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Department: RF Engineering and Optimization Document Owner: Koen Annaert

Revision: 1.0 Author: Eric Noordanus

Document status: Technical Filename: Design Configuration.docx

Confidentiality Status: Confidential Copyright 2011 KPN Group Belgium nv/sa

Neerveldstraat 105rue Neerveld1200 Brussel Bruxelles

RADIO DESIGNCONFIGURATIONS

Revision: 1.0

KPN Group Belgium ICT

Document type: TechnicalLast modified: 3/01/2011 17:21

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Radio Design configurations Page: 2 of 25

Date: 4 January 2011



Document status: draft Filename: Design Configuration.docx

Confidentiality Status: Confidential Copyright 2011 KPN Group Belgium

Management Summary

ObjectiveTo provide an overview of the radio configurations available for the RF site design

ScopeOnly the diagrams of the radio configurations are provided here.

DefinitionsA radio configuration is specific method set-up of materials and wiring of a certain radio basestation cabinet or Node-B defining the cabinet certain radio specifications as described by thevendor of the equipment. Each different recognized set-up is assigned a certain identifier to easereference.

ResponsibilitiesIt is the responsibility of all line managers and team leaders to ensure that the content of thisdocument is implemented and applied to daily documenting of KPN Group Belgium ICT business

processes.

Document release history

Version ReleaseDate

Resp. Comments/Modifications

1.0 3/1/2011 Eric Noordanus First release

Table 1: Document release history

Document Distribution/mailing listManager ICTManager RF Engineering and OptimizationAlcatel-Lucent

Table 2: Distribution/mailing list

Document approval By signing this document, the below signatories give their approval of this document for use inpractise.

Name Title Date Signature

Table 3: Document Approval


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Table of contents Page

1 Document Content .................................................................................... 5

2 2G Configuration overview ......................................................................... 5

2.1

2G macro cell configurations comments ....................................................... 7

2.1.1 2x06 configurations and dTRU/CDU module population .................................. 7 2.1.2 Configurations F-D6 & F-D12 ...................................................................... 7 2.1.3 Configuration Gc-D8 .................................................................................. 7 2.1.4 Configuration Gc-D12 ................................................................................ 8

2.1.4.1 Configuration 8 ................................................................................ 8 2.1.5 Configuration Gu-E2, Gc-E4, Gu-D2 and Gc-D4 ............................................. 8 2.1.6 Old feeder/antenna sharing configuration indications ..................................... 8

2.2 Using Omni antennas for on air combining (indoor & microcells) ..................... 9 2.3 Mixing configurations in RBS2000 cabinets ................................................... 9

2.3.1 Reducing the capacity of 2x02 configurations ................................................ 9 2.3.2 Dual band cabinets .................................................................................... 9

2.3.2.1 2x02 dual-band cabinets ................................................................... 9

3 3G configurations ..................................................................................... 10 3.1 RBS configuration drawings E-GSM 2x02, 2x06 and 2116 Macro cells ............. 11 3.2 RBS configuration drawings DCS 2x02 Macro cells ........................................ 12 3.3 RBS configuration drawings DCS 2x06 macro cells ....................................... 15 3.4 RBS configuration drawings for UMTS macro cells ......................................... 17 3.5 RBS configuration drawings 2109 macro and micro cells ............................... 18

3.5.1 RBS 2109 E-GSM configurations ................................................................. 18 3.5.2 RBS 2109 DCS configurations .................................................................... 19

3.6 RBS configuration drawings 2302 micro cells ............................................... 20 3.7 RBS configuration drawings 2308 micro cells ............................................... 21 3.8 RBS configuration drawings 2308 + 2302 mixed cabinet DCS micro cells ........ 22

3.9

RBS configurations drawings UMTS microcell & indoor distribution network cells23

3.10 RBS configuration drawings for E-GSM using dual band TMA .......................... 23 3.11 RBS configuration drawings DCS 2x06 indoor coverage cells .......................... 24

Appendix A: References ....................................................................................... 25

Appendix B: Abbreviations and Acronyms .............................................................. 25

