Sharp 29af200ms Chassis Gb-4
description
Transcript of Sharp 29af200ms Chassis Gb-4
1
1-2
S HA R P C OR P OR AT ION
S E R V IC E MA NUA L
29AF200MSMODE L
In the interes ts of us er-s afety (R equired by s afety regulations in s ome countries ) the s et s hould be res toredto its original condition and only parts identica l to thos e s pecified s hould be us ed.
F E AT UR E SË World Multi 28 S ystemË 100-C H P rogram MemoryË AV Mode (S tandard / Dynamic /
S oft / C ustom)Ë C AT V Hyper B and R eadyË 4 Line Digital C omb F ilterË Velocity ModulationË B lue/B lack S tretch C ircuitË P icture Noise R eductionË White Temp. S elect
Ë Aperture C ontrolË G amma C orrectionË S urround S ound & sound enhancerË On/Off/R eminder TimerË P ower S ave ModeË R ear AV-IN 1 & 2, S -Video In, AV Output
(Monitor Out), and F ront S -V ideo, AV-IN 3Ë S ubwoofer terminal in R earË C omponent Input Terminal in R earË Message F unction with animation icon
WA R NINGT he c has s is in this rec eiver is partially hot. Us e an is olation trans former between the line c ord plug and powerrec eptac le, when s ervic ing this c has s is . T o prevent elec tric s hoc k, do not remove c over. No us er – s ervic eableparts ins ide. R efer s ervic ing to qualified s ervic e pers onnel.
C OL OUR T E L E V IS IONC has s is No.G B -4
Ë AV S tereoË C hild LockË Dynamic S kin ToneË G raphic E qualizerË C lockË S ound Mode (Music / Movie /
News / C ustom)Ë Hotel ModeË 16 : 9 Mode
» S P E C IF IC AT IONS ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2» IMP OR TANT S E R V IC E NOT E S ... . . . . . . . . . . . . . . . . . . . 2» ADJ US T ME NT P R E C AUT IONS ... . . . . . . . . . . . . . . . . . . 3» T R OUB LE S HOOT ING TAB LE ... . . . . . . . . . . . . . . . . . . 18» S OLID S TAT E DE V IC E B AS E DIAG R AM .... . 22» WAV E F OR MS ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23» C HAS S IS LAY OUT ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24» B LOC K DIAG R AM .... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25» DE S C R IP TION OF S C HE MATIC DIAG R AM .. 27» S C HE MAT IC DIAG R AM
�= C R T UNIT ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
=�MAIN UNIT ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29=�F R ONT UNIT ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
» R E P LAC E ME NT PAR T S LIS T=� E LE C T R IC AL PAR T S ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33=� MIS C E LLANE OUS PAR T S ... . . . . . . . . . . . . . . . . . . . 40=� S UP P LIE D AC C E S S OR IE S ... . . . . . . . . . . . . . . . . . . 40=� PAC K ING PAR T S ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40= C AB INE T PAR T S ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
P age P age
C ONT E NT S
=�ME S S AG E UNIT... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32=�S UB WOOF E R UNIT ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
2
2-1
2-2
IMP
OR
TAN
T
SE
RV
ICE
N
OT
ES
Mai
nten
ance
and
repa
ir o
f thi
s re
ceiv
er s
houl
d be
don
e by
qua
li-fi
ed s
ervi
ce p
erso
nnel
onl
y.
SER
VIC
E O
F H
IGH
VO
LTA
GE
SYST
EM A
ND
PIC
TUR
ETU
BEW
hen
serv
icin
g th
e hi
gh v
olta
ge sy
stem
, rem
ove
stat
ic ch
arge
from
it b
y C
onne
ct-
ing
a 10
K o
hm R
esis
tor
in s
erie
s w
ith
an in
sula
ted
wir
e (s
uch
as a
test
pro
be)
betw
een
pict
ure
tube
dag
and
2nd
ano
de le
ad.
(AC
line
cor
d sh
ould
be
disc
onne
cted
from
AC
out
let.)
1. P
ictu
re tu
be in
this
rece
iver
em
ploy
s in
tegr
al im
plos
ion
prot
ectio
n.2.
Rep
lace
with
tube
of t
he s
ame
type
num
ber f
or c
ontin
ued
safe
ty.
3. D
o no
t lif
e pi
ctur
e tu
be b
y th
e ne
ck.
4.H
andl
e th
e pi
ctur
e tu
be o
nly
whe
n w
eari
ng s
hatte
rpro
of g
oggl
es a
nd a
fter
dis
-ch
argi
ng th
e hi
gh v
olta
ge c
ompl
etel
y.
X-R
AY
This
rece
iver
is d
esig
ned
so th
at a
ny X
-Ray
radi
atio
n is
kep
t to
an a
bsol
ute
Min
i-m
um. S
ince
cert
ain
mal
func
tions
or s
ervi
cing
may
pro
duce
pot
entia
lly h
azar
dous
radi
atio
n w
ith p
rolo
nged
exp
osur
e at
clos
e ra
nge,
the
follo
win
g pr
ecau
tions
shou
ldbe
obs
erve
d:1
.Whe
n re
pair
ing
the
circ
uit,
be su
re n
ot to
incr
ease
the
high
vol
tage
to m
ore
than
34.0
kV
(at b
eam
0 µ
A) f
or th
e se
t.2
.To
kee
p th
e se
t in
a no
rmal
ope
ratio
n, b
e su
re to
mak
e it
func
tion
on 3
0.0
kV ±
1.5
kV (a
t bea
m 1
700 µ
A) i
n th
e ca
se o
f the
set
. Th
e se
t has
bee
n fa
ctor
y-A
d-ju
sted
to th
e ab
ove-
men
tione
d hi
gh v
olta
ge.
If th
ere
is a
pos
sibi
lity
that
the
high
vol
tage
fluc
tuat
es a
s a re
sult
of th
e re
paie
s,ne
ver f
orge
t to
chec
k fo
r suc
h hi
gh v
olta
ge a
fter
the
wor
k.3
.Do
not s
ubst
itute
a p
ictu
re tu
be w
ith u
naut
hori
zed
type
s an
d/or
bra
nds
whi
chm
ay c
ause
exc
ess
X-ra
y ra
diat
ion.
BE
FO
RE
R
ET
UR
NIN
G
TH
E
RE
CE
IVE
RB
efor
e re
turn
ing
the
rece
iver
to th
e us
er, p
erfo
rm th
e fo
llow
ing
safe
ty C
heck
s.1
.Ins
pect
all
lea
d dr
ess
to m
ake
cert
ain
that
lea
ds a
re n
ot p
inch
ed o
r th
atha
rdw
are
is n
ot lo
dged
bet
wee
n th
e ch
assi
s an
d ot
her
met
al p
arts
in th
ere
ceiv
er.
2.I
nspe
ct a
ll p
rote
ctiv
e de
vice
s su
ch a
s no
n-m
etal
lic
cont
rol k
nobs
, ins
ulat
-in
g fi
shpa
pers
cabi
net b
acks
, adj
ustm
ent a
nd co
mpa
rtm
ent c
over
s or s
hiel
ds,
isol
atio
n re
sist
or-c
apac
ity
netw
orks
, mec
hani
cal i
nsul
ator
s et
c.
SP
EC
IFIC
AT
ION
S
Sp
ec
ific
ati
on
s
are
s
ub
jec
t to
ch
an
ge
w
ith
ou
t p
rio
r n
oti
ce
Co
nve
rge
nce
....
....
....
....
....
....
....
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....
....
....
....
....
....
....
....
..S
elf
Co
nve
rge
nce
Sys
tem
Fo
cus.
....
....
....
....
....
....
....
....
....
....
....
....
....
....
Bi-
Po
ten
tial,
Un
i-P
ote
ntia
l Ele
ctro
sta
ticS
we
ep
De
flect
ion
....
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...M
ag
ne
tic
Inte
rme
dia
te F
req
ue
nci
es
Pic
ture
IF
Ca
rrie
r...
....
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....
38
.9M
Hz
So
un
d I
F C
arr
ier
Fre
qu
en
cy6
.5M
Hz.
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
..3
2.4
MH
z6
.0M
Hz.
....
....
....
....
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....
....
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..3
2.9
MH
z5
.5M
Hz.
....
....
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....
....
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....
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....
..3
3.4
MH
z4
.5M
Hz.
....
....
....
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....
....
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....
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..3
4.4
MH
zC
olo
ur
Su
b-C
arr
ier
Fre
qu
en
cyP
AL
....
....
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....
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....
....
....
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..3
4.4
7M
Hz
NT
SC
....
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...3
5.3
2M
Hz
Po
we
r In
pu
t...
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
...1
10
~ 2
40
V A
C 5
0/6
0 H
zP
ow
er
Co
nsu
mp
tion
....
....
....
....
....
....
....
....
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....
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....
..1
55
W
Au
dio
Po
we
r O
utp
ut
Ra
ting
12
.5W
X 2
(a
t M
ax.
)
Sp
ea
ker
Siz
e F
RO
NT
....
....
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....
6 x
12
cm
(2
pcs
.)
Ae
ria
l In
pu
t Im
pe
da
nce
VH
F/U
HF.
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
...7
5 o
hm
s U
nb
ala
nce
dR
ece
ivin
g C
ha
nn
el
PA
L-B
/GV
HF
-Ch
an
ne
ls..
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
.E2
th
ru E
12
UH
F-C
ha
nn
els
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
..E
21
thru
E6
9C
AT
V..
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
...X
th
ru Z
+2
, S
1 t
hru
S4
1S
EC
AM
-B/G
VH
F-C
ha
nn
els
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
...E
2 t
hru
E1
2U
HF
-Ch
an
ne
ls..
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
...E
21
th
ru E
69
CA
TV
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
...X
th
ru Z
+ 2
, S
1 t
hru
S4
1P
AL
-D/K
, S
EC
AM
-D/K
VH
F-C
ha
nn
els
....
....
....
....
....
....
....
....
....
....
....
....
....
....
.R1
th
ru R
12
, C
1 t
hru
C1
2U
HF
-Ch
an
ne
ls..
....
....
....
....
....
....
....
....
....
....
....
....
....
....
21
th
ru 6
9,
C2
1 t
hru
C5
7P
AL
-I,
SE
CA
M-I
VH
F-C
ha
nn
els
....
....
....
....
....
....
....
....
....
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....
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....
....
...(
IRE
LA
ND
) B
th
ru J
UH
F-C
ha
nn
els
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
...(
U.K
.&H
.K.)
21
th
ru 6
9N
TS
C-M
VH
F-C
ha
nn
els
....
....
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....
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....
....
....
....
2 t
hru
13
(US
)1
th
ru 1
2 (
Jap
an
)U
HF
-Ch
an
ne
ls..
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
.14
th
ru 6
9(U
S)
13
th
ru 6
2 (
Jap
an
)C
AT
V..
....
....
....
....
....
....
....
....
....
....
....
....
....
....
....
.A
-6 t
hru
A-1
, A t
hru
W+
29
(US
)C
12
th
ru C
63
(Ja
pa
n)
Re
ceiv
ing
Fre
qu
en
cyV
HF.
....
....
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44
.25
MH
z th
ru 4
23
.25
MH
zU
HF.
....
....
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....
....
....
....
....
....
....
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....
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....
..4
31
.25
MH
z th
ru 8
63
.25
MH
zD
ime
nsi
on
s ..
....
....
....
....
....
....
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....
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...
Wid
th:
61
8m
mH
eig
ht:
47
3m
mD
ep
th:
48
1m
mW
eig
ht(
ap
pro
x):4
2 k
g
FR
ON
T .
....
....
....
....
....
....
....
....
....
....
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....
....
....
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....
.
3
3-1
3-2
AD
JU
ST
ME
NT
P
RE
CA
UT
ION
S
Th
is m
od
el's
se
ttin
g a
re a
dju
ste
d i
n t
wo
dif f
ere
nt
wa
ys:
thro
ug
h t
he
I2
C b
us
co
ntr
ol a
nd
in t
he
co
nve
ntio
na
l a
na
log
ma
nn
er .
Th
e a
dju
stm
en
ts v
ia th
e I2
C b
us
con
tro
l in
clu
de
pre
set-
on
ly it
em
s a
nd
va
ria
ble
da
ta.
1.
Se
ttin
g
the
s
erv
ice
m
od
e
by
th
e
mic
rop
roc
es
so
r.
1 P
ress
an
d h
old
th
e lo
cal k
ey
"VO
L D
OW
N"
& "
CH
UP
" w
he
n p
ow
er
on
th
e m
ain
switc
h,T
V w
ill e
nte
r in
to t
he
SE
RV
ICE
MO
DE
.2
Pre
ss t
he
CH
DO
WN
/ U
P k
ey
on
th
e r
em
ote
co
ntr
olle
r to
ge
t re
ad
y to
se
lect
th
em
od
e o
ne
by
on
e.
3P
ress
th
e C
H D
OW
N /
UP
ke
y o
n t
he
re
mo
te c
on
tro
ller
to s
ele
ct t
he
mo
de
sre
vers
ibly
on
e b
y o
ne
.4
Usi
ng
th
e V
OL
UM
E U
P/
DO
WN
ke
y o
n t
he
re
mo
te c
on
tro
ller ,
th
e d
ata
ca
n b
e m
od
i-fie
d.
5U
se t
he
ME
NU
Ke
y o
n t
he
re
mo
te c
on
tro
ller
to s
ele
ct t
he
mo
de
as
sho
wn
in t
he
ne
xt p
ag
e.
6W
he
n p
ress
th
e lo
cal k
ey
"VO
L D
OW
N"
& "
CH
UP
" a
t th
e s
am
e t
ime
, it
will
be
rele
ase
d f
rom
th
e s
erv
ice
mo
de
.
2.
Fa
cto
ry
Pre
se
ttin
g.
1A
fte
r e
nte
r in
to t
he
SE
RV
ICE
MO
DE
, ch
an
ge
da
ta "
INIT
EE
PR
OM
" fr
om
0 -
-->
1(w
hic
h is
un
de
r "C
HE
CK
MO
DE
" se
ctio
n)
an
d t
he
n s
witc
h o
f f th
e m
ain
po
we
r , t
he
initi
al v
alu
es
are
au
tom
atic
ally
pre
set
(on
ly w
he
n a
ne
w E
EP
RO
M is
use
d).
2T
he
initi
al d
ata
are
pre
set
as
liste
d
in p
ag
e 4
to
11
.3
Ma
ke s
ure
wh
eth
er
the
da
ta n
ee
d t
o m
od
ify o
r n
ot
(In
itia
l da
ta).
No
te:
Onc
e th
e ch
assi
s ha
s be
en
asse
mbl
y to
geth
er
and
in
read
y co
nditi
on,
plea
se
mak
e su
re
it's
goth
roug
h in
itial
ize
proc
ess
(see
se
ct
2-(1
) ab
ove)
Pre
ca
uti
on
: If
h
av
en
't
do
ne
th
is
init
iali
zati
on
, m
alf
un
cti
on
m
igh
t b
e
ha
pp
en
.
SE
RV
ICE
M
OD
E
(1)
In
th
e S
erv
ice
Mo
de
, K
ey
is u
sed
to
se
lect
th
e m
od
e in
th
e f
ollo
win
g o
rde
r .
4
4-1
4-2
SR
EC
/SR
AC
/SY
I/S
TT
MS
RE
C-S
CA
(S
KD
)R
/C C
OD
EM
CL
1 (
R/C
CO
DE
11
7h
)M
CL
2 (
R/C
CO
DE
16
9h
)T
V-C
H.
CH
-No
.F
v (M
Hz)
S-S
YS
TE
MC
H-N
o.
Fv
(MH
z)S
-SY
ST
EM
0S
KIP
OF
F F
RE
E5
90
.25
5.5
B/G
1E
-24
8.2
55
.5B
/GA
U-0
46
.25
5.5
B/G
2E
-4/B
-36
2.2
55
.5B
/GA
U-2
64
.25
5.5
B/G
3O
IR-3
77
.25
6.5
D/K
AU
-38
6.2
55
.5B
/G4
E-5
17
5.2
55
.5B
/GA
U-4
95
.25
5.5
B/G
5E
-6/B
-51
82
.25
5.5
B/G
AU
-5A
13
8.2
55
.5B
/G6
OIR
-71
83
.25
6.5
D/K
AU
-61
75
.25
5.5
B/G
7O
IR-8
19
1.2
56
.5D
/KA
U-7
18
2.2
55
.5B
/G8
E-8
/B-7
19
6.2
55
.5B
/GA
U-8
18
9.2
55
.5B
/G9
J-9
19
9.2
54
.5M
AU
-91
96
.25
5.5
B/G
10
E-1
0/B
-92
10
.25
5.5
B/G
AU
-10
20
9.2
55
.5B
/G11
E-1
2/B
-12
24
.25
5.5
B/G
AU
-11
21
6.2
55
.5B
/G1
2E
-21
47
1.2
55
.5B
/GS
KIP
OF
F F
RE
E1
3I-
23
48
7.2
56
.0I
SK
IP O
FF
FR
EE
14
E-2
55
03
.25
5.5
B/G
SK
IP O
FF
FR
EE
15
E-3
45
75
.25
5.5
B/G
SK
IP O
FF
FR
EE
16
E-3
55
83
.25
5.5
B/G
SK
IP O
FF
FR
EE
17
E-3
75
99
.25
5.5
B/G
SK
IP O
FF
FR
EE
18
J-3
86
21
.25
4.5
MS
KIP
OF
F F
RE
E1
9O
IR-4
26
39
.25
6.5
D/K
SK
IP O
FF
FR
EE
20
B-5
07
03
.25
5.5
B/G
SK
IP O
FF
FR
EE
21
I-5
47
35
.25
6.0
IS
KIP
OF
F F
RE
E2
2E
-58
76
7.2
55
.5B
/GS
KIP
OF
F F
RE
E2
3E
-64
81
5.2
55
.5B
/GS
KIP
OF
F F
RE
E2
4I-
69
85
5.2
56
.0I
SK
IP O
FF
FR
EE
25
E-6
98
55
.25
5.5
B/G
SK
IP O
FF
FR
EE
26
US
-25
5.2
54
.5M
SK
IP O
FF
FR
EE
27
A-6
83
.25
4.5
MS
KIP
OF
F F
RE
E2
8JA
-61
83
.25
4.5
MW
E-2
85
27
.25
5.5
B/G
29
JA-8
19
3.2
54
.5M
SK
IP O
FF
FR
EE
30
JA-1
22
17
.25
4.5
MS
KIP
OF
F F
RE
E3
1U
S-1
44
71
.25
4.5
MS
KIP
OF
F F
RE
E3
2JA
-14
47
7.2
54
.5M
SK
IP O
FF
FR
EE
33
JA-5
06
93
.25
4.5
MS
KIP
OF
F F
RE
E3
4U
S-8
38
85
.25
4.5
MS
KIP
OF
F F
RE
E3
5S
-211
2.2
55
.5B
/GS
KIP
OF
F F
RE
E3
6S
-10
16
8.2
55
.5B
/GS
KIP
OF
F F
RE
E3
7S
KIP
OF
F F
RE
E5
90
.25
5.5
B/G
38
S-2
02
94
.25
5.5
B/G
SK
IP O
FF
FR
EE
39
S-4
14
63
.25
5.5
B/G
SK
IP O
FF
FR
EE
40
SK
IP O
FF
FR
EE
SK
IP O
FF
FR
EE
41
B-4
36
47
.25
5.5
B/G
E-2
48
.25
5.5
B/G
42
B-4
56
63
.25
5.5
B/G
WE
-46
2.2
55
.5B
/G4
3B
-47
67
9.2
55
.5B
/GO
I-3
77
.25
6.5
D/K
44
E-5
17
4.9
55
.5B
/GE
-51
75
.25
5.5
B/G
45
E-5
17
5.5
55
.5B
/GO
IR-7
18
3.2
56
.5D
/K4
6S
KIP
OF
F F
RE
EO
IR-8
19
1.2
56
.5D
/K4
7S
KIP
OF
F F
RE
EE
-10
21
0.2
55
.5B
/G4
8S
KIP
OF
F F
RE
EE
-12
22
4.2
55
.5B
/G4
9S
KIP
OF
F F
RE
EI-
23
48
7.2
56
.0I
50
SK
IP O
FF
FR
EE
WE
-25
50
3.2
55
.5B
/G5
1S
KIP
OF
F F
RE
EE
-34
57
5.2
55
.5B
/G
INIT
IAL
S
ET
TIN
G(1
) E
xecu
te M
CL
1/2
ke
y to
se
t th
e f
ollo
win
g d
ata
in E
EP
RO
M.
