psr5700 service manual英文

psr5700 service manual英文
—
PORTA TONE
PSR- 571
CONTENTS
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PARTS LIST
SK [001207]
YAMAHA CORP.
HAMAMATSU, JAPAN
2.73K-704 ® Printed in Japan ’92.11
PSR-5700
PSR-5700
—
IMPORTANT NOTICE
This manual has been provided for the use of authorized Yamaha Retailers and their service personnel.
It has been assumed that basic service procedures inherent to the industry, and more specifically Yamaha
Products, are already known and understood by the users, and have therefore not been restated.
WARNING: Failure to follow appropriate service and safety procedures when servicing this product
may result in personal injury, destruction of expensive components and failure of the
product to perform as specified. For these reasons, we advise all Yamaha product owners
that all service required should be performed by an authorized Yamaha Retailer or the
appointed service representative.
IMPORTANT: The presentation or sale of this manual to any individual or firm does not constitute
authorization, certification, recognition of any applicable technical capabilities, or
establish a principle-agent relationship of any form. |
The data provided is believed to be accurate and applicable to the unit(s) indicated on the cover. The
research, engineering, and service departments of Yamaha are continually striving to improve Yamaha
products. Modifications are, therefore, inevitable and changes in specification are subject to change without
notice or obligation to retrofit. Should any discrepancy appear to exist, please contact the distributor's
Service Division.
WARNING: Static discharges can destroy expensive components. Discharge any static electricity your
body may have accumulated by grounding yourself to the ground buss in the unit (heavy
gauge black wires connect to this buss). |
IMPORTANT: Turn the unit OFF during disassembly and parts replacement. Recheck all work before
you apply power to the unit.
WARNING: CHEMICAL CONTENT NOTICE!
The solder used in the production of this product contains LEAD. In addition, other electrical/
electronic and/or plastic (where applicable) components may also contain traces of chemicals found
by the California Health and Welfare Agency (and possibly other entities) to cause cancer and/or birth
defects or other reproductive harm.
DO NOT PLACE SOLDER, ELECTRICAL/ELECTRONIC OR PLASTIC COMPONENTS IN YOUR MOUTH
FOR ANY REASON WHAT SO EVER!
Avoid prolonged, unprotected contact between solder and your skin! When soldering, do not inhale
solder fumes or expose eyes to solder/flux vapor!.
If you come in contact with solder or components located inside the enclosure of this product,
wash your hands before handling food.
SPECIFICATIONS
KEYBOARD:
61 Keys (C1-C6) with Touch Response
POLYPHONY:
38 notes max.
VOICES:
Preset 100 voices
Custom 100 voices (Programmable)
ACCOMPANIMENT: |
INTERACTIVE ACCOMPANIMENT:
Preset 36 styles
Disk 1 style
* 5 variations for each style
CUSTOM ACCOMPANIMENT:
6 styles + INTRO/FILL/ENDING (Programmable)
SUPER STYLE PLAY:
Preset 36 styles
Disk 1 style
* 4 variations for each style
EFFECT:
Reverb based effect 23 types, Chorus based effect 9 types,
Harmony 16 types
PERCUSSION:
Keyboard; 92 (Percussion + Sound Effect)
PAD:
8 (MULTI/PERC./ TEMPO)
AUTO BASS CHORD:
Single Finger, Fingered Chord, Manual Bass
SEQUENCER:
8 Tracks, 6 Songs
REGISTRATION:
VOICE REGISTRATION: 10
PANEL REGISTRATION: 16
DISPLAY:
LED, LCD
DISK DRIVE:
3.5” FDD, Compatibility with DOC (Yamaha Disk Orchestra
Collection) and General MIDI software
DEMONSTRATION:
4 Songs
PSR-5700
CONNECTORS:
MIDI (INJOUT/THRU), FOOT SW., SUSTAIN, EXP. PEDAL,
HEADPHONES, AUX. IN (R, L/L+R), AUX. OUT (R, L/L+R)
AMPLIFIER:
10W x 2
SPEAKERS:
16cm (6-5/16") x 2, 5cm (1-5/16") x 2
DIMENSIONS (W x D x H):
1067mm (42") x 409mm (16-1/8") x 160mm (6-5/16")
WEIGHT:
15.0 Ка (33.1165.)
SUPPLIED ACCESSCRIES:
* Music Stand
* FC5 Foot Switch
* Sample Data Disk
* "Getting Started” Manual
- “Advanced Features” Manual
PSR-5700
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PSR-5700 | PSR-5700
PANEL LAYOUT
e Front Panel
| 1 23 REVERB Button
( ) | ( | ÓN EFFECT Button
mE NE NE samen VOCE gee ag) ZE ie AT quite IEP MEN" TU EEE NT po 25 STYLE SELECT Buttons
E E БН Боб ВЕ ВЕ (BANK, NUMBER, CUSTOM, DISK)
BE iB iB CT Ben ns 9e PE 79770 INTERACTIVE ACCOMPANIMENT Button and
Do o O E) Drammen) 800000080500 | | Indicator
Sooo © ® [IC @) AUTO BASS CHORD Button and Indicator
| С ay e E
ETFO © SUPER STYLE PLAY Buttons and Indicators
comen A MOTO (VERSE A, VERSE B, CHORUS A, CHORUS B)
SII mm - = a o Z Lo che
\ 8 e E. ee DD ее L J Fill-in, Intro, and Ending Buttons
ООС 0000 000 OJO ll олдМАНА Per-=>0n Ш (FILL IND/INTRO 1, FILL IN--/INTRO 2,
EEC CS CC A CECE EEE EEE TOE ETE EE LTRS ENDING/rit./INTRO 3)
60 Verse, Chorus, and Solo Buttons
(VERSE 1, VERSE 2, CHORUS 1, CHORUS 2,
SOLO)
@1) Accompaniment Control Buttons
(SYNCHRO START, START/RE-START, STOP)
32 PAD MODE SELECT Buttons and Indicators
| 63 PAD Buttons
| PANEL REGISTRATION Buttons
` 39 SEQUENCER Button
® Front Panel a | — e == | CUSTOM ACCOMPANIMENT PROGRAMMER
(1) POWER Button : Button :
(2) DEMO Button N 87 SONG SELECT Button
(3) VOICE SELECT Buttons | | 13) DISK IN USE Lamp Sequencer Track/Custom Accompaniment
(BANK, NUMBER, VOICE REGISTRATION, | FROM DISK Button | Programmer Track Buttons
MEMORY) 15 DISK ORCHESTRA/GENERAL MIDI Button (1 through 6/CHORD 1 through 6, 7/BASS,
(4) BEAT Display ORCHESTRATION Buttons and Indicators ACCOMP./RHYTHM)
9 (5) LED Display (ORCH. 1, ORCH.2+1, ORCH. 2<» 1) Sequencer/Custom Accompaniment
> (6) TEMPO [~] and [+] Buttons (7 LEFT HOLD Button Programmer Control Buttons
! (7) Liquid Crystal Display (LCD) HARMONY Button (RECORD, DELETE, EDIT, l<(Top),
7 (8) Left and Right [-] and [+] Buttons SUSTAIN Button «(Rewind), »» (Forward))
a. \ — (9) Display Scroll/Function Buttons 20 VOICE PART Buttons and Indicators PITCH BEND/GLISSANDO Wheel
(ABC MODE (A), HARMONY TYPE (V), (ORCH.2, ORCH.1) MODULATION/EFFECT Wheel
TRANSPOSE/TUNE (4), OCTAVE CHANGE (>)) @ CUSTOM VOICE Button and Indicator | 42 Disk Drive
FUNCTION Button 22 VOLUME Controls | Disk Eject Button
AD EXIT Button (MASTER, RHYTHM, BASS, CHORD 2, HEADPHONES Jack
(2 TO DISK Button CHORD 1, ORCH. 2, ORCH. 1)
® Rear Panel
an ® Rear Panel
YAMAHA Ps Sua (1) AUX. OUT L/L+R and R Jacks
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(2) AUX. IN L/L+R and R Jacks
(3) FOOT SW. Jack
(4) SUSTAIN Jack
(5) EXP. PEDAL Jack
(6) MIDI IN, THRU and OUT Connectors
PSR-5700
PSR-5700
CIRCUIT BOARD LAYOUT
e Lower case assembly
* DM and AM circuit boards and FDD and
e Upper case assembly
Power Transformer has been removed.
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PSR-5700 PSR-5700
EBLOCK DIAGRAM
VOLUME VOLUME WHEEL
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POWER SW
PSR-5700
HDISASSEMBLY PROCEDURE
1 Lower Case Assembly Removal
1-1 Remove the twenty one (21) screws marked [140a]. (Fig. 1) |
1-2 Remove the five (5) screws marked [130] from five holes marked "C", then the lower case assembly can be
removed. (Fig. 1)
[140a] Lower case assembly A 130] - [140a! | {
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(Fig. 1 ) | [140a] : [140a] [140a] *
[130] : Bind Head Tapping Screw-C 4.0X8 ZMC2Y (VF918100)
[ 140a] : Bind Head Tapping Screw-P 4.0X12 ZMC2Y (EP640110)
2 DM Circuit Board Removal
2-1 Remove the lower case assembly. (see procedure 1)
2-2 Remove the four (4) screws marked [140b]. (Fig. 2)
2-3 Remove the three (3) screws marked [210a] and the two (2) screws marked [220], then remove the shield box.
(Fig. 2)
2-4 Remove the DM circuit board.
[140b] [140b]
[220]
1220] Shield box
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(Fig. 2 ) | [140b] : Bind Head Tapping Screw-P 4.0X12 zMC2Y (EP640110)
[210a] : Bonding Tapping Screw-C 4.0X8 FCM3BL (VK649900)
[220] : Bonding Tapping Screw-c 3.0X6 FCM3BL(VJ268400)
10
PSR-5700
3 AM Circuit Board Removal 5 Power Transformer Removal
3-1 Remove the lower case assembly. (see procedure 1) 5-1 Remove the lower case assembly. (see procedure 1)
3-2 Remove the five (5) screws marked [1400]. (Fig. 3) 5-2 Remove the three (3) screws marked [140d], then
3-3 Remove the two (2) screws marked [40a], then the power transformer assembly can be removed.
remove the AM circuit board with bushings and (Fig. 3)
collars. (Fig. 3) 5-3 Remove the four (4) screws marked [520c], then
3-4 Remove the two bushings and the two collars from remove the power transformer from the power
the AM circuit board. (Fig. 3-1) transformer holder. (Fig. 3, Fig. 3-2)
4 Floppy Disk Drive (FDD) Removal
Remove the lower case assembly. (see procedure 1)
Remove the four (4) screws marked [40b], then the
FDD assembly can be removed. (Fig. 3)
Remove the four (4) screws marked [20c], then
remove the FDD from the angle bracket . (Fig.3, Fig.3-3)
FDD Ass’y
[40b!
