1 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
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Flexi Multiradio BTS GSM/EDGE ConfigurationFlexi Multiradio BTS GSM/EDGE SVU Training
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Module objectives
After completing this learning element, the participant will be able to:• Explain the various type of configuration options supported by Flexi Multiradio
BTS
• Describe the different options according to how the radios and the system modules are configured in optical RP3-1 interfaces.
• Describe the different configuration on the radio part.
• Explain Co-siting with older GSM BTSs and WCDMA/LTE BTSs
5 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Content
Combining, Capacity and Coverage
Categories and Rules of Configuration
Radio connection principles and terms
Configuration Options
RP3 capacity
Example of Configuration
Flexi Multiradio Co-Siting
Configuration Options
RP3 capacity
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Combining, Capacity and Coverage
7 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Combining, Capacity and Coverage (1/3)
• RM 60W max/TRX object, min 1 TRX object or 3G carrier/pipe
• RRH 40W max/TRX object, min 1 TRX object or 3G carrier/pipe
• With IDD doubled nominally the TRX object power level.
High coverage
• RM 10W min/TRX object, max 6 TRXobjects or 3/4 3G carriers/pipe
• RRH 6.67W min/TRx object, max 6 TRX objects or 3/4 3G carriers/pipe
• 3x3G carriers fit in 850 and 900 band and for 1800 band 4 carriers fit into one RM pipe
High Capacity
• Use RMs or RRHs with IDD.
• If the BTS is not having remote islands, the frequencies consumption is high. Likely going for dual band within 2G (900 & 1800) and separately within 3G (900 & 2100).
• If remote islands are included the headcount of FR modules may be very high
High capacity & coverage simultaneously
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Combining, Capacity and Coverage (2/3)
• Use only RRHs Low capacity & coverage simultaneously
• RM & RRH DL gain is nominally 2…3dB at mobiles.
• The uplink gain is unavailable unless configured in the same time 4UD. IDD is easy to build with RRH as it has 2 antenna interfaces and antenna optimized configuration as HW support.
Combining IDD Feature
• Later than ME1 (EX3.1), used external summing device to further boost Tx output power. Performance gain is max 2.5 dB
Combining DPTRX Feature
9 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Combining, Capacity and Coverage (3/3)
• Here the cumulative Tx power level can in theory exceed the FR power budget , but it is restricted by cumulative means once an active connection is requested by BSC to increase DL power and it is approaching BCCH power level (that is 0 = max).
• This feature has following limitations: for RMs and RRHs, only for 2G in a pipe of RM/RRH, at least 3 TRX objects reside in one pipe. The intention is to get more power for weaker CS/PS connections and still retain fairly big capacity.
• The HW limits the summary power level to 60W RM/40W RRH on each timeslot, but in average the further and weaker mobiles can still be heard and in case of rare Tx compression the mobiles will suffer of worse DL quality, but still be heard.
Dynamic Power Sharing
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Categories and Rules of Configuration Overview
• Main configuration rule is: – support for 36 TRXs of 2G carriers and that can be deployed to max 12
sectors having max 16 TRX objects.
– 2G has no configuration limitations with sharing.
– 3G cells count is max 3 and with 6 carriers in one RM when shared.
– Without sharing it is 9 for low bands and 12 for high bands.
– The limitation comes from frequency budget
• Currently in ME1 (EX3.1), RP3 topology does not support duplicated links, loops, star connections, redundancy, nor recovery
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Categories and Rules of ConfigurationConfiguration categories
• These configurations are defined in Product definition and recommended for customers and are mandatory to be tested by NSN.
• Promoted for testing both extremes: min capacity config with max coverage and max capacity config resulted with min coverage.
• Principally the performance of these configurations is optimal
Mandatory (=M) configurations
• The configurations are supported but the performance of these configurations may not be optimal
Supported (=S) configurations
• Configuration is inefficient e.g. 3 RMs antenna optimized where each RM pipes belong to only one sector at a time.
• A chain of 2 or 3 FRs and the earlier in chain FR is undefined in SCF, but the later FR is defined in SCF.
