Post on 14-Jul-2016
description
OFDMA in downlink
SC-FDMA in uplink
LTE MIMO characteristicsNumber of eNB transmit antennas 1, 2 or 4
Number of UE receive antennas 2 or 4
DL transmit diversity space frequency block coding (SFBC)
DL spatial multiplexing codebook-based precoding, maximum of 2 parallel code words
DL cyclic delay diversity antenna-specifi c cyclic shifts
UL MIMO mode multi-user/collaborative MIMO, transmit antenna selection
3GPP LTE Release 9Feature Objective
Multimedia broadcast multicast services (MBMS) support for effi cient point-to-multipoint transmission
LTE positioning support for network-assisted global navigation satellite system (GNSS), observed time difference of arrival (OTDOA), and enhanced cell ID positioning
LTE dual layer beamforming MIMO spatial multiplexing support in case of beamforming
Multicarrier/multi-RAT base stations RF requirements for base stations supporting multiple carriers and/or multiple radio access technologies (RAT)
Public warning system (PWS) broadcast reception mechanism and associated paging to accommodate reception of alert messages(extension of the earthquake and tsunami warning system (ETWS) in LTE Release 8)
Home eNB/femtocell RF requirements tailored to different base station classes (wide area, local area and specifi cally home base stations)
Self-organizing networks (SON) additional support for mobility robustness optimization, mobility load balancing optimization and RACH optimization use cases
Key parametersFrequency range(E-UTRA bands)
1) Band 6 is not applicable.2) Europe only (ETSI EN 301 908-2).
FDD (in MHz):1) UL: 1920 to 1980 DL: 2110 to 21702) UL: 1850 to 1910 DL: 1930 to 19903) UL: 1710 to 1785 DL: 1805 to 18804) UL: 1710 to 1755 DL: 2110 to 21555) UL: 824 to 849 DL: 869 to 8946) UL: 830 to 840 DL: 875 to 885 1)
7) UL: 2500 to 2570 DL: 2620 to 26908) UL: 880 to 915 DL: 925 to 9609) UL: 1749.9 to 1784.9 DL: 1844.9 to 1879.910) UL: 1710 to 1770 DL: 2110 to 217011) UL: 1427.9 to 1447.9 DL: 1475.9 to 1495.912) UL: 699 to 716 DL: 729 to 74613) UL: 777 to 787 DL: 746 to 75614) UL: 788 to 798 DL: 758 to 76815) UL: 1900 to 1920 DL: 2600 to 2620 2)
16) UL: 2010 to 2025 DL: 2585 to 2600 2)
17) UL: 704 to 716 DL: 734 to 74618) UL: 815 to 830 DL: 860 to 87519) UL: 830 to 845 DL: 875 to 89020) UL: 832 to 862 DL: 791 to 82121) UL: 1447.9 to 1462.9 DL: 1495.9 to 1510.922) UL: 3410 to 3490 DL: 3510 to 3590 23) UL: 2000 to 2020 DL: 2180 to 220024) UL: 1626.5 to 1660.5 DL: 1525 to 155925) UL: 1850 to 1915 DL: 1930 to 199526) UL: 814 to 849 DL: 859 to 89427) UL: 807 to 824 DL: 852 to 86928) UL: 703 to 748 DL: 758 to 80329) UL: – DL: 717 to 72830) UL: 2305 to 2315 DL: 2350 to 236031) UL: 452.5 to 457.5 DL: 462.5 to 467.532) UL: – DL: 1452 to 1496
TDD (in MHz):33) 1900 to 192034) 2010 to 202535) 1850 to 191036) 1930 to 199037) 1910 to 193038) 2570 to 262039) 1880 to 192040) 2300 to 240041) 2496 to 269042) 3400 to 360043) 3600 to 380044) 703 to 803
Channel bandwidth 1.4 MHz 3 MHz 5 MHz 10 MHz 15 MHz 20 MHz
Resource blocks (RB) (1 RB = 180 kHz)
6 15 25 50 75 100
Modulation schemes DL: QPSK, 16QAM, 64QAMUL: QPSK, 16QAM, 64QAM (optional for UE)
Multiple access DL: OFDMAUL: SC-FDMA
Peak data rate DL: 150 Mbit/s (UE category 4, 2x2 MIMO, 20 MHz), 300 Mbit/s (UE category 5, 4x4 MIMO, 20 MHz)UL: 75 Mbit/s (UE category 5, 20 MHz)
Data source QAMmodulator
Mapping tosubcarriers
N-point IFFT Addition ofcyclic prefix
1 resource block = 180 kHz = 12 subcarriers with spacing of 15 kHz
Frequency
1 slot = 7 OFDMA symbols1) = 0.5 ms
1 subframe = 2 slots = 1 ms = 1 transmission time interval
1 radio frame = 10 subframes = 10 ms
OFDM
A sy
mbo
ls
Subcarriers
Time
UE1 UE2 UE3
UE4 UE5 UE6
1) For normal cyclic prefix duration.
