colour television chassis tps10 - go-gddq. · pdf filemanual xxxx xxx xxxx.0 ... diversity,...
TRANSCRIPT
Publ
ishe
d by
SH
C/S
C 1
367
Qua
lity
Prin
ted
in th
e N
ethe
rland
sSu
bjec
t to
mod
ifica
tion
EN31
22 7
85 1
9452
2013
-Jul
-05
2013
©TP
Vis
ion
Net
herla
nds
B.V.
All r
ight
s re
serv
ed. S
peci
ficat
ions
are
sub
ject
to c
hang
e w
ithou
t not
ice.
Tra
dem
arks
are
the
prop
erty
of K
onin
klijk
e P
hilip
s E
lect
roni
cs N
.V. o
r the
ir re
spec
tive
owne
rs.
TP V
isio
n N
ethe
rland
s B
.V. r
eser
ves
the
right
to c
hang
e pr
oduc
ts a
t any
tim
e w
ithou
t bei
ng o
blig
ed to
adj
ust
earli
er s
uppl
ies
acco
rdin
gly.
PH
ILIP
S a
nd th
e P
HIL
IPS
’ Shi
eld
Em
blem
are
use
d un
der l
icen
se fr
om K
onin
klijk
e P
hilip
s E
lect
roni
cs N
.V.
Col
our T
elev
isio
nC
hass
is
TPS1
0.1A LA
Con
tent
sPa
geC
onte
nts
Page
1.R
evis
ion
List
22.
Tech
nica
l Spe
cs, D
iver
sity
, and
Con
nect
ions
23.
Pre
caut
ions
, Not
es, a
nd A
bbre
viat
ion
List
54.
Mec
hani
cal I
nstru
ctio
ns9
5.S
ervi
ce M
odes
, Err
or C
odes
, and
Fau
lt Fi
ndin
g14
6.A
lignm
ents
(Opt
ion)
237.
Circ
uit D
escr
iptio
ns25
8.IC
Dat
a S
heet
s31
9.B
lock
Dia
gram
sW
iring
dia
gram
32"
300
8 se
ries
35W
iring
dia
gram
39"
300
8 se
ries
36W
iring
dia
gram
42"
300
8 se
ries
37B
lock
Dia
gram
DVB
T/C
300
0 se
ries
3810
.Circ
uit D
iagr
ams
and
PW
B L
ayou
tsD
raw
ing
PW
BA
01 7
15G
5654
PS
U fo
r 32
”&39
” 30
08 s
erie
s39
41-4
2A
715
G56
70 P
SU
ser
ies
42"
4345
-46
B 7
15G
5740
DV
B-T
/C S
SB
(xxP
FL30
08)
4756
-57
J 71
5G54
71 IR
/LE
D 3
008
serie
s58
59E
715
G57
11 K
eybo
ard
cont
rol p
anel
6061
O 7
15G
5912
Opt
ion
Boa
rd 3
2”62
6311
.Sty
ling
She
ets
3008
ser
ies
32"
6430
08 s
erie
s 39
"65
3008
ser
ies
42"
66
Rev
isio
n Li
stEN
2TP
S10.
1A L
A1.
2013
-Jul
-05
back
to
div.
tabl
e
1.R
evis
ion
List
Man
ual x
xxx
xxx
xxxx
.0•
Firs
t rel
ease
.
Man
ual x
xxx
xxx
xxxx
.1•
Cha
pter
2: U
pdat
ed ta
ble
2.1
Tech
nica
l Spe
cific
atio
ns.
Man
ual x
xxx
xxx
xxxx
.2•
Cha
pter
5: U
pdat
ed 5
. Ser
vice
Mod
es, E
rror
Cod
es, a
nd
Faul
t Fin
ding
.
2.Te
chni
cal S
pecs
, Div
ersi
ty, a
nd C
onne
ctio
nsIn
dex
of th
is c
hapt
er:
2.1
Tech
nica
l Spe
cific
atio
ns2.
2 D
irect
ions
for U
se2.
3 C
onne
ctio
ns2.
4 C
hass
is O
verv
iew
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
nsFo
r on-
line
prod
uct s
uppo
rt pl
ease
use
the
links
in T
able
2-1
.H
ere
is p
rodu
ct in
form
atio
n av
aila
ble,
as
wel
l as
getti
ng s
tarte
d,
user
man
uals
, fre
quen
tly a
sked
que
stio
ns a
nd s
oftw
are
&
driv
ers.
Tabl
e 2-
1 D
escr
ibed
Mod
el N
umbe
rs a
nd D
iver
sity
2.2
Dire
ctio
ns fo
r Use
Dire
ctio
ns fo
r use
can
be
dow
nloa
ded
from
the
follo
win
g w
ebsi
tes:
http
://w
ww
.phi
lips.
com
/sup
port
http
://w
ww
.p4c
.phi
lips.
com
CTN
24
910
11
Connection OverviewMec
hani
csB
lock
Dia
gram
sSc
hem
atic
s
Styling
Wire Dressing
Rear Cover Removal
SSB Removal
Wiring Diagram
Block Diagram
Power Supply
SSB
J (IR/LED)
E (Keyboard/Leading Edge)
ALC (AmbiLight control panel)
32P
FL30
08/9
82-
14-
14-
44-
69.
19.
410
.110
.310
.410
.510
.611
.132
PFL
3008
/56
2-1
4-1
4-4
4-6
9.1
9.4
10.1
10.3
10.4
10.5
10.6
11.1
39P
FL30
08/9
82-
14-
24-
44-
69.
29.
410
.110
.310
.410
.5-
11.2
39P
FL30
08/5
62-
14-
24-
44-
69.
29.
410
.110
.310
.410
.5-
11.2
42P
FL30
08/9
82-
14-
34-
44-
69.
39.
410
.210
.310
.410
.5-
11.3
42P
FL30
08/5
62-
14-
34-
44-
69.
39.
410
.210
.310
.410
.5-
11.3
Tech
nica
l Spe
cs, D
iver
sity
, and
Con
nect
ions
EN 3
TPS1
0.1A
LA
2.
2013
-Jul
-05
back
to
div.
tabl
e
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
cc. t
o 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
2.0
Figu
re 2
-2 U
SB (t
ype
A)
1-+
5V
�
2-D
ata
(-)
��
3-D
ata
(+)
��
4-G
roun
d G
nd
�
2 - T
V A
NTE
NN
A -
InS
igna
l inp
ut fr
om a
n an
tenn
a, c
able
or s
atel
lite.
3 - S
ervi
ce /
UA
RT
1-G
roun
d G
nd
�
2-U
AR
T_TX
Tr
ansm
it �
3-U
AR
T_R
X
Rec
eive
�
4 - H
ead
phon
e (O
utpu
t)B
k-H
ead
phon
e 80
- 60
0 W
/ 10
mW
��
5 - H
DM
I 2: D
igita
l Vid
eo -
In, D
igita
l Aud
io w
ith A
RC
- In
/Out
Figu
re 2
-3 H
DM
I (ty
pe A
) con
nect
or
1-D
2+
Dat
a ch
anne
l �
2-S
hiel
d G
nd
�3
-D2-
D
ata
chan
nel
�
4-D
1+
Dat
a ch
anne
l �
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hiel
d G
nd
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-D1-
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ata
chan
nel
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7-D
0+
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a ch
anne
l �
8-S
hiel
d G
nd
�9
-D0-
D
ata
chan
nel
�
10-C
LK+
Dat
a ch
anne
l �
11-S
hiel
d G
nd
�12
-CLK
- D
ata
chan
nel
�
13-E
asyl
ink/
CE
C
Con
trol c
hann
el
��
14-A
RC
A
udio
Ret
urn
Cha
nnel
�
15-D
DC
_SC
L D
DC
clo
ck
�
16-D
DC
_SD
A D
DC
dat
a �
�
VGA
Y/V
ED
IOP
bP
rL
RCO
MPO
NENT
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IO IN
ANTENNASERV.UUSB HDMI 2
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ED
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1301
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1000
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0901
21
1000
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7_09
0121
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0904
28
191
182
Tech
nica
l Spe
cs, D
iver
sity
, and
Con
nect
ions
EN 4
TPS1
0.1A
LA
2.
2013
-Jul
-05
back
to
div.
tabl
e
17-G
roun
d G
nd
�
18-+
5V
�
19-H
PD
H
ot P
lug
Det
ect
�20
-Gro
und
Gnd
�
2.3.
2R
ear C
onne
ctio
ns
6 - A
udio
- In
: Lef
t / R
ight
, VG
AB
u-A
udio
L/R
in
0.5
VR
MS /
10 k
W
��
7 - C
inch
: Dig
ital A
udio
- O
utB
K-C
oaxi
al
0.4
- 0.
6VP
P /
75 W
�
�
8 - C
inch
: Vid
eo Y
PbPr
- In
, Aud
io -
InG
n-V
ideo
- Y
1
VP
P /
75 W
�
�
Bu
-Vid
eo -
Pb
0
.7 V
PP /
75 W
�
�R
d-V
ideo
- P
r 0
.7 V
PP /
75 W
�
�
Wh
-Aud
io -
L 0
.5 V
RM
S /
10 k
W
��
Rd
-Aud
io -
R
0.5
VR
MS /
10 k
W
��
9 - P
C IN
:VG
A Figu
re 2
-4 V
GA
con
nect
or
1 -V
ideo
Red
0.
7 V
PP /
75 W
�
2-V
ideo
Gre
en
0.7
VP
P /
75 W
�
3-V
ideo
Blu
e 0.
7 V
PP /
75 W
�
4-n
.c.
5
-Gro
und
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�
6-G
roun
d R
ed
Gnd
�
7-G
roun
d G
reen
G
nd
�
8-G
roun
d B
lue
Gnd
�
9-+
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C
+5 V
�
10-G
roun
d Sy
nc
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�
11-G
roun
d R
ed
Gnd
�
12-D
DC
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A
DD
C d
ata
�
13-H
-syn
c 0
- 5 V
�
14-V
-syn
c 0
- 5 V
�
15-D
DC
_SC
L D
DC
clo
ck
�
10 -
HD
MI 1
: Dig
ital V
ideo
- In
, Dig
ital A
udio
with
AR
C -
In/O
ut
Figu
re 2
-5 H
DM
I (ty
pe A
) con
nect
or
1-D
2+
Dat
a ch
anne
l �
2-S
hiel
d G
nd
�
3-D
2-
Dat
a ch
anne
l �
4-D
1+
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a ch
anne
l �
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hiel
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nd
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a ch
anne
l �
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a ch
anne
l �
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nd
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9-D
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a ch
anne
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LK+
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a ch
anne
l �
11-S
hiel
d G
nd
�
12-C
LK-
Dat
a ch
anne
l �
13-E
asyl
ink/
CE
C
Con
trol c
hann
el
��
14-A
RC
A
udio
Ret
urn
Cha
nnel
�
15-D
DC
_SC
L D
DC
clo
ck
�
16-D
DC
_SD
A
DD
C d
ata
��
17-G
roun
d G
nd
�
18-+
5V
�
19-H
PD
H
ot P
lug
Det
ect
�20
-Gro
und
Gnd
�
2.4
Cha
ssis
Ove
rvie
wR
efer
to 9
. Blo
ckD
iagr
ams
for P
WB
/CB
A lo
catio
ns.
1 610
11
5
15
1000
0_00
2_09
0121
.eps
0901
27
1000
0_01
7_09
0121
.eps
0904
28
191
182
Pre
caut
ions
, Not
es, a
nd A
bbre
viat
ion
List
EN 5
TPS1
0.1A
LA
3.
2013
-Jul
-05
back
to
div.
tabl
e
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
nsS
afet
y re
gula
tions
requ
ire th
e fo
llow
ing
durin
g a
repa
ir:•
Con
nect
the
set t
o th
e M
ains
/AC
Pow
er v
ia a
n is
olat
ion
trans
form
er (>
800
VA
).•
Rep
lace
saf
ety
com
pone
nts,
indi
cate
d by
the
sym
bol �
,on
ly b
y co
mpo
nent
s id
entic
al to
the
orig
inal
one
s. A
ny
othe
r com
pone
nt s
ubst
itutio
n (o
ther
than
orig
inal
type
) may
in
crea
se ri
sk o
f fire
or e
lect
rical
sho
ck h
azar
d.
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
and
12
M.
4.Sw
itch
“off”
the
set,
and
rem
ove
the
wire
bet
wee
n th
e tw
o pi
ns o
f the
Mai
ns/A
C P
ower
plu
g.
•C
heck
the
cabi
net f
or d
efec
ts, t
o pr
even
t tou
chin
g of
any
in
ner p
arts
by
the
cust
omer
.
3.2
War
ning
s•
All
ICs
and
man
y ot
her s
emic
ondu
ctor
s ar
e su
scep
tible
to
elec
trost
atic
dis
char
ges
(ES
D
). C
arel
ess
hand
ling
durin
g re
pair
can
redu
ce li
fe d
rast
ical
ly. M
ake
sure
that
, du
ring
repa
ir, y
ou a
re c
onne
cted
with
the
sam
e po
tent
ial a
s th
e m
ass
of th
e se
t by
a w
ristb
and
with
resi
stan
ce. K
eep
com
pone
nts
and
tool
s al
so a
t thi
s sa
me
pote
ntia
l.•
Be
care
ful d
urin
g m
easu
rem
ents
in th
e hi
gh v
olta
ge
sect
ion.
•
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 p
reve
nt a
ny s
hort
circ
uits
and
the
dang
er o
f a
circ
uit b
ecom
ing
unst
able
.
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.
2k
).•
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
0).
•A
ll ca
paci
tor v
alue
s ar
e gi
ven
in m
icro
-fara
ds (
10-6
), na
no-fa
rads
(n10
-9),
or p
ico-
fara
ds (p
10-1
2 ).
•C
apac
itor v
alue
s m
ay a
lso
use
the
valu
e m
ultip
lier a
s th
e de
cim
al p
oint
indi
catio
n (e
.g. 2
p2 in
dica
tes
2.2
pF).
•A
n “a
ster
isk”
(*) i
ndic
ates
com
pone
nt u
sage
var
ies.
Ref
er
to th
e di
vers
ity ta
bles
for t
he c
orre
ct v
alue
s.•
The
corr
ect c
ompo
nent
val
ues
are
liste
d on
the
Phili
ps
Spa
re P
arts
Web
Por
tal.
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 de
vice
s, 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
In
form
atio
n on
how
to d
eal w
ith B
GA
-ICs.
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.
W
here
app
licab
le a
nd a
vaila
ble,
this
pro
file
is a
dded
to th
e IC
D
ata
She
et in
form
atio
n se
ctio
n in
this
man
ual.
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
ilized
at t
he s
olde
r joi
nt.
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 b
e de
stro
yed.
To
avo
id w
ear-
out o
f tip
s, s
witc
h “o
ff” u
nuse
d eq
uipm
ent o
r re
duce
hea
t.•
Mix
of l
ead-
free
sold
erin
g tin
/par
ts w
ith le
aded
sol
derin
g tin
/par
ts is
pos
sibl
e bu
t PH
ILIP
S re
com
men
ds s
trong
ly to
av
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
”.
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
Pre
caut
ions
, Not
es, a
nd A
bbre
viat
ion
List
EN 6
TPS1
0.1A
LA
3.
2013
-Jul
-05
back
to
div.
tabl
e
resu
lt in
set
s w
hich
hav
e th
e sa
me
CTN
(Com
mer
cial
Typ
e N
umbe
r; e.
g. 2
8PW
9515
/12)
but
whi
ch h
ave
a di
ffere
nt B
.O.M
. nu
mbe
r.B
y lo
okin
g at
the
third
dig
it of
the
seria
l num
ber,
one
can
iden
tify
whi
ch B
.O.M
. is
used
for t
he T
V se
t 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
po
wer
ed T
V s
et, i
t is
best
to te
st th
e hi
gh v
olta
ge in
sula
tion.
It
is e
asy
to d
o, a
nd is
a g
ood
serv
ice
prec
autio
n.
3.4
Abb
revi
atio
n Li
st0/
6/12
SC
AR
T sw
itch
cont
rol s
igna
l on
A/V
bo
ard.
0 =
loop
thro
ugh
(AU
X to
TV)
,
6=
play
16:9
form
at, 1
2=
play
4:3
fo
rmat
AA
RA
Aut
omat
ic A
spec
t Rat
io A
dapt
atio
n:
algo
rithm
that
ada
pts
aspe
ct ra
tio to
re
mov
e ho
rizon
tal b
lack
bar
s; k
eeps
th
e or
igin
al a
spec
t rat
ioA
CI
Aut
omat
ic C
hann
el In
stal
latio
n:
algo
rithm
that
inst
alls
TV
cha
nnel
s di
rect
ly fr
om a
cab
le n
etw
ork
by
mea
ns o
f a p
rede
fined
TX
T pa
geA
DC
Ana
logu
e to
Dig
ital C
onve
rter
AFC
Aut
omat
ic F
requ
ency
Con
trol:
cont
rol
sign
al u
sed
to tu
ne to
the
corr
ect
frequ
ency
AG
CA
utom
atic
Gai
n C
ontro
l: al
gorit
hm th
at
cont
rols
the
vide
o in
put o
f the
feat
ure
box
AM
Am
plitu
de M
odul
atio
nA
PA
sia
Paci
ficA
RA
spec
t Rat
io: 4
by
3 or
16
by 9
AS
FA
uto
Scre
en F
it: a
lgor
ithm
that
ada
pts
aspe
ct ra
tio to
rem
ove
horiz
onta
l bla
ck
bars
with
out d
isca
rdin
g vi
deo
info
rmat
ion
ATS
CA
dvan
ced
Tele
visi
on S
yste
ms
Com
mitt
ee, t
he d
igita
l TV
sta
ndar
d in
th
e U
SA
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
VC
Aud
io V
ideo
Con
trolle
rA
VIP
Aud
io V
ideo
Inpu
t Pro
cess
orB
/GM
onoc
hrom
e TV
sys
tem
. Sou
nd
carr
ier d
ista
nce
is 5
.5 M
Hz
BD
SB
usin
ess
Dis
play
Sol
utio
ns (i
TV)
BLR
Boa
rd-L
evel
Rep
air
BTS
CB
road
cast
Tel
evis
ion
Sta
ndar
d C
omm
ittee
. Mul
tiple
x FM
ste
reo
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
Pro
tect
ion
CS
MC
usto
mer
Ser
vice
Mod
eC
TIC
olor
Tra
nsie
nt Im
prov
emen
t: m
anip
ulat
es s
teep
ness
of c
hrom
a tra
nsie
nts
CV
BS
Com
posi
te V
ideo
Bla
nkin
g an
d S
ynch
roni
zatio
nD
AC
Dig
ital t
o A
nalo
gue
Con
verte
rD
BE
Dyn
amic
Bas
s E
nhan
cem
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
Sys
tem
Car
d or
S
mar
tcar
d (fo
r iTV
). D
DC
See
“E-D
DC
”D
/KM
onoc
hrom
e TV
sys
tem
. Sou
nd
carr
ier d
ista
nce
is 6
.5 M
Hz
DFI
Dyn
amic
Fra
me
Inse
rtion
DFU
Dire
ctio
ns F
or U
se: o
wne
r's m
anua
lD
MR
Dig
ital M
edia
Rea
der:
card
read
erD
MS
DD
igita
l Mul
ti S
tand
ard
Dec
odin
gD
NM
Dig
ital N
atur
al M
otio
nD
NR
Dig
ital N
oise
Red
uctio
n: n
oise
redu
ctio
n fe
atur
e of
the
set
1000
0_05
3_11
0228
.eps
1102
28
Pre
caut
ions
, Not
es, a
nd A
bbre
viat
ion
List
EN 7
TPS1
0.1A
LA
3.
2013
-Jul
-05
back
to
div.
tabl
e
DR
AMD
ynam
ic R
AM
DR
MD
igita
l Rig
hts
Man
agem
ent
DS
PD
igita
l Sig
nal P
roce
ssin
gD
ST
Dea
ler S
ervi
ce T
ool:
spec
ial r
emot
e co
ntro
l des
igne
d fo
r ser
vice
te
chni
cian
sD
TCP
Dig
ital T
rans
mis
sion
Con
tent
Pr
otec
tion;
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-
1394
DV
B-C
Dig
ital V
ideo
Bro
adca
st -
Cab
leD
VB
-TD
igita
l Vid
eo B
road
cast
- Te
rres
trial
DV
DD
igita
l Ver
satil
e D
isc
DV
I(-d)
Dig
ital V
isua
l Int
erfa
ce (d
= di
gita
l onl
y)E
-DD
CE
nhan
ced
Dis
play
Dat
a C
hann
el
(VE
SA
stan
dard
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 st
anda
rd)
EE
PR
OM
Elec
trica
lly E
rasa
ble
and
Prog
ram
mab
le R
ead
Onl
y M
emor
yE
MI
Elec
tro M
agne
tic In
terfe
renc
eE
PG
Elec
troni
c Pr
ogra
m G
uide
EP
LDEr
asab
le P
rogr
amm
able
Log
ic D
evic
eE
UEu
rope
EX
TEX
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
SHFL
AS
H m
emor
yFM
Fiel
d M
emor
y or
Fre
quen
cy
Mod
ulat
ion
FPG
AFi
eld-
Pro
gram
mab
le G
ate
Arra
yFT
VFl
at T
eleV
isio
nG
b/s
Gig
a bi
ts p
er s
econ
dG
-TX
TG
reen
Tel
eteX
TH
H_s
ync
to th
e m
odul
e H
DH
igh
Def
initi
onH
DD
Har
d D
isk
Driv
eH
DC
PH
igh-
band
wid
th D
igita
l Con
tent
Pr
otec
tion:
A “k
ey” e
ncod
ed in
to th
e H
DM
I/DV
I 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
su
bcom
mitt
ee o
f the
Inte
rnat
iona
l Te
leco
mm
unic
atio
n U
nion
rela
ting
to
radi
o co
mm
unic
atio
n. IT
U-6
56 (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 m
axim
um d
ata
rate
of 2
70 M
bit/s
, w
ith a
min
imum
ban
dwid
th o
f 135
M
Hz.
iTV
Inst
itutio
nal T
eleV
isio
n; T
V s
ets
for
hote
ls, h
ospi
tals
etc
.LS
Last
Sta
tus;
The
set
tings
last
cho
sen
by th
e cu
stom
er a
nd re
ad a
nd s
tore
d in
RAM
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
Silic
on F
ield
Effe
ct
Tran
sist
or, s
witc
hing
dev
ice
MP
EGM
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
SD
On
Scr
een
Dis
play
OA
DO
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 A
rtist
ic (S
AA5
800)
P50
Pro
ject
50:
com
mun
icat
ion
prot
ocol
be
twee
n TV
and
per
iphe
rals
PAL
Pha
se A
ltern
atin
g Li
ne. C
olor
sys
tem
m
ainl
y us
ed in
Wes
t Eur
ope
(col
our
carr
ier=
4.43
3619
MH
z) a
nd S
outh
A
mer
ica
(col
our c
arrie
r P
AL
M=
3.57
5612
MH
z an
d P
AL
N=
3.58
2056
MH
z)P
CB
Prin
ted
Circ
uit B
oard
(sam
e as
“PW
B”)
PC
MP
ulse
Cod
e M
odul
atio
nP
DP
Pla
sma
Dis
play
Pan
el
Pre
caut
ions
, Not
es, a
nd A
bbre
viat
ion
List
EN 8
TPS1
0.1A
LA
3.
2013
-Jul
-05
back
to
div.
tabl
e
PFC
Pow
er F
acto
r Cor
rect
or (o
r P
re-c
ondi
tione
r)P
IPP
ictu
re In
Pic
ture
PLL
Pha
se L
ocke
d Lo
op. 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
DP
oint
Of D
eplo
ymen
t: a
rem
ovab
le
CA
M m
odul
e, im
plem
entin
g th
e C
A
syst
em fo
r a h
ost (
e.g.
a T
V-s
et)
PO
RP
ower
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
LSP
ower
Sup
ply
with
inte
grat
ed L
ED
dr
iver
s w
ith a
dded
Sca
nnin
g fu
nctio
nalit
yP
TCP
ositi
ve T
empe
ratu
re C
oeffi
cien
t, no
n-lin
ear r
esis
tor
PW
BP
rinte
d W
iring
Boa
rd (s
ame
as “P
CB
”)P
WM
Pul
se 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
Vide
o 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
6S
igna
l pro
toco
l fro
m th
e re
mot
e co
ntro
l rec
eive
r R
ESE
TR
ES
ET
sign
alR
OM
Rea
d O
nly
Mem
ory
RS
DS
Red
uced
Sw
ing
Diff
eren
tial S
igna
lling
da
ta in
terfa
ceR
-TX
TR
ed T
elet
eXT
SA
MS
ervi
ce A
lignm
ent M
ode
S/C
Sho
rt C
ircui
tS
CAR
TS
yndi
cat d
es C
onst
ruct
eurs
d'
App
arei
ls R
adio
réce
pteu
rs e
t Té
lévi
seur
sS
CL
Ser
ial C
lock
I2 CS
CL-
FC
Lock
Sig
nal o
n Fa
st I2 C
bus
SD
Sta
ndar
d D
efin
ition
SD
AS
eria
l Dat
a I2 C
SD
A-F
DA
ta S
igna
l on
Fast
I2 C b
usS
DI
Ser
ial D
igita
l Int
erfa
ce, s
ee “I
TU-6
56”
SD
RA
MS
ynch
rono
us D
RA
MS
EC
AM
SE
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
IFS
ound
Inte
rmed
iate
Fre
quen
cyS
MP
SS
witc
hed
Mod
e P
ower
Sup
ply
SoC
Sys
tem
on
Chi
pS
OG
Syn
c O
n G
reen
SO
PS
Sel
f Osc
illat
ing
Pow
er S
uppl
yS
PI
Ser
ial 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
Son
y P
hilip
s D
igita
l Int
erFa
ceS
RAM
Sta
tic R
AM
SR
PS
ervi
ce R
efer
ence
Pro
toco
lS
SB
Sm
all S
igna
l Boa
rdS
SC
Spr
ead
Spec
trum
Clo
ckin
g, u
sed
to
redu
ce th
e ef
fect
s of
EM
IS
TBS
et T
op B
oxS
TBY
STa
nd-B
YS
VG
A80
0×
600
(4:3
)S
VH
SS
uper
Vid
eo H
ome
Sys
tem
SW
Sof
twar
eS
WA
NS
patia
l tem
pora
l Wei
ghte
d A
vera
ging
N
oise
redu
ctio
n
SX
GA
1280
×10
24TF
TTh
in F
ilm T
rans
isto
rTH
DTo
tal H
arm
onic
Dis
torti
onTM
DS
Tran
smis
sion
Min
imiz
ed D
iffer
entia
l S
igna
lling
TSTr
ansp
ort S
tream
TXT
Tele
teX
TTX
T-D
WD
ual W
indo
w w
ith T
elet
eXT
UI
Use
r Int
erfa
ceuP
Mic
ropr
oces
sor
UX
GA
1600
×12
00 (4
:3)
VV
-syn
c to
the
mod
ule
VE
SA
Vid
eo E
lect
roni
cs S
tand
ards
As
soci
atio
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
VS
BV
estig
ial S
ide
Ban
d; m
odul
atio
n m
etho
dW
YS
IWY
RW
hat Y
ou S
ee Is
Wha
t You
Rec
ord:
re
cord
sel
ectio
n th
at fo
llow
s m
ain
pict
ure
and
soun
dW
XG
A12
80×
768
(15:
9)X
TAL
Qua
rtz c
ryst
alX
GA
1024
×76
8 (4
:3)
YLu
min
ance
sig
nal
Y/C
Lum
inan
ce (Y
) and
Chr
omin
ance
(C)
sign
alY
PbP
rC
ompo
nent
vid
eo. L
umin
ance
and
sc
aled
col
or d
iffer
ence
sig
nals
(B-Y
an
d R
-Y)
YU
VC
ompo
nent
vid
eo
Mec
hani
cal I
nstru
ctio
nsEN
9TP
S10.
