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882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 121
Technology Briefing11 November 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 221
Global Trends
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 321
In 2009 Analyst Predicted that Mobile Data will OvertakeGrowth of Fixed Broadband by 2010
Source Informa Oct 2009 Choice of either 3GPP-based or IEEE-
based technologies available today to
support increasing mobile data growth while waiting for LTE amp 4G
At the end of Q3 2010 Globersquos Broadband Subscriber breached the 1 Mnmark of these about 70 are wireless-based
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 421
Demand for higher data rates and quality of service
Additional spectrum and greater flexibility infrequency allocations but spectrum is ascare resource
Keeping up with other emerging technologies
Low network complexity
Continued demand for cost reductions(CAPEX amp OPEX)
Growing experience with the take-up of 3G is helping to clarify the likely requirements of users operators and service providers in the longer term
Increasing Mobile Data Usage is Driving the Need for MoreSpectrum Efficient Technologies such as LTE
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 521
With 3GPPrsquos HSPA+ Evolution Globersquos existing 3G Spectrum Can Allow it to scaleup to 21 Mbps and then to 42 Mbps DL (with 3GPP Rel 8)
Source Qualcomm
LTE is a totally different ballgame New Spectrum new architecture and new CPErsquos
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 621
LTE Technology Overview
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 721
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 821
bull LTE or 3G Long Term Evolution is the next
step in the evolution of 3GPP radio interfacesto deliver ldquoGlobal Mobile Broadbandrdquo
ndash standardization based on improved use of the
radio spectrum
ndash Standardization based on simplified systemdesign
What is LTE
copy NEC Corporation2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 921
copy NEC Corporation 2009
LTE Standardization
LTE ndash IP Centric ndash BB Optimized
Standard Performance Targets(Theoretical)
DL UL
LTE Rel 8 100 Mbps 50 Mbps
LTE Adv Rel 10 1 Gbps 500 Mbps
3G ndash Voice centric ndash BB limited
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1021
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1121
LTE Key Technologies
bull Downlink based on Orthogonal Frequency Division Multiple Access or OFDMA
ndash Improved spectral efficiency capacity etc ndash QPSK 16QAM and 64QAM modulation schemes supported
ndash Downlink target (bitssecHzsite) ndash 3 to 4 times than HSDPA
bull Uplink based on Single Carrier ndash Frequency Division Multiple Access or SC-FDMA
ndashSimilar to OFDMA but is better suited for uplink from hand-held devices (battery powerconsiderations)
ndash BPSK QPSK 8PSK and 16QAM modulation schemes supported
ndash Uplink target (bitssecHzsite) ndash 2-3 times than HSUPA
bull Spectrum flexibility
ndash LTE to operate in 14 3 5 10 and 20 MHz bandwidths
bull Significantly reduced latency ndash Radio access network latency less than 5 ms in unloaded conditions for small IP
packet(user plane)
bull All IP-based architecture
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1221
Comparisonbull Comparison between LTE and 3GUMTS
copy NEC Corporation 2009
CN evolution
Tech evolution(Standard)
System BWevolution
Radio evolution
Receiver evolution
HSPA (R6-based)35G
LTESAE39G (or pre-4G)
IMT-Adv40G
5MHz20MHz14 30 50 100 and 20
100MHzSpectrum Aggregation maybesupported
CS and PS
CDMA-basedOFDMA (DL)SC-FDMA (UL)
OFDMA (DLUL)
Packet Core with fixed non-3GPP access
RX Diversity(and LMMSE Equalizer)
TXRX Div 4x4 MIMO(MQRM Equalizer etc)
TXRX Div 8x8 MIMO(4x4 MIMO for UL)
288 115 50 100Spectral Efficiency
2003 2010 2015
Peak ThroughputRequirement
144Mbps 100Mbps1Gbps (DL)500Mbps (UL)
Transport evolution ATM IP All IP Transport
Forward Backward Compatibility
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1321
Part 1 - LTE Overview
LTE standardization
System Architecture based on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1421
copy NEC Corporation 2009
GGSNSGSN
IP
RNC
eNB
NB
MMESP GW
eNB
UTRAN EUTRAN
Core Network
NB
Evolved Packet Core
X2
System Architecture based on 3GPP
bull LTE Simplified Architecture3G LTE
ATM All-IP
LayeredArchitecture
bull PS Domainbull CS Domainbull RAN Domain
FlatArchitecture
bull PS domain
MSC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 221
Global Trends
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 321
In 2009 Analyst Predicted that Mobile Data will OvertakeGrowth of Fixed Broadband by 2010
Source Informa Oct 2009 Choice of either 3GPP-based or IEEE-
based technologies available today to
support increasing mobile data growth while waiting for LTE amp 4G
At the end of Q3 2010 Globersquos Broadband Subscriber breached the 1 Mnmark of these about 70 are wireless-based
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 421
