32pfl5606d.pdf
TRANSCRIPT
Publ
ishe
d by
ER
/JY
116
4 B
U T
V C
onsu
mer
Car
ePr
inte
d in
the
Net
herla
nds
Subj
ect t
o m
odifi
catio
nEN
3122
785
191
3020
11-A
pr-2
9
©C
opyr
ight
201
1 Ko
nink
lijke
Philip
s El
ectro
nics
N.V
.Al
l rig
hts
rese
rved
. No
part
of th
is p
ublic
atio
n m
ay b
e re
prod
uced
, sto
red
in a
re
triev
al s
yste
m o
r tra
nsm
itted
, in
any
form
or b
y an
y m
eans
, ele
ctro
nic,
mec
hani
cal,
phot
ocop
ying
, or o
ther
wis
e w
ithou
t the
prio
r per
mis
sion
of P
hilip
s.
Col
our T
elev
isio
nC
hass
is
L11M
1.1L LA
1913
0_00
0_11
0421
.eps
1104
21
Con
tent
sPa
ge1.
Rev
isio
n Li
st2
2.Te
chni
cal S
peci
ficat
ions
and
Con
nect
ions
23.
Pre
caut
ions
, Not
es, a
nd A
bbre
viat
ion
List
44.
Mec
hani
cal I
nstru
ctio
ns8
5.S
ervi
ce M
odes
, Err
or C
odes
, and
Fau
lt Fi
ndin
g12
6.A
lignm
ents
187.
Circ
uit D
escr
iptio
ns20
8.IC
Dat
a S
heet
s26
9.B
lock
Dia
gram
sW
iring
Dia
gram
32"
(Thr
iller
)35
Wiri
ng D
iagr
am 4
0" (T
hrill
er)
36B
lock
Dia
gram
Vid
eo37
Blo
ck D
iagr
am A
udio
38B
lock
Dia
gram
Con
trol &
Clo
ck S
igna
ls39
Blo
ck D
iagr
am I2
C40
Sup
ply
Line
s O
verv
iew
4110
.Circ
uit D
iagr
ams
and
PW
B L
ayou
tsB
01 3
9391
2365
052
42B
02 3
9391
2365
052
43B
03 3
9391
2365
052
45B
04 3
9391
2365
052
46B
05 3
9391
2365
052
50B
06 3
9391
2365
052
52B
07 3
9391
2365
052
5631
3912
3650
52 S
SB
Lay
out
57T0
1 39
3912
3650
7159
3139
1236
5071
TC
ON
Lay
out
6511
.Sty
ling
She
ets
Sty
ling
She
et T
hrill
er 3
2"66
Sty
ling
She
et T
hrill
er 4
0"67
Rev
isio
n Li
stEN
2L1
1M1.
1L L
A1.
2011
-Apr
-29
1.R
evis
ion
List
Man
ual x
xxx
xxx
xxxx
.0•
Firs
t rel
ease
.
2.Te
chni
cal S
peci
ficat
ions
and
Con
nect
ions
Inde
x of
this
cha
pter
:2.
1 Te
chni
cal S
peci
ficat
ions
2.2
Dire
ctio
ns fo
r Use
2.3
Con
nect
ions
Not
es:
•Fi
gure
s ca
n de
viat
e du
e to
the
diffe
rent
set
exe
cutio
ns.
•S
peci
ficat
ions
are
indi
cativ
e (s
ubje
ct to
cha
nge)
.
2.1
Tech
nica
l Spe
cific
atio
ns
For o
n-lin
e pr
oduc
t sup
port
plea
se u
se th
e lin
ks in
Tab
le 2
-1.
Her
e is
pro
duct
info
rmat
ion
avai
labl
e, a
s w
ell a
s ge
tting
sta
rted,
us
er m
anua
ls, f
requ
ently
ask
ed q
uest
ions
and
sof
twar
e &
dr
iver
s.
Tabl
e 2-
1 D
escr
ibed
Mod
el n
umbe
rs
2.2
Dire
ctio
ns fo
r Use
You
can
dow
nloa
d th
is in
form
atio
n fro
m th
e fo
llow
ing
web
site
s:ht
tp://
ww
w.p
hilip
s.co
m/s
uppo
rtht
tp://
ww
w.p
4c.p
hilip
s.co
m
2.3
Con
nect
ions
Figu
re 2
-1 C
onne
ctio
n ov
ervi
ew
Not
e: T
he fo
llow
ing
conn
ecto
r col
our a
bbre
viat
ions
are
use
d (a
ccor
ding
to D
IN/IE
C 7
57):
Bk=
Bla
ck, B
u= B
lue,
Gn=
Gre
en,
Gy=
Gre
y, R
d= R
ed, W
h= W
hite
, Ye=
Yel
low
.
2.3.
1Si
de C
onne
ctio
ns
1 - U
SB2.
0
Figu
re 2
-2 U
SB (t
ype
A)
CTN
Styl
ing
Publ
ishe
d in
:32
PFL
3606
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rille
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NN
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SROTCE
NN
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DIG
ITAL
AUD
IO O
UT
AUD
IO IN
DVI/V
GA
SERV
.U
RL
PrPb
Y
CVI 1
BOTT
OM
REA
R CO
NN
ECTO
RS
VGA
HDM
I 1(A
RC)
RL
PrPb
Y
CVI 2
ANTE
NN
A
1913
0_00
1_11
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1104
21
1 32
45
67
89
1011
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Tech
nica
l Spe
cific
atio
ns a
nd C
onne
ctio
nsEN
3L1
1M1.
1L L
A2.
2011
-Apr
-29
1-+
5V
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2-D
ata
(-)
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ata
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4-G
roun
d G
nd
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V IN
: Cin
ch: V
ideo
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n, A
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Ye
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eo C
VB
S
1 V
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ack:
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GA
Bk
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Figu
re 2
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a ch
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0121
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0901
27
Pre
caut
ions
, Not
es, a
nd A
bbre
viat
ion
List
EN 4
L11M
1.1L
LA
3.
2011
-Apr
-29
3.Pr
ecau
tions
, Not
es, a
nd A
bbre
viat
ion
List
Inde
x of
this
cha
pter
:3.
1 S
afet
y In
stru
ctio
ns3.
2 W
arni
ngs
3.3
Not
es3.
4 A
bbre
viat
ion
List
3.1
Safe
ty In
stru
ctio
ns
Saf
ety
regu
latio
ns re
quire
the
follo
win
g du
ring
a re
pair:
•C
onne
ct th
e se
t to
the
Mai
ns/A
C P
ower
via
an
isol
atio
n tra
nsfo
rmer
(> 8
00 V
A).
•R
epla
ce s
afet
y co
mpo
nent
s, in
dica
ted
by th
e sy
mbo
l �,
only
by
com
pone
nts
iden
tical
to th
e or
igin
al o
nes.
Any
ot
her c
ompo
nent
sub
stitu
tion
(oth
er th
an o
rigin
al ty
pe) m
ay
incr
ease
risk
of f
ire o
r ele
ctric
al s
hock
haz
ard.
Saf
ety
regu
latio
ns re
quire
that
afte
r a re
pair,
the
set m
ust b
e re
turn
ed in
its
orig
inal
con
ditio
n. P
ay in
par
ticul
ar a
ttent
ion
to
the
follo
win
g po
ints
: •
Rou
te th
e w
ire tr
ees
corr
ectly
and
fix
them
with
the
mou
nted
cab
le c
lam
ps.
•C
heck
the
insu
latio
n of
the
Mai
ns/A
C P
ower
lead
for
exte
rnal
dam
age.
•
Che
ck th
e st
rain
relie
f of t
he M
ains
/AC
Pow
er c
ord
for
prop
er fu
nctio
n.•
Che
ck th
e el
ectri
cal D
C re
sist
ance
bet
wee
n th
e M
ains
/AC
P
ower
plu
g an
d th
e se
cond
ary
side
(onl
y fo
r set
s th
at h
ave
a M
ains
/AC
Pow
er is
olat
ed p
ower
sup
ply)
: 1.
Unp
lug
the
Mai
ns/A
C P
ower
cor
d an
d co
nnec
t a w
ire
betw
een
the
two
pins
of t
he M
ains
/AC
Pow
er p
lug.
2.
Set
the
Mai
ns/A
C P
ower
sw
itch
to th
e “o
n” p
ositi
on
(kee
p th
e M
ains
/AC
Pow
er c
ord
unpl
ugge
d!).
3.M
easu
re th
e re
sist
ance
val
ue b
etw
een
the
pins
of t
he
Mai
ns/A
C P
ower
plu
g an
d th
e m
etal
shi
eldi
ng o
f the
tu
ner o
r the
aer
ial c
onne
ctio
n on
the
set.
The
read
ing
shou
ld b
e be
twee
n 4.
5 M
Ω a
nd 1
2 M
Ω.
4.S
witc
h “o
ff” th
e se
t, an
d re
mov
e th
e w
ire b
etw
een
the
two
pins
of t
he M
ains
/AC
Pow
er p
lug.
•
Che
ck th
e ca
bine
t for
def
ects
, to
prev
ent t
ouch
ing
of a
ny
inne
r par
ts b
y th
e cu
stom
er.
3.2
War
ning
s
•A
ll IC
s an
d m
any
othe
r sem
icon
duct
ors
are
susc
eptib
le to
el
ectro
stat
ic d
isch
arge
s (E
SD
).
Car
eles
s ha
ndlin
g du
ring
repa
ir ca
n re
duce
life
dra
stic
ally
. Mak
e su
re th
at,
durin
g re
pair,
you
are
con
nect
ed w
ith th
e sa
me
pote
ntia
l as
the
mas
s of
the
set b
y a
wris
tban
d w
ith re
sist
ance
. Kee
p co
mpo
nent
s an
d to
ols
also
at t
his
sam
e po
tent
ial.
•B
e ca
refu
l dur
ing
mea
sure
men
ts in
the
high
vol
tage
se
ctio
n.•
Nev
er re
plac
e m
odul
es o
r oth
er c
ompo
nent
s w
hile
the
unit
is s
witc
hed
“on”
. •
Whe
n yo
u al
ign
the
set,
use
plas
tic ra
ther
than
met
al to
ols.
Th
is w
ill pr
even
t any
sho
rt ci
rcui
ts a
nd th
e da
nger
of a
ci
rcui
t bec
omin
g un
stab
le.
3.3
Not
es
3.3.
1G
ener
al
•M
easu
re th
e vo
ltage
s an
d w
avef
orm
s w
ith re
gard
to th
e ch
assi
s (=
tune
r) g
roun
d (�
), or
hot
gro
und
(),
depe
ndin
g on
the
test
ed a
rea
of c
ircui
try. T
he v
olta
ges
and
wav
efor
ms
show
n in
the
diag
ram
s ar
e in
dica
tive.
Mea
sure
them
in th
e S
ervi
ce D
efau
lt M
ode
with
a c
olou
r bar
sig
nal a
nd s
tere
o so
und
(L: 3
kH
z, R
: 1 k
Hz
unle
ss s
tate
d ot
herw
ise)
and
pi
ctur
e ca
rrie
r at 4
75.2
5 M
Hz
for P
AL,
or 6
1.25
MH
z fo
r N
TSC
(cha
nnel
3).
•W
here
nec
essa
ry, m
easu
re th
e w
avef
orm
s an
d vo
ltage
s w
ith (�
) and
with
out (�
) aer
ial s
igna
l. M
easu
re th
e vo
ltage
s in
the
pow
er s
uppl
y se
ctio
n bo
th in
nor
mal
op
erat
ion
(�) a
nd in
sta
nd-b
y (
). Th
ese
valu
es a
re
indi
cate
d by
mea
ns o
f the
app
ropr
iate
sym
bols
.
3.3.
2Sc
hem
atic
Not
es
•A
ll re
sist
or v
alue
s ar
e in
ohm
s, a
nd th
e va
lue
mul
tiplie
r is
ofte
n us
ed to
indi
cate
the
deci
mal
poi
nt lo
catio
n (e
.g. 2
K2
indi
cate
s 2.
2kΩ
). •
Res
isto
r val
ues
with
no
mul
tiplie
r may
be
indi
cate
d w
ith
eith
er a
n “E
” or a
n “R
” (e.
g. 2
20E
or 2
20R
indi
cate
s 22
0Ω
).•
All
capa
cito
r val
ues
are
give
n in
mic
ro-fa
rads
(μ=
× 10
-6),
nano
-fara
ds (n
=×
10-9
), or
pic
o-fa
rads
(p=
× 10
-12 )
.•
Cap
acito
r val
ues
may
als
o us
e th
e va
lue
mul
tiplie
r as
the
deci
mal
poi
nt in
dica
tion
(e.g
. 2p2
indi
cate
s 2.
2pF
).•
An
“ast
eris
k” (*
) ind
icat
es c
ompo
nent
usa
ge v
arie
s. R
efer
to
the
dive
rsity
tabl
es fo
r the
cor
rect
val
ues.
•Th
e co
rrec
t com
pone
nt v
alue
s ar
e lis
ted
on th
e P
hilip
s S
pare
Par
ts W
eb P
orta
l.
3.3.
3Sp
are
Part
s
For t
he la
test
spa
re p
art o
verv
iew
, con
sult
your
Phi
lips
Spa
re
Par
t web
por
tal.
3.3.
4B
GA
(Bal
l Grid
Arr
ay) I
Cs
Intr
oduc
tion
For m
ore
info
rmat
ion
on h
ow to
han
dle
BG
A d
evic
es, v
isit
this
U
RL:
http
://w
ww
.aty
ours
ervi
ce-m
agaz
ine.
com
. Sel
ect
“Mag
azin
e”, t
hen
go to
“Rep
air d
ownl
oads
”. H
ere
you
will
find
Info
rmat
ion
on h
ow to
dea
l with
BG
A-IC
s.
BG
A T
empe
ratu
re P
rofil
esFo
r BG
A-IC
s, y
ou m
ust u
se th
e co
rrec
t tem
pera
ture
-pro
file.
Whe
re a
pplic
able
and
ava
ilabl
e, th
is p
rofil
e is
add
ed to
the
IC
Dat
a S
heet
info
rmat
ion
sect
ion
in th
is m
anua
l.
3.3.
5Le
ad-fr
ee S
olde
ring
Due
to le
ad-fr
ee te
chno
logy
som
e ru
les
have
to b
e re
spec
ted
by th
e w
orks
hop
durin
g a
repa
ir:•
Use
onl
y le
ad-fr
ee s
olde
ring
tin. I
f lea
d-fre
e so
lder
pas
te is
re
quire
d, p
leas
e co
ntac
t the
man
ufac
ture
r of y
our s
olde
ring
equi
pmen
t. In
gen
eral
, use
of s
olde
r pas
te w
ithin
w
orks
hops
sho
uld
be a
void
ed b
ecau
se p
aste
is n
ot e
asy
to
stor
e an
d to
han
dle.
•U
se o
nly
adeq
uate
sol
der t
ools
app
licab
le fo
r lea
d-fre
e so
lder
ing
tin. T
he s
olde
r too
l mus
t be
able
:–
To re
ach
a so
lder
-tip
tem
pera
ture
of a
t lea
st 4
00°C
.–
To s
tabi
lize
the
adju
sted
tem
pera
ture
at t
he s
olde
r-tip
.–
To e
xcha
nge
sold
er-ti
ps fo
r diff
eren
t app
licat
ions
.•
Adj
ust y
our s
olde
r too
l so
that
a te
mpe
ratu
re o
f aro
und
360°
C -
380°
C is
reac
hed
and
stab
ilize
d at
the
sold
er jo
int.
Hea
ting
time
of th
e so
lder
-join
t sho
uld
not e
xcee
d ~
4 se
c.
Avo
id te
mpe
ratu
res
abov
e 40
0°C
, oth
erw
ise
wea
r-ou
t of
tips
will
incr
ease
dra
stic
ally
and
flux
-flui
d w
ill be
des
troye
d.
To a
void
wea
r-ou
t of t
ips,
sw
itch
“off”
unu
sed
equi
pmen
t or
redu
ce h
eat.
•M
ix o
f lea
d-fre
e so
lder
ing
tin/p
arts
with
lead
ed s
olde
ring
tin/p
arts
is p
ossi
ble
but P
HIL
IPS
reco
mm
ends
stro
ngly
toav
oid
mix
ed re
gim
es. I
f thi
s ca
nnot
be
avoi
ded,
car
eful
ly
clea
r the
sol
der-
join
t fro
m o
ld ti
n an
d re
-sol
der w
ith n
ew ti
n.
3.3.
6A
ltern
ativ
e B
OM
iden
tific
atio
n
It sh
ould
be
note
d th
at o
n th
e E
urop
ean
Ser
vice
web
site
, “A
ltern
ativ
e B
OM
” is
refe
rred
to a
s “D
esig
n va
riant
”.
Pre
caut
ions
, Not
es, a
nd A
bbre
viat
ion
List
EN 5
L11M
1.1L
LA
3.
2011
-Apr
-29
The
third
dig
it in
the
seria
l num
ber (
exam
ple:
A
G2B
0335
0000
01) i
ndic
ates
the
num
ber o
f the
alte
rnat
ive
B.O
.M. (
Bill
Of M
ater
ials
) tha
t has
bee
n us
ed fo
r pro
duci
ng th
e sp
ecifi
c TV
set
. In
gene
ral,
it is
pos
sibl
e th
at th
e sa
me
TV
mod
el o
n th
e m
arke
t is
prod
uced
with
e.g
. tw
o di
ffere
nt ty
pes
of d
ispl
ays,
com
ing
from
two
diffe
rent
sup
plie
rs. T
his
will
then
re
sult
in s
ets
whi
ch h
ave
the
sam
e C
TN (C
omm
erci
al T
ype
Num
ber;
e.g.
28P
W95
15/1
2) b
ut w
hich
hav
e a
diffe
rent
B.O
.M.
num
ber.
By
look
ing
at th
e th
ird d
igit
of th
e se
rial n
umbe
r, on
e ca
n id
entif
y w
hich
B.O
.M. i
s us
ed fo
r the
TV
set
he
is w
orki
ng w
ith.
If th
e th
ird d
igit
of th
e se
rial n
umbe
r con
tain
s th
e nu
mbe
r “1”
(e
xam
ple:
AG
1B03
3500
001)
, the
n th
e TV
set
has
bee
n m
anuf
actu
red
acco
rdin
g to
B.O
.M. n
umbe
r 1. I
f the
third
dig
it is
a
“2” (
exam
ple:
AG
2B03
3500
0001
), th
en th
e se
t has
bee
n pr
oduc
ed a
ccor
ding
to B
.O.M
. no.
2. T
his
is im
porta
nt fo
r or
derin
g th
e co
rrec
t spa
re p
arts
!Fo
r the
third
dig
it, th
e nu
mbe
rs 1
...9
and
the
char
acte
rs A
...Z
can
be u
sed,
so
in to
tal:
9 pl
us 2
6= 3
5 di
ffere
nt B
.O.M
.s c
an b
e in
dica
ted
by th
e th
ird d
igit
of th
e se
rial n
umbe
r.
Iden
tific
atio
n: T
he b
otto
m li
ne o
f a ty
pe p
late
giv
es a
14-
digi
t se
rial n
umbe
r. D
igits
1 a
nd 2
refe
r to
the
prod
uctio
n ce
ntre
(e.g
. S
N is
Lys
omic
e, R
J is
Kob
ierz
yce)
, dig
it 3
refe
rs to
the
B.O
.M.
code
, dig
it 4
refe
rs to
the
Ser
vice
ver
sion
cha
nge
code
, dig
its 5
an
d 6
refe
r to
the
prod
uctio
n ye
ar, a
nd d
igits
7 a
nd 8
refe
r to
prod
uctio
n w
eek
(in e
xam
ple
belo
w it
is 2
010
wee
k 10
/ 20
10
wee
k 17
). Th
e 6
last
dig
its c
onta
in th
e se
rial n
umbe
r.
Figu
re 3
-1 S
eria
l num
ber (
exam
ple)
3.3.
7B
oard
Lev
el R
epai
r (B
LR) o
r Com
pone
nt L
evel
Rep
air
(CLR
)
If a
boar
d is
def
ectiv
e, c
onsu
lt yo
ur re
pair
proc
edur
e to
dec
ide
if th
e bo
ard
has
to b
e ex
chan
ged
or if
it s
houl
d be
repa
ired
on
com
pone
nt le
vel.
If yo
ur re
pair
proc
edur
e sa
ys th
e bo
ard
shou
ld b
e ex
chan
ged
com
plet
ely,
do
not s
olde
r on
the
defe
ctiv
e bo
ard.
Oth
erw
ise,
it
cann
ot b
e re
turn
ed to
the
O.E
.M. s
uppl
ier f
or b
ack
char
ging
!
3.3.
8Pr
actic
al S
ervi
ce P
reca
utio
ns
•It
mak
es s
ense
to a
void
exp
osur
e to
ele
ctric
al s
hock
.W
hile
som
e so
urce
s ar
e ex
pect
ed to
hav
e a
poss
ible
da
nger
ous
impa
ct, o
ther
s of
qui
te h
igh
pote
ntia
l are
of
limite
d cu
rren
t and
are
som
etim
es h
eld
in le
ss re
gard
.•
Alw
ays
resp
ect v
olta
ges.
Whi
le s
ome
may
not
be
dang
erou
s in
them
selv
es, t
hey
can
caus
e un
expe
cted
re
actio
ns th
at a
re b
est a
void
ed. B
efor
e re
achi
ng in
to a
pow
ered
TV
set
, it i
s be
st to
test
the
high
vol
tage
insu
latio
n.
It is
eas
y to
do,
and
is a
goo
d se
rvic
e pr
ecau
tion.
3.4
Abb
revi
atio
n Li
st
0/6/
12S
CA
RT
switc
h co
ntro
l sig
nal o
n A
/V
boar
d. 0
= lo
op th
roug
h (A
UX
to T
V),
6=
play
16:9
form
at, 1
2=
play
4:3
fo
rmat
AAR
AA
utom
atic
Asp
ect R
atio
Ada
ptat
ion:
al
gorit
hm th
at a
dapt
s as
pect
ratio
to
rem
ove
horiz
onta
l bla
ck b
ars;
kee
ps
the
orig
inal
asp
ect r
atio
AC
IA
utom
atic
Cha
nnel
Inst
alla
tion:
al
gorit
hm th
at in
stal
ls T
V c
hann
els
dire
ctly
from
a c
able
net
wor
k by
m
eans
of a
pre
defin
ed T
XT
page
AD
CA
nalo
gue
to D
igita
l Con
verte
rA
FCA
utom
atic
Fre
quen
cy C
ontro
l: co
ntro
l si
gnal
use
d to
tune
to th
e co
rrec
t fre
quen
cyA
GC
Aut
omat
ic G
ain
Con
trol:
algo
rithm
that
co
ntro
ls th
e vi
deo
inpu
t of t
he fe
atur
e bo
xA
MA
mpl
itude
Mod
ulat
ion
AP
Asi
a P
acifi
cA
RA
spec
t Rat
io: 4
by
3 or
16
by 9
ASF
Aut
o S
cree
n Fi
t: al
gorit
hm th
at a
dapt
s as
pect
ratio
to re
mov
e ho
rizon
tal b
lack
ba
rs w
ithou
t dis
card
ing
vide
o in
form
atio
nA
TSC
Adv
ance
d Te
levi
sion
Sys
tem
s C
omm
ittee
, the
dig
ital T
V s
tand
ard
in
the
USA
ATV
See
Aut
o TV
Aut
o TV
A h
ardw
are
and
softw
are
cont
rol
syst
em th
at m
easu
res
pict
ure
cont
ent,
and
adap
ts im
age
para
met
ers
in a
dy
nam
ic w
ayA
VE
xter
nal A
udio
Vid
eoA
VCA
udio
Vid
eo C
ontro
ller
AVI
PA
udio
Vid
eo In
put P
roce
ssor
B/G
Mon
ochr
ome
TV s
yste
m. S
ound
ca
rrie
r dis
tanc
e is
5.5
MH
zB
DS
Bus
ines
s D
ispl
ay S
olut
ions
(iTV
)B
LRB
oard
-Lev
el R
epai
rB
TSC
Bro
adca
st T
elev
isio
n S
tand
ard
Com
mitt
ee. M
ultip
lex
FM st
ereo
soun
d sy
stem
, orig
inat
ing
from
the
US
A a
nd
used
e.g
. in
LATA
M a
nd A
P-N
TSC
co
untri
esB
-TX
TB
lue
Tele
teX
TC
Cen
tre c
hann
el (a
udio
)C
EC
Con
sum
er E
lect
roni
cs C
ontro
l bus
: re
mot
e co
ntro
l bus
on
HD
MI
conn
ectio
nsC
LC
onst
ant L
evel
: aud
io o
utpu
t to
conn
ect w
ith a
n ex
tern
al a
mpl
ifier
CLR
Com
pone
nt L
evel
Rep
air
Com
Pai
rC
ompu
ter a
ided
reP
air
CP
Con
nect
ed P
lane
t / C
opy
Prot
ectio
nC
SM
Cus
tom
er S
ervi
ce M
ode
CTI
Col
or T
rans
ient
Impr
ovem
ent:
man
ipul
ates
ste
epne
ss o
f chr
oma
trans
ient
sC
VB
SC
ompo
site
Vid
eo B
lank
ing
and
Syn
chro
niza
tion
DA
CD
igita
l to
Ana
logu
e C
onve
rter
DB
ED
ynam
ic B
ass
Enha
ncem
ent:
extra
lo
w fr
eque
ncy
ampl
ifica
tion
DC
MD
ata
Com
mun
icat
ion
Mod
ule.
Als
o re
ferr
ed to
as
Syst
em C
ard
or
Sm
artc
ard
(for i
TV).
DD
CS
ee “E
-DD
C”
1000
0_05
3_11
0228
.eps
1102
28
Pre
caut
ions
, Not
es, a
nd A
bbre
viat
ion
List
EN 6
L11M
1.1L
LA
3.
