04a flexi edge bts configurations
TRANSCRIPT
1©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
Flex
i ED
GE
BTS
C
ombi
ning
Opt
ions
& C
onfig
urat
ions
2©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
Lega
l not
ice
Inte
llect
ual P
rope
rty
Rig
hts
All
copy
right
s an
d in
telle
ctua
l pro
perty
righ
ts fo
r Nok
ia tr
aini
ng
docu
men
tatio
n, p
rodu
ct d
ocum
enta
tion
and
slid
e pr
esen
tatio
n m
ater
ial,
all o
f whi
ch a
re fo
rthw
ith k
now
n as
Nok
ia tr
aini
ng m
ater
ial,
are
the
excl
usiv
e pr
oper
ty o
f Nok
ia. N
okia
ow
ns th
e rig
hts
to c
opyi
ng,
mod
ifica
tion,
tran
slat
ion,
ada
ptat
ion
or d
eriv
ativ
es in
clud
ing
any
impr
ovem
ents
or d
evel
opm
ents
. Nok
ia h
as th
e so
le ri
ght t
o co
py,
dist
ribut
e, a
men
d, m
odify
, dev
elop
, lic
ense
, sub
licen
se, s
ell,
trans
fer a
nd
assi
gn th
e N
okia
trai
ning
mat
eria
l. In
divi
dual
s ca
n us
e th
e N
okia
trai
ning
m
ater
ial f
or th
eir o
wn
pers
onal
sel
f-dev
elop
men
t onl
y, th
ose
sam
e in
divi
dual
s ca
nnot
sub
sequ
ently
pas
s on
that
sam
e In
telle
ctua
l Pro
perty
to
oth
ers
with
out t
he p
rior w
ritte
n ag
reem
ent o
f Nok
ia. T
he N
okia
trai
ning
m
ater
ial c
anno
t be
used
out
side
of a
n ag
reed
Nok
ia tr
aini
ng s
essi
on fo
r de
velo
pmen
t of g
roup
s w
ithou
t the
prio
r writ
ten
agre
emen
t of N
okia
.
3©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
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onfid
entia
l
Con
tent
s
•O
bjec
tives
•In
trodu
ctio
nto
Con
figur
atio
ns•
Term
inol
ogy,
abb
revi
atio
ns, a
nd s
chem
atic
form
atex
plai
ned
•C
ombi
ning
Byp
ass
Con
figur
atio
ns•
Com
mon
Con
figur
atio
ns(w
ideb
and
com
bini
ng)
•S
mar
tRad
io C
once
pt(S
RC
) Con
figur
atio
ns*
•R
emot
eTu
neC
ombi
ner(
RTC
) con
figur
atio
ns•
Exe
rcis
es–
pape
r-ba
sed
•E
xerc
ises
–H
ands
-on
•SR
C c
onfig
urat
ions
are
notp
ossi
ble
until
Flex
iED
GE
EP
2/ B
SC
S13
so
ftwar
e re
leas
es. H
owev
erth
eyw
illbe
cove
red
in th
eory
.
