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485739211-3G-configuration-rules

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WCDMA RBS Configuration Rules
and Implications
Definitions
•
•
•
Band
B1
– Frequency band, e.g. 2100 MHz, 900 MHz
– Possible to support within IBW of one Radio Unit
– Denomination B1, B2, B3, etc.
B2
f1
Carrier
– One 5 MHz slot of the frequency band
– Denomination f1, f2, f3, etc.
f2
Cell-carrier
f1
– One carrier in one physical direction
•
f2
S1
Sector (Logical)
– Cell-carriers in the same frequency band directed in
the same physical direction – with or without MIMO
– Denomination S1, S2, S3, etc.
•
Sector (Physical)
S2
S3
S3
f1
f2
S1 S4
S2
– All logical sectors in the same physical direction
S6
S5
B1
B2
Configuration types
• Basic Configuration
– Configurations according to the original rules
• Advanced Configuration
– New alternative configurations
• Flexible Configuration
– Free mapping of carriers in RBS 6000
Configuration Roadmap
Í
RBS3000 & RBS6000
ÎÍ
Basic
ÎÍ
Advanced
Î
Flexible
3x2
Single Band
Up to
in 2 BB pools
3x2+3x2
Advanced
Up to 6x2
Up to
Dual Band
3x2+3x2
With
Dual Band
Single
with MC/EUL
RBS3000
Band
DUW in RBS3000
MC / EUL
Up to 1x4
3x2 + 3x2
6x2
3x3 + 3x1
in
with MIMO
Dual Band
One DUW
Up to 6x2
3+1+1+1
3x3/3x4
High Power
With MC
in
Up to
One DUW
2x3 + 2x3
Q3
12A
11B
2011
2010
Q4
Q1
Released
RBS6000
Single Band
1x3+1x1
11A
12A
with MC/EUL
13A
12B
2012
Q2
Q3
Ready for Contract
Q4
Indicative
Q1
Q2
Candidate
Q3
Q4
Q1
Q2
configurations rules
1. More than 3 sectors Î 6-sector or sub equipped 6-sector configuration.
2. More than 2 carriers in any sector = max 3-sectors to be used and requires use of
2 DUW.
3. More than 1 carrier in any sector and more than 3 sectors = use of 2 DUW.
4. One carrier shall not be splitted between DUWs, for ex. f1 shall be only handled by
DUW1 and f2 only by DUW2.
5. Dual Band shall always be seen as a 6-sector with or sub equipped 6-sector
configuration, i.e. at least one of sector 4, 5 or 6 is used. Maximum 2 carriers per
sector are allowed.
PrerequisiteS
One Baseband pool can handle 6 cell-carriers
In Dual Band configurations, sectors for the
frequency bands are counted separately
and then added together
(Logical sectors)
ConFig Rule 1
1. More than 3 sectors Î 6-sector or sub equipped 6-sector configuration.
Î No support of 4x2 or 6x2 in combination with Multi-Carrier
2. More than 2 carriers in any sector = max 3-sectors to be used and requires use of
2 DUW.
Î No support of 1xDUW 1x3, 1x4, 3+1+1+1, or 2xDUW 3+3+2+2 or 4+3+2+1
3. More than 1 carrier in any sector and more than 3 sectors = use of 2 DUW.
Î No support of 1xDUW 2+1+1+1, or 1xDUW 2x2 + 2x1
4. One carrier shall not be splitted between DUWs, for ex. f1 shall be only handled by
DUW1 and f2 only by DUW2.
Î No support of 4+1+4+3 (4+3 sector-carriers not possible to fit in to one DUW)
5. Dual Band shall always be seen as a 6-sector with or sub equipped 6-sector
configuration, i.e. at least one of sector 4, 5 or 6 is used. Maximum 2 carriers per
sector are allowed.
Î No support of 2xDUW 3x3 + 3x1 Dual band
Multi carrier (DC) – One RBS
node
3x2 DC
DualCarrierSector 1
DualCarrierSector 2
4x2 DC
DualCarrierSector 3
Carrier 1
4x2 are 8 CCs (more than 6) and would therefore need 2
BB-Pools, but:
Two cells forming a Dual CarrierSector must belong to the same
DCBB-Pool.
Carrier 2
Sectors:
3x2 are 6 CCs, ok with 1 BB-Pool
HSDPA Dual Carrier (as 3x2):
Supported in RBS 3000 since April 2010.
Supported in RBS 6000 since November 2010.
DC
CC
BB-Pool
...DualCarrier
...Cell-Carrier
...Baseband-Pool
The requirement
conflicts with a
Baseband-Poolconfiguration like this:
1
2
3
4
BB-Pool 1
BB-Pool 2
Within one carrier Softer HO
is assumed by RNC. Softer HO
must be handled within one BB
pool. Splitting a carrier to be
processed in two separate
baseband pools is therefore
not possible either
BB-Pool 1
BB-Pool 2
See next slide for interim solution for 4x2 sites
EUL – onE RBS NODE
3x2 EUL
Sector 1
Sector 2
4x2 EUL RBS 3000:
Sector 3
Carrier 1
Carrier 2
3x2 are 6 CCs, ok with 1 BB-Pool
6 CCs is the limit for 1 BB-Pool.
RBS 6000:
RBS 3000:
The dual BB pool configurations 4x2 (and 5x2, 6x2) are not EUL-supported by W10B
feature ’FAJ 121 1518, EUL for large RBS configurations’. The following restriction
applies:
The EUL supported dual BB-Pools configurations based on RAX/HS-TX and
DUW/XCU (DUW in RBS3000) baseband are: 3x3, 3x4.