List of Tables Page

TABLE 1: DOCUMENT RELEASE HISTORY ............................................................................ 2TABLE 2: DISTRIBUTION / MAILING LIST ............................................................................. 2TABLE 3: DOCUMENT APPROVAL ..................................................................................... 2TABLE 4: CONFIGURATION STATUS DESCRIPTION ................................................................. 5TABLE 5: INDOOR AND OUTDOOR 2G CABINET TYPES ............................................................ 5TABLE 6: CONFIGURATION OVERVIEW , STATUS AND TYPICAL OUTPUT POWER DCS .......................... 6TABLE 7: CONFIGURATION OVERVIEW , STATUS AND TYPICAL OUTPUT POWER E-GSM ....................... 7TABLE 8: NAMING CONVENTION E-GSM / DCS SHARING : NOT NEEDED ANYMORE .................... 8TABLE 9: CONFIGURATION MIGRATIONS ............................................................................ 9

List of Figures Page

FIGURE 1: 2 X02 DUAL BAND CABINET LAYOUT

................................................................... 10


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List of Configurations Page

CONFIGURATION 1 11C+-E2 & C+-E4 ...............................................................................CONFIGURATION 2 11GU-E2 & GC-E4 ................................................................................CONFIGURATION 3 11DC-E4 ............................................................................................CONFIGURATION 4 121 ...................................................................................................CONFIGURATION 5 122 ...................................................................................................CONFIGURATION 6 123 ...................................................................................................CONFIGURATION 7 134 ...................................................................................................CONFIGURATION 8 136 ...................................................................................................CONFIGURATION 9 137 ...................................................................................................CONFIGURATION 10 148 ..................................................................................................CONFIGURATION 11 148 DIV ..............................................................................................CONFIGURATION 12 1410 ................................................................................................CONFIGURATION 13 15GU-D2 ...........................................................................................CONFIGURATION 14 15GC-D4 ...........................................................................................CONFIGURATION 15 15GC-D8 ...........................................................................................CONFIGURATION 16 16GC-D12 .........................................................................................CONFIGURATION 17 16F-D6 .............................................................................................CONFIGURATION 18 16F-D12 ...........................................................................................CONFIGURATION 19 17UMTS ............................................................................................CONFIGURATION 20 18TU-E2 ............................................................................................CONFIGURATION 21 18TC-E2 ............................................................................................CONFIGURATION 22 19TU-D2 ...........................................................................................CONFIGURATION 23 19TU-D4 ...........................................................................................CONFIGURATION 24 19TC-D2 ...........................................................................................CONFIGURATION 25 19TC-D4 ...........................................................................................CONFIGURATION 26 19TC-D6 ...........................................................................................CONFIGURATION 27 20MUC-D1 .........................................................................................CONFIGURATION 28 20MUC-D2 .........................................................................................CONFIGURATION 29 20MUC-D4 .........................................................................................CONFIGURATION 30 20MC-D2 ...........................................................................................CONFIGURATION 31 20MC-D4 ...........................................................................................CONFIGURATION 32 21NU-D4 ...........................................................................................CONFIGURATION 33 21NU-D8 ...........................................................................................CONFIGURATION 34 21NU-D12 .........................................................................................CONFIGURATION 35 21NC-D4 ...........................................................................................CONFIGURATION 36 21NC-D8 ...........................................................................................CONFIGURATION 37 22NMU-D6 .........................................................................................CONFIGURATION 38 22NMC-D6 .........................................................................................

CONFIGURATION39

23GUI -E2 OR GCI -E4 ............................................................................CONFIGURATION 40 24GCI -D4 ..........................................................................................CONFIGURATION 41 24GCI -D8 ..........................................................................................


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1 Document ContentIn this document the diagrams of the radio cabinet configurations are provided with theircurrent status and their typical radio power output.This document provides only high-level radio planning information. For details like feeder

labelling the general design guide and the engineering version of this document can bechecked. For other details (like cabinet wiring and configuring) the relevant vendorinformation is referred to.

2 2G Configuration overviewSome information related to the tables below:

Status DescriptionDesign To be used for new installations.Active Configuration changes which require no new/refurbished or additional cabinet to

be installed, are allowed.Phase out Replace cabinet when configuration change is required. Use design configuration.

Table 4: Configuration status description Loss values in Table 6 and Table 7 above are approximate, typical values. For more

precise estimations on the output power and loss to be expected from a configuration thefeeder loss tool should be used. This applies also to losses related to feeder sharing. Theseare not taken into account here. The document Feeder loss data in Asset describes howthe cell specific values are calculated and registered in Asset.

