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UltraSite EDGE BTS ProductDescription
dn03398222Issue 2 en
# Nokia CorporationNokia Proprietary and Confidential
1 (279)
2 (279) # Nokia CorporationNokia Proprietary and Confidential
dn03398222Issue 2 en
UltraSite EDGE BTS Product Description
Contents
Contents 3
1 Statutory Information 71.1 CE Marking 71.2 FCC Statement 7
2 Technical overview of UltraSite EDGE BTS 92.1 Technical overview of UltraSite EDGE BTS 92.1.1 General description 92.1.2 Construction 112.1.3 Operation 142.1.4 Transmission 202.1.5 Related software 262.2 Compatibility between HW and SW 272.3 Compatibility between BTS, BSC, NetAct, SiteWizard and LMU SW 352.4 Compatibility between new operating SW of BTS SW CX4.1 and other
network elements 372.5 UltraSite EDGE BTS assembly tree 382.5.1 Mechanics 392.5.1.1 Core Mechanics 402.5.1.2 Panel Kits 462.5.1.3 Special Adapter Kits 482.5.1.4 Cabinet Heater 492.5.1.5 Filters 492.5.1.6 Options 502.5.2 Units 522.5.2.1 Transceiver 522.5.2.2 Multicoupler 562.5.2.3 Duplexer 582.5.2.4 Diplexer 612.5.2.5 Combiner 612.5.2.6 Dual Baseband 662.5.2.7 Transmission 672.5.2.8 Base Operations and Interface 682.5.2.9 Power Supply 682.5.2.10 VSWR Monitor 692.5.3 Internal Feeder Kit 702.5.4 Software 712.5.5 Customer Documentation 712.6 Physical properties of UltraSite EDGE BTS 722.6.1 Dimensions and weight 722.7 Electrical properties of UltraSite EDGE BTS 732.8 Acoustic sound parameters of UltraSite EDGE BTS 732.9 Overview of UltraSite EDGE BTS unit technical descriptions 742.10 Tools requirements for UltraSite EDGE BTS 822.11 Torque settings of UltraSite EDGE BTS 852.12 System requirements for Nokia SiteWizard 882.13 RF properties of UltraSite EDGE BTS 89
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Contents
2.13.1 RF properties of 800 MHz UltraSite EDGE BTS 892.13.2 RF properties of 900 MHz UltraSite EDGE BTS 912.13.3 RF properties of 1800 MHz UltraSite EDGE BTS 932.13.4 RF properties of 1900 MHz UltraSite EDGE BTS 952.13.5 RF properties 972.13.6 Static performance properties of UltraSite EDGE BTS receivers 982.14 Configuration and combining options of UltraSite EDGE BTS 1002.14.1 Overview of configuration and combining options of UltraSite EDGE
BTS 1002.14.1.1 Combining options 1012.14.1.2 Cabinet configurations 1012.14.2 Combining bypass options of UltraSite EDGE BTS 1022.14.3 2-way Wideband Combining options of UltraSite EDGE BTS 1052.14.4 4-way Wideband Combining options of UltraSite EDGE BTS 1122.14.5 6-sector Remote Tune combining of UltraSite EDGE BTS 1192.14.6 12-sector Remote Tune combining of UltraSite EDGE BTS 1222.14.7 Dual-band combining of UltraSite EDGE BTS 1252.14.8 Horizontal sectoring of UltraSite EDGE BTS 1272.15 Configuration and combining options of UltraSite EDGE BTS co-siting with
Talk-family BTS RF diversity cable kits 1302.15.1 Talk 222AFE/UltraSite 222DVxx cable connections of UltraSite EDGE
BTS Co-site with Talk-family BTS 1302.15.2 Talk 444RTC/UltraSite 222DVxx cable connections of UltraSite EDGE
BTS Co-site with Talk-family BTS 1312.15.2.1 RF diversity cabling for indoor applications 1312.15.2.2 RF diversity cabling for outdoor applications 1332.15.3 Talk 444RTC/UltraSite 444RTC cable connections of UltraSite EDGE BTS
Co-site with Talk-family BTS 1352.15.3.1 RF diversity cabling for indoor applications 1352.15.3.2 RF diversity cabling for outdoor applications 1372.15.4 Talk 666RTC/UltraSite 222DVxx WBC 2:1 cable connections of UltraSite
EDGE BTS Co-site with Talk-family BTS 1392.15.4.1 RF diversity cabling for indoor applications 1402.15.4.2 RF diversity cabling for outdoor applications 1432.15.5 Talk 666RTC/UltraSite 666RTC cable connections of UltraSite EDGE BTS
Co-site with Talk-family BTS 1452.15.5.1 RF diversity cabling for indoor applications 1462.15.5.2 RF diversity cabling for outdoor applications 148
3 Technical description of UltraSite EDGE BTS installation kits 1513.1 Technical description of Outdoor Application kit (OAKx) of UltraSite EDGE
BTS 1513.1.1 OAKA 1513.2 Delivery content of UltraSite EDGE BTS CRMA/OAKA transportation
package 1533.3 Delivery content of outdoor cable entry kit (OEKx) for UltraSite EDGE BTS
1543.4 Delivery content of UltraSite EDGEBTSOFKA transportation package 1543.5 Technical description of Outdoor Application kit (OAKB) of UltraSite EDGE
BTS 1553.6 Delivery content of UltraSite EDGEBTSOAKB transportation package 155
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UltraSite EDGE BTS Product Description
3.7 Technical description of Bridge kit (OBKA) of UltraSite EDGE BTS outdoorcabinet 156
3.8 Delivery content of UltraSite EDGEBTSOBKA transportation package 1583.9 Technical description of Indoor Cabinet of UltraSite EDGE BTS 1583.10 Delivery content of UltraSite EDGE BTS IDCA transportation package 1603.11 Delivery content of the WCDMA lifting handle kit 1603.12 Technical description of System Extension Cable (SXCA) kit of UltraSite
EDGE BTS 1613.13 Delivery content of UltraSite EDGEBTSSXCA transportation package 1613.14 Technical description of UltraSite EDGE BTS co-siting with Talk-family RF
diversity kits 1623.15 Delivery content of UltraSite EDGE BTS co-siting to Talk-family UTAA RF
diversity cable kit transportation package 1683.16 Delivery content of UltraSite EDGE BTS co-siting to Talk-family SPKA
splitter kit transportation package 1693.17 Delivery content of UltraSite EDGE BTS co-siting to Talk-family RSKA
splitter kit transportation package 1693.18 Delivery content of Talk/Talk synchronisation kit for UltraSite EDGE BTS
co-site with Talk-family BTS 1703.19 Delivery content of UltraSite/Talk synchronisation kits (UTxA) for UltraSite
EDGE BTS co-site with Talk-family BTS 1703.20 Delivery content of UltraSite/UltraSite synchronisation kits (UUxA) for
UltraSite EDGE BTS co-site with Talk-family BTS 1713.21 Technical description of Talk 222AFE/UltraSite 222DVxx UltraSite EDGE
BTS co-site with Talk-family BTS 1713.22 Technical description of Talk 444RTC/UltraSite 222DVxx UltraSite EDGE
BTS co-site with Talk-family BTS 1723.23 Technical description of Talk 444RTC/UltraSite 444RTC UltraSite EDGE
BTS co-site with Talk-family BTS 1723.24 Technical description of Talk 666RTC/UltraSite 222DVxx WBC 2:1
UltraSite EDGE BTS co-site with Talk-family BTS 1733.25 Technical description of Talk 666RTC/UltraSite 666RTC UltraSite EDGE
BTS co-site with Talk-family BTS 174
4 Technical description of UltraSite EDGE BTS cables 1774.1 External interfaces of UltraSite EDGE BTS 1774.1.1 External hardware interfaces of UltraSite EDGE BTS 800, 900, 1800, and
1900 1774.1.2 Front-mounted interface module board interfaces 1814.1.3 Rear-mounted interface module board interfaces 1864.2 Technical data for the UltraSite EDGE BTS unit cable kits 1884.3 Technical data for the LMP cable of UltraSite EDGE BTS 192
5 Configurations for UltraSite EDGE BTS 1955.1 Overview of configurations for UltraSite EDGE BTS 1955.2 Example network configuration: Loop 1965.3 Example network configuration: Star 1975.4 Example network configuration: Chain 1975.5 Overview of configurations for Nokia ITN 1985.6 Example site configuration: with SDH transmission 198
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Contents
6 Technical description of UltraSite BTS Hub 2016.1 Technical overview of Nokia BTS Hub or MetroHub Manager menus 2016.2 Technical description of transmission capacity expansion 2036.3 Technical description of transmission unit cross-connections 2056.4 Technical description of the node control unit 2096.5 Technical description of the synchronisation of FXC transmission units 2106.6 Technical description of Q1 management 212
7 Traffic Protection of UltraSite EDGE BTS 2157.1 Technical description of hot standby with the FXC RRI transmission
unit 2157.1.1 Introduction to hot standby 2157.1.2 Outdoor unit transmitter changeover switches 2167.1.3 Indoor unit changeover switch 2177.1.4 Alarms that occur with changeovers 2187.2 Technical description of PDH transmission network protection using loop
topology 2187.2.1 Introduction 2187.2.2 Protecting payload traffic 2217.2.3 Protecting network synchronisation 2257.2.4 Protecting remote network management channel 2277.2.5 Hints for using a loop network 2297.3 Technical description of SDH transmission protection enabled by the FXC
STM transmission unit 2307.4 Technical description of fading margin measurement in Nokia FlexiHopper
(Plus) 2317.5 Technical description of lazy transmitter changeover 2327.5.1 Lazy changeover timing 2337.5.2 Lazy transmitter changeover examples 233
8 Technical description of the performance management of FXCtransmission units 237
8.1 Performance data for FXC E1/T1, FXC E1, and FXC RRI 2378.2 Performance data for FXC STM-1 and FXC Bridge 240
9 Glossary 2439.1 Glossary for UltraSite EDGE BTS 2439.1.1 Abbreviations and acronyms 2439.1.2 Terms 259
Related Topics 269
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UltraSite EDGE BTS Product Description
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.
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 harmful
0168
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Statutory Information
Standard Description
interference 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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UltraSite EDGE BTS Product Description
2 Technical overview of UltraSite EDGEBTS
2.1 Technical overview of UltraSite EDGE BTS
2.1.1 General description
Nokia UltraSite EDGE BTS supports both omni-directional and sectorisedconfigurations for traditional voice and future data applications. The BTS can beused in GSM/EDGE 800, 900, 1800, or 1900 MHz systems. With the addition ofEDGE/EGPRS, the BTS offers a maximum data rate of more than 400 kbit/s withmultiple timeslots, as compared to more than 100 kbit/s with multiple timeslotsfor GSM/GPRS.
Nokia UltraSite EDGE BTS supports the following configurations:
. Up to 12 GSM/EDGE TRXs
. Six GSM/EDGE TRXs plus WCDMA upgrade
Nokia UltraSite EDGE BTS is available in the following cabinets for outdoor andindoor applications:
. Nokia UltraSite EDGE BTS Outdoor (OAKA/CRMA)
. Nokia UltraSite EDGE BTS Outdoor co-sited with Talk-family (OAKB/CRMA)
. Nokia UltraSite EDGE BTS Indoor (IDCA/IDCB)
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Technical overview of UltraSite EDGE BTS
Figure 1. Nokia UltraSite EDGE BTS Indoor and Outdoor cabinets
Note
This equipment has been tested and found to comply with the limits for a class Bdigital device, pursuant to Part 15 of the FCC Rules. These limits are designed toprovide reasonable protection against harmful interference when the equipment isoperated in a commercial environment. This equipment generates, uses, and canradiate radio frequency energy and, if not installed and used in accordance withthe instruction manual, may cause harmful interference to radio communications.Operation of this equipment in a residential area is likely to cause harmfulinterference, in which case, the user is required to correct the interference at hisown expense.
Outdoor Indoor
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UltraSite EDGE BTS Product Description
Note
To upgrade Nokia UltraSite EDGE BTS from GSM to GSM/EDGE requires theGSM/EDGE version of:
. BTS software
. Transceiver (TSxx) unit
. Transceiver Baseband (BB2x) unit
The BTS cabinet, backplane, and other units do not change.
2.1.2 Construction
Nokia UltraSite EDGE BTS features a self-standing cabinet with unit guides. Theoutdoor cabinet includes a cabinet core and an external application kit. All indoorcomponents are pre-installed, except for the roof mask and the roof mask sides.
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Technical overview of UltraSite EDGE BTS
1 Door
2 Side wall
3 Door frame
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3
4
5
6
7
8
9
2
10
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UltraSite EDGE BTS Product Description
4 Door switch assembly
5 Roof
6 Antenna box extension
7 Back wall
8 Side wall
9 Plinth
10 Cabinet core (CRMA)
Figure 2. Nokia UltraSite EDGE BTS Outdoor (OAKA/CRMA)
5
4
2
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1Door2Roof3Wall brackets4Cabinet core5Feet (four places)
Figure 3. Nokia UltraSite EDGE BTS Indoor (IDCx)
For information about dimensions and weight of UltraSite EDGE BTS, seePhysical properties of UltraSite EDGE BTS.
For information about climatic conditions for UltraSite EDGE BTS operation, seeOperating conditions for UltraSite EDGE BTS.
2.1.3 Operation
Nokia UltraSite EDGE BTS performs the radio functions of the Base StationSubsystem (BSS).
The BTS receives and sends signals through:
. Air interface � frequencies that connect the BTS to the Mobile Station(MS)
. Abis interface � cable, optical fibre, or radio link that connects the BTS tothe BaseStation Controller (BSC), which is the central element of the BSS
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UltraSite EDGE BTS Product Description
Figure 4. BTS interfaces
BSCAbis interface Abis interface
Abis interface
Abis interface
UltraSite EDGE BTS
Air interface
MS
UltraSite EDGE BTS
UltraSite EDGE BTS
Transmission node/
UltraSite EDGE BTS
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Uplink and downlink signalling
In the uplink path, the BTS receives signals from the MS. In the downlink path,the BTS sends signals to the MS. Uplink and downlink signals travel through theAir interface on different frequencies, with the higher frequency carryingdownlink signals.
The uplink signal path involves the following actions:
. The antenna picks up a signal from the MS through the Air interface.
. The antenna passes the signal to the optional Masthead Amplifier (MNxx)and Bias Tee (BPxx) units or to the optional Dual Band Diplex Filter(DU2A) unit.
. The signal passes through either the Dual Variable Gain Duplex Filter(DVxx) or Remote Tune Combiner (RTxx) unit to the ReceiverMulticoupler (M2xA or M6xA) and Transceiver RF (TSxx) units.
. The Transceiver module (TRX) on the TSxx unit converts the receivedsignal to Intermediate Frequency (IF) levels and filters the signal.
. The TSxx unit then sends the signal to the Transceiver Baseband (BB2x)unit for digital signal processing.
. The BB2x unit sends the processed signal to the Transmission (VXxx)unit, which transmits the signal to the BSC utilizing standard transmissiontechnologies.
The downlink signal path involves the following actions:
. The BSC receives a signal from the core network and sends the signal tothe VXxx unit using standard transmission technologies.
. The VXxx passes the signal to the BB2x unit for digital signal processing.
. The BB2x unit sends the processed signal to the TSxx unit.
. The TRX module on the TSxx unit filters the signal, raises it to the carrierfrequency, and amplifies it.
. The TSxx unit then sends the signal either to the RTxx unit or through theoptional Wideband Combiner (WCxA) unit to the DVxx unit.
. The DVxx or RTxx unit sends the signal through either the optional DU2Aunit or the BPxx and MNxx units to the antenna, which passes the signalthrough the Air interface to the MS.
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Figure 5. Uplink and downlink signal paths (using DVxx)
Antenna
(Optional,
used only with
DVxx in
low-gain setting)
MNxx
KEY:
TSxx = Transceiver unit
WCxA = Wideband Combiner unit
BB2x = Transceiver Baseband unit
BOIx = Base Operations and Interfaces unit
BPxx = Bias Tee unit
BSC = Base Station Controller
DU2x = Dual Band Diplex Filter unit
DVxx = Dual Variable Gain Duplex Filter unit
M2xA = 2-way Receiver Multicoupler unit
M6xA = 6-way Receiver Multicoupler unit
MNxx = Masthead Amplifier unit
MS = Mobile Station
VXxx = Transmission unit
Downlink path
Uplink path
Downlink/uplink path
Air interface
MS
BOIx
BB2x TSxxWCxA
Base Station cabinet equipment
(Optional) (Optional,
not used with MNxx)
DVxx DU2x
RX RX
TX
M2xA
or
M6xA
VXxx
BSC
Abis
interface
BPxx
(Optional)
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Technical overview of UltraSite EDGE BTS
Figure 6. Uplink and downlink signal paths (using RTxx)
Internal BTS signalling
Buses on the BTS backplane and interconnected cables carry signals between theinternal BTS units.
Antenna
(Optional,
used only with
RTxx in
low-gain setting)
MNxx
KEY:
TSxx = Transceiver unit
BB2x = Transceiver Baseband unit
BOIx = Base Operations and Interfaces unit
BPxx = Bias Tee unit
BSC = Base Station Controller
DU2x = Dual Band Diplex Filter unit
M6xA = 6-way Receiver Multicoupler unit
MNxx = Masthead Amplifier unit
MS = Mobile Station
RTxx = Remote Tune Combiner unit
VXxx = Transmission unit
Downlink path
Uplink path
Downlink/uplink path
Air interface
MS
BOIx
BB2x TSxx
(Optional,
not used with MNxx)
RTxx DU2x
RX RX
TX
M6xA
VXxx
BSC
Abis
interface
BPxx
(Optional)
Base Station cabinet equipment
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UltraSite EDGE BTS Product Description
Table 1. BTS buses
Bus Function
D1-bus Data transfer and signalling between BOIx, BB2x, andVXxx units:. GSM - uses one D1-bus. EDGE - uses three D1-buses
D2-bus Internal Operations and Maintenance (O&M) functionsand communication between BOIx, BB2x, and RTxxunits; software download
Local Management Bus(LMB)
Control of VXxx unit
Q1-bus Polling and management of VXxx units and otherequipment at site with Q1 management interface
I2C-data buses Polling, auto detection, temperature readings, and alarmcollection � Power Supply (PWSx) unit, DVxx unit, andinterface module
Uplink/downlink serialdata bus1
Control, status, and traffic data between BB2x and TSxxunits
F-bus2 Baseband frequency hopping
1Located between the BB2x and TSxx units (through the BOIx unit cross-connection).
2Located between BB2x units.
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Figure 7. Internal bus architecture
2.1.4 Transmission
Nokia UltraSite EDGE BTS provides scalable, high-capacity access transmissionfor large-capacity networks and data services. Nokia UltraSite EDGE BTSsupports 16, 32 and 64 kbit/s telecom signalling through the Abis interface. TheO&M signalling speed can be 16, 32, or 64 kbit/s.
Transmission media
Nokia UltraSite EDGE BTS supports the following transmissions:
. radio-link
. wireline
. fibre-based
BOIx
Interface
module
Q1_2Q1_1 Q1_SSS
Q1_SSS
1 C_EAC2
1 C_Common2
1 C_A2
BB2x
F-bus
TSxx
TSxx
PWSx
DVxx
RTxx
VXxx
VXxx BB2x
DDXC
D1-bus
D2-busUplink/
downlink
bus
Uplink/downlink busLMB
LMP
Q1_INTQ1_EXT
Abis
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The signals are multiplexed and cross-connected to a level of 8 kbit/s in the BTSusing the Plesiochronous Digital Hierarchy (PDH).
Radio-link transmission
The FXC RRI unit is the radio-link transmission unit for Nokia UltraSite EDGEBTS. The unit has two Flexbus interfaces for connecting:
. one or two microwave radio outdoor units
. two FXC RRI units in different BTS cabinets or transmission nodes
. one FXC RRI unit to another transmission device offering a FlexBusinterface (such as FIU19)
The proprietary Nokia Flexbus is a coaxial cable that:
. carries power for the radio outdoor unit
. carries a maximum of 16 x 2 Mbit/s in both directions
. has a maximum cable length of 300 metres
. is compatible with Nokia FlexiHopper Microwave Radio and NokiaMetroHopper Radio
Wireline transmission
Cellular access networks are based mainly on the E1 (ETSI) and T1 (ANSI)standards. E1 capacity is 2 Mbit/s, and T1 capacity is 1.5 Mbit/s. Nokia UltraSiteEDGE BTS supports these standards with the following wireline transmissionunits:
. FC E1/T1 � 120 © twisted pair for E1 or 100 © twisted pair for T1, 75 ©coaxial for E1
. FXC E1 � four 75 © coaxial for E1
. FXC E1/T1 � four 120 © twisted pair for E1 or 100 © twisted pair for T1
Any combination of up to four FXC E1, FXC E1/T1, or FXC RRI units can beused in one UltraSite EDGE BTS cabinet. Only one FC E1/T1 unit can be used inone UltraSite EDGE BTS cabinet, without the possibility of using any additionalFXC unit.
Fibre-based transmission
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FXC STM-1 and Bridge units are fibre-based transmission units, with opticalinterfaces. FXC STM-1 has two L-1.1 long-haul optical STM-1 interfaces. Inaddition, the FXC Bridge unit has a test interface. The FXC STM units do nothave separate Q1 management interfaces, but instead, they are managed locallyvia the local management port (LMP) of Nokia BTS or Nokia MetroHub, orremotely via the Nokia Q1 bus.
The main features of the FXC STM-1 and FXC Bridge units provide support for:
. automatic laser shutdown (ALS).
. both SDH STM-1 TM and STM-1 ADM node types.
. fully non-blocking cross-connections on TU-12 level between both STM-1aggregate interfaces and the add/drop traffic.
. SDH S12 SNC/I+ (Inherently monitored subnetwork connectionprotection), that is, protection on the VC-12 level.
. up to 20 x TU-12 (2M) drop capacity from SDH.
. grooming via PDH cross-connections for the add/drop traffic with thefollowing granularity: 8k, 16k, 32k, 64k, Nx64k.
. interface statistics collection in compliance with ITU-T G.826.
. easy management of settings and transmission configuration (locally andremotely) with the Nokia Q1 management protocol. Management is carriedout with a Nokia NetAct compatible node manager.
. remote and local software download.
Network configuration
For information about UltraSite EDGE BTS configurations, see Overview ofconfigurations for UltraSite EDGE BTS.
The BTS uses the following transmission units:
. FXC RRI
. FXC E1
. FXC E1/T1
. FC E1/T1
. FXC STM-1
. FXC Bridge
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FXC RRI unit
With two radio-link Flexbus connections per unit, the FXC RRI unit operates as arepeater and interconnects Nokia UltraSite EDGE BTS cabinets and the BSCusing loop, chain, star, and point-to-point network configurations. Each FlexBusinterface has a capacity of up to 16 x 2M, dependent on the capacity of themicrowave link and if the FlexBus is used for direct interconnection to a differentFlexBus interface.
FXC E1 or FXC E1/T1 or FC E1/T1 unit
With four wireline connections per unit (E1 has 2Mbit/s capacity, and T1 has 1.5Mbit/s capacity), the FXC E1 or FXC E1/T1 unit operates as a branching pointand interconnects Nokia UltraSite EDGE BTS cabinets and the BSC using theloop, chain, star, and point-to-point network configurations. With up to four FXCE1 or FXC E1/T1 units per cabinet, a single cabinet supports a maximum of 16wireline connections. The FC E1/T1 unit can be used as a termination point in achain, star, or point-to-point network configuration. Because it has one wirelineconnection, only one FC E1/T1 unit per BTS cabinet is supported. And, it is notpossible to deploy FXC units together with the FC E1/T1 unit.
