yamaha cs1x service manual
- CONTROL SYNTHESIZER
o ix
© NCONTENTS (8%)
SPECIFICATIONS (42 S114%) ............. O O 2/3
PANEL LAYOUT (JYRILL A TTR) eee, неее .....4
CIRCUIT BOARD LAYOUT (229 bU 177 MN) cerca 8
BLOCK DIAGRAM (70 v TEA TTT La) eer areas 8
DISASSEMBLY PROCEDURE (9 #5 F5) …10
LS! PIN DESCRIPTION (LSIV-FHÉREZX) .….......…...…rerraecsens 16
IC BLOCK DIAGRAM (IC7 8 7) .............. etree anaes 18
CIRCUIT BOARDS (7 — ARE) RB ae REEL RER 20
TEST PROGRAM (7X FET TL) eevee. 28/47
ERROR MESSAGES (ZT —X y=) мн MU 37
MIDI DATA FORMAT (MIDIZ—274—-7 Y 6 .e.e..e. e... 38/56
MIDI INPLEMENTATION CHART ……………cerecarersensencenenmennnense 46/61
CIRCUIT DIAGRAM 1/2 (DM) -..................ecveneencennenene ees 62
CIRCUIT DIAGRAM 2/2 (PN, LC, LE, MKS2, MK-H, MK-L) ....... 63
( PARTS LIST
N
YAMAHA SORE
19960601-69800 2.7K-454 DH Printed in Japan '96.6
KEYBOARD
TONE GENERATOR
POLYPHONY
MULTI TIMBRE
PERFORMANCE
VOICE
ARPEGGIATOR
EFFECT
CONTROLS
DISPLAY
TERMINALS
POWER SUPPLY
OUTPUT IMPEDANCE
DIMENSIONS
WEIGHT
ACCESSORIES
OUTPUT LEVEL
CS1x
Hl SPECIFICATIONS
61 keys with Initial Touch
AWM2 (Wave ROM 4.5MB)
32 notes
16 (DVA)
- 128 Presets, 128 Users
Normal Voice XG | 480
TG300B 579
Voices For Performances
Drum Voice XG a N
TG300B 10
32
Reverb 11
Chorus o | OÙ
Variation 43
POWER, VOLUME, PITCH, MODULATION, Sound Control Knobs 6, SCENE 1/2, Numeric
Keypad, ENTER, Mode Select (PERFORMANCE, MULTI, STORE, UTILITY), ARPEGGIATOR,
SHIFT/OCTAVE, PART/LAYER +/-, PRESET, USER, PROGRAM +/-, Edit Parameter Rotary Switch,
Parameter Value Up/Down buttons 10
LCD (Back Lit)
PHONES(Stereo Phone], OUTPUT(Phonej: LIMONOJR, DC IN, FOOT VOLUME, FOOT
CONTROLLER, FOOTSWITCH, INPUT, TO HOST, HOST SELECT, MIDI IN/OUT/THRU
AC adaptor PA-3B
Line: 10kQ, Phones: 3300)
976{W} x 285(D) X 103{H}mm (38 3/8" x 11 1/4" x 4 1/16")
5.7kg (12 Ibs., 9 oz.)
Yamaha AC Adaptor PA-3B
Owner's Manual, Data List
‘Refer to the TEST PROGRAM section of this manual.
Ш СОН:
a _
BRL
BARRE
TILFF «1 YN
WTA AZYAZ
BÉ
PIINYI—5—
Ix
y NO—/L
FA AJA
EMT
ER
YA
BE
A
HALA
CS1x
SR ZU ILS U FE)
AWM2ER( 1 —7ROM 4.5MB)
328 a
16(DVANE)
FUEvh128, 1—--128
7—R IA Z x 480
TG300B 5 579
| JTF = RERA R
RS LRA XG OM
‚163008 10
32 | 1 a. |
UN о 1]
1-72 11
JAUI— 37 : 43 ©
INIA YE. MUI— Ls. Ey FER RRA, ED 23741 —JL. НОМ
DYNO—NW/7:6, Y=-Y 12, TFYÆ—(0-9, =), IVS— E—FELINODA —
XA), ХР. АВР. аня От), РЛС, МОЙ NS SN
ими. FUEYh I—Y— TOISL+/—. IF0y NGA=5—0-5-
AA YE, NIX—9— II 1—A/V : 10 |
LCD 9754 Mis)
PHONES(AF L41€74—7 477) EII) : +2.0+20Bm(4741 7E—977/43300)
ООТРОТ 72 — У Y 7)L/MONOR 7EÑSINZ] : +2.0+2A0Bm(4741 7E—974
10k0). DC IN, FOOT VOLUME, FOOT CONTROLLER, FOOTSWITCH, INPUT,
TO HOST. HOST SELECT, MIDI IN/OUT/THRU |
ERY SY — PA- 3B
976(W) X е85(0). X 1 O3(H)mm
5./kg
ER) 5 — PA-3B |
ERE hs RE, T—IUZt
FEB
KY —EZXTZ27IDOFANTRISLOBEEA*SRBL TTA,
CS1x
Il PANEL LAYOUT La г) |)
e Front Panel (7 > В/У Л)
Telas
->]elaje
(D VOLUME
@ SOUND CONTROL KNOBS
(3) SCENE 182
(9) ARPEGGIATOR
® SHIFT
— © PART/LAYER [-]/[+]
@ PRESET
USER
PROGRAM [-]/[+]
BACK LIT LCD
(D NUMERIC KEYPAD
(2 [-]/NO/QUICK PC
(3 ENTER/YES
(2 MODE SELECT SWITCHES
- PERFORMANCE
« MULTI
« STORE
« UTILITY
(EDIT PARAMETER ROTARY SWITCH
6 PARAMETER VALUE UP/DOWN BUTTONS
« PERFORMANCE MODE
+ MULTI PLAY MODE
« UTILITY MODE
© PITCH
MODULATION
© VOLUME (Æ VU 1-4) 77
(24 м Кам кали
(3) SCENE (> —>) 1/24 —
(Y) ARPEGGIATOR (7 UN 7 I—4—) 4—
(6) SHIFT (77 E) *—
6) PART/LAYER (/S— 6/14 4) +/— 4—
D PRESET (71 € Y NH +—
USER (2—#—) #—
- © PROGRAM (70734) +/—#*—
49 LCD
Dr *-—
(2 — (NO / QUICK PC) 4 —
(3 ENTER (YES) 3 —
) E-NELIhAT
+ PERFORMANCE (/Y7 +—7 22) ¥ —
* MULUTI (7 LF) 4 —
* STORE (Z 177) 4 —
* UTILITY (1-74 54) 4—
DIF 4 y PINTA A O BI м
(9/7 4—2—/) 1—- Y /AZ1 5
@ КУ ту КЖа Л
@EZIL—L ALAN
CS1x
* Rear Panel (1) 77/V%JL)
| — VAMANA (5 ESP)
À
>
THRU — ; eR TO HOST INPUT SWITCH CONTROLLER VOLUME ÓN MOFF DC IN — -
J
® MIDI o ~~ (®MIDIIN/OUT/ THRUST
(2) HOST SELECT | | — () HOST SELECT (RX HELL 7H ZA F
(3) TO HOST (3) TO HOST (HR b) №
@ INPUT (МРОТ
(5) FOOTSWITCH — ©FOOTSWITCH(7 y FZ4 у F) MF
(6) FOOT CONTROLLER (6) FOOT CONTROLLER (7 y Ка у o o—5-—) #7
(7) FOOT VOLUME (7) FOOT VOLUME (7 7 FÆU 1 — A) iF
POWER — POWER (N7-) 21 5
©DC IN (9) DC IN | |
(9 OUTPUT — (O OUTPUT L [MONO] / R (77 177 HA [E 50/40
(D PHONES AD PHONES (Nv FJ + >) $F
IN CIRCUIT BOARD LAYOUT (1.=v RL A 7 |)
CS1x
ст FRONT(F #1 ) cs
PT 11
WHEEL KEYBOARD |
PITCH MODULATON © © ©
| — — = и 7 x —\
MK | Y
_ 7 "С вс! СЫ вс! |
© CN2 CN3 CN4
(128) ( 7P) ( SP) _
TOUR MKS 2
O RT (а) IE Shield b
e a REE TEL — — 7 Ne at Da) |
| | © À: 4 6 = ae" Y= = a [DM] OL
||| EN7 _CN6 _ _CNS ___ CNA | CN3 ___CNZ CNT 22 di)
[PN] \ (С 6Р) ( 5Р) (129) ( 6P)] (ap) (1 5p) | ( 8P) |
(772) * | ©! ‘ (272)
о © \ Ц X me! | © ©
4 le À | K y yv
CN1 CN2|| a5» CN3 |286 смт all CNA | CNS CN6
( 6P) (12P) | DT = za 137)... 1 (199) TELL (3P) || (13P) (BP)
A CRS TA LE Ey ро | Or
| © В creme
| afilar rara ra a! \
-
© ©) REAR (RE ) | Upper case assembly
| | (£7— Assy)
le A >
ADAPTER ©
LOCATION PART NO. CONNECTOR ASSEMBLY REMARK PART OF
@ | vu40650 DS-KR 8P/250L —PN X
© VU47340 DS-KR 13P/300L PN X
© VU55430 DS-KR 14P/450L LC x
@ | VvT76020 RIBBON CABLE 6P/110L — X
® VU40660 DS-KR 12P/300L PN | xX
® VU55440 WHEEL 5P/400L WHEEL X
7 VU40630 DS-KR | 6P/250L PN x
VU40610 DS-DS 13P/160L PN X
© VU57890 GND 1P/500L _ X
A VU65930 RIBBON CABLE 12P/190L KEYBOARD
@ VU65940 | RIBBON CABLE 7P/250L KEYBOARD
(2) VU65960 RIBBON CABLE 5P/615L KEYBOARD
(3 VU65950 RIBBON CABLE 12/215L KEYBOARD
(19 — AC ADAPTER — —
(5) VU82020 DM-DM 3P/350L DM x
X Connector assemblies maraked with X are not available as servicing parts.
(Еве ОР XENDFWZOHDOEHEEANRE LU TRERSNTUVEEA. )
| CS1x
|
e Wiring (EXA) a ©
RR nn er nnRrenen Пет Ñ—— Poo
НИ A Ed cad enad ||. ho 7 LÀ г \ MK (B®) =
cs tt
N (4) N
PN[(1/2) | PNI(2/2)
— сч м | — + mn wo
zZ zZ zZ zZ zZ zZ Z
O O O | ae о SU U
> 9 9 e e © 9 Фо,
e Aa
| AN (a
9) )- Om
- ,
Ÿ ©
5 5 & ©
2 > > | to Shield box
о O о Y IVETRY 7A
+ 19) (22910
WHEEL
© zZ
2 |
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a | | я а I 1 1 1 - -
pa O aaa a TU ey TTY ECS
# 3 a 9 8 à 28 8 5 2 5 €
. 9 — x w и Zz 3 2 —~ о =
/N LINE OUT = ul MIDI
AC <H— (4
. ADAPTER | |
A: Solder CERT)
| O: Board-in connector (—E1 7)
| O: Connector (9959) |
O: Screw (CRES)
E WARNING
Components having special characteristics are marked À and must be
replaced with parts having specification equal to those originally installed.
A OBR. ELEEBTAIEDIEERBE TY, SRTZEER. BLOKE
DA TIEEDWEE CHEAT EW, |
2NC-VU63910-0020 /2\
8011296 /2\
. CS1x CS1x
IN BLOCK DIAGRAM (797 753417753.)
Fm mm mmm meme. , | 1 ——MIDI-
ICI Ш HOST SELECT TO HOST | THRU OUT IN
A aer KI ems 1] O
LCD CONTROLLER SE ES EN | O O O
; CNT CN3 | ti 1 |
STE Ш e | | |
{PN № © <= Е = ) NE | MIDI
112 Back-lit o cho A IC3 TRANSCEIVE INTERFACE
: +50) o 5 — Ke ë ° |
Panel LED CNS + -
| SA” SG SH ЧЕ SH DECODER Ba ' ВАТ
: si-sg | ove TEN IC12
‘ oo | ки
rss BUFFER K —De:DIS +
CNS; СК co + CPU 20 28 20 28
: * mob 3 > | 1CI6 C17
; +25 „Фе ВКО le HS / 3002
: | S-RAM S-RAM
а knob4" 6 _ :
! CN2 y 2 CNs MULTI À — |
Mi o PLEXER = я 256K | 256K
' 1С7 5 y > HWE
| Foot Volume | > ©) AU A19 — - == ” я
DO DIS KP >> 13 E 22 RD 3, 22
| Foot Controller | > —
- ей той 3
| Foot Switch | > 16MHz Ie < - <
¡WHEEL o y В y y
: | Pitch Bend Wheel} + Г | | _r y:
DECODER
i [Modulation Wheel] [JE / [Co
KEYBOARD ~~ р 1 2 DR
: o IC8 eL al
| ove FY мк A a кок
MBH Ç CNLs CNA LATCH e =
1 Lig ' we | (WAVE 1) (WAVE 2)
An SMHzZ_____} = > IC18
IC28 - > ROM ROM
| SWP00
D-RAM 32M 4M
IM
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27 |
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: EY “A30KX2 |
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MT, ZAS, XEDK
1025 1026 :
— 1127
15 ={LPF EQ 10) PHONES
D/A R R R :
14 L ’
Q | 02.03
MUTE ||| Fix] | “marine © L/MONO
CONT. Ing — © R
ZZ © INPUT
+5A «€—|REGULATER ADAPTER E AC
+5D E— |
EBERLE SEELE x /A :
POWER SUPPLY NET DC-IN
' о
: DM
WII YT Y
. +[ + + + YI + 7
WHEEL PN | LCD MKS
: MM WARNING
: Components having special characteristics are marked A and must be
‘ - replaced with parts having specification equal to those originally installed.
AZ mo, RE ZOG
: HATE DEA CEA, |
: 8811293/X
CS1x
E DISASSEMBLY PROCEDURE (ЭНЕН)
1. Bottom assembly
1-1. Remove the thirty- three (33) screws marked
as [165], then the bottom assembly can be
removed. (Fig. 1) |
1. * HA Assy
1-1.
[16510 7 V 33 ALT, KA Ass'y ZH
DALEY. (M1)
Bottom assembly
[165] (Æ HA Assy). [165]
/ | |
e — 5 — 7 Ne 1 .— FF а Ne =
P —— = — Mm = e
O [165] ‘ Ta
est | a | >>> — 681.
NS >= = / d
e— ee EN | 2 ea Sn N { ee
ВЕ | a [165] [165]
(Fig. 1) _ [165]: Bonding Tapping Screw-B 4.0X10 MFZN2BL (VJ254100) RF 4 7B94 E
2. DM Circuit Board
2-1. Remove the bottom assembly. (See procedure
1.)
2-2. Remove the two (2) screws marked as [80] .
and the screw marked as [110A], then remove
the DM circuit board with the shield box. (Fig.
2)
2-3. Remove the seven (7) screws marked as [100]
and the four (4) screws marked as [110B],
then remove the DM circuit board from the
shield box. (Fig. 3)
2-4. Pull off the power switch knob from the DM
circuit board.
X The lithium battery is not a part of the DM circuit
board. When you replace the DM circuit board,
you should remove the lithium battery from the
board, and put it back into the holder on the
new board. (Fig. 4)
X You can remove the lithium battery by pushing
the hook of the battery holder. (Fig. 4)
3. Keyboard Assembly
3-1. Remove the bottom assembly. (See procedure
1.)
3-2. Remove the two (2) screws marked as [80]
and the screw marked as [110A], then remove
the DM circuit board with the shield box. (Fig.
2) |
3-3. Remove the four (4) screws marked as [60A]
to remove the two (2) MKR angles, then the
keyboard assembly can be taken out of the
unit. (Fig. 2) |
3-4. Remove the ten (10) screws marked as [40],
then remove the five (5) MKF angles from the
keyboard assembly. (Fig. 2)
2.
2-1.
2-2.
2-3.
2-4.
3-1.
— 3-2.
3-9.
3-4.
DM ÿ— +
A HA Ass'y 2XLES, (1)
[80]D 37 2 Ж [110410 2 1 ЖЕ,
Z— VERY IZ ERIK DM >— HA 0%
LEY, (M2)
[100]) €E77X<[110B])D F744XE4LT,
DM >2—-—Hh2RMDOXLEZY, (M3)
NIZA Y FOYRZIÉ DM 2- hA5
DHL ET,
|) РО ДЕЯ ОМ У — HOR Td
ЭНА, DM У — EXIT IRICE, READY
— > D5IFIAEMEBRUAL TAL
HCRUMOT REL, (El 4)
SENS Ass'y |
NRA Assy ZA LET. (18)
[80]D 3% 2 KE[110A]D FY 1 KALT,
Z— NV ERYI7ZERIKZ DM КО
LEÍ. (M2)
[60A]D TZ 4X2%4LT, MKR7 27) 2 В
HE Assy ZMONLES, (M2)
[40])£7104E4LT. BE Ass'y 0» 5 MKF
TUN EEROALEY, (№ 2)
10
CS1x
MKR angle MKR angle | Lithium battery Shield box
(MKR7 7) [GOA] (MKR7>4) [60A] [80] [110A] (15747) (Ÿ—WFÆy72) [80]
Keyboard assembly
(RE Ass'y)
[40] MKFangle [40] MKF angle [40] [MKS2/1301 [40] MKFangle [40]
(MKF7 > 7 W) (MKF 7 > 7 JV) (MKF7 > 7,1)
[30]: Bind Head Tapping Screw-P 3.0X8 MFZN2BL (EP630220) +/44 7 F P941 b+
[40]: Bind Head Tapping Screw-B 3.0X8 MFZN2BL (EP600190) +24 7 FBY94 +
[60A]: Bind Head Tapping Screw-B 3.0X20 MFZN2BL (VJ999700) + X12 FB#% A +
[80]: Bind Head Tapping Screw-B 3.0X20 MFZN2BL (VJ999700) +/11 7 FB94 E
(Fig. 2) [110A]: Bind Head Tapping Screw-B 3.0X8 MFZN2BL (EP600190) + N\A 2 EB94 |
* Shield box (Ÿ—WFÆy 72)
ZN ZZ
[100]
lo o o n
EN
>
[1108]
[100]: Bonding Tapping Screw-B 3.0X10 MFZN2BL (VQ049800) KF ИУ ВУЛ |
[110B]: Bind Head Tapping Screw-B 3.0X8 MFZN2BL (EP600190) +4 Y KB% A |
(Fig. 3)
* When removing; | * When installing;
+ LAS) Lithium battery (BEE)
| (VF LE) Lithium battery
(0-9 АЖ)
Holder
(BR)
Holder
(Zi 4 —)
(Fig. 4)
11
4-2.
4-3.
4-4.
4-5.
4-6.
5-1.
5-2.
5-3.
5-4.
PN1/2 & PN2/2 Circuit Boards
-1. Remove the bottom assembly. (See procedure
1.)
Remove the two (2) screws marked as [80]
and the screw marked as [110A], then remove
the DM circuit board with the shield box. (Fig.
2)
Pull off the eight (8) control knobs.
Remove the ten (10) screws marked as [170A],
then the PN1/2 circuit board can be removed.
(Fig. 5)
The LE1/2 circuit board is mounted on the
PN1/2 circuit board.
Remove the ten (10) screws marked as [170B],
then the PN2/2 circuit board can be removed.
(Fig. 5)
The LE2/2 circuit board is mounted on the
PN2/2 circuit board.
When you re-install the PN1/2 circuit board,
you should tighten the screws marked as .
[170A] in the order of a, b.
Re-installing the PN1/2 circuit board, tighten
the screws marked as [170B]. |
[170B]
a
[PN 2/2]
[170B]
Spacer AN)
CS1x
4. PN1/27— HE Р№/2 57 — |
4-1. Rh A Ass'y EMALUES. OURS)
4-2. [80]D RT 2K E[110A]D RT 1 KZ LT,
У—Л ЕЖУ 7 АННЕ ОМ — REEDS
LEY, (M2) |
4-3. NAOMI EL 7) —YYi8XHKk=
£9,
4-4. PN1/2 ÿ— ME, [170AJO% 7 10 Же
RMONUES. (M5)
X PN1/2 7— Cta LE1/2 yY— DER RISA
TUE, |
4-5. PN2/2 > — Mid. [170B]0 > 10 X2XALT
MONTES, (M5)
*% PN2/2 7— HC, LE2/2 7 — MEY RISEN
— TUE, |
4-6. PN1/2 3— h, PN2/2 >— ь КОМН БВ,
[170A]ÉZ=72[170B)D € 7%, MHIZRLZa
b ORIZ O 43, (M5)
[60B] [170A]
a
PN 1/2
200]
[170A] 200]
[200] | assembly
(#1 — JUAss'y)
[60B]: Bind Head Tapping. Screw-P 3.0X8 MFZN2Y (EP630280) EN YEP9A
[170A]: Bind Head Tapping Screw-P 3.0X8 MFZN2Y (EP630280) +71 7 FP941 k
[170B]: Bind Head Tapping Screw-P 3.0X8 MFZN2Y (EP630280) +11 7 FP94 E
[200]: Bind Head Tapping Screw-P 3.0X8 MFZN2Y (EP630280) FNAEPHZA H
LC Circuit Board & LCD
Remove the bottom assembly. (See procedure 1.)
Remove the two (2) screws marked as [80]
‘and the screw marked as [110A], then
remove the DM circuit board with the shield
box. (Fig. 2)
Remove the PN1/2 or PN2/2 circuit board.
(See procedure 4)
Remove the six (6) screws marked as [60B]
and then remove the spacer and the LC
circuit board. (Fig. 5)
(Fig. 5)
5. LC>— FEDAS ART ATA
5-1. \ b 2 Ass'y ENTES, (132)
5-2. [80] 2 2 Ж 110410 1EZALT,
ZU ERYI7A EN DM Z— HERA
— LEJÍ, (592)
5-3. PN1/2 — hA PN2/2 >— HO Eb BA
LES. (4
5-4. [GOBJOR 6 XX4LT, ZX—Y— > LC
—HEMOALES, (5
12
CS1x
13
5-5
5-6.
6-2.
7-1.
7-2.
7-3.
7-4.
7-5.
7-6.
When you re-install the LC circuit board, you
should tighten the screws marked as [60B] in
the order of a, b shown in the figure. (Fig. 5)
After the LC circuit board has been removed,
the reflection sheet can be removed. After
that, remove the back-lit lens with the rubber
connectors and LCD.
While pushing the hooks marked as [A], take
the LCD out of the back-lit lens. (Fig. 6)
When you re-install the LCD, put the projection
side of that at the slit of the rib of the uppe
case. ВЕ | |
Wheel Assembly
-1. Remove the bottom assembly. (See procedure
1.) |
Remove the four (4) screws marked as [200],
then the wheel assembly can be removed.
(Fig. 5)
Rubber connectors
(HAIR 7 3—)
%. LCY—NEBWUNTORÉ, JON a: b DIE
[60B]) RI TRUE, (H5) -
5-5. LC 27— HEM LEI 7L7 h27— AL:
SOFA AIRII-ENAZ LUNETA LA
EEN IFA HL ZZEXALES,. (M6)
5-6. NY 771 FLY ZXOD[AJOY À &IMANC BE
Ts HAY LBRT AAT VA КОСОВ.
(EJ 6) | | | ВЕ
X NRAYLRBRETARATUAZRUNTBRERICE.
ROSOSOCESLT El. (CAY
НОВ) ВЕ
6. "A —Jl Ass'y o |
6-1. À HA Assy ZH LET. (18)
6-2. [20010 7% V 4 X2XLT, KT —)JV Ass'y ZH
ONLEZ,. (M5) |
LCD —
(5 ля АЖ 1 ALT)
| Reflection sheet
(изн КУ) —- . NJ
Disassembling of Keyboard Assembly
Remove the bottom assembly. (See procedure 1.)
Remove the two (2) screws marked as [80] and
the screw marked as [110A], then remove the
DM circuit board with the shield box. (Fig. 2)
Remove the keyboard assembly. (See
procedure 3.) | | |
Remove the two (2) screws marked as [30]
and remove the MKS2 circuit board. (Fig. 2)
While pushing the fifteen hooks in the
direction of the arrow, remove the MK circuit
board. The rubber contact can be removed
by pulling it upward. (Fig. 7)
Remove the twenty-one (21) screws marked
as [140], then remove the black keys from
the lower notes. | |
Afterwards, remove the white keys DFA and
C' and then remove the white keys CEGB
from the higher notes. At this time, lift the
keys from the front and slide them to your
side, then the keys can be removed from the
assembly. (Fig. 8)
— (Fig. 6)
7. HE As y ON |
7-1. Rh A Assy EA LEY, (12H)
7-2. [80] DFT 2AR E[110A)D RT 1 AZHN LT,
=) Rhy 7 A E32 DM — КН
LES, (№2)
7-3. VEN Ass'y XML EZ, (310)
7-4. [30]D TF 7 2 XXX LT, MKS2 >— h2HMD
NULES, (42) |
7-5. MK 7— PE TNZ27y7 15 6EXEID
HEH LA LT. MKS —h2EOA LET,
FERIA E BI<ENNET, (M7)
7-6. HEE. EXE IED TNZS140])D€7 21 XXX
L, BEZZEOEVWANSA LET, |
XIZASE DFA CABE CAENL, RÉIHALE
— CEGB + EOMNIDENLES, COLT
<=, AED FEMER EV, FANZAZ77 FE
СКОЛЬКО. (M8) o
CS1x
White key
Er
. Z
Black coy —— /
(Rak) a VA
Rubber contact
(ERA)
(Fig. 7)
White key DFA
(ВОРА) >s
White key CEGB 7
(ASECEGB)
И
[140]: Bind Head Tapping Screw-P 3.0X16 MFZN2BL (VB205200) +74 7 E P94 +
(Fig. 8)
14
CS1x
15
8-2.
Assembling of Keyboard Assembly
-1. Put the white keys CEGB from the lower
notes. Place the white keys DFA and C'.
Put the black keys from the higher notes.
Tighten the twenty-one screws marked as
[140] to hold the keys. (Fig. 8)
Put the rubber contacts in the assembly
while supporting both sides of the frame not
to push up the keys. |
After the MK circuit boards have been
installed in the assembly, hold the circuit
boards with the hooks. (Fig. 9, Fig. 10 & Fig.
10) |
8.
8-1.
8-2.
Rubber contact
Ол А)
SEE Ass'y DÍBI TT —
HYE CEGB %, ERROR, [TDAH
EXT
HYE DEA - НН С, НОЛАН,
НЯ ВОН АЛЬ, KDARET.
HEE, ВРС 17 [14010 3 21 ЖЕ
DES, (M8) |
ВАННЫ 9 OLI, НО ВО
ЛБОМ, 10 ОЖ ЭК ото
DIANTFÈN, CDEE, НОЧИ Л
НО ВОВ АВЕО КМК то
и —- AO EJ TEXZ2fTo TRE,
MK >— hid, № 10 ОЖ ЭКЮ 7 м 7 ВА
AFT, (K9 X10. X11) |
Rubber contact
GERÍA)
(Fig. 10)
(Fig. 9)
(Fig. 11)
7 >
H LSI PIN DESCRIPTION (LSI: F485)
e HD6413002FP16 (XQ375A00) CPU <H8/3002
CS1x
iy NAME 1/0 FUNCTION —| No NAME 1/0 FUNCTION
1 A21 O Address bus 51 A12 O
2 A20 O 52 A13 O
3 VCC Power supply 53 A14 O
4 PBO I/O 54 A15 O Address bus
5 PB1 /O 55 A16 O
6 PB2 /0 | 56 A17 O
7 PB3 /O Port B 57 A18 o
8 PB4 /0 58 A19 O
9 PB5 /0 59 VSS Ground
10 PB6 /O 60 WAIT | Bus cycle wait
11 . PB7 /O | 61 P61 10 Port 6
12 /RESO | Reset 62 . P62 I/O
13 VSS Ground 63 ¢ - Not connected
14 TXDO O Transmit data (MIDI QUT) 64 /STBY | _ Stand-by mode signal
15 P91 I/O Port 9 65 /RES | Reset
16 RXDO | Receive data (MIDI IN) 66 NMI | Non-maskable interrupt
17 RXD1 | Receive data (Keyboard) 67 VSS Ground
18 P94 I/O Port 9 68 EXTAL | Clock
19 SCK1 O Sync. signal 69 XTAL O
20 . P40 I/O 70 VCC Power supply
21 P41 10 71 IAS O ‘Address strobe
22 P42 1/0 Port 4 72 /RD O Read strobe
23 P43 1/0 73 /HWR O Write strobe (High)
24 VSS (Ground) 74 ЛВ O Write strobe (Low)
25 P44 I/O 75 MDO |
26 P45 I/O 76 MD1 | Mode select
27 P46 I/O 77 MD? À |
28 P47 1/0 78 AVCC Analog power supply
29 D08 1/0 79 VREF | Reference voltage
30 009 10 80 ANO | Analog data input (Power)
31 D10 I/O 81 AN1 | Analog data input (SUSTAIN)
32 D11 I/O - Data bus 82 P72 I/O :
33 D12 I/O 83 P73 1/0
° 34 D13 1/0 84 P74 I/O Port 7
35 D14 1/0 85 P75 1/0
36 D15 МО | 86 Р76 1/0
37 VCC Power supply 87 P77 1/0
38 A00 O 88 AVSS Analog ground
39 А01 О. 89 Р80 1/0 Port 8
40 A02 O 90 /CS3 | |
41 A03 O 91 /CS2 | Chip select
42 А04 O 92 /CS1 |
43 A05 O 93 - /CSO |
44 A06 O Address bus 94 VSS Ground
45 A07 O 95 PAO I/O
46 VSS (Ground) 96 PA1 I/O Port A
47 A08 O 97 PA2 I/O
48 A09 O 98 PA3 I/O
49 A10 O 99 A23 O Address bus
50 A11 O 100 A22 O
16
CS1x
17
e TC170C120SF (XQ036A00) SWP00 (AWM Tone Generator) Standard Wave Processor
NO NAME 1/0 FUNCTION | NO. NAME 1/0 FUNCTION
1 CAO | 51 MD1 |
2 CA1 | 52 MD2 |
3 CA2 | 53 MD3 | | |
4 САЗ | | | 54 MD4 | + Wave memory data bus
5 CA4 ! + CPU address bus 55 MD5 J |
6 CAS | ; 56 MD6 |
7 VDD (Power supply) 57 MD7 | J
8 CA6 | 58 VDD Power supply
9 CA7 | 59 MAO O |]
10 СА8 | 60 MA1 O
11 CA9 | 61 MA2 O
12 CA10 | 62 МАЗ O
13 CDO 1/0 63 MA4 O
14 CD1 1/0 64 MAS O
15 VSS (Ground) 65 MAG O |
16 CD2 МО 66 VSS | (Ground)
17 CD3 10 CPU data bus 67 MA7 o
18 CD4 1/0 68 МА8 O
19 CD5 1/0 69 MA9 O
20 CD6 I/O 70 MA10 O
21 CD7 1/0 | 71 MA11 O Wave memory address bus
22 VDD | Power supply 72 MA12 O
23 CSN | Chip select 73 VDD (Power supply)
24 WRN | Data write strobe 74 MA13 O |
25 RDN | Data read strobe 75 MA14 O
26 DACLR O DAC output (L or L/R) 76 MA15 O
27 DACR O DAC output (R) 77 MA16 O
28 BCLK O Bit clock 78 MA17 O
29 WCLK - O Word clock 79 MA18 O |
30 VSS Ground 80 VSS (Ground)
31 RDO 1/0 81 MA19 O
32 RD1 I/O DRAM data bus 82 MA20 O
33 RD2 1/0 83 MA21 O
34 RD3 1/0 84 MA22 O
35 RAO O 85 MA23 O
36 RAT O 86 ICN | Initial clear
37 RA2 O | 87 VSS Ground
38 RAS ВФ, DRAM address bus 88 XIN | Crystal osc.
39 RA4 O | 89 XOUT O Crystal osc.
40 VSS (Ground) 90 VSS Ground
41 VDD (Power supply) 91° VDD Power supply
42 RAS O 92 | MCLKO O Clock output
43 RAG O 93 MCLKI | Master clock input
44 RA7 O 94 SY | Synch. signal
45 RA8 O 95 | SYSCLK | O 1/2 master clock
46 RASN O DRAM row address bus 96 | NSYSON | NSYS expansion enable
47 CASN O DRAM column address bus 97 | TESTON | Test pin |
48 RWEN O DRAM write enable 98 ACIN | Test pin
49 MDO | Wave memory data bus 99 | DCTEST | Test pin
50 VSS Power supply 100 VDD | Ground
— 5
> -.
