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SERVICE MANUAL - Pdfstream.manualsonline.com

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2. 28CC1 8813232 A ee etre Y n C x 510 7 IC3 TD62381P LOIS R1100 10 00121 1 1 P2 100 L 1 TEE EE 0013 40151 i 100 1141 po sna1 D39 SW39 D 5D 1 im 2 C10 0 O1u lt A I 19 0 4 BL C3 220 10 Jolel 51 us 5 a DGND 547 _ 5 4
3. 12 50 D Ree 1 AVCC 5D 50 C113 289 IC22 IC22 7 1 74 14 tu R27 2 1 4 3 IC23 2 6 Kj NMASSEAMT uti Footsw lt 53 o SV 50 77 6 Ue n sus sw lt DGND 20 PH P n TC74HC44AF TC74HC 14AF ENE EMG oF 0 055306 5 to JK CN5 220 2 IC22 IC22 Dix 93 3620 152 77 10 055306 DG 3 TC74HC14AF TC74HC14AF 1 AVSS ole 0 4 R29 8 AVCC 1 0 WSS 5 i 4 MCPU_TXDO o 079 505 15 220 2 5V 2 0 5 3 poi L_KNOB1 o _ 0 i to JK CN7 w INVERTER B2 4 L_KNOBI 1 KNOBI1 5 FC 2 15 an MIDI_IHAUSV 5p DGND
4. EE lel zl pun d 2 406 m H 1 wen S 9 255 Yo E n 5 I T gt e m 5 oF 2 E 5 Z T a A S alla C 2 mS 00 2 2255 C103 xm n TIT VB 2 Hi mum Cl Pattern side Battery VN103500 VN103600 Battery holder for VN103500 Notice for back up battery removal Haltery Push the battery as shows in figure then the battery wil
5. C210 0 10 12V 5D 7 50 to DM1 3 G12 MCPUDLO 31 TC74VHCT245 to DM2 3 5 MCPUDLO 7 MCPUDL 1 5 1 0 41 2 abs MCPUD 2 SM 1 0l2 HI 2 9 MCPUD 3 SM 1 0 3 wy 26 2541162 4 Sw 1 0l4 Ei 5 SM 1 015 ENTE C ely LPF MCPUDI6 5 1 0 61 4 R230 aes 278 MCPUD 7 5 1 017 JY 5 1 018 1073 ri B 4 i TC74VHCOO 12v TOIWS2FU l to DM2 3 WLAN_AESET mi gt 5 DGND B 5 PET Pio 3 3D_M 77 NAND OT 8 DGND HLW268 2C7 m 0 400 s R261 ja ms 2 15 40K vsm uec 2 1 TP10 C251 BUT SMART MINS RB501V 40 10416 R195 3 3D_M 3 3D_SM Kl 9 N SM CLE G 3 3D SM 1 m E VSM DGND 1085 lt lt SMART _VPRT DAC TC74VHC32F vhs DGND 1061 3 3 5 1 015 8 1 015 806320065 to DM1 3 812 vcPURD_ SM I O 8 TC74VHC32F 1055 SM WP G 5 1 014 to DM1 3 19 SMIO CS vu i ALS 5 a 2 5 SM CE G 5 1 0 3 UE Sw I 0l8 5 2 to SM CN1 PTS OR 5 1 012 to PNA CN1 Los 777 BUS BUFFER sm 1 011 SM VSE SM WP A277
6. CS6X
7. 50 C494 100 10 C160 0 10 4 C192 Ju 1 47 1043 eMM1180ZTT XP713A00 eNJM78LO5UA XJ598A00 ePC2933T XS516A00 eNJM79LO5UA XNO86A00 MSM5 118160D 60U 4 ke REGULATOR 3 3V REGULATOR 5V REGULATOR 3 3V REGULATOR 5V SWPMHMA 16 1 5 vss42 2 ESA SWEMHMDLOIT _ 2 504 151 SWEMNEMATTO 3415 D15 A 1 5 SWPMHMDI 15 SWeMHMDI1 _ 3 002 bo rS lo SwPM ND 141 SWPMHMA 14 414 D7 SWEMEMD zl SwPwHMDI2T Bap SWPMHMDI 13 SWEMEMAT 13 5413 SWwEMHNDI 14 131 gon SWeMAMOT 12 12 06 SWEMHMD 6 5 106 ue 11 214 piak SWPMHMD 13 50 SWPMHMD 4 208 pools SWeMHMo 111 SWPMHMA 10 05 SHPMHMDIST 15 al 0411 Es 110 s pif SWEMAMD 28 055306 6 SWeMHMOTS 121577 04 SWPMHMD LA 1 vin S OUTPUT 1 TN 1 t OND 11 38 2 i 100 10 8 TST m ved 23 2 GND 2 COMMON 3 2 GND 2 2 INPUT CN18 N 11 32 NC 3 V out 3 INPUT 3 V out 3 OUTPUT HIF3FC26PA 2 5 NO 33 NC11 SWPMHMA 20 13 26 Bs MLAN SYW R500 2 95020 ISWeM_MWEN NC12 LCAS SWPMHMA 18 14 55 SWPMHMDI 11 0 8541 13 68 SWPMMCASN
8. LCD 14P 2P CNI C 02 3 15P 15 CNI 9 CS6X le Location Connector Assembly Remarks pum M D DM PS 11P L800 OVERALL 800 2 DM KSA 12P L600 OVERALL 410 3 DM KSB 13P L500 OVERALL 420 2 KRD KRD 15P L400 OVERALL 430 5 WHEEL 5P L100 WHEEL 80 6 KRD KRD 10 550 PANEL 200 KRD KRD 16P L750 PANEL 210 KRD KRD 9P L200 OVERALL 440 9 DM RIB 4P L350 OVERALL 450 DM KSA 3P L300 OVERALL 460 12 DM LCD 14P L300 03 DM LCD 2P L500 KRD KRD 8P L400 PANEL 220 2 19 DM PLUG 15P L250 OVERALL 470 2 19 DM PLUG IN2 15P L350 OVERALL 470 2 KRD KRD 7P L450 PANEL 230 19 DM mLAN 26P OPTION DM MVR 4P L100 S PANEL 240 20 KRD KRD 5P L300 OVERALL 490 DM JK 4P L200 S OVERALL 500 22 DM SM 26P LA30 PANEL 250 Q3 JK MVR 5P L300 PANEL 260 1 JK PS 5P L850 OVERALL 800 03 KRD KRD 5P L400 PANEL 270 KRD KRD 3P L200 PANEL 280 67 DS KP 8 5001
9. 32 Keyboard Assembly Remove the bottom assembly See Procedure 1 Remove the four 4 screws marked 72 The keyboard Assembly can then be removed Fig 2 Fig 3 52 42 CS6X CS6X 10 W LSI PIN DESCRIPTION e HD64F7045F28 XW419A00 CPU FUNCTION NAME FUNCTION A10 A11 A12 A13 A14 A15 A16 VCC26 A17 VSS28 PA20 PA19 PB2 PB3 18 PB4 VSS35 5 18 19 20 VCC40 A21 VSS42 RD 031 030 WRL CS1 CS0 PA9 8 53 52 VSS55 D29 D28 D27 D26 D25 VSS61 D24 VCC63 D23 D22 D21 D20 D19 D18 D17 VSS71 D16 0 0000 0 00 OOOOO 6 HH write LCD data 6 input output MLAN insert detect LCD data 7 input output Ground Address bus Power supply Address bus Ground Address bus Power supply Address bus Ground Encoder 2A input Encoder 2B input Row address strobe Column address strobe low Host off line detect input Column address strobe high Ground DRAM read write Address bus Power supply Address bus Ground Read Not used Data bus High write Low write Chip Select 1 Chip Select 0 MLAN MIDI interrupt request Interrupt request Chip select 3 Chip select 2 Ground Data bus Ground Data bus Power supply Data bus Ground Data bus D15
10. CNIS 0000060000000 002000000206 6 PULGIN zh o Ss y min nin niin K us HE CN19 to 1 CN20 to JK CN2 ET CN21 to JK CN4 JII IIIIIIIIOI 6146 to RV CN10 Js Els mij iai RAIS 8 19 CN7 to PNA CN3 8 22 11 Ed inimi 3 d mm B n II TI 19 a WE RA22RA2IRA20 RAIS RA A 111111 DU mimm WE 1019 71028 003 a id mt CN102 to A to LCD 2P to LCD CN1 04 ENCODER 8 o PN I CN14 CN17 to RV CN11 PNA CN4 00 to LC 12 CN2 CN11 to LC CN3 to PS CN3 CN4 to JK CN5 E ynin DU to LC WHEEL eo to KS CN1 to RIB CN14 to WHEEL 5P to JK CN7 Component side Note See parts list for details of circuit board component parts CS6X so 7 13 Say 5 i Ve Ieee ii E yer minimi 5 781
11. CS6X BLOCK DIAGRAM p gt u m hmm Sound Control s PANEL SCANING 1 MN101c027YB Smart Media n Load Save LH DISPLAY LCD 40X2 LED BackLight 8 PLUG IN mart 2 RES Media VF 1 IC CPU 10 CPU CONTROL IF CONTROL RES gt 5104 RES CLK28MHz OPTION RESET CONTROL Battery Back UP Knob 1 Knob 2 PROGRAM ROM PROGRAM ROM Knob 3 16Mbit 16Mbit SRAM SRAM DRAM 16bitDBUS 16bitDBUS IMbit 11000 4Mbit Knob 4 FLASH FLASH SbitDBUS 8bitDBUS 16bitDBUS Knob 5 CPU CONTROL RES CPU 1061 4 pD63200 OUTPUT Master 060 L MONO CLK33MHz D A 1 AudioClip memory WAVE 8MByte DDEI LINE 16bit DRAM 64Mbit ub DE OUTPUT R 1660 DBUS 1600 DBUS 1 FOOT HPAMP WITCH SWITC IC47 1638 1 pD63200 ir IC63 6 D A mon 2 9 gt 15 INDIVIDUAL 1 OUTPUT 1 Pitch Bend 64 Modulation INDIVIDUAL 2 seei 1 AudioClip memory WAVE 8MByte LC keyboard 16bit DRAM 64Mbit 1 16bit DBUS I A D INPUT Keyboard Keyboar 1048 1045 MIC LINE 2 1 POWER SW ____ __________ Switching Power Supply 5D 12A 12A 28 1 8813234 WIRING
12. 710 UPC4570C soe Ke e 225 L3 211 L17 56 6 fy 272 m 2 i SIGNSBO 218 118 mn 209 0 1 de 20U 4 OUTPUT To aoe Q155 125 PLSP sk pi ol L MONO i 100 H HOST SIGNS99 1 214 L19 2009 9 Roi 22K 20U 5 olf Lay GAS 10K 46 5719 SIGN6OB 15 2 1K w ua p od BONDS do TFS FFS TRS T 185 216 Led 25 2878 si J op e iE G2 20U iK Foot Switch 9 5 5 Ec 7 de SALI 1 362 10 mix n 37 0g 27 100K 1 5 ugo 31 08 J7 T FG DGND em 1 FG 867 27 1 114 ane 200 T JK3 C H eee JK 14 5 6 Bg i w m R27 OLB TOTE output 0 9 1 m SUSTAIN 46 ree 128 n9 is t OPAMP 3x w 88 53 i L i 19 olx alza gex ior ays BLTS 3 124 m 5 pz PS UE i zo SMR TRG 209 ceo 2SC2878 s 5D 122 2 5 11121 z ml 1 ELE I34 884 1 1 H SELECT SWITCH cs I yes s ni 4 Ix4 MIDI 2 i O tu JK12 220 20U
13. CNS A D INPUT 2 PANE BP 5 N 4 1 mots TFS Ue 2 DGND PH15P ASA 3 n enu 100 42 445 esce za o3 PHONES 1 LS uj 1 7 I 2 gt OPAMP 2 OPAMP gt 1 O 21 L11 20U MIDI THRUSV 2 200 00 09 qo MIDI 22 i 05200 5 Dos AGNO m 1 O P MIDI THRU 3 _ Lu 15 100P 2012 5 THRU Sa 23 L12 200 DI_OUTSV 2 Terminado OLN ES R91 9 DI_OUT 5 155 10K 9 16 Fa MIDIJA P A D 0226 Pan 100 6 ni GAIN 4 NUM4556A0 FF 01 5 7 gt ND mo 94 8 5 190 16 816 24 LA3 to DM CN4 z 9 n ANJKCHK to DM w TS w sa MIDI 29 LTR_OUT 8 JK7 25 lt 4 7K DGA 10K 200 m FG CN21 di Sus OUT 26 114 207 LTR_IN 10 55 o 5 350 a LTR INT 14 2 425 7 Sa ADGAINCO 17 p a 6 TR4 FZ LTR OUT1 E A D INPUT pot of A ee OPAMP 10k sscaa7e FEL TOHOST_AX01 4 LINE dv al 6 OPTS 2 27 L15 209 ICPU_CLK 1M 14 toy L f MIDI L16 20U 19 78 10 L10 IN Terminal 799 23 20U al 15420 9 OS DGND Loop 5 89 CU ab 5 139975 1 50 DE FG 1 l DES
