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6-31

D-620610-0-20 Rev D

CONFIDENTIAL

Link Budget Analysis

P

TX

+ P

RX

= –76 dBm (for PCS, J-STD-008)

where P

TX

is the mobile’s transmitted power and P

RX

is the power received by the

mobile.

The power level transmitted under closed-loop power control is adjusted by the base
station to achieve a certain E

b

/N

0

(explained in Table 6-24 on page 6-31). The differ-

ence between these power levels,

'

P

, can be estimated by comparing the power radi-

ated from the RAU,

P

downink

, to the minimum received signal,

P

uplink

, at the RAU:

'

P

=

P

downink

+

P

uplink

+

73 dBm (for Cellular)

'

P

=

P

downink

+

P

uplink

+

76 dBm (for PCS)

It’s a good idea to keep –12 dB <

'

P

< 12 dB.

Table 6-24 provides link budget considerations for CDMA systems.

Table 6-24

Additional Link Budget Considerations for CDMA

Consideration

Description

Power
per carrier,
downlink

This depends on how many channels are active. For example, the signal is about 7 dB lower if only the
pilot, sync, and paging channels are active compared to a fully-loaded CDMA signal. Furthermore, in the
CDMA forward link, voice channels are turned off when the user is not speaking. On average this is
assumed to be about 50% of the time. So, in the spreadsheet, both the power per Walsh code channel (rep-
resenting how much signal a mobile will receive on the Walsh code that it is de-spreading) and the total
power are used.

The channel power is needed to determine the maximum path loss, and the total power is needed to deter-
mine how hard the Fusion system is being driven.

The total power for a fully-loaded CDMA signal is given by (approximately):

total power =

voice channel power

+ 13 dB + 10

log

10

(

50%

)

= voice channel power + 10 dB

Information Rate

This is simply

10

log

10

(9.6 Kbps) = 40 dB for rate set 1

10

log

10

(14.4 Kbps) = 42 dB for rate set 2

Process Gain

The process of de-spreading the desired signal boosts that signal relative to the noise and interference.
This gain needs to be included in the link budget. In the following formulas, P

G

= process gain:

P

G

= 10

log

1

0

(

1.25 MHz / 9.6 Kbps

) = 21 dB rate set 1

P

G

= 10

log

1

0

(

1.25 MHz / 14.4 Kbps

) = 19 dB rate set 2

Note that the process gain can also be expressed as 10

log

1

0

(CDMA bandwidth) minus the information

rate.

Eb/No

This is the energy-per-bit divided by the received noise and interference. It’s the CDMA equivalent of sig-
nal-to-noise ratio (SNR). This figure depends on the mobile’s receiver and the multipath environment.

If the receiver noise figure is NF (dB), then the receive sensitivity (dBm) is given by:

P

sensitivity

=

NF

+

E

b

/N

o

+ thermal noise in a 1.25 MHz band –

P

G

= NF +

E

b

/N

o

– 113 (

dBm/1.25 MHz

) –

P

G

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Summary of Contents for InterReach Fusion

Page 1: ...InterReach Fusion Installation Operation and Reference Manual ADCP 77 042 x Issue 2 x 12 2008 D 620610 0 20 Rev D...

Page 2: ...s of data loss of use or loss of profits and ADC further disclaims any and all liability for indirect incidental special consequential or other similar damages This disclaimer of liability applies to...

Page 3: ...1 System Monitoring and Reporting 2 6 2 3 2 Using Alarm Contacts 2 6 2 4 System Connectivity 2 7 2 5 System Operation 2 8 2 6 System Specifications 2 9 2 6 1 RF End to End Performance 2 12 SECTION 3...

Page 4: ...5 5 5 2 2 75 Ohm Type F Connector 5 5 5 3 RAU LED Indicators 5 6 5 4 Faults and Warnings 5 7 5 5 Remote Access Unit Specifications 5 7 SECTION 6 Designing a Fusion Solution 6 1 6 1 Overview 6 1 6 2 D...

Page 5: ...stallation Inspection 7 6 7 3 2 Installation Checklist 7 6 7 3 3 Tools and Materials Required 7 8 7 3 4 Optional Accessories 7 9 7 4 Fusion Installation Procedures 7 10 7 4 1 Installing a Fusion Main...

Page 6: ...ooting Recommendations 9 4 9 3 1 2 Fault Warning Status Indications 9 5 9 3 2 Troubleshooting Using LEDs 9 5 9 4 Troubleshooting CATV 9 10 9 5 Technical Assistance 9 10 APPENDIX A Cables and Connector...

Page 7: ...CONFIDENTIAL InterReach Fusion Installation Operation and Reference Manual 5 D 620610 0 20 Rev D C 7 Messages for Expansion Hubs C 16 C 8 Messages for RAUs C 19...

Page 8: ...CONFIDENTIAL 6 InterReach Fusion Installation Operation and Reference Manual D 620610 0 20 Rev D...

Page 9: ...igure 3 2 Main Hub Block Diagram 3 3 Figure 3 3 Fusion Main Hub Front Panel 3 4 Figure 3 4 Fusion Main Hub Rear Panel 3 8 Figure 3 5 Preferences Check Boxes 3 12 Figure 4 1 Expansion Hub in a Fusion S...

Page 10: ...21 Internet Protocol TCP IP Properties Window 7 37 Figure 7 22 Local Area Connection Properties Window 7 38 Figure 7 23 Set Time and Date Window 7 39 Figure 7 24 AdminBrowser Configuration Window 7 3...

Page 11: ...67 Figure 7 50 Fusion Hub Properties Window 7 67 Figure 7 51 Modem Configuration Window 7 68 Figure 7 52 Fusion Hub Properties Security Tab Window 7 68 Figure 7 53 Fusion Hub Properties Networking Ta...

Page 12: ...CONFIDENTIAL 4 InterReach Fusion Installation Operation and Reference Manual D 620610 0 20 Rev D...

Page 13: ...Table 2 12 1800 MHz RF End to End Performance 2 15 Table 2 13 850 MHz RF End to End Performance 2 15 Table 2 14 2100 MHz RF End to End Performance 2 15 Table 2 15 800 MHz SMR RF End to End Performanc...

Page 14: ...for Different In Building Environments 6 17 Table 6 13 Approximate Radiated Distance from Antenna for 800 MHz SMR Applications 6 18 Table 6 14 Approximate Radiated Distance from Antenna for 850 MHz C...

Page 15: ...During Installation 7 35 Table 7 8 Alarm Types 7 54 Table 9 1 Troubleshooting Main Hub Port LEDs During Normal Operation 9 6 Table 9 2 Troubleshooting Main Hub Status LEDs During Normal Operation 9 7...

Page 16: ...CONFIDENTIAL 4 InterReach Fusion Installation Operation and Reference Manual D 620610 0 20 Rev D...