2011
-Apr
-29
D/K
Mon
ochr
ome
TV s
yste
m. S
ound
ca
rrie
r dis
tanc
e is
6.5
MH
zD
FID
ynam
ic F
ram
e In
serti
onD
FUD
irect
ions
For
Use
: ow
ner's
man
ual
DM
RD
igita
l Med
ia R
eade
r: ca
rd re
ader
DM
SD
Dig
ital M
ulti
Sta
ndar
d D
ecod
ing
DN
MD
igita
l Nat
ural
Mot
ion
DN
RD
igita
l Noi
se R
educ
tion:
noi
se
redu
ctio
n fe
atur
e of
the
set
DR
AM
Dyn
amic
RA
MD
RM
Dig
ital R
ight
s M
anag
emen
tD
SP
Dig
ital S
igna
l Pro
cess
ing
DS
TD
eale
r Ser
vice
Too
l: sp
ecia
l rem
ote
cont
rol d
esig
ned
for s
ervi
ce
tech
nici
ans
DTC
PD
igita
l Tra
nsm
issi
on C
onte
nt
Pro
tect
ion;
A p
roto
col f
or p
rote
ctin
g di
gita
l aud
io/v
ideo
con
tent
that
is
trave
rsin
g a
high
spe
ed s
eria
l bus
, su
ch a
s IE
EE
-139
4D
VB-
CD
igita
l Vid
eo B
road
cast
- C
able
DV
B-T
Dig
ital V
ideo
Bro
adca
st -
Terr
estri
alD
VD
Dig
ital V
ersa
tile
Dis
cD
VI(-
d)D
igita
l Vis
ual I
nter
face
(d=
digi
tal o
nly)
E-D
DC
Enh
ance
d D
ispl
ay D
ata
Cha
nnel
(V
ES
A s
tand
ard
for c
omm
unic
atio
n ch
anne
l and
dis
play
). U
sing
E-D
DC
, th
e vi
deo
sour
ce c
an re
ad th
e E
DID
in
form
atio
n fo
rm th
e di
spla
y.E
DID
Ext
ende
d D
ispl
ay Id
entif
icat
ion
Dat
a (V
ES
A s
tand
ard)
EE
PR
OM
Ele
ctric
ally
Era
sabl
e an
d P
rogr
amm
able
Rea
d O
nly
Mem
ory
EM
IE
lect
ro M
agne
tic In
terfe
renc
eE
PG
Ele
ctro
nic
Pro
gram
Gui
deE
PLD
Era
sabl
e P
rogr
amm
able
Log
ic D
evic
eE
UE
urop
eE
XT
EX
Tern
al (s
ourc
e), e
nter
ing
the
set b
y S
CA
RT
or b
y ci
nche
s (ja
cks)
FDS
Full
Dua
l Scr
een
(sam
e as
FD
W)
FDW
Full
Dua
l Win
dow
(sam
e as
FD
S)
FLA
SH
FLA
SH
mem
ory
FMFi
eld
Mem
ory
or F
requ
ency
M
odul
atio
nFP
GA
Fiel
d-P
rogr
amm
able
Gat
e A
rray
FTV
Flat
Tel
eVis
ion
Gb/
sG
iga
bits
per
sec
ond
G-T
XT
Gre
en T
elet
eXT
HH
_syn
c to
the
mod
ule
HD
Hig
h D
efin
ition
HD
DH
ard
Dis
k D
rive
HD
CP
Hig
h-ba
ndw
idth
Dig
ital C
onte
nt
Pro
tect
ion:
A “k
ey” e
ncod
ed in
to th
e H
DM
I/DVI
sig
nal t
hat p
reve
nts
vide
o da
ta p
iracy
. If a
sou
rce
is H
DC
P c
oded
an
d co
nnec
ted
via
HD
MI/D
VI w
ithou
t th
e pr
oper
HD
CP
dec
odin
g, th
e pi
ctur
e is
put
into
a “s
now
vis
ion”
mod
e or
cha
nged
to a
low
reso
lutio
n. F
or
norm
al c
onte
nt d
istri
butio
n th
e so
urce
an
d th
e di
spla
y de
vice
mus
t be
enab
led
for H
DC
P “s
oftw
are
key”
de
codi
ng.
HD
MI
Hig
h D
efin
ition
Mul
timed
ia In
terfa
ceH
PH
eadP
hone
IM
onoc
hrom
e TV
sys
tem
. Sou
nd
carr
ier d
ista
nce
is 6
.0 M
Hz
I2 CIn
ter I
C b
usI2 D
Inte
r IC
Dat
a bu
sI2 S
Inte
r IC
Sou
nd b
usIF
Inte
rmed
iate
Fre
quen
cyIR
Infra
Red
IRQ
Inte
rrup
t Req
uest
ITU
-656
The
ITU
Rad
io c
omm
unic
atio
n S
ecto
r (IT
U-R
) is
a st
anda
rds
body
subc
omm
ittee
of t
he In
tern
atio
nal
Tele
com
mun
icat
ion
Uni
on re
latin
g to
ra
dio
com
mun
icat
ion.
ITU
-656
(a.k
.a.
SD
I), is
a d
igiti
zed
vide
o fo
rmat
use
d fo
r bro
adca
st g
rade
vid
eo.
Unc
ompr
esse
d di
gita
l com
pone
nt o
r di
gita
l com
posi
te s
igna
ls c
an b
e us
ed.
The
SD
I sig
nal i
s se
lf-sy
nchr
oniz
ing,
us
es 8
bit
or 1
0 bi
t dat
a w
ords
, and
has
a
max
imum
dat
a ra
te o
f 270
Mbi
t/s,
with
a m
inim
um b
andw
idth
of 1
35
MH
z.iT
VIn
stitu
tiona
l Tel
eVis
ion;
TV
set
s fo
r ho
tels
, hos
pita
ls e
tc.
LSLa
st S
tatu
s; T
he s
ettin
gs la
st c
hose
n by
the
cust
omer
and
read
and
sto
red
in R
AM
or i
n th
e N
VM
. The
y ar
e ca
lled
at s
tart-
up o
f the
set
to c
onfig
ure
it ac
cord
ing
to th
e cu
stom
er's
pr
efer
ence
sLA
TAM
Latin
Am
eric
aLC
DLi
quid
Cry
stal
Dis
play
LED
Ligh
t Em
ittin
g D
iode
L/L'
Mon
ochr
ome
TV s
yste
m. S
ound
ca
rrie
r dis
tanc
e is
6.5
MH
z. L
' is
Ban
d I,
L is
all
band
s ex
cept
for B
and
ILP
LLG
.Phi
lips
LCD
(sup
plie
r)LS
Loud
spea
ker
LVD
SLo
w V
olta
ge D
iffer
entia
l Sig
nalli
ngM
bps
Meg
a bi
ts p
er s
econ
dM
/NM
onoc
hrom
e TV
sys
tem
. Sou
nd
carr
ier d
ista
nce
is 4
.5 M
Hz
MH
EG
Par
t of a
set
of i
nter
natio
nal s
tand
ards
re
late
d to
the
pres
enta
tion
of
mul
timed
ia in
form
atio
n, s
tand
ardi
sed
by th
e M
ultim
edia
and
Hyp
erm
edia
E
xper
ts G
roup
. It i
s co
mm
only
use
d as
a
lang
uage
to d
escr
ibe
inte
ract
ive
tele
visi
on s
ervi
ces
MIP
SM
icro
proc
esso
r with
out I
nter
lock
ed
Pip
elin
e-S
tage
s; A
RIS
C-b
ased
m
icro
proc
esso
rM
OP
Mat
rix O
utpu
t Pro
cess
orM
OS
FET
Met
al O
xide
Sili
con
Fiel
d E
ffect
Tr
ansi
stor
, sw
itchi
ng d
evic
eM
PE
GM
otio
n P
ictu
res
Exp
erts
Gro
upM
PIF
Mul
ti P
latfo
rm In
terF
ace
MU
TEM
UTE
Lin
eM
TVM
ains
tream
TV
: TV
-mod
e w
ith
Con
sum
er T
V fe
atur
es e
nabl
ed (i
TV)
NC
Not
Con
nect
edN
ICA
MN
ear I
nsta
ntan
eous
Com
poun
ded
Aud
io M
ultip
lexi
ng. T
his
is a
dig
ital
soun
d sy
stem
, mai
nly
used
in E
urop
e.N
TCN
egat
ive
Tem
pera
ture
Coe
ffici
ent,
non-
linea
r res
isto
rN
TSC
Nat
iona
l Tel
evis
ion
Sta
ndar
d C
omm
ittee
. Col
or s
yste
m m
ainl
y us
ed
in N
orth
Am
eric
a an
d Ja
pan.
Col
or
carr
ier N
TSC
M/N
= 3.
5795
45 M
Hz,
N
TSC
4.4
3= 4
.433
619
MH
z (th
is is
a
VC
R n
orm
, it i
s no
t tra
nsm
itted
off-
air)
NV
MN
on-V
olat
ile M
emor
y: IC
con
tain
ing
TV re
late
d da
ta s
uch
as a
lignm
ents
O/C
Ope
n C
ircui
tO
SDO
n S
cree
n D
ispl
ayO
ADO
ver t
he A
ir D
ownl
oad.
Met
hod
of
softw
are
upgr
ade
via
RF
trans
mis
sion
. U
pgra
de s
oftw
are
is b
road
cast
ed in
TS
with
TV
cha
nnel
s.O
TCO
n sc
reen
dis
play
Tel
etex
t and
C
ontro
l; al
so c
alle
d Ar
tistic
(SA
A58
00)
P50
Pro
ject
50:
com
mun
icat
ion
prot
ocol
be
twee
n TV
and
per
iphe
rals
Pre
caut
ions
, Not
es, a
nd A
bbre
viat
ion
List
EN 7
L11M
1.1L
LA
3.
2011
-Apr
-29
PA
LPh
ase
Alte
rnat
ing
Line
. Col
or s
yste
m
mai
nly
used
in W
est E
urop
e (c
olou
r ca
rrie
r=4.
4336
19M
Hz)
and
Sou
th
Amer
ica
(col
our c
arrie
r PA
LM
=3.
5756
12M
Hz
and
PA
LN
=3.
5820
56M
Hz)
PC
BPr
inte
d C
ircui
t Boa
rd (s
ame
as “P
WB
”)P
CM
Puls
e C
ode
Mod
ulat
ion
PD
PPl
asm
a D
ispl
ay P
anel
PFC
Pow
er F
acto
r Cor
rect
or (o
r Pre
-co
nditi
oner
)P
IPPi
ctur
e In
Pic
ture
PLL
Phas
e Lo
cked
Loo
p. U
sed
for e
.g.
FST
tuni
ng s
yste
ms.
The
cus
tom
er
can
give
dire
ctly
the
desi
red
frequ
ency
PO
DPo
int O
f Dep
loym
ent:
a re
mov
able
C
AM
mod
ule,
impl
emen
ting
the
CA
sy
stem
for a
hos
t (e.
g. a
TV-
set)
PO
RPo
wer
On
Res
et, s
igna
l to
rese
t the
uP
PS
DL
Pow
er S
uppl
y fo
r Dire
ct v
iew
LE
D
back
light
with
2D
-dim
min
gP
SL
Pow
er S
uppl
y w
ith in
tegr
ated
LE
D
driv
ers
PS
LSPo
wer
Sup
ply
with
inte
grat
ed L
ED
dr
iver
s w
ith a
dded
Sca
nnin
g fu
nctio
nalit
yP
TCPo
sitiv
e Te
mpe
ratu
re C
oeffi
cien
t, no
n-lin
ear r
esis
tor
PW
BPr
inte
d W
iring
Boa
rd (s
ame
as “P
CB
”)P
WM
Puls
e W
idth
Mod
ulat
ion
QR
CQ
uasi
Res
onan
t Con
verte
rQ
TNR
Qua
lity
Tem
pora
l Noi
se R
educ
tion
QV
CP
Qua
lity
Vid
eo C
ompo
sitio
n P
roce
ssor
RA
MR
ando
m A
cces
s M
emor
yR
GB
Red
, Gre
en, a
nd B
lue.
The
prim
ary
colo
r sig
nals
for T
V. B
y m
ixin
g le
vels
of
R, G
, and
B, a
ll co
lors
(Y/C
) are
re
prod
uced
.R
CR
emot
e C
ontro
lR
C5
/ RC
6Si
gnal
pro
toco
l fro
m th
e re
mot
e co
ntro
l rec
eive
r R
ES
ET
RE
SET
sig
nal
RO
MR
ead
Onl
y M
emor
yR
SD
SR
educ
ed S
win
g D
iffer
entia
l Sig
nalli
ng
data
inte
rface
R-T
XT
Red
Tel
eteX
TS
AM
Serv
ice
Alig
nmen
t Mod
eS
/CSh
ort C
ircui
tS
CA
RT
Synd
icat
des
Con
stru
cteu
rs
d'A
ppar
eils
Rad
ioré
cept
eurs
et
Télé
vise
urs
SC
LSe
rial C
lock
I2 CS
CL-
FC
Lock
Sig
nal o
n Fa
st I2 C
bus
SD
Stan
dard
Def
initi
onS
DA
Seria
l Dat
a I2 C
SD
A-F
DA
ta S
igna
l on
Fast
I2 C b
usS
DI
Seria
l Dig
ital I
nter
face
, see
“ITU
-656
”S
DR
AM
Sync
hron
ous
DR
AM
SE
CA
MSE
eque
nce
Cou
leur
Ave
c M
émoi
re.
Col
our s
yste
m m
ainl
y us
ed in
Fra
nce
and
Eas
t Eur
ope.
Col
our
carr
iers
=4.
4062
50M
Hz
and
4.25
0000
MH
zS
IFSo
und
Inte
rmed
iate
Fre
quen
cyS
MP
SSw
itche
d M
ode
Pow
er S
uppl
yS
oCSy
stem
on
Chi
pS
OG
Sync
On
Gre
enS
OP
SSe
lf O
scill
atin
g P
ower
Sup
ply
SP
ISe
rial P
erip
hera
l Int
erfa
ce b
us; a
4-
wire
syn
chro
nous
ser
ial d
ata
link
stan
dard
S/P
DIF
Sony
Phi
lips
Dig
ital I
nter
Face
SR
AM
Stat
ic R
AM
SR
PSe
rvic
e R
efer
ence
Pro
toco
lS
SB
Smal
l Sig
nal B
oard
SSC
Spr
ead
Spe
ctru
m C
lock
ing,
use
d to
re
duce
the
effe
cts
of E
MI
STB
Set
Top
Box
STB
YS
Tand
-BY
SVG
A80
0×
600
(4:3
)S
VHS
Sup
er V
ideo
Hom
e S
yste
mS
WS
oftw
are
SW
AN
Spa
tial t
empo
ral W
eigh
ted
Ave
ragi
ng
Noi
se re
duct
ion
SXG
A12
80×
1024
TFT
Thin
Film
Tra
nsis
tor
THD
Tota
l Har
mon
ic D
isto
rtion
TMD
STr
ansm
issi
on M
inim
ized
Diff
eren
tial
Sig
nalli
ngTS
Tran
spor
t Stre
amTX
TTe
lete
XT
TXT-
DW
Dua
l Win
dow
with
Tel
eteX
TU
IU
ser I
nter
face
uPM
icro
proc
esso
rU
XG
A16
00×
1200
(4:3
)V
V-s
ync
to th
e m
odul
e V
ESA
Vid
eo E
lect
roni
cs S
tand
ards
A
ssoc
iatio
nV
GA
640
×48
0 (4
:3)
VL
Var
iabl
e Le
vel o
ut: p
roce
ssed
aud
io
outp
ut to
war
d ex
tern
al a
mpl
ifier
VSB
Ves
tigia
l Sid
e B
and;
mod
ulat
ion
met
hod
WY
SIW
YR
Wha
t You
See
Is W
hat Y
ou R
ecor
d:
reco
rd s
elec
tion
that
follo
ws
mai
n pi
ctur
e an
d so
und
WX
GA
1280
×76
8 (1
5:9)
XTA
LQ
uartz
cry
stal
XG
A10
24×
768
(4:3
)Y
Lum
inan
ce s
igna
lY
/CLu
min
ance
(Y) a
nd C
hrom
inan
ce (C
) si
gnal
YPb
Pr
Com
pone
nt v
ideo
. Lum
inan
ce a
nd
scal
ed c
olor
diff
eren
ce s
igna
ls (B
-Y
and
R-Y
)Y
UV
Com
pone
nt v
ideo
Mec
hani
cal I
nstru
ctio
nsEN
8L1
1M1.
1L L
A4.
2011
-Apr
-29
4.M
echa
nica
l Ins
truc
tions
Inde
x of
this
cha
pter
:4.
1 C
able
Dre
ssin
g4.
2 S
ervi
ce P
ositi
ons
4.3
Ass
y/P
anel
Rem
oval
4.4
Set
Re-
asse
mbl
y
Not
es:
•Fi
gure
s be
low
can
dev
iate
slig
htly
from
the
actu
al s
ituat
ion,
du
e to
the
diffe
rent
set
exe
cutio
ns.
4.1
Cab
le D
ress
ing
Figu
re 4
-1 C
able
dre
ssin
g 32
"
1913
0_00
2_11
0421
.eps
1104
21
Mec
hani
cal I
nstru
ctio
nsEN
9L1
1M1.
1L L
A4.
2011
-Apr
-29
Figu
re 4
-2 C
able
dre
ssin
g 40
"
1913
0_00
3_11
0426
.eps
1104
26
11 m
m s
addl
e ×
115
0 m
m ta
pe ×
370
mm
tape
× 4
Foam
× 2
Mec
hani
cal I
nstru
ctio
nsEN
10
L11M
1.1L
LA
4.
2011
-Apr
-29
4.2
Serv
ice
Posi
tions
For e
asy
serv
icin
g of
a T
V s
et, t
he s
et s
houl
d be
put
face
dow
n on
a s
oft f
lat s
urfa
ce, f
oam
buf
fers
or o
ther
spe
cific
wor
ksho
p to
ols.
Ens
ure
that
a s
tabl
e si
tuat
ion
is c
reat
ed to
per
form
mea
sure
men
ts a
nd a
lignm
ents
. Whe
n us
ing
foam
bar
s ta
ke
care
that
thes
e al
way
s su
ppor
t the
cab
inet
and
nev
er o
nly
the
disp
lay.
Cau
tion:
Fai
lure
to fo
llow
thes
e gu
idel
ines
can
se
rious
ly d
amag
e th
e di
spla
y!
Ens
ure
that
ES
D s
afe
mea
sure
s ar
e ta
ken.
4.3
Ass
y/Pa
nel R
emov
al
Inst
ruct
ions
bel
ow a
pply
to th
e 40
PFL
3606
D/7
8, b
ut w
ill b
e si
mila
r for
oth
er m
odel
s.
4.3.
1R
ear C
over
Figu
re 4
-3 R
ear c
over
rem
oval
(40"
)
War
ning
: Dis
conn
ect t
he m
ains
pow
er c
ord
befo
re re
mov
ing
the
rear
cov
er.
See
Fig
ure
4-3.
1.R
emov
e fix
atio
n sc
rew
s [2
] and
[3] t
hat s
ecur
e th
e re
ar
cove
r. It
is n
ot n
eces
sary
to re
mov
e th
e st
and
first
[1].
2.Li
ft th
e re
ar c
over
from
the
TV. M
ake
sure
that
wire
s an
d fla
t foi
ls a
re n
ot d
amag
ed w
hile
lifti
ng th
e re
ar c
over
from
th
e se
t.
3 2 1
1913
0_00
4_11
0426
.eps
1104
26
33
22
32 2
3
3 33
2
11
2 32 3211
3
Mec
hani
cal I
nstru
ctio
nsEN
11
L11M
1.1L
LA
4.
2011
-Apr
-29
4.3.
2LC
D P
anel
Ref
er to
Fig
ure
4-4
for d
etai
ls.
1.R
emov
e th
e S
tand
[A].
2.R
emov
e th
e S
peak
ers/
Sub
woo
fer [
B].
3.R
emov
e th
e P
SU
[C],
SS
B [D
] and
TC
ON
(E).
4.R
emov
e th
e IR
/LE
D b
oard
[F].
5.R
emov
e th
e Lo
cal C
ontro
l boa
rd [G
].6.
Rem
ove
the
clam
ps [1
].7.
Rem
ove
all m
etal
sub
fram
es [2
] tha
t do
not b
elon
g to
the
LCD
dis
play
.
Figu
re 4
-4 L
CD
Pan
el re
mov
al (b
ased
on
40"
mod
el)
4.4
Set R
e-as
sem
bly
To re
-ass
embl
e th
e w
hole
set
, exe
cute
all p
roce
sses
in re
vers
e or
der.
Not
es:
•W
hile
re-a
ssem
blin
g, m
ake
sure
that
all
cabl
es a
re p
lace
d an
d co
nnec
ted
in th
eir o
rigin
al p
ositi
on. S
ee F
igur
e 4-
5•
Pay
spe
cial
atte
ntio
n no
t to
dam
age
the
EM
C fo
ams
in th
e se
t. E
nsur
e th
at E
MC
foam
s ar
e m
ount
ed c
orre
ctly
.
Figu
re 4
-5 F
lat F
oil C
able
(FFC
) pre
caut
ions
1913
0_00
6_11
0426
.eps
1104
26
1A
1B
1C12
12
12
12DE
F
11
11
11
G
Pro
per F
FC in
serti
on: S
ilver
line
is n
otvi
sibl
e w
hen
conn
ecto
r loc
k is
clo
sed
Impr
oper
FFC
inse
rtion
: Silv
er li
ne is
visi
ble
whe
n co
nnec
tor l
ock
is c
lose
d
Pan
el
Thin
ner b
lue
FFC
sup
porti
ng
tape
belo
ng to
Pan
el s
ide
Thic
ker b
lue
FFC
sup
porti
ng
tape
belo
ng to
SSB
sideTC
ON
1913
0_00
7_11
0426
.eps
1104
26
Ser
vice
Mod
es, E
rror
Cod
es, a
nd F
ault
Find
ing
EN 1
2L1
1M1.
1L L
A5.
2011
-Apr
-29
5.Se
rvic
e M
odes
, Err
or C
odes
, and
Fau
lt Fi
ndin
gIn
dex
of th
is c
hapt
er:
5.1
Test
Poi
nts
5.2
Ser
vice
Mod
es5.
3 S
ervi
ce T
ools
5.4
Err
or C
odes
5.5
The
Blin
king
LE
D P
roce
dure
5.6
Faul
t Fin
ding
and
Rep
air T
ips
5.7
Sof
twar
e U
pgra
ding
5.1
Test
Poi
nts
In th
e ch
assi
s sc
hem
atic
s an
d la
yout
ove
rvie
ws,
the
test
poi
nts
are
men
tione
d. In
the
sche
mat
ics
and
layo
uts,
test
poi
nts
are
indi
cate
d w
ith “F
xxx”
or “
Ixxx
”.A
s m
ost s
igna
ls a
re d
igita
l, it
will
be
diffi
cult
to m
easu
re
wav
efor
ms
with
a s
tand
ard
osci
llosc
ope.
Sev
eral
key
ICs
are
capa
ble
of g
ener
atin
g te
st p
atte
rns,
whi
ch c
an b
e co
ntro
lled
via
Com
Pai
r. In
this
way
it is
pos
sibl
e to
det
erm
ine
whi
ch p
art i
s de
fect
ive.
Per
form
mea
sure
men
ts u
nder
the
follo
win
g co
nditi
ons:
•S
ervi
ce D
efau
lt M
ode.
•V
ideo
: Col
our b
ar s
igna
l.•
Aud
io: 3
kH
z le
ft, 1
kH
z rig
ht.
5.2
Serv
ice
Mod
es
The
Ser
vice
Mod
e fe
atur
e is
spl
it in
to fo
ur p
arts
: •
Ser
vice
Def
ault
Mod
e (S
DM
).•
Ser
vice
Alig
nmen
t Mod
e (S
AM
).•
Cus
tom
er S
ervi
ce M
ode
(CSM
).•
Com
pute
r Aid
ed R
epai
r Mod
e (C
omP
air)
.
SD
M a
nd S
AM
offe
r fea
ture
s, w
hich
can
be
used
by
the
Ser
vice
en
gine
er to
repa
ir/al
ign
a TV
set
. Som
e fe
atur
es a
re:
•A
pre
-def
ined
situ
atio
n to
ens
ure
mea
sure
men
ts c
an b
e m
ade
unde
r uni
form
con
ditio
ns (S
DM
).•
Act
ivat
es th
e bl
inki
ng L
ED p
roce
dure
for e
rror
iden
tific
atio
n w
hen
no p
ictu
re is
ava
ilabl
e (S
DM
).•
The
poss
ibili
ty to
ove
rrul
e so
ftwar
e pr
otec
tions
whe
n S
DM
is
ent
ered
via
the
Serv
ice
pins
.•
Mak
e al
ignm
ents
(e.g
. Whi
te T
one)
, (de
)sel
ect o
ptio
ns,
ente
r opt
ions
cod
es, r
eset
the
erro
r buf
fer (
SA
M).
•D
ispl
ay in
form
atio
n (“
SD
M” o
r “S
AM
” ind
icat
ion
in u
pper
rig
ht c
orne
r of s
cree
n, e
rror
buf
fer,
softw
are
vers
ion,
op
erat
ing
hour
s, o
ptio
ns a
nd o
ptio
n co
des,
sub
men
us).
The
CS
M is
a S
ervi
ce M
ode
that
can
be
enab
led
by th
e co
nsum
er. T
he C
SM
dis
play
s di
agno
sis
info
rmat
ion,
whi
ch th
e cu
stom
er c
an fo
rwar
d to
the
deal
er o
r cal
l cen
tre. I
n C
SM
m
ode,
“CS
M”,
is d
ispl
ayed
in th
e to
p rig
ht c
orne
r of t
he s
cree
n.
The
info
rmat
ion
prov
ided
in C
SM
and
the
purp
ose
of C
SM
is to
:•
Incr
ease
the
hom
e re
pair
hit r
ate.
•D
ecre
ase
the
num
ber o
f nui
sanc
e ca
lls.
•S
olve
d cu
stom
ers'
pro
blem
with
out h
ome
visi
t.
Com
Pai
r Mod
e is
use
d fo
r com
mun
icat
ion
betw
een
a co
mpu
ter
and
a TV
on
I2C
/UA
RT
leve
l and
can
be
used
by
a S
ervi
ce
engi
neer
to q
uick
ly d
iagn
ose
the
TV s
et b
y re
adin
g ou
t err
or
code
s, re
ad a
nd w
rite
in N
VM
s, c
omm
unic
ate
with
ICs
and
the
uP (P
WM
, reg
iste
rs, e
tc.),
and
by
mak
ing
use
of a
faul
t fin
ding
da
taba
se. I
t will
als
o be
pos
sibl
e to
up
and
dow
nloa
d th
e so
ftwar
e of
the
TV s
et v
ia I2
C w
ith h
elp
of C
omP
air.
To d
o th
is,
Com
Pai
r has
to b
e co
nnec
ted
to th
e TV
set
via
the
Com
Pai
r co
nnec
tor,
whi
ch w
ill b
e ac
cess
ible
thro
ugh
the
rear
of t
he s
et
(with
out r
emov
ing
the
rear
cov
er).
5.2.
1G
ener
al
Nex
t ite
ms
are
appl
icab
le to
all
Serv
ice
Mod
es o
r are
gen
eral
.
Life
Tim
erD
urin
g th
e lif
e tim
e cy
cle
of th
e TV
set
, a ti
mer
is k
ept (
calle
d “O
p. H
our”
). It
coun
ts th
e no
rmal
ope
ratio
n ho
urs
(not
the
Sta
nd-b
y ho
urs)
. The
act
ual v
alue
of t
he ti
mer
is d
ispl
ayed
in
SD
M a
nd S
AM
in a
dec
imal
val
ue. E
very
two
soft-
rese
ts
incr
ease
the
hour
by
+1. S
tand
-by
hour
s ar
e no
t cou
nted
.
Softw
are
Iden
tific
atio
n, V
ersi
on, a
nd C
lust
erTh
e so
ftwar
e ID
, ver
sion
, and
clu
ster
will
be
show
n in
the
mai
n m
enu
disp
lay
of S
DM
, SA
M, a
nd C
SM
.Th
e sc
reen
will
sho
w: “
AA
AA
AA
B-X
X.YY
”, w
here
: •
AA
AA
AA
is th
e ch
assi
s na
me:
L11
M11
.•
B is
the
regi
on in
dica
tion:
E=
Eur
ope,
A=
AP/
Chi
na, U
= N
AFT
A, L
= LA
TAM
.•
XX is
the
mai
n ve
rsio
n nu
mbe
r: th
is is
upd
ated
with
a m
ajor
ch
ange
of s
peci
ficat
ion
(inco
mpa
tible
with
the
prev
ious
so
ftwar
e ve
rsio
n). N
umbe
ring
will
go
from
01
- 99
and
AA
- ZZ
.–
If th
e m
ain
vers
ion
num
ber c
hang
es, t
he n
ew v
ersi
on
num
ber i
s w
ritte
n in
the
NV
M.