4©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
Flex
iED
GE
BTS
Con
figur
atio
ns–
1: T
heor
etic
alO
bjec
tives
Afte
rcom
plet
ion
of th
ism
odul
eth
e pa
rtic
ipan
twill
beab
leto
:•
Nam
eth
e 5
mai
n co
mbi
ning
optio
ns•
List
the
mod
ules
requ
ired
for v
ario
usco
mm
on c
onfig
urat
ions
•D
escr
ibe
the
Nok
ia S
mar
tRad
io c
onfig
urat
ions
•D
escr
ibe
the
diffe
renc
esbe
twee
nC
ost-o
ptim
ised
and
Upg
rade
-opt
imis
edco
nfig
urat
ions
5©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
Flex
iED
GE
BTS
Con
figur
atio
ns–
2: P
ract
ical
Obj
ectiv
es
Afte
rcom
plet
ion
of th
ism
odul
eth
e pa
rtic
ipan
twill
beab
leto
:•
Exa
min
efo
rcor
rect
lyin
stal
led
Flex
iED
GE
BTS
•Id
entif
yth
ein
terfa
ces
and
conn
ecto
rsof
the
Flex
iED
GE
BTS
•E
xam
ine
forc
orre
ctly
inst
alle
dca
bles
on th
eFl
exiE
DG
E B
TS•
Des
crib
eth
eFl
exiE
DG
E B
TS s
ecto
r/TR
X c
onfig
urat
ion
optio
ns•
Ann
otat
e, o
n a
diag
ram
the
RF
cabl
ero
utin
gin
con
figur
atio
nssp
ecifi
edby
the
inst
ruct
or•
Cre
ate
phys
ical
conf
igur
atio
nsas
spe
cifie
dby
the
inst
ruct
or•
Cre
ate
a lis
t of t
here
quire
dm
odul
esan
d an
cilla
ryco
mpo
nent
sfo
rthe
conf
igur
atio
nsab
ove
6©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
Com
bini
ng o
ptio
ns a
nd d
ual b
and
for F
lexi
ED
GE
To m
inim
ize
the
num
ber o
f ant
enna
s an
d m
axim
ize
cove
rage
and
ca
paci
ty, F
lexi
ED
GE
BTS
sup
ports
wid
eban
d an
d R
TC c
ombi
ning
Five
mai
n co
mbi
ning
opt
ions
:
•B
y-pa
ss c
ombi
ning
•2-
way
com
bini
ng•
4-w
ay c
ombi
ning
•
6-w
ay R
emot
e Tu
ne C
ombi
ning
(RTC
)•
Dou
ble
Pow
er (D
PTR
X) c
ombi
ning
Flex
i ED
GE
supp
orts
dua
l ban
d co
nfig
urat
ions
requ
ired
in A
NSI
and
ET
SI m
arke
ts:
•G
SM
800
/180
0•
GS
M 8
00/1
900
•G
SM
900
/180
0
7©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
lOne
Sect
orco
nfig
urat
ion
tabl
e#o
f ca
rrie
rsC
ombi
ning
# of
E
XxA
# of
E
RxA
# of
E
CxA
# of
E
SMA
# of
E
SEA
heig
ht#
of
ante
nnas
1B
y-pa
ss 1
UD
11
01
03H
U1
1-2
By-
pass
2U
D1
10
10
3HU
22
2-w
ay 1
UD
1)1
10
10
3HU
13
By-
pass
2U
D2
20
10
6HU
34
By-
pass
2U
D2
20
10
6HU
43-
44-
way
1U
D 1)
21
01
05H
U1
1B
y-pa
ss D
P 2U
D1
10
10
3HU
22
By-
pass
DP
2UD
21
01
05H
U2
3B
y-pa
ss D
P 2U
D o
r 4U
D3
20
10
8HU
3 or
4
4B
y-pa
ss D
P 2U
D o
r 4U
D4
20
10
10H
U4
1-2
By-
pass
SR
C 1)
or
DP
4UD
22
01
06H
U4
3-4
2-w
ay 2
UD
21
01
05H
U2
5-6
4-w
ay 2
UD
31
01
07H
U2
7-8
4-w
ay 2
UD
41
01
09H
U2
Up
to 1
2R
TC
Up
to
60
Up
to
21
1U
p to
20
HU
2
1)su
ppor
ted
with
SC
F ov
erru
le 2
) SR
C==
IDD
+4U
D
