss (curve A, B, C) when ordering. The Band-pass Filter can also be tuned on site following the instructions provided. 728 055 Technical Data 725 705 730 312 728 055 1-cavity Band-pass Filter 2-cavity Band-pass Filter 3-cavity Band-pass Filter 0.25 … 1.0 dB, tunable 0.5 … 2.0 dB, tunable 0.75 … 3.0 dB, tunable Tuning examples 0.25 dB 0.5 dB 1.0 dB Curve A Curve B Curve C Tuning examples 0.5 dB 1.0 dB 2.0 dB Curve A Curve B Curve C Tuning examples 0.75 dB 1.5 dB 3.0 dB Curve A Curve B Curve C Type No. Frequency range Insertion loss 890 … 960 MHz VSWR < 1.2 (at operating frequency) 50 Ÿ Impedance Input power < 50 W < 25 W < 10 W Temperature range < 50 W < 25 W < 10 W Indoor Mounting 22 < 10 W N female Application Packing size Dimensions (w x h x d) < 25 W +10 … +40 °C Connectors Weight < 50 W With 4 screws (max. 6 mm diameter) 2 kg 4.5 kg 6.5 kg Approx. 125 x 170 x 200 mm 115 x 124 x max. 184 mm (including connectors) Approx. 290 x 205 x 370 mm 260 x 150 x max. 336 mm (including connectors) Approx. 400 x 250 x 420 mm Max. 316 x 150 x max. 336 mm (including connectors) Band-pass Filter 890 … 960 MHz Typical Attenuation Curves (Tuning examples) 1-cavity Band-pass Filter 725 705 Diagram II: 0 10 A 20 B 30 C Attenuation/dB Attenuation/dB Diagram I: 0 2 A 4 6 B 40 8 50 10 60 12 70 14 80 16 90 18 C 20 100 -25 -20 -15 -10 -5 f0 +5 +10 +15 +20 -2.5 +25 -2.0 -1.5 -1.0 -0.5 f0 +0.5 +1.0 +1.5 +2.0 +2.5 Frequency/MHz Frequency/MHz 2-cavity Band-pass Filter 730 312 Diagram II: Attenuation/dB Attenuation/dB Diagram I: 0 10 20 30 40 0 2 4 A 6 8 A 10 50 B 60 12 C 70 14 80 16 90 18 B C 20 100 -25 -20 -15 -10 -5 f0 +5 +10 +15 +20 -2.5 +25 -2.0 -1.5 -1.0 -0.5 f0 +0.5 +1.0 +1.5 +2.0 +2.5 Frequency/MHz Frequency/MHz 3-cavity Band-pass Filter 728 055 Diagram II: Attenuation/dB Attenuation/dB Diagram I: 0 10 20 30 0 2 4 A 6 40 8 50 10 12 60 A 14 70 16 80 90 100 -25 -20 -15 -10 -5 f0 +5 +10 +15 +20 Frequency/MHz y B 18 C +25 20 -2.5 C -2.0 -1.5 -1.0 -0.5 f0 +0.5 +1.0 B +1.5 +2.0 +2.5 Frequency/MHz 23 Band-stop Filter 890 … 960 MHz The Band-stop Filter is used when individual frequencies are to be attenuated. It is particularly suitable for laboratory test purposes, because of its ease of tuning. It can be used: – to attenuate interfering signals, – to increase the isolation between a transmitter and a receiver, – to suppress intermodulation products. Design and construction: The Band-stop Filter consists of capacitively shortened h/4 coaxial resonators. The resonators of the multicavity band-stop filter are interconnected by cables of h/4 length. The stop band frequency and the stop band attenuation are tunable. 725 704 Filter characteristics: Narrow stop band with high stop band attenuation, low insertion loss outside the stop band range. Tuning: The Band-stop Filter is tuned to the desired stop band frequency and stop band attenuation at the factory. When ordering please specify stop band frequency and stop band attenuation. The Band-stop Filter can also be tuned on site following the instructions provided. The resonators of the 2-cavity or 3-cavity Bandstop Filters can be tuned independently. In this way, 2 or 3 different interfering signals can be suppressed or one single interfering signal can be especially attenuated. 727 381 Technical Data Type No. 725 704 727 380 727 381 1-cavity Band-stop Filter 2-cavity Band-stop Filter 3-cavity Band-stop Filter 0 … 25 dB, tunable 0 … 50 dB, tunable Frequency range Stop band attenuation 890 … 960 MHz Impedance 50 Ÿ Input power < 100 W (Insertion loss < 0.5 dB) Temperature range +10 … +40 °C Connectors N female Application Indoor Mounting Weight Packing size Dimensions (w x h x d) 24 0 … 75 dB, tunable With 4 screws (max. 6 mm diameter) 2.0 kg 4.5 kg 6.5 kg Approx. 130 x 160 x 240 mm 115 x 124 x max. 210 mm (including connectors) Approx. 430 x 160 x 335 mm Max. 405 x 137 x 260 mm (including connectors) Approx. 430 x 160 x 335 mm Max. 405 x 137 x 260 mm (including connectors) Band-stop Filter 890 … 960 MHz Typical Attenuation Curves (Tuning examples) 1-cavity Band-stop Filter 725 704 Diagram II: 0 Attenuation/dB Attenuation/dB Diagram I: 10 20 30 0 0.5 1.0 1.5 40 2.0 50 2.5 60 3.0 70 3.5 80 4.0 90 4.5 100 5.0 -10 -8 -6 -4 -2 f0 +2 +4 +6 +8 +10 -10 -8 -6 -4 -2 f0 Frequency/MHz +2 +4 +6 +8 +10 +8 +10 Frequency/MHz 2-cavity Band-stop Filter 727 380 Diagram II: 0 Attenuation/dB Attenuation/dB Diagram I: 10 20 30 0 0.5 1.0 1.5 40 2.0 50 2.5 60 3.0 70 3.5 80 4.0 90 4.5 100 5.0 -10 -8 -6 -4 -2 f0 +2 +4 +6 +8 +10 -10 -8 -6 -4 -2 f0 Frequency/MHz +2 +4 +6 Frequency/MHz 3-cavity Band-stop Filter 727 381 Diagram II: 0 Attenuation/dB Attenuation/dB Diagram I: 10 20 30 0 0.5 1.0 1.5 40 2.0 50 2.5 60 3.0 70 3.5 80 4.0 90 4.5 100 -10 5.0 -8 -6 -4 -2 f0 +2 +4 +6 Frequency/MHz +8 +10 -10 -8 -6 -4 -2 f0 +2 +4 +6 +8 +10 Frequency/MHz 25 Low-pass Filter 876 – 960 MHz (GSM 900) The Low-pass Filter is designed for use in GSM 900 systems where GSM 1800 or UMTS systems are co-sited. • Suppression of GSM 900 spurious emissions • Improvement of GSM 900 receiving selectivity • Inline design • Suitable for indoor or outdoor applications • Wall or mast mounting • Either port 1 or 2 can be used as the input port • DC by-pass between ports 1 and 2 • External DC Stop available as an accessory Port 1 Port 2 Typical Attenuation Curves Attenuation/dB Diagram I 10 20 876 – 960 1710 – 1900 30 1900 – 2170 40 50 60 70 80 90 Technical Data 100 500 Pass band Insertion loss Stop band attenuation VSWR Impedance Input power Intermodulation products Temperature range Connectors Application DC/AISG transparency Port 1 ↔ Port 2 Mounting Weight Packing size Dimensions (w x h x d) 26 700 900 1100 1300 1500 1700 1900 2100 2300 2500 793 539 876 – 960 MHz < 0.15 dB (876 – 960 MHz) > 55 dB (1710 – 1900 MHz) > 62 dB (1900 – 2170 MHz) < 1.2 (876 – 960 MHz) 50 Ÿ < 300 W < –160 dBc (3rd order; with 2 x 20 W) –40 … +60 °C Port 1: 7-16 male Port 2: 7-16 female Indoor or outdoor (IP 66) By-pass (max. 2500 mA) Wall mounting: With 2 screws (max. 6 mm diameter) Mast mounting: With additional clamp set 0.75 kg 240 mm x 110 mm x 100 mm 184 mm x 57 mm x 75 mm (including mounting bracket) Frequency/MHz Diagram II Attenuation/dB Type No. 0 0.1 0.2 876 – 960 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 800 820 840 860 880 900 920 940 960 980 1000 Frequency/MHz Low-pass Filter 876 – 960 MHz (GSM 900) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 736 801 34 – 60 mm 736 802 60 – 80 mm 736 803 80 – 100 mm 736 804 100 – 120 mm 736 805 120 – 140 mm Type No. Description 793 301 DC Stop Clamp Set DC stop Port 1 Port 2 27 Band-pass Filter 1710 – 1785 MHz The Band-pass Filter is suitable for use as a receiving or transmitting filter for one or several receiving or transmitting channels. It can be used: – to improve the input selectivity of receivers and amplifiers, – to increase the isolation of transmitters whose respective antennas are mounted close together, – to suppress noise sidebands and intermodulation products, – as a duplexer component. Design and construction: The Band-pass Filter consists of 10 high Q resonators. Filter characteristics: Broad pass band range with low insertion loss, high stop band attenuation, steepened filter curve through additional stop poles. Technical Data Type No. 791 946 Pass band 1710 – 1785 MHz Insertion loss Stop band attenuation VSWR < 1.3 dB > 70 dB (1805 – 1880 MHz) < 1.4 (1710 – 1785 MHz) Impedance 50 Ÿ Input power < 35 W Temperature range Connectors Application Mounting Weight Packing size Dimensions (w x h x d) 28 –10 … +55 °C SMA female Indoor With 3 screws (max. 3 mm diameter) 0.51 kg Approx. 195 mm x 85 mm x 250 mm 94 mm x 30 mm x 150 mm (including connectors and mounting feet) Band-pass Filter 1710 – 1785 MHz Typical Attenuation Curves 791 946 Attenuation/dB Diagram I: 0 10 20 30 40 50 60 70 80 90 100 1497.5 1547.5 1597.5 1647.5 1697.5 1747.5 1797.5 1847.5 1897.5 1947.5 1997.5 Frequency/MHz Attenuation/dB Diagram II: 0 10 20 1710 – 1785 30 40 50 60 70 80 90 100 1647.5 1667.5 1687.5 1707.5 1727.5 1747.5 1767.5 1787.5 1807.5 1827.5 1847.5 Frequency/MHz Attenuation/dB Diagram III: 0 0.5 1.0 1710 – 1785 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 1697.5 1707.5 1717.5 1727.5 1737.5 1747.5 1757.5 1767.5 1777.5 1787.5 1797.5 Frequency/MHz 29 Band-pass Filter 1710 – 1880 MHz (GSM 1800) The Band-pass Filter is designed for use in GSM 1800 systems where UMTS or GSM 900 systems are co-sited. • • • • • • • • • Suppression of GSM 1800 spurious emissions Improvement of GSM 1800 receiving selectivity Inline design Suitable for indoor or outdoor applications Wall or mast mounting Either port 1 or 2 can be used as the input port Built-in lightning protection DC by-pass between ports 1 and 2 External DC Stop available as an accessory Port 2 Port 1 Typical Attenuation Curves Attenuation/dB Diagram I 0 10 20 1710 – 1880 1920 – 2170 30 40 50 1900 – 1920 60 70 80 90 Technical Data 100 Pass band Insertion loss Stop band attenuation VSWR Impedance Input power Intermodulation products Temperature range Connectors Application DC/AISG transparency Port 1 ↔ Port 2 Lightning protection Mounting Weight Packing size Dimensions (w x h x d) 30 793 540 1710 – 1880 MHz < 0.3 dB (1710 – 1880 MHz) > 80 dB (800 – 960 MHz) > 28 dB (1900 – 1920 MHz) > 58 dB (1920 – 2170 MHz) < 1.2 (1710 – 1880 MHz) 50 Ÿ < 500 W < –160 dBc (3rd order; with 2 x 20 W) –40 … +60 °C 7-16 female Indoor or outdoor (IP 66) By-pass (max. 2500 mA) 3 kA, 10/350 +s pulse Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 2.2 kg 260 mm x 250 mm x 110 mm 210 mm x 253 mm x 49 mm (including mounting brackets) 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 2400 Frequency/MHz Diagram II Attenuation/dB Type No. 0 0.5 1.0 1710 – 1880 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 2400 Frequency/MHz Band-pass Filter 1710 – 1880 MHz (GSM 1800) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm Type No. Description 793 301 DC Stop Clamp Set DC stop Port 1 Port 2 31 Band-stop Filter 1800 … 2000 MHz The Band-stop Filter is used when individual frequencies are to be attenuated. Due to its easy tuning it is particularly suitable for laboratory test purposes. 54 191 Tuning screws 1 ... 3 130 It can be used for: – attenuating interfering signals, – increasing the isolation between a transmitter and a receiver, – suppressing intermodulation products. 18.7 Design and construction: The Band-stop Filter is built up of three h/4 coaxial resonators. 28 33.5 Filter characteristics: Narrow stop band with high stop band attenuation, low insertion loss outside of the stop band. Tuning: The Band-stop Filter is factory-tuned to the indicated stop band frequency. Tuning can also be effected on site: For frequency increase/ decrease only three self-locking tuning screws have to be turned clockwise/counter-clockwise (with a hex socket wrench of width 1.5 mm). Since all three resonators can be tuned independently, two or three separate interfering signals can be attenuated or one single interfering signal can be suppressed with very high attenuation by superposing the stop poles. Please indicate stop band frequency and stop band bandwidth when ordering. Technical Data 792 219 Type No. 3-cavity Band-stop Filter Frequency range 1800 … 2000 MHz Tuning examples f0 = 1800 MHz f0 = 1900 MHz f0 = 2000 MHz Stop band attenuation at a stop band bandwidth of: at f0 ±0.5 MHz at f0 ±0.2 MHz at f0 ±0.1 MHz > 45 dB > 50 dB > 55 dB > 50 dB > 55 dB > 60 dB > 55 dB > 60 dB > 65 dB Impedance 50 Ÿ Input power < 25 W (at insertion loss < 0.5 dB) Temperature range +10 … +40 °C Connectors N female Application Mounting Indoor With 4 screws (max. 4 mm diameter) Mounting possible after removing of 4 plastic feet 1 kg Weight Packing size Dimensions (w x h x d) 32 Approx. 200 mm x 150 mm x 75 mm 191 mm x 54 mm x 149 mm (including connectors) 124 Band-stop Filter 1800 … 2000 MHz Typical Attenuation Curves (Tuning examples) 792 219 Attenuation/dB f0 = 1800 MHz 0 10 20 30 40 50 60 70 80 90 100 -10 -8 -6 -4 -2 f0 +2 +4 +6 +8 +10 +8 +10 +8 +10 Frequency/MHz Attenuation/dB f0 = 1900 MHz 0 10 20 30 40 50 60 70 80 90 100 -10 -8 -6 -4 -2 f0 +2 +4 +6 Frequency/MHz Attenuation/dB f0 = 2000 MHz 0 10 20 30 40 50 60 70 80 90 100 -10 -8 -6 -4 -2 f0 +2 +4 +6 Frequency/MHz 33 Band-pass Filter 1800 … 2000 MHz The Band-pass Filter can be used if several frequencies outside of a narrow pass band are to be attenuated. Due to its easy tuning it is particularly suitable for laboratory test purposes. It can be used: – to improve the input selectivity of receivers or amplifiers, – to increase the isolation of transmitters whose respective antennas are mounted close together, – to suppress noise sidebands and intermodulation products, – as a combiner component. Design and construction: The Band-pass Filter consists of two capacitively coupled h/4 coaxial resonators mounted on a stable mounting plate. Filter characteristics: Narrow pass band with low insertion loss, high stop band attenuation outside of the pass band. Tuning: The Band-pass Filter is factory-tuned to the indicated pass band center frequency f0 with a bandwidth of f0 ±1.75 MHz. Tuning can also be effected by the customer, following the instructions provided. Please indicate pass band center frequency f0 when ordering. Technical Data 791 398 Type No. 2-cavity Band-pass Filter Frequency range 1800 … 2000 MHz Tuning examples f0 = 1800 MHz f0 = 1900 MHz f0 = 2000 MHz Insertion loss at f0 … f0 ±1.75 MHz Stop band attenuation at f0 ±10 MHz at f0 ±15 MHz at f0 ±20 MHz at f0 ±25 MHz VSWR (input) at f0 … f0 ±1.75 MHz Impedance Input power Temperature range Connectors Application < 1.2 dB < 0.9 dB < 0.8 dB > > > > > > > > > > > > 16 24 29 33 dB dB dB dB < 1.6 13 20 25 29 dB dB dB dB < 1.35 9 15 20 24 dB dB dB dB < 1.3 50 Ÿ < 15 W 0 … +50 °C N female Indoor Mounting Weight With 4 screws (max. 4 mm diameter) 0.6 kg Packing size Dimensions (w x h x d) Approx. 160 mm x 90 mm x 210 mm 130 mm x 58 mm x 170 mm (including mounting plate) 34 Band-pass Filter 1800 … 2000 MHz Typical Attenuation Curves (Tuning examples) 791 398 Attenuation/dB f0 = 1800 MHz 0 5 10 15 20 25 30 35 40 45 50 -50 -40 -30 - 20 -10 f0 +10 +20 +30 +40 +50 Frequency/MHz Attenuation/dB f0 = 1900 MHz 0 5 10 15 20 25 30 35 40 45 50 -50 -40 -30 -20 -10 f0 +10 +20 +30 +40 +50 +40 +50 Frequency/MHz Attenuation/dB f0 = 2000 MHz 0 5 10 15 20 25 30 35 40 45 50 -50 -40 -30 -20 -10 f0 +10 +20 +30 Frequency/MHz 35 Band-stop Filter 1550 … 1700 / 1700 … 1900 MHz The Band-stop Filter is used when individual frequencies are to be attenuated. Due to its easy tuning it is particularly suitable for laboratory test purposes. It can be used: – to attenuate interfering signals, – to increase the isolation between a transmitter and a receiver, – to suppress intermodulation products. Design and construction: The Band-stop Filter consists of two h/4 coaxial resonators mounted on a stable mounting plate. Filter characteristics: Narrow stop band with high stop band attenuation, low insertion loss outside of the stop band. 791 397 Tuning: The Band-stop Filter is factory-tuned to the indicated stop band frequency. Tuning can also be effected on site following the instructions provided. Since both resonators can be tuned independently, two separate interfering signals can be attentuated or one interfering signal can be suppressed with very high attentuation. Please indicate stop band frequency f0 and stop band bandwidth when ordering. Technical Data 791 594 791 397 2-cavity Band-stop Filter 2-cavity Band-stop Filter 1550 … 1700 MHz Tuning examples 1700 … 1900 MHz Tuning examples Type No. Frequency range f0 = 1550 MHz f0 = 1625 MHz f0 = 1700 MHz f0 = 1700 MHz f0 = 1800 MHz f0 = 1900 MHz > 24 dB > 33 dB > 37 dB > 28 dB > 37 dB > 40 dB > 30 dB > 39 dB > 45 dB > 22 dB > 31 dB > 34 dB > 25 dB > 36 dB > 40 dB > 33 dB > 45 dB > 50 dB Stop band attenuation when tuning to a stop band bandwidth of: f0 ±0.5 MHz f0 ±0.2 MHz f0 ±0.1 MHz Impedance 50 Ÿ Input power < 15 W (at insertion loss of < 0.5 dB) Temperature range Connectors Application Mounting Weight Packing size Dimensions (w x h x d) 36 0 … +50 °C N female Indoor With 4 screws (max. 4 mm diameter) 0.8 kg Approx. 160 mm x 90 mm x 210 mm 130 mm x 72 mm x 170 mm (including mounting plate) Band-stop Filter 1550 … 1700 / 1700 … 1900 MHz Typical Attenuation Curves (Tuning examples) 791 594 791 397 f0 = 1700 MHz Attenuation/dB Attenuation/dB f0 = 1550 MHz 0 5 10 15 0 5 10 15 20 20 25 25 30 30 35 35 40 40 45 45 50 50 -10 -8 -6 -4 -2 f0 +2 +4 +6 +8 +10 -10 -8 -6 -4 -2 f0 Frequency/MHz +4 +6 +8 +10 +8 +10 +8 +10 f0 = 1800 MHz 0 Attenuation/dB Attenuation/dB f0 = 1625 MHz 5 10 15 0 5 10 15 20 20 25 25 30 30 35 35 40 40 45 45 50 50 -10 -8 -6 -4 -2 f0 +2 +4 +6 +8 +10 -10 -8 -6 -4 -2 f0 Frequency/MHz +2 +4 +6 Frequency/MHz f0 = 1700 MHz f0 = 1900 MHz 0 Attenuation/dB Attenuation/dB +2 Frequency/MHz 5 10 15 0 5 10 15 20 20 25 25 30 30 35 35 40 40 45 45 50 50 -10 -8 -6 -4 -2 f0 +2 +4 +6 Frequency/MHz +8 +10 -10 -8 -6 -4 -2 f0 +2 +4 +6 Frequency/MHz 37 38 Duplexers Duplexers 39 40 Summary of Articles Duplexers: Description Type No. Duplexer 782 10168 Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer Duplexer 782 10169 782 10170 782 10171 782 10172 782 10215 782 10216 782 10257 782 10265 793 004 793 005 782 10164 782 10165 782 10161 782 10162 782 10167 792 542 782 10415 792 544 782 10192 782 10193 793 538 Frequency range Max. input power Page Low band: High band: 824 – 835 MHz 869 – 880 MHz 400 W 42, 43 Low band: High band: 824 – 835 MHz 869 – 880 MHz 400 W 42, 43 Low band: High band: 824 – 835 MHz 869 – 880 MHz 400 W 42, 43 Low band: High band: 835 – 851 MHz 880 – 896 MHz 400 W 42, 43 Low band: High band: 835 – 851 MHz 880 – 896 MHz 400 W 42, 43 Low band: High band: 824 – 851 MHz 869 – 896 MHz 400 W 44, 45 Low band: High band: 824 – 851 MHz 869 – 896 MHz 400 W 44, 45 Low band: 824 – 846.5 MHz High band: 869 – 891.5 MHz 400 W 44, 45 Low band: 824 – 846.5 MHz High band: 869 – 891.5 MHz 800 W 44, 45 Low band: High band: 876 – 880 MHz 921 – 925 MHz 250 W 250 W 46, 47 Low band: High band: 876 – 880 MHz 921 – 925 MHz 250 W 250 W 46, 47 Low band: High band: 890 – 915 MHz 935 – 960 MHz 500 W 48, 49 Low band: High band: 890 – 915 MHz 935 – 960 MHz 500 W 48, 49 Low band: High band: 890 – 915 MHz 935 – 960 MHz 500 W 48, 49 Low band: High band: 890 – 915 MHz 935 – 960 MHz 500 W 48, 49 Low band: High band: 880 – 915 MHz 925 – 960 MHz 250 W 250 W 50 Low band: 1710 – 1785 MHz High band: 1805 – 1880 MHz 150 W 150 W 51 Low band: 1710 – 1785 MHz High band: 1805 – 1880 MHz 150 W 150 W 51 Low band: 1850 – 1910 MHz High band: 1930 – 1990 MHz 300 W 300 W 52 Low band: 1920 – 1980 MHz High band: 2110 – 2170 MHz 250 W 250 W 53 Low band: 1920 – 1980 MHz High band: 2110 – 2170 MHz 250 W 250 W 53 Low band: 1920 – 2060 MHz High band: 2110 – 2170 MHz 50 W 150 W 54 41 Duplexer 824 – 835 / 869 – 880 MHz (AMPS A-Band) 835 – 851 / 880 – 896 MHz (AMPS B-Band) The Duplexer is designed to combine/split GMS Tx and Rx signals onto/from one common Tx/Rx antenna in order to save feeder cable and antenna costs. • • • 78210168: AMPS A-Band, indoor version • • 78210171: AMPS B-Band, indoor version 782 10168 782 10171 (indoor) 78210169: AMPS A-Band, outdoor version 78210170: AMPS A-Band, indoor version mounted onto a 19˝ drawer Low band Antenna High band 78210172: AMPS B-Band, outdoor version 782 10169 782 10172 (outdoor) Low band Low band Low band Antenna Antenna Antenna High band High band High band 782 10170 (19˝ drawer) Technical Data Type No. Pass band Low band High band Insertion loss Antenna → Low band High band → Antenna Isolation Low band ↔ High band VSWR Impedance Input power Intermodulation products Temperature range Connectors Application Special features Mounting Weight Packing size Dimensions (w x h x d) 42 782 10168 782 10169 782 10170 782 10171 782 10172 AMPS A-Band AMPS B-Band 824 – 835 MHz 869 – 880 MHz 835 – 851 MHz 880 – 896 MHz < 0.5 dB (824 – 835 MHz) < 0.5 dB (869 – 880 MHz) < 0.5 dB (835 – 851 MHz) < 0.5 dB (880 – 896 MHz) > 85 dB (824 – 835 / 869 – 880 MHz) > 85 dB (835 – 851 / 880 – 896 MHz) < 1.25 (824 – 835 / 869 – 880 MHz) < 1.25 (835 – 851 / 880 – 896 MHz) 50 Ÿ 50 Ÿ < 400 W (high band; with max. 8 carriers) < 400 W (high band; with max. 12 carriers) < –160 dBc (3rd order; with 2 x 20 W) < –160 dBc (3rd order; with 2 x 20 W) –20 ... +55 °C –40 ... +60 °C –20 ... +55 °C –20 ... +55 °C –40 ... +60 °C 7-16 female 7-16 female Indoor Outdoor (IP 66) Indoor, 19˝ drawer Indoor Outdoor (IP 66) Built-in DC stop between all ports Built-in DC stop between all ports With 4 screws Wall mounting With 4 screws With 4 screws Wall mounting with 4 screws (max. 4 mm diameter) with 4 screws (max. 6 mm diameter) (max. 4 mm diameter) (max. 8 mm diameter) (max. 8 mm diameter) Mast mounting with Mast mounting with additional clamp set additional clamp set 2.8 kg 5.5 kg 3.7 kg 2.8 kg 5.5 kg 309 x 162 x 252 mm 347 x 297 x 174 mm 612 x 312 x 224 mm 309 x 162 x 252 mm 347 x 297 x 174 mm 229 x 80 x 170 mm 238 x 305 x 93.5 mm 19˝ drawer, 2 229 x 80 x 170 mm 238 x 305 x 93.5 mm height units, plug- (including connectors and (including mounting feet) in depth 170 mm mounting feet) Duplexer 824 – 835 / 869 – 880 MHz (AMPS A-Band) 835 – 851 / 880 – 896 MHz (AMPS B-Band) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm Clamp Set Typical Attenuation Curves (782 10168, 782 10169, 782 10170) Diagram I Diagram II High band → Antenna Antenna → Low band 0 Attenuation/dB Attenuation/dB Antenna → Low band 10 20 824 – 835 869 – 880 30 0.5 1.0 824 – 835 1.5 40 2.0 50 2.5 60 3.0 70 3.5 80 4.0 90 4.5 100 802 High band → Antenna 0 5.0 812 822 832 842 852 862 872 882 892 902 802 812 822 832 842 852 Frequency/MHz 862 872 882 892 902 Frequency/MHz Typical Attenuation Curves (782 10171, 782 10172) Diagram II Antenna → Low band High band → Antenna 0 Attenuation/dB Attenuation/dB Diagram I Antenna → Low band 10 20 880 – 896 835 – 851 30 0.5 1.0 835 – 851 1.5 40 2.0 50 2.5 60 3.0 70 3.5 80 4.0 90 4.5 100 815 825 835 845 855 865 875 885 895 905 Frequency/MHz 915 High band → Antenna 0 5.0 815 825 835 845 855 865 875 885 895 905 915 Frequency/MHz 43 Duplexer 824 – 851 / 869 – 896 MHz (AMPS A/B-Band) 824 – 846.5 / 869 – 891.5 MHz (AMPS A/B-Band) 782 10215 782 10257 134 148 ø4 .3 229 219 169.6 The Duplexer is designed to combine/split AMPS Tx and Rx signals onto/from one common Tx/Rx antenna in order to save feeder cable and antenna costs. • Suitable for indoor application • Built-in DC stop 50 27.5 91.5 59.5 max. 80 206 High Band ø4 .3 Low Band Antenna 229 219 175.4 134 148 782 10216 782 10215, 782 10257 50 27.5 91.5 59.5 206 max. 80 Low Band Antenna 782 10265 High Band ø4 .3 229 219 170 134 148 782 10216 71.5 max. 112 27.5 91.5 59.5 206 Low Band Antenna High Band Technical Data Type No. Pass band Low band High band Insertion loss Antenna → Low band High band → Antenna Isolation Low band ↔ High band VSWR Impedance Input power 782 10215 782 10216 782 10265 AMPS A/B-Band (reduced bandwidth) 824 – 851 MHz 869 – 896 MHz 824 – 846.5 MHz 869 – 891.5 MHz < 0.5 dB (824 – 851 MHz) < 0.5 dB (869 – 896 MHz) < 0.5 dB (824 – 846.5 MHz) < 0.5 dB (869 – 891.5 MHz) > 65 dB (824 – 851 / 869 – 896 MHz) > 70 dB (824 – 846.5 / 869 – 891.5 MHz) < 1.25 (824 – 851 / 869 – 896 MHz) 50 Ÿ < 400 W (high band; with max. 16 carriers) < 1.25 (824 – 846.5 / 869 – 891.5 MHz) 50 Ÿ < 400 W (high band; < 800 W (high band; with max. 16 carriers) with max. 32 carriers) < –160 dBc (3rd order; with 2 x 20 W) –20 ... +55 °C Intermodulation products Temperature range < –160 dBc (3rd order; with 2 x 20 W) –20 ... +55 °C Connectors Application Special features Mounting Weight Packing size Dimensions (w x h x d) 7-16 female 44 782 10257 AMPS A/B-Band N female Indoor Built-in DC stop between all ports With 4 screws (max. 4 mm diameter) 2.6 kg 309 x 252 x 162 mm 229 x 80 x 170 mm 229 x 80 x 175.4 mm (including connectors and mounting feet) 7-16 female Indoor Built-in DC stop between all ports With 4 screws (max. 4 mm diameter) 2.6 kg Approx. 