5
5-1
5-2
SR
EC
/SR
AC
/SY
I/S
TT
MS
RE
C-S
CA
(S
KD
)R
/C C
OD
EM
CL
1 (
R/C
CO
DE
11
7h
)M
CL
2 (
R/C
CO
DE
16
9h
)T
V-C
H.
CH
-No
.F
v (M
Hz)
S-S
YS
TE
MC
H-N
o.
Fv
(MH
z)S
-SY
ST
EM
52
SK
IP O
FF
FR
EE
E-3
75
99
.25
5.5
B/G
53
SK
IP O
FF
FR
EE
JPN
-38
62
1.2
54
.5M
54
SK
IP O
FF
FR
EE
OI-
42
63
9.2
56
.5D
/K5
5S
KIP
OF
F F
RE
EI-
54
73
5.2
56
.0I
56
SK
IP O
FF
FR
EE
E-5
87
67
.25
5.5
B/G
57
SK
IP O
FF
FR
EE
WE
-64
81
5.2
55
.5B
/G5
8S
KIP
OF
F F
RE
EI-
69
85
5.2
56
.0I
59
SK
IP O
FF
FR
EE
JA-1
91
.25
4.5
M6
0S
KIP
OF
F F
RE
EJA
-61
83
.25
4.5
M6
1S
KIP
OF
F F
RE
EJA
-81
93
.25
4.5
M6
2S
KIP
OF
F F
RE
EJA
-12
21
7.2
54
.5M
63
SK
IP O
FF
FR
EE
US
-14
47
1.2
54
.5M
64
SK
IP O
FF
FR
EE
JA-5
06
93
.25
4.5
M6
5S
KIP
OF
F F
RE
ES
-211
2.2
55
.5B
/G6
6S
KIP
OF
F F
RE
ES
-10
16
8.2
55
.5B
/G6
7S
KIP
OF
F F
RE
ES
-20
29
4.2
55
.5B
/G6
8S
KIP
OF
F F
RE
ES
-41
46
3.2
55
.5B
/G6
9S
KIP
OF
F F
RE
EE
-51
74
.95
5.5
B/G
70
SK
IP O
FF
FR
EE
E-5
17
5.5
55
.5B
/G
99
SK
IP O
FF
FR
EE
SK
IP O
FF
FR
EE
~
~
~
ITE
MS
DE
FA
UL T
SE
TT
ING
SE
QU
AL
IZE
R m
en
uM
OD
EM
OV
IEF
EA
TU
RE
me
nu
BL
UE
BA
CK
OF
FA
UT
O S
EL
EC
TO
NP
OW
ER
SA
VE
OF
F1
6:9
MO
DE
OF
FD
EM
OO
FF
CH
ILD
LO
CK
me
nu
LO
CK
TV
OF
FL
OC
K S
T AT
US
OF
FP
AS
SW
OR
D0
00
0T
IME
R m
en
uC
LO
CK
_ _
:_ _
AM
DA
YS
UN
ON
TIM
ER
_ _
:_ _
AM
ST A
TU
SO
NC
EP
OS
ITIO
N_
_V
OL
UM
E_
_O
FF
TIM
ER
_ _
:_ _
AM
RE
MIN
DE
R_
_:_
_B
EE
P R
EM
IND
ER
OF
FV
IEW
TIM
ER
me
nu
VIE
WIN
G T
IME
_ _
:_ _
LO
CK
OF
FP
AS
SW
OR
D0
00
0C
H S
ET
TIN
G m
en
uP
OS
ITIO
N N
AM
EB
LA
NK
(F
or
all
po
sitio
n)
CO
LO
UR
All
Pro
gra
ms
AU
TO
SO
UN
DA
ll P
rog
ram
s A
UT
OS
KIP
All
Pro
gra
ms
OF
FM
ES
SA
GE
me
nu
DIS
PL
AY
MA
SS
AG
EO
FF
SH
IPP
ING
S
ET
TIN
G
&
CH
EC
KIN
G
ITE
MS
DE
FA
ULT
SE
TT
ING
SG
EN
ER
AL
La
st p
ow
er
ON
La
st T
V/A
V m
od
eT
V m
od
eL
ast
po
sitio
n-T
VP
rog
ram
1F
lash
ba
ck P
rog
ram
-TV
Pro
gra
m 1
Fa
vori
te P
rog
ram
AP
rog
ram
10
Fa
vori
te P
rog
ram
BP
rog
ram
20
Fa
vori
te P
rog
ram
CP
rog
ram
30
Fa
vori
te P
rog
ram
DP
rog
ram
40
1 /
2 d
igit
en
try
2 d
igit
en
try
Vo
lum
e0
AF
TA
ll P
rog
ram
s O
NN
ICA
M S
TE
RE
O m
od
eA
ll P
rog
ram
s S
TE
RE
ON
ICA
M B
ILIN
GU
AL
mod
eA
ll P
rog
ram
s M
1N
ICA
M M
ON
O m
od
eA
ll P
rog
ram
s M
ON
OA
2 S
TE
RE
O m
od
eA
ll P
rog
ram
s S
TE
RE
OA
2 B
ILIN
GU
AL
mo
de
All
Pro
gra
ms
MA
INP
ICT
UR
E m
en
uV
IDE
O M
OD
ED
YN
AM
ICC
ON
TR
AS
T6
0C
OL
OU
R+
6B
RIG
HN
ES
S0
TIN
T0
SH
AR
PN
ES
S+
6P
ICT
UR
E N
RO
FF
WH
ITE
TE
MP
0 (
CE
NT
ER
)S
OU
ND
me
nu
SU
RR
OU
ND
OF
FB
BE
ON
BA
LA
NC
E0
AV
LO
NS
UP
ER
BA
SS
/BA
SS
+O
N
(1)
Th
e f
ollo
win
g d
efa
ult
da
ta h
as
be
en
fa
cto
ry-s
et
for
the
E2
PR
OM
.
Mo
de
l-S
et:
Th
e d
ata
in t
ab
le b
elo
w (
1.1
), M
od
el s
et
ove
rvie
w is
up
da
ted
to
th
e r
esp
ect
ive
EE
PR
OM
loca
tion
ba
se o
n R
C k
ey
inp
ut
Mo
de
l Se
t 1
~9
.
MO
DE
L-S
ET
KE
YO
SD
LA
NG
UA
GE
SO
UN
D S
YS
TE
M3
(AU
TO
)E
ng
lish
No
te :
Th
e C
HIL
D L
OC
K P
AS
SW
OR
D a
nd
VIE
W T
IME
RP
AS
SW
OR
D a
re c
om
mo
n u
se.
Re
fer
to n
ext
pa
ge
fo
r se
ttin
g o
f e
ach
de
stin
atio
n.
MA
SS
AG
E S
CR
EE
NB
LA
CK
MO
DE
DY
NA
MIC
STA
ND
AR
DS
OF
TC
ON
TR
AS
T6
06
05
0C
OL
OR
+6
+1
-5B
RIG
HT
00
0T
INT
00
0S
HA
RP
NE
SS
+6
1-4
PE
ICT
UR
E N
RO
FF
OF
FO
FF
WH
ITE
TE
MP
0 (
cen
ter)
0 (
cen
ter)
0 (
cen
ter)
Tab
le 2
.1
(2)
Re
fer
to b
elo
w t
ab
le (
2-2
) fo
r N
OR
MA
L se
ttin
g o
f e
ach
AV
mo
de
.
6
6-1
6-2
OP
TIO
N M
OD
E M
EN
U
ITE
MS
ER
VIC
E
MO
DE
EE
PR
OM
IT
EM
OS
DD
ATA
INIT
IAL
DA
TAS
ET
TIN
G
DA
TA6
5P
ictu
re T
ub
e U
sed
Typ
eT
UB
E-T
YP
E1
01
06
6P
IF F
req
ue
ncy
Se
ttin
gP
IF0
..4
21
67
So
un
d M
SN
D-M
0/1
01
68
RE
MO
VE
-PIP
-DA
CR
EMO
VE-P
IP-D
AC0
/10
06
9A
RR
OW
-EN
TE
R-K
EY
ARRO
W-E
NTER
-KEY
0/1
00
OP
TIO
N M
OD
E M
EN
U
ITE
MS
ER
VIC
E
MO
DE
EE
PR
OM
IT
EM
OS
DD
ATA
INIT
IAL
DA
TAS
ET
TIN
G
DA
TA1
Op
tion
Mo
de
Pic
ture
Tu
be
Use
d T
ype
TU
BE
-TY
PE
0/1
11
2P
IF F
req
ue
ncy
Se
ttin
gP
IF0
..7
22
3S
ou
nd
MS
ND
-M0
/10
14
So
un
d D
KS
ND
-DK
0/1
11
5S
ou
nd
IS
ND
-I0
/11
16
So
un
d B
GS
ND
-BG
0/1
11
7C
olo
ur
Sys
tem
SE
CA
MS
EC
AM
0/1
11
8C
olo
ur
Sys
tem
NT
SC
35
8N
TS
C3
58
0/1
01
9C
olo
ur
Sys
tem
NT
SC
44
3N
TS
C4
43
0/1
11
10
Ga
me
IC
GA
ME
-IC
0/1
01
11P
ictu
re I
n P
ictu
reP
IP0
/10
01
2H
ea
dp
ho
ne
HE
AD
PH
ON
E0
/11
01
3E
qu
aliz
er
EQ
UA
LIZ
ER
0/1
11
14
Su
b W
oo
fer
WO
OF
ER
0/1
10
15
BB
EB
BE
0/1
10
16
SR
SS
RS
0/1
10
17
DO
LB
YD
OL
BY
0/1
00
18
Au
dio
Co
nfig
ura
tion
AU
DIO
-CF
G0
..4
21
19
Mo
no
Bili
ng
ua
lB
ILIN
GU
AL
0/1
00
20
Ho
tel M
od
eH
OT
EL
0/1
00
21
Ho
tel V
olu
me
HT
L-V
OL
0..
60
30
30
22
Ho
tel P
rog
ram
Nu
mb
er
HT
L-P
RG
0..
99
11
23
HT
L-U
SE
-LA
ST
HT
L-U
SE
-LA
ST
0/1
11
24
OP
CO
PC
0/1
00
25
Ro
tatio
n F
un
ctio
na
lity
RO
T AT
ION
0/1
00
26
Ch
ildlo
ckC
HIL
D0
/10
12
7W
ide
Scr
ee
n S
ign
alli
ng
WS
S0
/10
02
8G
old
en
SC
AR
TG
LD
-SC
AR
T0
/10
02
9T
ha
ilan
d O
SD
La
ng
ua
ge
TH
AI
0/1
00
30
Ara
bic
OS
D L
an
gu
ag
eA
RA
BIC
0/1
10
31
Ira
nia
n O
SD
La
ng
ua
ge
IRA
NIA
N0
/10
03
2M
ala
y O
SD
La
ng
ua
ge
MA
LA
Y0
/11
03
3C
hin
ese
OS
D L
an
gu
ag
eC
HIN
ES
E0
/11
03
4F
ren
ch O
SD
La
ng
ua
ge
FR
EN
CH
0/1
10
35
Ru
ssia
n O
SD
La
ng
ua
ge
RU
SS
IAN
0..
21
03
6P
ow
er
On
La
st S
tatu
sP
W-L
AS
T0
..2
11
37
Ba
ckg
rou
nd
BA
CK
-GN
D0
/10
03
8T
un
er
2T
UN
ER
20
/11
03
9F
M R
ad
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IF
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ST
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NT
No
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djus
tmen
t po
int
Ad
jus
tme
nt
co
nd
itio
n/p
roc
ed
ure
Wa
ve
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o
r re
ma
rks
RF
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VE
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US
TM
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T(I
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B
US
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NT
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L)
11
.R
ece
ive
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AL
CO
LO
R B
AR
" si
gn
al.
Sig
na
l Str
en
gth
: 54
± 1
dB
µV
(7
5 o
hm
term
ina
tion
)
5.
Co
nn
ect
th
e o
scill
osc
op
e t
o T
P5
3 (
Tu
ne
r's A
GC
Term
ina
l) a
s sh
ow
n in
fig
ure
2-1
.
6.
Se
lect
"R
F-A
GC
" ite
m i
n t
he
Ad
just
me
nt
Mo
de
.A
dju
st t
he
"R
F-A
GC
" b
us
da
ta t
o o
bta
in t
he
Tu
ne
ro
utp
ut
pin
dro
p 0
.1V
~ 1
.0V
be
low
ma
xim
um
vo
lt-a
ge
.7
.C
ha
ng
e t
he
an
ten
na
inp
ut
sig
na
l to
63
~ 6
7d
Bµ
V,
an
d m
ake
su
re t
he
re is
no
no
ise
.8
.T
urn
up
the
inp
ut s
ign
al t
o 9
0 ~
95
dB
µB
to b
e s
ure
tha
t th
ere
is n
o c
ross
mo
du
latio
n b
ea
t.
Fig
. 2
-1
TP
53
2.
Go
in
to t
he
"R
F A
GC
" ite
m i
n t
he
Ad
just
me
nt
mo
de
.3
.P
ush
th
e R
/C a
uto
dir
ect
ke
y a
nd
ch
eck
wh
eth
er
"OK
" o
r "N
O"
OS
D w
ill a
pp
ea
r.4
.If
"O
K"
OS
D a
pp
ea
r, t
he
n f
inis
h t
he
ad
just
me
nt
at
this
po
int.
If
"NO
" a
pp
ea
r, t
he
n p
roce
ss t
on
ext
ste
p (
5).
12
12
-11
2-2
PU
RIT
Y
AD
JU
ST
ME
NT
No
.A
djus
tmen
t po
int
Ad
jus
tme
nt
co
nd
itio
ns
/pro
ce
du
reW
av
efo
rm
or
rem
ark
s
Un
ifo
rmit
yad
just
men
t (T
op
erfo
rm
afte
rth
e p
uri
ty
and
con
verg
ence
adju
stm
ent.
)
2B
efo
re a
dju
stm
en
t b
eg
in,H
ori
zon
tal
ma
gn
etic
fie
ld=
0G
Ve
rtic
al m
ag
ne
tic f
ield
= E
ach
de
stin
atio
n's
ad
just
-m
en
t m
ag
ne
tic f
ield
.M
ake
su
re t
o d
eg
au
ss it
.
(No
rth
dir
ect
ion
Re
d u
nifo
rmity
)1
.H
ori
zon
tal m
f = S
et t
o m
on
oco
lor
scre
en
re
d a
nd
ad
just
to
+0
.25
G.
2.
Pa
y a
tte
ntio
n t
o t
he
ed
ge
of
CR
T,if
the
lan
din
g is
po
or
ad
just
by
att
ach
ing
th
e t
he
co
mp
en
satio
nm
ag
ne
t a
t th
e b
ack
of
CR
T. (
refe
r to
Fig
-1)
(So
uth
dir
ect
ion
Re
d u
nifo
rmity
)1
.H
ori
zon
tal m
f = S
et t
o m
on
oco
lor
scre
en
re
d a
nd
ad
just
to
-0
.25
G.
2.
Pa
y a
tte
ntio
n to
the
ed
ge
of C
RT
,if t
he
lan
din
g is
po
or
ad
just
by
att
ach
ing
the
co
mp
en
satio
n m
ag
-n
et
at
the
ba
ck o
f C
RT.
(Th
e s
am
e m
eth
od
is
ap
plie
d f
or
ad
just
me
nt
of
mo
no
colo
r sc
ree
n b
lue
fo
r b
lue
un
ifo
rmit
y ,a
nd
cha
ng
ing
bo
th th
e m
ag
ne
tic fi
eld
for n
ort
h a
nd
so
uth
dir
ect
ion
.)
*D
uri
ng
the
pa
stin
g o
f co
mp
en
satio
n m
ag
ne
t , u
seth
e c
ross
ha
tch
pa
tte
rn .
Ma
ke s
ure
th
ere
is n
o b
lur
or
be
nd
line
s o
ccu
r .If
the
blu
r o
r b
en
d a
re s
eri
ou
s,a
dju
st th
e lo
catio
no
f co
mp
en
satio
n m
ag
ne
t to
ma
ke it
be
tte
r .
(CR
T s
urf
ace
)
(CR
T b
ack
)Mis
s la
nd
ing
Co
mp
en
satio
n m
ag
ne
t
Fig
. 1
PU
RIT
Y
AD
JU
ST
ME
NT
No
.A
djus
tmen
t po
int
Ad
jus
tme
nt
co
nd
itio
ns
/pro
ce
du
reW
av
efo
rm
or
rem
ark
s
PU
RIT
Y
AD
J.
1.
Se
lect
the
gre
en
mo
no
colo
r sc
ree
n w
ith r
em
ote
con
tolle
r, a
nd
se
t th
e b
ea
m c
urr
en
t o
f 1
.6m
Aw
ith
th
e c
on
tra
st c
on
tro
l.2
.D
eg
au
ss th
e C
RT
en
ou
gh
with
the
de
ga
usi
ng
co
il. N
OT
E:
Fo
llow
the
job
inst
ruct
ion
ma
nu
al t
o a
d-
just
th
e m
ag
ne
tic f
ield
.3
.T
he
pu
rity
ma
gn
et
mu
st b
e p
revi
ou
sly
set
at
the
0 m
ag
ne
tic f
ield
, a
nd
th
e c
on
verg
en
ce m
ust
be
ad
just
ed
to
be
ro
ug
h.
With
P-M
AG
, a
dju
st it
to
th
e c
en
ter
- ra
nk
A.
4.
Ob
serv
e t
he
po
ints
a,b
, a
s sh
ow
n i
n F
ig.1
-1th
rou
gh
th
e m
icro
sco
pe
. M
ove
DY
fo
re a
nd
aft
to
se
t th
e l
an
din
g a
t th
ep
oin
t (R
an
k A
).5
.If
th
e a
/b b
ala
nce
is
po
or ,
co
mp
en
sate
it
to t
he
cen
ter
"Ra
nk
AB
".6
.A
line
it t
o z
ero
, ke
ep
ing
th
e r
ast
er
rota
tion
in t
he
ea
st d
ire
ctio
n.
7.
Tig
hte
n t
he
de
flect
ion
co
il fa
ste
nin
g s
cre
ws.
» T
igh
ten
ing
to
rqu
e :
10
8N
± 2
0N
(1 1
Kg
f ±
2K
gf)
8.
Ch
eck
ing
th
e C
RT
co
rne
r a
rea
, b
on
d t
he
ma
g-
ne
tic s
he
et
to s
et
the
la
nd
ing
at
ran
k A
fo
r co
m-
pe
nsa
tion
.
No
te:
Ap
ply
th
e ad
just
men
t af
ter
agin
g
wit
hth
e b
eam
cu
rren
t 17
00 ±
50
µA
o
r m
ore
for
30
min
ute
s o
r m
ore
.N
ote
:S
elec
t th
e se
rvic
e m
od
e,
and
p
ress
th
em
on
oco
lor
key
of
R/C
fo
r p
roce
ss,
and
the
mo
no
colo
r sc
reen
(g
reen
) w
ill
be
sele
cted
.
1
ab
A BA
90
mm
90
mm
B
A =
B
A =
B
Fig
.1-1
Fig
. 1
-2R
an
k "A
"(o
n t
he
rig
ht
of
the
CR
T)
Fig
. 1
-3R
an
k "A
"(o
n t
he
left
of
the
CR
T)
*C
on
tinu
osl
y p
ress
th
e m
on
o-
colo
ur
key
1 s
eco
nd
or
mo
re,
an
d t
he
mo
no
colo
ur
mo
de
will
be
se
lect
ed
with
ou
t th
e s
erv
ice
mo
de
.