–If
the
mai
n ve
rsio
n nu
mbe
r cha
nges
, the
def
ault
setti
ngs
are
load
ed.
•YY
is th
e su
b ve
rsio
n nu
mbe
r: th
is is
upd
ated
with
a m
inor
ch
ange
(bac
kwar
ds c
ompa
tible
with
the
prev
ious
ver
sion
s)
Num
berin
g w
ill g
o fro
m 0
0 - 9
9.–
If th
e su
b ve
rsio
n nu
mbe
r cha
nges
, the
new
ver
sion
nu
mbe
r is
writ
ten
in th
e N
VM
.–
If th
e N
VM
is fr
esh,
the
softw
are
iden
tific
atio
n, v
ersi
on,
and
clus
ter w
ill b
e w
ritte
n to
NV
M.
Dis
play
Opt
ion
Cod
e Se
lect
ion
Whe
n af
ter a
n S
SB
or d
ispl
ay e
xcha
nge,
the
disp
lay
optio
n co
de is
not
set
pro
perly
, it w
ill re
sult
in a
TV
with
“no
disp
lay”
. Th
eref
ore,
it is
requ
ired
to s
et th
is d
ispl
ay o
ptio
n co
de a
fter
such
a re
pair.
To d
o so
, pre
ss th
e fo
llow
ing
key
sequ
ence
on
a st
anda
rd R
C
trans
mitt
er: “
0625
98” d
irect
ly fo
llow
ed b
y M
ENU
/HO
ME
and
“xxx
”, w
here
“xxx
” is
a 3
digi
t dec
imal
val
ue o
f the
pan
el ty
pe,
see
stic
ker o
n th
e si
de/b
otto
m o
f the
cab
inet
. Whe
n th
e va
lue
is a
ccep
ted
and
stor
ed in
NV
M, t
he s
et w
ill s
witc
h to
Sta
nd-b
y,
to in
dica
te th
at th
e pr
oces
s ha
s be
en c
ompl
eted
.
Figu
re 5
-1 L
ocat
ion
of D
ispl
ay O
ptio
n C
ode
stic
ker
Dur
ing
this
alg
orith
m, t
he N
VM
-con
tent
mus
t be
filte
red,
be
caus
e se
vera
l item
s in
the
NVM
are
TV
-rel
ated
and
not
SS
B-
rela
ted
(e.g
. Mod
el a
nd P
rod.
S/N
). Th
eref
ore,
“Mod
el” a
nd
“Pro
d. S
/N” d
ata
is c
hang
ed in
to “S
ee T
ype
Pla
te”.
In c
ase
a ca
ll ce
ntre
or c
onsu
mer
read
s “S
ee T
ype
Pla
te” i
n C
SM
mod
e, h
e ne
eds
to lo
ok to
the
side
/bot
tom
stic
ker t
o id
entif
y th
e se
t, fo
r fur
ther
act
ions
.
1000
0_03
8_09
0121
.eps
0908
19
PHIL
IPS
MO
DEL:
32P
F996
8/10
PR
OD
.SE
RIA
L N
O:
AG
1A
0620 0
00001
040
39m
m
27mm
(CT
NS
ticke
r)
Dis
play
Opt
ion
Cod
e
Ser
vice
Mod
es, E
rror
Cod
es, a
nd F
ault
Find
ing
EN 1
3L1
1M1.
1L L
A5.
2011
-Apr
-29
5.2.
2Se
rvic
e D
efau
lt M
ode
(SD
M)
Purp
ose
Set
the
TV in
SD
M m
ode
in o
rder
to b
e ab
le to
cre
ate
a pr
e-de
fined
set
ting
for m
easu
rem
ents
to b
e m
ade.
In th
is p
latfo
rm,
a si
mpl
ified
SD
M is
intro
duce
d (w
ithou
t pro
tect
ion
over
ride
and
with
out t
unin
g to
a p
rede
fined
freq
uenc
y).
Spec
ifica
tions
•S
et li
near
vid
eo a
nd a
udio
set
tings
to 5
0%, b
ut v
olum
e to
25
%. S
tore
d us
er s
ettin
gs a
re n
ot a
ffect
ed.
•S
et S
mar
t Pic
ture
to “G
ame”
.•
Set
Sm
art S
ound
to “S
tand
ard”
.•
Tune
cha
nnel
to:
- for
ana
logu
e S
DM
: cha
nnel
3 (6
1.25
MH
z)- f
or d
igita
l SD
M: c
hann
el 2
6 (5
45.1
43 M
Hz)
.•
For d
igita
l SD
M: s
et P
ID d
efau
lt fro
m th
e st
ream
.•
All s
ervi
ce-u
nfrie
ndly
mod
es (i
f pre
sent
) are
dis
able
d, s
ince
th
ey in
terfe
re w
ith d
iagn
osin
g/re
pairi
ng a
set
. The
se
serv
ice
unfri
endl
y m
odes
are
:–
(Sle
ep) t
imer
.–
Blue
mut
e/W
all p
aper
.–
Auto
sw
itch
“off”
(whe
n th
ere
is n
o “id
ent”
sign
al).
–H
otel
or h
ospi
tal m
ode.
–C
hild
lock
or p
aren
tal l
ock
(man
ual o
r via
V-c
hip)
.–
Skip
ping
, bla
nkin
g of
“Not
favo
urite
”, “S
kipp
ed” o
r “L
ocke
d” p
rese
ts/c
hann
els.
–Au
tom
atic
sto
ring
of P
erso
nal P
rese
t or L
ast S
tatu
s se
tting
s.–
Auto
mat
ic u
ser m
enu
time-
out (
men
u sw
itche
s ba
ck/
OFF
aut
omat
ical
ly.
–Au
to V
olum
e le
velli
ng (A
VL)
.
How
to A
ctiv
ate
To a
ctiv
ate
anal
ogue
SD
M, u
se o
ne o
f the
follo
win
g m
etho
ds:
•P
ress
the
follo
win
g ke
y se
quen
ce o
n th
e R
C tr
ansm
itter
: “0
6259
6” d
irect
ly fo
llow
ed b
y th
e M
ENU
but
ton.
•S
hort
one
of th
e “S
ervi
ce” p
ads
on th
e TV
boa
rd d
urin
g co
ld
star
t (se
e Fi
gure
5-2
). Th
en p
ress
the
mai
ns b
utto
n (r
emov
e th
e sh
ort a
fter s
tart-
up).
Cau
tion:
Whe
n do
ing
this
, the
ser
vice
-tech
nici
an m
ust
know
exa
ctly
wha
t he
is d
oing
, as
it co
uld
dam
age
the
tele
visi
on s
et.
To a
ctiv
ate
digi
tal S
DM
:•
Pre
ss th
e fo
llow
ing
sequ
ence
on
the
RC
tran
smitt
er:
“062
593”
dire
ctly
follo
wed
by
the
MEN
U b
utto
n.
Figu
re 5
-2 S
ervi
ce p
ads
(SSB
com
pone
nt s
ide)
On
Scre
en M
enu
Afte
r act
ivat
ing
SDM
, the
follo
win
g ite
ms
are
disp
laye
d, w
ith
“SD
M” i
n th
e up
per r
ight
cor
ner o
f the
scr
een
to in
dica
te th
at th
e te
levi
sion
is in
Ser
vice
Def
ault
Mod
e.M
enu
item
s an
d ex
plan
atio
n:•
xxxx
x: O
pera
ting
hour
s (in
dec
imal
).•
AA
AA
AA
B-X
X.YY
: See
par
agra
ph S
oftw
are
Iden
tific
atio
n, V
ersi
on, a
nd C
lust
er fo
r the
SW
nam
e de
finiti
on.
•ER
R: S
how
s al
l err
ors
dete
cted
sin
ce th
e la
st ti
me
the
buffe
r was
era
sed
in fo
rmat
<xx
x> <
xxx>
<xx
x> <
xxx>
<x
xx>
(five
err
ors
poss
ible
).•
OP:
Use
d to
read
-out
the
optio
n by
tes.
Ten
cod
es (i
n tw
o ro
ws)
are
pos
sibl
e.
How
to N
avig
ate
As
this
mod
e is
read
onl
y, th
ere
is n
ot m
uch
to n
avig
ate.
To
switc
h to
oth
er m
odes
, use
one
of t
he fo
llow
ing
met
hods
:•
Com
man
d M
ENU
from
the
user
rem
ote
will
ent
er th
e no
rmal
use
r men
u (b
right
ness
, con
trast
, col
or, e
tc...
) with
“S
DM
” OS
D re
mai
ning
, and
pre
ssin
g M
EN
U k
ey a
gain
will
re
turn
to th
e la
st s
tatu
s of
SD
M a
gain
.•
To p
reve
nt th
e O
SD
from
inte
rferin
g w
ith m
easu
rem
ents
in
SD
M, c
omm
and
“OS
D” o
r “i+
” (“S
TATU
S” o
r “IN
FO” f
or
NA
FTA
and
LA
TAM
) fro
m th
e us
er re
mot
e w
ill to
ggle
the
OSD
“on/
off”
with
“SD
M” O
SD re
mai
ning
alw
ays
“on”
.•
Pre
ss th
e fo
llow
ing
key
sequ
ence
on
the
rem
ote
cont
rol
trans
mitt
er: “
0625
96” d
irect
ly fo
llow
ed b
y th
e IN
FO[i+
]/OK
butto
n to
sw
itch
to S
AM (d
o no
t allo
w th
e di
spla
y to
tim
e ou
t be
twee
n en
tries
whi
le k
eyin
g th
e se
quen
ce).
How
to E
xit
Sw
itch
the
set t
o S
tand
-by
by•
pres
sing
the
stan
dby
butto
n on
the
rem
ote
cont
rol
trans
mitt
er o
r on
the
tele
visi
on s
et, o
r•
via
a st
anda
rd R
C-tr
ansm
itter
by
keyi
ng th
e “0
0” s
eque
nce.
If yo
u sw
itch
the
tele
visi
on s
et “o
ff” b
y re
mov
ing
the
mai
ns (i
.e.,
unpl
uggi
ng th
e te
levi
sion
), th
e te
levi
sion
set
will
rem
ain
in S
DM
w
hen
mai
ns is
re-a
pplie
d, a
nd th
e er
ror b
uffe
r is
not c
lear
ed.
The
erro
r buf
fer w
ill o
nly
be c
lear
ed w
hen
the
“cle
ar” c
omm
and
is u
sed
in th
e S
AM
men
u.
Not
e:•
If th
e TV
is s
witc
hed
“off”
by
a po
wer
inte
rrup
t whi
le in
SD
M,
the
TV w
ill s
how
up
in th
e la
st s
tatu
s of
SD
M m
enu
as s
oon
as th
e po
wer
is s
uppl
ied
agai
n. T
he e
rror
buf
fer w
ill n
ot b
e cl
eare
d.•
In c
ase
the
set i
s ac
cide
ntal
ly in
Fac
tory
mod
e (w
ith a
n “F
” di
spla
yed
on th
e sc
reen
), pr
essi
ng a
nd h
oldi
ng “V
OL-
“ bu
tton
for 5
sec
onds
and
then
follo
wed
by
pres
sing
and
ho
ldin
g th
e “C
H-”
but
ton
for a
noth
er 5
sec
onds
sho
uld
exit
the
Fact
ory
mod
e.
5.2.
3Se
rvic
e A
lignm
ent M
ode
(SA
M)
Purp
ose
•To
cha
nge
optio
n se
tting
s.•
To d
ispl
ay /
clea
r the
erro
r cod
e bu
ffer.
•To
per
form
alig
nmen
ts.
Spec
ifica
tions
•O
pera
tion
hour
s co
unte
r (m
axim
um fi
ve d
igits
dis
play
ed).
•S
oftw
are
vers
ion,
err
or c
odes
, and
opt
ion
setti
ngs
disp
lay.
•E
rror
buf
fer c
lear
ing.
•O
ptio
n se
tting
s.•
Sof
twar
e al
ignm
ents
(Whi
te T
one)
.•
NV
M E
dito
r.•
Set
scr
een
mod
e to
full
scre
en (a
ll co
nten
t is
visi
ble)
.•
Set
Sm
art P
ictu
re to
“Gam
e”.
How
to A
ctiv
ate
To a
ctiv
ate
SA
M, u
se o
ne o
f the
follo
win
g m
etho
ds:
•P
ress
the
follo
win
g ke
y se
quen
ce o
n th
e re
mot
e co
ntro
l tra
nsm
itter
: “06
2596
” dire
ctly
follo
wed
by
the
INFO
[i+] /
OK
butto
n. D
o no
t allo
w th
e di
spla
y to
tim
e ou
t bet
wee
n en
tries
w
hile
key
ing
the
sequ
ence
.•
Or v
ia C
omP
air.
Afte
r ent
erin
g S
AM, t
he fo
llow
ing
item
s ar
e di
spla
yed,
with
“S
AM
” in
the
uppe
r rig
ht c
orne
r of t
he s
cree
n to
indi
cate
that
the
tele
visi
on is
in S
ervi
ce A
lignm
ent M
ode.
1913
0_00
8_11
0426
.eps
1104
26
SDM
Ser
vice
Mod
es, E
rror
Cod
es, a
nd F
ault
Find
ing
EN 1
4L1
1M1.
1L L
A5.
2011
-Apr
-29
Men
u ite
ms
and
expl
anat
ion:
1.S
yste
m In
form
atio
n.•
Op
Hou
r: T
his
repr
esen
ts th
e lif
e tim
er. T
he ti
mer
co
unts
nor
mal
ope
ratio
n ho
urs,
but
doe
s no
t cou
nt
Sta
nd-b
y ho
urs.
•M
AIN
SW
ID: S
ee p
arag
raph
Sof
twar
e Id
entif
icat
ion,
V
ersi
on, a
nd C
lust
er fo
r the
SW
nam
e de
finiti
on.
•ER
R: S
how
s al
l err
ors
dete
cted
sin
ce th
e la
st ti
me
the
buffe
r was
era
sed.
Fiv
e er
rors
pos
sibl
e.•
OP1
/OP2
: Use
d to
read
-out
the
optio
n by
tes.
See
pa
ragr
aph
6.6
Opt
ion
Set
tings
in th
e A
lignm
ents
se
ctio
n fo
r a d
etai
led
desc
riptio
n. T
en c
odes
are
po
ssib
le.
2.Tu
ner.
•A
GC
Adj
ustm
ent:
See
par
agra
ph 6
.3.1
for
inst
ruct
ions
.•
Stor
e: T
o st
ore
the
data
.3.
Cle
ar. E
rase
s th
e co
nten
ts o
f the
err
or b
uffe
r. S
elec
t thi
s m
enu
item
and
pre
ss th
e M
EN
U R
IGH
T ke
y on
the
rem
ote
cont
rol.
The
cont
ent o
f the
err
or b
uffe
r is
clea
red.
4.O
ptio
ns. T
o se
t the
opt
ion
bits
. See
par
agra
ph 6
.6 O
ptio
n S
ettin
gs in
the
“Alig
nmen
ts” c
hapt
er fo
r a d
etai
led
desc
riptio
n.5.
RG
B A
lign.
To
alig
n th
e W
hite
Ton
e. S
ee W
hite
Ton
e A
lignm
ent:
for a
det
aile
d de
scrip
tion.
6.N
VM E
dito
r. To
cha
nge
the
NV
M d
ata
in th
e te
levi
sion
set
. S
ee a
lso
para
grap
h 5.
6 Fa
ult F
indi
ng a
nd R
epai
r Tip
s.7.
Upl
oad
to U
SB
.8.
Dow
nloa
d fr
om U
SB.
9.In
itial
ise
NVM
. To
initi
aliz
e a
(cor
rupt
ed) N
VM
. Be
care
ful,
this
will
era
se a
ll se
tting
s!10
.Aut
o A
DC
. Ref
er to
cha
pter
6. A
lignm
ents
for d
etai
led
info
rmat
ion.
11.E
DID
Writ
e En
able
. Ena
bles
ED
ID w
ritin
g (n
ot a
pplic
able
to
Ber
linal
e se
ts).
12.S
ervi
ce D
ata.
Virt
ual K
ey b
oard
for c
hara
cter
inpu
t ent
ry.
How
to N
avig
ate
•In
the
SA
M m
enu,
sel
ect m
enu
item
s w
ith th
e U
P/D
OW
N
keys
on
the
rem
ote
cont
rol t
rans
mitt
er. T
he s
elec
ted
item
w
ill b
e in
dica
ted.
Whe
n no
t all m
enu
item
s fit
on
the
scre
en,
use
the
UP
/DO
WN
key
s to
dis
play
the
next
/ pr
evio
us
men
u ite
ms.
•W
ith th
e LE
FT/R
IGH
T ke
ys, i
t is
poss
ible
to:
–A
ctiv
ate
the
sele
cted
men
u ite
m.
–C
hang
e th
e va
lue
of th
e se
lect
ed m
enu
item
.–
Act
ivat
e th
e se
lect
ed s
ub m
enu.
•W
hen
you
pres
s th
e M
EN
U b
utto
n tw
ice
whi
le in
top
leve
l S
AM, t
he s
et w
ill s
witc
h to
the
norm
al u
ser m
enu
(with
the
SAM
mod
e st
ill a
ctiv
e in
the
back
grou
nd).
To re
turn
to th
e S
AM m
enu
pres
s th
e M
EN
U b
utto
n.•
The
“INFO
[i+]/O
K” k
ey fr
om th
e us
er re
mot
e w
ill to
ggle
the
OS
D “o
n/of
f” w
ith “S
AM
” OS
D re
mai
ning
alw
ays
“on”
.•
Pre
ss th
e fo
llow
ing
key
sequ
ence
on
the
rem
ote
cont
rol
trans
mitt
er: “
0625
96” d
irect
ly fo
llow
ed b
y th
e M
ENU
but
ton
to s
witc
h to
SD
M (d
o no
t allo
w th
e di
spla
y to
tim
e ou
t be
twee
n en
tries
whi
le k
eyin
g th
e se
quen
ce).
How
to S
tore
SA
M S
ettin
gsTo
sto
re th
e se
tting
s ch
ange
d in
SA
M m
ode
(exc
ept t
he
OP
TIO
NS
and
RG
B A
LIG
N s
ettin
gs),
leav
e th
e to
p le
vel S
AM
m
enu
by u
sing
the
PO
WE
R b
utto
n on
the
rem
ote
cont
rol
trans
mitt
er o
r the
tele
visi
on s
et. T
he m
entio
ned
exce
ptio
ns
mus
t be
stor
ed s
epar
atel
y vi
a th
e S
TOR
E bu
tton.
How
to E
xit
Sw
itch
the
set t
o S
TAN
DB
Y b
y pr
essi
ng th
e m
ains
but
ton
on
the
rem
ote
cont
rol t
rans
mitt
er o
r the
tele
visi
on s
et, o
r by
keyi
ng-in
the
“00”
seq
uenc
e on
a s
tand
ard
RC
-tran
smitt
er.
Not
e:•
Whe
n th
e TV
is s
witc
hed
“off”
by
a po
wer
inte
rrup
t whi
le in
S
AM, t
he T
V w
ill s
how
up
in “n
orm
al o
pera
tion
mod
e” a
s
soon
as
the
pow
er is
sup
plie
d ag
ain.
The
err
or b
uffe
r will
no
t be
clea
red.
•In
cas
e th
e se
t is
in F
acto
ry m
ode
by a
ccid
ent (
with
“F”
disp
laye
d on
scr
een)
, pre
ssin
g an
d ho
ldin
g “V
OL-
“ but
ton
for 5
sec
onds
and
then
follo
wed
by
pres
sing
and
hol
ding
th
e “C
H-”
but
ton
for a
noth
er 5
sec
onds
sho
uld
exit
the
Fact
ory
mod
e.
5.2.
4C
usto
mer
Ser
vice
Mod
e (C
SM)
Purp
ose
The
Cus
tom
er S
ervi
ce M
ode
show
s er
ror c
odes
and
in
form
atio
n on
the
TV’s
ope
ratio
n se
tting
s. A
cal
l cen
tre c
an
inst
ruct
the
cust
omer
(by
tele
phon
e) to
ent
er C
SM
in o
rder
to
iden
tify
the
stat
us o
f the
set
. Thi
s he
lps
them
to d
iagn
ose
prob
lem
s an
d fa
ilure
s in
the
TV b
efor
e m
akin
g a
serv
ice
call.
The
CS
M is
a re
ad-o
nly
mod
e; th
eref
ore,
mod
ifica
tions
are
not
po
ssib
le in
this
mod
e.
Spec
ifica
tions
•Ig
nore
“Ser
vice
unf
riend
ly m
odes
”.•
Set
vol
ume
to 2
5%.
•S
et S
mar
t Pic
ture
to “G
ame”
.•
Set
Sm
art S
ound
to “S
tand
ard”
.•
Line
num
ber f
or e
very
line
(to
mak
e C
SM
lang
uage
in
depe
nden
t).•
Set
the
scre
en m
ode
to fu
ll sc
reen
(all
cont
ents
on
scre
en
is v
isib
le).
•A
fter l
eavi
ng th
e C
usto
mer
Ser
vice
Mod
e, th
e or
igin
al
setti
ngs
are
rest
ored
.•
Pos
sibi
lity
to u
se “C
H+”
or “
CH
-” fo
r cha
nnel
sur
fing,
or
ente
r the
spe
cific
cha
nnel
num
ber o
n th
e R
C.
How
to A
ctiv
ate
To a
ctiv
ate
CS
M, p
ress
the
follo
win
g ke
y se
quen
ce o
n a
stan
dard
rem
ote
cont
rol t
rans
mitt
er: “
1236
54” (
do n
ot a
llow
the
disp
lay
to ti
me
out b
etw
een
entri
es w
hile
key
ing
the
sequ
ence
).
Afte
r ent
erin
g th
e C
usto
mer
Ser
vice
Mod
e, th
e fo
llow
ing
item
s ar
e di
spla
yed:
Men
u Ex
plan
atio
n C
SM1
1.Se
t Typ
e. T
ype
num
ber,
e.g.
32P
FL36
05/7
8. (*
)2.
Prod
uctio
n co
de. P
rodu
ct s
eria
l no.
, e.g
. B
Z1A1
0081
2345
6 (*
). B
Z= P
rodu
ctio
n ce
ntre
, 1=
BO
M
code
, A=
Ser
vice
ver
sion
cha
nge
code
, 10=
Pro
duct
ion
year
, 08=
Pro
duct
ion
wee
k, 1
2345
6= S
eria
l num
ber.
3.In
stal
latio
n da
te. I
ndic
ates
the
date
of t
he fi
rst i
nitia
lizat
ion
of th
e TV
. Th i
s da
te is
acq
uire
d vi
a tim
e ex
tract
ion.
4.a
- Opt
ion
Cod
e 1.
Opt
ion
code
info
rmat
ion
(gro
up 1
).b
- Opt
ion
Cod
e 2.
Opt
ion
code
info
rmat
ion
(gro
up 2
).5.
SSB
. Ind
icat
ion
of th
e S
SB
fact
ory
ID (=
12n
c). (
*)6.
Dis
play
. Ind
icat
ion
of th
e di
spla
y ID
(=12
nc)
. (*)
7.PS
U. I
ndic
atio
n of
the
PS
U fa
ctor
y ID
(= 1
2nc)
.
(*) I
f an
NV
M IC
is re
plac
ed o
r ini
tializ
ed, t
hese
item
s m
ust b
e re
-writ
ten
to it
. Com
Pair
will
fore
see
in a
pos
sibi
lity
to d
o th
is.
Als
o th
e N
VM
edi
tor i
n th
e S
AM
men
u ca
n be
use
d.
Men
u Ex
plan
atio
n C
SM2
1.C
urre
nt M
ain
SW. S
how
s th
e m
ain
softw
are
vers
ion.
2.St
andb
y SW
. Sho
ws
the
Sta
nd-b
y so
ftwar
e ve
rsio
n.3.
Pane
l Cod
e. S
how
s th
e cu
rren
t dis
play
cod
e.4.
Boo
tload
er ID
. Sho
ws
the
Boo
tload
er s
oftw
are
ID.
5.N
VM V
ersi
on. T
he N
VM
sof
twar
e ve
rsio
n no
.6.
Flas
h ID
. Sho
ws
the
flash
ID.
Men
u Ex
plan
atio
n C
SM3
1.Si
gnal
Qua
lity.
Sho
ws
the
sign
al q
ualit
y (N
o Tu
ned/
Poo
r/A
vera
ge/G
ood)
.2.
Chi
ld lo
ck. T
his
is a
com
bine
d ite
m fo
r loc
ks. I
f any
lock
(P
rese
t loc
k, c
hild
lock
, loc
k af
ter,
or P
aren
tal l
ock)
is
activ
e, th
is it
em in
dica
tes
“act
ive”
.
Ser
vice
Mod
es, E
rror
Cod
es, a
nd F
ault
Find
ing
EN 1
5L1
1M1.
1L L
A5.
2011
-Apr
-29
3.H
DC
P K
eys.
Indi
cate
s if
the
HD
MI k
eys
(or H
DC
P k
eys)
ar
e va
lid o
r not
. Not
app
licab
le to
Ber
linal
e se
ries.
4.no
t use
d5.
not u
sed
6.no
t use
d7.
not u
sed.
Cre
ate
a C
SM d
ump
on a
n U
SB s
tick
Ther
e w
ill b
e C
SM
dum
p to
a p
lugg
ed in
USB
-stic
k up
on
ente
ring
CS
M-m
ode.
An
exte
nded
CS
M d
umpw
ill b
e cr
eate
d w
hen
the
“OK
” but
ton
on R
C is
pre
ssed
in C
SM
whi
le a
US
B
stic
k is
plu
gged
in. A
dire
ct C
SM
flas
h du
mp
will
be
crea
ted
whe
n th
e bu
ttons
“red
+ 2
679”
on
the
rem
ote
cont
rol a
re
pres
sed
in C
SM
whi
le a
US
B s
tick
is p
lugg
ed in
.
How
to E
xit
To e
xit C
SM
, use
one
of t
he fo
llow
ing
met
hods
:•
Pre
ss th
e M
EN
U/H
OM
E bu
tton
on th
e re
mot
e co
ntro
l tra
nsm
itter
.•
Pre
ss th
e P
OW
ER
but
ton
on th
e re
mot
e co
ntro
l tra
nsm
itter
.•
Pre
ss th
e P
OW
ER
but
ton
on th
e te
levi
sion
set
.
5.3
Serv
ice
Tool
s
5.3.
1C
omPa
ir
Intr
oduc
tion
Com
Pai
r (C
ompu
ter A
ided
Rep
air)
is a
Ser
vice
tool
for P
hilip
s C
onsu
mer
Ele
ctro
nics
pro
duct
s. a
nd o
ffers
the
follo
win
g:1.