FXC STM-1 and FXC Bridge transmission units
The FXC STM-1 and FXC Bridge transmission units allow cross connectionsbetween PDH (Plesiochronous Digital Hierarchy) and SDH (Synchronous DigitalHierarchy) transmission rates. The units work together to form a complete SDHSTM-1 terminal multiplexer (TM) or add-drop multiplexer (ADM) node insideNokia base stations or Nokia MetroHub transmission nodes. FXC STM-1performs the main SDH functions, whereas the FXC Bridge forms a bridge forthe signals between the SDH part and the PDH cross-connect part of the node.The two units are always used together.
Co-located Nokia Talk-family
A co-located Nokia Talk-family BTS can connect to Nokia UltraSite EDGE BTSusing the integrated E1/T1 interface or Flexbus. During the upgrade phase, theNokia Talk-family transmission interface to the BSC can provide the Abiscapacity for the Nokia UltraSite EDGE BTS. This configuration, however, limitsthe capacity and expandability of the BTS. Therefore, it is recommended that theAbis capacity for the Nokia Talk BTS is connected through the Nokia UltrasiteEDGE BTS transmission Hub.
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Cross-connections
The BTS integrated transmission Hub does provide the cross-connectfunctionality and granularities necessary to create a transmission network thatsupports the specific needs of GSM/EDGE. The maximum DXC capacity of theBTS integrated transmission Hub is 56 x 2 Mbit/s. Various cross-connectiongranularities are supported down to a level of 8kbit/s. 16kbit/s cross connects canbe used, for example, to cross-connect the BTS signalling links or BTS O&Mchannels when the bandwidth is 16kbit/s.
Nokia UltraSite EDGE BTS can handle the following cross-connectiongranularities:
. 8k (1 bit in a time slot)
. 16K (2 bits in a time slot)
. 32K (4 bits in a time slot)
. 64K (all 8 bits in a time slot)
. n x 64k
. 2M
Note
All 2Mbit/s interfaces are terminated, which means that TS0 is not crossconnected but regenerated. Only the 2Mbit/s cross-connections that are madefrom FlexBus to FlexBus inside one FXC RRI are transparent.
Note
VC-12 is a virtual container inside VC-4 with a capacity of 2 Mbit/s.
Protection
The BTS-integrated transmission Hub supports protection functions againsttransmission problems, such as cable cuts, equipment faults, or fading radio links:
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. Transmission network protection using loop topology
. Hot Stand By (HSB)
. Lazy transmitter changeover
Transmission network protection using loop topology
Nokia loop protection is an efficient way to protect traffic in a transmissionnetwork, such as a GSM BSS. In a live telecommunication network, it isimportant to secure, in addition to actual payload traffic, the networksynchronisation and the centralised network management during any period ofabnormal circumstances.
For these reasons, Nokia loop protection protects:
. Payload traffic
. Network synchronisation
. Network management connections
Hot Stand By (HSB)
HSB is a method of equipment redundancy in which two radio transmitters arekept ready (switched on), so that if one fails, the other one immediately picks upwhere the first one left off.
In single use, the signal is not protected against equipment or propagation faults.In the event of a fault, the connection remains broken until the equipment fault isrepaired or the cause for the propagation fault vanishes. HSB provides protectionagainst equipment faults.
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Figure 8. Nokia FlexiHoppers with FXC RRI, 1IU/2OU HSB (only one directionshown)
Lazy transmitter changeover
Lazy transmitter changeover is a protection method against transmitter faults thatcannot be detected by the equipment itself, for example, a faulty antenna. TheFXC RRI unit sends periodic notifications to the far-end about the radio signalquality. Lazy transmitter changeover is performed, if there are errors in thetransmitted data over a specified time interval that are caused by the near-endtransmitter.
2.1.5 Related software
The following Nokia software applications relate to Nokia UltraSite EDGE BTS:
. Network Management System (NMS) and BSC software
. Nokia SiteWizard
. BTS software
. Nokia PSM software
Outdoor unit A
Outdoor unit B Outdoor unit B
Outdoor unit A
TX CO Transmitter changeover switch (transmitter mute control)
TX CO
IU RXCO Indoor unit hitless changeover switch (In ASIC)
TX CO
IU RXCO
Indoor unit Indoor unit
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2.2 Compatibility between HW and SW
This section provides information on the compatibility between Nokia UltraSiteEDGE GSM 800/900/1800/1900 Base Station Software (BTS SW) release andunit hardware (HW).
The table below shows the compatibility between HWand SW in Nokia UltraSiteEDGE BTS.
Table 2. Compatibility between HW and SW in Nokia UltraSite EDGEBTS
Unit Unit codeUnitversion
SW Releases
CX3.0
(-x)
CX3.3
(-A, -x)
CX4.0
(-1, -2,-3)
CX4.0
(-4)
CX4.1
ACFU 468755A .101, .203,.204, .205
Y Y Y Y Y
ADUA CS71506.02 Y Y Y Y Y
ATCA 468686A .101, .102 Y Y Y Y Y
BATA CS71505.02 Y Y Y Y Y
BBAG CS70403.00 Y Y Y Y
BB2A 467869A .103, .104,.105, .106,.1073)
Y Y Y Y Y
BB2E 468131A .101, .202 Y Y Y Y Y
BB2F 469643A X02, X03,X04, .101,.102
N Y Y Y Y
BOIA 467868A .102, .103,.104, .105,.106
Y Y Y Y Y
BPDN
(GSM 800-1900)
CS72994.01 Y Y Y Y Y
BPDV CS72994.03 Y Y Y Y Y
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Table 2. Compatibility between HW and SW in Nokia UltraSite EDGEBTS (cont.)
Unit Unit codeUnitversion
SW Releases
CX3.0
(-x)
CX3.3
(-A, -x)
CX4.0
(-1, -2,-3)
CX4.0
(-4)
CX4.1
(GSM 1800/1900 W/VSWR)
BPGV
(GSM 800/900W/VSWR)
CS72994.02 Y Y Y Y Y
CCUA CS71508.02 Y Y Y Y Y
CRMA 467851A X53, X54 Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
.101, .102,
.103, .204, .205, .206,.207, .208,.309
Y Y Y Y Y
CRMB 468080A X52, X53,X54, X55,.101, .102,.103
Y Y Y Y Y
CRMC 468126A X301, .101,.102, .203
Y Y Y Y Y
DU2A 467812A .101 Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
DVDA
(GSM 1800)
468219A .101, .102,.103, .104
Y Y Y Y Y
DVDB
(GSM 1800)
468220A .101, .102,.103, .104
Y Y Y Y Y
DVDC
(GSM 1800)
468619A X11, .101,.102
Y Y Y Y Y
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Table 2. Compatibility between HW and SW in Nokia UltraSite EDGEBTS (cont.)
Unit Unit codeUnitversion
SW Releases
CX3.0
(-x)
CX3.3
(-A, -x)
CX4.0
(-1, -2,-3)
CX4.0
(-4)
CX4.1
DVGA
(GSM 900)
468216A .101, .102 Y Y Y Y Y
DVHA
(GSM 900)
468217A X21, .101,.102
Y Y Y Y Y
DVJA
(GSM 900)
468218A X12, .101,.102
Y Y Y Y Y
DVPA
(GSM 1900)
468221A .101, .102,.103
Y Y Y Y Y
DVTB
(EDGE 800)
468133A .101, .102 Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
DVTC
(EDGE 800)
468877A .101, .102 Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
DVTD
(EDGE 800)
469644A .101, .102 Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
HETA 467937A .101, .102 Y Y Y Y Y
467937X .301 Y Y Y Y Y
IAKA 467852A .101, .102,.203, .204,.205, .206
Y Y Y Y Y
IAKC 468792A .101, .102,.103
Y Y Y Y Y
IDCA 469725A .101 Y Y Y Y Y
IDCB 470089A .101 Y Y Y Y Y
LMU (GSM800, 1900/
469592A SW4.1 N N N N N
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Table 2. Compatibility between HW and SW in Nokia UltraSite EDGEBTS (cont.)
Unit Unit codeUnitversion
SW Releases
CX3.0
(-x)
CX3.3
(-A, -x)
CX4.0
(-1, -2,-3)
CX4.0
(-4)
CX4.1
1800) SW4.3 N N N Y Y
LMU (GSM900, 1800/1900)
468765A SW4.1 N N N N N
SW4.3 N N N Y Y
M2HA
(GSM 1800/1900 2-Way)
468532A X301, .101,.102, .103,.104, .105,.106, .107
Y Y Y Y Y
M2LA
(GSM 800/9002-Way)
468530A .101, .102,.103, .104,.105, .106,.107
Y Y Y Y Y
M6HA
(GSM 1800/1900 6-Way)
468533A .101, .102,.103, .104,.105
Y Y Y Y Y
M6LA
(GSM 800/9006-Way)
468531A .101, .102,.103, .104,.105
Y Y Y Y Y
MNGA
(GSM 900)
CS72991.01 Y Y Y Y Y
MNTB
(EDGE 800 R)
CS72991.02 Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
MNTC
(EDGE 800)
CS72991.03 Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
MNTB
(EDGE 800 M)
CS72991.04 Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
MNDA
(GSM 1800)
CS72992.01 Y Y Y Y Y
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Table 2. Compatibility between HW and SW in Nokia UltraSite EDGEBTS (cont.)
Unit Unit codeUnitversion
SW Releases
CX3.0
(-x)
CX3.3
(-A, -x)
CX4.0
(-1, -2,-3)
CX4.0
(-4)
CX4.1
Ultra MHA
(GSM 1800high band)
CS72992.02 Y Y Y Y Y
Ultra MHA
(GSM 1800low band)
CS72992.03 Y Y Y Y Y
MNPA
(GSM 1900)
CS72993.01 Y Y Y Y Y
MNPB
(GSM 1900)
CS72993.02 Y Y Y Y Y
MNPC
(GSM 1900)
CS72993.03 Y Y Y Y Y
Ultra MHA
(DB bands)
CS72993.04 Y Y Y Y Y
Ultra MHA
(EFC bands)
CS72993.05 Y Y Y Y Y
Ultra MHA
(BEF bands)
CS72993.06 Y Y Y Y Y
MNPF
(GSM 1900)
CS72993.07 Y Y Y Y Y
MNPF
(GSM 1900 w/by-pass)
CS72993.08 N Y Y Y Y
OAKA 467853A .101, .102,.203, .304,.305, .306
Y Y Y Y Y
OAKA Kit CS71503.03 Y Y Y Y Y
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Table 2. Compatibility between HW and SW in Nokia UltraSite EDGEBTS (cont.)
Unit Unit codeUnitversion
SW Releases
CX3.0
(-x)
CX3.3
(-A, -x)
CX4.0
(-1, -2,-3)
CX4.0
(-4)
CX4.1
OAKB 469095A .101, .202,.203, .204
Y Y Y Y Y
OAKC 469152A .101, .102 Y Y Y Y Y
PWSA
(AC)
467865A X01, X302,X303, .101,.102, .103,.104, .105
Y Y Y Y Y
PWSB
(DC -48 V)
467866A .101, .102,.103, .104,.105
Y Y Y Y Y
PWSC
(DC +24 V)
468664A .101, .102,.104
Y Y Y Y Y
RTDA
(GSM 1800)
467858A .102 Y Y Y Y Y
RTDB
(GSM 1800)
467859A .102 Y Y Y Y Y
RTDC
(GSM 1800)
468721A .101 Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
RTGA
(GSM 900)
467857A .102 Y Y Y Y Y
RTHA
(GSM 900)
467861A .101, .102 Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
RTJA
(GSM 900)
467862A .101, .102 Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
RTPA
(GSM 1900)
467860A .102 Y Y Y Y Y
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Table 2. Compatibility between HW and SW in Nokia UltraSite EDGEBTS (cont.)
Unit Unit codeUnitversion
SW Releases
CX3.0
(-x)
CX3.3
(-A, -x)
CX4.0
(-1, -2,-3)
CX4.0
(-4)
CX4.1
TSDA
(GSM 1800)
467828A .101, .102,.104, .105,.105A, .106,.107, .108,.109, .110
Y Y Y Y Y
TSDB
(EDGE 1800)
468705A X55 Y Y Y Y Y
469089A X44, X46,X48, X64,X65, X67,X69, .101,.102, .103,.104, .105,.206
Y Y Y Y Y
TSGA
(GSM 900)
467800A .102, .104,.105, .106,.107, .108,.109
Y Y Y Y Y
TSGB
(EDGE 900)
468704A .102, .103,.104, .105,.206
Y Y Y Y Y
TSPA
(GSM 1900)
467829A .101, .103,.104, .105,.106
Y Y Y Y Y
TSPB
(EDGE 1900)
468706A X51, X57,X64, X65,X71, X73,X2C, X4B,.101, .102,.103, .104,.105, .106,.207
Y Y Y Y Y
TSTB
(EDGE 800)
469087A X56, X59,X63, X64,X81, X3G,.101, .102,.103, .104,.105, .106,
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
Withrestric-tions2
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Table 2. Compatibility between HW and SW in Nokia UltraSite EDGEBTS (cont.)
Unit Unit codeUnitversion
SW Releases
CX3.0
(-x)
CX3.3
(-A, -x)
CX4.0
(-1, -2,-3)
CX4.0
(-4)
CX4.1
.207
UABA 469107A .101, .103 Y Y Y Y Y
VXEA
(FC E1/T1)
467201A .101, .102 Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
Withrestric-tions1
.103, .104 Y Y Y Y Y
VXOA
(FXC STM-1)
T36140.01 A0 N N N N N
B1 N N N N Y
VXOB
(FXC Bridge)
T36145.01 A0 N N N N N
B1 N N N N Y
VXOC
(FC STM-1)
00002795 03 N N N N N
VXRB
(FXC RRI)
467610A .101, .102,.103, .104,.105, .106
Y Y Y Y Y
VXTA
(FXC E1)
467612A .101, .102,.103, .104,.105, .106
Y Y Y Y Y
VXTB
(FXC E1/T1)
467611A .101, .102,.103, .104,.105, .106
Y Y Y Y Y
WCDA
(GSM 1800)
467834A X31, .101,.102, .103
Y Y Y Y Y
WCGA
(GSM 800/900)
467833A X31, .101,.102
Y Y Y Y Y
WCPA 467835A .101, .102 Y Y Y Y Y
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Table 2. Compatibility between HW and SW in Nokia UltraSite EDGEBTS (cont.)
Unit Unit codeUnitversion
SW Releases
CX3.0
(-x)
CX3.3
(-A, -x)
CX4.0
(-1, -2,-3)
CX4.0
(-4)
CX4.1
(GSM 1900)
Y = Compatible
N = Not compatible
1There are no compatibility problems detected. However, the compatibility is not properly tested.
2 EDGE 800 requires BSC SW version S10.
3 PU1.0-2 SW or newer required for .107.
2.3 Compatibility between BTS, BSC, NetAct,SiteWizard and LMU SW
This section provides information on the compatibility between the followingsoftware:
. Nokia UltraSite EDGE Base Station Software (BTS SW)
. Nokia SiteWizard Software (SiteWizard SW)
. Base Station Controller Software (BSC SW)
. NetAct Software (NetAct SW)
. Nokia Location Measurement Unit Software (LMU SW)
The tables below show the level of compatibility between the software versions.
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Table 3. Compatibility between BTS, SiteWizard and BSC SW
BTS SW SiteWizard BSC SW
S10.5 S10.5
ED
S11 S11.5
CX3.0 (-1, -2, -2A) 3.0 N Y Y Y
CX3.0-3 3.0 Y Y Y Y
CX3.3 (-A) 3.01 Y Y Y Y
CX3.3-1 3.1 Y Y Y Y
CX3.3-2 3.12 Y Y Y Y
CX4.0 (-1, -2, -3, -4) 4.0
4.0.54
Y3 Y3 Y Y
CX4.1 4.1 Y3 Y3 Y Y
Y = Compatible
N = Not compatible
1 SiteWizard 3.0 with BTS Manager 3.3 and BTS HW Configurator 3.3.
2 Install BTS Manager 3.3.3 after the installation of SiteWizard 3.1.
3 BSS11 level features cannot be used.
4 SiteWizard 4.0.5 or later supports Windows XP.
Table 4. Compatibility between BTS, SiteWizard, NetAct andLMU SW
BTS SW SiteWizard NetAct SW LMU SW
OSS
3.1
OSS
3.1
ED1
OSS
3.1
ED2
OSS
3.1
ED3
SW4.1 SW4.3
CX3.0 (-1, -2, -2A) 3.0 Y Y Y Y N N
CX3.0-3 3.0 Y Y Y Y N N
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Table 4. Compatibility between BTS, SiteWizard, NetAct andLMU SW (cont.)
BTS SW SiteWizard NetAct SW LMU SW
OSS
3.1
OSS
3.1
ED1
OSS
3.1
ED2
OSS
3.1
ED3
SW4.1 SW4.3
CX3.3 (-A) 3.01 N Y Y Y N N
CX3.3-1 3.1 N Y Y Y N N
CX3.3-2 3.12 N Y Y Y N N
CX4.0 4.0 N Y3 Y3 Y3 N N
CX4.0-1, -2, -3 4.0
4.0.55
N Y Y Y N N
CX4.0-4 4.0
4.0.55
N Y Y Y N Y4
CX4.1 4.1 N Y Y Y N Y4
Y = Compatible
N = Not compatible
1 SiteWizard 3.0 with BTS Manager 3.3 and BTS HW Configurator 3.3.
2 Install BTS Manager 3.3.3 after the installation of SiteWizard 3.1.
3 BTS software creation from OSS to BSC is not possible if both MetroSite EDGE BTS SWCXM4.0 and UltraSite EDGE BTS SW CX4.0 are created at the same BSC.
4 If BSS11 BTS Site Synchronisation Recovery feature is used, LMU SW4.3 or later is required.
5 SiteWizard 4.0.5 or later supports Windows XP.
2.4 Compatibility between new operating SW of BTSSW CX4.1 and other network elements
The table below shows the compatibility between the new operating SW of BTSSW CX4.1 and the SW of other network elements.
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Table 5. Compatibility between new operating SW of BTS SW CX4.1and other network elements
New BSS11.5 Operating SW in BTS BSC SW NetAct SW
IDD with BB Hopping S11
S11.5
OSS3.1 ED3
Dynamic Frequency and Channel Allocation (DFCA) S11
S11.5
OSS3.1 ED3
Extended Cell (E-Cell) for UltraSite BTS S11.5 OSS3.1 ED3
2.5 UltraSite EDGE BTS assembly tree
The UltraSite EDGE BTS is a subsystem in the UltraSite System concept, whichincludes the following:
. Base Station Terminal (BTS)
. Site Support System
. Radio Relay System
. Masthead Amplifier (MHA) Kit
. Antenna System
UltraSite EDGE BTS performs the radio functions of the Base Station Subsystem(BSS). The BTS receives and sends signals through the following interfaces:
. Air interface � frequencies that connect the BTS to the Mobile Station(MS)
. Abis interface � cable or radio link that connects the BTS to the BaseStation Controller (BSC), which is the central element of the BSS
With the BSC, Nokia NetAct manages the entire GSM/EDGE network, includingUltraSite EDGE BTS.
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UltraSite EDGE BTS components
Figure 9. UltraSite EDGE BTS product tree
2.5.1 Mechanics
Nokia UltraSite EDGE BTS is available in the following cabinets for outdoor andindoor applications:
. UltraSite EDGE BTS Outdoor
. UltraSite EDGE BTS Indoor
BaseOperations
and Interfaces
CoreMechanics
PanelKits
Transceiver
Duplexers
Diplexer
VSWRMonitoring
Multicoupler
Combiners
Trans-mission
PowerSupply
DualBaseband
AntennaCable Set
A5/0
A5/1
A5/2
UltraSiteEDGE BTSUser Manual
UltraSite BTSSW Documen-
tation
CustomerDocumen-tation
SWInternalFeederKit
UnitsMechanics
UltraSite EDGEBase Station
SpecialAdapterKits
CabinetHeater
Filters
Options
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Table 6. Mechanics
Category Property
Mechanics Core Mechanics
Mechanics Panel Kits
Mechanics Special AdapterKits
Mechanics Cabinet Heater
Mechanics Filters
Mechanics Options
2.5.1.1 Core Mechanics
Table 7. Core Mechanics
ID Category Property
020423A Mechanics Core Mechanics12 TRX CRMA
020424A Mechanics Core Mechanics 6TRX + IBB
020425A Mechanics Core Mechanics 6TRX + WDCMA
468126A Mechanics Core Mechanics 6TRX CRMC
Table 8. Core Mechanics 12 TRX CRMA
ID Category Property
467851A Mechanics Core Mechanics 6TRX CRMA
469170A Mechanics TRSA Mechanics6 TRX
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Table 9. TRSA Mechanics 6 TRX
ID Category Property
073671A Mechanics TRSA MechanicsModule
063912A Mechanics RFU BackplaneModule
066971A Mechanics Unit Cooling FanModule
Table 10. Core Mechanics 6 TRX CRMA
ID Category Property
065895A Mechanics Core MechanicsModule
063897A Mechanics CommonBackplane Module
064276A Mechanics Interface Module
065551A Mechanics BIAS-T InterfaceModule
065681A Mechanics DC-Filter Module
066971A Mechanics Unit Cooling FanModule
067035A Mechanics TransmissionMechanics Module
063912A Mechanics RFU BackplaneModule
067014A Mechanics TransmissionBackplane Module
065920A Mechanics Cable Kit Module
066123A Mechanics VoltageDistribution Bar
078917A Mechanics Packing Material
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Table 11. Core Mechanics 6 TRX CRMA
ID Category Property
065895A Mechanics Core MechanicsModule
082817B Core mechanics 12 TRX IDCA
082917A Core mechanics 6 TRX + WCDMAIDCB
064276A Mechanics Interface Module
065681A Mechanics DC Filter Module
066971A Mechanics Unit Cooling FanModule
067035A Mechanics TransmissionMechanics Module
063912A Mechanics RFU BackplaneModule
067014A Mechanics TransmissionBackplane Module
065920A Mechanics Cable Kit Module
066123A Mechanics VoltageDistribution BusBar Module
078917A Mechanics Packing Material
Table 12. Core Mechanics 6 TRX + WCDMA
ID Category Property
467851A Mechanics Core Mechanics 6TRX CRMA
Mechanics WCDMA
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Table 13. Core Mechanics 6 TRX CRMA
ID Category Property
065895A Mechanics Core MechanicsModule
063897A Mechanics CommonBackplane Module
064276A Mechanics Interface Module
065551A Mechanics BIAS-T- InterfaceModule
065681A Mechanics DC-Filter Module
066971A Mechanics Unit Cooling FanModule
067035A Mechanics TransmissionMechanics Module
063912A Mechanics RFU BackplaneModule
067014A Mechanics TransmissionBackplane Module
065920A Mechanics Cable Kit Module
066123A Mechanics VoltageDistribution BusBar Module
078917A Mechanics Packing Material
Table 14. Core Mechanics 12 TRX IDCA
ID Category Property
082602A Mechanics Outer Mechanics SubModule
082599A Mechanics Roof Sub Module
082595A Mechanics EMC Mesh Sub Module
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Table 14. Core Mechanics 12 TRX IDCA (cont.)
ID Category Property
082601A Mechanics Inner Mechanics SubModule
082597A Mechanics Core Sub Module
082594A Mechanics Common Rack SubModule
082593A Mechanics Power Rack Sub Module
082598A Mechanics DTRU Rack Sub Module
082677A Mechanics DTRU Cover Sub Module
081910A Mechanics DTRU Backplane Module
082596A Mechanics Ball Wall Sub Module
082609A Mechanics Door Sub Module
081514A Mechanics Antenna Box Sub Module
063912A Mechanics RFU backplane
082126A Mechanics Common backplane
064276A Mechanics Interface Module
065551A Mechanics Bias-T Interface
082889A Mechanics Antenna Box Frame SubModule
082600A Mechanics WBC Fan Sub Module
081684A Mechanics Voltage Distribution BusBar
081936A Mechanics DC Filter
Table 15. Core Mechanics 6 TRX + WCDMA IDCB
ID Category Property
082602A Mechanics Outer Mechanics Sub
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Table 15. Core Mechanics 6 TRX + WCDMA IDCB (cont.)
