Page 1
PROGRAMMABLE
POLYPHONIC
SYNTHESIZER
SERVICE
P0LY-800E
MANUAL
1.
TECHNICAL
2.
MIDI
IMPLEMENTATION
3.
STRUCTURAL
4.
BLOCK
5.
CIRCUIT
SPECIFICATIONS
DIAGRAM
DIAGRAM
DIAGRAM
CONTENTS
1
2
13
16
17
6.
P.C.
BOARD
7.
CIRCUIT
8.
CHECK
PROCEDURE
9.
PARTS
DESCRIPTIONS
AND
UST
ADJUSTMENT
20
23
26
29
Page 2
KEY
1.
C~C49Keys
2.
MASTER
After
Variation
Variation
Temperature
3.
MASTER TUNE
#MAX
bMAX
4.
DCO
OCTAVE:
WAVE
LEVEL:
DCO2INTERVAL:
DETUNE:
5.
VCF
24
CUT
RESONANCE:
KBD
OSC
power
ON
after
after10min.~1
characteristics
+40-70
^40-70
LOW,
FORM:f\16'+
0-3132steps
0-3
0,
6.5,
dB/OCT LPF
OFF:
0-99
TRACK:0,50,
POLARITY:/S
EG
INT:
0-1516steps
CUT
TRIGGER:
6.
NOISE
0-1516steps
7.
EG
0-3132steps
8.
MG
0-1516steps
9.
DCO
BEND
MG
MG
10.
VCF
MG:0-±10
MG
11.
EQUALIZER
TREBLE:
BASS:
12.
DIGITAL
DELAY
FEED
MOD
MOD
EFFECT
13.
SEQUENCER
1
note,
maximumof1,000
SPEED:1step
"J".25-250
MODE:
SINGLE/MULTI
MOD
(JOYSTICK):0-±
MOD
(JOYSTICK):0-±102/3
-6-0-+6(13
-6-0-+6(13
DELAY
TIME:
BACK:
FREQUENCY:
INTENSITY:
LEVEL
restortie
ONE
0-10
min.:
within±5cents
hr.:
within±5cents
0-40°C
cents
cents
MID,
HIGH
1/28'+
JT_
16'+8'+4'+2'
0-12
13,26cents4steps
half-steps
0-15
,
W
OFF-0-
:0-±730
:0-±
2/3
OCT
half-steps13steps
±10
100
OCT
(Q=0-10)16steps
100%
cents(±30
160
cents
160
cents
(±10%)
OCT(±10%)
STEP)
STEP)
±10dB(±20%)
±3dBPOINT:
300Hz(±10%)
(DDL)
0-99
(100
STEP)4msec-1024
0-15
(16
STEP)
(until
oscillation
0-31
(±20%)
0-31
(1=8
0-15
Effect
sound
regardedas1
steps
0-100%
ceases)
(32
STEP)
(32
STEP)1-5TYP
MAX)
(16
STEP)1-1max.
produced
step
regardedas")T
±20%
TIME/REPEAT
1
TECHNICAL
within
±10
cents
1/44'+
steps
1/8
2'
(±20%)
cents)
(±40
cents)
(±40
cents)
±10dB(±20%)
±3dBPOINT:
2
kHz
(±10%)
msec
0.1
Hz-10
Hz
14.
TAPE
INTERFACE
DATA
TRANSMISSION
OUTPUT
INPUT
15.
MIDI
CHANNEL:!-16
PROGRAM
SEQUENCER
SOCKET:
16.
DIMENSIONS
780(W)x286(P)x87.6(H)
17.
WEIGHT
4.4kg(including
18.
ACCESSORIES
Pre-load
Batteries
Shielded
19.
POWER
7W(when
SUM-2X69V
20.
BATTERY
3.5
usage,
21.
EXTERNALDCPOWER
+
22.
ENVIRONMENTAL
Temperature:
Humidity:
23.
TIMETOSTABLE
300
24.
PERMISSIBLE
(withACadapter)
5
90°,
25.
ELECTROSTATIC
Normal
26.
ENCLOSURE
15orless
27.ATPOWER
spike
28.
OUTPUT
C4-C58notes
-6dBm
29.
NOISE
JIS-A
DDL
DDL
30.
ELECTRICAL
FCC
VDE
Certification
LEVEL:
LEVEL:
HIGH3Vp-p
LOW1Vp-p
CHANGE:
CLOCK:
IN/OUT
data
tape
(UM-2x
cord
(2.5mx1)
CONSUMPTION
usingACadapter)
LIFE
hrs.orover
20°C)
7.0V-+
11.0V
0°C-40°C
Below
sec.
LINE
min.
marked
350
without
ns,
500Vpulse
functionat10kVof
HEAT
ON/OFF
noise—less
LEVEL
(±3dB)
LEVEL
AVERAGE
ON
OFF
(U.S.A.)
(W.
-76
(-70
-80dBm
(-74dBmMAX)
WAVE
Germany)
for
4.5
CH
dry-cell
6)
330
(National
dew
(Line
output
GATE
each
SPEED:
mVp-p
approx.
2,000
DISABLE/ENABLE
INT/EXT
mm
batteries)
mA
±10%
Hi-Top
SUM-2x6,
RANGE
CONDITIONS
point
OPERATION
NOISE
malfunction
TEST
BUILD-UP
than
300
Out)
simultaneously,
ON
dBm
TYP
dBm
MAX)
TYP
INTERFERENCE
under
AFTER
VOLUME
at
positive
static
electricity
mVp-p
VOL
GATE
-90
(-84
-90
(-84
review.
(bit/sec)
continuous
POWER
ON:
polarity
MAX,
OFF
dBm
TYP
dBm
MAX)
dBm
TYP
dBm
MAX)
Page 3
1.
TRANSTITTED
Q
CHANNEL
MESSAGES
DATA
I
0 0 0 n nnn
I00Innn
I0IInnn n
I0IInnn n
II00n n n n
III
0 nnn n
•
nnnn=0~15: The
NOTE
1.
The
relationship
Okkk kkkk
n
channel
between
Okkk
OOOO
0 000 00I
Oppp pppp
0000
number
MIDI
kkkk
000
I
0
0000
setinparameter
program
numbers
0I0 0
0I0 00000
Ovvv
Ovvv
Ovvv
87.
(Oppppppp)
0 000
vOOO
vOOO
vvvv
But
sequencer
and
display
Note
Off
kkkkkkk
Note
On
k kkkkkk=36-84
DCO
Modulation
(4bit
resolution)
VCF
Modulation
(4bit
resolution)
Program
PPP
P PPp=0~63
Pitch
Bender
(7bit
resolution)
vvvvv
LSBisnot
dataisfixedatchannel
program
numbersisshown
=36-84
Change
Change
vv
=64:Center
used
2.
(NOTEI)
here.
SYSTEM
*
Sent
REAL
I
I I
I I
I I
I II0I0
I
I I
I II0
only
during
TIME
MESSAGES
0 0 0
0
sequencer
operation.