1A L
A4.
2013
-Jul
-05
back
to
div.
tabl
e
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
embl
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 (3
008
serie
s 32
")
1945
0_10
0_13
0112
.eps
1301
12
Mec
hani
cal I
nstru
ctio
nsEN
10
TPS1
0.1A
LA
4.
2013
-Jul
-05
back
to
div.
tabl
e
Figu
re 4
-2 C
able
dre
ssin
g (3
08
serie
s 39
")
Figu
re 4
-3 C
able
dre
ssin
g (3
008
serie
s 42
")
1945
0_10
1_13
0116
.eps
1301
16
1945
0_10
2_13
0116
.eps
1301
16
Mec
hani
cal I
nstru
ctio
nsEN
11
TPS1
0.1A
LA
4.
2013
-Jul
-05
back
to
div.
tabl
e
4.2
Serv
ice
Posi
tions
For e
asy
serv
icin
g of
a T
V se
t, th
e se
t sho
uld
be p
ut fa
ce d
own
on a
sof
t fla
t sur
face
, foa
m b
uffe
rs o
r oth
er s
peci
fic w
orks
hop
tool
s. E
nsur
e th
at a
sta
ble
situ
atio
n is
cre
ated
to p
erfo
rm
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
ESD
saf
e m
easu
res
are
take
n.
4.3
Ass
embl
y/Pa
nel R
emov
alIn
stru
ctio
ns b
elow
app
ly to
the
32P
FL30
08/9
8, b
ut w
ill be
si
mila
r for
oth
er m
odel
s.
4.3.
1R
ear C
over
Ref
er to
Fig
ure
4-4
for d
etai
ls.
War
ning
: Dis
conn
ect t
he m
ains
pow
er c
ord
befo
re re
mov
ing
the
rear
cov
er.
1.R
emov
e fix
atio
n sc
rew
s [1
] tha
t sec
ure
the
base
ass
y, p
ull
out t
he b
ase
assy
from
the
set.
Then
rem
ove
the
fixat
ion
scre
ws
[2],
[3],
[4] t
hat s
ecur
e th
e re
ar c
over
. Ref
er to
Fi
gure
4-4
for d
etai
ls.
2.Li
ft th
e re
ar c
over
from
the
TV. M
ake
sure
that
wire
s an
d ca
bles
are
not
dam
aged
whi
le lif
ting
the
rear
cov
er fr
om th
e se
t.
Figu
re 4
-4 R
ear c
over
rem
oval
4.3.
2K
eybo
ard
cont
rol p
anel
Ref
er to
Fig
ure
4-5
for d
etai
ls.
1.G
ently
rele
ase
the
tape
s th
at s
ecur
e th
e pa
nel’s
cab
les.
2.G
ently
rele
ase
the
clip
s th
at h
old
the
boar
d an
d ta
ke it
out
fro
m th
e be
zel.
3.U
nplu
g th
e co
nnec
tor[1
] fro
m th
e ke
yboa
rd c
ontro
l pan
el.
1945
0_10
3_13
0112
.eps
1301
12
1
M4
× 12
M3
× 8
111 1
2 222
22
22
2
M3
× 10
3
3Q
3 ×
10
4
4
44
44
4
Mec
hani
cal I
nstru
ctio
nsEN
12
TPS1
0.1A
LA
4.
2013
-Jul
-05
back
to
div.
tabl
e
Figu
re 4
-5 R
ear c
over
rem
oval
4.3.
3Sm
all S
igna
l Boa
rd (S
SB)
Ref
er to
Fig
ure
4-6
for d
etai
ls.
Cau
tion:
it is
man
dato
ry to
rem
ount
all
diffe
rent
scr
ews
at th
eir
orig
inal
pos
ition
dur
ing
re-a
ssem
bly.
Fai
lure
to d
o so
may
resu
lt in
dam
agin
g th
e S
SB.
1.R
elea
se th
e cl
ips
from
the
LVD
S c
onne
ctor
that
con
nect
w
ith th
e S
SB
[1].
Cau
tion:
be
care
ful,
as th
ese
are
very
frag
ile c
onne
ctor
s!
Unp
lug
the
cabl
e/fla
t foi
ls c
onne
ctor
.2.
Unp
lug
all o
ther
con
nect
ors
[2].
3.R
emov
e al
l the
fixa
tion
scre
ws
from
the
SS
B [3
].4.
Take
out
the
SSB
with
I/O
bra
cket
.5.
The
SS
B c
an n
ow b
e sh
ifted
aw
ay fr
om s
ide
conn
ecto
r co
ver,
then
lifte
d an
d ta
ken
out o
f the
I/O
bra
cket
. Ref
er to
Fi
gure
4-6
for d
etai
ls.
Figu
re 4
-6 S
SB re
mov
al
4.3.
4Po
wer
Sup
ply
Uni
t (PS
U)
Cau
tion:
it is
man
dato
ry to
rem
ount
all
diffe
rent
scr
ews
at th
eir
orig
inal
pos
ition
dur
ing
re-a
ssem
bly.
Fai
lure
to d
o so
may
resu
lt in
dam
agin
g th
e P
SU
.1.
Unp
lug
all c
onne
ctor
s fro
m th
e P
SU
.2.
Rem
ove
all f
ixat
ion
scre
ws
from
the
PS
U.
3.Th
e P
SU
can
be
take
n ou
t of t
he s
et n
ow.
1945
0_10
6_13
0112
.eps
1301
12
1
1945
0_10
9_13
0116
.eps
1301
30
3
33
2
1
Mec
hani
cal I
nstru
ctio
nsEN
13
TPS1
0.1A
LA
4.
2013
-Jul
-05
back
to
div.
tabl
e
4.3.
5Sp
eake
rs
1.G
ently
rele
ase
the
tape
s th
at s
ecur
e th
e sp
eake
r cab
les.
2.U
nplu
g th
e sp
eake
r con
nect
or fr
om th
e S
SB
.3.
Take
the
spea
kers
out
.W
hen
defe
ctiv
e, re
plac
e th
e bo
th u
nits
.
4.3.
6St
and
brac
ket r
emov
al
Cau
tion:
it is
man
dato
ry to
rem
ount
all
diffe
rent
scr
ews
at th
eir
orig
inal
pos
ition
dur
ing
re-a
ssem
bly.
Be
sure
to p
ut th
e se
t in
the
Ser
vice
Pos
ition
.1.
Rem
ove
the
fixat
ion
scre
ws.
2.Ta
ke th
e st
and
brac
ket o
ut.
4.3.
7IR
/LED
Boa
rd
1.R
emov
e th
e st
and
brac
ket a
s de
scrib
ed e
arlie
r.2.
Gen
tly re
leas
e th
e cl
ips
that
hol
d th
e bo
ard
and
take
it o
ut
from
the
beze
l.3.
Unp
lug
both
the
conn
ecto
rs fr
om th
e IR
/LE
D b
oard
.W
hen
defe
ctiv
e, re
plac
e th
e w
hole
uni
t.
4.3.
8A
mbi
Ligh
t con
trol
pan
el
1.U
nplu
g th
e co
nnec
tor f
rom
the
Am
biLi
ght c
ontro
l pan
el.
2.G
ently
rele
ase
the
clip
that
hol
ds th
e pa
nel a
nd ta
ke it
out
fro
m th
e se
t.W
hen
defe
ctiv
e, re
plac
e th
e w
hole
uni
t.
4.3.
9LC
D P
anel
1.R
emov
e th
e S
SB
as
desc
ribed
ear
lier.
2.R
elea
se th
e cl
ips
from
the
LVD
S c
onne
ctor
that
con
nect
s w
ith th
e LC
D p
anel
.C
autio
n: b
e ca
refu
l, as
thes
e ar
e ve
ry fr
agile
con
nect
ors!
3.R
emov
e th
e P
SU
as
desc
ribed
ear
lier.
4.R
emov
e th
e sp
eake
rs a
s de
scrib
ed e
arlie
r.5.
Rem
ove
the
keyb
oard
con
trol u
nit a
s de
scrib
ed e
arlie
r.6.
Rem
ove
the
stan
d br
acke
t as
desc
ribed
ear
lier.
7.Li
ft th
e LC
D P
anel
from
the
beze
l.8.
Rem
ove
the
fixat
ion
scre
ws
that
sec
ure
the
pane
l with
the
beze
l.9.
Lift
the
pane
l fro
m th
e be
zel.
Whe
n de
fect
ive,
repl
ace
the
who
le u
nit.
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
e4-
1 to
Fi
gure
4-6.
•P
ay s
peci
al a
ttent
ion
not t
o da
mag
e th
e E
MC
foam
s on
the
SS
B s
hiel
ds. E
nsur
e th
at E
MC
foam
s ar
e m
ount
ed
corre
ctly
.
Ser
vice
Mod
es, E
rror
Cod
es, a
nd F
ault
Find
ing
EN 1
4TP
S10.
1A L
A5.
2013
-Jul
-05
back
to
div.
tabl
e
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
tepw
ise
Sta
rt-up
5.4
Ser
vice
Too
ls5.
5 S
oftw
are
Upg
radi
ng5.
6 E
rror
Cod
es(o
ptio
n)5.
7 Th
e B
linki
ng L
ED
Pro
cedu
re5.
8 Fa
ult F
indi
ng a
nd R
epai
r Tip
s
5.1
Test
Poi
nts
As
mos
t sig
nals
are
dig
ital,
it w
ill b
e di
fficu
lt to
mea
sure
w
avef
orm
s w
ith a
sta
ndar
d os
cillo
scop
e. H
owev
er, s
ever
al k
ey
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
esTh
e S
ervi
ce M
ode
feat
ure
is s
plit
into
five
par
ts:
•S
ervi
ce D
efau
lt M
ode
(SD
M).(
optio
n)•
Ser
vice
Alig
nmen
t Mod
e (S
AM
).(op
tion)
•Fa
ctor
y M
ode.
•C
usto
mer
Ser
vice
Mod
e (C
SM).
•C
ompu
ter A
ided
Rep
air M
ode
(Com
Pai
r).
SD
M, S
AM
and
the
Fact
ory
mod
e of
fer f
eatu
res,
whi
ch c
an b
e us
ed b
y th
e S
ervi
ce e
ngin
eer t
o re
pair/
alig
n a
TV s
et. S
ome
feat
ures
are
:•
A p
re-d
efin
ed s
ituat
ion
to e
nsur
e m
easu
rem
ents
can
be
mad
e un
der u
nifo
rm c
ondi
tions
(SD
M).(
optio
n)•
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
).(op
tion)
•M
ake
alig
nmen
ts (e
.g. W
hite
Ton
e), r
eset
the
erro
r buf
fer
(SA
M a
nd F
acto
ry M
ode)
.•
Dis
play
info
rmat
ion
(“S
DM
” or “
SA
M” i
ndic
atio
n in
upp
er
right
cor
ner o
f scr
een,
err
or b
uffe
r, so
ftwar
e ve
rsio
n,
oper
atin
g ho
urs,
opt
ions
and
opt
ion
code
s, s
ub
men
us).(
optio
n)
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
I2 C /U
AR
T le
vel a
nd c
an b
e us
ed b
y a
Ser
vice
en
gine
er to
qui
ckly
dia
gnos
e th
e TV
set
by
read
ing
out e
rror
co
des,
read
and
writ
e in
NV
Ms,
com
mun
icat
e w
ith IC
s an
d th
e m
icro
pro
cess
or (P
WM
, reg
iste
rs, e
tc.),
and
by
mak
ing
use
of
a fa
ult f
indi
ng d
atab
ase.
It w
ill a
lso
be p
ossi
ble
to u
p an
d do
wnl
oad
the
softw
are
of th
e TV
set
via
I2 C w
ith h
elp
of
Com
Pai
r. To
do
this
, Com
Pai
r has
to b
e co
nnec
ted
to th
e TV
se
t via
the
Com
Pai
r con
nect
or, w
hich
will
be
acce
ssib
le
thro
ugh
the
rear
of t
he s
et (w
ithou
t rem
ovin
g th
e re
ar c
over
).
Not
e: F
or th
e ne
w m
odel
rang
e, a
new
rem
ote
cont
rol (
RC
) is
used
with
som
e re
nam
ed b
utto
ns. T
his
has
an im
pact
on
the
activ
atio
n of
the
Ser
vice
mod
es. F
or in
stan
ce th
e ol
d “M
EN
U”
butto
n is
now
cal
led
“HO
ME”
(or i
s in
dica
ted
by a
“hou
se” i
con)
.
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.(o
ptio
n) E
very
two
soft-
rese
ts in
crea
se th
e ho
ur b
y +
1. S
tand
-by
hour
s ar
e no
t co
unte
d.
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
show
: “A
AA
AB
-X.Y
YY
”, w
here
:•
AA
AA
is th
e ch
assi
s na
me:
TP
S10
11A
x.yy
y.
•B
is th
e re
gion
indi
catio
n: E
= E
urop
e, A
= A
P/C
hina
, U =
N
AFT
A, L
= L
ATA
M.
•X
is th
e m
ain
vers
ion
num
ber:
this
is u
pdat
ed w
ith a
maj
or
chan
ge o
f spe
cific
atio
n (in
com
patib
le w
ith th
e pr
evio
us
softw
are
vers
ion)
. Num
berin
g w
ill g
o fro
m 1
- 99
and
A
A -
ZZ.
- If t
he 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 t
he m
ain
vers
ion
num
ber c
hang
es, t
he d
efau
lt se
tting
s ar
e lo
aded
.•
YY
Y is
the
sub
vers
ion
num
ber:
this
is u
pdat
ed w
ith a
min
or
chan
ge (b
ackw
ards
com
patib
le w
ith th
e pr
evio
us
vers
ions
). N
umbe
ring
will
go fr
om 0
00 -
999.
- If t
he s
ub v
ersi
on n
umbe
r cha
nges
, the
new
ver
sion
nu
mbe
r is
writ
ten
in th
e N
VM
.- I
f the
NV
M is
refre
shed
, the
sof
twar
e id
entif
icat
ion,
ve
rsio
n, a
nd c
lust
er w
ill a
lso
be w
ritte
n to
NV
M.
Dis
play
Opt
ion
Cod
e Se
lect
ion(
optio
n)W
hen
afte
r an
SS
B o
r dis
play
exc
hang
e, th
e di
spla
y op
tion
code
is n
ot s
et p
rope
rly, i
t will
resu
lt in
a T
V w
ith “n
o di
spla
y”.
Ther
efor
e, it
is re
quire
d to
set
this
dis
play
opt
ion
code
afte
r su
ch a
repa
ir.To
do
so, p
ress
the
follo
win
g ke
y se
quen
ce o
n a
stan
dard
RC
tra
nsm
itter
: “06
2598
” dire
ctly
follo
wed
by
MEN
U a
nd “x
xx”,
whe
re “x
xx” i
s a
3 di
git d
ecim
al v
alue
of t
he p
anel
type
: see
co
lum
n “D
ispl
ay C
ode”
in T
able
6-3
. Whe
n th
e va
lue
is
acce
pted
and
sto
red
in N
VM
, the
set
will
sw
itch
to S
tand
-by,
to
indi
cate
that
the
proc
ess
has
been
com
plet
ed.
Dur
ing
this
alg
orith
m, t
he N
VM
-con
tent
mus
t be
filte
red,
be
caus
e se
vera
l ite
ms
in th
e N
VM
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”
and
“Pro
d. S
/N” d
ata
is c
hang
ed in
to “S
ee T
ype
Plat
e”. I
n ca
se
a ca
ll ce
ntre
or c
onsu
mer
read
s “S
ee T
ype
Pla
te” i
n C
SM
m
ode.
5.2.
2Se
rvic
e D
efau
lt M
ode
(SD
M)(o
ptio
n)
Purp
ose
Set
the
TV in
SD
M m
ode
in o
rder
to b
e ab
le to
cre
ate
a pr
edef
ined
set
ting
for m
easu
rem
ents
to b
e m
ade.
In th
is
plat
form
, a s
impl
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.
•A
ll ser
vice
-unf
riend
ly m
odes
(if p
rese
nt) a
re d
isab
led,
sin
ce
they
inte
rfere
with
dia
gnos
ing/
repa
iring
a s
et. T
hese
se
rvic
e un
frien
dly
mod
es a
re:
–(S
leep
) tim
er.
–B
lue
mut
e/W
all p
aper
.–
Aut
o 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)
.
Ser
vice
Mod
es, E
rror
Cod
es, a
nd F
ault
Find
ing
EN 1
5TP
S10.
1A L
A5.
2013
-Jul
-05
back
to
div.
tabl
e
–Sk
ippi
ng, b
lank
ing
of “N
ot fa
vour
ite”,
“Ski
pped
” or
“Loc
ked”
pre
sets
/cha
nnel
s.–
Auto
mat
ic s
torin
g of
Per
sona
l Pre
set o
r Las
t Sta
tus
setti
ngs.
–Au
tom
atic
use
r men
u tim
e-ou
t (m
enu
switc
hes
back
/OFF
aut
omat
ical
ly.
–Au
to V
olum
e le
velli
ng (A
VL)
.
How
to A
ctiv
ate
SDM
To a
ctiv
ate
SD
M, u
se th
e fo
llow
ing
met
hods
:•
Pre
ss th
e fo
llow
ing
key
sequ
ence
on
the
RC
tran
smitt
er:
“062
596”
, dire
ctly
follo
wed
by
the
“Hom
e” b
utto
n.
Afte
r act
ivat
ing
this
mod
e, “S
DM
” will
appe
ar in
the
uppe
r lef
t co
rner
of t
he s
cree
n.
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 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 D
efau
lt M
ode.
Men
u ite
ms
and
expl
anat
ion:
•xx
xxx
Ope
ratin
g ho
urs
(in d
ecim
al).
•A
AA
AB
-X.Y
YY S
ee S
oftw
are
Iden
tific
atio
n, V
ersi
on, a
nd
Clu
ster
for t
he s
oftw
are
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.
In th
is c
hass
is tw
o tim
es e
ight
opt
ion
code
s ar
e us
ed.
How
to N
avig
ate
As
this
mod
e is
read
onl
y, th
ere
is n
othi
ng to
nav
igat
e. T
o sw
itch
to o
ther
mod
es, u
se o
ne o
f the
follo
win
g m
etho
ds:
•C
omm
and
ME
NU
from
the
user
rem
ote
will
exit
SD
M.
•To
pre
vent
the
OS
D fr
om in
terfe
ring
with
mea
sure
men
ts in
S
DM
, use
the
com
man
d “A
djus
t” or
“Opt
ions
” (“S
TATU
S”
or “I
NFO
” for
NA
FTA
and
LATA
M) f
rom
the
user
rem
ote.
Th
is w
ill s
witc
h th
e O
SD
“off”
whi
le re
mai
ning
in th
e S
DM
m
ode.
The
“SD
M” O
SD
is re
mai
ns v
isib
le in
the
uppe
r rig
ht
corn
er o
f the
scr
een.
To
exit
SD
M s
witc
h to
“Sta
nd-b
y”
mod
e.•
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 O
K b
utto
n to
switc
h to
SA
M (d
o no
t allo
w th
e di
spla
y to
tim
e ou
t bet
wee
n en
tries
whi
le k
eyin
g th
e se
quen
ce).
Rem
arks
: new
rem
ote
cont
rols
will
not h
ave
I+ b
utto
n, b
ut a
n “IN
FO” b
utto
n in
stea
d.
How
to E
xit S
DM
•S
witc
h th
e se
t to
Sta
nd-b
y by
pre
ssin
g th
e st
andb
y bu
tton
on th
e re
mot
e co
ntro
l tra
nsm
itter
or o
n th
e te
levi
sion
set
. •
Via
a s
tand
ard
cust
omer
RC
-tran
smitt
er: k
ey
in “0
0”-s
eque
nce.
Not
e: If
the
TV is
sw
itche
d “o
ff” b
y a
pow
er in
terr
upt w
hile
in
SD
M, t
he T
V w
ill sh
ow u
p in
the
last
sta
tus
of S
DM
men
u as
soo
n as
the
pow
er is
sup
plie
d ag
ain.
The
err
or b
uffe
r will
no
t be
clea
red.
5.2.
3Se
rvic
e A
lignm
ent M
ode
(SA
M)(o
ptio
n)
Purp
ose
•To
mod
ify th
e N
VM
.•
To d
ispl
ay/c
lear
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)
.
How
to A
ctiv
ate
SAM
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
”, di
rect
ly fo
llow
ed b
y th
e “IN
FO”
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,
w
ith “S
AM
” in
the
uppe
r rig
ht c
orne
r of t
he s
cree
n to
indi
cate
th
at th
e te
levi
sion
is in
Ser
vice
Alig
nmen
t Mod
e.
Tabl
e 5-
1 SA
M m
ode
over
view
Mai
n M
enu
Sub-
men
u 1
Sub-
men
u 2
Des
crip
tion
Sys
tem
Info
rmat
ion
Op
Hou
r00
183
This
repr
esen
ts th
e lif
e tim
er. T
he ti
mer
cou
nts
norm
al o
pera
tion
hour
s,
but d
oes
not c
ount
Sta
nd-b
y ho
urs.
Mai
n S
W ID
e.g.
“T91
1E 1
.164
E” o
r “T9
11H
E 1
.178
A”
See
par
agra
ph S
oftw
are
Iden
tific
atio
n, V
ersi
on, a
nd C
lust
er fo
r the
so
ftwar
e na
me
defin
ition
.ER
Re.
g. “0
00 0
00 0
00 0
00 0
00”
Sho
ws
all e
rror
s de
tect
ed s
ince
the
last
tim
e th
e bu
ffer w
as e
rase
d. F
ive
erro
rs p
ossi
ble.
OP
1e.
g. “0
12 0
07 2
08 0
02 0
56 0
32 0
07 0
30”
Use
d to
read
-out
the
optio
n by
tes.
See
par
agra
ph 6
.4 O
ptio
n Se
tting
sin
the
Alig
nmen
ts s
ectio
n fo
r a d
etai
led
desc
riptio
n. T
en c
odes
are
po
ssib
le.
OP
2e.
g. “0
56 0
23 0
00 1
06 0
64 0
00 0
00 1
22”
Cle
arPr
ess
[OK
] to
clea
n th
e E
rror C
odes
im
med
iate
lyE
rase
s th
e co
nten
ts o
f the
err
or b
uffe
r. Se
lect
this
men
u ite
m a
nd p
ress
th
e M
EN
U R
IGH
T ke
y on
the
rem
ote
cont
rol.
The
cont
ent o
f the
err
or
buffe
r is
clea
red.
RG
B A
lign
War
mR
Gai
n To
alig
n th
e W
hite
Ton
e. S
ee
para
grap
h 6.
3 S
oftw
are
Alig
nmen
ts in
the
Alig
nmen
ts s
ectio
n fo
r a
deta
iled
desc
riptio
nG
Gai
nB
Gai
n
Nor
mal
R G
ain
G G
ain
B G
ain
Coo
lR
Gai
n
G G
ain
B G
ain
Stor
eS
tore
the
RG
B va
lue
NVM
edi
tor
Addr
ess
Sel
ect a
nd fi
ll th
e N
VM
add
ress
Valu
eS
elec
t and
fill
the
NV
M v
alue
Stor
eS
tore
the
valu
e in
the
addr
ess
Upl
oad
to U
SB
Cop
y C
hann
el L
ist t
o U
SB
To u
ploa
d se
vera
l set
tings
from
the
TV to
an
US
B st
ick
Cop
y N
VM
to U
SB
Cop
y R
eada
ble
Info
to U
SB
Cop
y ED
ID to
US
B
Ser
vice
Mod
es, E
rror
Cod
es, a
nd F
ault
Find
ing
EN 1
6TP
S10.
1A L
A5.