14. DGND gt 3 2 x D 2 Z gt x z z 2 Z gt lt Z gt gt gt Z D L gt gt L ee eee eee i Z H SWPMRWEN 2SA1162 8249 FPI o E o K u poca M RI B d d 58458 4934 11331329 SWEMBRASN 9999 4 SWPMARASN zs to DM1 3 06 ADJKCHK lt SWPMRA 8 alb 2SC27 12 170 99 C451 0 14 SWPMRA LO 7 2425 1 E to DM1 3 17 ADGAINC pus gi 3 sis N SWPMBALLI PMRA 5 EINE M x mix N N SWPMRA 2 Sw 5 1K D54 DGND d 68 8 8 a a yf 0 3 4 01 5 200215 02 9 b 212215 cj _ 21 s 212 222122 gt gt gt gt gt gt gt gt z T 1 71 gt gt gt 0 212 1 DGND gt TOA NUM7BLOSUA 22 22 12 12 ov da di l a DGND REGURATOR 5V 5 00 a DRAM AM DGND 3 AGND 502122120 0 us mule Z DRAM 4M n d EEG 620 SWPMRDIS 17 5 Q O 00 gt gt gt gt gt gt gt gt 0 ma 2222 5 a 68 SWPMRCASN SWPMPRASN SWPM
15. 23 3 Sala SWEMLMA 22 DEND n al 8 TON 5555555 SWEMLMAT231 T 0 Neg a xum n 2808 0408 3 3D_M 05 5 2 3 3 1 ES 2 1 5 DGND PERM S span o 7 7 min Mp MATT MAN E NS x Vla Sla lt Div 50 X o cl 2 EE NS KE gu 0 m xm xm x lt n SISND 2 2 2 Of m 09 B tm 8 0 or DGND 29 95055988 5199 399 239 99359 9333 a Z Z 0 Z O O Hi Hi D x D x v O O 0 s 0009 O SONO 01 0 u 0 O O 0 FS I 0 U O O ID N 0 0 O OI QD NU ESI gt R 5 s D 2 tutu fu e cu lt lt lt lt lt lt lt lt lt lt D D 2 0 i lt H H OXA JIJINI G O O gt t lt lt lt lt lt lt lt lt lt lt lt gt gt gt gt gt gt gt gt gt lt gt gt 0 Z Qoo Qavrtotu 61 2 gt gt gt gt gt gt gt gt gt gt gt gt gt 1 3 1 3 1 1 10 2 2 2 2 gt 110 lt sed il ip uoo 0 ot gt NS ES EDU CI U
16. zs L KNOBIO L_KNOB 3 25 5 5 L KNOBI21 MCPUAN S 3v 904 PKSBI 2 C63 476 3 PKSP5 05 1 PKSBI6 Y 7 2 4 50 HOST_OFFL MCEUANT 111 42 i 1 MCPUANI3 4 ha KNOB 10 BC ajay lt 7 14 T s Be P set7 PKSBI 4 15575 DGND DGND Y COM 4X Y COM 2 KNOBISI MCPUANTE I m 4 PKSB 3 C64 1 5 PKS_IRQ 46555 P17 5 RE FC 2 MCPUANIO MW 45 x comps _MCPUAN Le 13 Say ox t2 EROS 993 5 PKSB 4 C65 7 W B 17557 5535 5 a Tama 1237 IC20 IC20 1 1 42 KNOBI 1 11 5 3 ax RB We KNOB 7 Lo 4 PKS Sl7 PKSBIG 5 6 9 F 1Y OX 1 Ox 1K AT PKSBI5 C66 2101 1 Pao 0 7 14 TC74HC14A EV PB 3 Lo 11 PEO PKS ST8 Y PKSB 7 7 DS R35 SITNH 7 0 VEE KEYBOARD LOO SL ps Pai a B cem 450 os 2 ADSCAN1 Wee apo alano 5 N ide PKSBI7 RA38 15K 4 d b al alg CN2 CN4 PKSB B C69 0 SLS GND 2 o PESSISI 9 im ADSCANP da ere 9 14 101 c7 a 1401 5 1621 INVERTER AYSS A DOND MPX ass o MPX MPX DEND AVSS he PKSBI 11 C72 cul 0 0 0 PKS S 414 7
17. G N O1 JG710069 XM326B00 DDE1 DAC Dynamic Range Enhancer PULL 1 PULL 2 LC AE FS REPEAT KOF REQ SWI SW2 AS 105 SW3 SW4 DOUTO DOUT1 DOUT2 DOUT3 DOUT4 0005 00016 0007 Vcc Sf 5 513 4 512 M3 S10 M2 S9 M1 S8 Non maskable interrupt Key scan drive connected to ground Auto repeat L on H off Key off request Switch 1 L on H off Switch 2 L on H off Input strobe Output strobe Switch 3 L on H off Switch 4 L on H off Data output Power supply 5V Switch drive Make contact of key receive Switch receive 4 8 Fs selection Digital ground 16 bit 18 bit selection Digital power supply Analog ground Channel R output Analog power supply 1 58 0 57 Vss F Fit G G A A B LC AE B6 S6 B5 S5 B4 S4 B3 S3 B2 S2 B1 S1 50 Se Sd Sc Sb Sa E Vss XTAL EXTAL MPO 1 RES STBY Make contact of key receive Switch receive Ground Key scan drive connected to 5V Break contact of key receive Switch receive Switch drive Not used Ground Not used 8 MHz clock Mode program 0 Mode program 1 Initial clear Stanby mode signal Channel R voltage reference Channel L voltage reference Channel L output Analog ground Word clock Channel R series i
18. 00164 00 0 o dl Y 1 1 Slo B 48158 53589995 mE PKS_IRQ MCPUDI31 la MCPUATO 50 50 e DGND INVERTER 925 iti qc r Imma aa 7 py 4 C35 024 ays S3 5 2 85199 589 5558 8555 91555 Ree is 4 RESET 258 223 cabo 55880 8815 5 3 93 55 Cee 5 5 Sua 06 666 9 55 z SS MCPUDI 0 31 225 DGND El lol VES VS C138 0 1 WP pe ANC 4 ee MCPUWAHH 55 MCPUWRH_ ES 1 WE cranes J E AED DRAM 4M MCPUCASH MCPUCASL 5 MCPUCS 0 3 MCPURDWR 4 26 sre MCPUA 21 4 A20 7 B3 20 ds 0015 Ee eut E S15 pais Ee E MSM5 1 42600 60 5 M b MEEDATIS 1 007 GRUB TTA 518 MCPUDI 30 C36 1 50 Car su ilveci 7 4 to DM2 3 A5 MCPUAT 18 7 A17 0014 18 217 0914 0 191 7 MES 151 MCPUA 17 Anis pas 1 MCPUAT17 15 Dae SRAM 1M SRAM 1 MCPUDI 11 _slpgs esc MCPUDI 14 9 la GND48 165 2 MCPUD 13 VCC9 GND48 MCPUD 4 37 14 16 10 415 081314 roan 12 101445 0013 SET ET PE dlc esas 1 5 36 MCPUDI 12 MCPUA 15 1114 pas ke MCPU 24 14 Das Es TA
19. SC7SUO4FEL DGND g o PKSB 12 C73 DGND 15 IC20 IC20 55 fece H 9 5_5 12 C46 7 14 7 14 51131 3 i NEL C 2 4635 1 88888 89 css 5 MES is Solo 0 B y DONI 11 11 11 1 0 S T5D PKSDLO 7 90101010 2 x PKS_SF R17 22k DGND an S 4 0 0 34 PKSB O 14 PHEP PKS_S 0 13 ENC1AIN lt _ 870 R69 220 206 w M ENCIBIN C all pas o IC2e 5 ENC2AIN lt 9 2 m N TC74VHC32F INVERTER 2 RV CN6 an EE TC74HC74AF TC74HC74AF lt _ to 5 E 1219 1018 1017 e A TC74HC14AF m DGND DONO 11 Pra D 1K o 5D 5D 50 450 0 71 17 Jop 69 2 gt x K of wf sf m af 45D d 8 5 28027 74 0 10 z zzz 4 2 2 50 2 5 5 3 5 3 5 5 3 5 3 5 3 C39 0 1 V rs 3 Teg g amp 5 n w 1217 TC74HC14AF R74 galla 3 S 5 6 9989 n 200 220 10 EM10 MCPU1MCLK 68 l i o gt gt gt gt gt 9 1011 LCD R W CNi2 055306 EE ND s pra 25 155 lt vy x v IS 1 TC74VHC245F HIF3FC 14PA 4 TC74HC 1 4AF 8 9 W W aol Ki 11 x 3 3 3 4
20. 2 PANEL ASSEMBLY 4 WHEEL ASSEMBLY o aos 5 55 dille 6 POWER SUPPLY ASSEMBLY 7 ELECTRICAL PARTS 8 Notes DESTINATION ABBREVIATIONS A Australian model M South African model B British model O Chinese model C Canadian model Q South east Asia model D German model T Taiwan model E European model U U S A model F French model V General export model 110V H North European model W General export model 220 Indonesian model N X General export model J Japanese model Y Export model WARNING Components having special characteristics are marked N and must be replaced with parts having specification equal to those originally installed The numbers QTY show quantities for each unit The parts with in PART NO are not available as spare parts e This mark in the REMARKS column means these parts are interchangeable e The second letter of the shaded part number is O not zero e The second letter of the shaded part number is not one CS6X OVERALL ASSEMBLY 7 Panel Assembly See page 4 Power Supply Assembly See page 7 MK Assembly See page 6 PPP DESCRIPTION REMARKS V3872400 EP600190 EP600190 VC380200 EP600190 V3872500 EP600190 EP600190 VUO33000 EP600190 EP600190 CB502030 EP600190 V3883500 V3872200 VC999400
21. 5 DS KP 10P 500L PNA CN6 AC INLET 3P POWER SUPPLY 50 POWER SW 3P 100L POWER SUPPLY 40 1 Connector Assembly PS Core 2 Connector Assembly PLUG Core CS6X DISASSEMBLY PROCEDURE 1 Bottom Assembly Remove the thirty five 35 screws marked 104 the two 2 corner plates marked 102 and the two 2 coin screws marked 106 The botton assembly can then be removed BOTTOM VIEW e e e e e 5 v 5 E le e ela a e 102 106 102 Fig 1 102 Coner Plate V4196900 104 Bind Head Tapping Screw B 3 0X8 MFZN2BL EP600190 106 Screw 3 0X6 V2517100 2 Circuit Boards and Units After removing the bottom assembly remove the circuit board and unit following the procedure in the below table Circuit Board amp Unit Ref No PARTS NAME PARTS No Q ty Fig KEYBOARD Ass y 72 Bind Head Tapping Screw B 3 0 X 6 MFZN2BL EP600230 4 2 Touch Volume 62 Bind Head Tapping Screw B 3 0 X 8 MFZN2BL EP600190 4 2 Wheel Ass y 42 Bind Head Tapping Screw B 3 0 X 8 MFZN2BL EP600290 4 2 PS Ass y 92 Bind Head Tapping Screw B 3 0 X 6 MFZN2BL EP600230 6 2 DM PNA Circuit Board amp Unit Ref No PARTS NAME PARTS No Q ty Fig JK 322 Bonding Tapping Screw B 3 0 X 10 MFZN2BL VQO49800 2 DM 122 Bind Head Tapping Screw B 3 0 X 6 MFZN2BL EP600230 7 3 Remove the DM circuit board with the DM sheeld
22. xxx current controller value yyy next target value DISPLAY OF RESULTS OK 13 Foot Cont SW FV FC SUS FS OK OK OK OK OK No change in the message on the display TEST END The test ends after the result is displayed When the test result is NG refer to C TEST SELECTION WHEN AN ERROR HAS BEEN DETECTED 25 CS6X 26 14 BREATH CONTROLLER 14 Breath Controller current value of the breath controller Operate the breath controller in the following order Not blowing 122 127 Blowing 0 5 Not blowing 122 127 Not blowing Blowing Not blowing remove the jack when EXTRACT PLUG appears on the LCD At this time check that the plug is not plugged in the numbers change sequentially and that OK appears on the LCD The test is OK when the value is 34 or less 14 Breath Controller yyy XXX current controller value yyy next target value DISPLAY OF RESULTS OK 14 Breath Controller OK XXX No change in the message on the display TEST END The test ends after the result is displayed When the test result is NG refer to C TEST SELECTION WHEN AN ERROR HAS BEEN DETECTED T15 CARD 15 CARD Load SMART MEDIA with its protect function turned off and then execute the test If SMART MEDIA is loaded with its protect function turned on the WRPRT error message will