[40b] [20с|
140d]
520c]
transformer
assembly
140d]
[40a] [140c]
[140c]
[40a]
[20c] : Bonding Head Screw 3.0X6 FNM33GL (VK712400)
[40] : Bind Head Tapping Screw-P 4.0X20 ZMC2Y (VF601600)
[140] : Bind Head Tapping Screw-P 4.0X12 ZMC2Y (EP640110)
[520c] : Bonding Tapping Screw-C 4.0X8 FCM3BL (VK649900)
(Fig. 3)
Power
transformer
AM circuit board
—
(Fig. 3—1 )
Angle bracket
(Fig.3—2 ) (Fig. 3—3 )
11
6A FU Circuit Board Removal (J, H, B, W, A model)
6A-1 Remove the lower case assembly. (see procedure 1)
6A-2 Remove the four (4) screws marked [590b], then
the FU circuit board can be removed. (Fig. 4)
6B FU Circuit Board Removal (U, C, V model)
6B-1 Remove the lower case assembly. (see procedure 1)
6B-2 Remove the two (2) screws marked [590a], then
the FU cover can be removed. (Fig. 4-1)
6B-3 Remove the four (4) screws marked [590b], then
the FU circuit beard can be removed. (Fig. 4 )
Notes DESTINATION ABBREVIATIONS
7-1
7-2
7-3
7-4
7-5
PSR-5700
Keyboard Assembly Removal
Remove the lower case assembly. (see procedure 1)
Remove the DM circuit board assembly.
(see procedure 2)
Remove the FDD assembly. (see procedure 4)
Remove the power transformer assembly.
(see procedure 5)
Remove the twe (2) screws marked [140e] and the
two (2) screws marked [210b], then the keyboard
assembly can be removed. (Fig. 4) |
A : Australian model
3 : British model
B
C : Canadian model
H
: North European model
J
U
\
W
: Japanese model
: U.S.A. model
: General export model (110V)
: General export model (220V)
(Fig. 4 )
[140e] [210b] Keyboard assembly [210b] [140e]
U,C,V model
PSR-5700
[140e! :.Bind Head Tapping Screw-P 4.0X12 ZMC2Y (EP640110)
[210b] : Bonding Tapping Screw-C 4.0X8 FCM3BL (VK649900)
[590] : Bind Head Tapping Screw-P 3.0X10 ZMC2Y (EP600270)
12
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PSR-5700
13
8 Power Switch Assembly Removal
8-1 Remove the lower case assembly. {see procedure 1)
8-2 Remove the twe (2) screws marked [470a], then
remove the power switch Assembly with the knob.
(Fig. b)
8-3 Pull the knob off the power switch assembly.
9 LCD Assembly Removal
9-1 Remove the lower case assembly. (see procedure 1)
9-2 Remove the AM circuit board . (see procedure 3)
9-3 Remove the four (4) screws marked [440], then the
LCD assembly can be removed. (Fig. 5)
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e
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Po
bracket
Angle — [470c] [470b] Angle — (470b]
brac
Ez: LED | * N
0 * Pee assembl > . . ENA y ()
e emi NN. y —
3 - + \ + +
ket
(Fig. 5)
10 PN1 Circuit Board Removal
10-1 Remove the lower case assembly. {see procedure 1)
10-2 Remove the DM circuit board. (see procedure 2)
10-3 Remove the AM circuit board. (see procedure 3)
10-4 Remove the FDD assembly. (see procedure 4)
10-5 Remove the power transformer assembly.
(see procedure 5)
10-6 Remove the keyboard assembly. (see procedure 7)
10-7 Remove the power switch assembly. (see procedure 8)
10-8 Remove the LCD assembly. (see procedure 9)
10-9 Remove the six (6) screws marked [470b], then
remove the two (2) Angle Brackets. (Fig. 5)
10-10 Remove the thirty one (31) screws marked [310al,
then the PN1 circuit board can be removed. (Fig. 6)
11 VOL Circuit Board (JACK1/3) Removal
11-1 Remove the lower case assembly. (see procedure 1)
11-2 Remove the six (6) screws marked [310b], then the
VOL circuit board can be removed. (Fig. 6)
[440] [4708]
[440] : Pan Head Tapping Screw-P 2.3X8 ZMC2Y (VC990200)
[470] : Bind Head Tapping Screw-P 3.0X8 ZMC2Y (EP600280)
12 PN2 Circuit Board Removal
12-1 Remove the lower case assembly.(see procedure 1)
12-2 Remove the DM circuit board. (see procedure 2)
12-3 Remove the FDD assembly. (see procedure 4)
12-4 Remove the power transformer assembly.
(see procedure 5) a
12-5 Remove the keyboard assembly. (see procedure 7)
12-6 Remove the three (3) screws marked [470c], then
remove the one (1) Angle Bracket. (Fig. 5)
12-7 Remove the VOL circuit board. (see procedure 11)
12-8 Remove the fourteen (14) screws marked [310c],
then the PN2 circuit board can be removed.
(Fig. 6)
13 JACK Circuit Board (JACK2/3) Removal
13-1 Remove the lower case assembly. (see procedure 1)
13-2 Remove the two (2) screws marked [580a], then the
JACK circuit board can be removed. (Fig. 6)
14 HP Circuit Board (JACK3/3) Removal
14-1 Remove the lower case assembly. (see procedure 1)
14-2 Remove the two (2) screws marked [470d], then the
HP circuit board can be removed. (Fig. 6)
15 Wheel Assembly Removal
15-1 Remove the lower case assembly. (see procedure 1)
15-2 Remove the four (4) screws marked [470e], then the
wheel assembly can be removed. (Fig. 6)
||
PSR-5700
16 Speaker (Tweeter) Removal
16-1 Remove the lower case assembly. (see procedure 1)
16-2 Remove the four (4) screws marked {580b], then the
right and left tweeters can be removed.
(Fig. 6)
[470d]
HP | — 1 Л 1 L Л + Л 3 - т 1 E + + 1 = X I EL ” 1 Je e
[470e] == -
| КРМ eos
Wheel [310c] [310c] [310c] [310a] [310a] | [310a] [310a] [310a] | | | |
assembly | |
|) à 4 \pé/é + dde El 3; e se и + + + ,
еж NS feat Молота, +
Speaker 4445 Г | * = Speaker
tweeter С! - 4 : tweeter
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(Fig 6) [580b] [580a] [310a] [310a] [310a] [580b]
JACK
17 Speaker (Woofer) Removal
17-1 Remove the lower case assembly. (see procedure 1)
17-2 Remove the eight (8) screws marked [260], then the right and left woofers can be removed. (Fig. 7)
Speaker, woofer Lower case assembly
[260
(Fig. 7)
[310] : Bind Head Tapping Screw-P_3.0X6 ZMC2Y (EP600290)
[470] : Bind Head Tapping Screw-P 3.0X8 ZMC2Y (EP600280)
[680] : Bind Head Tapping Screw-P 4.0X10 ZMC2B(VC383800)
Speaker, woofer
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260]
[260] : Bind Head Tapping Screw-P 4.0X12 ZMC2BI.(VA847600)
14
PSR-5700
PSR-5700
15
MLS! PIN DESCRIPTION
e HD6415108F10 (XJ797A00) CPU
NO NAME 1/0 FUNCTION NO NAME 1/0 FUNCTION
1 RES | Reset 57 P41 1/0
2 NMI | Non-maskable interrupt 58 P42 1/0
3 VSS Ground 59 P43 1/0 Port 4
4 DO YO] 60 P44 МО |;
5 D1 1/0 61 P45 1/0
6 D2 1/0 62 P46 1/0
7 D3 1/0 63 P47 1/0 |)
8 D4 1/0 64 VSS Ground
9 D5 1/0 || Data bus 65 P50 1/0 |)
10 D6 1/0 66 P51 1/0
11 D7 1/0 Ц 67 P52 1/0
12 D8 1/0 68 P53 1/0 |
13 D9 1/0 69 P54 1/0
14 | D10 | 1/0 70 | P55 | 110 || Per SYPPIY
15 D11 1/0 71 P56 1/0
16 D12 1/0 72 P57 1/0 |)
17 D13 1/0 73 P60 1/0 |]
18 D14 1/0 74 P61 vo.
19 D15 1/0 1 75 P62 1/0
20 VSS Ground 76 P63 1/0 (Port 6
21 AO O |) 77 P64 1/0
22 A1 O 78 P65 1/0
23 A2 O 79 P66 1/0
24 A3 O 80 P67 1/0 |.
25 A4 O 81 VSS Ground
26 A5 O 82 AVSS Analog ground
27 A6 O Address bus 83 ANO | |
28 A7 O 84 ANT À Analog signal input
29 АВ O 85 AN2 ]
30 A9 O 86 AN3 |
31 A10 O 87 AVCC Analog power supply
32 A11 O 88 VCC Power supply
33 A12 O | 89 IP8SO/IRQO! 1/0 |)
34 A13 O 90 |P81/IRQ1| МО
35 A14 O 91 |P82/SCK1| 1/0 Port 8
36 A15 O 32 PB3/SCK2| 1/0 ||
37 VSS O {Ground} 93 \P84/RXD1; 1/0
38 A16 O 94 P85/TXD1 1/0
39 A17 O 95 |P86/RXD2 1/0
40 A18 O 96 P87/TXD?| 1/0 |)
41 A19 O 97 VSS Ground
42 A20 O 98 EXTAL Clock
43 A21 O 99 XTAL
44 A22 O 100 VSS Ground
45 A23 O | 101 9 O Sync-signal
46 VSS - Ground 102 E O Enable
47 IP3O/WAIT| 1/0 | 103 AS O Address strobe
48 IP31/BACK! 1/0 104 RD O Read control
49 |P32/BREQ 1/0 105 HWR O H/Write control
50 P33 МО | Port 3 106 LWR o L/Write control
51 P34 1/0 107 RFSH | Refresh
52 P35 1/0 108 VCC Power supply
53 P36 1/0 109 MDO |
54 P37 1/0 |) 110 MD1 | Mode select
55 VCC Power supply 111 MD2 |
56 P40 1/0 Port 4 112 STBY | Stand-by mode signal
e AD1862N(XL199A00) DAC (Digital to Analog Converter)
NO, | NAME | VO FUNCTION NO, | NAME | 1/0 FUNCTION
1 — VS Bias capacitor 9 | DGND Digital ground
2 —VS (—) power supply (analog) 10 RF Feedback resistor
3 TRIM Connected to trimer potentiometer 11 IOUT O Output current
4 + VL (+) power supply (digital) | 12 | AGND Analog ground
5 CLK | External clock 13 NR 1 Reference capacitor
6 LE | Latch enable 14 ADJ Mid. scale adjust.
7 D | Serial data input 15 NR2 Bias capacitor
8 — VL (—) power supply {digital} 16 +VS (+) power supply (analog)
‘© HD63B05V0E43P (XL168B00) CPU
PSR-5700
PIN | NAME | 1/0 FUNCTION FIN | NAME | vo FUNCTION
NO. NO.
