File information: | |
File name: | GuitarEffects.part10.rar |
Size: | 3072 kB |
Extension: | |
Mfg: | GuitarEffects |
Model: | Various 🔎 |
Original: | |
Descr: | ...Ibanez, Koda, Korg, Maestro,... |
Group: | Electronics > Consumer electronics > Audio |
Uploaded: | 27-12-2009 |
User: | AndyMn |
Multipart: | 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 |
Information about the files in archive: | ||
Decompress result: | OK | |
Extracted files: | 67 | |
File name AnalogDelay-AD3208.pdf | ||
File name AxisFuzz.pdf fuzz.sch-1 - Tue Mar 28 23:39:38 2000 | ||
File name Boss-AD5.pdf | ||
File name Boss-DD2_DD3.pdf | ||
File name Boss-DF2DistorsFeedbacker.pdf | ||
File name Boss-DR110.pdf *----====----====----====----====----* Roland Boss DR-110 Dr Rhythm Graphic SERVICE MANUAL DOCUMENTS <------------------------------------> From the DR-110 Information Homepage @ http://members.aol.com/leviathant/dr110.html Since you've taken the time to read this, I'd much appreciate it that if you do some kind of nifty (or even minimal) modification to the DR-110, please email me and let me know what you've done, and if you'd be so kind to provide schemes and/or instructions as a sort of 'thanks for letting me have the DR-110 schemes Matt' kind of gesture. Please send em to [email protected] and let me know if you would mind if I posted them publicly on the same web site that these schemes are available from. Enjoy, happy modding! Oh, here's the parts list, painstakingly hand typed by myself. IC_____________________15179122 HD44790a44P 2k x 4bit CMOS CPU with LCD driver 15179305 (mu)PD444C 1k x 4bit static RAM 15159140h0 HD14006BP 18-bit static shift register 15159104h0 HD14011BP quadruple 2-input NAND gate 15159116TO TC4069UBP Hex inverter 15159117H0 HD14070bp quadruple exclusive-OR gate 15189102 NJM4558DD OP amp (pcb 2291084302-UP) 15199521 M51501L Power amp (pcb 2291084302-UP) 15199517 LM-386N-1 Power amp (pcb up to 2291084300) TRANSISTOR_________________15119125 2SA1115-F 15119602 2SB647-C 15119607 2SB642-R 15129137 2SC2603-F 15129145 2SC945-K (or 2SC1815-BL) DIODE___________________ 15019125 1ss-133 15019530 s5500g 15129137 RD6.8eb-2 zener 15019138 DAN 201 diode array 15019139 DAP 201 diode array | ||
File name Boss-DR55.pdf FEB. 21,1980 1 RS FLIP FLOP (2/4 IC3) (a) PLAY Mode When the START switch S5 is turned ON, the Q cutput goes to H and triggers the Clock Generator (2). Mhen the STOP switch S6 is turned ON, the Q output goes to L and the Clock Generator stops oscillation. At this time, the Q output goes to H and resets the Binary Counter (5) (b) WRITE Mode The Q output goes to H when S5 is turned ON, and goes to L when S6 turned ON. This condition is written in the Memory IC1 as a data. 2 CLOCK GENERATOR (2/4 IC3) This the is The frequency of this oscillator is controlled with TEMPO VR-5. oscillator functions in PLAY mode only, and feeds clock pulses to Counter (5) 3 SCHIMITT TRIGGER (Q15, 17, 18) This circuit functions in WRITE mode only. The collector of Ql5 goes H when either the START switch S5 or the STOP switch S6 is turned ON, and goes to L when the switch set to ON is turned OFF. 4 DELAY CIRCUIT (Q16) The output from the Schmitt circuit (3) is intergrated, and fed to the base of Q16. Then the signal is trimmed to square wave at collector of Ql6. This output signal is differentiated and becomes pulses, and then is applied to the R/~W terminal of IC1. The two pulses lag a little behind edges of Scmitt (3) output pulse. 5 DUAL BINARY COUNTER (IC2) This circuit counts pulses from the clock generator (2) in PLAY mode, and counts pulses from the Schmitt trigger (3) in WRITE mode, and then outputs binary-coded signals from the terminals Ql-Q5; Ql-Q4 denote 16 steps composing each rhythm. Signal from Q5 is applied to A7 only when the VARIATION switch is set to AB. To the terminal A7, the L level voltage is given when the switch is set to A and H when switch is set to B. DR-5 5 6 256 x 4 BIT CMOS MEMORY (IC1) Reading/writing from/to this memory is as described below. The upper 3 bits designate rhythms 1-8, the next one bit designates VARIATION A and B, and. the lower 4 bits 16 steps in one rhythm. In PLAY mode, the terminal CE2 is connected. to the Clock generator output. The memory functions only when the clock is H, and outputs H's or L's from DO 1-4. (When the clock is L, DO 1-4 becomes high impedance.) In WRITE mode, when the terminal R/~W becomes L,a data from the flip flop is written in one of DI 1-4 via Sl.A previously stored data is rewritten from DO via R61-R64 to the remaining three DI's. The Vcc of this rnemory chip is directly connected to the dry cells regardless of power switch positions, since the chip draws only a very slight idling current during stand-by. As a result, the data is guaranteed to be stored as long as the dry cells maintain voltage value higher than a specified. level. The capacitor C39 (22 mfd.) connected to the terminal Vcc can substitute for the dry cells by its charge for several minutes when the cells are absent during replacement. 7 VOlCE GENERATOR (Ql, 2, 3, 7, 8, 9, 10, ll) BD, SD and RS are triggered by pulses from the respective DO's. HI HAT is triggered by pulses from the counter IC2 or the Clock generator IC3 by | ||
File name Boss-Feedbacker.pdf | ||
File name Boss-GE7Equalizer.pdf | ||
File name Boss-ME30multieff.pdf Aug, 1997 ME-30 ME-30 GUITAR MULTIPLE EFFECTS TABLE OF CONTENTS Issued by RJA Page SPECIFICATIONS·············································································································2 LOCATION OF CONTROLS ································································································3 EXPLODED VIEW·············································································································5 PARTS LIST ····················································································································6 LOADING FACTORY PRESET DATA ·····················································································7 TEST MODE ·············································································································7 ~ 12 IC DATA ························································································································13 BLOCK DIAGRAM ···········································································································13 CIRCUIT DIAGRAM & BOARD ·····················································································14 ~ 19 PHRASE GUITAR AMP TRAINER SIMULATOR ON / OFF EDIT / ESC ON / OFF WRITE/COPY REC PEDAL BYPASS MANUAL TUNER CS RV 1 OD DS / REC 2 DLY 3 MOD Copyright c 1997 by ROLAND CORPORATION All rights reserved. No part of this publication may be reproduced in any form without the written permission of ROLAND CORPORATION. 17059901 Printed in Japan AE00 (CR) 1 ME-30 Aug, 1997 SPECIFICATIONS AD Conversion ·················································· : DA Conversion ·················································· : Sampling Frequency ··········································· : Patches ···························································· : Effects ····························································· : Method 20-bit ADC Method 18-bit DAC 44.1kHz 30(User)+30(Preset)+Manual Settings | ||