3 kg 309 x 252 x 162 mm 309 x 252 x 162 mm 229 x 80 x 170 mm 229 x 112 x 170 mm (including connectors and mounting feet) Duplexer 824 – 851 / 869 – 896 MHz (AMPS A/B-Band) 824 – 846.5 / 869 – 891.5 MHz (AMPS A/B-Band) Typical Attenuation Curves (782 10215, 782 10216) Diagram II Diagram I High band → Antenna Antenna → Low band 0 Attenuation/dB Attenuation/dB Antenna → Low band 10 20 824 – 851 869 – 896 30 0.5 1.0 824 – 851 2.0 50 2.5 60 3.0 70 3.5 80 4.0 90 4.5 820 830 840 850 860 870 880 890 900 5.0 810 910 869 – 896 1.5 40 100 810 High band → Antenna 0 820 830 840 850 860 Frequency/MHz 870 880 890 900 910 Frequency/MHz Typical Attenuation Curves (782 10257) Diagram II Diagram I High band → Antenna Antenna → Low band Attenuation/dB Attenuation/dB Antenna → Low band 0 10 20 824 – 846.5 869 – 891.5 30 0.5 1.0 824 – 846.5 2.0 50 2.5 60 3.0 70 3.5 80 4.0 90 4.5 820 830 840 850 860 870 880 890 900 5.0 810 910 869 – 891.5 1.5 40 100 810 High band → Antenna 0 820 830 840 850 860 Frequency/MHz 870 880 890 900 910 Frequency/MHz Typical Attenuation Curves (782 10265) Diagram II Diagram I High band → Antenna Antenna → Low band Attenuation/dB Attenuation/dB Antenna → Low band 0 10 20 824 – 846.5 869 – 891.5 30 0.5 1.0 824 – 846.5 2.0 50 2.5 60 3.0 70 3.5 80 4.0 90 4.5 820 830 840 850 860 870 880 890 900 Frequency/MHz 910 869 – 891.5 1.5 40 100 810 High band → Antenna 0 5.0 810 820 830 840 850 860 870 880 890 900 910 Frequency/MHz 45 Duplexer 876 – 880 / 921 – 925 MHz (GSM-R) The Duplexer is designed to combine/split GSM-R Tx and Rx signals onto/from one common Tx/Rx antenna in order to save feeder cable and antenna costs. • Suitable for indoor applications • Built-in DC stop 793 004 793 005 793 005 793 004 229 219 27.5 59.5 91.5 Low Band Antenna High Band Technical Data Type No. Pass band Low band High band Insertion loss Antenna → Low band High band → Antenna Isolation Low band ↔ High band VSWR Impedance Input power Intermodulation products Temperature range Connectors Application Special features Mounting Weight Packing size Dimensions (w x h x d) 46 793 004 793 005 876 – 880 MHz 921 – 925 MHz < 0.4 dB (876 – 880 MHz) < 0.4 dB (921 – 925 MHz) > 85 dB (876 – 880 MHz) > 80 dB (880 – 921 MHz) > 85 dB (921 – 925 MHz) < 1.25 (876 – 880 / 921 – 925 MHz) 50 Ÿ < 250 W (low band or high band) < –160 dBc (3rd order; with 2 x 20 W) –20 ... +55 °C 7-16 female 134 148 50 max. 80 206 N female Indoor Built-in DC stop between all ports With 4 screws (max. 4 mm diameter) 2.6 kg 309 mm x 162 mm x 252 mm 229 x 80 x 169.6 mm 229 x 80 x 175.4 mm (including connectors and mounting feet) .3 ø4 175.4 134 148 169.6 50 max. 80 229 219 .3 ø4 27.5 59.5 91.5 206 Low Band Antenna High Band Duplexer 876 – 880 / 921 – 925 MHz (GSM-R) Typical Attenuation Curves 793 004, 793 005 Diagram I Attenuation/dB Antenna → Low band High band → Antenna 0 10 20 876 – 880 921 – 925 30 40 50 60 70 80 90 100 850 860 870 880 890 900 910 920 930 940 950 Frequency/MHz Diagram II Attenuation/dB Antenna → Low band High band → Antenna 0 0.5 1.0 876 – 880 921 – 925 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 850 860 870 880 890 900 910 920 930 940 950 Frequency/MHz 47 Duplexer 890 – 915 / 935 – 960 MHz (GSM) The Duplexer is designed to combine/split GSM Tx and Rx signals onto/from one common Tx/Rx antenna in order to save feeder cable and antenna costs. 782 10164: Indoor version with 7-16 female connectors 782 10164 (indoor) 782 10165: Indoor version with 7-16/N female connectors 782 10162 (outdoor) 782 10161: Indoor version with 7-16 female connectors mounted onto a 19˝ drawer 782 10162: Outdoor version with 7-16 female connectors 782 10161 (19˝ drawer) Typical Attenuation Curves Diagram I Diagram II High band → Antenna Antenna → Low band 0 Attenuation/dB Attenuation/dB Antenna → Low band 10 20 935 – 960 890 – 915 30 0.5 1.0 890 – 915 1.5 40 2.0 50 2.5 60 3.0 70 3.5 80 4.0 90 4.5 100 875 High band → Antenna 0 5.0 885 895 905 915 925 935 945 955 965 975 875 885 895 905 915 Frequency/MHz 925 935 945 955 965 975 Frequency/MHz Technical Data Type No. Pass band Low band High band Insertion loss Antenna → Low band High band → Antenna Isolation Low band ↔ High band VSWR Impedance Input power Intermodulation products Temperature range Connectors Low band High band Antenna Application Special features Mounting Weight Packing size Dimensions (w x h x d) 48 782 10164 782 10165 782 10161 782 10162 890 – 915 MHz 935 – 960 MHz < 0.5 dB (890 – 915 MHz) < 0.5 dB (935 – 960 MHz) > 70 dB (890 – 915 / 935 – 960 MHz) < 1.25 (890 – 915 / 935 – 960 MHz) 50 Ÿ < 500 W (high band; with max. 16 carriers) < –160 dBc (3rd order; with 2 x 20 W) –20 ... +55 °C 7-16 female 7-16 female 7-16 female Indoor N female 7-16 female 7-16 female 7-16 female 7-16 female 7-16 female Indoor Indoor, 19˝ drawer Built-in DC stop between all ports With 4 screws With 4 screws (max. 4 mm diameter) (max. 6 mm diameter) 2.6 kg 309 mm x 162 mm x 252 mm 228.6 mm x 80 mm x 169.6 mm (including connectors and mounting feet) 3.5 kg 612 mm x 312 mm x 224 mm 19˝ drawer, 2 height units, plug-in depth 172 mm –40 ... +60 °C 7-16 female 7-16 female 7-16 female Outdoor (IP 66) Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 5.5 kg 347 mm x 294 mm x 174 mm 238 mm x 93.5 mm x 305 mm (including connectors and mounting brackets) Duplexer 890 – 915 / 935 – 960 MHz (GSM) 483 465.5 Accessories (order separately) 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm Antenna 84.1 88.1 76.1 High band 166 91.5 59.5 445 6 DC stop 25 34 – 60 mm Low band 172 734 360 6 Clamp Set Clamp set Type No. suitable for mast diameter of 782 10161 (indoor, 19˝ drawer) Low band High band 782 10165 (indoor) 134 148 91.5 50 max. 80 206 Antenna High band 59.5 27.5 91.5 206 Low band Antenna Low band High band High band Antenna 782 10162 (outdoor) 87 64 171 275 305 Low band Low band Antenna 61 93.5 43.5 59.5 High band 52 59.5 175.2 169.6 134 148 169.6 27.5 229 219 ø4 .3 229 219 ø4 .3 782 10164 (indoor) 50 max. 80 Antenna 91.5 238 49 Duplexer 880 – 915 / 925 – 960 MHz (EGSM) The Duplexer is designed to combine/split EGSM Tx and Rx signals onto/from one common Tx/Rx antenna in order to save feeder cable and antenna costs. • Suitable for indoor applications • Built-in DC Stop Typical Attenuation Curves Diagram I Low band Antenna High band Attenuation/dB Antenna → Low band High band → Antenna 0 10 20 880 – 915 925 – 960 30 40 50 60 Technical Data Pass band Low band High band Insertion loss Antenna → Low band High band → Antenna Isolation Low band ↔ High band VSWR 782 10167 80 880 – 915 MHz 925 – 960 MHz 100 870 90 < 0.9 dB (880 – 915 MHz) < 0.9 dB (925 – 960 MHz) > 75 dB (880 – 915 / 925 – 960 MHz) < 1.25 (880 – 915 / 925 – 960 MHz) Impedance 50 Ÿ Input power < 250 W (low band or high band) Intermodulation products Temperature range Special features Mounting Weight Packing size Dimensions (w x h x d) 50 Built-in DC stop between all ports With 4 screws (max. 4 mm diameter) 4.6 kg 347 mm x 297 mm x 174 mm 229 mm x 81 mm x 260 mm (including connectors and mounting feet) 920 930 940 950 960 970 High band → Antenna 0.5 1.0 880 – 915 925 – 960 1.5 2.5 Indoor 910 Antenna → Low band 2.0 Application 900 0 –20 … +55 °C 7-16 female 890 Diagram II < –160 dBc (3rd order; with 2 x 20 W) Connectors 880 Frequency/MHz Attenuation/dB Type No. 70 3.0 3.5 4.0 4.5 5.0 870 880 890 900 910 920 930 940 950 960 Frequency/MHz 970 Duplexer 1710 – 1785 / 1805 – 1880 MHz (GSM 1800) The Duplexer is designed to combine/split GSM 1800 Tx and Rx signals onto/from one common Tx/Rx antenna in order to save feeder cable and antenna costs. • Suitable for indoor applications • Built-in DC stop 792 542 782 10415 Low band Antenna High band Low Band Antenna High Band Typical Attenuation Curves Diagram I Attenuation/dB Antenna → Low band High band → Antenna 0 10 20 1805 – 1880 1710 – 1785 30 40 50 60 Technical Data Pass band Low band High band Insertion loss Antenna → Low band High band → Antenna Isolation Low band ↔ High band VSWR Impedance Input power Intermodulation products Temperature range Connectors Application Special features Mounting Weight Packing size Dimensions (w x h x d) 792 542 782 10415 80 90 1710 – 1785 MHz 1805 – 1880 MHz 100 1695 1715 1735 1755 1775 1795 1815 1835 1855 1875 1895 Frequency/MHz < 0.7 dB (1710 – 1785 MHz) < 0.7 dB (1805 – 1880 MHz) > 65 dB (1710 – 1785 / 1805 – 1880 MHz) < 1.25 (1710 – 1785 / 1805 – 1880 MHz) 50 Ÿ < 150 W (low band or high band) < –160 dBc (3rd order; with 2 x 20 W) –20 ... +55 °C 7-16 female Indoor Indoor, 19˝ drawer Built-in DC stop between all ports With 4 screws With 4 screws (max. 4 mm diameter) (max. 6 mm diameter) 1.6 kg 2.6 kg 282 x 252 x 114 mm 612 x 312 x 224 mm 192 x 42.5 x 199.6 mm 19˝ drawer, 2 height units (including connectors plug-in depth 184 mm and mounting feet) Diagram II Antenna → Low band Attenuation/dB Type No. 70 High band → Antenna 0 0.5 1.0 1710 – 1785 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 1695 1715 1735 1755 1775 1795 1815 1835 1855 1875 1895 Frequency/MHz 51 Duplexer 1850 – 1910 / 1930 – 1990 MHz (GSM 1900) The Duplexer is designed to combine/split GSM 1900 Tx and Rx signals onto/from one common Tx/Rx antenna in order to save feeder cable and antenna costs. • Suitable for indoor applications • Built-in DC stop Typical Attenuation Curves Diagram I Low Band Antenna High Band Attenuation/dB Antenna → Low band High band → Antenna 0 10 20 1850 – 1910 1930 – 1990 30 40 50 60 70 Technical Data Pass band Low band High band Insertion loss Antenna → Low band High band → Antenna Isolation Low band ↔ High band VSWR Impedance Input power Intermodulation products Temperature range Connectors Application Special features Mounting Weight Packing size Dimensions (w x h x d) 80 792 544 90 100 1820 1840 1860 1880 1900 1920 1940 1960 1980 2000 2020 1850 – 1910 MHz 1930 – 1990 MHz Frequency/MHz < 0.7 dB (1850 – 1910 MHz) < 0.7 dB (1930 – 1990 MHz) > 65 dB (1850 – 1910 / 1930 – 1990 MHz) < 1.25 (1850 – 1910 / 1930 – 1990 MHz) 50 Ÿ < 300 W (low band or high band) < –160 dBc (3rd order; with 2 x 20 W) –20 ... +55 °C 7-16 female Indoor Built-in DC stop between all ports With 4 screws (max. 4 mm diameter) 1.7 kg 282 mm x 252 mm x 114 mm 192 mm x 42.5 mm x 199.6 mm (including connectors and mounting feet) Diagram II Antenna → Low band Attenuation/dB Type No. High band → Antenna 0 0.5 1.0 1850 – 1910 1930 – 1990 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 1820 1840 1860 1880 1900 1920 1940 1960 1980 2000 2020 Frequency/MHz 52 Duplexer 1920 – 1980 / 2110 – 2170 MHz (UMTS) The Duplexer is designed to combine/split UMTS Tx and Rx signals onto/from one common Tx/Rx antenna in order to save feeder cable and antenna costs. • Suitable for indoor applications • Built-in DC stop 782 10193 782 10192 Low band Antenna High band Typical Attenuation Curves Diagram I Antenna → Low band Antenna Attenuation/dB Low band High band High band → Antenna 0 10 20 2110 – 2170 217 1920 920 – 1980 198 30 40 50 Technical Data Pass band Low band High band Insertion loss Antenna → Low band High band → Antenna Isolation Low band ↔ High band VSWR 60 782 10192 782 10193 80 1920 – 1980 MHz 2110 – 2170 MHz > 90 dB (1920 – 1980 / 2110 – 2170 MHz) < 1.25 (1920 – 1980 / 2110 – 2170 MHz) 50 Ÿ Input power < 250 W (low band or high band) Temperature range Connectors Application Special features Mounting Weight Packing size Dimensions (w x h x d) 90 100 1800 1850 1900 1950 2000 2050 < 0.3 dB (1920 – 1980 MHz) < 0.3 dB (2110 – 2170 MHz) Impedance Intermodulation products 70 < –160 dBc (3rd order; with 2 x 20 W) 2200 2250 2300 Diagram II Antenna → Low band High band → Antenna 0 0.5 1.0 1920 – 198 80 2110 – 2170 1.5 2.0 –20 … +55 °C 7-16 female 2100 2150 Frequency/MHz Attenuation/dB Type No. N female 2.5 Indoor 3.0 Built-in DC stop between all ports 3.5 With 4 screws (max. 4 mm diameter) 1.67 kg 4.0 272 mm x 237 mm x 119 mm 229 x 46 x 167.6 mm 229 x 46 x 173.4 mm (including connectors and mounting feet) 4.5 5.0 1800 1850 1900 1950 2000 2050 2100 2150 2200 2250 2300 Frequency/MHz 53 Duplexer 1920 – 2060 / 2110 – 2170 MHz (UMTS) The Duplexer is designed to combine/split UMTS Tx and Rx signals onto/from one common Tx/Rx antenna in order to save feeder cable and antenna costs. • Especially suitable for use in UMTS intermodulation measurement equipment due to very high isolation and intermodulation performance • 3rd order intermodulation products measurement possible due to extended low band bandwidth • Suitable for indoor applications • Built-in DC stop High band Low band Typical Attenuation Curves Diagram I Antenna → Low band Attenuation/dB Antenna High band → Antenna 0 10 20 2110 – 2170 1920 – 2060 30 40 50 60 Technical Data 70 80 793 538 Type No. 90 100 1800 1850 1900 1950 2000 2050 1920 – 2060 MHz 2110 – 2170 MHz < 1.0 dB (1920 – 2060 MHz) < 1.0 dB (2110 – 2170 MHz) > 110 dB (1920 – 2060 / 2110 – 2170 MHz) < 1.25 (1920 – 2060 / 2110 – 2170 MHz) 50 Ÿ < 50 W (low band) / < 150 W (high band) < –178 dBc (3rd order; with 2 x 20 W) +15 … +35 °C 7-16 female Indoor With 4 screws (M6) 2.8 kg 439 mm x 40.2 mm x 100 mm (without connectors) Low band port = Port 1 High band port = Port 2 Antenna port = Port 3 / Common port 2100 2150 2200 2250 2300 Frequency/MHz Diagram II Antenna → Low band Attenuation/dB Pass band Low band High band Insertion loss Antenna → Low band High band → Antenna Isolation Low band ↔ High band VSWR Impedance Input power Intermodulation products Temperature range Connectors Application Mounting Weight Dimensions (w x h x d) High band → Antenna 0 0.5 1.0 1920 – 2060 2110 – 2170 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 1800 1850 1900 1950 2000 2050 2100 2150 2200 2250 2300 Frequency/MHz 54 Multiband Combiners Multiband Combiners 55 Summary of Articles Multiband Combiners: Description Type No. Frequency range Max. input power Page Dual-Band Combiner 728 954 Band 1: Band 2: 68 – 470 MHz 870 – 970 MHz 50 W 50 W 58, 59 Dual-Band Combiner 791 145 Band 1: 50 – 1000 MHz Band 2: 1600 – 2000 MHz 100 W 50 W 60, 61 Dual-Band Combiner 782 10460 Band 1: Band 2: 50 – 470 MHz 806 – 2500 MHz 500 W 500 W 62, 63 Dual-Band Combiner 782 10341 Band 1: Band 2: 824 – 880 MHz 890 – 960 MHz 400 W 400 W 64 Dual-Band Combiner 782 10350 Band 1: Band 2: 824 – 894 MHz 907 – 960 MHz 400 W 400 W 65 Dual-Band Combiner 793 532 Band 1: 806 – 960 MHz Band 2: 1710 – 2170 MHz 250 W 200 W 66, 67 Dual-Band Combiner 793 533 Band 1: 806 – 960 MHz Band 2: 1710 – 2170 MHz 250 W 200 W 66,67 Dual-Band Combiner 782 10346 Band 1: 806 – 960 MHz Band 2: 1710 – 2170 MHz 250 W 200 W 68, 69 Dual-Band Combiner 782 10248 782 10249 Dual-Band Combiner 782 10250 Dual-Band Combiner 782 10251 Dual-Band Combiner 782 10278 Dual-Band Combiner 782 10279 Dual-Band Combiner 782 10305 Dual-Band Combiner 782 10306 Dual-Band Combiner 793 423 Dual-Band Combiner 793 424 Dual-Band Combiner 782 10243 Dual-Band Combiner 782 10244 Triple-Band Combiner 793 425 Triple-Band Combiner 793 426 Triple-Band Combiner 782 10245 Triple-Band Combiner 782 10246 Triple-Band Combiner 793 528 Triple-Band Combiner 793 529 Triple-Band Combiner 782 10298 Dual-Band Combiner 782 10264 650 W 650 W 650 W 650 W 650 W 650 W 650 W 650 W 500 W 500 W 500 W 500 W 500 W 500 W 500 W 500 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 240 W 200 W 200 W 70, 71 Dual-Band Combiner Band 1: Band 2: Band 1: Band 2: Band 1: Band 2: Band 1: Band 2: Band 1: Band 2: Band 1: Band 2: Band 1: Band 2: Band 1: Band 2: Band 1: Band 2: Band 1: Band 2: Band 1: Band 2: Band 1: Band 2: Band 1: Band 2: Band 3: Band 1: Band 2: Band 3: Band 1: Band 2: Band 3: Band 1: Band 2: Band 3: Band 1: Band 2: Band 3: Band 1: Band 2: Band 3: Band 1: Band 2: Band 3: Band 1: Band 2: 56 806 – 960 MHz 1710 – 2170 MHz 806 – 960 MHz 1710 – 2170 MHz 806 – 960 MHz 1710 – 2170 MHz 806 – 960 MHz 1710 – 2170 MHz 806 – 1880 MHz 1920 – 2170 MHz 806 – 1880 MHz 1920 – 2170 MHz 806 – 1880 MHz 1920 – 2170 MHz 806 – 1880 MHz 1920 – 2170 MHz 1710 – 1880 MHz 1920 – 2170 MHz 1710 – 1880 MHz 1920 – 2170 MHz 1710 – 1880 MHz 1920 – 2170 MHz 1710 – 1880 MHz 1920 – 2170 MHz 880 – 960 MHz 1710 – 1880 MHz 1920 – 2170 MHz 880 – 960 MHz 1710 – 1880 MHz 1920 – 2170 MHz 880 – 960 MHz 1710 – 1880 MHz 1920 – 2170 MHz 880 – 960 MHz 1710 – 1880 MHz 1920 – 2170 MHz 806 – 960 MHz 1710 – 1880 MHz 1920 – 2170 MHz 806 – 960 MHz 1710 – 1880 MHz 1920 – 2170 MHz 806 – 960 MHz 1710 – 1880 MHz 1920 – 2170 MHz 50 – 2200 MHz 2400 – 2500 MHz 70, 71 70, 71 70, 71 72, 73 72, 73 72, 73 72, 73 74, 75 74, 75 74, 75 74, 75 76, 77 76, 77 76, 77 76, 77 78, 79 78, 79 78, 79 80 782 10264 782 10298 793 528, 793 529 782 10245, 782 10246 793 425, 793 426 782 10243, 782 10244 793 423, 793 424 782 10305, 782 10306 782 10278, 782 10279 782 10250, 782 10251 782 10248, 782 10249 782 10346 793 532, 793 533 782 10350 782 10341 782 10460 791 145 728 954 Type No. Frequency / MHz 470 50 – 470 68 – 470 50 68 PMR 806 806 – 1880 806 – 960 50 – 2200 880 – 960 806 – 960 960 907 – 960 890 – 960 870 – 970 GSM 900 806 – 960 824 – 894 824 – 880 50 – 1000 880 AMPS / CDMA 1880 1920 1710 – 1880 1710 – 1880 1710 – 1880 UMTS 1920 – 2170 1920 – 2170 1920 – 2170 WLAN 2500 2400 – 2500 2170 2400 1920 – 2170 1710 – 2170 1710 – 2170 1600 – 2000 806 – 2500 1710 GSM 1800 Dual-Band Combiner, Triple-Band Combiner Multiband Combiner Co-Siting Filter Solutions for GSM and UMTS 57 Dual-Band Combiner 68 – 470 MHz 870 – 970 MHz 80 / 160 / 400 MHz GSM 900 • Designed for inhouse multiband distribution network Port 1 • Enables feeder sharing • DC by-pass between port 1 and port 3 Port 2 • Built-in DC stop between port 2 and port 3 18.7 12 15 32 Port 3 ø4.3 Output N coupler 40 105 111.6 Input N coupler 728 954 223 Input N coupler 229.4 Technical Data Type No. Pass band Band 1 Band 2 Insertion loss Port 1 ↔ Port 3 Port 2 ↔ Port 3 Isolation Port 1 ↔ Port 2 728 954 68 – 470 MHz 870 – 970 MHz < 0.5 dB (68 – 470 MHz) < 0.5 dB (870 – 970 MHz) > 45 dB VSWR < 1.2 Impedance Input power Band 1 Band 2 50 Ÿ Intermodulation products Temperature range Connectors Application DC transparency Port 1 ↔ Port 3 Port 2 → Port 3 Port 3 → Port 2 Weight Packing size Dimensions (w x h x d) 58 < 50 W < 50 W < –160 dBc (2nd/3rd order; with 2 x 20 W) Port 3 –20 ... +70 °C N female Indoor By-pass (max. 2500mA) short circuited stop 0.8 kg 285 mm x 55 mm x 125 mm 229.4 mm x 32 mm x 111.6 mm (without connectors) Port 1 Port 2 68 – 470 MHz 870 – 970 MHz Dual-Band Combiner 68 – 470 MHz 870 – 970 MHz 80 / 160 / 400 MHz GSM 900 Typical Attenuation Curves 728 954 Diagram I Port 2 ↔ Port 3 Attenuation/dB Port 1 ↔ Port 3 0 10 20 870 – 970 68 – 470 30 40 50 60 70 80 90 100 0 100 200 300 400 500 600 700 800 900 1000 Frequency/MHz Diagram II Port 2 ↔ Port 3 Attenuation/dB Port 1 ↔ Port 3 0 0.1 0.2 0.3 0.4 0.5 0.6 870 – 970 0.7 0.8 0.9 1.0 0 100 200 300 400 500 600 700 800 900 1000 Frequency/MHz 59 Dual-Band Combiner 50 – 1000 MHz 1600 – 2000 MHz 80 / 160 / 400 / GSM 900 GSM 1800 • Designed for inhouse multiband distribution network Port 1 • Enables feeder sharing • DC by-pass between port 1 and port 3 • Built-in DC stop between port 2 and port 3 Port 2 deep Port 3 Technical Data Type No. Pass band Band 1 Band 2 Insertion loss Port 1 ↔ Port 3 Port 2 ↔ Port 3 Isolation Port 1 ↔ Port 2 VSWR (all ports) Impedance Input power Band 1 Band 2 Temperature range Connectors Application DC transparency Port 1 ↔ Port 3 Port 2 → Port 3 Port 3 → Port 2 Mounting Weight Packing size Dimensions (w x h x d) 60 791 145 50 – 1000 MHz 1600 – 2000 MHz < 0.3 dB (50 – 1000 MHz) < 0.5 dB (1600 – 2000 MHz) > 40 dB (50 – 1000 / 1600 – 2000 MHz) < 1.2 (50 – 1000 / 1600 – 2000 MHz) 50 Ÿ Port 3 < 100 W < 50 W –30 … +60 °C N female Indoor By-pass (max. 2500mA) short circuited stop With 4 screws (max.4 mm diameter) 0.7 kg 220 mm x 40 mm x 140 mm 201 mm x 23 mm x 112 mm (incl. connectors) Port 1 Port 2 50 – 1000 MHz 1600 – 2000 MHz Dual-Band Combiner 50 – 1000 MHz 1600 – 2000 