ID Category Property
Module
082599A Mechanics Roof Sub Module
082595A Mechanics EMC Mesh Sub Module
082601A Mechanics Inner Mechanics SubModule
082918A Mechanics Core Sub Assembly
082594A Mechanics Common Rack SubAssembly
082593A Mechanics Power Rack SubAssembly
082598A Mechanics DTRU Rack Sub Assembly
081910A Mechanics DTRU Backplane Module
082596A Mechanics Back Wall Sub Assembly
082609A Mechanics Door Sub Module
081514A Mechanics Antenna Box Sub Module
082889A Mechanics Antenna Box Frame SubModule
063912A Mechanics RFU Backplane
082126A Mechanics Common Backplane
064276A Mechanics Interface Module
065551A Mechanics Bias-T Interface
081684A Mechanics Voltage Distribution Bus
081936A Mechanics DC Filter
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Table 16. Core Mechanics 6 TRX CRMC
ID Category Property
066123A Mechanics VoltageDistribution bar
063897A Mechanics CommonBackplane Module
064276A Mechanics Interface Module
066090A Mechanics MechanicsModule, CRMC
074969A Mechanics Packing MaterialCRMC
067014A Mechanics TransmissionBackplane Module
066971A Mechanics Cooling FanModule
063912A Mechanics RFU BackplaneModule
065681A Mechanics DC Filter Module
065920A Mechanics Cable Kit CRMC
067035A Mechanics TransmissionMechanics Module
065551A Mechanics BIAS-T InterfaceModule
2.5.1.2 Panel Kits
Table 17. Indoor Application Kit IAKA
ID Category Property
065926A Mechanics IAKA MechanicsModule
077830A Mechanics IAKA PackingMaterial Module
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Table 18. Outdoor Application Kit OAKA
ID Category Property
065922A Mechanics Mechanics Module
065924A Mechanics OAK ElectronicsModule
077821A Mechanics Packing MaterialModule
073216A Mechanics BB2 DummyModule
073217A Mechanics DTRU DummyModule
Table 19. MIDI Outdoor Kit OAKC
ID Category Property
065924A Mechanics OAK ElectronicModule
073216A Mechanics BB2 DummyModule
073217A Mechanics DTRU DummyModule
073230A Mechanics OAKC MechanicModule
074913A Mechanics Packing Material
Table 20. MIDI Indoor Application Kit IAKC
ID Category Property
073228A Mechanics IAKC MechanicsModule
073229A Mechanics IAKC PackingMaterial Module
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Note
For more information on MIDI and IAKA, see Release 6 of Nokia ProductDocumentation.
2.5.1.3 Special Adapter Kits
Table 21. Special Adapter Kits
ID Category Property
469107A Mechanics Abis Cable SetUABA 11
Table 22. Abis Cable Set UABA 11
ID Category Property
072185A Mechanics ABIS Cable Kit
Table 23. Ultra/Ultra Co-Site Cable Set UUAA 11
ID Category Property
072186A Mechanics RF Diversity CableKit
076398A Mechanics Packing Material
Table 24. Ultra/Ultra Synch Cable Set UUHA 11
ID Category Property
072190A Mechanics Cable Kit
076309A Mechanics Packing Material
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Table 25. Ultra/Ultra Synch Cable Set UUIA 11
ID Category Property
072191A Mechanics Cable Kit
076310A Mechanics Packing Material
Table 26. Ultra/Ultra Synch Cable Set UUJA 11
ID Category Property
072192A Mechanics Cable Kit
076310A Mechanics Packing Material
2.5.1.4 Cabinet Heater
Table 27. Cabinet Heater
ID Category Property
467937A Mechanics Cabinet HeaterHETA
2.5.1.5 Filters
Table 28. Filters
ID Category Property
468755A Mechanics AC Filter ACFUa
469166A Mechanics Filter Unit 24/27VDC DCFB
469442A Mechanics Installation Kit(used w/DCFB)FIKA
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a. The AC Filter is an optional unit to be used with the AC Power Supply only.
Table 29. Filter Unit 24/27 VDC DCFB
ID Category Property
075429A Mechanics Filter Module
076664A Mechanics Packing Material
Table 30. Installation Kit (used w/DCFB) FIKA
ID Category Property
075893A Mechanics Filter Module
2.5.1.6 Options
Table 31. Options
ID Category Property
468094A Mechanics Bridge Kit OBKA
468091A Mechanics Entry Kit OEKA
468092A Mechanics Air Filter Kit OFKA
468095A Mechanics Indoor Lock kitILKA
469554A Mechanics Lifting Handle KitWLHA
Table 32. Bridge Kit OBKA
ID Category Property
065935A Mechanics Bridge KitMechanics
065931A Mechanics Bridge Kit Packing
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Table 32. Bridge Kit OBKA (cont.)
ID Category Property
Material
Table 33. Entry Kit OEKA
ID Category Property
065923A Mechanics Entry MechanicsModule
065928A Mechanics Packing MaterialModule
Table 34. Air Filter Kit OFKA
ID Category Property
065933A Mechanics Filter MechanicsModule
Table 35. Indoor Lock Kit ILKA
ID Category Property
065936A Mechanics ILKA MechanicsModule
065932A Mechanics Packing MaterialModule
Table 36. Lifting Handle Kit WLHA
ID Category Property
075752A Mechanics Lifting Handles (withscrews) (4 pcs)
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Table 36. Lifting Handle Kit WLHA (cont.)
ID Category Property
077017A Mechanics Packing Materials (1 pc)
2.5.2 Units
Table 37. Units
Category Property
Units Transceiver
Units Multicoupler
Units Duplexers
Units Diplexer
Units Combiners
Units Dual Baseband
Units Transmission
Units Base Operationsand Interfaces
Units Power Supply
Units VSWR Monitor
2.5.2.1 Transceiver
Table 38. Transceiver
ID Category Property
469087A Units EDGE 800 TSTB
468704A Units EDGE 900 TSGB
469089A Units EDGE 1800 TSDB
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Table 38. Transceiver (cont.)
ID Category Property
468706A Units EDGE 1900 TSPB
467800A Units GSM 900 TSGA
467828A Units GSM 1800 TSDA
Table 39. EDGE 800 TSTB
ID Category Property
066102A Units TRX Board Module
069451A Units Power AmplifierModule
066103A Units FHS Module
073981A Units Power SupplyModule
066929A Units Mechanics Module
068163A Units Packing Material
066641A Units Cable Kit TS_A
075986A Units Label Module
Table 40. EDGE 900 TSGB
ID Category Property
066106A Units TRX Board Module
069454A Units Power AmplifierModule
070967A Units FHS Module
073981A Units Power SupplyModule
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Table 40. EDGE 900 TSGB (cont.)
ID Category Property
066929A Units Mechanics Module
068163A Units Packing Material
066641A Units Cable Kit TS_A
Table 41. EDGE 1800 TSDB
ID Category Property
066110A Units TRX Board Module
069456A Units Power AmplifierModule
071077A Units FHS Module
073981A Units Power SupplyModule
066929A Units Mechanics Module
068163A Units Packing Material
066641A Units Cable Kit TS_A
Table 42. EDGE 1900 TSPB
ID Category Property
066114A Units TRX Board Module
069458A Units Power AmplifierModule
066115A Units FHS Module
073981A Units Power SupplyModule
066929A Units Mechanics Module
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Table 42. EDGE 1900 TSPB (cont.)
ID Category Property
068163A Units Packing Material
066641A Units Cable Kit TS_A
075987A Units Label Module
Table 43. GSM 900 TSGA
ID Category Property
071789A Units TRX Board Module
071791A Units Power AmplifierModule
064313A Units FHS Module
072692A Units Power SupplyModule
075490A Units Mechanics Module
068163A Units Packing Material
066641A Units Cable Kit RT_A
Table 44. GSM 1800 TSDA
ID Category Property
071790A Units TRX Board Module
074926A Units Power AmplifierModule
064317A Units FHS Module
072692A Units Power SupplyModule
075490A Units Mechanics Module
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Table 44. GSM 1800 TSDA (cont.)
ID Category Property
068163A Units Packing Material
066641A Units Cable Kit RT_A
2.5.2.2 Multicoupler
Table 45. Multicoupler
ID Category Property
468530A Units GSM800/900 2-Way MulticouplerM2LA
468532A Units GSM1800/1900 2-Way MulticouplerM2HA
468531A Units GSM800/900 6-Way MulticouplerM6LA
468533A Units GSM1800/1900 6-Way MulticouplerM6HA
Table 46. GSM800/900 2-Way Multicoupler M2LA
ID Category Property
068068A Units ReceiverMulticouplerModule M2LA
068062A Units Mechanics ModuleM2LA/M2HA
068186A Units Packing Material
066644A Units Cable M2_A
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Table 47. GSM1800/1900 2-Way Multicoupler M2HA
ID Category Property
068069A Units ReceiverMulticouplerModule M2HA
068062A Units Mechanics ModuleM2LA/M2HA
068186A Units Packing Material
066644A Units Cable M2_A
Table 48. GSM800/900 6-Way Multicoupler M6LA
ID Category Property
068070A Units ReceiverMulticouplerModule M6LA
068064A Units Mechanics ModuleM6LA/M6HA
068187A Units Packing Material
066643A Units Cable M6_A
Table 49. GSM1800/1900 6-Way Multicoupler M6HA
ID Category Property
068071A Units ReceiverMulticouplerModule M6HA
068064A Units Mechanics ModuleM6LA/M6HA
068187A Units Packing Material
066643A Units Cable M6_A
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2.5.2.3 Duplexer
Note
All Duplex Filters can be used for both GSM and EDGE products.
Table 50. Duplexer
ID Category Property
468133A Units EDGE800 DVTBFull Band
469644A Units EDGE800 DVTDCo-Site Full Band
468216A Units GSM900 DVGAFull Band
468217A Units GSM900 DVHA HBand
468218A Units GSM900 DVJA JBand
468220A Units GSM1800 DVDB BBand
468219A Units GSM1800 DVDA ABand
468619A Units GSM1800 DVDCFull Band
468221A Units GSM1900 DVPAFull Band
Table 51. EDGE800 DVTB Full Band
ID Category Property
066646A Units Cable Kit DVxx/RTxx
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Table 51. EDGE800 DVTB Full Band (cont.)
ID Category Property
068185A Units Packing Material
Table 52. EDGE800 DVTD Co-Site Full Band
ID Category Property
066646A Units Cable Kit DVxx/RTxx
068185A Units Packing Material
Table 53. GSM900 DVGA Full Band
ID Category Property
066646A Units Cable Kit DVxx/RTxx
068185A Units Packing Material
Table 54. GSM900 DVHA H Band
ID Category Property
066646A Units Cable Kit DVxx/RTxx
068185A Units Packing Material
Table 55. GSM900 DVJA J Band
ID Category Property
066646A Units Cable Kit DVxx/RTxx
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Table 55. GSM900 DVJA J Band (cont.)
ID Category Property
068185A Units Packing Material
Table 56. GSM1800 DVDB B Band
ID Category Property
066646A Units Cable Kit DVxx/RTxx
068185A Units Packing Material
Table 57. GSM1800 DVDA A Band
ID Category Property
066646A Units Cable Kit DVxx/RTxx
068185A Units Packing Material
Table 58. GSM1800 DVDC Full Band
ID Category Property
066646A Units Cable Kit DVxx/RTxx
068185A Units Packing Material
Table 59. GSM1900 DVPA Full Band
ID Category Property
066646A Units Cable Kit DVxx/RTxx
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Table 59. GSM1900 DVPA Full Band (cont.)
ID Category Property
068185A Units Packing Material
2.5.2.4 Diplexer
Table 60. Diplexer
ID Category Property
467812A Units Dual Band DiplexDU2A
073925A Units Packing Material
2.5.2.5 Combiner
Table 61. Combiner
ID Category Property
Units Remote TunedCombiners
Units Wide BandCombiner Unit
Table 62. Remote Tuned Combiners
ID Category Property
467861A Units GSM900 RTHA H-Band
467862A Units GSM900 RTJA J-Band
467857A Units GSM900 RTGAFull Band
467859A Units GSM1800 RTDB
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Table 62. Remote Tuned Combiners (cont.)
ID Category Property
B-Band
467858A Units GSM1800 RTDAA-Band
468721A Units GSM1800 RTDCFull Band
467860A Units GSM1900 RTPAFull Band
Table 63. GSM900 RTHA H-Band
ID Category Property
064203A Units Selector Module
064239A Units Combiner Module
064269A Units Controller Module
064654A Units Filter Module
066057A Units RTC Mechanics
066097A Units Packing Material
066646A Units Cable Kit DVxx/RTxx
Table 64. GSM900 RTJA J-Band
ID Category Property
064203A Units Selector Module
064239A Units Combiner Module
064269A Units Controller Module
064655A Units Filter Module
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Table 64. GSM900 RTJA J-Band (cont.)
ID Category Property
066057A Units RTC Mechanics
066097A Units Packing Material
066646A Units Cable Kit DVxx/RTxx
Table 65. GSM900 RTGA Full Band
ID Category Property
064203A Units Selector Module
064239A Units Combiner Module
064269A Units Controller Module
064653A Units Filter
066057A Units RTC Mechanics
066097A Units Packing Material
066646A Units Cable Kit DVxx/RTxx
Table 66. GSM1800 RTDB B-Band
ID Category Property
064204A Units Selector
066450A Units Combiner
064269A Units Controller Module
064658A Units Filter Module
066057A Units RTC Mechanics
066097A Units Packing Material
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Table 66. GSM1800 RTDB B-Band (cont.)
ID Category Property
066646A Units Cable Kit DVxx/RTxx
Table 67. GSM1800 RTDA A-Band
ID Category Property
064204A Units Selector
064240A Units Combiner
064269A Units Controller
064657A Units Filter
066057A Units RTC Mechanics
066097A Units Packing Material
066646A Units Cable Kit DVxx/RTxx
Table 68. GSM1800 RTDC Full Band
ID Category Property
064204A Units Selector
069693A Units Combiner
064269A Units Controller
069692A Units Filter
066057A Units RTC Mechanics
066097A Units Packing Material
066646A Units Cable Kit DVxx/RTxx
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Table 69. GSM1900 RTPA Full Band
ID Category Property
064205A Units Selector Module
064241A Units Combiner Module
064269A Units Controller Module
064659A Units Filter Module
066057A Units RTC Mechanics
066097A Units Packing Material
066646A Units Cable Kit DVxx/RTxx
Table 70. WideBand Combiner Unit
ID Category Property
467835A Units GSM1900 WCPA
467833A Units GSM800/900WCGA
467834A Units GSM1800 WCDA
Table 71. GSM1900 WCPA
ID Category Property
066647A Units Cable Kit WC_A
073759A Units Packing Material
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Table 72. GSM800/900 WCGA
ID Category Property
066647A Units Cable Kit WC_A
073759A Units Packing Material
Table 73. GSM1800 WCDA
ID Category Property
066647A Units Cable Kit WC_A
073759A Units Packing Material
2.5.2.6 Dual Baseband
Table 74. Dual Baseband
ID Category Property
467869A Units Dual BasebandUnit BB2A
468131A Units Dual BasebandUnit BB2E
469643A Units Dual BasebandUnit BB2F
Table 75. Dual Baseband Unit BB2A
ID Category Property
064162A Units Dual BasebandModule
066160A Units Mechanics Module
068164A Units Packing Material
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Table 76. Dual Baseband Unit BB2E
ID Category Property
067794A Units Dual BasebandModule
066160A Units Mechanics Module
068164A Units Packing Material
Table 77. Dual Baseband Unit BB2F
ID Category Property
079905A Units Dual BasebandModule
066160A Units Mechanics Module
068164A Units Packing Material
2.5.2.7 Transmission
Table 78. Transmission
ID Category Property
467201A
T336110.51
Units DTRU FC E1/T1VXEA
467611A
T36130.51
Units DTRU FXC E1/T1VXTB
467612A
T36120.51
Units DTRU FXC E1VXTA
T36140.01 Units FXC STM-1 VXOA
T36145.01 Units FXC Bridge VXOB
467610A Units DTRU FXC RRIVXRB
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Table 78. Transmission (cont.)
ID Category Property
T55830.51
2.5.2.8 Base Operations and Interface
Table 79. Base Operations and Interface
ID Category Property
467868A Units BOIA Unit
Table 80. BOIA Unit
ID Category Property
065016A Units BOI Module
066159A Units BOI MechanicsModule
068164A Units Packing Material
2.5.2.9 Power Supply
Table 81. Power Supply
ID Category Property
467865A Units PWSA AC
467866A Units PWSB DC
468664A Units PWSC 24/27 VDC
469441A Units PWKA InstallationKit (used w/PWSC)
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Table 82. PWSA AC
ID Category Property
073565A Units AC Power Supply
068165A Units Packing Material
Table 83. PWSB DC
ID Category Property
071566A Units DC Power Supply
069090A Units Packing Material
Table 84. PWSC 24/27 VDC
ID Category Property
075830A Units DC Power Supply
068165A Units Packing Material
Table 85. PWKA Installation Kit
ID Category Property
075784A Units Installation Module
2.5.2.10 VSWR Monitor
Table 86. VSWR Monitor
ID Category Property
468163A Units GSM 850/900 W/VSWR BPGV
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Table 86. VSWR Monitor (cont.)
ID Category Property
468164A Units GSM 1800/1900W/VSWR BPDV
Table 87. GSM 850/900 W/VSWR BPGV
ID Category Property
069314A Units Bias-T Cable Kit
Table 88. GSM 1800/1900 W/VSWR BPDV
ID Category Property
069314A Units Bias-T Cable Kit
2.5.3 Internal Feeder Kit
Table 89. Internal Feeder Kit
ID Category Property
468686A Internal Feeder Kit Antenna Cable SetATCA
Table 90. Antenna Cable Set ATCA
ID Category Property
069313A Internal Feeder Kit Cable Kit Module
070413A Internal Feeder Kit Packing Material
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2.5.4 Software
Table 91. Software
ID Category Property
469057A Software A5/0 cipheringalgorithm
469365A Software A5/1 cipheringalgorithm
(Americas only)
Software A5/2 cipheringalgorithm
(Americas only)
2.5.5 Customer Documentation
Table 92. Customer Documentation
ID Category Property
468514A CustomerDocumentation
UltraSite EDGEBTS ProductDocumentation
CustomerDocumentation
Ultrasite BTS SWDocumentation
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2.6 Physical properties of UltraSite EDGE BTS
2.6.1 Dimensions and weight
Figure 10. Nokia UltraSite EDGE BTS Indoor and Outdoor cabinets
Table 93. Dimensions and weights
Parameter Outdoor Indoor
Height 1940 mm
76.4 in.
1800 mm
70.9 in.
Depth 750 mm
29.5 in.
620 mm1
24.4 in.
Width 770 mm 600 mm
Outdoor Indoor
DN03419673
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Table 93. Dimensions and weights (cont.)
Parameter Outdoor Indoor
30.0 in. 23.6 in.
Maximumcabinet weight(with units)
350 kg
770 lb
281 kg
629 lb
Maximumcabinet weight(without units)
150 kg
330.7 lb
95 kg
210 lb
1 Includes 52 mm (2.05 inch) behind the cabinet for the spacer part, which isrequired for cabinet cooling.
2.7 Electrical properties of UltraSite EDGE BTS
For information on mains power specifications and operating ranges and powerconsumption, refer to the appropriate power requirements:
. Power requirements for AC UltraSite EDGE BTS
. Power requirements for +24 VDC UltraSite EDGE BTS
. Power requirements for -48 VDC UltraSite EDGE BTS
2.8 Acoustic sound parameters of UltraSite EDGE BTS
The following table provides the maximum acoustic noise emissions for Indoorand Outdoor cabinets:
Acoustic noise Indoor Cabinet Outdoor Cabinet
+50° C/122° F 69 dB (A) 67 dB (A)
+40° C/104° F 65 dB (A) 64 dB (A)
+30° C/86° F 62 dB (A) 61 dB (A)
+20° C/68° F 59 dB (A) 58 dB (A)
0° C/32° F 59 dB (A) 55 dB (A)
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Acoustic noise Indoor Cabinet Outdoor Cabinet
-5° C/23° F 58 dB (A) 55 dB (A)
-10° C/14° F N/A 55 dB (A)
The acoustic sound power level is higher when the ambient temperature increasesrapidly or when ambient temperature is higher. For example, the maximumacoustic noise emissions for the Outdoor cabinet at 50° C (122° F) is 68 dB (A) /6.8 Bells (A).
2.9 Overview of UltraSite EDGE BTS unit technicaldescriptions
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1 Transceiver unit (TSxx)
2 2-way Receiver Multicoupler unit (M2xA)
3 Transceiver Baseband unit (BB2x)
4 Base Operations and Interfaces unit(BOIx)
3 548 8 8
7
2
2
2
9
10
DN03420293
6
6
6
13 or 14
1
1
1
1
1
1
1
1
1
1
1
1
UltraSite cabinet core
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5 Transmission unit (VXxx)
6 Wideband Combiner unit (WCxA)
7 Dual Variable Gain Duplex Filter unit(DVxx)
8 DC/DC Power Supply unit (PWSB)
9 6-way Receiver Multicoupler unit (M6xA)
10 Remote Tune Combiner unit (RTxx)
11 AC/DC Power Supply unit (PWSA)
12 DC/DC Power supply unit (PWSC)
13 Bias Tee unit (BPxx)1
14 Dual Band Diplex Filter unit (DU2A)1
1Items 13 and 14 are not plug-in units.
Figure 11. UltraSite EDGE BTS units
The following table shows the required (R) and optional (O) units for eachUltraSite EDGE BTS cabinet. N/A indicates that the unit is not applicable for thatcabinet.
Table 94. BTS units
Unit Outdoor Indoor
Cabinet core mechanics (CRMx)
CRMA R (1) N/A
CRMB R (1) N/A
IDCA (IndoorBTS) N/A R (1)
Base Operations and Interfaces (BOIx)
BOIA (GSM/EDGE) R (1) R (1)
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Table 94. BTS units (cont.)
Unit Outdoor Indoor
Dual Band Diplex Filter (DU2x)
DU2A (GSM/EDGE) O (0 to 6) O (0 to 6)
Transceiver Baseband (BB2x)
BB2A (GSM) R (1 to 6) R (1 to 6)
BB2E (GSM/EDGE) R (1 to 6) R (1 to 6)
BB2F R (1 to 6) R (1 to 6)
Dual Variable Gain Duplex Filter (DVxx)1
DVTB (GSM/EDGE 800Full Band) O (0 to 6) O (0 to 6)
DVTC (GSM/EDGE 800Co-site) O (0 to 6) O (0 to 6)
DVTD (GSM/EDGE 800Co-site) O (0 to 6) O (0 to 6)
DVGA (GSM/EDGE 900Full Band) O (0 to 6) O (0 to 6)
DVHA (GSM/EDGE 900 HBand) O (0 to 6) O (0 to 6)
DVJA (GSM/EDGE 900 JBand) O (0 to 6) O (0 to 6)
DVDA (GSM/EDGE 1800 ABand) O (0 to 6) O (0 to 6)
DVDB (GSM/EDGE 1800 BBand) O (0 to 6) O (0 to 6)
DVDC (GSM/ O (0 to 6) O (0 to 6)
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Table 94. BTS units (cont.)
Unit Outdoor Indoor
EDGE 1800Full Band)
DVPA (GSM/EDGE 1900Full Band) O (0 to 6) O (0 to 6)
Masthead Amplifier (MNxx)
MNTB (GSM/EDGE 800Full Band) O (0 to 12) O (0 to 12)
MNTC (GSM/EDGE 800Co-site) O (0 to 12) O (0 to 12)
MNGA (GSM/EDGE 900Full Band) O (0 to 12) O (0 to 12)
MNDA (GSM/EDGE 1800 ABand) O (0 to 12) O (0 to 12)
MNDB (GSM/EDGE 1800 BBand) O (0 to 12) O (0 to 12)
MNPA (GSM/EDGE 1900 ABand) O (0 to 12) O (0 to 12)
MNPB (GSM/EDGE 1900 BBand) O (0 to 12) O (0 to 12)
MNPC (GSM/EDGE 1900 CBand) O (0 to 12) O (0 to 12)
MNPF (GSM/EDGE 1900Full Band) O (0 to 12) O (0 to 12)
Bias Tee (BPxx)
BPGV2 (GSM/EDGE 800/ O (0 to 12) O (0 to 12)
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Table 94. BTS units (cont.)