File name Boss-OS2notes.txt Notes on Boss OS-2 schematic ---------------------------- 2nd edition: 7/12/2002 Some errors are corrected; you'll find that the new schematic has some components that have a curved line drawn around them and a triangle with a "2". These are components that were wrongly named and/or valued up until this edition (Probably by copy/paste- and typing mistakes). Changes: OLD -> NEW --------------------------- * R48/100k -> R17-100R * C13/47n -> C29/10n * R50/56k -> R43/1M * C32 -> C31 * C15 -> C14 * C20/10n -> 100n * R29/4k1 -> 4M1 * C8/20p -> 820p I'm really very sorry if any of you have encountered problems due to my typo's. If there are any more comments feel free to send me an e-mail. =============================================== 1st edition: 30/12/2001 Text on my circuit board contains error !!!: 2 transistors are labeled Q6! I renamed the JFET to Q8 (as this number wasn't used). This error might be revised on newer units so watch out: you might need to swap names of Q6 and Q8 in the schematic if you have newer unit !! You can tell the difference by the numbers on them (see below) I don't know which one of the Q6's those guys at Roland would rename in a revision. Additional info on components: ------------------------------ IC1: Mitsubishi M5218AL dual opamp 8-pin SIL Pin4=GND Pin8=9V IC2: JRC 14580 dual opamp 8-pin DIL Pin4=GND Pin8=9V VR2=20kG (A=lin;B=log; but wtf is G???) VR3=270k Stereo pot (no text on pot; value measured with DMM. I also don't know if it's lin or log, but I guess that doesn't really matter since "drive" doesn't count in numbers, right? I'm only kidding. it will of course effect your level of fine-tuning) All VR's and C35 are mounted on a separate "VR-BOARD" connected to the main PCB with a 13wire Flat-Cable. These 13 wires are labeled 4~16.Other cables: 1: Input (grey) 2: PCB GND to input-jack (brown) 3: Adaptor GND to input-jack (black) . . . (4-16 are in flat-cable; see above) . . 17: Battery +9V (red) 18: Cable to Footswitch (purple) 19: Output (white) 20: LED anode (orange) 21: LED kathode (green) Output jack is grounded to pedal body; NOT to PCB. Connection from PCB ground to body is through input-jack-ring (I wouldn't risk it. If you want to build this, i'd recommend connecting the output-jack-ring to PCB as well) All resistors: 0.25Watts 5% All "1 Megaohm" resistors 10% (?) D1: 1N4004 D5: 5.6V Zener D11:Red 3mm LED All other diodes are ordinary switching diodes, I guess. I tested one and it has a regular voltage drop of 0.65 V. Q1,Q7,Q6*: 2SK118Y (N-ch. JFET) Q4: 2SK184GR (N-ch. JFET) Q2,Q3,Q5: 2SC3378GR (NPN) (good replacement: 2SC2240BL) Q8*,Q9: 2SC2458GR (NPN) (good replacement: 2SC2240GR) Difference between 2SC2240's is in hFE-values (BL:hFE=350~700 ; GR:hFE=200~400). (Q6*, Q8*, see top of text.) | ||
File name Boss-TR2.pdf INPUT JK2 SG-7713 IC1A M5207L01 4 6 2 3 1 C4 10µ/16V + IC1B M5207L01 C6 R9 10µ/16V 10k + 10 7 8 5 9 2 3 1 C7 10pF R12 22k C5 1µF/50V + Q3 2SK118Y R7 1M D3 155133 P8 P7 R15 10k Q4 25K1845R C8 0.047µF R15 1M R11 10k C1 0.027µF R2 100k Q1 2SK118Y C1 1µF/50V + R5 1M R3 330k Q2 2SC2458GR C2 10µF/16V + R5 10k R1 1k R4 100k OUTPUT JK3 SG-7615 TR-2 TREMOLO PCB ASSY 70901390 WAVE VR1 100kA 2 1 3 1 2 3 45 F3 IC2A M5216AL D2 155133 RATE VR2 100kB 2 1 3 VR BOARD2 DEPTH VR3 100kB 2 1 3 VR BOARD1 F4 1 2 3 R17 D5 1.2k MTZ5.6B P2 CHECK 1 2 3 4 5 F1 FLAT-5P R37 47k R20 10k R34 10k R36 330k R45 100k 6 5 R39 100k C25 47µF/6.3V IC4B M5281AL C18 0.011µF R31 56k C20 C21 1µF/50V 1µF/50V + + 7 2 3 IC4A M5281AL R29 33k 1 R38 12k F2 FLAT-3P 1 2 3 R27 1.5k R19 10k R21 10k 2 3 IC3A M5281AL 6 5 1 R32 15k + R28 10k IC3B M5281AL C11 10µF/16V R8 100k C4 0.1µF R10 1M R23 56k R22 1M Q5 C12 0.047µF P3 D6 LN-28RP R44 100k C23 470pF 2SC2458GR R33 100k C17 470pF 2SC2458GR R25 56k R24 1M Q7 C13 0.047µF LED BOARD 7042655100 7 R43 10k + R30 56k C16 220pF C22 220pF R40 56K P5 9V BATTERY +9V R35 4,7k +5.5V +4.5V IC2C M5281AL 7 IC2B M5281AL 3 3 3 IC3C M5281AL IC4C M5281AL EFFECT ON/OFF R25 1M R18 100 C15 0.01µF SW1 JN-0404 P1 P6 D1 1N4004 + R41 4.7k Q6 2SA1048GR + R13 10k 6 5 R14 10k C10 4.7µF/6.3V + + JK1 HEC2392-01-150 4 4 4 AC ADAPTOR D4 C9 R42 1N4004 100µF/16V 5.6k C24 47µF/6.3V C19 47µF/6.3V | ||
File name Carvin-PB100_200reverb.pdf C9 .047 R1 47K C12 56pF C8 .01 +15VDC 6 +15VDC 5 + 200 EQ IN C50 .01 C49 .01 +15VDC + +15VDC 4 + C39 470 C44 .01 -15VDC 4 + -15VDC 5 B26 10 B4 C19 80Hz OP1.A + .022 R83 15K !- +15VDC R64 10 B16 TREBLE BOOST S3.A C10 .01 PASSIVE J1 R23 150K ACTIVE J2 R24 10K PB100 INPUT J3 Input sensivity 1K w/ 4 load = 165mV R20 22K R17 22K R21 22K R22 22K 10K R19 33K .1 C1 82pF R5 150K S2.A S2.B R16 R2 22K R3 470K C14 !A1.A + R4 220K GATE SENS C32 R9 100K R7 47K R60 C2 .01 cw 560pF R70 6.8K R61 3.3K R39 C33 .0033 R45 22K 47K !A3.B + FREQ P5 B50K R41 12K R40 D10 47K -15VDC A1 BYPASS C45 .01 POWER -15VDC 5 C16 .01 C17 .01 -15VDC 3 A6 BYPASS (R11: 47K PB200 Only) R11 C28 .022 100K R10 22K C27 .068 200 EQ OUT !A2.B + (PB100) P6 LEVEL C3 .033 COMP SENS cw 3.3K HI P1 B50K C6 B50K LOW BOOST MID SHIFT S1.A C4 10 C38 470 + C5 .047 MID SWEEP cw B18 R63 H1-1 H1-2 H1-3 H1-4 +15VDC GND -15VDC SIG IN !- R15 6.8K 330pF !A2.A + + A1.B + C7 10 R13 10K cw P2 R14 R8 10K 1.0M !A3.A + C25 .0033 C26 .01 R49 10K B50K C13 .1 R6 47K OP1.B LOW R50 6.8K R42 10K B50K P4 cw C15 .1 R43 2.2K R44 2.2K GAIN R18 +15VDC 5 R53 R28 10K C20 330pF R12 100K THRESHOLD 10K D4 R54 220K cw B50K P8 C40 10 C31 +15VDC 470 250Hz 500 Hz 800 Hz 2K Hz B15 R77 10K C43 56pF B25 !- R25 470 1W 200 EQ OUT PHONES J4.A 10 D6 R55 10K B20 200 EQ IN R62 10K A5.B + P3 10K P10 10K P11 10K P12 10K P9 10K + EFF SEND/LINE J6.A H4-1 H4-2 H4-3 H4-4 H4-5 H4-6 H4-7 H4-8 SPKR 1 J8.A J5.B B8 (PB100) BDG J5.C J9.A PHONE CUT J4.C J8.B SP1 J9.B SP2 BRIDGE OUT J5.A PHONE CUT J4.B SPKR 2 H9-1 H9-2 H9-3 H9-4 H9-5 H9-6 H9-7 H9-8 H9-9 H9-10 INV IN AGND POS IN AGND AGND OUTPUT 2 OUTPUT 2 OUTPUT 2 OUTPUT 2 OUTPUT 2 B9 A6.B EFF RTN GATE SENS C24 330pF R36 !- C30 + 10 R37 47K !+ R84 470K R38 47K D3 A5.A D8 R57 2.2K GATE C52 .22 C54 .01 C57 .047 R78 4.7K !- R74 3.9K !- C60 .01 C61 680pF R76 4.7K !- EFF SND AGND AGND OUTPUT GND OUTPUT GND SPKR 1 SPKR 1 A8.B + EFFECTS RTN J7.A SP1 J8.C B23 SP2 J9.C 47K A4.A + C58 .0022 A6.A + A7.A + +15VDC 5 R86 33K D13 R88 33K B27 C41 10 R87 100K R59 33K Q1 R52 10K R46 1.5K C36 10 R72 360K C55 .1 C56 .0033 R80 R73 4.7K !- 220K C59 .033 C53 .0022 R82 R75 3.9K !- + 220K + R56 470 D2 A7.B + A8.A + BDG B24 R65 R85 COMP SENS B3 cw R79 220K +15VDC R81 150K 470K 15K C29 + 10 C34 330pF R51 !- PB200 ONLY I/O MODULE POWERSUPPLY 30-41009-1 C11 7915 -15V Q4 C51 .01 C37 470 C46 .01 7815 +15V Q3 C35 470 + 30-41009-3 COMPRESSOR D7 R48 100 Q2 R58 470 H2-1 H2-2 H2-3 H2-4 R66 10K R47 4.7K H3-1 H3-2 H3-3 H3-4 H3-5 + C47 10 R69 22K BLK SW BLK TR PRI R30 470 1W R29 470 1W R90 10K R89 22K B30 H5-1 H5-2 H5-3 H5-4 BLK SW EARTH GND D9 + P7 B50K 33K A4.B + EFF RTN EFF SND AGND AGND OUTPUT GND OUTPUT GND SPKR 1 SPKR 1 SIG IN AGND STBY +47VDC +47VDC -47VDC -47VDC MUTE OUTPUT OUTPUT H6-1 H6-2 H6-3 H6-4 H6-5 H6-6 H6-7 H6-8 H6-9 H6-10 POWER AMP MODULE 30-41009-4 R27 15K + COMP C66 10 10 H3-6 H3-7 H3-8 C21 10 | ||
