Horizon%20Compact%20Product%20Manual%20
Contents
1. TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 17713 75 18723 75 1 18723 75 17713 75 2 17727 5 18737 5 2 18737 5 17727 5 3 17741 25 18751 25 3 18751 25 17741 25 4 17755 18765 4 18765 17755 5 17768 75 18778 75 5 18778 75 17768 75 6 17782 5 18792 5 6 18792 5 17782 5 7 17796 25 18806 25 7 18806 25 17796 25 8 17810 18820 8 18820 17810 9 17823 75 18833 75 9 18833 75 17823 75 10 17837 5 18847 5 107 18847 5 17837 5 11 17851 25 18861 25 11 18861 25 17851 25 12 17865 18875 12 18875 17865 13 17878 75 18888 75 13 18888 75 17878 75 14 17892 5 18902 5 14 18902 5 17892 5 15 17906 25 18916 25 15 18916 25 17906 25 16 17920 18930 16 18930 17920 17 17933 75 18943 75 17 18943 75 17933 75 18 17947 5 18957 5 18 18957 5 17947 5 19 17961 25 18971 25 19 18971 25 17961 25 20 17975 18985 20 18985 17975 21 17988 75 18998 75 21 18998 75 17988 75 22 18002 5 19012 5 22 19012 5 18002 5 23 18016 25 19026 25 23 19026 25 18016 25 24 18030 19040 24 19040 18030 25 18043 75 19053 75 25 19053 75 18043 75 26 18057 5 19067 5 26 19067 5 18057 5 27 18071 25 19081 25 27 19081 25 18071 25 28 18085 19095 29 19095 18085 29 18098 75 19108 75 29 19108 75 18098 75 30 18112 5 19122 5 30 19122 5 18112 5 31 18126 25 19136 25 31 19136 25 18126 25 32 18140 19150 32 19150 18140 33 18153 75 19163 75 33 19163 75 18153 75 34 18167 5 19177 5 34 19177 5 18167 5 35 18181 25 19191 25 32. 95 DragonWavelnc iv List of Figures FIGURE 2 1 HORIZON COMPACT COPPER INTERFACE 5 FIGURE 2 2 HORIZON COMPACT LED INDICATORS 2 eene nennen ennenen nenen ennenen eee 5 FIGURE 2 3 DUAL POLARITY RADIO 1 sees 7 FIGURE 3 1 HORIZON COMPACT INSTALLATION ss esse s esse sees eee 10 FIGURE 3 2 PONE AND RJ 45 CONNECTIONS FOR HORIZON e sees 11 FIGURE 3 3 RJ 45 CABLE CONNECTOR SNAP FIT 22 44 0 nne neee nne eee 12 FIGURE 3 4 RJ 45 CABLE CONNECTOR PUSH FIT STYLE 13 FIGURE 4 1 CONNECTING POWER TO THE HORIZON COMPACT COPPER INTERFACE eene 15 FIGURE 4 2 CONNECTING POWER TO THE HORIZON COMPACT OPTICAL INTERFACE ener nennen 16 FIGURE 4 3 RJ 45 CONNECTOR PINOUT PORT 2 MANAGEMENT senem nennen nennen nnne antra nnn snnm nana 17 FIGURE 6 1 HORIZON COMPACT SHOWING CLIP MOUNT FEATURES eser eene enne nnnm nennen nnn nna nnn snnm nnne 29 FIGURE 6 2 HORIZON COMPACT POLARITY MARKER nasa eenn 29 FIGURE 7 1 HORIZON COMPACT CASE GROUNDING POINT esse sees ses cesses cesses 31 FIGURE 7 2 SURGE ARRESTOR AND POWER 1 1 1 aan anna
3. EIS 59 14556 TOOLS SCREEN e a UU S 59 11 5 7 CONTACTS SCREEN AN 59 11 6 HORIZON COMPACT SSL WEB SERVER 22 59 11 6 1 GENERATING A CERTIFICATE ON HORIZON COMPACT sise 59 11 7 EVENT AND PERFORMANCE 5 60 11 8 RADIO LOOPBACK n raw Movant dase eae 60 11 9 ALARMS R tad tenendi accus 61 12 0 CONFIGURATION BACKUP AND 4 63 12 1 SYSTEM CONFIGURATION BACKUP 5 8 Ru e E ka prora ete da KAK Gan 63 12 2 SYSTEM CONFIGURATION SA TZ 63 12 3 USER ACCOUNT CONFIGURATION 63 12 4 USER ACCOUNT CONFIGURATION 2 63 13 0 SOFTWARE UPGRADES a a a 65 13 1 SINGLE SYSTEM ninnaa e a a eese a A A begat 65 13 2 MULTIRLE SYSTEMS EE ien rr t e a a us 65 APPENDIX A LIST OF CLI COMMANDS eere eene eene nennen enhn nnn nana 67 APPENDIX B FREQUENCY TABLES nn c sese 69 APPENDIX C SAFETY INFORMATION sss sss sss sss sss sss sss nn nn nn nnn sese 91 APPENDIX D REGULATORY COMPLIANCE INFORMATION
4. TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 7 10975 11465 7 11465 10975 8 11015 11505 8 11505 11015 9 11055 11545 9 11545 11055 10 11095 11585 10 11585 11095 11 11135 11625 11 11625 11135 12 11175 11665 12 11665 11175 B 7 11 GHz NZ ETSI b 40 MHz Channels TxLow TxHigh Channel index Tx RF MHz RxRF MHz Channelindex Tx RF MHz Rx RF MHz 6 10935 11465 6 11465 10935 7 10975 11505 7 11505 10975 8 11015 11545 8 11545 11015 9 11055 11585 9 11585 11055 10 11095 11625 10 11625 11095 11 11135 11665 11 11665 11135 8 11 GHz FCC b 30 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 7 10955 11445 7 11445 10955 8 10995 11485 8 11485 10995 9 11035 11525 9 11525 11035 10 11075 11565 10 11565 11075 11 11115 11605 11 11605 11115 12 11155 11645 12 11645 11155 13 11185 11685 13 11685 11185 9 11 GHz b 30 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx MHz Channelindex Tx RF MHz Rx RF MHz 9 10965 11465 9 11465 10965 10 10995 11495 10 11495 10995 11 11025 11525 11 11525 11025 12 11055 11555 12 11555 11055 13 11085 11585 13 11585 11085 14 11115 11615 14 11615 11115 15 11145 11645 15 11645 11145 16 11175 11675 16 11675 11175 10 11 GHz ITU b 40 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 7 10955 11485 7 11
5. 00 sn nennen nnn 82 TABLE B 54 18 GHz FRENCH 27 5 MHZ CHANNELS e sees s eenn neee ennenen nena nenne nnne eenn 83 TABLE B 55 18 GHz AUSTRALIAN 13 75 MHZ 15 44 4 0 2 enne 84 TABLE B 56 18 GHz AUSTRALIAN 27 5 MHZ 5 84 TABLE B 57 18 GHz AUSTRALIAN 55 MHZ 156 4 84 TABLE B 58 23 GHz FCC 50 MHZ 5 2 0 0 85 TABLE B 59 23 GHz IC 50 MHz 15 85 TABLE B 60 23 GHz MEXICO 50 MHz 15 4 44 0 85 TABLE B 61 23 GHZ AUSTRALIA 14 MHZ CHANNELS sees sees s vesse vesse nennen nennen nn ennenen nennen nnn 85 TABLE B 62 23 GHz ITU 14 MHZ 16 86 TABLE B 63 23 GHz ITU 28 MHZ 15 4 4 4 86 TABLE B 64 23 GHZ AUSTRALIA 28 MHZ CHANNELS 4 0 86 TABLE B 65 23 GHz ETSI 14 MHz CHANNELS nn sn nn tn ne sensn tren nnn 87 TABLE B 66 23 GHz ETSI 28 MHz CHANNELS 88 TABLE B 67 23 GHz ETSI 56 MHz CHANNELS 2 4 4 48 88 TABLE B 68 23 GHz UK 56 MHz
6. 3 iit OEM rhein ahh 19 5 1 3 USING THEWEBAINTERERGE Bo 20 5 2 CONFIGURING RADIO BAND AND FREQUENCY 86 22 20 5 2 1 USNO TR NE ie D eek MR ete 20 5 2 2 USING THE WEB INTERFACE ede b e Dre ee beso d ee 21 5 3 CONFIGURING IP ADDRESS 1 6 0 ae eR ae e 21 5 3 1 USING TELNE Tec c Me AA forte ret t reet ddr tae 21 5 3 2 USING THE WEB INTERFACE eerte aR no ea ea eae oi 22 5 4 RECOVERY OF IP ADDRESS AND SERIAL 68 rii 23 5 5 CHANGING AND ADDING USER NAMES AND 5 1 23 5 5 1 CHANGING THE SUPER USER AND PASSWORD 23 5 5 2 ADDING OR CHANGING NOC USER 8 0 0 24 5 5 3 ADDING OR CHANGING ADMIN USER ACCOUNTS 0 0 a e 26 5 6 LOGGING OUT TR LEE VM 27 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 D
7. sas ennenen 33 FIG RE 7 3 ETHERNET CABLE A AA is tte 33 FIGURE 8 1 MOUNTING BRACKET WITH FINE ADJUSTMENT BOLTS e ann anna naaa nnn nnne enen 35 FIGURE 8 2 VOLTMETER CONNECTIONS TO BNC FIELD STRENGTH MONITORING CONNECTOR 37 FIGURE 10 1 DPRM AND THROUGHPUT DOUBLING eere nnne nennen nennen nna nnn nans eee 49 FIGURE 10 2 REDUNDANCY CONNECTIONS 2 WIRE OPTION COPPER INTERFACE 50 FIGURE 10 3 REDUNDANCY CONNECTIONS 2 WIRE OPTION OPTICAL 2 51 FIGURE 10 4 REDUNDANCY CONNECTIONS SINGLE WIRE OPTION COPPER INTERFACE enne 52 FIGURE 10 5 REDUNDANCY CONNECTIONS SINGLE WIRE OPTION OPTICAL INTERFACE eene 53 FIGURE 11 1 WEB INTERFACE HOME 5 0 42 44 57 FIGURE 11 2 RADIO 22 25 ra desde noce ad dee xi dee ace vare as enano cad eR ope a RE 60 TABLE 2 1 HORIZON LED 2 4 6 TABLE 2 2 PORT 2 POWER CABLE WIRE GAUGE vese ee ee ea ena nenen naaa ereer nennen nunn ereenn enrere erenn 7 TABLE 3 1 PARTS REQUIRED eR eL 9 TABLE 5 1 USER ACCOUNT 5 0 23 TABLE 6 1 TWIST AND SWAY SPECIFICATIONS SELECTED
8. 15 4 88 TABLE B 69 23 GHz ITU 56 MHZ 16 nn nn nn sinn nnn 89 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 1 0 Introduction to Horizon Compact DragonWave s Horizon Compact is a next generation high capacity native Ethernet microwave system offering improved economics and simplified operations Featuring zero footprint the radio and the modem are integrated into one single compact out door unit Increased capacity 800Mbps simplified installation and operation and improved troubleshooting mean lower lifecycle costs This highly integrated carrier grade solution for Ethernet backhaul uses licensed or unlicensed spectrum Build your own network easily and cost effectively Connect fixed and mobile services to your network fast Extend the reach of your network for Ethernet services and add on the additional capacity as you need it Or bring new Ethernet services to your high capacity customers easily and cost effectively while optimizing your investment in legacy technology and facilities High Capacity Native Ethernet Wireless Gigabit Ethernet Designed as an Ethernet platform from the ground up the DragonWave Horizon Compact meets the critical needs demanded by carrier class customers delivering a wireless GigE 100bT connection of up to 800 Mbps full duplex over licensed or unlicensed
9. 4 70 TABLE B 11 13 GHz NZ AUS ETSI ITU 28 MHZ CHANNELS 24444242422 2 4 2 22 2 71 TABLE B 12 13 GHZ NZ AUS ETSI ITU A 14 MHZ CHANNELS 71 TABLE B 13 13 GHZ NZ AUS ETSI ITU 28 MHZ CHANNELS 22 44222 422 22 22 2 71 TABLE B 14 13 GHz NZ AUS ETSI ITU B 14 MHZ CHANNELS 44 422422 2 22 22 71 TABLE B 15 15 GHZ ITU A 28 MHz CHANNELS 490 MHZ 72 TABLE B 16 15 GHz ITU 14 MHz CHANNELS 490 MHZ T R cesses seen nennen nennen nnnm nnn nnns 72 TABLE B 17 15 GHz ITU 2 28 MHz CHANNELS 420 MHZ 72 TABLE B 18 15 GHz ITU 2 14 MHz CHANNELS 420 MHZ 72 TABLE B 19 15 GHz IC A 40 MHZ 15 04000 72 TABLE B 20 15 GHz ITU 28 MHz CHANNELS 490 MHZ T R cesses seen nennen nenne nnn nnn nn nnn annt 73 TABLE B 21 15 GHz ITU B 14 MHz CHANNELS 490 MHZ T R cesses ener een nn enne nnne nnn nnns 78 TABLE B 22 15 GHz ITU B2 28 MHz CHANNELS 420 MHZ 24 2 1 nnn nnn nnns 73 TABLE B 23 15 GHz ITU B2 14 MHz CHANNELS 420 MHZ T R eese esse eenn 73 TABLE B 24 15 GHz B 40 MHZ 15 4 enen 74 TABLE
10. A INK HCC AC EU R1 Horizon Compact Copper Connectors AC Install Kit 4 Glands and 8 Connectors A INK HCC AD EU R1 Horizon Compact Copper Connectors Half AC Half DC Install Kit 4 Glands and 8 Connectors A INK HCI AC EU R1 Horizon Compact Inband MGMT Copper Connectors AC Install Kit 2 Glands and 4 Connectors A INK HCI AD EU R1 Horizon Compact Inband MGMT Copper Connectors Half AC Half DC Install Kit 2 Glands and 4 Connectors GLOBAL A INK HCN DC GL R1 Horizon Compact No Connectors DC Install Kit A INK HCC DC GL R1 Horizon Compact Copper Connectors DC Install Kit 4 Glands and 8 Connectors A INK HCI DC GL R1 Horizon Compact Inband MGMT Copper Connectors DC Install Kit 2 Glands and 4 Connectors Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWave Inc 10 Horizon Horizon PonE surge arrestor copper interface or Transtector optical interface Ethemet Switch Figure 3 1 Horizon Compact Installation Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Installation Requirements 11 3 1 Ethernet Cabling from Horizon to Ethernet Switch For the copper interface data cabling from the Horizon unit to the Ethernet switch consists of outdoor rated shielded Cat5E cables equivalent to Belden 7919A The shielded cables require shielded RJ 45 connectors Use of standard ind
11. Channelindex Tx RF MHz Rx RF MHz 9 12870 13136 9 13136 12870 10 12884 13150 10 13150 12884 11 12898 13164 11 13164 12898 12 12912 13178 12 13178 12912 13 12926 13192 13 13192 12926 14 12940 13206 14 13206 12940 15 12954 13220 15 13220 12954 16 12968 13234 16 13234 12968 DragonWavelnc 72 Table B 15 15 GHz ITU a 28 MHz Channels 490 MHz T R TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 14417 14907 1 14907 14417 2 14445 14935 2 14935 14445 3 14473 14963 3 14963 14473 4 14501 14991 4 14991 14501 5 14529 15019 5 15019 14529 6 14557 15047 6 15047 14557 Table 16 15 GHz ITU 14 MHz Channels 490 MHz TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 14417 14907 1 14907 14417 2 14431 14921 2 14921 14431 3 14445 14935 3 14935 14445 4 14459 14949 4 14949 14459 5 14473 14963 5 14963 14473 6 14487 14977 6 14977 14487 7 14501 14991 7 14991 14501 8 14515 15005 8 15005 14515 9 14529 15019 9 15019 14529 10 14543 15033 10 15033 14543 11 14557 15047 11 15047 14557 12 14571 15061 12 15061 14571 Table 17 15 GHz ITU a2 28 MHz Channels 420 MHz T R TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1
12. through cable connections applying power to the system at the PonE surge unit See 7 1 for more details DragonWave lnc 14 This page left blank intentionally Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 4 0 Powering the Horizon Compact Before an active management session can be started on the Horizon Compact power needs to be provided to the unit Read this section completely before applying power to the Horizon Compact 4 1 Copper Interface The Horizon Compact with copper interface receives its power over the Ethernet connection to Port 1 using a DragonWave proprietary technique To integrate the power onto the Ethernet cable requires the use of the DragonWave Power on Ethernet PonE adapter The DragonWave PonE adapter also includes transient and surge suppression components to protect the power supply and network from lightning induced surges and transients Note The Horizon PonE implementation is proprietary and does not follow IEEE standards CAUTION Only use a straight through Ethernet cable to connect the Horizon to the PonE surge unit Do not use a cross over Ethernet cable otherwise damage to the Horizon will result Straight Through Ethernet Cables FEE CUL PonE Surge Unit 48 V DC 2o Figure 4 1 Connecting Power to the Horizon Compact copper interface CAUTION Connect the Horizon Compact unit to the PonE adapter correctly BEFORE turning on
13. O ring located on the outside surface of the antenna port lubricate with provided lubricant before assembling Four mounting Four mounting lugs clips Waveguide adapter Antenna port Figure 6 1 Horizon Compact showing clip mount features 6 1 Polarity The radio frequency polarity is indicated by an arrow molded into the Horizon Compact housing Attach the Horizon Compact to the antenna so that the arrow points either vertically or horizontally as required when the assembly is attached to the mounting post or tower With the arrow horizontal pointing to the left horizontal polarity with the arrow vertical pointing upwards vertical polarity The required radio polarity is defined in your licensing documentation ES Polarity Marker yp This Horizon unit is shown mounted 4 6 for horizontal polarity arrow horizontal Figure 6 2 Horizon Compact polarity marker Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWave lnc 30 6 2 Pole and Tower Specifications It is important that mounting posts or towers used meet the DragonWave specifications for rigidity to minimize the effects of twist and sway on the alignment of the link Note that the maximum twist and sway angle allowable is equal to half of the antenna beam width Table 6 1 Twist and Sway Specifications Selected Frequencies Frequency Ant
14. 2 1 1 OPPER INTEREAGCE 5 260 eee tee eei Ee et 6 2 1 2 OPTICAL INTERFACE A nan dete ette ive sere ee D 6 2 2 L IGHTNING PROTECTIONS Z 7 2 3 DUAL POLARITY RADIO MOUNT DPRM ox exea n eura duke a o e epe daa a d wa 7 2 4 POWER SWITCH RADIO MOUNT PSRM ge evade d d dun 8 3 0 INSTALLATION REQUIREMENTS 6 9 3 1 ETHERNET CABLING FROM HORIZON TO ETHERNET SWITCH 11 3 2 ASSEMBLING THE RJ 45 CONNECTOR 12 3 2 1 LL 12 3 2 2 xD 13 4 0 POWERING THE HORIZON 5 6 15 4 1 2OPPER INTEREAGE x riot etait eek eee Sot ett rt he a ee et ra dus 15 4 2 OPTICAL INTERFACE title ee ee eect aoe alana 16 5 0 INITIAL CONFIGURATION sss s s c ena nana nana nan eean eaea 19 5 1 IEEE 19 5 1 1 USING p 2 01 SR ETT 19 5 1 2 CONTEXT SENSITIVE
15. carries data and optional in band management traffic Port 2 copper 10 100 1000 Base t carries optional out of band management traffic only When Port 2 is not in use a weatherproof protective cap is used to seal the port A BNC style connector with protective cap is provided for obtaining field strength readings during the antenna alignment process The output voltage is linear giving 1 mV per dB values e g 30 mV 30 dB It is also used for providing a radio muting signal in system redundancy applications A high power variant is available which requires a sun shield to meet temperature specifications Antenna Field strength monitor connector on side BNC Indicator LED S Antenna mount Polarity Indicator Breathing Vent Port 1 10 100 1000 Base t Data and optional in band management weatherproof RJ 45 Port 2 10 100 1000 Base t Out of band Management only weatherproof RJ 45 Figure 2 2 Horizon Compact LED indicators Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWavelnc 6 Table 2 1 Horizon LED Operation LED Status RF Modem LED RED Slow RED Blink Steady GREEN slow ORANGE blink Steady GREEN Ethernet LED Copper Mode OFF Slow Red Blink Steady Green Fast Green Blink Description Power ON FPGA not ready RF Transmitter OFF Modem LOS RF Transmitter ON Modem LOS RF Transmitter ON Modem OK No link detected on either Ethernet
16. set optical transmitter state on off set pause state onloff set performance logging on off set performance log interval hr min sec set programmed frequency index set qos on off Horizon Compact Release 1 01 00 set radio transmitter state enable disable set radio band band set radio loopback on off set radio rxgain set radio txgain set radius server key index key set radius server host index ip address set radius super user authentication strict on off set redundancy link monitor parameters set redundancy mode set redundancy override primary secondary manual auto set redundancy standby enet state on off pulse set redundancy state switch on set rls on off set rls link enable on off set rls link monitor parameters dn2up frame error up2dn frame error dn2up samples up2dn samples sample time set rls link control on off set rls make rsl rsl value time set rls signal fault parameters time error set rsl threshold threshold time set snmp access mode v1 v2cloff set snmp manager mgr index ip address enable disable community string set snmp set request on off set snmp trap trap enable disable set snmp trap host host ip address enable disable community string set snr threshold threshold set snmpv3 trap host enable index set snmpv3 trap host disable index set snmpv3 trap host ip index ip address set snmpv3 trap
17. suisses anakanak naaa anna aaa aaa 49 10 13 HORIZON REDUNDAN GY 3 5 a ort deci shack SA decid tionem dede tet nota vena ela sect thee Dia 49 LENC CONNEC FOR shin acetate tte te Senta se a hn om ie hn aaa taal 49 101322 OPTION statin ol tal ad de rs 50 10 13 3 SINGLE WIRE OPTION WITH THE PSRM 52 11 0 HORIZON MANAGEMENT cesse ennenen ennenen ennenen 55 11 1 IN BAND AND OUT OF BAND MANAGEMENT 55 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Table of Contents 11 1 1 MANAGEMENT THROUGH PORT 1 nemen 55 11 1 2 MANAGEMENT THROUGH PORT 2 56 112 TELNET ACCESS 56 11 3 SECURE SHELL ACCESS SECURITY 2 28 rh eate erect es e ner le petu ced daga 56 11 4 SUPPORTED SNMP VERSIONS e e 1 56 11 5 WEB INTERFACE LL 57 11 5 1 HOME SCREEN ats d Eduard d eode 57 11 52 PERFORMANCE SCREEN ni cac chiesto erede eiae e des ca deiude iden 58 11 5 3 CONFIGURATION SCREEN xata M hiss Ced Ata ee An tn ani 58 11 54 DIAGNOSTICS SCREEN DAN A 58 11555 ALARMS SCREEN
18. 1 01 00 Wireless Ethernet Product User Manual Volume 1 Appendix Safety Information Safety Information for Radio Equipment The Federal Communications Commission FCC with its action in ET Docket 96 8 has adopted a safety standard for human exposure to radio frequency RF electromagnetic energy emitted by FCC certified equipment DragonWave Horizon Compact meets the uncontrolled environmental limits found in OET 65 and ANSI C95 1 1991 Proper operation of this radio according to the instructions found in this manual or any other product manuals or user guides for the DragonWave family of products or equipment will result in user exposure that is substantially below the FCC recommended limits 1 Do not touch or move antenna s while the unit is transmitting or receiving 2 Do not hold any component containing the radio in such a way that the antenna is very close to or touching any exposed parts of the body especially the face or eyes while the unit is transmitting 3 Do not operate a portable transmitter near unshielded blasting caps or in an explosive environment unless it is a type especially qualified for such use The design of the high gain mast mount antennas is such that professional installation is required Information sur la s curit de l appareil radio En vertu de l ET Docket 96 8 la FCC a adopt une norme de s curit sur l exposition humaine l nergie lectromagn tique de radiofr quence RF mise
19. 14515 14935 1 14935 14515 2 14543 14963 2 14963 14543 3 14571 14991 3 14991 14571 4 14599 15019 4 15019 14599 Table B 18 15 GHz ITU a2 14 MHz Channels 420 MHz T R TxLow TxHigh Channel index Tx RF MHz RF MHz Channel index Tx RF MHz Rx RF MHz Table B 19 15 GHz IC a 40 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz D1 14520 14995 D1 14995 14520 D2 14560 15035 D2 15035 14560 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Table 20 15 GHz ITU b 28 MHz Channels 490 MHz Appendix B TxLow TxHigh Channel index Tx RF MHz Rx RF MHz 15075 Channel index Tx RF MHz Rx RF MHz 7 14585 8 14613 15103 15075 15103 9 14641 15131 9 15131 14641 14669 15159 15159 14669 14697 15187 15187 14697 14725 15215 15215 14725 Table B 21 15 GHz ITU b 14 MHz Channels 490 MHz T R TxLow TxHigh Channel index Tx RF MHz Rx RF MHz 15075 Channel index Tx RF MHz Rx RF MHz 13 14585 14 14599 15089 15075 15089 Table B 22 15 GHz ITU b2 28 MHz Channels 420 MHz T R TxLow TxHigh Channel index Tx RF MHz Rx RF MHz 15047 Channel index Tx RF MHz Rx RF MHz 5 14627 6 14655 15075 15047 15075 14683 15103
