Apr.2003
SPD-S
SERVICE NOTES TABLE OF CONTENTS SPECIFICATIONS.............................................................2 LOCATION OF CONTROLS .................. ..................................... ........................4 .....4 LOCATION OF CONTROLS PARTS LIST .................. ...................5 .5 EXPLODED VIEW ................. ..................................... ....................................... .......................6 ....6 EXPLODED VIEW PARTS LIST ................. .................................... ....................7 .7 PARTS LIST.................... LIST........................................ ....................................... ................................8 .............8 IDENTIFYING THE VERSION NUMBER ................. ..................10 .10 SAVING USER DATA & RELOADING SAVED DATA................................................... DATA................................ ....................................... .............................10 .........10 TEST MODE................................................. MODE.....................................................................11 ....................11
INITIALIZATION PROCEDURE ................. .................................16 ................16 FORMATTING A COMPACTFLASH CARD.............17 RESTORING THE FACTORY SETTINGS...................17 PROCEDURE FOR UPDATING THE SYSTEM SOFTWARE............................................. SOFTWARE.......................... ....................................... .........................18 .....18 BLOCK DIAGRAM.................................. DIAGRAM..................................................... .......................20 ....20 CIRCUIT BOARD (MAIN) ............................................22 ............................................22 CIRCUIT DIAGRAM (MAIN).............................. (MAIN).......................................26 .........26 CIRCUIT BOARD (PANEL) .................. ...................................... ........................42 ....42 CIRCUIT DIAGRAM (PANEL).....................................46 (PANEL).....................................46
Copyright © 2003 ROLAND CORPORATION All rights reserved. No part of this publication may be reproduced in any form without the written permission of ROLAND CORPORATION.
17058160E0
Printed in Japan (0800) (NB)
Apr.2003
SPECIFICATIONS
Dimensions 342 (W) x 282 (D) x 83 (H) mm 13-1/2 (W) x 11-1/8 (D) x 3-5/16 (H) inches
SPD-S: Sampling Pad Pads
Weight 2.1 kg
Built-in Pads: 9
Maximum Polyphony
4 lbs 11 oz (excluding AC adaptor)
Accessories
8 voices
Owner’s Manual English (#03129712)
Sampling Mode
AC Adaptor ACI-120C (#00975767) AC Adaptor ACI-230C (#01018312)
Fine/Standard/Long
AC Adaptor ACB-230E (#01458278) AC Adaptor ACB-240A (#12449549)
Sampling Frequency
Sampling CD (#03129723)
44.1 kHz
Stand Holder Mounting Screw x 4 (#40563778) Security Screw x 2 (#02126156)
Input Level
Hexagon Wrench (#********)
Line: -10 dBu Mic: -50 dBu
Input Impedance
Slit Tape (#********)
Options Pads (PD-120, PD-100, PD-80, PD-80R, PD-9, PD-7, PD-6, KD-7)
10 k ohm (LINE/MIC)
Expression Pedal (EV-5) Foot Switch (BOSS FS-5U)
Output Level
Hi-Hat Control Pedal (FD-7) PCS Connecting Cord Set (PCS-31)
Output: -10 dBu
Output Impedance Output: 1 k ohm
All Purpose Clamp Set (APC-33)
The CompactFlash which can operate by SPD-S CompactFlash Capacity: 16M/32M/64M/128M/256M/512M 16M/32M/64M/128M/256M/512M byte
Headphones: 47 ohm
Memory
0 dBu = 0.775 Vrms
Patches: 128 Waves: Internal: 399 (Pre-loaded Sound 181) Card: 500
Maximum Sampling Time 12 min. approx. (Internal Memory, Long Mode)
Effects Multi-Effects (30 types) + Ambience (System)
Display 16 characters, 1 line (backlit LCD)
Connectors Output Jacks (L/Mono, R) (1/4 inch phone type) Input Jacks (L/Mono, R) (1/4 inch phone type) * LINE/MIC selectable Headphones Jack (Stereo) (Stereo 1/4 inch phone t ype) Trigger Input Jack (1/4 inch TRS phone type) Expression Pedal (1/4 inch TRS phone type) MIDI Connectors (IN, OUT) Foot Switch Jack (1/4 inch TRS phone type) CompactFlash Card Slot
Power Supply DC 9 V: AC Adaptor
Current Draw 1,000 mA
2
*
In the interest interest of product product improvem improvement, ent, the specific specificatio ations ns and/or and/or appearance appearance of this unit are subject to change without prior notice.
SPD-S
3
Apr.2003
LOCATION OF CONTROLS fig.panel
1
20
13
4
2
2
3
4
14 15
5 8
16
6 10
9
17
12
7 11
18
12
19
SPD-S
LOCATION OF CONTROLS PARTS LIST [Parts] NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
PART CODE 03341889 03129489 03230601 F3229136 03129756 03129545 03129512 02341634 03341890 03235345 02341712 02897334 12499175 01676512 22365714 40011312 02568867 02341645 03129556 02565056 03341901 03121678 03121689
PART NAME PLAYING PLATE ASSY R-KNOB 9M/M ROTARY POT. 12M/M ROTARY POT. PANEL SHEET ASSY TOP PANEL RUBBER SWITCH DC JACK BOTTOM CASE ASSY SLIDE SWITCH 6.5MM JACK (MONORAL) 6.5MM JACK (STEREO) KEY TOP for POWER SW POWER SWITCH CORD HOOK SCREW M3x8 MIDI CONNECTOR 6.5MM JACK (STEREO) REAR PANEL 9M/M ROTARY POT. CF COVER ASSY COMPACTFLASH CONNECTOR COMPACTFLASH EJECTOR
DESCRIPTION for SC for SC EVUJFRFK1B14 RV112B-40E1-125A-A10K for SC for SC for SC for SC HTJ-020-05A for SC SSSF141300 HTJ-064-10I HTJ-064-10D for SC JSPUE0011A SDKLA1-B BINDING TAPTITE P BZC HDC-052A-12 HTJ-064-04A for SC RK09K12A0D0K for SC ICM-MA2H-SS52-R21A ICM-MAE-R21
Q’TY 1 2 1 1 1 1 1 1 1 1 4 3 1 1 1 1 1 1 1 2 1 1 1
5
Apr.2003
EXPLODED VIEW fig.bunkai-e
2
a
e
1
b
f
2
2
3 c c 5 2
4 c
c d
11 12 6
7
c d
8
*
9
13
15
d 10
14 16 * Apply SHIELD SHEET SHEET using a double-side tape on the reverse side
20 18 21
17
22
19
23
6
SPD-S
EXPLODED VIEW PARTS LIST [Parts] NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23
PART CODE 2222365714 01344967 03341890 ******** 12499175 03129745 03341901 03341901 03341901 ******** 03129756 ******** 03129512 03341889 03341889 03341889 03129756 ******** 03129489 03341889 03341889 03341889 03341889
PART NAME CORD HOOK FOOT BOTTOM CASE ASSY REAR HOLDER KEY TOP for POWER SW MAIN BOARD ASSY CF COVER ASSY CF COVER ASSY CF COVER ASSY SHIELD SHEET PANEL SHEET ASSY WIRING 1 RUBBER SWITCH PLAYING PLATE ASSY PLAYING PLATE ASSY PLAYING PLATE ASSY PANEL SHEET ASSY WIRING 2 R-KNOB PLAYING PLATE ASSY PLAYING PLATE ASSY PLAYING PLATE ASSY PLAYING PLATE ASSY
DESCRIPTION
(INC. PCB SPACER CBS-19K) (INC. SENSOR ASSY) (INC. TOP CASE) (INC. VOLUME BOARD) 12 PIN for SC (INC. EDGE SHEET SENSOR for PAD 1-3) (INC. HEAD SHEET SENSOR for PAD 4-9) (INC. CUSHION) (INC. PLAYING PLATE)
Q’TY 1 4 1 1 1 1 1 1 1 1 1 1 1 3 2 1 1 1 2 1 1 1 1
PART NAME SCREW 4x16 SCREW 4x12 SCREW 3x8 SCREW 3x6 SCREW 3x8 SECURITY SCREW
DESCRIPTION BINDING TAPTITE P NI BINDING TAPTITE P BZC BINDING TAPTITE P ZC BINDING TAPTITE B ZC BINDING TAPTITE P BZC HEX CAP SCREW M3x10 TAPTITE P NI
Q’TY 4 11 16 9 1 2
(INC. BOTTOM CASE) JSPUE0011A (INC. CF ESCUTCHEON) (INC. CF COVER) (INC. CF HOLDER) (INC. PANEL BOARD) 40 PIN
[Screws] NO. a b c d e f
PART CODE 40562967 40012501 40011278 40011056 40011312 02126156
7
Apr.2003
PARTS LIST fig.part1e
SAFETY PRECAUTIONS: The parts marked have safety-related safety-relate d characteristics characteristics.. Use only listed parts for replacement.
CONSIDERATION ON PARTS ORDRING When ordering any parts listed in the parts list, please specify the following items in the order sheet. QTY PART NUMBER DESCRIPTION MODEL NUMBER Ex. 10 22575241 Sharp Key C-20/50 15 2247017300 Knob (orange) DAC-15D Failure to completely fill the above items with correct number and description will result in delayed or even undelivered replacement.
NOTE: The parts marked # are new. (initial parts)
CASING #
# # # # # # # # #
# # # # #
Q’TY 1
03341889 PLAYING PLATE ASSY for SC NOTE : ‘PLAYING PLATE ASSY’ INCLUDES ‘TOP PANEL’ ******** EDGE SHEET SENSOR for PAD 1-3 ******** HEAD SHEET SENSOR for PAD 4-9 ******** CUSHON ******** PCB SPACER CBS-19K ******** PLAYING PLATE ******** SENSOR ASSY ** ******** TOP CASE 03129545 TOP PANEL
1 1 1 1 1 2 1 1
03341890 BOTTOM CASE ASSY for SC NOTE : ‘BOTTOM CASE ASSY’ ASSY’ INCLUDES THE FOLLOWING FOLLOWING PARTS ******** BOTTOM CASE 22365714 CORD HOOK 01 0 1344967 FOOT 03129556 REAR PANEL
1
03341901 CF COVER ASSY NOTE : ‘CF COVER ASSY’ INCLUDES INCLUDES THE FOLLOWING PARTS PARTS ** ******** CF COVER ******** CF ESCUTCHEON ******** CF HOLDER
1
1 1 ^4 1
1 1 1
KNOB, BUTTON # 03129489 12499175
R-KNOB JSPUE0011A
for SC KEY TOP for POWER SW
JACK, EXT TERMINAL # 03129512 01676512 # 03235345
RUBBER SWITCH PUSH SWITCH SDKLA1-B SLIDE SWITCH SSSF141300
for SC POWER SWITCH SLIDE SWITCH
SW3 SW2
1 1 1
HTJ-064-04A HTJ-064-10D for SC HTJ-064-10I HTJ-020-05A HDC-052A-12
6.5MM JACK (STEREO) 6.5MM JACK (STEREO) 6.5MM JACK (MONORAL) DC JACK MIDI CONNECTOR
JK9 JK4,JK7,JK8 JK2,JK3,JK5,JK6 JK10 JK1
1 3 4 1 1
PWB ASSY # 03129745 # 03129756
MAIN BOARD ASSY PANEL SHEET ASSY
for SC for SC
POTENTIOMETER 02565056 # 03230601 # F3229136
RK09K12A0D0K EVUJFRFK1B14 RV112B-40E1-125A-A10K for SC
9M/M ROTARY POT. 9M/M ROTARY POT. 12M/M ROTARY POT.