и т.
e HD63B05V0D73P (XR951A00) CPU
CS1x
FUNCTION
NO, NAME 1/0 FUNCTION NO. NAME МО
1 /RES | Reset 21 C7 1/0
2 /INT | Interrupt request 22 C6 I/O
—3 NUM | Non-maskable interrupt 23 Cs 1/0
4 A7 1/0 24 Ca I/O Port C
5 A6 1/0 25 C3 1/0
6 A5 1/0 26 C2 1/0
7 A4 I/O Port A 27 C1 I/O
8 A3 I/O 28 CO 1/0
9 A2 1/0 29 Do 1/0
10 A1 1/0 30 D1 1/0 Port D
11 | АО I/O 31 D2 10 a
12 BO МО 32 D3/TX O (Serial data output)
13 B1 1/0 33 D4/RX | (Serial data input)
14 B2 1/0 34 D5//CK O (Clock for serial operation)
15 —B3 I/O Port B 35 D6//INT2 | (Interrupt request 2)
16 B4 1/0 36 /STBY | — (Standby mode signal)
17 B5 1/0 37 TIMER | Timer |
18 B6 I/O 38 XTAL O Clock
19 B7 10 39 EXTAL |
20 VSS Ground 40 VCC — Power supply
e ¿PD63200GS-E1 (XP867A00) DAC (Digital to Analog Converter)
FUNCTION
MIC BLOCK DIAGRAM (IC 78 7)
e SC7SU04FEL (XI348A00)
inverter Gate
NC (4)
OR
(6) VDD INA —
IN B
IN >
e TC7S32F (XM588A00)
(5) Vec
(4) OUT
e TC74HC14AF-TP1 (XD657A00)
Hex Inverter
No NAME 10 FUNCTION No NAME 1/0
1 4/8F | 4/8 Fs selection 9 R. REF Channel R voltage reference
2 D. GND Digital ground 10 L. REF Channel L voltage reference
3 16 BIT | 16 bit/18 bit selection 11 L. OUT O Channel L output
4 D. VDD Digital power suppiy 12 A. GND Analog ground -
5 A. GND Analog ground 13 WDCK | Word clock.
6 | HR. OUT O Channel R output 14 RSI | Channel R series input
7 A. VDD Analog power supply 15 SI/LSI | Series input/Channel L series input
8 A. VDD | 16 CLK | Ciock
18
e SN74HC138NSR (XD835A00)
3 to 8 Demultiplexer
À (1 16) Vec
A — 5
Select 4 B (2 B YoPp— 15) YO
C (a C Y1p —(19) YI
б2А (4 G2AY 21 13) v2
_— — 7 Output
Enable 1 578 (5 G28Y3 12) Y3
G1 (6 Gi va 1) va
Output { Y7 (7 Y7 Y5 10} v5
Y6 —
GND (8 9) v6 J
TC74HC595AF (XR011A00) =
8-Bit Shift Registers with
Output Latches
ов (| i$ vee
ос (2) 19 ОА
O 19 ser
ot (9 p13 с
ar © (2 RCK
as (8) (19 sck
aH (ND (9 SCLR
END (8) —® ен
e uPC4570G2 (XF291A00)
+ NJM4556AMT1 (XQ138A00)
Dual Operational Amplifier
+DC Voitage
(8) Supply
Inverting
Input A (2) / (7) Output 8
Non-Inverting I (6) Inverting
Output A (1)
Input A Input B
Non-Inverting
—DC Voltage Suppl
9 PP Y a) (5) Input B
CS1x
e TC74HC139AF-TP1 (XE462A00) * SN74HC245NSR (XD838A00)
Dual 2 to 4 Demultiplexer Octal 3-State Bus Transceiver
DIR
АЛ
A2
A3
Ad
AS
Аб
AT
AB
GND
TC74HC4053AF (XR150A00) © MC34051MEL (XP881A00}
Triple 2-Ch. | Dual EIA-422/423 Transceiver
Multiplexer/Demultiplexer |
Switches IN/QUT
On
Y 1 +DC Voltage Supply
—do.— YO(2) YO Y (15) Commons OUT/IN Y
—do.— Zt (3) — do. — X
Commons OUT/IN x1 (13) Switches IN/OUT X1
Zz .
Switches IN/OUT — do — xo
20
Control Inhibit A{11) Control Input A
~DC Voltage Supply (7) VEE —do.— B
— do. — —do.— €
19
CS1x
28
IN TEST PROGRAM
NUMBER TEST | TEST RESULTS
T1 | RAM Ш OK/NG | |
T2 | RAM BACKUP BATTERY OK/NG |
T3 | LCD ALL DOTS ON/OFF
T4 | PANEL SWITCH/LED OK, ON/OFF |
T5 | MIDI OK/NG
T6 | HOST SELECT SWITCH OK/NG
T7 | TOHOST OK/NG
T8 | WAVE ROM OKING |
T9 | 1k Hz SOUND OUTPUT OUTPUT L: +50 +2 dBm (10k Q load)
(OUTPUTL) OUTPUT R: less than -70.0 dBm (10k © load)
PHONES(L): -1.8 +2 dBm (33 Q load)
PHONES(R): less than -65.0 dBm (33 Q load)
T10 | 1k Hz SOUND OUTPUT OUTPUT R: +5.0 +2 dBm (10k © load)
(OUTPUT R) OUTPUT L: less than -70.0 dBm (10k Q load)
PHONES(R): -1.8 +2 dBm (33 © load)
PHONES(L): less than -65.0 dBm (33 Q load)
T11 | EQSOUND OUTPUT (LOW) | +1.5 +1 dB with the output of test 9
T12 | EQSOUND OUTPUT (HIGH) | +1.5 +1 dB with the output of test 10 _
T13 | KEYBOARD OK |
T14 | EFFECT DRAM 1k Hz £3 Hz, sinewave, +5.0 £2 dBm (10k Q load)
T15 | 32CH SOUND OUTPUT Listening
T16 | KNOB1 (ATTACK) OK/NG, 64— 127 —00—64
T17 | KNOB2 (RELEASE) OK/NG, 64— 127 —00— 64
T18 | KNOB 3 (ASSIGN 1/DATA) OK/NG, 64— 127 — 00 — 64
T19 | KNOB4 (CUTOFF) OK/NG, 64— 127 —00—64
T20 | KNOB5 (RESPONSE) OK/NG, 64— 127 —00—64
T21 | KNOB6 (ASSIGN 2) OK/NG, 64—127—00— 64
T22 | PITCH WHEEL OK/NG, 64—127—00—64
T23 | MODULATION WHEEL OK, 0—10-120—127—120-10—0
T24 | FOOT VOLUME ОК, 0—10-120—127—120-10—0
T25 | FOOT CONTROLLER ОК, 0—10-120—127—120-10—0
T26 | FOOT SWITCH OK, off—ON
127 | FACTORY SET OK/NG, Initializing
128 | EXIT (NOISE LEVEL) OUTPUT(L, R): less than -83.0 dBm (10k Q load)
| PHONES(L, R): less than -90.0 dBm (33 © load)
Measuring instruments listed below are required to perform the tests;
frequency counter, oscilloscope and AC voltmeter (with JIS-C filter and flat filter), keyboard
amplifier
CS1x
29
A. HOW TO ENTER THE TEST PROGRAM
Turn on the power switch of the CS1x while
pressing the [0] switch, press and hold the [-]
switch then the [ENTER] switch.
The CS1x will indicate that you have entered
the test program by displaying the following
message. |
Test Mode
ER 4
After a while the following display will appear.
01 RAM
Use the [PROGRAM-], [PROGRAM+], [ENTER]
or [PERFORMANCE] panel switches to select
the test mode.
B. PROCEEDING THROUGH THE TESTS
When you enter the test program, the following
display will appear.
01 RAM
Use the [PROGRAM+], [PROGRAM],
[ENTER] or [PERFORMANCE] panel switches
to move through the various tests of the test
program.
Pressing:
[PROGRAM+] will execute the test which
follows the current test.
[PROGRAM-] will execute the test which
precedes the current test.
[ENTER] will execute the currently selected
test. |
[PERFORMANCE] will exit the test mode.
C. TEST SELECTION WHEN AN ERROR IS
DETECTED
In each of the tests, if an NG (No Good) error is
detected, pressing the [PERFORMANCE] will
make the CS1x wait for the entry of a test
number. You can then retry the test or
perform another test.
D. INITIALIZING
Turn on the power switch of the CS1x while
pressing the [7] switch, press and hold the [8]
switch then the [9] switch.
The CS1x will initialize the memorized data.
T1. RAM TEST
01: RAM R/W
~ Performs a read/write/verify test of RAM.
DISPLAY OF TEST RESULTS
OK 01: RAM R/W
OK
NG 01: RAM R/W
NG |
TEST END
Ends after displaying the results.
data is preserved. |
All RAM
T2. RAM BACKUP BATTERY TEST
02: BATTERY
This test checks that the voltage of the RAM
backup battery is greater than 2.8 у and less
than 3.6 V.
DISPLAY OF TEST RESULTS
OK | 02: BATTERY
OK
NG | 02: BATTERY
NG
TEST END *
Ends after displaying the test results.
TN
ZN
T3. LCD TEST |
Check that all dots of the LCD turn ON/OFF.
TEST END
Press [ENTER] to end the test and the test will
proceed to the next test.
TA. PANEL SWITCH/LED TEST
04: SW LED
Scene?
Press the panel switches consecutively from the
[SCENE2] switch to switch [EDIT SW-10]
located on the most right of the panel, according
to the order indicated by the LCD. |
Check that each LED lights up while the
appropriate switch is pressed.
04: SW LED _
Scene?
(e.g. When checking [SCENE2])
If the [SCENE2] or [SCENE1] switch is OK, the
LED will light up and a beep will sound and you
should proceed to test the next switch.
During these switches test, when the CSlx
detect the switch-off event of another switch,
the LED will turn off and the beep will stop.
If the wrong switch is pressed, an unexpected
code is detected, and the CS1x will stop at that
stage. At this time, if the correct switch is
pressed then the proper code is received, you
will then be able to proceed to test the next
switch. |
The display will indicate OK, if all switches are
good. a
DISPLAY OF TEST RESULTS
OK 04: SW LED
OK
NG (No change in display message)
TEST END
When switch [EDIT SW] is pressed, OK is
displayed and the test will end.
CS1x
T5. MIDI TEST
05: MIDI
After connecting the MIDI IN to the MIDI OUT
via a MIDI cable, execute the test.
DISPLAY OF TEST RESULTS
OK [ 05: MIDI
ок
NG | 05: MIDI
NG
TEST END
Press [ENTER] to end the test and the test will
proceed to the next test.
T6. HOST SELECT SWITCH TEST
06: HST SEL
Mac
If the [HOST SELECT] switch has been set at
[Mac] position, set the switch at the other
position and return it to [Mac] position again.
Switch the [HOST SELECT] from [Mac] to
[MIDI], according to the order indicated by the
LCD.
If the switch is OK, a beep will sound.
DISPLAY OF TEST RESULTS
OK 06: HST SEL
0K
NG (No change in display message)
TEST END
If the switch is OK at all positions, OK is
displayed and the test will end.
30
CS1x
31
T7. TO HOST TEST
07: TO HOST
This test 1s utilized by the factory and it is not
intended for field service use. -
When the test enters this test, the LCD will
display NG. You press [PERFORMANCE], then
use [PROGRAM+] and [PROGRAM-] switches
to select another test.
T8. WAVE ROM TEST
08: WAVE ROM
Performs a read test of WAVE ROMs.
DISPLAY OF TEST RESULTS
OK | 08: WAVE ROM
OK
NG 08: WAVE ROM
NG
TEST END
Ends after displaying the results.
T9. 1k Hz SOUND OUTPUT (OUTPUT L)
TEST | |
09: OUT L
Check that the correct signal is output from
OUTPUT L and PHONES (L) jacks.
Insert the appropriate phone plugs into each
output jack and check OUTPUT L, OUTPUT R
and PHONES(L/R) outputs. If necessary,
verify the frequency, output waveform and
output level of each output using a frequency
counter, oscilloscope and AC voltmeter (with
JIS-C filter). The VOLUME control must be
set at maximum for these checks. While
sounding, the LCD will display the following
message:
09: OUT L
Doing
Listed below are the specifications and
conditions of each output during this test.
OUTPUT L: 1k Hz +1.5 Hz, sine wave, +5.0
+2 dBm (10k ohm load)
OUTPUT R: less than -70 dBm (10k ohm load)
PHONES(L): 1k Hz +1.5 Hz, sine wave, -1.8
+2 dBm (33 ohm load)
PHONES(R): less than -60 dBm (33 ohm load)
TEST END
Press [PERFORMANCE] to end the test. After
pressing [PERFORMANCE], the sound will stop
and the CS1x will wait for the entry of a test
number. - |
If you press [PROGRAM+], then the sound will
stop and the test will proceed to the next test.
T10. 1k Hz SOUND OUTPUT (OUTPUT R)
TEST
10: OUT R
Check that the correct signal is output from
OUTPUT R and PHONES(R) jacks.
Insert the appropriate phone plugs into each
output jack and check OUTPUT L, OUTPUT R
and PHONES(/R) outputs. If necessary,
verify the frequency, output waveform and
output level of each output using a frequency
counter, oscilloscope and AC voltmeter (with
JIS-C filter). The VOLUME control must be
set at maximum for these checks. While
sounding, the LCD will display the following
message:
10: OUT R
Doing
Listed below are the specifications and
conditions of each output during this test.
OUTPUT L: less than -70 dBm (10k ohm
load) |
OUTPUT R: 1k Hz +1.5 Hz, sine wave, +5.0
+2 dBm (10k ohm load)
PHONES(L): less than -65 dBm (33 ohm load)
PHONES(R): 1k Hz +1.5 Hz, sine wave, -1.8
+2 dBm (33 ohm load)
ZN
AT,
TEST END
Press [PERFORMANCE] to end the test. After
pressing [PERFORMANCE], the sound will stop
and the CSIx will wait for the entry of a test
number.
If you press [PROGRAM], then the sound will
stop and the test will proceed to the next test.
T11. EQ SOUND OUTPUT (HIGH) TEST
11: EQ LOW
Check that the correct signal is output from
each output jack. | |
If necessary, verify the output level of each
‘output using an oscilloscope and AC voltmeter
(with a flat filter). The VOLUME control must
be set at maximum for these checks. While
sounding, the LCD will display the following
message:
11: EQ LOW
Doing
Listed below are the specifications and
conditions of each output during this test.
OUTPUT L: +15 £1 dB with the level
measured in the test 9, "SOUND
OUTPUT TEST (OUTPUT L)" as
a reference
OUTPUTR: +15 = 1 dB with the level
measured in the test 10, "SOUND
OUTPUT TEST (OUTPUT R)" as
a reference
TEST END a
Press [PERFORMANCE] to end the test. After
pressing [PERFORMANCE], the sound will stop
and the CS1x will wait for the entry of a test
number.
If you press [PROGRAM+], then the sound will
stop and the test will proceed to the next test.
T12. EQ SOUND OUTPUT (LOW) TEST
12: EQ High
Check that the correct signal is output from
each output jack.
If necessary, verify the output level of each
output using an oscilloscope and AC voltmeter
(with flat filter) The VOLUME control must .
be set at maximum for these checks. While
sounding, the LCD will display the following
message:
12: EQ High
Doing
Listed below are the specifications and
conditions of each output during this test.
OUTPUT L: +2.0 + 1 dBm with the level
measured in the test 9, "SOUND
OUTPUT TEST (OUTPUT L)" as
a reference
OUTPUT R: +2.0 + 1 dBm with the level
| measured in the test 10, "SOUND
OUTPUT TEST (OUTPUT R)" as
a reference
TESTEND —
Press [PERFORMANCE] to end the test. After
pressing [PERFORMANCE], the sound will stop
and the CS1x will wait for the entry of a test
number.
If you press [PROGRAM], then the sound will
stop and the test will proceed to the next test.
T13. KEYBOARD TEST |
13: KEYBOARD
Play a scale on the keyboard from C1 to Ce.
13: KEYBOARD
G#3
(e.g. in the case of G#3)
If the key switch is ok, the note will sound and
you should proceed to play the next key. If you
play the wrong key, the sound of that note will
not be heard. However, if the right key is played
following the playing of the wrong key, then the
note for that key will sound. You can then
proceed to play the next key. If all key switches
are good then OK will be displayed on the LCD.
CS1x
32
CS1x
33
DISPLAY OF TEST RESULTS
OK 13: KEYBOARD
0K |
NG (No change in display message)
TEST END
When you play the C6 key and OK is displayed,
the test will end.
T14. EFFECT DRAM TEST
14: FX DRAM
Check that the correct signal is output from the
OUTPUT L jack. |
If necessary, verify the output level of the
output using an oscilloscope and AC voltmeter
(with JIS-C filter). The VOLUME control must
be set at maximum for these checks. You
should measure the output at least two (2)
seconds. While sounding, the LCD will display
the following message:
14: FX DRAM
Doing
Listed below are the specifications and
conditions of each output during this test.
OUTPUT L: 1k Hz +3 Hz, sine wave, +5.0 +
2 dBm (10k ohm load)
TEST END
Press [PERFORMANCE] to end the test. After
pressing [PERFORMANCE], the sound will stop
and the CS1x will wait for the entry of a test
number.
If you press [PROGRAM+], then the sound will
stop and the test will proceed to the next test.
T15. 32 CHANNEL OUTPUT TEST
15: 32ch0UT
Check that the correct signal is output.
If necessary, verify the output level of each
output using an oscilloscope and AC voltmeter
(with JIS-C filter). The VOLUME control must
be set at maximum for these checks. While
sounding, the LCD will display the following
message:
15: 32chOUT
XX YY
(where xx is currently output channel from L
channel and yy is from R channel)
Check that the correct signals of 1k Hz, sine
wave output from L channel, and 2k Hz, sine
wave output from R channel.
TEST END
Press [PERFORMANCE] to end the test. After
pressing [PERFORMANCE], the sound will stop
and the CS1x will wait for the entry of a test
number.
If you press [PROGRAM], then the sound will
stop and the test will proceed to the next test.
T16. KNOB 1 (ATTACK) TEST
16: Knobl xxx
064
(where xxx = current KNOB 1 value)
According to the target value displayed on the
LCD, slowly rotate the KNOB 1.
Check that the value changes from 64 to 127
then to 00 and back to 64 (in other words, center
to top then to bottom and back to center).
16: Knobl xxx
yyy
(where xxx = current KNOB 1 value and yyy =
next target value)
DISPLAY OF TEST RESULTS
OK 16: Knobl xxx
| OK
NG (No change in display message)
TEST END
Ends after displaying the results.
T17. KNOB 2 (RELEASE) TEST
T18. KNOB 3 (ASSIGN 1/DATA) TEST
T19. KNOB 4 (CUTOFF) TEST |
T20. KNOB 5 (RESONANCE) TEST
T21. KNOB 6 (ASSIGN 2) TEST |
These tests can be performed in the same
manner as the test 16, "KNOB 1 (ATTACK)
TEST. "
T22. PITCH WHEEL TEST
22: P.B xxx
000
(where xxx = current PITCH bend value)
“ According to the target value displayed on the
LCD, slowly move the PITCH bend wheel.
Check that the value changes from 64 to 127
then to 00 and back to 64 (in other words, center
to top then to bottom and back to center).
22: P.B xxx
yyy
(where xxx = current PITCH bend value and yyy
= next target value)
DISPLAY OF TEST RESULTS
OK 22: Р.В xxx
OK
NG (No change in display message)
TEST END
Ends after displaying the results.
T23. MODULATION WHEEL TEST
23: MW xxx
000 |
(Where xxx = current value of MODULATION
wheel)
According to the target value displayed on the
LCD, slowly move MODULATION wheel.
Check that the value changes from 00 to 127
and back to 00 (in other words, from bottom to
top then back to the bottom).
CS1x
23: M W xxx
yyy |
(where xxx = current value of MODULATION
Wheel, yyy are the next target value)
DISPLAY OF TEST RESULTS
OK 23: MW xxx
OK
NG (No change in display message)
TEST END
Ends after displaying the results.
T24. FOOT VOLUME TEST
24: F. Vol xxx
000
(where xxx = current value of FOOT VOLUME)
According to the target value displayed on the
LCD, slowly move FOOT VOLUME.
Check that the value changes from 00 to 127
and back to 00 (in other words, starting from
the raised position then to the lowered position
and back to then raised position).
24: F. Vol xxx
yyy
(where xxx = current value of FOOT VOLUME,
yyy are the next target value) |
DISPLAY OF TEST RESULTS
OK | 24: F. Vol xxx
OK
NG (No change in display message)
TEST END
Ends after displaying the results.
T25. FOOT CONTROLLER TEST -
25: F. Cont xxx
000
(where xxx = current value of FOOT
CONTROLLER)
34
CS1x
35
According to the target value displayed on the
LCD, slowly move FOOT CONTROLLER.
Check that the value changes from 00 to 127
and back to 00 (in other words, starting from
the raised position then to the lowered position
and back to then raised position).
25: F. Cont xxx
y y Y
(where xxx = current value of FOOT
CONTROLLER, yyy are the next target value)
DISPLAY OF TEST RESULTS
OK 25: F. Cont xxx
OK
NG (No change in display message)
TEST END
Ends after displaying the results.
T26. FOOT SWITCH TEST
26: F. SW off
ON
Connect a foot switch and press it on and off.
Check that the display on the LCD changes
from off to ON then back to off and verify that
the OK result is displayed.
26: F. SW xxx
y Y y |
(Where xxx = current condition of FOOT
SWITCH, yyy are the next target position)
DISPLAY OF TEST RESULTS
OK 26: F. SW of f
OK
NG (No change in display)
TEST END
Ends after displaying the results.
T27. FACTORY SETTINGS
27: FACTORY
VOLUME KNOB
This test is used to initialize the data to the
factory settings.
H you press [ENTER], the factory preset data
will be restored, and the test will then end.
After the factory preset data has been restored,
the system data will be as follows:
SYSTEM SETUP
MASTER TUNE +0 (cent)
- MASTER VOLUME | 127
TRANSPOSE +0
MIDI PERFORMANCE RECEIVE CHANNEL 1
MIDI DEVICE NUMBER ALL
SOUND MODULE MODE PFM
KEYBOARD TRANSPOSE | +0
KEYBOARD VELOCITY CURVE NORMAL
KEYBOARD FIX VELOCITY OFF
KEYBOARD VELOCITY TRANSMIT CHANNEL 1
MIDI LOCAL ON
MW CONTROL NUMBER 1
FC CONTROL NUMBER 16
FV CONTROL NUMBER 17
KNOB1 CONTROL NUMBER 74
KNOB2 CONTROL NUMBER, 71
KNOB3 CONTROL NUMBER | 73
KNOB4 CONTROL NUMBER 72
KNOB5 CONTROL NUMBER 11
KNOB6 CONTROL NUMBER 18
FOOT SWITCH CONTROL NUMBER 64
SCENE CONTROLLER MW
SCENE MODE OFF
USER PERFORMANCE
The 128 user performance data of the factory
preset data will be restored.
FACTORY PREST MODE & PERFORMANCE
NUMBER
MODE PERFORMANCE MODE
PERFORMANCE NUMBER PRESET 1
You should set the performance number to
preset 1 after setting sound control knobs at the
positions listed below.
AEG ATTACK KNOB CENTER
AEG RELEASE KNOB CENTER
FILTER CUTOFF KNOB CENTER
FILTER RESONANCE KNOB CENTER
ASSIGNABLE KNOBI CENTER
ASSIGNABLE KNOB? CENTER
EDIT PARAMETER SELECT KNOB MOST TOP
MINIMUM
PITCH BEND WHEEL CENTER
MODULATION WHEEL MINIMUM
HOST SELECE SWITCH | MIDI
T28. EXIT TEST PROGRAM
28: EXIT
To exit the test program mode, press the
[ENTER] switch.
After exiting the test, measure the noise level of
each output without turning on any key of the
keyboard.
While measuring the noise level, use an AC
voltmeter (with JIS-C filter).
OUTPUT-L: less than -83 dBm (10k Q load)
OUTPUT-R: less than -83 dBm (10k Q load)
PHONES-L:: less than -90 dBm (33 © load)
PHONES-R: less than -90 dBm (33 Q load)
CS1x
36
CS1x
E ERROR MESSAGES
The following messages may appear during operation, indicating problems or incorrect operation. Follow the instructions in
the explanations below to remedy the problem.
Battery Low
The memory-backup battery is low; memory cannot be backed up.
Device No.=off Error
Cannot send/receive MIDI bulk data since the Device Number is set to off.
Device Number Error
Cannot send/receive MIDI bulk data, due to improper Device Number setting. Match the device numbers for both the CSix
and the external device. | |
TG-B Mode Error
When TG300B mode is accidentally selected by receiving a TG3008B reset message from an external device, you cannot
perform edit operations. Press PERFORMANCE or MULTI button to exit the TG3008 mode.
Receiving
Displays when the CS1x receives the bulk data with the compatible format. Continue normal operation.
Rx Mode Error
Displays when receiving Performance bulk data in Multi Play mode or XG effect bulk in Performance mode.
Battery Low
AMANDO 77 Y HUFILNY TU OEED FH ofc LFICHRRINT TD,
Device No.=off Error
FINA AF ЛЕО, JULIT— —IDERENTEWDOTEEMUTNES.
Device Number Error
TIM AH DU TUE, JVI TF—I DREN TEED EC EXmRLTWES, АРК ВЕ
TEBEEPOEBULTLES |
TG-B Mode Error
ZIVFE-FO, (ABRESZEE TAO 77 —928ELIDLTHETE300BE-— EDEIÍNTCRD. I7496
MEBEDTENE LL Z E mL TLES, MULTIDPERFORMANCEF—-2HUT. TG300BE— FDSkIIT<TAL»
Receiving
BETEBRT4— VY MDIULOTF—I BEZEL EE. BRDELDT— RRABHIRREINT TFT, TOTEERFEIIT
STEEL
Rx Mode Error
NILFE— FCI — OI ERBLTC E, DA —7YRE= FOXCOTIII NLIESMEUREEN
RM NET,
37
E MIDI DATA FORMAT
Many MIDI messages listed in the MIDI Data Format section are expressed ín hexadecimal or binary numbers. Hexadecimal numbers may
include the letter "H” as a suffix. The Jetter "n” indicates a certain whole number.
The chart below lists the corresponding decimal numbers for each hexadecimalbinary number.
1
0010
0000 11
0100
1
0000 0110
1
1000
0000 1
0000 1010
1
0000 1100
0000 111
11
0001
9001
1
0911
101
1 011
1 0111
0001
0001 1
+ 1011
111
111
0010 0101
0
10 0111
0
0010 1111
Additional Notes
* For example, 144 - 159(Decimal)/9nH/1001 0000 - 1001 1111cBinary) indicate the note-on messages for the channels 1 through 16
respectively. 176 - 191/BnH/t01)1 0000 - 1011 1111 indicate the control change messages for the channels | through 16 respectively. 192
207/CnH/1 100 0000 - 1100 1E11 indicate the program change messages for the channels | through 16 respectively. 240/FOH/ 1111 0000 is
positioned at the beginning of data te indicate a system exclusive message. 247/F7H/I111 Ol is positioned at the end of the system
exclusive message. -
* aaH(Hexadecimal)/Qaaaaaza( Binary) indicates the data addresses. The data address consists of High. Mid and Low.
- bbH/0bbbbbbb indicates byte counts.
* ccHAkececce indicates tcheck sums.
- ddHAkidddddd indicates data/value.
Synthesizer Section
(1) TRANSMIT FLOW
swl
MIDI<-{]-+---NOTE ON/OFF
QUT
[]-
+---CONTROL CHANGE
| BANK SEL MSB
| BANK SEL LSB
| MODULATION
| EXPRESSION
| FOOT CONTROLLER
| SUSTAIN SWITCH
| HARMONIC CONTENT
| RELEASE TIME
] ATTACK TIME
| BRIGHTNESS
| ASSIGNABLE
|
+---PROGRAM CHANGE
+---PITCH BEND CHANGE
+---SYSTEM EXCLUSIV MESSAGE
| <BULK DUMP>
XG SYSTEM
|-1SW3]- MULTI EFFECT
|-[SW5]- MULTI PART
DRUM SETUP
|------- SYSTEM INFOMATION
USER PERF .COMMON
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
{
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
+---
USER PERF.LAYER
|-[SW4]- CURRENT PERFORMANCE
CS1x SYSTEM
| <PARAMETER CHANGE>
MIDI MASTER TUNING
XG SYSTEM
| -{SW3]- MULTI EFFECT
|-1SW51- MULTI PART
DRUM SETUP
USER PERF .COMMON
USER PERF, LAYER
[-(SW4]- CURRENT PERFORMANCE
CS1x SYSTEM
--- SYSTEM EXCLUSIV MESSAGE
MIDI MASTER VOLUME
+
|
| IDENTITY REPLY
|
+
--- ACTIVE SENSING
MIDI Transmit Channel (Depends on Keyboard Transmit Channel in Utility Mode).
