Radio Block Rbs6000
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Transcript of Radio Block Rbs6000
.1.1 RBB10_1A
RBB10_1A is used for sectors with one TX branch, two external RX branches, and one
Figure 2 shows the RBB10_1A block diagram.
Figure 2 RBB10_1A Block Diagram
7.1.2 RBB11_1A
RBB11_1A is used for sectors with one TX branch, two RX branches, of which one is an external
Figure 3 shows the RBB11_1A block diagram.
Figure 3 RBB11_1A Block Diagram
7.1.3 RBB11_1B
RBB11_1B is used for sectors with one TX branch, two RX branches, of which one is an external
Figure 4 shows the RBB11_1B block diagram.
Figure 4 RBB11_1B Block Diagram
7.1.4 RBB12_1A
RBB12_1A is used for sectors with one TX branch, two RX branches, and one CPRI connection.
Figure 5 shows the RBB12_1A block diagram.
Figure 5 RBB12_1A Block Diagram
7.1.5 RBB12_2A
RBB12_2A is used for sectors with one TX branch, two RX branches, and two CPRI connection.
This RBB is used for Mixed Mode with no CPRI sharing.
Figure 6 shows the RBB12_2A block diagram.
Figure 6 RBB12_2A Block Diagram
7.1.6 RBB22_1A
RBB22_1A is used for sectors with two TX branches, two RX branches, and one CPRI connection. There is an analog cross-connection between the
Figure 7 shows the RBB22_1A block diagram.
Figure 7 RBB22_1A Block Diagram
7.1.7 RBB22_1B
RBB22_1B is used for sectors with two TX branches, two RX branches, and one CPRI connection.
Note: It is also possible to use only one TX branch.
Figure 8 shows the RBB22_1B block diagram.
Figure 8 RBB22_1B Block Diagram
7.1.8 RBB22_1C
RBB22_1C is used for sectors with two TX branches, two RX branches, and one CPRI connection. There is a digital cross-connection between the
Figure 9 shows the RBB22_1C block diagram.
Figure 9 RBB22_1C Block Diagram
7.1.9 RBB22_1E
RBB22_1E is used for sectors with two TX branches, two RX branches, and one CPRI connection. There is a digital cross-connection between the
Figure 9 shows the RBB22_1E block diagram.
Figure 10 RBB22_1E Block Diagram
7.1.10 RBB22_2A
RBB22_2A is used for sectors with two TX branches, two RX branches, and two CPRI connections. This
Figure 11 shows the RBB22_2A block diagram.
Figure 11 RBB22_2A Block Diagram
7.1.11 RBB22_2B
RBB22_2B is used for sectors with two TX branches, two RX branches, and two CPRI connections. There is an analog cross-connection between the
Figure 12 shows the RBB22_2B block diagram.
Figure 12 RBB22_2B Block Diagram
7.1.12 RBB22_2E
RBB22_2B is used for sectors with two TX branches, two RX branches, and two CPRI connections.
This RBB is used for Cross-Sector Antenna Sharing Redundancy and cascade configuration
Figure 13 shows the RBB22_2E block diagram.
Figure 13 RBB22_2E Block Diagram
7.1.13 RBB22_2F
RBB22_2F is used for sectors with two TX branches, two RX branches, and two CPRI connections. This
Figure 14 shows the RBB22_2F block diagram.
Figure 14 RBB22_2F Block Diagram
7.1.14 RBB22_2G
RBB22_2G is used for sectors with two TX branches, two RX branches, and two CPRI connections. This
Figure 15 shows the RBB22_2G block diagram.
Figure 15 RBB22_2G Block Diagram
7.1.15 RBB22_4B
RBB22_4B is used for sectors with two TX branches, two RX branches, and four CPRI connections. This
This RBB is used for Mixed Mode with no CPRI sharing.
Figure 16 shows the RBB22_4B block diagram.
Figure 16 RBB22_4B Block Diagram
7.1.16 RBB24_2A
RBB24_2A is used for sectors with two TX branches, four RX branches, and two CPRI connections. This
Figure 17 shows the RBB24_2A block diagram.
Figure 17 RBB24_2A Block Diagram
7.1.17 RBB32_3A
RBB32_3A is used for sectors with three TX branches, two RX branches, and three CPRI
Figure 18 shows the RBB32_3A block diagram.