File name Carvin-PB200Ireverb.pdf C47 22 µ R186 10K smt 1/4w C52 330pF R187 N/U V+ Diode 1N914 SMT D8 D9 Diode 1N914 SMT Q21 5401PNP EFF RTN EFF SND SPKR 1 SPKR 1 OUTPUT GND OUTPUT GND INV IN POS IN OUTPUT 2 OUTPUT2 H3A.A H3A-2 H3A-3 H3A-4 H3A-5 H3A-6 H3A-7 H3A-8 H3A-9 H3A-10 +15V 7812 INV IN R136 1k R150 1k R137 220 E24 0.047µF 250 VAC QC3 C33 QC2 + QC4 L PL1 F1 SWITCH TRANS. BLK. SWITCH R91 4.7k 0.047µF Film SMTX C91 22 µ F C55 + 22 µ F Q18 5401 R108 47K TIP142 E25 E26 E N QC6 QC1 EARTH GND. GRN. TRANS. WHT. V- 0 smt 1/4w 270 smt 1/4w680 smt 1/4w R151 C31 Q25 R152 Q16 5401PNP Q17 5401PNP H1B.A H1B.B C92 220pF -15V 7912 Q26 C93 .01 C94 1000 + R127 .33 OUTPUT1 R42 22 1W1% J3 R96 C56 47k 100K smt 1/4w 22 H1B.C SIG IN H1B.D + R138 R135 100K smt 1/4w R98 2.2K smt 1/4w R156 R192 47k R128 R155 2.2K smt 1/4w .33 Q24 R139 E27 10k EFFECTS RETURN Q27 C95 .01 C96 1000 INV IN C65 .01 µ F 47K smt 1/4w R166 EFF RTN EFF SND SPKR 1 SPKR 1 OUTPUT GND H3B.A H3B.B H3B.C H3B.D H3B.E H3B.F H3B.G H3B.H H3B.I H3B.J SP2 J12.B SP1 J11.B SP1 J2 J11.C SP2 J12.C C69 39pF smtX C67 82pF E28 EFFECTS SEND + J1 B2 BDG J10.B SPKR 1 J11.A 470 smt 1/4w TIP147 R140 22k OUTPUT GND INV IN POS IN 220pF smtX H2.B YEL H2.D YEL D35 D36 D37 D26 VD31 D32 910 smt 1/4w R191 Z11 -24V R146 5550 Q20 Q19 5550 R95 2.2K E29 BRIDGE OUT B3 J10.A B4 B5 BDG J10.C SPKR 2 J12.A R99 1k OUTPUT 2 K2 OUTPUT1 R119 47 C34 R97 2.2K OUTPUT 2 V- D16 -24V SND AC RED H2.A D33 H2.E 910 smt 1/4w R190 V+ V+: +43VDC V-: -43VDC + I/O MODULE 30-41609-3 -15V -15V +15V 6. LABEL "B" INDICATES A JUMPER WIRE. 5. ALL OP AMPS ARE TYPE 4565, EXCEPT AS NOTED. 4. ALL RESISTORS IN OHMS. 3. ALL CAPACITORS IN MICROFARADS, EXCEPT AS NOTED. 2. ALL DIODES ARE TYPE 1N914, EXCEPT AS NOTED 1. ALL GROUNDS ARE A EXCEPT AS NOTED. NOTES UNLESS OTHERWISE SPECIFIED 12340 World Trade Drive San Diego, CA 92128 (858) 487-1600 FAX 521-6032 Z12 C90 220 Z13 SND AC RED V+ Diode 1N914 SMT D6 D5 Diode 1N914 SMT Q6 R104 220 E1 D34 C TAP GRN QC5 CHASSIS H2.C C98 4700 R101 1k + C99 4700 R125 15K smt 1/4w Q23 Q2 5401PNP R103 47K 0.047µF Film SMTX 0 smt 1/4w 270 smt 1/4w680 smt 1/4w V- R49 E3 R44 470K +15V R50 Q3 5401PNP Q4 5401PNP R113 .33 R54 0 smt 1/4w OUTPUT 2 R107 C102 47k R131 C107 22 µ F 100K smt 1/4w + R100 R105 100K smt 1/4w R51 R114 .33 R116 2.2K smt 1/4w Q9 MMBT5401 PNP +15V +15V R106 2.2k R115 E4 10k C104 .01 µ F R118 47K smt 1/4w R48 D10 R120 10k R121 10k 5 C46 39pF smtX C103 82pF R133 100k 0.0022µF smtX 1k C106 C27 220pF smtX E5 TIP147 R117 22k OUTPUT 2 R111 1k R109 2.2K R110 2.2K 47 D7 Q13 Q10 5401PNP 5401PNP -15V 4.7k V- R75 GATE THRESHOLD cw 3.3K smt 1/4w R67 22K smt 1/4w 15K smt 1/4w R74 R73 B50K -15VDC R68 +15VDC 360K smt 1/4w C49 27pF smtX 33K smt 1/4w R57 GATE R40 D2 80Hz 250Hz 500 Hz 800 Hz 15K smt 1/4w P7 Q15 R65 68 smt 1/4w R66 4 5 200 EQ IN 2 P8 10K R167 10K smt 1/4w 82pF C71 .1 C73 0.01µF Film SMT C70 C72 .1 | ||
File name Dod -201phase.pdf DOD Phasor 201 100k 10k 8 13 14 10k 10k 10k 10k bypass / effect +9 1/4 MC3403P 11 9 4 2 12 .047 uf 1/4 MC3403P 10k .047 uf .047 uf 10k 10k 2N5953 1/4 MC3403P 1 10 3 470k .01 uf .01 uf 10k 180k 10k 180k 470k .01 uf 2N5953 9v +9 6 10k .01 uf 1/4 MC3403P 5 7 10k bias trim 470k .05 uf 470k 100k 180k 1N5230 22 uf 6.3v 470k 180k 3.3 uf 3m3 180k 4k7 ampage speed 500k http://ampage.org/ | ||
File name Dod-9081phase.pdf | ||
File name Dod-9089echoflange.pdf | ||
File name Dod-Fx64IceBox chorus.pdf REV DESCRIPTION BY ECN# DATE REV DESCRIPTION BY ECN# DATE A0 RELEASE TO PRODUCTION TNB 1.31.96 A1 CHANGE C13 62-3084 330PF AXIAL TO 62-0006 330PF RADIAL TNB 851 4/9/96 A2 CHANGE POWER JACKS TO 322112 RB 868 04.04.96 |LINK |050064A2.001 DOD Electronics Corp. 8760 South Sandy Parkway Sandy, Utah 84070 Title FX64 ICE BOX 80-1064 Size B Date: Document Number 050064A2.000 Thursday, December 16, 1999 Sheet 0 of 1 Rev A2 15PJD1 C38 R25 150K +9V INPUT 1 H1A HDR321101 GROUND 4 V BIAS 2 H1B HDR321101 POWER 3 H1C HDR321101 D5 1N4001 J1 J322112 2 3 1 +9V C34 47ME1 R14 4.7K V BIAS R13 4.7K C33 47ME1 V BIAS V BIAS V BIAS R1 1K C1 .047MA3 R61 150K 8 6 5 U7B 4558 7 C3 C2 1M50E1 .0068J R4 220K V BIAS R6 47K 100PMD1 C4 R7 47K R9 10K .0010J C6 +9V 2 3 4558 1 U7A R8 100K C7 220PMD .033J C5 R10 10K V BIAS R22 1M Q2 2N4124 C8 10ME1 R12 47K R16 22K C9 100PMD1 R15 22K 4558 1 3 R17 22K V BIAS R64 22K U1A R18 1M R19 100 H1D HDR321101 C10 1M50E1 OUTPUT 4 R5 10K 2 R2 1M 4 R11 10K C36 50PJD1 C11 1M50E1 C12 1M50E1 R20 22K +9V R21 22K R3 22K 8 6 5 U1B 7 4558 V BIAS C37 1M50E1 OUTPUT 5 R24 100 H1E HDR321101 R23 1M 330PKD1 C13 1 5 4 6 2 U5 GND VDD VGG CLK2 CLK1 O2 O1 8 7 +9V .0018J C20 R46 56K +9V R44 10K R43 10K R41 22K 1 V BIAS R36 1M 3 C17 1M50E1 V BIAS R65 20K 2 Q4 J201 D1 1N4148 3 6 5 1 U2B 4558 V BIAS 7 R26 47K R27 10K .0068J C14 +9V 8 3 R47 100K IN MN3007 C23 .033J R45 330K V bIAS Q7 2N4124 3 P1 2 U2A 4558 1 1 R35 39K 2 C22 470PMD1 C21 220PMD R42 10K 100K402141 FREEZE (EQ) 2 R37 22K 4 3 P4 100K402141 ICE (LEVEL) DEEP (DEPTH) P2 100K402141 .0010J C19 C32 .0015J C18 100PMD1 +9V 2N4124 Q8 R56 100K 2 R49 2.7K R48 4.7K 2 4 8 C27 1M50E1 R50 150K C28 50PJD1 U6 CK1 CK2 VGG VDD GND MN3101 X1 X2 X3 7 6 5 3 1 R53 33K +9V 1 R38 10K Q6 2N5088 C15 .047MA3 R28 220K 3 C24 10ME1 D3 1N4148 R54 1.5K C29 .033J .033J C35 R57 100K R29 100K +9V 4007A 1 3 U3A 5 6 U3C 2 +9V 4007A 13 8 +9V 4 7 14 R40 33K V bIAS R55 4.7K R66 100 +9V R39 10K 8 C39 47ME1 Q10 2N5088 +9V R51 33K C25 10ME1 +9V 2N4124 Q9 3 D4 1N4148 P3 500K402142 COLD (SPEED) R60 15K 1 4558 7 6 U4B +9V 5 BYPASS SW1 SW440083 11 R30 1M R31 1M 4007A 12 C16 .047MA3 R32 100K Q5 2N5088 R33 100K R34 10K R52 2.7K C26 100M25E1 R58 100K 3 4 1 2 10 U3B 2 R59 51K D2 LEDR702059 DIST. LED 9 C30 4.7ME1 2 3 U4A 4558 4 R62 10K +9V C31 47ME1 R63 8.2K LS2 LS281032 8760 South Sandy Parkway Sandy, Utah 84070 Title FX64 ICE BOX 80-1064 Size B Date: Document Number 050064A2.001 Thursday, December 16, 1999 Sheet 1 of 1 Rev A2 1 PCB1 80-1064-A DOD Electronics Corp. 050064a2 &l0 (s0P (s15H (s8V (s0S &l6D &l66P &l3E &a7L &a120M &l61FDOD Software Page 1 FX64 ICE BOX 80-1064 Revised: April 22, 1996 050064A2.001 Revision: A2 Bill Of Materials April 22, 1996 13:13:43 Quan Reference Part SYMAN Description _______________________________________________________________________________________________________________ C1,C15,C16 C2,C10,C11,C12,C17,C27, C37 2 C3,C14 3 C4,C9,C18 4 | ||
