Ericsson Radio Systems Overview
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Ericsson Radio System Overview
Ericsson Radio System Overview LZU1089991
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© Ericsson AB 2018 | LZT1381612 R5A
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Ericsson Radio 5G System CoreOverview Concept
Ericsson Radio System Overview STUDENT BOOK LZT1381612 R5A
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Ericsson Radio System Overview
DISCLAIMER This book is a training document and contains simplifications. Therefore, it must not be considered as a specification of the system. The contents of this document are subject to revision without notice due to ongoing progress in methodology, design and manufacturing. Ericsson shall have no liability for any error or damage of any kind resulting from the use of this document.
This document is not intended to replace the technical documentation that was shipped with your system. Always refer to that technical documentation during operation and maintenance.
© Ericsson AB 2018 This document was produced by Ericsson. The book is to be used for training purposes only and it is strictly prohibited to copy, reproduce, disclose or distribute it in any manner without the express written consent from Ericsson. This Student Book, LZT1381612 R5A supports course number LZU1089991 R5A.
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Ericsson Radio System Overview
Course Objectives On completion of this course the participants will be able to: › › › › › › › ›
Discuss the evolution of the radio access network List the features of the baseband products Describe the different Fronthaul products suited for macro and small cell deployments Identify different Radio Products and their primary features Describe the wide range of Backhaul products for Outdoor and Indoor Scenarios List the new enclosure and power options available under Ericsson Radio System Hardware Expand the products under Small cell portfolio and describe their features and benefits List and discuss the available Energy solution options under the Ericsson Radio System portfolio
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Ericsson Radio System Overview
Table of Contents Chapters……………………………………………………………....Page 1 2 3 4 5 6 7 8
Introduction to Ericsson Radio System ……………….………………..… 007 Baseband …………………………………..…………………………………057 Fronthaul……………………………………………………………………… 093 Radio …………………………………………………………………………. 129 Backhaul…………………………………………………………………….. 189 Enclosures and Power Systems ……………………………..................... 227 Small Cells ………………………………………………….…….................263 Green Deployment/Energy Solutions ….…………………………............ 299
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Ericsson Radio System Overview
Intentionally Blank
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Ericsson Radio System Overview
Ericsson Radio System Overview Introduction to Ericsson Radio System
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Ericsson Radio System Overview
Objectives of Chapter 1 After this chapter the participants will be able to: 1
Discuss the evolution of the radio access network
1.1 Identify a typical existing site and its challenges to meet the future demands 1.2 List the requirements for the future networks 1.3 Explain the multi-standard, multi-band and multi-layer solutions with Ericsson Radio System 1.4 Discuss how a typical Ericsson Radio System based site could look like © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-8
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Ericsson Radio System Overview
Market Trends and insights TRAFFIC GROWTH
MULTI STANDARD GSM HSPA LTE
2015 10x 2021 2015
COVERAGE
2021
MOBILE SUBS by region and technology
≈ 95% > 90%
GSM HSPA LTE
≈ 75% © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-9 Source:
MEA
AP
LA
CEE
WE
NA
Ericsson Mobility Report June 2016
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Ericsson Radio System Overview
Radio trends Driving the requirements for radio network transformation
Multi‐standard
Multi‐band
and more on the way
now
Multi‐layer
is becoming the norm
5000 MHZ 3500 MHZ
LTE WCDMA/HSPA GSM/EDGE
2600
MHZ
CA FDD/TDD
1800 MHZ 800 MHZ
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Ericsson Radio System Overview
Radio Transformation Requirements Multi-standard // Multi-band // Multi-layer RADIO PERFORMANCE
Deliver the best user experience
SCALABILITY
FLEXIBILITY
ENERGY EFFICIENCY
TOTAL COST OF OWNERSHIP
Meet the Deliver capacity Sustainable Secure the best challenge and performance and profitable business case for of growth where it is needed networks mobile networks
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Ericsson Radio System Overview
Networks are about 3 x Multi Multi3X Networks Multi-standard multi-band multi-layer GSM HSPA 5.0 GHz UNLICENSED
LTE
2600 TDD
CARRIER AGGREGATION
2100
1800
900 COORDINATED MACRO & SMALL CELLS
800
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Ericsson Radio System Overview
MULTI-standard Multi-Standard Opportunities opportunities
DRIVERS › MBB introduction/expansion › GSM Spectrum Refarming › Devices ecosystem
CHALLENGES Spectrum & cost efficiency, and minimum site impact
SOLUTIONS › Thin layer GSM › Ericsson Radio System › Ericsson Network Manager
Maintain network simplicity & add flexibility
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Ericsson Radio System Overview
Thin layer GSM
900 MHz
1800 MHz
GSM
GSM
GSM GSM NETWORK EFFICIENCY
GSM + WCDMA
NO GSM UNIQUE HW
OPEX
layer
COMPETENCE
Thin
POWER
Re-farming
For hspa/lte
HW
gsm
SPECRTUM
Free up more spectrum for MBB
GSM AUTOMATION
GSM + LTE
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Ericsson Radio System Overview
SPECTRUM Spectrum Consideration CONSIDERATION LICENSE ASSISTED ACCESS (LAA)
LTE Primary Carrier
LTE Secondary Carrier
Licensed Spectrum
Unlicensed Spectrum
GSM REFARMING
FDD/TDD CONVERGENCE TDD UL TDD DL FDD UL+DL
900 MHz
GSM
GSM + WCDMA
1800 MHz
GSM
GSM + LTE
NEW BANDS
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Ericsson Radio System Overview
Maximize MBB Coverage MAXIMIZE MBB COVERAGE Psi Coverage Cost-efficient coverage expansion
4wayRx DIV Matches mid band to low band High band
AIR 4RX
Mid band
Low and medium capacity area
CELL COVERAGE AREA
CA/MC Matches downlink to low band High band
AIR 4RX
Low band
CELL COVERAGE AREA
LTE CA/HSPA MC
Mid Band
LTE CA/HSPA MC
Low band
CELL COVERAGE AREA
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Ericsson Radio System Overview
Innovation for performance
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Ericsson Radio System Overview
4X4 MIMO
4x4
100% cell Capacity increase
MIMO
HIGHER SPECTRUM EFFICIENCY
175%
MORE NETWORK CAPACITY
cell edge bit rate
HIGHER END-USER THROUGHPUT
2X2
4X2
4X4
Two Data Streams Two Transmission Paths
Two Data Streams Four Transmission Paths
Four Data Streams Four Transmission Paths *as compared to 2x2 for TDD B41 for 1732m ISD equal buffer
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Ericsson Radio System Overview
LTE DL MIMO Evolution Peak Rate
Higher Speed Massive MIMO
(20MHz 64QAM)
More Capacity
600 MBPS
Better Performance
8x8 MIMO
cat-8
Higher Spectrum Efficiency
300 MBPS
4x4 MIMO
cat-5
Better Coverage
150
MBPS cat-4
4x2 MIMO
2x2 MIMO
75
MBPS
cat-3
Diversity/ Beamforming Released
Diversity/ Beamforming
8x2 MIMO (TDD)
Diversity/ Beamforming
Future
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Coverage
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Ericsson Radio System Overview
Best BestHSPA Hspaperformance Performance Multicarrier & Data Acceleration
MULTICARRIER
DATA ACCELERATION 32MBPS
RNC 3CHSDPA (downlink)
EUL-MC
Uplink peak rate
(uplink)
F1 F2 F3
Up to 6x higher user throughput in uplink
15 MHz
10 MHz
downlink
uplink
DOWNLINK
UPLINK
F1 F2
63MBPS downlink peak rate
Up to 3x higher user throughput in downlink
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Ericsson Radio System Overview
High Capacity MBB Site High Capacity MBB site - WCDMA Wcdma VERY HIGH CAPACITY
HIGH CAPACITY
Power Pooling
Power Pooling
Power Pooling
F F F F 1 2 3 4
F5 F6
F F F 1 2 3
2x 900 MHz
4x 2100 MHz
BB P1
BBP 3
BB P2
F 4 1x 900 MHz
3x 2100 MHz
CE Pooling
BB P1
BBP 3
CE Pooling
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Ericsson Radio System Overview
Site Trends › High cost pressure › Increased focus on energy efficiency
TOTAL COST OF OWNERSHIP
› Complex & large sites: – Multi band & multi layer & multi energy – C-RAN and Elastic RAN
› Multi-vendor requirements from operators
ENERGY EFFICIENCY
› Infrastructure companies providing power and also enclosures for operators › New energy storage technologies
FLEXIBILITY
› Remote site management to save OPEX › Industry and Society, IoT
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Ericsson Radio System Overview
AREA TRAFFIC DENSITY
Small cellscells strength high traffic Small Strength IMPROVE DENSIFY ADD
IMPROVE IMPROVE DENSIFY IMPROVE
DENSE URBAN
DENSIFY
URBAN
SUBURBAN
RURAL
ADD
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Ericsson Radio System Overview
Coordination Key to the User Experience and TCO Coordination Uncoordinated cells
coordinated cells
Tightly coordinated cells
Split Spectrum (Basic Mobility)
Shared Spectrum (Full X2 Mobility)
Common Baseband (CoMP)
ADD9 cells for 2X capacity
Limited User High Experience TCO
ADD5
cells for 2X capacity
Good User Reduced ExperienceTCO
50%
ADD3
cells for 2X capacity
Great User Reduced Experience TCO
70%
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Ericsson Radio System Overview
Solutions for 3xMulti Solutions for 3XMulti Multistandard
Centralized RAN
Baseband Polling
Spectrum Refarming
GSM network efficiency
No GSM unique HW GSM automation
LTE Carrier Aggregation
Multi-band
Small Cell Portfolio
HSPA Dual Band Multi Carrier
Small Cell Coordination
Multi Standard Mixed Mode
Single standard
Multi standard
Ericsson Radio System
Load Management
Integrated Small Cells
Multi-layer
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Ericsson Radio System Overview
Ericsson Radio System
5 bands, 3 standards, 1 antenna 1 Gbps microwave backhaul © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-26
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Ericsson Radio System Overview
Ericsson Radio System Think Site, think End to End
SITE
RADIO
SMALL CELL
FRONT- BASEBAND HAUL
BACKHAUL
POWER
ENCLOSURE
CONTROLLER
A Site is not one radio only or one digital unit only. It is a complete system with all functions.
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Ericsson Radio System Overview
17 New products in Ericsson Radio System
AIR 1281
Streetmacro 6701
Multi-band
AIR 4488
Radio 2238
Massive MIMO + Passive Antennas
Massive MIMO
Street Macro
AIR 4455
AIR 3239
Mid-band
Radio 8823
AIR 5331
Small Cell
Radio 4402
Radio 4408
AIR 6479
AIR 3252
Baseband
5G Dot
Baseband 6318
AIR 8828
Fronthaul
Fronthaul 6322
Fronthaul 6622
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Ericsson Radio System Overview
COMPLETE 5G RADIO PORTFOLIO 5G NR Radios AIR
COMPLETE 5G NR MASSIVE MIMO RADIO PORTFOLIO
6468
› New Mid-band and High-Band versions › Support 5G plug-ins: Massive MIMO and Multi-user MIMO › Work with today’s Ericsson Radio System Baseband
AIR
6488
AIR
5121 Baseband
LTE + 5G Plug-Ins Backwards compatible
Interworking
5G NR New Radio interface
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Ericsson Radio System Overview
Ericsson Radio System on the road to 5G
50%
GLOMO AWARD red dot award
Smaller
› Highest performance › Lowest TCO › Best energy efficiency
50% LIGHTER
Industry’s most
compact radio
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Ericsson Radio System Overview
Adapt to any Adapt to any site site › Multiple mounting options › Simplified site acquisition › Minimize footprint › Fast installation and expansion › Airflow innovation
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Ericsson Radio System Overview
Reduced windload
1667
314
NEWTON
NEWTON
Based on 3 band sector with wind speed 55 m/s © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-32
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Ericsson Radio System Overview
The Radio Portfolio
The Radio Portfolio
Macro radios
Active Active Passive Active
Small cells
Active Active Passive
AIR
Building practice
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Ericsson Radio System Overview
Go underground Vault Radio 2268 OPERATOR CHALLENGE
Quickly add capacity in dense urban areas with minimal visual impact
GO UNDERGROND
Vault Radio 2268
› Place radio in existing underground vaults with fiber and power infrastructure connected to antenna on ground level › Fast permit process and deployment › No visual impact in street environment VAULT RADIO 2268 › Protected from total dust ingress and long term immersion (IP68) › Versions for all Radio System micro bands (TDD / FDD / LAA) › Full integration with existing network, including Carrier Aggregation capability
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Ericsson Radio System Overview
The network enabler –the most powerful Baseband 4x4 MIMO Devices 960MHz Antenna BW 1 Gbps Devices 10GE interfaces
Cell site router › Integrated
Spectrum migration › Mixed Mode operation › LTE FDD/TDD, WCDMA, GSM
Optimal coordination Elastic RAN Internet of Things >8000 CU
5G Prepared Split architecture
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Ericsson Radio System Overview
Backhaul portfolio MINI-LINK 6354
MINI-LINK 6352 Switch 6391 MINI-LINK 6351
MINI-LINK 6363 Router 6675
MINI-LINK 6692 MINI-LINK 6691
Router 6672 MINI-LINK 6651
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Ericsson Radio System Overview
Ericsson EricssonRadio RadioSystem System : Mini-Link MINI LINK Products Transport portfolio with advanced radio integration Highest node capacity in smallest form factor World´s smallest high power radio unit Managed by Ericsson Network Manager
MINI-LINK 6351
MINI-LINK 6363
MINI-LINK 6352 Fronthaul 6392
MINI-LINK 6691
MINI-LINK 6692
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Ericsson Radio System Overview
Ericsson system: Ericssonradio Radio System Router Router Products Transport portfolio with advanced radio integration High density 10G and 100G interfaces SDN enabled Managed by Ericsson Network Manager
Router 6371
Router 6471
Router 6672
Router 6675
Router 6274
Small Cell Outdoor
Small Cell Indoor
Cell Site Router
Pre-aggregation Router
Modular Aggregation Router
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Ericsson Radio System Overview
Increase Traffic Expand MBB Accommodate C-RAN
TRAFFIC
Site demands for all needs – Enclosure Products
634 0
633 0
632 0
6130
6140
6150
DENSE URBAN URBAN
SUBURBA N RURAL
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Ericsson Radio System Overview
Remote site management –A
Cloud application
ESCM
Customers private IP network
Server hall
Operations Center
ESC
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Ericsson Radio System Overview
Protect your investment RBS 2000
RBS 3000
RBS 6000
Ericsson radio system
5G
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Ericsson Radio System Overview
Ericsson EricssonNetwork NetworkManager Manager ERICSSON NETWORK MANAGER
4G
WIF I
4GIP
Edge IMS
3G
2G
uW
Opto CS
Macro
Pico
Dot
Ethernet
HARMONIZED OPERATIONS VoLTE
CONVERGED PROCESSES
EPC
SDN NFV
EFFICIENCY & QUALITY
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Harmonized Operations -
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Ericsson Radio System Overview
Reduce space and power needs Digital Units
TCU
Baseband
= GSM HSPA LTE TCU
80% less space with 56% power saving © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-43
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Ericsson Radio System Overview
Baseband 52XX
Introduction of ip-only transport › Sites with two Baseband 52XX
Multi standard Mixed Mode operation WCDMA+GSM
Single standard Mixed Mode operation LTE
LTE
–IP transport aggregation for all standards by Baseband 52XX
WCDMA GSM
10GE
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Ericsson Radio System Overview
Ericsson GREEN LTE ‐25%
› HW and SW solutions which decrease RBS energy consumption
› No penalty on network performance
CELL SLEEP MODE MICRO SLEEP TX AIR ANTENNA SOLUTION
‐17%
ENERGY SAVINGS
AREA TRAFFIC DENSITY
› Smart LTE software to decrease radio power when its not needed
ENERGY SAVINGS
‐ 52%
ENERGY SAVINGS
CELL SLEEP MODE MICRO SLEEP TX
MICRO SLEEP TX MIMO SLEEP MODE PSI COVERAGE
DENSE URBAN URBAN
SUBURBAN
RURAL
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Ericsson Radio System Overview
Smart scheduling saves energy Low Energy Scheduler Solution OPERATOR CHALLENGE
-15%
Reduce network OPEX by lowering energy consumption while securing top performance
POWER SAVING POTENTIAL
Conventional Scheduler
NEW UNIQUE SOFTWARE: SCHEDULE LTE TRAFFIC TO SAVE ENERGY › Group downlink LTE traffic in time › Enable power amplifier to go more often in sleep mode › Seen in field: 6 % additional energy saving ›
Low Energy Scheduler Solution
Total saving potential including micro sleep TX: -15%
› Less interference in network ›
Improved App Coverage
Time
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Ericsson Radio System Overview
Energy savings HW+SW
High Traffic Sites Micro Sleep TX • Cells Sleep Mode • Cell sleep Mode • Antenna Integrated Radio
Medium Traffic Sites
•
860W
-25% 647W
• •
•
Micro Sleep TX MIMO sleep Mode Cells Sleep Mode
840W
-17%
Low Traffic Sites •
• •
Micro Sleep TX MIMO Sleep Mode Psi Coverage
840W
-52%
695W 405W
1882 Kwh/Site/year
1270 Kwh/Site/year
3810 Kwh/Site/year
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Ericsson Radio System Overview
Ericsson Cloud RAN For 4G and 5G
Intelligent Interconnect Automated Network Fabric, distributed intelligence and controllers for automated connectivity
Distributed RAN
Centralized RAN
Elastic RAN
Virtualized RAN
Simple flat architecture relaxed interconnect and simple deployment
Colocation of resources for maximum interworking and performance in hotspots
Adaptable interworking across the network for D-RAN and C-RAN
Introducing split architecture for full flexibility on the road to 5G
Radio Coordination Improved spectral efficiency and end-user experience
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Ericsson Radio System Overview
RAN virtualization Plug-In Centralized Layer 3, common mobility anchor
5G NR L3 L2 high L2 low L1
RAN Virtualization Plug-in benefits
L2 Low L1
L2 Low L1
High Capacity High Availability
Centralized RAN Architecture
Distributed RAN Architecture Ericsson Commercial in Confidence | © Ericsson AB 2016
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Ericsson Radio System Overview
Operators Steer towards 5G Driven by Mobile Broadband and Internet of Things
7.7
Billion MBB SUBSCRIPTIONS by 2021
1.5
5G
Billion Cellular IoT devices by 2021
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Source: Ericsson Mobility Report, June 2016
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Ericsson Radio System Overview
Operator waypoints Operator Waypoints On the road On the road to 5G to 5G
5G PERFORMANCE EVOLUTION Massive MIMO // Cloud RAN // Gigabit speeds
NETWORK DENSIFICATION Add macro // Add micro // Minimize footprint
SPECTRUM OPTIMIZATION Analyze // Optimize // Add unlicensed bands © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-51 Ericsson Radio System Shifts to Next Gear | Commercial in confidence | © Ericsson AB 2016 | 2016-08-26 | Page 51
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Ericsson Radio System Overview
5G Use Cases BROADBAND AND MEDIA EVERYWHERE
5G USE CASES
SMART VEHICLES, TRANSPORT CRITICAL SERVICES AND INFRASTRUCTURE CONTROL CRITICAL CONTROL OF REMOTE DEVICES
HUMAN MACHINE INTERACTION
SENSOR NETWORKS
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Ericsson Radio System Overview
Access Complexities Use Case Technical Requirements Vary Widely
Use Cases
Technical Requirements
Sensors Everywhere
Broadband and Media Everywhere Smart Vehicles, Transport
Infrastructure, Monitor and Control
Critical Control of Remote Devices
Interaction Human-IoT
›
High User Density
›
High Capacity
›
Low Device Energy Consumption
›
Good Cell Edge Performance
›
Reduced Signaling
›
Low Latency
›
Access to New Spectrum
›
Faster Data Throughput
›
High Availability
›
Quality Uplink
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Ericsson Radio System Overview
Ericsson 5G Plug-ins
Software innovations applying 5G technology concepts
5g
MASSIVE MIMO MULTI-USER MIMO RAN VIRTUALIZATION LATENCY REDUCTION INTELLIGENT CONNECTIVITY
4G
Mobile Broadband
IoT
VoLTE
Public Safety
Indoor Fixed Wireless Access
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Ericsson Radio System Overview
Summary of Chapter 1 The participants should now be able to: 1
Discuss the evolution of the radio access network
1.1 Identify a typical existing site and its challenges to meet the future demands 1.2 List the requirements for the future networks 1.3 Explain the multi-standard, multi-band and multi-layer solutions with Ericsson Radio System 1.4 Discuss how a typical Ericsson Radio System based site could look like © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-55
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Ericsson Radio System Overview
Intentionally Blank
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Ericsson Radio System Overview
Ericsson Radio System Overview
Baseband
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Ericsson Radio System Overview
Objectives of Chapter 2 After this chapter the participants will be able to: 2
List the features of the baseband products
2.1 Identify and list the primary features of new Basebands 2.2 List the existing Digital Units and explain their primary features 2.3 Explain with use cases different baseband deployment configurations
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Ericsson Radio System Overview
Ericsson Radio System MINI-LINK 6352 Fronthaul 6392
Power 6610
Power 6306 Enclosure 6306 Enclosure 6110
Radio 2203
Radio 2217
Baseband 5216
Radio 0208
Baseband 5212
Power 6302
MINI-LINK 6692
Router 6274
MINI-LINK 6691
Router 6672
MINI-LINK 6363
MINI-LINK 6351
Router 6675
Baseband R503 Baseband 6630
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Ericsson Radio System Overview
Baseband portfolio
Baseband 5212
Baseband 5216
Baseband
Baseband R503
baseband portfolio
Baseband Radio Interconnect
Baseband C608
Baseband Interconnect
Baseband Main Unit
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Ericsson Radio System Overview
Enhanced Baseband portfolio Radio
Baseband 6303
Radio 2203/2205
Baseband 6502 Baseband 6630 Baseband 6620
Baseband
Enhanced baseband portfolio
Outdoor Baseband
Baseband P614 Baseband 6318
Baseband PIM Mitigation
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-61 Outdoor Baseband
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Ericsson Radio System Overview
Examples of Baseband naming Baseband 5216 Upper case Lower case
Baseband 5216 Baseband 5212
Space
Baseband R503
Random / Capability
52
Represent the RBS 6000 building practice, 52 products fit in existing RBS 6000 cabinets.
R5
The R stands for radio interconnect, previously known as XMU, R5 product fit RBS 6000 cabinets
63/65
Baseband T605
Outdoor Macro / Micro Basebands Baseband 6630
66
Represents 19”building practice
XMU : Auxiliary Multiplexing Unit © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-62
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Ericsson Radio System Overview
Most powerful Baseband Ericsson Many Core Architecture
Baseband pooling
One O&M interface Fully secure
Compact
All standards
Integrated cell site router
Power efficient
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Ericsson Radio System Overview
Ericsson Radio System Baseband Industry's first full Mixed Mode Baseband
LTE
Massive IOT
FDD / TDD
NB / M1 / EC-GSM
WCDMA
GSM
All simultaneously supported on one Baseband board © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-64
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Ericsson Radio System Overview
Baseband HW and SW Mixed Mode Baseband
OSS RC
One IP, One Managed Element
Baseband 5216 LTE TN
WCDMA Common
› TN = Transport – Independent of radio standard
› Common = Node handling – Radio config (sectors and CPRI), Security, Sync, APC, Node O&M
Same Transport and Node handling as Single standard
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Ericsson Radio System Overview
Baseband 5216 Hardware capabilities
› LTE (FDD & TDD supported) – 8000 connected users* – 1.2 Gbps Downlink & 600 Mbps Uplink* – Up to 24 cells & 960 MHz antenna bandwidth* – Up to 2000 VoIP
› WCDMA – 1152 CE Downlink & 4096 CE EUL Uplink* – 336 Mbps Downlink & 168 Mbps Uplink – Up to 24 cell carriers
› GSM – Up to 48 TRX *Hardware prepared
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Ericsson Radio System Overview
Baseband 5216 Mixed Mode capabilities › LTE + GSM* – Up to 4000 CU – Up to 12 cells & 480 MHz antenna bandwidth – Up to 24 GSM TRX
› LTE + WCDMA* – – – –
Up to 4000 CU Up to 12 cells & 480 MHz antenna bandwidth Up to 576 CE DL & 960 CE EUL UL* Up to 12 WCDMA cell carriers
› WCDMA + GSM* – Up to 576 CE DL & 960 CE EUL UL* – Up to 12 WCDMA cell carriers – Up to 24 GSM TRX © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-67
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Ericsson Radio System Overview
Baseband 5216 Mixed Mode capabilities › LTE + WCDMA + GSM – Up to 4000 Connected Users LTE – Up to 12 LTE cells – Up to 480 MHz antenna bandwidth LTE – 288 CE Downlink & 1024 EUL CE Uplink* – 126 Mbps Downlink & 42 Mbps Uplink WCDMA – Up to 6 WCDMA cell carriers – Up to 12 GSM TRX
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Ericsson Radio System Overview
Baseband 5212 hardware capabilities
› LTE (FDD & TDD supported) – 4000 connected users* – 600 Mbps Downlink & 300 Mbps Uplink* – Up to 12 cells & 480 MHz antenna bandwidth* – Up to 1000 VoIP*
› WCDMA – 576 CE Downlink & 960 CE Uplink – 252 Mbps Downlink & 84 Mbps Uplink – Up to 12 cell carriers
› GSM – Up to 24 TRX
›
48 VDC with ~170 W normal use & ~200 W max**
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*Hardware prepared
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Ericsson Radio System Overview
Hardware structure of Baseband -48VDC
Power Board Processor
GPS LMT EC Bus Ethernet
CPU
Baseband processing
ASIC
SFP
Radio SFP I/F SFP
CPRI link to radio unit
SFP SFP SFP SFP
Baseband
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Ericsson Radio System Overview
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
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Ericsson Radio System Overview
DUL 20 – Baseband 5216 T N B
R I
S Y N C
T N B
M M I
I D L
R I
E C b u s
T N A
I D L
T N A
E C b u s
G P S
P o w e r
P o w e r
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Ericsson Radio System Overview
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
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Ericsson Radio System Overview
Baseband 5216/5212 Hardware › 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 ports – 6 x 2.5G to 10G SFP/SFP+ CPRI ports – 2 x IDLe ports
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*Hardware prepared
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Ericsson Radio System Overview
Baseband 6630 and 6620
› LTE, WCDMA and GSM capacity and Mixed Mode capability – Baseband 6630 capacity & capabilities equivalent to Baseband 5216 – Baseband 6620 capacity & capabilities equivalent to Baseband 5212
› Optimized for main-remote configurations – 19 inch wide, 1U high, <350mm 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 1 Gbps RJ45 ports – Eight External Alarm ports – Dual 48V DC power feeding – Self-contained environmental control & field replaceable fan unit
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Ericsson Radio System Overview
Baseband 6502 – for MICRO › For micro and radio dot system › LTE (FDD & TDD supported) - 1000 connected users* - 600 Mbps Downlink & 250 Mbps Uplink* - 400/400 VoIP users (FDD/TDD)* - Up to 6 cells & 240 MHz antenna bandwidth* › WCDMA – 288 CE Downlink & 1024 EUL CE Uplink** - Up to 6 cell carriers** - 90 HS Codes** › Full Macro SW feature parity › Integrated GPS/GLONASS receiver with antenna › PoE out for e.g. microwave backhaul › Backhaul cascading › Size incl. support and PSU ~ 4,9 liters and weight ~ 5,1 kg › 3x CPRI interfaces › AC or DC * L17.Q3 ** W17.Q3 › IP65, -40 to + 55 ̊C
MICRO
6502
99 mm
BASEBAND
6502
267 mm 503 mm
200 mm
92 mm 200 mm
BASEBAND 6502
BASEBAND & RADIO
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Ericsson Radio System Overview
Baseband 6303 – for MACRO › For macro radio system › LTE (FDD & TDD supported) - 4000 connected users * - 600 Mbps Downlink & 250 Mbps Uplink * - 1000/500 VoIP users (FDD/TDD) * - Up to 12 cells & 480 MHz antenna BW * › WCDMA – 576 CE Downlink & 2048 EUL CE Uplink ** – Up to 12 cell carriers ** – 180 HS Codes ** › GSM – Up to 24 TRX › Mixed mode: G+W › PoE out for e.g. microwave backhaul › Backhaul cascading › Size incl. support and PSU ~ 4,9 liters and weight ~ 5,1 kg › Weight › 3x CPRI interfaces › AC or DC * L17.Q3 › IP65, -40 to + 55 ̊C ** W17.Q3
RADIO
BASEBAND 6303
BASEBAND
6303
267 mm
92 mm
200 mm
POWER 6302
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Ericsson Radio System Overview
Baseband 6318 OPERATOR CHALLENGE
Grow on existing sites and build on new sites with limited room for enclosures for baseband
USE OUTDOOR BASEBAND › High capacity › No need for separate enclosure › Can be installed close to Radios to simplify on-site cabling BASEBAND 6318 Baseband
6318
› Same capacity as Baseband 5216 and Baseband 6630 › Outdoor unit for one-bolt rail mounting › 5G NR, LTE (FDD, TDD), WCDMA, GSM, and NB-IoT
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Ericsson Radio System Overview
Baseband 6318 › 5G NR, LTE (FDD, TDD), WCDMA, GSM, and NB-IoT › Ethernet ports: 3 › CPRI / eCPRI ports: 6 › DC: - 48V › Weight: 15 kg › IP 65, -40 to +55˚ C › Backhaul cascading › External alarms
Preliminary data
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Ericsson Radio System Overview
High capacity radio system site MACRO
Backhaul
Baseband
Fronthaul
MICRO
PICO
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Ericsson Radio System Overview
Baseband R503 › Increased connectivity for new & existing radio units in large radio system configurations › CPRI multiplexing and demultiplexing – 16x SFP+ ports › Pluggable optical transceivers › Direct attach cables (electrical)
› Flexible – Upgradable – Manageable – Many possible locations in cabinet or at site
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Ericsson Radio System Overview
R503 supporting 3 LTE bands (Example) DUS 31
LTE 2600 3x15MHz MIMO
Electrical CPRI
LTE (RBB22_1C) Optical CPRI
DUS 31
RUS01 B7
LTE (RBB22_1B)
RRUS12 B3
Optical CPRI
LTE (RBB22_1B)
2x 10G CPRI Electrical or Optical CPRI
Baseband R503
Electrical CPRI
LTE 2600 3x15MHz MIMO LTE (RBB22_1C) Optical CPRI
LTE 1800 3x10MHz MIMO
LTE 800 3x10MHz MIMO
RUS01 B7
LTE (RBB22_1B)
RRUS12 B3 LTE 210 MHz Total Bandwidth
RRUS11 B20
Optical CPRI
LTE (RBB22_1B)
LTE 1800 3x10MHz MIMO
LTE 800 3x10MHz MIMO
RRUS11 B20
LTE third band Baseband R503 enabler to connect © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-82
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Ericsson Radio System Overview
13-18 Cell – with Baseband R503 R/RU R/RU R/RU
2.5G
R/RU R/RU
R/RU R/RU R/RU R/RU R/RU R/RU
BB R503
2.5G
BB R503
R/RU
BB5216
2.5G
Baseband R503
Baseband 5216
9,8 G
BB R503
9,8 G
Up to 3 Baseband R503 connected to the same Baseband 5216
Example of Baseband R503 used as a MUX
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Ericsson Radio System Overview
Shared CPRI R503
5216
CPRI configurations are flexible: › Baseband R503 available for all technologies › Possible to cascade different technologies in the same cascade chain
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Ericsson Radio System Overview
MSMM + Multi-band + Multi-cabinet Cabinet 1 SCU External synch
Baseband or DUS
RRUS RRUS RUS
RRUS RUS RUS
Cabinet 2
Synch SCU
Baseband R503
RRUS RRUS RUS
RUS RUS RUS
DUW
LTE Carrier Aggregation across cabinets © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-85
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Ericsson Radio System Overview
Location of R503 (examples)
RBS 6201
RBS 6102
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RBS 6101
RBS 6301
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Ericsson Radio System Overview
Baseband P614
› Baseband P614 has 6 incoming CPRI ports towards Baseband and 6 output CPRI ports towards Radio
› The Passive Intermodulation (PIM) mitigation unit will reduce PIM that occurs inside and outside the antenna system, both from static and dynamic PIM sources and for different band combinations. The Baseband P614 will provide improved network performance. › Two Baseband P614 units can be inter-connected to double number of ports or increase the computational power › Integrated with Ericsson Radio System › Supported by OSS-RC and ENM
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Ericsson Radio System Overview
Baseband C608
› Baseband unit for low latency L2 interconnecting to enable LTE Elastic RAN feature › Same HW format as Baseband T605, horizontal 19 inch › 12 x 1/10G SFP/SFP+ ports (3,6 uS latency between ports within domain)
› 4 x 1/10G SFP/SFP+ ports (3.6 uS latency between ports within domain) › Sync solution 1588v2 GM, BC and TC* › One O&M – moves transport demarcation point avoiding specialized cables
Elastic RAN Optimal coordination across the network for D-RAN and C-RAN
– Same O&M interface as multi-standard baseband – User interface is common and functional support from Ericsson management system is the same
› Fully verified by Ericsson as end-to-end Elastic RAN solution
*HW prepared
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Ericsson Radio System Overview
DIGITAL UNITS FOR LTE – FDD & TDD DUS 41 02
DUS 31 02
› LTE (hardware prepared):
› LTE (hardware prepared):
– 80 MHz with 2x2 MIMO – 40 MHz with 4x4 MIMO – 40 MHz with 4x Rx diversity – 4000 connected users – 500 Mbps downlink – 250 Mbps uplink – 1Gbps / 500 Mbps with dual DUS
› IP
– 40 MHz with 2x2 MIMO – 20 MHz with 4x4 MIMO – 20 MHz with 4x Rx diversity – 3000 connected users – 300 Mbps downlink – 150 Mbps uplink – 600 Mbps / 300 Mbps with dual DUS
› IP
– Gigabit Ethernet Connectivity
› Support for Auto-integration w/o laptop › IDL2 boot (for extension DU w/o IDL1)
– Gigabit Ethernet Connectivity
› Support for Auto-integration w/o laptop › IDL2 boot (for extension DU w/o IDL1)
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Ericsson Radio System Overview
Current DIGITAL UNITS FOR WCDMA
DUW 11
DUW 31
› WCDMA:
› WCDMA:
3x Gigabit Ethernet ports IP & ATM support 192 CE DL / 192/288* CE UL 168 Mbps DL 24 Mbps UL © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-90
3x Gigabit Ethernet ports HW Prepared for 12 cc IP support only 768 CE DL / 768/1152* CE UL 252 Mbps DL 92 Mbps UL
DUW 41 › WCDMA: 3x Gigabit Ethernet ports HW Prepared for 12 cc IP & ATM support 1152 CE DL / 1152/1728* CE UL 336 Mbps DL 138 Mbps UL
* With feature FAJ 121 2598 CE extension for EUL
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Ericsson Radio System Overview
Baseband Capacity Comparisons Micro RBS (RBS 6501)
DUL 20
DUS 31
DUS 41
Baseband 5216*
Connected users
1000
1500
2500
4000
8000
Scheduling Entity per TTI
18
12
24
48
96
3
6
9
12
24
225 / 75
175 / 50
350 / 150
500 / 250
1200 / 600
40
60
240
480
960Mhz
Nr of cells Throughput in Mbps (DL / UL) Aggregated antenna bandwidth (MHz)
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-91
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Ericsson Radio System Overview
Summary of Chapter 2 The participants should now be able to : 2
List the features of the baseband products
2.1 Identify and list the primary features of new Basebands 2.2 List the existing Digital Units and explain their primary features 2.3 Explain with use cases different baseband deployment configurations
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Ericsson Radio System Overview
Ericsson Radio System Overview
Fronthaul
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Objectives of Chapter 3 After this chapter the participants will be able to: 3
Describe the different Fronthaul products suited for macro and small cell deployments
3.1 Describe what Fronthaul is 3.2 Explain the characteristics and products under DWDM and CWDM 3.3 List and understand the specifications of Fronthaul 6392
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Ericsson Radio System Overview
Adding New Cells Centralized RAN Remote Radio Unit (RRU) only
1
Distributed RAN
2
BBU + RRU
No baseband unit (BBU)
Fronthaul CPRI Transport 1 to 10Gbps
IP Backhaul
Baseband Hotel
100M to 1Gbps
Centralized BBU Pool
IP Backhaul 100M to 1Gbps © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-95
Mobile IP Network
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Ericsson Radio System Overview
Drivers for Centralized Baseband › Superior Radio Performance
Centralized baseband
– Carrier aggregation for downlink capacity and speed – More sites, receiver diversity and CoMP for uplink coverage – Seamless mobility for VoLTE
› Base station site footprint › Hardware pooling › Virtualization
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Ericsson Radio System Overview
C-RAN Architecture
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Ericsson Radio System Overview
Why Fronthaul?