2013
-Jul
-05
back
to
div.
tabl
e
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
/pre
viou
s m
enu
item
s.•
With
the
“LE
FT/R
IGH
T” k
eys,
it is
pos
sibl
e to
:–
(De)
act
ivat
e th
e se
lect
ed m
enu
item
.–
(De)
act
ivat
e th
e se
lect
ed s
ub m
enu.
–C
hang
e th
e va
lue
of th
e se
lect
ed m
enu
item
.•
Whe
n yo
u pr
ess
the
ME
NU
but
ton
once
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
SA
M m
ode
still
act
ive
in th
e ba
ckgr
ound
). •
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 “H
ome”
bu
tton
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
RG
BA
lign
setti
ngs)
, lea
ve th
e to
p le
vel S
AM
men
u by
usi
ng
the
PO
WE
R b
utto
n on
the
rem
ote
cont
rol t
rans
mitt
er o
r the
te
levi
sion
set
. The
men
tione
d ex
cept
ions
mus
t be
stor
ed
sepa
rate
ly v
ia th
e S
TOR
E b
utto
n.
How
to E
xit S
AM
Use
one
of t
he fo
llow
ing
met
hods
:•
Sw
itch
the
set t
o S
TAN
DB
Y b
y pr
essi
ng th
e m
ains
but
ton
on th
e re
mot
e co
ntro
l tra
nsm
itter
or t
he te
levi
sion
set
.•
Via
a s
tand
ard
RC
-tran
smitt
er, k
ey in
“00”
seq
uenc
e.
Not
e: W
hen
the
TV is
sw
itche
d “o
ff” b
y a
pow
er in
terru
pt w
hile
in
SAM
, the
TV
will
sho
w u
p in
“nor
mal
ope
ratio
n m
ode”
as
soon
as
the
pow
er is
sup
plie
d ag
ain.
The
err
or b
uffe
r will
not b
e cl
eare
d.
5.2.
4C
onte
nts
of th
e Fa
ctor
y m
ode:
Purp
ose
•To
per
form
ext
ende
d al
ignm
ents
.
Spec
ifica
tions
•D
ispl
ayin
g an
d or
cha
ngin
g Pa
nel I
D in
form
atio
n.•
Dis
play
ing
and
or c
hang
ing
Tune
r ID
info
rmat
ion.
•E
rror b
uffe
r cle
arin
g.•
Var
ious
sof
twar
e al
ignm
ent s
ettin
gs.
•Te
stpa
ttern
dis
play
ing.
•P
ublic
Bro
adca
stin
g S
ervi
ce p
assw
ord
Res
et.
•et
c.
How
to A
ctiv
ate
the
Fact
ory
mod
eTo
act
ivat
e th
e Fa
ctor
y m
ode,
use
the
follo
win
g m
etho
d:•
Pre
ss th
e fo
llow
ing
key
sequ
ence
on
the
rem
ote
cont
rol
trans
mitt
er: f
rom
the
“Hom
e sc
reen
” pre
ss “1
999”
, dire
ctly
fo
llow
ed b
y th
e “B
ack”
but
ton.
Do
not a
llow
the
disp
lay
to
time
out b
etw
een
entri
es w
hile
key
ing
the
sequ
ence
.A
fter e
nter
ing
the
Fact
ory
mod
e, th
e fo
llow
ing
item
s ar
e di
spla
yed,
Tabl
e 5-
2 Fa
ctor
y m
ode
over
view
Dow
nloa
d fro
m U
SBC
opy
Cha
nnel
Lis
t fro
m U
SBTo
dow
nloa
d se
vera
l set
tings
from
the
US
B s
tick
to th
e TV
Cop
y N
VM fr
om U
SB
Cop
y R
eada
ble
Info
from
USB
Cop
y E
DID
from
US
BIn
itial
ize
NV
MPr
ess
[OK
] to
Initi
aliz
e N
VM
imm
edia
tely
To in
itial
ize
a (c
orru
pted
) NV
M. B
e ca
refu
l, th
is w
ill er
ase
all s
ettin
gs.
EDID
Writ
e En
able
Pres
s [O
K] to
ena
ble
EDID
writ
able
im
med
iate
lyE
nabl
e E
DID
for w
ritin
g
Serv
ice
Dat
aTy
pe N
umbe
rPr
ess
[OK]
use
key
pad
edi
t typ
e nu
mbe
r im
med
iate
lyEd
it an
d di
spla
y th
e ap
plic
able
ser
vice
dat
a by
usi
ng th
e di
spla
yed
key
pad.
Prod
uctio
n N
umbe
rPr
ess
[OK]
use
key
pad
edi
t pro
duct
ion
num
ber i
mm
edia
tely
12N
C S
SBPr
ess
[OK
] use
key
pad
edi
t SSB
imm
edia
tely
12N
C P
SUPr
ess
[OK]
use
key
pad
edi
t PS
U im
med
iate
ly12
NC
Dis
play
Pres
s [O
K] u
se k
ey p
ad e
dit d
ispl
ay
imm
edia
tely
Cle
ar O
AD V
ersi
onPr
ess
[OK]
to c
lean
OA
D V
ersi
on
imm
edia
tely
Cle
an O
AD
(Ove
r Air
Dow
nloa
d, fi
rmw
are
upda
te m
etho
d) V
ersi
on
Rel
oad
MA
C a
ddre
ssPr
ess
[OK]
to re
load
MAC
add
ress
from
EC
D im
med
iate
lyIf
MA
C a
ddre
ss v
alue
in N
VM is
mis
sing
, you
can
trig
ger t
his
item
in
SAM
mod
e to
relo
ad M
AC a
ddre
ss fr
om fl
ash
ECD
key
to N
VM.
Mai
n M
enu
Sub-
men
u 1
Sub-
men
u 2
Des
crip
tion
Item
Item
val
ueD
efau
lt va
lue
Des
crip
tion
32"
39"
42"
0M
ain-
MC
U V
erTP
S101
1A_2
.01
Mai
n-M
CU
Ver
sion
1B
ootlo
ader
Ver
V0.
01Bo
otlo
ader
Ver
sion
2S
ub-M
CU
Ver
V0.
01SU
B-M
CU
Ver
sion
3E
EPR
OM
Ver
V0.
01EE
PR
OM
Ver
sion
4D
ate
Dec
20
2012
Softw
are
rele
ase
date
5M
odel
Nam
e32
PFL
300
839
PFL
3008
42P
FL30
08M
odel
nam
e
6S
cale
rM
ST6
931X
PSc
aler
mod
el7
Pan
el T
ype
TPT3
15B
5-A
042
TPT3
90J
1_H
J1L
02
TPT4
20H
2_H
VN
01
Dis
play
mod
el
8S
ourc
eTV
Inpu
t sou
rce
9A
uto
Col
orG
OO
nly
need
to d
o au
tom
atic
cor
rect
ion
inpu
t sou
rce
of e
ffect
ive,
othe
rwis
e it
is n
ot a
ctio
n
10W
/B P
atte
rnO
FFW
/B P
atte
rn
11S
SCSS
C
12E
nabl
eO
FFEn
able
on/
off
13LV
DS
Spa
n35
.0K
Hz
LVD
Spa
n
14LV
DS
Ste
p2.
00%
LVD
Ste
p
15A
DC
YPb
Pr(S
D)
ADC
Ser
vice
Mod
es, E
rror
Cod
es, a
nd F
ault
Find
ing
EN 1
7TP
S10.
1A L
A5.
2013
-Jul
-05
back
to
div.
tabl
e
How
to E
xit t
he F
acto
ry m
ode
Use
one
of t
he fo
llow
ing
met
hods
:•
Sel
ect E
XIT
_FA
CTO
RY
from
the
men
u an
d pr
ess
the
“OK
” bu
tton.
Not
e: W
hen
the
TV is
sw
itche
d “o
ff” b
y a
pow
er in
terr
upt,
or
norm
al s
witc
h to
“sta
nd-b
y” w
hile
in th
e fa
ctor
y m
ode,
the
TV
will
sho
w u
p in
“nor
mal
ope
ratio
n m
ode”
as
soon
as
the
pow
er
is s
uppl
ied
agai
n. T
he e
rror
buf
fer w
ill n
ot b
e cl
eare
d.
5.2.
5C
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.Th
e ca
ll ce
ntre
can
in
stru
ct th
e cu
stom
er (b
y te
leph
one)
to e
nter
CS
M in
ord
er to
id
entif
y th
e st
atus
of t
he s
et.T
his
help
s th
e ca
ll ce
ntre
to
diag
nose
pro
blem
s an
d fa
ilure
s in
the
TV s
et 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
”.•
Line
num
ber f
or e
very
lin
e (to
mak
e C
SM
lang
uage
inde
pend
ent).
•S
et th
e sc
reen
mod
e to
full
scre
en (a
ll co
nten
ts o
n sc
reen
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
CSM
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: “
4569
87” (
do n
ot a
llow
the
disp
lay
to ti
me
out b
etw
een
entri
es w
hile
key
ing
the
sequ
ence
). A
fter e
nter
ing
the
Cus
tom
er S
ervi
ce M
ode,
the
follo
win
g ite
ms
are
disp
laye
d.
Not
e: A
ctiv
atio
n of
the
CS
M is
onl
y po
ssib
le if
ther
e is
no
(use
r)
men
u on
the
scre
en!
Con
tent
s of
CSM
•1.
1 Se
t Typ
e Th
is in
form
atio
n is
ver
y he
lpfu
l for
a
help
desk
/wor
ksho
p as
refe
renc
e fo
r fur
ther
dia
gnos
is. I
n th
is w
ay, i
t is
not n
eces
sary
for t
he c
usto
mer
to lo
ok a
t the
re
ar o
f the
TV
-set
. Not
e th
at if
an
NV
M is
repl
aced
or i
s in
itial
ized
afte
r cor
rupt
ion,
this
set
type
has
to b
e re
-writ
ten
to N
VM
.•
1.2
Prod
uctio
n co
de D
ispl
ays
the
prod
uctio
n co
de (t
he s
eria
l num
ber)
of t
he T
V. N
ote
that
if a
n N
VM
is
repl
aced
or i
s in
itial
ized
afte
r cor
rupt
ion,
this
pro
duct
ion
code
has
to b
e re
-writ
ten
to N
VM
.•
1.3
HD
CP
keys
Indi
cate
s th
e va
lidity
of t
he H
DM
I key
s (o
r H
DC
P k
eys)
. In
case
thes
e ke
ys a
re n
ot v
alid
and
the
cust
omer
wan
ts to
mak
e us
e of
the
HD
MI f
unct
iona
lity,
the
SS
B h
as to
be
repl
aced
.•
1.4
NVM
nam
e D
etec
ts a
nd d
ispl
ays
NV
M n
ame.
•1.
5 So
ftwar
e Ve
rsio
n D
ispl
ays
the
softw
are
vers
ion.
•
1.6
SSB
Giv
es a
n id
entif
icat
ion
of th
e S
SB
as
stor
ed in
N
VM
. Not
e th
at if
an
NV
M is
repl
aced
or i
s in
itial
ized
afte
r co
rrup
tion,
this
iden
tific
atio
n nu
mbe
r has
to b
e re
-writ
ten
to
NV
M. T
his
iden
tific
atio
n nu
mbe
r is
the
12N
C n
umbe
r of t
he
SS
B.
•1.
7 LC
D d
ispl
ay p
anel
12N
C N
VM
read
/writ
e.•
1.8
PSU
12N
C N
VM
read
/writ
e.
How
to N
avig
ate
By
mea
ns o
f the
“CU
RS
OR
-DO
WN
/UP
” kno
b (o
r the
scr
oll
whe
el) o
n th
e R
C-tr
ansm
itter
, can
be
navi
gate
d th
roug
h th
e m
enus
.
How
to E
xit C
SMTo
exi
t CS
M, u
se o
ne o
f the
follo
win
g m
etho
ds.
•P
ress
the
ME
NU
/HO
ME
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 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
.
16G
ain
RG
BR
GB
RG
BA
DC
Gai
n
17O
ffset
RG
BR
GB
RG
BO
ffset
RG
B
18C
olor
Tem
pN
orm
alTh
e cu
rren
t set
of c
olor
tem
pera
ture
18Sc
aler
MST
6931
XPS
cale
r mod
el
20G
ain
RG
BR
GB
RG
BA
DC
Gai
n
21O
ffset
RG
BR
GB
RG
BO
ffset
RG
B22
Burn
inO
FFTu
rn o
n or
turn
off
Bur
n in
pat
tern
23EE
PR
OM
Init
Initi
al a
ll E
EPR
OM
exc
ept t
he H
DC
P ke
y an
d pr
oduc
t ser
ial n
umbe
r
24Bc
ak L
IT T
ime
0000
3.4
Hrs
Hrs
0000
0.0H
rs
Hrs
0000
0.6H
rs
Hrs
Bca
klig
ht ti
me
25To
tal T
ime
0000
4.6
Hrs
Hrs
0000
0.0H
rs
Hrs
0000
0.6H
rs
Hrs
Tota
l tim
e
26Ba
ckLi
ght
100
Set
the
brig
htne
ss o
f the
bac
klig
ht
27La
ngua
geEn
glis
hFa
ctor
y La
nugu
age
28Sy
stem
Res
etR
eset
the
EEP
RO
M d
ata
exce
pt th
e H
DC
P,pr
oduc
t ser
ial n
umbe
r,the
fact
ory
men
u AD
C d
ata,
whi
te b
alan
ce s
et
poin
t,Bla
ck li
ght,l
angu
age
and
Ener
gy L
ogo.
29Ex
itE
xit
Item
Item
val
ueD
efau
lt va
lue
Des
crip
tion
32"
39"
42"
Ser
vice
Mod
es, E
rror
Cod
es, a
nd F
ault
Find
ing
EN 1
8TP
S10.
1A L
A5.
2013
-Jul
-05
back
to
div.
tabl
e
5.3
Step
wis
e St
art-u
p
Figu
re 5
-1 S
tepw
ise
Star
t-up
1908
0_20
6_11
0323
.eps
1202
24
Pow
er O
ffS
tand
byS
oft M
ode
Pow
er O
n
Sem
i-S
tand
by
Sta
ndby
Sw
itch
Off(
Mai
nsPo
wer
Plu
g)
Sta
ndby
Sof
t Mod
eC
omm
and
Rec
eive
d,pr
evio
usly
in S
tand
byS
oft M
ode
(Pow
er ta
ctsw
itch)
TV W
akeu
pco
mm
ands
Rec
eive
d(T
V W
akeu
pke
ys)
Dig
ital
back
grou
ndta
sks
star
ted
Dig
ital
back
grou
ndta
sks
com
plet
ed Sw
ith O
n,pr
evio
usly
inS
tand
by/S
emi-
Sta
ndby
(Mai
nsPo
wer
Plu
g)
Sta
ndby
Sof
t Mod
eC
omm
and
Rec
eive
d(P
ower
tact
switc
h)
Sw
itch
Off
(Mai
nsPo
wer
Plu
g)
Sw
itch
Off
(Mai
ns P
ower
P
lug)
Sw
ith O
n,pr
evio
usly
inS
tand
byS
oft M
ode
(Mai
ns P
ower
Plu
g)
Sta
ndby
com
man
ds
Rec
eive
d (R
CS
tand
by k
ey)
Sta
ndby
Sof
t Mod
e C
omm
and
Rec
eive
d,pr
evio
usly
in S
tand
byS
oft M
ode
(Pow
er
tact
switc
h)TV
Wak
eup
com
man
dsR
ecei
ved
(TV
Wak
eup
keys
)
Sw
itch
On,
pre
viou
sly
in P
ower
On
Mod
e(P
ower
tact
switc
h)
Sta
ndby
Sof
t Mod
e C
omm
and
Rec
eive
d,(P
ower
tact
switc
h)
Sw
itch
Off
(Mai
nsPo
wer
Plu
g)S
witc
h O
n,pr
evio
usly
inTV
Ope
ratio
n M
ode
(Mai
ns P
ower
Plu
g)
Ser
vice
Mod
es, E
rror
Cod
es, a
nd F
ault
Find
ing
EN 1
9TP
S10.
1A L
A5.
2013
-Jul
-05
back
to
div.
tabl
e
5.4
Serv
ice
Tool
s
5.4.
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 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. N
o kn
owle
dge
on I2 C
or U
AR
T co
mm
ands
is n
eces
sary
, be
caus
e 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 m
icro
pro
cess
or is
wor
king
) and
all
repa
ir in
form
atio
n is
di
rect
ly a
vaila
ble.
4.C
omP
air f
eatu
res
TV s
oftw
are
up p
ossi
bilit
ies.
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
Com
Pai
r II i
nter
face
box
is c
onne
cted
to th
e PC
via
an
US
B c
able
. For
the
TV c
hass
is, t
he C
omP
air i
nter
face
box
and
th
e TV
com
mun
icat
e vi
a a
bi-d
irect
iona
l cab
le v
ia th
e se
rvic
e co
nnec
tor(
s).
The
Com
Pai
r fau
lt fin
ding
pro
gram
is a
ble
to d
eter
min
e th
e pr
oble
m o
f the
def
ectiv
e te
levi
sion
, by
a co
mbi
natio
n of
au
tom
atic
dia
gnos
tics
and
an in
tera
ctiv
e qu
estio
n/an
swer
pr
oced
ure.
How
to C
onne
ctTh
is is
des
crib
ed in
the
chas
sis
faul
t fin
ding
dat
abas
e in
C
omP
air.
Figu
re 5
-2 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 ca
n be
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.•
Sof
twar
e is
ava
ilabl
e vi
a th
e P
hilip
s S
ervi
ce w
eb p
orta
l.•
Com
Pai
r UA
RT
inte
rface
cab
le fo
r TP
S10
.1x
xx.
(usi
ng D
B9
to 2
mm
pitc
h JS
T co
nnec
tor)
: 312
2 78
5 90
630.
N
ote:
Whe
n yo
u en
coun
ter p
robl
ems,
con
tact
you
r loc
al
supp
ort d
esk.
5.5
Softw
are
Upg
radi
ng
5.5.
1D
escr
iptio
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
desc
riptio
n on
how
to u
pgra
de th
e m
ain
softw
are
can
be fo
und
in th
e D
FU o
r on
the
Phi
lips
web
site
.
5.5.
2In
trod
uctio
n
Phi
lips
cont
inuo
usly
trie
s to
impr
ove
its p
rodu
cts,
and
it’s
re
com
men
d th
at th
e TV
sof
twar
e is
upd
ated
whe
n up
date
s ar
e av
aila
ble.
Sof
twar
e up
date
file
s ca
n be
obt
aine
d fro
m th
e de
aler
or c
an b
e do
wnl
oade
d fro
m th
e fo
llow
ing
web
site
s:ht
tp://
ww
w.p
hilip
s.co
m/s
uppo
rt
Prep
arin
g a
port
able
mem
ory
for s
oftw
are
upgr
ade
The
follo
win
g re
quire
men
ts h
ave
to b
e m
et:
1.A
per
sona
l com
pute
r con
nect
ed to
the
inte
rnet
.2.
An
arch
ive
utili
ty th
at s
uppo
rts th
e ZI
P-fo
rmat
(e.g
. Win
Zip
for W
indo
ws
or S
tuffl
t for
Mac
OS
).3.
A F
AT
form
atte
d U
SB
mem
ory
stic
k (p
refe
rabl
y em
pty)
.
Not
e:1.
Onl
y FA
T/D
OS-
form
atte
d m
emor
y st
icks
are
sup
porte
d.2.
Onl
y us
e so
ftwar
e up
date
file
s th
at c
an b
e fo
und
on th
e ht
tp://
ww
w.p
hilip
s.co
m/s
uppo
rt w
eb s
ite.
5.5.
3C
heck
the
curr
ent T
V so
ftwar
e ve
rsio
n
Bef
ore
star
ting
the
softw
are
upgr
ade
proc
edur
e, it
is a
dvis
ed to
ch
eck
that
wha
t the
cur
rent
TV
sof
twar
e:1.
Pre
ss th
e “4
5698
7” b
utto
n on
the
rem
ote
cont
rol t
o en
ter
the
CS
M m
ode.
2.U
se th
e up
/dow
n cu
rsor
key
s to
sel
ect “
Cur
rent
Mai
n S
oftw
are”
.If
the
curr
ent s
oftw
are
vers
ion
of th
e TV
is th
e sa
me
as th
e la
test
upd
ate
file
foun
d on
http
://w
ww
.phi
lips.
com
/sup
port,
it is
no
t nec
essa
ry to
upd
ate
the
TV s
oftw
are.
5.5.
4D
ownl
oad
the
late
st s
oftw
are
1.O
pen
the
inte
rnet
pag
e ht
tp://
ww
w.p
hilip
s.co
m/s
uppo
rt .2.
Find
info
rmat
ion
and
softw
are
rela
ted
to th
e TV
.3.
Sel
ect t
he la
test
sof
twar
e up
date
file
and
dow
nloa
d it
to th
e P
C.
4.In
sert
the
US
B m
emor
y st
ick
into
one
of t
he U
SB
por
ts o
f th
e P
C.
5.D
ecom
pres
s th
e do
wnl
oade
d ZI
P fi
le a
nd c
opy
it to
the
root
di
rect
ory
of th
e U
SB fl
ash
driv
e.
5.5.
5U
pdat
e th
e TV
sof
twar
e
1.Tu
rn th
e TV
on
and
wai
t for
it to
boo
t com
plet
ely.
2.In
sert
the
US
B m
emor
y st
ick
that
con
tain
s th
e so
ftwar
e up
date
file
s in
one
of t
he T
V’s
US
B p
orts
.3.
The
TV w
ill d
etec
t the
US
B m
emor
y st
ick
auto
mat
ical
ly.
Then
a w
indo
w ju
mps
out
as
Figu
re5-
3.N
ote:
If th
e U
SB
flas
h dr
ive
is n
ot d
etec
ted
afte
r pow
er u
p,
disc
onne
ct it
and
re-in
sert
it.4.
Sel
ect [
Upd
ate]
and
pre
ss O
K. S
ee F
igur
e5-
3.5.
To p
roce
ed, I
n ne
xt m
enu
sele
ct [S
tart]
and
pre
ss O
K to
st
art s
oftw
are
upda
tes.
See
Fig
ure
5-4.
6.U
pgra
ding
will
now
beg
ins
and
the
stat
us o
f the
upd
atin
g pr
ogre
ss w
ill be
dis
play
ed.
7.W
hen
the
TV s
oftw
are
is u
pdat
ed. R
emov
e yo
ur U
SB
flas
h dr
ive,
then
sel
ect [
Res
tart]
and
pre
ss O
K to
rest
art t
he
TV.S
eeFi
gure
5-5.
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 2
0TP
S10.
1A L
A5.
2013
-Jul
-05
back
to
div.
tabl
e
Figu
re 5
-3 U
pdat
e th
e TV
sof
twar
e [1
/3]
Figu
re 5
-4 U
pdat
e th
e TV
sof
twar
e [2
/3]
Figu
re 5
-5 U
pdat
e th
e TV
sof
twar
e [3
/3]
Not
e:•
Do
not r
emov
e th
e U
SB
flas
h dr
ive
durin
g th
e so
ftwar
e up
date
.•
If a
pow
er fa
ilure
occ
urs
durin
g th
e up
date
, do
not r
emov
e th
e U
SB
flas
h dr
ive
from
the
TV. T
he T
V w
ill c
ontin
ue th
e so
ftwar
e up
date
as
soon
as
the
pow
er c
omes
up
agai
n.•
If an
err
or o
ccur
s du
ring
the
upda
te re
try th
e pr
oced
ure
or
cont
act t
he d
eale
r.•
We
do n
ot re
com
men
d do
wng
radi
ng to
an
olde
r ver
sion
.•
Onc
e th
e up
grad
e is
fini
shed
, use
the
PC to
rem
ove
the
TV
softw
are
from
the
US
B p
orta
ble
mem
ory.
5.5.
6C
onte
nt a
nd U
sage
of t
he O
ne-Z
ip S
oftw
are
File
Bel
ow y
ou fi
nd a
con
tent
exp
lana
tion
of th
e O
ne-Z
ip fi
le, a
nd
inst
ruct
ions
on
how
and
whe
n to
use
it. O
nly
files
that
are
re
leva
nt fo
r Ser
vice
are
men
tione
d he
re.
•ED
ID_c
lust
erna
me.
zip:
Con
tain
s th
e E
DID
con
tent
of t
he
diffe
rent
ED
ID N
VM
s. S
ee C
omP
air f
or fu
rther
inst
ruct
ions
.
•FU
S_cl
uste
rnam
e_ve
rsio
n.zi
p: C
onta
ins
the
“aut
orun
.bin
” whi
ch is
nee
ded
to u
pgra
de th
e TV
mai
n so
ftwar
e an
d th
e so
ftwar
e do
wnl
oad
appl
icat
ion.
•N
VM_c
lust
erna
me_
vers
ion.
zip:
Def
ault
NVM
con
tent
. M
ust b
e pr
ogra
mm
ed v
ia C
omP
air.
5.5.
7H
ow to
Cop
y N
VM D
ata
to/fr
om U
SB
Whe
n co
pyin
g da
ta to
and
from
a U
SB
mem
ory
stic
k, th
e fo
lder
“r
epai
r” is
use
d. W
hen
inse
rting
an
empt
y U
SB
mem
ory
stic
k,
and
dow
nloa
ding
dat
a to
the
stic
k, th
e TV
will
cre
ate
this
fold
er.
Whe
n se
ndin
g da
ta fr
om a
US
B m
emor
y st
ick
to a
TV,
the
inte
nded
dat
a m
ust b
e av
aila
ble
in th
e “r
epai
r” fo
lder
.N
ote
that
whe
n co
pyin
g ED
ID d
ata
to th
e TV
, all
nece
ssar
y E
DID
file
s m
ust b
e in
this
fold
er.
Ser
vice
mod
e ov
ervi
ew fo
r you
r ref
eren
ce.
Tabl
e 5-
3 Se
rvic
e m
ode
over
view
5.6
Erro
r Cod
es(o
ptio
n)
5.6.
