service manual - 99thai.com99thai.com/data/epost/book1552965289.pdfservice manual model in the...
TRANSCRIPT
SERVICE MANUAL
MODEL
In the interests of user-safety (Required by safety regulations in some countries) the set should be restored to its original condition andonly parts identical to those specified should be used.
COLOUR TELEVISIONChassis No. GA-4
FEATUREË PAL B/G SYSTEMË FULL AUTO SEARCH SYSTEMË 100-CH PROGRAM MEMORYË CATV (Hyper Band) ReadyË NTSC COLOUR COMB FILTER FUNCTION (AV-IN ONLY)Ë HIGH CONTRAST PICTURE (BLACK STRECTH CIRCUIT)Ë WHITE TEMPERATURE SELECTË OSD LANGUAGE (THAI/ENGLISH)
Ë BLUE BACK FUNCTIONË FAVOURITE CHANNEL Ë ON/OFF/REMINDER TIMERË HOTEL MODEË FRONT AV-IN & REAR AV-IN TERMIMALË COMPONENT IN / HEADPHONE TERMINALË BASS/TREBLE/BALANCE FUNCTIONË MONO BILINGUAL
SPECIFICATIONS ........................................... 2IMPORTANT SERVICE NOTES...................... 2ADJUSTMENT PRECAUTIONS ..................... 3TROUBLE SHOOTING FLOWCHART.......... 14SOLID STATE DEVICE BASE DIAGRAM ..... 17WAVEFORMS ............................................... 18CHASSIS LAYOUT........................................ 19BLOCK DIAGRAMS
DESCRIPTION OF SCHEMATIC DIAGRAM .. 24
SCHEMATIC DIAGRAMn MAIN UNIT .............................................. 25n CRT UNIT................................................. 27n HEADPHONE UNIT.................................. 27
PRINTED WIRING BOARD ASSEMBLIES ... 29REPLACEMENT PARTS LISTn ELECTRICAL PARTS............................... 33
n SUPPLIED ACCESSORIES ..................... 36
n PACKING PARTS ..................................... 45n CABINET PARTS ..................................... 37
Page Page
1SHARP MENUFACTURING (THAILAND) CO.,LTD.
WARNINGThe chassis in this receiver is partially hot. Use an isolation transformer between the line cord plug and powerreceptacle, when servicing this chassis. To prevent electric shock, do not remove cover. No user - serviceableparts inside. Refer servicing to qualified service personnel.
n MAIN UNIT ............................................... 20n CRT UNIT ................................................. 22n HEADPHONE UNIT ................................. 22n S-CONTROL UNIT................................... 23
n S-CONTROL UNIT....................................28
n MISCELLANEOUS PARTS...................... 36
POWER
PULL-OPEN
CONTENTS
2
2-1
2-2
SP
EC
IFIC
AT
ION
SC
onve
rgen
ce...
......
......
......
......
......
......
......
......
......
......
..S
elf C
onve
rgen
ce S
yste
mF
ocus
......
......
......
......
......
......
......
......
......
......
......
......
......
......
......
.. U
NI-
BI F
ocus
ing
Sw
eep
Def
lect
ion
......
......
......
......
......
......
......
......
......
......
......
......
......
......
..M
agne
tic
Inte
rmed
iate
Fre
quen
cies
P
ictu
re IF
Car
rier
......
......
......
......
......
......
......
......
......
......
......
......
......
....3
8.9M
Hz
S
ound
IF C
arrie
r F
requ
ency
6.5
MH
z...
......
......
......
......
......
......
......
......
......
......
......
......
......
......
......
.32.
4MH
z
6
.0M
Hz
......
......
......
......
......
......
......
......
......
......
......
......
......
......
......
....3
2.9M
Hz
5.5
MH
z...
......
......
......
......
......
......
......
......
......
......
......
......
......
......
......
.33.
4MH
z
C
olou
r S
ub-C
arrie
r F
requ
ency
......
......
......
......
......
......
......
......
......
......
34.4
7MH
z
Pow
er In
put
......
......
......
......
......
......
......
......
......
......
......
...11
0 ~
240
V A
C 5
0/60
Hz
Pow
er C
onsu
mpt
ion
......
......
......
......
......
......
......
......
......
......
......
......
......
......
....9
7WA
udio
Pow
er O
utpu
t Rat
ing
......
......
......
......
......
......
......
......
......
......
....
4W(r
ms)
x 2
Spe
aker
S
ize
......
......
......
......
......
......
......
......
......
......
......
......
......
......
......
..5
x 9
cm (
2 pc
s)
Voi
ce C
oil I
mpe
danc
e...
......
......
......
......
......
......
......
......
......
...16
ohm
s at
400
Hz
Aer
ial I
nput
Impe
danc
e
VH
F/U
HF
......
......
......
......
......
......
......
......
......
......
......
......
..75
ohm
s U
nbal
ance
dR
ecei
ving
Sys
tem
......
......
......
......
......
......
......
......
......
......
......
......
......
......
..P
AL
B/G
Tune
r Ran
ges
V
HF
-Cha
nnel
s...
......
......
......
......
......
......
......
......
......
......
......
......
......
E2
thru
E12
U
HF
-Cha
nnel
s...
......
......
......
......
......
......
......
......
......
......
......
......
....E
21 th
ru E
69
Dim
ensi
ons
......
......
......
......
......
......
......
......
......
......
......
......
......
.....
Wid
th: 5
02.0
mm
Hei
ght:
487.
0mm
Dep
th: 4
81.5
mm
Wei
ght(
appr
ox):
22.
0 kg
Cab
inet
mat
eria
l....
......
......
......
......
......
......
......
......
......
......
......
......
......
..A
ll P
last
ics
IMP
OR
TAN
T S
ER
VIC
E N
OT
ES
Mai
nten
ance
and
rep
airi
ng o
f thi
s re
ceiv
er s
houl
d be
don
e by
qua
li-fie
d se
rvic
e pe
rson
nel o
nly.
SE
RV
ICE
OF
HIG
H V
OLT
AG
E S
YS
TE
M A
ND
PIC
-T
UR
E T
UB
EW
hen
ser
vici
ng
th
e h
igh
vo
ltag
e sy
stem
, re
mo
ve s
tati
c ch
arg
e fr
om
it
by
Co
nn
ecti
ng
a 1
0K o
hm
Res
isto
r in
ser
ies
wit
h a
n in
sula
ted
wir
e(su
ch a
s a
test
pro
be)
bet
wee
n p
ictu
re t
ub
e d
ag a
nd
2n
d a
no
de
lead
. (
AC
lin
e co
rdsh
ou
ld b
e d
isco
nn
ecte
d f
rom
AC
ou
tlet
.)1.
Pic
ture
tu
be
in t
his
rec
eive
r em
plo
ys in
teg
ral
imp
losi
on
pro
tect
ion
.2.
Rep
lace
wit
h t
ub
e o
f th
e sa
me
typ
e n
um
ber
fo
r co
nti
nu
ed s
afet
y.3.
Do
no
t lif
t p
ictu
re t
ub
e b
y th
e n
eck.
4.H
and
le t
he
pic
ture
tu
be
on
ly w
hen
wea
rin
g s
hat
terp
roo
f g
og
gle
s an
d a
fter
dis
char
gin
gth
e h
igh
vo
ltag
e co
mp
lete
ly.
X-R
AY
Th
is r
ecei
ver
is d
esig
ned
so
th
at a
ny
X-R
ay r
adia
tio
n is
kep
t to
an
ab
solu
teM
inim
um
. Sin
ce c
erta
in m
alfu
nct
ion
s o
r se
rvic
ing
may
pro
du
ce p
ote
nti
ally
haz
ard
ou
s ra
dia
tio
n w
ith
pro
lon
ged
exp
osu
re a
t cl
ose
ran
ge,
th
e fo
llow
ing
pre
cau
tio
ns
sho
uld
be
ob
serv
ed:
1.14
EM
2G:
Wh
en r
epai
rin
g t
he
circ
uit
, be
sure
no
t to
incr
ease
th
e h
igh
vo
ltag
e to
mo
reth
an 2
5.5k
V(a
t b
eam
0 µ
A)
for
the
set.
20E
M2G
/21E
M2G
: Wh
en r
epai
rin
g th
e ci
rcu
it, b
e su
re n
ot t
o in
crea
se th
e h
igh
vo
ltag
e to
mo
re t
han
28.
0kV
(at
bea
m 0
µA
) fo
r th
e se
t.2.
14
EM
2G
: To
ke
ep
th
e s
et
in a
no
rma
l o
pe
art
ion
, b
e s
ure
to
ma
ke
it
fun
cti
on
on
22.5
kV±1
.5kV
(at b
eam
800
µA
) in
the
case
of t
he
set.
Th
e se
t has
bee
n fa
cto
ry -
Ad
just
edto
th
e ab
ove
-men
tio
ned
hig
h v
olt
age.
20E
M2G
/21E
M2G
: To
kee
p t
he
set
in a
no
rmal
op
eart
ion
, b
e su
re t
o m
ake
it f
un
ctio
n o
n24
.98k
V±1
.5kV
(at b
eam
110
0 µ A
) in
the
case
of t
he
set.
Th
e se
t has
bee
n fa
cto
ry -
Ad
just
edto
th
e ab
ove
-men
tio
ned
hig
h v
olt
age.
*If
ther
e is
a p
oss
ibili
ty t
hat
th
e h
igh
vo
ltag
e fl
uct
uat
es a
s a
resu
lt o
f th
e re
pai
rin
g,
nev
er f
org
et t
o c
hec
k fo
r su
ch h
igh
vo
ltag
e af
ter
the
wo
rk.
3.D
o n
ot
sub
stit
ute
a p
ictu
re t
ub
e w
ith
un
auth
ori
zerd
typ
es a
nd
/or
bra
nd
s w
hic
h m
ayca
use
exc
ess
X-r
ay r
adia
tio
n.
BE
FO
RE
RE
TU
RN
ING
TH
E R
EC
EIV
ER
Bef
ore
ret
urn
ing
the
rece
iver
to th
e u
ser,
per
form
the
follo
win
g s
afet
y C
hec
ks.
1.In
spec
t al
l lea
d d
ress
to
mak
e ce
rtai
n t
hat
lead
s ar
e n
ot
pin
ched
or
that
har
dw
are
is n
ot
lod
ged
bet
wee
n t
he
chas
sis
and
oth
er m
etal
par
ts in
th
e re
ceiv
er.
2.In
spec
t all
pro
tect
ive
dev
ices
su
ch a
s n
on
-met
allic
co
ntr
ol k
no
bs,
insu
lati
ng
fish
pap
ers,
cab
inet
bac
ks, a
dju
stm
ent
and
co
mp
artm
ent
cove
rs o
r sh
ield
s, is
ola
tio
n r
esis
tor-
ca-
pac
ity
net
wo
rks,
mec
han
ical
insu
lato
rs e
tc.
4.5
MH
z...
......
......
......
......
......
......
......
......
......
......
......
......
......
......
......
.34.
4MH
z
C
AT
V-C
hann
els
......
......
......
......
......
......
......
......
......
......
......
......
......
.S
1 th
ru S
20
Rec
eivi
ng F
requ
ency
......
......
......
......
......
......
......
......
...48
.5 M
Hz
thru
863
.25
MH
z
Spe
cific
aion
s ar
e su
bjec
t to
chan
ge w
ithou
t prio
r no
tice.
3-1
3-2
3
AD
JUS
TM
EN
T P
RE
CA
UT
ION
S
Thi
s m
odel
's s
ettin
g a
re a
djus
ted
in t
wo
diff
eren
t w
ays:
thr
ough
the
I2C
bus
con
trol
and
in
the
conv
entio
nal
anal
og m
anne
r. T
he a
djus
tmen
ts v
ia th
e I2
C b
us c
ontr
ol in
clud
e p
rese
t-on
ly it
ems
and
varia
ble
data
.
1. S
etti
ng
th
e se
rvic
e m
od
e b
y th
e m
icro
pro
cess
or.
(1).
Pre
ss S
ER
VIC
E k
ey o
n th
e re
mot
e co
ntro
ller
to s
et th
e T
V s
et to
SE
RV
ICE
mod
e po
sitio
n,
an
d th
e m
icro
proc
esso
r is
in in
put m
ode.
(A
djus
tmen
t thr
ough
the
I2C
bus
con
trol
).
(2).
Pre
ss th
e M
EN
Uke
y on
the
rem
ote
cont
rolle
r to
get
rea
dy to
sel
ect t
he m
ode
(Adj
ustm
ent
mod
e, S
ettin
g m
ode,
Che
ck m
ode
and
Opt
ion
mod
e) o
ne b
y on
e.
(3).
Pre
ss th
e C
H D
OW
N /
UP
key
on
the
rem
ote
cont
rolle
r to
sel
ect t
he it
em in
Adj
ustm
ent
mod
e or
Opt
ion
mod
e.
(4).
Usi
ng th
e V
OLU
ME
UP
/ DO
WN
key
on
the
rem
ote
cont
rolle
r, th
e da
ta c
an b
e m
odifi
ed.
(5).
In
Che
ck m
ode
the
data
can
not b
e ch
ange
s.
(6) .
Pre
ss th
e S
ER
VIC
E k
ey a
gain
, it w
ill s
witc
h to
the
NO
RM
AL
mod
e po
sitio
n, a
nd th
e m
icro
- p
roce
ssor
is o
ut o
f the
SE
RV
ICE
mod
e.
2. F
acto
ry P
rese
ttin
g.
(1).