Distributed RAN
Centralized RAN
Elastic RAN
Virtualized RAN
Improved interworking between sites and layers
Colocation of resources and maximum performance in traffic hotspots
Optimal coordination across the network for D-RAN and C-RAN
Introducing split architecture for full flexibility on the road to 5G
Coordination Maximized spectrum efficiency and end-user experience
Fronthaul
Fronthaul – coordination enabler connectivity among remote radio sites
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Ericsson Radio System Overview
Ericsson fronthaul Facts and benefits
• Latency • Verified with radio
• Spectrum
• ERS building practice
• Capacity
• Zero footprint
• Common Management
• Indoor or outdoor
• Demarcation Point
• Zero-touch
• 3PP Radio compatibility
provisioning
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Ericsson Radio System Overview
C-RAN Performance and lower TCO Feature
Benefit
Value
› Low latency and jitter baseband CPRI transport
› Tight RAN coordination for up to 100% spectral gains
› 40% fewer cells needed for 2x the capacity
› Centralize BBUs and simple remote locations
› Lower remote power, rental cost, less equipment
› >50% OpEx savings › >30% CapEx savings
› Simple, superior RAN performance
› Scalability for growing app coverage
› Optimal use of $B spectrum investment
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Ericsson Radio System Overview
Spectrum Coordination Radio and Transport Macro (high power)
2-10 x UL speed without Small cell compromising DL (low power)
Common BBUs enables Coordinated Multipoint (CoMP) Coordination within macros Coordination between macros Best Downlink Best Uplink
Best Uplink Best Downlink
Within macro site: UL CoMP 40% increased capacity 100% increased cell edge bit rate
DL Coordinated Scheduling 15% increased capacity 30% increased cell edge bit rate © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-101
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Ericsson Radio System Overview
Centralized baseband Requires Fronthaul CPRI over Microwave RRU RRU
IP
Packet Network
CPRI over Fiber
Baseband Hotel Centralized Baseband Units Fronthaul
Backhaul
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Ericsson Radio System Overview
C-RAN Implementation (Example) CENTRALIZATION Total latency < 75μs Fiber length <15km
5km COORDINATION Coordination Sets between 1x Macro Sector and associated 3x Small Cells
Ring Diameter <4.8km
A
1x Baseband hotel per: 5km x 5km
Baseband Baseband Baseband
C
Baseband Baseband Baseband Baseband Baseband Baseband Baseband Baseband Baseband
5km 4.8km
15km
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Ericsson Radio System Overview
Ericsson fronthaul 28xCPRI
Fronthaul 6682
Fronthaul 6681 Passive Indoor Main
Fronthaul 6688
Fronthaul 6689
Active Indoor Remote
Passive Indoor Remote
Fronthaul 6389 Passive Outdoor Remote
24xCPRI
Active Indoor Main
Passive DWDM
Active DWDM
Fronthaul 6388 Active Outdoor Remote
Microwave Fronthaul 6387
1x CPRI
Passive Outdoor Remote
Fronthaul 6385
Fronthaul 6392
Passive Outdoor Remote
Microwave
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Ericsson Radio System Overview
Ericsson Fronthaul Flexible application to support various needs
OLT
ACTIVE or PASSIVE Single Fiber
ACTIVE or PASSIVE Single Fiber
ACTIVE or PASSIVE Single Fiber MICROWAVE
ACTIVE or PASSIVE Single Fiber ACTIVE only, Dual fiber
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Ericsson Radio System Overview
Fronthaul Solution MicroWave
Small Cells
Fronthaul 6392
Fronthaul 6392
Active DWDM
Macro Cells
WiFi Fronthaul
Fronthaul
6080
6080
Passive DOT WiFi
Fronthaul 6080
CWDM DWDM
Fronthaul 6080
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Fronthaul 6080 Passive optical solution
DWDM 24x10G + 4x2.5G
RBS
– P2P, P2MP,Hub&Spoke, Feeder protection – GPON Coexistence – Single fiber
Mounts behind the mRRU – Saves rent Passive – Saves power Fast easy installation – Saves hours DWDM - Saves 48x on fiber lease cost
Radio ERS
Fronthaul Outdoor Remote Unit
Lowest OpEx – – – –
RBS
RBS Fronthaul Main Unit
Lowest CapEx – Cost and optimized filters – Filters can be daisy-chained
CPRI
Baseband
Fronthaul Indoor Remote Unit
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Ericsson Radio System Overview
FRONTHAUL 6681/6689
Passive main unit components / Passive indoor remote unit components
OAD-3-S
½ LGX® width size Flexible deployment
Filter modules
OMD-24-S 24x Channel Optical Mux/Demux Single Fiber
Optical Add/Drop Mux 3-λ, Single Fiber BMD-8-S
Band Mux/Demux 8-bands OMD-4-C
Optical Mux/Demux 4x CWDM λ, Single Fiber
LGT-1 1RU, 19”, holds 6 filter modules Single Fiber
SPL-2-S-2
Optical Splitter 2:2 Single Fiber GCF-1
GPON Co-Existence Filter OAD-1-C
Optical Mux/Demux 1x CWDM λ, Single Fiber
SPL-2-S-4
Optical Splitter 2:4 Single Fiber OPM-1-S-1
Optical Protection Module 1:1 Single Fiber (Active module)
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FRONTHAUL 6389/6387/6385 Passive outdoor remote unit components Fronthaul 6389
Up to 4pcs
OAD-3-S
Optical Add/Drop Mux 3-λ, Single Fiber
Fronthaul 6387
Up to 2pcs
OAD-3-S
Optical Add/Drop Mux 3-λ, Single Fiber
Rail mounted Supports Ericsson Radio System´s compact and expandable building practice.
• Fast deployment and significant cabling savings • Minimal space needed easier site acquisition • Zero Touch Provisioning • Low power <25W – Leverage existing power supply on site
Fronthaul 6385
OAD-3-S Optical Add/Drop Mux 3-λ, Single Fiber
Integrated WDM Box Rear mounted filter module holder to be combined with RBS Radios
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Fronthaul 6080 Active optical solution
RBS
DWDM 24x10G + 4x2.5G – – – –
P2P, P2MP,Hub&Spoke, Feeder protection GPON Coexistence Dual fiber protected ring Single fiber
RBS RBS
Fronthaul Indoor Remote Unit Fronthaul Outdoor Remote Unit
Lowest OpEx – Protected & Managed – avoid truck rolls – DWDM - Save 48x on fiber lease cost – Click and Go remote – save man hours
Fronthaul Main Unit
RBS CPRI
Fronthaul Indoor Remote Unit
Lowest CapEx – Superior Fronthaul (30X - 80X Lower latency) for max distances – Saves HW
Baseband
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FRONTHAUL 6682
Active main unit components complete Fronthaul 6681
PMU
TPS-06
OPU-06
Photonic Management Unit
6x channel Transponder SFP+
6x channel Optical Protection Unit
Additional passive components required for ring application
RBS 6601 / SUP 6601 Radio Base Station 2Slot Chassis
OMD-12 12x Channel Optical Mux/Demux (2F)
OMD-24 24x Channel Optical Mux/Demux (2F) © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-111
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FRONTHAUL 6388
Active remote outdoor unit components complete Fronthaul 6689
TPS-03-O 3 x channel Outdoor Transponder SFP+
Dual Fiber solution OAD-3-O 3x Optical Add/Drop (Integrated)
OAD-6-O 6x Optical Add/Drop (Integrated)
Single Fiber solution OAD-3-S Optical Add/Drop Mux 3-λ, Single Fiber
OAD-1-C Optical Mux/Demux 1x CWDM λ, Single Fiber
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Flexible Networking Topologies Environmentally hardened DWDM networking 24Ch
24Ch
Combination
24Ch
24Ch
Baseband Hotel
Baseband Hotel
2 Managed Rings
4 Managed Linear Chains
2 x 24 = 48 protected services
4 x 24 = 96 unprotected services
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Complete Fronthaul 6000 Baseband Hotel
PAU 6000 48 Optical Channel Management Unit Ring 1 EAST Ring 1 WEST
24 Ch Ring 2 EAST Ring 2 WEST
Baseband Units including R503 CPRI Mux
24 Ch
Backhaul Router
Flexible and Scalable Fronthaul Capacity for up to 192 CPRI Links © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-114
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Fronthaul Passive CWDM Radio Baseband Units
Baseband Hotel
CDWM SPFs CPRI / OBSAI / Ethernet
CDWM Mux/Demux Shelf
18 Optical Channels
1 Fiber
RRU with semi-integrated CWDM Mux/Demux © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-115
Corresponding CWDM SPFs
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Cassette - Optical Filter & Patch Panel › Product Overview – Mechanical housing and cable management for optical filter – Clear and color coded labeling to reduce installation errors – Used in Telco box , Indoor Sub-rack ,Semi Integrated,19” Indoor Sub-rack – 10,8,4,2 Optical Channel Filters having wavelengths from 1271nm to 1611nm. – Add/drop port for high capacity
› Dimensions – W:116mm – D:122mm – H:16mm © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-116
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CWDM Implementation (Example)
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Fronthaul 6090 Microwave
Applications: – To reach remote radios in locations where fiber is not available – Self-contained unit to be pole mounted alongside the remote radio unit.
RBS
RBS
Features: – 70/80 GHz Frequency E-band – 2.5 Gbps capacity for CPRI3 – Less than 10µs latency to support the tightest coordination
RBS CPRI
Baseband
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FRONTHAUL 6392 › Radio link – – – –
500 MHz channel BW 128QAM -7 dbm to +13 dBm Latency: 20 us
› CPRI – Supporting CPRI option 3 (2457.6 Mbps) – L1 over the hop (fully transparent)
› Physical dimension – 4.3 kg (IP 65) – 321x259x108 mm (H x W x D)
› Interfaces – Traffic: Optical SFP/SFP+ (2.5Gbps) – O&M port: 10/100 BASE-T IEEE802.3 – -48V
› Management via CLI and Embedded WebGUI › DCN connectivity via O&M port › 0.2 , 0.3 and 0.6m antennas
O&M port
CPRI
-48V
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Fronthaul 6322 OPERATOR CHALLENGE
Obtain network capacity and optimization gains with efficient CPRI and eCPRI transport
HIGH-CAPACITY AND COST-EFFICIENT FRONTHAUL › Remote unit with integrated Transponder and DWDM filters › Zero touch provisioning and simplified management › Ericsson Radio System building practice Fronthaul
6322
FRONTHAUL 6322 › Future-proof interconnect solution for TCO optimization in advanced radio networks › Outdoor, rail mounted, 10 liter, up to 9 channels
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Fronthaul 6322 › › › › › ›
Up to 9 Transponders supported CPRI, eCPRI, OBSAI and Ethernet Dimensions: 351 x 298 x 125 mm Weight: 9 kg Operating temperature -40°C to + 65°C Power consumption: -48 VDC, Max. 60 Watts (including SFPs)
Preliminary data
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Fronthaul 6622 OPERATOR CHALLENGE
Obtain network capacity and optimization gains with efficient CPRI and eCPRI transport
HIGH-CAPACITY AND COST-EFFICIENT FRONTHAUL
Fronthaul
6622
› › › ›
Main and remote unit with integrated DWDM components 25G ready with expansion slot Zero touch provisioning and simplified management Ericsson Radio System building practice
FRONTHAUL 6622 › Future-proof interconnect solution for TCO optimization in advanced radio networks › Indoor, 19 inch, 1 height unit, up to 18 channels © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-122
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Fronthaul 6622 › Up to 18 Transponders supported › CPRI, eCPRI, OBSAI and Ethernet › Dimensions: 44.45mm x 450mm x 350mm (19” x 1RU) › Weight: 5 kg › Operating temperature -40°C to + 65°C › Power consumption: -48 VDC, Max. 150 Watts (including SFPs)
Preliminary data
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Expanding Coverage CPRI Transport Optimization Micro/small cells Cascading RRUs
1
1 CPRI for multiple RRUs
Baseband Hotel Fronthaul 6000
2
Baseband R503 CPRI Multiplexer Lower speed CPRI multiplexed to 10G CPRI
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-124
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Fronthaul 6000 Macro Site Solution D-RAN transition to C-RAN: • DU’s are move to baseband hotel • Fronthaul 6000 is move to former DU location • Backhaul equipment is removed
Macro Site Cabinet
Fronthaul Fiber Ring
12 Radios
Fronthaul Fiber Ring Next Macro
Next Macro
Fronthaul 6000 remote with Baseband R503 CPRI Mux Flexible and scalable usage of optical capacity: Combination of 10G CPRI and1.25G/2.5G Mux’ed CPRI in 10G channel © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-125
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CWDM Site Solution (Example)
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-126
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Fronthaul Cell-site Pole Mounted CPRI Microwave Fronthaul 6392
CPRI Microwave Pole-mounted
<1Km Line of sight 2.5G CPRI
100 x 100mm (7kg) mRRU
535x269x115 (10kg)
NCD 901 55/1
Mounting Bracket
Passive solution Faces to the side to highlight Integrated CWDM Box mounted behind mRRU
Filter Unit
Passive Fronthaul – Pole mounted Semi integrated CWDM Box NCD 901 55/1
535x269x115 (10kg)
PAU 6000 Remote Unit Faces Front, needs space to flip up the plastic solar shield and open the units
PAU 6310/20 <15Km Up to 3 x 10G CPRI
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Summary of Chapter 3 The participants should now be able to : 3
Describe the different Fronthaul products suited for macro and small cell deployments
3.1 Describe what Fronthaul is 3.2 Explain the characteristics and products under DWDM and CWDM 3.3 List and understand the specifications of Fronthaul 6392
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Ericsson Radio System Overview
Ericsson Radio System Overview
Radio
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Objectives of Chapter 4 After this chapter the participants will be able to: 4
Identify different Radio Products and their primary features
4.1 List the characteristics of the latest radio units including the 5G/NR radios that are available in Ericsson Radio System 4.2 Describe the characteristics and the usage of the new Remote Radio Units (RRUs) 4.3 Explain the characteristics and advantages of the Antenna Integrated Radio (AIR) products 4.4 List the benefits of the new installation options and features introduced
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Example of Radio Products For Extreme App Coverage
Supports 4 TX / 4 RX
More power RADIO
RADIO
2212
RADIO
4415
2x80W output power
New band
2012
4x4 MIMO
Supplemental Downlink on 1400 MHz
MULTI-STANDARD INCLUDING GSM
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-131
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TheStandard in Radio The Gold Gold Standard in Radio
Digital Radio System-on-Chip Novel power amplifier technology Super-compact filter design
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Adapt to any site › Multiple mounting options › Simplified site acquisition › Minimize footprint › Fast installation and expansion › Airflow innovation
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-133
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Installation flexibility
Radio railed horizontally on the wall
Radio mounted behind antenna
Radio vertically railed on free stand, optional fan used
Radio horizontally railed and rotated, optional fan used
Radio mounted on cable ladder, optional fan used Radio vertically railed, optional fan used Radio horizontally railed on pole
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Site Aspects
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-135
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Radio Radio 2217 B1 Upper case Lower case Space Tx branches Rx branches Random Space 3GPP band number
Radio 2217 used as example
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RADIO 2217 › › › › › › › › › › › › ›
2TX/2RX, 4TX/4RX by use of two 2217 2x40W, 40 MHz IBW FDD Up to 6 carriers WCDMA Up to 40 MHz LTE carriers 2 X 10 Gbps CPRI 10 liter 12 kg -48 VDC AISG TMA & RET support 2 external alarm Integrated TX-monitor ports Optional fan for increased site flexibility IP 65, -40 to +55 ̊C Smaller and more efficient multi band configurations › Maximum power consumption for B1 <300W
311 291 mm mm
105 mm 105 mm
310 mm 291 mm
Mounting points Radio dimensions
Optional FAN
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Radio 2212 › 2TX/2RX, 4TX/4RX by use of two radios › 2x80W, 75/100 MHz IBW FDD/TDD (15 MHz IBW for GSM) › Up to 8 carriers GSM › Up to 8 carriers WCDMA › Up to 75/100 MHz LTE FDD/TDD carriers › 2 X 10 Gbps CPRI › 16 liter 16 kg › HxWxD: 335x380x129 mm › -48 VDC › AISG TMA & RET support › 2 external alarm › Optional fan › IP 65, -40 to +55 ̊C
Optional FAN
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-138
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Radio 2012 › › › › › › › › › ›
2TX (supplemental downlink) Up to 2 x 80W Up to 40 MHz IBW FDD Up to 40 MHz LTE carriers 2 x 2.5/5/10 Gbps CPRI 17 liter, 17 kg -48 VDC (3-wire) RET support 2 external alarms Optional fan for increased site flexibility › Operating Band 32A › IP 65, -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-139
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Radio 2218 Radio 2218 › 2TX/2RX › 2x40 W, 60 MHz IBW TDD › Up to 3 LTE carriers › 2x10G CPRI › 12.7 liter 11.5 kg › -48 VDC Optional FAN
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-140
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Radio 2219 › 2TX/2RX, 4TX/4RX by use of two 2219 › Up to 2 x 60W (900 & 2100 MHz), up to 2 x 80W (1800 MHz) › Up to 40 MHz IBW › Up to 7 GSM carriers in MSR › Up to 8 carriers WCDMA › Up to 40 MHz LTE carriers › 2 x 2.5/5/10 Gbps CPRI › 17 liter, 17 kg › -48 VDC (2-wire) › TMA 12 dB & RET support › 2 external alarms › IP 65, -40 to +55 ̊C › Operating Band B1, B3, B0A and B8
311 mm
2
1
Mounting points Radio dimensions
1 2
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Radio 0208 › › › › › › › › › ›
2RX Full band IBW FDD Up to 8 carriers WCDMA Up to 75 MHz LTE carriers 2 X 10 Gbps CPRI 6 liter 9 kg -48 VDC AISG TMA & RET support IP 65, -40 to +55 ̊C Smaller and more efficient multi band configurations
291 mm
63 mm 105 mm
310 mm
Radio 0208 & Radio 2217
291 mm
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Radio 2238 OPERATOR CHALLENGE
Quickly and costefficiently add capacity in low frequency bands
IMPROVE NETWORK THROUGHPUT AND COVERAGE › Use low-band frequency bands › One Radio for three bands › 2G, 3G, 4G and 5G capable
Radio 2238
RADIO 2238 › Triple-band Radio for low bands below 1 GHz
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-143
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Radio 2238 › Initial RF bands: B8, B20, B28 › 2 TX / 2 RX › Output power: 2 x 120 W FDD – Per frequency band: 2 x 80 W Max (other bands share the reminder of power)
› › › › › › › › › › ›
Capable to operate as triple-band and dual-band radio IBW: Full band in each of bands 2.5; 4.9; 9.8; 10.1 Gbps CPRI 380 mm x 335 mm x 196 mm ~25 liter, ~26 kg Portrait or bookshelf mounting -48 VDC AISG TMA & RET support Optional fan module supported 2 external alarms IP 65, -40 to +55 ̊C Preliminary data
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Radio 2242 › 2TX/2RX, each port shared by B3 and B1 › Output Power: 2x80W – Power can be shared between two bands
› IBW: – Up to 55MHz(B3) and 60Mhz(B1) for LTE FDD carriers – Up to 20Mhz for GSM carreires
› Carrier per port per band: – – – –
Up to 4/6 GSM carriers (DL/UL) Up to 6/6 WCDMA carriers (DL/UL) Up to 6/6 LTE carriers (DL/UL) 1.4, 3, 5, 10, 15 and 20MHz LTE carrier
› CPRI: 2.5, 4.9, 9.8, 10.1 Gbit/s – Compression supported (20, 24, 30 bit) – Cascading supported
› › › › › › ›
Size: 17.5L (380x335x137mm) Weight: <20Kg -48 VDC, 3-wire (2-wire with adapter) AISG TMA & RET support 2 external alarm and without TX Monitor IP 65, -40 to +55 ̊C RAT: – LTE, WCDMA, NB-lot on B1 – LTE, GSM, NB-lot on B3
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-145
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Radio 4415 › 4TX/4RX › 4x40W, 75/100 MHz IBW FDD/TDD (15 MHz IBW for GSM) › Up to 8 carriers GSM › Up to 8 carriers WCDMA › Up to 75/100 MHz LTE FDD/TDD carriers › 2 X 10 Gbps CPRI › 16 liter 18 kg › HxWxD: 335x380x129 mm › -48 VDC › AISG TMA & RET support › 2 external alarm › Optional fan › IP 65, -40 to +55 ̊C
Optional FAN
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Radio 4426 › › › › › › › ›
Only for US 4TX/4RX Up to 4x60W 70 MHz IBW Up to 8 carriers WCDMA Up to 6 carriers LTE in MIMO 2x 2.5/4.9/9.8/10.1 Gbps CPRI 19 liter, 21 kg
› › › › › ›
-48 VDC AISG TMA & RET support 2 external alarm Optional fan for increased site flexibility IP 65, -40 to +55 ̊C Smaller and more efficient multi band configurations
– HxWxD: 380x335x147 mm
Optional FAN
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Radio 4428 › 4TX/4RX › 4x40W › Up to 75 MHz IBW – 20 MHz IBW for GSM or LTE1.4/3MHz carriers
› › › › › › › › › ›
Up to 12 carriers GSM Up to 8 carriers WCDMA Up to 6 carriers LTE in MIMO 2x 2.5/4.9/9.8/10.1 Gbps CPRI 15 liter 16 kg -48 VDC 2-wire AISG TMA & RET support via RS-485 2 external alarm Convectional cooling IP 65, -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-148
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Radio 4478 › › › › › › › › › › ›
4TX/4RX, FDD LTE Low-band operation 4x40W Full-band IBW Up to 6 carriers LTE in MIMO 2x 2.5/4.9/9.8/10.1Gbps CPRI 24 liter, 27 kg (60lbs) – Two handles -48 VDC AISG TMA & RET support 2 external alarms IP65, -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-149
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Radio 4407 › 4TX/4RX › Up to 4x20W › 65 MHz IBW FDD › Up to 3 LTE carriers › 2x 2.5/5/9.8Gbps CPRI › 12 liter 13 kg › -48 VDC › AISG TMA & RET support › IP 65, -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-150
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Radio 2468 › › › ›
› › › › › ›
2TX/4RX Output Power: up to 2x80W IBW: 20MHz Carrier capacity: – Up to 6 LTE carriers – Up to 4 GSM carriers in MSR – Up to 6 WCDMA carriers Size: 15L; Weight: 15Kg 2x 2.5/4.9/9.8/10.1 Gbps CPRI AISG RET support 2 external alarm Power supply: 2-wire DC -48V IP 65, -40 to +55 ̊C
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Radio 2203 › › › › › › › › › › › › › ›
2TX/2RX, 4TX/4RX by use of two 2203 2x5W 40 MHz IBW FDD Up to 4 carriers WCDMA Up to 40 MHz LTE carriers 2 X 10 Gbps CPRI 4 liter 5kg incl bracket and cover AC or -48 VDC Integrated TX-monitor ports Integrated or external antenna 2 external alarm IP 65 -40 to + 55 ̊C Maximum power consumption for B1 <100W
105 mm
Singleband
Dualband
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Radio 2205 › 2TX/2RX › 2x5W, 40 MHz IBW TDD › 40 MHz LTE carriers › 2x10G CPRI › 4 liter 5 kg including bracket and cover › AC or -48 VDC › 2 external alarm › IP 65 › -40 to + 55 ̊C
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Radio 2208 › 2TX/2RX › 2x10W › 40/60 MHz IBW TDD › Up to 3 LTE carriers › 2x10Gbps CPRI › 4 liter, less than 5kg incl bracket and cover › AC or -48 VDC › Integrated or external antenna › 2 external alarm › IP 65 › -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-154
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Radio 4412 › 4TX/4RX › Up to 4x20W › 60 MHz IBW TDD › Up to 3 LTE carriers › 2x 2.5/5/9.8Gbps CPRI › 10 liter 11 kg › -48 VDC › AISG RET support › IP 65, -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-155
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Ericsson Radio System Overview
Radio 4418 › 4TX/4RX › Support split mode (2 x 2T2R as multi-sector solution) › Tx Power 4x40W › Up to 100MHz IBW TDD › Up to 6 LTE carriers › 2x 2.5/5/9.8/10.1Gbps CPRI › 15 liter, 16kg › -48 VDC 2-wire › AISG RET support via RS-485 › 2 external alarm › Convectional cooling › IP 65, -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-156
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Ericsson Radio System Overview
Radio 8808 › 8TX/8RX › Up to 8x20W (dependent on bands) – 8x15W for B38A – 8x10W for B39A – 8x20W for the rest
› 60 MHz IBW TDD › Up to 3 LTE carriers › Support 2 4T4R split mode › 2x 2.5/5/9.8Gbps CPRI › 17 liter 16 kg › Power supply 2-wire DC -48V › AISG RET support › External antenna calibration › 2 external alarm › IP 65, -40 to +55 ̊C © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-157
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Ericsson Radio System Overview
Radio 8823 OPERATOR CHALLENGE
Add high capacity in new frequency bands
IMPROVE NETWORK THROUGHPUT › Increase capacity with many radio ports › Grow in new 3.5 GHz spectrum › 4G and 5G capable Radio 8823
RADIO 8823 › 8T / 8R TDD Radio for 3.5 GHz
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-158
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Ericsson Radio System Overview
Radio 8823 › 8 TX / 8 RX › Support split mode – 2 x 4T / 4R or 4 x 2T / 2R as multi-sector solution
› › › › › › › › › › › ›
Output Power: 8 x 20 W IBW: 200 MHz TDD Up to 5 LTE carriers 2 x 10.1 Gbps CPRI 20 liter, 20 kg Support NEX10 RF connector External antenna calibration -48 VDC 2-wire AISG RET support via RS-485 2 external alarms Convectional cooling IP 65, -40 to +55 ̊C Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-159
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Ericsson Radio System Overview
Streetmacro 6701 OPERATOR CHALLENGE
Densify network in metropolitan areas where there are no new rooftop sites available
BUILD SITES ON STREET LEVEL › Products with ease-of-site acquisition to use on available site installation spots below roof top level › Enough output power to cover larger area
Streetmacro
6701
STREETMACRO 6701 › 5G high-band fully integrated node 128T / 128R
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-160
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Streetmacro 6701 › › › › › › › › ›
Initial RF band: 26.50 – 29.50 GHz Total EIRP: ~55 dBm OBW / IBW: 800 MHz / Full-Band Fully integrated node with Antenna BW: 2400 MHz Power Supply: AC Installation type: Pole / Wall Dimensions: 500 x 120 x 200 mm Operating temperature: -40°C to +55°C IP Class: IP65
Preliminary data
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Ericsson Radio System Overview
Go underground Vault Radio 2268
OPERATOR CHALLENGE
Quickly add capacity in dense urban areas with minimal visual impact
GO UNDERGROND
Vault Radio 2268
› Place radio in existing underground vaults with fiber and power infrastructure connected to antenna on ground level › Fast permit process and deployment › No visual impact in street environment NEW VAULT RADIO 2268 › Protected from total dust ingress and long term immersion (IP68) › Versions for all Radio System micro bands (TDD / FDD / LAA) › Full integration with existing network, including Carrier Aggregation capability
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-162
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RUS02 02& RUS 01 RUS › GSM, WCDMA & LTE › Up to 40 MHz IBW › Up to 8 carriers GSM › Up to 4 carriers WCDMA or LTE › Up to 1 x 100 W › 2.5 Gbit/s CPRI › 55 years MTBF
RUS 01 › GSM, WCDMA & LTE › Up to 4 Carriers in downlink and uplink (2 Way Rx Diversity) › 2.5 Gbit/s CPRI
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-163
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Ericsson Radio System Overview
RRUS 72
4x2, 4x4 MIMO AND 4-WAY RX DIVERSITY › TDD-LTE, 4TX / 4RX › Up to 4 x 40W › IBW up to 60MHz in contiguous › Carrier capacity: up to 60MHz LTE › Support Dual-sector configuration › Requiring Multi Sector Per Radio feature: FAJ 221 3088
› 2 x 10Gbps CPRI › Power supply: -48 VDC 3-wire Or 2-wire with optional power adapter, or AC with optional PSU-AC 08
› Volume: 25 L, Weight: 23 Kg › AISG RET › 6 External Alarms © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-164
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Ericsson Radio System Overview
mRRUS 12 – MICRO REMOTE RADIO UNIT ›
Multi standard
›
MIMO support ›
›
4 cell carriers WCDMA
› ›
2x5W
›
20 MHz LTE
›
IBW 25 MHz
Integrated antenna
Integrated AC power supply ›
10 kg and 11 litres
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-165
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Ericsson Radio System Overview
COMPLETE 5G RADIO PORTFOLIO 5G NR Radios AIR
COMPLETE 5G NR MASSIVE MIMO RADIO PORTFOLIO
6468
› New Mid-band and High-Band versions › Support 5G plug-ins: Massive MIMO and Multi-user MIMO › Work with today’s Ericsson Radio System Baseband
AIR
6488
AIR
5121 Baseband
LTE + 5G Plug-Ins Backwards compatible
Interworking
5G NR New Radio interface
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Ericsson Radio System Overview
AIR Benefits OPTIMAL SITE SOLUTION
FASTER Time for Implementation
UL IMPROVEMENTS
MULTI-ANTENNA ENABLER
AIR 21 4WRXD 3+ dB UL Improvement
AIR 21 2 dB UL Improvement
RRUS 2 dB UL Improvement
RUS WITH TMA 5 dB UL Improvement
RUS (NO TMA)
Up to 8+ dB UL Improvement
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Ericsson Radio System Overview
site simplification
Improve and densify challenging macro sites
3 more antennas, a cabinet and 240m of feeder?