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.•
Failin
g 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 be
add
ed to
the
buffe
r if t
his
erro
r diff
ers
from
any
er
ror i
n th
e bu
ffer.
The
last
foun
d er
ror i
s di
spla
yed
on th
e le
ft.A
n er
ror w
ith a
des
igna
ted
erro
r cod
e ne
ver l
eads
to a
de
adlo
ck s
ituat
ion.
It m
ust a
lway
s be
dia
gnos
able
(e.g
. err
or
buffe
r via
OS
D o
r blin
king
LE
D o
r via
Com
Pai
r).
In c
ase
a fa
ilure
iden
tifie
d by
an
erro
r cod
e au
tom
atic
ally
re
sults
in o
ther
err
or c
odes
(cau
se a
nd e
ffect
), on
ly th
e er
ror
code
of t
he M
AIN
failu
re is
dis
play
ed.
5.6.
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
/SD
M/C
SM
(if y
ou h
ave
a pi
ctur
e).
Exa
mpl
e:–
ERR
OR
: 000
000
000
000
000
: No
erro
rs d
etec
ted
–ER
RO
R: 0
13 0
00 0
00 0
00 0
00: E
rror
cod
e 13
is th
e la
st a
nd o
nly
dete
cted
err
or
1908
0_20
7_11
0324
.eps
1103
24
1908
0_20
8_11
0324
.eps
1103
24
1908
0_20
9_11
0324
.eps
1103
24
Serv
ice
Mod
esD
escr
iptio
nS
AM
(opt
ion)
Ser
vice
alig
nmen
t mod
eFa
ctor
y M
ode
Use
d fo
r ext
ende
d al
ignm
ents
SD
M(o
ptio
n)S
ervi
ce d
efau
lt M
ode
CSM
3-pa
ge c
ompa
ct C
SM p
ages
. The
re w
ill be
CSM
dum
p to
U
SB
-stic
k up
on e
nter
ing
CS
M-m
ode
US
B S
W u
pgra
deab
leS
W-u
pgra
ding
of f
lash
mem
orie
sM
ST69
31XP
can
be
done
via
US
B. T
he m
ain
SW
can
be
upgr
aded
via
the
ZIP
fil
e do
wnl
oade
d.
NVM
-Edi
tor i
n S
AM
(opt
ion)
NV
M-e
dito
r will
func
tion
as in
the
past
: Add
ress
and
Val
ue
field
is a
dec
imal
val
ue v
ia d
igit
entry
Serv
ice
Dat
aN
ew S
ervi
ce d
ata
in S
AM fo
r CTN
, Pro
d. n
o., 1
2NC
pr
ogra
mm
ing
with
virt
ual k
ey b
oard
US
B c
opy/
past
e in
S
AM
(opt
ion)
Cha
nnel
list
, NV
M d
ata,
Rea
dabl
e in
fo, E
DID
UAR
T lo
ggin
gTh
ere
will
be p
rinto
ut a
vaila
ble
in U
ART.
No
spec
ifica
tions
of
the
prin
tout
, per
MTK
pro
visi
on/d
efin
ition
.
Blin
d S
AM
(opt
ion)
RC
seq
uenc
e “0
6259
8” +
“Men
u” +
“P
anel
cod
e”
Cle
ar B
uffe
rR
C s
eque
nce
“062
599”
+ “O
K” o
r via
SA
M
Ser
vice
Mod
es, E
rror
Cod
es, a
nd F
ault
Find
ing
EN 2
1TP
S10.
1A L
A5.
2013
-Jul
-05
back
to
div.
tabl
e
–ER
RO
R: 0
34 0
13 0
00 0
00 0
00: E
rror
cod
e 13
was
de
tect
ed fi
rst a
nd e
rror
cod
e 34
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
5.7
The
Blin
king
LE
D P
roce
dure
.•
Via
Com
Pai
r.
5.6.
3Er
ror c
odes
In th
is c
hass
is o
nly
“laye
r 2” e
rror
cod
es a
re a
vaila
ble
and
poin
t to
pro
blem
s on
the
SS
B. T
hey
are
trigg
ered
by
LED
blin
king
w
hen
CS
M is
act
ivat
ed. O
nly
the
follo
win
g la
yer 2
err
ors
are
defin
ed:
Tabl
e 5-
4 Er
ror c
ode
tabl
e
5.6.
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
SA
M m
enu(
optio
n)•
By
usin
g th
e C
LEA
R c
omm
and
in th
e Fa
ctor
y m
ode:
•B
y us
ing
the
follo
win
g ke
y se
quen
ce o
n th
e re
mot
e co
ntro
l tra
nsm
itter
: “06
2599
” dire
ctly
follo
wed
by
the
OK
butto
n.•
If th
e co
nten
ts o
f the
err
or b
uffe
r hav
e no
t cha
nged
for 5
0 ho
urs,
the
erro
r buf
fer r
eset
s au
tom
atic
ally
.
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
.(opt
ion)
5.7
The
Blin
king
LED
Pro
cedu
re
5.7.
1In
trod
uctio
n
The
softw
are
is c
apab
le o
f ide
ntify
ing
diffe
rent
kin
ds o
f err
ors.
B
ecau
se it
is p
ossi
ble
that
mor
e th
an o
ne e
rror
can
occ
ur o
ver
time,
an
erro
r buf
fer i
s av
aila
ble,
whi
ch is
cap
able
of s
torin
g th
e la
st fi
ve e
rror
s th
at o
ccur
red.
Thi
s is
use
ful i
f the
OS
D is
not
w
orki
ng p
rope
rly.
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 b
e “o
ff” fo
r 1.5
sec
onds
. Any
RC
co
mm
and
term
inat
es th
e se
quen
ce. E
rror
cod
e LE
D b
linki
ng is
in
red
colo
r.Ex
ampl
e (2
): th
e co
nten
t of t
he e
rror
buf
fer i
s “1
2 9
6 0
0” A
fter
ente
ring
SD
M, t
he fo
llow
ing
occu
rs.(o
ptio
n)•
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
.
5.7.
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.
(opt
ion)
5.8
Faul
t Fin
ding
and
Rep
air T
ips
Not
e:•
It is
ass
umed
that
the
com
pone
nts
are
mou
nted
cor
rect
ly
with
cor
rect
val
ues
and
no b
ad s
olde
r joi
nts.
•B
efor
e an
y fa
ult f
indi
ng a
ctio
ns, c
heck
if th
e co
rrec
t opt
ions
ar
e se
t.
5.8.
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
SAM
mod
e. W
ith th
is o
ptio
n, s
ingl
e by
tes
can
be
chan
ged.
(opt
ion)
Cau
tion:
•D
o no
t cha
nge
thes
e, w
ithou
t und
erst
andi
ng th
e fu
nctio
n of
ea
ch s
ettin
g, b
ecau
se in
corr
ect N
VM s
ettin
gs m
ay
serio
usly
ham
per t
he c
orre
ct fu
nctio
ning
of t
he T
V s
et!
•A
lway
s w
rite
dow
n th
e ex
istin
g N
VM
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.
5.8.
2Lo
ad D
efau
lt N
VM V
alue
s
It is
pos
sibl
e 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
EE
PR
OM
(or w
ith a
def
ectiv
e/no
EE
PR
OM
), de
faul
t set
tings
sho
uld
be u
sed
to e
nabl
e th
e se
t to
star
t-up
and
allo
w th
e S
ervi
ce D
efau
lt M
ode
and
Ser
vice
Alig
nmen
t Mod
e to
be
acc
esse
d.
5.8.
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. S
ee p
arag
raph
6.4
Opt
ion
Set
tings
for
the
inst
ruct
ions
. See
als
o Ta
ble
6-3.
5.8.
4U
nsta
ble
Pict
ure
via
HD
MI i
nput
Che
ck (v
ia C
omP
air o
r fac
tory
mod
e) if
HD
MI E
DID
dat
a is
pr
oper
ly p
rogr
amm
ed.
5.8.
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.
5.8.
6TV
Will
Not
Sta
rt-u
p fr
om S
tand
-by
Pos
sibl
e S
tand
-by
Con
trolle
r fai
lure
. Re-
flash
the
softw
are.
5.8.
7A
udio
Am
plifi
er
The
Cla
ss D
-IC U
6002
has
a p
ower
pad
for c
oolin
g. W
hen
the
IC is
repl
aced
it m
ust b
e en
sure
d th
at th
e po
wer
pad
is v
ery
wel
l pu
shed
to th
e P
WB
whi
le th
e so
lder
is s
till li
quid
. Thi
s is
nee
ded
to in
sure
that
the
cool
ing
is g
uara
ntee
d, o
ther
wis
e th
e C
lass
D
-IC c
ould
bre
ak d
own
in s
hort
time.
5.8.
8C
SM
Whe
n C
SM
is a
ctiv
ated
and
ther
e is
a U
SB
mem
ory
stic
k co
nnec
ted
to th
e TV
, the
sof
twar
e w
ill d
ump
the
com
plet
e C
SM
co
nten
t to
the
US
B m
emor
y st
ick.
The
file
(Csm
.txt)
will
be
save
d in
the
root
of t
he U
SB m
emor
y st
ick.
5.8.
9Lo
udsp
eake
rs
Mak
e su
re th
at th
e vo
lum
e is
set
to m
inim
um d
urin
g di
scon
nect
ing
the
spea
kers
in th
e O
N-s
tate
of t
he T
V. T
he
Laye
r-2
erro
r cod
e D
efec
tive
devi
ce
13G
ener
al I2 C
bus
erro
r on
the
SSB
16+1
2V
mis
sing
or l
ow, P
SU
def
ectiv
e
27C
hann
el d
ecod
er e
rror
on
the
SS
B
34Tu
ner I
2 C b
us e
rror
on
the
SS
B35
EEP
RO
M I2 C
erro
r on
SSB
, M24
C64
Ser
vice
Mod
es, E
rror
Cod
es, a
nd F
ault
Find
ing
EN 2
2TP
S10.
1A L
A5.
2013
-Jul
-05
back
to
div.
tabl
e
audi
o am
plifi
er c
an b
e da
mag
ed b
y di
scon
nect
ing
the
spea
kers
du
ring
ON
-sta
te o
f the
set
!
5.8.
10D
ispl
ay o
ptio
n co
de
Atte
ntio
n: In
cas
e th
e S
SB is
repl
aced
, alw
ays
chec
k th
e P
anel
C
ode
in C
SM
, eve
n w
hen
pict
ure
is a
vaila
ble.
Per
form
ance
w
ith th
e in
corr
ect d
ispl
ay o
ptio
n co
de c
an le
ad to
unw
ante
d si
de-e
ffect
s fo
r cer
tain
con
ditio
ns.
Alig
nmen
ts(O
ptio
n)EN
23
TPS1
0.1A
LA
6.
2013
-Jul
-05
back
to
div.
tabl
e
6.A
lignm
ents
(Opt
ion)
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
Opt
ion
Set
tings
6.5
Res
et o
f Rep
aire
d S
SB
6.6
Cab
le p
ositi
on n
umbe
rs
6.1
Gen
eral
Alig
nmen
t Con
ditio
nsP
erfo
rm a
ll el
ectri
cal a
djus
tmen
ts u
nder
the
follo
win
g co
nditi
ons:
•P
ower
sup
ply
volta
ge: 9
0 - 2
64 V
AC, 5
0/ 6
0 3
Hz.
•C
onne
ct th
e se
t to
the
mai
ns v
ia a
n is
olat
ion
trans
form
er
with
low
inte
rnal
resi
stan
ce.
•A
llow
the
set t
o w
arm
up
for a
ppro
xim
atel
y 15
min
utes
.•
Mea
sure
vol
tage
s an
d w
avef
orm
s in
rela
tion
to c
orre
ct
grou
nd (e
.g. m
easu
re a
udio
sig
nals
in re
latio
n to
A
UD
IO_G
ND
). C
autio
n: It
is n
ot a
llow
ed to
use
hea
t sin
ks a
s gr
ound
.•
Test
pro
be: R
i > 1
0 M
, Ci <
20
pF.
•U
se a
n is
olat
ed tr
imm
er/s
crew
driv
er to
per
form
al
ignm
ents
.
6.2
Har
dwar
e A
lignm
ents
Not
app
licab
le.
6.3
Softw
are
Alig
nmen
tsP
ut th
e se
t in
SA
M m
ode
(see
Cha
pter
5. S
ervi
ce M
odes
, Err
or
Cod
es, a
nd F
ault
Find
ing)
. The
SA
M m
enu
will
now
app
ear o
n th
e sc
reen
. Sel
ect R
GB
Alig
n an
d go
to o
ne o
f the
sub
men
us.
The
alig
nmen
ts a
re e
xpla
ined
bel
ow.
The
follo
win
g ite
ms
can
be a
ligne
d:•
Whi
te p
oint
To s
tore
the
data
:•
Pre
ss O
K o
n th
e R
C b
efor
e th
e cu
rsor
is m
oved
to th
e le
ft.•
Sel
ect “
Sto
re” a
nd p
ress
OK
on
the
RC
.•
Sw
itch
the
set t
o st
and-
by m
ode.
For t
he n
ext a
lignm
ents
, sup
ply
the
follo
win
g te
st s
igna
ls v
ia a
vi
deo
gene
rato
r to
the
RF
inpu
t:•
EU/A
P-PA
L m
odel
s: a
PAL
B/G
TV
-sig
nal w
ith a
sig
nal
stre
ngth
of a
t lea
st 1
mV
and
a fr
eque
ncy
of 4
75.2
5 M
Hz
•U
S/A
P-N
TSC
mod
els:
an
NTS
C M
/N T
V-si
gnal
with
a
sign
al s
treng
th o
f at l
east
1 m
V a
nd a
freq
uenc
y of
61
.25
MH
z (c
hann
el 3
).•
LATA
M m
odel
s: a
n N
TSC
M T
V-s
igna
l with
a s
igna
l st
reng
th o
f at l
east
1 m
V a
nd a
freq
uenc
y of
61
.25
MH
z (c
hann
el 3
).
6.3.
1R
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).
–Al
l “W
hite
poi
nt” v
alue
s in
itial
to “1
28”.
In c
ase
you
have
a c
olou
r ana
lyse
r:•
Mea
sure
with
a c
alib
rate
d (p
hosp
hor-
inde
pend
ent)
colo
r an
alys
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
.003
, dy:
0
.003
.•
Rep
eat t
his
step
for t
he o
ther
col
our T
empe
ratu
res
that
ne
ed 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
ur a
naly
ser,
you
can
use
the
defa
ult
valu
es. T
his
is th
e ne
xt b
est s
olut
ion.
The
def
ault
valu
es a
re
aver
age
valu
es c
omin
g fro
m p
rodu
ctio
n (s
tatis
tics)
.
6.3.
2D
ispl
ay A
djus
tmen
t
You
can
use
the
defa
ult v
alue
s. T
he d
efau
lt va
lues
are
ave
rage
va
lues
com
ing
from
pro
duct
ion.
•E
nter
SA
M m
ode.
•S
elec
t a c
olou
r tem
pera
ture
(e.g
. CO
OL,
NO
RM
AL,
or
WA
RM
).•
Set
the
RE
D, G
RE
EN
and
BLU
E de
faul
t val
ues
acco
rdin
g to
the
valu
es in
Tab
le 6
-2.
•W
hen
finis
hed
pres
s O
K o
n th
e R
C, t
hen
pres
s ST
OR
E to
st
ore
the
alig
ned
valu
es to
the
NV
M.
•R
esto
re th
e in
itial
pic
ture
set
tings
afte
r the
alig
nmen
ts.
Tabl
e 6-
2 W
hite
tone
def
ault
setti
ngs
This
gro
up s
ettin
g of
col
our t
empe
ratu
re w
ill be
app
lied
auto
mat
ical
ly to
the
TV /
VG
A /
HD
MI /
AV
sou
rces
.Pi
ctur
e Se
tting
Dyn
amic
bac
klig
ht
Off
Dyn
amic
Con
trast
Off
Col
or E
nhan
cem
ent
Off
Pic
ture
For
mat
U
nsca
led
Ligh
t Sen
sor
Off
Brig
htne
ss50
Col
or0
Con
trast
100
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
Pict
ure
mod
eSc
reen
siz
eC
olou
r tem
pera
ture
Red
Gre
enB
lue
Nor
mal
(900
0K)
32P
FL30
08/9
812
612
812
8
39P
FL30
08/9
812
897
110
42P
FL30
08/9
812
812
511
5
Coo
l (11
000K
)32
PFL
3008
/98
111
123
128
39P
FL30
08/9
811
298
128
42P
FL30
08/9
812
212
412
8
War
m (6
500K
)32
PFL
3008
/98
128
124
86
39P
FL30
08/9
812
884
6742
PFL
3008
/98
128
107
77
Alig
nmen
ts(O
ptio
n)EN
24
TPS1
0.1A
LA
6.
2013
-Jul
-05
back
to
div.
tabl
e
6.4
Opt
ion
Setti
ngs
6.4.
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
/ abs
ence
of t
hese
M
T536
6 IC
s 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 b
y pr
essi
ng th
e O
K
butto
n on
the
RC
bef
ore
the
curs
or is
mov
ed to
the
left,
se
lect
STO
RE
and
pre
ss O
K o
n th
e R
C.
•Th
e ne
w o
ptio
n se
tting
is o
nly
activ
e af
ter t
he T
V is
sw
itche
d “o
ff” /
“sta
nd-b
y” a
nd “o
n” a
gain
with
the
mai
ns
switc
h (th
e N
VM
is th
en re
ad a
gain
).
6.4.
2O
ptio
n C
ode
Ove
rvie
w
Ent
er S
AM
mod
e to
che
ck th
e op
tion
code
s. th
ey c
ould
not
be
edite
d in
the
NV
M.
6.4.
3D
ispl
ay C
ode
Ove
rvie
w
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
EN
U a
nd “x
xx”,
whe
re “x
xx” i
s a
3 di
git d
ecim
al v
alue
of t
he p
anel
type
: see
co
lum
n “D
ispl
ay C
ode”
in T
able
6-3
. Afte
r res
ettin
g th
e D
ispl
ay
Cod
e, re
star
t the
set
imm
edia
tely
.
Tabl
e 6-
3 D
ispl
ay c
ode
over
view
6.5
Res
et o
f Rep
aire
d SS
BA
ver
y im
porta
nt is
sue
tow
ards
a re
paire
d S
SB fr
om a
Ser
vice
re
pair
shop
(SS
B re
pair
on c
ompo
nent
leve
l) im
plie
s th
e re
set
of th
e N
VM
on
the
SSB
.A
repa
ired
SS
B in
Ser
vice
sho
uld
get t
he s
ervi
ce S
et ty
pe
“00P
F000
0000
000”
and
Pro
duct
ion
code
“000
0000
0000
000”
.A
lso
the
virg
in b
it is
to b
e se
t. To
set
all
this
, you
can
use
the
Com
Pai
r too
l or u
se th
e “N
VM
edi
tor”
and
“Dea
ler o
ptio
ns”
item
s in
SA
M (d
o no
t for
get t
o “s
tore
”).
Afte
r a re
paire
d S
SB
has
bee
n m
ount
ed in
the
set (
set r
epai
r on
boa
rd le
vel),
the
type
num
ber (
CTN
) and
pro
duct
ion
code
of
the
TV h
as to
be
set a
ccor
ding
to th
e ty
pe p
late
of t
he s
et. F
or
this
, you
can
use
the
NV
M e
dito
r in
SA
M. T
he lo
adin
g of
the
CTN
and
pro
duct
ion
code
can
als
o be
don
e vi
a C
omPa
ir (M
odel
num
ber p
rogr
amm
ing)
.
In c
ase
of a
dis
play
repl
acem
ent,
rese
t the
“Ope
ratio
n ho
urs
disp
lay”
to “0
”, or
to th
e op
erat
ion
hour
s of
the
repl
acem
ent
disp
lay.
6.5.
1R
eset
of R
epai
red
SSB
Inst
ruct
ion:
Afte
r NV
M re
plac
emen
t, re
load
MA
C a
ddre
ss v
ia S
AM
m
enu.
This
ens
ures
the
corr
ect M
AC
add
ress
to b
e av
aila
ble
in
CS
M fo
r fut
ure
repa
ir ac
tions
.
Way
of w
orki
ng:
•A
fter t
he N
VM h
as b
een
repl
aced
, go
to S
AM
and
scr
oll t
o th
e <R
eloa
d M
AC a
ddre
ss>
.•
Sel
ect t
he it
em a
nd p
ress
<O
K>
on th
e R
C.
Not
es:
•O
nly
appl
icab
le to
all
rela
ted
mod
els
that
are
“Sm
art T
V le
vel 0
”ena
bled
(onl
y Y
ouTu
be a
cces
s). F
or m
odel
s w
ithou
t int
erne
t con
nect
ion
feat
ure,
no
actio
n is
nee
ded.
•H
DC
P k
eys
are
loca
ted
in th
e N
VM
. If y
ou a
re lo
adin
g N
VM
w
ith th
e C
omP
air t
ool,
ther
e is
war
ning
mes
sage
dis
play
ed.
New
NV
M E
EP
RO
Ms
are
ship
ped
with
pre
-load
ed H
DC
P k
eys.
6.5.
2SS
B Id
entif
icat
ion
SS
B’s
of t
his
chas
sis
are
iden
tifie
d by
a “7
15” c
ode
on th
e S
SB.
715A
xxxx
-Nnn
-MM
M-O
OO
O•
715
mai
n ca
tego
ry, P
rinte
d W
iring
Boa
rd•
Axx
xx s
ub c
ateg
ory,
seq
uent
ial c
odin
g nu
mbe
r•
Nnn
Ver
sion
cod
e•
N D
evel
opm
ent n
umbe
r•
nn P
rodu
ctio
n nu
mbe
r•
MM
M M
ount
ing
varia
tion
code
•O
OO
O O
ptio
nal v
aria
tion
code
Mak
e su
re w
hen
repl
acin
g an
SS
B th
e S
SB
iden
tific
atio
n co
des
mat
ch th
e re
plac
emen
t boa
rd.
6.6
Cab
le p
ositi
on n
umbe
rsIn
this
cha
ssis
, the
cab
le p
ositi
on n
umbe
rs c
an b
e de
fined
via
th
e ru
le th
at th
e nu
mbe
r is
alw
ays
star
ting
with
an
“E” f
ollo
wed
by
the
conn
ecto
r num
ber o
f the
cur
rent
sou
rcin
g bo
ard.
The
or
der i
s al
way
s se
en fr
om w
here
the
pow
er in
itiat
es fr
om. S
o fro
m P
SU
to S
SB,
from
SS
B to
IR/L
ED
pan
el, f
rom
IR/L
ED
pane
l to
keyb
oard
con
trol p
anel
. For
exa
mpl
e, a
cab
le fr
om th
e P
SU
con
nect
or C
N90
2 to
the
SS
B c
onne
ctor
CN
701,
will
have
th
e po
sitio
n nu
mbe
r EC
N90
2.
CTN
_ALT
BO
M#
Pane
l Typ
eD
ispl
ay C
ode
32P
FL30
08/9
8TP
T315
B5_
A04
217
5
39P
FL30
08/9
8TP
T390
JI_H
J1L0
215
5
42P
FL30
08/9
8TP
T420
H2_
HV
N01
156
Circ
uit D
escr
iptio
nsEN
25
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-Jul
-05
back
to
div.
tabl
e
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
DC
/DC
Con
verte
rs7.
4 Fr
ont-E
nd A
nalo
gue
ATV
rece
ptio
n7.
5 H
DM
I7.
6 V
ideo
and
Aud
io P
roce
ssin
g - M
ST6
931X
P
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
the
wiri
ng, b
lock
(see
cha
pter
9.
Blo
ckD
iagr
ams)
and
circ
uit d
iagr
ams
(see
cha
pter
10
. Circ
uit D
iagr
ams
and
PW
B L
ayou
ts).W
here
nec
essa
ry,
you
will
find
a s
epar
ate
draw
ing
for c
larif
icat
ion.
7.1
Intr
oduc
tion
The
TPS
10.1
A L
A is
a n
ew c
hass
is la
unch
ed in
Asi
a-P
acifi
c in
20
13. T
he w
hole
rang
e is
cov
ered
by
MS
T693
1. T
he m
ajor
de
ltas
vers
us it
s pr
edec
esso
r sup
port
ATV
, with
als
o m
ulti-
med
ia, S
ubtit
le fu
nctio
nalit
y.Th
e TP
S10.
1A L
A c
hass
is c
omes
with
the
follo
win
g st
ylin
gs:
•se
ries
xxPF
L300
8
7.1.
1Im
plem
enta
tion
Key
com
pone
nts
of th
is c
hass
is a
re:
•S
CA
LER
MS
T693
1XP
-Z1-
VB
EPL
QFP
-128
•TU
NE
R C
hina
DT2
1WN
-2-E
•A
UD
IO A
PA
2176
AQ
BITR
G 0
.27W
TQ
FN3X
3-16
AU
DIO
A
mpl
ifier
7.1.
2PH
ILIP
S 30
00 s
erie
s A
rchi
tect
ure
Ove
rvie
w
For d
etai
ls a
bout
the
chas
sis
bloc
k di
agra
ms
refe
r to
chap
ter 9
.B
lock
Dia
gram
s. A
n ov
ervi
ew o
f the
PH
ILIP
S A
P 30
00
arch
itect
ure
can
be fo
und
in F
igur
e9.
4 .
Circ
uit D
escr
iptio
nsEN
26
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-05
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to
div.
tabl
e
7.1.
3SS
B C
ell L
ayou
t xxP
FL30
08
Figu
re 7
-1 x
xPFL
3008
SSB
layo
ut c
ells
(top
vie
w)
1945
0_20
0_13
0112
.eps
1301
12
DDR
MS
T693
1
US
B
TUNER
AN
ALO
G I/
O
SPD
IF
HD
MI
DC
/DC
Audio amplifier
DD
R
Headphone HDMISERVICECONNECTOR
VID
EO
INVE
DIO
OU
T
AUDIO PC IN
Circ
uit D
escr
iptio
nsEN
27
TPS1
0.1A
LA
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-Jul
-05
back
to
div.
tabl
e
7.1.