20. 15103 14683 8 1471 15131 aa 15131 14711 po 14739 15159 9 15159 14739 Table 23 15 GHz ITU b2 14 MHz Channels 420 MHz TxLow TxHigh Channel index Tx RF MHz Rx RF MHz 15033 Channel index Tx RF MHz Rx RF MHz 14613 14627 15047 15033 15047 a 14641 15061 15061 14641 14655 15075 15075 14655 14669 15089 15089 14669 73 DragonWave lnc 74 Table B 24 15 GHz IC b 40 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz D3 14600 15075 D3 15075 D4 14640 15115 D4 15115 14680 15155 14680 De 14720 15195 De 15195 14720 Table B 25 15 GHz MEX b 28 MHz Channels Rx RF MHz TxLow TxHigh Channel index Tx RF MHz RxRF MHz Channelindex Tx RF MHz Rx RF MHz 32 14746 15061 32 15061 14746 Table B 26 15 GHz MEX b 14 MHz Channels TxLow TxHigh Channel index Tx RF MHz RxRF MHz Channelindex Tx RF MHz Rx RF MHz 32B 14753 Table B 27 15 GHz ITU c 28 MHz Channels 490 MHz T R TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Tx RF MHz 14 14781 15271 15271 Table B 28 15 GHz ITU c 14 MHz Channels 490 MHz T R TxLow TxHigh Channel index Rx RF MHz Channelindex Tx RF MHz RxRF MHz Channelindex Tx RF MHz Rx RF MHz 25 14753
21. 19115 625 18105 625 29 18119 375 19129 375 29 19129 375 18119 375 30 18133 125 19143 125 30 19143 125 18133 125 31 18146 875 19156 875 31 19156 875 18146 875 32 18160 625 19170 625 32 19170 625 18160 625 33 18174 375 19184 375 33 19184 375 18174 375 34 18188 125 19198 125 34 19198 125 18188 125 35 18201 875 19211 875 35 19211 875 18201 875 36 18215 625 19225 625 36 19225 625 18215 625 79 DragonWave lnc 80 Table B 49 18 GHz ETSI ITU French 27 5 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 17741 25 18751 25 1 18751 25 17741 25 2 17768 75 18778 75 2 18778 75 17768 75 3 17796 25 18806 25 3 18806 25 17796 25 4 17823 75 18833 75 4 18833 75 17823 75 5 17851 25 18861 25 5 18861 25 17851 25 6 17878 75 18888 75 6 18888 75 17878 75 7 17906 25 18916 25 7 18916 25 17906 25 8 17933 75 18943 75 8 18943 75 17933 75 9 17961 25 18971 25 9 18971 25 17961 25 10 17988 75 18998 75 10 18998 75 17988 75 11 18016 25 19026 25 11 19026 25 18016 25 12 18043 75 19053 75 12 19053 75 18043 75 13 18071 25 19081 25 13 19081 25 18071 25 14 18098 75 19108 75 14 19108 75 18098 75 15 18126 25 19136 25 15 19136 25 18126 25 16 18153 75 19163 75 16 19163 75 18153 75 17 18181 25 19191 25 17 19191 25 18181 25 1
22. 19590 18580 17 18635 19645 17 19645 18635 81 DragonWave lnc 82 Table B 53 18 GHz French 13 75 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 33 18174 375 19184 375 33 19184 375 18174 375 34 18188 125 19198 125 34 19198 125 18188 125 35 18201 875 19211 875 35 19211 875 18201 875 36 18215 625 19225 625 36 19225 625 18215 625 37 18229 375 19239 375 37 19239 375 18229 375 38 18243 125 19253 125 38 19253 125 18243 125 39 18256 875 19266 875 39 19266 875 18256 875 40 18270 625 19280 625 40 19280 625 18270 625 41 18284 375 19294 375 41 19294 375 18284 375 42 18298 125 19308 125 42 19308 125 18298 125 43 18311 875 19321 875 43 19321 875 18311 875 44 18325 625 19335 625 44 19335 625 18325 625 45 18339 375 19349 375 45 19349 375 18339 375 46 18353 125 19363 125 46 19363 125 18353 125 47 18366 875 19376 875 4T 19376 875 18366 875 48 18380 625 19390 625 48 19390 625 18380 625 49 18394 375 19404 375 49 19404 375 18394 375 50 18408 125 19418 125 50 19418 125 18408 125 51 18421 875 19431 875 51 19431 875 18421 875 52 18435 625 19445 625 52 19445 625 18435 625 53 18449 375 19459 375 53 19459 375 18449 375 54 18463 125 19473 125 54 19473 125 18463 125 55 18476 875 19486 875 55 19486 875 18476 875 56 18490 625 19500 625 56 19500 625 18490 625 57 18504 375 19514 375
23. D 14 MHZ 15 4 76 TABLE B 40 15 GHZ MEX D 14 MHZ 15 76 TABLE B 41 18 GHz 50 MHZ CHANNELS 0 77 TABLE B 42 18 GHz 50 MHz 15 4 77 TABLE B 43 18 GHZ BRAZIL 27 5 MHZ CHANNELS sss esse esse esse ennes neee ennenen neee ennenen 77 TABLE B 44 18 GHZ BRAZIL 55 MHZ CHANNELS 77 TABLE B 45 18 GHZ BRAZIL 13 75 MHz 16 08 4 0 78 TABLE B 46 18 GHz ETSI ITU 27 5 MHZ 15 2 4 44 40 2 78 TABLE B 47 18 GHz ETSI ITU FRENCH 55 MHZ 16 4 0 ene 79 TABLE B 48 18 GHz ETSI ITU FRENCH 13 75 MHZ 15 44 4 4 42 0 122 79 TABLE B 49 18 GHz ETSI ITU FRENCH 27 5 MHZ 6 444 4 4 0 nn nnn nn nnn 80 TABLE B 50 18 GHz ETSI ITU 13 75 MHz 15 4 0 0 nnn nnns nnn 80 TABLE B 51 18 GHz ETSI ITU 27 5 MHz 15 4 81 TABLE B 52 18 GHz ETSI ITU FRENCH 55 MHZ 16 4 44 4 42 0 nn nnn nn nnn 81 TABLE B 53 18 GHz FRENCH 13 75 MHz 15
24. MHz 1 10735 11265 1 11265 10735 2 10775 11305 2 11305 10775 3 10815 11345 11345 10815 4 10855 11385 4 11385 10855 5 10895 11425 5 11425 10895 Table B 3 11 GHz FCC 30 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 10715 11215 1 11215 10715 2 10755 11245 2 11245 10755 3 10795 11285 3 11285 10795 4 10835 11325 4 11325 10835 5 10875 11365 5 11365 10875 6 10915 11405 6 11405 10915 Table B 4 11 GHz IC 30 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 10725 11225 1 11225 10725 2 10755 11255 2 11255 10755 3 10785 11285 11285 10785 4 10815 11315 4 11315 10815 5 10845 11345 5 11345 10845 6 10875 11375 e 11375 10875 7 10905 11405 7 11405 10905 8 10935 11435 8 11435 10935 Table B 5 11 GHz ITU a 40 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 10715 11245 1 11245 10715 2 10755 11285 2 11285 10755 3 10795 11325 3 11325 10795 4 10835 11365 4 11365 10835 5 10875 11405 5 11405 10875 6 10915 11445 6 11445 10915 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWave lnc 70 Table B 6 11 GHz FCC ETSI b 40 MHz Channels Table Table Table Table
25. Re enter the desired password for this account The system responds User Accepted If the usernames or passwords do not match the system will respond nak Repeat for as many admin accounts as required Save the settings save mib press Enter The system responds MIB saved Note the new account settings must be saved otherwise they will be lost after the next system reset The user must perform the save mib command in order to save the changes 5 6 Logging Out When accessing the system via Telnet log out of the system by using the CLI command o When accessing using the Web browser closing the browser will log you out of the system 5 6 1 Session Time Out After 10 minutes of inactivity Horizon Compact units will automatically terminate the login session DragonWave lnc 28 This page left blank intentionally Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 6 0 Antenna Mounting and Tower Specifications The Horizon Compact unit clip mounts onto a range of antennas providing a variety of gain and range options The same mounting system is used for all sizes of antenna The Horizon Compact has four integral spring loaded mounting clips The antennas are provided with four mounting lugs onto which the mounting clips attach The antenna port and the waveguide adaptor of the Horizon Compact push fit together before the clips are set and are weather sealed with a lubricated
26. Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 18305 19315 1 19315 18305 2 18332 5 19342 5 2 19342 5 18332 5 3 18360 19370 3 19370 18360 4 18387 5 19397 5 4 19397 5 18387 5 5 18415 19425 5 19425 18415 6 18442 5 19452 5 6 19452 5 18442 5 7 18470 19480 7 19480 18470 8 18497 5 19507 5 8 19507 5 18497 5 9 18525 19535 9 19535 18525 10 18552 5 19562 5 10 19562 5 18552 5 Table 57 18 GHz Australian 55 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 18360 19370 1 19370 18360 2 18415 19425 2 19425 18415 3 18470 19480 3 19480 18470 4 18525 19535 4 19535 18525 5 18580 19590 5 19590 18580 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 85 Table 58 23 GHz FCC 50 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 19 22125 23325 19 23325 22125 20 22175 23375 20 23375 22175 21 22225 23425 21 23425 22225 22 22275 23475 22 23475 22275 23 22325 23525 23 23525 22325 24 22375 23575 24 23575 22375 Table B 59 23 GHz IC 50 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz AT 22125 23325 AT 23325 22125 A8 22175 23375 8 23375 22175 9 222
27. allocated an 802 1P CoS level set untagged frame priority If the set untagged frame priority is not configured then all untagged frames will be forwarded through Queue 1 Horizon Compact is also able to manage Q in Q or Super VLAN traffic The system can be configured to use either an encapsulated frame s priority tag or the encapsulating frame s priority tag in determining priority handling 10 3 8 Expedite Queues Expedite Queuing is a mechanism that allows one or more of the four Queues to transmit its data as priority traffic at the expense of the remaining Queues When Expedite Queue is enabled then as long as there is data in the Expedite Queue or Queues that data will be transmitted first This allows time critical or error sensitive traffic to have priority data delivery As network services increase the need for multiple Expedite Queues becomes evident A network administrator may require three Expedite Queues and decide to send all network routing protocols through the highest Expedite Queue send IP Voice through the next highest Expedite Queue send Video over IP through the next highest Expedite Queue and send all other traffic to the remaining Queue which is not configured as an Expedite Queue To do this the administrator would configure Queues 4 3 and 2 as Expedite Queues and configure Queue 1 as a standard Queue with a particular CIR Configuring the CIR for a particular queue to 100 enables the expedite
28. frequency allocations With a native Ethernet design and ultra low latency the Horizon Compact is optimized for next generation services Fixed and Scalable Bandwidth Operations The Horizon Compact is a flexible bandwidth radio platform designed specifically for customers with rapid scalability requirements The DragonWave Horizon Compact scales from 10 to 400 Mbps via a simple software configuration For higher bandwidth needs two radios can be polarization multiplexed on a single antenna using a Dual Polarity Radio Mount DPRM to provide up to 800 Mbps of capacity in a single link Zero Footprint Option The Horizon Compact is a single outdoor compact weatherproof unit requiring no indoor space and is available with optical and electrical GigE interface options Enhanced Network Management Horizon Compact fully supports remote management via in band or out of band management using SNMP v3 V2c or V1 CLI and Web GUI Security is a critical feature with SSH SSL and Radius Improved Reach Horizon Compact enables bandwidth extensions over extended distances by providing up to 98 dB system gain in its standard power configuration or up to 108dB in a high power configuration both of which can support antennas sized up to six feet This feature combination enables link lengths beyond 50 km 30 mi In addition DragonWave s dynamic modulation allows a link to be engineered to the highest availability while maximizing throughput in
29. is sealed by fitting a weatherproof cap 2 1 2 Optical Interface A weatherproof military specification multi pin connector is provided for Port 2 which includes the power feed Port 1 has a weatherproof optical fibre connector Single mode and multimode fibre options are available As with the copper variant Port 1 supports data traffic and optional in band management and Port 2 is for optional out of band management only In the optical variant power 36 to 60 V DC is fed to Port 2 via a short Y adapter cable which also includes a weatherproof in line RJ 45 connector for connecting to the optional out of band management overlay network The power feed wires see Table 2 2 for recommended gauge are spliced into the adapter cable using weatherproof tap connectors The power feed and Port 2 Ethernet cables maximum length 100 m are fed through a Transtector surge arrestor unit designed to protect power and network circuits from transients Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Physical Description 7 As an alternative an existing AirPair ODU composite power and Ethernet cable assembly which is compatible with the Horizon Port 2 connector may be used provided that the RJ 45 connector grey CAT5 at the Transtector end is re terminated to amp T GigE standards The same Transtector type used in an AirPair ODU installation may also be used Table 2 2 Port 2 Power Cable Wi
30. nnn nnn nnn nnn is the desired subnet mask in standard format 3 the CLI command set default gateway nnn nnn nnn nnn and press Enter where nnn nnn nnn nnn is the IP address of the default gateway in standard format 4 Type the CLI command save mib and press Enter This command saves the entered information to memory but does not yet apply them 5 Type the CLI command reset system and press Enter followed by Y This command resets the system and applies all the radio and IP changes just made Note that resetting the system disrupts traffic Once the system has reset you may not be able to communicate with it without changing your laptop or PC networking parameters to match the new IP address values programmed into the Horizon Compact DragonWave lnc 22 Note that the reset system command is not always required when making configuration changes but the save mib command is always required Commands that require a reset system will be indicated on the screen 5 3 2 Using the Web Interface 1 From the Home page select the Configuration menu option and then select the IP configuration option 2 Enter the IP address subnet mask and default gateway values using standard format in their respective fields Click on the Submit button Click on the Save settings button Click on the Reset system button Once the system has reset you may not be able to communicate with it without changing your laptop
31. or PC networking parameters to match the new IP address values programmed into the Horizon Compact The system is now configured and capable of passing traffic once the Horizon Compact units are attached to antennas mounted at each end of the link and aligned Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Initial Configuration C 3 __ _ 2 lt 5 4 Recovery of IP Address and Serial Numbers In the event that the Horizon Super User name and password or IP address has been lost forgotten or misconfigured you will need to contact DragonWave DragonWave Technical Support will provide the Merlin recovery utility that using a proprietary protocol can recover the configured IP address parameters and or reset the Super User name Super User password and IP address parameters to the factory default values energetic wireless 192 168 10 100 255 255 0 0 In addition it reports the system serial number The Merlin utility runs on a PC running the Windows operating system and requires a one time use recovery key provided by DragonWave Proof of ownership and proof of authority must be provided before the key will be issued When Merlin is invoked the Horizon unit responds with the required information which is saved in a text file located in the same directory as the Merlin application 5 5 Changing and Adding User Names and Passwords User account names and passwords can only be configured using
32. par le mat riel homologu par la FCC L appareil Horizon Compact de DragonWave respecte les limites environnementales non contr l es d crites dans le bulletin OET 65 et dans la norme ANSI C95 1 de 1991 Si l appareil radio est utilis selon les instructions d crites dans le pr sent manuel ou tout autre manuel de nos produits ou dans le guide de l utilisateur relatif la ligne de produits ou quippement de DragonWave r sultera des expositions aux champs lectromagn tiques sensiblement moins lev s que les limites recommand es par la FCC 1 Ne jamais toucher ou d placer la ou les antennes lorsque l appareil fonctionne en mode de transmission ou de r ception 2 Lorsque l appareil fonctionne en mode de transmission tenir les l ments contenant la radio de mani re que l antenne ne soit pas trop proche des parties du corps expos es surtout le visage ou les yeux ou n y touche pas 3 Ne pas faire fonctionner un metteur transportable proximit de d tonateurs non prot g s ou dans un milieu explosif moins qu il s agisse d un metteur autoris Les antennes gain lev mont es sur mat sont con ues pour tre install es par des professionnels Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWave lnc 92 Professional Installation DragonWave Horizon Compact devices require professional installation It is the responsibility of the installer to be sure that a
33. parameters is available through SNMP access The Web interface provides access to system configuration and performance parameters In band and out of band management options are available 11 1 In band and Out of band Management The Horizon Compact contains a dual NIC which has two 10 100 1000 Base t Ethernet ports These are labelled Port 1 and Port 2 The system may be configured to use EITHER Port 1 in band OR Port 2 out of band for management traffic Management traffic includes Telnet traffic and associated CLI commands SNMP management ping 4 FTP used for configuration backup and restore and software upgrades management functions that are available on Port 1 are also available Port 2 Both ports be configured to operate with or without management VLANs see Section 10 2 The key points to consider when choosing the network management configuration are as follows e Port 1 is always used for customer data traffic It is not possible to send customer data traffic over Port 2 e Port 1 can be configured to support management traffic in addition to customer data traffic Use the CLI command set network management interface port then press Enter The default configuration is for management data traffic to be carried over Port 1 Both ends of the link can be managed when Port 1 is set as the management interface Port 2 can only be used for management Port 2 does not carry any customer data tra
34. power 1 Connect Port 1 of the Horizon Compact to the correct socket on the PonE adapter using straight through Ethernet cable see caution above 2 Connect the Ethernet port on the PC to the network input socket on the PonE surge unit using a straight through Ethernet cable Ensure that you have connected the PC and Horizon to the correct RJ 45 sockets on the PonE surge unit see diagram above 3 Once the PC and Horizon Compact are connected to the PonE surge unit you may connect power to the PonE surge unit This will supply power to the Horizon Compact unit CAUTION Do not connect a PC or other network device e g network switch to the right hand RJ 45 sockets on the PonE adapter 48 V DC is present on these connectors which may destroy the connected device Connect only a Horizon Compact unit to the right hand RJ 45 connectors Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWave Inc 16 4 2 Optical Interface In the copper interface version power is fed to the Horizon using PonE techniques via the Ethernet connection to Port 1 In the optical version this is not possible so power is fed via the connection to Port 2 Port 2 on the optical interface variant is equipped with a weatherproof MIL style multi pin connector which incorporates an Ethernet connection and a power feed NOT PonE connection Connection to Port 2 is achieved using a short Y adaptor cable having an RJ 4
35. x 23 6 cm x 23 6 cm 4 8kg 4 75 in x 9 3 in x 9 3in 10 6 Ibs Antenna Wind Loading 112 kph 70 mph Operational 200 kph 125 mph Survival Antenna Mount Adjustment 10 Az 25 El Payloads Interface Latency 100 BT lt 400us Typical lt 200 5 FastE Latency GigE lt 200us Typical 120us GigE Frame Size 64 to 1600 Bytes up to 9600 GigE Mode 1000 100 10 BaseT Flow Control Yes GigE mode only 802 1p Yes 8 levels served by 4 queues 802 1q Yes Modulation Shifting Current to Lowest 100 mS Channel Bandwidth 50 MHz Channel Bandwidth 40 MHz Introduction to Horizon Compact 3 Power Input Optional Adapter Consumption per link end 20 Watts LP 47 Watts HP 36 VDC to 60 VDC 110 240 VAC Connections Power Payload Inband NMS NMS when out of band 48V PonE Shielded RJ 45 or optical LC Shielded RJ 45 Network Management NMS Alarm Management SNMP Traps Enterprise MIB NMS Compatibility Any SNMP based network manager SNMP v1 v2 and v3 3 Level Authentication Web Based Management System SSL HTTP SSH Radius Security EMS Environmental Operating Temperature Standard Power 18 28 GHz 40 C to 50 C 40 F to 122 F Humidity 100 Condensing Altitude 4500 m 14 760 ft Water Tightness Nema4X IP56 directed hose test Operational Shock ETSI 300 019 1 4 5g 11ms Operational Vibration ETSI 300 019 1 4 Class 4m5 NEBS GR 63 Earthquake NEBS GR 63 Channel Ban