VR1,VR2 VR4 VR3
2 1 1
CONNECTOR # 03121678 # 03121689
COMPACTFLASH CONNECTOR
COMPACTFLASH EJECTOR
ICM-MA2H-SS52-R21A ICM-MAE-R21
CN 9 CN 9
1 1
2 1
SWITCH
02341645 02897334 02341712 02341634 02568867
8
1 1
SPD-S
WIRIING, CABLE # ******** # ********
WIRING 1 WIRING 2
40 PIN 12 PIN
1 1
#
40011056 40011278 40011312 40012501 40562967
SCREW M3x6 SCREW M3x8 SCREW M3x8 SCREW M4x12 SCREW M4x16
BINDING TAPTITE B ZC BINDING TAPTITE P ZC BINDING TAPTITE P BZC BINDING TAPTITE P BZC BINDING TAPTITE P NI
9 16 1 11 4
PACKING #
03341878
PACKING SET
for SC
1
SCREW
MISCELLANEOUS 22365714 01344967 # ********
ACCESSORIES (Standard) # 03129701 # 03129712 # 03343323 00905756 00905767 01018312 01458278 12449549 # 03129723 # 40563778 02126156 # ******** # ** ******** 40232334
CORD HOOK FOOT SHIELD SHEET
OWNER’S MANUAL OWNER’S MANUAL LEAFLET AC ADAPTOR ACI-100C AC ADAPTOR ACI-120C AC ADAPTOR ACI-230C AC ADAPTOR ACB-230E AC ADAPTOR ACB-240(A) CD-ROM STAND HOLDER MOUNTING SCREW
SECURITY SCREW HEXAGON WRENCH SLIT TAPE WARRANTY CARD
1 4 1
JAPANESE ENGLISH JAPANESE/ENGLISH
SAMPLING CD for SC HEX CAP SCREW M5x12 BZC HEX CAP SCREW M3x10 TAPTITE P NI 4MM
(JAPAN ONLY)
1 1 1 1 1 1 1 1 1 4 2 1 1 1
9
Apr.2003
IDENTIFYING THE VERSION NUMBER 1.
Hold down the [ALL SOUND OFF] and [CARD] buttons and turn on the power to the unit.
2.
Press the [<]/[>] buttons to sequence through the display of the following items.
SAVING USER DATA & RELOADING SAVED DATA Required equipment • MIDI MIDI sequ sequen ence cerr • MIDI ca cable
• CPU Versi Version, on, Build Build Numb Number er fig.ver-1
BULK DUMP Settings for SPD-S setups and patches can be saved to an external MIDI device, such as a sequencer.
• CPU CPU Rel Relea ease se Date Date fig.ver-2
• CPU CPU Rele Releas asee Time Time
Operate the external sequencer for recording ordinary performance data and then take the following steps for the SPD-S.
See the operation manual of the external MIDI device for details on it.
fig.ver-3
1. • EXT ROM Versi Version, on, Buil Build d Numbe Numberr
Connect an external MIDI sequencer (as a saving destination) to the MIDI OUT connector on the SPD-S using a MIDI cable.
fig.dump-e
fig.ver-4
MIDI IN
MIDI OUT
• EXT EXT ROM ROM Rel Relea ease se Date Date fig.ver-5
• EXT EXT ROM ROM Rele Releas asee Time Time fig.ver-6
External Seqencer SPD-S
• Factory Factory Data Version, Version, Build Build Numbe Numberr fig.ver-7
3.
Turn off the power to quit.
2.
Set the SPD-S to the patch mode or to the wave mode.
3.
Press [SETUP] button to access Setup Edit.
4.
Press the PAGE buttons to select “BULK DUMP,” then press [ENTER] button.
5.
Press [+] button to select “ALL”.
6.
Start recording on the external sequencer.
7.
Press [>] button to display “bulk dump, sure?” Press [ENTER] button to execute bulk dumping.
During transmission, “now sending” is displayed. After the transmission is finished, a “complete!” indication appears and the SPD-S returns to the “Dump” screen in Step 2. To cancel the transmission midstream, press [EXIT] button.
8.
10
Stop the external sequencer to stop recording.
SPD-S
Retrieving Saved Data Back to the SPD-S Retrieves the settings saved to sequencers and other external MIDI devices to the SPD-S.
1.
Connect the MIDI IN connector on the SPD-S to the MIDI OUT connector of an external sequencer using a MIDI cable.
2.
Press [PATCH] button to enter patch mode.
Bulk data cannot be retrieved in any mode other than patch mode.
3.
6.
To quit Test mode:
Turn off the power to the unit.
*
In each tested tested item, item, the screen screen initiall initiallyy shows shows the test type type for a set length length of time, the display switches to the actual test screen.
*
The “BelTre “BelTreeD” eD” sound sound is played played when “OK” “OK” is returne returnedd and the proced procedure ure advances to the subsequent test. When a test results “NG,” the “FlexMtl” sound is played.
Test Mode Procedure
Transfer the settings data from the external sequencer to the SPD-S. The transferred settings are restored.
Executing Test mode deletes the User data; be sure to back up the data stored in the unit beforehand. fig.audio
TEST MODE Required items • Expres Expressio sion n Pedal Pedal (EV-5 (EV-5 etc.) etc.) • Foot Foot switc switch h x3 (FS-5U (FS-5U etc.) etc.) • PAD (With (With a RIM switch switch functio function) n) x2 (PD-7, (PD-7, PD-9, PD-9, CY-12 etc.) etc.)
d n n a l o R
• Y cab cable le (PCS (PCS-3 -31) 1) x2 • Stereo Stereo jack jack plug plug Cab Cable le x1 x1
Stereo jack plug cable
• Mono Mono jack jack plug plug Cabl Cablee x2 x2 • MID I cable
Y cable
or
red
white
• CompactFla CompactFlash sh (Forma (Formatting tting using the SPD-S) SPD-S) • Moni Monito torr Spea Speake kerr
Pad with a rim switch
• H ea eadphone
Basic Test Mode Operations 1.
1.
Make sure that the polarity is set properly here (set the foot switches to open when the pedal is pressed; this should be the reverse of the TRIG IN switch).
Proceeding with series of test: Some of tests automatically advance to the next when the result is “OK .”
2.
To advance to the next test forcefully even when the result is “NG” or while running a test:
Hold down [SHIFT] button and press the [>] button.
Use a stereo cable to connect a pad with a rim switch to the TRIG IN jack. Alternatively, use a Y cable to connect one foot switch to the TRIG IN jack (plug in the Y cable’s cable’s red connector).
Press [>] button (the LED flashes as a prompt).
2.
Using a Y cable, connect two foot switches to the FOOT SW jack.
Make sure that the polarity is set properly here (set the foot switches to short (close) when the pedal is pressed).
3.
Connect an expression pedal to the EXP PEDAL jack.
4.
Insert a CompactFlash card in the unit for tests. Use a CompactFlash card formatted on the SPD-S. If updating of the factory data is required in “0. Factory Data Update,” use a CompactFlash card containing the factory data.
3.
To return to the previous test:
Press the [<] button.
4.
To return to the previous test forcefully:
Hold down [SHIFT] button and press the [<] button.
5.
To repeat the current test:
Press [EXIT] button.
11
Apr.2003
Entering Test Mode
2. Device Test
1.
Insert the CompactFlash card in the card slot.
fig.test2-1
2.
Hold down both [PHRASEMAKER] and [CARD] buttons and turn on the power.
3.
Continue to hold down t he buttons until [PATCH] and [EFFECTS] buttons light.
4.
Release [PHRASEMAKER] and [CARD] buttons.
5.
Press [EXIT] button.
6.
Press [ENTER] button.
1.
When the test results “OK”, the “-” symbol changes to “o”; if the test results “NG” (fail), the symbol changes to a charactor to represent the error type.
fig.test2-2
fig.test2-3
Test Items 0. Factory Data Load
Checked Items
When the CompactFlash contains factory data, the instrument compares its version with the version contained internally, and if the CompactFlash contains a newer version, the unit automatically switches to Update mode.
P: Program ROM: Checksum Comparison Comparison
If the data stored in the instrument is the later version, this mode is skipped.
S: SDRAM: Write/Read
fig.test0-1
I: CPU Internal: Checksum Comparison
M: MR3 Chip: Write/Read N: NAND Flash: Write/Read/Format C: CompactFlash: Format (Write/Read (Write/Read Check)
1.
Press the [ENTER] button to begin loading.
fig.test0-2
2.
Press the [>] button to show which tests failed. If multiple tests fail, use the [<] and [>] buttons to navigate (the [<] and [>] buttons flash as a prompt).
fig.test2-4
Loading. fig.test0-3 fig.test2-5
When loading fails (in this case, press [EXIT] button to return to the previous screen). fig.test0-4
3.
If all tests result “OK,” the process automatically advances to the subsequent test.
fig.test2-6
2.
When loading completes normally, the process automatically advances to the subsequent test.
fig.test0-5
3. MIDI Test fig.test3-1
1. Version Test fig.test1-1
1.
Use a MIDI cable to connect SPD-S‘s MIDI IN and MIDI OUT.
Before Connecting 1.
Confirm the version number.
fig.test3-2
fig.test1-2
Connected 2.
Press the [>] button to advance to the subsequent test.
fig.test3-3
2.
12
If the test results “OK,” the process automatically advances to the subsequent test.
SPD-S 4. Switch/LED Test
5. Effects Control Knob Test
fig.test4-1
fig.test5-1
fig.test4-2
1.
Turn the [EFFECTS CONTROL] knob completely to the left (counterclockwise), (counterclockwise), and confirm that the value is “0” when the knob is fully turned.
fig.test5-2
The number of switches that have not been checked is indicated in parentheses.
The following screen appears when the knob is turned fully to the left. At this time, confirm t hat the “CowbMmbo” sound is played. fig.test5-3
1.
Using a Y cable, connect two foot switches to the FOOT SW jack.
2.
Use a stereo cable to connect a PD-7 to the TRIG IN jack. Alternatively, use a Y cable to connect one foot switch to the TRIG IN jack (plug in the Y cable’s red connector).
3.
2.
Press the panel switches individually to comfirm that the name of the switch being pressed appears in the display and that the corresponding sound is played. If the switch includes an LED, also confirm that the LED turns off when the switch is pressed.
*
For pad pad switche switches, s, press press (grasp (grasp)) the rim section. section.
*
The test test doesn't doesn't result result “OK” when when two or or more panel panel switches switches are are pressed pressed simultaneously. The test also doesn't result “OK” when the foot switches (or a foot switch and pad switch) are pressed pressed simultaneously. simultaneously.