For microcells and especially indoor coverage networks there is no typical feeder loss. It ispossible however to describe the coupler related losses for these. The antenna plan andoutput power for indoor coverage networks should be designed using the indoor planningguidelines.

Micro cell and indoor configurations are typically set to low output powers based on thesignal levels required in the area and radiation limitation requirements.

The values to be used in the BIPT calculations can be found in the manual of the tool. Cabinet amounts are based on 3 sector configurations using same configuration. TRU capacities are based on fully occupied TRU positions. For multi-purpose configurations the cabinet amounts and values for the most commonly

used application have been used in the table. Use the feeder loss tool to be sure.

CabinetIndoor 2206/2206V2 2202 2109 2302 2308Outdoor 2106/2206V3 2102V3-V5 2109 2116 2302 2308Capacity/cabinet 2+2+2/4+4+4 2+2+2 2 4+4+4 2 4CDU G or F A or C+ T - M NRemark E-GSM only DCS only DCS only

Table 5: Indoor and outdoor 2G cabinet types

The different versions of some of the cabinets have no RF consequences. For engineering andother consequences the vendor documentation is referred to.


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B a n

d

C a

b i n e

t

t y p e

A m o u n

t

C o n

f i g -

u r a

t i o n

T R U

C a p a c i

t y

C o m

b i n e r

O u

t p u

t

p o w e r

( d B m

)

J u m p e r +

T M A +

d u p

l e x

l o s s

T y p

i c a

l

F e e

d e r

l o s s

T y p

i c a

l

a n

t e n n a

c o n n e c t o r

p o w e r

( d B m

) 1

U s a g e

S t a t u s

A p p

l i c a

t i o n

D C S

2102/2202 2 1 4 CDU-A 43,5 2,1 2,4 39 Active Macro2102/2202 2 2 4 CDU-C+ 40 0,6 2,4 37 Active Macro

2102/2202 2 3 4 CDU-C+ 40 0,6 2,4 37 Active Macro

2102/2202 1 4 2 CDU-A 43,5 0,6 2,4 40,5 Active Macro

2102/2202 1 5 2 CDU-A 43,5 2,1 2,4 39 Active Macro

2102/2202 1 6 2 CDU-A 43,5 2,1 2,4 39 Active Macro

2102/2202 3 7 6 CDU-C+ 40 0,6 2,4 37 Active Macro

2102/2202 1 8 2 CDU-C+ 40 0,6 2,4 37 Design Indoor

2102/2202 1 8DIV 2 CDU-C+ 40 0,6 2,4 37 Active Macro

2302 3 10 2 Maxite 57 0 0 57 Phase out Macro

2106/2206 2 F-D6 6 CDU-F 40,5 1,1 2,4 37 Design Macro

2106/2206 3 F-D12 12 CDU-F 40,5 1,1 2,4 37 Design Macro 2106/2206 1 Gu-D2 2 CDU-Gu 44,5 1,1 2,4 41 Design Macro 2106/2206 1 Gc-D4 4 CDU-Gc 41 1,1 2,4 37,5 Design Macro 2106/2206 2 Gc-D8 8 CDU-Gc 41 1,1 2,4 37,5 Design Macro 2106/2206 3 Gc-D12 12 CDU-Gc 41 1,1 2,4 37,5 Active Macro

2106/2206 1 Gci-D4 2 4 CDU-Gc N/A 7,2 N/A N/A Design Macro/indoor

2106/2206 2 Gci-D8 3 8 CDU-Gc N/A 7,2 N/A N/A Design Macro/indoor

2302 1 Muc-D1 2 No 33 0,5 1,5 31 Phase out Micro/indoor



2302 1 Mc-D2 2 Coupler 33 4,5 1,5 27 Phase out Micro/indoor

2302 2 Mc-D4 4 Coupler 33 8 4 1,5 23,5 Phase out1 Micro/indoor

2109 1 Tu-D2 2 No 41 0,52 1,5 39 5 Active Macro/micro 2109 2 Tu-D4 4 No 41 0,52 1,5 39 Active2 Macro/micro 2109 1 Tc-D2 2 Coupler 41 4,52 1,5 35 Active2 Micro/indoor