Page 17: ...Release For the latest Software and Firmware Release and associated documentation access the ADC Customer Portal at adc com 1 2 Purpose and Scope This document describes the InterReach Fusion system...

Page 18: ...fety precautions and checklists The installation procedures include guidelines for troubleshooting using the LEDs as you install the units Section 8 Replacing Fusion Components This section provides i...

Page 19: ...or omitted action can cause or contribute to a hazardous condition Damage to the equipment can occur WARNING This format indicates when a given action or omitted action can result in catastrophic dam...

Page 20: ...Related Publications 1 4 InterReach Fusion Installation Operation and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D...

Page 21: ...gh quality ubiquitous seamless access to the wireless network in smaller buildings Fusion provides RF characteristics designed for large public and private facilities such as campus environments airpo...

Page 22: ...r and low uplink noise figure enables support of a large number of channels and larger coverage footprint per antenna Software configurable Main and Expansion Hubs allow the frequency bands to be conf...

Page 23: ...nd control Auto configurable bands Simplex interface to RF source Periodically polls all downstream RAUs for system status and automatically reports any fault or warning conditions 19 rack mountable E...

Page 24: ...Expansion Hub up to 8 RAUs The Fusion One Port Main Hub is software locked to 1 port 2 fiber ports Additional ports are disabled internally Please do not attempt to remove the front panel fiber port p...

Page 25: ...to a base station for basic alarm monitoring Connection Methods The Main Hub s front panel RJ 45 port connects directly to a PC for local Ethernet access The Main Hub s front panel RS 232 serial port...

Page 26: ...r you can install a new system or new components change sys tem parameters and query system status Figure 2 4 illustrates how the system reports its status to AdminBrowser Figure 2 4 System Monitoring...

Page 27: ...architecture of the Fusion system illustrated in Figure 2 5 provides excellent system scalability and reliability The system requires only one pair of fibers for eight antenna points This makes any s...

Page 28: ...s the optical sig nals to electrical signals and sends them to RAUs up to eight using 75 Ohm CATV cable The RAU converts the IF signals to RF and sends them to passive antennas using 50 Ohm coaxial ca...

Page 29: ...Unit Status One per fiber port Expansion Hub RAU Unit Status One pair Power Expansion Hub Status Fiber Link Status One pair DL Status UL Status Port Status One per F connector port Link RAU Unit Statu...

Page 30: ...185 F 25 to 85 C 13 to 185 F Operating Humidity non con densing 5 to 95 5 to 95 Table 2 4 Frequency Bands Covered by Fusion RAUs Fusion RAU Part Number Fusion Band RF Passband Downlink MHz Uplink MHz...

Page 31: ...35 941 896 902 3 sub band 1B 6 MHz 1900 A G 1930 1995 1850 1915 2 65 MHz 2100 Single band RAU FSN 2100 1 2100 2110 2170 1920 1980 2 60 MHz 2100 High Power Single band RAU FSN 21HP 1 2100 2110 2170 192...

Page 32: ...End Performance Parameter Typical Downlink Uplink Average gain with 150 m RG 59 at 25 C 77 F dB 15 15 Ripple with 150 m RG 59 dB 2 5 3 Output IP3 dBm 38 Input IP3 dBm 5 Output 1 dB Compression Point d...

Page 33: ...59 dB 3 4 Output IP3 dBm 38 Input IP3 dBm 5 Output 1 dB Compression Point dBm 26 Noise Figure 1 MH 1 EH 8 RAUs dB 17 Noise Figure 1 MH 4 EH 32 RAUs dB 23 Table 2 8 1800 MHz RF End to End Performance T...

Page 34: ...Performance Parameter Typical Downlink Uplink Average gain with 150 m RG 59 at 25 C 77 F dB 15 15 Ripple with 150 m RG 59 dB 4 5 5 Spurious Output Levels dBm 30 UMTS TDD Band Spurious Output Level 190...

Page 35: ...l Parameter Downlink Uplink Average gain with 150 m RG 59 at 25 C 77 F dB 15 15 Ripple with 150 m RG 59 dB 2 5 3 Output IP3 dBm 38 Input IP3 dBm 5 Output 1 dB Compression Point dBm 26 Noise Figure 1 M...

Page 36: ...32 RAUs dB 23 Table 2 16 900 MHz SMR RF End to End Performance Typical Parameter Downlink Uplink Average gain with 150 m RG 59 at 25 C 77 F dB 15 15 Ripple with 150 m RG 59 dB 2 5 3 Output IP3 dBm 35...

Page 37: ...Input IP3 dBm 5 Output 1 dB Compression Point dBm 26 Noise Figure 1 MH 1 EH 8 RAUs dB 17 Noise Figure 1 MH 4 EH 32 RAUs dB 23 Table 2 19 2100 MHz RF End to End Performance Parameter Typical Downlink...

Page 38: ...System Specifications 2 18 InterReach Fusion Installation Operation and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D...

Page 39: ...tributes up to three individual Band 1 2 or 3 downlink RF signals from a base station repeater or FlexWave Focus sys tem to up to four Expansion Hubs which in turn distribute the signals to up to 32 R...

Page 40: ...0 Ohm coaxial cable It converts the signals to IF then to optical and sends them to up to four Expansion Hubs using fiber optic cable The Main Hub also sends OA M communication to the Expansion Hubs u...

Page 41: ...Help Hot Line U S only 1 800 530 9960 3 3 D 620610 0 20 Rev D CONFIDENTIAL Fusion Main Hub Overview Figure 3 2 Main Hub Block Diagram...

Page 42: ...er port One LED per port for port link status and downstream unit status 3 One set of unit status LEDs One LED for unit power status labeled POWER One LED for unit status labeled MAIN HUB STATUS 4 One...

Page 43: ...ctors are used throughout the fiber network includ ing fiber distribution panels 3 2 2 Communications RS 232 Serial Connector Remote Monitoring Use a standard serial cable to connect a modem to the 9...

Page 44: ...RAUs A mismatched band causes a fault message to be displayed in AdminBrowser and places the RAU in a disabled condition NOTE Refer to Section 9 3 2 for troubleshooting using the LEDs NOTE AdminBrows...

Page 45: ...ed to power and all power supplies are operating Use AdminBrowser to power status The Main Hub is reporting a fault Green Green 60 ppm The Main Hub is connected to power and all power supplies are ope...

Page 46: ...for contact alarm monitoring labeled ALARMS 5 Ground lug for connecting unit to frame ground labeled GROUND 3 3 1 Fusion Main Hub Rear Panel Connectors 3 3 1 1 9 pin D sub Connector The 9 pin D sub c...

Page 47: ...ls from a repeater local base station or FlexWave Focus system The UPLINK connector transmits uplink RF signals to a repeater local base sta tion or FlexWave Focus system CAUTION The UPLINK and DOWNLI...