Demand for higher data rates and quality of service
Additional spectrum and greater flexibility infrequency allocations but spectrum is ascare resource
Keeping up with other emerging technologies
Low network complexity
Continued demand for cost reductions(CAPEX amp OPEX)
Growing experience with the take-up of 3G is helping to clarify the likely requirements of users operators and service providers in the longer term
Increasing Mobile Data Usage is Driving the Need for MoreSpectrum Efficient Technologies such as LTE
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 521
With 3GPPrsquos HSPA+ Evolution Globersquos existing 3G Spectrum Can Allow it to scaleup to 21 Mbps and then to 42 Mbps DL (with 3GPP Rel 8)
Source Qualcomm
LTE is a totally different ballgame New Spectrum new architecture and new CPErsquos
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 621
LTE Technology Overview
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 721
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 821
bull LTE or 3G Long Term Evolution is the next
step in the evolution of 3GPP radio interfacesto deliver ldquoGlobal Mobile Broadbandrdquo
ndash standardization based on improved use of the
radio spectrum
ndash Standardization based on simplified systemdesign
What is LTE
copy NEC Corporation2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 921
copy NEC Corporation 2009
LTE Standardization
LTE ndash IP Centric ndash BB Optimized
Standard Performance Targets(Theoretical)
DL UL
LTE Rel 8 100 Mbps 50 Mbps
LTE Adv Rel 10 1 Gbps 500 Mbps
3G ndash Voice centric ndash BB limited
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1021
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1121
LTE Key Technologies
bull Downlink based on Orthogonal Frequency Division Multiple Access or OFDMA
ndash Improved spectral efficiency capacity etc ndash QPSK 16QAM and 64QAM modulation schemes supported
ndash Downlink target (bitssecHzsite) ndash 3 to 4 times than HSDPA
bull Uplink based on Single Carrier ndash Frequency Division Multiple Access or SC-FDMA
ndashSimilar to OFDMA but is better suited for uplink from hand-held devices (battery powerconsiderations)
ndash BPSK QPSK 8PSK and 16QAM modulation schemes supported
ndash Uplink target (bitssecHzsite) ndash 2-3 times than HSUPA
bull Spectrum flexibility
ndash LTE to operate in 14 3 5 10 and 20 MHz bandwidths
bull Significantly reduced latency ndash Radio access network latency less than 5 ms in unloaded conditions for small IP
packet(user plane)
bull All IP-based architecture
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1221
Comparisonbull Comparison between LTE and 3GUMTS
copy NEC Corporation 2009
CN evolution
Tech evolution(Standard)
System BWevolution
Radio evolution
Receiver evolution
HSPA (R6-based)35G
LTESAE39G (or pre-4G)
IMT-Adv40G
5MHz20MHz14 30 50 100 and 20
100MHzSpectrum Aggregation maybesupported
CS and PS
CDMA-basedOFDMA (DL)SC-FDMA (UL)
OFDMA (DLUL)
Packet Core with fixed non-3GPP access
RX Diversity(and LMMSE Equalizer)
TXRX Div 4x4 MIMO(MQRM Equalizer etc)
TXRX Div 8x8 MIMO(4x4 MIMO for UL)
288 115 50 100Spectral Efficiency
2003 2010 2015
Peak ThroughputRequirement
144Mbps 100Mbps1Gbps (DL)500Mbps (UL)
Transport evolution ATM IP All IP Transport
Forward Backward Compatibility
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1321
Part 1 - LTE Overview
LTE standardization
System Architecture based on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1421
copy NEC Corporation 2009
GGSNSGSN
IP
RNC
eNB
NB
MMESP GW
eNB
UTRAN EUTRAN
Core Network
NB
Evolved Packet Core
X2
System Architecture based on 3GPP
bull LTE Simplified Architecture3G LTE
ATM All-IP
LayeredArchitecture
bull PS Domainbull CS Domainbull RAN Domain
FlatArchitecture
bull PS domain
MSC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 321
In 2009 Analyst Predicted that Mobile Data will OvertakeGrowth of Fixed Broadband by 2010
Source Informa Oct 2009 Choice of either 3GPP-based or IEEE-
based technologies available today to
support increasing mobile data growth while waiting for LTE amp 4G
At the end of Q3 2010 Globersquos Broadband Subscriber breached the 1 Mnmark of these about 70 are wireless-based
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 421
Demand for higher data rates and quality of service
Additional spectrum and greater flexibility infrequency allocations but spectrum is ascare resource
Keeping up with other emerging technologies
Low network complexity
Continued demand for cost reductions(CAPEX amp OPEX)
Growing experience with the take-up of 3G is helping to clarify the likely requirements of users operators and service providers in the longer term
Increasing Mobile Data Usage is Driving the Need for MoreSpectrum Efficient Technologies such as LTE
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 521
With 3GPPrsquos HSPA+ Evolution Globersquos existing 3G Spectrum Can Allow it to scaleup to 21 Mbps and then to 42 Mbps DL (with 3GPP Rel 8)
Source Qualcomm
LTE is a totally different ballgame New Spectrum new architecture and new CPErsquos