Not supported (=NS) configurations
• Example extension FSM used in shared configuration in ME1
Invalid (=I) configurations
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Categories and Rules of Configuration
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Categories and Rules of Configuration Mandatory Configuration
• 1…4 RMs and RRHs
• Max 1 shared RM and RRH
• 10, 20, 40W Tx power level with RM; 6.7, 10, 20, 40W with RRH
• 1+1+1…6+6+6/1 RM, 2+2+2…12+12+12/2 RMs and RRHs (with all hopping modes)
• All configurations specified in marketing material
• When shared with 3G, 3G must be sync master and 2G must be sync slave
• 1 dedi & 1 shared RM, max BB hopping 6+6+6 (applies also to ANT hopping)
• Antenna optimized config with 2…4 RMs
• 900 & 1800 dual band
• <= 6 sectors
• Remote islands: 200m, 2km and max 2 of them included by chaining up to 3 RMs or RRHs
• E1/T1 based transport is separated for 2G and 3G sharing
• Ethernet based is combined for 2G and 3G sharing
• Combination of this listAll testing is done
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Categories and Rules of Configuration Supported Configuration
• 1UD, IDD with 2UD, IDD with 4UD with RM; 1UD with RRH• 15, 30, 60W Tx power level with RM; 8, 13.3W with RRH• 5...6 RMs and RRHs• 2 shared RMs and RRHs• When shared with 3G simulated 3G can be sync slave and 2G must be sync master• MOBSS, EDGE license optimization• dual band with any TRXs belonging to any band, but only 2 bands together• Max 12 sectors• Remote islands: <=20km and max 3 of them• SW invisible built co-siting configuration (where Rx gains are customized)• To guarantee future proofness, when shared 2G is sync master • Combination of this list
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Categories and Rules of Configuration Not Supported Configuration
• 7…12 RMs or RRHs• 3 shared RMs or RRHs• BB hopping among 2 shared RMs or above 6+6+6 configuration• Remote islands: <=40km and max 3 of them• Sync slave, but also link master for shared RM or RRH• Sync master, but also link slave for shared RM or RRH• 4UD & IDD, 2UD & IDD with RRH
No SW/system testing is done
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Categories and Rules of ConfigurationModules, Cabling configuration Rules and exceptions (1/6)
I. 1UD, 2UD Rx configurations can be used with normal TRXs
II. 4UD configurations can only be used with IDD. IDD also accepts 2UD. 4UD is antenna optimized configuration when 2 or more TRXs configured to IDD, but other pipe carrying aux Tx and 2nd and 3rd Rx diversity does not have to be specified to have any operational capacity for any TRX object. The Tx aux is located in another pipe than Tx main. The frequency budget must now fit to the used pipes in IDD & 2UD or IDD & 4UD. In shared case, in antenna optimized configuration, the associated FRs needs to have same SM as radio master.
III. Unspecified configurations (not specified in this doc) may also be supported, but not tested. These configurations are discouraged and BTS SW may find broken / operation degraded alarms on them and the performance can be poorer than nominal performance and TRX test may not work.
IV. Any RP3-01 port of any module (RM, RRH, ESMx) can be used to interconnect to peer module (RM) when SCF file has such defined. 3G FSM is excluded from this rule. 3G BTS in RU20 supports only usage of ports1&2.
V. Only 1 pcs of RP3-01 links from ESMx are supported at a time to one RM in ME1 (EX3.1) release (not supported dependent capacity RP3-01 link to same RM).
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Categories and Rules of ConfigurationModules, Cabling configuration Rules and exceptions (2/6)
VI. Any power connector of ESMx or FSM can be used to provide the power supply to FR module. In addition, the FR can also be power fed by external power supply (applies typically in remote island cases).
VII. No RF cables (including Co-Siting or cross-feeding RF cabling) can be autodetected. With RM and for external antenna connectors belonging to same sector, any of external antenna connectors can be used to feed out the Rx diversity signal with other BTS. The Rx diversity coming from other BTS must be fed into Rx diversity connector. Cross-feeding, once configured, is typically taken from neighbour RM, but can also be taken from the same RM. No active SW support possible except SCF’s custom Rx gain setting. Note that cross-feeding is visible in SCF file so that it is counted as additional antenna. If cross-fed between 2 RMs with antenna optimized configuration, still defined in SCf file 4 antennas.
VIII. RM and RRH can not be used simultaneously in same sector. Then RRH is ignored. However both IDD and normal TRX objects can be used in same sector.
IX. Any TRX object numbers can be allocated on any FR pipes except on FR on SM’s port4 that can only have TRX objects 1…18 allocated.
X. Maximum of two RM modules can be installed on one casing for pole or wall configurations.
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Categories and Rules of ConfigurationModules, Cabling configuration Rules and exceptions (3/6)
XI. MOBSS or EDGE license (will be built looking like MOBSS) optimized configurations are based on having 2 artifically split sectors using the same Tx and Rx antennas. That can only be built with SCF configuration having more than 1 sector sharing the same antennas and it can be resolved when TRX objects belonging to 2 different sectors are mapped to same antennas.
XII. RP3 link modulo per each RP3 link shall be used as per which technology is present standalone or which technologies are shared as per following table:
Technology /bandwidth
Modulo
Consumed indexes/capacity
2G standalone 4 1 for 11 TRXs (to fit max 36 TRXs in one RP3-01)
3G standalone 16 2 indexes for 1 carrier
2G & 3G together 16 2 for 1 3G carrier, 1 for 2G 2 TRXs
LTE/20MHz 2 2 for LTE carrier
LTE/15MHz 8 6 for LTE carrier (made actually 3 x 5MHz)
LTE/10MHz 4 2 for LTE carrier, MIMO doubles capacity
LTE/5MHz 8 2 for LTE carrier, MIMO doubles capacity
LTE/3MHz 16 2 for LTE carrier
LTE/1.4MHz 32 2 for LTE carrier
LTE/10MHz & 2G 4 2 for LTE carrier, 1 for 11 TRXs
LTE/5MHz & 2G 8 2 for LTE carrier, 1 for 5 TRXs
LTE/3MHz & 2G 16 2 for LTE carrier, 1 for 2 TRXs
LTE/1.4MHz & 2G 32 2 for LTE carrier, 1 for 1 TRXs
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Categories and Rules of ConfigurationModules, Cabling configuration Rules and exceptions (4/6)
XIII. ME1 (EX3.1) nor RU20 do not support 3G extension FSM in shared configurations.
XIV. ESMx, FSM, RM and RRH modules follow connector numbering notation from left to right, but for antenna connectors right to left [NOTE: When observed in front of the front panel]. Furthermore, the antennas have flat numbering (RM:1…6 and RRH:1…2) without distinguishing is the antenna dual duplexed Tx & Rx or Rx diversity only. For RM, the Rx diversity to other BTS is fed from ext Rx connector per pipe (this is co-siting, not cross-feeding).