Turn the [EFFECTS CONTROL] knob completely to the right. At this time, confirm t hat the “BelTreeD” sound is played.
3.
If the test results in “OK,” the process automatically advances to the subsequent test.
fig.test5-4
6. Expression Pedal Test fig.test6-1
fig.test4-3
4.
1.
Connect an expression pedal to the EXP PEDAL jack.
The PAD LEDs turn off with each press of the [+] button.
2.
Confirm that the value is “0” when the pedal heel is pressed down fully.
Confirm that all of the PAD LEDs go off.
fig.test6-2
fig.test4-4
The following screen appears in the display when when the pedal heel is pressed down fully.
Switches
At this time, confirm t hat the “CowbMmbo” sound is played. fig.test6-2
fig.test4-5
[PATCH] [RESAMPLE] [EFFECTS] [EDIT] [PHRASEMAKER] [FOOTSW1]
[WAVE] [EXIT] [ALLSOUNDOFF] [LEFT/<] [FUNC] [FOOTSW2]
[PLAY/STOP] [ENTER] [CARD] [RIGHT/>] [SHIFT] [TRIGINSW]
[SAMPLE] [SETUP] [-]
[+]
3.
Press the pedal toe down completely. At this time, confirm t hat the “BelTreeD” sound is played.
5.
If all of the switches pass their tests, the process automatically advances to the subsequent test.
fig.test4-6
4.
If the test results in “OK,” the process automatically advances to the subsequent test.
fig.test6-3
13
Apr.2003 7. LCD Test
8. Trigger Test
fig.test7-1
fig.test8-1
1.
1.
Hold down the [INC/+] button and confirm that the LCD contrast changes gradually.
Using a Y cable, connect two pads to the TRIG IN jack.
Holding down the [INC/+] button and pressing the [DEC/-] button causes the contrast to change more rapidly. When the contrast is at the maximum level, the screen shown below appears.
To disable the trigger while connecting or disconnecting the cable, hold down the [FUNC] button; the trigger is ignored while this button is pressed.
At this time, confirm that the “Agogo Hi” sound is played. fig.test7-2 fig.test8-2
2.
Hold down the [DEC/-] button and confirm that the LCD contrast changes gradually.
fig.test8-3
Holding down the [DEC/-] button and pressing the [INC/+] button causes the contrast to change more rapidly. When the contrast is at the minimum level, the screen shown below appears.
2.
Sheet Sensor Check The test automatically checks whether or not the sheet sensor is turned on while the pad is not being touched.
At this time, confirm that the “Agogo Lo” sound is played. fig.test7-3
If no pad has a sheet sensor on, nothing appears in the display, and the procedure advances to the subsequent test.
3.
Press the [ENTER] button and confirm that the entire LCD is lit (the [ENTER] button flashes as a prompt).
Do not touch the pads while the check is in progress.
At this time, confirm that the “Shaker” sound is played. fig.test7-2
If there is a pad with its sheet sensor on, the pad’s number is displayed, the pad LED flashes, and the test result is “NG.” fig.test8-4
4.
Press the [ENTER] button and confirm that the entire LCD goes dark (the [ENTER] button flashes as a prompt). At this time, confirm that the “Maracas” sound is played.
fig.test7-4
3.
Check response to weak hits by striking a lightly and individually. Confirm that the corresponding number disappears and that the corresponding sound is played. The LED for each corresponding pad flashes and then goes off.
fig.test8-5
*
5.
Pressing Pressing the [ENTER [ENTER]] button button cycles cycles through through the contras contrastt check, check, all LCD on, on, and all LCD off tests.
If all tests result in “OK,” press the [>] button to advance to t he subsequent test. The procedure does not advance unless all of the above tests are completed.
The test does not result “OK” when two or more pads are struck simultaneously. A minimum interval of 0.1 seconds is required between each stroke of the pads.
When a pad is struck hard, the corresponding number in LCD doesn’t go off and no sound is played although the pad LED lights, and the test doesn’t result “OK.”
4.
If all pads are “OK,” the process automatically advances to the subsequent test.
fig.test8-6
fig.test8-7
14
SPD-S 5.
Check response to strong hits by striking a pad hard and individually.
b.
Confirm that the corresponding number disappears and that the corresponding sound is played.
Velocity Check Strike each pad with a stick; when a pad is struck, the pad number and velocity value (1--127) is displayed, and the corresponding LED flashes and then goes off.
The LED for each corresponding pad flashes and then goes off.
fig.test8-13
fig.test8-8
Strike [Pad5]. fig.test8-14
When a pad is struck lightly, the corresponding number in LCD doesn’t go off and no sound is played although the pad LED lights, and the test doesn’t result “OK.”
The weak and strong checks can be switched by pressing the [ENTER] button.
When a pad has faulty sheet sensors that does not turn on, there is no response from the pad when it is struck.
Press the [ALLSOUNDOFF] button to return to the Sheet Sensor Check.
Correspondence Between the Pads and Sounds
Press the [EXIT] button to return to the beginning of the Trigger Test.
fig.test8-9
[1: Claves 2 ] [4: Bongo Hi ] [7: 808Kik 1 ] [A(T [A(Trig1): rig1): 909Cl 909Claps aps ]
6.
[2: CowbMmbo ] [5: Conga Hi ] [8: eSnr ] [B(T [B(Trig2): rig2): SpokT SpokTom1 om1 ]
[3: Agogo Hi ] [6: Xstick 3 ] [9: AcuHH cl ]
If all pads are “OK,” t he process automatically advances to the subsequent test.
fig.test8-10
9. Audio Input Test fig.test9-1
1.
Set the [VOLUME] knob to minimum, and turn the [INPUT LEVEL] knob on the rear panel to the maximum setting.
2.
Use two mono cables to connect the INPUT L/MONO and R to the OUTPUT L/MONO and R.
fig.test9-2
Advanced Test Test Mode To enter Advanced Test mode, press the [ALLSOUNDOFF] button during the Trigger Test. This mode, you may check the causes of failure in the above test.
a.
3.
Press the [ENTER] button.
fig.test9-3
Sheet Sensor Check If a pad’s sheet sensor turns on when the pad is pressed with the hand, the corresponding number disappear, and the pad’s LED goes off.
fig.test9-4
Release the pads to return them to their original state. fig.test8-11
(Level Meter Display)
Above level meter is displayed, and a 100-Hz signal is output at -50 dBu. The [START/STOP] button flashes.
Hand-press [Pad3]. fig.test8-12
4.
Set the [LINE/MIC] switch to “MIC” and turn up [VOLUME] knob. If the signal level is correct when [VOLUME] knob is turned right fully, the process automatically advances to the subsequent test. The level meter is displayed in the LCD.
Release [Pad3].
fig.test9-4
fig.test8-11
(Level Meter Display)
Press the [ALLSOUNDOFF] button to advance to the Velocity Check.
5.
The LCD shows following display, then it returns to the level meter.
fig.test9-5
A 100-Hz signal is output at -10 dBu. [START/STOP] button lights, and [SAMPLE] button flashes.
15
Apr.2003 6.
Set [LINE/MIC] to “LINE.” If the signal level is correct, the signal automatically switches to 10 kHz, and the same test runs. The [START/STOP] and [SAMPLE] buttons light, and the [RESAMPLE] button flashes.
11. Completing Test Mode 1.
If all of the tests in Test mode result in “OK”, shutdown for the card is executed.
fig.test11-1
If the tests result is “OK,” the process automatically advances to the subsequent test. fig.test11-2
In this test, signal status is normal when six squares are displayed for both the left and right channels in the LCD.
When the following is displayed, turn off the power to the unit. fig.test11-3
At this time, the [WAVE] button lights.
10. Sound Test fig.test10-1
1.
Confirm that no sound is being played ([ENTER] LED flashes as a prompt).
fig.test10-2
2.
Press [ENTER] button, and confirm that a sine wave is output from both the left and right channels of OUTPUT and PHONES (the [EDIT] button lights).
2.
If any of the tests fails, the following is displayed.
fig.test11-4
INITIALIZATION PROCEDURE Resets the SPD-S’s settings to initial values, or delete all the data stored in the SPD-S.
fig.test10-3
If you execute INIT/DELETE to delete patches and waves from the internal memory, the SPD-S will produce no sound.
3.
Press the [EDIT] button, and confirm that the output is mut ed (the mute circuits activate).
1.
Set the SPD-S to the patch mode or to the wave mode.
2.
Press [SETUP] button to access Setup Edit.
3.
Press the PAGE buttons to select “INIT/DELETE,” then press [ENTER] button.
At this time, the sound is output at a very low level; this does not indicate any malfunction (the [ENTER] LED lights as a prompt).
4.
Press [+] button to select “ALL.”
fig.test10-4
5.
Press [>] button to display “delete all, sure?”
6.
Press [ENTER] button to start initialization or deletion.
7.
During execution, “now processing?” is indicated.
4.
Press [ENTER] button, and confirm that a sine wave is output only from the left channel of OUTPUT and PHONES (the [ENTER] LED lights as a prompt).
After the execution, a “complete!” indication appears, and the SPD-S returns to the patch mode.
fig.test10-5
Do not power the SPD-S off during execution.
5.
Press [ENTER] button, and confirm that a sine wave is output only from the right channel of OUTPUT and PHONES (the [ENTER] LED lights as a prompt).
fig.test10-6
6.
Press [ENTER] button, and confirm that no sound is being output (the [ENTER] LED lights as a prompt).
fig.test10-7
*
7.
16
Press [ENTER] [ENTER] butto button n to cycle through through Steps Steps 3--6.
If the tests result “OK,” press [>].
SPD-S
FORMATTING A COMPACTFLASH CARD
RESTORING THE FACTORY SETTINGS
1.
The accompanying CD contains audio signals for sampling on the SPD-S and digital data for restoring the SPD-S to its factory settings.
To insert a CompactFlash card, carefully open the card slot cover (lefthand side of the SPD-S).
Restoring Patches and Waves to the Factory Settings fig.cf-1 MEMORY CARD slot
Once you execute this operation, you will lose all the patches and waves stored in the internal memory. Back up such data beforehand if needed.
Required items • A compu computer ter with with a CD-ROM CD-ROM drive drive C o om p ac t tF l l ash ™ F ™
• A card reader reader that support supportss CompactFl CompactFlash ash cards cards • The accompany accompanying ing CD-ROM CD-ROM (P/No.03129 (P/No.03129723) 723) • CompactFla CompactFlash sh (Formatt (Formatted ed using using the SPD-S)
2.
Select patch mode or wave mode.
3.
Press [SHIFT] and [SETUP] buttons (CARD UTIL).
Procedure 1.
Connect the card reader to the computer to ensure that it can be used.
If no CompactFlash card has been inserted, “no card!” is indicated and the SPD-S returns to the original mode. For connecting the card reader to the computer and using them, see their respective operation manuals.
4.
Press the PAGE buttons to select “CARD FORMAT,” then press [ENTER] button.
2.
Load the accompanying CD into the CD-ROM drive.
3.
Insert the CompactFlash card into the card reader.
4.