Figure 18 RBB32_3A Block Diagram
7.1.18 RBB32_3B
RBB32_3B is used for sectors with three TX branches, two RX branches and one external
Figure 19 shows the RBB32_3B block diagram.
Figure 19 RBB32_3B Block Diagram
7.1.19 RBB43_4A
RBB43_4A is used for sectors with four TX branches, three RX branches, and four CPRI
Figure 20 shows the RBB43_4A block diagram.
X
Y
Figure 20 RBB43_4A Block Diagram
7.2 DBBs
Each DBB defines a unique way of combining DUs with connections between DUs and
DBBs are named as follows: DBB[X][Y]_[ZZ], where:
Number of DUs
Number of CPRI links for DU-DU interconnection
ZZ
Example: DBB21_01
Number that represents the CPRI port configuration. See the specific DBB tables in this section for details.
Two DUsOne CPRI link between the DUsCPRI port configuration number 01
For RBBs with more than one CPRI connection, the ports in the RBB are used from top to bottom as seen in the block diagrams in
For DBBs with more than one CPRI connection to each sector, the ports in the DU are used in alphabetical order.
7.2.1 DBB10_xx
This section describes DBBs with one DU, DBB10_xx.
Figure 21 shows the DBB10_xx block diagram.
Connection to Sector
DBB10_01 DBB10_02 DBB10_03 DBB10_04 DBB10_05 DBB10_06 DBB10_07 DBB10_21
S1 S1 S1/S2 S1/S2 S1/S2 S1/S2 S1/S2
S2 S2 S2/S1 S2/S3 S2/S3 S2/S3 S2/S3
S3 S3 S3/S1 S3/S4 S3/S4 S3/S4
S1 S4 S4/S1 S4/S5 S4/S5
S2 S5 S5/S1 S5/S6
S3 S6 S6/S1
Figure 21 DBB10_xx Block Diagram
Table 66 lists the DBB10_xx variants and their connections between DUs and sectors.
Table 66 DBB10_xxConnection from DU Port
RI A S1, S2, S3, S4, S5, S6
RI B
RI C
RI D
RI E
RI F
7.2.2 DBB20_xx
This section describes DBBs with two DU, DBB20_xx.
This DBB is used for Mixed Mode in Multistandard RBS. DU STD1 is always WCDMA or
Figure 22 shows the DBB20_xx block diagram.
S1 S1S2 S2S3 S3S1 S1S2 S2S3 S3S1 S1S2 S2S3 S3S1 S4S2 S5S3 S6
Figure 22 DBB20_xx Block Diagram
Table 67 lists the DBB20_xx variants and their connections between sectors.
Table 67 DBB20_xx
Connection from DU Port
Connection to Sector/DU
DBB20_01
DBB20_06
DU STD 1
RI ARI BRI CRI DRI ERI F
DU STD 2
RI ARI BRI CRI DRI ERI F
7.2.3 DBB21_xx
This section describes DBBs with two DU with one CPRI link for DU-DU interconnection, DBB21_xx.
Figure 23 shows the DBB21_xx block diagram.
Connection to Sector/DU
S1 S1 S1, S2 S1, S4
S2 S2 S3, S4 S2, S5S3 S3 S5, S6 S3, S6
S4 S1
S5 S2S6 S3
Figure 23 DBB21_xx Block Diagram
Table 68 lists the DBB21_xx variants and their connections between DUs and sectors.
Table 68 DBB21_xx
Connection from DU Port DBB21_
01DBB21_02
DBB21_07
DBB21_21
DBB21_22
DBB21_23
DBB21_24
DU 1 RI A S1, S2, S3, S4, S5, S6
S1, S2, S3
RI BRI CRI DRI ERI F DU 2 DU 2 DU 2 DU 2 DU 2 DU 2
DU 2 RI A S4, S5, S6
RI BRI CRI DRI ERI F DU 1 DU 1 DU 1 DU 1 DU 1 DU 1
7.2.4 DBB31_xx
This section describes DBBs with three DU with one CPRI link for DU-DU interconnection, DBB31_xx.
Figure 24 shows the DBB31_xx block diagram.
S1S2S3--DU-DUS4S5S6--DU-DUS1S2S3---
Figure 24 DBB31_xx Block Diagram
Table 69 lists the DBB31_xx variants and their connections between DUs and sectors.
Table 69 DBB31_xx
Connection from DU Port
Connection to
Sector/DU
DBB31_01
DU 1 RI ARI BRI CRI DRI ERI F
DU 2 RI ARI BRI CRI DRI ERI F
DU 3 RI ARI BRI CRI DRI ERI F
8 Power Configurations
More information about the power units can be found in the respective unit description.