File name Dod-FX67turbochorus.pdf | ||
File name Dod-Fx75Flanger.pdf NON-POLARIZED 15 UF Q1 J111 1N4001 22K 47 UF 100K Q2 2N5089 100K 22K 10K (*) PLUGGING INTO THE INPUT JACK CREATES THE CIRCUIT GROUND. VCC + 9Vdc 0.0023 150K 100K VCC IN (*) 470K 3 0.01 10UF 62K 22K 1 2 TL022C 4 47K 2N4124 1N4148 33K REGENERATION 500K OUT 7 6 1 UF 100K 1K TL022C 10K 0.0063 47K 120PF 10K U1B Q6 OUT 7 6 1 UF 100K 4.7K TL022C 47K 0.047 120PF A COMMON POINT (OR JUNCTION) IS ILLUSTRATED BY >> WHEN THIS IS NOT SEEN, WIRES WHICH CROSS OVER EACH OTHER ON THIS SCHEMATIC ARE "NOT" CONNECTED. 2N5089 10K 1M CD4007 DUAL COMPLEMENTARY PAIR WITH INVERTER; (RCA) MN3101/MN3007 MANF. PANASONIC; THESE ARE EQUIVALENT TO ECG1639/ECG1641 RESPECTFULLY. MOMENTARY SWITCH USED TO ENGAGE EFFECT Title DOD FX75 FLANGER (10-15-84) Size Document Number B DRAWN BY: FABIAN P. HARTERY Date: November 20, 1994 Sheet 1 of REV 1 1 5 100K 47K 1N4148 0.047 1M 9 12 11 7 8 13 14 4 5 1 2 U6 3SN 3Y 3A 3SP VSS 2DN 2A 2DP VDD 1SN 1DN 1A 1DP 1SP CD4007 3 10 1M 6 PARTS DESCRIPTION: TL022C LOW POWER DUAL OPAMP; (TEXAS INSTRUMENTS) MN3101 CLOCK GENERATOR FOR BUCKET BRIGADE DEVICE /BBD MN3007 AUDIO SIGNAL DELAY, 1024 STAGE LOW NOISE BBD (5.12-51.2 msec delay) 0.047 TL022C 8 VCC 0.022 62K U2B 5 Q5 J113 100K 1 3 33K 120PF 33K 33K 0.001 4 U2A 2 0.005 1N4148 0.001 120PF 4.7K 0.047 4 5 4 5 8 U1A 2 10K 47K 3 7 6 2 3 7 6 25 PF 33K Q4 1K 330K 470K 1 MN3007 8 1 MN3101 8 10K Q3 2N4125 10UF 27K P1 100K 2K SPEED 500K 150K 100K 56 UF 10 UF 22K 6 7 5 TL022C TL022C 8 180K VCC 220K WIDTH 100K 100K 1N4148 5K 4.7K 220K 2 1 3 U3B 4 U3A 4.7K 1N4148 10K | ||
File name Dod-Fx96Echo.pdf R52 INPUT C1 .047MD7 1 HDR321101 10K-7 1 +9V 2 Q1 J201 3 R3 47K-7 C3 220PKD7 C6 .0068J +9V R7 27K-7 R8 27K-7 R9 27K-7 8 5 6 U1B 7 R10 22K-7 R11 22K-7 C9 10ME1 C13 .10KD7 TP1 C10 1M50E1 C11 120PJD7 TESTP R51 VBIAS 150K-7 7 U4 IN CLK1 CLK2 VGG VDD GND MN3005 O1 O2 3 4 R5 47K-7 6 2 8 5 1 H1A C41 C44 .0015J R1 1M-7 VBIAS R2 10K-7 .0068J C2 10K-7 R4 5 6 7 U2A INV R3 OUT THD DG RIN RC GND 2 3 U1A 1 R6 10K-7 C5 .0022J .22LLME1 8 3 2 1 4 VBIAS C42 NJM4560/SM 4 NJM4560/SM C7 470PMD1 C4 1M50E1 470PMD1 R15 22K-7 C16 .015J R17 10K-7 J201 Q2 2 3 3 1 "DRY/TAPE" (MIX) P4 100K402141 1 NE570 C12 .47 T1 C14 4.7ME1 4 2 CK2 CK1 8 VGG R12 15K-7 GND VDD R16 4.7K-7 OUTPUT C8 .22LLM50E1 U5 MN3101 X3 X2 X1 5 6 7 1 3 VBIAS 4 H1E 5 R13 1K-7 C15 1M50E1 1 U3A 2 3 R18 4.7K-7 2 R19 10K-7 D3 1N4148R "TAPE QUALITY" (DELAY TONE) R20 10K-7 1 R21 10K-7 5 7 6 2 P1 100K402141 3 C18 .068J NJM4560/SM 1 U3B 3 2 "SLAP" (REGENERATION) R23 22K-7 C19 25PJD1 P3 500K402142 R24 220K-7 2 +9V 8 D2 1N4148R +9V R25 51-7 HDR321101 R14 100K-7 NJM4560/SM VBIAS C17 .010J C20 10ME1 GROUND H1B 2 HDR321101 H1C 3 2 3 1 R27 10-7 +9V D4 1N4001R C23 47ME1 R28 4.7K-7 VBIAS R29 4.7K-7 C43 1M50E1 J1 J320101 C25 4.7ME1 12 11 10 13 R30 10K-7 U2B INV R3 OUT V+ NE570 D5 1N4148R VBIAS VBIAS P2 100K402141 R26 47K-7 1 3 C21 820PMD1 R48 470K-7 470PMD1 C22 POWER HDR321101 THD DG RIN RC 9 14 15 16 "MOTOR SPEED" (DELAY TIME) C26 120PJD7 +9V +9V NJM4560/SM C27 4.7ME1 R47 1K-7 3 1 U6A R33 10K-7 2 4 C29 470PMD1 R34 27K-7 R35 27K-7 R36 27K-7 5 7 U6B 6 C32 470PMD1 R37 27K-7 R38 27K-7 R39 27K-7 8 H1D 4 HDR321101 C24 10ME1 C37 .0022J NJM4560/SM C34 .0022J R31 100K-7 R43 220K-7 Q3 2N5088 R32 1M-7 C28 .47 T1 .0068J C30 .0068J C33 C35 .047MD7 R49 1M-7 R50 1M-7 R41 100K-7 +9V 4007A 1 3 U7A +9V 4 R42 1M-7 4007A 12 C36 .047MD7 5 6 2 +9V 4007A 13 U7C 8 +9V 7 R46 10K-7 C31 .047MD7 C38 .047MD7 C39 .047MD7 C40 .047MD7 +9V +9V +9V +9V 14 BYPASS R40 1M-7 3 4 SW1 1 2 10 11 U7B R44 100K-7 SW440083 Q4 2N5088 D1 LEDR702059 LED DELAY LS1 LS281032 PCB1 80-0096-A DOD Electronics Corp. 8760 South Sandy Parkway Sandy, Utah 84070 Title FX96 ECHO FX Size B Date: Document Number 05-0096 Monday, January 17, 2000 Sheet 1 of 2 Rev A0 9 R45 100K-7 Fx96a0 &l0 (s0P (s15H (s8V (s0S &l6D &l66P &l3E &a7L &a120M &l61FDOD Software Page 1 FX96 ECHO FX Revised: March 28, 1997 05-0096 Revision: A0 Bill Of Materials March 28, 1997 10:45:41 Quan Reference Part SYMAN Description _______________________________________________________________________________________________________________ C1,C31,C35,C36,C38,C39, C40 4 C2,C6,C30,C33 1 C3 4 C4,C10,C15,C43 3 C5,C34,C37 5 C7,C22,C29,C32,C42 1 C8 3 C9,C20,C24 2 C12,C28 1 C13 3 C14,C25,C27 1 C16 1 C17 1 C18 1 C19 1 C21 1 C23 2 C26,C11 1 C41 1 C44 1 D1 3 D2,D3,D5 1 D4 1 H1 1 J1 1 LS1 3 P1,P2,P4 1 P3 1 PCB1 2 Q1,Q2 2 Q3,Q4 6 R1,R32,R40,R42,R49,R50 11 R2,R4,R6,R17,R19,R20,R21, R30,R33,R46,R52 3 R3,R5,R26 9 R7,R8,R9,R34,R35,R36,R37, R38,R | ||
File name Dod-VFX52classicfuzz.pdf | ||
File name Dynacord-CLS222eff.pdf | ||
File name ElectroHarmonix-BassMicroSynth.pdf +V C5 0.0018 R15 +V 8 A2A A2B 5 7 6 RC4558 4 D2 1N914 2 6 7 5 A3B RC4558 C12 0.47 TANT. C13 OCTAVE 100K LIN R28 4 R29 8.2K 4 A4A 1 3 RC4558 8 +V D3 7 6 8 RC4558 3 1 2 PEAK FOLLOWER R41 220 SQUARE WAVE MODULATOR -V A6B Q1 5 7 6 2N5087 RC4558 0 TO -7V DEPENDING ON SIGNAL D11 1N914 R38 22K 7 R40 6.8K 1 2 5 13K 3 6 7 TO ADAPTIVE SCHMITT TRIGGER TO VCA SWEEP GENERATOR TO VCF SWEEP GENERATOR TO SUB-OCTAVE TRACK & HOLD MODULATOR (A18) & OUTPUT 4 5 TO VCF (A10) ELECTRO HARMONIX DESIGNED BY: D.COCKERELL REVISION: 12/12/78 D9 1N914 C16 4.7 R39 120K D8 1N914 D10 1N914 6 HIGH ON SILENCE R42 820K RC4558 R43 1K 4 -V R45 470 ATTACK DETECTOR NORMALLY -8V PULSES HIGH ON ATTACK R44 330K 5 7 6 7 A7B RC4558 A5A SQUELCH SMALL SIGNAL DETECTOR +V 1N914 -V +V R32 390K -V R30 2.2K R25 22K C11 1.0 -V TANT. TRIGGER R31 100K LIN 4 2 3 R33 330 A7A RC4558 0.082 R27 4.7K GUITAR R6 100K LIN D1 R5 13K 1N914 8 +V PREAMP GAIN R3 10K R4 470 RC4558 0.47 TANT. C1 0.1 C2 0.022 C3 0.0022 10K 10K 7.5K R10 2 3 RC4558 R12 C4 FULL WAVE RECTIFIER R11 3 4 A3A 1 R7 2.2K 700 HZ LOW PASS FILTER R8 R9 3.3K 33K 1 R13 15K -V -V 3.3M R14 100K SQUELCH R16 27K J1/INPUT 1/4" PHONEJACK R2 3 4.7K 2 1 R1 68K -V D4 D5 D6 D7 1N914 1N914 A4B LOG AMP 5 7 C10 0.1 6 1K RC4558 R23 47K R24 2 -V 1N914 1N914 R26 820 R18 27K 560 3.3K 2.2K C8 2.2 22K C9 1.0 R19 SMOOTHING FILTER R20 R21 R22 -V A6A 1 A5B 5 C7 4.7 TANT. R17 C6 4 STOP DETECTOR 1 2 2.7K 1.0 3 RC4558 SQUARE WAVE SHAPER 8 NORMALLY LOW 8 PULSES HIGH AT END OF NOTE +V +V +V C14 SQUARE WAVE R36 100K LIN R37 R34 3 1.0 4 CA3094 (or EH1040) 2.7K C15 0.047 R35 2 A8 1 8 6 5 10K -V SQUARE WAVE SHAPER * ALL CAPACITOR VALUES IN MICROFARADS Title ELECTRO HARMONIX BASS MICRO SYNTHESIZER Size Document Number A DRAWN BY: FABIAN P. HARTERY Date: September 28, 1996 Sheet 1 of REV 1 3 ADAPTIVE SCHMIDT TRIGGER R49 220 2 SUB-OCTAVE TRACK & HOLD MODULATOR -V 1 +V R57 27K 3 2 A18 8 R56 47K C21 0.1 -V 7 +V D16 1N914 R70 22M -V R68 1K +V +V Q3 2N5087 R71 680K 7 3 R72 1K 2 3 A13 1 8 6 5 5 6 8 1 0.0033 7 C25 4 A10 CA3094 /EH1040 2 R75 3.3K R76 8.2K R77 47K R78 1K R69 12K -V -V A11 CA3094 /EH1040 2 3 4 R79 3.3K -V -V A12 CA3094 /EH1040 R80 8.2K R81 5 6 8 1 0.0033 C26 7 47K 2 R82 1K 3 2.2K D17 1N5235 6.8V R73 SWEEP RATE R74 100K LIN R64 10K -V R59 470 -V R60 27K R62 12K -V 4 4 R55 3.9K R58 470 2 1 0 A17B CD4013 5 D CLK R Q 11 9 3 12 +V CLK 13 Q S D 6 5 47K Q R A17A 6 CD4013 1 S Q CA3094 EH1040) 7 (OR 1 8 6 C22 5 +V 3 47K 8 C19 4.7 TANT. R48 10K 4 -V R46 1N914 R47 3 5 3.3K 3.3K A15B RC4558 D13 7 A15A RC4558 R53 1 6 D12 1N914 C17 0.0033 +V 0.0033 R50 6.8K R52 220 R51 10K C20 4.7 TANT. A16B RC4558 R54 7 8 Q2 2N4302 C23 R61 100K LIN SUB-OCTAVE 1.0 3 1N914 D14 1N914 A16A RC4558 D15 1 C18 0.1 2 4 -V S-R FLIP FLOP & DIVIDE BY TWO SPECIAL NOTE: PIN 14 IS CONNECTED TO THE POWER SUPPLY GROUND AND PIN 7 IS CONNECTED TO THE -V SUPPLY. -V R63 10K +V STOP FREQUENCY R66 8 U9A RC4558 C24 0.082 3 R65 100K LIN 3.3K 1 2 R6 | ||
