Introduction to Gen2
(BB5216)
Ericsson Radio System Overview
SITE
RADIO
SMALL CELL
FRONTHAUL
BASEBAND
BACKHAUL
POWER
ENCLOSURE
CONTROLLER
Ericsson Radio System, RBS 6000
overview
Available ProductS
Support Systems
RBS/
BBS/
TMR
6102
RBS/
BBS/
TMR
6101
BBU 6102
BBU 6101
RBS/
BBS/
PBC/
TMR
6201
BBU
6201
PBC
6200
RRUS
13
RRUS
14
RBS
6202
RBS6601
RBS/BBS
6301
RBS
6302
SSC-02
RRUS
82
AIR
11
PBC 05
BBS 05
Radio Modules
RUS
01
RUS
02
RUS
03
RRUS
01
RRUS
02
RRUS
A2/A3
RRUS
11
RRUS
12
RRUS
32
Digital Modules
DUG
20
DUW
11/31/41
DUS
31/41
TCU
02
XMU
02
RBS
6402
RBS
6501
RD
2242
Small Cell Products
mRRU
12
IRU
2242
RRUS
61
RRUS
62
RRUS
72
AIR
21
AIR
32
Baseband R503
• Increased connectivity for new & existing radio units in large radio
configurations
• CPRI multiplexing and de-multiplexing. 16 x SFP+ ports
• Pluggable optical transceivers
• Direct attach cables (electrical)
Electrical
CPRI
Baseband 5212*
LTE
RUS01
Optical
CPRI
Optical
CPRI
LTE
RRUS12
LTE
RRUS11
LTE 2600
3x15 MHz MIMO
Baseband
R503
Electrical
CPRI
Baseband 5212*
2x10G CPRI
Opt/Elec
LTE
RUS01
LTE 1800
3x10 MHz MIMO
Optical
CPRI
LTE 800
3x10 MHz MIMO
Optical
CPRI
LTE
RRUS12
LTE
RRUS11
LTE 2600
3x15 MHz MIMO
LTE 1800
3x10 MHz MIMO
LTE 800
3x10 MHz MIMO
*or for example DUS31
Baseband 5212
hardware capabilities
Hardware
› LTE (FDD & TDD supported)
• 4000 connected users*
• 800 Mbps Downlink & 400 Mbps Uplink*
• Up to 12 cells & 480 960 MH*z antenna
bandwidth
• Up to 1000 1200 VoIP*
› WCDMA
› LTE, WCDMA or GSM
•
•
•
•
•
•
•
350 mm x 31 mm x 280 mm
1 x GigE RJ45 Ethernet port
1 x GigE SFP Ethernet port
1 x 1/10 GigE SFP/SFP+ Ethernet port
6 x 2.5G to 10G SFP/SFP+ CPRI ports
2 x IDLe ports
48 VDC with ~120W typical
• 576 CE Downlink & 2048 Total EUL CE*
• 252 Mbps Downlink & 84 Mbps Uplink*
• Up to 12 cell carriers
› GSM
• Up to 24 TRX
*Hardware prepared
Baseband 5212
Mixed Mode capabilities*
› WCDMA + GSM
• 288 CE Downlink & 1024 Total EUL
CE
• 126 Mbps Downlink & 42 Mbps
Uplink
• Up to 6 WCDMA cell carriers
• Up to 12 GSM TRX
*Supported from 17A
Baseband 5216
hardware capabilities
Hardware
› LTE (FDD & TDD supported)
• 8000 connected users
• 1.2 1.6 Gbps Downlink & 600 Mbps
Uplink*
• Up to 24 cells & 960 1920 MHz antenna
bandwidth*
• Up to 2000 VoIP
› LTE, WCDMA or GSM
•
•
•
•
•
•
350 mm x 31 mm x 280 mm
1 x GigE RJ45 Ethernet port
2 x 1/10 GigE SFP/SFP+ Ethernet ports
6 x 2.5G to 10G SFP/SFP+ CPRI ports
2 x IDLe ports
48 VDC with ~160W typical
› WCDMA
• 1152 CE Downlink & 4096 Total EUL CE*
• 336 Mbps Downlink & 168 Mbps Uplink
• Up to 24 cell carriers*
› GSM
• Up to 48 TRX
*Hardware prepared
Baseband 5216
Mixed Mode capabilities
› LTE + GSM
• Up to 4000 CU LTE*
• Up to 12 cells & 480 MHz* antenna bandwidth
• Up to 24 GSM TRX