23. 1 ala 71 1 14 acla Bei feed mc alal Ox 5 OST OE AGND Wu1 O hd CS6X CS6X 10 11 12
24. 7 515 SYSTEM EXCLUSIVE MESSAGE MIDI MASTER VOLUME 7 SW6 SAMPLE DUMP STANDARD DUMP HEADER FOH 7 DATA PACKET FOH CANCEL FOH SW10 BULK DUMP FOH 43H SW7 PARAMETER CHANGE FOH 43H SW7 BULK DUMP REQUEST FOH 43H SW7 PARAMETER REQUEST 43H SW12 XG SYSTEM ON FOH 43H SW3 SYSTEM REALTIME MESSAGE TIMING CLOCK sw4 SYSTEM REALTIME MESSAGE START FAH CONTINUE FBH STOP FCH ACTIVE SENSING FEH Control Mode syne Control Device Number set to the number other than off MIDI PHRASE CLIP MODE JOB only Not available on In th relati VOICE MODE ed data only VOICE related data only SYSTEM data will be transmitted received in SYSTEM Bank Select Switch SYSTEM Program Change Switch Phras Received only e Clip Mode is selected SYSTEM Bulk Protect and the conditions ment MIDI In Pe Receive Channel and Receive Filter rformance Mode 5FH 00H 65H 06H mmH 01H 65H 00H 06H mmH 26H llH 1 02H 65H 00H 06H 65 7 OnH 06H 01H 7 10H 64H OAH OOH alH ddH F7H 09H 01H 7 04H 01H 11H mmH 7 nnH 01H ssH ddH ddH F7H nnH 02H kkH ddH ddH ccH F7H nnH 7DH ppH F7H 64H bhH ahH alH ddH ddH F7H 1nH 64H ahH amH alH ddH ddH F7H 2nH 64H ahH amH alH ddH ddH F7H 64H ahH
25. KNOBI2 Y s vara AVCCO 3 LO mm IC22 IC22 to RV CN5 000 4 L _ 3 AVSS je 3 S_VOL3 D BC SS 4 17 pp MIDI OUTS TC74HC14AF TC74HC14AF L KNDBS 7 L_KNOB 4 1 4 Ys voa AVCC AVSS MIDI_OUT 8 5 18 11 10 4 gt MCPU RXDO AUS 1 887 5 64 m AVSS 7 L9 MIDIJS AVSS ko Shy sh 5 8 110 ETA OUT I QOL a 1 2 1 CSTCCB 10 L AVSS 055306 41 113 LTR_INT a 12 114 L TR OUT4 2 5V EM7 I lt KEY SEL 150 13 115 TOHOST_AXD1 POZIOT to WHEEL EE 006 AVCC 055306 nat S DGND 14 116 pene BOND 055306 AVSS w PH Q CNS gt 816 22K MW 1 PKS_S 5 C74 47P 4 PKS_SA we 4 PHOTOCOUPLER AB pes RIBBON PKS_ST 4 C75 50 3 W to 2 RA40 22K 4 DGND 1635 EE 16 3 PKS_S 3 C76 GIOIE PKS_SB uu PKS_S 2 ZZ C38 O lu x ajajaja PKS SC 2 NUM4556AMT 1 iB 4 ep KS 3 19 TORE adgaggsusdds RR sp LINE rom SP Se Se Sp AVSS dis 6 d SE 1 10W o Ob KEYBOARD 00 51 2 ceo 50 TRANSCEIVER Fe CN1 CN3 PKS_S 11 1 814 10K th r gt gt 5 8 Llano 108 NI OP AMP ol N of gPKS S 10 w t Ne o PABA 15 on xz 10 16 g g m 5 lt 1 cas P3oB i 5 510
26. IC2 TD62785P a i N 7 2 9 4 9 4 8 I 10K 8 FG 16 C11 O Olu E DGND 2171 25 Cie 220 10 055 5855 _ DGND 4510 71 C9 0 010 JL 0 4 als Vq DGND o i 5 5 SL i c 2298 do CENE X 30 d s os 556005 Zr RIB 1 a 0 0 SE 10 CO P9 00 0 IO CO P Co C9 2 Oil mman n ATS CN15 9 dame 1111111 1111111 to JK CN6 052 OST 1 di Q m 1000 0 UD SS r a SEU 0 Poma BO ANC O 7 0 GN 02 010110000029 0 0 0 0 c FFE Cee NC i 88 1222299999 o F llo o RIBBON Re Gi SSSSSSSS xxx GE ca to DM CN9 amp Best T 2 0 11 NC Dy AN4 PA4 nnn nn AT 10 72 7 5 AVSS I OST U4 az ANS PAS zh sper sp AQ P7 1 46 2 50 4 A8 P70 45 i 5 4 m iD esto slanzypay P67 A7 Cw Xu E
27. A0477 A0478 Component side Pattem side NN Coe ale Component side CS6X 19 CS6X 6 iar e J Circuit Board O ALI REG NOI or LEE 2 5 o e J Circuit Board virsion Component side JK 2NA V v N N r o n o 9 2116 1 x Ana N i ES 5 6 ens 5 9 9 lt 2 5 5 Y N 2 cH 7 2f T 4 gt ANA HHI TEST PROGRAM Test No Test Item Test Conditions Judgment Criteria etc T1 RAM READ WRITE OK NG MAIN SRAM WAVE DRAM T2 RAM BATTERY OK NG 2 7V o
28. C453 ria gt 0 gt gt gt gt gt gt gt gt gt 222003 00180 9 tu amp MCPUA 1 SWPMLMD 7 adda MCPUA 2 3 SWEMLMD 6 C322 gt SWPLMACS1 1 8 gt JE 3 4642 mos zz SWPMLMD 5 100P gt SWPLMACSO MCPUAT 4 Scag Lvpa ize SWPMLMDT4 058 MCP 188355 TE 17 SWPHMACS1 LEVA 3 SlcAA SWPMLMD 3 2 MCPUATE 2 4 SWPMLMD 2 q SWPHMACSO 7 al zs SWPMLMDI 1 0 8254 8 LMDO 22 SwPMLMD O e AW e 9 10 17 4 7K CAB 171 C327 Ni MCPUA 10 11 4 Mwen lezo gt SWPM MWEN 4 MCPUA 11 5 100P UPC457062 12 22 TS SWPM_MOEN 36441 MCASN 188 SWEMMCASN A253 R258 AW AW 14 4 MRASN 27 SWPMMRASN 33K 3 3K MCPUD 15 1274 059 CDO vss 166 5 457062 1 74 155355 17 MCPUD 1 181051 5 R143 168 SWEMHMA 24 8 UPC457062 MCPUD 2 12 2 4 EE SWPMHMA 23 i MCPUD 3 1810 Maze d w 22 Hay MCPUD A HMA 4 ise 8 46 75 SWPMHMA 21 5 2olcps mazo 1 RAGE 4 8 SWPMHMA 20 MCPUD 6 atl cos HMA 19 EE SWPMHMAI 19 MCPUD 7 zal 07 HMA 18 ss 3 w SWEMHMAT 18 MCPUD 8 23lcpa HMA 17 158 68x40 B SWPMHMAT 17 MCPUD S 24 7 RAG7 4 SWPMHMA 16 to DM1 3 4 lt MCPUDI 10 25 156 SWPMHMAT 15 AGND CD10
29. SJZ e 15 9 n KNOB14 poe pee wre o 5 4 224 2 1 ES zd fee SETA LD1 LD2 i LD4 LDS 9 01 L a Eos Lb cocaina E OCT OCT e VU a E P o CH 1 DOWN UP SCENE1 2 ij HOLD ARP ON OFF PLY STP E 1 ET ch 23 5 4 c mp ui Sla Su gii 4 E m li piel 131 p 571 9 swe pa _ 5 884 m pe 546 Sw 011 5411 10 pig 5118 N 0 0 0 0 CN 821 100 SMART_VPRT d 52852 2690 it i VSM CN2 Li 4 130 L cc sil SAR s Tae ee T T3 30 5 3 3D_SM SYSTEM 3 3D SM ET RV SMART PRT 7 xg i _V uix 251 O x aol ug SM CLE 50 Su Lala RES D H a a a a R20 100 4 SMECE EC1 Sire 2 21 Er Zr 20 i 0 yq MB Swieswi3 MEO wot Swe 9139 5 1 016 B19 100 5 1 0161 SMALE PAGE YU 1a pam EC2 O 8 1 014 B18 100 5 1 0141 SM RE 5 7 S 79 S S LT ait pata guia 5 15 5
30. 06 55 L5 24 D7 LED and switch drive data 56 L4 LED and switch drive data 26 D8 57 L3 26 09 58 2 27 56 59 L1 28 57 60 Lo O 29 58 Switch matrix data 61 VREF Grounded 59 62 ADO I Analog input 31 S10 63 AD1 I Analog input 32 S 64 50 I Switch matrix data MBCG46183 129 XV833A00 Gate Array No FUNCTION 45 NAME O FUNCTION 4 D5 vll 25 TX31 O Transmit Data 31 2 D6 VO j Data Bus 26 RX32 Receive Data 32 3 D7 vo 27 TX32 Transmit Data 32 4 IRQO 1 0 Interrupt Request Port 0 28 RX33 Receive Data 33 5 VO Interrupt Request Port 1 29 TX33 Transmit Data 33 6 vs Ground 30 Initial Clear 7 VO Interrupt Request Port 2 31 VSS Ground 8 I O Interrupt Request Port 3 32 XI I Quartz Crystal Input 9 IRD Read Signal Input 33 VSS Ground 101 AR Write Signal Input 34 yo Quartz Crystal Output 11 ICE Chip Enable Input 35 AO 12 ASTB Address Strobe Not used to ground 36 Al 13 TESTSIO Input with Pull down Resistor 50k 37 A2 Address 14 Receive Data 0 38 A3 15 To O Transmit 0 39 4 16 RX1 Receive Data 1 40 5 17 TX1 Transmit Data 1 41 CPUCLK CPU Clock 18 vss Ground 42 VSS Ground 19 vpD Power Supply 43 VDD Power Su
31. 38 40 42 94 96 101 107 109 111 113 119 120 138 140 141 143 145 151 158 160 162 164 166 170 173 177 192 193 210 212 217 218 246 248 266 268 283 284 288 302 303 305 310 311 314 315 317 318 320 321 325 326 334 337 600 603 C 36 37 C 2 4 13 19 28 45 108 168 245 251 258 265 271 277 287 291 312 RANK J apan only PART NO DESCRIPTION REMARKS CS6X 0 037470 0 038100 0 046470 UF066100 UF066330 UF138220 UF147470 UF148220 UR629220 VP473600 VP473700 RD153470 RD155470 RD250000 RD254100 RD254680 RD254820 RD255100 RD255120 RD255150 RD255180 RD255220 RD255410 RD255680 1192500 RD256100 RD256330 RD256470 RD256680 RD257100 RD257220 RD257330 RD257470 RD257680 RD258100 RD258220 RD258470 RD258680 1197400 VC 745200 VC 746300 V3579900 New Parts ectrolytic Cap ectrolytic Cap ectrolytic Cap ectrolytic Cap ectrolytic Cap ectrolytic Cap ectrolytic Cap ectrolytic Cap ectrolytic Capacitor ectrolytic Capacitor ectrolytic Capacitor Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip chip chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor ch
32. 50 gt 5 0 MLAN CLK SEL lt 48 5 gt SIO RES POEMES 11 Rx3e 26 ae 3 180 10 11 5104 5 MCPUAT 1 3 68 4 8 r gt ENC BIN 10K 4 GND CLOCK to DM2 3 K4 GND CLOCK o Tx31 es 2 8 PA16 gt ENC1AIN I 2 9 to PLUGIN1 3 7 B 10 VCC99 F WP99 5 Te SENI HDCTR CS2 DGND AD S to DM2 3 J11 5 2 4 Le RA2 11 NMI T 50 IC32 IC32 IC32 1 MCPUA B J W gt P RR S SI 74 14 7 14 MEA 18 PENNA T x 22 714 1 4 1 13 2 1 8114 4 ww F 9 to DM2 3 6 MET lt 1 og 2 00 ext 115 180 MCBUA 7 FOA D3 50 05 gt DM23 C9 oto DM2 3 B10 0 10 PLUGIN1 MELO PLUGIN2_MELO ame m eo 225 201 PAIS to C201 INVERTER to DM2 3 J11 R117 180 m 220 10 x s MCPUA 8 17 7 usi CEDE 2 MCPUD 1 DGND PULGINBe CTROUT INVERTER 5 5 9 3 4 4 MASK CPU HD6437045F24F 3 m 5 MCPUDI 2 5 5i n PULGINB1_CTRIN MCPUA 10 5 CPU 68 4 5 6 wee MCPUD 3 J MEL 9 PULGINB1 CTROUT T EE N MCPUA 11 7 TW ora 20 TOKKA 2 PURGING MIDEN MCPUAT 12 1 MCPUDI 4 E PULGINB1 14 MCPUD S T x MCPUA 13 3 46 4 MCPUD 5