MIDI Device Number (When Device Number is “All”, Transmit Channel is 1).
Multi Mode
Performance Mode
Parts 5 through 16 in Performance Mode, or Multi Mode
(2) RECEIVE FLOW
sws
MIDI>-+-i]-
IN | |
e |
| sw?
[-{]-+--- NOTE OFF
|
+--- NOTE ON/OFF
+--- CONTROL CHANGE
J BANK SEL MSB
| BANK SEL LSB
| MODULATION
| PORTAMENTO TIME
} DATA ENTRY MSB
| DATA ENTRY LSB
| MAIN VOLUME
| РАМРОТ
| EXPRESSION
! FOOT CONTROLLER
| SUSTAIN SWITCH
| PORTAMENTO SWITCH
| SOSTENUTO
| SOFT PEDAL
| HARMONIC CONTENT
| RELEASE TIME
| ATTACK TIME
| BRIGHTNESS
| PORTAMENTO CONTROL
| REVERB DEPTH
| CHORUS DEPTH
| VARIATION DEPTH
| DATA ENTRY INC
| DATA ENTRY DEC
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
ASSIGNABLE CONTROLLER
NRPN
VIBRATO RATE
VIBRATO DEPTH
VIBRATO DELAY
FILTER CUTOFF FREQ.
FILTER RESONANCE
AEG ATTACK TIME
AEG DECAY TIME
AEG RELEASE TIME
DRUM INST
CUTOFF FREQ.
FILTER RESONANCE
AEG ATTACK RATE
AEG DECAY RATE
PITCH COARSE
LEVEL
PANPOT
REVERB SEND
8nH
3nH
BnH, 00H
BnH, 20H
BnH, 01H
BnH, 05H
BnH, 06H
BnH, 26H
BnH, 07H
BnH, OAH
BnH, OBH
BnH, 10H
BnH, 40H
BnH, 41H
BnH, 42H
BnH, 43H
BnH, 47H
BnH, 48H
BnH, 49H
BnH, 4AH
BnH, 54H
BnH, SBH
BnH, SDH
BnH, SEH
BnH, 60H
BnH, 61H
BnH, 00H. .5FH
BnH, 63H, 01H, 62H, 08H, 06H, mmH
BnH, 63H, 01H, 62H, 09H, 06H, mmH
BnH, 63H, 01H, 62H, DAH, 06H, mmH
BnH, 63H, 01H, 62H, 20H, 06H, mmH
BnH, 63H, 01H, 62H, 21H, 06H, mmH
BnH, 63H, 01H, 62H, 63H, 06H, mmH
BnH, 63H, 01H, 62H, 64H, 06H, mmH
BnH, 63H, 01H, 62H, 66H, 06H, mm
BnH, 63H, 14H, 62H, rrH, 06H, mm
BnH, 63H, 19H, 62H, rrH, 06H, mmH
EnH, 62H, 16H, 62H, rrH, 06H, mmH
EnH, 63H, 17H, 62H, r£H, 06H, mn
BnH, 63H, 18H, 62H, rrH, 06H, mmH
EnH, 63H, 1AH, 62H, rrH, 06H, mmH
BnH, 63H, 1CH, 62H, rrK, 06H, mH
BnH, 63H, 1DH, 62H, rrH, O6H, mmH
CS1x
"a...
...….
aoe
"....
EER
F?H
F?H
F7H
F7H
F7H
F7H
F7H
FIH
F7H
9nH
BnH, 00H
BnH, 20H
BnH, 01H
BnH, 0BH
BnH, 10H
BnH, 40H
BnH, 47H
BnH, 48H
BnH, 494
BnH, 4AH
BnH, 00K. ..5FH
CnH
En}
FOH 43H OnH 4CH bbH bbH aaH aaH aaH ddM
FOH 43H OnH 4CH bbH bbH aaH aaH aaH ddH
РОН 43H OnH 4CH bbH bbH aaH aaH aaH ddH
FOH 43H OnH 4CH bbH bbH aaH aaH aaH ddH
FOH 434% 1nH 4CH bbH bbH aad aaH aaH ddH
РОН 43H OnH 4BH bbH bbH 70H aaH aaH ddH
FOH 43H OnH 4BH bbH bbH 71H aaH aaH ddH
FOH 434 Onk dBH hhH hbH 60H 01H aaH dd
FOH 43H OnH 4BH bbH bbH S0H aaH aaH dd
FOR 43H loH 27H 30H 00H 00H mmH 11H ccH
FOH 43H inH 4CH aaH aaH aaH ddH.....ddH
FOH 43H 1nH 4CH aaH aaH aaH ddH..... «ан
FOH 43H 1nH 4CH aaH aaH aaH ddH..... дан
FOH 43H InH 4CH aaH aaH aaH ddH..... ван
FOH 43H 1nH 48H JOH aaH aaH ddH.....ddH
FOH 43H 1nH 4BH 71H aaH aaH ddH..... ddH
FOH 43H InH 4BH 60H 01H aaH ddH..... ddH
FOH 43H 1nH 4BH 50H aaH aaK дан..... ddH
FOH 7FH 7FH 04H 01H 11H mmH F7H
FOH 7EH 7FH 06H 02H 43H 00H 41H ddH ddH
DOH 00H OOH 01H F7H
FEH
ccH
сен
сен
ccH
F7H
F7H
F7H
F7H
F7H
F7H
F7H
F?H
38
CS1x
| | CHORUS SEND BnH, 63H, 1EH, 62H, rrH, 06H, mmH (3-1-3) PROGRAM CHANGE
| | VARIATION SEND BnH, 63K, 1FH, 62H, rrH, 06H, mmH STATUS 1100nnnn (CnH) п = 0 - 15 VOICE CHANNEL NUMBER
| | RPN PROGRAM NUMBER Oppppppp р = 0 - 127
l | PITCH BEND SENS. BnH, 64H, 00H, 65H, 00H, C6H, mmH
] | FINE TUNING BnH, 64H, 01H, 65H, 00H, G6H, mmH, 26H, 11H * The Program numbers correspond to the XG Drum Voice numbers as follows:
{ | COARSE TUNING BnH, 64H, 024, 65H, 00H, O6H, mmH
i | RPN RESET BnH, 64H, 7FH, 65H, 7FH P=1 DR1 Standard
i | ALL SOUNDS OFF BnH, 78H, 00H Р= 2 DR2 Standard?
| | RESET ALL CONTROLLERS BnH, 79H, 00H P=29 DR3 Room
| | ALL NOTES OFF BnH, 78H Р = 17 DR4 Rock
| | OMNI MODE OFF BnH, 7CH P = 25 DRS Elctrnic
| | OMNI MODE ON BnH, 7DH P = 26 DR6 Analog
| | MONO MODE BnH, 7EH P = 33 DR7 Jazz
| | POLY MODE Ван, 7РН р = 41 DRE Brush
| | P = 49 DRY Classic
| +--- PROGRAM CHANGE CnH
| | *The Program numbers correspond to the XG SFX Kit numbers as follows:
{ +--- CHANNEL AFTER TOUCH Рак
| | Pal DR10 SFX1
| | +--- PITCH BEND CHANGE EnH P = 2 DR11 SFX2
sw2
-{]-+--- SYSTEM EXCLUSIV MESSAGE When receiving a drum voice program change message while a drum voice is currently selected. the drum setup data will be reset to the
<BULK DUMP> new data.
esse XG SYSTEM FOH 43H OnH 4CH bbH bbH aaH aaH aaH ddH.....ddH ccH F7H :
- [SW3]- MULTI EFFECT FOH 43H OnH 4CH bbH bbH aaH aaH aaH ddH..... ddH ccH FTH |
- [SW)- MULTI PART FOH 43H OnH 4CH bbH bbH aaH aaH aaH ddH..... ddH ccH F7H : (3-1-4) CHANNEL AFTER TOUCH(Receive only)
> DRUM SETUP FOH 43H OnH 4CH bbH bbH aaH aaH aaH ddH.....ddH ccK F?H : STATUS 1101nann (DnH) п = 0 - 15 VOICE CHANNEL NUMBER
| | |------- USER PERF.COMMON FOH 43H OnH 4BH bbH bbH 70H aaH aaH ddH..... ddH ccH F7H VALUE Олли v = 0 - 127 AFTER TOUCH VALUE
E |------- USER PERF.LAYER FOH 43H OnH 48H bbH bbH 71H aaH aaH ddH..... ddH ccH F7H
- [SW4]- CURRENT PERFORMANCE FOH 43H OnH 4BH hhH hbH 60H O1H aaH ddH..... ddH ccH FTH
>. CSIx SYSTEM FOH 43H OnH 4BH bbH bbH 50H aaH aaH ddH.....ddH ccH F7H (3-1-5) PITCH BEND CHANGE
<PARAMETER CHANGE>
ooo MIDI MASTER TUNING FOH 43H 1nH 27H 30H OOH 00H mmH llH сен F7H vus Y TEDA CERA) rer END NTE Ta NUMBER
2 XG SYSTEM ON FOH 43H 1nH 4CH 00H OOH 7EH OOH F7H VEB АЛ PITCH BEND CHANGE MCB
ee XG SYSTEM FOH 43H 1nH 4CH aaH aaH aaH ddH.....ddH F7H
- [SW3]- MULTI EFFECT FOH 43H inH 4CH aaH aaH aah ddH..... ddH F7H Transmitted with a resolution of 7 bits
- [SW5]- MULTI PART РОН 43H 1nH 4CH aaH aaH aaH ddH..... ddH F7H ы
no DRUM SETUP FOH 43H 1nH 4CH aaH aaH aaH ddH.....ddH F7H
----=-- USER PERF . COMMON FOH 43H InH 4BH 70H aaH aaH ddH.....ddH F7H
------< USER PERF.LAYER FOR 43H inH 4BH 71H aaH aaH ddH..... adH F7H (3-1-6) CONTROL CHANGE
-{5W4]- CURRENT PERFORMANCE FOH 43H InH 4BH 60H 01H aaH ddH..... дан F7H : STATUS 1011nnnn (BnH) n = 0 - 15 VOICE CHANNEL NUMBER
=-=---- CS1x SYSTEM FOH 43H 1nH 4BH SOH aaH aaH ddH.....ddH F7H CONTROL NUMBER + Occccccc
<BULK DUMP REQUEST> : CONTROL VALUE Ovvvvvvv
=——.— XG SYSTEM FOH 43H 2nH 4CH aaH aaH aaH F7H
- [SW3]- MULTI EFFECT FOH 43H 2nH 4CH aaH aaH aaH F7H
|-(SW5]- MULTI PART FOH 43H 2nH 4CH aaH aaH aaH F7H * TRANSMITTED CONTROL NUMBERS
o. DRUM SETUP FOH 43H 2nH 4CH aaH aaH aaH F7H : ¢=0 BANK SEL MSB i V = 0:XG NORMAL,
------- SYSTEM INFOMATION FOH 43H 2nH 4CH aaH aaH aaH F7H 63:USER/PRESET PERFORMANCE,
=== n USER PERF .COMMON FOH 43H 2nH 4eH 70H aaH aaH F7H 64:5FX NORMAL,
a USER PERF.LAYER FOH 43H 2nH 4BH 71H aaH aaH F7H 126:XG SFX KIT,
- [SW4]- CURRENT PERFORMANCE РОН 43H 2nH 4BH 60H О1Н aaH F7H 127:XG DRUM ,
nn CS1x SYSTEM FOH 43H 2nH 4BH 50H aaH 'aaH F7H с = 3? ation ; y = 9 - 1 3
<PARAMETER REQUEST> = "y =0-
nn. XG SYSTEM РОН 43H 3nH 4CH aaH aaH aaH F7H e=1l EXPRESSION ; v = 0- 127 ,
- [SW3]- MULTI EFFECT FOH 43H JnH 4CH aaH aaK aaH F7H с = 16 FOOT CONTROLLER ; v = 0 - 127 2
„{SW3]- MULTI PART РОН 43H 3nH 4CH aaH aa aaH FJH с = 64 SUSTAIN SWITCH : v = 0-63:0FF , 64-127:0N . 2
-[6W]- DRUM SETUP FOH 43H 3nH 4CH aaH aa! aa FH c=7 HARMONIC CONTENT : v = 0:-64 - 64:0 - 127:463 , 2
o USER PERF.COMMON FOH 43H 3nH 4BH 70H aaH aaH F7H с = 72 RELEASE TIME ;w= 0:-64 - 64:0 - 127:+63 "2
EE USER PERF .LAYER FOH 43H 3nH 4BH 71H aaH aaH F7H e= 73 ATTACK TIME : v = 0:-64 - 64:0 - 127:+63 "2
-(SW4]- CURRENT PERFORMANCE FOH 43H 3nH 4BH 60H OlH aaH F7H c=74 BRIGHTNESS : Y = 0:-64 - 64:0 - 127:+63 "2
no. CS1x SYSTEM FOH 43H 3n4 48H 50H aaH aaH F7H с = 00..95 ASSIGNABLE CONT :v 50-127 *2
----+--- SYSTEM EXCLUSIV MESSAGE * RECEIVED CONTROL NUMBERS
GM MODE ON РОН 7EH 7FH 09H 01H FIH : се 0 BANK SEL MSB ; v = O:XG NORMAL,
MIDI MASTER VOLUME РОН 7FH 7FH 04H 01H 11H mmH F7H : 63:USER/PRESET PEROFRMANCE/VOICE,
| IDENTITY REQUEST FOH 7EH OnH 06H O1H F7H : WER Roh
| : - '
Ee +--- SYSTEM EXCLUSIV MESSAGE : cn BANK SEL LSB о tas DRUM 3
{~~~ PARAMETER CHANGE : : = PV EUs
| TEST ENTRY FOH 43H 10H 18H SAH OOH Е7Н c= 1 MODULATION ; v = 0- 127 "2
| LCD HARD COPY FOH 43H 10H 18H SAH OlH F7H : с = 5 PORTAMENTO TIME вм = 0 - 123 *2
| : c= 6 DATA ENTRY MSB ; м = 0 - 127 “1
+... ACTIVE SENSING FEH : c = 38 . DATA ENTRY LSB : v=0-0127 *}
: c= 7 MAIN VOLUME ; v = 0 - 127
SW2 [] MIDI Device Number : e=10 PANPOT р мо= 0 - 127
SW3 [] Multi Mode c= 11 EXPRESSION ; v=0-127 ;
5W4 [] Performance Mode : c = 16 FOOT CONTROLLER ; м = 0 - 127 *2
$85 [] arts 5 through 16 in Performance Mode, or Multi Mode : c = 64 SUSTAIN SWITCH : V = 0-63:0FF , 64-127:0N *2
SW6 [| Receive Filter c = 65 PORTAMENTO SWITCH ; v = 0-63:0FF , 64-127:0N | +2
"1 Only when the drum is selected for the Part. : c = 66 SOSTENUTO : V = 0-63:0FF , 64-127:0N LS “2
SW? {] MIDI Receive Channel (In Performance Mode, depends on the Receive Channel in Utility Mode. : с = 67 SOFT PEDAL iv = 0-63:0FF , 64-127:0N *а
: : с = 71 НАВМОМТС СОМТЕМТ : v = 0:-64 - 64:0 - 127:+63 *2
с = 72 RELEASE TIME ;мо= 0:-64 - 64:0 - 127:+63 *2
с = 73 ATTACK TIME : v = 0:-64 - 64:0 - 127::63 *2
(3) TRANSMIT/RECEIVE c= 74 BRIGHTNESS ; v = 0:-64 - 64:0 - 127:+63 *2
с = 84 PORTAMENT CONTROL ; м = @ - 127 *2
(3-1) CHANNEL VOICE MESSAGES с = 91 REVERB DEPTH ; v=0- 127
c = 93 CHORUS DEPTH 7 v = 0 - 127
(3-1-1) NOTE OFF(Receive only) c = 94 VARIATION DEPTH ; v = 0 - 127 (Only when System effect is used)
STATUS 1000nnnn (80H) n = 0 - 15 VOICE CHANNEL NUMBER с = 96 DATA ENTRY INC ; v = 127 | *i
NOTE NUMBER Okkkkkkk k = 0 (C-2) - 127 (GB) с = 37 DATA ENTRY DEC ; v = 127 1
VELOCITY DUTY ignores “v* c = 00..95 ASSIGNABLE CONT ; м = @ - 127 *2
: *1 Used only when assigning the parameter with RPN numbers.
: . т
(3-1-2) NOTE ON/OFF : ; e colocred ER LE ER vu is other than 0 or 63
STATUS 1001nnnn (9nH) n = 0 - 15 VOICE CHANNEL NUMBER : ' '
NOTE NUMBER Okkkkkkk k = 0 (C-2) - 127 (GB): when receiving - 0.1,3.58,12.14.16.17.18,19,20.24.25.27,28,32.33,34,35.36,37,38.39.4U.4[.42.43.45. 64.65.66.67.68.69,70.71.22.96.97,98.99.HW0, or 101 is
К = 36(C1) - 96{C6): when transmitting selected. when the MSB value is 0. |
VELOCITY 0 Eon one ON 127 (GB): selectable when transposed + 6d{ Preset Performance}, 6S(User Performance) or R(Preset Voice) is selected, when the MSB value is 63.
00000000 {v=0) NOTE OFF
* MODULATION is used to control vibrato depth.
* PORTAMENTO TIME sets the time it takes for the pitch to reach the next note played when PORTAMENT SWITCH (CONTROL. #651 is
set 10 on. U is the minimum time and 127 is the maximum.
* PANPOT position relatively changes accordiong to the preset value For each normal/drum voice, Lis not effective fur the sounds currently
played,
- PORTAMENT TIME is fixed to 0 in PORTAMENT CONTROL.
- REYERB DEPTH controls reverb send level. CHORUS DEPTH controls chorus send level, VARIATION DEPTH controls sariation send
level.
* HARMONIC CONTENT adjusts the resonance preset for euch voice, Setting a value adds to or subtragts from the center vafue 64 since 1615
an offset parameter. The larger the value more resonant sound will be produced. The effective singe may be narros er han the range sou can
designate depending on the selected voice.
39
(
* RELEASE TIME adjusts the envelop release time preset for each voice. Setting a value adds to of subtracts from the center value 64 since it
is an offset parameter.
* ATTACK TIME adjusts the envelop attack time preset for each voice. Setting a value adds to or subtracts from the center value 64 since it is
an offset parameter.
* BRIGHTNESS adjusts the cutoff frequency preset for cach voice. Setting a value adds to or subtracts from the center value 64 since it is an
offset parameter. The smaller the value warmer sound will be produced. The effective range may be narrower than the range you can
designate depending on the selected voice,
* When the program change message is received the following operations related to the bank select are actually executed;
Bank select MSB numbers 60H - 7EH function the same as MSBOOH.
Bank selectMSB number is other than 00H, 60H - 7EH or 7FH, Silence will be selected. ,
When the bank select MSB number is 00H, 60H - 7EH or 7FH, and the bank select LSB number is illegal, the input will be ignored.
(3-2) CHANNEL MODE MESSAGES
STATUS 1911nnnn (Bak) n = 0 - 15 VOICE CHANNEL NUMBER
. CONTROL NUMBER Occeecce c = CONTROL NUMBER
CONTROL VALUE Ovvvvvvv v = DATA VALUE
(3-2-1) ALL SOUNDS OFF : (CONTROL NUMBER = 78H , DATA VALUE = 0)
All the sounds currently played including the channel messages such as note-on and hold-on in a certain channel are muted when receiving
this message.
(3-2-2) RESET ALL CONTROLLERS (CONTROL NUMBER = 79H , DATA VALUE = 0)
Resets the values set for the following controllers.
Multi Mode Performance Mode (Other than part5...16)
PITCH BEND CHANGE 0 (Center) <--
AFTER TOUCH 0 (Minimum) o
MODULATION 0 (Minimum) <--
EXPRESSION 127 (Maximum) <--
SUSTAIN SWITCH 0 (Off) <--
SOSTENUTO SWITCH 0 (OfÉ) <--
SOFT PEDAL 0 (Off) <-—
NRPN Net assigned; ne change
RPN Not assigned; no change
PORTAMENT CONTROL Reset . <--
PORTAMENTO SWITCH 0 (DEE) 1 {On}
FOOT CONTROLLER Not reset 0 (Minimum)
VOLUME Not reset 127 (Maximum)
PAN Not reset 64 (No effect)
REVERB DEPTH Not reset 64 (No effect]
CHORUS DEPTH Not reset 64 (No effect)
VARIATION DEPTH Not reset 64 {No effect)
VIBRATO SPEED (NRPN) Not reset 64 (No effect)
VIBRATO DEPTH {NREN) Not reset 64 (No effect}
VIBRATO DELAY (NRPN) Not reset 64 [No effect)
AEG DECAY TIME (NRPN) Not reset 64 [No effect)
(3-2-3) ALL NOTES OFF (CONTROL NUMBER = 7BH , DATA VALUE = 0)
All the notes currently set to on in a certain channel are muted when receiving this message. However, if Hold | or Sostenute is on, notes
will continue sounding until these are turned off.
(3-2-4) OMNI MODE OFF (CONTROL NUMBER = 7CH , DATA VALUE = 0)
Performs the same function as when receiving ALL NOTES OFF.
(3-2-5) OMNI MODE ON (CONTROL NUMBER = 7DH , DATA VALUE = 0)
Performs the same function as when receiving ALL NOTES OFF.
(3-2-6) MONO (CONTROL NUMBER = 7EH , DATA VALUE = 0)
Performs the same function as when receiving ALL SOUNDS OFF.
If the 3rd byte (mono) is within 0 through 16, the channel will be Moded(m = 1).
(3-2-7) POLY © (CONTROL NUMBER = 7FH , DATA VALUE = 0)
Performs the same function as when recciving ALL SOUNDS OFF. The channel will be Mode3.
— (3-3) REGISTERED PARAMETER NUMBER
STATUS 101 1nnnn (BnH) n = 0 - 15 VOICE CHANNEL NUMBER
LSB 01100100 (64H)
RPN LSB Opppeepp Pp = REN LSB{see chart below)
MSB 01100101 (65H)
RPN MSB Ügaqagaa - 4 = RPN MSB(see chart below}
DATA ENTRY MSB 00000110 (06H) В
DATA VALUE Ümmmmmmm m = Data Value
DATA ENTRY LSB 00100110 {26H} -
‚DATA VALUE 01111111 1 = Data Value
First, designate the parameter using RPN MSB/LSB numbers.
Then, set its value with data entry MSB/LSB.
REN D. ENTRY ;
LSB MSB MSE LSB PARAMETER NAME DATA RANGE
00H 00H mmH --- PITCH BEND SENSITIVITYOOH - 18H (0 - 24 semitones)
O1H 00H mmH 11H MASTER FINE TUNE (mmH, 11H) = (00H, 00H) - (40H, 00H) -.
(7FH, 7FH) .
(-8192*100/8192) - 0 - (+8192*100/8192)
02H 00H mmH --- MASTER COARSE TUNE 29H - 40H - 58H (-24 - 0 - +24
semitones)
7EH 7EH --- --- . REN RESET Cancels RPN numbers.
The internal value is not affected.
CS1x
(3-4) NON-REGISTERED PARAMETER NUMBER
STATUS 1011nnnn (BnH} n = 0 - 15 VOICE CHANNEL NUMBER
LSB 01100010 (62H)
RPN LSB Opppreppp p = NRPN LSB(see chart below)
MSB ; 01100011 (63H)
RPN MSB Duqqaqag g = NRPN M5B{see chart below)
DATA ENTRY MSB 0000011
O (06H)
DATA VALUE Oremmmmmm m = Data Value
First, designate the parameter using NRPN MSB/LSB numbers. Then. set its value with data entry MSB/LSB.
NRPN D. ENTRY
MSB LSB MSB LSB PARAMETER NAME DATA RANGE
01H 08H mmH--- VIBRATO RATE 00H - 40H - 7FH (-64 - D - +63)
C1H 09H mmH --- VIBRATO DEPTH OOH - 40H - 7FH (-64 - 0 - +63}
01H OAH mmH --- VIBRATO DELAY 00H - 40H - 7FH (-64 - 0 - +63}
01H 20H mmH --- FILTER CUTOFF FREQUENCY 00H - 40H - 7FH (-64 - 0 - +63)
O1H 21H mmH --- FILTER RESONANCE 00H - 40H - 7FH {-64 - 0 - +63)
01H 63H mmH --- EG ATTACK TIME 00H - 404 - 7EH (-64 - O - +63)
01H 64H mmH --- EG DECAY TIME OOH - 40H - 7FH (-64 - 0 - +63)
01H 66H mmH--- EG RELEASE TIME 00H - 40H - 7FH (-64 - 0 - +63)
14H rrH mmH --- DRUM INST FILTER CUTOFF FREQ. OOH - 40H - 7FH {-64 - D - +63)
15H rrH mmH --- DRUM INST FILTER RESONANCE 00H - 40H - 7FH (-64 - 0 - +63)
16H rrH 1mH --- DRUM INST AEG ATTACK RATE 00H - 40H - 7FH (-64 - 0 - +63)
17H rrH mmH --- DRUM INST AEG DECAY RATE 00H - 40H - 7EH (-64 - 0 - +63]
18H rrH mmH --- DRUM INST PITCH COARSE 00H - 40H - 7FR (-64 - 0 - +63)
19H rrH mmH --- DRUM INST PITCH FINE 00H - 40H - 7EH [-64 - 0 - +63)
1AH rrH mmH --- DRUM INST LEVEL 00H - 7FH [0 - Max)
ICH rrH mmH --- DRUM INST PANPOT 00H ,01H - 40H —- 7FH
(random, left - center - right)
10H rrH mmH --- DRUM INST REVERB SEND LEVEL 00H - 7FH (0 - Max}
ТЕН rrH mmH --- DRUM INST CHORUS SEND LEVEL 00H - 7FH (0 - Max)
1FH rrd mmH --- DRUM INST O0H - 7FH (0 - Max)
VARIATION SEND LEVEL
MSB 14H-1FH{for drum voices) are effective only when the channel is assigned to the drum voice.
mH : drum instrument note number
(3-5) SYSTEM REAL TIME MESSAGES
(3-5-1) ACTIVE SENSING
STATUS 11111110
Transmitted at every 175 msec.
Once this code 15 received, the CS1
{FEH)
x starts sensing. When no status nor data is received for over approximately 350 ms, MIDI receiving
buffer will be cleared, and the sounds currently played and the sustain switch are forcibly turned off. In this case, each control data will he
reset to a certain value.
(3-5-2) TIMING CLOCK(Receive only)
STATUS 11111000
Selects whether the tempo clock of
(F&H)
the Arpeggiator is controlled by internal clock or the timing clock of an external device via MIDI.
(3-6) SYSTEM EXCLUSIVE MESSAGE
(3-6-1) UNIVERSAL NON REALTIME MESSAGE
(3-6-1-1) GENERAL MIDI MODE ON
FOH 7EH 7FH 09H 01H F7H
The following controller values will be reset.
VOLUME
PAN
PROGRAM CHANGE
BANK SELECT MSB
REVERB DEPTH
PITCH BEND CHANGE
MODULATION
EXPRESSION
SUSTAIN SWITCH
SOSTENUTO SWITCH
REN
PORTAMENT CONTROL
MIDI MASTER VOLUME
PITCH BEND SENSITIBITY
FINE TUNING
COURSE TUNING
100
Center
1 (Grandpno)
0
4
D {Center}
0 [Off]
127 (Мах)
0 (Off)
0 (Off)
Not assigned
Reset
127 (Max)
02 {2semitones)
0
0
(3-6-1-2) IDENTITY REQUEST(Receive only)
РОН 7EH OnH 08H 01H F7H
{п = Device No. However, the CSI
x can receive without the device Number setting)
(3-6-1-3) IDENTITY REPLY(Transmit only)
FOH 7EH 7FH Q6H 02H 43H O
dd; Device Number Code CSIx:10
0H 41H ddH dáH 00H 00H 00H vwH F7H
02
VWiTG Support Level CSIx:01{XG)
(3-6-2) UNIVERSAL REALTIME MESSAGE
(3-6-2-1) MIDI MASTER VOLUME
FOH 7FH 7FH 04H 01H 11H mmH F7H
Sets the MASTER VOLUME value.
The value “mm” is used to set the master volume (the value "Il" will be ignored).
40
CS1x
(3-6-3) PARAMETER CHANGE
(3-6-3-1) MIDI MASTER TUNING
РОН 43H 1nH 27H 30H 00H 00H mmH 11H ccH F7H
Sets the MASTER TUNING value.
The values “mm” and "Il" are used to set the master tuning (the values ”n” and “cc” will be ignored).
T = M*200/256-100
“T * indicates the actual tuning value.(-99 - +99)
"M" is the one byte value consisting of MSB, 0 - 3 bits of "mm", and LSB, 0 - 3 bits of “II”.
(3-6-3-2) XG SYSTEM ON
Bin Hex
11130000 FO
01000011 43
0001nnnn In
01001100 ac
QDaaaaaaa 00
Оааааааа 00
Daaaaaaa 7E
00000000 00
1111011) ¥7
Exclusive status
YAMAHA ID
Device Number
Model ID
Address High
Address Mid
Address Low
Data
End of Exclusive
When receiving this message, the internal tone generator will be reset to XG SYSTEM ON. All the parameters will be initialized and reset
to each default values, Since approximately 50ms is required to execute this message. be sure lo leave an appropriate interval before the
subsequent message.
3 -6-3-3) XG PARMETER CHANGE
11110000 FO
01060011 43
0001nnnn in
-01001100 4C
Daaaaaaa aaaaaaa
Daaaaaaa aaaaaaa
Оааааааа aaaaaaa
0ddddddd ddddddd
| ; |
11110111 F7
Exclusive status
YAMAHA ID
Device Number
Model ID
Address High
Address Mid
Address Low
Data
End of Exclusive
For parameters with data size of 2 or 4, transmit the appropriate number of data bytes.
