ユーザーズガイド YAMAHA SPX900 戵־ (摜F[^)

[. . . ] FB. GAIN OUT R DELAY DELAY DELAY ■ 38 ■ ■ No 46 47 ■ No. 46 47 39 OUT L IN L DELAY L R L FB. G L FB. G R MIX BAL. DELAY L DELAY L DELAY R OUT R R R L HPF LPF R L R IN R DELAY R ■ ■ 40 ■ No 49 ■ No 49 IN HPF LPF DELAY with Modulation FB. GAIN OUT L MIX BAL. OUT R ■ 41 ■ ■ No 66 68 ■ No. [. . . ] DLY ■ No 9 10 13 50 AM DEPTH MOD. DLY ■ ■ ■ No 63 67 51 ■ No 63 67 No 63 67 ■ ■ ■ No 61 52 ■ No 61 ■ ■ ■ No 70 ■ No 70 53 ■ No 11 12 14 ■ No 15 54 ■ ■ ■ No. 72 ■ No. 72 55 ■ No 25 ■ ■ 56 ■ No 75 ■ No 75 ■ ■ ■ No 74 ■ No 74 57 ■ ■ ■ No 78 ■ No 78 58 ■ ■ ■ No 76 ■ No 76 59 ■ ■ ■ No 77 ■ No 77 60 ■ ■ 61 ■ No 58 ■ No 58 ■ ■ 62 ■ No 52 53 54 55 56 57 59 60 65 No 52 53 54 55 56 57 59 60 65 ■ No 52 53 54 55 56 57 59 60 65 63 ■ ■ No 19 22 64 ■ No 20 ■ No 21 65 ■ 66 ■ ■ No 84 85 ■ No 84 85 67 ■ ■ 68 ■ No 64 86 No 64 86 ■ No 64 86 ■ 69 ■ ■ No 14 87 ■ No 14 87 70 ■ ■ ■ No 62 88 71 ■ No 62 88 ■ ■ 72 ■ No 89 ■ No 89 ■ 73 ■ ■ No 90 91 92 93 No 90 91 92 93 ■ No 90 91 92 93 No 90 91 92 93 74 ■ ■ 75 ■ No 94 95 96 ■ No 94 95 96 No 94 95 96 76 ■ G G G G ■ 77 ■ No 97 ■ No 97 ■ G G G ■ No 23 78 ■ G G G ■ No 24 79 G G G G G 80 G G ■ ■ ■ ■ ■ 81 ■ ■ ■ No 80 ■ No 80 82 IN L OUT L IN R LIMITER COMPRESSOR EXPANDER MIX BAL. LEVEL same as LOW BAND MID same as LOW BAND HIGH MIX CEIL ING OUT R LOW LOOK UP ■ ∞ 83 ■ ■ No 79 81 No. 79 81 ■ No 79 81 No 79 81 84 LPF IN OVER DRIVE HPF ROTOR SIMULATOR LEVEL HORN SIMULATOR MIX BAL. OUT L OUT R ■ ■ ■ No 71 ■ No 71 85 IN OUT L DISTORTION TONE GATE MIX BAL. OUT R ■ ■ ■ No 82 ■ No 82 86 BASS IN DISTORTION MIDDLE TREBLE PRE AMP SIMULATOR GATE SPEAKER CABINET SIMULATOR OUT L MIX BAL. OUT R ■ ■ ■ No 83 ■ No 83 87 1 T U S T U 2 3 4 T U 5 S U T U T U S 88 8n NOTE OFF 9n NOTE ON Bn CONTROL CHANGE Cn PROGRAM CHANGE rx rx rx rx STATUS DATA 1000nnnn 0nnnnnnn 0vvvvvvv 8n nn vv Note off message Note number Velocity (ignored) F8 TIMING CLOCK FE ACTIVE SENSING FF RESET rx rx rx ■ F0 43 0n 7E . . . F7 BULK DUMP REQUEST rx/tx rx S E P rx/tx rx/tx rx/tx ■ F0 43 1n 1E 09 . . . F7 PARAMETER REQUEST STATUS DATA 1001nnnn 0nnnnnnn 0vvvvvvv 9n nn vv Note on message Note number Velocity (1-127:on, 0:off) rx/tx rx 1 (01) 3 (03) 4 (04) 16 (10) 17 (11) 18 (12) 20 (14) 33 (21) rx/tx rx/tx rx/tx rx/tx rx/tx rx rx/tx rx/tx STATUS DATA 1011nnnn 000nnnnn 0vvvvvvv Bn nn vv Control change Control number (1-31) Control Value (0-127) 89 STATUS DATA STATUS DATA 1011nnnn 00000000 00000000 1011nnnn 00100000 000000vv 1100nnnn 0vvvvvvv Bn 00 00 Bn 20 vv Cn vv Control change Bank Select MSB Control change Bank Select LSB STATUS DATA Program change ■ STATUS DATA 1100nnnn 0nnnnnnn Cn nn Program change Program number (0-127) STATUS ID No. COUNT HIGH COUNT LOW 11110000 01000011 0000nnnn 01111110 0ccccccc 0ccccccc 01001100 01001101 00100000 00100000 00111000 01000100 00110001 00110001 01010011 00000010 00000000 0ttttttt 0bbbbbbb F0 