2109 2 Tc-D4 4 Coupler 41 82 1,51 31,5 Active21 Micro/indoor

2109 3 Tc-D6 6 Coupler 41 11,52 1,51 28 Active1 Micro/indoor

2308 1 Nu-D4 4 No 33,5 0,5 1,5 31,5 Design Micro/indoor

2308 2 Nu-D8 8 No 33,5 0,5 1,5 31,5 Design Micro/indoor2308 3 Nu-D12 12 No 33,5 0,5 1,5 31,5 Design Micro/indoor2308 1 Nc-D4 4 Coupler 33,5 4,5 1,5 27,5 Design Micro/indoor

2308 2 Nc-D8 8 Coupler 33,5 8 1,5 24 Design Micro/indoor2308+2302 2 Nmu-D6 6 No 33 0,5 1,5 31 Active Micro/indoor2308+2302 2 Nmc-D6 6 Coupler 33 4,5 1,5 27 Active Micro/indoor

Table 6: Configuration overview, status and typical output power DCS

1 For the typical antenna connector power, these values can be expected 2 This configuration can be used for feeder sharing with dual band TMA or for distributed antenna networks.3 This configuration has double capacity of Gci-D4, otherwise same.4 This is when an can be used in conjunction with feeder sharing with dual band TMA or used for distributed antenna networks. omni isapplied for a cell. If a cross-polar antenna is used (saves 1 coupler) the loss is 3,5dB less and the output power therefore3,5 dB higher.5 If this configuration is used for microcell or indoor application apply for situation applicable output power .


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B a n

d

C a

b i n e

t

t y p e

A m o u n

t

C o n

f i g -

u r a

t i o n

T R U

C a p a c i

t y

C o m

b i n e r

O u

t p u

t

p o w e r

( d B m

)

J u m p e r +

T M A +

d u p

l e x

l o s s

T y p

i c a

l

F e e

d e r

l o s s

T y p

i c a

l

a n

t e n n a

c o n n e c t o r

p o w e r

( d B m

) 6

U s a g e

S t a t u s

A p p

l i c a

t i o n

E - G

S M

2102/2202 1 C+-E2 2 CDU-C+ 40,5 0,4 1,9 38,2 Active Macro 2102/2202 1 C+-E4 4 CDU-C+ 40,5 0,4 1,9 38,2 Active Macro

2116 1 Dc-E4 4 DRU 42,5 1,4 1,9 39,2 Design Macro

2106/2206 1 Gu-E2 2 CDU-Gu 45,5 1,4 1,9 42,2 Design Macro 2106/2206 1 Gc-E4 4 CDU-Gc 42 1,4 1,9 38,7 Design Macro 2106/2206 1 Gui-E2 2 CDU-Gu 45,5 0,4 1,9 43,2 Design Macro/indoor 2106/2206 1 Gci-E4 4 CDU-Gc 42 0,4 1,9 39,7 Design Macro/indoor

2109 1 Tu-E2 2 No 43 0,5 1 41,5 Active Macro/micro 2109 1 Tc-E2 2 Coupler 43 4,5 1 37,5 Active Macro/micro

Table 7: Configuration overview, status and typical output power E-GSM

2.1 2G macro cell configurations comments2.1.1 2x06 configurations and dTRU/CDU module population

The 2x06 cabinet uses dTRU (double TRU, 2 TRU in one module).When 2+2+2 capacity is needed, the capacity is to be realized using 3 dTRUs (1 per sector).Only if more dTRU installed is requested by RF BASE, these amounts are to be kept in thecabinet. All surplus materials are to be brought back to the warehouse (including relatedcables!).CDU-G allows for baseband hopping and synthesized frequency hopping. CDU-F only allowsbaseband hopping. CDU-G and CDU-F cannot be mixed in a cabinet or between sectors!CDU should never be removed from a cabinet, even when less than 3 sectors are deployed in

a cabinet.2.1.2 Configurations F-D6 & F-D12

2 sectors of F-D6 fit in a 2x06 cabinet. F-D12 uses one cabinet. Internal cabinet contents(units & wiring) of 2xF-D6 and F-D12 are exactly the same. The IDB (cabinet installation database) determines if the cabinet performs as a 2 or a 1 sector cabinet.F-D12: This configuration is needed when more than 8 TRU are required or only 1 sectorrequires more than 6 TRU and the other sectors need only 6 TRU or less (2xF-D6+F-D12).Sectors do not need to be installed in consecutive order (2xF-D6+F-D12 can be used as6+12+6 for example).