Page 48: ...0 mA 40V DC Typical 4 mA 12V DC ADMIN LAN Interface Connector 1 RJ 45 female 1 9 pin D sub male for optional modem Fiber Connectors 4 Pair SC APCb b It is critical to system performance that only SC A...

Page 49: ...warning or status message Faults are service impacting Warnings indicate a possible service impact Status and informational messages are generally not service impacting The Fusion Main Hub periodicall...

Page 50: ...Browser select Alarms J Set Alarm Preference and select the desired choice After you click OK AdminBrowser refreshes and updates the tree view according to the new setting NOTE The setting is strictly...

Page 51: ...he Main Hub Figure 4 1 Expansion Hub in a Fusion System Fusion Expansion Hub Fusion Main Hub RAU Downlink Path The Expansion Hub receives downlink Band1 2 and 3 optical signals from the Main Hub using...

Page 52: ...Expansion Hub Overview 4 2 InterReach Fusion Installation Operation and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D Figure 4 2 Expansion Hub Block Diagram...

Page 53: ...nit status labeled E HUB STATUS 4 One set of fiber connection status LEDs One LED for fiber downlink status labeled DL STATUS One LED for fiber uplink status labeled UL STATUS 5 One fiber optic port w...

Page 54: ...purposes DO NOT CON NECT ANYTHING TO IT Local Monitoring Use a crossover Ethernet cable PN 4069 ADB to directly connect a laptop or PC to the RJ 45 female connector for local monitoring or configurin...

Page 55: ...us and DL UL status LEDs can be in one of the states shown in Table 4 1 These LEDs can be steady green steady red off Table 4 1 Expansion Hub Unit Status and DL UL Status LED States LED State Indicate...

Page 56: ...tate must be checked within the first 90 seconds after power on If initially green then red after 90 seconds it means that there is no communication with the Main Hub If red on power up replace the Ex...

Page 57: ...nector 2 Two air exhaust vents Table 4 2 Fusion Expansion Hub Port LED States LED State Indicates Off The RAU is not connected Green The RAU is connected No faults from the RAU Red 60 PPM The RAU was...

Page 58: ...rReach Fusion Installation Operation and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D 3 One 9 pin D sub female connector for contact alarm monitoring labeled ALARMS 4 Ground lug for connecting un...

Page 59: ...minBrowser Faults are service impacting Warnings indicate a possible service impact Status messages are generally not service impacting through 3 4 4 Faults Warnings and Status Messages Both fault and...

Page 60: ...t you use only recommended CATV 75 Ohm cable with quality F connectors 8 F female CATV 75 Ohm Fiber Connectorsb b It is critical to system performance that only SC APC fiber connectors are used throug...

Page 61: ...and Warnings 5 7 Section 5 5 Remote Access Unit Specifications 5 7 5 1 RAU Overview The Remote Access Unit RAU is an active transceiver that connects to an Expan sion Hub using industry standard CATV...

Page 62: ...0 Ohm coaxial cable Also the RAU receives configuration information from the Fusion Hub using the 75 Ohm CATV cable Uplink Path The RAU receives uplink RF signals from a passive RF antenna using 50 Oh...

Page 63: ...9 1 850 869 894 824 849 1 25 MHz 1900 1930 1990 1850 1910 2 60 MHz 900 1800 FSN 9018 1 900 925 960 880 915 1 35 MHz 1800 1805 1880 1710 1785 2 75 MHz 900 2100 FSN 9021 1 900 925 960 880 915 1 35 MHz 2...

Page 64: ...cable to ensure successful operation Table 5 2 System Gain Loss Relative to CATV Cable Length All RAUs except 800 900 1900 Cable Type Comm Scope Part Number Plenum Rated Solid Copper Conductor Copper...

Page 65: ...to a standard 50 passive antenna using coaxial cable 5 2 2 75 Ohm Type F Connector The RAU has one type F female connector that connects it to a Fusion Hub using CATV 75 Ohm cable Use RG 59 6 or 11 s...

Page 66: ...status LEDs can be in one of the states shown in Table 5 4 These LEDs can be off steady green steady red There is no off state when the unit s power is on Table 5 4 Remote Access Unit LED States LED...

Page 67: ...onnectors that use captive centerpin conductors Refer to Appendix A for more information Table 5 5 Remote Access Unit Specifications Specification Description Dimensions H u W u D 54 mm 286 mm 281 mm...

Page 68: ...Remote Access Unit Specifications 5 8 InterReach Fusion Installation Operation and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D...

Page 69: ...ase Station 6 38 6 1 Overview Designing a Fusion solution is a matter of determining coverage and capacity needs This requires the following steps 1 Determine the wireless service provider s requireme...

Page 70: ...g environment Refer to Section 6 5 Estimating RF Coverage on page 6 14 Determine which areas of the building require coverage entire building public areas parking levels and so on Obtain floor plans t...

Page 71: ...n associated confidence factor when specifying coverage requirements These two fig ures of merit are a function of wireless handset sensitivity and margins for fading and body loss Wireless handset se...

Page 72: ...the number of RF carrier increases the maximum power per carrier decreases If these levels are exceeded signal quality will be degraded and or regulator requirements will be violated The maximum inpu...

Page 73: ...11 5 11 5 11 0 8 0 4 13 5 13 0 10 0 10 0 10 0 6 5 5 12 0 11 5 9 0 9 0 9 0 5 0 6 10 5 10 5 8 5 8 5 8 0 7 9 5 9 5 8 0 8 0 7 5 8 8 5 8 5 7 5 7 5 7 0 9 8 0 8 0 7 0 7 0 10 7 0 7 5 6 5 6 5 11 7 0 7 0 6 5 6...

Page 74: ...0 14 0 18 5 16 5 18 5 16 5 16 5 3 10 5 8 5 15 5 13 5 13 5 11 5 15 0 13 0 15 0 13 0 13 0 4 9 0 7 0 12 5 10 0 11 5 9 5 12 5 10 5 12 5 10 5 10 5 5 8 0 6 0 11 0 9 0 10 0 8 0 10 5 8 5 6 7 0 5 0 9 5 7 5 8 5...

Page 75: ...riers Power per Carrier dBm GSM EDGE 1 16 0 16 0 2 13 0 13 0 3 11 0 11 0 4 10 0 10 0 5 9 0 9 0 6 8 0 8 0 7 7 5 7 5 8 7 0 7 0 9 6 5 6 5 10 6 0 6 0 11 5 5 5 5 12 5 0 5 0 13 5 0 5 0 14 4 5 4 5 15 4 0 4 0...

Page 76: ...Power per Carrier dBm GSM EDGE 1 16 5 16 5 2 14 5 14 5 3 12 5 12 5 4 11 5 11 5 5 10 5 10 5 6 9 5 9 5 7 9 0 9 0 8 8 5 8 0 9 8 0 7 5 10 7 5 7 0 11 7 0 6 5 12 6 5 6 0 13 6 5 6 0 14 6 0 5 5 15 5 5 5 0 16...