Therefore, a BB-pool configuration
over 4 sectors like this is not possible
BB-Pool 1
with RBS 3000 including EUL
BB-Pool 2
support:
On the other hand, EUL Cell Carriers belonging to the same carrier cannot be
split on two basebands.
Therefore, BB-pool configurations like here below is not possible inside 1 RBS
3000:
Works on RBS 3000 and 6000.
BB-Pool 1
BB-Pool 2
BB-Pool 1
BB-Pool 2
RBS 6000:
The dual BB pool configurations 4x2 (and 5x2, 6x2) are EUL-supported by W10B
feature ’FAJ 121 1518, EUL for large RBS configurations’:
The EUL supported dual baseband pool configurations based on DUW/RUW
(RBS 6000) are: 3x3, 3x4, 6x2, 3x2+3x2 (dual band).
DC
CC
BB-Pool
...Dual Carrier
...Cell-Carrier
...Baseband-Pool
Therefore, a BB-pool configuration over
4 sectors like this is ok with RBS 6000
since 9th of Nov 2010:
BB-Pool 1
BB-Pool 2
& EUL
WITH two RBS NODES
4x2 by 2 logical RBSs
1st RBS for
DualCarrier- DualCarrierSector 1
Sector 2
2nd RBS for
DualCarrier- DualCarrierSector 4
Sector 3
Issues to consider with this solution:
• No increase of # of DUWs, compared to
1 RBS as 4x2 (2 BB-pools in total)
• 2nd DUW fits into same cabinet
• Softer HO only between sectors 1/2 and 3/4
• Soft HO between sectors 2/3 and 4/1
Carrier 1
• Transmission Handling: SIU required for
combining 2 Iubs from 2 logical RBSs
(otherwise 2 Iubs to RBS)
Carrier 2
Configure first RBS as 2x2 DC
Configure second RBS as 2x2 DC
• OSS
• Software features ordering/pricing (2 RBSs)
Dual Carrier (as 2x 2x2) by 2 logical RBSs:
DC
CC
BB-Pool
...DualCarrier
...Cell-Carrier
...Baseband-Pool
Support in RBS 3000 since April 2010.
Support in RBS 6000 since Jan 2011, W10B
See next slide for coming solution for 4x2 sites
& EUL
one RBS NODE as 2x2 + 2x2
4x2 by 2x2 + 2x2
One node configuration
DualCarrier- DualCarrierSector 2
Sector 1
DualCarrier- DualCarrierSector 3 & 4 Sector 4
Issues to consider with this solution:
• New cabling
• Softer HO only between sectors 1/2 and 3/4
• Soft HO between sectors 2/3 and 4/1
Carrier 1
• RNC SW impact
Carrier 2
• DC and EUL in both baseband pools
2x2 to first BB-pool with DC
2x2 to second BB-pool with DC
DC
CC
BB-Pool
...DualCarrier
...Cell-Carrier
...Baseband-Pool
Single-Band Dual-Carrier up to 6x2
by 3x2 + 3x2:
Advanced configuration
¾ RBS 3000 Candidate for W13
Flexible configuration
¾ RBS 6000 Candidate for W13
Configurations in RBS 3000/6000
Radio: 6x2
Radio: 6x2
SHO
SoHO
SoHO
(f1), 6x1
+
IFHO
IFHO
(f2), 6x1
(f1+f2), 3x2 + (f1+f2), 3x2
6x2
Baseband: 6x2
Baseband: “2x 3x2”
6x2
ConFig Rule 2
1. More than 3 sectors Î 6-sector or sub equipped 6-sector configuration.
Î No support of 4x2 or 6x2 in combination with Multi-Carrier
2. More than 2 carriers in any sector = max 3-sectors to be used and requires use of 2
DUW.
Î No support of 1xDUW 1x3, 1x4, 3+1+1+1, or 2xDUW 3+3+2+2 or 4+3+2+1
3. More than 1 carrier in any sector and more than 3 sectors = use of 2 DUW.
Î No support of 1xDUW 2+1+1+1, or 1xDUW 2x2 + 2x1
4. One carrier shall not be splitted between DUWs, for ex. f1 shall be only handled by
DUW1 and f2 only by DUW2.
Î No support of 4+1+4+3 (4+3 sector-carriers not possible to fit in to one DUW)
5. Dual Band shall always be seen as a 6-sector with or sub equipped 6-sector
configuration, i.e. at least one of sector 4, 5 or 6 is used. Maximum 2 carriers per
sector are allowed.