All power supply options are not available for all radio standards.
PDU PCU SHU PCF BFU
1–3 1 L/G: 1 1
4–6 2+1 2
1–3 0 1 W: 1 1 1 0
4–6 0 2 L/G: 1
More information about the power units can be found in the respective unit description.
All power supply options are not available for all radio standards.
PDU PCU SHU PCF BFU
1–3 2+1 W: 0 1
4–6 2 L/G: 1
This section describes the supported power configurations.
8.1 RBS 6101
Table 70 lists the required number of power units depending on number of RUs and type of power supply. The units are to be inserted in the
Note:
Table 70 Power Configurations RBS 6101
Power Supply
Number of RUs
PSU(1) PFU (2)
200–250 V AC (3)
1+1(4) 1 PCU AC
1 (5) 1 (6)
(High line)
–48 V DC 1 PCU DC
(two-wire)
(1) "+1" is for battery backup and redundancy.
(2) PFUs are required for –48 V DC and AC with external battery backup other than BBU. The number of required
(3) If the power supply is less than 200 V AC, conversion to high line can be made when connecting AC power to the
(4) The number of PSUs required for one to three RUs is based on a maximum of 200 W power consumption for transmission.
(5) Optional (for external battery backup)
(6) Optional (for battery backup)
8.2 RBS 6102
Table 71 lists the required number of power units depending on number of RUs and type of power supply. The units are to be inserted in the
Note:
Table 71 Power Configurations RBS 6102
Power Supply
Number of RUs
PSU(1) PFU (2)
200–250 V AC (3)
1(4) 1 PCU AC
1 (5) 1 (6)
(High line)
2+1 (7)
3+1 (8)
7–9 3+1 3 W: 0
1
10–12 4+0 L/G: 11–3 0 W: 1 1 1 0
4–6 0 2 L/G: 1
0 3 W: 1L/G: 1
More information about the power units can be found in the respective unit description.
All power supply options are not available for all radio standards.
PDU PCU SHU PCF BFU
1–3 1 W: 0 1
4–6 2+1 1 L/G: 1
7–10 3+1 2 W: 07–12 4+0 L/G: 11 1+1 1 W: 0 1
2–3 2+1 1 L/G: 1
4–6 3+1 17–9 4+0 2 W: 0
L/G: 110–12 Not supported1–3 1+1 1 W: 0 1 0 0
4–6 2+1 1 L/G: 1
1 PCU AC
1 (5) 1 (6)
–48 V DC 1 (4) 1 PCU DC
(two-wire)
7–12 (9)
(1) "+1" is for battery backup and redundancy.
(2) PFUs are required for –48 V DC and AC with external battery backup other than BBU. The number of required
(3) If the power supply is less than 200 V AC, conversion to high line can be made when connecting AC power to the
(4) Two PDUs are required for more than two RUs if a DC Heater is used.
(5) Optional (for external battery backup)
(6) Optional (for battery backup)
(7) With standard climate
(8) With extended climate
(9) For 10 RUs or more, the actual input voltage must not be above –46 V.
8.3 RBS 6201
Table 72 lists the required number of power units depending on number of RUs and type of power supply. The units are to be inserted in the
Note:
Table 72 Power Configurations for RBS 6201
Power Supply
Number of RUs
PSU(1) PFU(2)
180–250 V AC
1+1(3) 1 PCU AC
1 (4) 1 (5)
(High line)
< 180 V AC
1 PCU AC
1 (4) 1 (5)
(Low line)
+24 V DC
1 PCU DC
(three-wire)
7–10 3+1 2 W: 0
1 0 0
7–12 4+0 L/G: 11–6 0 1 W: 0 0 1 1 0
L/G: 1
7–12 0 2 W: 0L/G: 1
More information about the power units can be found in the respective unit description.
PSU PDU PCU SHU PCF BFU
1–6 0 1 W: 0 0 0 1 0
L/G: 1
More information about the power units can be found in the respective unit description.
Yes No1800 W
1 PCU DC
–48 V DC
(two-wire)
(1) "+1" is for battery backup and redundancy.
(2) PFUs are required for –48 V DC and AC with external battery backup other than BBU. The number of required
(3) The number of PSUs required for one to three RUs is based on a maximum of 200 W power consumption for transmission.