GSM W/L
TMA
GSM GSM W/L W/L
TMA
TMA
Macro
3 more antennas and remote radios?
GSM W/L
RRU
GSM GSM W/L W/L
RRU
…a simple antenna change-out?
AIR G GSM W/L
AIR G GSM W/L
AIR G GSM W/L
RRU
Remote Radio
AIR
AIR – the most cost-efficient way to add LTE/HSPA
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Ericsson Radio System Overview
AIR 32 4x2/4x4 DL CLSM(MIMO), 4WRXD Active HB/ Passive HB and LB › Single or dual active band, 4TX 4RX multistandard › Dual HB x-pol column array for active bands › 4 x 30W internal PA › IBW: 40 MHz LTE & WCDMA; 20 MHz GSM › Carrier capacity: 6 GSM; 6 WCDMA; 40 MHz LTE › 10Gbps CPRI › Supports user specific UL /DL beam-forming › Passive band: Up to 4 HB (and 2 LB) passive ports › 1.4m and 2m antenna gain length class › Active cooling with full redundancy
Radio 2218/2216 Radio 2218/2216
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Ericsson Radio System Overview
AIR 2488 › › › ›
› › › › › › › › ›
2TX/4RX Dual or single band active Up to 2x2x60W Up to 75 MHz IBW – 20 MHz IBW for GSM or LTE1.4/3MHz carriers Up to 8 carriers GSM Up to 8 carriers WCDMA Up to 6 carriers LTE in MIMO 2 x 2.5/4.9/9.8/10.1 Gbps CPRI Weight: 35 – 49 Kg Size (H x W x D):1410 mm x 275 mm x 220 mm -48 VDC -40 to +55 ̊C Fast and easy site acquisition and deployment
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Ericsson Radio System Overview
AIR 3246 › 32 TX/RX › Planned frequency bands: B66, B3 › Other bands considered: B25, B1, B7 › Up to 160 W total output power › Up to 90 MHz IBW FDD › 60 MHz LTE CBW › 4 x 10.1 Gbps CPRI › Size (H x W x D):1475x400x238 mm › Weight : 81 Kg (estimated) › -48v DC, 3 wire or 2 wire › Max Power consumption: < 1440 w © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-171
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Ericsson Radio System Overview
AIR 4455 OPERATOR CHALLENGE
Densify network in metropolitan areas where there are no new rooftop sites available
BUILD SITES ON STREET LEVEL › Products with ease-of-site acquisition to use on available site installation spots below roof top level › Enough output power to cover larger area AIR 4455 › Small form-factor dual-band 4T / 4R 4x40 W AIR 4455 © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-172
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Ericsson Radio System Overview
AIR 4455 › Initial RF bands: B1 + B3, B2 + B66 – Dual-band
› Total output power: Up to 4 x 40 W › 5G NR, LTE, WCDMA, GSM, and NB-IoT › Antenna Gain: ~ 15 dBi › Power Supply: AC › Height: < 760 mm › Weight: < 25 kg
Preliminary data
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Ericsson Radio System Overview
AIR 1281 OPERATOR CHALLENGE
Densify network in metropolitan areas where there are no new rooftop sites available
BUILD SITES ON STREET MACRO LEVEL
AIR 1281
› Products with ease of site build to use on available site installation spots below roof top level › Enough output power to cover larger area › Capacity boost in new high-bands for network off-loading AIR 1281 › 5G NR TDD Massive MIMO high-band size optimized AIR for street macro deployments
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Ericsson Radio System Overview
AIR 1281 › Total EIRP: › IBW: › OBW: › Fronthaul IF: › Installation type: › Weight: › Volume:
~55 dBm Full-band Up to 800 MHz 1 – 4 x 10.1 Gbps CPRI Pole / wall mounted ~6 kg ~5 liter
Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-175
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Ericsson Radio System Overview
AIR 3239 OPERATOR CHALLENGE
Quickly and costefficiently add capacity in metropolitan areas
IMPROVE NETWORK THROUGHPUT › Increase capacity › Grow in existing and new spectrum › 4G and 5G growth AIR 3239
AIR 3239 › TDD Massive MIMO mid-band with 32 ports
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-176
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Ericsson Radio System Overview
AIR 3239 › 32 TX / 32 RX › LTE and 5G NR (TDD) › Output power: up to 80 W › IBW: Up to 100 MHz › Weight: 25 kg › Interface: eCPRI 10.3 Gbps
Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-177
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Ericsson Radio System Overview
AIR 3252 OPERATOR CHALLENGE
Quickly and costefficiently add capacity in metropolitan areas
IMPROVE NETWORK THROUGHPUT › Increase capacity › Grow in existing and new spectrum › 4G and 5G growth AIR 3252 AIR 3252
› TDD Dual-band Massive MIMO mid-band with 32 ports
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-178
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Ericsson Radio System Overview
AIR 3252 › 32 TX / 32 RX › LTE and 5G NR (TDD) › Output power: up to 100 W › Operating bandwidth: Up to 80 MHz › IBW: Up to 200 MHz › Weight: 60 kg › Interface: eCPRI 10.3 Gbps
Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-179
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Ericsson Radio System Overview
AIR 5331 OPERATOR CHALLENGE
Quickly and costefficiently add capacity in metropolitan areas
IMPROVE NETWORK THROUGHPUT › › › › AIR 5331
Increase capacity and throughput Offload lower frequencies Grow in existing and new spectrum 5G growth
AIR 5331 › 5G NR TDD Massive MIMO high-band Radio › For high capacity, low latency focused deployments
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-180
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Ericsson Radio System Overview
AIR 5331 › › › › › › › › › ›
Initial RF band: Total EIRP: OBW: IBW: Fronthaul IF: Installation type: Weight: Volume: Cooling: IP Class:
37 - 40 GHz > 60 dBm 800 MHz 3 GHz 1 – 4 x 10.1 Gbps CPRI Pole / wall mounted ~14 kg ~18 liter Passive IP65
Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-181
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Ericsson Radio System Overview
AIR 6468 › › › › › › › › › › ›
Advanced Antenna System (AAS) 64TX/64RX Up to 120W EIRP max 74.5 dBm Up to 60 MHz IBW TDD Up to 3 carriers LTE 2 x 10.1 Gbps eCPRI Weight: up to 60 kg (excluding installation kit) Size (H x W x D):973 mm x 520 mm x 183 mm -48 VDC -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-182
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Ericsson Radio System Overview
AIR 6479 OPERATOR CHALLENGE
Introduce capacity increase on sites using AIR without increasing the amount of antennas
COMBINE AIR WITH PASSIVE ANTENNAS › Integrated solutions › Connect 2x2 and 4x4 radios to passive ports on AIR
AIR 6479 › One antenna with TDD Massive MIMO + passive antennas AIR 6479 © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-183
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Ericsson Radio System Overview
AIR 6479 › 64 TX / 64 RX › LTE and 5G NR (TDD) › Output power: up to 200 W › Operating bandwidth: Up to 60 MHz › IBW: Up to 100 MHz › Weight: 47 kg › Interface: eCPRI 10.3 Gbps
Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-184
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Ericsson Radio System Overview
AIR 4488 OPERATOR CHALLENGE
Quickly and costefficiently add capacity
IMPROVE NETWORK PERFORMANCE › Increase capacity › Antenna Integrated Radio advantages › 4G and 5G growth AIR 4488 AIR 4488
› Three active bands with 4T / 4R each › Passive antenna ports to connect additional radios
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-185
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Ericsson Radio System Overview
AIR 4488 › Up to three active 4 TX / 4 RX bands › Output power: 4 x 40 W per band › Passive antenna ports – XX-pol 1427 – 1500 MHz ~17dBi (prepared for Band 32 1400) – X-pol 698 – 960 MHz ~17 dBi
› Passive cooling › Field replaceable radio units › Size: H x W x D: 2600 x 386 x 269 mm › Weight: ~100 kg Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-186
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Ericsson Radio System Overview
Summary of Chapter 4 The participants should now be able to : 4
Identify different Radio Products and their primary features
4.1 List the characteristics of the latest radio units including the 5G/NR radios that are available in Ericsson Radio System 4.2 Describe the characteristics and the usage of the new Remote Radio Units (RRUs) 4.3 Explain the characteristics and advantages of the Antenna Integrated Radio (AIR) products 4.4 List the benefits of the new installation options and features introduced
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-187
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Ericsson Radio System Overview
Intentionally Blank
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Ericsson Radio System Overview
Ericsson Radio System Overview
Backhaul
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Ericsson Radio System Overview
Objectives of Chapter 5 After this chapter the participants will be able to: 5
Describe the wide range of Backhaul products for Outdoor and Indoor Scenarios
5.1 List the various Aggregation Units offered in Ericsson Radio System, and explain their usage 5.2 List the characteristics of the new products in Router 6000 Series 5.3 Match the new products in the MINI-LINK Portfolio to the Indoor and Outdoor usage
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-190
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Ericsson Radio System Overview
Complete Backhaul Portfolio Ericsson Network Manager
Service Provider SDN
IP ACCESS & AGGREGATION ROUTERS
RADIO
Router 6371 for outdoor small cell
Router 6471 for Router 6672 indoor small cell for Access
Ericsson Radio System
IP EDGE & PACKET CORE
VIRTUAL ROUTER
Router 6675 for Pre-Aggregation
MICROWAVE
FRONTHAUL
Router 6274 for Metro Aggregation
PAU CWDM
Fronthaul 6392
MINI-LINK 6351
MINILINK 6600
Smart Services Router Platform
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-191
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Ericsson Radio System Overview
Switch 6391 › Compact outdoor switch with Ericsson Radio System building practice – 25 Gbps capacity – Extensive L2 feature suite – 20x20x4 cm /7.9x7.9x1.6 inches
› Flexible interfaces – 4x1GE RJ-45 + 2x10GE SFP
› Efficient power solution – -48V or +36V feed – PoE+ on all electrical ports or PoE++ on two – <30W © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-192
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Ericsson Radio System Overview
Use cases Switch 6391 Pico
WiFi
Pico Switch
PoE
PoE
WiFi
PoE
Pico
Pico
PoE
PoE
PoE
Switch PoE
PoE
PoE
Backhaul Router
PoE
OUTDOOR SWITCH
vEPG
10GE ring Router
PoE
PoE
PoE PoE
PoE
WiFi
CAMERAS
PoE
PoE
PoE
WiFi
PoE
WiFi
WiFi
? ???
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Ericsson Radio System Overview
Router 6000 family Flexible application to support various needs 30G
100G Router 6471 (2x10GE)
Router 6672 (8x10GE)
Indoor, fan-less & Compact
Router 6371 (2x10GE) Outdoor
10GE optimized
2G 3G 4G
4G+
For larger cell sites with Resiliency and 5G ready
320G
5G
TDM 1001 (16E1/T1)
Router 6675 (4x100GE,24x10GE)
Pay as you grow
High 10GE density and 100GE
Modular design for emerging markets and smaller cell sites
Supports flexible port configuration for 5G connectivity
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Ericsson Radio System Overview
ROUTER 6000 family Flexible application to support various needs
Router 6471
ENTERPRISE
Router 6672
Router 6675
MOBILE
Router 6672 Router 6371
FIXED RESIDENTIAL
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Ericsson Radio System Overview
Ericsson Router 6000 Naming Scheme
Router 6672 Router 6x71 Router 6675
The first digit (6) denotes the alignment with radio. The second digit denotes either indoor or outdoor and type: • For 6371 (small cell outdoor router), the second digit (3) means outdoor • For 6471 (small cell indoor router), the second digit (4) means indoor, pico-related • For 6675 and 6672, the second digit (6) means indoor 19”. The third digit (7) means it is a router. Products with numbers matching 6x7x therefore belong to the Router 6000 Series. The fourth digit is to differentiate between different products as necessary. • For 6479 the fourth digit (9) is to differentiate from 6471. Same segment but different functionality
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Ericsson Radio System Overview
Router 6000 facts
• Verified with radio • ERS building practice • Fan-less • Filter-less design • Indoor or outdoor • Zero-touch provisioning
• Market-leading throughput • High 10G port density • Large buffer-size • Low latency • HW accelerated IPSec • Precise synchronization
• Network Slicing • SDN ready • H-QoS with large buffer • Segment routing • Common Management
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Ericsson Radio System Overview
Router 6000 portfolio An Overview
Router 6371
Router 6471/1
Router 6471/2
Router 6672
18A
18A
18A
16A
18B -> 18A
Small Site CSR
LTE CSR/Agg Router
5G CSR, Agg Router & E-RAN High 10GE density and 100GE
Release Use Cases and Applications Key Features
Outdoor CSR, L3 Low cost CSR, L3 MW modernization MW modernization IP65 Outdoor
Full Duplex Forwarding Capacity
Fanless & Compact Fanless & Compact
10GE focused
Router 6675
30G
30G
30G
100G
320G
Traffic ports
2x10GE + 4xGE/2.5GE
2x10GE+4xGE RJ45 4xGE/2.5GE
2x10GE+4xGE RJ45 4xGE/2.5GE
8x10GE + 8xGE + 4xGE RJ45
24x10GE + 4x100GE QSFP28
Scaling / Sync
Medium/Premium
Low/Standard
Medium/Premium
High/Premium
Highest/Premium
-40C to 65C
-20C to 65C
-40C to 65C
-40C to 65C
-40C to 65C
Ambient Temp Range
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Ericsson Radio System Overview
Router 6371 › Interfaces: – 2 x GE/10GE SFP+ Ports – 4 x GE SFP Ports – 1 x 100/1000Base-T Ethernet for Out-of-Band Management – 1 x RJ45 Console Port – 1 x USB 2.0 Port – 1 x RJ45 Port 1PPS (Sync Interface)
› › › ›
Weight: 4,5 kg Dimension: 200mm x 315mm x 63mm Airflow: Fan-less and Filter-less design Power: – DC: -48V, single feed – AC: 100-240 V, single feed
› Power consumption: 30W, max 60W © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-199
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Ericsson Radio System Overview
Router 6471 › Interfaces: – – – – – – – –
› › › ›
2 x GE/10GE SFP+ Ports 4 x GE SFP Ports 4 x 100/1000 Base-T RJ45 Ports 1 x 100/1000Base-T Ethernet for Out-of-Band Management 1 x RJ45 Console Port 1 x USB 2.0 Port 1 x RJ45 Alarm port for 3 input and 1 output alarm contact 1 x RJ45 Port 1PPS (Sync Interface)
Weight: 3,6 kg Dimension: 1RU, 41mm x 217mm x 220mm Airflow: Fan-less and Filter-less design Power: – DC: -48V, single feed – AC: 100-240 V, single feed
› Power consumption: 30W, max 60W © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-200
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Ericsson Radio System Overview
Ericsson Router 6672 APPLICATIONS › 10GE port optimized cell site router › Enterprise access › Fixed mobile convergence › Indoor small cell router
DIFFERENTIATION › Radio OAM and security integration › Ericsson Network Management (radio + router) › Cost and capacity › Security (IPSEC, MACSec) › LTE-A sync features › Advanced radio integrated transport › Part of E2E transport offering from Ericsson
MAIN FEATURES › 1RU, Radio compatible, F2B cooling › 100G › 8*1/10G SFP+, 8x1GE SFP and 4x1G RJ-45 › 2.4-6G IPSEC, 4x MACSec ports › Common chipset family and IPOS within 6000 series = feature velocity © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-201
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Ericsson Radio System Overview
Router 6675 Overview
› High capacity 320Gbps Switch/Router for L2 interconnecting to enable LTE Elastic RAN feature › Same building practice as Router 6672, Baseband T605, Baseband 6630/6620 horizontal 19 inch sealed › 24 x 1/10G SFP/SFP+ ports (5.3 uS latency between 10GE ports) › 4 x 100G QSFP28 ports (4 uS latency between 10GE and 100GE ports) › Sync solution 1588v2 BC/GM and SyncE › O&M:
Elastic RAN Optimal coordination across the network for C-RAN
– Same O&M interface as multi-standard baseband for system functions – Netconf/Yang interface for transport function (e.g. L2 switching) – User interface is common and functional support from Ericsson management system is the same
› Fully verified by Ericsson as end-to-end solution © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-202
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Ericsson Radio System Overview
Ericsson Router 6274 High performance aggregation APPLICATIONS › Aggregation for Mobile backhaul and FMC › Mobile backhaul headend › Baseband hotel Router
DIFFERENTIATION › Best in class 10G/100G density › Cost V/S Capacity › Front to Back Cooling › SDN and programmability › LTE-A sync features › Ericsson Network Management (radio + router)
MAIN FEATURES › 5 RU, 2.1 Tbps, 18X100G , 144X10G › Redundant forwarding and control plane › 96K queues, 88msec buffering@100G › 16K L3VPN, 32K PWE, 128K MPLS LABELS › IPSEC, MACSec © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-203
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Ericsson Radio System Overview
Ericsson Radio System mini-link products
Transport portfolio with advanced radio integration Highest node capacity in smallest form factor World´s smallest high power radio unit Managed by Ericsson Network Manager
MINI-LINK 6351
MINI-LINK 6363
MINI-LINK 6352 Fronthaul 6392
MINI-LINK 6691
MINI-LINK 6692
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Ericsson Radio System Overview
MINI-LINK Outdoor units
Mounting Flexibility
MINI-LINK 6363 › World’s smallest high power radio unit › 6-80 GHz
MINI-LINK PT 2020
MINI-LINK 6366
› 600 Mbps capacity
› 2.5 Gbps over 2 carriers
› 6-42 GHz
› 6-80 GHz › Flexible outdoor solution for integrated- or split mount
10Gbps one carrier
MINI-LINK 6352 › World’s highest microwave capacity
MINI-LINK 6351 › 1 Gbps capacity in V-band
› 10 Gbps capacity in E-band › Multi-band Booster
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Ericsson Radio System Overview
MINI-LINK Indoor units
MINI-LINK 6651 › Compact end-node with dual carriers › 1GE & 2.5 GE interfaces
MINI-LINK 6691 › Small aggregation node
MINI-LINK 6693
MINI-LINK 6692
› Medium aggregation node
› Large aggregation node
› 90 Gbps switch capacity
› 90 Gbps switch capacity
› 90 Gbps switch capacity
› 1 GE, 2.5 GE & 10 GE interfaces
› 1 GE & 10 GE interfaces
› 1 GE, 2.5 GE & 10 GE interfaces
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Ericsson Radio System Overview
Ericsson Microwave offering
MINI-LINK 5-42 GHz
60 GHz
Partner Products 70/80 GHz
Sub 6
24-28 GHz (MPtMP)
Outdoor RAU2 X
MINI-LINK 6363
MINI-LINK 6366
MINI-LINK 6363
MINI-LINK 6366
Radwin 5000JET CCS Metnet
MINI-LINK 6351 MINI-LINK PT 2020
MINI-LINK 6352
Fronthaul 6392 Radwin 2000
Aggregation Switch 6391
Indoor
MINI-LINK TN and CN
MINI-LINK 6600
MINI-LINK LH
Radwin 2000 & 5000JET
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Ericsson Radio System Overview
MINI-LINK 6600
MINI-LINK 6651
MINI-LINK 6691
MINI-LINK 6692
Type of node
Compact end-node with dual carriers
Small aggregation node
Large aggregation node
Interfaces
1GE & 2.5 GE
1 GE, 2.5 GE & 10 GE
1 GE, 2.5 GE & 10 GE
Switch capacity
10 Gbps switch capacity
60 Gbps switch capacity
60 Gbps switch capacity
Modulation and channel width
4096 QAM and 112 MHz
4096 QAM and 112 MHz
4096 QAM and 112 MHz
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Ericsson Radio System Overview
MINI-LINK TN
2 10 4096
Carriers per modem , MIMO prepared
G interface
QAM support
New NPU and MMU for higher link- & switch capacities
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Ericsson Radio System Overview
MINI-LINK LH
16 56 2 in 1
Channels in one rack
MHz channel bandwidth
Long and short haul in one node
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Ericsson Radio System Overview
MINI-LINKI 6363
65 112/125 6-80
Now With
E-band % size and 35% weight reduction
MHz channel spacing
GHz high power radio
World’s smallest high power radio unit
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Ericsson Radio System Overview
MINI-LINK 6363 overview › › › ›
Split mount radio Frequencies: 6 – 42 and 70/80 GHz Modulations: C-QPSK and 4 – 4096 QAM Channels: – Traditional bands: 7 – 112 MHz – E-band: 62.5 – 125 MHz
› › › › › › ›
TX power: -10 to +30 dBm Volume: 2.8 liters / 170 in3 Weight: 2.8 kg / 6.2 lbs Power consumption: 20 W Backward compatible with RAU2 X Single bolt installation Indoor units MINI-LINK 6600, MINI-LINK TN and MINI-LINK CN › Modular antennas
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Ericsson Radio System Overview
MINI-LINK 6351
60 1 2.5
GHz frequency band
Gbps capacity
Multiport configuration: 4 x 1GE + 2 SFP interfaces
Liter in volume - everything included in the ball
World’s smallest Gbps V-band link
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Ericsson Radio System Overview
MINI-LINK 6351 Micro, Pico RBS
MINI-LINK 6351
4G
Multi Standard RBS6000/TCU
MINI-LINK 6351
2G 4G 3G
Designed for small cell deploymentWorld’s smallest › Designed for small cell Gbps V-band link deployment › Friendly and innovative design everything included in the ball › Easy installation, camera alignment › 60 GHz un-licensed band › 1Gbps in150 MHz › Power efficient < 20W
SMALL CELL
› High capacity › Easy and flexible installations › Easy alignment › Support LOS & NLOS configuration › Fast time to market › 60 GHz Un-licensed band
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Ericsson Radio System Overview
MINI-LINK 6352
70/80 10 10
GHz frequency band
Gbps capacity over one single carrier, Multi-band Booster
GE interfaces, 2.5 GE & 1GE 4x interfaces to the L2 Switch
World’s highest microwave capacity
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Ericsson Radio System Overview
MINI-LINK 6352
short hops and fiber extension MINI-LINK 6352 MINI-LINK 6692 MINI-LINK 6352
MINI-LINK 6352 MINI-LINK 6691
e-Band aggregation
› All outdoor packet solution suitable for metropolitan areas › Complement as fiber extension with Gigabit capacity everywhere › Cascading of hops › Inbuilt Layer 2 switch for traffic aggregation › Higher capacity with new frequency band: › 5 Gbps in 750MHz channel › 8 Gbps in 2+0 configuration with Radio Link Bonding and Header Compression › Multiple 10GE, 2.5GE and 1GE interfaces for easy connections to all equipment and for full utilization of radio capacity
› Very high capacity in a single carrier for metropolitan hops › Potential lower annual spectrum cost › Zero footprint aggregation/switch node › Faster time to market
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Ericsson Radio System Overview
Cascading and repeater solution › Aggregation
MINI-LINK 6352
– Fully outdoor small aggregations sites – Combined with L1 Radio Link Bonding & Protection
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Ericsson Radio System Overview
MINI-LINK 6354
6-42 2.8 10
GHz frequency band
Gbps capacity using 2 carriers, 4096 QAM and up to 112 MHz channel width. Multi-band Booster capabilities.
GE & 2.5 GE & 1GE interfaces to the L2 Switch
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Ericsson Radio System Overview
MINI-LINK 6366
2.5 4096 4
Mbps with high power radio over 2 carriers
QAM support
Ethernet interfaces, 2.5GE & 1GE
Flexible all-outdoor for 6 to 80 GHz
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Ericsson Radio System Overview
MINI-LINK PT 2020
6-42 600 15-20
GHz frequency band
Mbps capacity
% extra capacity with header compression
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Ericsson Radio System Overview
MINI-LINK PT 6020
short hops and fiber extension MINI-LINK LH MINI-LINK PT
MINI-LINK PT
e-Band
› All outdoor packet solution suitable for metropolitan areas › Complement as fiber extension reaching Gigabit capacity everywhere › Higher capacity with new frequency band: › 1Gpbs @ E-Band (70/80GHz) in 250MHz channel › 15-20 % extra capacity with Header Compression › Higher capacity in a single carrier for metropolitan hops › New unused frequency band › Potential lower annual spectrum cost › Faster time to market
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Ericsson Radio System Overview
CCS (partner solution)
25-29 1 2.3
GHz frequency bands
Gbps capacity TDD
Liter in volume
Fully self-organizing MPtMP microwave backhaul
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Ericsson Radio System Overview
RADWIN (partner solution)
6 750 350 Sub
GHz frequency band
Mbps capacity PtP (RADWIN 2000 D+)
Mbps capacity PtP/PtMP (RADWIN 5000 JET SCB)
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Ericsson Radio System Overview
Bandwidth Notification Supported in Router 6000 and Mini-Link › Current capacity information sent to other nodes › Used for traffic shaping and re-routing › Increased focus on network optimization
Adaptive modulation
– Adaptive Modulation – Multiband booster with E-band - higher capacity differences
BNM
› Standard protocol – G.8013/Y.1731 (2013) Amd.1
Maximize utilization of available bandwidth © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-224
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Ericsson Radio System Overview
Product Summary MINI-LINK is a powerful and cost efficient network node fulfilling the requirements of the mobile broadband evolution •
High node capacity – increased modulation schemes, higher switch capacities, E-& V- band, 1G & 2.5G & 10G interfaces Flexible – any frequency, any site type, switching & routing, any sync • High density – 70% less size, more directions
•
Part of the new Ericsson Radio System •
• Integrated and verified Feature alignment for optimal performance
Enable efficient migration of installed base •
• Hop compatibility between nodes Reuse of installed radio, antenna and cabling
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Ericsson Radio System Overview
Summary of Chapter 5 The participants should now be able to: 5
Describe the wide range of Backhaul products for Outdoor and Indoor Scenarios
5.1 List the various Aggregation Units offered in Ericsson Radio System, and explain their usage 5.2 List the characteristics of the new products in Router 6000 Series 5.3 Match the new products in the MINI-LINK Portfolio to the Indoor and Outdoor usage
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Ericsson Radio System Overview
Ericsson Radio System Overview
Enclosures and Power Systems
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Ericsson Radio System Overview
Objectives of Chapter 6 After this chapter the participants will be able to: 6 List the new enclosure and power options available under Ericsson Radio System Hardware 6.1 Describe the different Enclosure options and its Outdoor/indoor functionality 6.2 Identify Power System Solutions for Macro, Main remote and Hybrid configurations 6.3 Explain small cell implementation with the various Indoor Power Products 6.4 Discuss the Installation options and Configuration for the Power Products © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-228
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Ericsson Radio System Overview
Enclosure and Power
Enclosure
Enclosure & power
Power
Remote site management
Battery
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Ericsson Radio System Overview
Enclosure naming (example)
Enclosure 6130 Upper case Lower case
Space
Random / Capability Series
Enclosure 6306 Enclosure 6307
Enclosure 6130
Enclosure 6150
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Ericsson Radio System Overview
Ericsson Radio System Site types
63 SERIES Site with zero footprint products
65 SERIES
61 SERIES
Site with outdoor small form factor Micro
64 SERIES
Site with outdoor enclosures
Site with indoor Pico, integrated radio.
62 SERIES Site with indoor enclosure or larger 19” shelf based products
66 SERIES Site with indoor self contained 19” products.
OUTDOOR SERIES
INDOOR SERIES
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Ericsson Radio System Overview
The Cabinet Heat Exchanger Feature: air pressure monitoring
DAC Frame
Side-by-side cabinett
Full Flexibility
Insulation
Plain cover or
Active cooling
Bullet proof Light box
Blind plate DAC Feature: Alternative door positioning Alternative locking systems
Battery Base Unit (BBU)
More features: Variable height Variable width Optional EQ4-Kit Optional installation interfaces
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Ericsson Radio System Overview
Flexible configurations
AC/DC POWER
AC/DC POWER
AC/DC POWER
AC/DC POWER
BASEBAND BASEBAND BACKHAU L
BATTERY
All-in-one
BATTERY BACKHAUL
BATTERY
BACKHAU L
MainRemote
Power/battery
Transmission
Energy storage
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Ericsson Radio System Overview
The Modular System REMOTE RADIO 1-18
CLIMATE OPTIONS 5-10 kW Heat Exchanger 5-10 kW Direct Air Cooling
Multi Purpose RADIO UNIT 1-12
POWER 2,5-35kW
Double Capacity
DIGITAL UNIT 1-8
BATTERY 190-570 Ah
TRANSMISSION 1U - 25U
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Ericsson Radio System Overview
Approach differently
POWER
DUS 31
Use 5212/5216? Reduced back-up? 3 hours instead of 4 hours?
POWER
Capacity or coverage site? Is battery back-up really needed?
DUG 20 DUG 20
BB521x
DUG 20 TCU 02
AMM 6p
AMM 6p
POWER
BB521x BATTERY 2x210Ah
BATTERY 1x210Ah
AMM 6p
Enclosure 6150
Enclosure 6140
Enclosure 6130
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Ericsson Radio System Overview
Enclosure 6130 Main characteristics › Power systems – DC: 15x CB (additional DC as option, 15 x CBs) – AC: ≤ 8 kW (200 A) DC power › 15x DC (6x Prio + 9x Main) – 12Ah-210Ah batteries (PBC config) › Climate system – Heat Exchanger (HEX) – Designed for self-sustained equipment – Temp. range: -33°C - +50°C (Heater optional) › Mechanical – 8U equipment space (19”) or batteries (AC/PBC config) – 10U equipment space (19”) (DC config) – IP55 – WxHxD: 650x1051x700 mm – Weight: 124kg (AC Config)
105 mm
› Control – Integrated with OSS/ENM – External alarms
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Ericsson Radio System Overview
Enclosure 6140 Main characteristics › Power systems – DC distribution: 15x CB – AC ≤ 8 kW (200 A) DC power › 15x CB (6x Prio + 9x Main) – 12Ah-210Ah internal batteries – Additional DC distribution as option (15x CBs) › Climate system – HEX / DAC (for battery compartment) – Designed for self-sustained equipment – Temp. range: -33°C - +50°C (Heater optional) › Mechanical – 10U equipment space (19”) + up to 1x210Ah (AC Config) – 21U equipment space (19”) (DC Config) – IP55 – HxWxD: 1607x700x752 mm – Weight: 190kg (AC Config) › Control – Integrated with OSS/ENM – External alarms
105 mm
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Ericsson Radio System Overview
Enclosure 6150 Main characteristics › Power systems – AC: ≤ 8 kW (200 A) DC power › 15x CB (6x Prio + 9x Main) – AC: ≤ 20 kW (400 A) DC power › 32x CB (6x Prio + 25x Main) – 12Ah-210Ah batteries – Additional DC distribution as option (15x CBs) › Climate system – HEX / DAC (for battery compartment) – Designed for self-sustained equipment – Temp. range: -33°C - +50°C (Heater optional) › Mechanical – 13U equipment space (19”) + up to 420Ah battery back-up (AC Config) – IP55 – HxWxD: 2050x800x740 mm – Weight: 230kg (AC Config) › Control – Integrated with OSS/ENM – External alarms
105 mm
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Ericsson Radio System Overview
Enclosure 6320 › › › › › › › › › › › ›
Mast, pole or wall mounting Baseband and transport applications Support for 9 baseband units Light weight design allows for easy carry to site Integrated climate control and OSS interface HEX climate system Site power: -48 V DC 10U 19” space (12U total) HxWxD: 905x520x585 mm Weight: 50kg (empty) Temp. range: -33 ̊C - +50 ̊C IP55
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Ericsson Radio System Overview
Enclosure 6330 Main characteristics
› Power system – DC distribution – Supports up to 12x RRU/AIR (power+CPRI)
› Climate system – HEX – Designed for self-sustained equipment – Temp. range: -33°C - +50°C (Heater optional)
› Mechanical – – – –
5U equipment space (19”) (DC Config) IP55 HxWxD: 625x900x400 mm Weight: 50kg (empty)
105 mm
› Control – Integrated with OSS/ENM – External alarms
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Ericsson Radio System Overview
Enclosure 6340 Main characteristics
› Power system – DC distribution
› Climate system – HEX – Designed for self-sustained equipment – Temp. range: -33°C - +50°C (Heater optional)
› Mechanical – – – –
2U equipment space (19”) IP55 Size:575x700x300mm (WxHxD) Weight: 40 kg
105 mm
› Control – Integrated with OSS/ENM – External alarms
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Ericsson Radio System Overview
Enclosure 6215 › Mechanical – 2x ERS Rail interface – Up to 12x ERS Radios – HxWxD: 2000x1100x676 mm – Weight: 75kg
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Ericsson Radio System Overview
Enclosure 6147 › Mechanical – 2x ERS Rail interface – Up to 12x ERS Radios – HxWxD: 2000x1100x676 mm – Weight: 173kg › Climate system – Natural convection – -33°C - +45°C – IP20
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Ericsson Radio System Overview
Enclosure B154 Main characteristics › Power systems – DC Output: -48 VDC / 200A – Battery characteristics: 8x 12V / 100 – 210 Ah (AGM) › Climate system – Convection cooling – Normal operation: -33°C – 50°C › Mechanical – IP44 – HxWxD: 1100x650x700 mm – Weight: 105 kg (excl. batteries)
105 mm
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Ericsson Radio System Overview
Enclosure B174 › Battery Backup System › 4 x 170/190/210 Ah › Hydrogen Ventilation (GR 487) (no tubes) › Active Cooling › -33 to +50 °C › WxHxD: 700 x 1850 x 860 mm › Weight: 135 kg (battery excl.) › EQ4 optional › Heater optional
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Ericsson Radio System Overview
Battery on rail Battery 6312
OPERATOR CHALLENGE
Robustly densify macro network in environments where new sites with minimal site space are the only places left to grow on
OUTDOOR BATTERY SOLUTION Battery on Rail
› Fast deployment and significant cabling savings › Minimal space needed, no battery cabinet required › Lithium-Ion: Long battery lifetime BATTERY ON THE RAIL › › › ›
Battery 6312: One-bolt installation Wide operating temperature range: -33° C till 50° C Capacity dimensioned for typical 15 to 30 minutes back-up time Tight O&M integration with Ericsson Radio System Power solutions
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Enclosure 6306 › Multi-purpose enclosure › Size (for Li-Ion): 444 x 190 x 604 (w x d x h) › Weight (for Li-Ion): Less than 21 Kg › Temperature range: -40 to +55 degr. C › Separate installation or attached to another unit (TM) › Carries one 48V/26Ah Li-Ion battery (add 19 kg) › Alternatively any of the supported 19” transmission solutions (max. 2 HU), i.e. MINI-LINK etc.