Example structure, 1 antenna signal (of a 2×2 MIMO setup) shown
Not used for transmission at this antenna point Reference symbol
PCFICH PDCCH PHICH
Data source QAMmodulator
M-point DFT Mapping tosubcarriers
N-point IFFT Addition ofcyclic prefix
1 resource block = 180 kHz = 12 subcarriers with spacing of 15 kHz
Frequency
1 slot = 7 SC-FDMA symbols1) = 0.5 ms
1 subframe = 2 slots = 1 ms = 1 transmission time interval
1 radio frame = 10 subframes = 10 ms
SC-F
DMA
sym
bols
Subcarriers
Time
UE1 UE2
UE3 UE4
1) For normal cyclic prefix duration.
Example structure, no frequency hopping
PUSCH for UE1 Demodulation reference signal for PUSCH
PUCCH (used by UEs not scheduled in this subframe)
Demodulation reference signal for PUCCH
X2
X2X2
S1S1S1S1
eNB
eNBeNB
E-UTRAN
Radio admission control
Radio bearer control
Connection mobility control
eNB measurementconfiguration & provision
Dynamic resource allocation (scheduler)
PHY
RLC
PDCP
RRC
MAC
Inter-cell RRM Mobility anchoring
Idle state mobility handling
EPS bearer control
NAS security
Packet filtering
UE IP addressallocation
S-GWMME P-GWeNB
Internet
MME/S-GW MME/S-GW
Long Term Evolution (LTE)Technology OverviewLong Term Evolution (LTE) will ensure the competitiveness
of UMTS for the next ten years and beyond by providing a
high-data rate, low-latency and packet-optimized system.
Also known as E-UTRA (Evolved Universal Terrestrial Radio
Access), LTE is part of 3GPP Release 8 specifications. The
innovations that LTE brings to the UMTS world include:
❙ New multiple access schemes for both LTE FDD and TD-LTE
❙ Scalable bandwidth up to 20 MHz
❙ MIMO antenna technology
❙ New data and control channels
❙ New network and protocol architecture
❙ Specific test and measurement challenges
Commercial LTE networks have been launched world-
wide, starting with the first network in Sweden in Decem-
ber 2009. 3GPP Release 9 features added further enhance-
ments to LTE. The 3GPP candidate technology submission for
IMT-Advanced, developed as LTE Release 10 and beyond, has
been accepted as a 4G technology. Known as LTE-Advanced,
it complies with or exceeds the ITU established criteria in all
aspects.
Rohde & Schwarz is the right partner for making your
LTE products happen. Our test solutions were the first
on the market and since then have evolved to a full
product portfolio from a single-source supplier, covering
applications from R & D to conformance.
