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Page 1: 36616399 Ultra Confuguration

Planning UltraSite EDGE BTS

dn03398273Issue 2 en

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1 (151)

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2 (151) # Nokia CorporationNokia Proprietary and Confidential

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Contents

Contents 3

1 Statutory Information 51.1 CE Marking 51.2 FCC Statement 6

2 Overview of planning UltraSite EDGE BTS 72.1 Overview of planning UltraSite EDGE BTS installation 72.2 Overview of planning UltraSite EDGE BTS cabinet installation 102.3 Overview of planning for UltraSite EDGE BTS installation at an existing

Talk-family BTS site 112.4 Overview of planning an UltraSite EDGE BTS internal configuration 12

3 Planning 133.1 Planning for UltraSite EDGE BTS installation at a new site 133.2 Planning for UltraSite EDGE BTS installation at an existing UltraSite

EDGE BTS site 143.3 Planning for UltraSite EDGE BTS with WCDMA Upgrade installation at a

new site 143.4 Planning for UltraSite EDGE BTS with WCDMA Upgrade installation at an

existing site 153.5 Planning for UltraSite EDGE BTS upgrade to include EDGE capability 163.6 Checklist for planning of UltraSite EDGE BTS 17

4 Configuration and combining options of UltraSite EDGE BTS 194.1 Overview of configuration and combining options of UltraSite EDGE

BTS 194.1.1 Combining options 194.1.2 Cabinet configurations 204.2 Combining bypass options of UltraSite EDGE BTS 214.3 2-way Wideband Combining options of UltraSite EDGE BTS 254.4 4-way Wideband Combining options of UltraSite EDGE BTS 334.5 6-sector Remote Tune combining of UltraSite EDGE BTS 394.6 12-sector Remote Tune combining of UltraSite EDGE BTS 424.7 Dual-band combining of UltraSite EDGE BTS 454.8 Horizontal sectoring of UltraSite EDGE BTS 47

5 Configuration and combining options of UltraSite EDGE BTS co-siting with Talk-family BTS RF diversity cable kits 51

5.1 Talk 222AFE/UltraSite 222DVxx cable connections of UltraSite EDGEBTS Co-site with Talk-family BTS 51

5.2 Talk 444RTC/UltraSite 222DVxx cable connections of UltraSite EDGEBTS Co-site with Talk-family BTS 52

5.2.1 RF diversity cabling for indoor applications 535.2.2 RF diversity cabling for outdoor applications 555.3 Talk 444RTC/UltraSite 444RTC cable connections of UltraSite EDGE BTS

Co-site with Talk-family BTS 565.3.1 RF diversity cabling for indoor applications 57

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5.3.2 RF diversity cabling for outdoor applications 595.4 Talk 666RTC/UltraSite 222DVxx WBC 2:1 cable connections of UltraSite

EDGE BTS Co-site with Talk-family BTS 615.4.1 RF diversity cabling for indoor applications 625.4.2 RF diversity cabling for outdoor applications 655.5 Talk 666RTC/UltraSite 666RTC cable connections of UltraSite EDGE BTS

Co-site with Talk-family BTS 685.5.1 RF diversity cabling for indoor applications 695.5.2 RF diversity cabling for outdoor applications 72

6 Site requirements for UltraSite EDGE BTS 756.1 Storage conditions for the UltraSite EDGE BTS delivery 756.2 Transportation conditions for the UltraSite EDGE BTS delivery 766.3 UltraSite EDGE BTS safety distance requirements (compliance

boundaries) 796.3.1 Assessment applying SAR measurements 816.3.2 Assessment of compliance boundary 826.3.3 Typical configuration 856.3.4 ANNEX A: Council recommendation 1999/519/EC for occupational and

general public electromagnetic exposure limits 896.3.5 ANNEX B: Far-field calculation method 916.4 Operating conditions for UltraSite EDGE BTS 926.4.1 Climatic conditions 926.4.2 Mechanical conditions 936.5 Space requirements for Indoor UltraSite EDGE BTS 946.5.1 Dimensions and weights of cabinets and units 946.5.2 Cabinet clearances 966.6 Space requirements for Outdoor UltraSite EDGE BTS 986.6.1 Dimensions and weights of cabinets and units 986.6.2 Cabinet clearances 1006.7 Power requirements for AC UltraSite EDGE BTS 1016.7.1 Mains power 1016.7.2 Operating ranges and power consumption 1036.8 Power requirements for +24 VDC UltraSite EDGE BTS 1076.8.1 Mains power 1076.8.2 Operating ranges and power consumption 1086.9 Power requirements for -48 VDC UltraSite EDGE BTS 1126.9.1 Mains power 1126.9.2 Operating ranges and power consumption 1146.10 Grounding (earthing) requirements for UltraSite EDGE BTS 1186.10.1 Guidelines for grounding UltraSite EDGE BTS 1196.11 Cabinet base requirements for Indoor UltraSite EDGE BTS 1206.12 Cabinet base requirements for Outdoor UltraSite EDGE BTS 121

7 Glossary 1237.1 Glossary for UltraSite EDGE BTS 1237.1.1 Abbreviations and acronyms 1237.1.2 Terms 139

Related Topics 149

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1 Statutory Information

1.1 CE Marking

Standard Description

. Hereby, Nokia Corporation, declaresthat this Nokia UltraSite EDGE BaseStation is in compliance with theessential requirements and otherrelevant provisions of Directive: 1999/5/EC.

0168

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Statutory Information

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1.2 FCC Statement

Standard Description

FCC Statement Hereby, Nokia Corporation declares thatthis Nokia UltraSite EDGE Base Stationis in compliance with the essentialrequirements and other relevantprovisions of Directive: 1999/5/EC.

The product is marked with the CEmarking and Notified Body numberaccording to the Directive 1999/5/EC.

This equipment has been tested andfound to comply with the limits for aClass B digital device, pursuant to part15 of the FCC Rules. These limits aredesigned to provide reasonableprotection against harmful interferencein a residential installation. Thisequipment generates, uses and canradiate radio frequency energy and, ifnot installed and used in accordancewith the instructions, may cause harmfulinterference to radio communications.However, there is no guarantee thatinterference will not occur in a particularinstallation. Changes or modificationsnot expressly approved by the partyresponsible for compliance could voidthe user�s authority to operate theequipment. The term �IC:� before theradio certification number only signifiesthat Industry Canada technicalspecifications were met.

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2 Overview of planning UltraSite EDGEBTS

2.1 Overview of planning UltraSite EDGE BTSinstallation

Before you start

Pay careful attention to all warnings and cautions in this section.

Warning

The equipment generates electromagnetic radiation that can exceed safetylevels when an installer is working near the antennas. Observe the minimumdistance precautions.

Warning

Do not install Nokia UltraSite EDGE BTS or its antennas in areas wherethere is a potential risk for interference with inadequately shielded medicalequipment, such as life support devices, hearing aids, or other electrically ormagnetically sensitive devices.

Warning

Before installing Nokia UltraSite EDGE BTS or its antennas, identify theemission of nearby antennas to properly manage ambient emissions.

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Warning

Follow national regulations when working with power supply and powercables.

Caution

To prevent damage to the equipment, transport Nokia UltraSite EDGE BTS to theinstallation site in the original transportation package.

Caution

The typical transportation time to the installation site is 30 days or less. If the totaltransportation time exceeds 30 days, consider additional storage or packagingprecautions.

Caution

A power plug with a PE connection is not sufficient for Nokia UltraSite EDGEBTS. Grounding must have a fixed, non-removable connection.

Caution

To prevent damage to units, grounding must be connected to the cabinet beforeinstalling any of the units.

Note

Site requirements for the indoor cabinet can vary depending on the country ofinstallation and the operator.

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Note

If space is limited for an outdoor installation, Nokia recommends installing theOutdoor Application Kit (OAKx) to the cabinet core first. Installation personnelcan then lift, mount, and anchor the cabinet to the plinth.

Summary

Planning for the installation of UltraSite EDGE BTS, whether at a new or existingsite, requires familiarising yourself with all site requirements and technicalaspects of the BTS and its units.

Steps

1. Review the configuration options.

2. Review the technical aspects of the BTS.

3. Review the technical aspects of the units.

4. Review the planning checklist.

5. Plan the site.

. Review the required storage conditions.

. Review the required transportation conditions.

. Review the required safety distance.

. Review the required operating conditions.

. Review the required space for indoor installation.

. Review the required space for outdoor installation.

. Review the required grounding (earthing).

. Review the required cabinet base for indoor installation.

. Review the required cabinet base for outdoor installation.

. Review the required tools.

6. Review the required torque settings.

7. Review the compatibility between HW and SW.

8. Review the compatibility between BTS, BSC, NetAct, SiteWizard, andLMU SW.

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9. Review the compatibility between new features of BTS SW CX4.1 andother network elements.

10. Review the power requirements.

11. Review the RF properties.

. 800 MHz BTS

. 900 MHz BTS

. 1800 MHz BTS

. 1900 MHz BTS

12. Review the physical properties.

13. Review the acoustic sound parameters.

14. Plan the cabinet installation.

15. Plan the internal configuration.

16. Plan for specific installation needs.

. Installation at a new site

. Installation at an existing UltraSite EDGE BTS site

. Installation at an existing Talk-family site

. Installation with WCDMA upgrade at a new site

. Installation with WCDMA upgrade at an existing site

. Installation of upgrade from GSM to GSM/EDGE

2.2 Overview of planning UltraSite EDGE BTS cabinetinstallation

Before you start

Review the Overview of planning UltraSite EDGE BTS installation. Pay carefulattention to all Warnings and Cautions.

Steps

1. Ensure that site planning is complete.

2. Ensure that required tools and equipment are available.

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3. Review preparations requirements.

4. If mounting an outdoor UltraSite EDGE BTS cabinet,

Then

Review the Overview of mounting the UltraSite EDGE BTS outdoorcabinet.

5. If mounting an indoor UltraSite EDGE BTS cabinet,

Then

Review the Overview of mounting UltraSite EDGE BTS indoorcabinet.

6. Review procedures for installing UltraSite EDGE BTS coremechanics.

7. If installing optional kits of outdoor UltraSite EDGE BTS,

Then

Review the Overview of installing optional kits of UltraSite EDGEBTS outdoor cabinet.

2.3 Overview of planning for UltraSite EDGE BTSinstallation at an existing Talk-family BTS site

Before you start

Review the Overview of planning UltraSite EDGE BTS installation. Pay carefulattention to all Warnings and Cautions.

Steps

1. Determine the site requirements for the new BTS.

. Review required storage conditions.

. Review required transportation conditions.

. Review required safety distance.

. Review required operating conditions.

. Review required space for indoor installation.

. Review required space for outdoor installation.

. Review required grounding (earthing).

. Review required cabinet base for indoor installation.

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. Review required cabinet base for outdoor installation.

. Review required tools.

2. Determine the internal configuration.

3. Plan installation of BTS at an existing Talk-family site.

4. Plan cabling.

5. Plan for commissioning of new BTS.

6. Complete the planning checklist.

2.4 Overview of planning an UltraSite EDGE BTSinternal configuration

Before you start

Review the Overview of planning UltraSite EDGE BTS installation. Pay carefulattention to all warnings and cautions.

Steps

1. Define BTS configuration.

2. Evaluate system and performance requirements.

3. Review technical aspects of UltraSite EDGE BTS.

4. Review technical aspects of UltraSite EDGE BTS units.

5. Determine requirements for any upgrade.

. GSM to GSM/EDGE

. EDGE to WCDMA

6. Review the commissioning procedures.

7. Order units required to meet your system and performance objectives.

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3 Planning

3.1 Planning for UltraSite EDGE BTS installation at anew site

Before you start

Review the Overview of planning UltraSite EDGE BTS installation. Pay carefulattention to all Warnings and Cautions.

Steps

1. Determine the site requirements for the new BTS.

. Review required storage conditions.

. Review required transportation conditions.

. Review required safety distance.

. Review required operating conditions.

. Review required space for indoor installation.

. Review required space for outdoor installation.

. Review required grounding (earthing).

. Review required cabinet base for indoor installation.

. Review required cabinet base for outdoor installation.

. Review required tools.

2. Determine the internal configuration.

3. Plan installation of BTS at the new site.

4. Plan cabling.

5. Plan for commissioning of new BTS.

6. Complete the planning checklist.

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3.2 Planning for UltraSite EDGE BTS installation at anexisting UltraSite EDGE BTS site

Before you start

Review the Overview of planning UltraSite EDGE BTS installation. Pay carefulattention to all Warnings and Cautions.

Steps

1. Determine the site requirements for the new BTS.

. Review required storage conditions.

. Review required transportation conditions.

. Review required safety distance.

. Review required operating conditions.

. Review required space for indoor installation.

. Review required space for outdoor installation.

. Review required grounding (earthing).

. Review required cabinet base for indoor installation.

. Review required cabinet base for outdoor installation.

. Review required tools.

2. Determine the internal configuration.

3. Plan installation of BTS at the existing site.

4. Plan cabling.

5. Plan for commissioning of new BTS.

6. Complete the planning checklist.

3.3 Planning for UltraSite EDGE BTS with WCDMAUpgrade installation at a new site

Before you start

Review the Overview of planning UltraSite EDGE BTS installation. Pay carefulattention to all Warnings and Cautions.

Steps

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1. Determine the site requirements for the new BTS.

. Review required storage conditions.

. Review required transportation conditions.

. Review required safety distance.

. Review required operating conditions.

. Review required space for indoor installation.

. Review required space for outdoor installation.

. Review required grounding (earthing).

. Review required cabinet base for indoor installation.

. Review required cabinet base for outdoor installation.

. Review required tools.

2. Determine the internal configuration.

3. Plan installation of BTS with WCDMA upgrade at a new site.

4. Plan cabling.

5. Plan for commissioning of new BTS with WCDMA upgrade.

6. Complete the planning checklist.

3.4 Planning for UltraSite EDGE BTS with WCDMAUpgrade installation at an existing site

Before you start

Review the Overview of planning UltraSite EDGE BTS installation. Pay carefulattention to all Warnings and Cautions.

Steps

1. Determine the site requirements for the new BTS.

. Review required storage conditions.

. Review required transportation conditions.

. Review required safety distance.

. Review required operating conditions.

. Review required space for indoor installation.

. Review required space for outdoor installation.

. Review required grounding (earthing).

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. Review required cabinet base for indoor installation.

. Review required cabinet base for outdoor installation.

. Review required tools.

2. Determine the internal configuration.

3. Plan installation of BTS with WCDMA upgrade at an existingUltraSite EDGE BTS site.

4. Plan cabling.

5. Plan for commissioning of new BTS.

6. Complete the planning checklist.

3.5 Planning for UltraSite EDGE BTS upgrade toinclude EDGE capability

Before you start

Review the Overview of planning UltraSite EDGE BTS installation. Pay carefulattention to all Warnings and Cautions.

Steps

1. Evaluate the impact of UltraSite EDGE BTS upgrade.

2. Review upgrade requirements.

3. Plan cabling.

4. Plan for commissioning GSM/EDGE upgrade in BTS.

5. Order GSM/EDGE units required for the upgrade.

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3.6 Checklist for planning of UltraSite EDGE BTS

Table 1. Planning checklist

Check Expected outcome Checkmark

Plan the site preparation forinstallation

Site preparation checklist forUltraSite EDGE BTSinstallation complete

Plan the cabinet installation Cabinet installation plancomplete

Plan the internal configuration Internal configuration plancomplete

Plan the installation preparations Plan for installationpreparation complete

Plan the installation at a new site Plan for installation at a newsite complete

Plan the installation at anexisting UltraSite EDGE BTS site

Plan for installation at anexisting UltraSite EDGEBTS site complete

Plan the installation at anexisting Talk-family BTS site

Plan for installation at anexisting Talk-family BTS sitecomplete

Plan for WCDMA Upgrade at anew site

Plan for WCDMA Upgradeat a new site complete

Plan for WCDMA Upgrade at anexisting site

Plan for WCDMA Upgradeat an existing site complete

Plan for upgrade to includeEDGE capability

Plan for upgrade to includeEDGE capability complete

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4 Configuration and combining options ofUltraSite EDGE BTS

4.1 Overview of configuration and combining optionsof UltraSite EDGE BTS

Note

The cable routing illustrated in the figures is for reference only. The installerdetermines routing during installation.

4.1.1 Combining options

Nokia UltraSite EDGE BTS supports various combining options. You canconfigure Nokia UltraSite EDGE BTS in the following ways:

. Combining Bypass - No signal combining is used.

. Wideband Combining (WBC)

- 2-Way WBC - Signals from two TSxx units are combined into oneantenna using one WCxA unit.

- 4-Way WBC - Signals from four TSxx units are combined into oneantenna using two parallel WCxA units in series and a single WCxAunit.

. Remote Tune Combining (RTC)

- Signals from six TSxx units are combined into one antenna with oneRTxx unit.

- Signals from twelve TSxx units are combined into two antennas (aseparate antenna for RX diversity is unnecessary). Two RTxx unitsare needed.

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. Dual Band Combining (GSM 800/1900 or 900/1800 in the same cabinet)

- Use any WBC or RTC combining option within each band.

- DU2x combines RX/TX signals into one antenna (optional).

. Horizontal Sectoring (combining signals from different cabinets)

- Use any WBC or RTC combining option.

4.1.2 Cabinet configurations

To accomplish these combining options, Nokia UltraSite EDGE BTS supportsvarious cabinet configurations.

