Download Pioneer SX-9000 User's Manual

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Transcript 
I N S T A L L A TI O N . O P E R A T I O N
A N D S E R V I C EM A N U A L
Including
P A R T S L I S T ,C I R C U I TD I A G R A M S ,
T R O U B L ES H O O T I N GA N D M O U N T I N GT E M P L A T E .
rJIONEEIiI'
FEATURES
A M U L T I - P U R P O SEEA, S Y - T O . U SDEE S I G N
The SX-9000 was designed to give you a high degree of versatility
i n o p e r a t i o n . Y o u c a n , f o r e x a m p l e , u s e t w o m i c r o p h o n e s ,t w o t a p e
decks, two headsets with the SX 9000. All controls are rationallv
p l a c e d f o r e a s y u s e . T h e c i r c u i t r y i s q r l i t e a d v a n c e d ,o n a p a r w i t h
p r o f e s s i o n adl e s i g n s .
C L E A N - L I N E DC
, ONTEMPORARY
APPEARANCE
T h e S X - 9 0 0 0 l o o k s g o o d , t o o . T h e f r o n t i n c o r p o r a t e sa f o l d i n g p a n e l
that adds to its distinctive design.When in operation, the smoked
g l a s sd i a l w i n d o w l i g h t s u p w i t h s u b d u e d i l l u m i n a t i o n . a n d t h e s o u r c e
also lightsup for quick identification.
HIGH PERFORMANCE
TUNER
The SX-9000 employs the latest circuitry, including FET and lC's.
The result is a professional receiver of exceptional sensitivity and
stabi Iity.
P R E - S E T O N EC O L O R S
In addition to the normal bass and treble controls, there is a
4-position tone color selector knob. This providesquick switching
from "flat" to "soft", "bass" or "vivid". These cttaracteristicsare
s v m b o l i z e d i n a n i l l u m i n a t e dw i n d o w i n t h e d i a l f a c e .
MONITORI NG
TAPE-TO-TAPE
Two buttons on the front panel allow easy, one-touch monitoring of
tapes "A" or "8" when you use the SX 9000 to copy directly from
one tape to another.
F O O L P R O O FM I C R O P H O N E
USE
When either microphone knob is set to OFF, the unit operatesin
p a r a l l e l t o p r o v i d e m o n o p h o n i c s i g n a l s f o r b o t h s p e a k e r sw i t h o u t
h a v i n gt o s e t t h e m o d e s w i t c h .
R E V E R B E R A T I OENF F E C T
Also included is a reverberation effect knob. The degree of "echo" is
e a s i l y r e a d i n t h e " R e v e r b e r a t i o n "w i n d o w i n t h e d i a l f a c e "
S P E C I A L" O V E R L O A D P R O T E C T I O N ' '
You can play up to three different pairs of speakersystemsthrough
t h e S X - 9 0 0 0 i n c o m b i n a t i o n sA , B , C , A + 8 , A + C , B + C . l f a l l t h r e e
are accidentally turned on, however, the "Overload Protection" goes
i n t o a c t i o n a n d t h e s p e a k e r sa r e a u t o m a t i c a l l ys h u t o f f .
E A R P H O N EV E R S A T I L I T Y
Becausethe SX-9000 has two "earphones" output jacks, two people
may I isten simu ltaneously with earphones without having to go
through an accessoryjunction box.
I
TJTONEER
LINE VOLTAGESELECTION
AND FUSE
S W I T C H I N GL I N E V O L T A G E S E T T I N GA N D F U S E
To remove the fuse, turn the fuse cap located on the line
voltage selector switch in the direction indicated by the
arrow. Then remove the fuse plug from the unit. Put the
fuse plug back so that the proper line voltage marking can
be seen through the cut on the edge of the plug. Whenever
the position of the selector switch is changed, check the
rating of the fuse. A 1.5-amperefuse is to be used foreither
22OY or 240V operation and a S-amperefuse for 110V,
120V or 130V operation. If the rating of the fuse is correct,
replacecap.
F U S ER E P L A C E M E N T
If the fuse blows, remove the fuse cap and replace the fuse
with a new one.
F U S EC A P
Fig. 1
Take off the fuse cap by turning it with a coin,
e t c . a n t h e d i r e c t i o n i n d i c a t e db y t h e a r r o w m a r k .
STEREOSYSTEM
The SX-9000 is general-purposestereo amplifier. Connect it
to the speaker systems (two to six), turntable, tape
recorder, etc., which are separatelyavailable.
INSTALLATION
When installing your stereo system, check the following
points.
o The place should be well-ventilated, and free from
dampnessand dust.
o The units should not be exposed to direct sunlight.
o The units should not be placed near radiators or other
heating units.
o The place should be substantial and roomy enough for the
installation, when installing the unit on a shelf.
A WORD ABOUT ROOM ACOUSTICS
The quality of reproduced sound varies according to the
size and shape of the room, the materials of walls, floor
and ceiling and the amount and arrangement of fumiture.
Too harsh or "bright" a sound usually results from too
many hard reflecting surfaces, and/or too low a ceiling.
This condition is improved by having ample carpet area or
covering the wall (especially that facing the speakers)with
a thick curtain.
On the other hand, too many absorbing surfaces will tend
to "soak up" the sound, resulting in a certain "deadness".
Furniture may be rearranged to provide irregular reflection
of the sound. In any event, the true stereo effect is lost if
the two speaker systems are placed too far apart. This may
be corrected by angling them slightly toward each other or
reducing the distance between them.
A SPEAKER SYSTEM
B SPEAKER SYSTEM
C SPEAKER SYSTEM
Fig. 2
SPEAKHRSYSTEMCONNECTIONS
o First remove the speaker connector plugs from the
accessoriesbag and then connect the speaker leads as
shown in Fig. 3. Be sure to match the speaker and plug
polarities.
o After the plugs are connected, insert the one for the right
channel in the left side of the SPEAKER OUTPUTS (A)
panel on the rear of the unit. Connect the left channel to
the right side of this panel as shown in Fig.3.(Refer also
to the connection diagram on Page4.)
. If you have one (or two) more speaker system(s),
connect them in the same way, using the B (and C)
terminals.
RIGHT CH
SPEAKER SYSTEM
LEFT CH
SPEAKER
Fig. 3
SVSTEM
ANTENNA
AND GROUNDCONNECTIONS
When using the SX-9000 at a place of low field strength or
distant from the station, select the most suitable FM and
AM antennas as follows, and the efficiency of any antenna
depends on its height more than its length.
FM ANTENNA
o Reception is easier if the building is primarily of wood
and is near the FM station, in this case,use the accessory
T-type indoor antenna. Unfold the horizontal section of
the antenna to its full length, and determine the best
direction for the antenna while actually receiving an FM
broadcast program. Attach the horizontal section to a
wall or other place in the determined direction. (SeeFig.4.)
o When using the SX-9000 at a relatively long distance
from the station, or within a building or home with
relatively thick walls, or vicinity of tall buildings, erect an
FM outdoor antenna, and connect it to the FM antenna
terminals as shown in Fig. 5.
AM ANTENNA
o If your house is located in area relatively close to the AM
station, the ferrite loopstick antenna provided on the
back of the SX-9000 will be sufficient for reception of
AM broadcast program. The antenna is directional it
should be moved about while listening to a station and
set at the position which provides the best reception.
( See Fig. 6. )
. If the loopstick antenna does not provide sufficient
sensitivity for reception and static is noticeable, put the
furnished antenna wire on the wall and connect one end
of the wire to the AM antennaterminal. (SeJfig. +.;
o If you want reception from a distant AM station, you
may have to set up an AM outdoor antenna. In such a
case, connect one end of the AM outdoor antenna to the
AM antenna terminal. (See Fig. b.)
Fig.
-' FM OUTDOOR
ANTENNA
AM OUTDOOR
ANTENNA
Fig. 5
DIAGRAM
CONNECTION
AM ANTENNA
NOTE:
lf connecting one set of speaker systems to speaker output terminal the
speaker of
to
each channel should be 4
| 6 ohms : however,
both outPut
terminals (A, B and C speakers)to two
speaker systems the
8 to
of each channel,
SPEAKER PLUGS
SPEAKER OUTPUTS i4 to | 6() r
16 ohms.
PRE OUT
& MIXING REC.
pAE & t,,tntN
MAIN IN
AM FERRITE ANTENNA
JNTfR
COUPLED
PHONO
MAG
I
MAG
2
TAPE
CENTER
TAPE
TAPE
P.B CHANNE
MON A REC. A REC
OUTPUT
e*cl
/^
lo)t
Y7
I
:'l
-
-4,
I
r
FUSE
f ...
oer! !
TURNTABLES
(RECORD PLAYERS)
#
@
TAPE DECK OR TAPE RECORDER
TURNT
GROUNDING
The SX-g000 will provide stable performance whether
grounded or not. In rare case, however, grounding may
help. If so, connect a wire from the GND terminal to a
water pipe or balcony, fastening it FIRMLY. Never use a
gas pipe as a ground.
CONNECTION
MICROPHONE
Insert the plug on the microphone cord into either one of
the MIC jacks on the front panel of the unit.
Use both jacks when you wish to employ two microphones
at the sametime.'
5A: 240V
220V
34: |30V
| 20v
| 10v
MICROPHONE
(LEFT
CH.)
A
. If the tur
cartridge,
1 termina
crystal car
Connect t
right to tl
either terr
o A second
used, con.
. If a tumt
used, eith
separateh
. Some tur
terminals
with the s
PI()NEER
-l
F M O U T D O O RA N T E N N A
FM INDOOR ANTENNA
TAPE DECK(RECORDER)
CONNECTION
. A tape deck connected to this unit must have a
record/playbackpreamplifier built-in. PIONEER's models
T-600 and T-500 feature characteristics ideally suited
to the SX-9000.
o The connected tape recorder should also have output
terminals for tape recorder connection (LINE OUT) or
tape monitor terminals.
C O N N E C T I O NF O R T A P E R E C O R D I N G
Connect this unit's TAPE REC terminals to the signal input
(LINE IN) terminals of the tape deck. Use the cords
provided with the deck. The upper terminal is for the left
channel, the lower for the right. If the tape deck is of
monophonic type, use the CENTER CHANNEL output
terminal instead.
--1
-!
HED
C O N N E C T I O NF O R T A P E P L A Y B A C K ( O R M O N I T O R )
Connect the LINE OUT or TAPE MONITOR terminals on
the tape deck to the TAPE MON terminals on this unit.
Connection is done in the same way as described in the
above paragraph.
U S E O F R E C O R D / P L A Y B A C KC O N N E C T O R
The tape deck has a DIN type record/playback connector,
all recording and playback connections can be made by
means of this one (optional) cord. Plug one end into the
TAPE REC/P.B. connector on this unit and the other into
the corresponding connector on the tape deck. In this case
no other connection cords are necessary.
NTABLECONNECTION
:re tuintable is equipped with a moving-magnet type
:idge, connect its output cords to the PHONO MAG
rminais on the rear of the unit. If the turntable has a
balca'tridge, connect it to the AUX 1 terminals.
nect the left channel cord to the upper terminal, the
b to the lower. If the cartridgeis of monophonic type,
:r terminal will do.
:cond turntable with magnet type cartridge is to be
l, conoect its cords to the PHONO MAG 2 terminals.
turntable with a moving-coil (MC) cartridge is to be
l, either a matching transformer for MC cartridge or
rate head amplifier must be employed.
Le turntable output cord plugs do not match the
rinals of this unit. In such a case, replace the plugs
Lthe sparesprovided in the accessoriesbag.
C O N N E C T I O NF O R M I X E D R E C O R D I N G
Connect the tape deck input terminals and this unit's PRE
OUT & MIXING REC terminals. Connection is made in the
same way as outlined above.
C O N N E C T I O NW H E N U S I N G T W O T A P E D E C K S ( R E CORDERS)
When using two tape decks, for example, when you wish to
edit an already-recorded tape or practice along with a
recorded concert, etc., and then hear the results, connect
the second tape deck to the TAPE MON B and TAPE REC
B jacks on the front of the SX-9000. Thesejacks take 1/4"
standard phone plugs.
T U N I N GI
FRONTPANELFACILITIES
When selecti
pointer of th
possible.
For an FM
way. Precisi
that the dial
TUNING
This knob is
the tunir'g
Push once to switch on the power, once again to turn
it off.
TONE
P H O N E SJ A C K S
Thesephonesjacks for stereoheadset(s).
The two jacks (A, B) are availablefor connection with
two stereoheadsets.
INDICATOR
Turn this knob to the right to accentuate basstones, to
the left to reduce them. Set the knob at its center
position for flat response.
COLOR
TONE
TREBLE
AM
Use of this knob is similar to that of the BASS knob.
aa
s
55
6ct
92
70
FM STEREo
REVERB
AM
This is the reverberation adjustment knob. Turn it to the
right to increasereverberation,to the left to reduce it.
F IL T E R
L O W : Use this filter to cut out low-frequency
ference,such as motor rumbling or hum.