File name ElectroHarmonix-Microsynth.pdf +V C5 0.0018 R15 +V 8 A2A A2B 5 7 6 RC4558 4 D2 1N914 2 6 7 5 A3B RC4558 C12 0.47 TANT. C13 OCTAVE 100K LIN R28 4 R29 8.2K 4 A4A 1 3 RC4558 8 +V D3 7 6 8 RC4558 3 1 2 PEAK FOLLOWER R41 220 SQUARE WAVE MODULATOR -V A6B Q1 5 7 6 2N5087 RC4558 0 TO -7V DEPENDING ON SIGNAL D11 1N914 R38 22K 7 R40 6.8K 1 2 5 13K 3 6 7 TO ADAPTIVE SCHMITT TRIGGER TO VCA SWEEP GENERATOR TO VCF SWEEP GENERATOR TO SUB-OCTAVE TRACK & HOLD MODULATOR (A18) & OUTPUT 4 5 TO VCF (A10) ELECTRO HARMONIX DESIGNED BY: D.COCKERELL REVISION: 12/12/78 D9 1N914 C16 4.7 R39 120K D8 1N914 D10 1N914 6 HIGH ON SILENCE R42 820K RC4558 R43 1K 4 -V R45 470 ATTACK DETECTOR NORMALLY -8V PULSES HIGH ON ATTACK R44 330K 5 7 6 7 A7B RC4558 A5A SQUELCH SMALL SIGNAL DETECTOR +V 1N914 -V +V R32 390K -V R30 2.2K R25 22K C11 1.0 -V TANT. TRIGGER R31 100K LIN 4 2 3 R33 330 A7A RC4558 0.082 R27 4.7K GUITAR R6 100K LIN D1 R5 13K 1N914 8 +V PREAMP GAIN R3 10K R4 470 RC4558 0.47 TANT. C1 0.1 C2 0.022 C3 0.0022 10K 10K 7.5K R10 2 3 RC4558 R12 C4 FULL WAVE RECTIFIER R11 3 4 A3A 1 R7 2.2K 700 HZ LOW PASS FILTER R8 R9 3.3K 33K 1 R13 15K -V -V 3.3M R14 100K SQUELCH R16 27K J1/INPUT 1/4" PHONEJACK R2 3 4.7K 2 1 R1 68K -V D4 D5 D6 D7 1N914 1N914 A4B LOG AMP 5 C10 0.056 6 1K RC4558 R23 47K 7 R24 2 -V 1N914 1N914 R26 820 R18 27K 560 3.3K 2.2K C8 1.0 22K C9 0.47 R19 SMOOTHING FILTER R20 R21 R22 -V A6A 1 A5B 5 C7 4.7 TANT. R17 C6 4 STOP DETECTOR 1 2 2.7K 1.0 3 RC4558 SQUARE WAVE SHAPER 8 NORMALLY LOW 8 PULSES HIGH AT END OF NOTE +V +V +V C14 SQUARE WAVE R36 100K LIN R37 R34 3 1.0 4 CA3094 (or EH1040) 2.7K C15 0.047 R35 2 A8 1 8 6 5 10K -V SQUARE WAVE SHAPER * ALL CAPACITOR VALUES IN MICROFARADS Title ELECTRO HARMONIX GUITAR MICRO SYNTHESIZER Size Document Number A DRAWN BY: FABIAN P. HARTERY Date: September 28, 1996 Sheet 1 of REV 1 3 ADAPTIVE SCHMIDT TRIGGER R49 220 2 SUB-OCTAVE TRACK & HOLD MODULATOR -V 1 +V R57 27K 3 2 A18 8 R56 47K C21 0.1 -V 7 +V D16 1N914 R70 22M -V R68 1K +V +V Q3 2N5087 R71 680K 7 3 R72 1K 2 3 A13 1 8 6 5 5 6 8 1 0.0033 7 C25 4 A10 CA3094 /EH1040 2 R75 3.3K R76 8.2K R77 47K R78 1K R69 2.2K -V -V A11 CA3094 /EH1040 2 3 4 R79 3.3K -V -V A12 CA3094 /EH1040 R80 8.2K R81 5 6 8 1 0.0033 C26 7 47K 2 R82 1K 3 2.2K D17 1N5235 6.8V R73 SWEEP RATE R74 100K LIN R64 10K -V R59 470 -V R60 27K R62 12K -V 4 4 R55 3.9K R58 470 2 1 0 A17B CD4013 5 D CLK R Q 11 9 3 12 +V CLK 13 Q S D 6 5 47K Q R A17A 6 CD4013 1 S Q CA3094 EH1040) 7 (OR 1 8 6 C22 5 +V 3 47K 8 C19 4.7 TANT. R48 10K 4 -V R46 1N914 R47 3 5 3.3K 3.3K A15B RC4558 D13 7 A15A RC4558 R53 1 6 D12 1N914 C17 0.0033 +V 0.0033 R50 6.8K R52 220 R51 10K C20 4.7 TANT. A16B RC4558 R54 7 8 Q2 2N4302 C23 R61 100K LIN SUB-OCTAVE 1.0 3 1N914 D14 1N914 A16A RC4558 D15 1 C18 0.1 2 4 -V S-R FLIP FLOP & DIVIDE BY TWO SPECIAL NOTE: PIN 14 IS CONNECTED TO THE POWER SUPPLY GROUND AND PIN 7 IS CONNECTED TO THE -V SUPPLY. -V R63 10K +V STOP FREQUENCY R66 8 U9A RC4558 C24 0.082 3 R65 100K LIN 3.3K 1 | ||
File name Eti-Octfuzz.pdf Guitar Effects Unit (Octaver-Fuzz) extracted from ETI-Canada, January 1980 +9v 10k 10k 10k + 6.8k 10k - D1 a 100k D2 10k +9v + 1.0uf 680k 560pf Q1 1M + b 1k -9v + IN 1.0uf 270ohms 8.2k 39k Fuzz Struzz S3 1k 820 ohms S2 OUT -9v 9v + On S1 Off 9v + +9v Q1 is MPS6515 DI and D2 are 1N4148 The IC is any lownoise dual op-amp, shown is the 4558. Switching could be improved with a full bypass mod. The GEU is good sounding octave fuzz, with an optional mode of just fuzz. The fuzz is a fully rectified signal and is quite chewy. For some the Fuzz alone might not be loud enough, this can be fixed by raising the value of the 820 ohm resistor and lowering the 39k one. Or one could just replace both with a normal volume pot for a more standard approach. The "struzz" is the fuzz with an octave higher signal mixed in. Good for singal notes and leads. | ||
File name Gibson-GA3rv.pdf | ||
File name Gibson-GA4re.pdf | ||
File name Gibson-TR1000rvt.pdf | ||
File name Gradiente-RB16reverb.pdf | ||
File name Hughes&Kettner-RedBoxPro.pdf GD/ 23.11. 99 SERVICE DOCUMENTATION Red Box Pro GD/ 23.11. 99 Inhaltsverzeichnis/ Contents 1 Schaltpläne/ schematic diagrams 2 Bestückungspläne/ component parts 3 Bestellnummern/ order no. 4 Bestellinformationen/ ordering informations 5 Technische Daten/ technical data GD/ 23.11. 99 1 Schaltpläne/ schematics GD/ 23.11. 99 2 Bestückungspläne/ component parts GD/ 23.11. 99 3 no. 1 2 3 4 5 6 7 8 9 10 Bestellnummern/ order no. Red Box Pro schematic position transformer S1- S3 L1 L2 L3 L4 J1- J3 XLR out enclosure rubber foot name audio transf. switch coil coil coil coil jack jack specs ST7063 2 x um 2 x 27 mH 4,7 mH 2,2 mH 470 uH ¼ phone jack mono " XLR jack frame + bottom cover part no. E 958 066 E 950 031 E 930 050 E 930 052 E 930 037 E 930 035 E 952 038 E 952 029 E 956 020 E 976 001 GD/ 08.11. 99 4 Bestellinformationen/ ordering informations Bestellinformationen und Ersatzteilbestellungen Deutschland: Music & Sales Leipziger Straße 3 D- 66606 St. Wendel Service Tel.: 06851/ 905 333 Fax: 06851/ 905 100 E-mail: [email protected] Technische Fragen Tel.:06851/ 905 330 E-mail: [email protected] Sparepart orders and technical questions for all other countries: contact your local distributor or Hughes & Kettner Leipzigerstr. 3 66606 St. Wendel Germany Tel.: +49 6851/905 210 Fax: +49 6851/905 200 Email: [email protected] GD/ 23.11. 99 5 Technische Daten/ technical data Red Box Pro Eingänge/ inputs: Input: Buchse/ connection: ¼ phone jack " Bauart Eingang/ input type: unbalanced Eingangsimpedanz/ input impedance: 5 K (Cabinet simulator on/ Line in) 10 K (Cabinet simulator off/ Line in) 11 K (Cabinet simulator on/speaker) 12 K (Cabinet simulator off/speaker) max. Eingangspegel/ max.input level: +26 dB = 20V(Input select: Line) +44 dB = 158V(Input select: Speaker) Buchse/ connection: XLR jack Bauart Ausgang/ output type: transformer balanced Ausgangsimpedanz/ output impedance: 600 max. Ausgangspegel/ max.output level:- 6 dB Ausgänge/ outputs: Line Out Allgemeine elektrische Daten/ general electrical data: Umgebungstemperaturbereich/ temperatur range: Allgemeine mechanische Daten/ general mechanical data: Abmessungen/ sizes: Breite/ width: 115 mm Höhe/ height: 32 mm Tiefe/ depth: 65 mm - 10 °C bis + 60 ° C | ||