Various cabinet combining configurations include, for example:

. 1+1+1, DVxx, Combining bypass

. 2+2+2, DVxx, Combining bypass

. 2-way WBC, 2-TSxx sector

. 2-way WBC, 4-TSxx sector

. 2-way WBC, 6-TSxx sector

. 2+2+2, DVxx, 2-way WBC

. 6+6+6, DVxx, 2-way WBC

. 4-way WBC, 4-TSxx sector

. 4-way WBC, 8-TSxx sector

. 4-way WBC, 12-TSxx sector

. 12+12+12, DVxx, 4-way WBC

. RTC, 6-TSxx sector

. 6+6+6, RTC

. 6 Omni, RTC

. RTC, 12-TSxx sector

. 12+12+12, RTC

. 6+6+6, 2+2+2, Dual Band Combining without diversity

. 6+6+6, 2+2+2, Dual Band Combining with diversity

. 8+8+8, 4+4+4, Dual Band Combining

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. 8+8+8, Horizontal sectoring, WBC

. 8+8+8, Horizontal sectoring, RTC

4.2 Combining bypass options of UltraSite EDGE BTS

Figure 1. RF cabling for 1+1+1 bypass configuration

RX

TX

DIV

RX

ANT 1

ANT 2

X 1

TX 2

TX 1

Warning! The weight of

this unit is over 10kg

RX 2

RX 1

RX 2ext

RX 1ext

R (FLT)

Y (ALM)

G (OPR)

RXIN

RX1

RX2

DRX1

DRX2

DRXIN

DN04118216

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Figure 2. 1+1+1, DVxx, Combining bypass

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Figure 3. RF cabling for 2+2+2 bypass configuration

ANT 1

ANT 2

X 1

TX 2

TX 1

Warning! The weight of

this unit is over 10kg

RX 2

RX 1

RX 2ext

RX 1ext

R (FLT)

Y (ALM)

G (OPR)

RX

TX

DIVRX

RX

TX

DIVRX

RXIN

RX1

RX2

DRX1

DRX2

DRXIN

DN03428601

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Figure 4. 2+2+2, DVxx, Combining bypass

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4.3 2-way Wideband Combining options of UltraSiteEDGE BTS

With 2-way Wideband Combining (WBC), the WCxA unit combines the transmit(TX) signals from two Transceiver (TSxx) units and feeds the combined signal tothe antenna through the TX port of the Dual Variable Gain Duplex Filter (DVxx)unit.

A sector can have 2-way WBC and 2-way diversity with 2, 4, or 6 TSxx unitsectors.

1 #993747x

2 #993857x (six places)

3 DVxx to RFU backplane #993997x

4 #994081x (two places)

5 Antenna 2: Diversity RX

RX

TX

DIVRX

RX

TX

DIVRX

TX2 TX OUT TX1

RXIN

RX1

RX2

DRX1

DRX2

DRXIN

ANT 1

ANT 2

X 1

TX 2

TX 1

Warning! The weight ofthis unit is over 10kg

RX 2

RX 1

RX 2ext

RX 1ext

R (FLT)Y (ALM)G (OPR)

DN034284461

3

45

6

2

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6 Antenna 1: TX/RX

Figure 5. 2+2+2 two-way WBC

Figure 6. 2+2+2 two-way WBC

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Figure 7. 3+3+3 two-way WBC

TX1 TX OUT TX2

TX1 TX OUT TX2

RXIN

RX1

RX2

DRX1

DRX2

DRXIN

RXIN

RX1

RX2

DRX1

DRX2

DRXIN

RX

TX

DIVRX

RX

TX

DIVRX

RX DIVRX

ANT 1

ANT 2

X 1

TX 2

TX 1

Warning! The weight ofthis unit is over 10kg

RX 2

RX 1

RX 2ext

RX 1ext

R (FLT)Y (ALM)G (OPR)

DN04118231

TX

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Figure 8. 3+3+3 two-way WBC

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1 #993747x (two places)

2 #993857x (twelve places)

3 DVxx to RFU backplane #993997x

4 #994081x (four places)

5 Antenna 2: TX/RX 2, Diversity RX 1

6 Antenna 1: TX/RX 1, Diversity RX 2

Figure 9. 4+4+4 two-way WBC

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

TX2 TX OUTTX1

TX2 TX OUTTX1

RXIN

RX1

RX2

DRX1

DRX2

DRXIN

RXIN

RX1

RX2

DRX1

DRX2

DRXIN

ANT 1

ANT 2

X 1

TX 2

TX 1

Warning! The weight ofthis unit is over 10kg

RX 2

RX 1

RX 2ext

RX 1ext

R (FLT)Y (ALM)G (OPR)

DN03428691

1

3

45

6

2

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Figure 10. 4+4+4 two-way WBC

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1 #993747x (three places)

2 #993857x (twelve places)

3 DVxx to RFU backplane #993997x

4 #994081x (six places)

RX

RX

TX

TX

DIVRX

DIVRX

RX

RX

TX

TX

DIVRX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

TX2

TX2

TX OUT

TX OUT

TX1

TX1

TX2 TX OUT TX1

RXIN

RX1

RX2

DRX1

DRX2

DRXIN

RXIN

RXIN

RX1

RX1

RX2

RX2

DRX1

DRX1

DRX2

DRX2

DRXIN

DRXIN

ANT 1

ANT 1

ANT 2

ANT 2

X 1

X 1

TX 2

TX 2

TX 1

TX 1

Warning! The weight ofthis unit is over 10kg

Warning! The weight ofthis unit is over 10kg

RX 2

RX 2

RX 1

RX 1

RX 2ext

RX 2ext

RX 1ext

RX 1ext

R (FLT)Y (ALM)G (OPR)

R (FLT)Y (ALM)G (OPR)

DN034284581

3

4

5

6

7

2

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5 Antenna 3: TX/RX 3, Diversity RX 2

6 Antenna 2: TX/RX 2, Diversity RX 1

7 Antenna 1: TX/RX 1, Diversity RX 3

Figure 11. 6+6+6 two-way WBC

Figure 12. 6+6+6 two-way WBC

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4.4 4-way Wideband Combining options of UltraSiteEDGE BTS

With 4-way Wideband Combining (WBC), the TX signals from four TSxx unitsare combined using three WCxA units in the following manner:

1. The first WCxA unit combines the TX signals from two of the four TSxxunits.

2. The second WCxA unit combines the TX signals from the other two TSxxunits.

3. The third WCxA unit combines the two combined signals. The thirdWCxA unit then feeds the combined signal to the antenna through the TXport of the DVxx unit.

A sector can have 4-way WBC and dual variable gain duplex filtering with 4, 8,or 12 TSxx sectors.

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Figure 13. 4-way WBC, 4-TSxx sector

1 #993747x (3 places)

2 #993857x (12 places)

3 DVxx to RFU Backplane #993997x

4 #994081x (4 places)

5 Antenna 2: TX/RX 2, Diversity RX 1

TX1 TX OUT TX2

TX1 TX OUT TX2

TX1 TX OUT TX2

ANT 1

ANT 2

X 1

TX 2

TX 1

Warning! The weight ofthis unit is over 10kg

RX 2

RX 1

RX 2ext

RX 1ext

R (FLT)Y (ALM)G (OPR)

RXIN

RX1

RX2

DRX1

DRX2

DRXIN

RXIN

RX1

RX2

DRX1

DRX2

DRXIN

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

DN034284611

3

4 5

6

2

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6 Antenna 1: TX/RX 1, Diversity RX 2

Figure 14. 4-way WBC, 8-TSxx sector

1 #993747x (six places)

RX1

RX2

RX3

RX4

RX5

RX6

RX

IN

DRX1

DRX2

DRX3

DRX4

DRX5

DRX6

DRX

IN

TX1 TX OUT TX2

TX1 TX OUT TX2

TX1 TX OUT TX2

TX1 TX OUT TX2

TX1 TX OUT TX2

TX1 TX OUT TX2

ANT 1

ANT 2

X 1

TX 2

TX 1

Warning! The weight ofthis unit is over 10kg

RX 2

RX 1

RX 2ext

RX 1ext

R (FLT)Y (ALM)G (OPR)

RXIN

RX1

RX2

DRX1

DRX2

DRXIN

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIV

RX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

DN03428707

1

3

4

5

6

2

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2 DVxx to RFU Backplane #993997x

3 #993856x (four places)

4 #993857x (24 places)

5 Antenna 2: TX/RX 2, Diversity RX 1

6 Antenna 1: TX/RX 1, Diversity RX 2,

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Figure 15. 4-way WBC, 12-TSxx sector

1 #993857x (36 places)

RX1

RX2

RX3

RX4

RX5

RX6

RX

IN

DRX1

DRX2

DRX3

DRX4

DRX5

DRX6

DRX

IN

RX1

RX2

RX3

RX4

RX5

RX6

RX

IN

DRX1

DRX2

DRX3

DRX4

DRX5

DRX6

DRX

IN

TX1

TX1

TX OUT

TX OUT

TX2

TX2

TX1 TX OUT TX2

TX1

TX1

TX OUT

TX OUT

TX2

TX2

TX1 TX OUT TX2

TX1

TX1

TX OUT

TX OUT

TX2

TX2

TX1 TX OUT TX2

ANT 1

ANT 1

ANT 2

ANT 2

X 1

X 1

TX 2

TX 2

TX 1

TX 1

Warning! The weight ofthis unit is over 10kg

Warning! The weight ofthis unit is over 10kg

RX 2

RX 2

RX 1

RX 1

RX 2ext

RX 2ext

RX 1ext

RX 1ext

R (FLT)Y (ALM)G (OPR)

R (FLT)Y (ALM)G (OPR)

RX

RX

TX

TX

DIV

RX

DIVRX

RX

TX

DIVRX

RX

RX

TX

TX

DIVRX

DIVRX

RX

TX

DIVRX

RX

RX

TX

TX

DIVRX

DIV

RX

RX

TX

DIVRX

RX

RX

TX

TX

DIVRX

DIVRX

RX

TX

DIVRX

DN03428473

1

3

4

5

6

7

2

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2 DVxx to RFU Backplane #993997x

3 #993856x (four places)

4 Antenna 1: TX TSxx 1-4, RX 1 Diversity RX 2,

5 Antenna 2: TX TSxx 5-8, RX 2 Diversity RX 1

6 #993747x (nine places)

7 Antenna 3: TX TSxx 9-12

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Figure 16. 12+12+12, DVxx, 4-way WBC

4.5 6-sector Remote Tune combining of UltraSite EDGEBTS

DN03428688

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1 DVxx to RFU backplane #993997x

2 #993856x

3 Antenna1: TX/RX

4 Antenna 2: Diversity RX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX1

RX2

RX3

RX4

RX5

RX6

RX

IN

DRX1

DRX2

DRX3

DRX4

DRX5

DRX6

DRX

IN

TX 1

TX 2

TX 3

TX 4

RESET

R(FLT)

Y(ALM)

G(OPR)

TX 5

TX 6

RX RXExt

PW

R

I

N

DAnt

Ant

DRX

WARNING! The weight ofthis unit is over 10kg

DN03428719NOTE: Unlabeled cables are #993857x (18 places)

1

3

4

2

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Figure 17. RTC, 6-TSxx sector

Figure 18. 6+6+6, RTC

DN03428649

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Figure 19. 6 Omni, RTC

4.6 12-sector Remote Tune combining of UltraSiteEDGE BTS

DN99619511

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1 Antenna1: TX/RX 1, DRX 2

2 Antenna 2: TX/RX 2, DRX 1

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX

TX

DIVRX

RX1

RX1

RX2

RX2

RX3

RX3

RX4

RX4

RX5

RX5

RX6

RX6

RXIN

RX

IN

DRX1

DRX1

DRX2

DRX2

DRX3

DRX3

DRX4

DRX4

DRX5

DRX5

DRX6

DRX6

DRXIN

DRX

IN

TX 1

TX 1

TX 2

TX 2

TX 3

TX 3

TX 4

TX 4

RESET

RESET

R(FLT)

Y(ALM)

G(OPR)

R(FLT)

Y(ALM)

G(OPR)

TX 5

TX 5

TX 6

TX 6

RX

RX

RXExt

RXExt

P

W

R

I

N

P

W

R

I

N

DAnt

DAnt

Ant

Ant

DRX

DRX

WARNING! The weight of

this unit is over 10kg

WARNING! The weight of

this

unit

is

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3 #993856x (two places)

4 Dvxx to RFU Backplane #993997x

5 #993856x (two places)

Figure 20. RTC, 12-TSxx sector

Figure 21. 12+12+12, RTC

DN03428676

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4.7 Dual-band combining of UltraSite EDGE BTS

A Nokia UltraSite EDGE cabinet can use WBC or RTC when GSM 800/1900 or900/1800 signals are both present. Combining bypass cannot be used.

Figure 22. 6+6+6, 2+2+2, Dual Band Combining without diversity

900 MhzNOTE: 1800 Mhz

DN03428516

Two

TSxx

Two

TSxx

Two

TSxx

SixTSxx

SixTSxx

SixTSxx

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Figure 23. 6+6+6, 2+2+2, Dual Band Combining with diversity

900 MhzNOTE: 1800 Mhz

DN03428504

Two

TSxx

Two

TSxx

Two

TSxx

SixTSxx

SixTSxx

SixTSxx

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Figure 24. 8+8+8, 4+4+4, Dual Band Combining

4.8 Horizontal sectoring of UltraSite EDGE BTS

Horizontal sectoring is the common configuration where units in multiplecabinets support one antenna.

900 MhzNOTE: 1800 Mhz

DN03428664

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Figure 25. 8+8+8, Horizontal sectoring, WBC

NOTE: Special inter-rack cablekit required for Diversity Signals

EightTSxx

EightTSxx

8TSxx

EightTSxx

DN03428434

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1 Special inter-rack cable kit required for Diversity Signals

Figure 26. 8+8+8, Horizontal sectoring, RTC

EightTSxx

EightTSxx

EightTSxx

DN03428497

1

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5 Configuration and combining options ofUltraSite EDGE BTS co-siting with Talk-family BTS RF diversity cable kits

5.1 Talk 222AFE/UltraSite 222DVxx cable connectionsof UltraSite EDGE BTS Co-site with Talk-family BTS

Note

The following numbers in parentheses refer to the slots from 1-12, from top tobottom in the cabinet.

Table 2. Re-routing antenna connections

Talk BTS - Disconnect UltraSite EDGE BTS - Connect

AFE #1 DIV RX Ant DVxx #1A ANT (#2-3)

AFE #2 DIV RX Ant DVxx #1B ANT (#2-3)

AFE #3 DIV RX Ant DVxx #2A ANT1(#6-7)

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Table 3. Installing RF diversity kit

Sector Talk-family BTS UltraSite EDGE BTS

1 TRX #1 Div Receive

TRX #2 Div Receive

AFE #1 Main Receive Rx3

AFE #1 Main Receive Rx4

M2xA #1 DRX 1 (#1-2)

M2xA #1 DRX 2 (#1-2)

TSxx #1 DIV Rx

TSxx #2 DIV Rx

2 TRX #3 Div Receive

TRX #4 Div Receive

AFE #2 Main Receive Rx3

AFE #2 Main Receive Rx4

M2xA #2 DRX 1 (#5-6)

M2xA #2 DRX 2 (#5-6)

TSxx #3 DIV Rx (#5)

TSxx #4 DIV Rx (#6)

3 TRX #5 Div Receive

TRX #6 Div Receive

AFE #3 Main Receive Rx3

AFE #3 Main Receive Rx4

M2xA #3 DRX 1 (#9-10)

M2xA #3 DRX 2 (#9-10)

TSxx #5 DIV Rx (#9)

TSxx #6 DIV Rx (#10)

5.2 Talk 444RTC/UltraSite 222DVxx cable connectionsof UltraSite EDGE BTS Co-site with Talk-family BTS

Note

The following numbers in parentheses refer to the slots from 1-12, from top tobottom in the cabinet.