Display
number
#n
#12
#87-
#88-
MIDI
Program
Timing
Start
Stop
^°
*i
—62
—
63
Clock
number
Page 4
B
SYSTEM
©DATA
EXCLUSIVE
DUMP
MESSAGES
IIII0 000
010000
0 0
0
0 0 0
0000
0000
0000
0000
1
M
•
DATA
DUMPissent
NOTE
2.
2688
The2(RAM
DATA
ERROR
10
100001
I I00
dddd
dddd
ssss
ssss
I0I I I
data1word)n
only
whenaDATA
least
DUMP
significant
requestisreceived.
8
bits
are
Exclusive
KORG
Format
POLY-800IIIDOCH
LSB
MSB
LSB
MSB
EOX
check
Status
ID
ID
4bit
t)it|
.
RAM
t)iti
4bitJ
4b.tj
4biti
sum
data.
42H
2IH
dataIword
(5376
Byte)
(N0TE2)
•
Sent
I
I I
0I0 0
00I
0
0 0 0
00I
I I
only
0 0 0
I
00I
0 0
0
II0
0 0 0 0
0
0
I I
whenacheck
0
0
0
I
0
I
I I
sum
error
occurs
duringadata
Exclusive status
KORG
ID
Format
POLY-800H
Data
EOX
ID
Error
dump.
ID
42
H
2IH
OCH
20
H
Page 5
2.
RECOGNIZED
I
CHANNEL
MESSAGES
RECEIVE
DATA
1000nn n n
1001nnnn
1001nnnn
1011n
101 1nn
101 1nnnn
110
0nnnn
1 1 10n nnn
•
nnnn=0~15:
Okkk
Okkk
Okkk
n n n
n n
Channel
0000000
000 0 0010
011
1 1 1
0I1 1 1 101
Oppp
Oxxx xxxx
number
setinparameter
regardlessofchannel
When OMNI
selected
The
"power
modeisOFF,
channel
number.
on"
defaultisOMNI
kkkk
kkkk
kkkk
1
0 0
pppp
number
the
Oxxx
Ovvv
0000
Ovvv
Ovvv
0000
0000
Ovvv
87.
xxxx
vvvv
0000
vxxx
vxxx
0000
0000
When
vvvv
OMNI
setting.
synthesizer
responds
ON.
Note
Off
Velocity
Note
Velocity
(vvvvvvv>0)
Note
DCO
(4
VCF
(4
OMNI
OMNI
Program
Pitch
LSB
MSB
vvv
modeisON,
onlytomessages
willbeignored
On
willbeignored
Off
Modulation
bit
resolution)
Modulation
bit
resolution)
Mode
Mode
Change
Bender
willbeignored
willberecognized
v v v
all
messages
receivedonthe
(NOTE
(NOTE
Off
On
(NOTE
Change
v=64Icenter
1)
1)
2)
are
received,
currently
NOTE
1.
Note
number
tave
2.
within
Program
64
from
SYSTEM
I I
I III I0I
I
NOTE
3.
Timing
(Okkk
kkkk)=36-84.
the
range.
number
the
REAL
I I I
I I I I I00
clock
(Oppp pppp)=0-63.
data.
TIME
0 0 0
data
canbereceived
MESSAGES
0
Received
onlyinthe
Data
higher
data
period
beyond
this
than63is
between
rangeisvoicedasthe
interpreted
Timing
Start
Stop
reception
as
Clock
(NOTE
of
the
difference
3)
start
and
same
noteinthe
nearest
oc
obtainedbysubtracting
stop
data.
Page 6
El
SYSTEM
©DATA
EXCLUSIVE
DUMP
MESSAGES
I
0
0010
0
0000
0000
0000 ssss
0000
1
NOTE
4.
The
®DATA
III
0I0 0
00I
000
0 00I
I I
I II0
1000010
0 00I I
I.II0II
2*
(RAM
n=l
DUMP
I I
0 0
0 0 0
dddd
dddd
ssss
data1word)n
REQUEST
I
000 0
00I
0
00I
0
0
II0
000
0
I I
0 0
0
1
Exclusive
KORG
Format
status
ID
ID
42
21
H
H
POLY-800HIDOCH
LSB
4bir
bit!
.
RAM
bit!
MSB4bitJ
LSB
4bit
|
MSB
4bitJ
are
check
EOX
sum
data.
Exclusive
KORG
ID
Format
POLY-800H
Data
EOX
ID
Dump
I
least
significant
0
0
0
I
8
bits
dataIword
(5376
Check
Sum
status
ID
Request
Byte)
data
(NOTE4)
42
H
2IH
OCH
I0H
•
After
DUMP
receivingaDATA
transmission.
DUMP
REQUEST,
thereisa
delayofabout
300ms
before
the
POLY-800II
begins
DATA
Page 7
3.
USING
I
Communication
I
The
POLY
enables
software.
Sending
DATA
DUMP:
SYSTEM
800II
sequencer
This
parameters
REQUEST.
DUMP
DATA
DATA
■
ERROR:
Receiving
Sent
DUMP:
DUMP
Setupisshown
REQUEST:Acommandtotransmit
EXCLUSIVE
between
can
includes
whenacheck
here:
the
send
and
other
85,
The
data
87,
DATA
POLY-BOOH
and
the
86,
program
storedinthe
and
DUMP
andacomputer.
receive
data
sound
the
following
exchange
data
87,
and
88,
sum
error
data
loadedtothe
64 programsinmemory,
88,
and
chord
transmission
MESSAGES
kindsofinformation
withacomputer
equipped
storedinthe64programsinmemory,
and
chord
occurs
during
memory
data.
receptionofDATA
POLY-800II.
sequencer
memory
program
data.
data.
When
aftera300ms
this
delay.
via
system
exclusive
withaMIDI
sequencer
Thisissentinresponsetoa
DUMP
The
contentsofthis
data,
data.
settings
requestisreceived,
messages.
interface
data
of
the
and
suitable
data,
settings
DATA
DUMP
replace
the
parameters
POLY-800II
begins
This
of
sound
85,86,
Computer
I
Communications
3)
First
the
computer
the
dataissent
Computer
POLY-800U
Examples
obtains
backtothe
Send
Receive
Receive
Send
MIDI
sound
program
synthesizer.
and
OUT
Interface
sequencer
midi
data
i
from
POLY-800II
the
synthesizer
for
editing.
After
editing,
Page 8
Ifanirregularity
is
detectedinthe
data
loaded
from
the
computer.
Computer
P0LY-800H
I
RAM
data
structure
I
The
RAM
data
Send
Receive
Receive
Send
portionofDATA
MIDI
CHANNEL
SEO DATA
(UNDEFINED)
CHORD
SEO
SEO
PROG
MEMORY
MODE
CKL
CHANGE
DIS/ENA
(UNDEFINED)
PROG
DATA
DUMP
dataisorganizedasshown
0
001H~3Ea H
3E9H-3F0H
3FIH-3F8H
3F9
3FA
3
3FCH-3FFH
400H-A7FH
here.