MIMO antenna technology
Multiple access schemes and physical layer signal generation
LTE enhancements
Network and protocol architecture
Rohde & Schwarz LTE test solutions
www.rohde-schwarz.com/technology/LTE
Glossary: 3GPP = 3rd Generation Partnership Project, 4G = 4th Generation Mobile Communications Technology, ARQ = Automatic Repeat Request, DFT = Discrete Fourier Transformation, DL = Downlink, eNB = evolved NodeB, EPS = Evolved Packet System, E-UTRA = Evolved Universal Terrestrial Radio Access, FDD = Frequency Division Duplex, HARQ = Hybrid ARQ, IFFT = Inverse Fast Fourier Transform, IMT = International Mobile Telecommunications, IOT = Interoperability Testing, IP = Internet Protocol, ITU = International Telecommunication Union, MAC = Medium Access Control, MBMS = Multimedia Broadcast Multicast Service, MIMO = Multiple Input Multiple Output, MME = Mobility Management Entity, NAS = Non Access Stratum, OFDMA = Orthogonal Frequency Division Multiple Access, P-GW = Packet Data Network Gateway, PBCH = Physical Broadcast Channel, PCFICH = Physical Control Format Indicator Channel, PDCCH = Physical Downlink Control Channel, PDCP = Packet Data Convergence Protocol, PDSCH = Physical Downlink Shared Channel, PHICH = Physical HARQ Indicator Channel, PHY = Physical Layer, PMCH = Physical Multicast Channel, PRACH = Physical RACH, PUCCH = Physical Uplink Control Channel, PUSCH = Physical Uplink Shared Channel, QAM = Quadrature Amplitude Modulation, QPSK = Quadrature Phase Shift Keying, RACH = Random Access Channel, RAT = Radio Access Technology, RF = Radio Frequency, RLC = Radio Link Control, RRC = Radio Resource Control, RRM = Radio Resource Management, S-GW = Serving Gateway, SC-FDMA = Single Carrier Frequency Division Multiple Access, TD-LTE = Time Division – Long Term Evolution, TDD = Time Division Duplex, UE = User Equipment, UL = Uplink, UMTS = Universal Mobile Telecommunications System.
LTE downlink
Physical channels
Physical downlink shared channel (PDSCH)
carries user data
Physical multicast channel (PMCH)
carries MBMS user data
Physical downlink control channel (PDCCH)
carries control information (DCI = downlink controlinformation)
Physical control formatindicator channel (PCFICH)
indicates format of PDCCH (CFI = control format indicator)
Physical hybrid ARQ indicator channel (PHICH)
carries ACK/NACKs (HI = HARQ indicator) for uplink data packets
Physical broadcast channel (PBCH)
provides information during cell search, e.g. on system bandwidth
Physical signals
Primary and secondarysynchronization signals
provide acquisition of cell timing and identity during cell search
Reference signal enables channel estimation
LTE uplinkPhysical channels
Physical uplink shared channel (PUSCH)
carries user data
Physical uplink control channel (PUCCH)
carries control information (UCI = uplink control information)
Physical random access channel (PRACH)
preamble transmission for initial access
Physical signals
Demodulation reference signal
enables channel estimation
Sounding reference signal enables channel quality evaluation
RF development and production testing Protocol stack testing and IOT
RF conformance and network operator acceptance testing
Mobile network testing
Power meters
Oscilloscopes
Wideband radio communication tester
Signal and spectrum analyzers
Benchmarking, optimization, drive tests
Installation and maintenance
R&S®CMW500 protocol tester
R&S®TS-LBS location based services test system
R&S®FSH/ZVHHandheld spectrum/cable andantenna analyzer
R&S®TSME with R&S®ROMES
QualiPoc Android
Diversity Benchmarker II
Diversity Ranger
R&S®SMW200A R&S®SMBV100A
R&S®FSVR&S®FSW
R&S®RTO/RTE/RTM
R&S®CMW500
R&S®NRP
R&S®FPS
R&S®SGT100A
R&S®TS8980 RF and RRM test system