XV. Asymmetrical configurations are supported without any limitations. They may also have different BC(C)H power levels. In 3G the asymmetric configurations (like 2+1+2) will be converted to next equal configuration (becomes 2+2+2) for internal 3G capacity allocations.
XVI. FSM towards ESMx sync cabling shall be taken from RP3 ext1 connector of FSM.
XVII.When 2G TRX objects are defined, the first/only defined object number must reside within range 1…18. If specified TRX object number(s) 19…36 and ESMB (with 18 TRX objects capacity only) exists, those TRX objects will never become functional.
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Categories and Rules of ConfigurationModules, Cabling configuration Rules and exceptions (5/6)
XVIII.2G dedicated or shared configuration will be terminated for 2G at each FR’s MAIA ASIC based on sector to antenna(s) mapping configuration (retrievable from SCF and BTS_CONF_DATA).
XIX. Synchronization master SM defines the Air interface timing and respective FCB shall feed to its dedicated and shared FRs. Synchronization slave SM indirectly forwards the FCB received from synchronization master to its dedicated FRs. Ethernet link follows the FCB.
XX. Sync master SM – sync slave SM RP3-01 connection must have minimized and always known length due to minimize extra timing compensation to shared FRs. Therefore FSFO Flexi System Fibre HF 2M 471851A cable shall only be used.
XXI. ESMx and flexi multiradio BTS is always incompliant with 3G HW release 1. FR and FSM HW release V2.1 or newer must however be compliant with FR HW release 2.
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Categories and Rules of ConfigurationModules, Cabling configuration Rules and exceptions (5/7)
XXII.Max supported 72 antennas: with 6 sectors 6 antennas each, with 12 sectors 3 antennas each. Tested with 36 antennas. Note: not tested 9 sectors where each sector is having 4 antennas.
XXIII.One sector having some pipes normal and some other pipes antenna optimized is untested.
XXIV.At RP3 nodes autodetection all payload slots are marked for control usage.
XXV.<empty>
XXVI.MHA or any other antenna line device capable that is shared between 2 FR:s must not have different technology as radio masters. Rationale: The recovery and alarms handling would become unspecified.
XXVII.Pipes of Remote islands of more than 200 meters distance can not reside in same sector. The mobiles start have issues with incorrect radio propagation delays.
XXVIII.The 2G technology Air interface timing must be aligned according to legacy BTS products, like 2G ultrasite and FlexiEDGE BTSs so that unified Air interface timing is possible. Then common BCCH and multi BCF features can work.
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Medusa HW ConfigurationRadio Frequency Types
Abbreviation Product name DL bw UL bwFXDA Flexi RF Module Triple 900 20MHz 20MHz
FXDJ Flexi RF Module Triple 900, J-band 12.5MHz 12.5MHz
FXEA Flexi RF Module Triple 1800 20MHz 30MHz
FXCA Flexi RF Module Triple 850 15MHz 15MHz
FXFA Flexi RF Module Triple 1900 20MHz 20MHz
FHDA Flexi RRH 40+40W 900 25MHz 35MHz
FHEA Flexi RRH 40+40W 1800 25MHz 40MHz
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Radio connection principles and terms
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Radio connection principles
Dedicated mode Radio Sharing
System Module chaining Dedicated and shared chained radios
Dedicated and shared radio
ESMB/C
FSMx
RM/RRH
RM/RRH
RM/RRH
FSMx
RM/RRH
RM/RRH
ESMB/Csync
FSMx
RM/RRHsync
ESMB/C
FSMx RM/RRH
FSMEXT
ESMB/C
FSMx
RM/RRH
FSMEXT
ESMB/C
FSMx
RM/RRH RM/RRH RM/RRH
RM/RRH RM/RRH RM/RRH
RM/RRH RM/RRH RM/RRHsync
ESMB/C
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Radio connection principles Configuration options
1. 3-pipe vs. RRH configuration
2. Single vs. multiple connections between System and Radio Modules
3. Chained Radio Modules (more than 1 RM behind a link)
4. 3 Gbit/s vs. 6 Gbit/s RP3-01 link
5. Multiradio vs. single radio technology configuration
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Radio connection principlesRP3 capacity
See the attached calculations:
• The capacity critical cases are the Multiradio configurations with wide LTE bandwidth– A separate RP3-01 from both 2G and LTE System Modules to the 3-pipe
Module is proposed.