1 RSE | Reset 21 C7 1/0
2 INT | Interrupt request 22 C6 1/0
3 NUM | Non-maskable interrupt 23 Cb 1/0
4 | A7 | wo 24 | C4 | VO ||. Ром С
5 AB 1/0 25 C3 1/0 ¡í
6 A5 1/0 26 C2 1/0
7 A4 VO |} Port A 27 C1 1/0
8 A3 1/0 ort 28 CO 1/0
9 A2 1/0 29 DO 1/0
10 A1 1/0 30 D1 VO |} Port D
11 АО 1/0 |) 31 D2 1/0
12 BO 1/0 |) 32 | D3/TX О (Serial data output)
13 B1 1/0 33 | D4/RX | 1/0 | | (Serial data input)
14 B2 1/0 34 D5/CK O {Clock for serial operation)
15 B3 Vo || Port B 35 | DE/INT? | 1/0 (Interrupt request 2)
16 B4 1/0 or 36 STBY | |) Standby mode signal
17 B5 1/0 37 TIMER | Timer
18 B6 1/0 38 XTAL | Clock
19 B7 vo |. 39 | EXTAL | | oc
20 VSS Ground 40 VCC Power supply
e HD63266F (XI939A00) FDC (Floppy Disk Controller)
NO | NAME | 0 FUNCTION NO | NAME | МО FUNCTION
1 8/5 | Data transmision speed 33 TRKO | Track 00 signal
2 IXTALSET Clock select 34 INDEX | Index signal
3 RESET | Reset 35 | RDATA | Read data input from FDD
4 E/RD | Enable /Read 36 XTAL2
5 | RAVWR | | | Read /write Write 37 | EXTAL2 Clock
6 S | Chip select 38 NC
7 DACK | DMA acknowledge 39 | XTAL1 Clock
8 R30 | Register select e tes y
10 | VSS1 Ground 42 | VSS5 }Groun
11 VSS2 43 NC
12 DO 1/0 |) 44 VCC2
13 D1 ‚VO 45 VCC3 ) Power supply
14 D2 1/0 46 VCC4
15 D3 1/0 || Data bus 47 | WGATE O Write control
16 D4 1/0 48 | WDATA O Write data to FDD
17 D5 1/0 49 VSS Ground
18 DE 1/0 50 STEP O Step signal to control head of FDD
19 D7 VO |, 51 HDIR | Head direction
20 DREQ O DMA request 52 | HLOAD O Head load
21 IR O Interrupt request 53 HSEL O Head select
22 DEND | Data end 54 VSS7 Ground
23 VSS3 Ground 55 DSO O
24 1/2EX 56 DST O Dri |
25 \/СС1 Power supply 57 DS? O rive select
26 NUM | 58 DS3 O
27 NUM2 | 59 VSS8 Ground
28 IFS 1 Host interface select 60 MONO O |
29 | SFORM | Format data 61 MONT O
30 INP | Index pulse 62 | MON2 o | {Motor on
31 READY | Ready from FDD 63 MON3 O
32 WPRT | Write protected signal 64 VSS9 Ground
PSR-5700
16
PSR-5700
e HD68B44RP (XI940A00) DMAC (Direct Memory Access Controller)
NO. | NAME | МО FUNCTION NO | NAME | 1/0 FUNCTION
1 VSS Ground 21 D7 1/0
2 CS | Chip select 22 D6 1/0
3 R/W | | Read/Write 23 D5 1/0
4 AO 1/0 24 D4 1/0 Data bus
5 АЛ 1/0 25 D3 1/0
6 A2 1/0 26 D2 1/0
7 A3 1/0 27 D1 1/0
8 A4 1/0 28 DO 1/0
9 A5 1/0 29 | TXRQ3 |
10 A6 1/0 30 TXRQ2 |
11 A7 МО | { Address bus 31 | TXRQ1 | Transmission request
12 А8 1/0 32 | TXRQO |
13 A9 1/0 33 IRQ O Interrupt request
14 A10 1/0 34 | TX5B | O Transmission stanby
15 А11 1/0 35 | TXAKA O Transmission acknowledge
16 A12 1/0 36 DROH O Halt request
17 A13 1/0 | 37 | DROT O Halt request in TSC mode
18 Ald 1/0 38 | DGRNT | Bus grant |
19 A15 10 | 39 RES | Reset
20 VCC Power supply 40 | G2DMA | System clock
® YM3413 (XE449A00) LDSP (Digtal Signal Processor)
NO. NAME | vo FUNCTION vo | NAME | VO FUNCTION
1 VDD DC supply (+ 5V) 21 A5 O
2 D7 1/0 22 A6 O
3 D6 1/0 23 A7 O
4 D5 1/0 24 AB O
5 D4 1/0 25 A9 O
6 | D3 | vo | [Pata bus 26 | A10 | O || address b
7 D2 1/0 27 | A O | NECTESS DUS
8 D1 1/0 28 A12 O
9 DO 1/0 29 A13 O
19 o | } Serial data input 30 NT 9
12 SYW | Sync pulse 32 A16 O
13 WE O Write enable 33 500 O Serial data output
14 OE O Output enable 34 XCLK Clock
15 AO O 35 IC | Initial Clear
16 Ad O | 36 CRS | CD counter rest
O 17 A2 O Address bus 37 CDI | CD input
oO 18 A3 O 38 CDo O CD output
< 19 Ad O | | 39 501 O Serial data output
PN 20 Vss Ground 40 CLK | Clock
|
e.
4
` ® YM3415B (XE450B00) LEF (Effector)
NO, NAME | VO FUNCTION NO. | NAME | 1/0 FUNCTION
1 +5 Power supply 21 A7 O
3 39 | Serial data input 53 | no 0
: 200 О } Serial data input oe A3 0 Address bus
6 | XCLK | Clock 26 A2 O
7 CDO O CD data output 27 A1 O
8 CDI | CD data input 28 AO О
9 CRS | CD counter reset 29 RAS O DRAM control
10 WR | Write control 30 CAS O DRAM control
11 A/D | Address/data parameter select 31 WE O WE signal
12 PDO 1/0 32 OE O OE signal
13 PD1 1/0 33 D3 1/0
14 PD2 1/0 34 D2 1/0 |
15 | PD3 | VO || Darap 35 | D1 | 1/0 Data bus
16 | PD4 | 1/0 ata bus 36 DO. | 1/0
17 PD5 1/0 37 TST2 | Internal test
18 PDG 1/0 38 SYW | Synchro pulse
19 PD7 1/0 39 CLK | Clock
20 Vss Ground 40 IC | Initial clear
17
PSR-5700
e YMW259-F (XJ752C00) GEW9 (AWM Tone Generator & Digital Filter)
MO | NAME | 10 FUNCTION NO | NAME | VO FUNCTION
1 Vss Ground 65 Vss Ground
2 AO | 66 MD11 1/0
3 A1 | 67 | MD12 1/0
4 A2 | | 68 MD13 1/0 External memory data bus
5 A3 | Address bus 69 | MD14 | VO ’
6 A4 | 70 | MD15 1/0
7 Ab | 71 IC Initial clear
8 DO 1/0 72 SYI Synch. pulse input
9 D1 1/0 73 SYO O Synch. pulse output
10 D2 1/0 74 CKMI | Clock 12.8 MHz input
11 D3 1/0 TE. 75 | CKMO O Ciock 12.8 MHz output
12 D4 МО | Data bus 76 VDD Power supply
13 D5 1/07 77 XQUT O | Clock
14 D6 1/0 78 XIN |
15 D7 1/0 79 | Vss Ground
16 DB 1/0 80 RAO O
17 Vss Ground 81 RAT O
18 D9 1/0 82 RA? O
19 D10 1/0 83 RA3 O
20 D11 1/0 | 84 RA4 O
21 D12 1/0 Data bus 85 RA5 O
22 D13 1/0 86 RAG O
23 D14 1/0 | 87 RA7 O not used
24 Di5 1/0 88 RAS О
25 IRQ | Interrupt request 89 RA9 О
26 МАО o 90 RA10 O
27 MA1 O 91 | RA11 О
28 МА2 O 92 RA12 O
29 MA3 О |; External memory address bus 93 RA13 O
30 MA4 O 94 RA14 O
31 MAS O 95 RDO O
32 | MA6 | O 96 | RD1 O } not used
33 Vss Ground 97 Vss Ground
34 MA7 O 98 RD2 O.
35 MAS O 99 RD3 O
36 МАЭ O 100 RD4 O not used
37 MA10 O 101 RD5 O |
38 MA11 O 102 RD6 O
39 MA12 O |{ External memory address bus 103 RD7 О
40 | MA13 | © 104 | TE O | Chip enable
41 MA14 O 105 OE O Output enable
42 MA15 O 106 WE O Write enable
43 MA16 O 107 TP] T
44 | MA17 | O | 108 | TPO est pin
45 MAE | Memory address enable 109 DCK O DAC clock
46 VDD Power supply 110 LE O Latch enable
47 MA18 O 111 | MCK6G4 | O Clock 6.4 MHz output
48 MA19 O | 112: MCK32 | O Clock 3.2 MHz output
49 MA20 O External memory address bus 113 MOA O
50 МА21 O 114 MOB O MEL format data output
51 MA22 O 115 MOC O
52 MWR O Memory write control 116 VDD Power supply
53 BDIR O Data bus direction 117 MIT | .
54 MDO 1/0 118 MI2 | MEL format data input
22 MD Le 190 DRA О R-channel serial data output
27 MD Le 15 DLB о } L-channel serial data output
59 MD5 МО |; External memory data bus 123 CS | Chip select
60 MD6 1/0 124 RD | Reäd control
61 MD7. | VO 125 R | Write control
62 MD8 О 126 8/16 | Bus width 8 bit/16 bit
63 MD9 О 127 CDO O Control data output
64 MD10 1/0 128 A-1 | Address dus
18
PSR-5700
PSR-5700
MIC BLOCK DIAGRAM
e TC74HCOOAP (IROOOO000) © TC74HCO2AP (IRO00200) * TC40HO004P (1G051000)
NAND Quad 2 Input NOR | ® TC74HCO4AP (IRO00400)
Hex Inverter
VDD
4B
АА.