*Eve
n w
ith T
EX
T k
ey
or
"R/G
/B"
key,
it c
an
be
dir
ect
ly s
witc
he
d t
oe
ach
mo
no
colo
r sc
ree
n.
Mo
no
colo
ur
scre
en
re
lea
se
Mo
no
colo
ur
GR
EE
Nsc
ree
n
Mo
no
colo
ur
BL
UE
scre
en
Mo
no
colo
ur
RE
Dsc
ree
n
*A
dju
stm
en
t fo
r u
nifo
rmity
is
cha
ng
e t
o a
no
the
rco
nte
nt.
Ple
ase
re
fer
to t
he
fo
llow
ing
pa
ge
.
*E
very
pu
sh o
f th
e m
on
oco
lou
r ke
y ch
an
ge
s th
esc
ree
n a
s fo
llow
s.
13
13
-11
3-2
BR
RB
BR
RB
B
X a
xis
Y a
xis
CO
NV
ER
GE
NC
E A
DJ
US
TM
EN
TN
o.
Adj
ustm
ent
poin
tA
dju
stm
en
t c
on
dit
ion
s/p
roc
ed
ure
Wa
ve
form
o
r re
ma
rks
CO
NV
ER
GE
NC
AD
J.(
To
be
done
afte
r th
e pu
rity
adju
stm
ent.)
1.
Re
ceiv
e t
he
" C
ross
ha
tch
Pa
tte
rn"
sig
na
l.2
.U
sin
g th
e r
em
ote
co
ntr
olle
r , c
all
NO
RM
AL
mo
de
.
( S
tati
c
co
nv
erg
en
ce
)
1.
Ove
rla
p b
lue
an
d r
ed
with
th
e o
pe
n-/
clo
sin
g a
n-
gle
an
d r
ota
tion
of
the
4 p
ole
m
ag
ne
t.2
.O
verl
ap
gre
en
on
blu
e a
nd
re
d w
ith t
he
op
en
-/cl
osi
ng
an
gle
an
d r
ota
tion
of
the
6 p
ole
ma
gn
et.
( D
yn
am
ic
co
nv
erg
en
ce
)
1.
Fix
the
we
dg
es
in a
po
sitio
n s
o th
at t
he
de
flect
ion
york
ne
ck i
s a
t th
e c
en
ter
of
top
bo
tto
m a
nd
le
ftri
gh
t. (
Str
aig
ht l
ine
an
d w
itho
ut a
ny
blu
r h
ori
zon
-ta
l / v
ert
ica
l lin
e).
2.
Ad
just
the
Re
d, B
lue
, up
pe
r a
nd
low
er
of t
he
ce
n-
tre
y a
xis
on
the
scr
ee
n b
y u
sin
g th
e V
olu
me
(VR
2,
VR
1)a
t th
e d
efle
ctio
n y
ork
.(R
efe
r to
fig
.1 a
nd
fig
.2)
3.
If t
he
Ho
rizo
nta
l R
ed
, B
lue
(XV
) o
n t
he
scr
ee
nce
ntr
e X
axi
sis
shift
ed
, co
rre
ct th
e R
ed
, Blu
e (X
V)
by
ad
just
ing
th
e b
ala
nce
co
il o
n t
he
de
flect
ion
york
. (R
efe
r to
Fig
. 3
)4
.A
fte
r co
nfir
m t
ha
t th
ere
is
no
pro
ble
ms
on
th
ee
ntir
e s
cre
en
,b
on
d e
ach
we
dg
e o
n C
RT
an
dg
lass
tap
e o
n it
. Fa
ste
nin
g th
e s
cre
ws
of D
Y a
nd
ma
gn
et
un
it (
pu
rity
, 4
- p
ole
an
d 6
po
le )
, th
en
coa
t th
e la
cqu
er
pa
int o
n D
Y fa
ste
nin
g s
cre
w a
nd
ma
gn
et
un
it fa
ste
nin
g s
cre
w.
No
te:
In c
ase
of
po
or
con
verg
en
ce a
dju
stm
en
t o
n t
he
top
an
d b
ott
om
an
d o
f th
e s
cre
en
, a
dju
st D
Y b
ysw
ing
rig
htw
ard
an
d le
ftw
ard
.(R
efe
r to
Fig
-4)
1
Fig
. 1
Ad
just
by
VR
1
Fig
. 2
Ad
just
by
VR
2
Fig
. 3
Ad
just
by
Ba
lan
ce C
oil
CR
T N
EC
K
La
cqu
er
Pu
rity
Ma
gn
et 4
-Po
le M
ag
ne
t
6-P
ole
Ma
gn
et.
25
mm
± 0
.5m
m
VR
2
VR
1
Ba
lan
ce C
oil
Fig
. 4
Ad
just
by
Sw
ing
DY
FO
CU
S
AD
JU
ST
ME
NT
No
.A
djus
tmen
t po
int
Ad
jus
tme
nt
co
nd
itio
ns
/pro
ce
du
reW
av
efo
rm
or
rem
ark
s
FO
CU
SA
DJ
US
TM
EN
T1
.R
ece
ive
E-5
CH
(M
on
osc
op
pa
tte
rn).
2.
With
th
e r
em
ote
co
ntr
olle
r , m
ake
th
e im
ag
e n
or-
ma
l.3
.A
dju
st t
he
fo
cus
VR
to
ma
ke t
he
ch
ara
cte
r"5
75
"o
n le
ft b
ott
om
of m
on
osc
op
e a
s fin
e a
s p
oss
ible
.
1
14
14
-11
4-2
CU
T-O
FF,
BA
CK
GR
OU
ND
AN
D
SU
B-C
ON
TRA
ST A
DJU
STM
EN
TN
o.
Adj
ustm
ent
poin
tA
dju
stm
en
t c
on
dit
ion
s/p
roc
ed
ure
Wa
ve
form
o
r re
ma
rks
SU
B-B
RIG
HT
-N
ES
SA
DJ
US
ME
NT
(I2C
B
US
CO
NT
RO
L)
(DV
D
SIG
NA
L)
1.
Se
lect
DV
D m
od
e.
2.
Re
ceiv
e t
he
sig
na
l of
the
DV
D s
ign
al g
en
era
tor
.(
Co
mp
on
en
t si
gn
al)
(
Win
do
w P
att
ern
)3
.M
ake
th
e im
ag
e n
orm
al w
ith t
he
re
mo
te c
on
tro
l-le
r.4
.S
ele
ct th
e S
UB
-BR
IGH
T a
dju
stm
en
t mo
de
(DV
D)
, a
nd
ad
just
th
e r
igh
t d
ark
wh
ite a
rea
of
the
win
-d
ow
pa
tte
rn t
o 3
.0 c
d ±
0.5
cd o
f th
e w
ind
ow
pa
t-te
rn.
5
WH
ITE
B
AL
-A
NC
E
BA
CK
-G
RO
UN
D
I2C
B
US
AD
JU
ST
ME
NT
(DV
D
SIG
NA
L)
1.
Th
e w
ind
ow
pa
tte
rn is
re
ceiv
ed
with
DV
D s
ign
al (
com
po
ne
nt
sig
na
l).
2.
With
th
e d
ata
of
DR
I-G
S-D
VD
an
d D
RI-
BS
-DV
D,
ad
just
th
e c
olo
r te
mp
era
ture
of
the
50
% w
hite
.
3.
Ad
just
th
e r
igh
t d
ark
are
a o
f th
e w
ind
ow
to
12
30
00
K w
ith C
UT
-RS
-DV
D &
CU
T-G
S-D
VD
.G
o b
ack
to
50
% w
hite
are
a t
o c
he
ck c
olo
r te
mp
e-
ra
ture
, if
ou
t o
f ra
ng
e,
ple
ase
go
ba
ck t
o s
tep
(2
).
3
SU
B-B
RIG
HT
-N
ES
SA
DJ
US
ME
NT
(I2C
B
US
CO
NT
RO
L)
(AV
-IN
SIG
NA
L)
1.
Re
ceiv
e t
he
win
do
w p
att
ern
with
AV
inp
ut.
2.
Ma
ke t
he
ima
ge
no
rma
l with
th
e r
em
ote
co
ntr
ol-
ler.
3.
Se
lect
th
e s
ub
- b
rig
ht
ad
just
me
nt
mo
de
with
th
ere
mo
te c
on
tro
ller ,
an
d a
dju
st th
e r
igh
t da
rk w
hite
are
a o
f th
e w
ind
ow
pa
tte
rn t
o 3
.0 c
d ±
0.5
cd.
4
SU
B-C
ON
-T
RA
ST
I2C
B
US
AD
JU
SM
EN
T(A
V-IN
S
IGN
AL
)
1.
Re
ceiv
e t
he
win
do
w p
att
ern
with
AV
inp
ut.
2.
Ma
ke t
he
ima
ge
no
rma
l with
th
e r
em
ote
co
ntr
ol-
ler.
3.
Se
lect
th
e S
UB
-CO
NT
RA
ST
ad
just
me
nt
mo
de
with
the
re
mo
te c
on
tro
ller ,
an
d a
dju
st 5
0%
wh
iteto
13
0 ±
10
cd.
No
te :
Ma
ke s
ure
th
e T
V s
et
alr
ea
dy
in t
he
RF
re
-ce
ivin
g s
tate
be
fore
ch
an
gin
g to
AV
mo
de
to c
on
-tin
ue
with
th
is a
dju
stm
en
t.(n
o P
OW
ER
OF
F fr
om
the
pre
vio
us
ad
just
me
nt.
)
6
SU
B-C
ON
-T
RA
ST
I2C
B
US
AD
JU
SM
EN
T(D
VD
S
IGN
AL
)
1.
Se
lect
th
e D
VD
mo
de
.2
.R
ece
ive
th
e s
ign
al o
f th
e D
VD
sig
na
l ge
ne
rato
r . (
Co
mp
on
en
t si
gn
al)
(W
ind
ow
Pa
tte
rn)
3.
Se
lect
th
e S
UB
-CO
NT
RA
ST
ad
just
me
nt
mo
de
(DV
D)
with
the
re
mo
te c
on
tro
ller ,
an
d a
dju
st 5
0%
wh
ite t
o 1
30
± 1
0cd
.N
ote
: M
ake
su
re t
he
TV
se
t a
lre
ad
y in
th
e R
F r
e-
ceiv
ing
sta
te b
efo
re c
ha
ng
ing
to A
V m
od
e to
co
n-
tinu
e w
ith t
his
ad
just
me
nt.
(no
PO
WE
R O
FF
fro
m th
e p
revi
ou
s a
dju
stm
en
t.)
7
50
% w
hite
Da
rk w
hite
No
te 1
:U
se "
Y"
of
Min
olta
co
lor
an
aly
zer
CA
-10
0 in
ad
just
me
nt.
No
te 2
:U
se th
e w
ind
ow
pa
tte
rn o
f th
e s
ig-
na
l.
ge
ne
rato
r S
X-1
00
6 f
or
ad
just
me
nt.
CU
T -O
FF,
BA
CK
GR
OU
ND
AN
D
SU
B-C
ON
TRA
ST A
DJU
STM
EN
TN
o.
Adj
ustm
ent
poin
tA
dju
stm
en
t c
on
dit
ion
s/p
roc
ed
ure
Wa
ve
form
o
r re
ma
rks
CR
T
CU
T OF
FA
DJ
US
TM
EN
T(I
2C
B
US
CO
NT
RO
L)
No
te
:1.
B
efo
re
CR
T
cuto
ff
adju
stm
ent,
m
ake
sure
fo
l-lo
win
g
item
s ar
e in
IN
ITIA
L D
ATA
.a
) A
06
3
CU
T-R
S
=
32
b)
A0
64
C
UT
-GS
=
3
2c
) A
1 14
C
UT
O
FF
=
6
1.
Sw
itch
TV
to v
ide
o m
od
e ,
blu
e b
ack
of f
, w
ith n
ovi
de
o s
ign
al
an
d P
ress
R/C
to
se
t p
ictu
re i
nto
no
rma
l co
nd
itio
n.
2.
Go
to s
erv
ice
mo
de
at a
dju
stm
en
t mo
de
ite
m A
115
(VG
2).
3.
Ad
just
scr
ee
n v
olta
ge
un
til r
etr
ace
lin
e a
pp
ea
r ,th
e fo
llow
ing
OS
D w
ill a
pp
ea
r at b
ott
om
of s
cre
en
.U
NS
TA
BL
EO
UT
AB
OV
E4
.F
ina
lly ,
slo
wly
de
cre
ase
th
e s
cre
en
va
ria
ble
re
-si
sto
r u
ntil
fo
llow
ing
OS
D a
pp
ea
r .S
TA
BL
EIN A
BO
VE
/ B
EL
OW
**
Th
e l
ast
OS
D r
ow
is
the
in
dic
atio
n o
f th
e s
cre
en
volta
ge
va
lue
. If
it
sho
w "
BE
LO
W",
p
lea
se i
n-
cre
ase
th
e s
cre
en
vo
ltag
e a
nd
vic
e v
ers
a u
ntil
"STA
BL
E"
AN
D "
IN"
OS
D a
pp
ea
r .N
ote
:N
o m
att
er
the
ind
ica
tion
of
last
ro
w's
OS
D is
ind
ica
te "
AB
OV
E"
or
"BE
LO
W",
th
e i
mp
ort
an
tth
ing
is O
SD
ch
an
ge
to
"S
T AB
LE
" a
nd
"IN
".
1
WH
ITE
B
AL
-A
NC
E
BA
CK
-G
RO
UN
D
I2C
B
US
AD
JU
ST
ME
NT
(AV
-IN
SIG
NA
L)
1.
Re
ceiv
e t
he
inte
rna
l RF
mo
no
sco
pe
pa
tte
rn.
2.
Ma
ke th
e p
ictu
re n
orm
al w
ith th
e re
mo
te c
on
tro
ller .
3.
Co
nn
ect
the
be
am
am
me
ter
be
twe
en
term
ina
l of
R6
23
.4
.C
oars
ely
conf
irm th
e be
am c
urre
nt to
app
rox.
1.6
mA
.5
.R
ece
ive
th
e w
ind
ow
pa
tte
rn w
ith A
V in
pu
t.6
.W
ith t
he
da
ta o
f D
RI-
GS
an
d D
RI-
BS
, a
dju
st t
he
colo
r te
mp
era
ture
o
f th
e 5
0%
wh
ite.
7.
Ad
just
the
rig
ht d
ark
are
a o
f th
e w
ind
ow
to 1
23
00
Kw
ith C
UT
-RS
an
d C
UT
-GS
.8
.G
o b
ack
to
50
% w
hite
are
a t
o c
he
ck c
olo
ur
tem
-p
era
ture
, if o
ut o
f ra
ng
e, p
lea
se g
o b
ack
to s
tep
(6).
No
te 1
: Ap
ply
th
is a
dju
stm
en
t a
fte
r a
gin
g 3
0 m
in o
rm
ore
with
th
e b
ea
m c
urr
en
t 1
70
0 ±
50
µA
.(O
n t
he
wh
ite o
r g
ree
n m
on
oco
lor
scre
en
)2
: Afte
r fin
ish
the
ad
just
me
nt a
t ab
ove
ste
p (6
)~
(8
), s
et
the
da
ta a
f b
elo
w i
tem
as
follo
w,
2N
ote
:
1.
12
30
0K
X :
0.2
72
Y :
0.2
75
( W
ith M
on
olta
co
lor
the
rmo
me
ter
CA
-10
0)
CU
T-R
C =
CU
T-R
SD
RI-
BC
= "
DR
I-B
S"
CU
T-G
C =
CU
T-G
S
DR
I-R
C
= 2
5 (
FIX
ED
)
CU
T-G
W =
CU
T-G
SC
UT
-RW
= C
UT
-RS
DR
I-R
W
= 3
2 (
FIX
ED
)D
RI-
GW
= "
DR
I-G
S"
- 7
DR
I-B
W =
"D
RI-
BS
" -
7
DR
I-G
C
= "
DR
I-G
S"
- 7
DR
I-R
S
= 3
2 (
FIX
ED
)
Use
the
win
do
w p
att
ern
of t
he
sig
-n
al
ge
ne
rato
r S
X-1
00
6 f
or
ad
just
-m
en
t.
50
% w
hite
Da
rk w
hite
2.
4.
No
te 1
: Ap
ply
th
is a
dju
stm
en
t a
fte
r a
gin
g 3
0 m
in o
rm
ore
with
th
e b
ea
m c
urr
en
t 1
70
0 ±
50
µA
.(O
n t
he
wh
ite o
r g
ree
n m
on
oco
lor
scre
en
)2
: Afte
r fin
ish
the
ad
just
me
nt a
t ab
ove
ste
p (6
)~
(8
), s
et
the
da
ta a
f b
elo
w i
tem
as
follo
w,
CUT-
RC-D
VD =
CUT
-RS-
DVD
DRI-B
C-DV
D =
"DRI
-BS-
DVD"
CUT-
GC-
DVD
= CU
T-G
S-DV
D
DRI-R
C-DV
D =
25
(FIX
ED)
CUT-
GW
DVD
= CU
T-G
S-DV
DCU
T-RW
-DVD
= C
UT-R
S-DV
D
DRI-R
W-D
VD =
32
(FIX
ED)
DRI-G
W-D
VD =
"DRI
-GS-
DVD"
- 7
DRI-B
W-D
VD =
"DRI
-BS-
DVD"
- 7
DRI-G
C-DV
D =
"DRI
-GS-
DVD"
- 7
DRI-R
S-DV
D =
32
(FIX
ED)
No
te :
1.
12
30
0K
X :
0.2
72
Y :
0.2
75
( W
ith M
on
olta
co
lor
the
rmo
me
ter
CA
-10
0)
Use
the
win
do
w p
att
ern
of t
he
sig
-n
al
ge
ne
rato
r S
X-1
00
6 f
or
ad
just
-m
en
t.
50
% w
hite
Da
rk w
hite
2.
15
15
-11
5-2
PA
L C
HR
OM
A
AD
JU
ST
ME
NT
No
.A
djus
tmen
t po
int
Ad
jus
tme
nt
co
nd
itio
ns
/pro
ce
du
reW
av
efo
rm
or
rem
ark
s
SU
B
CO
LO
UR
(I2C
B
US
CO
NT
RO
L)
1.
Re
ceiv
e t
he
"P
AL
Co
lor
Ba
r" s
ign
al.
2.
Ma
ke t
he
ima
ge
no
rma
l with
th
e r
em
ote
co
ntr
ol-
ler.
3.
Co
nn
ect
th
e o
scill
osc
op
e t
o T
P4
8R
(IC
85
1 #
9).
( U
se P
rob
e 1
0:1
)R
an
ge
:2
V/D
ivS
we
ep
Tim
e :
20
mse
c/D
iv4
.S
et
the
su
b c
olo
r a
dju
stm
en
t m
od
e w
ith t
he
re
-m
ote
co
ntr
olle
r , a
nd
va
ry t
he
su
b c
olo
r d
ata
to
ma
ke 1
00
% W
of
the
co
lor
ba
r a
nd
RE
D a
t th
esa
me
leve
l fo
r a
dju
stm
en
t sh
ow
n in
Fig
. 1
-1.
1
Fig
. 1
-1
Cy
GB
75
% W
YM
gR
10
0%
W
No
.A
djus
tmen
t po
int
Ad
jus
tme
nt
co
nd
itio
ns
/pro
ce
du
reW
av
efo
rm
or
rem
ark
s
SU
B-T
INT
( I2
C
BU
SC
ON
TR
OL
)
1.R
ece
ive
th
e "
NT
SC
3.5
8 C
olo
ur
Ba
r" s
ign
al
thro
ug
h A
V I
N.
2.
Co
nn
ect
th
e o
scill
osc
op
e t
o T
P4
7B
(P
86
0 P
in6
)B
LU
E-O
UT .
» R
an
ge
: 1
00
mV
/Div
. (A
C)(
Use
Pro
be
10
:1)
»S
we
ep
tim
e:
10
µse
c/D
iv.
3.