MHz 80 / 160 / 400 / GSM 900 GSM 1800 Typical Attenuation Curves 791 145 Diagram I Port 2 ↔ Port 3 Attenuation/dB Port 1 ↔ Port 3 0 10 20 1600 – 2000 50 – 1000 30 40 50 60 70 80 90 100 0 200 400 600 800 1000 1200 1400 1600 1800 2000 Frequency/MHz Diagram II Port 2 ↔ Port 3 Attenuation/dB Port 1 ↔ Port 3 0 0.1 0.2 1600 – 2000 50 – 1000 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 0 200 400 600 800 1000 1200 1400 1600 1800 2000 Frequency/MHz 61 Dual-Band Combiner 50 – 470 MHz 806 – 2500 MHz PMR / TETRA / TETRAPOL CDMA 800 / GSM 900 / GSM 1800 / UMTS / WLAN • Designed for co-siting purposes • Enables feeder sharing • Can be used as a combiner near the BTS or in a • • • • • reciprocal function near the antenna Suitable for indoor or outdoor applications Wall or mast mounting External DC stop available as an accessory Very low insertion loss High input power Port 3 Port 1 Port 2 Port 3 Typical Attenuation Curves Port 2 806 – 2500 Diagram I Port 1 ↔ Port 3 Attenuation/dB Port 1 50 – 470 Technical Data Type No. Port 2 ↔ Port 3 0 0.1 0.2 50 – 470 806 – 2500 0.3 0.4 0.5 782 10460 0.6 VSWR Impedance Input power Band 1 Band 2 Intermodulation products Temperature range Connectors Application DC/AISG transparency Port 1 ↔ Port 3 Port 2 ↔ Port 3 Mounting Weight Dimensions (w x h x d) 0.7 50 – 470 MHz 806 – 2500 MHz 0.8 0.9 < 0.15 dB (50 – 470 MHz) < 0.15 dB (806 – 2500 MHz) 1.0 0 250 500 750 < 1.25 (50 – 470 / 806 – 960 / 1710 – 2500 MHz) Diagram II 50 Ÿ < 500 W < 500 W < –160 dBc (3rd order; with 2 x 20 W) –55 ... +60 °C 7-16 female Indoor or outdoor (IP 66) 1000 1250 1500 1750 2000 2250 2500 Frequency/MHz > 50 dB (50 – 470 / 806 – 2500 MHz) Port 1 ↔ Port 3 Attenuation/dB Pass band Band 1 Band 2 Insertion loss Port 1 ↔ Port 3 Port 2 ↔ Port 3 Isolation Port 1 ↔ Port 2 Port 2 ↔ Port 3 0 10 20 806 – 2500 50 – 470 30 40 50 By-pass (max. 2500 mA) Stop Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 4 kg 122 x 64 x 364.3 mm (including mounting brackets) 60 70 80 90 100 0 250 500 750 1000 1250 1500 1750 2000 2250 2500 Frequency/MHz 62 Dual-Band Combiner 50 – 470 MHz 806 – 2500 MHz PMR / TETRA / TETRAPOL CDMA 800 / GSM 900 / GSM 1800 / UMTS / WLAN Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm Type No. 793 301 784 10367 Description Clamp Set DC stop 50-Ÿ load DC stop 50-Ÿ load 1.5 W indoor or outdoor Port 1 Port 3 Port 2 ➀ ➂ ➁ ➃ 63 Dual-Band Combiner 824 – 880 MHz 890 – 960 MHz AMPS / CDMA 800 GSM 900 • Designed for co-siting purposes • Enables feeder sharing • Suitable for indoor applications • Built-in DC stop between all ports Port 1 Port 3 782 10341 824–880 / 890–960 MHz Port 2 Calculated Attenuation Curves Diagram I Attenuation/dB Port 1 ↔ Port 3 Port 2 ↔ Port 3 0 10 20 890 – 960 824 – 880 30 40 50 60 70 Technical Data 80 Pass band Band 1 (AMPS / CDMA 800) Band 2 (GSM 900) Insertion loss Port 1 ↔ Port 3 Port 2 ↔ Port 3 Isolation Port 1 ↔ Port 2 VSWR Impedance Input power Band 1 Band 2 Intermodulation products Temperature range 782 10341 90 100 800 824 – 880 MHz 890 – 960 MHz < 0.6 dB (824 – 880 MHz) < 0.6 dB (890 – 960 MHz) > 55 dB (824 – 880 MHz) > 50 dB (890 – 960 MHz) < 1.2 (824 – 880 / 890 – 960 MHz) 50 Ÿ < 400 W (with max. 8 carriers) < 400 W (with max. 8 carriers) < –160 dBc (3rd order; with 2 x 20 W) 900 920 940 960 980 1000 Port 2 ↔ Port 3 0.5 1.0 890 – 960 824 – 880 1.5 2.0 2.5 3.0 –20 ... +55 °C 3.5 Indoor 4.0 Built-in DC stop between all ports 4.5 64 880 0 Application Weight Dimensions (w x h x d) 860 Diagram II 7-16 female Mounting 840 Port 1 ↔ Port 3 Connectors Special features 820 Frequency/MHz Attenuation/dB Type No. With 4 screws (max. 4 mm diameter) Approx. 3 kg 228.6 mm x 81 mm x 213.6 mm (including connectors and mounting feet) 5.0 800 820 840 860 880 900 920 940 960 980 Frequency/MHz 1000 Dual-Band Combiner 824 – 894 MHz 907 – 960 MHz AMPS / CDMA 800 GSM 900 • Designed for co-siting purposes • Enables feeder sharing • Suitable for indoor applications • Built-in DC stop between all ports Port 1 Port 3 Port 2 Calculated Attenuation Curves Diagram I Attenuation/dB Port 1 ↔ Port 3 Port 2 ↔ Port 3 0 10 20 907 – 960 824 – 894 30 40 50 60 70 Technical Data Pass band Band 1 (AMPS / CDMA 800) Band 2 (GSM 900) Insertion loss Port 1 ↔ Port 3 Port 2 ↔ Port 3 Isolation Port 1 ↔ Port 2 VSWR Impedance Input power Band 1 Band 2 Intermodulation products Temperature range 782 10350 100 > 70 dB (824 – 894 / 907 – 960 MHz) < 1.2 (824 – 894 / 907 – 960 MHz) 50 Ÿ < 400 W (with max. 20 carriers) < 400 W (with max. 8 carriers) Weight Dimensions (w x h x d) Approx. 3 kg 228.6 mm x 82 mm x 259.6 mm (including connectors and mounting feet) 900 920 940 960 980 1000 Port 2 ↔ Port 3 0.5 1.0 907 – 960 824 – 894 1.5 2.0 3.0 With 4 screws (max. 4 mm diameter) 880 0 2.5 Built-in DC stop between all ports 860 Diagram II –20 ... +55 °C Indoor 840 Port 1 ↔ Port 3 < –160 dBc (3rd order; with 2 x 20 W) Application 820 Frequency/MHz < 0.5 dB (824 – 894 MHz) < 0.5 dB (907 – 960 MHz) 7-16 female Mounting 800 824 – 894 MHz 907 – 960 MHz Connectors Special features 90 Attenuation/dB Type No. 80 3.5 4.0 4.5 5.0 800 820 840 860 880 900 920 940 960 980 1000 Frequency/MHz 65 Dual-Band Combiner 806 – 960 MHz 1710 – 2170 MHz CDMA 800 / GSM 900 GSM 1800 / UMTS • Designed for co-siting purposes • Enables feeder sharing • Can be used as a combiner near the BTS or in a reciprocal function near the antenna • Suitable for indoor or outdoor applications • Wall or mast mounting • Available as a single unit, or for XPol antennas as a double unit • DC by-pass between all ports • DC stop available as an accessory Port 3 Port 1 793 532 Single Unit Port 2 793 533 Double Unit Typical Attenuation Curves Single Unit 793 532 Double Unit 793 533 (only 1 unit shown) Attenuation/dB Diagram I Port 1 ↔ Port 3 Technical Data Port 2 ↔ Port 3 0 10 2000 – 2170 20 806 – 96 60 1710 – 2000 30 40 Type No. 793 532 793 533 Single Unit Double Unit 50 60 Isolation Port 1 ↔ Port 2 VSWR 80 90 Typically 0.15 dB (806 – 960 MHz) Typically 0.25 dB (1710 – 2000 MHz) Typically 0.35 dB (2000 – 2170 MHz) 100 500 50 Ÿ < 250 W < 200 W < –160 dBc (2nd/3rd order; with 2 x 20 W) 0.2 0.3 7-16 female 0.5 Application Indoor or outdoor (IP 66) 0.6 DC by-pass between all ports (max. 2500 mA) 0.7 Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 1.6 kg 3.0 kg 350 x 165 x 138 mm 350 x 165 x 190 mm 125 x 282 x 61.2 mm 125 x 282 x 111.6 mm (including mounting brackets) Port 2 ↔ Port 3 0.1 Connectors 66 1700 1900 2100 2300 2500 0 0.4 Packing size Dimensions (w x h x d) 1100 1300 1500 Diagram II –55 ... +60 °C Weight 900 Port 1 ↔ Port 3 < 1.2 (806 – 960 / 1710 – 2170 MHz) Temperature range Special features Mounting 700 Frequency/MHz > 45 dB (806 – 824 MHz) > 50 dB (824 – 960 MHz) > 50 dB (1710 – 2170 MHz) Impedance Input power Band 1 Band 2 Intermodulation products 70 806 – 960 MHz 1710 – 2170 MHz Attenuation/dB Pass band Band 1 Band 2 Insertion loss Port 1 ↔ Port 3 Port 2 ↔ Port 3 2000 – 2170 806 – 960 0.8 0.9 1.0 500 700 900 1100 1300 1500 1700 1900 2100 2300 2500 Frequency/MHz Dual-Band Combiner 806 – 960 MHz 1710 – 2170 MHz CDMA 800 / GSM 900 GSM 1800 / UMTS Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm Type No. Description 793 301 DC Stop Clamp Set DC Stop M6 Side view 793 532 Single Unit 31.5 61.2* 40.5* 234 * * * 281.8 Side view 793 533 Double Unit * Valid if labelled “Dual-Band Combiner labelled “Dual-Band Combiner“ V1“ (not valid for previous version Earthing Instruction Top view 793 532 Single Unit, 793 533 Double Unit Toothed washer Earthing cable (not included in the scope of delivery) Washer Earthing screw Torque 6-7 Nm ➀ ➂ ➁ ➃ Bottom view 793 532 Single Unit, 793 533 Double Unit 4 screws M5 x 10 4 spring washers 5.5 DIN 6095 67 Dual-Band Combiner 806 – 960 MHz 1710 – 2170 MHz CDMA 800 / GSM 900 GSM 1800 / UMTS • Designed for co-siting purposes • Enables feeder sharing • Can be used as a combiner near the BTS or in a reciprocal function near the antenna • Suitable for indoor or outdoor applications • DC by-pass between all ports • DC stop available as an accessory Port 3 Port 1 Port 2 782 10346 Side view 782 10346 Application Example Top view Technical Data Type No. Pass band Band 1 Band 2 Insertion loss Port 1 ↔ Port 3 Port 2 ↔ Port 3 Isolation Port 1 ↔ Port 2 VSWR Impedance Input power Band 1 Band 2 Intermodulation products Temperature range 782 10346 806 – 960 MHz 1710 – 2170 MHz Typically 0.15 dB (806 – 960 MHz) Typically 0.25 dB (1710 – 2000 MHz) Typically 0.35 dB (2000 – 2170 MHz) > 45 dB (806 – 824 MHz) > 50 dB (824 – 960 MHz) > 50 dB (1710 – 2170 MHz) < 1.2 (806 – 960 / 1710 – 2170 MHz) 50 Ÿ < 250 W < 200 W < –160 dBc (2nd/3rd order; with 2 x 20 W) –55 ... +60 °C Connectors 7-16 female Application Indoor or outdoor (IP 66) Special features Weight Packing size Dimensions (w x h x d) 68 DC by-pass between all ports (max. 2500 mA) 1.5 kg 350 mm x 165 mm x 125 mm 117.5 mm x 234 mm x 41.5 mm Dual-Band Combiner 806 – 960 MHz 1710 – 2170 MHz CDMA 800 / GSM 900 GSM 1800 / UMTS Typical Attenuation Curves Diagram I Attenuation/dB Port 1 ↔ Port 3 Port 2 ↔ Port 3 0 10 2000 – 2170 20 806 – 96 60 1710 – 2000 30 40 50 60 70 80 90 100 500 700 900 1100 1300 1500 1700 1900 2100 2300 2500 Frequency/MHz Diagram II Attenuation/dB Port 1 ↔ Port 3 Port 2 ↔ Port 3 0 0.1 0.2 0.3 0.4 0.5 0.6 2000 – 2170 0.7 806 – 960 0.8 0.9 1.0 500 700 900 1100 1300 1500 1700 1900 2100 2300 2500 Frequency/MHz 69 Dual-Band Combiner 806 – 960 MHz 1710 – 2170 MHz CDMA 800 / GSM 900 GSM 1800 / UMTS • Designed for co-siting purposes • Enables feeder sharing • Can be used as a combiner near the BTS or in a reciprocal function near the antenna • Suitable for indoor or outdoor applications • Wall or mast mounting • Available as a single unit, or for XPol antennas as a double unit • Built-in lightning protection • External DC stop available as an accessory • Very low insertion loss • High input power Port 3 Port 1 Port 2 782 10248, 782 10250 Single Unit 782 10249, 782 10251 Double Unit Port 3 Port 3 Port 1 806 – 960 Port 2 1710 – 2170 Port 1 806 – 960 Port 2 1710 – 2170 Single Unit 782 10250 Double Unit 782 10251 (only 1 unit shown) Single Unit 782 10248 Double Unit 782 10249 (only 1 unit shown) Technical Data Type No. 782 10248 782 10249 782 10250 782 10251 Single Unit Double Unit Single Unit Double Unit Pass band Band 1 Band 2 Insertion loss Port 1 ↔ Port 3 Port 2 ↔ Port 3 Isolation Port 1 ↔ Port 2 806 – 960 MHz 1710 – 2170 MHz < 0.15 dB (806 – 960 MHz), typically 0.1 dB (806 – 960 MHz) < 0.1 dB (1710 – 2170 MHz), typically 0.05 dB (1710 – 2170 MHz) > 55 dB (806 – 960 MHz) / > 65 dB (1710 – 2170 MHz) VSWR < 1.2 (806 – 960 / 1710 – 2170 MHz) 50 Ÿ Impedance Input power Band 1 / Band 2 < 650 W / < 650 W Intermodulation products < –160 dBc (2nd/3rd order; with 2 x 20 W) Temperature range –55 ... +60 °C Connectors Application DC/AISG transparency Port 1 ↔ Port 3 Port 2 ↔ Port 3 7-16 female(long neck) Indoor or outdoor (IP 66) By-pass (max. 2500 mA) By-pass (max. 2500 mA) Lightning protection Mounting Weight Packing size Dimensions (w x h x d) 70 2.9 kg 365 x 207 x 150 mm 125 x 274 x 64 mm Stop By-pass (max. 2500 mA) 3 kA, 10/350 +s pulse Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 5.7 kg 2.9 kg 365 x 207 x 214 mm 365 x 207 x 150 mm 125 x 274 x 120 mm 125 x 274 x 64 mm (including mounting brackets) 5.7 kg 365 x 207 x 214 mm 125 x 274 x 120 mm Dual-Band Combiner 806 – 960 MHz 1710 – 2170 MHz CDMA 800 / GSM 900 GSM 1800 / UMTS Accessories (order separately) Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm Type No. Description 793 301 DC stop Clamp Set Typical Attenuation Curves Diagram I Port 1 ↔ Port 3 Attenuation/dB Type No. DC stop Port 2 ↔ Port 3 0 10 20 806 – 960 1710 – 2170 30 40 50 60 70 80 90 100 500 700 900 1100 1300 1500 1700 1900 2100 2300 2500 Frequency/MHz 64 Side view 782 10248, 782 10250 Single Unit Diagram II Side view 782 10249, 782 10251 Double Unit Attenuation/dB Port 1 ↔ Port 3 Port 2 ↔ Port 3 0 0.1 0.2 806 – 960 1710 – 2170 0.3 0.4 0.5 0.6 0.7 0.8 102 Top view 782 10248, 782 10250 Single Unit and 782 10249, 782 10251 Double Unit 4 screws M5 x 10 4 spring washers 5.5 DIN 6095 ➀ ➂ ➁ ➃ Bottom view 782 10248, 782 10250 Single Unit and 782 10249, 782 10251 Double Unit 0.9 1.0 500 700 900 1100 1300 1500 1700 1900 2100 2300 2500 Frequency/MHz Earthing Instruction Single Unit 782 10248, 782 10250 Double Unit 782 10249, 782 10251 Toothed washer Earthing cable (not included in the scope of delivery) Internal earthing cable Washer Earthing screw Torque 6-7 Nm 71 Dual-Band Combiner 806 – 1880 MHz 1920 – 2170 MHz CDMA 800 / GSM 900 / GSM 1800 UMTS • Designed for co-siting purposes • Enables feeder sharing Port 1 • Can be used as a combiner near the BTS or in a reciprocal function near the antenna • Suitable for indoor or outdoor applications Port 2 • Wall or mast mounting • Available as a single unit, or for XPol antennas as a double unit • Built-in lightning protection • External DC Stop available as an accessory Port 3 782 10278, 782 10305 Single Unit 782 10279, 782 10306 Double Unit Port 3 Port 1 806 – 1880 Port 3 Port 2 1920 – 2170 Port 1 806 – 1880 Port 2 1920 – 2170 Single Unit 782 10305 Double Unit 782 10306 (only 1 unit shown) Single Unit 782 10278 Double Unit 782 10279 (only 1 unit shown) Technical Data Type No. Pass band Band 1 Band 2 Insertion loss Port 1 ↔ Port 3 Port 2 ↔ Port 3 Isolation Port 1 ↔ Port 2 782 10278 782 10279 782 10305 782 10306 Single Unit Double Unit Single Unit Double Unit 806 – 1880 MHz 1920 – 2170 MHz < 0.1 dB, typically 0.05 dB (806 – 960 MHz) / < 0.4 dB, typically 0.2 dB (1710 – 1880 MHz) < 0.4 dB typically 0.2 dB (1920 – 2170 MHz) > 55 dB (806 – 960 MHz) / > 50 dB (1710 – 1880 MHz) > 50 dB (1920 – 1980 MHz) / > 50 dB (2110 – 2170 MHz) < 1.2 (806 – 960 MHz) / < 1.25 (1710 – 1880 MHz) < 1.2 (1920 – 2170 MHz) VSWR 50 Ÿ Impedance Input power Band 1 / Band 2 < 500 W / < 500 W Intermodulation products < –160 dBc (2nd/3rd order; with 2 x 20 W) Temperature range –55 ... +60 °C Connectors 7-16 female (long neck) Application DC/AISG transparency Port 1 ↔ Port 3 Port 2 ↔ Port 3 Indoor or outdoor (IP 66) By-pass (max. 2500 mA) By-pass (max. 2500 mA) 3 kA, 10/350 +s pulse Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set Lightning protection Mounting Weight Packing size Dimensions (w x h x d) 72 Stop By-pass (max. 2500 mA) 3.4 kg 430 x 210 x 150 mm 130 x 349 x 64 mm 6.6 kg 3.4 kg 430 x 210 x 220 mm 430 x 210 x 150 mm 130 x 349 x 119 mm 130 x 349 x 64 mm (including mounting brackets) 6.6 kg 430 x 210 x 220 mm 130 x 349 x 119 mm Dual-Band Combiner 806 – 1880 MHz 1920 – 2170 MHz CDMA 800 / GSM 900 / GSM 1800 UMTS Accessories (order separately) Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm Clamp Set Typical Attenuation Curves Diagram I Port 2 ↔ Port 3 Port 1 ↔ Port 3 0 Attenuation/dB Type No. DC Stop 10 20 1920 – 2170 0 806 – 1880 30 734 365 45 – 125 mm 40 Type No. Description 50 793 301 DC Stop 60 70 80 90 100 500 700 900 1100 1300 1500 1700 1900 2100 2300 2500 Frequency/MHz Side view, 782 10278, 782 10305 Single Unit Diagram II Port 2 ↔ Port 3 Attenuation/dB Port 1 ↔ Port 3 Side view, 782 10279, 782 10306 Double Unit 0 0.1 0.2 806 – 1880 1920 – 2170 0 0.3 0.4 0.5 0.6 0.7 Port 1 Port 3 0.8 0.9 1.0 500 Port 2 700 900 1100 1300 1500 1700 1900 2100 2300 2500 Frequency/MHz Top view, 782 10278, 782 10305 Single Unit, 782 10279, 782 10306 Double Unit Earthing Instruction ➀ ➂ ➁ ➃ 4 screws M5 x 10 4 spring washers 5.5 DIN 6095 Single Unit 782 10278, 782 10305 Double Unit 782 10279, 782 10306 Toothed washer Earthing cable (not included in the scope of delivery) Internal earthing cable Washer Earthing screw Torque 6-7 Nm Bottom view, 782 10278, 782 10305 Single Unit, 782 10279, 782 10306 Double Unit 73 Dual-Band Combiner 1710 – 1880 MHz 1920 – 2170 MHz GSM 1800 UMTS • Designed for co-siting purposes • Enables feeder sharing • Can be used as a combiner near the BTS or in a reciprocal function near the antenna • Suitable for indoor or outdoor applications • Wall or mast mounting • Available as a single unit, or for XPol antennas as a double unit • Built-in lightning protection • 793 423: Single unit, DC by-pass between all ports External DC stop available as an accessory Port 3 Port 1 Port 2 793 423, 782 10243 Single Unit • 793 424: Double unit, DC by-pass between all ports External DC stop available as an accessory 793 424, 782 10244 Double Unit Port 3 Port 3 • 782 10243: Single unit, DC by-pass between ports 2 and 3 Built-in DC stop between ports 1 and 3 • 782 10244: Double unit, DC by-pass between ports 2 and 3 Built-in DC stop between ports 1 and 3 Port 1 1710 – 1880 Port 2 1920 – 2170 Port 1 1710 – 1880 Port 2 1920 – 2170 Single Unit 782 10243 Double Unit 782 10244 (only 1 unit shown) Single Unit 793 423 Double Unit 793 424 (only 1 unit shown) Technical Data Type No. 793 423 793 424 782 10243 782 10244 Single Unit Double Unit Single Unit Double Unit Pass band Band 1 (GSM 1800) Band 2 (UMTS) Insertion loss Port 1 ↔ Port 3 Port 2 ↔ Port 3 Isolation Port 1 ↔ Port 2 1710 – 1880 MHz 1920 – 2170 MHz < 0.3 dB (1710 – 1880 MHz) < 0.3 dB (1920 – 2170 MHz) > 50 dB (1710 – 1880 MHz) > 50 dB (1920 – 2170 MHz) VSWR < 1.2 (1710 – 1880 / 1920 – 2170 MHz) 50 Ÿ Impedance Input power Band 1 Band 2 < 240 W < 240 W Intermodulation products < –160 dBc (3rd order; with 2 x 20 W) Temperature range –40 ... +60 °C Connectors Application Special features Mounting Weight Packing size Dimensions (w x h x d) 74 7-16 female Indoor or outdoor (IP 66) External DC stop available as an accessory Built-in DC stop between ports 1 and 3 DC by-pass between all ports (max. 2500 mA) DC by-pass between ports 2 and 3 (max. 2500 mA) Built-in lightning protection (3 kA, 10/350 +s pulse) Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 3.2 kg 362 x 262 x 139 mm 216 x 318 x 55 mm 6.4 kg 3.2 kg 364 x 197 x 276 mm 362 x 262 x 139 mm 216 x 318 x 127 mm 216 x 318 x 55 mm (including mounting brackets) 6.4 kg 364 x 197 x 276 mm 216 x 318 x 127 mm Dual-Band Combiner 1710 – 1880 MHz 1920 – 2170 MHz GSM 1800 UMTS Typical Attenuation Curves Accessories (order separately) 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm Type No. Description 793 301 DC stop Clamp Set Port 2 ↔ Port 3 Port 1 ↔ Port 3 Attenuation/dB Clamp set suitable for mast diameter of Type No. Diagram I 0 10 20 1710 – 1880 1920 – 2170 30 40 DC stop 50 60 70 80 90 100 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 2400 Frequency/MHz Diagram II Attenuation/dB Port 1 ↔ Port 3 Port 2 ↔ Port 3 0 0.5 1.0 1710 – 1880 1920 – 2170 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 1400 73 1500 1600 1700 1800 1900 2000 2100 2200 2300 2400 Frequency/MHz 64 243.2 287.7 317.7 E2 . . . . . . . . Dual Band Combin Serial no. Type Type no. 793423 Port 3 Port 1 36 ’ Port 2 8.5 137 210 216 Top view 793 423, 782 10243 Single Unit, 793 424, 782 10244 Double Unit 26 37 55 Side view 793 423, 782 10243 Single Unit 37 22 66 126.6 Side view 793 424, 782 10244 Double Unit 75 Triple-Band Combiner 880 – 960 MHz 1710 – 1880 MHz 1920 – 2170 MHz GSM 900 GSM 1800 UMTS • Designed for co-siting purposes • Enables feeder sharing • Can be used as a combiner near the BTS or in a reciprocal function near the antenna • Suitable for indoor or outdoor applications • Wall or mast mounting • Available as a single unit, or for XPol antennas as a double unit • Built-in lightning protection Port 4 Port 1 Port 2 Port 3 793 425, 782 10245 Single Unit 793 426, 782 10246 Double Unit • 793 425: Single unit, DC by-pass between all ports External DC Stop available as an accessory • 793 426: Double unit, DC by-pass between all ports External DC Stop available as an accessory • 782 10245: Single unit, DC by-pass between ports 3 and 4 Built-in DC Stop between ports 1 and 4, ports 2 and 4 • 782 10246: Double unit, DC by-pass between ports 3 and 4 Built-in DC Stop between ports 1 and 4, ports 2 and 4 Single Unit 793 425 Double Unit 793 426 (only 1 unit shown) Single Unit 782 10245 Double Unit 782 10246 (only 1 unit shown) Technical Data Type No. 793 425 793 426 782 10245 782 10246 Single Unit Double Unit Single Unit Double Unit Pass band Band 1 (GSM 900) Band 2 (GSM 1800) Band 3 (UMTS) Insertion loss Port 1 ↔ Port 4 Port 2 ↔ Port 4 Port 3 ↔ Port 4 Isolation Port 1 ↔ Port 2 Port 1 ↔ Port 3 Port 2 ↔ Port 3 880 – 960 MHz 1710 – 1880 MHz 1920 – 2170 MHz < 0.2 dB ( 880 – 960 MHz) < 0.3 dB (1710 – 1880 MHz) < 0.3 dB (1920 – 2170 MHz) > 50 dB ( 880 – 960 / 1710 – 1880 MHz) > 50 dB ( 880 – 960 / 1920 – 2170 MHz) > 50 dB (1710 – 1880 / 1920 – 2170 MHz) VSWR < 1.2 (880 – 960 / 1710 – 1880 / 1920 – 2170 MHz) 50 Ÿ Impedance Input power Band 1 Band 2 Band 3 < 240 W < 240 W < 240 W Intermodulation products < –160 dBc (3rd order; with 2 x 20 W) Temperature range –40 ... +60 °C Connectors Application Special features Mounting Weight 7-16 female Indoor or outdoor (IP 66) External DC stop available as an accessory Built-in DC stop between ports 1 and 4, ports 2 and 4 DC by-pass between all ports (max. 2500 mA) DC by-pass between ports 3 and 4 (max. 2500 mA) Built-in lightning protection (3 kA, 10/350 +s pulse) Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 4.7 kg 9.4 kg 4.7 kg 9.4 kg Packing size 363 x 304 x 145 mm 363 x 304 x 198 mm 363 x 304 x 145 mm 363 x 304 x 198 mm Dimensions (w x h x d) 251 x 318 x 60 mm 251 x 318 x 127 mm 251 x 318 x 60 mm (including mounting brackets) 251 x 318 x 127 mm 76 Triple-Band Combiner 880 – 960 MHz 1710 – 1880 MHz 1920 – 2170 MHz GSM 900 GSM 1800 UMTS Accessories (order separately) Clamp Set Clamp set suitable for mast diameter of Diagram I Port 1 ↔ Port 4 Attenuation/dB Type No. Typical Attenuation Curves 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 50 734 365 45 – 125 mm 60 Type No. Description 793 301 784 10367 DC stop Port 2 ↔ Port 4 Port 3 ↔ Port 4 0 10 20 1920 – 2170 880 – 960 30 1710 – 1880 40 70 50-Ÿ load 80 DC stop 90 50-Ÿ load 1.5 W indoor or outdoor 100 500 700 900 1100 1300 1500 1700 1900 2100 2300 2500 Frequency/MHz