2.1.3 Configuration Gc-D8

This configuration is preferred when all sectors need less than 9 TRU and on more than 1sector more than 6 TRU is required (otherwise use 2xF-D6+1xF-D12).The cabinet build-up should have the total capacity needed for a site shared between the two2x06 cabinets in a way all antenna sections of each cell remain in active use (and if separateantennas are used, also space diversity) if possible (so not for sectors needing only 1dTRU).The 2nd cabinet is filled up first to increase the efficiency of the E1 use for Transmission inthe 1st cabinet where also EDGE is activated.

4+4+6 capacity this way results in 1+1+1 dTRU in the 1 st cabinet and 1+1+2 in the 2 nd

4+6+5 capacity 1+1+1 dTRU in cabinet 1 and 1+2+2 in cabinet two..

7+6+7 capacity 2+1+2 dTRU in cabinet 1 and 2+2+2 in cabinet two.

6 For the typical antenna connector power (assuming typical feeder length), these values can be expected


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2.1.4 Configuration Gc-D12

This configuration is superseded by F-D12.It is arranged by one 2x06 cabinet per sector and 3 antennas per sector. As all TRUS in eachsector are located within one cabinet, baseband hopping spanning all TRUs becomes possible.This requires also that all dTRUs used are EDGE compatible as well! (otherwise still different

chgr2.1.4.1 Configuration 8

This solution is still used for indoor coverage networks and usage is only for this purposeallowed.

2.1.5 Configuration Gu-E2, Gc-E4, Gu-D2 and Gc-D4

Increasing capacity for this configuration to Gc-E4 or Gc-D4 has output power consequences(see Table 7) , which need to be considered. The estimated amount of customers effected bycongestion should be more than the amount of customers effected by the reduction of outputpower caused from this cabinet upgrade. AMR can be an alternative solution.An upgrade using DCS to off-load the traffic of the E-GSM layer (or E-GSM added to DCS)might also provide a solution, but the extra delay and investment needs to be acceptable.

If a 2x06 cabinet is to be reduced from Gc-E4/Gc-D4 to less capacity, in general the capacityis simply reduced to 1 dTRU, thus keeping the same output power. Only if more output poweris needed for a site, shown by Timing Advance or comparable analysis, the configurationshould be changed into Gu-E2. Gc-E4 to Gu-E2 changes should only be done when needed,because not only coverage increases, but also the interference. The same applies with thereduction from Gc-D4 to Gu-D2.

Gc-E4 and Gu-E2 CAN be mixed in a cabinet (on different sectors), but E-GSM and DCScannot!

2.1.6 Old feeder/antenna sharing configuration indications

In the past sharing of feeders and/or antennas was indicated with a figure between brackets.As this is also visible in the BSDS from the presence of a dual band combiner, and antennasharing can be recognized from the antenna type, this additional indicator is not needed fornew configurations. It is however shown below to explain the meaning when found onexisting site documentation.

The X in the flowchart below indicates an arbitrary DCS configuration type, found on the nextpages for standard configurations. The number between brackets is the possible E-GSMconfiguration:

X(1): Extra E-GSM antenna possible, no extra feeders possibleX(2): No extra E-GSM antenna possible, but extra feeders are possible

X(3): No extra E-GSM antenna or feeders possible

Translated into a table:

Antennas FeedersNo No C+-E2 / E(3)No Yes X(1)Yes No X(2)Yes Yes X(3) S

h a r i n g

Table 8: Naming convention E-GSM / DCS sharing: NOT NEEDED ANYMORE


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For example, if a DCS site with configuration 6 is extended with E-GSM and there are noextra antennas or cables possible and the DCS antennas have 65 opening angle, thanconfiguration 6(3) was usedThe exception is X(4), which in fact is only the configuration 4(4) with the DCS spacediversity antenna exchanged for a single-band E-GSM antenna.This way a 4(4) for E-GSM the DCS sector is actually reconfigured to 6, resulting in a 4/6/4configuration for that site. To be able to recognize what has happened on that site indatabases, the E-GSM configuration is labeled as being 4(4) and DCS to 6.

The separately build E-GSM site was called configuration E(3) because this configurationstrongly resembles to the DCS configuration 3, although the E-GSM version deploys onecabinet instead of the two required by the DCS version. This configuration should now becalled C+-E2.