8©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
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ions
/ A
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r / 0
9.10
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7C
onfid
entia
l
Stac
kco
nfig
urat
ion
tabl
eC
onfig
urat
ion
Com
bini
ng#
ofE
XxA
# of
ER
xA#
ofE
WxA
# of
ESM
A#
of
FPA
AM
axH
eigh
t 1)#
ofA
nten
nas
1 to
2 o
mni
By-
pass
2U
D1
10
11
9HU
2
3 to
4 o
mni
2-w
ay 2
UD
21
21
111
HU
2
5 to
6 o
mni
4-w
ay 2
UD
31
61
213
HU
2
7 to
8 o
mni
4-w
ay 2
UD
41
61
215
HU
2
1+1
By-
pass
1U
D1
10
11
9HU
2
1+1
or 2
+2B
y-pa
ss 2
UD
22
01
112
HU
4
3+3
By-
pass
2U
D3
24
12
14H
U4
4+4
By-
pass
2U
D4
24
12
16H
U4
1+1+
1 or
2+2
+2B
y-pa
ss 2
UD
33
01
215
HU
6
3+3+
32-
way
2U
D
5 2)
36
13
19H
U6
4+4+
42-
way
2U
D6
36
13
21H
U6
1+1+
1B
y-pa
ss D
P 2U
D3
33
12
15H
U6
2+2+
2B
y-pa
ss D
P 2U
D6
36
13
21H
U6
1+1+
1 or
2+2
+2B
y-pa
ss D
P or
SRC
3)4U
D6
63
or 6
10
21H
U12
2+2+
2/2+
2+2
dual
ba
ndB
y-pa
ss 2
UD
66
01
021
HU
12
1) A
ssum
ing
built
for C
ost-
opti
mis
ed. U
pgra
de-o
ptim
ised
need
s6
x EX
xA. 2
) SRC
==ID
D+4
UD
3) I
nc. F
PMA
9©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
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r / 0
9.10
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7C
onfid
entia
lPole
and
Wal
l mou
ntco
nfig
urat
ion
tabl
eC
onfig
urat
ion
Com
bini
ng#
of EX
xA#
of
ER
xA#
of EW
xA#
of
ESM
A#
of
FPA
A#
of
stac
ks#
ofan
tenn
as
1 to
2 o
mni
By-
pass
2U
D1
10
11
12
3 to
4 o
mni
2-w
ay 2
UD
21
21
12
2
5 to
6 o
mni
4-w
ay 2
UD
31
61
22
2
7 to
8 o
mni
4-w
ay 2
UD
41
61
23
2
1+1
By-
pass
1U
D1
10
11
12
1+1
or 2
+2B
y-pa
ss 2
UD
22
01
12
4
3+3
By-
pass
2U
D3
24
12
24
4+4
By-
pass
2U
D4
24
12
34
1+1+
1 or
2+2
+2B
y-pa
ss 2
UD
33
01
22
6
3+3+
32-
way
2U
D
53
61
33
6
4+4+
42-
way
2U
D6
36
13
46
1+1+
1B
y-pa
ss D
P 2U
D3
33
12
26
2+2+
2B
y-pa
ss D
P 2U
D6
36
13
46
1+1+
1 or
2+2
+2B
y-pa
ss D
P or
SR
C 4
UD
66
3 or
61
34
12
2+2+
2 /2
+2+2
du
al b
and
By-
pass
6
60
13
412
10©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
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r / 0
9.10
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7C
onfid
entia
lIndo
oror
Out
oorc
abin
etco
nfig
urat
ion
tabl
eC
onfig
urat
ion
Com
bini
ngE
XxA
’sE
RxA
’sE
CxA
’sE
SMA
’sE
SEA
’she
ight
ante
nna
1 to
2 o
mni
By-
pass
2U
D1
10
10
6HU
2
3 to
4 o
mni
2-w
ay 2
UD
21
01
08H
U2
5 to
6 o
mni
4-w
ay 2
UD
31
01
010
HU
2
7 to
8 o
mni
4-w
ay 2
UD
41
01
012
HU
2
1 to
6 o
mni
RT
C 2
UD
1 to
30
11
119
HU
2
7 to
12
omni
RT
C 2
UD
4 to
60
21
129
HU
*2