0 0
H
H
H
F B
H
1
1000
8
8
1
1
1
4
1664
I
Actually,
from
(UNDEFINED
when
relative
address
data
this
dataistransmitted
000H.
does
not
affect
internal
on
MIDI,
each
operation;
~7
byteissplitatits
itisonly
least
usedinthe
significant
check
four
sum.)
bits
and
sent
starting
Page 9
RAM
Bit
map
data
organization
for
MIDI
CHANNEL,
MSB
SEQ
MODE,
?
6
SEQ
CLK,
5
and
PROG
4
CHANGE
3
o
2
1
LSB
0 0
OH
3
F9H
3
EAH
3
FBH
*
Bit
map
relationship
MIDI
CHANNEL
SEO
MODE
SEO
CLK
PROG
CHANCE
I
Sequencer
data
D/E
has
0
0
0
0
with
parameter
0 0 0
3F9H
3
FAH
3
FBH
the
following
00
0
0
0
0
valuesonfront
H
b3—bO
structure.
H
bO
bO
bO
0
0
0
0
0
0
0
0
panel.
0000-1
0=1
0=1
0=0
-^
0
0
0
1
1 1=1-16
(ONE
TIME),1=2(REPEAT)
MIDI
0
0
0
CHANNEL
(INT),1=2(EXT)
(DISABLE),1=J(ENABLE)
End
__
SEO
SEQ
PROG
87
85
86
88
__
m
_
0
0
0
^~MODE
„
_
CHANGE
f
J
i
Example:
Data:
B4H,
02H,
BCH,
02H,
1kt
0
ki
0
kj
1
k3
B5H,
02H, 01H,
02H,
02H, 02H,
ki ki
ki ki
k^
kj
kj
k3
01
H
02
H
ki
k|
ki
kj
k; k? k^
k3
k3
01H,
B7H,
02H,
01H,
ki ki
kj
ki
k?
k3 k3
B9H,
01H,
00H.
If
most
significant
If
most
significant
Oknknknknknknkn:
I
CHORD
Oknknknknknknkn:
00000000:
34H,
37H,
bitis0:
bitis1:
MEMORY
End
Rest
Tie
Other
notes
existatsame
Block
endatthat
SameasMIDI
/24H—54H,\
In=I
has
—8
/
the
following
SameasMIDI
time.
pointintime.
note
number.
structure.
note
number.
a>
Page 10
Bit
map
for
each
program.
"•"
Exceeds
UNDEFINED
byte
data
unit.
can
have
any
value;itis
only
usedinthe
check sum.
Page 11
•
Relationships
between
bit
map
and
parameter
values
listed
on
the
front
panel
(per
program).
DC01
DC02
OCTAVE
OCTAVE
DCOt
WAVE
DC02
WAVE
DCO1
DC01
16'
8'
DC01
DC01
DC02
DC02
DCO2
DC02
DCO DETUNE
DCO
DCO
NOISE
VCF
VCF
DCO1
DCO2
VCF
VCF
MODE
INTERVAL
EG
EG
CUTOFF
TRIG
MG
FREQ
MG
DELAY
MG
DCO
MG
VCF
DEG1
DEG1
4'
2'
16'
8'
4'
2'
LEVEL
INT
POLARITY
LEVEL
LEVEL
INT
INT
ATTACK
DECAY
FORM
FORM
MODE
0
0
0
0
1
1
1
1
1
1
1
1
2
2
3
3
4
4
4—5
5
6
6
7
7
8
8
9
10—9
bl—bO
b3—b2
b5—b4
b7—b6
bO
bl
b2
b3
b4
b5
b6
b7
bl—bO
b6
b3-bO
b7—b4
b3—bO
b4
b7—b5,bl-bO
b6—b2
b6—bO
b7
b3-bO
b7—b4
b3—bO
b7—b4
b4—bO
bl—bO,b7-b5
00=1(["LhOI
00=i(n_Koi
0=0(OFF)J=I(ON)
0=0(OFF)J=I(ON)
0=0(OFF)J=I(ON)
0=0(OFF)J=I(ON)
0=0(OFF)J=I(ON)
0=1(LOWK0I
0=1(LOW),01
=2(MID)
J0=3(HIGHK
=2(MID),
IO=3(HIGHK
=2(f\)
J0-11 =
=2(r\Kio—11=
M=INHIBIT
11
=INHIBIT
INHIBIT
inhibit
0=0(OFF)J=I(ON)
0=0(OFF)J=I(ON)
0=0(OFF)J=I(ON)
00—11=0—3
0=1(WHOLE)x1=2(DOUBLE)
0000—1100=0—12,1101
0000—1111=0—15
0000—1111=0—15
—1111
=INHIBIT
o=i(W)J=2(H
00000—11111=0—31
00000—11111=0—31
0000000-1100011
0=1
(SINGLE),
0000—1111=0—15
0000—1111=0—15
0000—1111=0—15
0000—1111=0—15
00000—11111=0—31
00000—11111=0—31
=0-99,1100100-1111111
=
INHIBIT
I=2(MULTI)
II
21
12
22
13
14
15
16
23
24
25
26
38
18
28
37
35
34
17
27
31
36
81
82
83
84
41
42
Page 12
DEG1
DEG1
BREAK
SLOPE
P.
10
11—10
b6—b2
b3—b0xb7
00000—11111=0—31
00000—11111=0—31
43
44
DEG1
DEG1
DEG2
DEG2
DEG2
DEG2
DEG2
DEG2
DEG3
DEG3
DEG3
DEG3
DEG3
DEG3
VCF
SUSTAIN
RELEASE
ATTACK
DECAY
BREAK
SLOPE
SUSTAIN
P.
RELEASE
ATTACK
DECAY
BREAK
P.
SLOPE
SUSTAIN
RELEASE
RESONANCE
12-11
12
—12
13
13
14
15—14
15
16—15
17-16
17
18—17
18
19
20—19
20
bO,b7—b4
b5—bl
b2—bO,b7-b6
b7—b3
b4—bO
bl—
bO,b7—b5
b6—b2
b3—b0xb7
bO,b7—b4
b5—bl
b2—bUb7—b6
b7—b3
b4—bO
bl-bO,
b7-b5
b5—b2
00000—11111=0—31
00000—11111=0—31
00000—11111=0—31
00000—11111=0—31
00000—11111=0—31
00000—Mill
00000—11111=0—31
00000—11111=0—31
=0—31
00000—11111=0—31
00000—11111=0—31
00000—11111=0—31
00000—11111=0—31
00000—11111=0—31
00000—11111=0—31
0000—1111=0—15
45
46
51
52
53
54
55
56
61
62
63
64
65
66
32
VCF
DDL
DDL
DDL
DDL
DDL
EQ
EQ
TREBLE
BASS
KBD
TRACK
TIME
FEEDBACK
EFFECT
MOD
MOD
LEVEL
FREQ
INT
20
21
22
22
23
24
25
25
b7—b6
b6—bO
b3—bO
b7—b4
b4—bO
b4—bO
b3—bO
b7—b4
00=0(OFF).OI
0000000-1100011
0000—1111=0—15
0000—Nil-0—15
00000—11111=0—31
=1(HALF),IO=
2(FULLh11=
=0—99J100100-1111111
00000—11111=0—31
0000-0110-1100=
0000-0110-1100=
(-6)-0-6,1101—1111
(-6)-0-6,1101—1111
INHIBIT
=
INHIBIT
=
INHIBIT
=INHIBIT
33
71
72
75
73
74
76
77
Page 13
4.