Com
Pai
r hel
ps y
ou to
qui
ckly
get
an
unde
rsta
ndin
g on
how
to
repa
ir th
e ch
assi
s in
a s
hort
and
effe
ctiv
e w
ay.
2.C
omP
air a
llow
s ve
ry d
etai
led
diag
nost
ics
and
is th
eref
ore
capa
ble
of a
ccur
atel
y in
dica
ting
prob
lem
are
as. Y
ou d
o no
t ha
ve to
kno
w a
nyth
ing
abou
t I2C
or U
AR
T co
mm
ands
yo
urse
lf, b
ecau
se C
omP
air t
akes
car
e of
this
.3.
Com
Pai
r spe
eds
up th
e re
pair
time
sinc
e it
can
auto
mat
ical
ly c
omm
unic
ate
with
the
chas
sis
(whe
n th
e uP
is
wor
king
) and
all
repa
ir in
form
atio
n is
dire
ctly
ava
ilabl
e.4.
Com
Pai
r fea
ture
s TV
sof
twar
e up
pos
sibi
litie
s.
Spec
ifica
tions
Com
Pai
r con
sist
s of
a W
indo
ws
base
d fa
ult f
indi
ng p
rogr
am
and
an in
terfa
ce b
ox b
etw
een
PC
and
the
(def
ectiv
e) p
rodu
ct.
The
(new
) Com
Pai
r II i
nter
face
box
is c
onne
cted
to th
e PC
via
an
USB
cab
le. F
or th
e TV
cha
ssis
, the
Com
Pai
r int
erfa
ce b
ox
and
the
TV c
omm
unic
ate
via
a bi
-dire
ctio
nal c
able
via
the
serv
ice
conn
ecto
r(s)
.
How
to C
onne
ctTh
is is
des
crib
ed in
the
Com
Pai
r cha
ssis
faul
t fin
ding
dat
abas
e.
Figu
re 5
-3 C
omPa
ir II
inte
rfac
e co
nnec
tion
Cau
tion:
It is
com
puls
ory
to c
onne
ct th
e TV
to th
e P
C a
s sh
own
in th
e pi
ctur
e ab
ove
(with
the
Com
Pai
r int
erfa
ce in
be
twee
n), a
s th
e C
omP
air i
nter
face
act
s as
a le
vel s
hifte
r. If
one
conn
ects
the
TV d
irect
ly to
the
PC
(via
UA
RT)
, IC
s w
ill b
e bl
own!
How
to O
rder
Com
Pai
r II o
rder
cod
es:
•C
omP
air I
I int
erfa
ce: 3
122
785
9102
0.•
Com
Pai
r UA
RT
inte
rface
cab
le: 3
138
188
7505
1.•
Pro
gram
sof
twar
e ca
n be
dow
nloa
ded
from
the
Phi
lips
Ser
vice
web
por
tal.
Not
e: F
or th
is c
hass
is, “
Pga
mm
ar” a
nd “T
-con
NV
M”
prog
ram
min
g (V
CO
M a
lignm
ent)
are
adde
d to
Com
Pair.
Add
ition
al c
able
s fo
r VC
OM
Alig
nmen
t•
Com
Pai
r/I2 C
inte
rface
cab
le: 3
122
785
9000
4.•
Com
Pai
r/VG
A a
dapt
er c
able
: 996
5 10
0 09
269.
5.4
Erro
r Cod
es
5.4.
1In
trod
uctio
n
Err
or c
odes
are
requ
ired
to in
dica
te fa
ilure
s in
the
TV s
et. I
n pr
inci
ple
a un
ique
err
or c
ode
is a
vaila
ble
for e
very
:•
Act
ivat
ed (S
W) p
rote
ctio
n.•
Faili
ng I2 C
dev
ice.
•G
ener
al I2 C
err
or.
The
last
five
err
ors,
sto
red
in th
e N
VM
, are
sho
wn
in th
e S
ervi
ce m
enu’
s. T
his
is c
alle
d th
e er
ror b
uffe
r.Th
e er
ror c
ode
buffe
r con
tain
s al
l err
ors
dete
cted
sin
ce th
e la
st
time
the
buffe
r was
era
sed.
The
buf
fer i
s w
ritte
n fro
m le
ft to
rig
ht. W
hen
an e
rror
occ
urs
that
is n
ot y
et in
the
erro
r cod
e bu
ffer,
it is
dis
play
ed a
t the
left
side
and
all o
ther
err
ors
shift
one
po
sitio
n to
the
right
.A
n er
ror w
ill b
e ad
ded
to th
e bu
ffer i
f thi
s er
ror d
iffer
s fro
m a
ny
erro
r in
the
buffe
r. Th
e la
st fo
und
erro
r is
disp
laye
d on
the
left.
An
erro
r with
a d
esig
nate
d er
ror c
ode
neve
r lea
ds to
a
dead
lock
situ
atio
n. It
mus
t alw
ays
be d
iagn
osab
le (e
.g. e
rror
bu
ffer v
ia O
SD
or b
linki
ng L
ED
or v
ia C
omP
air)
.In
cas
e a
failu
re id
entif
ied
by a
n er
ror c
ode
auto
mat
ical
ly
resu
lts in
oth
er e
rror
cod
es (c
ause
and
effe
ct),
only
the
erro
r co
de o
f the
MA
IN fa
ilure
is d
ispl
ayed
.
1000
0_03
6_09
0121
.eps
0911
18
TO
UA
RT
SE
RV
ICE
CO
NN
EC
TOR
TO
UA
RT
SE
RV
ICE
CO
NN
EC
TOR
TO
I2C
SE
RV
ICE
CO
NN
EC
TOR
TO
TV
PC
HDM
II2 C
only
Opt
iona
l pow
er5V
DC
Com
Pair
II De
velo
ped
by P
hilip
s Br
ugge
RC o
utRC
in Opt
iona
lSw
itch
Powe
rM
ode
Link
/Ac
tivity
I2 C
Com
Pair
IIM
ulti
func
tion
RS23
2 /U
ART
Ser
vice
Mod
es, E
rror
Cod
es, a
nd F
ault
Find
ing
EN 1
6L1
1M1.
1L L
A5.
2011
-Apr
-29
5.4.
2H
ow to
Rea
d th
e Er
ror B
uffe
r
You
can
read
the
erro
r buf
fer i
n th
ree
way
s:•
On
scre
en v
ia th
e S
AM/S
DM
/CS
M (i
f you
hav
e a
pict
ure)
. E
xam
ple:
–ER
RO
R: 0
0 0
0 0
: N
o er
rors
det
ecte
d–
ERR
OR
: 6 0
0 0
0 :
Err
or c
ode
6 is
the
last
and
onl
y de
tect
ed e
rror
–ER
RO
R: 9
6 0
0 0
: E
rror
cod
e 6
was
det
ecte
d fir
st a
nd
erro
r cod
e 9
is th
e la
st d
etec
ted
(new
est)
erro
r•
Via
the
blin
king
LE
D p
roce
dure
(whe
n yo
u ha
ve n
o pi
ctur
e). S
ee p
arag
raph
5.5
The
Blin
king
LE
D P
roce
dure
.•
Via
Com
Pair.
5.4.
3Er
ror c
odes
The
“laye
r 1” e
rror
cod
es a
re p
oint
ing
to th
e de
fect
ive
boar
d.
They
are
trig
gere
d by
LE
D b
linki
ng w
hen
CS
M is
act
ivat
ed. I
n th
e LC
10 p
latfo
rm, o
nly
two
boar
ds a
re p
rese
nt: t
he S
SB
and
th
e P
SU
/IPB
, mea
ning
onl
y th
e fo
llow
ing
laye
r 1 e
rror
s ar
e de
fined
:•
2: S
SB
•3:
IPB
/PS
U•
4: D
ispl
ay
Tabl
e 5-
1 Er
ror c
ode
tabl
e
5.4.
4H
ow to
Cle
ar th
e Er
ror B
uffe
r
The
erro
r cod
e bu
ffer i
s cl
eare
d in
the
follo
win
g ca
ses:
•B
y us
ing
the
CLE
AR
com
man
d in
the
SAM
men
u:•
By
usin
g th
e fo
llow
ing
key
sequ
ence
on
the
rem
ote
cont
rol
trans
mitt
er: “
0625
99” d
irect
ly fo
llow
ed b
y th
e O
Kbu
tton.
•If
the
cont
ents
of t
he e
rror
buf
fer h
ave
not c
hang
ed fo
r 50
hour
s, th
e er
ror b
uffe
r res
ets
auto
mat
ical
ly.
Not
e: If
you
exi
t SA
M b
y di
scon
nect
ing
the
mai
ns fr
om th
e te
levi
sion
set
, the
err
or b
uffe
r is
not r
eset
.
5.5
The
Blin
king
LED
Pro
cedu
re
5.5.
1In
trod
uctio
n
The
softw
are
is c
apab
le o
f ide
ntify
ing
diffe
rent
kin
ds o
f erro
rs.
Bec
ause
it is
pos
sibl
e th
at m
ore
than
one
err
or c
an o
ccur
ove
r tim
e, a
n er
ror b
uffe
r is
avai
labl
e, w
hich
is c
apab
le o
f sto
ring
the
last
five
err
ors
that
occ
urre
d. T
his
is u
sefu
l if t
he O
SD
is n
ot
wor
king
pro
perly
.
Err
ors
can
also
be
disp
laye
d by
the
blin
king
LE
D p
roce
dure
. Th
e m
etho
d is
to re
peat
edly
let t
he fr
ont L
ED
pul
se w
ith a
s m
any
puls
es a
s th
e er
ror c
ode
num
ber,
follo
wed
by
a pe
riod
of
1.5
seco
nds
in w
hich
the
LED
is “o
ff”. T
hen
this
seq
uenc
e is
re
peat
ed.
Exam
ple
(1):
erro
r cod
e 4
will
resu
lt in
four
tim
es th
e se
quen
ce
LED
“on”
for 0
.25
seco
nds
/ LE
D “o
ff” fo
r 0.2
5 se
cond
s. A
fter
this
seq
uenc
e, th
e LE
D w
ill be
“off”
for 1
.5 s
econ
ds. A
ny R
C
com
man
d te
rmin
ates
the
sequ
ence
. Err
or c
ode
LED
blin
king
is
in re
d co
lor.
Exam
ple
(2):
the
cont
ent o
f the
err
or b
uffe
r is
“12
96
00”
Afte
r ent
erin
g S
DM
, the
follo
win
g oc
curs
: •
1 lo
ng b
link
of 5
sec
onds
to s
tart
the
sequ
ence
,•
12 s
hort
blin
ks fo
llow
ed b
y a
paus
e of
1.5
sec
onds
,•
9 sh
ort b
links
follo
wed
by
a pa
use
of 1
.5 s
econ
ds,
•6
shor
t blin
ks fo
llow
ed b
y a
paus
e of
1.5
sec
onds
,•
1 lo
ng b
link
of 1
.5 s
econ
ds to
fini
sh th
e se
quen
ce,
•Th
e se
quen
ce s
tarts
aga
in w
ith 1
2 sh
ort b
links
.
5.5.
2D
ispl
ayin
g th
e En
tire
Erro
r Buf
fer
Add
ition
ally
, the
ent
ire e
rror
buf
fer i
s di
spla
yed
whe
n S
ervi
ce
Mod
e “S
DM
” is
ente
red.
5.6
Faul
t Fin
ding
and
Rep
air T
ips
Not
es:
•It
is a
ssum
ed th
at th
e co
mpo
nent
s ar
e m
ount
ed c
orre
ctly
w
ith c
orre
ct v
alue
s an
d no
bad
sol
der j
oint
s.
•B
efor
e an
y fa
ult f
indi
ng a
ctio
ns, c
heck
if th
e co
rrec
t op
tions
are
set
.
5.6.
1N
VM E
dito
r
In s
ome
case
s, it
can
be
conv
enie
nt if
one
dire
ctly
can
cha
nge
the
NV
M c
onte
nts.
Thi
s ca
n be
don
e w
ith th
e “N
VM
Edi
tor”
in
SA
M m
ode.
With
this
opt
ion,
sin
gle
byte
s ca
n be
cha
nged
.
Cau
tion:
•
Do
not c
hang
e th
ese,
with
out u
nder
stan
ding
the
func
tion
of e
ach
setti
ng, b
ecau
se in
corr
ect N
VM
setti
ngs
may
ser
ious
ly h
ampe
r the
cor
rect
func
tioni
ng
of th
e TV
set
!•
Alw
ays
writ
e do
wn
the
exis
ting
NVM
set
tings
, bef
ore
chan
ging
the
setti
ngs.
Thi
s w
ill e
nabl
e yo
u to
retu
rn to
the
orig
inal
set
tings
, if t
he n
ew s
ettin
gs tu
rn o
ut to
be
inco
rrec
t.
5.6.
2Lo
ad D
efau
lt N
VM V
alue
s
It is
pos
sibl
e to
dow
nloa
d de
faul
t val
ues
auto
mat
ical
ly in
to th
e N
VM
in c
ase
a bl
ank
NV
M is
pla
ced
or w
hen
the
NV
M fi
rst 2
0 ad
dres
s co
nten
ts a
re “F
F”. A
fter t
he d
efau
lt va
lues
are
do
wnl
oade
d, it
is p
ossi
ble
to s
tart-
up a
nd to
sta
rt al
igni
ng th
e TV
set
. To
initi
ate
a fo
rced
def
ault
dow
nloa
d th
e fo
llow
ing
actio
n ha
s to
be
perfo
rmed
:1.
Sw
itch
“off”
the
TV s
et w
ith th
e m
ains
cor
d di
scon
nect
ed
from
the
wal
l out
let (
it do
es n
ot m
atte
r if t
his
is fr
om “S
tand
-by
” or “
Off”
situ
atio
n).
2.S
hort-
circ
uit t
he S
DM
pad
s on
the
SS
B (k
eep
shor
t ci
rcui
ted,
see
Fig
ure
5-2)
.3.
Pre
ss “P
+” o
r “C
H+”
on
the
loca
l key
boar
d (a
nd k
eep
it pr
esse
d).
4.R
econ
nect
the
mai
ns s
uppl
y to
the
wal
l out
let.
5.R
elea
se th
e “P
+” o
r “C
H+”
whe
n th
e se
t is
star
ted
up a
nd
has
ente
red
SD
M.
Whe
n th
e do
wnl
oadi
ng h
as c
ompl
eted
suc
cess
fully
, the
set
will
pe
rform
a re
star
t. A
fter t
his,
put
the
set t
o S
tand
-by
and
rem
ove
the
shor
t-circ
uit o
n th
e S
DM
pad
s.
Alte
rnat
ive
met
hod:
It is
als
o po
ssib
le to
upl
oad
the
defa
ult v
alue
s to
the
NV
M w
ith
Com
Pai
r in
case
the
SW
is c
hang
ed, t
he N
VM
is re
plac
ed w
ith
a ne
w (e
mpt
y) o
ne, o
r whe
n th
e N
VM
con
tent
is c
orru
pted
.A
fter r
epla
cing
an
EEP
RO
M (o
r with
a d
efec
tive/
no E
EP
RO
M),
defa
ult s
ettin
gs s
houl
d be
use
d to
ena
ble
the
set t
o st
art-u
p an
d al
low
the
Ser
vice
Def
ault
Mod
e an
d S
ervi
ce A
lignm
ent M
ode
to
be a
cces
sed.
Laye
r-1
erro
r cod
e D
efec
tive
boar
dLa
yer-
2 er
ror c
ode
Def
ectiv
e de
vice
2
SSB
11
Spe
aker
DC
pro
tect
ion
activ
e on
SSB
3IP
B/P
SU
16+1
2 m
issi
ng/lo
w, P
SU
def
ectiv
e
3IP
B/P
SU
17P
OK
line
def
ectiv
e
2SS
B35
EE
PRO
M I2
C e
rror
on
SS
B, M
24C
162
SSB
34
Tune
r I2C
err
or o
n S
SB
2SS
B
23H
DM
I Mux
IC I2
C e
rror
on
SS
B - B
erni
nale
m
odel
s w
ith M
ux o
nly
2SS
B27
Cha
nnel
dec
oder
on
SS
B
4D
ispl
ay
(Inve
rter)
18LC
D P
anel
inve
rter e
rror.
INV
_STA
TUS
(fo
r 32”
set
s on
ly)
Ser
vice
Mod
es, E
rror
Cod
es, a
nd F
ault
Find
ing
EN 1
7L1
1M1.
1L L
A5.
2011
-Apr
-29
5.6.
3N
o Pi
ctur
e
Whe
n yo
u ha
ve n
o pi
ctur
e, fi
rst m
ake
sure
you
hav
e en
tere
d th
e co
rrec
t dis
play
cod
e.
See
Dis
play
Opt
ion
Cod
e S
elec
tion
for t
he in
stru
ctio
ns.
5.6.
4U
nsta
ble
Pict
ure
via
HD
MI i
nput
Che
ck (v
ia C
omP
air)
if H
DM
I ED
ID d
ata
is p
rope
rly
prog
ram
med
.
5.6.
5N
o Pi
ctur
e vi
a H
DM
I inp
ut
Che
ck if
HD
CP
key
is v
alid
. Thi
s ca
n be
don
e in
CS
M.
5.6.
6H
DM
I CEC
Not
Fun
ctio
ning
Go
to H
ome/
Men
u ->
Set
up ->
Inst
alla
tion
-> P
refe
renc
e an
d se
t the
Eas
ylin
k op
tion
to “o
n”. A
lso
chec
k if
the
conn
ecte
d de
vice
is C
EC
ena
bled
.
5.6.
7TV
Will
Not
Sta
rt-u
p fr
om S
tand
-by.
Pos
sibl
e S
tand
-by
Con
trolle
r fai
lure
. Ref
lash
the
SW
.
5.7
Softw
are
Upg
radi
ng
5.7.
1In
trod
uctio
n
It is
pos
sibl
e fo
r the
use
r to
upgr
ade
the
mai
n so
ftwar
e vi
a th
e U
SB
por
t. Th
is a
llow
s re
plac
emen
t of a
sof
twar
e im
age
in a
st
and
alon
e se
t. A
des
crip
tion
on h
ow to
upg
rade
the
mai
n so
ftwar
e ca
n be
foun
d in
the
DFU
or o
n th
e P
hilip
s w
ebsi
te.
5.7.
2M
ain
Softw
are
Upg
rade
Aut
omat
ic S
oftw
are
Upg
rade
In “n
orm
al” c
ondi
tions
, so
whe
n th
ere
is n
o m
ajor
pro
blem
with
th
e TV
, the
mai
n so
ftwar
e an
d th
e de
faul
t sof
twar
e up
grad
e ap
plic
atio
n ca
n be
upg
rade
d w
ith th
e “a
utor
un.u
pg” (
FUS
par
t in
the
one-
zip
file)
. Thi
s ca
n al
so b
e do
ne b
y th
e co
nsum
ers
them
selv
es, b
ut th
ey w
ill ha
ve to
get
thei
r sof
twar
e fro
m th
e co
mm
erci
al P
hilip
s w
ebsi
te o
r via
the
Sof
twar
e U
pdat
e A
ssis
tant
in th
e us
er m
enu
(see
DFU
). Th
e “a
utor
un.u
pg” f
ile
mus
t be
plac
ed in
the
root
of y
our U
SB
stic
k.
How
to u
pgra
de:
1.C
opy
the
“aut
orun
.upg
” file
to th
e ro
ot o
f an
US
B s
tick.
2.In
sert
the
US
B s
tick
in th
e si
de I/
O w
hile
the
set i
s “o
n”.
The
TV w
ill pr
ompt
an
upgr
ade
mes
sage
. Pre
ss “U
pdat
e”
to c
ontin
ue, a
fter w
hich
the
upgr
adin
g pr
oces
s w
ill st
art.
As
soon
as
the
prog
ram
min
g is
fini
shed
, the
set
mus
t be
rest
arte
d.
In th
e “S
etup
” men
u yo
u ca
n ch
eck
if th
e la
test
sof
twar
e is
ru
nnin
g.
5.7.
3H
ow to
Cop
y N
VM D
ata
to/fr
om U
SB
Writ
e N
VM D
ata
to U
SB1.
Inse
rt th
e U
SB
stic
k in
to th
e U
SB
slo
t whi
le in
SA
M m
ode.
2.E
xecu
te th
e co
mm
and
"NV
M C
opy"
> "N
VM
Cop
y to
USB
", to
cop
y th
e N
VM d
ata
to th
e U
SB
stic
k. T
he N
VM
file
nam
e on
the
US
B s
tick
will
be
nam
ed
"L11
M11
L_N
VM_T
2U.B
IN" (
this
take
s a
coup
le o
f se
cond
s).
Writ
e N
VM D
ata
to T
V1.
Firs
t, en
sure
(via
a P
C) t
hat t
he fi
lena
me
on th
e U
SB
stic
k ha
s th
e co
rrec
t for
mat
: "L1
1M11
L_N
VM
_U2T
.BIN
".2.
Inse
rt th
e U
SB
stic
k in
to th
e U
SB
slo
t whi
le in
SA
M m
ode.
3.E
xecu
te th
e co
mm
and
"NV
M C
opy"
> "N
VM
Cop
y fro
m
US
B" t
o co
py th
e U
SB
dat
a to
NV
M (t
his
take
s ab
out a
m
inut
e to
com
plet
e).
To w
rite
an N
VM
mas
k to
the
TV, e
nsur
e th
at th
e m
ask
has
the
corr
ect f
orm
at: "
L11M
11L_
NV
M_U
2T.M
AK"
(0x0
0 to
writ
e pr
otec
t, 0x
FF to
ove
rwrit
e).
Impo
rtan
t: Th
e fil
e m
ust b
e lo
cate
d in
the
"/R
epai
r" d
irect
ory
of th
e U
SB
stic
k.
5.7.
4H
ow to
Cop
y ED
ID D
ata
to/fr
om U
SB
Writ
e ED
ID D
ata
to U
SB1.
Inse
rt th
e U
SB
stic
k in
to th
e U
SB
slo
t whi
le in
SA
M m
ode.
2.E
xecu
te th
e co
mm
and
"NV
M C
opy"
> "E
DID
Cop
y to
U
SB
", to
cop
y th
e E
DID
dat
a to
the
US
B s
tick.
The
fil
enam
e on
the
US
B s
tick
will
be
nam
ed
"L11
M11
L_E
DID
_T2U
.BIN
" (th
is ta
kes
a co
uple
of
seco
nds)
.
Writ
e ED
ID D
ata
to T
V1.
Firs
t, en
sure
(via
a P
C) t
hat t
he fi
lena
me
on th
e U
SB
stic
k ha
s th
e co
rrec
t for
mat
: "L1
1M11
L_E
DID
_U2T
.BIN
".2.
Inse
rt th
e U
SB
stic
k in
to th
e U
SB
slo
t whi
le in
SA
M m
ode.
3.E
xecu
te th
e co
mm
and
"NV
M C
opy"
> "E
DID
Cop
y fro
m
US
B" t
o co
py th
e U
SB
dat
a to
ED
ID (t
his
take
s ab
out a
m
inut
e to
com
plet
e).
Impo
rtan
t: Th
e fil
e m
ust b
e lo
cate
d in
the
"/R
epai
r" d
irect
ory
of th
e U
SB
stic
k.
5.7.
5H
ow to
Cop
y th
e C
hann
el L
ist t
o/fr
om U
SB
Writ
e C
hann
el L
ist D
ata
to U
SB1.
Inse
rt th
e U
SB
stic
k in
to th
e U
SB
slo
t whi
le in
SA
M m
ode.
2.E
xecu
te th
e co
mm
and
"Cha
nnel
list
Cop
y to
US
B",
to c
opy
the
chan
nel l
ist d
ata
to th
e U
SB
stic
k. T
he fi
lena
me
on th
e U
SB
stic
k w
ill be
nam
ed "L
11M
11L_
CH
TB_T
2U.B
IN" (
this
ta
kes
a co
uple
of s
econ
ds).
Writ
e C
hann
el L
ist D
ata
to T
V1.
Firs
t, en
sure
(via
a P
C) t
hat t
he fi
lena
me
on th
e U
SB
stic
k ha
s th
e co
rrec
t for
mat
: "L1
1M11
L_C
HTB
_U2T
.BIN
".2.
Inse
rt th
e U
SB
stic
k in
to th
e U
SB
slo
t whi
le in
SA
M m
ode.
3.E
xecu
te th
e co
mm
and
"Cha
nel l
ist C
opy
from
US
B" t
o co
py th
e U
SB
dat
a to
the
TV (t
his
take
s ab
out a
min
ute
to
com
plet
e).
Impo
rtan
t: Th
e fil
e m
ust b
e lo
cate
d in
the
"/R
epai
r" d
irect
ory
of th
e U
SB
stic
k.
Alig
nmen
tsEN
18
L11M
1.1L
LA
6.
2011
-Apr
-29
6.A
lignm
ents
Inde
x of
this
cha
pter
:6.
1 G
ener
al A
lignm
ent C
ondi
tions
6.2
Har
dwar
e A
lignm
ents
6.3
Sof
twar
e A
lignm
ents
6.4
AD
C g
ain
adju
stm
ent
6.6
Opt
ion
Set
tings
Not
e: F
igur
es b
elow
can
dev
iate
slig
htly
from
the
actu
al
situ
atio
n, d
ue to
the
diffe
rent
set
exe
cutio
ns.
Gen
eral
: The
Ser
vice
Def
ault
Mod
e (S
DM
) and
Ser
vice
A
lignm
ent M
ode
(SAM
) are
des
crib
ed in
cha
pter
5. M
enu
navi
gatio
n is
don
e w
ith th
e C
UR
SO
R U
P, D
OW
N, L
EFT
or
RIG
HT
keys
of t
he re
mot
e co
ntro
l tra
nsm
itter
.
6.1
Gen
eral
Alig
nmen
t Con
ditio
ns
Per
form
all
elec
trica
l adj
ustm
ents
und
er th
e fo
llow
ing
cond
ition
s:•
Pow
er s
uppl
y vo
ltage
(dep
ends
on
regi
on):
–A
P-N
TSC
: 120
VA
C o
r 230
VA
C /
50 H
z (±
10%
).–
AP
-PA
L-m
ulti:
120
- 23
0 V
AC /
50 H
z (±
10%
).–
EU
: 230
VA
C /
50 H
z (±
10%
). –
LATA
M-N
TSC
: 120
- 23
0 V
AC /
50 H
z (±
10%
).–
US
: 120
VA
C /
60 H
z (±
10%
).•
Con
nect
the
set t
o th
e m
ains
via
an
isol
atio
n tra
nsfo
rmer
w
ith lo
w in
tern
al re
sist
ance
.•
Allo
w th
e se
t to
war
m u
p fo
r app
roxi
mat
ely
15 m
inut
es.
•M
easu
re v
olta
ges
and
wav
efor
ms
in re
latio
n to
cor
rect
gr
ound
(e.g
. mea
sure
aud
io s
igna
ls in
rela
tion
to
AU
DIO
_GN
D).
Cau
tion:
It is
not
allo
wed
to u
se h
eats
inks
as
grou
nd.
•Te
st p
robe
: Ri >
10
Moh
m, C
i < 2
0 pF
.•
Use
an
isol
ated
trim
mer
/scr
ewdr
iver
to p
erfo
rm
alig
nmen
ts.
