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HSPA+ & LTE Executive BriefingDallas TX - January 27 2009Dallas, TX January 27, 2009
HSPA, HSPA+ and LTE: Understanding the EconomicsUnderstanding the Economics
of the 3GPP Technologies Ecosystem Ali Shah
Solutions ManagerStrategy & Technical SolutionsStrategy & Technical Solutions
Ericsson North America
Disclaimer statement
• This presentation may contain forward looking statementsstatements.
• Such statements are based on our current expectations and are subject to certain risks andexpectations and are subject to certain risks and uncertainties that could negatively affect our business.
• Please read our earnings reports and our most recent annual report for a better understanding of p gthese risks and uncertainties
HSPA+ and LTEHSPA+ and LTE
Timelines
Network Evolution
Common LTE EvolutionAlignment for WCDMA/HSPA, TD-SCDMA (China) and CDMA g , ( )
3GPP T k
GSM WCDMA HSPA
3GPP Track
GSM WCDMAGSM HSPAWCDMAGSM HSPAWCDMAGSM
TD-SCDMA LTEFDD and TDD3GPP2 Track
IS 95 CDMA2000 EV/DO
TD-SCDMA
CDMA2000 EV/DOIS 95 CDMA2000 EV/DOIS 95 CDMA2000 EV/DOIS 95 CDMA2000 EV/DOIS 95 CDMA2000 EV/DO
TD-SCDMA
IS 95 CDMA2000 EV/DOIS-95 CDMA2000 EV/DOCDMA2000 EV/DOIS-95 CDMA2000 EV/DOIS-95 CDMA2000 EV/DOIS-95 CDMA2000 EV/DOIS-95 CDMA2000 EV/DOIS-95 CDMA2000 EV/DO
2001 2005 2008 2010
LTE the Global standard for Next Generation
Current 3GPP bands – early LTE
TDDBand “Identifier” Frequencies (MHz)
FDDBand “Identifier” Frequencies (MHz) Band “Identifier” Frequencies (MHz)
33,34 TDD 2000 1900-19202010-2025
35,36 TDD 1900 1850-19101930-1990
Band Identifier” Frequencies (MHz)
1 IMT Core Band 1920-1980/2110-2170
2 PCS 1900 1850-1910/1930-1990
3 GSM 1800 1710-1785/1805-18801930-1990
37 PCS Center Gap (1915) 1910-1930
38 IMT Extension Center Gap
2570-2620
39 Chi TDD 1880 1920
4 AWS (US & other) 1710-1755/2110-2155
5 850 824-849/869-894
6 850 (Japan) 830-840/875-885
7 IMT Extension 2500-2570/2620-2690 39 China TDD 1880-1920
40 2.3 TDD 2300-2400
Additional (FDD&TDD)
7 IMT Extension 2500 2570/2620 2690
8 GSM 900 880-915/925-960
9 1700 (Japan) 1750-1785/1845-1880
10 3G Americas 1710-1770/2110-2170
3.5 GHz 3400-3600
3.7 GHz 3600-3800
11 UMTS1500 1428-1453/1476-1501
12,13,14,17
US 700 698-716/728-746776-788/746-758788-798/758-768704-716/734-746704-716/734-746
Wide range of bands enables global support
Spectrum FlexibilityLTE provides spectrum flexibility for operation in differently-sized spectrumdifferently-sized spectrum
10 MHz 15 MHz 20 MHz3 MHz 5 MHz1.4 MHz
LTE supports paired and unpaired spectrum on the pp p p psame HW platform
fDL
FDDfDL/UL
TDDfDL
fUL
fDL/UL
Highest data rates for givenbandwidth and peak power
Unpaired spectrum
Maximum commonality between FDD and TDD
Peak Data RatesHSPA and LTE on 5+5 MHz FDD
HSPA Evolution provides similar performance as LTE in 5MHz
Peak Data Rates LTE Standard CapabilitiesLTE Standard Capabilities