1+1
By-
pass
1U
D1
10
10
6HU
2
1+1
or 2
+2B
y-pa
ss 2
UD
22
01
09H
U4
3+3
By-
pass
2U
D3
20
10
11H
U4
4+4
By-
pass
2U
D4
20
10
13H
U4
1+1+
1 or
2+2
+2B
y-pa
ss 2
UD
33
01
012
HU
6
3+3+
32-
way
2U
D
53
01
016
HU
6
4+4+
42-
way
2U
D6
30
10
18H
U6
1+1+
1B
y-pa
ss D
P 2U
D3
30
10
12H
U6
2+2+
2B
y-pa
ss D
P 2U
D6
30
10
18H
U6
1+1+
1 or
2+2
+2B
y-pa
ss D
P or
SRC
4U
D6
60
10
21H
U*
12
6+6+
6R
TC
2U
D9
03
11
36H
U*
6
12R
TC
2U
D6
02
11
29H
U*
2
12+6
RT
C 2
UD
90
31
136
HU
*4
8+8+
84-
way
2U
D12
30
11
33H
U*
6
* Tw
oca
bine
tsre
quire
d
11©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
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.200
7C
onfid
entia
l
Con
figur
atio
nsin
this
chap
ter:
Com
mon
Con
figur
atio
ns•1
TR
X 1
UD
–sm
alle
stpo
ssib
leco
nfig
urat
ion
•2 T
RX
, by-
pass
, 2U
D•4
+4+4
, 2-w
ay c
ombi
ning
, 2U
DLa
rge
Con
figur
atio
n•8
+8+8
, 4-w
ay c
ombi
ning
, 2U
D•6
+6+6
RTC
–(o
nese
ctor
show
n)•1
2 TR
X R
TCN
ew fe
atur
es/S
RC
•1
+1+1
DP
2U
D•2
+2+2
IDD
4U
D
12©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
Com
mon
Con
figur
atio
ns
13©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
Term
inol
ogy
and
abbr
evia
tions
-1
Com
bine
rByp
ass
–N
o co
mbi
ning
”2-W
ay”–
Two
TX s
igna
lsin
to o
neA
nten
na”4
-Way
”–Fo
urTX
sig
nals
into
one
Ant
enna
An
ten
na(
s)
X
Wid
eban
d C
om
bin
ers
WB
C
Du
al
Du
ple
xer
LNA
LNA
Duplexer Duplexer
LNA
+
Mu
lti-
cou
ple
r
LNA
+
Mu
lti-
cou
ple
r
Duplexer Duplexer
TX1
RX
1
RX
2TX
2
Mai
nD
iv
Mai
nD
iv
Du
al T
RX
s
LNA
+
Mu
lti-
cou
ple
r
RX filter
Cavi
ties
RX filter
Duplexer
LNA
+
Mu
lti-
cou
ple
r
Rem
ote
Tu
ne
Com
bin
er (R
TC)
Mai
nD
iv
Mai
nD
iv
= M
ain
of R
X1 is
use
das
D
iver
seof
RX2
and
vic
e-ve
rsa
14©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
Term
inol
ogy
and
abbr
evia
tions
-2
CA
D –
cabl
eau
to d
etec
tion
DP
–D
oubl
eP
ower
IDD
–In
telli
gent
Dow
nlin
kD
iver
sity
DTR
X –
Dua
lTR
X (=
EX
xA)
DP
TRX
–D
ualT
RX
con
figur
edin
D
oubl
eP
ower
mod
eH
U –
Hei
ghtU
nit
DD
U –
Dua
lDup
lexe
rUni
t(=E
RxA
)S
CF
–S
iteC
onfig
urat
ion
File
. Mor
ede
tail
in th
e m
odul
e”C
omm
issi
onin
g”
1UD
, 2U
D, 4
UD
–n-
way
Upl
ink
Div
ersi
tyw
here
1UD
is re
ally
no U
D. 4
UD
requ
ires
setti
ngup
in th
e B
SC
als
o, a
nd is
a
Lice
nced
feat
ure
Bor
row
edR
X D
iver
sity
–A
TR
X
rece
ives
an R
X s
igna
lthr
ough
one
of
the
RX
DIV
por
tsco
nnec
ted
to a
DD
U,
whi
chis
not
the
sam
eD
DU
as
the
corr
espo
ndin
gTR
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ansm
itsth
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h.