Unit Outdoor Indoor
900)
BPDV (GSM/EDGE 1800/1900) O (0 to 12) O (0 to 12)
BPDN3 (GSM/EDGE 800/900/1800/1900) O (0 to 12) O (0 to 12)
Receiver Multicoupler4 (2-way and 6-way)
M2LA (2-way)(GSM/EDGE800/900) R (1 to 7) R (1 to 7)
M2HA (2-way)(GSM/EDGE1800/1900) R (1 to 7) R (1 to 7)
M6LA (6-way)(GSM/EDGE800/900) R (1 to 2) R (1 to 2)
M6HA (6-way)(GSM/EDGE1800/1900) R (1 to 2) R (1 to 2)
Power Supply (PWSx)
PWSA (230VAC) R (1 to 2) R (1 to 2)
PWSB (-48VDC) R (1 to 3) R (1 to 3)
Remote Tune Combiner (RTxx)5
RTGA (GSM/EDGE 900Full Band) O (0 to 2) O (0 to 2)
RTHA (GSM/EDGE 900 HBand) O (0 to 2) O (0 to 2)
RTJA (GSM/EDGE 900 J O (0 to 2) O (0 to 2)
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Table 94. BTS units (cont.)
Unit Outdoor Indoor
Band)
RTDC (GSM/EDGE 1800Full Band) O (0 to 2) O (0 to 2)
RTDA (GSM/EDGE 1800 ABand) O (0 to 2) O (0 to 2)
RTDB (GSM/EDGE 1800 BBand) O (0 to 2) O (0 to 2)
RTPA (GSM/EDGE 1900Full Band) O (0 to 2) O (0 to 2)
Temperature Control System (TCS)
Unit coolingfans (includedin cabinetcoremechanics) R (11) R (11)
Heater(HETA)(optional inOutdoorApplicationKit) O (1) N/A
Cabinetcooling fan(included inOutdoorApplicationKit) R (1) N/A
Transceiver (TSxx)
TSGA (GSM900) R (1 to 12) R (1 to 12)
TSDA (GSM1800) R (1 to 12) R (1 to 12)
TSPA (GSM R (1 to 12) R (1 to 12)
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Table 94. BTS units (cont.)
Unit Outdoor Indoor
1900)
TSTB (GSM/EDGE 800) R (1 to 12) R (1 to 12)
TSGB (GSM/EDGE 900) R (1 to 12) R (1 to 12)
TSDB (GSM/EDGE 1800) R (1 to 12) R (1 to 12)
TSPB (GSM/EDGE 1900) R (1 to 12) R (1 to 12)
Transmission (VXxx)
VXEA (FC E1/T1) R (1 to 4) R (1 to 4)
VXTA (FXCE1) R (1 to 4) R (1 to 4)
VXTB (FXCE1/T1) R (1 to 4) R (1 to 4)
VXRA (FCRRI) R (1 to 4) R (1 to 4)
VXRB (FXCRRI) R (1 to 4) R (1 to 4)
FXC STM-1and FXCBridge R (1 to 4) R (1 to 4)
Wideband Combiner (WCxA)6
WCGA (GSM/EDGE 800/900) O (0 to 9) O (0 to 9)
WCDA (GSM/EDGE 1800) O (0 to 9) O (0 to 9)
WCPA (GSM/EDGE 1900) O (0 to 9) O (0 to 9)
Outdoor Application Kit (OAKx)
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Table 94. BTS units (cont.)
Unit Outdoor Indoor
OAKA(OutdoorBTS) R (1) N/A
OAKB(Outdoor SiteSupport) O (0 to 1) N/A
Outdoor EntryKit (OEKA) O (0 to 1) N/A
OutdoorBridge Kit(OBKA) O (0 to 1) N/A
AC Filter Unit(ACFU) O (0 to 1) O (0 to 1)
Air Filter Kit(OFKx) O (0 to 1) O (0 to 1)
1DVxx eliminates RTxx unit for that antenna.
2BPxV (with VSWR antenna monitoring) can be used with or without MNxx.
3BPxN (without VSWR antenna monitoring) can be used only with MNxx.
4M2xA and M6xA can be used together as cabinet space allows.
5RTxx in Midi Indoor eliminates WCxA and DVxx units.
6WCxA in Midi Indoor eliminates RTxx unit.
2.10 Tools requirements for UltraSite EDGE BTS
Nokia recommends the tools and equipment listed below for installing thecomponents, cables, and plug-in units of the BTS.
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Note
Nokia does not include installation tools and equipment in the delivery package.
Table 95. Standard installation tools
European U.S.
Antistatic wrist strap and cable
Automatic puncher to mark hole locations
Cable cutters, 2.5 to 50 mm[2] 8� electricians cable cutters
Cable stripper, 0.25 and 0.4 wire Standard electricians wire strippers
Cable stripper, 2.5 to 50 mm[2] Cable stripping knife
Cable ties for securing cables
Calliper square, 160 mm Generic calliper - 6� square, adjustable
Coaxial cable stripper for 75 ohm transmission cables
Concrete drill bit, 12 mm Concrete drill bit, 1/2�
Crimping tool for grounding cable shoes and -48 VDC cables
Drill with screwdriver bit set
Drill bit set, 1 to 13 mm
Extension cord
Flashlight, pocket lamp, or torch Flashlight
Hammer
Hammer drill
Hexagon keys, 8 mm
Indelible marker
Insulated wrench for installing batteries
Insulated side cutters
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Table 95. Standard installation tools (cont.)
Ladder
Level Basic level
Lifting eye bolts, four pieces, M12 (not included)
Pliers:. Insulated needle nose pliers, 115 mm. Insulated flat nose pliers, 210 mm. Multigrip pliers, 250 mm
Pliers:. Insulated needle nose pliers, 4.5". Insulated standard pliers, 8". Vise-grips, 10"
Right angle
RJ modular plug crimp tool
Safety glasses
Scissors
Screwdriver sets:. Flathead. Phillips. TORX, T10 through T25
SMA torque wrench 1 Nm (0.74 ft lb) and 0.45 Nm (0.33 ft lb)
Socket wrench (10 to 19 mm) and extension socket Socket sets, metric (1/4� and 3/8�) drive andextension socket
Tape measure, 5 M Tape measure, 16 ft
Torque 38� driver 6.7 - 101.7 Nm (15 - 75 ft lb)
Utility knife
Wrench, adjustable 8"
Wrench set, metric combo, 7 to 19 mm
Table 96. Electronic instruments
Instrument Required Capabilities
Frequency counter
Example: HP 53132A. Digital readout with accuracy better than 0.1 Hz
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Table 96. Electronic instruments (cont.)
Instrument Required Capabilities
. Capable of at least 14 MHz clock signal with neededaccuracy
Power meter
Example: Gigatronic 8652A. Digital readout with accuracy to at least one decimal place. Capable of TX measurement of 50W/ +47 dBm or less. Optional: TX in and TX out (external terminator/attenuator) for
troubleshooting
Table 97. Installation tools for external transmission cables
Tool Cable
Radiall crimping tool R282.281.000 andpositioner R282.967.034
Radiall connectors BQ (100/120 &)
Rosenberger crimping tool:. 11W150-000. 11W150-7R9 for cable TWC-124-1A. 11W150-7W2 for cable Belden 8132
Rosenberger connectors BQ (100/ 120 &)
Crimping tool:. AGK 2353 with crimp inserts for
cables RG 179 B/U, RG 187 A/U:AGK 2709
. AKG 2365 with crimp inserts forcables RG 179 B/U, RG 187 A/U:AGK 2727
SMB/BT43 (75 &) with cable RG 179 B/U, RG 187 A/U
2.11 Torque settings of UltraSite EDGE BTS
Nokia recommends the following torque values for various fasteners are used inUltraSite EDGE BTS.
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Note
Over-tightening causes stress on the connectors. For the TSxx, BB2x, and BOIxunits, ensure a gap of 1.0 to 3.0 mm exists between the front flange of the unitand the cabinet when tightened to 1.0 Nm (maximum).
Note
The following table provides the torque measurements that Nokia recommendsfor installing the GSM/EDGE BTS units.
Note
These are basic torque values. Any exceptions to these values are provided in theinstallation procedures.
Table 98. Cabinet installation torque recommendations
Bolt/screwtype
DIN Size Torque
Plastic connectorfinger screws
0.2 - 0.3 Nm (0.15 -0.22 ft lb)
Slotted head,phillips head, orTorx head screw
M3 0.7 - 1.0 Nm (0.52 -0.74 ft lb)
Slotted head,phillips head, orTorx head screw
M4 1.2 - 1.6 Nm (0.88 -1.18 ft lb)
Slotted head,phillips head, orTorx head screw
M5 2.0 - 2.6 Nm (1.47 -1.92 ft lb)
Hexagon sockethead screw
933-A2 M6 4.2 - 5.5 Nm (3.1 -4.05 ft lb
Nut 934-A2 M6 4.2 - 5.5 Nm (3.1 -
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Table 98. Cabinet installation torque recommendations (cont.)
Bolt/screwtype
DIN Size Torque
4.05 ft lb)
Hexagon sockethead screw
912-A2 M8 8.0 - 10.0 Nm (5.9 -7.37 ft lb)
3/8 hexagonhead bolt
933-A2 M10 24 Nm (17.69 ft lb)
Lifting eye bolt(not included)
580 M12 39 Nm (28.74 ft lb)
Torx socket headscrew cylinderhead
934-A2 M3 0.7 Nm (0.52 ft lb)
Torx socket headscrew cylinderhead
934-A2 M4 1.2 Nm (0.89 ft lb)
Torx socket headscrew cylinderhead
934-A2 M5 2.5Nm (1.84 ft lb)
Table 99. Unit installation torque recommendations
Bolt/screw type DIN Size Torque
Antenna flangemount connector7/16 in. (4 each)
934-A2 M3 1.0 Nm (0.7 ft lb)
Antenna flange nut 7/16 in 10-14 Nm (7.0 ft lb- 9.8 ft lb)
Thumb screw 934-A2 M4 1.0 Nm (0.7 ft lb)
Ground lug nut 934-A2 M5 2.0 Nm (1.5 ft lb)
Ground lug nut M8 4.0 Nm (3.0 ft lb)
Battery terminalscrews
Not available 6.78 Nm (5.0 ft lb)
Antenna 7/16 in 25 Nm (18.5 ft lb)
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Table 99. Unit installation torque recommendations (cont.)
Bolt/screw type DIN Size Torque
connector
SMA connector Not available 1.0 Nm (0.7 ft lb)
PWSC terminals M8 10 Nm (7.0 ft lb)
-48 VDC FilterOutput Terminalnuts
M10 14 Nm (9.8 ft lb)
-48 VDC FilterInput Terminal nuts
M10 14 Nm (9.8 ft lb)
Table 100. WCDMA unit installation torque recommendations
Bolt/Screw Type Size Torque
Antenna flange mount connector (4ea.)
M3 0.1 Nm (0.074 ft lb)
Unit mounting screw M3 0.7 Nm (0.52 ft lb)
Unit mounting screw M4 1.2 Nm (0.89 ft lb)
Right angle Antenna connector N/A 25 Nm (18.5 ft lb)
2.12 System requirements for Nokia SiteWizard
Table 101. System requirements for Nokia SiteWizard
Item Specification
Computer Intel Pentium compatible PC
Operating system Microsoft Windows XP (English version)
Microsoft Windows 2000 (Englishversion, Service Pack 3)
Microsoft Windows NT 4.0 (Englishversion, Service Pack 6 a)
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Table 101. System requirements for Nokia SiteWizard (cont.)
Item Specification
Microsoft Windows 98 (English version)
System memory Windows 2000: 64 MB (128 MBrecommended)
Windows NT: 64 MB (128 MBrecommended)
Windows 98: 32 MB (64 MBrecommended)
Monitor SVGA, 800 x 600 resolution minimum
SVGA, 1024 x 768 resolutionrecommended
Disk space 50 MB minimum
200 MB recommended for full SiteWizardCD-ROM installation
Accessories CD-ROM drive
Windows compatible mouse or pointingdevice
Free 9-pin serial port and LMP cable (PC�BTS/Node)
Windows compatible printer (optional)
2.13 RF properties of UltraSite EDGE BTS
2.13.1 RF properties of 800 MHz UltraSite EDGE BTS
Table 102. RF properties
Property Value
TX frequency range 869 - 894 MHz
RX frequency range 824 - 849 MHz
Channel spacing 200 kHz
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Table 102. RF properties (cont.)
Property Value
Available radio channels 124 (25 MHz band)
Minimum FrequencySpacing in combiners:
WBC
600 kHz
TX output power atantenna connector(guaranteed level):
GMSK: 8PSK:
Combining by-pass 44.5 dBm 42.5 dBm
2:1 Wideband Combiner 41.0 dBm 39.0 dBm
4:1 Wideband Combiner 37.5 dBm 35.5 dBm
Dynamic power control GMSK: 8PSK:
30 dB 18 dB
RX sensitivity:
Single branch (static) -110.5 dBm
Single branch (static) w/UltraSite MHA
-111.0 dBm
Table 103. RF performance in GSM 800
BTS Output PowerGSM 800
Output Power Max # ofcarriers /antennaelement
Frequencyhopping
dBm W
TRX output 47.0 50 - -
IDD 50 100 1 RF & BB
Combiner by-pass 45.7 37 1 RF & BB
RTC 43.2 21 6 BB
WBC 2:1 42.5 18 2 RF & BB
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Table 103. RF performance in GSM 800 (cont.)
BTS Output PowerGSM 800
Output Power Max # ofcarriers /antennaelement
Frequencyhopping
dBm W
WBC 4:1 39.0 8 4 RF & BB
Table 104. BTS receiver sensitivity GSM 800
BTS Receiver Sensitivity GSM 800Sensitivity
dBm
4-way diversity -118.0
2-way diversity -115.5
Single branch -112.5
2.13.2 RF properties of 900 MHz UltraSite EDGE BTS
Table 105. RF properties
Property Value
TX frequency range A: 925.0 to 960.0 MHz
H: 942.5 to 960.0 MHz
J: 935.0 to 960.0 MHz
RX frequency range A: 880.0 to 915.0 MHz
H: 897.5 to 915.0 MHz
J: 890.0 to 915.0 MHz
Channel spacing 200 kHz
Available radio channels A: 174
H: 87
J: 124
Minimum Frequency Spacing in combiners:
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Table 105. RF properties (cont.)
Property Value
WBC 600 kHz
RTC 600 kHz
TX output power at antenna connector (guaranteedlevel):
GMSK: 8PSK:
Combining by-pass 44.5 dBm 42.5 dBm
2:1 Wideband Combiner 41.0 dBm 39.0 dBm
4:1 Wideband Combiner 37.5 dBm 35.5 dBm
RTC 42.0 dBm 40.0 dBm
Dynamic power control GMSK:
30 dB
(15 steps in 2 dBincrements)
8PSK:
18 dB
RX sensitivity:
Single branch (static) -110.5 dBm
Single branch (static) w/UltraSite MHA 111.0 dBm
Table 106. RF performance in GSM 900
BTS Output PowerGSM 900
Output PowerMax # of carriers / antenna
elementFrequencyhopping
dBm W
TRX output 47.0 50 - -
IDD 50 100 1 RF & BB
Combiner by-pass 45.7 37 1 RF & BB
RTC 43.2 21 6 BB
WBC 2:1 42.5 18 2 RF & BB
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Table 106. RF performance in GSM 900 (cont.)
BTS Output PowerGSM 900
Output PowerMax # of carriers / antenna
elementFrequencyhopping
dBm W
WBC 4:1 39.0 8 4 RF & BB
Table 107. BTS receiver sensitivity GSM 900
BTS Receiver Sensitivity GSM 900Sensitivity
dBm
4-way diversity -118.0
2-way diversity -115.5
Single branch -112.5
2.13.3 RF properties of 1800 MHz UltraSite EDGE BTS
Table 108. RF properties
Property Value
TX frequency range A: 1805-1850 MHz
B: 1835-1880 MHz
C: 1805-1880 MHz (Full-band)
RX frequency range A: 1710-1755 MHz
B: 1740-1785 MHz
C: 1710-1785 MHz (Full-band)
Channel spacing 200 kHz
Available radio channels A: 224
B: 224
C: 374
Minimum Frequency Spacing in combiners:
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Table 108. RF properties (cont.)
Property Value
WBC 600 kHz
RTC 800 kHz
TX output power at antennaconnector (guaranteed level):
Sub-banded units Full-banded units
GMSK: 8PSK: GMSK: 8PSK:
Combining by-pass +44.5 dBm +42.5 dBm +44.0 dBm +42.0 dBm
2:1 Wideband Combiner +41.0 dBm +39.0 dBm +40.3 dBm +38.3 dBm
4:1 Wideband Combiner +37.5 dBm +35.5 dBm +36.6 dBm +34.6 dBm
RTC +42.0 dBm +40.0 dBm +41.3 dBm +39.3 dBm
Dynamic power control GMSK:
30 dB
(15 steps in 2 dB increments)
8PSK:
18 dB
RX sensitivity: Without MHA With MHA
Sub- bandedunits
Full- bandedunits
Sub-banded units
Static, single branch -112.0 dBm -111.5 dBm -112.5 dBm
Dynamic, single branch -110.0 dBm -109.5 dBm -110.5 dBm
2-way diversity (all profiles) -115.0 dBm -114.5 dBm -115.5 dBm
4-way diversity (all profiles) -118.0 dBm -117.5 dBm -118.5 dBm
Table 109. RF Performance in GSM 1800
BTS Output PowerGSM 1800
Output PowerMax # of carriers /antenna element
Frequencyhopping
dBm W
TRX output 47.0 50 - -
IDD 50 100 1 RF & BB
Combiner by-pass 46.0 40 1 RF & BB
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Table 109. RF Performance in GSM 1800 (cont.)
BTS Output PowerGSM 1800
Output PowerMax # of carriers /antenna element
Frequencyhopping
dBm W
RTC 43.5 22 6 BB
WBC 2:1 42.8 19 2 RF & BB
WBC 4:1 39.3 9 4 RF & BB
Table 110. BTS Receiver Sensitivity GSM 1800
BTS Receiver Sensitivity GSM1800
Sensitivity
dBm
4-way diversity -118.5
2-way diversity -116.0
Single branch -113.0
2.13.4 RF properties of 1900 MHz UltraSite EDGE BTS
Table 111. RF properties
Property Value
TX frequency range 1930-1990 MHz
RX frequency range 1850-1910 MHz
Channel spacing 200 kHz
Available radio channels 299
Blocked channels (5) 586, 611, 686, 711, 736
Reduced power channels (12) 512, 585, 587, 610, 612, 685, 687, 710, 712, 735, 737,810
Minimum Frequency Spacing in combiners:
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Table 111. RF properties (cont.)
Property Value
WBC 600 kHz
RTC 800 kHz
TX output power at antenna connector (guaranteedlevel):
GMSK: 8PSK:
Combining by-pass +44.5 dBm +42.5 dBm
2:1 Wideband Combiner +41.0 dBm +39.0 dBm
4:1 Wideband Combiner +37.5 dBm +35.5 dBm
RTC +42.0 dBm +40.0 dBm
Dynamic power control GMSK:
30 dB
(15 steps in 2 dBincrements)
8PSK:
18 dB
RX sensitivity: Without MHA With MHA
Table 112. RF properties
Static, single branch -111.0 dBm -112.0 dBm
Dynamic, single branch -109.0 dBm -110.0 dBm
2-way diversity (all profiles) -114.0 dBm -115.0 dBm
4-way diversity (all profiles) -117.0 dBm -118.0 dBm
Table 113. RF performance in GSM 1900
BTS Output PowerGSM 1900
Output PowerMax # of carriers / antenna
elementFrequencyhopping
dBm W
TRX output 47.0 50 - -
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Table 113. RF performance in GSM 1900 (cont.)
BTS Output PowerGSM 1900
Output PowerMax # of carriers / antenna
elementFrequencyhopping
dBm W
IDD 50 100 1 RF & BB
Combiner by-pass 45.7 37 1 RF & BB
RTC 43.2 21 6 BB
WBC 2:1 42.5 18 2 RF & BB
WBC 4:1 39.0 8 4 RF & BB
Table 114. BTS receiver sensitivity GSM 1900
BTS Receiver Sensitivity GSM1900
Sensitivity
dBm
4-way diversity -118.0
2-way diversity -115.5
Single branch -112.5
2.13.5 RF properties
Table below lists the RF properties for Nokia UltraSite WCDMA BTS cabinets.These are the main parameters and they follow the 3GPP requirements.
Table 115. RF properties of the Nokia UltraSite WCDMA BTS
Property Value
TX Frequency Range 2110 - 2170 MHz
RX Frequency Range 1920 - 1980 MHz
Duplex separation 190 MHz
Channel raster 200 kHz
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Table 115. RF properties of the Nokia UltraSite WCDMA BTS (cont.)
Property Value
Channel spacing 5 MHz
Available Radio Channels 32/WSP (64/WSP in Release 2)
TX output power at antenna connector 10 - 40 W
40 - 46 dBm
Dynamic power control 25 dB
(50 steps in 0.5 dB increments)
RX sensitivity (0.1% BER for 12.2 kbit/suser rate)
Better than -127 dBm/ 2-way diversity
Better than -130 dBm/4-way diversity
2.13.6 Static performance properties of UltraSite EDGE BTS receivers
Table 116. Receiver performance
Receiver performance for 10% BLER
Channel type Static level
MCS-1 GMSK -112.0 dBm
MCS-2 GMSK -110.9 dBm
MCS-3 GMSK -109.0 dBm
MCS-4 GMSK -106.6 dBm
MCS-5 8PSK -105.8 dBm
MCS-6 8PSK -103.8 dBm
MCS-7 8PSK -100.7 dBm
MCS-8 8PSK -97.7 dBm
MCS-9 8PSK -95.7 dBm
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Table 117. RF performance in GSM 800/900/1900
BTS Output PowerGSM 800/900/1900
Output Power Maximumnumber ofcarriers /antennaelement
Frequencyhopping
dBm W
TRX output 47.0 50 - -
IDD 50 100 1 RF & BB
Combiner by-pass 45.7 37 1 RF & BB
RTC 43.2 21 6 BB
WBC 2:1 42.5 18 2 RF & BB
WBC 4:1 39.0 8 4 RF & BB
Table 118. BTS receiver sensitivity GSM 800/900/1900
BTS Receiver Sensitivity GSM 800/900/1900
Sensitivity
dBm
4-way diversity -118.0
2-way diversity -115.5
Single branch -112.5
Table 119. RF Performance in GSM 1800
BTS Output PowerGSM 1800
Output Power Maximumnumber ofcarriers /antennaelement
Frequencyhopping
dBm W
TRX output 47.0 50 - -
IDD 50 100 1 RF & BB
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Table 119. RF Performance in GSM 1800 (cont.)
BTS Output PowerGSM 1800
Output Power Maximumnumber ofcarriers /antennaelement
Frequencyhopping
dBm W
Combiner by-pass 46.0 40 1 RF & BB
RTC 43.5 22 6 BB
WBC 2:1 42.8 19 2 RF & BB
WBC 4:1 39.3 9 4 RF & BB
Table 120. BTS Receiver Sensitivity GSM 1800
BTS Receiver Sensitivity GSM 1800Sensitivity
dBm
4-way diversity -118.5
2-way diversity -116.0
Single branch -113.0
2.14 Configuration and combining options of UltraSiteEDGE BTS
2.14.1 Overview of configuration and combining options of UltraSite EDGEBTS
Note
The cable routing illustrated in the figures is for reference only. The installerdetermines routing during installation.