Signal generators, and fading simulator Application layer testing with IP analysis from ipoque
LTE_po_en.indd 1 03.02.2015 11:13:47
Test & Measurement
Poster | 05.01
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istered trademark of R
ohde & S
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ersion 05.01 | February 2015 (as)
Long Term
Evolution (LTE
) D
ata without tolerance lim
its is not binding | S
ubject to change
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ohde & S
chwarz G
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ou
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warz
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arz electronics group is a leading
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5214144382
OFD
MA
in
dow
nlin
k
SC
-FD
MA
in
up
link
LTE M
IMO
ch
arac
teri
stic
sN
umbe
r of
eN
B t
rans
mit
ante
nnas
1, 2
or
4
Num
ber
of U
E r
ecei
ve a
nten
nas
2 or
4
DL
tran
smit
dive
rsity
spac
e fr
eque
ncy
bloc
k co
ding
(SFB
C)
DL
spat
ial m
ultip
lexi
ngco
debo
ok-b
ased
pre
codi
ng, m
axim
um o
f 2
para
llel c
ode
wor
ds
DL
cycl
ic d
elay
div
ersi
tyan
tenn
a-sp
ecifi
c cy
clic
shi
fts
UL
MIM
O m
ode
mul
ti-us
er/c
olla
bora
tive
MIM
O,
tran
smit
ante
nna
sele
ctio
n
3G
PP
LTE R
elea
se 9
Feat
ure
Ob
ject
ive
Mul
timed
ia b
road
cast
mul
ticas
t ser
vice
s (M
BM
S)
supp
ort
for
effi c
ient
poi
nt-t
o-m
ultip
oint
tra
nsm
issi
on
LTE
pos
ition
ing
supp
ort
for
netw
ork-
assi
sted
glo
bal n
avig
atio
n sa
telli
te s
yste
m (G
NS
S),
obse
rved
tim
e di
ffer
ence
of
arriv
al (O
TDO
A),
and
enha
nced
cel
l ID
pos
ition
ing
LTE
dua
l lay
er b
eam
form
ing
MIM
O s
patia
l mul
tiple
sup
port
in c
ase
of b
eam
form
ing
Mul
ticar
rier/
mul
ti-R
AT
base
sta
tions
RF
requ
irem
ents
for
bas
e st
atio
ns s
uppo
rtin
g m
ultip
le c
arrie
rs a
nd/o
r m
ultip
le r
adio
acc
ess
tech
nolo
gie
s (R
AT)
Pub
lic w
arni
ng s
yste
m (P
WS
)br
oadc
ast
rece
ptio
n m
echa
nism
and
ass
ocia
ted
pag
ing
to
acco
mm
odat
e re
cept
ion
of a
lert
mes
sag
es(e
xten
sion
of
the
eart
hqua
ke a
nd t
suna
mi w
arni
ng s
yste
m (E
TWS
) in
LTE
Rel
ease
8)
Hom
e eN
B/f
emto
cell
RF
requ
irem
ents
tai
lore
d to
diff
eren
t ba
se s
tatio
n cl
asse
s (w
ide
area
, loc
al a
rea
and
spec
ifi ca
lly h
ome
base
sta
tions
)
Sel
f-or
gan
izin
g n
etw
orks
(SO
N)
addi
tiona
l sup
port
for
mob
ility
rob
ustn
ess
optim
izat
ion,
mob
ility
load
bal
anci
ng o
ptim
izat
ion
and
RA
CH
opt
imiz
atio
n us
e ca
ses
Key
par
amet
ers
Freq
uenc
y ra
nge
(E-U
TRA
band
s)
1) Ba
nd 6
is n
ot a
pplic
able
.2)
Euro
pe o
nly
(ETS
I EN
301
908
-2).
FDD
(in M
Hz):
1)
UL:
1920
to
19
80
DL:
2110
to
21
702)
UL
: 18
50
to
1910
DL
: 19
30
to
1990
3)
UL:
1710
to
17
85
DL:
1805
to
18
804)
UL
: 17
10
to
1755
DL
: 21
10
to
2155
5)
UL:
824
to
849
DL:
869
to
894
6)
UL:
830
to
840
DL:
875
to
885
1)
7)
UL:
2500
to
25
70
DL:
2620
to
26
908)
UL
: 88
0 to
91
5 DL
: 92
5 to
96
09)
UL
: 17
49.9
to
17
84.9
DL
: 18
44.9
to
1879
.910
) UL
: 17
10
to
1770
DL
: 21
10
to
2170
11)
UL:
1427
.9
to
1447
.9
DL:
1475
.9 t
o 14
95.9
12)
UL:
699
to
716
DL:
729
to
746
13)
UL:
777
to
787
DL:
746
to
756
14)
UL:
788
to
798
DL:
758
to
768
15)
UL:
1900
to
19
20
DL:
2600
to
26
20 2)
16)
UL:
2010
to
20
25
DL:
2585
to
26
00 2)
17)
UL:
704
to
716
DL:
734
to
746
18)
UL:
815
to
830
DL:
860
to
875
19)
UL:
830
to
845
DL:
875
to
890
20)
UL:
832
to
862
DL:
791
to
821
21)
UL:
1447
.9
to
1462
.9
DL:
1495
.9 t
o 15
10.9
22)
UL:
3410
to
34
90
DL:
3510
to
35
90
23)
UL:
2000
to
20
20
DL:
2180
to
22
0024
) UL
: 16
26.5
to
16
60.5
DL
: 15
25
to
1559
25)
UL:
1850
to
19
15
DL:
1930
to
19
9526
) UL
: 81
4
to
849
DL
: 85
9
to
894
27)
UL:
807
to
82
4 DL
: 85
2
to
869
28)
UL:
703
to
74
8
DL:
758
to
80
329
) UL
: –
DL:
717
to
72
830
) UL
: 23
05
to
2315
DL
: 23
50
to
2360
31)
UL:
452.