4Y
3B
3A
3Y
e TC74HC32AP (IR003200) e TC74HC74AP (IR007400) e TC74HC138AP (IRO13800)
Quad 2 input OR — Dual D-Type Flip-Flop — ® TC74AC138P (XG659A00)
3 to 8 Demultiplexer
A (1 16) Vcc
A — x
Select 4 B (2 B YO 15) YO
C (a С У] 14) Y1
G2A (4 G2AŸ2 13) v2
— — + Qutput
Enable * 028 (5 G2BY3 12) YI
G1 (6 G1 YA IN va
Output { Y? (7 Y7 Y5 10 у5
INPUTS OUTPUTS ; > 9 —
PR CLR CLIK D | Q a GND (8 Y6
L H X X H L
H L X X L H
L L X X H H
H H $ H H L
H H + L L H
H H L X Qo Go
® [C74AC139P (XL123A00) e TC74HC367AP (IR036700) e TC4052BP (XA053A00)
Dual 2 to 4 Demultiplexer Hex 3-State Bus Buffer Differential 4-Channel
Multiplexer/Demultiplexer
PSR-5700
19
e NJM4560S (IG 121800)
Dual Operational Amplifier
+V IN
ouT HN +IN OUT
A A A B B B
—IN +V
e 1 PC4570HA (XB247A00)
Dual Operational Amplifier
+DC Voltage
(8) Supply
/\ (6) Inverting
input B
(5) Non-Inverting
Input B
Output A (1)
Inverting
Input A
Non-Inverting
Input A 3)
—DC Voltage Supply (4)
PSR-5700
e M51132L (XE470A00)
VCA
IN 2
OUT 2
Balances Indivgual
|| volume control
| | Pass/VCA Switching
Balance/ VOLUME?
Noise reduction
Vo'ume/VolurneZ contral
OUT 1
PSR-5700
20
PSR-5700
PSR-5700
33
HTEST PROGRAM
A. PREPARATION
1. MEASURING INSTRUMENT
Measure with the level meter. (The characteristics of
the level meter should be based on the IHF+C curve.)
Use the oscilloscope to measure the waveform.
Measuring input impedance should be TMQ or more.
2. MEASURING PLACE
Measure at the HEADPHONES terminal (Lch) unless
specified otherwise. (Use the stereo plug.)
3. CONTROL SECTION CONDITIONS
The conditions should be as follows.
a. Volume should be set to Max.
b. All switches should be initialized when the power
is turned on. |
c. Nothing should be connected to the external
terminals.
B. TEST ENTRY
To enter the test program, hold. down [INTRO.1],
[INTRO.3] and [DEMO], and turn on the unit's power
supply. The next display will then appear on the LCD.
MENU 00->22 TestPrg.
99: Exit 88: FactrySet
Use [BANK: 0]- [BANK: 9] and [NUMBER :0]-
[NUMBER: 9] to select a test.
Enter a test number, and that number's test will
begin, followed sequentially by the other tests.
To stop a test before it's completed, press [EXIT], and
you will return to the initial screen. Next, press
[BANK: 91 and [NUMBER: 9] or [BANK: 8] and
[NUMBER: 81.
<Note>
Pressing [BANK: 8] and [NUMBER: 8] initializes all
backup data.
TEST 00 ROM VERSION DISPLAY
Select Test 00, and the ROM version will be displayed
on the LCD.
DISPLAY OF THE TEST RESULT
00 ROM Prg1: ***Prg2: ***
Version St11: ***St/2: ***
(***: Version number)
TEST END
Press either [+] underneath the LCD to proceed
automatically to the next test.
TEST 01 PROGRAM ROM, STYLE ROM
ADDRESS BUS, AND DATA BUS CHECK
01 ROM Stl1: **StI2: **
CK.SUM Prg1: **Prg2: **
DISPLAY OF THE TEST RESULT
OK No display {proceeds automatically to the
next test.)
NG 01 ROM Stl1: **StI2: **
CK.SUM Prg1: **Prg2: **
(**: OK or NG)
TEST END
Once a test is completed, the next test follows
automatically.
TEST 02 WAVE ROM CHECK SUM DISPLAY
WAVE ROM check sum is displayed on the LCD when
Test 02 1s selected.
02 WAVE ROM WAV1: ****
SUM WAV2: **** WAV3: ****
(****; Check sum)
When the WAVE ROM inside the DM circuit board
consists of the following part Nos., the following
display will appear. |
1C12: XL134B00
1С13: XL135B00
IC14: XL136B00
02 WAVE ROM WAV1: A9D5
SUM WAV 2: ABD4 WAV3: F4DB
TEST END
Press either [+] underneath the LCD to proceed
automatically to the next test.
TEST 03 LCD DOT BLACK *
Checks that all LCD dots are changed to black.
TEST END
Press either [+] underneath the LCD to proceed
automatically to the next test. =
TEST 04 LCD DOT WHITE |
Checks that all LCD dots are changed to white.
TEST END
Press either [+] underneath the LCD to proceed
automatically to the next test.
PSR-5700
34
TEST 05 PANEL SWITCH AND LED
Turn all switches, from [SEQUENCER] to [PANEL
REGISTRATION:8], ON and OFF, by following the LCD
display shown below.
05 SWITCH,LED
START SWITCH SELECT?
05 SWITCH,LED
Next Switch=001: Cus.Acp
(When [SEQUENCER] is checked first)
When normal, a piano sound will be generated, and
the relevant LED will light. It then proceeds to the
switch for the next test. LEDs which display single
functions with multipie LEDs, such as the [TEMPO]
LED and the [SONG SELECT] LED, are tested
automatically. The LCD display will not change and
sound will not be generated if a switch which is not
displayed on the LCD is pressed. When the correct
switch is pressed, the next switch test will follow.
TEST END
When the checking reaches [PANEL REGISTRATION:
8], the switch and LED test will be completed, and the
next test will follow automatically.
TEST 06 PITCH BEND
06 PITCH BEND
Set to max 064
Smoothly move the pitch bend as follows: max —
min > center (up — down — middle).
06 PITCH BEND
Set to ttt XXX
(ttt: The next targeted value)
(***: The present pitch bend value)
Confirm that the pitch bend value changes as follows:
127 — 000 — 064.
TEST END
The pitch bend test, once completed, automatically
proceeds to the next test.
TEST 07 MODULATION WHEEL
Move the modulation wheel smoothly as follows:
min — max — min (down — up — down)
07 MODULATION
Set to ttt XXX
(ttt: The next targeted value)
(***: The present modulation wheel value)
Confirm that the modulation wheel value changes as
foliows: 000 — 127 — 000.
TEST END |
The modulation wheel test, once completed,
automatically proceeds to the next test.
TEST 08 RHYTHM VOLUME
Move the rhythm volume smoothly as follows: min —
max — min (down — up — down).
08 RHYTHM VOLUME
Set to ttt lal
(ttt: The next targeted value)
(***: The present rhythm volume value)
Confirm that the rhythm volume value changes as fol-
lows: 000 — 127 -› 000.
TEST END
The rhythm volume test, once completed,
automatically proceeds to the next test.
TEST 09 BASS VOLUME
Move the bass volume smoothly as follows: min —
max — min (down — up — down).
09 BASS VOLUME
Set to ttt XXX
(ttt: The next targeted value)
(***: The present bass volume value)
Confirm that the bass volume value chanages as follows:
000 — 127 — 000.
TEST END
The bass volume test, once completed, automatically
proceeds to the next test.
TEST 10 CHORD 2 VOLUME
Move the chord 2 volume smoothly as follows: min
— max — min (down — up —» down).
10 CHORD2 VOLUME
Set to ttt xxx
(ttt: The next targeted value)
(***: The present chord 2 volume value)
Confirm that the chord 2 volume value changes as
follows: 000 — 127 — 000.
TEST END
The chord 2 volume test, once completed,
automatically proceeds to the next test.
TEST 11 CHORD 1 VOLUME
Move the chord 1 volume smoothly as follows: min
— max — min (down — up — down).
11 CHORD1 VOLUME
Set to ttt xxx
(ttt: The next ta rgeted value)
(***: The present chord 1 volume value)
Confirm that the chord 1 volume value changes as
follows: 000 — 127 —› 000.
TEST END |
The chord 1 volume test, once completed,
automatically proceeds to the next test.
TEST 12 ORCHESTRA 2 VOLUME
Move the orchestra 2 volume smoothly as follows:
min — max — min (down — up — down).
12 ORCH.2 VOLUME
Set to ttt XK
(ttt: The next targeted value)
(***: The present orchestra 2 volume value)
Confirm that the orchestra 2 volume value changes as
follows: 000 — 127 — 000.
TEST END
The orchestra 2 volume test, once completed,
automatically proceeds to the next test.
TEST 13 ORCHESTRA 1 VOLUME |
Move the orchestra 1 volume smoothly as follows:
min -» max — min (down — up — down).
13 ORCH.1 VOLUME
Set to tit XXX
(ttt: The next targeted value)
(***: The present orchestra 1 volume value) —
Confirm that the orchestra 1 volume value changes as
follows: 000 — 127 — 000.
TEST END
The orchestra 1 volume test, once completed,
automatically proceeds to the next test.
TEST 14 EXPRESSION PEDAL
Connect the expression pedal and move it smoothly
as follows: min — max — min (release — depress —
release).
PSR-5700
14 EXPRESSION PEDAL
Set to ttt KA
(ttt: The next targeted value)
(***: The present expression pedal volume value)
Confirm that the expression pedal value changes as fol-
lows: 000 — 127 — 000.
TEST END
The expression pedal test, once completed,
automatically proceeds to the next test.
TEST 15 SUSTAIN PEDAL
15 SUSTAIN PEDAL
Switch = OFF
Connect the sustain pedal and turn it On and Off as
follows:
16 SUSTAIN PEDAL ©
Switch = ON
{
15 SUSTAIN PEDAL
Switch = OFF
TEST END
The sustain pedal test, once completed, automatically
proceeds to the next test.
TEST 16 FOOT SWITCH
16 FOOT SWITCH
Switch = — OFF
Connect the foot switch and turn it On and Off as
follows:
о
O
N
un
1
o
и
.
16 FOOT SWITCH
Switch=0N
|
16 FOOT SWITCH
Switch=OFF
TEST END
The foot switch test, once completed, automatically
proceeds to the next test.
35
PSR-5700
36
TEST 17 FLOPPY DISK
Before the test, insert a formatted blank disk with the
write protect set to off.
When the test is executed, the LCD display will be as
follows:
17 FLOPPY DISK
*now Testing FloppyDisk*
DISPLAY OF THE TEST RESULT
OK No display (It will proceed to the next test
automatically.)
NG 17 FLOPPY DISK
Error number = xxx
(*** Error No.)
Error message
Error No. 001: The disk is not inserted properly.
Error No. 002: Disk drive error
Error No. 003: Address mark in data section cannot
be detected.
Error No. 004: Address mark in ID section cannot be
detected.
Error No. 005: ID mismatch / Cylinder address is
wrong
Error No. 006: ID mismatch / Cylinder address
mismatch
Error No. 007: CRC error in ID section
Error No. 008: CRC error in Data section
Error No. 009: Write protect is ON.