See MIDI Data Table (page 42 - 45) for Address and Byte Count.
The following four types of data are transmitted/received (Transmitled onty when recciving parameter change request),
XG System Data
Multi Effect Data
Multi Pan Data
Drums Setup Data
(ignored in Performance Mode)
(ignored with Part | - in Performance Mode)
(3-6-3-4) CS1x NATIVE PARMETER CHANGE
11110060 FO
01000011 43
0001nnnn ln
01001011 4B
Daaaaaaa ааааааа
О0ваваааа aaaaaaa
Daagaaaa aaaaaaa
0ddddddd ddddddd
| Ï
11110111 F7
Exclusive status
YAMAHA ID
Device Number
Model ID
Address High
Address Mid
Address Low
Data
End of Exclusive
For parameters with data size of 2 or 4. transmit the appropriate number of data bytes.
See MIDI Data Table (page 42 - 45) for Address and Byte Count.
The following four types of data are received.
CS1x System Data
User Performance Common Data
User Performance Layer Data
Current Performance Data
(3-6-4) BULK DUMP
(3-6-4-1) XG BULK DUMP
11110000 FO
01000011 43
0000nnnn On
01001100 4C
Obbbbbbb bbbbbbb
Obbbbbbb bbbbbbb
Daaaaaaa aaaaaaa
Daaaaaaa aaaaaaa
Daaaaaaa aaaaaaa
00000000 no
{ |
Осссессс ececece
11110111 F7
{ignored in Multi Mode)
Exclusive status
YAMAHA ID
Device Number
Model ID
ByteCount
ByteCount
Address High
Address Mid
Address Low
Data
Check sum
End of Exclusive
See MIDI Data Table (page 42 - 45) for Address and Byle Count.
The Check sum is the value that results in a value of O for the lower 7 bits when the Byte Count. Start Address. Data und Check sum itself
gre added. Don’t send the data more than 513 bytes at one time. When the Dump request with the data more than 513 byles is received. be
_ sure to divide the data into appropriate sizes and send them with appropriate intervals (over 120 ms).
The following five types of data are transmitted/received (Transmitted only when receiving bulk dump request).
System Data
Multi Effect Datateach effect)
Multi Part Data(each Part)
{ignored in Performance Mode)
{ignored with Part | - 4 in Performance Mode)
Drums Setup Data(each note}
System Information
41
(Transmit only)
(3-6-4-2) CS1x NATIVE BULK DUMP
11110000 FO Exclusive status
01000011 43 YAMAHA ID
- O000nnnn On Device Number
01001011 4B Model ID
Obbbbbbb bbbbbbb ByteCount
Obbbbbbb bbbbbbb ByteCount
Daaaaaaa aaaaaaa Address High -
Oaaaaaaa aaaaaaa Address Mid
faaaaaaa ааааааа Address Low
00000000 Y Data
| .
Осссссссе ссссссе Check sum
11110111 F7 : End of Exclusive
See MIDI Data Table (page 42 - 45) for Address and Byte Count.
Almost the same as the XG BULK DUMP mentioned above except for the Model 1D.
The following four types of data are transmitted/received (Transmitted only when receiving bulk dump request}.
CSIx System Data
User Performance Common Data
User Performance Layer Data
Current Performance Data {ignored in Muli Mode)
(3-6-5) DUMP REQUEST
(3-6-5-1) XG DUMP REQUEST
Exclusive status
11110000 F9
01000011 43 YAMAHA ID
0010nnnn 2n Device Number
01001100 4C Model ID
Oaaaaaaa aaaaaaa Address High
Одазаааа ааааааа Address Mid
Daaaaaaa - aaaaaaa Address Low
11110111 F7 End of Exclusive
See MIDI Data Table (page 42 - 45) for Address and Byte Count,
The following five types of data are received.
System Data
Multi Effect Datafeach effect) {ignored in Performance Mode)
Multi Part Data(each Part) {ignored with Part 1 - 4 in Performance Mode)
Drums Setup Datateach note)
System Information
(3-6-5-2) CS1x NATIVE DUMP REQUEST
“11110000 FO Exclusive status
f 01000011 43 YAMAHA ID
0010nnnn 2n Device Number
01001011 iB Model ID
flaaaaaaa aaaaaaa Address High
Oaaaaaaa aaaaaaa Address Mid
Oaaaaaaa aaaaaaa Address Low
11110111 Fr — End of Exclusive
See MIDI Data Tuhle (page 42 - 45) for Address and Byte Count.
The following four types of data are received.
CS1x System Data
User Performance Common Data
User Performance Layer Data
Current Performance Data (ignored in Multi Mode)
(3-6-6) XG PARAMETER REQUEST
11110000 FO Exclusive status
01000011 43 YAMAHA ID
001 1nnnn In Device Number
01001100 iC Model ID
Jaaaaaaa aaaaaaa Address High
Оаазаааа азааааа Address Mid
Qaazaaaa agaaaaa Address Low
11110111 F7 “End of Exclusive
See MIDI Dita Table (page 42 - 45) for Address and Byte Count.
The following four types of data are received.
System Data
Multi Effect Data
Multi Pan Data
Drums Setup Data
{ignored in Performance Mode)
(ignored with Part E - 4 in Performance Mode)
(3-6-7) QS300 NATIVE PARAMETER REQUEST
11110000 FO Exclusive status
01000011 43 YAMAHA ID
0011nnnn 3n Device Number
01001611 48 Model ID
Qaaaaaaa ааазааа Address High
Caaaaaaa aaaaaaa Address Mid
faaaaaaa aaaaaaa Address Low
11110111 F7 End of Exclusive
_ Sec MIDI Data Fable (page 42 - 45) for Address and Byte Count.
The following four types of data arc received.
CSix System Data
User Performance Common Data
User Performance Layer Data
Current Performance Data {ignored in Multi Mode)
(4) CONFIGURATION OF KEYBOARD, ARPEGGIATOR AND TONE GENERATOR
| MIDI IN | | KEYBOARD |
“ — — = = = = = = = = = = =
Y
E A A A A E ÓN EEE == = = = = —
TONE GENERATOR
The tone generator will respond to hoth note data received via MIDE and the dat generated by the CS 1x such as note data und control data.
MIDI QUT
ALL SOUNDS OFF clears all the sounds in the specific channel played by hoti the keyboard and the data via MIDI
MIDI Data Table < 1-1 >
Parmeter Bass Address
SYSTEM
INFORMATION
EFFECT 1
MULTI PART
Parameter Change
Address
MIDI Data Table < 1-2 >
MIDI Parameter Change table ( SYSTEM )
Address Size Data
{Н) {Hl (H)
00 CO 00 4 5000
01 ..07FF
02
03
04 i 00..7F
05 1 00..7F
06 i 28..58
ID on
7E 00
TF -00
TOTAL SIZE 6
MiDI Data Tabie < 1-3 >
{H! (M} (L) Description
00 00 00 System
00 00 7D Drum Setup Reset
00 00 7E XG System On
00 00 7F All Parameter Reset
01 00 00 System Information
02 01 GC Ef fectl (Reverb, Chorus, Variation }
02 40 00 Reserved
98 00 00 Multi Parc 1
08 OF 00 Multi Parc 16
08 10 90 Reserved
30 18 00 Drum Setup 1 -------- > Address
31 18 00 Drum Setup 2 : : ;
in 18 00
32 18 00 Reserved in 19 DO
IF nn nn Reserved 3n 54 00
Prameter Name Description
Master Tune
Master Volume
Not Used
Transpose
Drum Setup Reset
XG System Оп
All Parameter Reset
MIDI Parameter table ( System information )
Address Size Data
(H) tH) (H)
01 00 00 EF 20..7F
OE 1 00
OF 1 00
TOTAL SIZE 10
Prameter Name
Model Name
XG Support Level
-102.4..+102.3(cent]
lst bit3-0 *bit15-12
2nd bit3-0 *bit11-8
3rd bit3-0 “bit7-4
4th bit3-0 *bit3-0
0..127
-24..+24 [semitones]
n=Drum Setup Number
CS1x
Parameter
note number 24
note number 25
note number 84
Default
Value (H)
00 D4
{0400}
{Not to be reset with XG
sysytem. on or GM on!
(XG GM ont
Reset 3 4L4:1>)
00 00
40
00=XG Sytem on {receive only)
00-on (receive only}
Description
32,.127[ASCII)
0..127
(Transmitted by Dump Request. Bulk Dump Only. No reception.)
(Dump Request} 1 DÉfE6A50 CENA DAL, Bulk Dump Only)
MIDI Data Table < 1-4 >
MiDI Parameter Change table ( EFFECT 1 )
Address Size Data
{Н) (HY (HA)
02 01 00 2 00..7F
0G..7F
02 1 00..7F
03 1 00..7F
04 1 00..7F
05 1 00..7F
06 1 00..7F
07 1 00..7F
08 1 00..7F
09 1 00..7F
0A 1 00..7F
05 1 00..7F
oc 1 00..7F
op 1 01..7F
TOTAL SIZE OE
02 01 10 1 00..7F
11 1 00..7F
12 1 00..7F
13 1 00..7F
14 | 00..7F
15 1 00..7F
TOTAL SIZE 6
02 01 20 2 00..7F
00..7F
22 1 00..7F
23 1 00..7F
24 1 00,..7F
25 1 00.,7F
26 1 00..7F
27 1 00.,7F
28 1 00..7F
29 1 50..7F
2A | GO..7EF
2B 1 00..7F
20 1 00..7F
20 | 01..7F
2E 1 00..7F
TOTAL SIZE OF
Prameter Name
Reverb Type MSB
Reverb Type LSB
Reverb Parameter
Reverb Parameter
Reverb Parameter
Reverb Parameter
Reverb Parameter
Reverb Parameter
Reverb Parameter
Reverb Parameter
Reverb Parameter
Reverb Parameter
Reverb Return
Reverb Pan
YD SD O UA e ee
<
Reverb Parameter 11l
Reverb Parameter 12
Reverb Parameter 13
Reverb Parameter 14
Reverb Parameter 15
Reverb Parameter 16
Chorus Type MSB
Chorus Type LSB
Chorus Parameter 1
Chorus Parameter 2
Chorus Parameter 3
Chorus Parameter 4
Chorus Parameter 5
Chorus Parameter 6
Chorus Parameter 7
Chorus Parameter 8
Chorus Parameter 9
Chorus Parameter 1
Chorus Return
Chorus Pan
©
Send Chorus To Reverb
Description
see Effect Type List
00 : basic type
see Effect Parameter List
-,.0..+6dB(0..96..127)
L63..C..R63(1..64..127}
see Effect Parameter List
see Effect Type List
00 : basic type
see Effect Parameter List
-æ,.0..+6dB(0..96..127]
L63..C..R63{(1..64..127)
-92,.0..+6dBt0..96..1]27)
tESIX)
Default
Value (HR)
01 {=HALL1}
00
depends on Reverb type
%
41 {=Chorusl)
00
depends on Chorus Type
%
42
CS1x
02 01 30 1
il 1
32 1
33 1
34 1
35 1
TOTAL SIZE 6
02 01 40 2
42 2
4 2
46 2
48 2
dA 2
ac 2
dE 2
50 2
52 2
54 2
56 1
57 1
58
59
5A
5B
5C
02 01
70
71
72
73
74
75 1
RRA
TOTAL SIZE 6
MIDI Data Table < 1-5 >
00,
00,
00.
00,
00,
00.
00.
00.
00.
00.
00.
00,
00,
00.
00.
00.
00.
00.
00.
00.
00.
00,
00,
01.
00.
00.
00,
01,
01.
01.
01.
00.
00.
00.
00.
00.
00.
IF
»7F
‚ЗЕ
,7F
‚ЗЕ
JTF
IF
7F
7F
IF
‚ТЕ
‚ТЕ
IF
‚ТР
LIF
. IF
‚ЗЕ
1 7E
.7F
IF
IF
‚IF
IF
‚7
TF
-. 7F
‚ЗЕ
‚ЗЕ
IF
.7F
IF
IF
‚ ‚01
1F
LIF
..1F
LIF
.7F
.7F
7F
LIF
IF
‚ТЕ
LIF
‚ТЕ
Chorus
Chorus
Chorus
Chorus
Chorus
Chorus
Vari.
Vari.
vari.
vari.
Vari.
vari.
vari.
Vari.
Vari.
Vari.
Vari.
Vari.
Vari.
vari.
Vari.
Vari.
Vari.
Vari.
Vari.
Vari.
Vari.
Vari.
Vari.
vari.
Send vari.
Send Vari.
vari.
Vari.
MW Var
PB Var
AT Var
FC Var
Vari.
Vari.
Vari.
Vari.
Vari.
Vari.
Parameter
Parameter
Parameter
Parameter
Parameter
Parameter
Type MSE
Type LSB
Param 1 MS
Param 1 LS
Param 2 MS
Param 2 LS
Param 3 MS
Param 3 LS
Param 4 MS
Param 4 LS
Param 5 MS
Param 5 LS
Param & М5
Param 6 LS
Param 7 MS
Param 7 LS
Param
Param
Param
Param
Param
Param
Return
Pan
=
Un
о
=
Kn
{0
=
in
AD 0 OS 0 À 1 AU OA Ls aL UN N
mM
-*
o
=
10 L
Connection
Part
11
13
14
15
16
B
B
B
B
B
B
B
B
B
B
B
B
B
B
|
in
nw
wo
SB
To Rev,
To Cho.
i. Ctrl Depth
i, Ctrl Depth
i. Ctrl Depth
i, Ctrl Depth
AC2 Vari. CtrlDepth
Parameter
Parameter
Parameter
Parameter
Parameter
Parameter
11
12
13
14
15
16
MIDI Parameter Change table ( MULTI PART)
Address Size Data
(H) (H) (HA)
08 nn 00 1 00,.20
nn 01 1 -00,.7F
nn 02 1 00. .7F
nn 03 1 00..7F
nn 04 1 00. .0F,
7F
nn 05 1 00..01
nn 06 1 00..02
nn 097 1 00..02
nn 08 1 2§..58
nn 09 2 00,.FF
nn OA
nn 08 1 00..7F
nn 0C 1 00,.7F
nn 00 1 00,.7F
nn OE 1 00,,7F
nn OF 1 00..7F
nn 10 1 00,.7F
nn 11 1 00..7F
nn 12 1 00..7F
nn 13 1 00..7F
nn 14 1 00..7F
nn 15 1 00,.7F
nn 16 1 00..7F
nn 17 1 00..7F
nn 18 1 00.,7F
nn 19 1 00.,7F
nn 1A 1 00,,7F
nn 18 1 00,,7F
nn 10 1 00..7F
nn 1D 1 28..58
nn 1E 1 00..7F
nn iF 1 00,,7F
nn 20 1 00..7F
nn 21 1 00.,7F
пп 22 1 00..7F
nn 23 1 28..58
nn 24 1 00.,7F
nn 25 1 00,,7F
nn 26 1 00..7F
nn 27 1 00..7F
nn 28 1 00..7F
TOTAL SIZE 29
43
Pramet
er Name
Element Reserve
Bank $
Bank S
elect MSB
elect LSB
Program Number
Rev Channel
Mono/Poly Mode
Same Note Number
Key On
Assign
Part Mode
Note $
Detune
Volume
Velocity Sense Depth
Velocity Sense Offset
Pan
Note L
Note L
Dry Le
Chorus
Reverb
Variat
Vibrat
Vibrat
hift
imit Low
imit High
vel
Send
Send
ion Send
o Rate
o Depth
Vibrato Delay
Filter Cutoff Freq.
Filter
Rel
MW Pit
Mw
Mw
MW
MW
MW
Resonance
Attack Time
Decay Time
ease Time
ch Control
Filter Control
Amp. Control
LFO PMod Depth
LFO FMod Depth
LFO AMod Depth
Bend Pitch Control
Bend Filter Control
Bend Amp. Control
Bend LFO PMod Depth
. Bend LFO FMod Depth
Bend LFO AMod Depth
see Effect Parameter List
#
5
+
#
“
see Effect
00 : basic
see Effect
>
see Effect
E
Type List
type
Parameter List
Parameter List
see Effect Parameter List
+
see Effect
“+
see Effect
EA
see Effect
4
see Effect
+
Parameter List
Parameter List
Parameter List
Parameter List
see Effect Parameter List
#
see Effect Parameter List
”
see
%
Effect Parameter List
=00,,0..+6dB(0..96..127)
L63..C..R63(1..64..127)
-0,,0..+6dB(0..96..127}
..+6dB(0..96,.127)
O:insertion, l:system
partl..32(0..31),off(127)
-63.,+63
-63,.+63
-63,,+63
-63,.+63
-63.,+63
-00, ,0
option Parameter
Description
‚32
‚127
‚127
‚128
..16;1..16,127;0ff
oH © oo
EE
mono, l:poly
single
multi
inst (for DRUM)
normal
..3:drum thru,druml,.2
-24..+24[semitones]
-12.8..+12.7[H2]
lst bit3,.0-*bit7,.4
2nd bit3,,0-bit3,.0
0..127
0..127
0..127
0: random
L63..C..R63{1,.64..127)
> © в > © ©
aa an au 48 aw
C-2..58
C-2.,6G8
0..127
0..127
0..127
0..127
‚ +63
‚ +63
‚+63
.+63
‚ +63
‚ +63
‚ +63
‚ +63
-64.
-64,
-64,
= 64.
- 64,
-64.
-64.
-64.
-24..+24 [semitones]
-9600..+9450 (cent)
-100.. +100 [%)
0..127
0.,127
0..127
-24..+24 (semitones)
-9600.,+9450{cent]
-100..+100(%])
0..127
0..127
0..127
depends on Chorus Type
%
> *
"05 (=DELAY
00
depends on
#
depends on
#
depends on
#
depends on
&
depends on
LJ
depends on
=
depends on
>
depends on
#
depends on
#
depends on
#
60
40
00
00
00
TE
40
40
40
40
40
L,C, R)*
vari,
vari.
vari.
vari.
vari.
vari.
vari.
vari.
vari.
vari.
type
type
type
type
type
type
type
type
depends on vari. type
7
Default
Value (H)
OtPartl0),2 (Others)
7E (Part10),00 (Others)
00
00
Part No.
01
00
00 {Other than Part10)
01 (Part10)
40
08 00
(80)
64
40
40
40
00
TF
TF
00
28
00
40
40
40
40
40
40
40
40
40
40
0A
00
00
42
40
40
00
00
00
nn 30 1 00..01 Rcv Pitch Bend off/on 01
nn 31 1 00..01 Rev Ch After Touch off/on a1.
nn 32 1 00.,01 Rev Program Change off/on 01
nt 33 1 00..01 Rev Control Change off/on 01
nn 34 1 00..01 Rev Key's After Touch off/on 01
nn 35 1 00..01 Rev Note Message off/on 01
nn 36 1 00..01 Rev REN off/on 01
nn 37 1 00..01 Rev NRPN off/on 01 (XG) , 00 [GM)
nn 38 1 00,.01 Rev Modulation off/on 91
nn 39 1 00..01 Rev Volume off/on 01
nn ЗА 1 00,.01 Rev Pan off/on 01
nn 38 1 00..01 Rev Expression off/on OI
nn 3¢ 1 00,.01 Rev Holdl off/on OI
nn 3D 1 00..01 Rcv Portamento off/on 01
nn JE 1 00..01 Rev Sostenute off/on 01
nn 3F 1 00..01 Rev Soft Pedal off/on 01
nn 40 1 00..01 Rev Bank Select off/on 01 (XG), 00 (GM)
nn di 1 00.,7F Scale Tuning € -654..+63 [cent] 40
nn 42 1 00..7F Scale Tuning Ci -64..+63 [cent] 40
nn 43 1 00..7F Scale Tuning D -64..+63 [cent] 40
nn 44 1 00..7F Scale Tuning D# -64..+63 [cent] 40
nn 45 1 00..7F Scale Tuning E -64..+63 [cent] 40
nn 46 1 00,,7F Scale Tuning F -64,,+63 [cent] 40
nn 47 1 00,.7F Scale Tuning Fi -64..+63[cent] 40
nn 49 1 00,,77 Scale Tuning G -64,.+63 [cent] 40
nn 49 1 00,,7F Scale Tuning GH - -64..+63[cent] 40
nn 4A 1 00,.7F Scale Tuning A -64..+63(cent! 40
nn 48 1 00..7F Scale Tuning A# -64..+63 [cent] 40
nn 4C 1 00,,77 Scale Tuning В -64..+63 [cent] 40
nn 40 1 28,,58 Ch's AT Pitch Cntrl -24..+24 [semitones] 40
nn dE 1 00..7F Ch's AT Filter Cntrl -9600,.+9450 [cent] 40
nn 4F 1 00.,7F Ch*s AT Amp, Cntrl -100..+100 1%] 40
nn 50 1 00..7F Ch's AT LFO PMod 0..127 00
nn 51 | 00..7F Ch's AT LFO FMed 0..127 00
m 52 | 00..7F Ch's AT LFO AMod 0..127 00
nn 53 1 28,,58 Key's AT Pitch Cntrl -24..+24 [semitones] 40
nn 54 1 00,.7F Key's AT Filter Cntrl -9600..+9450[cent] 40
nn 55 1 00,,7F Key's AT Amp. Cntrl =100..+100(%] 40
nn 56 1 00,,7F Key's AT LFO PMod 0..127 00
па 57 1 00,,7F Key's AT LFO FMod 0..127 00
nn 58 1 00..7F Key's AT LFO AMod 0..127 00
nn 59 1 00..5F ACl(FC) Cntrl Number 0,.95 10
nn 54 1 28..58 AC1(FC) Pitch Cntrl -24..+24|semitones] 40
nn 58 1 00..7F AC1(FC) Filter Cntrl -9600..+9450 [cent] 40
nn 5C 1 00..7F AC1l{FC) Amp. Cntrl -100..+100[%] 40
nn 50 1 00..7F AC1{FC) LFO PMod 0..127 00
nn 5Е 1 00..7F ACI(FC) LFO FMod 0..127 00
nn 5F | 00.,7F AC1(FC) LFC AMod 0..127 00
nn 60 1 00..5F AC2 Cntrl Number 0..95 11
nn 61 1 28..58 AC? Pitch Cntrl -24..+24 [semi tones] 40
nn 62 1 00..7F AC? Filter Cntrl -3600..,+9450 [cent] 40
m 63 1 00..7F AC2 Amp. Cntrl -100.,+100[%] 7F
nn 64 1 00..7F AC2 LFO PMod 0..127 00
nn 65 1 00..7F AC2 LFO FMod 0.,127 00
nn 66 1 00..7F AC2 LFO AMod 0..127 00
nn 67 1 00..01 Portamento Switch off/on 00
nn 68 1 00..7F Portamento Time 0..127 00
nn 69 1 00..7F PitchEG Initial Level -64,.+63 40
nn 6A 1 00..7F PitchEG Attack Time -64..+63 40
nn 6B 1 00..7F PitchEG Release Level -64..+63 40
nn 6C 1 00..7F PitchEG Release Time -64..+63 40
nn 6D | 00..7F Velocity Limit Low 1..127 01
nn 6E 1 00..7F Velocity Limit High 1..127 TF
TOTAL SIZE 3F
nn = PartNumber
When a drum voice is assigned to the Part, the following parameters are not effective with the selected Part.
* Bank Select LSB Parti FF AKA ANT HL ENTNEDO, DF
- Amp EG ( 079 3 RE
+ Portamento
+-Soft Pedal
* Mono/Poly
+ Scale Tuning
* Pitch EG
MIDI Data Table < 1-6 >
MIDI Parameter Change table ( DRUM SETUP )
Address Size Data Prameter Name Description Default
{H) (H) (H) Value {H)
in rr 00 1 00,,7 Pitch Coarse -64,. +63 00 (HBR)
in rr 01 1 00..7F Pitch Fine -64..+63 [cent] 00 НН)
In rr 02 1 00..7F Level 0..127 XG Druml CT
in rr 03 1 00..77 Alternate Group 0:0f£,1..127 XG Druml (EHR)
in rr 04 1 00..7 Pan 0: random XG Druml (2+8)
163, .C. R63{1..64..127)
In rr 05 1 00..7F Reverb Send Level 0..127 XG Druml (481137)
dn rr 06 1 00..7F Chorus Send Level 0..127 XG Drumi (4844%)'8)
In rr 07 1 00..7F Variation Send Level 0,.127 XG Druml (2844438)
In rr 08 3 00,.01 Key Assign O;single, l;multi XG Druml (REAR)
In rr 09 1 00,.01 Rev Note Off off/on XG Druml (4835243)
{depend on the посе) (3-77 ОБВЕС ЛЬ)
In rr OA 1 00,.01 Rev Note On off/on XG Druml (ВН)
in rr 08 1 00..7F Filter Cutoff Freq. -64..63 00 (НН)
in rr 0C 1 00..7F Filter Resonance -64..63 00 (HER
in rr 0D 1 00..7F EG Attack Rate -64..63 00 (EA
in rr E 1 00,.7F EG Decayl Rate -64..63 00 (НЯ)
in rr OF 1 00..7F EG Decay2 Rate -64..63 00 (HEHEHE)
TOTAL SIZE 10
n:Drum Setup Number - |
rr:note number(0D - 5B)
When receiving XG system on or GMon message. the Drum Setup Parameters will be initialized.
Each Drum Setup Parameter can be initialized by Drum Setup Reset message.
XG SYSTEM onŸGM on à 7 + — V % 2423 5 & | Drum Setup Parameter (EF ATHLE NEO
Drum Setup Reser * 7 +— 7119, Drum Setup Parameter 4 MALT 2 EHF TE 2,
7
MIDI Data Table < 1-7 >
Effect Type List
*The figures in [ | indicate the order to be displayed in the LCD while type selection. (14. X5:4+2 ME )
REVERB TYPE
TYPE MSB
DEC
DOC
001
002
003
004
005
015
016
017
018
019
020
127
CHORUS TYPE
TYPE
DEC
090
001
064
065
066
067
068
069
127
HEX
“AE UN HO
F
10
11
12
13
14
IF
MSB
HEX
0
1
40
“41
42
43
46
45
TF
00
(G0]No Effect
(01]JRev Halll
[03]Rev Rooml
[06] Rev Stagel
[08]JRev Plate
No Effect
No Effect
[09] Rev WhiteRm
{110]Rev Tunnel
No Effect
(11]Rev Basement
No Effect
No Effect
00
(00]No Effect
No Effect
No Effect
[01)Chorusl
[05iCelestel
[09] Flangerl
No Effect
No Effect
No Effect
VARIATION TYPE(0—- 63)
TYPE
DEC
000
001
002
003
004
005
006
007
008
009
010
011
012
019
020
021
063
MSB
HEX
CMD OR WWM SOU EN EY
ЗЕ
00.
[00]No Effect
[01)]Rev Halll
[03}Rev Rooml
[06]Rev Stagel
(08]Rev Plate
[09] DelayL,C,R
[10) Delay L,R
[11) Echo
{12]CrossDelay
[13]EarlyRefl
[15]GateReverb
{(16]ReversGate
TYPE LSB
01 02
[02]Rev Hal12
104) Веу Room?
[071Rev Stage?
[05]Rev Room3
TYPE LSB
02 08
[02)Chorus? [03] Chorus3 [04] Chorusd
[06]Celestez [07] Celeste3 [08]Celeste
[10]Flanger2 [11]Flanger3
TYPE LSB
01 02
{02} Веу На) 12
[04] Rev Room2
[07] Rev $tagez
[05]Rev Room}
{14]EarlyRef2
No Effect (sys), THRU{ins)
No Effect (sys), THRU{ins)
[17] RevKaraok1
No Effect (sys), THRU(ins)
No Effect (sys), THRULins)
VARIATION TYPE(64- 127)
TYPE
DEC
064
DES
066
067
068
069
070
071
072
073
074
075
076
077
078
079
127
MSB
HEX
40
41
42
43
44
45
46
47
48
49
АА
4B
4c
4D
4E
4F
IF
TYPE LSB
00
143] THRU
[20]Chorus]
[24]Celestel
[28]Flanger!
[31] Symphonic
(32]RotarySp.
[33) Tremolo
[34tAuto PAN
[35] Phaserl
[37]Distortion
[38] Overdrive
[39]G-Amp.Sim,
[40]3 Band EQ
[4112 Band EQ
[42] Auto Wah
THRU
THRU
MIDI Data Table < 2-1 >
Parameter Bass Address
Parameter Change
SYSTEM
Current Performance
User Performance 1
User Performance 2
User Performance 128
Address
(H) (M) (L)
50 00 00
60 00 00
60 01 00
60 02 00
60 03 00
60 04 00
70 00 0%
71 00 00
72 00 00
73 00 00
74 00 00
70 01 00
71 01 00
72 01 00
73 01 00
74 01 00
70 78 00
71 7F 00
72 7F 00
73 7F 90
74 7F 90
(18]RevKaraok2 (19]RevKaraok3
01 02 08
[21]Chorus2 [22?1Chorus3 [23:Chorus4
[25)Celeste?2 [261Celeste] [27]Celested
(29{Flanger2 [30]Flanger3
[36] Phaser?
Description
CS1x System
Current Performance Common
Current Performance Layer1
Current Performance Layeri
Current Performance Layeri
Current Performance Layer!
User Performance Common
User Performance Layerl
User Performance Layer2
User Performance Layer3
User Performance Layerá
User Performance Common
User Performance Layerl
User Performance Layer2
User Performance Layer3
User Performance Layerá
User Performance Common
User Performance Layerl
User Performance Layer?
User Performance Layer3
User Performance Бауег4
MIDI Data Table < 2-2 >
MIDI Parameter Change table ( CS1x SYSTEM )
Prameter Name
Address
(H)
50 00 00
01
02
03
04
05
06
07
08
15
16
17
Total size
Size
(H)
1
Po hh не Fp he ны
…
18
о о © бе еее о о о
Data
(H)
00..
>
*
00..
00..