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2.14.1.1 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.
. 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.
2.14.1.2 Cabinet configurations
To accomplish these combining options, Nokia UltraSite EDGE BTS supportsvarious cabinet configurations.
Various cabinet combining configurations include:
. 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
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. 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
. 8+8+8, Horizontal sectoring, WBC
. 8+8+8, Horizontal sectoring, RTC
2.14.2 Combining bypass options of UltraSite EDGE BTS
RX
TX
DIVRX
RX
TX
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)
RXIN
RX1
RX2
DRX1
DRX2
DRXIN
DN034286011
3 4
52
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UltraSite EDGE BTS Product Description
1 #993857x (six places)
2 Dvxx to RFU Backplane #993997x
3 #994081x (two places)
4 Antenna 2: TX/RX 2, Diversity RX 1
5 Antenna 1: TX/RX 1, Diversity RX 2
Figure 12. Combining bypass sector
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Technical overview of UltraSite EDGE BTS
Figure 13. 1+1+1, DVxx, Combining bypass
DN03428543
104 (279) # Nokia CorporationNokia Proprietary and Confidential
dn03398222Issue 2 en
UltraSite EDGE BTS Product Description
Figure 14. 2+2+2, DVxx, Combining bypass
2.14.3 2-way Wideband Combining options of UltraSite EDGE 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.
DN03428613
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Technical overview of UltraSite EDGE BTS
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
6 Antenna 1: TX/RX
Figure 15. 2-way WBC, 2-TSxx sector
RX
TX
DIVRX
RX
TX
DIVRX
TX2 TX OUT TX1
RX
IN
RX1
RX2
DRX1
DRX2
DRX
IN
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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UltraSite EDGE BTS Product Description
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 16. 2-way WBC, 4-TSxx sector
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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Technical overview of UltraSite EDGE BTS
1 #993747x (three places)
2 #993857x (twelve places)
3 DVxx to RFU backplane #993997x
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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UltraSite EDGE BTS Product Description
4 #994081x (six places)
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 17. 2-way WBC, 6-TSxx sector
Figure 18. 3+3+3 WBC configuration
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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Technical overview of UltraSite EDGE BTS
Figure 19. 4+4+4 WBC configuration
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
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)
DN03428461
RX DIVRX
TX
RX DIVRX
TX
110 (279) # Nokia CorporationNokia Proprietary and Confidential
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UltraSite EDGE BTS Product Description
Figure 20. 2+2+2, DVxx, 2-way WBC
DN03428528
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Technical overview of UltraSite EDGE BTS
Figure 21. 6+6+6, DVxx, 2-way WBC
2.14.4 4-way Wideband Combining options of UltraSite EDGE BTS
With 4-way Wideband Combining (WBC), the TX signals from four TSxx unitsare combined using three WCxA units in the following manner:
DN03428637
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UltraSite EDGE BTS Product Description
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.
Figure 22. 4-way WBC, 4-TSxx sector
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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Technical overview of UltraSite EDGE BTS
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
6 Antenna 1: TX/RX 1, Diversity RX 2
114 (279) # Nokia CorporationNokia Proprietary and Confidential
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UltraSite EDGE BTS Product Description
Figure 23. 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
DIV
RX
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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Technical overview of UltraSite EDGE BTS
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,
116 (279) # Nokia CorporationNokia Proprietary and Confidential
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UltraSite EDGE BTS Product Description
Figure 24. 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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Technical overview of UltraSite EDGE BTS
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
118 (279) # Nokia CorporationNokia Proprietary and Confidential
dn03398222Issue 2 en
UltraSite EDGE BTS Product Description
Figure 25. 12+12+12, DVxx, 4-way WBC
2.14.5 6-sector Remote Tune combining of UltraSite EDGE BTS
DN03428688
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Technical overview of UltraSite EDGE BTS
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
120 (279) # Nokia CorporationNokia Proprietary and Confidential
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UltraSite EDGE BTS Product Description
Figure 26. RTC, 6-TSxx sector
Figure 27. 6+6+6, RTC
DN03428649
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Technical overview of UltraSite EDGE BTS
Figure 28. 6 Omni, RTC
2.14.6 12-sector Remote Tune combining of UltraSite EDGE BTS
DN99619511
122 (279) # Nokia CorporationNokia Proprietary and Confidential
dn03398222Issue 2 en
UltraSite EDGE BTS Product Description
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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Technical overview of UltraSite EDGE BTS
3 #993856x (two places)
4 Dvxx to RFU Backplane #993997x
5 #993856x (two places)
Figure 29. RTC, 12-TSxx sector
Figure 30. 12+12+12, RTC
DN03428676
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UltraSite EDGE BTS Product Description
2.14.7 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 31. 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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Technical overview of UltraSite EDGE BTS
Figure 32. 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
126 (279) # Nokia CorporationNokia Proprietary and Confidential
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UltraSite EDGE BTS Product Description
Figure 33. 8+8+8, 4+4+4, Dual Band Combining
2.14.8 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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Technical overview of UltraSite EDGE BTS
Figure 34. 8+8+8, Horizontal sectoring, WBC
NOTE: Special inter-rack cablekit required for Diversity Signals
EightTSxx
EightTSxx
8TSxx
EightTSxx
DN03428434
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UltraSite EDGE BTS Product Description
1 Special inter-rack cable kit required for Diversity Signals
Figure 35. 8+8+8, Horizontal sectoring, RTC
EightTSxx
EightTSxx
EightTSxx
DN03428497
1
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Technical overview of UltraSite EDGE BTS
2.15 Configuration and combining options of UltraSiteEDGE BTS co-siting with Talk-family BTS RFdiversity cable kits
2.15.1 Talk 222AFE/UltraSite 222DVxx cable connections of UltraSite EDGEBTS 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 121. 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)
Table 122. 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 M2xA #3 DRX 1 (#9-10)
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UltraSite EDGE BTS Product Description
Table 122. Installing RF diversity kit (cont.)
Sector Talk-family BTS UltraSite EDGE BTS
TRX #6 Div Receive
AFE #3 Main Receive Rx3
AFE #3 Main Receive Rx4
M2xA #3 DRX 2 (#9-10)
TSxx #5 DIV Rx (#9)
TSxx #6 DIV Rx (#10)
2.15.2 Talk 444RTC/UltraSite 222DVxx cable connections of UltraSite EDGEBTS 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 123. 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)
2.15.2.1 RF diversity cabling for indoor applications
Table 124. 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
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Technical overview of UltraSite EDGE BTS
Table 124. Installing RF diversity kit (cont.)
Sector Talk-family BTS UltraSite EDGE BTS
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)
Table 125. 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)
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Table 125. Routing SPKA splitter cable connections (cont.)
Sector From (Talk-family BTS) To (Talk) From (Talk) To(UltraSite)
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
2.15.2.2 RF diversity cabling for outdoor applications
Table 126. 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)
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Table 126. Installing RF diversity kit (cont.)
Sector Talk-family BTS UltraSite EDGE BTS
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)
Table 127. 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 DRX
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UltraSite EDGE BTS Product Description
Table 127. Routing SPKA splitter cable connections (cont.)
Sector From (Talk-family BTS) To (Talk) From (Talk) To(UltraSite)
2 (#9-10)
TRX #12 Div Rx Extended Splitter Out
2.15.3 Talk 444RTC/UltraSite 444RTC cable connections of UltraSite EDGEBTS Co-site with Talk-family BTS
Table 128. Re-routing antenna connections
RMU #1 DIV Ant RTC #1 ANT
RMU #2 DIV Ant RTC #2 ANT
RMU #3 DIV Ant RTC #3 ANT
2.15.3.1 RF diversity cabling for indoor applications
Table 129. 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
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Table 129. Installing RF diversity kit (cont.)
Sector Talk-family BTS UltraSite BTS
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
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 130. Routing SPKA splitter cable connections
Sector From (Talk-familyBTS)
To (UltraSite) From To (UltraSite)
1 RMU #1 Main Splitter In Splitter Out TRX #1 Div Rx
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Table 130. Routing SPKA splitter cable connections (cont.)
Sector From (Talk-familyBTS)
To (UltraSite) From To (UltraSite)
Receive Rx5
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
2.15.3.2 RF diversity cabling for outdoor applications
Table 131. 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
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Table 131. Installing RF diversity kit (cont.)
Sector Talk-family BTS UltraSite BTS
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 #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 132. 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
2.15.4 Talk 666RTC/UltraSite 222DVxx WBC 2:1 cable connections ofUltraSite 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.
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Table 133. 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)
2.15.4.1 RF diversity cabling for indoor applications
Table 134. 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
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)
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Table 134. Installing RF diversity kit (cont.)
Sector Talk-family BTS UltraSite EDGE BTS
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)
Table 135. 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)
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Table 135. Routing SPKA splitter cable connections (cont.)
Sector From (Talk-family BTS)
To (UltraSite) Cable P/N From To (UltraSite)
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 136. 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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2.15.4.2 RF diversity cabling for outdoor applications
Table 137. 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
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)
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Table 137. Installing RF diversity kit (cont.)
Sector Talk-family BTS UltraSite EDGE BTS
RMU #1 Div Receive Rx2 Basic #2 TSxx #6 DIV Rx (#10)
Table 138. 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)
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Table 139. 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
2.15.5 Talk 666RTC/UltraSite 666RTC cable connections of UltraSite EDGEBTS Co-site with Talk-family BTS
Table 140. 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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2.15.5.1 RF diversity cabling for indoor applications
Table 141. 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
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
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Table 141. Installing RF diversity kit (cont.)
Sector Talk-family BTS UltraSite EDGE BTS
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
Table 142. 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
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Table 142. Routing RSKA splitter cable connections (cont.)
Sector CableP/N
From (Talk) To (Talk) Cable P/N From (Talk) To (Talk)
3 RTC #1 RX out Splitter In 993563A or993564A
Splitter Out RMU #1 ANT
993546A
Talk Basic #2 993547A RMU #1 DIVANT
2.15.5.2 RF diversity cabling for outdoor applications
Table 143. 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
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
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Table 143. Installing RF diversity kit (cont.)
Sector Talk-family BTS UltraSite EDGE BTS
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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Technical overview of UltraSite EDGE BTS
Table 144. 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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3 Technical description of UltraSite EDGEBTS installation kits
3.1 Technical description of Outdoor Application kit(OAKx) of UltraSite EDGE BTS
The OAKx protects the outdoor BTS against EMI, dust, water, snow, and solidforeign objects. The outdoor BTS electrical parts are weatherproof to IP 55standards.
The following types of OAKx are available:
. OAKA - used for UltraSite EDGE BTS installation
. OAKB - used for Citytalk/UltraSite EDGE BTS co-siting and site support
Corrosion prevention measures
The current version of OAKx includes corrosion prevention measures. Contactyour Nokia representative to inquire about adding or replacing the followingcomponents for corrosion prevention on currently installed outdoor BTS cabinets:
. additional gaskets on fan connectors
. fully PVC moulded cables
. acid-proofed stainless steel screws
3.1.1 OAKA
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1 Door
2 Side wall
3 Door frame
DN03419728
1
3
4
5
6
7
8
9
2
10
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4 Door switch assembly
5 Roof
6 Antenna box extension
7 Back wall
8 Side wall
9 Plinth
10 Cabinet core (CRMA)
Figure 36. OAKA
3.2 Delivery content of UltraSite EDGE BTS CRMA/OAKA transportation package
Table 145. Delivery content of UltraSite EDGE BTS CRMA/OAKAtransportation package
Part NotesQuanti-ty Check
Cabinet core (CRMA) The cabinet core houses the units andTemperature Control System.
1
Outdoor application kit(OAKA)
The Outdoor Application Kit (OAKA) consists ofthe following components:
1
. plinth for one cabinet 1
. antenna box extension assembly (optional) 1
. back wall 1
. side wall 2
. door frame 1
. door with a pre-installed Cabinet Cooling fan 1
. door switch assembly 1
. roof 1
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Table 145. Delivery content of UltraSite EDGE BTS CRMA/OAKAtransportation package (cont.)
Part NotesQuanti-ty Check
. required mounting hardware
3.3 Delivery content of outdoor cable entry kit (OEKx)for UltraSite EDGE BTS
Table 146. Outdoor cable entry kit for co-siting (OEKx) component list
Part Quantity Check
Cable entry blocks 6
Cable bushings 24 pairs
3.4 Delivery content of UltraSite EDGE BTS OFKAtransportation package
Table 147. Delivery content of UltraSite EDGE BTS OFKA transportationpackage
Part NotesQuanti-ty Check
Optional cabinet filter kit(OFKA)
The optional cabinet filter kit (OFKA) consists ofthe following components:
1
. filter roll 1
. trim fasteners 16
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UltraSite EDGE BTS Product Description
3.5 Technical description of Outdoor Application kit(OAKB) of UltraSite EDGE BTS
The OAKB protects the outdoor BTS against EMI, dust, water, snow, and solidforeign objects. The outdoor BTS electrical parts are weatherproof to IP 55standards.
The OAKB is similar to the standard UltraSite Outdoor Application Kit (OAKA),except that the co-siting version replaces one of the side walls with a co-sitingside wall and provides a new co-siting cable entry for the roof assembly.
Corrosion prevention measures
The current version of OAKB includes corrosion prevention measures. Contactyour Nokia representative to inquire about adding or replacing the followingcomponents for corrosion prevention on currently installed outdoor BTS cabinets:
. additional gaskets on fan connectors
. fully PVC moulded cables
. acid-proofed stainless steel screws
3.6 Delivery content of UltraSite EDGE BTS OAKBtransportation package
Table 148. Outdoor Application Kit for co-siting (OAKB) component list
Part Quantity Check
Plinth for one cabinet 1
Back wall 1
Plain side wall 1
Co-siting side wall 1
Door frame 1
Door with a pre-installedCabinet Cooling fan
1
Door switch assembly 1
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Table 148. Outdoor Application Kit for co-siting (OAKB) component list (cont.)
Part Quantity Check
Roof 1
Co-siting cable entry 1
Antenna box coverassembly
1
Required mountinghardware
1
3.7 Technical description of Bridge kit (OBKA) ofUltraSite EDGE BTS outdoor cabinet
The OBKA is a bridge kit for the roof assembly of the UltraSite EDGE BTSoutdoor cabinet. The kit provides a protected channel for inter-cabinet cablesrouted between adjoining Outdoor cabinets.
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Figure 37. Bridge kit (OBKA)
DN03419085
(Front of cabinets)
1
3
4
5
6
2
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3.8 Delivery content of UltraSite EDGE BTS OBKAtransportation package
Table 149. UltraSite Bridge Kit (OBKA) component list
Part Quantity Check
Bridge 1
Bridge support 1
Bridge cover 1
Screws (M5) 4
3.9 Technical description of Indoor Cabinet of UltraSiteEDGE BTS
The following indoor cabinet is available:
. UltraSite EDGE BTS full-size cabinet (IDCAx)
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1 Door
2 Roof
3 Wall brackets
4 Cabinet core
5 Feet (four places)
Figure 38. IDCAx
5
4
2
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3
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3.10 Delivery content of UltraSite EDGE BTS IDCAtransportation package
All IDCA components are pre-installed except for the document holder and roof.
Table 150. Delivery content of UltraSite EDGE BTS IDCAtransportation package
IDCA Components Quantity Check
Cabinet core 1
Door 1
Roof assembly 1
Feet 4
Document holder 1
Internal antenna cables 6
Note
Anchor bolts, washers, and nuts for mounting the cabinet are not included in theIDCA transportation package.
3.11 Delivery content of the WCDMA lifting handle kit
The WCDMA Lifting Handle Kit (WLHA) can be installed on an UltraSiteEDGE BTS IDCA cabinet for horizontal and vertical (staircase) lifting. For moreinformation see Installing the optional lifting handle kit on an indoor UltraSiteEDGE BTS.
Check the contents of the WLHA in the table below.
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Table 151. Delivery content of the WLHK
WLHK components Quantity Check
. Adapter plate 4
. Handle 2
. Mounting screws(5mm x 6mm )
8
3.12 Technical description of System Extension Cable(SXCA) kit of UltraSite EDGE BTS
The SXCA cable kit provides extended RF diversity cables for signallingbetween the DVxx units and WCxA units in a 5+5+5 or greater UltraSite EDGEBTS configuration. The kit can be utilized in both indoor and outdoorinstallations.
The extended SXCA cables included in the SXCA kit are installed in the lowerright of the BTS cabinet and each kit includes any additional cables for variousconfigurations, as determined during planning.
3.13 Delivery content of UltraSite EDGE BTS SXCAtransportation package
Table 152. Delivery content of UltraSite EDGE BTS SXCAtransportation package
Part Quantity Check
SXCA kit 1 ea.
RF Cableassembly (part ofSXCA kit)
2 ea.
Note
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The SXCA kit is a customer specific item created for various BTS configurations.Contact your local Nokia representative for ordering information.
3.14 Technical description of UltraSite EDGE BTS co-siting with Talk-family RF diversity kits
An RF diversity cable kit allows antenna sharing between an existing Talk-familyBTS and an UltraSite EDGE BTS. The UTAA cable kit (468790A) is the basic RFdiversity kit that is used with all co-siting configurations. Depending on theconfiguration, up to three UTAA cable kits may be required.
Some configurations require the use of splitter kits. There are two different kitsavailable: SPKA and RSKA. SPKA is used in splitting RF diversity cablingbetween UltraSite DVxx - M2xA, UltraSite M2xA - Talk TRX, and Talk RMU/AFE - UltraSite TRX. RSKA is used between RTC and RMU in Talk-familyBTS.
Following is a general illustration of diversity sharing cable connections in aTalk-family cabinet. The Citytalk BTS is used for depiction purposes.
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Figure 39. General view of diversity cables for Talk-family (Citytalk cabinetshown)
Cables 1-6 Diversity receives from UltraSite M6xx,DR X outputs
Cables 7-12 Diversity send to UltraSite TSxxs 1-6, DIVRX inputs
DN03418908
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6
10
12
9
11
NOTE:Cables 1-6: Diversity receive fromUltraSite M6xx, DRX outputsCables 7-12: Diversity send toUltraSite TSxxs 1-6, DIV RX inputs
2
78
1
3
5
13
14
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Cable 13 Route internal diversity cables withincabinet to feed-through connectorsmounted on RF cable termination plate
Cable 14 RF cable termination plate (located at topof cabinet)
The RF cable termination plate can be installed in different locations on both theCitytalk BTS and the Intratalk BTS.
Note
The inter cabinet tunnel cannot be used if the extension cabinet is connected.
Any of the three antenna connection boxes can be removed and replaced withTalk-family termination plates. It is recommended that in the basic cabinet, theantenna box located towards the front of the cabinet is removed, as shown inOptional Citytalk BTS RF diversity termination plates and mounting locations. Inthe extension cabinet it is recommended to remove the antenna box locatedtowards the rear of the cabinet.
Note
When using the antenna connector box RF cable termination plate, reorganize theexisting Citytalk antenna cables connected to the antenna boxes.
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1 RF-diversity termination plate / Bias Tee power connector
2 RF-diversity termination plate / CityTalk inter-cabinet tunnel
3 RF-diversity termination plate / Antenna connector box
Figure 40. Optional Citytalk BTS RF diversity termination plates and mountinglocations
Citytalk cabinet
DN03419767
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3
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1 Side install
2 Top install
Figure 41. Optional Intratalk BTS RF diversity termination plates and mountinglocations
DN03419782
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2
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13 Route internal diversity cables within cabinet to feed-throughconnectors mounted on RF cable termination plate(s)
14 Antenna box
15 RF cable termination plate(s) as required
NOTE:Cables 1-6: Diversity send toTalk TRXs 1-6, DIV RX inputsCables 7-12: Diversity receive fromTalk AFEEs 1-3, MAIN outputs 3, 4
2
7
8
1
4
6
10
12
3
5
9
11
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15
16
13
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16 Antenna box
Figure 42. General view of diversity cables for UltraSite
Note
The termination plates can be placed on top of the antenna box if it is not beingused for antenna connections.
3.15 Delivery content of UltraSite EDGE BTS co-siting toTalk-family UTAA RF diversity cable kittransportation package
Table 153. Delivery content of UltraSite EDGE BTS co-siting to Talk-familyUTAA RF diversity cable kit transportation package
Part NotesQuanti-ty Check
Internal RF diversity cables -2m (993960A)
24
External RF diversity cables -3m (993959A)
12
UltraSite RF cabletermination plates
3
Assortment of Talk-family RFcable termination plates (1 foreach location option)
" 1 each TALK Mtg. Plate (CityTalk inter-cabinettunnel)
" 1 each TALK Mtg. Plate (antenna connector box)
" 1 each TALK Mtg. Plate (Bias Tee powerconnector)
" 1 each TALK Mtg. Plate (IntraTalk side install)
4 pcs.
M3x8 mounting screws(UltraSite)
12 pcs.
M6x10 mounting screws(Talk)
6 pcs.
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3.16 Delivery content of UltraSite EDGE BTS co-siting toTalk-family SPKA splitter kit transportationpackage
Table 154. Delivery content of UltraSite EDGE BTS co-siting to Talk-familySPKA splitter kit transportation package
Part Quantity Check
Splitters (5601046) 6
Splitter cables(994131XX)
12
3.17 Delivery content of UltraSite EDGE BTS co-siting toTalk-family RSKA splitter kit transportationpackage
Table 155. Delivery content of UltraSite EDGE BTS co-siting toTalk-family RSKA splitter kit transportation package
Part Quantity Check
Splitters (5600052) 2
Splitter cables 6, total
RTC Rx Out to Splitter In (993546A) 2
Splitter Out to RMU Div Ant (993547A) 2
Splitter Out to RMU Ant (993563A) 1
Splitter Out to RMU Ant (993564A) 1
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3.18 Delivery content of Talk/Talk synchronisation kit forUltraSite EDGE BTS co-site with Talk-family BTS
Table 156. Talk/Talk synchronisation kit for co-siting (020068A)component list
Part Quantity Check
Synchronisation cable set (SCSA) (468667A) 2
BCFB unit (468434A) 1
Abis interface (ABSA), includes two terminating plugs (468666A) 1
3.19 Delivery content of UltraSite/Talk synchronisationkits (UTxA) for UltraSite EDGE BTS co-site withTalk-family BTS
Table 157. UTHA, 469109A, component list
Part Notes Quantity Check
Cable (994098xx) 2.5m 1
Table 158. UTIA, 469110A, component list
Part Notes Quantity Check
Cable (994099xx) 12.5m 1
Table 159. UTJA, 469049A, component list
Part Notes Quantity Check
Cable (993910xx) 25m
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3.20 Delivery content of UltraSite/UltraSitesynchronisation kits (UUxA) for UltraSite EDGEBTS co-site with Talk-family BTS
Table 160. UUxA, 070366xx, component list
Part Notes Quantity Check
Cable (993872xx) Customer-specific length
1
3.21 Technical description of Talk 222AFE/UltraSite222DVxx UltraSite EDGE BTS co-site with Talk-family BTS
One UTAA RF diversity cable kit is used for indoor or outdoor Talk 222AFE andUltraSite 222DVxx, or smaller configurations. One kit consists of the followingcomponents:
Note
The installed number of components is presented in parentheses.
. 24 (24) internal RF diversity cables
. 12 (12) external RF diversity cables
. 3 (3) UltraSite RF cable termination plates
. 4 (1) Talk-family RF cable termination plates
. 12 pcs. M3x8 mounting screws (UltraSite)
. 6 pcs. M6x10 mounting screws (Talk)
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3.22 Technical description of Talk 444RTC/UltraSite222DVxx UltraSite EDGE BTS co-site with Talk-family BTS
One UTAA RF diversity cable kit and one SPKA splitter kit are used for indooror outdoor Talk 444RTC and UltraSite 222DVxx, or smaller co-siteconfigurations. The combined kits contain the following components:
Note
The installed number of components is presented in parentheses.