– For higher LTE capacity cases (e.g chaining and LTE Uplink diversity), 6 Gbit/s RP3-01 is proposed
• Single fiber RP3-01 Multiradio connections are capacity limited
Microsoft Excel Worksheet
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• Up to 18 GSM TRX; 3 sector support; 3x 60W@antennaconnector
• Flexible capacity increase from small to very large configurations– Up to 6 cells with 1-12 TRX/cell; Up to 36 TRX per BTS (BCF)
– Up to 108TRX (36+36+36) in one sits using Multi BCF/common BCCH
• Very High capacity sites possible without any cabinets
• Antenna Optimized Configurations
• Frequency bands
– GSM 850, 900,1800, 1900
– Single and Dual Band Configurations
Min GSM configuration6/6/6, 2 modules
Max GSM configuration (Multi BCF) up to
36/36/36, 9 modulesMax GSM configuration/BCF
36 TRX, 3 modules
FXxA
ESMB ESMC
FXxA
FXxA
ESMC
FXxA
FXxA
ESMC
FXxA
FXxA
ESMC
FXxA
FXxA
Radio connection principles Flexi Multiradio BTS: from small to large GSM configurations
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Radio connection principlesOptical RP3 01 interfacing between SM and RFM
Single RM
GSM SM RFM 900/1800
2 Chained* RMs, Single/Dual Band
GSM SM RFM 900/1800
RFM 900/1800
2 unchained RMs, Single/Dual Band
GSM SM
RFM 900/1800
RFM 900/1800
OBSAI
*Single Technology Chained configurations will be supported with the first Multiradio Maintenance Release (LE P1 2010)
• Optical OBSAI RP3 01 interface between System Module and RF Module/RRH
• Several RF Modules can be simultaneously connected to GSM System Modules in the Base Station
• The Radios can be in the same or different bands
• Radio Connections options– Separate RP3 01 connections to the system modules (up
to 4 RF Modules can be connected to the system Module
– Chained* radios (Up to 3 Radios can be chained together in one chain)
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Radio connection principlesOptical RP3 01 interfacing between SM and RFM
4 unchained RM, Single Band
GSM SM
RFM
RFM
RFM
RFM
4 unchained RM, Dual Band
GSM SM
RFM 900/1800
RFM 900/1800
RFM 900/1800
RFM 900/1800
• 2 RM in GSM 900 and 2 in 1800
• 3 RMs in 1800 and 1 in 900
• 3 RMs in 900 and 1 in RM in 1800
3 Chained* RMs, Single/Dual Band
GSM SM RFM 900/1800
RFM 900/1800
RFM 900/1800
GSM SM
RFM 900/1800
RFM 900/1800
RFM 900/1800
3 unchained RMs, Single/Dual Band
*Single Technology Chained configurations will be supported with the first Multiradio Maintenance Release (LE P1 2010)
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Radio connection principlesOptical RP3 01 interfacing between SM and RRH
3 Chained* RRH
GSM SM RRH 900/1800
RRH 900/1800
RRH 900/1800
GSM SM
RRH 900/1800
RRH 900/1800
RRH 900/1800
3 unchained RRH
Single sector
GSM SM RRHOBSAI
*Single Technology Chained configurations will be supported with the first Multiradio Maintenance Release (LE P1 2011)
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RF Configuration
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RF Configuration RF Configurations with single RF Module X
X
X
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM
RXMC
RXMC
RXMC
Cross polarized antennas
• Up to 666 with 1 Radio Module
• 2 way diversity, 6 antenna ports/module
• 1 x Pol antenna per sector
• Output Power
• 1/1/1 @ 60W per TRX
• 2/2/2 @ 30W per TRX
• 3/3/3 @ 20W per TRX
• 4/4/4 @ 15W per TRX
• 6/6/6 @ 10W per TRX
RP3
Note: Asymmetric powers per TRX are also supported e.g, 4/4/4 with BCCH and 1 TCH TRX@20W and other 2 TCH TRXs@10Weach
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RF Configuration Single band RF Configurations with 2 RF Modules (one sector shown)
• Chained or unchained RMs
• 1 x Pol antenna per sector**
• Output Power
• 2/2/2 @ 60W per TRX
• 4/4/4 @ 30W per TRX
• 6/6/6 @ 20W per TRX
• 8/8/8* @ 15W per TRX
• 12/12/12* @ 10W per TRX
X
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM1
RXMC
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM2
RXMC
* With ESMC
**Both the branches must be tuned to the same RF Frequency Range
Antenna Optimized Configuration
- The sectors are spread over 2 RMs to allow maximum availability
- If one RM becomes unavailable, the total traffic gets reduced and RX Diversity would be lost
RP3
RP3
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RF Configuration Single Band RF Configurations with 3 RF Modules (one sector shown)
• Chained or unchained RMs
• Antenna optimized**
• 3 antenna Lines per sector
• Output Power