...”7
..DE
..D
.10
‚ ‚11
..64
..07
+
-
..5F
..5F
..5F
..5F
..5F
..5F
..5F
..5F
01
‚ 03
MIDI Data Table < 2-3 >
Performance
Receive Channel
reserved
reserved
reserved
Midi Device Number
reserved
Sound Module Mode
Keyboard Transpose
Keyboard
Velocity Curve
Keyboard Fix Velocity
Keyboard
Transmit Channel
Midi Local
MW Control Number
FC Control Number
FV Control Number
Control Number
Control Number
Control Number
Control Number
Control Number
Control Number
Foot Switch
Control Number
Knobl
Knob2
Knob3
Knobd
Knobs
Knob6
Scene Controller
Scene
Mode
Description
1(0)...16(f)
Default
Value (H)
0{1)
1(0)...16(£),all(10),off£ (11) 10(al1)
XG (1), PEM(3)
-36...+36 tsemitones)
norm(0)...cross2(7)
of£(0),1..127
1(0)...16(f)
off(0}),onll)
‚ ‚95
‚ ‚95
‚ ‚95
..95
..95
..95
..95
..95
..95
..95
© © о ооо ео
МН (0), РС (1}0 (МИ)
of £{0),51sw{l),
S2Sw{2),S.Ct1(3)
MIDI Parameter Change table ( Current Performance Common)
Description
Address Size Data
(H) (H} (H)
60 00 00 1 29,.
01 1 20.
02 1 20..
03 1 209.,
04 1 20.
05 1 20...
06 1 20...
07 1 20.,
08 1 00..
09 1 00..
0a 1 00..
üb 1 00..
0c 1 00..
0d 1 DO.
0e 1 00.
of 1 00.
10 1 00...
11 1 oo.
12 1 00.
13 1 00...
14 1 go..
15 1 00..
16 1 00.
17 1 00.
18 1 00.
1% 1 00..
la 1 00...
15 1 00.
le 2 00.
00..
le 2 00...
00...
20 2 00..
00...
22 2 00..
00..
24 1 20...
25 1 20..
26 1 20..
27 1 20..
28 1 00.
29 1 00,,
00..
25 1 09..
2е 1 09..
2d 1 00..
Total size 2e
Address Size Data
(H) {BE} (H)
60 00 30 2 00..
00..
32 2 09..
00.
34 2 0D..
00..
36 2 00...
00..
38 2 00...
00..
За 2 00.
00..
3c 2 .00..
00..
3e 2 00.
00...
40 2 0.
00..
42 1 40
43 1 00...
44 1 00...
45 1 00..
46 1 00..
Total size 17
7
we?
„7
.7F
.7F
.7F
‚7
‚7
q
7
54
7
7
‚ЗЕ
7
.7F
IF
:7
7
„7
=
"o ]
"=
=
y
7
7
7
.7F
.7F
‚ЭР
.7F
momo
‚ЧЕ
‚0
‚ДЕ
.04
1E
.04
1E
.0
.1E
E
sE
„60
„60
‚60
‚10
‚01
‚ЧЕ
‚17
.0
.05
us
.7F
‚ЭР
.7
CT)
7
LIF
.7F
.TF
7
7
7
‚ТР
7
7
.TF
7
7
7
Les]
"отт
org
Tomo
‚ЭР
‚ЭР
7
7
oT
Pramet
er Name
Performance Name
Performance Name
Performance Name
Performance Name
Performance Name
Performance Name
Performance Name
Performance Name
Performance
Common Volume
Scenel
Scenel
Scenel
Scenel
Scenel
Scenei
Scene?
Scene?
Scene2
Scene?
Scene?
Arpeggiator Tempo MSB
Arpeggiator Tempo LSB
Arpeggiator Type
For Knobi
For Knob2
for Knob3
For Knob4
For Knob5
For Knob6
For Knobl
For Knob2
For Knob3
For Knobd
For Knob5
For Knob6
Value
Value
Value
Value
Value
Value
Parameterl
Parameterl
Parameter
Parameter?
Parameter3
Parameter3
Parameteré
Parameters
1
2
3
4
5
6
7
8
Category
Sensitivityl
Sensitivity2
Sensitivity3
Sensitivityd
Parameter
Arpggiator Subdivide
Arpeggiator On/Off
Prameter Name
Reverb Type MSB
Reverb Type LSB
Chorus Type MSB
Chorus Tyle LSE
Vari, Type MSB
Vari. Type LSB
Vari. Param 1 MSB
Vari. Param 1 LSB
Vari. Param 2 MSB
Vari, Param 2 LSB
Vari. Param 3 MSB
Vari. Param 3 LSB
Vari. Param 4 MSB
Vari. Param 4 LSB
Vari. Param 5 MSB
Vari. Param 5 LSB
Vari. Param 10 MSB
Vari. Param 10 LSB
reserved
FC vari. Cntrl Depth
Send Chorus To Reverb
Vari on layer RevSend
Vati on layer ChoSend
Ascii Code
Ascii Code
Ascii Code
Ascii Code
Ascii Code
Ascii Code
Ascii Code
Ascii Code
--,P£...W
0...127
-64...+63
-64...+63
-64...+63
-64...+63
-64,,.+63
—64,..+63
-64...+63
-64...+63
-64...+63
-64...+63
-64...+63
-64...+63
-64...+63
-64...+63
-64...+63
-64,,.+63
-64,..+63
-64,..+63
layerl(0}...
off {0),1...
layerl(0}...
0(off), 1...
layerli0)...
0{off}.1...
layer1(0)...
Üftof£},1...
-32...+32
-32...+32
-32...+32
-32...+32
of£(0),1...
16
O(MIDI], 40(1)..240{201)
G(UplOct)...31{special17)
0(3/8)...9(1/32)
Dioff)/1{on)/2{hold}
Description
See Effect
00:basic type
See Effect
Type List
00:basic type
See Effect
Type List
00:basic type
See Effect
See Effect
See Effect
See Effect
See Effect
See Effect
See Effect
See Effect
See Effect
See Effect
See Effect
See Effect
-64...+63
0...127
0...127
0...127
Parameter
Parameter
Parameter
Parameter
Parameter
Parameter
Parameter
Parameter
«Parameter
Parameter
Parameter
Parameter
Type List
List
List
List
List
List
List
List
List
List
List
List
List
3 (PFM}
40 (+0)
00 (norm)
00 (off)
0(1)
1 (on)
1
10
11
4A
47
49
48
11
12
40
O{off}
Default
Value{H)
нп мон
64 (100)
40 (+0)
40 (+0)
40 (+0)
40 (+0)
40 [+0)
40 [+9)
40 [+0)
40 (+D)
40(+0)
40(+0)
40(+0)
40(+0)
40(+0)
40(+0)
40(+0)
40(+0)
40(+0)
40(+0)
00 (1аует 1)
00 (off)
01{layer2)
OD(off)
02 (layer3)
00 off)
63 (layer4)
00 (off)
40(+0)
40(+0)
40(+0}
- 401+0)
00({off)
00 65(140)
CS1x
09 (UpDnBiOcE)
0711/16]
00{off,split on)
Default
value (H}
01(=Hall)
00 (basic)
41 {=Chorusl)
00 (basic)
05(=Delay L,C, R)
00 (basic)
— Depends On
Depends On
Depends On
Depends On
Depends On
Depends On
Depends On
Depends On
Depends On
Depends On
Depends On
Depends On
40
40(+0)
0
281/40)
0
Vari. Type
Variation
Variation
Variation
Variation
Variation
Variation
Variation
Variation
Variation
Variation
Variation
Type
Type
Type
Type
Type
Type
Type
Type
Type
Type
Type
44
CS1x
Address Size Data
(H) (H) (H)
60 00 50 1 00..
51 1 00. .
52 1 00..
53 1 28..
54 1 00..
5% 1 00
56 1 00...
57 1 DO...
58 1 00.
Total size 09
Prameter Name
.7F MW Filter Control
.7F MW LFO PMod Depth
.7F MW LFO FMod Depth
.58 Bend Fitch Control
.7F FC Filter, Control
reserved
.7F FC LFQ FMod DeptH
01 Portamento Switch
.7F Portamento Time
MIDI Data Table < 2-4 >
Description
MID! Parameter Change table { Current Performance Layer)
Address Size Data
(H) (H) (MH)
60 OL 00 1 00..
01 1 00..
02 1 00..
03 1 00...
04 1 28...
05 2 00..
07 1 00..
08 1 0a..
09 1 00...
0a 1 00...
Cb 1 00...
0c 1 00).
vd 1-00.
Oe 1 00..
OE 1 00..
10 1 00..
11 1 00..
12 1 01...
13 1 01..
14 1 ‘@1..
15 1 01...
16 1 00...
17 1 00..
18 1 0l..
19 1 Ol...
la 1 00...
1b 1 01..
le 1 01...
ld 1 00.
le 1 01..
1f 1 00..
20 1 21..
21 1 0l..
22 1 31..
23 1: a..
24 1 01...
25 1 00..
26 1 01...
27 1 00...
28 1 01...
Total size 29
1 =1 ;Layerl
2 ;Layer2
3 ;Layer3
4 ;Layerd
‚7
7
7
Prameter Name
Ti
Voice Bank Number MSB
.7F Voice Bank Number LSB
.7F Voice Number
.03 Play Mode
.58 Note Shift
.FF Detune
.7F Volume
.7F Velocity Sense Depth
.7F Velocity Sens Offset
.7F Pan
.7F Note Limit Low
.7F Note Limit High
.7F Chorus Send
.7F Reverb Send
.7F Variation Send
.02 LFO Key Sync
.7F Filter Cutoff Freq.
7
Le
Filter Resonance
.7F Amp. EG Attack Time
.7F Amp. EG Decay Time
7F Amp. EG Release Time
.03 Receive Note (Mute)
.7F PitchEG Initial Level
7
=
PitchEG Attack Time
PitchEG Release Time
Pitch£G Release Level
Velocity Limit Low
Velocity Limit High
7
mmm
7
Los
.7F Amp. EG Sustain Level
.7F LFO Speed
.7F LFO Wave
.5F LFO AMod Depth
.7F LFO PMod Depth
.4F LFQ FMod Depth
.7F FilterEG Attack Time
a]
a
FilterEG Decay Time
.7F FilterEG Sus Level
FilterEG Release Time
PitchEG Attack Level
PitchEG Decay Time
= 47 wd
m m y
MIDI Data Table < 2-5 >
1st bit3...0 >> bit7...4 00
Default
Value (H)
-64...+63 .40(+0)
0...127 OA (10}
0...127 0
~24...+24 {semitones} 42 {+2semitones)
-64...+63 40(+0)
0 00
0...127 0
off(0),on(1) 0{off)
0...127 0
Description Default
Value (H)
0...127 . 00
0...127 00
1...128 00
mono (0) ,poly{1) 1{poly)
-24...+24 {semitones)- 40(+0)
-12.8...+12.7 (Hz) 08(+0.0Hz)
)
0...127 641100)
0...127 40(64)
-64...+63 - 40 (+0)
random(0),L63...C...R63 -40(C)
C-2...G8 - 00 (С-2
C-2...G8 7F(G8}
0...127 00
0...127 28 (40)
ofE(0),ontl...127) 7F (on)
FreeRun(0),retrigger (1),-(2) 21(-)
MIDI Parameter Change table ( User Performance Common)
Address Size Data
{H) (H) 4H)
70 pp 00 1 20,
01 1 20..
02 1 20.,
03 1 20.
04 1 20..
05 1 20.
06 1 20.
07 1 20..
08 1 00..
09 1 00...
0a 1 00.
0b 1 00...
Oc 1 00..
0d 1 00..
te 1 00...
of 1 00.
10 1 50..
11 1 00.
12 1 00.
13 1 00,
14 1. 00..
15 1 00..
16 1 00.
17 1 00.
18. 1 00...
19 1 00,
la 1 00...
15 1 00...
le 2 00...
: 00...
le 2 00...
00...
20 2 00...
00...
22 2 00...
00...
24 1 20...
25 1 20...
26 1 20...
27 1 20...
28 1 00...
29 1 00...
45 00..
Prameter Name
..7F Performance Name 1
.7F Performance Name 2
.7F Performance Name 3
.7F Performance Name 4
.7F Performance Name 5
.7F Performance Name 6
.7F Performance Name 7
.7F Performance Name 8
.54 Performance Category
.7F Common Volume
.. TF Scenel For Knobl
scenel For Knob2
ha]
+=]
.7F Scenel For Knob3
. TF Scenel For Knob4
.7F Scenel For Knob5
..7F Scenel For Knobé
.7F Scene2 For Knobl
.7F Scene? For Knob2
.7F Scene? For Knob3
..7F Scene? For Knob4
.7F Scene2 For Knob5
.7F Scene2 For Knobé
.7F Knobl value
.7F Knob2 Value
7F Knob3 Value
..7F Knob4 Value
.7F Knob5 Value
7F Knob6 Value
2b 1
2c 1
2d 1
Total size 2e
Size
Address
(H) (H)
70 pp 30 2
32 2
34 2
36 2
38 2
ja 2
ic 2
je 2
40 2
42 1
43 1
44 1.
Total size 15
Address Size
(H) (H)
70 pp 50 1
91 1
52 1
53 1
54 1
55 1
56 1
97 1
58 1
Total size 09
00...17
00...09
00...05
Data
{H)
00...7F
00...7F
00...7F
00...7F
00.,.7F
00...7F
00...7F
00...7F
00...7F
00...7F
00...7F
00...7F
00...7F
03...7F
00...7F
00,..7F
00...7F
00...7F
40
00...7F
00...7F
Data
(H)
00...7F
DO...7F
00...7F
28...58
00...7F
00
00...7F
00...01
00,..7F
Arpeggiator Type
Arpggiator Subdivide
Arpeggiator On/Off
Prameter Name
Reverb Type MSB
Reverb Type LSB-
Chorus Type MSB
Chorus Tyle LSB
Vari. Type MSB
Vari. Type LSB
Vari. Param 1 MSB
Vari. Param 1 LSB
Vari. Param 2 MSB
Vari. Param 2 LSB
Vari. Param 3 MSB
Vari. Param 3 LSB
Vari. Param 4 MSB
Vari. Param 4 LSB
Vari. Param 5 MSB
Vari, Param 5 LSB
Vari. Param 10 MSB
Vari. Param 10 LSE
reserved
FC Vari. Cntri Depth
Send Chorus To. Reverb
UN Ew Wr BRD de
Prameter Name
MW Filter Control
Mw LFO PMod Depth
MW LFO FMod Depth
Bend Pitch Control
FC Filter Control
reserved
FC LFO FMod Depth
Portamento Switch
Portamento Time
pp = Performance Number {00...7F)
MIDI Data Table < 2-6 >
O(Upioct)...3ltspecial17)
0(3/8)...9(1/32)
O{off)/1{on}/2 {hola)
bit2=split on/off
Description
See Effect Type List
00:basic type
See Effect Type List
00:basic type
See Effect Type List
00:basic type
See Effect Parameter List
See Effect Parameter List
See Effect Parameter List
See Effect Parameter List
See Effect Parameter List
See Effect Parameter List
See Effect Parameter List
See Effect Parameter List
See Effect Parameter List
See Effect Parameter List
See Effect Parameter List
See Effect Parameter List
-64...+63
0...127
Description
-64...+63
0...127
0...127
-24...+24 (semitones)
-64...+63
0
0...127
off {0),on(l)
0...127
MIDI Parameter Change table ( User Performance Layer )
Address Size
(H) {H}
71 pp 00 1
01
02
03
04
05
Do pu A e
07 1
08 1
09 1
Da 1
0b 1
e 1
0d 1
0e 1
of 1
10 1
11 1
12 1
13 1
14 1
15 1
16 1
17 1
18 1
19 1
ia 1
1b 1
le 1
1d 1
le 1
1f 1
20 1
21 1
22 1
23 1
24 1
25 1
26 1
27 1
28 1
Total size 29
PP
1
Btw во pe
Layer]
;Layer2
;Layerd
;Layerd
‚ЗЕ
Knob6 Parameter] MSB
Knob6 Parameterl LSB
Knob6 Parameter? MSB
Knob6 Parameter? LSB
Knob6 Parameter3 MSB
Knob6 Parameter3 LSB
Knob6 Parameter4 MSB
Knob6 Parameter4 LSB
Knob6 Sensitivityl
Knob6 Sensitivity2
Knob6 Sensitivity3
Knob6 Sensitivityd
Knob3 Parameter
Arpeggiator Tempo MSB
Arpeggiator Tempo LSB
-64...+63 40(+0)
-63...+63 40(+0)
-63...+63 d0(+0)
-63...+63 40(+0)
°-63.. ‚+63 40 (+0}
ОЁЁ (0), оп {1) lien)
-64...+63 40 (+0)
- 63... +63 40 {+0}
-63...+63 40(+0)
-64...+63 40(+0)
1...127 Di
1...127 TF (127)
-64...+63 40 [+0)
-63...463 40(+0)
0...3(saw, tri, S&H, --) 3{--)
=31...+31 40{+0)
-63...+63 40(+0)
-15...+15 40 [+0)
-63...+63 40 (+0)
-63...+63 40 (+0)
-64,..+63 40{+0}
-63...+63 40{+0]
=64...+63 40{+0)
-63...+63 40 (+0)
Description Default
- Value (H)
Ascii Code I
- Ascii Coden
Ascii Codei
Ascii Codet
Ascii CodeP
Ascii Codee
Ascii Coder
Ascii Codef
‚ --,PÉ...Wy--
0...127 a - 64(100}
-64,.,+63 - 40(+0)
-64...+63 40(+0)
-64,..+63 40 (+0)
-64...+63 40(+0)
-64..,+63 40(+0)
-64,..+63 40(+D)
-64,.,.+63 40 (+0)
-64...+63 40(+0)
‚ =64...+63 40 (+0)
-64...+63 40 (+0)
: -64,,.+63 40(+0)
=64...+63 40 (+0}
-64...+63 40(+0)
-b4...+63 40 {+0}
-64...+63 40(+0)
-64...+63 40(+0)
-64...+63 40(+0)
-64...+63 40(+0)
layer1(0)...4{(3) 00{layerl)
of £(0},1...29 DO (off)
layer1[0).,.4(3) 01 (layer?)
Ofoff),1...29 00{off}
layerl(0)...4(3) 02 (layer3)
Oloff),1...29 00 [off)
layer1{0)...4(3) 03 (layer4)
O{off),1...29 D0 (off)
-32...+32 40 (+0)
-32...+32 40(+0)
-32..,+32 40(+0)
-32...+32 40 {+0}
ОЁЕЁ (0) ,1...16 00{off)
OQ (MIDI), 40(1)..240(201) 00 65(140)
Data
(H)
00...7F
00...7F
00...7F
00...03
28...58
00...FF
00...7F
00...7F
00...7F
00...7F
00...7F
00...7F
00...7F
00...7F
00...7F
00...02
00...7F
01...7F
01...7F
01...7F
01...7F
00,..03
00,.,7F
01...7F
01...7F
00...7F
01...7F
0i...7F
00...7F
01...7F
00...7F
21...5F
01,..7F
31...4F
01...7F
01...7F
00...7F
01...7F
00...7F
01...7F
Prameter Name
Voice Bank Number MSB
Voice Bank Number LSB
Voice Number
Play Mode
Note Shift
Detune
Volume
Velocity Sense Depth
Velocity Sens Offset
Pan
Note Limit Low
Note Limit High
Chorus Send
Reverb Send
Variation Send
LFO Key Sync
Filter Cutoff Freg.
Filter Resonance
Amp. EG Attack Time
Amp. EG Decay Time
Amp. EG Release Time
Receive Note (Mute)
PitchEG Initial Level
PitchEG Attack Time
PitchEG Release Time
PitchEG Release Level
Velocity Limit Low
Velocity Limit High
Amp. EG Sustain Level
LFO Speed
LFO Wave
LFO AMod Depth
LFO PMod Depth
LFO FMod Depth
FilterEG Attack Time
FilterEG Decay Time
FilterEG Sus Level
FilterEG Release Time
PitchEG Attack Level
PitchEG Decay Time
Performance Number (00... .7F)
Description
0...127
0...127
1...128
mono (0) ,poly(l)
-24...+24 (semitones)
-12.8...+12.7 (Hz)
1st bit3...0 >> bit7...4
0...127
D...127
-64...+63
random (0),L63...C..
C-2...G8
C-2...G8
0...127
0...127
off {0),on{l...127)
.R63
09 (UpDnBICct)
07(1/16)
00{off,.split on)
Default
Value (H)
01 (=Hallj
00 (basic)
41 (=Chorusl)
00 (basic)
05(=Delay L,C,R}
00 (basic)
Pepends On Vari. Type
Depends On Variation Type
Depends On Variation Type
Depends On Variation Type
Depends On Variation Type
bepends On Variation Type
Depends On Variation Type
Depends On Variation Type
Depends On Variation Type
Depends On Variation Type
Depends On Variation Type
Depends On Variation Type
40
40(+0)
0
Default
Value (H)
40(+0)
0ACIO)
0
42 {+2semitones)
40(+0}
00
0
O(off)
0
Default
Value (H)
00
00
00
1{poly)
40(+0}
08{+0.0Hz)
00
64 (100)
" 40164)
40{+0)
40 (С)
00 (С-2}
ЛЕ (68)
00
28 (40)
7F (on)
FreeRun({0),retrigger(1),-(2) 2(-)
-64,,,+63
-63...+63
-63...+63
-63...+63
-63...+63
ОЁЁ (0), оп (1)
- 64... +63
-63...+63
-63...+63
-64...+63
1...127
1...127
-64,,.+63
-63...+63
0...3{saw, tri, S&H,--)
-31...+31
-63...+63
-15...+15
-63...+63
-63...+63
-64...+63
-63...+63
-64., ‚+63
-63...+63
40(+0)
40(+0)
40(+0)
40{+0}
40{+01
1 {on}
40{(+0)
40(+0)
40 (+0)
40 (+0)
01
7E (127)
40(+0)
40(+0)
3{--)
401(+0)
401(+0)
40 (+0)
40(+0)
40(+0)
40(+0)
40{+0}
407+0)
40(+0}
Date:26-MAR-1996 CS1x
YAMAHA [| Control Synthesizer---synthesizer part |]
Model CS1x MIDI Implementation Chart Version 1.0
re EE == == == == am == Am Gm == ее ео == == = = == =. a 25 MW E A ME AA EE mk am am a
: Transmitted Recognized Remarks
Function : :
peon bom mm mmm mem oe + += mmm
:Basic Default 1 - 16 1 - 16 Memorized
:Channel Changed 1 - 16 1 - 16
EA ALL - +=---------- —————
Default 3 1 - 4(m=1) : Memorized
Mode Messages x l - 4(m=1) *2: |
Altered Kk kkk ok kok AAA AAA Y : :
ÑO — — — = ----- +------------- -----------------+----------------!
Note : 0 - 127 0 - 127 *1: Transpose
: Number True voice: ****XXXXXXKXXKX 0 - 127 : |
2------2--- = = — ЧР == = ет тт ев == == = = = = = = = = == Ч == == == == == == = == = — = = = = = — о = = == == = ет = = == = = = = = = $
:Velocity Note ON : 0 9nH,v=1-127 : o v=1-127 0
: Note OFF : x 9nH,v=0 x :
A Je ALL) += = = = = = = = = = = = = = = — ‹
After Key's ох O *1:
Touch Ch's : x O #1:
a неее,
Pitch Bender O о 0-24 semi *1:
TAE Ass = ®
0,1,7,11,32,64 : o o *1:
5,10,65-67 : x o *1;
6 : O O . :iData Entry MSB
38 : x oO :Data Entry LSB
Control 0-95 : o O :Assignable Cntrl:
71-74 O O :Sound Controller:
Change | 84 X O :Portamento Cntrl:
91,93,94 : x © :Effect SendLevel:
96,97 : x o *1:Data Inc, Dec
98,99 : x O *1:NRPN LSB,MSB
100,101 : x O *1:RPN LSB,MSB
| 120 : x e :All Sound Off
121 : x : O | :Reset All Cntrls:
poe CCC mm SOA O0 000»
: Prog : © 0 - 127 о 0 - 127 *1:
:Change : True + KEK Kk kkk kkk 0 - 127
‚ен nm me an em не.
System Exclusive : © O *3:
aaa LL 0 A LE ME
:System song Pos : x x :
: Song Sel X X :
:Common : Tune X x :
№ ое === == == === === === == те ES UT mm am Gas mm we mm +--------- = == == == == ее т ое == == == == == == = ее «| == == == == == == == == == == == == — — — — .
: System Clock X X :
:Real Time :Commands: x x :
{неее -- a O fmm
Aux :Local ON/OFF X : Xx :
:All Notes OFF: x : 0(123-127) *1:
Mes- :Active Sense : © : O :
sages:Reset X : X
pea mm ae!
Notes:*1 receive if filter switch is off.
*2 m is always treated as "1" regardless of its value.
: *3 transmit/receive if exclusive switch is on.
+ PE A EE PE
Mode 1 OMNI ON, POLY Mode 2 OMNI ON, MONO O Yes
Mode 3 OMNI OFF, POLY Mode 4 OMNI OFF, MONO X No
CS1x
Ш ля КН ЭЛ
AER E
7X MER TA b
T1 | RAM READ/WRITE OK/NG
T2 | BATTERY OK/NG
T3 | LCD Fy FE/H
T4 | PANEL SWITCH/LED OK. ON/OFF
T5 | MIDI | OK/NG
T6 | HOST SELECT OK/NG
T7 | TO HOST OK/NG
T8 | WAVE ROM OK/NG
T9 | 1k Hz OUTPUT-L HE
OUTPUT-L: +5.0 +2 dBm (87 10k ©)
OUTPUT-R: -70.0 dBm LUF (M 10k Q) .
PHONES(L): -1.8 £2 dBm (#18 33 ©)
PHONES(R): -65.0 dBm ELF (&7fF 33 Q)
T10 | 1k Hz OUTPUT-R EE
OUTPUT-R: +5.0 +2 dBm (E7 10k Q)
OUTPUT-L: -70.0 dBm LU F (6% 10k Q)
PHONES(R): -1.8 +2 dBm (&% 33 Q)
PHONES(L): -65.0 dBm UT (#18 33 Q)
T11 | EQ-LOW XF
T9 +15 +1 dB
T12 | EQ-HIGH EE
T10 57) +1.5 +1 dB
113 | KEYBOARD
T14 | FX DRAM
1k Hz +3 Hz, 1EXZXE. +5.0 +2 dBm (E 10k Q)
T15 | 32CHXH
Riek
T16 | KNOB1 (ATTACK)
OK/NG. 64—127—00—64
T17 | KNOB (RELEASE)
OK/NG. 64—127—00—64 _
T18 | KNOB 3 (ASSIGN 1/DATA)
OK/NG,. 64—127—00—64
T19 | KNOB4 (CUTOFF)
OK/NG. 64—127—00—64
T20 | KNOB5 (RESPONSE)
OK/NG, 64—127—00—64
T21_ | KNOB6 (ASSIGN 2)
OK/NG, 64—127—00—64
T22 | PITCH BEND
OK/NG. 64—127—00—64
123 | MODULATION WHEEL
OK. 0—10-120—127—120-10—0
T24 | FOOT VOLUME
OK. 0—10-120—127—120-10—0
T25 | FOOT CONTROLLER(QS)
OK. 0—10-120—127—120-10—0
T26 | FOOT SWITCH
OK. off—ON
T27 | FACTORY SET
OK/NG, HE
T28 | EXIT (NOISE LEVEL)
OUTPUT(L, R): -83.0 dBm LUF (8% 10k Q)
PHONES(L, R): -90.0 dBm LUF (fi 33 Q)
MER: ACH Ay AUT, VA (IS-.C71)7—68) , EXE (FLAT)
КРУ
47
A TARANTO S ADEE)
[0] E [-] & [ENTERJO A 1 Y FE MICHEL 77
DE, ENAXIb ET2ENXDEMENER SNE
4.
Test Mode
НН. ##
LIB<IZE, AOHHÄZRENZOT,
[PROGRAM-], [PROGRAM+], [ENTER]5B UU
[PERFORMANCE] В СЯ HOERZA1
VET,
01 RAM
В. 7206
TANTOS AERMIS E, XOBENER
ХИН,
01 КАМ
[PROGRAM-]. [PROGRAM+]. [ENTER]. Bk
[PERFORMANCE] 2H L TF ZX Fh DER %
TET,
[PROGRAM+] #9 &, HEZERINTWBET
Z >OXDFA bNÉREI, TA NRENER
EJ,
[PROGRAM-|EH§ & HEER ZN TNE FR
>D—2I MOFA HERA, TA PRADA
RENE, |
[ENTER]: >. SEERINTUZ52 hit
HITSNES. TANDEÏT ER OK735, €
DTA PUEDTAHMERSIT STET.
[PERFORMANCE] 23 &, FA RTF 5 A
ЭГО.
C. NGEHHUEEEDTAFDÉDH
TAMETHRRE LS —NHEETSHE, TITER
ZITO TCT AMIEEDET, ZDEER,
[PERFORMANCE] RH UTILISE RIDE
7=#%. [PROGRAM+] & [PROGRAM-]Z Ef L TC,
НОЛАН не ОВ,
€ UT, [ENTERJEHUTTFANEEIT LES.
CS1x
D. = Хх
[7] 18] E [9D 21 Y FA ha ABMS.
НИНУ Бе, Я = 7 71 ATEN
E3, ,
T1. RAM READ/WRITE
01: RAM R/W
SRAM D 71 h/—-E/XI77152 Han,
В ТОЙ,
HERRORT
OK 01: RAM R/W
OK
NG 01: RAM R/W
NG
FR FORT HE
WEGREEALT, ÉTLET,
€ th | |
INTORAMT—5l1, ВЕНЕВ,
T2. BATTERY
02: BATTERY
RAM ON9 277 vy IN 51) — DEER, 2.8V
D5 3.5 V OMA H2%, ABE y7
LEÍ,
HERERORT
OK 02: BATTERY
OK
NG 02: BATTERY
NG
FR MOET HE
HIERKEZ2ERLT, TUE,
48
CS1x
49
OK 04: SW LED
T3. LCD o |
FALDA ENSE, LCD OE Fy RARE
FIZ7U 7 LETOT, BRIZEZDE RY BAS
ЕЕ СЫ СЕЙ.
FTANDET HE
RIE =. FA HL, RDFA b
CET,
T4. PANEL SWITCH
04: SW LED
Scene? _
[SCENE2]):5X JV AE TD [EDIT SW-101%T
О ЛЖ АЛ У ВВ, LCD DERIZÉST
ON/OFF L £79
NAVAS y FMNEEICEMEL, LED NX $
HI EEE LET, |
04: SW LED
Scene?
[SCENE2], [SCENE1]D Z 1 wv FMRIER HE,
Z1 FE ON LTWUSlI, YZo LED XA
NUTEZBENKEE LES, AF OFFY
Z&, LED IIHT СОН НОЖ,
=, [SCENE2], [SCENENXA4+9227 1 y Fs
OFF 717-465, XML EDEZ,
LCD ZERENRAS1 VTFEIRKF I 7 Ls
IXTOFIJIMER TS, LCD |
(ОКОН,
25. LCD ZAERENTWENAA м РЕЙ,
СЪ, КЕ Л,
ПЕЖО т
0K
NG RTL
FRTOAA vFNEREHE ENS E, LCD
iC OK ERFRENT, FA MKT LET.