4SS
B C
ell L
ayou
t 42P
FL30
08
Figu
re 7
-2 4
2PFL
3008
SSB
layo
ut c
ells
(top
vie
w)
1945
0_20
1_13
0116
.eps
1301
16
DDR
MST
6931
USB
Headphone
TUNER
ANAL
OG
I/O
AUDIO PC IN
VED
IO O
UT
VID
EO IN
HD
MI
HDMI
DC/D
C
Audio amplifier
DD
R
SERVICECONNECTOR
Circ
uit D
escr
iptio
nsEN
28
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-Jul
-05
back
to
div.
tabl
e
7.2
Pow
er S
uppl
y R
efer
to fi
gure
Fig
ure
7-3
for t
he p
ower
arc
hite
ctur
e of
this
pl
atfo
rm.
Figu
re 7
-3 P
ower
Arc
hite
ctur
e
7.2.
1Po
wer
Sup
ply
Uni
t
All p
ower
sup
plie
s ar
e a
bloc
k bo
x fo
r Ser
vice
. Whe
n de
fect
ive,
a
new
boa
rd m
ust b
e or
dere
d an
d de
fect
ive
one
mus
t be
retu
rned
,unl
ess
the
mai
n fu
se o
f the
boa
rd is
bro
ken.
Alw
ays
repl
ace
a de
fect
ive
fuse
with
one
with
the
corr
ect
spec
ifica
tions
! Thi
s pa
rt is
ava
ilabl
e in
the
regu
lar m
arke
t.C
onsu
lt th
e Ph
ilips
Ser
vice
web
por
tal f
or th
e or
der c
odes
of t
he
boar
ds.
Impo
rtant
del
ta’s
with
the
AP
300
0 se
ries
plat
form
are
:•
New
pow
er a
rchi
tect
ure
for L
ED
bac
klig
ht
•“B
oost
” sig
nal i
s no
w a
PW
M-s
igna
l + c
ontin
uous
var
iabl
e.
The
cont
rol s
igna
ls a
re:
•S
tand
-by
•La
mp
“on/
off”
•D
IM (P
WM
) (no
t for
PS
DL)
In th
is m
anua
l, no
det
aile
d in
form
atio
n is
ava
ilabl
e be
caus
e of
de
sign
pro
tect
ion
issu
es.
The
outp
ut v
olta
ges
to th
e ch
assi
s ar
e:•
+3V3
-STA
ND
BY (S
tand
-by
mod
e on
ly)
•+1
2V (o
n-m
ode)
•+V
snd
(+24
V) (
audi
o po
wer
) (on
-mod
e)•
+24V
(bol
t-on
pow
er) (
on-m
ode)
•O
utpu
t to
the
disp
lay;
in c
ase
of
- IP
B: H
igh
volta
ge to
the
LCD
pan
el- P
SL
and
PS
LS (L
ED
-driv
er o
utpu
ts)
- PS
DL
(hig
h fre
quen
t) A
C-c
urre
nt.
7.2.
2D
iver
sity
The
dive
rsity
in p
ower
sup
ply
units
is m
ainl
y de
term
ined
by
the
dive
rsity
in d
ispl
ays.
The
follo
win
g di
spla
ys c
an b
e di
stin
guis
hed:
•C
CFL
/EE
FL b
ackl
ight
: pow
er b
oard
is c
onve
ntio
nal I
PB
•LE
D b
ackl
ight
: - s
ide-
view
LE
D w
ithou
t sca
nnin
g: P
SL
pow
er b
oard
- sid
e-vi
ew L
ED
with
sca
nnin
g: P
SLS
pow
er b
oard
- dire
ct-v
iew
LE
D w
ithou
t 2D
-dim
min
g: P
SL
pow
er b
oard
- dire
ct-v
iew
LE
D w
ith 2
D-d
imm
ing:
PS
DL
pow
er b
oard
.
PSL
stan
ds fo
r Pow
er S
uppl
y w
ith in
tegr
ated
LE
D-d
river
s.PS
LS s
tand
s fo
r a P
ower
Sup
ply
with
inte
grat
ed L
ED
-driv
ers
with
add
ed S
cann
ing
func
tiona
lity
(add
ed m
icro
cont
rolle
r).
PSD
L st
ands
for a
Pow
er S
uppl
y fo
r Dire
ct-v
iew
LED
bac
klig
ht
with
2D
-dim
min
g.
7.2.
3C
onne
ctor
ove
rvie
w
Tabl
e 7-
1 C
onne
ctor
ove
rvie
w
Dis
play
pow
er
Pla
tform
MS
T693
1
PFC
Pla
tform
pow
er
1 po
wer
- PC
B
AM
PLV
DS
AM
P
Low
stb
ypo
wer
Ac-
inpu
t + M
ains
filte
r
BL-
ON
/OFF
AC INDIM
12V
12V
24V
24V 5V
Dis
play
Inte
rfaci
ng
CN
8901
for 7
15G
5654
CN
8101
for 7
15G
5670
CN
9901
CN
701
1945
0_20
2_13
0128
.eps
1301
28
Con
nect
or32
PFL3
008/
98/3
9PFL
3008
/98
42PF
L300
8/98
no.
CN
8901
CN
9902
CN
8101
CN
9102
Des
cr.
to p
anel
to S
SBto
pan
elto
SSB
Pin
CN
8901
CN
9902
CN
8101
CN
9102
1LE
D-s
ourc
en.
c.VL
ED
+n.
c.
2n.
c.+5
.2V
n.c.
+5V
3LE
D-1
+5.2
VLE
D1
+5V
4n.
c.P
S_O
NLE
D2
PS_
ON
5n.
c.+2
4Vn.
c.+2
4V6
n.c.
+24V
n.c.
+24V
7n.
c.G
ND
n.c.
GN
D
8n.
c.G
ND
n.c.
GN
D9
n.c.
GN
DLE
D4
GN
D
10LE
D-1
+12V
LED
3+1
2V
11n.
c.+1
2Vn.
c.+1
2V12
LED
-sou
rce
DIM
VLE
D+
PD
IM
13-
ON
/OFF
-O
N/O
FF
Circ
uit D
escr
iptio
nsEN
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tabl
e
7.3
DC
/DC
Con
vert
ers
The
on-b
oard
DC
/DC
con
verte
rs d
eliv
er th
e fo
llow
ing
volta
ges
(dep
endi
ng o
n se
t exe
cutio
n):
•+5
V-S
TAN
DB
Y, p
erm
anen
t vol
tage
for t
he S
tand
-by
cont
rolle
r, LE
D/IR
rece
iver
and
con
trols
•+3
V3-
STA
ND
BY
, pow
er s
uppl
y fo
r LE
D/IR
rece
iver
and
co
ntro
ls•
+12V
, inp
ut fr
om th
e po
wer
sup
ply
for t
he p
anel
com
mon
(a
ctiv
e m
ode)
; con
nect
or C
N40
3 pi
ns 2
8, 2
9, 3
0.•
+24V
, inp
ut fr
om th
e po
wer
sup
ply
for a
udio
am
plifi
er;
conn
ecto
r CN
9902
pin
s 5
and
6.•
+1V
2, fr
om th
e po
wer
sup
ply
for t
he s
cale
r IC
MS
T693
1.
•+1
V8,
sup
ply
volta
ge fo
r DD
R2
(dia
gram
B03
B)
•+3
V3,
gen
eral
sup
ply
volta
ge
•+3
.3V
-TU
N, s
uppl
y vo
ltage
for t
uner
•+5
V, s
uppl
y vo
ltage
for H
eadp
hone
AM
P•
+5V
-US
B, i
nput
inte
rmed
iate
sup
ply
volta
ge fo
r US
B
•+3
V3
from
the
pow
er s
uppl
y fo
r the
sca
ler I
C M
ST6
931
Figu
res
give
s a
grap
hica
l rep
rese
ntat
ion
of th
e D
C/D
C
conv
erte
rs w
ith it
s cu
rren
t con
sum
ptio
ns:
Figu
re 7
-4 D
C/D
C c
onve
rter
s
7.4
Fron
t-End
Ana
logu
e A
TV re
cept
ion
7.4.
1Fr
ont-E
nd A
nalo
gue
The
Fron
t-End
for t
he a
nalo
gue
tune
r con
sist
of t
he fo
llow
ing
key
com
pone
nts:
•TU
NE
R C
hina
DT2
1WN
-2-E
•S
CA
LER
MS
T693
1XP
-Z1-
VB
EP
LQFP
-128
Bel
ow fi
nd a
blo
ck d
iagr
am o
f the
fron
t-end
app
licat
ion
for
anal
ogue
.
Figu
re 7
-5 F
ront
-End
ana
logu
e bl
ock
diag
ram
7.5
HD
MI
Ref
er to
figu
re 7
-6 H
DM
I inp
ut c
onfig
urat
ion
for t
he a
pplic
atio
n.
1945
0_20
3_13
0128
.eps
1301
29
FB70
1+5
V_S
tand
by
+3.3
V_S
tand
by
+1.2
V_V
DD
C
+5V
_Sta
ndby
PAN
EL_
VC
C+5V
_Nor
mal
FB70
1P
VD
D
P12
V
P24
V
FB40
1V
DD
C
VD
D33
AVD
D A
DC
AU33
FOR
SP
I Fla
sh
AVD
D D
DR
US
B_5
V
+1.8
V_D
DR
AVD
D33
DE
MO
DV
DD
33 D
MP
LL
FB40
8
FB40
3FB
404
FB40
5FB
406
FB40
7
PV
D
VD
D
U70
2A
Z111
7D
U70
1A
P73
23
U70
310
84P
-AD
J
Ear
phon
eP
re-A
MP
AM
P T
PA31
10D
Q40
1A
0444
9
U70
4A
PL3
511
Q70
134
01
MS
T693
1
I2 CI2 C
IF_A
GC
IF
IF_A
GC
is n
o us
e
RF_
AGC
RF_
AGC
int.
Hi-Z
RF_
AGC
DT2
1WN
-2-E
SAW
less
with
ATV
mod
e
X
X
1945
0_20
4_13
0128
.eps
1301
29
Circ
uit D
escr
iptio
nsEN
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to
div.
tabl
e
Figu
re 7
-6 H
DM
I inp
ut c
onfig
urat
ion
The
HD
MI c
onne
ctor
has
the
follo
win
g sp
ecifi
catio
ns:
•+5
V de
tect
ion
mec
hani
sm•
Sta
ble
cloc
k de
tect
ion
mec
hani
sm•
Inte
grat
ed E
DID
•H
PD
con
trol
•S
ync
dete
ctio
n•
TMD
S o
utpu
t con
trol
•C
EC
con
trol
7.6
Vide
o an
d A
udio
Pro
cess
ing
- MST
6931
XPTh
e M
ST6
931X
P is
the
mai
n au
dio
and
vide
o pr
oces
sor (
or
Sys
tem
-on-
Chi
p) fo
r thi
s pl
atfo
rm. I
t has
the
follo
win
g fe
atur
es:
•M
ulti-
stan
dard
dig
ital v
ideo
dec
oder
(MPE
G-2
, H.2
64,
MP
EG-4
)•
Inte
grat
ed N
TSC
/PA
L/SE
CAM
Vid
eo d
ecod
er•
Inte
grat
ed m
otio
n ac
cura
te p
ictu
re p
roce
ssin
g•
Hig
h de
finiti
on M
E/M
C•
Ext
ende
d co
lour
gam
ut a
nd c
olou
r boo
ster
•In
tegr
ated
US
B2.
0 ho
st c
ontro
ller
•M
ulti-
stan
dard
TV
Sou
nd P
roce
ssor
•H
igh
Per
form
ance
Mic
ro-p
roce
ssor
•R
ealM
edia
Dec
oder
The
MS
T693
1XP
com
bine
s fro
nt-e
nd v
ideo
pro
cess
ing
func
tions
, suc
h as
NE
SC
/PA
L/S
EC
AM
Vid
eo D
ecod
er,
MP
EG
-2/H
.264
dec
odin
g, a
nalo
g vi
deo
deco
de a
nd H
DM
I re
cept
ion,
with
adv
ance
d ba
ck-e
nd v
ideo
pic
ture
im
prov
emen
ts. I
t als
o in
clud
es n
ext g
ener
atio
n M
otio
n A
ccur
ate
Pic
ture
Pro
cess
ong.
Hig
h fla
t pan
el s
cree
n re
solu
tions
and
refre
sh ra
tes
are
supp
orte
d w
ith fo
rmat
s in
clud
ing
1280
× 7
20 @
60H
z an
d 19
20 ×
108
0 @
60H
z. O
n to
p of
that
, opt
iona
l sup
port
is a
vaila
ble
for 2
D d
imm
ing
in
com
bina
tion
with
LE
D b
ackl
ight
s fo
r opt
imum
con
trast
and
po
wer
sav
ings
up
to 5
0%.
1945
0_20
5_13
0128
.eps
1301
28
MS
T693
1
AR
XB
RX CN
501
HD
MI 1
CN
502
HD
MI 2
IC D
ata
She
ets
EN 3
1TP
S10.
1A L
A8.
2013
-Jul
-05
back
to
div.
tabl
e
8.IC
Dat
a Sh
eets
This
cha
pter
sho
ws
the
inte
rnal
blo
ck d
iagr
ams
and
pin
conf
igur
atio
ns o
f IC
s th
at a
re d
raw
n as
“bla
ck b
oxes
” in
the
elec
trica
l dia
gram
s (w
ith th
e ex
cept
ion
of “m
emor
y” a
nd “l
ogic
” IC
s).
8.1
Dia
gram
10-
3-2
MST
6931
XP/S
P1 F
LASH
B02
, MST
6931
XP (I
C U
401)
Figu
re 8
-1 p
in c
onfig
urat
ion
1945
0_30
0_13
0116
.eps
1301
16
Pinn
ing
Info
rmat
ion
Pin
1
RXAC
KN1 353433323130292827262524232221201918171615141312111098765432 36 37 38
39
40
67 66 65
63
62
61
60
59
58
57
56
55
48
47
46
45
44
43
42
41
64
81 80 79 78 77 76 75 74 73 72 71 70 69 68102
101
100
99 98 97 95 94 93 92 91 90 89 88 87 86 85 84 83 82
104
103
126
125
124
120
119
118
122
121
110
109
108
107
106
105
112
111
123
117
116
115
114
113
128
127
96
AVDD
_12
ARC
DDC
DA_
CK
RXA
2P
DD
CD
A_D
ARX
A2N
HSY
NC
0
RXA
1P
RXA
0PRX
A0N
RXAC
KP
RXA
1NAV
DD_M
OD
BIN
0PSO
GIN
0
GIN
0MG
IN0P
RIN
0PVS
YN
C0
AVD
D_A
DC3
3BI
N1P
AURE
FMAV
DD_A
U33
CVB
SOU
T1
CVB
S1
HSY
NC
1
CVB
S0
RIN
1PVS
YN
C1
SOG
IN1
GIN
1MG
IN1P
LIN
EIN
_L1
VCO
M
AUVA
G
LIN
EIN
_R1
LIN
EIN
_L3
LINEIN_R3LINEIN_L4
LINEIN_R5
LINEIN_R4LINEIN_L5
LINEOUT_L3
GNDVDDIO_CMD
LINEOUT_R3LINEOUT_L0
TAGC
XIN
LINEOUT_R0XOUT
54
53
52
51
50
49
AVDD_DMPLLAVDD_REF
IPIM
VDDCLVA4P
GPIO[56]AVDD_PLL
GPIO[55]
LVA3PLVA4M
LVA3M
LVAC
KMLV
ACKP
LVB3
M
LVA1
PLV
A1M
LVA0
P
LVA2
PLV
A2M
LVA0
MLV
B4P
LVB4
M
AVD
D_M
OD
LVB3
P
AVD
D_M
OD
LVB
2M
AVD
D_M
OD
PWM
2
DP_P
0
SDO
SDI
TS1_
D[0
]
LVB
0MVD
DC
GP
IO[6
5]
LVB
1MLV
B0P
TS1_
VLD
TS1_
SYN
C
LVB
1P
DP_P
1DM
_P1
TS1_
CLK
DM_P
0CS
Z
SCK
LVBC
KP
LVB
2PLV
BCK
M
RXD0NRXD0P
SAR2IRIN
PWM1
PWM0
DDCA_CK
VDDIO_DATADDCA_DA
GND
SAR1
GNDRESETCEC
HOTPLUGDRXDCKNRXDCKP
GPIO11
SAR0
RXD2PHOTPLUGA
RXD1PDDCDD_CKRXD2N
RXD1NDDCDD_DA
MS
T693
1XP
XXX
XX
XX
XXX
XXX
IC D
ata
She
ets
EN 3
2TP
S10.
1A L
A8.
2013
-Jul
-05
back
to
div.
tabl
e
8.2
Dia
gram
10-
3-6
Earp
hone
pre
am
plifi
er B
06, A
PA21
76A
(IC
U60
2)
Figu
re 8
-2 In
tern
al b
lock
dia
gram
and
pin
con
figur
atio
n
1945
0_30
1_13
0116
.eps
1301
16
Blo
ck d
iagr
am
Pinn
ing
info
rmat
ion
PV
DD
2
NC
3
CP+
4P
GN
D5
CP-
6
CVS
S7
VS
S8
9LO
UT
10V
DD
11 R
OU
T
12 L
IN
13R
SD
14 R
IN
15 G
ND
16LS
DN
C1
APA
2176
Top
Vie
w
Shut
dow
nci
rcui
tPo
wer
and
Dep
op c
ircui
t
RO
UT
RIN
RS
DC
harg
eP
ump
circ
uit
LIN
LOU
T
GN
DV
DD
CP+
CP
-
CVS
SV
SS
PG
ND
PV
DD
LSD
GN
D
AP
A2
17
6A
IC D
ata
She
ets
EN 3
3TP
S10.
1A L
A8.
2013
-Jul
-05
back
to
div.
tabl
e
8.3
Dia
gram
10-
3-8
AU
DIO
Am
plifi
er B
08, A
PA26
14R
I-TR
G (I
C U
601)
Figu
re 8
-3 In
tern
al b
lock
dia
gram
and
pin
con
figur
atio
n
1945
0_30
2_13
0116
.eps
1301
16
Blo
ck d
iagr
am
Pinn
ing
info
rmat
ion
APA
2614
QFN
4x4-
28
LOU
TP1
LBSP
2LP
VDD
3SD
4FL
AG5
LIN
P6
LIN
N7
NC8GAIN09
GAIN110AVDD11AGND12
VCLAMP13PLIMIT14
15R
INN
16R
INP
17N
C18
MO
NO
19R
PVD
D20
RB
SP
21R
OU
TP
22PGND
28PGND
23ROUTN24RBSN25NC26LBSN27LOUTN
AP
A2
61
4
PLIM
ITR
efer
ence
Star
tup
Prot
ectio
n
AVD
D
RAM
PG
EN.
GAI
N1
GAI
N0
PGN
D
GAI
NC
ontro
l
PLIM
IT
VCLA
MP
LIN
P
LIN
N
PLI
MIT
PWM
Logi
c
MO
NO
Sele
ct
Gai
nC
ontro
l
LOU
TP
LBSP
LOU
TP F
B
LBSN
PGN
D
LOU
TN
LOU
TN F
B
PGN
DR
INN
RIN
P
PLI
MIT
PWM
Logi
c
MO
NO
Sele
ct
Gai
nC
ontro
l
RO
UTN
RBS
N
RO
UTN
FB
PGN
D
RO
UTP
RO
UTP
FB
LOU
TP F
B
LOU
TN F
B
RO
UTN
FB
RO
UTP
FB
LDO
Reg
ulat
or
TTL
Buffe
rD
C D
etec
t
UVL
O/O
CLO
Ther
mal
Det
ect
SD D
etec
t
Logi
c
Bias
esan
dR
efer
ence
s
VCLA
MP
TTL
Buf
fer
MO
NO
MO
NO
Sel
ect
AGN
D
Gat
eD
rive
Gat
eD
rive
Gat
eD
rive
Gat
eD
rive
VCLA
MP
VCLA
MP
VCLA
MP
VCLA
MP
LPVD
D
LPVD
D
RPV
DD
RPV
DD
LPVD
D
LPVD
D
RPV
DD
RPV
DD
LPVD
D
RPV
DD
FLAG SD
RBS
P
IC D
ata
She
ets
EN 3
4TP
S10.
1A L
A8.
2013
-Jul
-05
back
to
div.
tabl
e
Pers
onal
Not
es:
1000
0_01
2_09
0121
.eps
1108
04
BlockDiagramsEN 35 TPS10.1A LA9.
2013-Jul-05back to div.table
9.BlockDiagrams9.1Wiring diagram 32" 3008 series
19450_400_130114.eps130114
Board Level RepairSee note in Chapter 6 about cable position numbers
Component Level RepairOnly for authorized workshops
WIRING DIAGRAM 32" (3008series)
LOUDSPEAKER LOUDSPEAKER(1185) (1185)
LOUDSPEAKER(1185)LOUDSPEAKER LOUDSPEAKER
(1185) (1185)LOUDSPEAKER
(1185)
MAIN POWER SUPPLY(1054) A
CN901
L N
IR/LED BOARD(1056) J
KE
YB
OA
RD
CO
NTR
OL
(1057)
E
OPTION BOARD(1058)
O
to panel
12P
CN
8901
CN
9902
13P
CN001
CN
2016P
CN
0163P
AUDIO PC IN
HDMI1
VEDIO OUT
Y/VIEDOPbPrLR
COMPONENT/VEDIO IN VGA
SSB(1053) B
12P
CN701
10P
CN401
HD
MI 2
TV A
NTE
NN
AUSB
SE
RV.U
30P
CN
4034P
CN
601
to panel
CN00238P
30P
EN 36 TPS10.1A LA9. BlockDiagrams
2013-Jul-05back to div.table
9.2Wiring diagram 39" 3008 series
19450_401_130116.eps130116
Board Level RepairSee note in Chapter 6 about cable position numbers
Component Level RepairOnly for authorized workshops
WIRING DIAGRAM 39" (3008series)
LOUDSPEAKER LOUDSPEAKER(1185) (1185)
LOUDSPEAKER(1185)
LOUDSPEAKER LOUDSPEAKER(1185) (1185)
LOUDSPEAKER(1185)
MAIN POWER SUPPLY(1054) A
CN901
L N
IR/LED BOARD(1056) J
KE
YB
OA
RD
CO
NTR
OL
(1057)
E
HD
MI 2
4P
TV A
NTE
NN
AUSB
SE
RV.U
SSB(1053) B
HDMI1VGAAUDIO PC IN VEDIO OUT
Y/VIEDOPbPrLR
COMPONENT/VEDIO IN
12P
CN
8901
to panel
CN
9902
13P
12P
CN701
to panel
30P
CN
403C
N601
CN
0163P
CN
2016P
10P
CN401
BlockDiagramsEN 37 TPS10.1A LA9.
2013-Jul-05back to div.table
9.3Wiring diagram 42" 3008 series
19450_402_130116.eps130116
Board Level RepairSee note in Chapter 6 about cable position numbers
Component Level RepairOnly for authorized workshops
WIRING DIAGRAM 42" (3008series)
LOUDSPEAKER LOUDSPEAKER(1185) (1185)
LOUDSPEAKER(1185)
LOUDSPEAKER LOUDSPEAKER(1185) (1185)
LOUDSPEAKER(1185)
MAIN POWER SUPPLY(1054) A
CN9901
L N
IR/LED BOARD(1056) J
KE
YB
OA
RD
CO
NTR
OL
(1057)
E
HDMI1VGA
AUDIO PC IN VEDIO OUT
Y/VIEDOPbPrLR
COMPONENT/VEDIO IN
HD
MI 2
TV A
NTE
NN
AUSB
SE
RV.U
SSB(1053) B
to panel
12P
CN8101
CN
9102
13P
12P
CN701
to panel
30P
CN
403
CN
0163P
CN
2016P
4P
CN
601
10P
CN401
EN 38 TPS10.1A LA9. BlockDiagrams
2013-Jul-05back to div.table
9.4Block Diagram DVB T/C 3000 series
19450_403_130116.eps130116
HDMI1
HD
MI2
VGAYPbPr
Audio R
Audio L
Video-out
PC-Audio
AP2176Earphone
TPA3110D
ATVDT21WN-2-E
IF+/-
USB
Key&IR
LVD
S Panel
CV
BS
-OU
T
USB DM/DP
SPIFlash
MST6931
Circuit Diagrams and PWB LayoutsEN 39 TPS10.1A LA10.
2013-Jul-05back to div.table
10.Circuit Diagrams and PWB Layouts10.1A01 715G5654 PSU for 32”&39” 3008 series10-1-1Power
19450_500_130111.eps130111
Power A01A01
2012-10-27 C
715G5654 Power
+5.2V
CN9901SOCKET
12
R93196.2K OHM +-1% 1/8W
R9315470R 1%
R93185.6K OHM 1%
PS_ON
!
+
C9122
330UF
35V
RV9901Varistor
Q9401
2SD
1624T-TD-E
T9101POWER X'FMR
6
4
2
7
8
910
11
12
+24 LED
D9301PR1007
HS9102HEAT SINK
12
R91415.1K
t
NR
9901N
TCR
12
+
C9111
330UF
35V
!
C9904470NF305V
R93061M5 1/4W 1%
R93071M5 1/4W 1%
R93081M5 1/4W 1%
R9110470R 1%
IC9103AS431AZTR-E1
R9302100K 1%
R9304100K 1%
IC9102
PS
2561DL1-1
12
43
C9312220NF 50V
C9112
0.1uF 50V
C9123
0.1uF 50V
C9902470PF 250V
C9903470PF 250V
+C9309470UF 25V
R91030R05 1/4W
R9127
22K O
HM
1%
D9302PR1007
R9115
5.1K 1/4W
+12V
C9910680PF 250V
!