2.2 Using Omni antennas for on air combining (indoor & microcells)The distance requirement for on-air combining using Omni antennas is that these areinstalled not more than 100cm apart but also not less than 40cm (so the antennas do not

influence each others pattern) and with the same free view.

2.3 Mixing configurations in RBS2000 cabinets2.3.1 Reducing the capacity of 2x02 configurations

ConfigurationCurrent New DCS equipment changes

1 4 Existing D/DTMA used instead of DTMA (see alsobelow)

2 5 D/DTMA and duplexers installed3 6 D/DTMA and duplexers installed

Table 9: Configuration migrations

DO NOT MIX IN ONE CABINET CDU-A AND CDU-C+ IF THEYRE BOTH FOR DCS!

D/DTMAs from a configuration 1 do not need to be replaced for DTMAs when migrating fromconfiguration 1 to configuration 4. 2 D/DTMA per sectors can be brought back to stock.When a formerly configuration 1 site is to be upgraded with E-GSM and extra antennas arenot possible, then the site can be reconfigured to a configuration 6.

The remaining cabinet can be configured as a Master 2x02 E-GSM or replaced with a 2x06 E-GSM.

2.3.2 Dual band cabinets

This has been used in the past, but is not allowed for new installations or upgrades. Full threesector E-GSM configurations should be used whenever three E-GSM compatible antennas canbe installed (This is applicable to RBS 2x02 & 2x06).

2.3.2.1 2x02 dual-band cabinets2x02 dual band cabinets have been used in the past sometimes, they are however not to beused in new situations. There is no need to dismantle dual-band configurations if the currentconfiguration provides sufficient possibility to provide the capacity and sectors needed, but nonew ones should be created. If a sector in a dual-band cabinet is installed with 1 TRU and a2 nd

2x02 Dual-band configurations are/were limited to DCS CDU-A and E-GSM CDU-C+. Thisrequired a special IDB (made by E/// Sweden), which cannot be created from OMT. It is notpossible to mix in one cabinet CDU-C+ from E-GSM and DCS.

TRU is needed, it can be expanded without having to change the configuration, but noCDU changes.


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In a 2x02 dual band cabinet a DXU is needed to control the sectors in that cabinet. As aresult of this, the DXU of the first cabinet cannot manage the TRUs in the second cabinet.Therefore a sector cannot 'flow over' from the first cabinet to a second dual-band cabinet.A 4+4+2 TRU configuration plus 1 or 2 E-GSM sectors can only be reduced to 4+2 in the firstcabinet and 2 in the second cabinet and 2, 4 or 2+2 E-GSM.Changing the order of sectors to fit the cabinets (in the previous example building 4+4+2DCS + 2 E-GSM as 4+2+4 DCS +2 E-GSM) is not allowed as this poses a risk formaintenance.

Indicated TRUs are the maximum per sector. The minimum is 1,except for the sector shared by master + extension cabinet where theminimum is 2.2x02 Dual-band cabinets cannot share sectors with another cabinet asthey are reconfigured to master cabinets.

Figure 1: 2x02 dual band cabinet layout

3 3G configurationsCabinet output powers are not put into a table as they are not relevant in 3G, nor are

configurations named as these are effectively all the same, independent of the cabinet vendoror type. Indoor and microcell configurations are different in the aspect that they will normallyhave only one sector, no TMA and no RET, but this can be indicated in the BSDS andtherefore requires no additional configuration identification.

TRU

TRU

TRU

TRU

TRU

TRU

CDU

CDU

CDU

CDU

CDU

CDU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

CDU

CDU

CDU

CDU

CDU

CDU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

CDU

CDU

CDU

CDU

CDU

CDU

Master Extension

2+2+2

TRU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

CDU

CDU

CDU

CDU

CDU

CDU

Master Master

TRU

TRU

2+4+2

2+4+4

2+2+2 2E+2E+2E

TRU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

CDU

CDU

CDU

CDU

CDU

CDU

TRU

TRU

2+4

TRU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

TRU

CDU

CDU

CDU

CDU

CDU

CDU

TRU

TRU

2+4 4+2E

2+(2E+2E or 4E)


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3.1 RBS configuration drawings E-GSM 2x02, 2x06 and 2116 Macro cells