NG 05: MIDI
OK | 06: HST SEL
T5. MIDI
05: MIDI
MIDI IN #7 & MIDI OUT ##- #, MIDI 7—
TIVEESLIEÉZ TA b еж.
HEBRDOERT
OK | 05: MIDI
OK
NG
FA DBT HE
[ENTER] ZH 3 &, TZ MIKT L. ROT b
ЖАН,
T6. HOST SELECT
06: HST SEL
Mac
FT ALMA, HOST SELECT AX y FA,
[Mac] DNMEIZEY hENTWBH EEE, AT 7
FAX, —E [Mac] AN DEN LT [Мас] М
ВОС, Гл НЕФТИ,
LCD DARIZMÉ>T,. HOST SELECT AT yF
2, Mac]ı# 5 [MIDIE CHOÉA ES, AT 7
FUERTE. IEA LES,
HEREORR
0K
NG EARL
TANDET HA
INTOMÉTAS Y FRE E MBEN5SE,
LCD IZ OK &FERENT, TA PMIKTULET,
T7. TO HOST
07: TO HOST
IDF AME, THEHATREMROT AMT, EH
Вей ЕОс, СОН СЕНА,
тАк со ОС,
[PERFORMANCE] Z# LT IS — ЛЯ,
[PROGRAM+] ¿ [PROGRAM-] 4 E) СВО
А КК СЕМ, |
T8. WAVE ROM
08: WAVE ROM
TA MNEFTEND &, WAVE ROM DF—9F.
= EBENE,
НЕО
OK 08: WAVE ROM
OK
NG 08: WAVE ROM
NG |
FA FORT HE -
MEMEZARLT, KM7LET,
T9. 1k Hz OUTPUT L 3:5
09: OUT L
OUTPUT-L BL PHONES), ЕЖЕ
ЭН КИС Со.
OUTPUT-L, OUTPUT-R, PHONES(L/R)3t 1
TITRÉLAZ, EMPORRER, HAB.
MILE, ERE 729—, i70X1—
7, UNIVËt (JIS-C 74 VF —f1&) TEAL
xd.
COLE, VOLUME 17 Ho Е
$, EZ XEM, LCD KALFDOLIKERE
NET,
09: OUT L
Doing
FIBA
OUTPUT-L: 1kHz +1.5 Hz, 1JE%, +5.0 +
2dBm (21 10k О)
-70 dBm A FT (Af 10k 9)
1k Hz +1.5 Hz, 155%. -1.8 +
2dBm (Af 33 Q)
PHONES(R): -65 dBm UF (£2%7 33 0)
OUTPUT-R:
PHONES(L):
TANDETHE
[PERFORMANCE] Z#9 &, EEN ГС.
TANBBEDANFELDIREIZZD ET,
[PROGRAMH-JZ2 Hd >. XEDNK7LT, XD
ОА ВЕКЕ.
T10. 1k HZ OUTPUT R RE
10: OUT R
OUTPUT-R 5 EU PHONES(R)k 0. FRA
ENHAINTWAZ E2HERL E79,
OUTPUT-L. OUTPUT-R, PHONES(L/R) К
TÜRE EHRE, HR.
MAL NE, ARO 729—, 47041—
7. УСО (JIS-C 7437-43) TEL
= | |
DEE, VOLUME 27 hHOo—MNIÉEXE LE
3, EHE, LCD ZUFDOEIRRE
NET,
10: OUT R
Doing
ту 7188
OUTPUT-L:
OUTPUT-R:
-70 dBm LP (E 10k ©)
1k Hz +1.5 Hz, 1E5%3. +5.0 +
2dBm (ff 10k Q)
PHONES(L): -65 dBm LT (Em 33 Q)
PHONES(R): 1kHz +1.5 Hz, EX, -1.8 +
2dBm (AM 33 Q)
FA FDET Hik
[PERFORMANCE] EH <. SEED IUT,
FA BERDANEE ORERZS DT.
[PROGRAM+] 2 #9 &, REMET LT, KD
FAbNEHENET.
CS1x
50
Csix
51
T11. EQ OUTPUT-LOW 3%
11: EQ LOW
OUTPUT 0, ¡EE72/55XH] <NTWNZC
EEHRLET,
HHL) 2, Fax a—7, LVEF (FLAT
TANF —) TERMLET,
CDEE, VOLUME OV FO—VIRKELEX
9, EEE, LCD ZUFDRITERE
NET,
11: EQ LOW
Doing
Fv IEE |
OUTPUT-L: T9 THIEL 1k Hz O LN VIZ
UT, +15 +1 dBOH HE
HBT EL |
OUTPUT-R: T10 THIEL 1k Hz 9 LI
HUT, +15 +1 dB OHHEZ
BASTE
TA FORT AA
[PERFORMANCE] ZH &, FEIT LT,
TARBEDANFHL DIREIZRD ET,
[РЕОСВАМ+| #3 5, ЖМЖ ГС, XD
FA NNEmENEZ,
T12. EQ OUTPUT-HIGH RE |
12: EQ High
OUTPUT XD, IFRIREBNHHENTUST
LÉMELET,
HALLE, AZ0XI—7, LN)ILE (FLAT
74)79—) TELE,
ZOLE, VOLUME 17 ho—)IÁimkA LE
$, EZX Ad, LCD KARORITERE
NEY, | Е
12: EQ High
Doing
Fv IEE
OUTPUT-L: T9 ЖЕ СОЛЕНОЙ ИЛИ СС,
+2.0 *1dB OHANH BH &
OUTPUT-R: T10 CBE L7 87) LN IZA L
T, +2.0 +1 dB IHINHZDC E
TA FORT AR
[PERFORMANCE] Z#9 &, EENKT LT,
FA -BESDANEEDIREÉNITO ES,
[PROGRAMHE 3 <, XESDRKI7LT, XD
TAME ENES,
— T13. KEYBOARD
13: KEYBOARD
C12506 KTD6G1EZ, Z7— JZY7LT,
TRTDEBNEREICHET SZ E2HEL EX
+.
13: KEYBOARD
G#3
(GHB DF v7 DHE)
LCD OZExIZME>T, BEE KEY ON LEY,
ER AGA, TORRE CE EEDIERZIEA
MANE, LCD ITRRESN TW HEBEL
ZKEYON LTH, HONEY,
TRTOBBNEFEICF zy 7 ahhnid. LCD
[COR &EFEREINET,
HEGROKAK
OK 13: KEYBOARD
OK
NG Хо |
TANDETHIR
TRTOEBNEFICF oy 7 Innid, LCD
IZ OK &FRENT, TAMIR TLET,
T14. EFFECT DRAM
14: FX DRAM
OUTPUT ED, 1EKX7ME5X ИСО с
EHR LET,
HALNVE, AZ0XI—7, LNJLAL (JIS-C
74 7—ME) TEL 7,
ZDEÉZ, VOLUME I: POLAR LE
$ (ETS, 2D FEAT BCE) . EX
EHRl, LOD KUFOKIKÉÈRÈNET,
14: FX DRAM
Doing
ту 7 ВВ о
OUTPUT-L: 1k Hz +3 Hz, EX, +5.0 +2
dBm (Bf 10k Q)
TA PORT A
[PERFORMANCE] 29 &. BEIT LT,
TARNBEDANFLDREIZRD ET,
[PROGRAM+]EHS &, HEMÉTUT, KM
TABMNETEINET,
T15. 32CH HE
"15: 32¢hOUT
OUTPUT DD, 1E7M2 5 <NTNZ5Z
ОИ.
HAL NA, AZ70XI—7, LNIVAF (JIS-C
7 4 —F&) TEAL ET, |
CDEE, VOLUME I1Y FO—JLIEXEUEX
do. EZ HI, LCD CATOLITERS
NEI,
15: 32chOUT
XX уу
(xx: MELch TEEL TWAF¥ RIVES.
yy: HE Rch THE L TWA Fv XLS)
(xxx: BED KNOB1 DfEE)
OK 16: Knobl xxx
OK
CS1x
FivIBB |
EII 0,32 ENIERIZE IND TARMBD
LET, |
zz, НОВОЕ TAS KT.
(L ch= 1k Hz. R ch=2k Hz)
TA FDIET HI
[PERFORMANCE] &#PS E, ER LT,
TARBESDANFHELDREIZIRD ET,
[PROGRAMH ZT &, FEMKTLT, KO
TA BRBRETEINEXT,
T16. KNOB1 (ATTACK)
16: Knobl xxx
064
Knobl DIE CNET DCEEMALET,
Knobl #, LTD X57: LCD OERIZHE-S С,
64—127—00—64 (FR —E—F—fR) ¿, {F&F
БЗК,
16: Knobl xxx
yyy
(xxx: HITED Knobl DALE. yyy: KD HEME)
HAEBEROERT
NG ERAL
FA NORTH
HERMRERRLT, KMITLEJ,
T17. KNOB2 (RELEASE)
T18. KNOB3 (ASSIGN 1/DATA)
T19. KNOB4 (CUTOFF)
T20. KNOB5 (RESONANCE)
T21. KNOB6 (ASSIGN 2)
ИНО тля Hi, T16 KNOBI1 E FMERIZET
x‘.
52
CS1x
53
T22. PITCH BEND
22: P.B xxx
000 |
(xxx: BED PITCH +1 —), Ofi)
PITCH 3547 —UNERIZEMETS ¿CZK L
9.
PITCH HT —)V#, FOX 57% LCD DERI
fÉ> CT, 64—127—00—64 (FX—k-— FH
№) E, 5MICHIMNLET,
22: P.B xxx
y Y Y
(xxx: HED PITCH RA — ONE, yyy: KX
ODER)
EE SR
OK 22: P.B xxx
OK
NG EL
TANDA
HERREZRLT, KMITLEJ,
T23. MODULATION WHEEL
23: MW xxx
000
(xxx: HE) MODULATION +41 — ЛОМ
=) | |
MODULATION +1 — МЕЖ ВЕ 5 ©
HER L Ed. |
MODULATION +41 —, 2, LU FOX 57% LCD
DERIZÉT, 00-127-00 (F- E-P) €.
FEAT,
23: MW ххх
yyy |
(xxx: ЕО MODULATION 31 —)L OfriE,
ууу: КОНЕ)
HERO RA
OK 23: MW xxx
0K
NG ERA L
AE RER LT, BTL ES.
T24. FOOT VOLUME
24: F. Vol xxx
000
(xxx: RED FOOT VOLUME DALE)
FOOT VOLUME SEE 12832. ¿2MKEDL
EY,
FOOT VOLUME #, U' FOX 3% LCD D&T
IZ T. 00—127—00 (F—E—TF) &. #5
MZEIMA LU ET,
24: F. Vol xxx
| yyy
(xxx: BED FOOT VOLUME DALE. yyy: X
О ВНЖ)
HEEE
OK 24: F. Vol xxx
0K
NG RTL
7 А НОЖ ГЛ
Не Ват С, ЖЛЬ НЗ,
~ T25. FOOT CONTROLLER
25: F. Cont xxx
000
(xxx: HED FOOT CONTROLLER ОБЕ)
FOOT CONTROLLER DE E | UC CEE
MEL EJ.
FOOT CONTROLLER Z, UFO EL D572 LCD ©
ZAR T, 00-127-00 (F-E-— = &,
BONEN LET,
25: F. Cont xxx
y y y
(xxx: IED FOOT CONTROLLER DALE.
ууу: RO HE)
HEROE
OK 25: F. Cont xxx
OK
NG ER
FR FORT HE
HMESEXZERLT, KMYLEJ,
T26. FOOT SWITCH
26: F. SW off
ON
FOOT SWITCH ANSE DIE
Ze, MILES,
FOOT SWITCH %, LCD DERKMIT
ON/OFF LET,
26: F. SW xxx
yyy |
(xxx: BED FOOT SWITCH DIRE. yyy: X
MIKÉE) |
ПЕЙ ОТ
OK 26: F. SW off
OK
NG FRILL
TA ORT Hz
HERR ZERLT, BTLET,
T27. FACTORY SET
27: FACTORY
ET—7 E MHMLLT, LHMANT— 917 k
LEY,
[ENTERJEH$ E,777b)—Ty hEXfTL
et, РАПН О Ле ГВ.
Tr I RU—ty FETT 5 E. £F— 511K
DESIZEy HINnEt,
SYSTEM SETUP |
MASTER TUNE +0 (cent)
MASTER VOLUME a 127
TRANSPOSE E +0
MIDI PERFORMANCE RECEIVE CHANNEL 1
MIDI DEVICE NUMBER ALL
SOUND MODULE MODE РЕМ.
KEYBOARD TRANSPOSE | +0
KEYBOARD VELOCITY CURVE NORMAL
KEYBOARD FIX VELOCITY OFF
KEYBOARD VELOCITY TRANSMIT CHANNEL 1
MIDI LOCAL | | ON
MW CONTROL NUMBER | 1
FC CONTROL NUMBER 16
FV CONTROL NUMBER 17
KNOB1 CONTROL NUMBER 74
KNOB2 CONTROL NUMBER | 71
KNOB3 CONTROL NUMBER — 73
KNOB4 CONTROL NUMBER 72
KNOB5 CONTROL NUMBER - | 11
KNOB6 CONTROL NUMBER | 18
FOOT SWITCH CONTROL NUMBER 64
SCENE CONTROLLER | MW
SCENE MODE OFF
USER PERFORMANCE
FACTORY SET 7 — Y à! , 128 USER
PERFORMANCE 7}, ROM Е 0 ВЖЕ y +
INET,
Hi К ВВ
MODE PERFORMANCE MODE
PERFORMANCE 45 PRESET 1
НН йо У КВ К. SOUND CONTROL
KNOB 4873 < EDIT MARK HH TLEID
TC, XIZ KNOB 4% КЕМ y HUTÁ5,
НЯ Км ВОСКА,
AEG ATTACK KNOB Ho
AEG RELEASE KNOB Ho
FILTER CUTOFF KNOB ga
FILTER RESONANCE KNOB Hg
ASSIGNABLE KNOB1 HE
ASSIGNABLE KNOB2 Hr
EDIT PARAMETER SELECT KNOB —% E
NALBREDELZ HAT Y F)
VOLUME KNOB B/N
PITCH BEND WHEEL pa
MODULATION WHEEL БЫЛ
HOST SELECT SW MIDI
CS1x
54
CS1x
55
T28. EXIT
28: EXIT
[ENTER] ZH TE. TAN TOTS LEKRTLE
To
Tv U—ty hEEFTLTTFAREKRTL
2, —ELERFT—ZONLTWAEWEED
A XUL, A TOMBEITHZD- -EMBLT
Fäh, |
BlrE IZ rd, LNILÁF JIS-C 775)
ÉHUTFEW, | |
OUTPUT-L: -83 dBm LF (Ef 10k Q)
OUTPUT-R: -83 dBm LF (2 10k Q)
PHONES-L: -90 dBm LF (2mf 33 ©)
PHONES-R: -90 dBm LF (25 33 Q)
Ш МО — 2 7 + — Ху bh
CS1x
F7H
F7H.
F7H
F7H
F7H
F7H
F7H
F7H
F7H
У; “ЛА
[MIDIF'~ #74 —75 В] №, Р-Р ЛЕЕВ Н ООН, ВЕНОК СОСО 8 у, 1БЕВОВ СОСТОЯ 776949 p
LH(Hexadecima PH Tv 34, EZ, WEDER EL ET, ие
JAN ZB, MOFA ZEHN (1) 1616
swi
MIDI<-[])-+---NOTE ON/OFF 9nH
OUT | i -
| +---CONTROL CHANGE
BANK SEL MSB EnH, 00H
BANK SEL LSB BnH, 20H
MODULATION BnH, 01H
EXPRESSION BnH, OBH
FOOT CONTROLLER BnH, 10H
6 SUSTAIN SWITCH 8nH, 40H
7 HARMONIC CONTENT BnH, 47H
RELEASE TIME BnH, 48H
7 ATTACK TIME BnH, 49H
72 BRIGHTNESS BnH, 4AH
7 ASSIGNABLE Вон, 00H. . .S5FH
7 +---PROGRAM CHANGE CnH
7 | |
7 | +---PITCH BEND CHANGE EnH
| sw2
7 +[]-+---8YSTEM EXCLUSIV MESSAGE
7 <BULK DUMP>
------- XG SYSTEM FOB 43H OnH 4CH bbH bbH aaH aaH aaH ddH.....ddH ccH
7 -[SW3}- MULTI EFFECT FOR 43H OnH 4CH bbH bbH aaH aaH aaH ddH..... ddH ccH
-[SW5}- MULTI PART FÜR 43H OnH 4CH bbH bbH aaH aaH aaH ddH..... ddH сен
==-=--- DRUM SETUP FOH 43H OnH 4CH bbH bbH aaH aaH aaH ddH.....ddH ccH
>. SYSTEM INFOMATION FOH 43H inH 4CH bbH bbH aaH aaH aaH ddH.....ddH ècH
==-=--- USER PERF . COMMON FOH 43H OnH 48H bbH bbH 70H aaH aaH ddH.....ddH ccH
——————- USER PERF, LAYER FOH 43H OnH 4BH bbH bbH 71H aaH aaH ddH.....ddH ccH
-(SW4]- CURRENT PERFORMANCE FOH 43H OnH 4BH hhH hbH 60H 01H aaH ddH..... ddH ccH
------ CSlx SYSTEM FOH 43H OnH 4BH bbH bbH 50H aaH aaH ddH.....ddH ccH
<PARAMETER CHANGE:
————— MIDI MASTER TUNING FOH 43H 1nH 27H 30H 00H 00H mmH 11H ccH F7H
——— XG SYSTEM FOH 43H inH 4CH aaH aaH aaH ddH.....ddH F?H
-[SW3]- MULTI EFFECT FOH 43H 1nH 4CH aaH aaH aaH ddH..... ddH F7H
-[SW5)~ MULTI PART FOH 43H 1nH 4CH aaH aaH aaH ddH..... ddK F7H
------- DRUM SETUP РОН 43H inH 4CH aaH aaH aaH ddH.....ddH F7H
=------ USER PERF. COMMON FOH 43H inH 4BH 70H aaH aaH ddH.....ddH F7H
==----- USER PERF.LAYER FOH 43H 10Н 4BH 71H aaH aaH ddH.....ddH F7H
-{SW4!- CURRENT PERFORMANCE FOH 43H 1nH 4BH 60H O1H aaH ddH..... dal F7H
====--- CS1x SYSTEM FOH 43H 1nH 4BK 50H aaH aaH ddH..,..ddH F7H
+---+--- SYSTEM EXCLUSIV MESSAGE
| MIDI MASTER VOLUME FOH 7FH 7FH 04H 01H 11H mmH F7H
| IDENTITY REPLY FOH 7EH 7FH 06H D2H 43H 00H 41H ddH ddH
| 00H 00H 00H 01H F7H
+--- ACTIVE SENSING FEH
SWL [] MIDINZZAliy Hr AMUL-7141771E-FTOREN LS)
SW2 [1 MIDIF AHA AN UA OS, HI7Z4i7 HEEE ILITIIZZ)
sw [] Ye FE— Y
зма [] #17 + — оу АНК
SWS [] 2174+-—7/2€E-FTO5-16%— FÍN FE В
(2) TE
SWE
MIDI>-+-[]-
IN |
=== |
SW7
-[]-+--- NOTE OFF 8nH
|
+--- NOTE ON/OFF 9nH
|
+--- CONTROL CHANGE
BANK SEL MSB BnH, DOH
BANK SEL LSB BnH, 20H
MODULATION EnH, 01H
PORTAMENTO TIME BnH, 05H
DATA ENTRY MSB BnH, 06H
DATA ENTRY LSB BnH, 26H
MAIN VOLUME BnH, 07H
PANPOT BnH, OAH
EXPRESSION BnH, OBH
FOOT CONTROLLER BnH, 10H
SUSTAIN SWITCH BnH, 40H
PORTAMENTO SWITCH BnH, 41H
SOSTENUTO BnH, 42H
SOFT PEDAL BnH, 43H
HARMONIC CONTENT BnH, 47H
RELEASE TIME BnH, 48H
ATTACK TIME BnH, 49H
BRIGHTNESS BnH, 4AH
PORTAMENTO CONTROL BnH, 54H
REVERB DEPTH BnH, 5BH
CHORUS DEPTH BnH, 5DH
- VARIATION DEPTH BnH, SEH
¡7 — > DATA ENTRY INC BnH, 60H
DATA ENTRY DEC Bn#, 61H
° КОТ TARTS, AoE ZED 144 ~ 159010: $)/90H/1001 0000 — 1001 NIIQIÉRDE, ENEN(1—-16)F+*7 AED
12-hA7274t—74RLEI4, 176-191/B0Hf1011 0000— 1011 111114, ER EN —-16)5 Y 7 AN ZEDIZ OF
vr VRR EFF 192-207/CnH/1100 0000— 1100 LINE, ENENA—-160)5 Y 7 TI ZENTOILFIIÍA»,
К-т. 240/F0H/1111 000011727 4A57X7—2727€E—7006EN ELIT, 247/FH/1111 OMITA
ТА АРА УХ) КОК) ЖЖ,
ASSIGNABLE CONTROLLER
NRPN
VIBRATO RATE
VIBRATO DEPTH
VIBRATO DELAY
FILTER CUTOFF FREQ.
FILTER RESONANCE
AEG ATTACK TIME
AEG DECAY TIME
AEG RELEASE TIME
DRUM INST
[ CUTOFF FREQ.
FILTER RESONANCE
AEG ATTACK RATE
| AEG DECAY RATE
PITCH COARSE
BiH, 00H. .5FH
BnH, 63H, 01H, 62H, 08H, 06H, mmH
BnH, 63H, 01H, 62H, 09H, 06H, mmH
BnH, 63H, 01H, 62H, OAH, 06H, mmH
BnH, 63H, OLH, 62H, 20H, 06H, mmH
BriH, 63H, 01H, 62H, 21H, 06H, mmH
BnH, 63H, 01H, 62H, 63H, 06H, mmH
BnH, 63H, 01H, 62H, 64H, 06H, mmH
BnH, 63H, 01H, 62H, 66H, 06H, mmH
- 2aH(16:€ 5)/Oaanaaaa(2:E£ E) 17—- SDT FL AR RL T+, 7 ELA, High, MidkLowbh i+,
- bbH/Obbbbbbbit 74 bh ry > MERLE,
* сеНИсссссее! Вх 7 УАТС,
BnH, 63H, 14H, 62H, rrH, 06H, mmH
BnH, 63H, 15H, 62H, rrH, 06H, mmH
BnH, 63H, 16H, 62H, rrH, 06H, mmH
BnH, 63H, 17H, 62H, rrH, 06H, mmH
BnH, 63H, 18H, 62H, rrH, 06H, mmH
- ddHAddddddd!1 7" — 9 HA + LET : |
| LEVEL EBnH, 63H, 1AH, 62H, rrH, 06H, mmH
| PANPOT BnH, 63H, 1CH, 62H, rrH, 06H, mmH
} REVERB SEND BnH, 63H, 1DH, 62H, rrH, 06H, mmH
56
CS1x
|
|
|
|
|
|
|
|
- | RESET ALL CONTROLLERS
|
|
|
|
|
|
CHORUS SEND
VARIATION SEND
REN
PITCH BEND SENS
FINE TUNING
COARSE TUNING
RPN RESET
ALL SOUNDS OFF
ALL NOTES CFF
OMNI MODE OFF
OMNI MODE ON
MONO MODE
POLY MODE
+--- PROGRAM CHANGE
|
+--- CHANNEL AFTER TOUCH
+--- PITCH BEND CHANGE
SW2
—[]-+--- SYSTEM EXCLUSIV MESSAGE
| <BULK DUMP>
|-----—- XG SYSTEM
|-{SW3]- MULTI EFFECT
|-{SW5]- MULTI PART
USER PERF.COMMON
USER PERF.LAYER
!-[SW4]- CURRENT PERFORMANCE
i CS1x SYSTEM
<PARAMETER CHANGE>
MIDI MASTER TUNING
XG SYSTEM ON
XG SYSTEM
-[SW3}- MULTI EFFECT
|- [$W5]- MULTI PART
DRUM SETUP
USER PERF. COMMON
USER PERF.LAYER
-{SW4]- CURRENT PERFORMANCE
CS1x SYSTEM
<BULK DUMP REQUEST>
XG SYSTEM
-[SW3]- MULTI EFFECT
-[SW5]- MULTI PART
------- DRUN SETUP
SYSTEM INFOMATION
USER PERF .COMMON
USER PERF .LAYER
- [SWá]- CURRENT PERFORMANCE
CS1x SYSTEM
<PARAMETER REQUEST>
XG SYSTEM
-[SW3}- MULTI EFFECT
~[SW3}- MULTI PART
-[SW3}- DRUM SETUP
USER PERF . COMMON
USER PERF.LAYER
|-[SW4]- CURRENT PERFORMANCE
CS1x SYSTEM
-+--~ SYSTEM EXCLUSIV MESSAGE
GM MODE ON
MIDI MASTER VOLUME
IDENTITY REQUEST
> +--- SYSTEM EXCLUSIV MESSAGE
|--- PARAMETER CHANGE
| TEST ENTRY
! LCD HARD COPY
|
+--- ACTIVE SENSING
BnH, 63H, 1EH, 62H, rrH, 06H, mmH
BnH, 63H, 1FH, 62H, rrH, 06H, mmH
BnH, 64H, 00H, 65K, 00H, 06H, mmH
BnH, 64H, 01H, 65H, 00H, 06H, mmH, 26H, 11H
BnH, 64H, 02H, 65H, 00H, 06H, mmH
BnH, 64H, 7FH, 65H, ?FH
BnH, 78H, 00H
BnH, 79H, 00H
BnH,
BnH,
BnH,
BnH,
BnH,
FOH
FOH
FOH
78H
7CH
70H
TER
ТЕН
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
43H
7EH
7FH
7EH
43H
43H
2nH
2nH
2nH
2nH
2nH
3nH
3nH
3nH
3nH
3nH
3nH
3nH
7FH
7FH
OnH
10H
10H
4CH
4CH
4CH
4CH
4BH
4BH
4BH
4BH
27H
4CH
4CH
4CH
4CH
4BH
4BH
4BH
4BH
4CH
4CH
4CH
4CH
4CH
4BH
48H
4BH
4BH
4CH
4CH
4CH
4CH
4BH
4BH
4BH
48H
09H
04H
06H
18H
18H
bbH
bbH
bbH
bbH
bbH
bbH
hhH
30H
DOH
aaH
aaH
aaH
70H
71H
60H
50H
aaH
aaH
aaH
aaH
aaH
70H
71H
60H
50H
01H
01H
01H
ВАН
bbH
bbH
bbH
bbH
bbH
hbH
bbH
00H
00H
aah
‘aaH
aaH
aaH
aaH
aaH
01H
aaH
aaH
aaH
aaH
aaH
aaH
aaH
01H
aaH
aaH
aaH
aaH
aaH
aaH
01H
aaH
F7H
11H
F7H
00H
01H
aaH
aaH
aaH
aaH
70H
71H
60H
S0H
7EH
aaH
aaH
aaH
aaH
aaH
aaH
aaH
aaH
aaH
aaH
aaH
aaH
aaH
aaH
aaH
aaH
aah
aak
aaH
aaH
aaH
aaH
aa
aaH
пи
F7H
F7H
aaH
aaH
aaH
aaH
aaH
01H
aaH
mmH
00H
Чан
ddH
ddH
dd
dd
F7H
F7H
F7K
F7H
F7H
F7H
F7H
F7H
F7H
F7H
F7H
F7H
F7H
F7H
F7H
F7H
F7H
F7H
aaH
aaH
aaH
aaH
aaH
aaH
aaH
aaH
MIDIL SY —7F 4 5307+ AE— FEL, 2—F 1) F1E-FTOHEEIZLED)
SW2 [) MIDI FA A+7/—
SW3 [] 711FE-EF
SW4 [1 74-772€-F
SW5 [] 74+-772€-FTOS-161- Ed FE
Ssw6 [] LY-77117-
#1 Ber NFFLDE EDA
SN7 []
(3) 28 / 26
(3-1) CHANNEL VOICE MESSAGES
(3-1-1) NOTE OFF(S:159 4)
STATUS 1000nnnn (8nH}
NOTE NUMBER Okkkkkkk
Ovvwwvwww
VELOCITY
(3-1-2) NOTE ON/OFF
STATUS 1001nnnn (9nH}
NOTE NUMBER Okkkkkkk
VELOCITY Ovvvwvvvv
00000000
57
п =
0 ~ 15 VOICE CHANNEL NUMBER
k = 0 (C-2)
vid EH
n
k
k =
k
(v¥0) NOTE ON
{v=0) NOTE OFF
> 127 (68)
= 0 >- 15 VOICE CHANNEL NUMBER
= 0 {C-2) ~ 127 (68): 548%
36{C1) ~ 961C6) : A
= 0 (C-2) ~ 127 (68): 77 24—-X$% E CIENTE
a.