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 621
LTE Technology Overview
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 721
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 821
bull LTE or 3G Long Term Evolution is the next
step in the evolution of 3GPP radio interfacesto deliver ldquoGlobal Mobile Broadbandrdquo
ndash standardization based on improved use of the
radio spectrum
ndash Standardization based on simplified systemdesign
What is LTE
copy NEC Corporation2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 921
copy NEC Corporation 2009
LTE Standardization
LTE ndash IP Centric ndash BB Optimized
Standard Performance Targets(Theoretical)
DL UL
LTE Rel 8 100 Mbps 50 Mbps
LTE Adv Rel 10 1 Gbps 500 Mbps
3G ndash Voice centric ndash BB limited
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1021
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1121
LTE Key Technologies
bull Downlink based on Orthogonal Frequency Division Multiple Access or OFDMA
ndash Improved spectral efficiency capacity etc ndash QPSK 16QAM and 64QAM modulation schemes supported
ndash Downlink target (bitssecHzsite) ndash 3 to 4 times than HSDPA
bull Uplink based on Single Carrier ndash Frequency Division Multiple Access or SC-FDMA
ndashSimilar to OFDMA but is better suited for uplink from hand-held devices (battery powerconsiderations)
ndash BPSK QPSK 8PSK and 16QAM modulation schemes supported
ndash Uplink target (bitssecHzsite) ndash 2-3 times than HSUPA
bull Spectrum flexibility
ndash LTE to operate in 14 3 5 10 and 20 MHz bandwidths
bull Significantly reduced latency ndash Radio access network latency less than 5 ms in unloaded conditions for small IP
packet(user plane)
bull All IP-based architecture
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1221
Comparisonbull Comparison between LTE and 3GUMTS
copy NEC Corporation 2009
CN evolution
Tech evolution(Standard)
System BWevolution
Radio evolution
Receiver evolution
HSPA (R6-based)35G
LTESAE39G (or pre-4G)
IMT-Adv40G
5MHz20MHz14 30 50 100 and 20
100MHzSpectrum Aggregation maybesupported
CS and PS
CDMA-basedOFDMA (DL)SC-FDMA (UL)
OFDMA (DLUL)
Packet Core with fixed non-3GPP access
RX Diversity(and LMMSE Equalizer)
TXRX Div 4x4 MIMO(MQRM Equalizer etc)
TXRX Div 8x8 MIMO(4x4 MIMO for UL)
288 115 50 100Spectral Efficiency
2003 2010 2015
Peak ThroughputRequirement
144Mbps 100Mbps1Gbps (DL)500Mbps (UL)
Transport evolution ATM IP All IP Transport
Forward Backward Compatibility
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1321
Part 1 - LTE Overview
LTE standardization
System Architecture based on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1421
copy NEC Corporation 2009
GGSNSGSN
IP
RNC
eNB
NB
MMESP GW
eNB
UTRAN EUTRAN
Core Network
NB
Evolved Packet Core
X2
System Architecture based on 3GPP
bull LTE Simplified Architecture3G LTE
ATM All-IP
LayeredArchitecture
bull PS Domainbull CS Domainbull RAN Domain
FlatArchitecture
bull PS domain
MSC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 421
Demand for higher data rates and quality of service
Additional spectrum and greater flexibility infrequency allocations but spectrum is ascare resource
Keeping up with other emerging technologies
Low network complexity
Continued demand for cost reductions(CAPEX amp OPEX)
Growing experience with the take-up of 3G is helping to clarify the likely requirements of users operators and service providers in the longer term
Increasing Mobile Data Usage is Driving the Need for MoreSpectrum Efficient Technologies such as LTE
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 521
With 3GPPrsquos HSPA+ Evolution Globersquos existing 3G Spectrum Can Allow it to scaleup to 21 Mbps and then to 42 Mbps DL (with 3GPP Rel 8)
Source Qualcomm
LTE is a totally different ballgame New Spectrum new architecture and new CPErsquos
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 621
LTE Technology Overview
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 721
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 821
bull LTE or 3G Long Term Evolution is the next
step in the evolution of 3GPP radio interfacesto deliver ldquoGlobal Mobile Broadbandrdquo
ndash standardization based on improved use of the
radio spectrum
ndash Standardization based on simplified systemdesign
What is LTE
copy NEC Corporation2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 921
copy NEC Corporation 2009
LTE Standardization
LTE ndash IP Centric ndash BB Optimized
Standard Performance Targets(Theoretical)
DL UL
LTE Rel 8 100 Mbps 50 Mbps
LTE Adv Rel 10 1 Gbps 500 Mbps
3G ndash Voice centric ndash BB limited
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1021
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1121
LTE Key Technologies
bull Downlink based on Orthogonal Frequency Division Multiple Access or OFDMA
ndash Improved spectral efficiency capacity etc ndash QPSK 16QAM and 64QAM modulation schemes supported
ndash Downlink target (bitssecHzsite) ndash 3 to 4 times than HSDPA
bull Uplink based on Single Carrier ndash Frequency Division Multiple Access or SC-FDMA