5 t
o
457.
5
DL:
462.
5
to
467.
532
) UL
: –
DL:
1452
to
14
96
TDD
(in M
Hz):
33) 1
900
to
1920
34) 2
010
to
2025
35) 1
850
to
1910
36) 1
930
to
1990
37) 1
910
to
1930
38) 2
570
to
2620
39) 1
880
to
1920
40) 2
300
to
2400
41) 2
496
to
2690
42) 3
400
to
3600
43) 3
600
to
3800
44)
703
to
80
3
Chan
nel b
andw
idth
1.4
MHz
3 M
Hz5
MHz
10 M
Hz15
MHz
20 M
Hz
Reso
urce
blo
cks
(RB)
(1
RB
= 1
80 k
Hz)
615
2550
7510
0
Mod
ulat
ion
sche
mes
DL: Q
PSK,
16Q
AM, 6
4QAM
UL: Q
PSK,
16Q
AM, 6
4QAM
(opt
iona
l for
UE)
Mul
tiple
acc
ess
DL: O
FDM
AUL
: SC-
FDM
A
Peak
dat
a ra
teDL
: 150
Mbi
t/s
(UE
cate
gory
4, 2
x2 M
IMO,
20
MHz
),
3
00 M
bit/
s (U
E ca
tego
ry 5
, 4x4
MIM
O, 2
0 M
Hz)
UL:
75
Mbi
t/s
(UE
cate
gory
5, 2
0 M
Hz)
Data
sou
rce
QAM
mod
ulat
orM
appi
ng to
subc
arrie
rs
N-p
oint
IFFT
Addi
tion
ofcy
clic
pre
fix
1 re
sour
ce b
lock
= 1
80 k
Hz =
12
subc
arrie
rs w
ith s
paci
ng o
f 15
kHz Fr
eque
ncy
1 sl
ot =
7 O
FDM
A sy
mbo
ls1) =
0.5
ms
1 su
bfra
me
= 2
slo
ts =
1 m
s =
1 tr
ansm
issi
on ti
me
inte
rval
1 ra
dio
fram
e =
10
subf
ram
es =
10
ms
OFDMA symbols
Subc
arrie
rs
Tim
e
UE1
UE2
UE3
UE4
UE5
UE6
1) F
or n
orm
al c
yclic
pre
fix d
urat
ion.
Exam
ple
stru
ctur
e, 1
ant
enna
sig
nal (
of a
2×
2 M
IMO
setu
p) s
how
n
N
ot u
sed
for t
rans
mis
sion
at t
his
ante
nna
poin
t
Re
fere
nce
sym
bol
PC
FICH
PDCC
H PH
ICH
Data
sou
rce
QAM
mod
ulat
orM
-poi
nt D
FT
Map
ping
tosu
bcar
riers
N
-poi
nt IF
FTAd
ditio
n of
cycl
ic p
refix
1 re
sour
ce b
lock
= 1
80 k
Hz =
12
subc
arrie
rs w
ith s
paci
ng o
f 15
kHz Fr
eque
ncy
1 sl
ot =
7 S
C-FD
MA
sym
bols
1) =
0.5
ms
1 su
bfra
me
= 2
slo
ts =
1 m
s =
1 tr
ansm
issi
on ti
me
inte
rval
1 ra
dio
fram
e =
10
subf
ram
es =
10
ms
SC-FDMA symbols
Subc
arrie
rs
Tim
e
UE1
UE2
UE3
UE4
1)
For n
orm
al c
yclic
pre
fix d
urat
ion.