P
ower
ON
the
TV
set
, pre
ss th
e S
ER
VIC
E k
ey o
n th
e re
mot
e c
ontr
olle
r, th
en p
ress
bot
h C
H U
P a
nd V
OL
UP
but
ton
on th
e se
t sim
ulta
niou
sly
for
5 se
cs. I
ntia
l val
ues
are
auto
mat
i-ca
lly p
rese
t, on
ly w
hen
a ne
w E
EP
RO
M is
use
d.
(2).
The
initi
al d
ata
are
pres
et a
s lis
ted
in p
age
5-2
to 7
-2.
(3).
Mak
e su
re th
e da
ta n
eed
mod
ifica
tion
or n
ot (
Initi
al d
ata).
Pre
caut
cerr
ent.
ion
: If
have
n't d
one
this
initi
aliz
atio
n, it
may
pos
sibl
y ge
nera
te e
xces
sive
Bea
m
CA
UT
ION
: M
ake
sur
e T
V s
et in
"N
orm
al c
on
dit
ion
" bef
ore
sw
itch
to
Ser
vice
Mo
de
for
adju
stm
ent.
Ple
ase
wai
t app
roxi
mat
ely
200
mse
c fo
r da
ta s
tora
ge in
EE
PR
OM
bef
ore
sele
ct to
ano
ther
m
ode.
3. F
or
refe
ran
ce p
leas
e ch
eck
wit
h m
emo
ry m
ap R
H-I
XB
225W
JZZ
(S
ee a
ttac
hm
ent)
AD
JUS
TM
EN
T IT
EM
***B
elow
som
e ad
just
men
t ite
ms
will
not
be
accu
rate
. a
re th
e ad
just
men
t ite
ms
that
sho
uld
be d
one,
PLS
FO
LLO
W T
HE
PR
OC
ED
UR
E. O
ther
wis
e
NO
***
AD
JUS
TM
EN
T IT
EM
RE
VIS
ION
1B
US
SE
T U
P
21F
-A30
21F
-A30
I
2O
PT
ION
SE
T U
P
3H
-VC
O4
VIF
-VC
O
6R
F-A
GC
7P
UR
ITY
AD
J8
CO
NV
ER
GE
NC
E A
DJ
9F
OC
US
AD
J10
V-S
HIF
T (
50 H
z)11
H-S
HIF
T (
50 H
z)12
V-S
IZE
(50
Hz)
13S
CR
EE
N14
WH
ITE
BA
LAN
CE
15S
UB
-BR
IGH
TN
ES
S16
SU
B-C
ON
TR
AS
T17
SU
B-T
INT
18S
UB
-CO
LOR
19S
EC
AM
-OF
FS
ET
20S
IF V
CO
AD
J21
BE
AM
CU
RR
EN
T C
HE
CK
22B
EA
M P
RO
TE
CT
OR
CH
EC
K23
HV
PR
OT
EC
TO
R C
HE
CK
24O
TH
ER
PR
OT
EC
TO
R C
HE
CK
25A
V O
UT
CH
EC
K26
AV
IN C
HE
CK
27C
OM
PO
NE
NT
IN C
HE
CK
28C
ON
TR
AS
T C
ON
TR
OL
CH
EC
K29
CO
LOR
CO
NT
RO
L C
HE
CK
30B
RIG
HT
NE
SS
CO
NT
RO
L C
HE
CK
31T
INT
CO
NT
RO
L C
HE
CK
32S
HA
RP
NE
SS
CO
NT
RO
L C
HE
CK
33C
H D
ISP
LAY
CO
LOR
CH
EC
K34
NO
RM
AL
DIS
PLA
Y C
HE
CK
35W
HIT
E T
EM
P C
ON
TR
OL
CH
EC
K36
CO
LOR
SY
ST
EM
CH
EC
K37
SU
RR
OU
ND
CH
EC
K38
TR
EB
LE C
HE
CK
39B
AS
S C
HE
CK
40B
ALA
NC
E C
HE
CK
41S
OU
ND
SY
ST
EM
CH
EC
K42
NO
ISE
MU
TE
CH
EC
K43
OS
D L
AN
GU
AG
E Q
UA
NT
ITY
CH
EC
K44
HE
AD
PH
ON
E C
HE
CK
45S
HO
CK
TE
ST
CH
EC
K
5S
-TR
AP
fo
EF
FE
CT
IVE
MO
DE
L
US
ER
DA
TA IN
SE
RV
ICE
MO
DE
1). W
hile
SE
RV
ICE
mod
e O
N, E
EP
RO
M D
ATA
will
sw
itch
to th
e se
rvic
e da
ta. A
lso,
onc
e S
ER
VIC
E m
ode
OF
F, E
EP
RO
M w
ill s
witc
h ba
ck to
pre
vi-
ous
US
ER
DA
TA.
2).
In th
e se
rvic
e m
ode,
the
user
dat
a es
tabl
ish
as b
elow
,
*1: F
or e
ach
CH
, dat
a is
sam
e as
bef
ore
switc
h to
Ser
vice
mod
e.
The
flow
of M
ode
list a
s fo
llow
ing,
*
Dire
ct K
ey-in
Mod
e fo
r S
ervi
ce It
ems
in S
ervi
ce M
ode
US
ER
DA
TAC
ON
TR
AS
TM
AX
(60
)C
OLO
UR
(0)
BR
IGH
TN
ES
SC
EN
T (
0)T
INT
CE
NT
(0)
SH
AR
PN
ES
S
(0
)W
HIT
E T
EM
PS
TAN
DA
RD
S-V
OLU
ME
MIN
SU
RR
OU
ND
OF
FT
RE
BLE
CE
NT
(0)
BA
SS
CE
NT
(0)
BA
LAN
CE
CE
NT
(0)
BLU
E B
AC
K
O
FF
C S
YS
TE
MA
UT
OS
SY
ST
EM
*1
RC
CO
DE
(H
EX
)R
/C K
EY
NA
ME
SE
RV
ICE
-IT
EM
80P
OS
1R
-C U
P (
IN S
ER
VIC
E M
OD
E V
00)
40P
OS
2G
-C U
P (
IN S
ER
VIC
E M
OD
E V
00)
C0
PO
S 3
B-C
UP
(IN
SE
RV
ICE
MO
DE
V00
)20
PO
S 4
R-C
DO
WN
(IN
SE
RV
ICE
MO
DE
V00
)A
0P
OS
5G
-C D
OW
N (
IN S
ER
VIC
E M
OD
E V
00)
60P
OS
6B
-C D
OW
N (
IN S
ER
VIC
E M
OD
E V
00)
E0
PO
S 7
R-D
UP
(IN
SE
RV
ICE
MO
DE
V00
)10
PO
S 8
B-D
UP
(IN
SE
RV
ICE
MO
DE
V00
)50
PO
S 0
B-D
DO
WN
(IN
SE
RV
ICE
MO
DE
V00
)E
4F
LAS
HB
AC
KR
-D D
OW
N (
IN S
ER
VIC
E M
OD
E V
00)
E4
FLA
SH
BA
CK
Y-M
UT
E (
BE
SID
ES
OF
SE
RV
ICE
MO
DE
V00
)75
WH
ITE
TE
MP
UP
RF
-AG
C (
V01
)F
5W
HIT
E T
EM
P D
OW
NV
IF-V
C0
(V02
)C
2T
UN
E D
OW
NH
-VC
O (
V03
)8D
SH
AR
PN
ES
S D
OW
NS
UB
-CO
N (
V04
)D
6B
ALA
NC
E L
EF
TS
UB
-CO
L (V
05)
0DS
HA
RP
NE
SS
UP
SU
B-B
RIG
HT
(V
06)
36B
ALA
NC
E R
IGH
TS
UB
-TIN
T (
V07
)46
TR
EB
LE U
PS
UB
-SH
P (
V08
)C
6T
RE
BLE
DO
WN
SU
B-C
OL-
YU
V (
V09
)26
BA
SS
UP
SU
B-T
INT-
YU
V (
V10
)24
CO
LOU
R U
PV
-SIZ
E (
V11
), V
-SIZ
E60
(V
17)
54B
RIG
HT
NE
SS
DO
WN
V-S
HIF
T (
V12
), V
-SH
IFT
60 (
V18
)74
TIN
T D
OW
NH
-SH
IFT
(V
13),
H-S
HIF
T60
(V
19)
66S
UR
RO
UN
D U
PS
CM
-BR
(V
14)
E6
SU
RR
OU
ND
DO
WN
SC
M-B
B (
V15
)C
4C
ON
TR
AS
T D
OW
NS
UB
-VO
L (V
16)
4CP
ICT
UR
ES
-TR
AP
-BG
(V
20)
CC
HO
LDS
-TR
AP
-I (
V21
)2C
TE
XT
S-T
RA
P-D
K (
V22
)A
CC
AN
CE
LS
-TR
AP
-M (
V23
)E
CS
IZE
S-T
RA
P-5
74 (
V24
)80
PO
S 1
R-C
UP
YU
V (
IN S
ER
VIC
E M
OD
E V
25)
40P
OS
2G
-C U
P Y
UV
(IN
SE
RV
ICE
MO
DE
V25
)C
0P
OS
3B
-C U
P Y
UV
(IN
SE
RV
ICE
MO
DE
V25
)
CE
NT
CE
NT
20P
OS
4R
-C D
OW
N Y
UV
(IN
SE
RV
ICE
MO
DE
V25
)A
0P
OS
5G
-C D
OW
N Y
UV
(IN
SE
RV
ICE
MO
DE
V25
)60
PO
S 6
B-C
DO
WN
YU
V (
IN S
ER
VIC
E M
OD
E V
25)
E0
PO
S 7
R-D
UP
YU
V (
IN S
ER
VIC
E M
OD
E V
25)
10P
OS
8B
-D U
P Y
UV
(IN
SE
RV
ICE
MO
DE
V25
)50
PO
S 0
B-D
DO
WN
YU
V (
IN S
ER
VIC
E M
OD
E V
25)
E4
FLA
SH
BA
CK
R-D
DO
WN
YU
V (
IN S
ER
VIC
E M
OD
E V
25)
C1
AU
TO
AD
J F
OR
V01
, V02
, V03
, V20
, V21
, V22
, V23
, V24
CA
T-S
ET
81S
ER
VIC
E M
OD
E
MC
L4
(HE
X D
5)C
H-N
oF
v (M
Hz)
Sou
nd S
ys0 1
55.2
5B
/G2
175.
25B
/G3
189.
25B
/G4
203.
25B
/G5
217.
25B
/G6
535.
25B
/G7 8 9 10 11
48.2
5B
/G12
62.2
5B
/G13
196.
25B
/G14
210.
25B
/G15
224.
25B
/G16
471.
25B
/G17
855.
25B
/G18 19 20 21
223.
95B
/G22
224.
55B
/G23
223.
85B
/G24
224.
65B
/G25
223.
75B
/G26
224.
75B
/G27 28 29 30 31
91.2
5M
3210
3.25
M33
171.
25M
*NO
TE
:P
LL D
ATA
OF
AB
OV
E F
RE
Q S
HO
ULD
TA
KE
TH
E A
CC
OU
NT
OF
PIF
SE
TT
ING
IN
SE
RV
ICE
OP
TIO
N 0
04 (
VIF
) B
EF
OR
E S
TO
RIN
G IN
TO
EE
PR
OM
3418
3.25
3519
3.25
M M
3519
3.25
3620
5.25
3721
7.25
3862
1.25
39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70
M M M M
MC
L4
(HE
X D
5)C
H-N
oF
v (M
Hz)
Sou
nd S
ys
Afte
r se
t the
MC
L to
MC
L, p
leas
e se
t the
INIT
IAL
SE
TT
ING
to IN
ITIA
L 9.
�IN
ITIA
L 9
: F
or
Th
ai (
All
chan
nel
So
un
d S
yste
m a
re s
et t
o B
/G)
4-1
4-2
4
5-1
5-2
AD
JUS
TM
EN
T M
OD
E (
FIR
ST
STA
GE
)E
EP
RO
M IT
EM
SO
SD
DA
TA L
EN
GT
HIN
ITIA
L D
ATA
FIX
/AD
J/A
UT
OR
/C C
OD
E (
HE
X/D
DE
C)
R-D
RIV
EV
000~
127
6 3A
DJ
B-D
RIV
EV
000~
127
63A
DJ
R-C
UT
V00
0 ~25
512
7A
DJ
G-C
UT
V00
0~25
512
7A
DJ
B-C
UT
V00
0~25
512
7A
DJ
RF
-AG
CV
010~
127
50V
IF-V
CO
V02
0~63
31H
-VC
OV
030~
73
SU
B-C
ON
TR
AS
TV
040~
1 27
100
AD
JS
UB
-CO
LOR
V05
0~12
763
AD
JS
UB
-BR
IGH
TV
060~
255
127
AD
JS
UB
-TIN
TV
070~
1 27
63A
DJ
SU
B-S
HA
RP
NE
SS
V08
0~6 3
4343
SU
B-C
OLO
R -
YU
VV
090~
127
9010
5S
UB
-TIN
T-Y
UV
V10
0~12
763
63V
-SIZ
E 5
0 H
zV
110 ~
6338
AD
JV
-SH
IFT
50
Hz
V12
0~7
3A
DJ
H-S
HIF
T 5
0 H
zV
130~
3 19
AD
JS
EC
AM
-BR
V14
0~63
37A
DJ
SE
CA
M-B
BV
150~
6322
AD
JS
UB
-VO
LV
160~
6060
60V
-SIZ
E 6
0 H
zV
17-3
1~0~
+31
00
V-S
HIF
T 6
0 H
zV
18-7
~0~
+7
-1-1
H-S
HIF
T 6
0 H
zV
19-1
5~0~
+15
+2
+2
S-T
RA
P (
BG
)V
200~
157
S-T
RA
P (
I)V
210~
157
S-T
RA
P (
DK
)V
220~
157
S-T
RA
P (
M)
V23
0~15
7S
-TR
AP
(5.