Î No support of 2xDUW 3x3 + 3x1 Dual band
Current solution with one
DUW
2100MHz
2100MHz RRUW
900MHz
IP Iub
CPRI
900MHz RRUS
One BB pool can handle 6 cell-carriers
1x 1x 1x 1x 1x
0 1 2 3 4
1x
O O No No
-0
K K k k
1x O O O No No
1 K K K k k
O configuration
O O No
1xFlexible
for No
2 1xDUW
K Kfor up
K to 1x4:
k k
1x No No No No No
¾
3 RBSk6000kCandidate
k for
k W12B
k
More than 2 carriers in Sector
2+1+1+1
Sector 1
3+1+1+1
Sector 1
Sector 2 Sector 3 Sector 4
Carrier 1
Carrier 1
Carrier 2
Carrier 2
Sector 2 Sector 3 Sector 4
Carrier 3
RBS 3000 and 6000:
Although one Baseband pool can handle 6 Cell-Carriers the allocation is not
supported
Flexible configuration for
1xDUW for up to 3+1+1+1
DC
CC
BB-Pool
...DualCarrier
...Cell-Carrier
...Baseband-Pool
¾ RBS 6000 Candidate for W12B
ConFig Rule 3
1. More than 3 sectors Î 6-sector or sub equipped 6-sector configuration.
Î No support of 4x2 or 6x2 in combination with Multi-Carrier
2. More than 2 carriers in any sector = max 3-sectors to be used and requires use of 2
DUW.
Î No support of 1xDUW 1x3, 1x4, 3+1+1+1, or 2xDUW 3+3+2+2 or 4+3+2+1
3. More than 1 carrier in any sector and more than 3 sectors = use of 2 DUW.
Î No support of 1xDUW 2+1+1+1, or 1xDUW 2x2 + 2x1
4. One carrier shall not be splitted between DUWs, for ex. f1 shall be only handled by
DUW1 and f2 only by DUW2.
Î No support of 4+1+4+3 (4+3 sector-carriers not possible to fit in to one DUW)
5. Dual Band shall always be seen as a 6-sector with or sub equipped 6-sector
configuration, i.e. at least one of sector 4, 5 or 6 is used. Maximum 2 carriers per
sector are allowed.
Î No support of 2xDUW 3x3 + 3x1 Dual band
Current solution with one
DUW
2100MHz
2100MHz RRUW
900MHz
IP Iub
2x 2x 2x 2x
0 1 2 3
2x O O O No
0 K K K k
O configuration
O No for
No
2x
Flexible
1 1xDUW
K Kfor upk to: k
Dual Band
2x2x1O+ 2x2No
No No
2 K ork2x3 k k
¾ RBS 6000 Candidate for W12B
2x No No No No
3 k k k k
CPRI
900MHz RRUS
In Dual Band configurations,
sectors for the frequency bands are
counted separately
and then added together
(Logical sectors)
ConFig Rule 4
1. More than 3 sectors Î 6-sector or sub equipped 6-sector configuration.
Î No support of 4x2 or 6x2 in combination with Multi-Carrier
2. More than 2 carriers in any sector = max 3-sectors to be used and requires use of 2
DUW.
Î No support of 1xDUW 1x3, 1x4, 3+1+1+1, or 2xDUW 3+3+2+2 or 4+3+2+1
3. More than 1 carrier in any sector and more than 3 sectors = use of 2 DUW.
Î No support of 1xDUW 2+1+1+1, or 1xDUW 2x2 + 2x1
4. One carrier shall not be splitted between DUWs, for ex. f1 shall be only handled by
DUW1 and f2 only by DUW2.
Î No support of 4+1+4+3 (4+3 sector-carriers not possible to fit in to one DUW)
5. Dual Band shall always be seen as a 6-sector with or sub equipped 6-sector
configuration, i.e. at least one of sector 4, 5 or 6 is used. Maximum 2 carriers per
sector are allowed.
Î No support of 2xDUW 3x3 + 3x1 Dual band
Carriers can not be splitted
4+2+4
Sector 1
4+2+4+1
Sector 1
Sector 2 Sector 3 Sector 4
Carrier 1
Carrier 1
Carrier 2
Carrier 2
Sector 2 Sector 3 Sector 4
Carrier 3
Carrier 3
Carrier 4
Carrier 4
Flexible configuration:
¾ RBS 6000 Candidate for W12B
DC
...DualCarrier
CC
...Cell-Carrier
BB-Pool
...Baseband-Pool
4/10/2015
ConFig Rule 5
1. More than 3 sectors Î 6-sector or sub equipped 6-sector configuration.
Î No support of 4x2 or 6x2 in combination with Multi-Carrier
2. More than 2 carriers in any sector = max 3-sectors to be used and requires use of
2 DUW.
Î No support of 1xDUW 1x3, 1x4, 3+1+1+1, or 2xDUW 3+3+2+2 or 4+3+2+1
3. More than 1 carrier in any sector and more than 3 sectors = use of 2 DUW.
Î No support of 1xDUW 2+1+1+1, or 1xDUW 2x2 + 2x1
4. One carrier shall not be splitted between DUWs, for ex. f1 shall be only handled by
DUW1 and f2 only by DUW2.
