Uploaded by kgbalpha

Ericsson 5G

advertisement
Etisalat & Ericsson
5G cooperation and knowledge sharing sessions
5G
5G Final topology, NSA option 3x
Antenna
2G/3G/4G
NR AIR6488
B42
5G/4G NSA
5G E/// EPC
+ UDC
eCPRI
OLT
gNB BB6630 (midBand)
GPON
10G SFTP+
eNB BB5216 (800,2100)
Intelligent Connectivity
1G
DUW
10G
PE
Router 6471 +TDM1001
ML
E1
DUG
TCU
NGS Sych
Add 5G in co-loc w/ 4G site in NSA with band 4G, FDD
•
•
•
•
Ericsson Internal | 2018-02-21
GPS GM Synch
1G
10G
DUS
WNC Pocket
Router
IP/MPLS
PE
For FOA sites (B42), anchoring band will be B1 or B20
Replace TCU/SIU with R6471 with Time/Phase Synch source (GPS GM, 1588v2) and 10Gbps ports
Both scenarios are shown here; GPON and MW. Dark fiber to be considered for some sites as well
R6471+TDM1001 Connectivity
GPON/Dark Fiber BH
ENM
LTE2300
LTE1800
1/1
1/2
3G2100
1/5
3G900
1/9
5G
BSC
1/10
1/3
GPON
R6471
DAS VRF
PE-AGG
IP/MPLS
1/4
RNC
TDM1001
EPC
RJ45
2G DUG
2018-08-12 | Ericsson Internal | Page 7
1G SFP
10G SFP
E1 Cable
5G New hardware
BaseBand 6630
AIR 6488
Router6471 + TDM1001
2018-08-12 | Ericsson Internal | Page 10
AIR 6488
— Advanced Antenna System (AAS)
— 64TX/64RX with 128 AE (B42 with 192 AE)
— Up to 200W
— EIRP upto 76 dBm
— Up to 100 MHz IBW
— Up to 3 carriers NR and/or LTE (band dependent)
— Max total carrier BW is 100MHz for NR, or 60MHz for LTE
— 3 x 10 Gbps eCPRI
— Weight: ~ 45 kg
— Size (H x W x D): ~ 810 x 400 x 200 mm (band depended)
— -48 VDC
— -40 to +55 ̊C
2018-08-12 | Ericsson Internal | Page 11
R6471+TDM1001 Connectivity
GPON/Dark Fiber BH
GPS
3G2100
GPON
5G
LTE2300
LTE1800
DUG1_18
DUG1_9
3G900
DUG2_9
RJ45
1G SFP
10G SFP
E1 Cable
2018-08-12 | Ericsson Internal | Page 8
AIR 6488 B42
AIR 6488 B43
Technical Specification
Technical Specification
Antenna Elements
Antenna Branches
Antenna Matrix (row x col)
Band – B42D (FOA)
Band –B42F
IBW
Output Power
Power Consumption
Weight
Dimensions
Type of cooling
CEPT compliance
Multi-layer MU MIMO:
Antenna Elements
Antenna Branches
Antenna Matrix (row x col)
Band
128
64T64R
8 x 8, (2x1 subarray)
3600-3800Mhz
IBW
Output Power
Power Consumption
Weight
Dimensions
Type of cooling
CEPT compliance
Multi-layer MU MIMO:
100 MHz
200 W
<1200 W
~45 Kg
800*400*150
Passive
128
64T64R
8 x 8, (2x1 subarray)
3500-3600Mhz
3420-3600Mhz
100 MHz
200 W
<1200 W
~45 Kg
800*400*150
Passive
Up to 16 layers
Up to 16 layers
NOTE: AIR B42D will be the 1st available in Q3/4, then B42F and B43 in late Q4
AIR6488, BB6630, Router
3 x AIR6488
1x Baseband 6630
Router 6471/2
Total/5G 3sectors
2018-08-12 | Ericsson Internal | Page 12
Typical
Max (W)
(W)
1200
120
180
35
60
Power
Fuse Rating(A)
supply
-48V DC 3*40 (min 50max)
-48V DC
1*30
-48V DC
1*6
Total Power
Consumption (W)
4200
180
60
4440
BASEBAND 6630
AIR 6488 Outdoor Installation
Environments to Avoid
The AIR unit is designed for outdoor use but to ensure optimal
operation, avoid the following:
• Hot microclimates caused by, for example, heat radiated or
reflected from dark or metallic walls or floors .
• Chimney mouths or ventilation system outlets
• Large glass or concrete surfaces .
Avoid radio interference by keeping the area directly in front of
the antenna clear of the following:
• Metal surfaces or objects such as railings, ladders, or chains .
• Equipment generating electromagnetic fields, for example,
electric motors in air conditioners or diesel generators .
• RBS equipment
2018-08-12 | Ericsson Internal | Page 13
Hardware & Power
AIR Unit Fuse and Circuit Breaker Recommendations
AIR Unit Parts
2018-08-12 | Ericsson Internal | Page 14
AIR 6488 Unit Connection Interfaces
2018-08-12 | Ericsson Internal | Page 15
AIR 6488 Optical Indicators
The AIR unit is equipped with optical indicators that show the system status.