36. 0 Aligning the Antennas Follow the steps of the alignment procedure shown below Note ensure that the CLI command set alignment field strength At the first end as been entered at both ends of the link if you are using the BNC connector to measure 1 Loosen the pan mechanism lock nuts 2 Panor move the antenna horizontally across the entire range of adjustment to identify the main lobe and the side lobes The main lobe is approximately 2 degrees in width depends on frequency and antenna size The two major side lobes are approximately 5 degrees apart Adjust the antenna to the main lobe approximately 3 Tighten the pan mechanism lock nuts and loosen the tilt mechanism lock nuts 4 Tilt or move the antenna vertically until you receive the strongest RSL reading 5 Tighten the tilt mechanism lock nuts and loosen the pan mechanism lock nuts 6 Pan move the antenna horizontally to locate each of the lobes Record the RSL values of each Select the strongest RSL recorded and readjust the antenna to this strongest RSL reading 7 Re tighten the pan tilt mechanism lock nuts to lock the antenna in place At the other end 8 Repeat steps 1 through 7 Return to the first end 9 Loosen the pan mechanism lock nuts 10 Pan or move the antenna horizontally across the entire range of adjustment to identify the main lobe and the two major side lobes Adjust the antenna to the main lobe approximately 11 Tighten the pan me
37. 085 8 18140 19150 8 19150 18140 9 18195 19205 9 19205 18195 Table B 48 18 GHz ETSI ITU French 13 75 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 17734 375 18744 375 1 18744 375 17734 375 2 17748 125 18758 125 2 18758 125 17748 125 3 17761 875 18771 875 3 18771 875 17761 875 4 17775 625 18785 625 18785 625 17775 625 5 17789 375 18799 375 5 18799 375 17789 375 6 17803 125 18813 125 6 18813 125 17803 125 7 17816 875 18826 875 7 18826 875 17816 875 8 17830 625 18840 625 8 18840 625 17830 625 9 17844 375 18854 375 9 18854 375 17844 375 10 17858 125 18868 125 10 18868 125 17858 125 11 17871 875 18881 875 11 18881 875 17871 875 12 17885 625 18895 625 12 18895 625 17885 625 13 17899 375 18909 375 13 18909 375 17899 375 14 17913 125 18923 125 14 18923 125 17913 125 15 17926 875 18936 875 15 18936 875 17926 875 16 17940 625 18950 625 16 18950 625 17940 625 17 17954 375 18964 375 17 18964 375 17954 375 18 17968 125 18978 125 18 18978 125 17968 125 19 17981 875 18991 875 19 18991 875 17981 875 20 17995 625 19005 625 20 19005 625 17995 625 21 18009 375 19019 375 21 19019 375 18009 375 22 18023 125 19033 125 22 19033 125 18023 125 23 18036 875 19046 875 23 19046 875 18036 875 24 18050 625 19060 625 24 19060 625 18050 625 25 18064 375 19074 375 25 19074 375 18064 375 26 18078 125 19088 125 26 19088 125 18078 125 27 18091 875 19101 875 27 19101 875 18091 875 28 18105 625 19115 625 29
38. 10 6 Adaptive Transmit Power Control ATPC Adaptive Transmit Power Control ATPC allows a Horizon Compact system to adjust its transmit power to compensate for far end signal loss caused by changes in atmospheric conditions e g heavy rain ATPC maintains the RSL at 50 dB and adjusts the transmit power by up to 20dB as necessary in order to maintain 50 dB during fade conditions RSL threshold levels that trigger power changes the maximum power change allowed and a hysteresis factor are preset at values which optimize the operation of the Horizon Compact system A fade factor of 5dB second can be handled The Horizon Compact system is able to discriminate between RSL levels that are reduced as a result of interference and those as a result of genuine path loss so that ATPC is not invoked unnecessarily Some jurisdictions require the use of ATPC so that power levels are kept as low as possible when wireless communication conditions are good When ATPC is to be used if it can be shown that the maximum power of the system would be used only on infrequent occasions some jurisdictions will allow a lower power level to be used in the calculations that determine interference criteria This offers some advantage to the installation This lower power is termed the coordinated power The DragonWave ATPC feature supports a coordinated power parameter ATPC is enabled or disabled by issuing the CLI command set on off coordinated power Th
39. 15243 15243 Table B 29 15 GHz ITU c2 28 MHz Channels 420 MHz T R TxLow TxHigh Channel index Tx RF MHz RxRF MHz Channelindex Tx RF MHz Rx RF MHz 10 14767 15187 15187 11 14795 15215 15215 14823 15243 15243 14823 14851 15271 15271 14851 14879 15299 15299 14879 14907 15327 15327 14907 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Table 30 15 GHz ITU 2 14 MHz Channels 420 MHz Appendix B TxLow TxHigh Channel index Tx RF MHz Rx RF MHz 15187 Channel index Tx RF MHz Rx RF MHz 19 14767 20 14781 15201 15187 15201 Table B 31 15 GHz IC c 40 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz 15235 Channel index Tx RF MHz Rx RF MHz D7 14760 D8 14800 15275 Table B 32 15 GHz AUS d 28 MHz Channels Table Table 15235 D8 15275 TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channelindex Tx RF MHz Rx RF MHz 6 14655 15299 6 15299 14655 7 14683 15327 7 15327 14683 8 14711 15355 8 15355 14711 B 33 15 GHz NZ d 28 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 14515 15159 1 15159 14515 2 14543 1518
40. 243 1 15243 14515 Channel index Tx RF MHz Rx RF MHz 2 14543 15271 2 15271 14543 5 14571 15299 5 15299 14571 6 14599 15327 6 15327 14599 Table B 39 15 GHz ETSI d 14 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx MHz Channelindex Tx RF MHz Rx RF MHz 14571 15299 15299 14571 6 14555 15313 15313 14585 14599 15327 15327 14599 8 4619 15341 S 1534 14613 Table B 40 15 GHz MEX d 14 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx MHz Channelindex Tx RF MHz Rx RF MHz A1A 14508 15236 A1B 14522 15250 15236 A1B 15250 14536 15264 15264 14536 14550 15278 15278 14550 14564 15292 15292 14564 14578 15306 15306 14578 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Table B 41 18 GHz FCC IC 50 MHz Channels Appendix B TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 17765 19325 1 19325 17765 2 17815 19375 2 19375 17815 3 17865 19425 3 19425 17865 4 17915 19475 4 19475 17915 5 17965 19525 5 19525 17965 6 18015 19575 6 19575 18015 7 18065 19625 T 19625 18065 8 18115 19645 8 19645 18115 Table B 42 18 GHz IC 50
41. 25 23425 9 23425 22225 10 22275 23475 10 23475 22275 11 22325 23525 A11 23525 22325 A12 22375 23575 A12 23575 22375 Table B 60 23 GHz Mexico 50 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz AT 22125 23325 AT 23325 22125 A8 22175 23375 8 23375 22175 9 22225 23425 9 23425 22225 10 22275 23475 A10 23475 22275 Table B 61 23 GHz Australia 14 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 5 22071 23303 5 23303 22071 6 22085 23317 6 23317 22085 7 22099 23331 7 23331 22099 8 22113 23345 8 23345 22113 DragonWave lnc 86 Table B 62 23 GHz ITU 14 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 61 22071 23303 61 23303 22071 62 22085 23317 62 23317 22085 63 22099 23331 63 23331 22099 64 22113 23345 64 23345 22113 65 22127 23359 65 23359 22127 66 22141 23373 66 23373 22141 67 22155 23387 67 23387 22155 68 22169 23401 68 23401 22169 69 22183 23415 69 23415 22183 70 22197 23429 70 23429 22197 71 22211 23443 71 23443 22211 72 22225 23457 72 23457 22225 73 22239 23471 73 23471 22239 74 22253 23485 74 23485 22253 75 22267 23499 75 23499 22267 76 22281 23513 76 23513 22281 77 2229
42. 3 16 23233 22225 17 22239 23247 17 23247 22239 18 22253 23261 18 23261 22253 19 22267 23275 19 23275 22267 20 22281 23289 20 23289 22281 21 22295 23303 21 23303 22295 22 22309 23317 22 23317 22309 23 22323 23331 23 23331 22323 24 22337 23345 24 23345 22337 25 22351 23359 25 23359 22351 26 22365 23373 26 23373 22365 27 22379 23387 27 23387 22379 28 22393 23401 28 23401 22393 29 22407 23415 29 23415 22407 30 22421 23429 30 23429 22421 31 22435 23443 31 23443 22435 32 22449 23457 32 23457 22449 33 22463 23471 33 23471 22463 34 22477 23485 34 23485 22477 35 22491 23499 35 23499 22491 36 22505 23513 36 23513 22505 37 22519 23527 37 23527 22519 38 22533 23541 38 23541 22533 39 22547 23555 39 23555 22547 40 22561 23569 40 23569 22561 41 22575 23583 41 23583 22575 87 DragonWave lnc 88 Table B 66 23 GHz ETSI 28 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 3 22078 23086 3 23086 22078 4 22106 23114 4 23114 22106 5 22134 23142 5 23142 22134 6 22162 23170 6 23170 22162 7 22190 23198 T 23198 22190 8 22218 23226 8 23226 22218 9 22246 23254 9 23254 22246 10 22274 23282 10 23282 22274 11 22302 23310 11 23310 22302 12 22330 23338 12 23338 22330 13 22358 23366 13 23366 22358 14 22386 23394 14 23394 22386 15 22414 2
43. 3422 15 23422 22414 16 22442 23450 16 23450 22442 17 22470 23478 17 23478 22470 18 22498 23506 18 23506 22498 19 22526 23534 19 23534 22526 20 22554 23562 20 23562 22554 Table 67 23 GHz ETSI 56 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 2 22134 23142 2 23142 22134 3 22190 23198 3 23198 22190 4 22246 23254 4 23254 22246 5 22302 23310 5 23310 22302 6 22358 23366 6 23366 22358 7 22414 23422 7 23422 22414 8 22470 23478 8 23478 22470 9 22526 23534 9 23534 22526 Table 68 23 GHz UK 56 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 2 22092 23100 2 23100 22092 3 22148 23156 3 23156 22148 4 22204 23212 4 23212 22204 5 22260 23268 5 23268 22260 6 22316 23324 6 23324 22316 7 22372 23380 7 23380 22372 8 22428 23436 8 23436 22428 9 22484 23492 9 23492 22484 10 22540 23548 10 23548 22540 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Table 69 23 GHz ITU 56 MHz Channels Appendix B TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 16 22092 23324 16 23324 22092 17 22148 23380 17 23380 22148 18 22204 23436 18 23436 22204 19 22260 23492 19 23492 22260 20 22316 23548 20 23548 22316 89 DragonWave lnc 90 This page left blank intentionally Horizon Compact Release
44. 41 209 U S Navy 5 2 129 132 2 21 Switzerland 10 11 Automatic Adaptive Modulation AAM The two principal modulation schemes used on the Horizon Compact system are QPSK and QAM QPSK the lowest modulation scheme is ideal for long distance but has the lowest throughput capability Higher throughputs are achieved by using more complex modulation schemes e g 16 32 QAM 64 QAM 128 QAM 256 QAM The higher numbers indicate a progressively more complex scheme and a higher bandwidth throughput capability e g 256 QAM is more complex than 128 QAM and provides higher throughput More complex modulation schemes are susceptible to noise and thus require a stronger signal for the demodulator to accurately decode the data stream Consequently the more complex the modulation scheme used the shorter the distance limitation of the radio link If a system is using a given modulation scheme and weather conditions cause signal levels to deteriorate below acceptable levels risking a link failure changing the modulation scheme to a less complex scheme will allow the link to remain functional although the throughput will be lower until weather conditions improve The modulation scheme can then be returned to the original scheme and the throughput returned to normal levels The Horizon Compact system can be configured to automatically change modulation schemes if environmental conditions deteriorate to the point where a wireless link may
45. 45 connector to the Horizon Compact BEFORE applying power to the Figure 3 3 RJ 45 Cable connector Snap fit Style system at the PonE surge unit See 7 1 for more details Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Installation Requirements 13 3 2 2 Push fit style This connector relies on a gland nut to hold the assembly firmly together The CAT5E cable is threaded through all the components of the connector housing see Figure 3 4 before the cable is terminated as a straight through connection with a shielded RJ 45 connector Once terminated the RJ 45 connector slides back into the connector housing which accepts the tab on the RJ 45 connector Screw the ferrule into the connector housing as far as it will go ensuring that the O ring creates a tight seal with the connector housing Slide the compression seal into the ferrule noting that the keyways have to mate with channels in the ferrule While ensuring that the RJ 45 connector is firmly seated in the connector housing tighten up the gland nut to secure the complete connector assembly Gland Nut Compression Seal Ferrule with O Slide RJ 45 Screw ferrule back into housing CN np nuit Figure 3 4 RJ 45 Cable connector Push fit Style CAUTION CAUTION Using a cross over connection Connect the RJ 45 will damage the Horizon connector to the Horizon Compact Only use straight Compact BEFORE
46. 485 10955 8 10995 11525 8 11525 10995 9 11035 11565 9 11565 11035 10 11075 11605 10 11605 11075 11 11115 11645 11 11645 11115 12 11155 11685 12 11685 11155 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Table 11 13 GHz NZ AUS ETSI ITU 28 MHz Channels Table Table Table Appendix B A TxLow TxHigh Channel index RF 2 Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 12765 13031 1 13031 12765 2 12793 13059 2 13059 12793 3 12821 13087 3 13087 12821 4 12849 13115 4 13115 12849 B 12 13 GHz NZ AUS ETSI ITU a 14 MHz Channels TxLow TxHigh Channel index Tx RF MHz RxRF MHz Channelindex Tx RF MHz Rx RF MHz 1 12758 13024 1 13024 12758 2 12772 13038 2 13038 12772 3 12786 13052 3 13052 12786 4 12800 13066 4 13066 12800 5 12814 13080 5 13080 12814 6 12828 13094 6 13094 12828 7 12842 13108 7 13108 12842 8 12856 13122 8 13122 12856 13 13 GHz NZ AUS ETSI ITU b 28 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 5 12877 13143 5 13143 12877 6 12905 13171 6 13171 12905 7 12933 13199 7 13199 12933 8 12961 13227 8 13227 12961 B 14 13 GHz NZ AUS ETSI ITU b 14 MHz Channels TxLow TxHigh Channel index Tx RF MHz RxRF MHz
47. 5 19191 25 18181 25 36 18195 19205 36 19205 18195 37 18208 75 19218 75 37 19218 75 18208 75 B 46 18 GHz ETSI ITU 27 5 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 17727 5 18737 5 iu 18737 5 17727 5 2 17755 18765 2 18765 17755 3 17782 5 18792 5 3 18792 5 17782 5 4 17810 18820 4 18820 17810 5 17837 5 18847 5 5 18847 5 17837 5 6 17865 18875 6 18875 17865 7 17892 5 18902 5 T 18902 5 17892 5 8 17920 18930 8 18930 17920 9 17947 5 18957 5 9 18957 5 17947 5 10 17975 18985 101 18985 17975 11 18002 5 19012 5 11 19012 5 18002 5 12 18030 19040 12 19040 18030 13 18057 5 19067 5 13 19067 5 18057 5 14 18085 19095 14 19095 18085 15 18112 5 19122 5 15 19122 5 18112 5 16 18140 19150 16 19150 18140 17 18167 5 19177 5 17 19177 5 18167 5 18 18195 19205 18 19205 18195 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Table 47 18 GHz ETSI ITU French 55 MHz Channels Appendix B TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 17755 18765 1 18765 17755 2 17810 18820 2 18820 17810 3 17865 18875 3 18875 17865 4 17920 18930 4 18930 17920 5 17975 18985 5 18985 17975 6 18030 19040 6 19040 18030 7 18085 19095 7 19095 18
48. 5 23527 TT 23527 22295 78 22309 23541 78 23541 22309 79 22323 23555 79 23555 22323 80 22337 23569 80 23569 22337 Table 63 23 GHz ITU 28 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 31 22078 23310 31 23310 22078 32 22106 23338 32 23338 22106 33 22134 23366 33 23366 22134 34 22162 23394 34 23394 22162 35 22190 23422 35 23422 22190 36 22218 23450 36 23450 22218 37 22246 23478 37 23478 22246 38 22274 23506 38 23506 22274 39 22302 23534 39 23534 22302 40 22330 23562 40 23562 22330 Table B 64 23 GHz Australia 28 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 3 22078 23310 3 23310 22078 4 22106 23338 4 23338 22106 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Table 65 23 GHz ETSI 14 MHz Channels Appendix B TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 5 22071 23079 05 23079 22071 6 22085 23093 06 23093 22085 7 22099 23107 07 23107 22099 8 22113 23121 08 23121 22113 9 22127 23135 09 23135 22127 10 22141 23149 10 23149 22141 11 22155 23163 11 23163 22155 12 22169 23177 12 23177 22169 13 22183 23191 13 23191 22183 14 22197 23205 14 23205 22197 15 22211 23219 15 23219 22211 16 22225 2323
49. 5 connector on one leg and power tails on the other The Ethernet connection to Port 2 provides for optional out of band management and the power tails allow a power feed to be spliced into circuit Note that the Ethernet connection and power feed to Port 2 must be fed via a Transtector unit to protect the network and power systems from transients As an alternative an existing AirPair ODU composite power and Ethernet cable assembly which is compatible with the Horizon Port 2 connector may be used provided that the RJ 45 connector grey CAT5 at the Transtector end is terminated as shown in Figure 4 3 The same Transtector type used in an AirPair ODU installation may also be used Transtector surge protector Tap connectors for power Ethemet management feed optional power feed Figure 4 2 Connecting Power to the Horizon Compact optical interface Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Installation Requirements 17 1000BaseTx RJ 45 pinout Signal Ea TPO 2 TPO TP1 FA TP2 s TP2 16 TP1 TP3 l8 TP3 Figure 4 3 RJ 45 connector pinout Port 2 management DragonWave lnc 18 This page left blank intentionally Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 5 0 Initial Configuration There are a number of configuration steps that need to be carried out before the Hori
50. 57 19514 375 18504 375 58 18518 125 19528 125 58 19528 125 18518 125 59 18531 875 19541 875 59 19541 875 18531 875 60 18545 625 19555 625 60 19555 625 18545 625 61 18559 375 19569 375 61 19569 375 18559 375 62 18573 125 19583 125 62 19583 125 18573 125 63 18586 875 19596 875 63 19596 875 18586 875 64 18600 625 19610 625 64 19610 625 18600 625 65 18614 375 19624 375 65 19624 375 18614 375 66 18628 125 19638 125 66 19638 125 18628 125 67 18641 875 19651 875 67 19651 875 18641 875 68 18655 625 19665 625 68 19665 625 18655 625 69 18669 375 19679 375 69 19679 375 18669 375 70 18683 125 19693 125 70 19693 125 18683 125 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Table 54 18 GHz French 27 5 MHz Channels Appendix B TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 17 18181 25 19191 25 17 19191 25 18181 25 18 18208 75 19218 75 18 19218 75 18208 75 19 18236 25 19246 25 19 19246 25 18236 25 20 18263 75 19273 75 20 19273 75 18263 75 21 18291 25 19301 25 21 19301 25 18291 25 22 18318 75 19328 75 22 19328 75 18318 75 23 18346 25 19356 25 23 19356 25 18346 25 24 18373 75 19383 75 24 19383 75 18373 75 25 18401 25 19411 25 25 19411 25 18401 25 26 18428 75 19438 75 26 19438 75 18428 75 27 18456 25 19466 25 27 19466 25 18456 25 28 18483 75 19493 75 28 19493 75 184
51. 7 2 15187 14543 3 14571 15215 3 15215 14571 4 14599 15243 4 15243 14599 5 14627 15271 5 15271 14627 6 14655 15299 6 15299 14655 7 14683 15327 7 15327 14683 8 14711 15355 8 15355 14711 34 15 GHz AUS d 14 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 2 14550 15194 2 15194 14550 3 14564 15208 3 15208 14564 4 14578 15222 4 15222 14578 5 14592 15236 5 15236 14592 6 14606 15250 6 15250 14606 75 DragonWave lnc 76 Table B 35 15 GHz NZ d 14 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz 14536 15180 1 15180 14536 Channel index Tx RF MHz Rx RF MHz 2 14550 15194 2 15194 14550 3 14564 15208 3 15208 14564 4 14578 15222 4 15222 14578 5 14592 15236 5 15236 14592 6 14606 15250 6 15250 14606 Table B 36 15 GHz ETSI d 56 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 14529 15257 2 14585 15313 Table B 37 15 GHz MEX d 28 MHz Channels 15257 15313 TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 14515 15243 1 15243 14515 2 14543 15271 2 15271 14543 5 14571 15299 5 15299 14571 Table B 38 15 GHz ETSI d 28 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz 14515 15
52. 8 18208 75 19218 75 18 19218 75 18208 75 Table B 50 18 GHz ETSI ITU 13 75 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 35 18181 25 19191 25 35 19191 25 18181 25 36 18195 19205 36 19205 18195 37 18208 75 19218 75 37 19218 75 18208 75 38 18222 5 19232 5 38 19232 5 18222 5 39 18236 25 19246 25 39 19246 25 18236 25 40 18250 19260 40 19260 18250 41 18263 75 19273 75 41 19273 75 18263 75 42 18277 5 19287 5 42 19287 5 18277 5 43 18291 25 19301 25 43 19301 25 18291 25 44 18305 19315 44 19315 18305 45 18318 75 19328 75 45 19328 75 18318 75 46 18332 5 19342 5 46 19342 5 18332 5 47 18346 25 19356 25 47 19356 25 18346 25 48 18360 19370 48 19370 18360 49 18373 75 19383 75 49 19383 75 18373 75 50 18387 5 19397 5 50 19397 5 18387 5 51 18401 25 19411 25 51 19411 25 18401 25 52 18415 19425 52 19425 18415 53 18428 75 19438 75 53 19438 75 18428 75 54 18442 5 19452 5 54 19452 5 18442 5 55 18456 25 19466 25 55 19466 25 18456 25 56 18470 19480 56 19480 18470 57 18483 75 19493 75 57 19493 75 18483 75 58 18497 5 19507 5 58 19507 5 18497 5 59 18511 25 19521 25 59 19521 25 18511 25 60 18525 19535 60 19535 18525 61 18538 75 19548 75 61 19548 75 18538 75 62 18552 5 19562 5 62 19562 5 18552 5 63 18566 25 19576 25 63 19576 25 18566 25 64 18580 19590 64 19590 18580 65 18593 75 19603 75 65 19603 75 18593 75 66 18607 5 19617 5 66 19617 5 18607 5 67 18621 25 19631 25 67 19631 25 1