Li-Ion battery version
› Alternative: One Enclosure 6307 can accomodate two x 48V/26Ah Li-Ion batteries. › Customer padlock interface Cable entries (Li-Ion)
Cable entries (TM)
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Enclosure 6306 Product characteristics
› Multi-purpose enclosure › Size: 444 x 190 x 604 mm (w x d x h) › Weight: Less than 21 kg › Temperature range: -40 to +55 °C › Separate installation or attached to another unit (TM or Li-Ion) › Support 19” transmission solutions (max. 2 HU), i.e. MINI-LINK etc. › Surge protection: OVP or SPD › Carries one 48V/26Ah Li-Ion battery (add 19 kg) › Customer padlock interface › Interfaces for external cables:
Cable entries (Li-Ion)
Cable entries (TM)
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› 4x RF cables (MINI-LINK) › 20x Optical cables › 4x Signal cables
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Enclosure 6307 Product characteristics
› Dual-purpose enclosure › Size: 440 x 257 x 600 mm (w x d x h) › Weight: Less than 27 kg › Temperature range: -40 to +55 degr. C › Separate installation › Carries 1-2 x 48V/26Ah Li-Ion battery (add 19-38 kg) › Alternatively 1 x 48V/37-40 Ah L-A battery (add < 60 kg) › Approved for selected Enersys and Northstar L-A batteries
Lead-acid battery version
› Customer padlock interface Cable entries © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-249
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Ericsson Radio System Overview
6306 6303 – Typical Site Configuration Typical site configurations
- Large micro / small cell site Panel antenna
Bi-dir. antenna
Panel antenna
Bi-dir. antenna
Panel antennas
PT 3060 (example)
RBS 6501
mRRU
mRRU
mRRU
RBS 6501
Power 6306
AC input (Grid or GenSet)
Enclosure 6306 (with TM)
48 VDC (Loads) Enclosure 6307 (example) 48 VDC (Battery) HW items in correct relative scale
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-250
Legend: Red: AC input (Grid or GenSet) Yellow: 48 VDC (Battery) Green: 48 VDC (Loads)
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Enclosure Installation
Power 6306 + 2 x Enclosure 6306 (one for TM, one for Li-Ion)
Power 6306 + Enclosure 6306
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Power 6306 + Enclosure 6306 (double-mounted)
Power 6306 + Enclosure 6307 (Li-Ion or L-A)
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Power
Power 6302 Upper case Lower case Space Series
Random / Capability
Power 6610 Power 6302 Power 6306 © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-252
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Power 6302 Power Supply solution for NGR macro radios ( RRU 2217) AC conversion for more flexibility on remote sites. Aligned with NGR design and building practice. APC Light compliant – ie Power 6302 is a Support Unit.
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Power 6306 › Size: 444 x 233 x 604 mm (w x d x h) › Weight: Less than 43 kg › 1 – 4 x 1 kW high-efficiency outdoor rectifiers › Temperature range:: -40 to +55 °C › 1, 2, 3-ph. AC interface, Surge Type 1 alt. Type 2 › < 10 DC outputs, Surge Type I alt. Type III SPD › Optional main-load disconnection capability › Alternative battery technologies; Li-Ion or Lead-acid: › Lead-Acid batteries for low initial investment › Lithium-Ion batteries for low weight, long life and low cost of ownership › Many battery enclosures to chose from; Enclosures 6303, 6306, 6307, BBS 6301, BBS 05 and BBS 6101 › Multiple battery enclosures per Power 6306 supported
› Customer padlock interface
Cable entries
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Power 6306
Adaptable to your site needs – at a glance RBS 6302
Macro RRU / AIR
RBS 6501 mRRU
Outdoor backhaul
MINI-LINK ALL OUTDOOR
Up to 10 x DC Outputs
Power 6306 power and distribution ( 62 l / <43 kg) •1-4 kW output power •Hinged door for simple access and installation •Optional main-load disconnection •AC protection: Surge alt. Lightning •DC protection: Surge alt. Lightning •< 10 x separately fused DC outputs. < 12 x DC loads •1-4 x Battery enclosures (6306 or 6307) possible
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Power 6306
macro / small cell outdoor site power
› Modular enclosure designs for efficient site build › Energy-efficient & virtually maintenance-free › < 4 kW (100 A) DC power in Power 6306 › 1-4 x 1.0 kW rectifiers; High-Efficiency & Natural convection › < 10 x load outputs with optional dual-level disconnection › Individual DC protection per output, Surge or Lightning › Alternative AC protection; Surge or Lightning › Powers ”any” -48V DC load, Ericsson and non-Ericsson
Power 6306
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› Flexible and scalable battery backup: › Lead-Acid batteries for low initial investment › Lithium-Ion batteries for low weight, long life and low cost of ownership › Many battery enclosures to chose from; Enclosure 6306, 6307, BBS 6301, BBS 05, BBS 6101 › Site transmission › MINI-LINK and IP transmission easily housed in Enclosure 6306
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Power 6393 Description
Power 6393, Modular Power Supply (Outdoor & Indoor) › Power 6393 is a modular power supply concept, that can support either AC or DC input power, for low power applications up to 200W. This is done by two variants of Main Units: – Power 6393 AC Main Unit (for input 100-250 VAC) – Power 6393 DC Main Unit (for input -48 VDC power)
› The main units can be configured with either one or two output modules (PDUs). These are available in three variants: – PDU 40 01: – PDU 40 02: – PDU 40 03:
1 port Power over Ethernet with surge protection 1 port Power over Ethernet with Lightning protection 2 port -48 VDC with Lightning Protection
Product Number Function Designation BML 901 6393/1 BMR 911 6393/1 BMG 907 4001/1 BMG 907 4002/1 BMG 907 4003/1
NTK 102 317/2
Power 6393 AC Main Unit Power 6393 DC Main Unit PDU 40 01 PDU 40 02 PDU 40 03
Pole Mount kit: Hose Clamp (2pcs) (For pole mount)
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Power 6393 Outdoor application
MINI-LINK 6352 or MINI-LINK PT 2020
MINI-LINK 6352/Fronthaul 6392 or MINI-LINK PT 2020 -48 VDC Power (DC+Opto solution)
Power over Ethernet (PoE)
PoE 1
PoE 2
Power 6393: PoE 1-2: Power over Ethernet PoE 1/2 ≤ 100W/port (Up to 2 Outputs)
Power 6393
Input: -48 VDC or 100-250 VAC
DC1
DC2
DC3
DC4
Power 6393
Input: -48 VDC or 100-250 VAC
Input Ethernet: Eth 1 & Eth 2
Power 6393: DC1-4: -48 VDC Sum DC1-4 ≤ 200W DC1-4 ≤ 200W/port (Up to 4 Outputs)
Link to detail information
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Power 6393 Indoor application
Indoor
DC1-4: -48 VDC Sum DC1-4 ≤ 200W (Up to 4 Outputs)
Indoor Units: (e.g. MINI-LINK 6651/6691 or MINI-LINK CN 510/TN (AMM2pB)) (Total max 200W) DC1
Outdoor MINI-LINK 6363/RAU2 X
DC2
Power 6393
DC3
DC4 Input: -48 VDC or 100-250 V AC
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Power 6610 › › › › ›
Height 4 HU, 19” width Dimensions (WxDxH): 485 x 519 x 177 mm IP20 rated Front cover with dust filter Normal operation temperature range +5 to +55 ̊C › › Weight 35kg fully populated (16kg empty) › › › ›
Wide AC input range 85-275VAC Rectifier capacity 10kW, -48VDC 200A Battery backup connection Option for both Lead acid and Li-Ion batteries Up to 17 separate -48VDC load feeds –105Support 20A and 26A electronically controlled DC fuses mm – Support up to 100A electromechanical circuit breakers
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› 8 external alarm inputs › EC bus connection
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Objectives of Chapter 6 The participants should now be able to : 6 List the new enclosure and power options available under Ericsson Radio System Hardware 6.1 Describe the different Enclosure options and its Outdoor/indoor functionality 6.2 Identify Power System Solutions for Macro, Main remote and Hybrid configurations 6.3 Explain small cell implementation with the various Indoor Power Products 6.4 Discuss the Installation options and Configuration for the Power Products © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-261
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Ericsson Radio System Overview Small Cell
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Objectives of Chapter 7 After this chapter the participants will be able to: 7
Expand the products under Small cell portfolio and describe their features and benefits.
7.1 List the characteristics of New Micro RBS, Pico RBS, Radio Dot System (RDS) and their configuration options 7.2 List the characteristics and usage of the various WiFi Access Points (AP) products
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Small cell products Indoor Only
Outdoor and Indoor Radio 2203
Micro RRU
Micro RBS 6501
Pico RBS 6402
Radio Dot
Complete RBS with integrated baseband Main-remote radio possible to connect to common baseband pool
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Small cells Portfolio
Pico RBS
Small cells
Micro RBS
Micro Radio
Radio Dot System
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Operator challenges Indoor app coverage Indoor systems must deliver seamless app coverage, peak rates and services
SM S
Technologies and spectrum
10 Mbp s
Migration of 3-4 Standards and 5-10 Bands
1
Mbp s
>10 @
Mbps
0, 1M bps
Multitude of devices 3G, 4G and Wi-Fi
Cost efficient deployment Size, few boxes, Backhaul, installation & integration
Approx. 10 Million commercial buildings up to 5000 m2 (50 000 sqft )
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Performance / traffic demand
How to meet specific indoor needs Add indoor small cells Densify macro Add micro cells Improve macro
General indoor coverage
Difficult areas
Enterprise solutions Indoor hot-spots Regulatory requirements
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Ericsson indoor portfolio
< 5K m2
Pico RBS
5K – 50K m2
> 50K m2
Small deployments, Internet grade backhaul Superior performance and feature support in large deployments
Radio Dot Micro DAS
Large coverage, special antenna configurations
Macro DAS
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RBS 6402 Indoor pico cell Biggest performance boost in a tablet-sized footprint optimal for smaller buildings
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RBS 6402 Multiband concept 3GPP Module 1 3GPP Module 2 WiFi
2 RF modules for 3GPP Each module: 2-4 Bands One band per module selectable by SW out of 2-4 bands
A few products per market supports all band combinations
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RBS 6402 Performance › › › ›
300 Mbps LTE carrier aggregation Up to 2 LTE carriers 5,10 or 20 MHz dual band Up to 2x2x250 mW output power 21 Mbps HSPA (HW prep 42 Mbps)
Flexibility › Up to 10 bands in one unit › Remote selection of band and standard › 3 standards, LTE, WCDMA and Wi-Fi simultaneous operation
Easy to deploy › › › ›
Small All-in-One solution Data & Power over Ethernet and SON features Network-live in 10 minutes Coverage area 800-3000 m2
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Untrusted environment Pico RBS 6402
Needed if › Public network › Little/no control › Physically exposed
› IPsec › Auto Integration › Signed SW
MME
Attack
Untrusted Network
SGW Security GW
Intruder
OSS
Trusted Network
RNC
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License Assisted Access Unlocks 5 GHz spectrum for LTE
› LTE licensed spectrum for performance › LTE unlicensed spectrum for speed boost
LTE Advanced on Licensed & Unlicensed Spectrum
LAA Unlicensed
– Carries additional data payload – 4% of the 5 GHz band provides up to 150 Mbps speed increase
LTE Macro
LTE Primary Carrier Licensed Spectrum
LTE Small Cells
LTE Secondary Carrier Unlicensed Spectrum
– LTE efficiencies on unlicensed spectrum © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-274
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RBS 6402 LTE-U Performance › › › ›
300 Mbps LTE carrier aggregation 2 LTE Carriers 5,10 or 20 MHz 4x250 mW output power Support for 40 MHz 5GHz/LTE-U
›
Flexibility › Remote selection of FDD band › Licensed FDD, LTE-U and Wi-Fi simultaneous operation › HW prepared for 20+40 MHz CA
Easy to deploy › Small All-in-One solution › Data & power over ethernet and SON features. › Network-live in 10 min
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RBS 6501 › Output power matters – 2x5 W in order to build a strong micro cell
› RBS 6501 supports CPRI out – Dual band and Multi sector flexibility. – 6 Cell carriers, 168/23 Mbit/s (DL/UL) – LTE: 120 MHz, 225/75 Mbit/s (DL/UL)
› High capacity – 1000 connected LTE users
› Easy and Flexible Deployment – – – –
AC or DC Power Supply Integrated GPS with antenna Integrated or External Antenna 16kg & 15l
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RBS 6501
2x5 W in order to capture traffic
CPRI out supported
CPRI
High capacity - 1000 connected LTE users
Easy and Flexible Deployment
mRBS 6501
mRRUS 12
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Ericsson Micro Flexibility Integrated or external Antenna Support
RBS 6501
mRRU
Integrated AC or -48 V DC CPRI-Out Optical or Electrical GE Interface Support for internet grade
Power output to feed Tx Equipment
Sector 1 RBS 6501
Sector 2 mRRUS 12
Sector 3 mRRUS 12
Freq. 2
mRRUS 12
Freq. 1
RBS 6501
External antenna Indoor/Outdoor Semi integrated omni antennas Integrated patch antenna
Multi sectors
Dualband & CA
Antenna & site solutions
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Zero site small › Height: 4000 mm › Colour: Colour on request › Radio Option: 1-2 Micro Remote Radio, Radio 2203 mounted on sliding rail › Transmission option: Fiber › Power consumption: 50W © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-279
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Zero Site Large › Height: – 8,65 m (Small Randome) – 9,45 m (Large Randome)
› Radio Option: Remote Radio Units 01-02-11-12 or Micro Remote Radio Units – Randome Small: 6 Micro Radio Units with internal antennas or 3 small external antennas – Randome Large: 2 Macro Remote Radio Units with 3 external antennas
› Transmission options: Fiber or Microwave © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-280
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Radio dot system
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RBS 6000 with Radio DOT System › Redefining indoor small cells › Indoor game changer – Addressing majority of buildings – Affordable ultra high capacity
› Innovation enabling future technology in today’s deployment
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Ultra compact with flexible mounting
Ceiling tile
Pipe
Concrete
Rail system
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Easy Install
EASY install
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Radio dot system Radio/ RRU
RBS 6000 with Indoor Radio Unit (IRU) › Aggregation for 8 RD per IRU › Coverage for around 5000 m2 per IRU › Pooled baseband resources, 6 IRU per DU › LTE or WCDMA › 100% network integrated for radio and management
Radio Dot (RD) › Discreet and easy to install › High capacity radio and antenna with MIMO › Power and radio over standard LAN cable › Cable length up to 200 m
RBS 6202 IRU
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Radio Dot System RF
Remotely powered Radio Head (RH) Compact, low-cost and low power
CPRI IQ-Data
IF
Packet
(20-250 MHz)
RBS
Up to 200m / 600 ft
Dot
CAT6-7 twisted pair.
3GPP
DU
IRU
Copper
Fiber
GbE
Band Agnostic Indoor Radio Unit (IRU) Multi-band Active Antenna Elements (RH) Pooled Capacity defined by Digital Baseband Unit (DU) © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-286
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Radio Dot System solution overview Radio Dot (RD or “Dot”) —Indoor optimized ultra compact radio —Discreet and easy to install —Single and dual band versions —Radio and power over LAN cable
Radio Dot Enclosure — Dual enclosure: 2 single / dual dots — Triple enclosure: 3 single / dual dots Micro Radio — Complementing Radio Dot for low capacity coverage areas — External antenna support — Outdoor hardened
Indoor Radio Unit (IRU) — Power and control for Radio Dots — Frequency band independent — FDD/TDD Software defined radio — Remote or co-located with baseband Baseband and RAN Software — RDS + Micro Radio pooled baseband — Backhaul, synchronization and security — WCDMA/LTE SW with feature parity and 3GPP evolution with leading Ericsson Baseband
Enclosures — Remote IRU Enclosure: 1 slot IRU enclosure — RBS 6601: 2 slot enclosure — RBS 6202: 14 slot enclosure
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Radio Dot System Hardware Baseband
IRU
Chassis
Radio Dots
RBS6601 IRU2242 WCDMA DUW11, DUW31/41
IDU5205 / IDU5209
Dual Dot Enclosure
RD2242 frequency band specific
RD2243 frequency band specific
Baseband 5216/12
LTE DUS31/41
RBS6202
Triple Dot Enclosure
RD4442 Dual Band frequency band specific
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Indoor Radio Unit, IRU2242 › Connectivity for up to 8 Radio Dots all configured in one radio cell on one frequency band › Typically provides coverage for 5000m2 › Designed for RBS 6000 with single height Digital Unit form factor › Frequency band agnostic › Multi Standard Mixed mode supported › Connectivity to DU: CPRI 2.5 Gbps › Secondary CPRI port for cascading › EC-bus extension for remote management › Power consumption < 175W (includes power feeding to Radio Dots) › Heat dissipation <50W
31 mm 5000 m2
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Indoor Digital unit (IDU) IDU5205 and IDU5209 Background › Existing DU / Basebands have too much capacity for indoor small and medium buildings › Lack of price optimized DU / Baseband for small and medium buildings Description › IDU5205 and IDU5209 are optimized DU for indoor solution, and work only with Radio Dot System – IDU5205 can support up to 24 Dots, 600Mbps throughput, LTE single mode, WCDMA single mode, – IDU5209 can support up to 48 Dots, 1Gbps throughput, LTE single mode, WCDMA single mode, L+W mixed mode simultaneously (17A) – Fixed capacity, no HWACs for capacity › Feature parity with LTE/ WCDMA RAN › Contribute to better TCO of Radio Dot Solution (lower price due to lower capacity, see separate pricing guide for IDU) Benefit › Low entry point of Radio Dot System › Simple solution with predefined configuration for small / medium buildings › More flexibility in DU selection
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Radio Dots › RD2242
› RD2243
– Single band frequency band specific radio head with two radio branches Tx and Rx –Size and Weight: ~10 cm diameter, 265 g ( 10 oz.) –RF Power 20 dBm, recommended for up to 800 m2 coverage area › 2x2 MIMO, Tx/Rx Diversity: 17+17 dBm Tx › 2x1 MISO using Common Precoder: 1x 20 dBm Tx – 40 MHz Instantaneous Bandwidth (IBW) – Antenna lobe: Omni – Technology: WCDMA and LTE with mixed mode support – Data rates: dependent on carrier configuration up to 400 Mbps DL –Connection to IRU for radio signal, control channel and power over single standard LAN cable (CAT 6a/7) © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-291
– The RD 2243 is a Single Band Radio Dot with the same dimensions as the RD 4442. The RD 2243 has the following features › 256-QAM Downlink and 64-QAM Uplink › LTE FDD - 2 carriers of 5, 10, 15, 20 MHz bandwidths (B1 and B3 versions only) › LTE TDD - 2 carriers of 5, 10, 15, 20 MHz in full band or 5 MHz subbands (B40A version only) › WCDMA - 4 carriers (B1 version only) – Output power: › 2x17 dBm (B1 and B3 versions) › 2x21 dBm (B40A version) – 2x2 MIMO – Total Instantaneous Bandwidth (IBW) of 40 MHz per band
›
RD4442 – Dual band frequency band specific radio head with two radio branches Tx and Rx per band –Size and Weight: ~12 cm diameter, 300 g ( 10 oz.) –RF Power 2x20 dBm, recommended for up to 800 m2 coverage area › 2x 2x2 MIMO, Tx/Rx Diversity: 17+17 dBm Tx › 2x 2x1 MISO using Common Precoder: 1x 20 dBm Tx – 40 MHz Instantaneous Bandwidth (IBW) – Antenna lobe: Omni – Technology: WCDMA and LTE with mixed mode support – Data rates: dependent on carrier configuration up to 2x400 Mbps DL –Connection to IRU for radio signal, control channel and power over single standard LAN cable (CAT 6a/7) (U/FTP or F/FTP)
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Remote IRU enclosure benefits › The typical deployment room of Indoor Radio Unit is not telecom room, which require unique deployment solution for IRU. › Remote IRU Enclosure simplifies IRU installation by one box solution with integrated AC power supply, fans, alarms. › Remote IRU Enclosure provides flexibility in physical mounting, including rack mount, wall mount single unit, wall mount dual unit. › Remote IRU Enclosure improves the Acoustic noise › Reduced OPEX
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Remote IRU enclosure Product description
Weight: 3.7 Kg (Single Enclosure) Dimension: 447mm x 354mm 44mm IP class: IP20 AC power Rating : 100-250 VAC, 50/60 Hz , 300 W Acoustic noise level: <50 dB SPL(A) Power consumption: <10W Allowed mounting cases • Rack • Wall mount, single unit • Wall mount, two units Operating Temperatures: -5oC to +55oC
One additional external alarm input RAN support In the package, 3 kinds bracket are included for rack, single wall, dual wall No battery backup included, if needed, external uninterrupted power supply need to add
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Configuration options Medium to Large Building RBS6202 with Baseband and IRU co-located using a star configuration to radio dots Common configuration for single tenant enterprise buildings
Large to Very Large Building RBS6202 with Baseband and IRU co-located distributed on floor or building segment levels
Subtending nearby RBS Baseband shared with nearby RBS, like e.g. a roof top site on the same building with distributed IRU in RBS6601 (Q2-2015) Enables advanced LTE coordination between outdoor and indoor coverage
Campus or Large Venue Multiple installations cover multiple buildings or a large venue (eg school campus, enterprise campus, stadium) Centralized baseband can be shared by multiple indoor and outdoor facilities, supporting expansions over time
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Wi-Fi Access Points Radio › Dual radiation: 2.4 GHz and 5 GHz › Standard based beamforming › Multiple Input Multiple Output (MIMO) › Enhanced Auto-Channel
Indoor
Outdoor
Ports: • Gigabit Ethernet (GbE) ports Aerial
Features:
Strand
› Integrated Policy Enforcement Point (PEP) › DHCP or DNS based auto provisioning › Embedded Spectrum Analyser Vault
› Wi-Fi Manager based provisioning › Tunnel support › Backhaul support
Network Management and Reporting
Wi-Fi Business Analyzer
Wi-Fi Manager
OSS-RC
ENIQ
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Wi-Fi Evolution To Heterogeneous Networks Improve end user experience, network utilization and operator control Device-Driven Offload
3rd Party Model
Target Scenario
Independent Wi-Fi
Operator/Shared Hotspot
Wi-Fi in Heterogeneous Network
Home / Enterprise Wi-Fi
Public Wi-Fi
Public Wi-Fi
• •
End user aware No operator control • OTT services • Free
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•
• End user aware Some operator involvement • Emerging standards for seamless roaming • Charged differently than cellular
• •
Seamless to end user Operator controls access selection, traffic steering and service mapping • Integrated charging
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Summary of Chapter 7 The participants should now be able to: 7
Expand the products under Small cell portfolio and describe their features and benefits.
7.1 List the characteristics of New Micro RBS, Pico RBS, Radio Dot System (RDS) and their configuration options 7.2 List the characteristics and usage of the various WiFi Access Points (AP) products
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Ericsson Radio System Overview
Green Deployment/Energy solutions
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Objectives of Chapter 8 After this chapter the participants will be able to: 8
List and discuss the available Energy solution options under the Ericsson Radio System portfolio.
8.1 Describe the various energy saving solutions implemented for a site deployment 8.2 Explain how Ericsson radio system products helps in reducing Total Cost of Ownership (TCO) and power consumption for the operator 8.3 Explain, with examples, how one can build energy-optimized networks © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-300
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Ericsson Radio System Overview
Operator Energy Challenges
Energy cost
Government directives
Power disturbances
Brand value
Off-grid sites
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Ericsson Radio System Overview
Efficient Energy Solution Energy efficient Network Design
Network Level Radio Modernisation
energy Saving Features Remote site management
redundant equipment
site Power
Site Level
Alternative energy sources
Site climate
Key Performance Indicator (KPI) set according to the specific need kW/Sub CO2/Traffic CO2/Revenue © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-302
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Network range › Energy Efficient Network Design – Efficient use of out-put power – Network performance features
› Radio Modernization – RBS modernization
› Energy Saving Features – BTS Power Save, Timeslot P.S, PSU P.S.
› Redundant Equipment – TRX re-allocation, cabinet surplus, legacy equipment still operational
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Site range › Site Power – – – –
Diesel-battery hybrid Diesel generator re-sizing Durable batteries High efficiency rectifiers
› Site Climate – Enclosure layout, Site Temp., insulation – Free-cooling, Heat exhangers, DC Air-con
› Remote Site Management – Power consumption monitoring – Smart cooling control
› Alternative Energy Sources – Solar, Wind, Fuel Cell
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RAN Power Saving Solutions What it does
Feature
BCCH POWER SAVINGS
RAN POWER
SAVIN G SOLUTIONS
MCPA TX POWER SAVINGS
Reduces the output power of the BCCH carrier Calls are moved so that it is possible to put an MCPA in low-power state
Typical saving
Per cell
Depends on MCPA
30–50W
25–50W
TIME SLOT POWER SAVINGS
Individual time slots in standby when no traffic
Per TRX
20–30W
BTS POWER SAVINGS
Shuts down TRXs not needed
Per TRX
20–30W
WCDMA RAN POWER SAVE
Soft locks cells during low or no traffic periods
Per cell
12–65W
MICRO SLEEP TX
Enables discontinuous transmission in the downlink
Per cell
50W
MIMO SLEEP MODE
Reconfigure the antenna system based on traffic load
Per cell
70W
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Ericsson GREEN LTE ‐25%
› HW and SW solutions which decrease RBS energy consumption
› No penalty on network performance
CELL SLEEP MODE MICRO SLEEP TX AIR ANTENNA SOLUTION
‐17%
ENERGY SAVINGS
AREA TRAFFIC DENSITY
› Smart LTE software to decrease radio power when its not needed
ENERGY SAVINGS
‐ 52%
ENERGY SAVINGS
CELL SLEEP MODE MICRO SLEEP TX
MICRO SLEEP TX MIMO SLEEP MODE PSI COVERAGE
DENSE URBAN URBAN
SUBURBAN
RURAL
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Ericsson Radio System Overview
LTE RAN Software Energy savings
MICROMICRO SLEEP SLEEP TX TX
PerRBS cell Per
65W
Per RBS
8% savings
MIMOMIMO SLEEP Reconfigure Reconfigure the antenna the antenna system system SLEEP MODE MODE based on based traffic on loadtraffic load
PerRBS cell Per
80W
Per RBS
10% savings
CELLMIMO SLEEP Automatically Reconfigureswitch the antenna off andsystem wake up SLEEP MODE MODE smallbased cell based on traffic on traffic load load
PerRBS cell Per
90W
Per RBS
10% savings
Enables discontinuous transmission in the downlink
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Ericsson Radio System Overview
Smart scheduling saves energy Low Energy Scheduler Solution
OPERATOR CHALLENGE
-15%
Reduce network OPEX by lowering energy consumption while securing top performance
POWER SAVING POTENTIAL
Conventional Scheduler
NEW UNIQUE SOFTWARE: SCHEDULE LTE TRAFFIC TO SAVE ENERGY › Group downlink LTE traffic in time › Enable power amplifier to go more often in sleep mode › Seen in field: 6 % additional energy saving ›
Low Energy Scheduler Solution
Total saving potential including micro sleep TX: -15%
› Less interference in network ›
Improved App Coverage
Time
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Innovative solutions
Psi Coverage
Saving 400W
45% power savings
AIR
Saving 140W
15 % power savings
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LTE deployment scenarios Case /solution assumptions
Traffic/site
25% of Traffic
High Traffic SItes
RBS Load diagram
´- load distribution as % of all RBS’
Medium Traffic Sites 60% of Traffic
Coverage / Low Traffic Sites 15% of Traffic 50%
10% of sites
• Micro Sleep TX • Cells Sleep Mode • MIMO Sleep Mode • Antenna Integrated Radio (2TXx4RX)
• •
•
Micro Sleep TX Cells Sleep Mode MIMO Sleep Mode
100% of sites
•
• •
Micro Sleep TX MIMO Sleep Mode Psi Coverage
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Energy savings HW+SW
High Traffic Sites Micro Sleep TX • Cells Sleep Mode • Cell sleep Mode • Antenna Integrated Radio
Medium Traffic Sites
•
860W
-25% 647W
• •
•
Micro Sleep TX MIMO sleep Mode Cells Sleep Mode
840W
-17%
Low Traffic Sites •
• •
Micro Sleep TX MIMO Sleep Mode Psi Coverage
840W
-52%
695W 405W
1882 Kwh/Site/year
1270 Kwh/Site/year
3810 Kwh/Site/year
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Operator Business Case Total Value of Operator Savings (US$) High Traffic Sites › 200 Sites › Savings: – 215 W/site – 1882 kWh/site/year – 376 $/site
› 5 Years Saving: – 0.14 $ /kwh – 1880US$/site
› Network savings – 376kUS$
Medium Traffic Sites 800 Sites Savings: - Saving: 145 W/Site - 1270 kWh/site/year - 253 $/site
Low Traffic Sites 1000 Sites Savings: - Saving: 435 W/site - 3810 kWh/site - 761 $/site
5 Years Saving :
5 Years Saving :
- 0.14 $ /kwh - 1270US$/site
- 0.14 $ /kwh - 4993 US$/site
Network savings
Network savings
1.01 MUS$
3.81 MUS$
5.2 MUSD Energy savings value (5 years) © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-312
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WCDMA RAN Power Save functionality WCDMA RAN Power Save (RPS) enables reduction of the RBS output power by locking down resources during periods with no or low traffic. The periods for powering down/up the selected 3G cells are fully controlled by mean of scheduling profiles. The resources will automatically unlock and become available if traffic levels rise above configurable thresholds. Soft locking of cells to ensure no impact to ongoing traffic and QoS.
Locking cells (3 Radio Unit) provides power savings of 120-690 W per hour depending upon the RBS type and configuration. © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-313
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RPS – A cost saving solution Why keep maximum network capacity during periods with no or low traffic? It costs a lot of money in terms of RBS power.
Controlled from OSS-RC, RPS can handle thousands of cells in parallel, thus enabling significant OPEX reductions for operators. © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-314
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Ericsson Radio System Overview
Improved DUW11 - with eco-turbo
RAN SW doubles DUW11 capacity
50%
85W
DUW11 with Eco-Turbo has capacity to handle 50% of typical network
Our most energy efficient baseband consuming only 85 Watt
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Ericsson Radio System Overview
Summary of Chapter 8 After this chapter the participants will be able to: 8
List and discuss the available Energy solution options under the Ericsson Radio System portfolio.
8.1 Describe the various energy saving solutions implemented for a site deployment 8.2 Explain how Ericsson radio system products helps in reducing Total Cost of Ownership (TCO) and power consumption for the operator 8.3 Explain, with examples, how one can build energy-optimized networks © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-316
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© Ericsson AB 2018
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Ericsson AB Global Services SE‐164 80 Stockholm Telephone: +46 10 719 0000 www.ericsson.com/ourportfolio/services/learning‐services
LZT1381612 Uae R5A © Ericsson AB 2018 | LZT1381612 R5A
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Ericsson Radio System Overview LZU1089991
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Ericsson Radio 5G System CoreOverview Concept
Ericsson Radio System Overview STUDENT BOOK LZT1381612 R5A
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Ericsson Radio System Overview
DISCLAIMER This book is a training document and contains simplifications. Therefore, it must not be considered as a specification of the system. The contents of this document are subject to revision without notice due to ongoing progress in methodology, design and manufacturing. Ericsson shall have no liability for any error or damage of any kind resulting from the use of this document.
