philips_l01.1e_sm__houdini__
Transcript of philips_l01.1e_sm__houdini__
Colour Television Chassis
Published by RB 0266 Service PaCE
L01.1EAB
(LARGE SCREEN)
CL26532063_000.eps140602
©Copyright 2002 Philips Consumer Electronics B.V. Eindhoven, The Netherlands.All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, or otherwise without the prior permission of Philips.
Contents Page Contents Page1. Technical Specifications, Connections and
Chassis Overview 22. Safety & Maintenance Instructions, Warnings and
Notes 53. Directions for Use 64. Mechanical Instructions 115. Service Modes, Error Codes and Faultfinding 136. Block Diagram, Testpoints, I2C And Supply
Voltage OverviewBlock Diagram 21Testpoint Overview 22I2C And Supply Voltage Overview 23
7. Electrical Diagrams and PWB’s Diagram PWBPower Supply (Diagram A1) 24 42-48Diversity Tables A1 25Line Deflection (Diagram A2) 26 42-48Diversity Tables A2 27Frame Deflection (Diagram A3) 29 42-48Tuner IF (Diagram A4) 30 42-48Video IF and Sound IF (Diagram A5) 31 42-48Synchronization (Diagram A6) 32 42-48Control (Diagram A7) 33 42-48Audio Amplifier (Diagram A8) 34 42-48Diversity Tables A8 35NICAM (Stereo/SAP) Decoder (Diagram A9) 36 42-48Audio/Video Source Switching (Diagram A10) 37 42-48Front I/O + Control, Headphone(Diagram A12) 38 42-48Diversity Tables A12, A14 39Rear I/O SCART (Diagram A14) 40 42-48Tilt and Rotation (Diagram A15) 41 42-48CRT (Diagram B1) 49 51SCAVEM (Diagram B2) 50 51Side AV and Headphone (Diagram C) 52 52Side AV and Headphone (Diagram E1) 53 53
Front Interface Panel (Diagr. Q1) 54 54Top Control (RF) (Diagram T) 55 55Top Control (FSQ) (Diagram T1) 56 56
8. Alignments 579. Circuit Description 64
List of Abbreviations 7310 Spare Parts List 75
Printed in the Netherlands Subject to modification EN 3122 785 12860
Technical Specifications, Connections and Chassis OverviewEN 2 L01.1E AB1.
1. Technical Specifications, Connections and Chassis Overview
Note: Described specifications are valid for the whole product range.
1.1 Technical Specifications
1.1.1 Reception
Tuning system : PLLColour systems : PAL B/G, D/K, I
: SECAM B/G, L/L’Sound systems : FM/AM-mono
: FM-stereo (2CS): NICAM: FM radio (10.7 MHz)
A/V connections : PAL BG: SECAM L/L’: PAL 60 (playback
only)
: NTSC 3.58 (playback only)
: NTSC 4.43 (playback only)
Channel selections : 100 channels: UVSH
IF frequency : 38.9 MHzAerial input : 75 Ω, Coax
1.1.2 Miscellaneous
Audio output (RMS) : 2 x 5 W stereo: 2 x 10 W stereo
Mains voltage : 220 - 240 V (± 10 %)Mains frequency : 50 / 60 Hz (± 5 %)Ambient temperature : + 5 to + 45 deg. CMaximum humidity : 90 % R.H.Power consumption : 58 W (21”) to
: 100 W (33”)Standby Power consumption : < 3 W
1.2 Connections
1.2.1 Side (or Front) Connections and Top (or Front) Control
Figure 1-1
Audio / Video In1 - Video CVBS (1 Vpp / 75 Ω)
2 - Audio L (0.5 Vrms / 10 kΩ)
3 - Audio R (0.5 Vrms / 10 kΩ)
4 - Headphone 3.5 mm (8 - 600 Ω / 4 mW)
IRRED
- VOLUME +
- PROGRAM +
V+V-
P-
P+
LAudio
RVideo
MonoV- C+C-V+
CL 16532016_020.eps220501
C+C-V+V-
Technical Specifications, Connections and Chassis Overview EN 3L01.1E AB 1.
1.2.2 Rear Connections
Figure 1-2 .eps
TV Aerial InAerial input : 75 Ω, Coax (IEC-type)
FM Radio InAerial input : via ‘coax-to-3 pins’
adapter: ‘cable’ or ‘wire’
antenna
Audio In1 - Audio L (0.5 Vrms / 10 kΩ)
2 - Audio R (0.5 Vrms / 10 kΩ)
External 1: RGB/YUV in + CVBS in/out
Figure 1-3
1 - Audio R (0.5 Vrms / 1 kΩ)
2 - Audio R (0.5 Vrms / 10 kΩ)
3 - Audio L (0.5 Vrms / 1 kΩ)
4 - GND
5 - GND
6 - Audio L (0.5 Vrms / 10 kΩ)
7 - Blue / U (0.7 Vpp / 75 Ω)
8 - CVBS-status 0 - 2.0 V: INT4.5 - 7 V: EXT 16:99.5 - 12 V: EXT 4:3
9 - GND
10 - 11 - Green / Y (0.7 Vpp / 75 Ω)
12 - 13 - GND
14 - GND
15 - Red / V (0.7 Vpp / 75 Ω)
16 - RGB-status 0 - 0.4 V: INT 1 - 3 V: EXT / 75 Ω 17 - GND
18 - GND
19 - CVBS (1 Vpp / 75 Ω)
20 - CVBS (1 Vpp / 75 Ω)
21 - Earth GND
External 2: YC in + CVBS in/out
Figure 1-4
1 - Audio R (0.5 Vrms / 1 kΩ)
2 - Audio R (0.5 Vrms / 10 kΩ)
3 - Audio L (0.5 Vrms / 1 kΩ)
4 - GND
5 - GND
6 - Audio L (0.5 Vrms / 10 kΩ)
7 - 8 - CVBS-status 0 - 2.0 V: INT
4.5 - 7 V: EXT 16:99.5 - 12 V: EXT 4:3
9 - GND
10 - 11 - 12 - 13 - GND
14 - GND
15 - C (0.3 Vpp / 75 Ω)
16 - 17 - GND
18 - GND
19 - CVBS (1 Vpp / 75 Ω)
20 - Y / CVBS (1 Vpp / 75 Ω)
21 - Earth GND
L
R
AUDIOOUT
75 Ohm
FM
CL 16532008_036.eps220501
EXTERNAL 2
EXTERNAL 1
1 21
202CL96532137_056.eps
171199
1 21
202CL96532137_056.eps
171199
Technical Specifications, Connections and Chassis OverviewEN 4 L01.1E AB1.
1.3 Chassis Overview
Figure 1-5
CRT PANEL
SIDE AV PANEL + HEADPHONECE1
MAIN
CHASSIS
PANEL
A1
B2B1
T T1
A2
A3
A4
A5
A12
A9
A10
A8
A14
POWER SUPPLY
LINE DEFLECTION
FRAME DEFLECTION
A6SYNCHRONISATION
TUNER IF
VIDEO + SOUND IF
FRONT I/O + CONTROL +
HEADPHONE
A7CONTROL (µP)
NICAM + 2CS +
BTSC DECODER
A/V SWITCHING
AUDIO AMPLIFIER
REAR I/O SCART
CL 26532063_024.eps140602
A15TILT & ROTATION
TOP CONTROL PANEL
Q1FRONT INTERFACE
Safety & Maintenance Instructions, Warnings, and Notes EN 5L01.1E AB 2.
2. Safety & Maintenance Instructions, Warnings, and Notes
2.1 Safety Instructions For Repairs
Safety regulations require that during a repair:• Due to the ‘hot’ parts of this chassis, the set must be
connected to the AC power via an isolation transformer.• Safety components, indicated by the symbol , should be
replaced by components identical to the original ones.• When replacing the CRT, safety goggles must be worn. Safety regulations require that after a repair, the set must be returned in its original condition. Pay particular attention to the following points:• General repair instruction: as a strict precaution, we advise
you to re-solder the solder connections through which the horizontal deflection current is flowing, in particular:– all pins of the line output transformer (LOT)– fly-back capacitor(s)– S-correction capacitor(s)– line output transistor– pins of the connector with wires to the deflection coil– other components through which the deflection current
flows.Note: This re-soldering is advised to prevent bad connections due to metal fatigue in solder connections and is therefore only necessary for television sets more than two years old.• Route the wire trees and EHT cable correctly and secure
them with the mounted cable clamps.• Check the insulation of the AC power cord for external
damage.• Check the strain relief of the AC power cord for proper
function, to prevent the cord from touching the CRT, hot components, or heat sinks.
• Check the electrical DC resistance between the AC plug and the secondary side (only for sets that have an isolated power supply). Do this as follows:1. Unplug the AC power cord and connect a wire between
the two pins of the AC plug.2. Turn on the main power switch (keep the AC power
cord unplugged!).3. Measure the resistance value between the pins of the
AC plug and the metal shielding of the tuner or the aerial connection of the set. The reading should be between 4.5 MΩ and 12 MΩ.
4. Switch the TV OFF and remove the wire between the two pins of the AC plug.
• Check the cabinet for defects, to prevent the possibility of the customer touching any internal parts.
2.2 Maintenance Instructions
It is recommended to have a maintenance inspection carried out by qualified service personnel. The interval depends on the usage conditions:• When the set is used under normal circumstances, for
example in a living room, the recommended interval is three to five years.
• When the set is used in an environment with higher dust, grease or moisture levels, for example in a kitchen, the recommended interval is one year.
• The maintenance inspection includes the following actions:1. Perform the 'general repair instruction' noted above.2. Clean the power supply and deflection circuitry on the
chassis.3. Clean the picture tube panel and the neck of the picture
tube.
2.3 Warnings
• In order to prevent damage to ICs and transistors, avoid all high voltage flashovers. In order to prevent damage to the picture tube, use the method shown in Fig. 2-1, to discharge the picture tube. Use a high voltage probe and a multi-meter (position VDC). Discharge until the meter reading is 0 V (after approx. 30 s).
Figure 2-1
• All ICs and many other semiconductors are susceptible to electrostatic discharges (ESD). Careless handling during repair can reduce life drastically. When repairing, make sure that you are connected with the same potential as the mass of the set by a wristband with resistance. Keep components and tools also at this potential. Available ESD protection equipment:– Complete kit ESD3 (small tablemat, wristband,
connection box, extension cable, and ground cable) 4822 310 10671.
– Wristband tester 4822 344 13999.• Together with the deflection unit and any multi-pole unit,
flat square picture tubes form an integrated unit. The deflection and the multi-pole units are set optimally at the factory. Adjustment of this unit during repair is therefore not recommended.
• Be careful during measurements in the high voltage section and on the picture tube.
• Never replace modules or other components while the unit is switched ON.
• When you align the set, use plastic rather than metal tools. This will prevent any short circuits and the danger of a circuit becoming unstable.
2.4 Notes
• Measure the voltages and waveforms with regard to the chassis (= tuner) ground (), or hot ground (), depending on the area of circuitry being tested.
• The voltages and waveforms shown in the diagrams are indicative. Measure them in the Service Default Mode (see chapter 5) with a color bar signal and stereo sound (L: 3 kHz, R: 1 kHz unless stated otherwise) and picture carrier at 475.25 MHz (PAL) or 61.25 MHz (NTSC, channel 3).
• Where necessary, measure the waveforms and voltages with () and without ( ) aerial signal. Measure the voltages in the power supply section both in normal operation () and in standby (). These values are indicated by means of the appropriate symbols.
• The picture tube panel has printed spark gaps. Each spark gap is connected between an electrode of the picture tube and the Aquadag coating.
• The semiconductors indicated in the circuit diagram and in the parts lists are completely interchangeable per position with the semiconductors in the unit, irrespective of the type indication on these semiconductors.
V
CL 26532098/042140792
Directions for UseEN 6 L01.1E AB3.
3. Directions for Use
3
Rem
ote
co
ntr
ol ke
ys
To d
ispl
ay / c
lear
the
pro
gram
num
ber,
nam
e (if
it e
xist
s),t
ime,
audi
o m
ode
and
time
rem
aini
ng fo
rth
e sl
eep
feat
ure.
Pres
s th
e ke
y fo
r5
seco
nds
to a
ctiv
ate
perm
anen
tdi
spla
y of t
he n
umbe
r.T
his
key
isal
so u
sed
to e
xit
from
the
men
u.
Scr
een
info
rmat
ion
/per
man
ent
no.
VC
R k
ey (
p.1
1)
Incr
ed
ible
Su
rro
un
d(o
nly
avai
labl
e on
cer
tain
ver
sion
s)To
act
ivat
e /
disa
ble
the
Incr
edib
le S
urro
und
feat
ure.
Inst
ereo
,the
spe
aker
s ap
pear
furt
her
apar
t.In
mono
,a p
seud
o-
spat
ial s
tere
o e
ffect
is o
btai
ned.
Pre
-set
sou
nd
Use
d to
acc
ess
a se
ries
of s
tore
dse
ttin
gs: S
pe
ec
h,M
usi
c,T
he
atr
ean
d re
turn
to P
ers
on
al.
Men
uTo
cal
l up
or
exit t
he m
enus
.
Vo
lum
eTo
adj
ust
the
soun
d le
vel
Cu
rso
rT
hese
4 k
eys
are
used
to m
ove
aroun
d th
e m
enus
or
provi
dedi
rect
acc
ess
to t
he d
iffer
ent
16:9
form
ats
(p.9
).
Nu
mb
er
keys
Dir
ect
acce
ss t
o t
he p
rogr
amm
es.
For
a 2
digi
t pr
ogr
am,e
nter
the
2nd
digi
t be
fore
the
das
hdi
sapp
ears
.
Sele
ctio
n o
f E
XT
so
cket
Pres
s se
vera
l tim
es t
o s
elec
tEX
T1,
EXT
2,S-
VH
S an
d A
V.
Rad
io /
TV
mo
de
To s
witch
the
TV
set
to r
adio
or
TV
mode
(fo
r ve
rsio
ns e
quip
ped
with
radi
o).
Sta
nd
by
Lets
you
plac
e th
e T
V s
et o
nst
andb
y.To
tur
n on
the
TV,
pres
sP@@
,b,0
to 9
(or Â
).
Tele
text
keys
(p.8
),V
CR
key
s(p
.11)
and
list
of r
adio
sta
tions
ı(p
.5)
Sle
ep
To s
elec
t an
aut
omat
ic s
tand
by a
fter
apr
eset
tim
e (fr
om 0
to
240
min
utes
).
16:9
mo
des
(p.9
)
Pre
-set
imag
eU
sed
to a
cces
s a
seri
es o
f sto
red
sett
ings
: Bri
gh
t,N
atu
ral,
So
ft,
Mu
ltim
ed
iaan
d re
turn
to P
ers
on
al.
Mu
teTo
mut
e or
rest
ore
the
soun
d.
Pro
gram
sele
ctio
n
To a
cces
s th
e ne
xt o
r pr
evio
uspr
ogr
amm
e.T
he n
umbe
r,(n
ame)
and
soun
d m
ode
are
dis
play
ed fo
ra
few
mom
ents
.Fo
r so
me
prog
ram
s,th
e tit
le o
f the
prog
ram
will b
e di
spla
yed
at t
hebo
ttom
of t
he s
cree
n.
So
un
d m
od
eU
sed
to fo
rce
progr
amm
es in
Ste
reo
to M
on
oor,
for
bilin
gual
progr
ams,
to c
hoose
bet
wee
n D
ua
lIor
Du
alI
I.Fo
r T
V s
ets
equi
pped
for
Nic
am r
ecep
tion,
depe
ndin
g on
the
progr
amm
es,y
ou
can
forc
e th
eS
tere
o N
ica
mso
und
to M
on
oor
sele
ct b
etw
een
Nic
am
Du
al I
,N
ica
m D
ua
lIIan
d M
on
o.
The
Mo
no
indi
catio
n is red
whe
n in
forc
ed p
ositi
on.
Tele
text
(p.8
)
Tele
text
keys
(p.8
)or V
CR
key
s (p
.11)
2
The
tel
evis
ion
set
has
4 ke
ys w
hich
are
loca
ted
on
the
front
or
the
top
of t
he s
et d
epen
ding
on
the
mode
l.
The
VO
LUM
E -
+ (
- ”
+)
keys
are
use
d to
adju
st s
ound
leve
ls.T
he P
ROG
RA
M -
+ (
- P
+)
keys
are
use
d to
sel
ect
the
requ
ired
pro
gram
mes
.To
acc
ess
the
men
us,s
imul
tane
ous
ly h
old
dow
nth
e ”
- an
d ”
+ k
eys.
The
PRO
GR
AM
- +
keys
may
the
n be
use
d to
sel
ect
an a
djus
tmen
tan
d th
e - ”
+ k
eys
to m
ake
that
adj
ustm
ent.
To e
xit
from
the
men
us,h
old
dow
n th
e 2 ”
-an
d ”
+ k
eys.
Not
e:w
hen
the
Ch
ild L
ock
func
tion
is a
ctiva
ted,
thes
e ke
ys a
re u
nava
ilabl
e (r
efer
to
Fe
atu
res
men
u on
pag
e 7)
.
&P
osi
tio
nin
g th
e t
ele
visi
on
set
Plac
e yo
ur T
V o
n a
solid
,sta
ble
surf
ace,
leav
ing
a sp
ace
of a
t le
ast
5 cm
aro
und
the
appl
ianc
e.To
avo
id a
ccid
ents
,do n
ot
put
anyt
hing
on
the
set
such
as
a cl
oth
or
cove
r,a
cont
aine
r fu
ll of
liqui
d (v
ase)
or
a he
at s
our
ce (
lam
p).T
he s
etm
ust
not
be e
xpose
d to
wat
er.
éC
on
nect
ion
s
• In
sert
the
aer
ial p
lug
into
the
:so
cket
at
the
rear
of t
he s
et.
• Fo
r th
e ve
rsio
ns e
quip
ped
with
a ra
dio:
inse
rt t
he r
adio
aer
ial s
ock
et in
to t
he F
MA
NT
sock
et u
sing
the
ada
pter
sup
plie
d.If
you
are
usin
g an
indo
or a
eria
l,rec
eptio
n m
ay b
edi
fficu
lt in
cer
tain
con
ditio
ns.You
can
impr
ove
rece
ptio
n by
rota
ting
the
aeria
l.If t
he re
cept
ion
rem
ains
poo
r,you
will
need
to u
se a
n ex
tern
al a
eria
l.•
Inse
rt t
he m
ains
plu
g in
to a
wal
l sock
et (
220-
240
V /
50
Hz)
.
“R
em
ote
co
ntr
ol
Inse
rt t
he t
wo R
6-ty
pe b
atte
ries
(su
pplie
d)m
akin
g su
re t
hat
they
are
the
rig
ht w
ay r
oun
d.C
heck
tha
t th
e m
ode
sel
ecto
r is
set
to T
V.T
he b
atte
ries
sup
plie
d w
ith
this
app
lianc
e do
not
cont
ain
mer
cury
or
nick
el c
adm
ium
.If y
ou
have
acc
ess
to a
rec
yclin
g fa
cilit
y,pl
ease
do n
ot
disc
ard
your
use
d ba
tter
ies
(if i
n do
ubt,
cons
ult
your
dea
ler)
.Whe
n th
e ba
tter
ies
are
repl
aced
,use
the
sam
e ty
pe.
‘S
wit
chin
g o
n
To s
witch
on
the
set,
pres
s th
e on/
off
key.
A r
ed in
dica
tor
com
es o
n an
d th
e sc
reen
light
s up
.Go s
trai
ght
to t
he c
hapt
er Q
uick
inst
alla
tion
on
page
4.
If th
e te
levi
sion
rem
ains
in s
tand
by m
ode
,pr
ess
P#
on
the
rem
ote
cont
rol.
The
indi
cato
r w
ill fl
ash
whe
n yo
u us
e th
ere
mote
cont
rol.
5 cm
5 cm
5 cm
FM
.A
NT.
Inst
allin
g yo
ur
tele
visi
on
set
Th
e k
eys
on
th
e T
V s
et
Directions for Use EN 7L01.1E AB 3.
5
Man
ual
sto
re
Oth
er
sett
ings
in
th
e I
nst
all m
en
u
Thi
s m
enu
is u
sed
to s
tore
the
pro
gram
mes
one
at
a tim
e.&
Pres
s th
e H
key.
éW
ith
the
curs
or,
sele
ct t
he I
nst
allm
enu
then
Man
ual
sto
re:
“S
yste
m:s
elec
t E
uro
pe
(aut
om
atic
det
ectio
n*)
or
We
ste
rn E
uro
pe
(BG
sta
ndar
d),E
aste
rnE
uro
pe
(DK
sta
ndar
d),U
nit
ed K
ingd
om
(Ist
anda
rd)
or
Fra
nce
(LL’
sta
ndar
d).
* Exc
ept
for Fr
ance
(LL
’sta
ndar
d),y
ou m
ust
sele
ctch
oice
Fra
nce
.‘
Sear
ch:pr
ess ¬
.The
sea
rch
star
ts.O
nce
apr
ogr
amm
e is
foun
d,th
e sc
anni
ng s
tops
and
its
nam
e is
dis
play
ed (
whe
n av
aila
ble)
.Go t
o t
hene
xt s
tep.
If yo
u kn
ow
the
freq
uenc
y of t
here
quir
ed p
rogr
amm
e,th
is c
an b
e en
tere
ddi
rect
ly u
sing
the
0to
9ke
ys.
If no
pict
ure
is fo
und,
cons
ult t
he p
ossib
le s
olut
ions
(p.1
2).
(P
rogr
am N
o.:
ente
r th
e re
quir
ed n
umbe
rw
ith
the Ȭ
or 0
to 9
keys
.§
Fin
e T
un
e:if
the
rece
ptio
n is
not
satisf
acto
ry,
adju
st u
sing
the
Ȭ
keys
.è
Sto
re:pr
ess ¬
.The
pro
gram
is s
tore
d.!
Rep
eat
step
s ‘
to !
for
each
pro
gram
me
tost
ore.
çTo
qui
t th
e m
enus
,pre
ss d
.
&Pr
ess
the H
key
and
sele
ct t
he I
nst
allm
enu:
éL
angu
age:to
cha
nge
the
disp
lay
lang
uage
for
the
men
us.
“C
ou
ntr
y:to
sel
ect
your
coun
try
(GB
for
Gre
at B
rita
in).
This s
ettin
g is u
sed
for th
e se
arch
,aut
omat
icpr
ogra
mm
e so
rt a
nd t
elet
ext
disp
lay.
If yo
urco
untr
y do
es n
ot a
ppea
r in
the
list
,sel
ect “
...”
‘A
uto S
tore
:to s
tart
aut
om
atic
sea
rch
for
all
progr
amm
es a
vaila
ble
in y
our
reg
ion.
If th
etr
ansm
itte
r or
cabl
e ne
twork
sen
ds t
he
auto
mat
ic s
ort
sig
nal,
the
progr
amm
es w
ill b
enu
mbe
red
corr
ectly.
If th
is is
not
the
case
,you
need
to u
se t
he S
ort
men
u to
ren
umbe
r th
epr
ogr
amm
es (
see
p.4)
.So
me
tran
smitt
ers
or c
able
net
wor
ks b
road
cast
thei
r ow
n so
rt p
aram
eter
s (r
egio
n,la
ngua
ge,e
tc.).
In t
his
case
,ind
icat
e yo
ur c
hoic
e us
ing
the îÏ
keys
and
val
idat
e w
ith ¬
.To
quit
or in
terr
upt
the
sear
ch,p
ress
H.I
f no
pict
ure
is fo
und,
cons
ult
the
poss
ible
sol
utio
ns (
p.12
).(
To q
uit
the
men
us,p
ress
d.
Usi
ng
the r
adio
(onl
y av
aila
ble
on c
erta
in v
ersion
s)
Ch
oic
e o
f TV
or
rad
io m
od
ePr
ess
the Â
key
on
the
rem
ote
cont
rol t
osw
itch
the
TV
set
to e
ithe
r T
V o
r ra
dio m
ode
.In
rad
io m
ode
,the
num
ber,
stat
ion
nam
e (if a
vaila
ble)
,fre
quen
cy a
nd s
oun
d m
ode
are
disp
laye
d on
the
scre
en.T
o en
ter th
e st
atio
nna
mes
,use
the
Nam
em
enu
(p.4
)P
rogr
am s
ele
ctio
n
Use
the
09
or @
P#
keys
to s
elec
t th
eFM
sta
tions
(fr
om
1 t
o 4
0).
Lis
t o
f ra
dio
sta
tio
ns
Pres
s th
e ı
key
to d
ispl
ay t
he li
st o
f rad
iost
atio
ns r
adio
.Use
the
îÏ
keys
to c
hang
est
atio
n an
d th
e d
key
to e
xit.
Usi
ng
the r
adio
men
us
Use
the
Hke
y to
acc
ess
the
spec
ific
radi
ose
ttin
g.S
ear
ch f
or
rad
io s
tati
on
s If
you
used
the
qui
ck in
stal
lation,
all a
vaila
ble
FM s
tations
hav
e al
read
y be
en s
tore
d.To
sta
rta
new
sea
rch,
use
the
Inst
all :A
uto
Sto
rem
enu
(for
a co
mpl
ete
sear
ch)
or
Man
ual
Sto
re(f
or
a st
atio
n by
sta
tion
sear
ch).
The
So
rtan
d N
ame m
en
us
let
you
sort
or
nam
eth
e ra
dio s
tations
.Ope
ration
of t
hese
men
us is
the
sam
e as
for
the
TV
men
us.
Ma
ing
e•
Pic
ture
• S
ou
nd
• F
ea
ture
s$
Inst
all
Ma
nu
al
Sto
re$
Sys
tem
Eu
rop
e Æ
• S
ea
rch
• P
rog
ram
No
.•
Fin
e T
un
e•
Sto
re
4
Qu
ick in
stal
lati
on
Pro
gram
so
rt
Pro
gram
nam
e
The
firs
t tim
e yo
u sw
itch
on
the
tele
visi
on,
am
enu
appe
ars
on
the
scre
en a
nd t
he t
unin
gst
arts
aut
om
atic
ally
.
If th
e m
enu
is n
ot d
ispl
ayed
,pre
ss a
nd h
old
dow
nth
e ”
- an
d ”
+ k
eys
on t
he T
V se
t fo
r 5
seco
nds
to s
tart
the
tun
ing.
All
the
avai
labl
e T
V p
rogr
ams
and
radi
o s
tations
*w
ill b
e st
ore
d.T
his
ope
ration
take
s a
few
min
utes
.The
dis
play
sho
ws
the
progr
ess
of t
he
sear
ch a
nd t
he n
umbe
r of p
rogr
ams
foun
d.A
t th
e en
d of t
he s
earc
h,th
e m
enu
disa
ppea
rs.
To e
xit o
r int
erru
pt th
e se
arch
,pre
ss H
.If
no p
rogr
am is
foun
d,co
nsul
t the
pos
sible
sol
utio
nsp.
12.
&If
the
tran
smitte
r or
cabl
e ne
twork
sen
ds t
heau
tom
atic
sort
sig
nal,
the
progr
ams
will
be
num
bere
d co
rrec
tly.
In t
his
case
,the
inst
alla
tion
is c
om
plet
e.é
If th
is is
not
the
case
,you
need
to u
se t
heS
ort
men
u to
num
ber
the
progr
ams
corr
ectly.
Som
e tran
smitt
ers
or c
able
net
wor
ks b
road
cast
thei
r ow
n so
rt p
aram
eter
s (r
egio
n,la
ngua
ge,e
tc.).
In t
his
case
,ind
icat
e yo
ur c
hoic
e us
ing
the îÏ
keys
and
val
idat
e w
ith ¬
.*
Onl
y on
ver
sion
s eq
uipp
ed w
ith a
radi
o.
&Pr
ess
key H
.The
Mai
n m
en
uis
dis
play
ed o
nth
e sc
reen
.é
With
the
curs
or,
sele
ct t
he I
nst
allm
enu
follo
wed
by
the
So
rtm
enu.
“Se
lect
the
pro
gram
me
you
wan
t to
move
usi
ngth
e îÏ
keys
and
pre
ss ¬
.‘
The
n us
e th
e îÏ
keys
to s
elec
t th
e ne
wnu
mbe
r an
d va
lidat
e w
ith È
.(
Rep
eat
step
s “
and ‘
for
each
pro
gram
you
wis
h to
ren
umbe
r.§
To q
uit
the
men
us,p
ress
d.
If re
quir
ed,y
ou
can
give
a n
ame
to t
hepr
ogr
amm
es a
nd e
xter
nal c
onn
ecto
rs.
Not
e:on
inst
alla
tion,
the
prog
ram
s ar
e na
med
auto
mat
ical
ly w
hen
an id
entif
icat
ion
sign
al is
sen
t.&
Pres
s th
e H
key.
éW
ith
the
curs
or,
sele
ct t
he I
nst
allm
enu,
then
Nam
e“
Use
the
îÏ
keys
to s
elec
t th
e pr
ogr
amm
eto
nam
e or
rena
me.
‘U
se t
he Ȭ
keys
to m
ove
aro
und
the
nam
e di
spla
y ar
ea (
5 ch
arac
ters
) an
d th
eîÏ
keys
to s
elec
t th
e ch
arac
ters
.(
Whe
n th
e na
me
has
been
ent
ered
,use
the
Èke
y to
exi
t.T
he n
ame
is s
tore
d.§
Rep
eat
step
s “
to (
for
each
pro
gram
me
you
wis
h to
nam
e.è
To q
uit
the
men
us,p
ress
d.
Au
to S
tore
• P
rog
ram
2•
TV
470
MH
z•
•••
••••
••••
••••
••••
••••
••••
••••
•
Ma
ing
e•
Pic
ture
• S
ou
nd
• F
ea
ture
s$
Inst
all
Inst
all
• L
an
gu
ag
e•
Co
un
try
• A
uto
Sto
re•
Ma
nu
al
Sto
re$
So
rtÆ
• N
am
e
00
01
T
F1
02
FR
203Æ
FR
304
C
+05
A
RT
E
Directions for UseEN 8 L01.1E AB3.
7
Tim
er
fun
ctio
n(o
nly
avai
labl
e on
cer
tain
ver
sion
s)
TV
lo
ck(o
nly
avai
labl
e on
cer
tain
ver
sion
s)
Thi
s m
enu
lets
you
use
the
TV
set
as
an a
larm
.&
Pres
s th
e H
key.
éW
ith
the
curs
or,
sele
ct t
he O
ptio
ns m
enu
then
Tim
er
:“
Sle
ep
:to
sel
ect
an a
utom
atic
sta
ndby
per
iod.
This s
ettin
g is a
lso
avai
labl
e via
the `
key
on t
here
mot
e co
ntro
l.‘
Tim
e:en
ter
the
curr
ent
tim
e.N
ote:
the
time
is u
pdat
ed a
utom
atic
ally e
ach
time
the
TV s
et is
sw
itche
d on
via
the
tel
etex
tin
form
atio
n on
pro
gram
no.
1.If
this p
rogr
am d
oes
not
have
tel
etex
t,th
e up
date
will n
ot t
ake
plac
e.
(S
tart
Tim
e:en
ter
the
star
t tim
e.§
Sto
p T
ime:en
ter
the
stan
dby
tim
e.è
Pro
gram
No
.:en
ter
the
num
ber
of t
hepr
ogr
amm
e fo
r th
e w
ake-
up a
larm
.For
mode
lseq
uipp
ed w
ith
a ra
dio,
you
can
sele
ct a
n FM
stat
ion
by u
sing
the
Ȭ
keys
(th
e 09
keys
are
onl
y us
ed t
o s
elec
t TV
pro
gram
s).
!A
ctiv
ate:th
e se
ttin
gs in
clud
e:•
On
cefo
r a
sing
le a
larm
,•
Dai
lyfo
r ea
ch d
ay,
• S
top
to c
ance
l.ç
Pres
s b
to p
ut t
he T
V s
et in
sta
ndby
.It
will
auto
mat
ical
ly c
ome
on a
t th
e tim
e pr
ogra
mm
ed.
If yo
u le
ave
the
TV
set
on,
it w
ill ju
st c
hang
epr
ogra
mm
es a
t th
e tim
e en
tere
d (a
nd w
ill g
o to
stan
dby
mod
e at
the
Sto
p T
ime)
.By
com
bini
ng t
he T
V lo
ckan
d T
imer
func
tions
,yo
u ca
n re
stric
t th
e pe
riod
durin
g w
hich
the
TV
set
is u
sed,
for ex
ampl
e by
you
r ch
ildre
n.
You
can
block
cer
tain
pro
gram
s or
inhi
bit
use
of t
he T
V s
et c
om
plet
ely
by lo
ckin
g th
e ke
ys.
Ch
ild lo
ck&
Pres
s H
.é
With
the
curs
or,
sele
ct t
he O
pti
on
sm
enu
and
posi
tion
Ch
ild L
ock
to O
n.
“Tu
rn o
ff th
e T
V s
et a
nd h
ide
the
rem
ote
cont
rol.T
he T
V s
et c
anno
t be
use
d (e
xcep
t vi
ath
e re
mote
cont
rol).
‘To
can
cel:
posi
tion
Ch
ild L
ock
to O
ff.
Par
en
tal co
ntr
ol
&Pr
ess
the H
key,
sele
ct t
he F
eat
ure
sm
enu
then
Par
en
tal C
on
t.:
éYo
u m
ust
ente
r yo
ur s
ecre
t ac
cess
code
.
The
firs
t tim
e yo
u en
ter
this
,ent
er c
ode
071
1tw
ice
and
then
ent
er y
our
new
code
cho
ice.
The
men
u is
dis
play
ed.
“P
aren
tal C
on
t.:U
se t
he îÏ
keys
to
sele
ct t
he T
V p
rogr
amm
e re
quir
ed a
nd v
alid
ate
with ¬
.The
+sy
mbo
l will
be
disp
laye
dopp
osi
te t
he p
rogr
amm
es o
r so
cket
s th
at a
relo
cked
.Fro
m n
ow
on,
to v
iew
a lo
cked
progr
amm
e,yo
u m
ust
ente
r yo
ur s
ecre
t co
de,
oth
erw
ise
the
scre
en w
ill s
tay
blan
k.Th
e ac
cess
to
the
Inst
all
men
u is a
lso
lock
ed.
Cau
tion,
for e
ncry
pted
pro
gram
s us
ing
an e
xter
nal
deco
der,yo
u m
ust l
ock
the
corres
pond
ing
EXT
sock
et.
‘C
han
ge c
od
e:th
is a
llow
s yo
u to
ent
er a
new
4 di
git
code
.Conf
irm
your
new
code
by
ente
ring
it a
sec
ond
tim
e.If
you
have
forg
otte
n yo
ur s
ecre
t co
de,e
nter
the
univer
sal c
ode
0711
tw
ice.
(U
nlo
ck a
ll:th
is is
use
d to
unl
ock
all
lock
edpr
ogr
amm
es.
§L
ock
All:
this
is u
sed
to lo
ck a
ll th
e T
Vpr
ogr
amm
es a
nd E
XT
conn
ecto
rs.
èPr
ess
the d
key
to q
uit.
Ma
ing
e•
Pic
ture
• S
ou
nd
$F
ea
ture
s•
Inst
all
Tim
er
• S
lee
p
$T
ime
10:5
6•
Sta
rt T
ime
• S
top
Tim
e•
Pro
gra
m N
o.
• A
cti
vate
Ma
ing
e•
Pic
ture
• S
ou
nd
$F
ea
ture
s•
Inst
all
Fe
atu
res
• T
ime
r•
Ch
ild L
oc
kA
rrê
t•
Pa
ren
tal C
on
t.•
Ro
tati
on
• C
on
tra
st +
• N
R
6
Pic
ture
sett
ings
So
un
d a
dju
stm
en
ts
&Pr
ess H
then
¬.T
he P
ictu
rem
enu
isdi
spla
yed:
éU
se t
he îÏ
keys
to s
elec
t a
sett
ing
and
the Ȭ
keys
to a
djus
t.N
ote:
durin
g th
e pi
ctur
e ad
just
men
t,on
ly t
hese
lect
ed li
ne rem
ains
displ
ayed
.Pre
ss îÏ
todi
spla
y th
e m
enu
agai
n.
“O
nce
the
adju
stm
ents
hav
e be
en m
ade,
sele
ctS
tore
and
pres
s ¬
to s
tore
the
m.P
ress
dto
exi
t.D
esc
rip
tio
n o
f th
e a
dju
stm
en
ts:
• B
righ
tness
:th
is c
hang
es p
ictu
re b
rilli
ance
.•
Co
lou
r:th
is c
hang
es t
he in
tens
ity o
f the
col
our.
• C
on
tras
t:th
is c
hang
es t
he d
iffer
ence
betw
een
the
light
and
dar
k to
nes.
• S
har
pn
ess:
this
cha
nges
the
pic
ture
def
initi
on.
• C
olo
ur
Tem
p.:
this
cha
nges
the
colo
urre
nder
ing:
Co
ld(b
luer
),N
orm
al(b
alan
ced)
or
Wa
rm(r
edde
r).
• S
tore
:to
sto
re t
he p
ictu
re a
djus
tmen
ts a
ndse
ttin
gs (
as w
ell a
s th
e se
ttin
gs fo
r C
on
tra
st +
and
NR
in t
he F
ea
ture
sm
enu)
.
&Pr
ess H
,sel
ect
Soun
d (Ï
) an
d pr
ess ¬
.T
he S
ou
nd
men
u is
dis
play
ed:
éU
se t
he îÏ
keys
to s
elec
t a
sett
ing
and
the Ȭ
keys
to a
djus
t.“
Onc
e th
e ad
just
men
ts h
ave
been
mad
e,se
lect
Store
and
pre
ss ¬
to s
tore
the
se c
hang
es.
‘To
qui
t th
e m
enus
,pre
ss d
.
Desc
rip
tio
n o
f th
e s
ett
ings
:•
Tre
ble
:thi
s al
ters
the
hig
h fr
eque
ncy
soun
ds.
• B
ass:
this
alter
s th
e lo
w fr
eque
ncy
soun
ds.
• B
alan
ce:t
his
bala
nces
the
soun
d on
the
left
and
righ
t sp
eake
rs.
• D
elt
a V
olu
me*:
this
is u
sed
to c
om
pens
ate
any
volu
me
disc
repa
ncie
s be
twee
n th
edi
ffere
nt p
rogr
ams
or
EXT
sock
ets.
Thi
sse
ttin
g is
ava
ilabl
e fo
r pr
ogr
ams
0 to
40
and
the
EXT
sock
ets.
• A
VL
*(A
utom
atic
Volu
me
Leve
ller)
:thi
s is
used
to li
mit in
crea
ses
in s
oun
d,es
peci
ally
on
progr
am c
hang
e or
adve
rtis
ing
slots
.•
Sto
re:t
his
is u
sed
to s
tore
the
sou
nd s
ettin
gs.
*O
nly
avai
labl
e on
cer
tain
ver
sion
s.
Feat
ure
sett
ings
&Pr
ess H
,sel
ect
Fe
atu
res
(Ï)
and
pres
s ¬
.Yo
u ca
n ad
just
:é
Tim
er,
Ch
ild L
ock
and
Pa
ren
tal C
on
t.:se
ene
xt p
age
“C
on
tras
t +
:au
tom
atic
adj
ustm
ent
of t
hepi
ctur
e co
ntra
st w
hich
per
man
ently
sets
the
dark
est
part
of t
he p
ictu
re t
o b
lack
.‘
NR
:at
tenu
ates
pic
ture
nois
e (s
now
) in
diff
icul
tre
cept
ion
cond
itio
ns.
Cau
tion:
to s
tore
the
Co
ntr
ast
+an
d N
Rse
ttin
gs,u
se t
heS
tore
choi
ce in
the
Pic
ture
men
u.(
Ro
tati
on
(onl
y av
aila
ble
on
very
larg
e sc
reen
sets
):la
rge
scre
en s
ets
are
sens
itiv
e to
terr
estr
ial m
agne
tic
field
var
iations
.Thi
s se
ttin
gis
use
d to
com
pens
ate
for
this
by
adju
stin
g th
epi
ctur
e ro
tation.
§To
qui
t th
e m
enus
,pre
ss d
.
Ma
ing
e
$P
ictu
re•
So
un
d•
Fe
atu
res
• In
sta
ll
Pic
ture
$B
rig
htn
ess
--I-
----
- 39
• C
olo
ur
• C
on
tra
st•
Sh
arp
ne
ss•
Co
lou
r Te
mp
.•
Sto
re
Ma
ing
e•
Pic
ture
$S
ou
nd
• F
ea
ture
s•
Inst
all
So
un
d•
Tre
ble
----
-I--
- 56
• B
ass
• B
ala
nc
e•
De
lta
Vo
lum
e•
AV
L•
Sto
re
Directions for Use EN 9L01.1E AB 3.
9
16:9
Fo
rmat
sT
he p
ictu
res
you
rece
ive
may
be
tran
smitte
d in
16:
9 fo
rmat
(w
ide
scre
en)
or
4:3
form
at(c
onv
entiona
l scr
een)
.4:3
pic
ture
s so
met
imes
hav
e a
blac
k ba
nd a
t th
e to
p an
d bo
ttom
of t
he s
cree
n(let
terb
ox fo
rmat
).T
his
func
tion
allo
ws
you
to o
ptim
ise
the
pict
ure
disp
lay
on
scre
en.
Au
tom
atic
sw
itch
ing
Thi
s T
V s
et is
als
o e
quip
ped
with
auto
mat
ic s
witch
ing
whi
ch w
ill s
elec
t th
e co
rrec
t-sc
reen
form
at,
provi
ded
the
spec
ific
sign
als
are
tran
smitte
d w
ith
the
progr
amm
es.
This a
utom
atic
form
at c
an o
lso
be m
odifi
ed m
anua
lly.
Usi
ng
the d
iffe
ren
t sc
reen
fo
rmat
sPr
ess
the ¬
key
(or È
) to
sel
ect
the
diffe
rent
mode
s:4:
3,Z
oo
m 1
4:9,
Zo
om
16:
9,S
ub
titl
e Z
oo
m,S
up
er
Wid
ean
d W
ide
scre
en.
You
can
also
acc
ess
thes
e se
ttin
gs w
ith k
ey p
.