6.2
Har
dwar
e A
lignm
ents
Ther
e ar
e no
har
dwar
e al
ignm
ents
fore
seen
for t
his
chas
sis,
bu
t bel
ow fi
nd a
n ov
ervi
ew o
f the
mos
t im
porta
nt D
C v
olta
ges
on th
e S
SB.
The
se c
an b
e us
ed fo
r che
ckin
g pr
oper
func
tioni
ng
of th
e D
C/D
C c
onve
rters
.
6.3
Softw
are
Alig
nmen
ts
With
the
softw
are
alig
nmen
ts o
f the
Ser
vice
Alig
nmen
t Mod
e (S
AM
) the
Tun
er a
nd R
GB
set
tings
can
be
alig
ned.
6.3.
1Tu
ner A
djus
tmen
t (R
F A
GC
Tak
e O
ver P
oint
)
Purp
ose:
To
keep
the
tune
r out
put s
igna
l con
stan
t as
the
inpu
t si
gnal
am
plitu
de v
arie
s.
No
alig
nmen
t is
nece
ssar
y, a
s th
e A
GC
alig
nmen
t is
done
au
tom
atic
ally
.
6.3.
2R
GB
Alig
nmen
t
Bef
ore
alig
nmen
t, se
t the
pic
ture
as
follo
ws:
Whi
te T
one
Alig
nmen
t:•
Act
ivat
e S
AM
.•
Sel
ect “
RG
B A
lign.
“ and
cho
ose
a co
lor t
empe
ratu
re.
•U
se a
100
% w
hite
scr
een
as in
put s
igna
l and
set
the
follo
win
g va
lues
: –
“Red
BL
Offs
et” a
nd “G
reen
BL
Offs
et” t
o “7
” (if
pres
ent).
–A
ll “W
hite
poi
nt” v
alue
s in
itial
to “1
27”.
In c
ase
you
have
a c
olor
ana
lyze
r:•
Mea
sure
with
a c
alib
rate
d (p
hosp
hor-
inde
pend
ent)
colo
r an
alyz
er (e
.g. M
inol
ta C
A-2
10) i
n th
e ce
ntre
of t
he s
cree
n.
Con
sequ
ently
, the
mea
sure
men
t nee
ds to
be
done
in a
da
rk e
nviro
nmen
t.•
Adj
ust t
he c
orre
ct x
,y c
oord
inat
es (w
hile
hol
ding
one
of t
he
Whi
te p
oint
regi
ster
s R
, G o
r B o
n m
ax. v
alue
) by
mea
ns o
f de
crea
sing
the
valu
e of
one
or t
wo
othe
r whi
te p
oint
s to
the
corr
ect x
,y c
oord
inat
es (s
ee T
able
6-1
Whi
te D
alig
nmen
t va
lues
). To
lera
nce:
dx:
± 0
.002
, dy:
± 0
.002
.•
Rep
eat t
his
step
for t
he o
ther
col
or T
empe
ratu
res
that
nee
d to
be
alig
ned.
•W
hen
finis
hed
retu
rn to
the
SA
M ro
ot m
enu
and
pres
s S
TAN
DB
Y o
n th
e R
C to
sto
re th
e al
igne
d va
lues
to th
e N
VM
.
Tabl
e 6-
1 W
hite
D a
lignm
ent v
alue
s
If yo
u do
not
hav
e a
colo
r ana
lyze
r, yo
u ca
n us
e th
e de
faul
t va
lues
. Thi
s is
the
next
bes
t sol
utio
n. T
he d
efau
lt va
lues
are
av
erag
e va
lues
com
ing
from
pro
duct
ion
(sta
tistic
s).
•S
et th
e R
ED
, GR
EE
N a
nd B
LUE
def
ault
valu
es p
er
tem
pera
ture
acc
ordi
ng to
the
valu
es in
the
“Tin
t set
tings
” ta
ble.
•W
hen
finis
hed
retu
rn to
the
SA
M ro
ot m
enu
and
pres
s S
TAN
DB
Y o
n th
e R
C to
sto
re th
e al
igne
d va
lues
to th
e N
VM
.
Des
crip
tion
Test
Po
int
Spec
ifica
tions
(V)
Dia
gram
Min
.Ty
p.M
ax.
+12V
SF1
1811
.712
.312
.91
B01_
DC
-DC
+3V3
_STB
YF1
133.
23.
33.
4B0
1_D
C-D
C+3
V3_S
WF1
333.
173.
343.
5B0
1_D
C-D
C
+1V2
5_S
WF1
311.
181.
251.
31B0
1_D
C-D
C
+5V_
SW
F132
4.98
5.25
5.51
B01_
DC
-DC
+1V8
_SW
F125
1.74
1.83
1.92
B01_
DC
-DC
+1V1
_SW
F101
0.94
1.1
1.15
B01_
DC
-DC
+5VS
F235
4.94
5.2
5.46
B02A
_Tun
er_I
F+2
V5_S
W
F136
2.38
2.5
2.62
B01_
DC
-DC
+5VT
UN
_DI
GIT
AL
F236
4.75
55.
25B0
2_Tu
ner_
IF
VLS
_15V
6FJ
0114
.82
15.6
16.3
8B0
8C_T
CO
N D
C/D
C
VGH
_35V
FM02
34.0
35.0
36.0
B08F
_MIN
I LVD
SVG
L_-6
VFJ
14-7
.0-6
.0-5
.0B0
8C_T
CO
N D
C/D
C
VCC
_3V
3FJ
133.
143.
33.
47B0
8C_T
CO
N D
C/D
C
VCC
1V8
FJ05
1.71
1.8
1.89
B08C
_TC
ON
DC
/DC
Pict
ure
Setti
ngD
ynam
ic b
ackl
ight
O
ffD
ynam
ic C
ontra
stO
ff
Col
our E
nhan
cem
ent
Off
Pic
ture
For
mat
U
nsca
led
Ligh
t Sen
sor
Off
Brig
htne
ss50
Col
our
0C
ontra
st10
0
Valu
eC
ool (
1100
0 K
)N
orm
al (9
000
K)
War
m (6
500
K)
x0.
276
0.28
70.
313
y0.
282
0.29
60.
329
Alig
nmen
tsEN
19
L11M
1.1L
LA
6.
2011
-Apr
-29
Tabl
e 6-
2 Ti
nt s
ettin
gs 3
2"
Tabl
e 6-
3 Ti
nt s
ettin
gs 4
0"
6.4
AD
C g
ain
adju
stm
ent
Use
a Q
uant
um D
ata
Pat
ters
Gen
erat
or 8
02B
T an
d ap
ply
a “P
gcW
rgb”
imag
e (“
dot,
cros
s an
d co
lor b
ar m
ix p
atte
rn”)
ac
cord
ing
to F
igur
e 6-
1.
Figu
re 6
-1 “
PgcW
rgb”
pat
tern
6.4.
1YP
bPr
Follo
win
g in
stru
ctio
ns re
sult
in c
orre
ct a
lignm
ent o
f AD
C g
ain,
of
fset
and
pha
se, r
elat
ed to
YP
bPr i
nput
sig
nal.
Appl
y a
sign
al
of fo
rmat
“108
0i25
”.•
App
ly fo
llow
ing
sign
als
to th
e Y
PbP
r inp
ut c
onne
ctor
s:–
Pr s
igna
l of 0
.7 V
p-p1
/ 75
ohm
to th
e re
d ci
nch
conn
ecto
r.–
Y si
gnal
of 0
.7 V
b-p2 /
75
ohm
with
a s
ync
puls
e of
0.3
Vp
-p1
to th
e gr
een
cinc
h co
nnec
tor.
–Pb
sig
nal o
f 0.7
Vb-
p1 / 7
5 oh
m to
the
blue
cin
ch
conn
ecto
r.•
Sel
ect t
he in
put s
ourc
e to
YP
bPr i
nput
.•
In S
AM
, ini
tiate
the
“Aut
o A
DC
” cal
ibra
tion
com
man
d.U
pon
appe
aran
ce o
f the
“Aut
o A
DC
Com
plet
ed” m
essa
ge, t
he
alig
nmen
t is
com
plet
ed.
Not
es:
1. P
eak-
to-P
eak
2. B
lack
-to-P
eak.
6.4.
2PC
VG
A
Follo
win
g in
stru
ctio
ns re
sult
in c
orre
ct a
lignm
ent o
f AD
C g
ain,
of
fset
and
pha
se, r
elat
ed to
PC
VG
A in
put s
igna
l. A
pply
a
sign
al o
f for
mat
“DM
T106
0”.
•A
pply
follo
win
g si
gnal
s to
the
PC
VG
A in
put c
onne
ctor
:–
Red
sig
nal o
f 0.7
Vp-
p1 / 7
5 oh
m.
–G
reen
sig
nal o
f 0.7
Vp-
p1 / 7
5 oh
m.
–Bl
ue s
igna
l of 0
.7 V
p-p1
/ 75
ohm
.•
Sel
ect t
he in
put s
ourc
e to
PC
VG
A in
put.
•In
SA
M, i
nitia
te th
e “A
uto
AD
C” c
alib
ratio
n co
mm
and.
Upo
n ap
pear
ance
of t
he “A
uto
AD
C C
ompl
eted
” mes
sage
, the
al
ignm
ent i
s co
mpl
eted
.
6.5
TCO
N A
lignm
ent (
= VC
OM
alig
nmen
t)
New
requ
irem
ent f
or “T
CO
N o
n S
SB
” pro
ject
:•
The
purp
ose
of V
CO
M a
lignm
ent i
s to
obt
ain
an e
qual
vo
ltage
s fo
r bot
h P
ositi
ve a
nd N
egat
ive
LC p
olar
ity. T
his
is
impo
rtant
to a
void
“Flic
ker”
and
“Im
age
Stic
king
”.•
The
P-G
amm
a +
VC
OM
cal
ibra
tor I
C, I
SL2
4837
is u
sed
for
VC
OM
adj
ustm
ent.
•Th
e ad
just
ed V
CO
M d
ata
will
be
stor
ed in
side
on-
chip
m
emor
y an
d w
ill be
aut
omat
ical
ly re
calle
d du
ring
each
po
wer
-up.
Com
Pai
r (se
e 5.
3.1
Com
Pai
r) w
ill fo
rese
e in
a p
ossi
bilit
y to
do
this
alig
nmen
t.
6.6
Opt
ion
Setti
ngs
6.6.
1In
trod
uctio
n
The
mic
ropr
oces
sor c
omm
unic
ates
with
a la
rge
num
ber o
f I2 C
ICs
in th
e se
t. To
ens
ure
good
com
mun
icat
ion
and
to m
ake
digi
tal d
iagn
osis
pos
sibl
e, th
e m
icro
proc
esso
r has
to k
now
w
hich
ICs
to a
ddre
ss. T
he p
rese
nce/
abse
nce
of th
ese
spec
ific
ICs
(or f
unct
ions
) is
mad
e kn
own
by th
e op
tion
code
s.
Not
es:
•A
fter c
hang
ing
the
optio
n(s)
, sav
e th
em w
ith th
e S
TOR
E
com
man
d.•
The
new
opt
ion
setti
ng b
ecom
es a
ctiv
e af
ter t
he T
V is
sw
itche
d “o
ff” a
nd “o
n” a
gain
with
the
mai
ns s
witc
h (th
e E
AR
OM
is th
en re
ad a
gain
).
6.6.
2H
ow T
o Se
t Opt
ion
Cod
es
Whe
n th
e N
VM
is re
plac
ed, a
ll opt
ions
will
requ
ire re
setti
ng. T
o be
cer
tain
that
the
fact
ory
setti
ngs
are
repr
oduc
ed e
xact
ly, y
ou
mus
t set
all
optio
n nu
mbe
rs. Y
ou c
an fi
nd th
e co
rrec
t opt
ion
num
bers
see
stic
ker o
n th
e in
side
the
cabi
net.
How
to C
hang
e O
ptio
ns C
odes
An
optio
n co
de (o
r “op
tion
byte
”) re
pres
ents
eig
ht d
iffer
ent
optio
ns (b
its).
All o
ptio
ns a
re c
ontro
lled
via
ten
optio
n by
tes
(OP
#1...
OP
#10)
.A
ctiv
ate
SAM
and
sel
ect “
Opt
ions
”. N
ow y
ou c
an s
elec
t the
op
tion
byte
(OP
#1...
OP#
10) w
ith th
e C
UR
SO
R U
P/ D
OW
N
keys
, and
ent
er th
e ne
w 3
dig
it (d
ecim
al) v
alue
. For
the
corr
ect
fact
ory
defa
ult s
ettin
gs, s
ee th
e st
icke
r ins
ide
the
set.
Col
our T
emp.
RG
BC
ool
t.b.d
.t.b
.d.
t.b.d
.
Nor
mal
t.b.d
.t.b
.d.
t.b.d
.W
arm
t.b.d
.t.b
.d.
t.b.d
.
Col
our T
emp.
RG
BC
ool
t.b.d
.t.b
.d.
t.b.d
.N
orm
alt.b
.d.
t.b.d
.t.b
.d.
War
mt.b
.d.
t.b.d
.t.b
.d.
1892
0_20
0_10
0317
.eps
1003
17
Circ
uit D
escr
iptio
nsEN
20
L11M
1.1L
LA
7.
2011
-Apr
-29
7.C
ircui
t Des
crip
tions
Inde
x of
this
cha
pter
:7.
1 In
trodu
ctio
n7.
2 P
ower
Sup
ply
7.3
Vid
eo7.
3.1
Vid
eo: F
ront
-End
7.4
Aud
io7.
5 In
puts
7.5.
1 In
puts
: HD
MI
7.5.
2 In
puts
: US
B
Not
es:
•O
nly
new
circ
uits
(circ
uits
that
are
not
pub
lishe
d re
cent
ly)
are
desc
ribed
. •
Figu
res
can
devi
ate
slig
htly
from
the
actu
al s
ituat
ion,
due
to
diff
eren
t set
exe
cutio
ns.
•Fo
r a g
ood
unde
rsta
ndin
g of
the
follo
win
g ci
rcui
t de
scrip
tions
, ple
ase
use
chap
ter 9
. Blo
ckD
iagr
ams
and
10. C
ircui
t Dia
gram
s an
d P
WB
Layo
uts.
Whe
re n
eces
sary
, yo
u w
ill fi
nd a
sep
arat
e dr
awin
g fo
r cla
rific
atio
n.
7.1
Intr
oduc
tion
The
LC11
M1.
1L L
A ch
assi
s is
a d
igita
l cha
ssis
usi
ng a
M
edia
tek
chip
set.
It co
vers
scr
een
size
s of
32"
to 4
0".
The
xxP
FL3x
06D
/xx
sets
com
e w
ith th
e “T
hrill
er” s
tylin
g, a
nd
the
xxP
FL5x
06D
/xx
com
e w
ith th
e “B
erlin
ale”
sty
ling.
Mai
n ke
y co
mpo
nent
s ar
e th
e M
edia
tek
MT5
363
inte
grat
ed
“Sys
tem
On
Chi
p” (S
oC) t
hat s
uppo
rts m
ultim
edia
vid
eo/a
udio
in
put,
and
the
inte
grat
ed T
CO
N (T
imin
g C
ontro
ller)
par
t for
the
LCD
pan
el.
Sys
tem
SoC
is b
ased
on
MT5
363:
•N
AN
D F
lash
– 1
28 M
byte
, Num
Ony
x/H
ynix
.•
DD
R –
128
Mby
te (3
2 ×
16M
, 2 p
cs),
Hyn
ix.
•U
se in
tern
al M
T536
3 S
tand
-by
mic
ro-c
ontro
ller.
Tune
r/Fro
nten
d co
nfig
urat
ion:
•H
alf N
IM tu
ner (
VA1E
1BF2
403)
from
Sha
rp.
•To
shib
a C
hann
el D
ecod
er (T
C90
517)
.
Inte
rface
s fo
r deb
ug a
nd S
W u
pgra
de:
•U
AR
T (3
.5m
m ja
ck).
•U
SB
por
t.•
JTA
G.
Ref
er to
Fig
ure
7-1
for d
etai
ls.
Figu
re 7
-1 L
11M
1.1L
LA
Arc
hite
ctur
e
1913
0_00
9_11
0426
.eps
1104
29
Circ
uit D
escr
iptio
nsEN
21
L11M
1.1L
LA
7.
2011
-Apr
-29
Figu
re 7
-2 S
SB c
ell l
ayou
t
Figu
re 7
-3 S
SB k
ey c
ompo
nent
ove
rvie
w
1913
0_01
0_11
0426
.eps
1104
26
1913
0_04
7_11
0429
.eps
1104
29
Circ
uit D
escr
iptio
nsEN
22
L11M
1.1L
LA
7.
2011
-Apr
-29
Figu
re 7
-4 T
CO
N k
ey c
ompo
nent
ove
rvie
w
7.2
Pow
er S
uppl
y
The
Pow
er S
uppl
y U
nit (
PS
U) i
n th
is c
hass
is is
a b
uy-in
and
is
a bl
ack-
box
for S
ervi
ce. W
hen
defe
ctiv
e, a
new
pan
el m
ust b
e or
dere
d an
d th
e de
fect
ive
pane
l mus
t be
retu
rned
for r
epai
r, un
less
the
mai
n fu
se o
f the
uni
t is
brok
en. A
lway
s re
plac
e th
e fu
se w
ith o
ne w
ith th
e co
rrec
t spe
cific
atio
ns! T
his
part
is
com
mon
ly a
vaila
ble
in th
e re
gula
r mar
ket.
Ref
er to
Fig
ure
7-5
and
Figu
re 7
-6 fo
r det
ails
The
pow
er s
uppl
y sy
stem
con
sist
s of
sta
nd-b
y, s
witc
hed
and
regu
late
d vo
ltage
s. T
he s
tand
-by
volta
ge, +
3V3S
TBY
, will
be
avai
labl
e on
ce A
C s
uppl
y is
pro
vide
d to
the
syst
em. A
s fo
r the
ot
her v
olta
ges,
nam
ely
switc
hed
and
regu
late
d vo
ltage
s, th
ese
are
avai
labl
e on
ce th
e S
TAN
DB
Y s
igna
l is
pulle
d “lo
w” t
o al
low
ot
her s
uppl
ies
from
the
IPB
to tu
rn “o
n”. T
he s
witc
hed
supp
lies
are
gene
rate
d fro
m th
e m
ain
+12V
S su
pply
, whi
le th
e re
gula
ted
supp
lies
are
deriv
ed fr
om th
e sw
itche
d su
pplie
s. T
here
are
a
num
ber o
f det
ectio
n ci
rcui
ts to
det
ect t
he fo
llow
ing
supp
lies:
+1
2VS
, +12
Vdi
sp a
nd +
3V3_
SW
. The
+12
VS
is th
e m
ain
supp
ly v
olta
ge fr
om th
e IP
B th
at e
nabl
es th
e sw
itche
d vo
ltage
s to
be
gene
rate
d. T
he +
12V
disp
is th
e su
pply
to th
e di
spla
y tim
ing
cont
rolle
r, w
hile
the
+3V
3_S
W is
pow
erin
g th
e m
icro
proc
esso
r and
its
flash
mem
ory.
The
mai
ns p
ower
sup
ply
unit
dist
ribut
e th
e fo
llow
ing
volta
ges
to
the
TV s
yste
m: +
3V3S
TBY
, 12V
S, +
24V
audi
o, a
nd +
24V
pane
l fo
r pan
el w
ith in
verte
r (or
) hig
h vo
ltage
(HV
) for
inve
rterle
ss
pane
l. R
equi
rem
ent o
f the
Hig
h V
olta
ge d
epen
d on
the
spec
ifica
tion
of th
e LC
D p
anel
.
Figu
re 7
-5 P
ower
dis
trib
utio
n ov
ervi
ew
Figu
re 7
-6 P
ower
tim
ing
over
view
1913
0_04
8_11
0429
.eps
1104
29
1913
0_01
2_11
0426
.eps
1104
26
MT5
363
Dig
Dem
od
Flas
h
NV
M
DD
R2
× 2
+12
V SD
CD
C
Reg
ulat
or
Reg
ulat
or
EE
PR
OM
USB
Tune
r
+3.3
VST
BY
1.1
V ±0
.05
V
1.8
V ±0
.09
V
3.3
V ±0
.16
V1.
25 V
±0.
06 V
5.25
V ±
0.26
V2.
5 V
±0.1
2 V
5.25
V ±
0.25
V
DC
DC
DC
DC
DC
DC
Reg
ulat
or
1898
0_20
3_10
0402
.eps
1004
02
Circ
uit D
escr
iptio
nsEN
23
L11M
1.1L
LA
7.
2011
-Apr
-29
7.3
Vide
o
7.3.
1Vi
deo:
Fro
nt-E
nd
Key
com
pone
nts
for t
he tu
ner s
ectio
n ar
e:•
Sha
rp H
alf N
IM tu
ner V
A1E
1BF2
403,
•To
shib
a ch
anne
l dec
oder
TC
9051
7 (e
xter
nal I
SD
B-T
ch
anne
l dec
oder
).•
Ana
log
dem
odul
ator
(usi
ng in
tern
al M
T536
3 an
alog
de
mod
ulat
or -
pin
AH
35 V
IP, A
H37
VIN
).
Ref
er to
Fig
ure
7-7
for d
etai
ls.
Figu
re 7
-7 F
ront
-end
func
tiona
l blo
ck d
iagr
am
1913
0_01
3_11
0426
.eps
1104
26
Circ
uit D
escr
iptio
nsEN
24
L11M
1.1L
LA
7.
2011
-Apr
-29
7.4
Aud
io
In th
is c
hass
is, a
udio
pro
cess
ing
is d
one
by th
e fo
llow
ing
key
com
pone
nts:
•M
T536
3 m
icro
-pro
cess
or fo
r inp
ut s
elec
tion
and
audi
o pr
oces
sing
,•
TPA
3123
D2
clas
s-D
pow
er a
mpl
ifier
for 2
x 1
0 W
am
plifi
catio
n.
The
audi
o pr
ofile
(opt
imal
set
ting
per s
cree
n si
ze a
nd s
tylin
g) is
st
ored
at O
ptio
n 10
(bit
0 to
bit
4). P
rofil
e 1
for 3
2-in
ch D
ali a
nd
prof
ile 2
for 4
0-in
ch D
ali.
Tabl
e 7-
1 M
icro
proc
esso
r con
trol
line
s - 1
-
Tabl
e 7-
2 M
icro
proc
esso
r con
trol
line
s - 2
-
Figu
re 7
-8 A
udio
sig
nal f
low
7.5
Inpu
ts
7.5.
1In
puts
: HD
MI
In th
is c
hass
is, t
he m
ain
Med
iate
k M
T536
3 S
oC h
as a
n on
-chi
p H
DM
I mul
tiple
xer.
Ref
er to
Fig
ure
7-9
for t
he im
plem
enta
tion.
From
uP
At c
lass
D
Usa
ge
SW_M
UTE
S
W_M
UTE
W
ill p
ull a
udio
sig
nals
to L
OW
upo
n D
C d
rops
, hel
p to
elim
inat
e pl
op s
ound
.
RE
SET_
AUD
IOA
_STB
Y C
ontro
l SH
UTD
OW
N p
in o
f cla
ss D
am
plifi
er:
ON
/OFF
the
ampl
ifier
MU
TE
MU
TE
Cor
resp
ondi
ng to
the
MU
TE b
utto
n on
Rem
ote
Con
trol,
to m
ute/
unm
ute
spea
kers
DC
_PR
OT
DC
_PR
OT
Det
ectin
g pr
esen
t of D
C a
t spe
aker
s ou
tput
and
fe
edba
ck to
uP
. Thi
s w
ill tr
igge
r TV
into
pro
tect
ion
mod
e. T
his
is im
porta
nt to
pro
tect
spe
aker
s
From
uP
A_S
TBY
to c
lass
D
Cla
ss D
out
puts
S
W_M
UTE
LO
W
-M
UTE
HIG
H
- O
pera
ting
(unm
ute)
RE
SET
_AU
DIO
LO
W
HIG
H
Ope
ratin
g (u
nmut
e)
HIG
H
LOW
C
lass
D s
hutd
own
(mut
e)
MU
TE
LOW
-
Ope
ratin
g (u
nmut
e)
HIG
H
- M
UTE
D
C_P
RO
T LO
W
- D
C d
etec
ted
-> s
et g
oing
to p
rote
ctio
n
HIG
H
- N
o D
C ->
nor
mal
ope
ratin
g
1913
0_01
4_11
0426
.eps
1104
26
Circ
uit D
escr
iptio
nsEN
25
L11M
1.1L
LA
7.
2011
-Apr
-29
Figu
re 7
-9 H
DM
I im
plem
enta
tion
Sig
nal d
escr
iptio
n:•
TMD
S: S
igna
ls th
at c
onta
in a
udio
and
vid
eo in
form
atio
n.•
PW
R5V
: Sig
nal t
o de
tect
the
pres
ence
of a
ny H
DM
I sou
rce
conn
ecte
d to
the
TV’s
HD
MI i
nput
por
t.•
SID
E_H
DM
I_H
PD
1 an
d H
DM
I_H
PD
2: S
igna
l to
initi
ate
read
ing
of th
e TV
ED
ID d
ata
by th
e so
urce
dev
ice.
•I2
C: T
he E
DID
dat
a re
adin
g an
d th
e H
DC
P a
uthe
ntic
atio
n pr
oces
s ru
ns v
ia I2
C.
•C
EC: S
igna
l dire
ct c
onne
cted
bet
wee
n in
puts
and
uP
.•
ED
ID_W
C: S
igna
l use
d to
dis
able
the
writ
e pr
otec
t pin
of
the
EE
PR
OM
. Whe
n up
datin
g, th
e pr
ogra
m w
ill te
mpo
raril
y pu
ll th
is p
in “L
OW
” bef
ore
writ
ing
new
dat
a.
7.5.
2In
puts
: USB
In th
is c
hass
is, t
he m
ain
Med
iate
k M
T536
3 S
oC h
as a
n on
-chi
p U
SB
pro
cess
or.
Ref
er to
Fig
ure
7-10
for t
he im
plem
enta
tion.
Figu
re 7
-10
USB
impl
emen
tatio
n1913
0_01
5_11
0426
.eps
1104
26
TMD
SP
WR
5VS
IDE
_HD
MI_
HP
D1
SID
EH
DM
IS
CL1
HD
MI
SC
L2H
DM
I_H
PD
2
RX2
OP
WR
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AR
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MI+
ED
ID
SID
E_H
DM
I_S
DA1
CE
C
ED
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C
HD
MI_
CE
C
__
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I_SD
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MT5
363
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ED
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HD
MI_
SDA1
HD
MI_
SDA1
HD
MI_
SCL2
_
ED
ID
Buf
fer &
Sel
ectio
nci
rcui
tAS
PD
IF_O
UT
AR
C_S
W
1898
0_20
7_10
0402
.eps
1004
02
IC D
ata
She
ets
EN 2
6L1
1M1.
1L L
A8.
2011
-Apr
-29
8.IC
Dat
a Sh
eets
This
sec
tion
show
s th
e in
tern
al b
lock
dia
gram
s an
d pi
n la
yout
s of
ICs
that
are
dra
wn
as "b
lack
box
es" i
n th
e el
ectri
cal d
iagr
ams
(with
the
exce
ptio
n of
"mem
ory"
and
"log
ic" I
Cs)
.