Exam
ple
stru
ctur
e, n
o fr
eque
ncy
hopp
ing
PU
SCH
for U
E1
Dem
odul
atio
n re
fere
nce
sign
al fo
r PUS
CH
PUCC
H (u
sed
by U
Es n
ot s
ched
uled
in th
is s
ubfra
me)
Dem
odul
atio
n re
fere
nce
sign
al fo
r PUC
CH
X2
X2X2
S1S1
S1S1
eNB
eNB
eNB
E-UT
RAN
Radi
o ad
mis
sion
co
ntro
l
Radi
o be
arer
con
trol
Conn
ectio
n m
obili
ty
cont
rol
eNB
mea
sure
men
tco
nfigu
ratio
n &
prov
isio
n
Dyna
mic
reso
urce
al
loca
tion
(sch
edul
er)
PHY
RLC
PDCP
RRC
MAC
Inte
r-cel
l RRM
Mob
ility
an
chor
ing
Idle
sta
te m
obili
ty
hand
ling
EPS
bear
er
cont
rol
NAS
sec
urity
Pack
et
filte
ring
UE IP
add
ress
allo
catio
n
S-GW
MM
EP-
GWeN
B
Inte
rnet
MM
E/S-
GWM
ME/
S-GW
Long
Ter
m E
volu
tion
(LTE
)Te
chno
logy
Ove
rvie
wLo
ng T
erm
Evo
lutio
n (L
TE) w
ill e
nsur
e th
e co
mpe
titiv
enes
s
of U
MTS
for
the
nex
t te
n ye
ars
and
beyo
nd b
y pr
ovid
ing
a
hig
h-da
ta r
ate,
low
-late
ncy
and
pack
et-o
ptim
ized
sys
tem
.
Als
o kn
own
as E
-UTR
A (E
volv
ed U
nive
rsal
Ter
rest
rial R
adio
Acc
ess)
, LTE
is p
art
of 3
GP
P R
elea
se 8
spe
cific
atio
ns. T
he
inno
vatio
ns t
hat
LTE
brin
gs
to t
he U
MTS
wor
ld in
clud
e:
❙New
mul
tiple
acc
ess
sche
mes
for
bot
h LT
E F
DD
and
TD
-LTE
❙Sca
labl
e ba
ndw
idth
up
to 2
0 M
Hz
❙MIM
O a
nten
na t
echn
olog
y
❙New
dat
a an
d co
ntro
l cha
nnel
s
❙New
net
wor
k an
d pr
otoc
ol a
rchi
tect
ure
❙Spe
cific
tes
t an
d m
easu
rem
ent
chal
leng
es
Com
mer
cial
LTE
net
wor
ks h
ave
been
laun
ched
wor
ldw
ide,
star
ting
with
the
firs
t ne
twor
k in
Sw
eden
in D
ecem
ber
2009
.
3GP
P R
elea
se 9
feat
ures
add
ed fu
rthe
r en
hanc
emen
ts t
o LT
E.
The
3GP
P c
andi
date
tec
hnol
ogy
subm
issi
on fo
r IM
T-A
dvan
ced,
deve
lope
d as
LTE
Rel
ease
10
and
beyo
nd, h
as b
een
acce
pted
as a
4G
tec
hnol
ogy.
Kno
wn
as L
TE-A
dvan
ced,
it c
ompl
ies
with
or e
xcee
ds t
he IT
U e
stab
lishe
d cr
iteria
in a
ll as
pect
s.
Roh
de
& S
chw
arz
is t
he
rig
ht
par
tner
for
mak
ing
you
r
LTE p
rod
uct
s h
app
en.
Ou
r te
st s
olu
tion
s w
ere
the
firs
t
on
th
e m
arke
t an
d s
ince
th
en h
ave
evolv
ed t
o a
fu
ll
pro
du
ct p
ort
folio
fro
m a
sin
gle
-sou
rce
sup
plie
r, c
ove
rin
g
app
licat
ion
s fr
om
R &
D t
o c
on
form
ance
.