ConfigurationC+-E2 & C+-E4 ConfigurationGu-E2 & Gc-E4 ConfigurationDc-E4

Configuration C+-E2 requires 1 cabinet and provides 2TRU/sector, configuration C+-E4 (obsolete) 2 cabinets and 4 TRU/sector.Use Gc-E4 if 4 TRU/sector are required for E-GSM. The configuration Dc-E4 is used on triple band sites to replace a Gc-E4 configuration in order to free space for UMTS.Du-E2 is not released.-.

xxx E-GSM 2x02 with 1 cabinet: 2TRU/sector x 2 cabinets: maximum capacity 4 TRU/sector xx

One Cross polar Antennaper Sector

Max jumper length 5mTotal 2 jumpers per cable-run

Max total jumper length


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Configuration4 Configuration6 Configuration7

No new sites should be installed with configuration 4 or 6, only resulting from capacity reduction of configuration 1 where antennas are not needed for other bands .

x xx xx xx x Two Cross Polar Antenna'sx x per Sector x x

Max. Length per Jumper 2.5m.

Three Jumper cables for Rx cable run.

Total Rx jumper length


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Configuration8 Configuration8div Configuration10

xxx One Antenna per Sector xxx

Max jumper length 2,5mTotal 2 jumpers per cable-run

Max total jumper length


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3.3 RBS configuration drawings DCS 2x06 macro cellsThe naming convention for configurations for 2x06 configurations is d ifferent. The following system is used:CDU-type, CDU-mode, a minus, network type letter (D for DCS, E for E-GSM), maximum number of TRUs per sector. Example:

Gc-D4 This means a CDU-G used in combined mode for DCS with a maximum capacity of 4 TRUs

ConfigurationGu-D2 ConfigurationGc-D4 ConfigurationGc-D8

xx DCS 2x06 with CDU-G in uncombined modex maximum capacity 2 TRUxx One Cross-polar Antennas per Sector x

Max. Length per Jumper 2.5m.

D/D D/D Three Jumper cables for each cable run.TMA TMA Total jumper length


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ConfigurationGc-D12 ConfigurationF-D6 ConfigurationF-D12

The configuration Gc-D12 is not allowed for new capacity extensions. F-D12 is to be used instead.

x x xx x x DCS 2x06 with CDU-G in combined modex x x maximum capacity 12 TRUx x xx x x Three Cross-polar Antennas per Sector x x x

Max. Length per Jumper 2.5m.D/D D/D D/D D/D D/D D/D Th ree J um per c ab les f or ea ch c ab le r un .

T MA T MA T MA T MA T MA T MA Tot al j um per l en gt h


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3.4 RBS configuration drawings for UMTS macro cells

ConfigurationUMTS

This configuration is the same for all UMTS macro cells.

xxx One Cross-polar Antennas per Sector xxx

Remote electrical adjustable tilt

Max. 1.5m jumper

ASC

Max. 1.5m jumper

Two RF Feeder Cable'sTwo per ASC. Size of Feederis dependent on its length.

Total sum of jum per length


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3.5 RBS configuration drawings 2109 macro and micro cells3.5.1 RBS 2109 E-GSM configurations

ConfigurationTu-E2 ConfigurationTc-E2

PANEL ANTENNA

JUMPERS (if applicable)

RBS2109

+45-45


OMNI ANTENNA

JUMPER (if applicable)

DUMMY LOAD

3dB-COUPLERKATHREIN793554

JUMPERS

RBS2109



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3.5.2 RBS 2109 DCS configurations

ConfigurationTu-D2 ConfigurationTu-D4 ConfigurationTc-D2 ConfigurationTc-D4 ConfigurationTc-D6

The Tc-D4 can also use an omni instead of a cross-polar antenna. A 3 rd

PANEL ANTENNA


RBS2109

+45-45


coupler is needed in this case (see also Mc-D4). The configuration indicator is notchanged (it can be recognized from the antenna type). The output power needs to be adjusted accordingly however. The maximum length of the Y-linkbus cable from master to extension cabinet is 5m. The configuration Tc-D6 is obsolete. For capacity extensions on microcells with 4 TRU solutions with2308 should be selected.