Page 77: ...5 13 0 11 0 3 15 0 13 5 13 5 11 0 8 0 4 13 0 12 0 12 0 10 0 6 5 5 11 5 11 0 10 5 9 0 5 0 6 10 5 10 5 9 5 8 0 7 9 5 10 0 9 0 7 5 8 8 5 9 0 8 0 7 0 9 8 0 8 5 7 5 10 7 5 8 0 7 0 11 7 0 7 5 6 5 12 6 5 7...

Page 78: ...ns for dealing with this scenario 1 Design the initial coverage with a maximum power per carrier for four RF carri ers This will likely result in additional RAUs Table 6 5 UMTS Power per Carrier No of...

Page 79: ...n 1 dB increments In addition uplink and downlink gains of each RAU can be indepen dently attenuated by 0 or 10 dB using AdminBrowser The recommended maximum lengths of CATV cable are as follows For R...

Page 80: ...e to ensure successful operation Table 6 7 System Gain Loss Relative to CATV Cable Length All RAUs except 800 900 1900 Cable Type Comm Scope Part Number Plenum Rated Solid Copper Conductor Copper Clad...

Page 81: ...nsure successful operation Table 6 8 System Gain Loss Relative to CATV Cable Length for 800 900 1900 RAUs Cable Type Comm Scope Part Number Plenum Rated Solid Copper Conductor Copper Clad Conductor Ze...

Page 82: ...1 Determining APL between the Antenna and the Wireless Device APL P Lcoax G RSSI 1 where APL the maximum allowable path loss in dB P the power per carrier transmitted by the RAU in dBm Lcoax the coaxi...

Page 83: ...that depends on partition material and geome tries inside the building and is accounted for by the log normal fade margin used in the downlink RSSI design goal calculation As a reference Table 6 10 p...

Page 84: ...simplified to PL d 20log10 4Sf c PLS log10 d 3 Table 6 11 gives the value of the first term of Equation 3 that is 20log10 4Sf c for various frequency bands Table 6 11 Frequency Bands and the Value of...

Page 85: ...per carrier at the RAU output 3 dBi antenna gain RSSI design goal 85 dBm typical for narrowband protocols but not for spread spectrum protocols Table 6 12 Estimated Path Loss Slope for Different In Bu...

Page 86: ...Environment 40 131 Table 6 14 Approximate Radiated Distance from Antenna for 850 MHz Cellular Applications Environment Type Distance from Antenna Meters Feet Open Environment 73 241 Moderately Open E...

Page 87: ...en Environment 70 231 Moderately Open Environment 60 197 Mildly Dense Environment 53 174 Moderately Dense Environment 45 149 Dense Environment 38 125 Table 6 17 Approximate Radiated Distance from Ante...

Page 88: ...eters Feet Open Environment 72 236 Moderately Open Environment 56 183 Mildly Dense Environment 49 160 Moderately Dense Environment 40 132 Dense Environment 29 96 Table 6 19 Approximate Radiated Distan...

Page 89: ...sign goal of 85 dBm is used Suppose 3 dBi omni directional antennas are used in the design Then the maximum RF propa gation loss should be no more than 94 5 dB 6 5 dBm 3 dBi 85 dBm over 95 of the area...

Page 90: ...e fiber and CATV cable distances are as recommended If the dis tances differ use the tables in Section 6 4 System Gain on page 6 11 to deter mine system gains or losses The path loss may need to be re...

Page 91: ...s used Suppose 3 dBi omni directional antennas are used in the design Then the maximum RF propa gation loss should be no more than 94 5 dB 6 5 dBm 3 dBi 85 dBm over 95 of the area being covered It is...

Page 92: ...fiber and Cat 5 5E 6 cable distances are as recommended If the distances differ use the tables in Section 6 4 System Gain on page 6 11 to determine system gains or losses The path loss may need to be...

Page 93: ...portal at adc com for the on line Link Bud get Tool 6 6 1 Elements of a Link Budget for Narrowband Standards The link budget represents a typical calculation that might be used to determine how much...

Page 94: ...oor plus a certain C I ratio Fusion Noise Figure This is Fusion s uplink noise figure which varies depending on the number of Expansion Hubs and RAUs and the frequency band Fusion s uplink noise figur...

Page 95: ...re partially accounted for since it is characterized by relatively slow changes in power level Body Loss This accounts for RF attenuation caused by the user s head and body Minimum Received Signal Lev...

Page 96: ...Downlink Line Downlink Transmitter a BTS transmit power per carrier dBm 33 b Attenuation between BTS and Fusion dB 23 c Power into Fusion dBm 10 d Fusion gain dB 0 e Antenna gain dBi 3 f Radiated powe...

Page 97: ...ttenuation between BTS and Fusion dB 10 c Fusion gain dB 0 d Fusion noise figure dB 1 4 32 22 e System noise figure dB 22 6 f Thermal noise dBm 30 kHz 129 g Required C I ratio dB 12 h Antenna gain dBi...

Page 98: ...example This table assumes that there are 15 active traffic channels operating with 50 voice activity so that the total power adds up to 100 Notice that the pilot and sync chan nels together contribut...

Page 99: ...he spreadsheet both the power per Walsh code channel rep resenting how much signal a mobile will receive on the Walsh code that it is de spreading and the total power are used The channel power is nee...

Page 100: ...ignals appear to be noise Because the noise floor rises as more mobiles try to communicate with a base station the more mobiles there are the more power they have to transmit Hence the noise floor ris...

Page 101: ...e power into Fusion dBm 16 0 g Fusion gain dB 0 0 h Antenna gain dBi 3 0 i Radiated power per channel dBm 12 0 j Composite radiated power dBm 19 0 Airlink k Handoff gain dB 0 0 l Multipath fade margin...

Page 102: ...tion and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D b and c see notes in Table 6 24 regarding power per carrier downlink e a d f c d i e g h j f g h p k l m n o s q r v s t u w j p v x j downli...

Page 103: ...se dBm Hz 174 0 g Noise rise 75 loading dB 6 0 h Receiver interference density dBm Hz 134 6 i Information rate dB Hz 41 6 j Required Eb No lo 5 0 k Handoff gain dB 0 0 l Antenna gain dBi 3 0 m Minimum...

Page 104: ...nd output power requirements for a bi directional amplifier repeater Ensuring that noise radiated on the uplink from the in building system does not cause the outdoor base station to become desensitiz...

Page 105: ...s are taken with these connectors in place The Fusion optical power budget for both multi mode and single mode fiber cable is 3 0 dB optical The maximum loss through the fiber can not exceed 3 dB opti...

Page 106: ...he overall system is limited by Fusion not by the attenuator However some base stations trigger alarms if the noise or signal levels are too high In this case the attenuation must be large enough to p...