SC
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verr
ule
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les
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tode
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ithC
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, ort
hey
can
bede
fined
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gco
mm
issi
onin
g. If
durin
gco
mm
issi
onin
gth
eyar
ede
fined
as
”SC
F O
verr
ule”
, the
cab
lein
form
atio
nis
defin
edfro
mth
e co
mm
issi
onin
gin
form
atio
n
SR
C –
Sm
artR
adio
Con
cept
. ID
D u
sed
with
4UD
15©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
1 TR
X, n
o di
vers
itySm
alle
stpo
ssib
leco
nfig
urat
ion
16©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
1-TR
X C
ombi
ning
By-
pass
, 1U
D s
chem
atic
LNA
LNA
Duplexer Duplexer
LNA
+
Mu
lti-
cou
ple
r
LNA
+
Mu
lti-
cou
ple
r
Duplexer Duplexer
Du
al
Du
ple
xer
Du
al T
RX
TX1
RX
1M
ain
Div
RX
2M
ain
Div
TX2
Div
An
ten
na
_
Sim
ples
tpos
sibl
eco
nfig
urat
ion
17©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
2 TR
X C
ombi
ning
By-
pass
with
2-w
ay R
X di
vers
ity2
TRX/
sect
or, 2
ant
enna
s
18©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
2 TR
X C
ombi
ning
By-
pass
with
2-w
ay R
X di
vers
ity–
Sche
mat
ic Ex
amp
le: 2
TR
X/c
ell
LNA
LNA
Duplexer Duplexer
LNA
+
Mu
lti-
cou
ple
r
LNA
+
Mu
lti-
cou
ple
r
Duplexer Duplexer
Du
al
Du
ple
xer
Du
al T
RX
TX1
RX
1M
ain
Div
RX
2M
ain
Div
TX2
Div
An
ten
nas
X
19©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
2-w
ay W
ideb
and
Com
bini
ng w
ith 2
-way
RX
dive
rsity
E.g.
, 4+4
+4, 2
ant
enna
s/se
ctor
20©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
Exam
ple
: 4 T
RX
/cel
l
Du
al T
RX
s
An
ten
nas
2-w
ay W
ideb
and
Com
bini
ng w
ith2-
way
RX
dive
rsity
–
Sche
mat
ic
X
TX1
RX
1M
ain
Div
RX
2M
ain
Div
TX2
Div
TX3
RX
3M
ain
Div
RX
4M
ain
Div
TX4
Div
Du
al
Du
ple
xer
LNA
LNA
Duplexer Duplexer
LNA
+
Mu
lti-
cou
ple
r
LNA
+
Mu
lti-
cou
ple
r
Duplexer Duplexer
Wid
eban
d C
om
bin
ers
WB
C
WB
C
21©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
4-w
ayC
ombi
ning
, 2-w
ay U
plin
kD
iver
sity
8+8+
8, 2
ant
enna
s/se
ctor
1ca
bine
t
22©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
4-w
ay W
ideb
and
Com
bini
ng w
ith2-
way
RX
dive
rsity
Du
al
Du
ple
xer
An
ten
nas
X
LNA
LNA
Duplexer Duplexer
WB
CW
BC
WB
C
WB
C
Wid
eban
d C
om
bin
ers
Du
al T
RX
s
WB
C
WB
C
TX1
RX
1M
ain
Div
RX
2M
ain
Div
TX2Div
TX3
RX
3M
ain
Div
RX
4M
ain
Div
TX4Div
TX5
RX
5M
ain
Div
RX
6M
ain
Div
TX6Div
TX7
RX
7M
ain
Div
RX
8M
ain
Div
TX8Div