74)
V24
0~15
7C
UT
OF
F/B
KG
D Y
UV
V25
R-D
RI Y
UV
V25
0~12
763
B-D
RI Y
UV
V25
0~12
763
R-C
UT
YU
VV
250~
255
127
G-C
UT
YU
VV
250~
255
127
B-C
UT
YU
VV
250~
255
127
SU
B-C
ON
YU
VV
260~
127
100
SU
B-B
RIG
HT
YU
VV
270~
255
127
VS
-CO
RR
EC
TV
280~
6332
VC
-CO
RR
EC
T O
FF
SE
TV
29-1
3~+
130
V L
INE
AR
ITY
V30
0 ~63
32V
LIN
EA
RIT
Y O
FF
SE
TV
31-1
3~+
130
AD
JA
DJ
AD
J
AD
JA
DJ
AD
JA
DJ
AD
J
63 63 127
127
127
100
127
36 0 10 0
NO
TE
-1N
OT
E-1
NO
TE
-2N
OT
E-2
NO
TE
-2A
E/1
74A
F/1
7543
/67
B1/
177
6B/1
07B
0/17
66C
/108
62/9
863
/99
64/1
0024
/36
2A/4
22E
/46
66/1
0267
/103
23/3
5
32/5
033
/51
34/5
235
/53
37/5
5
R/C
CO
DE
129/
8111
9/77
126/
7E59
/3B
171/
AB
95/5
F83
/53
34/2
235
/23
36/2
437
/25
41/2
942
/2A
45/2
D46
/2E
176/
B0
177/
B1
24/1
823
8/E
E33
/21
111/
6F13
1/83
23/1
760
/3C
110/
6E
R/C
KE
Y N
AM
E
SE
RV
ICE
DA
CO
NE
CO
LOU
R (
RG
B)
BLU
EB
AC
KM
CL4
FE
AT
UR
ET
IME
RC
ON
T U
PC
ON
T D
OW
NC
OL
UP
CO
L D
OW
NB
RI U
PB
RI D
OW
NT
INT
UP
TIN
T D
OW
NS
HA
RP
NE
SS
UP
SH
AR
PN
ES
S D
OW
N
MP
X/B
ILIN
ITIA
L-9
P-N
OR
MA
LS
YS
TE
MA
UT
OS
-MU
TE
(V-M
UT
E/R
GB
INIT
IAL)
-/--
(V-M
UT
E/R
GB
AD
J D
AT
A)
SU
RR
OU
ND
(DE
C/H
EX
)N
OT
E-1
�R
-DR
I UP
07
/07
R-D
RI D
N
27/3
9B
-DR
I UP
08
/08
B-D
RI D
N
0A/1
0
NO
TE
-2R
-CU
T U
P
01/0
1R
-CU
T D
N
04/0
4G
-CU
T U
P
02/0
2G
-CU
T D
N
05/0
5B
-CU
T U
P
03/0
3B
-CU
T D
N
06/0
6
IN V
00 C
ON
DIT
ION
S
HIP
PIN
G S
ET
TIN
G &
CH
EC
KIN
G
(1)
The
follo
win
g de
faul
t dat
a ha
s be
en fa
ctor
y-se
t for
the
E2P
RO
M fo
llow
by
INIT
IAL
DA
TA s
elec
ted.
FAC
TO
RY
SE
TT
ING
BY
MO
DE
L
(Ref
eren
ce: G
eom
agne
tism
Adj
ustm
ent)
ITE
MS
D
ATA
SE
TT
ING
LAS
T P
OW
ER
ON
LAS
T T
V/A
V M
OD
ET
V M
OD
ELA
ST
PO
SIT
ION
CH
1F
LAS
HB
AC
K C
HA
NN
EL
CH
11/
2 D
IGIT
EN
TR
Y2
DIG
IT E
NT
RY
VO
LUM
E0
(Min
)B
LUE
BA
CK
OF
FO
FF
TIM
ER
--:-
-O
N T
IME
R--
:--
ON
TIM
ER
PO
SIT
ION
--O
N T
IME
R V
OLU
ME
--R
EM
IND
ER
--:-
-A
FT
ALL
CH
ON
CO
LOR
SY
ST
EM
ALL
CH
AU
TO
SK
IPA
LL C
H O
FF
CO
NT
RA
ST
60C
OLO
R0
BR
IGH
TN
ES
S0
TIN
T0
SH
AR
PN
ES
S0
WH
ITE
TE
MP
0S
UR
RO
UN
DO
FF
TR
EB
LE0
BA
SS
0B
ALA
NC
E0
(CE
NT
ER
)
INIT
IAL
LA
NG
UA
GE
SO
UN
D S
YS
TE
M9
(HE
X 7
7)T
HA
IB
/G
MO
DE
LM
AG
NE
TIC
FIE
LD
(V, H
) n
TB
AC
KG
RO
UN
DL
AN
G.
S-S
YS
LA
NG
QT
YT
HA
I10
,000
40,0
0012
300K
TH
AI
B/G
2
*NO
TE
FO
R O
SD
TY
PE
:
2: T
HA
I & E
NG
LIS
H O
NLY
**A
FT
ER
INIT
IALI
ZE
D T
HE
EE
PR
OM
(R
EF
ER
TO
FA
CT
OR
Y P
RE
SE
TT
ING
), R
EA
D D
AT
A F
RO
ME
EP
RO
M A
DD
RE
SS
00H
~03
H, A
ND
CO
MP
AR
E T
O T
HE
LIS
T B
ELO
W, I
F D
EF
ER
EN
T.
A
DD
RE
SS
D
AT
A
AD
DR
ES
S
DA
TA
0
0H :
7B
H
02H
: 7
2H
01H
: 7
2H
***
The
re a
re fo
ur s
tage
s of
ser
vice
mod
e da
ta. F
irst s
tage
from
V00
~V
31 (
Adj
ustm
ent m
ode)
.
To
go in
to s
econ
d st
age
of s
ervi
ce m
ode
data
, pre
ss M
EN
U k
ey. S
econ
d st
age
data
from
F01
~F
140
(Set
ting
Mod
e)
To
go in
to th
ird s
tage
of s
ervi
ce m
ode
data
, pre
ss M
EN
U k
ey. T
hird
sta
ge d
ata
is C
heck
Mod
e.
To
go in
to fo
urth
sta
ge o
f ser
vice
mod
e da
ta, p
ress
ME
NU
key
. Fou
rth
stag
e da
ta fr
om O
01~
O30
(O
ptio
n M
ode)
03H
:
75H
5
6-1
6-2
SL-
AV
SLI
CE
LE
VE
L O
F S
YN
C D
ET
EC
TIO
N T
VF
570~
74
SL-
YU
VS
LIC
E L
EV
EL
OF
SY
NC
DE
TE
CT
ION
YU
V
F58
0~7
4V
D2/
VD
1/A
S/F
BP
-TV
VD
2 &
VD
1-V
ER
T S
YN
C D
ET
EC
T M
IN W
IDT
H
MS
B &
LS
B R
ES
PE
CT
IVE
LY,
A
S-T
V/A
V/Y
UV
S
WIT
CH
& C
H C
HA
NG
E, F
BP
-FLY
BA
CK
PU
LSE
S
LIC
E L
EV
EL
(TV
)
F59
0~15
6
VD
2/V
D1/
AS
/FB
P-A
VV
D2
& V
D1-
VE
RT
SY
NC
DE
TE
CT
MIN
WID
TH
M
SB
& L
SB
RE
SP
EC
TIV
ELY
, AS
-TV
/AV
/YU
V
SW
ITC
H &
CH
CH
AN
GE
, FB
P-F
LYB
AC
K P
ULS
E
SLI
CE
LE
VE
L (A
V)
F60
0~15
14
VD
2/V
D1/
AS
/FB
P-Y
UV
SLI
CE
LE
VE
L (Y
UV
)
F61
0~15
14
VD
LC
OLO
UR
DIF
F. IN
PU
T P
HA
SE
AD
JF
620~
30
UD
LC
OLO
UR
DIF
F. IN
PU
T P
HA
SE
AD
JF
630~
30
AU
TO
-SC
M-K
IL-T
VS
EC
AM
CO
LOU
R K
ILLE
R S
EN
SIT
IVIT
Y (
TV
)F
640~
31
SE
CA
M-B
GP
INT
ER
NA
L S
EC
AM
BG
P T
IMIN
GF
650~
30
N45
INH
IBIT
50H
z N
TS
C 4
.43
F66
0/1
0T
XT-
PO
S-H
T
ELE
TE
XT
HO
RIZ
ON
TAL
PO
SIT
ION
F67
0~63
30T
XT-
PO
S-V
T
ELE
TE
XT
VE
RT
ICA
L P
OS
ITIO
NF
680~
6334
OS
D-P
OS
OS
D P
OS
ITIO
NF
690~
127
9C
PC
HA
RG
E P
UM
PF
700/
11
SM
ALL
-SU
RR
S
UR
RO
UN
D M
OD
E S
ELE
CT
F71
0/1
0
SU
B-B
AS
S
SU
B B
AS
S C
ON
TR
OL
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960~
255
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SE
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74
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090
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F10
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443
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358
F12
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L D
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190~
76
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200~
77
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NA
L D
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443
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210~
76
YD
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L D
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358
(AV
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220~
76
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230~
76
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310
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358
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310
SH
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BS
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ON
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LEV
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F55
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F
560~
72
0/1
0/1
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0/1
0/1
0/1
0/1
0/1
0/1
0/1
0/1
0/1
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0/1
0 0 0 0 0 95 4 0 0 0 0 1 5 5 7 5 5 6 6 7 6 6 6 0 0 +9 -8 -7 0 +1 0 0 -5 0 0 -3 -5 0 0 -9 -6 +
8
1
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6
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OP
TIO
N M
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***H
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251
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260
ME
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270
ME
SS
AG
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CR
OLL
TIM
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280
LNA
TU
NE
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290
ON
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HIP
ICO
300
***
HO
TE
L M
OD
EO
PE
RA
TIO
N O
F H
OT
EL
MO
DE
:W
HE
N C
HA
NG
E S
ER
VIC
E D
ATA
O01
TO
1, H
OT
EL
MO
DE
IS O
NW
HE
N H
OT
EL
MO
DE
IS O
N,
1.M
ax v
olum
e da
ta is
det
erm
ined
by
optio
n se
tting
HT
L-V
OL
(O03
)2.
Cha
nnel
pos
ition
afte
r P
OW
ER
ON
is d
eter
min
ed b
y op
tion
setti
ng H
OT
EL-
PO
S (
O02
) (if
opt
ion
setti
ng H
OT
EL-
PO
S
is n
ot s
et, p
roce
ssin
g is
acc
ordi
ng to
last
pos
ition
dat
a).
3.U
ser
data
upd
ates
of E
EP
RO
M r
egar
ding
the
vide
o an
d au
dio
cont
rol i
s no
t allo
wed
.4.
Pre
set m
ode
is d
isab
le.
5.C
H S
ET
TIN
G m
enu
is n
ot a
vaila
ble.
0/1
0/1
0/1
0/1
0/1
0/1
1~15
0/1
0/1
0/1
0/1
0/1
0/1
0/1
0/1
1~5
0/1
0/1
0/1
0/1
0/1
0/1
0/1
0/1
0/1
0/1
SE
T U
P(D
EC
)0 -- -- 1 0 0 0 0 1 1 1 1 1 0 0 0 1 65 3 0 0 0 0 0 0 0 0 0 0 1
V-S
TD
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119
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255
255
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127
127
WO
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525
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7
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TF
127
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R-C
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128
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G-C
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129
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B-C
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130
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CO
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FF
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132
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SH
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133
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310
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42
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6-6
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70~
158
CB
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138
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140
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MS
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NC
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NO
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DA
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EN
GT
HIN
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L
DA
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UP
(DE
C)
0/1
0/1
0/1
0/1
ME
RS
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RE
Q. C
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RA
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ICC
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F10
20~
255
70
ME
L1S
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F10
30~
255
150
ME
L2S
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TE
R L
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EL2
F10
40~
255
156
ME
L3S
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OS
TE
R L
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EL3
F10
50~
255
163
ME
L4S
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R L
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F10
60~
255
165
ME
L5S
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R L
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F10
70~
255
170
ME
L6S
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R L
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80~
255
180
S-S
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ITE
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oto
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lect
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ITE
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ttern
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tat
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Whi
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V04
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e:20
0cd
/m2
.A
djth
eR
-D&
B-D
until
the
axis
ofco
lor
tem
pera
ture
beco
me
X=
272,
Y=
275
1230
0K
1)
DA
RK
WH
ITE
(LO
WB
EA
M)
(InW
indo
wPa
ttern
Sign
al)
Let
the
gun
poin
tat
Dar
kW
hite
posi
tion,
ifth
eco
lor
tem
pera
ture
data
shift
away
from
the
data
adju
sted
inst
ep1,
adju
stR
-C,
G-
C&
B-C
but
betw
een
them
,fir
stco
lor
appe
ars
inS
cree
nad
jite
m1)
-4is
fixed
,ad
jthe
othe
rtw
oso
that
toob
tain
the
sim
i-la
rax
isas
abov
e.**
Rep
eats
tep
1&
2to
geta
regu
late
dpo
si-
tion.