Page 107: ...eeds 30 dBm an RF attenuator is activated The level of attenuation is equal to the amount that the input exceeds 30 dBm The fol lowing sequence describes the operation of the ALC circuit as illustrate...

Page 108: ...v ity is reduced and mobile phones in the area of that RAU band will have to trans mit at a higher power This would increase interference to the outdoor network from such mobiles Uplink Attenuation Th...

Page 109: ...r multiple wireless devices in very close proximity to the RAU band Compression causes signal degradation and ultimately dropped calls and data errors and should be prevented Two settings are availabl...

Page 110: ...Connecting a Main Hub to a Base Station 6 42 InterReach Fusion Installation Operation and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D...

Page 111: ...n 7 6 Interfacing the Fusion Main Hub to an RF Source 7 45 Section 7 7 Connecting Contact Alarms to a Fusion System 7 55 Section 7 8 Alarm Monitoring Connectivity Options 7 61 7 1 Installation Require...

Page 112: ...hese cables are widely used industry standards for the cable TV industry The regu lations and guidelines for Fusion cable installation are identical to those specified by the TIA EIA 568 B standard an...

Page 113: ...re no user serviceable parts inside the components Table 7 1 Distance Requirements Equipment Combination Cable Type Cable Length Additional Information Repeater BTS to Fusion Main Hub Coaxial N male c...

Page 114: ...only 1 408 952 2400 International When you connect the fiber optic cable clean all optical fiber SC APC connectors according to the cable manufacturer s instructions When you connect a radiating anten...

Page 115: ...contact with broken fibers they are sharp and can pierce the skin Report any broken fiber cables and have them replaced Cleaning Be sure the connectors are clean and free of dust or oils Use only app...

Page 116: ...Installation location of equipment clearly marked System Design Used to verify frequency bands after installation Power available Fusion Main Hub AC Fusion Expansion Hub AC To RAU DC Fusion Main Hub D...

Page 117: ...PN 4024 3 For contact alarm monitoring of fault and warning alarms Used to feed the alarms from multiple Fusion Main Hubs into a BTS or FlexWave Focus N C Operation Cabling Coaxial repeater base stati...

Page 118: ...connection Distances Fusion Main Hub is within 3 6m 10 20 ft of connecting repeater BTS FlexWave If longer distance determine the loss of the cable used for this connection and adjust the RF signal fo...

Page 119: ...able manager PN 4759 Tie wrap bar PN 4757 Splice trays Pigtails with SC APC connectors 3 m 10 ft Multi mode fiber SC APC pigtail PN 4012SCAPC 10 Single mode fiber SC APC pigtail PN 4013SCAPC 10 Jumper...

Page 120: ...e Fiber Cables to the Main Hub 7 15 Making Power Connections 7 18 Powering On the Main Hub 7 23 Installing Expansion Hubs 7 25 Installing an Expansion Hub in a Rack 7 25 Installing an Expansion Hub Us...

Page 121: ...S 7 53 Connecting Contact Alarms to a Fusion System 7 55 Alarm Source 7 56 Alarm Sense 7 59 Alarm Cables 7 60 Alarm Monitoring Connectivity Options 7 61 Direct Connection 7 61 Modem Connection 7 62 10...

Page 122: ...g threaded holes 2 Place the Hub into the rack from the front 3 Align the flange holes with the spring nuts installed in Step 1 4 Insert the mounting screws in the appropriate positions in the rack 5...

Page 123: ...2 Bracket Detail For Wall Mount Rack PN 4712 To install the Hub to the wall mounted rack 1 Attach the wall bracket PN 4712 to wall the using 10 Pan Head wood screws 1 1 2 minimum length for mounting...

Page 124: ...wood to the wall 2 Mount both of the rack mounting brackets using 10 32 machine screws refer to illustration Figure 7 4 3 Attach the Hub to the wall so the mounting brackets are orientated at the top...

Page 125: ...that the total optical loss of fiber cable from the Main Hub through distribution panels and patch cords to the Expansion Hub does not exceed the optical budget Make sure the fiber cable s connectors...

Page 126: ...nsert the tip into the connector 3 Gently twist the swab to clean the port 4 Insert a dry swab into the port to dry it Additionally you can use compressed air after the alcohol has completely evapo ra...

Page 127: ...is labeled with 1 or 2 1 Connect 1s to UPLINK ports on the Main Hub 2 Connect 2s to DOWNLINK ports on the Main Hub 3 Record which cable number and port number you connected to UPLINK and DOWNLINK This...

Page 128: ...ly UL listed AWM wire rated 600V and 90 degrees C If wires larger than 6AWG are needed from the DC power source follow local codes for reducing the wire size at hub connection point Follow local codes...

Page 129: ...he DC power source installed at your site Color code standards for DC wiring do not exist To ensure that the correct polarity is connected to the hubs confirm the connection of the power cables to the...

Page 130: ...h Fusion Installation Operation and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D 8 Install the clear protective cover with the pan head screws as shown in Figure 7 8 Figure 7 8 Pan Head Screw Loc...

Page 131: ...ly explained WARNING Before connecting power wires be sure the power source is shut off and the power switch of the hubs are in the OFF position Connect the ground wires before connecting the power wi...

Page 132: ...ion and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D Figure 7 11 Grounding Wire Connection Figure 7 12 Power Wires and Studs 3 Install the finish wires using the proper polarity and secure them w...

Page 133: ...e clear protective cover and secure it with the two 8 32 pan head screws supplied with the Hub as shown in Figure 7 14 Figure 7 14 DC Illustration Detail Powering On the Main Hub 1 Connect the AC or D...

Page 134: ...o not use the port Off 2 Main Hub power is On with Expansion Hubs con nected and powered on PORT Off If the port LEDs do not illuminate check the fiber uplink for excessive optical loss If Expansion H...

Page 135: ...ON Install Expansion Hubs in indoor locations only Installing an Expansion Hub in a Rack Consideration The Expansion Hub is shipped with 10 32 mounting screws Another common rack thread is 12 24 Confi...

Page 136: ...50 lbs Figure 7 16 Bracket Detail For Wall Mount Rack PN 4712 To install the hub in a wall mounted rack 1 Attach the equipment rack to the wall using the screws that are provided The rack must be posi...

Page 137: ...Hub directly to the wall 1 Pre install 3 4 plywood to the wall 2 Mount both of the rack mounting brackets using 10 32 machine screws refer to illustration Figure 7 17 3 Attach the Hub to the wall so t...

Page 138: ...all NOTE Leave the dust caps on the fiber ports until you are ready to connect the fiber optic cables Installing an Optional Cable Manager in the Rack Using the screws provided fasten the cable manage...

Page 139: ...et Make sure the fiber cable s connectors are SC APC angle polished Using any other connector type will result in degraded system performance and may damage the equipment You can use an SC APC pigtail...

Page 140: ...d E HUB STATUS LEDs do not turn green green check the Main Hub LEDs See page 7 24 item 2 in Table 7 5 Connecting the 75 Ohm CATV Cables Considerations Verify that the cable has been tested and the tes...