Î No support of 4+1+4+3 (4+3 sector-carriers not possible to fit in to one DUW)
5. Dual Band shall always be seen as a 6-sector with or sub equipped 6-sector
configuration, i.e. at least one of sector 4, 5 or 6 is used. Maximum 2 carriers per
sector are allowed.
Î No support of 2xDUW 3x3 + 3x1 Dual band
rakesh bhayanaxzcxcx
DUAL Band configuration
(no MIMO) – Single node
3x2 + 3x1
3x3 + 3x1
2 DUW + 3 RUS2100 + 3 RUS850
1st
DUW
f1
f2
2100 f1
850 f3
f1
f2
1st
DUW
W2100 3x3 20+20+20 W
f1
f2
f3
W2100 3x2 20+20W
2100 f1
2100 f2
f1
f2
f3
f1
f2
f3
f1
f2
RBB12_1A
RBB12_1A
2100 f2
2nd
W850 3x1
20W
f3
DUW
2nd
DUW
2100 f3
850 f1
W850 3x1
20W
f4
f4
f3
f4
f3
DBB21_02
DBB21_02
RBB12_1A
RBB12_1A
f1 f2to consider with this solution:
Issues
• Multi-Carrier within band not supported
• EUL in 2 BB pools supported
¾
Advanced configuration:
Candidate for W12A
See next slide for interim 2 RBS Node solutions
DUAL Band configuration
(no MIMO) – Single node
3x3 + 3x1
1st
DUW
W2100 3x3 20+20+20 W
f1
f2
f3
2100 f1
2100 f2
f1
f2
f3
f1
f2
f3
RBB12_1A
2nd
DUW
2100 f3
850 f1
W850 3x1
20W
f4
f4
f4
DBB21_02
RBB12_1A
¾
Advanced configuration:
Candidate for W12A
Dual Band configuration
(no MIMO) – Two RBS nodes
3x3 + 3x1 Two nodes
3x3 + 3x1 Two nodes
2 DUW + 6 RUS2100 + 3 RUS850
3 DUW + 3 RUS2100 + 3 RUS850
f1
f2
f3
1st
DUW
W2100 3x3 20+20+20W
f1
f2
f3
1st
DUW
f1
f2
f3
f1
f2
W2100 3x2 20+20W
f1
f2
f1
f2
RBB12_1A
f3
2nd
DUW
W850 3x1
40W*
f4
f4
f3
2nd
DUW
f3
W2100 3x1
20W*
f4
DBB21_01
3rd
RBB12_1A
DUW
DBB21_01
*Output power according to license
f4
f4
f4
W850 3x1
40W*
Current solution with two duw
2100MHz
2100MHz RRUW
900MHz
IP Iub
1x 1x 1x 1x
1 2 3 4
1x O O O O
1 K K K K
1x O O O O
2 2x
K 2x
K 2x
K 2x
K
1 2 3 4
1x O O O O
2x
3 O
K O
K No
K No
K
1Flexible
K configuration
K k kfor
2xDUW for up to 2x3 + 2x3:
2x O O No No
2 K K k k
¾ RBS 6000 Candidate for W12B
2x No No No -
CPRI
IDL
2100MHz
900MHz RRUS
900MHz
Two BB pools can handle 12 cell-carriers
Rephrased ConFig Rule 5
1. More than 3 sectors Î 6-sector or sub equipped 6-sector configuration.
Î No support of 4x2 or 6x2 in combination with Multi-Carrier
2. More than 2 carriers in any sector = max 3-sectors to be used and requires use of
2 DUW.
Î No support of 1xDUW 1x3, 1x4, 3+1+1+1, or 2xDUW 3+3+2+2 or 4+3+2+1
3. More than 1 carrier in any sector and more than 3 sectors = use of 2 DUW.
Î No support of 1xDUW 2+1+1+1, or 1xDUW 2x2 + 2x1
4. One carrier shall not be splitted between DUWs, for ex. f1 shall be only handled by
DUW1 and f2 only by DUW2.
Î No support of 4+1+4+3 (4+3 sector-carriers not possible to fit in to one DUW)
5. Dual Band is always built up as separate sectors per band, i.e. 3x2+3x2 require use
of 6-sectors. Maximum 2 carriers per sector are allowed if more than 3-sectors are
used.