4:3
Mo
de
The
pic
ture
is r
epro
duce
d in
4:3
form
at a
nd a
bla
ck b
and
isdi
spla
yed
on
eith
er s
ide
of t
he p
ictu
re.T
he p
ictu
re m
ay b
epr
ogr
essi
vely
enl
arge
d us
ing
the îÏ
keys
.
Zo
om
14:9
Mo
de
The
pic
ture
is e
nlar
ged
to 1
4:9
form
at,a
thi
n bl
ack
band
rem
ains
on
both
sid
es o
f the
pic
ture
.The
îÏ
keys
allo
wyo
u to
com
pres
s an
d m
ove
the
imag
e ve
rtic
ally
to v
iew
the
top
or
bott
om
of t
he p
ictu
re (
subt
itle
s).
Zo
om
16:9
Mo
de
The
pic
ture
is e
nlar
ged
to 1
6:9
form
at.T
his
mode
isre
com
men
ded
whe
n di
spla
ying
pic
ture
s w
hich
hav
e bl
ack
band
s at
the
top
and
bott
om
(le
tter
box
form
at).
Use
the
îÏ
keys
if y
ou
wis
h to
com
pres
s an
d m
ove
the
imag
e ve
rtic
ally
to v
iew
the
top
or
bott
om
of t
he p
ictu
re.
Su
bti
tle Z
oo
m M
od
eT
his
mode
is u
sed
to d
ispl
ay 4
:3 p
ictu
res
usin
g th
e fu
llsu
rfac
e of t
he s
cree
n le
avin
g th
e su
b-titles
vis
ible
.U
se t
he îÏ
keys
to in
crea
se o
r de
crea
se t
heco
mpr
essi
on
at t
he b
ott
om
of t
he s
cree
n.
Su
per
Wid
e M
od
eT
his
mode
is u
sed
to d
ispl
ay 4
:3 p
ictu
res
usin
g th
e fu
llsu
rfac
e of t
he s
cree
n by
enl
argi
ng t
he s
ides
of t
he p
ictu
re.
The
îÏ
keys
allo
w y
ou
to s
croll
the
imag
e up
or
dow
nth
e sc
reen
.
Wid
esc
reen
Mo
de
Thi
s m
ode
res
tore
s th
e co
rrec
t pr
opo
rtio
ns o
f pic
ture
str
ansm
itte
d in
16:
9 us
ing
full
scre
en d
ispl
ay.
Not
e:If
you
disp
lay
a 4:
3 pi
ctur
e in
thi
d m
ode,
it w
ill b
e en
larg
edho
rizon
tally
.
8
Tele
text
Pre
ss :
Yo
u w
ill o
bta
in:
Tele
text
is a
n in
form
atio
n sy
stem
bro
adca
st b
y ce
rtai
n ch
anne
ls w
hich
can
be
cons
ulte
d lik
e a
new
spap
er.I
t al
so o
ffers
acc
ess
to s
ubtitles
for
view
ers
with
hear
ing
probl
ems
or
who
are
not
fam
iliar
with
the
tran
smis
sion
lang
uage
(ca
ble
netw
ork
s,sa
telli
te c
hann
els,
etc.
).
12
POW
ER
RAD
IOSM
ART
- TV
- VC
R
I.S.
SMAR
T
MEN
U
56
4
87
9
0ù
·¢
ÊÆ
∫ı Ÿ
Ó› Ë
`∏
™
%
Y
3P-
-
++
”
¤
.
ª-
[
¤
09
Ë ËŸÓ›™ MEN
U
Tele
text
call
Sele
ctin
g a
pag
e
Thi
s is
use
d to
cal
l tel
etex
t,ch
ange
to t
rans
pare
nt m
ode
and
then
exi
t.T
he s
umm
ary
appe
ars
with
a lis
t of i
tem
sth
at c
an b
e ac
cess
ed.E
ach
item
has
a c
orr
espo
ndin
g 3
digi
t pa
ge n
umbe
r.If
the
chan
nel s
elec
ted
does
not
bro
adca
st t
elet
ext,
the
indi
catio
n 10
0 w
ill b
e di
spla
yed
and
the
scre
en w
ill rem
ain
blan
k (in
thi
s ca
se,e
xit
tele
text
and
sel
ect
anot
her ch
anne
l).
Ente
r th
e nu
mbe
r of t
he p
age
requ
ired
usi
ng t
he 0
to 9
or @
P#
keys
,îÏ
.Exa
mpl
e:pa
ge 1
20,e
nter
12
0.T
he n
umbe
r is
dis
play
ed t
op
left
,the
coun
ter
turn
s an
dth
en t
he p
age
is d
ispl
ayed
.Rep
eat
this
ope
ration
to v
iew
anoth
er p
age.
If th
e co
unte
r co
ntin
ues
to s
earc
h,th
is m
eans
tha
t th
e pa
ge is
not
tran
smitt
ed.S
elec
t an
othe
r nu
mbe
r.
Dir
ect
acc
ess
to t
he ite
ms
Colo
ured
are
as a
re d
ispl
ayed
at
the
bott
om
of t
he s
cree
n.T
he 4
colo
ured
key
s ar
e us
ed t
o a
cces
s th
e item
s or
corr
espo
ndin
g pa
ges.
The
colo
ured
are
as fl
ash
whe
n th
e ite
m o
r th
e pa
ge is
not
yet
avai
labl
e.
Co
nte
nts
Thi
s re
turn
s yo
u to
the
cont
ents
pag
e (u
sual
ly p
age
100)
.
Tem
po
rary
sto
pT
his
is u
sed
to t
empo
rari
ly d
isab
le o
r ac
tiva
te t
he t
elet
ext
disp
lay.
En
larg
e a
pag
e
Sto
p s
ub
-pag
eac
qu
isit
ion
Thi
s al
low
s yo
u to
dis
play
the
top
or
bott
om
par
t of t
hepa
ge a
nd t
hen
retu
rn t
o n
orm
al s
ize.
Cer
tain
pag
es c
ont
ain
sub-
page
s w
hich
are
aut
om
atic
ally
disp
laye
d su
cces
sive
ly.T
his
key
is u
sed
to s
top
or
resu
me
sub-
page
acq
uisi
tion.
The
indi
cation _
appe
ars
top
left
.
Hid
den
info
rmat
ion
Fav
ou
rite
pag
es
To d
ispl
ay o
r hi
de t
he c
onc
eale
d in
form
atio
n (g
ames
solu
tions
).
For
tele
text
pro
gram
s 0
to 4
0,yo
u ca
n st
ore
4 fa
vour
ite
page
s w
hich
can
the
n be
acc
esse
d di
rect
ly u
sing
the
colo
ured
key
s (r
ed,g
reen
,yel
low
,blu
e).
&Pr
ess
the H
key
to c
hang
e to
favo
urite
page
s m
ode
.é
Dis
play
the
tel
etex
t pa
ge t
hat
you
wan
t to
sto
re.
“Pr
ess
the
colo
ured
key
of y
our
cho
ice
for
3 se
cond
s.T
he p
age
is n
ow
sto
red.
‘R
epea
t th
e ope
ration
with
the
oth
er c
olo
ured
key
s.(
You
can
now
cons
ult
tele
text
and
your
favo
urite
page
s w
ill a
ppea
r in
colo
ur a
t th
e bo
ttom
of t
hesc
reen
.To r
etri
eve
the
stan
dard
item
s,pr
ess H
.To
cle
ar e
very
thin
g,pr
ess d
for 5
seco
nds.
Directions for UseEN 10 L01.1E AB3.
11
Mak
e th
e co
nnec
tions
as
show
n opp
osi
te.
With
the n
key,
sele
ct A
V.Fo
r a
mon
opho
nic
device
,con
nect
the
aud
io s
igna
l to
the
AUD
IO L
inpu
t.U
se t
he e
key
to rep
rodu
ce t
he s
ound
on t
he le
ft a
nd r
ight
spe
aker
s of
the
TV
set.
Head
ph
on
es
Whe
n he
adph
one
s ar
e co
nnec
ted,
the
soun
d on
the
TV
set
will
be
cut.
The
@P#
keys
are
use
d to
adju
st t
he v
olu
me
leve
l.Th
e he
adph
one
impe
danc
e m
ust
be b
etw
een
32 a
nd60
0 O
hms.
Sid
e c
on
nect
ion
s
VC
R k
eyT
he r
emote
cont
rol l
ets
you
cont
rol t
he m
ain
func
tions
of t
he V
CR
.
Pres
s an
d ho
ld d
ow
n th
e V
CR
key
loca
ted
on
the
side
of t
he r
emote
cont
rol,
then
pre
ss o
ne o
f the
key
s to
acc
ess
the
VC
R fu
nctions
:
bst
andb
y%
progr
amm
ing*
,∫
fast
forw
ard,
Hm
enu
call
*îÏ
sele
ct *
Ȭ
adju
st *
P@#
progr
am s
elec
tion,
·re
cord
,¢
fast
rew
ind,
Êst
op,
Æpl
ay,
09
ente
r a
num
ber
* So
me
func
tions
are
not
ava
ilabl
e on
all VC
Rs.
The
rem
ote
cont
rol i
s co
mpa
tible
with
all VC
Rs u
sing
the
RC5
stan
dard
.
12
POW
ER
RAD
IOSM
ART
- TV
- VC
R
I.S.
SMAR
T
MEN
U
56
4
87
9
0ù
·¢
ÊÆ
∫ı Ÿ
Ó› Ë
`∏
™
%
Y
3P-
-
++
”
¤
.
ª-
[
10C
on
nect
ing
peri
ph
era
l eq
uip
men
tT
he t
elev
isio
n ha
s 2
exte
rnal
sock
ets
situ
ated
at
the
back
of t
he s
et (
EXT
1 an
d EX
T2)
.Th
e EX
T1 s
ocke
t ha
s au
dio,
CVB
S/RG
B in
puts
and
aud
io,C
VBS
outp
uts.
The
EX
T2 s
ocke
t ha
s au
dio,
CVB
S/S-
VHS
inpu
ts a
nd a
udio
,CVB
S ou
tput
s.
Car
ry o
ut t
he c
onn
ections
sho
wn
opp
osi
te,u
sing
a g
ood
qual
ity
euro
conn
ecto
r ca
ble.
If yo
ur v
ideo
rec
orde
r do
es n
ot h
ave
a eu
roco
nnec
tor so
cket
,the
only c
onne
ctio
n po
ssib
le is
via
the
aer
ial c
able
.You
will t
here
fore
need
to
tune
in y
our vide
o re
cord
er's
tes
t sign
al a
nd a
ssig
n it
prog
ram
me
num
ber 0
(ref
er t
o m
anua
l sto
re,p
.6).
To rep
rodu
ce t
he v
ideo
rec
orde
r pi
ctur
e,pr
ess 0
.V
ideo
reco
rder
wit
h d
eco
der
Conn
ect
the
deco
der
to t
he s
econd
eur
oco
nnec
tor
sock
etof t
he v
ideo
rec
ord
er.Y
ou
will
the
n be
abl
e to
rec
ord
scra
mbl
ed t
rans
mis
sions
.
Vid
eo
reco
rder
Sat
elli
te r
ece
iver,
deco
der,
CD
V,g
ames,
etc
.C
arry
out
the
conn
ections
sho
wn
opp
osi
te.
To o
ptim
ise
pict
ure
qual
ity,
conn
ect
the
equi
pmen
t w
hich
produ
ces
the
RG
B s
igna
ls (
digi
tal d
ecode
r,ga
mes
,etc
.) t
oEX
T1,
and
the
equi
pmen
t w
hich
pro
duce
s th
e S-
VH
Ssi
gnal
s (S
-VH
S an
d H
i-8
vide
o r
ecord
ers,
cert
ain
DV
Ddr
ives
) to
EX
T2
and
all o
ther
equ
ipm
ent
to e
ithe
r EX
T1
or
EXT
2.
To c
onn
ect
to a
hi-fi
syst
em,u
se a
n au
dio c
onn
ection
cabl
ean
d co
nnec
t th
e “L
” an
d “R
” out
puts
on
the
TV
set
to t
he“A
UD
IO IN
” “L
” an
d “R
” in
put
on
your
hi-fi
ampl
ifier
.
Oth
er
eq
uip
men
t
Am
plif
ier
(onl
y av
aila
ble
on c
erta
in v
ersion
s)
VCR
EX
T 2
EX
T 1 5
64
87
9
0ù
YTo
sele
ct c
on
nect
ed
eq
uip
men
t Pr
ess
the n
key
to s
elec
t E
XT
1,E
XT
2,S
-VH
S2
(S-V
HS
sign
als
from
the
EX
T2
sock
et)
and
AV
for
conn
ections
on
the
front
pan
el.
Mos
t eq
uipm
ent
(dec
oder
,vid
eo rec
orde
r) c
arrie
s ou
t th
e sw
itchi
ng it
self.
Mechanical Instructions EN 11L01.1E AB 4.
4. Mechanical Instructions
Note: Figures below can deviate slightly from the actual situation, due to the different set executions.
4.1 Rear Cover Removal
1. Remove all (nine) fixation screws of the rear cover: two at the top, two at each side, two at the bottom and one at the SCART connectors.
2. Now pull the rear cover backward to remove it.
4.2 Service Position Main Panel
There are 2 configurations: one without and one with panel bracket. Both have a different service position. Main panel without bracket.1. Disconnect the strain relief of the Mains cord.2. Remove the main panel, by pushing the two centre clips
outward [1]. At the same time pull the panel away from the CRT [2].
3. Disconnect the degaussing coil by removing the cable from (red) connector 0201.
4. Turn the panel 90 degrees counter clockwise [3].5. Flip the panel 90 degrees [4], with the components towards
the CRT.6. Turn the panel with the rear I/O towards the CRT [5].7. Slide the metal heatsink (near the mains transformer 5520)
underneath the right chassis bracket, so the panel is secured [6].
Figure 4-1
Main panel with bracket.1. Disconnect the strain relief of the Mains cord.2. Disconnect the degaussing coil by removing the cable from
(red) connector 0201 [1].3. Remove the panel bracket from the bottom tray, by pulling
it backward [2].4. Turn the chassis tray 90 degrees counter clockwise.5. Move the panel somewhat to the left and flip it 90 degrees
[3], with the components towards the CRT.6. Turn the panel with the rear I/O towards the CRT.7. Place the hook of the tray in the fixation hole of the cabinet
bottom [4] and secure it.
Figure 4-2
B
1
A
CL 16532016_007.ai040401
3
6
45
1
1
2
A
CL 16532016_009.eps220501B
4
3
2
1
Mechanical InstructionsEN 12 L01.1E AB4.
4.3 Side I/O Panel Removal (if present)
1. Remove the complete Side I/O assembly, after unscrewing the 2 fixation screws [1].
2. Release the two fixation clamps [2] and lift the board out of the bracket.
Figure 4-3
4.4 Rear Cover Mounting
Before you mount the rear cover:1. Place the mains cord correctly in its guiding brackets
(strain relief).2. Place all cables in their original position.
CL 06532012_004.eps030200
Service Modes, Error Codes and Fault Finding EN 13L01.1E AB 5.
5. Service Modes, Error Codes and Fault Finding
Index of this chapter:1. Test points.2. Service Modes.3. Problems and Solving Tips (related to CSM).4. ComPair.5. Error Codes.6. The Blinking LED Procedure.7. Protections.8. Repair Tips.
5.1 Test Points
The chassis is equipped with test points printed on the circuit board assemblies. These test points refer to the functional blocks:
Figure 5-1
The numbering is in a logical sequence for diagnostics. Always start diagnosing within a functional block in the sequence of the relevant test points for that block. Perform measurements under the following conditions:• Service Default Mode.• Video: colour bar signal.• Audio: 3 kHz left, 1 kHz right.
5.2 Service Modes
Service Default Mode (SDM) and Service Alignment Mode (SAM) offer several features for the service technician, while the Customer Service Menu (CSM) is used for communication between dealer and customer. There is also the option of using ComPair, a hardware interface between a computer (see requirements) and the TV chassis. It offers the ability of structured trouble shooting, error code reading and software version readout for all L01 chassis. Minimum requirements: a 486 processor, Windows 3.1 and a CD-ROM drive. A Pentium Processor and Windows 95/98 are also acceptable (see also paragraph 5.4).
Figure 5-2
5.2.1 Service Default Mode (SDM)
Purpose• To create a predefined setting to get the same
measurement results as given in this manual.• To override SW protections.• To start the blinking LED procedure.
Specifications• Tuning frequency:
– 475.25 MHz for PAL/SECAM (Europe and AP-PAL).– 61.25 MHz (channel 3) for NTSC-sets (NAFTA,
LATAM and AP-NTSC).• Colour system:
– PAL-M for LATAM BI/TRI/FOUR-NORMA.– SECAM L for France.– NTSC for NAFTA and AP-NTSC.– PAL-BG for Europe and AP-PAL.
• All picture settings at 50 % (brightness, colour contrast, hue).
• Bass, treble and balance at 50 %; volume at 25 %. • All service-unfriendly modes (if present) are disabled, like:
– (sleep) timer, – child/parental lock, – blue mute, – hotel/hospitality mode– auto switch-off (when no ‘IDENT’ video signal is
received for 15 minutes),– skip / blank of non-favorite presets / channels,– auto store of personal presets,– auto user menu time-out.
How to enter SDMUse one of the following methods:• Use a standard customer RC-transmitter and key in the
code ‘062596’ directly followed by the MENU button or• Short wires 9631 and 9641 on the mono carrier (see Fig. 8-
1) and apply Mains power. Then press the power button (remove the short after start-up). Caution: Entering SDM by shorten wires 9631 and 9641 will override the +8V-protection. Do this only for a short period. When doing this, the service-technician must know exactly what he is doing, as it could lead to damaging the set.
• Or via ComPair.
After entering SDM, the following screen is visible, with SDM at the upper right side for recognition.
TEST POINT OVERVIEW L01Test point Circuit DiagramA1-A2-A3-….. Audio processing A8, A9 / A11C1-C2-C3-….. Control A7F1-F2-F3-….. Frame drive A3I1-I2-I3-….. Tuner & IF A4L1-L2-L3-…. Line drive A2P1-P2-P3-….. Power supply A1S1-S2-S3-….. Synchronisation A6V1-V2-V3-….. Video processing A5, B1
CL 16532008_044.eps210501
SWcluster
SW name UOC-type Diversity Remark
2EU0 L01ET0 x.y TDA9555 West Europe,1 page TXT
All ServiceModes
2EU9 L01ET9 x.y TDA9555 East Europe,1 page TXT
All ServiceModes
3EU1 L01EF1 x.y TDA9565 West Europe,10 page TXT
All ServiceModes
3EU2 L01EF2 x.y TDA9563 East Europe,10 page TXT
All ServiceModes
Abbreviations: E= Europe, F= Full TXT, M= mono, T= 1 page TXTCL 16532008_045.eps
210501
Service Modes, Error Codes and Fault FindingEN 14 L01.1E AB5.
Figure 5-3
How to navigateUse one of the following methods:• When you press the MENU button on the remote control,
the set will switch between the SDM and the normal user menu (with the SDM mode still active in the background). Return to the SDM screen with the OSD / STATUS button.
• When you press the OSD / STATUS button on the remote control, the menu will show or hide the error buffer. This feature is available to prevent interference during waveform measurements.
• On the TV, press and hold the 'VOLUME down' and press the 'CHANNEL down' for a few seconds, to switch from SDM to SAM and reverse.
How to exitSwitch the set to STANDBY by pressing the power button on the remote control transmitter (if you switch the set 'off' by removing the Mains power, the set will return in SDM when Mains power is re-applied). The error buffer is cleared.
5.2.2 Service Alignment Mode (SAM)
Purpose• To perform alignments.• To change option settings.• To display / clear the error code buffer.
Specifications• Operation hours counter.• Software version.• Option settings.• Error buffer reading and erasing.• Software alignments.
How to enterUse one of the following methods:• Use a standard customer RC-transmitter and key in the
code ‘062596’ directly followed by the OSD / STATUS button or
• Via ComPair. The following screen is visible, with SAM at the upper right side for recognition.
Figure 5-4
1. LLLL This is the operation hours counter. It counts the normal operation hours, not the standby hours.
2. AAABCD-X.Y This is the software identification of the main micro controller: • A = the project name (L01).• B = the region: E = Europe, A = Asia Pacific, U =
NAFTA, L = LATAM.• C = the software diversity: D= DVD, F= full TXT, M=
mono, T= 1 page TXT.• D = the language cluster number.• X = the main software version number.• Y = the sub software version number.
3. SAM Indication of the actual mode.4. Error buffer Five errors possible.5. Option bytes Seven codes possible.6. Clear Erase the contents of the error buffer. Select the
CLEAR menu item and press the CURSOR RIGHT key. The content of the error buffer is cleared.
7. Options To set the Option Bytes. See chapter 8.3.1 for a detailed description.
8. AKB Disable (0) or enable (1) the ‘black current loop’ (AKB = Auto Kine Bias).
9. Tuner To align the Tuner. See chapter 8.3.2 for a detailed description.
10. White Tone To align the White Tone. See chapter 8.3.3 for a detailed description.
11. Geometry To align the Geometry. See chapter 8.3.4 for a detailed description.
12. Audio To align the Audio. See chapter 8.3.5 for a detailed description.
How to navigateUse one of the following methods:• In SAM, select menu items with the CURSOR UP/DOWN
key on the remote control transmitter. The selected item will be highlighted. When not all menu items fit on the screen, move the CURSOR UP/DOWN key to display the next / previous menu items.
• With the CURSOR LEFT/RIGHT keys, it is possible to:– (De)activate the selected menu item.– Change the value of the selected menu item.
A A A B C D E E X . Y S D M
E R R X X X X X X X X X X
M E N U
S D M
M a i n ^
• P i c t u r e > B r i g h t n e s s
• S o u n d C o l o u r
• F e a t u r e s C o n t r a s t
• I n s t a l l S h a r p n e s s
C o l o u r T e m p
S t o r e
v
O S D / S T A T U S
S D M
CL 16532020_060.pdf
220501
L L L L A A A B C D X . Y S A ME R R X X X X X X X X X XX X X X X X X X X X X X X X X X X X X X X
C L E A R C L E A R ?O P T I O N S >A K B 0 / 1T U N E R >W H I T E T O N E >G E O M E T R Y >A U D I O >
CL 16532020_061.eps150401
Service Modes, Error Codes and Fault Finding EN 15L01.1E AB 5.
– Activate the selected submenu.• When you press the MENU button twice, the set will switch
to the normal user menus (with the SAM mode still active in the background). To return to the SAM menu press the OSD / STATUS button [ i+ ].
• When you press the MENU key in a submenu, you will return to the previous menu.
How to exit Switch the set to STANDBY by pressing the power button on the remote control (if you switch the set 'off' by removing the Mains power, the set will return in SAM when Mains power is re-applied). The error buffer is not cleared.
5.2.3 Customer Service Mode (CSM)
PurposeWhen a customer is having problems with his TV-set, he can call his dealer. The service technician can than ask the customer to activate the CSM, in order to identify the status of the set. Now, the service technician can judge the severness of the complaint. In a lot of cases he can advise the customer how to solve the problem, or he can decide if it is necessary to visit the customer.The CSM is a read only mode, therefore modifications in this mode are not possible.
How to enterThe CSM will be turned on after pressing the MUTE key on the remote control transmitter and any of the control buttons on the TV for at least 4 seconds simultaneously. This activation only works if there is no menu on the screen. After switching ON the Customer Service Mode, the following screen will appear:
Figure 5-5
1. Software identification of the main micro controller (see
paragraph 5.2.2 for an explanation). 2. Error code buffer (see paragraph 5.5 for more details).
Displays the last seven errors of the error code buffer. 3. In this line, the Option Bytes (OB) are visible. Each Option
Byte is displayed as a decimal number between 0 and 255. The set may not work correctly when an incorrect option code is set. See chapter 8.3.1 for more information on the option settings.
4. Indicates which color and sound system is installed for the selected pre-set.
5. Indicates if the set is not receiving an ‘IDENT’ signal on the selected source. It will display ‘Not Tuned’.
6. Indicates if the sleep timer is enabled.7. Indicates if the V-chip feature is enabled.8. Value indicates parameter levels at CSM entry. CO=
CONTRAST, CL= COLOR, BR= BRIGHTNESS, HU= HUE, SH= SHARPNESS
9. Value indicates parameter levels at CSM entry. VL= VOLUME LEVEL, BL= BALANCE LEVEL, AVL= AUTO VOLUME LEVEL LIMITER, DV= DELTA VOLUME
10. Value indicates parameter levels at CSM entry (only for stereo sets). TR= TREBLE, BS= BASS
How to exitUse one of the following methods:• After you press ‘any’ key of the remote control transmitter
with exception of the CHANNEL and VOLUME keys. • After you switch-off the TV set with the Mains power switch.
5.3 Problems and Solving Tips (Related To CSM)
5.3.1 Picture Problems
Note: Below described problems are all related to the TV settings. The procedures to change the value (or status) of the different settings are described.
No colours / noise in pictureCheck CSM line 4. Wrong colour system installed. To change the setting:1. Press the MENU button on the remote control.2. Select the INSTALL sub menu.3. Select the MANUAL STORE sub menu.4. Select and change the SYSTEM setting until picture and
sound are correct.5. Select the STORE menu item.
Colours not correct / unstable pictureCheck CSM line 4. Wrong colour system installed. To change the setting:1. Press the MENU button on the remote control.2. Select the INSTALL sub menu.3. Select the MANUAL STORE sub menu.4. Select and change the SYSTEM setting until picture and
sound are correct.5. Select the STORE menu item.
TV switches ‘off’ (or ‘on’) or changes the channel without any user action(Sleep)timer switched the set ‘off’ or changed channel. To change the setting:1. Press the MENU button on the remote control.2. Select the FEATURES sub menu.3. Select the TIMER sub menu.4. Select and change the SLEEP or TIME setting.
Picture too dark or too brightIncrease / decrease the BRIGHTNESS and / or the CONTRAST value when:• The picture improves after you have pressed the ‘Smart
Picture’ button on the remote control. • The picture improves after you have switched on the
Customer Service ModeThe new ‘Personal’ preference value is automatically stored.
White line around picture elements and textDecrease the SHARPNESS value when:• The picture improves after you have pressed the ‘Smart
Picture’ button on the remote control. • The picture improves after you have switched on the
Customer Service ModeThe new ‘Personal’ preference value is automatically stored.
Snowy pictureCheck CSM line 5. If this line indicates ‘Not Tuned’, check the following:• No or bad antenna signal. Connect a proper antenna
signal.• Antenna not connected. Connect the antenna.• No channel / pre-set is stored at this program number. Go
to the INSTALL menu and store a proper channel at this program number.
1 A A A B C D X . Y C S M2 C O D E S X X X X X X X X X X3 O P X X X X X X X X X X X X X X X X X X X X X4 D E T E C T E D S Y S T E M D E T E C T E D S O U N D5 N O T T U N E D S K I P P E D6 T I M E R78 C O X X C L X X B R X X H U X X S H X X 9 V L X X B L X X A V L D V X X10 T R X X B S X X
CL 16532008_046.eps220501
Service Modes, Error Codes and Fault FindingEN 16 L01.1E AB5.
• The tuner is faulty (in this case the CODES line will contain error number 10). Check the tuner and replace / repair if necessary.
Snowy picture and/or unstable picture• A scrambled or decoded signal is received.
Black and white pictureIncrease the COLOR value when:• The picture improves after you have pressed the ‘Smart
Picture’ button on the remote control. • The picture improves after you have switched on the
Customer Service ModeThe new ‘Personal’ preference value is automatically stored.
Menu text not sharp enoughDecrease the CONTRAST value when:• The picture improves after you have pressed the ‘Smart
Picture’ button on the remote control. • The picture improves after you have switched on the
Customer Service ModeThe new ‘Personal’ preference value is automatically stored.
5.3.2 Sound Problems
No sound or sound too loud (after channel change / switching on)Increase / decrease the VOLUME level when the volume is OK after you switched on the CSM. The new ‘Personal’ preference value is automatically stored.
5.4 ComPair
5.4.1 Introduction
ComPair (Computer Aided Repair) is a service tool for Philips Consumer Electronics products. ComPair is a further development on the European DST (service remote control), which allows faster and more accurate diagnostics. ComPair has three big advantages:• ComPair helps you to quickly get an understanding on how
to repair the chassis in a short time by guiding you systematically through the repair procedures.
• ComPair allows very detailed diagnostics (on I2C level) and is therefore capable of accurately indicating problem areas. You do not have to know anything about I2C commands yourself because ComPair takes care of this.
• ComPair speeds up the repair time since it can automatically communicate with the chassis (when the microprocessor is working) and all repair information is directly available. When ComPair is installed together with the SearchMan electronic manual of the defective chassis, schematics and PWBs are only a mouse click away.
5.4.2 Specifications
ComPair consists of a Windows based faultfinding program and an interface box between PC and the (defective) product. The ComPair interface box is connected to the PC via a serial or RS232 cable. In case of the L01 chassis, the ComPair interface box and the TV communicate via a bi-directional service cable via the service connector (located on the Main panel, see also figure 8-1 suffix D). The ComPair faultfinding program is able to determine the problem of the defective television. ComPair can gather diagnostic information in two ways:• Automatic (by communication with the television): ComPair
can automatically read out the contents of the entire error buffer. Diagnosis is done on I2C level. ComPair can access the I2C bus of the television. ComPair can send and
receive I2C commands to the micro controller of the television. In this way, it is possible for ComPair to communicate (read and write) to devices on the I2C busses of the TV-set.
• Manually (by asking questions to you): Automatic diagnosis is only possible if the micro controller of the television is working correctly and only to a certain extend. When this is not the case, ComPair will guide you through the faultfinding tree by asking you questions (e.g. Does the screen gives a picture? Click on the correct answer: YES / NO) and showing you examples (e.g. Measure test-point I7 and click on the correct oscillogram you see on the oscilloscope). You can answer by clicking on a link (e.g. text or a waveform picture) that will bring you to the next step in the faultfinding process.
By a combination of automatic diagnostics and an interactive question / answer procedure, ComPair will enable you to find most problems in a fast and effective way. Beside fault finding, ComPair provides some additional features like:• Up- or downloading of pre-sets.• Managing of pre-set lists.• Emulation of the (European) Dealer Service Tool (DST).• If both ComPair and SearchMan (Electronic Service
Manual) are installed, all the schematics and the PWBs of the set are available by clicking on the appropriate hyperlink. Example: Measure the DC-voltage on capacitor C2568 (Schematic/Panel) at the Monocarrier. Click on the ‘Panel’ hyperlink to automatically show the PWB with a highlighted capacitor C2568. Click on the ‘Schematic’ hyperlink to automatically show the position of the highlighted capacitor.
5.4.3 How To Connect
1. First install the ComPair Browser software (see the Quick Reference Card for installation instructions).
2. Connect the RS232 interface cable between a free serial (COM) port of your PC and the PC connector (marked with ‘PC’) of the ComPair interface.
3. Connect the Mains power adapter to the supply connector (marked with ‘POWER 9V DC’) on the ComPair interface.
4. Switch the ComPair interface OFF.5. Switch the television set OFF (remove the Mains power).6. Connect the ComPair interface cable between the
connector on the rear side of the ComPair interface (marked with ‘I2C’) and the ComPair connector on the mono carrier (see figure 8-1 suffix D).
7. Plug the Mains power adapter in the Mains power outlet and switch on the interface. The green and red LEDs light up together. The red LED extinguishes after approx. 1 second while the green LED remains lit.
8. Start the ComPair program and read the ‘introduction’ chapter.
Figure 5-6
5.4.4 How To Order
ComPair order codes:
86532027_003.EPS050898
PC VCR I2CPower9V DC
Service Modes, Error Codes and Fault Finding EN 17L01.1E AB 5.
• Starter kit ComPair + SearchMan software + ComPair interface (excluding transformer): 4822 727 21629
• ComPair interface (excluding transformer): 4822 727 21631
• Starter kit ComPair software (registration version): 4822 727 21634
• Starter kit SearchMan software: 4822 727 21635• ComPair CD (update): 4822 727 21637• SearchMan CD (update): 4822 727 21638• ComPair interface cable: 3122 785 90004
5.5 Error Buffer
The error code buffer contains all detected errors since the last time the buffer was erased. The buffer is written from left to right. When an error occurs that is not yet in the error code buffer, it is written at the left side and all other errors shift one position to the right.
5.5.1 How to Read the Error Buffer
Use one of the following methods:• On screen via the SAM (only if you have a picture).
Examples:– ERROR: 0 0 0 0 0 : No errors detected– ERROR: 6 0 0 0 0 : Error code 6 is the last and only
detected error– ERROR: 9 6 0 0 0 : Error code 6 was first detected and
error code 9 is the last detected (newest) error• Via the blinking LED procedure (when you have no
picture). See next paragraph.
• Via ComPair.
5.5.2 How to Clear the Error Buffer
The error code buffer is cleared in the following cases:• By activation of the CLEAR command in the SAM menu:• When you exit SDM / SAM with the STANDBY command
on the remote control (when leaving SDM / SAM, by disconnecting the set from Mains power, the error buffer is not reset).
• When you transmit the command DIAGNOSE-99-OK with ComPair.
• If the content of the error buffer has not changed for 50 hours, it resets automatically.
5.5.3 Error Codes
In case of non-intermittent faults, clear the error buffer before you begin the repair. These to ensure that old error codes are no longer present. If possible, check the entire contents of the error buffer. In some situations, an error code is only the result of another error code and not the actual cause (e.g., a fault in the protection detection circuitry can also lead to a protection).
Figure 5-7
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210501
Service Modes, Error Codes and Fault FindingEN 18 L01.1E AB5.
5.6 The Blinking LED Procedure
Via this procedure, you can make the contents of the error buffer visible via the front LED. This is especially useful when there is no picture. When the SDM is entered, the LED will blink the contents of the error-buffer. Error-codes ≥ 10 are shown as follows:– a long blink of 750 ms (which is an indication of the decimal
digit),– a pause of 1.5 s,– n short blinks (n = 1 - 9),– when all the error-codes are displayed, the sequence
finishes with a LED blink of 3 s,– the sequence starts again. Example of error buffer: 12 9 6 0 0 After entering SDM: – 1 long blink of 750 ms followed by a pause of 1.5 s,– 2 short blinks followed by a pause of 3 s,– 9 short blinks followed by a pause of 3 s,– 6 short blinks followed by a pause of 3 s,– 1 long blink of 3 s to finish the sequence,– the sequence starts again.
5.7 Protections
If a fault situation is detected an error code will be generated and if necessary, the set will be put in the protection mode. Blinking of the red LED at a frequency of 3 Hz indicates the protection mode. In some error cases, the microprocessor does not put the set in the protection mode. The error codes of the error buffer can be read via the service menu (SAM), the blinking LED procedure or via ComPair. The DST diagnose functionality will force the set into the Service-standby, which is similar to the usual standby mode, however the microprocessor has to remain in normal operation completely. To get a quick diagnosis the chassis has three service modes implemented:• The Customer Service Mode (CSM).• The Service Default Mode (SDM). Start-up of the set in a
predefined way.• The Service Alignment Mode (SAM). Adjustment of the set
via a menu and with the help of test patterns. See for a detailed description Chapter 9 paragraphs Deflection and Power Supply.
5.8 Repair Tips
Below some failure symptoms are given, followed by a repair tip.• Set is dead and makes hiccuping sound
‘MainSupply’ is available. Hiccuping stops when de-soldering L5561, meaning that problem is in the ‘MainSupply’ load. No output voltages at LOT, no horizontal deflection. Reason: line transistor 7460 is defective.
• Set is dead, and makes no soundCheck power supply IC7520. Result: voltage at pins 1, 3, 4, 5 and 6 are about 180 V and pin 8 is 0 V. The reason why the voltage on these pins is so high is because the output driver (pin 6) has an open load. That is why MOSFET TS7521 is not able to switch. Reason: feedback resistor 3523 is defective.Caution: be careful measuring on the gate of TS7521; circuitry is very high ohmic and can easily be damaged! (first connect ground to measuring equipment, than the gate).
• Set is in hiccup mode and shuts down after 8 s.
Blinking LED (set in SDM mode) indicates error 5. As it is unlikely that µP ‘POR’ and ‘+8V protection’ happen at the same time, measure the ‘+8V’. If this voltage is missing, check transistor TS7480.
• Set is non-stop in hiccup modeSet is in over current mode; check the secondary sensing (opto coupler 7515) and the ‘MainSupply’ voltage. Signal ‘Stdby_con’ must be logic low under normal operation conditions and goes to high (3.3 V) under standby and fault conditions.
• Set turns on, but without picture and soundThe screen shows snow, but OSD and other menus are okay. Blinking LED procedure indicates error 10, so problem is expected in the tuner (pos. 1000). Check presence of supply voltages. As ‘Vlotaux+5V’ at pin 6 and 7 are okay, ‘VT_supply’ at pin 9 is missing. Conclusion: resistor 3460 or 3488 is defective.
• Set turns on, but with a half screen at the bottom. Sound is okayBlinking LED (set in SDM mode) indicates error 2. Check ‘Vlotaux+13V’ and ‘+50V’. If they are okay, problem is expected in the vertical amplifier IC7471. Measure with a scope the waveform on pin 17 of the UOC. Measure also at pin 1 of IC7471. If here the signal is missing, a defective resistor R3244 causes the problem.
Service Modes, Error Codes and Fault Finding EN 19L01.1E AB 5.
Personal Notes:
Service Modes, Error Codes and Fault FindingEN 20 L01.1E AB5.
Personal Notes:
Block Diagram, Testpoints, I2C and Supply Voltage Overview EN 21L01.1E AB 6.
2
145
CL 16532008_031.eps050601
C4
C5
C2
C1
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3172
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L8
L10
L9
V DRIVE-V
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A2
A1
A14A4
A4
A7A8A9
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TOP CONTROL (RF)
NICAM, 2CS, DECODER
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CONTROLA7 +3.3V
36063607
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+3.3V
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7606
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ROMRAM
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67
68
72
71
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5
66 61 59
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70 SEL-MAIN-FRONT-RR
A16 STANDBY-CON
A278 BASS PANORAMA77 TREBLE-BUZZER-HOSP-APP
A873 VOLUME/MUTE
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024502431
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3482
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only for sets with E/W correction
3487
3334
3332
3336
3466
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33717360 - 7367
3379
3386
7332
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2
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3
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34693480H FLYBK
VIDEO SUPPLY
A3VGUARD
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A1POWER-DOWNEHT o
200V
VT_SUPPLY
FILAMENT
A
B
D
C
5
11
6485
7
12
8
9
6488
6487
3494
3362
VLOTAUX +50V
VLOTAUX +13V
VLOTAUX +5V
+8V
3488
3451
3460
3455
34467441
7443, 74503452
5480
6486
6447
2444
PROTCIRCUIT
PROTCIRCUIT
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74803450
7482
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V11
V13
V14
V15
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1
2
3
44
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6
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3
8
5
9
7
R
G
B
EHT-INFO
Filament
+200VA +13V
+200VA
+13V3340
2340 1 2 3 4 5
3341
3342
R
G
B
CRT
25kV
FO
CU
S
EH
T
VG
2
8
6
11
10 9 5 7 1
0165AQUADAG
ERR9
ERR6
ERR11
ERR3
ERR2
ERR5
ERR2
13
38
9
L13
P2
P3
3543
3404
7400STP3NC60FP
3405
7444
3247
3544
6520
2521
TILT & ROTATIONA15
FRAME DEFLECTIONA3
A2SENSE
DEMAG
VCC
CONTROLIC
CTRL12
11
N.C.
N.C.
10
1
2
3
4
MAIN SUPPLY2561
VDEFL
A7STDBY_CON
HOT GROUND COLD GROUND
7540, 6540
REFERENCECIRCUIT
7541, 7542
STANDBYCIRCUIT
7515TCET1103
3525
3526
5
3522
3528
4
1
S
F1
F2
L4
F3V DRIVE+
V DRIVE-
34
+PLL
EW+
GEOMETRY
SHORTCIRCUIT AND
TEMPERATUREPROTECTION
EHT INFOA2A7
A2
A7
EHT oA2
A7
EW DRIVE/EWD-DYN
BASS_PANORAMA
153250
OUT-IN-5
3
6
7
2
4 8
1
IN+ OUT+
S5
L14
VLOTAUX +13VVLOTAUX +50V
7471TDA8359J
FRAMEOUTPUT
only for sets with panorama
EW drive/EWD_dyn
D
SG
34891400 2454
1
4 3
2
7
9
4
E/WCIRCUIT
E/W PROTECTION
F4
1
3
5
6
2
V1+
VP
VOA
VM
VOBV1-
5472
5471
3479
3471
VGUARDCIRCUIT
6470
02681
3
ROTATION COIL
ERR8
Error Description0 No error1 X-Ray / over voltage protection (USA only)2 High beam (BCI) protection3 Vertical guard protection4 I2C error while communicating with the sound processor5 Power ON reset (POR bit) 3.3V protection / +8V protection 6 General I2C error7 Power Down (over current) protection8 EW protection (Large Screen only)9 I2C error EEPROM error10 I2C error PLL tuner11 Black current loop instability protection
ERROR CODE LIST
VLOT AUX +13V
VCC
7171TDA8941P
TILT
VCC
3173 3174
6. Block Diagram, Testpoints, I C and Supply Voltage Overview
Block Diagram
POWER SUPPLY 0212
43
2
2
3
4
1817
1615
13504
P1
I1
I2
P5
V10I3
I4
P4
V9
A1
0265
SDA
SCL
0211
150 - 250VSINGLE RANGE
90 - 276VFULL RANGE
5201
5001
FM-RADIOTUNER
+TV TUNER
5562
3001
3000
3564
2564
3213
3251
3259EHT INFOSANDCASTLE
H FLYBK
2254
3242N.C.