Copy the “FCTRY” folder on the accompanying CD to the “ROLAND” folder on the CompactFlash card.
When the CompactFlash card is unformatted, only “CARD FORMAT” is displayed.
5.
A “[>] to format.” indication appears. Press [>] button.
6.
A “format, sure?” indication is displayed. Press [ENTER] button to start formatting. While formatting is in progress, “now processing..” is displayed. Then, the SPD-S returns to the original mode.
If the “ROLAND” folder on t he CompactFlash card already has a “FCTRY” folder, delete the “FCTRY” folder before copying.
5.
Eject the CompactFlash card to which the copying was done in Step 4 from the card reader. Then, make sure that the SPD-S is powered off and insert it into the card slot of the SPD-S.
6.
While holding down [PATCH], [WAVE], and [CARD] button ON the SPD-S.
After powering it on, hold down the three buttons until “[ENTER] to Load” appears.
7.
“[ENTER] to Load” appears. Release the three buttons. Next, press [ENTER]. Data transfer from the CompactFlash card to the SPD-S begins. It takes a few minutes until it is complete.
During the data transfer, do not eject the CompactFlash card from the card slot and do not switch off power to the SPD-S. Doing so could not only destroy the data, but also cause problems for the SPD-S.
8.
“Load Completed!” appears, and the data transfer is complete. Now, eject the CompactFlash card, power the SPD-S off, then power it on again.
17
Apr.2003
PROCEDURE FOR UPDATING THE SYSTEM SOFTWARE
5.
When the update is completed normally, the [START/STOP], [SAMPLE], and [RESAMPLE] LEDs light up.
fig.up-3
The system can be updated using CompactFlash or MIDI.
Instructions for Updating Using CompactFlash Required items
If an error occurs during the procedure, all of the LEDs light up, and an error message is displayed. fig.up-4
6.
Turn off the power to end the procedure.
• A compu computer ter with with a CD-ROM CD-ROM drive drive • A card reader reader that that supports supports CompactF CompactFlash lash cards cards • UPDATE UPDATE CD-ROM CD-ROM for CF Card (P/No.17041 (P/No.17041324) 324) • CompactFla CompactFlash sh (Forma (Formatted tted using the SPD-S) SPD-S)
1. Preparation Prepares a CompactFlash card containing the updated system file.
Updating Using MIDI Required items • A MIDI MIDI sequenc sequencer er that that can play back SMF data data • UPDATE UPDATE CD-ROM CD-ROM for SMF (#170413 (#17041324) 24) • MIDI Ca Cable
1.
Insert the CompactFlash in a card reader connected to a computer.
1. Preparation For instructions on connecting the computer and card reader, refer to the service notes for formatting a CompactFlash.
The following sixteen files are required for the updater SMF; confirmed that they are present. p00001.mid, p00002.mid, p00003.mid, p00004.mid
2.
p00005.mid, p00006.mid, p00007.mid, p00008.mid Place the updated program in t he CompactFlash’s root (the top level). This completes preparation of the updater CompactFlash.
p00009.mid, p00010.mid, p00011.mid, p00012.mid p00013.mid, p00014.mid, p00015.mid, p00016.mid
2. Update Procedure
2. Update Procedure
1.
Hold down the [EFFECTS] and [ENTER] buttons and turn on the power to the unit.
1.
Use a MIDI cable to connect the MIDI OUT connector of a sequencer capable of playing back SMFs and the MIDI IN connector on the SPD-S.
2.
The [PATCH] and [PHRASEMAKER] buttons flash.
2.
Hold down the [WAVE] and [ENTER] buttons and turn on the power to the unit.
3.
The [SETUP] and [EDIT] buttons flash.
fig.up-1
fig.up-5
*
To cancel cancel the updat updatee at this point, point, turn turn off off the power power to the the SPD-S. SPD-S.
3.
Press the [PATCH] and [PHRASEMAKER] buttons simultaneously.
4.
The update begins. The process is divided into sixteen steps, and in each step, the
*
4.
To cancel cancel the the update update at this this point, point, turn off off the power power to the the SPD-S SPD-S
Press the [SETUP] and [EDIT] buttons simultaneously.
fig.up-6
[START/STOP] -> [SAMPLE] -> [RESAMPLE]
LEDs light in sequence. fig.up-2
5.
Play back p00001.mid through p00016.mid in sequence.
6.
The update begins, and with each file, the
[START/STOP] -> [SAMPLE] -> [RESAMPLE] *
The “**” “**” indicates indicates the the step number number current currently ly being being processed processed (01--1 (01--16). 6). LEDs light in sequence. fig.up-2
*
18
The “**” “**” indicate indicatess the file file currentl currentlyy being being executed executed (01--1 (01--16). 6).
SPD-S 7.
When the update is completed normally, the [START/STOP], [SAMPLE], and [RESAMPLE] LEDs light up.
fig.up-3
If an error occurs during the procedure, all of the LEDs light up, and an error message is displayed. fig.up-4
8.
Turn off the power to end the procedure.
19
Apr.2003
SPD-S
BLOCK DIAGRAM fig.block
A +9 RIPPLE FILTER
D +5 6
120 14 12 15
4 N 2 I 5
PC410
D +3 . 3
D +3 . 3
D +3 . 3
D +3 . 3
5
DC-DC NJM2360AM
3
D +5
100 220
SDRAM
2
4
1
2
RT1P141C
24 22 25
4
D +3 . 3
100k
1
MIDI T 2 U O 5
D +5
2.2k
2 220
D +5
10k 3
1
1
HD74LS05FP
2
HD74LS05FP
XRESET
MIDI_IN MIDI_OUT
1
f or or C ac ac hhee /W /W o rk rk /D /D el el ay ay L i ne ne
f or or P r og og ra ra m
16Mbit
8Mbit
HD74LS05FP
VCC
OUT
GND
CD
NC D +5
3
REGULATOR
for Patch,Wave Storage
NJM78L05UA
1
XRESET
4 5 0.1
Others Parts @40
DC-DC 1
ANI[0..7]
V850E/MA1
2
2 1 3
DC IN 16bit
P1 P2 MXPAD
FSR Only
A -9
POWER SW
RIM[1..10]
2
ComapctFlash
C PU
D +3 . 3
1
RESET IC S-80927CLMC-G6X-T2
NJM2360AM
0 0 0 0 3 4 5 6
PAD 1
NOR FLASH
D +3 . 3 2
Others Parts @40
16bit
ACI or ACB 9V/1000mA
16bit
A
BUS BUFFERS
RIM1
UPD70F3107AGJ- UEN (SPD-S (SPD-S 1.01) D +3 . 3
PAD 2 FSR Only
1
2
RIM2
16bit D +3 . 3
D +3 . 3
PAD 3 FSR Only
1 6
PAD4
-
5
7
ANI0
BA10324AF 9
-
10
1
8
ANI1
BA10324AF 13
-
12
2
RIM5
G a t e A r ray
for Preset,User Wave System Parameter
V850E GA
14 ANI2
D +3 . 3
DSP
128Mbit K C R K K L K C C C P R M B L X
ccllk=50MHz k=50M Hz
D +3 . 3
1
1
1
ANI3
BA10324AF 2
-
3
1
2
1
1
ANI4
2
2
3 1 1 1
11.2896MHz(256fs)
INPUT LEVEL
8 b i t
RIM6
D +3 . 3
+
AD/DA CODEC
RIM7
D +3 . 3
6
PAD9
-
5
7
ANI5
2
RIM8
MAIN BOARD
D +3 . 3
D +3 . 3
1
2
RIM9
5
1
2
RIM10 9 2
2 3 1
TRIG IN (1/2)
9
-
10
8
+ BA10324AF
13
-
12
D +3
0Z 0Y 0X 1Z 1Y 1X
ZCOM YCOM
XCOM C B A
14
+
A +9 16
BA10324AF D +3
VDD
CD4053BCSJ
5 4 2 3 7 8 1
FOOT SW (1/2)
5 2 12 3 1 13
S H S N V I 8 6
VEE
4
-
3
15
7
5
-
7
ANI7
XPDN
+
M5218AFP A +9
5
-
6
LRCK MCLK BCLK DEM1 DEMO PDN
VCOM
-
7
+
22
LINE -10dBu MIC -50dBu
6 5
M5218AFP
2 4 1
LINE IN R
A
3 2
2
-