• 3/3/3 @ 60W per TRX
• 6/6/6 @ 30W per TRX
• 12/12/12* @ 15W per TRX
X
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM1
RXMC
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM2
RXMC
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM3
RXMC
* With ESMC
**All the branches must be tuned to the same RF Frequency Range
RM1 Rx
RM2 DRX
RM2 Rx
RM3 DRX
RM3 Rx
RM1 DRX
Antenna Optimized Configuration
• The sectors are spread over 3 RMs to allow maximum availability
• If one RM becomes unavailable, the traffic capacity would decrease and RX Diversity would be lost for 1 RM
RP3
RP3
RP3
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RF Configuration Single Band RF Configurations with 4 RF Modules (one sector shown)
• 4 Unchained RMs
• Antenna Optimized
• 2 x Pol antenna per sector**
• Output Power
• 4/4/4 @ 60W/TRX
• 8/8/8 @ 30W/TRX
• 12/12/12* @ 20W/TRX
XLNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM1
RXMC
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM2
RXMC
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM3
RXMC
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM4
RXMC
X
RP3
RP3
RP3
RP3
* With ESMC
**All the branches must be tuned to the same RF Frequency Range
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X
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM1
RXMC
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM2
RXMC
RFM 1800
RFM 900
X
RF Configuration Dual band RF Configurations with 2 RF Modules (one sector shown)
• Chained or Unchained RMs
• 2x Pol antenna per sector
• GSM 900: Up to 6/6/6@10W/TRX
• GSM 1800: Up to 6/6/6@10W/TRX
RP3
RP3
Flexible o/p power/TRX enables different combinations of Macro cell 900 and Micro cell 1800
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RF Configuration Dual Band RF Configurations with 3 RF Modules (one sector shown)
• Chained or Unchained RMs
• Mixed: Normal and Antenna Optimized
• 2 x Pol antenna per sector*
GSM 900 GSM 1800
4/4/4@30W/TRX 2/2/2@30W/TRX
6/6/6@20W/TRX 3/3/3@20W/TRX
8/8/8@15W/TRX 4/4/4@15W/TRX
X
LNA
LNAD
up
lexerR
X
MCPATX
RX main
RX div
RM1
RXMC
Cross polarized antennas
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM2
RXMC
With 2xESMB (Cositing) or 1x ESMC for >18 TRX
*Both the branches must be tuned to the same RF Frequency Range
RFM 900/1800
RFM 900/1800
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM3
RXMC
X
RFM 900/1800
RP3
RP3
RP3
# #
# or vice versa
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RF Configuration Dual Band RF Configurations with 4 RF Modules (one sector shown)
• 4 Unchained RMs
• Antenna Optimized
• 2 x Pol antenna per sector*
• GSM 900: up to 6/6/6@20W/TRX
• GSM 1800: up to 6/6/6@20W/TRX
XLNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM1
RXMC
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM2
RXMC
RFM 900
RFM 900
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM3
RXMCRFM 1800
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM4
RXMC
X
RFM 1800
*Both the branches in each band must be tuned to the same Rx Frequency Range
RP3
RP3
RP3
RP3
Flexible o/p power/TRX enables different combinations of Macro cell 900 and Micro cell 1800
41 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
RF Configuration Dual Band RF Configurations with 4 RF Modules (one sector shown)
• 4 Unchained RMs
• Antenna Optimized
• 5 antenna lines per sector*
• Output Power 30W/TRX
• GSM 900 6/6/6, GSM 1800 2/2/2, or
• GSM 1800 6/6/6, GSM 900 2/2/2
XLNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM1
RXMC
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM2
RXMC
RFM 900
RFM 900
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM3
RXMCRFM 900
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM4
RXMC
X
RFM 1800
*Both the branches in each band must be tuned to the same Rx Frequency Range
RP3
RP3
RP3
RP3
X
42 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
RF Configuration Most Compact and unique 6 sector GSM siteUp to 25% less sites for same coverage area as for 3 sectors
• Flexi Multiradio BTS Feeder less Site
• 1 System Module and 2 RF modules
• 6 Sectors (up to 6TRX each)
• Less than 70Kg
• Power consumption 1080W (6 x 6, 40% load)
• 25% lesser sites when compared to 3 sector solution
• Deployment with Bi-sector Array antennas
– 4 port antenna
– Two “6 sector” antennas in common Radome
– Small adjacent sector overlap and asymmetrical pattern reduce interference