H I G H : Use this filter to cut out high-frequency
ference, such as that from fluorescent
FM MUTING
This switch is used to suppressmuch noise between FM
stations when tuning. In a fringe area, however, this
switch should be kept off because it may suppressthe
desiredstation signalat the sametime.
LOUDNESS
At reduced volume the ear's sensitivity to extremely low
and high frequenciesis reduced. This switch compensates
for that phenomenon by emphasizingthese frequencies.
At normal or high volumes this switch should be kept
off.
T A P EM O N B J A C K
This jack is for connecting to the LINE OUT terminals
of a tape deck or tape recorder. It is designedto accept a
3-P type plug.
TAPE REC B JACK
For connecting to the LINE IN terminals of a tape deck
(recorder). Allows recording of another program source
or tape for editing.
OFF
PO\A/ER
ON
6 e
PH
BALANCE
Usedto adju
right chan
channel sou
MODE SIIVI
Controls the
unit as fol
REV:
S
ST:
LT:
Right
speak
f,eft
tc
R C EV O L U M E
NG INDICATOR
selecting an ANI broadcast, tune so that the dial
as
er of the lower meter deflects as far to the right
ble.
same
an FM broadcast, use the lower meter in the
so
Precision FM tuning is also possible by adjusting
the dial pointer of the upper meter is ceutered'
and FM
This knob is used to adjust the volume of AM
is also
It
playback'
tape
and
broadcasts, record play
during
level
signal
source
used to balance the program
microphone'
mixed recording with a
A S T E RV O L U M E
from
Turn this knob to the right to increasethe volume
no
waY
the
all
down
turned
is
knob
the speakers.If this
the
though
even
speakers,
the
sound will come frorn
turned
SOURCE and MIC LEVEL volume controls are
all the waY to the right.
ING
knob is used to locate AM or FM stations' Watch
unir'g meter(s) for more Precise tuning-
E COLOR
R E V E R B E R A T ION
CATOR
I N D IC A T OR
A
SPEAKERS
B
c
T UNING
() r:torueen
COLOR
IE
s
s2
s1
:l-
9A
s6
t"
;-;-;
t""
o
o
FM
TREE}LE
\SS
1OO 1O21O4
12o
o
PHONO
106
14o
1O8
160
B A S S .
l .
xlokHz
o
AUX
MIN
M A STER
PUSH
Q-
souace
r F:,:
B.l
ON
MUTING
Lo
J
ANCE
MIC
LE
.
L"(
E
L A N C EC O N T R O L
and
d to e.djustthe stereophonic balancebetween left
left
Lt channels.Turning to the left strengthens the
nnel sound; to the right, the right channel'
DE SIIIITCH
the
rtrols the stereo aud mono output functions of
t as foliows .
siglals
V: Stereo, with right arld left chairnel
r3versed.
Normal stereo.
r
Left channel sigual fed to both left and right
:
speakers.
Ii.,ight channel signal fed to both left and right
:
R:
S E LECTOR
PHONO 1
COL
vtvlo
MHz
MON.
TON
TONE
VOLUME
ERATION
REVERB
speakers.
l,eft ar-rd right channel sigr-ralsmixed, then fed
tr both left and right channel sPeakers.
M I C L E V E LC O N T R O L S
Control the microphone signalinput level'
JACK
Control A is for a microphone connected to MIC
to the
either
Turning
B'
A, and Control B for MIC JACK
right increasesthe signal.
with
Ul"roplrones can be used at any time, for mixing
tape'
recorded
or
record
a
as
another sound source' such
When a microphone is not being used, that control
should be turned all the way to the left (off)'
NOTE:
fed
W h e n o n l y o n e m i c r o p h o n e i s u s e d ' i t s s i g n a li s m o n a u r a l l y
is
t h r o u g h b o t h l e f t a n d r i g h t s p e a k e r s r' e g a r d l e s so f w h i c h i a c k
useo.
connected
W h e n t w o m i c r o p h o n e sa r e u s e d ' h o w e v e r ' t h e o n e
w
h
i
l
e the one
s
p
e
a
k
e
r
s
'
l
e
f
t
t
h
e
t
h
r
o
u
g
h
to jack A broadcasts
c o n n e c t e dt o i a c k B i s h e a r d t h r o u g h t h e r i g h t '
'
PIONEER
SPEAKERS
These switches turn the various speaker systems on and
off. Push each button once to turn it on, once again for
off. Pushing the A button will cause the sound to be
reproduced from the speakers connected to the
SPEAKER A terminals. The B and C buttons control
their corresponding terminals on the rear of the unit.
NOTE:
O n l y t w o s p e a k e rs y s t e m s c a n b e u s e d a t t h e s a m e t i m e ( i . e . .
A + 8 , B + C , o r A + C ) . l f a l l t h r e e s p e a k e rb u t t o n s a r e p u s h e d a t
the same time, no sound will be reproduced.
If you wish to shut off all speaker sound, simply press
the OFF button.
.
TONE COLOR
This switch is for selecting the particular tone to suit
your mood or the music being heard.
VIVID: Emphasizes highs and lows for more sound
clarity
BASS: Emphasizesbasstones.
Flat, untempered tone.
FLAT:
SOFT: High tones relatively softened.
TAPE MONITOR
Depress this button to monitor a recording; press it
again and it shuts off. During record or tape play, or
when listening to a broadcast, leave this switch off.
Turning it on automatically switches off the speakers.
This button is intended to aid in checking recording or
editing conditions.
There are two TAPE MONITOR jacks, A and B, on the
rear (A) and front (B) of this unit, and thesetwo buttons
correspond to them. Button A directs the signal through
jack A, and button B through jack B.
SELECTOR
This switch is for choosing the program source.
AM:
For receivingAM broadcasts.
FM MONO/WIRELESS: For FM monophonic broadcasts, or for broadcasting the
signal from a wireless FM
microphone.
FM AUTO: For automatic switchover between FM
mono and stereo broadcasts.
PHONO 1: For playing records on a turntable connected to the PHONO 1 terminals.
PHONO 2: Same as above, for PHONO 2 terminals.
AUX 1:
For playing signals fed to the AUX 1
terminals.
AUX 2:
Same as above. for AUX 2 terminals.
M I CJ A C KA , B
Plug a microphoneused into one of thesejacks. Two
microphonescanbe usedat the sametime.
OF FM
RECEPTION
1. Set the SELECTOR switch to FM STEREO.
2. Turn the MUTING switch on (unlessthe signal strength is
very low-then leaveit off).
3. Tune in the desired station while watching the TUNING
meters.
Best reception is obtained when the dial pointer of the
Iower meter deflects as far to the right as possiblefor that
station, while that of the upper meter is centered.
If the broadcast is stereo. the FM Stereo indicator will
light up. It remains unlit if the broadcast is monophonic,
and the set automatically switchover for monophonic
slowlyturn up the VoLUME
a. ffi::1""Ting is complete,
SOURCE and MASTER knobs until the proper level is
achieved.
Then adjust the BASS, TREBLE, TONE COLOR and
other controls for the most pleasingsound.
5. To increasereverberation, turn the REVERB knob to the
right.
For FM reception located far away from the station, or
when external noise is high, reception can be improved by
setting the SELECTOR to FM MONO. In this case,
however, stereo programswill be receivedas monophonic.
RECEPTION
OF AM
1. Set the SELECTOR switch to AM.
2. Tune in the desired station while watching the lower
TUNING meter. Tune so that the dial pointer deflects as
far to the right as possible for that station3. After tuning is complete, slowly turn up the VOLUME to
the desired level, then adjust the BASS, TREBLE and
TONE COLOR controls.
4. To increasereverberation, turn the REVERB knob to the
right.
If noise is extremely high during both FM and AM
'reception,
the problem could be in the antenna and
. ground. Reread the section, ANTENNA CONNECTION
AND GROUNDING, page3.
LISTENINGTO RECORDS
1. Set the SELECTOR switch to PHONO 1 or PHONO 2.
To use the turntable connected to the PHONO 1
terminals, set to PHONO 1, for that connected to PHONO
2 , s e t t o P H O N O2 .
2. If tbe record is monophonic, set the MODE switch to
either L or R.
3. Adjust the VOLUME, BASS, TREBLE and TONE
COLOR controls.
4. To increasereverberation. turn the REVERB knob to the
right.
TJIONEEfiI
USINGMICROPHONES
The SX-9000 permits the use of two microphones at once,
for such purposes as recording a concert in stereo; even
performances or dramas in large theaters can be efficiently
recorded.
1. Turn the VOLUME - SOURCE knob all the way down if
microphone recording only is desired.If mixed recording,
combined with music from a record, etc., is desired, set
the SOURCE knob to the best level.
2. Tii,e MIC LEVEL A knob controls the input from a
microphone plugged into MIC jack A; knob B controls
jack B. Tum either of these knobs to the right to increase
input signal strength. Adjust the level while watching for
"howling" (acoustical feedback of the speaker signal
through the microphone). If this occurs, reduce the
volume or separate the microphone(s) and speakers.If
only one microphone is used, plug it into either jack. If
setting the MIC LEVEL for another jach not being used to
OFF, the sound will be reproduced from both speakers.
NOTE:
When adjustingthe MIC LEVEL control, be careful not to cause
howling.
H o w l i n g i s o f c o u r s e u n p l e a s a n tt o h e a r , b u t i t c a n a l s o d a m a g e
t h e V U m e t e r o f y o u r t a p e r e c o r d e ro r d e c k d u r i n g r e c o r d i n g .
3. If two microphones are used, the one connected to jack
A will broadcast over the left channel, B the right. If you
wish to use only one of these microphones at any time,
tum the unused microphone level control off. Then the
microphone used will broadcastover both channels.
USINGTAPE DECKS
AND TAPE RECORDERS
As shown in Fig. 9, signals heard from the speakersare
normally fed to the SX-9000 TAPE REC A and B terminals.
When recording, set the SELECTOR and MODE switches to
your program source. Refer to the sections on Listening to
Broadcasts and Listening to Records. Recording signals
cannot be regulated by the SX-9000 VOLUME, BASS,
TREBLE and TONE COLOR switches. These must be
adjusted by the recording level control on the tape deck/tape
recorder.
NOTE:
TAPE DECK B
...aro.--
...oIa---
W h e n u s i n g m o n o t a p e r e c o r d e r s ,e i t h e r t h e l e f t c h a n n e l s i g n a l o r
the right channel signal may be recorded, but not both. The
C E N T E R C H A N N E L t e r m i n a l s h o u l d t h e r e f o r eb e u s e d .
TAPE MONITOR
With 2-head and 3-head type tape recorders fitted with
monitor mechanisms, turning the TAPE MONITOR switch
ON during recording has the following effects (if recording
and playback heads are first connected): With the 2-head
type, signals fed to the recording head can be monitored;
with the 3-head type, signalscan be monitored immediately
after recording.( SeeFig. 9. )
sx-9000
10
PLAYBACK
. Turn TAPE MONITOR SWITCH A or B ON and adjust the
VOLUME, BASS, TREBLE and TONE COLOR switchesto
the desired levels.
o When TAPE MONITOR SWITCHES A or B are turned ON,
the position of the SELECTOR becorriesimmaterial.
M I X E DR E C O R D I N G
When using a microphone in mixed recording, connect the
tape deck to the PRE OUT terminal and adjust the volume of
the microphone with the MIC LEVEL knob while listening to
the record or broadcast. Do not turn this knob too high as
this will result in howling and may damagethe VU meter of
the tape deck.
E D I T I N G R E C O R D I N GT A P E S
By using two tape decks and re-recording only certain parts
of a tape, you can edit old tapes taken from FM broadcasts,
etc. and obtain a brand-new tape containing only your
favorite recordings:
1. As shown in Fig. 10, place the old tape or mother tape on
TAPE DECK A and turn TAPE MONITOR SWITCH
A ON.
2. Placethe new tape on TAPE DECK B.
3. Playback is performed on TAPE DECK A and recording
on TAPE DECK B.
By tuming TAPE MONITOR SWITCH B ON and OFF
you can monitor the recording. Be sure not to turn TAPE
MONITOR SWITCH A OFF.
...oro---
sx-9000
YOU CAN ALSO
USE YOURSX-gOOOAS FOLLOWS
M U L T I C H A N N E LA M P L I F I E RS Y S T E M
By using an ELECTRONIC CROSSOVER NETWORK
(PIONEER MODEL SF-700) and one or two POWER
AMPLIFIERS, you can build a high-quality multichannel
amplifier system.
a. Set the PRE & MAIN switch on the rear panel of the
SX-9000 at the SEPARATED position.
b. Connect the PRE OUTPUT terminal of the SX-9000 and
the CROSSOVER NETWORK INPUT terminal. Also
connect the CROSSOVER NETWORK LOW-RANGE
OUTPUT terminal and the MAIN INPUT terminal of the
sx-g000.
c. For MID-RANGE and HIGH-RANGE a separatePOWER
AMPLIFIER must be used.