53. 83 75 29 18511 25 19521 25 29 19521 25 18511 25 30 18538 75 19548 75 30 19548 75 18538 75 31 18566 25 19576 25 31 19576 25 18566 25 32 18593 75 19603 75 32 19603 75 18593 75 33 18621 25 19631 25 33 19631 25 18621 25 34 18648 75 19658 75 34 19658 75 18648 75 35 18676 25 19686 25 35 19686 25 18676 25 83 DragonWavelnc 84 Table B 55 18 GHz Australian 13 75 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 18305 19315 1 19315 18305 2 18318 75 19328 75 2 19328 75 18318 75 3 18332 5 19342 5 3 19342 5 18332 5 4 18346 25 19356 25 4 19356 25 18346 25 5 18360 19370 5 19370 18360 6 18373 75 19383 75 6 19383 75 18373 75 7 18387 5 19397 5 7 19397 5 18387 5 8 18401 25 19411 25 8 19411 25 18401 25 9 18415 19425 9 19425 18415 10 18428 75 19438 75 10 19438 75 18428 75 11 18442 5 19452 5 11 19452 5 18442 5 12 18456 25 19466 25 12 19466 25 18456 25 13 18470 19480 13 19480 18470 14 18483 75 19493 75 14 19493 75 18483 75 15 18497 5 19507 5 15 19507 5 18497 5 16 18511 25 19521 25 16 19521 25 18511 25 17 18525 19535 17 19535 18525 18 18538 75 19548 75 18 19548 75 18538 75 19 18552 5 19562 5 19 19562 5 18552 5 20 18566 25 19576 25 20 19576 25 18566 25 Table 56 18 GHz Australian 27 5 MHz Channels TxLow TxHigh Channel index Tx RF MHz
54. 8621 25 68 18635 19645 68 19645 18635 69 18648 75 19658 75 69 19658 75 18648 75 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Table 51 18 GHz ETSI ITU 27 5 MHz Channels Appendix B TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 18 18195 19205 18 19205 18195 19 18222 5 19232 5 19 19232 5 18222 5 20 18250 19260 20 19260 18250 21 18277 5 19287 5 21 19287 5 18277 5 22 18305 19315 22 19315 18305 23 18332 5 19342 5 23 19342 5 18332 5 24 18360 19370 24 19370 18360 25 18387 5 19397 5 25 19397 5 18387 5 26 18415 19425 26 19425 18415 27 18442 5 19452 5 27 19452 5 18442 5 28 18470 19480 28 19480 18470 29 18497 5 19507 5 29 19507 5 18497 5 30 18525 19535 30 19535 18525 31 18552 5 19562 5 31 19562 5 18552 5 32 18580 19590 32 19590 18580 33 18607 5 19617 5 33 19617 5 18607 5 34 18635 19645 34 19645 18635 35 18662 5 19672 5 35 19672 5 18662 5 Table 52 18 GHz ETSI ITU French 55 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 9 18195 19205 9 19205 18195 10 18250 19260 10 19260 18250 11 18305 19315 11 19315 18305 12 18360 19370 12 19370 18360 13 18415 19425 13 19425 18415 14 18470 19480 14 19480 18470 15 18525 19535 15 19535 18525 16 18580 19590 16
55. B 25 15 GHz MEX 28 MHZ 5 74 TABLE B 26 15 GHz MEX B 14 MHZ 5 74 TABLE B 27 15 GHz ITU 28 MHz CHANNELS 490 MHZ T R cesses seen nennen nenne nnne nnn nnn nnns 74 TABLE B 28 15 GHz ITU c 14 MHz CHANNELS 490 MHZ 242 21 12 74 TABLE B 29 15 GHz ITU c2 28 MHz CHANNELS 420 MHZ 74 TABLE B 30 15 GHz ITU c2 14 MHz CHANNELS 420 MHZ T R esses esse eenn enen 75 TABLE B 31 15 GHz IC c 40 MHZ 5 enne ennenen ennenen nn sn nete nnn sn niter nnn 75 TABLE B 32 15 GHz AUS 28 MHZ 15 4 nenn 75 TABLE B 33 15 GHZ NZ D 28 MHz 15 75 TABLE B 34 15 GHz AUS D 14 MHZ 5 ennenen nenen 75 TABLE B 35 15 GHZ NZ D 14 MHZ 15 76 TABLE B 36 15 GHz ETSI D 56 MHZ 15 4 8 76 TABLE B 37 15 GHz MEX 28 MHZ CHANNELS eene nena nada sauna nena neeaae S aa ARA 76 DragonWavelnc VI TABLE B 38 15 GHz ETSI p 28 MHZ 15 4 76 TABLE B 39 15 GHz ETSI
56. C connectors linked Secondary Bw UE Primary 07 Le AUS 22 Both P2 ports linked om oum omm na wm oa mm 4 E L CCLLLLLLE PTS Management to P1 of secondary Data feed to P1 of primary Ethernet Switch Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Advanced Configuration Features 53 Figure 10 5 Redundancy Connections Single wire option optical interface NOTE For clarity the Transtector surge arrestor has been omitted from the diagram The power feed must be protected from transients BNC connectors linked Primary abs eee Secondary l aa Lam Y cable 1 Management to P1 of secondary s To power feeds via surge arrestors Optical Switch DragonWave lnc 54 This page left blank intentionally Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 11 0 Horizon Management The Horizon Compact system can be fully managed locally or remotely Horizon Compact supports Telnet access SNMP management and a Web interface accessible through the IP network The entire Command Line Interface CLI command set is available through Telnet The entire list of system
57. D CONFIGURATION FEATURES 1 4 1 41 nean nana nna nnn 41 10 1 RADIUS SERVER USER AUTHENTICATION 3 eric eet egeo KVR kr Panda ee A 41 10 2 MANAGEMENT VEANTAGGING te inta RAT e Eb ILE Eb 42 10 3 802 1P PRIORITY QUEUING IMPLEMENTATION IN HORIZON COMPACT uni a e e e 42 10 3 1 OPERATION WITH 802 1P PRIORITY QUEUING 43 10 3 2 OPERATION WITH 802 1P PRIORITY QUEUING 2 43 10 3 3 EXPEDITE QUEUES 5 IHR du ne MO at ta 43 10 3 4 MANAGEMENT TRAFFIC A in oreet e etre eese oh be dt Der e ee 43 10 4 PAUSE ERAMES eise tnit iter ie eta iet bend redde PERMET 44 10 5 HORIZON COMPACT THROUGHPUT 44 10 5 1 MAXIMUM THROUGHPUT SPEED e 44 10 6 ADAPTIVE TRANSMIT POWER CONTROL ATPO sss 45 10 7 HORIZON COMPACT AUTHENTICATION 46 10 8 TERESHOBDAPABMS nc ira es too eot Road ate Ket IER oer aede ess de of nails A ooh sue cds 47 10 9 RAPID ENK SHUTDOWN 47 10 10 CONFIGURING THE TIME SOURCE SN TP T 47 10 11 AUTOMATIC ADAPTIVE MODULATION 48 10 12 HORIZON COMPACT THROUGHPUT DOUBLING
58. FREQUENCIES eene 30 TABLE 6 2 MOUNTING POLE SPECIFICATIONS 30 TABLE 8 1 ANTENNA GAINS AND BEAM WIDTHS SELECTED FREQUENCIES sese eee sese rone nenen 38 TABLE 10 1 BANDWIDTH OPERATING MODE AND MODULATION SCHEME 50 MHz CHANNEL BANDWIDTH 44 TABLE 10 2 TIME SOURCES C M 48 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Table of Contents V TABLE B 1 11 GHz FCC ETSI A 40 MHZ CHANNELS 69 TABLE B 2 11 GHz NZ A 40 MHZ 15 69 TABLE B 3 11 GHz FCC A 30 MHZ 15 69 TABLE B 4 11 GHz IC A 30 MHZ 15 4 4 69 TABLE B 5 11 GHz ITU A 40 MHZ 15 69 TABLE B 6 11 GHz FCC ETSI 40 MHZ 15 0 2 70 TABLE B 7 11 GHz NZ ETSI 40 MHz 15 44 70 TABLE B 8 11 GHZ FCC B 30 MHZ CHANNELS esse ennenen neee ennenen neee nne enen 70 TABLE 9 11 GHz IC B 30 MHZ 15 70 TABLE B 10 11 GHZ ITU 40 MHZ 15
59. Horizon Compact system can be completely configured tested and managed through a Telnet session The Telnet function is enabled by default but can be disabled within the Horizon Compact system Use the CLI command set telnet on off to enable or disable Telnet access 11 3 Secure Shell Access Security Telnet sessions over a network such as the Internet are not secure User names and passwords as well as commands and system responses are transmitted in clear text during a Telnet session A secure shell SSH protocol can be enabled in the Horizon Compact system to ensure that access to the units is restricted to authorized clients Horizon Compact uses the Secure Shell SSH2 server programme to create the secure environment for Telnet sessions SSH2 is a recognised industry standard encrypting security programme When enabled SSH encrypts the entire Telnet session including all usernames passwords commands and responses from the system SSH also verifies that you are talking to the desired server by means of an authentication process using a fingerprint The fingerprint is a unique identifier found only on the desired server Enable disable SSH by issuing the CLI command set ssh server on off then press Enter The server fingerprint can be returned by issuing the CLI command get ssh server fingerprint then press Enter A Secure Shell client programme needs to be installed on any computer which is to be used to manage a Horizon Comp
60. K KK KK KKK KK AKK KK KK KAKAK KKK ARK NOC ACCOUNTS KKK KKKK KKK KKK KKK KKK KKK KKK KKK KAK HKK KK KKK KKK KR RK KAK HK KAKAK KKK ARK Index UserName Password O amp O M gt Create new account Sequence set noc user press Enter The system responds Index Enter the lt index gt where lt index gt is from 1 to 5 and represents one of the 5 available accounts The system responds UserName Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Initial Configuration 25 Required Action Steps Enter the desired username for this account The system responds Verify UserName Re enter the desired username for this account The system responds Password Enter the desired password for this account The system responds Verify Password Re enter the desired password for this account The system responds User Accepted If the usernames or passwords do not match the system will respond nak Repeat for as many noc accounts as required Save the settings save mib press Enter The system responds MIB saved Note the new account settings must be saved otherwise they will be lost after the next system reset The user must perform the save mib command in order to save the changes DragonWave lnc 26 5 5 3 Adding or Changing Admin User Accounts Up to 50 admin accounts can be configured Use the CLI command set admin user as
61. MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz B1 18165 19325 B1 19325 18165 B2 18215 19375 B2 19375 18215 Table B 43 18 GHz Brazil 27 5 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 17727 5 19287 5 1 19287 5 17727 5 2 17755 19315 2 19315 17755 3 17782 5 19342 5 3 19342 5 17782 5 4 17810 19370 4 19370 17810 5 17837 5 19397 5 5 19397 5 17837 5 6 17865 19425 6 19425 17865 7 17892 5 19452 5 T 19452 5 17892 5 8 17920 19480 8 19480 17920 9 17947 5 19507 5 9 19507 5 17947 5 10 17975 19535 101 19535 17975 11 18002 5 19582 5 11 19582 5 18002 5 12 18030 19590 12 19590 18030 13 18057 5 19617 5 13 19617 5 18057 5 14 18085 19645 14 19645 18085 15 18112 5 19672 5 15 19672 5 18112 5 Table 44 18 GHz Brazil 55 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 17727 5 19287 5 1 19287 5 17727 5 2 17782 5 19342 5 2 19342 5 17782 5 3 17837 5 19397 5 3 19397 5 17837 5 4 17892 5 19452 5 4 19452 5 17892 5 5 17947 5 19507 5 5 19507 5 17947 5 6 18002 5 19562 5 6 19562 5 18002 5 7 18057 5 19617 5 T 19617 5 18057 5 8 18112 5 19672 5 8 19672 5 18112 5 77 DragonWavelnc 78 Table B 45 18 GHz Brazil 13 75 MHz Channels Table
62. Mode of the system determines the maximum throughput and hence determines the modulation scheme applied Note if you set a System mode of hc50 110 16QAM the 110 figure indicates the maximum throughput speed capability of that mode However if your licensed throughput speed key purchased from DragonWave is less than this figure your system throughput will be limited to the purchased licensed throughput speed Table 10 1 shows the modulation schemes that are selected for various Operating Modes when 23 GHz radio band with 50 MHz channel spacing is configured Table 10 1 Bandwidth Operating Mode and Modulation Scheme 50 MHz Channel bandwidth 9 SS TUS Saturation Modem Mode PE Power dBm Mode Throughput SP HP BER 10 6 BER 10 6 Mbps SP HP HC50_67 QPSK 67 17 27 81 18 50 110 16QAM 110 14 5 24 5 77 75 20 5 50 171 320 172 14 24 72 70 21 50 215 64QAM 216 12 5 22 5 68 22 5 50 271 128QAM 272 11 21 62 24 50 322 256QAM 323 11 5 21 5 59 24 5 50 371 256 372 9 5 NA 59 25 5 50 364 256 QAM 364 NA 19 5 59 25 5 Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Advanced Configuration Features 45 Note The average packet throughput is calculated using 64 128 256 512 1024 1280 and 1518bytes Ethernet frames Throughput optimized to fit within required spectral mask limits
63. Table of Contents i D DragonWave Horizon COMPACT Wireless Ethernet Release 1 01 00 Product Manual Volume 1 Version 1 2 DragonWavelnc ii NOTICE This document contains confidential information which is proprietary to DragonWave No part of its contents can be used copied disclosed or conveyed to any party in any manner whatsoever without prior written permission from DragonWave Inc Copyright 2001 2007 DragonWave Inc Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Table of Contents 1 0 INTRODUCTION TO HORIZON COMPACT 2cceecencceeceeccneceeccnsceeceaseneceescusenecceseneeeesensenes 1 1 1 APPLICATIONS a tata Ana raices SDR AA eoe ott 2 qur MINDS 2 1 1 2 3G CELLULAR BACKHAUL ETHERNET 0 1 reris ser nari eas 2 1 1 3 LEASED EINE 50 ded a ete OE EP Pee 2 1 1 4 LAST MILE FIBRE EXTENSION dann ec Ee A aee fea pera a Ta eve EA Cre PRA ea ER Lee Dd E dou 2 1 2 4 TECHNICAL SPECIFICATIONS 3 2 0 PHYSICAL 5 2 1 ocn E D DRE e fe 6
64. a Telnet session Only the Super User can change or add user account names or passwords There are three user account levels as shown in Table 5 1 Table 5 1 User Account Levels Number of 2 Accounts Functionality Available Super User 1 Super User account has control over the usernames and passwords for both the NOC and Admin accounts Can create backup file of NOC and Admin accounts onto an FTP server restore system settings and load new software noc 5 NOC accounts allow full control over the configuration of the Horizon Compact system including setting the frequency and IP address NOC accounts may also backup the Horizon Compact system settings to an FTP server and restore the system settings from an FTP server NOC accounts cannot create or change user accounts or issue any security related commands ex set http secure access admin 50 Admin accounts allow operational management of the Horizon Compact system but have some restrictions for changes to configuration No default noc or admin user accounts are configured when the Horizon Compact leaves the factory Account names and passwords are case sensitive There can be no duplication of names or passwords across all user levels A password cannot be the same as a user name 5 5 1 Changing the Super User Name and Password It is recommended that the default Super User name and password be changed as soon as the Horizon Compact system is aligned and opera
65. act system with SSH enabled A free SSH client programme PuTTY is available on the Web Note that both SSH and Telnet can be enabled at the same time To ensure security once SSH has been enabled disable Telnet 11 4 Supported SNMP Versions DragonWave Horizon Compact systems support three versions of SNMP e Version 1 SNMP v1 is the initial implementation of SNMP s Version 2 SNMPv2c is the second release of SNMP which has additions and enhancements to data types counter size and protocol operations e Version 3 SNMPv3 is the most recent version of SNMP The functionality of SNMPv1 and SNMPv2c remain intact but SNMPv3 has significant enhancements to administration and security Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Horizon Management 57 SNMPv3 is an interoperable standards based protocol that provides secure access to devices by authenticating and encrypting packets over the network The security features provided in SNMPv3 are as follows e Message integrity e Authentication e Encryption SNMP configuration is covered in detail in Volume 2 11 5 Web Interface The Horizon Compact Web interface runs in a standard browser To log on see Section 5 1 3 11 5 1 Home Screen The Home Screen window is divided into 3 sections panes The navigation bar displays seven menu options The status pane on the left is used to monitor the system health and link performance The s
66. anisms are locked in place with lock nuts Elevation adjustment Azimuth adjustment Mounting clamp nuts Lock nuts Mounting clamp Figure 8 1 Mounting bracket with fine adjustment bolts Final alignment is achieved by monitoring the received signal level RSL values as the system is adjusted for azimuth and elevation The BNC Field Strength Monitor connection is used in conjunction with a voltmeter for RSL monitoring See Section 8 1 Adjustments are made until the RSL value is at a maximum which should be within 3 dB of the expected value link budget figure Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWave Inc 36 8 1 Received Signal Level RSL Measurements To accurately align the Horizon Compact to its far end peer you need to monitor the received signal level RSL There are two recommended methods for monitoring RSL These are 1 Use the CLI command set alignment on to activate the alignment feature at the BNC connector located on the side of the unit Connect a voltmeter to the BNC connector The voltage at this connector is linearly related to RSL and is 1 mV per dB e g 45 mV 45 dB Note that the centre connection on the BNC connector is positive so to read negative values to correlate with the negative RSL values connect the negative pole of the voltmeter to the centre connection BNC field strength connector Voltmeter probes connected to BNC connec
67. ansmit or receive path issues Invoking a radio loopback is service affecting and will stop all data transfer There are two options Straight radio loopback Ethernet traffic is not looped back to the network Ethernet traffic is discarded and the RF portion of the Horizon unit is placed in loopback see Figure 11 2 e Radio loopback plus network loopback Ethernet traffic and the radio are placed in loopback During the loopback if the modem transmitter loss of sync alarm is not active then both the transmitter and receiver of the Horizon unit under test are functioning correctly A user configurable time limit can be applied to the loopback feature default is 30 seconds Once the time limit has expired the loopback will be automatically removed Note that the far end transmitter should be muted when analysing the near end system using the radio loopback feature The radio loopback is invoked or disabled by issuing the CLI command set radio loopback on off time network Figure 11 2 Radio Loopback Network loopback wm Straight radio loopback E III Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Horizon Management 61 11 9 Alarms List Use the CLI command get alarms to display a list of active alarms Alternatively alarms are listed on the Alarms page of the Web interface Active alarms are clearly indicated The following list shows the various alarms availab
68. arization and the other with vertical polarization supporting load sharing or throughput doubling up to 800 Mbps see Figure 10 1 Figure 10 1 DPRM and Throughput Doubling lt gt Vertical ee gt Horizontal Switch or Router Network 10 13 Horizon Redundancy The Horizon system can be configured for redundancy using two physical options One option allows for two separate Horizon units each with its own antenna and connected to an Ethernet switch configured with a re routing protocol The switch is responsible for re routing the data to the redundant stand by unit when a failure occurs This option is termed the two wire option The second option has two Horizon units mounted on a Power Switch Radio Mount PSRM with the data feed from a single connection to a switch Switching traffic to the redundant stand by unit is determined and performed by the Horizon Compact system and not the connected switch This option is termed the single wire option The configuration steps for each option are different see Volume 2 for more details 10 13 1 BNC Connector The BNC connector on the side of the Horizon Compact serves a dual purpose It can be configured as a source for field strength measurements during antenna alignment or configured to provide a redundancy switch signal to a second Horizon Compact system mounted close by For redundancy the BNC connectors on both units are interconnected with a coaxial ca
69. as well as a user supplied username and password are supported 13 1 Single System Log into the system via Telnet and use the CLI command copy fip lt filename gt and press Enter Where lt filename gt is the name of the software load file in the format omni_x y z hex and includes any path information You will be prompted for the IP address of the FTP server The FTP server will then prompt you for user name and password Once the download is complete you will need to use the CLI command save mib and press Enter The new software is now saved in non volatile memory but not yet in use Note that traffic is not affected during the software download process To make the new software load active requires the system to be reset This is traffic affecting To activate the new software load use the CLI command reset system and press Enter Then press Y The system will reset and load the new software 13 2 Multiple Systems A batch mode software upgrade programme is available from DragonWave on request This Unix based programme uses a flat file listing of all IP addresses of units on a network It will perform simultaneous upgrades of multiple units The number capable of being upgraded simultaneously is limited only by the number of active FTP sessions allowed by the on net FTP server Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWave lnc 66 This page left blank intentionally Horizon Com
70. ber that is stored in the system determines if it is a LOW or HIGH unit and automatically configures the correct frequency bank for each unit Note that Horizon Compact units designed to operate at unlicensed frequencies have the same type of radio at each end of the link and do not have a LOW or HIGH indication on their labels Each bank contains a number of frequency channels of which only one will be selected Once again the actual frequency channel will be dictated in the wireless licensing documents You also need to configure the system mode determines bandwidth and throughput parameters Use the following procedures to configure the radio parameters 5 2 1 Using Telnet 1 Type the CLI command get radio band and press Enter The system will respond with the currently configured radio band and a list of all supported radio bands 2 Type the CLI command set radio band radio band and press Enter where radio is the required radio band 3 Type the CLI command get system mode and press Enter The system will respond with the current mode plus a list of allowable modes for the selected radio band 4 Type the CLI command set system mode Horizon mode and press Enter The mode follows the format of hc channel bandwidth speed modulation For example for a 50 MHz channel bandwidth with average Horizon speed of 110 Mbps using 16QAM modulation enter set system mode hc50 110 16qam 5 Type the CLI com