This document is not intended to replace the technical documentation that was shipped with your system. Always refer to that technical documentation during operation and maintenance.
© Ericsson AB 2018 This document was produced by Ericsson. The book is to be used for training purposes only and it is strictly prohibited to copy, reproduce, disclose or distribute it in any manner without the express written consent from Ericsson. This Student Book, LZT1381612 R5A supports course number LZU1089991 R5A.
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Ericsson Radio System Overview
Course Objectives On completion of this course the participants will be able to: › › › › › › › ›
Discuss the evolution of the radio access network List the features of the baseband products Describe the different Fronthaul products suited for macro and small cell deployments Identify different Radio Products and their primary features Describe the wide range of Backhaul products for Outdoor and Indoor Scenarios List the new enclosure and power options available under Ericsson Radio System Hardware Expand the products under Small cell portfolio and describe their features and benefits List and discuss the available Energy solution options under the Ericsson Radio System portfolio
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Table of Contents Chapters……………………………………………………………....Page 1 2 3 4 5 6 7 8
Introduction to Ericsson Radio System ……………….………………..… 007 Baseband …………………………………..…………………………………057 Fronthaul……………………………………………………………………… 093 Radio …………………………………………………………………………. 129 Backhaul…………………………………………………………………….. 189 Enclosures and Power Systems ……………………………..................... 227 Small Cells ………………………………………………….…….................263 Green Deployment/Energy Solutions ….…………………………............ 299
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Ericsson Radio System Overview Introduction to Ericsson Radio System
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Ericsson Radio System Overview
Objectives of Chapter 1 After this chapter the participants will be able to: 1
Discuss the evolution of the radio access network
1.1 Identify a typical existing site and its challenges to meet the future demands 1.2 List the requirements for the future networks 1.3 Explain the multi-standard, multi-band and multi-layer solutions with Ericsson Radio System 1.4 Discuss how a typical Ericsson Radio System based site could look like © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-8
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Ericsson Radio System Overview
Market Trends and insights TRAFFIC GROWTH
MULTI STANDARD GSM HSPA LTE
2015 10x 2021 2015
COVERAGE
2021
MOBILE SUBS by region and technology
≈ 95% > 90%
GSM HSPA LTE
≈ 75% © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-9 Source:
MEA
AP
LA
CEE
WE
NA
Ericsson Mobility Report June 2016
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Radio trends Driving the requirements for radio network transformation
Multi‐standard
Multi‐band
and more on the way
now
Multi‐layer
is becoming the norm
5000 MHZ 3500 MHZ
LTE WCDMA/HSPA GSM/EDGE
2600
MHZ
CA FDD/TDD
1800 MHZ 800 MHZ
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Ericsson Radio System Overview
Radio Transformation Requirements Multi-standard // Multi-band // Multi-layer RADIO PERFORMANCE
Deliver the best user experience
SCALABILITY
FLEXIBILITY
ENERGY EFFICIENCY
TOTAL COST OF OWNERSHIP
Meet the Deliver capacity Sustainable Secure the best challenge and performance and profitable business case for of growth where it is needed networks mobile networks
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Ericsson Radio System Overview
Networks are about 3 x Multi Multi3X Networks Multi-standard multi-band multi-layer GSM HSPA 5.0 GHz UNLICENSED
LTE
2600 TDD
CARRIER AGGREGATION
2100
1800
900 COORDINATED MACRO & SMALL CELLS
800
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Ericsson Radio System Overview
MULTI-standard Multi-Standard Opportunities opportunities
DRIVERS › MBB introduction/expansion › GSM Spectrum Refarming › Devices ecosystem
CHALLENGES Spectrum & cost efficiency, and minimum site impact
SOLUTIONS › Thin layer GSM › Ericsson Radio System › Ericsson Network Manager
Maintain network simplicity & add flexibility
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Ericsson Radio System Overview
Thin layer GSM
900 MHz
1800 MHz
GSM
GSM
GSM GSM NETWORK EFFICIENCY
GSM + WCDMA
NO GSM UNIQUE HW
OPEX
layer
COMPETENCE
Thin
POWER
Re-farming
For hspa/lte
HW
gsm
SPECRTUM
Free up more spectrum for MBB
GSM AUTOMATION
GSM + LTE
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Ericsson Radio System Overview
SPECTRUM Spectrum Consideration CONSIDERATION LICENSE ASSISTED ACCESS (LAA)
LTE Primary Carrier
LTE Secondary Carrier
Licensed Spectrum
Unlicensed Spectrum
GSM REFARMING
FDD/TDD CONVERGENCE TDD UL TDD DL FDD UL+DL
900 MHz
GSM
GSM + WCDMA
1800 MHz
GSM
GSM + LTE
NEW BANDS
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Ericsson Radio System Overview
Maximize MBB Coverage MAXIMIZE MBB COVERAGE Psi Coverage Cost-efficient coverage expansion
4wayRx DIV Matches mid band to low band High band
AIR 4RX
Mid band
Low and medium capacity area
CELL COVERAGE AREA
CA/MC Matches downlink to low band High band
AIR 4RX
Low band
CELL COVERAGE AREA
LTE CA/HSPA MC
Mid Band
LTE CA/HSPA MC
Low band
CELL COVERAGE AREA
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Innovation for performance
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4X4 MIMO
4x4
100% cell Capacity increase
MIMO
HIGHER SPECTRUM EFFICIENCY
175%
MORE NETWORK CAPACITY
cell edge bit rate
HIGHER END-USER THROUGHPUT
2X2
4X2
4X4
Two Data Streams Two Transmission Paths
Two Data Streams Four Transmission Paths
Four Data Streams Four Transmission Paths *as compared to 2x2 for TDD B41 for 1732m ISD equal buffer
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Ericsson Radio System Overview
LTE DL MIMO Evolution Peak Rate
Higher Speed Massive MIMO
(20MHz 64QAM)
More Capacity
600 MBPS
Better Performance
8x8 MIMO
cat-8
Higher Spectrum Efficiency
300 MBPS
4x4 MIMO
cat-5
Better Coverage
150
MBPS cat-4
4x2 MIMO
2x2 MIMO
75
MBPS
cat-3
Diversity/ Beamforming Released
Diversity/ Beamforming
8x2 MIMO (TDD)
Diversity/ Beamforming
Future
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Coverage
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Ericsson Radio System Overview
Best BestHSPA Hspaperformance Performance Multicarrier & Data Acceleration
MULTICARRIER
DATA ACCELERATION 32MBPS
RNC 3CHSDPA (downlink)
EUL-MC
Uplink peak rate
(uplink)
F1 F2 F3
Up to 6x higher user throughput in uplink
15 MHz
10 MHz
downlink
uplink
DOWNLINK
UPLINK
F1 F2
63MBPS downlink peak rate
Up to 3x higher user throughput in downlink
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Ericsson Radio System Overview
High Capacity MBB Site High Capacity MBB site - WCDMA Wcdma VERY HIGH CAPACITY
HIGH CAPACITY
Power Pooling
Power Pooling
Power Pooling
F F F F 1 2 3 4
F5 F6
F F F 1 2 3
2x 900 MHz
4x 2100 MHz
BB P1
BBP 3
BB P2
F 4 1x 900 MHz
3x 2100 MHz
CE Pooling
BB P1
BBP 3
CE Pooling
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Ericsson Radio System Overview
Site Trends › High cost pressure › Increased focus on energy efficiency
TOTAL COST OF OWNERSHIP
› Complex & large sites: – Multi band & multi layer & multi energy – C-RAN and Elastic RAN
› Multi-vendor requirements from operators
ENERGY EFFICIENCY
› Infrastructure companies providing power and also enclosures for operators › New energy storage technologies
FLEXIBILITY
› Remote site management to save OPEX › Industry and Society, IoT
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Ericsson Radio System Overview
AREA TRAFFIC DENSITY
Small cellscells strength high traffic Small Strength IMPROVE DENSIFY ADD
IMPROVE IMPROVE DENSIFY IMPROVE
DENSE URBAN
DENSIFY
URBAN
SUBURBAN
RURAL
ADD
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Ericsson Radio System Overview
Coordination Key to the User Experience and TCO Coordination Uncoordinated cells
coordinated cells
Tightly coordinated cells
Split Spectrum (Basic Mobility)
Shared Spectrum (Full X2 Mobility)
Common Baseband (CoMP)
ADD9 cells for 2X capacity
Limited User High Experience TCO
ADD5
cells for 2X capacity
Good User Reduced ExperienceTCO
50%
ADD3
cells for 2X capacity
Great User Reduced Experience TCO
70%
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Ericsson Radio System Overview
Solutions for 3xMulti Solutions for 3XMulti Multistandard
Centralized RAN
Baseband Polling
Spectrum Refarming
GSM network efficiency
No GSM unique HW GSM automation
LTE Carrier Aggregation
Multi-band
Small Cell Portfolio
HSPA Dual Band Multi Carrier
Small Cell Coordination
Multi Standard Mixed Mode
Single standard
Multi standard
Ericsson Radio System
Load Management
Integrated Small Cells
Multi-layer
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Ericsson Radio System
5 bands, 3 standards, 1 antenna 1 Gbps microwave backhaul © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-26
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Ericsson Radio System Overview
Ericsson Radio System Think Site, think End to End
SITE
RADIO
SMALL CELL
FRONT- BASEBAND HAUL
BACKHAUL
POWER
ENCLOSURE
CONTROLLER
A Site is not one radio only or one digital unit only. It is a complete system with all functions.
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Ericsson Radio System Overview
17 New products in Ericsson Radio System
AIR 1281
Streetmacro 6701
Multi-band
AIR 4488
Radio 2238
Massive MIMO + Passive Antennas
Massive MIMO
Street Macro
AIR 4455
AIR 3239
Mid-band
Radio 8823
AIR 5331
Small Cell
Radio 4402
Radio 4408
AIR 6479
AIR 3252
Baseband
5G Dot
Baseband 6318
AIR 8828
Fronthaul
Fronthaul 6322
Fronthaul 6622
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Ericsson Radio System Overview
COMPLETE 5G RADIO PORTFOLIO 5G NR Radios AIR
COMPLETE 5G NR MASSIVE MIMO RADIO PORTFOLIO
6468
› New Mid-band and High-Band versions › Support 5G plug-ins: Massive MIMO and Multi-user MIMO › Work with today’s Ericsson Radio System Baseband
AIR
6488
AIR
5121 Baseband
LTE + 5G Plug-Ins Backwards compatible
Interworking
5G NR New Radio interface
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Ericsson Radio System Overview
Ericsson Radio System on the road to 5G
50%
GLOMO AWARD red dot award
Smaller
› Highest performance › Lowest TCO › Best energy efficiency
50% LIGHTER
Industry’s most
compact radio
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Adapt to any Adapt to any site site › Multiple mounting options › Simplified site acquisition › Minimize footprint › Fast installation and expansion › Airflow innovation
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Ericsson Radio System Overview
Reduced windload
1667
314
NEWTON
NEWTON
Based on 3 band sector with wind speed 55 m/s © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-32
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The Radio Portfolio
The Radio Portfolio
Macro radios
Active Active Passive Active
Small cells
Active Active Passive
AIR
Building practice
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Go underground Vault Radio 2268 OPERATOR CHALLENGE
Quickly add capacity in dense urban areas with minimal visual impact
GO UNDERGROND
Vault Radio 2268
› Place radio in existing underground vaults with fiber and power infrastructure connected to antenna on ground level › Fast permit process and deployment › No visual impact in street environment VAULT RADIO 2268 › Protected from total dust ingress and long term immersion (IP68) › Versions for all Radio System micro bands (TDD / FDD / LAA) › Full integration with existing network, including Carrier Aggregation capability
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The network enabler –the most powerful Baseband 4x4 MIMO Devices 960MHz Antenna BW 1 Gbps Devices 10GE interfaces
Cell site router › Integrated
Spectrum migration › Mixed Mode operation › LTE FDD/TDD, WCDMA, GSM
Optimal coordination Elastic RAN Internet of Things >8000 CU
5G Prepared Split architecture
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Ericsson Radio System Overview
Backhaul portfolio MINI-LINK 6354
MINI-LINK 6352 Switch 6391 MINI-LINK 6351
MINI-LINK 6363 Router 6675
MINI-LINK 6692 MINI-LINK 6691
Router 6672 MINI-LINK 6651
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Ericsson Radio System Overview
Ericsson EricssonRadio RadioSystem System : Mini-Link MINI LINK Products Transport portfolio with advanced radio integration Highest node capacity in smallest form factor World´s smallest high power radio unit Managed by Ericsson Network Manager
MINI-LINK 6351
MINI-LINK 6363
MINI-LINK 6352 Fronthaul 6392
MINI-LINK 6691
MINI-LINK 6692
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Ericsson Radio System Overview
Ericsson system: Ericssonradio Radio System Router Router Products Transport portfolio with advanced radio integration High density 10G and 100G interfaces SDN enabled Managed by Ericsson Network Manager
Router 6371
Router 6471
Router 6672
Router 6675
Router 6274
Small Cell Outdoor
Small Cell Indoor
Cell Site Router
Pre-aggregation Router
Modular Aggregation Router
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Ericsson Radio System Overview
Increase Traffic Expand MBB Accommodate C-RAN
TRAFFIC
Site demands for all needs – Enclosure Products
634 0
633 0
632 0
6130
6140
6150
DENSE URBAN URBAN
SUBURBA N RURAL
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Ericsson Radio System Overview
Remote site management –A
Cloud application
ESCM
Customers private IP network
Server hall
Operations Center
ESC
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Ericsson Radio System Overview
Protect your investment RBS 2000
RBS 3000
RBS 6000
Ericsson radio system
5G
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Ericsson Radio System Overview
Ericsson EricssonNetwork NetworkManager Manager ERICSSON NETWORK MANAGER
4G
WIF I
4GIP
Edge IMS
3G
2G
uW
Opto CS
Macro
Pico
Dot
Ethernet
HARMONIZED OPERATIONS VoLTE
CONVERGED PROCESSES
EPC
SDN NFV
EFFICIENCY & QUALITY
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Harmonized Operations -
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Ericsson Radio System Overview
Reduce space and power needs Digital Units
TCU
Baseband
= GSM HSPA LTE TCU
80% less space with 56% power saving © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-43
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Ericsson Radio System Overview
Baseband 52XX
Introduction of ip-only transport › Sites with two Baseband 52XX
Multi standard Mixed Mode operation WCDMA+GSM
Single standard Mixed Mode operation LTE
LTE
–IP transport aggregation for all standards by Baseband 52XX
WCDMA GSM
10GE
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Ericsson Radio System Overview
Ericsson GREEN LTE ‐25%
› HW and SW solutions which decrease RBS energy consumption
› No penalty on network performance
CELL SLEEP MODE MICRO SLEEP TX AIR ANTENNA SOLUTION
‐17%
ENERGY SAVINGS
AREA TRAFFIC DENSITY
› Smart LTE software to decrease radio power when its not needed
ENERGY SAVINGS
‐ 52%
ENERGY SAVINGS
CELL SLEEP MODE MICRO SLEEP TX
MICRO SLEEP TX MIMO SLEEP MODE PSI COVERAGE
DENSE URBAN URBAN
SUBURBAN
RURAL
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Ericsson Radio System Overview
Smart scheduling saves energy Low Energy Scheduler Solution OPERATOR CHALLENGE
-15%
Reduce network OPEX by lowering energy consumption while securing top performance
POWER SAVING POTENTIAL
Conventional Scheduler
NEW UNIQUE SOFTWARE: SCHEDULE LTE TRAFFIC TO SAVE ENERGY › Group downlink LTE traffic in time › Enable power amplifier to go more often in sleep mode › Seen in field: 6 % additional energy saving ›
Low Energy Scheduler Solution
Total saving potential including micro sleep TX: -15%
› Less interference in network ›
Improved App Coverage
Time
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Ericsson Radio System Overview
Energy savings HW+SW
High Traffic Sites Micro Sleep TX • Cells Sleep Mode • Cell sleep Mode • Antenna Integrated Radio
Medium Traffic Sites
•
860W
-25% 647W
• •
•
Micro Sleep TX MIMO sleep Mode Cells Sleep Mode
840W
-17%
Low Traffic Sites •
• •
Micro Sleep TX MIMO Sleep Mode Psi Coverage
840W
-52%
695W 405W
1882 Kwh/Site/year
1270 Kwh/Site/year
3810 Kwh/Site/year
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Ericsson Radio System Overview
Ericsson Cloud RAN For 4G and 5G
Intelligent Interconnect Automated Network Fabric, distributed intelligence and controllers for automated connectivity
Distributed RAN
Centralized RAN
Elastic RAN
Virtualized RAN
Simple flat architecture relaxed interconnect and simple deployment
Colocation of resources for maximum interworking and performance in hotspots
Adaptable interworking across the network for D-RAN and C-RAN
Introducing split architecture for full flexibility on the road to 5G
Radio Coordination Improved spectral efficiency and end-user experience
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Ericsson Radio System Overview
RAN virtualization Plug-In Centralized Layer 3, common mobility anchor
5G NR L3 L2 high L2 low L1
RAN Virtualization Plug-in benefits
L2 Low L1
L2 Low L1
High Capacity High Availability
Centralized RAN Architecture
Distributed RAN Architecture Ericsson Commercial in Confidence | © Ericsson AB 2016
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Ericsson Radio System Overview
Operators Steer towards 5G Driven by Mobile Broadband and Internet of Things
7.7
Billion MBB SUBSCRIPTIONS by 2021
1.5
5G
Billion Cellular IoT devices by 2021
© Ericsson AB 2018 | LZU1089991 R5A | Figure Ericsson 1-50Radio System Shifts to Next Gear | Commercial in confidence | © Ericsson AB 2016 | 2016-08-26 | Page 50
Source: Ericsson Mobility Report, June 2016
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Ericsson Radio System Overview
Operator waypoints Operator Waypoints On the road On the road to 5G to 5G
5G PERFORMANCE EVOLUTION Massive MIMO // Cloud RAN // Gigabit speeds
NETWORK DENSIFICATION Add macro // Add micro // Minimize footprint
SPECTRUM OPTIMIZATION Analyze // Optimize // Add unlicensed bands © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-51 Ericsson Radio System Shifts to Next Gear | Commercial in confidence | © Ericsson AB 2016 | 2016-08-26 | Page 51
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Ericsson Radio System Overview
5G Use Cases BROADBAND AND MEDIA EVERYWHERE
5G USE CASES
SMART VEHICLES, TRANSPORT CRITICAL SERVICES AND INFRASTRUCTURE CONTROL CRITICAL CONTROL OF REMOTE DEVICES
HUMAN MACHINE INTERACTION
SENSOR NETWORKS
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Ericsson Radio System Overview
Access Complexities Use Case Technical Requirements Vary Widely
Use Cases
Technical Requirements
Sensors Everywhere
Broadband and Media Everywhere Smart Vehicles, Transport
Infrastructure, Monitor and Control
Critical Control of Remote Devices
Interaction Human-IoT
›
High User Density
›
High Capacity
›
Low Device Energy Consumption
›
Good Cell Edge Performance
›
Reduced Signaling
›
Low Latency
›
Access to New Spectrum
›
Faster Data Throughput
›
High Availability
›
Quality Uplink
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Ericsson Radio System Overview
Ericsson 5G Plug-ins
Software innovations applying 5G technology concepts
5g
MASSIVE MIMO MULTI-USER MIMO RAN VIRTUALIZATION LATENCY REDUCTION INTELLIGENT CONNECTIVITY
4G
Mobile Broadband
IoT
VoLTE
Public Safety
Indoor Fixed Wireless Access
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Ericsson Radio System Overview
Summary of Chapter 1 The participants should now be able to: 1
Discuss the evolution of the radio access network
1.1 Identify a typical existing site and its challenges to meet the future demands 1.2 List the requirements for the future networks 1.3 Explain the multi-standard, multi-band and multi-layer solutions with Ericsson Radio System 1.4 Discuss how a typical Ericsson Radio System based site could look like © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-55
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Ericsson Radio System Overview
Intentionally Blank
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Ericsson Radio System Overview
Ericsson Radio System Overview
Baseband
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Ericsson Radio System Overview
Objectives of Chapter 2 After this chapter the participants will be able to: 2
List the features of the baseband products
2.1 Identify and list the primary features of new Basebands 2.2 List the existing Digital Units and explain their primary features 2.3 Explain with use cases different baseband deployment configurations
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Ericsson Radio System Overview
Ericsson Radio System MINI-LINK 6352 Fronthaul 6392
Power 6610
Power 6306 Enclosure 6306 Enclosure 6110
Radio 2203
Radio 2217
Baseband 5216
Radio 0208
Baseband 5212
Power 6302
MINI-LINK 6692
Router 6274
MINI-LINK 6691
Router 6672
MINI-LINK 6363
MINI-LINK 6351
Router 6675
Baseband R503 Baseband 6630
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Ericsson Radio System Overview
Baseband portfolio
Baseband 5212
Baseband 5216
Baseband
Baseband R503
baseband portfolio
Baseband Radio Interconnect
Baseband C608
Baseband Interconnect
Baseband Main Unit
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Ericsson Radio System Overview
Enhanced Baseband portfolio Radio
Baseband 6303
Radio 2203/2205
Baseband 6502 Baseband 6630 Baseband 6620
Baseband
Enhanced baseband portfolio
Outdoor Baseband
Baseband P614 Baseband 6318
Baseband PIM Mitigation
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-61 Outdoor Baseband
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Ericsson Radio System Overview
Examples of Baseband naming Baseband 5216 Upper case Lower case
Baseband 5216 Baseband 5212
Space
Baseband R503
Random / Capability
52
Represent the RBS 6000 building practice, 52 products fit in existing RBS 6000 cabinets.
R5
The R stands for radio interconnect, previously known as XMU, R5 product fit RBS 6000 cabinets
63/65
Baseband T605
Outdoor Macro / Micro Basebands Baseband 6630
66
Represents 19”building practice
XMU : Auxiliary Multiplexing Unit © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-62
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Ericsson Radio System Overview
Most powerful Baseband Ericsson Many Core Architecture
Baseband pooling
One O&M interface Fully secure
Compact
All standards
Integrated cell site router
Power efficient
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Ericsson Radio System Overview
Ericsson Radio System Baseband Industry's first full Mixed Mode Baseband
LTE
Massive IOT
FDD / TDD
NB / M1 / EC-GSM
WCDMA
GSM
All simultaneously supported on one Baseband board © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-64
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Ericsson Radio System Overview
Baseband HW and SW Mixed Mode Baseband
OSS RC
One IP, One Managed Element
Baseband 5216 LTE TN
WCDMA Common
› TN = Transport – Independent of radio standard
› Common = Node handling – Radio config (sectors and CPRI), Security, Sync, APC, Node O&M
Same Transport and Node handling as Single standard
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Ericsson Radio System Overview
Baseband 5216 Hardware capabilities
› LTE (FDD & TDD supported) – 8000 connected users* – 1.2 Gbps Downlink & 600 Mbps Uplink* – Up to 24 cells & 960 MHz antenna bandwidth* – Up to 2000 VoIP
› WCDMA – 1152 CE Downlink & 4096 CE EUL Uplink* – 336 Mbps Downlink & 168 Mbps Uplink – Up to 24 cell carriers
› GSM – Up to 48 TRX *Hardware prepared
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Ericsson Radio System Overview
Baseband 5216 Mixed Mode capabilities › LTE + GSM* – Up to 4000 CU – Up to 12 cells & 480 MHz antenna bandwidth – Up to 24 GSM TRX
› LTE + WCDMA* – – – –
Up to 4000 CU Up to 12 cells & 480 MHz antenna bandwidth Up to 576 CE DL & 960 CE EUL UL* Up to 12 WCDMA cell carriers
› WCDMA + GSM* – Up to 576 CE DL & 960 CE EUL UL* – Up to 12 WCDMA cell carriers – Up to 24 GSM TRX © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-67
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Ericsson Radio System Overview
Baseband 5216 Mixed Mode capabilities › LTE + WCDMA + GSM – Up to 4000 Connected Users LTE – Up to 12 LTE cells – Up to 480 MHz antenna bandwidth LTE – 288 CE Downlink & 1024 EUL CE Uplink* – 126 Mbps Downlink & 42 Mbps Uplink WCDMA – Up to 6 WCDMA cell carriers – Up to 12 GSM TRX
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Ericsson Radio System Overview
Baseband 5212 hardware capabilities
› LTE (FDD & TDD supported) – 4000 connected users* – 600 Mbps Downlink & 300 Mbps Uplink* – Up to 12 cells & 480 MHz antenna bandwidth* – Up to 1000 VoIP*
› WCDMA – 576 CE Downlink & 960 CE Uplink – 252 Mbps Downlink & 84 Mbps Uplink – Up to 12 cell carriers
› GSM – Up to 24 TRX
›
48 VDC with ~170 W normal use & ~200 W max**
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-69
*Hardware prepared
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Ericsson Radio System Overview
Hardware structure of Baseband -48VDC
Power Board Processor
GPS LMT EC Bus Ethernet
CPU
Baseband processing
ASIC
SFP
Radio SFP I/F SFP
CPRI link to radio unit
SFP SFP SFP SFP
Baseband
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Ericsson Radio System Overview
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
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Ericsson Radio System Overview
DUL 20 – Baseband 5216 T N B
R I
S Y N C
T N B
M M I
I D L
R I
E C b u s
T N A
I D L
T N A
E C b u s
G P S
P o w e r
P o w e r
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Ericsson Radio System Overview
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
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Ericsson Radio System Overview
Baseband 5216/5212 Hardware › 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 ports – 6 x 2.5G to 10G SFP/SFP+ CPRI ports – 2 x IDLe ports
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-74
*Hardware prepared
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Ericsson Radio System Overview
Baseband 6630 and 6620
› LTE, WCDMA and GSM capacity and Mixed Mode capability – Baseband 6630 capacity & capabilities equivalent to Baseband 5216 – Baseband 6620 capacity & capabilities equivalent to Baseband 5212
› Optimized for main-remote configurations – 19 inch wide, 1U high, <350mm 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 1 Gbps RJ45 ports – Eight External Alarm ports – Dual 48V DC power feeding – Self-contained environmental control & field replaceable fan unit
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-75
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Ericsson Radio System Overview
Baseband 6502 – for MICRO › For micro and radio dot system › LTE (FDD & TDD supported) - 1000 connected users* - 600 Mbps Downlink & 250 Mbps Uplink* - 400/400 VoIP users (FDD/TDD)* - Up to 6 cells & 240 MHz antenna bandwidth* › WCDMA – 288 CE Downlink & 1024 EUL CE Uplink** - Up to 6 cell carriers** - 90 HS Codes** › Full Macro SW feature parity › Integrated GPS/GLONASS receiver with antenna › PoE out for e.g. microwave backhaul › Backhaul cascading › Size incl. support and PSU ~ 4,9 liters and weight ~ 5,1 kg › 3x CPRI interfaces › AC or DC * L17.Q3 ** W17.Q3 › IP65, -40 to + 55 ̊C
MICRO
6502
99 mm
BASEBAND
6502
267 mm 503 mm
200 mm
92 mm 200 mm
BASEBAND 6502
BASEBAND & RADIO
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Ericsson Radio System Overview
Baseband 6303 – for MACRO › For macro radio system › LTE (FDD & TDD supported) - 4000 connected users * - 600 Mbps Downlink & 250 Mbps Uplink * - 1000/500 VoIP users (FDD/TDD) * - Up to 12 cells & 480 MHz antenna BW * › WCDMA – 576 CE Downlink & 2048 EUL CE Uplink ** – Up to 12 cell carriers ** – 180 HS Codes ** › GSM – Up to 24 TRX › Mixed mode: G+W › PoE out for e.g. microwave backhaul › Backhaul cascading › Size incl. support and PSU ~ 4,9 liters and weight ~ 5,1 kg › Weight › 3x CPRI interfaces › AC or DC * L17.Q3 › IP65, -40 to + 55 ̊C ** W17.Q3
RADIO
BASEBAND 6303
BASEBAND
6303
267 mm
92 mm
200 mm
POWER 6302
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Ericsson Radio System Overview
Baseband 6318 OPERATOR CHALLENGE
Grow on existing sites and build on new sites with limited room for enclosures for baseband
USE OUTDOOR BASEBAND › High capacity › No need for separate enclosure › Can be installed close to Radios to simplify on-site cabling BASEBAND 6318 Baseband
6318
› Same capacity as Baseband 5216 and Baseband 6630 › Outdoor unit for one-bolt rail mounting › 5G NR, LTE (FDD, TDD), WCDMA, GSM, and NB-IoT
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Ericsson Radio System Overview
Baseband 6318 › 5G NR, LTE (FDD, TDD), WCDMA, GSM, and NB-IoT › Ethernet ports: 3 › CPRI / eCPRI ports: 6 › DC: - 48V › Weight: 15 kg › IP 65, -40 to +55˚ C › Backhaul cascading › External alarms
Preliminary data
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Ericsson Radio System Overview
High capacity radio system site MACRO
Backhaul
Baseband
Fronthaul
MICRO
PICO
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Ericsson Radio System Overview
Baseband R503 › Increased connectivity for new & existing radio units in large radio system configurations › CPRI multiplexing and demultiplexing – 16x SFP+ ports › Pluggable optical transceivers › Direct attach cables (electrical)
› Flexible – Upgradable – Manageable – Many possible locations in cabinet or at site
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Ericsson Radio System Overview
R503 supporting 3 LTE bands (Example) DUS 31
LTE 2600 3x15MHz MIMO
Electrical CPRI
LTE (RBB22_1C) Optical CPRI
DUS 31
RUS01 B7
LTE (RBB22_1B)
RRUS12 B3
Optical CPRI
LTE (RBB22_1B)
2x 10G CPRI Electrical or Optical CPRI
Baseband R503
Electrical CPRI
LTE 2600 3x15MHz MIMO LTE (RBB22_1C) Optical CPRI
LTE 1800 3x10MHz MIMO
LTE 800 3x10MHz MIMO
RUS01 B7
LTE (RBB22_1B)
RRUS12 B3 LTE 210 MHz Total Bandwidth
RRUS11 B20
Optical CPRI
LTE (RBB22_1B)
LTE 1800 3x10MHz MIMO
LTE 800 3x10MHz MIMO
RRUS11 B20
LTE third band Baseband R503 enabler to connect © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-82
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Ericsson Radio System Overview
13-18 Cell – with Baseband R503 R/RU R/RU R/RU
2.5G
R/RU R/RU
R/RU R/RU R/RU R/RU R/RU R/RU
BB R503
2.5G
BB R503
R/RU
BB5216
2.5G
Baseband R503
Baseband 5216
9,8 G
BB R503
9,8 G
Up to 3 Baseband R503 connected to the same Baseband 5216
Example of Baseband R503 used as a MUX
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Ericsson Radio System Overview
Shared CPRI R503
5216
CPRI configurations are flexible: › Baseband R503 available for all technologies › Possible to cascade different technologies in the same cascade chain
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Ericsson Radio System Overview
MSMM + Multi-band + Multi-cabinet Cabinet 1 SCU External synch
Baseband or DUS
RRUS RRUS RUS
RRUS RUS RUS
Cabinet 2
Synch SCU
Baseband R503
RRUS RRUS RUS
RUS RUS RUS
DUW
LTE Carrier Aggregation across cabinets © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-85
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Ericsson Radio System Overview
Location of R503 (examples)
RBS 6201
RBS 6102
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-86
RBS 6101
RBS 6301
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Ericsson Radio System Overview
Baseband P614
› Baseband P614 has 6 incoming CPRI ports towards Baseband and 6 output CPRI ports towards Radio
› The Passive Intermodulation (PIM) mitigation unit will reduce PIM that occurs inside and outside the antenna system, both from static and dynamic PIM sources and for different band combinations. The Baseband P614 will provide improved network performance. › Two Baseband P614 units can be inter-connected to double number of ports or increase the computational power › Integrated with Ericsson Radio System › Supported by OSS-RC and ENM
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Ericsson Radio System Overview
Baseband C608
› Baseband unit for low latency L2 interconnecting to enable LTE Elastic RAN feature › Same HW format as Baseband T605, horizontal 19 inch › 12 x 1/10G SFP/SFP+ ports (3,6 uS latency between ports within domain)
› 4 x 1/10G SFP/SFP+ ports (3.6 uS latency between ports within domain) › Sync solution 1588v2 GM, BC and TC* › One O&M – moves transport demarcation point avoiding specialized cables
Elastic RAN Optimal coordination across the network for D-RAN and C-RAN
– Same O&M interface as multi-standard baseband – User interface is common and functional support from Ericsson management system is the same
› Fully verified by Ericsson as end-to-end Elastic RAN solution
*HW prepared
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Ericsson Radio System Overview
DIGITAL UNITS FOR LTE – FDD & TDD DUS 41 02
DUS 31 02
› LTE (hardware prepared):
› LTE (hardware prepared):
– 80 MHz with 2x2 MIMO – 40 MHz with 4x4 MIMO – 40 MHz with 4x Rx diversity – 4000 connected users – 500 Mbps downlink – 250 Mbps uplink – 1Gbps / 500 Mbps with dual DUS
› IP
– 40 MHz with 2x2 MIMO – 20 MHz with 4x4 MIMO – 20 MHz with 4x Rx diversity – 3000 connected users – 300 Mbps downlink – 150 Mbps uplink – 600 Mbps / 300 Mbps with dual DUS
› IP
– Gigabit Ethernet Connectivity
› Support for Auto-integration w/o laptop › IDL2 boot (for extension DU w/o IDL1)
– Gigabit Ethernet Connectivity
› Support for Auto-integration w/o laptop › IDL2 boot (for extension DU w/o IDL1)
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-89
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Ericsson Radio System Overview
Current DIGITAL UNITS FOR WCDMA
DUW 11
DUW 31
› WCDMA:
› WCDMA:
3x Gigabit Ethernet ports IP & ATM support 192 CE DL / 192/288* CE UL 168 Mbps DL 24 Mbps UL © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-90
3x Gigabit Ethernet ports HW Prepared for 12 cc IP support only 768 CE DL / 768/1152* CE UL 252 Mbps DL 92 Mbps UL
DUW 41 › WCDMA: 3x Gigabit Ethernet ports HW Prepared for 12 cc IP & ATM support 1152 CE DL / 1152/1728* CE UL 336 Mbps DL 138 Mbps UL
* With feature FAJ 121 2598 CE extension for EUL
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Baseband Capacity Comparisons Micro RBS (RBS 6501)
DUL 20
DUS 31
DUS 41
Baseband 5216*
Connected users
1000
1500
2500
4000
8000
Scheduling Entity per TTI
18
12
24
48
96
3
6
9
12
24
225 / 75
175 / 50
350 / 150
500 / 250
1200 / 600
40
60
240
480
960Mhz
Nr of cells Throughput in Mbps (DL / UL) Aggregated antenna bandwidth (MHz)
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-91
*Hardware prepared
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Summary of Chapter 2 The participants should now be able to : 2
List the features of the baseband products
2.1 Identify and list the primary features of new Basebands 2.2 List the existing Digital Units and explain their primary features 2.3 Explain with use cases different baseband deployment configurations
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Ericsson Radio System Overview
Ericsson Radio System Overview
Fronthaul
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Objectives of Chapter 3 After this chapter the participants will be able to: 3
Describe the different Fronthaul products suited for macro and small cell deployments
3.1 Describe what Fronthaul is 3.2 Explain the characteristics and products under DWDM and CWDM 3.3 List and understand the specifications of Fronthaul 6392
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Ericsson Radio System Overview
Adding New Cells Centralized RAN Remote Radio Unit (RRU) only
1
Distributed RAN
2
BBU + RRU
No baseband unit (BBU)
Fronthaul CPRI Transport 1 to 10Gbps
IP Backhaul
Baseband Hotel
100M to 1Gbps
Centralized BBU Pool
IP Backhaul 100M to 1Gbps © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-95
Mobile IP Network
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Ericsson Radio System Overview
Drivers for Centralized Baseband › Superior Radio Performance
Centralized baseband
– Carrier aggregation for downlink capacity and speed – More sites, receiver diversity and CoMP for uplink coverage – Seamless mobility for VoLTE
› Base station site footprint › Hardware pooling › Virtualization
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Ericsson Radio System Overview
C-RAN Architecture
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Ericsson Radio System Overview
Why Fronthaul?