2203
3558
7560
2567
7561, 75627564
6001BZX79-C33
A1 SYNCHRONISATIONA6 LINE DEFLECTIONA2
TUNER IFA4
SIDE AV
E or C FRONT I/OA12
REAR I/O SCARTA14
A7
A7
VIDEO IF, SOUND IFA5
A5
A8
A14
A8
A9
A2A7
A2
DegaussingCoil
t
1515
5520
7580
7520
ENERGIZINGCIRCUIT
AC
DC
6500GBU6J
5500 :55020231
MAINSSWITCH
1000 6, 7 9
1
2
11
FM
VIF_1
VIF_2
SIF1
SIF2
RF_AGC
1
1500
T4E
2503
6561
6562
AUDIO SUPPLY GND
MAIN AUX
POWER DOWN
VLOTAUX +13V
VLOTAUX +5V
VT_SUPPLY
V A
B
C
P6
POWERDOWN
CIRCUIT
12V
+3.3V
+3.9V
MAIN AUX_FB
+8V
+8V
35327521STP7NB60FP
VT
AGC5
SEL-IF-LL-M-TRAPA7
A2
A2
4
IF
FM
02533
1018
38
49
3214
7206
3230
3208
7201
MONO/AM_MONO_SOUND
33
48
19
22
23
24
L1-IN
LFRONT-IN
28 29
70017002
FILTERSELECTION
FMR QSS_AM_DEM_OUT
AUDIO CARRIERFILTERS
7200-ATDA95XX1002
1003
1004
VIDEOIF
AGC
VIDEOPLL
DEMOD.
VIDEOAMPLIFIER
V1-OUT
SOUNDFM-DEMOD.DE-EMPH.
AUDIOSWITCH
SOUNDAMPL.+ AVL
QSSSOUNDIF + AGC
QSS MIXERAM DEMOD.
S2
L1
V5
S1
11
30 H DRIVE
V DRIVE+H
9
17
31
7200-DTDA95XX
H-DRIVE2nd LOOPH-SHIFT
TXT/OSDDISPLAY
H/V SYNC
40
4712005.5MHz
12016MHz
A13
A14
A14
C-IN 45
A10 SY-CVBS-IN 44
A13
A10
A10
A10
CVBS1-IN 42
VIDEO IDENT
7200-CTDA95XX
I/OSWITCHING
Y-DELAY
EHT INFOPROC.
EHT INF
R-Y
B-Y
U
V
R
G
B
R
G
B
56
57
58
55
Y
VIDEOFILTERS
RGBMATRIX
RGBINSERT
BLACKSTRETCH
WHITESTRETCH
RGBCONTROL
OSD TEXTINSERT
BLUESTRETCH
WHITE-P.ADJ
VIDEOIDENT
L
02513
V
L
R1
02196
3
1
MONO
V
L
R
CVBS-FRONT-IN
L-FRONT-IN
R-FRONT-IN
A
B
C
STEREO
A14
A12
AUDIO AMPLIFIERA8
HEADPHONEA12
A12
T
A9
T1
A10
A9
A8
A7
A11
A6
3833
3834 2847
A14
A10
NICAM, 2CS, BTSL (STEREO DECODER)A97831MSP34X5G
QSS-AM-DEM-OUT
FMR47
A5
MONO/AM-MONO-SOUND
78347835
6692TSO
MAIN-OUT-L
44
A10 SC1-L IN 41
A10 SC1-R IN 42
A7 SDA 8
A7 SCL 7
25
4 SC2-CTRL
A1430 R OUT
L OUTA5
A5
A7
MONO/AM-MONO-SOUND31
MAIN-OUT-R24
51
52
DEMODULATORNICAM, 2CS,
BTSC, AM, FM
3832
ERR10
ERR7
183118M432
7901 AN7522N (STEREO)7902 AN7523N (MONO)
6 2 L+
L8
9
MONO/AM-MONO-SOUND
VOLUME MUTE
A5 1MAINAUX_FB
ERR7
7209, 7210
FM RADIOPRE-AMPL.
0280
A2
4 L-
A3
10 R-
A4
12 R+R
L
R
4
3
2
1
02554
3
2
1
L+
L-
R-
R+
L+
L-
R-
R+
HEADPHONEE1
L+
L-
R-
R+L+
L-
R-
R+
02541
2
3
4
0209 1
2
35
0267
02461
2
3
4
5
OR
SDA
SCL
COMPAIRCONNECTION(FOR SERVICE)
3.3V
LKEY
LKEY
3908
5241+8V
VLOTAUX +13V
VDEFL
MAIN AUX
R-V-IN
PAL/NTSCSECAM
DECODER
BASEBANDDELAY
A1
V-DRIVE
3244S3 L2
MAIN SUPPLY140V
6467BAV70
7462
7460BU4508DX
3493
74617463
DRIVERSTAGE
5461
LINEOUTPUTCIRCUIT
L3
3222
3201
3202
3203
3204
3235
A2BLK-IN
BLK
V-OUT 2X
A14 G-Y-IN
A14A14
B-U-INFBL-1
51 52 53 50 54
7204
V6
V7
V9
OSD
OR
OR
OR
INPUTSWITCHING
ERR4
TV
FM
7943FOR MONO SETS
5205
AUDIO/VIDEOSOURCE SWITCHING
A107801HEF4052BT
A10A10A10
A5
A5
A10A7
A10
MONITOR OUTPUT
SCART 27131
A7
A10 AUDIO R
Y-CVBS-INV - OUT
C - IN
L2 - OUT
R2 - OUT
STATUS 2
L2-IN
R2-IN
R-OUT
A10 AUDIO LL-OUT
SEL_MAIN_FRNT_RR
SEL_MAIN_FRNT_RR
9
A9
A7
A9
A14
SC2-CTRL 10
A12 L-FRONT-IN
SC1-LIN
SC1-R IN
L1-OUT
1
A14 L1-IN 7803
7804
5
A14 L2-IN 2
A9 SC1-LOUT 4
A12 R-FRONT-IN 12
A14 R1-IN 14
3
13
A14 R2-IN 15
A9 SC1-R-OUT 11
SWITCHLOGIC
7802HEF4053BT
9
A5
CVBS-FRONT-IN5
A14 Y-CVBS-IN
SY-CVBS-IN
34
SWITCHLOGIC
A9
A12
A14
R-OUT2
A9 SC1-R-OUT
R2-OUT
115A10
A14
L-OUT12
A9 SC1-1-OUT
L2-OUT
1314A10
A14A10
L-OUT
R1-OUT
A14A10
R-OUT
A13
12
2021
A10A10A10
A5
A5
A10 A5A7
A5
SCART 17101
CVBS1-IN
V1-OUT
V-OUT
R-Y-IN
A5
L1 - OUT
A5 B-U-IN
A5 G-Y-IN
R1 - OUT
STATUS 1
A5FBL-1
L1-IN
R1-IN1
2
2021
EN 22L01.1E AB 6.Block Diagram, Testpoints, I2C and Supply Voltage Overview
A1 B4A2 A4A3 A5A4 A4A5 C3A6 B3A7 B3A8 B4A8a B4A9 B4A10 B4A11 B4A11a C3A12 C2A13 C2A14 C1A15 B2A16 B2C1 B6C2 B6C3 B6C4 B6C5 B6C6 E1F1 D8F2 D8F3 C8L1 C6L2 E6L3 E7L4 E6L6 C7L7 E8L8 E8L9 C7L11 D7P1 E5P2 E4P3 D3P4 C4P5 C4P6 D5S1 B5S2 A6S3 A7S4 A7S5 A7V1 B7V2 B7V3 B7V4 B5V5 B5V6 B5V7 B5V8 B5V9 A5
CL 16532008_030.eps240801
A1 A4 A8 A10 C1 F3
DCiv
Civ
Civ
I2
2V / div DC200us / div
I3
500mV / div DC10us / div
I4
20mV / div DC10us / div
L1
1V / div DC20us / div
L2
1V / div DC20us / div
L4
5V / div DC5ms / div
L5 = +200VL6 = +50VL7 = +50VL8 = +13VL9 = +5VL10 = +8VL11 = +13V
L12
2V / div DC20us / div
S1
2V / div DC20us / div
S2
500mV / div DC20us / div
S3
500mV / div DC5ms / div
S4
500mV / div DC5ms / div
S5
1V / div DC5ms / div
V10
200mV / div DC20us / div
V11
1V / div DC10us / div
V12
1V / div DC10us / div
V5
1V / div DC10us / div
V6
1V / div DC10us / div
V7
1V / div DC10us / div
V8
2V / div DC5ms / div
V9
500mV / div DC10us / div
V13
1V / div DC10us / div
V14
50V / div DC10us / div
V15
50V / div DC10us / div
V16
50V / div DC10us / div
P1 = "$"
P3 = 16V8 (13V8)
P4 = 3V3
P5 = 12V
P6 = 140V
P2
2V / div DC5us / div
C5
CRT Panel Copper Track Side
1V / div DC500us / div
A2
1V / div DC500us / div
A3
1V / div DC500us / div
1V / div DC500us / div
1V / div DC500us / div
A8a
1V / div DC500us / div
A9
500mV / div DC500us / div
500mV / div DC500us / div
A11
1V / div DC200us / div
A11a
500mV / div DC2us / div
C1
1V / div DC500us / div
C2
1V / div DC500us / div
F1
500mV / div DC5ms / div
F2
500mV / div DC5ms / div
10V / div 5ms / d
F4
5V / div D5ms / d
I1
2V / div D200us / d
C4
2V / div DC200us / div
2V / div DC200us / div
A7
2V / div DC200us / div
A6
2V / div DC200us / div
Testpoint Overview
D
G S
D
G SB
9
1
C E
7521
1 4
8 5
7520
7471
7400
7460
Main Panel Copper Track side
FRAME
E/W
SUPPLYCONTROL
SUPPLY
LINE
7200
TV-PROC.
HOT GROUND
7831
AUDIO PROC.
AUDIO OUTPUT7901 OR 7902
1 26
52 27
1
Block Diagram, Testpoints, I2C and Supply Voltage Overview EN 23L01.1E AB 6.
CL 16532008_029.eps050601
1000
TUNER
LOT
+200VA
+13Va
+13Va
6
+13V
TO CRTFILAMENT
TION CRTB1 SCAVEMB2
TUNER IFA4
POWER SUPPLYA1
FRAME DEFLECTIONA3
5451
VIDEO SUPPLY200V +200V
+13V
5445
3
EHT
2340
6001BZX79-/C33
FOCUSVG2
EHTFOCUSVG2
5 2
5
9
67
7FILAMENT FILAMENT
3494
5480
0220 3340
3341
6485
5
9
8
VT_SUPPLY 33VVT_SUPPLY
2
3
5
4
0244
3
4
ANODE CRTFOCUS CRTVG2 CRT
3342
+5V (TO 6470)
+8V (TO 3008)
5202
VIDEO IFA5
VLOT AUX +50V
VLOT AUX +13V
VLOT AUX +5V
VLOT AUX +5V
VLOT AUX +5V
VLOT AUX +5V
VLOT AUX +13V
VLOT AUX
TO DEGAUSSING CIRCUITVLOT AUX +13V
CONTROLA7+8V (TO 4-0217) NOT USED
+5V (TO 2234)VLOT AUX
VLOT AUX +5V (TO 3619)
+8V
AUDIO AMPLIFIERA8+8V (TO 3948, 3950)
VLOT AUX +5V (TO 9904)
+8VA
3460
9420
7471
FRAMEOUTPUT
7330
RGBDRIVER
6
3
5001
5472
SYNCHRONISATIONA6
7200-D
SYNCPROC.
5241
+8V
+13
V
VLOT AUX +50V
+8V
+8V
+8V
+8V
+8VA (TO 3248)
7200-A
VIDEOIF
9
5832
BTSC DECODERNICAM 2CS
A9VLOT AUX +5V
REAR I/O SCARTA14
A15
+8V
AUDIO VIDEOSOURCE SWITCHINGA10
7831
AUDIODECODER5833
+5VA
+8V+6V8
46
33
3455
3447
3446
34886467
6488
7482
7480
6486
6482
3450
3449
6481
3801
3V
39
(TO 6452,6468,3400, 3442,3453)
3362
ERROR CODE LIST
TILT & ROTATION
VLOT AUX +13V
Error Description0 No error1 X-Ray / over voltage protection2 High beam (BCI) protection3 Vertical guard protection4 I2C error while communicating with the sound processor5 Power ON reset (POR bit) 3.3V protection / +8V protection 6 General I2C error7 Power Good (over current) protection8 EW protection (Large Screen only)9 I2C error EEPROM error10 I2C error PLL tuner11 Black current loop instability protection
I2C and Supply Voltage Diagram
POWER SUPPLY
2
3
4
A
A
18
17
1615
14
10
13
12N.C.
11 N.C.
5
38
9
C4
C5
I1 I2
P1
P2
P3
P5
P6
P4
0211170 - 250V SINGLE RANGE90 - 276V FULL RANGE
5205
5602
5603
5604
4693
7901
7902
7200-B
5560 5564
3564
2564
5561
3543
5562
3549
3544
3557
3558
7560
2567
7561, 75627564
6520
2521
A1
CONTROLA7 TUNER IFA4
VIDEO IFA5
CONTROLA7
5520
7520TEA1507
DRAIN
DRIVE R
SENSE
DEMAG
VCC
CONTROLIC
CTRL
AC
DC
6500GBU6J
5500 :55020231
1
1
66
61
59
8
1
2
3
4
1500
T4E
2503
6561
6562
6560
AUDIO SUPPLY GND
POWER DOWN
140V MAIN SUPPLY
12V MAIN AUX
2561
POWERDOWN
CIRCUIT
AUDIO SUPPLYGND-FB
+3.3V
+3.3V
+3.3V (TO 3256)
+3.9V+3.9V
(TO 36063607,3633)
STBY_CON
HOT GROUND COLD GROUND
7540, 6540
REFERENCECIRCUIT
7541, 7542
STANDBYCIRCUIT
7515TCET1103
3532
3525
3523
3528
3526
7521STP7NB60FP8
6
5
35224
1
D
SG
5204
AUDIO AMPL.
SYNCHRONISATIONA6
+3.3V+3V3A
FRONT CONTROLA12
AUDIOOUTPUTSTEREO
AUDIOOUTPUTMONO
uC
7602
EEPROM(NVM)
OR
OR
LINEOUTPUT
3611
LINE DEFLECA2
2450
MAIN SUPPLY 3487
MAIN AUX_FB
3625
7602M24C08EEPROM
(NVM)
3624
3607 3606
3604
3603
65
72
71
68 7
ERR9
ERR5
7200-BSET
PROCESSOR
PART OFVIDEO-
PROCESSOR
ERR6
SDA
SCL
SDA
SCL
SCL
SDA
+3.9V +3.9V
1000TUNER
3001
3000
45
ERR10
1
2
0267
3
AUDIO AMPL.A8
SCL
SDA
A7 A8
NICAM, 2CS,BTSC DECODER
A9
7831MSP34X5G
AUDIODECODER
3833
3832
78
ERR4
SCL
SDA
FORCOMPAIR
ONLY
3493
VLOT AUX +1
MAIN AUX
H-DRIVE
V DEFL.V DEFL.
I2C BUS INTERCONNECTION DIAGRAM
3908
A8
6467
A9
MAINSWITCH
EN 24L01.1E AB 7.Schematics and PWB’s
6V8
6V8
A
B
C
D
E
F
G
0211 C10212 A10213 B50231 C10251 E11
10 11
10 11
-3V
2
TO 0251
RES
RE
S
3V2
0282 F111500 B21515 A81540 E102500 C32501 C62502 B62503 C72504 C72505 C72506 B52507 D72508 C72509 C42515 B82516 B82520 F22521 E12522 D62523 D72525 E5
TO OF
2526 D22527 E72528 E22540 E92541 F92560 D92561 D92562 B92563 D102564 C92566 C102567 B102568 G82569 G102580 B92581 A92590 B93500 C23501 D2
12V
82K
11V5
3503 B53504 A33506 C43507 C43508 C33509 B53510 B53511 B63519 E73520 F23521 F23522 E53523 E53524 E63525 D63526 E73527 E73528 D23529 D43530 D63531 D53532 C63541 E83542 E93543 E103544 F103545 F93548 E93550 F103552 F93557 A93558 A93560 C93561 C83562 D93563 D103564 B10
OF
3565 A93566 G83567 C93568 C103569 F83570 C103580 A93590 A9
3594 E93595 E103596 E104500 C105500 C45501 C35502 A55520 C75521 D75560 D85561 E105562 C85564 D96500 B66520 E26522 D2
LE33CZ
A7-5
6523 D56524 D76525 E76526 D66540 F96541 E96560 D96561 B96562 C96563 D96564 C116565 A116566 F106567 D106568 E96569 G96570 G86580 A96582 B97515 E77520 D37521 C67522 C57540 F97541 F87542 F8
0R1
11V8
A2-11
12V
0V
-3V2*
OF
7560 A107561 D107562 C97564 C107580 A89500 B29501 C29502 C29503 B59504 B59505 A39506 B49507 C49508 B39509 C39510 B99511 B10
0V
3V3
12V
11V5
140V100u
TO
For AV Video
2u2
FOR ITV ONLY
9V
OF
For
ITV
onl
y TO 0283
*
A7-11
2m2
5561
27u
1540
4500
2561
1
2
3
0251
9510
7541
BC857B7562
3568
2563
100n
1
P6
3570
15K
0R
594
7561PDTC143ZT
5K
548
3557
1K
470u
2566
7B40
P4
3545
39K
3563
8K2
2569
P5
BAV70
6565
3544
4K7
3543 4
3562
12K
0282
7
6567
2590
6566
1N4148
47u
2567
3550
3560
47R
R
5
3596
220K
3595
220K
7560
GND
2
IN
1OUT
3
BAS216
6564
10n
2540
3564
3558
330R
BC857B7564
3590
150R
EW_protection
+3.9V
MainAux
+3.3V
MainSupply
MainSupplyGnd
Vcontrol
9511
AudioSupplyGnd
POWER_DOWN
+3.3V
Stdby_con
CL 26532063_001.eps140602
F
G
1 2 3 4 5 6 7 8 9
0V
COLD GROUND
*
BZ
X79
-B6V
2
HOT GROUND
220V AC 309V (317V)1V8
(-V) STANDBY OPERATION
FOR MAINS 120V AC 170V (177V)
PDTC114ET
0V
"$"
0V
0V
1u
-V NORMAL OPERATION
1K2
3520
6570
10K
3552BC857B7542
2K2
3566
BAS216
6569
BC5475
2541
1n
6540
2520
100n
2568
5K6
3569P1 = "$"
P3 = 16V8 (13V8)
P4 = 3V3
P5 = 12V
P6 = 140V
P2
2V / div DC5us / div
7. Schematics and PWB’s
Mono Carrier: Power supply
V
OVERPOWER
LOGIC
CONTROL
CIRCUIT
MAXIMUMON-TIME
PROTECTION
VOLTAGECONTRLLEDOSCILLATOR
OVERTEMPERATUREPROTECTIOM
POWER-ONRESET
SUPPLYMANAGEMENT
FREQUENCY
PROTECTION
CONTROL
INPUTCONTROLCIRCUIT
BURSTDETECTOR
Drain
HVS
Sense
Demag
Driver
Vcc
Gnd
Ctrl
START-UP
CURRENT SOURCE
VALLEY
START-UP
CURRENT SOURCE
CURRENTSENSING
OUTPUTDRIVER
V
t
+t
8V8
E
1 2 3 4 5 6 7 8 9
2525
A
B
C
D
DEGAUSSING COIL
0V
*
*
4
*3
2V8
**
150 - 276 V SINGLE RANGE *
OF
*
1n5
2V
S
*
ONLY
MAINS
"$"
*
1N50
62
(13V8)
2
*
*
BYV29X-500
*
0V
1V3
(12V)
12V4
*
*
TO 0283
2n2
*
1V74
9V
90 - 276 V FULL RANGE
FOR ITV ONLY *
*1
3V
17V
0V
POWER SUPPLY
**
(6V7)
OR
16V8
*
5521
D
0V4
Jumper
*
(7V7)
RE
S
*
680p
*
USAT4E.250V
*
11V8
SDW
1n5
0V
"$"
10V
OR
MAINS SWITCH
G
*
*
"$"
2
*
0V
1
0V
for ITV only
*
3
0V
*
3528
2564
100n
2522
1M5
3506
DSP
3507
6520
3M3
8
9509
1
2
BA
S31
6
3510
B57237
P2
6522
2503
16
17
182
3
4
5
8
9
470p
2508
5562
STPS10L60D
6582
2509
22u
258
2580
47u
2507
470p
3561
3500
3M3
0213
1
ZPB
3504
2n2
2501
6524
47
3
9503
2523
3524
56K
9508
3508
1
33
4
7520TEA1507
1
2
1n2528
BY
D33
D
9502
3580
47K
5560
6568
BYW76
6500
9504
3541
470R
2506
2516
0211
3523
470p
9505
3503
9506
6541
PD
Z-1
0B
220R
4K7
3531
3532
2K2
6580
1K
3525
2515
3522
SB340
6561
356
6525
DMF-2820
5500
1 4
2 3
2K2
9500
3519
270R
EGP20DL
6562
3509
3530
10K
9507
3511
6563
BAS316
1n
2562
5
6
7
8
3521
6560
3527
1K5
3542
02121
2
2
3526
2526
1500
9501
470n
2500
0231
1 3
2 45 6
330
356
2521 22
u
3501
5564
2527
5502
12345 6 7
2502
2n2
1N41
48
6523
TCET1104G7515
6526
BZ
X28
4-C
22
5520
10
11
12
13
14
15
P3
2504
1515G5PA
23
14
BC857B7580
1 4
2 3DMF-2405
5501
7521
BC847B7522
2560
P1
2n2
2505
47K
3529
VlotAux+13V
EAR
MainSupplyGnd
Schematics and PWB’s EN 25L01.1E AB 7.
L2K2.FRNTNON-55K-LAN-55K-
NA
6 7
6 7
D
A
B
C
D
---0R1------
DIO SB340
------
---
---
---
SNDAMP-2x5W-ST-IND-MKII
SNDAMP-2x5W-ST-
LA
AMP-
/AP
SNDAMP-2x1W-NA
SNDAMP-2x5W-LA
SNDAMP-2x5W-VD-ST-EU
SNDAMP-2x10W-VD-ST-EU
---
BE340--857B857B
470uF/6V3
---------------
------
DAMP-2x5W-
------------
W-ST-
DIO SBE340---------
470uF/6V3
BC857B
F/6V37RR1
8K2
47R0R13K38K2---
BC857BBC857B
DIO EGP20
47R0R11K88K2
DIO SBE340
---------------
+WOOFER-IND
SNDAMP-1x4W-MN-
AP
---
47R0R11K88K2
DIO SDE340---
BC857B
470uF/6V3
BC857BBC857B
---
---------
IO SBE340
------
0R1---
DIO EGP20------
------
BZX394-C22 BZX384-C22 BZX384-C226526
------
IR+LED.55KNA
3M33M3YESYES
3M33M3YESYES
3M33M3
K2.FRNT.
CL 26532063_002.eps210502
1 2 3 4 5
BYW76-RAS 15/10 BYW76-RAS 15/10BZX384-C6V8 BZX384-C6V8 BZX384-C6V2
BZX384-C9V1 BZX384-C9V1
- - BZX384-C4V7-
65666567656865706582 - - -
STP8NC50FP 2SK2750
BZX384-C10
1N4148 1N4148
65416560
7521 STP6NC80ZFP
BYV29X-500(PHSE) - -1N4148
Mono Carrier: Power supply Diversity Tables
3510-
46084609
RST FUSE 100R
-
3500023995009501
3M33M3------
3M33M3---
10R
25V-36V
-
2515-
16V 470N
SET 21RF21RB
3545
-NTC B57237
1
3M3------
NO
---
------
YESYES
3M33M3YESYES
3M3
2 3 4
65006522
3504-
PTC 120V 3R
250V 1N5
2505 1KV 2N2
DIVERSITY TABLE FOR
160V 47U
400V 220U
-50V 10N
2561
3526
270K
12K
220R
330K
OR15
-
1KV 2N2
-
3523
PTC 120V 3R
3557
---
5
AP/EU
SNDAMP-
A
B
C
8K2---
DIO EGP20BC857BBC857B
ITEMSNDAMP-1x1W-MN-
GL
SNDAMP-2x1W-ST-
EU/AP
SNDAMP-
SCART IN
25812132
------
22uF390pF
DVD
NA/LA
SNDAMP-2x10W-ST-
ITEMSINGLESCART IN-
DUAL
470uF/6V347R0R11K88K2
NA
SND2x3W-ST-
EU
35686561656275627564
3K3
DIO S-
BCBC
470uF/6V347R0R11K88K2
DIO SBE340---
BC857B
1x3W-
470uF/6V347R0R13K38K2
------------------
AP
SNDAMP-2x3W-ST-
NDBX-NA/LA
SN
---DIO EGP20
BC857BBC857B
2x5
256635603564
470uF/6V347R0R1
3567
470u401K8
8K2
DIO EGP20BC857BBC857B
---
BC857B
---DIO EGP20
BC857BBC857B
---------
2x1W-NASNDAMP-2x3W-ST-
NA
SNDAMP-2x5W-ST- ST
256635603564
35686561656275627564 BC857B
---
470uF/6V347R0R13K3
470uF/6V347R0R11K88K2
DIO EGP20BC857BBC857B
470uF/6V347R0R11K88K2
ITEMSNDAMP-2x3W-LA
SNDAMP-
1K88K2
DIO EGP20BC857BBC857B
---
3552
330R
-
330R5K6
D
3567
POWER SUPPLY
470uF/6V347R0R11K88K2
DIO EGP20BC857B
- - FIL MAINS 10MH
---
FIL MAINS 22MH -
220K220K
SMD JUMPER
---BC857BBC857B
DIO SBE340
470uF/6V347R0R1
SS35107-01 SS35107-01
-
330R
10R270K
2526
-
PTC 220V 9R
3627
160V 100U
3565
0R33
8K2
4R7-
- BZX394-C20 BZX384-C201N5062 1N5062
3528
100R100R
GBU4JL-7002 GBU4JL-7002 GBU4JL-7002
6524
-
250V 1N5
200V 470U
2520
-
1K
RST FUSE 100R
8K2
RST FUSE 47R
330R220K
FL MAINS 5MH
220K220R
3522
100R
NTC B57237
220K-
220K
- - -SS39009-04
--
10K270K
-
3562
250V 1N5
2503
2506
AUDIO OUTPUTMAINS RANGE
0R1 0R15
50V 10N
160V 47U
16V 100N
10K
356312K
1N5062
SMD JUMPER
3511-
-
16V 470N
1K3561
12K
4K7
4R7
220V 220U1KV 2N2
-
REGION NALR
1K
330K
-
FR2X5W
3594
-
4R73521
5500550155025520
55K-LAITEMKEYBOARD-IR+LED-GL
R+LED-EU/LA/AP
TC.PNL+FI.PNL-INTERF
EU/NA/AP
L2K2.FRNT.55K-NA
L2K2.FRNT. L2
2X5W
LA
3503
3509
330K
-
359535964500
2516
-2509
-
EN 26L01.1E AB 7.Schematics and PWB’s
9
10 11
F
A
B
C
D
E
F
G
0220 A210 11 0221 B60288 F60289 A90319 B20321 D80322 G51400 B41402 E71410 F72400 F42401 F42402 F32404 G5
3K9
3460
2405 D32415 E32420 B42421 B42422 B42423 B42441 F92443 F102444 G82448 A92450 A52451 A62452 B22453 B52454 B52455 D32456 D62457 D62458 C62459 B62460 D22461 E22462 E42463 D42464 E62465 D42466 E52467 E52468 E52469 D62470 E52480 D92481 D82482 A102484 D62485 B102486 D92487 D92488 D92489 D102490 C62491 E82492 B102493 E53400 E33401 F33402 F33403 G33404 G33405 G43406 G43407 G43408 G53410 G53411 F43430 E73431 F7
L5
3441 E103442 F93443 F103445 F83446 F83447 E93448 E103449 D103450 D103451 F83452 F93453 F103454 G93455 D103456 F103457 F103458 C63459 D63460 C103463 D4
3464 D93465 A103468 E23469 B93481 C83482 C93483 B103484 C93485 A63486 A63487 A53488 C93489 C33490 B93491 D23492 D23493 C33494 B93499 D24430 C25400 E45401 E55445 B75450 B25451 A65452 D45453 C35457 B65461 D35463 E75464 E65465 E65480 E86400 F36401 F56402 F36403 F36445 F86447 E86448 G106449 B96452 B46453 F106460 D46461 E46462 E26463 E26465 D66466 C66467 C26468 C26469 C36481 D106482 E106483 C96485 B86486 D86487 C86488 D86489 D86490 D27400 G47441 E97443 G97444 C47450 F107460 D37461 D27462 F1
C557B7443
7463 E27480 E97482 D109420 B29422 D99423 D29424 F39426 F39451 A69453 A59460 D69461 E59462 E69463 E69464 E6
3443 1M
6401
1m
6
L11
6453
BZX384-C6V8
3449
100R
1410
6448
3457
3453
1K
100R
3450
RE
S
8V9
0R
A1-11
A2-16
*
2V
C5V6
0V5
A6-16
8V
*
A6-18
*
9V
5V7
13V
3
A6-23
*
0R
A2-69
0V
A7-9
A5-16
*
BZX79-B6V2
6V3
5V A3-65
1.9V
*
5V
5V
200V
BZX79
A5-36
2400
3448
BD1357482
L6
345
BZX79-C9V1
6482
53
4u7
2485
L10
L7
3441
100R
3456
L9
3465
2489
470u
3483
BZ
X79
-C33
2488
3n3
2492
3455
6R8
34027450
PDTA114ET
3447
7441C857B
47n2443
3K3
3469
13
6481
2482
49V99
EHTinfo
VideoSupply
VlotAux+13V
+13V
Vcontrol
VlotAux+13V
VT_Supply
Filament
Vguard
Hflybk
VlotAux+13V
EW_protection
VlotAux+50V
BLK-IN
VlotAux+5VA
+8VB
EHTo
POWER_DOWN
CL 26532063_003.eps130602
9
G
1 2 3 4 5 6 7 8
B
3408
3404
7400
3406
0322
3405
0288
3403
*
ONLY FOR SETS WITH
S
*
E/W CORRECTION
For Picture
*
*
*
*
0V
*
*
*0V
*
*
*
137V
PANEL
*
*
D
CCT.
* Width Control
A2-22 G
*
TO DAF5V6
3454
2402
3407
2404
9426
3452
10K
3410
2444 1u
6403 24
01
EWdrive|EWD_dyn
L5 = +200VL6 = +50VL7 = +50VL8 = +13VL9 = +5VL10 = +8VL11 = +13V
L1
1V / div DC20us / div
L2
1V / div DC20us / div
L4
5V / div DC5ms / div
L12
2V / div DC20us / div
Mono Carrier: Line Deflection
FOCUS
VG2
EHT
424
A
B
C
D
E
1 2 3 4 5 6 7 8 9
2491
43 2
1
6461
9423
3431
3430
2484
L1
3464
4R7
7461BC337-25
L2
2450
47u
5450
2461
1u2441
9420
2460
3459
15K
402
9422
6460
470u34
99
3458
1K
3482
L34430
G5P
A14
00
23
14
1
2
3
4
5
9451
3401
100MHZ
5452
2420
2463
3463
33R
9464
3494
4R7
CI-
15
3K9
3484
2468
4R7
3487
3493
3486
6485
BYD33J
1N41
48
6447
RG
P30
J
5453
22u
*
*
TO 0244
220u
1V5
0V
*
*
*
*
*
*
HORIZONTAL
*
5V2
RES
*
*
*
*
*
A2-16
PANEL
*
*
*
*
*
*
*
13V3
A7-7
0V
*
0V
A2-69
*
*
*
126V
0V
*
*
*
*
*
*
*
11V6
*
*
5V5
PANORAMA
*
5V2
*
*
TO 0290
*
OF
*
OF CRT
*
UDZS-10B
*
DEFLECTION
COIL
RES
*
*
*
*
5V2
*
*
TO PICTURE TUBE
LINE DEFLECTION
*
A6-21
5V2
*
L.LI
N
CU
15
0V
BA
V21
6465
*
9V
*
*
*
*
0V
*
*
*
*
*
*
*
13V3
3492
1K
2415
2469
BAS216
6467
2421
7444
2470
0319
2464
6486
EGP20DL
9461
2466
L4
9460
1
14021
2
3
K6
446
3491
5461
1
3 6
2454
2493
9462
2467
2456
6487
BYD33D
3489
7
8
9
5445
1
10
11
12
3
5
6
6490
BY
D33
M
2405
5480
47u
2455
9463
5451
27u
BAS216
6468
5464
CU
20d
12
34
2490
3400
6463
5463
470p
2481
3485
BA
V21
6466
6483
2448
2451
3481
7462PDTC143ZT
47u
2487
680p
2459
3490
8K2
0321
5457
B
5401
3442
1K
2486
2453
5K445
2458
2480 47
u
6452
2422
9453
7460BU4508DX
2462
BC327-257463
3468
6488
EGP20DL
2465
2457
64BA2423
0220
6445
BZ
X28
4-C
10
5465
CU
15
0221
1
4
5400
VH
7480BD135
0289
L8
6489
BYD33D
3488
4R7
6462
2452
180p
BY
D33
M
6469
3411
VlotAux+13V
VlotAux+13V
Bass_panorama
MainAux
6400
Hdrive
VideoSupply
VlotAux+13V
MainSupplyGnd
EHTinfo
Filament
MainSupply
+13V VlotAux+5VA
VlotAux+13V
Schematics and PWB’s EN 27L01.1E AB 7.
BYD 33JBYD 33J
BZX384-C10
8 9 10
BZX79-C47---
BY228/24
8 9 10
A
B
C
D
E
F
---BYD 33JBYD 33J
------
JUMPERJUMPER
---JUMPER
------------
---LAL04 27U
---BZX79-C47
---BY228/24
---BZX384-C12
------
BYD 33JBYD 33J
------
JUMPERJUMPER
---LAL04 18U
---
---------
---LAL04 27U
---BZX79-C47
---BY228/24
---BZX384-C8V2
---------------
JUMPERJUMPERJUMPER
---JUMPER
---
---LAL04 27U
---BZX79-C47
---BY228/24
------BZX384-C10
BAS 316
JUMPER------------
29RF 21RF-2x10WW 29FL-2x10W29RF-2x5W21RF-2x5W
SMGK
AP/CH IN
---JUMPER
---
LG.PH
JUMPERJUMPER
---
CH
SMGK LG.PH
BZX384-C6V8BY228/24
6453 BZX384-C5V6 BZX384-C5V6BZX384-C5V6
U
7
10BAS 316
------------
JUMPERJUMPERJUMPER
---JUMPER
------------
---------
---LAL04 27U
---BZX79-C47
---BY228/24
---BZX384-C12
BAS 316---
------
CL 26532063_005.eps210502
1 2 3 4 5 6
- -YES YES
7
F
646974007450760694149424 -
-YES
---
-STP3NC60FPPDTA114ET
YES-
YESYESYESYES
-- -
PDTA114ET PDTA114ET- --
YESYES
6467
9921
---
BZX79-C9V1BZX384-C10V
-
PDTC143ZTYESYES
646064626463
-
-- -
9426945194639646965596569685
BY228/24-
BZX384-C9V1
PDTA114ET---
-BZX384-C8V2 BZX384-C9V1
- ----
BY228/24 BY228/24-
-- -- -- -- -
- --
Mono Carrier: Line Deflection Diversity Tables
------
---
1 2 3 4 5 6 7
-3404 - - -
10R
15N68N
DIVERSITY TABLE FOR
2468
6R8
---
SM JUMPER SM JUMPER SM JUMPER-
-
- -SM 10K SM 10K 24
- -
SM 820R6R8
-
--2462
21421
NO EW
-
ITEM
2466
2404
REGION LATAM NAFTA
LINE DEFLECTION
SMGK
3400
00425
- - -- -
SM 820R SM 1K
SM JUMPER
6R8-
A
B
C
D
E
24WR 21RF-2x529RF
SMGK
21RF-2x10W
JUMPERJUMPER
---JUMPER
---------
LG.PHLGPD
BC547B
AP
C946-01
---------
BYD 33JBYD 33J
JUMPERJUMPER
BZX384-C10
---LAL04 22U
---BZX79-C47
---BY228/24
---BZX384-C12
---
---------
JUMPER---
JUMPER---
JUMPER------
SPT0508 18U---
BZX79-C47---
BY228/24---
29RF-2x10W
BZX79-C68BAS 316
DG3-7005LBZX78-C12
---------
BYD 33JBYD 33JBC547B
---------
JUMPER---
JUMPERJUMPER
EU
ITEM
TUBE
REGION
LATAM
22U22U
53201SC10015-00 B
CHOKELAL04A 33U
22U00425
-
SM JUMPER-
6R8SM 1KSM 10K
---JUMPER
---
22R34
10K12K
100R
820R
5K13R9
180R
SC10015-00 B-
L2K2
PHCO LG.PH
SMGK
NOEW
21RF
EW
27RF (PIP)
-
270N
- -3406 -3408 -
-
SC10015-00 B SC10015-00 B
1KBZX79-C47
545354575461
6401
33N
3454345634573468348134823484
2519-
LAL04A 18U-
SMGK
2519
270N
-
- -18K 18K 18K12K 8K2
---
2K
TYPE OF TUBE
- -LAL04A 22U LAL04A 18U
-
54455451
-
546354806400
68N
3452
-- - -- - -
34863491349234933499
2519-
22U00425
22U
-
-2405 220U-16V
- - -2457 270N
3405
47K10R47K
10R5K1
SM JUMPER SM JUMPER SM JUMPER
12K16 29 24
-
EW/NON EW
TUBE PHILIPS
NO EW
21RF
--
-2467 15N
33N 33N 33N2482 33N
3451
47U220U-25V
22N360N
-820P2U2
-
--
- -
-
440144024430
-
5401
- -
- - -
220U-16V 220u-16v2451
21RF
3410341134473448
470P
220K82K1K
4R74R7100R10K4R7
2463 390P 680P 390P2464
-180R820R
180R820R
15K 15K
9N1
--
3403 - -
15N-
12N
2U2
330R
56R470R
2KSM JUMPERSM JUMPER
- -
3401
-2465 9N1 9N1
---JUMPER
---
2401-2402
---------
JUMPER---
JUMPER---------
JUMPER
---LAL04 27U
---BZX79-C47
---BY228/24
---BZX384-C12
------
BYD 33JBYD 33J
------
JUMPERJUMPER
JUMPERJUMPERJUMPER
---BZX79-C47
---BY228/24BZX79-C10
------
BAS 316BYD 33J
------
JUMPER---
JUMPER---
JUMPER---------
JUMPER
---LAL04 33U
---BZX79-C47
---BY228/24
---------
---BYD 33JBYD 33J
29RF
5464548061716401645264606462646364646467646964907444942394519460946294639464963596369921
C946-01LAL04 39UBYD 33D
---
LAL04 39U---
JUMPER
---LAL04 22U
---JUMPER
---JUMPER
JUMPERJUMPER
JUMPER
C946-01LAL04 18UBYD 33D
BZX79-C68BAS 316BY228/24
BZX78-C12---------
BYD 33DBYD 33DBC547B
---------
JUMPER---
BZX78-C12
BZX79-C68BAS 316
DG3-7005L
28WR 32WR 21RF---
LAL04 27---
BZX79-C4---
BY228/24---
BZX384-C---------------
JUMPERJUMPERJUMPER
---JUMPER
------------
15N180N
1000U-
---BZX384-C12
------
JUMPER---
------
---
EN 28L01.1E AB 7.Schematics and PWB’s
8 9
A
B
C
D
E
F
LG.PH LG.PH
25V 100N
25V 220U
---------
---
8
---
9
3499 --- --- ------ 10K --- ---
50V 2N225V 100N10V 2200U50V 2U225V 220U
------------
250V 330N100V 2U22KV 2N2
160V 2U21K6V 15N
---400V 22N400V 15N
250V 120N---
---------
50V 10U
IN CH
SMGK
---------
1000UJF0501-2136
------
LINCOR DRUMSC10015-00
---
---------
68K680K6K210M180K470K330K33K
100K4R74R7---
100R56R27K
15K8K2
---
10V 2200U
27K
15K8K2------
10K1K------------------------
1000UJF0601-2136
---LAL04 22U
LINCOR DRUMSC10013-00
CU15
---
------10K1K---------------
50V 2U2
------------
250V 330N100V 2U22KV 2N2
160V 2U21K6V 15N
---400V 22N400V 15N
250V 120N---------68K680K8K210M180K470K330R33K100K4R74R7
---
---100R56R
4R74R7---
100R180R68K---
22K3K9------
10K1K------------------------
1000UJF0501-2135
---LAL04 22U
82UHSC100015-00
C957-02
50V 10U10V 1000U50V 2N2
16V 1000U
16V 1000U50V 6N825V 220N16V 1000U50V 2U216V 220U
------------
250V 270N100V 2U22KV 290P
160V 2U21K6V 9N1
---400V 22N400V 22N
---250V 33N
---------
82K270K8K210M180K470K330R22K
100K
330R33K100K4R74R7---
100R180R68K---
22K3K9------10K1K------------------------
1000UJF0501-2135
------
82UHC10009-03
C957-02
50V 10U
---------
---------
50V 10U16V 1000U
50V 6N825V 220N
16V 1000U50V 2U216V 220U
---
250V 270N100V 2U22KV 390P160V 2U21K6V 9N1
---400V 22N400V 22N
---250V 33N
------
82K270K8K210M100K470K
---
---------
---
21RF-2x10W 21RF-2x5W 29RF-2x5W 29FL-2x10W
CL 26532063_007.eps210502
7
F
8K23617
---
100RSMD JUMPER
---27U
BF40 C906-01---
PSLOT 0V207622U
1 2 3 4 5 6
4K7
5463SRW0913DR-T02
3619364044024430518054005401544554515453 ---
LNCOR DRUM54615457
4K78K2
100RSMD JUMPER
---27U
BF40 C906-01---
PSLOT 0V207622U---
25UHSRW0913DR-T02
---
---SMD JUMPER
---------
1000U1342 0033C
33UJUMPER
LINCOR DRUMSRW0913DR-T01
C957-02
------
---1000U
PSLOT 29"RF22U
JUMPERLINCOR DRUMSRW0913DR-T06
CU15
4K78K2100R
SMD JUMPER------
8R40 C906-01---
USLOT +S22U---
---------
SMD JUMPER------
LINCOR DRUMSRW0913DR-T02
---
------
SMD JUMPERSMD JUMPER
------
1000UUSLOT 29"RF
22U---
LINCOR DRUMSRW0913DR-T02
CU15
---
---1000U
PSLOT 29"RF22U---
LINCOR DRUMSRW0913DR-T02
CU15
---------
SMD JUMPER------
---------------------
1000UJF0501-2135
------
82UHSC10009-03
C957-02S
---------------------
1000UJF0501-2136
------
LNCOR DRUMSC100015-00
CU15
---------------------
1000UJF0501-2135
------
82UHSC100015-00
C957-02
Mono Carrier: Line Deflection Diversity Tables
A
B
C
D
E
TUBE
LATAM L2K2
LG.PHPHCO
REGION
3258
28WR 32WR 21RF 29RF 24WR 29RF 21RF-2x10W
25V 220U
---12V 5A LKS1A-H10
2465
3259
DIVERSITY TABLE FOR LINE DEFLECTION
ITEM
---
1 2 3 4 5
50V 2U2
------
21RF-2x5W---
16V 1000U50V 6N825V 330N16V 1000U
6 7
33K100K4R74R74R710K180R56K
180R22K
390R3W 22R
3K93K3
330R
50V 10N25V 330N10V 2200U100V 2U225V 220U16V 1U
50V 470P50V 22N
250V 68N250V 470N
---2KV 680P
---1K6V 12N
1KV 9N11KV 9N1
250V 560N250V 33N100V 2U2
---NFR25H 1R
120K560K
---------
---------
3405340634073408344734653468348134823486348934913492
330R
2464
16V 470U50V 10U10V 2200U
224322452247240124052420242124512454245724582463
2466246724682469
500V 470P
24822490249331763206324732503257
1K10M100K470K
340034013403
---1K6V 12N
---1KV 9N11KV 9N1
250V 560N250V 33N100V 2U2
------
120K560K1K
10M100K470K330R33K100K4R74R74R710K180R56K
12V 5A LKS1A-H1014002174217522092216
50V 10U16V 1000U50V 10N25V 330N16V 2200U50V 2U216V 220U
------
50V 15N
16V 1U50V 470P50V 22N
250V 68N250V 470N
---2KV 680P
---------
250V 33N---
400V 15N---
220K180K8K21M180K4M7330R22K68K4R74R7---100R180R22K180R27K3K9
180R22K
390R3W 22R
3K93K3
330R
50V 4U716V 1000U50V 10N25V 220N16V 1000U50V 2U225V 220U
------
50V 22N---
250V 330N100V 2U2
---250V 330N100V 2U22KV 470P160V 2U21K6V 8N2400V 15N
---------
33K680K8K210M270K470K330R220K82K4R74R7
---
---100R180R27K
15K6K8
3W 22R---10K1K
3W 33R---10K1K
---
3W 22R3K93K3
330R
2KV 680P160V 2U21K6V 12N400V 10N
---400V 18N
250V 68N
680K1K10M100K470K
------
100K10R10R
---10K180R27K
10K24K
180R
10V 2200U50V 10N25V 220N10V 2200U100V 2U225V 220U16V 1U
50V 470P
---1KV 9N11KV 9N1
250V 68N250V 560N
12V 5A LKS1A-H10------
50V 10U50V 1000U50V 10N25V 220N16V 1000U50V 2U225V 220U
------
50V 22N---
250V 330N100V 2U22KV 680P160V 2U2
------
100V 2U2------
220K560K8K210M270K470K330R220K82K4R74R7---
100R
50V 22N250V 68N
------
2KV 1N2---
1K6V 12N
---150K
1K6V 12N400V 10N
---400V 18N
250V 68N---
29RF-2x10W---
16V 1000U50V 10N25V 220N16V 1000U50V 2U2
------
50V 10U
25V 220U------
50V 22N---
250V 330N100V 2U2
50V 10U
3W 22R------1K
---
560K8K210M270K470K330R220K
---------
150K
82K4R74R7---
100R180R27K
15K---
3W 22R---10K1K
180R27K
15K5K6
100R
------
5K6
16V 1000U50V 6N825V 330N16V 1000U50V 2U2
------
50V 22U
16V 220U------------
250V 270N100V 2U22KV 470P2KV 680P
160V 2U21K6V 12N400V 10N
---400V 18N
250V 68N---------
270K8K210M390K470K330R22K
100K
100K4R74R7---
100R56R27K
15K---
12K------10K1K
---50V 10U10V 2200U50V 10N25V 330N10V 2200U100V 2U2
EU
------
160V 2U21K6V 8N2
---400V 22N400V 22N
250V 33N---
SMGKLG.PHLGPD SMGK
AP AP/CH
100K4R74R7
---100R56R27K---
15K8K2
------
10K1K
50V 4U716V 1000U50V 2N225V 220N16V 1000U50V 2U225V 220U
------------
250V 360N100V 2U22KV 2N2160V 2U21K6V 15N
---400V 22N400V 15N
---250V 120N
---------
33K680K8K2
10M100K470K330R68K
56R27K
15K---
12K------10K1K
29RF---------
50V 22U
16V 220U------------
250V 270N100V 2U22KV 470P160V 2U21K6V 8N2
---400V 22N400V 22N
250V 33N---
---------
270K8K210M390K470K330R22K
100K
100K4R74R7---
100R
Schematics and PWB’s EN 29L01.1E AB 7.