Diagram I Attenuation/dB Port 1 ↔ Port 4 Port 2 ↔ Port 4 Port 3 ↔ Port 4 0 0.5 1.0 1920 – 2170 0 880 – 960 1.5 1710 – 1880 2.0 2.5 3.0 3.5 4.0 4.5 98 5.0 500 251 245 64 700 900 1100 1300 1500 1700 1900 2100 2300 2500 Frequency/MHz ’ 8.5 83 25 204 247.2 287.7 317.7 Port 4 Port 1 GSM 900 Port 2 GSM 1800 880–960 MHZ 1710–1880 MHZ Port 1 Port 2 30 109 212.5 Top view 793 425, 782 10245 Single Unit 793 426, 782 10246 Double Unit Port 3 29 42 60 Side view 793 425, 782 10245 Single Unit 42 12 61 126.6 Side view 793 426, 782 10246 Double Unit 77 Triple-Band Combiner 806 – 960 MHz 1710 – 1880 MHz 1920 – 2170 MHz CDMA 800 / GSM 900 GSM 1800 UMTS • Designed for co-siting purposes Port 4 • Enables feeder sharing • Can be used as a combiner near the BTS or in reciprocal function near the antenna Port 1 Port 2 • Suitable for indoor or outdoor applications Port 3 • Wall or mast mounting 793 528 Single Unit • Available as a single unit, or for XPol antennas as a double unit 793 529 Double Unit • Built-in lightning protection • DC by-pass between all ports • DC stop available as an accessory Port 4 Port 1 Port 2 Port 3 782 10298 Single Unit Technical Data Type No. Pass band Band 1 (CDMA 800 / GSM 900) Band 2 (GSM 1800) Band 3 (UMTS) Insertion loss Port 1 ↔ Port 4 Port 2 ↔ Port 4 Port 3 ↔ Port 4 Isolation Port 1 ↔ Port 2 Port 1 ↔ Port 3 Port 2 ↔ Port 3 VSWR 793 528 793 529 782 10298 Single Unit Double Unit Single Unit 806 – 960 MHz 1710 – 1880 MHz 1920 – 2170 MHz < 0.2 dB ( 806 – 960 MHz) < 0.3 dB (1710 – 1880 MHz) < 0.3 dB (1920 – 2170 MHz) > 50 dB ( 806 – 960 / 1710 – 1880 MHz) > 50 dB ( 806 – 960 / 1920 – 2170 MHz) > 50 dB (1710 – 1880 / 1920 – 2170 MHz) < 1.2 (806 – 960 / 1710 – 1880 / 1920 – 2170 MHz) 50 Ÿ Impedance Input power Band 1 Band 2 Band 3 < 240 W < 240 W < 240 W Intermodulation products < –160 dBc (3rd order; with 2 x 20 W) Temperature range –40 ... +60 °C Connectors Application Special features Mounting Weight Single Unit 793 528 Double Unit 793 529 (only 1 unit shown) 7-16 female Indoor or outdoor (IP 66) Indoor DC by-pass between all ports (max. 2500 mA) Built-in lightning protection (3 kW, 10/350 +s pulse) Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set With 3 screws (max. 6 mm diameter) 4.6 kg 9.2 kg 4.5 kg Packing size 362 x 292 x 139 mm 347 x 297 x 174 mm 362 x 292 x 139 mm Dimensions (w x h x d) 245 x 318 x 55 mm 245 x 318 x 110 mm 245 x 247.5 x 44 mm (including mounting brackets) 78 Triple-Band Combiner 806 – 960 MHz 1710 – 1880 MHz 1920 – 2170 MHz CDMA 800 / GSM 900 GSM 1800 UMTS Accessories (order separately) 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm Diagram I Clamp Set Port 1 ↔ Port 4 Attenuation/dB Clamp set suitable for mast diameter of Type No. Typical Attenuation Curves DC stop Port 2 ↔ Port 4 Port 2 ↔ Port 4 0 10 20 806 – 960 1920 – 2170 30 1710 – 1880 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm Type No. Description 793 301 DC stop 80 50-Ÿ load 1.5 W indoor or outdoor 90 40 50 60 784 10367 50-Ÿ load 70 100 500 700 900 1100 1300 1500 1700 1900 2100 2300 2500 Frequency/MHz Port 4 Diagram I Attenuation/dB Port 1 ↔ Port 4 Port 2 ↔ Port 4 Port 2 ↔ Port 4 0 0.5 1.0 806 – 960 1920 – 2170 1.5 1710 – 1880 2.0 2.5 3.0 3.5 Port 2 Port 1 Port 3 4.0 4.5 5.0 500 Side view 782 10298 Top view 782 10298 900 1100 1300 1500 1700 1900 2100 2300 2500 Frequency/MHz 245 98 126.6 37 24 64 85 700 66 22 ø8.5 Port 4 204 247 288 318 Type No 793 528 Type Triple Band Combiner Port 4 COMMON 806–960/1710–1880 1920–2170 MHz Port 1 GSM 900 806–960 MHz Port 2 GSM 1800 1710–1880 MHz Port 3 UMTS 1920–2170 MHz Port 1 Port 2 Port 3 30 107.5 209 Top view 793 528 Single Unit 793 529 Double Unit 24 37 55 Side view 793 528 Single Unit Side view 793 529 Double Unit 79 Dual-Band Combiner 50 – 2200 MHz 2400 – 2500 MHz 80 / 160 / 400 / 900 / 1800 / UMTS WLAN • Designed for inhouse multiband distribution networks • Enables feeder sharing • DC by-pass between ports 1 and 3 • Built-in DC stop between ports 2 and 3 Port 3 Port 1 Port 2 Typical Attenuation Curves Attenuation/dB Diagram I Port 1 ↔ Port 3 Technical Data Port 2 ↔ Port 3 0 10 20 935 – 960 890 – 915 30 40 782 10264 60 Pass band Band 1 Band 2 Insertion loss Port 1 ↔ Port 3 Port 2 ↔ Port 3 Isolation Port 1 ↔ Port 2 > 50 dB (50 – 2200 / 2400 – 2500 MHz) VSWR < 1.25 (50 – 2200 / 2400 – 2500 MHz) Impedance Input power Band 1 Band 2 Intermodulation products Temperature range Connectors Application Special features Mounting Weight Packing size Dimensions (w x h x d) 50 50 – 2200 MHz 2400 – 2500 MHz 70 80 < 0.1 dB (50 – 2200 MHz) < 0.2 dB (2400 – 2500 MHz) 90 100 875 < –150 dBc (3rd order; with 2 x 20 W) –20 ... +55 °C N female 895 905 915 925 Diagram II Port 1 ↔ Port 3 50 Ÿ < 200 W < 200 W 885 935 945 955 975 Port 2 ↔ Port 3 0.1 2400 – 2500 0.2 50 – 2200 0.3 0.4 Indoor Built-in DC stop between ports 2 and 3 DC by-pass between ports 1 and 3 (max. 2500 mA) With 4 screws (max. 4 mm diameter) 0.47 kg 225 mm x 140 mm x 75 mm 86 mm x 30.4 mm x 181.4 mm (including connectors and mounting feet) 0.5 0.6 0.7 0.8 0.9 1.0 0 300 600 900 1200 1500 1800 2100 2400 2700 3000 Frequency/MHz 80 965 Frequency/MHz Attenuation/dB Type No. Hybrid Combiners Hybrid Combiners 3-dB Couplers Hybrid Combiner 4 : 4 Hybrid Combiners 2 : 1 Hybrid Ring Junctions Decoupled Power Splitters 4.7-dB, 6-dB, 7-dB, 10-dB Couplers 81 82 Summary of Articles Hybrid Combiners, Power Splitters and Couplers: Description Type No. Frequency range Max. input power Page 3-dB Coupler K 63 70 61 806 – 960 MHz 500 W 84 3-dB Coupler K 63 70 67 806 – 960 MHz 500 W 84 3-dB Coupler 793 506 806 – 960 MHz 500 W 85 3-dB Coupler 793 006 1700 – 2200 MHz 300 W 86 3-dB Coupler 793 554 800 – 2200 MHz 300 W 87 3-dB Coupler with Cable Absorber 792 699 806 – 960 MHz 150 W per Tx/Rx port 88 3-dB Coupler with Cable Absorber 792 702 1700 – 2200 MHz 150 W per Tx/Rx port 89 3-dB Coupler with Cable Absorber 793 555 800 – 2200 MHz 150 W per Tx/Rx port 90 Hybrid Combiner 4:4 782 10532 1710 – 2170 MHz 60 W at each port 91 Hybrid Combiner 2:1 782 10500 806 – 960 MHz 60 W at each port 92 Hybrid Combiner 2:1 782 10502 1710 – 2170 MHz 60 W at each port 93 Hybrid Transmitter Combiner 2:1 791 600 925 – 960 MHz 40 W at each port 94 Hybrid Transmitter Combiner 4:1 792 078 925 – 960 MHz 40 W at each port 94 Hybrid Transmitter Combiner 2:1 791 962 1805 – 1880 MHz 40 W at each port 95 Hybrid Transmitter Combiner 4:1 792 079 1805 – 1880 MHz 40 W at each port 95 Hybrid Transmitter Combiner 3:1 792 691 1805 – 1880 MHz 100 W at each port 96 1:3 Power Splitter 728 044 806 – 960 MHz 100 W each input 97 1:4 Power Splitter 729 812 806 – 960 MHz 100 W each input 97 Hybrid Ring Junction K 63 73 621 806 – 960 MHz 100 W per input Hybrid Ring Junction 790 881 890 – 960 MHz 100 W per input 98, 99 Hybrid Ring Junction 791 498 1710 – 1880 MHz 50 W per input 98, 99 4.7-dB Coupler 792 937 806 – 960 MHz 350 W 100 4.7-dB Coupler 792 170 806 – 960 MHz 350 W 100 6-dB Coupler 793 105 806 – 960 MHz 350 W 100 6-dB Coupler 792 180 806 – 960 MHz 350 W 100 7-dB Coupler 793 106 806 – 960 MHz 350 W 100 98, 99 7-dB Coupler 793 107 806 – 960 MHz 350 W 100 10-dB Coupler 793 108 806 – 960 MHz 350 W 100 10-dB Coupler 790 213 806 – 960 MHz 350 W 100 4.7-dB Coupler 792 817 1710 – 1900 MHz 350 W 101 4.7-dB Coupler 792 745 1710 – 1900 MHz 350 W 101 6-dB Coupler 792 820 1710 – 1900 MHz 350 W 101 6-dB Coupler 792 819 1710 – 1900 MHz 350 W 101 7-dB Coupler 792 822 1710 – 1900 MHz 350 W 101 7-dB Coupler 792 821 1710 – 1900 MHz 350 W 101 10-dB Coupler 792 816 1710 – 1900 MHz 350 W 101 10-dB Coupler 792 815 1710 – 1900 MHz 350 W 101 6-dB Coupler 792 964 800 – 1900 MHz 350 W 102 6-dB Coupler 792 965 800 – 1900 MHz 350 W 102 10-dB Coupler 792 966 800 – 1900 MHz 350 W 102 10-dB Coupler 792 967 800 – 1900 MHz 350 W 102 83 3-dB Coupler (90° Hybrid) 806 – 960 MHz The 3-dB coupler can be used: – as a decoupled power splitter with a ratio of 1:1, – for the decoupled combining of two transmitters with frequency spacing as narrow as desired (at 3 dB loss), – for the decoupled combining of two receivers with frequency spacing as narrow as desired, – for the decoupled combining of two transmitter/receiver units, whose integrated duplexers are within the same frequency range, – as a frequency-independent 90° phase shifter, – as a component to form combiners. K 63 70 67 Function: The 3-dB coupler has four ports, two of which are decoupled from each other. For example effective power entering into port 1 is distributed into ports 2 and 3. Port 4 is decoupled and without power if ports 2 and 3 are ideally matched. In practice an absorber of suitable power at port 4 is to be planned in accordance with the mismatch of ports 2 and 3. Decoupled combining can be achieved via the diagonally opposite ports 2 and 3 or 1 and 4. 3 2 4 Attenuation 1↔ 3 / dB Attenuation 1 ↔ 2 / dB Diagram I Typical attenuation between ports 1 ↔ 2 resp. 1 ↔ 3 vs. frequency 2.5 1↔ 2 3.0 1↔ 3 3.5 806 960 Frequency/MHz Diagram II Technical Data Connectors Frequency range Attenuation 1 ↔ 2 / 1 ↔ 3 Attenuation 2 ↔ 3 Directivity VSWR Impedance Input power Application Mounting Weight Packing size Dimensions (w x h x d) K 63 70 61 K 63 70 67 N female 7-16 female 806 – 960 MHz 3 ±0.4 dB (see diagram I) See diagram II > 30 dB < 1.1 50 Ÿ < 500 W total power at two inputs, with max. 350 W at one input 25 20 Indoor With 2 screws (max. 5 mm diameter) 15 0.6 kg 170 mm x 80 mm x 105 mm 157 x 55 x 95 mm 157 x 55 x 84 mm (including connectors) Note: VSWR and attenuation values are measured when the remaining ports are terminated with 50-Ÿ loads. 84 Attenuation 2 ↔ 3 / dB Type No. Typical attenuation 2 ↔ 3 vs. VSWR at port 1 1.0 1.5 2.0 VSWR at port 1 (with 50-1 load at port 4) 3-dB Coupler (90° Hybrid) 806 – 960 MHz The 3-dB coupler can be used: – as a decoupled power splitter with a ratio of 1:1, – for the decoupled combining of two transmitters with frequency spacing as narrow as desired (at 3 dB loss), – for the decoupled combining of two receivers with frequency spacing as narrow as desired, – for the decoupled combining of two transmitter/receiver units, whose integrated duplexers are within the same frequency range, – as a frequency-independent 90° phase shifter, – as a component to form combiners. Function: The 3-dB coupler has four ports, two of which are decoupled from each other. For example effective power entering into port 1 is distributed into ports 2 and 3. Port 4 is decoupled and without power if ports 2 and 3 are ideally matched. In practice an absorber of suitable power at port 4 is to be planned in accordance with the mismatch of ports 2 and 3. Decoupled combining can be achieved via the diagonally opposite ports 2 and 3 or 1 and 4. 2 3 Attenuation 1 ↔ 3 / dB 1 Attenuation 1↔ 2 / dB Diagram I 4 Typical attenuation between ports 1 ↔ 2 resp. 1 ↔ 3 vs. frequency 2.5 1↔ 2 3.0 1↔ 3 3.5 806 960 Frequency/MHz Diagram II Technical Data Frequency range Attenuation 1 ↔ 2 / 1 ↔ 3 Attenuation 2 ↔ 3 Directivity VSWR Impedance Input power Intermodulation products Temperature range 793 506 806 – 960 MHz 3 ±0.4 dB (see diagram I) See diagram II > 30 dB < 1.1 50 Ÿ < 500 W total power at two inputs, with max. 350 W at one input 7-16 female Indoor or outdoor (IP66) Packing size Dimensions (w x h x d) 20 –30 ... +70 °C Application Weight 25 < –160 dBc (3rd order; with 2 x 20 W) Connectors Mounting Attenuation 2 ↔ 3 / dB Type No. Typical attenuation 2 ↔ 3 vs. VSWR at port 1 15 With 2 screws (max. 6 mm diameter) 1.8 kg 160 mm x 95 mm x 65 mm 1.0 1.5 2.0 VSWR at port 1 (with 50-1 load at port 4) 136 mm x 46.5 mm x 94 mm (including connectors) Note: VSWR and attenuation values are measured when the remaining ports are terminated with 50-Ÿ loads. 85 3-dB Coupler (90° Hybrid) 1700 – 2200 MHz The 3-dB coupler can be used: – as a decoupled power splitter with a ratio of 1:1, – for the decoupled combining of two transmitters with frequency spacing as narrow as desired (at 3 dB loss), – for the decoupled combining of two receivers with frequency spacing as narrow as desired, – for the decoupled combining of two transmitter/receiver units, whose integrated duplexers are within the same frequency range, – as a frequency-independent 90° phase shifter, – as a component to form combiners. Function: The 3-dB coupler has four ports, two of which are decoupled from each other. For example effective power entering into port 1 is distributed into ports 2 and 3. Port 4 is decoupled and without power if ports 2 and 3 are ideally matched. In practice an absorber of suitable power at port 4 is to be planned in accordance with the mismatch of ports 2 and 3. Decoupled combining can be achieved via the diagonally opposite ports 2 and 3 or 1 and 4. 2 3 Attenuation 1↔ 3 / dB 1 Attenuation 1↔ 2 / dB Diagram I 4 Typical attenuation between ports 1 ↔ 2 resp. 1 ↔ 3 vs. frequency 2.5 1↔ 2 3.0 1↔ 3 3.5 1700 2200 Frequency/MHz Diagram II Technical Data Frequency range Attenuation 1 ↔ 2 / 1 ↔ 3 Attenuation 2 ↔ 3 Directivity VSWR Impedance Input power Intermodulation products Temperature range 793 006 1700 – 2200 MHz 3 ±0.4 dB (see diagram I) See diagram II > 25 dB < 1.15 50 Ÿ < 300 W total power at two inputs, with max. 200 W at one input 7-16 female Indoor or outdoor (IP66) Packing size Dimensions (w x h x d) 15 With 2 screws (max. 5.5 mm diameter) 1.3 kg 160 mm x 95 mm x 65 mm 94 mm x 60 mm x 88 mm (including connectors) Note: VSWR and attenuation values are measured when the remaining ports are terminated with 50-Ÿ loads. 86 20 –30 ... +70 °C Application Weight 25 < –160 dBc (3rd order; with 2 x 20 W) Connectors Mounting Attenuation 2 ↔ 3 / dB Type No. Typical attenuation 2 ↔ 3 vs. VSWR at port 1 1.0 1.5 2.0 VSWR at port 1 (with 50-1 load at port 4) 3-dB Coupler (90° Hybrid) 800 – 2200 MHz The 3-dB coupler can be used: – as a decoupled power splitter with a ratio of 1 : 1, – for the decoupled combining of two transmitters with frequency spacing as marrow as desired (at 3 dB loss), – for the decoupled combining of two receivers with frequency spacing as marrow as desired, – for the decoupled combining of two transmitter/ receiver units. whose integrated duplexers are within the same frequency range, – as a frequency-independent 90° phase shifter, – as a combiner component. Function: The 3-dB coupler has four ports, two of which are decoupled from each other. For example effective power entering into port 1 is distributed into the ports 2 and 3. Port 4 is decoupled and without power if ports 2 and 3 are ideally matched. In practice an absorber of suitable power at port 4 is to be planned for according to the mismatch of ports 2 and 3. Decoupled combining can be achived via the diagonally opposite ports 2 and 3 respectively 1 and 4. 2 3 Attenuation 1↔ 3 / dB 1 Attenuation 1 ↔ 2 / dB Diagram I 4 Typical attenuation between ports 1 ↔ 2 resp. 1 ↔ 3 vs. frequency 1↔ 2 2.0 3.0 4.0 1↔ 3 800 2200 Diagram II Technical Data Frequency range Attenuation 1 ↔ 2 / 1 ↔ 3 Attenuation 2 ↔ 3 Directivity VSWR Impedance Input power Intermodulation products Temperatur range 793 554 800 – 2200 MHz 3 ±1.2 dB (see diagram I) See diagram II > 20 dB < 1.2 50 Ÿ < 300 W total power at two inputs, with max. 200 W at one input 7-16 female Indoor or outdoor (IP66) Packing size Dimensions (w x h x d)) 20 –30 … +70 °C Application Weight 25 < –160 dBc (3rd order; with 2 x 20 W) Connectors Mounting Attenuation 2 ↔ 3 / dB Type No. Typical attenuation 2 ↔ 3 vs. VSWR at port 1 15 With 2 screws (max. 5.5 mm diameter) 1.3 kg 160 mm x 95 mm x 65 mm 1.0 1.5 2.0 VSWR at port 1 (with 50-1 load at port 4) 94 mm x 53 mm x 105 mm (including connectors) Note: VSWR and attenuation values are measured when the remaining ports are terminated with 50-Ÿ loads. 87 3-dB Coupler with Cable Absorber 806 – 960 MHz The 3-dB Coupler with Cable Absorber is designed to combine two BTS (Base Transceiver Stations) onto one antenna in order to save feeder cable and antenna costs. • Contrary to standard absorbers, the hereby implemented cable absorber provides excellent intermodulation performance • The frequency spacing between transmitter signals can be as small as required Antenna Tx/Rx2 Tx/Rx1 Tx/Rx2 Antenna Tx/Rx1 • DC signals at Tx/Rx1 port are passed to antenna port • DC signals at Tx/Rx2 port are short-circuited • Suitable for indoor applications Note: The 3-dB Coupler with Cable Absorber is designed for a max. input power of 150 W per input (in total 300 W). Wall-mounting of the device is recommended with the cooling ribs running in a vertical direction (see photo) in order to dissipate the max. heat power of 150 W and not to over-heat the unit. When installed in a 19˝ rack, it must be ensured that the max. heat power of 150 W is sufficiently dissipated, so that the ambient temperature does not rise above +50 °C. This can be achieved for example by the additional installation of a correspondingly dimensioned ventilator in the 19˝ rack or by reducing the maximum input power. The max. connector coupling torque of 25 Nm is not to be exceeded. Technical Data Frequency range Attenuation Tx/Rx1 → Antenna Tx/Rx2 → Antenna Tx/Rx1 ↔ Tx/Rx2 VSWR Impedance Input power Intermodulation products Temperature range Connectors Application Special features Mounting Weight Packing size Dimensions (w x h x d) 806 – 960 MHz 3 ±0.4 dB 3 ±0.4 dB See diagram < 1.11 50 Ÿ < 150 W per Tx/Rx port with max. 16 signals at each port < –160 dBc (3rd order; with 2 x 20 W) –20 … +50 °C 7-16 female Indoor DC signals at Tx/Rx1 port are passed to Antenna port DC signals at Tx/Rx2 port are short-circuited Wall mounting: With 4 screws (max. 7 mm diameter) 19˝ rack mounting: To be inserted on pre-installed 19˝ sliding bars (2 height units required) 10.3 kg 510 mm x 410 mm x 100 mm 336 mm x 444 mm x 64 mm Note: VSWR and attenuation values are measured when the remaining ports are terminated with 50-Ÿ loads. 88 Typical attenuation Tx/Rx1 ↔ Tx/Rx2 vs. Antenna VSWR 792 699 Attenuation Tx/Rx1 / dB Attenuation Tx1 ↔ Tx2 / dB C Tx/Rx2 Type No. 25 20 15 1.0 1.5 2.0 Antenna VSWR Antenna VSWR 3-dB Coupler with Cable Absorber 1700 – 2200 MHz The 3-dB Coupler with Cable Absorber is designed to combine two BTS (Base Transceiver Stations) onto one antenna in order to save feeder cable and antenna costs. Antenna • Contrary to standard absorbers, the hereby implemented cable absorber provides excellent intermodulation performance • The frequency spacing between transmitter signals can be as small as required Tx/Rx2 Tx/Rx1 Tx/Rx2 Antenna Tx/Rx1 • DC signals at Tx/Rx1 port are passed to antenna port • DC signals at Tx/Rx2 port are short-circuited • Suitable for indoor applications Note: The 3-dB Coupler with Cable Absorber is designed for a max. input power of 150 W per input (in total 300 W). Wall-mounting of the device is recommended with the cooling ribs running in a vertical direction (see photo) in order to dissipate the max. heat power of 150 W and not to over-heat the unit. When installed in a 19˝ rack, it must be ensured that the max. heat power of 150 W is sufficiently dissipated, so that the ambient temperature does not rise above +50 °C. This can be achieved for example by the additional installation of a correspondingly dimensioned ventilator in the 19˝ rack or by reducing the maximum input power. The max. connector coupling torque of 25 Nm is not to be exceeded. Technical Data Frequency range Attenuation Tx/Rx1 → Antenna Tx/Rx2 → Antenna Tx/Rx1 ↔ Tx/Rx2 VSWR Impedance Input power Intermodulation products Temperature range Connectors Application Special features Mounting Weight Packing size Dimensions (w x h x d) Typical attenuation Tx/Rx1 ↔ Tx/Rx2 vs. Antenna VSWR 792 702 1700 – 2200 MHz 3 ±0.4 dB 3 ±0.4 dB See diagram < 1.15 50 Ÿ < 150 W per Tx/Rx port with max. 16 signals at each port < –160 dBc (3rd order; with 2 x 20 W) –20 … +50 °C 7-16 female Indoor Attenuation Tx/Rx1 ↔ Tx/Rx2 / dB Type No. DC signals at Tx/Rx1 port are passed to Antenna port DC signals at Tx/Rx2 port are short-circuited Wall mounting: With 4 screws (max. 7 mm diameter) 19˝ rack mounting: To be inserted on pre-installed 19˝ sliding bars (2 height units required) 9.8 kg 510 mm x 410 mm x 100 mm 336 mm x 444 mm x 64 mm Note: VSWR and attenuation values are measured when the remaining ports are terminated with 50-Ÿ loads. 89 3-dB Coupler with Cable Absorber 800 – 2200 MHz The 3-dB Coupler with Cable Absorber is designed to combine two BTS (Base Transceiver Stations) onto one antenna in order to save feeder cable and antenna costs. Antenna Tx/Rx1 • Contrary to standard absorbers, the hereby implemented cable absorber provides excellent intermodulation performance • The frequency spacing between transmitter signals can be as small as required Tx/Rx2 Tx/Rx2 Antenna Tx/Rx1 • DC signals at Tx/Rx1 port are passed to antenna port • DC signals at Tx/Rx2 port are short-circuited • Suitable for indoor applications Note: The 3-dB Coupler with Cable Absorber is designed for a max. input power of 150 W per input (in total 300 W). Wall-mounting of the device is recommended with the cooling ribs running in a vertical direction (see photo) in order to dissipate the max. heat power of 150 W and not to over-heat the unit. When installed in a 19˝ rack, it must be ensured that the max. heat power of 150 W is sufficiently dissipated, so that the ambient temperature does not rise above +50 °C. This can be achieved for example by the additional installation of a correspondingly dimensioned ventilator in the 19˝ rack or by reducing the maximum input power. The max. connector coupling torque of 25 Nm is not to be exceeded. Technical Data Frequency range Attenuation Tx/Rx1 → Antenna Tx/Rx2 → Antenna Tx/Rx1 ↔ Tx/Rx2 VSWR Impedance Input power Intermodulation products Temperature range Connectors Application Special features Mounting Weight Packing size Dimensions (w x h x d) 800 – 2200 MHz 3 ±1.2 dB 3 ±1.2 dB See diagram < 1.2 50 Ÿ < 150 W per Tx/Rx port with max. 16 signals at each port < –160 dBc (3rd order; with 2 x 20 W) –20 … +50 °C 7-16 female Indoor DC signals at Tx/Rx1 port are passed to Antenna port DC signals at Tx/Rx2 port are short-circuited Wall mounting: With 4 screws (max. 7 mm diameter) 19˝ rack mounting: To be inserted on pre-installed 19˝ sliding bars (2 height units required) 9.8 kg 510 mm x 410 mm x 100 mm 336 mm x 444 mm x 64 mm Note: VSWR and attenuation values are measured when the remaining ports are terminated with 50-Ÿ loads. 