Error No. 010: The disk has been removed before the
operation was completed
Error No. 011: Save/load data mismatch
Error No. 012: File search error
TEST END
The test, once completed, will automatically proceed
to the next test.
TEST 18 OUTPUT L SOUND GENERATION
В 18 OUT PUT LEVEL Lch
Confirm that a normal signal is output from AUX.
OUT and PHONES (L).
Both jacks, AUX.OUT R, L and L+R, should be
inserted, and the master volume should be set to
Max.
CHECK ITEMS
AUX. OUT L: Sine wave, — 9 + 3dBm (Load open)
PHONES (L): Sine wave, + 5 + 3dBm (Load open)
TEST END
Press either [+] underneath the LCD to proceed
automatically to the next test.
TEST 19 OUTPUT R SOUND GENERATION
19 OUT PUT LEVEL Rech
Confirm that normal signal is output from AUX. OUT
R and PHONES(R). |
Both jacks, AUX.OUT R, L and L+R, should be
inserted, and the master volume should be set to
Max.
CHECK ITEMS
AUX. OUT R: Sine wave, —9* 3dBm (Load open)
PHONES (R): Sine wave, +5+ 3dBm (Load open)
TEST END
Press either [+] underneath the LCD to proceed
automatically to the next test.
TEST 20 REVERB(HALL) SOUND
20 REVERB
Check the reverb(hall) sound by listening. Adjust the
master volume to the easy-to-listen level.
TEST END
Press either [+] underneath the LCD to proceed
automatically to the next test.
TEST 21 EFFECT SOUND
21 EFFECT
Check the effect sound by listening. Adjust the
master volume to the easy-to-listen level. |
TEST END |
Press either [+] underneath the LCD to proceed
automatically to the next test.
TEST 22 AUTO SCALING
22 AUTO SCALING
Select Voice=
-— The above LCD is displays when the test is entered.
Select a voice by using the [BANK] and [NUMBER]
buttons. Once a voice number is entered, key
numbers 000~127 are auto scaled. Adjust the master
volume to the easy-to-listen level.
22 AUTO SCALING
Select Voice= KK
(***. Key number being checked.)
Once the test has completed up to key number 127 ,
the LED displays as follows, so that the same kind of
test can be performed with another voice.
22 AUTO SCALING
Select Voice = 127
TEST END
Press either [+] underneath the LCD to end the test.
The PSR-5700 will display the menu and wait for the
entry of a test number.
MENU 00->22 TestPrg.
99: Exit 88: FactrySet
TEST 88 FACTORY SETTING
Executing this test initializes all backup data, and play
mode is entered, the test mode being skipped.
TEST 99 EXIT
Executing this test enters the play mode, the test
mode being skipped.
PSR-5700
C. PROGRAM VERSION NUMBER DISPLAY
1. Hold down the {INTRO.1], [INTRO.3] and [PANEL
REGISTRATION: 8], and turn on the power
supply, and a detailed number version of the
program and style data display.
The test 00 display controls each ROM. Program
ROM 2 also has style data other than the program.
The ROM managing number is substituted by the
program version number, which is used to see the
style version set in the latter Пай.
Prog.1 ROM Version: *.&& |
MMM DD YYYY HH MM SS
Prog.2 ROM Version: *.&&
MMM DD YYYY HH MM SS
St1 ROM Ver.Style1: *. &&
Style2: *.&& Styled: *.&&
~ * : Version No.
&&: Revision No.
MMM: Month
DD: Date
YYYY: Year
HH: Hour
MM: Minute
SS: Second
2. Switch the display with the [<1], [>] buttons on
the right of the LCD.
3. Press [EXIT] to reset the program and enter the
normal operation status.
37
PSR-5700
PSR-5700
ERROR MESSAGES
If an error is encountered when a disk operation is executed, one of the following error messages may appear:
“Tere Error or Unformat! ”
The disk in the drive has not been formatted or the disk is
the wrong type or has the wrong format.
“Not. Found File!”
The disk does not contain any files saved by the user.
“Write Protect on |!” |
The disk write protect tab is in the write disable position.
“ Disk Error!”
À data error has occurred during a save, delete, or format
operation.
“Disk Full!”
The floppy disk does not have enough remaining capacity
to carry out the specified operation.
5
Sample Data Disk!”
You have attempted to perform a save, rename, delete,
format, or disk free area operation while the supplied data
disk is in the drive.
“Style Disk!”
You have attempted to perform a save, rename, delete,
format, or disk free area operation while a style disk or other
optional pre-recorded disk is in the drive.
“Not. Found Disk!”
No disk in drive.
“Bad File Name!”
The file name is all spaces and cannot be recognized by
the PSR-5700.
O
e,
№
К
e
7
а.
“Not. Encugh Menor! ”
- Not enough memory to load the specified sequencer file
from disk.
Some of the error displays automatically revert to the pre-
vious display after a few seconds, while others require that
the [EXIT] button be pressed to exit from the error display.
If a damaged disk 1s used the data countdown during
FROM DISK or TO DISK operations may stop and the load
ot save operation may get “hung up.” In this case, eject the
disk from the drive even though the DISK IN USE lamp may
be on. Discard the damaged disk.
38
|
PSR-5700
HMIDI DATA FORMAT
* Values with an “H* suffix are hexadecimal.
* Bei Werten mit dem Suffix “H” handelt es sich um Hexadezimalwerte.
* Les valeurs precedees du suffixe “H” sont des valeurs hexadecimales.
* Los valores con un sufijo “H" son hexadecimales.
|. Remote Control Mode
BRch:Basic Receive Channel
PRch:Multi Part Receive Channel
RRch:Rhythm Receive Channel
<Reception Conditions>
MIDI - FEH ACTIVE SENSING
— FAH START
EXT — FCH STOP
0-0 F8H TIMING CLOCK
TIMING CLOCK
. TRANSPOSE ADD NOTE
x 7 0-0 — TRANSPOSE
17 ON
<BRch/PRch> (-) Г 8nH NOTE OFF
9nH NOTE ON/OFF
<RRch> 8nH NOTE OFF
| 9nH NOTE ON/OFF
ON |
0-0 <BRch/PRch> BnH,01H MODULATION WHEEL
CONTROL CHANGE SW BnH,07H VOLUME
BnH,0AH PAN
BnH,0BH EXPRESSION
BnH,40H SUSTAIN
<BRch> : BnH 50H FOOT CONTROLLER
<BRch> BnH,7AH LOCAL CONTROL
— BnH,7CH OMNI MODE OFF
BnH,7DH OMN! MODE ON
<BRch/PRch> BnH,7BH ALL NOTE OFF
ON
0-0 <BRch/PRch> BnH,00H BANK SELECT MSB
PROGRAM CHANGE SW — 20H BANK SELECT LSB
CnH,00H~63H PROGRAM CHANGE
ON
0-0 <BRch/PRch> EnH PITCH BENDER
PITCH BENDER SW
ON
0-0 — <BReh> FOH,43H,0nH,0AH....F7H MEMORY BULK DUMP
SYSTEM EXCLUSIVE SW
(PK__2239__)
— FOH,43H,0nH,7CH....F7H
(PK_ 2239)
—— F0H,43H,2nH OAH,F7H
——— F0H,43H,2nH,7CH,F7H
——— F0H,43H,2nH,7DH,F7H
— FOH,43H,76H,04H,gnH....F7H
FOH,43H,73H,01H,14H,F7H
IF — FOH,7EH,00/7FH,09H,01H,F7H
— FOH,43H,73H,01H,02H,F7H.
—— FOH,43H,73H,01H,03H,F7H
— FOH,43H,73H,01H,10H,F7H
— FOH,43H,76H,05H,02H,F7H
— FOH,43H,76H.05H,03H,F7H
— FOH,43H,76H,05H,04H F7H
__—— FOH,43H,76H,05H 05H F7H
—— FOH,43H,76H,05H,06H,F7H
— FOH,43H,76H,05H,07H,F7H
—— FOH,43H,76H,05H,08H,F7H
FOH,43H,76H,05H,09H,F7H
PANEL DATA BULK DUMP
MEMORY BULK DUMP REQ.
PANEL DATA REQ.
NAME DATA REQ.
CONTROLLER
SWITCH TO DOC MODE
SWITCH TO GM MODE
INTERNAL CLOCK
EXTERNAL CLOCK
CONT /PROG. CHANGE SW OFF
CONTROL CHANGE SW OFF
e,
о
N
Ч)
||
РД
a)
a
CONTROL CHANGE SW ON
PROGRAM CHANGE SW OFF
PROGRAM CHANGE SW ON
PITCH BENDER SW OFF
PITCH BENDER SW ON
SYSTEM EXCLUSIVE SW OFF
SYSTEM EXCLUSIVE SW ON
39
PSR-5700
<Transmission Conditions> Tch Transmit Channel
STch :Split Transmit Channel
SeqTch: Sequencer Transmit Channel
ACTIVE SENSE FEH MIDI
START FAH
STOP FCH
INT
TIMING CLOCK F8H 0-0
TIMING CLOCK
TRANSPOSE ADD NOTE
| ТВАМУРОЗ$Е — — — — 0-0
PanelData — oN |
NOTE ON/OFF 91H — ———| n=T/STch selected according to SplitSend, — (+)
| ORCHESTRATION, and pitch.
ON
MODULATION WHEEL BnH,01H —— n=T/STch selected according to SplitSend, 0-0
VOLUME" BnH,07H —— ORCHESTRATION, and others (EXP.PDL CONTROL
EXPRESSION BnH,OBH —— | SEUWHEEL SEL/SUS.PART SEL). CHANGE SW
SUSTAIN BnH,40H ——
“ Exclusive VOLUME data also available.