Page 141: ...fault do not use the port UL STATUS Red after power up blink Replace the Expansion Hub The Expansion Hub laser is not operational no uplink between the Expansion Hub and Main Hub UL STATUS Red Check...

Page 142: ...otted mounting holes provided with 6 diameter fasteners This method of mounting must securely hold a minimum of 7 lbs load Attach the RAU securely to a stationary object that is a wall pole or ceiling...

Page 143: ...ds Figure 7 19 800 850 MHz Spectrum Installation of an in building distributed antenna system DAS to provide coverage for both 800 900 MHz iDEN and 850 MHz Cellular must account for these down link to...

Page 144: ...e of the band at 894 MHz may cause the 900 iDEN uplink ALC to engage and thereby reduce uplink gain To prevent either of these conditions use the following guidelines In band 850 Cellular intermodulat...

Page 145: ...ng to the RAU from the label on the cable This information is required for the As Built Document 3 Tie off cables or use the optional cable manager to avoid damaging the connec tors because of cable s...

Page 146: ...ct of adjacent RF sources when performing a System Test This issue is primarily related to using closely spaced omni directional antennas in neutral host installations The equation below provides the...

Page 147: ...ord into an AC power outlet 3 Verify that all cables are properly connected on the Hub 4 Turn on the power to the Hub All LEDs blink through the power up sequence At each port where an RAU is detected...

Page 148: ...ces and select Properties 2 Highlight Internet Protocol TCP IP and click Properties A screen similar to the Figure 7 21 appears Figure 7 21 Internet Protocol TCP IP Properties Window 3 Make note of th...

Page 149: ...7 22 appears Figure 7 22 Local Area Connection Properties Window 2 In the This connection uses the following items scroll down to and select Internet Protocol TCP IP and click Properties 3 Perform st...

Page 150: ...time to take effect 5 Select the Fusion Main Hub and click Install Configure System A screen similar to the Figure 7 24 appears Figure 7 24 AdminBrowser Configuration Window 6 If desired type in a la...

Page 151: ...test the scheduled system test time is updated to the next test time and an event log entry is made 9 Use the scroll bar on the left side of the page to scroll down to view the rest of the page as sh...

Page 152: ...Connect the Main Hub to the RF source for example BTS or BDA Do not exceed the maximum input RF power 1 Watt to the Fusion Main Hub Exceeding the limit could cause permanent damage to the Hub CAUTION...

Page 153: ...plicer is set to the proper mode that is sin gle or multi mode To fusion splice the fiber optic cable to the SC APC pigtail Option A 1 Secure both the fiber cable and the SC APC pigtail in a splice tr...

Page 154: ...yl alcohol and lint free wipes 4 Cleave the unclad fiber to the length prescribed by the fusion splicer s specifica tion sheets 5 Repeat steps 2 through 4 for the SC APC pigtail 6 Pass the splice slee...

Page 155: ...l or ADC authorized installation per sonnel should connect the Fusion Main Hub to a base station or repeater Exceeding the maximum input power could cause failure of the Fusion Main Hub refer to Secti...

Page 156: ...se station 2 Connect the other N male connector or duplexer to a circulator 3 Connect an N male to N male coaxial cable to the DOWNLINK connector on the Hub for Band 1 Band 2 and Band 3 4 Connect the...

Page 157: ...rce Figure 7 27 Duplex Base Station to a Fusion Main Hub N male to N male Coaxial Cable Base Station Duplex T1 E1 to Mobile Switching Center Insert attenuator if needed N male to N male Coaxial Cable...

Page 158: ...ttenuation is required You can use power combiner splitters to connect a Fusion Main Hub RF Band to multiple base stations as shown in Figure 7 28 Figure 7 28 Connecting a Fusion Main Hub to Multiple...

Page 159: ...xial cable to the repeater 6 Connect the other end of the N male to N male coaxial cable to the circulator 1 connector 7 Connect an N male to N male coaxial cable to the circulator 2 connector 8 Conne...

Page 160: ...e power is too high attenuation is required Considerations 2 hybrid power combiner splitters one for uplink and one for downlink 2x1 for two Fusion Main Hubs 3x1 for three 4x1 for four and so on 1 N m...

Page 161: ...ches the Band 1 frequency 3 Check Hub LEDs After connecting and powering on the Hub check all LEDs to ensure that the sys tem is operating properly Make sure the Hub is grounded The warranty does not...

Page 162: ...mper Cable to Repeater or Base Station 2 x 1 Power Combiner Splitter N male to N male Coaxial Jumper Cable to Repeater or Base Station between Combiner Splitter and N male to N male Coaxial Jumper Cab...

Page 163: ...or and the repeater or base station 1 N male to N male coaxial jumper cable between each circulator and power com biner splitter Procedure 1 Connect the circulator to the repeater or base station usin...

Page 164: ...e coaxial jumper cable as shown Figure 7 31 Connecting Two Fusion Main Hub s RF Band Ports to a Duplex Repeater or Base Station N male to N male Coaxial Jumper Cables 2 x 1 Power Combiner Splitter bet...

Page 165: ...em test is not valid Alarm Sense refer to Section 7 7 2 on page 7 59 The Fusion Main Hub can monitor 3 external alarm contacts Each port can be con figured for normally open NO or normally closed NC c...

Page 166: ...tor Fusion When you connect FlexWave Focus to the Fusion the Fusion Main Hub is the output of the alarms alarm source and Focus is the input alarm sense as shown in Figure 7 32 Focus supports only fau...

Page 167: ...n the daisy chain cable and the BTS Because BTS alarm interface pinouts and Fusion to BTS distances vary this cable is often custom and wired on site Refer to Section 3 2 1 for Alarm Contact details N...

Page 168: ...ADC AdminBrowser software in addition to a BTS to monitor the system as shown in Figure 7 34 Refer to Section 7 8 7 for SNMP optional feature capabilities Figure 7 34 Using a BTS and AdminBrowser to M...

Page 169: ...he Unison is the output alarm source as shown in Figure 7 35 The input alarm sense needs to be set to normally closed NC Figure 7 35 Using Fusion to Monitor Unison Unison supports only faults You must...

Page 170: ...ison FlexWave Focus Alarm Port DB 9 male to Fusion Unison FlexWave Focus Alarm Port DB 9 male to Fusion Unison FlexWave Focus Alarm Port DB 9 male to Fusion Unison FlexWave Focus Alarm Port Option 1 D...

Page 171: ...ort Expander Connection 7 71 Section 7 8 4 POTS Line Sharing Switch Connection 7 72 Section 7 8 5 Ethernet RF Modem 7 73 Section 7 8 6 Ethernet LAN Connection 7 74 Section 7 8 7 SNMP Interface 7 75 7...