Se
lect
the
"S
UB
-TIN
T"
item
in th
e A
DJU
ST
ME
NT
MO
DE
. A
dju
st th
e "
SU
B-T
INT
" d
ata
to o
bta
in th
ew
ave
form
sh
ow
n a
s F
igu
re 1
.1 (
Cy
an
d M
g s
am
ele
vel)
1
NT
SC
C
HR
OM
A AD
JU
ST
ME
NT
HO
RIZ
ON
T AL
AN
D
VE
RTI
CA
L D
EFL
EC
TIO
N
LOO
P AD
JUS
TME
NT
No
.A
djus
tmen
t po
int
Ad
jus
tme
nt
co
nd
itio
ns
/pro
ce
du
reW
av
efo
rm
or
rem
ark
s
VH
OR
-SH
I-N
60
Ad
just
the
da
ta a
s fo
llow
HO
R-S
HI-
N5
0 d
ata
+6
(mo
no
sco
pe
)
EW
-W-N
60
Ad
just
the
da
ta a
s fo
llow
EW
-W-N
50
da
ta
(mo
no
sco
pe
)
NO
TE
:
Ther
e ar
e no
se
para
te
adju
stm
ent
for
16:9
m
ode
and
Nor
mal
m
ode
adju
stm
ent.
The
16:9
(P
anor
ama
mod
e 50
/60H
z)
data
ne
ed
tofo
llow
th
e ad
just
ed
dat
a fo
r N
orm
al
mo
de
(50/
60H
z).
Ple
ase
set
the
data
as
be
low
.
VE
R-A
MP
-P5
0
=
VE
R-A
MP
-N5
0V
ER
-SH
I-P
50
=
V
ER
-SH
I-N
50
HO
R-S
HI-
P5
0
=
HO
R-S
HI-
N5
0E
W-W
-P5
0
=
EW
-W-N
50
VE
R-A
MP
-P6
0
=
VE
R-A
MP
-N6
0V
ER
-SH
I-P
60
=
V
ER
-SH
I-N
60
HO
R-S
HI-
P6
0
=
HO
R-S
HI-
N6
0E
W-W
-P6
0
=
EW
-W-N
60
CySa
me
Le v
el
GY
WM
gB
R
HO
RIZ
ON
T AL
AN
D
VE
RTI
CA
L D
EFL
EC
TIO
N
LOO
P A
DJU
STM
EN
TN
o.
Adj
ustm
ent
poin
tA
dju
stm
en
t c
on
dit
ion
s/p
roc
ed
ure
Wa
ve
form
o
r re
ma
rks
V-S
LO
PE
Ad
just
V-S
lop
e b
y V
olu
me
Up
/ D
ow
n R
em
ote
Co
ntr
ol.
Re
fer
to F
ig.
1.1
.(m
on
osc
op
e)
VE
R-A
MP
-N5
0A
dju
st t
he
ove
rsca
n t
o 8
%.
(m
on
osc
op
e)
VE
R-S
HI-
N5
0A
lign
the
ce
nte
r of t
he
scr
ee
n to
the
ge
om
etr
ic c
en
ter
of
CR
T.
(mo
no
sco
pe
)
HO
R-S
HI-
N5
0A
lign
the
ce
nte
r of t
he
scr
ee
n to
the
ge
om
etr
ic c
en
ter
of
CR
T.(m
on
osc
op
e)
EW
-W-N
50
Ad
just
th
e o
vers
can
to
8%
. (
mo
no
sco
pe
)
V-L
INE
Ad
just
th
e li
ne
ari
ty t
o t
he
be
st.
(m
on
osc
op
e)
V-S
C
OR
RA
lre
ad
y p
rese
t.(A
dju
st t
his
un
less
th
e l
ine
ari
ty i
sa
chie
ved
.)(m
on
osc
op
e)
V-S
CR
OL
LA
lre
ad
y p
rese
t..
VX
-NO
RM
AL
Alr
ea
dy
pre
set
.
H-P
AR
Ad
just
th
e 2
nd
ve
rtic
al
line
fro
m t
he
en
d o
f th
ecr
oss
ha
tch
pa
tte
rn.
Re
fer
to F
ig 1
.6.
(cro
ssh
atc
h)
H-B
OW
Ad
just
th
e 2
nd
ve
rtic
al
line
fro
m t
he
en
d o
f th
ecr
oss
ha
tch
pa
tte
rn.
Re
fer
to F
ig 1
.7.
(cro
ssh
atc
h)
E/W
-PA
RA
dju
st t
he
2n
d v
ert
ica
l lin
e f
rom
th
e r
igh
t e
nd
of
the
cro
ssh
atc
h p
att
ern
so
th
at
the
mid
dle
4 b
lock
s a
rest
raig
ht.
Re
fer
to F
ig 1
-2.
(cro
ssh
atc
h)
UP
CO
R-P
AR
Ad
just
th
e 2
nd
up
pe
r ve
rtic
al l
ine
fro
m t
he
rig
ht
en
do
f th
e c
ross
ha
tch
pa
tte
rn s
o t
ha
t th
e u
pp
er
line
are
stra
igh
t. R
efe
r to
Fig
1-3
.(c
ross
ha
tch
)
LO
CO
R-P
AR
Ad
just
th
e 2
nd
lo
we
r ve
rtic
al
line
fro
m t
he
rig
ht
en
do
f th
e c
ross
ha
tch
pa
tte
rn s
o t
ha
t th
e b
ott
om
lin
e a
rest
raig
ht.
Re
fer
to F
ig 1
-4.
(cro
ssh
atc
h)
EW
-TR
AP
Ad
just
th
e 2
nd
ve
rtic
al l
ine
fro
m t
he
rig
ht
en
d o
f th
ecr
oss
ha
tch
pa
tte
rn s
o th
at t
he
D1
(ce
nte
r a
rea
of t
he
seco
nd
ve
rtic
al
line
- e
dg
e o
f sc
ree
n)
an
d D
2 (
top
are
a o
f th
e s
eco
nd
ve
rtic
al l
ine
- e
dg
e o
f scr
ee
n)
are
sam
e.
Re
fer
to F
ig 1
-5.
(cro
ssh
atc
h)
VE
R-A
MP
-N6
0A
djus
t the
dat
a as
follo
w V
ER
-AM
P-N
50 d
ata
+1(m
on
osc
op
e)
VE
R-S
HI-
N6
0A
dju
st th
e d
ata
as
follo
w V
ER
-SH
I-N
50
da
ta -1
(mo
no
sco
pe
)
1
MA
IN
SC
RE
EN
AD
JU
ST
ME
NT
D2
D1
Fig
. 1
-2
Fig
. 1
-3
Fig
. 1
-4
Fig
. 1
-5
H-P
AR
H-B
OW
Fig
. 1
-6
Fig
. 1
-7
A B C A :
Ou
t o
f sp
ec
B :
OK
C :
Ou
t o
f sp
ec
16
-11
6-2
FU
NC
TIO
N
OP
ER
AT
ION
C
HE
CK
ING
(V
IDE
O A
ND
A
UD
IO)
No
.A
djus
tmen
t po
int
Ad
jus
tme
nt
co
nd
itio
ns
/pro
ce
du
reW
av
efo
rm
or
rem
ark
s
CO
NT
RA
ST
ke
y1
.R
ece
ive
"M
on
osc
op
e P
att
ern
" si
gn
al.
2.
Pre
ss to
ME
NU
mo
de
, th
en
Se
lect
Pic
ture
Mo
de
an
d s
et
to s
ele
ct C
ON
TR
AS
T .3
.P
ress
Vo
lum
e U
p/D
ow
n k
ey
to c
he
ck w
he
the
r th
eC
ON
TR
AS
T e
ffect
is
OK
or
no
t.
1
1.
Re
ceiv
e "
Co
lor
Ba
r" s
ign
al.
2.
Pre
ss to
ME
NU
mo
de
, th
en
Se
lect
Pic
ture
Mo
de
an
d s
et
to s
ele
ct C
OL
OU
R.
3.
Pre
ss
Vo
lum
e U
p/D
ow
n k
ey
to c
he
ck w
he
the
rth
e C
OL
OU
R e
f fe
ct
is O
K o
r n
ot.
2C
OL
OU
R
ke
y
BR
IGH
TN
ES
Sk
ey
1.
Re
ceiv
e "
Mo
no
sco
pe
Pa
tte
rn"
sig
na
l.2
.P
ress
to M
EN
U m
od
e, t
he
n S
ele
ct P
ictu
re M
od
ea
nd
se
t to
se
lect
BR
IGH
TN
ES
S.
3.
Pre
ss
Vo
lum
e U
p/D
ow
n k
ey
to c
he
ck w
he
the
rth
e B
RIG
HT
NE
SS
e
f fect
is O
K o
r n
ot.
3
TIN
T
ke
y1
.R
ece
ive
the
"N
TS
C C
olo
ur
Ba
r" s
ign
al t
hru
AV
in.
2.
Pre
ss to
ME
NU
mo
de
, th
en
Se
lect
Pic
ture
Mo
de
an
d s
et
to s
ele
ctT
INT .
3.
Pre
ss
Vo
lum
e U
p/D
ow
n k
ey
to c
he
ck T
INT,
UP
for
GR
EE
N d
ire
ctio
n a
nd
DO
WN
fo
r R
ED
dir
ec-
tion
wh
eth
er
is O
K o
r n
ot.
4
SH
AR
PN
ES
SK
ey
1.
Re
ceiv
e "
Mo
no
sco
pe
Pa
tte
rn"
sig
na
l.2
.P
ress
to M
EN
U m
od
e, t
he
n S
ele
ct P
ictu
re M
od
ea
nd
se
t to
se
lect
SH
AR
PN
ES
S.
3.
Pre
ss
Vo
lum
e U
p/D
ow
n k
ey
to c
he
ck w
he
the
rth
e S
HA
RP
NE
SS
effe
ct is
OK
or
no
t.
5
WH
ITE
T
EM
P1
.R
ece
ive
"M
on
osc
op
e P
att
ern
" si
gn
al.
2.
Se
t F
UN
CT
ION
to
se
lect
WH
ITE
TE
MP.
3.
Pre
ss V
olu
me
Up
/Do
wn
ke
y to
ch
eck
WH
ITE
TE
MP
Op
tion
, S
TA
ND
AR
D:
NO
RM
AL
SE
TT
ING
, W
AR
M f
or
mo
re R
ED
DIS
Hd
ire
ctio
n c
ha
ng
ing
, C
OO
L f
or
mo
re B
LU
ISH
di-
rect
ion
ch
an
gin
g.
NO
RM
AL
K
ey
7
1.
On
ce in
PIC
TU
RE
Mo
de
, a
nd
th
e N
OR
MA
L k
ey
is p
ress
ed
, a
ll th
e s
ett
ing
s w
ill b
e p
rese
nt
to n
or-
ma
l se
ttin
g.
(No
rma
l se
ttin
g v
alu
e f
or
eve
ry m
od
e,
refe
r to
Tab
le 2
.2 o
n p
ag
e 6
-1).
No
tes:
If
no
thin
g
is
dis
pla
ym
ean
cont
rast
, co
lour ,
bri
ght,
tint,
shar
pnes
s ar
e al
l in
no
r-m
al
sett
ing.
6
FU
NC
TIO
N
OP
ER
AT
ION
C
HE
CK
ING
(V
IDE
O A
ND
A
UD
IO)
(Co
nti
nu
ed
)
No
.A
dju
stin
g
po
int
Ad
jus
tin
g
pro
ce
du
re/c
on
dit
ion
sW
av
efo
rm
an
d
oth
ers
CO
LO
UR
SY
ST
EM
1.
Re
ceiv
e t
he
"P
AL
CO
LO
UR
BA
R"
sig
na
l, p
ress
the
CO
LO
UR
SY
ST
EM
ke
y to
se
lect
mo
de
s e
x-ce
pt P
AL
, ch
eck
the
CO
LO
UR
is n
ot w
ork
ing
pro
p-
erl
y . T
he
n,
sele
ct t
he
"P
AL
" m
od
e.
Ch
eck
ag
ain
its c
olo
ur
so t
ha
t it
is w
ork
ing
pro
pe
rly .
2.
Re
ceiv
e "
SE
CA
M C
OL
OU
R B
AR
" si
gn
al,
pre
ssC
OL
OU
R S
YS
TE
M k
ey
to s
ele
ct m
od
es
exc
ep
tS
EC
AM
, ch
eck
the
CO
LO
UR
is
no
t wo
rkin
g p
rop
-e
rly.
Th
en
, se
lect
th
e "
SE
CA
M"
mo
de
. C
he
cka
ga
in it
s co
lou
r so
th
at
it is
wo
rkin
g p
rop
erl
y .3
.R
ece
ive
“N
TS
C 4
.43
” si
gn
al,
pre
ss C
OL
OU
RS
YS
TE
M k
ey
to s
ele
ct m
od
es
exc
ep
t NT
SC
4.4
3,
che
ck th
e C
OL
OU
R is
no
t wo
rkin
g p
rop
erly
. Th
en
,se
lect
th
e “
NT
SC
4.4
3”
mo
de
. C
he
ck a
ga
in i
tsco
lou
r so
th
at
it is
wo
rkin
g p
rop
erl
y .4
.R
ece
ive
“N
TS
C 4
.43
/3.5
8 C
OL
OU
R B
AR
” si
gn
al
thru
AV
, p
ress
CO
LO
UR
SY
ST
EM
ke
y to
se
lect
mo
de
s e
xce
pt
N4
.43
/3.5
8,
che
ck t
he
CO
LO
UR
is n
ot
wo
rkin
g p
rop
erl
y . T
he
n,
sele
ct t
he
“N
TS
C4
.43
/3.5
8”
mo
de
. Ch
eck
ag
ain
its
colo
ur
so th
at i
tis
wo
rkin
g p
rop
erl
y .
8
SO
UN
DS
YS
TE
M9
1.
Re
ceiv
e “
PA
L-D
/K”
sig
na
l, p
ress
th
e “
SO
UN
DS
YS
TE
M”
to s
ele
ct B
/G, I
. C
he
ck th
e s
ou
nd
ou
t-p
ut
is n
ot w
ork
ing
pro
pe
rly .
Se
lect
D/K
an
d c
he
ckth
e s
ou
nd
ou
tpu
t to
ma
ke s
ure
it i
s w
ork
ing
pro
p-
erl
y.2
.R
ece
ive
“P
AL
-I”
sig
na
l, p
ress
the
“S
OU
ND
SY
S-
TE
M”
to s
ele
ct B
/G, D
/K. C
he
ck th
e s
ou
nd
ou
tpu
tis
no
t w
ork
ing
pro
pe
rly .
Se
lect
I a
nd
ch
eck
th
eso
un
d o
utp
ut t
o m
ake
su
re it
is w
ork
ing
pro
pe
rly .
3.
Re
ceiv
e “
PA
L-B
/G”
sig
na
l, p
ress
th
e “
SO
UN
DS
YS
TE
M”
to s
ele
ct I,
D/K
. C
he
ck th
e s
ou
nd
ou
t-p
ut
is n
ot w
ork
ing
pro
pe
rly .
Se
lect
B/G
an
d c
he
ckth
e s
ou
nd
ou
tpu
t to
ma
ke s
ure
it is
wo
rkin
g p
rop
-e
rly.
1.
Use
d th
e M
essa
ge k
ey o
n R
/C to
ent
er th
e M
essa
gem
ode
2
.C
he
ck a
ll th
e r
ela
ted
ite
ms
such
as
the
m
ess
ag
e w
ritin
g,
me
ssa
ge
sa
ve,
me
ssa
ge
rea
d e
tc c
an
op
era
te n
orm
ally
.
N
OIS
E
MU
TE
CH
EC
KIN
G1
.R
ece
ive
"P
AL
CO
LO
UR
BA
R"
sig
na
l.2
.T
urn
up
th
e v
olu
me
co
ntr
ol
to m
axi
mu
m,
ma
kesu
re th
e s
ou
nd
is h
ea
rd fr
om
the
sp
ea
kers
. T
he
np
ut
the
un
it in
no
sig
na
l sta
te.
3.
Ch
eck
th
e s
ou
nd
mu
te is
ef f
ect
ive
.4
.F
ina
lly t
urn
so
un
d le
vel o
f C
TV
to
min
imu
m.
10
ME
SS
AG
E
FU
NC
TIO
N
OP
ER
AT
ION
C
HE
CK
ING
No
.A
dju
stin
g
po
int
Ad
jus
tin
g
pro
ce
du
re/c
on
dit
ion
sW
av
efo
rm
an
d
oth
ers
Me
ss
ag
eF
un
cti
on
1
16
17
17
-11
7-2
No
.A
djus
tmen
t po
int
Ad
jus
tme
nt
co
nd
itio
ns
/pro
ce
du
reW
av
efo
rm
or
rem
ark
s
H,
V
PR
OT
EC
-T
OR
1.
Re
ceiv
e E
-5ch
(Mo
no
sco
pe
pa
tte
rn).
2.
Co
nn
ect
the
bia
s b
ox
to th
e c
ath
od
e s
ide
(R
60
7)
of
D6
04
.3
.S
et t
he
vo
ltag
e o
f th
e b
ias
bo
x a
t 10
V, a
nd
ve
rify
tha
t th
e p
rote
cto
r d
oe
s n
ot
op
era
te.
4.
Se
t th
e v
olta
ge
of t
he
bia
s b
ox
at 1
8V
, an
d v
eri
fyth
at
the
pro
tect
or
op
era
te.
1
PR
OT
EC
TO
R
OP
ER
AT
ION
C
HE
CK
ING
Re
f : A
px.
13
.3V
.
No
.A
djus
tmen
t po
int
Ad
jus
tme
nt
co
nd
itio
ns
/pro
ce
du
reW
av
efo
rm
or
rem
ark
s
Fro
nt
sp
ea
ke
ro
utp
ut
ch
ec
k-
ing
1.
Re
ceiv
e t
he
E-1
0ch
(P
AL
colo
ur
ba
r).
2.
Se
t th
e v
olu
me
to
ma
xim
um
an
d s
et
the
oth
er
sou
nd
se
ttin
g a
s fo
llow
.
3.
Co
nn
ect
the
vo
ltme
ter t
o th
e s
pe
ake
r te
rmin
al a
nd
ma
ke s
ure
th
e r
ea
din
g is
9 ±
1 V
rms.
1
SO
UN
D
OU
TP
UT
C
HE
CK
ING
VA
O
sub
wo
ofe
rte
rmin
al
ou
t-p
ut
ch
ec
kin
g
1.
Re
ceiv
e t
he
E-1
0ch
(P
AL
colo
ur
ba
r).
2.
Co
nn
ect
a 1
0k
oh
m lo
ad
to
ou
tpu
t te
rmin
al (
eith
er
left
or
rig
ht)
.3
.S
et
the
vo
lum
e t
o m
axi
mu
m a
nd
se
t th
e o
the
rso
un
d s
ett
ing
as
follo
w.
4.
Co
nn
ect
th
e o
scilo
sco
pe
to
th
e d
um
my
loa
da
nd
ma
ke s
ure
th
e r
ea
din
g is
2,5
0,5
Vp
-p.
±
2
Se
ttin
g it
em
AV
Ste
reo
Eq
ua
lize
rM
usi
cS
urr
ou
nd
OF
FB
BE
-B
ala
nce
0A
VL
OF
FB
ass
+O
N
Eq
ua
lize
rM
usi
cS
urr
ou
nd
OF
FB
ala
nce
0A
VL
OF
FB
ass
+O
FF
18
18
-11
8-2
TR
OU
BL
E
SH
OO
TIN
G
TA
BL
ET
RO
UB
LE
S
HO
OT
ING
T
AB
LE
(C
on
tin
ue
d)
NO
R
AS
TE
R
Ch
eck
CR
T c
on
ne
cto
r (K
Y),
(H
) b
ias
(14
V,1
20
V,
21
0 V
lin
e).
LE
D C
OL
OU
R ?
Po
we
r o
n b
y R
/C.
Ch
eck
pro
tect
or
circ
uit
an
d p
in 1
06
&
10
7 (
wa
vefo
rm
no
.3 &
4)
of
IC
21
00
. A
lso
ch
eck
th
e w
ave
form
no
.7
of
IC5
01
at
pin
4
an
d it
s re
late
d
pa
rts.