Table 4. Re-routing antenna connections

Talk BTS - Disconnect UltraSite EDGE BTS - Connect

RMU #1 DIV Ant TALK Basic DVxx #1A ANT (#2-3A)

RMU #2 DIV Ant TALK Basic DVxx #1B ANT (#2-3B)

RMU #3 DIV Ant TALK Basic DVxx #2A ANT (#6-7A)

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5.2.1 RF diversity cabling for indoor applications

Table 5. Installing RF diversity kit

Sector Talk-family BTS UltraSite EDGE BTS

1 TRX #1 Div Receive TALK Basic M2xA #1 DRX 1 (#1-2)

TRX #2 Div Receive TALK Basic

TRX #7 Div Receive TALK Extended M2xA #1 DRX 2 (#1-2)

TRX #8 Div Receive TALK Extended

RMU #1 Main Receive Rx5 TALK Basic TSxx #1 DIV Rx

RMU #1 Main Receive Rx6 TALK Basic TSxx #2 DIV Rx

2 TRX #3 Div Receive TALK Basic M2xA #2 DRX 1 (#5-6)

TRX #4 Div Receive TALK Basic

TRX #9 Div Receive TALK Extended M2xA #2 DRX 2 (#5-6)

TRX #10 Div Receive TALK Extended

RMU #2 Main Receive Rx5 TALK Basic TSxx #3 DIV Rx (#5)

RMU #2 Main Receive Rx6 TALK Basic TSxx #4 DIV Rx (#6)

3 TRX #5 Div Receive TALK Basic M2xA #3 DRX 1 (#9-10)

TRX #6 Div Receive TALK Basic

TRX #11 Div Receive TALK Extended M2xA #3 DRX 2 (#9-10)

TRX #12 Div Receive TALK Extended

RMU #3 Main Receive Rx5 TALK Basic TSxx #5 DIV Rx (#9)

RMU #3 Main Receive Rx6 TALK Basic TSxx #6 DIV Rx (#10)

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Table 6. Routing SPKA splitter cable connections

Sector From (Talk-family BTS) To (Talk) From (Talk) To(UltraSite)

1 TRX #1 Div RX Basic Splitter Out Splitter In M2xA #1 DRX1 (#1-2)

TRX #2 Div Rx Basic Splitter Out

TRX #7 Div RX Extended Splitter Out Splitter In M2xA #1 DRX2 (#1-2)

TRX #8 Div Rx Extended Splitter Out

2 TRX #3 Div RX Basic Splitter Out Splitter In M2xA #2 DRX1 (#5-6)

TRX #4 Div Rx Basic Splitter Out

TRX #9 Div RX Extended Splitter Out Splitter In M2xA #2 DRX2 (#5-6)

TRX #10 Div Rx Extended Splitter Out

3 TRX #5 Div RX Basic Splitter Out Splitter In M2xA #3 DRX1 (#9-10)

TRX #6 Div Rx Basic Splitter Out

TRX #11 Div RX Extended Splitter Out Splitter In M2xA #3 DRX2 (#9-10)

TRX #12 Div Rx Extended Splitter Out

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5.2.2 RF diversity cabling for outdoor applications

Table 7. Installing RF diversity kit

Sector Talk-family BTS UltraSite EDGE BTS

1 TRX #3 Div Receive TALK Basic M2xA #1 DRX 1 (#1-2)

TRX #4 Div Receive TALK Basic

TRX #5 Div Receive TALK Basic M2xA #1 DRX 2 (#1-2)

TRX #6 Div Receive TALK Basic

RMU #1 Main Receive Rx5 TALK Basic TSxx #1 DIV Rx

RMU #1 Main Receive Rx6 TALK Basic TSxx #2 DIV Rx

2 TRX #1 Div Receive TALK Basic M2xA #2 DRX 1 (#5-6)

TRX #2 Div Receive TALK Basic

TRX #7 Div Receive TALK Extended M2xA #2 DRX 2 (#5-6)

TRX #8 Div Receive TALK Extended

RMU #2 Main Receive Rx5 TALK Extended TSxx #3 DIV Rx (#5)

RMU #2 Main Receive Rx6 TALK Extended TSxx #4 DIV Rx (#6)

3 TRX #9 Div Receive TALK Extended M2xA #3 DRX 1 (#9-10)

TRX #10 Div Receive TALK Extended

TRX #11 Div Receive TALK Extended M2xA #3 DRX 2 (#9-10)

TRX #12 Div Receive TALK Extended

RMU #3 Main Receive Rx5 TALK Extended TSxx #5 DIV Rx (#9)

RMU #3 Main Receive Rx6 TALK Extended TSxx #6 DIV Rx (#10)

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Table 8. Routing SPKA splitter cable connections

Sector From (Talk-family BTS) To (Talk) From (Talk) To(UltraSite)

1 TRX #3 Div RX Basic Splitter Out Splitter In M2xA #1 DRX1 (#1-2)

TRX #4 Div Rx Basic Splitter Out

TRX #5 Div RX Basic Splitter Out Splitter In M2xA #1 DRX2 (#1-2)

TRX #6 Div Rx Basic Splitter Out

2 TRX #1 Div RX Basic Splitter Out Splitter In M2xA #2 DRX1 (#5-6)

TRX #2 Div Rx Basic Splitter Out

TRX #7 Div RX Extended Splitter Out Splitter In M2xA #2 DRX2 (#5-6)

TRX #8 Div Rx Extended Splitter Out

3 TRX #9 Div RX Extended Splitter Out Splitter In M2xA #3 DRX1 (#9-10)

TRX #10 Div Rx Extended Splitter Out

TRX #11 Div RX Extended Splitter Out Splitter In M2xA #3 DRX2 (#9-10)

TRX #12 Div Rx Extended Splitter Out

5.3 Talk 444RTC/UltraSite 444RTC cable connectionsof UltraSite EDGE BTS Co-site with Talk-family BTS

Table 9. Re-routing antenna connections

RMU #1 DIV Ant RTC #1 ANT

RMU #2 DIV Ant RTC #2 ANT

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Table 9. Re-routing antenna connections (cont.)

RMU #3 DIV Ant RTC #3 ANT

5.3.1 RF diversity cabling for indoor applications

Table 10. Installing RF diversity kit

Sector Talk-family BTS UltraSite BTS

1 TRX #1 Div Receive TALK Basic M6xA #1 DRX 1 Ultra #1

TRX #2 Div Receive TALK Basic M6xA #1 DRX 2 Ultra #1

TRX #7 Div Receive TALK Extended M6xA #1 DRX 3 Ultra #1

TRX #8 Div Receive TALK Extended M6xA #1 DRX 4 Ultra #1

RMU #1 Main Receive Rx5 TALK Basic TRX #1 DIV Rx Ultra #1

TRX #2 DIV Rx Ultra #1

RMU #1 Main Receive Rx6 TALK Basic TRX #3 DIV Rx Ultra #1

TRX #4 DIV Rx Ultra #1

2 TRX #3 Div Receive TALK Basic M6xA #2 DRX 1 Ultra #1

TRX #4 Div Receive TALK Basic M6xA #2 DRX 2 Ultra #1

TRX #9 Div Receive TALK Extended M6xA #2 DRX 3 Ultra #1

TRX #10 Div Receive TALK Extended M6xA #2 DRX 4 Ultra #1

RMU #2 Main Receive Rx5 TALK Basic TRX #5 DIV Rx Ultra #1

TRX #6 DIV Rx Ultra #1

RMU #2 Main Receive Rx6 TALK Basic TRX #7 DIV Rx Ultra #1

TRX #8 DIV Rx Ultra #1

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Table 10. Installing RF diversity kit (cont.)

Sector Talk-family BTS UltraSite BTS

3 TRX #5 Div Receive TALK Basic M6xA #3 DRX 1 Ultra #2

TRX #6 Div Receive TALK Basic M6xA #3 DRX 2 Ultra #2

TRX #11 Div Receive TALK Extended M6xA #3 DRX 3 Ultra #2

TRX #12 Div Receive TALK Extended M6xA #3 DRX 4 Ultra #2

RMU #3 Main Receive Rx5 TALK Basic TRX #9 DIV Rx Ultra #2

TRX #10 DIV Rx Ultra #2

RMU #3 Main Receive Rx6 TALK Basic TRX #11 DIV Rx Ultra #2

TRX #12 DIV Rx Ultra #2

Note

With UltraSite EDGE BTS Midi, the UltraSite BTS cabinet numbering differs.For example, Ultra #1 vs. Ultra #2.

Table 11. Routing SPKA splitter cable connections

Sector From (Talk-familyBTS)

To (UltraSite) From To (UltraSite)

1 RMU #1 MainReceive Rx5

Splitter In Splitter Out TRX #1 Div Rx

Splitter Out TRX #2 Div Rx

RMU #1 MainReceive Rx6

Splitter In Splitter Out TRX #3 Div Rx

Splitter Out TRX #4 Div Rx

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Table 11. Routing SPKA splitter cable connections (cont.)

Sector From (Talk-familyBTS)

To (UltraSite) From To (UltraSite)

2 RMU #2 MainReceive Rx5

Splitter In Splitter Out TRX #5 Div Rx

Splitter Out TRX #6 Div Rx

RMU #2 MainReceive Rx6

Splitter In Splitter Out TRX #7 Div Rx

Splitter Out TRX #8 Div Rx

3 RMU #3 MainReceive Rx5

Splitter In Splitter Out TRX #9 Div Rx

Splitter Out TRX #10 Div Rx

RMU #3 MainReceive Rx6

Splitter In Splitter Out TRX #11 Div Rx

Splitter Out TRX #12 Div Rx

5.3.2 RF diversity cabling for outdoor applications

Table 12. Installing RF diversity kit

Sector Talk-family BTS UltraSite BTS

1 TRX #3 Div Receive TALK Basic M6xA #1 DRX 1 Ultra #1

TRX #4 Div Receive TALK Basic M6xA #1 DRX 2 Ultra #1

TRX #5 Div Receive TALK Basic M6xA #1 DRX 3 Ultra #1

TRX #6 Div Receive TALK Basic M6xA #1 DRX 4 Ultra #1

RMU #1 Main Receive Rx5 TALK Basic TRX #1 DIV Rx Ultra #1

TRX #2 DIV Rx Ultra #1

RMU #1 Main Receive Rx6 TALK Basic TRX #3 DIV Rx Ultra #1

TRX #4 DIV Rx Ultra #1

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Table 12. Installing RF diversity kit (cont.)

Sector Talk-family BTS UltraSite BTS

2 TRX #1 Div Receive TALK Basic M6xA #2 DRX 1 Ultra #1

TRX #2 Div Receive TALK Basic M6xA #2 DRX 2 Ultra #1

TRX #7 Div Receive TALK Extended M6xA #2 DRX 3 Ultra #1

TRX #8 Div Receive TALK Extended M6xA #2 DRX 4 Ultra #1

RMU #2 Main Receive Rx5 TALKExtended

TRX #5 DIV Rx Ultra #1

TRX #6 DIV Rx Ultra #1

RMU #2 Main Receive Rx6 TALKExtended

TRX #7 DIV Rx Ultra #1

TRX #8 DIV Rx Ultra #1

3 TRX #9 Div Receive TALK Extended M6xA #3 DRX 1 Ultra #2

TRX #10 Div Receive TALK Extended M6xA #3 DRX 2 Ultra #2

TRX #11 Div Receive TALK Extended M6xA #3 DRX 3 Ultra #2

TRX #12 Div Receive TALK Extended M6xA #3 DRX 4 Ultra #2

RMU #3 Main Receive Rx5 TALKExtended

TRX #9 DIV Rx Ultra #2

TRX #10 DIV Rx Ultra #2

RMU #3 Main Receive Rx6 TALKExtended

TRX #11 DIV Rx Ultra #2

TRX #12 DIV Rx Ultra #2

Note

With UltraSite EDGE BTS Midi, the UltraSite BTS cabinet numbering differs.For example, Ultra #1 vs. Ultra #2.

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Table 13. Routing SPKA splitter cable connections

Sector From (Talk-familyBTS)

To (UltraSite) From To (UltraSite)

1 RMU #1 MainReceive Rx5

Splitter In Splitter Out TRX #1 Div Rx

Splitter Out TRX #2 Div Rx

RMU #1 MainReceive Rx6

Splitter In Splitter Out TRX #3 Div Rx

Splitter Out TRX #4 Div Rx

2 RMU #2 MainReceive Rx5

Splitter In Splitter Out TRX #5 Div Rx

Splitter Out TRX #6 Div Rx

RMU #2 MainReceive Rx6

Splitter In Splitter Out TRX #7 Div Rx

Splitter Out TRX #8 Div Rx

3 RMU #3 MainReceive Rx5

Splitter In Splitter Out TRX #9 Div Rx

Splitter Out TRX #10 Div Rx

RMU #3 MainReceive Rx6

Splitter In Splitter Out TRX #11 Div Rx

Splitter Out TRX #12 Div Rx

5.4 Talk 666RTC/UltraSite 222DVxx WBC 2:1 cableconnections of UltraSite EDGE BTS Co-site withTalk-family BTS

Note

The following numbers in parentheses refer to the slots from 1-12, from top tobottom in the cabinet.

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Table 14. Re-routing antenna connections

Talk BTS - Disconnect UltraSite BTS - Connect

RMU #1 DIV Ant TALK DVxx #1A ANT (#2-3A)

RMU #2 DIV Ant TALK DVxx #1B ANT (#2-3A)

RMU #3 DIV Ant TALK DVxx #2A ANT1 (#6-7A)

5.4.1 RF diversity cabling for indoor applications

Table 15. Installing RF diversity kit

Sector Talk-family BTS UltraSite EDGE BTS

1 TRX #1 Div Receive TALK Basic #1 M2xA #1 DRX 1 Ultra #1 (#1-2)

TRX #2 Div Receive TALK Basic #1 M2xA #1 DRX 2 (#1-2)

TRX #7 Div Receive TALK Extended M2xA #2 RX 1 (#3-4)

TRX #8 Div Receive TALK Extended M2xA #2 RX 2 (#3-4)

TRX #9 Div Receive TALK Extended M2xA #2 DRX 1 (#3-4)

TRX #10 Div Receive TALK Extended M2xA #2 DRX 2 (#3-4)

RMU #1 Div Receive Rx1 Basic #1 TSxx #1 DIV Rx

RMU #1 Div Receive Rx2 Basic #1 TSxx #2 DIV Rx

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Table 15. Installing RF diversity kit (cont.)

Sector Talk-family BTS UltraSite EDGE BTS

2 TRX #3 Div Receive TALK Basic #1 M2xA #3 DRX 1 Ultra #1 (#5-6)

TRX #4 Div Receive TALK Basic #1 M2xA #3 DRX 2 (#5-6)

TRX #5 Div Receive TALK Basic #1 M2xA #4 RX 1 (#7-8)

TRX #6 Div Receive TALK Basic #1 M2xA #4 RX 2 (#7-8)

TRX #11 Div Receive TALK Extended M2xA #4 DRX 1 (#7-8)

TRX #12 Div Receive TALK Extended M2xA #4 DRX 2 (#7-8)

RMU #2 Div Receive Rx1 Basic #1 TSxx #3 DIV Rx (#5)

RMU #2 Div Receive Rx2 Basic #1 TRX #4 DIV Rx (#6)

3 TRX #1 Div Receive TALK Basic #2 M2xA #5 DRX 1 Ultra #1 (#9-10)

TRX #2 Div Receive TALK Basic #2 M2xA #5 DRX 2 (#9-10)

TRX #3 Div Receive TALK Basic #2 M2xA #6 RX 1 (#11-12)

TRX #4 Div Receive TALK Basic #2 M2xA #6 RX 2 (#11-12)

TRX #5 Div Receive TALK Basic #2 M2xA #6 DRX 1 (#11-12)

TRX #6 Div Receive TALK Basic #2 M2xA #6 DRX 2 (#11-12)

RMU #1 Div Receive Rx1 Basic #2 TSxx #5 DIV Rx (#9)

RMU #1 Div Receive Rx2 Basic #2 TSxx #6 DIV Rx (#10)

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Table 16. Routing SPKA splitter cable connections

Sector From (Talk-family BTS)

To (UltraSite) Cable P/N From To (UltraSite)

1 DVxx #1 Rx1 Splitter In 994131xx Splitter Out M2xA #1 RX IN (#1-2)

994131xx M2xA #1 DRX IN(#1-2)

DVxx #1 Rx1 Ext Splitter In 994131xx M2xA #2 RX IN (#3-4)

994131xx M2xA #2 DRX IN(#3-4)

2 DVxx #2 Rx1 Splitter In 994131xx Splitter Out M2xA #3 RX IN (#5-6)

994131xx M2xA #3 DRX IN(#5-6)

DVxx #2 Rx1 Ext Splitter In 994131xx M2xA #4 RX IN (#7-8)

994131xx M2xA #4 DRX IN(#7-8)

3 DVxx #3 Rx1 Splitter In 994131xx Splitter Out M2xA #5 RX IN (#9-10)

994131xx M2xA #5 DRX IN(#9-10)

DVxx #3 Rx1 Ext Splitter In 994131xx M2xA #6 RX IN(#11-12)

994131xx M2xA #6 DRX IN(#11-12)

Table 17. Routing RSKA splitter cable connections

Sector CableP/N

From (Talk) To (Talk) Cable P/N From (Talk) To (Talk)

1 RTC #1 RX out Splitter In 993563A Splitter Out RMU #1 ANT

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Table 17. Routing RSKA splitter cable connections (cont.)

Sector CableP/N

From (Talk) To (Talk) Cable P/N From (Talk) To (Talk)

993546A

Talk Basic #1 993547A RMU #1 DIVANT

2 RTC #2 RX out Splitter In 993564A Splitter Out RMU #2 ANT

993546A

Talk Basic #1 993547A RMU #2 DIVANT

3 RTC #1 RX out Splitter In 993563A or993564A

Splitter Out RMU #1 ANT

993546A

Talk Basic #2 993547A RMU #1 DIVANT

5.4.2 RF diversity cabling for outdoor applications

Table 18. Installing RF diversity kit

Sector Talk-family BTS UltraSite EDGE BTS

1 TRX #1 Div Receive TALK Basic #1 M2xA #1 DRX 1 Ultra #1 (#1-2)

TRX #2 Div Receive TALK Basic #1 M2xA #1 DRX 2 (#1-2)

TRX #3 Div Receive TALK Basic #1 M2xA #2 RX 1 (#3-4)

TRX #4 Div Receive TALK Basic #1 M2xA #2 RX 2 (#3-4)

TRX #5 Div Receive TALK Basic #1 M2xA #2 DRX 1 (#3-4)

TRX #6 Div Receive TALK Basic #1 M2xA #2 DRX 2 (#3-4)

RMU #1 Div Receive Rx1 Basic #1 TSxx #1 DIV Rx

RMU #1 Div Receive Rx2 Basic #1 TSxx #2 DIV Rx

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Table 18. Installing RF diversity kit (cont.)