3 . D S T E R E OS Y S T E M
By connecting a POWER AMPLIFIER with a low-pass filter
of 150 - 250H2 cut-off frequency to the CENTER
CHANNEL OUTPUT terminal in the rear panel, you can set
up a 3-D stereo system.
oooooo
o o o o
sx-9000
Fig. 10
TJIONEEFI
C O N D I T I O NFSR E Q U E N T LM
Y I S T A K E NF O RM A L F U N C T I O N
N o i s e : T h e r e a r e a v a r i e t yo f n o i s e sr e l a t i n gt o t h e o p e r a t i o no f a
h i - fi u n i t . T h e s ea r e g e n e r a l t yd i v i d e di n t o t w o t y p e s ; ( 1 ) t h e u n i t
is faulty (a transistor or part has deteriorated) and (2) an
e x t e r n a ls o u r c e o f n o i s ei s a d d i n gn o i s e t o t h e u n i t .
W h e n a h i - f i u n i t p r o d u c e s a n u n p l e a s a n tn o a s e ,i t i s o f t e n
a s s u m e dt h a t t h e u n i t i s f a u l t y , b u t s t a t i s t i c arl e c o r d si n d i c a t e
t h a t t h e m a i o r i t y o f n o i s e sp r o d u c e di n h i - fi a c o u s t i cu n a t sr e s u l t
m
C o n t i n u o u so r i n t e r m i t t e n
n o i s el i k e j j j j l i o r z z z z z z .
. S t a t i c( l i g h t n i n g )
o Fluorescent lamp, motor, or thermostat
may be in use in houseor in the vicinity
of the house.
In manv cases, it is very diff icult to remove the source
of noise. In order to make the radio input largerthan
the noise level, set up a good outdoor antenna and
make a complete grounding
When a stationis tuned in,
hum is mixed in the
program.
r Poor fluorescent lamp, motor, or electric
heater may be in use in houseor near the
house.
Reversing
t h e l i n e p l u g m a y o c c a s i o n a l l ya l l e v i a t et h i s
n o i s ep r o b l e m . U s u a l l y i t i s v e r y d i f f i c u l t t o e l i m i n a t e
tne norse.
H i s s i n gs o u n d n o i s e i n A M
(medium wave) reception.
I The frequency of an adjacent station is
interfering with that of the station being
t u n e d i n ( 1 0 k H zb e a t i n t e r f e r e n c e ) .
o T V s e t i s o n i n t h e s a m eh o u s ew i t h t h e
r e c ei v e r .
l m p o s s i b l et o r e m o v e s u c h i n t e r f e r e n c e .l f t h e c a u s eo f
s u c h n o i s e i s i n t h e T V s e t . i n c r e a s et h e d i s t a n c e
b e t w e e nt h e T V s e t a n d r e c e i v e r .
o
g
o
'?
.J
q
o
!
=
E
S t a t i c n o i s e ( i n p a r t i c u l a r , a White noise generated from automobile
w h e n a u t o m o b i l e sr u n c l o s e
e n g in e s .
to the house).
r Radio frequency sewingmachineor weldi n g m a c h i n eb e i n g u s e d n e a r y o u r h o u s e .
I n a n a r e a s u r r o u n d e db y h i l l s o r h i g h b u i l d i n g s ,t h e
F M i n p u t s i g n a l sa r e v e r y w e a k . T h u s t h e n o i s el i m i t e r
i n t h e c i r c u i t l o s e si t s f u n c t i o n .S e t u p a n o u t d o o r F M
a n t e n n a h a v i n gm a n y r e f l e c t o r e l e m e n t s .
Reception of FM stereo
program contains more
noise than FM mono program.
a N o t e t h a t t h e s e r v i c ea r e a c o v e r e d b y a n
F M s t e r e o b r o a d c a s ti s a b o u t 5 0 % o f t h a t
o f a r e g u l a rm o n o b r o a d c a s t .
I n c r e a s i n gF M i n p u t s i g n a lm a y a l l e v i a t et h i s p r o b l e m .
U s e a n e x c l u s i v e F M o u t d o o r a n t e n n a i n s t e a do f t h e
indoor T- tvpe antenna.
Hum or buzz.
When
s w i t c h e dt o r a d i o r e c e p t i o n ,
t h e n o i s ed i s a p p e a r s .
a P o o r c o n n e c t i o no f s h i e l d e dw i r e { a ) .
. J a c k c o n n e c t i o ni s l o o s e .( b )
o L i n e c o r d o r f l u o r e s c e n tl a m o i s n e a r t h e
s h i e l d e dw i r e . ( c )
o P o o r g r o u n d i n g .( d )
a H a m t r a n s m i t t i n gs t a t i o no r T V t r a n s m i t t i n g s t a t i o ni s n e a ry o u r h o u s e .( e )
C o r r e c rt h e c o n d i t i o n ss t a t e di n ( a ) , ( b ) . ( c ) o r ( d ) . l n
c a s eo f ( e ) , r e p o r t i t t o a n o f J i c i a l a c t i v i t y .
Output tone quality is
poor and mixedwith noise.
T r e b l ei s n o t c l e a r .
.
.
a
.
a
r
o
E.
o
.=
o
o
=
D i a g n o s ia
snd Remedy
S u s p e c t e dS o u r c eo f N o i s e
SVmptom
a
o
E
o
from external sourcesof nolse. Due to the inherent high
a m p l i fi e r a n d r e p r o d u c e se x t r a n e o u sn o i s e si n t o d e f i n i t e o u t p u t
n o i s e . l f y o u r r e c e i v e l p r o d u c e sa n o i s e , c h e c k a c c o r d i n g t o t h e
following table and trace out the source of noise for the
a p p r o p r i a t ec o r r e c t i v e a c t i o n .
S t y l u si s w o r n o u t . ( a )
R e c o r di s w o r n o u t . ( b )
D u s t a d h e r e st o s t v l u s . ( c )
S t y l u s i s i m p r o p e r l ym o u n t e d .( d )
S t y l u s p r e s s u r ei s n o t p r o p e r . ( e )
T h e T R E B L E l e v e li s t o o h i q h .
Check (a) through (e) and correctthe condation.
Lowerthe TREBLE level.
W a t c h f o r t h e f o l l o w i n g c o n d i t i o n s ;t h e s ea r e a l s oa p t t o b e m i s t a k e nf o r m a l f u n c t i o n .
Symptom
S u s p e c t e dS o u r c eo f N o i s e
D i a g n o s i sa n d R e m e d y
Power is not turned on
although the power switch
r ss e t t o O N .
o F u s eb l o w s . ( a )
. L i n e p l u g i s l o o s e .( b )
Check (a) and (b) and correct the condition.
In playing a record, inc r e a s i n gt h e v o l u m e c a u s e s
howling.
a Distance between the turntable and the
s o e a k e r si s t o o s h o r t .
a T h e p l a c e o n w h i c h t h e t u r n t a b l eo r
s o e a k e r sa r e s e t i s u n s t a b l e .
Change the distance or rearrange the installataon
i n c r e a s eo f t h e u n i t a n d s p e a k e r s .( l n s t a l l i n g t h e
t u r n t a b l e o n a f i r m , s o l i d s t a n d m a y a l l e v i a t et h i s
oroblem.)
D o n o t e n h a n c et h e B A S S s o u n d l e v e l e x c e s s a v e l y .
TZ
SPECIFICATIONS
SEMICONDUCTORS
Audio Section
Transistors
Diodes
Tuner Section
IC's
FET
Transistors
Diodes
AUDIO SECTION
Music Power Output
Continuous Power
Output (Each channel
driven)
Continuous Power
Output (Both channel
driven)
Harmonic Distortion
Damping Factor
Frequency Response
Power Bandwidth
Hum and Noise
Sensitivity and Impedance
(at 1kHz, continuous
power output)
Output Jacks and
Terminals
Equalization Curve
BASS Control
TREBLE Control
Filters
47
11
5
t12
11
150 watts total (IHF
8A
rating)
4A 240 watts total
Be 62wl62w (1kHz)
4a 85w/85w (1kHz)
8O 50w + 50w (lkHz)
4A 60w + 60w (lkHz)
Less than 0.57o (at 1kHz,
continuous power output)
30 (at 8f2, lkHz)
l-OHzto 35kHz. tldB
10Hz to 35kHz (IHF rating)
PHONO MAG
more than B0dB
AUX
.............more
than 100dB
PHONOMAG (1,2)
. . . . . . . . . . . . . . . 2 . 5 m5V0,k Q
AUX (1,2)
. . . . . . . . . . . . . . 1 6 0 m5V0.k A
TAPE MONITOR (A,B)
. . . . . . . . . . . . . . 1 6 0 m5VO. k O
MICROPHONE (A,B)
. . . . . . . . . . . . . . . 1 . 6 m6V5,k O
MAIN INPUT
. . . . . . . . . . . . 5 0 0 m1V8, 0 k Q
Speakers(A,B,C) 4 to 16 ohms
StereoHeadphonesJacks(A,B)
TAPE RECordingJacks(A,B)
TAPE REC/P.B. Connector
(DIN type)
PRE OUTPUT
500mV. 13kSl
PHONO.....RIAA
+12.5dB,-14dB (at 50Hz)
+9dB. -11dB (at 10kHz)
LOW.......Cut6dB (at 50Hz)
HIGH.....Cut12dB (at LOkHz)
PIONEER
LoudnessContour
Reverberation
TONE COLOR Switch
MlCrophone Mixing
FM TUNER SECTION
Frequency Range
IHF Sensitivity
Capture Ratio
Selectivity
Image Rejection
Signal to Noise Ratio
Antenna Input
FM MPX SECTION
Circuit
Channel Separation
Harmonic Distortion
AM TUNER SECTION
Frequency Range
IHF Sensitivity
Image Rejection
Antenna Input
MISCELLANEOUS
Power Requirements
Power Consumption
Dimensions(Overall)
Weight
Switchableto ON-OFF
+12dB (at SOHz), +7dB (at
10kHz).with VOLUME control
set at-4OdB,VOLUME
Reverberation easily controllable
4-position knob for "VIVID",
"BASS", "FLAT" and "SOFT"
Stereo
.....through both "A" and
"B" channels
Monophonic
.....through either "A" or
"B" channel
87.5MHz to 108MHz
1.6pV (at 98MHz)
1dB (at 98MHz)
40dB (at 98MHz)
90dB (at 9BMHz)
More than 65dB
300ohms balanced
Time-switching type demodulator
FM Mono-Stereo automatic
selection
40dB (at lkHz)
(at lkHz) 100% Mod.
O.B7o
525kHz to 1,605kH2
9.5rrV
78dB (at 1,000kH2)
Built-in ferrite loopstick
antenna
110, 120, 730, 220 and 240
volts (switchable)
350 VA (310W)MAX.
20-9176" 522 mm (width)
7-518"
194 mm (height)
13-9/16" 344 mm (depth)
Without Package 34 lb 8 oz
16.7 kg
With package42lb 3oz L9.2kg
ALIGNMENTINSTRUCTIONS
A L I G N M E N T O F F M SECTION
unit
f ront-end f rom lN terminal of lF
D i s c o n n e cOt U T P U Tt e r m i n a l o f
S E L E C T O R. . , . . F M M O N O
P o s i t i o no f S w i t c h :
MUTING ...... OFF
VolumeControl Setting:
Fully Counterclockwrse
Input
STEPS
E q ui p m e n t
C o n n e c tt o n s
L evel
F requencY
Os c i l l o s c o p e
,4-h
\9
termrnal
40dB
Sweep Generator
lN terminal
of lF unit
10.7MHz
Remove electrolytlc
3
S w e e PG e n e r a t o r I
lN terminal
|
of lF unit
I
A
M I F
caf 'acitor C rz (ol
10 TMHZ
I
Re m a r k s
A d ju s t
iil""
Unit
niI 4.7 FF
in detector clrcu
Os c i l l o s c o P e
OUT terminat
40dB
I
T+ of
lF Unit
I
4 0dB
6
Sweep Generator
T P of F ront
10.7MHz
Point of
no Interference as
@
t e r mi n a l
Os c i l l o s c o p e
OUT terminal
8
1 0
1 l
__------..-
Os c i l l o s c o p e
near as
88MHz
end
9
t
l-;;l
termrnal
Tz oI
front-end
,.."