P PHONES HONES LEVEL 1 2
1 1
+
12
M5218AFP
1
3
3 1
15
6
16
5
14
-
7
+
1
+ M5216FP
6
1 2
22
M5218AFP
0.1
-
2 3 1 A
A
5
3 2 S S V
LINE IN L(MONO)
A
1 2
5
2 4 1
-
PHONES PHONES +15dBu
7
+ M5216FP
A
1/50
A
R? 10k
6
LOUT SDTO
3
3 1
3
3
1
LIN
ROUT 10 11 12 7 6 13
2 3
RIN
D +3 . 3
M5218AFP
6
P1 P2
D +3 . 3
EXP PEDAL
8
14 9 10 11
SDTI
ANI6
+
2
2 3 1
1
10
A V
2
M5218AFP
A
4
D V
+
12
D +3 . 3
10
M5218AFP
3
M5218AFP
+
w.FSR
1 1
A -
7
+ 1
2
M5218AFP
24bit/512fs/GD=15.4
M5218AFP
-
1 -
1
+
w.FSR
LINE/MIC
4
+
w.FSR
2 1
0 1 K K K I C C K C Y R R C L L M S B
fx=5MHz
-
3
D +3 . 3
D +3 . 3
1
BA10324AF 2
PAD8
RIM4
+
w.FSR
PAD7
2
D +3 . 3
NAND FLASH
+
w.FSR
PAD6
RIM3
+
w.FSR
PAD5
2
8bit
D +5
MXPAD
SW Matrix (RU (RUBBER) BBER)
1
2
PANEL SH EET (PANEL BOARD)
D +5
12
RCM2122M-1A /R CM2 122M- A
-
1
+ M5218AFP
2 4 1 A
A
LED Matrix
6
1 2
22
7 1
+
3
3 1
16x1 Charactor
RT1N141C
2
1 1
LCD 2
5
LINE +4dBu -
7
+ M5218AFP
3 2
OUTPUT L (MONO)
2 4 1
OUTPUT R
A
A
BA10324AF
V VOLUME OLUME D +3 . 3
EFFECTS CONTROL
2
1
2
3
3
-
1
+ BA10324AF
PANEL SH EET (VOLUME BOARD)
20
21
Apr.2003
SPD-S
CIRCUIT BOARD (MAIN) fig.main-comp-slk
View from components side
22
23
Apr.2003
SPD-S
CIRCUIT BOARD (MAIN) fig.main-comp-slk
View from components side
22
23
Apr.2003
SPD-S
CIRCUIT BOARD (MAIN) fig.main-foil-ptn
View from foil side
24
25
Apr.2003
SPD-S
CIRCUIT BOARD (MAIN) fig.main-foil-ptn
View from foil side
24
25
Apr.2003
SPD-S
CIRCUIT DIAGRAM (MAIN 4/8) fig.main4-c
R63 47k C74 WLP@M 100/16
C72 10p
R68 220
1
-
R64 47k 2
A
3
+ IC16A M5218AFP 2
DA49 DAP202U 3
1
D +3 . 3 3 DA48 DAN202U 1
R70 4.7k
C80 WLP@M 100/16
C78 10p
R78 220
7
R74 47k
A
1
A
6
5 + IC16B M5218AFP
R80 4.7k
D +3 . 3
VR1B RK09K12A@ 10kAx2
A 0 2
R264 10
R67 220k 13 11
12 A
SW2A SSSF141300
1
C77 WLP@M 100/16
7
-
6
R76 390
C332 100p
5 + IC17B M5218AFP
SW2C SSSF141300
C333 0.1
0 2
D
0 1
32
A
2
A
1
A
A -9 DA4 DAP202U C82 WLP@M 100/16
R79 470
0 1
SW2E SSSF141300
R72 10k 42
SW2D SSSF141300
3
R77 220k 33 31
R71 NIU 43 41
2
A +9 3
C79 10p
C76 WLP@M 100/16
R69 470
IN_L
DA3 DAN202U
LINE -8.32dBu (+1.68dB) MIC -8.31dBu (+41.69dB)
R75 47k C81 WLP@M 100/16
C331 100p
R66 390
C330 100p
3 + IC17A M5218AFP
2 1
-
-
2
VR1A RK09K12A@ 10kAx2
1 13
R73 47k
2
R263 10
23
LINE/MIC -2.30dBu (+6.02dB)
C73 10p
INPUT VR
2 2
A
D
C71 WLP@M 100/16
R65 47k C75 WLP@M 100/16
C329 100p
IN_R R81 NIU 23 21
A
R82 10k 22 A
SW2B SSSF141300
A
+4.89dBu (+6.02dB) C84 R85 0.1 NIU
C83 WLP@M 100/16
D
D 1
ADC -0.64dBu typ. D +3 . 3 2 9
SDTI
5
RIN
A V
R86 10k
C86 WLP@M 100/16 D
D
4
D V
C91 WLP@M 100/16
15
LOUT
ROUT
SDTI
SDTO
IC20 AK4552VT D
R90 4.7k
R94 27k
16
C334 100p R91 8.2k
C92 1000p
2
C95 0.1
C100 NIU
A
A
R105 27k
C96 WLP@M 2.2/50
GA&DSP Section
3
R109 470
1
Q6 2SC3052
C102 1000p
A
5
-
PHONES VR
R260 1k
1
3 R92 4.7k
Q2 RN1441
2
-
C87 100p 1
R93 100k
A A
13 A R95 10k
A
R96 22k
2 1
7
PHONES_L
+ IC18A M5216FP
A
R88 RCT20@J 47 (1/2W)
C88 WLP@M NIU
PHONES +15dBu Max (+10.10dB)
1
C98 WLP@M 100/16
C99 WLP@M 100/16
C337 100p
6 5
3
+
IC19B M5218AFP
A
VR2B RK09K12A@ 10kAx2 0 1
C103 1000p
R261 1k
1 Q3 RN1441
R103 4.7k 2
A
-
C94 100p 7
R99 RCT20@J 47 (1/2W)
C97 WLP@M NIU
PHONES_R
+ IC18B M5216FP
R104 100k
A A
0 2
R110 27k C106 SLP@M 10/16
C104 WLP@M 100/16
DA7 DA204U 2
R111 27k
SEND_L C105 WLP@M 100/16 A
2
R107 470 OUT_L
R108 10k
1
Q4 RN1441 2
A
Q5 2SA1037KR
A
3
C107 WLP@M 100/16
R115 27k
A
R106 470
RETURN_L 3
1 R112 10k
2
A
6
2
A
1
3
C336 100p R102 8.2k
C335 100p
23
R98 10k
A
ADP V
CPU Section
A
R101 4.7k
VR2A RK09K12A@ 10kAx2
C93 1000p
R84 22k
3
2 2
A
C101 WLP@M 100/16
3
R114 27k
1
C90 WLP@M 100/16
+ IC19A M5218AFP
R97 10k S S V
R113 10k
-
C89 WLP@M 100/16
3
A
14
VCOM
D
A R83 10k
R87 10k
8
SDTO
XPDN AMUTE
A
DAC -1.13dBu typ.
CODEC LIN
10 11 LRCK 12 MCLK 7 BCLK 6 DEM1 13 DEMO PDN
LRCK MCK BCK
C85 0.1
SEND_R
R116 470
R117 470
RETURN_R
OUT_R 3
A -9 CN Section
R118 10k
1
Q7 RN1441
Jack Section
2
A +9
A +9 C108 WLP@M 100/16 A C113 WLP@M 100/16
A -9
32
8
C109 0.1
+ IC17C M5218AFP
A +9
8
C110 0.1
-
4
A C114 0.1 A -9
+ IC16C M5218AFP
A +9
8
A +9
C111 0.1
-
4
A C115 0.1 A -9
+ IC19C M5218AFP
8
C112 0.1
4
A C117 0.1
A
MUTE
A
-
4
A C116 0.1 A -9
+ IC18C M5216FP
D C348 NIU
A
D C349 NIU
A
A -9
33
Apr.2003
SPD-S
CIRCUIT DIAGRAM (MAIN 4/8) fig.main4-c
R63 47k C74 WLP@M 100/16
C72 10p
R68 220
1
-
R64 47k 2
DA49 DAP202U 3
1
D +3 . 3 3 DA48 DAN202U 1
R70 4.7k A
2
C80 WLP@M 100/16
C78 10p
R78 220
7
R74 47k
A
1
6
A
C81 WLP@M 100/16
VR1B RK09K12A@ 10kAx2
A 0 2
R67 220k 13 11
C330 100p
12 A
SW2A SSSF141300
1
C77 WLP@M 100/16
C79 10p
-
6
R76 390 33 31
5 + IC17B M5218AFP
C333 0.1
0 2
D
0 1
32
SW2C SSSF141300
A
2
A
1
A
A -9 DA4 DAP202U C82 WLP@M 100/16
R79 470
0 1
SW2E SSSF141300
R72 10k 42
SW2D SSSF141300
3
R77 220k
C332 100p
R71 NIU 43 41
2
A +9 3
7
C76 WLP@M 100/16
R69 470
IN_L
DA3 DAN202U
LINE -8.32dBu (+1.68dB) MIC -8.31dBu (+41.69dB)
R75 47k
R80 4.7k
D +3 . 3
2
VR1A RK09K12A@ 10kAx2
C331 100p
R264 10
-
R66 390
3 + IC17A M5218AFP
2 1
-
5 + IC16B M5218AFP
R263 10
23 1 13
R73 47k
C73 10p
INPUT VR
2 2
LINE/MIC -2.30dBu (+6.02dB)
D
C71 WLP@M 100/16
R65 47k C75 WLP@M 100/16
C329 100p
3 + IC16A M5218AFP 2
A
IN_R R81 NIU 23 21
A
R82 10k 22 A
SW2B SSSF141300
A
+4.89dBu (+6.02dB) C84 R85 0.1 NIU
C83 WLP@M 100/16
D
D 1
ADC -0.64dBu typ. D +3 . 3 2 9
SDTI
10 11 12 7 6 13
LRCK MCK BCK
5
RIN
C85 0.1 D
4 A V
D V
R86 10k
C86 WLP@M 100/16 D
C91 WLP@M 100/16
15
LOUT
IC20 AK4552VT D
2 3
14
VCOM
C95 0.1
C100 NIU
A
A
R105 27k
C96 WLP@M 2.2/50
GA&DSP Section
3
R109 470
1
R114 27k
Q6 2SC3052
C102 1000p
A
5
-
R260 1k
1
3 R92 4.7k
Q2 RN1441
2
-
C87 100p 1
R93 100k
A A
13 A R95 10k
A
R96 22k
2 1
7
PHONES_L
+ IC18A M5216FP
A
R88 RCT20@J 47 (1/2W)
C88 WLP@M NIU
PHONES +15dBu Max (+10.10dB)
1
C98 WLP@M 100/16
C99 WLP@M 100/16
C337 100p
6 5
3
+
IC19B M5218AFP
A
VR2B RK09K12A@ 10kAx2 0 1
C103 1000p
R261 1k
1 Q3 RN1441
R103 4.7k 2
A
-
C94 100p 7
R99 RCT20@J 47 (1/2W)
C97 WLP@M NIU
PHONES_R
+ IC18B M5216FP
R104 100k
A A
0 2
R110 27k C106 SLP@M 10/16
C104 WLP@M 100/16
DA7 DA204U 2
R111 27k
SEND_L C105 WLP@M 100/16 A
2
R112 10k
R107 470 OUT_L
R108 10k
1
Q4 RN1441 2
A
Q5 2SA1037KR
A
3
C107 WLP@M 100/16
R115 27k
A
R106 470
RETURN_L 3
1
2
A
6
2
A
1
3
C336 100p R102 8.2k
PHONES VR
23
R98 10k
A
ADP V
CPU Section
A
R101 4.7k
VR2A RK09K12A@ 10kAx2
C93 1000p
R84 22k
C335 100p 3
+
A
C101 WLP@M 100/16
3
R113 10k
1
C90 WLP@M 100/16
2 2
R97 10k S S V
D
-
C89 WLP@M 100/16
IC19A M5218AFP
A
SDTO
XPDN AMUTE
C92 1000p
A R83 10k
R87 10k
8
SDTO
LRCK MCLK BCLK DEM1 DEMO PDN
R94 27k
16
ROUT
SDTI
R90 4.7k
DAC -1.13dBu typ.