2)
R-CU
TOFF
(R-C
)UP
R-CU
TOFF
(R-C
)DOW
NG-
CUTO
FF(G
-C)U
PG-
CUTO
FF(G
-C)D
OWN
B-CU
TOFF
(B-C
)UP
B-CU
TOFF
(B-C
)DOW
NR-
DRIV
E(R
-D)U
PR-
DRIV
E(R
-D)D
OWN
B-DR
IVE
(B-D
)UP
B-DR
IVE
(B-D
)DOW
N
RCke
y"1"
(HEX
80)
RCke
y"4"
(HEX
20)
RCke
y"2"
(HEX
40)
RCke
y"5"
(HEX
A0)
RCke
y"3"
(HEX
C0)
RCke
y"6"
(HEX
60)
RCke
y"7"
(HEX
E0)
RCke
y"Fl
ashb
ack"
(HEX
E4)
RCke
y"8"
(HEX
10)
RCke
y"0"
(HEX
50)
9.5%
IRE
50%
IRE
5.5%
IRE
Sig
nal
usi
ng
W/B
Pat
tern
Gen
erat
or
SX
-100
6(I
WA
TS
U)o
req
uiv
alen
t.W
ind
ow
Pat
tern
Sig
nal
ou
tpu
tleve
lar
eas
abo
ve:
*No
te:
SU
B-
BR
IGH
TN
ES
S(t
ob
ed
on
eaf
ter
scre
en,
wh
ite
bal
ance
adj)
(I2 C
BU
SC
ON
TR
OL
)
3 4
1)R
ecei
veth
e"M
onos
cope
Pat
tern
"si
gnal
.2)
Pre
ssR
/Cto
set
Pic
ture
NO
RM
AL
cond
ition
.3)
Con
nect
the
DC
mili
amm
eter
betw
een
TP
603
(+
)&
TP
602
(-
).(F
ullS
cale
:3m
AR
ange
)4)
Bea
mcu
rren
tmus
tbe
with
in10
00±
100
µ
A.
5
Dar
kWhi
te
WIN
DO
WP
AT
TE
RNS
IGN
AL
Whi
te
WIN
DO
WP
AT
TE
RNS
IGN
AL
1)In
Win
dow
Pat
tern
Sig
nalc
ondi
tion.
Usi
ngM
inol
taC
olor
Ana
lyze
rC
A-1
00,
let
the
gun
poin
tat
Dar
kW
hite
posi
tion
(as
atta
chdr
awin
g),
adju
stV
06B
usda
taun
tilLU
MI-
NA
NC
EY
=3
± 0.
5cd
/m2
.
2) 1)In
Win
dow
Pat
tern
Sig
nalc
ondi
tion.
Usi
ngM
inol
taC
olor
Ana
lyze
rC
A-1
00,
let
the
gun
poin
tat
Whi
tepo
sitio
n(a
sat
tach
draw
ing)
,ad
just
V04
Bus
data
until
LUM
INA
NC
EY
=20
0±
10cd
/m2
2)
SU
B-
CO
NT
RA
ST
(to
be
do
ne
afte
rsc
reen
,w
hit
eb
alan
cead
j,su
b-b
rig
ht-
nes
sad
j)(I
2 CB
US
CO
NT
RO
L)
Bea
mC
urr
ent
Ch
eck
PA
L C
HR
OM
A A
DJU
STM
EN
T
No
.A
dju
stin
g p
oin
tA
dju
stin
g p
roce
du
re/c
on
dit
ion
sW
avef
orm
an
d o
ther
s
SU
BC
OL
OU
R(I2 C
BU
SC
ON
TR
OL
)(t
ob
ed
on
eaf
ters
ub
-p
ictu
re,s
ub
-ti
nta
dj)
1)R
ecei
veth
e"P
AL
Col
our
Bar
"si
gnal
.2)
Pre
ssR
/Cto
setP
ictu
reN
orm
alco
nditi
on.
3)C
onne
ctth
eos
cillo
scop
eto
R-A
mp
Tra
nsis
tor
Bas
e(T
P85
1).
Ran
ge:
100m
V/D
iv(A
C)
(Usi
ng10
:1P
robe
)S
wee
pTi
me
:10
µse
c/D
iv4)
Usi
ngth
eR
/Cca
llV
05in
SE
RV
ICE
mod
e.A
d-ju
stV
05bu
sda
ta,s
oth
atth
e75
%W
hite
&R
edpo
rtio
nsof
PA
LC
olou
rB
arbe
atth
esa
me
leve
lsh
own
asF
ig1-
1.5)
Cle
arth
eS
ER
VIC
Em
ode.
1
Fig
.1-1
Cy
GB
WY
100%
WM
gR
75%
11
11-1
11-2
HO
RIZ
ON
TAL,
VE
RTI
CA
L, D
EFL
EC
TIO
N L
OO
P a
nd F
OC
US
AD
JUS
TME
NT
No
.A
dju
stin
g p
oin
tA
dju
stin
g p
roce
du
re/c
on
dit
ion
sW
avef
orm
an
d o
ther
s
H-S
HIF
T(I
2 CB
US
CO
NT
RO
L)
(to
be
do
ne
afte
rp
uri
tyad
j)
1
V-S
HIF
T(I
2 CB
US
CO
NT
RO
L)
(to
be
do
ne
afte
rp
uri
tyad
j)
2
1)R
ecei
veM
onos
cope
Pat
tern
Sig
nal(
PA
L50
Hz)
2)C
hoos
eth
ese
rvic
eda
taV
13.
3)A
djus
tthe
V13
bus
data
toha
vea
bala
nce
posi
tion
tosp
ecof
A=
B(a
sat
tach
draw
ing)
4)If
cann
otm
ake
itto
A=B
,adj
ustf
rom
the
best
poin
tso
that
Bsl
ight
lysm
alle
rth
anA
.
1)R
ecei
veM
onos
cope
Pat
tern
Sig
nal(
PA
L50
Hz)
2)C
hoos
eth
ese
rvic
eda
taV
12.
3)A
djus
tV12
bus
data
toha
vea
mos
tacc
epta
ble
vert
ical
posi
tion,
the
mon
osco
pepa
ttern
shou
ldbe
Bal
ance
inve
rtic
alpo
sitio
n.
1)R
ecei
veM
onos
cope
Pat
tern
Sig
nal(
PA
L50
Hz)
2)C
hoos
eth
ese
rvic
eda
taV
11.
3)A
djus
tV11
bus
data
until
the
over
scan
beco
me
10±
1.5
%C
auti
on
1:P
lsag
ing
TV
mo
reth
an10
min
ute
sb
efo
read
just
men
t.C
auti
on
2:fo
rH
-sh
ift
&V
-sh
ift
&V
-siz
ead
j,af
ter
adjp
lssw
itch
toM
on
osc
op
ep
atte
rnsi
gn
al(N
TS
C60
Hz)
toco
nfi
rmal
lp
osi
tio
nar
eth
esa
me.
1)C
onfir
mS
ervi
ceda
taV
08is
43.
1)R
ecei
veth
e"M
onos
cope
Pat
tern
"si
gnal
.2)
Pre
ssR
/Cto
setP
ictu
reN
OR
MA
Lco
nditi
on.
3)A
djus
tthe
focu
sco
ntro
lto
gett
hebe
stfo
cusi
ng.
V-S
IZE
(I2 C
BU
SC
ON
TR
OL
)(t
ob
ed
on
eaf
ter
pu
rity
,V
-sh
ift
adj)
3
SU
B-
SH
AR
PN
ES
S4
Fo
cus
5
A
AB
OK
OK
NG
No
te:
Blin
e(M
on
osc
op
em
idd
lelin
e)m
ust
sam
eo
rn
eare
sth
igh
erp
osi
tio
nto
the
Am
ark
(Tu
be
mid
dle
mar
k),r
efer
toth
eat
tach
dra
win
g.
B
Fig
ure:
PR
OT
EC
TO
R O
PE
RA
TIO
N C
HE
CK
ING
No
.A
dju
stin
g p
oin
tA
dju
stin
g p
roce
du
re/c
on
dit
ion
sW
avef
orm
an
d o
ther
s
BE
AM
1)R
ecei
ve"M
onos
cope
Pat
tern
"si
gnal
.2)
Set
CO
NT
RA
ST
MA
X.
3)S
etB
RIG
HT
MA
X.
4)D
urin
gth
eC
olle
ctor
&E
mitt
erof
Q85
3/4/
5sh
ort,
mak
esu
reth
epr
otec
torO
Nan
dsw
itch
tost
andb
ym
ode.
1*
Se
lect
on
eo
fQ
85
3/4
/5to
do
each
shor
t.
H,V
PR
OT
EC
TO
R1)
Rec
eive
"Mon
osco
peP
atte
rn"
sign
al.
2)C
on
ne
cto
utp
ut
of
Bia
sB
ox
toD
60
2ca
tho
de
(C60
2po
sitiv
e).
3)S
etvo
ltage
ofB
ias
Box
to18
Van
dm
ake
sure
the
prot
ecto
ris
notw
orki
ng.
4)S
etvo
ltage
ofB
ias
Box
to27
V,a
ndm
ake
sure
the
prot
ecto
ris
wor
king
.
2
OT
HE
RP
RO
TE
CT
OR
1)O
nce
finis
hre
ctifi
edE
lect
roly
ticC
apac
itor
shor
tte
stin
gin
+B
line,
chec
kal
lpos
sibl
eda
mag
edco
mpo
nent
son
+B
line.
(Use
rand
omse
lect
edse
tfor
insp
ectio
n)
3
PR
OT
EC
TO
R
NT
SC
CH
RO
MA
AD
JUS
TM
EN
T
No
.A
dju
stin
g p
oin
tA
dju
stin
g p
roce
du
re/c
on
dit
ion
sW
avef
orm
an
d o
ther
s
SU
B-T
INT
1)R
ecei
veth
e"N
TS
C3.
58C
olou
rBar
"si
gnal
thru
AVin
.2)
Co
nn
ect
the
osc
illo
sco
pe
toB
-Am
pTr
an
sist
or
Bas
e(T
P85
3).
Ran
ge:1
00m
V/D
iv.(A
C)(
Use
Pro
be10
:1)
Sw
eep
time
:10
µsec
/Div
.3)
InS
erv
ice
mo
de
,g
oto
V0
7,p
ress
R/C
Y-
mut
e(H
exE
4)or
FLA
SH
BA
CK
Key
.4)
Cal
lthe
"V07
"dat
ain
serv
ice
mod
e.A
djus
tthe
"V07
"bus
data
toob
tain
the
wav
efor
msh
own
asF
ig.1
-1.
5)D
isab
leY
-Mut
eby
pres
sing
key(
Hex
E4)
orth
encl
eart
heS
ER
VIC
Em
ode.
1
Fig
.1-1
WY
Cy
GM
gR
B
FLA
SH
BA
CK
,
(I2C
BU
SC
ON
TR
OL
)
A/V
INP
UT
, OU
TP
UT
& C
OM
PO
NE
NT
IN C
HE
CK
ING
No
.A
dju
stin
g p
oin
tA
dju
stin
g p
roce
du
re/c
on
dit
ion
sW
avef
orm
an
d o
ther
s
VID
EO
AN
DA
UD
IOO
UT
PU
TC
HE
CK
1)R
ecei
veth
e"P
AL
Col
ourB
ar"
sign
al(1
00%
Whi
teC
olou
rB
ar,S
ound
400
Hz
100%
Mod
.)2)
Term
inat
eth
eV
ideo
outp
utw
itha
75oh
mim
ped-
ance
.Mak
esu
reth
eou
tput
isas
spec
ified
(1.0
Vp
-p±3
dB
).3)
Term
inat
eth
eA
udio
outp
utw
itha
10K
ohm
impe
d-an
ce.M
ake
sure
the
O/P
isas
spec
ified
(1.5
Vp
-p±3
dB
).
1
VID
EO
AN
DA
UD
IOIN
PU
TC
HE
CK
1)U
sing
the
TV
/VID
EO
key
onth
ere
mot
eco
ntro
l-le
r,m
ake
sure
that
the
mod
esch
ange
inor
der
ofT
V,A
V1,
AV
2&
TV
agai
nan
dth
evi
deo
&au
dio
outp
utar
eac
cord
ing
toth
ein
putt
erm
inal
fore
ach
mod
e.
1)C
onne
ctY
UV
&A
udio
sign
alto
Com
pone
ntIn
term
inal
and
Aud
iote
rmin
al.
2)U
sing
the
TV
/VID
EO
key
onth
ere
mot
eco
ntro
l-le
r,pr
ess
itun
tilth
em
odes
chan
geto
CO
MP
O-
NE
NT,
conf
irmou
tput
isap
pear
.
2
CO
MP
ON
EN
TIN
CH
EC
K
3 HE
AD
PH
ON
E J
AC
K C
HE
CK
ING
N
o.
Ad
just
ing
po
int
Ad
just
ing
pro
ced
ure
/co
nd
itio
ns
Wav
efo
rm a
nd
oth
ers
HE
AD
PH
ON
EO
UT
PU
TC
HE
CK
ING
1)R
ecei
vePA
LC
OLO
UR
BA
Rw
ithS
OU
ND
400H
z,10
0%M
OD
ULA
TIO
N(±
50kH
zD
ev).