Sector Talk-family BTS UltraSite EDGE BTS

2 TRX #7 Div Receive TALK Extended M2xA #3 DRX 1 Ultra #1 (#5-6)

TRX #8 Div Receive TALK Extended M2xA #3 DRX 2 (#5-6)

TRX #9 Div Receive TALK Extended M2xA #4 RX 1 (#7-8)

TRX #10 Div Receive TALK Extended M2xA #4 RX 2 (#7-8)

TRX #11 Div Receive TALK Extended M2xA #4 DRX 1 (#7-8)

TRX #12 Div Receive TALK Extended M2xA #4 DRX 2 (#7-8)

RMU #2 Div Receive Rx1 Extended TSxx #3 DIV Rx (#5)

RMU #2 Div Receive Rx2 Extended TSxx #4 DIV Rx (#6)

3 TRX #1 Div Receive TALK Basic #2 M2xA #5 DRX 1 Ultra #1 (#9-10)

TRX #2 Div Receive TALK Basic #2 M2xA #5 DRX 2 (#9-10)

TRX #3 Div Receive TALK Basic #2 M2xA #6 RX 1 (#11-12)

TRX #4 Div Receive TALK Basic #2 M2xA #6 RX 2 (#11-12)

TRX #5 Div Receive TALK Basic #2 M2xA #6 DRX 1 (#11-12)

TRX #6 Div Receive TALK Basic #2 M2xA #6 DRX 2 (#11-12)

RMU #1 Div Receive Rx1 Basic #2 TSxx #5 DIV Rx (#9)

RMU #1 Div Receive Rx2 Basic #2 TSxx #6 DIV Rx (#10)

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Table 19. Routing SPKA splitter cable connections

Sector From (Talk-family BTS)

To (UltraSite) Cable P/N From To (UltraSite)

1 DVxx #1 Rx1 Splitter In 994131xx Splitter Out M2xA #1 RX IN (#1-2)

994131xx M2xA #1 DRX IN(#1-2)

DVxx #1 Rx1 Ext Splitter In 994131xx M2xA #2 RX IN (#3-4)

994131xx M2xA #2 DRX IN(#3-4)

2 DVxx #2 Rx1 Splitter In 994131xx Splitter Out M2xA #3 RX IN (#5-6)

994131xx M2xA #3 DRX IN(#5-6)

DVxx #2 Rx1 Ext Splitter In 994131xx M2xA #4 RX IN (#7-8)

994131xx M2xA #4 DRX IN(#7-8)

3 DVxx #3 Rx1 Splitter In 994131xx Splitter Out M2xA #5 RX IN (#9-10)

994131xx M2xA #5 DRX IN(#9-10)

DVxx #3 Rx1 Ext Splitter In 994131xx M2xA #6 RX IN(#11-12)

994131xx M2xA #6 DRX IN(#11-12)

Table 20. Routing RSKA splitter cable connections

Sector CableP/N

From (Talk) To (Talk) Cable P/N From (Talk) To (Talk)

1 RTC #1 RX out Splitter In 993563A Splitter Out RMU #1 ANT

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Table 20. Routing RSKA splitter cable connections (cont.)

Sector CableP/N

From (Talk) To (Talk) Cable P/N From (Talk) To (Talk)

993546A

Talk Basic #1 993547A RMU #1 DIVANT

2 RTC #2 RX out Splitter In 993564A Splitter Out RMU #2 ANT

993546A

Talk Basic #1 993547A RMU #2 DIVANT

3 RTC #1 RX out Splitter In 993563A or993564A

Splitter Out RMU #1 ANT

993546A

Talk Basic #2 993547A RMU #1 DIVANT

5.5 Talk 666RTC/UltraSite 666RTC cable connectionsof UltraSite EDGE BTS Co-site with Talk-family BTS

Table 21. Re-routing antenna connections

Talk BTS - Disconnect UltraSite BTS - Connect

RMU #1 DIV Ant RTC #1 ANT

RMU #2 DIV Ant RTC #2 ANT

RMU #3 DIV Ant RTC #3 ANT

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5.5.1 RF diversity cabling for indoor applications

Table 22. Installing RF diversity kit

Sector Talk-family BTS UltraSite EDGE BTS

1 TRX #1 Div Receive TALK Basic #1 M6xA #1 DRX 1 Ultra #1

TRX #2 Div Receive TALK Basic #1 M6xA #1 DRX 2 Ultra #1

TRX #7 Div Receive TALK Extended M6xA #1 DRX 3 Ultra #1

TRX #8 Div Receive TALK Extended M6xA #1 DRX 4 Ultra #1

TRX #9 Div Receive TALK Extended M6xA #1 DRX 5 Ultra #1

TRX #10 Div Receive TALK Extended M6xA #1 DRX 6 Ultra #1

RMU #1 Div Receive Rx1 Basic #1 TRX #1 DIV Rx Ultra #1

RMU #1 Div Receive Rx2 Basic #1 TRX #2 DIV Rx Ultra #1

RMU #1 Div Receive Rx3 Basic #1 TRX #3 DIV Rx Ultra #1

RMU #1 Div Receive Rx4 Basic #1 TRX #4 DIV Rx Ultra #1

RMU #1 Div Receive Rx5 Basic #1 TRX #5 DIV Rx Ultra #1

RMU #1 Div Receive Rx6 Basic #1 TRX #6 DIV Rx Ultra #1

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Table 22. Installing RF diversity kit (cont.)

Sector Talk-family BTS UltraSite EDGE BTS

2 TRX #3 Div Receive TALK Basic #1 M6xA #2 DRX 1 Ultra #1

TRX #4 Div Receive TALK Basic #1 M6xA #2 DRX 2 Ultra #1

TRX #5 Div Receive TALK Basic #1 M6xA #2 DRX 3 Ultra #1

TRX #6 Div Receive TALK Basic #1 M6xA #2 DRX 4 Ultra #1

TRX #11 Div Receive TALK Extended M6xA #2 DRX 5 Ultra #1

TRX #12 Div Receive TALK Extended M6xA #2 DRX 6 Ultra #1

RMU #2 Div Receive Rx1 Basic #1 TRX #7 DIV Rx Ultra #1

RMU #2 Div Receive Rx2 Basic #1 TRX #8 DIV Rx Ultra #1

RMU #2 Div Receive Rx3 Basic #1 TRX #9 DIV Rx Ultra #1

RMU #2 Div Receive Rx4 Basic #1 TRX #10 DIV Rx Ultra #1

RMU #2 Div Receive Rx5 Basic #1 TRX #11 DIV Rx Ultra #1

RMU #2 Div Receive Rx6 Basic #1 TRX #12 DIV Rx Ultra #1

3 TRX #1 Div Receive TALK Basic #2 M6xA #3 DRX 1 Ultra #2

TRX #2 Div Receive TALK Basic #2 M6xA #3 DRX 2 Ultra #2

TRX #3 Div Receive TALK Basic #2 M6xA #3 DRX 3 Ultra #2

TRX #4 Div Receive TALK Basic #2 M6xA #3 DRX 4 Ultra #2

TRX #5 Div Receive TALK Basic #2 M6xA #3 DRX 4 Ultra #2

TRX #6 Div Receive TALK Basic #2 M6xA #3 DRX 6 Ultra #2

RMU #1 Div Receive Rx1 Basic #2 TRX #13 DIV Rx Ultra #2

RMU #1 Div Receive Rx2 Basic #2 TRX #14 DIV Rx Ultra #2

RMU #1 Div Receive Rx3 Basic #2 TRX #15 DIV Rx Ultra #2

RMU #1 Div Receive Rx4 Basic #2 TRX #16 DIV Rx Ultra #2

RMU #1 Div Receive Rx5 Basic #2 TRX #17 DIV Rx Ultra #2

RMU #1 Div Receive Rx6 Basic #2 TRX #18 DIV Rx Ultra #2

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Table 23. Routing RSKA splitter cable connections

Sector CableP/N

From (Talk) To (Talk) Cable P/N From (Talk) To (Talk)

1 RTC #1 RX out Splitter In 993563A Splitter Out RMU #1 ANT

993546A

Talk Basic #1 993547A RMU #1 DIVANT

2 RTC #2 RX out Splitter In 993564A Splitter Out RMU #2 ANT

993546A

Talk Basic #1 993547A RMU #2 DIVANT

3 RTC #1 RX out Splitter In 993563A or993564A

Splitter Out RMU #1 ANT

993546A

Talk Basic #2 993547A RMU #1 DIVANT

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5.5.2 RF diversity cabling for outdoor applications

Table 24. Installing RF diversity kit

Sector Talk-family BTS UltraSite EDGE BTS

1 TRX #1 Div Receive TALK Basic #1 M6xA #1 DRX 1 Ultra #1

TRX #2 Div Receive TALK Basic #1 M6xA #1 DRX 2 Ultra #1

TRX #3 Div Receive TALK Basic #1 M6xA #1 DRX 3 Ultra #1

TRX #4 Div Receive TALK Basic #1 M6xA #1 DRX 4 Ultra #1

TRX #5 Div Receive TALK Basic #1 M6xA #1 DRX 5 Ultra #1

TRX #6 Div Receive TALK Basic #1 M6xA #1 DRX 6 Ultra #1

RMU #1 Div Receive Rx1 Basic #1 TRX #1 DIV Rx Ultra #1

RMU #1 Div Receive Rx2 Basic #1 TRX #2 DIV Rx Ultra #1

RMU #1 Div Receive Rx3 Basic #1 TRX #3 DIV Rx Ultra #1

RMU #1 Div Receive Rx4 Basic #1 TRX #4 DIV Rx Ultra #1

RMU #1 Div Receive Rx5 Basic #1 TRX #5 DIV Rx Ultra #1

RMU #1 Div Receive Rx6 Basic #1 TRX #6 DIV Rx Ultra #1

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Table 24. Installing RF diversity kit (cont.)

Sector Talk-family BTS UltraSite EDGE BTS

2 TRX #7 Div Receive TALK Extended M6xA #2 DRX 1 Ultra #1

TRX #8 Div Receive TALK Extended M6xA #2 DRX 2 Ultra #1

TRX #9 Div Receive TALK Extended M6xA #2 DRX 3 Ultra #1

TRX #10 Div Receive TALK Extended M6xA #2 DRX 4 Ultra #1

TRX #11 Div Receive TALK Extended M6xA #2 DRX 5 Ultra #1

TRX #12 Div Receive TALK Extended M6xA #2 DRX 6 Ultra #1

RMU #2 Div Receive Rx1 Extended TRX #7 DIV Rx Ultra #1

RMU #2 Div Receive Rx2 Extended TRX #8 DIV Rx Ultra #1

RMU #2 Div Receive Rx3 Extended TRX #9 DIV Rx Ultra #1

RMU #2 Div Receive Rx4 Extended TRX #10 DIV Rx Ultra #1

RMU #2 Div Receive Rx5 Extended TRX #11 DIV Rx Ultra #1

RMU #2 Div Receive Rx6 Extended TRX #12 DIV Rx Ultra #1

3 TRX #1 Div Receive TALK Basic #2 M6xA #3 DRX 1 Ultra #2

TRX #2 Div Receive TALK Basic #2 M6xA #3 DRX 2 Ultra #2

TRX #3 Div Receive TALK Basic #2 M6xA #3 DRX 3 Ultra #2

TRX #4 Div Receive TALK Basic #2 M6xA #3 DRX 4 Ultra #2

TRX #5 Div Receive TALK Basic #2 M6xA #3 DRX 5 Ultra #2

TRX #6 Div Receive TALK Basic #2 M6xA #3 DRX 6 Ultra #2

RMU #1 Div Receive Rx1 Basic #2 TRX #13 DIV Rx Ultra #2

RMU #1 Div Receive Rx2 Basic #2 TRX #14 DIV Rx Ultra #2

RMU #1 Div Receive Rx3 Basic #2 TRX #15 DIV Rx Ultra #2

RMU #1 Div Receive Rx4 Basic #2 TRX #16 DIV Rx Ultra #2

RMU #1 Div Receive Rx5 Basic #2 TRX #17 DIV Rx Ultra #2

RMU #1 Div Receive Rx6 Basic #2 TRX #18 DIV Rx Ultra #2

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Table 25. Routing RSKA splitter cable connections

Sector CableP/N

From (Talk) To (Talk) Cable P/N From (Talk) To (Talk)

1 RTC #1 RX out Splitter In 993563A Splitter Out RMU #1 ANT

993546A

Talk Basic #1 993547A RMU #1 DIVANT

2 RTC #2 RX out Splitter In 993564A Splitter Out RMU #2 ANT

993546A

Talk Basic #1 993547A RMU #2 DIVANT

3 RTC #1 RX out Splitter In 993563A or993564A

Splitter Out RMU #1 ANT

993546A

Talk Basic #2 993547A RMU #1 DIVANT

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6 Site requirements for UltraSite EDGEBTS

6.1 Storage conditions for the UltraSite EDGE BTSdelivery

Before you accept the delivery of the UltraSite EDGE BTS, you must ensureacceptable climatic and mechanical conditions for its storage until installation.The UltraSite EDGE BTS is not operational under these conditions.

Table 26. Climatic conditions

Condition Parameter

Temperature range -45° C to +45° C

(-49° F to +113° F)

Relative humidity 8% to 100%

Absolute humidity 0.03 to 30 g/m3

Rain intensity 15 mm/min. maximum

(0.59 in./min. maximum)

Change rate of temperature 0.5° C/min. maximum

(32.9° F/min. maximum)

Air pressure 70 to 106 kPa

Solar radiation 1120 W/m2 maximum

Movement of surrounding air 50 m/s

(2.24 miles/hour)

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Table 26. Climatic conditions (cont.)

Condition Parameter

Low rain temperature 5° C

(41° F)

minimum

Water from sources other than rain Splashing water

Icing and frosting Yes

Table 27. Mechanical conditions

Condition Parameter

Stationary vibration, sinusoidal (peakvalue of displacement amplitude) atfrequency range 9 to 200 Hz

10 mm

(0.39 in.)

Non-stationary vibration, including shock:peak value of acceleration

100 m/s2

Static load 5 kPa

6.2 Transportation conditions for the UltraSite EDGEBTS delivery

Before transporting the UltraSite EDGE BTS, you must ensure acceptableclimatic and mechanical conditions while loading and unloading. The BTS is notoperational under these conditions.

Caution

To prevent damage to the equipment, transport UltraSite EDGE BTS to theinstallation site in the original transportation package.

Caution

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The typical transportation time to the installation site is 30 days or less. If the totaltransportation time exceeds 30 days, consider additional storage or packagingprecautions.

Table 28. Climatic conditions

Condition Parameter

Temperature range -40° C to +70° C

(-40° F to +158° F)

Change of temperature:

. air/air -40° C to +30° C

(-40° F to +86° F)

. air/water +40° C to +5° C

(+104° F to +41° F)

Relative humidity, not combined with rapidtemperature changes

95% at:

+45° C

(+113° F)

Relative humidity, combined with rapidtemperature changes; air/air at high relativehumidity

95% at:

-45° C to +30° C

(-49° F to +86° F)

Absolute humidity, combined with rapidtemperature changes: air/air at high watercontent

60 g/m3 at:

+70° C to +15° C

(+158° F to +59° F)

Low air pressure 70 kPa minimum

Change in air pressure Not applicable

Movement of surrounding air 20 m/s maximum

Rain intensity 6 mm/min. maximum

Solar radiation 1120 W/m2 maximum

Heat radiation 600 W/m2 maximum

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Table 28. Climatic conditions (cont.)

Condition Parameter

Conditions of water from sources other thanrain

1 m/s maximum

Conditions of wetness Wet surfaces

Table 29. Mechanical conditions

Conditions Parameter

Stationary vibration, sinusoidal (peak value ofdisplacement amplitude) at the followingfrequency range:

. 2 to 9 Hz 3.5 mm

. 9 to 200 Hz 10 m/s2

. 200 to 500 Hz 15 m/s2

Stationary vibration, random: accelerationspectral density at the following frequencyrange:

. 10 to 200 Hz 1 m2/s3

. 200 to 2000 Hz 0.3 m2/s3

Peak acceleration for non-stationary vibration,including shock:

. Duration 11 ms 100 m/s2

. Duration 6 ms 300 m/s2

Free fall:

. Mass < 20 kg 1.2 m

. Mass 20 to 100 kg 1.0 m

. Mass > 100 kg 0.25 m

Toppling:

. Mass < 20 kg Around any edges

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Table 29. Mechanical conditions (cont.)

Conditions Parameter

. Mass 20 to 100 kg Around any edges

. Mass > 100 kg Not allowed

Rolling, Pitching:

. Angle 35°

. Period 8 s

Steady state acceleration 20 m/s2

Static load 10 kPa

6.3 UltraSite EDGE BTS safety distance requirements(compliance boundaries)

Base Station equipment generates Radio Frequency (RF) energy, which has athermal effect when absorbed by the human body. For this reason, complianceboundaries specific to this equipment have been established. The thermal effectsof radio frequency energy can exceed safety levels, when a person is inside theestablished compliance boundaries. Observing the compliance boundary, andeliminating access to areas inside the established boundaries, ensures that thegeneral public has no exposure to levels in excess of the safety limits.

Installation engineers must be aware of the potential risk of the thermal effects ofradio frequency energy and how to protect themselves against undue risk.

Warning

The equipment generates electromagnetic radiation that can exceed safetylevels when an installer is working near the antennas. Observe the minimumdistance precautions. To calculate minimum safe distance refer to theformula presented in ANNEX B: Far-field calculation method.

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Warning

Do not install Nokia UltraSite EDGE BTS or its antennas in areas wherethere is a potential risk for interference with inadequately shielded medicalequipment, such as life support devices, hearing aids, or other electrically ormagnetically sensitive devices.

Warning

Before installing Nokia UltraSite EDGE BTS or its antennas, identify theemission of nearby antennas to properly manage ambient emissions.

Warning

Observe the six-hour maximum time limit for safety when working withantennas.

Warning

Do not go any closer to a live antenna than the compliance boundary. Theradio frequency energy generated by the antenna poses a serious health risk.

Warning

If performing installation or maintenance procedures on the BTS, ensurethat all transmitters in the area are switched off.

Warning

The BTS safety distance calculation in our example is for reference only.Ensure the measurements for the actual site are used during installation ormaintenance.

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When assessing the applicable compliance boundaries, European standards EN50383, EN 50384, EN 50385 and Council Recommendation 1999/519/EC foroccupational and general public electromagnetic exposure limits, apply ANNEXA: Council recommendation 1999/519/EC for occupational and general publicelectromagnetic exposure limits.

6.3.1 Assessment applying SAR measurements

European standards EN 50383, EN 50384, and EN 50385 do not includespecifications for whole body SAR measurements. Whole body SARmeasurements are not required for transmitters that have maximum output powerlevels too low to result in exposure levels that can reach the whole body SARcompliance limits under any conditions. Whole body SAR exclusion powerlevels have been based on worst-case assumptions.