33. Plug in Voice Plug in 1 163 124 10 63 1 64 Plug in 2 163 125 10 63 1 64 Drum Voice Preset 163 132 10 7 1 8 Internal 163 140 10 1 1 2 External 163 141 10 1 1 2 Performance Internal 163 164 10 127 1 128 External 163 165 10 63 1 64 Phrase Clip Internal 163 1104 10 3 1 4 4 CS6x only 5 Transmitted received only when MODE2 is selected in CONTROL CHANGE MODE 6 The default CONTROL NUMBERs of ASSIGNABLE CONTROLLER are as follows complies with Part Receive Channel and Part Receive Switch In the modes other than Performance Mode SYSTEM Receive GM XG On 1 Performance Mode only complies with Basic Receive Channel BREATH CONTROLLER 2 FOOT CONTROLLER 4 Transmit CS6x and S80 only SCENE CONTROL 14 Transmit Receive CS6x only KNOB 1 16 KNOB 2 17 KNOB A 18 KNOB B 19 KNOB C 20 RIBBON CONTROLLER 22 Transmit CS6x only CONTROL SLIDER 7 Transmit Receive S80 only FOOT SWITCH 88 Transmit CS6x 580 only ARPEGGIO HOLD 89 Transmit CS6x only ARPEGGIO SWITCH 90 Transmit CS6x only PORTAMENTO TIME sets the time it when PORTAMENTO SWITCH is set to on PAN position relatively changes according to the preset value for each voice In PORTAMENTO CONTROL EFFECT1 DEPTH controls reverb send level EFFECT3 DEPTH controls chorus send level HARMONIC CONTENT adjusts the resonance preset for each voice Setting a value adds to or subtracts from the center value 64 parameter
34. T 10k 5 uso 7 QU mie 1 640 UPDE32006S 09 me to JK CN2 DGND DSS306 1 11 9 1 5D 25A1162 D 210 n 02 521 DGND ole ply F e S TO T 218 878 toDM1 3M9 LPF to DM1 3 M10 rp rese DGND ue 858 DGND 1654 gt 680P ERR TC74VHCO4 m isis a cga R306 e 6 TR12 4 3 Ko TC74VHC3eF eum lt 5 UPc4570Ga Beat 128 BBP to DM1 3 19 SMCTR_CS 505 s s olg x r 0 0 10K OR 10K prd ere 1C65 m UPC457062 TIT a ots TP13 C277 2 ITA SMART VPHT DGND 316 016 EET 10 16 p210 444 to DM1 3 1054 20 V 00 3 N W SMART_VINS 74 04 __ TC74VHC04 0 1K 6 BK 6 8K to DM1 3 06 smaat_vINs lt E SM 1810 SMART_BUSY lt SM_INS m o nm D 2SC3326 to DM1 3 06 AGNO 55 18 OPAMP 55 W9 zu iD C334 INVERTER 1273 50 TC74VHCOO 0 10 4 4 4 4 4 1 NC C335 0 10 IC73 TC74VHCOO ae 1054 1054 O iu TC74VHCO4 TC74VHCO4 C337 Nc 50 1073 4 4 0 010 0 040 DGND 43 3D_M 1255 1275 TC74VHC32F TC7W32FU 28CC1 8813230 3 A DGND AGND 01u DGND TC74VHCOA DGND DGND DGND to DM CN103 to DM CN102 02 BSB XH A wee oe DO HN to DM C
35. VDD Vcc 1 1 2G 2Y4 1Y1 1A2 2A4 2Y3 1Y2 1A3 2A3 2Y2 1Y3 1A4 2A2 2Y1 1Y4 2A1 e TC74VHC245F XT487A00 11 101 Transceiver 0 WANA Gs ATA OO M5M34051FP XV103A00 1C12 Line Transceiver SC7SUO4FEL XI348A00 IC21 Inverter 1 6 2 gt vss 3 5 out TC74VHC273F XN971A00 IC52 SN74HC273NSR XH223A00 IC27 IC28 1C52 D FF NJM4556AMT1 XQ138A00 IC23 Operation Amplifier DC Voltage Supply Inverting Input 7 Output B Output A Inverting Input B Non Inverting Input A Ground 4 Non Inverting Input B TC74VHCT245AF XV242A00 TC74VHCT245AFT XT744A00 SN74HC245NSR XD838A00 1C31 1C50 Buffer Octo1 3 state Bus Transceiver e TC7S66FF XR682A00 IC30 Analog Switch IN OUT 1 4 OUT IN 2 GND 3 5 COUT NJM4556AD XQ824A00 e NJM4558D V 10001390 e uPC4570G2 291 00 570 XC520A00 IC62 1C65 1C68 1C74 Dual Operational Amplifier DC Voltage Supply Output A inverti Input A Output B Non Inverting q 3 DC Voltage Supply 4 Inverting Input B Non Inverting Input B TC74HC14AF TP1 XD6
36. 123 195 200 205 210 227 245 255 257 290 293 R 4 39 252 250 251 508 510 512 513 306 196 197 201 202 206 207 211 212 254 1 10 11 13 14 32 34 36 38 42 45 49 53 80 88 90 99 118 120 122 129 130 140 145 152 160 161 164 190 191 198 199 203 204 208 209 213 214 217 219 225 228 234 237 240 242 246 248 256 266 294 297 305 __ 509 511 528 530 16 17 87 R 193 253 R 40 41 91 243 R 37 R 12 50 51 71 72 77 78 299 233 241 262 264 303 307 R 68 74 236 R 94 95 162 163 165 R 37 R 43 44 R 84 R 85 RANK J apan only 11 CS6X 12 PART NO DESCRIPTION REMARKS VU931500 V2192700 CB069250 VA078900 VB390100 VB390100 LB918050 VB390400 VF283300 VB390100 VB390500 VB941200 VB941200 FZ006970 FZ006970 XQ824A00 XC520A00 XC520A00 VA078900 VA078900 FG644100 FG644100 VA078900 VA078900 1307100 V1307100 V1307100 VA078900 FG644100 VA078900 FG644100 VA078900 VM576000 VB312600 VB312600 V2349300 V2349300 VJ 144000 VV269500 VB312600 VB312600 VM576000 576000 VM552100 VB 835000 VB835000 VB835000 VB835000 VA078900 VQ665200 1C 287820 1C 287820 IC 287820 12300 FG612220 FG612470 FG613100 FG613150 FG652100 FG644100 01538100 08837220 08847100 08848100 0 837100 New Parts Angle Angle Holder Jack VR Shield Cord Holder Jumper Wire Connector Base Post Connector Base Post Base Post Connector Connector Base Post Connector Base Post Conn
37. 2 dBm 10k ohm load PHONES L 64 dBm or less 33 ohm load PHONES R 1 kHz sine wave 5 0 2 dBm 83 ohm load While sound is output the following message appears on the LCD 19 PCM SIN 1kHz L DISPLAY OF RESULTS TEST END AUTO when the INC switch is pressed the sound output will stop and the next test will be executed MANUAL when the EXIT switch is pressed testing will end the initial display will be restored and the next test number will be set 27 CS6X 28 T21 LEVEL J ACK 21 A D Leve Set the A D GAIN volume to the maximum level Input a 1 kHz sine wave of the following level through the A D input port according to the instructions on the LCD MIC 40 dBm 0 dBm LINE 6 dBm 0 dBm When a plug is connected to the jack both EXTRACT PLUG appears and the A D level appear When a plug is not connected and the level is 2 or lower INSERT PLUG appears and when a plug is inserted the A D level will be indicated OK will appear when the AD level is within the following range MIC 75 or greater and 85 or less LINE 75 or greater and 85 or less When MIC is OK the LINE check will be executed automatically 21 A D Level LINE XXX XXX yyy display DISPLAY OF RESULTS OK A D Level OK A D Level NG MIN LEVEL TEST END When the EXIT switch is pressed the sound output will stop and the next test
38. DRAM EFFECT Reverb Chorus N Insertion 24 Insertion 1 92 Insertion 2 24 Insertion for Plug in Voices Scene 1 2 Scene Control Scene Store SEQUENCE PLAY Format SMF Format 0 Direct Play only Sequence Chain Load Save Number of Sequence Chains 100 Steps 100 Songs ARPEGGIATOR Number of Arpebbios 128 File Type All Data All Voice Data All Phrase Clip Data Plug in Sequence Chain SMF WAV AIFF Functions Save Load Rename Delete Make Directory Format CONTROLS Volume Knob Octave Up Down CS6x Pitch CS6x Modulation CS6x Ribbon Controller CS6x Scene 1 2 CS6x Scene Control CS6x 2 Filter Knobs CS6x 2 Effect Knobs CS6x 4 EG Knobs CS6x Pan Knob CS6x Portamento ON OFF CS6x Arpeggio Gate Time CS6x Arpeggio Hold CS6x Arpeggio ON OFF 56 Phrase Clip Pitch CS6x Phrase Clip Phrase Clip Rec Tempo CS6x Sequence Play Sequence PLAY STOP Shift Page Knob A B C 1 2 Data Effect Bypass Master Keyboard CS6x Exit Enter Dec No Inc Yes 7 Mode Keys 6 Memory Keys 8 Bank Keys CS6x 16 Program Part Keys CS6x Power Card Slot Gain Host Select CONNECTORS amp TERMINALS MIDI In Out Thru To Host Breath Footswitch CS6x Sustain CS6x Foot Controller CS6x Foot Volume CS6x Individual Output 1 2 Output L Mono R Phones A D Input LINE 1 MIC LINE 2 AC Inlet 2 Connectors for Plug in Boards DISPLAY 40 x 2 Backlit INCLUDED ACCESSORIE
39. NC1 1171 75 LIE ol yes 55 MCPUA 14 00126 MCPUDI 12 MCPUA 14 12413 00126 28 17 Anis A154 MCBUATTS 215 Ts 69141 1 3 30 3 s2 005 0912 ev fe dere 131 l MCPUNRL MCPUAT13 4 45 We _ MCPuwpH 81 pa 2 M PUDESOU MCPUCS 14 CEO 14 CEO f MCPUA BI 5 12 14 8 d 13 3 14 MCPUD 6 9007 0016 32 9 qp 15 7 FD RES1 m ADRES pen MCPUD 27 7 dc 9 7 gc MCPUA S MCPUD 71 1d noa ut 0911 12 17 170 003 ko MCPUDI 19 MCPUA 6 7 as CPUAT 101 7 A5 agf MEPUA 201 11 11 003 12 5 25 M 1 LCAS MCPUD 26 MCPUA 5 8 25 8 11 NC 12 LCAS ioe MCPUA 11 18 0010 32 MCPUDL 10 MCPUA 11 1810 39 11 11 NU ae PB MCPUCASH A10 4 4 MCPURD_ WE UCAS MCP 38 MCPUD 18 MCPUA 9 24 MCPURD_ A OE AS HE 19 Ag E CPUD 10 2 37 MCPUA 3 10 26 MCPUA 11 3 10 is 910 11 MCPURAS 14 5 DEI oem 20 do MCP VCC37 AB 5