CODEC LIN
C334 A 100p R91 8.2k
SEND_R
R116 470
R117 470
RETURN_R
OUT_R 3
A -9 CN Section
R118 10k
1
Q7 RN1441
Jack Section
2
A +9
A +9 C108 WLP@M 100/16 A C113 WLP@M 100/16
A -9
32
8
C109 0.1
+ IC17C M5218AFP
A +9
8
C110 0.1
-
4
A C114 0.1 A -9
+ IC16C M5218AFP
A +9
8
A +9
C111 0.1
-
4
A C115 0.1 A -9
+ IC19C M5218AFP
8
C112 0.1
4
A C117 0.1
A
MUTE
A
-
4
A C116 0.1 A -9
+ IC18C M5216FP
D C348 NIU
A
D C349 NIU
A
A -9
33
Apr.2003
SPD-S
CIRCUIT DIAGRAM (MAIN 6/8) fig.main6-c
LINE IN L(MONO) L2
MIDI IN/OUT 2
JK1 HDC-052A-12
T N U I O
T N U I O
23 25 3 5 22 2 24 4 21 1 29 20 13 15 3 5 12 2 14 4 11 1 19 10
R204 120
L4
C188 D +5
1
C186 1000p
0.1
6
3
D +5
R203 2.2k
D
1
A
5
4
A
LINE -10dBu MIC -50dBu
LINE IN R
D L7
D +5 2
R207 220
L8
A
JK2 HTJ-064-10I
IC28 PC410KT
R205 100 R206 220
L6
L3 NIU
MIDI_IN
3 L5
2 4 1
IN_L
DA46 DAN202U
0 0 0 0 3 4 5 6
2 4 1
IN_R Q11 RT1P141C 1 2
R208 0
1
XRESET C191 100p
IC29A SN74LS05NSR
3
C189 1000p
D +5
A
L9 NIU A
JK3 HTJ-064-10I A
D
D R209 10k 4
3
12
13
PHONES
L10
MIDI_OUT(SO0)
2 3 1
PHONES_L IC29B IC29F SN74LS05NSR SN74LS05NSR D +5 IC29E 10 SN74LS05NSR IC29C 6 SN74LS05NSR IC29D 8 SN74LS05NSR
CPU Section C192 1000p
4 1
11 5
A
C194 0.1
L11 NIU A
JK4 HTJ-064-10D A
PHONES +15dBu
9 7
D
C343 0.1
D IC29G SN74LS05NSR L12
L13 L14 2 3 1
TIP RING L15 NIU
JK7 HTJ-064-10D
D
C196 NIU
D
C197 NIU
D +3 . 3
D
'PEDAL
D
C201 NIU
D
A
1
Q13
2 4 1
OUT_L
RT1N141C C199 1000p
D
L17
JK5 HTJ-064-10I
NIU A
A
A
LINE +4dBu
OUTPUT R
D L21
'P1 'P2
Trigger Section L25 NIU
D
2 4 1
OUT_R
L23 L24
JK9 HTJ-064-04A
C205 NIU
D
C206 NIU
F
OUTPUT L(MONO)
C202 NIU
FOOT SW
36
A
L16
3
2
C344 0.1
R210 4.7k
D
F
C195 1000p
D +3 . 3
3
2 3 1
5 4 2 3 7 8 1
1
Q12 RT1P141C L18 L19
L20 NIU
C198 0.1
2
EXP PEDAL
JK8 HTJ-064-10D
A
PHONES_R
TRIGGER INPUT
Audio Section
C203 1000p
A
L22 NIU A
JK6 HTJ-064-10I A
D
37
Apr.2003
SPD-S
CIRCUIT DIAGRAM (MAIN 6/8) fig.main6-c
LINE IN L(MONO) L2
MIDI IN/OUT
T N U I O
T N U I O
C188
2
JK1 HDC-052A-12 23 25 22 24 21 29 20 13 15 3 5 12 2 14 4 11 1 19 10
L4
3 5 2 4 1
D +5
1
R204 120
D +5
0.1
6
3
C186 1000p
R203 2.2k
D
1
A
5
4
A
LINE -10dBu MIC -50dBu
LINE IN R
D L7
Q11
2
0 0 0 0 3 4 5 6
2 4 1
IN_R
D +5 R207 220
L8
A
JK2 HTJ-064-10I
IC28 PC410KT
R205 100 R206 220
L6
L3 NIU
MIDI_IN
3 L5
2 4 1
IN_L
DA46 DAN202U
RT1P141C 1 2
R208 0
1
IC29A SN74LS05NSR D +5
3
C189 1000p
XRESET C191 100p
A
L9 NIU A
JK3 HTJ-064-10I A
D
D R209 10k 4
3
12
13
PHONES
L10
MIDI_OUT(SO0)
2 3 1
PHONES_L IC29B IC29F SN74LS05NSR SN74LS05NSR D +5 IC29E 10 SN74LS05NSR IC29C 6 SN74LS05NSR IC29D 8 SN74LS05NSR
CPU Section C192 1000p
4 1
11 5
A
C194 0.1
L11 NIU A
JK4 HTJ-064-10D A
PHONES +15dBu
9 7
C343 0.1
D IC29G SN74LS05NSR
D
L12 A
PHONES_R
TRIGGER INPUT L13 L14 2 3 1
C344 0.1
A
A
TIP RING L15 NIU
JK7 HTJ-064-10D
C196 NIU
D
C197 NIU
D
C198 0.1
D +3 . 3
D
2
1
Q12 RT1P141C
EXP PEDAL 2 3 1
L16
3
Q13
1 2
'PEDAL
L20 NIU
C201 NIU
D
2 4 1
OUT_L
RT1N141C C199 1000p
D
L17
JK5 HTJ-064-10I
NIU A
C202 NIU
D
A
A
LINE +4dBu
OUTPUT R
D
FOOT SW
L21
5 4 2 3 7 8 1
2 4 1
OUT_R
L23 L24 'P1 'P2
C203 1000p
Audio Section
Trigger Section C205 NIU
L25 NIU
JK9 HTJ-064-04A
D
A
C206 NIU
D
F
OUTPUT L(MONO)
R210 4.7k
3
L18 L19
JK8 HTJ-064-10D
D +3 . 3
D
F
C195 1000p
L22 NIU A
JK6 HTJ-064-10I A
D
36
37
Apr.2003
SPD-S
CIRCUIT DIAGRAM (MAIN 7/8) fig.main7-c
SS[0..3]
D +5 4
RA27 100 6
SS3
5
SS2
IC53B SN74AHCT08PWR 1 3 2
4 3 2 1
5 6 7 8
D
CPU Section
GA&DSP Section IC53E
D
D +3 . 3
D +5 Q14 2SC3052 3 1
B8 B7 B6 B5 B4 B3 B2 B1
11 12 13 14 15 16 17 18
R211 10k R212 100 4 3 2 1
D
4 3 2 1
5 6 7 8
RA28 10k
RA29 100
D +3 . 3
A +9
SEND_L
Audio Section
D D D D D C226 C227 C228 1000p 1000p 1000p C229 C230 1000p 1000p
2
C253 C225 C252 0.1 C224 0.1 SLP@M SLP@M 10/16 10/16
D
1
Q15 DTB113ZK
D
4 3 2 1
'LS0 'LS1 'LS2 'LS3
2
1
'RIM3
Q16 DTB113ZK
'RIM2 'RIM1
3 2
1
XLS2
D
Q17 DTB113ZK
D D D D C233 C234 1000p 1000p C235 C236 1000p 1000p
3 2
1
XLS3
Trigger Section
'RIM5
Q18 DTB113ZK
'RIM4
3
'RIM9 'LDG 'LD0 'LD1 'LD2 'LD3 'LD4 'LD5 'LD6
LD[0..6]
LDG
LD6 LD5 LD4 LD3 LD2 LD1 LD0 LDG
3
3
1
3
1 2
D
3
1 2
D
3
1 2
'RIM6
D
3
1 2
D
3
1 2
D
3
1 2
D
R215 R216 R218 R217 R219 R220 R221 R222
1 2
D
2
56 27 27 27 39 39 39 39
'RIM8 'RIM7
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
D
PIEZO ASSY (PAD4-6)
4 3 2 1
PIEZO ASSY (PAD7-9)
CN7 04FE-BT-VK-N 1 2 3 4 5 6 7 8
'RIM[1..9]
4 3 2 1 CN8 04FE-BT-VK-N
4 3 2 1
D
3
PANEL BOARD
CN10 12FE-BT-VK-N
D
L28 L29 L30 L31
40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 CN5 52045-4045
'PAD9 'PAD8 'PAD7
2
XLS[0..3]
XLS1
PANEL BOARD
40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
D C232 0.1
D +3 . 3
XLS0
D C342 D 0.1
C231 1000p
D
A
12 11 10 9 8 7 6 5 4 3 2 1
5SS3 5SS2 5SS1 5SS0 5SD4 5SD3 5SD2 5SD1 5SD0 'LS0 'LS1 'LS2 'LS3 'LDG 'LD0 'LD1 'LD2 'LD3 'LD4 'LD5 'LD6 LCDCONT RS R/XW LE LCD0 LCD1 LCD2 LCD3 LCD4 LCD5 LCD6 LCD7
'PAD6 'PAD5 'PAD4
L27
R214 100
D
A -9
'CTRLVR 'PAD[4..9]
LCDCONT R213 3.3k
12 11 10 9 8 7 6 5 4 3 2 1
RETURN_L
SEND_R
D
T T 0 0 2 2 A A 1 1 0 0 6 6 9 9 0 0 2 D +5 2 D +3 . 3 1 1 0 0 2 2 1 1 1 1 5 M 6 M 3 B 2 B L F L F
L48 5SD4 5SD3 5SD2 5SD1 5SD0
RETURN_R
D N G
OE DIR
D D D D D D D D D D D C212 C213 C214 C215 C216 C217 100p NIU 220p 220p 220p 220p C218 C219 C220 C221 C222 100p 220p 220p 220p 220p
D +5 5 6 7 8
C C V
A8 A7 A6 A5 A4 A3 A2 A1
0 IC31 SN74LV245APWR 1 NIU
'LCDCONT
LE R/XW RS
C211 0.1
C223 NIU
0 2
19 1
LCD7 LCD6 LCD5 LCD4 LCD3 LCD2 LCD1 LCD0 LE R/XW RS
7 SN74AHCT08PWR
IC53D SN74AHCT08PWR
SD4 SD3 SD2 SD1 SD0
4 1
D
D D C207 C208 1000p 1000p C209 C210 1000p 1000p
IC53C SN74AHCT08PWR 12 11 SS0 13
9 8 7 6 5 4 3 2
LCD[0..7]
D +5
IC53A SN74AHCT08PWR 9 8 SS1 10
SD[0..4]
5SS3 5SS2 5SS1 5SS0
1 2 3 4 5 6 7 8
RIM SENSOR (PAD1-3)
CN11 SLP8R-5 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
RIM SENSOR (PAD4-9)
CN12 SLP16R-5
D
Q19 Q20 Q21 Q22 Q23 Q24 Q25 Q26 RT1N141C RT1N141C RT1N141C RT1N141C RT1N141C RT1N141C RT1N141C RT1N141C
38
39
Apr.2003
SPD-S
CIRCUIT DIAGRAM (MAIN 7/8) fig.main7-c
D +5 4
SS[0..3]