90 Typical attenuation Tx/Rx1 ↔ Tx/Rx2 vs. Antenna VSWR 793 555 Attenuation Tx/Rx1 ↔ Tx/Rx2 / dB Type No. Antenna VSWR Hybrid Combiner 4:4 1710 – 2170 MHz • Desiged for the decoupled combining of 4 transmitter or receiver signals and distributing these signals evenly onto 4 antenna outputs. Outputs 1...4 • The use of fewer than 4 inputs or outputs is possible. Any unused input ports have to be terminated with lowpower 50-Ÿ loads, unused output ports have to be terminated with high-power 50-Ÿ loads. • Suitable for indoor or outdoor applications Output 2 Output 1 Output 3 Output 4 3-dB Coupler 3-dB Coupler 3-dB Coupler 3-dB Coupler Input 2 Input 1 Input 3 Inuts 1...4 Input 4 Technical Data 782 10532 Type No. Frequency range Power distribution loss (including insertion loss) Input 1...4 ↔ Output 1...4 1710 – 2170 MHz 1710 – 2000 MHz: 6.7 ±0.5 dB 2000 – 2170 MHz: 6.7 ±0.9 dB Insertion Loss Isolation Input 1...4 ↔ Input 1...4 < 0.5 dB 1710 – 2000 MHz: > 22 dB* 2000 – 2170 MHz: > 19 dB* Output 1...4 ↔ Output 1...4 1710 – 2000 MHz: > 22 dB* 2000 – 2170 MHz: > 19 dB* VSWR (all ports) < 1.3* Impedance 50 Ÿ Input power < 60 W at each port < –160 dBc (3rd order; with 2 x 20 W) Intermodulation products Temperature range –40 … +60 °C Connectors 7-16 female Application Mounting Indoor or outdoor (IP 66) Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set Dimensions (w x h x d) Approx. 272 mm x 273 mm x 72 mm (including connectors and mounting brackets) * Valid if all ports are terminated with 50-Ÿ loads. Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm Clamp Set 91 Hybrid Combiner 2:1 806 – 960 MHz • Designed for the decoupled combining of 2 transmitter or receiver signals onto one common antenna Port 3 • The frequency spacing between transmitter signals can be as small as required • Excellent intermodulation performance • Suitable for indoor or outdoor applications Port 1 Port 3 Antenna Tx1/Tx2/Rx1/Rx2 Port 2 Hybrid Combiner Port 1 Port 2 Tx1/Rx1 Tx2/Rx2 Technical Data Type No. 782 10500 Frequency range Attenuation Port 1 ↔ Port 3 Port 2 ↔ Port 3 Port 1 ↔ Port 2 806 – 960 MHz VSWR (all ports) < 1.15 3.1 ±0.5 dB 3.1 ±0.5 dB > 22 dB* 50 Ÿ Impedance Input power Port 1 Port 2 < 60 W < 60 W Intermodulation products < –160 dBc (3rd order; with 2 x 20 W) Temperature range –40 … +55 °C Connectors 7-16 female Application Mounting Indoor or outdoor (IP 66) Wall mounting: With 4 screws (max. 6 mm diameter) Mast mounting: With additional clamp set Dimensions (w x h x d) Approx. 135 mm x 260 mm x 90 mm (including connectors) * Valid if all ports are terminated with 50-Ÿ loads. Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm 92 Clamp Set Hybrid Combiner 2:1 1710 – 2170 MHz • Designed for the decoupled combining of 2 transmitter or receiver signals onto one common antenna Port 3 • The frequency spacing between transmitter signals can be as small as required • Excellent intermodulation performance • Suitable for indoor or outdoor applications Port 1 Port 3 Antenna Tx1/Tx2/Rx1/Rx2 Port 2 Hybrid Combiner Port 1 Port 2 Tx1/Rx1 Tx2/Rx2 Technical Data 782 10502 Type No. Frequency range Attenuation Port 1 ↔ Port 3 Port 2 ↔ Port 3 Port 1 ↔ Port 2 1710 – 2170 MHz VSWR (all ports) < 1.25 3.1 ±0.5 dB 3.1 ±0.5 dB > 22 dB* 50 Ÿ Impedance Input power Port 1 Port 2 < 60 W < 60 W Intermodulation products < –160 dBc (3rd order; with 2 x 20 W) Temperature range –40 … +55 °C Connectors 7-16 female Application Mounting Indoor or outdoor (IP 66) Wall mounting: With 4 screws (max. 6 mm diameter) Mast mounting: With additional clamp set Dimensions (w x h x d) Approx. 135 mm x 260 mm x 90 mm (including connectors) * Valid if all ports are terminated with 50-Ÿ loads. Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm Clamp Set 93 Hybrid Transmitter Combiner 925 – 960 MHz The hybrid transmitter combiner allows two to four transmitters to be combined to a common antenna output. Special features: – very narrow spacing of the transmitting frequencies, down to adjacent channel spacing (3 dB/6 dB loss due to design principle) – very high isolation between Tx inputs due to built-in circulators – easy frequency changing as no tuning is required – low space requirement due to compact design Design and construction: The hybrid transmitter combiner uses hybrid ring junctions to combine the transmitters. Each transmitting path incorporates a wide-band dual circulator with integrated absorbers. The absorbers are dimensioned for a total reflection possibly occurring at the output. The dissipation power is fed to the surroundings via the ribbed housing. 791 600 Customized versions: – with a single circulator instead of dual circulator, if lower isolation between the Tx inputs is sufficient – with a band-pass filter at the output – with power monitoring feature – for higher power Antenna HR Tx 1 Tx 2 791 600 Technical Data Type No. Number of inputs 791 600 792 078 2 4 Frequency range 925 – 960 MHz Frequency spacing Insertion loss Isolation VSWR Tx inputs Antenna output HR 0 kHz < 3.9 dB < 7.2 dB > 70 dB 50 Ÿ Input power < 40 W each input Connectors Application Weight Packing size Dimensions (w x h x d) 94 HR < 1.2 < 1.4 Impedance Temperature range Antenna HR –20 … +50 °C N female Indoor 0.8 kg Approx. 107 x 95 x 215 mm 86 x 60 x 183 mm (including connectors) Approx. 1.8 kg Approx. 211 x 98 x 326 mm 172 x 60 x 262 mm (including connectors) Tx 1 Tx 2 Tx 3 792 078 HR = Hybrid ring junction Tx 4 Hybrid Transmitter Combiner 1805 – 1880 MHz The hybrid transmitter combiner allows two to four transmitters to be combined to a common antenna output. Special versions: – very narrow spacing of the transmitting frequencies, down to adjacent channel spacing (3 dB/6 dB loss due to design principle) – very high isolation between Tx inputs due to builtin circulators – easy frequency changing as no tuning is required – low space requirement due to compact design Design and construction: The hybrid transmitter combiner uses hybrid ring junctions to combine the transmitters. Each transmitting path includes a wide-band circulator with integrated absorbers. The absorbers are dimensioned for a possible total reflection occurring at the output. The dissipation power is fed to the surroundings via the ribbed housing. 791 962 Customized version: – with a dual circulator instead of single circulator to enhance isolation between the Tx inputs – with a band-pass filter at the output – with power monitoring feature – for higher power Antenna HR Tx 2 Tx 1 791 962 Technical Data Type No. Number of inputs Frequency range 791 962 792 079 2 4 1805 – 1880 MHz Frequency spacing Insertion loss Isolation VSWR Tx inputs Antenna output HR 0 kHz < 3.8 dB < 7.2 dB > 50 dB < 1.2 < 1.4 HR Impedance 50 Ÿ Input power < 40 W each input Temperature range Connectors Application Weight Packing size Dimensions (w x h x d) Antenna HR –20 … +50 °C SMA female Indoor 0.8 kg Approx. 107 x 95 x 202 mm Approx. 1.8 kg Approx. 211 x 98 x 314 mm 86 x 60 x 165 mm (including connectors) 172 x 60 x 244 mm (including connectors) Tx 1 Tx 2 Tx 3 Tx 4 792 079 HR = Hybrid ring junction 95 Hybrid Transmitter Combiner 1805 – 1880 MHz The hybrid transmitter combiner allows several transmitters to be combined to a common antenna output. Special versions: – high power hybrid combiner designed for cellular network base stations, more specifically for the PCN/DCS project – very narrow spacing of the transmitting frequencies, down to adjacent channel spacing – variable transmitter frequencies 7-16 Coupler N Coupler Design and construction: The hybrid transmitter combiner has three inputs and one output. For combining transmitters one 3 dB coupler and one 4.7 dB coupler are used as hybrid. In each transmitting path a wide-band dual circulator is inserted, which causes very high isolation. This effectively suppresses intermodulation products. The absorbers are dimensioned for a possible total reflection occurring at the output. The combiner also includes a band pass filter at the output. Technical Data Type No. 792 691 Number of inputs 3 Frequency range 1805 ... 1880 MHz Min. frequency spacing 0 kHz Insertion loss < 6 dB Isolation Stop band attenuation VSWR Input Output Impedance Intermodulation products Input power Temperature range > 65 dB > 75 dB (1710 – 1785 MHz) < 1.2 < 1.4 50 Ÿ Typically –150 dBc (3rd Order; with 2 x 20 W) < 100 W each input –10 … +50 °C Connectors N female Application Weight Indoor Approx. 5 kg Packing size Dimensions (19˝ drawer) 96 Approx. 555 mm x 500 mm x 270 mm Height 3 Units = 133 mm, plug in depth = 450 mm Decoupled Power Splitter 806 – 960 MHz The decoupled power splitter can be used: – for power distribution, e. g. from one common antenna to several receivers with frequency spacing as narrow as desired, – for power distribution, for example: from one transmitter to several outputs, – for decoupled combining of several transmitters with frequency spacing as narrow as desired (at 4.7 dB or 6 dB loss), – for decoupled combining of several transmitting/ receiving units, whose integrated duplexers are within the same frequency range. Function: The decoupled 3:1 power splitter has 3 inputs, one output,and 3 absorber ports. The decoupled 4:1 power splitter has 4 inputs, one output, and 4 absorber ports.The inputs are only decoupled if the absorber ports are terminated with 50-Ÿ loads of suitable power. 729 812 Dimensioning the external absorbers: The absorbers of the 3:1 power splitter must be dimensioned so that at least 2/3 of the power fed into the inputs can be absorbed. Example: If a power of 50 W is fed into every input, then the absorbers must be able to absorb 33 W each. 1:4 power splitter 729 812 Output (Antenna) The absorbers of the 4:1 power splitter must be dimensioned so that at least 3/4 of the power fed into the inputs can be absorbed. Example: If a power of 50 W is fed into every input, then the absorbers must be able to absorb 37 W each. E1 E2 E3 E4 A1 A2 A3 A4 Technical Data Type No. Power splitting ratio Frequency range Power dividing loss (including insertion loss) 728 044 729 812 1:3 power splitter 1:4 power splitter 1:3 1:4 806 – 960 MHz < 5.5 dB Isolation < 6.5 dB > 25 dB VSWR < 1.2 Impedance 50 Ÿ Input power < 100 W each input Connectors N female Application Mounting Weight Packing size Dimensions (w x h x d) Indoor With 2 screws (max. 4 mm diameter) 0.5 kg Connectors E1 … E4: inputs, decoupled Connectors A1 … A4: external 50-Ÿ absorbers 0.7 kg 175 mm x 95 mm x 140 mm 74 mm x 68 mm x 140 mm 114 mm x 68 mm x 140 mm (including connectors) Note: VSWR and attenuation values are measured when the remaining ports are terminated with 50-Ÿ loads. 97 Hybrid Ring Junction (180° Hybrid) 806 – 960 MHz / 1710 – 1880 MHz The hybrid ring junction can be used: – as a power splitter with a ratio of 1:1, – for the decoupled combining of two transmitters with arbitrarily low frequency spacing (at 3 dB loss), – for the decoupled combining of two receivers with arbitrarily low frequency spacing, – for the decoupled combining of two transmitter/receiver units, whose integrated duplexers are within the same frequency range, – as component to form combiners. Port 1 Port 2 Port 3 Port 4 K 63 73 621 790 881 Description: The hybrid ring junction has four ports, two of which are decoupled from each other. For example effective power entering into port 1 is distributed into ports 2 and 4, port 3 is decoupled and without power if ports 2 and 4 are ideally matched. In practice an absorber of suitable power at port 3 is to be planned for according to the mismatch of ports 2 and 4. Decoupled combining can be made via ports 1 and 3 or 2 and 4. Port 4 Port 1 Port 3 Port 2 2 791 498 h/4 h/4 1 3 h/4 3/4h 4 Technical Data Type No. Frequency range Attenuation 1 ↔ 2 or 1 ↔ 4 Attenuation 1 ↔ 3 or 2 ↔ 4 K 63 73 621 790 881 791 498 806 – 960 MHz 3 ±0.4 dB (see diagram I) 890 – 960 MHz 3 ±0.3 dB (see diagram I) 1710 – 1880 MHz 3 ±0.4 dB (see diagram I) See diagram II See diagram II VSWR < 1.2 < 1.3 Impedance 50 Ÿ 50 Ÿ Input power < 100 W per input < 50 W per input Connectors N female N female Application Mounting Indoor With 2 screws (max. 4.5 mm diameter) Indoor With 4 screws (max. 4.5 mm diameter) Weight Packing size Dimensions (w x h x d) 0.32 kg 0.25 kg Approx. 160 mm x 40 mm x 105 mm 90 mm x 40 mm x 110 mm 150 mm x 30 mm x 87 mm (including connectors) 80 mm x 26 mm x 106 mm (including connectors) Note: VSWR and attenuation values are measured when the remaining ports are terminated with 50-Ÿ loads. 98 Hybrid Ring Junction (180° Hybrid) 806 – 960 MHz / 1710 – 1880 MHz Typical Attenuation Curves Diagram II Typical attenuation 1 ↔ 2 and 1 ↔ 4 vs. frequency Attenuation 1 ↔ 3 or 2 ↔ 4 vs. frequency 20 2.5 1↔ ↔2 3.5 806 960 Frequency/MHz Attenuation 2 ↔ 4 / dB 1↔ ↔4 3.0 Attenuation 1 ↔ 3 / dB Attenuation 1 ↔ 2 / dB Attenuation 1 ↔ 4 / dB K 63 73 621 Diagram I 30 40 806 820 860 900 940 960 Frequency/MHz typical attenuation guaranteed attenuation Diagram II Typical attenuation 1 ↔ 2 and 1 ↔ 4 vs. frequency Attenuation 1 ↔ 3 or 2 ↔ 4 vs. frequency 20 2.5 1↔ ↔2 3.5 890 960 Frequency/MHz Attenuation 2 ↔ 4 / dB 1↔ ↔4 3.0 Attenuation 1 ↔ 3 / dB Attenuation 1 ↔ 2 / dB Attenuation 1 ↔ 4 / dB 790 881 Diagram I 30 40 890 910 930 950 960 Frequency/MHz typical attenuation guaranteed attenuation Diagram II Typical attenuation 1 ↔ 2 and 1 ↔ 4 vs. frequency Attenuation 1 ↔ 3 or 2 ↔ 4 vs. frequency 20 2.5 1↔4 1↔2 3.5 1710 1880 Frequency/MHz Attenuation 2 ↔ 4 / dB 3.0 Attenuation 1 ↔ 3 / dB Attenuation 1 ↔ 2 / dB Attenuation 1 ↔ 4 / dB 791 498 Diagram I 30 40 1700 1750 1800 1850 Frequency/MHz 1900 typical attenuation guaranteed attenuation 99 4.7-dB, 6-dB, 7-dB, 10-dB Coupler (90° Hybrid) 806 – 960 MHz The 4.7-dB coupler is used as a decoupled splitter for power splitting purposes at a 1 : 2 ratio. An effective power entering into e. g. port 1 is divided between the ports 2 and 3 at a ratio of 1 : 2. Thus 1/3 of the input power (attenuation: 4.7 dB) is available at port 2 and 2/3 of the input power is available at port 3. The 6-dB coupler is used as a decoupled splitter for power splitting purposes at a 1 : 3 ratio. An effective power entering into e. g. port 1 is divided between the ports 2 and 3 at a ratio of 1 : 3. Thus 1/4 of the input power (attenuation: 6 dB) is available at port 2 and 3/4 of the input power is available at port 3. 790 792 792 793 The 7-dB coupler is used as a decoupled splitter for power splitting purposes at a 1 : 4 ratio. An effective power entering into e. g. port 1 is divided between the ports 2 and 3 at a ratio of 1 : 4. Thus 1/5 of the input power (attenuation: 7 dB) is available at port 2 and 4/5 of the input power is available at port 3. The 10-dB coupler is used as a decoupled splitter for power splitting purposes at a 1 : 9 ratio. An effective power entering at e. g. port 1 is divided between the ports 2 and 3 at a ratio of 1 : 9. Thus 1/10 of the input power (attenuation: 10 dB) is available at port 2 and 9/10 of the input power is available at port 3. 213 170 180 107 1 3 2 4 Port 4 is decoupled and remains free of power if the ports 2 and 3 are ideally matched. In practice an absorber of suitable power at port 4 is to be planned in accordance with the mismatch of ports 2 and 3. Decoupled combining can be achieved via the diagonally opposite ports 2 and 3 respectively 1 and 4. Technical Data Type No. N female 7-16 female Version Frequency range Attenuation 1 ↔ 3 (4 ↔ 2) Attenuation 1 ↔ 2 (4 ↔ 3) Directivity VSWR Impedance Input power Application Mounting Weight Packing size Dimensions (w x h x d) N female 7-16 female 792 937 792 170 793 105 792 180 793 106 793 107 793 108 790 213 4.7-dB Coupler 6-dB Coupler 7-dB Coupler 10-dB Coupler 1.8 ±0.3 dB 4.7 ±0.5 dB 806 – 960 MHz 1.25 ±0.2 dB 1.0 ±0.2 dB 6.0 ±0.5 dB 7.0 ±0.5 dB > 27 dB < 1.1 50 Ÿ < 350 W total power Indoor With 2 screws (max. 5.5 mm diameter) 0.6 kg Approx. 300 mm x 65 mm x 115 mm 157 mm x 55 mm x 95 mm (including connectors) 157 mm x 55 mm x 84 mm (including connectors) Note: VSWR and attenuation values are measured when the remaining ports are terminated with 50-Ÿ loads. 100 0.5 ±0.2 dB 10 ±0.5 dB 4.7-dB, 6-dB, 7-dB, 10-dB Coupler (90° Hybrid) 1710 – 1900 MHz The 4.7-dB coupler is used as a decoupled splitter for power splitting purposes at a 1 : 2 ratio. An effective power entering into e. g. port 1 is divided between the ports 2 and 3 at a ratio of 1 : 2. Thus 1/3 of the input power (attenuation: 4.7 dB) is available at port 2 and 2/3 of the input power is available at port 3. The 6-dB coupler is used as a decoupled splitter for power splitting purposes at a 1 : 3 ratio. An effective power entering into e. g. port 1 is divided between the ports 2 and 3 at a ratio of 1 : 3. Thus 1/4 of the input power (attenuation: 6 dB) is available at port 2 and 3/4 of the input power is available at port 3. 792 792 792 792 The 7-dB coupler is used as a decoupled splitter for power splitting purposes at a 1 : 4 ratio. An effective power entering into e. g. port 1 is divided between the ports 2 and 3 at a ratio of 1 : 4. Thus 1/5 of the input power (attenuation: 7 dB) is available at port 2 and 4/5 of the input power is available at port 3. The 10-dB coupler is used as a decoupled splitter for power splitting purposes at a 1 : 9 ratio. An effective power entering at e. g. port 1 is divided between the ports 2 and 3 at a ratio of 1 : 9. Thus 1/10 of the input power (attenuation: 10 dB) is available at port 2 and 9/10 of the input power is available at port 3. 745 815 819 821 1 3 2 4 Port 4 is decoupled and remains free of power if the ports 2 and 3 are ideally matched. In practice an absorber of suitable power at port 4 is to be planned in accordance with the mismatch of ports 2 and 3. Decoupled combining can be achieved via the diagonally opposite ports 2 and 3 respectively 1 and 4. Technical Data Type No. N female 7-16 female Version Frequency range Attenuation 1 ↔ 3 (4 ↔ 2) Attenuation 1 ↔ 2 (4 ↔ 3) Directivity VSWR Impedance Input power Application Mounting Weight Packing size Dimensions (w x h x d) N female 7-16 female 792 817 792 745 792 820 792 819 792 822 792 821 792 816 792 815 4.7-dB Coupler 6-dB Coupler 7-dB Coupler 10-dB Coupler 1.8 ±0.3 dB 4.7 ±0.5 dB 1710 – 1900 MHz 1.25 ±0.2 dB 1.0 ±0.2 dB 6.0 ±0.5 dB 7.0 ±0.5 dB > 27 dB < 1.1 50 Ÿ < 350 W total power at two inputs, with max. 250 W at one input Indoor With 2 screws (max. 5.5 mm diameter) 0.5 kg Approx. 260 mm x 65 mm x 115 mm 0.5 ±0.2 dB 10 ±0.5 dB 111 mm x 55 mm x 95 mm (including connectors) 111 mm x 55 mm x 84 mm (including connectors) Note:VSWR and attenuation values are measured when the remaining ports are terminated with 50-Ÿ loads. 101 6-dB, 10-dB Coupler (90° Hybrid) 800 – 1900 MHz The 6-dB coupler is used as a decoupled splitter for power splitting purposes at a 1 : 3 ratio. An effective power entering into e. g. port 1 is divided between the ports 2 and 3 at a ratio of 1 : 3. Thus 1/4 of the input power (attenuation: 6 dB) is available at port 2 and 3/4 of the input power is available at port 3. The 10-dB coupler is used as a decoupled splitter for power splitting purposes at a 1 : 9 ratio. An effective power entering at e. g. port 1 is divided between the ports 2 and 3 at a ratio of 1 : 9. Thus 1/10 of the input power (attenuation: 10 dB) is available at port 2 and 9/10 of the input power is available at port 3. 792 965 792 967 Port 4 is decoupled and remains free of power if the ports 2 and 3 are ideally matched. In practice an absorber of suitable power at port 4 is to be planned in accordance with the mismatch of ports 2 and 3. Decoupled combining can be achieved via the diagonally opposite ports 2 and 3 respectively 1 and 4. 1 3 2 4 Technical Data Type No. N female 7-16 female Version Frequency range Attenuation 1 ↔ 3 (4 ↔ 2) Attenuation 1 ↔ 2 (4 ↔ 3) Directivity VSWR Impedance Input power Application Mounting Weight Packing size Dimensions (w x h x d) N female 7-16-female 792 964 792 965 792 966 792 967 6-dB Coupler 10-dB Coupler 800 – 1900 MHz 800 – 1900 MHz 1.5 ±0.5 dB (800 – 1900 MHz) 0.5 ±0.5 dB (800 – 1900 MHz) 6.0 ±1 dB (800 – 960 / 1700 – 1900 MHz) 10 ±1 dB (800 – 960 / 1700 – 1900 MHz) 6.0 –1.5 dB (960 – 1700 MHz) 10 –2 dB (960 – 1700 MHz) > 22 dB > 20 dB < 1.15 50 Ÿ < 350 W total power at two inputs, with max. 250 W at one input Indoor With 2 screws (max. 5.5 mm diameter) 0.5 kg 275 mm x 47 mm x 115 mm 135 mm x 40 mm x 95 mm (including connectors) 135 mm x 40 mm x 84 mm (including connectors) Note: VSWR and attenuation values are measured when the remaining ports are terminated with 50-Ÿ loads. 