Distributed RAN
Centralized RAN
Elastic RAN
Virtualized RAN
Improved interworking between sites and layers
Colocation of resources and maximum performance in traffic hotspots
Optimal coordination across the network for D-RAN and C-RAN
Introducing split architecture for full flexibility on the road to 5G
Coordination Maximized spectrum efficiency and end-user experience
Fronthaul
Fronthaul – coordination enabler connectivity among remote radio sites
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Ericsson Radio System Overview
Ericsson fronthaul Facts and benefits
• Latency • Verified with radio
• Spectrum
• ERS building practice
• Capacity
• Zero footprint
• Common Management
• Indoor or outdoor
• Demarcation Point
• Zero-touch
• 3PP Radio compatibility
provisioning
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Ericsson Radio System Overview
C-RAN Performance and lower TCO Feature
Benefit
Value
› Low latency and jitter baseband CPRI transport
› Tight RAN coordination for up to 100% spectral gains
› 40% fewer cells needed for 2x the capacity
› Centralize BBUs and simple remote locations
› Lower remote power, rental cost, less equipment
› >50% OpEx savings › >30% CapEx savings
› Simple, superior RAN performance
› Scalability for growing app coverage
› Optimal use of $B spectrum investment
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Spectrum Coordination Radio and Transport Macro (high power)
2-10 x UL speed without Small cell compromising DL (low power)
Common BBUs enables Coordinated Multipoint (CoMP) Coordination within macros Coordination between macros Best Downlink Best Uplink
Best Uplink Best Downlink
Within macro site: UL CoMP 40% increased capacity 100% increased cell edge bit rate
DL Coordinated Scheduling 15% increased capacity 30% increased cell edge bit rate © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-101
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Ericsson Radio System Overview
Centralized baseband Requires Fronthaul CPRI over Microwave RRU RRU
IP
Packet Network
CPRI over Fiber
Baseband Hotel Centralized Baseband Units Fronthaul
Backhaul
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C-RAN Implementation (Example) CENTRALIZATION Total latency < 75μs Fiber length <15km
5km COORDINATION Coordination Sets between 1x Macro Sector and associated 3x Small Cells
Ring Diameter <4.8km
A
1x Baseband hotel per: 5km x 5km
Baseband Baseband Baseband
C
Baseband Baseband Baseband Baseband Baseband Baseband Baseband Baseband Baseband
5km 4.8km
15km
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Ericsson Radio System Overview
Ericsson fronthaul 28xCPRI
Fronthaul 6682
Fronthaul 6681 Passive Indoor Main
Fronthaul 6688
Fronthaul 6689
Active Indoor Remote
Passive Indoor Remote
Fronthaul 6389 Passive Outdoor Remote
24xCPRI
Active Indoor Main
Passive DWDM
Active DWDM
Fronthaul 6388 Active Outdoor Remote
Microwave Fronthaul 6387
1x CPRI
Passive Outdoor Remote
Fronthaul 6385
Fronthaul 6392
Passive Outdoor Remote
Microwave
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Ericsson Radio System Overview
Ericsson Fronthaul Flexible application to support various needs
OLT
ACTIVE or PASSIVE Single Fiber
ACTIVE or PASSIVE Single Fiber
ACTIVE or PASSIVE Single Fiber MICROWAVE
ACTIVE or PASSIVE Single Fiber ACTIVE only, Dual fiber
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Ericsson Radio System Overview
Fronthaul Solution MicroWave
Small Cells
Fronthaul 6392
Fronthaul 6392
Active DWDM
Macro Cells
WiFi Fronthaul
Fronthaul
6080
6080
Passive DOT WiFi
Fronthaul 6080
CWDM DWDM
Fronthaul 6080
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Ericsson Radio System Overview
Fronthaul 6080 Passive optical solution
DWDM 24x10G + 4x2.5G
RBS
– P2P, P2MP,Hub&Spoke, Feeder protection – GPON Coexistence – Single fiber
Mounts behind the mRRU – Saves rent Passive – Saves power Fast easy installation – Saves hours DWDM - Saves 48x on fiber lease cost
Radio ERS
Fronthaul Outdoor Remote Unit
Lowest OpEx – – – –
RBS
RBS Fronthaul Main Unit
Lowest CapEx – Cost and optimized filters – Filters can be daisy-chained
CPRI
Baseband
Fronthaul Indoor Remote Unit
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Ericsson Radio System Overview
FRONTHAUL 6681/6689
Passive main unit components / Passive indoor remote unit components
OAD-3-S
½ LGX® width size Flexible deployment
Filter modules
OMD-24-S 24x Channel Optical Mux/Demux Single Fiber
Optical Add/Drop Mux 3-λ, Single Fiber BMD-8-S
Band Mux/Demux 8-bands OMD-4-C
Optical Mux/Demux 4x CWDM λ, Single Fiber
LGT-1 1RU, 19”, holds 6 filter modules Single Fiber
SPL-2-S-2
Optical Splitter 2:2 Single Fiber GCF-1
GPON Co-Existence Filter OAD-1-C
Optical Mux/Demux 1x CWDM λ, Single Fiber
SPL-2-S-4
Optical Splitter 2:4 Single Fiber OPM-1-S-1
Optical Protection Module 1:1 Single Fiber (Active module)
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Ericsson Radio System Overview
FRONTHAUL 6389/6387/6385 Passive outdoor remote unit components Fronthaul 6389
Up to 4pcs
OAD-3-S
Optical Add/Drop Mux 3-λ, Single Fiber
Fronthaul 6387
Up to 2pcs
OAD-3-S
Optical Add/Drop Mux 3-λ, Single Fiber
Rail mounted Supports Ericsson Radio System´s compact and expandable building practice.
• Fast deployment and significant cabling savings • Minimal space needed easier site acquisition • Zero Touch Provisioning • Low power <25W – Leverage existing power supply on site
Fronthaul 6385
OAD-3-S Optical Add/Drop Mux 3-λ, Single Fiber
Integrated WDM Box Rear mounted filter module holder to be combined with RBS Radios
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Ericsson Radio System Overview
Fronthaul 6080 Active optical solution
RBS
DWDM 24x10G + 4x2.5G – – – –
P2P, P2MP,Hub&Spoke, Feeder protection GPON Coexistence Dual fiber protected ring Single fiber
RBS RBS
Fronthaul Indoor Remote Unit Fronthaul Outdoor Remote Unit
Lowest OpEx – Protected & Managed – avoid truck rolls – DWDM - Save 48x on fiber lease cost – Click and Go remote – save man hours
Fronthaul Main Unit
RBS CPRI
Fronthaul Indoor Remote Unit
Lowest CapEx – Superior Fronthaul (30X - 80X Lower latency) for max distances – Saves HW
Baseband
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FRONTHAUL 6682
Active main unit components complete Fronthaul 6681
PMU
TPS-06
OPU-06
Photonic Management Unit
6x channel Transponder SFP+
6x channel Optical Protection Unit
Additional passive components required for ring application
RBS 6601 / SUP 6601 Radio Base Station 2Slot Chassis
OMD-12 12x Channel Optical Mux/Demux (2F)
OMD-24 24x Channel Optical Mux/Demux (2F) © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-111
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FRONTHAUL 6388
Active remote outdoor unit components complete Fronthaul 6689
TPS-03-O 3 x channel Outdoor Transponder SFP+
Dual Fiber solution OAD-3-O 3x Optical Add/Drop (Integrated)
OAD-6-O 6x Optical Add/Drop (Integrated)
Single Fiber solution OAD-3-S Optical Add/Drop Mux 3-λ, Single Fiber
OAD-1-C Optical Mux/Demux 1x CWDM λ, Single Fiber
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Flexible Networking Topologies Environmentally hardened DWDM networking 24Ch
24Ch
Combination
24Ch
24Ch
Baseband Hotel
Baseband Hotel
2 Managed Rings
4 Managed Linear Chains
2 x 24 = 48 protected services
4 x 24 = 96 unprotected services
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Ericsson Radio System Overview
Complete Fronthaul 6000 Baseband Hotel
PAU 6000 48 Optical Channel Management Unit Ring 1 EAST Ring 1 WEST
24 Ch Ring 2 EAST Ring 2 WEST
Baseband Units including R503 CPRI Mux
24 Ch
Backhaul Router
Flexible and Scalable Fronthaul Capacity for up to 192 CPRI Links © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-114
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Fronthaul Passive CWDM Radio Baseband Units
Baseband Hotel
CDWM SPFs CPRI / OBSAI / Ethernet
CDWM Mux/Demux Shelf
18 Optical Channels
1 Fiber
RRU with semi-integrated CWDM Mux/Demux © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-115
Corresponding CWDM SPFs
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Cassette - Optical Filter & Patch Panel › Product Overview – Mechanical housing and cable management for optical filter – Clear and color coded labeling to reduce installation errors – Used in Telco box , Indoor Sub-rack ,Semi Integrated,19” Indoor Sub-rack – 10,8,4,2 Optical Channel Filters having wavelengths from 1271nm to 1611nm. – Add/drop port for high capacity
› Dimensions – W:116mm – D:122mm – H:16mm © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-116
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CWDM Implementation (Example)
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-117
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Fronthaul 6090 Microwave
Applications: – To reach remote radios in locations where fiber is not available – Self-contained unit to be pole mounted alongside the remote radio unit.
RBS
RBS
Features: – 70/80 GHz Frequency E-band – 2.5 Gbps capacity for CPRI3 – Less than 10µs latency to support the tightest coordination
RBS CPRI
Baseband
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FRONTHAUL 6392 › Radio link – – – –
500 MHz channel BW 128QAM -7 dbm to +13 dBm Latency: 20 us
› CPRI – Supporting CPRI option 3 (2457.6 Mbps) – L1 over the hop (fully transparent)
› Physical dimension – 4.3 kg (IP 65) – 321x259x108 mm (H x W x D)
› Interfaces – Traffic: Optical SFP/SFP+ (2.5Gbps) – O&M port: 10/100 BASE-T IEEE802.3 – -48V
› Management via CLI and Embedded WebGUI › DCN connectivity via O&M port › 0.2 , 0.3 and 0.6m antennas
O&M port
CPRI
-48V
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Fronthaul 6322 OPERATOR CHALLENGE
Obtain network capacity and optimization gains with efficient CPRI and eCPRI transport
HIGH-CAPACITY AND COST-EFFICIENT FRONTHAUL › Remote unit with integrated Transponder and DWDM filters › Zero touch provisioning and simplified management › Ericsson Radio System building practice Fronthaul
6322
FRONTHAUL 6322 › Future-proof interconnect solution for TCO optimization in advanced radio networks › Outdoor, rail mounted, 10 liter, up to 9 channels
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Fronthaul 6322 › › › › › ›
Up to 9 Transponders supported CPRI, eCPRI, OBSAI and Ethernet Dimensions: 351 x 298 x 125 mm Weight: 9 kg Operating temperature -40°C to + 65°C Power consumption: -48 VDC, Max. 60 Watts (including SFPs)
Preliminary data
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Fronthaul 6622 OPERATOR CHALLENGE
Obtain network capacity and optimization gains with efficient CPRI and eCPRI transport
HIGH-CAPACITY AND COST-EFFICIENT FRONTHAUL
Fronthaul
6622
› › › ›
Main and remote unit with integrated DWDM components 25G ready with expansion slot Zero touch provisioning and simplified management Ericsson Radio System building practice
FRONTHAUL 6622 › Future-proof interconnect solution for TCO optimization in advanced radio networks › Indoor, 19 inch, 1 height unit, up to 18 channels © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-122
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Fronthaul 6622 › Up to 18 Transponders supported › CPRI, eCPRI, OBSAI and Ethernet › Dimensions: 44.45mm x 450mm x 350mm (19” x 1RU) › Weight: 5 kg › Operating temperature -40°C to + 65°C › Power consumption: -48 VDC, Max. 150 Watts (including SFPs)
Preliminary data
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Ericsson Radio System Overview
Expanding Coverage CPRI Transport Optimization Micro/small cells Cascading RRUs
1
1 CPRI for multiple RRUs
Baseband Hotel Fronthaul 6000
2
Baseband R503 CPRI Multiplexer Lower speed CPRI multiplexed to 10G CPRI
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-124
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Fronthaul 6000 Macro Site Solution D-RAN transition to C-RAN: • DU’s are move to baseband hotel • Fronthaul 6000 is move to former DU location • Backhaul equipment is removed
Macro Site Cabinet
Fronthaul Fiber Ring
12 Radios
Fronthaul Fiber Ring Next Macro
Next Macro
Fronthaul 6000 remote with Baseband R503 CPRI Mux Flexible and scalable usage of optical capacity: Combination of 10G CPRI and1.25G/2.5G Mux’ed CPRI in 10G channel © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-125
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CWDM Site Solution (Example)
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-126
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Fronthaul Cell-site Pole Mounted CPRI Microwave Fronthaul 6392
CPRI Microwave Pole-mounted
<1Km Line of sight 2.5G CPRI
100 x 100mm (7kg) mRRU
535x269x115 (10kg)
NCD 901 55/1
Mounting Bracket
Passive solution Faces to the side to highlight Integrated CWDM Box mounted behind mRRU
Filter Unit
Passive Fronthaul – Pole mounted Semi integrated CWDM Box NCD 901 55/1
535x269x115 (10kg)
PAU 6000 Remote Unit Faces Front, needs space to flip up the plastic solar shield and open the units
PAU 6310/20 <15Km Up to 3 x 10G CPRI
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-127
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Ericsson Radio System Overview
Summary of Chapter 3 The participants should now be able to : 3
Describe the different Fronthaul products suited for macro and small cell deployments
3.1 Describe what Fronthaul is 3.2 Explain the characteristics and products under DWDM and CWDM 3.3 List and understand the specifications of Fronthaul 6392
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-128
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Ericsson Radio System Overview
Ericsson Radio System Overview
Radio
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Ericsson Radio System Overview
Objectives of Chapter 4 After this chapter the participants will be able to: 4
Identify different Radio Products and their primary features
4.1 List the characteristics of the latest radio units including the 5G/NR radios that are available in Ericsson Radio System 4.2 Describe the characteristics and the usage of the new Remote Radio Units (RRUs) 4.3 Explain the characteristics and advantages of the Antenna Integrated Radio (AIR) products 4.4 List the benefits of the new installation options and features introduced
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Example of Radio Products For Extreme App Coverage
Supports 4 TX / 4 RX
More power RADIO
RADIO
2212
RADIO
4415
2x80W output power
New band
2012
4x4 MIMO
Supplemental Downlink on 1400 MHz
MULTI-STANDARD INCLUDING GSM
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-131
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TheStandard in Radio The Gold Gold Standard in Radio
Digital Radio System-on-Chip Novel power amplifier technology Super-compact filter design
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-132
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Adapt to any site › Multiple mounting options › Simplified site acquisition › Minimize footprint › Fast installation and expansion › Airflow innovation
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Installation flexibility
Radio railed horizontally on the wall
Radio mounted behind antenna
Radio vertically railed on free stand, optional fan used
Radio horizontally railed and rotated, optional fan used
Radio mounted on cable ladder, optional fan used Radio vertically railed, optional fan used Radio horizontally railed on pole
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Site Aspects
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-135
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Radio Radio 2217 B1 Upper case Lower case Space Tx branches Rx branches Random Space 3GPP band number
Radio 2217 used as example
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RADIO 2217 › › › › › › › › › › › › ›
2TX/2RX, 4TX/4RX by use of two 2217 2x40W, 40 MHz IBW FDD Up to 6 carriers WCDMA Up to 40 MHz LTE carriers 2 X 10 Gbps CPRI 10 liter 12 kg -48 VDC AISG TMA & RET support 2 external alarm Integrated TX-monitor ports Optional fan for increased site flexibility IP 65, -40 to +55 ̊C Smaller and more efficient multi band configurations › Maximum power consumption for B1 <300W
311 291 mm mm
105 mm 105 mm
310 mm 291 mm
Mounting points Radio dimensions
Optional FAN
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-137
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Radio 2212 › 2TX/2RX, 4TX/4RX by use of two radios › 2x80W, 75/100 MHz IBW FDD/TDD (15 MHz IBW for GSM) › Up to 8 carriers GSM › Up to 8 carriers WCDMA › Up to 75/100 MHz LTE FDD/TDD carriers › 2 X 10 Gbps CPRI › 16 liter 16 kg › HxWxD: 335x380x129 mm › -48 VDC › AISG TMA & RET support › 2 external alarm › Optional fan › IP 65, -40 to +55 ̊C
Optional FAN
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-138
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Ericsson Radio System Overview
Radio 2012 › › › › › › › › › ›
2TX (supplemental downlink) Up to 2 x 80W Up to 40 MHz IBW FDD Up to 40 MHz LTE carriers 2 x 2.5/5/10 Gbps CPRI 17 liter, 17 kg -48 VDC (3-wire) RET support 2 external alarms Optional fan for increased site flexibility › Operating Band 32A › IP 65, -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-139
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Ericsson Radio System Overview
Radio 2218 Radio 2218 › 2TX/2RX › 2x40 W, 60 MHz IBW TDD › Up to 3 LTE carriers › 2x10G CPRI › 12.7 liter 11.5 kg › -48 VDC Optional FAN
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-140
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Ericsson Radio System Overview
Radio 2219 › 2TX/2RX, 4TX/4RX by use of two 2219 › Up to 2 x 60W (900 & 2100 MHz), up to 2 x 80W (1800 MHz) › Up to 40 MHz IBW › Up to 7 GSM carriers in MSR › Up to 8 carriers WCDMA › Up to 40 MHz LTE carriers › 2 x 2.5/5/10 Gbps CPRI › 17 liter, 17 kg › -48 VDC (2-wire) › TMA 12 dB & RET support › 2 external alarms › IP 65, -40 to +55 ̊C › Operating Band B1, B3, B0A and B8
311 mm
2
1
Mounting points Radio dimensions
1 2
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-141
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Ericsson Radio System Overview
Radio 0208 › › › › › › › › › ›
2RX Full band IBW FDD Up to 8 carriers WCDMA Up to 75 MHz LTE carriers 2 X 10 Gbps CPRI 6 liter 9 kg -48 VDC AISG TMA & RET support IP 65, -40 to +55 ̊C Smaller and more efficient multi band configurations
291 mm
63 mm 105 mm
310 mm
Radio 0208 & Radio 2217
291 mm
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-142
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Ericsson Radio System Overview
Radio 2238 OPERATOR CHALLENGE
Quickly and costefficiently add capacity in low frequency bands
IMPROVE NETWORK THROUGHPUT AND COVERAGE › Use low-band frequency bands › One Radio for three bands › 2G, 3G, 4G and 5G capable
Radio 2238
RADIO 2238 › Triple-band Radio for low bands below 1 GHz
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-143
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Ericsson Radio System Overview
Radio 2238 › Initial RF bands: B8, B20, B28 › 2 TX / 2 RX › Output power: 2 x 120 W FDD – Per frequency band: 2 x 80 W Max (other bands share the reminder of power)
› › › › › › › › › › ›
Capable to operate as triple-band and dual-band radio IBW: Full band in each of bands 2.5; 4.9; 9.8; 10.1 Gbps CPRI 380 mm x 335 mm x 196 mm ~25 liter, ~26 kg Portrait or bookshelf mounting -48 VDC AISG TMA & RET support Optional fan module supported 2 external alarms IP 65, -40 to +55 ̊C Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-144
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Ericsson Radio System Overview
Radio 2242 › 2TX/2RX, each port shared by B3 and B1 › Output Power: 2x80W – Power can be shared between two bands
› IBW: – Up to 55MHz(B3) and 60Mhz(B1) for LTE FDD carriers – Up to 20Mhz for GSM carreires
› Carrier per port per band: – – – –
Up to 4/6 GSM carriers (DL/UL) Up to 6/6 WCDMA carriers (DL/UL) Up to 6/6 LTE carriers (DL/UL) 1.4, 3, 5, 10, 15 and 20MHz LTE carrier
› CPRI: 2.5, 4.9, 9.8, 10.1 Gbit/s – Compression supported (20, 24, 30 bit) – Cascading supported
› › › › › › ›
Size: 17.5L (380x335x137mm) Weight: <20Kg -48 VDC, 3-wire (2-wire with adapter) AISG TMA & RET support 2 external alarm and without TX Monitor IP 65, -40 to +55 ̊C RAT: – LTE, WCDMA, NB-lot on B1 – LTE, GSM, NB-lot on B3
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-145
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Ericsson Radio System Overview
Radio 4415 › 4TX/4RX › 4x40W, 75/100 MHz IBW FDD/TDD (15 MHz IBW for GSM) › Up to 8 carriers GSM › Up to 8 carriers WCDMA › Up to 75/100 MHz LTE FDD/TDD carriers › 2 X 10 Gbps CPRI › 16 liter 18 kg › HxWxD: 335x380x129 mm › -48 VDC › AISG TMA & RET support › 2 external alarm › Optional fan › IP 65, -40 to +55 ̊C
Optional FAN
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-146
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Ericsson Radio System Overview
Radio 4426 › › › › › › › ›
Only for US 4TX/4RX Up to 4x60W 70 MHz IBW Up to 8 carriers WCDMA Up to 6 carriers LTE in MIMO 2x 2.5/4.9/9.8/10.1 Gbps CPRI 19 liter, 21 kg
› › › › › ›
-48 VDC AISG TMA & RET support 2 external alarm Optional fan for increased site flexibility IP 65, -40 to +55 ̊C Smaller and more efficient multi band configurations
– HxWxD: 380x335x147 mm
Optional FAN
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-147
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Ericsson Radio System Overview
Radio 4428 › 4TX/4RX › 4x40W › Up to 75 MHz IBW – 20 MHz IBW for GSM or LTE1.4/3MHz carriers
› › › › › › › › › ›
Up to 12 carriers GSM Up to 8 carriers WCDMA Up to 6 carriers LTE in MIMO 2x 2.5/4.9/9.8/10.1 Gbps CPRI 15 liter 16 kg -48 VDC 2-wire AISG TMA & RET support via RS-485 2 external alarm Convectional cooling IP 65, -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-148
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Ericsson Radio System Overview
Radio 4478 › › › › › › › › › › ›
4TX/4RX, FDD LTE Low-band operation 4x40W Full-band IBW Up to 6 carriers LTE in MIMO 2x 2.5/4.9/9.8/10.1Gbps CPRI 24 liter, 27 kg (60lbs) – Two handles -48 VDC AISG TMA & RET support 2 external alarms IP65, -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-149
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Ericsson Radio System Overview
Radio 4407 › 4TX/4RX › Up to 4x20W › 65 MHz IBW FDD › Up to 3 LTE carriers › 2x 2.5/5/9.8Gbps CPRI › 12 liter 13 kg › -48 VDC › AISG TMA & RET support › IP 65, -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-150
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Ericsson Radio System Overview
Radio 2468 › › › ›
› › › › › ›
2TX/4RX Output Power: up to 2x80W IBW: 20MHz Carrier capacity: – Up to 6 LTE carriers – Up to 4 GSM carriers in MSR – Up to 6 WCDMA carriers Size: 15L; Weight: 15Kg 2x 2.5/4.9/9.8/10.1 Gbps CPRI AISG RET support 2 external alarm Power supply: 2-wire DC -48V IP 65, -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-151
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Ericsson Radio System Overview
Radio 2203 › › › › › › › › › › › › › ›
2TX/2RX, 4TX/4RX by use of two 2203 2x5W 40 MHz IBW FDD Up to 4 carriers WCDMA Up to 40 MHz LTE carriers 2 X 10 Gbps CPRI 4 liter 5kg incl bracket and cover AC or -48 VDC Integrated TX-monitor ports Integrated or external antenna 2 external alarm IP 65 -40 to + 55 ̊C Maximum power consumption for B1 <100W
105 mm
Singleband
Dualband
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Ericsson Radio System Overview
Radio 2205 › 2TX/2RX › 2x5W, 40 MHz IBW TDD › 40 MHz LTE carriers › 2x10G CPRI › 4 liter 5 kg including bracket and cover › AC or -48 VDC › 2 external alarm › IP 65 › -40 to + 55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-153
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Ericsson Radio System Overview
Radio 2208 › 2TX/2RX › 2x10W › 40/60 MHz IBW TDD › Up to 3 LTE carriers › 2x10Gbps CPRI › 4 liter, less than 5kg incl bracket and cover › AC or -48 VDC › Integrated or external antenna › 2 external alarm › IP 65 › -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-154
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Ericsson Radio System Overview
Radio 4412 › 4TX/4RX › Up to 4x20W › 60 MHz IBW TDD › Up to 3 LTE carriers › 2x 2.5/5/9.8Gbps CPRI › 10 liter 11 kg › -48 VDC › AISG RET support › IP 65, -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-155
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Ericsson Radio System Overview
Radio 4418 › 4TX/4RX › Support split mode (2 x 2T2R as multi-sector solution) › Tx Power 4x40W › Up to 100MHz IBW TDD › Up to 6 LTE carriers › 2x 2.5/5/9.8/10.1Gbps CPRI › 15 liter, 16kg › -48 VDC 2-wire › AISG RET support via RS-485 › 2 external alarm › Convectional cooling › IP 65, -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-156
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Ericsson Radio System Overview
Radio 8808 › 8TX/8RX › Up to 8x20W (dependent on bands) – 8x15W for B38A – 8x10W for B39A – 8x20W for the rest
› 60 MHz IBW TDD › Up to 3 LTE carriers › Support 2 4T4R split mode › 2x 2.5/5/9.8Gbps CPRI › 17 liter 16 kg › Power supply 2-wire DC -48V › AISG RET support › External antenna calibration › 2 external alarm › IP 65, -40 to +55 ̊C © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-157
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Ericsson Radio System Overview
Radio 8823 OPERATOR CHALLENGE
Add high capacity in new frequency bands
IMPROVE NETWORK THROUGHPUT › Increase capacity with many radio ports › Grow in new 3.5 GHz spectrum › 4G and 5G capable Radio 8823
RADIO 8823 › 8T / 8R TDD Radio for 3.5 GHz
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-158
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Ericsson Radio System Overview
Radio 8823 › 8 TX / 8 RX › Support split mode – 2 x 4T / 4R or 4 x 2T / 2R as multi-sector solution
› › › › › › › › › › › ›
Output Power: 8 x 20 W IBW: 200 MHz TDD Up to 5 LTE carriers 2 x 10.1 Gbps CPRI 20 liter, 20 kg Support NEX10 RF connector External antenna calibration -48 VDC 2-wire AISG RET support via RS-485 2 external alarms Convectional cooling IP 65, -40 to +55 ̊C Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-159
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Ericsson Radio System Overview
Streetmacro 6701 OPERATOR CHALLENGE
Densify network in metropolitan areas where there are no new rooftop sites available
BUILD SITES ON STREET LEVEL › Products with ease-of-site acquisition to use on available site installation spots below roof top level › Enough output power to cover larger area
Streetmacro
6701
STREETMACRO 6701 › 5G high-band fully integrated node 128T / 128R
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-160
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Ericsson Radio System Overview
Streetmacro 6701 › › › › › › › › ›
Initial RF band: 26.50 – 29.50 GHz Total EIRP: ~55 dBm OBW / IBW: 800 MHz / Full-Band Fully integrated node with Antenna BW: 2400 MHz Power Supply: AC Installation type: Pole / Wall Dimensions: 500 x 120 x 200 mm Operating temperature: -40°C to +55°C IP Class: IP65
Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-161
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Ericsson Radio System Overview
Go underground Vault Radio 2268
OPERATOR CHALLENGE
Quickly add capacity in dense urban areas with minimal visual impact
GO UNDERGROND
Vault Radio 2268
› Place radio in existing underground vaults with fiber and power infrastructure connected to antenna on ground level › Fast permit process and deployment › No visual impact in street environment NEW VAULT RADIO 2268 › Protected from total dust ingress and long term immersion (IP68) › Versions for all Radio System micro bands (TDD / FDD / LAA) › Full integration with existing network, including Carrier Aggregation capability
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-162
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Ericsson Radio System Overview
RUS02 02& RUS 01 RUS › GSM, WCDMA & LTE › Up to 40 MHz IBW › Up to 8 carriers GSM › Up to 4 carriers WCDMA or LTE › Up to 1 x 100 W › 2.5 Gbit/s CPRI › 55 years MTBF
RUS 01 › GSM, WCDMA & LTE › Up to 4 Carriers in downlink and uplink (2 Way Rx Diversity) › 2.5 Gbit/s CPRI
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-163
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Ericsson Radio System Overview
RRUS 72
4x2, 4x4 MIMO AND 4-WAY RX DIVERSITY › TDD-LTE, 4TX / 4RX › Up to 4 x 40W › IBW up to 60MHz in contiguous › Carrier capacity: up to 60MHz LTE › Support Dual-sector configuration › Requiring Multi Sector Per Radio feature: FAJ 221 3088
› 2 x 10Gbps CPRI › Power supply: -48 VDC 3-wire Or 2-wire with optional power adapter, or AC with optional PSU-AC 08
› Volume: 25 L, Weight: 23 Kg › AISG RET › 6 External Alarms © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-164
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Ericsson Radio System Overview
mRRUS 12 – MICRO REMOTE RADIO UNIT ›
Multi standard
›
MIMO support ›
›
4 cell carriers WCDMA
› ›
2x5W
›
20 MHz LTE
›
IBW 25 MHz
Integrated antenna
Integrated AC power supply ›
10 kg and 11 litres
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-165
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Ericsson Radio System Overview
COMPLETE 5G RADIO PORTFOLIO 5G NR Radios AIR
COMPLETE 5G NR MASSIVE MIMO RADIO PORTFOLIO
6468
› New Mid-band and High-Band versions › Support 5G plug-ins: Massive MIMO and Multi-user MIMO › Work with today’s Ericsson Radio System Baseband
AIR
6488
AIR
5121 Baseband
LTE + 5G Plug-Ins Backwards compatible
Interworking
5G NR New Radio interface
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-166
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Ericsson Radio System Overview
AIR Benefits OPTIMAL SITE SOLUTION
FASTER Time for Implementation
UL IMPROVEMENTS
MULTI-ANTENNA ENABLER
AIR 21 4WRXD 3+ dB UL Improvement
AIR 21 2 dB UL Improvement
RRUS 2 dB UL Improvement
RUS WITH TMA 5 dB UL Improvement
RUS (NO TMA)
Up to 8+ dB UL Improvement
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-167
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Ericsson Radio System Overview
site simplification
Improve and densify challenging macro sites
3 more antennas, a cabinet and 240m of feeder?