MIM
O an
tenn
a te
chno
logy
Mul
tiple
acc
ess
sche
mes
and
phy
sica
l lay
er s
igna
l gen
erat
ion
LTE
enha
ncem
ents
Net
wor
k an
d pr
otoc
ol
arch
itect
ure
Rohd
e & S
chw
arz L
TE te
st s
olut
ions
ww
w.ro
hde-
schw
arz.c
om/t
echn
olog
y/LT
E
Glo
ssar
y:
3G
PP
= 3
rd G
ener
atio
n Pa
rtne
rshi
p P
roje
ct, 4
G =
4th
Gen
erat
ion
Mob
ile C
omm
unic
atio
ns
Tech
nolo
gy,
AR
Q =
Aut
omat
ic R
epea
t R
eque
st, D
FT =
Dis
cret
e Fo
urie
r Tr
ansf
orm
atio
n,
DL =
Dow
nlin
k, e
NB
= e
volv
ed N
odeB
, EP
S =
Evo
lved
Pac
ket
Sys
tem
, E-U
TR
A =
Evo
lved
U
nive
rsal
Ter
rest
rial R
adio
Acc
ess,
FD
D =
Fre
quen
cy D
ivis
ion
Dup
lex,
HA
RQ
= H
ybrid
AR
Q,
IFFT
= In
vers
e Fa
st F
ourie
r Tr
ansf
orm
, IM
T =
Inte
rnat
iona
l Mob
ile T
elec
omm
unic
atio
ns,
IOT =
Inte
rope
rabi
lity
Test
ing
, IP
= In
tern
et P
roto
col,
ITU
= In
tern
atio
nal T
elec
omm
unic
atio
n U
nion
, M
AC
= M
ediu
m A
cces
s C
ontr
ol, M
BM
S =
Mul
timed
ia B
road
cast
Mul
ticas
t S
ervi
ce,
MIM
O =
Mul
tiple
Inpu
t M
ultip
le O
utpu
t, M
ME =
Mob
ility
Man
agem
ent
Ent
ity, N
AS
= N
on
Acc
ess
Str
atum
, O
FDM
A =
Ort
hog
onal
Fre
quen
cy D
ivis
ion
Mul
tiple
Acc
ess,
P-G
W =
Pac
ket
Dat
a N
etw
ork
Gat
eway
, P
BC
H =
Phy
sica
l Bro
adca
st C
hann
el, P
CFI
CH
= P
hysi
cal
Con
trol
For
mat
Indi
cato
r C
hann
el, P
DC
CH
= P
hysi
cal D
ownl
ink
Con
trol
Cha
nnel
, P
DC
P =
Pac
ket
Dat
a C
onve
rgen
ce P
roto
col,
PD
SC
H =
Phy
sica
l Dow
nlin
k S
hare
d C
hann
el,
PH
ICH
= P
hysi
cal H
AR
Q In
dica
tor
Cha
nnel
, P
HY
= P
hysi
cal L
ayer
, P
MC
H =
Phy
sica
l M
ultic
ast
Cha
nnel
, P
RA
CH
= P
hysi
cal R
AC
H, P
UC
CH
= P
hysi
cal U
plin
k C
ontr
ol C
hann
el,
PU
SC
H =
Phy
sica
l Upl
ink
Sha
red
Cha
nnel
, Q
AM
= Q
uadr
atur
e A
mpl
itude
Mod
ulat
ion,
Q
PS
K =
Qua
drat
ure
Pha
se S
hift
Key
ing
, R
AC
H =
Ran
dom
Acc
ess
Cha
nnel
, R
AT =
Rad
io
Acc
ess
Tech
nolo
gy,
RF
= R
adio
Fre
quen
cy, R
LC =
Rad
io L
ink
Con
trol
, R
RC
= R
adio
R
esou
rce
Con
trol
, R
RM
= R
adio
Res
ourc
e M
anag
emen
t, S
-GW
= S
ervi
ng G
atew
ay,
SC
-FD
MA
= S
ing
le C
arrie
r Fr
eque
ncy
Div
isio
n M
ultip
le A
cces
s, T
D-L
TE =
Tim
e D
ivis
ion
– Lo
ng T
erm
Evo
lutio
n, T
DD
= T
ime
Div
isio
n D
uple
x, U
E =
Use
r E
quip
men
t, U
L =
Upl
ink,
U
MTS
= U
nive
rsal
Mob
ile T
elec
omm
unic
atio
ns S
yste
m.