Ch
eck
th
e p
ow
er
circ
uit
con
sist
ing
of
IC7
01
, IC
70
2,
T7
01
an
d it
s re
late
d p
art
s. A
lso
ch
eck
th
e
ho
rizo
nta
l ou
t ci
rcu
it Q
60
4 a
nd
its
rela
ted
pa
rts.
GR
EE
N
GR
EE
N
Ye
sN
o
RE
D
RE
D
Do
es
ho
rizo
nta
l cir
cuit
mo
me
nta
ry o
scill
ate
?
Ch
eck
th
e 1
4V
, 1
20
V a
nd
21
0V
lin
e f
rom
th
e
ma
in P
WB
sid
e.
Ch
eck
R,G
,B
inp
ut
an
d o
utp
ut
of
IC 8
51
.
No
rma
lA
bn
orm
al
Ch
eck
th
e p
ow
er
circ
uit
at
the
fro
nt
un
it co
nsi
stin
g o
f IC
47
00
, IC
47
02
, IC
47
01
, D
47
07
a
nd
its
rela
ted
p
art
s.
Ch
eck
th
e p
ow
er
circ
uit
con
sist
ing
of
IC7
01
, IC
70
2,
T7
01
an
d it
s re
late
d p
art
s.
No
rma
l
Ch
eck
F3
70
0. R
ep
lace
th
e F
use
.
Is t
he
Fu
se a
ga
in b
low
n o
ut?
Do
es
ST
BY
+5
V a
pp
ea
r a
t p
in 1
P1
00
1m
ain
un
it ?
Blo
wn
o
ut
No
No
Ye
s
Ye
s
Ch
eck
F4
70
1.
NO
L
ED
L
IGH
T
Ch
eck
3V
ou
tpu
t fr
om
pin
22
of
IC
20
01
an
d it
s re
late
d p
art
s.
19
19
-11
9-2
TR
OU
BL
E
SH
OO
TIN
G
TA
BL
E
(Co
nti
nu
ed
)
Ch
eck
TU
51
.
TR
OU
BL
E
SH
OO
TIN
G
TA
BL
E
(Co
nti
nu
ed
)
NO
P
ICT
UR
E
Do
es
the
sn
ow
no
ise
ap
pe
ar
on
th
e s
cre
en
at
ma
xim
um
co
ntr
ast
an
d b
rig
htn
ess
?A
Sn
ow
no
ise
incr
ea
se.
Do
es
5V
ap
pe
ar
at
pin
7 o
f T
U 5
1 ?
Ch
eck
th
e P
C+
5V
lin
e.
No
Do
es
31
V a
pp
ea
r a
t p
in 9
of
TU
51
?C
he
ck +
12
0V
lin
e a
t IC
75
3
an
d it
s re
late
d c
ircu
it.
Ye
s
No
Ye
s
No
Ye
s
NO
N
OR
MA
L
SO
UN
D
Se
t vo
lum
e t
o m
axi
mu
m.
Is
the
re a
ny
sou
nd
ou
tpu
t si
gn
al
at
pin
10
& 1
4 o
f IC
30
1 ?
Ye
sN
o
Ch
eck
if t
he
re
is s
ou
nd
inp
ut
sig
na
l at
pin
2
& 2
1 o
f IC
30
1.
No
Ch
eck
ou
tpu
t si
gn
al a
t p
in
68
, 6
9 o
f IC
2
10
0 a
nd
its
rela
ted
cir
cuit.
Ch
eck
co
nn
ect
ion
to
th
e s
pe
ake
r
No
so
un
d f
rom
th
e
spe
ake
rN
o s
ou
nd
co
me
s o
ut
at
AV
-ou
t J9
05
Ch
eck
so
un
d
ou
tpu
t si
gn
al f
rom
p
in 9
2 &
93
of
IC
21
00
an
d it
s re
late
d c
ircu
it.
20
20
-12
0-2
TR
OU
BL
E
SH
OO
TIN
G
TA
BL
E
(Co
nti
nu
ed
)
No
rma
l
No
sn
ow
no
ise
.
Ch
eck
pin
10
4 &
10
5 o
f IC
21
00
.
Ab
no
rma
l
A
No
ise
or
sig
na
l a
pp
ea
r.
Do
es
AV
inp
ut
at
AV
1,
AV
2 &
AV
3 n
orm
al ?
Ch
eck
IC
21
00
an
d it
s re
late
d c
ircu
its.
Ch
eck
TU
51
(T
un
er)
, S
F
20
2 a
nd
its
rela
ted
cir
cuit.
Ye
s
No
Ch
eck
pin
71
, 7
4 &
78
o
f IC
21
00
. D
oe
s si
gn
al
or
no
ise
ap
pe
ar
?
Ch
eck
IC
21
00
RG
B o
ut
at
pin
42
, 4
3 &
44
. Is
th
e o
utp
ut
no
rma
l ?
Ye
s
No
No
Ch
eck
cir
cuit
be
twe
en
A
V-i
n t
erm
ina
l an
d p
in
71
, 7
4 &
78
of
IC 2
10
0.
Ch
eck
IC
21
00
an
d it
s re
late
d c
ircu
it.C
he
ck I
C 8
50
at
inp
ut
pin
1,
2 &
3
an
d it
s re
late
d
circ
uit.
Ch
eck
th
e r
ela
ted
ci
rcu
it o
f sc
ree
n
he
ate
r (F
BT
) a
nd
th
e C
RT
.
Do
es
sig
na
l ou
tpu
t a
t p
in 7
, 8
&
9 o
f IC
85
1 n
orm
al ?
Ye
s
No
No
TR
OU
BL
E
SH
OO
TIN
G
TA
BL
E
(Co
nti
nu
ed
)
No
Ad
just
th
e c
olo
ur
con
tro
l at
the
u
ser
ME
NU
. D
oe
s co
lou
r a
pp
ea
r ?
NO
S
PE
CIF
IC
CO
LO
UR
B
Is o
nly
RF
sig
na
l’s c
olo
ur
ab
no
rma
l?
Se
t co
lou
r co
ntr
ol.
Go
to
CH
AN
NE
L S
ET
TIN
G a
t th
e
use
r M
EN
U a
nd
ch
an
ge
to
th
e
ap
pro
pri
ate
co
lou
r sy
ste
m.
Do
es
the
co
lou
r a
pp
ea
r ?
Se
t th
e
ap
pro
pri
ate
co
lou
r sy
ste
m.
Ch
eck
IC 8
51
, IC
21
00
an
d it
s re
late
d c
ircu
it.
Ch
eck
tu
ne
r T
U 5
1,
SF
20
1a
nd
its
rela
ted
cir
cuit.
Ye
s
Ye
s
Ye
sNo
No
Usi
ng
a P
AL
co
lou
r b
ar
sig
na
l, ch
eck
th
e R
GB
in &
ou
t lin
e
be
twe
en
IC
21
00
an
d I
C 8
51
. D
oe
s th
e w
ave
form
s n
orm
al ?
No
NO
C
OL
OU
R
CO
LO
UR
P
RO
DU
CE
D
21
21
-12
1-2
TR
OU
BL
E
SH
OO
TIN
G
TA
BL
E
(Co
nti
nu
ed
)
B
Ch
eck
IC
21
00
& I
C 8
51
an
d it
s re
late
d c
ircu
it in
clu
din
g t
he
RG
B
inp
ut
& o
utp
ut
line
.
Is s
om
e c
olo
urs
pro
du
ced
in t
he
B
/W b
roa
dca
st r
ece
ptio
n ?
Is t
he
wh
ite b
ala
nce
pro
pe
rly
ad
just
ed
?
Ye
s
Th
e p
ictu
re
colo
ur
is
ma
ge
nta
.
Th
e p
ictu
re
colo
ur
is
yello
w.
Th
e p
ictu
re
colo
ur
is
cya
n.
Ch
eck
pin
8
of
IC 8
51
(G-o
ut)
.
Ch
eck
pin
7
of
IC 8
51
(B-o
ut)
.
Ch
eck
pin
9
of
IC 8
51
(R-o
ut)
.
No
Ye
s
Re
ad
just
th
e
wh
ite b
ala
nce
.N
o
22
S OL ID S TAT E DE V IC E B A S E DIA G R A M
TOP V IE W
S IDE V IE W
ZR
11
1
4
4 5 6
3 2 1
1 7
1 5
1 9
B AS E E MIT T E R
C OLLE C T OR
4
441
1 1
58
41
1 23
58
44
1
1 11
15
5
88
10
20 11
45
5
2 2
3
3
858
33128 97
96
65
1
32
6433
24
23
1244
34
7S E T 04F B R 24L 32V P C F 8563S F XA 003W S T V 9380 2883E 331
B R 24L 04F
T DA 8922BDX0477
S T 600CR X6757B A 005T
T DA 6107A S C 5511 A 00B C 0W P X0036 P X0037
P C 1815S C 3198DX0410S K 2161
IP 0254C 7W66UIXA 956WJR H-IXxxxxWJ
IMZ1AIMX1C
D601A R
B R
B AS E E MIT T E R
OUT
ANODE
ANODE
E C BE C B
ANODE (G R E E N)
ANODE (R E D)C AT HODE
C AT HODE
C AT HODE
G NDV C C
OUTG NDV C C
OUTG NDV C C
C OLLE C T OR
B 709A R
J C
B AS E E MIT T E R
C OLLE C T OR
2S C 2735
D5S B 60 74
D6246
S D2646 -
WAVEFORMS
Horizontal RatePin 1 Vp-p = 2.02 V
1) Horizontal RatePin 2 Vp-p = 1.30 V
2) Vertical RatePin 3 Vp-p = 2.26 V
3) Vertical RatePin 4 Vp-p = 2.40 V
4)
Vertical RatePin 5 Vp-p = 4.16 V
5) Vertical RatePin 6 Vp-p = 29.40 V
6) Vertical RatePin 7 Vp-p = 60.00 V
7) Vertical RatePin 8 Vp-p = 1.60 V
8)
Horizontal RatePin 9 Vp-p = 262.0 V
9) Horizontal RatePin 10 Vp-p = 262.0 V
10) Horizontal RatePin 11 Vp-p = 176.0 V
11) Horizontal RatePin 12 Vp-p = 11.20 V
12)
Horizontal RatePin 13 Vp-p = 1.024 kV
13) Horizontal RatePin 14 Vp-p = 248.0 V
14) Horizontal RatePin 15 Vp-p = 31.20 V
15) Horizontal RatePin 16 Vp-p = 1.84 V
16)
Horizontal RatePin 17 Vp-p = 2.04 V
17)
Horizontal RatePin 21 Vp-p = 134.0 V
21)
Horizontal RatePin 18 Vp-p = 2.10 V
18) Horizontal RatePin 19 Vp-p = 120.0 V
19) Horizontal RatePin 20 Vp-p = 106.0 V
20)
23
A
C
B
D
E
F
G
H
1 2 3 4 5 6 7 8 9 10
24
C HA S S IS L AY OUT
2625
1 2 3 4 5 6 7 8 9 10
A
B
C
D
E
F
G
H
I
J
11 12 13 14 15 16 17 18 19
B L OK DIAGR AM
27
DE S C R IP T ION OF S C HE MAT IC DIA G R A M
NOT E S :1. T he unit of res is tance "ohm" is omitted.
(K = 1000 ohms, M = Mega ohm).2. All res is tors are 1/16 watt, unless otherwise noted.3. All capacitors are µF, unless otherwise noted. (P = µµF ).
V OLTA G E ME A S UR E ME NT C ONDIT IONS :1. Voltages in parenthes is measured with no s ignal.2. Voltages without parenthes is measured with 3mV B & W or C ol-
our s ignal.3. All the voltages in each point are measured with V T V M.
WAV E F OR M ME A S UR E ME NT C ONDIT IONS :1. T he colour bar generator s ignal of 1.0V peak applied at pin (24)
of IC 201.2. Approximately 4V AG C bias .
S A F E T Y NOT E S :1. DIS C ONNE C T T HE AC P LUG F R OM T HE AC OUT LE T B E F OR E
R E P LAC ING P AR T S .2. S E MIC ONDUC T OR HE AT S INK S S HOULD B E R E G AR DE D AS
P OT E NT IAL S HOC K HAZAR DS W HE N T HE C HAS S IS IS OP -E R AT ING .
IMP OR T A NT S A F E T Y NOT IC E :P AR T S MAR K E D W IT H " " ( ) AR E IMP O R T ANT F O RMAINT AINING T HE S AF E T Y O F T HE S E T . B E S UR E T O R E -P LAC E T HE S E P AR T S WIT H S P E C IF IE D ONE S F OR MAINT AIN-ING T HE S AF E T Y AND P E R F OR MANC E OF T HE S E T .
S E R V IC E P R E C A UT ION:THE AR E A E NC LOS E D B Y THIS LINE ( ) IS DIR E C TLYC ONNE C T E D W IT H AC MAINS V OLT AG E .WHE N S E R VIC ING THE AR E A, C ONNE C T AN IS OLAT ING TR ANS -F OR ME R B E T WE E N T V R E C E IV E R AND AC LINE T O E LIMINAT EHAZAR D OF E LE C T R IC S HOC K .
28
1 2 3 4 5 6 7 8 9 10
A
B
C
D
E
F
G
H
I
J
S C HE MATIC DIAGR AM:
C R T UNIT
3029
1 2 3 4 5 6 7 8 9 10
A
B
C
D
E
F
G
H
I
J
11 12 13 14 15 16 17 18 19
S C HE MATIC DIAGR AM: MAIN UNIT
31
1 2 3 4 5 6 7 8 9 10
A
B
C
D
E
F
G
H
I
J
S C HE MATIC DIAGR AM: FR ONT UNIT
32
1 2 3 4 5 6 7 8 9 10
A
B
C
D
E
F
G
H
I
J
S C HE MATIC DIAGR AM: ME S S AGE UNIT
S UB WOOFE R UNIT
R ef. No. P art No. H Des c ription C ode R ef. No. P art No. H Des c ription C ode
33
P IC T UR E T UB E
P R INT E D WIR ING B OA R D A S S E MB L IE S(NOT R E P L A C E ME NT IT E M)
P W B -A DUNT K C 516W E F 8 - Main Unit -P W B -B DUNT K A519W E B 1 - C R T Unit -
-P W B -C DUNT K D090W E A2 - F ront Unit
-P W B -H DUNT K C 518W E A7 - Mes s age Unit-
DUNT K C 516WE F 8P WB -A MA IN UNIT
T UNE RNOT E : T HE P A R T S HE R E S S HOW N A R E S UP P L IE D A S A N
A S S E MB L Y NOT INDE P E NDE NT L Y .
T UNE RT U51 R T UNQA021W J ZZ R T uner AY
R E P L A C E ME NT PA R T S L IS TP A R T S R E P L A C E ME NT
R eplacement parts which have thes e s pecial s afety characteris tics areidentified in this manual; electrica l components having s uch featuresare identified by " " in the R eplacement P arts L is ts .T he us e of a s ubs titute replacement part which does not have the s ames afety characteris tics as the factory recommended replacement partss hown in this s ervice manual may create s hock, fire or other hazards .
" HOW T O OR DE R R E P L A C E ME NT P A R T S "
To have your order filled promptly and correctly, please furnish the followinginformations .
1. MODE L NUMB E R 2. R E F . NO.3. P A R T NO. 4. DE S C R IP T ION
MAR K : S P AR E P AR T S -DE LIV E R Y S E C T ION.