GSM W/L
TMA
GSM GSM W/L W/L
TMA
TMA
Macro
3 more antennas and remote radios?
GSM W/L
RRU
GSM GSM W/L W/L
RRU
…a simple antenna change-out?
AIR G GSM W/L
AIR G GSM W/L
AIR G GSM W/L
RRU
Remote Radio
AIR
AIR – the most cost-efficient way to add LTE/HSPA
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-168
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Ericsson Radio System Overview
AIR 32 4x2/4x4 DL CLSM(MIMO), 4WRXD Active HB/ Passive HB and LB › Single or dual active band, 4TX 4RX multistandard › Dual HB x-pol column array for active bands › 4 x 30W internal PA › IBW: 40 MHz LTE & WCDMA; 20 MHz GSM › Carrier capacity: 6 GSM; 6 WCDMA; 40 MHz LTE › 10Gbps CPRI › Supports user specific UL /DL beam-forming › Passive band: Up to 4 HB (and 2 LB) passive ports › 1.4m and 2m antenna gain length class › Active cooling with full redundancy
Radio 2218/2216 Radio 2218/2216
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-169
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Ericsson Radio System Overview
AIR 2488 › › › ›
› › › › › › › › ›
2TX/4RX Dual or single band active Up to 2x2x60W Up to 75 MHz IBW – 20 MHz IBW for GSM or LTE1.4/3MHz carriers Up to 8 carriers GSM Up to 8 carriers WCDMA Up to 6 carriers LTE in MIMO 2 x 2.5/4.9/9.8/10.1 Gbps CPRI Weight: 35 – 49 Kg Size (H x W x D):1410 mm x 275 mm x 220 mm -48 VDC -40 to +55 ̊C Fast and easy site acquisition and deployment
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-170
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Ericsson Radio System Overview
AIR 3246 › 32 TX/RX › Planned frequency bands: B66, B3 › Other bands considered: B25, B1, B7 › Up to 160 W total output power › Up to 90 MHz IBW FDD › 60 MHz LTE CBW › 4 x 10.1 Gbps CPRI › Size (H x W x D):1475x400x238 mm › Weight : 81 Kg (estimated) › -48v DC, 3 wire or 2 wire › Max Power consumption: < 1440 w © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-171
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Ericsson Radio System Overview
AIR 4455 OPERATOR CHALLENGE
Densify network in metropolitan areas where there are no new rooftop sites available
BUILD SITES ON STREET LEVEL › Products with ease-of-site acquisition to use on available site installation spots below roof top level › Enough output power to cover larger area AIR 4455 › Small form-factor dual-band 4T / 4R 4x40 W AIR 4455 © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-172
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Ericsson Radio System Overview
AIR 4455 › Initial RF bands: B1 + B3, B2 + B66 – Dual-band
› Total output power: Up to 4 x 40 W › 5G NR, LTE, WCDMA, GSM, and NB-IoT › Antenna Gain: ~ 15 dBi › Power Supply: AC › Height: < 760 mm › Weight: < 25 kg
Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-173
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Ericsson Radio System Overview
AIR 1281 OPERATOR CHALLENGE
Densify network in metropolitan areas where there are no new rooftop sites available
BUILD SITES ON STREET MACRO LEVEL
AIR 1281
› Products with ease of site build to use on available site installation spots below roof top level › Enough output power to cover larger area › Capacity boost in new high-bands for network off-loading AIR 1281 › 5G NR TDD Massive MIMO high-band size optimized AIR for street macro deployments
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-174
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Ericsson Radio System Overview
AIR 1281 › Total EIRP: › IBW: › OBW: › Fronthaul IF: › Installation type: › Weight: › Volume:
~55 dBm Full-band Up to 800 MHz 1 – 4 x 10.1 Gbps CPRI Pole / wall mounted ~6 kg ~5 liter
Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-175
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Ericsson Radio System Overview
AIR 3239 OPERATOR CHALLENGE
Quickly and costefficiently add capacity in metropolitan areas
IMPROVE NETWORK THROUGHPUT › Increase capacity › Grow in existing and new spectrum › 4G and 5G growth AIR 3239
AIR 3239 › TDD Massive MIMO mid-band with 32 ports
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-176
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Ericsson Radio System Overview
AIR 3239 › 32 TX / 32 RX › LTE and 5G NR (TDD) › Output power: up to 80 W › IBW: Up to 100 MHz › Weight: 25 kg › Interface: eCPRI 10.3 Gbps
Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-177
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Ericsson Radio System Overview
AIR 3252 OPERATOR CHALLENGE
Quickly and costefficiently add capacity in metropolitan areas
IMPROVE NETWORK THROUGHPUT › Increase capacity › Grow in existing and new spectrum › 4G and 5G growth AIR 3252 AIR 3252
› TDD Dual-band Massive MIMO mid-band with 32 ports
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-178
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Ericsson Radio System Overview
AIR 3252 › 32 TX / 32 RX › LTE and 5G NR (TDD) › Output power: up to 100 W › Operating bandwidth: Up to 80 MHz › IBW: Up to 200 MHz › Weight: 60 kg › Interface: eCPRI 10.3 Gbps
Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-179
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Ericsson Radio System Overview
AIR 5331 OPERATOR CHALLENGE
Quickly and costefficiently add capacity in metropolitan areas
IMPROVE NETWORK THROUGHPUT › › › › AIR 5331
Increase capacity and throughput Offload lower frequencies Grow in existing and new spectrum 5G growth
AIR 5331 › 5G NR TDD Massive MIMO high-band Radio › For high capacity, low latency focused deployments
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-180
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Ericsson Radio System Overview
AIR 5331 › › › › › › › › › ›
Initial RF band: Total EIRP: OBW: IBW: Fronthaul IF: Installation type: Weight: Volume: Cooling: IP Class:
37 - 40 GHz > 60 dBm 800 MHz 3 GHz 1 – 4 x 10.1 Gbps CPRI Pole / wall mounted ~14 kg ~18 liter Passive IP65
Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-181
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Ericsson Radio System Overview
AIR 6468 › › › › › › › › › › ›
Advanced Antenna System (AAS) 64TX/64RX Up to 120W EIRP max 74.5 dBm Up to 60 MHz IBW TDD Up to 3 carriers LTE 2 x 10.1 Gbps eCPRI Weight: up to 60 kg (excluding installation kit) Size (H x W x D):973 mm x 520 mm x 183 mm -48 VDC -40 to +55 ̊C
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-182
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Ericsson Radio System Overview
AIR 6479 OPERATOR CHALLENGE
Introduce capacity increase on sites using AIR without increasing the amount of antennas
COMBINE AIR WITH PASSIVE ANTENNAS › Integrated solutions › Connect 2x2 and 4x4 radios to passive ports on AIR
AIR 6479 › One antenna with TDD Massive MIMO + passive antennas AIR 6479 © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-183
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Ericsson Radio System Overview
AIR 6479 › 64 TX / 64 RX › LTE and 5G NR (TDD) › Output power: up to 200 W › Operating bandwidth: Up to 60 MHz › IBW: Up to 100 MHz › Weight: 47 kg › Interface: eCPRI 10.3 Gbps
Preliminary data
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-184
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Ericsson Radio System Overview
AIR 4488 OPERATOR CHALLENGE
Quickly and costefficiently add capacity
IMPROVE NETWORK PERFORMANCE › Increase capacity › Antenna Integrated Radio advantages › 4G and 5G growth AIR 4488 AIR 4488
› Three active bands with 4T / 4R each › Passive antenna ports to connect additional radios
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Ericsson Radio System Overview
AIR 4488 › Up to three active 4 TX / 4 RX bands › Output power: 4 x 40 W per band › Passive antenna ports – XX-pol 1427 – 1500 MHz ~17dBi (prepared for Band 32 1400) – X-pol 698 – 960 MHz ~17 dBi
› Passive cooling › Field replaceable radio units › Size: H x W x D: 2600 x 386 x 269 mm › Weight: ~100 kg Preliminary data
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Ericsson Radio System Overview
Summary of Chapter 4 The participants should now be able to : 4
Identify different Radio Products and their primary features
4.1 List the characteristics of the latest radio units including the 5G/NR radios that are available in Ericsson Radio System 4.2 Describe the characteristics and the usage of the new Remote Radio Units (RRUs) 4.3 Explain the characteristics and advantages of the Antenna Integrated Radio (AIR) products 4.4 List the benefits of the new installation options and features introduced
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Ericsson Radio System Overview
Intentionally Blank
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Ericsson Radio System Overview
Ericsson Radio System Overview
Backhaul
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Ericsson Radio System Overview
Objectives of Chapter 5 After this chapter the participants will be able to: 5
Describe the wide range of Backhaul products for Outdoor and Indoor Scenarios
5.1 List the various Aggregation Units offered in Ericsson Radio System, and explain their usage 5.2 List the characteristics of the new products in Router 6000 Series 5.3 Match the new products in the MINI-LINK Portfolio to the Indoor and Outdoor usage
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Ericsson Radio System Overview
Complete Backhaul Portfolio Ericsson Network Manager
Service Provider SDN
IP ACCESS & AGGREGATION ROUTERS
RADIO
Router 6371 for outdoor small cell
Router 6471 for Router 6672 indoor small cell for Access
Ericsson Radio System
IP EDGE & PACKET CORE
VIRTUAL ROUTER
Router 6675 for Pre-Aggregation
MICROWAVE
FRONTHAUL
Router 6274 for Metro Aggregation
PAU CWDM
Fronthaul 6392
MINI-LINK 6351
MINILINK 6600
Smart Services Router Platform
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Ericsson Radio System Overview
Switch 6391 › Compact outdoor switch with Ericsson Radio System building practice – 25 Gbps capacity – Extensive L2 feature suite – 20x20x4 cm /7.9x7.9x1.6 inches
› Flexible interfaces – 4x1GE RJ-45 + 2x10GE SFP
› Efficient power solution – -48V or +36V feed – PoE+ on all electrical ports or PoE++ on two – <30W © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-192
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Ericsson Radio System Overview
Use cases Switch 6391 Pico
WiFi
Pico Switch
PoE
PoE
WiFi
PoE
Pico
Pico
PoE
PoE
PoE
Switch PoE
PoE
PoE
Backhaul Router
PoE
OUTDOOR SWITCH
vEPG
10GE ring Router
PoE
PoE
PoE PoE
PoE
WiFi
CAMERAS
PoE
PoE
PoE
WiFi
PoE
WiFi
WiFi
? ???
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Ericsson Radio System Overview
Router 6000 family Flexible application to support various needs 30G
100G Router 6471 (2x10GE)
Router 6672 (8x10GE)
Indoor, fan-less & Compact
Router 6371 (2x10GE) Outdoor
10GE optimized
2G 3G 4G
4G+
For larger cell sites with Resiliency and 5G ready
320G
5G
TDM 1001 (16E1/T1)
Router 6675 (4x100GE,24x10GE)
Pay as you grow
High 10GE density and 100GE
Modular design for emerging markets and smaller cell sites
Supports flexible port configuration for 5G connectivity
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Ericsson Radio System Overview
ROUTER 6000 family Flexible application to support various needs
Router 6471
ENTERPRISE
Router 6672
Router 6675
MOBILE
Router 6672 Router 6371
FIXED RESIDENTIAL
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Ericsson Radio System Overview
Ericsson Router 6000 Naming Scheme
Router 6672 Router 6x71 Router 6675
The first digit (6) denotes the alignment with radio. The second digit denotes either indoor or outdoor and type: • For 6371 (small cell outdoor router), the second digit (3) means outdoor • For 6471 (small cell indoor router), the second digit (4) means indoor, pico-related • For 6675 and 6672, the second digit (6) means indoor 19”. The third digit (7) means it is a router. Products with numbers matching 6x7x therefore belong to the Router 6000 Series. The fourth digit is to differentiate between different products as necessary. • For 6479 the fourth digit (9) is to differentiate from 6471. Same segment but different functionality
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Ericsson Radio System Overview
Router 6000 facts
• Verified with radio • ERS building practice • Fan-less • Filter-less design • Indoor or outdoor • Zero-touch provisioning
• Market-leading throughput • High 10G port density • Large buffer-size • Low latency • HW accelerated IPSec • Precise synchronization
• Network Slicing • SDN ready • H-QoS with large buffer • Segment routing • Common Management
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Ericsson Radio System Overview
Router 6000 portfolio An Overview
Router 6371
Router 6471/1
Router 6471/2
Router 6672
18A
18A
18A
16A
18B -> 18A
Small Site CSR
LTE CSR/Agg Router
5G CSR, Agg Router & E-RAN High 10GE density and 100GE
Release Use Cases and Applications Key Features
Outdoor CSR, L3 Low cost CSR, L3 MW modernization MW modernization IP65 Outdoor
Full Duplex Forwarding Capacity
Fanless & Compact Fanless & Compact
10GE focused
Router 6675
30G
30G
30G
100G
320G
Traffic ports
2x10GE + 4xGE/2.5GE
2x10GE+4xGE RJ45 4xGE/2.5GE
2x10GE+4xGE RJ45 4xGE/2.5GE
8x10GE + 8xGE + 4xGE RJ45
24x10GE + 4x100GE QSFP28
Scaling / Sync
Medium/Premium
Low/Standard
Medium/Premium
High/Premium
Highest/Premium
-40C to 65C
-20C to 65C
-40C to 65C
-40C to 65C
-40C to 65C
Ambient Temp Range
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Ericsson Radio System Overview
Router 6371 › Interfaces: – 2 x GE/10GE SFP+ Ports – 4 x GE SFP Ports – 1 x 100/1000Base-T Ethernet for Out-of-Band Management – 1 x RJ45 Console Port – 1 x USB 2.0 Port – 1 x RJ45 Port 1PPS (Sync Interface)
› › › ›
Weight: 4,5 kg Dimension: 200mm x 315mm x 63mm Airflow: Fan-less and Filter-less design Power: – DC: -48V, single feed – AC: 100-240 V, single feed
› Power consumption: 30W, max 60W © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-199
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Ericsson Radio System Overview
Router 6471 › Interfaces: – – – – – – – –
› › › ›
2 x GE/10GE SFP+ Ports 4 x GE SFP Ports 4 x 100/1000 Base-T RJ45 Ports 1 x 100/1000Base-T Ethernet for Out-of-Band Management 1 x RJ45 Console Port 1 x USB 2.0 Port 1 x RJ45 Alarm port for 3 input and 1 output alarm contact 1 x RJ45 Port 1PPS (Sync Interface)
Weight: 3,6 kg Dimension: 1RU, 41mm x 217mm x 220mm Airflow: Fan-less and Filter-less design Power: – DC: -48V, single feed – AC: 100-240 V, single feed
› Power consumption: 30W, max 60W © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-200
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Ericsson Radio System Overview
Ericsson Router 6672 APPLICATIONS › 10GE port optimized cell site router › Enterprise access › Fixed mobile convergence › Indoor small cell router
DIFFERENTIATION › Radio OAM and security integration › Ericsson Network Management (radio + router) › Cost and capacity › Security (IPSEC, MACSec) › LTE-A sync features › Advanced radio integrated transport › Part of E2E transport offering from Ericsson
MAIN FEATURES › 1RU, Radio compatible, F2B cooling › 100G › 8*1/10G SFP+, 8x1GE SFP and 4x1G RJ-45 › 2.4-6G IPSEC, 4x MACSec ports › Common chipset family and IPOS within 6000 series = feature velocity © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-201
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Ericsson Radio System Overview
Router 6675 Overview
› High capacity 320Gbps Switch/Router for L2 interconnecting to enable LTE Elastic RAN feature › Same building practice as Router 6672, Baseband T605, Baseband 6630/6620 horizontal 19 inch sealed › 24 x 1/10G SFP/SFP+ ports (5.3 uS latency between 10GE ports) › 4 x 100G QSFP28 ports (4 uS latency between 10GE and 100GE ports) › Sync solution 1588v2 BC/GM and SyncE › O&M:
Elastic RAN Optimal coordination across the network for C-RAN
– Same O&M interface as multi-standard baseband for system functions – Netconf/Yang interface for transport function (e.g. L2 switching) – User interface is common and functional support from Ericsson management system is the same
› Fully verified by Ericsson as end-to-end solution © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-202
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Ericsson Radio System Overview
Ericsson Router 6274 High performance aggregation APPLICATIONS › Aggregation for Mobile backhaul and FMC › Mobile backhaul headend › Baseband hotel Router
DIFFERENTIATION › Best in class 10G/100G density › Cost V/S Capacity › Front to Back Cooling › SDN and programmability › LTE-A sync features › Ericsson Network Management (radio + router)
MAIN FEATURES › 5 RU, 2.1 Tbps, 18X100G , 144X10G › Redundant forwarding and control plane › 96K queues, 88msec buffering@100G › 16K L3VPN, 32K PWE, 128K MPLS LABELS › IPSEC, MACSec © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-203
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Ericsson Radio System Overview
Ericsson Radio System mini-link products
Transport portfolio with advanced radio integration Highest node capacity in smallest form factor World´s smallest high power radio unit Managed by Ericsson Network Manager
MINI-LINK 6351
MINI-LINK 6363
MINI-LINK 6352 Fronthaul 6392
MINI-LINK 6691
MINI-LINK 6692
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Ericsson Radio System Overview
MINI-LINK Outdoor units
Mounting Flexibility
MINI-LINK 6363 › World’s smallest high power radio unit › 6-80 GHz
MINI-LINK PT 2020
MINI-LINK 6366
› 600 Mbps capacity
› 2.5 Gbps over 2 carriers
› 6-42 GHz
› 6-80 GHz › Flexible outdoor solution for integrated- or split mount
10Gbps one carrier
MINI-LINK 6352 › World’s highest microwave capacity
MINI-LINK 6351 › 1 Gbps capacity in V-band
› 10 Gbps capacity in E-band › Multi-band Booster
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Ericsson Radio System Overview
MINI-LINK Indoor units
MINI-LINK 6651 › Compact end-node with dual carriers › 1GE & 2.5 GE interfaces
MINI-LINK 6691 › Small aggregation node
MINI-LINK 6693
MINI-LINK 6692
› Medium aggregation node
› Large aggregation node
› 90 Gbps switch capacity
› 90 Gbps switch capacity
› 90 Gbps switch capacity
› 1 GE, 2.5 GE & 10 GE interfaces
› 1 GE & 10 GE interfaces
› 1 GE, 2.5 GE & 10 GE interfaces
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Ericsson Radio System Overview
Ericsson Microwave offering
MINI-LINK 5-42 GHz
60 GHz
Partner Products 70/80 GHz
Sub 6
24-28 GHz (MPtMP)
Outdoor RAU2 X
MINI-LINK 6363
MINI-LINK 6366
MINI-LINK 6363
MINI-LINK 6366
Radwin 5000JET CCS Metnet
MINI-LINK 6351 MINI-LINK PT 2020
MINI-LINK 6352
Fronthaul 6392 Radwin 2000
Aggregation Switch 6391
Indoor
MINI-LINK TN and CN
MINI-LINK 6600
MINI-LINK LH
Radwin 2000 & 5000JET
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Ericsson Radio System Overview
MINI-LINK 6600
MINI-LINK 6651
MINI-LINK 6691
MINI-LINK 6692
Type of node
Compact end-node with dual carriers
Small aggregation node
Large aggregation node
Interfaces
1GE & 2.5 GE
1 GE, 2.5 GE & 10 GE
1 GE, 2.5 GE & 10 GE
Switch capacity
10 Gbps switch capacity
60 Gbps switch capacity
60 Gbps switch capacity
Modulation and channel width
4096 QAM and 112 MHz
4096 QAM and 112 MHz
4096 QAM and 112 MHz
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Ericsson Radio System Overview
MINI-LINK TN
2 10 4096
Carriers per modem , MIMO prepared
G interface
QAM support
New NPU and MMU for higher link- & switch capacities
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Ericsson Radio System Overview
MINI-LINK LH
16 56 2 in 1
Channels in one rack
MHz channel bandwidth
Long and short haul in one node
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Ericsson Radio System Overview
MINI-LINKI 6363
65 112/125 6-80
Now With
E-band % size and 35% weight reduction
MHz channel spacing
GHz high power radio
World’s smallest high power radio unit
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Ericsson Radio System Overview
MINI-LINK 6363 overview › › › ›
Split mount radio Frequencies: 6 – 42 and 70/80 GHz Modulations: C-QPSK and 4 – 4096 QAM Channels: – Traditional bands: 7 – 112 MHz – E-band: 62.5 – 125 MHz
› › › › › › ›
TX power: -10 to +30 dBm Volume: 2.8 liters / 170 in3 Weight: 2.8 kg / 6.2 lbs Power consumption: 20 W Backward compatible with RAU2 X Single bolt installation Indoor units MINI-LINK 6600, MINI-LINK TN and MINI-LINK CN › Modular antennas
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Ericsson Radio System Overview
MINI-LINK 6351
60 1 2.5
GHz frequency band
Gbps capacity
Multiport configuration: 4 x 1GE + 2 SFP interfaces
Liter in volume - everything included in the ball
World’s smallest Gbps V-band link
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Ericsson Radio System Overview
MINI-LINK 6351 Micro, Pico RBS
MINI-LINK 6351
4G
Multi Standard RBS6000/TCU
MINI-LINK 6351
2G 4G 3G
Designed for small cell deploymentWorld’s smallest › Designed for small cell Gbps V-band link deployment › Friendly and innovative design everything included in the ball › Easy installation, camera alignment › 60 GHz un-licensed band › 1Gbps in150 MHz › Power efficient < 20W
SMALL CELL
› High capacity › Easy and flexible installations › Easy alignment › Support LOS & NLOS configuration › Fast time to market › 60 GHz Un-licensed band
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Ericsson Radio System Overview
MINI-LINK 6352
70/80 10 10
GHz frequency band
Gbps capacity over one single carrier, Multi-band Booster
GE interfaces, 2.5 GE & 1GE 4x interfaces to the L2 Switch
World’s highest microwave capacity
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Ericsson Radio System Overview
MINI-LINK 6352
short hops and fiber extension MINI-LINK 6352 MINI-LINK 6692 MINI-LINK 6352
MINI-LINK 6352 MINI-LINK 6691
e-Band aggregation
› All outdoor packet solution suitable for metropolitan areas › Complement as fiber extension with Gigabit capacity everywhere › Cascading of hops › Inbuilt Layer 2 switch for traffic aggregation › Higher capacity with new frequency band: › 5 Gbps in 750MHz channel › 8 Gbps in 2+0 configuration with Radio Link Bonding and Header Compression › Multiple 10GE, 2.5GE and 1GE interfaces for easy connections to all equipment and for full utilization of radio capacity
› Very high capacity in a single carrier for metropolitan hops › Potential lower annual spectrum cost › Zero footprint aggregation/switch node › Faster time to market
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Ericsson Radio System Overview
Cascading and repeater solution › Aggregation
MINI-LINK 6352
– Fully outdoor small aggregations sites – Combined with L1 Radio Link Bonding & Protection
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Ericsson Radio System Overview
MINI-LINK 6354
6-42 2.8 10
GHz frequency band
Gbps capacity using 2 carriers, 4096 QAM and up to 112 MHz channel width. Multi-band Booster capabilities.
GE & 2.5 GE & 1GE interfaces to the L2 Switch
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Ericsson Radio System Overview
MINI-LINK 6366
2.5 4096 4
Mbps with high power radio over 2 carriers
QAM support
Ethernet interfaces, 2.5GE & 1GE
Flexible all-outdoor for 6 to 80 GHz
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Ericsson Radio System Overview
MINI-LINK PT 2020
6-42 600 15-20
GHz frequency band
Mbps capacity
% extra capacity with header compression
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Ericsson Radio System Overview
MINI-LINK PT 6020
short hops and fiber extension MINI-LINK LH MINI-LINK PT
MINI-LINK PT
e-Band
› All outdoor packet solution suitable for metropolitan areas › Complement as fiber extension reaching Gigabit capacity everywhere › Higher capacity with new frequency band: › 1Gpbs @ E-Band (70/80GHz) in 250MHz channel › 15-20 % extra capacity with Header Compression › Higher capacity in a single carrier for metropolitan hops › New unused frequency band › Potential lower annual spectrum cost › Faster time to market
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Ericsson Radio System Overview
CCS (partner solution)
25-29 1 2.3
GHz frequency bands
Gbps capacity TDD
Liter in volume
Fully self-organizing MPtMP microwave backhaul
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Ericsson Radio System Overview
RADWIN (partner solution)
6 750 350 Sub
GHz frequency band
Mbps capacity PtP (RADWIN 2000 D+)
Mbps capacity PtP/PtMP (RADWIN 5000 JET SCB)
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Ericsson Radio System Overview
Bandwidth Notification Supported in Router 6000 and Mini-Link › Current capacity information sent to other nodes › Used for traffic shaping and re-routing › Increased focus on network optimization
Adaptive modulation
– Adaptive Modulation – Multiband booster with E-band - higher capacity differences
BNM
› Standard protocol – G.8013/Y.1731 (2013) Amd.1
Maximize utilization of available bandwidth © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-224
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Ericsson Radio System Overview
Product Summary MINI-LINK is a powerful and cost efficient network node fulfilling the requirements of the mobile broadband evolution •
High node capacity – increased modulation schemes, higher switch capacities, E-& V- band, 1G & 2.5G & 10G interfaces Flexible – any frequency, any site type, switching & routing, any sync • High density – 70% less size, more directions
•
Part of the new Ericsson Radio System •
• Integrated and verified Feature alignment for optimal performance
Enable efficient migration of installed base •
• Hop compatibility between nodes Reuse of installed radio, antenna and cabling
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Ericsson Radio System Overview
Summary of Chapter 5 The participants should now be able to: 5
Describe the wide range of Backhaul products for Outdoor and Indoor Scenarios
5.1 List the various Aggregation Units offered in Ericsson Radio System, and explain their usage 5.2 List the characteristics of the new products in Router 6000 Series 5.3 Match the new products in the MINI-LINK Portfolio to the Indoor and Outdoor usage
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Ericsson Radio System Overview
Ericsson Radio System Overview
Enclosures and Power Systems
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Ericsson Radio System Overview
Objectives of Chapter 6 After this chapter the participants will be able to: 6 List the new enclosure and power options available under Ericsson Radio System Hardware 6.1 Describe the different Enclosure options and its Outdoor/indoor functionality 6.2 Identify Power System Solutions for Macro, Main remote and Hybrid configurations 6.3 Explain small cell implementation with the various Indoor Power Products 6.4 Discuss the Installation options and Configuration for the Power Products © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-228
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Ericsson Radio System Overview
Enclosure and Power
Enclosure
Enclosure & power
Power
Remote site management
Battery
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Ericsson Radio System Overview
Enclosure naming (example)
Enclosure 6130 Upper case Lower case
Space
Random / Capability Series
Enclosure 6306 Enclosure 6307
Enclosure 6130
Enclosure 6150
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Ericsson Radio System Overview
Ericsson Radio System Site types
63 SERIES Site with zero footprint products
65 SERIES
61 SERIES
Site with outdoor small form factor Micro
64 SERIES
Site with outdoor enclosures
Site with indoor Pico, integrated radio.
62 SERIES Site with indoor enclosure or larger 19” shelf based products
66 SERIES Site with indoor self contained 19” products.
OUTDOOR SERIES
INDOOR SERIES
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Ericsson Radio System Overview
The Cabinet Heat Exchanger Feature: air pressure monitoring
DAC Frame
Side-by-side cabinett
Full Flexibility
Insulation
Plain cover or
Active cooling
Bullet proof Light box
Blind plate DAC Feature: Alternative door positioning Alternative locking systems
Battery Base Unit (BBU)
More features: Variable height Variable width Optional EQ4-Kit Optional installation interfaces
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Ericsson Radio System Overview
Flexible configurations
AC/DC POWER
AC/DC POWER
AC/DC POWER
AC/DC POWER
BASEBAND BASEBAND BACKHAU L
BATTERY
All-in-one
BATTERY BACKHAUL
BATTERY
BACKHAU L
MainRemote
Power/battery
Transmission
Energy storage
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Ericsson Radio System Overview
The Modular System REMOTE RADIO 1-18
CLIMATE OPTIONS 5-10 kW Heat Exchanger 5-10 kW Direct Air Cooling
Multi Purpose RADIO UNIT 1-12
POWER 2,5-35kW
Double Capacity
DIGITAL UNIT 1-8
BATTERY 190-570 Ah
TRANSMISSION 1U - 25U
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Ericsson Radio System Overview
Approach differently
POWER
DUS 31
Use 5212/5216? Reduced back-up? 3 hours instead of 4 hours?
POWER
Capacity or coverage site? Is battery back-up really needed?
DUG 20 DUG 20
BB521x
DUG 20 TCU 02
AMM 6p
AMM 6p
POWER
BB521x BATTERY 2x210Ah
BATTERY 1x210Ah
AMM 6p
Enclosure 6150
Enclosure 6140
Enclosure 6130
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Enclosure 6130 Main characteristics › Power systems – DC: 15x CB (additional DC as option, 15 x CBs) – AC: ≤ 8 kW (200 A) DC power › 15x DC (6x Prio + 9x Main) – 12Ah-210Ah batteries (PBC config) › Climate system – Heat Exchanger (HEX) – Designed for self-sustained equipment – Temp. range: -33°C - +50°C (Heater optional) › Mechanical – 8U equipment space (19”) or batteries (AC/PBC config) – 10U equipment space (19”) (DC config) – IP55 – WxHxD: 650x1051x700 mm – Weight: 124kg (AC Config)
105 mm
› Control – Integrated with OSS/ENM – External alarms
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Enclosure 6140 Main characteristics › Power systems – DC distribution: 15x CB – AC ≤ 8 kW (200 A) DC power › 15x CB (6x Prio + 9x Main) – 12Ah-210Ah internal batteries – Additional DC distribution as option (15x CBs) › Climate system – HEX / DAC (for battery compartment) – Designed for self-sustained equipment – Temp. range: -33°C - +50°C (Heater optional) › Mechanical – 10U equipment space (19”) + up to 1x210Ah (AC Config) – 21U equipment space (19”) (DC Config) – IP55 – HxWxD: 1607x700x752 mm – Weight: 190kg (AC Config) › Control – Integrated with OSS/ENM – External alarms
105 mm
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Enclosure 6150 Main characteristics › Power systems – AC: ≤ 8 kW (200 A) DC power › 15x CB (6x Prio + 9x Main) – AC: ≤ 20 kW (400 A) DC power › 32x CB (6x Prio + 25x Main) – 12Ah-210Ah batteries – Additional DC distribution as option (15x CBs) › Climate system – HEX / DAC (for battery compartment) – Designed for self-sustained equipment – Temp. range: -33°C - +50°C (Heater optional) › Mechanical – 13U equipment space (19”) + up to 420Ah battery back-up (AC Config) – IP55 – HxWxD: 2050x800x740 mm – Weight: 230kg (AC Config) › Control – Integrated with OSS/ENM – External alarms
105 mm
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Enclosure 6320 › › › › › › › › › › › ›
Mast, pole or wall mounting Baseband and transport applications Support for 9 baseband units Light weight design allows for easy carry to site Integrated climate control and OSS interface HEX climate system Site power: -48 V DC 10U 19” space (12U total) HxWxD: 905x520x585 mm Weight: 50kg (empty) Temp. range: -33 ̊C - +50 ̊C IP55
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Enclosure 6330 Main characteristics
› Power system – DC distribution – Supports up to 12x RRU/AIR (power+CPRI)
› Climate system – HEX – Designed for self-sustained equipment – Temp. range: -33°C - +50°C (Heater optional)
› Mechanical – – – –
5U equipment space (19”) (DC Config) IP55 HxWxD: 625x900x400 mm Weight: 50kg (empty)
105 mm
› Control – Integrated with OSS/ENM – External alarms
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Enclosure 6340 Main characteristics
› Power system – DC distribution
› Climate system – HEX – Designed for self-sustained equipment – Temp. range: -33°C - +50°C (Heater optional)
› Mechanical – – – –
2U equipment space (19”) IP55 Size:575x700x300mm (WxHxD) Weight: 40 kg
105 mm
› Control – Integrated with OSS/ENM – External alarms
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Enclosure 6215 › Mechanical – 2x ERS Rail interface – Up to 12x ERS Radios – HxWxD: 2000x1100x676 mm – Weight: 75kg
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Enclosure 6147 › Mechanical – 2x ERS Rail interface – Up to 12x ERS Radios – HxWxD: 2000x1100x676 mm – Weight: 173kg › Climate system – Natural convection – -33°C - +45°C – IP20
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Enclosure B154 Main characteristics › Power systems – DC Output: -48 VDC / 200A – Battery characteristics: 8x 12V / 100 – 210 Ah (AGM) › Climate system – Convection cooling – Normal operation: -33°C – 50°C › Mechanical – IP44 – HxWxD: 1100x650x700 mm – Weight: 105 kg (excl. batteries)
105 mm
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Enclosure B174 › Battery Backup System › 4 x 170/190/210 Ah › Hydrogen Ventilation (GR 487) (no tubes) › Active Cooling › -33 to +50 °C › WxHxD: 700 x 1850 x 860 mm › Weight: 135 kg (battery excl.) › EQ4 optional › Heater optional
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Battery on rail Battery 6312
OPERATOR CHALLENGE
Robustly densify macro network in environments where new sites with minimal site space are the only places left to grow on
OUTDOOR BATTERY SOLUTION Battery on Rail
› Fast deployment and significant cabling savings › Minimal space needed, no battery cabinet required › Lithium-Ion: Long battery lifetime BATTERY ON THE RAIL › › › ›
Battery 6312: One-bolt installation Wide operating temperature range: -33° C till 50° C Capacity dimensioned for typical 15 to 30 minutes back-up time Tight O&M integration with Ericsson Radio System Power solutions
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Enclosure 6306 › Multi-purpose enclosure › Size (for Li-Ion): 444 x 190 x 604 (w x d x h) › Weight (for Li-Ion): Less than 21 Kg › Temperature range: -40 to +55 degr. C › Separate installation or attached to another unit (TM) › Carries one 48V/26Ah Li-Ion battery (add 19 kg) › Alternatively any of the supported 19” transmission solutions (max. 2 HU), i.e. MINI-LINK etc.