Page 172: ...for the modem cable wiring informa tion Modem switch settings are as follows for US Robotics modem PC side 1 2 and 6 Up Fusion Hub side 2 and 6 Up 7 8 2 1 Setting Up Fusion Modem USR Modem Using Admin...

Page 173: ...sion Hub 4 Make sure the modem type is None The modem init string is for a USR modem The server address is the IP address of the MH 5 Click Setup Connection 7 8 2 2 Setting Up a PC Modem Using Windows...

Page 174: ...peration and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D Figure 7 41 Network Connections Window 2 Click Create a new connection The window shown in Figure 7 42 appears Figure 7 42 New Connection...

Page 175: ...s Figure 7 43 New Connection Wizard Network Connection Type Window 4 Select Connect to the network at my workplace and click Next The window shown in Figure 7 44 appears Figure 7 44 New Connection Wiz...

Page 176: ...620610 0 20 Rev D Figure 7 45 New Connection Wizard Connection Name Window 6 Type a name for this connection and click Next The window shown in Figure 7 46 appears Figure 7 46 New Connection Wizard Ph...

Page 177: ...ing Connectivity Options Figure 7 47 New Connection Wizard Connection Availability Window 8 Select Anyone s use and click Next The window shown in Figure 7 48 appears Figure 7 48 New Connection Wizard...

Page 178: ...v D Figure 7 49 Connect Fusion Hub Window 10 Type a password as indicated and click Properties The window shown in Figure 7 50 appears The default parameters are as follows User name ppp_user Password...

Page 179: ...Modem Configuration Window 12 Select the modem speed and other parameters for your modem as desired and click OK 13 Select the Security tab The window shown in Figure 7 52 appears Figure 7 52 Fusion H...

Page 180: ...nternet Protocol TCP IP as shown and click Properties The window shown in Figure 7 54 appears Figure 7 54 Internet Protocol Properties Window 16 Select Obtain an IP address automatically and Obtain DN...

Page 181: ...to allow the connection of multiple devices to a single PC with a 100 BASE T port Testing was performed with a Link sys 4 port switch Each Fusion MH must have a unique IP address Figure 7 55 OA M Con...

Page 182: ...ng switch you can connect two or more modems to a single tele phone line Figure 7 56 OA M Connection Using a POTS Line Sharing Switch Modem PSTN Line Sharing Switch Up to 4 modems per Switch Modem Mod...

Page 183: ...rt Port Address Translation are best Modem PSTN Line Sharing Switch Line Sharing Switch Line Sharing Switch Line Sharing Switch Line Sharing Switch M o d e m M o d e m M o d e m M o d e m M o d e m M...

Page 184: ...8 6 Ethernet LAN Connection An Ethernet LAN connection can be used to communicate between the PC and Fusion Testing was performed with an Linksys 4 port LAN switch Figure 7 58 OA M Connection Using Et...

Page 185: ...rnings can also be diagnosed with SNMP using a standard NMS net work management system optional SNMP resident software in Fusion provides SNMP interactions for Traps and Notification The Fusion SNMP i...

Page 186: ...Alarm Monitoring Connectivity Options 7 76 InterReach Fusion Installation Operation and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D...

Page 187: ...g an RAU 1 Using AdminBrowser log in and click SYSTEM INFORMATION 2 Click SHOW SYSTEM TREE select Fusion Main Hub and click GET SYSTEM INFOR MATION All system settings for Hubs and RAUs will be displa...

Page 188: ...do not blink on power up replace the RAU 2 After several seconds both LEDs should change to green which indicates that the unit has been successfully replaced there is communication with the Hub and t...

Page 189: ...to perform System Test in order to optimize performance During System Test the entire system is temporarily off line and no RF is being transmitted For a fully loaded system one Main Hub four Expansi...

Page 190: ...ct the AC power cord and all cables 6 Connect the crossover Ethernet cable to the PC and then to the Main Hub s front panel 100Base T connector ADMIN LAN port 7 Start the standard browser on the PC to...

Page 191: ...g the Main Hub s LEDs The LEDs should blink through a 5 second test on power up If the LEDs do not blink on power up replace the Main Hub If the LEDs do not illuminate at all make sure the AC power ca...

Page 192: ...Replacing a Fusion Main Hub 8 6 InterReach Fusion Installation Operation and Reference Manual CONFIDENTIAL D x620610 0 20 Rev D...

Page 193: ...leshooting CATV 9 10 Section 9 5 Technical Assistance 9 10 9 1 Service There are no user serviceable parts in any of the Fusion components Faulty or failed components are fully replaceable through ADC...

Page 194: ...can level during use If using isopropyl alcohol and foam tipped swab Use only 98 pure or more alcohol Procedure using compressed air 1 Remove the connector s dust cap 2 Spray the compressed air away...

Page 195: ...All CATV 75 Ohm cable should be tested to TIA 570 B specifications The RAU will be damaged if the cable connector is not installed properly You must use AdminBrowser for troubleshooting the system use...

Page 196: ...of the system depending upon View Preferences for all components Faults usually impact service warnings may impact service status messages contain information that should not be ignored but indicate c...

Page 197: ...Resolve all faults first and then check the warnings Take appropriate action to resolve the faults as indicated in the following tables In cases where there is more than one possible cause they are l...

Page 198: ...Expansion Hub was previously connected but it is not currently con nected the Expansion Hub uplink cable disconnected AdminBrowser clears all disconnects caused by installation as part of the clean u...

Page 199: ...one time If the fault remains replace the Main Hub Internal Main Hub fault Use AdminBrowser to check if the Main Hub is commanded Out of Service every Expansion Hub port status LED will be red as well...

Page 200: ...nd has band pro grammed Use AdminBrowser s Clear All Disconnect Status command if you are permanently removing the RAU from service The Expansion Hub s port LEDs should change to Off Off The RAU was p...

Page 201: ...ptical loss Power cycle Expansion Hub one time to check uplink laser No communications between the Main Hub and the Expansion Hub Uplink laser failure DL STATUS Red Check the downlink fiber for opti c...

Page 202: ...customer service representative will contact you with assis tance Company name End user name Type of system model number frequency Approximate time in service warranty sales order number Description o...

Page 203: ...ion and status information Use 75 Ohm type F connectors with captive centerpins Lengths RG 59 Minimum 0 meters 0 ft Maximum 150 meters 492 ft RG 6 Minimum 0 meters 0 ft Maximum 170 meters 558 ft RG 11...

Page 204: ...A 2 InterReach Fusion Installation Operation and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D Figure A 1 CommScope 2065V for RG 59...

Page 205: ...Help Hot Line U S only 1 800 530 9960 A 3 D 620610 0 20 Rev D CONFIDENTIAL Figure A 2 CommScope 2279V for RG 6...

Page 206: ...tallation Operation and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D Figure A 3 CommScope 2293K for RG 11 NOTE ADC requires solid copper center conductor CATV cable for proper DC voltage to the R...