2)M
axi
mu
mvo
lum
e,
an
dch
eck
the
he
ad
ph
on
eou
tput
with
400H
zso
und
and
noso
und
outp
utsp
eake
r.
1
from
12
12-1
12-2
No
.A
dju
stin
g p
oin
tA
dju
stin
g p
roce
du
re/c
on
dit
ion
sW
FU
NC
TIO
N O
PE
RA
TIO
N C
HE
CK
ING
(VID
EO
AN
D A
UD
IO)
No
.A
dju
stin
g p
oin
tA
dju
stin
g p
roce
du
re/c
on
dit
ion
sW
avef
orm
an
d o
ther
s
CO
NT
RA
ST
key
1)R
ecei
ve"M
onos
cope
Pat
tern
"si
gnal
.2)
Set
ME
NU
,th
engo
into
PIC
TU
RE
mod
eto
se-
lect
CO
NT
RA
ST.
3)P
ress
Vol
ume
Up/
Dow
nke
yto
chec
kw
heth
erth
eC
ON
TR
AS
Tef
fect
isO
Kor
not.
1
1)R
ecei
ve"C
olou
rB
ar"
sign
al.
2)S
etM
EN
U,
then
goin
toP
ICT
UR
Em
ode
tose
-le
ctC
OLO
UR
.3)
Pre
ssV
olum
eU
p/D
own
key
toch
eck
whe
ther
the
CO
LOU
Ref
fect
isO
Kor
not.
2C
OL
OU
Rke
y
BR
IGH
TN
ES
Ske
y1)
Rec
eive
"Mon
osco
peP
atte
rn"
sign
al.
2)S
etM
EN
U,
then
goin
toP
ICT
UR
Em
ode
tose
-le
ctB
RIG
HT
NE
SS
.3)
Pre
ssV
olum
eU
p/D
own
key
toch
eck
whe
ther
the
BR
IGH
TN
ES
Sef
fect
isO
Kor
not.
3
TIN
Tke
y1)
Rec
eive
the
"NT
SC
Col
ourB
ar"
sign
alth
ruA
Vin
.2)
Set
ME
NU
,th
engo
into
PIC
TU
RE
mod
eto
se-
lect
TIN
T.3)
Pre
ssV
olum
eU
p/D
own
key
toch
eck
TIN
T,U
Pfo
rG
RE
EN
dire
ctio
nan
dD
OW
Nfo
rP
UR
PLE
di-
rect
ion
whe
ther
isO
Kor
not.
4
SH
AR
PN
ES
SK
ey1)
Rec
eive
"Mon
osco
peP
atte
rn"
sign
al.
2)S
etM
EN
U,t
hen
goin
toP
ICT
UR
Em
ode
tose
lect
SH
AR
PN
ES
S.
3)P
ress
Vol
ume
Up/
Dow
nke
yto
chec
kw
heth
erth
eS
HA
RP
NE
SS
effe
ctis
OK
orno
t.
5
WH
ITE
TE
MP
1)R
ecei
ve"M
onos
cope
Pat
tern
"si
gnal
.2)
Set
ME
NU
,th
engo
into
PIC
TU
RE
mod
eto
sele
ctW
HIT
ET
EM
P.3)
Pre
ssV
olu
me
Up
/Do
wn
key
toch
eck
WH
ITE
TE
MP
func
tion
The
back
grou
ndw
illch
ange
to(s
hift
right
)bl
uish
and
(shi
ftle
ft)re
ddis
h.
8
NO
RM
AL
Key
71)
CH
DIS
PL
AY
CO
LO
UR
1)A
llC
h(1
~9
9)w
illh
ave
an
OS
Ddi
spla
yo
fth
ech
anne
lnum
ber
ingr
een
colo
urun
der
AF
TO
Nco
nditi
on.
6
SU
RR
OU
ND
TRE
BLE
BA
SS
BA
LAN
CE
:O
FF:
CE
NTE
R:
CE
NTE
R:
CE
NTE
R
*SO
UN
DM
OD
EC
ON
TRA
ST
CO
LOU
RB
RIG
HTN
ES
STI
NT
SH
AR
PN
ES
SW
HIT
ETE
MP
:M
AX
:C
EN
TER
:C
EN
TER
:C
EN
TER
:C
EN
TER
:C
EN
TER
PIC
TU
RE
MO
DE
Onc
ein
PIC
TUR
Eor
SO
UN
DM
ode,
and
the
NO
RM
AL
key
ispr
esse
d,al
lthe
setti
ngs
will
bepr
eset
tono
rmal
setti
ngac
cord
ingl
y.(N
orm
alse
tting
valu
efo
reve
rym
ode)
InN
OR
MA
LM
ode,
whe
npr
ess
NO
RM
AL
key,
will
ap
pe
ar
NO
RM
AL
OS
Dan
dal
lse
tting
PIC
TU
RE
,S
OU
ND
func
tions
sett
oN
OR
MA
L.
CO
LO
UR
SY
ST
EM
9 10S
UR
RO
UN
D
TR
EB
LE
11
1)R
ece
ive
the
"PA
LC
OL
OU
RB
AR
"si
gn
al,
pre
ssM
EN
U,
cho
ose
CH
-SE
TT
ING
tose
lect
CO
LO
Rm
od
es
exc
ep
tP
AL
,ch
eck
the
CO
LO
UR
isn
ot
wo
rkin
gp
rop
erl
y.T
he
n,
sele
ctth
e"P
AL
"m
od
e.
Che
ckag
ain
itsco
lour
soth
atit
isw
orki
ngpr
oper
ly.
2)R
ecei
ve"N
TS
C3.
58/4
.43
CO
LOU
R B
AR
"si
gnal
thru
pres
sM
EN
U,
choo
seC
H-S
ET
TIN
Gto
sele
ctC
OL
OU
Rm
od
es
exc
ep
tN
3.58
/4.4
3,ch
eck
the
CO
LOU
Ris
not
wor
king
prop
erly
. The
n,se
lect
the
N3.
58/4
.43
mod
e.C
heck
agai
nits
col
our
soth
atit
isw
orki
ngpr
oper
ly.
1)R
ecei
ve"m
usic
"so
und
sign
al.
2)S
etM
EN
U,
then
goin
toS
OU
ND
ME
NU
tose
lect
SU
RR
OU
ND
.3)
Pre
ssV
OLU
ME
UP
/DO
WN
key
toch
eck
SU
R-
RO
UN
DI,
IIan
dO
FF
effe
ct.
1)R
ecei
ve"m
usic
"so
und
sign
al.
2)S
etM
EN
U,
then
goin
toS
OU
ND
ME
NU
tose
lect
TR
EB
LE.
3)P
ress
VO
LUM
EU
P/D
OW
Nke
yto
chec
kw
heth
erth
eT
RE
BLE
effe
ctis
OK
orno
t.
BA
SS
121)
Rec
eive
"mus
ic"
soun
dsi
gnal
.2)
Set
ME
NU
,th
engo
into
SO
UN
DM
EN
Uto
sele
ctB
AS
S.
3)P
ress
VO
LUM
EU
P/D
OW
Nke
yto
chec
kw
heth
erth
eB
AS
Sef
fect
isO
Kor
not.
BA
LA
NC
E13
1)R
ecei
vem
ono-
tone
sign
al.
2)S
etM
EN
U,
then
goin
toS
OU
ND
ME
NU
tose
lect
BA
LAN
CE
.3)
Pre
ssV
OLU
ME
UP
/DO
WN
key
toch
eck
whe
ther
the
left
torig
htB
ALA
NC
Eef
fect
isO
Kor
not.
SO
UN
D S
YS
TEM
141)
Rec
eive
"P
AL-
B/G
" si
gnal
, pre
ss M
EN
U a
nd s
elec
tC
H-S
ET
TIN
G to
ens
ure
ther
e is
no
SO
UN
D S
YS
TEM
�se
lect
ion.
Che
ck th
e so
und
outp
ut is
wor
king
pro
perly
.
NO
ISE
MU
TE
CH
EC
KIN
G15
1)R
ecei
ver
"PA
L C
OLO
UR
BA
R"
sign
al.
2)T
urn
UP
the
volu
me
cont
rol t
o m
axim
um, m
ake
sure
the
soun
d is
hea
rd fr
om th
e sp
eake
rs. T
urn
put t
he u
nitin
no
sign
al s
tate
.3)
Che
ck th
e so
und
mut
e is
effe
ctiv
e.
4)F
inal
ly tu
rn s
ound
leve
l of C
TV
to m
inim
um.
AV
,
16O
SD
LA
NG
UA
GE
QU
AN
TIT
YC
HE
CK
1)C
heck
OS
DLA
NG
UA
GE
quan
tity
and
type
for
resp
ectm
odel
.
MO
DE
LQ
UANT
ITY
EN
GLI
SH
TH
AI
CH
INE
SE
FRE
NC
HA
RA
BIC
MA
LAY
21F-
A30
I2
--
--
21F-
A30
avef
orm
an
d o
ther
s
13
13-1
SH
OC
K T
ES
T C
HE
CK
ING
No
.A
dju
stin
g
po
int
Ad
just
ing
pro
ced
ure
/co
nd
itio
ns
Wav
efo
rm a
nd
oth
ers
SH
OC
KT
ES
T1)
Hit
atth
eto
pof
TV
setf
ortw
otim
e.
2)C
heck
TV
setn
otda
mag
ean
dT
Vop
erat
ion
op-
erat
eco
rrec
tly.
1 BIL
ING
UA
L C
HE
CK
ING
No
.A
dju
stin
g
po
int
Ad
just
ing
pro
ced
ure
/co
nd
itio
ns
Wav
efo
rm a
nd
oth
ers
BIL
ING
UA
L FU
NC
-TI
ON
CH
EC
KIN
G1)
Rec
eive
r bi
lingu
al c
hann
el.
2)P
ress
rem
ote
cont
rolle
r "M
PX
" bu
tton,
and
the
soun
d w
ill c
hang
e fr
om S
OU
ND
1 to
SO
UN
D2
1 BIL
ING
UA
L C
HE
CK
ING
No
.A
dju
stin
g
po
int
Ad
just
ing
pro
ced
ure
/co
nd
itio
ns
Wav
efo
rm a
nd
oth
ers
RO
M C
OR
RE
CTI
ON
CH
EC
K1)
Go
to S
ER
VIC
E m
ode,
pre
ss "
ME
NU
" ke
y un
tilth
e S
ER
VIC
E m
ode
disp
lay
as in
Fig
ure
1 ap
pear
ed.*
2)C
heck
the
RO
M C
OR
RE
CT
ION
sta
tus
by
mon
itorin
g th
e sc
reen
, fol
low
the
mod
el's
set
ting.
1
Mod
elA
LLR
H-I
XB
225W
JZZ
(S
oftw
ere
Ver
.0.7
9)
CH
K1
AC
T
CH
K2
No
Mic
on V
ersi
on
CH
K1
: If A
C_D
ET
turn
ON
& P
rote
ct ti
min
g is
end
ed,
Por
t ref
resh
& IC
bus
are
pro
hibi
ted.
INF
O
S
LV1
0
0�
S
LV2
0
0�
S
LV4
0
0�
S
LV7
0
0�
MIC
ON
: Z
Z
CH
K1
: AC
TS
OF
T
: 0
.79
C
HK
2 : N
O
*OT
HE
RS
: Fig
ure
1
14
14-1
TR
OU
BL
E S
HO
OT
ING
FL
OW
CH
AR
TT
RO
UB
LE
SH
OO
TIN
G F
LO
WC
HA
RT
(C
on
tin
ued
)
NO
RA
ST
ER
Blo
wn
out.
Rep
lace
the
fuse
.
Che
ckIC
701,
D70
1an
dC
705.
The
fuse
isbl
own
outa
gain
.
Doe
sho
rizon
talc
ircui
tos
cilla
te?
Che
ckT
701
pin
(17)
volta
ge(A
ppro
x.31
0Vat
220V
AC
)
Che
ckF
701.
Che
ckS
econ
dary
Mai
n+B
(App
rox.
125V
)
Che
ckC
RT
conn
ecto
rK
-w
irean
dth
esi
gnal
onit.
Che
ckQ
601
and
Q60
2.
Che
ck18
5VB
ias
onC
RT
boar
d.
Che
ckIC
801.
Che
ckin
gth
epr
otec
tor
circ
uit.
Che
ckQ
752
for
8Vre
gula
tor
circ
uita
ndQ
751,
Q75
4fo
r5V
regu
lato
rci
rcui
t.
Che
ckD
751,
IC70
2an
dIC
703.
Che
ckN
R70
1.
NO
PIC
TU
RE
,NO
SO
UN
D No
snow
nois
e.
Doe
sno
ise
orsi
gnal
appe
arat
pin
(41)
ofIC
801
?
Noi
sein
crea
ses
butn
osi
gnal
isre
ceiv
ed.
Che
ckth
etu
ner
supp
lyvo
ltage
LBm
ust
appr
ox.5
V.B
Tm
ustb
eap
prox
.33V
.A
ndch
eck
the
CH
pres
etda
ta.
Che
ckth
etu
ner
AG
Cat
TP
201.
Doe
sno
ise
orsi
gnal
appe
arat
pin
(58)
ofIC
801
?
Che
ckIC
801
and
rela
ted
circ
uit.
Che
ckIC
401
and
rela
ted
circ
uit.
Che
ckpi
n(1
)of
SF
201,
Tun
eran
dre
late
dci
rcui
t.C
heck
pin
(60)
atIC
801
and
rela
ted
circ
uit.