(4) Optional (for external battery backup, not needed for BBU)
(5) Optional (for battery backup)
8.4 RBS 6202
Table 73 lists the required number of power units depending on number of RUs and type of power supply. The units are to be inserted in the
Table 73 Power Configurations for RBS 6202
Power Supply
Number of RUs
PFU(1)
–48 V DC
(two-wire)
(1) The number of required PFUs is radio standard dependant: W=WCDMA, L=LTE, G=GSM.
8.5 RBS 6301
Two PSUs, 1800 W, can be added used for external DC power, redundancy or battery charging.
Table 74 lists the maximum DC output power depending on number of PSUs.
Table 74 PSU redundancy for RBS
PSU redundancy/Battery charging
DC out max
2 x 1800 W
RBS Configurations
branches, and one CPRI connection.
branches, of which one is an external RX branch for antenna sharing, and one CPRI connection.
branches, of which one is an external RX branch for antenna sharing, and one CPRI connection.
branches, and one CPRI connection.
branches, and two CPRI connection.
branches, and one CPRI connection. There is an analog cross-connection between the RUs or RRUs.
branches, and one CPRI connection.
branches, and one CPRI connection. There is a digital cross-connection between the RUs or RRUs.
branches, and one CPRI connection. There is a digital cross-connection between the RUs or RRUs.
branches, and two CPRI connections. This RBB uses a digital RX cross-connection.
branches, and two CPRI connections. There is an analog cross-connection between the RUs or RRUs.
branches, and two CPRI connections.
is used for Cross-Sector Antenna Sharing Redundancy and cascade configurations. Each RRU can serve two different sectors.
branches, and two CPRI connections. This RBB uses a digital RX cross-connection.
branches, and two CPRI connections. This RBB an analogue RX cross-connection.
branches, and four CPRI connections. This RBB uses an analog RX cross-connection.
branches, and two CPRI connections. This RBB uses a digital RX cross-connection.
branches, and three CPRI connections. There is an analog cross-connection between the RUs or RRUs.
branches and one external RX cross connection, and three CPRI connections. There is an analog cross-connection between the
branches, and four CPRI connections. There is an analog cross-connection between the RUs or RRUs.
s with connections between DUs and RBBs.
are used from top to bottom as seen in the block diagrams in Section 7.1.
connection to each sector, the ports in the DU are used in alphabetical order.
Connection to Sector
DBB10_22 DBB10_23 DBB10_24 DBB10_44 DBB10_45
S1, S2, S3 S1, S2 S1, S4 S1 S1
S4, S5, S6 S3, S4 S2, S5 S1 S1
S5, S6 S3, S6 S1 S1
S2 S1
S2 S2
S2 S2
s and sectors.
WCDMA or LTE and DU STD2 is always GSM.
link for DU-DU interconnection, DBB21_xx.
Connection to Sector/DU
s and sectors.
DBB21_46
DBB21_47
link for DU-DU interconnection, DBB31_xx.
s and sectors.
More information about the power units can be found in the respective unit description.
More information about the power units can be found in the respective unit description.
lists the required number of power units depending on number of RUs and type of power supply. The units are to be inserted in the cabinet as specified in Non-RF Connections.
. The number of required PFUs is radio standard dependant: W=WCDMA, L=LTE, G=GSM.
, conversion to high line can be made when connecting AC power to the PCU AC. More information can be found in Installing RBS.
s is based on a maximum of 200 W power consumption for transmission.
lists the required number of power units depending on number of RUs and type of power supply. The units are to be inserted in the cabinet as specified in Non-RF Connections.
More information about the power units can be found in the respective unit description.
. The number of required PFUs is radio standard dependant: W=WCDMA, L=LTE, G=GSM. The maximum number of PFUs is 1.
, conversion to high line can be made when connecting AC power to the PCU AC. More information can be found in Installing RBS.
lists the required number of power units depending on number of RUs and type of power supply. The units are to be inserted in the cabinet as specified in Non-RF Connections.
More information about the power units can be found in the respective unit description.
More information about the power units can be found in the respective unit description.
. The number of required PFUs is radio standard dependant: W=WCDMA, L=LTE, G=GSM.
s is based on a maximum of 200 W power consumption for transmission.
lists the required number of power units depending on number of RUs and type of power supply. The units are to be inserted in the cabinet as specified in Non-RF Connections.
power, redundancy or battery charging.
connections. There is an analog cross-connection between the RUs or RRUs.