– Fits into the existing frequency plan for BCCH and TCH
Conventional Multi-Sector TenXC Bi-Sector Array
43 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
RF Configuration RRH single sector configuration
X
LNAD
up
lexer
MCPATX
RX main
LNA
Du
plexer
MCPATX
RX main
RRH
Optical RP3
MCPA1 MCPA2 RRH unit
GSM
Dedicated Mode
1TRX@40W/TRX
2TRX@20W/TRX
3TRX@13W/TRX
4TRX@10W/TRX
5TRX@8W/TRX
6TRX@6W/TRX
1TRX@40W/TRX
2TRX@20W/TRX
3TRX@13W/TRX
4TRX@10W/TRX
5TRX@8W/TRX
6TRX@6W/TRX
2TRX@40W/TRX
4TRX@20W/TRX
6TRX@13W/TRX
8TRX@10W/TRX
10TRX@8W/TRX
12TRX@6W/TRX
Flexi RRH 2TX 900 and 1800
Flexible RRH configurations• Dual Duplexer to enable MIMO and 2-
way diversity schemes for 1 sector (2 antenna ports / module)
Up to 6+6 MIMO or 12 with 1 RRH• Capacity extensions with chaining12+12+12 with 3 RRH• Cost optimized for 1 sector MIMO
configurations
Configurations:• Minimum: up to 6+6 MIMO (1
module)• Maximum: up to 12+12+12 (3 RRH)• With these power steps:
• 1 TRX * 40W (2 ant/sect)• 2 TRX * 20W (2 ant/sect)• 3 TRX * 13.3W (2 ant/sect)• 4 TRX * 10W (2 ant/sect)• 5 TRX * 8W (2 ant/sect)• 6 TRX * 6.7W (2 ant/sect)
44 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
RF Configuration Single band RF ConfigurationsExample: 3 chained RRH at different Locations
X
LNA
Du
plexer
MCPATX
RX main
LNAD
up
lexer
MCPATX
RX main
RRH1
Suitable for remote islands
1x Pol antenna per sector
Output Power:
22/2@ 40W per TRX
4/4/4@ 20W per TRX
6/6/6@ 13W per TRX
8/8/8@ 10W per TRX
10/10/10@ 8W per TRX
12/2/12@ 6W per TRX
RP3
LNA
Du
plexer
MCPATX
RX main
LNA
Du
plexer
MCPATX
RX main
RRH2
LNA
Du
plexer
MCPATX
RX main
LNA
Du
plexer
MCPATX
RX main
RRH3
X
X
RP3
RP3
GSM SM
Remote Sector 1
Remote Sector 2
Remote Sector 3
45 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
RF Configuration Antenna Optimized ConfigurationExample: 3 RRH on Common Pole or Mast Top
LNA
Du
plexer
MCPATX
RX main
LNAD
up
lexerMCPATX
RX main
RRH1
• Suitable for co located sectors
• 1x Pol antenna per sector
• One sector is spread over two RRHs
• Allows High Redundancy
• Failure of one RRH does not result in total Failure of any sector.
RP3
LNA
Du
plexer
MCPATX
RX main
LNA
Du
plexer
MCPATX
RX main
RRH2
LNA
Du
plexer
MCPATX
RX main
LNA
Du
plexer
MCPATX
RX main
RRH3
RP3
RP3
Sector 1
Sector 1
Sector 2
Sector 2
Sector 3
Sector 3
46 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
RF Configuration Common Sector Configuration
# of carriers (2G-3G) Max Tx Power Antenna optimized # of RF branches (pipes)
# of antennas
1 60 No 1 1 or 2
2 30 No 1 1 or 2
3 20 No 1 1 or 2
4 15 No 1 1 or 2
6 10 No 1 1 or 2
2 60 Yes 2 2
4 30 Yes 2 2
6 20 Yes 2 2
8 15 Yes 2 2 or 4
12 10 Yes 2 2 or 4
6 30 Yes 3 2 or 4
1 (2G) – 1 (3G) 40 – 20 No 1 1 or 2
20 – 40
2 (2G) – 1 (3G) 20 – 20 No 1 1 or 2
10 – 40
3 (3G) – 1 (3G) 10 – 30 No 1 1 or 2
2 (2G) – 1 (3G) 20 – 40 Yes 2 2 or 4
4 (2G) – 2 (3G) 20 – 20 Yes 2 2 or 4
1 IDD 60 Yes 2 or 4 2
2 IDD 60 Yes 2 or 4 2
4 IDD 30 Yes 2 or 4 4
1 IDD nad 2 non-IDD 30/30 Yes 2 2
47 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
RF Configuration Common configurations – Dedicated 2G Configuration
Configurations) # of FXxx # of ESMB/C # of FPAA *) **)
# of FPDA *) # antennas
Unchained RF
Module 1+1+1 up to6+6+6 2UD
1 1 2 1 6
Two chained RF
Modules 2+2+2 up to 12+12+12 2UD
2 1 3 2 12
Three chained RF
Modules 3+3+3 up to 12+12+12 2UD
3 1 4 2 18
Two unchained RF
Modules 2+2+2 up to 12+12+12 2UD
2 1 3 2 12
Three unchained RF
Modules 3+3+3 up to 12+12+12 2UD
3 1 4 2 18
Four unchained RF
Modules 4+4+4 up to 12+12+12 2UD
4 1 5 3 ***) 24
*) Optional depending on the external power source. The number of power modules is based on maximum power consumption and does not account for redundancy.
**) One FPMA supports up to four FPAAs. FPBAs may also be installed in the FPMA.
***) An FSEC is also required since a maximum of two FPDAs can be installed in parallel for each System Module.
48 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
RF ConfigurationCommon configurations – Antenna Optimized
Configurations) # of FXxx # of ESMB/C
# of FPAA *) **)
# of FPDA *)
# antennas
One RF Module
antenna optimised 2
up to 12 OMNI 2UD
1 1 2 1 12
Two chained RF
Modules antenna optimised
2+2+2 up
to 12+12+12 2UD
2 1 3 2 12
Three chained RF
Modules antenna optimised
3+3+3 up
to 12+12+12 2UD
3 1 4 2 18
*) Optional depending on the external power source. The number of power modules is based on maximum power consumption and does not account for redundancy.