40. Qm EX LH 23 pir 8 CEP 5 n 5 5 VDD P65 A5 42 Te TE RET 2 al MASTER EUT sia XP DM 64 A418 VOLUME 20 2 0 a S S 05 1 Pe3 A3 4 to m l SE Ee ze 2 0 1 CN17 5 MN101CO27YB gt gt 2 2 Dia mz a B 0 1 10 yss 962 123 DM 1 61 1 PH16P H 12 xo 0 40 7 VAI H 450 13 MMOD 36 J2 A10Kx2 AVCC 2 n PHRASE CLIP 14 P00 SBOO TXD lt 35 9 0 7 KNOB 1 11 pe T 19 15 P01 SBI0 RXD Hj 34 KNOB2 uj Ox DI 1 elel Nog 85888288 i med fas Eze dis dig 2 eves 3 2000 KNOB4 048 mar magts PORT ON OFF T T 9 x x S S S S S TS W SSS S S S AVSS HE a q z 5651 1K B6 a a O e Fu to JK e KNOBS 7 2 0 z s j S Ie 05 95 W CN1 KNOBS 8 m gt D gt iz kuwa k c a I aY 1 Re 7 plo KNOBS 2 I zu KNOBS 11 CS DGND KNOB10 ce ads zn KNOB11 KT T T T KNOB 12 Za JM zx xu SE L 2 FG KNOB 13 o 2 Pat
41. Tact Switch Rotary Variable Resistor Rotary Variable Resistor Rotary Variable Resistor Ceramic Capacitor F Electrolytic Cap Electrolytic Cap MA Carbon Resistor Carbon Resistor Carbon Resistor Circuit Board Diode Diode Jumper Wire Jumper Wire LED LED Tact Switch Tact Switch Circuit Board Jumper Wire Connector FFC Connector Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip AC Cord AC Cord AC Cord AC Cord Touch Volume Lithium Battery LCD Assembly Rotary Variable Resistor Rotary Variable Resistor Rubber Contact Power Supply Unit Power Supply Unit Push Switch AC IN Connector 0 55 0 55 0 55 0 55 SEL2210W TP8 RE SEL2210W TP8 RE RGLE8X103J 5 004 5 004 10 0 RK14K124 10 0 RK11K114 B 10 0 RK11K114 0 01 50VZ 4 7 50 0V 220 0 10 0V 100 0 1 4 J 1 0K 1 4 J 10 0K 1 4 J PNB 188133 176 HS8104 155133 176 55104 0 55 0 55 SEL2210W TP8 RE SEL2210W TP8 RE 5 004 5 004 SM 0 55 26P SE SN015 100 0 0 1 J 1 0K 0 1 J 10 0K 0 1 J J 7A 125V 3P 2 5M CSA VDE BS3 SMD01 10KB CR2032 RK1631110T54A 10K 10 0K K161100S LC J U C EBA SDDLB1 AC 01 02 SCENE 1 2 PORT ON OFF ARP HOLD ON OFF PHASE CLIP SEQ PLAY VOICE PERFORM UTILITY CARD EDIT JOB OCTAVE DOWN UP SCENE 1 2 PORT ON OFF ARP HOLD ON OFF PHASE CLIP REC SEQ PLAY PLAY STOP VOICE PERFORM UTILIT
42. d 2 14 68 4 d ye MCPUDIE MCPUDI6 23 2 w T 7 gt 7 2 MCPUA 18 7 w MCPUD 7 7 DEMULTIDLEXER MCPUA 16 P BAS tap EM11 C2024 220 10 MCPUA 17 3 68 4 ME E CN17 MCPUA 18 5 tw MCPUDIS 3 4 2 450 PH7P 777 BA13 jJ MCFUD S MCPUA 19 7 10 s 5 5 68 4 MCPUD 10 ENC2AIN lt MCPUDI 141 na 0 Au ENC2BIN 7 1095 MCPUBAS MCPUDI 12 e HD74L VC139FP PN_SWSCAN_TX to PN CN7 ten MCPUCASL t p MCPUDI 12 MCPUD 13 MCPUCS 2 ERCCNSGAN HX OE TC74HC14AF NUR us MCPUD 14 d T 8119 10WCPUAL 17 2 1 PN_SW_RES BUFFER MCPUCASH 3 l 15 7 9118 1OMCPUAT 16 24 20 ANALOG SW 5 24 DM3 3 5 IC32 RA23 MCPURDWA T 7 w NCPUD 15 MCPUDI 16 1254 44 10 An JA 45 to DM2 3 19 suP30 M L to TC7AHCAAAF 5 2 47 d 14 N C gt 5 5 to DM3 3 27 5 181 4 6 1 5 BMCPUAI 13 3 gt smera_cs to DM3 3 Ri 16644 19 AMCPUAT 12 ICag w 1029 PLUGIN MELIN MCPURAS 2 3 vo TC74VHC32F 56x4 TC74VHC32F to DM2 3 J11 DGND
43. ela 8 18132 0 1 1647 D o s o E 8 2 i i 3 4 suo d i DGND E 88 5 S H m DGND 4018 vccpo PKS_CS 3 la ELE E Ops maso Rane 5 L4 1 3 a he PKSD 0 0010 vER 5 1 011 0940 ERTER ss 21 a Ae 1 E 7 B on D FF INV 88 8999 22 56 S 5 5 5 5 5 8 MCPUDIe 4 5 papz PKSO 1 g ho 550 LCDD 3 olololo 55558 8 5 Nike MCPUD 3I shag gaps 5 2 LCDD 4 155 lo L61 200 5 DGND 26715526 2713 aua 4 5 PKSD 3 10 0 AU car Lall 20016 056 ha LGe LCDD 7 MCPUCLKOUT gt od ejoa 0 m MCPUD 7 14 a 4K SISI 101 8 8 8 ug ge 2 6 ae PKSD S gm com My MEBUDTT A7 B6 DGND to LCD DEND 0 t g e alag i SS TC74HC74AF e es i Sala 5 L 5S 88 aaa 450 9299959 9 28 giga 99 9g yos lt 5 aaa 0 099548 EL 89 DGND 50 150 D FF mo 0 0 of a o vi k u C142 0 YN TRANSCEIVER 90 aye s 0 2000 Y10mo 50 C144 11 0 10 C12 0 10 SOS e E B
44. gt CS6X 31 CS6X 32 CS6X 33 CS6X 34 CS6X 35 CS6X 36 CS6X 37 CS6X 38 CS6X 39 CS6X 40 MIDI DATA FORMAT Many MIDI messages listed in the MIDI Data Format section are expressed in hexadecimal or binary numbers Hexadecimal numbers may include the letter H as a suffix The letter n indicates a certain whole number The chart below lists the corresponding decimal number for each hexadecimal binary number Decimal _ Hexadecimal Binary Hexadecimal 0 00 0000 0000 40 1 01 0000 0001 41 2 02 0000 0010 42 3 03 0000 0011 43 4 04 0000 0100 44 5 05 0000 0101 45 6 06 0000 0110 46 1 07 0000 0111 47 8 08 0000 1000 48 9 09 0000 1001 49 10 0 0000 1010 4 11 0000 1011 4B 12 oc 0000 1100 4c 13 oD 0000 1101 14 0 0000 1110 4 15 OF 0000 1111 16 10 0001 0000 50 17 11 0001 0001 51 18 12 0001 0010 52 19 13 0001 0011 53 20 14 0001 0100 54 21 15 0001 0101 55 22 16 0001 0110 56 23 17 0001 0111 57 24 18 0001 1000 58 25 19 0001 1001 59 26 1A 0001 1010 27 1B 0001 1011 5B 28 1c 0001 1100 5 29 1D 0001 1101 5D 30 1E 0001 1110 5E 31 1 0001 1111 5 32 20 0010 0000 60 33 21 0010 0001 61 34 22 0010 0010 62 35 23 0010 0011 63 36 24 0010 0100 64 37 25 0010 0101 65 38 26 0
45. 1110nnnn EnH n 0 15 CHANNEL NUMBER LSB Ovvvvvvv PITCH BEND CHANGE LSB MSB Ovvvvvvy PITCH BEND CHANGE MSB Transmitted with a resolution of 7 bits ANNEL MODE MESSAGES STATUS 1011nnnn n 0 15 CHANNEL NUMBER CONTROL NUMBER 0 CONTROL NUMBER CONTROL VALUE Ovvvvvvv v DATA VALUE LL SOUNDS OFF CONTROL NUMBER 78H DATA VALUE 0 All the sounds currently played including the channel messages such as note on and hold on in a certain channel are muted when receiving this message ESET ALL CONTROLLERS CONTROL NUMBER 79H DATA VALUE 0 Resets the values set for the following controllers PITCH BEND CHANGE 0 center CHANNEL AFTER TOUCH O minimum MODULATION 0 minimum EXPRESSION 127 maximum BREATH CONTROLLER 127 maximum FOOT CONTROLLER 127 maximum RIBBON CONTROLLER 0 center KNOB 1 0 center KNOB 2 0 center SUSTAIN SWITCH 0 off SOSTENUTO SWITCH 0 off Not assigned No change PORTAMENT CONTROL Resets the source note number Doesn t reset the following data PROGRAM CHANGE BANK SELECT MSB LSB VOLUME PAN HARMONIC CONTENT SUSTAIN LEVEL RELEASE TIME ATTACK TIME DECAY TIME BRIGHTNESS EFFECT SEND LEVEL 1 EFFECT SEND LEVEL 3 PORTAMENTO SWITCH PITCH BEND SENSITIVITY FINE TUNING COARSE TUNING ASSIGNABLE CONTROLLER ILL NOTES OFF CONTROL NUMBER 7BH DATA VALUE 0 All the notes currently set to on in certain channel s are muted when receiving this
46. 2 UNIVERSAL REALTIME MESSAGE 3 6 2 1 MIDI MASTER VOLUME FOH 04H 01H 11H 7 Sets the MASTER VOLUME value The value mm is used to set the master volume the value 11 should be ignored 3 6 3 CHANGE 3 6 3 1 XG SYSTEM ON 11110000 FO 1000011 43 0001nnnn 1n 1001100 Qaaaaaaa 0 Qaaaaaaa 0 Qaaaaaaa 0 0 11110111 7 Exclusive status YAMAHA ID device Number Model ID Address High Address Mid Address Low Data End of Exclusive Received only when SYSTEM Receive GM XG on is set to on in PERFORMANCE MODE The Part values will be reset according to the SYSTEM Internal Part settings Be aware that executing this message takes ca 170ms and that therefore a certain interval before executing the following message is needed 3 6 3 2 NATIVE PARAMETER CHANGE 11110000 FO 01000011 43 0001nnnn 1n 01100100 64 Qaaaaaaa aaaaaaa Qaaaaaaa aaaaaaa Qaaaaaaa aaaaaaa 11110111 7 For parameters with data size of will be transmitted REMOTE SWITCH Exclusive status YAMAHA ID device Number Model ID Address High Address Mid Address Low Data End of Exclusive 2 or more the appropriate number of data bytes See the following MIDI Data Table for Address and Byte Count Always received no matter which device number is selected in the case of REMOTE SWITCH 3 6 4 BULK DUMP 11110000 FO 01000011 43 0000nnnn On 01100100 6
47. 4 100 SM I O 1 W SM WP 10K 3 3 76 2 VSM SM_WE R276 00 d er UPC4570G2 SM RE 275 100 845 SM ALE 100 SM HE 3 SM CE SM ALE to DM2 3 46 SWPM CK256 7 Mz R273 100 a MW CE to DM2 3 J6 SWPM_SYOD to DM1 3 12 MCPUNAL_ SM CLE B272 4 100 2 L DGND to DM2 3 112 sweM_oaco SM_INS 45D SMART_VINS 1 75 D FF a Sos TC7W32FU 212 Di aps 1 1 _ x w x x 3 0 10 g DAN Ob VSM 3 3D_M cae 0 10 0 IC52 0 SMART_WP re re RETO ly wzly 6335 TC74VHC273F 1 SMART_CE ig g 085 DGND MCPUD 2 SMART_ALE e o INT UE CEAS 3 SMART_CLE SMART BUSY __ 100 SM WP G 214 salt MCPUD 4 SMART_VCNT SMAHT VPHT R270 y100 4 R209 MCPUDI alb alte MEPUDTSI E SMARTZECNT SMART_VINS 8271 409 2 2 1 s Ja We N N N MCPUD 1 41 707 1 54 4 TO ICES SME Nc TC7AVHCO4 fw TP42 271 Lc ge ALE SM 2 O n gj c 6 19716 SM ALE G 8005 SM CCNT G ita 2 DA GOA DSA T to DM1 3 112 SwFM_MEL 00 10 16 R205 8206 R207 Z 4 _ 2 2155 _ 5 DAC sik 3 S SM CLE G QD INVERTER 21017 DGND 5 Ly 1 6 DES 296 3603396 Bag NC IC64 PFO 5 8 OP