Î Support of 2xDUW 1x3 + 1x1 Dual band
Dual Band configuration
(no MIMO)
1x3 + 1x1
1x3 + 1x1
2 DUW + 1 RUS2100 + 1 RUS850
f1
f2
f3
1st
DUW
1 DUW + 1 RUS2100 + 1 RUS850
W2100 1x3 20+20+20W
f1
f2
f3
1st
DUW
W2100 1x3 20+20+20W
RBB12_1A
2nd
DUW
f4
W850 3x1 20W
f4
W850 3x1 20W
DBB21_01
¾
Basic configuration:
Support since P7.1.6
¾
Flexible configuration:
Candidate for W12B
Other configurations
1. 6x2 and 3x2 + 3x2 with MIMO
Î Support of 12 RU / RRUs
2. 3x2 and 3x1+3x1 Dual Band in 2 BB pools
Î For high power and high capacity
3. 3x2 + 3x2 Advanced configuration
Î Multi-Carrier within frequency band
4. 3x3 / 3x4 with Advanced Configuration
Î Solution for Multi-Carrier in f1 and f2 at upgrade to third carrier
5. 3x3 with High Power
Î Support of 3x3 with one (R)RU per carrier
6. 3x4 with High Power
#1: 6x2 with MIMO = 12
RU/RRU
Up to 6x2 Single band
Issues to consider with this solution:
MIMO
With
Basic Configuration
f1
• Multi-Carrier within band not supported
• EUL in 2 BB pools supported in RBS 6000
MIMO
f1
f2
f1
1st DUW
f1
f1
f1
MIMO
f1
MIMO
f1
MIMO
f2
2nd DUW
f2
f2
MIMO
f2
DBB21_01
f2
f2
f2
¾
RBB22_1A
Support in RBS 6000
from April 21, 2011 in
W10B Maintenance, W10.1.3.4
W11A Maintenance, W11.0.2.2
#2: 3x2
for High power & High Capacity
Up to 3x2 Single band
in 2 Baseband pools
Issues
f1 f2to consider with this solution:
f1
• Multi-Carrier not supported
• EUL in 2 BB pools supported
• More capacity per carrier
f2
1st DUW
f1
f1
f2
f1
f2
Advanced Configuration:
for up to 3x2 Single Band
in 2 baseband pools
RBB22_1A
2nd DUW
f2
DBB21_01
* For RBS 3000 with DUW or RAX/TX similar configuration support
¾
¾
Support in RBS 3000 RAX/TX
¾
W11A: W11.0.2.4, May 19, 2011
¾
W10B: W10.1.3.6, June 1, 2011
¾
W11B: W11.1.1.0, Nov 17, 2011
Support in RBS 6000 / 3000 with DUW
¾
W11A: W11.0.3.0, June 1, 2011
¾
W10B: W10.1.3.8, July 28, 2011
¾
W11B: W11.1.1.0, Nov 17, 2011
#2: 3x1+3x1 Dual Band
for High Capacity
Up to 3x1+3x1 Dual band
in 2 Baseband pools
Issues to consider with this solution:
MIMO
f1
f1
• Multi-Carrier Dual Band not supported
• EUL in 2 BB pools supported
• More capacity per band
MIMO
f1
1st DUW
B1, f1
f1
f2
f1
MIMO
f1
f1
MIMO
f1
f1
MIMO
2nd DUW
B2, f1
f1
f1
Advanced Configuration:
for up to 3x1+3x1 Dual Band
in 2 baseband pools
MIMO
DBB21_01
¾
f1
RBB22_1A
f1
¾
Support in RBS 3000 RAX/TX
¾
W11A: W11.0.2.4, May 19, 2011
¾
W10B: W10.1.3.6, June 1, 2011
¾
W11B: W11.1.1.0, Nov 17, 2011
Support in RBS 6000 / 3000 with DUW
¾
W11A: W11.0.3.0, June 1, 2011
¾
W10B: W10.1.3.8, July 28, 2011
¾
W11B: W11.1.1.0, Nov 17, 2011
#3: DUAL band 3x2 + 3x2,
one RBS NODE - Multi CARRIER
3x2 + 3x2
with
Advanced Configuration
3x2 + 3x2
with
Basic Configuration
2 DUW + 3 RUS2100 + 3 RUS850
2 DUW + 3 RUS2100 + 3 RUS850
1st
DUW
f1
f2
2100 f1
850 f1
W2100 3x2 20+20W
f1
f2
1st
f1
f2
DUW
RBB12_1A
2nd
DUW
2100 f2
850 f2
DBB21_01
W2100 3x2 20+20W
f1
f2
f1
f2
RBB12_1A
W850 3x2 20W+20W
f1
f2
2100 f1
2100 f2
f1
f2
f1
f2
2nd
DUW
f1
f2
RBB12_1A
Issues to consider with this solution:
f1 f2
• Multi-Carrier Dual Band supported
• Multi-Carrier within band not supported
• EUL in 2 BB pools supported in RBS 6000
850 f1
850 f2
DBB21_01
W850 3x2 20W+20W
f1
f2
f1
f2
f1
f2
RBB12_1A
Issues to consider with this solution:
f1 f2
• Multi-Carrier within band supported
• Multi-Carrier Dual Band not supported
• EUL in 2 BB pools supported in RBS 3000 & 6000
#3: DUAL band 3x2 + 3x2,
one RBS NODE - Multi CARRIER