**) One FPMA supports up to four FPAAs. FPBAs may also be installed in the FPMA.
49 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
RF Configuration Antenna Sharing with GSM/WCDMAConcurrent/Non concurrent mode
X
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM1
RXMC
LNA
LNA
Du
plexer
RX
MCPATX
RX main
RX div
RM2
RXMCRP3
RP3
GSM
WCDMA
RP3
Non Concurrent Mode
RM1: GSM Mode
RM2: WCDMA Mode
Concurrent Mode
RM1/RM2: GSM/WCDMA
50 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
RF Configuration 2+2+2 Flexi EDGE extension to 4+4+4 with RFM(one sector shown)
51 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
RF Configuration Outdoor cabinet configurations
GSM 12+12+12& 3G/LTE
Full cabinet
RFM
ESM
RFM
RFM
ESM
RFM
RFM
RFM
FSM
RFM
basic
ESM
RFM
FSM
ESM
RFM
FSM
RFM
RFM
RFM
E
S
M
GSM 12+12+12& 3G/LTE
Full cabinet
RFM
ESM
RFM
RFM
ESM
RFM
RFM
RFM
FSM
RFM
basic
ESM
RFM
FSM
ESM
RFM
FSM
RFM
RFM
RFM
E
S
M
52 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
RF Configuration Indoor cabinet configurations
53 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Example of Configuration
54 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Example of Configuration Dedicated 2G Configuration – 1+1+1 up to 6+6+6 2UD with 1 unchained RF Module
• 1 System Module (ESMB/C) • 1 RF Module (FXxx)
PWR 1
PWR IN
OPT 1
OPT 1
FXxx
ESMB/C
55 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Example of Configuration Dedicated 2G Configuration – 2+2+2 up to 12+12+12 2UD with two chained RF Modules
• 1 System Module (ESMB/C) • 2 RF Modules (FXxx)
PWR 1
PWR IN
OPT 1
OPT 1
OPT 2
OPT 1PWR IN
FXxx
ESMB/C
FXxx
56 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Example of Configuration Dedicated 2G Configuration – 3+3+3 up to 12+12+12 2UD configuration with three chained RF Modules• 1 System Module (ESMB/C) • 3 RF Modules (FXxx)
PWR 1PWR IN
OPT 1
OPT 1
OPT 2
OPT 1PWR IN
FXxx
ESMB/C
FXxx
PWR 2
PWR 3
PWR IN
PWR IN
OPT 1
OPT 2
FXxx
OPT 1
OPT 2
OPT 1
57 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Example of Configuration Dedicated 2G Configuration – 2+2+2 up to 12+12+12 2UD configuration with two unchained RF Modules
• 1 System Module (ESMB/C) • 2 RF Modules (FXxx)
PWR 1
PWR IN
OPT 1
OPT 1
OPT 2
OPT 1PWR IN
FXxx
ESMB/C
FXxx
58 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Example of Configuration Dedicated 2G Configuration – 3+3+3 up to 12+12+12 2UD configuration with three unchained RF Modules
• 1 System Module (ESMB/C) • 3 RF Modules (FXxx)
OPT 1PWR IN
PWR 1PWR IN
OPT 1
OPT 1
OPT 2
OPT 1PWR IN
FXxx
ESMB/C
FXxx
PWR 2
PWR 3
PWR IN
PWR IN
OPT 1
FXxx
OPT 1
OPT 1
OPT 1
OPT 1
59 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Example of Configuration Dedicated 2G Configuration – 4+4+4 up to 12+12+12 2UD configuration with four unchained RF Modules
• 1 System Module (ESMB/C) • 4 RF Modules (FXxx)
PWR 1PWR IN
OPT 1
OPT 1
OPT 2
FXxx
ESMB/C
FXxx
PWR 2
PWR 3
PWR INPWR IN
OPT 1
FXxx
OPT 1
OPT 1OPT 1
OPT 1
OPT 1
PWR IN
PWR 4
PWR IN
OPT 1
FXxx
60 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Example of Configuration Antenna-optimised configurations – 2 up to 12 OMNI 2UD antenna-optimised configuration with one RF Module
• 1 System Module (ESMB/C) • 1 RF Modules (FXxx)
PWR 1
PWR IN
OPT 1
OPT 1
FXxx
ESMB/C
61 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Example of Configuration Antenna-optimised configurations – 2+2+2 up to 12+12+12 2UD antenna-optimised configuration with two chained RF Modules• 1 System Module (ESMB/C) • 2 RF Modules (FXxx)
PWR 1
PWR IN
OPT 1
OPT 1
OPT 2
OPT 1PWR IN
FXxx
ESMB/C
FXxx
62 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Example of Configuration Antenna-optimised configurations – 3+3+3 up to 12+12+12 2UD antenna-optimised configuration with three chained RF Modules• 1 System Module (ESMB/C) • 3 RF Modules (FXxx)
OPT 1PWR IN
PWR 1PWR IN
OPT 1
OPT 1
OPT 2
OPT 1PWR IN
FXxx
ESMB/C
FXxx
PWR 2
PWR 3
PWR IN
PWR IN
FXxx
OPT 1
OPT 1
OPT 1
OPT 1OPT 2
OPT 1
OPT 2
64 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Example of Configuration Shared 2G and 3G with RF Modules – 2G 1+1+1 up to 5+5+5/3G 1+1+1 2UD configuration with one RF Module• 1 System Module (ESMB/C) • 2 RF Modules (FXxx) • 1 3G System Module (FSMx)
PWR 1
PWR 1
OPT 1
OPT 1
OPT EXT 1
OPT 1PWR IN
ESMB/C
FSMx
FXxx
OPT 4 PWR AUX
OPT 2
65 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Example of Configuration Concurrent dedicated (2G) and shared (2G and 3G) RF Modules – Concurrent dedicated configuration with 1+1+1 20W in 3G and 6+6+6 15W in 2G• 1 System Module (ESMB/C) • 2 RF Modules (FXxx) • 1 3G System Module (FSMx)
• 3G: 1+1+1 20W
• 2G: 6+6+6 15W
The maximum baseband hopping
configuration is limited to
6+6+6 and highest usable
number of TRXs is 18.