F7H
Fd
F7H
F7H
F7H
F7H
F7H
F7H
F7H
ccH
сен
ccH
сен
сен
сен
ccH
сен
F7H
F7H
РН
5H
F7H
F7H
F7H
F7H
(3-1-3) PROGRAM CHANGE
STATUS
PROGRAM NUMBER
1100nnnn (CnH} n =
OppppEPD
0 — 15 VOICE CHANNEL NUMBER
p= 0 + 127
* XG DRUM VOICE$S & PROGRAM NUMBER © О НЕ
P=1 DR1 Standard
Р = 2 DR2 Standard2
P= 9 DR3 Room
P = 17 DR4 Rock
P = 25 DRS Elctrnic
P = 26 DR6 Analog
P = 33 DR7 Jazz
Р = 41 DRS Brush
P = 49 DRY Classic
*XG SFX KITES &£ PROGRAM NUMBER & OMI:
FILE ABN TNZDERIZEN2 FIAR ADO FAL IEEE, TOMFIAR(ATCIEMLT
1
2
DR10
DR11
SFX1
SFX2
ол Ко АН ВТУ ТР MLOFIANIADI IE REND,
(3-1-4) CHANNEL AFTER TOUCH (594)
STATUS 110innnn {DnH) n = 0 ~ 15 VOICE CHANNEL NUMBER
VALUE 0vvvvvvv v = 0 - 127 AFTER TOUCH VALUE
(3-1-5) PITCH BEND CHANGE
STATUS о 1110nnnn (EnH} п = 0 - 15 VOICE CHANNEL NUMBER
LSB Ovvvwwvwv PITCH BEND CHANGE LSB
MSB Ovvvvvvv PITCH BEND CHANGE MSB
¡150 FREIE Toit
(3-1-6) CONTROL CHANGE
STATUS 1011nnnn (BnH) n= 0 - 15 VOICE CHANNEL NUMBER
CONTROL NUMBER Оссссссес
CONTROL VALUE Ovvvvvvv
* EST 2 CONTROL NUMBER
c=0 BANK SEL MSE ; v = 0:XG NORMAL,
63 :USER/PRESET PERFORMANCE,
64:SFX NORMAL,
126:XG SFX KIT,
127:XG DRUM
c = 32 BANK SEL LSB ; м = 0 - 127 *3
c= 1 MODULATION { \м = 0 - 127 *2
с = 11 EXPRESSION { \м = 0 - 127
с = 16 FOOT CONTROLLER rw = 0-127 *2
c = 64 SUSTAIN SWITCH : V = 0-63:0FF , 64-127:0N *2
c=171 HARMONIC CONTENT { мо = 0:-64 - 64:0 - 127:+63 *2
с = 72 RELEASE TIME : V = 0:-64 - 64:0 - 127:463 *2
c = 7 ATTACK TIME : V = D:-64 - 64:0 - 127:+63 *2
с = 74 BRIGHTNESS { V = 0:-54 - 64:0 - 127:+63 *2
с = 00..95 ASSIGNABLE CONT ; v = 0 - 127 *2
* 2184 2 CONTROL NUMBER
c= 0 BANK SEL MSB ; vos 0:XG NORMAL,
63 :USER/PRESET PEROFRMANCE/VOICE,
64 :SFX NORMAL,
126:XG SFX KIT,
127:XG DRUM
c = 32 BANK SEL LSB : v = 0 - 127 * 3
с= 1 MODULATION р чм = 0 - 127 *2
c= 5 PORTAMENTO TIME { \м = 0 - 127 *2
c= 6 DATA ENTRY MSE ; v = 0- 127 "1
c= 38 DATA ENTRY LSB ; v = 0 - 127 *1
c= 7 MAIN VOLUME ; v= 0-127
c = 10 PANPOT : { м = 0 - 127
cell EXPRESSION ; v = 0 - 127
с = 16 FOOT CONTROLLER : v = 0 - 127 *2
c = 64 SUSTAIN SWITCH : V = Ü-b3:0FF , 64-127:0N *2
c = 65 PORTAMENTO SWITCH ; Y = 0-63:0FF , 64-127:0N *2
e ="66 SOSTENUTO : v = 0-63:0FF , 64-127:0N *2
с = 67 SOFT PEDAL ; v= 0-63:0FF , 64-127:0N *2
c= 71 HARMONIC CONTENT ; v= 0:-64 - 64:0 - 127:+63 *2
с = 72 RELEASE TIME ; V = 0:-64 - 64:0 - 127:+63 *2
c= 73 ATTACK TIME : V = 0:-64 - 64:0 - 127:+63 *2
c'= 74 BRIGHTNESS { V = 0:-64 - 64:0 - 127:+63 *2
с = 84 PORTAMENT CONTROL { wv = 0 - 127 *2
с = 91 REVERB DEPTH rvs 0-127
c = 93 CHORUS DEPTH :w=0-127
с = 94 VARIATION DEPTH ; V = 0 - 127 (Connection=1 [System®H5]} 4)
c = 96 DATA ENTRY INC : v=127 *1
c = 97 DATA ENTRY DEC : v = 127 *i
c = 00..95 ASSIGNABLE CONT : v = 9 - 127 *2
*1 RENTHREN TFT A— FV —EÑETAEDABNA,
*2 | ХАННЫ),
*3 MSB = 0, 631440 Bit, 0,
* М58 = 00) & & 3, 0,1.3,5.8,12,14.16,17.18,19.20,24,25,27,28,32,33,34,35,36.37,38.39.40.41.42.43.45,
64.65,66,67,68,69,70,71,72,96,97.98,99.100.101,
- MSB= 639% XI, 64(Preset Performance),65(User Performance). 8(Voice)o
- MODULATION [4 E77- hoizXx2 17 hO— $5,
- PORTAMENTO TIME! Portamento Switch = ON OF E y PEER 4 ATA.
O TENIA >ESSREA, 127 TH 9 27 NERBML AZ,
"PANPOT 112 07 1 56, IXABECLEGO7)t- MENA LAHMICENT2.
En. REPO /— ВОН ОСН Нл,
- PORTAMENT CONTROL BUT, RA ху ВЯ А АЙ ОГ HE,
* REVERB DEPTH [1] £- 727 F€I7 hOo—1424, CHORUSDEPTHILO —7X€7 F497 hO— 1233,
VARIATION DEPTH (125) 2-2 37€ F*217 ВН - А,
- HARMONIC CONTENTIL, BR THREENTVAL ST» A481 ES, HUYELONRT A—-§-ThHbHI-H, 64 FABLE L
THHREDEELT 5,
EDTKRE CUDILEZEDRLÉCAZ, EECIN, MES 2 GANIZETEZEAL NN BENZ,
С
- RELEASE TIME, SBTEESATVLAI I AQ—F7 YY) —2R ¥ 4 LEXEHT AH,
HU EDTA 9 — СБ КЮ, 64 YERBE LTHENMEEET 5,
* ATTACK TIME!S, EER THREEATVWALIRD-T TY vo $4 LE HAEHT 3,
BATEO 7 2—9—THAN9, 64 x EL LTHBOEEEXT 5,
- BRIGHTNESS!I1, HECTZELNTNA 7 FA THERE EET 5, HHEED NT A-5—ThHolth, 64 ЖЕНЕ
MRDITE TTD, FAS < ADE ENTABLAR D, RBLLD, BEOLICANTETCEIZEAL VRVEHEIH 2,
sy rly MIME AL OBTEN, ENTIUYILE LIZA LM A,
729€ L 27 MSBA60H-7EHOIS SIIOOH 1252175,
NY IEL? HMSBDO, 60H -7EHÉ A:117FHI 4478-54. FE Silence WERENZ,
7 7EL 7 HMSBICO, 60H -7EH E /:117FHA ER SA TUT,
RIEL HSBAREDJA +72 ОВ боб к хан ЕН,
(3-2) CHANNEL MODE MESSAGES
STATUS 1011nnnmn(BnH} n= 0 15 VOICE CHANNEL NUMBER
CONTROL NUMBER Üccccccc ¢ = CONTROL NUMBER
CONTROL VALUE Ovvvwwww v = DATA VALUE
(3-2-1) ALL SOUNDS OFF (CONTROL NUMBER = 78H , DATA VALUE = 0}
HUF» ALOR FTPOFTEIRTHET 5,
Jb FRE Кой УВ КОН у КМА) КОЖНЫЕ,
(3-2-2) RESET ALL CONTROLLERS (CONTROL NUMBER = 79H , DATA VALUE = 0)
DY >0—7—OXEM* ey An
Multi Mode Performance Mode (Other than part5...16)
PITCH BEND CHANGE о (РА) <--
AFTER TOUCH 0 CRA <--
MODULATION o (e) <--
EXPRESSION 127 (& К) <=
SUSTAIN SWITCH 0 (#7) <--
SOSTENUTO SWITCH 0 (77) <--
SOFT PEDAL - 0 (747) <--
NRPN EERRERE, NEF—IHHMELEO
RPN ESKRETERÍE, 7 — 7 12MEL ZW
PORTAMENT CONTROL DE h <--
PORTAMENTO SWITCH 0 (#7) 1 (#>}
FOOT CONTROLLER Ye Le 0 (RE)
VOLUME JE bh LR 127 (XK)
PAN NE PLA 64 (RL)
REVERB DEPTH ey LAW 64 (RL)
CHORUS DEPTH ey LA 64 (RL)
VARIATION DEPTH Ey LAW 64 (RAT)
VIBRATO SPEED(NREN) TE LAW 64 (М |)
VIBRATO DEPTH (NREN) JE КСВ 64 (RL)
VIBRATO DELAY (NRPN) JE LAW 64 (BFL LY
AEG DECAY TIME (NRPN) Ye LAU . 64 (RL)
(3-2-3) ALL NOTES OFF {CONTROL NUMBER = 7BH , DATA VALUE = 0}
BEF ROT LTE — bE TXT 7TH, REL, ЖА Y ELILVAFA— MIA OMAIL, +1 50
FIRB ITHERRT LAW,
(3-2-4) OMNI MODE OFF (CONTROL NUMBER = 7CH , DATA VALUE = 0)
ALLNOTES OFF Lx £ & LH LREEA I.
(3-2-5) OMNI MODE ON (CONTROL NUMBER = 7DH , DATA VALUE = 0)
ALL NOTES OFF +6 L7:2 2 EMULE,
(3-2-6) MONO (CONTROL NUMBER = 7EH , DATA VALUE = 0)
ALL SOUNDS OFFŸ 248 LX: € 58 EMULE ETA,
3rd byte( € 7 BA 0 — 16 OMAN 5 ZIZ4F + 7 2% Moded(m= 1) 7%,
(3-2-7) POLY (CONTROL NUMBER = 7FH , DATA VALUE = 0)
ALL SOUNDS OFF: {EL 7: L & EF ULE ET 4, A4F € 7 HE Mode3 127 5,
(3-3) REGISTERED PARAMETER NUMBER
STATUS i0linnnn (EnH) n= 0 - 15 VOICE CHANNEL NUMBER
LSB 01100160 (64H)
RPN LSB Oppppppp р = RPN LSBI TREN)
MSB 01100101 (65H)
RPN MSB 0agagada q = RPN MSB{ FRE)
DATA ENTRY MSB 00000110 (06H)
DATA VALUE Orammranmra m = Data Value
DATA ENTRY LSB 00100110(26H)
DATA VALUE 01111111 1 = pata value
FT RPNMSBALSBT/$F A — 7 —%¥EL. 20% 75 MN) —MSBLSBTEFD NRG A — 5 — DEX RET 5,
REN D. ENTRY
LSB MSB MSB LSB PARAMETER NAME DATA RANGE
00H 00H mmH--- PITCH BEND SENSITIVITY 00H - 18H (0 - 24 #5)
01H 00H mmH 11H MASTER FINE TUNE (mmH;11H) = {0OH,00H} - (40H,DO0K} - {7FH,7FH}
(-8192*100/8192) - 0 - (+8192*100/8192)
02H 00H mmH --- MASTER COARSE TUNE 28H - 40H - 58H (-24 - 0 - +24 +)
7FH 7FH --- --- RPN RESET RENE EXE SN TV RVIREIIL 4,
NERO EI ILES LE V4
CS1x
a NON-REGISTERED PARAMETER NUMBER
STAT
LSB
REN
MSB
US
LSE
RPN MSB
DATA ENTRY MSE
DATA VALUE
101innnan (Bak) = 0 ~ 15 VOICE CHANNEL-NUMBER
01100010 (62H)
Oppppppp . p = NRPN LsB( FES)
01100011 (63H)
0gagagaa q = NRPN М5В( ЖЖ)
00000110 (06H)
Ommmmmmm m = Data Value
17 NRPN MSBALSBT/7 2 — 9 — EEL, TORF-917 > —MSBASBTEN 17 2-5 — DEF EET 5,
NREN
MSE
01H
01H
01H
01H
01H
01H
01H
01H
14H
15H
16H
17H
‘18H
19H
1AH
1CH
1DH
1EH
1FH
D. ENTRY
LSB MSB LSB
08H mmH ---
09H mmH ---
OAH mmH —--
20H mmH ---
21H mmH ---
63H mmH ---
64H mmH ---
66H mmH ---
ITH ma ---
rrH mm ---
rrH mx ---
rrH mmH ---
rrH mm ---
rrH mmH ---
rrH mmuH ---
rrH mmH ---
rrH mms ---
rrH mmH ---
rrH mmH ---
PARAMETER NAME DATA RANGE
VIBRATO RATE 00H - 40H - 7FH [-64 - 0 - +63]
VIBRATO DEPTH 00H - 40H - 7FH (-64 - 0 - +63)
VIBRATO DELAY 00H - 40H - 7FH (-64 - 0 - +63)
FILTER CUTOFF FREQUENCY 00H - 40H - 7FH (-64 - 0 - +63)
FILTER RESONANCE 00H - 40H - 7FH (-64 - 0 - +63)
EG ATTACK TIME 00H - d0H - 7FH (-64 - 0 - +63)
EG DECAY TIME 00H - 40H - 7FH (-64 - 0 - +63)
EG RELEASE TIME 00H - 40H - 7FH (-64 - 0 - +63)
DRUM INST FILTER CUTOFF FREQ. 00H - 40H - 7FK (-64 - G - +633
DRUM INST FILTER RESONANCE 00H - 40H - 7FH (-64 - 0 - +63}
DRUM INST AEG ATTACK RATE 00H - 40H - 7FH (-64 - D - +63}
DRUM INST AEG DECAY RATE 00H - 40H - 7FH (-64 - D - +63)
DRUM INST PITCH COARSE 00H - 40H - 7FH (-64 - 0 - +63)
DRUM INST PITCH FINE 00H - 40H - 7FH (-64 - 0 - +63)
DRUM INST LEVEL © 00H - 7FH (0 - ЖА)
DRUM INST PANPOT 00H ,01H - 40H - 7FH
(random, left - center - right)
DRUM INST REVERB SEND LEVEL 0H - 7FH (0 - KX)
DRUM INST CHORUS SEND LEVEL 0H - 7FH (0 - EX)
DRUM INST VARIATION SEND LEVEL
COH - 7FH (0 - ÆX}
MSB 14H-1FH( F 7 ABNL EDF + CF MIF FLEAS ANTI 7 ENTULEEDRÁD,
TH : drum instrument note number
(3-5-1) ACTIVE SENSING
11111110
STAT
US
#5 175 msec HEN ВНЕ 5.
(FEH}
(3-5) SYSTEM REAL TIME MESSAGES
0 CODE 7 -RESEF A E, SENSING Y FRA 2. $7 350 msec El EN, STATUS à DATA D KZ VIEIL, MIDI ES
BUFFER * CLEAR L, REL TAH L SUSTAIN SWITCH £ HII OFF LF 40 372, # Control ОМ ЗНАНИЕ
Jey bt a,
(3-5-2) TIMING CLOCK(£/ 04)
11111000
STAT
us
{F8H]
Arpeggiator/TempoHiTiming Clock & L CHER Clock % MHF 5 418 728 MIDI IN #5» A % Timing Clock € RE] + 3 #00
DITA Do
[ (3-6) SYSTEM EXCLUSIVE MESSAGE
(3-6-1) UNIVERSAL NON REALTIME MESSAGE
(3-6-1-1) GENERAL MIDI MODE ON
FOH 7EH 7FH 09H O1H F?H
UFO hO-7
VOLUME
PAN
PROGRAM CHANGE
BANK SELECT MSB
REVERB DEPTH
PITCH BEND CHANGE
MODULATION
EXPRESSION
SUSTAIN SWITCH
SOSTENUTO SWITCH
REN
PORTAMENT CONTROL
MIDI MASTER VOLUME
PITCH BEND SENSITIBITY
FINE TUNING
COURSE TUNING
—DEZEME 7 HTA,
100
Center
1 tGrandpno)
0
4
0 (HAD
0 (47)
127 (RK)
0 (47)
0 (47)
ABER
Чат |
127 (EX)
02 (2 +8)
° ©
0
(3-6-1-2) IDENTITY REQUEST(=15 041)
FOH 7EH OnH 06H 01H F7H
(127 АТ У Ро
КАЦ.
FISAAT ADIEU RE CHE 4 5)
(3-6-1-3) IDENTITY REPLY (15d)
FOH 7EH 7FH 06H 02H 43H 00H 41H dd ddH 00H 00H 00H vvH F7H
dd; Device Number Code CS1x7D155
vv. TG Support Level
:1002
CS1x7 5 £:01(XG)
(3-6-2) UNIVERSAL REALTIME MESSAGE
(3-6-2-1) MIDI MASTER VOLUME.
FOH 7FH TPH 04H 01H 11H mmH F7H
MASTER VOLUME E ¥ EET 5,
mm VEZ MIDE TAS — 4 2 — LiL LTHVWS, (I DETER)
58
CS1x
59
(3-6-3) PARAMETER CHANGE
(3-6-3-1) MIDI MASTER TUNING
FOH 43H 1nH 27H 30H 00H 00H mmH 11H ccH F7H
MASTER TUNE MK X & di + 2,
mall DIEMIDI VAS -—Fi-—77MEL TND MAT RL BE)
T = M*200/256-100
TERED F 1 — == 3 71-99 - +99)
М: тт О 0-3 Ко В М5В, ПО 0-3 Ко К #158 КЖ Ел А в,
(3-6-3-2) XG SYSTEM ON
DE 168
11110000 - FO Exclusive status
01000011 43 YAMAHA ID
S001nnnn ln Device Number
01001100 ae Model ID
laaazaaa 00 Address High
Оааааааа 00 Address Mid
laaaaaaa ТЕ Address Low
00000000 00 Data
11110111 FT End of Exclusive
On £24542 2 L122), SYSTEM MODE #°XG {ZW 241%, Controller Reset 341, Hf £OMultiPant Effectd TXT HF —
7 &. AllSystem® 3 LXG EH EN TWAT — 5 — TAXCO EMD, Defaultfil В 5,
OR E— ZO RATIZIL, EjSOm s PRADA, KDA7E-7 E OMEEEFTALE,
(3-6-3-3) XG PARMETER CHANGE
11110000 FO Exclusive status
01000011 43 YAMAHA ID
0001nnnn in Device Number
01001100 aC Model ID
Daadadas daaaaaa Address High
Daaaaaaa daaaaaa Address Mid
Daaaaaaa aaaaaaa Address Low
0ddddddd ddddddd Data
| | ;
11110111 F7 End of Exclusive
Data Sizeds 2 T/:14 4 0737 A—- 9-14, Веер 7 AED,
Address 43 £ UF Byte Count 14, {1 Æ (P42—45) £ SNA 25 E,
2 FO 4 fit RIT SH. (ENT Parameler Change Request € 243 L A:NFD A)
XG System Data ; ;
Multi Effect Data (Performance Mode C(1 EH)
Multi Part Data {Performance Mode? Partt —4 C 14 146)
Drums Setup Data
(3-6-3-4) CS1x NATIVE PARMETER CHANGE
11110000 FO Exclusive status
01000011 43 YAMAHA ID
0001nnnn in Device Number
01001011 4B Model ID
Oaaaaaaa âaaaaaa Address High
Oaaaaaaa aaaaaaa Address Mid
Оааааааа aaaaaaa Address Low
Idadaddd ddddddd Data
| |
11110111 F7 End of Exclusive
Data Size $2 F743 4 OT A= (3, FTDSizef DF — 9 ВМЗ.
Address 43 4 U* Byte Count 13, 1446 (P42-45) € B842 1 E
NDA TZ.
CS 1x System Data
User Performance Common Data
User Performance Layer Data
Current Performance Data (Multi Mode Cid ME 4H)
13-6-4) BULK DUMP
(3-6-4-1) XG BULK DUMP
11116000 FO Exclusive status
01600011 43 YAMAHA ID
0000nnnn On Device Number
01001100 AC Model ID
Dbbbbbbb bbbbbbb ByteCount
_ 0bbbbbbb bbbbbbb ByteCount
Daaaaaaa ааааваа Address High
Daaaaaaa aaaaaaa Address Mid
Vaaaaaaa aaaaaaa Address Low
00000000 00 Data
Ï |
Оссесссс CCCCCCC Check sum
11110111 F7 End of Exclusive
Address 15 £ U Byte Count 4, 14% (P42—45)£ BH3 5 +,
Check sum id [Byte Count, Start Address, Data, Check sum Fl 3% MTL 7:16 ель | HERZL THD.
101 Sribyte INE UA TELF A. LT, Slibyre DL EO Dump request 415 17:53, 817 SI2bye Ll FO2S
Foo MIKQY ZEIGE LEER EEO 20msec SL [EBL Tigh.
EOS HET DO Bf Bulk Dump Request Request & 5 L 7:50 A)
System Data
Multi Effect Datat #2 7. hf)
Multi Part Datag #73 ВУ)
Drums Setup Datat £ / — ВД)
System Information (TODA)
(Performance Моде 1)
(Performance Mode? Partl -4C 14 EH)
(3-6-4-2) CS1x NATIVE BULK DUMP
11110000 FO Exclusive status
01000011 43 YAMAHA ID
0000nnnn On Device Number
091001011 4B Model ID
8bbbbbbb bbbbbbb ByteCount
0bbbbbbb bobbbbb ByteCount
Vaaaaaaa aaaaaaa Address High
Oaaaaaaa aaaaaaa Address Mid
laaaaaaa aaaaaaa Address Low
00000000 00 Data
| |
Occecece cecerec Check sum
11116111 F7 End of Exclusive
Address 35 £ Uf Byte Count 13, НК (РА2—45) 2 BETA ZL,
EFNVIDHIED TE 2BRVvT, LIXGBULK DUMPE EfFiila)U TH 2.
DLE Oa 48257 ho (%f5(2Bulk Dump Request % 5515 L 78501)
CStx System Data
User Performance Common Data
User Performance Layer Data
Current Performance Data (Multi Mode C ii 986)
(3-6-5) DUMP REQUEST
(3-6-5-1) XG DUMP REQUEST
11110000 FO Exclusive status
01000011 43 YAMAHA ID
0010nnnn 2n Device Number
51001100 ac Model ID
faaaaaaa aaaaaaa Address High
Оааааааа aaaaaaa Address Mid
Оааааааа aaaaaaa Address Low
11110111 F7 End of Exclusive
Address $5 £ US Byte Count 14, 118 (P42—45)£ SF DE.
DEFORME ATA.
System Data
Multi Effect Dart 4 € 7 1 — НМ)
Multi Part Data( 47% +H)
Drums Setup Data( 4 7 — b Bf)
System Information
(Performance Mode C (4 1461)
(3-6-5-2) CS1x NATIVE DUMP REQUEST
11110000 FO Exclusive status
01000011 43 YAMAHA ID
001 0nnan 2n Device Number
01001011 4B Model ID
Oaaaaaaa aaaaaaa Address High
Qaaaaaaa aaaaaaa Address Mid
Оааааааа aaaaaaa Address Low
11110111 F7 End of Exclusive
Address 43 1 U Byte Count 11, 11K (P42—45) + 89-42 E.
LFP De
C51x System Data
User Performance Common Data
User Performance Layer Data
Current Performance Data (Multi Mode Td HEH)
(3-6-6) XG PARAMETER REQUEST
11110000 FO Exclusive status
01000011 43 YAMAHA ID
0011nnnn in Device Number
01001100 ac Model ID
Оааааааа aaaaaaa Address High
faaaaaaa aaaaaaa Address Mid
Qaaaaaaa = = aaaaaaa Address Low
12110111 F7 End of Exclusive
Address 45 & UF Byte Count (3, 14: (P42—45)+ EMT 4 TL.
В ГОА ВНЕ,
System Data
Multi Effect Data
Multi Part Data
Drums Setup Data
(Performance Mode Tid EH)
(3-6-7) QS300 NATIVE PARAMETER REQUEST
11110000 FO Exclusive status
01000011 43 YAMAHA ID
0011nnnn 3n Device Number
01001011 4B Model ID
Qaaaaaaa azaaaaa Address High
Оааааваа aaaaaaa Address Mid
Oaaaaaaa aaaaaaa Address Low
11110111 F7 End of Exclusive
Address 35 £ UF Byte Count (4, 1 X (P42—45) 4 8142 TX.
FDA ED,
CSIx System Data
User Performance Common Data
User Performance Layer Data
Current Performance Data (Multi Mode “> 64 BE ff)
(Performance Mode Pan) 4 СН)
(Performance Mode Pan | 4 TIE EH)
YA x
(4) BEA A IF, TUNUL—I—HE, HER E DEEE
E == = = = = = = =
Y
1
Receive Channel | ; Transmit Channel}
TONE GENERATOR
AM, MIDI SELF, SERECHELL/-N FRA, ЧАТ EDT OA
7—7 НЫЙ < ЕТ,
ALL SOUND OFF [+, MIDI, AOL By ORTE A
CS1x
60
CS1x YAMAHA [ Control Synthesizer---synthesizer part |] Date :26-MAR-1996
Model CS1x MIDI Implementation Chart Version : 1.0
= == — — — — — — = = — = = = = = = = = = == = = = = = = = = = = = = = = = = = = = — — — — = -= a — — — — — — — — — = == = == == — — —= == = — +
: Transmitted : Recognized : Remarks :
Function : : :
:2---—------------ Ч == == = о ее == ен оне == == ен несет ет == == == == == == == = — — = = — = — == — — ++ — — — — — — — — — — — — — — — — ;
:Basic Default : 1 - 16 : 1 - 16 : Memorized
:Channel Changed : 1 - 16 : 1 - 16 : a. :
{= неее — = = = — — — == = — — — + неф;
Default : 3 | : 1 - 4(m=1) —...: Memorized
Mode Messages : x : 1 - 4(m=1) 2 :
Altered . Krk 2 X
o mm SACS ACT — 8
Note : 0 - 127 : 0 - 127 *1: Transpose
:Number : True voice: ***XX*XXXXXXXXX : 0) — 127
po - EE
:Velocity Note ON : 0 9nH,v=1-127 : o v=1-127
: Note OFF : x 9nH,v=0 : x
O Lau vas rs о о о О — — | — — — — — — — — — — — — — — — — | — — — — == — — — — — — — — — — — а — — — — — — — == — — — — — — — — :
After Key's X : O 1
Touch Ch's X : O *1
e Fr French;
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0,1,7,11,32,64 : o | O *1: |
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6 : O O :Data Entry MSB
38 X O :Data Entry LSB
Control 0-95 O O :Assignable Cntrl:
| 71-74 O O : Sound Controller:
Change 84 X O - :Portamento Cntrl:
91,93,94 X o :Effect SendLevei:
96,97 X : O *1:Data Inc, Dec
98,99 x : O *1:NRPN LSB,MSB
100,101 x : O *1:RPN LSB,MSB
120 x : O :A11 Sound Off
121 X : O :Reset All Cntrls:
# — ое еее оно === == == == == = — — — — — а == = — = = = = — — — — == — == = == |+ == == = = — = — = = == == == == == == == ++ == == == — = — == == == == == == — — == — .
: Prog : O 0 - 127 : 90 0 - 127 *1:
: Change True + {о FRE kkk kkk : 0 - 127 :
ye += em:
System Exclusive O : O * 3
отн — mmm ee:
System : Song Pos X : X
: Song Sel : x о: Хх
:Common : Tune : ox | : x
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Notes:*1 receive if filter switch is off.
*2 m is always treated as "1" regardless of its value.
: *3 transmit/receive if exclusive switch is on.
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Mode 1 : OMNI ON, POLY Mode 2 : OMNI ON, -MONO O : Yes
3 : OMNI OFF, POLY Mode 4 : OMNI OFF, MONO x : No
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Circuit Board:
1. Diode
2. Wire Trap
Notes)
Circuit Board:
1. ‘Diode |
2. Wire Trap
В Notes)
Circuit Board: MKS2 (VU494600) XR736C0
1. IC
IC 1:
MK-L (VU648100) XR564B0 о Fe
1SS133,1SS176 (VB941 200)
52147-12P TE (VK025600) to MKH
52147-12P TE (VK025600) to MKS-CN2 -
52147- 7P TE (VK025100) to MKS-CN3
MK-H (VU648200) XR565B0
155133,155176 (УВ941 200)
52147-12P TE (VK025600) to MKL
52147- 5P (VK024900) to MKS- CNA
HD63B05VOD73P (XR951A00) CPU
2. Semiconductive Cera. Cap.
Ca:
‘0.1000 25V M (vD930900)
3. Ceramic Capacitor SL |
C1,2:
4. Electrolytic Cap.
C3:
5. Carbon Resistor
R12:
R3:.
20P 50V J (FG651 290)
“100.00 10. ov (UJ8281 00)
4.7K 1/4 J (HF456470) |
47.0K 1/43 (HF457470) |
6. Resistor r Array |
RA 1:
RGLE1 2X473J (VH373200) |
7. Ceramic Resonator
CL 1:
8. Connector
CN 1:
9. Wire Trap
CN 2:
CN 3:
CN 4:
10. Jumper Wire
Notes)
Circuit Board:
1. Diode
D 1-8:
2. LED
LED1,2:
CST8.00MTW140 (VNO02400) or
8.00M EFOEC8004T3 (VQ305500)
52147- 6P TE (VF728300) to DM-CN4
52147-12P TE (VK025600) to MKH
52147- 7P TE (VK025100) to MKH
52147- 5P TE (VK024900) to MKL
0.55 (VA078900)
PN (VU407400) XR660B0
155133,176,H5SS104 (VD631600)
SEL2210W
SCENE1,2
TP8 RE =— (VS704700)
3. Rotary Variable Resistor
VR 1:
VR 4-9:
4. Rotary Switch
ROTSW1:
5. Tact Switch
SW 1-46:
A30.0Kx2
VOLUME
B10.0K RK11K113 (VQ032500)
ATTACK-ASSIGN2
RK14K12C — (VT683300)
SRBV16036A (VU411100) Dial
SKQNAE025A (VV056000)
6. Connector Assembly
CN 1:
; CN 2:
- CN3-CN4:
- CN 5:
— CNE:
7.. Jumper Wire
J:
8. Circuit Board
= (LE):
Notes) В |
Circuit Board:
Во | — Circuit Board:
41. IC
IC 1
2. LED
— LED3-8:
Cr
A. Carbon Resistor
5. Resistor Array
RA 1:
6P-250 (VU40630) to DM-CN7
12P-300 (VU40660) to DM-CN5
13P-160 (VU40610) CN3-CN4
13P-300 (VU47340) to DM-CN2
8P-250 (VU40650) to DM-CN1
0.55 (VA078900)
LE (VU617900)
LC (VU407800) XR661B0
LE (VU617900) XR661B0
LC7985ND (XN859A00) LCD CONTROLLER
GL1EG211 GR (VU767400) LCD back- it
3. Semiconductive Cera. Cap. -
0.1000 -25V M (VD930900)
330.0 1/4 J (HF455330)
10.0K 1/4 J (HF457100)
91.0K 1/4 J (HF457910)
EXBF6N1 02) (V R538200)
6. Connector Assembly
CN 1:
14P-450 O (VUss4300) to DM-CN3
Notes) o
о Circuit Board: DM (VU395100) XR669B0
a - O TC7AHC1AAF-TP1 (XD657A00) INVERTER
: SC7SU04FEL (XI348A00) INVERTER
“- MC34051MEL (XP881A00) TRANSCEIVER
— UPCZ4M09HF (XM968A00) REGULATOR
5
NI M7805FA
| TC74HC4050AF (XR150A00)
Ds SW
—TC74HC595AF (XRO! 1A00)
(XJ607A00) REGULATOR
ANALOG
SHIFT REGISTER
IC 21:
IC 23:
IC 24,26,27:
IC 25:
IC 28:
IC 29:
Transistor
Qt:
Q2-4:
Diode
D 1-4,8-19:
D5:
D 6,7:
Zener Diode
ZD 1:
Photo Coupler
IC 1:
TC74HC139AF-TP1 (XE462A00) DECODER
_ SN74HC245NSR (XD838A00) BUFFER
… HD6413002FP16 (XQ375A00) CPU
; — SN74HC138NSR (XD835A00) DECODER
: M62021FP (XI686A00) RESET
— TC7S32F (XM588A00) OR
“272AV##* (XR725C00) ROM 8M (MAIN)
: - ‘M5M5256CFP-70LL (XN279B00)
256K
TC170C120SF-003 (XQ036A00) SWP0O
MX23C3210MC-12 (XR709A00) ROM 32M
(WAVE1)
MSM534021B
(WAVE2) |
NJM78LOSUA (XJ598A00) REGULATOR
+5V ; -
UPC4570G2 (XF291A00) OP AMP =
UPD63200GS-E1 (XP867A00) DAC
MB81C4256A-70PS (XN978A00) DRAM
1M or
LH64256BZ-70 (XR423A00) DRAM IM
NJM4556AMT1 (XQ138A00) OP AMP
(XS291A00) ROM 4M
2SA1.162 O,Y (VJ927200)
2SC3326 A,B TE85R (VD303700)
RLS-73 (VB797600)
MA737 (VQ282500)
D1F60 (VS201100)
MTZ J 3.6B 3.6V (VG436400)
HCPL-M600 (VR903700)
Mylar Capacitor
C 86,100:
0.1800 63V J (VM784100)
Monolithic Ceramic Cap.