RA27 100 6
SS3
5
SS2
IC53B SN74AHCT08PWR 1 3 2
4 3 2 1
5 6 7 8
19 1
D
D +3 . 3
D +5 Q14 2SC3052 3 1
B8 B7 B6 B5 B4 B3 B2 B1
R211 10k R212 100 4 3 2 1
D
11 12 13 14 15 16 17 18
4 3 2 1
RA28 10k
L48
5 6 7 8
A +9
SEND_L SEND_R
D
D
Audio Section
D
D D C226 C227 C228 1000p 1000p 1000p C229 C230 1000p 1000p
R213 3.3k
R214 100
C253 C225 C252 0.1 C224 0.1 SLP@M SLP@M 10/16 10/16
D
4 3 2 1
L28 L29 L30 L31
D
Q15 DTB113ZK
D 'LS0 'LS1 'LS2 'LS3
3 2
1
'RIM3
Q16 DTB113ZK
'RIM2 'RIM1
3 2
1
XLS2
D
Q17 DTB113ZK
D D D D C233 C234 1000p 1000p C235 C236 1000p 1000p
3 2
1
XLS3
Trigger Section
'RIM5
Q18 DTB113ZK
'RIM4
3
'RIM9 'LDG 'LD0 'LD1 'LD2 'LD3 'LD4 'LD5 'LD6
LD[0..6] LD6 LD5 LD4 LD3 LD2 LD1 LD0 LDG
LDG
3
3
1
3
1 2
3
1 2
D
D
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
'RIM6
3
1 2
3
1 2
D
3
1 2
D
D
3
1 2
R215 R216 R218 R217 R219 R220 R221 R222
1 2
D
2
D
'RIM8 'RIM7
D
56 27 27 27 39 39 39 39
PIEZO ASSY (PAD4-6)
4 3 2 1
PIEZO ASSY (PAD7-9)
CN7 04FE-BT-VK-N 1 2 3 4 5 6 7 8
'RIM[1..9]
4 3 2 1 CN8 04FE-BT-VK-N
4 3 2 1
'PAD9 'PAD8 'PAD7
2
1
PANEL BOARD
CN10 12FE-BT-VK-N
D
XLS[0..3]
40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 CN5 52045-4045
D
C232 0.1
D +3 . 3
XLS1
D C342 D 0.1
PANEL BOARD
C231 1000p
D
XLS0
A
12 11 10 9 8 7 6 5 4 3 2 1
40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
'PAD6 'PAD5 'PAD4
L27
2
D
A -9
'CTRLVR 'PAD[4..9]
LCDCONT
CPU Section
12 11 10 9 8 7 6 5 4 3 2 1
RETURN_L
RA29 100
D
T T 0 0 2 2 A A 1 1 0 0 6 6 9 9 0 0 2 D +5 2 D +3 . 3 1 1 0 0 2 2 1 1 1 1 5 M 6 M 3 B 2 B L F L F
D +3 . 3
5SD4 5SD3 5SD2 5SD1 5SD0
RETURN_R
D N G
OE DIR
D D D D D D D D D D D C212 C213 C214 C215 C216 C217 100p NIU 220p 220p 220p 220p C218 C219 C220 C221 C222 100p 220p 220p 220p 220p
D +5 5 6 7 8
C C V
A8 A7 A6 A5 A4 A3 A2 A1
0 IC31 SN74LV245APWR 1 NIU
'LCDCONT
GA&DSP Section IC53E
C223 NIU
0 2
SD4 SD3 SD2 SD1 SD0
LE R/XW RS
C211 0.1 7 SN74AHCT08PWR
IC53D SN74AHCT08PWR
SD[0..4]
4 1
D D D D C207 C208 1000p 1000p C209 C210 1000p 1000p
IC53C SN74AHCT08PWR 12 11 13 SS0
9 8 7 6 5 4 3 2
LCD7 LCD6 LCD5 LCD4 LCD3 LCD2 LCD1 LCD0 LE R/XW RS
D +5
IC53A SN74AHCT08PWR 9 8 SS1 10
5SS3 5SS2 5SS1 5SS0 5SD4 5SD3 5SD2 5SD1 5SD0 'LS0 'LS1 'LS2 'LS3 'LDG 'LD0 'LD1 'LD2 'LD3 'LD4 'LD5 'LD6 LCDCONT RS R/XW LE LCD0 LCD1 LCD2 LCD3 LCD4 LCD5 LCD6 LCD7
LCD[0..7]
5SS3 5SS2 5SS1 5SS0
1 2 3 4 5 6 7 8
RIM SENSOR (PAD1-3)
CN11 SLP8R-5 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
RIM SENSOR (PAD4-9)
CN12 SLP16R-5
D
Q19 Q20 Q21 Q22 Q23 Q24 Q25 Q26 RT1N141C RT1N141C RT1N141C RT1N141C RT1N141C RT1N141C RT1N141C RT1N141C
38
39
Apr.2003
SPD-S
CIRCUIT DIAGRAM (MAIN 8/8) fig.main8-c
DA47
1
DAN202U NIU
ACI,ACB Adaptor (9V/1000mA) L32 EXCELDR35V 2 1 3
3
ADP V SW3A SDKLA1-B 2
2 IC32 NJM78L05UA
D1 SS5819
1
1
JK10 HTJ-020-05A
2
3
IN
M O C
D +5
OUT
D+5V
1
C237 C241 0.1
C238 0.1
WLP@M 220/16
C240 WLP@M 220/16
C239 0.1
2
D D
A SW3B SDKLA1-B
0 1
0 2
R223 100 1
R224 270
ADP V
Q27 2SA1706T
L42 8
LA-DR080-150 15uH (7.8*6.4)
CD
7
CS
IPK ES
C317 6
WLP@M 220/16
D
VCC VIN-
R226 RCT25@J 0.18
3
1
D2
2 3
L33 LA-DR080-150 15uH (7.8*6.4) C318
SB07-03C
2
R227
WLP@M 220/16 D
1
5
L43 D +3 . 3 LA-DR080-150 15uH (7.8*6.4)
D
GND
CT
3 C246 150p
WLP@M 220/16 D
D
R243 'A
'C C244 0.1 'D
999 2 3
VDD
OUT
D VSS C NC
NIU
9 9 9
4
5
C255 +
D
999
1
2SC3265Y 3 2
4
R 5 1 0 A 4 1 1 U Q I W S V N E 2
Q28 A +9
A+9V
NIU
5
A
ADP V
XRESET
9 9 9
+
C245 0.1 R242 NIU
D
'B
1
999
D
RCT03@F 2k
NIU
D IC33 NJM2360AM
RCT03@F 3.3k R228
C323 4
C242
IC34 D +3 . 3 S-80927CLMC-G6X-T2
D+3.3V
2 IC36 TC7S08F NIU 3
+
999 B 999 C 999 D
*Only under development R229 1k
1
C247
C248
WLP@M 220/16
WLP@M 220/16 A
R231 2 R232 NIU R233 NIU
ADP V
L44 LA-DR080-331 330uH (8*5)
L34
C319
8
WLP@M 220/16
7
CD
CS
IPK ES
A
6
VCC VIN-
4
GND
CT
1
LA-DR080-331 330uH (8*5) 3
2 5 3
1
D3 SB07-03C
R236 3.3k
A
R237 22k
IC35 NJM2360AM A
C250 C251 150p NIU
A-9V L45 LA-DR080-331 330uH (8*5)
C320
C249
WLP@M 220/16
R262 1k
WLP@M 220/16 A
A
A A -9
40
41
Apr.2003
SPD-S
CIRCUIT DIAGRAM (MAIN 8/8) fig.main8-c
DA47
1
DAN202U NIU
ACI,ACB Adaptor (9V/1000mA) 2 1 3
3
ADP V
SW3A L32 SDKLA1-B EXCELDR35V 2 1
2 IC32 NJM78L05UA
D1 SS5819 1
JK10 HTJ-020-05A
2
3
IN
M O C
D +5
OUT
D+5V
1
C237 C241 0.1
C238 0.1
WLP@M 220/16
C240 WLP@M 220/16
C239 0.1
2
D D
A SW3B SDKLA1-B
0 1
0 2
R223 100 1
R224 270
ADP V
3 Q27
L42 8
LA-DR080-150 15uH (7.8*6.4)
CD
7
CS
IPK ES
C317 6
WLP@M 220/16
D
VCC VIN-
R226 RCT25@J 0.18
2SA1706T
1
D2 SB07-03C
2
2 3
L33 LA-DR080-150 15uH (7.8*6.4) C318
R227
WLP@M 220/16 D
1
5
L43 D +3 . 3 LA-DR080-150 15uH (7.8*6.4)
D
GND
CT
3 C246 150p
WLP@M 220/16 D
D
R243 'A
'C C244 0.1 'D
999 2 3
VDD
OUT
D VSS C NC
NIU
9 9 9
4
5
C255 +
D
999
1
2SC3265Y 3 2
4
R 1 5 0 A 4 1 1 Q U W I S V N E 2
Q28 A +9
A+9V
NIU
5
A
ADP V
XRESET
9 9 9
+
C245 0.1 R242 NIU
D
'B
1
999
D
RCT03@F 2k
NIU
D IC33 NJM2360AM
RCT03@F 3.3k R228
C323 4
C242
IC34 D +3 . 3 S-80927CLMC-G6X-T2
D+3.3V
2 IC36 TC7S08F NIU 3
+
999 B 999 C 999 D
*Only under development R229 1k
1
C247
C248
WLP@M 220/16
WLP@M 220/16 A
R231 2 R232 NIU R233 NIU
ADP V
L44 LA-DR080-331 330uH (8*5)
L34
C319
8
WLP@M 220/16
7
CD
CS
IPK ES
A
6
VCC VIN-
4
GND
CT
1
LA-DR080-331 330uH (8*5) 3
2 5 3
1
D3 SB07-03C
R236 3.3k
A
R237 22k
IC35 NJM2360AM A
C250 C251 150p NIU
A-9V L45 LA-DR080-331 330uH (8*5)
C320
C249
WLP@M 220/16
R262 1k
WLP@M 220/16 A
A
A A -9
40
41
Apr.2003
SPD-S
CIRCUIT BOARD (PANEL) fig.panel-comp-ptn
View from components side
42
43
Apr.2003
SPD-S
CIRCUIT BOARD (PANEL) fig.panel-comp-ptn
View from components side
42
43
Apr.2003
SPD-S
CIRCUIT BOARD (PANEL) fig.panel-foil-ptn
View from foil side
44
45
Apr.2003
SPD-S
CIRCUIT BOARD (PANEL) fig.panel-foil-ptn
View from foil side
44
45
Apr.2003
SPD-S
CIRCUIT DIAGRAM (PANEL) fig.panel-c
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
to MAIN BOARD
'5SS3 '5SS2 '5SS1 '5SS0 '5SD4 '5SD3 '5SD2 '5SD1 '5SD0 ''LS0 ''LS1 ''LS2 ''LS3 ''LDG ''LD0 ''LD1 ''LD2 ''LD3 ''LD4 ''LD5 ''LD6 'LCDCONT 'RS 'R/XW 'LE 'LCD0 'LCD1 'LCD2 'LCD3 'LCD4 'LCD5 'LCD6 'LCD7