> 5 MHz trunking gain gives improved LTE performance
HSPA+ and LTE
TimelinesTimelines
Network Evolution
HSPA+ 21 MbpsDownlink
3.6 Mbps
14 Mbps
15 codes
21 Mbps 28 Mbps
2x2 MIMO64QAM
42 Mbps
Both
Multi Carrier
80 160 Mbps
Multi Carrier4x4 MIMOHigher ModulationCombinations
80-160 Mbps
LSTI (LTE/SAE Trial Initiative) Schedule
2006 2007 2008 2009 20102006 2007 2008 2009 2010
Air-interface principles
Test of basic functions
Proof of ConceptSIMO MIMO
RRC Mobility
Interoperability
IODT
IOT
Test of basic functions
Friendly customer trials
PR
IOT
Trials Trial Start
PR
Public Relation work
LTE DL Throughput – Drive data20MHz, 2x2 MIMO
L1 ThroughputMax: 154 MbpsMean: 78 MbpsMin: 16 MbpsUE SpeedMax: 45 km/hMean: 16 km/hMin: 0 km/hSub-urban area with Line-of-sight: less than 40% of the samplesHeights of surrounding buildings: 15-25 m
Base station located at x.
LTE user rates up to 100 Mbps in the field are reasonable
Device Roadmap
Com
mitt
ed
Can
dida
teM
U
E
Modem only Platform
UMTS Platform
EDGE Platform
LTE M700 1.0 ThoriumM700 1.0
HSPA evoM570 1.0
U570 1.0
U510 1.0
Oxygen
HSPA M365 1.0 U365 2.0
U335 1.0
U500 1.0
U380 1.0
U370 1.0
Hydrogen
U500 2.0 Scandium
HSDPA U330 1.0
WCDMA U320 1.0
EDGE E310 2.0 E330 1.0 HydroEdge
HSPA+ and LTE
Timelines
Network EvolutionNetwork Evolution
Introducing multi-standard RBS GSM/HSPA/LTE
Multi-standard RBS – Key to successful evolution
The RBS 6000 modularity on right levelmodularity on right level
RBS 2000
RBS 3000
RBS 6000
Multi Standard Radio (RUS)• Any technology
Baseband units (Digital Unit)• DUG -> GSM• DUW -> WCDMAAny technology
– GSM– WCDMA
LTE
DUW > WCDMA• DUL -> LTE
– LTE
All IP RAN transport
µwave
Metro E h
Copper
eNodeB EthernetFibre
High RANOptical Metro
Low RANEthernet transport in
RBS sitesNative IP
RNC/GWNative IP
Ethernetµwave, copper and fiber
IP RAN over Ethernet
IP RAN over Ethernet
Cost efficient backhaul transport via microwave, fiber and DSL
Evolved Packet CoreSmooth multi-access evolutionSmooth multi access evolution
• GGSN to access-GGSN to accessgeneric “Gateway”
• SGSN to “Mobility server”Charging,
Policy Control,IMS
IP networks
y• CDMA integration
BSCSGSN/ MME Server
SAEGateway
Mobile IP
RNC
PDSN/HSGWPDSN/HSGW
GSM, HSPATD-SCDMA
LTE CDMA
Reduced total cost of ownership
Flat architecture“Wider pipe” advantage
Self configuration/self-optimization
Summary
HSPA+ next step for HSPA operators
LTE, seamless interaction with HSPA, GSM, CDMA, TD-SCDMA
Timelines for IOT/IODT and Deploymentp y
LTE superior user and operator benefits– Everywhere access
Industry leading performance– Industry leading performance– TCO and Spectrum flexibility
Strong commitment f th i d t t d dfrom the industry – standardand early products
HSPA+ & LTE Executive Briefing
Thank you!
Ali Shah Ph DAli Shah, Ph.D.Solutions Manager
Strategy and Technical SolutionsStrategy and Technical SolutionsEricsson North America
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