Page 207: ...F connector FP C55A Crimp Tool TC 1 Crimp Die TCD 35CA Cable Strip preparation tool TS100E CommScope cable part number 2293V Canare part number F connector FP C71A Crimp Tool TC 1 Crimp Die TCD 7CA C...

Page 208: ...nsure successful operation Table A 1 System Gain Loss Relative to CATV Cable Length All RAUs except 800 900 1900 Cable Type Comm Scope Part Number Plenum Rated Solid Copper Conductor Copper Clad Condu...

Page 209: ...n Use industry standard 62 5 m 125 m MMF or Corning SMF 28 fiber or equiva lent SC APC angle polished connectors are required throughout the fiber network port to port including fiber distribution pan...

Page 210: ...20 Rev D Distances Multi mode Fiber up to 500 m 1 640 ft 3 dB optical loss maximum Single mode Fiber up to 6 km 19 685 ft 3 dB optical loss maximum A 3 Coaxial Cable Connects a Fusion Hub to a repeate...

Page 211: ...0 0 20 Rev D CONFIDENTIAL A 4 Standard Modem Cable This cable PN 4028 10 connects a modem to the Fusion Hub s front panel serial port Figure A 1 Standard Modem Cable Pinout DB 9 Connector Pin DB 25 Co...

Page 212: ...AdminBrowser with a Fusion Hub A cable is included with the Fusion Hub The pinouts for this cable are illustrated in Figure A 2 Figure A 2 Wiring Map for TCP IP Cable 1 2 3 4 5 6 7 8 Brown Brown White...

Page 213: ...of its wiring Figure A 3 DB 9 Female to DB 9 Female Null Modem Cable Diagram Table A 3 DB 9 Female to DB 9 Female Null Modem Cable Pinout From Signal To Signal P1 4 DTR P2 6 P2 1 DSR DCD P1 6 DSR P1 1...

Page 214: ...A 12 InterReach Fusion Installation Operation and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D...

Page 215: ...d Edition and IEC 60950 1 1st Edition with all national deviations EMC FCC part 15 class A Radio FCC Part 90 850 Cellular Products Safety UL CSA CB Scheme certificate to IEC 60950 3rd Edition and IEC...

Page 216: ...ational deviations EMC FCC part 15 class A Radio FCC part 24 2100 UMTS Products Safety UL CSA CB Scheme certificate to IEC 60950 3rd Edition and IEC 60950 1 1st Edition with all national deviations EM...

Page 217: ...be required to correct the interference at his own expense B 2 Human Exposure to RF The U S Federal Communications Commission FCC has developed guidelines for evaluation of human exposure to RF emiss...

Page 218: ...ent Isotropi cally Radiated Power is the product of power output of device and antenna gain in mW R is the distance of interest from the antenna Typical Installation Example Assuming an antenna is pla...

Page 219: ...ontain messages for all versions of firmware but all messages are not displayed by a given firmware version C 1 Faults Reported by Main Hubs Faults indicate service impacting conditions and should be...

Page 220: ...place the Hub MF14 Hardware failure 54 VDC 54 VDC power supply is out of range replace the Hub MF15 Hardware failure RF VDC Power Loss of DC power to RF circuits replace the Hub MF16 Self Lockout All...

Page 221: ...8 Problem detected in the Hub Contact ADC Support for more information MD129 Port 1 Disconnected Unit is disconnected MD130 Port 2 Disconnected Unit is disconnected MD131 Port 3 Disconnected Unit is d...

Page 222: ...information MF163 Problem detected in the Hub Contact ADC Support for more information MF164 Problem detected in the Hub Contact ADC Support for more information MF165 Problem detected in the Hub Con...

Page 223: ...ing System CPU rebooted SF16 Problem detected in the System CPU Contact ADC Support for more information SF17 Problem detected in the System CPU Contact ADC Support for more information SF18 Problem d...

Page 224: ...he Hub EF11 Hardware failure 54 VDC 54 VDC power supply is out of range replace the Hub EF12 Problem detected in the EH Contact ADC Support for more information EF13 Band not programmed Cycle power on...

Page 225: ...pport for more information EF38 Problem detected in the EH Contact ADC Support for more information EF39 Problem detected in the EH Contact ADC Support for more information EF40 Problem detected in th...

Page 226: ...AU problem ET150 Port 6 Cable Fault Possible electrical short in the coaxial cable or an RAU problem ET151 Port 7 Cable Fault Possible electrical short in the coaxial cable or an RAU problem ET152 Por...

Page 227: ...ault persists replace the RAU RF15 Hardware Failure UL PLL Band 2 Cycle power once If the fault persists replace the RAU RF16 Hardware Failure UL PLL Band 3 Cycle power once If the fault persists repl...

Page 228: ...tion Operation and Maintenance Manual Status Messages Status messages alert you to conditions that are important but generally do not impact service Status messages alert you to conditions that are im...

Page 229: ...optical Port 1 Check the uplink fiber M14 S Low input optical Port 2 Check the uplink fiber M15 S Low input optical Port 3 Check the uplink fiber M16 S Low input optical Port 4 Check the uplink fiber...

Page 230: ...gain is low M46 W Port 6 No DL test tone Band 1 Hub Port DL path gain is low M47 W Port 7 No DL test tone Band 1 Hub Port DL path gain is low M48 W Port 8 No DL test tone Band 1 Hub Port DL path gain...

Page 231: ...on more than one port replace the Hub Switch the cable connection to a different hub port until the Hub can be replaced M84 W Port 4 DL path loss is high If the problem is on more than one port repla...

Page 232: ...h exceeds maximum gain If the problem is common to more than one port replace the Hub otherwise check the RAU M100 W Port 2 UL path exceeds maximum gain If the problem is common to more than one port...

Page 233: ...upport for more information S06 S Loaded default etb file Contact ADC Support for more information S07 S Loaded default SBC status file Contact ADC Support for more information S08 S Problem detected...

Page 234: ...er out of range replace the Hub E16 W 12 VDC Monitor DC power out of range replace the Hub E17 W Temperature High Reduce the ambient temperature check for air flow blockage fan rotation E18 W DL path...

Page 235: ...on to a different hub port until the Hub can be replaced E51 W Port 3 DL path loss is high If the problem is on more than one port replace the Hub Switch the cable connection to a different hub port u...

Page 236: ...xi mum gain If the problem is common to more than one port replace the Hub otherwise check RAU E67 W Port 3 UL path exceeds maxi mum gain If the problem is common to more than one port replace the Hub...

Page 237: ...erent hub port If the problem persists replace the RAU R05 S DL RF path problem Band 1 Unable to complete the DL system end to end test replace the RAU when possible R06 S DL RF path problem Band 2 Un...

Page 238: ...C 20 InterReach Fusion Installation Operation and Reference Manual CONFIDENTIAL D 620610 0 20 Rev D...

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