48. A18 F503 eal WE UCAS 8531 SWPMHMA 17 pala _ 5 3 MLAN CK BEO 4 40 E 14 RAS OEES 9 SWPMHMA 7 SWPMHMD 40 Nef SWPMMRASN NC 15 ba 5 16 23 MLANB_SIN L106 L107 NC15 ABE MATING 5 6 176 21 E C ic C it NC 48Nc16 gt 5 SWEMHMD 9 eramic Capacitor SWPMHMA 0 17 7 SWPMHMA 7 J SWPMHMA A 18 A5 09 i 7 MLANB RES 1 109 SWEMHMAL6 19 A D1 MLAN DGOO L102 L110 STRA i AGE swevEMATST N SWPMHMA 3 20 ea pela 5 8 Metal Flame Resistor TIE n 19 254 SWPMHMA 2 3 be SWPMHMD O b SWPMHMAL3I aol 5 41 ENS A2 00 ES NC 21 vss22F2 n 3 A HE i 23140 2 254 0 SWPHMACS les SWPM_MOEN DRAM 16M Note See parts list for details of circuit board component parts peno 64M DGND to MLAN DGND ML AN_SYW DGND _ 50 50 MLAN_DGO1 MLAN_DGO3 C195 100 10 Cloc 0 10 5 MLAN_SOUT MLANB_SYW C193 0 10 1245 ETE UBYTE vss48 1 181500 600 5 SEMMA m 1 47 50 1 3 1 018 1 SWPMLMD 15 0 81 SWEMLMO 15 SWPMLMA 14 4512 p7 ls 7 33 1 5 1 _ 141 SWPMLMAT 13 9
49. ALL SOUNDS O OFF clears all the sounds in the specific channel s played by both the rd and the data via MIDI TES OFF received via via MIDI DI clears the sounds in the specific channel s played 43 CS6X CS6X YAMAHA Music Synthesizer synth part Date 13 JUL 1999 Model CS6x CS6R MIDI Implementation Chart Version 1 0 Function Transmitted Recognized Remarks Basic Default 1 16 1 16 Memorised Channel Changed 1 16 1 16 Mode Default 3 1 Memorised Messages X 1 4 m 1 2 Altered KKAKKAKKAKAKAKKAKKAKAKLKAKAAKAA X Note 0 127 3 0 1127 Transpose Number True voice w xxedekdeee 0 127 Velocity Note ON 9nH v 1 127 O v 1 127 Note OFF X 9nH v 0 x After Key s x X Touch Ch s 58 O 1 Pitch Bend O 3 O 1 Control 0 32 1 Bank Select Change 1 7 11 O 3 1 5 101 O 3 O T 6 38 X O 1 Data Entry 64 O x3 1 Sustain Sw 65 O 3 1 Portamento Sw 66 X Sosutenuto 71 75 O 3 Sound Controller 84 X O 51 Portamento Cntrl 91 93 O 3 mI Effect Depth 96 97 X 1 RPN Inc Dec 100 101 X 1 RPN LSB MSB 1 95 O 1 Assignable Cntrl Prog O 0 127 x 0 127 Change True kkkkkkxkkkkkkkxk 0 127 System Exclusive Common Song Pos X x Song Sel X x Tune x System Clock x O Real Time Commands X X All Sound Off X O 120 126 127 AUX Reset All
50. Board Circuit Board Circuit Board Circuit Board Circuit Board Circuit Board Circuit Board Circuit Board Battery Holder Base Post Connector Connector Base Post Connector Base Post Connector Base Post Connector Base Post Connector Base Post Connector Base Post Connector Base Post Connector Base Post Connector Base Post Header Flat Cable Connector Base Post Connector Base Post Connector Base Post Connector Base Post Connector Base Post Header Connector Base Post Connector Base Post Connector Base Post Connector Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode Diode LC Filter LC Filter LC Filter LC Filter IC IC IC IC IC IC IC IC IC DM JK MK PNA RIB RV PNB SM DM CR2032 XH 11P TE PH 12P TE PH 13P TE PH 15P TE PH 5P TE PH 10P TE PH 16P TE PH 9P TE PH 4P TE PH 3P TE HIF3FC 14P TE PH 2P TE PH 8P TE PH 14P TE PH 15P TE PH 7P TE HIF3FC26PA 2 54DSA 4P TE 5P 8 HLW 26 185355 17 188355 17 185355 17 185355 17 155355 17 155355 17 D1F60 155355 TE 17 155355 17 155355 17 155355 17 RB501V 40 RB501V 40 D1F60 D1F60 185355 TE 17 188355 TE 17 D1F60 D1F60 188355 TE 17 188355 TE 17 198355 TE 17 188355 TE 17 RB501V 40 DSS306 93F223Z1 DSS306 93
51. HMA15 AW MCPUDI 11 CD14 IC36 414 5 EINE SWPMHMA 14 MCPUDI 121 Pri wasqa mm 4 SWPMHMA 13 D20 R215 CD12 1 01260 AM 45A TP14 Ds HMA 12 SWPMHMA 12 2 52 5 0014 Master 1 1 n 3o vDD3O vss151 C177 37 A gh 1 5531 11 0 10 11 UPC2933T 3 30 77 Ipi mm SLI MCPUD 151 321 515 10 4 a 7 SWPMHMA 10 IO IC68 DA Qi 68 46 B SWwPMHMA 9 J GMTBOU n UPC457062 UN d to 1 2 SWP30B Pies W 5 2 10 16 MERE to DM1 3 B12 34 WEN HMAB 47 w 8 u 5 10K di DM1 3 12 MCPURO 6 7 2 to 1 3 B12 36 vns Mag 45 mal 6 05 5 AGND 1 37 68x46 5 SWPMHMA 5 S ul 24SYSHO 5 ak Sy NC 38 4 8 SWPMHMAL4 molt CN24 NC SYSH1 DN 39 2 1 SWPMHMA 3 77 H PHBP NC 8 7 SWeMHMAT2 DGND to DM1 3 G7 SwP_RES 40l sYSH3 41 mw 0 AD_IN 4 41 40 68 46 SWPMHMA 1 D NC SYSH4 oe BASSA B SWPMHMA 0 ______ SGND 421SYSHS HMAO E39 1068 NC eyes SW M MD Y UPC457062 4 4415 5 7 HMD 15 E27 A 100 10 C159 8 ADGAINCO 5 to JK
52. Ix2 PC2 32 4 fe bz 1 3 PCI CNG FOOT Mess 30 Ix4 MAC PH5P CONTROLLER MEN MERE al c7 c 144 pq DGND SA 4 Op 4 1 gt a 743 A T e 195 21 08 1 55 d DG 32 5 2 2 03 56 3 R35 Y Dl FSW 2 CN2 INDV 1 91 04 ny 57 4 to PN CN9 SUS PHSP AW ot D1 3 106 1 5 G 4 HF cli iwove m 55 JK13 3 200 5 8ND4 Ser 2 w 4 z 58 06 I to C INOVT 9 4 ta BC 7 20 AGNDI i FOOT VOLUME mcs mm 1 AYSS TUTE i lt gli gli 9 ASS d FG H i abc op ea xt 12V 52 L33 1 UK 4 EMI 270 ot 1 5 W i BREATH T 2 21 25 H I2 15 W oto 313 1K 75 9 1 da 1 e p in S i ps 5 ol 1 5 R77 1 EG i L 1 I eee eee 2266222 5 E CN3 EG XH5P 12 0 NOMASSSAD UPC4S70C 5 1 UPC4 to PS CN2 Ix ano 8 5 58 5 18 A 4 A
53. The larger the value more resonant sound will be produced PORTAMENTO TIME is fixed to 0 narrower than the range you can designate depending on the selected voice The parameters EG ATTACK TIME adjust the envelopes preset for each voice Setting these values add to or subtract from the center value 64 offset parameters EG DECAY TIME EG SUSTAIN LEVEL BRIGHTNESS adjusts the cutoff frequency preset for each voice Setting a value adds to or subtracts from the center value 64 parameter The smaller the value the cutoff frequency will be lowered The effective range narrower than the range you can designate depending on the selected voice CS6X 3 3 4 5 4 4 4 4 6 3 3 2 1 1 5 2 2 2 2 2 1 6 6 6 Displayed on LCD takes for the pitch to reach the next note played since it is an offset The effective range may be EG RELEASE TIME since these are since it is an offset may be 41 CS6X 42 nk Select will be actually executed when the Program Change message is received nk Select and Program Change numbers that are not supported by Yamaha will be nored ROGRAM CHANGE STATUS 1100nnnn n 0 15 CHANNEL NUMBER PROGRAM NUMBER ppppppp p 0 127 HANNEL AFTER TOUCH STATUS 1101nnnn 0 15 CHANNEL NUMBER VALUE Ovvvvvvv v 0 127 AFTER TOUCH VALUE 10 BEND CHANGE STATUS
54. Transistor Quartz Crystal Unit Ceramic Resonator Quartz Crystal Unit Zener Diode Mono Mono Mono Mono Mono Mono Mono Mono Mono Mono Mono Mono Mono Mono Monolithic Ceramic Cap ithic Ceramic Cap ithic Ceramic Cap ithic Ceramic Cap ithic Ceramic Cap ithic Ceramic Cap ithic Ceramic Cap ithic Ceramic Cap ithic Ceramic Cap ithic Ceramic Cap ithic Ceramic Cap ithic Ceramic Cap ithic Ceramic Cap ithic Ceramic Cap ithic Ceramic Cap Electrolytic Cap chip 68X4 10KX4 10KX4 15KX4 15KX4 22 4 22 4 15 4 15 4 22 4 10KX4 22 4 22 4 10KX4 10KX4 68X4 68X4 68X4 68X4 10KX4 10KX4 100KX4 100KX4 25 3326 A B TE85R 2SA1162 O Y 25 2712 25 1162 25 2712 25 2712 25 3326 TE85R 25 3326 A B TE85R 25 1162 25 3326 A B TE85R 7M SMD 49 8M CSTCC8 00MG DOC 4985 UDZ 3 6BTE 17 3 6V B 390P 50V K B 470P 50V K 680P 50V K B 1000P 50V K B 1500P 50V K B 2200P 50V K B 5600P 50V K SL 22P 50V J SL 47P 50V J SL 68P 50V J SL 100P 50V J F 0 01 50VZ F 0 068 50V Z F0 1 25VZ 1 5 16VF 10 16V C 293 C 9 289 290 C 253 255 260 262 273 275 279 281 C 115 116 121 129 C 130 137 C 97 99 110 6 252 259 272 278 C 5 6 C 59 73 333 C 256 263 276 282 C 86 93 254 261 274 280 322 327 C 7 86 93 98 100 214 215 338 C 197 198 C 1 3 8 10 12 14 15 17 22 23 25 27 30 31 33 35
55. V3887400 V4162700 V4162900 EP600230 V3579600 V4162800 EP600230 CB829850 V3882500 V3577200 EP600190 EP600190 VP834600 EP630210 V4742900 V4765800 V3887900 CB502030 EP600230 VP064300 VK111000 V3813800 V4196000 EP600230 VP834600 New Parts PANEL ASSEMBLY Panel Assembly Control Panel Cover S Flat Head Screw Display Assembly Bind Head Tapping Screw B Circuit Board Assembly Circuit Board Push Button Push Button Bind Head Tapping Screw B Cord Holder Cord Binder Circuit Board Assembly Circuit Board Push Button Push Button Push Button Bind Head Tapping Screw B Circuit Board Assembly Circuir Board Push Button Bind Head Tapping Screw B Cord Binder Smart Media Assembly Escutcheon Circuit Board Bind Head Tapping Screw B Bind Head Tapping Screw B Adhesive Tape Bind Head Tapping Screw S LCD Cover Knob Knob Cord Binder Bind Head Tapping Screw B Cord Holder Connector Assemb Connector Assemb Connector Assemb Connector Assemb Connector Assemb FFC Cable Assembl Connector Assemb Connector Assemb Connector Assemb Display Assembly LCD Assembly Support Angle Bind Head Tapping Screw B LCD Spacer Adhesive Tape 3 0 6 MFZN2BL 3 0 6 MFZN2BL PNA SW PNA M2B 3 0 6 MFZN2BL BK 1 8 342 PNB SW PNB M4B 9 12 13 16 M2B M2G 3 0X6 MFZN2BL RV SW RV M1G 8 0X6 MFZN2BL S 34Z K CB SM 3 0 8 MFZN2BL 3 0X