ndashSimilar to OFDMA but is better suited for uplink from hand-held devices (battery powerconsiderations)
ndash BPSK QPSK 8PSK and 16QAM modulation schemes supported
ndash Uplink target (bitssecHzsite) ndash 2-3 times than HSUPA
bull Spectrum flexibility
ndash LTE to operate in 14 3 5 10 and 20 MHz bandwidths
bull Significantly reduced latency ndash Radio access network latency less than 5 ms in unloaded conditions for small IP
packet(user plane)
bull All IP-based architecture
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1221
Comparisonbull Comparison between LTE and 3GUMTS
copy NEC Corporation 2009
CN evolution
Tech evolution(Standard)
System BWevolution
Radio evolution
Receiver evolution
HSPA (R6-based)35G
LTESAE39G (or pre-4G)
IMT-Adv40G
5MHz20MHz14 30 50 100 and 20
100MHzSpectrum Aggregation maybesupported
CS and PS
CDMA-basedOFDMA (DL)SC-FDMA (UL)
OFDMA (DLUL)
Packet Core with fixed non-3GPP access
RX Diversity(and LMMSE Equalizer)
TXRX Div 4x4 MIMO(MQRM Equalizer etc)
TXRX Div 8x8 MIMO(4x4 MIMO for UL)
288 115 50 100Spectral Efficiency
2003 2010 2015
Peak ThroughputRequirement
144Mbps 100Mbps1Gbps (DL)500Mbps (UL)
Transport evolution ATM IP All IP Transport
Forward Backward Compatibility
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1321
Part 1 - LTE Overview
LTE standardization
System Architecture based on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1421
copy NEC Corporation 2009
GGSNSGSN
IP
RNC
eNB
NB
MMESP GW
eNB
UTRAN EUTRAN
Core Network
NB
Evolved Packet Core
X2
System Architecture based on 3GPP
bull LTE Simplified Architecture3G LTE
ATM All-IP
LayeredArchitecture
bull PS Domainbull CS Domainbull RAN Domain
FlatArchitecture
bull PS domain
MSC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 521
With 3GPPrsquos HSPA+ Evolution Globersquos existing 3G Spectrum Can Allow it to scaleup to 21 Mbps and then to 42 Mbps DL (with 3GPP Rel 8)
Source Qualcomm
LTE is a totally different ballgame New Spectrum new architecture and new CPErsquos
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 621
LTE Technology Overview
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 721
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 821
bull LTE or 3G Long Term Evolution is the next
step in the evolution of 3GPP radio interfacesto deliver ldquoGlobal Mobile Broadbandrdquo
ndash standardization based on improved use of the
radio spectrum
ndash Standardization based on simplified systemdesign
What is LTE
copy NEC Corporation2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 921
copy NEC Corporation 2009
LTE Standardization
LTE ndash IP Centric ndash BB Optimized
Standard Performance Targets(Theoretical)
DL UL
LTE Rel 8 100 Mbps 50 Mbps
LTE Adv Rel 10 1 Gbps 500 Mbps
3G ndash Voice centric ndash BB limited
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1021
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1121
LTE Key Technologies
bull Downlink based on Orthogonal Frequency Division Multiple Access or OFDMA
ndash Improved spectral efficiency capacity etc ndash QPSK 16QAM and 64QAM modulation schemes supported
ndash Downlink target (bitssecHzsite) ndash 3 to 4 times than HSDPA
bull Uplink based on Single Carrier ndash Frequency Division Multiple Access or SC-FDMA
ndashSimilar to OFDMA but is better suited for uplink from hand-held devices (battery powerconsiderations)
ndash BPSK QPSK 8PSK and 16QAM modulation schemes supported
ndash Uplink target (bitssecHzsite) ndash 2-3 times than HSUPA
bull Spectrum flexibility
ndash LTE to operate in 14 3 5 10 and 20 MHz bandwidths
bull Significantly reduced latency ndash Radio access network latency less than 5 ms in unloaded conditions for small IP
packet(user plane)
bull All IP-based architecture
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1221
Comparisonbull Comparison between LTE and 3GUMTS
copy NEC Corporation 2009
CN evolution
Tech evolution(Standard)
System BWevolution
Radio evolution
Receiver evolution
HSPA (R6-based)35G
LTESAE39G (or pre-4G)
IMT-Adv40G
5MHz20MHz14 30 50 100 and 20
100MHzSpectrum Aggregation maybesupported
CS and PS
CDMA-basedOFDMA (DL)SC-FDMA (UL)
OFDMA (DLUL)
Packet Core with fixed non-3GPP access
RX Diversity(and LMMSE Equalizer)
TXRX Div 4x4 MIMO(MQRM Equalizer etc)
TXRX Div 8x8 MIMO(4x4 MIMO for UL)
288 115 50 100Spectral Efficiency
2003 2010 2015
Peak ThroughputRequirement
144Mbps 100Mbps1Gbps (DL)500Mbps (UL)
Transport evolution ATM IP All IP Transport
Forward Backward Compatibility
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1321
Part 1 - LTE Overview
LTE standardization
System Architecture based on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1421
copy NEC Corporation 2009
GGSNSGSN
IP
RNC
eNB
NB
MMESP GW
eNB
UTRAN EUTRAN
Core Network
NB
Evolved Packet Core
X2
System Architecture based on 3GPP
bull LTE Simplified Architecture3G LTE
ATM All-IP
LayeredArchitecture
bull PS Domainbull CS Domainbull RAN Domain
FlatArchitecture
bull PS domain
MSC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 621