'.](+ooH
f:: lr11i I
90MHz
--
lF Unit
ourt
CT + of
front-end
| :
FM Antenna
terminal
l4
1 5
^;--1
;"tsq-
L r . r l ,
i 3
l 0dB
(400H
30,,/o)
j
1o 6 M H z
limes
Repeat STEPS L3 and 14 several
I
]
IO6MHz
OscilloscoPe
V T V M
OUT termtnat
I OF
s i mi l a r l Y
of
Tq
O s c i ll o s c o P e
I2
maxrmum
for
lAdiust
sYmme
lsensitivitY and
I trical characteristics
C h e c k s y m m et r y o f c u r v e
--
\ 4.7 ltF )
C o n n e c t e l e c t r o l Yt r c c a p a c i t o r C t ,
G
Adjust the Primarycore
of T a so that slope of
:
straight Portion of S"
curve will become the
steepest and adjust the
s e c o n d a r Yc o r e s o t h a t
:
the center of S" curve
w i l l c o i n c i d ew i t h t h e
center of the marker'
to lN terminal of lF unit
c o n n e c t O U T P U T t e r m i n a lo f f r o n t - e nd
5
Adjust for maxlmum
sensitivitY and sYmme'
trical characteristics
Check sYmmetrY of curve
80dB
2
Alignment
Ou t P u t
EquiPment
C o n n e c ti o n s
Dial
Setting
OT
f r o n t- e n d
Qf', CTz,
CT: of
front-end
-] A d j u s t
for
maxlmum
deflection
I
I
Adjust to(
deflection
maxlmum
PIONEEFI
ALIGNMENT OF MPX SECTION
Positionof Switch:
S E L E C T O R. . . F M A U T O
M U T I N G. . . O F F
Volume Control Settino
Fully Counterclockwise
I n p u t S i g n a l:
M a i n ( L + R ) 4 0 . 5 K H z D e v i a t i o n ( . 6 0 , ) o)
l9KHz Pilot 7.5KHzDeviation (IO%)
STEPS
Circuit to be
adjusted
1
+
l
MPX SG to trM
Separation
Signal
Sub
(L -R)
Re m a r k s
AC VTVI\4
for maximumdeflection
X L L
Antenna
terminal
terminal
2
A Iig n m e n t
Co n n e c t
-- -'-
Connections
L o r R
L o r R
VRr
Adjust for minimum deflectionof
other channel.
ALIGNMENT OF AM SECTION
* V T V M a n d o s c i l l o s c o p e s h o u l db e c o n n e c t e di n p a r a l l e l a t
the output.
P o s i t i o no f S w i t c h : S E L E C T O R . . . . . . . . . . . . . . . . . . M W
VolumeControl Setting: Fully Counterclockwrse
In p u t
S
TLPS
Lqu,pment I
connectrons
Sweep Generator
t,
A Iignment
I
l requency
455kHz
6OdB
12
SignalGenerator
Antenna Terminal
T n r o u g nd u m m y
2
^
3
4
Point of no
] i n t e r f-e r-e n- -c e
i
':^:":;;'
60OkHz
600kHz
30dB
il4ookHz i
l
.:',::"
I
14o0kHz
.i,liLt.,
I
A d l us t
vrVM
^
Oscilloscope
8
VTVIM
Oscilloscope
8
T3
T4
T5
I
nemart<s
Adjust for
maximum
s e n s i t i v i t ya n d s y m m e t
rical characteristics.
Adjust f or
defrection
maximum
Adjust for
deflection.
maxrmum
Repeat steps 2 and 3 several times.
I
Signal Generator
Antenna Terminal
throughdummy
60OkHz
600kHz
PARTS LAVOUT
ToP
vlEw
L2 142-024
w 23-003
2 2 0 0. . 5 0
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I | "" i /
VC 304
vc 303
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9
3
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o 4
^lq
oJ
o 5
DIAL CORD
STRINGING
FM TUNING CAPACITOR
,7
2lurn
A M T U N T N Gc A p A c t r o R
\_.;'
\.i\
\\
\
ot\
,
LuS
\\"
\\r.
TUNING SHAFT
2 turn
\
REVERBERATION CONTROL
ONEEFI
BOTTOMVIEW
2 2 0 0 10 0
\
j
w 23-003
//w16029
6 )
2 2 0 0 5 0 - B r ,t s r
/
otO
o,o
O
Qoo,
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5 5S
'"
,',3 3'J,Jr3,8,,?,"
o
a , , c , uO a '
. .u
).F o
.\or
/1
/-\B1o
Ic3)[c7)A]o
\--l
A2\)
z--'r
(,
o
\-/
o'
\J
\--l
Ll4
AFC
IP2
AGC
IPl
^^^
A2o
a,o
G
D
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c
w 22 042
\
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t8
PRINTEDCIRCUITBOARDS
TJIONEER
@
rol
o
Fql
Q l 9
w26 - OO2'
rJIONEER
n
b
-o
N
a
;
Rot ,
.s.-ii'#
t"tg-W
"i-*.+;
i,XI;ra!*iii.{trl+q
FrcF'.t 'i'
ti.b
N
sr6qF
PltltS
g.u*
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s-lF"aS.
-tF
:,.330*.
q#
f f .f
;SB ":
!3 110-
V\fr-;f,:
ltrl
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i
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ti:$ia:"'
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0UTt E:
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PIONEER
PARTSLIST
C AP A Ct }R
I TS
N O T E DP T P F
l N u F , I O ? I I O L E R A N C E U N L E S SO T H E R W I S E
Descr plon
Symbol
C1
Ceramic
o.o1
C2
Caramic
0 .o l
Electrolytic
2200
C3
ElectrolYtic
2200
C5
ElectrolYtic
2200
C6
ElectrolYtic
100
Ct
ElectrolYtrc
2200
C8
Ceramic
0.01
C9
Ceramic
0.01
Ceramic
0.01
C ro
Crr
Cr2
I
3p
lCeramic
Mylar
Cr:
lvylar
Cr+
ElectrolYtic
50v
50v
Ca
Part No.
I
22OOp
22OOp
220
c K O Y1l 0 3 (5 0
c | ( D Yil0 3 K5 0
c52-045-A
c52 045.A
50v
C52.075'O
35V
0 0 l t 1l rFi
l O O V C E TlG
lOOV c52076
D C I 4 K V c 4 3 . 0 0 30
50v
D . CL 4 K V c 4 3 . 0 0 3 0
t Jc 1 4 K V c 4 3 0 0 3 . 0
t
Dsst0
L 3 0 ct 5i 0
5O
0 vV c c( jD
c Q l \ l2A2 2 K5 0
sov
50V
50
cQr\4A
2221(
22013
{ F5 V
35V I CEIG
SWITCHES
[r,,
=
Part No
Description
Symbol
s"i;;
s 13 , 0 3 8 . A
s 14,O35-O
52
lvode Selector
S3
Selector Switch
Si
Slide Switch
Se
Power Switch
Ss
Line Voltage Selector
s 15-035,A
s 11 . 0 2 2 - A
s 1 1, 0 3 0 - A
s 1 1. 0 1 8 - O
MET
I' ITI(
| ERS
P( ) TE
Descrption
Symbol
I
VR3
V o l u m eC o n t r o l ( 2 5 0 k - A 2 )
V o l u m eC o n t r o l w i t h s w i t c h ( 5 O k - A 2 )
V o l u m eC o n t r o l w i t h s w i t c h ( 5 O k - A 2 )
VR5
V o l u m eC o n t r o l ( 2 5 O k ' A 2 )
V o l u m eC o n t r o l w i t h s w i t c h ( 5 O k ' H B )
VR1
VRz
Part No
| c85 010-0
c85 056-0
| C85-056'O
L C88'010'O
J C85'055'O
RESIST(|RS
I N O , i W , I O O % T O L E R A N CUEN L E S S O T H E R W I S EN O T E D
k:kO M:MO
Part No.
Description
Symbol
F';* T
Carbon film
R3
Carbon film
2.2k
. KL
R F i P IS5 O l ( N
R F : P S2 R 2 KK
Ra
Carbon film
56k
R F i P S5 6 K , K
R:
Carbon film
56k
R6
Carbon film
47k
RZ
Carbon filrr
47k
R F i P S5 6 K . K
R F : P4S7 l ( .N( t
R F i P S 4 TN
| (L
.r(
150k
NL
RFIPS
56l(-|(
RF}PS56KK NL
Part No
Descriptron
Symbol
w 5 2 . O 0 40
TAPE REC Terminal
rso|(+,
lrL
nrips
Rr
R2
Carbon Jilm
PARI
C0M P0U1'
lI]
()THtR
Part No
Description
Symbol
c64 030.0
AM Variable Capacitor
R8
Carbon f ilm
56k
Re
Carbon film
56k
Rr o
Carbon f ilm
56k
Rrr
Carbon film
56k
Rrz
Carbon film
4.7k
Rr:
Carbon film
Rr+
Carbon film
4.7k
3 . 3k
R rs
Carbon film
a2k
Rro
Carbon film
a2k
Rr7
Carbon film
lk
Rr8
Wire wound
150
Rre
Wire wound
150
Rzo
Wire wound
150
Rzr
Wire wound
R22
Carbon film
56k
R23
Carbon film
2.7k
R O 3 P1 5 0 - K
R F I P 5S6 lK
( Nt
r(
2R7l(
RFiPS
R24
Carbon film
a.2k
R F i P8SR 2ll((
R25
Carbon film
56k
R26
C a r b o n Ji l m
33k
R F } P S5 6 K . K
l (t
RFiP3
S3 K .N
R2t
Carbon film
33k
RFiPS]3l( I( NL
Rze
Carbon f ilm
4 . 7k
R F : P4SR 7 K . l (
Spring for Front Cover
Dial Pulley (Small)
O i a t e u l t V f o r R e v e r b e r a t i o nC o n t r o l
1
Dial Pulley for FM Tuning Capacitor
Oiat euttv for AM and FM Tuning Capacitor
I
Dial Pulley
I
Foot
I
AM Ferrite Loopstick Antenna Ass'y
Rze
Carbon film
4.7k
RF.!PS
4R7(-K
I Pilot Lamp for Dial Board
R:o
Carbon film
2.2k
NL
RFiPS
56l(.l(
R F } P5S6 l ( .N
I (L
LLA]IE()US
MISCE
I(NL
RF:PS
4R7|(
Nt
RFlPS4R7l(.K
Front Panel Ass'y
Front Panel
M21.354-A
M 2 1. 3 5 5 - A
NL
RFiPS3R3K.l(
Side Panel(R)
Side Panel(L)
M21,356.O
M2l-357-O
Front Cover
Escutcheon
M 2 1. 3 5 8 0
A 6 7- 2 1 7- A
R03P 150-K
Dial Board
A62 055.8
R O 3 P1 5 0 - K
Shaft
P a c k in g
B2 8.OO2.O
E3I .145-A
R F I P S8 2 K - K
R F i P S8 2 K - K
R F I P Sl X K
3W
3W
3W
3W
R 0 3 P1 5 0 - K
RFJ!PS2R2X-I(
S y m b o lj
Description
t-
I p*", r-rr*",
Ll
L2
J Choke Co,l
| n M . F e r r i t e L o o p s t i c kA n t e n n a
L,
l c n o r uc o i t
I
Part No
Ttu, * o
I T 2 4 ' O 3 OO
lf42'O24-A
l r 2 4 o 2 5B
Pilot Lampfor
Signal lvleter (8V
Prlot Lampfor
Reverb (8V
Pilot
Lamp
Ass'y
for
M42-053-A
M42.O27.D
I M42.o2r-c
I r.,r+z.oos,a
-017-o
M61
L
w72-oo2.B
i
-O
E22.O1a-A
E22.O29-O
E 2 2 . O 3 l- O
Stereo Indicator
Pilot Lamp Ass'y Jor Dial Pointer
Ct)ILS ANDTRAI{SFt]RMER
M42-O54.O
E22.017
Pilot lamp,for Program Indicator
Pilot LamPfor
B3l-016-o
150mA)
25OmA)
Tone Color
Fuse L5A
Fuse 3A
Dial Board tor Tuning
Pulley{or Reverberation
Lens lor Pilot Lamp
Paper for Dial Pulley in Reverberation
E22.OO2-O
E 2 2 - O 2 60
€22.O30-B
E21 012 0
E21 006-O
A33.110-A
A59 051.O
A 6 2 , 0 5 4- O
As 5-008.A
Meter Escutcheon
Meter for Signal
A6l.2l6.O
A 9 l , O O 9D
Crr
Cerami c
1p
Crz
Ceramic
IOOOp
Meter lor FM Tunang
A9t.OOA.D
A62.039B
Cr:
Ceramic
Cra
Ceramic
1oOOp
462 040.8
Crl
Ceramic
5p
462 041.8
462 M2 B
C 16
Ceramic
5p
Crz
Cerami c
7p
.
4 6 2 .O 4 3B
Cre
Cerami c
IOOOp
A 1 2 . 2 0 3B
Crg
Cerami c
IOOOp
A 1 2 . 1 9 5B.