Che
ckpi
n(5
9)of
IC80
1,T
uner
and
rela
ted
circ
uit.
Che
ckpi
n(58
)of
IC80
1.
Doe
sth
eno
ise
leve
linc
reas
eat
max
.C
ontr
ast,
Brig
htne
ssan
dS
ound
cont
rols
?
CIR
CU
ITS
TO
BE
CH
EC
KE
D:
»T
uner
.P
IF.
Aut
omat
icG
ain
Con
trol
.(5
V),
(32V
)P
ower
Sou
rce.
Doe
sno
ise
orsi
gnal
appe
arat
pin
(63)
and
(64)
ofIC
801
?
14-2
» » »
15
15-1
TR
OU
BL
E S
HO
OT
ING
FL
OW
CH
AR
T (
Co
nti
nu
ed)
TR
OU
BL
E S
HO
OT
ING
FL
OW
CH
AR
T (
Co
nti
nu
ed)
Doe
ssi
gnal
appe
arat
pins
(10)
and
(23)
ofIC
3501
?
NO
SO
UN
DC
IRC
UIT
ST
OB
EC
HE
CK
ED
:»
Sou
ndD
etec
tor
Circ
uit.
Sou
ndS
witc
han
dA
tt.C
ontr
ol.
Aud
ioO
utpu
tCirc
uit.
Doe
ssi
gnal
appe
arat
pins
(6)
and
(8)
ofIC
301
?
Che
ckT
Vso
und
from
pin
(54)
ofIC
801.
Che
ckS
peak
er.
Che
ckIC
301
and
perip
hera
lcirc
uit.
NE
ITH
ER
VE
RT
ICA
LN
OR
HO
RIZ
ON
TA
LS
YN
CH
RO
NIZ
AT
ION
CIR
CU
ITT
OB
EC
HE
CK
ED
:S
ync.
Sep
arat
orC
ircui
t.C
heck
pins
(5),
(6),
(10)
and
(11)
ofIC
801.
Ver
tical
linea
rity
and
size
are
abno
rmal
.
DE
FE
CT
IVE
VE
RT
ICA
LA
MP
.A
ND
VE
RT
ICA
LL
INE
AR
ITY
Re-
adju
stve
rtic
alsi
ze.
(Bus
Dat
a)
Che
ckR
503,
R50
6,R
513,
R52
0an
dC
515.
» »
NO
VE
RT
ICA
LS
CA
N Che
ckIC
501.
Che
ckC
511.
Che
ckIC
501
bias
.»
15-2
�
16
16-1
TR
OU
BL
E S
HO
OT
ING
FL
OW
CH
AR
T (
Co
nti
nu
ed)
NO
SP
EC
IFIC
CO
LO
UR
Isso
me
colo
urpr
oduc
edin
B/W
broa
dcas
trec
eptio
n?
Isth
ew
hite
bala
nce
prop
erly
adju
sted
?
Re-
adju
stth
ew
hite
bala
nce.
The
pict
ure
colo
uris
yello
w.
The
pict
ure
colo
uris
mag
enta
.T
hepi
ctur
eco
lour
iscy
an.
Che
ckQ
855
and
itsad
jace
ntci
rcui
ts.
Che
ckQ
854
and
itsad
jace
ntci
rcui
ts.
Che
ckQ
853
and
itsad
jace
ntci
rcui
ts.
Che
ckIC
801.
17
TVService ManualService ManualMarketE SOLID STATE DEVICE BASE DIAGRAM
TOP VIEW8 5
1
1
N
4
CAT24W08
CATHODE
ANODE
A2
EX1393C
42
I X B 2 2 5 W J Z Z
22
1 2 1
S H A R P
IXB225W
30 16
1 1 5
NJW1142
CATHODE
ANODE
P 1
EX0264T
CATHODE
ANODE
1SS356
6 4
1 3
M1501XN
4 6
3 1
IMX1C/C
64
M61266FP
1 123456789
10111213141516
48474645444342414039383736353433
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49
17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
16 33
48
49
17 32
M61266F P
1
2
4
3
P C 1 2 3S 4
FX0008G
COLLECTOR
BASE EMITTER
Z R
D601A
COLLECTOR
BASE EMITTER
B R
B709A
COLLECTOR
BASE EMITTER
J C
2SC2735
4 6
3 1
IMZ1A
CATHOD
ANODE (RED)
PX0013
1 7
STV9302A
+ ~ ~ _
DX0476CE
SIDE VIEW
1 1 2
1 1 2
E C B
2SC3198E C B
2SD468-C2SC2235
GND
COLLECTOR
Vout
SE125N AN17820BECB
TT2140
LOTNo.
TT2140
1 2 3
PQ09RDA
1 4
DX0452CE
CATHOD ANODE
STRW6753
1 7
2SC3789
E C B
C3789
1) 0.976 Vp-pHoriz. Rate
2) 4.520 Vp-pHoriz. Rate
3) 4.760 Vp-pHoriz. Rate
4) 4.360 Vp-pHoriz. Rate
5) 6.12 Vp-pHoriz. Rate
6) 6.24 Vp-pHoriz. Rate
7) 1.80 Vp-pVert. Rate
8) 1.76 Vp-pVert. Rate
9) 5.63 Vp-pHoriz. Rate
10) 51.6 Vp-pHoriz. Rate
11) 1040 Vp-pHoriz. Rate
12) 53.6 Vp-pVert. Rate
13) 4.8 Vp-pVert. Rate
14) 126 Vp-pHoriz. Rate
15) 508 Vp-p
16) 5.28 Vp-pHoriz. Rate
17) 5.36 Vp-pVert. Rate
18) 88.8 Vp-pHoriz. Rate
19) 96.8 Vp-pHoriz. Rate
20) 99.2 Vp-pHoriz. Rate
WAVEFORMS
18
19
CHASSIS LAYOUT
87 1 09654321
A
B
C
D
E
F
G
H
2120
B
C
D
E
F
G
H
I
J
6 7 8 9 10 11 12 13 14 15 16 17 18 19
+9V
+9V
+5V
+8V
+9V
+5V
+5V
+8V
+5V
TO PWB-C
+9V
+9V
+8V
+8V
+8V
+8V
+5V
+B
LOW B
AC DET
S+B
LO
W B
+9V
+
+24V
+33V
+5V
+9V
+8V
BLOCK DIAGRAM[1] BLOCK DIAGRAM : MAIN UNIT
1 2 3 4 5
A
22
[2] BLOCK DIAGRAM: CRT UNIT
[3] BLOCK DIAGRAM: HEADPHONE UNIT
87 109654321
A
B
C
D
87 109654321
A
B
C
D
23
[4] BLOCK DIAGRAM: S-CONTROL UNIT
87 109654321
A
B
C
D
E
F
G
H
24
DESCRIPTION OF SCHEMATIC DIAGRAM
SAFETY NOTES:DISCONNECT THE AC PLUG FROM THE AC OUT-LET BEFORE REPLACING PARTS.SEMICONDUCTOR HEAT SINKS SHOULD BE RE-GARDED AS POTENTIAL SHOCK HAZARDSWHEN THE CHASSIS IS OPERATING.
1.
2.
NOTES:The unit of resistance "ohm" is omitted.(K = 1000 ohms, M = Mega ohm).
1.
All resistors are 1/16 watt, unless otherwise noted.2.All capacitors are mF, unless otherwise noted.(P = µµF).
3.
VOLTAGE MEASUREMENT CONDITIONS:Voltages in parenthesis measured with no signal.1.Voltages without parenthesis measured with 3mV B & Wor Colour signal.
2.
All the voltages in each point are measured with VTVM.3.
WAVEFORM MEASUREMENT CONDITIONS:The colour bar generator signal of 1.0V peak applied atpin (41) of IC801.
1.
Approximately 4V AGC bias.2.
IMPORTANT SAFETY NOTICE:PARTS MARKED WITH " " ( ) ARE IMPO-TANT FOR MAINTAINING THE SAFETY OF THE SET.BE SURE TO REPLACE THESE PARTS WITH SPECI-FIED ONES FOR MAINTAINING THE SAFETY ANDPERFORMANCE OF THE SET.
SERVICE PRECAUTION:THE AREA ENCLOSED BY THIS LINE ( - ) IS DI-RECTLY CONNECTED WITH AC MAINS VOLTAGE.WHEN SERVICING THE AREA, CONNECT AN ISOLAT-ING TRANSFORMER BETWEEN TV RECEIVER ANDAC LINE TO ELIMINATE HAZARD OF ELECTRICSHOCK.
26 25
A
B
C
D
E
F
G
H
I
J
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
SCHEMATIC DIAGRAM[1] SCHEMATIC : MAIN UNIT
24
DESCRIPTION OF SCHEMATIC DIAGRAM
SAFETY NOTES:DISCONNECT THE AC PLUG FROM THE AC OUT-LET BEFORE REPLACING PARTS.SEMICONDUCTOR HEAT SINKS SHOULD BE RE-GARDED AS POTENTIAL SHOCK HAZARDSWHEN THE CHASSIS IS OPERATING.
1.
2.
NOTES:The unit of resistance "ohm" is omitted.(K = 1000 ohms, M = Mega ohm).
1.
All resistors are 1/16 watt, unless otherwise noted.2.All capacitors are mF, unless otherwise noted.(P = µµF).
3.
VOLTAGE MEASUREMENT CONDITIONS:Voltages in parenthesis measured with no signal.1.Voltages without parenthesis measured with 3mV B & Wor Colour signal.
2.
All the voltages in each point are measured with VTVM.3.
WAVEFORM MEASUREMENT CONDITIONS:The colour bar generator signal of 1.0V peak applied atpin (41) of IC801.
1.
Approximately 4V AGC bias.2.
IMPORTANT SAFETY NOTICE:PARTS MARKED WITH " " ( ) ARE IMPO-TANT FOR MAINTAINING THE SAFETY OF THE SET.BE SURE TO REPLACE THESE PARTS WITH SPECI-FIED ONES FOR MAINTAINING THE SAFETY ANDPERFORMANCE OF THE SET.
SERVICE PRECAUTION:THE AREA ENCLOSED BY THIS LINE ( - ) IS DI-RECTLY CONNECTED WITH AC MAINS VOLTAGE.WHEN SERVICING THE AREA, CONNECT AN ISOLAT-ING TRANSFORMER BETWEEN TV RECEIVER ANDAC LINE TO ELIMINATE HAZARD OF ELECTRICSHOCK.
27
[2] SCHEMATIC DIAGRAM: CRT UNIT
[3] SCHEMATIC DIAGRAM: HEADPHONE UNIT
8 1096 54321
A
B
C
D
87 109654321
A
B
C
D
E
7
27
[2] SCHEMATIC DIAGRAM: CRT UNIT
[3] SCHEMATIC DIAGRAM: HEADPHONE UNIT
8 1096 54321
A
B
C
D
87 109654321
A
B
C
D
E
7
28
[4] SCHEMATIC DIAGRAM: S-CONTROL UNIT
87 109654321
A
B
C
D
E
F
G
H
29
PRINTED WIRING BOARD ASSEMBLIES
PWB-A: MAIN UNIT (Component Side)
87 109654321
A
B
C
D
E
F
G
H
30
R818
87 109654321
A
B
C
D
E
F
G
H
PWB-A: MAIN UNIT (Chip Parts Side)
31
PWB-B: CRT UNIT (Component Side)
PWB-C: HEADPHONE UNIT (Component Side) (ChipParts Side)
87 109654321
A
B
C
D
Component Side
87 109654321
A
B
C
D
Component Side Chip Parts Side
32
PWB-E: S-CONTROL UNIT (Component Side) (Chip Parts Side)
87 109654321
A
B
C
D
Component Side Chip Parts Side
Ref. No. Part No. H Description Code Ref. No. Part No. Description
33
VB51LVV896X3E Picture TubeRCILG0069PEZZ Degaussing CoilQEARCA012WJZZ Ground-Part
PRINTED WIRING BOARD ASSEMBLIES(NOT REPLACEMENT ITEM)
PWB-A DUNTKC781WEA5 MAIN UnitPWB-B DUNTKA599WEF2 CRT UnitPWB-C DUNTKC782WEA4 Headphone Unit
PWB-A DUNTKC781WEA5MAIN UNIT
TUNERNOTE:
ASSEMBLY BUT NOT INDEPENDENTLY.TU201 RTUNQA022WJZZ Tuner
REPLACEMENT P ARTS LISTPARTS REPLACEMENT
Replacement parts which have these special safety characteristicsare identified in this manual; electrical components having suchfeatures are identified by " " in the Replacement Parts Lists.The use of a substitute replacement part which does not have thesame safety characteristics as the factory recommended replace-ment parts shown in this service manual may create shock, fire orother hazards.
"HOW TO ORDER REPLACEMENT PARTS"
To have your order filled promptly and correctly, please furnish thefollowing informations.
1. MODEL NUMBER 2. REF. NO.3. PART NO. 4. DESCRIPTION5. CODE 6. QUANTITY
Ref. No. Part No. Description
PICTURE TUBE
L706
PWB-D DUNTKC783WEA3 S-Control Unit
THE PARTSHERE SHOWN ARE SUPPLIED ASAN
IC301 VHiAN17820B-1 IC, AN17820BIC305 VSiMX1C/C//-1* IC, iMX1CIC401 VHiMM1501XN-1* IC, MM1501XNREIC402 VHiMM1501XN-1* IC, MM1501XNRE
! IC501 VHiAN15525A-1 IC IC601 VHiPQ09RDA1-1 IC, PQ090RDA1SZ
! IC701 VHiSTRW6753-1 IC, STRW6753! IC702 RH-FXA003WJZZ IC, PC123Y82! IC703 VHiSE125N++-F IC, SE125N
IC801 VHiM61266FP1EQ ICIC1001 RH-iXB225WJZZ IC
IC1170 VSiMZ1A////-1* IC, iMZ1A IC1005 VHICAT24W08-1 IC
!