43 0n 7E ch cl 4C 4D 20 20 38 44 31 31 53 02 00 tt bb ds : de ee F7 System exclusive message Manufacture’s ID number (YAMAHA) n=0-15 (Device number=Device No-1) Universal bulk dump data count = ch * 128 + cl ‘L’ ‘M’ ‘ ’ ‘ ’ ‘8’ ‘D’ ‘1’ ‘1’ ‘S’ No. 256 = Current total block number(minimum number is 0) current block number(0-total block number) Setup data of block[bb] STATUS 11111000 F8 Timing clock DATA NAME BLOCK INFO. DATA STATUS 11111110 FE Active sensing CHECK SUM EOX 0ddddddd : 0ddddddd 0eeeeeee 11110111 ee=(Invert(‘L’+ c+de)+1)&0x7F End of exclusive ■ STATUS 11111111 FF System reset STATUS ID No. SUB STATUS 11110000 01000011 0010nnnn 01111110 01001100 01001101 00100000 00100000 00111000 01000100 00110001 00110001 01010011 00000010 00000000 11110111 F0 43 2n 7E 4C 4D 20 20 38 44 31 31 53 02 00 F7 System exclusive message Manufacture’s ID number (YAMAHA) n=0-15 (Device number=Device No-1) Universal bulk dump ’L’ ‘M’ ‘ ’ ‘ ’ ‘8’ ‘D’ ‘1’ ‘1’ ‘S’ No. 256 = Current End of exclusive ■ FORMAT No. DATA NAME EOX 90 ■ STATUS ID No. COUNT HIGH COUNT LOW 11110000 01000011 0000nnnn 01111110 00000000 01110010 01001100 01001101 00100000 00100000 00111000 01000100 00110001 00110001 01000101 0mmmmmmm 0mmmmmmm 0ttttttt 0bbbbbbb DATA NAME BLOCK INFO. DATA 0ddddddd : 0ddddddd 0eeeeeee 11110111 CHECK SUM EOX F0 System exclusive message 43 Manufacture’s ID number (YAMAHA) 0n n=0-15 (Device number=Device No-1) 7E Universal bulk dump 00 data count = ch(0x00) * 128 + cl(0x72) = 114 72 4C ‘L’ 4D ‘M’ 20 ‘ ’ 20 ‘ ’ 38 ‘8’ 44 ‘D’ 31 ‘1’ 31 ‘1’ 45 ‘E’ mh 0-220(Program no. P1-97, C125, U1-99), 256(EDIT BUFFER) ml tt total block number(minimum number is 0) bb current block number(0-total block number) ds Effect Program data of block[bb] : de ee ee=(Invert(‘L’+. . . de) +1)&0x7F F7 End of exclusive DATA NAME BLOCK INFO. 00100000 00111000 01000100 00110001 00110001 01010000 00000010 00000000 0ttttttt 0bbbbbbb 20 38 44 31 31 50 02 00 tt bb ds : de ee F7 ‘ ’ ‘8’ ‘D’ ‘1’ ‘1’ ‘P’ No. 256 = Current total block number (minimum number is 0) current block number (0 - total block number) Program change table data of block[bb] DATA 0ddddddd : 0ddddddd 0eeeeeee 11110111 CHECK SUM EOX ee=(Invert (‘L’+. . . +de)+1) &0x7F End of exclusive ■ STATUS ID No. SUB STATUS FORMAT No. 11110000 01000011 0010nnnn 01111110 01001100 01001101 00100000 00100000 00111000 01000100 00110001 00110001 01010000 00000010 00000000 11110111 F0 43 2n 7E 4C 4D 20 20 38 44 31 31 50 02 00 F7 DATA NAME 0:PRESET1 – 96:PRESET97 97:CLASSIC1 – 121:CLASSIC25 122:USER1 – 220:USER99 256:EDIT BUFFER System exclusive message Manufacture’s ID number (YAMAHA) n=0-15 (Device number=Device No-1) Universal bulk dump ‘L’ ‘M’ ‘ ’ ‘ ’ ‘8’ ‘D’ ‘1’ ‘1’ ‘P’ No. 256 = Current End of exclusive EOX ■ ■ STATUS ID No. Nominal: 0 dB Nominal: 0 dB Actual Load Impedance 10 k Ω For Use With Nominal Input Level Sensitivity -6 dBu (0. 