Up to 3x2 + 3x2 Dual Band
MIMO
with
Basic Configuration
f1
f2
1st DUW
B1, f1
B2, f1
Issues to consider with this solution:
f1
• Multi-Carrier within band not supported
• Multi-Carrier Dual Band supported
• EUL in 2 BB pools supported in RBS 6000
MIMO
f1
f2
f1
f2
f2
f1
f2
MIMO
f1
f2
f1
f2
MIMO
2nd DUW
f1
f2
B1, f2
B2, f2
f1
f2
MIMO
f1
f2
f1
f2
MIMO
¾
12 RU/RRU Support in RBS 6000
from April 21, 2011 in
W10B Maintenance, W10.1.3.4
W11A Maintenance, W11.0.2.2
¾
Dual Band Multi Carrier,
up to 3x2 + 3x2:
Support from W11B
DBB21_01
f1
f2
RBB22_1A
f1
f2
one RBS NODE - Multi
CARRIER
Up to 3x2 + 3x2 Dual Band
with
Basic Configuration
DualCarrier- DualCarrierSector 2
Sector 1
DualCarrierSector 3
Issues to consider with this solution:
• Multi Carrier Dual Band supported
• Multi Carrier within Band not supported
• EUL in 2 BB pools supported in RBS 6000
Freq Band 2
DualCarrier- DualCarrierSector 3
Sector 4
DualCarrierSector 4
Freq Band 1 Carrier 2
Freq Band 1 Carrier 1
Freq Band 2 Carrier 2
Freq Band 2 Carrier 1
First carriers, 3x2 to first BB-pool with MC Second carriers, 3x2 to second BB-pool with MC
DC
CC
BB-Pool
...DualCarrier
...Cell-Carrier
...Baseband-Pool
¾
12 RU/RRU Support in RBS 6000
from April 21, 2011 in
W10B Maintenance, W10.1.3.4
W11A Maintenance, W11.0.2.2
¾
Dual Band Multi Carrier,
up to 3x2 + 3x2:
Support from W11B
#3: DUAL band 3x2 3x2,
one RBS NODE in-band Multi
Up to 3x2 + 3x2 Dual band CARRIER
Issues to consider with this solution:
With
Advanced ConfigurationMIMO
f1
f2
1st DUW
B1, f1
B1, f2
• Multi Carrier within Frequency Band supported
• Multi Carrier Dual Band not supported
• EUL in 2 BB pools supported
MIMO
f1
f2
f1
f2
f1
f2
MIMO
f1
f2
f1
f2
MIMO
2nd DUW
B2, f1
B2, f2
f1
f2
¾
f1
f2
MIMO
f1
f2
DBB21_01
f1
f2
f1
f2
RBB22_1A
Advanced Configuration for Dual Band
Multi Carrier within band, up to 3x2 + 3x2:
MIMO
¾
f1
f2
Support in RBS 3000 RAX/TX
¾ W11A: W11.0.2.4, May 19, 2011
¾ W10B: W10.1.3.6, June 1, 2011
¾ W11B: W11.1.1.0, Nov 17, 2011
Support in RBS 6000 / 3000 with DUW
¾ W11A: W11.0.3.0, June 1, 2011
¾ W10B: W10.1.3.8, July 28, 2011
¾ W11B: W11.1.1.0, Nov 17, 2011
one RBS NODE in-band Multi
CARRIER
Up to 3x2 + 3x2 Dual band
with
Advanced Configuration
Freq Band 1
DualCarrier- DualCarrierSector 2
Sector 1
DualCarrierSector 3
• Multi Carrier within Frequency Band supported
• Multi Carrier Dual Band not supported
• EUL in 2 BB pools supported
Freq Band 2
DualCarrier- DualCarrierSector 5
Sector 4
DualCarrierSector 6
Carrier 1
Carrier 1
Carrier 2
Carrier 2
Band 1, 3x2 to first BB-pool with MC
DC
CC
BB-Pool
Issues to consider with this solution:
...DualCarrier
...Cell-Carrier
...Baseband-Pool
Band 2, 3x2 to second BB-pool with MC
Advanced Configuration for Dual Band
Multi Carrier within band, up to 3x2 + 3x2:
¾
Support in RBS 3000 RAX/TX
¾
W11A: W11.0.2.4, May 19, 2011
¾
W10B: W10.1.3.6, June 1, 2011
¾
W11B: W11.1.1.0, Nov 17, 2011
¾
Support in RBS 6000 / 3000 with DUW
¾
W11A: W11.0.3.0, June 1, 2011
¾
W10B: W10.1.3.8, July 28, 2011
¾
W11B: W11.1.1.0, Nov 17, 2011
#4: 3x3/3x4 “power split”
3x3/3x4 Basic Configuration
3x3/3x4 Advanced Configuration
(normal 3 sector configuration)
(built as 3x2+3x1 / 3x2+3x2 = 6 sector)
Issues to consider with this solution:
f1 f1,f3
f2 supported
• Multi-Carrier
Issues to consider with this solution:
f1 f1,f2
f2 supported
• Multi-Carrier
1
1
DUW 1
DUW 2
MC SB = f1+f3,f2+f4
3x3/3x4 configured