71. ble Note that for redundancy to work you must ensure that the field strength option for the BNC connector is turned off set alignment off When the Horizon system is configured for redundancy a DC signal is presented at the BNC connector of the unit normally carrying traffic Since the BNC connectors on both units are interconnected the DC signal is passed to the stand by unit As long as the DC signal is present then the stand by radio is held DragonWave Inc 50 in a hot stand by state When the DC signal is removed as a result of the unit normally carrying traffic failing then the stand by radio becomes active and takes over the traffic After a redundancy switch once the first system is able to return to carrying traffic a manual switch is required via a CLI command to return the system to its original state 10 13 2 Two Wire Option The two wire option is so named because two separate data feeds are required one to each Horizon system One Horizon system is configured as the primary and the other as the secondary Note that the terms primary and secondary relate solely to the internal functions of the units and has no relationship to which radio is in stand by or which is carrying traffic Management has to be via Port 2 so each Horizon will be configured for out of band management and have its Port 2 connected to the overlay management network Data re routing between the Horizon systems is dependant upon a connec
72. chanism lock nuts and loosen the tilt mechanism lock nuts 12 Tilt or move the antenna vertically until you receive the strongest RSL reading 13 Tighten the tilt mechanism lock nuts and loosen the pan mechanism lock nuts 14 Pan or move the antenna horizontally and locate the strongest RSL reading 15 Re tighten the pan tilt mechanism lock nuts to lock the antenna in place 16 Repeat steps 1 through 15 as necessary to obtain maximum RSL reading Notes The RSL level should be within 3 dB of predicted levels Factors that contribute to low RSL levels are incorrect antenna alignment aligned to a side lobe and not main lobe improper polarization of antennas one end horizontal and the other vertical path issues obstructions such as trees hills or buildings within the beamwidth path clearance issues such as diffraction partial obstruction Fresnel zone issues Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWavelnc 40 9 1 Signs of a Healthy Link You can be confident that a link is properly aligned and free of problems if the following readings are obtained during a Telnet or Web interface session with each end of the link No alarms use the CLI command get alarms and press Enter to return a list of current alarms should be none that cannot be explained by network status Received signal level RSL within 3 dB of link budget figure in clear weather Use the CLI comman
73. d get modem statistics and press Enter to obtain the RSL reading The Unchannelized power reading should be within 6 dB of the RSL reading If the Unchannelized power drops below 75 dB then it is likely that there is no signal being presented at the radio portion of Horizon Compact Check alarms Eb No of 19 dB or higher use the CLI command get modem statistics and press Enter to display the Eb No value Signal to Noise Ratio SNR of 24 dB or higher use the CLI command get modem Statistics and press Enter to display the SNR value Equalizer Stress typically between 20 and 30 but never more than 150 use the CLI command get modem statistics and press Enter to display the Equalizer stress value Modem Block Error Rate 0 00e 00 use the CLI command get traffic statistics and press Enter to display the Modem Block Error Rate Modem block errors are an indication of loss of data frames Note that there are residual modem block errors as a result of the alignment process Transmit power typically set at the maximum for the radio band used use the CLI command get transmit power and press Enter to return the configured transmit power All sections operational use the CLI command get health and press Enter to return the health status of all three sections of the system The readings obtained using the CLI commands during a Telnet session can also be retrieved using the Web interface All items listed here are available on the left ha
74. d in the refresh rate text box on the left hand side of the page The default is no self refresh set to 0 seconds 11 5 6 Tools Screen This screen provides you access to the Link Alignment Tool and Link Planning Tool The Link Alignment Tool provides a continuously updated RSL reading for link alignment operations as an alternative to using a DVM connected to the BNC field strength monitor connector see Section 8 1 11 5 7 Contacts Screen If you need to contact DragonWave all the information you need is shown on this screen 11 6 Horizon Compact SSL Web Server The Horizon Compact Web server can be configured for Secure Sockets Layer SSL The Web server may be configured to operate in standard mode or in SSL mode The Horizon Compact SSL Web server is HTTP 1 0 1 1 compliant features full support of HTML 2 0 3 2 4 0 and supports SSL 3 0 Secure Sockets Layer SSL is the standard security technology for creating an encrypted link between a Web server and a browser This link ensures that all data passed between the Web server and browser remain private and integral In order to be able to generate an SSL link a Web server requires an SSL Certificate In order to invoke SSL on the Horizon Compact Web server an SSL certificate must be generated on the Horizon Compact Horizon Compact uses an embedded SSL Web server from Allegro Software Development Corporation Once generated the certificate may be held as a private certificate or it ma
75. d the desired kit part number CODE DESCRIPTION INK Installation Kit R1 Horizon Compact Release 1 CONNECTOR OPTIONS HCN No Connectors or Cables HCC Copper Connectors Out of Band Mgmt HCl Copper Connectors In band Mgmt HCM Military connector Copper cables HCF Optical Fibre Interface POWER OPTIONS AC Alternating Current DC Direct Current AD AAC LOCATION OPTIONS NA North America EU Europe GL Global Table 3 1 lists all the current ordering configurations for various parts of the world Table 3 1 Parts Required Part Number Kit Description NORTH AMERICA A INK HCN AC NA R1 Horizon Compact No connectors AC Install Kit A INK HCN AD NA R1 Horizon Compact No Connectors Half AC Half DC Install Kit A INK HCC AC NA R1 Horizon Compact Copper Connectors AC Install Kit 4 Glands and 8 Connectors A INK HCC AD NA R1 Horizon Compact Copper Connectors Half AC Half DC Install Kit 4 Glands and 8 Connectors A INK HCI AC NA R1 Horizon Compact Inband MGMT Copper Connectors AC Install Kit 2 Glands and 4 Connectors A INK HCI AD NA R1 Horizon Compact Inband MGMT Copper Connectors Half AC Half DC Install Kit 2 Glands and 4 Connectors EUROPE A INK HCN AC EU R1 Horizon Compact No Connectors AC Install Kit A INK HCN AD EU R1 Horizon Compact No Connectors Half AC Half DC Install Kit
76. d to trace the behaviour of the system over time The Events Log is invoked or disabled by issuing the CLI command set logging on off This log records alarm and reset events Approximately 17 500 events can be captured by the Events log Once the log is full the oldest entries are overwritten Use the CLI command get log entries and press Enter to display log entries Use Ctrl C to abort the listing Issuing the CLI command set performance logging on off enables or disables the Performance Log This log collects system performance information at time intervals that are configured using the CLI command set performance log interval hh mm ss Use the CLI command get performance log and press Enter to display a list of Performance Log entries Use Ctrl C to abort the listing Between 6000 and 8000 entries can be logged before the Performance Log memory is full Once the memory is full new entries will overwrite the oldest entries The following table assumes that an average of 7000 entries will occur before memory overflow If the memory accepts more entries then the log duration before overflow will be extended Logging Interval Log Duration 15 secs minimum 29 hours 1 minute 116 hours 4 8 days 15 minutes default 73 days 2 4 months 1 hour 292 days 9 7 months 24 hours maximum 7000 days 19 2 years 11 8 Radio Loopback Horizon provides a radio loopback facility for analysis of tr
77. dwidth 30 MHz TOST SEA TSE A Pon Sei Mbps dB Mbps scheme dB dB QPSK 67 40 17 27 82 16 110 14 5 24 5 14 5 24 5 78 64 14 5 24 5 80 32 QAM 172 14124 14 5 24 5 99 14 5 24 5 75 64 QAM 216 12 5 22 5 12 5 22 5 128 12 522 5 72 128 272 11 21 11 21 E 163 11 21 68 256 323 11 5 21 5 256 QAM 372 9 5 19 5 9 5 19 5 E 223 9 5 19 5 62 Channel Bandwidth 56 55 MHz Channel Bandwidth 28 MHz Channel Bandwidth 14 MHz Modulation RX RX TX RX scheme roug aput Sensitivity Me neta Sensitivity LT E Power Sensitivity Mbps Mbps dB dB QPSK QPSK 65 24 13 5 23 5 85 16 QAM 112 37 13 23 82 32 QAM 217 47 13 23 78 128 QAM 291 71 10 5 20 5 72 256 QAM 386 95 9 5 19 5 67 SP HP shown for Tx Power Throughput based on random frame size Not all modes may be available in all channel sizes Preliminary data may be subject to change DragonWave lnc 4 This page left blank intentionally Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 2 0 Physical Description Horizon Compact is an integrated Ethernet modem and microwave radio transceiver 11 through 38 GHz radio bands see Appendix B Frequency Tables for frequency bands supported in this release housed in a rugged weatherproof housing It is provided with two weatherproof connectors Port 1 and Port 2 Port 1 copper 10 100 1000 Base t or optional optical interface
78. e current status of ATPC can be determined by using the CLI command get status Note If ATPC and Advanced Adaptive Modulation AAM are both enabled when is invoked i e modulation scheme switched to a lower level ATPC is automatically disabled until AAM restores the original modulation scheme DragonWave lnc 46 10 7 Horizon Compact Authentication This feature is only necessary if you wish to restrict communication from a Horizon Compact unit to a specific peer or to a group of Horizon Compact units Authentication is generally used as a security measure It is not recommended to enable Authentication prior to alignment of the radios Authentication restricts a Horizon Compact unit from communicating with other Horizon Compact units unless the other units match an authentication string There are three types of authentication 1 No Authentication 2 Unique Authentication 3 Group Authentication A new Horizon Compact system in line with the signal cannot authenticate and receive data if another Horizon Compact system is already authenticated The system authenticates its peer s at an interval of approximately five seconds The Horizon Compact node does not accept data from other manufacturers systems Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Advanced Configuration Features 47 10 8 Threshold Alarms Horizon Compact provides Threshold Alarms to assist in managing the pe
79. e with the Federal Communication Commission Department of Communications and the European Telecommunications Standards Institute applies to the Horizon Compact radio link Federal Communication Commission Declaration of Conformity Statement This device complies with Part 15 of FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful interference and 2 This device must accept any interference received including interference that may cause undesired operation This equipment has been tested and found to comply with the limits of a Class B digital device pursuant to Part 15 of FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a residential environment This equipment generates uses and radiates radio frequency energy and if not installed and used in accordance with the instructions can cause harmful interference However there is no guarantee that interference will not occur If this equipment does cause interference to radio or television reception which can be determined by turning the equipment on and off the user is encouraged to correct the interference by one of the following measures 1 Reorient or relocate the receiving antenna 2 Increase separation between the equipment and receiver or 3 Connect the equipment into an outlet on a circuit different from that which the receiver is connected Warni
80. efresh the screen either by using the browser s refresh button or by clicking on the Home button within the navigation bar in order to update the system information pane DragonWave lnc 58 Sub menu Options The main screen has four Sub menu options e More Information opens a window and displays a summary of the system configuration e System Name link to the System Configuration page If this field has been previously configured then the value is displayed e System Location link to the System Configuration page If this field has been previously configured then the value is displayed e Manage your Peer Horizon system IP address links to the login screen of the peer node provided the peer node has had its IP address configured This provides the user with a web browser interface to each end of the Horizon Compact link e Navigation Bar Click on the navigation bar across the top of the page to navigate to different screens Each menu option displays a single screen 11 5 2 Performance Screen The performance screen displays the traffic statistics for the Horizon Compact link There are three groups of statistics reported 1 Ethernet traffic statistics from the point of view of the modem NIC in and out from the local Ethernet cable payload and 802 1P priority Queues 2 Modem to modem communication for Port 2 3 Modem to modem communication for Port 1 This screen is updated at the rate specified in the refresh ra
81. ems If the link quality error rate reaches user programmable thresholds the Horizon Compact Ethernet ports can be shut down e Horizon Compact configuration or hardware failure If hard faults such as a hardware failure interrupt the link both Horizon Compact Ethernet ports can be shut down 10 10 Configuring the Time Source SNTP Date and time information can be entered into the system using CLI command set date time dd dd yyyy hh mm ss ms press Enter The date and time settings in Horizon Compact are not maintained if a power outage is experienced To ensure that set system date and time are always accurate the system can poll known time sources and update time information on an ongoing basis Up to five time sources can be configured which can provide accurate time and date information to the system Simple Network Time Protocol sntp is used Either an Internet time source or an NTP server on your network may be used Five time sources are configured by default see Table 10 2 Each time source is indexed 1 to 5 Indices 1 and 2 are from Industry Canada servers 3 and 4 are from U S Navy servers and 5 is from a Swiss server Any other time sources can be configured The timing information is polled every 60 minutes DragonWave lnc 48 Table 10 2 Time Sources r Index Stratum Tou edm Source 1 2 199 212 17 15 Industry Canada 2 2 199 212 17 20 Industry Canada 3 1 192 5 41 40 U S Navy 4 1 192 5
82. enna 3 dB Beamwidth Maximum Twist and Sway Diameter degrees degrees 18 GHz 30 cm 12 3 1 5 60 24 2 1 90 36 1 3 0 65 120 48 1 0 5 23 GHz 30 cm 12 2 7 1 35 60 cm 24 1 7 0 85 90 cm 36 1 1 0 55 120 cm 48 0 8 0 4 Table 6 2 Mounting pole specifications Antenna Steel Pipe Max Distance Above Last Rigid Diameter Nominal Outside Diameter Attachment Point 30 cm 12 7 5 cm 3 90 cm 36 30 cm 12 10 cm 4 120 cm 48 60 cm 24 7 5 cm 3 75 30 60 24 10 4 90 cm 36 75 30 10 4 75 cm 30 90 cm 36 10 cm 4 tower mount recommended 120 cm 48 10 cm 4 tower mount recommended 180 cm 72 11 5 4 5 tower mount recommended Twist and sway caused by wind or human activity can cause a link to fail Using poles with specifications shown in Table 6 2 will result in a stable mounting system Systems with antenna sizes of 90 cm 36 in diameter and greater are recommended to be mounted on towers Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 7 0 Grounding Power and Surge Arrestors The Horizon unit must be grounded using a minimum of 6 AWG copper wire attached to any of the eight ground points available on the Horizon case as shown in Figure 7 1 Surge arrestors and lightning protection is built into the Horizon unit The Ethernet and PonE cables
83. ertical polarity Both units can transmit and receive simultaneously This allows a link to carry up to 800 Mbps of Ethernet traffic Although both units can operate on the same frequency channels with 30 dB isolation it is recommended that different frequency channels be used for each unit Figure 2 3 Dual Polarity Radio Mount DragonWavelnc 8 2 4 Power Switch Radio Mount PSRM For redundancy purposes the PSRM allows two Horizon units to be mounted to a single antenna Both units must be oriented for the same polarity and only one unit can transmit receive at any one time The PSRM looks similar to the DPRM shown in Figure 2 3 but has internal components that only allow one unit to transmit receive at a time Note that redundant systems do not have to use the PSRM Each may be separately mounted to their own antennas if desired See Section 10 13 for more details The benefits of the PSRM are that only one antenna is required reducing tower real estate requirements reducing weight and minimizing wind loading Disadvantages include a 4 dB loss in signal when operating on the primary systems at each end of the link and an 8 5 dB loss in signal when a secondary radio is activated one end running on Primary and other end operating on secondary Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 3 0 Installation Requirements Various installation kits are available Use the following key to buil
84. es nationales de s curit Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 93 Electrocution Hazard Warning Electrocution Hazard This product is intended to be connected to a 36 to 60V DC power source power adapter supplied by DragonWave Inc which must be electrically isolated from any ac sources and reliably connected to Earth ground Do not install DragonWave products near any type of power line Should your antenna or related hardware come in contact with power lines severe bodily harm or death could result Risque d lectrocution Avertissement Risque d lectrocution Cet appareil est raccord e une source de tension de 36 a 60V CD adapteur fourni par DragonWave qui doit tre isol e de toute autre source de tension et raccord e une mise terre isol e Les produits de DragonWave ne doivent pas tre install s pr s de ligne haute tension Des dommages corporels s v res et m me la mort peuvent survenir si l antenne ou toute autre pi ce viennent en contact avec des lignes de haute tension Dommage corporel Radio Frequency Safety The installer of this radio equipment must ensure that the antenna is located or pointed such that it does not emit RF fields in excess of the general population limits as defined by FCC CFR 47 Part 2 1091 Radiofrequency radiation exposure evaluation for fixed devices amp Health Canada
85. ffic Port 2 is disabled by default and can be enabled by using the CLI command set network management interface port2 11 1 1 Management through Port 1 in band Port 1 is always used to carry customer data traffic and operates at rates of up to 400 Mbps over the radio link from the local Horizon Compact system through to the far end Horizon Compact system Management is set to Port 1 in band by default and management using Telnet SNMP and Web interface are supported To enable in band management on a system that has been set to out of band management Port 2 use the CLI command set network management interface port then press Enter When the network management interface is set to port1 all management traffic must arrive on Port 1 or it will be ignored by the system Configuration and management of the Horizon Compact system can be accomplished through a Telnet or SSH session and although the Telnet session is intermixed with user traffic the Telnet session occupies very little bandwidth in the order of kbps and therefore has almost effect on user traffic throughput A Telnet or SSH session can be established through one Horizon Compact system over the radio link to the far end Horizon Compact system allowing management of both ends of the link Management of the Horizon Compact system can also be performed through a VLAN using 802 1Q VLAN tagging Management through VLAN offers increased access security Refer to Sectio