2 PANEL ANTENNAS


RBS2109

+45-45


RBS2109

extension

+45-45

OMNI ANTENNA


DUMMY LOAD


JUMPERS

RBS2109


DUMMY LOAD


JUMPERS

RBS2109


PANEL ANTENNA


DUMMY LOAD


JUMPERS

RBS2109

Extension


OMNI ANTENNA


DUMMY LOAD

COUPLER

JUMPERS

RBS2109

RBS2109

Extension

DUMMY LOAD

JUMPERS

RBS2109

Extension

DUMMY LOAD


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3.6 RBS configuration drawings 2302 micro cells

ConfigurationMuc-D1 ConfigurationMuc-D2 ConfigurationMuc-D4 ConfigurationMc-D2 ConfigurationMc-D4

For the Mc-D4 can, instead of an omni, also a cross-polar antenna be used. The 3 rd


RBS2302uc-D1

2x OMNI ANTENNA


coupler (type K793554) can be avoided this way. The configurationname is not changed when this is done (it can be recognized from the antenna type). The output power needs to be adjusted accordingly however

PANEL ANTENNA


RBS2302uc-D2

+45 -45


2 PANEL ANTENNAS


RBS2302

+45-45


RBS2302

+45-45


DUMMY LOAD

JUMPERS

RBS2302


OMNI ANTENNA


DUMMY LOAD

COUPLER

JUMPERS

RBS2302


RBS2302

DUMMY LOAD


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3.7 RBS configuration drawings 2308 micro cellsE-GSM has not been released for the RBS2308. Therefore only DCS configurations are defined.

ConfigurationNu-D4 ConfigurationNu-D8 ConfigurationNu-D12 ConfigurationNc-D4 ConfigurationNc-D8

PANEL ANTENNA

RBS2308

+45 -45

2 PANEL ANTENNAS


RBS2308

Master

+45-45


RBS2308

Extension

+45-45

Y-link

3 PANEL ANTENNAS


RBS2308

Master

+45 -45

JUMPERS (ifapplicable)

RBS2308

Extension

+45 -45

Y- link

RBS2308

Extension

+45 -45

Y-link


RBS2308

DUMMY LOAD



DUMMY LOAD


JUMPERS

RBS2308

Master


PANEL ANTENNA


DUMMY LOAD


JUMPERS

RBS

2308Extension


Y-link


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3.8 RBS configuration drawings 2308 + 2302 mixed cabinet DCS micro cells

ConfigurationNMu-D6 ConfigurationNMc-D6

2 PANEL ANTENNAS


RBS2308

Master (CDU-N)

+45-45


RBS2302

Extension(CDU-M)

+45-45

TXL

DUMMY LOAD


JUMPERS

RBS2308

Master (CDU-N)


PANEL ANTENNA


DUMMY L

3dB-COUKATHREI793554

JUMPE

RBS2302

Extension(CDU-M)

JUMPER (if app

TXL


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3.11 RBS configuration drawings DCS 2x06 indoor coverage cellsThe configurations for sites providing indoor coverage by means of a distributed antenna network are called Gci-D4 and Gci-D8.

ConfigurationGci-D4 ConfigurationGci-D8

DCS 2x06 with CDU-G in comb ined modemaximum capacity 4 TRU

Several antennas per Sector poss ible

Select Distributed network as antenna type in BSDSMention antennas, splitters, tappers and couplers

etc. in comment field of BSDS

No D/DTMA is used

Jumpers and feeders have to meet indoor guidelinerequirements

Reduce cabinet output power to required levels!

Load

Coupler

RBS 2x06 Block diagram showing a single Sector using CDU-GCDU-G

4 TRU/sector 3 sectors Gci-D4 in a cabinet is possible1 cabinet or 1 sector Gci-D4 together with 1 sector Gci-D8

T x

/ R x

T x

/ R x

DCS 2x06 with CDU-G in comb ined modemaximum capacity 8 TRU

Several antennas per Sector poss ible

Select Distributed network as antenna type in BSDSMention antennas, splitters, tappers and couplers

etc. in comment field of BSDS

No D/DTMA is used

Jumpers and feeders have to meet indoor guidelinerequirements

Reduce cabinet output power to required levels!

coupler

Use 793554 as couplersUse loads on unused output ports of couplers

coupler coupler

RBS 2x06 Block diagram showing a single Sector using CDU-GCDU-G

8 TRU/sector A combination of Gci-D8 and Gci-D4 in 1 cabinet is1 cabi net po ssi ble

T x

/ R x

T x

/ R x

T x

/ R x

T x

/ R x


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Appendix A: References

Appendix B: Abbreviations and Acronyms

configuraties dcs egsm

Documents