› LTE + WCDMA
•
•
•
•
Up to 4000 CU LTE*
Up to 12 cells & 480 MHz* antenna bandwidth
Up to 576 CE DL & 2048 Total EUL CE
Up to 12 WCDMA cell carriers
› WCDMA + GSM
• Up to 576 CE DL & 2048 Total EUL CE
• Up to 12 WCDMA cell carriers
• Up to 24 GSM TRX
› LTE + WCDMA + GSM**
• Up to 4000 CU LTE
• Up to 12 LTE cells and 480 MHz* antenna
bandwidth
• 288 CE Downlink & 1024 Total EUL CE
• 126 Mbps Downlink & 42 Mbps Uplink WCDMA
• Up to 6 WCDMA cell carriers
• Up to 12 GSM TRX
**Supported from 17A
*Hardware prepared
Ers baseband summary
Product Type
Baseband Model
DUG20
Digital Unit (DU)
DUW41
DUS41
2G/3G/FDD/TDD
GSM
WCDMA
FDD/TDD
2G/3G/FDD/TDD
2G/3G/FDD/TDD
Mixed Mode
-
-
-
G/W/L (Up to 4 RATs) + IoT
G/W + IoT
-
-
4000 CUs
8000 CUs
4000 CUs
-
-
500/250 Mbps DL/UL
1600/600 Mbps DL/UL
800/400 Mbps DL/UL
-
-
Up to 12 cells
Up to 24 cells
Up to 12 cells
-
-
480MHz Antenna BW
1920 MHz Antenna BW
960 MHz Antenna BW
-
-
1200 VoIP users
2000 VoIP users
1200 VoIP users
-
768/1152 CE DL/EUL
-
1152/4096 CE DL/EUL
576/2048 CE DL/EUL
-
336/138 Mbps DL/UL
-
336/168 Mbps DL/UL
252/84 Mbps DL/UL
-
Up to 12 cell carriers
-
Up to 24 cell carriers
Up to 12 cell carriers
Up to 12 TRX
-
-
Up to 48 TRX
Up to 24 TRX
LTE capacity
WCDMA capacity
GSM capacity
Ericsson Radio System Baseband
5216
5212
RADIO 2217
Radio 2219
• 2TX/2RX FDD, 4TX/4RX by use of two 2217
• 2TX/2RX FDD, 4TX/4RX by use of two 2219
• 2x40W, 40 MHz IBW (B1: 45 MHz, B7: 50 MHz)
• 2 x 80 W (B3, B28), 2 x 60 W (B1, B8)
• Up to 6 carriers WCDMA
• 40 MHz IBW (B1: 60 MHz, 20 MHz for GSM)
• Up to 40 MHz LTE carriers
• Up to 8 carriers GSM
• Up to 8 carriers WCDMA
• 2x 2.5/4.9/9.8 Gbps CPRI
• Up to 40 MHz LTE carriers
• 10 liter 12 kg
• -48 VDC
• 2x 2.5/4.9/9.8 Gbps CPRI
311
mm
• 17 liter 17 kg
• AISG TMA & RET support
• -48 VDC
• 2 external alarm
• Optional fan for increased site flexibility
• IP 65, -40 to +55 ̊C
• AISG TMA & RET support
RadioMounting points
105 mm
dimensions
• 2 external
alarm
291 mm
• Optional fan for increased site flexibility
• Smaller and more efficient multi band configurations
• IP 65, -40 to +55 ̊C
• B1,B3,B8 is GA, W/L support
• Smaller and more efficient multi band configurations
• B1,B3,B8 will be GA in 2017 (Q1/Q2), W/L/G support
Optional FAN
Ericsson Radio System,
Available Products
Enclosures
Power Modules
Enclosure Enclosure
6306
6320
Power
6306
Enclosure
6307
Power
6610
Power
6302
Radio Modules
Radio
0208
Radio
2217
Radio
2218
Radio
2203
Radio
8808
Baseband Modules
Baseband
5212
Baseband
5216
Baseband
R503
Small cells
RBS
6402
RD
4442
Baseband
T605
This slide shows all products that are available, i.e. have
passed GA and have not passed LTB (Last Time Buy).
Products that are only LA are not shown.