C1-3,23-30,61-
68,137,138: F 0.010 50V Z (UB044100)
C4,6-8,10,11,
13,14,17,18,
20,31,34-38,
40,42-45,49-
54,69,70,72,
73,76,110,
126-134,145,
148-150,161: F 0. 100 25V 7 (UB245100)
C32,46,47:
C 33:
C55-60,91,105,
159,160:
C 80,94:
C81,82,95,96,
152,154,156,
158:
C 83,97:
C 84,98:
C87,101:
C 88,102:
C 92,106:
C111-125,143,
144:
C 140,146,147,
162,163:
SL 10P 50V D (UB051100)
SL 12P 50V D (UB051120)
B 1000P 50V K (UBO13100)
B 470P50VK (UBO12470)
SL 100P 50V J (UB052100)
B 680P 50V K (UB012680)
В 6800P 50V K (UB013680)
SL 180P 50V J (UB052180)
В 4700P 50V K (UB013470)
В 2200P 50V K (UB013220)
SL 47P 50V J (UB051470)
1.500 16V F (VJ927300)
Electrolytic Cap.
C5:
BP 47.00 6.3V (UN817470)
C9,22,39,48,74,
75,85,99,108,
109,136,165: 10.00
C12,19,90,104:220.00
C15;
C 16:
Cat:
1. C71,77,78:
: - C79,93:
502. C89,103:
0 C 107,135:
~~ €151,153,155,
157:
9. Tantalum Capacitor
C164:
4.70
16.0V (UJ837100)
16.0V (UJ838220)
330.00 25.0V (VH340400)
470.00 25.0V (VH340500)
3.30 50.0V (UJ866330)
47.00 16.0V (UJ837470)
4.70 50.0V (UJ866470)
22.00 16.0V (UJ837220)
100.00 16.0V (UJ838100)
BP 10.00 16.0V (UN837100)
16.0V (FP736470)
SRAM О °
|
|
|
|
|
10. Carbon Resistor (chip)
R1,3-6,13,14,
48,51:
R2,7,10,42-47,
50,53,65,74,
81,90,103:
В 8,9,27-29:
‘220.0 0.1) (RD255220)
1.0K01 J (RD256100)
‘100.0 0.1 J (RD255100)
R11,12,15-18,
20-26,30-32,
36,58,59,64,
73,75,80,89,
91,101,102,
104,107,114, 010
115, 118, 121, 00004
122:
R19, 99:
‘R33, 34, 97, 98:
Ras:
Raz, 38:
R39,40,95, 118: 47.0K0.1 J (RD257470) ~~ Ee
5 >. 00.1J (RD254100)
“Rat 105:
“R49,52:
‚| В54,60, 67, 76,
83,94:
R55: Е
В 56,69,85:
В 57:
R61,62,68,71,
-77,78,84,87:
R 63,79,116,
| 117,119,120:
: 5.6K 0.1 J (RD256560)
: 47,0 1/4 J (RD154470)
‘68.0 0.1 J (RD254680)
: 450.0 0.1 J (RD255150)
— R100: 680.0 0.1 J (RD255680)
© Rios
SR 111,112:
10.0K 0.1 J (RD257100) -
1.0M 0.1 J (RD259100)
‘470.0 0.1 J (RD255470)
-27.0 1/4 J (RD154270)
“10.0 1/10 D (Vi197400)
4 ‚60.0K 0.1J(RD258100) 100
. 22.0K0.1J (RD257220) ©
“47K0.1J(RD256470) . ..
—1.5K 0.1 J(RD256150) -.. ———
1 12.0K 0.14 (RD257120) |
15.0K ол J (RD257150) si
470.0 1/4 J (RD155470)
“0.0 0.0 J (RD250000)
11. Resistor Array 5
12.
13.
“44.
RA 1,5,6,21-
26:
RA 2,14:
RA 27-30:
Coil
L 58-66: Е
10KX4 (RE047100)
100X4 (RE045100)
47KX4 (RE047470)
BLO3RN2R62T4 0.45u (VL409500)
Chip Inductance Ш
L149 3,15- Sr BK2125HS601-T (VR579900)
L 76,777
LC Filter
| EMI18:
114:
16.
- 47.
18.
19.
20.
21.
22.
23.
24.
25.
X1:
X2:
Sw1-
Slide Switch
Dorta SW2::
Phone Jack
JK
JK 9.3.5.7:
JK 11:
JK 8:
JK 9:
JK 10:
Push Switch
“BLM21P300SPT (VU954000)
“ DSSs06- 93F22371 (VD542700)
‚ РЕТ2003С (V G238200)
Quartz Crystal Unit -
“ .16M SMD- 49 (VP864900)
: 38. 8688M SMD- 49 (VT685200) |
| sDDLBT (VP691000) POWER switch: =
SSSF1 2539A (vT761 300) HOST ser ' = |
© YKB21- 5010 (VE382300) PHONES | oo
“ LGR4609-7000 (VS115400) OUTPUT L R a
FOOT VOLUME, CONTROL,SWITCH
. HSJO912 st-mini (LB302010) INPUT
DIN Connector .
DIN8P MD-S810 (VM761000) TO HOST
3P YKF51-5067 (VT033600) MIDIIN
3P YKF51-5054 (VJ885500) MIDI
OUT/THRU
DC-IN Connector
JK 4:
Style Pin
SP 1:
| 16у DC 3A HEC2305 (VJ207400) De IN
- IMSA-6024 (У B966900)
Connector Base Post
СМ 1; 2)
СМ 2:
CN 3:
CN 5:
CN 6:
CN 7:
Connector
CN 4:
— PH-8P TE (VB390400) to PN2/2: CN6
—. PH-13P TE (VF283100) to PN2/2-CN5
“PH-14P TE (VE352600) to LC-CN1
“ PH-12P TE (VB390800) to PN1/2- CN2 o
“PH-5P TE (VB390100) to Wheel assembly
PH 6Р ТЕ (УВЗ90200) to PN1/2- CNT
Е 52147: oP TE м F728300) to MKS- on
Connector Assembly
CN8- CNS:
Battery Holder
BAT 1:
DM- DM “SAN- SANGP (Vus2020) oe
CN
CR2450BH | (VS246300)
Hl CS1x CIRCUIT DIAGRAM 2/2 (PN, LC, LE, MKS2, MK-H, MK-L)
CS1x
CONTROL SYNTHESIZER
SN
PARTS LIS
IN CONTENTS (E)
OVERALL ASSEMBLY (424837) eeeeeeereree rer iii]
KEYBOARD ASSEMBLY (SBREASS'Y) ..............e.enereecmnnireenne nee.
ELECTRICAL PARTS (ER SE) RE eereea ean
Note) DESTINATION ABBREVIATIONS
: Japanese model
: U.S.A. model
: Canadian model
: General model
: South African model
Tr 2 X MOC
о - wm >
: North European model
: Australian model
: European model
: German model
: British model
: Indonesian model
: Chinese model
* The numbers in "QTY" show quantities for each unit.
* The parts with "--" in "Part No." are not available as spare parts.
BERRIES > 7d. BRITA IENRHD ET,
QIYRICEENTWBEKFIR, #12y MS ORABK TE.
HANA OMA, F— FARR E UTHER ES NTA EE A
H WARNING
Components having special characteristics are marked A and must be
replaced with parts having specification equal to those originally installed.
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Upper case assembly
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Keyboard assembly
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CS1x
DESCRIPTION
VT368600
VT368700
Name Plate
Accessory
AC Adapter
AC Adapter
PA-3B
PA-3B
rer no. | PART NO. aß on zZ REMARKS QTY |
-- OVERALL ASSEMBLY 2 # iI | CS1x (VU63910)
10 -- Upper Case Assembly ET7—-—AASS Y (VU64100)
20 | VU621100 | Keyboard Assembly ÇC61 K6 1 6MBEASSY |
30 | VU540700 | Angle Bracket MKF MK FF Y I} 5 |
40 |EP600190 | Bind Head Tapping Screw-B 3.0X8 MFZN2BL + NA EBSA Fb 10 |
50 | VU540900 | MKR Angle MKR | MKR7 YI 2
60 | VJ999700 | Bind Head Tapping Screw-B 3.0X20 MFZN2BL +A EBA 4 |
70 | YU540500 | Shield Box Y—NWNERKY IR |
80 |VI999700 | Bind Head Tapping Screw-B 3.0X20 MFZN2BL +A4UEHBS A} 2 |
90 | YU395100 | Circuit Board DM | D M У — +
100 | VQ049800 | Bonding Tapping Screw-B 3.0X10 MFZN2BL RYTFTAUTBSAH 7}
110 |EP600190 | Bind Head Tapping Screw-B 3.0X8 MFZN2BL + AY FBI EH 5 |
120 | CB502030 | Cord Binder : S-75B E © i D 2 |
130 |[ YT760200 | Jumper Cable 6P 110L(WH-BE) RG UNTEN |
140 | YR641100 | Cord Holder UAMS-09-0 = 22 3 Y Y 2 |
150 | VS246400 | Lithium Battery CR2450 YU F 72 A E mx
160 | VU640800 | Bottom Assembly | #%ÀFAASS"'Y ;
160a | VC999400 | Foot 205Y4179 Я А = 4 |
165 |VJ254100 | Bonding Tapping Screw-B 4.0X10 MFZN2BL RYTAUTBSAH 33 |
170 | CB825380 | Push Button 7 y Y 121 kK Ev
Las
f+
A
A
A
00
AC Adapter
U10 | VU640700 | Upper Case
U20 | VU540300 | Lens, Back-lit
U30 | VUA21400 | LCD LCD5853H ga 7 4 À
U35 | VU673400 | Reflection Sheet ПО НУ - |
U40 | VS555800 | Rubber Connector SG Ч АЗ RUF =
U50 | YU407800 | Circuit Board LC L ¢ i - |
uss | VV170400 | Spacer AR = # -
U60 |EP630280 | Bind Head Tapping Screw-P 3.0X8 MFZN2Y ТАЙНУ КРУ
U70 | VU640600 | Key Top L2 F—-— EY7L 2 EJEM | 1/2
U80 | VU640100 | Key Top S1 В —- НУ ПУЛЕЙ | -/-
U90 | VU640200 | Key Тор S2 F— by 7S 2B &| ++
U100 | VU640300 | Key Top T1 F— EY7T 1 EN & | 0/1/4/7
U110 | VU640400 | Key Top T2 #+—khwv7T02ER|-/2/5/8
U120 | VU640500 | Key Top T3 F— bv JT 3 HR &|ENTER/3/6/9
U130 | VU590900 | Key Top Rubber L2 + — EY 7I7N—L 2 | (PERFORM,MULTI)
U140 | VU643100 | Key Top Rubber P10 +-hy737/H—P10|V/A
U160 | VU407400 | Circuit Board | PN P N ù - |
U170 | EP630280 | Bind Head Tapping Screw-P 3.0X8 MFZN2Y Нл УКР УЧ
U180 -- GND Wire | 7 — AX R & (VU57890)
U190 — Wheel Assebmly KA —-IWASS У (VU64090)
U200 | EP600280 | Bind Head Tapping Screw-B 3.0X8 MFZN2Y НАУ КР УЛ
U210 | YU540400 | Knob A-%Y—vY х Е
VV017200 | LCD Cover L CD #H#H-
Wheel Assebmly 7 Y (VU64090)
W10 | VQ561400 | Frame M 7. U — А М 2
W20 | VF537400 | Wheel ; ER A — Л 2
W30 | VC792800 | Spring U 4 — Y $ P
W40 | CB819020 | Wheel Tube Ж 4 — № За — 7 2
W50 | EW600110 | Stop Ring 12.0 C SEL H @&
W60 | VQ764300 | Rotary Variable Resistor 10K RK1631110T54A la — Y Y — У R|PITCH
W70 | YN245400 | Rotary Variable Resistor 10.0K K161100S O — Y U — V R|MODULATION
W80 — Connector Assembly PH5P-5F 300L+100L W HE ELE | (VU55440)
W90 | CB069250 | Cord Holder BK-1 AYLYIQOYI SA 2
* New Parts (m)
77 : Japan only
CS1x
Ш KEYBOARD ASSEMBLY (§#%Ass'y)
x Cables (éd, déte, (60D, ; Refer to the CIRCUIT BOARD LAYOUT section on page 6 of the service manual.
(7 — 7 (508, (605), Ao, : AMBN-7DI1-y HUT777 XBALTRELY
CS1x
REF NO. | PART NO. | DESCRIPTION ai dû E REMARKS
VU621100 | Keyboard Assembly C61 K6 1 EMBPRBASS Y | CS1x
30 | EP630220 | Bind Head Tapping Screw-P 3.0X8 MFZN2BL ANAL EPSAb |
50 -- Frame C61 (16M) 7 || — A (VU32860)
60 | VH180900 | White Key CEGB H # C E G B
70 | VH181000 | White Key DFA BH @ D F A
80 | VH181100 | White Key C' =| a2 С ’
90 | VH181200 | Black Key = a
100 | YH181300 | Felt 7 т м b
110 | VH181400 | Rubber Sheet Í A Y -— |
120 | VU328400 | Rubber Contact 16M 12keys = = A
130 | VU328500 | Rubber Contact 16M 1key a = 3 A
140 | YB205200 | Bind Head Tapping Screw-P 3.0X16 MFZN2BL +X AX 7ZEPIA E
140 | VS756700 | Bind Head Tapping Screw-P 3.0X16 MFZN2B Нл УКР УЧ EH
160 —= Circuit Board KEY-SW KEY-SWY-—H (VU62120)
160a | VU648100 | Circuit Board MK-L MK -—L ÿy—}
160b | VU648200 | Circuit Board MK-H MK -— 1H y — }
160c | VU494600 | Circuit Board MKS2 M K S 2 ÿ — |
160d | VU659300 | Cable 12P 190L T — 7 Л
160e | VU659500 | Cable 12P 215L T — 7 Л
160f | VU659400 | Cable 7P 250L 7 — 7 JM
160g | VU659600 | Cable 5Р 615L T — 7 Л
x New Parts (Rene)
777 : Japan only
CS1x
BH ELECTRICAL PARTS (E555)
REMARKS QTY
REF NO. | PART NO. | DESCRIPTION E. fn 2
ELECTRICAL PARTS FE a An
x VU395100 | Circuit Board DM D D M 7% b
* VU407800 | Circuit Board LC L с О |
* VU617900 | Circuit Board | LE L E > E
* VU648100 | Circuit Board MK-L M K — L b
* VU648200 | Circuit Board MK-H м к — H b
VU494600 | Circuit Board MKS2 M K S 2 b
VU407400 | Circuit Board РОМ X b
M E ;
VB659000 | Bind Head Screw 3.0X8 MFZN2BL AN AU RUN D
EP630240 | Bind Head Tapping Screw-C 3.0X6 MFZN2BL + NA FECHA
* VM784100 | Mylar Capacitor 0.1800 63V J Хх 4 7 —-— 3 У
UB012470 | Monolithic Ceramic Cap. B 470P 50V K Fy THREES У
UB012680 | Monolithic Ceramic Cap. B 680P 50V K то ПЖ озу
UB013100 | Monolithic Ceramic Cap. B 1000P 50V K т У воз у
UBG13220 | Monolithic Ceramic Cap. B 2200P 50V K то В+ 5 ЗУ
UB013470 | Monolithic Ceramic Cap. В 4700Р 50\ К Fy HERS ar
UB013680 | Monolithic Ceramic Cap. B 6800P 50V K Fy 7 HERZ У
UB051100 | Monolithic Ceramic Cap. SL 10P 50V D Fy 7B 50>
UB051120 | Monolithic Ceramic Cap. SL 12P 50V.D FyY7TMEtE337
UB051470 | Monolithic Ceramic Cap. SL 47P 50V J ТУ ПН у
UB052100 | Monolithic Ceramic Cap. SL 100P 50V J Fy HEELERS
UB052180 | Monolithic Ceramic Cap. SL 180P 50V J Fy THEBES
UB044100 | Monolithic Ceramic Cap. F 0.010 50VZ Fy7#=#Etezs=sr
UB245100 | Monolithic Ceramic Cap. F 0.100 25V Z Fy THEE Sa
V1927300 | Monolithic Ceramic Cap. 1.500 16\ Е Fy HERS
UJ837100 | Electrolytic Cap. 10.00 16.0V 7 = 3 У
UJ837220 | Electrolytic Cap. 22.00 16.0V 7 = 3 >
UJ837470 | Electrolytic Cap. 47.00 16.0V T = a >
UJ838100 | Electrolytic Cap. 100.00 16.0V 7 z 3 У
UJ838220 | Electrolytic Cap. 220.00 16.0V T = 3 У
UJ866330 | Electrolytic Cap. 3.30 50.0V 7 = 0 У
UJ866470 | Electrolytic Cap. 4.70 50.0V a = 3 >
VH340400 | Electrolytic Cap. 330.00 25.0V 7 = 3 > RS
VH340500 | Electrolytic Cap. 470.00 25.0V 7 = 17 RS
UN817470 | Electrolytic Cap.-BP 47.00 6.3V B P 4&4 = a rv
UN837100 | Electrolytic Cap.-BP 10.00 16.0V B P #4 I а у
FP736470 | Tantalum Capacitor 4.70 16.0V 9% Y ЛЗ rv
VL409500 | Coil BLO3RN2R62T40.45u | 4 № O. 45U
VR579900 | Chip Inductance BK2125HS601-T F y 7 AU SD 5
* VU954000 | Chip Inductance BLM21P300SPT FYTIVYFAUISTS
— Carbon Resistor (chip) 27.0 1/4 J F y 7 E M (RD15427)
RD154470 | Carbon Resistor (chip) 47.0 1/4 J F y 7 E M
RD155470 | Carbon Resistor (chip) 470.0 1/4 J F y 7 E M
RD250000 | Carbon Resistor (chip) 0.00.0J F y 7 E %
RD254100 { Carbon Resistor (chip) 10.00.1 J F y 7 E A
RD254680 | Carbon Resistor (chip) 68.0 0.1 J F y 7 E т
RD255100 | Carbon Resistor (chip) 100.00.1 J F y 7 E MM
RD255150 | Carbon Resistor (chip) 150.00.1 J F wv 7 3 M
RD255220 | Carbon Resistor (chip) 220.0 0.1 J F y 7 E %
RD255470 | Carbon Resistor (chip) 470.0 0.1 J F y 7 E #H
RD255680 | Carbon Resistor (chip) 680.0 0.1 J F y 7 E MM
RD256100 | Carbon Resistor (chip) 1.0K0.1J F y 7 т
RD256150 | Carbon Resistor (chip) 1.5K0.1J F y 7 E #®
RD256270 | Carbon Resistor (chip) 27K0.1J = y 7 E À
RD256470 | Carbon Resistor (chip) 4.7K 0.1 J FF y 7 E Mm
RD256560 | Carbon Resistor (chip) 5.6K0.1J F y 7 E MM
RD257100 | Carbon Resistor (chip) 10.0K 0.1 J F y 7 E т
RD257120 | Carbon Resistor (chip) 12.0K0.1J F y 7 E MM
RD257150 | Carbon Resistor (chip) 15.0K0.1 J F v 7 E MM
RD257220 | Carbon Resistor (chip) 22.0K0.1J F y 7 E т
RD257470 | Carbon Resistor (chip) 47.0K 0.1 J F vv 7 E M
RD258100 | Carbon Resistor (chip) 100.0K 0.1 J F y 7 E mM
V 1197400 | Carbon Resistor (chip) 10.0K 1/10 D Fv J & # BER
RD259100 | Carbon Resistor (chip) 1.0M 0.1 J F y 7 т
RE045100 | Resistor Array 100X4 E nm 7 Uv A
RE047100 | Resistor Array 10KX4 E m 7 U 4A
* RE047470 | Resistor Arra 47KX4 E mM 7 Uv A
XF291A00 | IC | UPC4570G2 | C | OP AMP
* New Parts (3735786)
3272 : Japan only
*
E X
rEENO. | PART NO. | DESCRIPTION als da 7 REMARKS {ary}
XQ138A00 | IC NJM4556AMT1 | C | OP AMP
XJ598A00 [IC NJM78LOSUA | C | REGULATOR +5V
X4607A00 | IC NJM7805FA | C | REGULATOR +5V
XM968A00 | IC UPC24M09HF | C | REGULATOR -5V
XD657A00 | IC TC74HC14AF-TP1 | C | INVERTER
XD835A00 | IC SN74HC138NSR | C | DECODER
XD838A00 | IC SN74HC245NSR | C | BUFFER
XE462A00 | IC TC74HC139AF-TP1 À C | DECODER
X1348A00 | IC SC7SU04FEL | C | INVERTER
XM588A00 | IC TC7832F [ C 1 OR
XPBS81A00 !IC MC34051MEL 11 C | TRANSCEIVER
XRO11A00 | IC TC74HC595AF | C | SHIFT REGISTER
XR150A00 | IC TC74HC4053AF I C | ANALOG SW
XQ036A00 | IC TC170C120SF-003 | C | SWP00
XQ375A00 | IC HD6413002FP16 i C | CPU
XN279B00 | IC M5M5256CFP-70LL | C | SRAM 256K
XR709A00 | IC MX23C3210MC-12 | C | ROM 32M (WAVE1)
XS291A00 | IC MSM534021B | C | ROM 4M (WAVE)
XR725C00 [IC 272AV | C | ROM 8M (MAIN)
X1686A00 | IC M62021FP CI RESET
XP867A00 | IC UPD63200GS-E1 | C | DAC
VP691000 | Push Switch SDDLB1 7 у Y 21 S WlPOWER switch
VT761300 | Slide Switch SSSF12539A A 7 4 E $ W|HOST SELECT
VB966900 | Style Pin IMSA-6024 ASADEZ L=35
LB302010 | Phone Jack HSJO912 st-mini Ж — Y 7 + y 9|INPUT
VE382300 | Phone Jack YKB21-5010 73 — Y 7 Y Y 72 | PHONES
VJ207400 | DC-IN Connector 16V DC 3A HEC2305 D C У Y у Z|DCIN a
VS115400 | Phone Jack LGR4609-7000 Ж— Уха £2%7 (E) [OUTLR, FOOT VOL, CNT, SW
VJ885500 | DIN Connector 3P YKF51-5054 D I N 3 % 2 # |MIDIOUT/THAU
Y T033600 | DIN Connector 3P YKF51-5067 D I NAOaññ7Z %|MIIN
VM761000 | DIN Connector DINSP MD-S810 & à 37 2 9 |TOHOST
VB390100 | Connector Base Post PH-5P TE |3 ЖД 9 ^^ - АЖ | |
YB390200 | Connector Base Post PH- 6P TE IRISZA-ARAL
VB390400 | Connector Base Post PH- 8P TE ILIIX-ARALb
VB390800 | Connector Base Post PH-12P TE ILIINX_AÑRALb
VE352600 | Connector Base Post PH-14P TE ILIIN- ARA PB
VF283100 | Connector Base Post PH-13P TE ARV INRN—RAKRR P+
VF728300 | Connector 52147-6P TE a À 7 У
VK863100 | IC Socket DICF-42CS-E NI CC Y T7 4 +
VS246300 | Battery Holder CR2450BH Ny TF U—=—FKNY —
VD542700 | LC Filter DSS306-93F223Z1 LC 7 4 WS-—
VG238200 | LC Filter PLT2003C ПСО ЛАЯ Е МИ
VP864900 | Quartz Crystal Unit 16M SMD-49 Ко & № +
VT685200 | Quartz Crystal Unit 33.8688M SMD-49 KX © % +
VJ927200 | Transistor 2SA1162 O,Y k 3 y У y
VD303700 | Transistor 2SC3326 A,B TES5R E 7 Y у У
VB797600 | Diode RLS-73 A + F
VQ282500 | Diode MA737 9% A à F
VS201100 | Diode D1F60 #4 A F
VR903700 | Photo Coupler HCPL-M600 7 xXx ED 7
VG436400 | Zener Diode MTZ J 3.6B 3.6V Ум т То — #4 К
VU540600 | Holder, Jack J K 7 > ИИ |
-- Heat Sink E - + У 7 (VS77610)
-- Connector Assembly DM-DM SAN-SAN3P D M = (VU82020)
1 XN978A00 | IC MB81C4256A-70PS X € M
XR423A00 LH64256BZ-70 A E M
8
YU617300 | Circuit Board LE L E 3 — | (XR661B0)
YD930900 | Semiconductive Cera. Cap. 0.1000 25V M E 5 4 te > 9 7,
HF455330 | Carbon Resistor 330.0 1/4 J Hh —- À Y E M
HF457100 | Carbon Resistor 10.0K 1/4 J 2» —-— À Y E M
HF457910 | Carbon Resistor 91.0K1/4J A — MM Y E M
VR 538200 | Resistor Array EXBF6N102J E WE YC а — WM
XN859A00 | IC LC7985ND a Y y Y 1 C|LCODCONTROLLER
VU619100 | Angle Bracket, Socket A4B-5PA-2DS Voy bT7 ION
VU767400 | LED GL1EG211 GR L D | LCD back-lit
fr
VU554300
Connector Assembly
Circuit Board
14P-450
* New Parts ($382)
CS1x
.. 777 : Japan only
CS1x
DESCRIPTION
REMARKS
VK025100
VU648200
Wire Trap
Circuit Board
52147-7P TE
MK-H
REF NO. | PART NO. an QTY
VB941200 | Diode 1SS133,1SS176
VK025600 | Wire Trap - |52147-12P TE
VB941200
VK025600
VK024900
Diode
Wire Trap
Wire Trap -
1SS133,1SS176
52147-12P TE
52147- БР
NRT IaH
NL Мо Ц т
VD930900 | Semiconductive Cera. Cap. 0.1000 25V M + У o
— Vibration-proof Tape 10X64X0.5 fA 7 (VK34680)
VA078900 | Jumper Wire. . 0.55 > KR В
C1 | FG651220 | Ceramic Capacitor-SL 22P 50VJ E )
C2 |FG651220 | Ceramic Capacitor-SL 22P 50V J + )
c3 |UJ828100 | Electrolytic Cap. 100.00 10.0V 7 У
В1 | HF456470 | Carbon Resistor 4.7K 1/4 J 1» mn
R2 | HF456470 | Carbon Resistor ı 4.7K 1/4 J 7 HT
R3 | HF457470 | Carbon Resistor. 47.0K 1/4 J 7 mn
CL1 | VN002100 | Ceramic Resonator CST8.00MTW140 tt 5 = +
CL1 | VQ305500 | Ceramic Resonator 8.00M EFOEC8004T3 |t 7 = +
CN1 | VF728300 | Connector 52147- 6P TE I -% 7
CN2 | VK025600 | Wire Trap - 52147-12P TE 74% 7
CN3 | YK025100 | Wire Trap | 52147- 7P TE 74% 7
CN4 | VK024900 | Wire Trap 52147- 5P TE 17417 Y 7
* | 1C1 | XR951A00 |C | HD63B05V0D73P | C | CPU
RA1 | VH373200 | Resistor Array — RGLE12X473J E Xx 7 LU Хх
VS246400
P
VU411100 | Rotary Switch. SRBV16036A о W | Dial
VV056000 | Tact Switch | SKQNAEO25A 1% W
VQ032500 | Rotary Variable Resistor B10.0K RK11K113 0 R | ATTACK-ASSIGN2
VT683300 | Rotary Variable Resistor - A30.0Kx2 RK14K12C |= R | VOLUME ,
VD631600 | Diode 1SS133,176,HSS104 7 El
VS704700 | LED SEL2210W TP8 RE L D | SCENE1,2
VA078900 | Jumper Wire 0.55 > & |
0 Connector Assembly - 13P-160 D fr (VU40610)
-_ Connector Assembly 6P-250 D = (VU40630)
— Connector Assembly 8P-250 D № (VU40650)
— Connector Assembly 12P-300 D x (VU40660)
— Connector Assembly 13P-300 D # (VU47340)
VU617900 | Circuit Board LE L E "
Rotary Variable Resistor
10.0K K1611005
BN —-—%Y — VR
Lithium Battery CR2450 y it
VU421400 | LCD LCD5853H NAS ABBT 4 RATA
VQ764300 | Rotary Variable Resistor 10K RK1631110T54A | — Y UJ — V R|PITCH
VN245400 MODULATION
* New Parts ($478)
777 : Japan only
Tes,
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