2018-08-12 | Ericsson Internal | Page 16
Baseband 6630
— Optimized for main-remote configurations
—
—
—
—
—
—
—
19 inch wide, 1U high, <352mm deep
15 SFP/SFP+ for CPRI inter-connect to Radio Units reducing the need for Baseband R503
2 optical 1/10Gbps SFP/SFP+ ports and 2 electrical 1Gbps RJ45 ports
Eight External Alarm ports
Dual 48V DC power feeding
Self-contained environmental control & field replaceable fan unit
Hardware Prepared for NR (5G) and eCPRI
2018-08-12 | Ericsson Internal | Page 17
comparison
Baseband
6620/30
Main
Unit
6601
Baseband
5212/16
Baseband
R503
Baseband Main Unit (6601) + Baseband 5216/5212 + dummy
OR
Baseband Main Unit (6601) + Baseband 5216/5212 + Baseband
R503
› Baseband 6630/20 is standalone & has its own
climate control
› Baseband 6630/20 has 15 CPRI ports & dual
power feeding
› Typical power consumption estimated to
(at 25°C and typical load)
Baseband 6630: 123W
Baseband 6620: 93W
2018-08-12 | Ericsson Internal | Page 18
› The RBS 6000 chassis is mandatory for Baseband
5216/12
› Baseband R503 needed to increase number of CPRI
ports
› Baseband 6630 will have > 50W lower power
consumption compared to the corresponding
Baseband Main Unit (6601) + Baseband 5216 +
Baseband R503 configuration
HWAC to enable more than 6 CPRI ports
BB6630 Mounting
—In controlled environments
—Mounting in 19 inch racks or in Transmission (TM) compartment in Ericsson enclosures
SCU
PCF
SHU
PDU
D D
U U
x x
R R R R R R
U U U U U U
S S S S S S
Cable management
PDU
Air restrictor plate incl CM
3.5U subrack
TCU 04
TM Space
2018-08-12 | Ericsson Internal | Page 19
BB6630 Front & rear view
2018-08-12 | Ericsson Internal | Page 20
BB6630 Front panel Interfaces
2018-08-12 | Ericsson Internal | Page 21
BB6630 Factory & power reset
— Use a pen to press down the Factory Reset Button for more than 8 seconds. Wait until the
unit has been restarted and the Operational optical indicator once again is flashing slowly at
0.5 Hz, before releasing the button
2018-08-12 | Ericsson Internal | Page 22
BB6630 installation
• The standard brackets are movable and can be placed in two different positions to adjust the baseband unit
in the right position in the hosting rack.
• When installing the baseband unit in an RBS, make sure to have the brackets in the 50 mm position.
• For cooling purposes the minimum free space is 30 mm behind the baseband unit.
2018-08-12 | Ericsson Internal | Page 23
GROUNDING
• Ground the baseband unit by connecting it to an grounding cable.
• If the unit is installed in an RBS or Enclosure, the grounding cable is not required.
2018-08-12 | Ericsson Internal | Page 24
Router 6471
Indoor small site router
—
—
—
—
—
—
—
—
—
—
—
30G Full Duplex Forwarding Capacity
2x1/10G SFP+, 4x1G SFP, 4x1G RJ-45
2 Gbps IPSec ⃰
128 L3VPN, 768 PW
8Gb packet buffer, 512 queues
1RU, 33W(TYP)
219 mm x 41mm x 220mm (250mm depth with optional fan)
-40ºC to 65ºC
Passive cooling with optional fan accessory for temp above 55C
Advance sync features
Programmability and SDN support
Hardened and cost effective CSR for emerging market and
suburban sites.
⃰ HW prepared for 8 Gbps
2018-08-12 | Ericsson Internal | Page 25
6471 interfaces & capacity
4x 100/1000 Base-T RJ45 ports
Synchronization interfaces:
1x RJ45 port 1PPS+TOD (ITU-T G.703)
1x RJ45 console
port
1x USB 2.0 port
Dual power
feed
2x GE/10GE SFP+ ports
4x GE SFP ports
1x RJ45 Alarm port for 3 input
and 1 output alarm contacts
2018-08-12 | Ericsson Internal | Page 26
1x GE Base-T Ethernet for
out-of-band management
TDM 1001
E1 CES/ABIS expansion module
—
—
—
—
—
—
—
—
—
8xE1/T1 Abis over IP
16 x T1/E1 CES
1 x GigE RJ-45/SFP combo port
1 x Ethernet management port
1RU, 20W(TYP)
219 mm x 41mm x 220mm
-40ºC to 65ºC,
Passive cooling
Managed as Attached Unit of any indoor Router 6000 variants
(e.g. No seperate IP address)
— Can be installed in the same 1RU hosting shelf next to Router
6471
Hosting Shelf
1RU
Router 6471
2018-08-12 | Ericsson Internal | Page 27
19”
TDM 1001
TDM 1001 interfaces & capacity
8x RJ45 ports for up to 16x E1/T1 interfaces
1x GE Base-T Ethernet for
out-of-band management
Dual power feed
1x GE SFP
1x 100/1000 Base-T RJ45 ports
2018-08-12 | Ericsson Internal | Page 28
1x RJ45 console port
Ericsson.com
Download