IDU
5205
IDU
5209
Triple Standard BB and Radio
Baseband sw node compatibilities
Single Mode 16A
LTE
•
RBS SW L16A
•
OSS 16A (OSS 15B treat
as)
WCDMA
•
RBS SW W16A
•
RNC SW W15B/16A
•
OSS 16A (OSS 15B treat
as)
OSS Scalability
› OSS 15B EU13 : up to
2000 Baseband 521x
Nodes
› OSS 16A EU7: up to 2000
Baseband 521x Nodes
Single Mode 16B
LTE
› RBS SW L16B
› OSS 16B (OSS 15B/16A
Treat-as)
WCDMA
› RBS SW W16B
› RNC SW W15B/16A/16B
› OSS 16B (OSS 15B/16A
Treat-as)
GSM
› RBS SW G16B
› BSC SW G16B
› OSS 16B
OSS Scalability
› OSS 16B: up to 7500
Baseband 521x Nodes
Mixed Mode 16B
LTE + WCDMA (Baseband 5216)
› RBS SW L16B
› RBS SW W16B
› RNC SW W15B/16A/16B
› OSS 16B
LTE + GSM (Baseband 5216)
› RBS SW L16B
› RBS SW G16B
› BSC SW G16B
› OSS 16B
GSM + WCDMA (Baseband 5216)
› RBS SW W16B
› RNC SW W15B/16A/16B
› RBS SW G16B
› BSC SW G16B
› OSS 16B
Mixed Mode 17A
LTE+WCDMA+GSM (Baseband 5216)
› RBS SW L17A
› RBS SW W17A
› RNC SW W15B/16A/16B
› RBS SW G17A
› BSC SW G16B
› OSS 17A (16B treat-as with
limitations1)
GSM + WCDMA (Baseband 5212)
› RBS SW W17A
› RNC SW W15B/16A/16B
› RBS SW G17A
› BSC SW G16B
› OSS 16B
For full functionality both standards sharing the Baseband shall be in the same OSS-RC
Fot foot notes and comments, please se separate slide
minimum SW level required for OSS
Baseband
Standard
Minimum OSS-RC SW
Level (Suite)
5212/5216
G
O16B
5212/5216
W
O15B
5212/5216
L
O15B
5212
G+W
O16B
5216
G+W
O16B
5216
G+L
O16B
5216
W+L
O16B
5216
G+W+L
O17A
Note! For full functionality both
standards sharing the Baseband shall
be in the same OSS-RC.
L16A Bb5216 specs
•
•
•
•
•
•
•
•
•
•
12 cores
More powerful baseband processing
4000 Connected Users (up to 12000)
Up to 1000 VOIP users with RoHC
Max. 13000 DRBs across all UEs per eNB
48 SEs / TTI / DU - UL and DL
12 SEs/ TTI / Sector - UL and DL
600 Mbps Max throughput DL (Up to 1.6Gbps)
250 Mbps Max throughput UL (Up to 800Mbps)
Pooled Antenna Bandwidths of up to 2.4 GHz
interfaces
Interface name
Connector
Comment
Power
ET20
No change
EC bus
RJ-45
No change
LMT
RJ-45
No change
TN A
RJ-45
1 Gbps Electrical Ethernet
IDL A, B
Xcede
New connector, CPRI & Ethernet
RI A-F
SFP+
2,5 Gbps, 5Gbps and 10 Gbps
TN B, C
SFP+
1/10 Gbps Electrical/Optical Ethernet
SYNC
RJ-45
New name
HW changes – port positions
• A number of ports have changed position on the board compared to earlier
boards. These interfaces are:
•
•
•
•
•
Power
SYNC (previously GPS)
TN A, TN B and TN C
RI A – F
IDL A and IDL B (new interface)
• Due to this, new cable lengths are sometimes needed when upgrading from old
boards to Baseband 5216.