388 V) -20 dBu (0. 0775 V) Nominal — — Input Level Sensitivity — — Nominal +4 dBu (1. 23V) -10 dBu (0. 245V) Max. before clip + 24 dBu (12. 28 V) +10 dBu (2. 45 V) Connector XLR-3-31 type (Balanced) Phone jack (TRS: Balanced) Max. before clip +14 dBu (3. 88 V) 0 dBu (0. 775 V) Connector XLR-3-31 type (Balanced) Phone jack (TRS: Balanced) +4 dBu INPUT L, R -10 dBu 600 Ω Lines Input Terminals Level SW Actual Load Impedance 10 k Ω For Use With Nominal +4 dBu INPUT L, R -10 dBu 600 Ω Lines Output Terminals Actual Source Impedance 75 Ω For Use With Nominal Output Level Level SW Nominal +4 dBu (1. 23V) -10 dBu (0. 245V) Max. before clip +24 dBu (12. 28V) +10 dBu (2. 45V) Connector +4 dBu OUTPUT L, R 600 Ω Lines -10 dBu XLR-3-32 type (Balanced) Phone jack (TRS: Balanced) Input Terminals AES/EBU IN Format AES/EBU Data Length 24-bit Level RS422 Connector XLR-3-31 type (Balanced) Output Terminals AES/EBU OUT Format AES/EBU Professional use Data Length 24-bit Level RS422 Connector XLR-3-32 type (Balanced) Terminals USB MIDI WORD CLOCK TO HOST IN OUT/THRU IN Format USB 1. 1 MIDI MIDI — Level 0 to 3. 3 V — — TTL/75 Ω Connector B type USB Connector DIN Connector 5P DIN Connector 5P BNC Connector 100 Input INPUT L, R Output OUTPUT L, R RL 600 Ω Conditions — Min -3. 0 Typ 0. 0 Max +1. 0 Units dB Input INPUT L, R Output OUTPUT L, R RL 600 Ω Conditions INPUT LEVEL SW: +4, OUTPUT LEVEL SW: +4 INPUT LEVEL SW: -10, OUTPUT LEVEL SW: -10 Min +2. 0 -12. 0 Typ +4. 0 -10. 0 Max +6. 0 -8. 0 Units dBu dBu Input Output RL Conditions Fs=48 kHz: +14 dBu @20 Hz-20 kHz, INPUT LEVEL SW: +4, OUTPUT LEVEL SW: +4 Fs=96 kHz: +14 dBu @20 Hz-40 kHz, INPUT LEVEL SW: +4, OUTPUT LEVEL SW: +4 Min Typ Max 0. 05 Units % INPUT L, R OUTPUT L, R 600Ω 0. 05 % Input INPUT L, R Output OUTPUT L, R RL 600 Ω Conditions Rs=600 Ω, INPUT LEVEL VR: nominal INPUT LEVEL SW: +4 /OUTPUT LEVEL SW: +4 Min Typ Max -80 Units dBu Input INPUT L, R Output OUTPUT L, R RL 600 Ω Conditions AD + DA, INPUT LEVEL VR: max Min Typ 106 Max Units dB From/To INPUT L, R To/From OUTPUT L, R Conditions INPUT to OUTPUT Min Typ Max -80 Units dB Input INPUT L, R Output OUTPUT L, R RL 600 Ω Conditions Rs=600 Ω, INPUT LEVEL VR: max INPUT LEVEL SW: +4 /OUTPUT LEVEL SW: +4 Min Typ +10 Max Units dB 101 PARAMETER Sampling Frequency Frequency Range Normal Rate Double Rate CONDITIONS MIN 39. 69 79. 38 TYP MAX 50. 88 101. 76 10 10 UNITS kHz kHz ns ns ns ns ns ns kHz kHz kHz kHz DIGITAL IN Fs=44. 1 kHz, Jitter External Clock Jitter of PLL DIGITAL IN Fs=48 kHz, Jitter DIGITAL IN Fs=88. 2 kHz, Jitter DIGITAL IN Fs=96 kHz, Jitter word clock : int 44. 1 kHz Frequency word clock : int 48 kHz word clock : int 88. 2 kHz word clock : int 96 kHz word clock : int 44. 1 kHz Internal Clock accuracy word clock : int 48 kHz word clock : int 88. 2 kHz word clock : int 96 kHz word clock : int 44. 1 kHz jitter word clock : int 48 kHz word clock : int 88. 