C20
Cerami c
IOOOp
Lens for Program lndicator Lamp
L e n s t o r P r o g r a m I n d r c a t o rL a m p
Lens for Program Indicator Lamp
Lens for Program Indicator Lamp
(RED)
(BLUF)
(GREEN)
(WHITE)
Lens for Program lndicator Lamp (PINK)
Knob fo. MODE
K n o b f o r B A S S ,T R E B L E ,R E V E R E ,B A L A N C E ,
0.01
500v
500v
25V
500v
50v
50v
50v
500v
500v
500v
c43,OO2-O
c47.O05.A
c t ( D YrZ0 3 P2 5
c47.005.A
c c O u0i 5 0 05 0
c c 0 s f0t 5 0 D
50
c c D r J0 7 0 05 0
c47.005,A
c47.005.A
c47-005,A
MIC A,and MIC B
K n o b f o r S E L E C T O R . T O N EC O L O R
Ar2-].97-B
Knob for TUNING
Knob for MASTERVOLUME
A12 196-A
K n o b f o r S O U R C EV O L U M E
A13.O21.A
K n o b f o r P O W E RS W I T C H
A19 038-O
Rr
C a r b o nf i l m
K n o b l o r T A P E M O N I T O RA , T A P E M O N I T O RB
(DEMI SWITCH)
A r 9 - 0 7 80
Rz
Carbon film
1N 4
1/ 8 W
R F 1 , 1 81PMK
S
R3
Carbon film
22O
1/ 8 W
R F l8
i PS
220(
K n o b l o r L O W F I L T E R ,H I G HF I L T E R ,F M M U T I N G
A19,077-O
Ra
C a r b o nf i l m
3.9k
1/8W
R F l8
i PS
3R9r(.l(
R5
C a r b o nf i l m
22k
I /8W
R F l / 8 P2S2 K . r (
R6
L;arbon lrlm
I
tx
r /8w
RFI,l8P
1S
l (I (
LOUDNESS
lOOk
l-tvaw
RFll8PS
t00l(.K
R7
Carbon film
|
22o
1/ 8 W
RF1/8P
2S
2 0l (
R8
C a r b o nf i l m
8.2k
1/ 8 W
R F l8
i PS
8R2l(,l(
1P Input Terminal
4P Antenna Terminal
K 2 1 . 0 0 5C
Ki I .018.O
Re
C a r b o nf i l m
|
|
2.2k
RF1/8P
2S
R2l(.K
Rr o
uaroonTllm
I
lcx
I /8W
1/ 8 W
Ru
C a r b o nf i l m
22k
1/ 8 W
22k
1/ 8 W
RFli8PS22|(l(
R F I l 8 P2S2 I|((
3.3k
r /8w
RFI,l8P
3S
R3l(.l(
Spare A, C Outlet
K82 012 0
Rrz
Carbon film
Socket for SPeaker
Jack tor Headphone
K73.O28.O
Rrs
C a r b o nf i l m
Jack tor Microphone
Socket for Pilot Lamp
Fuse holder (1p)
5P Connector ( DIN tx)e)
K72.O24.O
K 4 1. 0 0 2 , 8
Fuse holder lor Protection Circuit
K96.OO6C
Short Pin Plug
K71.028-O
F M F r o n t - e n dU n i t
w11,o28-D
FM lF Unit
AM Tuner Unit
wr2-028-o
w 1 4 - 0 1 5A
FM MPX Unit
w 13.026.o
Muting Unit
w18-028-A
Head Amp Unit
Control Amp Unit
w2r.oo2.o
w22-@2-O
Main Amp Unit
MIC Amp Unit
w2l,003,A
Reverb Amp Unit
w28.002,o
Tone Color Unit
w28.001,o
Demi Switch Unit
w26-001.4
Demi Switch Unit
Push Switch Unit
[email protected]
Power Supply Unit
w 16.028,o
Power Supply Unit
R e v e r b e r a t i o nU n i t
w16.029-O
|
R F l8
r P S1 R 5l((
K72-026-O
K9l .005.A
K93 003.8
w15,O52-F
w26-003 0
c0rLs
RF Coil
T21.013.8
Lz
RF Coil
Ls
OSC Coil
r23.026.D
r23-O32-B
Lr
SEMIC( ) IIDUCT( lRS
25V
Cera mic
Cerami c
6p
Cerami c
100Op
Cera mi c
1oOOp
lop
Cerami c
lop
Cerami c
lop
Ca
Cerami c
5p
Cro
Ceramic
10Op
50v
500v
500v
50v
50v
50v
50v
500v
CI(DYZ
iO2P25
c c D s0L6 05c 0
c47.005.A
c47.005.A
c c 0 s1t 0 05K0
c c D si L0 0 K5 0
c c D s1L0 05| (0
ccDsL050D50
c47-004-o
Part No.
Description
Symbol
Dr
IS85
Diode
vQr r
Transistor
Qz
3SK22-Y
2 S C 4 6 1- B
Qs
2SC461-A
Transistor
Transistor
F M I F U N I T( W I 2 - t l 2 B )
CAPACIT( lRS
Descriplion
Part
No.
Cl
C e r a m ci
0.01
Ceramic
o.01
25V
25V
O ( D YlZ0 3 P2 s
C2
Ceramic
0.01
25V
c l ( 0 YrZ0 3 P2 5
Ceramic
0.01
25V
C l ( D YI O
Z 3 P2 5
C e r a m ci
lop
c c D s lL0 0 K5 0
M y la r
o.1
50v
50v
C7
Ce r a m i c
0.01
25V
CKDYZ
t03P 25
C8
0.01
25V
c I ( D Y1Z0 3 P2 5
Ce
Ce r a m ic
C e r a m ci
0.01
25V
c I ( D Y1Z0 3 P2 5
C ro
C e r a m ci
o.0i
25V
c | ( 0 Ytz0 3 P2 5
Cll
E l e c t r o ly t i c
1
50v
Ctz
C e r a m ci
50v
CEMXlMF 5OV
ccDsL
0 3 0 c5 0
C l3
C e r a m ci
0.01
25V
c l ( D Ylz0 3 P2 5
Cr+
C e ra m ic
1@p
50v
c c D s Ll 0 t | ( 5 0
Ct5
C e ra m ic
o.01
25V
C 16
C e r a m ci
o.01
25V
C K D Yl 0I 3 P2 5
C K D YI 0? 3 P2 5
Crt
C e r a m ci
o.01
25V
c I ( D Y1Z0 3 P2 5
Ca
Part No.
Description
Part No.
Description
Symbol
w38.001.o
Cerami c
C7
I
K22-O73-C
K2l -OlO.D
Symbol
Ca
Part No
Description
Symbol
6p Input Terminal
4P Input T*minal
F M F R ( ] N T - IU
NN
D I T( W 1 1 - t ) 2 B )
CAP A C I T t ) RS
C1
RESIST(lRS
A13.020.8
c l ( D Y1z0 3 P2 5
c Q M1
A0 4 M
50
T
PIONEER
I
c,,
Erectrorytrc
CF
Ceramrc
C:o
47
rov
300p
5OV
Electrolytic
I
25V
I
c r r ,,rtln i m
r rr; v l
I
I
|
C:r
Electrolytic
4.7
l6V
CCDS
T l K5 0
30
|
C t N llXM F2 5 V
I
4
R
7
|
V
I
F
Ct[lX
l6vl
,r,
Ceramic
IOD
5OV
CC|]S
1T
00K
5 0|
I
a r.
Ceramrc
5OV
CCDS
l 0T0 | 5
{ 0|
zsv
c r o vLzo :zpsI
I
I t ,
10p
cer..m'c
o or
]
R ES I S T ( ] R S
Symbol
Desc
ription
Rr
C a r b o nf i l m
47k
R2
Carbon film
470
R3
Carbon film
56k
R+
Carbon film
470
M U T I NU
Gl ' l l T( WI B -0 2 8)
CAPACIT()RS
Symbol
Part
Descriptron
No
Cr
lvylar
o.47
5OV
C2
Electrolytic
50V
C:
Electrolytic
o 47
Al
C Q I i4l A/ 4 K5 o
tilv\04/v.1
2^v
t t 1 4 4' v t 5 ,
Part No.
I
RF+PS
4 7 KK
R F : P S4 7 0K
R F : P S5 6 K . K
RESISTORS
Symbol
Description
Part
R F I P S4 7 0K
No
Carbon film
33k
*r:ps::xl
R5
Carbon film
R F i P S5 6 X . K
R6
Carbon falm
56k
t2k
Rr
R F . ! P sl 2 K K
Rz
Carbon film
22k
R F : P S2 2 KK
Rz
Carbon film
2.7k
RFiPS
2R7K
K
R3
Carbon film
33k
R8
Carbon film
33k
R F i P S3 3 K . K
Ra
Carbon film
1.8k
R F i P S3 3 KK
R F i P SI R S KK
Re
Carbon film
22k
Carbon film
10k
RTFAi TPJS1] O
N
U AKA
K
Carbon film
100
RFJPS
22K.K
R F : P S1( ] OK
Rs
R l o
R6
Carbon film
r2k
R F i P S12 KK
Rrr
Carbon Jilm
220k
R F : P S2 2 0 KK
Rz
Carbon Jalm
Rrz
Carbon film
420
R F : P S8 2 0 . K
R8
Carbon film
100
1. 8 k
Rr:
Carbon I ilm
150
R F : P SI 5 O . K
sEMtc0t'tI]ucT0Rs
C ( ) I LA
S N DT R A N S F t ] R M E R
Symbol
Description
Synlbol
Part No.
Diode
Tr
Fl\i1IFT
f 13.O22.O
D2
T2
FM IFT
T7 3 . O 2 2 - O
Qr
2 S C 77111
T r a n s is t o r
T3
FM IFT
T73022 0
Qz
2SC71l
Transistor
Ta
FM DET IFT
I74 009 0
Q:
2SC711
T r a n s si t o l
Lr
RF Choke Coil
T24.O29.4
Diode
1s188 or FN4-1
15188or FM 1
1 S 1 8 80 r F M , 1
Diode
LI\.1703L.8L
tC
Diode
Diode
Diode
Diode
L I V T O 3 LA L
IC
LIVTO3L,BL
IC
L t \ 4 7 0 3 LB L
tC
Part
No
Part
No
Diode
M I CA M PU N I T( W 2 1 - O ( ) 3 )
CAPACIT( ) RS
S IM I C ( ) N D U C T ( ] R S
1 5 1 8 8 o r F l \ 41
1 S 1 8 8o r F M , 1
1 3 1 8 8 o r F I M1
Dr
Description
1S188or FtV-1
15188 0r FIV-I
Description
RF+PS
I 00.K
RF+PS
I R8K.K
Part
No.
Symbol
Description
C l
ir""t-b,.;;-I
lt
Cz
Electrolytic
10
Ca
Ceramic
30p
C4
Ceramic
3Op
Cs
Ceramic
C6
Cerami c
C7
Electrolytic
C8
I
lOOp
I
lOV
CEI\4
l OXI V 1F( ] V
t0v
c E t \ l1x 0 N l1F0 v
50v
50v
50v
c c D s3t0 0sK1 ] v
c c D sl 0r 0 K
50
c c D sl 0
r 1 r5(0
50v
c c D s 1t 0 t l 5
(0
50v
Electrolytic
lOOp
o.47
o.47
50v
clllx 84/l\4F
s0v
ci[4xR47l\,1F
50V
Crr
Electrolytic
lo
lov
c | v x l 0 t ! | F1 0 v
Ctz
Electrolytic
lo
10v
cilltx 10t\4F
t0v
Cr5
Electrolytic
100
35V
Llv,i00lvf
C re
Electrolytic
IOO
35V
.Llv,l00vr
R ES I S T ( ] R S
Descrp
i tion
R t
Carbon
1k
R F : P S1 K K
R2
Carbon
1k
R F i P SI K . K
R:
Carbon
15 0 k
R F , ! P SI 5 O X K
Ra
Carbon
I 50k
R F : P S1 5 O KK
R5
Carbon
220k
R6
Carbon
220k
R7
Carbon
r20k
Re
Ca r b o n
r20k
z6
390
R F * P S3 9 0 - K
R zr
C ar b o n
10k
Carbon
390
R F I P S3 9 0 , X
R22
Carbon
1k
Carbon
470k
R F I P S4 7 0 K
Res
Carbon
15k
R F } P SI 5 K , K
Carbon
470k
R F i P S4 7 0 K
Rz+
Carbon
15k
R F i P SI 5 X - K
Carbon
l5k
R F } P SI 5 K , K
Ca r b o n
15k
R F I P Sr s K , r (
Reo
C ar b o n
330
R F i P S3 3 0 , x
Ca r b o n
2.7k
RF}PS
2R7K.X
Rzt
Carbon
lk
C a r b on
2.7k
R F I P S2 R 7 K . X
R28
Carbon
33k
R F i P S3 3 K , K
Rzs
Carbon
33k
R F } P S3 3 KK
R1e
Carbon f i l m
33k
Rro
Carbon f i l m
Rrr
Ca r b o n f i l m
33k
56k
RFIPS 33K-K
R F I P S3 3 XK
S y m b o lI
Ca r b o n f i l m
56k
R F I P Ss 6 K . K
Carbon f i l m
2.2k
RF I P S
Lt
Rz+
Carbon f i l m
2.2k
RF+PS
2R2K
T1
TRAI{
SISTORS
D e s c r ip t i o n
Qr
2SC871.GR
Qz
Qs
2SC87l.GR
2SC870
Qa
2SC870
Part
No.