9 10
A
B
C
D
E
F
0222 C82471 B59 10
REGION NAFTA/LATAM
2472 C62473 B72474 C32475 D32476 C73470 B63471 D73472 D73473 D73474 C43475 D43477 C73478 D73479 D73480 D63495 C73496 C73497 C73498 B44470 B75471 C75472 B76470 B86476 C67471 B49471 C79472 C7
A2-65
COIL
L
LECTION
24WR
TICAL
29RF21RF
SMGK(SF)
GL
3R9---
1R5---
3U33MUH3
---
100V 10N470K3R93R9------
SMD_JUMPER6U8
6MUH8JUMPER
RF 21RF
LG.PH
---6R84R7
30KR3R3R3R5---U3UH8---
63V 150N470K2R23R33R91R5---
3U33MUH3
---
100V 10N270K3R9
NAFTA/LATAM NAFTA/LATAMNAFTA/LATAM
150N
SMD_JUMPER6U8
3MUH3JUMPER
63V 150N470K3R9
LG.PHLG.PH
2K2
CH/INAP
Vguard
CL 26532063_004.eps130602
8
F
1 2 3 4 5 6 7
LG PHILIPS SMGK
ITEM
2472 10N
PHILIPS
21RF 27V/29"
150N 150N3470 SM 270K SM270K SM 330K3471
1R51R5
-
SM JUMPER4470
6R8 3R9 3R33472 6R8 6R8 3R33473 3R9 6R8 3R33480 -
PHILIPS
-
-5471 3U3 6U8 3U3
TYPE OF TUBE
TUBE
-
21RF 27RF
150NSM 470K
3R93R92R21R5
-6U8
9472 YES
-
-
F1
500mV / div DC5ms / div
F2
500mV / div DC5ms / div
F3
10V / div DC5ms / div
F4
5V / div DC5ms / div
Mono Carrier: Frame Deflection
25uA
R R
R
AINPUT/FEEDBACK
B
GUARD
1:1
12K
3498
A
B
C
D
E
4470
7471
1 2 3 4 5 6 7 8
9472
5472
3470 BAV99
6470
2K7
3479
3478
150R
3472
2472
47n
F3
22K
3495
F2
3497
100K
2476
2n7
*
A6-20
A6-19 *
COI
*
DEF
FRAME DEFLECTION
0V
-0V35V
1V
13V
5V
6V
6V
*
1V
VER
28WR 32WR 29
48V
*
33331
36M
*
0V
7V
100K
3496
3R91R5---
6U83MUH3
---
63V
SET
2472 63V 150N3470 470K3471 2R23472 3R33473 3R93480 1R54470 ---5471 6U8
TUBE
REGION
MODEL
EU
PHCO
5472 3MUH3
L
9472 ---
63V 150N270K3R93R3
2n2
2475
2K2
3475
4R7
3480
F1
3473
BZ
X79
-C12
6476
TDA8359J
GND
5
VFLB
6
VI+1
VI-2
VM 9
VOA
7
VOB 4
VOG
8
VP
3
9471
2473
100n
1
2
2471
100n
54710222
3474
2K2 15
0R
3477
3471
Vdrive-
Vdrive+
VlotAux+5VA
+13V
VlotAux+50V
F42474
2n2
EN 30L01.1E AB 7.Schematics and PWB’s
ND
SIF_2
8 9
A
B
C
D
E
F
0265 A40283 B20285 B21000 A31002 D71003 E7
SIF_1
8 9
1004 F72001 C32002 C42003 D52004 B52005 A52006 B62007 B62008 C52009 C82010 A43000 C33001 C33002 C63003 B73004 C73005 C83006 D53007 D53008 D53009 D63010 D33011 D43012 A74001 D54002 E74003 E64004 E74005 D64006 D5
002
4007 B74011 F74012 F75001 A65002 C55003 F86001 A56002 B66003 C66004 D56005 D67001 E57002 E69001 D6
RF_AGC
SEL-IF-LL_M-TRAP
VIF_2
VIF_1
A5-25
A5-29
A5-28
A5-26
1n8
A7-30V
A5-27
5
R
3
4
5
5
3 8
O14
O2
22n
2009
7002
3
4
5
7001
5003
CL 26532063_008.eps130602
F
1 2 3 4 5 6 7
440
12
ITEM Non-FM RadioFM Radio
Stereo Mono
100030103011
UV1317------
UR1316R UR1316R330R
---JMP330R
Diversity TableK9656M
0V
RES
RE
S
1004
1
2
PDTC124ET
4011I1
2V / div DC200us / div
I2
2V / div DC200us / div
I3
500mV / div DC10us / div
I4
20mV / div DC10us / div
Mono Carrier: Tuner IF
+5V ADCIF
FM
AGC
TUNERMT
AS SCL SDA
FM-ANT
+5V
VT
G
A
B
C
D
E
1 2 3 4 5 6 7
0285
3010
10001
10
3006
100R
3000
+8V
6002
BAS216
10K
3002
10
6001
BZ
X79
-C33
2005
10u
SDA
SCL
FM
VlotAux+5VVT_Supply
RE
S
* RE
S
RES
RE
S
A7-14
FOR EMC ONLY
FOR ITV ONLY
RE
S
K3953M
TUNER IF
ISS
356
FM-RADIO ANTENNA
4.9V
OF
(EUROPE)
5V
RES
TO 0282
4.3V
*
390n
FOR ITV ONLY
RES
4.3V
A7-13
RE
S
FO
R IT
V O
NLY
3007
6K8
0283
A5-24
RE
S
34V5
*1002
I3
I4
4001
300
100
0265
22p
2002
1
2
4003SWI
1003
IN1
ING2
4007
3009
11
12
13
14
15
2
3 4 5
6
7 8
9
3001
100R
2007
100n
2K2
6004
4006
2006
470u
2001
22p
I1I2
6003
1 2 3
3004
6005
5002
5001
5u6
3011
1K5
3003
100u
2008
2003
2K2
3008
2010 1n 33R
3012
4005
9001
400447
n
2004
Schematics and PWB’s EN 31L01.1E AB 7.
IF
VISION IF
AGC/AFC
QSS SOUND
AGC
SOUND PLL
DEEMPHASIS
VIDEO
PLL DEMOD.
QSS MIXER AM
DEMODULTOR
AUDIO SWITCH
F
G
0243 B60248 C20249 B20266 E110276 C20294 E70297 C61200 E71201 E71203 F81204 B31205 A102201 D22202 C22203 D2
10 11
10 11
A
B
C
D
E
2204 D52205 B32206 D62207 D82208 B82209 F32210 G32211 D82213 E22214 E22215 F22216 B102217 B112219 B42220 F42221 B22222 F82223 F92225 C72226 C82227 D112228 D102229 C112230 C112233 E22234 F62235 E92236 F72237 G82238 F62239 G62240 F72260 F53200 B83201 B53202 C53203 C53204 E53206 F43207 C83208 E83209 E83212 E63213 D63214 A103217 G43218 G43219 G23220 B43223 E43224 F33225 F43226 E53228 A73229 C73230 B73231 A73232 C113233 F73234 E103235 E23236 F73237 F83238 G73239 G83240 F63261 F93270 D83637 C13638 D14203 B84204 C84205 F24206 F2
4207 E24209 E94210 B84211 B84212 B24213 A24214 D104218 F94219 F95201 D75202 A105204 F25205 G25206 E55672 F56201 F36202 F46206 G36207 E67200-A B97200-C C37201 D87204 F47206 B77209 F77210 F89200 D79206 E59207 A109618 A109653 F29672 F59673 G2
4u7
2230
32
18
19
22
23
24
25
26
RES
2V5
A14-40
A14-41
1V4
AS
3
RES
0V
0V8
FOR ITV ONLY
1V9
1V9
A9-42A5-42
A7-44A9-44
A5-42
A8-43A9-43
A4-26
A4-27
A4-25
A4-28
A4-29
A10-42
1V5
1V9
1V9
BAS316 A4-24
RES
2V5
0V
1V7
7V8
*
9653
9618
4214
9207
1205
6201
4209
BFS207209
0266
7204
1m2216
7210BFS20
22n
2217
2227
4n7
3232
2K2
2228
820p
10u
5202
680R
3234
100R
3214
220
4u7
35
36
39
+8VA
+8VB
4u7
2229
SIF_1
SIF_2
RF_AGC
VIF_2
VIF_1
QSS_AM_DEM_OUT
AudioSupplyGnd
V1-OUT
FMR
V_OUT
MONO|AM_MONO_SOUND
QSS_AM_DEM_OUT
CL 26532063_009.eps140602
/ div DC / div
1 2 3 4 5 6 7 8 9
G
A1-XX
A2-16
0V7
A8-XX
A1-XX
A8-XX
B
RES
0V0V
9673
5205 100MHZAudioSupplyGnd_FB
4219
MainSupplyGnd
6206
BZ
X38
4-C
6V8 22
39 1n1n
2236
1n
1K3238
2210
470n
BC857B
330K
3239
1n2237
3218
82K
2K2
3219
3217
330K
EHTinfo
MainAux
MainAux_FB
AudioSupplyGnd_FBV5
1V / div DC10us / div
V6
1V / div DC10us / div
V7
1V / div DC10us / div
V8
2V / div DC5ms / div
V9
500mV / div DC10us / div
V10
200mV20us
Mono Carrier: Video IF + Sound IF
AMPL
SOUND
AMPL. + AVL
VIDEO
PAL/SECAM/NTSCDECODER
VIDEO FILTERSVIDEO IDENT
I/O SWITCHING
OSD
YUV
OSD/TEXT INSERT
BLUE STRETCH
WHITE-P. ADJ.
RGB/YUV INSERTBLACK STRETCHWHITE STRETCH
BASE-BAND
DELAY LINE
LUMA DELAY
PEAKING
1 2 3 4 5 6 7 8 9
4218
A
B
C
D
E
F
4212
1K
3229
4206
100R
3235
2226
3n3
560R
3226
3200
390R
7200-A
27
V7
2V5
2V5
5V6
3V5
2V5
2V5
2V5
0V
3V2
2V6
3V5
2V9
3V3
1V2
TO 0296
2u7
04B
ZT
E2
RES
JMP
RES
0V
RES
RESS
GP
A14-39
A14-38
A10-37
A2-36
A14-35
A14-34
A14-33
A14-32
A14-30
A12-31
5V2V9
220R
RE
S
RES
16
100MHzV3
3V8
3V3
3V3
2V3
2V9
5V
(EUROPE)
RE
S
(EUROPE)
OF
8V1
2V5
2V5
TO 0295
FOR ITV ONLY
RESRES
FOR ITV ONLY
FOR ITV ONLY
TO 0245OF
CRTPANEL
VIDEO IF + SOUND IF
for
M’n
as o
nly
OF
---
ITEMSINGLE
5V
(EUROPE)
0V
------
3233 820R ---3236 150K ---3237 1K2 ---3238 560R ---3239 270R ---3240 100K ---72097210
820P
RES
RES
3V7
3V7
1V5
TDA95XX
TDA95XX
DUALSCART IN
5206
5272
JUMPER
SPT0508
F.BEAD1000MHz80R
DVD
5672 ---
SCART INDVD
SPT0508---
2V
2V6
*
*
*
ITEM
---BFS20
RES
2V5
3V1
4V
FM RADIO NON-FMRADIO
22342238
2222
22n
100uF1nF
------
BFS20
22392240
1nF1nF
5206
5204 100MHZ
V10
2206
V1
V2
2207
5672
27u
9672
1204
2260
470n
3270
6207
9206
330R
3261
2223
10p
0294
0297
75R
3638
3637
1203G 2
I 1 O 3
V5
V8
V9
0276
4210
4211
3233
2K2
4213
1n
2240
2K2
3237
2235 1n
2238
V6
100n
2234
V4
100K
3236
3240
220K
4203
4204
2204
100n
6202
2233
0249
0248
BC847B7201
4207
4205
3231
680R
2221
22n
3223
100R
220n
2219
2225
22n
3228
390K
270R
7206BC847B
3230
G 2
I 1 O 3
9200
2G
1I 3O
1200
1201
3213
560R
470R
3212
3207 1K
3208
2211
470n
5201
100n
2203
100R
3209
2220
470n
2205
220n
3220
2208
100n
2202
100n
2201 100n
3203
100R
3204
10K
3224 3225
9
3206
33K
2213
22n
6
02431
2
3
4
5
3201
100R
53
54
55
56
57
58
83202
100R
7200-C10
28
29
40
41
42
43
44
45
46
47
5051 52
22n
2215
33
38
48
49
2214
22n
+8V
+8V
+8V
C-IN
B_U-IN
R_V-IN
G_Y-IN
BLK-IN
FM
VlotAux+5V
L1-IN
LFRONT-IN
FBL-1
SY_CVBS-IN
CVBS1-IN
EN 32L01.1E AB 7.Schematics and PWB’s
8 9
A
B
C
D
E
0295 D72241 E52242 E52243 B52244 E62245 E62246 D82247 B72248 B7
8 9
*A6-16
2249 B52250 B42252 C82253 C82254 B52255 B43241 D53242 B43244 C83245 E63246 E63247 E83248 D83249 C83250 D83251 C83254 B63256 B83257 B53258 B43259 B45241 A85242 C87200-D C59241 B8
**294
A3-19
A3-20
A2-23
560K
F
*A2-22
RES
A2-21
5241
2253
1n
22n
100R
3250
1K
3256
3249
820R
9241
3247
820R
3244
33K
3248
2246
4u7
10u
5242251
00R
1n
2252
Vdrive+
+8VA
EWdrive|EWD_dyn
EHTo
Hdrive
+3.3V
Vdrive-
EHTinfo
+8V
CL 26532063_010.eps130602
4 5 6 71 2 3
S1
2V / div DC20us / div
S2
500mV / div DC20us / div
S3
500mV / div DC5ms / div
S4
500mV / div DC5ms / div
S5
1V / div DC5ms / div
Mono Carrier: Synchronisation
+
H
V
H-DRIVE2nd LOOPH-SHIFT
VIDEO IDENT
H/V SYNC SEP.
H-OSC. + PLL
V-DRIVE
GEOMETRY
EWGEOMATRY
TELETEXT/ODSDISPLAY
A
B
C
D
E
1 2 3 4 5 6 7
*
0V
3V8
7V9
1V2
3V9
TDA95XX
TO 0
A2-16
A2-18
SYNCHRONISATION
4V
1V2
0V
1V3
2V1
A7-17
(EUROPE)
3V9
0V9
O
2V9
A6-16
1000
u
12K
S2
21
30
31
34
9
2u2
2250
10K
3246
1M
3254
2244
100n
S4
2248
22K
3241
7200-D11
12
13
14
15
1617
20
15p
2255
39K
3245
3258
100K
2254
0295
3259
470K
1n5
2241
S5
3242
S1
2249
22n
10n
2243 22
47
220n
2245
3
1
3257
10M
1u2242
S3
EHTinfo
Hflybk
SANDCASTLE
Schematics and PWB’s EN 33L01.1E AB 7.
BL HDISPLAY
D
E
F
G
0217 F20240 A39
9
A
B
C
0250 A10261 D20273 B40274 A80279 A10287 B20318 E21660 E72601 A62602 D82604 D22606 E82607 D72608 A52609 E72611 B52612 B82613 B82615 A62616 A42618 B52619 D83601 B33603 A83604 A83605 C23606 B73607 B73608 D83609 D33610 C33611 A83612 C33614 F23615 E23617 D23618 D23619 C33622 D73623 D33624 B73625 B73626 C73627 C93628 D73629 C83630 D83632 D93633 D93634 C73635 B23636 B24601 A74602 A74603 B74604 G24618 G25602 A65603 A65604 A65678 A27200-B B47602 A77606 E89631 E29641 E29647 B29678 A2
7606PDTC143ZT
+3.9V
3633
KEYBOARD_protn
100p
IR
SDA
SCL
+3.3V
EW_protection
+3.3V
+3.3V
+3.9V
STATUS1
+3.3VPOWER_DOWN
2
30
FOR ITV ONLY
0V3
A4-14
A9-14
RES
A1-11
A4-13
A2-9
A14-1
A8-14
0R
A9-8
RES
A7-13
A9-13A8-13
A12-8
A12-10
*
A7-14
4K7
3627
3632
100R
3608
2613
68p
10274
3629
CL 26532063_011.eps060602
COR V
EU
SNDAMP-2x10W-VD-
ST-EUITEM
SNDAMP-2x10W-ST-
EU
SNDAMP-2x5W-ST-
EU/AP
SNDAMP-2x5w-VD-ST
1 2 3 4 5 6 7 8
F
GSANDCASTLE
SCL
SDA
+8V
A7-14
A7-13
0V
A6-17
0V
0217
FOR ITV ONLY
OF
TO
2604 10uF --- --- 10uF
ITEMSINGLE SCART IN-
DVD
DUALSCART IN
3609 1K 10K3638 --- 75R
4
5
6
02171
2
3
4618
4604
47
C1
1V / div DC500us / div
C2
1V / div DC500us / div
C4
2V / div DC200us / div
C5
2V / div DC200us / div
Mono Carrier: Control
SDA
I/O
PORTS
VST PWM-DAC
ENHANCED
80C51
CPU
ROM/RAM
TELETEXTACQUISITION
1/10 PAGESMEMORY
R
G
B
CVBS
SYNC
OSD
TELETEXT
IIC-BUS
TRANSCEIVER
SCL
3605
4K7
4601
C4
1 2 3 4 5 6 7 8
A
B
C
D
E
1n
2618 1u
3607
2K2
3614
4K7
2611 1u
3619
8K2
9641
220n
2601
4K7
3626
VlotAux+5VA
3615
10K
C5
VlotAux+5V
C1
2615
9631
4602
4603
1n2606
2602
Bass_panorama
Volume|Mute
Stdby_con
LED
SEL-IF-LL_M-TRAP
+3.3V
+3.3V
+3.3V
SEL-MAIN-FRNT-RR
Treble_Buzzer_Hosp-app
+3.3V
ITV_MSG
STATUS2
2K
36
5u6
5603
A8-15
3V2
SDM
0V
0V
0V
CONTROL
A14-75
RES
(EUROPE)
*
FOR ITV ONLY
TDA95XX
0V
DATA-IN
*
0V
*
RES
3V70V
A1-5
A5-3
TO
#
A10-12
FOR ITV ONLY
DATA-OUT
*
3V2
*
*
3V2
0V
FOR ITV ONLY
0V
0240
FOR ITV ONLY
0V
3V3
EE
PR
OM
0V
1V5
OF
5V
0V
FOR ITV ONLY
0V3V7
3V3
A14-2
RES
3V3
RES
FOR ITV ONLY
0V
0V
RES
3V7
0V
Bass_panorama
3V3
M24
C08
TREBLE-BUZZ
A8-6
0VA2-7
3V7
0V
CLOCK
0V
POR
FOR ITV ONLY
A4-3 3V2
3V3
FOR ITV ONLY
*A12-4
GND
3V3
0V
3V3
100R
3622
02401
2
3
4
5
6
7
10K
3628
2K2
3606
7
8
100R
3604
7602
1234
5
6
3611
100R
1u2619
3635
100R
100R
3624
33p
2609
2608 1u
C3
10K
3618
1660
12M
HZ
0261
0273
47n
2616
33p
2607
4K7
3617
2604
5602
5u6
5604
5u6 3603
100R
3601
0250
0318
C2
100R3625
0287
4K7
3623
3636
100R
9647
3612
8K2
1K
3609
9678
0279
8K2
27u
5678
3610
78
79
80
1
2
3
5
59
6
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
3634
100R
7200-B
2612
68p
EN 34L01.1E AB 7.Schematics and PWB’s
0246 B100267 G20271 C20275 B40280 D100281 C102901 B7
RE
S
9 10
VOICE
9 10
A
B
C
D
E
F
G
CONTROL
A12-73
TO 0254
2902 B72903 B52904 B42905 C52906 C42907 D52908 E52910 C32911 B32947 C8
TO
A12-712948 C92949 C92950 C93172 D23901 B43902 B53903 B33904 C43905 C33906 D43907 E43908 B33909 C53910 D53911 A33912 E33921 D33922 D33923 D34901 B34902 B34903 C34904 C34905 C24906 E64921 B46901 B5
RE
S
OF
6903 A37901 B67902 D67903 E29901 C89902 C89903 A39904 B39905 D2
RE
S
A12-72
RE
S
A12-70
3
4
2947
2950
AudioSupplyGnd_FB
4
0281
1
2
3
2949
2948
0246
1
2
3
4
5
0280
1
2
AmpOutR_Pos
AmpOutR_Pos
AmpOutR+
AmpOutL_Pos
AmpOutL_Pos
AmpOutL_Neg
AmpOutR_Neg
AmpOutL+
CL 26532063_012.eps130602
3K36K8
99057903
Yes No
2BY10W
390239127901
-
AN7522N
1
A7-13
FOR COMPAIR ONLY
2 3 4 5 6 7 8
F
G
AN7580Yes NoYes No
3901 1K
A7-14
* COMMON
02671
2
3
SDA
SCLA1
1V / div DC500us / div
A2
1V / div DC500us / div
A3
1V / div DC500us / div
A4
1V / div DC500us / div
Mono Carrier: Audio Amplifier
1V4
*
*
* *
**
*
1 2 3 4 5 6 7 8
5V2
FOR ITV ONLY
5V2
**
A11-45
*
A7-15
A
B
C
D
E
2908
10u
*
*
5V2
*
FOR ITV
A11-46
*
*
*
*
A5-43
RE
S
A9-45
5V2
*
*6K8
Tilt Rotation 29RF-CH/32WS-EU3172
1V4
A15-74
*A8-45
PIP Interface
AUDIO_AMPLIFIER
FOR ITV ONLY
ITEM
3V7
* *
0V3
11V
8
A7-6
*
68K
RE
S
A9-46
ONLY
*
A1
3923
330K
AudioSupplyGnd_FB
3903
4904
2902
2R2
3908
4903
4905
AudioSupplyGnd_FB
1n2905
A2
AN7523N7902
3172
68K
3911
4R7
4921
A3
9902
0275
9904
4902
3921
330K
2910
2911
6903
3904
9901
2903 1u
470n
2904
3909
10K
10K
3910
AudioSupplyGnd_FB
3907
3902
AudioSupplyGnd_FB
2906
9 VOL
BC847B7903
2901
2
CH1+
4
CH1-
6 CH1-IN
3
GNDCH1
7
GNDINP NC
8
5
STB
1
VCC
3905
AudioSupplyGnd_FB
3901
4906
3906
A4
4901
1
2
3
4
3922
330K
0271
2907
6901
4
CH1-IN6
CH2+ 12
CH2- 10CH2-IN8
GN
DC
H1
3
GN
DC
H2
11
GN
DIN
P
7
ST
B
5
VC
C
1
VOL9
9905
7901
CH1+
2
CH1-
2K2
3912
MainAux_FB
VlotAux+5V
Volume|Mute
MONO|AM_MONO_SOUND
Main_OutL
9903
Main_OutR
VlotAux+5V
Tilt
Treble_Buzzer_Hosp-app
Schematics and PWB’s EN 35L01.1E AB 7.
EE2905 1nF 1nF1nF 1nF 1nF1n2 1nF
F
1 2 3 4
F
29062907291029112950390139023903
79039903991499169923
1K3K33K310K3K310K8K2---------
470nF1nF3n33n3
330pF1K3K3
---------
1N5062AN7522
---------
JMPJMP
3904390539063907390939103912690379017902
3K310K3K310K8K2------
470nF1nF3n33n3
330pF
JMPJMPJMP---
470nF1nF3n33n3
---AN7522
------
JMPJMPJMP---
------
AN7522------
JMPJMP
3K310K3K310K8K2
1n210nF10nF330pF
1K3K33K310K3K310K
---
470nF1nF3n33n3
330pF1K3K3
JMP---
47nF1nF
10nF
------
AN7522------
10K8K210K6K8------------
AN7522 PH---
330pF1K3K33K310K3K310K6K8------
---330pF1K3K318K10K---
JMP---
27nF
------
AN7523 PH---
JMP---------
8K2------------
AN7522------
JMPJMP
10nF330pF1K3K38K2
---JMPJMPJMP---
---------
---8K2
---------
CL 26532063_013.eps210502
Mono Carrier: Audio Amplifier Diversity Tables
C
D
IND-MKII
SNDAMP-2x5W-ST-
LA
SNDAMP-2x5W-ST-
1 2 3 4
A
B
C
D
820R---
AN7580---
BC857B---
JMP
1nF
---27K
ITEMSNDAMP- SNDAMP-
2x5W-ST-EU/AP
SNDAMP-2x5w-VD-ST
EU
SNDAMP-2x10W-VD-
ST-EU
2902
1nF3K33n3330pF
2x10W-ST-EU
A
B
390539063907390939103912490579017902790399059923
---
1000uF/16V1nF
1K3K33K310K3K310K6K8
1nF1nF
6K8---
82K---
8K2------
27K
560pF---------1K3K312K10K12K10K6K8
---------
AN7522N------
JMP---
1000uF/25V560pF560pF
29052907
1000uF/25V
2910291129503901390239033904
27K27K
820R---
AN7580---
BC857B---
JMP
1nF
---
3K3
---------
1N5062---
AN7523------
JMPJMP
------------
AN7522N------
JMP
1000uF/16V560pF
3K310K3K310K6K8------
---------
330nF1K
JMPJMPJMP---
470nF1nF------------
---------6K8---82K---82K------
---------
AN7523---
JMPJMP
18K8K2------
8K2
1nF1nF1nF---
6K8---
22K---
22K---
---
470nF1nF
470nF1nF3n33n3
330pF1K3K3
JMPJMP
470nF1nF
470nF1nF3n3
------
AN7522------
10K3K310K8K2------------
AN7522---
330pF1K3K318K10K------8K2------
3n3330pF1K3K33K310K3K3
JMP---
470nF1nF
470nF
---AN7522
------
JMPJMPJMP---
470nF1nF
8K227K27K2K2---
AN7580---
BC847BJMPJMP
10K6K8------------
AN7522 PH
3n3330pF1K3K33K3
---
470nF1nF
470nF1nF3n33n3330pF1K3K3
---JMPJMPJMP---
470nF1nF
470nF1nF3n3
------
JMPJMPJMP---
470nF
10K6K8---------
330pF1K3K33K310K3K310K8K2------
470nF1nF3n33n3
330pF1K3K33K310K3K3
1nF470nF1nF3n33n3
330pF1K
------
JMPJMPJMP
8K2------------
AN7522------
JMPJMP
3K310K3K310K8K2------------
AN7522
SNDAMP-2x5W-ST-
AP
SNDAMP-2x3W-ST-
NDBX-NA/LA
SNDAMP-2x5W-
1nF470nF1nF3n33n3
2904
---1N5062AN7522
---------
JMPJMP---
470nF
470nF
3K33K310K3K310K
JMP---
ITEM SNDAMP-2x3W-LA
SNDAMP-2x1W-NA
SNDAMP-2x3W-ST-
NAST+WOOFER-
IND
SNDAMP-1x4W-MN-
AP
470nF470nF 470nF 47nF27nF
29102907
Or 2x1W-NA
ITEM With Stereo W/O Stereo4905 --- JUMPER
1nF
291129503901390239033904390539063907
470pF
9923
1000uF/25V 1000uF/16V
Diversity Table For
ITEM SNDAMP-1x1W-MN- 1x3W-
NA/LA
SNDAMP-2x10W-ST-
AP
SNDAMP-2x3W-ST-
NA
SNDAMP-2x5W-ST-
---
JUMPER---9905
2x10W Non 2x10WChassis-Chassis-
Using 2K2Using 2K2
EU/AP
SNDAMP-2x1W-NA
SNDAMP-2x5W-LA
ITEM Mono Sets 2x10W-AP Others
2902 220uF/50V
ITEM
290429052906
470nF
Audio Amplifier
GL
SNDAMP-2x1W-ST-
EU/AP
SNDAMP-
3909391039126903790179027903990399149916
Personal Notes:
EN 36L01.1E AB 7.Schematics and PWB’s
9 10
A
B
C
D
E
F
G
0239 F101812 F59 10
A10-49
1813 F71831 B82831 C82832 C82833 C42834 A32835 A32836 A42837 B32838 A102839 B102840 B62841 B42842 A62843 A62844 C32845 C32846 G12847 D32848 D32849 C102850 C102851 D10
A9-43
2852 E82853 E102854 E82855 E22856 E22857 F22858 E42859 F22860 F22861 D82862 D102870 F52871 F62887 C92894 A62895 A62896 F32897 C32898 A63831 B33832 A10
A10-50
A8-45
RES
A8-46
TO 1811
3833 B103834 D23835 D23837 D83839 E83840 E33841 F33842 F53843 F23844 F63845 F63849 F33861 D9
*0215
4u7
A10-51
RE
S
4832 D104834 F14835 F34836 F34861 D95831 A35832 B85833 G25835 E26831 B37831 C77834 E47835 E3
R
TO 1810
4u7
A5-43
A7-13
A7-14
TO
RES
OF
RES
A7-8
2
2851
1n
1n
2850
MONO|AM_MONO_SOUND
SC1_LOUT
+8V
SC2_CTRL
3
A6
4861
28712870
10K
3861
1p
1n
2849
12
4u72862
A9
A10
2838
2887
1n
4832
3
2853
100R
3833
A7
100R
3832
2 02391
2
3
2839
SCL
SDA
Main_OutR
KEYBOARD_protn
SC1_ROUT
Main_OutL
CL 26532063_014.eps140602
11a
00mV / div DC2us / div
5 6 7 8
F
G
1 2 3 4
A5-44
(EUROPE)
RE
S
OFOF
**
(EUROPE)
SNDSYS-ITEM
MSP3415B8MSP3415
CL-EUVD-EU
------
BC847B
SNDSYSNI/GS/RD/
100R10K
78327833
BC847B
25812853
JUMPERJUMPER
4u74u7
---38393844
100R---
---100R
38453861
------
NI/GS/RD/
7831 MSP3411G MSP3415
EU
SNDSYSNI/GS/RL-
FM/AM-EU
SNDSYSNI/GS/RD/
FM
ITEM WITH MON.OUT
WITHOUTMON. OUT ITEM WITH MON.
OUTWITHOUTMON. OUT
28623836
---1K
4u7---
38373838
100R1K
---
1u
1813
1u
1812
A54836
2846
100u
38422859
5833
6u8VlotAux+5V +5VA
FMR
A8
1V / div DC500us / div
A9
500mV / div DC500us / div
A10
500mV / div DC500us / div
A11
1V / div DC200us / div
A8a
1V / div DC500us / div
A
5
Mono Carrier: NICAM + 2CS + BTSC (Stereo / SAP) Decoder
SCART
LOUDSPEAKER
TP
NC
VREFTOP
SOUND IFANA_IN1+
ANA_IN1-
SCART-L
IDENT
A/D
A/D SCART-R
MONO-IN
D/A
D/A
D/A
D/A
SCART-L
SCART-R
LOUDSPEAKER L
LOUDSPEAKER R
DSPSC1-IN-L
SC1-IN-R
SC2-IN-L
SC2-IN-R
MONO
SCART 1
SCART 2
SCART Switching FacilitiesSC1-OUT-R
SC1-OUT-L
DACM-L
DACM-R
AUDIO PLL
CA
PL_
M
TE
ST
EN
DV
SS
DV
S U
P
AG
ND
C
AV
S S
AV
S U
P
AH
VS
S
AH
VS
UP
VR
EF
1
VR
EF
2
RE
SE
TQ
ST
AN
DB
YQ
AD
R_S
EL
I2C
_CL
I2C
_DA
DEMODULATOR
& NICAM
DECODER
FM1/AM
FM2
NICAM A
NICAM B
A
B
C
D
E
43
44
45 46
47
48
49
550 51 526 7 8
9
1 2 3 4 5 6 7 8
0V6V2
RE
S
3V8
*
*
0V
1V5
RES
1V5
A9-43
*
A5-42
0V
2V5
A10-48
3V8
3V
5V
0V
1V8
5V 3V7
RES
2V4
2V6
0V MSP34X5G
3V
0V4u
7
ES
1V8
RE
S
*
3V
*
*
5V
NICAM + 2CS + BTSC (STEREO/SAP) DECODER
RE
S
RE
S
(EUROPE)
3V7
2V5
3V8
A10-47
0V
0V
0V
5V
2V4
]
0V7V8
3V8
5V0V
56p
860
2833
47p
100n
2845
A11a
2854
2837
7834
3835
+5VA
15p
2856
2898
10n
2858
3840
841
18M432
1831
HC-49/U
3845
100R
220p
2894
2841
10u
A11
2848
1p2832
2831
220p
2835
3834
50p
857
2855
27p
100n
2840
3839
100R
100R
3844
3831
47K 6u8
5832
10u
2844
560p
2895
10u
2843
6u8
5831
28
29
3
30
31
32
3334 3536
37 38
39
4
40
41
42
13
14
15
1617
18 19
2
20
21 22
23
24
25
26
27
7831
1
10
11
12
100R
3837
4835
2834
470p
3849
2842
100n
2852
A8a
843
5835
12u
2861
10n
4834
896
28471n
5
2836
1N4148
6831
7835
A8
2897
390p
SC1_RIN
MONO|AM_MONO_SOUND
QSS_AM_DEM_OUT
SC1_LIN
+5VA
VlotAux+5V
VlotAux+5V
Schematics and PWB’s EN 37L01.1E AB 7.
A
B
C
D
E
F
G
H
0296 B40298 C50299 C50300 C50301 C51810 C61811 E6
9
9
1814 C51815 C52801 B32802 F42803 D22804 D62805 E62811 A62813 B52814 B52815 B62816 B62817 B62818 B62819 B62820 B72821 B72822 B72823 C72824 B23801 A13802 A23803 C43804 D43805 D43806 D43807 E43808 E43809 H13810 H23811 A63812 B43813 B43814 A53815 A44805 E14806 F14807 H24808 H34809 C26801 A66802 A66803 B66804 B66805 A46806 A46807 A66808 A17801 C37802-A F37802-B G37802-C G37803 C47804 D47805 B57806 B57807 B59801 F1
TE2
THOUTN.OUT
220R1K
---220R
VD-ST-EU
100K82K
82K220K
1K 220R82K 220K--- ZTE2
ST-EUSC2-S/CN-
*
MPMP
-MON-S/CN-
---20R
EU
20K20K20K0K
SC2-S/CN-
---------------
ALRT IN
u7MPMP
CL 26532063_015.eps210502
*
RE
S
G
H
1 2 3 4 5 6 7 8
*
1V6
A13-59
FRONT/SIDE AV
5V8
A5-37A14-59
A12-58
RE
S
3V8
SET WITH5V
0V
A14-63
A5-42 5V
1V6
5V8
4808
7802-B
E6
S 10Vdd
16
Vee7
Vss8
Y02
Y11 Z 15
0V0V
4807
Vdd16
Vee7
Vss8
Y05
Y13 Z 4
7802-C
E6
S 9
75R
3809
75R
3810
QSS_AM_DEM_OUT
SY_CVBS-INY_CVBS-IN
R2-OUT
CVBSFRONT-IN
Mono Carrier: Audio / Video Source Switching
L
H
L
H
LOGICLSBMSB
LL
LH
HL
HH
LL
LH
HL
HH
A13-52
1V6
0V
A14-61
*
A13-54
*
A9-49
A13-61
Only With CL Out
*
6V
1V8
A9-51
**
A12-53
E
F
3801
1 2 3 4 5 6 7 8
A
B
C
D
2818
*
5V8
2V3
A14-52
*
A12-31
*
AUDIO/VIDEO SOURCE SWITCHING
*
**
*
A14-54
6V
Only Europe
2V4
*
(RF Mode always)
(EUROPE)
TO 0297
5V
2V4
*
A9-50
2V5
*
(Scart2 Out)
*
1V6
To Micronas/BTSC/UOC
*
Monitor Out/AV Out1V7
2V4
* *
*
*
A9-47
From Front/Rear I/O
A14-62
1V8
*
*
1V8
(EUROPE)
TO 1812
RESERVE
(EUROPE)
A13-60
TO 1813
5V8
A14-56
From Micronas
A13-32
*
OF
*
*
0V
A7-12
*
*3V8
*
A14-60
*
A13-55
Z
A9-48
From MicroP
A14-57
*
*
*
Mono Scart1 out
*
Stereo Scart1 Out (RF Mode always)
*
*
*
*
2V4
*
*
8V
(EUROPE)
2817
2804
2815
4805
3806
6808
0299
0299
OUTWIMO
4809
0300
6801
4u7
2824
2814
3807
6807
6806
3808
1K
OF
RESERVE
OF
*
0V
A14-55
0V
*
*
0V
From Micronas
A14-32
*
--- J9835 --- J
ITEMSC1-DVD SC2
OUT
38013802
---220R 2
ST-
38033804
82K220K
12
3806 82K 13807 220K 226808 ZTE2
0298 YESYES
ITEM
18101811
YESYES
2823 100uF/25V
ITEMSINGLESCART IN-
DUSCA
28244815
------
4J
DVD
48204837
---
WITH MON.