Table 30. Whole body SAR exclusion power levels

Exposure category Maximum output power (rms)

General public Max power [W] = general public wholebody SAR limit 0.08 [W/kg] * 4-year oldchild mass 12.5 [kg] (27.56 lb) = 1 W

Occupational Max power [W] = occupational wholebody SAR limit 0.4 [W/kg] * 16-year oldworker 42 [kg] (92.59 lb) = 16.8 W

Localised SAR measurement can be used only when:

1. The separation between the phantom and the outer surface of the energygenerating element is 40 cm (15.74 in.) or less.

2. The surface area of the energy-generating element is less than 60 cm(23.62 in.) by 30 cm (11.81 in.).

3. The frequency is in the range of 800 to 3000 MHz.

For the reasons above, SAR measurements are not applicable to Nokia UltraSiteEDGE Base Station.

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6.3.2 Assessment of compliance boundary

The compliance boundary is defined as the area around the antenna. The centre ofthe antenna is located at the origo. Distances from the antenna are shown in theArea around the antenna figure. The top and side views are shown in the Antennaside and top view figure.

Figure 27. Area around the antenna

0

0

0

Dsideback

DdownDrear

Dfront front

front

Dside

Dside

Dup

DN03400968

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Figure 28. Antenna side and top view

The compliance boundaries for the Nokia UltraSite EDGE Base Station are givenin the Dimensions of compliance boundary in metres table, for different powerlevels at the antenna input. Typical and worst-case power level configurations forgeneral public (GP) and occupational (O) exposure limits are included.

Table 31. Dimensions of compliance boundary in metres

Dfront Dfronttriangle

Drear Dside-back

Dside-front

Dup Ddown

Freq.(MHz)

Power atantennainput (W)

GP O GP O GP O G-P

O G-P

O G-P

O G-P

O

900 16 4.5 0.4 2.4 0 0.2 0.-05

0.-4

0-.2

1.-15

0-.2

0-.9

0-.-6-5

0.-9

0.-65

900 95 10.-7

4.9 3.5 2.2 0.4 0.-25

0.-7

0-.3

3.-1

1-.3

1-.3

0-.9

1.-3

0.-9

DN03400995

1 2

Dsideback

Drear

backDside

Dfronttriangle

Dsidefront

Dsidefront

Drear

Dup

Ddown

Dfronttriangle

Dfront

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Table 31. Dimensions of compliance boundary in metres (cont.)

Dfront Dfronttriangle

Drear Dside-back

Dside-front

Dup Ddown

1800 16 2.9-5

1.-15

1 0 0.-14

0 0.-2

0-.1

0.-95

0-.-15

0-.5

0-.5

0.-5

0.-5

1800 95 7.0-5

3.3 2 1 0.-45

0.-35

0.-7

0-.3

2.-25

1-.-05

0-.-65

0-.5

0.-65

0.-5

900-18001

32 6.2-5

2.-25

2.4 0 0.3 0.-05

0.-5

0-.-3-5

1.-75

0-.-35

0-.-95

0-.8

0.-95

0.-8

900-18001

190 14.-9

6.-95

3.5 1.9 0.-45

0.-35

0.-7

0-.3

4.-4

1-.-95

1-.-55

0-.-9-5

1.-55

0.-95

900-1800-21001

20 4.9-5

0.-55

2.4 0 0.3 0.-05

0.-5

0-.-2-5

1.-3

0-.-25

0-.9

0-.-6-5

0.-9

0.-65

900-1800-21001

100 10.-9

5.-05

3.5 2.2 0.4 0.-25

0.-7

0-.3

3.-15

1-.-35

1-.3

0-.9

1.-3

0.-9

1For dual and triple mode operation, a conservative approach has been chosenand lower frequency limit-lower limit has been used.

Note

The component specifications for 900 MHz and 1800 MHz also apply to 800MHz and 1900 MHz products and can be used to demonstrate compliance withFCC guidelines for human exposure to radiofrequency electromagnetic fieldscontained in FCC document OET Bulletin 65 (August 1997).

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6.3.3 Typical configuration

The antenna is connected through a connector and cable(s) to the BTS as shownin the Antenna connection to the BTS figure.

Figure 29. Antenna connection to the BTS

Table 32. Detailed description of components - Nokia UltraSite GSM/EDGE900

Nokia UltraSite GSM/EDGE 900

Typical Case

Full band, 2 wayWideband combining

Worst Case

Full band, 6 carriers

Power (Pout) 16.6 W (42.2 dBm) 34.5 W (45.4 dBm)

To the base station

Antenna connector

Cable

Antenna

DN03401004

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Table 32. Detailed description of components - Nokia UltraSite GSM/EDGE900 (cont.)

Nokia UltraSite GSM/EDGE 900

Typical Case

Full band, 2 wayWideband combining

Worst Case

Full band, 6 carriers

Total connector loss 0.0 dB 0.0 dB

Total cable loss 2.0 dB 0.0 dB

Total Loss (L) = Totalconnector loss + Totalcable loss

2.0 dB 0.0 dB

Number of transmitterunits (N)

2 6

Power at antenna input =PoutN10

-L/1020.1 W (43.2 dBm) 207 W (53.1 dBm)

Table 33. Detailed description of components - Nokia UltraSite GSM/EDGE1800

Nokia UltraSite GSM/EDGE 1800

Typical Case

Full band, 2 wayWideband combining

Worst Case

Full band, 6 carriers

Power (Pout) 15.8 W (42.0 dBm) 30.9 W (44.9 dBm)

Total connector loss 0.0 dB 0.0 dB

Total cable loss 2.0 dB 0.0 dB

Total Loss (L) = Totalconnector loss + Totalcable loss

2.0 dB 0.0 dB

Number of transmitterunits (N)

2 6

Power at antenna input =PoutN10

-L/1020 W (43.0 dBm) 185.4 W (52.7 dBm)

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Table 34. Detailed description of components - Nokia UltraSite GSM/EDGEDual Band 900/1800

Nokia UltraSite GSM/EDGE Dual Band 900/1800

Typical Case

Full band, 2 wayWideband combining

Worst Case

Full band, 6 carriers

Power 900/1800 (Pout) 15.7 W / 15.0 W (41.95dBm / 41.75 dBm)

33.7 W / 30.2 W (45.3dBm / 44.8 dBm)

Total connector loss 0.0 dB 0.0 dB

Total cable loss 2.0 dB/band 0.0 dB

Total Loss (L) = Totalconnector loss + Totalcable loss

2.0 dB/band 0.0 dB

Number of transmitterunits (N)

2/band (4 total) 6/band (12 total)

Power at antenna input =PoutN10

-L/1038.7 W (45.9 dBm) 383 W (55.8 dBm)

Note

The component specifications for 900 MHz and 1800 MHz also apply to 800MHz and 1900 MHz products and can be used to demonstrate compliance withFCC guidelines for human exposure to radiofrequency electromagnetic fieldscontained in FCC document OET Bulletin 65 (August 1997).

Table 35. Detailed description of components - Nokia UltraSite GSM/EDGEWCDMA

Nokia UltraSite GSM/EDGE WCDMA

Typical Case

Full band, 2 wayWideband combining

Worst Case

Full band, 6 carriers

Power 1800/WCDMA 1

(Pout)15 W / 5 W (41.75 dBm /37.0 dBm)

30.2 W / 4.9 W (44.8 dBm /36.9 dBm)

Total connector loss 0.0 dB 0.0 dB

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Table 35. Detailed description of components - Nokia UltraSite GSM/EDGEWCDMA (cont.)

Nokia UltraSite GSM/EDGE WCDMA

Typical Case

Full band, 2 wayWideband combining

Worst Case

Full band, 6 carriers

Total cable loss 2.0 dB/band 0.0 dB

Total Loss (L) = Totalconnector loss + Totalcable loss

2.0 dB 0.0 dB

Number of transmitterunits (N)

2 (GSM/EDGE), 1(WCDMA)

6 (GSM/EDGE), 1(WCDMA)

Power at antenna input =PoutN10

-L/10219.0 W (43.4 dBm) 186.1 W (52.7 dBm)

1 WCDMA power equals 5 W minus Duplexer loss.

Table 36. Typical antenna configuration

900 MHz 1800-2100 MHz 900-1800-2100MHz

Gain 18 dBi 17.2 dBi 18 dBi

Half-power beamwidth

H-plane: 60 deg. H-plane: 68 deg. H-plane: 60 deg.

E-plane: 8 deg. E-plane: 10 deg. E-plane: 8 deg.

Electrical downtilt 0 deg 0 deg 0 deg

Height/width/depth 2300 / 500 / 200mm

102 / 10.2 / 4.7in.

1000 / 200 / 100mm

51 / 6.3 / 2.8 in.

2300 / 400 / 200mm

98.4 / 10.6 / 5.5 in.

When using different configurations

In the Dimensions of compliance boundary in metres table, the complianceboundaries are given for different power levels, including the typical and worst-case levels. If an exposure limit, antenna and/or configuration is used that doesnot correspond to the levels or frequencies given in the Dimensions ofcompliance boundary in metres table, the compliance boundary must berecalculated according to EN 50383.

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The formula for calculating the compliance boundary using the far-field model,which is referenced in EN 50383, is given in ANNEX B: Far-field calculationmethod.

6.3.4 ANNEX A: Council recommendation 1999/519/EC for occupationaland general public electromagnetic exposure limits

Table 37. Basic restrictions

Exposurecharacteris-tics

Frequencyrange

Whole bodyaverageSAR (W kg-1

LocalisedSAR (headand trunk)W kg-1

LocalisedSAR (limbs)W kg-1

Occupationalexposure

10 MHz - 10GHz

0.4 10 20

Generalpublicexposure

10 MHz - 10GHz

0.08 2 4

Note

All SAR values are to be averaged over any period of 6 minutes.

Note

Localised SAR averaging mass is any 10g (0.02 lb) of contiguous tissue. Themaximum SAR obtained should be the value that is used for the estimation ofexposure.

Note

Basic restrictions between 10 GHz and 300 GHz are given in power densities. Foroccupational exposure, it is 50 Wm-2 and for general public exposure, it is 10Wm-2.

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Table 38. Reference values calculated from basic restrictions

Exposurecharacteristics

Frequencyrange

Electric fieldstrength V/m

Equivalentplane wavepower density S(W m-2)

Occupationalexposure

10 - 400 MHz 61 10

400 - 2000 MHz 3f1/2 f/40

2 - 300 GHz 137 50

General publicexposure

10 - 400 MHz 28 2

400 - 2000 MHz 1.375f1/2 f/200

2 - 300 GHz 61 10

f = frequency in MHz

Note

For frequencies between 100 KHz and 10 GHz, S is to be averaged over anyperiod of 6 minutes.

Note

For frequencies exceeding 10 GHz, S is to be averaged over any period of 68/f1.05

minutes (f in GHz).

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6.3.5 ANNEX B: Far-field calculation method

This model is applicable for calculating the compliance boundary for the far-fieldregion and over-estimates the compliance boundary for the radiating near-fieldregion. It is not applicable for calculating the compliance boundary for thereactive near-field region where the distance from the antenna is less than orequal to » /4, which is 3.75 cm at 2000 MHz. Therefore, all the calculations arevalid when the compliance boundary is greater than or equal to the antennadimensions plus » /4.

The compliance boundary in metres from an antenna, or rmin, is calculatedaccording to the Formula for safety distances.

Figure 30. Formula for safety distances

The meaning of each formula component is as follows:

. N is the number of transmitters per one antenna

. G is the antenna gain (dBi)

. L is the minimum cable losses (dB)

. Pout is the maximum power of one transmitter unit (W)

. S is the power density limit (W/m2)

Note

In the far-field, the field calculation does not take into account the antenna size,which is assumed to be a point source. Therefore, when calculating thecompliance boundary, the far-field data, antenna size, and reactive field criteriamust be taken into account.

rmin =N10 P4 S

(G-L)

10

DN02152589

out

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6.4 Operating conditions for UltraSite EDGE BTS

This section describes the climatic and mechanical conditions acceptable foroperation of Indoor/Outdoor UltraSite EDGE BTS. The BTS is not for portableuse. However, short periods of handling during installation, down time, andmaintenance are acceptable.

For detailed information on UltraSite EDGE BTS, see Technical overview ofUltraSite EDGE BTS.

6.4.1 Climatic conditions

Table 39. Climatic conditions for operation

Condition Indoor Outdoor

Temperature rangewithout heater

-5° C to +50° C -10° C to +50° C with ODFAor OEFA installed

(+23° F to +122° F) (14° F to +122° F)

Temperature range withheater

Not applicable -33° C to +50° C

(-27.4° F to +122° F)

Change rate oftemperature

0.5° C/min. (32.9° F)maximum

0.5° C/min. (32.9° F)maximum

Relative humidity 5% to 95% 15% to 100%

Absolute humidity 1 g/m3 to 29 g/m3 0.26 g/m3 to 36 g/m3

Air pressure 70 kPa to 106 kPa 70 kPa to 106 kPa

Movement of surroundingair

5 m/s

(9.72 miles/hour)maximum

50 m/s

(97.2 miles/hour) maximum

Solar radiation 700 W/m2 maximum 1120 W/m2 maximum

Rain intensity Not applicable 6 mm/min.

(0.24 in./min.)

maximum

Low rain temperature Not applicable 5° C minimum

(41° F minimum)

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Table 39. Climatic conditions for operation (cont.)

Condition Indoor Outdoor

Water from sources otherthan rain

Not applicable Splashing water

Wind driven rain, snow, orhail

Not applicable Yes

Icing and frosting Not applicable Yes

Condensation Yes Yes

6.4.2 Mechanical conditions

Table 40. Maximum mechanical conditions for operation

Condition Indoor Outdoor

Stationary vibration,sinusoidal (peak value ofdisplacement amplitude)at frequency range:

. 2 to 9 Hz 3.5 m/s2 Not Applicable

. 9 to 200 Hz 10 m/s2 Not Applicable

. 200 to 500 Hz 15 m/s2 Not Applicable

Peak acceleration for non-stationary vibration,including shock:

. Duration 22 ms 40 m/s2 Not Applicable

. Duration 6 ms Not Applicable 250 m/s2

Peak values of baseacceleration in earthquakeconditions at the followingfrequencies:

. 0.3 Hz 2 m/s2 2 m/s2

. 0.6 Hz 20 m/s2 20 m/s2

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Table 40. Maximum mechanical conditions for operation (cont.)

Condition Indoor Outdoor

. 5.0 Hz 20 m/s2 20 m/s2

. 15.0 Hz 6 m/s2 6 m/s2

. 50.0 Hz 6 m/s2 6 m/s2

6.5 Space requirements for Indoor UltraSite EDGE BTS

6.5.1 Dimensions and weights of cabinets and units

Dimensions and weights of UltraSite EDGE BTS indoor cabinets

Warning

Empty CRMA cabinet cores weigh 79 kg (155 lb). Nokia recommends thatyou use a lifting device when moving a cabinet core.

Table 41. Dimensions and weights of indoorcabinets

Parameter Indoor IDCA

Height 1800 mm

70.9 in.

Depth 620 mm1

24.4 in.

Width 600 mm

23.6 in.

Maximum cabinet weight(without units)

84 kg

185 lb

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1Includes 52 mm (2 in.) air space required at rear of cabinet.

Weights of UltraSite EDGE BTS units

Table 42. Weights of units

Unit Value (metric) Value (imperial)

Base Operations andInterfaces (BOIx)

1.6 kg 3.6 lb

Dual Band Diplex FilterUnit (DU2A)

2.0 kg 4.42 lb

Transceiver BasebandUnit (BB2x)

1.2 kg 2.7 lb

Dual Variable Gain DuplexFilter (DVxx)

13 kg 28.7 lb

Masthead Amplifier(MNxx)

8.5 kg (900 MHz)

5.6 kg (1800/1900 MHz)

18.7 lb

12.4 lb

Bias Tee (BPxx) 0.4 kg 0.88 lb

Receiver Multicoupler:

. M2xA (2-way) 0.7 kg 1.5 lb

. M6xA (6-way) 2.0 kg 4.4 lb

Power Supply:

. PWSA 11 kg 24 lb

. PWSB 7 kg 15.4 lb

. PWSC 11 kg 24 lb

Remote Tune Combiner(RTxx)

20 kg 44.09 lb

Temperature ControlSystem (TCS):

. Unit Cooling Fans 0.36 kg 0.8 lb

. Heater Unit (HETA) 3.0 kg 6.6 lb

. Cabinet Cooling Fan 2.6 kg 5.8 lb

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Table 42. Weights of units (cont.)

Unit Value (metric) Value (imperial)

Transceiver (TSxx) 5.5 kg 12.1 lb

FC E1/T1 1.4 kg 3.0 lb

FXC E1 and FXC E1/T1 1.4 kg 3.0 lb

FXC RRI 1.4 kg 3.0 lb

Wideband Combiner(WCxx)

3.5 kg 7.7 lb

6.5.2 Cabinet clearances

Caution

Do not block air intake to the back of the indoor cabinet. The recommended backclearance of 52 mm (2.0 in.) ensures proper air intake for the Unit Cooling fans ofthe cabinet core.

Note

There can be additional clearance requirements for co-siting with other NokiaBTS families.

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Indoor cabinet

Figure 31. Clearance recommendations for indoor cabinet installation

DN03426724

100 (4.0)Note 1

Cabinet Front

Facility wall

Note 4

Note 3

Front view

Plan view

300 (1 1.8)

Door swing radius600 (23.6)

500 (19.7)

Minimum52 (2.0)

NOTES:1. Minimum clearance at side of cabinet2. Recommended front clearance3. Minimum clearance for antenna and interface cabling4. Minimum clearance when using BiasTee or DU2A

(Units mounted on top of antenna box)5. Dimensions: mm (in.)