FOOT CONTROLLER BnH,50H <Tch>
ON
BANK SELECT BnH,00H —— n=T/STch selected according to SplitSend, 0-0
(CUSTOM VOICE SW) 20H —— ORCHESTRATION, and pitch. PROGRAM
PROGRAM CHANGE CnH, CHANGE SW
O0H~63H
ON
PITCH BENDER EnH —| n=T/STch selected according to SplitSend, -—— 0- 0
ORCHESTRATION, and PITCH BEND PITCH
SEL. BENDER SW
MEMORY BULK DUMP FOH,43H,0nH 0AH....F7H <Tch>
PANEL DATA BULK DUMP FOH,43H,0nH,7CH....F7H
NAME DATA TRANS. FOH,43H,0nH,7DH....F7H
DOC MODE from REMOTE FOH,43H,73H,01H,14H,F7H
GM MODE from REMOTE FOH,7EH,00H/7FH,09H.01H,F7H
O ON
(e) Controller FOH,43H,76H,04H,F7H —— 0-0
N | SYSTEM EXCLUSIVE SW
a
er ncer Dat TRANSPOSE ADD NOTE
ve) TRANSPOSE —— 0-0
NOTE ON/OFF 9nH (+) <SegTch>-
| ON
MODULATION WHEEL BnH,01H — 0-0
VOLUME * BnH,07H CONTROL CHANGE SW
SUSTAIN BnH.40H
ON
BANK SELECT BnH,00H . 0-0
(CUSTOM VOICE) 20H PROGRAM CHANGE SW
PROGRAM CHANGE CnH,00H~63H
ON
PITCH BENDER EnH 0-0
PITCH BENDER SW
40
<Reception Conditions>
li. DOC Mode
Kch:Key Channel
REMOTE MODE from DOC
GM MODE from DOC
FOH,43H,73H,01H,13H,F7H
FOH,7EH,00H/7FH,09H,01H,F7H —
PSR-5700
MIDI FEH ACTIVE SENSING
FAH START
FCH STOP
TRANSPOSE ADD NOTE
0 - 0 — TRANSPOSE
Do ON
<1-10ch> (-) 8nH NOTE OFF
ни | 9nH NOTE ON/OFF
<15ch> 8nH NOTE OFF
| onH NOTE ON/OFF
<1~10ch> BnH.01H MODULATION WHEEL
BnH,07H VOLUME
BnH.0AH PAN
BnH.oBH EXPRESSION
BnH.40H SUSTAIN
CnH PROGRAM CHANGE
‚ EnH PITCH BENDER
<Kch> BnH,7AH LOCAL CONTROL
FOH,43H,73H,01H,13H,F7H SWITCH TO REMOTE MODE
FOH,7EH,00H/7FH,09H,01H,F7H SWITCH TO GM MODE
<16ch> РОН 43H,73H,01H,11H,0FH,59H zz,F7H REVERB TYPE
<Transmission Conditions> Kch:Key Channel
ACTIVE SENSE FEH MIDI
START FAH
STOP FCH e)
TIMING CLOCK F8H о
| TRANSPOSE ADD NOTE N
TRANSPOSE 0-0 и
ON | &
NOTE ON/OFF onH - (+) <Kch> N
MODULATION WHEEL BnH,01H uns
VOLUME BnH,07H
EXPRESSION BnH,oBH |
SUSTAIN BnH,40H 7
PROGRAM CHANGE CnH
PITCH BENDER EnH
41
PSR-5700
42
<Reception Conditions>
Ш. GM Mode
Kch:Key Channel
MIDI
FEH
FAR
FCH
TRANSPOSE ADD NOTE
0-0 ——— TRANSPOSE
ON
<1-9,11-16ch>
<10ch>
<1-9,11-16ch>
<1-16ch>
(-) | - 8nH
_ 9nH
8nH
o 9nH
BnH,01H
BnH,07H
BnH OAH
BnH,0BH
BnH 40H
BnH,06H
BnH 26H
BnH,64H
BnH 65H
BnH,5BH
<Kch>
BnH,78H
BnH,79H
BnH,7BH
<1-9,11-16ch>
BnH,7AH
CnH
L EnH
<Transmission Conditions> Kch:Key Channel
ACTIVE SENSING
START
STOP
NOTE OFF
NOTE ON/OFF
NOTE OFF
NOTE ON/OFF
MODULATION WHEEL
VOLUME
PAN |
EXPRESSION
SUSTAIN
DATA ENTRY MSB
DATA ENTRY LSB
RPN LSB
RPN MSB
REVERB DEPTH
ALL SOUND OFF
RESET ALL CTRLS
ALL NOTE OFF
LOCAL CONTROL
PROGRAM CHANGE
PITCH BENDER
FOH,7EH,00H/7FH,09H,02H,F7H SWITCH TO REMOTE MODE
FOH,43H,73H,01H,14H,F7H
SWITCH TO DOC MODE
MIDI
TRANSPOSE ADD NOTE
0-0
ACTIVE SENSE FEH
START FAH
STOP FCH
TIMING CLOCK F8H
TRANSPOSE
NOTE ON/OFF 9nH
A]
MODULATION WHEEL BnH,01H
VOLUME BnH,07H
EXPRESSION BnH,0BH
SUSTAIN BnH,40H
PROGRAM CHANGE CnH
PITCH BENDER EnH
REMOTE MODE from GM FOH,7EH,00H/7FH,09H,02H,F7H
FOH,43H,73H,01H,14H,F7H
DOC MODE from GM
(+)
<Kch>
PSR-5700
|. Channel Message |
c=1 (Modulation Depth) (Compatible with Remote:O DOC: 0 GM1:O)
1. VOICE MESSAGE [IN] |
v= Remote :Depends on voice.
vibrato depth
1-1) 8n : NOTE OFF (Reception only) DOC vibrato dep
(Compatible with Remote: O DOC: O GM1:0) OUT] GM1 :Depends on voice.
8 | n n: MIDI Channel у = modulation wheel value: OOH(min) - 7FH(max).
0 K k: Key Note Number
0 у v: Velocity c=7 (Volume) (Compatible with Remote: O DOC: O GM1:0)
Velocity value ignored. [IN]
| | v= Remote :Corresponds to fader position.
1-2) 9n : NOTE ON/OFF (Compatible with Remote: O DOC: O GM1:0) DOC :7FH=0dB,00H=-e, 0.1875dB/step
os | n n-MIDI Channel | | GM1 :7FH=0dB,60H=-4.8dB,40H=-11.9dB,
0 k ke Key Note Number | 20H=-23.9dB,10H=-36dB,00H=-
0 v v: Velocity 00H~7FH [OUT] |
Key off when velocity = 0. = Remote :Corresponds to fader position.
DOC — “Actual dB value applied to tone generator in
1-3) Cn : PROGRAM CHANGE 0.1875 dB steps, according to fader position.
(Compatible with Remote: O DOC:O GM1:0) GM1 Inverse change applied to tone generator in dB,
according to fader position.
- MIDI Ch |
e n- Dro am Number 0dB=7FH,-4.8dB=60H,-11.9dB=40H,
| p- Frog -23.9dB=20h,.......
ae Number Remote : 0-09 c=10 (Pan) (Reception only)
rogram :0- |
C tible with R te : DOC:0 GMt:
DOC — :0-87 (Some numbers omitted) > [IN] (Compatible with Remote: O © О
GMT 10-127
Bemote GM1 DOC
| V= 00H-07H LEFT 7 LEFT 6
1-4) En ; PITCH BEND CHANGE 08H-0FH 6 6
(Compatible with Remote: O DOC: O GM1:0) 10H-17H 5 6
E | n n: MIDI Channel 18H-1FH 4 5
о | LSB MSB LSB 20H-27H 3 4
о | MsB 01111111 01111111 : max 28H-2FH 2 3
: : 30H-37H 1 2
01000000 00000000 : center 38H~3FH CENTER 1
: : | 40H VOICE PAN CENTER
00000000 00000000 : min 41H~47H CENTER CENTER
[IN] 48H~4FH RIGHT 1 VOICE PAN
Pitch range. Remote : Depends on voice. 50H~57H 2 RIGHT 1
DOC :+300€ . 58H~5FH 3 2
GM1 — :+200 cents default. Maximum range 60H-67H 4 3 (e)
+1 octave with RPN. 68H-6FH 5 4 (e)
[OUT] 70H-77H 6 5 N
Pitch bend wheel value output. 78H-7FH 7 6 ot
æ
1-5) Bn : CONTROL CHANGE c=11 (Expression) — (Compatible with Remote:O DOC:O GM1:0) 4
B n n: MIDI Channel [IN] |
0 с c: Control Number | v= Remote : Corresponds to expression position.
GM1- :7FH=0dB,60H=-4.8dB,40H=-11.9dB,
c=0 (Bank Select MSB) (Compatible with Remote:O DOC:x GM1:X) 20H=-23.9dB,10H=-36dB,00H=-0
[IN/OUT] [OUT]
V = 00H, fixed. v= Remote : Corresponds to expression position.
DOC —:Actual dB value applied to tone generator in
0.1875 dB steps, according to expression
position.
GM1. Inverse change applied to tone generator in dB,
according to expression position.
OdB=7FH -4.8dB=60H,-11.9dB=40H,
-23.9dB=20h,.......
43
PSR-5700
c=32 (Bank Select LSB)
(Compatible with Remote: O DOC: X GM1:X)
[IN/OUT]
v=" 00H: CustomVoice SW OFF
01H: CustomVoice SW ON
c=64 (Sustain) (Compatible with Remote: O DOC: O GM1:0)
[IN]
у= :00H~3FH=OFF 40H~7FH=0ON
(In DOC mode 00H-2FH=OFF,30H-7FH=ON)
[OUT]
v= :0OH=OFF, 7FH=ON
c=80 (Foot Controller) (Compatible with Remote: © DOC: X GM1: X)
[IN] |
v= :00H~3FH=0OFF, 40H-7FH=ON
[OUT]
у= OH=OFF, 7FH=ON
c=100(RPN LSB) (Reception only)
(Compatible with Remote:X DOC:X GM1:0)
=101(RPN MSB)
[IN]
MSB LSB Function
v= 00H 00H Pitch Bend Sense
00H 01H Fine Tuning
00H 02H Coarse Tuning
c=6 (Data Entry MSB) (Reception only)
(Compatible with Remote: X DOC:X GM1:0)
=38 (Data Entry LSB)
[IN]
v= Data input according to RPN, above.
Pitch Bend Sense: 1 step = 100/128 cents,
range = 0 ~ 1200 cents.
Fine Tuning: 1 step = 100/8196 cents, range = +100 cents.
Coarse Tuning: 1 step = 100 cents, range = +1200 cents.
c=91 (Reverb Depth) (Reception only)
(Compatible with Remote: X DOC: X GM1:O)
v = reverb depth OOH{min) ~ 7FH(max)
e,
O
2. MODE MESSAGE (Reception only)
x B | n n: MIDI Channel
Vi О с c: Mode Message
a 0 у v: Value
Refer to the chart below.
Mode Message | — Function Value Remote] DOC | GM1
120 All Sound off OOH-7FH x X O
121 Reset All Ctris OOH-7FH x x O
122 Local Control 00H (off), O O O
All others (on)
123 All Notes Off 00H O X O
124 OMNI Mode Off | 00H O X X
125 OMNI Mode On | OOH O X X
44
Il. System Message
1. REAL TIME MESSAGE
F8 : TIMING CLOCK (Compatible with Remote:O DOC:O GM1:0)
Transmission only’in DOC & GM1 modes.