IC9401
PS
2561DL1-1
12
43
HS9101HEAT SINK
1234
!
ZD9603
GD
ZJ30B
12
-+
BD9901TS6B06G-01
2
1
3
4
ZD9602
GD
ZJ6.2B1
2
R9131100R 1/4W 5%
D9303PR1007
R912522K 1% 1/8W
R9113100 OHM 1/4W
R9116
5.1K 1/4W
C930310nF50V
+12V
!
R9118100 OHM 1/4W
+36V
+ C940210UF 50V
R9119100 OHM 1/4W
HS9103HEAT SINK
12
R96011K OHM 1%
J905BEAD
1 2
!
Q9601BCR1002N3
1
2
3
C9121470PF
R9117
5.1K 1/4W
R93114.7M 5% 1/8W
R9313100 OHM 1/4W
R9314100 OHM 1/4W
+
C9306
100uF/50V
+
C9115
1000UF 25V
+
C9107330UF 50V
FB9903
BEAD1 2
+12V
R910282KOHM +-5% 2WS
ZD9601
GD
ZJ20B1
2
R9132100R 1/4W 5%
+C9308330UF 16V
L93013.5uH
D93041N4148
L990213MH
1
2
4
3
+
C9119330UF 50V
!
HS9901HEAT SINK
12!
VCC
+5.2V
L91013.5uH
R9135100R 1/8W 5%_NC
+5.2V
D96011N4148
R9402330R 1%
L990113MH
1
2
4
3
T9301POWER X'FMR 1
2
3
4
5
7
9
IC9303AS431AZTR-E1
R9142
5.1K
D9106FMEN-220A 1
2
3
IC9302
PS
2561DL1-1
12
43
+
C9116
680UF 25V
+
C9120330UF 50V
!
R9121
1.5K O
HM
IC9301A6069H
S/OCP1
BR2
GND3
FB/OLP4
VCC5
D/ST7 D/ST8
!
R9122
1.5K O
HM
R9123
1.5K O
HM
Q9402PMBS3904
R913818K 1%
+C930510UF 50V
FB9911
BE
AD
12
SG
9901D
SP
L201M-A
21F_NC
C9113470PF
SG
9902D
SP
L201M-A
21F_NC
IC9901NC
NC1
D12
D13
NC4
NC5 D26 D27 NC8
PS_ON
+24VS
!
L91033.5uH
HV
!
R913918K 1%
R913010K 1% 1/8W
IC9101
LD7523GS
BNO1
COMP2
NC3
CS4
GND5 OUT6 VCC7 OVP8
FB9910
BE
AD
12
R910620K OHM
+5.2V
R91072K 1/8W 1%
C9906150PF 250V
D9105FMXA-2202S
1
2
3
R9143
5.1K
ZD9401
GD
ZJ16B1
2
+24 LED
VCC_ON
+
C9110
1000UF
35V
R940110K 1% 1/8W
+12V
R93010.1R
!
+24Vaduio
C9117
0.1uF 50V
!
R914018K 1%
add @P0F
SG
9903D
SP
L201M-A
21F_NC
SG
9904D
SP
L201M-A
21F_NC
R91120R33 5% 2W
R913430K 1%
R910933 OHM 1/8W
FB9909NC
12
C9912470PF 250V
FB9906BEAD
1 2
C9911NC
B+
C9909NC
R9144
5.1K
C9908NC
!
D9102SS0520
1 2
R910822R 1/8W 1%
+24Vaduio
Q9101STP10NK70ZFP
R9128
51K O
HM
1%
C9103
0.1UF 50V
R9303100K 1%
C9311
0.1UF 50V
+
C98
1015
0uF
450V
!
D9107SR506
!
R911110K 1% 1/8W
R9305100K 1%
VCC_ON
R91263K3 1/8W 1%
VCC
+5.2V
C9304
0.1UF 50V
C91012.2NF
R9901390K +-5% 1/4W
R93124R7 1/4W 5%
+
C98
1222
0uF
450V
_NC
+12V
+
C9102
10UF 50V
C9302
0.47UF 50V
!
D9602BAV70
3
12
C91051N
50V
FB9902BEAD
12
C91040.1UF 50V
R9902390K +-5% 1/4W
R9133
180KR91292K4 +/-1%
!C9901
220NF
R93101R2 5% 2W
R93173.3K 1% 1/8W
R9903390K +-5% 1/4W
R93163.3K 1% 1/8W
!
R913618K 1%
ZD9101
GD
ZJ16B
12
R9904390K +-5% 1/4W
D9101PR1007
ON/OFF
ZD9301
GD
ZJ30B
12
B+
DIM
!
FB9901BEAD
12
C91141NF
R9309
620K 1/8W
1%
R9905390K +-5% 1/4W
R91010R1 5% 2W
C9907NC
J925BEAD
1 2
R940310K 1% 1/8W
R940410K 1% 1/8W
HV
5.2V
C9905NC
5.2V
+36V
!
C9401
0.1UF 50V
C9307470PF
C9106
10nF 50V
R9906390K +-5% 1/4W
+24 LED
!C
98011U
F 450V_N
C
R981347K OHM_NC
L9801300UH_NC
1 2610
PFC_ZCD
PFC_ZCD
CN9904CONN_NC
L1N2
IC9801LD7591GS_NC
INV1
COMP2
RAMP3
CS4
ZCD5GND6OUT7VCC8
+
C9109
1000UF
35V
Q9801STP10NK60ZFP_NC
D9802FMNS-1106S_NC
D9803SS0520_NC
1 2
D98011N5408G-04_NC
R980310K 1% 1/8W_NC
R98040.15R_NC
R980233R 1/8W 5%_NC
R980110 OHM 1/8W_NC
C98022200PF_NC
R9806
4.7K O
HM
_NC
R9805470R 1%_NC
C9808
1NF_N
C
C9803
47PF 50V
_NC
CN9903CONN_NC
123456789
101112
R9807
33K O
HM
_NC
R9114100 OHM 1/4W
R980810K 1% 1/8W_NC
R9810
680K O
HM
1% 1/4W
_NC R
9809
680K O
HM
1% 1/4W
_NC
R9812
13K O
HM
1%_N
C
R9811
680K O
HM
1% 1/4W
_NC
C9809100PF 50V_NC
C98070.1uF 50V_NC
C98060.22uF 50V_NC
+
C9804
10UF 50V
_NC
C9805
100N 50V
_NC
VCC_ON
+24Vaduio
D9305FMEN-2308
1
2
3
!
CN9902CONN
123456789
10111213
+
C9310
270UF 25V
C93011NF
D9104FMX-23S
1
2
3
ON/OFFDIM
+12V
C9108470PF
R913718K 1%
C96011UF 50V
R96021K OHM 1%
!
L91023.5uH
F9901FUSE
12
34
R91241K 1/8W 1%
C91180.47UF 50V
EN 40 TPS10.1A LA10. Circuit Diagrams and PWB Layouts
2013-Jul-05back to div.table
10-1-2LED DRIVER
19450_501_130111.eps130111
LED DRIVERA02A02
2012-11-04 C
715G5654 LED DRIVER
LED-SOURCE
R83031K OHM 1%
R83020 OHM 1/8W
ZD8301GDZJ30B
12
C81020.1UF 50V
R82065.1K OHM
R8210100K 1% 1/8W
R810610K 1% 1/8W
C8105470PF 50V
R830410K 1% 1/8W
+C810947UF 100V
R820710K 1% 1/8W
R810310K 1% 1/4W
Q83022N7002
R810433 OHM 1/4W
Q8202
DTC
144WN
3/S
+
C810110UF 50V
R82
0222
R 1
%
R8305
300K O
HM
R8101
30K O
HM
R8102
300K O
HM
R8306300K 1/4W
Q8201DTA144WN3/S
+C810747UF 100V
+12V
R8107
0R1 5%
2W
R8209100K 1% 1/8W
C8301
1nF 50V
R82
0122
R 1
%
D8101SS0520
1 2
R8109470R 1%
+C810847UF 100V
C8103
NC
C8106
1nF 50V
IC8101LD7400GS
FB1
COMP2
RFW3
CS4
DIM5 GND6 DRV7 VCC8
Q8301
BC
R1002N
3
1
2
3
R810533 OHM
LED-SOURCE
DIM
+12V
LED-1
+12V
FB
DIM
R830182K OHM 1%
ON/OFF
+36V
R82124.7K +-1% 1/8W
C8110470PF_NC
L8101
33UH
1
2
R8211100K 1% 1/8W
Q8101AOTF454FL
L81025uH
C8104
0.1UF 50V
CN8901CONN
123456789
101112
LED-1
LED-1
LED-SOURCE
LED-SOURCE
FB
HS8101HEAT SINK
34
12
EN
EN
R821475K 1%
R820882K 1%
Q8203P0420ATF
D8103FME-220B
1
2
3
C83021uF
IC8201AS431AN-E1
R82
0322
R 1
%
R82
0422
R 1
%
R82
0522
R 1
%
R82
1322
R 1
%
Circuit Diagrams and PWB LayoutsEN 41 TPS10.1A LA10.
2013-Jul-05back to div.table
10-1-3Power layout top
19450_502_130111.eps130111
2012-10-27 C
715G5654 Power Layout Top
C8101
C9102
C9305
C9306
C9402
C9804
D9301
D9303
D9304
D9601
D9801
L9101
L9102
L9103
L9301
R8107
R9112
R9804
J928
R9301 R9101
D9302
J913
J929
J923
D9107
R9102
J927
J926
J921
J919
J917
J911
J918
J930
J909
J802
J805
J906
J801
J920
IC9302 IC9102IC9401
J803
J916
J915
J922
J925
J910
J904
J901
C9301
T9301J804
J807
R9310
T9101
J912
J907
J908
J905
J903
J924
C9907
C8110
C9811
C9802
IC9103
IC9303
J902
J914
J931
M7
M8
M9
M10
M11
M12
M13
M14
C1
C2
J1J2J3
M15
C8109
C9110
C9115
C9309
C9801
C9114
C9901
CN9902
D9105
D9106
D9305
D9802
F9901
L8102
L9801
L9902
Q9801
SG9901
SG9902
SG9903
SG9904
L9901 C9904FB9901
FB9902
C9906
D9104
C8107
C8108
CN9904
ZD9301
C9308
C9310
C9111
C9109
C9122
Q8203
ZD8301
Q8101
ZD9603 ZD9602 ZD9601
C9810
C9902 C9903
C9911
C9108
C9113
C9121
C9307
Q9101
D8103
NR9901
IC9301
CN8901
CN9903
L8101
HS8101
HS9801
M1M2
M3M4
M5M6
CN9901
HS9101
FB9903
FB9906
FB9907
FB9908
FB9909
FB9910
FB9911
C9116
ZD9401
C9912
C9905
C9908
D9101
ZD9101
RV9901 BD9901 HS9901
HS9102HS9103
C9101
C9107
C9119C9120
C9812
C9909 C9910
EN 42 TPS10.1A LA10. Circuit Diagrams and PWB Layouts
2013-Jul-05back to div.table
10-1-4Power layout bottom
19450_503_130111.eps130111
2012-10-27 C
715G5654 Power Layout Bottom
C8102
C8301
C8103
C8104
C8106
C9103
C9104
C9105
C9106
C9112
C9117
C9118
C9302
C9303 C9304
C9311
C9312
C9401
C9601
C9803
C9805
C9806
C9807
C9808
C9809
D9602
IC9801
IC9901
Q8302
Q9402
R8304
R8101
R8102
R9107
R9108
R9109
R9113
R9114
R9115
R9116
R9117
R9118
R9119
R9121
R9122
R9123
R9129
R9130
R9302
R9303
R9304 R9305
R9306 R9307
R9308
R9309
R9311
R9312
R9313
R9314
R9318
R9319
R9401
R9404
R9602
R9803
R9806
R9807
R9808
R9809
R9810
R9811
R9812
R9901
R9902
R9903
R9317
R9403
R9601
R8106
R8105
C8105
NR10
NR11
NR12
R8204
R8203
IC9101
R9111
R9106
C9123
R9316
R9402
R9813
R9805
R9110
R8303
IC8201
Q8201
R8109
R8103
R8104
R9124
IC8101
R8302
R8212
R8306
R8209
R8206
R9126
R9125
R9127
R9128
R9133
JR903
JR902
JR901
JR802
JR803
R8301
R8305
R8207
R8208
R8211
R8210
C8302
R8205
R8213
R8202
R8201
R9134
JR904
JR905
R9103
R9315
JR906
R9904
R9905
R9906
R8214
R9801
R9802
R9131
R9132
R9135
R8216
R9136
R9137
R9138
R9139
R9140
R9141
R9142
R9143
R9144
D8101
D9102
D9803
Q9401
Q9601
Q8301
Q8202
Circuit Diagrams and PWB LayoutsEN 43 TPS10.1A LA10.
2013-Jul-05back to div.table
10.2A 715G5670 PSU series 42"10-2-1 Power
19450_504_130114.eps130114
PowerA01A01
2012-08-27 3
715G5670 Power
CN9901SOCKET
1 2
IC9351EL817M(X)
1
2 3
4
C9909220PF 250V
R9903390K +-5% 1/4W
C9903330PF 250V
IC9350EL817M(X)
1
2 3
4
D93031N4148H
T5.0AH / 250V
D93051N4148H
!
R98
010.
2OH
M 2
W
R9904390K +-5% 1/4W
CN9102
CONN
123456789
10111213
+5V
+12V
ON/OFF
+24V_audio
DIM
PS_ON
C9904330PF 250V
+C982482UF 450V
FB9913127R
12
+ C93531000UF 16V
BD9901
D9802
R9905390K +-5% 1/4W
Q9801
HOTCOLD
HOT Q9101,Q9102COLD
+C982582UF 450V
FB9914127R
12
+C93351000UF 16V
D9153
HS11HEAT SINK
1
T9301POWER X'FMR 1
2
3
4
5
7
9
R9906390K +-5% 1/4W
D9350
D9151,D9152
C990647PF 250V
!
C9905NC
!
!C9815220PF
R983210R 1/8W 5%
C9159100N 50V
R9306
R911210R 1/8W 5%
Q9352DTA144WKA
+C91551000UF35V
!
D9105UF4007
C9356100N 50V
!
R9123560OHM +-5% 1/8W
R9381100R 1/8W 5%
R9309
IC9103AS431AZTR-E1
R93551K 1/8W
Q93502N7002K
D9335FR107
Q9101AOTF8N60
R9304
RV9901TVR14561KSY
!
ZD9101GDZJ16B
12
C9819220P 50V
R93611K 1/8W
C9109100N 50V
R981347R 1%
R9158
1K OHM +-5% 1/8W
HS22HEAT SINK
1
!
R981810K 1/8W
!
R9819NC
+C9153
470UF35V
D93041N4148H
+C9354
470uF 16V
+
C910810uF/50V
FB9902127R
12
C9308100N 50V
C9818470NF 50V
!
C981110NF 1KV
FB9908127R
12
R98
020.
2OH
M 2
W
IC9352AS431AZTR-E1
C93291NF
R93010.82R
!
R98221MOHM +-1% 1/4W
C9823NC/220PF
t
NR9901
12
F9901FUSE
C9127100N 50V
C9827
100PF
!
FB9901
127R12
!
R911910R 1/8W 5%
R9302100K 1/6W 5%
HS20HEAT SINK
12
C990747pF_NC
Q9304PMBS3906
+
C91511000UF35V
D9156SR506
C91161N 50V
IC9301A6069H
S/OCP1BR2GND3FB/OLP4
VCC5
D/ST7
D/ST8
R9109 13KOHM +-1% 1/8W
C912033P 50V
R91061MOHM +-1% 1/4W
R9152
!
R91051MOHM +-1% 1/4W
RV9906DSPL-501N-A21F
Q9102AOTF8N60
R9815470OHM +-5% 1/8W
L91043.0uH+-10%
Q9321BTC4672M3
C9114470NF 50V
!
ZD9301GDZJ18B
12
R9307
HS12HEAT SINK
12
!
C9816NC
C9124100PF
R93625.1K 1/4W
C9813100N 50V
R9122120OHM +-5% 1/8W
R9154
T9101POWER X'FMR
67
8
910
11
12
13
14
15 23
R981733K 1/8W 5%
C98101UF 450V
R982319K1 +-1% 1/8W
R9160 2KOHM +-1% 1/8W
R915956K 1/8W +/-1%
R9351
R93480.1R
D9804IN5408G-04
R9941NC
R981147K 1/8W 1%
D9151STPS30SM80CFP
1
2
3
RV9905DSPL-501N-A21F
C91181U 25V
L93503.5uH
FB9907BEAD
12
D9330FR107
!
FB9911BEAD
12
+
C91521000UF35V
L91053.5uH
R93821K OHM +-5% 1/8W
R911710K 1/8W
!
D9102SS0520
1 2!
R9305
R911510R 1/8W 5%
!
R9354220R
C9126220PF
C9912470PF 250V
ZD9352GDZJ16B
12
FB9912
127R
12
!
R9359NC
!
R9350
FB9903127R
12
R9153
R93374.7M OHM +-5% 1/4W
C9154100N 50V
FB9905
NC
12
FB9909BEAD
12
D9350FMEN-2308
1
2
3
+
C933710uF/50V
!
R93561K 1/8W
C9355220N 50V
!
C9157100N 50V
R9311560K +-5% 1/8W
R93601K 1/4W
R9810NC
C9908470PF 250V
IC9101SSC9512S-TL
Vsen1
Vcc2
FB3
GND4
Css5
OC6
RC7
Reg8
RV9
COM10 VGL11 NC12 NC13 VB14 VS15 VGH16 NC17 NC18
!
R916120K5 1/8W 1%
L990213mH
1
2
4
3
D9355BAV70
3
1 2
C9910470PF 250V_NC
CN9101
CONN
123456789
101112
IC9901CAP004DG_NC
NC1
D12
D13
NC4
NC5 D26 D27 NC8
+C9156470UF 25V
FB9906NC
12
D9152STPS30SM80CFP
1
2
3
R98201MOHM +-1% 1/4W
R98244K7 1/8W 1%
HS13HEAT SINK
12
R91071MOHM +-1% 1/4W
R9151
R9339 2KOHM +-1% 1/8W
Q9370PMBS3904
C911518NF
C9351
!
R91040.1R
D9153MBRF2060CT
1
2
3
ZD9351GDZJ6.2B_NC
12
+ C9160470UF35V R9155
36K 1/8W +/-5%
C9901470NF 275V
R9363330K OHM
C9911NC
R93582K2 1/8W 1%
C93780.1uF 50V
ZD9151GDZJ30B
12
Q9801STF24NM60N
L9801170uH
12456 7
10
C930910nF 50V
+C9128
4.7uF 50V
C9107100N 50V
C91171U 25V
R91625.1K 1/4W
IC9102EL817M(X)
1
2 3
4
R9901390K +-5% 1/4W
D9805SS0520
1 2
R93312.4 OHM 1/4W
C981747N 50V
C982610NF 1KV
R9308
ZD9353GDZJ30B
12
C911910PF3KV
+
C981422uF/50V
CN9902CONN
L1
N2
R981410K 1/8W
R912524K 1/8W
!
-+
BD9901TS10P06G
2
1
3
4
R91564K7 +-5% 1/8W
R93831K 1/8W
R9121470OHM +-5% 1/8W
D9802FMNS-1106S
R911110K 1/8W
C9158470NF 50V
R9940NC
D9103SS0520
1 2
C981256PF 50V
R93851K 1/8W
R911647OHM +-5% 1/8W
C9379100N 50V
FB9910BEAD
12
R911047OHM +-5% 1/8W
IC9801LD7591GS
INV
1
CO
MP
2
RA
MP
3
CS
4ZC
D5
GN
D6
OU
T7
VC
C8
HS10HEAT SINK
1234
D9301
FR107
C980910NF 1KV
+C9331100UF 50V
!
R9310
C9321470NF 50V
R91573K 1/8W
+C933322uF/50V
L990113mH
1
2
4
3
HS21HEAT SINK
1234
!
C9350
R93841K 1/8W
R93572.4K 1% 1/8W
R98211MOHM +-1% 1/4W
Q9107PMBS3906
C9374100N 50V
tNR9902
12
C9902470NF 275V
B+_390V
+5V
Vcc
+24V
B+
+24V
+24V+12V SW_2
VccSW_2
Vcc_1
PS_ON
FB_1
Vcc_1
+5V
FB_1
+12V
+24V
FB
B+
+5VS
+5V
Vcc_1
+5V
FB
+24V_audio
DIMON/OFF
+24V
+12V
D91541N4148H
R9902390K +-5% 1/4W
C931047PF
EN 44 TPS10.1A LA10. Circuit Diagrams and PWB Layouts
2013-Jul-05back to div.table
10-2-2LED DRIVER
19450_505_130114.eps130114
LED DRIVERA02A02
2012-06-31 C
715G5670 LED DRIVER
R812015R 1%
R812215R 1%
C8116220pF 50V
Q8101
Q8103BTN8050BA3
R812415R 1%
C8121220pF 50V
R812615R 1%
C9915220pF 50V
R812815R 1%
C9916220pF 50V
GND_LED
R813015R 1%
GND_LED
R813215R 1%
R813310R 1%
R813510R 1%
R813415R 1%
Q8111BTD1805AD3
Q8112BTD1805AD3
Q8105BTD1805AD3
Q8108BTD1805AD3
Q8110BTD1805AD3
Q8106BTD1805AD3
R813615R 1%
+C8103470UF 25V
R813710R 1%
Q8107BTD1805AD3
Q8109BTD1805AD3
Q8104BTD1805AD3
+5V
VBJT
VADJ R8138NC
R812910R 1%
R813110R 1% R8121
10R 1%
R81140R051/8W
R812310R 1%
R812510R 1%
R812710R 1%
D8101
C8105100N 50V
C8114100PF 50V
LED1LED3 LED2LED4
C8122470PF 250V
FB8101BEAD
12
R8106
10K OHM +-5% 1/8W
+C8107330UF35V
R8141100 OHM 1/4W
R8142100 OHM 1/4W
+12V
GND_LED
R814051K 1/4W
R811651K 1/8W 1%
+12V
R8143
100 OHM 1/4W x 2
R8144
R813939R 1/4W
R8103
0R05OHM1/8W
FB9904127R
12
R811539R 1/4W
R811210K OHM +-5% 1/8W
R811339R 1/4W
C8120220pF 50V
R81175.1K OHM 1%
GND_LED
Q8101AOTF454FL
HS23
HEAT SINK
1
HS24
HEAT SINK
1
D8103
BAV99
3
1
2
C8115220pF 50V
CN8101
CONN
123456789
101112
D8107
1N4148
R81052R2 +-5% 1/8W
R81070.05R
R8108
330 OHM
+C8102
100UF 63V
C810810N 50V
R8119150K 1/8W 5%
L810125UH
1 2
C8112NC
R8110100K 1% 1/4W
C81171NF 50V
D8105
BAV99
3
1
2
R81181M 1/6W 5%
IC8501
PF7001S
EN1
DIM2
GM3
VFB4
VSET5
OVP6
RT7
CS8 GND9 VMOS10 VCC11 VBJT12 VADJ13 SLP14
R810410 OHM 1/8W
C8110
1NF 50V
C81191000pF 630V
+C8101330UF35V
+24VD8101MBRF20100CT
1
2
3
C8106
1NF
R811118K 1/8W 5%C8104
100N 50V
D8104
BAV99
3
1
2
C8118
1NF 50V
C8111NC
D8102
RB160M
1 2
C8109100N 50V
GND_LED
R8102220K +-5% 1/8W
D8106
BAV99
3
1
2
R810151K 1% 1/8W
+C8113
100UF 63V
LED2LED1
LED3LED4
VLED+
VLED+
VLED+
VFB
SLP
ON/OFF
DIM
VSET
VBJTVADJ
SLP
VFBVSET
LED4
LED2
LED3
LED1
R810910K 1/4W
Circuit Diagrams and PWB LayoutsEN 45 TPS10.1A LA10.