OPT 1PWR IN
PWR 1
ESMB/C
FSMx
FXxx
OPT 2
PWR 1
OPT 1
OPT 1OPT
EXT 1
OPT 4 PWR AUX
OPT 1
FXxx
66 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Example of Configuration IDD configurations – 2G 1+1+1 up to 2+2+2 IDD 2UD configuration with two unchained RF Modules• 1 System Module (ESMB/C) • 2 RF Modules (FXxx)
PWR 1
PWR IN
OPT 1
OPT 1
OPT 1PWR IN
FXxx
ESMB/C
FXxx
67 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Flexi Multiradio BTS GSM/EDGE Co-Siting
68 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Flexi Multiradio BTS GSM/EDGE Co-SitingCo-Siting with existing BTS Types• Flexi Multiradio BTS is a part of the Flexi platform
– Fully compatible with the Flexi casings, cabinets and conversion/installation kits
– Complies with the Flexi power modules and NSN power systems for Flexi
– Flexi EDGE transmission plug-in units can be used within the Flexi MR system module
– Compatible with the Flexi alarm extension modules (FSEB)
• Radio Module is compatible with:
– ESMx 2G System Module
– Rel’2 WCDMA System Module
– Flexi and Ultrasite antenna line
• Co-siting is supported with: UltraSite and Flexi System modules
– Co-siting with BTSplus is planned in RG20
69 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
• Flexi Multiradio can be used as an expansion BTS to existing Flexi EDGE and UltraSite BTSs and allows the operators to create an effective and flexible GSM / EDGE, WCDMA / HSPA, LTE site
• Multiradio Modules can be installed inside UltraSite cabinets in space-limited sites to expand GSM / EDGE capacity or to be stacked on top of existing Flexi EDGE BTS for capacity expansion and evolution to future technologies
• The BTS types are synchronized for seamless co-siting with Multi BCF / common BCCH
• Operator can flexibly migrate to WCDMA / LTE using the same RF Modules, antennas and feeders
• Transmission can be aggregated between the BTS types so as there is only one single connection to existing transmission equipment
Ultrasite 900
Flexi Multiradio 900 / 1800
Flexi EDGE 900
Flexi Multiradio 900 / 1800
Flexi Multiradio BTS GSM/EDGE Co-Siting Co-Siting with UltraSite BTS and / or Flexi EDGE BTS (RG10ED)
70 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Flexi Multiradio BTS GSM/EDGE Co-Siting Evolution from any legacy BTS Flexi LTE BTS co-siting
Migration
FeederCable
MHA/TMA
AntennaPanel
Legacy BTS
Option 1
Existing
or new Multiband
antenna
Legacy BTS
Flexi RF Module
Flexi System
Combining
Option 2
Existing
or new Multiband
antenna
Legacy BTS
Combining
Flexi RF Module
Flexi System
Option 3
Feeder Cable
MHA/TMA
ExistingAntenna
3 sectorRF
Module
Optical
New Antenna
Legacy BTS
Flexi System
Inside Legacy BTS
Existing
Stacked installation Rooftop
/Antenna Installations
71 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
• Sharing of RX diversity paths after LNA (Low Noise Amplifier)
Flexi Multiradio BTS
Flexi EDGE BTS
Flexi Multiradio BTS GSM/EDGE Co-Siting Co-Siting technique (1/3)
• GSM Sharing of RX diversity paths can be done with UltraSite and Flexi EDGE in case that they operate in the same frequency band
72 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
• Sharing of feeders using Diplexers▪ Sharing of feeders is done when both BTSs operate in different frequency bands or in case RX
diversity paths cannot be shared (3rd party BTS)
Flexi Multiradio BTS GSM/EDGE Co-Siting Co-Siting technique (2/3)
diplexers
73 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use
Flexi Multiradio BTS GSM/EDGE Co-SitingCo-Siting technique (3/3)
• Sharing of TX and RX antennas using Multi Radio Combiner (MRC)
▪ Sharing of TX and RX antennas using Multi Radio Combiner can be done with Flexi WCDMA release 1 BTS (both BTSs have to operate in the same frequency band).
*) MRC = multi radio combiner
MRC
74 © Nokia Siemens Networks Flexi Multiradio BTS GSM/EDGE / 090610For internal use