File name HughesKettner-ClubReverb.pdf GD/ 08.11. 99 SERVICE DOCUMENTATION Club Reverb GD/ 08.11. 99 Inhaltsverzeichnis/ Contents 1 Schaltpläne/ schematic diagrams 2 Bestückungspläne/ component parts 3 Explosionszeichnung/ explosion drawings 4 Bestellnummern/ order no. 5 Bestellinformationen/ ordering informations 6 Technische Daten/ technical data GD/ 08.11. 99 1 Schaltpläne/ schematics GD/ 08.11. 99 2 Bestückungspläne/ component parts GD/ 08.11. 99 3 Explosionszeichnung/ explosion drawings E 958096 E 958095 E 948002 E 948024 E 948025 E 970025 1 0 0 /1 1 7 V 230 V 230V 117V 100V E 952014 E 968001 E952041 E 980101 E 544012 E 966010 E 966037 E 952038 E 970310 N am e D a tu m E 950029 E 950006 1 0 0 /1 1 7 V 230V E 959001 S ie b d ru c k lo g o K e in e F a rb e D ru c k e B e z e ic h n u n g K e in e O b e rflä c h e M u s ic & S a le s 2 0 .1 1 .9 9 C lu b - R e v e r b C h a s s is C lu b - R e v e r b C h a s s is 1 0 0 /1 1 7 V E 5 0 2 0 0 5 230V E502006 E 976073 E 974188 E 400067 E 974355 E 502005 E 502006 1 0 0 /1 1 7 V 230V E 974315 E 974322 E 982152 E 976015 E 9 7 2 0 4 8 (8 2 5 X 4 7 0 ) E 982087 E 976059 E 974330 E 974010 E 994104 N am e D a tu m S ie b d ru c k lo g o K e in e F a rb e D ru c k e K e in e O b e rflä c h e M u s ic & S a le s 2 0 .1 1 .9 9 R AL 9 0 0 5 B e z e ic h n u n g C lu b -R e v e rb 2 3 0 V /1 1 7 V /1 0 0 V GD/ 08.11. 99 4 no. 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 Bestellnummern/ order no. Club Reverb schematic position mains switch (230V) mains switch (100/ 117V) mains transformer mains transformer P1 (clean vol) P2 (lead gain) P3 (lead voicing) P4 (lead master) P5 (bass) P6 (mid) P7 (treble) P8 (reverb) P9 (master vol) S1 (channel select) D16- D19 D20, D21 D22, D23 D24 T1 T2 T3 T4 T5 T6 T7 T8 IC 1 IC 2 IC 3 IC 4 IC 5 IC 6 name switch switch transformer transformer pot pot pot pot pot pot pot pot pot switch rectifier z-diode z-diode rectifier transistor transistor transistor transistor transistor transistor transistor transistor OP amp OP amp OP amp multiplexer OP amp OP amp specs 230V 117V 230V 100/ 117V 250 K log, mono 250 K log, mono 250 K lin, mono 10 K lin, mono 1 M log, mono 25 K log, mono 250 K lin, mono 10 K lin, mono 50 K lin, mono 2 x um 1N5404/ 3A/ 400V 15V/ 1,3W 7,5V/ 0,5W 1N4007/ 1A/ 1000V BC546B BC546B BD238 BD679 TIP142 Tip147 BC546B BF245B NE5532A NE5532A TL072 HCF 4053 LM 1458N TL072 part no. E 950 006 E 950 029 E 958 095 E 958 096 E 914 044 E 914 044 E 914 043 E 914 033 E 914 047 E 914 048 E 914 043 E 914 033 E 914 035 E 950 001 E 934 025 E 934 004 E 934 021 E 934 023 E 938 009 E 938 009 E 938 022 E 938 024 E 938 032 E 938 033 E 938 009 E 938 028 E 940 004 E 940 004 E 940 018 E 940 002 E 940 011 E 940 018 GD/ 08.11. 99 5 Bestellinformationen/ ordering informations Bestellinformationen und Ersatzteilbestellungen Deutschland: Music & Sales Leipziger Straße 3 D- 66606 St. Wendel Service Tel.: 06851/ 905 333 Fax: 06851/ 905 1 | ||
File name HughesKettner-TubemanII.pdf GD/ 18.11. 99 SERVICE DOCUMENTATION Tubeman II GD/ 18.11. 99 Inhaltsverzeichnis/ Contents 1 Schaltpläne/ schematic diagrams 2 Bestückungspläne/ component parts 3 Bestellnummern/ order no. 4 Bestellinformationen/ ordering informations 5 Technische Daten/ technical data GD/ 18.11. 99 1 Schaltpläne/ schematics GD/ 18.11. 99 2 Bestückungspläne/ component parts GD/ 18.11. 99 3 no. 1 2 3 4 5 6 7 8 9 10 11 12 13 15 16 17 18 19 20 21 22 23 24 25 26 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 Bestellnummern/ order no. Tubeman II schematic position AC power pack AC power pack AC power pack AC power pack transformer 1 P1 (CH1 vol) P2 (CH2 gain) P3 (CH2 vol) P4 (CH3 gain) P5 (CH3 voicing) P6 (CH3 vol) P7 (bass) P8 (mid) P9 (treble) P10 (master vol) D16- D19, D20- D22 T1 T2 T3 IC 1 IC 2 IC 3 IC 4 IC 5 IC 6 IC 7 C63- C65 Rel1- Rel2 tube 1 tube socket J1- J4 (input/ output) J6 (ac) enclosure profile enclosure front enclosure sides enclosure pane screws pane screws side profile bottom foot Ch1 switch CH2 switch CH3 switch pot knob name UK Europe USA/ CAN Japan transformer pot pot pot pot pot pot pot pot pot pot rectifier transistor transistor transistor OP Amp OP Amp OP Amp OP Amp Multiplexer Multiplexer OP Amp hv cap relay tube socket jack jack alu profile front panel side profile acrylglass M3 x 8 4 x 40 rubber foot switch switch switch pot knob specs 240V 230V 117V 100V EI 15V/ 250V/ 2VA 250 K log, mono 250 K log, mono 10 K lin, mono 250 K log, mono 50 K lin, mono 10 K lin, mono 1 M log, mono 25 K log, mono 250 K log, mono 50 K log, mono 1N4007 BC546B BC546B BC546B NE5532A NE5532A NE5532A NE5532A HCF 4053 HCF 4053 NE5532A 15u/ 450V ax TQ2/ 12Vdc ECC83/ 12AX7A 9pin/ pcb mount ¼ phone jack mono " ac inlet 210 mm steel sheet left + right plastic profile print: Hughes & Kettner hexagon, vz black 155 x 211 mm tristage tristage tristage K15 black part no. E 958 093 E 958 090 E 958 091 E 958 092 E 958 049 E 914 044 E 914 044 E 914 033 E 914 044 E 914 035 E 914 033 E 914 047 E 914 048 E 914 044 E 914 034 E 934 023 E 938 009 E 938 009 E 938 009 E 940 004 E 940 004 E 940 004 E 940 004 E 940 002 E 940 002 E 940 004 E 926 006 E 946 009 E 944 007 E 944 003 E 952 038 E 952 016 E 970 290 E 970 291 E 970 255 E 970 254 E 974 221 E 974 314 E 972 029 E 950 010 E 950 010 E 950 010 E 966 044 GD/ 08.11. 99 4 Bestellinformationen/ ordering informations Bestellinformationen und Ersatzteilbestellungen Deutschland: Music & Sales Leipziger Straße 3 D- 66606 St. Wendel Service Tel.: 06851/ 905 333 Fax: 06851/ 905 100 E-mail: [email protected] Technische Fragen Tel.:06851/ 905 330 E-mail: [email protected] Sparepart orders and technical questions for all other countries: contact your local distributor or Hughes & Kettner Leipzigerstr. 3 66606 St. Wendel Germany Tel.: +49 6851/905 210 Fax: +49 6851/905 200 Email: [email protected] GD/ 18.11. 99 5 Technische Daten/ technical data Tubeman II Eingänge/ inputs: | ||
File name Ibanez-AD80.pdf | ||
File name Ibanez-CD10.pdf | ||
File name Ibanez-CP10.pdf | ||
File name Ibanez-DS10.pdf | ||
File name Ibanez-FL301.pdf | ||
File name Ibanez-LS10.pdf | ||
File name Ibanez-OD855.pdf | ||
File name Ibanez-PC10.pdf | ||
File name Ibanez-PT909.pdf | ||
File name Ibanez-SC10.pdf | ||
File name Jt11p-GuitarSplitter.pdf | ||
File name Maestro-Echoplex.pdf | ||
File name Maestro-Octave.pdf | ||
File name MagnusDanielson-svf1.pdf R11 100k U4-B TL082 Notch Out R9 100k R10 100k GND U4-A TL082 Highpass Out R1 100k Signal Input 1 R2 100k Signal Input 2 R3 100k Signal Input 3 R4 100k Signal Input 3 R5 27k R6 100k C1 100n R7 100k U1 CA3140 P1a 100k LOG P1b 100k LOG C2 100n U2 CA3140 U3 CA3140 U5-B TL082 Lowpass Out GND GND U5-A TL082 Bandpass Out P2 100k GND R8 15k GND Title 2-pole State Variable Filter Date Editor(s) Page 2002-02-21 M. Danielson 1 of 1 | ||