102 System Components System Components Bias Tees Measuring Directional Coupler Circulators DC-Stops Attenuators 50-Ÿ Loads Power Distribution Unit 103 Summary of Articles System Components: Description Type No. Measuring Directional Coupler 792 972 DC Stop Bias Tee Bias Tee Bias Tee Smart Bias Tee 12 V / BTS Smart Bias Tee 12 V / Antenna Smart Bias Tee 24 V / BTS Smart Bias Tee 24 V / Antenna Smart Bias Tee 12 V / BTS Smart Bias Tee 12 V / Antenna Smart Bias Tee 24 V / BTS Smart Bias Tee 24 V / Antenna Circulator Circulator Circulator Circulator Circulator Attenuator 3 dB Attenuator 6 dB Attenuator 10 dB Attenuator 20 dB Attenuator 3 dB Attenuator 6 dB Attenuator 10 dB Attenuator 20 dB Cable Attenuator Cable Absorber 800 – 2500 MHz 793 793 782 782 782 782 782 782 782 782 782 782 791 791 792 782 782 784 784 784 784 791 791 791 791 782 782 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ 50-Ÿ K 62 26 61 1 784 10367 784 10470 K 62 26 11 1 K 62 26 40 1 K 62 26 41 1 K 62 26 20 1 K 62 26 21 1 K 62 26 20 7 K 62 26 21 7 K 62 26 30 1 K 62 26 31 1 K 62 26 30 7 K 62 26 31 7 K 62 26 50 1 K 62 26 51 1 K 62 26 50 7 782 10474 Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load (N male) (7-16 male) (7-16 female) (N male) (N female) (N male) (N female) (N male) (7-16 female) (7-16 male) (N female) (N male) (7-16 female) (7-16 male) (N female) (N male) (7-16 female) (7-16 female) Description Power Distribution Unit (PDU) 104 301 304 10429 10550 10253 10254 10255 10256 10453 10454 10455 10456 375 376 763 10319 10320 10235 10236 10237 10238 918 919 920 921 10294 10295 Frequency range 824 – 960 960 – 2500 800 – 2170 800 – 2170 800 – 2170 1710 – 2170 800 – 2170 800 – 2170 800 – 2170 800 – 2170 800 – 2170 800 – 2170 800 – 2170 800 – 2170 890 – 960 890 – 960 1805 – 1880 1900 – 2200 1900 – 2200 0 – 4000 0 – 4000 0 – 4000 0 – 4000 0 – 4000 0 – 4000 0 – 4000 0 – 4000 400 – 2200 800 – 960 960 – 2500 0 – 2500 0 – 4000 0 – 4000 0 – 2500 0 – 2500 0 – 2500 0 – 2500 0 – 2500 0 – 2500 0 – 2500 0 – 2500 0 – 2500 0 – 2500 0 – 2500 0 – 1000 0 – 1000 0 – 1000 806 – 2500 Max. input power Page 800 W 200 W 750 W 250 W 250 W 250 W 750 W 750 W 750 W 750 W 750 W 750 W 750 W 750 W 150 W 150 W 100 W 120 W 120 W 2W 2W 2W 2W 15 W 12 W 10 W 10 W 100 W 150 W 100 W 0.5 W 1.5 W 1.5 W 2W 10 W 10 W 25 W 25 W 25 W 25 W 50 W 50 W 50 W 50 W 100 W 100 W 100 W 60 W 105 MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz 106 107 108 109 110, 111, 110, 111, 110, 111, 110, 111, 110, 111, 110, 111, 110, 111, 110, 111, 113 113 114 115 115 118 118 118 118 119 119 119 119 120 112 112 112 112 112 112 112 112 121 122 122 122 122 123 123 123 123 123 123 123 123 123 123 123 123 123 124 Type No. Power supply (DC input) Page 782 10344 38 ... 72 V DC 116, 117 Measuring Directional Coupler 824 – 2500 MHz The Measuring Directional Coupler provides measurement ports for monitoring the forward and reflected power of a RF signal. • Easy implementation into existing RF systems due to male/female connectors • Input and output ports are reciprocal in nature • Front panel mounting possible via flange • Suitable for indoor applications Forward Port Output Port Input Port Reflected Port 102.8 Technical Data Type No. Frequency range Insertion loss Input port → Output port Coupling attenuation Input port → Forward port Output port → Reflected port Directivity VSWR Input port, Output port Forward port, Reflected port Impedance Input power Intermodulation products Temperature range Connectors Input port Output port Forward port, Reflected port Application Mounting Weight Dimensions (w x h x d) 792 972 824 – 2500 MHz < 0.05 dB (824 – 2500 MHz) 32.0 ±0.75 dB (824 – 960 MHz) 28.5 ±1.50 dB (1710 – 2500 MHz) 32.0 ±0.75 dB (824 – 960 MHz) 28.5 ±1.50 dB (1710 – 2500 MHz) > 28 dB (824 – 2200 MHz)3 > 25 dB (2200 – 2500 MHz) < 1.04 (824 – 960 MHz) < 1.08 (960 – 2500 MHz) < 1.2 (824 – 2500 MHz) 50 Ÿ < 800 W (824 – 960 MHz) < 200 W (960 – 2500 MHz) < –160 dBc (3rd order; with 2 x 20 W) –20 … +55 °C 7-16 male 7-16 female MCX female Indoor Front panel mounting possible with 4 screws (max. 2.5 mm diameter) 0.26 kg 32 mm x 32 mm x 102.3 mm 105 DC Stop 800 – 2170 MHz DC Stop is used in dual- or multi-band antenna systems where one or more antenna systems require a DC supply for an installed mast head amplifier. The DC Stop prevents DC voltage from being shorted within the non-biased antenna system(s) and isolates the corresponding base station output(s) from DC voltage. • Low RF signal insertion loss • High DC signal isolation from port 1 to port 2 and vice versa • Suitable for indoor or outdoor applications 70.4 39.5 M29x1.5 8 32 Application Example Technical Data Type No. Frequency range Insertion loss Port 1 ↔ Port 2 Isolation Port 1 ↔ Port 2 VSWR Impedance Input power Intermodulation products Temperature range Connectors Port 1 Port 2 Application Weight Dimensions (w x h x d) 106 793 301 800 – 2170 MHz Port 2 < 0.1 dB (800 – 2170 MHz) Port 1 > 70 dB (DC) < 1.1 ( 800 – 2000 MHz) < 1.2 (2000 – 2170 MHz 50 Ÿ < 750 W (800 – 2170 MHz) < –160 dBc (3rd order; with 2 x 20 W) –40 ... +70 °C 7-16 male 7-16 female Indoor or outdoor (IP 66) 0.32 kg 70.4 mm x 39.5 mm x 32 mm (including connectors and earthing screw of 6 mm diameter) Bias Tee 800 – 2170 MHz The Bias Tee is suitable to feed DC voltage into the feeder cable of a receiving and/or transmitting antenna system in order to provide the operating voltage for a mast head amplifier. • The Bias Tee provides low RF signal insertion loss from the BTS to the antenna port and vice versa. • The DC voltage is fed from the DC port to the antenna port while providing a high level of DC isolation from the DC to the BTS port and from the antenna to the BTS port. • The measures taken to protect against static discharge and lightning ensure a high level of reliability and operational safety. 16 35.4 793 304 Bias Tee 800–2170 MHz Antenna BTS DC DC 6.5 6.5 28.5 47 88 Application Example Technical Data Type No. Frequency range Insertion loss BTS ↔ Antenna Isolation BTS ↔ Antenna BTS ↔ DC VSWR Impedance Input power BTS DC Intermodulation products Lightning protection Temperature range Connectors BTS Antenna Port DC Application Weight Packing size Dimensions (w x h x d) 793 304 Antenna 800 – 2170 MHz < 0.1 dB (800 – 2170 MHz) > 70 dB (DC) > 70 dB (DC) < 1.1 (800 – 2170 MHz) 50 Ÿ BTS Port DC < 250 W (800 – 2170 MHz) < 1000 mA / 0 ... +30 VDC < –160 dBc (3rd order; with 2 x 20 W) 5 kA, 8/20 +s pulse –40 ... +70 °C 7-16 male 7-16 female SMB male Indoor 0.6 kg 145 mm x 145 mm x 50 mm 88 mm x 47 mm x 35.4 mm (including connectors and earthing screw of 6 mm diameter) 107 Bias Tee 800 – 2170 MHz The Bias Tee is suitable to feed DC voltage and AISG control signals into the feeder cable in order to provide operating voltage and control signals via the RF feeder cable to the TMA or RCU. • The Bias Tee provides low RF signal insertion loss from the BTS to the antenna port and vice versa. • The DC voltage and AISG control signal (2.176 MHz) is fed from the DC port to the antenna port while providing a high level of DC isolation from the DC to the BTS port and from the antenna to the BTS port. • The measures taken in conjunction with the CCU-LOC to protect against static discharge and lightning ensure a high level of reliability and operational safety. 16 35.4 793 304 Bias Tee Bias Tee 800–2170 MHz 800–2170 MHz Antenna BTS Antenna BTS DC DC/AISG DC 6.5 6.5 28.5 47 88 Application Example Technical Data Type No. 782 10429 Frequency range Insertion loss BTS ↔ Antenna Isolation BTS ↔ Antenna BTS ↔ DC/AISG VSWR Impedance Input power BTS DC/AISG 800 – 2170 MHz Lightning protection Intermodulation products Temperature range Connectors Port 1 BTS Port 2 Antenna Port DC/AISG Application Weight Packing size Dimensions (w x h x d) 108 Port 2 Feeder < 0.1 dB (800 – 2170 MHz) > 70 dB (DC) > 70 dB (DC) < 1.1 (800 – 2170 MHz) 50 Ÿ < 250 W (800 – 2170 MHz) < 1.8 A / 13 VDC < 0.8 A / 29 VDC 3 kA, 10/350 +s pulse < –160 dBc (3rd order; with 2 x 20 W) –40 ... +70 °C 7-16 male 7-16 female SMB male Indoor 0.6 kg 145 mm x 145 mm x 50 mm 88 mm x 47 mm x 35.4 mm (including connectors and earthing screw of 6 mm diameter) Port 1 BTS Port DC/AISG Bias Tee 1710 – 2170 MHz The Bias Tee is suitable to feed DC voltage and AISG control signals into the feeder cable in order to provide operating voltage and control signals via the RF feeder cable to the TMA or RCU. • The Bias Tee provides low RF signal insertion loss from the BTS to the antenna port and vice versa. • The DC voltage and AISG control signal (2.176 MHz) is fed from the DC port to the antenna port while providing a high level of DC isolation from the DC to the BTS port and from the antenna to the BTS port. • The measures taken in conjunction with the CCU-LOC to protect against static discharge and lightning ensure a high level of reliability and operational safety • Designed for front panel mounting (Bulkhead version). outdoor indoor Front panel (bulkhead) Application Example Technical Data Type No. Frequency range Insertion loss BTS ↔ Antenna Isolation BTS ↔ Antenna BTS ↔ DC/AISG VSWR Impedance Input power BTS DC/AISG Lightning protection Intermodulation products Temperature range Connectors Port 1 BTS Port 2 Antenna Port DC/AISG Application Weight Packing size Dimensions (w x h x d) 782 10550 Port 1 BTS 1710 – 2170 MHz < 0.1 dB (1710 – 2170 MHz) > 70 dB (DC) > 70 dB (DC) < 1.1 (1710 – 2170 MHz) 50 Ÿ Port 2 Feeder < 250 W (1710 – 2170 MHz) < 1.8 A / 13 VDC < 0.8 A / 29 VDC 3 kA, 10/350 +s pulse; 20 kA, 8/20 +s pulse < –160 dBc (3rd order; with 2 x 20 W) –40 ... +70 °C 7-16 female 7-16 female SMB male Indoor, port 2 connector outdoor with sealing (O-ring) 0.6 kg 145 mm x 145 mm x 50 mm 91 mm x 47 mm x 35.4 mm (including connectors) 109 Smart Bias Tee 800 – 2170 MHz The Smart Bias Tee combines the performance of a standard Bias Tee (e.g. type 793 304) with the function of an additional modem (AISG standard) in order to provide either DC voltage as well as remote control signals via an RF feeder cable to a TMA or RCU. The Smart Bias Tee provides low RF signal insertion loss from port 1 to port 2 and vice versa.The measures taken to protect against static discharge and lightning ensure a high level of reliability and operational safety. • • Port 1 Antenna 782 10253, 782 10453: 12 V version for use near the BTS, in order to feed-in DC voltage and RCU control Port 2 Feeder signals into a feeder cable 782 10254, 782 10454: 12 V version for use near the antenna, in order to control an RCU (only required if no TMA is in use) • 782 10255, 782 10455: 24 V version for use near the BTS, in order to feed-in DC voltage and RCU control signals into a feeder cable • 782 10256, 78210456: 24 V version for use near the antenna, in order to control an RCU (only required if no TMA is in use) Abbreviations: RCU = Remote Control Unit for remote electrical control of antenna tilt BTS = Base Transceiver Station TMA = Tower Mounted Amplifier AISG= Antenna Interface Standards Group (version 1.1) Port 1 = Port for BTS or for Antenna Port 2 = Port for Feeder Cable Port 2 Feeder Port 1 Antenna Port DC/RCU Port DC/RCU 782 10454 782 10456 782 10254 782 10256 Port 1 BTS Port 2 Feeder Port 1 BTS Port 2 Feeder Port DC/RCU Port DC/RCU 782 10253 782 10255 782 10453 782 10455 Port DC/RCU = Port for DC voltage and remote control unit signals Technical Data Type No. Port 1: 7-16 male Port 2: 7-16 female Type No. Port 1: 7-16 female Port 2: 7-16 male Frequency range Insertion loss Port 1 ↔ Port 2 Isolation for DC and RCU signals Port 1 ↔ Port 2 Port 1 ↔ Port DC/RCU Port 2 ↔ Port DC/RCU VSWR Impedance Input power Port 1 or port 2 Port DC/RCU Power consumption Lightning protection Intermodulation products Temperature range Modem carrier frequency Application Weight Packing size Dimensions (w x h x d) 110 782 10253 782 10254 782 10255 782 10256 12 V / BTS 12 V / Antenna 24 V / BTS 24 V / Antenna BTS Feeder Antenna Feeder BTS Feeder Antenna Feeder 782 10453 782 10454 782 10455 782 10456 12 V / BTS 12 V / Antenna 24 V / BTS 24 V / Antenna BTS Feeder Antenna Feeder BTS Feeder Antenna Feeder 800 – 2170 MHz < 0.1 dB (800 – 2170 MHz) > 70 dB > 70 dB > 0 dB < 1.1 (800 – 2170 MHz) 50 Ÿ < 750 W (800 – 2170 MHz) < 2.5 A / +8 … +14 VDC < 750 W (800 – 2170 MHz) < 2.5 A / +8 … +30 VDC Typically 0.6 W 3 kA, 10/350 +s pulse < –160 dBc (3rd order; with 2 x 20 W) –40 ... +60 °C 2.176 MHz Indoor or outdoor (IP66) 1.3 kg 167 mm x 102 mm x 86 mm 108.7 mm x 76 mm x 42.8 mm (including connectors) Smart Bias Tee 800 – 2170 MHz Block diagrams Application Examples Port 1 (Antenna) Warning: 782 10254 (12V) or 782 10256 (24V) Port 2 (Feeder) Port DC/RCU (RCU) Port 2 (Feeder) Port DC/RCU (CCU) Don’t mix 12 V and 24 V Bias Tees in any configuration. Always choose corresponding voltage to suit the TMA. DC cable DC cable 782 10253 (12V) or 782 10255 (24V) Antenna system (1 sector) without TMA Port 1 (BTS) Port 1 (Antenna) Antenna system (1 sector) with Kathrein TMA Port DC/RCU (RCU) 782 10454 (12V) or 782 10456 (24V) Port 2 (Feeder) Port 2 (Feeder) 782 10453 (12V) or 782 10455 (24V) DC cable DC cable Port 1 (BTS) Port DC/RCU (CCU) Antenna system (1 sector) without TMA Antenna system (1 sector) with Kathrein TMA 111 Smart Bias Tee 800 – 2170 MHz 782 10253, 782 10255 782 10453, 782 10455 782 10254, 782 10256 782 10454, 782 10456 Please note: The Smart Bias Tees are designed to operate under the environmental conditions as described in ETS 300 019-1-4 class 4.1 E and have passed environmental tests as recommended in ETS 300 019-2-4. The installation team must be properly qualified and also be familiar with the relevant national safety regulations. The coupling torque at 7-16 connectors is 25 – 30 Nm! Hold the smart bias tee housing securely while tightening the 7-16 locking nut. The tightning torque for fixing the AISG connector must be 0.5 – 1.0 Nm (‘hand-tightened’). Pin connections 782 10253 782 10453 112 782 10254 782 10454 782 10255 782 10455 782 10256 782 10456 Circulator 890 – 960 MHz The circulator can be used: – to increase the coupling attenuation between transmitters, to reduce intermodulation products, – to prevent adverse effects of unmatched load impedance on amplifier performance. Function: The circulator is a non-reciprocal component with low insertion loss in the forward direction (1 → 2) and high attenuation in the reverse direction (2 → 1). The impedance at the input (1) of the circulator is constant and independent of the impedance of the components following. The reflected power at the output (2) is passed to the absorber port (3), which must be terminated with an absorber. 3 3 1 1 2 2 791 376 791 375 Dimensioning of the absorber: The absorber at port (3) must be dimensioned to be able to absorb the maximum power reflected at output (2). M3 / 6 deep Absorber connection Absorber connection Input 4x M3 / 4 deep Input Output 6x M3 / 4 deep Output 791 375 791 376 Technical Data Type No. 791 375 791 376 Single Stage Double Stage Frequency range 890 – 960 MHz Insertion loss 1 ↔ 2 < 0.2 dB Isolation 2 ↔ 1 > 25 dB VSWR 1, 2, 3 < 0.3 dB > 50 dB < 1.2 Impedance 50 Ÿ Input power < 150 W Temperature range Connectors Application Mounting Weight Packing size Dimensions (w x h x d) –10 … +55 °C N female Indoor With 2 screws (max. 3 mm diameter) 360 g 645 g 110 mm x 100 mm x 40 mm 160 mm x 90 mm x 40 mm 91 mm x 71 mm x 32 mm 142 mm x 71 mm x 32 mm (including connectors) 113 Circulator 1805 – 1880 MHz The circulator can be used: – to increase the coupling attenuation between transmitters, to reduce intermodulation products, – to prevent adverse effects of unmatched load impedance on amplifier performance. 3 Function: The circulator is a non-reciprocal component with low insertion loss in the forward direction (1 → 2) and high attenuation in the reverse direction (2 → 1). The impedance at the input (1) of the circulator is constant and independent of the impedance of the components following. The reflected power at the output (2) is passed to the absorber port (3), which must be terminated with an absorber. 1 2 792 763 Dimensioning of the absorber: The absorber at port (3) must be dimensioned to be able to absorb the maximum power reflected at output (2). Output Absorber connection Internal load 10 W Input Technical Data Type No. 792 763 Double Stage Frequency range Insertion loss 1 → 2 Isolation 2 ↔ 1 VSWR 1, 2, 3 Impedance Input power Temperature range Connectors Application Mounting Weight Packing size Dimensions (w x h x d) 114 1805 – 1880 MHz < 0.5 dB > 40 dB < 1.2 50 Ÿ < 100 W –10 … +60 °C N female Indoor With 4 screws (max. 3 mm diameter) 440 g 110 mm x 100 mm x 40 mm 113.2 mm x 59.7 mm x 27 mm (including connectors) Circulator 1900 – 2200 MHz 3 The circulator can be used: – to increase the coupling attenuation between transmitters, to reduce intermodulation products, – to prevent adverse effects of unmatched load impedance on amplifier performance. 1 Function: The circulator is a non-reciprocal component with low insertion loss in the forward direction (1 → 2) and high attenuation in the reverse direction (2 → 1). The impedance at the input (1) of the circulator is constant and independent of the impedance of the components following. The reflected power at the output (2) is passed to the absorber port (3), which must be terminated with an absorber. 2 782 10320 3 Dimensioning of the absorber: The absorber at port (3) must be dimensioned to be able to absorb the maximum power reflected at output (2). 1 2 782 10319 Technical Data Type No. 782 10319 782 10320 Single Stage Double Stage Frequency range 1900 – 2200 MHz Insertion loss 1 ↔ 2 < 0.3 dB Isolation 2 ↔ 1 > 23 dB VSWR 1, 2, 3 < 0.5 dB > 45 dB < 1.22 Impedance 50 Ÿ Input power < 120 W Temperature range –10 … +55 °C Connectors N female Application Mounting Indoor With 2 screws (max. 3 mm diameter) Weight Packing size Dimensions (w x h x d) 360 g 645 g 110 mm x 100 mm x 40 mm 160 mm x 90 mm x 40 mm 33 mm x 39 mm x 26 mm 65 mm x 39 mm x 26 mm (without connectors) 115 Power Distribution Unit (PDU) The PDU provides DC supply voltage and alarm interfacing for up to 6 TMAs / MHAs (Tower Mounted Amplifiers / Mast Head Amplifiers) with current window alarming. • Suitable for low DC power requirements, e.g. Kathrein DTMA 782 10301 (UMTS) or 782 10312 (GSM1800) Input Power supply • Alarm signals available on SubD 9-pin connector and LEDs Outputs DC supply voltage MHA1 ... MHA6 and Red alarm LEDs TMA failure Outputs Alarms Orange alarm LED Power supply failure • Bias Tees and cable sets for connection of up to 6 Bias Tees for servicing 6 TMAs (or 3 DTMAs = double TMAs) are available as accessories DIP switch MHA1 ... MHA6 disconnect Alarm interface function: Under normal operating conditions each TMA pulls the nominal current from the PDU. In case of failure when a TMA consumes a current outside the specified alarm window, then an internal TMA circuit pulls an increased alarm current. Once the respective TMA failure detection threshold is registered by the PDU, then the following alarms are activated: 1. The DC supply voltage for the defective TMA is switched off. 2. The corresponding red alarm LED lights up. 3. The contacts 4 and 5 on the SubD 9-pin connector are closed. In addition, the respective pins 1 (TMA1), 2 (TMA2), 3 (TMA3), 6 (TMA4), 7 (TMA5), or 8 (TMA6) are grounded. This contact status can be used for monitoring purposes. If required, the additional DIP switch can be used to override the individual alarm and turn off the respective TMA supply voltage (1 = supply voltage and red LED alarm OFF, 0 = supply voltage and red LED alarm ON). Technical Data 782 10344 Type No. Power supply (DC input) DC supply voltage (DC outputs to MHA1 ... MHA6) Failure detection threshold Alarms LED indicators SubD 9-pin connector Electrical protection against Temperature range Connectors Scope of delivery MTBF Mounting Application Weight Dimensions (w x h x d) 38 ... 72 V DC 6x +12 ±0.3 V / nominal current: 110 mA ±20% > 230 mA ±10% Red LED ON = TMA failure at indicated DC output Orange LED ON = power supply failure (back-up power supply in use), Green LED ON = power supply ON Contact pins 4 + 5 closed when failure detection threshold is exceeded = MHA or power supply failure Contact pins 1 ... 3, 6 ... 8 grounded when failure detection threshold is exceeded = MHA failure Reverse voltage on DC outputs Reverse polarity voltage, over-current and over-voltage on DC input (power supply) –40 ... +60 °C Power supply: DIN 3-pin male DC supply voltage: BNC female (6 x) Alarms: SubD 9-pin PDU, 3 m power supply cable with DIN 3-pin female connector, (brown (+), blue (–), green-yellow (grd) > 450 000 hours With 2 screws (M6) Indoor (IP20) 2.2 kg 19 ˝ drawer, 2 height units, plug-in depth 171 mm Accessories (order separately) Type No. Description Technical data 782 10388 Cable set 2 m (6 cables) Lenth: 2.0 m Cable type: RG 316 Connectors: BNC male / SMB female Voltage drop at 110 mA nominal current: < 0.2 V 782 10389 Cable set 5 m (6 cables) Lenth: 5.0 m Cable type: RG 316 Connectors: BNC male / SMB female Voltage drop at 110 mA nominal current: < 0.2 V Bias Tee Please see separate data sheet 793 304 Bias Tee 793 304 116 Power Distribution Unit (PDU) Detail Power supply connector Application example Antenna system (1 sector) with Kathrein PDU 782 10344, Bias Tees 793 304 and UMTS Douple TMA 782 10301 Detail SupD 9-pin connector SubD 9-pin connector and LED alarms SubD 9-pin connector pin # MHA1 MHA2 MHA3 MHA4 MHA5 MHA6 Power supply failure no failure 1 2 3 6 7 8 9 1 2 3 4 5 – – – – – grd ON – – – – – – ON open – – – – – grd OFF – – – – – – ON – grd – no failure – open – failure – – grd no failure – – open failure – – no failure – – 5 Green alarm LED grd failure 4 Orange alarm LED Red alarm LED # – – – grd – ON – – – – – ON – – – grd – OFF – – – – – ON – – – grd – – ON – – – – ON – – – grd – – OFF – – – – ON – grd – – grd – – – ON – – – ON – open – – grd – – – OFF – – – ON failure – – – no failure – – – failure – – no failure – failure no failure contacts closed if at least 1 failure 6 contacts open if no failure – grd – grd – – – – ON – – ON – open – grd – – – – OFF – – ON – – – grd grd – – – – – ON – ON – – – – open grd – – – – – OFF – ON – – – – – – grd – – – – – – ON ON – – – – – – grd – – – – – – OFF ON – contact status not defined grd contact grounded 117 Attenuator 2W 0 – 4000 MHz Air-cooled attenuator for low power rating • • • • Signal attenuation for test, measuring or tuning purposes Good matching over large frequency range Closed metal housing, very stable and RF proof Free choice of mounting position due to convection-cooling Technical Data Type No. Attenuation Frequency range VSWR 784 10235 784 10236 784 10237 784 10238 3 ±0.3 dB 6 ±0.3 dB 10 ±0.3 dB 20 ±0.5 dB 0 – 4000 MHz < 1.12 Impedance 50 Ÿ Max. power 2W Connectors N Application Indoor Weight Dimensions (L x diameter) 118 60 g 49 mm x 21 mm Attenuator 10 W – 15 W 0 – 4000 MHz Air-cooled attenuator for medium power rating • • • • Signal attenuation for test, measuring or tuning purposes Good matching over large frequency range Closed metal housing, very stable and RF proof Free choice of mounting position due to convection-cooling Technical Data 791 918 791 919 791 920 791 921 Attenuation 3 ±0.3 dB 6 ±0.3 dB 10 ±0.3 dB 20 ±0.5 dB Max. power 15 W 12 W 10 W 10 W Type No. Frequency range VSWR Impedance 0 – 4000 MHz < 1.15 50 Ÿ Connectors N Application Indoor Weight Dimensions (L x diameter) 70 g 50 mm x 26 mm 119 Cable Attenuator 100 W 400 – 2200 MHz • Attenuator for high input power • Contrary to standard attenuators, the cable attenuator provides excellent intermodulation performance • Suitable for indoor applications Technical Data 782 10294 Frequency range Attenuation 400 – 2200 MHz > 20 dB (400 MHz) > 50 dB (2200 MHz) VSWR < 1.15 (typically 1.08) Impedance Input power Intermodulation products Temperature range 400 – 2200 20 30 40 50 < 100 W 60 < –160 dBc (3rd order; with 2 x 20 W) 70 –20 … +50 °C 80 7-16 female Application Mounting Indoor 120 10 50 Ÿ Connectors Weight Dimensions (w x h x d) Attenuation/dB Type No. Typical Attenuation Curve 0 Wall mounting: With 4 screws (max. 7 mm diameter) 19˝ rack mounting: To be inserted on pre-installed 19˝ sliding bars (2 height units required) 11.5 kg 444 mm x 73.6 mm x 336 mm 90 100 300 500 700 900 1100 1300 1500 1700 1900 2100 2300 Frequency/MHz Cable Absorber 800 – 2500 MHz • 50-Ÿ load for high input power • Contrary to standard absorbers, the cable absorber provides excellent intermodulation performance • Suitable for indoor applications 444 421 11.5 58.5 300 316 336 4 95 25 ø7 143 7/16 5 30 10 18 M4 164 Technical Data Type No. Frequency range VSWR Impedance Input power Intermodulation products Temperature range Connectors Application Mounting Weight Packing size Dimensions (w x h x d) 782 10295 800 – 2500 MHz < 1.15 (typically 1.08) 50 Ÿ < 150 W (800 – 960 MHz) < 100 W (960 – 2500 MHz) < –160 dBc (3rd order; with 2 x 20 W) –20 … +50 °C 7-16 female Indoor Wall mounting: With 4 screws (max. 7 mm diameter) 19˝ rack mounting: To be inserted on pre-installed 19˝ sliding bars (2 height units required) Approx. 