TAPE
(a)
Overall
FORMAT
Composition
Leader
section
i
approx.
Start
Start
2.5
(b)
Compositionof1
0
1
bit
(c)
Composition
I
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start
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and
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regard
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1
Section
Page 14
PART
A
B
C
NO.
SCREWS,
PLAXBZMC
TWU
ZMC
VN
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7
NUT
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3
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Page 15
B!
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Page 16
PART
A
NO.
PLAXBZMC
SCREWS
3x8
Q'TY
18
PART
1
2
3
4
5
6
7
8
9
10
11
12
NO.
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64621100
64621200
64058100
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64058101
64402200
58018004
50008800
54008100
63002500
54008600
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Page 17
OTOTAPE
O
FROM
TAPE
DIGITAL
DELAY
&EQ
LINE
OUT
LOUT
/MONO
OR/OUT
R
PHONE
OUT
Page 18
IC
16
D1-D10:
IC1:
IC
IC
1SS133
NJM
4560
14.
15.17.19:M5223L
NOT
SPECIFIED:
06
I_CV4:DSS31O-55D223S
S
NJM4558S
Page 19
KLM-1032-599601
MSJ-OT9C
-01-010
TAPf
|N „.
"£*
r
1
J4W021A
KLM
Compatible
-601A
Compatible
VR1:
470K
VR3:
680K
n
The
power
sourceofno
No
specify
No
diodeis1SS53,
specity
transistors:
Atype2SA1175
Ctype2SC2785
DB2-9
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6.8K
has
not
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1SS53
canbereplaced
40H174
canbereplaced
&IsNJM
A
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2069AD'85.11.15
replaced
changed
10V
some
specifyDPAMP
and
used
between
R125
1S2473.
HD14174
D17is1S1555.
and
R126.
and
VPD4174.
areDand
MN
typeofdielectric
parttoconseder
strength.
'86.2.14
EMI.
'86.2.26
E.
Page 20
xlimiu
|
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SW13
SW14
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To
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Page 21
KLM-1032
6.
P.C.
BOARD
J
'•
Page 22
4P-L
■
S
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O
1
Page 23
KLM-599-601
Page 24
7.
CIRCUIT
1.
SYSTEM
The
Poly-800n
circuit
board
EPROM
Other
Differences
for
the
circuit
in
EXPLANATION
system
does
which
contains
System
boards
specifications
not contain
the
Program.
have
revised
between
DESCRIPTIONS
the
following
64Kbit
numbers,
new
STATIC
and
the
POLY-800H
KLM-598
Chorus
circuits;
RAM
some
circuit
Digital
Delay
for
timbre
minor
changes
and
the
POLY-800
data
board
usedinthe
circuitry
storage,
have
(DDL),
etc.
been
are
made.
described
Poly-800.
but
replaces
Programmable
on
the
following
it
withanew
Equalizer
circuitry.
chart.
KLM-779
128Kbit
POLY-80QH/POLY-800
ITEM
EG
DEG1-3
Decay
Slope
Release
VCF
Multiple
Trigger
COMPARISON
However,
Break
slopeofenvelopeislinear.
Trigger
CHART
when
point
level
takes
POLY-800H
Sustain
(slope
effect
when
Exponential
Time
levelisgreater
envelope
KEY
ON.
than
rises),
then
POLY-800
Time
Ratioofchangeisalways
Trigger
takes
effect
from
any
equal
Linear
—
point
when
Key
ON
EFFECT
SEQUENCER
Max.
no.ofsteps
(1
step
equalto1
note,
restortie)
Built-in
Delay.
available
value.
Treble
(programmable)
Digital
Delay
Chorus.
(programmable)
Built-in
Equalizer
±10dB,
Bass
±10dB,
1,000
steps
Flanging,
accordingtosettingofDigital
2kHz
300kHz
Dubbing&other
effects
Delay
Built-in
Chorus
(programmable)
BBD
ON/OFF
Not
available
256
steps
Chorus
only
Page 25
DATA
SEQ
SEQ
5
INT/EXT
MIDI
ITEM
BACKUP
MODE
CLOCK
CHANNEL
One-time
repeat
POLY-800II
Back
Back
up
Back
up
Not
available
INT
fixedatpower
Back up
POLY-800
ON
PROG
CHANGE
MIDI
SPECIFICATIONS
CHANNEL
6
MODE
MESSAGES
DATA
DUMP
2.
MAIN
KEYBOARD
There
are
IC34
decodes
Key
on/off
When
the
datatothe
Note:IfIC34
someofall
then
sound
Switch
DC01
and
matrix
MSM5232
(which
includes
(NJM2069).
Likewise,EG(DEG1,
CUTOFF,
same
matrix.
IC2069
CIRCUIT
DATA
PROCESSING
six
8-tone
keyboard
addresses
dataisreadbythe
CPU
receives
TG.
(Tone
(TC40H138)
groupsofeight
will
operationisexactly
DC02
circuit
and
output
and
viaaD/A
Generator)
notbeheard
octave
performedbyIC3
goes
IC's4,5,
other
switchingisreadbythe
The
CPU
converter
Back
Channel
RECEIVE,
OMNIONuntil
Reception
SEND/RECEIVEOFDATA
selection availableinSEND
however
only
SEQ
data
parameter87is
OMNI
ON/OFF
DUMP
EXPLANATION
AND
PANEL
buses
(plus1tone
for
CPU
bus
line
CPU
via
key
data,itinstantly
fails,
then
notes.IfIC33
for
the
sameasthe
switchingisreadbythe
through
and6)andisinputtofilter
DEG2,
processes
and
the
there
every
eighth
(MSM5232)
waveform
DEG3),
the
time
sharingCVcircuit.
SWITCH
for
high
supply.
IC33
buffer.
outputs
willbeno
(TC40H240)
keyboard.
LEVEL1,
data
sound
note.
CPU
itself.
synthesis
circuit
chip
LEVEL2,
CPU
via
and
controls
up
fixedatCH
called.
or
2.
OPERATION
C).
pitch
for
fails
via
The
IC1
the
Dataofsounds
KLM-779
data
when
memorytohaveabattery
the
system
the
memory,itis
—
notinKLM-779
the
KLM-779isdisconnected,
As
for
suchasis
viding
seconds).
The
DRAM
The
Digital
ched
dataofIC25
BUS
from
is
carried
Digital
Digital
Disableatpower
Channel
Note
OMNIONuntil
Sends
Sends
Not
selection
data
fixedatCH1,SEQ
OMNI
OMNI
available
createdbythe
IC20
(MPD4464).
the
unitisturned
does
containabuilt-in
housedinthe
which
the
delay
circuitry,
usedinthe
delay
accordingtosignal
for
external
Delay
DW-8000isused
and
Equalizer
(74HC174)
the
main
circuit
out
via
FET
Delay
parameter
Delay
circuitry.
switches F1
ON
available
parameter86is
OFF,
POLYONat
ON,
POLYONat
with
POLY-800
onlyatRECEIVE.
dataatCH
called.