86. ffic VLAN Standard IEEE 802 1Q is supported for Horizon Compact VLAN tagging and it accommodates up to 4096 VLANs within the 8100 VLAN range Note that the Horizon Compact system handles Ethernet frame sizes up to 9600 bytes There are three parameters associated with Horizon Compact VLAN tagging 1 Enable or disable VLAN tagging set VLAN tagging on off 2 Identify the VLAN tag id to be used with Horizon Compact set VLAN tag tag id 3 Determine whether to allow Horizon Compact to match the VLAN settings in response to incoming frames or whether to restrict responses to those incoming frames containing the programmed VLAN tag There are two modes set network protocol strict off on which are commonly known as friendly and strict mode i Friendly mode In this mode Horizon Compact matches the VLAN format of the incoming frame If an incoming frame contains a VLAN tag then Horizon Compact responds with a VLAN tag matching the incoming frame If the incoming frame does not contain a VLAN tag then Horizon Compact does not insert a VLAN tag in the response Frames generated by Horizon Compact e g SNMP traps will contain the programmed VLAN tag ii Strict mode Horizon Compact will only respond to frames containing the programmed VLAN tag All other frames will be ignored Frames generated by Horizon Compact e g SNMP traps will always contain the programmed VLAN tag 10 3 802 1P Priority Queuing Implementati
87. function for that queue 10 3 4 Management Traffic Slow Ethernet services and multicast frames are handled by a special Queue inside the Horizon Compact The Queue is not user accessible It works similar to an Expedite Queue in that it ensures management traffic is passed through in an expedited fashion It does not affect nor is related to the 4 Queues within Horizon Compact This Queue does not impact the operation of the 4 user configurable 802 1P Queues DragonWave lnc 44 Frames destined for the 01 80 C2 00 00 xx MAC addresses are sent to the internal Queue Examples STP RSTP MSTP LACP Pause Frames GARP GMRP GVRP bridge broadcasts OAM LLDP Port based authentication are all sent to the internal Queue and are transmitted in an expedited fashion Other frames that the user determines must be treated in an expedited fashion such as keep alive frames and MRP frames must be assigned a CoS within the switch then assigned to the appropriate Queue within Horizon Compact 10 4 Pause Frames Pause frames are generated by the weaker slower link when its forward pipe gets full Pause frames inform the upstream device to pause and stop sending traffic for a period of 5 msec When the Pause Frame feature is enabled Horizon Compact generates pause frames to the Ethernet switch when the Horizon Compact receiving buffer hits the internally set threshold The receiving buffer threshold is close to 100 msec at GigE rate At data
88. good weather conditions Network Protection Using DragonWave s Rapid Link Shutdown RLS Horizon Compact supports mesh ring configurations with 50 ms switching time enabling 99 999 available carrier class services Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWave Inc 2 Product Features 11 38 GHz Frequency Support High power variants 800 Mbps full duplex capacity 100ms Adaptive Modulation Transparent Gigabit Ethernet solution 100ms Ring Mesh Switching Integrated RF Loopback Zero footprint hardened outdoor unit 11 A Applications 1 1 1 WiMax DragonWave offers a high capacity carrier grade integrated solution for Ethernet backhaul using interference free licensed spectrum Horizon Compact enables rapid network expansion with remote scalability from 10 Mbps to 800 Mbps With Horizon Compact the radio and modem are integrated into a single all outdoor element attached directly to the antenna allowing simple integration and eliminating any impact on the WiMAX base station footprint Management integration into the base station EMS provides a single point of control for operations personal 1 1 2 3G Cellular Backhaul Ethernet Evolution Meet the growing demand for increased capacity and data transport resulting from 3G cellular deployments Horizon Compact provides Cost effective low capacity TDM services for base stations today The DragonWave portfolio of products offers s
89. host user index none des set snmpv3 trap host authentication indes none md5 sha passwd set snmpv3 trap host privacy index none des set sntp on off set sntp default set sntp offset hrs set sntp server index ip address set ssh server set super user username password set system current speed speed set system mode mode set system redundancy onloff set telnet on off set traffic statistics 0 set transmit power power in dB set unique peer authentication key key set subnet mask mask set vlan tag vlan ID 0 4095 vlan priority 0 7 set vlan tagging on off set web server onloff upgrade system licensed speed speed key Wireless Ethernet Product User Manual Volume 1 Appendix Frequency Tables The following tables show the frequencies supported in Release 1 2 Table B 1 11 GHz FCC ETSI a 40 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF MHz 1 10735 11225 1 11225 10735 2 10775 11265 2 11265 10775 3 10815 11305 11305 10815 4 10855 11345 4 11345 10855 5 10895 11385 5 11385 10895 6 10935 11425 e 11425 10935 Table B 2 11 GHz NZ a 40 MHz Channels TxLow TxHigh Channel index Tx RF MHz Rx RF MHz Channel index Tx RF MHz Rx RF
90. ia Port 2 In both copper and optical Horizon variants Port 2 has a copper interface 5 1 Logging On Secure management access to the Horizon Compact is controlled by a user name and password The default Super User name is energetic and the default password is wireless Note The Super User name and other users and password can be changed but it is recommended that they are not changed until the radio link is properly configured aligned and capable of carrying traffic User accounts can only be changed using Telnet access 5 1 1 Using Telnet From the DOS Command Prompt or from the Windows Run option type telnet 192 168 10 100 and press Enter When the Telnet window appears press Enter again to reveal the logon prompt When prompted enter the Super User name energetic and password wireless Successful logging on is indicated by the CLI cursor gt being displayed Note that after 10 minutes of inactivity you will be automatically logged off the system 5 1 2 Context Sensitive Help Full context sensitive help is available for all CLI commands Type followed by a partial command to return a list of all commands that match the entry with an explanation as to how each command is used a command followed by 2 to return a list of all variants of that command See Appendix A List of CLI Commands for an alphabetical list of CLI commands Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Vo
91. ict get omni file crc get optical transmitter state get pause state get performance log get performance logging get performance log interval get programmed frequency get qos get radio band get radio loopback get radio statistics get radio status get radio transmitter state get radius servers get radius server retransmit get radius server timeout get radius server deadtime get radius super user authentication get redundancy link monitor parameters get redundancy mode get redundancy override get redundancy partner information get redundancy secondary enet state get redundancy status get rls get ris link enable get rls link monitor parameters get rls link control get rls make rsl get rls signal fault parameters get rls status get rsl threshold get sessions get snmp access mode get snmp managers get snmp set request get snmp traps get snmp trap hosts get snmpv3 managers get snmpv3 trap hosts get snr threshold get sntp get sntp offset get ssh server get ssh server fingerprint get ssl certificate status get subnet mask get super user get sw inventory get sw version get system licensed speed downgrade information get system mode get system speed get system summary Wireless Ethernet Product User Manual Volume 1 DragonWave Inc 68 get system redundancy get telnet access get traffic statistics get transmit power get unique peer authentication key get user accou
92. in NOC Super Up to five 5 RADIUS servers can be configured When one or more RADIUS server is configured the username and password authentication system on the Horizon Compact is bypassed in favour of the RADIUS system Access levels are still retained in the local Horizon Compact memory so once a user is verified by the RADIUS server the access level is assigned by the Horizon Compact provided that that user is a valid user on that unit Any user that is validated by the RADIUS server but is not found in the Horizon Compact user authentication list can gain access to the unit but only at an admin user level If on attempting to log in a user does not receive a response from a configured RADIUS server the user will not be allowed to log in Only the Super User can issue any of the RADIUS set commands and view any of the security related entries returned with get commands passwords shared key etc Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWave lnc 42 10 2 Management VLAN Tagging Note The configuration of Horizon Compact VLAN tagging is only necessary if you wish to restrict Horizon Compact management communications to a specific management VLAN The Horizon Compact system will pass user VLAN traffic transparently independent of the Horizon Compact VLAN settings The VLAN settings are for Horizon Compact management purposes and do not affect user data or tra
93. le Explicit Authentication Failed Ethernet Link Down Dropped Ethernet Frame Threshold Exceeded Bandwidth Utilization Threshold Exceeded Modem hardware fault Modem receiver loss of signal Modem SNR below threshold Modem programming error Modem transmitter loss of sync Modem equalizer stress above threshold Radio RSL Below Threshold SNTP Servers Unreachable RLS Shutdown Activated AAM Config mismatch Tx power detector below threshold Radio current out of limits TempComp cal table not available Radio temperature out of limits Radio Power Amplifier ATPC Config Mismatch RLS Mismatch Frequency File invalid AAM running on QPSK modulation Synthesizer Unlock DragonWave lnc 62 This page left blank intentionally Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 12 0 Configuration Backup and Restore Horizon Compact provides a backup and restore facility for system configuration data and user account data The backup and restore uses an FTP server to transfer files It is recommended to have an FTP server at your network management site for use with the Horizon Compact backup and restore facilities Note that the Super User or a noc user level can perform backup and restore functions 12 4 System Configuration Backup The Horizon Compact system configuration can be saved to an FTP server All system configuration parameters are backed up allowing the exact configuration to be replica
94. limits for the general population consult Safety Code 6 obtainable from Health Canada s website www hc sc gc ca rpb RF Radiation Safety Information The antenna must be located such that humans will not approach within 5m of the forward transmitting direction of the antenna and 0 46m in all other directions This distance provides additional safety margin for the product as well as minimizing exposure to microwaves These calculations were done in accordance with 1 FCC Radio Frequency Exposure Limits 1 1310 2 Health Canada Safety Code 6 Industry Canada RSS 102 3 EMF Exposure Directive 99 519 EC Information sur la Securit des Radiations des FR L antenne doit tre localis e de facon ce que les humains ne puissent pas s en approcher moins de 5m dans l axe de transmission l avant de l antenne et de 0 46m dans toutes autres axes Ceci la distance fournit une marge de s ret additionnelle pour ce produit en minimisant l exposition aux micro ondes Ces calculs ont t faits selon 1 L Exposition De Fr quence Par radio de FCC Limite 1 1310 2 Industrie Canada RSS 102 De l Indicatif 6 De S ret Du Sant Canada 3 Le Directif d Exposition De EMF 99 519 EC DragonWave lnc 94 This page left blank intentionally Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Appendix D Regulatory Compliance Information This section contains information regarding regulatory complianc
95. ll building and safety codes are met and that the installation is complete and secure The Horizon Compact shall be installed according to local Electrical Safety Codes For Canadian installations the entire equipment installation must comply with Canadian Standard CSA 22 2 No 60950 Safety of Information Technology Equipment For installations in the United States the entire equipment installation must be in accordance with Article 810 of the United States National Electrical Code Installations Professionel Les appareils Horizon Compact de DragonWave doivent tre install s par un personnel professionnel Le personnel responsable doit s assurer que l installation est bien achev e et qu elle r pond aux exigences de tous les codes de s curit Une installation faite au Canada doit observer les normes 22 2 num ro 60950 du CSA S curit des mat riels de traitement de l information Une installation faite aux tats Unis doit tre faite selon les stipulations de l Article 810 du United States National Electrical Code Lightning Protection When installed this equipment is to be connected to a Lightning Surge Protection Device that meets all applicable national safety requirements Before Ethernet cables enter buildings voltages shall be clamped down to SELV by Approved type primary protectors Protection contre la foudre L installation exige aussi que l appareil soit branch un parafoudre qui r pond toutes les norm
96. lume 1 DragonWave lnc 20 5 1 3 Using the Web interface The Horizon Compact Web interface is disabled by default You must use Telnet to enable the Web interface by issuing the CLI command set web server on press Enter Open a Web browser and in the Address or URL field at the top of the page enter the IP address of the Horizon unit default is 192 168 10 100 and press Enter If your laptop or PC has been correctly set up you will be prompted for the user name and password Type in the default Super User name energetic and password wireless The Horizon Compact Home Web page will be displayed 5 2 Configuring Radio Band and Frequency Channels Both Horizon Compact units in a system near and far end have to be configured with the same radio band The radio band selected must match that for which the Horizon Compact units have been manufactured Only those radio bands for which the radio can be configured are available for selection The radio band will also be dictated in the wireless licensing documents Typical radio band configuration selections have the format fcc18b ic23a etc The Horizon Compact units at each end of the link have different frequency banks allocated to them One unit will be allocated the LOW bank and the other the HIGH bank This is indicated on the label attached to each unit LOW or HIGH Wireless licensing documents will indicate at which end of the link each should be located The radio part num
97. mand get system speed and press Enter The current system speed will be displayed This by default will be the maximum speed supported by your purchased licensed speed key Note that the mode configured in step 4 will determine the speed available to the system and cannot exceed the licensed speed regardless of the mode selected 6 To reduce the throughput speed to a figure less than the licensed speed use the CLI command set system speed speed where lt speed gt is in Mbps and can be adjusted in 1 Mbps increments 7 Type the CLI command get frequency bank and press Enter A list of frequencies is displayed Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Initial Configuration 21 8 Locate the frequencies on the displayed list that match those found on the wireless license documents and note the index number letter on the left of the list case sensitive 9 Type the CLI command set programmed frequency index number letter gt and press Enter where index number letter gt is the same as that found in step 8 10 Type the CLI command save mib and press Enter This command saves the entered information to memory but does not yet apply it Note You will need to issue the CLI command reset system to apply the changes and make them effective Optionally this can be left until all the initial configuration parameters have been entered before issuing the command See 5 3 1 step 5 5 2 2 U
98. must be properly protected at the end of their run as they enter the building Before Ethernet cables enter buildings voltages shall be clamped down to SELV by approved type primary protectors For the copper interface option proper use of the Horizon PonE unit provides lightning and surge protection for the connected network The PonE unit shall be installed according to local Electrical Safety Codes For the optical interface proper use of the Transtector unit protects the optional management Ethernet connection if used and the power supply Grounding Use 6 AWG or larger copper wire to connect from Horizon case grounding point to ground There are two grounding points on each of the four sides of the Horizon case Figure 7 1 Horizon Compact case grounding point Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWave lnc 32 7 1 Power on Ethernet PonE The copper interface variant of Horizon operates on 48 VDC and employs a proprietary Power on Ethernet solution The Horizon Power on Ethernet surge arrestor unit provides integration of 48 VDC and the two straight through Ethernet cables Note The Horizon PonE implementation is proprietary and does not follow IEEE standards The surge arrestor uses RJ 45 connectors for the Ethernet cables and screw terminals for the 48 VDC power connections Dual 48 VDC power connectors are provided allowing for the connection of redundant power sup
99. n 10 2 for more information Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWave lnc 56 11 1 2 Management through Port 2 out of band Port 2 is available for out of band management purposes only It does not carry customer data traffic lt has been designed to be used in conjunction with a management overlay network that is separate from the customer data network The management overlay network is typically extended back to the Network Operations Center To select out of band management use the CLI command set network management interface port2 and press Enter This allows management of the near end unit only To gain access to the far end unit use the CLI command set network management interface port2 extended and press Enter Note With this extended command an Ethernet connection must NOT be present on Port 2 of the far end system otherwise a network loop will be created Port 2 supports management of the Horizon Compact system through Telnet sessions SNMP and the Web interface When the management interface has been set to port2 all management traffic must arrive on Port 2 otherwise it is ignored by the system Customer data traffic continues to be carried over Port 1 11 2 Telnet Access Once correctly configured the Horizon Compact is accessible through a Telnet session using Super User NOC and Admin level user accounts Refer to Appendix A for details of CLI commands
100. nd pane of the Web interface and appear on each Horizon web page Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 10 0 Advanced Configuration Features DragonWave Horizon Compact has a number of optional advanced configuration features that may be applied if desired It is recommended that they only be applied once the Horizon Compact is satisfactorily aligned and successfully carrying traffic The following lists the features available e Radius Server User Authentication e Threshold Alarms e VLAN Tagging e Rapid Link Shutdown RLS e 802 1P Priority Tagging e Simple Network Timing Protocol SNTP e Horizon Throughput Speed e Adaptive Modulation e Adaptive Transmit Power Control e Radio Redundancy ATPC e Modem Authentication Each feature is described in this manual but detailed configuration information for each can be found in the Horizon Product Manual Volume 2 Advanced Features 10 1 RADIUS Server User Authentication The DragonWave Remote Authentication Dial In User Service RADIUS server option enables users to be centrally authenticated before being allowed access to a Horizon Compact unit This adds another layer of security by removing user access control away from individual units and moving it to a central server However all Horizon Compact units must have all approved users entered in the user authentication list before the system will grant access at the appropriate user levels adm