LTE Technology Overview
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 721
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 821
bull LTE or 3G Long Term Evolution is the next
step in the evolution of 3GPP radio interfacesto deliver ldquoGlobal Mobile Broadbandrdquo
ndash standardization based on improved use of the
radio spectrum
ndash Standardization based on simplified systemdesign
What is LTE
copy NEC Corporation2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 921
copy NEC Corporation 2009
LTE Standardization
LTE ndash IP Centric ndash BB Optimized
Standard Performance Targets(Theoretical)
DL UL
LTE Rel 8 100 Mbps 50 Mbps
LTE Adv Rel 10 1 Gbps 500 Mbps
3G ndash Voice centric ndash BB limited
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1021
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1121
LTE Key Technologies
bull Downlink based on Orthogonal Frequency Division Multiple Access or OFDMA
ndash Improved spectral efficiency capacity etc ndash QPSK 16QAM and 64QAM modulation schemes supported
ndash Downlink target (bitssecHzsite) ndash 3 to 4 times than HSDPA
bull Uplink based on Single Carrier ndash Frequency Division Multiple Access or SC-FDMA
ndashSimilar to OFDMA but is better suited for uplink from hand-held devices (battery powerconsiderations)
ndash BPSK QPSK 8PSK and 16QAM modulation schemes supported
ndash Uplink target (bitssecHzsite) ndash 2-3 times than HSUPA
bull Spectrum flexibility
ndash LTE to operate in 14 3 5 10 and 20 MHz bandwidths
bull Significantly reduced latency ndash Radio access network latency less than 5 ms in unloaded conditions for small IP
packet(user plane)
bull All IP-based architecture
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1221
Comparisonbull Comparison between LTE and 3GUMTS
copy NEC Corporation 2009
CN evolution
Tech evolution(Standard)
System BWevolution
Radio evolution
Receiver evolution
HSPA (R6-based)35G
LTESAE39G (or pre-4G)
IMT-Adv40G
5MHz20MHz14 30 50 100 and 20
100MHzSpectrum Aggregation maybesupported
CS and PS
CDMA-basedOFDMA (DL)SC-FDMA (UL)
OFDMA (DLUL)
Packet Core with fixed non-3GPP access
RX Diversity(and LMMSE Equalizer)
TXRX Div 4x4 MIMO(MQRM Equalizer etc)
TXRX Div 8x8 MIMO(4x4 MIMO for UL)
288 115 50 100Spectral Efficiency
2003 2010 2015
Peak ThroughputRequirement
144Mbps 100Mbps1Gbps (DL)500Mbps (UL)
Transport evolution ATM IP All IP Transport
Forward Backward Compatibility
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1321
Part 1 - LTE Overview
LTE standardization
System Architecture based on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1421
copy NEC Corporation 2009
GGSNSGSN
IP
RNC
eNB
NB
MMESP GW
eNB
UTRAN EUTRAN
Core Network
NB
Evolved Packet Core
X2
System Architecture based on 3GPP
bull LTE Simplified Architecture3G LTE
ATM All-IP
LayeredArchitecture
bull PS Domainbull CS Domainbull RAN Domain
FlatArchitecture
bull PS domain
MSC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 721
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 821
bull LTE or 3G Long Term Evolution is the next
step in the evolution of 3GPP radio interfacesto deliver ldquoGlobal Mobile Broadbandrdquo
ndash standardization based on improved use of the
radio spectrum
ndash Standardization based on simplified systemdesign
What is LTE
copy NEC Corporation2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 921
copy NEC Corporation 2009
LTE Standardization
LTE ndash IP Centric ndash BB Optimized
Standard Performance Targets(Theoretical)
DL UL
LTE Rel 8 100 Mbps 50 Mbps
LTE Adv Rel 10 1 Gbps 500 Mbps
3G ndash Voice centric ndash BB limited
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1021
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1121
LTE Key Technologies
bull Downlink based on Orthogonal Frequency Division Multiple Access or OFDMA
ndash Improved spectral efficiency capacity etc ndash QPSK 16QAM and 64QAM modulation schemes supported
ndash Downlink target (bitssecHzsite) ndash 3 to 4 times than HSDPA
bull Uplink based on Single Carrier ndash Frequency Division Multiple Access or SC-FDMA
ndashSimilar to OFDMA but is better suited for uplink from hand-held devices (battery powerconsiderations)
ndash BPSK QPSK 8PSK and 16QAM modulation schemes supported
ndash Uplink target (bitssecHzsite) ndash 2-3 times than HSUPA
bull Spectrum flexibility
ndash LTE to operate in 14 3 5 10 and 20 MHz bandwidths
bull Significantly reduced latency ndash Radio access network latency less than 5 ms in unloaded conditions for small IP
packet(user plane)
bull All IP-based architecture
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1221
Comparisonbull Comparison between LTE and 3GUMTS
copy NEC Corporation 2009
CN evolution
Tech evolution(Standard)
System BWevolution
Radio evolution
Receiver evolution
HSPA (R6-based)35G
LTESAE39G (or pre-4G)
IMT-Adv40G
5MHz20MHz14 30 50 100 and 20
100MHzSpectrum Aggregation maybesupported
CS and PS
CDMA-basedOFDMA (DL)SC-FDMA (UL)
OFDMA (DLUL)
Packet Core with fixed non-3GPP access
RX Diversity(and LMMSE Equalizer)
TXRX Div 4x4 MIMO(MQRM Equalizer etc)