R ef. No. P art No. H Des c ription C ode
P W B -E DUNT K D268W E A1 - S ub W oofer Unit
INT E G R A T E D C IR C UIT SIC 301 V HiT DA8922B -1 R I.C .IC 501 V HiS T V 9380+3E S R S T V 9380A APIC 701 V HiS T R X6757-1S R S T R -X6757LF AS
IC 704 V HiM2883E 331E Y R NJ M2883E 33 AFIC 751 V HiB A005T //-1 R B A05T AFIC 753 V HiS E 120N//-1 R S E 120N AGIC 946 V HiP C F 8563S -1Y R P C F 8563T S /F 4 ALIC 2031 V HiP S T 600C /-1+ R P S T 600C -2 ADIC 2100 R H-iXA275WJ ZZQ R iX275WJ B KIC 2101 V HiB R 24L32V -1Y R B R 24L32F V -W AGIC 2102 V HiB A00B C 0W-1S R B A00B C 0WT -V 5 AGIC 2104 V HiB A00B C 0W-1S R B A00B C 0WT -V 5 AG
T R A NS IS T OR SQ200 V S 2S C 2735//1E * R 2S C 2735 ACQ202 V S 2P D601AR /-1* R 2P D601AR ABQ203 V S 2P D601AR /-1* R 2P D601AR ABQ390 V S iMX1C /C //-1* R iMX1C /C ACQ391 V S iMZ1A////-1* R iMZ1A ACQ602 V S 2S K 2161++-1 R 2S K 2161 AGQ603 V S 2S C 3198-Y -1+ R 2S C 3198 AA
Q604 V S 2S D2646++1E R 2S D2646 AMQ605 V S 2P B 709AR /-1* R 2P B 709AR ABQ606 V S 2S C 2482//-1+ R 2S C 2482 ADQ607 V S K R C 103S //-1* R K R C 103S AAQ609 V S 2S C 3198-Y -1+ R 2S C 3198 AAQ754 V S 2P C 1815Y +-1+ R 2P C 1815Y ACQ755 V S 2S C 3198-G -1+ R 2S C 3198-G AAQ903 V S iMX1C /C //-1* R iMX1C /C ACQ904 V S 2P B 709AR /-1* R 2P B 709AR ABQ906 V S iMZ1A////-1* R iMZ1A ACQ907 V S K R C 105S //-1* R K R C 105S ABQ2002 V S 2P D601AR /-1* R 2P D601AR AB
DIODE SD52 R H-E X0677G E ZZ* R Zener Diode ACD200 V HD1S S 390++-1* R 1S S 390 ABD201 V HD1S S 390++-1* R 1S S 390 ABD202 V HD1S S 133++-1* R 1S S 133 AAD203 R H-E X0627G E ZZ* R Zener Diode AAD390 V HD1S S 133++-1* R 1S S 133 AAD391 V HD1S S 133++-1* R 1S S 133 AAD520 R H-E X0609G E ZZ* R Zener Diode AAD521 V HD1S S 133++-1* R 1S S 133 AAD522 R H-E X0609G E ZZ* R Zener Diode AAD601 V HD1S S 244//-1* R 1S S 244 ABD602 V HD1S S 133++-1* R 1S S 133 AAD603 R H-DX0131C E ZZ* R Diode ACD604 R H-E X0641G E ZZ* R Zener Diode AAD605 R H-DX0302C E ZZ* R Diode ACD606 V HD1S S 133++-1* R 1S S 133 AAD607 R H-DX0255C E ZZ R Diode ACD608 R H-DXA006WJ ZZ R Diode ADD609 V HD1S S 133++-1* R 1S S 133 AAD610 R H-E X0611G E ZZ* R Zener Diode AAD611 R H-DX0471C E ZZ* R Diode AED613 V HD1S S 133++-1* R 1S S 133 AAD614 V HD1S S 133++-1* R 1S S 133 AAD616 R H-DX0321C E ZZ* R Diode ACD617 R H-E X0603G E ZZ* R Zener Diode AAD701 R H-DX0131C E ZZ* R Diode ACD702 R H-DX0131C E ZZ* R Diode ACD703 R H-E X0656G E ZZ* R Zener Diode ABD704 R H-DX0477C E ZZ R Diode AFD708 R H-DX0131C E ZZ* R Diode ACD709 R H-E X0618G E ZZ* R Zener Diode ABD712 R H-DX0066G E ZZ* R Diode ACD713 R H-DX0321C E ZZ* R Diode ACD751 R H-DXA006WJ ZZ R Diode ADD752 V HD1S S 133++-1* R 1S S 133 AAD753 R H-DX0407C E ZZ* R Diode ADD754 R H-DX0475C E ZZ R Diode ABD755 R H-DX0410C E ZZ R Diode AGD758 R H-DX0410C E ZZ R Diode AGD760 V HD1S S 133++-1* R 1S S 133 AAD761 V HD1S S 133++-1* R 1S S 133 AAD762D763 V HD1S S 133++-1* R 1S S 133 AAD764 R H-E X0655G E ZZ* R Zener Diode AB
D901 R H-DX0475C E ZZ* R Diode ABD903 R H-DX0279C E ZZ* R Diode ABD2101 V HD1S S 133++-1* R 1S S 133 AAD2102 V HD1S S 133++-1* R 1S S 133 AAD2103 V HD1S S 133++-1* R 1S S 133 AAD2104 V HD1S S 133++-1* R 1S S 133 AAD2106 R H-E X1394C E ZZ* R Zener Diode ABD2107 R H-E X1394C E ZZ* R Zener Diode ABD2108 R H-E X1394C E ZZ* R Zener Diode AB
IC 702 R H-F XA003WJ ZZ R P C 123Y 82 AD
R 710 R H-HXA014WJ ZZ+ R T hermistor AD
R H-DX0302C E ZZ* R Diode AB
D765 R H-DX0302C E ZZ* R Diode AB
T H500 R H-HZ0004G E ZZ+ R T hermistor AE
C R Y S T A L SP R 701 R MP T P 0085C E ZZ R P ackaged C ircuit ALX940 R C R S B 0138G E ZZ R C rystal ADX2001 R C R S AA058WJ ZZ R C rystal AD
V 101 V B 68QC U770X4E R P icture T ube (S E MI IT C ) C VL703 R C iLG 0024K MZZ R Degauss ing C oil AS
QE AR C A023WJ ZZ R G rounding S trap AHP MAG F 3087C E ZZ R P urity Magnet AL
R ef. No. P art No. � Des c ription C ode R ef. No. P art No. � Des c ription C ode
34
C 313 V C K Y C Y 1HB 153K * R 0.015 50V C eramic AAC 314 V C K Y C Y 1HB 221K * R 220P 50V C eramic AAC 315 V C K Y T V 1HF 224Z* R 0.22 50V C eramic ACC 316 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 317 V C K Y T V 1HF 224Z* R 0.22 50V C eramic ACC 318 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 319 V C K Y T V 1HF 224Z* R 0.22 50V C eramic AC
C 320 V C K Y C Y 1HB 153K * R 0.015 50V C eramic AAC 321 V C K Y C Y 1HB 221K * R 220P 50V C eramic AAC 322 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 323 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 324 V C K Y T V 1HF 224Z* R 0.22 50V C eramic ACC 325 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 326 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 327 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 328 V C K Y C Y 1HB 223K * R 0.22 50V C eramic AAC 329 V C K Y C Y 1HB 331K * R 330P 50V C eramic AAC 330 V C K Y C Y 1HB 223K * R 0.22 50V C eramic AAC 333 V C F Y F A1HA394J + R 0.39 50V Mylar ACC 366 V C K Y T V 1HF 224Z* R 0.22 50V C eramic ACC 367 V C K Y T V 1HF 224Z* R 0.22 50V C eramic ACC 370 V C K Y C Y 1HB 153K * R 0.015 50V C eramic AAC 371 V C K Y C Y 1HB 153K * R 0.015 50V C eramic AAC 374 V C K Y C Y 1HB 221K * R 220P 50V C eramic AAC 375 V C K Y C Y 1HB 221K * R 220P 50V C eramic AAC 376 V C F Y F A1HA394J + R 0.39 50V Mylar ACC 377 V C E A0A1E W477M+R 470 25V E lectrolytic ADC 378 V C E A0A1E W477M+R 470 25V E lectrolytic ADC 379 V C E A0A1HW226M+R 22 50V E lectrolytic ABC 380 V C E A0A1E W477M+R 470 25V E lectrolytic ADC 384 V C E A0A1E W477M+R 470 25V E lectrolytic ADC 390 V C E A0A1C W477M+R 470 16V E lectrolytic AC
C 501 V C K Y C Y 1HB 102K * R 1000P 50V C eramic AAC 502 V C K Y P A1HB 102K + R 1000P 50V C eramic AAC 503 V C K Y P A1HB 102K + R 1000P 50V C eramic AAC 504 V C E A0A1E W108M R 1000 25V E lectrolytic ADC 506 V C K Y C Y 1HB 331K * R 330P 50V C eramic AAC 508 V C K Y T V 1HF 104Z* R 0.1 50V C eramic ABC 509 V C K Y T V 1HF 104Z* R 0.1 50V C eramic ABC 510 V C E A0A1E W108M R 1000 25V E lectrolytic ADC 511 V C K Y T V 1HF 104Z* R 0.1 50V C eramic ABC 512 V C E A0A1V W107M+R 100 35V E lectrolytic ACC 513 V C F Y F A1HA224J + R 0.22 50V Mylar ABC 514 V C K Y P A1HB 471K + R 470P 50V C eramic AAC 515 V C K Y P A1HB 472K + R 4700P 50V C eramic ABC 516 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 517 R C -F Z0272C E ZZ+ R 0.39P 100V M.P olypro ADC 518 V C E A0A1HW107M+R 100 50V E lectrolytic ABC 519 V C E A9M1HW474M+R 0.47 50V E lectrolytic ABC 520 V C C C C Y 1HH102J * R 1000P 50V C eramic ABC 521 V C C C C Y 1HH102J * R 1000P 50V C eramic ABC 522 V C E A9M1HW106M+R 10 50V E lectrolytic ABC 523 V C K Y C Y 1HB 223K * R 0.022 50V C eramic AAC 524 V C E A0A1HW224M+R 0.22 50V E lectrolytic ABC 525 V C E A9M1HW105M+R 1 50V E lectrolytic ABC 526 V C QY T A1HM682K +R 6800P 50V Mylar AAC 527 V C QY T A1HM103J + R 0.01 50V Mylar ABC 528 V C E A0A1AW107M+R 100 10V E lectrolytic ABC 529 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AAC 530 V C E 9G A1C W106M+R 10 16V E lect, (N.P ) ABC 531 V C E A0A2AW225M+R 2.2 100V E lectrolytic ABC 532 V C K Y P A1HB 102K + R 1000P 50V C eramic AAC 534 R C -K Z1007C E ZZ R C eramic ACC 600 V C F P F A2E B 154J R 0.15 250V M.P olypro ACC 601 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AAC 602 V C F P V C 3ZA223H R 0.022 1.8kV M.P olyproC 603 V C QP P C 2J B 473J R 0.047 630V Mylar ACC 605 V C K Y P A2HB 102K + R 1000P 500V C eramic AAC 606 V C K Y P H3DB 561K R 560P 2kV C eramic ACC 607 R C -K Z0106G E ZZ R 3300P 250V C eramic AGC 608 V C E A4A2E N106M+ R 10 250V E lectrolytic ADC 609 V C K Y P A2HB 102K + R 1000P 500V C eramic AAC 610 V C E A0A1E W108M R 1000 25V E lectrolytic ADC 611 V C E A0A1V W476M+R 47 35V E lectrolytic ABC 612 V C K Y P A2HB 151K + R 150P 500V C eramic AB
F IL T E R SS F 201 R F iLC A021WJ ZZ R F ilter AKS F 202 R F iLC A020WJ ZZ R F ilter AM
C OIL S A ND T R A NS F OR ME R SL51 V P -C F 270K 0000* R P eaking, 27µH ABL202 V P -DF 100K 0000* R P eaking, 10µH ABL203 V P -XF 1R 2K 0000* R P eaking, 1.2µH ABL301 R C iLP A288WJ ZZ R C oil AFL302 R C iLP A288WJ ZZ R C oil AFL503 R C iLZA029WJ ZZ R C oil AML504 V P -XF 220K 0000* R P eaking, 22µH ABL601 R C iLZ1005C E ZZ R C oil AHL603 R C iLZA053WJ ZZ R C oil AGL701 R C iLF A125WJ ZZ R C oil AKL751 R C iLP 0179C E ZZ+ R C oil ADL2001 V P -XF 220K 0000* R P eaking, 22µH ABL2003 V P -MK 560K 0000+ R P eaking, 56µH ABL2004 V P C E M100MR 70NY R P eaking, 10µH ACL2005 V P C E M100MR 70NY R P eaking, 10µH ACL2006 V P C E M100MR 70NY R P eaking, 10µH ACL2007 V P C E M100MR 70NY R P eaking, 10µH ACL2008 V P -DF 100K 0000* R P eaking, 10µH ABL2009 V P -DF 100K 0000* R P eaking, 10µH ABL2010 V P -DF 100K 0000* R P eaking, 10µH ABL2011 V P C E M100MR 70NY R P eaking, 10µH ACL2012 V P -DF 100K 0000* R P eaking, 10µH ABL2013 V P C E M100MR 70NY R P eaking, 10µH ACL2014 V P -DF 100K 0000* R P eaking, 10µH ABL2100 V P -DF 100K 0000* R P eaking, 10µH ABT 601 R T R NZA050WJ ZZ R T ransformer AFT 602 R T R NF A100WJ ZZ R H-V olt T ransformer AXT 701 R T R NWA134WJ ZZ R T ransformer AR
C A P A C IT OR SC 51 V C E A9M1HW475M+R 4.7 50V E lectrolytic ABC 53 V C E A0A0J W338M R 3300 6.3V E lectrolytic ADC 55 V C E A0A1HW105M+R 1 50V E lectrolytic ABC 201 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AAC 202 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 205 V C E A9M1HW106M+R 10 50V E lectrolytic ABC 206 V C E A9M1HW106M+R 10 50V E lectrolytic ABC 207 V C E A9M1C W106M+R 10 16V E lectrolytic ABC 208 V C E A9M1HW225M+R 2.2 50V E lectrolytic ABC 209 V C E A9M1HW225M+R 2.2 50V E lectrolytic ABC 210 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 211 V C K Y C Y 1HB 332K * R 3300P 50V C eramic AAC 212 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AAC 213 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AAC 214 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AAC 215 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AAC 216 V C K Y C Y 1AB 105K * R 1 10V C eramic ABC 217 V C E A0A1C W107M+R 100 16V E lectrolytic ACC 218 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AAC 219 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AAC 222 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 223 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 224 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AAC 301 V C E A9M1C W105M+R 1 16V E lectrolytic ABC 303 V C K Y T V 1HF 224Z* R 0.22 50V C eramic ACC 305 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AAC 306 V C K Y C Y 1HB 331K * R 330P 50V C eramic AAC 307 V C K Y C Y 1HB 223K * R 0.22 50V C eramic AAC 308 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 309 V C K Y T V 1HF 224Z* R 0.22 50V C eramic ACC 310 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AA
C 312 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AA
H H
C 311 V C C C C Y 1HH470J * R 47P 50V C eramic AB
C 395 V C E 9E M1HW105M+R 1 50V E lectrolytic ABC 396 V C E 9E M1HW105M+R 1 50V E lectrolytic ABC 397 V C K Y C Y 1C F 474Z* R 0.47 16V C eramic AAC 398 V C K Y C Y 1C F 474Z* R 0.47 16V C eramic AA
C 613 V C C C C Y 1HH101J * R 100P 50V C eramic AAC 614 V C E A0A1V W336M+R 33 35V E lectrolytic AAC 615 V C K Y P A2HB 102K + R 1000P 500V C eramic AA
R ef. No. P art No. � Des c ription C ode R ef. No. P art No. � Des c ription C ode
35
C 616 V C E A0A1E W108M R 1000 25V E lectrolytic ADC 617 V C QY T A2AA104K + R 0.1 100V Mylar ABC 618 R C -K Z0033C E ZZ R 150P 2kV C eramic ABC 620 V C K Y P A1HB 472K + R 4700P 50V C eramic ABC 621 V C E A0A1HW476M+R 47 50V E lectrolytic ABC 622 V C K Y P A2HB 561K + R 560P 500V C eramic AAC 623 V C K Y P A2HB 272K + R 2700P 500V C eramic ABC 624 V C E A9M1HW475M+R 4.7 50V E lectrolytic ABC 625 V C K Y P A1HB 104K + R 0.1 50V C eramicC 627 R C -F ZA178WJ ZZ R 4.7 100V M.P olypro AGC 635 R C -F Z0363C E ZZ R 0.56 250V M.P olypro AFC 636 R C -F Z0357C E ZZ R 0.22 250V M.P olypro AEC 644 V C C C C Y 1HH102J * R 1000P 50V C eramic ABC 645 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 701 V C K Y P A1HB 102K + R 1000P 50V C eramic AAC 702 R C -E ZA243WJ ZZ R 330 400V E lectrolytic AQC 703 R C -K Z018J C E ZZ R 0.01 250V C eramic ACC 704 R C -K Z018J C E ZZ R 0.01 250V C eramic ACC 705 V C F Y F A1HA104J + R 0.1 50V Mylar AAC 706 V C E A0A1V W106M+R 10 35V E lectrolytic ABC 707 R C -K Z1007C E ZZ R 820P C eramic ACC 708 V C E A9M1HW105M+R 1 50V E lectrolytic ABC 709 V C K Y P A1HB 221K + R 220P 50V C eramic AAC 711 R C -F ZA097WJ ZZ R 820P Mylar ACC 713 V C E A9M1C W106M+R 10 16V E lectrolytic ABC 714 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AAC 717 V C F Y AA2J A103K + R 0.01 630V Mylar ACC 751 V C E A0A1C W476M+R 47 16V E lectrolytic ABC 752 V C E A0A1E W478M R 4700 25V E lectrolytic AGC 753 R C -K Z016S C E ZZ R 470P 4kV C eramic ADC 754 R C -E ZA065WJ ZZ R 330 160V C eramic AKC 755 R C -E ZA065WJ ZZ R 330 160V C eramic AKC 756 R C -K Z0226C E ZZ+ R 180P 2kV C eramic ACC 757 V C E A0A1C W476M+R 47 16V E lectrolytic ABC 758 R C -K Z0120G E ZZ R 150P 2kV C eramic ACC 759 V C E A0A1E W108M R 1000 25V E lectrolytic ADC 761 V C K Y P A2HB 101K + R 100P 500V C eramic ABC 763 V C E A0A1HW105M+R 1 50V E lectrolytic ABC 764 V C K Y P A2HB 101K + R 100P 500V C eramic ABC 765 V C E A0A1E W108M R 1000 25V E lectrolytic ADC 766 V C K Y P A2HB 101K + R 100P 500V C eramic ABC 767 V C K Y C Y 1HB 153K * R 0.015 50V C eramic AAC 768 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 773 V C E A0A1HW106M+R 10 50V E lectrolytic ABC 904 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 905 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AAC 907 V C E A0A1HW106M+R 10 50V E lectrolytic ABC 908 V C K Y Y C Y 1HB 104K * R 0.1 50V C eramic AAC 911 V C K Y Y C Y 1HB 104K * R 0.1 50V C eramic AAC 912 V C K Y Y C Y 1HB 103K * R 0.01 50V C eramic AAC 922 V C K Y Y C Y 1HB 183K * R 0.018 50V C eramic AAC 923 V C K Y Y C Y 1HB 183K * R 0.018 50V C eramic AAC 928 V C E A0A1C W106M+R 10 16V E lectrolytic ABC 930 V C E A0A1C W106M+R 10 16V E lectrolytic ABC 931 V C E A0A1C W477M+R 470 16V E lectrolytic ACC 934 V C E A0A1HW105M+R 1 50V E lectrolytic ABC 935 V C E A0A1HW105M+R 1 50V E lectrolytic ABC 937 V C E A0A1HW106M+R 10 50V E lectrolytic ABC 938 V C E A0A1HW106M+R 10 50V E lectrolytic ABC 939 V C E A0A1C W227M+R 220 16V E lectrolytic ACC 942 V C E A0A1HW106M+R 10 50V E lectrolytic AB
C 948 V C C C C Y 1HH180J * R 18P 50V C eramic AAC 949 R C -E Z0380G E ZZ R C apacitor AMC 952 V C C C C Y 1HH681J * R 680P 50V C eramic ABC 953 V C C C C Y 1HH681J * R 680P 50V C eramic ABC 956 V C C C C Y 1HH681J * R 680P 50V C eramic ABC 957 V C C C C Y 1HH681J * R 680P 50V C eramic ABC 959 V C C C C Y 1HH681J * R 680P 50V C eramic ABC 960 V C C C C Y 1HH681J * R 680P 50V C eramic ABC 963 V C E A0A1HW106M+R 10 50V E lectrolytic AB
C 965 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AA
C 2004 V C E A0A1C W226M+R 22 16V E lectrolytic ABC 2005 V C K Y Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2006 V C K Y Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2007 V C K Y Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2008 V C K Y Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2009 V C E A9M1C W106M+R 10 16V E lectrolytic ABC 2010 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2012 V C K Y C Y 1HB 102K * R 1000P 50V C eramic AAC 2013 V C C C C Y 1HH7R 0DY R 7P 50V C eramic AAC 2014 V C C C C Y 1HH7R 0DY R 7P 50V C eramic AAC 2017 V C K Y C Y 1C F 224Z* R 0.22 16V C eramic ABC 2018 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2019 V C E A9M1C W107M+R 100 16V E lectrolytic ABC 2020 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2021 V C E A9M1C W107M+R 100 16V E lectrolytic ABC 2022 V C K Y C Y 1C F 224Z* R 0.22 16V C eramic ABC 2023 V C K Y C Y 1C F 224Z* R 0.22 16V C eramic ABC 2025 V C K Y C Y 1C F 224Z* R 0.22 16V C eramic ABC 2026 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2027 V C E A9M1C W107M+R 100 16V E lectrolytic ABC 2028 V C K Y C Y 1C F 224Z* R 0.22 16V C eramic ABC 2029 V C K Y C Y 1C F 224Z* R 0.22 16V C eramic ABC 2030 V C K Y C Y 1C F 224Z* R 0.22 16V C eramic ABC 2032 V C E A0A1J W227M+ R 220 63V E lectrolytic ACC 2034 V C F Y F A1HA224J + R 0.22 50V Mylar ABC 2035 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2036 V C K Y C Y 1C F 224Z* R 0.22 16V C eramic ABC 2038 V C E A9M1HW105M+R 1 50V E lectrolytic ABC 2039 V C K Y C Y 1C F 334Z* R 0.33 16V C eramic ABC 2040 V C E A9M1C W107M+R 100 16V E lectrolytic ABC 2041 V C K Y Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2042C 2044 V C K Y Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2045 V C K Y Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2046 V C E A0A1AW107M+R 100 10V E lectrolytic ABC 2047 V C K Y Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2048 V C K Y Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2100 V C E A0A1C W226M+R 22 16V E lectrolytic ABC 2101 V C K Y C Y 1AB 334K * R 0.33 10V C eramic AB