1800(70.1)

900 (35.4)Note 2

570(22.4)

620(24.4)

600(23.6)

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6.6 Space requirements for Outdoor UltraSite EDGEBTS

Note

If space is limited for an outdoor installation, Nokia recommends installing theOutdoor Application Kit (OAKx) to the cabinet core first. Installation personnelcan then lift, mount, and anchor the cabinet to the plinth. For more information,see Mounting UltraSite EDGE BTS Outdoor cabinets.

6.6.1 Dimensions and weights of cabinets and units

Warning

Empty CRMA cabinet cores weigh 79 kg (155 lb). Nokia recommends thatyou use a lifting device when moving a cabinet core.

Dimensions and weights of UltraSite EDGE BTS outdoor cabinets

Table 43. Dimensions and weights of outdoorcabinets

Parameter Outdoor (CRMA withOAKA)

Height 1940 mm

76.4 in.

Depth 750 mm

29.5 in.

Width 770 mm

30.0 in.

Maximum cabinet weight(without units)

150 kg

330.7 lb

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Weights of UltraSite EDGE BTS units

Table 44. Weights of units

Unit Value (metric) Value (imperial)

Base Operations andInterfaces (BOIx)

1.6 kg 3.6 lb

Dual Band Diplex FilterUnit (DU2A)

2.0 kg 4.42 lb

Transceiver BasebandUnit (BB2x)

1.2 kg 2.7 lb

Dual Variable Gain DuplexFilter (DVxx)

13 kg 28.7 lb

Masthead Amplifier(MNxx)

8.5 kg (900 MHz)

5.6 (1800/1900 MHz)

18.7 lb

12.4 lb

Bias Tee (BPxx) 0.4 kg 0.88 lb

Receiver Multicoupler:

. M2xA (2-way) 0.7 kg 1.5 lb

. M6xA (6-way) 2.0 kg 4.4 lb

Power Supply:

. PWSA 11 kg 24 lb

. PWSB 7 kg 15.4 lb

. PWSC 11 kg 24 lb

Remote Tune Combiner(RTxx)

20 kg 44.09 lb

Temperature ControlSystem (TCS):

. Unit Cooling Fans 0.36 kg 0.8 lb

. Heater Unit (HETA) 3.0 kg 6.6 lb

. Cabinet Cooling Fan 2.6 kg 5.8 lb

Transceiver (TSxx) 5.5 kg 12.1 lb

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Table 44. Weights of units (cont.)

Unit Value (metric) Value (imperial)

FC E1/T1 1.4 kg 3.0 lb

FXC E1 and FXC E1/T1 1.4 kg 3.0 lb

FXC RRI 1.4 kg 3.0 lb

Wideband Combiner(WCxx)

3.5 kg 7.7 lb

6.6.2 Cabinet clearances

Outdoor cabinet

FrontFront

52(2.0)

52(2.0)

Roof in openposition

DN03428364

NOTE: Dimensions: mm (in.)

2500(98.4)

1940(76.4)

1775(70.0)

13

2

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1Roof stay2Cable entry block (in optional side position)3Roof

Figure 32. Top clearance recommendations for outdoor cabinet

Note

The maximum clearance for a completely open roof on the outdoor cabinet is2690 mm (106 in.).

Clearance recommended for outdoor cabinets

Figure 33. Clearance recommendations for outdoor cabinets

6.7 Power requirements for AC UltraSite EDGE BTS

6.7.1 Mains power

Warning

Permanently wire UltraSite EDGE BTS to a disconnect device, such as acircuit breaker.

770 (30.3), minimum,width includes side panels

770(30.3)

Minimum75 (3.0)

Front

Cabinet 2Cabinet 1 Cabinet 3

Doorswing

DN03428352NOTE: Dimensions: mm (in.)

750(29.5)

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Warning

Disconnect UltraSite EDGE BTS from the mains power network with adedicated switch. Turn OFF UltraSite EDGE BTS with the BTS powersupply switch to leave it in STAND BY mode.

Warning

Follow national regulations when working with power supply and powercables.

Nokia recommends that you protect the AC mains with a lightning and transientovervoltage protector (mains wire-in protector).

Note

The protector for the AC mains does not come with UltraSite EDGE BTSdelivery. To order a mains protector, contact your local Nokia representative.

Table 45. Minimum wire size for power conductors

Configuration Power Conductor Wire Size1

PWSA (AC) 13.3 mm2 (6 AWG)

1 Reference NFPA-70, 1999, Article 310

Table 46. Fuse rates for different configurations with AC 230V nominal voltage

Configuration Fuse rate1

PWSA 3 x 16A (3-phase, not triple pole)

1 x 32A (single-phase)

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Table 46. Fuse rates for different configurations with AC 230V nominal voltage(cont.)

Configuration Fuse rate1

PWSA with Heater unit 3 x 16A (3-phase, not triple pole)

1 x 32A (single-phase)

PWSB with Heater unit 1 x 10A (single-phase)

PWSC with Heater unit 1 x 10A (single-phase)

1 Fuse rating for lowest input voltage and maximum power consumption at 25%derating

6.7.2 Operating ranges and power consumption

This section provides operating ranges and power consumption calculations thatindicate the actual power input from the electrical network and include theoperating efficiency of the power supply unit.

The power consumption of UltraSite EDGE BTS is defined by the followingconditions:

. nominal input voltage

. nominal power consumption at 25° C (77° F)

Determine total power consumption for specific BTS configurations bycombining the power consumption of the installed cabinet and all associatedunits.

The typical and worst-case power consumption figures are for some commonconfigurations, based on TSxx's average power consumption when measured inproduction with full GMSK-modulated RF power in all timeslots. The differencebetween the average and worst-case figures is due to the allowed componentvariations.

Note

The following assumptions apply to the maximum and typical power demandfigures in the Electrical properties for UltraSite EDGE BTS table:

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. GSM TRXs are TSxA, GSM/EDGE TRXs are TSxB

. Full GMSK-modulated RF power in all timeslots

. Combiner bypass (6 DVxxs in 12 TRX configuration and 3 DVxxs in 6TRX configuration)

. Transmission is one FXC unit in all cases

. No external units supplied by BTS (for example, masthead amplifiers,microwave radios)

. If optional HETA is used in outdoor configurations, then 1.5 kW load mustbe added to the figures.

Table 47. Electrical properties for UltraSite EDGE BTS 800, 900,1800, and 1900

Property Voltage 12 TRXIndoor

12 TRXOutdoor

Nominal inputvoltage

AC 230 VAC, 50/60 Hz

Operatingvoltage range

AC 184 to 276 VAC, 45-66 Hz

Maximumpowerdemand GSMHW

230V AC, kW 3.4 3.5

Typical powerdemand GSMHW

230V AC, kW 3.1 3.3

Maximumpowerdemand GSM/EDGE HW

230V AC, kW 3.8 3.9

Typical powerdemand GSM/EDGE HW

230V AC, kW 3.6 3.7

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Table 48. Cabinet/unit power consumption

Cabinet/Unit power consumption Value

CRMA with 11 unit fans 110 W

BOIA 10 W

TSxA 230 W

TSxB 265 W

BB2A 10 W

BB2E 15 W

BB2F 10W

DVxx 25 W

RTxx 40 W

MNxx 15 W

E1/T1 Transmission unit 10 W

Radio Transmission 60 W

Table 49. Voltage, power consumption, and operating range of HETA unit(optional in Outdoor BTS)

Heater unit Value

Voltage 230 VAC (184 to 276 VAC)

Power consumption 1500 W

Operating range

. Cold start - heater only -33° C to -5° C

(-27.4° F to +23° F)

. Heater and BTS on -10° C to +5° C

(+14° F to + 41° F)

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Table 50. Power consumptions figures for different configurations under 230VAC voltage

Configuration Filter type Typical power Maximum power

1 DVxx 0.4 kW 0.4 kW

3 DVxx 0.6 kW 1.0 kW

11 DVxx 0.7 kW 0.8 kW

22 DVxx 1.0 kW 1.3 kW

66 RTC 2.0 kW 3.7 kW

111 DVxx 1.0 kW 1.1 kW

222 DVxx 1.2 kW 1.9 kW

333 DVxx 1.6 kW 2.8 kW

444 DVxx 1.9 kW 3.7 kW

666 RTC 3.0 kW 5.5 kW

Note

Consider the following:

. The tolerance of the Maximum power value is +/- 5%.

. Circumstances of the Typical power values: BCCH TRXs are on fullpower, 40% of the timeslots are in use with TSxB operating in GMSKmode.

. Circumstances of the Maximum power values: all TRXs are on full power,all timeslots are in use with TSxBs operating in GMSK mode.

. MHA and external units are excluded.

. The power consumption of the Outdoor cabinet is approximately 100W, ormore.

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6.8 Power requirements for +24 VDC UltraSite EDGEBTS

6.8.1 Mains power

Warning

Permanently wire UltraSite EDGE BTS to a disconnect device, such as acircuit breaker.

Warning

Disconnect UltraSite EDGE BTS from the mains power network with adedicated switch. Turn OFF UltraSite EDGE BTS with the BTS powersupply switch to leave it in STAND BY mode.

Warning

Follow national regulations when working with power supply and powercables.

Nokia recommends that you protect the DC mains with a lightning and transientovervoltage protector (mains wire-in protector).

Note

The protector for the DC mains does not come with UltraSite EDGE BTSdelivery. To order a mains protector, contact your local Nokia representative.

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Note

If optional HETA is used in outdoor configurations, a separate AC supply cablefor the HETA needs to be routed. See Voltage, power consumption, and operatingrange of HETA unit (optional in Outdoor BTS) for the electrical properties of theAC supply.

Table 51. Minimum wire size for power conductors

Configuration Power Conductor Wire Size1

PWSC (+24 VDC) 95 mm2 (3/0 AWG)

1 Reference NFPA-70, 1999, Article 310

Table 52. Fuse rates for different configurations with +24 VDC nominal voltage

Configuration Fuse rate1

PWSC 250A / cabinet

PWSC with Heater unit 250A / cabinet

16A / HETA

1 Fuse rating for lowest input voltage and maximum power consumption at 25%derating

6.8.2 Operating ranges and power consumption

This section provides operating ranges and power consumption calculations thatindicate the actual power input from the electrical network and include theoperating efficiency of the power supply unit.

The power consumption of UltraSite EDGE BTS is defined by the followingconditions:

. nominal input voltage

. nominal power consumption at 25° C (77° F)

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Determine the total power consumption for specific BTS configurations bycombining the power consumption of the installed cabinet and all associatedunits.

The typical and worst-case power consumption figures are for some commonconfigurations, based on TSxx's average power consumption when measured inproduction with full GMSK-modulated RF power in all timeslots. The differencebetween the average and worst-case figures is due to the allowed componentvariations.

Note

The following assumptions apply to the maximum and typical power demandfigures in the Electrical properties for UltraSite EDGE BTS table:

. GSM TRXs are TSxA, GSM/EDGE TRXs are TSxB

. Full GMSK-modulated RF power in all timeslots

. Combiner bypass (6 DVxxs in 12 TRX configuration and 3 DVxxs in 6TRX configuration)

. Transmission is one FXC unit in all cases

. No external units supplied by BTS (for example, masthead amplifiers,microwave radios)

. If optional HETA is used in outdoor configurations, a separate AC supplycable for the HETA needs to be routed. See Voltage, power consumption,and operating range of HETA unit (optional in Outdoor BTS) for theelectrical properties of the AC supply.

Table 53. Electrical properties for UltraSite EDGE BTS 800, 900,1800, and 1900

Property Voltage 12 TRXIndoor

12 TRXOutdoor

Nominal inputvoltage

+24 V DC +24 VDC

Operatingvoltage range

+24 V DC +20 to +32 VDC

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Table 53. Electrical properties for UltraSite EDGE BTS 800, 900,1800, and 1900 (cont.)

Property Voltage 12 TRXIndoor

12 TRXOutdoor

Maximumpowerdemand GSMHW

+24V DC, kW 3.4 3.5

Maximumpowerdemand GSMHW

+24V DC, kW 3.4 3.5

Typical powerdemand GSM/EDGE HW

+24V DC, kW 3.6 3.7

Typical powerdemand GSM/EDGE HW

+24V DC, kW 3.6 3.7

Table 54. Cabinet/unit power consumption

Cabinet/Unit power consumption Value

Cabinet with 11 unit fans 110 W

BOIA 10 W

TSxA 230 W

TSxB 265 W

BB2A 10 W

BB2E 15 W

BB2F 10 W

DVxx 25 W

RTxx 40 W

MNxx 15 W

E1/T1 Transmission unit 10 W

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Table 54. Cabinet/unit power consumption (cont.)

Cabinet/Unit power consumption Value

Radio Transmission 60 W

Table 55. Voltage, power consumption, and operating range of HETA unit(optional in Outdoor BTS)

Heater unit Value

Voltage 230 VAC (184 to 276 VAC)

Power consumption 1500 W

Operating range

. Cold start - heater only -33° C to -5° C

(-27.4° F to +23° F)

. Heater and BTS on -10° C to +5° C

(+14° F to + 41° F)

Table 56. Power consumptions figures for different configurations under 24VDC voltage

Configuration Filter type Typical power Maximum power

1 DVxx 0.4 kW 0.4 kW

3 DVxx 0.6 kW 1.0 kW

11 DVxx 0.7 kW 0.8 kW

22 DVxx 1.0 kW 1.3 kW

66 RTC 2.0 kW 3.7 kW

111 DVxx 1.0 kW 1.1 kW

222 DVxx 1.2 kW 1.9 kW

333 DVxx 1.6 kW 2.8 kW

444 DVxx 1.9 kW 3.7 kW

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Table 56. Power consumptions figures for different configurations under 24VDC voltage (cont.)

Configuration Filter type Typical power Maximum power

666 RTC 3.0 kW 5.5 kW

Note

Consider the following:

. The tolerance of the Maximum power value is +/- 5%.

. Circumstances of the Typical power values: BCCH TRXs are on fullpower, 40% of the timeslots are in use with TSxB operating in GMSKmode.

. Circumstances of the Maximum power values: all TRXs are on full power,all timeslots are in use with TSxBs operating in GMSK mode.

. MHA and external units are excluded.

. The power consumption of the Outdoor cabinet is approximately 100W, ormore.

6.9 Power requirements for -48 VDC UltraSite EDGEBTS

6.9.1 Mains power

Warning

Permanently wire UltraSite EDGE BTS to a disconnect device, such as acircuit breaker.

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Warning

Disconnect UltraSite EDGE BTS from the mains power network with adedicated switch. Turn OFF UltraSite EDGE BTS with the BTS powersupply switch to leave it in STAND BY mode.

Warning

Follow national regulations when working with power supply and powercables.

Nokia recommends that you protect the DC mains with a lightning and transientovervoltage protector (mains wire-in protector).

Note

The protector for the DC mains does not come with UltraSite EDGE BTSdelivery. To order a mains protector, contact your local Nokia representative.

Note

If optional HETA is used in outdoor configurations, a separate AC supply cablefor the HETA needs to be routed. See Voltage, power consumption, and operatingrange of HETA unit (optional in Outdoor BTS) for the electrical properties of theAC supply.

Table 57. Minimum wire size for power conductors

Configuration Power Conductor Wire Size1

PWSB (-48 VDC) 33.6 mm2 (2 AWG)

1 Reference NFPA-70, 1999, Article 310

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Table 58. Fuse rates for different configurations with -48 VDC nominal voltage

Configuration Fuse rate1

PWSB 125A / cabinet

PWSB with Heater unit 125A / cabinet

16A/ HETA

1 Fuse rating for lowest input voltage and maximum power consumption at 25%derating

6.9.2 Operating ranges and power consumption

This section provides operating ranges and power consumption calculations thatindicate the actual power input from the electrical network and include theoperating efficiency of the power supply unit.

The power consumption of UltraSite EDGE BTS is defined by the followingconditions:

. nominal input voltage

. nominal power consumption at 25 °C (77° F)

Determine the total power consumption for specific BTS configurations bycombining the power consumption of the installed cabinet and all associatedunits.

The typical and worst-case power consumption figures are for some commonconfigurations, based on TSxx's average power consumption when measured inproduction with full GMSK-modulated RF power in all timeslots. The differencebetween the average and worst-case figures is due to the allowed componentvariations.

Note

The following assumptions apply to the maximum and typical power demandfigures in the Electrical properties for UltraSite EDGE BTS table:

. GSM TRXs are TSxA, GSM/EDGE TRXs are TSxB

. Full GMSK-modulated RF power in all timeslots

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. Combiner bypass (6 DVxxs in 12 TRX configuration and 3 DVxxs in 6TRX configuration)

. Transmission is one FXC unit in all cases

. No external units supplied by BTS (for example, masthead amplifiers,microwave radios)

. If optional HETA is used in outdoor configurations, a separate AC supplycable for the HETA needs to be routed. See Voltage, power consumption,and operating range of HETA unit (optional in Outdoor BTS) for theelectrical properties of the AC supply

Table 59. Electrical properties for UltraSite EDGE BTS 800, 900,1800, and 1900

Property Voltage 12 TRXIndoor

12 TRXOutdoor

Nominal inputvoltage

-48 V DC -48 VDC

Operatingvoltage range

-48 V DC -38 to -60 VDC

Maximumpowerdemand GSMHW

-48V DC, kW 3.0 3.1

Typical powerdemand GSMHW

-48V DC, kW 2.8 2.9

Maximumpowerdemand GSM/EDGE HW

-48V DC, kW 3.4 3.5

Typical powerdemand GSM/EDGE HW

-48V DC, kW 3.2 3.3

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Table 60. Cabinet/unit power consumption

Cabinet/Unit power consumption Value

Cabinet with 11 unit fans 110 W

BOIA 10 W

TSxA 230 W

TSxB 265 W

BB2A 10 W

BB2E 15 W

BB2F 10 W

DVxx 25 W

RTxx 40 W

MNxx 15 W

E1/T1 Transmission unit 10 W

Radio Transmission 60 W

Table 61. Voltage, power consumption, and operating range of HETA unit(optional in Outdoor BTS)

Heater unit Value

Voltage 230 VAC (184 to 276 VAC)

Power consumption 1500 W

Operating range

. Cold start - heater only -33° C to -5° C

(-27.4° F to +23° F)

. Heater and BTS on -10° C to +5° C

(+14° F to + 41° F)

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Table 62. Voltage, power consumption, and operating range of HETA unit(optional in Outdoor BTS)

Heater unit Value

Voltage 230 VAC (184 to 276 VAC)

Power consumption 1500 W

Operating range

. Cold start - heater only -33° C to -5° C

(-27.4° F to +23° F)

. Heater and BTS on -10° C to +5° C

(+14° F to + 41° F)

Table 63. Power consumptions figures for different configurations under -48VDC voltage

Configuration Filter type Typical power Maximum power

1 DVxx 0.4 kW 0.4 kW

3 DVxx 0.6 kW 0.9 kW

11 DVxx 0.6 kW 0.7 kW

22 DVxx 0.9 kW 1.2 kW

66 RTC 1.8 kW 3.2 kW

111 DVxx 0.9 kW 1.0 kW

222 DVxx 1.0 kW 1.7 kW

333 DVxx 1.4 kW 2.5 kW

444 DVxx 1.7 kW 3.2 kW

666 RTC 2.7 kW 4.9 kW

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Note

Consider the following:

. The tolerance of the Maximum power value is +/- 5%.