. 24 (24) internal RF diversity cables
. 12 (12) external RF diversity cables (2.5m)
. 3 (3) UltraSite RF cable termination plates
. 4 (2) Talk-family RF cable termination plates
. 12 pcs. M3x8 mounting screws (UltraSite)
. 6 pcs. M6x10 mounting screws (Talk)
. 6 (6) SPKA splitters
. 12 (12) splitter cables for SPKA splitters
3.23 Technical description of Talk 444RTC/UltraSite444RTC UltraSite EDGE BTS co-site with Talk-family BTS
Two UTAA RF diversity cable kits and one SPKA splitter kit are used for indooror outdoor Talk 444RTC and UltraSite 444RTC, or smaller co-site configurations.The combined kits contain the following components:
Note
The installed number of components is presented in parentheses.
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. 48 (36) internal RF diversity cables
. 24 (18) external RF diversity cables
. 6 (5) UltraSite RF cable termination plates
. 8 (2) Talk-family RF cable termination plates
. 12 pcs. M3x8 mounting screws (UltraSite)
. 6 pcs. M6x10 mounting screws (Talk)
. 6 (6) splitters
. 12 (12) splitter cables
3.24 Technical description of Talk 666RTC/UltraSite222DVxx WBC 2:1 UltraSite EDGE BTS co-site withTalk-family BTS
Two UTAA RF diversity cable kits, one SPKA kit and two RSKA splitter kits, areused for indoor or outdoor Talk 666RTC and UltraSite 222DVxx 2:1 co-siteconfigurations. The combined kits contain the following components:
Note
The installed number of components is presented in parentheses.
. 48 (48) internal RF diversity cables
. 24 (24) external RF diversity cables
. 6 (6) UltraSite RF cable termination plates
. 8 (3) Talk-family RF cable termination plates
. 24 pcs. M3x8 mounting screws (UltraSite)
. 12 pcs. M6x10 mounting screws (Talk)
. 4 (3) RSKA splitters
. 12 (9) splitter cables for RSKA splitters
. 6 (6) SPKA splitters
. 12 (12) splitter cables for SPKA splitters
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3.25 Technical description of Talk 666RTC/UltraSite666RTC UltraSite EDGE BTS co-site with Talk-family BTS
Three UTAA RF diversity cable kits and two RSKA splitter kits are used forindoor or outdoor Talk 666RTC and UltraSite 666RTC, or smaller co-siteconfigurations. The combined kits contain the following components:
Note
The installed number of components is presented in parentheses.
. 72 (72) internal RF diversity cables
. 36 (36) external RF diversity cables
. 9 (9) UltraSite RF cable termination plates
. 12 (3) Talk-family RF cable termination plates
. 36 pcs. M3x8 mounting screws (UltraSite)
. 18 pcs. M6x10 mounting screws (Talk)
. 4 (3) RSKA splitters
. 12 (9) splitter cables for RSKA splitters
The recommended Talk 666RTC/UltraSite 666RTC configuration is shown inRecommended configuration for Talk 666RTC/UltraSite 666RTC.
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Figure 43. Recommended configuration for Talk 666RTC/UltraSite 666RTC
Talk-family
6 TRX
sector
Talk-family
6 TRX
sector
Acceptable
6+6 & 6
configuration
Un-acceptable
6+6 & 6
configuration
Talk-family
6 TRX
sector
Talk-family
6 TRX
sector
Talk-family
6 TRX
sector
Talk-family
6 TRX
sector
00296322
UltraSite
BTS
6 TSxx
sector
6 TSxx
sector
UltraSite
BTS
6 TSxx
sector
6 TSxx
sector
6 TSxx
sector
UltraSite
BTS
6 TSxx
sector
UltraSite
BTS
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4 Technical description of UltraSite EDGEBTS cables
4.1 External interfaces of UltraSite EDGE BTS
4.1.1 External hardware interfaces of UltraSite EDGE BTS 800, 900, 1800,and 1900
Table 161. External hardware interfaces
Interface Value Connector Type
TX/RX antenna 6 (standard) + 6 (optional) 7/16 (DIN) female flangemount
AC Power input 184 to 276 VAC Phoenix clamp
Screw latch 0.5-16 mm
DC Power input +20 to +32 VDC Terminal stud (+24 VDC)
Terminal lugs 10 mm
DC Power input -36 to -60 VDC Terminal stud (-48 VDC)
Terminal lugs 10 mm
Grounding (earthing) Three groundingalternatives:. Single M8 stud
(Europe). Two M5 studs (US and
Canada). Single M8 stud and
Two M5 studs (+24VDC)
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Table 161. External hardware interfaces (cont.)
Interface Value Connector Type
Note
Use two M8 studson newer versioncabinets.
M6 cable shoe(ground lug) isrecommended for2-point groundingwith M5 studs.
ESD stud
External alarms andcontrols
. TTL/open collector
. 24 external alarms
. 6 controls
D-37 pin (female)
Frame number, frameclock, mains and UltraSiteSupport alarm input
RS-485 D-15 pin (female)
Frame number, frameclock, mains and UltraSiteSupport alarm output
RS-485 D-15 pin (female)
E1/T1 2 Mbit/s (E1) or 1.5 Mbit/s(T1) PCM
TQ for 120 & E1
TQ for 100 & T1
BT 43 for 75 & E1
RRI RRI Flexbus Radiolink I/Oand power output (55VDC)
TNC
Q1 interface RS-485 D-9 pin (female)
LMP for BTS Manager/SiteWizard
RS-232 D-9 pin (female)
13 MHz test clock 50 & SMB (female)
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Table 161. External hardware interfaces (cont.)
Interface Value Connector Type
Test FCLK 50 & SMB (female)
Test/monitor interface D-25 (female)
Figure 44. Indoor cabinet interfaces
1 Transmission units cover
2 Interface Module (IFM)
3 12 TX/RX antennas
4 Abis interface access to Transmissionunit
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5 DC Power input - right side (optional ACPower input - left side)
Figure 45. Outdoor cabinet interfaces (OAKx roof and door not shown)
1 Transmission units cover
2 Interface Module (IFM)
3 Antenna box extension
4 12 TX/RX antennas
5 Abis interface access to Transmissionunit
6 DC Power input - right side (optional ACPower input - left side)
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3
4
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6
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4.1.2 Front-mounted interface module board interfaces
Figure 46. IFM board (front-mounted connectors)
Table 162. Front-mounted connectors
Interface Reference designator Connector type
Cabinet output X2 D-15 (female)
Cabinet input X1 D-15 (female)
Q1-1 X3 D-9 (female)
Q1-2 X4 D-9 (female)
Q1-SSS X7 D-9 (female)
External alarm input X8 D-37 (female)
External alarm input/ X9 D-37 (female)
Cabinetinterface
Input/Output
D-15, female D-9, female D-37, female
External interface
External Alarms InputsControl Outputs
Q1_1, Q1_2, Q1_SSS
EXT. ALARMS INPUTQ1_1 Q1_SSSOUTPUT
INPUT EXT. ALARMS INPUT/CONTROL OUTPUTQ1_2
DN03428376
1
20
19
37
1
9
8
15
1
6
5
9
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Table 162. Front-mounted connectors (cont.)
Interface Reference designator Connector type
control output
Pin configurations
Table 163. Cabinet output pin configuration
Pin Signal Pin Signal Pin Signal
1 FCKP 2 FCKN 3 FNP
4 FNN 5 MAINS_A-LARM_OUTP
6 MAINS_A-LARM_OUTN
7 RLY 8 RELAY 9 SSS_CO-N_OUTP
10 SSS_CO-N_OUTN
11 CBL_C_O-UT
12 GND
13 Not used 14 Not used 15 Not used
Table 164. Cabinet input pin configuration
Pin Signal Pin Signal Pin Signal
1 FCKP 2 FCKN 3 FNP
4 FNN 5 MAINS_A-LARM_INP
6 MAINS_A-LARM_INN
7 RLY 8 GND 9 SSS_CO-N_INP
10 SSS_CO-N_INN
11 CBL_C_IN 12 GND
13 V48N 14 V48RTN 15 Not used
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Table 165. Q1_1 pin configuration
Pin Signal Pin Signal Pin Signal
1 Q1_EXT-D_1P
2 Not used 3 GND
4 Not used 5 Q1_EXT-U_1P
6 Q1_EXT-D_1N
7 Not used 8 Not used 9 Q1_EX-TU_1N
Table 166. Q1_2 pin configuration
Pin Signal Pin Signal Pin Signal
1 Q1_EXT-D_2P
2 Not used 3 GND
4 Not used 5 Q1_EXT-U_2P
6 Q1_EXT-D_2N
7 Not used 8 Not used 9 Q1_EX-TU_2N
Table 167. Q1_SSS pin configuration
Pin Signal Pin Signal Pin Signal
1 Q1_SSS_-UP
2 Not used 3 GND
4 Not used 5 Q1_SSS_-DP
6 Q1_SSS_-UN
7 Not used 8 Not used 9 Q1_SSS_-DN
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Table 168. External alarm pin configuration
Pin Signal Pin Signal Pin Signal
1 EXT_AL13 2 EXT_AL14 3 EXT_AL15
4 EXT_AL16 5 EXT_AL17 6 EXT_AL18
7 EXT_AL19 8 EXT_AL20 9 EXT_AL21
10 EXT_AL22 11 EXT_AL23 12 EXT_AL24
13 Not used 14 Not used 15 Not used
16 Not used 17 Not used 18 Not used
19 GND 20 GND 21 GND
22 GND 23 GND 24 GND
25 GND 26 GND 27 GND
28 GND 29 GND 30 GND
31 Not used 32 Not used 33 Not used
34 Not used 35 Not used 36 Not used
37 Not used
Table 169. External alarm input/control output pin configuration
Pin Signal Pin Signal Pin Signal
1 EXT_CO1 2 EXT_CO2 3 EXT_CO3
4 EXT_CO4 5 EXT_CO5 6 EXT_CO6
7 EXT_AL1 8 EXT_AL2 9 EXT_AL3
10 EXT_AL4 11 EXT_AL5 12 EXT_AL6
13 EXT_AL7 14 EXT_AL8 15 EXT_AL9
16 EXT_AL10 17 EXT_AL11 18 EXT_AL12
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Table 169. External alarm input/control output pin configuration (cont.)
Pin Signal Pin Signal Pin Signal
19 GND 20 V5P 21 V5P
22 V5P 23 V5P 24 V5P
25 V5P 26 GND 27 GND
28 GND 29 GND 30 GND
31 GND 32 GND 33 GND
34 GND 35 GND 36 GND
37 GND
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4.1.3 Rear-mounted interface module board interfaces
Figure 47. IFM board (rear-mounted connectors)
1 Common backplane interface
2 Bias Tee interface
Table 170. Rear-mounted connectors
Interface Reference designator Connector type
Common backplane X5 D-37 (female)
DN03428388
(Back)
No top frontcover or AC filter
Back of IFM board
1
116
59
9
815
20
1937
1
2
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Table 170. Rear-mounted connectors (cont.)
Interface Reference designator Connector type
Bias Tee interface module X6 D-15 (female)
Pin configurations
Table 171. Common backplane pin configuration
Pin Signal Pin Signal Pin Signal
1 ECO12CD 2 GND 3 ECO12CC
4 GND 5 Q1_SSS_-UP
6 Q1_SSS_-UN
7 Q1_SSS_-DP
8 Q1_SSS_-DN
9 EXT_FCK-P
10 EXT_FCK-N
11 Not used 12 Not used
13 Q1EXTU 14 GND 15 Q1EXTD
16 GND 17 V5P 18 GND
19 Not used 20 V5P 21 GND
22 EXT_FNP 23 EXT_FNN 24 V3P
25 GND 26 V3P 27 GND
28 V5P 29 GND 30 V48N
31 V48RTN 32 Not used 33 Not used
34 Not used 35 Not used 36 Not used
37 Not used
Table 172. Bias Tee Interface Module pin configuration
Pin Signal Pin Signal Pin Signal
1 VSWR1 2 VSWR2 3 VSWR3
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Table 172. Bias Tee Interface Module pin configuration (cont.)
Pin Signal Pin Signal Pin Signal
4 VSWR4 5 VSWR5 6 VSWR6
7 VSWR7 8 VSWR8 9 VSWR9
10 VSWR10 11 VSWR11 12 VSWR12
13 Not used 14 Not used 15 Not used
4.2 Technical data for the UltraSite EDGE BTS unitcable kits
Table 173. Unit cable kits
Category Property Cablequantity
From unit To unit
066641x 993857xx (TSxx) 2 each TSxx M2xA or M6xA
DVxx or RTxx orWCxA
066643x 994081x (M2xA) 2 each DVxx or RTxx M2xA
066644x 993856x (M6xA) 2 each DVxx or RTxx M6xA
066647x 993747x (WCxA) 1 each WCxA WCxA or DVxx
069314x 993935x (Bias Tee) 2 each (Indoorcabinet)
4 each(Outdoorcabinet)
1 - Adaptorplate
Bias TeeInterface Module
BPxx
066646x 993997x (RTxx) 1 each RTxx RFU backplane
993997x (DVxx) 1 each DVxx RFU backplane
069313x 993744x 2 each DVxx or RTxx Antenna box
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Table 173. Unit cable kits (cont.)
Category Property Cablequantity
From unit To unit
(Antenna: 2.0 m)
993936x
(Antenna: 1.4 m)
2 each DVxx or RTxx Antenna box
993937x
(Antenna: 1.7 m)
2 each DVxx or RTxx Antenna box
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Figure 48. Plug-in units with cable kits
03436211
RTxx to RFU BackplaneKit # 066646x.xxx / Part #993997x, quantity one
DVxx to RFU BackplaneKit # 066646x.xxx / Part #993997x, quantity one
Antenna cable kit
Kit #069313x.xxxPart:#993744X, 2.0m long, quantity two#993937X, 1.7m long, quantity two#993936X, 1.4m long, quantity two
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Figure 49. Plug-in units with cable kits
03436223
DVxx or RTxx to M6xA
Kit #066643x.xxx / Part #993856x, quantity two
DVxx or RTxx to M2xA
Kit #066644x.xxx / Part #994081x, quantity two
M6xA M2xA
Transceiver to M2xA or M6xATransceiver to DVxx or RTxx or WCxA
Kit #066641x.xxx / Part #993857x, quantity three
WCxA to WCxA or DVxx (2:1, 4:1 combining
Kit #066647x.xxx / Part #993747x, quantity one
Kit #069314x.xxx / Part #993935x, quantity oneBias Tee interface to Bias Tee
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4.3 Technical data for the LMP cable of UltraSite EDGEBTS
The LMP cable provides a connection between the laptop computer and the LMPport on the CCUA.
Figure 50. LMP cable specification
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Figure 51. LMP cable
Table 174. Connector pin order
BTS end, D9 male, pinnumber
PC end, D9 female, pinnumber
PC end, D25 female,pin number
2, LMP in 3, transmitted data 2, transmitted data
3, LMP out 2, received data 3, received data
5, ground 5, ground 7, ground
PC end,D9 female
BTS end,D9 male
5 4 3 2 1
9 8 7 6
1 2 3 4 5
6 7 8 9
DN03439708
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5 Configurations for UltraSite EDGE BTS
5.1 Overview of configurations for UltraSite EDGE BTS
The choice of network configuration depends mainly on the requirements fortransmission media and availability. The loop network configuration is the mostreliable, providing excellent protection against equipment failures and radio-linkfading.
Nokia UltraSite EDGE BTS directly supports all network configurations�loop,chain, star, point-to-point, and mesh. Separate transmission nodes areunnecessary, because the Nokia UltraSite EDGE BTS cabinet can hold up to fourintegrated transmission units.
Each BTS cabinet uses the FXC transmission units to add or drop capacity toother sites. The integrated transmission can groom traffic and serve as a PDHloopmaster. Cross-connections to 8 k granularity and grooming at the BTS furtheroptimise transmission capacity.
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5.2 Example network configuration: Loop
Figure 52. Nokia UltraSite loop configuration
For information on transmission network protection using loop topology, seeTransmission network protection using loop topology.
DN03442389BTS (typical)
BSC (typical)
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5.3 Example network configuration: Star
Figure 53. Nokia UltraSite star configuration
5.4 Example network configuration: Chain
Figure 54. Nokia UltraSite chain configuration
DN03442392
Star configuration
BSC (typical)
BTS (typical)
DN03442408
Chain configuration
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5.5 Overview of configurations for Nokia ITN
ITN is the abbreviation for Integrated Transmission Node. It is a synonym for theuse of FXC transmission units within Nokia BTSs and Nokia MetroHub, as thesame FXC units are used within these products to build a transmission node. WithITN units deployed in a BTS hub, chain and tail sites can be supported withoutadditional cabling and a site support cabinet, which would be necessary if anexternal third party transmission node were used. MetroHub is well integratedinto a consistent transmission network solution for radio access networks, as ituses the same ITN units. Further, it is also possible to chain MetroHub to a NokiaBTS for providing a cost-efficient branching solution for micro-BTS sites.
Taking a few capacity limitations into account, flexible node configurations canbe created with ITN that serve the diverse needs of the operator within radioaccess networks:
. There can be only one FXC Bridge and FXC STM-1 unit per cabinet.
. FXC Bridge and FXC STM-1 units are always used together.
. The FXC RRI unit has a maximum add/drop capacity towards the cross-connection bus of 16 x 2M, when the unit is used as the node master unit(left most slot position) or as a slave unit.
- When FXC RRI is being used as the master unit within a BTStransmission Hub, the add/drop capacity is 13 x 2M.
- When FXC RRI is being used as the master unit within a MetroHub,which is chained to a BTS, the add/drop capacity is 15 x 2M.
. The FXC STM-1/FXC Bridge units provide an add/drop capacity towardsthe cross-connection bus of 20 x 2M.
5.6 Example site configuration: with SDH transmission
One of the easiest and most cost efficient solutions to enhance the coverage andexpand the network is branching. Branching means add/dropping digitaltransmission channels to other transmission paths in chain and tree networks.With FXC STM-1 and FXC Bridge an SDH solution is provided for connecting abase station (BTS) to optical fibre and for the branching of PDH lines. Inbranching, specific VC-12 channels are separated from the STM-1 frame signaland used for generating a new E1/Flexbus frame for the subsidiary branch.
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Figure 55. Site solutions for Nokia base stations with FXC STM
Figure 56. ITN for PDH add/dropping and SDH/PDH conversion
Solution for UltraSite BTS
FXCBridge
FXCSTM
empty
empty
UltraSite BTS
Internal D-buses (up to 3 x 2M)
Solution for MetroSite BTS
FXCBridge
FXCSTM
empty
empty
empty
DIUA
MetroHub MetroSite BTS
empty
VF
D-busExtension(1 x 2M)
4x2M
2xFlexB
us
FXCBridge
FXCSTM
FXCE1/T1
FXCRRI
UltraSite BTS
Internal D-buses (up to 3 x 2M)
4x2M
2xFlexB
us
FXCBridge
FXCSTM
FXCE1/T1
FXCRRI
FXCE1/T1
DIUA
MetroHub BTS or BSC
N x 2M
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6 Technical description of UltraSite BTSHub
6.1 Technical overview of Nokia BTS Hub or MetroHubManager menus
All Nokia BTS Hub and MetroHub Manager functions can be accessed throughthe application menus. The main functions under the menus are briefly describedin the figure below. You can also use the toolbar short-cuts to access the menuitems.
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Figure 57. Overview of UltraSite BTS Hub or MetroHub Manager menus
Creating and managing filePrinting files
Tests, Temperature Monitoring,Resets, BackUp, Software Copy
This menu appearswhen some transmissionunit is selected
Nokia Metro-Hub ManagerApplicationwindow
Managing connection to a NE
File
Launching Commissioning Wizard,Managing Cross-connections,Identifications, Synchronisation,
Q1 management, Circuit Management
Alarms view
Q1 Tool, Circuit Manager, Reports,Toolbar, Status Bar, Manager Options
Sizing windows
Online HelpHelp
Window
Tools
FXC
Maintenance
Alarms
Configuration
Connection
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The following tasks are performed under the Nokia BTS Hub Manager orMetroHub Manager menus:
. Commissioning the node (Configuration � Commissioning Wizard)
. Managing PDH and SDH synchronisation settings (Configuration �Synchronization)
. Managing Embedded Operations Channel (EOC) settings (Configuration� Q1 Management)
. Making cross-connections (Configuration � Cross-connections)
. Managing service interface settings (Configuration � Service Interface)
. Viewing current alarms (Alarms � View)
. Performing tests (Maintenance � Tests)
If you try to make changes that are not possible, you are notified and the previoussettings are restored. To send the changes to the node, click Apply. To send thechanges to the node and to close the window or dialogue box, click OK. Indialogues with related menu activitie, for example, Modify or Refresh, you canuse the dialogue button to access the related menus or use the pop-up menus(right-click on the mouse).
6.2 Technical description of transmission capacityexpansion
In addition to being transmission nodes, the BTS transmission Hub or MetroHubserve as flexible transmission capacity reserves in the network, enabling rapidrevenue growth by easy and flexible expansion of capacity with minimisedimplementation time and cost.
The growing amount of traffic in the network requires flexible transmissioncapacity expansion. This is accomplished by adding transmission units into thetransmission node when needed. With these transmission units, the transmissionnode can be connected, for example, to eight Nokia FlexiHopper (Plus) radios,with up to 16 x 2 Mbit/s capacity each, or to eight Nokia MetroHopper radios,with 4 x 2 Mbit/s capacity each. The radio connections are made through a singleFlexbus cable that carries the payload and the radio power feed.
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The maximum interface capacity of Nokia MetroHub is 222 x 2 Mbit/s, with 2FXC STM-1 and 6 x Flexbus interface. Of the total capacity 56 x 2 Mbit/s can becross-connected between FXC units. In addition, bypass cross-connects aresupported for the FXC STM-1 and FXC RRI units to cross-connect additionalcapacity transparently. The maximum interface capacity of UltraSite BTS Hub is190 x 2 Mbit/s, with the same cross-connect capacity as MetroHub.
It is also possible to connect the transmission node to other transmissionequipment through sixteen E1 or T1 connections. Furthermore, severaltransmission nodes can be chained using a single coaxial cable.
Table 175. Nokia MetroHub transmission capabilities
Cross-connection bus capacity 56 x 2 Mbit/s non-blocking
with 8 kbit/s granularity
Basic cross-connection types: Granularities:
B2 Bi-directional 2M / nx64k / 64k / 32k /16k / 8k
M2 Bi-directional masked 64k / 32k / 16k
D Uni-directional fixed 64k / 32k / 16k / 8k
Protected cross-connection type: Granularity:
P2 Protected bi-directional nx64k / 64k / 32k / 16k
Max. interface capacity of the node 222 x 2 Mbit/s (with 2 x STM-1 and 6 xFlexbus interface)
Table 176. Nokia UltraSite EDGE BTS transmission capabilities
Cross-connection bus capacity 56 x 2 Mbit/s non-blocking
with 8 kbit/s granularity
Basic cross-connection types: Granularities:
B2 Bi-directional 2M / nx64k / 64k / 32k /16k / 8k
M2 Bi-directional masked 64k / 32k / 16k
D Uni-directional fixed 64k / 32k / 16k / 8k
Protected cross-connection type: Granularity:
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Table 176. Nokia UltraSite EDGE BTS transmission capabilities (cont.)
P2 Protected bi-directional nx64k / 64k / 32k / 16k
Max. interface capacity of the node 190 x 2M (with 2 x STM-1 and 4 x Flexbusinterface)
6.3 Technical description of transmission unit cross-connections
Cross-connections define how signals are routed from an FXC transmission unitto another transmission unit. Cross-connections are created into banks, which areeither active or inactive. The cross-connections in the active banks are in use,whereas those in the inactive bank can be used for creating new or editing alreadyexisting cross-connections.