101. nformation to the file name will allow you to save it in a specific directory on the ftp server 12 4 User Account Configuration Restore The Horizon Compact system user account configuration can be retrieved from an FTP server All user account configuration parameters are restored allowing the exact configuration to be replicated Use the CLI command copy ftp filename press Enter where filename is the name of the file to restore to the Horizon Compact Note that the above command will retrieve the file from the root directory of the ftp server Adding the path information to the file name will allow you to retrieve it from a specific directory on the ftp server Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWave lnc 64 This page left blank intentionally Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 13 0 Software Upgrades From time to time new software loads are made available that may add new features to the Horizon Compact system You can download new software remotely using File Transfer Protocol FTP Use the Command Line Interface CLI via Telnet and invoke the FTP with either a local FTP server that is on the same network as the Horizon Compact system or use DragonWave s FTP server site available through the Internet The Horizon Compact can interact with the most popular FTP servers on a variety of operating systems Anonymous FTP
102. ng Y The Part 15 radio device operates on a non interference basis with the other devices operating at this frequency Any changes or modification to said product not expressly approved by DragonWave Inc could void the user s authority to operate this device Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 DragonWave lnc 96 Department of Communications Canada Compliance Statement This class B Digital apparatus meets all the requirements of the Canadian Interference Causing Equipment Regulations This device complies with RSS 210 of Industry Canada Operation is subject to the following two conditions 1 this device can not cause harmful interference and 2 this device must accept any interference received including interference that can cause undesired operation The use of this device in a system operating either partially or completely outdoors can require the user to obtain a license for the system according to Canadian regulations For further information contact your local Industry Canada office Minist re des Communications Canada D claration de conformit aux normes canadiennes Cet appareil num rique de la classe B respecte toutes les exigences du R glement sur le mat riel brouilleur du Canada Cet appareil est conforme la norme RSS 210 d Industrie Canada Son exploitation est soumise aux deux conditions suivantes 1 il ne doit pas provoque
103. nts get user session get vlan tag get vlan tagging get web server kill ssh sessions list ftp file directory lo ping w timeout n count t ip address reset system modem save config ftp filename save log ftp filename save mib save performance log ftp filename save users ftp filename set aam on off set admin user set air interface authentication type type set authentication failure action set alarms counter 0 set alignment on off set antenna diameter index of diameter set atpc onloff coordinated power set bandwidth utilization threshold threshold time set cos default value 0 7 set cos expedite queue onloff set cos qinq itag protocol id set cos qinq otag protocol id set cos queue cir 0 100 0 100 0 100 1 100 set cos queue mapping mapping set cos queue cbs set cos type cos vlan cos qinq itag cos qinq otag set current channel index set date time dd mm yyyy hh mm ss ms set default gateway ip address set dropped frames threshold threshold time set enet config port1 port2 set enet speed port1 port2 speed 10 100 1000 auto AutoNeg auto set frequency bank set group authentication key key set http secure access Admin Noc Super on off set ip address address set logging onloff set maximum frame size 1600 9600 set network management interface port1 port2 port2 extended set network protocol strict on off set noc user
104. o interconnected Horizon systems mounted on the PSRM The PSRM supports system redundancy by connecting two Horizon units to a single antenna Only one of the radios of the mounted systems may operate at any one time Both systems have the identical polarity either both vertically or both horizontally polarized One system is configured as the Primary and the other as the Secondary Note that the terms primary and secondary relate solely to the internal functions of the units and has no relationship to which radio is in stand by or which is carrying traffic Port 1 of the primary unit carries the data feed with Port 2 of both units interconnected Port 1 of the secondary unit handles management traffic The secondary unit has to be configured for in band management and the primary unit configured for out of band management Switching from the active unit to the stand by unit is determined by the configuration of the Horizon Compact units and does not depend on connected Ethernet switches After a redundancy switch once the first unit is able to return to carrying traffic a manual switch is required via a CLI command to return traffic to the first unit Figure 10 4 Redundancy Connections Single wire option copper interface NOTE For clarity the PonE power adapter and surge arrestor have been omitted from the diagrams Both Port 1 Ethernet connections and the power feed via Port 1 must be protected from transients BN
105. oftware controlled upgradeability to high capacity native Ethernet and TDM services with ultra low latency to enable 3G evolution with the minimum of network churn 1 1 3 Leased Line Replacement For many businesses the only option for last mile access is the ILEC provided on an aging copper infrastructure with long MTTR Horizon Compact can replace leased services and eliminate recurring and expensive telecom Costs while at the same time improving service availability and enabling future growth and options for services with a scalable Ethernet network 1 1 4 Last Mile Fibre Extension The greatest demand for broadband services is within the core metro markets Horizon Compact provides a superior complementary networking solution to rapidly extend high speed IP services from locations already attached to the service provider s network The DragonWave portfolio of products is ideal for network hardening disaster recovery and applications that require legacy TDM services and carrier grade high capacity native Ethernet systems Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 1 2 Technical Specifications Frequencies 11 GHz FCC IC ETSI ITU 13 GHz ETSI AUS NZ ITU 15 GHz IC ETSI AUS NZ MX ITU 18 GHz FCC IC ETSI AUS NZ ITU 23 GHz FCC IC ETSI AUS NZ ITU MX 24 GHz UL FCC IC ETSI 24 GHz DEMS FCC IC 26 GHz ETSI 28 GHz FCC ETSI 38 GHz FCC ETSI AUS NZ MX Mechanical Radio Modem without antenna 12 cm
106. on in Horizon Compact QoS implementation is best done on the ingress and egress portions of the transport network As such QoS should be implemented on the Ethernet switches Once that implementation is in place the Horizon Compact can be configured for QoS should the potential for congestion exist Enabling CoS QoS 802 1P on Horizon Compact ensures that the high priority traffic is delivered at the expense of lower priority traffic Horizon Compact supports the eight Classes of Service CoS levels 0 7 defined within 802 1P There are four CoS Queues within Horizon Compact numbered 1 to 4 Any of the eight CoS levels can be assigned to any of the four Horizon Compact CoS Queues Horizon can also be configured to use the priority bits found in the DSCP field of IP headers Any frames not having an IP header can be classified based on the default class of service value set cos default value 0 though 7 There are three additional Horizon Compact settings that can be used to customize the data flow to match network requirements 1 CoS Committed Information Rate CIR which determines the guaranteed bandwidth allocated to a particular Queue 2 CoS Committed Burst Size which determines the amount of burst data the Queue can manage 3 Expedite Queuing see Section 10 3 3 which allows a Queue to be set as a priority Queue whereby it delivers its data at the expense of other non Expedite Queues Horizon Compact Release 1 01 00 Wirele
107. oor unshielded RJ 45 connectors may result in poorly constructed cables intermittent connections and data loss If Port 2 is not being used ensure that a protective weatherproof cap is fitted to the port receptacle The cables terminate in a Horizon Power on Ethernet PonE unit located outside of the building entry point Note Straight through Ethernet cables must be used between the PonE adapter and the Horizon The use of a cross over type will result in damage to the Horizon Compact unit The PonE unit contains surge arrestors and must be grounded according to local or regional Electrical Codes Ethernet cables are connected between the PonE unit and the Ethernet switch or router Power for the PonE unit is supplied by 2 wire 16 AWG electrical wiring carrying 48 vDC 48 v or 48v with a maximum current draw of 2 amperes 772 Amphenol E Weatherproof 4 lt RJ 45 NS j p A Shielded Cat5E Belden 7919A CP OP UE ERR P or equivalent 4 lt LA Zi 4 Horizon Unit Data or Power on Ethernet PonE Unit Payload Port 1 With surge Arrestors If Port 2 is being used ensure that a weatherproof Grounding Point cap is fitted for PonE 6 AWG Grounding Cable Data or Payload Ethernet cable straight through OUT to Horizon 48vDC power 2 amperes 16 AWG cable minimum Out of Band Management Ethernet cable Ethernet Switch Data or Payload E
108. otherwise fail This feature is called Automatic Adaptive Modulation AAM Note that AAM cannot be invoked if RLS is enabled The current modulation scheme determined by the configured system mode parameter will switch to the lowest modulation scheme available a number of system modes which includes the modulation scheme are available for any given radio band see Section 5 2 if the Horizon Compact units detect errored but corrected frames caused by reduced RSL levels The original modulation scheme will be restored once preset parameters indicate that conditions are suitable for returning to the original modulation scheme and return to the original bandwidth The total outage time due to modulation downshift is approximately 50 to 100 mS on average with upshift down time at approximately 75 mS All radio bands available with the Horizon Compact support AAM Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Advanced Configuration Features 49 10 12 Horizon Compact Throughput Doubling Horizon units are capable of transmitting up to 400 Mbps For higher data rates an Ethernet switch that supports link aggregation is required Horizon can be configured as 2 units each with their own separate antenna or the Dual Polarity Radio Mount DPRM can also be used to mount two systems to a single antenna see Figure 2 3 The DPRM allows both systems to transmit receive simultaneously one with horizontal pol
109. pact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Appendix A List of CLI Commands Command Syntax Summary alpha order help copy ftp filename create ssl certificate delete mib newest both delete radius server index diagnose aam downgrade system licensed speed speed erase log erase performance log exit get aam status get alarms get alarms counter get alignment get air interface authentication type get antenna diameter get atpc status get authentication failure action get authenticated peer get authentication status get backup ipconfig get bandwidth utilization threshold get bandwidth utilization status get config commands get cos default value get cos expedite queue get cos qinq itag get cos qinq otag get cos queue cir get cos queue mapping get cos queue cbs get cos type get date time get default ipconfig get default gateway get dropped frames threshold get enet address get enet config get enet speed get enet status get frequency bank get frequency file crc get frequency file status get group authentication key get health get http secure access Admin Noc Super get hw inventory get ip address get install type get leds get licensed speed count get logging get log entries get maximum frame size get modem modulation get modem statistics Horizon Compact Release 1 01 00 get network management interface get network protocol str
110. plies The surge arrestor unit contains protection against cable transients and power surges caused by lightning or other sources The surge arrestor is installed at the opposite end of the Cat5E PonE cables to that of the Horizon unit and protects the network To ensure adequate lightning protection the PonE surge arrestor unit must be properly grounded CAUTION Serious damage to network switches or routers can occur if the network is plugged into the connectors marked TO HORIZON UNPROTECTED Power is fed to the Horizon unit along the same wires that carry Ethernet traffic to the Horizon unit Do not under any circumstances plug cables connected to the network into the RJ 45 connectors marked TO HORIZON UNPROTECTED CAUTION Only use straight through Ethernet cables to connect the PonE adapter to the Horizon Compact Using cross over cables will result in damage to the Horizon Compact unit CAUTION Connect the Cat5E cables to the Horizon Compact BEFORE applying power to the PonE surge arrestor unit Horizon consumes a nominal 20 Watts standard power or 40 Watts high power variant from the 48 VDC supply All eight of the wires in the Ethernet cable are used to carry power to the Horizon Compact unit The Power on Ethernet surge arrestor unit is rated at 2 amps Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Grounding Power and Surge Arrestors 33 Grounding
111. point Redundant power terminals 48 VDC To Horizon Compact Power on Ethernet Power cable To network clamps protected Ethernet cable clamp CAUTION CONNECT ONLY TO HORIZON DO NOT CONNECT TO NETWORK Figure 7 2 Surge arrestor and power integrator Two different sized cable clamps are provided for the power cable Select the one that best suits the size of cable being used The Ethernet cables are secured with a bar type clamp which is locked down using a single screw Additional cable security can be added by applying cable clips to the cables as close to the clamp bar as possible as shown in Figure 7 3 Cable clip Figure 7 3 Ethernet cable clip DragonWave lnc 34 This page left blank intentionally Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 8 0 Preparing for Alignment The Horizon Compact and antenna assembly is attached to the mounting post or tower with a specialized mounting bracket that allows fine orientation adjustment of the Horizon antenna assembly The same mounting bracket is used for all antenna sizes Visual alignment is achieved by rotating the assembly on the post or tower and positioning the assembly so that the antenna is visually aligned with the target system before tightening the mounting bracket clamp Final alignment is achieved using the azimuth and elevation adjustment bolts Once alignment is achieved the adjustment mech
112. port Link detected on Out of band port Port 2 Link detected on Data port Port 1 Link detected on both Out of band and Data ports Fiber Mode OFF Transmit is disabled Steady Red Transmit is enabled and no link is detected on either Ethernet port Slow Red Blink Transmit is enabled and Link is detected on Out of band port Port 2 Steady Green Fast Green Blink Transmit is enabled and a link is detected on Data port Port 1 Transmit is enabled and link is detected on both Out of band and data ports Alarm LED Steady Green No Alarms Slow Red Blink Alarm ON 21 Cabling Both copper and optical interface cabling is supported 2 1 1 Copper Interface Two weatherproof RJ 45 Ethernet connectors provide data and management connections to the unit over cabling Ethernet cables must be wired for a straight through connection see Section 3 0 One connector GigE Port 1 is for data traffic and optional in band management Power 36 to 60 V DC is provided by an optional mains power adaptor and supplied to the Horizon Compact using Power on Ethernet PonE techniques which incorporates both power and network transient suppression See Section 7 1 CAT5E cable length is restricted to 90 metres The second connector Port 2 is solely for an optional out of band management connection using an overlay network If Port 2 is not being used e g in band management being used ensure that the vacant connector
113. r de brouillage pr judiciable et 2 il doit tol rer le brouillage regu notamment le brouillage susceptible de perturber son fonctionnement Si l appareil doit tre utilis dans un syst me qui fonctionne partiellement ou compl tement l ext rieur l utilisateur devra obtenir une licence cet effet conform ment aux r glements canadiens Pour de plus amples renseignements communiquer avec le bureau local d Industrie Canada Certification Note From Industry Canada for 24 GHz DEMS CERTIFICATION NOTE FROM INDUSTRY CANADA While this equipment meets the technical requirements for its operation in its rated paired block arrangement this block arrangement is different than the 40 40 MHz block arrangement prescribed in documents RSS 191 and SRSP 324 25 The operation of this equipment IS NOT permitted if the out of band and spurious emission limits are not met at the edge of any contiguous licensed spectrum It should be noted that all current relevant spectrum policies licensing procedures and technical requirements are still applicable For additional information please contact the local Industry Canada office European Telecommunications Standards Institute Statement of Compliance This equipment has been tested and found to comply with the European Telecommunications Standard ETS 300 328 This standard covers Wideband Data Transmission Systems referred to in CEPT Recommendation T R 10 01 This type of accepted equipment is designed
114. ragonWavelnc Il 5 6 1 SESSION TIME QUT ren AAA Mad a Senda Lan 27 6 0 ANTENNA MOUNTING AND TOWER 29 6 1 POLARITY 29 6 2 POLE AND TOWER SPEGIFICATIIONS 25 E nn de fo dune 30 7 0 GROUNDING POWER AND SURGE 5 85 0 31 1 1 POWER ON ETHERNET PONB 5 sein dives ee OE Fe dap 32 8 0 PREPARING FOR ALIGNMENT 35 8 1 RECEIVED SIGNAL LEVEL RSL 36 0 25 THREE IMPORTANT FACTORS 2 redu pdt te eques ea wate nd 38 8 2 1 ANTENNA 6 lt 38 8 2 2 7 rien egeat EEE ERA EEEE MIR seen dug 38 8 2 3 ALIGNMENT ADJUSTMENT Se ka Senada ana Bentan kanda ank ag 38 9 0 ALIGNING THE 5 anna eaae auae eaae neee 39 9 1 SIGNS OF AHEAETENY LE INI en dana AN tror mee ne ina te LAS fe E ee fei eL 40 10 0 ADVANCE
115. rates lower than GigE the data buffer will accommodate a lesser amount of data The Pause Frame feature can be used when CoS QoS is enabled or disabled 10 5 Horizon Compact Throughput Speed When you purchase a Horizon Compact system you receive a unit capable of giving a throughput speed of up to 400 Mbps However the actual throughput speed achievable for any given system depends on the specific throughput speed key that you purchased with the system You can upgrade your system to a higher licensed throughput speed up to 400 Mbps by purchasing an upgrade key and reprogramming your system Any upgraded system can be reconfigured to a lower throughput speed as required without losing the ability to return to the upgraded speed You may also downgrade a system to a lower licensed speed A downgraded system may warrant a refund of licensing fees A downgraded system cannot be returned to its former higher licensed speed without purchasing another licensed upgrade key 10 5 1 Maximum Throughput Speed The maximum throughput speed is determined by the Horizon Compact throughput speed key you purchase however it is important to note that this is also determined by the Channel bandwidth associated with the configured radio band and the modulation scheme used The channel bandwidth is a function of the radio band and the modulation scheme is automatically selected depending on the desired maximum throughput Configuring the Radio Band and System