as Normal 3-sector
f1 B1
f3 B1
f2 B1
f4 B1
RF A
TX
RXA I/O
Data 2
RXA Out
RX
f1
RF A
TX
RI A
S2
RI B
f3
RI C
-
RI D
RBS Node #1
DU-DU
f2
f4
TX
TX A / RX A
RXA I/O
Data 2
Conf 01
S1
f2
RF B
RX
RBB 11 1a
RXB I/O
Sector 1+4
2
RF A
TX
TX B / RX B
RF B
Data 1
RXA I/O
Data 2
RXA Out
RBB 11 1a
RXB I/O
DBB 2 1
RI A
S2
RI B
S3
RI C
-
1
RF A
TX
Data 1
RF B
Data 2
RXA I/O
RI D
TX A / RX A
RBB 11 1a
RXA Out
RI E
RX
RXB I/O
RXA Out
RX
RXB I/O
RBB 22 1a
RF A
TX
Data 1
RF B
Data 2
RXA I/O
RI B
RI C
DU-DU
RF A
Sector 2
RBS Node #1
S4
f3
RXB I/O
f4
RI E
RI F
1
RF A
TX
TX A / RX A
RF B
Data 1
Sector 2+5
RI F
2
TX B / RX B
RXA Out
RX
DU-DU
RF A
TX
RI A
S5
RI B
S6
RI C
-
RI D
-
RI E
DU-DU
TX B / RX B
RF B
Data 1
RI A
RI D
TX A / RX A
RXA Out
RX
RI F
-
RF B
Data 2
RXA I/O
RXB I/O
f1
1
RF A
TX
Data 1
RXA Out
RI E
S6
-
DUW 1
DUW 2
MC SB = f1+f2,f3+f4
3x3/3x4 configured
as Adv 6-sector
f1 B1
f2 B1
f3 B1
f4 B1
RXA I/O
Data 2
2
S5
TX B / RX B
RF B
Data 1
Data 1
S3
S4
Sector 1
DBB 2 1
S1
-
RXB I/O
RBB 22 1a
2
RX
Conf 01
TX A / RX A
RF B
Data 1
RXA I/O
Data 2
RXA Out
RX
RBB 11 1a
RXB I/O
RI F
1
RF A
TX
Data 1
RF B
Data 2
RXA I/O
TX A / RX A
RBB 11 1a
RXA Out
RXA I/O
Data 2
RX
RXB I/O
Sector 3+6
RXA Out
RX
RXB I/O
RBB 22 1a
2
RF A
TX
2
Sector 3
RF A
TX
TX B / RX B
RXA I/O
Data 2
RF B
Data 1
RXA Out
RX
RXA I/O
Data 2
TX B / RX B
RF B
Data 1
RBB 11 1a
RXB I/O
RXA Out
RX
RXB I/O
¾
Support in RBS 6000 from June 1, 2011.
W11A Maintenance, W11.0.3.0
#5: 3x3 “HIGH power”
3x3 based on 3xRBB 22 1a +
3xRBB 10 1a, Advanced configuration
3x3 based on 3xRBB 32 1a,
Basic configuration
1
RF A
TX
TX A / RX A
RF B
Data 1
RXA I/O
Data 2
RXA Out
RX
1
RF A
TX
Data 1
RF B
Data 2
RXA I/O
2
DUW 1
DUW 2
MC SB = f1+f3
3x3 configured
as Basic 3-sector
f1 B1
f3 B1
f2 B1
2
RXB I/O
RF A
TX
TX B / RX B
RF B
Data 1
RBB 32 1a
RXA I/O
Data 2
RXA Out
RX
Sector 1
RXB I/O
DUW 1
DUW 2
RF A
TX
RXA I/O
RX
RI A
RI B
Conf 01
RF A
TX
Data 1
RF B
Data 2
RXA I/O
TX A / RX A
RBS Node #1
RXA Out
RBS Node #1
S3
RI C
-
RI D
-
RI E
DU-DU
RX
RF A
TX
Data 1
RF B
Data 2
RXA I/O
TX C
RBB 10 1a
RXA Out
RXB I/O
DBB 2 1
1
S1
RI A
S2
RI B
RF A
TX
Data 1
RF B
Data 2
RXA I/O
TX A / RX A
RXA Out
S3
RI C
-
RI D
-
RI E
DU-DU
RI F
S4
RI A
RX
2
RXB I/O
RF A
TX
RBB 22 1a
TX B / RX B
RF B
Data 1
Sector 2+5
RXA I/O
Data 2
RXB I/O
RI F
RF A
TX
TX B / RX B
RBB 32 1a
RXA I/O
RX
RI A
S5
RI B
S6
RI C
-
RI D
-
RI E
S5
RF B
Data 1
RXA Out
Sector 2
RXB I/O
RX
RXB I/O
RI B
S6
RI C
-
RI D
-
RI E
3
RF A
TX
TX C
RF B
Data 1
RBB 10 1a
RXA I/O
Data 2
RXA Out
DU-DU
3
RF A
TX
RX
RXB I/O
RF B
Data 1
RXA I/O
Data 2
RI F
RI F
TX C
1
RXA Out
DU-DU
3
RXB I/O
RXA Out
2
Data 2
S4
Sector 1+4
RXA Out
RX
RXB I/O
DBB 2 1
S2
RF B
RXA I/O
Data 2
RF B
Data 1
1
TX B / RX B
TX C
RXA Out
S1
MC SB = f1+f2
3x3 configured
as Adv 6-sector
f1 B1
f2 B1
f3 B1
RX
3
Data 2
Conf 01
RF A
TX
Data 1
RXA Out
RX
RBB 22 1a
RXB I/O
TX A / RX A
RX
RXB I/O
RF A
TX
Data 1
RF B
Data 2
RXA I/O
TX A / RX A
RXA Out
RX
1
RF A
TX
Data 1
RF B
Data 2
RXA I/O
RBB 22 1a
RXB I/O
TX A / RX A
2
RF A
TX
TX B / RX B
RF B
Data 1
Sector 3+6
RXA Out
RXA I/O
Data 2
RX
RXB I/O
RXA Out
RX
2
RF A
TX
TX B / RX B
RF B
Data 1
3
RBB 32 1a
RXA I/O
Data 2
RXA Out
RX
RXB I/O
Sector 3
RF A
TX
Data 1
RF B
Data 2
RXA I/O
RXB I/O
TX C
RBB 10 1a
RXA Out
RX
3
RF A
TX
RXB I/O
TX C
RF B
Data 1
RXA I/O
Data 2
RXA Out
RX
¾
RXB I/O
Flexible configuration candidate for W12B
¾
Support in RBS 6000 from June 1, 2011.