TP801 QLUGP0111GEFW Lug Terminal
Q601 VS2SC2235Y/1E+ Transistor, 2SC2235Q602 VSTT2140+++-F Transistor, TT2140 Q603 VS2SC3198-G-1+ Transistor, 2SC3198Q604 VS2PD601AR/-1* Transistor, 2PD601AR Q701 VS2PD601AR/-1* Transistor, 2PD601ARQ702 VS2PD601AR/-1* Transistor, 2PD601ARQ751 VS2SD468-C/-1+ Transistor, 2SD468 Q752 VS2SD468-C/-1+ Transistor, 2SD468Q753 VS2SC3198-G-1+ Transistor, 2SC3198Q754 VS2SD468-C/-1+ Transistor, 2SD468Q801 VS2PD601AR/-1* Transistor, 2PD601ARQ803 VS2PD601AR/-1* Transistor, 2PD601ARQ804 VS2PB709AR/-1* Transistor, 2PB709ARQ805 VS2PD601AR/-1* Transistor, 2PD601AR
Q1001 VS2PD601AR/-1* Transistor, 2PD601ARQ1002 VS2PD601AR/-1* Transistor, 2PD601ARQ1070 VS2PD601AR/-1* Transistor, 2PD601ARD201 RH-EX0676GEZZ* Zener Diode, 33VD203 VHD1SS133++-1* DiodeD301 VHD1SS133++-1* DiodeD392 RH-DX0452CEZZ Diode, DX0452CED503 RH-EX0612GEZZ* Zener Diode, 5.1V D505 RH-DX0441CEZZ* Diode, DX0441CED510 RH-DX0131CEZZ* Diode, DX0131CED602 VHD1SS244//-1* Diode, 1SS244D603 RH-EX0667GEZZ* Zener Diode, 27VD605 VHD1SS133++-1* DiodeD606 RH-DX0131CEZZ* Diode, DX0131CED607 VHD1SS133++-1* DiodeD608 RH-EX0617GEZZ* Zener Diode, 6.2V
! D701 RH-DX0476CEZZ Diode, DX0476CED702 RH-DX0490CEZZ* Diode, DX0490CED705 RH-DX0066GEZZ* Diode, DX0066GED706 RH-DX0066GEZZ* Diode, DX0066GED707 RH-DX0066GEZZ* Diode, DX0066GED708 RH-EX0621GEZZ* Zener Diode, 6.8V D710 VHD1SS133++-1* DiodeD714 VHD1SS133++-1* DiodeD716 RH-EX0601GEZZ* Zener Diode, 3.6VD751 RH-DXA006WJZZ Diode, DXA006WJD752 RH-DX0247CEZZ Diode, DX0247CED801 RH-EX1393CEZZ* Zener Diode, 5.1VD802 RH-EX0630GEZZ* Zener Diode, 9.1VD803 VHD1SS133++-1* DiodeD806 VHD1SS133++-1* DiodeD810 RH-EX0263TAZZ* Zener Diode, 8.1VD811 RH-EX0263TAZZ* Zener Diode, 8.1VD812 RH-EX0263TAZZ* Zener Diode, 8.1V
D1001 RH-PX0013PEZZ Diode, PhotodiodeD1010 RH-EX0636GEZZ* Zener Diode, 11VD1081 VHD1SS133++-1* DiodeD1091 VHD1SS133++-1* DiodeD1094 VHD1SS133++-1* DiodeD1170 VHD1SS133++-1* DiodeD1171 VHD1SS133++-1* DiodeD1801 VHD1SS133++-1* Diode
! VA701 RH-VX0073CEZZ Varistor! PR701 RMPTP0001PEZZ Packaged Circuit
X801 RCRSAA019WJZZ CrystalL203 VP-DF270K0000* Peaking 27µHL602 RCiLP0223CEZZ Coil
! L701 RCiLF0096PEZZ CoilL751 RCiLP0179CEZZ+ CoilL801 VP-CF220K0000* Peaking 22µHL802 VP-DF100K0000* Peaking 10µHL803 VP-DF100K0000* Peaking 10µHL806 VP-DF100K0000* Peaking 10µH
L808 VP-XF330K0000* Peaking 33µHSF201 RFiLC0442CEZZ Filter
! T602 RTRNFA104WJZZ H-Volt Transformer! T603 RTRNZA058WJZZ Transformer! T701 RTRNWA153WJZZ Transformer
C201 VCEA0A1CW476M+ Capacitor, 47 16V Electrolytic C202 VCEA0A0JW108M+ Capacitor, 1000 6.3V Electrolytic C203 VCKYCY1HF103Z* Capacitor, 0.01 50V CeramicC206 VCEA0A1HW106M+ Capacitor, 10 50V Electrolytic C301 VCEA0A1CW477M+ Capacitor, 470 16V ElectrolyticC304 VCEA0A1HW105M+ Capacitor, 1 50V ElectrolyticC308 VCKYCY1HB682K* Capacitor, 6800p 50V CeramicC310 VCEA0A1HW474M+ Capacitor, 0.47 50V Electrolytic C311 VCEA0A1HW474M+ Capacitor, 0.47 50V ElectrolyticC313 VCKYCY1HB682K* Capacitor, 6800p 50V Ceramic
L807 VP-XF2R2K0000* Peaking 2.2µH
!
!
!
Ref. No. Part No. Description
36
Ref. No. Part No. Description
P302 QPLGN0461CEZZ Plug, 4Pin (S)P304 QPLGN0761CEZZ Plug, 7Pin (HP)P601 QPLGN0660CEZZ Plug, 6Pin (K1-6)P602 QPLGN0561CEZZ Plug, 5Pin (H)P701 QPLGN0260CEZZ Plug, 2Pin (M)P702 QPLGN0269GEZZ Plug
P1001 QPLGN0578GEZZ Plug, 5Pin (K)P1002 QPLGN0561CEZZ Plug, 5Pin (BC)
RMC1001 RRMCUA022WJZZ Remote ReceiverRDA301 PRDARA171WJFW Heat Sink for IC301RDA501 PRDARA120WJFW Heat Sink for IC501RDA601 PRDARA167WJFW Heat Sink for IC601RDA602 PRDAR0337PEFW Heat Sink for Q602RDA701 PRDARA119WJFW Heat Sink for IC701
NR701 RH-HXA013WJZZ+ Thermistor
PWB-B DUNTKA599WEF2CRT UNIT
Q853 VS2SC3789//2E Transistor, 2SC3789Q854 VS2SC3789//2E Transistor, 2SC3789Q855 VS2SC3789//2E Transistor, 2SC3789Q894 VS2PA1015Y+-1+ Transistor, 2PA1015YD859 VHD1SS133++-1* DiodeD896 RH-EX0616GEZZ* Zener Diode, 5.6VD898 VHD1SS133++-1* DiodeL851 VP-MK820K0000+ Peaking 82mHC851 VCKYPA1HB391K+ Capacitor, 390p 50V CeramicC852 VCKYPA1HB271K+ Capacitor, 270p 50V CeramicC853 VCKYPA1HB151K+ Capacitor, 150p 50V CeramicC880 RC-KZ0153CEZZ Capacitor, 1000p 3kV CeramicC893 VCEA0A1CW336M+ Capacitor, 33 16V Electrolytic R849 VRD-RA2BE271J* Resistor, 270 1/8W Carbon R850 VRD-RA2BE470J* Resistor, 47 1/8W CarbonR851 VRD-RA2BE470J* Resistor, 47 1/8W CarbonR852 VRD-RA2BE470J* Resistor, 47 1/8W CarbonR854 VRD-RA2BE271J* Resistor, 270 1/8W CarbonR855 VRD-RA2BE271J* Resistor, 270 1/8W Carbon
! R859 VRS-VV3DB123J Resistor, 12k 2W Metal Oxide! R861 VRS-VV3DB123J Resistor, 12k 2W Metal Oxide! R863 VRS-VV3DB123J Resistor, 12k 2W Metal Oxide
R864 VRD-RA2BE470J* Resistor, 47 1/8W CarbonR876 VRD-RA2BE121J* Resistor, 120 1/8W CarbonR877 VRD-RA2BE121J* Resistor, 120 1/8W CarbonR878 VRD-RA2BE121J* Resistor, 120 1/8W CarbonR880 VRD-RM2HD332J* Resistor, 3.3k 1/2W CarbonR881 VRD-RM2HD332J* Resistor, 3.3k 1/2W CarbonR882 VRD-RM2HD332J* Resistor, 3.3k 1/2W CarbonR889 VRD-RA2BE821J* Resistor, 820 1/8W CarbonR891 VRD-RA2BE561J* Resistor, 560 1/8W CarbonR892 VRD-RA2BE391J* Resistor, 390 1/8W CarbonR894 VRD-RA2BE152J* Resistor, 1.5k 1/8W CarbonR895 VRD-RA2BE561J* Resistor, 560 1/8W CarbonP860 QPLGN0561CEZZ Plug, 5Pin (H)P880 QPLGN0578GEZZ Plug, 5Pin (K)
SC851 QSOCV0016PEZZ Socket, 12Pin
PWB-C DUNTKD782WEA4HEADPHONE UNIT
R370 VRS-CY1JF471J* Resistor, 470 1/16W Metal Oxide R371 VRS-CY1JF471J* Resistor, 470 1/16W Metal OxideJ351 QJAKJ0101SEZZ Jack, 7PinP351 QPLGN0461CEZZ Plug, 4Pin (HP1)P352 QPLGN0361CEZZ Plug, 3Pin (HP2)
PWB-D DUNTKC783WEA3S-CONTROL UNIT
IC3501 VHiNJW1142A-1* IC, NJW1142AD3506 VHD1SS133++-1* DiodeC3501 VCKYCY1CF224Z* Capacitor, 0.22 16V Ceramic C3502 VCKYCY1CF224Z* Capacitor, 0.22 16V CeramicC3503 VCKYCY1CF224Z* Capacitor, 0.22 16V CeramicC3504 VCKYCY1CF224Z* Capacitor, 0.22 16V CeramicC3505 VCKYCY1CF224Z* Capacitor, 0.22 16V CeramicC3506 VCKYCY1CF224Z* Capacitor, 0.22 16V CeramicC3507 VCEA0A1HW475M+ Capacitor, 4.7 50V ElectrolyticC3508 VCEA0A1HW475M+ Capacitor, 4.7 50V ElectrolyticC3509 VCQYTA1HM223J+ Capacitor, 0.022 50V Mylar C3510 VCQYTA1HM223J+ Capacitor, 0.022 50V MylarC3511 VCQYTA1HM222J+ Capacitor, 2200p 50V MylarC3512 VCQYTA1HM222J+ Capacitor, 2200p 50V MylarC3513 VCFYFA1HA224J+ Capacitor, 0.22 50V MylarC3514 VCFYFA1HA224J+ Capacitor, 0.22 50V MylarC3515 VCEA0A1HW474M+ Capacitor, 0.47 50V ElectrolyticC3516 VCEA0A1HW474M+ Capacitor, 0.47 50V ElectrolyticC3517 VCEA0A1HW105M+ Capacitor, 1 50V ElectrolyticC3518 VCFYFA1HA334J+ Capacitor, 0.33 50V MylarC3519 VCEA0A1HW105M+ Capacitor, 1 50V ElectrolyticC3520 VCEA0A1HW105M+ Capacitor, 1 50V ElectrolyticC3521 VCEA0A1HW105M+ Capacitor, 1 50V ElectrolyticC3522 VCEA0A1HW105M+ Capacitor, 1 50V ElectrolyticC3523 VCKYCY1CF104Z* Capacitor, 0.1 16V CeramicC3524 VCEA0A1CW108M+ Capacitor, 1000 16V ElectrolyticC3525 VCKYCY1HF103Z* Capacitor, 0.01 50V CeramicC3526 VCKYCY1HF103Z* Capacitor, 0.01 50V CeramicR3501 VRS-CY1JF101J* Resistor, 100 1/16W Metal OxideR3502 VRS-CY1JF101J* Resistor, 100 1/16W Metal OxideR3503 VRS-CY1JF101J* Resistor, 100 1/16W Metal OxideR3504 VRS-CY1JF101J* Resistor, 100 1/16W Metal OxideR3505 VRS-CY1JF101J* Resistor, 100 1/16W Metal OxideR3506 VRS-CY1JF101J* Resistor, 100 1/16W Metal OxideR3507 VRS-CY1JF101J* Resistor, 100 1/16W Metal OxideR3508 VRS-CY1JF101J* Resistor, 100 1/16W Metal OxideR3509 VRD-RA2BE100J* Resistor, 10 1/8W CarbonP3007 QPLGZ0610CEZZ Plug, 6Pin (EA)P3008 QPLGZ0610CEZZ Plug, 6Pin (EC)P3009 QPLGZ0810CEZZ Plug, 8Pin (EB)
MISCELLANEOUS PARTS
! ACC701 QACCZA009WJZZ Ac Cord (21F-A30)
SP301 VSP9050PB53WA Speaker (L)SP302 VSP9050PB53WA Speaker (R)
QCNW-A922WJN1 Connecting CordQCNW-A923WJN1 Connecting CordQCNW-B266WJZZ Connecting CordQCNW-C881WJZZ Connecting Cord
! ACC701 QACCZA019WJPZ Ac Cord (21F-A30I)
ACCESSORIES PARTS
RRMCGA372WJSA Infrared Remote Control UnitTiNS-B647WJZZ Operation Manual (21F-A30)TiNS-B909WJZZ Operation Manual (21F-A30I)
Ref. No. Part No. Description
34
Ref. No. Part No. Description