The SDH cross-connection block performs cross-connections on the VC-12 leveland generation of clock and frame sync signals for the buses.
Cross-connection bus
The transmission units offer dynamic allocation and deallocation of the 56 x 2Mbit/s cross-connection bus of MetroHub and UltraSite EDGE BTS according tothe physical interfaces that are present in the node configuration. The user cancreate cross-connections between any physical interfaces connected to the cross-connection bus.
When the first cross-connection is created to the interface, the 2M cross-connection block is allocated to it. If there are no free blocks to be allocated, thenode gives the alarm 20 Blocked from use.
Backup
The active cross-connection bank is backed up in the transmission unit's non-volatile memory: if the unit is removed, the cross-connections are restored whenthe unit is inserted again.
Grooming
The cross-connection feature of the transmission units makes traffic groomingpossible.
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The FXC transmission units are capable of grooming traffic at 8 kbit/sgranularity, which enables fully optimised and flexible use of the availabletransmission resources. This ensures that the Abis transmission capacity can beused efficiently.
Cross-connection granularities
There are several types of cross-connections available, and each has a differentgranularity.
Granularity means the bit rate at which a cross-connection is made, that is, thenumber of bits connected into a specific direction in a cross-connection. In 2Mbit/s mode, the available granularities are:
. 8k (1 bit)
. 16k (2 bits)
. 32k (4 bits)
. 64k (all 8 bits in a time slot)
. n x 64k
. 2M
Note
All 2 Mbit/s platform interfaces are terminated, which means that time slot 0 isregenerated.
Note
Only 2 Mbit/s cross-connections that are made from Flexbus to Flexbus inside aFXC RRI transmission unit are transparent.
Note
SDH cross-connections are only possible at VC-12 level granularity.
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Basic cross-connection types
The cross-connections are created into banks. The node contains two cross-connection banks.
The transmission units support all the cross-connection types described below.
Figure 58. Basic cross-connection types supported
. B2 bi-directional cross-connection
The B2 cross-connection is a bi-directional connection between two terminationpoints. The granularities are 2M, nx64k, 64k, 32k, 16k and 8k.
. M2 bi-directional masked cross-connection
The M2 bi-directional masked cross-connection is a bi-directional connectionbetween two termination points. The received data stream is masked bit by bitwith fixed data. Masking can be done with a logical AND or OR operation. Themasking is made in both directions. The M2 cross-connection supports 64k, 32kand 16k granularity.
. D1 uni-directional fixed cross-connection
The D1 cross-connection is a uni-directional cross-connection where fixed data issent from the Tx port as shown in the figure above. The user sets the fixed bitpattern used (for example: 01101101) and the time slot where the bit pattern istransmitted. The D1 cross-connection supports 64k, 32k, 16k and 8kgranularities.
TxRx
TP 2TP 1B2
Tx
D1
Bitpattern
Rx Tx
M2
Mask
TP 1 TP 2
TP = Termination point
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Cross-connection protection
The B2 cross-connection can be protected. Protection means that the data paththrough the network element has two alternative routes. The protected bi-directional cross-connection is called the PB2 cross-connection.
Figure 59. Protected bi-directional cross-connection
Note
Setting up a bi-directional protected cross-connection for SDH is necessary forsetting up a SNC/I+ protected VC-12 path.
When a protected bi-directional cross-connection is made, both the switch anddata duplicating cross-connections are created. Data received from the reliableport is duplicated and sent to both the protected and protecting port. Theswitching decision is made according to the incoming value of the selectedcondition bits (pilot bits).
The granularities for protected cross-connections are n x 64k, 64k, 32k and 16k.
The port selection is called a switch. After creating the switch, the user mustdefine the switching condition. The supported conditions are priority and equal.
For more details on loop protection, see Technical description of PDHtransmission network protection using loop topology.
TP 3 /
Protecting port
TP 1 /
Reliableport Pilot bit
Pilot bit
TP 2 /
Protected port
TP = Termination point
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6.4 Technical description of the node control unit
When any of the FXC transmission units is inserted into unit slot 1, itautomatically starts to function as the node control unit. The role of the unit isthus only determined by the slot position. The node control unit provides acommon clock to which all other FXC units synchronise. An FXC unit mustalways be used in unit slot 1 for the configuration to work.
Note
The FXC STM-1 unit cannot be used as the node control unit and it should neverbe installed in slot 1.
Figure 60. Transmission unit slots in Nokia Ultrasite EDGE BTS
1 2 3 4
FXC
FXC
FXC
FXC
Slot 1: Node control unit
UltraSite EDGE BTS
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Figure 61. Transmission unit slots in Nokia MetroHub
6.5 Technical description of the synchronisation ofFXC transmission units
Synchronisation is needed to be able to make cross-connections on sub-2M levelwithout causing slips in transmission. It is recommended that the synchronisationinput is taken from an upper network element, typically a base station controller(BSC) in the BSS. Also the synchronisation of base stations (BTS) in the BSS canbe done via transmission equipment. If there is an SDH transmission layer used inthe BSS, synchronisation of the SDH equipment is also needed.
Therefore an FXC node in the BSS is always synchronised to a referenceprovided by the BSC. The BSC head-end transmission node is synchronised via a2M payload signal or a 2 MHz synchronisation input from the BSC, anddistributes the synchronisation further to other network elements in the BSS. Incase of an FXC STM node, this is done via STM-1 signals.
Synchronisation functions are configured using Nokia management applications.
1 2 3 4 5
MetroHub
FXC
FXC
FXC
FXC
FXC
Interface
unit
Slot 1: Node control unit
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Synchronisation of transmission nodes equipped with FXC (PDH) units
In a transmission node equipped with only FXC (PDH) units, all platforminterfaces can be used as a synchronisation source. The clock is selected based onavailability and priority from a four-level priority list, generated by the useraccording to the current network configuration. If none of the recovered lineclocks in the priority list is available, all the FXC units are synchronised to theinternal oscillator of the node control unit.
Synchronisation of transmission nodes equipped with FXC (PDH) and FXCSTM-1 units
In a transmission node equipped with both FXC (PDH) and FXC STM-1 units,the node clock functionality is split between the PDH node clock and the SDHnode clock. In normal operation the PDH node clock is synchronised to the SDHnode clock. The synchronisation of the BTS towards the BSC is established as theNokia BTSs are synchronised to the PDH node clock. If the SDH node clock isnot available (for example, due to unit fail), the FXC (PDH) node clock masterruns on its own internal oscillator.
The FXC STM-1 transmission unit supports the SDH node clock function. TheSDH node clock can be synchronised to any external STM-1 interface. If FXCBridge is plugged into slot 1, the SDH node clock can also be synchronised to thefirst E1 signal of an FXC E1 or FXC E1/T1 unit (for exampe at a BSC head-endsite).
The SDH node clock supports three modes: locked, holdover, and free-run. Inlocked mode, the SDH node clock is synchronised either to an external STM-1 orE1 interface. In holdover mode, the SDH node clock has lost its controllingreference input and is using stored data (acquired while in locked operation) tocontrol its output. In free-run mode, no synchronisation reference has beenavailable and the node clock master runs on its own oscillator clock.
Available synchronisation sources are chosen in the order of importance. In caseof the SDH node clock function, the highest quality source is used to synchronisethe equipment clock. If several sources of the same quality are available, thesource with the higher priority is used. For PDH node clock function, theavailable reference source with the highest priority is always taken.
Note
If an E1 signal is used as the synchronisation source for a node equipped withboth FXC (PDH) and FXC STM units, the FXC Bridge unit has to be set up asthe master unit and the quality of the E1 signal must fulfil the SDH standardalthough it is an PDH signal. This means that the frequency deviation of the E1signal is only allowed to be ± 4.6ppm (SDH standard) instead of ± 50ppm (PDH
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standard). The ± 4.6ppm accuracy of the E1 signal used as reference for the SDHnode clock must be ensured by the network operator. An inaccuracy of more than± 4.6ppm up to approximately ± 20ppm cannot be detected by the SDH nodeclock function. If the inaccuracy is more than ± 20ppm, the node switches to thenext entry in the synchronisation list and the alarm 124 Synchronization fault inclock recovery or 125 Loss of synchronization signal(s) is raised, although thesignal could still be in the valid PDH range of ± 50ppm.
Behaviour of node synchronisation in case of a frequency shift beyond ± 20ppm of the SDH network reference clock
In normal operation the FXC STM node is synchronised to an STM-1 inputsignal with an accuracy of ± 4.6 ppm towards the 155 520 KHz STM-1 reference.In exceptional cases, for example MS-AIS, the STM-1 input signal is allowed tohave an accuracy of ± 20 ppm. Due to a failure of transmission equipment, theSTM-1 input signal may deviate more than ± 20 ppm towards the 155 520 KHzSTM-1 reference, and the signal is still used as a synchronisation source for thenode. In this case, the node switches to the next synchronisation source in thepriority list. When the quality of the network reference clock gets within a validrange for the synchronisation source, the node automatically takes thesynchronisation source into use again. This process can take up to 11 minutes. Aslong as the node is in frequency shift state, the message 'Do not use' is transmittedas the synchronisation status message in the S1 byte of the STM multiplex sectionoverhead.
6.6 Technical description of Q1 management
Nokia Q1 is a Nokia proprietary management protocol and it is backwardscompatible with the currently used Q1. In this information set, Nokia Q1 isreferred to as Q1.Q1 is a polling protocol used for transferring informationbetween a master and a network element. Each network element in a Q1 networkhas a unique Q1 address. The polling master accesses network elements using theQ1 address. This address has to be in the range 0�3999. In the BSS, the BSC istypically the polling equipment. The Q1 group address is used for broadcastingthe Q1 management messages to several pieces of equipment within the samegroup. This is for future usage.These kinds of broadcasting actions could be, forexample, software downloading to several nodes simultaneously.
Nokia MetroHub is a Nokia Q1 network element. MetroHub is a single networkelement with one Q1 address. Even if there are radio outdoor units connected toan FXC RRI transmission unit, they do not have their own Q1 addresses.
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The interface unit of MetroHub provides the interfaces for local or remotemanagement of the equipment: LMP (local management port) and Q1. Both portshave their own Q1 address and baud rate settings. LMP and Q1 interfaces areindependent of each other and the node can be accessed from both of theinterfaces at the same time. Two interfaces for LMP and Q1 enable chaining ofboth interfaces with an easy point-to-point cabling.
LMP-1 and LMP-2 interfaces are used for local access with MetroHub Manager.The LMP port has the general address of 4080. This address can be used if theLMP is not chained. The manager uses this address when the Connect Locally...option is selected. If the LMP is chained, a unique Q1 address must be selectedfor the LMP and the connection to the node is established with the Connect...option in the manager.
Q1-1 and Q1-2 interfaces are for remote management of external Q1 equipment.To enable remote management, a transmission channel for Q1 has to be createdwith the manager. This channel is called EOC, embedded operations channel. Thechannel can be transmitted either in the radio overhead or in a selected time slotinside a 2 Mbit/s signal. When the radio overhead is used, the sampling rate isalways at least 64 kHz. With STM-1 the EOC connection is handled in the exactsame way, as you can cross-connect the 2M channel of an STM-1 interfacetowards FXC Bridge.
The following figure shows examples of Q1 network connections. The NMSforms the user interface. Between the NMS and BSC exists, for example, an X.25connection. In this example, the BSC is the polling device. The Q1 data istransported inside a 2 Mbit/s signal between the BSC and MetroHub #1. Then Q1continues towards MetroHub #2. For this there are two options. The first one (A)shows that the Q1 is in the overhead of the radio connection between MetroHub#1 and #2. The second option (B) is that the Q1 is inside a 2 Mbit/s framebetween both nodes. In addition, it is possible to extract the Q1 signal fromMetroHub #1 and poll another Q1 element, in this example: FIU 19.
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Figure 62. Examples of Q1 network connections
Local management bus
The local management bus (LMB) connects the node control unit to the localmanagement port (LMP).
Q1 buses in a network
Large Q1 networks are sometimes divided into Q1 buses because of reliabilityand polling time issues. In this case, several Q1 channels are created in thepolling equipment, for example, the BSC. These channels are used to divide thenetwork logically into different Q1 networks.
If Q1 buses are used, the Q1 channels must be considered as normal datachannels up to the place where the Q1 bus usage starts. In the nodes starting fromthe polling equipment up to the place where Q1 bus usage starts, the Q1 channelshave to be cross-connected as normal data. In the nodes that are in the Q1 bus, theEOC is used for dropping the Q1 channel to the node control unit processor, aswell as for forwarding the channel to the next network element.
FIU 19
MetroHub #1
NMS
BSCMetroHub #2
Flexbus
Q1 cable
E1
X.25
Q1
(A) in radio overhead or
(B) inside a 2 Mbit signal
Q1 in2 Mbit/s
RRI
DIUA
E1IF1
FB1RRI
RRI
E1
FB2
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7 Traffic Protection of UltraSite EDGE BTS
7.1 Technical description of hot standby with the FXCRRI transmission unit
7.1.1 Introduction to hot standby
Hot standby is a method of equipment redundancy in which two radiotransmitters are kept ready (switched on), so that if one fails, the other oneimmediately picks up where the first one left off.
In single use, the signal is not protected against equipment or propagation faults.If there is a fault, the connection remains broken until the equipment fault hasbeen repaired or the cause for the propagation fault disappears. Hot standbyprovides protection against faults in the equipment.
The supported hot standby setup of one FXC RRI transmission unit with twoNokia FlexiHopper (Plus) outdoor units is shown in the following figure. Activeunits are shown in grey and passive units in white.
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Figure 63. Nokia FlexiHopper (Plus) radios with FXC RRI, 1IU/2OU hot standby(only one direction shown)
In hot standby mode, the transceivers of both radios are on but the transmitter ofthe protecting radio is in mute state. The changeover criteria are divided in twocases: (OU) receiver changeover and (OU) transmitter changeover. These two areindependent of each other.
Note
Connecting a Flexbus cable to a passive outdoor unit of an operative protectedhot standby hop may cause a few bit errors to the transmitter and receiver of theactive outdoor unit.
7.1.2 Outdoor unit transmitter changeover switches
Outdoor unit transmitter changeover switches are controlled by the processor ofthe indoor unit. The active outdoor unit is changed if a hardware fault is detectedin the unit or if the far-end radio cannot receive the signal. Changeover can alsobe performed when the reception quality at the far-end has been degraded.
Possible transmitter faults are:
Outdoor unit A
Outdoor unit B Outdoor unit B
Outdoor unit A
TX CO Transmitter changeover switch (transmitter mute control)
TX CO
IU RXCO Indoor unit hitless changeover switch (In ASIC)
TX CO
IU RXCO
Indoor unit Indoor unit
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. Flexbus cable is disconnected or broken.
. Flexbus power is off.
. Flexbus 'in use' setting is turned off.
. Flexbus loop to interface or loop to equipment is set active.
. Outdoor unit is not capable of transmitting for one or more of the followingreasons:
- Tx lock is lost in Flexbus cable interface.
- MWU lock is lost.
- Tx power setting is off.
- Tx frequency has not been set.
. Both far-end outdoor units have lost their lock to the Rx signal (R-bit issent from the far-end)
Note
Tx changeovers are disabled and the traffic is cut during protected hop fadingmargin measurement. For more information, see Fading margin measurement.
The FXC RRI unit also supports Lazy (OU) transmitter changeover, in addition tothe instant (OU) transmitter changeover, see Lazy transmitter changeover.
7.1.3 Indoor unit changeover switch
The indoor unit Rx changeover switch is located in the ASIC, and it is hardwarecontrolled. The changeover is based on detected FEC (forward error correction)errors. The Rx changeover is also possible by the control of the indoor unit�sprocessor. In receiver changeover, depending on the received radio signal qualityand available receivers, the system tries to minimise the errors in the receiveddata via selecting the outdoor unit with the lower bit error ratio. When the activereceiver receives a serious fault, a receiver changeover is made. During thechangeover, bit errors occur and synchronisation is momentarily lost.
Possible serious receiver faults are:
. Flexbus cable is disconnected or broken.
. Flexbus power is off.
. Flexbus 'in use' setting is turned off.
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. Flexbus loop to interface or loop to equipment is set active.
. Flexbus Rx signal frame lock has been lost.
. Outdoor Unit Rx signal lock has been lost.
7.1.4 Alarms that occur with changeovers
After the changeover, the system activates the alarm 128 Fault in equipmentincluding information about which unit is faulty. Other alarms of the faulty unitshow the actual reason for the fault. After the fault has been corrected (forexample, the unit has been replaced and commissioned) the system activates thehot standby protection method and clears the alarms.
If the passive transmitter breaks down, the system activates the 128 Fault inequipment alarm and Tx changeover is not possible until the fault has been fixed.
Note
When an outdoor unit of a hot standby protected hop is replaced, the outdoor unitsettings of the new outdoor unit should be checked (may be in the default state)with the node manager. The Tx frequency and interleaving settings must be thesame in both outdoor units of the hot standby protected hop. If the settings aredifferent, the 143 Fault in changeover function alarm is activated. In that casechangeover is still possible, but after the Tx changeover the frequency may beillegal.
7.2 Technical description of PDH transmission networkprotection using loop topology
7.2.1 Introduction
Nokia loop protection is considered the most efficient way to protect traffic in atransmission network such as a base station subsystem (BSS). In a livetelecommunications network it is important to secure, in addition to the actualpayload traffic, the network synchronisation and the centralised networkmanagement during any period of abnormal circumstances.
For these reasons, Nokia loop protection protects:
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. payload traffic
. network synchronisation
. network management connections.
A transmission loop formed with Nokia elements consists of one loop master andseveral loop slaves. Usually the loop master is a transmission node, whereas theloop slaves can be either transmission nodes, BTSs or a combination of bothinside one loop.
The loop principle is that the transmitted signal is always sent in both directions,but the received signal is selected from one direction only. The loop master sendspilot bits on the basis of which the switching decision is made. Each individuallyprotected slave station needs one pilot bit.
Network synchronisation must also be ensured in a loop network and it followsthe loop principle in a similar way. The synchronisation switching takes placeindependently from the pilot bits by having master clock bit (MCB) and loopcontrol bit (LCB).
Each network element decides individually from which direction the signal andthe synchronisation will be received, and thus it does not require any external oradditional supervision for its decision.
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Figure 64. Loop principle
Nokia's way of implementing loop protection is ultimately secure, providing veryfast route switching that recovers the transmission connections instantly. Nokialoop protection is embedded and thus very fast. Nokia loop protection protectsagainst failures, such as cable-cuts, equipment failures, heavy rain and multipathfading, and against obstacles in the line-of-sight, such as cranes and growingtrees.
Compared to an unprotected wireless network, Nokia loop protection increasessite availability at least tenfold and prevents end-of-chain availabilitydegradation. Further, it enables significant increase in hop lengths, withoutsacrificing site availability and helps minimise the antenna sizes of the radiolinks.
Nokia loop protection is an easily activated system feature where NokiaMetroHub and UltraSite EDGE BTS can act as the master node. In addition,several Nokia MetroHub nodes and Nokia base stations can be looped together.
The protection functionality is compatible with the existing Nokia BSStransmission.
Loopmaster
= Loop slave
Normal receive direction
Reverse receive direction
Pilot bitsPilot bits
Direction 1Direction 2
Transmissionnetwork
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For more information refer to the Nokia PDH Loop Protection in GSM Networksdocument that can be obtained upon request.
7.2.2 Protecting payload traffic
A pilot bit is a special kind of bit with a preset value (zero), and it is sent amongthe protected traffic in a known position. For example, protecting a 2 Mbit/s linkrequires one bit out of the 2 Mbit/s stream to be reserved for this purpose.Similarly, if the traffic is protected at a partial 2 Mbit/s level, for example,because two different base stations share one 2 Mbit/s line, one pilot bit isrequired for each slave station.
The location of the pilot bit is defined in the network plan, and it is often withinone of the last time slots of the 2 Mbit/s frame. In principle, the location can beselected freely, but a harmonised practise in the network may be advisable foreasy site commissioning and network documentation.
The state of a pilot bit is set to 0 (zero) at the sending station, which sendsidentical digital streams (payload and the pilot bit protecting it) in directions 1and 2 in the loop.
Any failure in the connection between the sending station and the intendeddestination causes the pilot bit to change from zero to one (based on AIS). Thusthe target station, receiving a 'one' instead of a 'zero' knows that the connection isfaulty.
The following figure shows the loop principle between the loop master and oneslave. The traffic in the other slave stations is bypassed.
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Figure 65. Traffic protection guided by pilot bit monitoring
The pilot bit is sent at the loop master MetroHub site for all the slave stations aszero with 'Uni-directional fixed data' or 'Bi-directional masked' types of cross-connections. You can reduce the amount of connections from two uni-directionalto one bi-directional if you use the bi-directional masked type of cross-connection.
Masking pilot bits
BTS
(BSC)
pilot bit = 0
Hub
pilot bit = 0
pilot bit = 0
pilot bit = 0
pilot bit = 0
Loop masterHub
pilot bit = 0
pilot bit = 0
pilot bit = 0
pilot bit = 1
pilot bit = 1
pilot bit = 1
(BSC)
BTS
HubHub
Loop master
HubHub
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The principle of masking in the loop network is to use the logical 'AND'operation with '0', when the result is always '0', and masking with '1' when theoutput is the same as the input signal (either unchanged '0' or '1').
In the example in the following figure, pilot bits are sent to four slave nodes in theloop. The view is from a cross-connection termination point setting.
Figure 66. Pilot bit sent from a loop master
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At loop slave sites, each node must forward the pilot bits from other slave stationsunchanged and send its own pilot bit as zero in both loop directions. This is donewith the bi-directional masked type of cross-connections. The following figurepresents the pilot bit masking of the second slave node (bit 2) and other pilot bitsforwarding in the loop. The view is from a cross-connection termination pointsetting.
Figure 67. Pilot bit masking in the second loop slave
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Nokia loop protection can be configured either as equal switching or priorityswitching. The difference between these is that in priority switching theconnection returns to the initial route as soon as the problem on that link issolved, whereas with the equal switching the system stays on the selected linkuntil it gets faulty. Equal switching provides better stability for the connection,and it is therefore the recommended choice for BSS networks.
7.2.3 Protecting network synchronisation
The implementation mechanism for an automatic detection and recovery ofmissing or looped network synchronisation is based on loop network clockcontrol bits carried within the protected 2 Mbit/s stream:
. one bit for detecting if the incoming signal is synchronised by the originalnetwork synchronisation master or not (master clock bit, MCB), and
. one bit for detecting any breaks or loopbacks in the synchronisation chain(Loop Control Bit, LCB).
The loop master sets the MCB and LCB to '0' (zero) state in both directions. Anystation using a certain received signal for synchronisation sends the LCB back as'1' (see the following figure), so that the counterpart knows that thesynchronisation of the incoming stream is inherited in such a way that it must notbe used for synchronisation, to avoid a loopback or otherwise faultysynchronisation. The same applies to all slaves to make sure the synchronisationremains intact.
Similarly, faulty transmission replaces MCB and LCB with '1' and affectedstations know they are not receiving a valid source signal from that direction.
Figure 68. Manipulating synchronisation loop control bit
In the loop master MetroHub, the MCB/LCB can be sent as zero in bothdirections of the loop with uni-directional fixed data or bi-directional maskedtypes of cross-connections. Use Configuration � Synchronisation � Loop bitssetting to define the MCB/LCB bit positions. For further information on thesettings, see Adjusting synchronisation loop bit settings.
MCB/LCB = 0/0
MCB/LCB = 0/1
MCB/LCB = 0/0
MCB/LCB = 0/1
Priority 1synchronisationsource
Priority 2synchronisationsource
OSC
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Node master-slave detection
A synchronisation priority list is always defined first, then the MCB and LCBbits. The transmission node recognises if it is defined as the master or slave basedon the following information:
. if the MCB and LCB bits are missing from the synchronisation list, thetransmission node is a master.