8.5 kg 510 mm x 410 mm x 100 mm 336 mm x 444 mm x 59 mm 121 Load 50 Ÿ 50-Ÿ loads are suited as absorbers for small and medium power. They are used: – as termination for transmitters or amplifiers used for testing, measuring or tuning, – as termination for circulators, directional couplers, hybrid ring junctions and decoupled power splitters. Special features of the loads are: – very low VSWR within a wide frequency range, – high stability and RF shielding due to the closed aluminium construction, – arbitrary installation position because of convectional cooling, – 50 W and 100 W models can be installed on front or rear panels of electrical equipment for heat dissipation. 0.5 Watt *) Type No. Connector Frequency range VSWR 0 – 1000 MHz VSWR1000 – 2000 MHz VSWR2000 – 2500 MHz Application Weight Packing size Dimensions K 62 26 61 1 N male 0 – 2500 MHz < 1.08 < 1.15 < 1.20 Indoor 40 g 90 mm x 60 mm x 25 mm 33 mm / 21 mm diameter K 62 26 61 1 1.5 Watt *) Type No. Connector Frequency range VSWR 0 – 2000 MHz VSWR 2000 – 4000 MHz IP rating Application Weight Packing size Dimensions 784 10367 784 10470 7-16 male 7-16 female 0 – 4000 MHz < 1.10 < 1.30 IP65 Outdoor 120 g Approx. 50 mm x 90 mm x 100 mm 40 mm / 32 mm diameter 42 mm / 29 mm diameter 784 10367 2 Watt *) Type No. Connector Frequency range VSWR 0 – 1000 MHz VSWR 1000 – 2000 MHz VSWR 2000 – 2500 MHz Application Weight Packing size Dimensions 122 K 62 26 11 1 N male 0 – 2500 MHz < 1.08 < 1.15 < 1.20 Indoor 40 g 90 mm x 60 mm x 25 mm 30 mm / 21 mm diameter K 62 26 11 1 Load 50 Ÿ 10 Watt *) Type No. Connector Frequency range VSWR 0 – 1000 MHz V 1000 – 2000 MHz VSW R2000 – 2200 MHz VSW R2200 – 2500 MHz Application Weight Packing size Dimensions (w x h x d) by mm K 62 26 40 1 K 62 26 41 1 N female N male 0 – 2500 MHz < 1.08 < 1.15 < 1.20 < 1.25 Indoor Approx. 250 g 50 mm x 90 mm x 100 mm 40 x 82 x 77 40 x 82 x 85 (incl. connector) (incl. connector) K 62 26 40 1 25 Watt *) Type No. Connector Frequency range VSWR 0 – 1000 MHz VSWR1000 – 2000 MHz VSWR2000 – 2500 MHz Application Weight Packing size Dimensions by mm (w x h x d) K 62 26 20 1 N female K 62 26 21 1 K 62 26 20 7 K 62 26 21 7 35 x 94 x 113 (incl. connector) N male 7-16 female 0 – 2500 MHz < 1.08 < 1.15 < 1.20 Indoor Approx. 500 g 50 mm x 100 mm x 135 mm 35 x 94 x 121 35 x 94 x 125 (incl. connector) (incl. connector) 7-16 male 35 x 94 x 124 (incl. connector) K 62 26 30 1 K 62 26 31 1 K 62 26 31 7 K 62 26 20 1 50 Watt *) Type No. Connector Frequency range VSWR 0 – 1000 MHz VSWR1000 – 2000 MHz VSWR2000 – 2500 MHz Application Weight Packing size Dimensions by mm (w x h x d) N female 67 x 90 x 130 (incl. connector) K 62 26 30 7 N male 7-16 female 0 – 2500 MHz < 1.08 < 1.15 < 1.20 Indoor Approx. 800 g 80 mm x 95 mm x 145 mm 67 x 90 x 138 67 x 90 x 134 (incl. connector) (incl. connector) 7-16 male K 62 26 30 1 67 x 90 x 133 (incl. connector) 100 Watt *) Type No. Connector Frequency range VSWR 0 – 1000 MHz Application Weight Packing size Dimensions by mm (w x h x d) K 62 26 50 1 K 62 26 51 1 K 62 26 50 7 N female N male 7-16 female 0 – 1000 MHz < 1.08 Indoor Approx. 2.4 kg 130 mm x 195 mm x 180 mm 114 x 153 x 156 114 x 161 x 156 114 x 170 x 156 (including connector) (including connector) (including connector) K 62 26 50 1 *) Rated power at 40 °C ambient temperature. The max. power rating increases or decreases with falling or rising ambient temperature. 123 50-Ÿ Load Low intermodulation • Designed as 50-Ÿ termination wherever improved intermodulation performance compared to standard loads is required • Ready for wall or mast mounting • Suitable for indoor or outdoor applications Technical Data Type No. 782 10474 Frequency range 806 – 2500 MHz VSWR (all ports) < 1.12 Impedance 50 Ÿ Input power < 60 W (if mounted vertically) < –160 dBc (3rd order; with 2 x 20 W) Intermodulation products Temperature range –40 … +50 °C Connectors 7-16 female Application Mounting Indoor or outdoor (IP 66) Wall mounting: With 4 screws (max. 5 mm diameter) Mast mounting: With additional clamp set Approx. 137 mm x 190 mm x 72 mm (including connector) Dimensions (w x h x d) Mounting note: The connector should always point downwards if mounted outdoors. Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm 124 Clamp Set DTMAs DTMAs 125 126 Summary of Articles DTMAs: Description Type No. Frequency range Gain Page DTMA-GSM1800-12-CWA 782 10312 UL: 1710 – 1785 / DL: 1805 – 1880 MHz 12 dB 128, 129 DTMA-GSM1800-24-CWA 782 10313 UL: 1710 – 1785 / DL: 1805 – 1880 MHz 24 dB 130, 131 DTMA-GSM1800-12-AISG 782 10315 UL: 1710 – 1785 / DL: 1805 – 1880 MHz 12 dB 132, 133 DTMA-GSM1800-24-AISG 782 10316 UL: 1710 – 1785 / DL: 1805 – 1880 MHz 24 dB 134, 135 DTMA-GSM1900-12-CWA 782 10400 UL: 1850 – 1910 / DL: 1930 – 1990 MHz 12 dB 136, 137 DTMA-GSM1900-24-CWA 782 10401 UL: 1850 – 1910 / DL: 1930 – 1990 MHz 24 dB 138, 139 DTMA-GSM1900-12-AISG 782 10403 UL: 1850 – 1910 / DL: 1930 – 1990 MHz 12 dB 140, 141 DTMA-GSM1900-24-AISG 782 10404 UL: 1850 – 1910 / DL: 1930 – 1990 MHz 24 dB 142, 143 DTMA-1900-850 BYP-12-AISG 782 10406 UL: 1850 – 1910 / DL: 1930 – 1990 MHz 12 dB 144, 145 DTMA-UMTS-12-CWA 782 10301 UL: 1920 – 1980 / DL: 2110 – 2170 MHz 12 dB 146, 147 DTMA-UMTS-24-CWA 782 10302 UL: 1920 – 1980 / DL: 2110 – 2170 MHz 24 dB 148, 149 DTMA-UMTS-12-AISG 782 10147 UL: 1920 – 1980 / DL: 2110 – 2170 MHz 12 dB 150, 151 DTMA-UMTS-24-AISG 782 10148 UL: 1920 – 1980 / DL: 2110 – 2170 MHz 24 dB 152, 153 DTMA-UMTS-12-AISG-CWA 782 10151 UL: 1920 – 1980 / DL: 2110 – 2170 MHz 12 dB 154, 155 UL = Up Link DL = Down Link DTMA Arrangement, Mounting Hardware: Description Type No. for mast diameter Page 3-sector clamp kit 782 10347 88.9 mm 156 3-sector clamp kit 782 10348 114.3 mm 156 3-sector clamp kit 782 10349 139.7 mm 156 127 DTMA-GSM1800-12-CWA Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) • Double unit for easy use with XPol antennas • Kathrein redundancy amplifier design for improved system reliability • By-pass mode to ensure cell operation in case of TMA (Alarm 2) or DC power down • Alarm management: Supports 2 alarm levels Alarm 1: One LNA of the balanced circuit failed Alarm 2: Both LNAs of the balanced circuit failed. Automatically switched to by-pass mode • Built-in lightning protection • Compact size • DTMA DC supply and alarming separately via BTS 0 respectively BTS 1 port Ant 1 Ant 0 CWA = Current Window Alarm Technical Data 782 10312 Type No. BTS 0 DTMA-GSM1800-12-CWA (12 dB gain) Tx Characteristics Frequency range Bandwidth Insertion loss Input power Intermodulation products in Rx band Return loss Rx Characteristics Frequency range Bandwidth (BW) Loss in by-pass mode Return loss Gain Noise figure +22 … +28 °C –40 … +65 °C +22 … +28 °C Noise figure –40 … +65 °C Output 1-dB compression point 3rd order intercept point (OIP3) Environmental Characteristics Operating temperature range IP rating MTBF EMC DC and Alarm Characteristics DC supply Alarm management Alarm current Pa Mechanical Characteristics Material RF connectors Mounting Weight Packing size Dimensions (w x h x d) 128 BTS 1 1805 – 1880 MHz 75 MHz < 0.45 dB over the middle 80% of BW, a further 0.25 dB over the remaining BW. < 160 W (+52 dBm) CW < –117 dBm (2 Tx carriers at +43 dBm) > 18 dB 1710 – 1785 MHz 75 MHz < 2.8 dB typically > 18 dB (DC ON) > 15 dB By-pass mode 12 ±0.7 dB 12 ±1.3 dB < 1.7 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. < 2.2 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. > 15 dBm > 25 dBm –40 … +65 °C IP67 > 1 000 000 hours (per TMA) ETS 300 342-3 +12 V nominal (7.5 – 15 V, minus grounded) Typically 110 mA per TMA Current window alarm handling Alarm 1: Pa > 230 mA Alarm 2: Pa > 330 mA Aluminium housing 7-16 female Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 5 kg 262 mm x 502 mm x 214 mm 166 mm x 278 mm x 77.5 mm (without connectors, without mounting brackets) Ant 0 Ant 1 DTMA BTS 0 BTS 1 DTMA-GSM1800-12-CWA Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm M8 x 10 Grounding screw BTS ANT 129 DTMA-GSM1800-24-CWA Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) • Double unit for easy use with XPol antennas • Kathrein redundancy amplifier design for improved system reliability • By-pass mode to ensure cell operation in case of TMA (Alarm 2) or DC power down • Alarm management: Supports 2 alarm levels Alarm 1: One LNA of the balanced circuit failed Alarm 2: Both LNAs of the balanced circuit failed. Automatically switched to by-pass mode • Built-in lightning protection • Compact size • DTMA DC supply and alarming separately via BTS 0 respectively BTS 1 port Ant 1 Ant 0 CWA = Current Window Alarm Technical Data 782 10313 Type No. BTS 0 DTMA-GSM1800-24-CWA (24 dB gain) Tx Characteristics Frequency range Bandwidth Insertion loss Input power Intermodulation products in Rx band Return loss Rx Characteristics Frequency range Bandwidth (BW) Loss in by-pass mode Return loss BTS 1 1805 – 1880 MHz 75 MHz < 0.45 dB over the middle 80% of BW, a further 0.25 dB over the remaining BW. < 160 W (+52 dBm) CW < –117 dBm (2 Tx carriers at +43 dBm) > 18 dB Output 1-dB compression point 3rd order intercept point (OIP3) 1710 – 1785 MHz 75 MHz < 2.8 dB typically > 18 dB (DC ON) > 15 dB By-pass mode 24 ±0.6 dB 24 ±1.2 dB < 1.6 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. < 2.1 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. > 19 dBm > 28 dBm Environmental Characteristics Operating temperature range IP rating MTBF EMC –40 … +65 °C IP67 > 1 000 000 hours (per TMA) ETS 300 342-3 Gain Noise figure +22 … +28 °C –40 … +65 °C +22 … +28 °C Noise figure –40 … +65 °C DC and Alarm Characteristics DC supply Alarm management Alarm current Pa +12 V nominal (7.5 – 15 V, minus grounded) Typically 230 mA per TMA Current window alarm handling Alarm 1: Pa > 310 mA Alarm 2: Pa > 500 mA Mechanical Characteristics Material Aluminium housing RF connectors 7-16 female Mounting Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set Weight 5 kg Packing size 262 mm x 502 mm x 214 mm Dimensions (w x h x d) 166 mm x 278 mm x 77.5 mm (without connectors, without mounting brackets) 130 BTS 0 BTS 1 Ant 0 Ant 1 DTMA BTS 0 BTS 1 DTMA-GSM1800-24-CWA Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm M8 x 10 Grounding screw BTS ANT 131 DTMA-GSM1800-12-AISG Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) • Double unit for easy use with XPol antennas • Kathrein redundancy amplifier design for improved system reliability • By-pass mode to ensure cell operation in case of DC power down • Built-in lightning protection • Compact size • Suitable for antenna RET control according to AISG standard • DTMA DC supply and AISG feed via BTS 0 port for both TMAs Ant 1 Ant 0 RET = Remote Electrical Tilt AISG = Antenna Interface Standards Group Technical Data 782 10315 Type No. DTMA-GSM1800-12-AISG (12 dB gain) Tx Characteristics Frequency range Bandwidth Insertion loss Input power Intermodulation products in Rx band Return loss Rx Characteristics Frequency range Bandwidth (BW) Loss in by-pass mode Return loss 1805 – 1880 MHz 75 MHz < 0.45 dB over the middle 80% of BW, a further 0.25 dB over the remaining BW. < 160 W (+52 dBm) CW < –117 dBm (2 Tx carriers at +43 dBm) > 18 dB Output 1-dB compression point 3rd order intercept point (OIP3) 1710 – 1785 MHz 75 MHz < 2.8 dB typically > 18 dB (DC ON) > 15 dB By-pass mode 12 ±0.7 dB 12 ±1.3 dB < 1.7 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. < 2.2 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. > 15 dBm > 25 dBm Environmental Characteristics Operating temperature range IP rating MTBF EMC –40 … +65 °C IP67 > 1 000 000 hours (per TMA) ETS 300 342-3 Gain Noise figure +22 … +28 °C –40 … +65 °C +22 … +28 °C Noise figure –40 … +65 °C DC and Alarm Characteristics DC supply without RET Alarm management Modem Characteristics RET Through BTS 0 Port only +12 V nominal (9 – 15 V, minus grounded) Typically 150 mA per TMA According to AISG standard 1.1 According to AISG standard 1.1 (Data rate: 9.6 kB) Mechanical Characteristics Material Aluminium housing Connectors RF 7-16 female AISG Connector 8-pin female, IEC 60130-9 (Compliance AISG 1.1) (Pin 1: +12 V DC nominal, pin 3: RS485B, pin 5: RS485A, pin 7: DC return; other pins: Not connected) Mounting Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set Weight 5 kg Packing size 262 mm x 502 mm x 214 mm Dimensions (w x h x d) 166 mm x 278 mm x 77.5 mm (without connectors, without mounting brackets) 132 BTS 0 AISG and DC-Port Ant 0 Ant 1 DTMA BTS 0 BTS 1 BTS 1 DTMA-GSM1800-12-AISG Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm M8 x 10 Grounding screw BTS ANT 133 DTMA-GSM1800-24-AISG Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) • Double unit for easy use with XPol antennas • Kathrein redundancy amplifier design for improved system reliability • By-pass mode to ensure cell operation in case of DC power down • Built-in lightning protection • Compact size • Suitable for antenna RET control according to AISG standard • DTMA DC supply and AISG feed via BTS 0 port for both TMAs Ant 1 Ant 0 RET = Remote Electrical Tilt AISG = Antenna Interface Standards Group Technical Data 782 10316 Type No. DTMA-GSM1800-24-AISG (24 dB gain) Tx Characteristics Frequency range Bandwidth Insertion loss Input power Intermodulation products in Rx band Return loss Rx Characteristics Frequency range Bandwidth (BW) Loss in by-pass mode Return loss 1805 – 1880 MHz 75 MHz < 0.45 dB over the middle 80% of BW, a further 0.25 dB over the remaining BW. < 160 W (+52 dBm) CW < –117 dBm (2 Tx carriers at +43 dBm) > 18 dB Output 1-dB compression point 3rd order intercept point (OIP3) 1710 – 1785 MHz 75 MHz < 2.8 dB typically > 18 dB (DC ON) > 15 dB By-pass mode 24 ±0.6 dB 24 ±1.2 dB < 1.6 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. < 2.1 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. > 19 dBm > 28 dBm Environmental Characteristics Operating temperature range IP rating MTBF EMC –40 … +65 °C IP67 > 1 000 000 hours (per TMA) ETS 300 342-3 Gain Noise figure +22 … +28 °C –40 … +65 °C +22 … +28 °C Noise figure –40 … +65 °C DC and Alarm Characteristics DC supply without RET Alarm management Modem Characteristics Mechanical Characteristics Material Connectors RF AISG Connector (Compliance AISG 1.1) Mounting Weight Packing size Dimensions (w x h x d) 134 BTS 0 AISG and DC-Port RET BTS 1 Through BTS 0 Port only +12 V nominal (9 – 15 V, minus grounded) Typically 250 mA per TMA According to AISG standard 1.1 According to AISG standard 1.1 (Data rate: 9.6 kB) Aluminium housing 7-16 female 8-pin female, IEC 60130-9 (Pin 1: +12 V DC nominal, pin 3: RS485B, pin 5: RS485A, pin 7: DC return; other pins: Not connected) Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 5 kg 262 mm x 502 mm x 214 mm 166 mm x 278 mm x 77.5 mm (without connectors, without mounting brackets) Ant 0 Ant 1 DTMA BTS 0 BTS 1 DTMA-GSM1800-24-AISG Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm M8 x 10 Grounding screw BTS ANT 135 DTMA-GSM1900-12-CWA Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) • Double unit for easy use with XPol antennas • Kathrein redundancy amplifier design for improved system reliability • By-pass mode to ensure cell operation in case of TMA (Alarm 2) or DC power down • Alarm management: Supports 2 alarm levels Alarm 1:One LNA of the balanced circuit failed Alarm 2:Both LNAs of balanced circuit failed. Automatically switched to by-pass mode • Built-in lightning protection • Compact size • DTMA DC supply and alarming separately via BTS 0 respectively BTS 1 port Ant 1 Ant 0 CWA = Current Window Alarm Technical Data 782 10400 Type No. BTS 0 DTMA-GSM1900-12-CWA (12 dB gain) Tx Characteristics Frequency range Bandwidth Insertion loss Input power Intermodulation products in Rx band Return loss Rx Characteristics Frequency range Bandwidth Loss in by-pass mode Return loss 1930 – 1990 MHz 60 MHz < 0.5 dB over the middle 80% of BW, a further 0.25 dB over the remaining BW. < 160 W (+52 dBm) CW < –117 dBm (2 Tx carriers at +43 dBm) > 18 dB Output 1-dB compression point 3rd order intercept point (OIP3) 1850 – 1910 MHz 60 MHz < 2.8 dB typically > 18 dB (DC ON) > 15 dB (DC OFF) 12 ±0.7 dB 12 ±1.3 dB < 1.7 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. < 2.2 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. > 15 dBm > 25 dBm Environmental Characteristics Operating temperature range IP rating MTBF EMC –40 … +65 °C IP67 > 1 000 000 hours (per TMA) ETS 300 342-3 Gain Noise figure +22 … +28 °C –40 … +65 °C +22 … +28 °C Noise figure –40 … +65 °C DC and Alarm Characteristics DC supply Alarm management Alarm current Pa +12 V nominal (7.5 – 15 V, minus grounded) Typically 110 mA per TMA Current window alarm handling Alarm 1: Pa > 230 mA Alarm 2: Pa > 330 mA Mechanical Characteristics Material Aluminium housing RF connectors 7-16 female Mounting Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set Weight 5 kg Packing size 262 mm x 502 mm x 214 mm Dimensions (w x h x d) 166 mm x 278 mm x 77.5 mm (without connectors, without mounting brackets) 136 BTS 1 Ant 0 Ant 1 DTMA BTS 0 BTS 1 DTMA-GSM1900-12-CWA Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm M8 x 10 Grounding screw BTS ANT 137 DTMA-GSM1900-24-CWA Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) • Double unit for easy use with XPol antennas • Kathrein redundancy amplifier design for improved system reliability • By-pass mode to ensure cell operation in case of TMA (Alarm 2) or DC power down • Alarm management: Supports 2 alarm levels Alarm 1: One LNA of the balanced circuit failed Alarm 2: Both LNAs of balanced circuit failed. Automatically switched to by-pass mode • Built-in lightning protection • Compact size • DTMA DC supply and alarming separately via BTS 0 respectively BTS 1 port Ant 1 Ant 0 CWA = Current Window Alarm Technical Data Type No. 782 10401 BTS 0 DTMA-GSM1900-24-CWA (24 dB gain) Tx Characteristics Frequency range Bandwidth Insertion loss Input power Intermodulation products in Rx band Return loss Rx Characteristics Frequency range Bandwidth Loss in by-pass mode Return loss 1930 – 1990 MHz 60 MHz < 0.5 dB over the middle 80% of BW, a further 0.25 dB over the remaining BW. < 160 W (+52 dBm) CW < –117 dBm (2 Tx carriers at +43 dBm) > 18 dB Output 1-dB compression point 3rd order intercept point (OIP3) 1850 – 1910 MHz 60 MHz < 2.8 dB typically > 18 dB (DC ON) > 15 dB (DC OFF) 24 ±0.6 dB 24 ±1.2 dB < 1.6 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. < 2.1 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. > 19 dBm > 28 dBm Environmental Characteristics Operating temperature range IP rating MTBF EMC –40 … +65 °C IP67 > 1 000 000 hours (per TMA) ETS 300 342-3 Gain +22 … +28 °C –40 … +65 °C Noise figure +22 … +28 °C Noise figure –40 … +65 °C DC and Alarm Characteristics DC supply Alarm management Alarm current Pa +12 V nominal (7.5 – 15 V, minus grounded) Typically 230 mA per TMA Current window alarm handling Alarm 1: Pa > 310 mA Alarm 2: Pa > 500 mA Mechanical Characteristics Material Aluminium housing RF connectors 7-16 female Mounting Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set Weight 5 kg Packing size 262 mm x 502 mm x 214 mm Dimensions (w x h x d) 166 mm x 278 mm x 77.5 mm (without connectors, without mounting brackets) 138 BTS 1 Ant 0 Ant 1 DTMA BTS 0 BTS 1 DTMA-GSM1900-24-CWA Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm M8 x 10 Grounding screw BTS ANT 139 DTMA-GSM1900-12-AISG Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) • Double unit for easy use with XPol antennas • Kathrein redundancy amplifier design for improved system reliability • By-pass mode to ensure cell operation in case of DC power down • Built-in lightning protection • Compact size • Suitable