FA : START (Compatible with Remote:O DOC: 0 GM1:0)
FC: STOP (Compatible with Remote:O DOC:O GM1:0)
FE : ACTIVE SENSING (Compatible with Remote:O DOC:O GM1:0)
2. SYSTEM EXCLUSIVE MESSAGE
(1) MEMORY BULK DUMP REQUEST (Reception only)
(Compatible with Remote:O DOC:X GM1:X)
11110000 РОН Status
01000011 43H YAMAHA 1D
0010nnnn 2nH Substatus/n: Device Number
00001010 OAH Format Number
11110111 F7H EOX
(2) MEMORY BULK DUMP DATA
(Compatible with Remote: O DOC: X GM1:X)
11110000 FOH Status
01000011 43H YAMAHA ID
O000nnnn OnH Substatus/n: Device Number
00001010 OAH Format Number
Onnnanna an Byte Count MSB
Onnnnnnn nn Byte Count LSB
01010000 50H Header 'P
01001011 4BH 'K
00100000 20H space
00100000 20H space
00110010 32H 2
00110010 32H 2
00110011 33H '3
00111001 39H '9
00100000 20H space
Onnannnn nn Data Number”
Oddddddd dd
: Data
Oddddddd dd
Osssssss ss Check-sum
11110111 F7H EOX
* DATA NUMBER
оон SYSTEM SET UP DATA
01H VOICE REGISTRATION DATA
02H PANEL REGISTRATION DATA
03H, 04H SUPER STYLE PLAY DATA
05H-07H PAD DATA
08H CUSTOM VOICE DATA
O9H-1AH CUSTOM ACCOMPANIMENT DATA
1BH~2BH SEQUENCER DATA
11110000
01000011
0010nnnn
01111100
11110111
11110000
01000011
0000nnnn
01111100
Onnnannn
Onnnnnnn
01010000
01001011
00100000
00100000
00110010
00110010
00110011
00111001
‘00100000
00100000
Ovvvvvvv
Orerrrrr
Oddddddd
Oddddddd
Osssssss
11110111
11110000
01000011
0010nnnn
01111101
11110111
11110000
01000011
O000nnnn
01111101
Onnnnnnn
: Onnnnnnn
01010000
01001011
00100000
00100000
(3) PANEL DATA REQUEST (Reception only)
(Compatible with Remote:O DOC:X GM1:X)
FOH
43H
2nH
7CH
F7H
Status
YAMAHA iD
Substatus/n: Device Number
Format Number
EOX
(4) PANEL DATA BULK DUMP
(Compatible with Remote:O DOC: X GMt:X)
FOH
43H
OnH
7CH
nn
nn
50H
4BH
20H
20H
32H
32H
33H
39H
20H
20H
vv
ss
F7H
Status |
YAMAHA 1D >
Substatus/n: Device Number
Format Number
Byte Count MSB
Byte Count LSB
Header 'P
'К
space
space
2
2
3
'9
space
space
“Software Version Number
Software Revision Number
Data
Check-sum
EOX
(5) NAME DATA REQUEST (Reception only)
(Compatible with Remote: O DOC: X GM1:X)
FOH
43H
2nH
70H
F7H
Status
YAMAHA ID
Substatus/n: Device Number
Format Number
EOX
(6) NAME DATA TRANSMISSION (Transmission Only)
(Compatible with Remote: O DOC: X GM1:X)
FOH
43H
OnH
70H
nn
nn
50H
4BH
20H
20H
Status
YAMAHA ID
Substatus/n: Device Number
Format Number
Byte Count MSB
Byte Count LSB
Header 'P
К
space
space
À
PSR-5700
00110010 32H "2
00110010 32H 2
00110011 33H '3
00111001 39H '9
00100000 20H space
00100000 20H space
Ovvwwy © vw: Software Version Number
Orrrarre rr Software Revision Number
Occececc CC
Occeecec cc
Occecece cc Condition Data
Occecece CC _
0sssssss ss Check-sum
11110111 F7H EOX
(7) DOC/Remote Control Mode Switching
(7.1) REMOTE CONTROL MODE
(Compatible with Remote: X DOC:O GM1:X)
11110000 FOH Status
01000011 43H
01110011 73H
00000001 O1H
~ 00010011 13H
11110111 F7H EOX
(7.2) DOC MODE = (Compatible with Remote O DOC:X GM1:0)
11110000 РОН Status
01000011 43H
01110011 73H
00000001 01H
00010400 14H
11110114 F7H EOX
(8) GM Level 1/Remote Controi Mode Switching
(8.1) REMOTE CONTROL MODE
(Compatible with Remote:x DOC:X GM1:0)
11110000 FOH = Status
01111110 ЕН
01111111 <Device ID> 00H or 7FH
00001001 09H
00000010 02H GM Mode Off
11110111 F7H EOX
(8.2) GM Level 1 MODE
(Compatible with Remote:O DOC: O GM1:X)
11110000 FOH Status
01111110 7EH
01111111 <Device ID> 00H or 7FH
00001001 - O9H
00000001 01H GM Mode On
11110111 F7H EOX
PSR-5700
45
PSR-5700
PSR-5700
(9) CLOCK MODE CHANGE
46
11110000
01000011
01110011
00000001
00000010
11110111
11110000
01000011
01110011
00000001
0000001 1
11110111
11110000
01000011
01110011
00000001
00010000
11110111
11110000
01000011
01110110
00000101
00000010
11110111
11110000
01000011
01110110
00000101
00000011
11110111
11110000
01000011
01110110
00000101
00000100
11110111
(9.1) INTERNAL MODE (Reception only)
(Compatible with Remote: O DOC: X GM1:X)
FOH
43H
73H
OtH
02H
F7H
Status
YAMAHA ID
Substatus Section No.= 3 (Single Keyboard)
Product ID
Internal Clock Mode
EOX
(9.2) EXTERNAL MODE (Reception only)
(Compatible with Remote: O DOC: X GM: Xx)
FOH
43H
73H
01H
03H
F7H
Status
YAMAHA ID
Substatus Section No.= 3 (Single Keyboard)
Product ID
External Clock Mode
EOX
(10) CONTROL/PROGRAM CHANGE OFF (Reception only)
(Compatible with Remote: CO DOC: X GM1:X)
FOR
43H
73H
01H
10H
F7H
Status
YAMAHA ID
Substatus Section No.= 3 {Single Keyboard)
"Product ID
MIDI non-sync mode on
EOX
(11) CONTROL CHANGE OFF (Reception only)
(Compatible with Remote: © DOC: X GM1: Xx)
FOH
43H
76H
05H
02H
F7H
Status
YAMAHA ID
Substatus Section No.= 6 (Portable Keyboard)
Control Change Off
EOX
(12) CONTROL CHANGE ON (Reception only)
(Compatibie with Remote: O DOC: X GM1:X)
FOH
43H
76H
05H
03H
F7H
FOH
43H
76H
05H
04H
F7H
Status
YAMAHA ID
Substatus Section No.= 6 (Portable Keyboard)
Control Change On
EOX
(13) PROGRAM CHANGE OFF {Reception only)
(Compatible with Remote: O DOC: X GM1:X)
Status
YAMAHA ID
Substatus Section No.= 6 (Portable Keyboard)
Program Change Off
EOX
(14) PROGRAM CHANGE ON (Reception only)
| (Compatible with Remote:O DOC:X GM1:X)
Status
YAMAHA ID
Substatus Section No.= 6 (Portable Keyboard)
11110000 FOH
01000011 43H
01110110 76H
00000101 O5H
00000101 O5H Program Change On
11110111 F7H EOX
(15) PITCH BEND OFF (Reception only)
(Compatible with Remote:O DOC:X GM1:X)
Status
YAMAHA 10
Substatus Section No.= 6 (Portable Keyboard)
11110000 FOH
01000011 43H
01110110 76H
00000101 OSH
00000110 06H Pitch Bender Off
11110111 F7H EOX
(16) PITCH BEND ON (Reception only)
(Compatible with Remote:O DOC:X GM1: Xx)
Status
YAMAHA ID |
Substatus Section No.= 6 (Portable Keyboard)
11110000 РОН
01000011 43H
01110110 76H
00000101 05H
00000111 07H Pitch Bender On
11110111 F7H EOX
(17) SYSTEM EXCLUSIVE OFF (Reception only) ;‘
(Compatible with Remote: O DOC: X GM1: X)
Status
YAMAHA ID
Substatus Section No.= 6 (Portable Keyboard)
11110000 FOH
01000011 43H
01110110 76H
00000101 OSH
00001000 OBH System Exclusive Off
11110111 РН FOX
(18) SYSTEM EXCLUSIVE ON (Reception only)
(Compatible with Remote: O DOC: X GM1:X)
Status
YAMAHA ID
Substatus Section No.= 6 (Portable Keyboard)
11110000 FOH
01000011 43H
01110110 76H
00000101 O5H
00001001 09H System Exclusive On
11110111 F7H EOX
This command can be received even when system exclusive is OFF.
(13) REVERB TYPE — (Compatible with Remote: X DOC: O GM1:X)
11110000 РОН Status
01000011 43H YAMAHA 1D
01110011 73H Substatus Section No.= 3 (Single Keyboard)
00000001 01H Product 1D
00010001 11H
OOOOnnnn OFH
01011001 58H
02722272 zz Reverb Type zz =00 : OFF
11110111 F7H EOX 01 : ROOM
02 : HALL
03 : HALL
04 : OFF
3. MIDI EXTENDED CONTROL CHANGE
R ion & Transmissi |
(M Only controls that are active in each mode are available
for reception and transmission.
@ As for functions, when a data entry button below the
display is pressed a corresponding data entry event is
transmitted rather than than the edited value.
- Reverb and effect type/depth ON events are transmit-
ted simultaneously.
- Harmony type aiso transmitted simultaneously with an
ON event.
- ABC mode transmitted when ABC turned ON, and
ABC is turned ON when an ABC mode message Is
received. =
@ For controls such as the DEMO button which is held
while some other operation is performed, an ON event is
transmitted when the button is pressed and an OFF
event is transmitted when the button is released.
(@) OFF—ON events are transmitted in succession when an
auto-repeat controller is used.
PSR-5700
47
PSR-5700
PSR-5700
PSR-5700
48
(1) 1BYTE DATA FORMAT
(O: Transmit & receive. X: No transmit or receive. R: Receive only)
11110000
‹ 901009011
01110110
00000100
Ogggnnnn
Occececc
Oddddddd
11110111
FOH
43H
76H
04H
gn
CC
dd
F7H
1BYTE DATA
Status
YAMAHA ID
Substatus Section No.= 6 (Portable Keyboard)
g=0, n:Local Device Number
cc: Controller number
Data
EOX
g | сс
dd
Parameter
Function
O | OOH
O0H
23H
24H
29H
2AH
PRESET 0:0
PRESET 5:5
CUSTOM 0
CUSTOM 5
DISK
RHYTHM STYLE
O | ajowey
x [W9/200
01H
оон
01H
02H
03H
OFF
SF
FC
MB
ABC
-— Ineludes
| ABC ON-
_
03H
00H
01H
02H
OFF (Release button)
INTRO /FILL1 ON (Press)
INTRO /FILL2 ON (Press)
INTRO. /FILL IN
o
04H
оон
INTRO./ENDING ON
(Press)
INTRO./ENDING
O
05H
00H
SYNCHRO START
ON (Press)
SYNCHRO START
O
08H
7AH
7FH
00H ,
06H
-6
2's complement
-1 of 7 bits.