SEQ
START
SEQ
STOP
alone.
userisstoredinstatic
Therefore,
off,itis
haveabattery
contains
timbre
a
Gate
connectionis256Kbit.
to
maintain
necessary
backup.
lithium
main
the
Array
specified
circuitry
batterytoprotect
circuit
board
RAM.
Consequently,
data
willbeerased.
(MPD65010
for
digital
time
are
controlled
all
for
this
KLM-1032
delay,
(max.of1024
whichisconnectedtothe
board
KLM-1032
CPU.
This
andF3ON/OFF
settings,EQparameter
setting
2.
RAM
program
type
of
Although
if
CW-113),
pro
by
lat
DATA
control
control
of
and
24
Page 26
3./*PD
TERMINAL
Pin
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
65010
NAMES
Pin
Name
I/O
HOLD
RST1
RST2
SPON
STRT
X1
PRSR
256K
D9
D8
TCO
TE13
TMOD
MTEN
MUTB
MUTE
SHB
SH
DATA
DO11
DO10
DO9
CW-113
Pin
No.
23
24
25
26
27
28
29
30
31
32
C
0
0
O
0
I
0
0
0
33
34
35
36
37
38
39
40
41
42
43
SPECIFICATIONS
Pin
No.
Pin
Pin
DO8
DO7
DO6
DO5
DO4
CO3
DO2
DO1
DO0
GND
WR3
WR2
WR1
RAS
Name
A7
A4
A3
A5
A2
A6
A1
I/O
O
O
O
O
O
O
O
O
O
OV
O
O
O
O
o
o
o
o
o
o
o
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
Name
A0
WR0
IO3
IO2
CAS
OE0
101
IO4
OE1
OE2
OE3
DO
D1
D2
D3
D4
D5
D6
D7
CLK
VDD
I/O
O
o
I/O
I/O
o
o
I/O
I/O
0
o
o
+
5\
PIN
CONFIGURATION
1—
2—
3—
4—
5—
6—
7—
8—
9—
10—
11—
12—
13—
14—
15—
16—
17—
18—
19—
20—
21—
22—
23—
24—
25—
26—
27—
28—
29—
30—
31—
32—
—64
—63
—62
—61
—60
—59
—58
—57
—56
—55
—54
—53
—52
—51
—50
—49
—48
—47
—46
—45
—44
—43
—42
—41
—40
—39
—38
37
—36
—35
—34
—33
OUTPUT
(Input)
SH
SHB
RAL
CAS
DOQ~11
AO-7
OEO-3
WRO-3
NOTE:
TERMINAL
TIMING
JTJTJTJlJlJXri^^
Memory
^Outputf
y
row
"
The
timing
shownisfor
CHART
r
normal
operation,
Column
Data
withx1
tor
individual
comparison
-OFOEO-3.
-1
Sampling
input
being
Column
one
becomes
LOW-
-Of
Cycle-
low.
WR0-3.
"X
one
becomes
Row
LOW-
Memory
Signal
Output
X
Column
25
Page 27
ADJUSTMENT
PROCEDURE
Caution:
This
product
before
shipment.
than
those
BEFORE
PROGRAM
Parameter:
VRs
making
no.11(noise
Value:
PROGRAM
Parameter:
no.
Value:
PROGRAM
Parameter:
no.
Value:
PROGRAM
Parameter:
Value:
no.
has
been
thoroughly
Thereforedonot
required
18
17
1
0
21
11
12
2
2
13
11
12
2
2
14
11
12
2
2
for
any
calibration
32
33
31
0
0
99
(master
15
13
14
0 0
1
0
(cut
off):
15
13
14
1
0
(resonance):
13
14
1
0
abjustedatthe
abjust
anything
servicing.
abjustments,
level):
61
0
63
0
31
35
0
37
15
64
62
oscillator):
33
32
31
18
17
16
0
60
1
30
32
18
31
17
16
12
12
1
31
0 0
32
31
18
17
15 16
15
1
99
31
0
0
factory
Be
66
65
0
0
31
38
35
0
0
37
35
33
0
2
35
33
0
0
other
sure
84
83
0
0
42
41
0
0
0
42
41
0
0
0
42
37
41
0
0
0
43
31
43
31
43
31
that
test
The
for
for
44
0
44
0
44
0
dataisloaded
following
servece
future
time saving
83
46
45
0
0
31
83
45
46
0
0
31
81
45
46
15
0
31
setting
into
testing.
84
0
84
0
828384
0 0
chart
After
inputting
convenience.
0
POLY-800.
shows
the
program
the
data,
data
saveiton
used
tape
PROGRAM
Parameter:
Value:
PROGRAM
Parameter:
Value:
1.
Power
Be
sure
that
1)
+5V
check
UseaDVM
CN6
Pin6and
necessary.
2)
-5V
check:
15
no.
12
11
1
1
16
no.
12
11
1
1
supply
circuit
the
specifiedACadapterisused:
and
adjustment:
(digital
voltmeter)
confirm
UseaDVMtocheck
firm
-5V
(within-4.7V~-5.7V)
2.
D/A
converter
With
joystick
connect
1.986V±0.005V.
DVMtoKLM-596
Reference
3.990V
foranupward
0.020V
foradownward
check
bend
controlatcenter
Adjust
data:
(delay
13
(delay
1):
14 15 16
1111
2):
131415
1111
16
17
31
17
31
18
1
18
1
(KLM-1032)
to
check
+ 5V
(=h
0.005V).
KLM-596
connector
and
adjustment
position:
IC10
(TL062)
VR4ifnecessary.
pitch
bend
and
pitch
bend.
42
37
41
35
33
32
31
1
0
99
0
35
32
33
31
1
0
0
99
9V,
300mA,
KLM-596
CN6
connector
Adjust
VR1
Pin8and
(KLM-1032)
(BEND
Pin7and
INT
0
0
0
42
41
37
0
0
0
if
con
]
MAX)
confirm
72
71
61
46
44
45
43
15
50
0
0
0
0
7
72
71
61
46
45
44
43
0
0
Note:
0
7
Adjustment
0
0
0
is
easiestinthe
istoobtaina4V±0.004V
justing
the
D/A
converter
high.
13.
Noise
level
check
1)
Select
program
2)
DepressC3key
3)
Connectonoscilloscope
firm
noise
levelof0.3Vp-p
4)
Adjust
VR3ifnecessary.
75
74
73
15
0
0
74
75
73
15
0
0
and
no.
11.
and
settoHOLD.
85
84
83
82
77
81
76
2
0
0
0
0
0
0
85
84
82
83
81
77
76
0
0
0
0
0
0
joystick
output
whenIC81C55
adjustment:
to
circuit
although
fromIC38
portAoutputisall
(KLM-1032)
KLM-596
CN6A3pin
(TL062)
(±20%).
88
81
86
1
1
0
88
81
86
1
1
the
idea
0
2
by ad
and
con
Page 28
14.