Cr
Electrolytrc
C2
Electrolytic
C:
Styrol
Ca
Electrolytic
C5
Mylar
o.15
C6
Mylar
22OOp
Ct
Mylar
22cop
o.47
o.47
I sOOp
l5OOp
300p
Cs
Electrolytic
Electrolytic
C ro
Mylar
Crr
lvlylar
Ctz
Ceramrc
f75.OZ3-O
I ' 120
330Op
3.3
50v
lov
175.026.O
T75.OI5-A
T 7 5 . O 1 5A
Description
l S 1 8 8 o rF M . l
Diode
1 S 1 8 8 o rF I V - 1 D i o d e ,
2SC870-F
Transistor
D2
i
No.
DI( ]DTS
A1{ DTRAI{ SISTllRS
Dr
Description
Pa.t
il\4PX Transformer
'38kHz
Frlter
LPFr
LpFz | 38kHz Filter
Symbol
M P XU N r T( Wl 3 - 0 2 6)
CAPACIT()RS
Ce
Description
l9kHz Coil
Qr
Q z2
Symbol
R F * P SI X .X
C( ) ILS
A1{ DTRAI{ SF( ) RMER
R22
Symbol
R F i P Sl K . K
R F l P S5 6 X - K
Rzs
-
R F I P S1 0 K . K
C ar b on
2SC711-F
2
SC7I1.F
2 S C 7 1 1- F
Transistor
Q:
Qa
Qs
2 S C7 1I . F
2 S C 7 1 1. F
Transistof
Qo
CA3054
tc
Transistor
T r a n s si t o r
Part No.
i ctMX2R2tUF
CEMX
ro|llFr0v
c15.011
25V CIMX3R3|\,|F
5 0 v c Q i l1A5 45( 0
222X50
5 0 v cQr',iA
222K50
50v CQMA
I
5 0 v CE]llXR47M
5 0 v ] CI|!1XR47MF
5C
152|(50
5 0 v I CQ||rtA
1521(
5 0 v CQ||'|A
50
5 0 v c c D s 3L 0 1 l5( 0
RESIST(}RS
A MU l { r (TW 1 4 - 0 1 s )
CAPAC
I T()RS
Symbol
-fcur"r'"--
c,
Description
0.04
10
Part No.
i=r-
c | ( D Y4t 0 3 P2 s
C2
Electrolytic
l0v
cEl!|x
lor|.1|F
l0v
Ca
Ceramic
0.04
25V
c K o Y4l 0 3 P2 5
C+
Ceramic
0.04
25V
c K D Y4t 0 3 P2 5
C5
Electrolytic
22
10v
CT|tlX22MFlOV
C6
Ceramic
0.04
25V
c(DYZ
4 0 3 P2 5
C7
Ceramic
o.04
25V
C l ( D Y4Z0 3 P2 5
C8
Ceramic
0.04
25V
Cl(DYZ
4O3P25
Ca
Ceramic
o.04
25V
c l ( D Y4Z0 3 P2 5
C io
Mylar
o.01
50v
c Q M lA0 3 l (5 0
Cl1
Mylar
41Op
cQsA
4 1l l ( 5 0
100
R F I P S1 0 0 , X
C2o
l\4ylar
47OOp
C a r b on f i l m
Ca r b o n f i l m
330
RF*PS
330.K
Cz r
lvylar
47Cop
50v
25V
50v
25
25V
25V
25V
50v
25V
50v
50v
33k
RF}PS
33K.K
C22
Electrolytic
0.47
50v
cQMA
50
4721(
CtMXR47MF
Carbon f i l m
10k
R F } P SI O K , K
CB
Carbon f i l m
10k
R F i P SI O KK
Cza
I Ceramic
C ar b o n l i l m
150
R F I P S1 5 0K
C:s
I Electrolytic
Carbon f i l m
33k
R F + P 3S3 K K
Carbon f i l m
2.7k
R F i P S2 R 7 KX
C ar b o n f i l m
1.2k
Carbon f i l m
2.7k
R F i P S1R 2 K
R F ' P S2 R 7 K
Carbon f i l m
|.2k
R F i P SI R 2 KK,
Carbon f i l m
l0k
R F i P SI 0 K . K
Ca r b o n f i l m
Carbon f i l m
6.8k
4.7k
R F I P S6 R 8 X
Cl2
| Ceramic
RF}PS
4R7X
Cr3
i Electrolytic
Carbon f i l m
39k
R F I P S3 9 K . K
Crl
Ceramic
o.o2
Carbon t i l m
4 . 7k
R F i P S4 R 7 K
Crs
Ceramic
0.04
Carbon f i l m
47k
R F l P S4 7 XK
Cro
Ceramic
0.04
C a rb on f i l m
47
R F I P S4 7 K
Ctt
Ceramic
0.04
Carbon f i l m
2.2k
15k
R F i P S2 R 2 K ' K
Cl8
Ceramic
47p
R F } P S15 KX
Crs
Ceramic
C ar b o n f i l m
Carbon f i l m
Electrolytic
0.@
lo
0.04
c | ( D Y4I 0 3 P2 5
CEIVX
lOMF5OV
CI(DYZ
2O3P25
c l ( D Y4Z0 3 P2 5
c l ( D Y4Z0 3 P2 5
Cl(DYZ
4O3P25
c c D s t4 7 0 l5( 0
c | ( D Y4I 0 3 P2 5
c Q M4A7 2 l5( 0
220
6V
CIMX22Oli|F
6V
0.04
25V
100
16V
C l ( D Y4ZO 3 2
P5
CEMX
IOOMF
16V
TJIONEER
RESISTt]RS
D e sc i l p t r o n
Symbol
^
I
Part No.
I
Carbon f a l m
22k
R F i P S2 2 K . K
R2
Carbon t i l m
l5k
R F i P S1 5 KK
R3
Carbon f i l m
470
RFiPS
4 7 0K
Rq
Carbon i i l m
100
R F i P Sr 0 0 . K
n l
HEAD
A M PU l ' l l T( W 2 l- 0 0 2)
CAPACIT{lRS
S y m b o li
Description
aa-E
Fart No
El ectrol yti c
22
10v
22
10v
Rs
Carbon t i l m
2.2k
R F : P S2 R 2 K .
C2
Electrolytic
R6
Carbon i i l m
t0k
R F ] P S1O X . K
Ca
Electrolytjc
4.7
I
i
l6v
crMx22[1F
r0v
C E M2X2 M F
IOV
cEr\lx
4R7t\4F
l6V
R7
Carbon f i l m
3 . 3k
RF:PS
3R3K.
Ca
Electrolytjc
R8
Carbon f i l m
470
R F i P S4 7 0 . K
C5
Electrolytic
10
25V
C E Ml X
O M2F5 V
Rs
Carbon f i l m
lk
R F : P SI K - K
C6
Electrolytic
10
25V
CiI\,|X
IO[!F25V
4.7
1 6 V ] CIMX4R7IVF
] 6V
Rro
Carbon J i l m
lk
R F + P1SKX
C7
Cerami c
I 00p
50v
Rrr
c c 0 s L1 0 l | 5
(0
Carbon t i l m
4.7k
RFiPS
4R7K
K
Cs
Cerami c
100p
50v
R12
Carbon t i l m
27k
R F i P S2 7 KK
Ce
Cerami c
330p
Rr :
50v
c c D s lL0 1 K5 0
c c D s l3 3 1 15(0
Carbon f i l m
1K
R F i P St K . K
330p
50v
c c D s L3 3 r l (5 0
Carbon f i l m
68
R F i P S6 8 K
Cr o
Crr
Ceramic
R la
Mylar
0.01
Rrs
50v
cQrvlA
103K50
Carbon l i l m
+.t r,
R F i P S4 R 7 K . l (
Crz
Myl ar
0.01
Rr o
Rrz
50v
c Q r l llA
0 3 K5 0
Carbon f i l m
l00k
R F ] P S1O O Kl (
Cr:
Mylar
3300p
50v
Carbon t i l m
27k
R F : P S2 7 KX
Cr a
lMylar
c Q r u3A3 2 |5( 0
cQrvlA
332(50
Carbon f i l m
R F i P Sl K . K
Crs
Electrolytic
25V
cilltx22ot\,|F
25v
Rle
Carbon f i l m
1k
I 50k
33O0p
220
50v
Rt8
R20
Carbon t i l m
4.7k
R F i P S4 R 7 K . K
R21
Carbon f i l m
4.7k
RFiPS
4R7K
R22
Carbon l i l m
22k
RF:PS
2 2 KK
R23
Carbon l i l m
470
R F i P S4 7 0 K
.
R2a
Carbon f i l m
470
R F + P4S7 0
R r
Carbon film
1k
R F } P S1K . K
R F } P S1 K . K
RFiPS
l50K.K
RESIST()RS
Symbol
Description
Part No.
Rzs
Carbon f i l m
100
R F + P IS0 0 .
R:
Carbon film
Rzo
Carbon f i l m
3 . 3k
lk
R F i P S3 R 3 K
R3
Carbon film
Rzt
Carbon f i l m
6 . 8k
R F i P S6 R 8 K
56k
R4
Carbon film
R28
Carbon
film
100
56k
R F i P S1O O . K
R F i P S5 6 X . K
RF+P5
S6 K . X
R5
Carbon falm
R:g
Carbon
film
3.9k
1tv
R F I P S3 R 9 K
RF+PS
l rV.K
R6
Carbon film
R:o
Carbon f i l m
4 . 7k
R F ] P S4 R 7 | (
I t\4
R F I P Sl M . X
Rz
Carbon film
390
R F i P S3 9 0K
R8
Carbon film
390
R F I P S3 9 0K
Re
Carbon tilm
470k
RF1P4
S7 0 K
Rlo
Carbon film
470k
R F i P S4 7 0 (
Rll
Carbon film
56k
R F I P S5 6 i (K
C t | I L SAN I )T RA I{S F ()R MtR S
Symbol
Description
'
part
No
R l?
Carbon tilm
r
VW RF COIL
56k
R F I P S5 6 KK
r41,008
R13
Carbon film
12
I V WO S C C O I L
330k
143,007
Rr+
Carbon Jilm
T3
AM IFT
330k
R F + P 3S3 0 X
R F i P S3 3 0 K .
I4|.O2S
Rrs
Carbon film
Ta
AiV IFT
AM DET IFT
3 . 3k
R F : P S3 R 3 K
I7I.O25
Rro
Carbon film
3 . 3k
r72.017
RtZ
Carbon film
4.7k
RFiPS
3R3K
R F i P S4 R 7 i (
Rt8
Carbon film
4.7k
RF*PS
4R7K
Rrq
Carbon film
t0k
R20
Carbon film
10k
RF+PS
l0KK
R F i P SI 0 K K
Rzl
Carbon film
47k
Rzz
Carbon film
47k
T5
st Mtc0ilDUcT0Rs
Sy m b o l
Dl
Descrr ptr on
Part
No
R F I P S4 7 K . X
RF:PS
4 7 KK
15188 or FM-l
1S188 or FM,l
Diode
R23
Carbon film
270k
R F i P S2 7 0 K . K
Dz
Daode
R2a
Carbon film
270k
R F l P S2 7 0 K , K
Qr
2SC382
T r a n s is t o r
R25
Carbon film
22k
Qz
2SC460B
Transistor
R26
Carbon film
22k
RF}PS
22K.K
R F i P S2 2 X . K
Q:
2SC460B
Transistor
Rzt
Carbon film
2.2k
R F i P S2 R 2 X .
Qa
2 S C 4 6 OB
Transistor
R28
Carbon film
2_2k
RF:PS
2R2K
Qs
2SC460.8
Transistor
R2e
Carbon film
t2k
R30
Carbon film
12k
R F : P S12 ( . K
R F : P SI 2 K . K
TRANSIST()RS
Sy m b o l
Descrtptron
Qr
2 S C 4 5 8 L GB
Qz
2 S C 4 5 8 L GB
Q:
Qq
2 S C 4 58 L G .B
2 S C 4 58 L G . B
Qs
2 S C 4 58 L G , B
Qo
2 S C 4 58 L G . B
I
Part
No
C ra
Cl5
lVylar
(w26-001)
D t M sl w t T c uHN r T
R TS I S T ( ] R S
Part
Description
Symbol
* I .,,0-'*,
I n; I
T
I
lOk
R:
C a r b o nf i l m
Rr
c a r b o nf r l m
I
tor
Ra
C a r b o nf i r m
I
rol
I
No
]-':'s-*
R F I P S1 0 KX
I R f l P sl o K K
R F i P Sl O KK
SWITCH
Descriotion
Symbol
Sr
Part
No
s 3 1- 0 2 9
Demi Switch
(w26-002)
DrMtswrTcHl,JtirT
CAPACITORS
t.'