TXRX Div 8x8 MIMO(4x4 MIMO for UL)
288 115 50 100Spectral Efficiency
2003 2010 2015
Peak ThroughputRequirement
144Mbps 100Mbps1Gbps (DL)500Mbps (UL)
Transport evolution ATM IP All IP Transport
Forward Backward Compatibility
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1321
Part 1 - LTE Overview
LTE standardization
System Architecture based on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1421
copy NEC Corporation 2009
GGSNSGSN
IP
RNC
eNB
NB
MMESP GW
eNB
UTRAN EUTRAN
Core Network
NB
Evolved Packet Core
X2
System Architecture based on 3GPP
bull LTE Simplified Architecture3G LTE
ATM All-IP
LayeredArchitecture
bull PS Domainbull CS Domainbull RAN Domain
FlatArchitecture
bull PS domain
MSC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 821
bull LTE or 3G Long Term Evolution is the next
step in the evolution of 3GPP radio interfacesto deliver ldquoGlobal Mobile Broadbandrdquo
ndash standardization based on improved use of the
radio spectrum
ndash Standardization based on simplified systemdesign
What is LTE
copy NEC Corporation2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 921
copy NEC Corporation 2009
LTE Standardization
LTE ndash IP Centric ndash BB Optimized
Standard Performance Targets(Theoretical)
DL UL
LTE Rel 8 100 Mbps 50 Mbps
LTE Adv Rel 10 1 Gbps 500 Mbps
3G ndash Voice centric ndash BB limited
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1021
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1121
LTE Key Technologies
bull Downlink based on Orthogonal Frequency Division Multiple Access or OFDMA
ndash Improved spectral efficiency capacity etc ndash QPSK 16QAM and 64QAM modulation schemes supported
ndash Downlink target (bitssecHzsite) ndash 3 to 4 times than HSDPA
bull Uplink based on Single Carrier ndash Frequency Division Multiple Access or SC-FDMA
ndashSimilar to OFDMA but is better suited for uplink from hand-held devices (battery powerconsiderations)
ndash BPSK QPSK 8PSK and 16QAM modulation schemes supported
ndash Uplink target (bitssecHzsite) ndash 2-3 times than HSUPA
bull Spectrum flexibility
ndash LTE to operate in 14 3 5 10 and 20 MHz bandwidths
bull Significantly reduced latency ndash Radio access network latency less than 5 ms in unloaded conditions for small IP
packet(user plane)
bull All IP-based architecture
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1221
Comparisonbull Comparison between LTE and 3GUMTS
copy NEC Corporation 2009
CN evolution
Tech evolution(Standard)
System BWevolution
Radio evolution
Receiver evolution
HSPA (R6-based)35G
LTESAE39G (or pre-4G)
IMT-Adv40G
5MHz20MHz14 30 50 100 and 20
100MHzSpectrum Aggregation maybesupported
CS and PS
CDMA-basedOFDMA (DL)SC-FDMA (UL)
OFDMA (DLUL)
Packet Core with fixed non-3GPP access
RX Diversity(and LMMSE Equalizer)
TXRX Div 4x4 MIMO(MQRM Equalizer etc)
TXRX Div 8x8 MIMO(4x4 MIMO for UL)
288 115 50 100Spectral Efficiency
2003 2010 2015
Peak ThroughputRequirement
144Mbps 100Mbps1Gbps (DL)500Mbps (UL)
Transport evolution ATM IP All IP Transport
Forward Backward Compatibility
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1321
Part 1 - LTE Overview
LTE standardization
System Architecture based on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1421
copy NEC Corporation 2009
GGSNSGSN
IP
RNC
eNB
NB
MMESP GW
eNB
UTRAN EUTRAN
Core Network
NB
Evolved Packet Core
X2
System Architecture based on 3GPP
bull LTE Simplified Architecture3G LTE
ATM All-IP
LayeredArchitecture
bull PS Domainbull CS Domainbull RAN Domain
FlatArchitecture
bull PS domain
MSC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 921
copy NEC Corporation 2009
LTE Standardization
LTE ndash IP Centric ndash BB Optimized
Standard Performance Targets(Theoretical)
DL UL
LTE Rel 8 100 Mbps 50 Mbps
LTE Adv Rel 10 1 Gbps 500 Mbps
3G ndash Voice centric ndash BB limited
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1021
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1121
LTE Key Technologies
bull Downlink based on Orthogonal Frequency Division Multiple Access or OFDMA
ndash Improved spectral efficiency capacity etc ndash QPSK 16QAM and 64QAM modulation schemes supported
ndash Downlink target (bitssecHzsite) ndash 3 to 4 times than HSDPA
bull Uplink based on Single Carrier ndash Frequency Division Multiple Access or SC-FDMA
ndashSimilar to OFDMA but is better suited for uplink from hand-held devices (battery powerconsiderations)
ndash BPSK QPSK 8PSK and 16QAM modulation schemes supported
ndash Uplink target (bitssecHzsite) ndash 2-3 times than HSUPA
bull Spectrum flexibility
ndash LTE to operate in 14 3 5 10 and 20 MHz bandwidths
bull Significantly reduced latency ndash Radio access network latency less than 5 ms in unloaded conditions for small IP
packet(user plane)
bull All IP-based architecture
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1221
Comparisonbull Comparison between LTE and 3GUMTS
copy NEC Corporation 2009
CN evolution
Tech evolution(Standard)
System BWevolution
Radio evolution
Receiver evolution
HSPA (R6-based)35G
LTESAE39G (or pre-4G)
IMT-Adv40G