. if MCB and LCB are in the synchronisation list, the transmission node isused as a slave.
There are a couple of network cases which require the use of real MCB/LCBsettings, and is as such, a better practice for common use.
These cases are, for example:
. Q1 loop termination is done based on the incoming LCB bit status. If theloop master node does not have the definition, the Q1 loop protection is notworking.
. The transmission node is acting as the master of one loop and the slave ofanother. The equipment uses loop synchronisation MCB/LCB definition,MCB = incoming MCB bit and LCB = 0 (except towards the interfacewhere the clock is coming, where LCB = 1).
. MCB status is forwarded as received from an upper network element (loopmaster using chain synchronisation with MCB definition, MCB =incoming MCB bit and LCB = 0).
. Node master running on an internal clock which is not at priority l level(MCB/LCB = 1/0)
The following figure presents the setting of MCB/LCB bits in two directions indifferent FXC RRI units.
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Figure 69. Setting of loop control bits
Note that node synchronisation is always based on priority. The synchronisationalways return to a higher priority route whenever the problem on that link issolved. This does not cause any problem to the traffic as the synchronisation iscoming from the same loop master.
The location of the MCB and LCB is defined in the network plan. In principle,the location can be selected freely, but a harmonised practise in the network maybe advisable for easy site commissioning and network documentation.
7.2.4 Protecting remote network management channel
The Q1 network management channel used to manage Nokia PDH transmissionelements is a bus, and therefore it must not be looped.
Q1 loop protection is based on switching into a faultless direction when there is abreakage somewhere in transmission. The direction is changed according to anLCB bit.
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Figure 70. Network management bus circulation prevention
To avoid ringing and simultaneous polling from two directions, the Q1 loop mustbe terminated at the master node. This is the recommended way to implement Q1network management bus protection with Nokia PDH loop protection. Thistermination is used when the loop master is a Nokia MetroHub node, UltraSiteBTS node, or Nokia DN2.
To terminate the loop at the master node:
. LCB (from the last slave node) = 0 � no faults in the network � forcedtermination towards the last slave node (see above figure).
. LCB (from the last slave node) = 1 � fault in the network � forcedtermination removed
The loop master is configured so that it sends the network management channelin just one direction. When a fault occurs in that direction (the loop master detectsit from the received LCB), it knows to allow the network management channel topropagate in both directions. The Q1 EOC hybrid switch must be set to the OFFstate towards the Secondary Port direction in the loop master. In this case, noadditional settings to the normal Q1 EOC channel are needed in the slave nodes.
In some cases, where the loop master is an older Nokia BTS integratedtransmission unit (TRUx or BIUMD), Q1 protection must be done in the firstloop slave on the secondary port side of the loop master. In this case, both the Q1primary port and the secondary port must be defined for the loop slave. NokiaMetroHub, UltraSite EDGE BTS, and MetroSite EDGE BTS support Q1 slaveprotection.
Loop master
Networkmanagement bus
Loop master
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Figure 71. Setting of Q1 protection in the slave (in case of slave protection)
Note
Both the EOC and the MCB/LCB in the secondary port side must be defined inthe same 2M interface for the Q1 loop protection to work.
7.2.5 Hints for using a loop network
. Use different FXC units for the protected and protecting ports of aconnection to gain the maximum protection in the hardware reliabilitysense.
. A maximum of 16 synchronisation and network management channelprotection loops can be used within a single node.
. When 16 x 2 Mbit/s capacity loops are built, each of the three loopdirections require a separate FXC RRI unit.
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7.3 Technical description of SDH transmissionprotection enabled by the FXC STM transmissionunit
Subnetwork Connection (SNC) protection, ring protection scheme
The FXC STM node supports SDH ring protection by using the subnetworkconnection protection scheme (SNC 1+1) on the VC-12 layer. Each path can beindividually selected to be protected or unprotected. In a multiplex sectionprotection (MSP) scheme, the entire STM-1 signal is protected at all times. UsingSNC 1+1 protection, the required transmission capacity can be optimised byprotecting only the VC-12 paths that need to be protected.
Figure 72. Subnetwork connection protection
The SNC 1+1 protected traffic is broadcasted at the entry point of the ring andtransmitted in both directions. At the add/drop points of the ring, one of the tworeceived signals is selected depending on the signal quality. Ring protectionprotects against propagation faults, fibre cuts (if fibres are used within the ring),and network element faults.
FXC STM supports inherent monitored subnetwork connection protection plus(SNC/I+). The plus means that in addition to the standard switching criteria,'unequipped' is used as the switching criteria. This means that if the protectedpath gets the signal label unequipped due to a misconfiguration, the FXC STMunit initiates a protection switch.
Subnetwork Connection Protection
TM/ADM/DXC ADM/DXC TM/ADM/DXC
SDH NETWORK
SDH NETWORKworking
protecting
working
(not protected)
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Figure 73. SNC ring protection scheme
7.4 Technical description of fading marginmeasurement in Nokia FlexiHopper (Plus)
Fading margin is the margin, which is designed into a radio communicationcircuit to ensure that the required grade of service is provided, despite fading,during normal propagation conditions for a given percentage of the time. NokiaFlexiHopper (Plus) can execute fading margin measurement automatically during
BSC
2M interfaces towards BSS
2M
N x 2M
BSC site
SDH ring (STM-1)
Site #1
STM-1
VC12 working pathVC12 protecting path
BSC Head EndSDH node
VC12 SNCprotectiontermination
VC12 SNCprotectiontermination
VC12 SNC protection between site #1 and site#2
STM-1
STM-1
Site #2
STM-1
STM-1
STM-1
STM-1
STM-1
MetroHub
Nokia BTS
Nokia BTS
STM-1
Nokia BTS
STM-1
STM-1PDH
Nokia BTS
STM-1
MetroHub
STM-1
STM-1
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radio relay commissioning. The measured fading margin can be used to verify thequality of the radio link in network planning. In addition, it can be used fordefining a sensible ALCQ Rx-level set-point. The measurement is carried outwithout the aid of any additional tools or measurement equipment.
The automatic fading margin measurement (FMM) is based on four differentmeasurements: The BER 10-3 threshold signal levels at each capacity andreceiver's (capacity dependent) noise floor are measured in Nokia production foreach radio. Moreover, the noise floor together with received interference signallevel and the normal (maximum) received power level are measured withcommissioned radio relay in the actual environment. Consequently, it isstraightforward to calculate the fading margin from these measurement results.Generally, the fading margin is defined here as the difference between the normalreceived signal level and the required signal level for 10-3 BER in the actualoperation conditions over the commissioned radio hop.
More detailed information about fading margin can be found in the ALCQ andAutomatic Fading Margin Measurement in FlexiHopper Microwave RadioApplication Note that can be obtained upon request.
7.5 Technical description of lazy transmitterchangeover
Lazy transmitter changeover is a protection method against transmitter faults thatcannot be detected by the equipment itself, for example, a faulty antenna. TheFXC RRI transmission unit sends periodical notifications to the far-end about theradio signal quality. Lazy transmitter changeover is performed, if there are errorsin the transmitted data over a specified interval (see lazy changeover timingbelow) that are caused by the near-end transmitter.
Lazy transmitter changeover is performed when the system experiences bit errorsfor a longer period. Lazy transmitter changeover is possible only when bothtransmitters are available. It is based on analyses of the current and past events.The system minimises the number of lazy transmitter changeovers, because eachtime the changeover is made the synchronisation is lost.
Other factors in the lazy transmitter changeover are:
. If one of the outdoor units becomes unavailable, the system makes aninstant transmitter changeover and generates the 128 Fault in equipmentalarm.
. If the bit error ratio (BER) after the changeover is 1000 times higher thanbefore the changeover, the system makes another changeover back to theprevious transmitter.
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7.5.1 Lazy changeover timing
Quality class 1 lazy changeover function is supported, which means that the bestpossible protection against undetectable transmitter faults is available. It makesthe first Tx changeover soon after constant BER is detected in the far-end. Also iffar-end BER exceeds 1E-3, the Tx changeover is done immediately.
The BER value presented in the table below is based on the far-end BER, whichis the result of the radio's internal processes and cannot be measured. The BERvalue is calculated from the better receiver.
Table 177. Primary and secondary periods of Quality Class 1
Class 1 h:min:s
BER Primary period Secondary period
1E-9 24 days 20:31:24 24 days 20:31:24
1E-8 10:00:00 18:00:00
1E-7 0:30:0 3:00:00
1E-6 0:03:00 0:30:00
1E-5 0:00:30 0:10:00
1E-4 0:00:10 0:05:00
1E-3 0:00:05 0:02:00
7.5.2 Lazy transmitter changeover examples
Example 1
If the BER value stays over the BER level for the time period specified in thequality class for that BER level, a Tx changeover is made.
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Figure 74. BER stays over the threshold for the primary period
Example 2
If the BER value drops to the previous level, the period timer is continued at thetime spent since the level was crossed for the first time.
Figure 75. BER drops to the previous level and stays over threshold for theprimary period
BER-3
BER-4
BER-5
BER-4 limit crossedstart BER-4 period
BER-4 period expiredmake TX changeover
BER-4 period
BER-3
BER-4
BER-5
BER-4 l imit crossedstart BER-4 period
BER-3 limit crossedstart BER-3 period
BER-3 limit crossedstop BER-3 periodcontinue BER-4 period
BER-4 period expiredmake TX changeover
BER-4 period = t1+t2+t3
t1 t3t2
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Example 3
If the BER value drops to the previous level and after that crosses over to theupper level again, the period timer is restarted from zero.
Figure 76. BER drops temporarily under the threshold and the primary period isrestared
Example 4
When BER value crosses over to the upper level, but the time period left from thelower BER level is shorter than the new period, the old period is continued.
BER-3
BER-4
BER-5
BER-4 l imit crossedstart BER-4 period
BER-4 l imit crossedstop BER-4 period
BER-4 l imit crossedrestart BER-4 period
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Figure 77. Lower BER primary period is continued
Example 5
If BER is over the threshold after the first changeover, then the secondary periodis used for the next changeover.
Figure 78. After the first changeover the secondary period is used
BER-3
BER-4
BER-5
BER-4 limit crossedstart BER-4 period
BER-4 period expiredmake TX changeover
BER-3 limit crossedcontinue BER-4 periodbecause time left is shorterthan BER-3 period
BER-3 period
BER-4 period
BER-3
BER-4
BER-5
BER-4 crossedstart BER-4primary period
BER-4 primaryperiod expiredmake TXchangeover
Over BER-4threshold afterchangeoverstart BER-4secondary period
BER-4 secondaryperiod expiredmake TX changeover
BER-4 primary period BER-4 secondary period
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8 Technical description of the performancemanagement of FXC transmission units
8.1 Performance data for FXC E1/T1, FXC E1, and FXCRRI
FXC E1/T1 and FXC E1 line interfaces and FXC RRI platform interfaces supportthe following performance measurements:
Table 178. Interface performance measurements
ID text Infinitecounter
24 hcounter
15 mincounter
Currentvalue
Measuringunit
Description
G.826 TT X X X seconds Total time asspecified inG.826
G.826 AT X X X seconds Available timeas specified inG.826
G.826 ES X X X seconds Erroredseconds asspecified inG.826
G.826 SES X X X seconds Severelyerroredseconds asspecified inG.826
G.826 BBE X X X counter Backgroundblock errors asspecified inG.826
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Table 178. Interface performance measurements (cont.)
ID text Infinitecounter
24 hcounter
15 mincounter
Currentvalue
Measuringunit
Description
G.826 EB X X X counter Errored blockas specified inG.826
Frame synclost
X counter Number ofFSL errorssince thecounter waslast cleared
Lineattenuation
X dB Current lineattenuation*)
*) Line attenuation measurement is only supported for FXC E1 and FXC E1/T1line interfaces
Table 179. Unit performance measurement
ID text Infinitecounter
24 hcounter
15 mincounter
Currentvalue
Measuringunit
Description
CPU reset X counter Number of unitCPU resetssince thecounter waslast cleared
Timeslotmonitoring
X data Data ofselectedtimeslot
Performing a unit reset clears all counters, except the CPU reset counter, the valueof which is saved to flash memory. You can clear all counters with the nodemanager. Performance monitoring data can be read with the node manager andwith the BSC. With a node manager all supported measurements can be reviewedexcept the FXC RRI unit's 24h and 15min G.826 counters.
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The BSC has TRE (G.826) and TRE_SEL (G.826 and RX-input level Max_Minfrom radio outdoor units) measurements. The measurement period with TRE isalways 24h. For the TRE_SEL measurement, the intervals of 15, 30 or 60minutes, or 2, 3, or 24 hours are available.
Note
With 24h period RX-input level Max_Min is not available.
The measurements are only made in the receiving direction. In order to measureboth directions, the user must set up two different measurements. Themeasurements can be made as described in the following figure:
Node = Nokia UltraSite, MetroSite or MetroHub
Figure 79. Measurements
Example A
Measurements 1 are carried out between Node 1 and Node 2, where theconnection is set up via an E1 line. Measurements 2 are made between Node 2and Node 3 along a connection created with Nokia MetroHopper.
Node 1 Node 3Node 2
Measurements 1 Measurements 2
Measurements 3
E1 link MetroHopperradio link
MetroHopperradio link
FlexiHopperradio link
Example A
Example B
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Example B
Measurements 3 are carried out between Node 1 and Node 3, where the cross-connections in Node 2 is implemented via using the traffic bypass feature. In thiscase the signal is not terminated in Node 2, since cross-connections made viatraffic bypass are transparent on the 2 Mbit/s level. The connection between Node1 and Node 2 is set up using Nokia FlexiHopper (Plus) and the connectionbetween Node 2 and Node 3 is set up using Nokia MetroHopper.
Table 180. FXC RRI unit capacity
Cross-connection capacity between Flexbusinterfaces
32 x 2 Mbit/s
Add/drop capacity to the FXC PDH cross-connectionbus, when used as the node master unit within a BTStransmission Hub
13 x 2 Mbit/s
Add/drop capacity to the FXC PDH cross-connectionbus, when used as the node master unit within aMetroHub chained to a Nokia BTS
15 x 2 Mbit/s
Add/drop capacity to the FXC PDH cross-connectionbus, when used as a slave unit or as the node masterunit within a MetroHub, which is not chained to a NokiaBTS
16 x 2 Mbit/s
Add/drop capacity to the D-bus, when used as thenode master unit
3 x 2 Mbit/s
8.2 Performance data for FXC STM-1 and FXC Bridge
Performance data for the FXC STM-1 and FXC Bridge units is collected for themultiplex section (MS), regenerator section (RS), virtual container 4 (VC-4), andvirtual container 12 (VC-12).
The FXC Bridge platform interfaces:
. have no performance data collection.
. do not support timeslot monitoring.
. do not support a frame synchronisation lost counter.
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FXC STM does support optical power level measurement due to the sensitivity ofthe measurement circuitry. Only the following values are shown when the powerlevel crosses the following thresholds:
. Rx power level with -30 dBm and below is shown as < -30 dBm.
. Rx power level with -10 dBm and above is shown as > -10 dBm.
. Tx power level with -6 dBm and below is shown as < -5 dBm.
The table below lists the statistics for STM-1 interfaces and SDH-PDH channelsand the statistical error counters that are used for the STM-1 interfaces and theSDH-PDH channels.
Counter Value Description
TT seconds Total Time: all seconds inone time period
AT seconds Available Time AT = TT -UAS (where UAS =Unavailable Seconds)
ES seconds Errored Seconds: secondswith one or more erroredblocks
SES seconds Severely ErroredSeconds: a subset of ES.G.826 gives twodefinitions for SES. InNokia Q1, the definition ofSES as e 30% erroredblocks in one secondperiod is adopted.
BBE counter Background Block Errorsas specified in G.826
The G.826 statistics can be viewed as either counts or ratios.
Counts are either seconds or blocks:
. VC-4 = 8000 blocks/s
. VC-12 = 2000 blocks/s
. MS = 192 000 blocks/s (One block has only one bit.)
. RS = 8000 blocks/s
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Ratios are calculated with the following rules:
. AT ratio = AT / TT
. ES ratio = ES / AT
. SES ratio = SES / AT
. BBE ratio = BBE / [ABBE x (AT � SES)] where ABBE =Available Blocksin one second
Note
The SES counter is incremented, when more than 30% of the blocks measured inone second are errored, except for the Multiplex Section layer, where the SEScounter is incremented according to G.829 (when more than 15% of the blocksmeasured in one second are errored).
The tables below include information on the capacity of the FXC STM-1 andFXC Bridge units.
Table 181. FXC STM-1 unit capacity
SDH cross-connection capacitybetween aggregate STM-1 interfaces
126 x VC-12
Add/drop capacity to the FXC Bridgeunit
20 x VC-12
Table 182. FXC Bridge unit capacity
Add/drop capacity to the FXC STM-1 unit up to 20 x VC-12
Cross-connection capacity (at 8 kbit/sgranularity)
20 x 2 Mbit/s
Add/drop capacity to the FXC PDH cross-connection bus
20 x 2 Mbit/s
Add/drop capacity to the D-bus 3 x 2 Mbit/s
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9 Glossary
9.1 Glossary for UltraSite EDGE BTS
9.1.1 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
ATM Asynchronous Transfer Mode
AWG American Wire Gauge
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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
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)
CC Cross-Connection
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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
DDS Direct Digital Synthesis
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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 900/1800
DVxx Dual Variable Gain Duplex Filter unit
. DVTB for GSM/EDGE 800
. DVTC for GSM/EDGE 800 co-siting
. 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
. TSPA for GSM 1900
. 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
. 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
9.1.2 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 the IBBU or Nokia UltraSite Supportcabinet. The CCU 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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Glossary
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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UltraSite EDGE BTS Product Description
Related Topics
Technical overview of UltraSite EDGE BTS
Instructions
Overview of planning UltraSite EDGE BTS cabinet installation
Overview of UltraSite EDGE BTS installation at a new site
Overview of UltraSite EDGE BTS installation at an existing UltraSite EDGEBTS site
Overview of UltraSite EDGE BTS with WCDMA upgrade installation at a newsite
Overview of UltraSite EDGE BTS with WCDMA Upgrade installation at anexisting UltraSite EDGE BTS site
Overview of UltraSite EDGE BTS co-site with Talk-family BTS installation
Descriptions
Overview of UltraSite EDGE BTS unit technical descriptions
Overview of configurations for UltraSite EDGE BTS
Technical description of Outdoor Application kit (OAKx) of UltraSite EDGEBTS
Technical description of Outdoor Application kit (OAKB) of UltraSite EDGEBTS
Technical description of Outdoor Application kit of UltraSite EDGE BTS
Technical description of Indoor cabinet of UltraSite EDGE BTS
Technical description of BBPA kit of UltraSite EDGE BTS
Technical description of SXCA kit of UltraSite EDGE BTS
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Related Topics
Technical description of UltraSite EDGE BTS co-siting with Talk-family RFdiversity kits
Reference
Physical properties of UltraSite EDGE BTS
Electrical properties of UltraSite EDGE BTS
RF properties of 800 MHz UltraSite EDGE BTS
RF properties of 900 MHz UltraSite EDGE BTS
RF properties of 1800 MHz UltraSite EDGE BTS
RF properties of 1900 MHz UltraSite EDGE BTS
Receiver properties of UltraSite EDGE BTS
Acoustic sound parameters of UltraSite EDGE BTS
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
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UltraSite EDGE BTS Product Description
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
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
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Related Topics
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
Technical description of Outdoor Application kit(OAKx) of UltraSite EDGE BTS
Instructions
Overview of installing outdoor core mechanics to UltraSite EDGE BTS
Overview of removing core mechanics from UltraSite EDGE BTS outdoorcabinet
Reference
Delivery content of UltraSite EDGE BTS CRMA/OAKA transportation package
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UltraSite EDGE BTS Product Description
Technical description of Outdoor Application kit(OAKB) of UltraSite EDGE BTS
Instructions
Installing the co-siting Outdoor Application kit (OAKB)
Reference
Delivery content of UltraSite EDGE BTS OAKB
Technical description of Bridge kit (OBKA) ofUltraSite EDGE BTS outdoor cabinet
Instructions
Installing the Bridge kit of outdoor UltraSite EDGE BTS
Reference
Delivery content of UltraSite EDGE BTS OBKA transportation package
Technical description of Indoor Cabinet of UltraSiteEDGE BTS
Instructions
Overview of installing UltraSite EDGE BTS core mechanics
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Related Topics
Technical description of System Extension Cable(SXCA) kit of UltraSite EDGE BTS
Reference
Delivery content of UltraSite EDGE BTS SXCA transportation package
Technical description of UltraSite EDGE BTS co-siting with Talk-family RF diversity kits
Reference
Delivery content of UTAA
Delivery content of SPKA
Delivery content of RSKA
Delivery content of UltraSite EDGE BTS co-siting toTalk-family UTAA RF diversity cable kittransportation package
Reference
Delivery content of UltraSite EDGE BTS co-siting to Talk-family SPKA splitterkit transportation package
Delivery content of UltraSite EDGE BTS co-siting to Talk-family RSKA splitterkit transportation package
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UltraSite EDGE BTS Product Description
Technical description of Talk 222AFE/UltraSite222DVxx UltraSite EDGE BTS co-site with Talk-family BTS
Reference
Delivery content of UltraSite EDGE BTS co-siting to Talk-family basic RFdiversity kit transportation package
Technical description of Talk 444RTC/UltraSite222DVxx UltraSite EDGE BTS co-site with Talk-family BTS
Reference
Delivery content of UltraSite EDGE BTS co-siting to Talk-family basic RFdiversity kit transportation package
Technical description of Talk 444RTC/UltraSite444RTC UltraSite EDGE BTS co-site with Talk-family BTS
Reference
Delivery content of UltraSite EDGE BTS co-siting to Talk-family basic RFdiversity kit transportation package
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Related Topics
Technical description of Talk 666RTC/UltraSite222DVxx WBC 2:1 UltraSite EDGE BTS co-site withTalk-family BTS
Reference
Delivery content of UltraSite EDGE BTS co-siting to Talk-family basic RFdiversity kit transportation package
Technical description of Talk 666RTC/UltraSite666RTC UltraSite EDGE BTS co-site with Talk-family BTS
Reference
Delivery content of UltraSite EDGE BTS co-siting to Talk-family basic RFdiversity kit transportation package
Overview of configurations for UltraSite EDGE BTS
Descriptions
Technical overview of UltraSite EDGE BTS
Overview of configurations for Nokia ITN
Example site configuration: with SDH transmission
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UltraSite EDGE BTS Product Description
Overview of configurations for Nokia ITN
Descriptions
Example site configuration: with SDH transmission
Technical description of transmission unit cross-connections
Instructions
Overview of managing cross-connections
Reference
20 Blocked from use
Descriptions
Technical description of PDH transmission network protection using looptopology
Technical description of the synchronisation ofFXC transmission units
Instructions
Overview of adjusting node synchronisation settings
Adjusting synchronisation loop bit settings
Adjusting PDH synchronisation settings
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Related Topics
Adjusting SDH synchronisation settings
Reference
124 Synchronization fault in clock recovery
125 Loss of synchronization signal(s)
Technical description of hot standby with the FXCRRI transmission unit
Instructions
Setting Nokia FlexiHopper and Nokia FlexiHopper Plus settings
Reference
128 Fault in equipment
143 Fault in changeover function
Descriptions
Technical description of fading margin measurement in Nokia FlexiHopper (Plus)
Technical description of lazy transmitter changeover
Technical description of fading marginmeasurement in Nokia FlexiHopper (Plus)
Instructions
Setting Nokia FlexiHopper and Nokia FlexiHopper Plus settings
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UltraSite EDGE BTS Product Description
Technical description of lazy transmitterchangeover
Reference
128 Fault in equipment alarm
Descriptions
Technical description of hot standby with the FXC RRI transmission unit
Technical description of the performancemanagement of FXC transmission units
Instructions
Monitoring transmission unit performance
Descriptions
Technical description of transmission interface measurements
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Related Topics
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