116. re Gauge These values are true for all radio variants and based on a minimum voltage of 35 V DC at the Horizon Distance from Power Supply to Horizon Unit 50 100 200 300 m Minimum wire gauge required AWG 20 16 14 12 Note that the power wires in the AirPair ODU modem composite cable are 16 AWG which supports the maximum length 100 m when out of band management is employed using the combined CAT5 cable 2 2 Lightning Protection The Horizon Compact is protected from cable transients and power surges caused by lightning or other sources by means of internal surge arrestor components and external housing grounding points See Section 7 0 For the copper interface variant protection of the connected network is provided by a proprietary DragonWave PonE power integrator surge suppressor unit into which the Ethernet cables are plugged The power integrator surge suppressor is located outside the network equipment enclosure close to the network switch router connection point The optical variant requires the power feed and the Port 2 management connection if used to be connected via a Transtector surge suppressor to protect power and network circuits 2 3 Dual Polarity Radio Mount DPRM The DPRM system allows two Horizon Compact units to be assembled to a single antenna The antenna used is no different to that used for a single unit One Horizon Compact unit is mounted for horizontal polarity and the other for v
117. rformance of the system Threshold alarms are available for the following parameters RSL Receive Signal Level Bandwidth Utilization Dropped Frames Signal To Noise SNR With the exception of SNR each Threshold Alarm has two associated parameters 1 Threshold value 2 A time limit over which the Threshold value must be exceeded before the alarm is reported The combination of the value and the time limit is user defined The proper combination of the two parameters will prevent false alarms from occurring For the SNR parameter only the threshold level can be set the time limit or hysteresis being a preset value 10 9 Rapid Link Shutdown It is often desirable to signal or detect network link issues in the quickest manner possible This is especially true when running Layer 2 redundancy protocols such as Spanning Tree and Metro Ring protocols Signalling to the network is done by shutting down the Ethernet data port s connecting the Horizon Compact to the network The Rapid Link Shutdown RLS feature provides this functionality Some situations that would result in Rapid Link Shutdown include e Link outage Should a power failure or a complete loss of link occur then Ethernet ports at both ends of the link can be shut down Far end Ethernet connection problems If the remote unit data Ethernet port is disconnected or disabled the near end unit will also shutdown it s Ethernet port e Link quality probl
118. rizon Size Beamwidth of Gain Beamwidth of Gain main lobe dBi main lobe dBi degrees 3 dB degrees 3 dB 30 cm 12 3 0 degrees 34 2 7 degrees 35 1 60 cm 24 2 0 degrees 38 6 1 7 degrees 40 2 90 cm 36 1 3 degrees 42 0 1 1 degrees 43 7 120 cm 48 1 0 degrees 44 5 0 8 degrees 46 2 8 2 2 Clear Line of Sight LoS The DragonWave Horizon Compact requires a clear LoS between the units at each end of the link You must be able to see an unobstructed view of the antennas from each end Avoid obstacles that are close to the LoS mid way between antennas but not blocking it as this can have a negative impact on signal quality Fresnel zone clearance Also ensure that antennas are mounted with adequate clearance from roof tops roof edges walls and other obstacles e g air conditioning plant to avoid problematic near field effects 8 2 3 Alignment Adjustment Sensitivity When aiming the antenna it cannot be over emphasized that you must rotate the adjustment nut s 1 10 of a turn at a time between taking RSL readings allow time for the RSL reading to update One full turn of the adjustment mechanism can move the antenna through 1 6 degrees azimuth or 2 2 degrees of elevation Table 8 1 shows that the beam width of the typical antenna is often less than the amount of movement available with one full turn of the aiming adjustment Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 9
119. shown in the following procedure Required Action Create Administrator Login Accounts Steps 50 Administrator accounts are available The username and password cannot be the same value Log in as the Super User View current user account settings Sequence get user accounts press Enter The system responds HA A A A Ae A A A AE AE A AE AE AE A A KKK KKK KKK KAK KK KK KKK KKK KKK KKK KR KK HKK KK KKK KKK ARR AR ADMIN ACCOUNTS ee e ve e eoe ee oe oe oe oe ve oe e oe oe e ee e ee eoe e eoe oe eoe oe oe E Index UserName Password 1 2 3 48 49 50 HA KKKKKKKKK KKK KKK KKK KKK KAK KK KK KK KKK KKK KKK KKK KAK KK KKK KKK ARR AR NOC ACCOUNTS HA KKKKKKKKK KKK KKK KKK KKK KKK KAKAK KK KK AR Index UserName Password O amp O M gt Create new Administrator account Sequence set admin user press Enter The system responds Index Enter the lt index gt where lt index gt is from 1 to 50 and represents one of the 50 available accounts The system responds UserName Enter the desired username for this account The system responds Verify UserName Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Initial Configuration 27 Required Action Steps Re enter the desired username for this account The system responds Password Enter the desired password for this account The system responds Verify Password
120. sing the Web interface 1 From the Home page select the Configuration menu option and then select the Frequency and port configuration option 2 Use the drop down menus on the Web page for entering or changing the radio band and the programmed frequency The frequency bank txLow or txHigh will be pre determined HIGH or LOW Horizon label 3 Return to the Configuration menu and select the System Configuration option 4 Use the drop down menu to select the desired system mode 5 click on the Save settings button Note You will also need to click on the Reset system button to make these entries effective Optionally this can be left until all the initial configuration parameters have been entered before issuing the command See 5 3 2 step 6 5 3 Configuring IP Address Values When shipped from DragonWave the Horizon Compact is configured with a default IP address 192 168 10 100 and subnet mask 255 255 0 0 The default address is used to communicate with the Horizon Compact for initial configuration purposes such as entering the IP address that the unit will have in the network to which it is to be connected IP address information is entered in the following manner 5 3 1 Using Telnet 1 Type the CLI command set ip address nnn nnn nnn nnn and press Enter where nnn nnn nnn nnn is the desired IP address in standard format 2 Type the CLI command set subnet mask nnn nnn nnn nnn and press Enter where
121. ss Ethernet Product User Manual Volume 1 Advanced Configuration Features 43 10 31 Operation with 802 1P Priority Queuing Disabled If 802 1P filtering is disabled in the Horizon Compact system all incoming frames are treated equally and are forwarded on a first come first served basis The system operates in a FIFO First In First Out basis If the Pause Frames feature see Section 10 4 is enabled pause frames will be sent to the connected switch when the input buffer is close to being full internally set threshold This allows time for the queue to empty prior to more frames being received and thus avoids congestion 10 3 2 Operation with 802 1P Priority Queuing Enabled If 802 1P filtering is enabled in the Horizon Compact system the scheduling mechanism can be described as follows 1 Select the highest priority queue which has a frame in it 2 Send that frame If COS CIRs are set for the queues then the scheduling mechanism can be described as follows 1 Select the highest priority queue which has a frame in it and hasn t used up its CIR budget 2 Send that frame The operation of the Scheduler is affected by both the user configurable CIR and CoS Queue PBS settings If the Pause Frames feature see Section 10 4 is enabled pause frames will be sent to the connected switch when the input buffer is close to being full internally set threshold The Horizon Compact system also allows any frames without a VLAN tag to be
122. te text box in the System Status Pane 11 5 3 Configuration Screen The main configuration screen provides hypertext links to each of the configuration sections within the Horizon Compact system To navigate to the individual sections click on the hypertext link The Configuration screen allows the user to access the following sections System Configuration Automatic Transmit Power Control ATPC Configuration IP Configuration Automatic Adaptive Modulation AAM Configuration Frequency and Port configuration SNTP Configuration SNMP Trap Hosts Configuration Logs Configuration SNMP Managers Configuration RADIUS Client Configuration SNMP V3 Managers Configuration Ethernet Quality of Service SNMP Traps Configuration 11 5 4 Diagnostics Screen The diagnostics screen has a link that directs you to the DragonWave support Web page where you can download diagnostics programmes Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Horizon Management 59 11 5 5 Alarms Screen The Alarms screen displays the current status of the alarms within the Horizon Compact system and the total accumulated time the alarm has been present in seconds The total accumulated time may indicate the current alarm has been active for the timeframe indicated or may indicate the alarm has occurred multiple times for a total time equaling the displayed value See 11 9 for a list of alarms This screen is updated at the rate specifie
123. ted Use the CLI command save config ftp filename press Enter where filename is the name of the file to be created on the FTP server Follow the prompts Note that the above command will save the file in the root directory of the ftp server Adding the path information to the file name will allow you to save it in a specific directory on the ftp server 12 2 System Configuration Restore The Horizon Compact system configuration can be retrieved from the FTP server on which it was backed up All system configuration parameters are restored allowing the exact configuration to be replicated Use the CLI command copy ftp lt filename gt press Enter where filename is the name of the file to restore to the Horizon Compact Follow the prompts Note that the above command will retrieve the file from the root directory of the ftp server Adding the path information to the file name will allow you to retrieve it from a specific directory on the ftp server 12 3 User Account Configuration Backup The Horizon Compact system user account configuration can be saved to an FTP server All user account parameters are backed up allowing the exact configuration to be replicated Use the CLI command save users ftp lt filename gt press Enter where filename is the name of the file to be created on the FTP server Follow the prompts Note that the above command will save the file in the root directory of the ftp server Adding the path i
124. ted Ethernet switch Ethernet switch settings are used to reroute the traffic from one Horizon unit to the other when a failure occurs Protocols such as RSTP LACP and routing protocols are able to determine that the Horizon units have switched from active to stand by units or vice versa and will reroute the data traffic through the active link Figure 10 2 Redundancy Connections 2 wire option copper interface NOTE For clarity the PonE power adapter and surge arrestor have been omitted from the diagram Both the Port 1 and Port 2 Ethernet connections and the power feed via Port 1 must be protected from transients Primary BNC Connectors Linked Port 2 management a On 0800908290 O0000000000 Secondary Ethernet Switch Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Advanced Configuration Features 51 Figure 10 3 Redundancy Connections 2 wire option optical interface NOTE For clarity the Transtector surge arrestor has been omitted from the diagram Both the Ethernet management feed to Port 2 and the power feed via Port 2 must be protected from transients Primary BNC Connectors Linked Y cable to Port 2 Ethernet management m oue me ded feed via surge arrestor DragonWave Inc 52 10 13 3 Single Wire Option with the PSRM The single wire option is so named because only one data feed is required to be connected to the tw
125. thernet cable IN from LAN Figure 3 2 PonE and Ru 45 Connections 1 DragonWave Inc 12 3 2 Assembling the RJ 45 Connector Weatherproof RJ 45 connector shells are used for connecting the cable leading from the power on Ethernet power supply and network connections to the Horizon Compact Cables and connectors may be purchased from DragonWave or may be constructed or supplied by the customer Two different styles of connector have been used in production For Horizon serial numbers ending in 999 or less an RJ45 snap in type in line housing is used For serial numbers ending 1000 or higher a push fit style is used Both styles are not compatible and do not mate with the respective female connector on the horizon chassis 3 2 1 Snap fit style The connector shell must be assembled in a specific manner for it to correctly connect to the Horizon Compact unit The cable is terminated as a straight through connection with a shielded RJ 45 connector This RJ 45 connector has to be assembled into the weatherproof connector shell oriented as shown in Figure 3 3 Note position of this CAUTION 7 Using a cross over connection will damage the Horizon Compact Only use straight through cable connections CATSE Cable End male Horizon connectors female Both connectors are mechanically identical copper interface Insert rubber w S gasket into barrel CAUTION Connect the RJ
126. tional Note When you change the Super User name and or password record the new values in a safe place If you forget the new values there is no way of retrieving them from the system You will have to contact DragonWave to arrange a Super User reset 24 hour support number 613 271 7010 or support dragonwaveinc com To change the super user use the CLI command set super user and press Enter Follow the prompts When the new name and password have been accepted enter the CLI command save mib and press Enter This will save the changes in non volatile memory Failing to save the mib will result in changes being lost in the event of a power failure or system reset DragonWave lnc 24 5 5 2 Adding or Changing noc User Accounts Up to five noc user accounts can be configured Use the CLI command set noc user as shown in the following procedure Required Action Create noc Login Accounts Steps Five noc network operations center accounts are available The username and password cannot be the same value Log in as the super user View current account settings Sequence get user accounts press Enter The system responds KKK AKKK KKK KK KKK KK KKK KKK KKK KAK KK KK KK KK RRR A A E E A A E A A KKK ARR AR ADMIN ACCOUNTS KKK KKKK KKK KK KKK KK KKK KKK RRR KK KK KK KKK KKK KK KK KK AKK KK KK KAKAK RAR Index UserName Password 1 2 3 48 49 50 KKK AKKK KKK KK KKK KK KKK KKK KKK KAK KK KA K
127. to provide reasonable protection against harmful interference when the equipment is operated in a residential environment This equipment generates uses and can radiate radio frequency energy If the equipment is not installed and used in accordance with the instruction manual it can cause harmful interference to radio communications Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Appendix D 97 This page left blank intentionally DragonWavelnc 98 Copyright 2000 2007 DragonWave Inc Printed in Canada All rights reserved Horizon Compact Product Manual 83 000027 01 01 02 Visit us on the Internet at http www dragonwaveinc com Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1
128. tor BNC to banana jacks cables are available from you voltmeter dealer or can be constructed by the user Horizon Compact Release 1 01 00 Wireless Ethernet Product User Manual Volume 1 Preparing for Alignment 37 Figure 8 2 Voltmeter connections to BNC field strength monitoring connector 2 Alternatively readings can be made remotely via the Web interface using the Tools Link Alignment menu option An operator would then have to continually relay RSL readings via a radio or cell telephone to the rigger adjusting the positioning of the system DragonWave lnc 38 8 2 Three Important Factors When you prepare to align the radio antennas you must consider three important factors 1 the radiation patterns of dish antennas main lobe and side lobes 2 the need for a Clear Line of Sight LoS 3 the sensitivity of the alignment adjustment 8 2 1 Antenna Radiation Patterns The dish antennas used for the DragonWave Horizon Compact have high gains and very narrow beam widths making antenna alignment a critical element of a successful installation In addition to the main antenna beam or lobe there are often side lobes Care must be taken to ensure that alignment is made to the main lobe and not onto a side lobe If you align onto a side lobe the RSL will be at least 20dB less than expected Table 8 1 Antenna Gains and Beam Widths Selected Frequencies Antenna 18 GHz Horizon 23 GHz Ho
129. y be registered with a Trusted Certificate Authority such as e Allegro Software Development Corporation e Microsoft Root Authority e Thawte Server s Cybertrust Root e VeriSign RSA Secure Server SSL access can be enabled on a per user group basis SSL access can be invoked for the Super User for all NOC accounts for all Admin accounts or any combination of the three Once SSL access has been enabled for the user group then all members of that user group must use SSL to connect to the Horizon Compact Web browser Even if SSL access is not required for the user group those users may access the Horizon Compact Web browser through HTTPS SSL as a security measure 11 6 1 Generating a Certificate on Horizon Compact In order to generate an SSL certificate on Horizon Compact the user must be logged in as either a NOC or Super User access level The SSL certificate is tied to the Horizon Compact IP address If the Horizon Compact IP address is changed then the SSL certificate should be regenerated Otherwise the browser SSL session will allow access but it will report that the certificate is invalid In this situation it is the browser user s responsibility to verify that the proper Horizon Compact is being accessed and that the invalid certificate is due to an IP address change DragonWave Inc 60 11 7 Event and Performance Logs The Horizon Compact system supports two logs the Events Log and the Performance Log Each can be use
130. ystem information pane on the right displays system parameters and allows configuration changes Figure 11 1 Web Interface Home Screen MOME PERFORMANCE CONFIGURATION DIAGNOSTICS ALARMS Modem System Licensed Speed M Navigation Radio Jr System Current Speed M Bar Wireless Link Down System Mode Software Hw Inventory Software Hw inventory Radio Tx 1 Unit Serial Number Tx Power RSL SNR Eb No B Telnet Access Network Management Interface port RLS ShutDown Equalizer Stress SNMP Access System Atpc Status Off SSH Server Status Not Starte Information IP Address 09 17 21 Pane Alarms fes Subnet Mask Gateway Refresh every o seconds Radio Band Tx Frequency Notes 0 tums off the self refresh Rx Frequency System Status Pane Manage your Peer Horizon system 0 0 0 0 System Status Pane The main screen displays system status in the left hand pane The information can be continually refreshed The default is no self refresh set to 0 seconds Click on the Set button to manually refresh The maximum refresh rate is 99999 seconds The minimum refresh rate is 3 seconds Setting the self refresh rate also causes the Performance and Alarms screens to be refreshed at that rate System Information Pane The system information pane contains information on the Horizon Compact type management settings IP address information and frequency settings This pane is not updated automatically The user must r
131. zon Compact can become operational It is recommended that these steps be performed prior to mounting the system on the tower These steps relate to e radio bands e frequency channels address information Once this information has been correctly entered the Horizon Compact system is ready for installation and system alignment The Horizon Compact can be configured using Telnet or the Web interface Before attempting to log on you must configure the network parameters of your laptop or PC so that they are in the same domain as the Horizon Compact default IP address and subnet mask values By default the IP address of a Horizon Compact system is 192 168 10 100 and the subnet mask is set to 255 255 0 0 Use this IP address to communicate with the unit using either Telnet or the Web browser A complete set of CLI commands is available for use with Telnet See Appendix A For the copper interface connect your laptop or PC Ethernet port to Port 1 GigE port on the Horizon Compact using a straight through Ethernet cable For the optical interface you will need to connect your PC to Port 1 of the Horizon via an optical switch By default the management option is set to inband which will allow management through the Port 1 data port Note If the management interface type happens to be set to out of band management through Port 1 GigE port will not be possible In this case connect your laptop or PC to the Horizon Compact v
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