2 kHz word clock : int 96 kHz Signal Delay 2ns 2ns 2ns 2ns 2ns 2ns 44. 1 48 88. 2 96 DIGITAL IN Fs=39. 69-50. 88 kHz, Jitter 20 10 10 20 DIGITAL IN Fs=79. 38-101. 76 kHz, Jitter 50 50 50 50 5 5 5 5 426 ppm ppm ppm ppm ns ns ns ns µs INPUT to OUTPUT(@Delay time=0. 0 ms / Fs=96 kHz) 102 INPUT OUTPUT METER METER OUTPUT L AD DA INPUT L +4dBu -10dBu +4dBu -10dBu INPUT LEVEL OUTPUT R SEL AD EFFECT DA INPUT R +4dBu -10dBu +4dBu -10dBu AES/EBU IN AES/EBU OUT 350 11. 8 8 372. 5 352. 7 250 50 480 1 45 44 103 104 105 106 YAMAHA [PROFESSIONAL MULTI-EFFECT PROCESSOR] Model: SPX900 Function. . . Basic Channel Default Changed Default Messages Altered True Voice Note On Note Off Key’s Ch’s Date: 12 MAY 2003 Version: 1. 0 Remarks Memorized MIDI Implementation Chart Transmitted X X X X ************** X ************** X X X X X Recognized 1–16 1–16 OMNI OFF/OMNI ON X X 0–127*1 X O 9nH, v=1-127*1 X X X X Memorized Mode Note Number Velocity *4 *4 After Pitch Bend Control Change 0-32 X O*1 0:Bank Select MSB 1-30:*4 31:Mix Balance 32:Bank Select LSB Program Change :True# X ************** O*2 X X X X X X X X X X X *1 *2 *3 *4 O 0–127*1 Assignable Program Change Table *3 System Exclusive :Song Pos. :Tune :Clock :Commands :All Sound Off :Reset All Cntrls :Local ON/OFF :All Notes OFF :Active Sense :Reset O*2 X X X O X X X X X O O Common System Real Time *4 Aux Messages Notes receive if switch is on. transmit/receive if exclusive switch is on. Bulk Dump/Request, Parameter Change/Request Effect Control(Depend On Program) O: Yes X: No Mode 1: OMNI ON, POLY Mode 3: OMNI OFF, POLY Mode 2: OMNI ON, MONO Mode 4: OMNI OFF, MONO UL A Explanation of Graphical Symbols CAUT I O N RISK OF ELECTRIC SHOCK DO NOT OPEN The lightning flash with arrowhead symbol within an equilateral triangle is intended to alert the user to the presence of uninsulated “dangerous voltage” within the product’s enclosure that may be of sufficient magnitude to constitute a risk of electric shock to persons. The exclamation point within an equilateral triangle is intended to alert the user to the presence of important operating and maintenance (servicing) instructions in the literature accompanying the product. CAUTION: TO REDUCE THE RISK OF ELECTRIC SHOCK, DO NOT REMOVE COVER (OR BACK). REFER SERVICING TO QUALIFIED SERVICE PERSONNEL. IMPORTANT SAFETY INSTRUCTIONS 1 2 3 4 5 6 7 Read these instructions. Install in accordance with the manufacturer’s instructions. [. . . ] A grounding type plug has two blades and a third grounding prong. The wide blade or the third prong are provided for your safety. If the provided plug does not fit into your outlet, consult an electrician for replacement of the obsolete outlet. 10 Protect the power cord from being walked on or pinched particularly at plugs, convenience receptacles, and the point where they exit from the apparatus. [. . . ]