Master
Set
tune
nect
1)
Select
2)
PlayC3key
3)
Confirm
necessary,
4)
Next,
and
just
oscillator
knobtocenter
AT-12toline
program
move
confirm
KLM-601
check
and
and
bend
out
jack.
no.
12.
and
settoHOLD.
AT-12
indicationof—1OCT.C,0
abjust
coil
KL-O03.
joysticktomaximum
AT-12
readingof—1OCT,G,+35
VR2ifnecessary.
adjustment
intensity
upward
(KLM-1032)|
to
maximum.
pitch
bend
Con
cent.
position
cents.
Ad
If
6.
Resonance
1)
Select
2)
PlayC3and
3)
Confirmtooscillation
in
figure
4)
Abjust
waveform
check
and
program
VR5ifnecessarytoprevent
no.
14.
settoHOLD.
and
2.
deviation
from
adjustment:
confirm
(KUVM032)
that
waveformisas
oscillation
ortocorrect
figure2example.
|
shown
5)Atmaximum
tion
shouldbe-2
necessary.
•
VR3isa
panel.
Confirm
tion.
•
Confirm
tion.
If
necessary,
15.
Cutoff
1)
Select
2)
PlayC3and
3)
Connectonoscilloscope
waveformasin
4)
Adjust
joystick
semi-fixed
+40-+70cents
-40--70
Adjust
check
and
program
settoHOLD.
VR2toobtain
downward
OCT.
-35
resistortofix
cents
VR3.
adjustment
no.
13.
figure
1.
maximum
when
when
to
pitch
bend,
AT-12
cents.
Adjust
KLM-601
rangeoftuneVRon
tuneVRisat#
tuneVRisatb
max
max
(KLM-10327
CN6A
pin3and
waveform
amplitude.
observe
indica
VR1
if
front
posi
posi
200-
600Vp-
17.
S/H
CLOCK
1.
S/H
CLOCK
1)
Connectafrequency
2)
Check
3)
Abjust
NOTE:
Waveformsonthe
check
Verification,
that
the
frequency
VR3ifnecessary.
and
adjustment
Adjustment
countertoTEST
counter
oscilloscope
displays
areasfollows;
POINT3(TP3).
20kHz±0.5kHz.
(Hg-1)
27
+
4V
OV
DC,2V/div,
Flo-1
50/isec
10/zsec/div
Page 29
2.
FEEDBACK
1)
Select
2)
Connectonoscilloscope
3)
PlayC3key,
(from
(Fig-2)
4)
AdjustVR1ifnecessary
Fig-2
TIME
Verification,
program
peakofwaveformtodecay)is600msec±50msec.
No.
and
check
15.
(AC,
that
600msec
Adjustment
50mV/div,
the
0.1
sec/div)toTP1.
envelopeofthe
waveform
AC50m/m
O.isec
3.
ANALOG
1)
Select
2)
Connectonoscilloscope
(Connect
3)
PlayC3key,
waveforms
Note:
Although
a
fully
COMPANDER
program
No.
NE572
16.
(AC
groundtoTP2)
and
checkonthe
are
formed
this
canbeabjusted
couterclockwise
which
position,
Verification,
50mV/div,
Adjustment
0.1
sec/div)toTP1.
oscilloscope
are
unifprminsize
via
VR2,
becauseitis
soitshould
notbeturned.
that
visible
and
shape.
fixed
at
Page 30
PARTS
PARTS
10009000
10013710
10016610
10016722
10113747
10413247
10413318
10413322
10413327
10413347
10413410
10413422
10413439
10413510
10413533
10413539
10413562
10413610
10413710
10416210
10416215
10416222
10416247
10416310
10416315
10416322
10416333
10416336
10416347
10416351
10416356
10416382
10416410
10416412
10416422
10416433
10416439
UST
CODE
YOOHM
S1/4JY
1/6JY
1/6JY
S1/4JT
S1/4JYTP47OHM
S1/4JYTP
S1/4JYTP
S1/4JYTP
S1/4JYTP
S1/4JYTP
S1/4JYTP
S1/4JYTP
S1/4JYTP
S1/4JYTP
S1/4JYTP
S1/4JYTP
S1/4JYTP
S1/4JYTP
1/6JTP10OHM
1/6JTP15OHM
1/6JTP22OHM
1/6JTP47OHM
1/6JTP100OHM
1/6JTP150OHM
1/6JTP
1/6JTP
1/6JTP
1/6JTP
1/6JTP510OHM
1/6JTP
1/6JTP
1/6JTP1.0K
1/6JTP
1/6JTP
1/6JTP
1/6JTP
PARTS
NAME
1M
100K
2.2M
4.7M
180
220
270
470
1K
2.2K
3.9K
10K
33K
39K
62K
100K
1M
220
330
360
470
560
820
1.2K
2.2K
3.3K
3.9K
SPECIFICATIONS
CARBON
RESISTORS
OHM
OHM
OHM
OHM
OHM
OHM
OHM
OHM
OHM
OHM
P.C.
BOARD
KLM-1032
KLM-601
KLM-1032
KLM-1035
KLM-1032
KLM-599
KLM-1032
KLM-599
KLM-1032
KLM-599
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
IDENTIFICATION
NO.
FUNCTION
Q'TY
2
1
2
1
1
3
8
2
1
1
8
1
1
1
1
8
1
4
2
1
1
1
2
2
4
3
2
3
2
1
1
3
1
1
7
6
1
1
2
3
1
1
PARTS
CODE
10416447
10416456
10416468
10416475
10416482
10416491
10416510
10416511
10416512
10416513
10416515
10416516
10416518
10416520
10416522
10416524
10416527
10416533
10416539
10416547
10416556
10416562
10416568
10416582
10416591
10416610
10416620
10416622
10416633
10416647
10416656
10416710
PARTS
NAME
1/6JTP
4.7K
1/6JTP 5.6K
1/6JTP
6.8K
1/6JTP
7.5K
1/6JTP
8.2K
1/6JTP9.1K
1/6JTP
10K
1/6JTP11K
1/6JTP
12K
1/6JTP
13K
1/6JTP
15K
1/6JTP
16K
1/6JTP
18K
1/6JTP
20K
1/6JTP
22K
1/6JTP
24K
1/6JTP
27K
1/6JTP
33K
1/6JTP
39K
1/6JTP
47K
1/6JTP
56K
1/6JTP
62K
1/6JTP
68K
1/6JTP
82K
1/6JTP91K
1/6JTP
100K
1/6JTP
200K
1/6JTP
220K
1/6JTP
330K
1/6JTP
470K
1/6JTP
560K
1/6JTP1.0M
P.C.
SPECIFICATIONS
BOARD
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
IDENTIFICATION
NO.