• Example: Power and EC bus cables in RBS 6601 MU
• All cable lengths per RBS type can be found in CPI
DUS 31/41 – Baseband 5216
R
I
M
M
I
I
D
L
S
Y
N
C
T
N
B
&
C
R
I
T
N
B
&
C
I
D
L
E
C
b
u
s
T
N
A
T
N
A
E
C
b
u
s
G
P
S
P
o
w
e
r
P
o
w
e
r
M
M
I
Equipment Handling
• Simplified MOM handling by introduction of FieldReplacableUnit MO
• Replaces
• PlugInUnit
• AuxPlugInUnit
• HwUnit
“Unit” MOM DUS41/31
DU
PiuType
RU
XMU
PiuType
PlugInUnit
APC Unit
PiuType
PiuType
AuxPlugInUnit
AuxPlugInUnit
DeviceGroup
DeviceGroup
DeviceGroup
XpProgram
317
455
466
481
500
519
538
XpProgram
Equipment=1,Subrack=1,Slot=1,PlugInUnit=1
Equipment=1,RbsSubrack=1,RbsSlot=3,AuxPlugInUnit=RU-1-3
Equipment=1,RbsSubrack=1,RbsSlot=4,AuxPlugInUnit=RU-1-4
Equipment=1,AuxPlugInUnit=RRU-1
Equipment=1,AuxPlugInUnit=RRU-2
Equipment=1,AuxPlugInUnit=RRU-3
Equipment=1,AuxPlugInUnit=RRU-4
HwUnit
“Unit” MOM Baseband 5216
DU
FieldReplaceableUnit
231
241
246
251
256
261
266
271
RU
FieldReplaceableUnit
XMU
FieldReplaceableUnit
Equipment=1,FieldReplaceableUnit=DU-1
Equipment=1,FieldReplaceableUnit=RRU-1
Equipment=1,FieldReplaceableUnit=RRU-2
Equipment=1,FieldReplaceableUnit=RRU-3
Equipment=1,FieldReplaceableUnit=RRU-4
Equipment=1,FieldReplaceableUnit=RRU-5
Equipment=1,FieldReplaceableUnit=RRU-6
Equipment=1,FieldReplaceableUnit=SUP-1
“APC Unit”
FieldReplaceableUnit
Integration overview
RBS Summary
Site Basic
Site Equipment
TN
RN
Post Install
CPP transport network
BB Transport Network
Transport configuration: basic building blocks in baseband
5216/5212
Baseband
DUS/DUL
• Equipment
• TnPort
• Transport
• Layer 2
• EthernetPort
• VlanPort
• Layer 3
• Router
• InterfaceIPv4
• RoutingTable
› Equipment
GigabitEthernet
configuredSpeedDuplex
› IpInterface
vid=200
defaultRouter0 = 10.10.20.1
IpAccessHostEt
IpOaM
CPP Radio Network MOM
Base band Radio network mom
Backup handling
• For baseband nodes a backup is
called BackUp (for DU based nodes a
backup is called ConfigurationVersion
(CV))
• Data base handling changed:
• Baseband nodes: the data base is
always stored persistently on a disk
• DU based nodes: the data base is only
stored on RAM; a CV stores a snapshot
of the data base on a disk persistently
• Since the data is always stored on a
disk no configuration is lost at restart
The data base is always
stored persistently
Performance Management
• The way of working with PM counters and PM events in
OSS is the same as before.
• LTE specific counters are the same but TN counters are
changed
• Definition of counters are not MO attributes starting by
pm but are now MO instances of MO MeasurementType
• PM Events for Cell Trace are now visible in the MIB
• The format of the ROP file has changed to comply to
later 3GPP release (Rel 10.0)
• New ECLI command, “show-counters” to show real time
values of counters
FM - Alarm handling
• SNMP for Alarm Propogation
• Alarms are more specific
• Most alarms for a DU based
node are still used but new
alarms added
• All alarms now have the same
structure, e.g. HwFault is changed to
HW Fault
• Alarms and alarm handling are
visible in the MIB -> active alarms
can also be seen in AMOS and EMCLI
tools
• Element Manager and CabViewer don’t exist for G2 nodes
• Two new tools: EM-CLI and EM-GUI
• EM-CLI uses the same base as Amos
• Access to MOs
• Execute Scripts
• Restricted access to COLI shell
• EM-GUI currently targeting 16B
• SMO replaced by SHM
• Moshell: Use the latest Moshell version (or at least
versions 11.0n and above)
Two new element managers
RBS Element Manager and Cabinet Viewer are not
applicable for Baseband 5216 based nodes. Instead two
new EM tools are introduced.
EMCLI: uses the same base as
AMOS; works in L15B
EM GUI: shows a graphical view
of the node; Currently planned for L16B?
Misc
• Restarts - Action on the FRU that defines the DU
• Sw Upgrade
• Action on MO: Swm to create upgrade package
• Action on Upgrade package to Prepare (Install), Activate (rebootnodeupgrade) and
Confirm (Confirm Upgrade)
• License Key Install
• Action on MO: KeyFileManagement
• License Install can be performed from OSS via SHM
• COLI based LKF install
• Sync MO replaced with:
• Transport=1,Synchronization=1,RadioEquipmentClock=1
• RadioEquipmentClock=1,RadioEquipmentClockReference=1
•
CV Backup Using SHM
SW Upgrade Using SHM