W11A Maintenance, W11.0.3.0
#6: 3x4 HP as 3x2+3x2
Translation Table
DB
SB
f1 B1
f1 B1
f2 B1
f2 B1
f1 B2
f3 B1
f2 B2
f4 B1
1
RF A
TX
TX A / RX A
RF B
Data 1
RXA I/O
Data 2
RXA Out
RX
2
RXB I/O
RF A
TX
TX B / RX B
RBB 22 1a
RF B
Data 1
RXA I/O
Data 2
RXA Out
RX
1
Sector 1+4
RXB I/O
RF A
TX
TX C / RX C
RF B
Data 1
RXA I/O
Data 2
RXA Out
RX
2
RXB I/O
RF A
TX
Data 1
RF B
Data 2
RXA I/O
RBB 22 1a
TX D / RX D
RXA Out
RX
1
RF A
TX
S1
DBB 2 1
RX
RI A
RI B
S3
RI C
2
RI D
-
RI E
RF A
S5
DUW 1
DUW 2
MC SB = OK
MC DB = not OK
Advanced
3x2+3x2
f1 B1
f2 B1
f1 B2
f2 B2
RI F
RX
1
MC SB = OK
"3x4" based
on Advanced mode
f1 B1
f2 B1
f3 B1
f4 B1
RF A
TX C / RX C
RF B
RI B
S6
RI C
-
RI D
-
RI E
DU-DU
Sector 2+5
RXB I/O
TX
RXA I/O
Data 2
MC SB = not OK
"3x4" based
on Basic mode
f1 B1
f3 B1
f2 B1
f4 B1
RBB 22 1a
RXA Out
Data 1
MC SB = Not OK
MC DB = OK
Basic
3x2+3x2
f1 B1
f1 B2
f2 B1
f2 B2
TX B / RX B
RF B
RXA I/O
Data 2
RI A
RXB I/O
TX
Data 1
-
S4
RXA I/O
Data 2
RXA Out
S2
RBS Node #1 DU-DU
TX A / RX A
RF B
Data 1
Conf 01
RXB I/O
RI F
RXA Out
RX
2
RXB I/O
RF A
TX
Data 1
RF B
Data 2
RXA I/O
RBB 22 1a
TX D / RX D
RXA Out
RX
1
RXB I/O
RF A
TX
TX A / RX A
RF B
Data 1
RXA I/O
Data 2
RXA Out
RX
2
RXB I/O
RF A
TX
TX B / RX B
RBB 22 1a
RF B
Data 1
RXA I/O
Data 2
RXA Out
RX
1
Sector 3+6
RXB I/O
RF A
TX
TX C / RX C
RF B
Data 1
RXA I/O
Data 2
RXA Out
RX
2
RXB I/O
RF A
TX
Data 1
RF B
Data 2
RXA I/O
RBB 22 1a
TX D / RX D
RXA Out
RX
RXB I/O
Not TMA optimized, based on 4-RX branches per sector
Configuration Roadmap
Í
RBS3000 & RBS6000
ÎÍ
Basic
ÎÍ
Advanced
Î
Flexible
3x2
Single Band
Up to
in 2 BB pools
3x2+3x2
Advanced
Up to 6x2
Up to
Dual Band
3x2+3x2
With
Dual Band
Single
with MC/EUL
RBS3000
Band
DUW in RBS3000
MC / EUL
Up to 1x4
3x2 + 3x2
6x2
3x3 + 3x1
in
with MIMO
Dual Band
One DUW
Up to 6x2
3+1+1+1
3x3/3x4
High Power
With MC
in
Up to
One DUW
2x3 + 2x3
Q3
12A
11B
2011
2010
Q4
Q1
Released
RBS6000
Single Band
1x3+1x1
11A
12A
with MC/EUL
13A
12B
2012
Q2
Q3
Ready for Contract
Q4
Indicative
Q1
Q2
Candidate
Q3
Q4
Q1
Q2
Thank You!
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