FUNCTION
Q'TY
9
2
1
3
1
1
1
2
11
15
1
16
1
1
1
1
1
5
3
7
1
1
2
1
2
2
7
1
1
2
3
4
2
1
3
8
1
1
1
1
1
1
1
3
Page 31
PARTS
CODE
10416710
10416722
12512261
12514100
12514604
12515100
12515118
12515147
12515249
12515499
12515511
12515845
12516100
12516200
13504533
13506510
13508410
13508510
13807002
13810525
13890470
18032310
20402410
20402415
20402418
20402422
20402427
20402433
20402447
20402456
20402510
20402512
20402522
20402547
20402568
PARTS
NAME
SPECIFICATIONS
1/6JTP1.0M
1/6JTP
2.2M
1/6TP
26.1OHM
1/6TP
LOOK
1/6TP
6.04K
1/6TP
10.0K
1/6TP11.8K
1/6TP
14.7K
1/6TP 24.9K
1/6TP 49.9K
1/6TP51.5K
1/6TP 84.5K
100K
1/6TP
1/6TP
200K
RKC1/8B4J
RKC1/8B6J
RKC1/8B8J
RKC1/8B8J
RN3QEL472Z01
RKM10L253F
RKM
TD5-A110DA
50V
50V
50V
50V
50V
50V
50V
50V
50V
50V
50V
50V
50V
33K
10K
1K
10K
25K
5LW103
0.001
UF
0.0015UF
0.0018UF
0.0022UF
0.0027UF
0.0Q33UF
0.0047UF
0.0056UF
0.01
UF
0.012UF
0.022UF
0.047UF
0.068UF
METAL
BLOCK
THERMISTOR
MYLAR
P.C.
KLM-1032
KLM-779
FILM
RESISTORS
KLM-1032
KLM-599
KLM-1032
KLM-599
KLM-1032
RESISTORS
KLM-1032
KLM-779
KLM-1032
KLM-1032
CAPACITORS
KLM-599
KLM-779
KLM-1032
KLM-779
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
BOARD
IDENTIFICATION
NO.
FUNCTION
Q'TY
1
1
2
1
1
1
1
1
1
1
1
5
1
2
1
1
2
1
1
2
i
2
1
5
1
1
2
2
1
1
2
4
16
P.C.
PARTS
NAME
PARTS
CODE
20402610
21352471
21356101
21452220
21452560
21453100
21453180
21453220
21453330
21453470
21453680
21453820
21455470
21456100
2180050
21950100
22005247
22407122
50V
0.1
UF
50V
47PF
25V
0.1
UF
50V
22PF
50V
56PFTP
50V
100PFTP
50V
180PF
50V
220PF
50V
330PF
50V
470PF
50V
680PF
50V
820PF
50V
0.047UFTP
25V0.1UFTP
ZJK-5103-00
DSS310-55D223S
10V47UFM
16V2.2UF
SPECIFICATIONS
CERAMIC
TP
TP
TP
TP
TP
TP
NOISE
EMI
TAMTALUM
CAPACITORS
FILTER
FILTER
CAPACITORS
ELECTROLYTIC
10V
25402310
25402322
25403210
25403233
25403247
25403310
1
1
4
1
1
25406022
25406047
25406110
25406122
25426110
100UF
10V
220UF
16V
10UF
16V33UF
16V47UF
16V
100UF
50V
0.22UF
50V
0.47UF
50V
1UF
50V
2.2UF
50V
1UF
BOARD
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-1032
KLM-779
KLM-1032
KLM-1032
KLM-779
CAPACITORS
KLM-1032
KLM-599
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
IDENTIFICATION
NO.
FUNCTION
Q'TY
2
2
2
1
2
1
2
2
1
2
1
2
1
1
7
22
1
16
1
4
2
1
1
6
1
1
14
9
1
15
4
4
2
2
8
13
8
1
Page 32
PARTS
CODE
25463210
25466047
25466122
30100328
30201107
30202299
30300528
30400050
30420070
30430010
30430020
30460022
3100800
31001100
31001500
31020300
31201500
31206200
31400100
31400300
31401300
31422300
31422400
31422700
31500100
32001023
32001085
PARTS
NAME
SPECIFICATIONS
16V
10UF
50V
0.47UF
50V
2.2UF
TRANSISTORS
2SB744AP/Q
2SC1583
2SC2785KSELECTED
2SD794A
G
(SILVER)
P/Q
2SA1175
2SC2785
DIGITAL
DTA-114N
DTC-114N
2SK381-34-B/C
1S2473
1SS-53
SR1K-2
1SV-100
LT-8001P
SL9263
1S1555
1S-2473
1SS-133
ZENER
HZ-6B1L-TD
HZ-3ALL-TD
HZ-11A3-TD
DOUBLE
MC931
UPCM066
UPD65010CW-113
BC
P.C.
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
TRANSISTORS
KLM-1032
FET
KLM-779
DIODES
KLM-601
KLM-1032
VARACTOR
KLM-1032
LED
KLM-1032
KLM-1035
DIODES
KLM-1032
KLM-1035
KLM-779
DIODES
KLM-1032
DIODES
KLM-1032
ICs
KLM-779
BOARD
IDENTIFICATION
NO.
FUNCTION
Q'TY
2
1
1
2
2
1
1
7
3
1
2
1
4
5
1
1
1
1
16
3
1
13
18
10
1
1
1
4
1
1
P.C.
PARTS
NAME
PARTS
CODE
32001087
32001094
32001095
32001101
32001102
32003011
32003021
32003026
32003030
32003041
—
32003043
32003047
32003058
32003063
32003070
32003071
32004016
32004017
32004039
32004063
32004095
32004105
32006009
32006010
32006011
32007003
32009005
32009007
32009015
32009028
32009029
32009036
32009044
32011024
32011025
32011065
32013001
32021011
32021022
32025003
33000900
33500900
UPC319C
74HC139C
74HC174C
74HC08C
UPD4464C-15
74HC(40H)000
74HC(40H)074
74HC(40H)138
74HC(40H)151
74HC(40H)174
74HC(40H)032
74HC(40H)240
74HC(40H)373
74HC(40H)393
TC9154P
TC9156AP
HD-U050
HD-14051
HD-14053BP
HD-63B50P
HN4827128G-25
HM50464P-15
MSM-5232RS
MSM-80C85ARS
MSM-81C554RS
BA-618
NJM-4558
NJM-2902
NJM-2903
NJM-3404AD
NJM-2058
NJM2069A-D
NJM4560S
M-5223
M-54513P
M5223L
PST-518
TL-072
TL-062
NE572N
PC-900
EFO-A6ROM01
SPECIFICATIONS
P
P
P
P
P
P
P
P
P
BP
BP
S
N
D
D
PHOTO
CERAMIC
COUPLER
OSCILATOR
BOARD
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-599
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-779
KLM-1032
KLM-1032
INDENTIFICATION
NO.
FUNCTION
Q'TY
1
1
1
1
1
2
2
2
1
2
1
1
1
1
2
1
1
2
1
1
1
1
1
1
1
1
7
4
1
3
1
1
1
2
1
4
1
1
2
1
1
1
Page 33
PARTS
CODE
34059900
34060100
34077900
34310320
34310350
35002215
35002247
35002310
35002322
35002410
35002468
35002510
35002515
35202415
36016900
36204300
36504000
36504100
37303900
37505700
40201200
40201300
40201400
40502700
40502800
40503000
40503100
40503200
40503300
PARTS
NAME
SPECIFICATIONS
P.C.
BOARDS
PARTS
KLM-599
PARTS
KLM-601
P.C.