R E S IS T OR SJ A38 V R D-R A2B E 101J * R 100 1/8W C arbon AAR J 10 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 11 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 12 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 15 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 16 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 18 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 19 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 20 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 21 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 22 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 23 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 24 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 25 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 27 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 32 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 33 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 36 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 37 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 38 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 40 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 41 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 51 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AA
R J 236 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 307 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 457 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 501 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 506 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AA
R J 701 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 901 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AA
�H�H
C 944 R C -E ZA559WJ ZZ R C apacitor AM
C 964 V C E A0A1C W106M+R 10 16V E lectrolytic AB
C 966 V C E A0A1C W106M+R 10 16V E lectrolytic ABC 2001 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AA
C 2003 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AAC 2002 V C K Y C Y 1HB 104K * R 0.1 50V C eramic AA
V R S -C Y 1J F 103J Y R 10K 1/16W Metal Oxide AA
R J 200 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AA
R J 603 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AA
R ef. No. P art No. � Des c ription C ode R ef. No. P art No. � Des c ription C ode
36
R J 924 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 926 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 927 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 928 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 929 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AA
R J 938 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 939 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 940 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 960 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 961 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 963 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AA
R 51 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR 52 V R D-R A2B E 103J * R 10K 1/8W C arbon AAR 53 V R S -C Y 1J F 563J * R 56K 1/16W Metal Oxide AAR 54 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 55 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 103 V R S -V V 3DB 123J R 12K 2W Metal Oxide AAR 201 V R S -C Y 1J F 222J * R 2.2K 1/16W Metal Oxide AAR 202 V R S -C Y 1J F 682J * R 6.8K 1/16W Metal Oxide AAR 204 V R S -C Y 1J F 222J * R 2.2K 1/16W Metal Oxide AAR 205 V R S -C Y 1J F 471J * R 470 1/16W Metal Oxide AAR 206 V R S -C Y 1J F 392J * R 3.9K 1/16W Metal Oxide AAR 207 V R S -C Y 1J F 272J * R 2.7K 1/16W Metal Oxide AAR 208 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 210 V R D-R A2B E 122J * R 1.2K 1/8W C arbon AAR 212 V R S -C Y 1J F 682J * R 6.8K 1/16W Metal Oxide AAR 214 V R S -C Y 1J F 222J * R 2.2K 1/16W Metal Oxide AAR 216 V R S -C Y 1J F 222J * R 2.2K 1/16W Metal Oxide AAR 217 V R D-R A2B E 223J * R 22K 1/8W C arbon AAR 218 V R S -C Y 1J F 223J * R 22K 1/16W Metal Oxide AAR 219 V R S -C Y 1J F 223J * R 22K 1/16W Metal Oxide AAR 220 V R D-R A2B E 223J * R 22K 1/8W C arbon AAR 221 V R S -C Y 1J F 181J * R 180 1/16W Metal Oxide AAR 227 V R S -C Y 1J F 680J * R 68 1/16W Metal Oxide AAR 228 V R S -C Y 1J F 102J * R 1K 1/16W Metal Oxide AAR 230 V R S -C Y 1J F 391J * R 390 1/16W Metal Oxide AAR 303 V R S -C Y 1J F 100J * R 10 1/16W Metal Oxide AAR 304 V R S -C Y 1J F 100J * R 10 1/16W Metal Oxide AAR 305 V R S -C Y 1J F 562J * R 5.6K 1/16W Metal Oxide AAR 310 V R D-R A2B E 123J * R 12K 1/8W C arbon AAR 311 V R S -C Y 1J F 562J * R 5.6K 1/16W Metal Oxide AAR 315 V R S -C Y 1J F 273J * R 27K 1/16W Metal Oxide AAR 317 V R S -C Y 1J F 562J * R 5.6K 1/16W Metal Oxide AAR 320 V R S -C Y 1J F 562J * R 5.6K 1/16W Metal Oxide AAR 321 V R S -C Y 1J F 100J * R 10 1/16W Metal Oxide AAR 322 V R S -C Y 1J F 100J * R 10 1/16W Metal Oxide AAR 323 V R S -C Y 1J F 562J * R 5.6K 1/16W Metal Oxide AAR 336 V R S -V V 3AB 220J R 22 1W Metal Oxide AAR 337 V R S -V V 3AB 220J R 22 1W Metal Oxide AAR 339 V R N-V V 3AB 4R 7J R 4.7 1W Metal F ilm AAR 340 V R N-V V 3AB 4R 7J R 4.7 1W Metal F ilm AAR 344 V R S -C Y 1J F 562J R 5.6K 1/16W Metal Oxide AA
R 347 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 348 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AA
R 355 V R S -C Y 1J F 562J * R 5.6K 1/16W Metal Oxide AAR 375 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 376 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 377 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 378 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 390 V R N-V V 3AB R 22J R 0.22 1W Metal F ilm AAR 391 V R N-V V 3AB R 22J R 0.22 1W Metal F ilm AAR 392 V R S -C Y 1J F 333J * R 33K 1/16W Metal Oxide AAR 393 V R S -C Y 1J F 103J * R 10K 1/16W Metal Oxide AAR 394 V R S -C Y 1J F 333J * R 33K 1/16W Metal Oxide AA
R 395 V R S -C Y 1J F 103J * R 10K 1/16W Metal Oxide AAR 396 V R S -C Y 1J F 103J * R 10K 1/16W Metal Oxide AAR 397 V R S -C Y 1J F 333J * R 33K 1/16W Metal Oxide AAR 501 V R S -C Y 1J F 562J * R 5.6K 1/16W Metal Oxide AAR 502 V R S -C Y 1J F 123J * R 12K 1/16W Metal Oxide AAR 503 V R D-R A2B E 222J * R 2.2K 1/8W C arbon AAR 504 V R D-R A2B E 822J * R 8.2K 1/8W C arbon AAR 505 V R S -C Y 1J F 123J * R 12K 1/16W Metal Oxide AAR 507 V R N-R A2B K 272F * R 2.7K 1/8W Metal F ilm AAR 508 V R D-R A2B E 683J * R 68K 1/8W C arbon AAR 513 V R S -C Y 1J F 103J * R 10K 1/16W Metal Oxide AAR 514 V R N-V V 3AB R 82J R 0.82 1W Metal F ilm AAR 515 V R S -V V 3DB 221J R 220 2W Metal Oxide AAR 516 V R S -V V 3DB 471J R 470 2W Metal Oxide AAR 518 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 519 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 520 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 521 V R S -C Y 1J F 123J * R 12K 1/16W Metal Oxide AAR 522 V R D-R A2B E 102J * R 1K 1/8W C arbon AAR 523 V R D-R M2HD680J * R 68 1/2W C arbon AAR 524 V R D-R A2B E 103J * R 10K 1/8W C arbon AAR 525 V R D-R A2B E 102J * R 1K 1/8W C arbon AAR 600 V R S -C Y 1J F 393F * R 39K 1/16W Metal Oxide AAR 602 V R S -S V 2HC 270J R 27 1/2W Metal Oxide AAR 603 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 604 V R N-V V 3AB 4R 7J R 4.7 1W Metal F ilm AAR 605 V R D-R A2E E 103G * R 10K 1/4W C arbon AAR 606 V R N-V V 3AB R 47J R 0.47 1W Metal F ilm AAR 607 V R D-R A2E E 103J * R 10K 1/4W C arbon AAR 608 V R S -C Y 1J F 393J * R 39K 1/16W Metal Oxide AAR 609 V R N-V V 3DB 6R 8J R 6.8 2W Metal F ilm ABR 610 V R N-V V 3DB R 15J R 0.15 2W Metal F ilm ABR 611 V R S -V V 3DB 332J R 3.3K 2W Metal Oxide AAR 612 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 614 V R D-R M2HD124J * R 120K 1/2W C arbon AAR 615 V R D-R M2HD154J * R 150K 1/2W C arbon AAR 616 V R D-R M2HD472J * R 4.7K 1/2W C arbon AAR 617 V R D-R A2B E 102J * R 1K 1/8W C arbon AAR 618 V R N-V V 3AB R 47J * R 0.47 1W Metal F ilm AAR 619 V R S -S V 2HC 102J * R 1K 1/2W Metal Oxide AAR 620 V R D-R A2B E 152J * R 1.5K 1/8W C arbon AAR 621 V R D-R M2HD220J * R 22 1/2W C arbon AAR 622 V R D-R A2B E 394J * R 390K 1/8W C arbon AAR 623 V R S -V V 3AB 102J R 1K 1W Metal Oxide AAR 624 V R D-R A2B E 394J * R 390K 1/8W C arbon AAR 625 V R D-R A2B E 394J * R 390K 1/8W C arbon AAR 626 V R S -V V 3AB 562J R 5.6K 1W Metal Oxide AAR 627 V R S -C Y 1J F 394J * R 390K 1/16W Metal Oxide AAR 628 V R S -K A3NG 1R 2K R 1.2 7W Metal Oxide ADR 631 V R S -K A3NG 122J R 1.2K 7W Metal Oxide ADR 633 V R S -C Y 1J F 331J * R 330 1/16W Metal Oxide AAR 634 V R S -C Y 1J F 331J * R 330 1/16W Metal Oxide AAR 635 V R S -C Y 1J F 102J * R 1K 1/16W Metal Oxide AAR 636 V R S -V V 3AB 221J R 220 1W Metal Oxide AAR 637 V R S -C Y 1J F 563J * R 56K 1/16W Metal Oxide AAR 638 V R S -C Y 1J F 473J * R 47K 1/16W Metal Oxide AAR 639 V R S -K A3NG 152J R 1.5K 7W Metal Oxide ADR 640 V R S -C Y 1J F 182J * R 1.8K 1/16W Metal Oxide AAR 643 V R N-V V 3LB 3R 3J R 3.3 3W Metal F ilm ABR 645 V R D-R A2B E 473J * R 47K 1/8W C arbon AAR 652 V R S -C Y 1J F 102J * R 1K 1/16W Metal Oxide AAR 654 V R S -V V 3DB 103J R 10K 2W Metal Oxide AAR 657 V R S -K A3HG 681J R 680 5W Metal Oxide ADR 669 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 671 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 701 V R D-R M2HD100J * R 10 1/2W C arbon AAR 702 V R D-R A2E E 152J * R 1.5K 1/4W C arbon AAR 703 V R D-R A2E E 473J * R 47K 1/4W C arbon AAR 704 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 705 V R D-R A2B E 102J * R 1K 1/8W C arbon AAR 706 V R D-R A2B E 102J * R 1K 1/8W C arbon AAR 707 V R S -V V 3DB 104J R 100K 2W Metal Oxide ABR 709 V R N-V V 3DB R 22J R 0.22 2W Metal F ilm ABR 712 R R -HZ0014G E ZZ* R 12M 1W R esistor AER 715 V R S -C Y 1J F 154J * R 150K 1/16W Metal Oxide AA
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R J 904 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 909 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 921 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 922 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 923 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AA
R J 936 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AA
R J 964 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 965 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 966 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AA
R 346 V R S -C Y 1J F 103J * R 10K 1/16W Metal Oxide AA
R 349 V R D-R A2B E 103J * R 10K 1/8W C arbon AA
R ef. No. P art No. � Des c ription C ode R ef. No. P art No. � Des c ription C ode
37
R 765 V R D-R A2B E 102J * R 1K 1/8W C arbon AAR 767 V R S -V V 3DB 220J R 22 2W Metal Oxide AAR 768 V R D-R A2E E 182J * R 1.8K 1/4W C arbon AAR 769 V R D-R A2B E 821J * R 820 1/8W C arbon AAR 901 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR 902 V R S -C Y 1J F 103J * R 10K 1/16W Metal Oxide AAR 903 V R S -C Y 1J F 750J * R 75 1/16W Metal Oxide AAR 905 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 906 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 907 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 908 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 909 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 910 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 911 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 912 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 913 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 914 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 915 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR 917 V R S -C Y 1J F 103J * R 10K 1/16W Metal Oxide AAR 918 V R S -C Y 1J F 103J * R 10K 1/16W Metal Oxide AAR 919 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR 920 V R S -C Y 1J F 103J * R 10K 1/16W Metal Oxide AAR 921 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR 926 V R S -C Y 1J F 151J * R 150 1/16W Metal Oxide AAR 928 V R D-R A2B E 333J * R 33K 1/8W C arbon AAR 930 V R S -C Y 1J F 750J * R 75 1/16W Metal Oxide AAR 931 V R S -C Y 1J F 750J * R 75 1/16W Metal Oxide AAR 932 V R S -C Y 1J F 750J * R 75 1/16W Metal Oxide AAR 933 V R S -C Y 1J F 151J * R 150 1/16W Metal Oxide AAR 934 V R S -C Y 1J F 750J * R 75 1/16W Metal Oxide AAR 935 V R S -C Y 1J F 104J * R 100K 1/16W Metal Oxide AAR 936 V R S -C Y 1J F 122J * R 1.2K 1/16W Metal Oxide AAR 938 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 942 V R S -C Y 1J F 122J * R 1.2K 1/16W Metal Oxide AAR 944 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 945 V R S -C Y 1J F 473J * R 47K 1/16W Metal Oxide AAR 947 V R D-R A2B E 561J * R 560 1/8W C arbon AAR 948 V R S -C Y 1J F 473J * R 47K 1/16W Metal Oxide AAR 949 V R S -C Y 1J F 561J * R 560 1/16W Metal Oxide AAR 950 V R S -C Y 1J F 102J * R 1K 1/16W Metal Oxide AAR 952 V R S -C Y 1J F 102J * R 1K 1/16W Metal Oxide AAR 956 V R D-R A2B E 560J * R 56 1/8W C arbon AAR 957 V R S -C Y 1J F 331J * R 330 1/16W Metal Oxide AAR 959 V R S -C Y 1J F 223J * R 22K 1/16W Metal Oxide AAR 960 V R S -C Y 1J F 331J * R 330 1/16W Metal Oxide AAR 963 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 964 V R D-R A2B E 123J * R 12K 1/8W C arbon AAR 967 V R D-R A2B E 333J * R 33K 1/8W C arbon AAR 968 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 969 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 970 V R D-R A2B E 333J * R 33K 1/8W C arbon AAR 971 V R S -C Y 1J F 562J * R 5.6K 1/16W Metal Oxide AAR 972 V R D-R A2B E 333J * R 33K 1/8W C arbon AA
R 977 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 978 V R S -C Y 1J F 104J * R 100K 1/16W Metal Oxide AAR 979 V R S -C Y 1J F 104J * R 100K 1/16W Metal Oxide AAR 1032 V R S -C Y 1J F 122J * R 1.2K 1/16W Metal Oxide AAR 1034 V R D-R A2B E 122J * R 1.2K 1/8W C arbon AAR 2001 V R D-R A2B E 103J * R 10K 1/8W C arbon AAR 2002 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 2004 V R S -C Y 1J F 332J * R 3.3K 1/16W Metal Oxide AAR 2005 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 2006 V R D-R A2B E 101J * R 100 1/8W C arbon AA
R 2007 V R S -C Y 1J F 222J * R 2.2K 1/16W Metal Oxide AAR 2008 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 2009 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 2010 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 2011 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 2012 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 2015 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 2016 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 2017 V R S -C Y 1J F 102J * R 1K 1/16W Metal Oxide AAR 2019 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 2020 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 2021 V R D-R A2B E 100J * R 10 1/8W C arbon AAR 2022 V R S -C Y 1J F 100J * R 10 1/16W Metal Oxide AAR 2023 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 2024 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 2025 V R D-R A2B E 101J * R 100 1/8W C arbon AA
R 2028 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 2029 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 2030 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 2031 V R S -V V 3AB 100J R 10 1W Metal Oxide AAR 2033 V R S -C Y 1J F 684J * R 680K 1/16W Metal Oxide AAR 2034 V R S -V V 3AB 100J R 10 1W Metal Oxide AAR 2035 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 2036 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 2039 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 2040 V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide AAR 2041 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR 2042 V R S -C Y 1J F 332J * R 3.3K 1/16W Metal Oxide AAR 2043 V R S -C Y 1J F 332J * R 3.3K 1/16W Metal Oxide AAR 2044 V R S -C Y 1J F 103J * R 10K 1/16W Metal Oxide AAR 2052 V R S -C Y 1J F 332J * R 3.3K 1/16W Metal Oxide AAR 2101 V R D-R A2B E 563G * R 56K 1/8W C arbon AAR 2102 V R D-R A2B E 333G * R 33K 1/8W C arbon ABR 2103 V R D-R A2B E 333G * R 33K 1/8W C arbon ABR 2104 V R S -C Y 1J F 472J * R 4.7K 1/16W Metal Oxide AAR 2105 V R S -C Y 1J F 472J * R 4.7K 1/16W Metal Oxide AAR 2106 V R D-R A2B E 563G * R 56K 1/8W C arbon AAR 2107 V R D-R A2B E 101J * R 100 1/8W C arbon AA