File name Marshall-MG250dfxeffect.pdf | ||
File name Morley-Pobes.pdf | ||
File name Nobels-Ph-d.pdf 1 2 3 4 5 6 -C | ||
File name Oberheim-PS1PhaseShifter.pdf -15 +15 100K 10K 100K 10K 4.7K 1M 2N4302 10K IN 0.33uF 10K 10K 33K -15 4.7K 100k 100k 100k 7 3 0.01uF 100k 100k +15 8 100k 7 3 0.01uF 100k 100k 100k 100k +15 8 100k 7 +15 +15 +15 2N4302 1M 4.7K OUT 10K 4.7K 100k 100k 6 5 +15 8 2 6 5 2 6 5 2 3 + + 1 0.01uF 100k 4 -15 + + 1 0.01uF 4 -15 + + 1 0.01uF 100k 0.01uF 4 -15 1M 100k 100k 100k -15 10K +15 Oberheim PS-1 Phase Shifter +15 -15 100K 4.7K 1M 2 10K 220K 10K Medium Phase Fast Phase 3 150K 4.7K P1069C 1M 150K 10K 2N4302 1M +15 8 1 10K 0.33uF selected DC offset 6 5 + + 7 4 -15 33K -15 10K 33K FET Bias 10K +220uF 33K Osc. Ampl. + 4.7uF 10K -15 +15 10K 1N4002 (4X) All IC's are 1458 dual op amp. All bipolars are 2N3638A. 270 (Pin 8 +15 0f IC's) 1N965 Blk AC Switch, Power Ind, Fuse 115 VAC Blk Red Wht +470uF 25v +470uF 25v Grn 270 1N965 -15 (Pin 7 Of IC's) Adjustment procedure: 1. FET Bias: With Osc.Ampl. trimmer fully counterclockwise, adjust FET Bias so that audibile phasing sound is in the middle of its range. 2. Osc. Ampl.: Adjust for desired depth of phasing sound. 3. Output Offset: adjust for minimum "click" when Off/Slow Phase switch is operated. | ||
File name Paia-5750.pdf Name: Axe Grinder Manufacturer / Designer: PAiA Electronics Revision: 10/28/95 Model # 5750 S1 - Cancel Effect S2 - Full Intensity 5k Pot - Tone Control 500k Pot - Distortion Intensity 100k Pot (by tone) - Distortion Level 100k Pot (by IC2c) - Clean Level S2 is a switch integrated into the 500k pot, and is wired such that rotating the pot fully will allow you flip the switch and kick in the full intensity of the distortion. +9v +9v 10M 1 - 12 11 10 IC2a 500k +9v 100k S2 10k 15pf D2 D1, D2 - 1N914 or 1N4148 S1 The Axe Grinder has been designed with a couple of key fetures in mind, it not only allows a wide variety of distortion tones from the clipping part of the effect it also allows the user to overload thier amp with a greatly boosted clean tone. The distorted tone and the clean tone can be blended together for additional sound tailoring. Also the tone control only affects the distorted signal, and leaves the clean signal untouched. The "cancel" switch lets your guitar signal bypass the effect entirely. 11 7 IC1a 2 3 0.1uf 10k D1 8 - 1uf 10 + 10k All polarized caps 16v 10k 1uf 100k + + IC1b 9 + In 0.1uf 10M +4.5v 13 1 2 4k7 14 - 12 1k Out 5k 0.1uf 13 1uf + + 10k +4.5v 10k IC1d +9v 12k + IC2b + 1uf 1uf + 100pf +9v 10k + 0.1uf +4.5v 10k 220k 6 - +9v 5 3 IC1 - 4136 Quad Op-amp IC2 - 4066 Quad Switch IC2c 4 4 NC IC2d NC 9 8 7 6 14 10 10uf 10k + 5 + IC1c 10M 100k NC 10uf +4.5v NC | ||
File name Paia-Motionfilter.pdf Name: Motion Filter / Follower Manufacturer / Designer: PAiA Electronics Revision: 10/29/95 Model # 5720 Initial Frequency +V 100pf 1M + +V 500k 6 - 11 7 IC1a In 5 4 Sensitivity 0.1uf 500k 1 3M9 - + 1M + A 2N4124 1uf 1M 3 150 1uf D2 D1 + 2 + IC1b +Vr A 0.01uf 0.01uf 1uf 47k + 1uf +V 10k 10 1uf 8 - + 1M 10 10k 100k 14 - 100k 1M 9 + 12 IC1c 13 1 14 + +Vr 9v 100 500k Offset 1M + IC1d +Vr IC2 4 10 5 12 13 2 3 1k Out 1N4001 100uf +V +Vr 0.05uf 7 11 IC1 - 4136 Quad Op-amp S1 IC2 - 4066 Quad Switch D1, D2 - 1N4148 or 1N914 Connect pads marked "A" together. Offset is a trim pot that can be adjusted after roughly 15 minutes of "burn in" time. Adjust it until you hear no popping when pressing the Cancel switch S1. There is no need to play into effect during adjustment. Correct setting should be near the middle of the rotation. + | ||
File name Pearl-CH02chorus.pdf | ||
File name Pearl-CO04compres.pdf | ||
File name Pearl-FG01flanger.pdf | ||
File name Pearl-OD05overdriv.pdf | ||
File name Pearl-PH03phaser.pdf | ||
File name Poptronic-StereoCompressor.pdf ® NOV 30 1 997 Designed to lower the audio blasting that goes with TV-commercials, the unit also serves as a studio sound manipulator! Stereo Compressor BY JULES RYCKEBUSCH An Audio Compressor is an essential tool for audio processing and it is commonly found in recording studios. Most recording studios have a selection of compressors, each chosen for some specialized feature or nuance. Your home may not be a professional recording studio, but you do need our Stereo Compressor, so read on. As the device's name implies, the POPtronix Stereo Compressor Stereo Compressor compresses or limits the dynamic range of an audio signal. (Make sure you read the sidebar How Compressors Work.) In a recording studio, compressed audio prevents tape-recorder overload during loud passages without losing quiet passages in the noise floor (hiss). Before compressors were invented, the recording engineer would ride the gain by manually adjusting the signal level. www.poptronix.com 1 AUDIO IN VCA AUDIO OUT +V THRESHOLD RECTIFIER LOG CONVERTER SIDECHAIN RETURN Fig. 1. FUNCTIONAL BLOCK DIAGRAM of the Stereo Compressor. Sidechain portions of the diagram may be omitted from the unit's construction. RATIO SIDECHAIN SEND Compressor, you don't need to constantly ride the gain. It will automatically do that for you! When you patch the Stereo Compressor between your hi-fi VCR and your stereo sound svstem, you can enjoy listening to movies late at night in full fidelity, at low volume, without being blasted out of your chair when Rambo raids your living room. You can also use the unit to prevent tape (recording) overload while making home audio recordings. Compressors are commonly used to record vocalists and acoustic instruments, especially those that have large dynamic ranges. Compressed audio can also be used to create artificial effects while recording, such as increasing the apparent sustain of an instrument or completely squashing the level of a signal. We will learn how to accomplish these audio effects later. Compressors can also be abused. Have you ever wondered why TV commercials sound louder than regular TV programming? Well, the producer of the offending TV commercial has used a large amount of compression on the audio tracks and then boosts the gain tojust below distortion level. The end result is an apparent Increase in loudness to the listener. This works because modern TVs and home theaters have a large dynamic range for the audio signal. Film and TV producers take advantage of the dynamic range available to them by recording normal conversation and background sounds 6 to 12 dB below the maximum signal level. Then for dramatic effect, music and sound effects such as explosions can be that much louder than the dialogue track. This is very noticeable when watching a movie on a high-fidelity video tape recorder. In fact, for late-night viewing, when you are trying to be quiet, you have to turn the TV up just to hear the dialogue and then quickly turn | ||