'5SD4 '5SD3 '5SD2 '5SD1 '5SD0 '5SS3
WAVE
START / STOP SW1A 12 22
11 21 '5SS2
3
EFFECTS
12 2 22 SW6A
11 21
R ES ESAM PL PLE
SW3A 12 22
11 21 1
DA2 DAP202U
3
PATCH 11 21
SW2A 12 22
11 21 1
DA1 DAP202U
SAM PL PLING
1
DA3 DAP202U
3
SETUP
12 2 22 SW7A
11 21
SW4A 12 22
11 21
11 21
1
DA5 DAP202U
3
EDIT
12 2 22 SW8A
SW5A 12 22
11 21 1
DA4 DAP202U
'LCD7 'LCD6 'LCD5 'LCD4 'LCD3 'LCD2 'LCD1 'LCD0 'LE 'R/XW 'RS 'LCDCONT
EXIT
3
< 12 2 22 SW9A
D +5(P)
11 21
12 2 22 SW10A
C1 0.1
'5SS1
CARD
ALL SND OFF 1
D +5(P)
D + 3.3(P)
2 SW15
FUNC 12 22 SW16A
1
SHIFT 2 SW12
1
0 1 2 3 4 1 2 3 4 5 6 7 8 9 1 1 1 1 1
> SW14A 11 21
12 22
2 SW13
DA6 DAP202U
DA8 DAP202U
2
3
4
3
1
11 21
1
SW11A
C2
DA9 DAP202U
2
3
- /INC
DA10 DAP202U
2
3
+ /DEC
12 22 1 SW17A
11 21
12 22 1 SW18A
12 22
11 21
3
1
RCM2122M-A LCD1
SW19A
RV2-V@M-R 10/16 *SMD
D + 3.3(P) 2
1
LED1 19-21SDRC/A2
D + 3.3(V)
TR2
A + 9(V) CN3 12FE-ST-VK-N
to MAIN BOARD
1 2 3 4 5 6 7 8 9 10 11 12
*SMD C4 RV2-V@M-R 100/16
A(V) R9 NIU
VR3B
6 5 R11 4.7k
1 2
A(V)
-
2
'SEND_R
LED3 19-21SDRC/A2
FS1
2
1
LED10 19-21SDRC/A2
PAD8 1
LED16 19-21SDRC/A2
''CTRLVR
PAD6
2
1
LED4 19-21SDRC/A2
FS2
2
1
LED5 19-21UYOC/A2
PATCH
2
1
LED6 19-21UYOC/A2
CARD
2
1
LED15 19-21UYOC/A2
<
2
1
LED11 19-21SDRC/A2
PAD7
2
1
LED19 19-21SDRC/A2
RESAMPLE
2
1
LED13 19-21UYOC/A2
WAVE
2
1
LED35 19-21UYOC/A2
EDIT
2
1
LED8 19-21SYGC/E1
START / STOP 2
1
LED21 19-21UYOC/A2
2
1
LED17 19-21SDRC/A2
PAD5
2
1
LED18 19-21SDRC/A2
PAD4
2
1
LED12 19-21SDRC/A2
SAMPLING
2
1
2
> 1
D + 3.3(P)
2
D + 3.3(P) LCD BACKLIGHT MODULE
1
LED20 19-21UYOC/A2
LED14 19-21UYOC/A2
LED33 19-21UYOC/A2
EFFECTS
SETUP
ENTER
R4 56
R5 56
*IF=20mA @VF=2.2V
R1 56
R2 56
''LS3 2
A(V) C5 RV2-V@M-R 100/16 *SMD
C6 NIU 7 'RETURN_L
+ IC1B M5218AFP
1
LED28 19-21SDRC/A2
PAD3
''LD6 ''LD5 ''LD4 ''LD3 ''LD2 ''LD1 ''LD0 ''LDG
2
1
LED29 19-21SDRC/A2
PAD2
2
1
LED30 19-21SDRC/A2
PAD1
2
1
LED31 19-21SDRC/A2
MARK
2
1
LED32 19-21SDRC/A2
PHRASE MAKER R15
6 4
3 1
LED34B BLB-6519I-YG 5
D(P)
LED34A BLB-6519I-YG 2
D(P)
RPC05T@J NIU
10 VR3C RV112B-40E1@ 20 SPD-S9-10k
A(V)
A(V) D + 3.3(V) 3
A + 9(V) A(V) R12 NIU 2
12
3 R14 4.7k
A(V)
''CTRLVR
2
R13 NIU
C12 3 47p 1
1 1
46
1
PAD9 2
LINE +4.89dBu Max (0dB)
VR3A RV112B-40E1@ SPD-S9-10k
1
''LS2
VOLUME
'SEND_R
LED2 19-21SDRC/A2
2
'SEND_L
R10 NIU
22
RV112B-40E1@ SPD-S9-10k
1
TR1
LED9 19-21SDRC/A2
'RETURN_R
A - 9( V)
C11 3 47p 2
2
''LS1
'RETURN_L
D(V)
'SEND_L
CN2 52043-1410
1
2
ENTER
''LS0
1 2 3 4 5 6 7 8 9 10 11 12
1
16x1 Character LCD
12 22
D(P)
DA7 DAP202U
2
PHRASE MAKER 11 21
PANEL BOARD
VOLUME BOARD
1 2 3 4 1 2 3 4 5 6 7 8 9 0 1 1 1 1 1
D(P)
'5SS0
C3 NIU
CN1 52044-4045
11 21
A(V)
-
C7 NIU 1 'RETURN_R
+ IC1A M5218AFP
8
C8 0.1
1
C10 NIU
D(V)
+ IC1C M5218AFP
VR4A EVUF2J@ PCKS1-10kB
CONTROL A(V) 4
C9 0.1
A - 9(V )
10 VR4B 20 EVUF2J@ PCKS1-10kB
D(V)
47
Apr.2003
SPD-S
CIRCUIT DIAGRAM (PANEL) fig.panel-c
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
to MAIN BOARD
'5SS3 '5SS2 '5SS1 '5SS0 '5SD4 '5SD3 '5SD2 '5SD1 '5SD0 ''LS0 ''LS1 ''LS2 ''LS3 ''LDG ''LD0 ''LD1 ''LD2 ''LD3 ''LD4 ''LD5 ''LD6 'LCDCONT 'RS 'R/XW 'LE 'LCD0 'LCD1 'LCD2 'LCD3 'LCD4 'LCD5 'LCD6 'LCD7
'5SD4 '5SD3 '5SD2 '5SD1 '5SD0 '5SS3
WAVE
START / STOP SW1A 12 22
11 21 '5SS2
3
EFFECTS
12 2 22 SW6A
11 21
R ES ESAM PL PLE
SW3A 12 22
11 21 1
DA2 DAP202U
3
PATCH 11 21
SW2A 12 22
11 21 1
DA1 DAP202U
SAM PL PLING
1
DA3 DAP202U
3
SETUP
12 2 22 SW7A
11 21
SW4A 12 22
11 21
11 21
1
DA5 DAP202U
3
EDIT
12 2 22 SW8A
SW5A 12 22
11 21 1
DA4 DAP202U
'LCD7 'LCD6 'LCD5 'LCD4 'LCD3 'LCD2 'LCD1 'LCD0 'LE 'R/XW 'RS 'LCDCONT
EXIT
3
< 12 2 22 SW9A
D +5(P)
11 21
12 2 22 SW10A
C1 0.1
'5SS1
CARD
ALL SND OFF 1
D +5(P)
D + 3.3(P)
2 SW15
12 22 SW16A
1
SHIFT 2 SW12
1
0 1 2 3 4 1 2 3 4 5 6 7 8 9 1 1 1 1 1
> SW14A 11 21
12 22
2 SW13
DA6 DAP202U
DA8 DAP202U
2
3
4
3
1
11 21
1
SW11A
C2
DA9 DAP202U
2
3
- /INC
DA10 DAP202U
2
3
+ /DEC
12 22 1 SW17A
11 21
12 22 1 SW18A
12 22
11 21
3
1
RCM2122M-A LCD1
SW19A
RV2-V@M-R 10/16 *SMD
D + 3.3(P) 2
1
LED1 19-21SDRC/A2
D + 3.3(V)
TR2
A + 9(V) CN3 12FE-ST-VK-N
to MAIN BOARD
1 2 3 4 5 6 7 8 9 10 11 12
*SMD C4 RV2-V@M-R 100/16
'SEND_L VR3B
6 5 R11 4.7k
1 2
A(V)
-
2
1
PAD9 2
'SEND_R
LED3 19-21SDRC/A2
FS1
2
1
LED10 19-21SDRC/A2
PAD8 1
LED16 19-21SDRC/A2
''CTRLVR
2
1
LED4 19-21SDRC/A2
FS2
2
1
LED5 19-21UYOC/A2
PATCH
2
1
LED6 19-21UYOC/A2
CARD
2
1
LED15 19-21UYOC/A2
<
2
1
LED11 19-21SDRC/A2
PAD7
2
1
LED19 19-21SDRC/A2
RESAMPLE
2
1
LED13 19-21UYOC/A2
WAVE
2
1
LED35 19-21UYOC/A2
EDIT
2
1
LED8 19-21SYGC/E1
START / STOP 2
1
LED21 19-21UYOC/A2
PAD6
2
1
LED17 19-21SDRC/A2
PAD5
2
1
LED18 19-21SDRC/A2
PAD4
2
1
LED12 19-21SDRC/A2
SAMPLING
2
1
2
> 1
D + 3.3(P)
2
D + 3.3(P) LCD BACKLIGHT MODULE
1
LED20 19-21UYOC/A2
LED14 19-21UYOC/A2
LED33 19-21UYOC/A2
EFFECTS
SETUP
ENTER
R4 56
R5 56
*IF=20mA @VF=2.2V
R1 56
R2 56
''LS3 2
A(V) C5 RV2-V@M-R 100/16 *SMD
C6 NIU 7 'RETURN_L
+ IC1B M5218AFP
1
LED28 19-21SDRC/A2
PAD3
''LD6 ''LD5 ''LD4 ''LD3 ''LD2 ''LD1 ''LD0 ''LDG
2
1
LED29 19-21SDRC/A2
PAD2
2
1
LED30 19-21SDRC/A2
PAD1
2
1
LED31 19-21SDRC/A2
MARK
2
1
LED32 19-21SDRC/A2
PHRASE MAKER R15
6 4
3 1
LED34B BLB-6519I-YG 5
D(P)
LED34A BLB-6519I-YG 2
D(P)
RPC05T@J NIU
10 VR3C RV112B-40E1@ 20 SPD-S9-10k
A(V)
A(V) D + 3.3(V)
LINE +4.89dBu Max (0dB)
3
A + 9(V) A(V) R12 NIU
VR3A RV112B-40E1@ SPD-S9-10k
1
''LS2
VOLUME
'SEND_R
LED2 19-21SDRC/A2
2
'SEND_L
R10 NIU
22
RV112B-40E1@ SPD-S9-10k
1
TR1
LED9 19-21SDRC/A2
'RETURN_R
A - 9( V) A(V) R9 NIU
2
''LS1
'RETURN_L
D(V)
C11 3 47p 2
CN2 52043-1410
1
2
ENTER
''LS0
1 2 3 4 5 6 7 8 9 10 11 12
1
16x1 Character LCD
12 22
D(P)
DA7 DAP202U
2
PHRASE MAKER 11 21
PANEL BOARD
VOLUME BOARD
1 2 3 4 1 2 3 4 5 6 7 8 9 0 1 1 1 1 1
D(P)
'5SS0
C3 NIU
CN1 52044-4045
11 21
FUNC
2
12
3 R14 4.7k
A(V)
2
R13 NIU
C12 3 47p 1
1 1
''CTRLVR
A(V)
46
-
C7 NIU 1 'RETURN_R
+ IC1A M5218AFP
8
C8 0.1
4
C9 0.1
1
C10 NIU
D(V)
+ IC1C M5218AFP
VR4A EVUF2J@ PCKS1-10kB
CONTROL A(V)
A - 9(V )
10 VR4B 20 EVUF2J@ PCKS1-10kB
D(V)
47
Apr.2003
Apr.2003
48