BOARDS
KLM-779
KLM-1032
KLM-1035
SEMI
FIXED
RH0615C1.5K
RH0615C
RH0615C
RH0615C
RH0615C
RH0615C
RH0615C
4.7K
10K
22K
100K
680K
1M
RH0615C1.5M
H1021A
150KB
VRs
RK16Y1110A11A10KB
RK16112A1A0MA-10KB
SLIDE
RS30111A6013A-10KB
RS30111A6011A-100KC
SLIDE
R-S47836
PUSH
EVQQJB04K
COILS
KIM
ELEY-471KA
KL-003
AC
ADAPTORS
KAC-302
KAC-303
KAO305
KAC-306
KAC-307
KAC-308
UNI/117V
JAM/CSA
240AU
240GE
240AF
220GE
P.C.
BOARD
(without
parts)
KLM-599
KLM-601
KLM-779
KLM-1032
KLM-1035
VRs
KLM-1032
KLM-779
KLM-1032
KLM-601
KLM-1032
KLM-601
KLM-1035
VRs
KLM-1035
SW
KLM-1032
SW
KLM-1035
KLM-1032
IDENTIFICATION
NO.
FUNCTION
117
US
117
2P
JAM
240
AU
240
GE
240
RME
240
AF
220
GE
220
SE
Q'TY
1
1
1
1
1
1
3
1
1
1
1
1
1
1
2
1
2
1
4
18
1
1
1
1
1
1
1
1
1
1
1
1
PARTS
CODE
40503300
42003100
45400300
45400900
45404300
45404400
45405400
47040120
47040220
47040320
47040420
47040820
47040920
47057300
47057400
47057800
47057900
47058000
47060400
47060500
47060600
47181200
47181300
47408804
47408805
PARTS
NAME
SPECIFICATIONS
KAC-308
220GE
ESK-7116
HEC-0470-01-230
MINI
HSJ0786-01-010
YKB21-5012
YKB21-5010
YKF51-5008
HNS-301
HNS-302
HNS-303
HNS-304
HNS-308
HNS-309
HNS-473
HNS-474
HNS-478
HNS-479
HNS-480
HNS-504
HNS-505
HNS-506,
W-P9012
W-P9013
#51
#51
MP
S4P
W-P2604
S5P
W-P2605
#51
P.C.
KEYBOARD
POWER
PHONE
JACK
PHONE
JACKS
KLM-1032
JACK
KLM-1032
KLM-1032
DIN
JACK
KLM-1032
HARNESSES
KLM-1032
CONNECTORS
KLM-779
KLM-1032
KLM-779
KLM-1032
CONNECTORS
KLM-1032
KLM-779
KLM-1032
BOARD
INDENTIFICATION
NO.
FUNCTION
DEMKO
SEMKO
MEMKO
GAF
FIMKO
VDE
Q'TY
1
1
1
1
1
1
1
1
2
3
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
1
1
Page 34
PARTS
CODE
47408807
47408811
47408814
47408815
47408904
47408905
47408911
47408914
48001282
50008700
50008800
50008900
50009000
52001100
52001200
54007100
54007200
54008100
54008600
58018004
58019400
58020600
PARTS
NAME
SPECIFICATIONS
S7P
W-P2607
S11PW-P2611
SUP
W-P2614
S15P
W-P2615
L4P
W-P2804
L5P
W-P2805
L11PW-P2811
L14PW-P2814
28P
DICA-28CTI
BATTERY
16x30x4
CUSHION
CUSHION
SUM2DGB
CR2032
A
B
T-4
LC-2-G-YELLOW
PLT-1M
CS-8
NO.2
IC
SOCKET
RUBBER
FEET
CUSHION
PUSH
SW.
BATTERY
LITHIC
BATTERY
TEST
PIN
WIRE
BAND
RIBBON
SPIRAL
SHIELDING
CAUTION
SHIELDING
CLIP
SHEET
LABEL
SHEET
P.C.
BOARD
KLM-779
KLM-1035
KLM-1032
KLM-779
KLM-1032
KLM-599
KLM-1035
KLM-599
KLM-1035
KLM-779
KLM-779
KLM-1032
IDENTIFICATION
NO.
FUNCTION
Q'TY
1
1
1
1
1
2
1
2
1
1
1
1
1
1
1
2
6
1
3
1
3
1
2
1
100V
1
1
PARTS
CODE
58021000
58021700
58023300
60201302
62015600
62015700
62015800
62012402
62015900
62015901
62016000
62016002
63002300
63002400
63002500
64058100
64658101
64058400
64058402
64062600
PARTS
NAME
SPECIFICATIONS
CONNECTION
6.3PHYPLUG2.5
B
NO.2
BLK
NO.2
BLK
JOYSTICK
NO.2
BLK
B-3RED
A-3BLK
A-4
DARK
GRY
B-5
BLK
B-6
DARK
GRY
LED
PARAMETER
BATTERY
BATTERY
JOY
JOY
P.C.
FCC
LABEL
FTZ
LABEL
SHIELDING
SHEET
CORD
SLIDEVRKNOB
ROTARYVRKNOB
LEVER
KNOB
PUSHSWKNOBS
DISPLAY
SHIELDING
COVER
INDEX
SHEET
SHEET
TERMINAL
TERMINAL(+
STICK
Y-SUPPORT
STICK
LEVER
FIX
JOY
STICK
PLATE
BOARD
(-)
)
PIN
INDENTIFICATION
NO.
FUNCTION
117
US
VDE
Q'TY
1
1
1
1
3
1
1
1
7
1
8
1
1
1
1
1
1
1
2
1
Page 35
PARTS
CODE
64402200
64610101
64610101
64616100
64620900
64621000
64621100
64621200
67201200
70560508
74530308
74560408
74560412
78430300
78430300
78430300
PARTS
NAME
SPECIFICATIONS
I
I
3N-3
FEBBZMC5X8
PLAXBZMC3x8
PLAXBBZMC4X8
PLAXBBZMC4X12
TWU
ZMC
3
TWU
ZMC
3
TWU
ZMC
3
STRAP
JOY
JOY
STICK
JOY
STICK
UPPER
LOWER
BATTERY
BATTERY
SCREWS
WASHERS
P.C.
PEG
STICK
BOX
X-SUPPORT
LEVER
CASE
CASE
COVER
HOLDER
LUG
BOARD
INDENTIFICATION
NO.
FUNCTION
100
V
117
US
JAM
117
2P
220
GE
220
SE
240
AF
240
AU
DEMKO
SEMKO
NEMKO
cm
2
1
1
1
1
1
1
1
6
4
45
3
9
3
3
3
3
3
3
3
3
3
3
3
PARTS
CORD
78690300
78690500
PARTS
PSW3
PSW5
NAME
SPECIFICATIONS
P.C.
BOARD
INDENTIFICATION
NO.
FUNCTION
240
GE
GAF
FIMKO
240
RME
VDE
QTY
3
3
3
3
3
3
1
Page 36
®
KORG
15-12,
Shimotakaido
INC.
1-chome,
Suginami-ku,
Tokyo,
Japan.
©KORG
INC.
1986.6106
DTH
PrintedinJapan
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