5MHz20MHz14 30 50 100 and 20
100MHzSpectrum Aggregation maybesupported
CS and PS
CDMA-basedOFDMA (DL)SC-FDMA (UL)
OFDMA (DLUL)
Packet Core with fixed non-3GPP access
RX Diversity(and LMMSE Equalizer)
TXRX Div 4x4 MIMO(MQRM Equalizer etc)
TXRX Div 8x8 MIMO(4x4 MIMO for UL)
288 115 50 100Spectral Efficiency
2003 2010 2015
Peak ThroughputRequirement
144Mbps 100Mbps1Gbps (DL)500Mbps (UL)
Transport evolution ATM IP All IP Transport
Forward Backward Compatibility
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1321
Part 1 - LTE Overview
LTE standardization
System Architecture based on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1421
copy NEC Corporation 2009
GGSNSGSN
IP
RNC
eNB
NB
MMESP GW
eNB
UTRAN EUTRAN
Core Network
NB
Evolved Packet Core
X2
System Architecture based on 3GPP
bull LTE Simplified Architecture3G LTE
ATM All-IP
LayeredArchitecture
bull PS Domainbull CS Domainbull RAN Domain
FlatArchitecture
bull PS domain
MSC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1021
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1121
LTE Key Technologies
bull Downlink based on Orthogonal Frequency Division Multiple Access or OFDMA
ndash Improved spectral efficiency capacity etc ndash QPSK 16QAM and 64QAM modulation schemes supported
ndash Downlink target (bitssecHzsite) ndash 3 to 4 times than HSDPA
bull Uplink based on Single Carrier ndash Frequency Division Multiple Access or SC-FDMA
ndashSimilar to OFDMA but is better suited for uplink from hand-held devices (battery powerconsiderations)
ndash BPSK QPSK 8PSK and 16QAM modulation schemes supported
ndash Uplink target (bitssecHzsite) ndash 2-3 times than HSUPA
bull Spectrum flexibility
ndash LTE to operate in 14 3 5 10 and 20 MHz bandwidths
bull Significantly reduced latency ndash Radio access network latency less than 5 ms in unloaded conditions for small IP
packet(user plane)
bull All IP-based architecture
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1221
Comparisonbull Comparison between LTE and 3GUMTS
copy NEC Corporation 2009
CN evolution
Tech evolution(Standard)
System BWevolution
Radio evolution
Receiver evolution
HSPA (R6-based)35G
LTESAE39G (or pre-4G)
IMT-Adv40G
5MHz20MHz14 30 50 100 and 20
100MHzSpectrum Aggregation maybesupported
CS and PS
CDMA-basedOFDMA (DL)SC-FDMA (UL)
OFDMA (DLUL)
Packet Core with fixed non-3GPP access
RX Diversity(and LMMSE Equalizer)
TXRX Div 4x4 MIMO(MQRM Equalizer etc)
TXRX Div 8x8 MIMO(4x4 MIMO for UL)
288 115 50 100Spectral Efficiency
2003 2010 2015
Peak ThroughputRequirement
144Mbps 100Mbps1Gbps (DL)500Mbps (UL)
Transport evolution ATM IP All IP Transport
Forward Backward Compatibility
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1321
Part 1 - LTE Overview
LTE standardization
System Architecture based on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1421
copy NEC Corporation 2009
GGSNSGSN
IP
RNC
eNB
NB
MMESP GW
eNB
UTRAN EUTRAN
Core Network
NB
Evolved Packet Core
X2
System Architecture based on 3GPP
bull LTE Simplified Architecture3G LTE
ATM All-IP
LayeredArchitecture
bull PS Domainbull CS Domainbull RAN Domain
FlatArchitecture
bull PS domain
MSC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1121
LTE Key Technologies
bull Downlink based on Orthogonal Frequency Division Multiple Access or OFDMA
ndash Improved spectral efficiency capacity etc ndash QPSK 16QAM and 64QAM modulation schemes supported
ndash Downlink target (bitssecHzsite) ndash 3 to 4 times than HSDPA
bull Uplink based on Single Carrier ndash Frequency Division Multiple Access or SC-FDMA
ndashSimilar to OFDMA but is better suited for uplink from hand-held devices (battery powerconsiderations)
ndash BPSK QPSK 8PSK and 16QAM modulation schemes supported
ndash Uplink target (bitssecHzsite) ndash 2-3 times than HSUPA
bull Spectrum flexibility
ndash LTE to operate in 14 3 5 10 and 20 MHz bandwidths
bull Significantly reduced latency ndash Radio access network latency less than 5 ms in unloaded conditions for small IP
packet(user plane)
bull All IP-based architecture
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1221
Comparisonbull Comparison between LTE and 3GUMTS
copy NEC Corporation 2009
CN evolution
Tech evolution(Standard)
System BWevolution
Radio evolution
Receiver evolution
HSPA (R6-based)35G
LTESAE39G (or pre-4G)
IMT-Adv40G
5MHz20MHz14 30 50 100 and 20
100MHzSpectrum Aggregation maybesupported
CS and PS
CDMA-basedOFDMA (DL)SC-FDMA (UL)
OFDMA (DLUL)
Packet Core with fixed non-3GPP access
RX Diversity(and LMMSE Equalizer)
TXRX Div 4x4 MIMO(MQRM Equalizer etc)
TXRX Div 8x8 MIMO(4x4 MIMO for UL)
288 115 50 100Spectral Efficiency
2003 2010 2015
Peak ThroughputRequirement
144Mbps 100Mbps1Gbps (DL)500Mbps (UL)
Transport evolution ATM IP All IP Transport
Forward Backward Compatibility
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1321
Part 1 - LTE Overview
LTE standardization
System Architecture based on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1421
copy NEC Corporation 2009
GGSNSGSN
IP
RNC
eNB
NB
MMESP GW
eNB
UTRAN EUTRAN
Core Network
NB
Evolved Packet Core
X2