J
0296
2802
1815
3812
1814
14
15
2 3
4
5
6
9
VDD
16
VEE
7VSS
8
7801
1
10
11
12
13
2823
7803
1811
3815
2821
7807
6802
2819
3805
1K
2803
4806
2811
2822
1810
3802
3804
7802-A
E6
S 11Vdd
16
Vee7
Vss8
Y012
Y113 Z 14
6803
3811
2801
22u
0298
3814
6804
0301
7805
2820
7806
3813
2805
7804
6805
2813
3803
9801
+6V8
SC1_LIN
R-OUT
L-OUT
2816
R2-IN
SEL-MAIN-FRNT-RR
SC2_CTRL
L1-OUT
R1-OUT
L2-OUT
R1-IN
L1-IN
+6V8
+6V8
RFRONT-IN
L2-IN
LFRONT-IN
+8V2
VlotAux+13V+8V2
+6V8
+8V+6V8
SC1_RIN
SC1_ROUT
SC1_LOUT
EN 38L01.1E AB 7.Schematics and PWB’s
9982 F2
3689 A73691 C93692 D83693 D103694 D93695 C73981 E33982 F34691 E84692 D74693 D74694 G34695 C94696 B106181 A46681 B106691 D86692 D99181 A59184 A7
&
**
FOR ITV ONLY
RE
S
A
B
C
D
E
F
G
0214 E90215 C40218-A C20218-B B20218-C B20219 C40232 E50259 E100270 A50277-A B10277-B B10286 F7
9 10
9 10
0292 E40293 E71181 A21182 B21183 C21600 C101601 A91602 A91603 A81606 B82181 A32182 B32183 C32184 B42185 B32186 C32691 D102692 D8
TO 0214 OFVOICE CONTROL
channel-
*
2693 F82694 F82695 F82696 F82981 E22982 F32983 F22984 F33181 A33182 A33183 B33184 B33185 B33186 C33681 A93682 A103683 A83684 A83685 A73686 B93687 B103688 B10
*volume+el+
RE
S
*
*
volume-
*
*
*
*
TO 0259 OF
FOR ITV
4K7
3694
3682
68R
4696
BAT85
6681
1VS
3
84
3693
220R
3688
3681
75R
3687
1602
6692TSOP1836
GND2
OUT
10u
2691
1600
1601
2
2
2
3
4
5
1
2
3
4
5
02591
0214
C6
4695
3686
330R
3691
+3.3VA
KEYBOARD_protn
+3.3VA
CL 26532063_016.eps060602
RE
SF
G
1 2 3 4 5 6 7 8
A8-70
For Engg Purpose Only
A8-72
**
A12-8
RE
S
RE
S
2696
470p
2984
AudioSupplyGnd_FB
2983
10u
2694
2693
120R
3982
998
AudioSupplyGnd_FB
3
7
8
9
2695
4694
AmpOutR_Pos
AmpOutR+
Mono Carrier: Front I/O + Front Control + Headphone
*
0R
RE
S
*
*
V
POWER
A7-10
USA
R
L
1183
4691
1 2 3 4 5 6 7 8
A
B
C
D
E
*A10-31
(EUROPE)
FOR ITV ONLY
HEADPHONE
BZ
X38
4-C
6V8
ITV ONLY
TS
*
A10-58
FRONT CINCH
TO 0251 & 0253 OF
FOR ITV ONLY
FOR ITV ONLY
MONO SET
A7-4
A7-8
FRONT IO + FRONT CONTROL + HEADPHONE
SIDE/FRONT AV.
A8-71
*
**
*
TO 0251 OF
A5-31
FRONT CONTROL
*A10-53
chann
A12-8
*
OR
*
SET WITH
A8-73FOR ITV ONLY
*
*
FOR
1606
1
2
3
021947
0p
2982
120R
4692
3981
1
2
3
4
5
6
2K7
3689
9181
0277-A
2184
36
1182
3183
4693
3185
1181
6181
0293
0286
3685
3692
1K
0215
0218-A7
8
9
2185
3184
0292
9184
AudioSupplyGnd_FB
2186
36833182
10u
2981
0270
2181
22p
3695
100R
1
4
5
6
1603
0232
LTL-
1022
4WH
CR
6691
3
0218-C
1
2
0277-B
2182
0218-B
4
5
6
3181
3186
2183
2692
LED
CVBSFRONT-IN
RFRONT-IN
LFRONT-IN
+3.3V
KEYBOARD_protn
IRAmpOutL_Pos
AmpOutL+
Schematics and PWB’s EN 39L01.1E AB 7.
---68R ------ --- ---68R---3688
iversity Table
3
3
A
B
C
330pF
UT
---
REAR I/O SCART
ITH MON. WITHOUTMON.OUT
330pF4u7
4u7150R220K
---
150R220K
BC847B---
---
------
------
---
CL 26532063_019.eps210502
2 3 4
F F---
---330R220RYES
YES
2K7330R220R
1
---
---330R220R
------
YES
------
YESYESYES
BAT85YES
---330R
---330R
---330R220RYESBAT85YESYES
---YES---
3693 220RYES ---
---
2K7330R
------
------
YESYES
6681 BAT85YES
---4696
6691
9184
3691
10uF
2x10W-VD-SNDAMP-SNDAMP-SNDAMP-
EUEU/APEU
---220R
---
ITEM
2604
2x10W-ST- 2x5W-ST-SNDAMP-2x5W-VD-ST-
10uF ---
6692
------
---YESYES
220R
3689
YES---
YES
ST-EU
---
CL 26532063_017.eps210502
Mono Carrier: Front Control Diversity Tables
A
B
C
D
E
A
B
C
D
E
1K5
560
560
Front Control
---
---
---
1 2 3
YESYESYES
1K5---
YESYESYES---
10uF390R3K3390R560R560R1K5
390R390R---
JUMPER
4
------
YESYESYESYES---
10uF180R270R
---1K5
------75R
------
YESYES
10uF390R3K3390R560R560R
------
YES
1K5---
--- YES
---
---
---YES------------
YES10uF---------
YES
---
YES10uF180R270R390R390R---
------
55K-NANA
YESYESYESYES
---10uF390R3K3
390R560R560R
---
YES
---
---
---
*2K7
*68
NA
YES
YES
---
------
JUMPER
------
------
------
------
YESYESYES
6681
4696
3689
3688
3687
3686
3685 ---
---
---
---
---YES
3684
3682
3681
1606
1603
1602
1601
1600
0239
0231
ITEM
*390
*270
*180
---
YES
YES
YES
YES
YES
YES
YES
YES
---
---
KEYBOARD+
---
---
---
---
YES
---
BAT85
JMP
---
---
---
1K5
560
560
3K
390
YES
YES
Diversity Table For
IR + LED55K NA
NON55K LA55K NA
9184
---
*2K7
*68
*75
JMP
---
---
---
---
BAT85
JMP
---
---
---
---
---
YES
*1K5
YES
YES
YES
---
9501
9500
LA
YES
YES
YES
---
---
YES
--- ---
---
---
---
* 1% TOLERENCE RESISTER
---
---
3682368336843685
---
YES
YES
---
---
YES
YES
---
---
---
YES
YES
YES
---
---
---
---
1K5
560
560
3K
---------
10uF---------------------
YES
YES
JMP
---
---
---
---
---
---
---
IR + LEDLA
IR + LED55K LA
NON
For Front Control
---
---
L2K2.FRNTIR+LED-KEYBOARD-
EU/NA/AP
36863687
NON-55K-L2K2.FRNT
NON-55K-LAL2K2.FRNT
IR+LED-GL EU/LA/APTC.PNL+FI.PNL-INTERF
---
NAIR+LED.55K
YES------
ITEM
021402391600160116021603160626913681
10K
DUALSINGLE
DVD
3538 --- 75R
75R
55K-LAL2K2.FRNT
3K3
390
---
YES
---
---
BAT85
JMP
*75
JMP
---
*390
*270
*180
YES 390
---YES
YES
---
---
---
ITEM
3609
SCART IN- SCART IN
1K
Mono Carrier: Rear I/O SCART D
1 2
1 2
A
B
C
2135 390pF---2136 4u7---2137 390pF---2138 390pF---2139 4U7
2153
O
DIVERSITY TABLE FOR
SCART IN-DVD
2143214421452147
ITEMSINGLE DUAL
SCART IN
21312132
390pF390pF
------
21332134
4u7390pF
------
---------------
75R---------------------------
---2140 390pF---2141 390pF2142 4u7
ITEM W
21312152
6K875R100R68R1KJMP---
220K
220K
215431513152
3121313131323133313431353136313831393140314131423143314431464105
---
315331547131
---------------
JMP
330pF330pF22pF22pF---150R
150R47K
150R
47K27K
EN 40L01.1E AB 7.Schematics and PWB’s
10 11
A
B
C
D
E
F
G
0224-A F1110 11
Audio-R_out
0224-B F110227 A70229 E70235-A A10235-B A110236 A50242 F60262 G51101 A31102 B31103 B31104 C31105 C31106 D31107 C21108 D31109 C21110 E31111 E3
Audio-L_in
YC-C_inR
ES
1112 F31113 F31131 A91132 B91133 B91134 C91135 B101136 C91137 C101138 C101139 D91140 C101141 D91142 E91151 F91152 F92101 A32102 A42103 A52104 B32105 B42106 B52107 B32108 B42109 B52110 C32111 C42112 C52113 C52114 D52115 D52116 E52117 E52118 F42119 F32120 F42131 A92132 A82133 A72134 B92135 B82136 B72137 B92138 B82139 B72140 C92141 C82142 C72143 C82144 D72145 D82146 E92147 E82151 F92152 F82153 F92154 F82155 F102156 F102161 G33101 A43102 A43103 B43104 B43105 B43106 B43107 C43108 C43109 C43110 C53111 D43112 D4
84-C
Audio-LEFT
RE
3113 D43114 D53115 E43116 E53117 E43118 E53119 F33120 F43121 F43122 F43131 A93132 A83133 B93134 B83135 B93136 B83137 C93138 C83139 C93140 C83141 D83142 D73143 D9
Video/YC-Y_in
3144 D83145 E83146 E83151 E93152 F83153 F93154 F83155 G34101 A34102 B34103 A54104 B54105 F64106 A74151 E84152 F86101 C36102 D36103 D36104 E36105 E36106 F36131 D86132 E97101 E57131 D7
RE
S
MONITOR OUTPUT
Audio-L_out
Audio-R_in
Audio-RIGHT
RE
S
CVBS_out
Function_Sw
SCART 2
1
1140
4
1
0224-A
2 3
312
211
5
2
0224-B610
1137
18B
19B
2B
20B
21B
3B
4B
5B
6B
7B
8B
9B
0235-B1B
10B
11B
12B
13B
14B
15B
16B
17B
1138
111 21
56
23
1135
22212
2155
CL 26532063_018.eps210502
9
G
1 2 3 4 5 6 7 8
FOR ITV ONLY
OFTO 0262
BZ
X3
TO 0242 OF
A7-75
FOR ITV ONLY
3155
47R
67
891
2
3
0262
1234567
0242
2161
47u
ITV_MSG
+8V
Mono Carrier: Rear I/O SCART
A
B
C
D
E
F
330p
2143
1 2 3 4 5 6 7 8 9
A10-60
3V5
0R
A5-41
*
RE
S
*
RE
S
*
RES
7V6
A10-59
A7-2
RGB-G_in
RES
Audio-R_out
SCART 1
*
3V5
RES
OF
A5-39
A5-40
A5-33
A5-38
A5-34
A5-30
RE
S
A5-35
2V9
6V8
0RS
RE
S
RE
S
BZX384-C8V2
BZX384-C8V2
BZX384-C8V2
*
RE
S
RGB-B_in
TO 0227 0F
A10-62A10-56
Audio-L_in
REAR I/O SCART
A10-63
RE
S
4101
3142
Audio-R_in
7V6
A10-32
2V9
A7-1
FOR ITV ONLY
Audio-L_out
Terr_CVBS_out
A10-55
Function_Sw
*
BZX384-C8V2
A5-32
Video_in
RE
S
FOR ITV ONLY
RGB-BL_in
A10-54
A10-52
TO 0242
RE
S
*
*
FOR ITV ONLY
A10-61
RE
S
*
*
RGB-R_in
TO 0227 0F
A10-57
RE
S
152
100n
2106
4152
6101
68R
3119
2144
330p
1139
100n
2154
150R
3151
2135
330p
3144
2104
2116
22p
2118
22p
153
30p
6102
1111
1
2107
1105
2137
0227
1
100R
3116
100R
4103
3146
220K
3136
4106
9
1104
0236
1 2 36104
1112
100n
2109
6132
6
330p
2138
3106
220K
2108
330p
2132
2113
22p
330p
27K
3111
3134
47K
4151
1107
3120
1K
1141
100n
2112
1103
3115
75R
330p
2114
330p
2151
6131
27K
3139
3109
75R
6K8
3140
7A
8A
9A
3102
220K
13A
14A
15A
16A
17A
18A
19A
2A
20A
21A
3A
4A
5A
6A
0235-A1A
10A
11A
12A
1131
220K
3132
100n
2136
BC847B7101
13
2
1102
0229
123
1132
2146
6103
75R
3113
100R
3118
100R
3114
2110
100R
3141
75R
2152
100n
2140
330p
2111
3101
150R
1133
1109
4104
3137
150R
150R
3103
1108
2 3
150R
3107
3133
150R
2133
100n
3
3138
47K
2139
100n
1142
4105
3110
1151
3145
3122
1106
330p
2105
47K
3104
22p
2145
330p
4102
2141
22p
2117
1134
20K
154
1110
1K
100n
2142
2134
6105
1101
22p
2115
2101
150R
3135
6K8
3112
2131
3143
68R
3152
220K
2103
100n 150R
3131
BC847B7131
13
247
K
3108
p0
2147
22p
1136
75R
3117
2102
330p
3153
150R
3105
150R
R1-OUT
CVBS1-IN
V1-OUT
Y_CVBS-IN
V_OUT
R2-IN
L2-IN
R-OUT
L-OUT
L2-OUT
STATUS2
STATUS1
R2-OUT
+8V
R1-IN
L1-IN
+8V
G_Y-IN
B_U-IN
FBL-1
R_V-IN
L1-OUT
C-IN
Schematics and PWB’s EN 41L01.1E AB 7.
UREON
UIT
TO 1015
GPM CCT.PANEL
D
E
F
0268 C80290 F50291 F82171 C42172 C52174 F72175 F73171 C43173 C43174 C53176 F65180 F66171 F77000 B69180 F6
6V3
6V1
OF
8
8
E
A
B
C
COILROTATION
TO
0268
1
2
3
2
3
4
02911
470u
2175
8
2OUT+
7OUT-
VlotAux+13V
CL 26532063_021.eps210502
TO 0289
1 2 3 4 5 6 7
FOF
1R
3176470p
21749180
27u
5180
6171
BYD33D
0290
Mono Carrier: Tilt and Rotation
Vcc
TEMPERATPROTECTI
ANDSHORT CIRC
20K
20K
STANDBY/MUTE LOGIC
TDA8941P
6V3
6V3
6V2
1 2 3 4 5 6 7
A
B
C
D
12V6
TILT & ROTATION
A8-74
2172
6 SVR
1VCC
3173
68K
7000
GND
3 IN+
5 IN-
4 MODE
100p
2171
220p
120K
3171
Tilt
VlotAux+13V VlotAux+13V
68K
3174
EN 42L01.1E AB 7.Schematics and PWB’s
CL 26532063_023.eps060602
Layout Mono Carrier (Top Side)
Schematics and PWB’s EN 43L01.1E AB 7.
1003 E6 2505 A5 3408 A5 5001 E7 7540 B3 9622 C6 9914 E4
ottom Side)
2226 A6 2887 B4 3548 C3 4214 C5 7204 B5
3_22m.eps060602
1004 E61200 E51201 E51203 E71204 D61205 D71400 C61402 B71410 A61500 A21515 B31530 B51531 B51532 B41533 B41534 B41535 B41540 B31600 C11601 C11602 D11603 D11606 A11660 D61810 C51811 C51812 C4
2506 B32508 B52509 B22515 B52516 B42521 B32523 A42560 C52561 C52562 B42563 B42564 B42566 C32567 C32568 C32580 C22581 C32604 D62691 A12801 D42823 D22837 D42841 C32843 C42844 C32846 C32855 C3
3410 A53411 A63430 A53431 A53445 C63446 C63447 C73448 C73449 C73450 C73451 B63452 C63453 C73454 C63455 C73458 B63459 B63460 B83463 A63464 B73465 A83468 B53469 C63471 C83472 C83473 C83474 B8
5002 E75180 E35201 E55202 E55204 C55205 C55206 C55241 E75242 E75400 A65401 A65445 B75451 B65452 A65453 C45457 B65461 B55463 A55464 A55465 A55471 C85472 B85480 C65500 B25501 B25502 A35520 B4
7560 C37602 D67831 D37901 E47902 E49001 E79171 D79172 D79173 D79174 D79175 D79176 D79177 D79178 D79179 D79180 E39181 C19182 C19183 C19184 C19191 B19192 B19193 B19200 E59201 E59202 D59203 D5
9623 D79624 D59625 E79626 D59627 D59628 E79629 D69630 C59631 D69632 E59633 D59634 D59635 D69636 C69637 E69638 D69639 E59640 D79641 D69642 D69643 D59644 E59645 E59647 D79648 E79650 E79653 C5
9915 E49916 E49918 D49919 D49920 E49921 E49922 E49923 D49982 B19991 B19993 E89994 E59995 D59996 E79997 E89998 E59999 E5
CL 26532063_23m.eps060602
2227 A62228 A62233 B62234 A72236 A72237 A72238 A72239 A72240 A72241 A62242 A62243 A62245 A52248 A72249 A62252 A72253 A72254 A72255 A52260 B52415 D52420 C52421 C62422 C62423 C52443 C62452 C82460 C52461 C62474 D8
2894 B32895 B32896 C32897 B32898 B32901 B42904 A42905 A42906 A42907 A42910 A42911 A42947 A42948 A42949 A42950 A42982 D12984 D13002 A83003 A83004 A83006 A73007 A73008 A73009 A63010 A73011 A73102 C73104 C83106 C7
3552 D33557 C43562 D43563 C43566 C33567 D33568 D33569 D33570 D43580 C23594 D33595 D53596 D53605 C63611 B63622 B73623 B63626 B63627 B63628 B63629 B63630 B63632 B63633 B63636 A73637 B53638 A53681 B13682 C13683 C1
4218 A64219 B54401 C74402 E84430 C54470 D84500 C44601 B64602 B64603 B64604 A54608 A84609 A84613 B54614 A54615 B64616 B64617 A64618 A54619 A64622 A74623 A74691 D14692 C24693 C24694 B14695 E14696 C14805 B44806 B4
7206 A57209 A87210 A77441 D77450 C67462 C57522 D47541 D37542 C37561 C47562 C47564 C37580 C37606 B77801 C47802 B47803 C47804 B47805 B27806 B27807 C27834 C37835 C37903 A5
CL 2653206
Layout Mono Carrier (Mapping Top Side)0211 A20212 B30213 A30214 B10215 B10217 E50218 B10219 B10220 C60221 B60222 C80224 E80227 C70229 D70231 A20232 B10235 D80236 C70239 C30240 D60242 D70243 D50246 E40248 E50249 D60250 C70251 B30259 B10261 D50262 D70265 E80266 E60267 E40268 E30270 B10271 E40273 D70274 C60275 D40276 D50277 B10279 D60280 E40281 E40282 B50283 E70285 E70286 C20287 D70288 B80289 B60290 E30291 D30292 B10293 C20294 E50295 E60296 D40297 D50298 C40299 C40300 D20301 D20318 D60319 C60321 C70322 C61000 E81002 E6
1813 C31814 D21815 D21831 C32005 E72006 E72008 E82161 D72171 E32172 E32174 D32175 E32209 D52216 E52220 D52229 E62230 E52235 E62244 E62246 E62247 E62250 E62400 A52401 A62402 A52404 C62405 C52441 B72444 B62448 B62450 B52451 B62453 B62454 B62455 B52456 B62457 B62458 B62459 B62462 A62463 A72464 B52465 A62466 A62467 A62468 A62469 B62470 A62471 B82472 C82473 B82480 B82481 B72482 A82484 B62485 C62486 A82487 A82488 C72489 C72490 B52491 B72492 C62493 A62500 A22501 A32502 A42503 A42504 A5
2902 D42903 E42908 E42981 B12983 B13000 E83001 E83005 E63012 E73101 C83103 C83105 C73107 C83109 D83110 D83111 D83113 D83114 D83115 D83116 D83117 D83118 D83119 D83121 D83122 D83131 C73133 C73135 C73137 C73139 D83141 D83142 D83143 D83145 D83146 D83151 E83153 D83155 D83171 E43172 E43173 E43174 E33176 E33181 B13182 B13183 C13185 C13200 E63201 D53202 D53203 D53204 D53207 E53214 D73220 D53228 E63235 D53244 E73249 E73250 E73251 E63400 A83401 A73402 A53403 A53404 A53405 A63406 A63407 A6
3475 B83477 C83478 C83480 B83481 A73482 A73483 C63484 A83485 B63486 B63487 B53488 A83489 C63490 C63493 C53494 B63500 A23501 B23503 A43504 B33506 B33507 B23508 A23509 B33510 B33511 A33519 B43521 B43523 A43526 A43527 A43532 A33543 B33550 C33558 C43560 C43561 B43564 C43565 C43590 C33601 D73603 D63604 D63606 D63607 D63608 D63609 D63610 D63612 E73614 D63615 D63617 D63618 D63619 D63624 D63625 D63634 D73635 D73801 D43802 D43808 C43832 D33833 D33834 C33908 D53911 D53912 E43981 B13982 B1
5521 B45560 B55561 B55562 B45564 C45602 D65603 D65604 D65672 C65678 C75831 D35832 C45833 C36001 E76171 D36207 E56400 A76401 A56402 A76403 A86447 B66448 C76460 A66461 A66462 B56465 B66466 B66469 C46476 C86481 C76482 C76483 A86485 B76486 C76487 A86488 B76489 B76490 C56500 A46520 B46523 B46524 A46525 A46540 C36560 C56561 C46562 C46566 B36568 B46582 C46681 D16691 A16692 B16808 D46831 D36903 D57000 E37400 A67443 C77444 B57460 A67461 C57463 C57471 C87480 C77482 C77515 B37520 B47521 A4
9206 C59207 E59241 E79406 A69407 A69408 B79409 C59410 C69411 B69412 C69413 C69414 C69415 C79416 C89417 C79418 C79419 B89420 C69421 A89422 B79423 C59424 A79425 B89426 A89427 B79451 B69453 B59460 B69461 A69462 A69463 A69464 B59471 C89472 B89500 A29501 A29502 A29503 A39504 B39506 B29507 B29508 B29509 B29510 C39511 C49512 C49513 C49514 B59515 C59516 C49518 B39520 B39521 A59522 C49524 C49525 B49526 B59528 B49529 B49611 C59612 C59613 D59614 E59615 D79616 D79617 D59618 D79619 D59620 D7
9654 C59655 C69656 C79657 D69658 C69659 C69660 C69661 D79662 D79663 D79664 C69665 C69666 C69668 C69669 C69670 C59672 C69673 C59674 C59675 C79676 C79678 C79679 C79680 D59683 D59685 D69686 D69687 D59688 D59689 D79690 D59691 E79692 C59693 C59695 E79696 E89697 D79698 D79699 C19801 D49811 C49812 D49814 D49815 D49816 C39817 C49818 C49820 C39821 D49822 D49824 C49825 C49826 C49827 D49828 D49829 D49830 C49832 C39833 D39834 C29835 C29901 D49902 E49903 D59904 D49905 E59911 D49912 D49913 E4
Layout Mono Carrier (Mapping B2001 A82002 A82003 A72004 A72007 A72009 A62010 A82101 C82102 C72103 C72104 C82105 C82106 C72107 C82108 C72109 C72110 C82111 C82112 C72113 B82114 B72115 B82116 B72117 B82118 B82119 B82120 B82131 C82132 C72133 C72134 C82135 C72136 C72137 C82138 C72139 C72140 C82141 B72142 B72143 B72144 B72145 B82146 B82147 B72151 A72152 A82153 B82154 B72155 A82156 A82181 D12182 D12183 C12184 C22185 D12186 C12201 A52202 B52203 A52204 B62205 A62206 A52207 A52208 A52210 B52211 A52213 B52214 B52215 B52217 A52219 A62221 B52222 A72223 A72225 A6
2475 D82476 C72507 D42520 D42522 E42525 D42526 D32527 E42528 D42540 C32541 D32569 C52590 C32601 B62602 B62606 B72607 B62608 B62609 B62611 B62612 B72613 B62615 B62616 B62618 B62619 B62692 E12693 D22694 E12695 E12696 D12802 C42803 C32804 B42805 B42811 C22813 B22814 B22815 B22816 C22817 C22818 C22819 C22820 C22821 B22822 B22824 B52831 B32832 B32833 B32834 B32835 B32836 B32838 B32839 B32840 B32842 B32845 B32847 C32848 B32849 B42850 B42851 B42852 C42853 B42854 C42856 C32857 C32858 C32859 C32860 C32861 B32862 B32870 C42871 C3
3108 C83112 B73120 B83132 C73134 C73136 C73138 C73140 B73144 B83152 A83154 B83184 C13186 C13206 B53208 A53209 A53212 A53213 A53217 B53218 B53219 B53223 B53224 B53225 B53226 B53229 A53230 A63231 A53232 A63233 A83234 A63236 A83237 A73238 A73239 A73240 A83241 A63242 B53245 A63246 A53247 C63248 A53254 A63256 C63257 A63258 A73259 B63261 A73270 A53441 D73442 D73443 C63456 C73457 C63470 C83479 C83491 C53492 C53495 C83496 C83497 C73498 C83499 C53520 D43522 D43524 E43525 E43528 D33529 D43530 E43531 D43541 D33542 D33544 D33545 D3
3684 B13685 C23686 B13687 C13688 C13689 C23691 E13692 E13693 E13694 E13695 C23803 B43804 C43805 B43806 C43807 C43809 B43810 B43811 C23812 C23813 C23814 B23815 C23831 B33835 C33837 C43839 C43840 C33841 C33842 C33843 C33844 C43845 C43849 C33861 B33901 B43902 A43903 A43904 A43905 A43906 A43907 A43909 A43910 A43921 A43922 A43923 A44001 A74002 A64003 A74004 A64005 A74006 A74007 A74011 A64012 A64101 C84102 C84103 C74104 C74105 B74106 C74151 A84152 B74171 B84203 A64204 A54205 B54206 B54207 B54209 A54210 A54211 A54212 A64213 A6
4807 B44808 B44809 C44811 B44812 B44813 B44814 C44815 B44820 C24832 C34834 C34835 C34836 C34837 B24861 B34901 A44902 A44903 A44904 A44905 B44906 A44921 B44982 D14991 A75003 A65450 C85835 C36002 A86003 A86004 A76005 A76101 B86102 B86103 B86104 B86105 B86106 B86131 B86132 B86181 C16201 B56202 B56206 B56445 D76449 C76452 C66453 C66463 C66467 C56468 C56470 D76522 D36526 E46541 D36563 D46564 D46565 C46567 D46569 C36570 C36580 C36801 C26802 C26803 C26804 C26805 C26806 C26807 C26901 A47001 A77002 A67101 B77131 B77200 A67201 A5
EN 44L01.1E AB 7.Schematics and PWB’s
CL 26532063_022.eps060602
Part 3CL 26532063_22c.eps
Part 4CL 26532063_22d.eps
Layout Mono Carrier (Overview Bottom Side)
Part 1CL 26532063_22a.eps
Part 2CL 26532063_22b.eps
Schematics and PWB’s EN 45L01.1E AB 7.
CL 26532063_22a.eps060602
Layout Mono Carrier (Part 1 Bottom Side)
EN 46L01.1E AB 7.Schematics and PWB’s
CL 26532063_22b.eps060602
Layout Mono Carrier (Part 2 Bottom Side)
Schematics and PWB’s EN 47L01.1E AB 7.
CL 26532063_22c.eps060602
Layout Mono Carrier (Part 3 Bottom Side)
EN 48L01.1E AB 7.Schematics and PWB’s
CL 26532063_22d.eps060602
Layout Mono Carrier (Part 4 Bottom Side)
Schematics and PWB’s EN 49L01.1E AB 7.
15
B
C
D
E
F
G
VG2 E90165 A70244 D10245 C10254-A A70255 A60256-A A62330 A32340 F22341 F42342 C42343 F52344 D32345 C62346 F5
10 11
10 11
A
EU EU
7
EU
3331 C43332 C53333 B43334 B53335 B43336 B53340 E23341 E43342 E43343 E53344 D63345 C63346 E63347 A23348 A1
EHT
R5R5MP
FROM LOT, MAIN CHASSIS
3349 A23350 B23351 B13352 B23353 C23354 C23355 C23356 A13357 B13358 C15342 C55343 A25344 B25345 C25346 A25347 B25348 C26331 B46332 D36333 A46335 A47330 B37331 A17332 B17333 C19341 A29342 B29343 C2
FOCUS
0 CRT SOCKET
NO
T U
SE
D
EU EU EU EUEUHCFEW8WS
28WR
2KV 470P33R33R
LAL04 22U
32WR
33R33R
LAL04 22U
32WR
--- ------
L2K2
29RF
2KV 3N3---
22R22R
LAL04 22U
21RF
2KV 2N2---
33R33R
LAL04 22U
ITEM 21/25RF 29SF 28BLD/BLS/32WS(O)
23432346334433465342
--2KV 1N2
22R22R
LAL04 3U9
SET
TUBE
REGION
MODEL
EU28/32WS(TH)(I) NO SVM SETS29RF(I) 28/32WS(I) 32W(TH)(O) EU EU EU EU EU EU
2
CL 26532063_020.eps060602
1K1K1K
1 2 3 4 5 6 7 8 9
G
1K5---
29" RF
PHEW
32" WS BLS
PH MATJ
100MHZ 50R
1R51R5JMP
11J
---
SDL-4893
1K
1K1K
SDL-4893
1K 1K
JMP
JMP1K
TDA6107------
1R1R15u
1R1R22u
1R1R18u22u
PHEW
28"BLS
PHEW
25BLD
1R15u
1R1R22u
1R
EW25BLS
1R1R22u
1R1R3u9
1R818u
1R5
---
---
JMP
---BAS316
BC847BTDA6108
---
---
---
---BAS316
TDA6107---------
---
JMPJMP
JMP1KJMP
---JMP
1K
---------
---SDL-4893
SDL-4893
BC847B
100n
------ JMP
JMP
BC847B
---JMP---
JMP---
JMP
---SDL-4893SDL-4893SDL-4893---
BAS316TDA6107
SGMKEW
PH
1R
EW28" WS BLD
SGMKEW
25" RFEW
32WSEW
21" RF
THCF
1R
T
2
33563357
---JMP---
JMPJMPJMP---
534563327330733173327333 ---
JMP
335853435344
TDA6107---------
JMPJMPJMP
JMP--- ---
JMP
---BAS316
BC847BBC847BBC847B
---------
JMP100nJMP---
JMP---
JMP
------
------
100nJMP---
2344334733483350335133533354
JMPJMP
JMP---
JMPJMPJMP---------
---BAS316
TDA6107------
JMPJMP
934193429343
100n
JMPJMPJMP
---
1K---
---------
SDL-4893SDL-4893
TDA6108TDA6108
BC847BBC847B
---------
100nJMP1K
1K1K1K1K1K
JMPJMP
JMPJMP------
---
BC847B---JMP
JMPJMP
JMP--- 3341
33425342
ITEM PHNO EW21FSQ
PHEW
28" BLD
PHEW
29SF
1R3u9
1R8
PHEW
1R522u
1R24" WS BLD
CRT Panel
3k75
188k7
3k77
3k75
188k7
3k77
3k75
188k7
Vref
7VPROTECTIONTHERMAL
BC1A1
Vref
Vdd
2.5V
3k77
A2Vref
Vdd
BC2
A3Vref
Vdd
BC3
Blue
Green
Red
V
TO
B
GNDLS
GNDSS
1 2 3 4 5 6 7 8 9
A
3357
B
C
D
E
F
*
*
Diversity Table
*
*CRT Sockets
R
0243
T0
CR
T S
OC
KE
T
(EUROPE)
G
*
TO
CRT PANEL
*
*
*
*
*
AQUADAG
B2-69
*
*B2-68 140V
6V
T
0220
OF
B2-67
*
140V
2V5
2V5
FROM RGB PROCESSING
WIRE
2V5
1K
B
REGION TUBE
140V
RE
S
Diversity Table
RE
SR
ES
R
G
OF
1K
*
**
**
*
*
*
*
*
1K
FROM LINE DEFLECTION
RES
RES
RES
*
*
5348
5346
3354
3352
+13V
B
R
G
5345
3n3
2341
12
3334
8
9
1
3358
5342
BA
V21
6335
4
5
02441
2
3
CG6
CR8
3345
V15 5G1
3353
+13Va
1
G2
3341
100R
3333
REGION TUBE (EUROPE)
0165
H210
100n
2330
3n3
2343
3346
22R
3331
100R
0255
10
11
12
4
5
6
7
5344
BA
V21
6331
02451
2
3
4
5
6
GND
H19
1n2342
3342
3349
3336
2344
9
V16
CB11
+200VA
7V14
H1
0254-A1
0256-A
G3
+13Va
G3
12
10u
2340
GND
22R
3344
1K5
3343
5347
3356 3347
3355
V12
+200VA
3332
6333
BA
V21
7332
3335
100R
7330
5BCI
GND
4
1 IN1
2 IN2
3 IN3
9OUT1
8OUT2
7OUT3
6
Vdd
5343
CB11
VG
3351
G15
V13
9342
10
V11
6332
G27
H2
3348
9341
2345
1n
2346
680p
7333
CR8
10R
3340
3350
7331
9343
CG6
EHT_INFO
FF
+200V
BC_INFO
V11
1V / div DC10us / div
V12
1V / div DC10us / div
V13
1V / div DC10us / div
V14
50V / div DC10us / div
V15
50V / div DC10us / div
V16
50V / div DC10us / div
EN 50L01.1E AB 7.Schematics and PWB’s
TOSCAVEM COIL
92V4
0V6
0V
48V8
93V7BD140
BD139
3R3
3R3
* * **
3385 E83386 D33387 D43388 E63389 E73390 D73391 D73392 E73393 B45360 B25361 D85362 D96360 C56361 B56362 C56364 B56365 C57360 C67362 C87363 D57365 D87366 E67367 D49361 B29363 D89364 D99365 C59366 D6
0278 D102360 A82361 B32365 D82366 D72367 D42368 D72372 C42373 E32374 E52375 D92376 E72377 B53360 A73361 A23362 B33363 B83364 B83368 B53369 B63370 C53371 C33373 D53374 D83375 D93376 D53377 D63378 D83379 D33382 E63383 E53384 E8
8 9 10
8 9 10
A
B
C
D
E
2375
150p
470R
3375
9363
9364
3364
3385
5362
5361
7362
7365
2360
22u
1
2
3
0278
100n
3384
820R
3374
56K
3378
56K
3363
820R
CL 16532020_089.eps050601
6361 BAS316 X X X
6362 BAS316 X X X
6364 BAS316 X X X
6365 BAS316 X X X
7360 BC547B X X X X X X X X
7362 2SA1358 X X X X X X X X
7363 BC547B X X X X X X X X
7365 2SC3421 X X X X X X X X
7366 BF423 X X X
7367 BC557B X X X X X X X X
9361 Wire
9363 Wire X X X X X X X X
9364 Wire X X X X X X X X
9365 Wire X X X X X
9366 Wire X X X X X
SCAVEM Panel
7V3
1V8
1V1
14V
7V6
7V9
7V6
8K2
4n7
0R
B1-67
B1-68
B1-69
*
*
*
1 2 3 4 5 6 7
1 2 3 4 5 6 7
100n
2376
4K7
3393
220R
3392
6365
BA
S21
6
6364
BA
S21
6
6362
BA
S21
6
100n
2377
6361
BA
S21
6
3373
33R
3391
3390
33R
2374 1n2373 1n 22
0R33
88
220R
3389
9366
5p6
2372
470R
3387
9365
BC557B7367
150p
2367
2K2
3386
3379
2K2
3360
3361
680R
9361
7366BF423
2K2
33716360
1N4148
3376
BC548B7360
2361
5360
5u6
100u
2366
4n7
2368
2365
7363BC548B
3382
1K5
337710R
3369
3383
220R
330R
3370
10K
10R
3362
1K2
3368
+13V
G
B
+200V
+13Va
R
Item Description 21
" R
ea
l fla
t
25
" R
ea
l fla
t
29"
Super
flat
28
" B
lacklin
e,
FM
ra
dio
32
" W
ide
scre
en
, N
o F
M r
ad
io
29
" R
ea
l fla
t
28
" W
ide
scre
en
, F
M r
ad
io
32
" W
ide
scre
en
, F
M r
ad
io
21
" B
lacklin
e
24
" W
ide
scre
en
25
" B
lacklin
e
28
" B
lacklin
e,
No
FM
ra
dio
28
" W
ide
scre
en
, N
o F
M r
ad
io
2365 22N 250V X X X X X X X X
2366 100N 100V X X X X X X X X
2367 47P 50V X X X
2367 56P 50V X X
2367 150P 50V X
2367 180P 50V X X
2368 22N 50v X X X X X X X X
2372 5P6 50V X X X X X
2373 56P 50V X X
2375 100P 50V X X X X X
2375 330P 50V X X
2376 100N 25V X X X
2377 100N 25V X X X
3360 8K2 5W X X X X X X X X
3361 680R
3362 Fuse 10R X X X X X X X X
3363 820R X X X X X X X X
3364 1R8 X X X
3364 3R3 X X X X X
3368 2K7 X X X X X X X X
3369 10K X X X X X X X X
3370 220R X X X
3370 330R X X X X X
3371 10K X X X X X
3371 4K7 X X X
3373 220R X X X
3374 56K X X X X X X X X
3375 150R X X
3375 220R X
3375 470R X X X X X
3376 Jumper X X X X X X X X
3377 10R X
3377 4R7 X X
3378 56K X X X X X X X X
3379 10K X X X X X
3379 4K7 X X X
3382 1K5 X X X X X X X X
3383 470R X X X X X X X X
3384 820R X X X X X X X X
3385 1R8 X X X
3385 3R3 X X X X X
3386 10K X X X X X
3386 4K7 X X X
3387 470R X X X X X X X X
3388 220R X X X X X
3389 220R X X X X X
3390 10R X X
3390 33R X X X X X X
3391 10R X X
3391 33R X X X X X X
3392 220R X X X
3393 4K7 X X X
5360 5.6uH 10% X X X X X X X X
5361 COIL
5362 COIL
6360 1N4148 X X X
Diversity Table B2
SCAVEM PANELB2
Schematics and PWB’s EN 51L01.1E AB 7.
m Side)
3370
A2
3371
A2
3373
A1
3376
A2
3378
A1
3379
A2
3382
A2
3383
A2
3384
A1
3386
A2
3387
A2
3390
A1
3391
A1
3392
A1
3393
A2
4311
A2
6332
A2
6361
A2
6362
A2
6364
A2
6365
A2
7331
A2
7332
A2
7333
A2
CL
1653
2051
_014
.eps
1405
01
Layout CRT and SCAVEM Panel (Top Side)
VG
2A
101
65A
202
44A
202
45A
102
54A
202
55A
202
56A
202
78A
223
30A
123
40A
123
41A
223
43A
223
45A
223
46A
223
60A
223
61A
123
65A
223
66A
233
31A
133
32A
233
33A
133
34A
233
35A
133
36A
233
40A
233
41A
233
42A
233
43A
133
44A
233
45A
233
46A
233
60A
233
61A
233
62A
133
63A
233
64A
233
74A
233
75A
233
77A
233
85A
233
88A
233
89A
253
42A
253
43A
153
44A
153
45A
1
5346
A1
5347
A1
5348
A1
5360
A2
5361
A2
5362
A2
6331
A1
6333
A1
6335
A1
6360
A1
7330
A1
7360
A1
7362
A2
7363
A1
7365
A2
7366
A2
7367
A1
9311
A1
9312
A1
9341
A1
9342
A1
9343
A1
9361
A2
9363
A2
9364
A2
9365
A1
9366
A2
CL
1653
2053
_013
.eps
0506
01
Layout CRT and SCAVEM (Botto
2342
A2
2344
A2
2367
A2
2368
A1
2372
A2
2373
A2
2374
A2
2375
A1
2376
A1
2377
A2
3347
A2
3348
A2
3349
A2
3350
A2
3351
A2
3352
A2
3353
A2
3354
A2
3355
A2
3356
A2
3357
A2
3358
A2
3368
A2
3369
A2
EN 52L01.1E AB 7.Schematics and PWB’s
CL 16532020_057.eps050601
Side)
CL16532010_014.eps210301
1 2 3 4 5 6
Side AV + HP Panel
VIDEO IN
LEFT
SIDE AV + HP PANEL
BZ
X79
-C6V
8
RIGHT
HEADPHONE
RE
SR
ES
L+
L-
R-
R+
L+
L-
R-
R+
GND
ToSpeakers
RES
8K2
10K
8K2
10K
RE
S
330R
330R
330p
330p
TO0219OF
TO0246OF
2174
F
0232 E50250-A C20250-B D20250-C B20251 A50254 E20255 E50277-A B10277-B D12171 D42172 C42173 C42174 D42176 F32177 F32178 E32179 E3
1 2 3 4 5 6
A
B
C
D
E
SG
07
3150 D43151 D43152 C43153 B43155 B43156 E33157 F36161 B49152 C39153 B4SG02 B3SG03 D3SG04 C3SG06 F4SG07 E4
SG
06
0277-A
0277-B
3157
1
2
3
4
53156
0254
100u
2177 2176
2179
100u
6
7
8
9
2178 4
02321
2
3
4
5
0255
1
2
3
2173
330p
2172
9153
9152
0251
1
2
3
4
5
6
7
8
9
3155
75R
0250-C
1
2
3
0250-A
0250-B
4
5
6
SG
04
3153
SG
02
330p
2171
SG
03
6161
3152
3150
3151
C
Layout Side AV + HP Panel (Top
Schematics and PWB’s EN 53L01.1E AB 7.
one (Top Side)
CL 16532004_016.eps210301
Side AV Panel + Headphone
VIDEO IN
LEFT
SIDE AV PANEL & HEADPHONE
BZ
X79
-C6V
8
RIGHT
HEADPHONE
330p
330p
L+
L-
R-
R+
L+
L-
R-
R+
GND
ToSpeakers
RES
8K2
10K
8K2
10K
330R
330R
330p
330p
(FOR ESD)
To 0219
To 0246of
To Speakers
N.C
* EUROPE AP/INDIA/LATAM
330R
330R
3156
3157
120R
120R
*
*
N.C
of
0250-B
SG
07
D
E
0232 D40250-A B20250-B C20250-C A20251 B5
1 2 3 4 5
1 2 3 4 5
A
B
C
D
E
A
B
CS
G06
0252 B20253 A50254 D20255 D50261 C52171 C42172 B42173 B32174 C32176 E32177 E22178 E32179 D23150 C33151 C33152 B33153 B33155 A33156 D33157 E36161 A39153 B39155 B4SG02 A3SG03 C3SG04 B3SG06 E3SG07 E3
4
1
2
3
4
0255
1
2
3
02511
2
3
0252
0253
1
2
3
3157
9155
3156
0254
1
2
3
4
5
2174
2177
100u
2176
100u
2179
3
4
5
6
7
8
9
2178
2172
330p
02321
2
2173
1
2
3
4
5
6
9153
9
75R
3155
0261
2
3
0250-A 7
8
4
5
6
0250-C 1
3153
SG
02S
G04
330p
SG
03
6161
2171
3152
3150
3151
CL 16532020_056.eps120401
A12
Layout Side AV Panel + Headph
EN 54L01.1E AB 7.Schematics and PWB’s
p Side)
CL 16532020_103.eps240801
G
H
G
H
1 2 3 4 5
------------------
YESYESYESYESYESYESYESYESYEs
YES------------------3685
3691
YES
YES---
YESYES
669266913693
FRNT INTERF. -SLIMNA
FRNT INTERF. -SLIM
EU / LA
FRNT INTERF. -SLIM
EU NON ULL01LITEM
023116062691269835003501
99019002
YESYESYES---
------
YESYESYESYES---
YES
CL 16532101_018.eps230801
Front Interface Panel
A
B
C
D
E
F
0211 B30212 B50214 D30218 D30231 B41606 E4
1 2 3 4 5
I001 B3I002 C4I003 C4I004 D4I005 D3I006 D3I007 E4I008 E3I009 D5I010 E3I011 E4I012 B4I013 B5I014 B5
*
RE
S
A
B
C
D
E
F
*
**
*
**
*
*
**
* *
2691 E52698 E53500 C33501 C33685 E43691 E43693 D53694 C56691 E46692 C69001 B49002 C49695 E4
TOP CTL + FR.PLINTERF - EU/NA
0231
9001
9002
2P 8/128A SDKV
-
-
-
YES
YES
-
YES
YES
2P 8/128A SDKV
-
ITEM KEYBOARDIR+LED-GL
KEYBOARDIR+LED-NA IR+LED-NA IR+LED
EU/APFRNT.INTERF
AP
T4.0AE
TO 0214OF
FRONT
AC MAINS
INPUT
110V/220V
TO 0211 OF
POWER SUPPLY
TO ITV/
MULTIMEDIA
CONTROL
POWER
FORITVONLY
LATAM 100V - 250VNAFTA 110V
EUROPE 220V - 240V
L01 USA ONLY
FRONT INTERFACE PANEL
-
-
YES
YES
-
YES
YES
6691
I014
I012 I013
100n
2698
9002
9001
I007
I009
I006
I008
I005
I003
I004
I002
3693
220R
I001
02181
2
1VS
3
3501
3M3
02111
2
6692TSOP1836
GND2
OUT
3500
3M3
5
02121
2
0214
1
2
3
4
10u
2691
3691
330R
3694
9695
I010 I011 1606
1 3
2 45 6
560R
3685
+3.3V
+3.3V
SDDF0231
Layout Front Interface Panel (To
Schematics and PWB’s EN 55L01.1E AB 7.