2013-Jul-05back to div.table
10-2-3Power layout top
19450_506_130116.eps130116
2012-07-27 C
715G5670 Power Layout Top
T9301
C9124C9119
D9330
D9335
D9105
D9301
D9156
D9804
IC9102
IC9350IC9351
C9331
J925
J932
J813
J901
J912
J916
J917
J918
J929
J930
J802
J904
J905
J907
J908
J919
J922
J923
J924
J801
J805
J807
J810
J812
J920
J926
J927
J931
J933
J935
J936
J937
J939
J928
J938
J940
J941
J806
J809
J811
J814
J902
J913
J914
J915
J921
J934
L9105L9350
IC9103
IC9352
H5
H6
H7
H8
H9
H10
H11
J804
J906
J903
R9802
R9801
R9301
J909
J910
J815
J911
J808
PIN5
PIN6
PIN7
PIN
24
PIN23
RV9905
RV9906
T9101
C9310
Q8104
Q8105
Q8106
Q8107
Q8108
Q8109
Q8110
Q8111
Q8112
L9901
L9902
L8101
CN9901
HS12
HS10
HS21
HS13
HS20
CN9902
BD9901
C9907
C8106
C9329
C9809
C9811
C9826
C9905C9906
C9911
C9903
C9904
C9908C9909 C9910
C9912
C9115
C9901
C9902
CN8101CN9101
RV9901
NR9901
NR9902
IC9301
D9802
C9108
C9128
C9333
C9337
C9814
C8101
C8102
C8107
C8113
C9153
C9156
C9160
C9335 C9353
C9354
C9151C9152
C9155
FB9901
FB9903
FB9908
FB9912
FB9905
FB9906
FB9909
FB9907
F9901
FB9910
FB9911
L9104
R9302
R8118
R9104R9348
R8107
GND1
MH1
MH3
GND2
GND4
D8101
D9151
D9152
D9153D9350
Q8101
Q9101 Q9102
Q9801
ZD9101
ZD9352
ZD9353
ZD9151
C9823
FB9902
C8122
FB9904
ZD9351
C9824 C9825
C9827
FB9913
FB9914
L9801
C8103
Q8103
FB8101
D8107
CN9102
ZD9301
FB9915HS11
HS22HS23HS24
C9810
EN 46 TPS10.1A LA10. Circuit Diagrams and PWB Layouts
2013-Jul-05back to div.table
10-2-4Power layout bottom
19450_507_130116.eps130116
2012-07-27 C
715G5670 Power Layout Bottom
IC9901
IC9801
C8104
C8105
C8108
C8109
C8110
C8111
C8112
C8114
C8115
C8116
C8117
C8118
C8120
C8121
C9107
C9109
C9114
C9116
C9117
C9118
C9120
C9126
C9127
C9154
C9157
C9158
C9159
C9308
C9309
C9321
C9350
C9351
C9355
C9356
C9374
C9378
C9379
C9812
C9813
C9815
C9816
C9817
C9818
C9819
C8119
R8101
R8102
R8104
R8105
R8111
R8114
R8117
R8119
R8138
R9109
R9110
R9111
R9112
R9115
R9116
R9117
R9119
R9121
R9122
R9123
R9125
R9155
R9156R9157
R9158
R9159
R9160
R9161
R9311
R9339
R9355
R9356
R9357
R9358
R9359
R9361
R9363
R9381
R9382
R9383
R9384
R9385
R9810
R9811
R9813
R9814
R9815
R9817
R9818
R9819
R9823
R9824
R9832
R9940
R9941
R8108
R8110
R8113
R8115
R8120
R8121
R8122
R8123
R8124
R8125
R8126
R8127
R8128
R8129
R8130
R8131
R8132
R8133
R8134
R8135
R8136
R8137
R8139
R9105
R9106R9107
R9151
R9152
R9153
R9154
R9162
R9304
R9305
R9306
R9307
R9308
R9309
R9310
R9331
R9337
R9350
R9351
R9354
R9360
R9362
R9820
R9821
R9822
R9903
JR804
JR901
JR902
JR903
JR904
D9355
Q9107
Q9304 Q9370
Q9350
R8116
R9901
R9902
R8112
R8106
R8109
R8140
C9352
C9357
R9352
R9353
R9904
R9905
R9906
R8103
R8141
R8142
R8143
R8144
C1
C5
C6
S16
S17
IC9101
IC8501
S1
Q9352
D8102
D9102
D9103
D9154
D9303
D9304
D9305
D9805
D8103 D8104 D8105D8106
Q9321
Circuit Diagrams and PWB LayoutsEN 47 TPS10.1A LA10.
2013-Jul-05back to div.table
10.3B 715G5740 DVB-T/C SSB (xxPFL3008)10-3-1 Power
19450_508_130110.eps130110
PowerB01B01
2012-09-24 A
715G5740 Power
R715
7.5K 1%
R71712.4K 1%
P24V
R730NC
PW_CTL
U701
APW7323AKAI-TRG
VCC1
POK2
GND3
FB4
EN5 PGND6 LX7 VIN8 E-Pad9
R72947K
BL_EN
PW_CTL
R72610K+-5%1/16W
C710
10UF 10V
R706NC/10K
R7211K 1%
+C713
100UF 16V
ZD701
NC/BZT52-C5V6 12
NC/4.7UF 10VC706
R702
1K
R71410K
R7104.7K
R724NC/100K
R72515KOHM 1/16W
R720
100K
R7182.2R
C7251UF 16V
C709
4.7uF 10V
R708
NC/10K
+C722
100UF 16V
C719
22UF 10V
U703
G1084PT43U
VIN3
VOUT2
GN
D/A
DJ
1
Q704
MMBT3904
C714
100NF 16V
CN701
CONN
12345678910111213
C720
NC.10N 50V
R719
2.4K 1%
R7111K
U704
APL3511CBI-TRG
VOUT1
GND2
OCB3
EN4
VIN5
R701
0.05R
Q701
LP3401LT1G
C712
1UF16V
C701
100NF 16V
R704
1K
R712
1K
Q702
MMBT3904
R7091K
Q705
MMBT3904
+C704
10UF 25V
U702AZ1117D
VI3
VO2
GN
D1
C715
100N 16V
+C708
100UF 16V
Q703MMBT3904
C71722UF 10V
R7071K
R713
10K
C702
NC/10N 50V
C716
100N 16V
R7164.7K
L701
2.2uH
Q706
MMBT3904
FB701
300R12
+C711
100UF 16V
R703
NC/10K
R72210K
R7234.7K
C723
NC/10uF
+C721
100UF 16V
C703
100NF 16V
R705100R
C724
100NF 16V
C707
100NF 16V
C7050.1uF 50V
C718
1UF16V
P24V
+5V_Standby
P12V
+5V_Standby
+5V_Standby
+5V_Normal
+5V_Normal
+5V_Normal+1.8V_DDR
+5V_Standby
+1.2V_VDDC
+5V_Normal
USB_5V
+5V_Normal
+3.3V_Standby
+3.3V_Standby +5V_Normal
+5V_Normal
BRI_ADJ-PWM02,3
VBL_CTRL2
PW_CTL 2
PW_CTL 2
P12V
12V
SMT
FromPowerBoard
R1
R2
SMT
SMT
C
R1
B
SMT
R2
073G253S 68 H
DDR Power
E
24V
0402
04020402SMT
SMT
5V
Standby Power
USB Power
+1.2V Core Power
Backlight Control
BL_EN
Q707
MMBT3904
VBL_CTRL
P24V
PS_ON
R7274.7K
BL_PWM
+5V_Normal
R72810K
P12V
BL_PWM
PS_ON
6-12
EN 48 TPS10.1A LA10. Circuit Diagrams and PWB Layouts
2013-Jul-05back to div.table
10-3-2MST6931XP/SP1 FLASH
19450_509_130110.eps130110
MST6931XP/SPI FLASHB02B02
2012-09-24 A
715G5740 MST6931XP/SPI FLASH
AUDIO-EN
LEDG
HDMI-ARC
HDMI_HP0HDMI0-SCL
HDMI0-RX1NHDMI0-RX1P
HDMI0-RX2NHDMI0-RX2P
HDMI0-RX0NHDMI0-RX0PHDMI0-CLKNHDMI0-CLKPHDMI0-SDA
AV_AUOUTL3
AV_AUOUTR3
XTALO
KEY0-SAR0KEY1-SAR1
VGA_BIN
PW_CTL
LEDR
LEDRLEDG
System-RST
HP_DET
HP_DET
FLASH_WP0N
3D_enable
3D_enable
AV2-CVBS0P
AUVAGAUVRM
CVBS_OUT0
AV1-CVBS0PAV2-CVBS0P
VGA-AUL1
VGA
-AUR
1
AV-AUO
UTL3
CO
MP
_AUL4
CO
MP
_AUR
4
AV-AUO
UTR
3
VIFP
VIFM
AM
P-AU
OU
TR0
AM
P-AU
OU
TL0
TAGC
XTA
LIX
TALO
X401
24MHz
12
R431
4.7K
R41568OHM 1/16W
R422
4.7K
FB40760 OHM12
R41068OHM 1/16W
R424
4.7K
R0402
C412
100N 16V
C410
47nF 16V
C418
100N 16V
C417
100N 16V
C43110UF
C416
100N 16V
C422
100N 16V
C42610UF
C406180PF 50V
R413
100K 1/16W
R421
4.7K
R4031M 1/16W
FB404
60 OHM12
R41268OHM 1/16W
R418
100K 1/16W
R4194.7KR0402
C414180PF 50V
C432
NC/100N 16V
HDMI1-SCL
HDMI1-SDA
D401BAV99
3
1 2
R436
10K
C404
1NF 50V
R409
100K 1/16W
FB403
60 OHM12
CN402
NC/CONN
1234
HDMI_ARC
C420
100N 16V
R4270R05 OHM
C43622PF 50V
R423
4.7K
R0402
R428
1M 1/16W
C411180PF 50V
HDMI1-RX1N
HDMI1-CLKNHDMI1-CLKP
C421
100N 16V
C423
100N 16V
C413
10UF
R4341K
HDMI1-RX0N
HDMI1-RX2NHDMI1-RX2P
HDMI1-RX1P
HDMI1-RX0P
C409180PF 50V
R401100OHM1/16W
C424
100N 16V
VGA_HS
VGA_VS
C419
100N 16V
FB402
60 OHM
12
FB405
60 OHM12
R43551R
FB406
60 OHM12
C40747nF 16V
C43027PF 50V
C40847nF 16V
C4051uF 10V
Pr+
SOY
C42527PF 50V
R4204.7KR0402
R406
22K 1/16W
R404
4.7K 1/16W
FB401120R/3000mA12
C433
4.7UF 6.3V
R416
100K 1/16W
C402
2.2UF 16V
C435100N 16V
C427
100N 16V
HS401
HeatSink
11
22
R40751R 1/16W 5%
R4051K 1/16W
MST6931XP MST6931XP
U401
MST6931XP
LVA2M69
SOGIN123BIN1P22
GIN1M25GIN1P24
GN
D55
HSYNC128
AUL136
GIN0P17
RFAG
C54
LVA3P
63
VIFM
53V
IFP52
AVDD_335
RIN1P26LVB2P
80
LVACKM66
LVA1P70
SA
R2/G
PIO
73112
SA
R1/G
PIO
74111
GIN0M18
PWM2/GPIO2493
GPIO092
GPIO191
GPIO290
GPIO389
LVA4P
61
LVA4M
62
LVA3M
64
LVACKP65
SCZ97
LVA0M73 LVB4P74 LVB4M75 LVB3P76 LVB3M77
LVB1P83
LVA0P72
SDO96
IRIN
113C
EC
114H
WR
ES
ET
115
HO
TPLU
GA
128
SOGIN016
AUO
UTL1
46
AUO
UTR
147
AUO
UTL0
44
AUO
UTR
045
XIN
49X
OU
T48
AVD
D_D
MP
LL50
RXCKN_A1
RXCKP_A2
RX0N_A3
RX0P_A4
RX1N_A6
RX1P_A7
DDCDA_DA8
RX2N_A9
RX2P_A10
DDCDA_CK11
ARC12
AVDD1P2_DVI_A13
HSYNC014
BIN0P15
RIN0P19
VSYNC020
AVDD3P3_ADC21
CVBS129
CVBS030
VCOM31
CVBSOUT32
AUR137
AUREF34
AUVAG35
AUL4
40
AUR
441
AVD
D3P
3_DA
DC
51
GP
IO56
58
VD
DP
59
VD
DC
60
GP
IO55
57
LVA2P68
LVA1M71
AVDD_MOD67
LVBCKP78 LVBCKM79
LVB2M81
LVB1M84 LVB0P85 LVB0M86
AVDD_MOD82
INT/GPIO6588
PW
M0/G
PIO
26105
PW
M1/G
PIO
25106
USB0_DM98
TES
TPIN
104
USB0_DP99 AVDD_MOD100
AVD
D_D
DR
109
SCK94
GN
D_E
FUS
E116
SDI95
SA
R0/G
PIO
75110
DD
CA
_CK
107D
DC
A_D
A108
E-Pad
129
VSYNC127
AU3333
AUR
543
AUL5
42
AVD
D_D
DR
56
VDDC87
HO
TPLU
GD
117R
XC
KN
_D118
RX
CK
P_D
119R
X0N
_D120
RX
0P_D
121R
X1N
_D123
RX
1P_D
124
DD
CD
D_D
A122
RX
2N_D
126R
X2P
_D127
DD
CD
D_C
K125
AUL338
AUR
339
USB1_DP102
USB1_DM101
GP
IO64
103
FB4080R05 1/10W
U402
W25Q64FVSSIG
CS#1
SO/SIO12
WP#3
GND4
SI/SIO05 SCLK6 HOLD#7 VCC8
C434100N 16V
C428
100N 16V
C403
2.2UF 16V
C429
100N 16V
Q402MMBT3906
VDDC
VDD33
C41510UF
VDD33
VDD33
VDDC
AVDD_ADC
VDD33
AVD
D_D
DR
AU33 AVDD33_DEMOD
+3.3V_StandbyVDD33
+3.3V_Standby
VDDC +1.2V_VDDC
+3.3V_Standby
AVDD_DDR
VD
D33
AVD
D_D
DR
VD
DC
+3.3V_Standby
DGND
+3.3V_Standby
DGND
+3.3V_Standby
+1.8V_DDR
+5V_Standby
+5V_Standby
DGND
DGND
DGNDAGND
VDD33_DMPLL +3.3V_Standby
AVDD_ADC +3.3V_Standby
AU33
VD
D33_D
MP
LLAV
DD
33_DE
MO
D
HDMI_CEC 5HDMI-ARC 5
CVBS_OUT0 4
USB0_DP 4USB0_DM 4
VIFM 7
HDMI_ARC
VIFP 7
TAGC 7
ON_PANEL3VBL_CTRL1
AUDIO_EN8PW_CTL1
BRI_ADJ-PWM01,3
TUNER_SCL7
AMP_AUOUTR08
AMP_AUOUTL08
AV_AUOUTR36
AV_AUOUTL36
HDMI1_D0- 5HDMI1_D0+ 5
HDMI1_D1- 5HDMI1_D1+ 5
XTALI
HDMI1_D2- 5HDMI1_D2+ 5
HDMI1_CLK+ 5HDMI1_CLK- 5
HDMI1_DDC_SDA 5HDMI1_DDC_SCL 5HOTPLUG1 5
HDMI0_D0- 5HDMI0_D0+ 5
HDMI0_D1- 5HDMI0_D1+ 5
HDMI0_D2- 5HDMI0_D2+ 5
HDMI0_CLK+ 5HDMI0_CLK- 5
HDMI0_DDC_SDA 5HDMI0_DDC_SCL 5HOTPLUG0 5
RXO3+3RXO3-3RXOC+3RXOC-3
RXO2-3RXO2+3
RXO1-3RXO0+3
RXO1+3
RXO0-3
RXEC-3RXEC+3RXE3-3RXE3+3
RXE1-3
RXE2+3RXE2-3
RXE0-3
RXE1+3
RXE0+3
VGA_HS 4VGA_VS 4VGA_BIN 4VGA_GIN 4
VGA_RIN 4
Pb+ 4Pr+ 4
Y+ 4
AV1-CVBS0P 4
VGA-AUL1 4VGA-AUR1 4
COMP_AUR4 4COMP_AUL4 4
TUNER_SDA7
SOG0 4
SOY 4
KEY0-SAR0 9KEY1-SAR1 9
IRIN 9
UART-TX 4,9UART-RX 4,9
LEDG 9LEDR 9
HP_DET 4,6
3D_enable3
AV2-CVBS0P 4
System XTAL
Debug & ISP port
Power 1.2V
Power 3.3V
DDR Power
SERIAL FLASH
H/W Reset
USB0_DPUSB0_DM
UART-TXUART-RX
RXE0-
RXE1-RXE1+
RXE2+
RXE0+
RXE2-
RXE3+
RXEC+RXE3-
RXEC-
RXO1+
RXO0-
RXOC+
RXO2-
RXOC-
RXO3+
RXO2+
RXO3-
RXO0+RXO1-
HD
MI_H
P1
PAN
EL-O
N/O
FF
BR
I_AD
J-PW
M0
HD
MI0-S
CL
HD
MI0-S
DA
HD
MI_H
P0
HD
MI0-R
X1N
HD
MI0-C
LKN
HD
MI0-C
LKP
HD
MI0-R
X0N
HD
MI0-R
X2N
TUN
ER
_SC
LTU
NE
R_S
DA
HD
MI0-R
X2P
HD
MI0-R
X1P
HD
MI0-R
X0P
UA
RT-R
X
RX
E3+
RX
E3-
UA
RT-TX
GN
D-E
FUS
ES
ystem-R
ST
HD
MI-C
EC
IRIN
KE
Y0-S
AR
0K
EY
1-SA
R1
SOG0AMP-AUOUTR0VGA_RIN
AV-AUOUTR3
SPI-SDI
SPI_CS0N
SPI-SCKSPI-SDO
VGA-AUL1VGA-AUR1
SPI_WP0N
Y+
Pb+
RXE0+
RXOC-RXO2+
RXO3-RXOC+
RXO3+
RXE0-
RXO2-
RXO0+RXO0-
RXO1+RXO1-
RXEC-
RXE1-
RXE2-
RXEC+
RXE1+
RXE2+
AV1-CVBS0P
UART-RX
VIFMVIFP
TAGC
VB
L-CTR
L
AUDIO-ENAUDIO_EN
VBL-CTRLVBL_CTRLON_PANEL PANEL-ON/OFF
TUNER_SDATUNER_SCL
BRI_ADJ-PWM0
COMP_AUR4COMP_AUL4
SOY
PW
R-O
N/O
FF
IRIN
PWR-ON/OFF
UART-TX
VGA_GIN
AV-AUOUTL3
HDMI_HP1
VGA_GIN
VGA_HSVGA_VS
VGA_BIN
CVBS_OUT0
HDMI1-SCL
AMP-AUOUTL0
HDMI-CEC
HDMI1-RX1NHDMI1-RX1P
HDMI1-RX2NHDMI1-RX2P
HDMI1-RX0NHDMI1-RX0PHDMI1-CLKNHDMI1-CLKP
BRI_ADJ-PWM0 VBL-CTRL
HDMI1-SDA
VGA_RINPr+
SOG0Y+
Pb+
SPI_WP0N
USB0_DMUSB0_DP
SPI-SCK
SPI_CS0N
SPI-SDISPI-SDO
Circuit Diagrams and PWB LayoutsEN 49 TPS10.1A LA10.
2013-Jul-05back to div.table
10-3-3LVDS
19450_510_130110.eps130110
LVDSB03B03
2012-09-24 A
715G5740 LVDS
SELLVDS
RXEC- R4490R05 OHMRXE3-
RXEC1-
RXE1-RXE0-
RXE2-
3D_EN
BLPWM
R4480R05 OHM
RXEC1+RXE2+RXE1+
RXEC+
RXE0+
RXE3+
3D_EN
R471
NC/4.7K
RXOC+RXOC1+ R4540R05 OHM
RXO2+RXO1+RXO0+
RXO3+
+3.3V_Standby
R472
0.05R
3D_enable2
Panel Power
BLPWM
R450
NC/4.7K
R447NC/360R 1/10W 5%
R452NC/220 OHM 1/10W
R453NC/220 OHM 1/10W
D402NC/RB501V-40
1 2
R438
NC/0oHM
Q403MMBT3904
C401
220N 25V
R44110K
R451NC/390 OHM 1/10W
C439NC/100N 50V
R446NC/0R05 OHM
R4370oHM
CN403
CONN
2468
1012141618202224262830
1357911131517192123252729
R445
NC/4.7K
R443
10K
+C438
100UF 16V
R4424.7K
R444NC/360R 1/10W 5%
R4402.2K 1/4W
RXO2+
U403NC/AZ809ANSTR-E1
GND1
RESET2
Vcc3
RXOC+
C437
100NF 16V
R439100K
RXEC-
Q401AO4449 -7A/-30V
S1
S2
S3
G4
D8
D7
D6
D5
P12V
RXO3+
RXE2+
PANEL_VCC
+5V_Standby
PANEL_VCC
DGND
DGND
RXE3-
RXE1-
DGND
DGND
DGND
RXO3-
P12V
DGND
RXE2-
+5V_Standby
RXO1-
DGND+3.3V_Standby
RXE0-
RXEC+
RXO3- 2
ON_PANEL 2
RXO1+
RXO0+
RXOC- 2RXOC-
RXOC+ 2
RXE3+
RXO0- 2RXO0+ 2
RXO0-
RXO2-
RXE2- 2
RXE1+
RXE0+
RXE2+ 2
RXO2+ 2
RXO1- 2
RXO3+ 2
RXE3- 2RXE3+ 2
RXE0+ 2
RXO1+ 2
RXEC+ 2
RXE1- 2
RXEC- 2
RXE1+ 2
RXO2- 2
RXE0- 2
BRI_ADJ-PWM01,2
R47347K
RXO0-
R4550R05 OHM
RXO2-
RXO3-
RXO1-
RXOC1-RXOC-
EN 50 TPS10.1A LA10. Circuit Diagrams and PWB Layouts
2013-Jul-05back to div.table
10-3-4Video/Audio Interface/USB2.0
19450_511_130110.eps130110
Video/Audio Interfac/USB2.0B04B04
2012-09-24 A
715G5740 Video/Audio Interfac/USB2.0
AV2-CVBS0P2
VGA_SDA
VGA_HSYNC
VGA_VSYNC
VGA_SCL
VGA-AUR1
VGA_SDA
YPBPR1_IN_R1
Y1
YPBPR1_IN_L1
HeadPhone
VGA-AUL1
PB1
PR1
YPBPR Video/Audio IN
0.5pF
VGA_R
HP_D
Q102MMBT3906
R12633R
R13268R
R106
33 OHM 1/16W
R105
47K
VGA_VSYNC
VGA_HSYNC
ZD105MLVG0402
12
R136
10K
R110
75 OHM
R11610K 1/16W 5%
C1122.2uF 10V
C1211N50V
C103
100N 16V
C12247nF 16V
ZD106
MLVG0402
12
C1071N50V
12
34
CN106USB CONN
1234
65
R113
33 OHM 1/16W
ZD101MLVG0402
12
NC/100N 16V
C124
C104
1uF 10V
R10875 OHM
ZD113MLVG0402
12
R115
75 OHM
R11710K 1/16W 5%
470pF 50V
C119
R12733R
USB IN
R10775 OHM
USB0_DPUSB0_DM
R123
12K 1/16W
R111
33 OHM 1/16W
Q101
MMBT3904
CN101
CONN
1762345
ZD104MLVG0402
12
C1162.2uF 10V
NC/100N 16V
C123
R13333R
R128
75R
C125100N 16V
R13110K 1/16W 5%
CN104
CONN
12
3
ZD110MLVG0402
12
ZD108 MLVG0402
12
R13468R
R137
10K
VGA_G
E
A
B
C
D
CN102
RCA JACK
1
234
6
78
910
11
12
13
5
R118
12K 1/16W
ZD111MLVG0402
12
R10975 OHM
C11047nF 16V
R13533R
C10647nF 16V
R125
75R
ZD116MLVG0402
12
ZD102
MLVG0402
12
C108
22pF 50V
ZD115MLVG0402
12
SOY
CN105
CONN
1728394105
11
12
13
14
15
1716
6
Pr+
ZD118
MLVG0402
12
Y+
R12412K 1/16W
AV1-CVBS0P
Pb+
ZD112MLVG0402
12
ZD114MLVG0402
12
CN103
CONN
3
1
2
R112
75 OHM
R102
33 OHM 1/16W
+C126100UF 16V
ZD109MLVG0402
12
R12933R
ZD103MLVG0402
12
C10247nF 16V
330pF 50V
C114
R1384.99ohm 1/16W +/-1%
R119
12K 1/16W
R130
75R
C10547nF 16V
R104
33 OHM 1/16W
470pF 50V
C118
R12110K 1/16W 5%
R103
220R 1/16W
C12047nF 16V
FB102
300R12
330pF 50V
C113
C1112.2uF 10V
ZD119
NC/MLVG0402
12
C1152.2uF 10V
R114
33K 1/16W 5%
R12233R
R12010K 1/16W 5%
ZD117
MLVG0402
12
ZD107MLVG0402
12
C11747nF 16V
C10910UF 10V
ZD120
NC/MLVG0402
12
R1394.99ohm 1/16W +/-1%
AGND AGND
AGND
AGND
AGND
AGND
AGND
AGNDAGND
AGND
AGND
AGND
AGND AGND
AGND
AGNDAGND
+5V_Normal
AGND
VGA IN
AGNDAGND
DGND DGNDDGND
USB_Shield_GND
USB_Shield_GND DGND
USB_5V
USB_Shield_GND
AGND AGND
DGND
AGND AGND
AGND
AGND
AGND
+3.3V_Standby
DGND AGND
COMP_AUR42
CVBS_OUT02
COMP_AUL42
SOY2
AV1-CVBS0P2
Pr+2
Y+2
CVBS_OUT1
Pb+2
VGA-AUR12
VGA-AUL12
VGA_HS2
COMP_AUR4
VGA_RIN2
VGA_VS2
VGA_GIN2
SOG02
VGA_BIN2
USB0_DM 2USB0_DP 2
HP_OUT_R6
HP_DET2,6HP_OUT_L6
UART-RX2,9
UART-TX2,9
Rg
VGA_SCL
CVBS Out
Rf
0402
0402
0402
COMP_AUL4
0402
0402
0603
0603
HP_OUT_LHP_OUT_R
0603
PC AUDIO IN
VGA_HS
R147
33 OHM 1/16W
VGA_VS
VGA_B
VGA_SOG
C44947nF 16V
Circuit Diagrams and PWB LayoutsEN 51 TPS10.1A LA10.