0
+6
TRANSPOSE
OBH
01H
07H
08H
ORCH. 1
ORCH. 2+1
ORCH. 2401
ORCHESTRATION
O
OCH
OCH
01H
04H
SSP OFF
SSP 1
SSP 4
SUPER STYLE PLAY
O
ODH
04H
05H
KEY VELOCITY OFF
KEY VELOCITY ON
KEY VELOCITY
mp meme
cc ¡dd | Parameter Function g 8
| & |=
OEH | 00H | REVERB OFF REVERB/EFFECT |O | Xx
01H | REVERB ON (Refer to “3 BYTE
02H | REVERB TYPE 1 | DATA" for each
: : part)
1AH | REVERB TYPE 25
40H | EFFECT OFF Transmitted
41H | EFFECT ON when ON.
42H | EFFECT TYPE 1
4AH | EFFECT TYPE 9 -
11H | 00H | PANEL REGIST- | PANEL Oo | x
; RATION Af REGISTRATION
OFH | PANEL REGIST-
Ш RATION B8 | |
12H | 01H | PAD MULTI MULTI PAD 0 | x
02H | PAD TEMPO
03H | PAD PERCUSSION
06H | REPEAT/SYNC/
BREAK OFF
:07H | REPEAT/SYNC/
BREAK ON
-08H | PAD REC/STOP OFF
' (When released)
i 09H | PAD REC/STOP ON
Е (When pressed)
15H | 09H | SONG SELECT 1 | SEQUENCER SONG !O | x
: be SELECT
ОЕН | SONG SELECT 6
17H | 00H~7FH [CHORD 1 VOL. | CHORD 1 VOL. ox
18H | 00H-7FH |BASS VOL. BASS VOL. — 10 |Xx
19H | 00H-7FH [RHYTHM VOL.) RHYTHM VOL. To x
1СН | 00H-7FH (ORCH. 2 VOL. | ORCH. 2 VOL. ox
| 1DH| 00H-7FH |CHORD 2 VOL. | CHORD 2 VOL. О | х
ЛЕН | 00H | VOICE PART | VOICE PART ox
SELECT ORCH. 4 | SELECT :
01H | VOICE PART |
— |SELECTORCH.2 |
20H | 00H | HARMONY OFF | HARMONY ox
01H | HARMONY ON
02H | HARMONY ТУРЕ | Transmitted
; : | when ON.
11H { HARMONY TYPE 16
22H | 00H | DEMO OFF DEMONSTRATION [O | X
| |01H | DEMO ON
23H | 00H | VOICE REGIST- | VOICE О | х
ВАТЮМ 1 REGISTRATION
09H | VOICE REGIST- | MEMORY
RATION 10
Parameter
Function
24H
OOH
01H
02H
03H
05H
06H
07H
IA OFF
{A ON
VERSE1
VERSE?
CHORUS1 `
CHORUS?
SOLO OFF
SOLO ON
INTERACTIVE
ACCOMPANIMENT
O |ejowey
х HN9/200
25H
00H
01H
06H
07H
08H
09H
OAH
EXIT
FUNCTION 1_
FUNCTION 6
SEQUENCER OFF
SEQUENCER ON
CUS.ACCOMP. OFF
CUS.ACCOMP. ON
FUNCTION/
SEQUENCER
MODE/
CUSTOM ACCOMP.
MODE
26H
02H
03H
04H
05H
EDIT OFF
EDIT ON
DELETE OFF (When released)
DELETE ON (When pressed)
SEQUENCER/
CUSTOM
ACCOMP.
O
06H
07H
08H
09H
OAH
OBh
OCH
Pp» OFF (When released)
p> ON (When pressed)
<< OFF (When released)
«« ON (When pressed)
4 ON {When pressed)
RECORD OF F(When released)
RECORD ON {When pressed)
27H
00H
05H
07H
TRACK1/CHORD1
TRACK6/CHORD6
TRACK7/BASS
ACCOMP/RHYTHM
SEQUENCER/
CUSTOM ACCOMP.
28H
00H
01H
LEFT HOLD OFF
LEFT HOLD ON
LEFT HOLD
29H
OOH
01H
02H
| 03H
A
У
<
>
PAGE/SHIFT SW
O
2AH
00H
01H
02H
03H
04H
05H
06H
07H
LCD SW 1 OFF
(When released)
LCD SW 1 ON
(When pressed)
LCD SW 2 OFF
(When released)
LCD SW 2 ON
(When pressed)
LCD SW 3 OFF
{When released)
LCDSW3 ON
(When pressed)
LCD SW 4 OFF
(When released)
LCD SW 4 ON
(When pressed)
DATA ENTRY SW
(Not transmitted when
voice or style changed)
O
2BH
67H
7FH
19H
427.5Hz
: 2's complement of 7 bits.
439.5Hz
440.0Hz (0.5Hz/Step)
452,5Hz я
PITCH TUNE
2CH
00H
RE-START
RE-START
(2) 2BYTE DATA FORMAT
(O: Transmit & receive. X: No transmit or receive. R: Receive only)
11110000
01000011
01110110
00000100
Ogggnnnn
‚ Оссссссс
Oddddddd
Oddddddd
11110111
2BYTE DATA
FOH
43H
76H
04H
Status
YAMAHA ID
Substatus Section No.= 6 (Portable Keyboard)
PSR-5700
gn : g=1,n: Local Device Number
ce cc: Controller number
dd1
dd2
F7H
Data1
Data2
EOX
g
cc | dd1
dde
Parameter
Function
OCH
40~280
(Expressed in 14 bits)
TEMPO VALUE
TEMPO
O | ejowey
x |ND/900
01H | OOH
01H
02H
03H
04H
00H~7FH
OOH-7FH
00H~7FH
OOH-7FH
OOH-7FH
PAD 1
PAD 2
PAD 3
PAD 4
PAD 5
| dd2=0:0FF
dd2=0:0N
(Press)
PAD ON/OFF | O
X
05H
06H
07H
O0H~7FH
OOH-7FH
OOH-7FH
PAD 6
PAD 7
PAD 8
(Release)
02H | COR
01H
00H-63H
00H~63H
PRESET VOICE
CUSTOM VOICE
ORCH.2 VOICE| O
“03H
01H
00H
O0H-59H
OOH-59H
PRESET VOICE
CUSTOM VOICE
MB VOICE O
04H | OCH
OOH (Norma!)
01H {1up)
7FH (1down)
ORCH. 1
OCTAVE CHANGE] R
01H
00H (Normal)
01H (up)
7FH {1down)
ORCH. 2
(3) 3BYTE DATA FORMAT
(O: Transmit & receive. X: No transmit or receive. R: Receive only)
11110000 FOH Status
01000011 43H YAMAHA ID
01110110 76H Substatus Section No.= 6 {Portable Keyboard)
00000100 04H
Ogggnnnn gn g=2, n: Local Device Number
Occececc cc cc: Controller number
Oddddddd dd1 Datat
Oddddddd dd2 Data2
Oddddddd dd3 Data3
11110111 F7H EOX
3BYTE DATA
: : DIO
g| ce | ddt | dd2 dd8 | Parameter; Function 512
“ ' 2 ©
2 | ООН] 00Н | 00H-07H | 01H| RHYTHM | Reverb depth. O |X
01H! 00H-07H | 01H| BASS
02H | 00H-07H | 01H | CHORD? | Values for all parts
03H | 00H-07H | 01H | CHORD!1 | transmitted when
04H | 00H-07H | 01H | ORCH. 2 | reverb is turned ON.
O5H | 00H-07H | 01H | ORCH. 1
01H| 01H| 00H-07H | 01H BASS Effect depth. OX
02H | 00H-07H | 01H| CHORD?2 | Values for all parts
O3H | COH-07H | 01H | CHORD! | {transmitted when
04H: 00H-07H | 01H} ORCH. 2 | effect is turned ON.
05H| 00H-07H | 01H ORCH. 1
e
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PSR-5700
YAMAHA [ Portatone ] Date 07/23 1992
Model PSR-5700 MIDI Implementation Chart Version 1.0
+ = еее неее неее не ZL +
: Transmitted Recognized Remarks
Function : :
DIT ne +
:Basic Default : 1-16 1-16 memorized >
:Channel Changed : 1-16 1-16 :
mm tm +
Default : 3 21,3 * 2 memorized :
Mode Messages : X OMNIon, OMNIoff :
Altered . X x x * x x * x * * x x %* x X :
mm mm ннн te N
Note : 36-96 0-127 :
Number True voice: **%*%%X%X%X%X%XX XX xx 0-127 :
mmm mmm + ey
Velocity Note on : O 9nH,v=1-127 O v=1-127
Note off : X 9nH,v=0 X :
PO Fm +
After Key's : X X :
Touch Ch’s : X X :
PA 0 +. +
Pitch Bender : © O 0-12 semi *1:7bit resolution :
Do н не нно +A, +
0,32 : O * 2 О *2 :Bank Select :
1 : © O :Modulation :
: 6,38 : X O *3 :Data Entry :
:Control | 7 : © O : Volume :
: 10 : X O : Pan :
:Change 11 : O O Expression :
: 64 : O O :Sustain :
80 : O x 2 O *2 :Foot Controller :
91 : Xx O *3 Reverb Depth :
100,101 : X O *3 :RPN LSB,MSB :
120 : X O *3 :A11 Sound Off :
121 : X O *3 :Reset All Ctrls :
‚== == = = — = = = = — — EA. а
Program : O 0-99 *4 O 0-99 * 4 :
Change True # 1 KKXHXKKAKKXKXXX 0-99 *4 :
отн +; +
System Exclusive : O O :
Po е +. A, +
System Song Pos о Хх X :
: Song. Sel : X X :
: Common Tune : X X ‘
TA ЯР — == — == = — == == = = = == — = = — + = — — — == — — — — — — == — — — — ++ — — — — — = — == — — — — — — — — +
: System : Clock : © О * 2 :
:Real Time:Commands : O O :
Poo нннее не енннн + EE. +
Aux : Local ON/OFF : X O : :
: :All Notes OFF: X O (122-125) *5: :
:Mes- :Active Sense : O O : :
:sages:Reset : X X :
Cm нн ен + еее неее еее нее неее
Notes *1 = 0-3 if DOC mode is on :
*2 = only remote control mode :
*3 = only GM mode
*4 = 0-127 if GM mode is on 0-87 if DOC mode is on :
*5 = 122-123 if GM mode is on 122 if DOC mode is on :
AAA LL +
50 Mode 1 OMNI ON, POLY Mode 2 OMNI ON, MONO O Yes
Mode 3 OMNI OFF, POLY Mode 4 OMNI OFF, MONO X No
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