Top Side)
1091 A11092 B11093 A21094 A16091 A1
CL 16532020_059.eps030401
Top Control Panel (RF)
TOP CONTROL PANEL (RF)
C+ C- V+
V-
TO 0239OF
PLUG&PLAY MENU
1 2 3
1 2 3
A
B
C
A
B
C
0215 A11091 B21092 B31093 B31094 C32010 B13091 A13092 A23093 A23094 A33095 A33096 C36091 B3
BAT85
6091
2010
10n
3095
3K3
30961K5
3094
270R
3092
390R 560R
3093
3
3091
560R
0215
1
2
1094
1092 10931091
CL 16532020_053.eps200301
Layout Top Control Panel (RF) (
EN 56L01.1E AB 7.Schematics and PWB’s
(Top Side)
0215 A21091 A21092 A11093 A21094 A16091 A2
CL 16532020_100.eps050601
Top Control Panel (FSQ)
C+ C- V+
V-
TOP CONTROL PANEL (FSQ)
TO 0239OF
MENUPLUG&PLAY
2010
10n
1 2 3
1 2 3
A
B
C
A
B
C
0215 A11091 B21092 B3
BAT85
6091
1093 B31094 C32010 B13091 A13092 A23093 A23094 A33095 A33096 C36091 B3
3096
1K5
3094
270R
3095
3K3
3092
390R 560R
30933091
560R
0215
1
2
3
1094
1092 10931091
CL 16532020_054.eps200301
Layout Top Control Panel (FSQ)
Alignments EN 57L01.1E AB 8.
8. Alignments
Index of this chapter:1. General Alignment Conditions2. Hardware Alignments3. Software Alignments and Settings Note: The Service Default Mode (SDM) and Service Alignment Mode (SAM) are described in chapter 5. Menu navigation is done with the 'CURSOR UP, DOWN, LEFT or RIGHT' keys of the remote control transmitter.
8.1 General Alignment Conditions
Perform all electrical adjustments under the following conditions:• Mains voltage and frequency: according to country’s
standard.• Connect the set to the Mains via an isolation transformer.• Allow the set to warm up for approximately 20 minutes.• Measure the voltages and waveforms in relation to chassis
ground (with the exception of the voltages on the primary side of the power supply). Never use the cooling fins/plates as ground.
• Test probe: Ri > 10 MΩ; Ci < 2.5 pF.• Use an isolated trimmer/screwdriver to perform the
alignments.
8.2 Hardware Alignments
Figure 8-1
8.2.1 Vg2 Adjustment
1. Activate the SAM.2. Go to the WHITE TONE sub menu.3. Set the values of NORMAL RED, GREEN and BLUE to 40.4. Go, via the MENU key, to the normal user menu and set
– CONTRAST to zero.
– BRIGHTNESS to minimum (OSD just visible in a dark room).
5. Return to the SAM via the MENU key.6. Connect the RF output of a pattern generator to the
antenna input. Test pattern is a 'black' picture (blank screen on CRT without any OSD info).
7. Set the channel of the oscilloscope to 50 V/div and the time base to 0.2 ms (external triggering on the vertical pulse).
8. Ground the scope at the CRT panel and connect a 10:1 probe to one of the cathodes of the picture tube socket (see diagram B).
9. Measure the cut off pulse during first full line after the frame blanking (see Fig. 8-2). You will see two pulses, one being the cut off pulse and the other being the white drive pulse. Choose the one with the lowest value, this is the cut off pulse.
10. Select the cathode with the highest VDC value for the alignment. Adjust the Vcutoff of this gun with the SCREEN potentiometer (see Fig. 8-1) on the LOT to the correct value (see table below).
11. Restore BRIGHTNESS and CONTRAST to normal (= 31).
Figure 8-2
Figure 8-3
8.2.2 Focusing
1. Tune the set to a circle or crosshatch test pattern (use an external video pattern generator).
2. Choose picture mode NATURAL (or MOVIES) with the ‘SMART PICTURE’ button on the remote control transmitter.
3. Adjust the FOCUS potentiometer (see Fig. 8-1) until the vertical lines at 2/3 from east and west, at the height of the centreline, are of minimum width without visible haze.
8.3 Software Alignments and Settings
Enter the Service Alignment Mode (see chapter 5). The SAM menu will now appear on the screen.Select one of the following alignments:1. Options2. Tuner3. White Tone4. Geometry5. Audio
0231
0212
C
16532008_038.eps160501
A
D
B
5445
LOT
FocusScreen
VG2
5520
0240
0267
0268
7602
ComPair
1004
10021000 (T
UN
ER
)
9631
9641
SD
M
0231
0V Ref.CL 06532130_014.eps
131000
VCUTOFF [VDC]max.
CUT-OFF VOLTAGE
Screen size Cut-off [V]
13V, 14 , 14RF, 15RF, 17 , 19V, 20 140 ± 4
21 (L01S) 150 ± 4
21 (L01L), 20RF, 21RF, 24WS,25BLD, 25HF, 28 BLD, 28WS
125 ± 4
25V, 25BLS, 25RF, 27V, 28BLS, 29 ,29RF, 32V, 33 , 32WS, 35V
145 ± 10
CL 16532008_056.pdf
220801
AlignmentsEN 58 L01.1E AB8.
8.3.1 Options
Figure 8-4
Options are used to control the presence/absence of certain features and hardware.
How to change an Option ByteAn Option Byte represents a number of different options. Changing these bytes directly makes it possible to set all options very fast. All options are controlled via seven option bytes. Select the option byte (OB1.. OB7) with the MENU UP/DOWN keys, and enter the new value. Leaving the OPTION submenu saves changes in the Option Byte settings. Some changes will only take effect after the set has been switched OFF and ON with the Mains switch (cold start).
How to calculate the value of an Option ByteCalculate an Option Byte value (OB1 .. OB7) in the following way:1. Check the status of the single option bits (OP): are they
enabled (1) or disabled (0).2. When an option bit is enabled (1) it represents a certain
value (see first column ‘value between brackets’ in first table below). When an option bit is disabled, its value is 0.
3. The total value of an Option Byte is formed by the sum of its eight option bits. See second table below for the correct option numbers per typenumber.
Figure 8-5
Figure 8-6
Option Bit AssignmentFollowing are the option bit assignments for all L01 software clusters.• Option Byte 1 (OB1)
– OP10: CHINA– OP11: VIRGIN_MODE – OP12: UK_PNP – OP13: ACI– OP14: ATS– OP15: LNA– OP16: FM_RADIO– OP17: PHILIPS_TUNER
• Option Byte 2 (OB2)– OP20: HUE– OP21: COLOR_TEMP– OP22: CONTRAST_PLUS– OP23: TILT
S A M
O P 1 X X X
O P 2 X X X
O P 3 X X X
O P 4 X X X
O P 5 X X X
O P 6 X X X
O P 7 X X X
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220501
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$X !Y # " %)
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XZ "Y ) %) " !
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CL 16532008_064.pdf
230501
Alignments EN 59L01.1E AB 8.
– OP24: NOISE_REDUCTION– OP25: CHANNEL_NAMING – OP26: SMART_PICTURE– OP27: SMART_SOUND
• Option Byte 3 (OB3)– OP30: AVL– OP31: WSSB– OP32: WIDE_SCREEN – OP33: SHIFT_HEADER_SUBTITLE – OP34: CONTINUOUS_ZOOM – OP35: COMPRESS_16_9– OP36: EXPAND_4_3– OP37: EW_FUNCTION
• Option Byte 4 (OB4)– OP40: STEREO_NON_DBX– OP41: STEREO_DBX– OP42: STEREO_PB– OP43: STEREO_NICAM_2CS– OP44: DELTA_VOLUME– OP45: ULTRA_BASS– OP46: VOLUME_LIMITER– OP47: INCR_SUR
• Option Byte 5 (OB5)– OP50: PIP– OP51: HOTEL_MODE– OP52: SVHS– OP53: CVI– OP54: AV3– OP55: AV2– OP56: AV1– OP57: NTSC_PLAYBACK
• Option Byte 6 (OB6)– OP60: Reserved (value = 0)– OP61: SMART_TEXT– OP62: SMART_LOCK– OP63: VCHIP– OP64: WAKEUP_CLOCK– OP65: SMART_CLOCK– OP66: SMART_SURF– OP67: PERSONAL_ZAPPING
• Option Byte 7 (OB7)– OP70: SOUND_SYSTEM_AP_3/
MULTI_STANDARD_EUR/SYSTEM_LT_2 – OP71: SOUND_SYSTEM_AP_2/WEST_EU/
SYSTEM_LT_1 – OP72: SOUND_SYSTEM_AP_1– OP73: COLOR_SYSTEM_AP– OP74: Reserved (value = 0)– OP75: Reserved (value = 0)– OP76: TIME_WIN2 – OP77: TIME_WIN1
Option bit definition OP10: CHINA0 : Tuning is not for China set, or this option bit is not applicable,1 : Tuning is for China set,Default setting : 0. OP11: VIRGIN_MODE0 : Virgin mode is disabled or not applicable,1 : Virgin mode is enabled. Plug and Play menu item will be displayed to perform installation at the initial start-up of the TV when VIRGIN_MODE is set to 1. After installation is finished, this option bit will be automatically set to 0,Default setting : 0. OP12: UK_PNP0 : UK's default Plug and Play setting is not available or not applicable,1 : UK's default Plug and Play setting is available. When UK_PNP and VIRGIN_MODE are set to 1 at the initial set-up, LANGUAGE = ENGLISH, COUNTRY = GREAT BRITAIN and after exiting from menu, VIRGIN_MODE will be set automatically to 0 while UK_PNP remains 1,
Default setting : 0. OP13: ACI0 : ACI feature is disabled or not applicable,1 : ACI feature is enabled,Default setting : 0. OP14: ATS0 : ATS feature is disabled or not applicable,1 : ATS feature is enabled. When ATS is enabled, it sorts the program in an ascending order starting from program 1,Default setting : 0. OP15: LNA0 : Auto Picture Booster is not available or not applicable,1 : Auto Picture Booster is available,Default setting : 0. OP16: FM_RADIO0 : FM radio feature is disabled or not applicable,1 : FM radio feature is enabled,Default setting : 0. OP17: PHILIPS_TUNER0 : ALPS/MASCO compatible tuner is in use, 1 : Philips compatible tuner is in use,Default setting : 0. OP20: HUE0 : Hue/Tint Level is disabled or not applicable,1 : Hue/Tint Level is enabled,Default setting : 0. OP21: COLOR_TEMP0 : Colour Temperature is disabled or not applicable,1 : Colour Temperature is enabled,Default setting : 0. OP22: CONTRAST_PLUS0 : Contrast+ is disabled or not applicable,1 : Contrast+ is enabled,Default setting : 0. OP23: TILT0 : Rotate Picture is disabled or not applicable,1 : Rotate Picture is enabled,Default setting : 0. OP24: NOISE_REDUCTION0 : Noise Reduction (NR) is disabled or not applicable,1 : Noise Reduction (NR) is enabled,Default setting : 0. OP25: CHANNEL_NAMING0 : Name FM Channel is disabled or not applicable,1 : Name FM Channel is enabled,Default setting : 0.Note: Name FM channel can be enabled only when FM_RADIO = 1. OP26: SMART_PICTURE0 : Smart Picture is disabled or not applicable,1 : Smart Picture is enabled,Default setting : 1 OP27: SMART_SOUND0 : Smart Sound is disabled or not applicable,1 : Smart Sound is enabled,Default setting : 1 AP30: AVL0 : AVL is disabled or not applicable,
AlignmentsEN 60 L01.1E AB8.
1 : AVL is enabled,Default setting : 0. OP31: WSSB0 : WSSB is disabled or not applicable,1 : WSSB is enabled,Default setting : 0. Note: This option bit can be set to 1 only when WIDE_SCREEN = 1. OP32: WIDE_SCREEN0 : Software is used for 4:3 set or not applicable,1 : Software is used for 16:9 set,Default setting : 0. OP33: SHIFT_HEADER_SUBTITLE0 : Shift Header/Subtitle is disabled or not applicable,1 : Shift Header/Subtitle is enabled,Default setting : 0. Note: This option bit can be set to 1 only when WIDE_SCREEN = 1. OP34: CONTINUOUS_ZOOM0 : Continuous Zoom is disabled or not applicable,1 : Continuous Zoom is enabled,Default setting : 0. Note: This option bit can be set to 1 only when WIDE_SCREEN = 1. OP35: COMPRESS_16_90 : COMPRESS 16:9 selection is not applicable. Item should not be in the FORMAT menu list,1 : COMPRESS 16:9 selection is applicable. Item should not be in the FORMAT menu list,Default setting : 0. OP36: EXPAND_4_30 : Expand 4:3 selection is not applicable. Item should not be in the FORMAT menu list,1 : Expand 4:3 selection is applicable. Item should be in the FORMAT menu list,Default setting : 0. OP37: EW_FUNCTION0 : EW function is disabled. In this case, only Expand 4:3 is allowed, Compress 16:9 is not applicable.1 : EW function is enabled. In this case, both Expand 4:3 and Compress 16:9 are applicable.Default setting : 0. OP40: STEREO_NON_DBX0 : For AP_NTSC, chip TDA 9853 is not present,1 : For AP_NTSC, chip TDA 9853 is present,Default setting : 0. OP41: STEREO_DBX0 : For AP_NTSC, chip MSP 3445 is not present,1 : For AP_NTSC, chip MSP 3445 is present,Default setting : 0. OP42: STEREO_PB0 : For AP_PAL, chip MSP3465 is not present,1 : For AP_PAL, chip MSP3465 is present,Default setting : 0. OP43: STEREO_NICAM_2CS0 : For EU and AP_PAL, chip MSP 3415 is not present,1 : For EU and AP_PAL, chip MSP 3415 is present,Default setting : 0. OP44: DELTA_VOLUME0 : Delta Volume Level is disabled or not applicable,1 : Delta Volume Level is enabled,Default setting : 0. OP45: ULTRA_BASS0 : Ultra Bass is disabled or not applicable,1 : Ultra Bass is enabled,
Default setting : 0. OP46: VOLUME_LIMITER0 : Volume Limiter Level is disabled or not applicable,1 : Volume Limiter Level is enabled,Default setting : 0. OP47: INCR_SUR0 : Incredible Surround feature is disabled,1 : Incredible Surround feature is enabled,Default setting : 1 OP50: PIP0 : PIP is disabled or not applicable,1 : PIP is enabled,Default setting : 0. OP51: HOTEL_MODE0 : Hotel mode is disabled or not applicable,1 : Hotel mode is enabled,Default setting : 0. OP52: SVHS0 : SVHS source is not available,1 : SVHS source is available,Default setting : 0.Note: This option bit is not applicable for EU. OP53: CVI0 : CVI source is not available,1 : CVI source is available,Default setting : 0. OP54: AV30 : Side/Front AV3 source is not present,1 : Side/Front AV3 source is present,Default setting : 0. OP55: AV20 : AV2 source is not present,1 : AV2 source is present,Default setting : 0.Note: For EU, when AV2=1, both EXT2 and SVHS2 should be included in the OSD loop. OP56: AV10 : AV1 source is not present,1 : AV1 source is present,Default setting : 0. OP57: NTSC_PLAYBACK0 : NTSC playback feature is not available,1 : NTSC playback feature is available,Default setting : 0. OP60: ReservedDefault setting : 0. OP61: SMART_TEXT0 : Smart Text Mode and Favourite Page are disabled or not applicable,1 : Smart Text Mode and Favourite Page are enabled,Default setting : 1. OP62: SMART_LOCK 0 : Child Lock and Lock Channel are disabled or not applicable for EU, 1 : Child Lock and Lock Channel are enabled for EU,Default setting : 1. OP63: VCHIP0 : VCHIP feature is disabled,
Alignments EN 61L01.1E AB 8.
1 : VCHIP feature is enabled,Default setting : 1. OP64: WAKEUP_CLOCK0 : Wake up clock feature is disabled or not applicable,1 : Wake up clock feature is enabled,Default setting : 1. OP65: SMART_CLOCK0 : Smart Clock Using Teletext and Smart Clock Using PBS is disabled or not applicable,1 : Smart Clock Using Teletext and Smart Clock Using PBS is enabled. For NAFTA, menu item AUTOCHRON is present in the INSTALL submenu,Default setting : 0. OP66: SMART_SURF0 : Smart Surf feature is disabled or not applicable,1 : Smart Surf feature is enabled,Default setting : 0. OP67: PERSONAL_ZAPPING0 : Personal Zapping feature is disabled or not applicable,1 : Personal Zapping feature is enabled,Default setting : 0. OP70: MULTI_STANDARD_EUR0 : Not for Europe multi standard set, or this option bit is not applicable,1 : For Europe multi standard set.Default setting : 0.Note: This option bit is used to control the SYSTEM selection in Manual Store : If MULTI_STANDARD_EUR = 1 then SYSTEM = Europe, West Europe, East Europe, UK, France otherwise SYSTEM = ‘Europe, West Europe, UK for West Europe’ (WEST_EU=1) or SYSTEM = ‘Europe, West Europe, East Europe for East Europe’ (WEST_EU=0) OP71: WEST_EU0 : For East Europe set, or this option bit is not applicable,1 : For West Europe set,Default setting : 0. OP71 and 70: SYSTEM_LT_1, SYSTEM_LT_2These two option bits are allocated for LATAM system selection.00 : NTSC-M 01 : NTSC-M, PAL-M10 : NTSC-M, PAL-M, PAL-N11 : NTSC-M, PAL-M, PAL-N, PAL-BGDefault setting : 00 OP70, 71 and 72: SOUND_SYSTEM_AP_1, SOUND_SYSTEM_AP_2, SOUND_SYSTEM_AP_3These three option bits are allocated for AP_PAL sound system selection.000 : BG001 : BG/DK010 : I/DK011 : BG/I/DK100 : BG/I/DK/MDefault setting : 00 OP73: COLOR_SYSTEM_APThis option bit is allocated for AP-PAL colour system selection.0 : Auto, PAL 4.43, NTSC 4.43, NTSC 3.581 : Auto, PAL 4.43, NTSC 4.43, NTSC 3.58, SECAMDefault setting : 0 OP74: ReservedDefault setting : 0. OP75: ReservedDefault setting : 0.
OP77 and 76: TIME_WIN1, TIME_WIN200 : The time window is set to 1.2s01 : The time window is set to 2s10 : The time window is set to 5s11 : not in useDefault setting : 01Note: The time-out for all digit entries depend on this setting.
8.3.2 Tuner
Note: Described alignments are only necessary when the NVM (item 7602) is replaced.
Figure 8-7
IFPLLThis adjustment is auto-aligned. Therefore, no action is required.Default value is 30.
AFW (AFC window)Select the lowest value.
AGC (AGC take over point)Set the external pattern generator to a colour bar video signal and connect the RF output to aerial input.Set amplitude to 10 mV and set frequency to 475.25 MHz (PAL/SECAM) or 61.25 MHz (NTSC).Connect a DC multi-meter to pin 1 of the tuner (item 1000 on the main panel).1. Activate the SAM. 2. Go to the TUNER sub menu.3. Select AFW with the UP/DOWN cursor keys and set to ON.4. Select AGC with the UP/DOWN cursor keys.5. Adjust the AGC-value with the LEFT/RIGHT cursor keys
until the voltage at pin 1 of the tuner lies between 3.8 and 2.3 V. Default value is 28.
6. Select AFW with the UP/DOWN cursor keys and set to OFF.
7. Switch the set to STANDBY.
YD (Y-delay adjustment)Fixed value is 7.
CL (Cathode drive level)Fixed value is 8.
AFA/AFBRead only bit, for monitoring purpose only.
S A M
I F P L L X X X
A F W
A G C X X X
Y D X X X
C L X X X
A F A O N / O F F
A F B O N / O F F
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X X X
AlignmentsEN 62 L01.1E AB8.
8.3.3 White Tone
Figure 8-8
In the WHITE TONE sub menu, the values of the black cut off level can be adjusted. Normally, no alignment is needed for the WHITE TONE. You can use the given default values.The colour temperature mode (NORMAL, COOL and WARM) and the colour (R, G, and B) can be selected with the UP/DOWN RIGHT/LEFT cursor keys. The value can be changed with the LEFT/RIGHT cursor keys. First, select the values for the NORMAL colour temperature. Then select the values for the COOL and WARM mode. After alignment, switch the set to standby, in order to store the alignments. Default settings:1. NORMAL (colour temperature = 10500 K):
– NORMAL R = 26– NORMAL G = 32– NORMAL B = 27
2. COOL (colour temperature = 14000 K):– DELTA COOL R = -3– DELTA COOL G = 0– DELTA COOL B = 5
3. WARM (colour temperature = 8200 K):– DELTA WARM R = 2– DELTA WARM G = 0– DELTA WARM B = -6
8.3.4 Geometry
The geometry alignments menu contains several items to align the set, in order to obtain a correct picture geometry.
Figure 8-9
How to alignConnect an external video pattern generator to the aerial input of the TV-set and input a crosshatch test pattern.Set amplitude to at least 1 mV and set frequency to 475.25 MHz (PAL/SECAM) or 61.25 MHz (NTSC).1. Set 'Smart Picture' to NATURAL (or MOVIES).2. Activate the SAM menu (see chapter 5). 3. Go to the GEOMETRY sub menu. 4. Choose HORIZONTAL or VERTICAL alignmentNow you can perform the following alignments:
Horizontal alignment• Horizontal Parallelogram (HP). Align straight vertical
lines in the top and the bottom; vertical rotation around the centre.
• Horizontal Bow (HB). Align straight horizontal lines in the top and the bottom; horizontal rotation around the centre.
• Horizontal Shift (HSH). Align the horizontal centre of the picture to the horizontal centre of the CRT.
• East West Width (EWW). Align the picture width until the complete test pattern is visible.
• East West Parabola (EWP). Align straight vertical lines at the sides of the screen.
• Upper Corner Parabola (UCP). Align straight vertical lines in the upper corners of the screen.
S A M
N O R M A L > (1)
C O O L > (2)
W A R M > (3)
(1) N O R M A L R E D X X
N O R M A L G R E E N X X
N O R M A L B L U E X X
(2) D C O O L R E D X X
D C O O L G R E E N X X
D C O O L B L U E X X
(3) D W A R M R E D X X
D W A R M G R E E N X X
D W A R M B L U E X X
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1
2
3
4
5
6
7
8
9
10
11
12
VERT. SLOPE
VERT. SHIFT
VERT. AMPLITUDE
V.S-CORRECTION
HOR. SHIFT
HOR. AMPLITUDE
E/W PARABOLE
UPPER E/W CORNER
LOWER E/W CORNER
E/W TRAPEZIUM
HOR. PARALLELOGRAM
HOR. BOW
Alignments EN 63L01.1E AB 8.
• Lower Corner Parabola (LCP). Align straight vertical lines in the lower corners of the screen.
• East West Trapezium (EWT). Align straight vertical lines in the middle of the screen.
Figure 8-10
Vertical alignment• Vertical slope (VSL). Align the vertical centre of the
picture to the vertical centre of the CRT. This is the first of the vertical alignments to perform. For an easy alignment, set SBL to ON.
• Vertical Amplitude (VAM). Align the vertical amplitude so that the complete test pattern is visible.
• Vertical S-Correction (VSC). Align the vertical linearity, meaning that vertical intervals of a grid pattern must be equal over the entire screen height.
• Vertical Shift (VSH). Align the vertical centring so that the test pattern is located vertically in the middle. Repeat the 'vertical amplitude' alignment if necessary.
• Vertical Zoom (VX). The vertical zoom is added in for the purpose of development. It helps the designer to set proper values for the movie expand or movie (16x9) compress. Default value is 25.
• Service blanking (SBL). Switch the blanking of the lower half of the screen ON or OFF (to be used in combination with the vertical slope alignment).
• H60. Align straight horizontal lines if NTSC input (60 Hz) is used i.s.o. PAL (50 Hz).
• V60. Align straight vertical lines if NTSC input (60 Hz) is used i.s.o. PAL (50 Hz).
Figure 8-11
In the table below, you will find the GEOMETRY default values for the different sets.
Figure 8-12
8.3.5 Audio
Figure 8-13
No alignments are needed for the audio sub menu. Use the given default values.
AT (Attack Time)Default value is 8.
AF-MDefault value is 301.
A2TDefault value is 250.
QSS (Quasi Split Sound)OFF for Intercarrier sets, ON for QSS sets.
FMI (Freq. Modulation Intercarrier)OFF for QSS sets, ON for Intercarrier sets.
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H O R I Z O N T A L >
V E R T I C A L >
H P X X
H B X X
H S H X X
E W W X X
E W P X X
U C P X X
L C P X X
E W T X X
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V S L X X
V A M X X
V S C X X
V S H X X
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Circuit DescriptionEN 64 L01.1E AB9.
9. Circuit Description
Index of this chapter:1. Introduction2. Audio Signal Processing3. Video Signal Processing4. Synchronisation5. Deflection6. Power Supply7. Control8. Abbreviations Notes: • Figures can deviate slightly from the actual situation, due
to different set executions.• For a good understanding of the following circuit
descriptions, please use the block diagram in chapter 6, or the electrical diagrams in chapter 7. Where necessary, you will find a separate drawing for clarification.
9.1 Introduction
The L01 chassis is a global TV chassis for the model year 2001 and is used for TV sets with screen sizes from 14” - 21” (small screen) to 21” - 32” (large screen). The standard architecture consists of a Main panel, a Picture Tube panel, a Side I/O panel (not al executions) and a Top Control panel. The Main panel consists primarily of conventional components with hardly any surface mounted devices.
Figure 9-1
The functions for video processing, microprocessor (µP) and teletext (TXT) decoder are combined in one IC (TDA958xH), the so-called Ultimate One Chip (UOC). This chip is (surface) mounted on the copper side of the main panel.
Figure 9-2
The L01 is divided into 2 basic systems, i.e. mono and stereo sound. While the audio processing for the mono sound is done in the audio block of the UOC, an external audio processing IC is used for stereo sets. The tuning system features 100 video channels with on-screen display. The main tuning system uses a tuner, a microcomputer, and a memory IC mounted on the main panel. Also, in some type numbers, an FM radio is implemented with 40 pre-set channels.The microcomputer communicates with the memory IC, the customer keyboard, remote receiver, tuner, signal processor IC and the audio output IC via the I2C bus. The memory IC retains the settings for favourite stations, customer-preferred settings, and service/factory data. The on-screen graphics and closed caption decoding are done within the microprocessor, and then sent to the signal processor IC to be added to the main signal. The chassis uses a Switching Mode Power Supply (SMPS) for the main voltage source. The chassis has a ‘hot’ ground reference on the primary side and a cold ground reference on the secondary side of the power supply and the rest of the chassis.
9.2 Audio Signal Processing
9.2.1 Stereo
In stereo sets, the signal goes via the SAW filter (position 1004 in case of QSS demodulation and 1003 in case of Intercarrier demodulation), to the audio demodulator part of the UOC IC7200. The stereo audio output on pin 33 goes, via TS7206, to the stereo decoder 7831. The switch inside the stereo decoder 7831 selects (via I2C) either the internal decoder or an external source.The NICAM + 2CS AM/FM stereo decoder is an ITT MSP34X5. The output is fed to the to the audio amplifier (AN7522 at position 7901). The volume level is controlled at this IC (pin 9) by a control line (VolumeMute) from the microprocessor. The audio signal from 7901 is then sent to the speaker/headphone output panel.
Figure 9-3
TUNER
VBAT
AUDIO
12V
3.9V
3.3V
FM IFBUFFER
VIDEO SOURCESELECTION
RF ANT.
FM ANT.
EXT. AUDIOINPUT 7801
FM FMR
AUDIO SOURCE SELECTION
CONTROL
EXT. AUDIO OUT
78617831
78347835
72097210 7901
101000
0265
11
1
1 1
AGC
1200 : 1202
1819
22
23
33
47 24
25
24
38
INT_CVBS
EXT_CVBS
40
42
16 17 15 30
68
I2C
50:53 EXT RGB/YUV INPUT
56:58
7330
EHT
7460
H
EW
V+
V-
7471
7602
7200
SIF
VIF
POWERSUPPLY
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AUDIOAMPL.
SAWFILTER
SAWFILTER
SOUNDIF
DEMOD.
AUDIO DECODINGAND
PROCESSINGSELECTION
MATR. SWITCH
VISIONIF
DEMOD.NVM
VIDEOAMPL.
HOR.DEFL.
+EW
VERT.DEFL.
µP
VIDEOPROCESSING
RGB/YUVPROCESSING
SYNCPROCESSING
SOUNDTRAP
VIDEOSWITCH
EXT. VIDEOINPUT 7802
Circuit Description EN 65L01.1E AB 9.
9.2.2 Mono
In mono sets, the signal goes via the SAW filter (position 1004 in case of QSS demodulation and 1003 in case of Intercarrier demodulation), to the audio demodulator part of the UOC IC7200. The audio output on pin 48 goes directly, via buffer 7943, to the audio amplifier (AN7523 at position 7902). The volume level is controlled at this IC (pin 9) by a ‘VolumeMute’ control line from the microprocessor. The audio signal from IC7902 is then sent to the speaker/headphone output panel.
Figure 9-4 .eps
9.2.3 FM radio (if present)
The FM radio uses the 10.7 MHz concept. This SIF frequency is available at pin 10 of the tuner. Via a pre-amplifier (TS7209 and TS7210), the signal is fed for demodulation to either the UOC (for mono FM radio) or by the Micronas MSP34X5 (for stereo FM radio).
9.3 Video Signal Processing
9.3.1 Introduction
The video signal-processing path consists of the following parts:• RF signal processing.• Video source selection.• Video demodulation.• Luminance/Chrominance signal processing.• RGB control.• RGB amplifierThe processing circuits listed above are all integrated in the UOC TV processor. The surrounding components are for the adaptation of the selected application. The I2C bus is for defining and controlling the signals.
9.3.2 RF Signal Processing
The incoming RF signal goes to the tuner (pos. 1000), where the 38.9 MHz IF signal is developed and amplified. The IF signals then exits the tuner from pin 11 to pass through the SAW filter (position 1002 in case of QSS demodulation and 1003 in case of Intercarrier demodulation). The shaped signal is then applied to the IF processor part of the UOC (pos. 7200). Tuner AGC (Automatic Gain Control) will reduce the tuner gain and thus the tuner output voltage when receiving strong RF signals. Adjust the AGC take-over point via the Service Alignment Mode (SAM). The tuner AGC starts working when the video-IF input reaches a certain input level and will adjust this level via the I2C bus. The tuner AGC signal goes to the tuner (pin 1) via the open collector output (pin 22) of the UOC.The IC also generates an Automatic Frequency Control (AFC) signal that goes to the tuning system via the I2C bus, to provide frequency correction when needed. The demodulated composite video signal is available at pin 38 and then buffered by transistor 7201.
9.3.3 Video Source Selection
The Composite Video Blanking Signal (CVBS) from buffer 7201 goes to the audio carrier trap filters (1200 and 1201) to remove the audio signal. The signal then goes to pin 40 of IC7200. The internal input switch selects the following input signals:• Pin 40: terrestrial CVBS input• Pin 42: external AV1 CVBS input• Pin 44: external Side I/O CVBS or AV2 Luminance (Y)
input• Pin 45: external AV2 Chrominance (C) input
Figure 9-5
Once the signal source is selected, a chroma filter calibration is performed. The received colour burst sub-carrier frequency is used for this. Correspondingly, the chroma band pass filter for PAL processing or the cloche filter for SECAM processing is switched on. The selected luminance (Y) signal is supplied to the horizontal and vertical synchronisation processing circuit and to the luminance processing circuit. In the luminance-processing block, the luminance signal goes to the chroma trap filter. This trap is switched 'on' or 'off', depending on the colour burst detection of the chroma calibration circuit.The group delay correction part can be switched between the BG and a flat group delay characteristic. This has the advantage that in multi-standard receivers no compromise has to be made for the choice of the SAW filter.
9.3.4 Video Demodulation
The colour decoder circuit detects whether the signal is a PAL, NTSC or SECAM signal. The result is made known to the auto system manager. The PAL/NTSC decoder has an internal clock generator, which is stabilised to the required frequency by using the 12 MHz clock signal from the reference oscillator of the microcontroller/teletext decoder.The base-band delay line is used to obtain a good suppression of cross colour effects.The Y signal and the delay line outputs U and V are applied to the luminance/chroma signal processing part of the TV processor.
9.3.5 Luminance/Chrominance Signal Processing
The output of the YUV separator is fed to the internal YUV switch, which switches between the output of the YUV separator or the external YUV (for DVD or PIP) on pins 51-53. Pin 50 is the input for the insertion control signal called ‘FBL-1’. When this signal level becomes higher than 0.9 V (but less than 3 V), the RGB signals at pins 51, 52 and 53 are inserted into the picture by using the internal switches.
TUNER
RF ANT.
EXT. AUDIOOUTPUT
EXT. AUDIOINPUT
7902
794179427943
101000
11
1
1 1
AGC
18
19
23
24
68
7602
AUDIO SWITCH
VOLUME MUTE7200 48
9
SIF
VIF
FM IFBUFFER
FM FMR
AVL
AUDIOAMPL.
SMARTSND
SAWFILTER
SAWFILTER
SOUNDIF
DEMOD.
VISIONIF
DEMOD.NVMµP
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FM ANT.
0265
22
1, 12
2, 15
5, 14
FRONT AUDIO IN
AV1 AUDIO IN
AV1 AUDIO IN
7801
3, 13
7802
7901
47
30, 31
7831
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RGB/YUVINSERT
RGB56 58
VIDEOPROC.
AUDIOAMPL.
42
7200
V-OUT
L/R OUT
UOC
P
CRTPANEL
MON. OUT
MAIN_OUT24,25
SOUNDDEC
44
C-IN 45
SY_CVBS_IN
9
70
SEL-MAIN-FRNT-RR
QSS_AM_DEM_OUT
49 10
SC2-CTRL
40
AV1_CVBS1_1
51 53RGB/YUV _IN
CVBS_FRONT_IN
0225-B
AV2 CVBS_IN
SVHS
Y_IN
C_IN
INTERNAL_CVBS_IN
41, 42
SC1-IN
47
Circuit DescriptionEN 66 L01.1E AB9.
Also some picture improvement features are implemented in this part:• Black stretch This function corrects the black level of
incoming signals, which have a difference between the black level and the blanking level. The amount of extension depends upon the difference between actual black level and the darkest part of the incoming video signal level. It is detected by means of an internal capacitor.
• White stretch This function adapts the transfer characteristic of the luminance amplifier in a non-linear way depending on the average picture content of the luminance signal. It operates in such a way that maximum stretching is obtained when signals with a low video level are received. For bright pictures, stretching is not active.
• Dynamic skin tone correction This circuit corrects (instantaneously and locally) the hue of those colours which are located in the area in the UV plane that matches the skin tone. The correction is dependent on the luminance, saturation and distance to the preferred axis.
The YUV signal is then fed to the colour matrix circuit, which converts it to R, G and B signals. The OSD/TXT signal from the microprocessor is mixed with the main signal at this point, before being output to the CRT board (pins 56, 57 and 58).
9.3.6 RGB Control
The RGB control circuit enables the picture parameters contrast, brightness and saturation to be adjusted, by using a combination of the user menus and the remote control. Additionally automatic gain control for the RGB signals via cut-off stabilisation is achieved in this functional block to obtain an accurate biasing of the picture tube. Therefor this block inserts the cut-off point measuring pulses into the RGB signals during the vertical retrace period. The following additional controls are used:• Black current calibration loop Because of the 2-point
black current stabilisation circuit, both the black level and the amplitude of the RGB output signals depend on the drive characteristics of the picture tube. The system checks whether the returning measuring currents meet the requirements, and adapt the output level and gain of the circuit when necessary. After stabilisation of the loop, the RGB drive signals are switched on. The 2-point black level system adapts the drive voltage for each cathode in such a way that the two measuring currents have the right value. This is done with the measurement pulses during the frame flyback. During the first frame, three pulses with a current of 8 µA are generated to adjust the cut off voltage. During the second frame, three pulses with a current of 20 µA are generated to adjust the ‘white drive’. This has as a consequence, that a change in the gain of the output stage will be compensated by a gain change of the RGB control circuit. Pin 55 (BLKIN) of the UOC is used as the feedback input from the CRT base panel.
• Blue stretch This function increases the colour temperature of the bright scenes (amplitudes which exceed a value of 80% of the nominal amplitude). This effect is obtained by decreasing the small signal gain of the red and green channel signals, which exceed this 80% level.
• Beam current limiting A beam current limiting circuit inside the UOC handles the contrast and brightness control for the RGB signals. This prevents the CRT from being overdriven, which could otherwise cause serious damage in the line output stage. The reference used for this purpose is the DC voltage on pin 54 (BLCIN) of the TV processor. Contrast and brightness reduction of the RGB output signals is therefore proportional to the voltage present on this pin. Contrast reduction starts when the voltage on pin 54 is lower than 2.8 V. Brightness reduction starts when the voltage on pin 54 is less than 1.7 V. The
voltage on pin 54 is normally 3.3 V (limiter not active). During set switch ‘off’, the black current control circuit generates a fixed beam current of 1 mA. This current ensures that the picture tube capacitance is discharged. During the switch-off period, the vertical deflection is placed in an over-scan position, so that the discharge is not visible on the screen.
9.3.7 RGB Amplifier
From outputs 56, 57 and 58 of IC7200, the RGB signals are applied to the integrated output amplifier (7330) on the CRT panel. Via the outputs 7, 8 and 9, the picture tube cathodes are driven.The supply voltage for the amplifier is +200 V and is derived from the line output stage.
9.3.8 SCAVEM (if present)
The SCAn VElocity Modulation (SCAVEM) circuitry is implemented in the layout of the picture tube panel. It is thus not an extra module. This circuit influences the horizontal deflection as a function of the picture content. In an ideal square wave, the sides are limited in slope due to a limited bandwidth (5 MHz). SCAVEM will improve the slope as follows: At a positive slope, a SCAVEM current is generated which supports the deflection current. At the first half of the slope, the spot is accelerated and the picture is darker. At the second half of the slope, the spot is delayed and the slope becomes steeper. At the end of the slope, the SCAVEM-current decays to zero and the spot is at the original position. An overshoot occurs which improves the impression of sharpness. At the negative slope, the SCAVEM-current counteracts the deflection. During the first half of the slope, the spot is delayed and the slope becomes steeper. During the second half the spot accelerates, the SCAVEM-current is zero at the end of the slope. Via the three resistors R3371, R3379 and R3386, Red, Green and Blue are added together, buffered and offered to the emitter of TS7363. On the collector of this transistor, configured in a common base, the sum of these 3 signals is obtained. Via the emitter follower formed with TS7360, this signal is conveyed to the differentiator C2376 and R3392. Only the high frequencies are differentiated (small RC-time). The positive and negative pulses of this signal drive respectively TS7365 and TS7362 into conductivity. The DC setting of the output stage is set by R3363, R3374, R3378 and R3384. The working voltage of the transistors is settled at half the supply voltage. At the positive section of the pulse, the current flows through TS7365 and the SCAVEM coil. At the negative section of the pulse, the current flows through TS7362 and the SCAVEM coil.