File name PT80-Delay.pdf | ||
File name Roland-AG5Funnycat.pdf Roland AG-5 Funny Cat +9V +9V +9V Source +9V R1 220K SDS/ Normal Switch C5 0.01uF C4 680nF Tant + R7 220K R5 2.2K SDS Level B50K Normal C3 220nF Tant + Note polarity! C11 0.056 +9V C7 1uF + D2 1N4148 R23 12K A B C Mode Sw A B C D3 1N4148 + C9 1uF R14 220K R11 1.2K R15 22K R12 220K +9V Module B2 C10 0.01 R13 220K R16 22K R3 470K R4 22K R8 1K Balance B50K Effect SDS Norm R20 470K Q3 2SC1000 R21 2.2K C17 0.056 PP3 Vdc + +9V Module A C18 0.01 R19 6.8K Normal Output Jack Input Jack C1 0.033 R2 220K + + Rfba 470K C16 0.01 Harmonic Mover - Redrawn based on "moosapotamus's" tracing and schematic - Shaded resistors are inside opamp modules, value not presently known - Capacitors with "+" polarity indication are polarized - Capacitors marked "Tant" are tantalum - 22Jan03: corrected polarity of tantalum cap in "compressor" section Q1 2SK30A C2 - 1uF D1 1N4148 R22 100K R6 100K +9V Module B1 Peculiarities 1. Module A circuit looks like a compressor but isn't. The loop gain is so high that the gain reduction loop overconpensates, and because the filtering cap is so small, it cuts a core out of the positive going side of the signal. 2. Transistor Q3 is a switched buffer. It buffers the dry signal when in non-SDS mode and the SDS output when in SDS mode. The guitar signal is always loaded with at least the 110K of the first stage, and also the 470K of the Q3 stage. R9 47K + C6 1uF + + Rfbb 100K + Rfbc 100K C13 0.022 R18 6.8K C12 0.022 Q2 2SC828 C8 1uF R26 22K R25 47K R10 47K + C19 47uF R17 22K + C14 1uF R24 220K Drawing copyright 2003 R.G. Keen. All rights reserved. +9V +9V Source C15 100uF 16V +9V R1 220K 3 C1 0.033 R2 220K + 2 SDS/ Normal Switch 1 C4 680nF Tant + R7 220K SDS Level B50K Normal C3 220nF Tant + Note polarity! - Redrawn based on "moosapotamus's" tracing and schematic - IC opamps used instead of modules - Opamp follower used instead of 2SC1000 - Capacitors with "+" polarity indication are polarized - Capacitors marked "Tant" are tantalum R9 47K + C6 1uF + C11 0.056 +9V 3 8 1 +9V 100R C7 1uF D3 1N4148 R14 220K R11 1.2K R15 22K R12 220K 5 C10 0.01 R13 220K R16 22K R3 470K R4 22K R8 1K Balance B50K Effect C5 0.01uF SDS Norm R20 470K 5 C18 0.01 R19 470K 6 PP3 Vdc + +9V 8 + U1B - 7 C17 0.056 R21 2.2K C16 0.01 Normal Output Jack Input Jack + U1A -4 Rfba 470K R5 2.2K D1 1N4148 Harmonic Mover Updated Roland AG-5 Funny Cat Q1 2SK30A C2 - 1uF R22 100K R6 100K + U2A 2 -4 Rfbb 100K + Added to + C9 help ensure 1uF stability D2 for opamp 1N4148 R23 12K A B C Mode Sw A B C 6 U2B Rfbc 100K C13 0.022 R18 6.8K + - 7 C8 1uF R26 22K R25 47K R10 47K + C19 47uF R17 22K + C14 1uF C12 0.022 Q2 2SC828 R24 220K Drawing copyright 2003 R.G. Keen. All rights reserved. To Millenium Bypass for entire effect LED Output Jack +9V Source +9V PP3 Vdc +9V R1 220K 3 C1 0.033 R2 220K + 2 SDS/ Normal Switch 1 C4 680nF Tant + R7 220K SDS Level B50K Normal C3 220nF Tant + Note polarity! - Modified for LED status indicators - Includes | ||
File name Roland-ME30 multi efects.pdf Aug, 1997 ME-30 ME-30 GUITAR MULTIPLE EFFECTS TABLE OF CONTENTS Issued by RJA Page SPECIFICATIONS·············································································································2 LOCATION OF CONTROLS ································································································3 EXPLODED VIEW·············································································································5 PARTS LIST ····················································································································6 LOADING FACTORY PRESET DATA ·····················································································7 TEST MODE ·············································································································7 ~ 12 IC DATA ························································································································13 BLOCK DIAGRAM ···········································································································13 CIRCUIT DIAGRAM & BOARD ·····················································································14 ~ 19 PHRASE GUITAR AMP TRAINER SIMULATOR ON / OFF EDIT / ESC ON / OFF WRITE/COPY REC PEDAL BYPASS MANUAL TUNER CS RV 1 OD DS / REC 2 DLY 3 MOD Copyright c 1997 by ROLAND CORPORATION All rights reserved. No part of this publication may be reproduced in any form without the written permission of ROLAND CORPORATION. 17059901 Printed in Japan AE00 (CR) 1 ME-30 Aug, 1997 SPECIFICATIONS AD Conversion ·················································· : DA Conversion ·················································· : Sampling Frequency ··········································· : Patches ···························································· : Effects ····························································· : Method 20-bit ADC Method 18-bit DAC 44.1kHz 30(User)+30(Preset)+Manual Settings | ||
File name ScreamerPlus.pdf | ||
File name Sequential-ProOne.pdf | ||
File name Vox-SuppaToneBender.pdf | ||
File name Vox-V829ToneBender.pdf | ||
File name Yamaha-DGStomp guitar preamp.pdf DG-Stomp GUITAR PRE-AMPLIFIER WITH EFFECTS SERVICE MANUAL CONTENTS SPECIFICATIONS ... 3/4 PANEL LAYOUT ... 5 BLOCK DIAGRAM ... 8 CIRCUIT BOARD LAYOUT ... 10 WIRING ... 11 DISASSEMBLY PROCEDURE ... 12 LSI PIN DESCRIPTION ... 15 IC BLOCK DIAGRAM ... 18 CIRCUIT BOARDS ... 20 TEST PROGRAM ... 28 ERROR MESSAGES ... 31 MIDI IMPLEMENTATION CHART ... 32 PARTS LIST OVERALL CIRCUIT DIAGRAM This document is printed on chlorine free (ECF) paper with soy ink. GA 011537 20001001-39800 1.57K-786 I.T HAMAMATSU, JAPAN Printed in Japan 2000.09 1 DG-Stomp IMPOR TANT 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. This 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 principal-agent relationship of any form. IMPORTANT : The data provided is belived 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 : IMPORTANT : Static discharges can destroy expensive components. Discharge any static electricity your body may have accumulated by grounding yourself to the ground bus in the unit (heavy gauge black wires connect to this bus.) Turn the unit OFF during disassembly and parts replacement. Recheck all work before you apply power to the unit. LITHIUM BATTERY HANDLING This product uses a lithium battery for memory back-up. WARNING : Lithium batteries are dangerous because they can be exploded by improper handling. Observe the following precautions when handling or replacing lithium batteries. Leave lithium battery replacement to qualified service p |
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