8.1
Dia
gram
B01
, Typ
e TP
S543
86 (I
C71
16 a
nd 7
117)
Figu
re 8
-1 In
tern
al b
lock
dia
gram
and
pin
con
figur
atio
n
1898
0_30
0_10
0402
.eps
1004
02
PIN
CO
NN
ECTI
ON
S
1 2 3 4
14 13 12 11
PVD
D2
BOO
T2
SW2
BP
PVD
D1
BOO
T1
SW1
GN
D
5 6 7
10 9 8
SEQ
ILIM
2
FB2
EN1
EN2
FB1
Ther
mal
Pad
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tom
side
)
HTS
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(PW
P)(T
opVi
ew)
BLO
CK
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GR
AM
7FB
1
+
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tSta
rt1
CC
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P
+
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rent
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para
tor
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f(ID
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i-Cro
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ctio
n
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MH
zO
scila
tor
Div
ide
by2/
4
Ram
pG
en1
Ram
pG
en2
CLK
1
CLK
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BP
CLK
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eak
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6EN
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6A
6A
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rnal
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trol
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150
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k
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ervo
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lect
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ator
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eren
ces
BOO
T1
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t)
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I MA
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etto
one
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ree
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rent
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p
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ift
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ift
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f(IM
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h
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0.8
V RE
F
SD2
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F
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UD
G-0
7124
Ove
rcur
rent
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p
RC
OM
P
RC
OM
P
IC D
ata
She
ets
EN 2
7L1
1M1.
1L L
A8.
2011
-Apr
-29
8.2
Dia
gram
B01
A D
C-D
C, T
ype
LD11
17D
(IC
7119
)
Figu
re 8
-2 In
tern
al b
lock
dia
gram
and
pin
con
figur
atio
n
F_15
710_
166.
eps
1004
02
Blo
ck d
iagr
am
Pinn
ing
info
rmat
ion
DPA
K
LD11
17D
T
IC D
ata
She
ets
EN 2
8L1
1M1.
1L L
A8.
2011
-Apr
-29
8.3
Dia
gram
B03
Cla
ss-D
& m
utin
g, T
ype
TPA
3123
(IC
7400
)
Figu
re 8
-3 In
tern
al b
lock
dia
gram
and
pin
con
figur
atio
n
1844
0_30
2_09
0303
.eps
0903
18
Blo
ck d
iagr
am
Pinn
ing
info
rmat
ion
1 2 3 4 5 6 7 8 9 10 11 12
24 23 22 21 20 19 18 17 16 15 14 13
PV
CC
LS
DP
VC
CL
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TE LIN
RIN
BY
PAS
SA
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GN
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CR
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TER
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AL
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atio
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logi
cle
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com
plia
nce
toS
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IA
VC
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tfor
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ain
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ast-s
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logi
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AIN
117
IG
ain
sele
ctm
ost-s
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logi
cle
vels
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com
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toA
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IC D
ata
She
ets
EN 2
9L1
1M1.
1L L
A8.
2011
-Apr
-29
8.4
Dia
gram
B04
MT5
363
Pow
er, T
ype
MT5
363
(IC77
00)
Figu
re 8
-4 In
tern
al b
lock
dia
gram
1885
0_30
0_10
0107
.eps
1002
22
Blo
ck d
iagr
am
DV
B-T
A
TD
CV
BS
/Y
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put
VA
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DC
IC D
ata
She
ets
EN 3
0L1
1M1.
1L L
A8.
2011
-Apr
-29
Figu
re 8
-5 In
tern
al b
lock
dia
gram
1885
0_30
1_10
0107
.eps
1002
22
Pinn
ing
info
rmat
ion
LT
1 2
3 4
5 6
7 8
9 10
11
12
13
14
15
16
17
18
19
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MI_
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A
1
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TP_V
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L
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SS
DV
SS
DV
SS
DV
SS
VCC
K
OPC
TRL1
RX
1_2
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1_2B
AV
1
2 3
4 5
6 7
8 9
10
11
12
13
14
15
16
17
18
19
IC D
ata
She
ets
EN 3
1L1
1M1.
1L L
A8.
2011
-Apr
-29
Figu
re 8
-6 In
tern
al b
lock
dia
gram
1885
0_30
2_10
0107
.eps
1002
22
Pinn
ing
info
rmat
ion
20
21
22
23
24
25
26
27
28
29
3031
3233
3435
3637
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T
A
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2DXRTE
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DV
SS
GP
IO32
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IO34
GP
IO33
VCC
IO33
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IO28
GP
IO30
GP
IO29
GP
IO31
GP
IO26
GP
IO27
GP
IO24
GP
IO25
GP
IO22
GP
IO20
GP
IO19
GP
IO23
GP
IO17
GP
IO18
GP
IO16
GP
IO15
GP
IO11
GP
IO12
GP
IO14
GP
IO13
GP
IO9
GP
IO10
GP
IO8
GP
IO7
GP
IO4
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IO6
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IO5
VCC
IO33
FSR
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R
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ETR
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0N
PB PRY
1C02
PB
1P_S
C2
SY
1P_S
C2
SY
1P
SP
B1P
SP
R1P
SY
1N
AT27
AU26
712 9
PR
1P_S
C2
AP
27P
R1P
Y1P
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1P
AR
26Y
1N
SO
Y0-
AV1
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0P
PR
0P
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AT29
SO
Y0
2C06 GN
D_C
VB
SA
R36
CV
BS
_0N
2C07
5C05
5C02
5C01
5C00
5C04
5C03
3B08
3B11
3B07
3B09
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Y1-
AV2
AP
25S
OY
1
3B02
3B05
3B03
3B01
3B00
CVI
-2
CVI
-1
AVIN
11E
01 2 3 1413
VGA
_RVG
A_G
VGA
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VGA
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VGA
_BH
-SY
NC
V-S
YN
C
VGA
_Bp
HS
YN
CV
SY
NC
RP
GP
BP
1
610
11
5
15
VGA
CO
NN
ECTO
R
AU22
AR
22AT
23AU
24AT
25R
P
VS
YN
C
GP
BP
HS
YN
C
SO
G
GN
AP
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OG
AR
24C
OM
2E08
2E03
RX
O
RX
E
B04
C
B04
C
+VD
ISP
-INT
49 50 601 47 48
+VD
ISP
-INT
3C24
3C25
3C22
3C203C
23
3C21
EN 3
8L1
1M1.
1L L
A9.
Blo
ckD
iagr
ams
2011
-Apr
-29
Blo
ck D
iagr
am A
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B03
CLA
SS-D
& M
UTI
NG
B06
BA
NA
LOG
I/O
- AU
DIO
B06
BA
NA
LOG
I/O
- AU
DIO
B06
CA
NA
LOG
I/O
- VI
DEO
B02
ATU
NER
B02
BD
IGIT
AL
DEM
OD
B04
MT5
363:
B05
BU
SB
B04
BD
DR
B04
CC
ON
TRO
LLER
B05
AH
DM
I & M
UX
1B02
2
ALI
_ADA
CB
06B
ALI
_DAC
B06
B
MT5
363
1913
0_03
8_11
0427
.eps
1104
27
AUD
IO
1B01
2 3 1
K33
AS
PD
IF
E28
AS
PD
IF
SP
DIF
_OU
T
eHD
MI+
AS
PD
IF_O
UT
AR
C_S
W
DVI_
AUL_
IN
DVI_
AUR
_IN
1C02
AC36
AB
37
AD
33A
IN_A
AD
C_0
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AC34
AIN
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DC
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AB
31A
IN_A
AD
C_1
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DC
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AV I
NAU
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L/R
AV IN
AUD
IOL/
R
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AUD
IOL/
R
SPD
IFO
UT
AA
36 Y37
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DC
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AIN
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SAV
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N
SAV
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N
1C03
AV
INAU
DIO
L/R
5 85 3
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L
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PR
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MP
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PR
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MP
R
LEFT
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GN
D-A
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R
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4
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DC
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ND
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AIN
0_R
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1
AIN
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AV1
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2
AIN
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SPEA
KER
LEFT
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7700
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G
MAC
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C
CO
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C_I
F
CI_
MC
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MD
IO
G34
H33 F3
5
H35
M31
M33
IF_A
GC
RF_
AGC
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+5V
TUN
_DIG
1201
VA1E
1BF2
403
7302
TC90
517F
G
TUN
ERD
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AL
DEM
OD
ULA
TOR
9IF
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C
CI_
MIV
AL
DIF
_N
DIF
_P
10
958
IF_O
UT+
3R
F_AG
CR
F_AG
C
8+B
5207
SC
L
SD
A76
(I2C
)
AGC
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7218
7217 RF_
AGC
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CI_
MIS
TRT
TSO
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LID
11
29 30IF
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T-AG
CC
NTI
59TS
O_S
YN
C
61TS
O_C
LK
60TS
O_D
ATA
0
B04
C
4321
US
B_D
MU
SB
_DP
USB
2.0
CO
NN
ECTO
R S
IDE
SW U
PLO
AD
JPEG
MP3
AR
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10U
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US
B_D
M
1D01 1 2 43
DR
AM
B04
B
CO
NTR
OL
B04
C
7708
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TR
FLA
SH1G
b
RD
Q RA
PD
DN
AN
D_P
DD
(0-7
)
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A1
+1V
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W
SDR
AM
512M
b
7601
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R
SDR
AM
512M
b
7600
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62FF
R
VDD
VDD
RD
Q(0
-31)
RDQ(0-15)
RDQ(16-31)
RA
(0-1
3)
HD
MI
B05
GPI
OB
05
RX
0
RX
1
AP
19AT
19
AR
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16
AR
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18A
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AT17
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15
AR
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12
AR
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14A
P13
AT13
191182
119
02 3 4 7 9 10 126
M_R
X2_
2M
_RX
2_2B
M_R
X2_
1M
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2_1B
M_R
X2_
0M
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2_0B
M_R
X2_
CM
_RX
2_C
B
M_R
X1_
2M
_RX
1_2B
M_R
X1_
1M
_RX
1_1B
M_R
X1_
0M
_RX
1_0B
M_R
X1_
CM
_RX
1_C
B
HD
MI 2
CO
NN
ECTO
R
119
01 3 4 7 9 10 126
191182
HD
MI 1
(SID
E)C
ON
NEC
TOR
14
7B01
RE
SE
T_D
EM
OD
42B
04C
2 1 4 5
3 87S09
74LV
C00
&
+3V
3
GP
IO_1
2
Blo
ckD
iagr
ams
EN 3
9L1
1M1.
1L L
A9.
2011
-Apr
-29
Blo
ck D
iagr
am C
ontr
ol &
Clo
ck S
igna
lsC
ON
TRO
L +
CLO
CK
SIG
NA
LS
B06
DU
SB
B04
CC
ON
TRO
LLER
B04
BD
DR
T01B
TCO
N C
ON
TRO
L
T01D
P G
AM
MA
& V
CO
M &
NVM
B04
MT5
363
B04
CFL
ASH
& E
JTAG
& D
ISPL
AY IN
TER
FAC
E
T01E
MPD
CO
NTR
OL
B04
C
DR
AM
B04
B
GPI
OB
04C
TO IR
/LED
PA
NEL
AN
DK
EYB
OA
RD
CO
NTR
OL
+3V
3STB
Y
3 2 45 71M20
MT5
363
7700
MT5
363B
IMG
OP
WR
SB
AT21
AP
21UA
RT
SERV
ICE
CO
NN
ECTO
R
1701
3 2 1 B01
STA
ND
BY
U0_
RX
U0_
TX
AG6
GP
IO_4
2
GP
IO_2
6
GP
IO_2
1
PD
D
H29
RC
LK1#
RC
LK1
AD
3
AD
1
ED
ID_W
CB
06B
07E
A22
LCD
-PW
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Nn
B04
C
AH
3LA
MP
-ON
B01
A
DC
_PR
OT
B03
B29
GP
IO_9
RF_
AGC
_SW
B02
A
B23
GP
IO_3
2B
YPA
SS
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DE
B08
C
G30
B25
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IO_5
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B_P
WR
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DE
30G
PIO
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PB
06D
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IO_3
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22O
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SE
T_D
EM
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B02
B
AM
35A
DIN
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OR
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ET
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MI_
CE
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CE
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L_3
AR
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W_M
UTE
B03
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CTR
L_0
AM
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WN
B04
C
LED
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2701
SDM
2700
PAN
EL
4321
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B_D
M0
AD
IN_S
RV
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B_D
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B_D
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AK
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0U
SB 2
.0C
ON
NEC
TOR
SID
E
1D01 3 421
US
B_P
WR
_EN
7D00
TPS
2041
BD
US
B_O
CP
EN
OU
TO
C
1913
0_04
5_11
0428
.eps
1104
29
7710
CLK
CLK
J8J8
K8
K8
TCK
RC
LK0#
RC
LK0
A2B3
CLK
CLK
XTA
L1
XTA
LO
1700
54M
AJ3
4
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6
RD
Q RA
SD
RA
M51
2Mb
7601
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62FF
RS
DR
AM
512M
b
7H00
H5P
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RTC
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CO
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7H01
VP
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FG
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7600
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Q(0
-15)
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(0-1
3)
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TR
FLA
SH1G
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AN
D_P
DD
(0-7
)
GP
IO_7
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AR
C_S
WB
06B
GP
IO_1
2
GP
IO_3
5
GP
IO_4
3AG
4G
PIO
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PO
WE
R-O
KB
01A
+3V
3STB
Y
AL2
2O
RE
SE
T
7701
BD
4529
2G
VOU
TV
DD
54
3
OS
C_I
N
OS
C_O
UT
SLO
PE
CS
1H00
27M
B1
A1L2 L1 T9
RS
TR
ES
ET
T01D
U9
T16
RTC
50_6
050
Hz_
60H
zT0
1D
T01C
T01F
T01F
T01F
GS
LOP
TCK
#
PG
AM
MA
7K00
ISL2
4837
IRZ
OU
T12
24T0
1E
T01F
T01F
T01F
CS
_L
OU
T12
26IN
CO
MO
UTC
OM
25O
UTC
OM
VC
OM
VH VL
LLV
(0-7
)
RLV
(0-7
)
VC
OM
BU
FER
7L00
SL2
4016
IRTZ
LEVE
LSH
IFTE
RC
S(1
-12)
AS
IC_C
S
RD
Q(0
-31)
EN 4
0L1
1M1.
1L L
A9.
Blo
ckD
iagr
ams
2011
-Apr
-29
Blo
ck D
iagr
am I2 C
I²C
DIG
ITA
L D
EMO
DB
2B
LVD
S D
ISPL
AYT0
1A
TCO
N C
ON
TRO
LT0
1B
P G
AM
MA
& V
CO
M &
NVM
T01D
VGA
B06
D
TUN
ERB
02A
HD
MI &
MU
XB
05A
CO
NTR
OLL
ERB
04C
CO
NTR
OLL
ERB
04C
DD
RB
4B
1KQ
A
DEB
UG
ON
LY
RES
RES
7700
MT5
363B
IMG O
SD
A_0
OS
CL_
0
GP
IO_4
4
CO
NTR
OL
AH
17
AP
3
AP
1
AP
21
AT21
SY
S_E
EP
RO
M_W
E
SD
A-M
AIN
SC
L-M
AIN
3718
3719
+3V
3_S
W
TUN
ER
_DAT
A
TUN
ER
_CLK
1913
0_01
1_11
0426
.eps
1104
26
56
7702
M24
C64
EE
PR
OM
(NV
M)
3717
3716
N34
N36
3727
3728
3746
3747
+3V
3STB
Y
3746
3747
+3V
3STB
Y
UAR
TSE
RVIC
EC
ON
NEC
TOR
3749
3748
1701
3 2 1
B04
C
ER
R15
7703
1
610
11
5
15
VGA
CO
NN
ECTO
R
SD
A_V
GA
SC
L_VG
A
1E01 12 15
3E21
3E22
DC
_5V
3K40
3K41
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C_3
V3
3K54
3K53
VC
C
56
7E00
M24
C02
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PR
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4E03
4E02
4818
4817
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DID
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7E01
B04
CM
T536
3
12
1KQ
B 21
RO
M_S
DA
RO
M_S
CL
U8
T8
4645
7302
TC90
517F
G
DIG
ITA
LD
EM
OD
ULA
TOR
3352
3351
FE_S
DA
FE_S
CL
76
1201
VA1E
1BF2
403
MA
INTU
NE
R
ER
R16
3228
3230
TUN
ER
_SD
A
TUN
ER
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L
1214
7H01
VP
P15
01B
FG
TCO
NC
ON
TRO
L
56
7K04
M24
C64
EE
PR
OM
1213
7K00
ISL2
4837
IRZ
VOLT
AGE
GE
NE
RAT
OR
78
7
7801
PC
A95
40B
DP
I2C
SW
ITC
H
HD
MI 2
CO
NN
ECTO
R
HD
MI 1
(SID
E)C
ON
NEC
TOR
1901
16 15
TOTC
ON
TO SSB
1G51
50 49
3907
3908
AL1
4
AL1
2
1902
16 15
3915
3916
HD
MI_
PLU
GP
WR
2
HD
MI_
PLU
GP
WR
2
AN
18
AM
17
SID
E_H
DM
I_S
DA
1
SID
E_H
DM
I_S
CL1
HD
MI_
SD
A2
HD
MI_
SC
L2
HD
MI_
SC
L2
HD
MI_
SC
L1
HD
MI_
SD
A2
HD
MI_
SD
A1
7900
M24
C02
EE
PR
OM
7901
M24
C02
EE
PR
OM
43W
P_T
CO
N
RE
SE
T
MA
IN N
VMSW
Prog
ram
mab
le v
ia U
SBSW SW
Prog
ram
mab
le v
ia C
omPa
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SW
EDID
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IDSW
3K56
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TR
FLA
SH1G
bP
DD
U0_
RX
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TX
NA
ND
SDR
AM
512M
b
7601
H5P
S51
62FF
R
SDR
AM
512M
b
7600
H5P
S51
62FF
R
RD
Q(0
-31)
RA
(0-1
3)
DR
AM
B04
B
RD
Q RA
56
56
4816
4814
SD
A_V
CO
M
SC
L_V
CO
M
SD
A_V
GA
SC
L_VG
A
SD
A-T
CO
N
SC
L-TC
ON
1N01 2 3
4B
YPA
SS
_MO
DE
B08
A
B04
C
Blo
ckD
iagr
ams
EN 4
1L1
1M1.
1L L
A9.
2011
-Apr
-29
Supp
ly L
ines
Ove
rvie
w
SUPP
LY L
INES
OVE
RVIE
W
MA
INPO
WER
SUPP
LY
B01
DC
- D
C
T01B
TCO
N C
ON
TRO
L
B04
CC
ON
TRO
LLER
B06
AA
NO
LOG
I/O
- H
EAD
PHO
NE
B04
AM
TK P
OW
ER
B04
BD
DR
B05
AH
DM
I & M
UX
B05
BU
SB
T01A
LVD
S D
ISPL
AY
B06
DVG
A
B04
DLV
DS
DIS
PLAY
T01E
MPD
T01F
MIN
I LVD
SB
02A
TUN
ER
B02
BD
IGIT
AL
Dem
od
B03
CLA
SS-D
& M
UTI
NG
T01C
TCO
N D
C/D
CB
06B
AN
ALO
G I/
O -
AUD
IO
T01D
P G
AM
MA
& V
CO
M &
NVM
1M99 1
1
66
77
881M
95+3
V3S
TBY
1913
0_00
5_11
0426
.eps
1104
26
B04
d
B03
,B04
c,B
06b
B03
,B04
a,c,
d,B
05a
B02
b,B
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c,d,
B06
a,B
06b
B02
a
B02
a,B
03.B
04c,
B06
d,B
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b
B02
b
B02
b,B
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B04
a,b
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a
B03
1M99 1
1
66
77
22
33
44
55
88
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P-O
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BAC
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B04
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99
GN
D-A
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1010
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IO
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B04
CC
ON
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LB
06D
CO
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99
PO
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22
33
44
55
STA
ND
BY
B04
AC
ON
TRO
L
1111
7122
RT8
283A
HG
SP
Syn
chro
nous
Ste
p-do
wn
Con
verte
r
N.C
.
5117
PW
R5V
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+3V
3STB
Y+3
V3S
TBY
1902 18
HD
MI 2
CO
NN
EC
TOR
B01
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2011
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10.C
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s an
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10-1
B01
393
9123
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2
2011
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131
3139
123
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32
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6122
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36
3125
1% 5K1
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2130
2157
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BZX384-C6V8
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2140
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MC
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3127
RES
470p
68R
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I127
I118
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DIO
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2172
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5124
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6
7
5
4
9
8
3
102
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1
3153
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4
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E+1
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363
DG
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2139
I142
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3106
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100n
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2175
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2041
145-
9
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100p 2131
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2179
100n
3128
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RT8
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P
SS
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MC
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10K
3122
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3117
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S
PO
WE
R-O
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STA
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BY
BA
CK
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PW
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MP
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BA
CK
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BO
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V_S
TATU
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Circ
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ams
and
PW
B L
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43
L11M
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LA
10.
2011
-Apr
-29
10-2
B02
393
9123
6505
2Tu
ner
1913
0_01
7_11
0426
.eps
1104
26
Tune
rB
02A
B02
A 2011
-01-
312
2011
-01-
131
3139
123
650
5P
CB
SB
SS
BTH
RIL
LER
BR
Z D
IG
CO
MOU
TIN
MTMT
0R
Nea
r Tun
erN
ear M
TK53
63
330n
AG
ND
220n
5230
5228
AG
ND
47n
2293
KTK
5132
E72
18
AG
ND
F246
F208
AG
ND
AG
ND
3270
10K
13
2278
1u0
7216
LD29
150D
T50R
2
2294
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AG
ND
AG
ND
AG
ND
AG
ND
F207
F204
F206
A21
4
15p
2225A
213
100p
2262RES
2258
100n
2295
F213
100p
1810R 3271-1
I222
I221
3261
NC
2
3R
F_A
GC
6S
CL
7S
DA
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T+11
IF_O
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IF_O
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AN
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AG
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2226
100n
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RES
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7217
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2280
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5222
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RES2277
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AG
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5225
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RES
27
83272-210R
3272-110R RES
1
2289
AG
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2285
27p
4210RES
2287
10n
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2296RES
3264
A21
2
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AG
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3272-410R RES
45
3272-310R RES
36
30R
I220
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S52
07
RES
RES
4209
45
1n0
2297
3610R 3271-4
2710R 3271-3
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L
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F205
5226
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2011
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Dig
ital d
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1913
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26
Dig
ital d
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orB
02B
B02
B 2011
-01-
312
2011
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131
3139
123
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DG
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AG
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3360
4K7
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1u0
2305 33R
3359
F306
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3344
2K7
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I303
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2313
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2302
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DG
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DG
ND
DG
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I318
374447505762
19 18 3 2
365663
13354964
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61 60 5138 42
8
12 14
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16 17
53 54 55 59
45 46
6 552
7 11
3448
43
39 40
21 58
20
28
22 23
32
31
262524
9 10
7302
TC90
517F
G
2930 27
2317
100n
5304
30R
DG
ND I3
25
2339
1u0
I308
4308
DG
ND
100n
2304
DG
ND
10K
3335
DG
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3349
10K
2K7
3343
2321
100n
10n
2322
AG
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2332
100n
2320
1u0 100n
2338
3339
20K
1u0
2316
30R
5306
1u0
2318
AG
ND
I304
5302
30R
5307
30R
+1V
25_S
W
DG
ND
39p
2379RES
+3V
3_S
W
I316
I306
I302
2307
100n2308
2309
100n
100n
F302
3332
2K7
DG
ND
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45
L11M
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2011
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2011
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2011
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3139
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47
L11M
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10.
2011
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DD
R
1913
0_02
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1104
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QM
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RD
QS
(1)#
RD
QS
(1)
RD
QS
(0)#
RA
(1)
RA
(11)
RA
(7)
RA
(0)
RA
(4)
RD
QM
(2)
RC
AS
#
RW
E#
RO
DT
RC
KE
RC
LK1#
RC
LK1
RC
LK0#
RA
(9)
RC
LK0
RB
A(1
)R
BA
(0)
RA
(13)
RA
(12)
RA
(8)
RA
(5)
RA
(3)
RD
QS
(3)#
RD
QS
(3)
RD
QS
(2)#
RD
QS
(2)
RD
QM
(3)
RD
Q(2
4)R
DQ
(23)
RD
Q(2
2)R
DQ
(21)
RD
Q(2
0)R
DQ
(19)
RD
Q(1
8)R
DQ
(17)
RD
Q(1
6)
RB
A(2
)
RD
Q(3
1)R
DQ
(30)
RD
Q(2
9)R
DQ
(28)
RD
Q(2
7)R
DQ
(26)
RD
Q(2
5)
RD
Q(2
5)R
DQ
(26)
RD
Q(2
7)R
DQ
(28)
RD
Q(2
9)R
DQ
(30)
RD
Q(3
1)
RA
(0)
RA
(1)
RA
(2)
RA
(3)
RA
(4)
RA
(5)
RA
(6)
RA
(7)
RA
(8)
RA
(9)
RA
(10)
RA
(11)
RA
(12)
RC
AS
#
RB
A(2
)
RA
(13)
RB
A(0
)R
BA
(1)
RC
KE
RW
E#
RC
S#
RO
DT
RR
AS
#
RA
(8)
RA
(9)
RA
(10)
RA
(11)
RA
(12)
RA
(13)
RB
A(1
)R
BA
(2)
RD
Q(1
)R
DQ
(2)
RD
Q(3
)R
DQ
(4)
RD
Q(5
)R
DQ
(6)
RD
Q(7
)R
DQ
(8)
RD
Q(9
)R
DQ
(10)
RD
Q(1
1)R
DQ
(12)
RD
Q(1
3)R
DQ
(14)
RD
Q(1
5)R
DQ
(16)
RD
Q(1
7)R
DQ
(18)
RD
Q(1
9)R
DQ
(20)
RD
Q(2
1)R
DQ
(22)
RD
Q(2
3)R
DQ
(24)
RA
(0)
RB
A(0
)
RC
AS
#
RC
KE
RC
LK0
RC
LK0#
RC
LK1
RC
LK1#
RC
S#
RD
QM
(0)
RD
QS
(0)
RO
DT
RR
AS
#
RW
E#
RD
Q(0
)
RD
QS
(1)
RD
QS
(0)#
RD
QS
(2)
RD
QS
(3)
RD
QS
(1)#
RD
QS
(2)#
RD
QS
(3)#
RD
QM
(1)
RD
QM
(2)
RD
QM
(3)
RA
(1)
RA
(2)
RA
(3)
RA
(4)
RA
(5)
RA
(6)
RA
(7)
EN 4
8L1
1M1.