9.4 Synchronisation
Inside IC7200 (part D), the vertical and horizontal sync-pulses are separated. These ‘H’ and ‘V’ signals are synchronised with the incoming CVBS signal. They are then fed to the H- and V-drive circuits and to the OSD/TXT circuit for synchronisation of the On Screen Display and Teletext (or Closed Caption) information.
9.5 Deflection
9.5.1 Horizontal Drive
The horizontal drive signal is obtained from an internal VCO, which is running at twice the line frequency. This frequency is
Circuit Description EN 67L01.1E AB 9.
divided by two, to lock the first control loop to the incoming signal.When the IC is switched ‘on’, the ‘Hdrive’ signal is suppressed until the frequency is correct.The ‘Hdrive’ signal is available at pin 30. The ‘Hflybk’ signal is fed to pin 31 to phase lock the horizontal oscillator, so that TS7462 cannot switch ‘on’ during the flyback time. The ‘EWdrive’ signal for the E/W circuit (if present) is available on pin 15, where it drives transistor 7400 to make linearity corrections in the horizontal drive. When the set is switched on, the ‘+8V’ voltage goes to pin 9 of IC7200. The horizontal drive starts up in a soft start mode. It starts with a very short TON time of the horizontal output transistor. The TOFF of the transistor is identical to the time in normal operation. The starting frequency during switch on is therefore about 2 times higher than the normal value. The ‘on’ time is slowly increased to the nominal value in 1175 ms. When the nominal value is reached, the PLL is closed in such a way that only very small phase corrections are necessary. The ‘EHTinformation’ line on pin 11 is intended to be used as a ‘X-ray’ protection. When this protection is activated (when the voltage exceeds 6 V), the horizontal drive (pin 30) is switched 'off' immediately. If the ‘H-drive’ is stopped, pin 11 will become low again. Now the horizontal drive is again switched on via the slow start procedure. The ‘EHTinformation’ line (Aquadag) is also fed back to the UOC IC7200 pin 54, to adjust the picture level in order to compensate for changes in the beam current. The filament voltage is monitored for ‘no’ or ‘excessive’ voltage. This voltage is rectified by diode 6447 and fed to the emitter of transistor TS7443. If this voltage goes above 6.8 V, transistor TS7443 will conduct, making the ‘EHT0’ line ‘high’. This will immediately switch off the horizontal drive (pin 30) via the slow stop procedure. The horizontal drive signal exits IC7200 at pin 30 and goes to TS7462, the horizontal driver transistor. The signal is amplified and coupled to the base circuit of TS7460, the horizontal output transistor. This will drive the line output transformer (LOT) and associated circuit. The LOT provides the extra high voltage (EHT), the VG2 voltage and the focus and filament voltages for the CRT, while the line output circuit drives the horizontal deflection coil.
9.5.2 Vertical Drive
A divider circuit performs the vertical synchronisation. The vertical ramp generator needs an external resistor (R3245, pin 20) and capacitor (C2244, pin 21). A differential output is available at pins 16 and 17, which are DC-coupled with the vertical output stage. To avoid damage of the picture tube when the vertical deflection fails, the ‘V_GUARD’ output is fed to the beam current limiting input. When a failure is detected, the RGB-outputs are blanked. When no vertical deflection output stage is connected, this guard circuit will also blank the output signals. These ‘V_DRIVE+’ and ‘V_DRIVE-‘ signals are applied to the input pins 1 and 2 of IC 7471 (full bridge vertical deflection amplifier). These are voltage driven differential inputs. As the driver device (IC 7200) delivers output currents, R3474 and R3475 convert them to voltage. The differential input voltage is compared with the voltage across measuring resistor R3471 that provides internal feedback information. The voltage across this measuring resistor is proportional to the output current, which is available at pins 4 and 7 where they drive the vertical deflection coil (connector 0222) in phase opposition.IC 7471 is supplied by +13 V. The vertical flyback voltage is determined by an external supply voltage at pin 6 (VlotAux+50V). This voltage is almost totally available as
flyback voltage across the coil, this being possible due to the absence of a coupling capacitor (which is not necessary, due to the ‘bridge’ configuration).
9.5.3 Deflection Corrections
The Linearity CorrectionA constant voltage on the horizontal deflection coil should result in a sawtooth current. This however is not the case as the resistance of the coil is not negligible. In order to compensate for this resistance, a pre-magnetised coil L5457 is used. R3485 and C2459 ensure that L5457 does not excite, because of its own parasite capacitance. This L5457 is called the 'linearity coil'.
The Mannheim EffectWhen clear white lines are displayed, the high-voltage circuit is heavily loaded. During the first half of the flyback, the high voltage capacitors are considerable charged. At that point in time, the deflection coil excites through C2465. This current peak, through the high-voltage capacitor, distorts the flyback pulse. This causes synchronisation errors, causing an oscillation under the white line. During t3 - t5, C2490//2458 is charged via R3459. At the moment of the flyback, C2490//2458 is subjected to the negative voltage pulses of the parabola as a result of which D6465 and D6466 are conducting and C2490//2458 is switched in parallel with C2456//2457. This is the moment the high-voltage diodes are conducting. Now extra energy is available for excitation through C2465 and the line deflection. As a consequence, the flyback pulse is less distorted.
The S-CorrectionSince the sides of the picture are further away from the point of deflection than from the centre, a linear sawtooth current would result in a non-linear image being scanned (the centre would be scanned slower than the sides). For the centre-horizontal line, the difference in relation of the distances is larger then those for the top and bottom lines. An S-shaped current will have to be superimposed onto the sawtooth current. This correction is called finger-length correction or S-correction. C2456//2457 is relatively small, as a result of which the sawtooth current will generate a parabolic voltage with negative voltage peaks. Left and right, the voltage across the deflection coil decreases, and the deflection will slow down; in the centre, the voltage increases and deflection is faster. The larger the picture width, the higher the deflection current through C2456//2457. The current also results in a parabolic voltage across C2484//2469, resulting in the finger length correction proportionally increasing with the picture width. The east/west drive signal will ensure the largest picture width in the centre of the frame. Here the largest correction is applied.
East/West CorrectionIn the L01, there are three types of CRTs, namely the 100º, 110º and wide screen CRTs. The 100º CRT is raster-correction-free and does not need East/West correction. The 110º 4:3 CRT comes with East/West correction and East/West protection. The wide screen TV sets have all the correction of the 110 4:3 CRT and also have additional picture format like the 4:3 format, 16:9, 14:9, 16:9 zoom, subtitle zoom and the Super-Wide picture format A line, written at the upper- or lower side of the screen, will be larger at the screen centre when a fixed deflection current is used. Therefore, the amplitude of the deflection current must be increased when the spot approaches the centre of the screen. This is called the East/West or pincushion correction. The ‘Ewdrive’ signal from pin 15 of IC7200 takes care for the correct correction. It drives FET TS7400. It also corrects breathing of the picture, due to beam current variations (the
Circuit DescriptionEN 68 L01.1E AB9.
EHT varies dependent of the beam current). This correction is derived from the ‘EHTinformation’ line.Two protections are built-in for the E/W circuit: over-current and over-voltage protection. See paragraph Power Supply.
PanoramaThe panorama function is only used in 16:9 sets. This is a function to enable the 4:3 and Super-Wide feature. It drives the ‘Bass_panorama’ line, to activate relay 1400. When this relay is switched on, the capacitors 2453//2454 are added in parallel to the default S-correction capacitors 2456//2457. This results in an increased capacitance, a lower resonance frequency of the line deflection coil and the S-correction capacitors and therefore a less steep S-corrected line deflection current.
9.5.4 Rotation (only present in widescreen sets)
To cope with the different earth magnetism situations in the world, a rotation coil is added in widescreen sets. This coil is controlled by the rotation circuitry (see diagram A15). The amount of frame rotation is user controlled via the the PWM output (pin 77) of the UOC. With the tilt setting at ‘-10’, the PWM duty cycle is 0.1 (leftmost tuning). With the setting at ‘+10’, the duty cycle is 0.9 (rightmost tuning). The output of amplifier IC7171 is a DC-voltage in the range from 0 (user setting = -10), via 6 V (user setting = 0) to 12 V (user setting = +10).
9.6 Power Supply
Figure 9-6
Figure 9-7
9.6.1 Introduction
The supply is a Switching Mode Power Supply (SMPS). The frequency of operation varies with the circuit load. This ‘Quasi-Resonant Flyback’ behaviour has some important benefits compared to a ‘hard switching’ fixed frequency Flyback converter. The efficiency can be improved up to 90%, which results in lower power consumption. Moreover the supply runs cooler and safety is enhanced.The power supply starts operating when a DC voltage goes from the rectifier bridge via T5520, R3532 to pin 8. The operating voltage for the driver circuit is also taken from the ‘hot’ side of this transformer. The switching regulator IC7520 starts switching the FET ‘on’ and ‘off’, to control the current flow through the primary winding of transformer 5520. The energy stored in the primary winding during the ‘on’ time is delivered to the secondary windings during the ‘off’ time. The ‘MainSupply’ line is the reference voltage for the power supply. It is sampled by resistors 3543 and 3544 and fed to the input of the regulator 7540/6540. This regulator drives the feedback optocoupler 7515 to set the feedback control voltage on pin 3 of 7520. The power supply in the set is ‘on’ any time AC power goes to the set.
Derived VoltagesThe voltages supplied by the secondary windings of T5520 are:• ‘MainAux’ for the audio circuit (voltage depends on set
execution, see table below),• 3.3 V and 3.9 V for the microprocessor and• ‘MainSupply’ for the horizontal output (voltage depends on
set execution, see table below). Other supply voltages are provided by the LOT. It supplies +50 V (only for large screen sets), +13 V, +8 V, +5 V and a +200 V source for the video drive. The secondary voltages of the LOT are monitored by the ‘EHTinformation’ lines. These lines are fed to the video processor part of the UOC IC7200 on pins 11 and 34. This circuit will shut ‘off’ the horizontal drive in case of over-voltage or excessive beam current.
Demag4
Ctrl
Gnd
Vcc Drain
HVS
Driver
Sense
3
2
1
5
6
7
8
VLINE
V
TEA1507
IN
CIN
VCC
CD
RSENSE
CSS
RSS
VOUT
NS
NP
NVcc
CL 16532020_074.eps120401
SUPPLYMANAGEMENT
internalsupply
UVLO start
M-level
VCC1
2
3
GND
S1
CTRL
FREQUENCYCONTROL
VOLTAGECONTROLLEDOSCILLATOR
LOGIC
LOGIC
OVER-VOLTAGE
PROTECTION
OVERPOWER
CL 16532020_073.eps060701
PROTECTION
shortwinding
softstartS2
OVER-TEMPERATUREPROTECTION
S Q
RUVLO Q
MAXIMUMON-TIME
PROTECTION
POWER-ONRESET
−1
VALLEY
TEA1507
100 mV
clamp
DRIVER
START-UPCURRENT SOURCE
0.75 V
0.5 V
5 Isense
6DRIVER
4DEM
8DRAIN
7 HVSn.c.
OCP
LEB
blank
Iss
2.5 V
burstdetect
Circuit Description EN 69L01.1E AB 9.
Figure 9-8
Figure 9-9
DegaussingWhen the set is switched on, the degaussing relay 1515 is immediately activated as transistor 7580 is conducting. Due to the RC-time of R3580 and C2580, it will last about 3 to 4 seconds before transistor 7580 is switched off.
9.6.2 Basic IC Functionality
For a clear understanding of the Quasi-Resonant behaviour, it is possible to explain it by a simplified circuit diagram (see Figure below). In this circuit diagram, the secondary side is transferred to the primary side and the transformer is replaced by an inductance LP. CD is the total drain capacitance including the resonance capacitor CR, parasitic output capacitor COSS of the MOSFET and the winding capacitance CW of the transformer. The turns ratio of the transformer is represented by n (NP/NS).
Figure 9-10
In the Quasi-Resonant mode each period can be divided into four different time intervals, in chronological order:• Interval 1: t0 < t < t1 primary stroke At the beginning of the
first interval, the MOSFET is switched ‘on’ and energy is stored in the primary inductance (magnetisation). At the end, the MOSFET is switched ‘off’ and the second interval starts.
• Interval 2: t1 < t < t2 commutation time In the second interval, the drain voltage will rise from almost zero to VIN+n•(VOUT +VF). VF is the forward voltage drop of de diode that will be omitted from the equations from now on. The current will change its positive derivative, corresponding to VIN/LP, to a negative derivative, corresponding to -n•VOUT /LP.
• Interval 3: t2 < t < t3 secondary stroke In the third interval, the stored energy is transferred to the output, so the diode starts to conduct and the inductive current IL will decrease. In other words, the transformer will be demagnetised. When the inductive current has become zero the next interval begins.
• Interval 4: t3 < t < t00 resonance time In the fourth interval, the energy stored in the drain capacitor CD will start to resonate with the inductance LP. The voltage and current waveforms are sinusoidal waveforms. The drain voltage will drop from VIN+n•VOUT to VIN-n•VOUT.
Frequency BehaviourThe frequency in the QR-mode is determined by the power stage and is not influenced by the controller (important parameters are LP and CD). The frequency varies with the input voltage VIN and the output power POUT. If the required output power increases, more energy has to be stored in the transformer. This leads to longer magnetising tPRIM and demagnetising tSEC times, which will decrease the frequency. See the frequency versus output power characteristics below. The frequency characteristic is not only output power-, but also input voltage dependent. The higher the input voltage, the smaller tPRIM, so the higher the frequency will be.
CL 16532008_004.eps250401
Tilt&Rotation
A15
Lot
EHT
VG2
VideoSupply
Filament
Focus
A2
CRTPanel
B1/B2
MainPowerSupply
+3.9V +3.3V
DegaussingCircuit
A1
3V3 Reg.
A1
DegaussingControlCircuit
A1
EWCorrection
A2
HorizontalDeflection Vaux
+3.3V
+3.9V
Vaux
A2
FrameDeflection
A3
TunerA4
uPA7
VideoProcessing
A5
SoundProcessing
A9
A11
AudioAmplifier
+6.8V
A8
SourceSelectionSwitch
A10
Main SupplyMains ACInput
Main Aux
VlotAux +13V
VlotAux -13V
VlotAux +5V
+8V
VT_Supply
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zation
VGATE
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IL
0
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t1 t2 t3 t00
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Valley
n⋅VOUT
VIN
CL 16532020_084.eps110401
Circuit DescriptionEN 70 L01.1E AB9.
Figure 9-11
Point P1 is the minimum frequency fMIN that occurs at the specified minimum input voltage and maximum output power required by the application. Of course the minimum frequency has to be chosen above the audible limit (>20 kHz).
Start-up SequenceWhen the rectified AC voltage VIN (via the centre tap connected to pin 8) reaches the Mains dependent operation level (Mlevel: between 60 and 100 V), the internal ‘Mlevel switch’ will be opened and the start-up current source is enabled to charge capacitor C2521 at the VCC pin as shown below. The ‘soft start’ switch is closed when the VCC reaches a level of 7 V and the ‘soft start’ capacitor CSS (C2522, between pin 5 and the sense resistor R3526), is charged to 0.5 V. Once the VCC capacitor is charged to the start-up voltage VCC-
start (11 V), the IC starts driving the MOSFET. Both internal current sources are switched ‘off’ after reaching this start-up voltage. Resistor RSS (3524) will discharge the ‘soft start’ capacitor, such that the peak current will slowly increase. This to prevent ‘transformer rattle’. During start-up, the VCC capacitor will be discharged until the moment that the primary auxiliary winding takes over this voltage.
Figure 9-12
The moment that the voltage on pin 1 drops below the ‘under voltage lock out‘ level (UVLO = ± 9 V), the IC will stop switching and will enter a safe restart from the rectified mains voltage.
OperationThe supply can run in three different modes depending on the output power:• Quasi-Resonant mode (QR) The QR mode, described
above, is used during normal operation. This will give a high efficiency.
• Frequency Reduction mode (FR) The FR mode (also called VCO mode) is implemented to decrease the switching losses at low output loads. In this way the efficiency at low output powers is increased, which enables power consumption smaller than 3 W during stand-by. The voltage at the pin 3 (Ctrl) determines where the frequency reduction starts. An external Ctrl voltage of 1.425 V corresponds with an internal VCO level of 75 mV. This fixed VCO level is called VVCO,start . The frequency will be reduced in relation to the VCO voltage between 75 mV and 50 mV (at levels larger than 75 mV, Ctrl voltage < 1.425V, the oscillator will run on maximum frequency foscH = 175 kHz typically). At 50 mV (VVCO,max) the frequency is reduced to the minimum level of 6 kHz. Valley switching is still active in this mode.
• Minimum Frequency mode (MinF) At VCO levels below 50 mV, the minimum frequency will remain on 6 kHz, which is called the MinF mode. Because of this low frequency, it is possible to run at very low loads without having any output regulation problems.
Figure 9-13
Safe-Restart ModeThis mode is introduced to prevent the components from being destroyed during eventual system fault conditions. It is also used for the Burst mode. The Safe-Restart mode will be entered if it is triggered by one of the following functions:• Over voltage protection,• Short winding protection,• Maximum ‘on time’ protection,• VCC reaching UVLO level (fold back during overload),• Detecting a pulse for Burst mode,• Over temperature protection. When entering the Safe-Restart mode, the output driver is immediately disabled and latched. The VCC winding will not charge the VCC capacitor anymore and the VCC voltage will drop until UVLO is reached. To recharge the VCC capacitor, the internal current source (I(restart)(VCC) ) will be switched ‘on’ to initiate a new start-up sequence as described before. This Safe-Restart mode will persist until the controller detects no faults or burst triggers.
Standby The set goes to Standby in the following cases:• After pressing the ‘standby’ key on the remote control.• When the set is in protection mode.
VIN_MAX
POUT_MIN POUT_MAXpower
switchingfrequency
fMIN
fMAX
VIN_MIN P1
P2
QR frequency characteristics at different input voltagesCL 16532020_077.eps
100401
0.5V
+
-
IL
RSENSE
ISS
VOCP
RSS
CSS
soft start
VIN
8
5
1
Mlevel
Iin(Vcc)
VSENSE
2
CVcc
VCC
Charging of VCC capacitortaken over by the winding
V(start)=11V
CVcc charged by current
VOUT
VGATE
VCC
VSENSE
IL
τ = RSS⋅CSS
≈7V
Start-up sequence
CL 16532020_078.eps110401
frequency limit
POUT_MIN P OUT_MAX
foscL = 6 kHz
foscH = 175 kHzkH MinF FR QR
power
switchingfrequency
VVCO,start
VVCO,max
Multi mode operation CL 16532020_080.eps100401
Circuit Description EN 71L01.1E AB 9.
In Standby, the power supply works in ‘burst mode’.Burst mode can be used to reduce the power consumption below 1 W at stand-by. During this mode, the controller is active (generating gate pulses) for only a short time and for a longer time inactive waiting for the next burst cycle.In the active period the energy is transferred to the secondary and stored in the buffer capacitor CSTAB in front of the linear stabiliser (see Figure below). During the inactive period, the load (e.g. microprocessor) discharges this capacitor. In this mode, the controller makes use of the Safe-Restart mode.
Figure 9-14
The system enters burst mode standby when the microprocessor activates the ‘Stdby_con’ line. When this line is pulled high, the base of TS7541 is allowed to go high. This is triggered by the current from collector TS7542. When TS7541 turns ‘on’, the opto-coupler (7515) is activated, sending a large current signal to pin 3 (Ctrl). In response to this signal, the IC stops switching and enters a ‘hiccup’ mode. This burst activation signal should be present for longer than the ‘burst blank’ period (typically 30 µs): the blanking time prevents false burst triggering due to spikes.Burst mode standby operation continues until the microcontroller pulls the ‘Stdby_con’ signal low again. The base of TS7541 is unable to go high, thus cannot turn ‘on’. This will disable the burst mode. The system then enters the start-up sequence and begins normal switching behaviour. For a more detailed description of one burst cycle, three time intervals are defined:• t1: Discharge of VCC when gate drive is active During the
first interval, energy is transferred, which result in a ramp-up of the output voltage (VSTAB) in front of the stabiliser. When enough energy is stored in the capacitor, the IC will be switched ‘off’ by a current pulse generated at the secondary side. This pulse is transferred to the primary side via the opto coupler. The controller will disable the output driver (safe restart mode) when the current pulse reaches a threshold level of 16 mA into the Ctrl pin. A resistor R1 (R3519) is placed in series with the opto coupler, to limit the current going into the Ctrl pin. Meanwhile the VCC capacitor is discharged but has to stay above VUVLO .
• t2: Discharge of VCC when gate drive is inactive During the second interval, the VCC is discharged to VUVLO. The output voltage will decrease depending on the load.
• t3: Charge of VCC when gate drive is inactive The third interval starts when the UVLO is reached. The internal current source charges the VCC capacitor (also the soft start capacitor is recharged). Once the VCC capacitor is charged to the start-up voltage, the driver is activated and a new burst cycle is started.
Figure 9-15
9.6.3 Protection Events
The SMPS IC7520 has the following protection features:
Demagnetisation senseThis feature guarantees discontinuous conduction mode operation in every situation. The oscillator will not start a new primary stroke until the secondary stroke has ended. This is to ensure that FET 7521 will not turn on until the demagnetisation of transformer 5520 is completed. The function is an additional protection feature against:• saturation of the transformer, • damage of the components during initial start-up,• an overload of the output. The demag(netisation) sense is realised by an internal circuit that guards the voltage (Vdemag) at pin 4 that is connected to VCC winding by resistor R1 (R3522). The Figure below shows the circuit and the idealised waveforms across this winding.
Figure 9-16
Over Voltage ProtectionThe Over Voltage Protection ensures that the output voltage will remain below an adjustable level. This works by sensing the auxiliary voltage via the current flowing into pin 4 (DEM) during the secondary stroke. This voltage is a well-defined replica of the output voltage. Any voltage spikes are averaged by an internal filter. If the output voltage exceeds the OVP trip level, the OVP circuit switches the power MOSFET ‘off’. Next, the controller waits until the ‘under voltage lock out‘ level (UVLO = ± 9 V) is reached on pin 1 (VCC). This is followed by a safe restart cycle, after which switching starts again. This process is repeated as long as the OVP condition exists. The output voltage, at which the OVP function trips, is set by the demagnetisation resistor R3522.
Over Current ProtectionThe internal OCP protection circuit limits the ‘sense’ voltage on pin 5 to an internal level.
Demag4
Ctrl
Gnd
Vcc Drain
HVS
Driver
Sense
3
2
1
5
6
7
8
Burst-Mode stand-by on/offfrom microprocessor
Linearstabilizer
VSTAB VµC
CSTABCVcc
VCC
R1
Current pulsegenerator
VIN
Basic Burst mode configuration CL 16532020_081.eps100401
V(start)
V(UVLO)VCC
VSTAB
IL
Active/inactive
t1t2
t3
VµC
Soft start
Burst mode waveforms CL 16532020_082.eps100401
R1
R2D
VCC
winding
I(ovp)(demag)I(opp)(demag)
Demag4
Ctrl
Gnd
Vcc Drain
HVS
Driver
Sense
3
2
1
5
6
7
8
configuration
A
B
0V
OUTS
Vcc VN
N ⋅
INP
Vcc VN
N ⋅
Demagnetization
VGATE
VWINDING
MagnetizationVdemag
ComparatorthresholdVdemag
0.7V
0V -0.25V
Circuit DescriptionEN 72 L01.1E AB9.
Over Power ProtectionDuring the primary stroke, the rectified AC input voltage is measured by sensing the current drawn from pin 4 (DEM). This current is dependent on the voltage on pin 9 of transformer 5520 and the value of R3522. The current information is used to adjust the peak drain current, which is measured via pin ISENSE.
Short Winding ProtectionIf the ‘sense’ voltage on pin 5 exceeds the short winding protection voltage (0.75 V), the converter will stop switching. Once VCC drops below the UVLO level, capacitor C2521 will be recharged and the supply will start again. This cycle will be repeated until the short circuit is removed (safe restart mode). The short winding protection will also protect in case of a secondary diode short circuit.This protection circuit is activated after the leading edge blanking time (LEB).
LEB timeThe LEB (Leading Edge Blanking) time is an internally fixed delay, preventing false triggering of the comparator due to current spikes. This delay determines the minimum ‘on’ time of the controller.
Over Temperature protectionWhen the junction temperature exceeds the thermal shutdown temperature (typ. 140º C), the IC will disable the driver. When the VCC voltage drops to UVLO, the VCC capacitor will be recharged to the V(start) level. If the temperature is still too high, the VCC voltage will drop again to the UVLO level (Safe-Restart mode). This mode will persist until the junction temperature drops 8 degrees typically below the shutdown temperature.
Mains dependent operation enabling levelTo prevent the supply from starting at a low input voltage, which could cause audible noise, a mains detection is implemented (Mlevel). This detection is provided via pin 8, that detects the minimum start-up voltage between 60 and 100 V. As previous mentioned, the controller is enabled between 60 and 100 V.An additional advantage of this function is the protection against a disconnected buffer capacitor (CIN). In this case, the supply will not be able to start-up because the VCC capacitor will not be charged to the start-up voltage.
9.7 Control
Figure 9-17
9.7.1 Introduction
The microprocessor part of the UOC has the complete control and teletext on board. User menu, Service Default Mode, Service Alignment Mode and Customer Service Mode are generated by the µP. Communication to other ICs is done via the I2C-bus.
9.7.2 I2C-Bus
The main control system, which consists of the microprocessor part of the UOC (7200), is linked to the external devices (tuner, NVM, MSP, etc) by means of the I2C-bus. An internal I2C-bus is used to control other signal processing functions, like video processing, sound IF, vision IF, synchronisation, etc.
9.7.3 User Interface
There are two control signals, called ‘KEYBOARD_protn’ and ‘IR’. Users can interact either through the Remote Control transmitter, or by activation of the appropriate keyboard buttons.The L01 uses a remote control with RC5 protocol. The incoming signal is connected to pin 67 of the UOC.The 'Top Control' keyboard, connected to UOC pin 80, can also control the set. Button recognition is done via a voltage divider.The ‘KEYBOARD_protn’ line, also serves to detect faults in the E/W circuit, which would require the µP to shut down the set (by forcing the power supply in standby mode). The front LED (6691) is connected to an output control line of the microprocessor (pin 5). It is activated to provide the user information about whether or not the set is working correctly (e.g., responding to the remote control or fault condition)
9.7.4 Sound Interface
There are three control signals, called ‘Volume_Mute’, ‘Treble_Buzzer_Hosp_app’ and ‘Bass_panorama’. The ‘Volume_Mute’ line controls the sound level output of the audio amplifier or to mute it in case of no video identification or from user command. This line also controls the volume level during set switch ‘on’ and ‘off’ (to prevent audio plop).The ‘Treble’ and ‘Bass’ lines have another functionality:– The ‘Bass_panorama’ line is used to switch the panorama
mode in widescreen sets (to fit 4:3 pictures into a 16:9 display, it is possible to apply a panoramic horizontal distortion, to make a screen-fitting picture without black sidebars or lost video).
– The ‘Treble_Buzzer_Hosp_app’ is used in ITV applications for other feautures, and in widescreen sets to enable the ‘Tilt’ feature (via R3172 on diagram A8) in the deflection part.
9.7.5 In- and Output Selection
For the control of the input and output selections, there are three lines: • STATUS1 This signal provides information to the
microprocessor on whether a video signal is available on the SCART1 AV input and output port.– 0 to 2 V: INTERNAL 4:3– 4.5 to 7 V: EXTERNAL 16:9– 9.5 to 12 V: EXTERNAL 4:3
• STATUS2 This signal provides information to the microprocessor on whether a video signal is available on the SCART2 AV input and output port (signal is low). For sets with an SVHS input, it provides the additional information if a Y/C or CVBS source is present (signal is high). The presence of an external Y/C source makes this line ‘high’ while a CVBS source makes the line ‘low’.– 0 to 2 V: INTERNAL 4:3– 4.5 to 7 V: EXTERNAL 16:9
CL 16532016_015.eps220301
SignalProcessing
UserInterface
uP - Control
LED
PANORAMA
PANORAMA
BUZZ
BASS
TREBLE/Tilt
ITV-DATA-OUT
ITV-DATA-IN
ITV-CLOCK
RESET
VOLUME/MUTE
IR
KEYBOARD/(EW protection
STATUS 1
STATUS 2
SEL-MAIN-FRNT-RR
internal I2C Bus
Deflection16:9
ExpansionSlot
I/O
POWER_DOWN
STBY_CONPowerSupply
WRITE EnableNVM
SEL-IF-LL/M-TRAP
I2C Bus
Tuner / IF
Tilt
ITVorPip
Amplifier
Processing
Sound
Circuit Description EN 73L01.1E AB 9.
– 9.5 to 12 V: EXTERNAL 4:3• SEL-MAIN-FRNT-RR This is the ‘source select control’
signal from the microprocessor. This control line is under user control or can be activated by the other two control lines.
9.7.6 Power Supply Control
The microprocessor part is supplied with 3.3 V and 3.9 V both derived from the ‘MainAux’ voltage via a 3V3 stabiliser (7560) and a diode.Two signals are used to control the power supply:• Stdby_con This signal is generated by the microprocessor
when over-current takes place at the ‘MainAux’ line. This is done to enable the power supply into standby burst mode, and to enable this mode during a protection. This signal is ‘low’ under normal operation conditions and goes to ‘high’ (3.3 V) under ‘standby’ and ‘fault’ conditions.
• POWER_DOWN This signal is generated by the power supply. Under normal operating conditions this signal is ‘high’ (3.3 V). During ‘standby’ mode, this signal is a pulse train of approx. 10 Hz and a ‘high’ duration of 5 ms. It is used to give information to the UOC about the fault condition in the Audio amplifier supply circuit. This information is generated by sensing the current on the ‘MainAux’ line (using voltage drop across R3564 to trigger TS7562). This signal goes ‘low’ when the DC-current on the ‘MainAux’ line exceeds 1.6 - 2.0 A. It is also used to give an early warning to the UOC about a power failure. Then the information is used to mute the sound amplifier to prevent a switch off noise and to solve the switch-off spot.
9.7.7 Tuner IF
Pin 3 of the UOC (SEL-IF-LL’_M-TRAP), is an output pin to switch the SAW-filter to the appropriate system.• If UOC pin 3 is ‘low’, the selected system is:
– West Europe: PAL B/G, I, SECAM L/L’– East Europe: PAL B/G– Asia Pacific: NTSC M
• If UOC pin 3 is ‘high’, the selected system is:– West Europe: SECAM L’, L’-NICAM– East Europe: PAL D/K– Asia Pacific: PAL B/G, D/K, I
Note: For West Europe, two separate SAW filters (1002 and 1004) are used for video and audio (Quasi Split Sound demodulation). For East Europe, one SAW filter (1003) is used for both (Intercarrier demodulation).
9.7.8 Protection Events
Several protection events are controlled by the UOC: • BC protection, to protect the picture tube from a too high
beam current. The UOC has the capability of measuring the normal back level current during the vertical flyback. So if for some reason the CRT circuit is malfunctioning (i.e. high beam current), the normal black current will be out of the 75 µA range, and the UOC will trigger the power supply to shut down. However, this is a high beam-current situation, the TV screen will be bright white before the set is shut down.
• I2C protection, to check whether all I2C IC's are functioning.
In case one of these protections is activated, the set will go into ‘standby’. The ‘on’ and ‘standby’ LEDs are controlled via the UOC.
9.8 Abbreviation list
2CS 2 Carrier (or Channel) StereoACI Automatic Channel Installation:
algorithm that installs TV sets directly from cable network by means of a predefined TXT page
ADC Analogue to Digital ConverterAFC Automatic Frequency Control: control
signal used to tune to the correct frequency
AFT Automatic Fine TuningAGC Automatic Gain Control: algorithm that
controls the video input of the featurebox
AM Amplitude ModulationAP Asia PacificAR Aspect Ratio: 4 by 3 or 16 by 9ATS Automatic Tuning SystemAV External Audio VideoAVL Automatic Volume LevelBC-PROT Beam Current ProtectionBCL Beam Current LimitationB/G Monochrome TV system. Sound
carrier distance is 5.5 MHzBLC-INFORMATION Black current informationrmationBTSC Broadcast Television Standard
Committee. Multiplex FM stereo sound system, originating from the USA and used e.g. in LATAM and AP-NTSC countries
B-TXT Blue teletextCC Closed CaptionComPair Computer aided rePairCRT Cathode Ray Tube or picture tubeCSM Customer Service ModeCTI Colour Transient Improvement:
manipulates steepness of chroma transients
CVBS Composite Video Blanking and Synchronisation
DAC Digital to Analogue ConverterDBE Dynamic Bass Enhancement: extra
low frequency amplificationDBX Dynamic Bass ExpanderD/K Monochrome TV system. Sound
carrier distance is 6.5 MHzDFU Direction For Use: description for the
end userDNR Dynamic Noise ReductionDSP Digital Signal ProcessingDST Dealer Service Tool: special remote
control designed for dealers to enter e.g. service mode
DVD Digital Versatile DiscEEPROM Electrically Erasable and
Programmable Read Only MemoryEHT Extra High TensionEHT-INFORMATION Extra High Tension
informationrmationEU EuropeEW East West, related to horizontal
deflection of the setEXT External (source), entering the set via
SCART or CinchFBL Fast Blanking: DC signal
accompanying RGB signalsFILAMENT Filament of CRTFLASH Flash memoryFM Field MemoryFM Frequency ModulationHA Horizontal Acquisition: horizontal sync
pulse coming out of the HIP
Circuit DescriptionEN 74 L01.1E AB9.
HFB Horizontal Flyback Pulse: horizontal sync pulse from large signal deflection
HP HeadphoneHue Colour phase control for NTSC (not
the same as ‘Tint’)I Monochrome TV system. Sound
carrier distance is 6.0 MHzI2C Integrated IC busIF Intermediate FrequencyIIC Integrated IC busInterlaced Scan mode where two fields are used
to form one frame. Each field contains half the number of the total amount of lines. The fields are written in “pairs”, causing line flicker.
ITV Institutional TV LATAM Latin AmericaLED Light Emitting DiodeL/L’ Monochrome TV system. Sound
carrier distance is 6.5 MHz. L’ is Band I, L is all bands except for Band I
LNA Low Noise AmplifierLS Large ScreenLS LoudspeakerLSP Large signal panelM/N Monochrome TV system. Sound
carrier distance is 4.5 MHzMSP Multistandard Sound Processor: ITT
sound decoderMUTE Mute-LineNC Not ConnectedNICAM Near Instantaneous Compounded
Audio Multiplexing. This is a digital sound system, mainly used in Europe.
NTSC National Television Standard Committee. Colour system mainly used in North America and Japan. Colour carrier NTSC M/N = 3.579545 MHz, NTSC 4.43 = 4.433619 MHz (this is a VCR norm, it is not transmitted off-air)
NVM Non Volatile Memory: IC containing TV related data e.g. alignments
OB Option ByteOC Open CircuitOSD On Screen DisplayPAL Phase Alternating Line. Colour system
mainly used in West Europe (colour carrier = 4.433619 MHz) and South America (colour carrier PAL M = 3.575612 MHz and PAL N = 3.582056 MHz)
PCB Printed Circuit boardPIP Picture In PicturePLL Phase Locked Loop. Used for e.g.
FST tuning systems. The customer can give directly the desired frequency
POR Power-On ResetProgressive Scan Scan mode where all scan lines are
displayed in one frame at the same time, creating a double vertical resolution.
PTP Picture Tube Panel (or CRT-panel)RAM Random Access MemoryRC Remote Control handsetRC5 Remote Control system 5, signal from
the remote control receiver RGB Red Green BlueROM Read Only MemorySAM Service Alignment ModeSAP Second Audio ProgramSC Sandcastle: pulse derived from sync
signalsS/C Short CircuitSCAVEM Scan Velocity Modulation
SCL Serial ClockSDA Serial DataSDM Service Default ModeSECAM SEequence Couleur Avec Memoire.
Colour system mainly used in France and East Europe. Colour carriers = 4.406250 MHz and 4.250000 MHz
SIF Sound Intermediate FrequencySS Small ScreenSTBY StandbySVHS Super Video Home SystemSW SoftwareTHD Total Harmonic DistortionTXT TeletextµP MicroprocessorUOC Ultimate One ChipVA Vertical AcquisitionVBAT Main supply voltage for the deflection
stage (mostly 141 V)V-chip Violence ChipVCR Video Cassette RecorderWYSIWYR What You See Is What You Record:
record selection that follows main picture and sound
XTAL Quartz crystalYC Luminance (Y) and Chrominance (C)
signal
Spare Parts List EN 75L01.1E AB 10.