56. V4810700 V4196900 EP600190 V4810700 VR641100 EP600190 EP600190 EP600190 VC362700 CB069250 CB825380 V3579100 VN103500 CB829850 CB069250 V3579700 VC 362700 CB069250 V3579900 VQ049800 362700 CB069250 VJ 980600 V4788800 VT119800 VB927800 VB928000 New Parts VP064300 OVERALL ASSEMBLY Overall Assembly Overall Assembly Overall Assembly Panel Assembly End Block L Bind Head Tapping Screw B End Block Support Plate Bind Head Tapping Screw B Cord Binder Bind Head Tapping Screw B End Block R Bind Head Tapping Screw B Wheel Assembly Bind Head Tapping Screw B Touch Volume Ribbon Angle Bind Head Tapping Screw B MK Assembly Bind Head Tapping Screw B Adhesive Tape Cord Binder Power Supply Assembly Power Supply Assembly Bind Head Tapping Screw B Bottom Assembly Bottom Cover PLG Cover Foot Coin Screw Corner Plate Bind Head Tapping Screw B Coin Screw PLG Support Brecket Cord Holder _ Cord Holder Bind Head Tapping Screw B DM Shield Plate L Bind Head Tapping Screw B DM Shield Plate U Bind Head Tapping Screw B Ferrite Core Cord Holder Push Button Circuit Board Lithium Battery Cord Binder Cord Holder Circuit Board Ferrite Core Cord Holder Circuit Board Bonding Tapping Screw B Ferrite Core Cord Holder Connector Assembly Connector Assembly Connector Assembly Connector Assembly Connector Assembly Connector Assembly Connector Assembly Conn
57. XX NG Nochange in the message on the display TEST END The test ends after the result is displayed When the test result is NG refer to C TEST SELECTION WHEN AN ERROR HAS BEEN DETECTED 23 CS6X 24 T7 KEYBOARD 07 Keyboard This test is used to check that the keyboard functions properly by scaling 88 keys from A1 to C7 07 Keyboard Push C 1 Velocity xxxx The above shows the C1 check X X X x velocity value of the key being pressed When the key on the LCD display works at a velocity of 0X10 to OX6F it is considered normal and that keys note is output The test will then proceed to the next key test If a wrong key is played will appear and that note s sound will not be output If a correct key is played after that however the test will proceed to the next key test If the test results of all the keys are satisfactory OK will appear on the LCD display DISPLAY OF RESULTS OK 07 Keyboard OK Push C 1 Velocity xxx NG 07 Keyboard NG Push C 1 Velocity xxx TEST END If the test results of all the keys are satisfactory OK will appear and testing will end When the test result is NG refer to C TEST SELECTION WHEN AN ERROR HAS BEEN DETECTED T8 A KNOB A 2 08 KnobA 2 Move each knob gradually in the following order Center 64 63 65 Left 127 126 127 Right 0 0 1 Center 64 63 6
58. appear Perform the FORMAT WRITE READ VERIFY check on SMART MEDIA and check that OK appears as the result Unload SMART MEDIA and check that NO CARD appears on the LCD DISPLAY OF RESULTS OK 15 CARD OK NG 15 CARD NG XXXXXXX XXXXXXX Error code ERROR CODE RD WR read write error NO CARD card is not loaded WRPRT write protect TEST END The test ends after the result is displayed When the test result is NG refer to C TEST SELECTION WHEN AN ERROR HAS BEEN DETECTED T16 MIDI IN OUT THRU 16 MIDI IN OUT Connect a MIDI cable to MID IN and OUT and then begin testing If the IN and OUT check results are OK connect the MIDI monitor with THRU and check that the test pattern AA FF 00 55 is output DISPLAY OF THE RESULTS OK 16 MIDI IN OUT OK NG 16 MIDI IN OUT NG When different data has been received NG 16 MIDI IN OUT NG TIMEOUT When reception is not completed within the specified time TEST END The test ends after the result is displayed When the test result is NG refer to C TEST SELECTION WHEN AN ERROR HAS BEEN DETECTED T17 HOST SELECT 17 Host Select Move the HOST SELECT switch according to the instructions on the LCD and check that OK appears as the result 17 Host Select Select MIDI When the switch activates properly a sine wave
59. controller in the following order Center 63 65 Up 126 127 Down 0 1 Center 63 65 RIBBON move this controller in the following order Left 6 11 Right 103 108 Left 6 11 and then release it at 122 127 MODULATION WHEEL move this controller in the following order Right 0 1 Up 126 127 Down 0 1 AFTER TOUCH operate this controller in the following order Release 0 5 Push 104 109 and Release 0 5 CS6X 12 Controller PB MW RB AT yyy 2XXX XXX XXX XXX X X X current controller value yyy next target value DISPLAY OF RESULTS OK 12 Controller PB 002 RB OK XXX XXX XXX XXX NG Nochange in the message on the display TEST END The test ends after the result is displayed When the test result is NG refer to C TEST SELECTION WHEN AN ERROR HAS BEEN DETECTED T13 FOOT CONT SW 13 Foot Cont SW Operate the FOOT VOLUME FOOT CONTROLLER SUSTAIN SWITCH and FOOT SWITCH according to the instruction on the LCD as described below Check that the numbers change and that OK appears as the result Release 0 0 2 Push In 127 125 127 and Release 0 0 2 Turn On 0 and Off 1 the SUSTAIN SWITCH and FOOT SWITCH FOOT VOLUME Release 0 2 Push In 125 127 Release 0 2 FOOT CONTROLLER same as the above SUSTAIN SWITCH On 0 Off 1 FOOT SWITCH same as the above 13 Foot Cont SW FV SUS FS 0 XXX XXX x x
60. message However if Sustain or Sostenuto is on notes will continue sounding until these are turned off MNI MODE OFF CONTROL NUMBER 7CH DATA VALUE 0 Performs the same function as when receiving ALL NOTES OFF Sets VOICE RECEIVE CHANNEL to OMNI OFF channel 1 MNI MODE ON CONTROL NUMBER 7DH DATA VALUE 0 Performs the same function as when receiving ALL NOTES OFF Sets VOICE RECEIVE CHANNEL to OMNI ON AONO CONTROL NUMBER 7EH DATA VALUE 0 16 Performs the same function as when receiving ALL SOUNDS OFF If the 3rd byte mono is within 0 through 16 the channel will be Mode4 m 1 In VOICE MODE the mode can be Mode2 m 1 according to VOICE RECEIVE CHANNEL OLY CONTROL NUMBER 7FH DATA VALUE 0 Performs the same function as when receiving ALL SOUNDS OFF The channel will be Mode3 In VOICE MODE the mode can be Model according to VOICE RECEIVE CHANNEL 3ISTERED PARAMETER NUMBER STATUS 1011 0 15 CHANNEL NUMBER LSB 01100100 648 RPN LSB Oppppppp p RPN LSB Refer to the table as shown below MSB 01100101 65H RPN MSB 04444444 q RPN MSB Refer to the table as shown below DATA ENTRY MSB 00000110 06H DATA VALUE Ommmmmmm m Data Value DATA ENTRY LSB 00100110 26H DATA VALUE 01111111 1 Data Value First designate the parameter using RPN MSB LSB numbers Then set its value with data entry MSB LSB RPN D ENTRY LSB MSB MSB LSB PARAMETER NAME DATA RANGE 00H O
61. plate PNA 32 Bind Head Tapping Screw B 3 0 X 10 MFZN2BL EP600230 11 4 SM RV Display Ass y Circuit Board amp Unit Ref No PARTS NAME PARTS No Q ty Fig PLG Support Brecket 112 Bind Head Tapping Screw B 3 0 X 6 MFZN2BL EP600230 5 2 SM 62 Bind Head Tapping Screw B 3 0 X 8 MFZN2BL EP600190 2 2 JK 322 Bonding Tapping Screw B 3 0 X 10 MFZN2BL VQO49800 9 2 DM 122 Bind Head Tapping Screw B 3 0 X 6 MFZN2BL EP600230 7 3 Remove the DM circuit board with the DM sheeld plate RV 52 Bind Head Tapping Screw B 3 0 X 6 MFZN2BL EP600230 Display Ass y 22 Bind Head Tapping Screw B 3 0 X 6 MFZN2BL EP600230 PNB Circuit Board amp Unit Ref No PARTS NAME PARTS No Q ty Fig PS Ass y 92 Bind Head Tapping Screw B 3 0 X 6 MFZN2BL EP600230 2 PLG Support Brecket 112 Bind Head Tapping Screw B 3 0 X 6 MFZN2BL EP600230 2 SM 62 Bind Head Tapping Screw B 3 0 X 8 MFZN2BL EP600190 2 PNB 42 Bind Head Tapping Screw B 3 0 X 8 MFZN2BL EP600190 11 4 42 72 REAR VIEW 322 KEYBOARD 112 Fig 2