. Circumstances of the Typical power values: BCCH TRXs are on fullpower, 40% of the timeslots are in use with TSxB operating in GMSKmode.

. Circumstances of the Maximum power values: all TRXs are on full power,all timeslots are in use with TSxBs operating in GMSK mode.

. MHA and external units are excluded.

. The power consumption of the Outdoor cabinet is approximately 100W, ormore.

6.10 Grounding (earthing) requirements for UltraSiteEDGE BTS

To avoid interference, Nokia recommends planning large Protective Earthing(PE) systems on a case-specific basis.

To protect the cabinet against overvoltage through antenna equipment,communication cables or power supply lines, install the grounding cables beforeyou install UltraSite EDGE BTS.

Caution

A power plug with a PE connection is not sufficient for UltraSite EDGE BTS.Grounding must have a fixed, non-removable connection.

Caution

Avoid unnecessary loops and sharp bending of the grounding cable. Do not runthe grounding cables parallel with power cables.

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Caution

To prevent damage to units, you must connect grounding to the cabinet beforeinstalling any of the units.

Note

Follow national, state, and local regulations when planning the grounding of anUltraSite EDGE BTS site.

6.10.1 Guidelines for grounding UltraSite EDGE BTS

. Route the grounding cables as directly as possible from the equipment tothe grounding point.

. Select one of two UltraSite EDGE BTS grounding point alternativesaccording to local regulations. See Overview of connecting groundingcables to UltraSite EDGE BTS.

Note

For instructions on installing grounding cables for Network Equipment BuildingSystems (NEBS) compliant sites, see Connecting the grounding cable ofUltraSite EDGE BTS for a NEBS installation.

. Connect the grounding cable to the cabinet grounding points depending onwhich grounding point alternative you select.

. Connect all cabinets, Main Distribution Frame (MDF) cable ladders, andDC supply frames to the main grounding busbar at the site.

. Conductor sizes for earthing cables must be in accordance with allnational, state, and local regulations.

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Note

For recommended fuse ratings, see Power requirements for AC UltraSite EDGEBTS, Power requirements for +24 VDC UltraSite EDGE BTS and Powerrequirements for -48 VDC UltraSite EDGE BTS.

. Do not exceed a resistance of 0.1 & for the connection between thegrounding point and the earthing contact and parts.

. Use an 8 mm (0.31 in.) single-hole lug, a 5 mm (0.2 in.) or a 6 mm (0.24in.) two-hole lug (NEBS) PE connector.

. Ground antenna feeders as required by climatic condition and inaccordance with local regulations.

6.11 Cabinet base requirements for Indoor UltraSiteEDGE BTS

Note

Ensure that the backstop is oriented toward the rear wall for proper airflow.

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Figure 34. Cabinet base measurements for multiple Indoor cabinets

6.12 Cabinet base requirements for Outdoor UltraSiteEDGE BTS

Note

The anchor holes used for mounting outdoor cabinets comply with requirementsfor earthquake zone installation.

DN03421795

305(12.0)

145(5.7)

179(7.0)

52 (2.0)minimum

179.5(7.1)

179.5(7.1)

300(11.8)

179.5(7.1)

179.5(7.1)

300(11.8)

457(18.0)

150(5.9)

71.5(2.8)

Hole for plasticfoot (4 places)

148(5.8)

600(23.6)

620(24.4)

570(22.4)

Front

Cabinet 1 Cabinet 2

Facility wallBack stop

XXeXe Xe

XeXe Xe

X X

X X X

X X X

NOTES:1. Xe - Location of earthquake anchor holes2. X - Location of additional anchor holes3. Dimensions: mm (in.)

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Figure 35. Plinth measurements for multiple outdoor cabinets

DN03418674

Front

Plinth of cabinet 1 Plinth of cabinet 2

X XX

X X

752(29.6)

18(0.7)

107(4.2)

575(22.7)

730(28.7)

126(5.0)

250(9.8)

250(9.8)

519(20.4)

560(22.0)

NOTES:1. X - Location of plinth anchor holes2. Dimensions: mm (in.)

66(2.6)

76(3.0)

620(24.4)

770(30.3)

150(5.9)

96(3.8)

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7 Glossary

7.1 Glossary for UltraSite EDGE BTS

7.1.1 Abbreviations and acronyms

This section lists abbreviations and acronyms used throughout Nokia UltraSiteEDGE Solution documentation.

AC Alternating Current

ACFU AC Filter Unit

A/D Analog/Digital

ADC Analog to Digital Converter

AGC Automatic Gain Control

ALS Automatic Laser Shutdown

AMR Adaptive Multi-Rate coding

ANSI American National Standards Institute

ANT Antenna connector

ARFN Absolute Radio Frequency Channel Number

ASIC Application Specific Integrated Circuit

ATCA Antenna Cable Kit

ATM Asynchronous Transfer Mode

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AWG American Wire Gauge

AXC ATM cross-connect

AXU ATM cross-connect unit

BAPT Bundesamt für Post und TelekommunikationTelecommunications advisory agency of Federal Republic ofGermany

BB2x Transceiver Baseband unit

. BB2A for GSM

. BB2E for GSM/EDGE

. BB2F for GSM and GSM/EDGE

BCCH Broadcast Control Channel

BCF Base Control Function

BER Bit Error Ratio

The ratio of the number of bit errors to the total number ofbits transmitted in a given time interval.

BIST Built-In Self Test

A technique that provides a circuit the capability to carry outan implicit test of itself.

BOIx Base Operations and Interfaces unit

BPxN Bias Tee without VSWR monitoring

. BPDN for GSM 900/1800/1900

. BPxV Bias Tee with VSWR monitoring

. BPGV for GSM 900

. BPDV for GSM 1800/1900

BS British Standards

BSC Base Station Controller

BSS Base Station Subsystem

BTS Base Transceiver Station (Base Station)

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CC Cross-Connection

CCCH Common Control Channel

CCITT Comité Consultatif International Télégraphique etTéléphonique

International Telegraph and Telephone ConsultativeCommittee (Telecommunications advisory agency of France)

CCUA Cabinet Control Unit

CDMA Code Division Multiple Access

A technique in which the radio transmissions using the samefrequency band are coded in a way that a signal from a certaintransmitter can be received only by certain receivers

CE Cable Entry; Consumer Electronics; Conformit Européen(European Conformity) CH Channel

CHDSP Channel Digital Signal Processor

CN Change Note

A short trouble management document in a specified formsent to a customer about a modification in a product

CRC Cyclic Redundancy Check

A method for detecting errors in data transmission.

CRMx Core Mechanics for Nokia UltraSite EDGE Base StationIndoor and Outdoor cabinet

. CRMA for Outdoor cabinets

. CRMB for Site Support cabinets

CSC Customer Services Centre

D/A Digital/Analog

DC Direct Current

DCS Digital Cellular System

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DDS Direct Digital Synthesis

The frequency synthesis in which logic and memory are usedto digitally construct the desired output signal, and a digital-to-analogue converter is used.

DL (Downlink)

The direction of transmission in which the BTS is thetransmitting facility and the mobile station is the receivingfacility.

DIP Dual In-line Package

DRAM Dynamic Random Access Memory

DRX Discontinuous Reception

DSP Digital Signal Processor

DTX Discontinuous Transmission

DU2A Dual Band Diplex Filter unit for GSM 800/900 and 1800/1900

DVxx Dual Variable Gain Duplex Filter unit

. DVTB for GSM/EDGE 800

. DVTD for GSM/EDGE 800

. DVGA for GSM/EDGE 900

. DVHA for GSM/EDGE 900 customer-specific H band

. DVJA for GSM/EDGE 900 customer-specific J band

. DVDC for GSM/EDGE 1800

. DVDA for GSM/EDGE 1800 A band

. DVDB for GSM/EDGE 1800 B band

. DVPA for GSM/EDGE 1900

E1 European Digital Transmission Format Standard (2.048 Mbit/s)

EAC External Alarms and Controsl

EC European Community

EDGE Enhanced Data rates for Global Evolution

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EEC European Economic Community

EEPROM Electronically Erasable Programmable Read Only Memory

EMC Electromagnetic Compatibility

EMI Electromagnetic Interference

EMP Electromagnetic Pulse

EN European Norm

EQDSP Equaliser Digital Signal Processor

ESD Electrostatic Discharge

ET Exchange Terminal

ETSI European Telecommunications Standards Institute

Ext. External

FACCH Fast Associated Control Channel

FACH Forward Access Channel

FCC Federal Communications Commission

The United States federal agency responsible for theregulation of interstate and international communications byradio, television, wire, satellite, and cable.

FC E1/T1 Wireline transmission unit (75 [ohm] E1, 120 [ohm] E1, or100 [ohm] T1) of Nokia UltraSite EDGE Base Stationwithout cross-connection capability.

FCLK Frame Clock

FET Field Effect Transistor

FHS Frequency Hopping Synthesiser

FIFP Forwarded Intermediate Frequency Power

FIKA +24 VDC Installation Kit

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FPGA Field Programmable Gate Array

FXC E1 Wireline transmission unit (75 [ohm] E1) with four lineinterfaces to the 2 Mbit/s (E1) transmission line; cross-connection capability at 8 kbit/s level.

FXC E1/T1 Wireline transmission unit (120 [ohm] E1 or 100 [ohm] T1)with four line interfaces to the 2 Mbit/s (E1) or 1.5 Mbit/s(T1) transmission line; cross-connection capability at 8 kbit/slevel.

FXC RRI Radio link transmission unit (radio indoor unit) with cross-connection capability at 8 kbit/s level.

Used with MetroHopper Radio and FlexiHopper MicrowaveRadio.

FXC STM-1/STM BridgeTransmission units that enable cross-connections betweenPDH and SDH transmission rates:

. FXC STM-1 performs the main SDH functions

. FXC Bridge forms a bridge for the signals between theSDH part and the PDH cross-connect part of the node

These two units are used together.

Gb Interface between RNC and SGSN

GMSK Gaussian Minimum Shift Keying

GND Ground; Grounding (protective earthing).

See Grounding and PE.

GPRS General Packet Radio Service

GSM Global System for Mobile communications

. GSM 800 GSM 800 MHz frequency band

. GSM 900 GSM 900 MHz frequency band

. GSM 1800 GSM 1800 MHz frequency band

. GSM 1900 GSM 1900 MHz frequency band

GUI Graphical User Interface

HDLC High-level Data Link Control

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HETA Base station cabinet heater

HO Handover

The action of switching a call in progress from one radiochannel to another, to secure the continuity of the establishedcall

HSCSD High-Speed Circuit Switched Data

HV High Voltage

HW Hardware

Specfically, electronic equipment supporting datatransmission and processing tasks, and the electrical andmechanical devices related to their operation

IC Integrated Cell

ICE Intelligent Coverage Enhancement

ID Identification; Identifier IE Information Element

The basic unit of a transaction capabilities application part(TCAP) message.

IDCA Indoor cabinet for Nokia UltraSite EDGE Base Station

IEC International Electrotechnical Commission

IEEE Institute of Electrical and Electronics Engineers, Inc.

IF Intermediate Frequency

IFM Interface Module

IFU Interface unit

ILKA Indoor Lock Kit

ILMT Integrated Local Management Tool

IMA Inverse Multiplexed ATM

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IP Ingress Protection

IRPA International Radiation Protection Association

ISDN Integrated Services Digital Network

ISHO Inter-system handover

The handover from one system to another.

ISO International Organization for Standardization

ITU International Telecommunication Union

L2 AC Phase 2

L3 AC Phase 3

Iu The interconnection point between the RNC and the CoreNetwork

Iub Interface between the RNC and node B

Iubis Interface between the RNC and the BTS

Iur The logical interface for the interconnection of two radionetwork controller (RNC) components of the UMTSterrestrial radio access network (UTRAN) system

JIS Japanese Industrial Standard

LAN Local Area Network

A data transmission network covering a small area.

LAPD Link Access Protocol on D-channel between the BSC andBTS

LED Light Emitting Diode

LMB Local Management Bus

LMP Local Management Port

LNA Low-Noise Amplifier

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LO Local Oscillator

LTE Line Terminal Equipment

LV Low Voltage

LVD Low Voltage Disconnect

LVDS Low Voltage Differential Signalling

LVTTL Low Voltage Transistor Transistor Logic

M2xA 2-way Receiver Multicoupler unit

. M2LA for GSM/EDGE 800/900

. M2HA for GSM/EDGE 1800/1900

M6xA 6-way Receiver Multicoupler unit

. M6LA for GSM/EDGE 800/900

. M6HA for GSM/EDGE 1800/1900

MAC Medium Access Control function, handles the channelallocation and multiplexing, that is, the use of physical layerfunctions.

MCLG Master Clock Generator

MDF Main Distribution Frame

MHA Masthead Amplifier

MMI Man-Machine Interface

MML Man-Machine Language

A text-based command language with a standardisedstructure, designed to facilitate direct user control of a system.

MNxx Masthead Amplifier specific to Nokia UltraSite EDGE BaseStation

. MNGA for GSM/EDGE 800/900

. MNDA for GSM/EDGE 1800 A band

. MNDB for GSM/EDGE 1800 B band

. MNPA for GSM/EDGE 1900 A band

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. MNPB for GSM/EDGE 1900 B band

. MNPC for GSM/EDGE 1900 C band

MPT Ministry of Posts and Telecommunications

Telecommunications regulatory agency of Great Britain.

MS Mobile Station

User equipment which uses a radio connection, and which canbe used in motion or at unspecified points. This is usually amobile phone.

MSC Mobile Switching Centre

The mobile network element which performs the switchingfunctions in its area of operation, and controls cooperationwith other networks.

MTBF Mean Time Between Failure

NCRP National Council on Radiation Protection and Measurements

NCU Node Control Unit

NEBS Network Equipment Building Systems

NED Nokia Electronic Documentation

NMS Network Management System

O&M Operation and Maintenance

OAKB Cable entry kit for BTS co-siting

OAKx Outdoor Application Kit for Nokia UltraSite EDGE BaseStation

. OAKA for UltraSite Outdoor cabinet

. OAKD for UltraSite Midi Outdoor to Talk-family Co-siting

OBKA Outdoor Bridge Kit

OCXO Oven Controlled Crystal Oscillator

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An oscillator in which the crystal and critical circuits aretemperature-controlled by an oven.

OEKA Outdoor (cable) Entry Kit

OFKA Outdoor Air Filter Kit

OMU Operation and Maintenance Unit

OMUSIG OMU Signalling

OVP Over-Voltage Protection

PC Personal Computer

PCB Printed Circuit Board

PCM Pulse Code Modulation

PE Protective earthing (grounding)

See GND and Grounding.

PFC Power Factor Correction

PLL Phase-Locked Loop

Point-to-point Transmission between two fixed points

PSM Power System Management

PWM Pulse Width Modulation

PWSx AC/DC Power Supply unit

. PWSA for 230 VAC input

. PWSB for -48 VDC input

. PWSC for +24 VDC input

Q1 Nokia proprietary transmission management protocol

RACH Random Access Channel

RAKE A receiver capable of receiving and combining multipathsignals

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RAM Random Access Memory

RAN Radio Access Network

A third generation network that provides mobile access to anumber of core networks of both mobile and fixed origin.

RCD Residual Current Device

RF Radio Frequency

RFF Radio Frequency Fingerprinting

RIFP Reflected Intermediate Frequency Power

RLE Radio Link Equipment

RNC Radio Network Controller

The network element in a radio access network which is incharge of the use and the integrity of radio resources.

ROM Read Only Memory

RRI Radio Relay Interface

RSSI Received Signal Strength Indicator

RTC Remote Tune Combining

RTxx Remote Tune Combiner

. RTGA for GSM/EDGE 900

. RTHA for GSM/EDGE 900 H band

. RTJA for GSM/EDGE 900 J band

. RTDC for GSM/EDGE 1800

. RTDA for GSM/EDGE 1800 A band

. RTDB for GSM/EDGE 1800 B band

. RTPA for GSM/EDGE 1900

RTN Return

RX Receiver; Receive

SCF Site Configuration File

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SCT Site Configuration Tool

SDCCH Stand-alone Dedicated Control Channel

SDH Synchronous Digital Hierarchy

SMB Sub-Miniature B Connector

SMS Short Message Service

SSS Site Support System

STM Synchronous Transport Module

STM-1 Synchronous Transport Module (155 Mbit/s)

SW Software

Sync Synchronization

The process of adjusting corresponding significant instancesof signals, in order to obtain the desired phase relationshipbetween these instances.