10. Spare Parts List
Mono Carrier [A] and CRT Panel [B]
Various
0127 4822 265 11253 Fuse holder0129 3139 120 10151 NTC holder0136 4822 492 70788 IC fix0137 4822 492 70289 IC fix0138 4822 492 70788 IC fix0139 3122 121 24785 Spring for bracket0140 4822 492 70289 IC fix0141 4822 492 70788 IC fix0150 3139 131 00761 Cable 2p 560mm0151 3104 311 02821 Cable 2p 560mm0152 3104 301 09421 Cable 6p 400mm0152 3104 311 04431 Cable 6p 480mm0153 3104 311 04381 Cable 5p 560mm0159 3104 311 02931 Cable 3p 400mm0180 3104 311 03312 Cable 6p 680mm0180 3139 131 01801 Cable 6p 680mm0186 3104 311 02971 Cable 5p 560mm0211 4822 265 20723 2p0211 2422 025 16374 2p male0212 4822 267 10774 2p male (red)0214 4822 267 10734 5p0219 2422 025 15849 6p male0220 4822 265 30735 5p0221 4822 267 10966 2p0222 2422 025 10646 2p male0224 4822 267 10982 2p0231 2422 128 02972 Power switch0235 4822 267 10771 42p female0235 2422 025 16745 Scart 42p female0239 2422 025 16382 3p male0242 3139 131 00941 Cable 3p 560mm0243 2422 025 04854 6p female0244 4822 265 30735 5p0245 2422 025 04854 6p female0246 4822 267 10734 5p0254 2422 500 80053 CRT 9p female0254 2422 500 80076 CRT 9p female0265 4822 267 10748 3p0267 2422 025 16382 3p male0268 4822 267 10735 3p0278 4822 267 10735 3p0278 2422 025 16382 3p male0291 4822 267 10565 4p1000 3139 147 17401 Tuner UR1316R/A I -31002 4822 242 81436 OFWK3953M1004 2422 549 44341 Saw filter 38.9MHz
OFWK9656M1200 4822 242 81712 TPWA04B1400 2422 132 07543 Relay 5A 12V LKS1AF-H101500 2422 086 10914 Fuse 4A 250V1515 2422 132 07467 Relay 1p 12V 5A LKS1AF1660 2422 543 01203 Crystal 12.00MHz1831 4822 242 10769 18.432MHz
2001 5322 122 32658 22pF 5% 50V2002 5322 122 32658 22pF 5% 50V2003 4822 122 33177 10nF 20% 50V2004 4822 126 13751 47nF 10% 63V2005 4822 124 40248 10µF 20% 63V2006 4822 124 80791 470µF 20% 16V2007 4822 126 14585 100nF 10% 50V2008 4822 124 40207 100µF 20% 25V2009 5322 122 32654 22nF 10% 63V2010 5322 126 10511 1nF 5% 50V2101 9965 000 10115 390pF 50V 10%2102 9965 000 10115 390pF 50V 10%2103 2020 552 96305 4.7µF 20-80% 10V2104 9965 000 10115 390pF 50V 10%2105 9965 000 10115 390pF 50V 10%2106 2020 552 96305 4.7µF 20-80% 10V2107 9965 000 10115 390pF 50V 10%2108 9965 000 10115 390pF 50V 10%2109 2020 552 96305 4.7µF 20-80% 10V2110 9965 000 10115 390pF 50V 10%2111 9965 000 10115 390pF 50V 10%2112 2020 552 96305 4.7µF 20-80% 10V2113 5322 122 32658 22pF 5% 50V2114 5322 122 32658 22pF 5% 50V2115 5322 122 32658 22pF 5% 50V2116 5322 122 32658 22pF 5% 50V2117 5322 122 32658 22pF 5% 50V2118 5322 122 32658 22pF 5% 50V
2120 5322 122 32658 22pF 5% 50V2131 9965 000 10115 390pF 50V 10%2132 9965 000 10115 390pF 50V 10%2133 2020 552 96305 4.7µF 20-80% 10V2134 9965 000 10115 390pF 50V 10%2135 9965 000 10115 390pF 50V 10%2136 2020 552 96305 4.7µF 20-80% 10V2137 9965 000 10115 390pF 50V 10%2138 9965 000 10115 390pF 50V 10%2139 2020 552 96305 4.7µF 20-80% 10V2140 9965 000 10115 390pF 50V 10%2141 9965 000 10115 390pF 50V 10%2142 2020 552 96305 4.7µF 20-80% 10V2143 5322 122 31863 330pF 5% 63V2144 5322 122 31863 330pF 5% 63V2145 5322 122 32658 22pF 5% 50V2147 5322 122 32658 22pF 5% 50V2151 5322 122 31863 330pF 5% 63V2152 2020 552 96305 4.7µF 20-80% 10V2153 5322 122 31863 330pF 5% 63V2154 2020 552 96305 4.7µF 20-80% 10V2161 4822 124 12392 47µF 20% 16V2171 4822 126 13682 100pF 5% 1kV2172 4822 126 12263 220pF 10% 1kV2174 4822 122 31177 470pF 10% 500V2175 2020 021 91577 470µF 20% 16V2184 2020 552 96305 4.7µF 20-80% 10V2201 4822 126 14585 100nF 10% 50V2202 4822 126 14585 100nF 10% 50V2203 4822 126 14585 100nF 10% 50V2204 4822 126 14585 100nF 10% 50V2205 4822 126 14076 220nF 25V2206 4822 126 13693 56pF 1% 63V2207 5322 126 10184 820pF 5% 50V 32208 4822 126 14585 100nF 10% 50V2209 4822 124 40248 10µF 20% 63V2210 4822 126 14043 1µF 20-80% 16V2211 4822 126 13482 470nF 80/20% 16V2213 5322 122 32654 22nF 10% 63V2214 5322 122 32654 22nF 10% 63V2215 5322 122 32654 22nF 10% 63V2216 4822 124 81144 1000µF 16V2216 2020 012 93728 2200µF 20% 10V2217 5322 122 32654 22nF 10% 63V2219 4822 126 14076 220nF 25V2220 4822 121 51252 470nF 5% 63V2221 5322 122 32654 22nF 10% 63V2230 4822 124 40769 4.7µF 20% 100V2234 4822 126 14585 100nF 10% 50V2238 5322 126 10511 1nF 5% 50V2239 5322 126 10511 1nF 5% 50V2240 5322 126 10511 1nF 5% 50V2241 4822 126 13344 1.5nF 5% 63V2242 4822 126 14043 1µF 20-80% 16V2243 4822 122 33177 10nF 20% 50V2244 5322 121 42386 100nF 5% 63V2245 4822 126 14076 220nF 25V2245 4822 126 14107 330nF 20-80% 25V2247 4822 124 81144 1000µF 16V2247 2020 012 93728 2200µF 20% 10V2248 5322 122 32654 22nF 10% 63V2249 5322 122 32654 22nF 10% 63V2250 4822 124 22652 2.2µF 20% 50V2252 5322 126 10511 1nF 5% 50V2253 5322 126 10511 1nF 5% 50V2254 4822 051 20008 Jumper2330 4822 121 51473 470nF 20% 63V2340 4822 124 11565 10µF 20% 250V2341 4822 126 13599 3.3nF 10% 500V2342 5322 116 80853 560pF 5% 63V2343 4822 126 13451 2.2nF 10% 2kV2343 4822 126 12278 3300pF10% 2kV2344 4822 051 20008 Jumper2345 4822 122 31175 1nF 10% 500V2346 4822 126 13435 1.2nF 10% 2kV2346 4822 126 14237 470pF 10% 2kV2360 4822 124 40764 22µF 100V2361 4822 124 40207 100µF 20% 25V2365 4822 121 40516 22nF 10% 250V2366 4822 121 40334 100nF 10% 100V2367 5322 122 33861 120pF10% 50V2367 5322 122 33538 150pF 2% 63V2367 4822 126 10326 180pF 5% 63V2368 5322 122 32654 22nF 10% 63V2373 4822 126 13693 56pF 1% 63V2375 5322 122 31863 330pF 5% 63V2376 4822 126 14585 100nF 10% 50V2377 4822 126 14585 100nF 10% 50V2401 4822 124 12438 2.2µF 20% 100V
2401 5322 124 41379 2.2µF 20% 50V2402 4822 122 31177 470pF 10% 500V2404 4822 124 41751 47µF 20% 50V2405 4822 124 40196 220µF 20% 16V2405 4822 124 80875 220µF 20% 25V2420 4822 126 14043 1µF 20-80% 16V2421 5322 122 32268 470pF 5% 63V2441 4822 124 21913 1µF 20% 63V2443 4822 126 13751 47nF 10% 63V2444 4822 124 21913 1µF 20% 63V2450 4822 124 11575 47µF 20% 160V2451 4822 121 51305 15nF 10% 50V2451 4822 121 41856 22nF 5% 250V2452 4822 126 10326 180pF 5% 63V2454 2222 479 90133 68nF 5% 250V2455 4822 124 40433 47µF 20% 25V2457 4822 121 42365 330nF 5% 250V2457 4822 121 10781 470nF 5% 250V2458 4822 124 12438 2.2µF 20% 100V2459 4822 126 13185 680pF10% 500V2460 5322 122 32531 100pF 5% 50V2463 4822 126 14237 470pF 10% 2kV2463 4822 126 14138 680pF 10% 2kV2464 4822 121 10739 2.2µF 5% 160V2465 4822 121 70618 12nF 5% 1600V2465 4822 121 70637 8.2nF 5% 1600V2466 4822 121 40483 10nF 10% 400V2466 2222 347 90219 15nF 10% 400V2467 2222 375 90424 9.1nF 5% 1kV2468 5322 121 42532 18nF 10% 400V2468 2222 375 90424 9.1nF 5% 1kV2469 4822 126 14096 560nF 5% 250V2471 5322 121 42386 100nF 5% 63V2472 4822 121 41854 150nF 5% 63V2473 5322 121 42386 100nF 5% 63V2474 4822 122 33127 2.2nF 10% 63V2475 4822 122 33127 2.2nF 10% 63V2476 5322 126 10223 4.7nF 10% 63V2480 5322 121 10472 47µF2481 4822 122 31177 470pF 10% 500V2482 4822 121 51408 33nF 10% 250V2482 4822 121 40482 68nF 10% 250V2485 4822 124 12265 4.7µF 20% 250V2486 2020 021 91577 470µF 20% 16V2487 4822 124 80604 47µF 20% 50V2488 4822 124 81145 16V 20% 1000µF2489 2020 021 91577 470µF 20% 16V2490 4822 124 12438 2.2µF 20% 100V2491 4822 122 31175 1nF 10% 500V2493 2222 347 90219 15nF 10% 400V2500 4822 126 13589 470nF 275V2501 4822 126 14153 2.2nF 10% 1kV2502 4822 126 14153 2.2nF 10% 1kV2503 4822 124 12415 220µF 20% 400V2505 4822 126 14153 2.2nF 10% 1kV2505 4822 126 13599 3.3nF 10% 500V2506 4822 121 10798 33nF 5% 400V2507 5322 122 34099 470pF 10% 63V2508 4822 122 50116 470pF 10% 1kV2509 4822 121 10711 100nF 20% 275V2515 4822 126 14049 1.5nF 20% 250V2516 4822 126 14208 220pF 20% 250V2516 4822 126 13867 330P 20% 250V2520 4822 126 14585 100nF 10% 50V2520 4822 122 33177 10nF 20% 50V2521 4822 124 81151 22µF 50V2522 4822 126 14585 100nF 10% 50V2523 4822 126 13862 1.5nF 10% 2kV2525 5322 122 34099 470pF 10% 63V2526 4822 126 13482 470nF 80/20% 16V2527 4822 122 33127 2.2nF 10% 63V2528 5322 122 31647 1nF 10% 63V2540 4822 122 33177 10nF 20% 50V2541 4822 122 33177 10nF 20% 50V2560 4822 126 14152 680pF 10% 1kV2561 2020 021 91496 100µF 20% 160V2562 5322 122 32331 1nF 10% 100V2563 5322 121 42386 100nF 5% 63V2564 4822 124 12417 2200µF 20% 25V2564 2020 021 91374
ELECTROLYTICPM25V.S220
2567 4822 124 40433 47µF 20% 25V2568 4822 124 21913 1µF 20% 63V2580 4822 124 81286 47µF 20% 16V2581 4822 124 81151 22µF 50V2601 4822 126 14076 220nF 25V2602 5322 122 32531 100pF 5% 50V2604 4822 124 40248 10µF 20% 63V
Spare Parts ListEN 76 L01.1E AB10.
2606 5322 122 31647 1nF 10% 63V2607 2238 861 18339 33P 1% 50V2608 4822 126 14043 1µF 20-80% 16V2609 2238 861 18339 33P 1% 50V2611 4822 126 14043 1µF 20-80% 16V2612 4822 126 13694 68pF 1% 63V2613 4822 126 13694 68pF 1% 63V2615 5322 122 31647 1nF 10% 63V2618 4822 126 14043 1µF 20-80% 16V2619 4822 126 14043 1µF 20-80% 16V2691 4822 124 40248 10µF 20% 63V2801 4822 124 40207 100µF 20% 25V2801 4822 124 81151 22µF 50V2802 4822 126 14076 220nF 25V2802 2020 552 96305 4.7µF 20-80% 10V2803 2020 552 96305 4.7µF 20-80% 10V2804 2020 552 96305 4.7µF 20-80% 10V2805 2020 552 96305 4.7µF 20-80% 10V2811 2020 552 96305 4.7µF 20-80% 10V2823 4822 124 40207 100µF 20% 25V2824 2020 552 96305 4.7µF 20-80% 10V2831 5322 122 32447 1pF 5% 63V2832 5322 122 32447 1pF 5% 63V2833 4822 126 13692 47pF 1% 63V2834 5322 122 32268 470pF 5% 63V2835 4822 122 33575 220pF 5% 63V2836 4822 126 13344 1.5nF 5% 63V2837 4822 124 40769 4.7µF 20% 100V2840 4822 126 14585 100nF 10% 50V2841 4822 124 40248 10µF 20% 63V2842 4822 126 14585 100nF 10% 50V2843 4822 124 40248 10µF 20% 63V2844 4822 124 40248 10µF 20% 63V2845 4822 126 14585 100nF 10% 50V2846 4822 124 40207 100µF 20% 25V2849 5322 126 10511 1nF 5% 50V2850 5322 126 10511 1nF 5% 50V2851 2020 552 96305 4.7µF 20-80% 10V2851 4822 051 20008 Jumper2852 5322 126 10511 1nF 5% 50V2853 2020 552 96305 4.7µF 20-80% 10V2853 4822 051 20008 Jumper2854 5322 126 10511 1nF 5% 50V2855 4822 122 30045 27pF 2% 100V2856 4822 126 13486 15pF 2% 63V2857 5322 122 33538 150pF 2% 63V2858 5322 126 10511 1nF 5% 50V2859 5322 126 10511 1nF 5% 50V2860 4822 126 13693 56pF 1% 63V2862 2020 552 96305 4.7µF 20-80% 10V2887 4822 122 33177 10nF 20% 50V2894 4822 122 33575 220pF 5% 63V2895 5322 116 80853 560pF 5% 63V2897 4822 122 33172 390pF 5% 50V2898 4822 122 33177 10nF 20% 50V2902 4822 124 81144 1000µF 16V2902 4822 124 80061 1000µF 20% 25V2903 4822 124 21913 1µF 20% 63V2904 4822 126 13482 470nF 80/20% 16V2905 5322 122 31647 1nF 10% 63V2905 5322 116 80853 560pF 5% 63V2906 4822 126 13482 470nF 80/20% 16V2907 5322 122 31647 1nF 10% 63V2907 5322 116 80853 560pF 5% 63V2908 4822 124 40248 10µF 20% 63V2910 5322 122 31647 1nF 10% 63V2910 4822 122 33891 3.3nF 10% 63V2911 5322 122 31647 1nF 10% 63V2911 4822 122 33891 3.3nF 10% 63V2950 5322 122 31863 330pF 5% 63V
3000 4822 116 52175 100Ω 5% 0.5W3001 4822 116 52175 100Ω 5% 0.5W3002 4822 117 10833 10kΩ 1% 0.1W3002 4822 051 20008 Jumper3003 4822 117 11139 1.5kΩ 1% 0.1W3005 4822 116 52175 100Ω 5% 0.5W3006 4822 117 11449 2.2kΩ 5% 0.1W3007 4822 117 11507 6.8kΩ 1% 0.1W3008 4822 117 11449 2.2kΩ 5% 0.1W3010 4822 117 13577 330Ω 1% 1.25W3101 4822 116 83868 150Ω 5% 0.5W3102 3198 021 52240 220kΩ 5%3103 4822 116 83868 150Ω 5% 0.5W3104 4822 117 10834 47kΩ 1% 0.1W3105 4822 116 83868 150Ω 5% 0.5W3106 3198 021 52240 220kΩ 5%3107 4822 116 83868 150Ω 5% 0.5W3108 4822 117 10834 47kΩ 1% 0.1W3109 4822 116 52201 75Ω 5% 0.5W3110 4822 116 52175 100Ω 5% 0.5W
3111 4822 116 52264 27kΩ 5% 0.5W3112 4822 117 11507 6.8kΩ 1% 0.1W3113 4822 116 52201 75Ω 5% 0.5W3114 4822 116 52175 100Ω 5% 0.5W3115 4822 116 52201 75Ω 5% 0.5W3116 4822 116 52175 100Ω 5% 0.5W3117 4822 116 52201 75Ω 5% 0.5W3118 4822 116 52175 100Ω 5% 0.5W3119 4822 116 52199 68Ω 5% 0.5W3120 4822 051 10102 1kΩ 2% 0.25W3131 4822 116 83868 150Ω 5% 0.5W3132 3198 021 52240 220kΩ 5%3133 4822 116 83868 150Ω 5% 0.5W3134 4822 117 10834 47kΩ 1% 0.1W3135 4822 116 83868 150Ω 5% 0.5W3136 3198 021 52240 220kΩ 5%3137 4822 116 83868 150Ω 5% 0.5W3138 4822 117 10834 47kΩ 1% 0.1W3139 4822 116 52264 27kΩ 5% 0.5W3140 4822 117 11507 6.8kΩ 1% 0.1W3141 4822 116 52201 75Ω 5% 0.5W3142 4822 116 52175 100Ω 5% 0.5W3143 4822 116 52199 68Ω 5% 0.5W3144 4822 051 10102 1kΩ 2% 0.25W3151 4822 116 83868 150Ω 5% 0.5W3152 3198 021 52240 220kΩ 5%3153 4822 116 83868 150Ω 5% 0.5W3154 3198 021 52240 220kΩ 5%3155 4822 116 52195 47Ω 5% 0.5W3171 4822 050 11204 120kΩ 1% 0.4W3172 4822 116 83961 6.8kΩ 5%3173 4822 116 52297 68kΩ 5% 0.5W3174 4822 116 52297 68kΩ 5% 0.5W3176 4822 052 11108 1Ω 5% 0.5W3200 4822 116 83881 390Ω 5% 0.5W3201 4822 116 52175 100Ω 5% 0.5W3202 4822 116 52175 100Ω 5% 0.5W3203 4822 116 52175 100Ω 5% 0.5W3204 4822 116 52257 22kΩ 5% 0.5W3206 4822 051 20124 120kΩ 5% 0.1W3206 4822 051 20154 150kΩ 5% 0.1W3206 3198 021 52240 220kΩ 5%3207 4822 050 11002 1kΩ 1% 0.4W3208 4822 117 11503 220Ω 1% 0.1W3209 4822 117 12521 68Ω 1% 0.1W3212 4822 051 20471 470Ω 5% 0.1W3213 4822 051 20561 560Ω 5% 0.1W3214 4822 116 52175 100Ω 5% 0.5W3217 4822 051 20334 330kΩ 5% 0.1W3218 4822 117 11149 82kΩ 1% 0.1W3219 4822 117 11449 2kΩ2 5% 0.1W3223 4822 117 11373 100Ω 1%3226 4822 051 20561 560Ω 5% 0.1W3229 4822 117 11454 820Ω 1% 0.1W3230 4822 117 11504 270Ω 1% 0.1W3231 4822 051 20561 560Ω 5% 0.1W3233 4822 117 11454 820Ω 1% 0.1W3235 4822 116 52175 100Ω 5% 0.5W3236 4822 051 20154 150kΩ 5% 0.1W3237 4822 051 20122 1kΩ20 5% 0.1W3238 4822 051 20561 560Ω 5% 0.1W3239 4822 117 11504 270Ω 1% 0.1W3240 4822 117 10837 100kΩ 1% 0.1W3241 4822 051 20223 22kΩ 5% 0.1W3242 4822 117 11383 12kΩ 1% 0.1W3244 4822 116 52231 820Ω 5% 0.5W3245 4822 117 12708 39kΩ 1% 0.1W3245 4822 051 20393 39kΩ 5% 0.1W3246 4822 117 10833 10kΩ 1% 0.1W3247 2120 108 92641 180kΩ 1%3247 4822 051 20564 560kΩ 5% 0.1W3248 4822 051 20333 33kΩ 5% 0.1W3249 4822 116 52231 820Ω 5% 0.5W3250 4822 050 11002 1kΩ 1% 0.4W3250 4822 116 52303 8.2kΩ 5% 0.5W3251 4822 116 52175 100Ω 5% 0.5W3256 4822 051 10102 1kΩ 2% 0.25W3257 4822 051 20106 10M Ω 5% 0.1W3257 4822 051 20105 1M Ω 5% 0.1W3258 4822 117 10837 100kΩ 1% 0.1W3258 2120 108 92641 180kΩ 1%3258 4822 051 20274 270kΩ 5% 0.1W3259 4822 051 20475 4.7M Ω 5% 0.1W3259 4822 051 20474 470kΩ 5% 0.1W3270 4822 051 20008 Jumper3331 4822 116 52175 100Ω 5% 0.5W3332 3198 013 01020 1kΩ 20% 0.5W3333 4822 116 52175 100Ω 5% 0.5W3334 3198 013 01020 1kΩ 20% 0.5W3335 4822 116 52175 100Ω 5% 0.5W3336 3198 013 01020 1kΩ 20% 0.5W3340 4822 052 11109 10Ω 5% 0.5W3341 4822 052 10108 1Ω 5% 0.33W3342 4822 052 10108 1Ω 5% 0.33W
3343 3198 013 01520 1.5kΩ 20% 0.5W3344 4822 116 52186 22Ω 5% 0.5W3344 4822 116 52191 33Ω 5% 0.5W3345 4822 117 13016 1mA/50V max 115V3346 4822 116 52186 22Ω 5% 0.5W3346 4822 116 52191 33Ω 5% 0.5W3347 4822 051 10102 1kΩ 2% 0.25W3348 4822 051 10102 1kΩ 2% 0.25W3350 4822 051 10102 1kΩ 2% 0.25W3351 4822 051 10102 1kΩ 2% 0.25W3353 4822 051 10102 1kΩ 2% 0.25W3354 4822 051 10102 1kΩ 2% 0.25W3360 4822 117 13424 8.2kΩ 5% 5W3362 4822 052 10109 10Ω 5% 0.33W3363 4822 116 52231 820Ω 5% 0.5W3364 4822 116 80176 1Ω 5% 0.5W3364 4822 116 81039 1.8Ω 5% 0.5W3368 4822 117 12955 2.7kΩ 1% 0.1W3369 4822 117 10833 10kΩ 1% 0.1W3370 4822 117 11503 220Ω 1% 0.1W3371 4822 051 20472 4.7kΩ 5% 0.1W3373 4822 117 11503 220Ω 1% 0.1W3374 4822 116 52291 56kΩ 5% 0.5W3375 4822 116 83868 150Ω 5% 0.5W3375 4822 116 83872 220Ω 5% 0.5W3376 4822 051 20008 Jumper3377 4822 050 24708 4.7Ω 1% 0.6W3378 4822 117 11148 56kΩ 1% 0.1W3379 4822 051 20472 4.7kΩ 5% 0.1W3382 4822 117 11139 1.5kΩ 1% 0.1W3383 4822 051 20471 470Ω 5% 0.1W3384 4822 117 11454 820Ω 1% 0.1W3385 4822 116 80176 1Ω 5% 0.5W3385 4822 116 81039 1.8Ω 5% 0.5W3386 4822 051 20472 4.7kΩ 5% 0.1W3387 4822 051 20471 470Ω 5% 0.1W3390 4822 051 20109 10Ω 5% 0.1W3391 4822 051 20109 10Ω 5% 0.1W3392 4822 117 11373 100Ω 1%3392 4822 117 11503 220Ω 1% 0.1W3393 4822 051 20472 4.7kΩ 5% 0.1W3400 4822 116 52219 330Ω 5% 0.5W3401 4822 116 83874 220kΩ 5% 0.5W3401 4822 116 52257 22kΩ 5% 0.5W3401 4822 050 23303 33kΩ 1% 0.6W3403 4822 116 52234 100kΩ 5% 0.5W3403 4822 116 52297 68kΩ 5% 0.5W3403 4822 116 52304 82kΩ 5% 0.5W3404 4822 050 11002 1kΩ 1% 0.4W3405 4822 050 24708 4.7Ω 1% 0.6W3406 4822 050 24708 4.7Ω 1% 0.6W3407 4822 050 24708 4.7Ω 1% 0.6W3408 4822 116 52175 100Ω 5% 0.5W3408 4822 050 21003 10kΩ 1% 0.6W3410 4822 050 21003 10kΩ 1% 0.6W3411 4822 052 10478 4.7Ω 5% 0.33W3441 4822 117 11373 100Ω 1%3442 4822 051 20008 Jumper3443 4822 051 20105 1M Ω 5% 0.1W3445 4822 116 52244 15kΩ 5% 0.5W3446 4822 116 52289 5.6kΩ 5% 0.5W3447 4822 116 52213 180Ω 5% 0.5W3448 4822 116 52231 820Ω 5% 0.5W3449 4822 116 52199 68Ω 5% 0.5W3450 4822 116 52191 33Ω 5% 0.5W3451 4822 052 10109 10Ω 5% 0.33W3452 4822 050 24703 47kΩ 1% 0.6W3453 4822 050 11002 1kΩ 1% 0.4W3454 4822 050 21503 15kΩ 1% 0.6W3455 4822 053 11688 6.8Ω 5% 2W3456 4822 051 20008 Jumper3457 4822 051 20008 Jumper3458 4822 050 11002 1kΩ 1% 0.4W3459 4822 053 11153 15kΩ 5% 2W3460 4822 116 52276 3.9kΩ 5% 0.5W3463 4822 116 52191 33Ω 5% 0.5W3465 2312 915 12203 22kΩ 1%3465 4822 050 22703 27kΩ 1% 0.6W3465 4822 050 25603 56kΩ 1% 0.6W3468 4822 116 52213 180Ω 5% 0.5W3469 4822 116 52269 3.3kΩ 5% 0.5W3470 2120 108 92641 180kΩ 1%3470 4822 051 20274 270kΩ 5% 0.1W3470 4822 051 20334 330kΩ 5% 0.1W3470 4822 051 20474 470kΩ 5% 0.1W3471 4822 050 22202 2.2kΩ 1% 0.6W3471 4822 050 23308 3.3Ω 1% 0.6W3471 4822 050 23908 3.9Ω 1% 0.6W3471 4822 050 25608 5.6Ω 1% 0.6W3472 4822 050 23308 3.3Ω 1% 0.6W3472 4822 050 25608 5.6Ω 1% 0.6W3473 4822 050 23308 3.3Ω 1% 0.6W3473 4822 050 23908 3.9Ω 1% 0.6W3473 4822 050 25608 5.6Ω 1% 0.6W
Spare Parts List EN 77L01.1E AB 10.
3474 4822 050 22202 2.2kΩ 1% 0.6W3475 4822 050 22202 2.2kΩ 1% 0.6W3477 4822 116 83868 150Ω 5% 0.5W3478 4822 116 83868 150Ω 5% 0.5W3479 4822 117 12955 2.7kΩ 1% 0.1W3480 4822 116 80676 1.5Ω 5% 0.5W3481 4822 050 21503 15kΩ 1% 0.6W3481 2312 915 12203 22kΩ 1%3481 4822 050 22703 27kΩ 1% 0.6W3482 4822 050 23902 3.9kΩ 1% 0.6W3482 4822 050 23901 390Ω 1% 0.6W3482 2312 915 15602 5kΩ6 1%3484 4822 116 52276 3.9kΩ 5% 0.5W3486 4822 053 12229 22Ω 5% 3W3486 4822 053 12339 33Ω 5% 3W3488 4822 052 11478 4.7Ω 5% 0.5W3489 4822 116 52276 3.9kΩ 5% 0.5W3490 4822 116 52303 8.2kΩ 5% 0.5W3491 4822 117 10833 10kΩ 1% 0.1W3491 4822 051 20332 3.3kΩ 5% 0.1W3492 4822 051 10102 1kΩ 2% 0.25W3492 4822 117 13577 330Ω 1% 1.25W3493 4822 052 10688 6.8Ω 5% 0.33W3494 4822 052 11478 4.7Ω 5% 0.5W3495 4822 051 20223 22kΩ 5% 0.1W3496 4822 117 10837 100kΩ 1% 0.1W3497 4822 117 10837 100kΩ 1% 0.1W3498 4822 117 11383 12kΩ 1% 0.1W3500 4822 053 21335 3.3M Ω 5% 0.5W3501 4822 053 21335 3.3M Ω 5% 0.5W3504 4822 116 10105 PTC 9Ω 220V3506 4822 053 21155 1.5Ω 5% 0.5W3507 4822 252 11215 Spark gap3508 4822 116 83872 220Ω 5% 0.5W3509 3198 013 04710 470Ω 20% 0.5W3510 4822 117 12765 4.7Ω 20% 3W3519 4822 116 83876 270Ω 5% 0.5W3520 4822 051 20122 1.2kΩ 5% 0.1W3521 4822 116 52186 22Ω 5% 0.5W3521 4822 050 24708 4.7Ω 1% 0.6W3522 2322 734 63004 300kΩ 1%3522 4822 051 20334 330kΩ 5% 0.1W3522 4822 051 20394 390kΩ 5% 0.1W3523 4822 052 10479 47Ω 5% 0.33W3524 4822 117 11148 56kΩ 1% 0.1W3525 4822 051 10102 1kΩ 2% 0.25W3526 3198 012 11570 0.15Ω 5% 1W3526 4822 117 11744 0.22Ω 5% 1W3527 4822 117 11744 0.22Ω 5% 1W3528 4822 051 20109 10Ω 5% 0.1W3528 4822 051 20008 Jumper3529 4822 117 10834 47kΩ 1% 0.1W3530 4822 117 10833 10kΩ 1% 0.1W3531 4822 051 20472 4.7kΩ 5% 0.1W3532 4822 052 10222 2.2kΩ 5% 0.33W3541 4822 051 20471 470Ω 5% 0.1W3542 4822 117 11139 1.5kΩ 1% 0.1W3543 4822 050 28203 82kΩ 1% 0.6W3544 2120 108 92624 4.7kΩ1%3545 4822 051 20274 270kΩ 5% 0.1W3545 4822 051 20393 39kΩ 5% 0.1W3548 4822 116 83933 15kΩ 1% 0.1W3552 4822 051 20472 4.7kΩ 5% 0.1W3557 4822 051 10102 1kΩ 2% 0.25W3557 4822 117 11139 1.5kΩ 1% 0.1W3561 4822 116 52213 180Ω 5% 0.5W3561 4822 116 83872 220Ω 5% 0.5W3562 4822 117 11383 12kΩ 1% 0.1W3562 4822 116 83933 15kΩ 1% 0.1W3562 4822 051 20822 8.2kΩ 5% 0.1W3563 4822 051 20472 4.7kΩ 5% 0.1W3563 4822 051 20822 8.2kΩ 5% 0.1W3564 2120 106 90565 0.1Ω 5%3565 4822 053 10221 220Ω 5% 1W3565 4822 053 10331 330Ω 5% 1W3566 4822 117 11449 2kΩ2 5% 0.1W3569 4822 051 20562 5.6kΩ 5% 0.1W3580 4822 117 10834 47kΩ 1% 0.1W3594 4822 117 13577 330Ω 1% 1.25W3595 3198 021 52240 220kΩ 5%3596 3198 021 52240 220kΩ 5%3603 4822 116 52175 100Ω 5% 0.5W3604 4822 116 52175 100Ω 5% 0.5W3605 4822 051 20472 4.7kΩ 5% 0.1W3606 4822 116 52256 2kΩ2 5% 0.5W3607 4822 116 52256 2kΩ2 5% 0.5W3608 4822 116 52175 100Ω 5% 0.5W3609 4822 050 21003 10kΩ 1% 0.6W3610 4822 116 52303 8.2kΩ 5% 0.5W3611 4822 117 11373 100Ω 1%3612 4822 116 52303 8.2kΩ 5% 0.5W3614 4822 116 52283 4.7kΩ 5% 0.5W3615 4822 050 21003 10kΩ 1% 0.6W3617 4822 116 52283 4.7kΩ 5% 0.5W
3618 4822 050 21003 10kΩ 1% 0.6W3618 4822 116 83961 6.8kΩ 5%3619 4822 116 52303 8.2kΩ 5% 0.5W3622 4822 117 11373 100Ω 1%3623 4822 051 20472 4.7kΩ 5% 0.1W3624 4822 116 52175 100Ω 5% 0.5W3625 4822 116 52175 100Ω 5% 0.5W3626 4822 051 20472 4.7kΩ 5% 0.1W3627 4822 051 20472 4.7kΩ 5% 0.1W3628 4822 117 10833 10kΩ 1% 0.1W3630 4822 117 11449 2kΩ2 5% 0.1W3632 4822 051 20008 Jumper3634 4822 116 52175 100Ω 5% 0.5W3635 4822 116 52175 100Ω 5% 0.5W3636 4822 117 11373 100Ω 1%3638 4822 117 11927 75Ω 1% 0.1W3640 4822 116 52175 100Ω 5% 0.5W3691 4822 117 13577 330Ω 1% 1.25W3692 4822 051 10102 1kΩ 2% 0.25W3693 4822 117 11503 220Ω 1% 0.1W3694 4822 051 20472 4.7kΩ 5% 0.1W3801 4822 116 83872 220Ω 5% 0.5W3802 4822 050 11002 1kΩ 1% 0.4W3802 4822 116 83872 220Ω 5% 0.5W3803 4822 117 10837 100kΩ 1% 0.1W3803 4822 051 20124 120kΩ 5% 0.1W3804 3198 021 52240 220kΩ 5%3804 4822 117 11149 82kΩ 1% 0.1W3805 4822 051 10102 1kΩ 2% 0.25W3806 4822 117 10837 100kΩ 1% 0.1W3806 4822 051 20124 120kΩ 5% 0.1W3807 3198 021 52240 220kΩ 5%3807 4822 117 11149 82kΩ 1% 0.1W3808 4822 050 11002 1kΩ 1% 0.4W3809 4822 117 11927 75Ω 1% 0.1W3810 4822 117 11927 75Ω 1% 0.1W3811 4822 051 20471 470Ω 5% 0.1W3812 4822 051 20564 560kΩ 5% 0.1W3813 4822 117 10837 100kΩ 1% 0.1W3814 4822 117 10837 100kΩ 1% 0.1W3815 4822 117 11503 220Ω 1% 0.1W3831 4822 117 10834 47kΩ 1% 0.1W3832 4822 116 52175 100Ω 5% 0.5W3833 4822 116 52175 100Ω 5% 0.5W3837 4822 117 11373 100Ω 1%3839 4822 117 11373 100Ω 1%3840 4822 051 20472 4.7kΩ 5% 0.1W3841 4822 051 20822 8.2kΩ 5% 0.1W3842 4822 051 10102 1kΩ 2% 0.25W3844 4822 117 11373 100Ω 1%3845 4822 117 11373 100Ω 1%3849 4822 051 20471 470Ω 5% 0.1W3861 4822 117 10833 10kΩ 1% 0.1W3901 4822 051 10102 1kΩ 2% 0.25W3901 4822 117 11507 6.8kΩ 1% 0.1W3902 4822 051 20332 3.3kΩ 5% 0.1W3903 4822 051 20332 3.3kΩ 5% 0.1W3903 4822 117 11149 82kΩ 1% 0.1W3904 4822 117 10833 10kΩ 1% 0.1W3905 4822 051 20332 3.3kΩ 5% 0.1W3905 4822 117 11149 82kΩ 1% 0.1W3906 4822 117 10833 10kΩ 1% 0.1W3907 4822 117 11507 6.8kΩ 1% 0.1W3909 4822 051 20273 27kΩ 5% 0.1W3910 4822 051 20273 27kΩ 5% 0.1W3912 4822 116 52231 820Ω 5% 0.5W4xxx 4822 051 10008 0Ω 5% 0.25W (1206)4xxx 4822 051 20008 0Ω 5% 0.25W (0805)
5001 4822 157 51216 5.6µH5002 2422 535 94639 10µH 20%5003 4822 157 11866 1.8µH 10%5180 4822 157 71401 27µH5201 4822 157 11868 2.7µH 5%5204 4822 157 11411 100mH z5205 4822 157 11411 100mH z5206 4822 157 11411 100mH z5242 4822 157 11706 10µH 5%5342 4822 157 50961 22µH5342 4822 156 21125 3.9µH 10%5343 2722 122 00333 Delay line 160ns SDL-48935344 2722 122 00333 Delay line 160ns SDL-48935345 2722 122 00333 Delay line 160ns SDL-48935360 4822 157 51216 5.6µH5400 2422 535 91027 Choke coil 11.7mHz 8.4Ω
C906-05401 4822 157 11885 1000µH 5%5445 2422 531 02464 LOT 1342.0033C5445 3128 138 21411 Transformer LOT PSLOT
29”RF
5445 3128 138 21921 Transformer LOT PSLOT OV2076
5451 4822 157 11737 22µH 10%5451 4822 157 11869 33µH 10%5452 4822 157 11411 100mHz5457 2422 535 91028 Linearity coil 25µH C907-015457 4822 157 11076 Linearity coil 25µH C907-015457 4822 157 11671 Linearity drum coil5461 2422 536 00181 Transformer driver
SRW0913DR-T5461 2422 531 02465 Transformer sig driver
SC100155463 2422 536 00048 Bridge coil C957-025463 4822 157 11711 Choke coil5464 2422 531 02419 Bridge coil C946-015471 3198 018 73380 3.3µH 20%5471 2422 535 94638 6.8µH 20%5472 4822 157 51157 3.3µH5480 4822 157 50961 22µH5480 4822 156 20915 33µH5480 5322 157 51687 39µH5500 4822 157 10476 DMF-2820H5501 4822 157 11523 DMF-24055502 2422 549 45296 Mains harmonic filter 38mH5502 2422 549 44694 Mains harmonic filter 65mH5520 3128 138 39721 Transformer CT425V5520 2422 531 02544 Transformer POW LAYER
PSS42-115520 2422 531 02539 Transformer SS42030-035521 4822 526 10704 Bead 100mHz5560 4822 526 10704 Bead 100mHz5561 4822 157 52392 27µH5562 4822 526 10704 Bead 100mHz5564 4822 526 10704 Bead 100mHz5602 4822 157 11867 5.6µH 5%5603 4822 157 11867 5.6µH 5%5604 4822 157 11867 5.6µH 5%5672 4822 157 71401 27µH5678 4822 157 71401 27µH5831 4822 157 11139 6.8µH 5%5832 4822 157 11139 6.8µH 5%5833 4822 157 11139 6.8µH 5%5835 3198 018 31290 12µH 10%
6001 4822 130 34142 BZX79-B336002 4822 130 11397 BAS3166004 4822 130 11525 1SS3566101 4822 130 10837 UDZS8.2B6103 4822 130 10837 UDZS8.2B6104 4822 130 10837 UDZS8.2B6105 4822 130 10837 UDZS8.2B6106 4822 130 11416 PDZ6.8B6171 4822 130 42488 BYD33D6201 4822 130 11397 BAS3166202 4822 130 11397 BAS3166206 4822 130 11416 PDZ6.8B6207 9322 179 26673 ZTE26331 4822 130 30842 BAV216333 4822 130 30842 BAV216335 4822 130 30842 BAV216360 4822 130 30621 1N41486361 4822 130 11397 BAS3166362 4822 130 11397 BAS3166364 4822 130 11397 BAS3166365 4822 130 11397 BAS3166400 4822 050 21002 1K 1% 0,6W6401 4822 130 34383 BZX79-B476401 4822 130 30864 BZX79-B686445 4822 130 11551 UDZS10B6447 4822 130 30621 1N41486448 4822 130 34167 BZX79-B6V26449 5322 130 34337 BAV996452 4822 130 11397 BAS3166453 3198 020 55680 BZX384-C5V66460 9340 559 50112 BY228/246460 4822 130 80298 DG3-7005L6461 4822 130 80572 RGP30J6462 4822 130 34197 BZX79-B126463 9340 548 61115 PDZ12B6465 4822 130 30842 BAV216466 4822 130 30842 BAV216468 4822 130 11397 BAS3166469 4822 130 42606 BYD33J6470 5322 130 34337 BAV996476 4822 130 34281 BZX79-B156481 4822 130 34173 BZX79-B5V66482 4822 130 30862 BZX79-B9V16483 4822 130 34142 BZX79-B336485 4822 130 42606 BYD33J6486 9322 164 42682 EGP20DL-51006487 4822 130 42488 BYD33D
Spare Parts ListEN 78 L01.1E AB10.
6488 9322 164 42682 EGP20DL-51006490 4822 130 42606 BYD33J6500 9322 132 55667 Bridge coil GBU4JL-70026520 4822 130 42488 BYD33D6522 4822 130 11152 UDZ18B6523 4822 130 30621 1N41486524 4822 130 31083 BYW556525 4822 130 31083 BYW556526 9340 548 67115 PDZ22B6540 4822 130 34167 BZX79-B6V26541 4822 130 11551 UDZS10B6560 3139 120 52021 BYV29X-5006561 4822 130 32715 SB3406563 4822 130 11397 BAS3166565 5322 130 34331 BAV706566 4822 130 30621 1N41486567 4822 130 11148 UDZ4.7B6567 4822 130 10837 UDZS8.2B6569 4822 130 11397 BAS3166570 9322 163 91685 BZX384-C6V26570 4822 130 10837 UDZS8.2B6580 4822 130 11397 BAS3166582 9322 175 70667 STPS10L60D6691 9322 050 99682 LTL-10224WHCR6692 9322 127 54667 TSOP1836UH16801 9340 548 52115 PDZ5.1B6805 4822 130 10838 UDZ3.3B6806 4822 130 10837 UDZS8.2B6808 9322 179 26673 ZTE26831 4822 130 30621 1N41486901 4822 051 20008 Jumper
7000 9352 628 51112 TDA8941P/N17001 4822 130 63732 MMUN22127101 5322 130 60159 BC846B7131 5322 130 60159 BC846B7200 9352 707 67557 TDA9565H/N1/5/06487200 9352 712 22557 TDA9565H/N1/5/07397201 5322 130 60159 BC846B7204 4822 130 60373 BC856B7206 5322 130 42755 BC847C7209 5322 130 42718 BFS207210 5322 130 42718 BFS207330 9352 561 40112 TDA61087331 5322 130 60159 BC846B7332 5322 130 60159 BC846B7333 5322 130 60159 BC846B7360 4822 130 40959 BC547B7362 9322 166 55682 2SA13587363 4822 130 40959 BC547B7365 9322 166 56682 2SC34217366 4822 130 41646 BF4237367 4822 130 44568 BC557B7400 9322 157 37687 STP3NC60FP7441 4822 130 60373 BC856B7443 4822 130 44568 BC557B7444 4822 130 40959 BC547B7450 3198 010 44010 PDTA114ET7460 9340 550 92127 BU4508DX7461 4822 130 40981 BC337-257462 9340 547 00215 PDTC143ZT7463 4822 130 41246 BC327-257471 9352 701 64112 TDA8359J/N27480 4822 130 40823 BD1397482 4822 130 40823 BD1397515 9322 175 72667 TCET1104(G)7520 9352 673 56112 TEA1507P/N17521 9322 160 63687 STP7NC80ZFP7522 5322 130 60159 BC846B7540 4822 130 40959 BC547B7541 4822 130 11155 PDTC114ET7542 4822 130 60373 BC856B7560 4822 209 16978 LF33CV7561 9340 547 00215 PDTC143ZT7580 4822 130 60373 BC856B7602 9322 147 25682 M24C16-WBN67606 9340 547 00215 PDTC143ZT7801 5322 209 11102 HEF4052BT7802 5322 209 14481 HEF4053BT7803 5322 130 60159 BC846B7803 4822 130 61129 BCV277804 5322 130 60159 BC846B7804 4822 130 61129 BCV277805 5322 130 60159 BC846B7806 5322 130 60159 BC846B7807 5322 130 60159 BC846B7831 9322 182 56682 MSP3411G-PO-B117831 9322 183 57682 MSP3415G-PO-B117834 5322 130 60159 BC846B7835 5322 130 60159 BC846B7901 9322 158 65667 AN7522N
7901 9322 166 29682 AN75807903 5322 130 60159 BC846B9611 4822 157 52392 27µH
Side AV Panel [C + E1]
Various
0232 4822 267 31014 Headphone socket0250 4822 265 11606 3p0251 4822 267 10735 3p0251 2422 025 15849 6p male0253 2422 025 16382 3p male0254 4822 267 10734 5p0255 4822 267 10565 4p
2171 5322 122 32311 470pF 10% 100V2172 5322 122 32311 470pF 10% 100V2173 5322 122 32311 470pF 10% 100V2174 5322 122 32311 470pF 10% 100V2176 5322 122 32311 470pF 10% 100V2177 4822 124 40248 10µF 20% 63V2178 5322 122 32311 470pF 10% 100V2179 4822 124 40248 10µF 20% 63V
3150 4822 116 83884 47kΩ 5% 0.5W3151 4822 116 83868 150Ω 5% 0.5W3152 4822 116 83884 47kΩ 5% 0.5W3153 4822 116 83868 150Ω 5% 0.5W3155 4822 116 52201 75Ω 5% 0.5W3156 4822 116 52206 120Ω 5% 0.5W3156 4822 116 83876 270Ω 5% 0.5W3157 4822 116 52206 120Ω 5% 0.5W3157 4822 116 83876 270Ω 5% 0.5W
6161 4822 130 34278 BZX79-B6V8
Front Interface [Q1]
Various
0157 3104 311 02471 Cable 5p 680m0177 3104 311 03011 Cable 2p 340mm0211 2422 025 16268 2p male0212 2422 025 16268 2p male0214 2422 025 06353 5p male0231 2422 128 02972 Power switch
2691 4822 124 40248 10µF 20% 63V2692 4822 126 13751 47nF 10% 63V2693 4822 126 13751 47nF 10% 63V2694 4822 126 13751 47nF 10% 63V2695 4822 126 13751 47nF 10% 63V2698 5322 121 42386 100nF 5% 63V
3500 4822 053 21335 3.3M Ω 5% 0.5W3501 4822 053 21335 3.3M Ω 5% 0.5W3691 4822 116 52219 330Ω 5% 0.5W3693 4822 116 83872 220Ω 5% 0.5W
6691 9322 050 99682 LTL-10224WHCR6692 9322 127 54667 TSOP1836UH1
Top control [T, T1]
Various
0158 3139 131 01771 Cable 3p 1000mm0158 3139 131 01711 Cable 3p 1340mm0215 4822 267 10748 3p0215 2422 025 16601 3p male1091 4822 276 13775 Switch1092 4822 276 13775 Switch1093 4822 276 13775 Switch
1094 4822 276 13775 Switch
3091 4822 051 20561 560Ω 5% 0.1W3092 4822 051 20391 390Ω 5% 0.1W3093 4822 051 20561 560Ω 5% 0.1W3094 4822 051 20391 390Ω 5% 0.1W3095 4822 051 20332 3.3kΩ 5% 0.1W3096 4822 117 11139 1.5kΩ 1% 0.1W
6091 4822 130 11528 1PS76SB106091 4822 130 31983 BAT85