LNA
+
Mu
lti-
cou
ple
r
LNA
+
Mu
lti-
cou
ple
r
Duplexer Duplexer
Exam
ple
: 8 T
RX
/cel
l
For e
ach
sect
or:
14 T
x ca
bles
8 R
xca
bles
23©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
EDG
E/B
TS 8
+8
+8
WB
C 4
:1
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36
DTR
X 1 DTR
X 2
DTR
X 4
ES
MA
DD
U
1 DTR
X 3
T
DTR
X 5 DTR
X 6
DTR
X 8
DD
U
2 DTR
X7
DTR
X 9 DTR
X 10
DTR
X 12
DD
U
3 DTR
X 11
ES
EA
WBC
1
WBC
2
WBC
3
WBC
4
WBC
5
WBC
8
WBC
9
WBC
10
WBC
11
WBC
14
WBC
15
WBC
16
WBC
17
WBC
6
WBC
7
WBC
12
WBC
13
WBC
18
8+8+
84-
way
2UD
24©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
6+6+
6,R
emot
eTu
neC
ombi
ner
25©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
LNA
+
Mu
lti-
cou
ple
r
RX filterCa
viti
esRX filter
Duplexer
LNA
+
Mu
lti-
cou
ple
r
1 X
-po
lAn
ten
na
X
TX5
RX
5M
ain
Div
RX
6M
ain
Div
TX6DivTX
3R
X3
Mai
nD
iv
RX
4M
ain
Div
TX4DivTX
1R
X1
Mai
nD
iv
RX
2M
ain
Div
TX2Div
Rem
ote
Tune
Com
bini
ng w
ith 2
-way
RX
dive
rsity
–O
nese
ctor
of a
6+6
+6
Exam
ple
: 6 T
RX
/cel
lR
emo
te T
un
eCo
mb
iner
(RTC
)
Du
al T
RX
s
Wit
h RT
C up
to 6
Tx
sign
als
can
be c
ombi
ned
into
1 a
nten
na, m
inim
izin
g th
e co
mbi
ner l
oss
6 3 3
26©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
Flex
i ED
GE
BTS
6+6+
6 R
TC
RTC
DTR
X
RTC
DTR
X
ESEA
RTC
DTR
X
ES
MA
.
DTR
X
DTR
X
DTR
X
DTR
X
DTR
X
DTR
X
27©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
Oth
erco
nfig
urat
ions
28©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
LNA
+
Mu
lti-
cou
ple
r
RX filter
Cavi
ties
RX filter
Duplexer
LNA
+
Mu
lti-
cou
ple
r
LNA
+
Mu
lti-
cou
ple
r
RX filter
Cavi
ties
RX filter
Duplexer
LNA
+
Mu
lti-
cou
ple
r
TX1
1R
X1
1M
ain
Div
RX
12
Mai
nD
ivTX
12
DivTX
9R
X9
Mai
nD
iv
RX
10
Mai
nD
ivTX
10
Div
Rem
ote
Tu
ne
Com
bin
ers
(RTC
)
Rem
ote
Tune
Com
bini
ng w
ith 2
-way
RX
dive
rsity
Exam
ple
: 12
TR
X/c
ell
12 T
RX/c
ell c
an b
e bu
ilt w
ith
2 RT
Csan
d 1
x-po
lari
zed
ante
nna
pane
lA
nte
nn
as
XD
ual
TR
Xs
TX5
RX
5M
ain
Div
RX
6M
ain
Div
TX6DivTX
3R
X3
Mai
nD
iv
RX
4M
ain
Div
TX4DivTX
1R
X1
Mai
nD
iv
RX
2M
ain
Div
TX2
TX7
RX
7M
ain
Div
RX
8M
ain
Div
TX8
6 63 3 3 3
1
1
29©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
Dou
ble
Pow
er T
RX
with
2-w
ay R
X di
vers
ity
Wid
eban
d C
om
bin
ers
(coh
eren
t) E
WxA
Du
al
Du
ple
xer
Exam
ple
: 1 T
RX
/cel
l
LNA
+
Mu
lti-
cou
ple
r
LNA
+
Mu
lti-
cou
ple
r
Duplexer Duplexer
EWxA
Du
al T
RX
TX1
RX
1M
ain
Div
RX
2M
ain
Div
TX2
Div
•D
PTRX
is a
chie
ved
by c
oher
ently
com
bini
ng T
x si
gnal
s of
2 c
arri
ers
wit
hin
DTR
X
•Si
ngle
TRX
cap
acit
y
•D
PTRX
pro
vide
s 2.