for antenna RET control according to AISG standard • DTMA DC supply and AISG feed via BTS 0 port for both TMAs Ant 1 Ant 0 RET = Remote Electrical Tilt AISG = Antenna Interface Standards Group Technical Data 782 10403 Type No. DTMA-GSM1900-12-AISG (12 dB gain) Tx Characteristics Frequency range Bandwidth Insertion loss Input power Intermodulation products in Rx band Return loss Rx Characteristics Frequency range Bandwidth Loss in by-pass mode Return loss Gain Noise figure +22 … +28 °C –40 … +65 °C +22 … +28 °C Noise figure –40 … +65 °C Output 1-dB compression point 3rd order intercept point (OIP3) Environmental Characteristics Operating temperature range IP rating MTBF EMC DC and Alarm Characteristics DC supply without RET Alarm management Modem Characteristics 1930 – 1990 MHz 60 MHz < 0.5 dB over the middle 80% of BW, a further 0.25 dB over the remaining BW. < 160 W (+52 dBm) CW < –117 dBm (2 Tx carriers at +43 dBm) > 18 dB RET BTS 1 1850 – 1910 MHz 60 MHz < 2.8 dB typically > 18 dB (DC ON) > 15 dB (DC OFF) 12 ±0.7 dB 12 ±1.3 dB < 1.7 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. < 2.2 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. > 15 dBm > 25 dBm –40 … +65 °C IP67 > 1 000 000 hours (per TMA) ETS 300 342-3 Through BTS 0 Port only +12 V nominal (9 – 15 V, minus grounded) Typically 150 mA per TMA According to AISG standard 1.1 According to AISG standard 1.1 (Data rate: 9.6 kB) Mechanical Characteristics Material Aluminium housing Connectors RF 7-16 female AISG Connector 8-pin female, IEC 60130-9 (Compliance AISG 1.1) (Pin 1: +12 V DC nominal, pin 3: RS485B, pin 5: RS485A, pin 7: DC return; other pins: Not connected) Mounting Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set Weight 5 kg Packing size 262 mm x 502 mm x 214 mm Dimensions (w x h x d) 166 mm x 278 mm x 77.5 mm (without connectors, without mounting brackets) 140 BTS 0 AISG and DC-Port Ant 0 Ant 1 DTMA BTS 0 BTS 1 DTMA-GSM1900-12-AISG Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm M8 x 10 Grounding screw BTS ANT 141 DTMA-GSM1900-24-AISG Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) • Double unit for easy use with XPol antennas • Kathrein redundancy amplifier design for improved system reliability • By-pass mode to ensure cell operation in case of DC power down • Built-in lightning protection • Compact size • Suitable for antenna RET control according to AISG standard • DTMA DC supply and AISG feed via BTS 0 port for both TMAs Ant 1 Ant 0 RET = Remote Electrical Tilt AISG = Antenna Interface Standards Group Technical Data 782 10404 Type No. DTMA-GSM1900-24-AISG (24 dB gain) Tx Characteristics Frequency range Bandwidth Insertion loss Input power Intermodulation products in Rx band Return loss Rx Characteristics Frequency range Bandwidth Loss in by-pass mode Return loss Gain Noise figure +22 … +28 °C –40 … +65 °C +22 … +28 °C Noise figure –40 … +65 °C Output 1-dB compression point 3rd order intercept point (OIP3) Environmental Characteristics Operating temperature range IP rating MTBF EMC DC and Alarm Characteristics DC supply without RET Alarm management Modem Characteristics Mechanical Characteristics Material Connectors RF AISG Connector (Compliance AISG 1.1) Mounting Weight Packing size Dimensions (w x h x d) 142 1930 – 1990 MHz 60 MHz < 0.5 dB over the middle 80% of BW, a further 0.25 dB over the remaining BW. < 160 W (+52 dBm) CW < –117 dBm (2 Tx carriers at +43 dBm) > 18 dB BTS 0 AISG and DC-Port RET BTS 1 1850 – 1910 MHz 60 MHz < 2.8 dB typically > 18 dB (DC ON) > 15 dB (DC OFF) 24 ±0.6 dB 24 ±1.2 dB < 1.6 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. < 2.1 dB over the middle 80% of BW, a further 0.3 dB over the remaining BW. > 19 dBm > 28 dBm –40 … +65 °C IP67 > 1 000 000 hours (per TMA) ETS 300 342-3 Through BTS 0 Port only +12 V nominal (9 – 15 V, minus grounded) Typically 250 mA per TMA According to AISG standard 1.1 According to AISG standard 1.1 (Data rate: 9.6 kB) Aluminium housing Ant 0 7-16 female 8-pin female, IEC 60130-9 (Pin 1: +12 V DC nominal, pin 3: RS485B, pin 5: RS485A, pin 7: DC return; other pins: Not connected) Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 5 kg 262 mm x 502 mm x 214 mm 166 mm x 278 mm x 77.5 mm (without connectors, without mounting brackets) Ant 1 DTMA BTS 0 BTS 1 DTMA-GSM1900-24-AISG Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm M8 x 10 Grounding screw BTS ANT 143 DTMA-1900-850 BYP-12-AISG Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) • Double unit for easy use with XPol antennas • RF-Bypass feature for 850 MHz • DC-stop integrated to 850 MHz ports • Kathrein redundancy amplifier design for improved system reliability • Bypass mode to ensure cell operation in case of DC power down • Built-in lightning protection • Compact size • Suitable for antenna RET control according to AISG standard • DTMA DC supply and AISG feed via BTS 0 port for both TMAs Ant 1 Ant 0 Ant 0 RET = Remote Electrical Tilt AISG = Antenna Interface Standards Group BYP = RF-BYPass Technical Data 782 10406 Type No. DTMA-1900-850 BYP-12-AISG (12 dB gain) 850 MHz Bypass Frequency range Insertion loss Isolation to 1900 MHz Input power Return loss 1900 MHz DTMA Tx Characteristics Frequency range Bandwidth Insertion loss Input power Intermodulation products in Rx band Return loss Rx Characteristics Frequency range Bandwidth Loss in by-pass mode Return loss 806 – 896 MHz < 0.15 dB > 80 dB 500 W CW / per input > 18 dB 1930 – 1990 MHz 60 MHz < 0.5 dB at 80% of BW, a further 0.25 dB at 100% BW. < 160 W (+52 dBm) CW / per input < –117 dBm (2 Tx carriers at +43 dBm) > 18 dB Output 1-dB compression point 3rd order intercept point (OIP3) 1850 – 1910 MHz 60 MHz < 2.8 dB typically > 18 dB (DC ON) > 15 dB (DC OFF) 12 ±0.7 dB 12 ±1.3 dB < 1.7 dB at 80% of BW, a further 0.3 dB at 100% BW. < 2.2 dB at 80% of BW, a further 0.3 dB at 100% BW. > 15 dBm > 25 dBm Environmental Characteristics Operating temperature range IP rating MTBF –40 … +65 °C IP67 > 1 000 000 hours (per TMA) Gain Noise figure +22 … +28 °C –40 … +65 °C +22 … +28 °C Noise figure –40 … +65 °C EMC DC and Alarm Characteristics DC supply without RET Alarm management Modem Characteristics Mechanical Characteristics Material Connectors RF AISG Connector (Compliance AISG 1.1) Mounting Weight Dimensions (w x h x d) 144 BTS 0 AISG and DC-Port RET BTS 1 BTS 1 BTS 0 ETS 300 342-3 Through BTS 0 Port only +12 V nominal (9 – 15V, minus grounded) Typically 150 mA per TMA According to AISG standard 1.1 According to AISG standard 1.1 (Data rate: 9.6 kB) Aluminium housing 7-16 female 8-pin female, IEC 60130-9 (Pin 1: +12 V DC nominal, pin 3: RS485B, pin 5: RS485A, pin 7: DC return; other pins: Not connected) Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set Approx. 8.7 kg 271 mm x 278 mm x 77.5 mm (without connectors, without mounting brackets) BTS 0 BTS 1 Ant 1 DTMA-1900-850 BYP-12-AISG Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm ANT Jack (f) 7-16 BTS Jack (f) 7-16 Earth screw M8 x 10 145 DTMA-UMTS-12-CWA Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) • Double unit for easy use with XPol antennas • Kathrein redundancy amplifier design for improved system reliability • By-pass mode to ensure cell operation in case of TMA (Alarm 2) or DC power down • Alarm management: Supports 2 alarm levels Alarm 1: One LNA of the balanced circuit failed Alarm 2: Both LNAs of balanced circuit failed. Automatically switched to by-pass mode • Built-in lightning protection • Compact size • DTMA DC supply and alarming separately via node B0 respectively node B1 port Ant 1 Ant 0 CWA = Current Window Alarm Technical Data 782 10301 Type No. Node B0 DTMA-UMTS-12-CWA (12 dB gain) Tx Characteristics Frequency range Bandwidth Insertion loss Ripple Input power Intermodulation products in Rx band Return loss Rx Characteristics Frequency range Bandwidth Loss in by-pass mode Gain ripple Return loss 2110 – 2170 MHz 60 MHz Typically 0.3 dB < ±0.2 dB < 100 W (+50 dBm) CW < –117 dBm (2 Tx carriers at +43 dBm) > 18 dB Noise figure Output 1-dB compression point 3rd order intercept point (OIP3) 1920 – 1980 MHz 60 MHz < 2.6 dB (DC OFF) < ±0.3 dB > 18 dB (DC ON) > 12 dB (DC OFF) 12 ±0.5 dB 12 ±1.0 dB Typically 1.4 dB > 15 dBm > 25 dBm Environmental Characteristics Operating temperature range IP rating MTBF EMC –40 … +65 °C IP67 > 1 000 000 hours (per TMA) ETS 300 342-3 Gain +22 … +28 °C –40 … +65 °C DC and Alarm Characteristics DC supply Alarm management Alarm current Pa Mechanical Characteristics Material RF connectors Mounting Weight Packing size Dimensions (w x h x d) 146 Node B1 +12 V nominal (7.5 – 15 V, minus grounded) Typically 110 mA per TMA Current window alarm handling Alarm 1: Pa > 230 mA Alarm 2: Pa > 330 mA Aluminium housing 7-16 female Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 5 kg 262 mm x 502 mm x 214 mm 166 mm x 262 mm x 77.5 mm (without connectors, without mounting brackets) Ant 0 Ant 1 DTMA Node B0 Node B1 DTMA-UMTS-12-CWA Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm M8 x 10 Grounding screw Node B ANT 147 DTMA-UMTS-24-CWA Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Ant 1 • Double unit for easy use with XPol antennas • Kathrein redundancy amplifier design for improved system reliability • By-pass mode to ensure cell operation in case of TMA (Alarm 2) or DC power down • Alarm management: Supports 2 alarm levels Alarm 1: One LNA of the balanced circuit failed Alarm 2: Both LNAs of balanced circuit failed. Automatically switched to by-pass mode • Built-in lightning protection • Compact size • DTMA DC supply and alarming separately via Node B0 respectively Node B1 port Ant 0 CWA = Current Window Alarm Technical Data Node B0 782 10302 Type No. DTMA-UMTS-24-CWA (24 dB gain) Tx Characteristics Frequency range Bandwidth Insertion loss Ripple Input power Intermodulation products in Rx band Return loss Rx Characteristics Frequency range Bandwidth Loss in by-pass mode Gain ripple Return loss 2110 – 2170 MHz 60 MHz Typically 0.3 dB < ±0.2 dB < 100 W (+50 dBm) CW < –117 dBm (2 Tx carriers at +43 dBm) > 18 dB Noise figure Output 1-dB compression point 3rd order intercept point (OIP3) 1920 – 1980 MHz 60 MHz Typically 2.4 dB (DC OFF) < ±0.3 dB > 18 dB (DC ON) > 12 dB (DC OFF) 24 ±0.5 dB 24 ±1.0 dB Typically 1.4 dB > 20 dBm > 29 dBm Environmental Characteristics Operating temperature range IP rating MTBF EMC –40 … +65 °C IP67 > 1 000 000 hours (per TMA) ETS 300 342-3 Gain +22 … +28 °C –40 … +65 °C DC and Alarm Characteristics DC supply Alarm management Alarm current Pa Mechanical Characteristics Material RF connectors Mounting Weight Packing size Dimensions (w x h x d) 148 Node B1 +12 V nominal (7.5 – 15 V, minus grounded) Typically 230 mA per TMA Current window alarm handling Alarm 1: Pa > 310 mA Alarm 2: Pa > 500 mA Aluminium housing 7-16 female Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 5 kg 262 mm x 502 mm x 214 mm 166 mm x 262 mm x 77.5 mm (without connectors, without mounting brackets) Node B1 Node B0 Ant 0 Ant 1 DTMA Node B0 Node B1 DTMA-UMTS-24-CWA Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm M8 x 10 Grounding screw Node B ANT 149 DTMA-UMTS-12-AISG Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) • Double unit for easy use with XPol antennas • Kathrein redundancy amplifier design for improved system reliability • By-pass mode to ensure cell operation in case of DC power down • Built-in lightning protection • Compact size • Suitable for antenna RET control according to AISG standard • DTMA DC supply and AISG feed via Node B0 port for both TMAs Ant 1 Ant 0 RET = Remote Electrical Tilt AISG = Antenna Interface Standards Group Technical Data 782 10147 Type No. DTMA-UMTS-12-AISG (12 dB gain) Tx Characteristics Frequency range Bandwidth Insertion loss Ripple Input power Intermodulation products in Rx band Return loss Rx Characteristics Frequency range Bandwidth Loss in by-pass mode Gain ripple Return loss 2110 – 2170 MHz 60 MHz Typically 0.3 dB < ±0.2 dB < 100 W (+50 dBm) CW < –117 dBm (2 Tx carriers at +43 dBm) > 18 dB Noise figure Output 1-dB compression point 3rd order intercept point (OIP3) 1920 – 1980 MHz 60 MHz < 2.6 dB (DC OFF) < ±0.3 dB > 18 dB (DC ON) > 12 dB (DC OFF) 12 ±1.0 dB 12 ±0.5 dB Typically 1.4 dB > 15 dBm > 25 dBm Environmental Characteristics Operating temperature range IP rating MTBF EMC –40 … +65 °C IP67 > 1 000 000 hours (per TMA) ETS 300 342-3 Gain –40 … +65 °C +22 … +28 °C DC and Alarm Characteristics DC supply without RET Alarm management Modem Characteristics Mechanical Characteristics Material Connectors RF AISG Connector (Compliance AISG 1.1) Mounting Weight Packing size Dimensions (w x h x d) 150 Through Node B0 Port only +12 V nominal (9 – 15 V, minus grounded) Typically 150 mA per TMA According to AISG standard 1.1 According to AISG standard 1.1 (Data rate: 9.6 kB) Node B0 AISG and DC-Port RET Node B1 DTMA Node B0 Node B1 Aluminium housing 7-16 female 8-pin female, IEC 60130-9 (Pin 1: +12 V DC nominal, pin 3: RS485B, pin 5: RS485A, pin 7: DC return; other pins: Not connected) Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 5 kg 262 mm x 502 mm x 214 mm 166 mm x 262 mm x 77.5 mm (without connectors, without mounting brackets) Ant 0 Ant 1 DTMA Node B0 Node B1 DTMA-UMTS-12-AISG Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm 151 DTMA-UMTS-24-AISG Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) • Double unit for easy use with XPol antennas • Kathrein redundancy amplifier design for improved system reliability • By-pass mode to ensure cell operation in case of DC power down • Built-in lightning protection • Compact size • Suitable for antenna RET control according to AISG standard • DTMA DC supply and AISG feed via Node B0 port for both TMAs Ant 1 Ant 0 RET = Remote Electrical Tilt AISG = Antenna Interface Standards Group Technical Data 782 10148 Type No. DTMA-UMTS-24-AISG (24 dB gain) Tx Characteristics Frequency range Bandwidth Insertion loss Ripple Input power Intermodulation products in Rx band Return loss Rx Characteristics Frequency range Bandwidth Loss in by-pass mode Gain ripple Return loss 2110 – 2170 MHz 60 MHz Typically 0.3 dB < ±0.2 dB < 100 W (+50 dBm) CW < –117 dBm (2 Tx carriers at +43 dBm) > 18 dB Noise figure Output 1-dB compression point 3rd order intercept point (OIP3) 1920 – 1980 MHz 60 MHz Typically 2.4 dB (DC OFF) < ±0.3 dB > 18 dB (DC ON) > 12 dB (DC OFF) 24 ±1.0 dB 24 ±0.5 dB Typically 1.4 dB > 20 dBm > 29 dBm Environmental Characteristics Operating temperature range IP rating MTBF EMC –40 … +65 °C IP67 > 1 000 000 hours (per TMA) ETS 300 342-3 Gain –40 … +65 °C +22 … +28 °C DC and Alarm Characteristics DC supply without RET Alarm management Modem Characteristics Mechanical Characteristics Material Connectors RF AISG Connector (Compliance AISG 1.1) Mounting Weight Packing size Dimensions (w x h x d) 152 Through Node B0 Port only +12 V nominal (9 – 15 V, minus grounded) Typically 250 mA per TMA According to AISG standard 1.1 According to AISG standard 1.1 (Data rate: 9.6 kB) Node B0 AISG and DC-Port RET Node B1 Node B1 Node B0 Aluminium housing 7-16 female 8-pin female, IEC 60130-9 (Pin 1: +12 V DC nominal, pin 3: RS485B, pin 5: RS485A, pin 7: DC return; other pins: Not connected) Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 5 kg 262 mm x 502 mm x 214 mm 166 mm x 262 mm x 77.5 mm (without connectors, without mounting brackets) Ant 0 Ant 1 DTMA Node B0 Node B1 DTMA-UMTS-24-AISG Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm 153 DTMA-UMTS-12-AISG-CWA Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) • Double unit for easy use with XPol antennas • Kathrein redundancy amplifier design for improved system reliability • By-pass mode to ensure cell operation in case of DC power down • Built-in lightning protection • Compact size • Suitable for antenna RET control according to AISG standard • DTMA AISG feed via Node B0 port or node B1 port for both TMAs • AISG DC supply feed via Node B0 or Node B1 respectively Node B0 and Node B1 • CWA DC supply feed via Node B0 and Node B1 Ant 1 Ant 0 RET = Remote Electrical Tilt AISG = Antenna Interface Standards Group CWA = Current Window Alarm Technical Data 782 10151 Type No. DTMA-UMTS-12-AISG-CWA (12 dB gain) Tx Characteristics Frequency range Bandwidth Insertion loss Ripple Input power Intermodulation products in Rx band Return loss Rx Characteristics Frequency range Bandwidth Loss in by-pass mode Gain ripple Return loss 2110 – 2170 MHz 60 MHz Typically 0.3 dB < ±0.2 dB < 100 W (+50 dBm) CW < –117 dBm (2 Tx carriers at +43 dBm) > 18 dB Noise figure Output 1-dB compression point 3rd order intercept point (OIP3) 1920 – 1980 MHz 60 MHz < 2.6 dB (DC OFF) < ±0.3 dB > 18 dB (DC ON) > 12 dB (DC OFF) 12 ±0.5 dB 12 ±1.0 dB Typically 1.4 dB > 15 dBm > 25 dBm Environmental Characteristics Operating temperature range IP rating MTBF EMC –40 … +65 °C IP67 > 1 000 000 hours (per TMA) ETS 300 342-3 Gain +22 … +28 °C – 40 ... +65 °C DC and Alarm Characteristics DC supply (without RET) per TMA Alarm management Modem Characteristics Mechanical Characteristics Material Connectors RF AISG Connector (Compliance AISG 1.1) Mounting Weight Packing size Dimensions (w x h x d) 154 CWA 9–15 V DC nominal 80–130 mA, Alarm 170–200 mA AISG 9–30 V DC nominal 100 mA at 9 V, 35 mA at 30 V According to AISG standard 1.1 According to AISG standard 1.1 (Data rate: 9.6 kB) Node B0 RET Node B0 Node B1 Node B1 Aluminium housing 7-16 female, long neck 8-pin female, IEC 60130-9 (Pin 6: 9 – 30 V DC, pin 3: RS485B, pin 5: RS485A, pin 7: DC return; other pins: Not connected) Wall mounting: With 4 screws (max. 8 mm diameter) Mast mounting: With additional clamp set 5 kg 262 mm x 502 mm x 214 mm 166 mm x 262 mm x 77.5 mm (without connectors, without mounting brackets) Ant 0 Ant 1 DTMA Node B0 Node B1 DTMA-UMTS-12-AISG-CWA Fullband Double Dual Duplex Tower Mounted Amplifier (Masthead Amplifier) Accessories (order separately) Type No. Clamp set suitable for mast diameter of 734 360 34 – 60 mm 734 361 60 – 80 mm 734 362 80 – 100 mm 734 363 100 – 120 mm 734 364 120 – 140 mm 734 365 45 – 125 mm 155 DTMA Arrangement Mounting Hardware 3 Sector Clamp Kit, Type No. 782 10347, 782 10348, 782 10349 • Slim and unobstrusive design • Nearly cylindrical optical appearance with small outer diameter 3 Sector Clamp Kit 782 10347 Type No. Angle between DTMS 782 10348 782 10349 120° 120° 120° Suitable for mast diameter 88.9 mm ±1.5 mm 114.3 mm ±1.5 mm 139.7 mm ±1.5 mm Number of pieces 2 x 3 sector clamp 2 x 3 sector clamp 2 x 3 sector clamp Stainless steel Stainless steel Stainless steel Stainless steel Stainless steel Stainless steel 360 mm 390 mm 415 mm 1.9 kg 0.88 kg 2.0 kg 0.95 kg 2.4 kg 1.14 kg Material – 3 sector clamp – Screws Outer diameter (Dout) of the 3 DTMA Arrangement Weight – Clamp kit – 3 sector clamp Please note: The installation team must be properly qualified and also be familiar with the relevant national safety regulations. Torque 17 – 20 Nm Dout Upper Clamp Bottom view Lower Clamp Torque 12 – 15 Nm Type No. A B C D 782 10347 782 10348 782 10349 88.9 114.3 139.7 70 83 95 170 190 221 196 219 255 all dimensions by mm 156 Application Notes Application Notes 157 Application Note Co-Siting GSM 900 / GSM 1800 / UMTS 1 Sector S Configuration: C • • XXPol Dual-band antenna (824 – 960 MHz, 1710 – 2170 MHz) Combined feeder cables 158 Application Note Co-Siting GSM 900 / GSM 1800 / UMTS 1 Sector S Configuration: C • • XXXPol Triple-band antenna (806 – 960 MHz, 1710 – 1880 MHz, 1920 – 2170 MHz) Combined feeder cables 159 Application Note Co-Siting GSM 900 / GSM 1800 / UMTS 1 Sector S Configuration: C • • • • • 2 XPol Multi-band antennas (1710 – 2170 MHz) XPol antenna (806 – 960 MHz) Combined feeder cables Independent tilt adjustment for GSM 900, GSM 1800 and UMTS UMTS tower mounted amplifier, DTMA-UMTS-12-AISG / DTMA-UMTS-24-AISG 160 Application Note Co-Siting GSM 900 / UMTS 1 Sector S Configuration: C • • • • XXPol Dual-band antenna (824 – 960 MHz, 1710 – 2170 MHz) Combined feeder cables Independent tilt adjustment for GSM 900 and UMTS via smart bias tee Dual-band Combiner with integrated DC-stop 161 Application Note Co-Siting GSM 900 / UMTS 1 Sector S Configuration: C • • • XXPol Dual-band antenna (824 – 960 MHz, 1710 – 2170 MHz) Combined feeder cables Independent tilt adjustment for GSM 900 and UMTS via smart bias tee 162 Application Note Co-Siting GSM 900 / GSM 1800 / UMTS 1 Sector S Configuration: C • • • XXXPol Triple-band antenna (806 – 960 MHz, 1710 – 1880 MHz, 1920 – 2170 MHz) Combined feeder cables 2 Operators for each frequency range 163 Application Note Co-Siting GSM 900 / GSM 1800 / UMTS 1 Sector S Configuration: C • • • • XXXPol Triple-band antenna (806 – 960 MHz, 1710 – 1880 MHz, 1920 – 2170 MHz) Combined feeder cables UMTS tower mounted amplifier, DTMA-UMTS-12-CWA / DTMA-UMTS-24-CWA Triple-band Combiner with integrated DC stops 164 Application Note Co-Siting GSM 900 / GSM 1800 / UMTS 1 Sector S Configuration: C • • • • XXXPol Triple-band antenna (806 – 960 MHz, 1710 – 1880 MHz, 1920 – 2170 MHz) Combined feeder cables GSM 1800 tower mounted amplifiers, DTMA-1800-12-AISG / DTMA-1800-24-AISG UMTS tower mounted amplifier, DTMA-UMTS-12-AISG / DTMA-UMTS-24-AISG 165 Application Note Co-Siting GSM 900 / GSM 1800 / UMTS 1 Sector S Configuration: C • • • • XPol Multi-band antenna (1710 – 2170 MHz) XXPol Dual-band antenna with integrated combiner (870 – 960 MHz, 1710 – 1880 MHz) Combined feeder cables Easy extension to UMTS 166 Application Note Co-Siting GSM 900 / GSM 1800 / UMTS 1 Sector S Configuration: C • • • • XXXPol Triple-band antenna (806 – 960 MHz, 1710 – 1880 MHz, 1920 – 2170 MHz) Combined feeder cables 3 Operators for GSM 900 and GSM 1800 4 Operators for UMTS 167 Subject to alteration. 99810288/0107/4/ZW/MM Internet: http://www.kathrein.de KATHREIN-Werke KG . Phone +49 8031 184-0 . Fax +49 8031 184-494 Anton-Kathrein-Straße 1 – 3 . P.O. Box 10 04 44 . 83004 Rosenheim . Germany Antennen . Electronic