LTE d
ow
nlin
k
Phys
ical
ch
ann
els
Phy
sica
l dow
nlin
k sh
ared
ch
anne
l (P
DS
CH
) ca
rrie
s us
er d
ata
Phy
sica
l mul
ticas
t ch
anne
l (P
MC
H)
carr
ies
MB
MS
use
r da
ta
Phy
sica
l dow
nlin
k co
ntro
l ch
anne
l (P
DC
CH
)ca
rrie
s co
ntro
l inf
orm
atio
n (D
CI =
dow
nlin
k co
ntro
lin
form
atio
n)
Phy
sica
l con
trol
for
mat
indi
cato
r ch
anne
l (P
CFI
CH
)in
dica
tes
form
at o
f P
DC
CH
(C
FI =
con
trol
for
mat
in
dica
tor)
Phy
sica
l hyb
rid A
RQ
in
dica
tor
chan
nel (
PH
ICH
)ca
rrie
s A
CK
/NA
CK
s (H
I = H
AR
Q in
dica
tor)
for
up
link
data
pac
kets
Phy
sica
l bro
adca
st c
hann
el
(PB
CH
)pr
ovid
es in
form
atio
n du
ring
ce
ll se
arch
, e.g
. on
syst
em
band
wid
th
Phys
ical
sig
nal
s
Prim
ary
and
seco
ndar
ysy
nchr
oniz
atio
n si
gna
lspr
ovid
e ac
quis
ition
of
cell
timin
g a
nd id
entit
y du
ring
ce
ll se
arch
Ref
eren
ce s
igna
len
able
s ch
anne
l est
imat
ion
LTE u
plin
kP
hys
ical
ch
ann
els
Phy
sica
l upl
ink
shar
ed
chan
nel (
PU
SC
H)
carr
ies
user
dat
a
Phy
sica
l upl
ink
cont
rol
chan
nel (
PU
CC
H)
carr
ies
cont
rol i
nfor
mat
ion
(UC
I = u
plin
k co
ntro
l in
form
atio
n)
Phy
sica
l ran
dom
acc
ess
chan
nel (
PR
AC
H)
prea
mbl
e tr
ansm
issi
on f
or
initi
al a
cces
s
Phys
ical
sig
nal
s
Dem
odul
atio
n re
fere
nce
sig
nal
enab
les
chan
nel e
stim
atio
n
Sou
ndin
g r
efer
ence
sig
nal
enab
les
chan
nel q
ualit
y ev
alua
tion
RF
dev
elop
men
t an
d p
rod
uct
ion
tes
tin
gP
roto
col st
ack t
esti
ng
an
d I
OT
Sig
nal
ing
an
d R
F co
nfo
rman
ce t
esti
ng
Mob
ile n
etw
ork
tes
tin
g
Pow
er m
eter
s
Osc
illosc
op
es
Wid
eban
d r
adio
com
mu
nic
atio
n t
este
r
Sig
nal
an
d s
pec
tru
m a
nal
yzer
s
Ben
chm
arkin
g,
op
tim
izat
ion
, d
rive
tes
ts
Inst
alla
tion
an
d m
ain
ten
ance
R&
S®C
MW
500
prot
ocol
tes
ter
R&
S®T
S89
80 R
F an
dR
RM
tes
t sy
stem
R&
S®F
SH
/ZV
HH
andh
eld
spec
trum
/cab
le a
ndan
tenn
a an
alyz
er
R&
S®T
SM
E w
ith R
&S
®RO
ME
S
Qua
liPoc
A
ndro
id
Div
ersi
ty B
ench
mar
ker
II
Div
ersi
ty R
ang
er
R&
S®S
MW
200A
R&
S®S
MB
V10
0A
R&
S®F
SV
R&
S®F
SW
R&
S®R
TO/R
TM/R
TE
R&
S®C
MW
500
R&
S®N
RP
R&
S®F
PSR
&S
®SG
T100
A
R&
S®T
S89
80 R
F an
d R
RM
tes
t sy
stem
Sig
nal
gen
erat
ors
, an
d f
adin
g s
imu
lato
rA
pp
licat
ion
lay
er t
esti
ng
wit
h I
P a
nal
ysis
fro
m
ipoq
ue
LTE_
po_e
n.in
dd
128
.01.
2015
15
:52:
05
Long
Term
Evo
lutio
n (L
TE)
Tech
nolo
gy O
verv
iew
LTE_po_en.indd 2 03.02.2015 11:13:49