Li-Ion battery version
› Alternative: One Enclosure 6307 can accomodate two x 48V/26Ah Li-Ion batteries. › Customer padlock interface Cable entries (Li-Ion)
Cable entries (TM)
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Enclosure 6306 Product characteristics
› Multi-purpose enclosure › Size: 444 x 190 x 604 mm (w x d x h) › Weight: Less than 21 kg › Temperature range: -40 to +55 °C › Separate installation or attached to another unit (TM or Li-Ion) › Support 19” transmission solutions (max. 2 HU), i.e. MINI-LINK etc. › Surge protection: OVP or SPD › Carries one 48V/26Ah Li-Ion battery (add 19 kg) › Customer padlock interface › Interfaces for external cables:
Cable entries (Li-Ion)
Cable entries (TM)
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› 4x RF cables (MINI-LINK) › 20x Optical cables › 4x Signal cables
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Enclosure 6307 Product characteristics
› Dual-purpose enclosure › Size: 440 x 257 x 600 mm (w x d x h) › Weight: Less than 27 kg › Temperature range: -40 to +55 degr. C › Separate installation › Carries 1-2 x 48V/26Ah Li-Ion battery (add 19-38 kg) › Alternatively 1 x 48V/37-40 Ah L-A battery (add < 60 kg) › Approved for selected Enersys and Northstar L-A batteries
Lead-acid battery version
› Customer padlock interface Cable entries © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-249
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6306 6303 – Typical Site Configuration Typical site configurations
- Large micro / small cell site Panel antenna
Bi-dir. antenna
Panel antenna
Bi-dir. antenna
Panel antennas
PT 3060 (example)
RBS 6501
mRRU
mRRU
mRRU
RBS 6501
Power 6306
AC input (Grid or GenSet)
Enclosure 6306 (with TM)
48 VDC (Loads) Enclosure 6307 (example) 48 VDC (Battery) HW items in correct relative scale
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Legend: Red: AC input (Grid or GenSet) Yellow: 48 VDC (Battery) Green: 48 VDC (Loads)
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Enclosure Installation
Power 6306 + 2 x Enclosure 6306 (one for TM, one for Li-Ion)
Power 6306 + Enclosure 6306
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Power 6306 + Enclosure 6306 (double-mounted)
Power 6306 + Enclosure 6307 (Li-Ion or L-A)
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Power
Power 6302 Upper case Lower case Space Series
Random / Capability
Power 6610 Power 6302 Power 6306 © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-252
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Power 6302 Power Supply solution for NGR macro radios ( RRU 2217) AC conversion for more flexibility on remote sites. Aligned with NGR design and building practice. APC Light compliant – ie Power 6302 is a Support Unit.
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Power 6306 › Size: 444 x 233 x 604 mm (w x d x h) › Weight: Less than 43 kg › 1 – 4 x 1 kW high-efficiency outdoor rectifiers › Temperature range:: -40 to +55 °C › 1, 2, 3-ph. AC interface, Surge Type 1 alt. Type 2 › < 10 DC outputs, Surge Type I alt. Type III SPD › Optional main-load disconnection capability › Alternative battery technologies; Li-Ion or Lead-acid: › Lead-Acid batteries for low initial investment › Lithium-Ion batteries for low weight, long life and low cost of ownership › Many battery enclosures to chose from; Enclosures 6303, 6306, 6307, BBS 6301, BBS 05 and BBS 6101 › Multiple battery enclosures per Power 6306 supported
› Customer padlock interface
Cable entries
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Power 6306
Adaptable to your site needs – at a glance RBS 6302
Macro RRU / AIR
RBS 6501 mRRU
Outdoor backhaul
MINI-LINK ALL OUTDOOR
Up to 10 x DC Outputs
Power 6306 power and distribution ( 62 l / <43 kg) •1-4 kW output power •Hinged door for simple access and installation •Optional main-load disconnection •AC protection: Surge alt. Lightning •DC protection: Surge alt. Lightning •< 10 x separately fused DC outputs. < 12 x DC loads •1-4 x Battery enclosures (6306 or 6307) possible
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Power 6306
macro / small cell outdoor site power
› Modular enclosure designs for efficient site build › Energy-efficient & virtually maintenance-free › < 4 kW (100 A) DC power in Power 6306 › 1-4 x 1.0 kW rectifiers; High-Efficiency & Natural convection › < 10 x load outputs with optional dual-level disconnection › Individual DC protection per output, Surge or Lightning › Alternative AC protection; Surge or Lightning › Powers ”any” -48V DC load, Ericsson and non-Ericsson
Power 6306
© Ericsson AB 2018 | LZU1089991 R5A | Figure 1-256
› Flexible and scalable battery backup: › Lead-Acid batteries for low initial investment › Lithium-Ion batteries for low weight, long life and low cost of ownership › Many battery enclosures to chose from; Enclosure 6306, 6307, BBS 6301, BBS 05, BBS 6101 › Site transmission › MINI-LINK and IP transmission easily housed in Enclosure 6306
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Power 6393 Description
Power 6393, Modular Power Supply (Outdoor & Indoor) › Power 6393 is a modular power supply concept, that can support either AC or DC input power, for low power applications up to 200W. This is done by two variants of Main Units: – Power 6393 AC Main Unit (for input 100-250 VAC) – Power 6393 DC Main Unit (for input -48 VDC power)
› The main units can be configured with either one or two output modules (PDUs). These are available in three variants: – PDU 40 01: – PDU 40 02: – PDU 40 03:
1 port Power over Ethernet with surge protection 1 port Power over Ethernet with Lightning protection 2 port -48 VDC with Lightning Protection
Product Number Function Designation BML 901 6393/1 BMR 911 6393/1 BMG 907 4001/1 BMG 907 4002/1 BMG 907 4003/1
NTK 102 317/2
Power 6393 AC Main Unit Power 6393 DC Main Unit PDU 40 01 PDU 40 02 PDU 40 03
Pole Mount kit: Hose Clamp (2pcs) (For pole mount)
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Power 6393 Outdoor application
MINI-LINK 6352 or MINI-LINK PT 2020
MINI-LINK 6352/Fronthaul 6392 or MINI-LINK PT 2020 -48 VDC Power (DC+Opto solution)
Power over Ethernet (PoE)
PoE 1
PoE 2
Power 6393: PoE 1-2: Power over Ethernet PoE 1/2 ≤ 100W/port (Up to 2 Outputs)
Power 6393
Input: -48 VDC or 100-250 VAC
DC1
DC2
DC3
DC4
Power 6393
Input: -48 VDC or 100-250 VAC
Input Ethernet: Eth 1 & Eth 2
Power 6393: DC1-4: -48 VDC Sum DC1-4 ≤ 200W DC1-4 ≤ 200W/port (Up to 4 Outputs)
Link to detail information
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Power 6393 Indoor application
Indoor
DC1-4: -48 VDC Sum DC1-4 ≤ 200W (Up to 4 Outputs)
Indoor Units: (e.g. MINI-LINK 6651/6691 or MINI-LINK CN 510/TN (AMM2pB)) (Total max 200W) DC1
Outdoor MINI-LINK 6363/RAU2 X
DC2
Power 6393
DC3
DC4 Input: -48 VDC or 100-250 V AC
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Power 6610 › › › › ›
Height 4 HU, 19” width Dimensions (WxDxH): 485 x 519 x 177 mm IP20 rated Front cover with dust filter Normal operation temperature range +5 to +55 ̊C › › Weight 35kg fully populated (16kg empty) › › › ›
Wide AC input range 85-275VAC Rectifier capacity 10kW, -48VDC 200A Battery backup connection Option for both Lead acid and Li-Ion batteries Up to 17 separate -48VDC load feeds –105Support 20A and 26A electronically controlled DC fuses mm – Support up to 100A electromechanical circuit breakers
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› 8 external alarm inputs › EC bus connection
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Objectives of Chapter 6 The participants should now be able to : 6 List the new enclosure and power options available under Ericsson Radio System Hardware 6.1 Describe the different Enclosure options and its Outdoor/indoor functionality 6.2 Identify Power System Solutions for Macro, Main remote and Hybrid configurations 6.3 Explain small cell implementation with the various Indoor Power Products 6.4 Discuss the Installation options and Configuration for the Power Products © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-261
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Intentionally Blank
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Ericsson Radio System Overview Small Cell
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Objectives of Chapter 7 After this chapter the participants will be able to: 7
Expand the products under Small cell portfolio and describe their features and benefits.
7.1 List the characteristics of New Micro RBS, Pico RBS, Radio Dot System (RDS) and their configuration options 7.2 List the characteristics and usage of the various WiFi Access Points (AP) products
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Small cell products Indoor Only
Outdoor and Indoor Radio 2203
Micro RRU
Micro RBS 6501
Pico RBS 6402
Radio Dot
Complete RBS with integrated baseband Main-remote radio possible to connect to common baseband pool
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Small cells Portfolio
Pico RBS
Small cells
Micro RBS
Micro Radio
Radio Dot System
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Operator challenges Indoor app coverage Indoor systems must deliver seamless app coverage, peak rates and services
SM S
Technologies and spectrum
10 Mbp s
Migration of 3-4 Standards and 5-10 Bands
1
Mbp s
>10 @
Mbps
0, 1M bps
Multitude of devices 3G, 4G and Wi-Fi
Cost efficient deployment Size, few boxes, Backhaul, installation & integration
Approx. 10 Million commercial buildings up to 5000 m2 (50 000 sqft )
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Performance / traffic demand
How to meet specific indoor needs Add indoor small cells Densify macro Add micro cells Improve macro
General indoor coverage
Difficult areas
Enterprise solutions Indoor hot-spots Regulatory requirements
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Ericsson indoor portfolio
< 5K m2
Pico RBS
5K – 50K m2
> 50K m2
Small deployments, Internet grade backhaul Superior performance and feature support in large deployments
Radio Dot Micro DAS
Large coverage, special antenna configurations
Macro DAS
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RBS 6402 Indoor pico cell Biggest performance boost in a tablet-sized footprint optimal for smaller buildings
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RBS 6402 Multiband concept 3GPP Module 1 3GPP Module 2 WiFi
2 RF modules for 3GPP Each module: 2-4 Bands One band per module selectable by SW out of 2-4 bands
A few products per market supports all band combinations
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RBS 6402 Performance › › › ›
300 Mbps LTE carrier aggregation Up to 2 LTE carriers 5,10 or 20 MHz dual band Up to 2x2x250 mW output power 21 Mbps HSPA (HW prep 42 Mbps)
Flexibility › Up to 10 bands in one unit › Remote selection of band and standard › 3 standards, LTE, WCDMA and Wi-Fi simultaneous operation
Easy to deploy › › › ›
Small All-in-One solution Data & Power over Ethernet and SON features Network-live in 10 minutes Coverage area 800-3000 m2
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Untrusted environment Pico RBS 6402
Needed if › Public network › Little/no control › Physically exposed
› IPsec › Auto Integration › Signed SW
MME
Attack
Untrusted Network
SGW Security GW
Intruder
OSS
Trusted Network
RNC
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License Assisted Access Unlocks 5 GHz spectrum for LTE
› LTE licensed spectrum for performance › LTE unlicensed spectrum for speed boost
LTE Advanced on Licensed & Unlicensed Spectrum
LAA Unlicensed
– Carries additional data payload – 4% of the 5 GHz band provides up to 150 Mbps speed increase
LTE Macro
LTE Primary Carrier Licensed Spectrum
LTE Small Cells
LTE Secondary Carrier Unlicensed Spectrum
– LTE efficiencies on unlicensed spectrum © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-274
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RBS 6402 LTE-U Performance › › › ›
300 Mbps LTE carrier aggregation 2 LTE Carriers 5,10 or 20 MHz 4x250 mW output power Support for 40 MHz 5GHz/LTE-U
›
Flexibility › Remote selection of FDD band › Licensed FDD, LTE-U and Wi-Fi simultaneous operation › HW prepared for 20+40 MHz CA
Easy to deploy › Small All-in-One solution › Data & power over ethernet and SON features. › Network-live in 10 min
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RBS 6501 › Output power matters – 2x5 W in order to build a strong micro cell
› RBS 6501 supports CPRI out – Dual band and Multi sector flexibility. – 6 Cell carriers, 168/23 Mbit/s (DL/UL) – LTE: 120 MHz, 225/75 Mbit/s (DL/UL)
› High capacity – 1000 connected LTE users
› Easy and Flexible Deployment – – – –
AC or DC Power Supply Integrated GPS with antenna Integrated or External Antenna 16kg & 15l
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RBS 6501
2x5 W in order to capture traffic
CPRI out supported
CPRI
High capacity - 1000 connected LTE users
Easy and Flexible Deployment
mRBS 6501
mRRUS 12
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Ericsson Micro Flexibility Integrated or external Antenna Support
RBS 6501
mRRU
Integrated AC or -48 V DC CPRI-Out Optical or Electrical GE Interface Support for internet grade
Power output to feed Tx Equipment
Sector 1 RBS 6501
Sector 2 mRRUS 12
Sector 3 mRRUS 12
Freq. 2
mRRUS 12
Freq. 1
RBS 6501
External antenna Indoor/Outdoor Semi integrated omni antennas Integrated patch antenna
Multi sectors
Dualband & CA
Antenna & site solutions
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Zero site small › Height: 4000 mm › Colour: Colour on request › Radio Option: 1-2 Micro Remote Radio, Radio 2203 mounted on sliding rail › Transmission option: Fiber › Power consumption: 50W © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-279
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Zero Site Large › Height: – 8,65 m (Small Randome) – 9,45 m (Large Randome)
› Radio Option: Remote Radio Units 01-02-11-12 or Micro Remote Radio Units – Randome Small: 6 Micro Radio Units with internal antennas or 3 small external antennas – Randome Large: 2 Macro Remote Radio Units with 3 external antennas
› Transmission options: Fiber or Microwave © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-280
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Radio dot system
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RBS 6000 with Radio DOT System › Redefining indoor small cells › Indoor game changer – Addressing majority of buildings – Affordable ultra high capacity
› Innovation enabling future technology in today’s deployment
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Ultra compact with flexible mounting
Ceiling tile
Pipe
Concrete
Rail system
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Easy Install
EASY install
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Radio dot system Radio/ RRU
RBS 6000 with Indoor Radio Unit (IRU) › Aggregation for 8 RD per IRU › Coverage for around 5000 m2 per IRU › Pooled baseband resources, 6 IRU per DU › LTE or WCDMA › 100% network integrated for radio and management
Radio Dot (RD) › Discreet and easy to install › High capacity radio and antenna with MIMO › Power and radio over standard LAN cable › Cable length up to 200 m
RBS 6202 IRU
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Radio Dot System RF
Remotely powered Radio Head (RH) Compact, low-cost and low power
CPRI IQ-Data
IF
Packet
(20-250 MHz)
RBS
Up to 200m / 600 ft
Dot
CAT6-7 twisted pair.
3GPP
DU
IRU
Copper
Fiber
GbE
Band Agnostic Indoor Radio Unit (IRU) Multi-band Active Antenna Elements (RH) Pooled Capacity defined by Digital Baseband Unit (DU) © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-286
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Radio Dot System solution overview Radio Dot (RD or “Dot”) —Indoor optimized ultra compact radio —Discreet and easy to install —Single and dual band versions —Radio and power over LAN cable
Radio Dot Enclosure — Dual enclosure: 2 single / dual dots — Triple enclosure: 3 single / dual dots Micro Radio — Complementing Radio Dot for low capacity coverage areas — External antenna support — Outdoor hardened
Indoor Radio Unit (IRU) — Power and control for Radio Dots — Frequency band independent — FDD/TDD Software defined radio — Remote or co-located with baseband Baseband and RAN Software — RDS + Micro Radio pooled baseband — Backhaul, synchronization and security — WCDMA/LTE SW with feature parity and 3GPP evolution with leading Ericsson Baseband
Enclosures — Remote IRU Enclosure: 1 slot IRU enclosure — RBS 6601: 2 slot enclosure — RBS 6202: 14 slot enclosure
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Ericsson Radio System Overview
Radio Dot System Hardware Baseband
IRU
Chassis
Radio Dots
RBS6601 IRU2242 WCDMA DUW11, DUW31/41
IDU5205 / IDU5209
Dual Dot Enclosure
RD2242 frequency band specific
RD2243 frequency band specific
Baseband 5216/12
LTE DUS31/41
RBS6202
Triple Dot Enclosure
RD4442 Dual Band frequency band specific
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Ericsson Radio System Overview
Indoor Radio Unit, IRU2242 › Connectivity for up to 8 Radio Dots all configured in one radio cell on one frequency band › Typically provides coverage for 5000m2 › Designed for RBS 6000 with single height Digital Unit form factor › Frequency band agnostic › Multi Standard Mixed mode supported › Connectivity to DU: CPRI 2.5 Gbps › Secondary CPRI port for cascading › EC-bus extension for remote management › Power consumption < 175W (includes power feeding to Radio Dots) › Heat dissipation <50W
31 mm 5000 m2
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Indoor Digital unit (IDU) IDU5205 and IDU5209 Background › Existing DU / Basebands have too much capacity for indoor small and medium buildings › Lack of price optimized DU / Baseband for small and medium buildings Description › IDU5205 and IDU5209 are optimized DU for indoor solution, and work only with Radio Dot System – IDU5205 can support up to 24 Dots, 600Mbps throughput, LTE single mode, WCDMA single mode, – IDU5209 can support up to 48 Dots, 1Gbps throughput, LTE single mode, WCDMA single mode, L+W mixed mode simultaneously (17A) – Fixed capacity, no HWACs for capacity › Feature parity with LTE/ WCDMA RAN › Contribute to better TCO of Radio Dot Solution (lower price due to lower capacity, see separate pricing guide for IDU) Benefit › Low entry point of Radio Dot System › Simple solution with predefined configuration for small / medium buildings › More flexibility in DU selection
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Ericsson Radio System Overview
Radio Dots › RD2242
› RD2243
– Single band frequency band specific radio head with two radio branches Tx and Rx –Size and Weight: ~10 cm diameter, 265 g ( 10 oz.) –RF Power 20 dBm, recommended for up to 800 m2 coverage area › 2x2 MIMO, Tx/Rx Diversity: 17+17 dBm Tx › 2x1 MISO using Common Precoder: 1x 20 dBm Tx – 40 MHz Instantaneous Bandwidth (IBW) – Antenna lobe: Omni – Technology: WCDMA and LTE with mixed mode support – Data rates: dependent on carrier configuration up to 400 Mbps DL –Connection to IRU for radio signal, control channel and power over single standard LAN cable (CAT 6a/7) © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-291
– The RD 2243 is a Single Band Radio Dot with the same dimensions as the RD 4442. The RD 2243 has the following features › 256-QAM Downlink and 64-QAM Uplink › LTE FDD - 2 carriers of 5, 10, 15, 20 MHz bandwidths (B1 and B3 versions only) › LTE TDD - 2 carriers of 5, 10, 15, 20 MHz in full band or 5 MHz subbands (B40A version only) › WCDMA - 4 carriers (B1 version only) – Output power: › 2x17 dBm (B1 and B3 versions) › 2x21 dBm (B40A version) – 2x2 MIMO – Total Instantaneous Bandwidth (IBW) of 40 MHz per band
›
RD4442 – Dual band frequency band specific radio head with two radio branches Tx and Rx per band –Size and Weight: ~12 cm diameter, 300 g ( 10 oz.) –RF Power 2x20 dBm, recommended for up to 800 m2 coverage area › 2x 2x2 MIMO, Tx/Rx Diversity: 17+17 dBm Tx › 2x 2x1 MISO using Common Precoder: 1x 20 dBm Tx – 40 MHz Instantaneous Bandwidth (IBW) – Antenna lobe: Omni – Technology: WCDMA and LTE with mixed mode support – Data rates: dependent on carrier configuration up to 2x400 Mbps DL –Connection to IRU for radio signal, control channel and power over single standard LAN cable (CAT 6a/7) (U/FTP or F/FTP)
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Ericsson Radio System Overview
Remote IRU enclosure benefits › The typical deployment room of Indoor Radio Unit is not telecom room, which require unique deployment solution for IRU. › Remote IRU Enclosure simplifies IRU installation by one box solution with integrated AC power supply, fans, alarms. › Remote IRU Enclosure provides flexibility in physical mounting, including rack mount, wall mount single unit, wall mount dual unit. › Remote IRU Enclosure improves the Acoustic noise › Reduced OPEX
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Ericsson Radio System Overview
Remote IRU enclosure Product description
Weight: 3.7 Kg (Single Enclosure) Dimension: 447mm x 354mm 44mm IP class: IP20 AC power Rating : 100-250 VAC, 50/60 Hz , 300 W Acoustic noise level: <50 dB SPL(A) Power consumption: <10W Allowed mounting cases • Rack • Wall mount, single unit • Wall mount, two units Operating Temperatures: -5oC to +55oC
One additional external alarm input RAN support In the package, 3 kinds bracket are included for rack, single wall, dual wall No battery backup included, if needed, external uninterrupted power supply need to add
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Ericsson Radio System Overview
Configuration options Medium to Large Building RBS6202 with Baseband and IRU co-located using a star configuration to radio dots Common configuration for single tenant enterprise buildings
Large to Very Large Building RBS6202 with Baseband and IRU co-located distributed on floor or building segment levels
Subtending nearby RBS Baseband shared with nearby RBS, like e.g. a roof top site on the same building with distributed IRU in RBS6601 (Q2-2015) Enables advanced LTE coordination between outdoor and indoor coverage
Campus or Large Venue Multiple installations cover multiple buildings or a large venue (eg school campus, enterprise campus, stadium) Centralized baseband can be shared by multiple indoor and outdoor facilities, supporting expansions over time
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Ericsson Radio System Overview
Wi-Fi Access Points Radio › Dual radiation: 2.4 GHz and 5 GHz › Standard based beamforming › Multiple Input Multiple Output (MIMO) › Enhanced Auto-Channel
Indoor
Outdoor
Ports: • Gigabit Ethernet (GbE) ports Aerial
Features:
Strand
› Integrated Policy Enforcement Point (PEP) › DHCP or DNS based auto provisioning › Embedded Spectrum Analyser Vault
› Wi-Fi Manager based provisioning › Tunnel support › Backhaul support
Network Management and Reporting
Wi-Fi Business Analyzer
Wi-Fi Manager
OSS-RC
ENIQ
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Ericsson Radio System Overview
Wi-Fi Evolution To Heterogeneous Networks Improve end user experience, network utilization and operator control Device-Driven Offload
3rd Party Model
Target Scenario
Independent Wi-Fi
Operator/Shared Hotspot
Wi-Fi in Heterogeneous Network
Home / Enterprise Wi-Fi
Public Wi-Fi
Public Wi-Fi
• •
End user aware No operator control • OTT services • Free
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•
• End user aware Some operator involvement • Emerging standards for seamless roaming • Charged differently than cellular
• •
Seamless to end user Operator controls access selection, traffic steering and service mapping • Integrated charging
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Ericsson Radio System Overview
Summary of Chapter 7 The participants should now be able to: 7
Expand the products under Small cell portfolio and describe their features and benefits.
7.1 List the characteristics of New Micro RBS, Pico RBS, Radio Dot System (RDS) and their configuration options 7.2 List the characteristics and usage of the various WiFi Access Points (AP) products
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Ericsson Radio System Overview
Intentionally Blank
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Ericsson Radio System Overview
Ericsson Radio System Overview
Green Deployment/Energy solutions
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Objectives of Chapter 8 After this chapter the participants will be able to: 8
List and discuss the available Energy solution options under the Ericsson Radio System portfolio.
8.1 Describe the various energy saving solutions implemented for a site deployment 8.2 Explain how Ericsson radio system products helps in reducing Total Cost of Ownership (TCO) and power consumption for the operator 8.3 Explain, with examples, how one can build energy-optimized networks © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-300
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Ericsson Radio System Overview
Operator Energy Challenges
Energy cost
Government directives
Power disturbances
Brand value
Off-grid sites
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Ericsson Radio System Overview
Efficient Energy Solution Energy efficient Network Design
Network Level Radio Modernisation
energy Saving Features Remote site management
redundant equipment
site Power
Site Level
Alternative energy sources
Site climate
Key Performance Indicator (KPI) set according to the specific need kW/Sub CO2/Traffic CO2/Revenue © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-302
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Ericsson Radio System Overview
Network range › Energy Efficient Network Design – Efficient use of out-put power – Network performance features
› Radio Modernization – RBS modernization
› Energy Saving Features – BTS Power Save, Timeslot P.S, PSU P.S.
› Redundant Equipment – TRX re-allocation, cabinet surplus, legacy equipment still operational
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Ericsson Radio System Overview
Site range › Site Power – – – –
Diesel-battery hybrid Diesel generator re-sizing Durable batteries High efficiency rectifiers
› Site Climate – Enclosure layout, Site Temp., insulation – Free-cooling, Heat exhangers, DC Air-con
› Remote Site Management – Power consumption monitoring – Smart cooling control
› Alternative Energy Sources – Solar, Wind, Fuel Cell
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Ericsson Radio System Overview
RAN Power Saving Solutions What it does
Feature
BCCH POWER SAVINGS
RAN POWER
SAVIN G SOLUTIONS
MCPA TX POWER SAVINGS
Reduces the output power of the BCCH carrier Calls are moved so that it is possible to put an MCPA in low-power state
Typical saving
Per cell
Depends on MCPA
30–50W
25–50W
TIME SLOT POWER SAVINGS
Individual time slots in standby when no traffic
Per TRX
20–30W
BTS POWER SAVINGS
Shuts down TRXs not needed
Per TRX
20–30W
WCDMA RAN POWER SAVE
Soft locks cells during low or no traffic periods
Per cell
12–65W
MICRO SLEEP TX
Enables discontinuous transmission in the downlink
Per cell
50W
MIMO SLEEP MODE
Reconfigure the antenna system based on traffic load
Per cell
70W
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Ericsson Radio System Overview
Ericsson GREEN LTE ‐25%
› HW and SW solutions which decrease RBS energy consumption
› No penalty on network performance
CELL SLEEP MODE MICRO SLEEP TX AIR ANTENNA SOLUTION
‐17%
ENERGY SAVINGS
AREA TRAFFIC DENSITY
› Smart LTE software to decrease radio power when its not needed
ENERGY SAVINGS
‐ 52%
ENERGY SAVINGS
CELL SLEEP MODE MICRO SLEEP TX
MICRO SLEEP TX MIMO SLEEP MODE PSI COVERAGE
DENSE URBAN URBAN
SUBURBAN
RURAL
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Ericsson Radio System Overview
LTE RAN Software Energy savings
MICROMICRO SLEEP SLEEP TX TX
PerRBS cell Per
65W
Per RBS
8% savings
MIMOMIMO SLEEP Reconfigure Reconfigure the antenna the antenna system system SLEEP MODE MODE based on based traffic on loadtraffic load
PerRBS cell Per
80W
Per RBS
10% savings
CELLMIMO SLEEP Automatically Reconfigureswitch the antenna off andsystem wake up SLEEP MODE MODE smallbased cell based on traffic on traffic load load
PerRBS cell Per
90W
Per RBS
10% savings
Enables discontinuous transmission in the downlink
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Ericsson Radio System Overview
Smart scheduling saves energy Low Energy Scheduler Solution
OPERATOR CHALLENGE
-15%
Reduce network OPEX by lowering energy consumption while securing top performance
POWER SAVING POTENTIAL
Conventional Scheduler
NEW UNIQUE SOFTWARE: SCHEDULE LTE TRAFFIC TO SAVE ENERGY › Group downlink LTE traffic in time › Enable power amplifier to go more often in sleep mode › Seen in field: 6 % additional energy saving ›
Low Energy Scheduler Solution
Total saving potential including micro sleep TX: -15%
› Less interference in network ›
Improved App Coverage
Time
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Ericsson Radio System Overview
Innovative solutions
Psi Coverage
Saving 400W
45% power savings
AIR
Saving 140W
15 % power savings
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Ericsson Radio System Overview
LTE deployment scenarios Case /solution assumptions
Traffic/site
25% of Traffic
High Traffic SItes
RBS Load diagram
´- load distribution as % of all RBS’
Medium Traffic Sites 60% of Traffic
Coverage / Low Traffic Sites 15% of Traffic 50%
10% of sites
• Micro Sleep TX • Cells Sleep Mode • MIMO Sleep Mode • Antenna Integrated Radio (2TXx4RX)
• •
•
Micro Sleep TX Cells Sleep Mode MIMO Sleep Mode
100% of sites
•
• •
Micro Sleep TX MIMO Sleep Mode Psi Coverage
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Ericsson Radio System Overview
Energy savings HW+SW
High Traffic Sites Micro Sleep TX • Cells Sleep Mode • Cell sleep Mode • Antenna Integrated Radio
Medium Traffic Sites
•
860W
-25% 647W
• •
•
Micro Sleep TX MIMO sleep Mode Cells Sleep Mode
840W
-17%
Low Traffic Sites •
• •
Micro Sleep TX MIMO Sleep Mode Psi Coverage
840W
-52%
695W 405W
1882 Kwh/Site/year
1270 Kwh/Site/year
3810 Kwh/Site/year
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Ericsson Radio System Overview
Operator Business Case Total Value of Operator Savings (US$) High Traffic Sites › 200 Sites › Savings: – 215 W/site – 1882 kWh/site/year – 376 $/site
› 5 Years Saving: – 0.14 $ /kwh – 1880US$/site
› Network savings – 376kUS$
Medium Traffic Sites 800 Sites Savings: - Saving: 145 W/Site - 1270 kWh/site/year - 253 $/site
Low Traffic Sites 1000 Sites Savings: - Saving: 435 W/site - 3810 kWh/site - 761 $/site
5 Years Saving :
5 Years Saving :
- 0.14 $ /kwh - 1270US$/site
- 0.14 $ /kwh - 4993 US$/site
Network savings
Network savings
1.01 MUS$
3.81 MUS$
5.2 MUSD Energy savings value (5 years) © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-312
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Ericsson Radio System Overview
WCDMA RAN Power Save functionality WCDMA RAN Power Save (RPS) enables reduction of the RBS output power by locking down resources during periods with no or low traffic. The periods for powering down/up the selected 3G cells are fully controlled by mean of scheduling profiles. The resources will automatically unlock and become available if traffic levels rise above configurable thresholds. Soft locking of cells to ensure no impact to ongoing traffic and QoS.
Locking cells (3 Radio Unit) provides power savings of 120-690 W per hour depending upon the RBS type and configuration. © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-313
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RPS – A cost saving solution Why keep maximum network capacity during periods with no or low traffic? It costs a lot of money in terms of RBS power.
Controlled from OSS-RC, RPS can handle thousands of cells in parallel, thus enabling significant OPEX reductions for operators. © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-314
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Ericsson Radio System Overview
Improved DUW11 - with eco-turbo
RAN SW doubles DUW11 capacity
50%
85W
DUW11 with Eco-Turbo has capacity to handle 50% of typical network
Our most energy efficient baseband consuming only 85 Watt
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Ericsson Radio System Overview
Summary of Chapter 8 After this chapter the participants will be able to: 8
List and discuss the available Energy solution options under the Ericsson Radio System portfolio.
8.1 Describe the various energy saving solutions implemented for a site deployment 8.2 Explain how Ericsson radio system products helps in reducing Total Cost of Ownership (TCO) and power consumption for the operator 8.3 Explain, with examples, how one can build energy-optimized networks © Ericsson AB 2018 | LZU1089991 R5A | Figure 1-316
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Ericsson Radio System Overview
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Ericsson Radio System Overview
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Ericsson AB Global Services SE‐164 80 Stockholm Telephone: +46 10 719 0000 www.ericsson.com/ourportfolio/services/learning‐services
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