T1 North American Digital Transmission Format Standard (1.544Mbit/s)

TC Transcoder

TCH Traffic Channel

The logical radio channel that is assigned to a base transceiverstation and is primarily intended for conversation.

TCP/IP Transport Control Protocol/Internet Protocol

TCS Temperature Control System

TDMA Time Division Multiple Access

TE Terminal Equipment

Equipment that provides the functions necessary for useroperation of the access protocols.

TMS Transmission Management System

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The network system for managing equipment settings, and forcentralised retrieval of statistics and alarm information fromtransmission equipment connected to the system.

TS Time Slot

A cyclic time interval that can be recognised and given aunique definition.

TRE Transmission Equipment

TRX Transceiver

TRXSIG TRX Signalling

TS Time Slot

TSxx Transceiver (RF unit), specific to Nokia UltraSite EDGE BaseStation

. TSTB for GSM/EDGE 800

. TSGA for GSM 900

. TSGB for GSM/EDGE 900

. TSDA for GSM 1800

. TSDB for GSM/EDGE 1800

. TSPB for GSM/EDGE 1900

TTL Transistor Transistor Logic

TX Transmitter; Transmit

UC Unit Controller

UI User Interface

UL Underwriters Laboratories

UL (Uplink) The direction of transmission in which the mobile station isthe transmitting facility and the BTS is the receiving facility.

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. 2-way uplink diversity - The function by which a BTSuses two antennas and two receivers simultaneously ona single channel to obtain improved overall BTSreceiver sensitivity in an environment that is subject torandom multipath fading.

. 4-way uplink diversity - The function by which a BTSuses four antennas and four receivers simultaneouslyon a single channel to obtain improved overall BTSreceiver sensitivity in an environment that is subject torandom multipath fading.

UMTS Universal Mobile Telecommunications System

UTRAN / UMTSTerrestrial Radio Access Network

A radio access network (RAN) consisting of radio networkcontrollers (RNCs) and base transceiver stations (BTSs). It islocated between the Iu interface and the wideband codedivision multiple access (WCDMA) radio interface.

UPS Uninterruptible Power Supply

VC Virtual Channel

VCO Voltage Controlled Oscillator

An oscillator for which a change in tuning voltage results in apredetermined change in output frequency.

VLL Line-to-Line Voltage

VP Virtual Path

The unidirectional transport of ATM cells belonging to virtualchannels that are associated by a common identifier value.

VPCI Virtual Path Connection Identifier

An identifier which identifies the virtual path connectionbetween two B-ISDN ATM exchanges, or between a B-ISDNATM exchange and a B-ISDN user.

VPI Virtual Path Identifier

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An identifier which identifies a group of virtual channel linksat a given reference point that share the same virtual pathconnection.

VSWR Voltage Standing Wave Ratio

The ratio of maximum to minimum voltage in the standingwave pattern that appears along a transmission line. It is usedas a measure of impedance mismatch between thetransmission line and its load.

VXxx Transmission unit, specific to Nokia UltraSite EDGE BaseStation

. VXEA for FC E1/T1

. VXOA for FXC/STM-1

. VXRA for FC RRI

. VXRB for FXC RRI

. VXTA for FXC E1

. VXTB for FXC E1/T1

WAF Wideband Antenna Filter unit

WAM

Wideband Application Manager unit

WBC Wideband Combining unit

WCC Wideband Cabinet Core

WCDMA Wideband Code Division Multiple Access

A spread spectrum CDMA technique used to increase thecapacity and coverage of wireless communication networks.

WCH Wideband Cabinet Heater

WCxA Wideband Combiner, specific to Nokia UltraSite EDGE BaseStation

. WCGA for GSM/EDGE 800/900

. WCDA for GSM/EDGE 1800

. WCPA for GSM/EDGE 1900

WEK Wideband Extension Kit

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WFA Wideband Fan

WHX Wideband Heat Exchanger

WIC Wideband Input Combiner

WIK Wideband Indoor Kit

WOC Wideband Output Combiner

WOK Wideband Outdoor Kit

WPA Wideband Power Amplifier unit

WPS Wideband Power Supply unit

WSC Wideband System Clock

WSM Wideband Summing and Multiplexing unit

WSP Wideband Signal Processor unit

WTR Wideband Transmitter and Receiver

7.1.2 Terms

This section provides definitions for terms used throughout Nokia UltraSiteSolution documentation.

Abis Interface Interface between a Base Transceiver Station (BTS) and theBase Station Controller (BSC) and between two BTSs.

Absolute radio frequency channel numberSee absolute radio frequency number.

Absolute radio frequency number; absolute radio frequency channel number;ARFN; ARFCNRadio frequency used in connection with, for example,mobile originating and terminating test calls.

Adaptive multi-rate speech codec; AMR speech codec; AMR codec; AMRSpeech codec which adapts its operation optimally accordingto the prevailing channel conditions.

Air Interface Interface between MS and BTS.

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Alarm Announcement given to the operating personnel aboutabnormal functioning of the system or about a failure, or anindication of the degradation of the service level or reliability.

Alarm Status Classification of the severity of an alarm, such as Critical,Major, Minor, and Information.

Alternating current; ACA periodic current having a mean value zero.

Analogue-to-digital converter; Analog-to-digital converter /US/; A/D converter;ADCA device which converts an analogue input signal to a digitaloutput signal carrying equivalent information.

Application-specific integrated circuit; custom circuit; custom IC; ASICIntegrated circuit which is designed for a specific applicationand a specific customer and which is not available to othercustomers.

ATM connection control; connection control; CCFunction that keeps track of connection resources and basedon those handles the operations related to different kind ofcross-connections.

ATM inverse multiplexingSee inverse multiplexing for ATM.

Backplane Connector board at the back of Nokia UltraSite cabinets towhich plug-in units are directly connected. See also BATAbackplane and RFU backplane.

Base station See base transceiver station.

Base station controller; BSCNetwork element in the public land mobile network (PLMN)for controlling one or more base transceiver stations (BTS) inthe call set-up functions, in signalling, in the use of radiochannels and in various maintenance tasks.

Base station system; BSSSystem of base stations (BSs) and base station controllerswhich is viewed by the mobile services switching centre(MSC) through a single interface.

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Base transceiver station; base station; BTS; BSNetwork element in a mobile network responsible for radiotransmission and reception to or from the mobile station.

BATA backplaneAdditional backplane required in a Site Support cabinet whenusing 12 rectifiers.

Bias Tee Unit that provides DC power for an associated MHA unit.

Cabinet Control UnitModule of the ADUA or ADUB that manages battery control,climatic control, alarm reporting, and serial and versionnumber reporting for Nokia UltraSite Support cabinet. TheCCU connects to the BOIx with Q1-bus.

Cell Coverage area of a given BTS where transmission isacceptably received.

Cell breathing Variation of the cell coverage area; depends on theinterference and power requirements.

Cellular NetworkTwo or more base stations connected together to provide anarea of coverage for Mobile Stations (MS).

CENELEC Comité European de Normalisation ELECtrotechnique.European Committee for Electrotechnical Standardization.

Chain ConnectionTransmission solution in which the BTSs are interconnectedthrough a chain, and the first BTS in the chain is connected tothe BSC. See Loop Connection, Multidrop Connection, andStar Connection.

Chip Signal element.

Chip rate Number of chips transmitted in one second.

Commissioning Tasks performed to enable the BTS to be connected to thenetwork. Includes operational tests and configuring of thetransmission equipment.

Coverage Area See Cell.

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Cross-connectionConnection between input and output ports of a networkelement.

Cross-connection bankInformation base that defines the cross-connections of anetwork element. The network element contains two or morebanks, one of which is always active.

Custom circuit See application-specific integrated circuit.

Custom IC See application-specific integrated circuit.

D-bus Bus used for traffic communication between the transmissionunits and BB2x units (D1-bus) and for internal O&Mcommunication with the BOIx, BB2x, and RTxx units (D2-bus).

Despreading The received wideband signal is modulated with thespreading code to get a narrowband signal after the multipathpropagation in spread spectrum systems.

Digital signal processor; DSPA processor designed for signal handling, resembling anordinary microprocessor.

Discontinuous reception; DRXMeans of saving battery power (for example in hand-portableunits) by periodically and automatically switching the mobilestation receiver on and off.

Discontinuous transmission; DTXFeature which enables saving battery power (for example inhand-portable units) and reducing interference byautomatically switching the transmitter off when no speechor data are to be sent.

Downlink DiversitySee Frequency Hopping.

Earthing See Grounding.

F-bus Frequency Hopping bus. See Frequency Hopping.

Finger; rake finger; RAKE fingerReceiver unit that despreads one multipath signal.

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Four-way uplink diversity; 4-way uplink diversityFunction by which a base transceiver station (BTS) uses fourantennas and four receivers simultaneously on a singlechannel to obtain improved overall BTS receiver sensitivityin an environment that is subject to random multipath fading.

Forward link See downlink.

Flash memory Nonvolatile, electronically writable memory, similar toEEPROM in function, but which must be erased in blocks.

Flexbus Bidirectional coaxial cable that carries up to 16 x 2 Mbit/ssignals and power between transmission equipment, such as aradio outdoor and indoor unit.

Frequency-change oscillatorSee local oscillator.

Frequency HoppingFunction in which a BTS swaps two transmitters on a singlechannel to obtain improved overall MS receiver sensitivity ina system that is subject to random fading.

Gain Signal amplification, expressed in dBi�decibels over atheoretic, isotropic, and uniformly radiating antenna.

Grounding Protecting the equipment and the users against lightning andsurges through the external connections.

I2C-bus Integrated Inter Cell communication bus used for polling,autodetection, version and serial number management,temperature polling, and alarm collection in units without amicroprocessor.

Handover The handover occurs between two cells; the signal goesthrough one base station or base station sector at a time.

Human-machine interface; man-machine interface; HMI; MMIA subsystem or function which provides user interfacefunctions in a man-machine language.

Installation Tasks performed to enable the BTS to be mounted at the site.

Integration Tasks performed to make the BTS functional in the cellularnetwork. Includes making test calls.

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Inter-frequency handoverHandover where the new carrier frequency is different fromthe current one.

Inter-system handoverHandover from one system to another, e.g. between a 3rdgeneration system and GSM.

Inverse multiplexing for ATM; ATM inverse multiplexing; inverse multiplexing;IMAThe transmission method in which ATM cells in a cell streamare divided across several physical E1 links on a cell-by-cellbasis, and then reassembled at the receiving end withoutaffecting the original cell order.

Loop connectionTransmission solution in which BTSs are interconnected in aloop. For example, the first and last BTSs are connected to theBSC. See Chain Connection, Multidrop Connection, and StarConnection.

Macrocellular Application that covers large areas with a cell radius of 1 to10 km (0.6 to 6 miles). The coverage area is achieved whenthe antenna is installed high and off the ground.

Maximum ratio combiningA signal combining technique in which each signal ismultiplied by a weight factor that is proportional to the signalamplitude: the strong signals are further amplified, while theweak signals are attenuated.

Microcellular Application that typically covers areas with a cell radius of100 m to 1 km (327 feet to 0.6 miles). The antennas areinstalled below rooftop level.

Microwave radioRadio equipment for establishing an aligned and fixed radioconnection between two points.

Midi Indoor or Outdoor cabinet with up to six TRXs.

Multidrop ConnectionTransmission solution in which one or more BTS chains areconnected to one BTS that is connected to the BSC. SeeChain Connection, Loop Connection, and Star Connection.

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Network ElementAny equipment that can be managed, monitored, or controlledin a telecommunications network.

Network TopologyMethod of transmission between the cells of a network.Examples of transmission solutions are chain, loop,multidrop, and star connections.

Node Manager A feature of Power System Management (PSM), the NodeManager software called PSMMan is used to control networkelements, or nodes, of the Site Support System.

Nokia FlexiHopperNokia family of Flexbus-compatible microwave radios for the13, 15, 18, 23, 26, and 38 GHz frequency bands, in which theradio transmission capacity can be selected using software.The radio transmission capacity of Nokia FlexiHopper can be2 x 2, 4 x 2, 8 x 2, or 16 x 2 Mbit/s.

Nokia FlexiHopper outdoor unit can be used with differentindoor units: FIU 19, RRIC, FC RRI, and FXC RRI.

Nokia Hopper ManagerPC software application used for controlling and monitoringNokia FlexiHopper and Nokia MetroHopper radios connectedto FIU19 or RRIC indoor units.

Nokia MetroHopperNokia Flexbus-compatible radio for the 58 GHz frequencyband that does not require coordinated frequency planning.The main use of Nokia MetroHopper is to provide 4 x 2 Mbit/s, point-to-point wireless access for Nokia MetroSite BTS andNokia MetroHub.

Nokia MetroHopper outdoor unit can be used with differentindoor units: FIU 19, RRIC, FC RRI, and FXC RRI.

Nokia MetroHubNokia�s compact transmission node with cross-connectionand grooming functions, such as FXC RRI. Nokia MetroHubcontains up to five transmission units.

Nokia MetroSite GSM BTSNokia�s compact four-TRX GSM base station for NokiaMetroSite capacity solution. Nokia MetroSite GSM BTS cancontain one transmission unit.

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Nokia Q1 Connection ToolProgram that makes connection and node definitions foridentifying objects on a Nokia Q1 managed network. See Q1.

Nokia UltraSite Multimedia coverage and capacity macrocellular base station.

Omnidirectional CellCell with a 360× sector; also known as standard cell.

Operator Telecommunications company running telecommunicationsservices in a specific geographical area.

PCM time slot 1.5 Mbit/s PCM circuit is divided into twenty-four 64 kbit/stime slots.

2 Mbit/s PCM circuit is divided into thirty-two 64 kbit/s timeslots.

Peltier elements Elements that absorb or emit heat when an electric currentpasses across a junction between two materials. Used forheating and cooling IP20 protection class equipment.

Point-to-point Transmission between two fixed points.

Q1-bus Bus in Nokia UltraSite EDGE BTS, used for localtransmission management (Q1int) and for extending themanagement to external equipment.

Radio interface; air interface; AIThe interface between the mobile station (MS) and the radioequipment in the network. This is defined by functionalcharacteristics, common radio (physical) interconnectioncharacteristics, and other characteristics as appropriate.

Radio Relay Microwave radio unit that replaces a fixed cable with amicrowave radio link in the Abis Interface.

Rectifier Device for converting alternating current to direct current. SeeBATx.

RFU backplane Backplane in Nokia UltraSite EDGE BTS cabinet to whichRF units are attached.

Sectored BTS SiteA site with multiple cells positioned to supply the desiredradiation.

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Sectored Cell A cell with a conical coverage area achieved by means of adirectional aerial.

Single Sector A part of the BTS�s physical equipment that serves a singlecell in the network radio topology.

Site Location where telecommunication equipment has beeninstalled. For example, a site can contain a base station andtransmission equipment with an equipment shelter andantenna tower.

Several network elements can be located at a site.

Soft handover Handover where the signal goes through two base stations orbase station sectors at a time.

Softer handover Handover where the signal goes through two sectors in onebase station area at a time.

Software PackageSoftware collection consisting of the components of the BTSoperating system.

Spreading A process in which the signal is modulated with the pseudonoise code to get a wideband signal for multipath propagationin spread spectrum systems.

Spreading code A code that is used to despread a signal in spread spectrumcommunications.

Star Connection Transmission solution in which three branches with one BTSin each are connected to a common node. See ChainConnection, Loop Connection, and Multidrop Connection.

Synchronisation (Sync)Process of adjusting the corresponding significant instancesof signals (between adjacent and serving cells) to obtain thedesired phase relationship between these instances.

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Uplink Direction of transmission in which the mobile station is thetransmitting facility and the BTS is the receiving facility.

Uplink Diversity2-way uplink diversity � Function in which a BTS uses twoantennas and two receivers simultaneously on a singlechannel to obtain improved overall BTS receiver sensitivity inan environment that is subject to random multipath fading.

4-way uplink diversity � Function in which a BTS uses fourantennas and four receivers simultaneously on a singlechannel to obtain improved overall BTS receiver sensitivity inan environment that is subject to random multipath fading.

See Frequency Hopping.

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Related Topics

Overview of planning UltraSite EDGE BTSinstallation

Reference

UltraSite EDGE BTS assembly tree

Overview of planning UltraSite EDGE BTS cabinetinstallation

Descriptions

Technical overview of UltraSite EDGE BTS

Planning for UltraSite EDGE BTS installation at anew site

Instructions

Overview of UltraSite EDGE BTS installation at a new site

Planning for UltraSite EDGE BTS installation at anexisting UltraSite EDGE BTS site

Instructions

Overview of UltraSite EDGE BTS installation at an existing UltraSite EDGEBTS site

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Overview of configuration and combining optionsof UltraSite EDGE BTS

Instructions

Overview of installing GSM/EDGE units of UltraSite EDGE BTS

Combining bypass options of UltraSite EDGE BTS

Reference

Overview of configuration and combining options of UltraSite EDGE BTS

2-way Wideband Combining options of UltraSiteEDGE BTS

Reference

Overview of configuration and combining options of UltraSite EDGE BTS

4-way Wideband Combining options of UltraSiteEDGE BTS

Reference

Overview of configuration and combining options of UltraSite EDGE BTS

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6-sector Remote Tune combining of UltraSite EDGEBTS

Reference

Overview of configuration and combining options of UltraSite EDGE BTS

12-sector Remote Tune combining of UltraSiteEDGE BTS

Reference

Overview of configuration and combining options of UltraSite EDGE BTS

Dual-band combining of UltraSite EDGE BTS

Reference

Overview of configuration and combining options of UltraSite EDGE BTS

Horizontal sectoring of UltraSite EDGE BTS

Reference

Overview of configuration and combining options of UltraSite EDGE BTS

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