2013-Jul-05back to div.table
10-3-5Input_HDMI
19450_512_130110.eps130110
Input_HDMIB05B05
2012-09-24 A
715G5740 Input_HDMI
HOTPLUG1
HDMI1_DDC_SCL#
R5224.99ohm 1/16W +/-1%
HDMI-ARC
HDMI1_D2+
HDMI1_D0+
HDMI1_D2-
HDMI1_CLK-
HDMI1_CLK+
HDMI1_D1-
HDMI1_D0-
HDMI0_D2+
CN501
HDMI0
SHLD020
SHLD121
TMDSD2+1
DSHLD02
TMDSD2-3
TMDSD1+4
DSHLD15
TMDSD1-6
TMDSD0+7
DSHLD28
TMDSD0-9
TMDSC+10
CSHLD011
TMDSC-12
CEC13
NC14
SCL15
SDA16
DDC_GND17
VCC518
HPD19
SHLD222
SHLD323
ZD503
MLVG0402
12
HDMI1_D1+
D503MMBT3904
R5031K 1/10W
CN502
HDMI1
SHLD020
SHLD121
TMDSD2+1
DSHLD02
TMDSD2-3
TMDSD1+4
DSHLD15
TMDSD1-6
TMDSD0+7
DSHLD28
TMDSD0-9
TMDSC+10
CSHLD011
TMDSC-12
CEC13
NC14
SCL15
SDA16
DDC_GND17
VCC518
HPD19
SHLD222
SHLD323
R510100R
ZD501MLVG0402
12
R513100R
R50947K
ZD502MLVG0402
12
R50447K
R50847K
R514100R
R50247K
U503NC/RClamp0524P.TCT
IN11
IN22
GN
D3
IN34
IN45
OUT46 OUT37
GN
D8
OUT29 OUT110
U504NC/RClamp0524P.TCT
IN11
IN22
GN
D3
IN34
IN45
OUT46 OUT37
GN
D8
OUT29 OUT110
R50610K 1/16W 5%
U502NC/RClamp0524P.TCT
IN11
IN22
GN
D3
IN34
IN45
OUT46 OUT37
GN
D8
OUT29 OUT110
U501NC/RClamp0524P.TCT
IN11
IN22
GN
D3
IN34
IN45
OUT46 OUT37
GN
D8
OUT29 OUT110
R50710K 1/16W 5%
R5051K 1/10W
R5234.99ohm 1/16W +/-1%
R51147K
R501100R
ZD504
MLVG0402
12
D502MMBT3904
R51247K
DGND
DGND
DGND
DGND
DGNDDGNDDGND
DGND
DGND
DGND
DGND
DGND
DGND
DGNDHDMI0_CON5V
HDMI1_CON5V
HOTPLUG0 2
HDMI0_D2- 2HDMI0_D2+ 2
HDMI0_D2-HDMI0_D1- 2HDMI0_D1+ 2
HDMI0_D1+HDMI0_D0- 2HDMI0_D0+ 2
HDMI0_CLK+ 2
HDMI0_DDC_SCL 2HDMI0_CLK- 2
HDMI_CEC 2
HDMI0_DDC_SDA 2
HDMI1_D1- 2
HDMI1_DDC_SDA 2
HDMI1_D0+ 2
HDMI1_CLK+ 2HDMI1_D0- 2
HDMI1_CLK- 2
HDMI1_D2+ 2
HOTPLUG1 2
R5244.99ohm 1/16W +/-1%
HDMI1_DDC_SCL 2
HDMI1_D2- 2
HDMI-ARC 2
HDMI1_D1+ 2
HDMI1_D1+
HDMI1_D2+HDMI1_D2-
HDMI1_D1+
HDMI1_D2+HDMI1_D2-
HDMI1_D1-
HDMI1_CLK-
HDMI1_D0-HDMI1_D0+
HDMI1_D1-
HDMI1_CLK+HDMI1_CLK-
HDMI1_D0-HDMI1_D0+
HDMI1_CLK+
R5254.99ohm 1/16W +/-1%
HDMI-CEC
R5264.99ohm 1/16W +/-1%R5274.99ohm 1/16W +/-1%
R5284.99ohm 1/16W +/-1%
HDMI1_DDC_SDA#HDMI1_DDC_SCL#
R531200R 1/16W
HDMI1_DDC_SCLHDMI1_DDC_SDA
R5294.99ohm 1/16W +/-1%
HDMI0_D0+HDMI0_D1-
R5304.99ohm 1/16W +/-1%
HDMI1-RX1P
HDMI1-RX0NHDMI1-RX0P
HDMI1-RX2N
HDMI1-SDAHDMI1-SCLHDMI1-CLKNHDMI1-CLKP
HDMI1-RX1N
HDMI1-RX2P
HDMI_HP1
HDMI0_CLK+HDMI0_D0-
HDMI0-SDAHDMI0-SCL
HDMI0-RX2P
HDMI0-RX1P
HDMI0-RX0NHDMI0-RX0P
HDMI0-RX2N
HDMI_HP0
HDMI-CEC
HDMI0-CLKNHDMI0-CLKP
HDMI0-RX1N
HDMI0_D2-
From Main Chip
HDMI0_D0-HDMI0_D0+
HDMI0_CLK-HDMI0_CLK+
HDMI0_D2+
HDMI0_D1+
HDMI0_D2-
HDMI0_D1-
HDMI0_D2+
HDMI0_D0-HDMI0_D0+
HDMI0_CLK+HDMI0_CLK-
ZD505MLVG0402
12
HDMI1_CON5V
R5214.99ohm 1/16W +/-1%R5204.99ohm 1/16W +/-1%
HDMI_CEC1
HDMI_CEC1
HDMI0_D1-
HOTPLUG0
HDMI0_DDC_SCL#HDMI0_DDC_SDAHDMI0_DDC_SCL
HDMI0_DDC_SDA#
HDMI0_CON5V
DGND
HDMI0_DDC_SCL#
DGND
HDMI0_D1+
HDMI0_CLK-
DGND
HDMI0_DDC_SDA#
R5154.99ohm 1/16W +/-1%
R5164.99ohm 1/16W +/-1%
HDMI-ARC
R5174.99ohm 1/16W +/-1%
R5184.99ohm 1/16W +/-1%R5194.99ohm 1/16W +/-1%
ZD507
MLVG0402
12
ZD506
MLVG0402
12
DGND DGND
HDMI1_DDC_SDA#
HDMI_CEC1
EN 52 TPS10.1A LA10. Circuit Diagrams and PWB Layouts
2013-Jul-05back to div.table
10-3-6Earphone pre amplifier
19450_513_130110.eps130110
Earphone pre amplifierB06B06
2012-09-24 A
715G5740 Earphone pre amplifier
AV_AUOUTL3
AV_AUOUTR3
AV_AUOUTL3
HP_SD APA2176A
U602
NC
13
PV
DD
16
NC4
CP+1
PGND2
CP-3
CV
SS
5
VS
S6
LOU
T7
VD
D8
ROUT9
LIN10
/RSD11
RIN12
GN
D14
/LSD
15C6051.5nF 50V
R607100 OHM 1/10W
C611
10UF 10V
C6061UF16V
C6102.2UF 16V
R6050R05 OHM
C601
100NF 16V
C602
10UF 10V
R603200OHM1/16W
FB602
300R12
R604100OHM1/16W
R6020R05 OHM
C607
1UF16VC6091.5nF 50V
C6041UF16V
R606200OHM1/16W
C603NC/1.5nF 50V
C608NC/1.5nF 50V
HP_OUT_RR608100 OHM 1/10W
FB601
300R12
+5V_Normal
+3.3V_Standby
AV_AUOUTL3 2
AV_AUOUTR3 2HP_OUT_L4
HP_OUT_R4
HP_DET2,4
HP_OUT_L
Headphone Amp
HP_OUT_L
AV_AUOUTR3
HP_OUT_R
Circuit Diagrams and PWB LayoutsEN 53 TPS10.1A LA10.
2013-Jul-05back to div.table
10-3-7Tuner
19450_514_130110.eps130110
TunerB07B07
2012-09-24 A
715G5740 Tuner
Silicon Tuner
AIF-
TUNER_SCL
TUNER_SCL
TAGC
IF_AGC
TUNER_SDA
Tuner Power3.3V_TUNER
L need Q>15
To tuner
IF_AGC Control Circuit
TAGC 2IF_AGC
TUN_IF+
TUN_IF-
TUN_I2C_SDATUN_I2C_SCL
R143
100OHM
TUN_IF-TUN_IF+
Main Chip <-->
I2C for Tuner
C128100N 16V
C136
33PF 50V
C141100NF 16V
L1011UH
R145
100OHM
L103
2.2uH
C138NC/100pF 50V
C127
10uF 10V
C137
100N 16V
C1331N 50V
C134
100N 16V
22NF 25VC140
C101100N 16V
FB101
1000OHM12
C1321N 50V
L1042.2uH
R1414.7K
R101
100R
L102
1UH
C1311uF 10V
R140510R
R14410K
TU101TUNER
ANT1
3.3V2
SCL3
SDA4
GND5
Xout6
IF_N7
TH1
10TH
211
TH3
12TH
413
IF_P8
IF_AGC9
C130
2.2UF 16V
U101
VIN3
VOUT2
GN
D1
44
C13556pF 50V
R146
0R05 OHM
+C129
100UF 16V
C139NC/100pF 50V
R1424.7K
AGND
3.3V_TUNER
AGND
SCL_CAN
SDA_CAN
DGNDDGND
AGND
3.3V_TUNER
AGND
AGND
DGND DGND
3.3V_TUNER
+5V_Normal
AGND AGND
SCL_CAN
DGND
3.3V_TUNER
AGNDDGND
VIFM 2VIFP 2
TUNER_SCL 2
TUNER_SDA2
TUNER_SDA 2
TUNER_SCL2
SDA_CAN
AIF+
AIF-
Tuner3.3V
AIF+
TUNER_SDA
BPF_IN
EN 54 TPS10.1A LA10. Circuit Diagrams and PWB Layouts
2013-Jul-05back to div.table
10-3-8AUDIO Amplifier
19450_515_130110.eps130110
AUDIO AmplifierB08B08
2012-09-24 A
715G5740 AUDIO Amplifier
AV_L_OUT#
AV_R_OUT#
Q602MMBT3906
R62910K
R+
AMP_MUTE
POP
+C450
100UF 16V
AMP_MUTE
L+
C630330pF 50V
R62010 OHM 1/4W
C634330nF
R614
NC/100K 1/16W
C638100N 50V
C6391NF 50V
C6200.22uF 50V
R615NC/100K 1/16W
POP
C626330pF 50V
C617
NC/1NF 50V
C6311UF 50V
R601
0.05RC628
0.22uF 50V
R622
10K+-5%1/16W
R626
10OHM1/16W
R624
33K 1/16W 5%
R621
10OHM1/16W
C621330nF
C6360.22uF 50V
L60147UH
C6191NF 50V
R618
10K
FB603
120R12
R61010OHM1/16W
C622
220NF 25V
C6271UF 50V
C624330nF
R619
NC
/0.05R
U601
APA2614RI-TRG
SDZ1
FAULTZ2
LINP3
LINN4
GAIN05
GAIN16
AVCC7
AGND8
GVDD9
PLIMIT10
RINN11
RINP12
NC13
PBTL14
PVCCL28
PVCCL27
BSPL26
OUTPL25
PGND24
OUTNL23
BSNL22
BSNR21
OUTNR20
PGND19
OUTPR18
BSPR17
PVCC16
PVCC15
Thermal Pad29
+C640100UF35V
AC OFF POPO
C6250.22uF 50V
R612
10K
R617
NC
/10K
C618100N 50V
C629330nF
C623330pF 50V
C616220NF 25V
R616
10OHM1/16W
L60247UH
L60447UH
+C614100UF35V
+C615100UF35V
R625
100OHM
CN601
CONN
1234
56
R60910OHM1/16W
C633220NF 25V
C6321UF 50V
C635220NF 25V
R613
100OHM
R623
10OHM1/16W
C613100N 50V
C637330pF 50V
R61110K
Q601MMBT3904
L60347UH
C612
NC/1NF 50V
+5V_Normal
+5V_Normal
P24VPVDD
PVDD
PVDD
PVDD
AMP_AUOUTR0 2
AMP_AUOUTL0 2
AUDIO_EN 2
R-
R62710K
L-
AV_L_OUT#
AV_R_OUT#
R62810K
+5V_Standby
AMP_STB
Circuit Diagrams and PWB LayoutsEN 55 TPS10.1A LA10.
2013-Jul-05back to div.table
10-3-9Keypad/IR
19450_516_130110.eps130110
Keypad/IRB09B09
2012-09-24 A
715G5740 Keypad/IR
+3.3V_Standby
IRIN
UART-TXUART-RX
R475NC/3.3K
IRIN
LEDG
KEY1-SAR1KEY0-SAR0
POWER
LEDR
LED-RLED-G
KEY_ADC1LED-G
LEDR
IRRX1
POWER_KEY
LED-R
KEY1-SAR1
POWER
LED-RLED-G
IRIN
POWER_KEYKEY_ADC1
KEY0-SAR0 IRRX1
R476NC/0R05 OHM
R4743.3K
LEDG
ZD404MLVG0402
12
R46610K 1/16W 5%
R467NC 100R 1/16W 5%
Q405MMBT3906
C444
100NF 16V
ZD403MLVG0402
12
FB409
120R 12
R470100R 1/16W 5%
C441
1N 50V
R462200OHM1/16W
R477NC/0R05 OHM
C442
100NF 16V
ZD406
MLVG0402
12
Q407
2N3906S-RTK/PS
1
23
R469100R 1/16W 5%
R4594.7K
ZD402MLVG0402
12
CN404CONN
12345
67
R468
100R 1/16W 5%
C445
1N 50V
ZD405MLVG0402
12
C440
1N 50V
R46510K 1/16W 5%
R461200OHM1/16W
R460100OHM
R4574K7 1/16W 1%
R4564K7 1/16W 1%
ZD401MLVG0402
12
Q4062N7002
ZD407MLVG0402
12
C447100nF 50V
DGND
C446
1N 50V
CN401
CONN
12345678910
R464
100OHM
tTH4010R4
12
R4634.7K
R458100OHM
C4431UF16V
Q404MMBT3906
DGND
DGND
+3.3V_Standby
DGND DGND
+3.3V_Standby
+3.3V_Standby
+3.3V_Standby
DGND
DGND
DGND
DGND DGND DGND
+3.3V_Standby
DGND
+5V_Standby
AGND
KEY0-SAR0 2
+5V_Standby
IRIN 2
KEY1-SAR1 2
LEDR 2
LEDG 2
UART-RX 2,4
UART-TX 2,4
+3.3V_Standby
CN405
NC CONN
123
45
EN 56 TPS10.1A LA10. Circuit Diagrams and PWB Layouts
2013-Jul-05back to div.table
10-3-10SSB layout top
19450_517_130111.eps130111
2012-10-27 C
715G5740 SSB Layout TopC
109
C11
1
C11
2
C11
5
C11
6
C12
7
C13
0
C40
2
C40
3
C41
3
C415
C42
6
C43
1
C438
C43
9
C44
3
C44
7
C60
2
C60
4
C60
6
C60
7
C610
C611
C613
C614C615
C616
C618
C62
1
C622
C62
4
C627
C62
9
C631
C632
C633
C63
4
C635
C638
C640
C70
2
C70
5
C70
6
C708
C70
9
C710
C711
C71
2
C713
C718
C721
C722
C72
3
D402
FB10
2
FB40
2
FB403
FB40
4
FB405
FB406
FB40
7
FB40
8
FB60
1
FB602
R10
7
R10
8
R10
9
R11
0R
112
R11
5
R12
5
R12
8
R13
0
R43
7
R43
8
R44
0
R44
4
R44
7
R45
1
R45
2
R45
3
R503
R505
R607
R608
R620
R71
8
C725
C620
C62
5C
628
C636
C40
1
C450
C126
C129
C71
9
C71
7
ZD4
ZD5
TP1
TP8
TP11
TP12
TP13
U2
C101
C10
2
C10
3
C10
4
C10
5
C10
6
C10
7
C10
8
C11
0
C11
3
C11
4
C11
7
C11
8
C11
9
C12
0
C12
1
C12
2
C12
3C
124
C12
5
C12
8
C13
1
C13
2
C13
3
C134
C13
5
C13
6
C137
C13
8
C13
9
C14
0
C14
1
C404
C40
5
C40
6
C40
7
C40
8
C40
9
C41
0
C41
1
C41
2
C41
4
C41
6
C417
C41
8
C41
9
C42
0
C42
1
C422
C423
C42
4
C425
C42
7
C42
8
C429
C430
C432C433
C43
4
C43
5
C43
6
C44
0
C44
1
C44
2
C44
4
C44
5
C44
6
C44
9
C60
3
C60
5
C60
8
C60
9
C612
C617
C62
3
C62
6C
630
C63
7
C704
C71
5
C716
C72
0
D401
D50
2
D503
FB10
1
FB40
1
FB40
9
FB603
FB70
1 HS401
L101
L102L103
L104
L701
Q101 Q102
Q401
Q402
Q403Q404 Q405
Q406 Q407
Q60
1
Q701 Q702Q703Q704 Q705 Q706
R10
2
R10
3
R10
4
R10
5
R10
6
R11
1
R11
3
R11
4
R12
0
R12
1
R12
2
R12
3
R12
4
R12
6
R12
7
R12
9
R13
1
R13
2
R133
R13
4
R135
R138
R139
R14
0
R14
1
R14
2
R14
3
R14
5
R401
R40
3
R40
4
R405
R406
R40
7
R40
9
R41
0
R41
2
R41
3
R41
5
R41
6
R41
8
R419
R42
0
R423
R42
4
R427
R428
R43
1
R43
4
R43
5
R43
6
R439
R44
1
R44
2
R44
3
R44
5
R446
R44
8
R44
9
R45
0
R45
4
R45
5
R45
8
R45
9
R46
0
R46
1
R46
2R463
R46
4
R46
5
R46
6R
467
R46
8
R46
9R
470
R502
R504
R506
R507
R50
8
R50
9
R511
R512
R60
2
R60
3
R60
4
R60
5
R60
6
R61
6
R62
1R
623
R62
6
R70
2
R71
0
TH401
U101
U402U403
U501
U502
U503
U504
U601
U602
U702
U703
X401
ZD10
1
ZD10
2
ZD10
3
ZD10
4
ZD10
5
ZD10
6
ZD10
7
ZD10
8
ZD10
9
ZD11
0
ZD11
1
ZD11
2
ZD11
3
ZD11
4
ZD11
5
ZD11
6ZD
117
ZD11
8ZD
119
ZD12
0
ZD40
1
ZD40
2
ZD40
3
ZD40
4ZD
405
ZD40
6
ZD40
7
ZD501
ZD502
ZD70
1
R47
1
R47
2
U704
R51
5
R51
6
R51
7
R51
8
R51
9
R52
0
R52
1
R52
2
R523
R524
R525
R526
R527
R528
R529
R530
C43
7
C60
1
C619
C639
C70
1
C70
3
C70
7
C71
4
C72
4
R10
1
R11
6
R11
7
R11
8
R11
9
R13
6
R13
7
R14
4
R14
6
R421
R422
R45
6
R45
7
R50
1
R51
0 R513
R514
R601
R609
R610
R611
R61
2
R613
R614
R615
R617
R618R619
R622
R624
R625
R701
R70
3
R70
4
R70
5
R70
6
R70
7
R70
8
R70
9
R711
R71
2
R71
3
R714
R71
5
R71
6
R71
7
R71
9
R72
0
R72
1
R72
2
R72
3
R724R72
5R
726
ZD50
3
ZD50
4
ZD50
5
ZD506
ZD507
R53
1
U401
ZD2
ZD3
ZD1
R473
R627 R628
R62
9
R727R72
8R729
R73
0
Q602
Q70
7
U701
R474
R47
5
CN405
R14
7
CN106
TU101
CN404
CN101
CN104
CN103CN102CN105
CN501
CN502
CN402
CN701CN401
CN403
CN601
R47
6
R477
L601
L602
L603
L604
Circuit Diagrams and PWB LayoutsEN 57 TPS10.1A LA10.
2013-Jul-05back to div.table
10-3-11SSB layout bottom
19450_518_130111.eps130111
2012-10-27 C
715G5740 SSB Layout Buttom
EN 58 TPS10.1A LA10. Circuit Diagrams and PWB Layouts
2013-Jul-05back to div.table
10.4J 715G5471 IR/LED 3008 series10-4-1IR/LED Panel
19450_519_130111.eps130117
JJ
2012-01-18 A
IR/LED Panel
IR/LED Panel715G5471
U201
IRM-H636M3/TR2
GND1
GND2
OUT3
VCC4
IR
C201
0.1uF 50V
VCC
R20115K 1/10W
R203220 OHM 1/10W LED_BCN201
CONN
12345
67
LED_R
RED
BLUE
LED201
LED
1
2 3
4
R202220 OHM 1/10W
Circuit Diagrams and PWB LayoutsEN 59 TPS10.1A LA10.
2013-Jul-05back to div.table
10-4-2IR/LED board layout
19450_520_130111.eps130111
2012-01-18 A
715G5471 IR/LEDboardlayout top/bottom
C201
R201
R202
R203
R1
R2R3
R4
CN201LED201
U201
Layout IR/LED Board (Top Side)
Layout IR/LED Board (Bottom Side)
EN 60 TPS10.1A LA10. Circuit Diagrams and PWB Layouts
2013-Jul-05back to div.table
10.5E 715G5711 Keyboard control panel10-5-1Key Panel
19450_521_130111.eps130117
EE
2012-04-27 A
Key Panel
Key Panel715G5711
FUNC_KEYPWR-SW
R05
750OHM +-1% 1/8W
R04
1K 1/8W 1%
R01
7K5 1/8W +/-1%
R03
1K8 +/-1% 1/8W
R06750OHM +-1% 1/8W
R02
2K7 1/8W 1%
R07750OHM +-1% 1/8W
SW01
TACT SW FWRD H1.5MM
CN01
CONN
1234
65
FUNC_KEY
PWR-SW
SW02
TACT SW FWRD H1.5MM
SW03
TACT SW FWRD H1.5MM
SW04
TACT SW FWRD H1.5MM
SW05
TACT SW FWRD H1.5MM
SW06
TACT SW FWRD H1.5MM
SW07
TACT SW FWRD H1.5MM
Circuit Diagrams and PWB LayoutsEN 61 TPS10.1A LA10.
2013-Jul-05back to div.table
10-5-2Key board layout
19450_522_130111.eps130111
2012-04-27 A
715G5711 Keyboard control panellayout top/bottom
C016
C017
C018
C019
C020
C021
C023
C024
R016
R017
R018
R020
R021
R022
R023
R024
R025
SW
11S
W12
SW
13
SW
14
SW
15
SW
16
SW
17
SW
18
SW
20
CN016
SW016SW017 SW019SW020 SW021SW022SW1
SW2
Layout Keyboard control panel (top side)
Layout Keyboard control panel (bottomside)
EN 62 TPS10.1A LA10. Circuit Diagrams and PWB Layouts
2013-Jul-05back to div.table
10.6O 715G5912 Option Board 32”10-6-1Apter
19450_523_130111.eps130117
ALCALC
2012-10-12 A
715G5912
Apater
Apater
CN001CONN 1357911131517192123252729313335
37
24681012141618202224262830323436
38
PAN
EL_V
CC
PAN
EL_V
CC
PAN
EL_V
CC
PAN
EL_V
CC
PAN
EL_V
CC
GN
DG
ND
GN
D9 10 G
ND
TOD
P_1
TOD
N_1
GN
DTO
CLK
P_1
TOC
LKN
_1G
ND
TOC
P_1
TOC
N_1
GN
DTO
BP
_1TO
BN
_1G
ND
TOA
P_1
GN
D3 2 111 TO
AN
_113
TOA
N_1
GN
DTO
BP
_1TO
CN
_1G
ND
TOC
LKP
_1TO
DN
_1G
ND10
GN
DG
ND
PAN
EL_V
CC
PAN
EL_V
CC
PAN
EL_V
CC
GN
D
CN002
CONN
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
31 32
2G
ND
TOA
P_1
TOB
N_1
GN
DTO
CP
_1TO
CLK
N_1
GN
DTO
DP
_1119
GN
DPA
NE
L_VC
CPA
NE
L_VC
CPA
NE
L_VC
C
Circuit Diagrams and PWB LayoutsEN 63 TPS10.1A LA10.
2013-Jul-05back to div.table
10-6-2Option Boaard layout top/bottom
19450_524_130112.eps130112
2012-10-19 A
715G5912 AmbiLight controllayout top/bottom
CN001
CN002
ZD2
ZD3
ZD4 ZD7
ZD5
ZD16ZD17
Layout AmbiLight control (top side)
LayoutAmbiLight control (bottomside)
EN 64 TPS10.1A LA11. StylingSheets
2013-Jul-05back to div.table
11.StylingSheets11.13008 series 32"
19450_800_130123.eps130123
32PFL3008
Pos No.DescriptionRemarks0031 Bezel 0032 Deco bezel0041 Rear cover0051 Base1050 Display panel1053 PanelSSB1054 Power Supply Unit1056 IR/LED panel1057 Keyboard panel control1176 Remote control Not displayed1185Speakers
FOR ELECTRICAL PARTS/ASSEMBLIESSEE WIRING DIAGRAM CHAPTER 9
0031
1056
1185
0041
1185
1050
0032
1054
1057
0051
1053
StylingSheetsEN 65 TPS10.1A LA11.
2013-Jul-05back to div.table
11.23008 series 39"
19450_801_130123.eps130123
39PFL3008
Pos No.DescriptionRemarks0031 Bezel 0032 Deco bezel0041 Rear cover0051 Base1050 Display panel1053 PanelSSB1054 Power Supply Unit1056 IR/LED panel1057 Keyboard panel control1176 Remote control Not displayed1185Speakers
FOR ELECTRICAL PARTS/ASSEMBLIESSEE WIRING DIAGRAM CHAPTER 9
0031
1056
1185
0041
1185
10500032
1054
1057
0051
1053
EN 66 TPS10.1A LA11. StylingSheets
2013-Jul-05back to div.table
11.33008 series 42"
19450_802_130123.eps130123
42PFL3008
Pos No.DescriptionRemarks0031 Bezel 0032 Deco bezel0041 Rear cover0051 Base1050 Display panel1053 PanelSSB1054 Power Supply Unit1056 IR/LED panel1057 Keyboard panel control1176 Remote control Not displayed1185Speakers
FOR ELECTRICAL PARTS/ASSEMBLIESSEE WIRING DIAGRAM CHAPTER 9
0031
1056
1185
0041
1185
10500032
1054
1057
0051
1053