System Architecture based on 3GPP
bull LTE Simplified Architecture3G LTE
ATM All-IP
LayeredArchitecture
bull PS Domainbull CS Domainbull RAN Domain
FlatArchitecture
bull PS domain
MSC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1221
Comparisonbull Comparison between LTE and 3GUMTS
copy NEC Corporation 2009
CN evolution
Tech evolution(Standard)
System BWevolution
Radio evolution
Receiver evolution
HSPA (R6-based)35G
LTESAE39G (or pre-4G)
IMT-Adv40G
5MHz20MHz14 30 50 100 and 20
100MHzSpectrum Aggregation maybesupported
CS and PS
CDMA-basedOFDMA (DL)SC-FDMA (UL)
OFDMA (DLUL)
Packet Core with fixed non-3GPP access
RX Diversity(and LMMSE Equalizer)
TXRX Div 4x4 MIMO(MQRM Equalizer etc)
TXRX Div 8x8 MIMO(4x4 MIMO for UL)
288 115 50 100Spectral Efficiency
2003 2010 2015
Peak ThroughputRequirement
144Mbps 100Mbps1Gbps (DL)500Mbps (UL)
Transport evolution ATM IP All IP Transport
Forward Backward Compatibility
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1321
Part 1 - LTE Overview
LTE standardization
System Architecture based on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1421
copy NEC Corporation 2009
GGSNSGSN
IP
RNC
eNB
NB
MMESP GW
eNB
UTRAN EUTRAN
Core Network
NB
Evolved Packet Core
X2
System Architecture based on 3GPP
bull LTE Simplified Architecture3G LTE
ATM All-IP
LayeredArchitecture
bull PS Domainbull CS Domainbull RAN Domain
FlatArchitecture
bull PS domain
MSC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1321
Part 1 - LTE Overview
LTE standardization
System Architecture based on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1421
copy NEC Corporation 2009
GGSNSGSN
IP
RNC
eNB
NB
MMESP GW
eNB
UTRAN EUTRAN
Core Network
NB
Evolved Packet Core
X2
System Architecture based on 3GPP
bull LTE Simplified Architecture3G LTE
ATM All-IP
LayeredArchitecture
bull PS Domainbull CS Domainbull RAN Domain
FlatArchitecture
bull PS domain
MSC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1421
copy NEC Corporation 2009
GGSNSGSN
IP
RNC
eNB
NB
MMESP GW
eNB
UTRAN EUTRAN
Core Network
NB
Evolved Packet Core
X2
System Architecture based on 3GPP
bull LTE Simplified Architecture3G LTE
ATM All-IP
LayeredArchitecture
bull PS Domainbull CS Domainbull RAN Domain
FlatArchitecture
bull PS domain
MSC
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1521
Part 1 - LTE Overview
LTE standardization
System Architecture base on 3GPP
LTE key technology
LTE Applications
copy NEC Corporation 2009
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1621
-Pay TV (HDTV)-DVD Quality Video Streaming-Game Contents (MMPORG)
-Friends VideoChat
Broadband and Communication
= Triple Play =Broadband and Communication
= Mobile Use =Finance and Communication
= e-wallet =
-TV-Data-Telephone
New Business Opportunities
-Tickets-Shops-Finance-Vending machine-E-moneycredit card function
TVGame
Data
Data
Service Application
Broadcasting Communication Finance Content Commerce
-Home Security-Internet shopping via Video Commercial-Interactive Video School
LTE Applications
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1721
Part 2 - Global Status
Spectrum
Deployment Status
copy NEC Corporation
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1821
LTE Spectrum - FDD
Operating
Band
Frequency
Band
Common
Name
UL Frequencies UE
transmit (MHz)
DL Frequencies UE
receive (MHz)
I 2100 IMT 1920 - 1980 2110 - 2170
II 1900 PCS 1850 - 1910 1930 - 1990
III 1800 DCS 1710 - 1785 1805 - 1880
IV 1700 AWS 1710 - 1755 2110 - 2155
V 850 CLR 824 - 849 869 - 894
VI 800 830 - 840 875 - 885
VII 2600 IMT-E 2500 - 2570 2620 - 2690
VIII 900 GSM 880 - 915 925 - 960
IX 1800 17499 - 17849 18449 - 18799
X 1700 1710 - 1770 2110 - 2170
XI 1500 14279 - 14529 14759 - 15009
XII 700 SMH 698 - 716 728 - 746
XIII 700 SMH 777 - 787 746 - 756
XIV 700 SMH 788 - 798 758 - 768
FDD Spectrum
Of these Candidate bands the 2100
MHz 2600 MHz and Band XIII of the 700
MHz band are mainstream LTE FDD
bands where pilot launches are targeted
in 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 1921
LTE Spectrum - TDD
Operating Band Frequency Band Common Name Frequency Blocks
33
34 2100 MHz IMT-2000bull 1900
ndash1920 MHz
bull 2010 ndash 2025 MHz
35
361900 MHz TDD 1900
bull 1850 ndash 1910 MHz
bull 1930 ndash 1990 MHz
37 1900 MHz PCS 1900 Center Gap bull 1910 ndash 1920 MHz
38 2500 MHz2600 MHz IMT Extension Band bull 2570 ndash 2620 MHz
39 1800 MHz1900 MHz China TDD bull 1880 ndash 1920 MHz
40 2300 MHz bull 2300 ndash 2400 MHz
3500 MHz Future bands underconsideration including
for IMT-Advanced
bull 3400 ndash 3600 MHz
3700 MHz bull 3600 ndash 3800 MHz
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2121
End of Presentation
Globe Technology Scan
31 May 2010
882019 Technology Briefing 3G Long Term Evolution
httpslidepdfcomreaderfulltechnology-briefing-3g-long-term-evolution 2021
copy NEC Corporation Page 20
EU ndash 50 (6 commercial) Asia - 27 Americas ndash 26 (1 commercial) MEA - 10
882019 Technology Briefing 3G Long Term Evolution
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End of Presentation
Globe Technology Scan
31 May 2010