Descnption
Svmbol
I
50v
50v
50v
50v
50v
Mylar
M y la r
Part No
I
r53K
50
T sov I 'QMA
Cr7
Mylar
Cre
N,'lyla
r
Ca r b o n
lm
Rz
C ar b o n
lm
470k 1
l. +ton
RF}PS
47OK,K
RF}PS
4 7 O KK
R3
Carbon
lm
2.7k
R F l P S2 R 7 K , K
Ra
Carbon
lm
2 . 7k
RF}PS
2R7K.K
R5
Ca r b o n
tm
R F I P S3 3 ( K
R6
C ar b o n
lm
33k i
33k
R7
Carbon
lm
47k
R F i P S4 7 K . K
Rs
C ar b o n
Rs
Ca r b o n r l m
Rr o
Ca r b o n i l m
Ril
Carbon I m
Rrz
Carbon r l m
2.2k
Rr3
Carbon r l m
15k
Rr a
Carbon r l m
15k
R1 5
Ca r b o n i l m
R1 6
Carbon ilm
Rrr
Carbon r l m
ll3l
I
R F I P S3 3 K . K
RF}PS
47K-K
Li;ll
Im
R F i P Sl O K . K
i:r
R F i P SI O K . K
R F i P S2 R 2 K . K
R F I P S2 R 2 K - K
R F i P SI 5 K . K
R F I P S1 5 K . K
I
R F i P S3 R 9 K . K
R F i P S3 R 9 K , X
lsll
R F } P S6 R 8 K . K
2.7k i
R F i P S6 R 8 KK
R F } P S2 R 7 KK
2 . 7k
R F I P S2 R 7 K , K
3il
o.ek
R F I P S6 R 8 K . K
0.015
sOV
cQl',iA
153K50
Rr e
Ca r b o n I m
!'
M y la r
5ov
I 0 Q M4A7 3 Ks o
Rr s
C ar b o n t l m
V4
M y la r
M y la r
Rz r
C ar b o n i l m
C a rb on r l m
C6
lvlylar
Rzz
Carbon ilm
C7
C e r a m ci
473(50
5OV cQlVlA
OQM
3A
3 35| (0
5ov
I
3 3 5K0
5 0 v I C Q M3A
5 0 v c c D s2L2 l x5 0
R20
C5
R23
Ca r b o n r l m
I
Cs
C e r a m ci
o.M7
o.M7
0.033
o.033
22Op
22Op
2 1 K5 0
5 O V L C C D S2 T
R2a
C ar b o n r l m
I o.an
RF*PS
6R8K,K
R F i P S6 R 8 K . K
R F i P S6 R 8 KK
TRAI{ SIST( ) RS
R ES I S T ( ) R S
Descnption
Rr
carbon frtm
Rz
R.
I C a r b o nf i l m
C a r b o nf r t m
l50k
R+
I carbon tilm
r2k
Part No
Symbol
R F : P Sl 5 0 KK
R F I P S1 5 0 KK
Qr
2 S C 4 5 8 L GB
Qz
2SC458LG.B
I R r i P Sl 2 K . K
I R F i P Sl 2 K K
Q:
2SC458LG.B
Q+
2SC458LG,B
]
15ok
I
12k
I
SWITCH
Sl
c Q M8A2 3 K5 0
coMA
8 2 3 (5 0
Rr
M y la r
Part No.
Description
Symbol
cQ|llA
822l(50
Part No.
Description
Symbol
0.015
S y m b o lI
cQ|uA
822l(50
R ES I S T ( ] R S
M y la r
Cz
0QMA332K5o
s31-016.A
Demi Switch
Parl
Description
No
AMPUl{lT(W22-002)
c0tfTR0L
CAPACITtlRS
Description
T t ] N EC ' t ) L ( ]URN I T( W 2 B _ t ] l | 1 )
CAP A C I T ( ) RS
No
El ectrol yti c
C2
Electrol yti c
Ca
Cerami c
C+
Ceramic
47p
Cs
Cerami c
I O0p
C6
Cerami c
C7
Electrolytic
lOOp
10
C8
Electrolytic
10
Electrolytic
47
Cro
El ectrol yt ic
47
Crr
Elect rol yti c
10
Ctz
El ectrol yt ic
Cr:
N4yla r
10
33O00
Electrolytic
Cz
Electrolytic
25V
25V
c t M Xl 0 0 M2 5 v
25v
c t M x1 0 0 M
Electrolytic
25V
. E le c t r o ly t i c
E l e c t r o ly t i c
25V
CEMXIOMF25V
CTMXIOMF25V
25V
CIMX47MF25V
25V
C j
Electrolytic
E l e c t r o ly t i c
25V
cEMX4iMF 25V
CEMXIOMF25V
Electrolytic
25V
CEMXIOMF25V
Ce
lMylar
50v
C Q M4A7 3 M
50
Cr o
lvyla r
50v
Crr
lVyla r
50v
0 Q M4A7 3 M5 0
0 Q M4A7 3 M5 0
C12
lMylar
50v
c0rvlA
473M50
C13
M y la r
50v
C 14
lMylar
50v
Ca
Ca
Symbol
Cr
Cr
10v
10v
50v
50v
50v
50v
25V
25V
10v
10v
25V
25V
50v
10t\4F
l0V
cE|,iX
]OV
CIMXIOMF
c c D s4L7 0 5( 0
c c D s4l 7 0 5K0
c c D s1t 0 l r5( 0
50
, c c D s1r0 l K
cEr\l1X
loMF25V
I
cEt\,tx
10t\rF
25v
cErllF
47t\lF
l0v
ct]llx47r\4F
10v
l0MF25V
I CEMX
rourzsv
I ceux
332K50
I CQTVTA
C5
C6
Electrolytic
C to
Ctt
Cl8
Cte
Electrolytic
E l e c t r o yl t i c
Electrolytic
E le c t r o l y t i c
c Q r u3A
32M
50
cQrt4A
332rV
50
lor'.|F
25v
25V I cEt||x
CEMX
loMF2sv
25V
I
CEMX
lMF 25V
25V
IMF 25V
CEMX
25V
47MF
2sv
25V I CEMX
rJIONEER
C20
Electrolytic
41
25V
cEt\,lx47illF25V
Ce
Electrolytic
22
Czr
Electrolytic
100
25V
cElvlx100MF
25V
Ct
El ectrol yti c
47
Czz
Electrolytic
100
25V
C8
Electrolytic
47
C::
Ceramic
1oop
50v
cEr\4x
100ilrF
25v
c c D s L1 0 1 l5{ 0
Ce
Ceramic
Czq
Ceramic
t O0p
50v
c c D s 1L 0 1 (s 0
Cro
Cerami c
56p
Crr
Electrolytic
100
Crz
Electrolytic
100
Electrolytic
100
RESISTt)RS
D e s c r ip t i o n
Symbol
100
C rq
E Ie c t r o l y t i c
Crs
Ceramic
0.01
Rr
Carbon t i l m
1k
Cro
Ceramic
0.01
R2
Carbon
tilm
1k
Crz
Ceramic
lOOp
R3
Carbon f i l m
4tk
Cre
Ceramic
1O0p
R+
Carbon f i l m
41k
R F i P S4 7 KK
Cl9
Ceramic
30Op
R5
Carbon f i l m
33k
R F l P S3 3 K . K
Czo
Ceramic
3OOp
R6
Carbon t i l m
33k
R F i P S3 3 KK
25V
3V
3V
50v
50v
3V
3V
50v
50v
50v
50v
50v
50v
50v
50v
II cruxzzurzsv
C E M4X7 M F
3V
C I I V 4X7 M F
3V
cl(DYZ
5601(
50
ct(DY7
560|(50
l00MF3V
r CEiVX
] CTMXIOOMF
3V
r cEt|,lx
l00tvlF
3v
I CEMXIOOI\,lF
3V
ct(0Yll03t\1
50
O ( D YlZ0 3 M5 0
c c 0 s Ll 0 1 l (5 0
c c D s Ll 0 l r ( 5 0
c c D S3L0 r l (5 0
c c D s L3 0 l l (5 0
R7
Carbon film
15 0 k
R F i P S15 O K . K
R8
Carbon t i l m
15 0 k
R F i P S15 0 KK
R9
Carbon
3.9k
R F i P S3 R 9 KK
R ro
Carbon Iilm
3 . 9k
R F i P S3 R 9 K . K
Rrr
Carbon
1.2k
R F i P SI R 2 KK
Rr
C a r b o nf i l m
150k
R F I P SI 5 O KK
R rz
Carbon f i l m
| .2k
C a r b o nf i l m
150k
RFlPS
rs0K
Carbon f i l m
6.8k
R F l P S1R 2 K , K
R F i P S6 R 8 X . K
Rz
R r:
R3
C a r b o nf i l m
l5k
R F i P SI 5 K . K
R ra
Carbon tilm
6.8k
R F 4 ! P6SR 8 K ' K
Rr
C a r b o nf i l m
15k
R F i P SI 5 K . K
R r5
Carbon f i l m
10k
R F i P SI O K . K
R5
C a r b o nf i l m
220k
R F } P S2 2 O K . K
R ro
Carbon film
10k
R F } P S1O XK
R6
C a r b o nf i l m
220k
R F I P S2 2 0 K , K
R rz
Carbon i i l m
lk
R F i P S1K . K
Rz
C a r b o nt i l m
22k
R F } P S2 2 K . K
Rre
Carbon t i l m
lk
R F i P SI K K
R8
C a r b o nf i l m
22k
R F i P S2 2 K . K
Rig
Carbon t i l m
iok
R F i P Sl 0 K , K
Rs
C a r b o nf i l m
4.7k
R F l P S4 R 7 K - K
R 20
Carbon f i l m
10k
R F i P SI O KK
R1o
C a r b o nf i l m
4.7k
RF}PS
4R7K-K
Rzr
Carbon f i l m
4.7k
R F i P S4 R 7 XK
Rtr
C a r b o nf i l m
470
R F I P S4 7 0 . K
R22
Carbon f i l m
4.7k
R F i P S4 R / XK
Rl2
C a r b o nf i l m
470
R F I P S4 7 0K
Rz:
Carbon f i l m
330k
R F + P 3S3 0 K . K
Rr:
C a r b o nf i l m
150
R F + P lSs 0 . K
Rz+
Carbon film
330k
R F i P S3 3 O K . K
R r+
C a r b o nf i l m
150
R F I P S1 5 0 - K
R25
Carbon f i l m
15 0 k
R F * P S15 O KK
R ls
C a r b o nf i l m
a2k
R F I P S8 2 K , K
R zo
Carbon
film
150k
R F i P S15 O K . K
R re
Carbon film
a2k
R F i P S8 2 K . K
R27
Carbon f i l m
10k
R F i P SI O K . K
Rl7
C a r b o nt i l m
3.3k
R F I P S3 R 3 K . K
R:e
Carbon f i l m
10k
R F i P S1 O ( , K
Rr8
C a r b o nJ i l m
3 . 3k
R F } P S3 R 3 K - K
R29
Carbon f i l m
2.2k
R F i P S2 R 2 K . K
Rrs
C a r b o nf i l m
68
R F I P S6 8 . l (
R:o
Carbon f ilm
2.2k
R F i P S2 R 2 K . X
R20
C a r b o nf i l m
RFaPS
68,K
Rar
1 Carbon f i l m
i .8k
R F i P SI R 8 K - K
R2r
C a r b o nf i l m
68
4.7k
R:z
Carbon f i l m
1. 8 k
R F i P SI R 8 K . K
R22
Carbon film
4.7k
R F 1 P 4SR 7 K
R23
C a r b o nf i l m
6.8k
R F I P S6 R 8 X
Rzq
C a r b o nf i l m
6.8k
R F I P S6 R
R25
C a r b o nf i l m
220
R F I P S2 2 0 . K
R26
C a r b o nf i l m
220
R27
C a r b o nf i l m
lo
R F I P Sl 0 . K
R F I P Sl 0 - K
tilm
film
P()TEIITI()METERS
Symbol
Part No.
Description
VRr
B A S S C O N T R O L( I O O K O . A )
VR2
T R E B L E C O N T R O L( 1 0 0 K O . A )
ca2 04,5
c82-045
T R AI I S T ( ) RS
Symbol
Description
+
or | ,..orr.n,,
Part No
l
RESISTt)RS
Sy mbol
Description
Rze
C a r b o nf i l m
10
R2e
C a r b o nf i l m
220
R30
C a r b o nf i l m
220
Rsr
Wire wound
o.5
R32
Wire wound
0.5
R33
Wire wound
0.5
R3a
Wire wound
o.5
R:s
C a r b o nf i l m
22
Part No.