5 dB
gai
n in
out
put p
ower
•Re
quir
es E
WxA
Ph
ase
feed
bac
k
MH
A
An
ten
nas
an
d M
HA
s
X
30©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
LNA
+
Mu
lti-
cou
ple
r
LNA
+
Mu
lti-
cou
ple
r
Duplexer Duplexer
Ph
ase
feed
bac
k
LNA
+
Mu
lti-
cou
ple
r
LNA
+
Mu
lti-
cou
ple
r
Duplexer Duplexer
TX3
RX
3M
ain
Div
RX
4M
ain
Div
TX4
Div
TX1
RX
1M
ain
Div
RX
2M
ain
Div
TX2
Div
Dou
ble
Pow
er T
RX
with
4-w
ay R
X di
vers
ity
Wid
eban
d C
om
bin
ers
(coh
eren
t)D
ual
D
up
lexe
rs
DTR
X U
nit
sA
nte
nn
as
Exam
ple
: 1 T
RX
/cel
l
Nee
ded
for s
uppo
rtin
g se
cond
Dup
lexe
r (D
C po
wer
)
EWxA
XX
31©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
An
ten
nas
XX
Wid
eban
d C
om
bin
ers
(coh
eren
t)D
ual
D
up
lexe
rs
DTR
X U
nit
s
Dou
ble
Pow
er T
RX
with
4-w
ay R
X di
vers
ity
Exam
ple
: 2 T
RX
/cel
l
EWxA
TX1
RX
1M
ain
Div
RX
2M
ain
Div
TX2
TX3
RX
3M
ain
Div
RX
4M
ain
Div
TX4
Ph
ase
feed
bac
k
Ph
ase
feed
bac
k
LNA
+
Mu
lti-
cou
ple
r
LNA
+
Mu
lti-
cou
ple
r
Duplexer Duplexer
EWxA
LNA
+
Mu
lti-
cou
ple
r
LNA
+
Mu
lti-
cou
ple
r
Duplexer Duplexer
32©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
Du
al
Du
ple
xer
LNA
+
Mu
lti-
cou
ple
r
LNA
+
Mu
lti-
cou
ple
r
Duplexer Duplexer
An
ten
nas
an
d M
HA
s
X
Du
al T
RX
TX1
RX
1M
ain
Div
RX
2M
ain
Div
TX2
Div
IDD
and
2-w
ay R
X di
vers
ity (w
ith M
HA
)
Exam
ple
: 1 T
RX
/cel
l
•In
telli
gent
Dow
nlin
k D
iver
sity
(ID
D) i
s an
eff
ecti
ve w
ay o
f boo
stin
g th
e do
wnl
ink:
it is
bas
ed o
n sp
ace
and
tim
e di
vers
ity
and
sign
altu
ning
•ID
D g
ives
on
aver
age
5 dB
gain
in d
ownl
ink
path
MH
A
33©
Nok
ia S
iem
ens
Net
wor
ksFl
exi E
DG
E B
TS C
ombi
ning
Opt
ions
& C
onfig
urat
ions
/ A
utho
r / 0
9.10
.200
7C
onfid
entia
l
LNA
+
Mu
lti-
cou
ple
r
LNA
+
Mu
lti-
cou
ple
r
Duplexer Duplexer
LNA
+
Mu
lti-
cou
ple
r
LNA
+
Mu
lti-
cou
ple
r
Duplexer Duplexer
X
Du
al
Du
ple
xers
D
ual
TR
Xs
TX1
RX
1M
ain
Div
RX
2M
ain
Div
TX2
TX3
RX
3M
ain
Div
RX
4M
ain
Div
TX4
Smar
t Rad
io C
once
pt (S
RC
):ID
D w
ith 4
-way
RX
dive
rsity
with
MH
A
Exam
ple
: 2 T
RX
/cel
l
An
ten
nas
an
d M
HA
s
MH
A
X