C320 VCEA0A1CW106M+ Capacitor, 10 16V Electrolytic C322 VCEA0A1HW475M+ Capacitor, 4.7 50V ElectrolyticC383 VCEA0A1CW106M+ Capacitor, 10 16V Electrolytic C387 VCEA0A1CW106M+ Capacitor, 10 16V Electrolytic C391 VCKYPA1HB102K+ Capacitor, 1000p 50V CeramicC393 VCEA0A1EW108M+ Capacitor, 1000 25V Electrolytic C401 VCKYCY1HF103Z* Capacitor, 0.01 50V CeramicC434 VCEA0A1CW106M+ Capacitor, 10 16V Electrolytic C435 VCE9GA1CW106M+ Capacitor, 10 16V Electrolytic_(N.P) C437 VCEA0A1CW106M+ Capacitor, 10 16V Electrolytic C438 VCEA0A1CW106M+ Capacitor, 10 16V Electrolytic C451 VCEA0A1CW477M+ Capacitor, 470 16V Electrolytic C505 VCEA0A1HW107M+ Capacitor, 100 50V ElectrolyticC508 VCFYAA2AA224J+ Capacitor, 0.22 100V Mylar C511 VCEA0A1VW477M+ Capacitor, 470 35V ElectrolyticC512 VCKYPA2HB102K+ Capacitor, 1000p 500V Ceramic C513 RC-EZA332WJZZ+ CapacitorC515 VCEACA1HC335J+ Capacitor, 3.3 50V ElectrolyticC601 VCQYTA1HM563J+ Capacitor, 0.056 50V Mylar C602 VCEA0A1HW475M+ Capacitor, 4.7 50V ElectrolyticC604 VCEA0A2EW336M+ Capacitor, 33 250V ElectrolyticC606 VCKYPA2HB102K+ Capacitor, 1000p 500V Ceramic
! C607 VCFPVC3ZA972H Capacitor, 9700p 1.8kV Metalized Polypro Film C608 VCQYTA2AA103K+ Capacitor, 0.01 100V Mylar C610 VCEA0A1EW227M+ Capacitor, 220 25V ElectrolyticC611 VCFPVC2DB334J Capacitor, 0.33 200V Metalized Polypro Film C642 VCEA0A1EW476M+ Capacitor, 47 25V Electrolytic C643 VCEA0A1CW477M+ Capacitor, 470 16V ElectrolyticC650 VCKYPA2HB101K+ Capacitor, 100p 500V Ceramic
! C701 RC-FZ031SCEZZ Capacitor, 0.1 275V Metalized Polypro Film C702 RC-KZ0029CEZZ+ Capacitor, 0.01 250V Ceramic C703 RC-KZ0029CEZZ+ Capacitor, 0.01 250V Ceramic C704 RC-KZ0029CEZZ+ Capacitor, 0.01 250V Ceramic
! C705 RC-EZA097WJZZ Capacitor, 220 400V ElectrolyticC706 VCEA0A1VW226M+ Capacitor, 22 35V Electrolytic C708 VCKYPA1HB471K+ Capacitor, 470p 50V Ceramic C709 VCEA9M1HW105M+ Capacitor, 1 50V ElectrolyticC710 VCFYFA1HA104J+ Capacitor, 0.1 50V MylarC711 VCKYPA1HB681K+ Capacitor, 680p 50V Ceramic C713 RC-KZ0102GEZZ Capacitor, 680p 4kV Ceramic C716 VCEA0A1CW226M+ Capacitor, 22 16V Electrolytic C743 VCKYPH3DB561K Capacitor, 560p 2kV Ceramic C750 VCKYPA2HB102K+ Capacitor, 1000p 500V Ceramic C752 VCKYPH3DB561K Capacitor, 560p 2kV Ceramic C753 RC-EZ0724CEZZ Capacitor, 100 160V ElectrolyticC754 RC-EZ0638CEZZ Capacitor, 33 16V Electrolytic
C318 VCEA0A1CW107M+ Capacitor, 100 16V ElectrolyticC319 VCEA0A1CW106M+ Capacitor, 10 16V Electrolytic
C756 VCEA0A1EW228M+ Capacitor, 2200 25V ElectrolyticC757 VCKYCY1HB471K* Capacitor, 470p 50V CeramicC784 RC-KZ1018CEZZ+ Capacitor, 1000p 2kV CeramicC801 VCFYFA1HA104J+ Capacitor, 0.1 50V Mylar C802 VCKYCY1HF103Z* Capacitor, 0.01 50V Ceramic C803 VCEA0A1CW108M+ Capacitor, 1000 16V ElectrolyticC804 VCKYCY1HF103Z* Capacitor, 0.01 50V Ceramic C805 VCEA0A1HW105M+ Capacitor, 1 50V Electrolytic C806 VCKYCY1HF103Z* Capacitor, 0.01 50V Ceramic C807 VCEA0A1CW108M+ Capacitor, 1000 16V ElectrolyticC808 VCKYCY1HF103Z* Capacitor, 0.01 50V Ceramic C809 VCKYCY1HF103Z* Capacitor, 0.01 50V Ceramic C810 VCKYCY1HF103Z* Capacitor, 0.01 50V CeramicC811 VCEA9M1CW107M+ Capacitor, 100 16V Electrolytic C813 VCCCCY1HH181J* Capacitor, 180p 50V CeramicC814 VCKYCY1HF103Z* Capacitor, 0.01 50V Ceramic C815 VCKYCY1HF103Z* Capacitor, 0.01 50V Ceramic C817 VCEA0A1CW107M+ Capacitor, 100 16V ElectrolyticC818 VCEA9M1HW475M+ Capacitor, 4.7 50V ElectrolyticC819 VCCCCY1HH121J* Capacitor, 120p 50V CeramicC820 VCEA9M1HW474M+ Capacitor, 0.47 50V Electrolytic C821 VCKYCY1HF153Z* Capacitor, 0.015 50V Ceramic C822 VCEA0A1HW105M+ Capacitor, 1 50V Electrolytic C823 VCKYCY1EF104Z* Capacitor, 0.1 25V CeramicC824 VCEA0A1CW337M+ Capacitor, 330 16V Electrolytic C825 VCEA0A1HW105M+ Capacitor, 1 50V Electrolytic C827 VCEA0A1CW477M+ Capacitor, 470 16V Electrolytic C828 VCKYCY1HF103Z* Capacitor, 0.01 50V Ceramic C829 VCEA0A1CW476M+ Capacitor, 47 16V ElectrolyticC831 VCKYCY1EF104Z* Capacitor, 0.1 25V CeramicC833 VCKYCY1EF104Z* Capacitor, 0.1 25V CeramicC834 VCEA0A1CW476M+ Capacitor, 47 16V ElectrolyticC835 VCEA0A1CW106M+ Capacitor, 10 16V Electrolytic C837 VCEA0A1HW474M+ Capacitor, 0.47 50V Electrolytic C839 VCKYCY1HB392K* Capacitor, 3900p 50V Ceramic C840 VCFYFA1HA105J+ Capacitor, 1 50V Mylar
C841 VCCCCY1HH220J* Capacitor, 22p 50V Ceramic C842 VCEA0A1HW474M+ Capacitor, 0.47 50V Electrolytic C843 VCEA0A1HW105M+ Capacitor, 1 50V Electrolytic C845 VCKYCY1CF224Z* Capacitor, 0.22 16V Ceramic C847 VCCCCY1HH220J* Capacitor, 22p 50V Ceramic C848 VCEA0A1HW474M+ Capacitor, 0.47 50V Electrolytic
C1003 VCEA0A1CW106M+ Capacitor, 10 16V ElectrolyticC1004 VCKYCY1CF474Z* Capacitor, 0.47 16V Ceramic C1006 VCEA0A1HW225M+ Capacitor, 2.2 50V ElectrolyticC1007 VCEA0A1CW107M+ Capacitor, 100 16V Electrolytic C1008 VCKYCY1HF103Z* Capacitor, 0.01 50V Ceramic C1009 VCKYCY1HF103Z* Capacitor, 0.01 50V Ceramic C1011 VCKYCY1HB221K* Capacitor, 220p 50V CeramicC1012 VCEA0A1HW105M+ Capacitor, 1 50V Electrolytic C1014 VCEA0A1HW475M+ Capacitor, 4.7 50V ElectrolyticC1015 VCCCCY1HH101J* Capacitor, 100p 50V CeramicC1016 VCKYCY1EF104Z* Capacitor, 0.1 25V CeramicC1081 VCQYTA1HM104J+ Capacitor, 0.1 50V MylarC1170 VCEA0A1CW107M+ Capacitor, 100 16V Electrolytic C1849 VCFYFA1HA104J+ Capacitor, 0.1 50V MylarC1851 VCFYFA1HA224J+ Capacitor, 0.22 50V Mylar C1852 VCFYFA1HA224J+ Capacitor, 0.22 50V Mylar C1853 VCFYFA1HA105J+ Capacitor, 1 50V Mylar C1856 VCKYCY1HB102K* Capacitor, 1000p 50V Ceramic C1867 VCCCCY1HH150J* Capacitor, 15p 50V Ceramic C1868 VCEA0A1CW336M+ Capacitor, 33 16V Electrolytic
RJ1 VRS-CY1JF000J* Resistor, 0 1/16W Metal Oxide
RJ6 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideRJ9 VRS-CY1JF000J* Resistor, 0 1/16W Metal Oxide
RJ10 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideRJ11 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideRJ12 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideRJ13 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideRJ15 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideRJ16 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideRJ20 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideRJ22 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideRJ25 VRS-CY1JF000J* Resistor, 0 1/16W Metal Oxide
RJ29 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideRJ30 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideRJ39 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideRJ42 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideRJ43 VRS-CY1JF000J* Resistor, 0 1/16W Metal Oxide
R201 VRS-CY1JF101J* Resistor, 100 1/16W Metal OxideR202 VRS-CY1JF101J* Resistor, 100 1/16W Metal OxideR205 VRS-CY1JF000J* Resistor, 0 1/16W MetalOxide
RJ27 VRS-CY1JF000J* Resistor, 0 1/16W Metal Oxide
RJ3 VRS-CY1JF000J* Resistor, 0 1/16W Metal Oxide
RJ44 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideRJ45 VRS-CY1JF000J* Resistor, 0 1/16W Metal Oxide
C849 VCFYFA1HA334J+ Capacitor, 0.33 50V Electrolytic C860 VCKYD41CY103N* Capacitor, 0.01 16V Electrolytic
R216 VRS-VV3LB333J Resistor, 33k 3W Metal OxideR301 VRS-CY1JF102J* Resistor, 1k 1/16W Metal Oxide R302 VRN-VV3DBR10J Resistor, 0.1 2W Metal Film R303 VRS-CY1JF473J* Resistor, 47k 1/16W Metal OxideR304 VRD-RA2BE683J* Resistor, 68k 1/8W CarbonR305 VRS-CY1JF274J* Resistor, 270k 1/16W Metal OxideR307 VRS-CY1JF182J* Resistor, 1.8k 1/16W Metal OxideR308 VRD-RA2BE822J* Resistor, 8.2k 1/8W CarbonR314 VRD-RA2BE822J* Resistor, 8.2k 1/8W CarbonR315 VRS-CY1JF182J* Resistor, 1.8k 1/16W Metal OxideR318 VRD-RA2BE680J* Resistor, 68 1/8W CarbonR319 VRD-RA2BE680J* Resistor, 68 1/8W CarbonR353 VRS-CY1JF102J* Resistor, 1k 1/16W Metal OxideR356 VRD-RA2BE102J* Resistor, 1k 1/8W CarbonR362 VRS-CY1JF332J* Resistor, 3.3k 1/16W Metal OxideR366 VRS-CY1JF332J* Resistor, 3.3k 1/16W Metal OxideR372 VRS-CY1JF104J* Resistor, 100k 1/16W Metal OxideR373 VRS-CY1JF103J* Resistor, 10k 1/16W Metal OxideR374 VRS-CY1JF104J* Resistor, 100k 1/16W Metal OxideR376 VRD-RA2BE472J* Resistor, 47k 1/8W CarbonR382 VRS-CY1JF332J* Resistor, 3.3k 1/16W Metal OxideR384 VRS-CY1JF332J* Resistor, 3.3k 1/16W Metal OxideR431 VRS-CY1JF101J* Resistor, 100 1/16W Metal OxideR432 VRS-CY1JF750J* Resistor, 75 1/16W Metal OxideR433 VRS-CY1JF750J* Resistor, 75 1/16W Metal OxideR434 VRS-CY1JF750J* Resistor, 75 1/16W Metal OxideR435 VRS-CY1JF750J* Resistor, 75 1/16W Metal OxideR436 VRD-RA2BE101J* Resistor, 100 1/8W CarbonR437 VRS-CY1JF101J* Resistor, 100 1/16W Metal OxideR438 VRS-CY1JF000J* Resistor, 0 1/16W Metal OxideR458 VRS-CY1JF103J* Resistor, 10k 1/16W Metal OxideR459 VRD-RA2EE750J* Resistor, 75 1/4W Carbon