1L L
A10
.C
ircui
t Dia
gram
s an
d P
WB
Lay
outs
2011
-Apr
-29
Con
trol
ler
1913
0_02
3_11
0427
.eps
1104
27
Con
trolle
rB
04C
B04
C 2011
-01-
312
2011
-01-
131
3139
123
650
5P
CB
SB
SS
BTH
RIL
LER
BR
Z D
IG
CLE
76543210
VC
C
RSE
WP
WE
RE
CE
_A
LE
NC
IO
B
VS
S
ETR
XE
TTX
CI
CI
D0
D1
D2
D3
ER
EN
CLK
ETM
DC
ETM
DIO
MC
LKO
MD
O0
MO
VA
L
MO
STR
TM
ISTR
T
D0
D1
D2
D3
DV
ER
CLK
ETP
HY
CLK
ETC
OL
ETC
RS
MC
LKI
MD
I0
MIV
AL
GP
IOG
PIO
23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44
18 19 20 21 220 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
SU
B
ER
GN
D
VO
UT
VD
D
SC
LA
DR
0 1 2S
DA
WC
PD
D
US
B
AD
IN_S
RV
OS
DA
OS
CL
TUN
ERO
PC
TRL
OP
WM
U0
RX TX
U1
PO
CE
HD
MI AG
C
DE
MO
D
CLK
DA
TAB
YP
AS
S
BY
PA
SS
0A
DC
INP
AD
CIN
N IF RF3 4 5 6 7 0 1
PA
RB
PA
ALE
PA
CLE
PO
WE
PO
OE
RX TX
PW
R5V
SC
L20 1 2
OIR
I 0 1 2 3 4
OP
WR
SB
CE
CS
DA
1S
CL1
SD
A20 1 2
OR
ES
ET
FSR
C_W
RM
EM
TNM
EM
TPTP
_VP
LL
JTC
KJT
DO
JTR
ST
JTD
IJT
MS
0 1 2 0 1 2 0 1 2 3 4 5 DP
DM
VR
T
XTA
LI
XTA
LO
VC
XO
0
ON
LY
0A
OS
DA
TA0
RES
AO
BC
K
XTA
L 54
MH
Z
UA
RT
(SE
RV
ICE
)
RE
S F
OR
ITV
OP
CTR
L3(0
)
OP
WM
1
AO
LRC
KA
SP
DIF
PD
WN
C N
orm
al
SDM
0
10
TRA
P2
0
1
0
PANEL
ICE
mod
e +R
OM
mod
e
PW
M D
IMM
ING
FOR
DE
BU
GG
ING
TRA
P1
TRA
P0
ICE
mod
e +
Ser
ial B
oot
0
I713
3741
1K0
3730
10K
RE
S
+3V
3STB
Y
3781
4700
100R
+3V
3STB
Y
+3V
3STB
Y
+3V
3_S
W
I757
+3V
3STB
Y
F758
10K
3729
3717
22RBC
847B
W77
03
3754
4K7
F757
+3V
3_S
W
37214K7
2723
RES
1n0
F706
I750
I753
+3V
3_S
W
+3V
3_S
W
10p
2717
10p
2703
F746
2709
4u72716
10p
RES2711
100n3768
6K8
1K0
F743
3798
I744
F705
I727
3732
100R
10K
2
6 1
3733
7709
-1B
C84
7BS
(CO
L)
3711
4K7
100R
RE
S3794
I756
10p
2729RES
I741
F756
3770
1K0
DEB
10K
3759
I754
4K7
3702
37774K7
10R
3795
37A6 RES10K
15
8 76
12
37
13
36
18 19
40 45 46 47 483 4 5 10 11 14 25 26 27 28 332 34 35 38 39
41 42 43 44
1 20 21 22 23 24
17 91629 30 31 32
+3V
3_S
W
7708
H27
U1G
8F2B
100R
3744
10K RES37A7
3705
F759
100R
3704
100R
2720
47n
F765
30R
RES
5706
+3V
3_S
W
100K
3790
3712
33R
30R
5701
100n
2730
10K
2710
3763-4 DEB
4u7
4K7
+3V
3_S
W
3756
BZX384-C6V8
6700
+3V
3_S
W
10K 3778
100n
2727
100R
3709
+3V
3STB
Y
3748
33R
1700 54
M
F741
I731
I716
F721
I745
10K
3700
3785
10K
+3V
3STB
Y
I725
10n
RES2705
BZX384-C3V3
6708RES
E32
B31
D31
E34
B33
A36
B35
A34
C34
B37
D35
D33
A32
C32
H37
H33
G34
F37
G36
G32
C36
E36
D37
F31
7700
-6M
T536
3BIM
G MA
C-C
I
F35
F33
H35
6701
BZX384-C6V8
G30
E30
H29
F29
B29
A22
C22
AF5
AG
2A
E6
C30
AF7
AG
4A
G6
AH
3A
H1
H25
B25
D25
C24
G24
A30
E24 J24
B23 F23
D23
H27
F27
B27
D27
G26
J32
E26
A26
C26
J26
F25
K35
K37
D29
C28
E28
J28
G28
1706
7700
-4M
T536
3BIM
G
GP
IO
100n
2713
3751
100R
6709
BZX
384-
C8V
2
3791
100R
+3V
3_S
W
4K7 3719
3710
4K7
4708
RE
S
I737
BC
847B
W77
10
3763-210K DEB
RES
1K0
3743
3745
4K7
1u0
1705
2706
9
1213
37AA
4K7
1 10 112 3 4 5 6 7 8
DE
B
1702
5023
82-1
170
3716
+3V
3_S
W+3
V3_
SW
+3V
3_S
W
22R
100R
3787
F747
2722
1n0
I738
100R
RE
S
10K 3763-3
3788
DEB
F718
I747
F719
I755
+3V
3_S
W
10K 3715
I714
4K7
I761
3784
RES 3720
10K
10K
3761
4K7
F748
3746
3753
4K7
2701 RES
100n
4
F701
+3V
3_S
W
Φ1
3
25
I715
BD
4529
2G77
01
2 13
MS
J-03
5-29
D P
PO
1701
4K7
3749
33R
3747
I760
10K
3757
2704
RES
RES
10p
37A9
10K
3726
RE
S
4K7
F766
3737
100R
F738
3703
10K
7705
3701
BC
847B
W
4 5 6 7 8
10K
2041
145-
8
1M20
1 2 3
RE
S
+3V
3_S
W
10K
3731
3742
680R
2700100nRES
F704
F716
3735
100R
100R
373437
39
1R0
100R
3727
100R
3796
F740
3771
1K0
10K
3760DEB
I726
3706
4K7
I735
4K7
3783
1 2 3
6 5
8 4
7(8
K ×
8)
EE
PR
OM
7702
M24
C64
-WD
W6
37A5
4K7
F724
7709
-2 5
3 4
220R
BC
847B
S(C
OL)
+5V
_SW
5705
3765
33R
DE
B
10K
3758
F750
+3V
3_S
W
I739
4K7
3736
10K 3780 DEB
RES3779
4K7
+3V
3STB
Y
F742
F753
F760
I759
F763
100n
2728
100K
I746
3769
F754
2726
100n
3793
RE
S47
07
I733
100R
I743
F739
220n
2721
AP
21R
36 T35
AR
10A
U10
AN
10
T37
AJ3
6
AJ3
4
AN
6
AU
2A
T3
AL1
6A
M15
M33
M19
AP
37
N36
N34
AT2
1
AU
4
AT5
AR
2A
P5
AR
6A
U6
AP
7A
T7A
R8
AU
8
AT1 T3
3
AL2
0
AL2
2
AP
3R
34P
31
AP
1R
32P
33
AR
4
K5
K7
AN
22
AM
21A
M19
AN
20A
R20
AU
20J34
J36
AN
14
AM
17
AL1
2
AN
18
AL1
4
M31
AK
3
AJ2
AH
5
AJ4
AK
1
MT5
363B
IMG
AH
35A
H37
AL3
2A
K33
AM
35A
L34
AM
37A
L36
AM
31
L30
CO
NTR
OL
7700
-1
100R
3728
6707
BAS316
I734
F755
+3V
3_S
W
+3V
3_S
W
I711
F702
F737
DEB10K 3763-1
10K
3713
F707
F751
I700
2702
100n
+3V
3_S
W
F745
I758
I732
3792
2K2
100R
+3V
3_S
W
37A8
I749
100n
2712
F749
30R
5700
F761
2724
1n0
2719
47n
F717
RES37754K74K7 3774
1%
3789
RES
5K1
100R
3738
3764
1K0
371410K
+5V
_SW
F708
3724
1R0
I708
I701
+3V
3STB
Y
+3V
3STB
Y
10K
37ABRES
F725
3762
1K0
DEB
3767
15K
37184K7
I742
3707
4K7
3786
10K
10K
3782
10K
RES
3722
10K
3723
RES
10K
3740
6706
BAS316
37764K7
F736
+3V
3STB
Y
+3V
3_S
W
+3V
3_S
W
RES
+12V
S
1n0
2725
F744
LIG
HT-
SE
NS
OR
RE
SE
T_A
UD
IO
RC
NA
ND
_PD
D(0
)
NA
ND
_PA
RB
NA
ND
_PO
CE
NA
ND
_PO
WE
NA
ND
_PA
LEN
AN
D_P
CLE
SC
L-D
ISP
SD
A-D
ISP
TUN
ER
_SD
ATU
NE
R_S
CL
RF_
AG
C_S
W
NA
ND
_PO
OE
NA
ND
_PD
D(7
)N
AN
D_P
DD
(6)
NA
ND
_PD
D(5
)N
AN
D_P
DD
(4)
NA
ND
_PD
D(3
)N
AN
D_P
DD
(2)
NA
ND
_PD
D(1
)
AR
C_S
W
INV
_STA
TUS
BY
PA
SS
_MO
DE
RE
SE
T_D
EM
OD
VIN
_ATV
VIP
_ATV
IF_A
GC
RF_
AG
C
BA
CK
LIG
HT-
PW
M
LAM
P-O
N
STA
ND
BY
BA
CK
LIG
HT-
BO
OS
T
PO
WE
R-O
K
PO
WE
R_D
OW
N
JTM
S
MU
TE
DC
_PR
OT
SW
_MU
TE
SD
A-M
AIN
SC
L-M
AIN
NA
ND
_PO
CE
SY
S_E
EP
RO
M_W
E
LED
-2
BO
OS
T_C
ON
TRO
L
PO
WE
R_D
OW
N
KE
YB
OA
RD
JTD
O
JTD
O
LIG
HT-
SE
NS
OR
LED
-1
OR
ES
ET
JTD
I
LED
-1
KE
YB
OA
RD
JTC
K
JTR
ST
SD
A-L
CD
PW
R5V
_1
HD
MI_
CE
C
BA
CK
LIG
HT_
CO
NTR
OL
US
B_O
CP
US
B_P
WR
_EN
SC
L-LC
D
US
B_D
MU
SB
_DP
PW
R5V
_2S
IDE
_HD
MI_
SC
L1S
IDE
_HD
MI_
SD
A1
HD
MI_
SC
L2H
DM
I_S
DA
2
NA
ND
_PO
WE
NA
ND
_PA
RB
NA
ND
_PO
OE
LED
-2
JTR
ST
VC
OM
_SW
RC
ED
ID_W
C
LCD
-PW
R-O
Nn
SD
A-M
AIN
SC
L-M
AIN
NA
ND
_PA
LEN
AN
D_P
CLE
TSO
_CLK
TSO
_DA
TA0
TSO
_SY
NC
TSO
_VA
LID
JTM
SJT
DI
JTC
K
NA
ND
_PD
D(0
)N
AN
D_P
DD
(1)
NA
ND
_PD
D(2
)N
AN
D_P
DD
(3)
NA
ND
_PD
D(4
)N
AN
D_P
DD
(5)
NA
ND
_PD
D(6
)N
AN
D_P
DD
(7)
Circ
uit D
iagr
ams
and
PW
B L
ayou
tsEN
49
L11M
1.1L
LA
10.
2011
-Apr
-29
LVD
S D
ispl
ay
1913
0_02
4_11
0427
.eps
1104
27
LVD
S D
ispl
ayB
04D
B04
D 2011
-01-
312
2011
-01-
131
3139
123
650
5P
CB
SB
SS
BTH
RIL
LER
BR
Z D
IG
-BU
SC
TRL
FIL
I2
CIN
P
-
Y- YY
PC
A59
40
YY-
-
PC
A95
15 -
(RE
S)
4820
-
4822
4821
-Y
4817
4818
4810
-
4816
4814
YLV
DS
#1
-
Y
Y
4811
-
4819
- -
4813
Y
4815
4812
Y -
Y
Y -
33R
5800
3803
F801
47R
+3V
3STB
Y
F805
4816
100n
2805
61 5354
5556
5758
5960 4849 55051 678952 39 44041424344454647 2829 3303132333435363738 19 22021222324252627 1101112131415161718
FI-R
NE
51S
Z-H
F-R
1500
1G51
3805
47K
F800
4801 RES
I801
5801
33R
RES
RES
4815
4813
4823
RE
S
F813
F812
4800 RES
4804
RE
S48
20
I809
4805
I800
F808
4817
+5V
_SW
RES4822
4810
RES4811
4824
4814
RE
S
4818
678
4
123
SI4
835D
DY
5
100u16V
7800
2804
15K
3806
7803
3807
10K
BC
857B
W
F823
F821
4812
RE
S
F814
4821
RE
S
1u0
2806
1K0
3810
I808
I807
10K
3808
7802
-25
3 4B
C84
7BS
(CO
L)
33R
5802
F809
2
6 1B
C84
7BS
(CO
L)78
02-1
+VD
ISP
-INT
+VD
ISP
-INT
F833
F827
F815
F825
F834
F832
F811
I802
4806
RE
S
I806
220n
2807
BZX
384-
C6V
8
6800
F831
F829
F828
47K
4803 3802
4808
RE
S
F810
+12V
DIS
P
+3V
3_S
W
F807
F806
F822
4802 RES
4807
RE
S
F820
F819
F817
F824
F826
10n
2803
RE
S
2802
100n
1K0
3809
VS
S6
F818
SC
05 8
SC
1
SC
L4
0D
S1
SD
17
SD
A2
VD
D3
PC
A95
40B
7801
F816
4819
SC
L-D
ISP
SD
A-D
ISP
SD
A-V
CO
M
LCD
-PW
R-O
Nn
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2011
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10-5
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393
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B05
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11-0
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2011
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131
3139
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51
L11M
1.1L
LA
10.
2011
-Apr
-29
USB
1913
0_02
6_11
0427
.eps
1104
27
US
BB
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B05
B 2011
-01-
312
2011
-01-
131
3139
123
650
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2011
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393
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6505
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7_11
0427
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27
Ana
log
I/O -
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06A
B06
A 2011
-01-
312
2011
-01-
131
3139
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B L
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53
L11M
1.1L
LA
10.
2011
-Apr
-29
Ana
log
I/O -
Aud
io
1913
0_02
8_11
0427
.eps
1104
27
Ana
log
I/O -
Audi
oB
06B
B06
B 2011
-01-
312
2011
-01-
131
3139
123
650
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WB
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2011
-Apr
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Ana
log
I/O -
Vide
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1913
0_02
9_11
0427
.eps
1104
27
Ana
log
I/O -
Vid
eoB
06C
B06
C 2011
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312
2011
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131
3139
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F717
F718
F719
F721
F724
F725
F736
F737
F738
F739
F740
F741
F742
F743
F744
F745
F746
F747
F748
F749
F750
F751
F753
F754 F755
F756
F757
F758
F759
F760
F761
F763
F765
F766
F800
F801
F805 F806
F807 F808
F809 F810
F811 F812
F813
F814
F815
F816
F817
F818
F819
F820
F821
F822
F823
F824
F825
F826
F827
F828
F829
F831
F832
F833
F834
F900
F901
F902
F903
F904
F905
F906
F907
F908
F909
F911
F912
F913
F914
F915
FA02
FA03
FA04
FA06
FA07
FA08
FA09
FB00
FB01
FB02
FB03
FB04
FB06
FB07
FB08
FB09
FC00
FC01
FC02 FC
03
FC04
FC05
FC06
FC07
FC08
FC09
FC10
FC11
FC12
FC13
FC14
FC15
FD00
FD01
FD02
FD03
FD04
FD05
FD06
FD07 FE
01
FE02
FE03
FE04
FE05
FE06
FE07
FE08
FE09
FE10
FE11
FE12
FE13FE
14
FE15
FE16
FF00
FF01
FF02
FF03
FF04
FF11
FF12
FF13
I104
I105
I106
I107
I108
I109
I110
I111
I112
I113
I117
I118
I119
I120
I122
I123
I125
I126
I127
I131
I132
I134
I135
I136
I137
I138
I139
I140
I141
I142
I143
I144
I220
I221
I222
I254
I255
I300
I301
I302
I303
I304
I305
I306
I307
I308
I316
I317
I318
I320
I325
I338
I401
I403
I405
I406
I411
I412
I413
I414
I415
I416
I417
I418
I422
I423
I424
I425
I429
I430
I431I4
32
I433
I434
I435
I436
I437
I440
I441
I442
I443
I445
I502
I504
I505
I506
I507
I700
I701
I708
I711
I713
I714
I715
I716
I725
I726
I727
I731
I732
I733
I734
I735
I737
I738
I739
I741
I742
I743
I744
I745
I746
I747
I749
I750
I753
I754
I755
I756
I757
I758
I759
I760
I761
I800
I801
I802
I806
I807
I808
I809
I902
I905
I906
I915
I916
IA00
IA01
IA02
IA03
IA04
IA08
IA09
IA10
IB00IB
01
IB02
IB03
IB08
IB09
IB10 IB
12IB
13
IB14
IB15
IB16
IB17
IB18
IB19
IB20
IB21
IB22
IB23
IB24
IB25
IB26
IB27
IB29
IB31
IB33 IB
35
IB37
IB39
IB41
IB43
IB45
IB47
IB48
IB49
IB50
IB51
IB52
IB53
IB61
IB63
IB66
IB67
IB70
IB71
IB72
IB74
IC01
IC02
IC03
IC04
IC05
IC07
IC09
IC10
IC11
IC13
IC14
IC15
IC16IC
17IC
18
IC19IC20
IC21
IC22
IE00
U1
U3
Circ
uit D
iagr
ams
and
PW
B L
ayou
tsEN
59
L11M
1.1L
LA
10.
2011
-Apr
-29
10-9
T01
393
9123
6507
1 L
VDS
Dis
play
1913
0_03
2_11
0427
.eps
1104
27
LV
DS
Dis
play
T01A
T01A
2010
-06-
291
3139
123
650
7P
CB
SB
THR
ILLE
R B
RZ
TCO
N
NC
LVD
S#1 59
609 52
615354
5556
575846 47 48 495 50 516 7 8 36 37 38 394 40 41 42 43 44 4527 28 293 30 31 32 33 34 3517 18 192 20 21 22 23 24 25 261 10 11 12 13 14 15 16FI
-RE
51S
-HF
1N01
FN32
FN28
FN26
FN27
FN25
FN20
FN18
FN19
FN17
10n
2N03
RE
S
FN14
FN13
FN11
FN12
+VD
ISP
-INT
FN01 FN
33
1X02
RE
F E
MC
HO
LE
FN31
1X01
RE
F E
MC
HO
LE
FN29
FN24
FN23
FN21
FN22
FN16
FN15
FN07
FN08
FN06
FN05
2N01
100u16V
100n
2N02
FN10
FN09
SC
L-TC
ON
SD
A-T
CO
N
PX
2CLK
+P
X2C
LK-
BY
PA
SS
_MO
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PX
2D+
PX
2D-
PX
2E+
PX
2E-
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1C-
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1B-
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1A+
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1D-
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1CLK
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PX
2A-
PX
1E+
PX
1E-
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EN 6
0L1
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1L L
A10
.C
ircui
t Dia
gram
s an
d P
WB
Lay
outs
2011
-Apr
-29
TCO
N C
ontr
ol
1913
0_03
3_11
0427
.eps
1104
27
TCO
N C
ontro
lT0
1BT0
1B
2010
-06-
291
3139
123
650
7P
CB
SB
THR
ILLE
R B
RZ
TCO
N
C1
RS 1D
1
1
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K
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14
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BA A
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DQ
CK
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1CS
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S
00 1 2
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A BA
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
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0 1 RE
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0 1 2 3 4 5 6 7 8 9 10 11 12 CS
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VS
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VS
S
VS
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VS
S
VS
S
VS
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S
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D18
PLL
VS
S
VD
D18
VD
D18
VD
D18
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D18
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D33
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D18
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D18
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D18
VD
D18
NC
DB
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IN
0 1 2 3
TES
TSE
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SC
LS
DA
ATT
N
RTC
50_6
0
SC
LS
DA
TES
TAG
N
TES
TMO
D
RX
ER
XO
RX
OR
XE
4N
CLK
PC
LKN0P 0N 1P
0P 0N 1P 1N 2P 2N 3P 3N 4P 4N CLK
PC
LKN
1N 2P 2N 3P 3N 4P
CS
LLVLL
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STH
B1
B2
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0P 0N 1P 1N 2P 2N 3P 3N 4P 4N 5P 5N 6P 6N 7P 7N
CK
PC
KN
RLVR
LV
1 2 3 4 5 6 7 8 9 10 11 12 RE
SP
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F1 F2 PO
L
TP CP
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TVD
SLO
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SE
LLV
OS
0P 0N 1P 1N 2P 2N 3P 3N 4P 4N 5P 5N 6P 6N 7P 7N
CK
PC
KN
FH06
FH00
100n
2H38
100n
2H39
2H36
100n
FH35
DD
R2V
DD
DD
R2V
DD
2H50
DD
R2V
DD
VC
C1V
8
5H05
10u
VC
C1V
8 60R
100R
3H23
33R
3H21
RE
S
2K2
3H22
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C1G
74D
C
21
4
5 367
8
4
7H03
7H05
2 1
35
74LV
C1G
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2H42
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4H04
3H04
16K
3H03
150K
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2H54
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D3V
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8
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21
4
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3
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4
7H04
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C
6
7H02
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2G0474
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2G04
7H02
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1
25
FH02
FH01
FH03
100n
FH05
100n
2H29
2H27
2H28
100n
100n
2H31
2H30
100n
100n
2H35
2H32
100n
2H34
100n
10u
VC
C1V
8
60R
5H01
2H442H43
10u
60R
5H00
10u
2H51
60R
5H06
100n
2H53 RES
3H20
100R
F8H2
K3
P9
J7
A7
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B2B8D2D8E7F2
C9E9G1G3G7
J2
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R7
R8
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B7
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H9 F1 F9 C8
C2 F3
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L8
G8
G2
D7
D3
D1
D9
B1
B9
H7
H3
N7
P2
P8
P3
L2 L3L7 J8K2
K8
M8
M3
M2
P7
R2
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N2
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SD
RA
M
H5P
S51
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R-S
6C7H
00
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H_3
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3
VC
C_3
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VC
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DS
X32
1G1H
00
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24
1
100R 3H15
100R 3H16
100R
P14 U4
D10
D11
3H17
N13
N14 P
5P
6P
8P
9
D9
P10
P11
P12
P13M
8M
9M
12M
13 N4
D8
N5
N8
N9
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6K
7K
10K
11 L4D7 L6 L7 L10
L11
M5J1 J2 J4 J5 J8D6 J9 J12
J13
J14
J16
G6
G7
G10
G11D5
H5
H8
H9
H12
H13E
8E
9E
12E
13C4
E14 F6 F7 F1
0F1
1G
4
E15
J15
N15
R13
C3
D12
D13
D14 E
2E
4E
5
E10
E11
F5 C6
R6
R9
R12
C8
C11
C13
N3
N6
N7
N10
N11
P15
R5
E6
R8
R11
E7
L3 L5 L8 L9 L12
L13
M6
E3
M7
M10
M11
J6 J7 J10
J11
K5
K8
D15
K9
K12
K13
G5
G8
G9
G12
G13
H6
C9
H7
H10
H11
J3 C7
C10
C12
G3
C5
F8 F9 F12
F13
C2
C1
M2
PO
WE
R
VP
P15
01B
FG7H
01-5
K1
K4
H1
H4
D3
D2
G2
G1
M4
M3
E1
N2
H3
H2 F3 F2 F1 F4 D1
D4
K3
K2
R3
U1
T4 U2
P1
P2
N1
L2 M1
L1P4
R2
R1
T3 U3
P3
T1 R4
T2
DR
AM
VP
P15
01B
FG7H
01-4
100n
2H10
100n
2H08
2H07
100n
100n
2H09
100nFH34
100n
2H47
2H48
RES
2H03
FH04
2H13
100n
2H26
100n
100n
100n
2H25
100R 3H07
2H37
VC
C_3
V3
DD
R2V
DD
100n
100n
5H03
2H33
VD
D3V
3LV
RS
VD
D3V
3IO
60R
VD
D1V
8
VD
D1V
8PLL
3H00
2H52
1K0
VC
C1V
8
100n
60R
5H04
3H19
RE
S
100R
3H06
1K0
3H05
2K4
1M0
3H02
3H01
560R
2H41
10p
2H40
10p
3H18100R
100R 3H13
100R 3H14
U15
U14
U12
T12
U13
U10
K16 L15
L14
L17
L16
M15
M14
T17
T16
H15
H14
F17
F16
G15
G14
G17
G16
H17
H16
K15
K14
K17
D17
D16
E17
E16 F1
5F1
4T1
0
U11
T13
J17
A17
A16
B15
B14
B17
B16
C15
C14
C17
C16
N17
P16
P17
R14
R15
R16
U16
U17
A15
A14
LCD
T11
M16
R17
T14
T15
M17
N16
A8
B8
A10
B10
VP
P15
01B
FG7H
01-3
B2
A4
B4
A13
B13
A12
B12
A11
B11 A
9B
9
VP
P15
01B
FG
LVD
SA
7B
7
A6
B6
A5
B5
A3
B3
A2
U6 T6 U7
7H01
-2
R7
T8 U8
A1
B1
T9 U9
R10 U
5 T5
MIS
C
VP
P15
01B
FG7H
01-1
T7P7
100n
2H05
2H04
100n
100n
2H06
2H02
100n
2H01
100n
3H12100R
10u
2H45
60R
5H02
10u
2H46
1R0
3H27
1R0
3H28
RE
SR
ES
1R0
3H26
RE
S1R
03H
25R
ES
3H10
100R 3H11
100R
3H09100R
100R 3H08
FH36
FH40
FH39
FH38
FH37
RE
V
SC
L-TC
ON
SD
A-T
CO
N
U_D
_IN
V
RE
SE
T
GS
P2
GS
P1
GC
K
U_D
TDQ
4TD
Q5
TDQ
6TD
Q7
TDQ
8TD
Q9
TDQ
0TD
Q1
TDQ
10TD
Q11
TDQ
12TD
Q13
TDQ
14TD
Q15
TDQ
2TD
Q3
TA10
TA11
TA12
TCA
S#
TCK
ETW
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TBA
0TB
A1
TOD
T
TCS
#TR
AS
#
TA0
TA1
TA2
TA3
TA4
TA5
TA6
TA7
TA8
TA9
RE
SE
T
TCK
#TC
K
TLD
QS
TLD
QS
#
TUD
QS
TUD
QS
#
OS
CIN
OS
CO
UT
RO
M_S
DA
SD
A-T
CO
N
PX
1CLK
+
RE
V
OS
CIN
OS
CO
UT
50H
z_60
Hz
RO
M_S
CL
SC
L-TC
ON
PX
1D-
PX
1C+
PX
1C-
PX
1B+
PX
1B-
PX
1A+
PX
1A-
TLD
QS
TLD
QS
#
TOD
T
TRA
S#
TUD
QS
TUD
QS
#
TWE
#
PX
1E+
PX
1E-
PX
1D+
TA12
TA2
TA3
TA4
TA5
TA6
TA7
TA8
TA9
TBA
0TB
A1
TCA
S#
TCK
TCK
E
TCK
#
TCS
#
TDQ
0TD
Q1
TDQ
10TD
Q11
TDQ
12TD
Q13
TDQ
14TD
Q15
TDQ
2TD
Q3
TDQ
4TD
Q5
TDQ
6TD
Q7
TDQ
8TD
Q9
LCK
-LC
K+
SE
LLV
DS
GS
LOP
RD
IO1
RD
IO2
LDIO
1LD
IO2
GS
P1
GS
P2
LS U_D
TA0
TA1
TA10
TA11
LLV
2+
LLV
1-LL
V1+
LLV
0-LL
V0+
LLV
7-LL
V7+
LLV
6-LL
V6+
LLV
5-LL
V5+
LLV
4-LL
V4+
LLV
3-LL
V3+
LLV
2-
RLV
1+
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0-R
LV0+
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7-R
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RC
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R_L
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RLV
5+
RLV
4-R
LV4+
RLV
3-R
LV3+
RLV
2-R
LV2+
RLV
1-R
ES
ET
PX
1CLK
-
GC
K
AS
IC_C
S1
AS
IC_C
S11
AS
IC_C
S3
AS
IC_C
S5
AS
IC_C
S7
AS
IC_C
S9
RLV
6-R
LV6+
RLV
5-
PX
2B-
PX
2A+
PX
2A-
PX
2CLK
+P
X2C
LK-
PX
2E+
PX
2E-
PX
2D+
PX
2D-
PX
2C+
PX
2C-
PX
2B+
Circ
uit D
iagr
ams
and
PW
B L
ayou
tsEN
61
L11M
1.1L
LA
10.