MIS C E L L A NE OUS P A R T SF B 303 R B LN-0047C E ZZ R B alun ABF B 304 R B LN-0047C E ZZ R B alun ABF B 501 R B LN-0047C E ZZ R B alun ABF B 502 R B LN-0047C E ZZ R B alun ABF B 503 R B LN-0020C E ZZ R B alun ABF B 601 R B LN-0047C E ZZ R B alun ABF B 602 R B LN-0047C E ZZ R B alun ABF B 603 R B LN-0020C E ZZ R B alun ABF B 702 R B LN-0020C E ZZ R B alun ABF B 703 R B LN-0020C E ZZ R B alun ABF B 751 R B LN-0020C E ZZ R B alun ABF B 752 R B LN-0020C E ZZ R B alun AB
J 905 QT ANJ A056WJ ZZ R T erminal AHJ 907 QS OC DA023WJ ZZ R S ocket AEP 301 QP LG N0461C E ZZ R P lug, 4pin ABP 401 QP LG N0878G E ZZ R P lug, 8pin(K Y ) ACP 601 QP LG N0160F J ZZ R P lug, 5pin(K ) ADP 621 QP LG N0761C E ZZ R P lug, 7pin(H) ADP 701 QP LG N0260C E ZZ R P lug, 2pin ACP 702 QP LG N0269G E ZZ R P lug, 2pin(AC ) ABP 1001 QP LG N0761C E ZZ R P lug, 7pin(C C ) ADP 1002 QP LG N0678G E ZZ R P lug, 6pin(C A) ABP 1003 QP LG N0778G E ZZ R P lug, 7pin(C D) ACP 1004 QP LG N0461C E ZZ R P lug, 4pin(C B ) AB
P 2100 QP LG N0661C E ZZ R P lug, 6pin ADR DA602 P R DAR A123WJ P W R Heat S ink AFR DA604 P R DAR A113WJ P W R Heat S ink AFR DA701 P R DAR A140WJ P W R Heat S ink AER DA751 P R DAR 5072C E F W R Heat S ink ACR Y 701 R R LY J 0089C E ZZ R R elay AGT P 53 QLUG P 0102P E ZZ R Lug AA
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R 716 V R N-V V 3DB R 22J R 0.22 2W Metal F ilm ABR 717 V R S -V V 3DB 104J R 100K 2W Metal Oxide ABR 752 V R S -V V 3AB 330J R 33 1W Metal Oxide AAR 753 V R D-R A2E E 471J * R 470 1/4W C arbon AAR 760 V R S -C Y 1J F 102J * R 1K 1/16W Metal Oxide AAR 761 V R S -C Y 1J F 103J * R 10K 1/16W Metal Oxide AAR 762 V R S -V V 3DB 220J R 22 2W Metal Oxide AAR 763 V R D-R A2B E 470J * R 47 1/8W C arbon AAR 764 V R D-R A2B E 102J * R 1K 1/8W C arbon AA
R 973 V R S -C Y 1J F 104J * R 100K 1/16W Metal Oxide AAR 974 V R S -C Y 1J F 104J * R 100K 1/16W Metal Oxide AAR 975 V R S -C Y 1J F 680J * R 68 1/16W Metal Oxide AAR 976 V R S -C Y 1J F 680J * R 68 1/16W Metal Oxide AA
R 2026 QJ UM-0001AJ F W* R J umper AA
J A268 R B LN-0054C E ZZ* R B alun AB
P 1005 QP LG N0361C E ZZ R P lug, 3pin(V AO) AB
S C 1600 QS OC N0261F J 00 R S ocket, 12P in(G A) AES C 1601 QS OC N0259F J 00 R S ocket, 10P in(G B ) AE
R ef. No. P art No. � Des c ription C ode R ef. No. P art No. � Des c ription C ode
38
R 1511 V R D-R A2B E 683J * R 68K 1/8W C arbon AAR 1512 V R D-R A2B E 122J * R 1.2K 1/8W C arbon AAR 1513 V R D-R A2B E 123J * R 12K 1/8W C arbon AAR 1514 V R S -V V 3DB 221J R 220 2W Metal Oxide AAR 1515 V R D-R A2E E 560J * R 56 1/4W C arbon AAR 1516 V R D-R A2E E 560J * R 56 1/4W C arbon AAR 1517 V R D-R A2E E 1R 5J * R 1.5 1/4W C arbon AAR 1518 V R D-R A2E E 4R 7J * R 4.7 1/4W C arbon AAR 1519 V R S -V V 3DB 221J R 220 2W Metal Oxide AAR 1520 V R D-R A2B E 102J * R 1K 1/8W C arbon AAR 1521 V R D-R A2B E 223J * R 22K 1/8W C arbon AAR 1522 V R D-R A2B E 821J * R 820 1/8W C arbon AAR 1523 V R D-R A2B E 471J * R 470 1/8W C arbon AAR 1524 V R D-R A2B E 471J * R 470 1/8W C arbon AAR 1525 V R D-R A2B E 152J * R 1.5K 1/8W C arbon AAR 1526 V R D-R A2B E 393J * R 39K 1/8W C arbon AAR 1527 V R D-R A2B E 182J * R 1.8K 1/8W C arbon AAR 1528 V R D-R A2B E 821J * R 820 1/8W C arbon AAR 1529 V R D-R A2B E 273J * R 27K 1/8W C arbon AAR 1530 V R D-R A2B E 393J * R 39K 1/8W C arbon AAR 1531 V R D-R A2B E 152J * R 1.5K 1/8W C arbon AAR 1532 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 1534 V R D-R A2B E 221J * R 220 1/8W C arbon AA
MIS C E L L A NE OUS P A R T SF B 852 R B LN-0034G E ZZ* R B alun ABF B 1501 R B LN-0020C E ZZ+ R B alun ABP 851 QT IP M0083C E ZZ R T ip, 1pin ABP 852 QT IP M0083C E ZZ R T ip, 1pin ABP 854 QP LG N0261C E ZZ R P lug, 2pin ABP 855 QP LG N0761C E ZZ R P lug, 7pin(H) ADP 860 QP LG N0878G E ZZ R P lug, 8pin(K Y ) ACR DA851 P R DAR 0248P E F W R Heat S ink AFR DA1503 P R DAR 0083P E F W R Heat S ink ADR DA1504 P R DAR 0083P E F W R Heat S ink ADS C 851 QS OC V A005WJ ZZ R S ocket, 12pin AE
P WB -C DUNT K D090WE A 2F R ONT Unit
INT E G R A T E D C IR C UIT SIC 4701 V HiMIP 0254/-1 R MiP 0254S P S C F AL
T R A NS IS T OR SQ4001 V S 2S A1266-Y -1+ R 2S A1266-Y AAQ4002 V S 2S C 3198-Y -1+ R 2S C 3198-Y AAQ4003 V S 2S C 3198-Y -1+ R 2S C 3198-Y AAQ4004 V S 2S C 3198-Y -1+ R 2S C 3198-Y AA
DIODE SD4001 R H-P XA036WJ ZZ R P hotoDiode ADD4002 R H-P XA036WJ ZZ R P hotoDiode ADD4003 R H-P X0037P E ZZ R P hotoDiode ADD4701 R H-DX0407C E ZZ* R Diode ADD4706 R H-E X1329C E ZZ* R Zener Diode ADD4707 R H-DX0083G E ZZ R Diode ACIC 4702 R H-F XA003WJ ZZ R P C 123Y 82 ADR 4702 R H-HXA014WJ ZZ+ R T hermistor AD
P A C K A G E D C IR C UITV A4701 R H-V X0073C E ZZ R V aris tor AD
C OIL & T R A NS F OR ME RL4701 R C iLF A106WJ ZZ R C oil AEL4903 R C iLP 0195C E ZZ+ R C oil ACT 4701 R T R NZ0190P E ZZ R T ransformer AH
P WB -B DUNT K C 519WE B 1C R T Unit
INT E G R A T E D C IR C UITIC 851 V HiT DA6107A-1 R T DA6107AJ F /N1 AK
T R A NS IS T OR SQ1501 V S 2S C 3198-Y -1+ R 2S C 3198-Y AAQ1502 V S 2S A1266-Y -1+ R 2S A1266-Y AAQ1503 V S 2S A2005++1E R 2S A2005 AEQ1504 V S 2S C 5511++1E R 2S C 5511 AEQ1505 V S 2S C 3198-Y -1+ R 2S C 3198-Y AAQ1506 V S 2S C 3198-Y -1+ R 2S C 3198-Y AAQ1507 V S 2S C 3198-Y -1+ R 2S C 3198-Y AAQ1508 V S 2S C 3198-Y -1+ R 2S C 3198-Y AA
DIODE SD851 R H-DX0220C E ZZ* R Diode ABD852 R H-DX0220C E ZZ* R Diode ABD853 R H-DX0220C E ZZ* R Diode ABD854 R H-DX0220C E ZZ* R Diode ABD855 R H-DX0220C E ZZ* R Diode ABD856 R H-DX0220C E ZZ* R Diode ABD1501 V HD1S S 133++-1* R 1S S 133 AAD1506 V HD1S S 133++-1* R 1S S 133 AAD1507 V HD1S S 133++-1* R 1S S 133 AAD1508 R H-DX0487C E ZZ* R Diode ACD1509 R H-DX0487C E ZZ* R Diode AC
C A P A C IT OR SC 851 V C F Y S B 2E B 823J R 0.082 250V Mylar ADC 852 V C E A0A2E W106M+R 10 250V E lectrolytic ADC 853 V C K Y P A2HB 221K + R 220P 500V C eramic ABC 854 R C -K Z018J C E ZZ R 0.01 AC 250V C eramic ACC 855 V C K Y P A2HB 221K + R 220P 500V C eramic ABC 857 V C F Y S B 2E B 823J R 0.082 250V Mylar ADC 858 V C QY T A1HM104J + R 0.1 50V Mylar ABC 859 V C E A0A2AW106M+R 10 100V E lectrolytic ACC 1501 V C E A0A1E W476M+R 47 25V E lectrolytic ABC 1502 V C K Y P A1HF 103Z+ R 0.01 50V C eramic AAC 1503 V C K Y P A2HB 472K + R 4700P 500V C eramic ABC 1504 V C K Y P A2HB 472K + R 4700P 500V C eramic ABC 1505 V C K Y P A1HF 103Z+ R 0.01 50V C eramic AAC 1506 V C K Y P A1HF 103Z+ R 0.01 50V C eramic AAC 1507 V C E A0A1E W476M+R 47 25V E lectrolytic ABC 1508 V C C S P A2HL560K + R 56P 500V C eramic AAC 1510 V C E A4A2C N106M+ R 10 160V E lectrolytic ACC 1511 V C E A0A1E W476M+R 47 25V E lectrolytic ABC 1512 V C QY T A1HM822J + R 8200P 50V Mylar AAC 1513 V C QY T A1HM103J + R 0.01 50V Mylar ABC 1514 V C K Y P A1HB 151K + R 150P 50V C eramic AAC 1515 V C QY T A1HM103J + R 0.01 50V Mylar ABC 1516 V C QY T A1HM104K +R 0.1 50V Mylar ACC 1517 V C K Y P A2HB 102K + R 1000P 500V C eramic AAJ B 311 V C K Y P A2HB 102K + R 1000P 500V C eramic AA
R E S IS T OR SR 851 V R D-R M2HD101J * R 100 1/2W C arbon AAR 852 V R D-R M2HD101J * R 100 1/2W C arbon AAR 853 V R D-R M2HD101J * R 100 1/2W C arbon AAR 854 V R C -MA2HG 152K * R 1.5K 1/2W S olid AAR 855 V R C -MA2HG 152K * R 1.5K 1/2W S olid AAR 856 V R C -MA2HG 152K * R 1.5K 1/2W S olid AAR 858 V R S -S V 2HC 100J R 10 1/2W Metal Oxide AAR 861
QJ UM-0001AJ F W* R J umperC arbon AA
R 863 V R D-R A2B E 221J * R 220 1/8W C arbon AAR 864 V R D-R A2B E 221J * R 220 1/8W C arbon AAR 865 V R D-R A2B E 221J * R 220 1/8W C arbon AAR 1503 V R D-R A2B E 222J * R 2.2K 1/8W C arbon AAR 1504 V R D-R A2B E 100J * R 10 1/8W C arbon AAR 1506 V R D-R A2B E 820J * R 82 1/8W C arbon AAR 1507 V R D-R A2B E 820J * R 82 1/8W C arbon AAR 1509 V R D-R A2B E 122J * R 1.2K 1/8W C arbon AA
R 1510 V R D-R A2B E 683J * R 68K 1/8W C arbon AA
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R 862V R D-R M2HD224J Y R 220K 1/2W
C arbon AA
S WIT C HE SS 4001 QS W-K 0079G E ZZ+ R S witch, ME NU ABS 4002 QS W-K 0079G E ZZ+ R S witch, V OL. UP ABS 4003 QS W-K 0079G E ZZ+ R S witch, C H. DOWN ABS 4004 QS W-K 0079G E ZZ+ R S witch, C H. UP ABS 4005 QS W-K 0079G E ZZ+ R S witch, V OL. DOWN ABS 4701 QS W-P 0612C E ZZ R S witch AG
R ef. No. P art No. � Des c ription C ode R ef. No. P art No. � Des c ription C ode
39
C A P A C IT OR SC 4001 V C E A0A1HW476M+R 47 50V E lectrolytic ABC 4002 V C K Y P A1HF 103Z+ R 0.01 50V C eramic AAC 4701 R C -F ZA097WJ ZZ R 0.22 AC 250VM. P olypro ACC 4702 V C K Y P A2HB 221K + R 220P 500V C eramic ABC 4703 V C E A0A2G W475M R 4.7 400V E lectrolytic AEC 4704 V C QY T A1HM104K +R 0.1 50V Mylar ACC 4705 R C -K Z016S C E ZZ R 470P 4kV C eramic ADC 4706 R C -E ZA160WJ ZZ R 470 16V E lectrolytic ACC 4707 R C -K Z0069G E ZZ R 47P 2kV C eramic ACC 4710 V C E A0A1C W476M+R 47 16V E lectrolytic ABC 4913 V C K Y P A1HB 102K + R 1000P 50V C eramic AAC 4916 V C K Y P A1HB 102K + R 1000P 50V C eramic AAC 4922 V C E A0A1HW106M+R 10 50V E lectrolytic ABC 4924 V C E A0A1HW106M+R 10 50V E lectrolytic AB
R E S IS T OR SR 4001 V R D-R A2B E 221J * R 220 1/8W C arbon AAR 4002 V R D-R A2B E 331J * R 330 1/8W C arbon AAR 4003 V R D-R A2B E 681J * R 680 1/8W C arbon AAR 4004 V R D-R A2B E 152J * R 1.5K 1/8W C arbon AAR 4005 V R D-R A2B E 222J * R 2.2K 1/8W C arbon AAR 4006 V R D-R A2B E 152J * R 1.5K 1/8W C arbon AAR 4008 V R D-R A2B E 223J * R 22K 1/8W C arbon AAR 4009 V R D-R A2B E 103J * R 10K 1/8W C arbon AAR 4010 V R D-R A2B E 470J * R 47 1/8W C arbon AAR 4011 V R D-R A2B E 223J * R 22K 1/8W C arbon AAR 4013 V R D-R A2B E 103J * R 10K 1/8W C arbon AAR 4021 V R D-R A2B E 181J * R 180 1/8W C arbon AAR 4022 V R D-R A2B E 223J * R 22K 1/8W C arbon AAR 4023 V R D-R A2B E 103J * R 10K 1/8W C arbon AAR 4024 V R D-R A2B E 473J * R 47K 1/8W C arbon AAR 4025 V R D-R A2B E 472J * R 4.7K 1/8W C arbon AAR 4026 V R D-R A2B E 331J * R 330 1/8W C arbon AAR 4028 V R D-R A2B E 392J * R 3.9K 1/8W C arbon AAR 4031 V R D-R A2B E 392J * R 3.9K 1/8W C arbon AAR 4033 V R D-R A2B E 181J * R 180 1/8W C arbon AAR 4701 V R C -UA2HG 275K * R 2.7M 1/2W S olid ACR 4703 V R W-K P 3HC 330J R 33 5W C ement AD
R 4912 V R D-R A2B E 103J * R 10K 1/8W C arbon AA
R 4914 V R D-R A2B E 103J * R 10K 1/8W C arbon AAR 4921 V R D-R A2B E 750J * R 75 1/8W C arbon AAR 4923 V R D-R A2B E 750J * R 75 1/8W C arbon AA
MIS C E L L A NE OUS P A R T SF B 4701 R B LN-0094G E ZZ* R B alun ABF B 4702 R B LN-0094G E ZZ* R B alun ABF H4701 QF S HD1013C E ZZ+ R F use Holder ACF H4702 QF S HD1014C E ZZ+ R F use Holder ACF 4701 QF S -C A003WJ ZZ R F use, 5A 250V ACJ 4901 QJ AK G 0023WJ ZZ R J ack AEJ 4902 QS OC DA023WJ ZZ R S ocket AEP 4001 QP LG N0678G E ZZ R P lug, 6pin(C A) ABP 4002 QP LG N0461C E ZZ R P lug, 4pin(C B ) ABP 4003 QP LG N0761C E ZZ R P lug, 7pin(C C ) ADP 4004 QP LG N0778G E ZZ R P lug, 7pin(C D) ACP 4701 QP LG N0269G E ZZ R P lug, 2pin ABP 4702 QP LG N0269G E ZZ R P lug, 2pin(AC ) ABR MC 4001 R R MC UA024WJ ZZ R R emote R eceiver AG
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R 4911 QJ UM-0001AJ F W* R J umper AA
R 4913 QJ UM-0001AJ F W* R J umper AA
MIS C E L L A NE OUS P A R T S
P 1302 QP LG N0361C E ZZ R P lug, 3pin (V AO) AB
P WB -E DUNT K D268WE A 1S UB WOOF E R Unit
J 1301 QJ AK F 0075C E ZZ R J ack AE
P WB -H DUNT K C 518WE A 7ME S S A G E Unit
INT E G R A T E D C IR C UIT SIC 1601 V HiT 7S E T 04F -1Y R T 7S E T 04F AD
DIODE S
P A C K A G E D C IR C UITX1601 R C R S AA052WJ P Z R C rystal AD
C OIL & T R A NS F OR ME RL1601 V P -XF 100K 0000* R ABL4903 R C iLB A015WJ ZZ R Oscillation C oil AEL1603
IC 1602 R H-iXA956WJ N2Q R I.C AS
IC 1603 V HiB R 24L04F -1Y R B R 24L04F -WE 2 AEIC 1604 V HiT C 7W66U/-1Y R T C 7W66F U AEIC 1605 V HiP S T 600C /-1+ R IC -P S T 600C -2 AD
D1601 V HD1S S 133++-1* R 1S S 133 AAD1602 V HD1S S 133++-1* R 1S S 133 AAD1603 V HD1S S 133++-1* R 1S S 133 AA
P eaking, 10µH
V P -XF 100K 0000* R ABP eaking, 10µHL1604 V P -XF 330K 0000* R ABP eaking, 33µH
C A P A C IT OR SC 1601
C 1607C 1608C 1611C 1612C 1613
V C E A9M1HW106M+R 10 50V E lectrolytic AB
C 1614C 1615 V C QY T A1HM103J + R 0.01 50V Mylar ABC 1616C 1617 V C K Y T V 1C F 105Z+ R 1 16V C eramic AB
V C C C C Y 1HH5R 0C Y R 5p 50V C eramic AAC 1602 V C C C C Y 1HH5R 0C Y R 5p 50V C eramic AAC 1603 V C C C C Y 1HH5R 0C Y R 5p 50V C eramic AAC 1605 V C C C C Y 1HH5R 0C Y R 5p 50V C eramic AAC 1606 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AA
V C C C C Y 1HH5R 0C Y R 5p 50V C eramic AAV C C C C Y 1HH5R 0C Y R 5p 50V C eramic AAV C C C C Y 1HH5R 0C Y R 5p 50V C eramic AA
V C QY T A1HM103J + R 0.01 50V Mylar ABV C QY T A1HM103J + R 0.01 50V Mylar AB
V C C C C Y 1HH5R 0C Y R 5p 50V C eramic AA
C 1618 V C E A9M1C W106M+R 10 16V E lectrolytic ABC 1619 V C K Y C Y 1HB 103K * R 0.01 50V C eramic AAC 1620 V C E A9M1C W107M+R 100 16V E lectrolytic ABC 1624 V C E A9M1HW474M+R 0.47 50V E lectrolytic AB
R E S IS T OR S
R 1601 AAR 1602 AAR 1603 AAR 1607 V R D-R A2B E 102J * R 1K 1/8W C arbon AAR 1608 AAR 1612 V R D-R A2B E 333J * R 33K 1/8W C arbon AAR 1613 AAR 1614 AAR 1615 AAR 1616 AAR 1618 AAR 1620 V R D-R A2B E 101J * R 100 1/8W C arbon AAR 1621 AAR 1624 V R D-R A2B E 103J * R 10K 1/8W C arbon AAR 1625 AAR 1626 AA
R 1628 V R D-R A2B E 101J * R 100 1/8W C arbon AA
R 1632 AAR 1634 AAR 1635 AA
R 1627 AA
R 1629 AA
R J 2 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 3 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 4 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 101 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 102 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AAR J 103 V R S -C Y 1J F 000J * R 0 1/16W Metal Oxide AA
V R S -C Y 1J F 102J * R 1K 1/16W Metal OxideV R S -C Y 1J F 152J * R 1.5K 1/16W Metal OxideV R S -C Y 1J F 102J * R 1K 1/16W Metal Oxide
V R S -C Y 1J F 152J * R 1.5K 1/16W Metal Oxide
V R S -C Y 1J F 102J * R 270 1/16W Metal OxideV R S -C Y 1J F 271J * R 270 1/16W Metal Oxide
V R S -C Y 1J F 152J * R 1.5K 1/16W Metal OxideV R S -C Y 1J F 271J * R 270 1/16W Metal OxideV R S -C Y 1J F 271J * R 270 1/16W
V R D-R A2B E 101J * R 100 1/8W
V R S -C Y 1J F 102J * R 1K 1/16W Metal OxideV R S -C Y 1J F 102J * R 1K 1/16W Metal OxideV R S -C Y 1J F 101J * R 100 1/16W Metal OxideV R S -C Y 1J F 102J * R 1K 1/16W Metal Oxide
Metal Oxide
C arbon
V R S -C Y 1J F 101J * R 100 1/16W Metal Oxide
V R S -C Y 1J F 332J * R 3.3K 1/16W Metal OxideV R S -C Y 1J F 332J * R 3.3K 1/16W Metal Oxide
R 1636 AAR 1637 AA
V R S -C Y 1J F 101J * R 100 1/16W Metal OxideV R S -C Y 1J F 101J * R 100 1/16W Metal Oxide
R 1638 V R D-R A2B E 103J * R 10K 1/8W C arbon AAR 1639 AAR 1640 AAR 1641 AA
V R S -C Y 1J F 222J * R 2.2K 1/16W Metal OxideV R S -C Y 1J F 222J * R 2.2K 1/16W Metal OxideV R S -C Y 1J F 222J * R 2.2K 1/16W Metal Oxide
MIS C E L L A NE OUS P A R T SP 1600 QP LG N0244F J 00 R P lug, 12pin(G A) AFP 1601 QP LG N0242F J 00 R P lug, 10pin(G B ) AEP 1602 QP LG N0661C E ZZ R P lug, 6pin AD
R ef. No. P art No. � Des c ription C ode R ef. No. P art No. � Des c ription C ode
40
C A B INE T P A R T S
P A C K ING P A R T S
S P AK C B 999WJ ZZ - P acking C ase —S P AK XA692WJ ZZ - B uffer Material —S S AK H0005K MZZ - Wrapping P aper —
A C C E S S OR IE SR R MC G A396WJ S A R Infrared R emote C ontrol AR
UnitT iNS -B 823WJ ZZ R Opearation Manual AK
V S P 1306P B A28A R S peaker ATQC NW-D146WJ P Z R C onnecting C ord AF
MIS C E L L A NE OUS P A R T S
S UP P L IE D A C C E S S OR IE S
QAC C J 9001W E Y 0 R AC C ord1-1 Not Availble - F ront C abinet -1-2 HB DG B 0203P J S A R S HAR P B adge AG1-3 HDE Q0400P J OT R LE D & R /C Dec. AD1-4 J B T N-P 0124P J 08 R P ower B utton1-5 MS P R C 0005P E F W R P ower B utton S pring AB1-6 G DOR F 0197P J 08 R Door AD1-7 HINDP B 229W J S A R Indication P late
2 C C AB B A361W E C 0 R R ear C abinet As s 'y
2-1 Not Availble - R ear C abinet -
1-1
1-4 1-5 1-6 1-7
1
1-21-3
1 C C AB AA993W E C 0 F ront C abinet As s 'y
C OP Y R IG HT © 2005