R F I P S4 R 7 K
R F I P S2 2 0 . K
R F i P S2 2 0 . K
5W
5W
5W
5W
R F I P S2 2 0 . X
R O s BO R 5 . K
R 0 5 80 R 5 , K
R 0 5 80 R 5 - K
R O 5 BO R 5 - K
R F I P S2 2 - K
Q2
2SC458LG.B
R36
C a r b o nf i l m
22
R F I P S2 2 - K
Q3
2 S C 4 5 8 L GB
R37
C a r b o nf i l m
15k
R F I P SI 5 K . K
Q4
2 S C 4 5 8 L GB
R38
C a r b o nf i l m
15k
R F } P S15 K . K
R3e
C a r b o nf i l m
15k
R F I P SI 5 K . K
R+o
C a r b o nf i l m
15k
R F } P SI 5 K . K
M A I IA
I M PU N I T( W 1 5 - 0 5 2 )
CAPA
I TCt ) R S
Sy m b o l
Description
Cr
Electrolytic
C2
Electrolytic
C3
Electrolytic
C4
Electrolytic
Cs
Electrolytic
to0
roo
t0
10
22
Part No
P()TEl{TI()MTTERS
Symbol
Description
25V
CEMX
IOOI\4Q5V
25V
ctMxl00r\4F25v
CTMX
IOIllFIOV
VRr
VR2
Bias Control 50KO-B) Semi'fixed
Bias control 50KO-B) Semi-fixed
cEir,tx
l0tllFl0v
VR3
B i a s C o n t r o l 5 O O - B )S e m i - f i x e d
10v
l0v
25V
cEl!|x
22rll
F25v
B i a s C o n t r o l 5 O O - B )S e m i - f i x e d
Part No.
c92.O44
c92-U4
c92-046
c92.M6
30
SEMICtlI{DUCT(lRS
D2
STV.3 Varistor
STV-3Varistor
Qr
2SC87O
Transistor
Qz
2SC87O
Transistor
Q:
2SC62j
Transistor
Q+
25C627
Transastor
Qs
T r a n s is t o r
Qo
2SC484.y
2SC484y
Qz
2SA484,y
Transistor
Qa
2SA484-y
Transistor
Qs
2SD218
Transistor
Qro
2SD218
Transistor
Qrr
2SD2i8
Transistor
Qr:
2SD218
Transistor
Dl
Part No
Descriptron
Symbol
Transistor
Carbon film
390
Rrr
Carbon film
470k
Rr e
Carbon film
470K
R r3
Carbon film
15k
R r+
Carbon tilm
15k
Rrs
Carbon film
2_7k
R F i P S2 R 7 IK
(
Rro
Carbon film
2.7k
K
RF}PS
2R7K
R tg
Carbon film
27k
RF+P2
Si K - K
Rzo
Carbon film
27k
R F } P S2 7 KK
R zr
Carbon film
56k
R F i P Ss 6 KK
Rzz
Carbon film
56k
R F i P S5 6 K . X
Rz :
Carbon film
2.2k
R F i P S2 R 2 rK(
Rza
Carbon film
2.2k
R F i P S2 R 2 K . K
Symbol
Part
Heat sink
Mylar insulator
Ml4 048
lnsulalor bush
E32 O39
Qz
Q:
2SC870
Q+
2SC870
E32 039
Description
' r
I o
0.1
Part No
Tzsv I csunriuiisv
Electrolytic
Cz
Electrolytic
Ca
Ceramic
l00p
Ca
Ceramic
lOOp
C5
Electrolytic
C6
Electrolytic
C7
Mylar
C8
Electrolytic
10
5 O V r C Q [ |3A3 3 K5 0
CEMX
IOI|'|F
25V
25V
Ca
Electrolytic
33
5OV
C I M X3 3 M F
5OV
Cro
Ceramic
33Op
50v
c c D s l3 3 l K5 0
Cr1
Electrolytic
33
sOV
C I M X3 3 M F
sOV
Cr2
M y la r
5OV
C Q | V2A2 3 (s 0
Cr3
I Mylar
5OV
CQTVA
223r(50
C r4
| Electrolytic
10
25V
C E MIXO M F
25V
I O V I C E MI T
O MIFO V
Cr 5
i0
25V
CEMX
IO|,iF
25V
Cro
| Electrolytic
I Mylar
50v
C Q M2A2 3 K5 0
C 17
| Mylar
50v
0 Q M2A2 3 Xs 0
Cr 8
J Electrolytic
I Electrolytic
0.1
25V
C S YRAI M F2 5 V
o.1
25V
C S YRAl M t2 5 V
Description
Parl
No.
s31.030
Demi switch
M r cA M PU i l t T( W 2 1 - 0 0 3 )
CAPACIT(lRS
Description
No. Part
Cr
Electrolytic
C2
Electrolytic
Ca
Ceramic
Ca
I Ceramic
C5
Ceramic
l@p
C6
Ceramic
lOOp
l 0 v I c E MrxO r 't,0l Fv
5 0 v I c c D s3l 0 0510(
5 o v I c c D s3l o o sl (o
5 0 v c c D s1L0 15x 0
5 0 v c c D s1l 0 L5l (0
Ct
Electrolytic
o.47
5OV
C8
Electrolytic
o.47
50V
Cs
Electrolytic
33
6V
C E MRX4 T M E O V
C E I VRX4 T M E O V
33tUF
6VV
I CEr|,iX
3 3 M6FV V
I CIMX
X M IFO V
I C E | | Ii O
Cro
Electrolytic
33
6V
Cll
Electrolytic
l0
IOV
Cr2
Electrolytic
10
I O V I C E MI X
O I VI F
OV
RESISTt}RS
D e s c r ip t i o n
Part No
Cr
swrTcH
10
10
3op
3op
R F i P s1 5 x . K
R E V E RABM PU N I T( W 2 B - t ) 0 2 )
IT( lRS
CAPAC
Symbol
Symbol
R F i P SI 5 KK
]
No
D E MSr W T T C
UH
i l r T( W 2 6 - 0 0 3 )
Sl
R F i P S4 7 0 K . K
R F } P S4 7 O Ki (
Descriptron
2 S C 8 7 1 . G Ro r B L
2 S C 8 7 1- G R o r B L
Qr
Descri pt ion
Symbol
I
TRAIIS
ISTORS
(]THER
Symbol
R F I P S3 9 0 . K
Rr o
Part No.
Cre
10
l r 0
0.033
o.o22
o.o22
o.o22
o.o22
25V
CSYA
Rll,lF25V
50v
50v
c c D stl0 l | (5 0
c c D srto i l (5 0
25V
CEtVtX
lo|i,lF
25V
25V
C E MlX
0 M F2 5 V
RESIST()RS
Description
Symbol
Part
No.
Rr
C a r b o nf i l m
lk
R F } P SI K K
R2
C a r b o nf i l m
1k
R F } P SI K , K
R3
C a r b o nf i l m
330k
R F i P S3 3 O KK
Ra
C a r b o nf i l m
330k
R F + P 3S3 0 XK
R5
C a r b o nf i l m
470k
R F + P 4S7 0 K , K
R6
C a r b o nf i l m
470k
R F i P S4 7 0 K . K
R7
C a r b o nt i l m
10k
R F } P S1 O K . K
tk
R F I P S1 X . l (
Rs
C a r b o nf i l m
10k
R F i P S1 O K . X
R2
C a r b o nt i l m
C a r b o nf i l m
1k
R F l P SI K . K
Rs
C a r b o nf i l m
220k
R F I P S2 2 0 1K(
R3
C a r b o nf i l m
15 0 k
R F l P SI 5 O K . K
Rr o
C a r b o nf i l m
220k
R F + P 2S2 0 X , K
Ra
C a r b o nf i l m
I 50k
R F I P SI 5 O K . K
Rrr
C a r b o nf i l m
5.6k
R F : P S5 R 6 X . X
R5
C a r b o nf i l m
220k
R F } P S2 2 O KK
Rrz
C a r b o nf i l m
5.6k
R F i P S5 R 6 K - K
R6
C a r b o nf i l m
220k
R F } P S2 2 O K . K
Rr :
C a r b o nf i l m
330k
R F + P 3S3 0 KK
R7
C a r b o nf i l m
1,20k
R F * P SI 2 0 KK
Rr +
C a r b o nf i l m
22k
R F i P S2 2 I ( - K
R8
C a r b o nl i l m
120k
R F I P SI 2 O X - K
Rr s
C a r b o nf i l m
3.3k
R F } P S3 R 3 K . K
Re
C a r b o nf i l m
390
R F T P3S9 0X
Rr s
C a r b o nf i l m
220
R F i P S2 2 0K
Rl
Pt()NEefil
Rii
Carbon l r l m
3.9k
R F i P S3 R 9 K
K
Rrs
Carbon Tilm
2.2k
RFlPS
2R2K
Rrs
Carbon t i l m
56k
R F I P Ss 6 ( K
R:o
Carbon f i l m
55k
RFiPS
5R6K
R2l
Carbon f i l m
lk
RTSIST()RS
Symbol
*
part No.
Description
'
r"--...-'..-.'..'..
curoon
RF:PS
1 KK
4 . 7k
tit.
i-r
R F i ! P4SR 7 KK
R22
Carbon {i l m
270
RF:PS
2 7 0K
Rz:
Carbon f i l m
150
R F 1 ! P1S5 0K
R2
Carbon film
150k
R:a
Carbon f i l m
39
Rl
Carbon film
33k
R:r
Carbon l i l m
39
RFlPS
3 9K
R F l P S3 9 K
Ra
Carbon film
15k
R26
Carbon
tilm
47
R F + P4S7 K
Rr
Wire wound
680
R2/
Carbon
film
loo
R F ; P SI O OK
R6
Carbon film
3 . 9k
R F i P S3 R 9 K
K
R28
Carbon f i l m
1k
R F i P SI K K
R7
Carbon film
33k
R F + P3S3 KK
R2e
Carbon
390k
R F i P S3 9 ( ] KK
R8
Carbon film
18k
R F : P S18 XK
R30
Carbon
120k
RFiPS
r 2 0 KK
Re
Carbon frlm
3 . 9k
R:r
Carbon
22k
R F J P 2S2 KK
R ro
W rr e w o u n d
470
R::
Carbon
10k
R F l P SI c ) KK
Rrr
Carbon film
R3i
Oarbon
560
RFiPS
5 6 0K
R r:
Carbon film
Rla
Carbon
10k
R:5
Carbon
10k
RF:PS
1 O KK
R F ; P SI ( ] KK
R:o
Carbon
390k
R F i P S3 9 ( ] KK
R:r
Carbon
390k
RF:PS
39OK
R:8
Carbon
2tk
RF]!PS
27K.|(
R3e
Carbon
27k
RFiPS
2 7 KK
R30
Carbon
Carbon
10k
10k
R F i P SI 0 KK
Ra1
R F i P SI O KK
D3
I 5338
Diode
Ra z
Carbon
680
R F I P S6 8 0K
Qr
25C627
Trans istor
Ra :
Carbon
680
R F : P S6 8 0 . K
Q:
2SC485
Transistor
Q:
2SC968
T r a n s si t o r
Qa
2SC971
T r a n s si t o r
TRANSIST(]RS
Symbol
2 S C 8 7 0Y
Q:
Q:
2 S C 8 7 0Y
Q+
2 S C 7 3 4O
Qr
2SC734P.\
25456lPO
a-
2 s c 8 7 0Y
Q8
2 S C B 7 0Y
Sy m b o l
i
Dr
1S1850
D2
I S1850
Symbol
Electrolytic
c?
Cerami c
Ca
Electrolytic
1W
R F i P SI 5 KX
R 0 26 8 0 . K
R F : P S3 R 9 K . K
R 0 14 7 0 . X
R F + P4S7 K
10
RF}PS
I OK
Description
Part
No
part
No
Diode
Di ode
Description
Mt4.O24
P ( ] W ES
RU P P LUYI { I T( W I 6 - 0 2 9 )
CAPACITt|RS
D e s c r ip t i o n
Cr
2W
Heat sink
I
roo
Cr
Part
l
D e s cr p t r o n
?t.o"ll
P ( ) W ESRU P P LUYN I T( W 1 S - ( ] 2 B )
CAPACITt)RS
Symbol
R F i I P3S3 KK
SEM IC( ]IIIlUCTt) RS
2 S C 8 7 0Y
Qe
R F i P S1 5 0 (K
t]THER
Description
Qr
I
Cerami c
o.01
C2
Ceramic
o.01
C:
Ceramic
0.01
Ca
Ceramic
o.0l
No
Part
No
part
No.
---
50v
cEr\|x
l00t\itF
50\/
lOOp
50v
100
c c D slt0 t l (5 0
C i l t l x1 0 0 l V3F5 V
C4
Electrolytic
220
35V
25V
Cr
Electrolytic
100
25V
C6
Electrolytic
100
C7
Electrolytic
220
26V
16V
C8
Ceramic
0.01
Ce
Ceramic
0.01
C[[l!X
220tVF
25V
Cil\,|X
lootyt25V
I]I( ) DES
Symbol
D1
Description
SR3AM-8
CEr\rX
100rVF
25V
D2
SR3A[/.8
C E i l2
I X2 O I \146FV
D3
SR3AlV.8
Da
SR3AM.8
D Cl . 4 K V C 4 3 , 0 0 3
D CI 4 K V C 4 3 0 0 3
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15-5, 4-Chome,
Ohmoni-nishi,
Ohta-ku,
Tokyo, Japan
U.S.A. CclFIPOFIATIctN
ELECTFIclNICS
PIctNEEFI
14O Srnith St., Fanrningdale, Ll.,N.Y. 11735, U. S.A.
(EIJFIOPE)
NV
PIo|NEEFT ELECTFIGINIC
Fnanknijkiei 64-EB,
(70G01Y53S)
2OOO
Antwenp,
Belgium
Printed in Japan
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