2011
-Apr
-29
TCO
N D
C/D
C
1913
0_03
4_11
0427
.eps
1104
27
TCO
N D
C/D
CT0
1CT0
1C
2010
-06-
291
3139
123
650
7P
CB
SB
THR
ILLE
R B
RZ
TCO
N
VIA
VIA
VIA
VIA
DR
NC
OM
VR
EF
FBN
NO
UT
CB 1 2
FBL
LDO
-CTL
LDO
-FB
TEM
P
FBP
C1
P NC
2
LX LXL
PG
ND
PV
INS
UP
P
SUPN
AGND
GND_HS
CO
MP
HV
S
EN
PR
OT
P N CTL
CD
EL
VL
CM
2
1 2FB
B
RS
ET
PO
UT
FOR
DE
BU
G O
NLY
DIS
PLA
Y IN
TER
FAC
ING
- V
DIS
P
cK00
FJ14
FJ55
FJ01
+VD
ISP
LTS
T-C
190K
GK
T
6J07
7
3J28
2K2
18
4J04
-22
4J04
-1
VC
C_3
V3
22N70
027J
05
3
1
3J23
RE
S
RES
3K6
3J22
10K
PMEG1030EJ
6J00
SG
ND
1
SG
ND
1
RES
RE
S
2K2
3J163J15
2K2
47u
2J51RES
SG
ND
1
RE
S
SG
ND
1
RES2J52
47u
2K2
RE
S
3J19RES
3J09
SG
ND
1
2K2
10u
2J09
FJ04
6
2J05
10u
45
4J04
-33
36
4J02
-4
27
4J02
-34J
02-2
FJ13
4J03
2K2
3J13
RE
S
RES
3J08
2K2
RE
S
2K2
3J06
SG
ND
1
10K
3J11
2J39
2u2
VC
C_3
V3
12
31
9
10
RES
13
3233
56
14
2136
381
28 1120
41
27
40 3934 35 3 4
17
225 7
22
30 24
23
26
29 8
7J00
-1IS
L976
53A
IRZ
371615 18
43 44 45
46474849
50
42
515253
54555657
ISL9
7653
AIR
Z7J
00-2
VIA
23
RES
100K
3J05
5678
41
45
RE
S7J
02FD
S94
35A
4J01
-4
20K
3J24
SS24
6J05
2J35
1u0
2J41
22u 16V
VG
L_-6
V
240K
3J26
2
2J40
1u0
RB
550E
A6J
01
1 3
5 4
+VD
ISP
-INT
2J34
220n
SG
ND
1
39K
3J102J
3222
0n
2J03
2u2
10K
3J01
RE
S2
7
VG
H_3
5V
4J00
-1R
ES
18
4J00
-2
2K2
RES3J21
23
RE
S2J26
120p
RE
S2S
B17
677J
04 1
2J31
100n
RES
2J30
4u7
0.5%24K 3J14
VLS
_15V
6
RE
S2J
1610
0n
2J14
2u2
750K
3J18
27K
3J17
2J29
100p
RES2J28
100n
5J00
4u5
2J17
100n
SG
ND
1
2J15
4n7
1%10
K
3J07
2J19
220n
SG
ND
1
VLS_15V6_B
+VDISP
2J21
4n7
3J02RES
VLS
_15V
6_B
39K
2J22
2u2
2J18
100n
2J11
1n0
RES
SG
ND
1
SG
ND
1
3J12
13K
0.5%
VLS
_15V
6
SG
ND
1
RES2J10
2u2
25V
2J38
22u
RES2J08
47u
10u
VGL_-6V
2J01
4J01
-33
6
+VD
ISP
2J00
2u2
27
4J01
-11
84J
01-2
RES2J06
10n
2K2
3J27
6J02
1 3
5 42
RB
550E
A
RE
S2J
3382
0p
39K
3J03
2J04
10u
SS
34
6J06
6u8
5J06
2J20
4u7
FJ59
4J00
-4R
ES
45
4J00
-3R
ES
36
FJ56
5678
4123
18
7J01
FDS
9435
A
4J02
-1
3
2u2
2J24RES
KTB
1124
-C7J
03 12
2K2
VC
C_3
V3
3J20RES
VLS
_15V
6
2J13
4u7
RES SG
ND
11n0
2J36 2J37
1n0
3J25
SG
ND
1
RES12K
25V 47u
2J49
2u2
2J44
4J04
-44
5
3.0A
32V
T
1J00
RE
S
1J01
3.0A
32V
TRE
S
5J08
RE
S
30R
5J07
RE
S
30R
1n0
2J12
SG
ND
1
FJ09
RES
FJ07
3K3
3J04
2J23
10n
FJ05
FJ02
FJ03
2J07
10u
3J00
RE
S2K2
+VD
ISP
2J02
100n
FJ06
RES2J47
10u
SG
ND
1
RE
S4J
05
100n
2J50 RES
22u
2J42 RES
10u
2J43
FJ57
FJ58
VC
C1V
8
2J25
22u16V
FJ60
FJ10
3J29
2K2
RES
FJ11
SG
ND
1
FJ00
120p
2J27
RE
S
GS
LOP
GS
LOP
EN 6
2L1
1M1.
1L L
A10
.C
ircui
t Dia
gram
s an
d P
WB
Lay
outs
2011
-Apr
-29
P G
amm
a &
Vco
m &
NVM
1913
0_03
5_11
0427
.eps
1104
27
P G
amm
a &
Vco
m &
NV
MT0
1DT0
1D
2010
-06-
291
3139
123
650
7P
CB
SB
THR
ILLE
R B
RZ
TCO
N
SC
LA
DR
0 1 2S
DAW
C
INP
CO
M|D
VR
_OU
T
RE
FIN
_IN
N
RE
FIN
SE
T
SC
LS
DA
SE
T_C
OM
P
V_T
HE
RM
BA
NK
SE
L
GN
D_H
S
VIA
GN
D
OU
T10
OU
T11
OU
T12
OU
TCO
M
INN
CO
M
AV
DD
OU
T1
OU
T2
OU
T3
OU
T4
OU
T5
INN
5
OU
T6
INN
6
OU
T7
INN
7
OU
T8
INN
8
OU
T9
VS
D
SS
B-T
CO
N E
EP
RO
M
DE
BU
G O
NLY
4K04
4K09
4K13
VC
OM
BU
FFE
R
AS
IC O
PTI
ON
S
JUM
PE
RJU
MP
ER
JUM
PE
RJU
MP
ER
JUM
PE
R
4K02
4K03
4K01
NC
40"
32"
ITE
M N
O.
-- - - -
10K
NC
NC
4K18
4K16
JUM
PE
RJU
MP
ER
JUM
PE
R
3K51
----
5K1
NC
-
NC
3K45
FK53
100R
3K62
FK52
FK01
FK03
FK02
10K
VC
C_3
V3
SER SER3K35
10K
3K36
45
6
1KQ
BR
ES
1 2 33 4 5 6 7 8 910
11
5023
82-0
470
5023
82-0
970
RE
S
1 2
1KQ
A
10K
3K08RES
7K02
PB
SS
5330
X
PB
SS
4540
X7K
01
FK46
FK33
FK44
FK42
FK40
VC
C
VC
C
10K
3K61RES3K60
10K
3K56
2K0
3K52
2K2
VC
C_3
V3
8 4
7
100n
2K28
1 2 3
6 5
FK00
M24
C64
-WD
W6
7K04 E
EP
RO
M(8
K ×
8)
6K8
FK05
3K41
FK04
RES
2K2
3K07
FK24
FK20
FK14
FK19
FK10
VC
C_3
V3
3K10
10K
4K05
RE
S4K
214K
20R
ES
FK51
4K06-2 27
FK47
FK29
FK28
FK27
FK38
RES
1n0
2K30
RES2K24
1n0
FK36
FK35
FK37
VC
C_3
V3
3K50
K01 K01
3K46RES
3K54
MSS1P4
6K00
6K8
6K8
3K53
2K0
3K55
3K49
K01 K01
3K44
6K8
3K40
RES
3K12-1
10R
18
27
36
10R
3K12-2
3K12-3
10RFK
08
FK06
4K06-1 18
FK07
FK22
FK23
2K21
100n
2K19
10u
2K18
68p
FK11
VC
C_3
V3
FK18
FK16
FK15
VLS
_15V
6 5% 18K
3K04
5% 22K
3K03
cK01
2K2
3K34
RE
S4K
014K
10
4K09
2K04
VLS
_15V
6
RE
S
100n
45
2K03
100n
364K06-44K06-3
4K18
4K04
RE
S
RES2K26
1n0
RES
1n0
2K25
4K16
RE
S
RE
SR
ES
4K13
4K02
4K12
RE
S4K
11
10K
54K3 15K3
5K10.5%
RES
2K11
100n
100n
2K10
100n
2K12
2K20
22u16V
+VD
ISP
3K15
5R60.5%0.5%
5R6
3K14
5%56
0R
3K16
5K1
3K17
3K13-2
10R
27
0.5%
36
45
10R
3K13-3
3K13-4
10R
100n
2K17
2K02
100n
5%3K
3
3K06
100n
2K06
2K07
100n
100n
2K08
3K11-1
10R
18
4K08
VLS
_15V
6
RE
S
4K19
RE
S
RE
S4K
074K
22R
ES
4K00
VR
EF_
15V
2
4K17
RE
S
4K03
4K15
RE
SR
ES
4K14
1u0
2K00
2K01
1u0
0.5% 100K
3K00
0.5% 6K2
3K01
0.5% 10K
3K02
30 34 35 36 37 38 39 40 4129 31
16 18 19 25
321 13 1228
26
27
2 22 23 243 4 7 8 10
21
14
620
33
9 11 15 17
5
7K00
ISL2
4837
IRZ-
T13
5
10R
3K12-4 4
2K13
100n
FK57
FK56
2K14
100n
100n
2K15
2K16
100n
10R
3K13-1 18
27
36
10R
3K11-2
45
3K11-3
10R
10R
3K11-4
2K09
100n
FK55
VLS
_15V
6
FK54
2K2
3K05
5%
2K05
10u
SD
A-T
CO
NS
CL-
TCO
N
BY
PA
SS
_MO
DE
WP
_TC
ONWP
_TC
ON
RO
M_S
CL
RO
M_S
DA
50H
z_60
Hz
RE
SE
T
SD
A-T
CO
N
SE
LLV
DS
R_L
U_D
OU
TCO
M
INN
CO
M
VC
OM
SC
L-TC
ON
VL1
27
VL3
1
VH
31V
H15
9
VL9
5
VH
63V
H24
7V
H95
VL9
5
VL6
3
VH
63
VL1
27
VH
127
VL2
47
VH
127
VL3
1V
L159
VL1
27
VL6
3
OU
TCO
M
SC
L-TC
ON
SD
A-T
CO
N
VH
127
VH
95V
H31
VH
0
VL0
INN
CO
M
VH
255
VL1
91
CS
_L
VH
191
Circ
uit D
iagr
ams
and
PW
B L
ayou
tsEN
63
L11M
1.1L
LA
10.
2011
-Apr
-29
MPD
1913
0_03
6_11
0427
.eps
1104
27
MP
DT0
1ET0
1E
2010
-06-
291
3139
123
650
7P
CB
SB
THR
ILLE
R B
RZ
TCO
N
OU
T2
OU
T3
OU
T4
OU
T5
OU
T6
OU
T7
+
RE
FLR
EFH
7654321
AV
DD
VIA
-
GN
D_H
SG
ND
NC
OU
TB
OU
TA-
INA
+IN
BIN
OU
T1
ITE
M N
O.
3L12
47K
68K
2K2
56K
2K 82K
3L13
3L14
NC FO
R32
" / 4
0"
NC
NC
4L02
-22
7
4L02
-33
6
RE
S
4L02
-44
5
RE
S
RE
S
FL13
FL12
4L00
-11
8
4L00
-22
7
RE
S
4L00
-33
6
RE
S
4L00
-44
5
RE
S
2L13
100n
RE
S
FL08
FL07
FL06
FL05
FL04
2L11
100n
100n
2L10
8 3L02-1
10R
1
3L01-3 36
10R
27
10R
18
3L01-210R
3L01-1
18
FL15
36
RE
S
4L02
-1
3L00-3
10R
10R
3L00-2 27
3L00-1
10R
18
VR
EF_
15V
2
18
FL14
27
RE
S
4L01
-1
36
RE
S
4L01
-2
45
RE
S
4L01
-3
+VD
ISP
RE
S
4L01
-4
0.5%
33R
3L15
3L16
33R
0.5%
3L17
1R0
100n
2L16
3L12
62K
FL10 FL
11
FL09
FL02
FL03
FL01
2L09
100n
100n
2L08
45
36
10R
3L02-4
27
3L02-3
10R
10R
3L02-236 37 38 39 40 41 42
20 21 22 23 24 18 17
10 11 34 35
91 2 3 4 5 6 7 8 19
31 30 29 27 26 25 13 14 15 16
ISL2
4016
IRTZ
7L00
28
12
33
32
100n
2L07
2L06
100n
100n
2L05
10R
45
2L04
100n
3L01-4
2L03
100n
100n
2L00
3L00-4 45
FL16
10R
1n0
2L12
3L13
10K0.5%
3L14
82K0.5%
+VD
ISP
NJM
2125
F7L
011 3
4
5 2
16V 22u
2L15
2L14
100n
FL00
7L02
2SC
5886
A1
2 3
100n
2L02
2L01
100n
VC
OM
AS
IC_C
S9
AS
IC_C
S11
CS
1C
S2
CS
3C
S4
CS
5C
S6
CS
7C
S8
CS
9C
S10
CS
11C
S12
CS
_L
CS
1
CS
2
CS
3
CS
4
CS
5
CS
6
CS
7
CS
8
CS
9
CS
10
CS
12
CS
11
AS
IC_C
S1
AS
IC_C
S3
AS
IC_C
S5
AS
IC_C
S7
32"
40"
EN 6
4L1
1M1.
1L L
A10
.C
ircui
t Dia
gram
s an
d P
WB
Lay
outs
2011
-Apr
-29
Min
i LVD
S
1913
0_03
7_11
0427
.eps
1104
27
Min
i LV
DS
T01F
T01F
2010
-06-
291
3139
123
650
7P
CB
SB
THR
ILLE
R B
RZ
TCO
N
FM98
FM97
FM89
FM90
FM87
FM86
FM84
FM85
FM83
FM82
FM71
FM70
FM69
FM53
FM54
FM52
FM67
FM68
FM43
FM42
FM40
FM41
FM38
FM35
FM36
FM34
45
FM00
36
RE
S4M
00-4
27
RE
S4M
00-3
18
RE
S4M
00-2
RE
S4M
00-1
RE
S2M
01
100n
68R
3M10
3M09
3M07
68R
68R
36
68R
3M02 2
74M
04-3
18
4M04
-2
45
4M04
-14M
04-4
FM73
FM72
FM01
FM02 FM
65
FM96
FM94
FM95
FM93
FM91
FM92
3M16
6 8R
68R
3M15
RE
S
RE
S
100n
2M02
FM81
FM79
FM80
FM78
80 98182
717273747576777879 8616263646566676869 770 515253545556575859 660 414243444546474849 550 3233343536373839 440 23242526272829 33031 13141516171819 2202122
1KA
1
5015
59-8
093
1101112
FM51
FM50
FM48
FM49
FM47
FM45
FM46
FM44
FM33
FM32
FM30
FM31
3M08
68R
68R
3M03
68R
3M01
68R
3M00
RES2M03
10u
3M17
20R
68R
3M14
3M13
68R
45
RE
S
36
RE
S4M
13-4
4M13
-22
7
RE
S4M
13-3
4M13
-11
8R
ES
FM77
RE
S
FM76
FM75
FM74
FM06
FM04
FM05
FM03
777879 880 98182
VG
H_3
5V
6869 770717273747576 5859 66061626364656667 4849 55051525354555657 39 44041424344454647 3303132333435363738 220212223242526272829 110111213141516171819
1KA
2
5015
59-8
093
VC
C_3
V3
VLS
_15V
6
VG
H_3
5VV
GL_
-6V
20R
3M18
RES
10u
2M04
4M11
45
36
4M08
-4
27
4M08
-3
18
4M08
-2
4M08
-1
VG
L_-6
V
VC
C_3
V3
VLS
_15V
6
LLV
7+LL
V7-
LSGS
P1
GS
P2
LDIO
2R
_LLD
IO1
LLV
6+LL
V6-
CS
5C
S4
VL9
5
CS
3C
S2
CS
1U
_DG
OE
GC
KG
SP
1G
SP
2
VL6
3V
L31
VH
191
VH
247
VH
255
VL1
27
VC
OM
CS
12C
S11
CS
10C
S9
CS
8C
S7
CS
6
LCK
-LC
K+
VL1
59
VH
0V
H31
VH
63V
H95
VH
127
VH
159
VL2
47
RE
V
LLV
0-LL
V0+
LLV
1-
LLV
2-
VL1
91
LLV
2+
VL0
GS
P2
LLV
1+
LLV
3-LL
V3+
LLV
4-LL
V4+
LLV
5-LL
V5+
LSGS
P1
RLV
7+R
LV7-
RLV
6+R
LV6-
RD
IO2
R_L
RD
IO1
CS
6C
S5
CS
4
VL9
5
CS
3C
S2
CS
1U
_D_I
NV
GO
EG
CK
GS
P1
GS
P2
VL6
3V
L31
VH
95V
H12
7V
H15
9V
H19
1V
H24
7V
H25
5
VL1
27
VC
OM
CS
12C
S11
CS
10C
S9
CS
8C
S7
RE
V
VL1
91V
L159
VH
0V
H31
VH
63
RC
K+
RLV
3-R
LV3+
RLV
4-R
LV4+
RLV
5-R
LV5+
VL2
47
VL0
RLV
0-R
LV0+
RLV
1-R
LV1+
RLV
2-R
LV2+
RC
K-
Circ
uit D
iagr
ams
and
PW
B L
ayou
tsEN
65
L11M
1.1L
LA
10.
2011
-Apr
-29
10-1
0 31
3912
3650
71 T
CO
N L
ayou
t O
verv
iew
top/
botto
m s
ide
1913
0_04
2_11
0428
.eps
1104
28
2011
-04-
281
3139
123
650
6TC
ON
TH
RIL
LER
1X02
1X01
1H00
1J001J
01
1KA
11K
A2
1KQA 1KQB
1N01
2H40
2H41
2H54
2J00
2J01
2J02
2J03
2J042J05
2J06
2J07
2J08
2J09
2J10
2J11
2J12
2J13
2J14
2J15
2J16
2J17
2J18
2J19
2J202J21
2J22
2J232J24
2J25
2J26 2J27
2J28
2J29
2J30 2J
31
2J32
2J33
2J34
2J35
2J362J37
2J38
2J39
2J40
2J41
2J422J
43
2J44
2J47
2J49
2J50
2J51
2J52
2K00
2K01
2K02
2K03
2K04
2K05
2K06
2K07
2K08
2K09
2K10
2K11
2K12
2K13
2K14
2K15
2K16 2K
17
2K182K19
2K20
2K21
2K262K28
2K30
2M01
2M02
2M03
2N01
2N02
2N03
3H01
3H02
3H05
3H07
3H08
3H09
3H10
3H11
3H12
3H13
3H14
3H15
3H16
3H17
3H18
3H21
3H22
3H23
3J00 3J01
3J02
3J03
3J04
3J05
3J06
3J07
3J08
3J09
3J10
3J11
3J12
3J13
3J14
3J15 3J16
3J17
3J18
3J193J20
3J21
3J22 3J23
3J243J25
3J26
3J27
3J28
3J29
3K003K01
3K02
3K03
3K04
3K05
3K06
3K07
3K08 3K
10
3K11
3K12
3K13
3K14
3K15
3K16 3K
17
3K34
3K35
3K36
3K40
3K41
3K46
3K50
3K52
3K53
3K54
3K55
3K56
3K60
3K613K62
3M13
3M14
4H05
4J00
4J01
4J02
4J03
4J04
4J05
4K00
4K01
4K02
4K04
4K05
4K06
4K07
4K08
4K09
4K10
4K11
4K12
4K13
4K174K18
4K19
4K21
4K22
4L004L01
4L02
4M00
4M04
4M08
4M13
5J00
5J06
5J07
5J08
6J00
6J01
6J02
6J05
6J06
6J07
6K00
7H00
7H01
7H02
7H03
7H04
7H05
7J00
7J01
7J02
7J03
7J04
7J05
7K00
7K01
7K02
7K04
CK
00
cK01
2H01
2H02
2H03
2H04
2H05
2H06
2H07
2H08
2H09
2H10
2H13
2H25
2H262H27
2H28
2H29
2H30
2H31
2H32
2H33
2H34
2H35
2H36
2H37 2H38
2H39
2H42
2H43
2H44
2H45
2H46
2H47
2H48
2H50
2H51
2H52
2H53
2K24
2K25
2L00
2L01
2L02
2L03
2L04
2L05
2L06
2L07
2L082L09 2L10
2L11
2L12
2L13
2L14
2L15
2L16
2M04
3H00
3H03
3H04
3H06
3H19
3H20
3H25
3H26
3H27
3H28
3K44
3K45
3K49
3K51
3L003L01
3L02
3L12
3L13
3L14
3L15
3L16
3L17
3M00
3M01
3M02
3M03
3M07
3M08
3M09 3M10
3M15
3M16
3M17
3M18
4H04
4K03
4K14
4K15
4K164K20
4M11
5H00
5H01
5H02
5H03
5H04
5H05
5H06
7L00
7L01
7L02
FH00
FH01
FH02
FH03
FH04
FH05
FH06
FH34
FH35
FH36
FH37
FH38
FH39
FH40
FJ00
FJ01
FJ02
FJ03
FJ04
FJ05
FJ06
FJ07
FJ09
FJ10
FJ11
FJ13
FJ14
FJ55
FJ56
FJ57
FJ58
FJ59
FJ60
FK00
FK01
FK02
FK03
FK04
FK05
FK06
FK07
FK08
FK10
FK11
FK14
FK15
FK16
FK18
FK19
FK20
FK22
FK23
FK24
FK27
FK28
FK29
FK33
FK35
FK36
FK37
FK38
FK40
FK42
FK44
FK46
FK47
FK51
FK52
FK53
FK54
FK55
FK56
FK57
FL00
FL01
FL02
FL03
FL04
FL05
FL06
FL07
FL08
FL09
FL10
FL11
FL12
FL13FL
14FL
15
FL16
FM00
FM01
FM02
FM03
FM04
FM05
FM06
FM30
FM31
FM32
FM33
FM34
FM35
FM36
FM38
FM40
FM41
FM42
FM43
FM44
FM45
FM46
FM47
FM48
FM49
FM50
FM51
FM52
FM53
FM54
FM65
FM67
FM6 8
FM69
FM70
FM71
FM72
FM73
FM74
FM75
FM76
FM77
FM78
FM79
FM80
FM81
FM82
FM83
FM84
FM85
FM86
FM87
FM89
FM90
FM91
FM92
FM93
FM94
FM95
FM96
FM97
FM98
FN01
FN05
FN06
FN07
FN08
FN09 FN
10
FN11 FN
12
FN13
FN14
FN15
FN16
FN17
FN18
FN19
FN20
FN21
FN22
FN23
FN24
FN25
FN26
FN27
FN28
FN29
FN31
FN32
FN33
EN 6
6L1
1M1.
1L L
A11
.S
tylin
g S
heet
s
2011
-Apr
-29
11.S
tylin
g Sh
eets
Styl
ing
Shee
t Thr
iller
32"
1913
0_03
9_11
0428
.eps
1104
28
THR
ILLE
R32
"
Pos
No.
Des
crip
tion
Rem
arks
0004
Fr
ont C
abin
et00
12
Bac
k C
over
0021
Sid
e IO
Bra
cket
0024
B
otto
m IO
Bra
cket
0154
Spe
aker
Bra
cket
0260
Sta
nd10
04
Dis
play
pan
el10
05
Pow
er S
uppl
y U
nit
1112
IR
/LE
D11
14
Keyb
oard
+11
50
Boa
rdS
SB
5213
Lo
udsp
eake
r box
8191
M
ains
cord
1.8
m
Not
Dis
play
ed8G
51
Cab
le L
VD
S F
FCN
ot D
ispl
ayed
1085
R
emot
e C
ontro
l N
ot D
ispl
ayed
0004
1004
0012
0260
0021
1150
0024
1005
1114
1112
0154
5213
Sty
ling
She
ets
EN 6
7L1
1M1.
1L L
A11
.
2011
-Apr
-29
Styl
ing
Shee
t Thr
iller
40"
1913
0_04
6_11
0429
.eps
1104
29
THR
ILLE
R 4
0"
Pos
No.
Des
crip
tion
Rem
arks
0004
Fr
ont C
abin
et00
12
Bac
k C
over
0021
Sid
e IO
Bra
cket
0024
B
otto
m IO
Bra
cket
0154
Spe
aker
Bra
cket
0260
Sta
nd10
04
Dis
play
pan
el10
05
Pow
er S
uppl
y U
nit
1112
IR
/LE
D11
14
Keyb
oard
+11
50
Boa
rdS
SB
1157
TC
ON
mod
ule
5213
Lo
udsp
eake
r box
8191
M
ains
cord
1.8
m
Not
Dis
play
ed8G
50
Cab
le L
VD
S F
FCN
ot D
ispl
ayed
8KA
1 C
able
LV
DS
FFC
Not
Dis
play
ed8K
A2
Cab
le L
VD
S F
FCN
ot D
ispl
ayed
1085
R
emot
e C
ontro
l N
ot D
ispl
ayed
0004
1004
0012
0260
0021
1150
1157
0024
1005
0154
1114
1112
5213