62. 010 0110 66 39 27 0010 0111 67 40 28 0010 1000 68 41 29 0010 1001 69 42 2 0010 1010 6A 43 2B 0010 1011 6B 44 2c 0010 1100 6c 45 2D 0010 1101 6D 46 2E 0010 1110 6E 47 2 0010 1111 6 48 30 0011 0000 70 49 31 0011 0001 71 50 32 0011 0010 72 51 33 0011 0011 73 52 34 0011 0100 74 53 35 0011 0101 75 54 36 0011 0110 76 55 37 0011 0111 77 56 38 0011 1000 78 57 39 0011 1001 79 58 0011 1010 59 3B 0011 1011 7B 60 3c 0011 1100 7C 61 3D 0011 1101 7D 62 3E 0011 1110 63 0011 1111 127 0111 1111 Additional Notes For example 144 159 Decimal 9nH 1001 0000 1001 1111 Binary indicate the note on messages for the channels 1 through 16 respectively 176 191 BnH 1011 0000 1011 1111 indicate the control change messages for the channels 1 through 16 respectively 192 207 CnH 1100 0000 1100 1111 indicate the program change messages for the channels 1 through 16 respectively 240 F0H 1111 0000 is positioned at the beginning of data to indicate a system exclusive message 247 F7H 1111 0111 is positioned at the end of the system exclusive message aaH Hexadecimal 0aaaaaaa Binary indicates the data addresses The data address consists of High Mid and Low bbH Obbbbbbb indicates byte counts ccH Occccccc indicates tcheck sums ddH Oddddddd indicates data value SYNTHESIZER SEQUENCER PART 1 TRANSMIT FLOW NOTE ON OFF 9nH 01H NTROLLER BnH
63. 07H or OBH SW8 BANK SEL MSB BANK SEL LSB 00H 20H 1FH DnH EnH sw4 SYSTEM REALTIME MESSAGE START CONTINUE STOP SW5 SYSTEM EXCLUSIVE MESSAGE SW6 SAMPLE DUMP STANDARD REQUEST i F7H 7 1 7 1 7 1 WAIT nnH 7CH ppH 7 1 SW7 BULK DUMP FOH 43H 64H ahH amH alH ddH ddH F7H 1 18871 R CHANGE FOH 43H 1nH 64H ahH amH ddB ddH F7H SYSTEM EXCLUSIV IDENTITY REP MESSAGE 06H 02H 43H 00 41H 208 02H 00H 00H OOH 01H F7H IVE SENSING FEH r Key Master Key The data played t sequence data ig 6R transmits BC ai 2 Transmit Channel Keyboard Transmit Chann will compli compl ack using Sequen output through the channels set for ing IGNABLE CONTROLLER and the data from the Sequencer Part SW2 MIDI Control Mode MIDI Sync MIDI Control MIDI Device Number the channel 1 0 In the PERFORMANC When set to all data will be output through 6 PHRASE CLIP MODE JOB only N 7 MODE VOICE related data only only SYSTEM data will SYSTEM Bank Se available on MODE PERFORM mitted received in all modes 2 RECEIVE FLOW MIDI gt SW11 sw2 15831 574 18851 15861 18871 18881 59 188101 188111 188121
64. 1 017 817 100 5 120171 SMZWE B m jet VRIO 5 Sw 1 013 Bie 00 SM I 0 3 SMART_BUSY 090990 ____ O O O a to DM CN22 5 815 100 SM L O 8 SM wP DELE 8 17012 i SM 1 011 J7 FG1 FG2 pnt swe 543 vase Vasa s SHE eca 03 ROS SMART_VSEN 1 011 AW 3 1 60 Ri2 y100 SM 1 011 SMART_VSEN FG i SM WP R11 100 SM WP 5 1 012 R10 100 SMART_BUSY sm 1 0 8 7 i SM WE 100 SM WE SM 1 0 3 RB 4 100 SM RE Sw 1 0 7 5 3 SM ALE R7 SM ALE SM I O 4 3 Qj C 10 D rj 25 cl m 0 ol SHALE M rale essi hr ERR 85 100 SM CLE on zag SM CLE w to 9 lt 0 2 o 39000 SMART VINS ji VINS _VINS ho r r So LIII l ok dis Lih wara mam C33 n 890 Gat 10K 104 100 245 om NUM4 C4 100P mls Bi 33580 100 16 R7 L1 JK R55 853 et 3 1 ty 40 222 10K 100 20U JK6 10K i 5475 164 p og E 50 55 035 87 V9 upcad7oc cae 852 UPC4570C g 5 gt gt nola 2 40 10 46 8 22716 2 OPAMP o 6 5
65. 111 RD16 DRAM data bus 231 XIN Crystal osc input 112 RD15 232 Crystal osc output 113 RD14 233 VSS Ground 114 RD13 234 ICN 1 Initial clear 115 RD12 235 2 1 2 chips mode enable 116 RD11 236 SLAVE 1 Master Slave select when 2 chips mode 117 RD10 237 TESTON 1 2 118 RD9 238 ACIN Test pin 1 119 RD8 239 DCTEST 1 120 VDD Power supply 240 VDD Power supply CS6X 101 027 5711200 CPU 0 FUNCTION vo FUNCTION 1 51 1 33 512 I 2 S2 34 S13 Switch matrix data 3 53 Switch matrix data 35 814 4 54 36 TXD MIDI transmit data 5 65 37 S15 I 6 VREF Power supply 5V analog 38 S16 I Switch matrix data 7 Power supply 5V 39 S17 I 8 Osce O Crystal oscillator 8 2 40 S18 I 9 0801 Crystal oscillator 8 2 41 116 10 vss Ground 42 L17 11 XI Not used 43 L18 12 Not used 44 L19 13 MMOD Memory mode select Grounded 45 L8 14 RDO Rotary encoder data 46 9 LED drive data 15 MIDI receive data 47 L10 16 Do 48 L11 17 D1 49 L12 o 18 D2 LED and switch drive data 50 L13 19 D3 51 L14 20 D4 52 115 21 mST Reset 53 L7 22 05 54 6 23
66. 152 HMA11 33 CSN 1 Chip select 153 HMA12 Wave memory address bus 34 WRN 1 Write strobe 154 13 35 RDN Read strobe 155 HMA14 36 VDD Power supply 156 HMA15 37 SYSHO 157 16 38 SYSHI 158 17 39 SYSH2 159 HMA18 40 SYSH3 NSYS LNSYS upper 16 bits output 160 19 41 SYSH4 161 20 42 SYSH5 162 10021 43 SYSH6 163 22 44 SYSH7 164 23 45 KONOO 165 24 46 KONO1 Key data 166 VSS Ground 47 KONO2 167 MRASN RAS when DRAM s is connected to wave memory 48 KONO3 168 MCASN CAS when DRAM s is connected to wave memory 49 VSS Ground 169 MOEN Wave memory output enable 50 SYSLO 170 MWEN Wave memory write enable 51 SYSL1 171 VSS Ground 52 SYSL2 vO 172 LMDO 53 SYSL3 vO NSYS input LNSYS output lower 8 bits 173 LMD1 vO 54 SYSL4 vO 174 LMD2 yo 55 SYSL5 yo 175 LMD3 o 56 SYSL6 176 LMD4 57 SYSL7 177 LMD5 58 1 178 10006 VO 59 1 Key on data input 179 LMD7 Wave memory data bus Lower 16 bits 60 VDD 1 Power supply 180 VDD Power supply 61 VSS Ground 181 VSS Ground 62 KONI2 1 182 LMD8 vO 63 183 LMD9 64 DACO J DAC output 184 LMD10 vO 65 DAC1 185 LMD11 66 WCLK DACO DAC1 word clock 186 LMD12 67 MELOO 187 LMD13 68 MELO1 188 LMD14 69 MELO2 189 LMD15 yo 70 MELO3 MEL wave data output 190 VSS Ground 71 MELO
67. 4 191 LMAO 72 5 192 LMA1 73 MELO6 193 LMA2 74 MELO7 194 LMA3 75 VDD Power supply 195 LMA4 76 ADC word clock 196 LMA5 77 MELIO 197 LMA6 78 MELI1 1 198 LMA7 79 MELI2 1 199 LMA8 amp 80 MELI3 1 MEL wave data input 200 LMA9 81 MELI4 201 LMA10 82 MELIS 1 202 LMA11 83 MELI6 1 203 VSS Ground 84 MELI7 204 LMA12 85 VSS Ground 205 LMA13 Wave memory address bus Lower data memory 86 RCASN DRAM column address strobe RAS signal 206 LMA14 87 207 LMA15 88 7 208 LMA16 89 RA6 209 LMA17 90 VDD Power supply 210 VDD Power supply 91 VSS Ground 211 VSS Ground 92 RAS DRAM address bus 212 LMA18 93 RA4 213 LMA19 94 214 LMA20 95 RA2 215 LMA21 96 1 216 LMA22 97 RAO 217 LMA23 98 RRASN DRAM row address strobe RAS signal 218 LMA24 99 RWEN DARM write enable 219 VSS Ground 100 VSS Ground 220 SYO Sync signal for master clock 101 RD7 221 SYOD Sync signal for HCLK QCLK 102 RD6 222 QCLK 1 12 master clock 64 103 RD5 223 HCLK 1 6 master clock 12875 104 RD4 224 CK256 1 3 master clock 256Fs 105 RD3 225 SYSCLK 1 2 master clock 384Fs 106 RD2 226 VDD Power supply 107 RD1 227 SYI Sync clock 108 RDO 228 MCLKI 1 Master clock input 109 VSS Ground 229 MCLKO Master clock output 110 RD17 230 VDD Power supply
68. 4 Obbbbbbb bbbbbbb Obbbbbbb bbbbbbb Qaaaaaaa aaaaaaa Qaaaaaaa aaaaaaa Qaaaaaaa aaaaaaa 0 0 0 11110111 7 Exclusive status YAMAHA ID device Number Model ID Byte Count Byte Count Address High Address Mid Address Low Data Check sum End of Exclusive See the following MIDI Data Table for Address and Byte Count The Check sum is the value that results in a value of 0 for the lower 7 bits when the Byte Count Start Address Data and Check sum itself are added 3 6 5 DUMP REQUEST 11110000 FO 01000011 43 0010nnnn 2n 01100100 64 Qaaaaaaa aaaaaaa Qaaaaaaa aaaaaaa Qaaaaaaa aaaaaaa 11110111 7 Exclusive status YAMAHA ID device Number Model ID Address High Address Mid Address Low End of Exclusive See the following MIDI Data Table for Address and Byte Count 3 6 6 PARAMETER REQUEST 11110000 FO 01000011 43 0011nnnn 3n 01100100 64 Qaaaaaaa aaaaaaa Qaaaaaaa aaaaaaa Qaaaaaaa aaaaaaa 11110111 7 Exclusive status YAMAHA ID device Number Model ID Address Hig Address Mid Address Low End of Exclusive See the following MIDI Data Table for Address and Byte Count HOST MODE MIDI Host From Host Ld Local Sw MIDI Out MIDI In HOST MODE PC1 PC2 MAC n To Host From Host Local Sw e on note off data r yboard equally affect the
69. 413 014 4 2114 nies VD C605 47 16 a dy 15466 15480 SWPMLMD 2 4 SWPMLMD 13 SWPMLMA 12 8 125 3 SWPMLMD 6 0 so SWPMLND 3 252 ER SWPMLMDI 12 BTE Dep QI 45D C603 TC74HC14AF TC74HC14AF to 114P S 13 11 01314 43 509 1 Do 3 omane to DM1 3 06 S voce vss37 2 10 81410 5 to DM3 3 J2 SwPMLMDI4 SWPMLMD 11 SWPMLMATS dag his SWPMLMDT 12 181 1007 50 SI 1041 SWPMLMA B T SWPM MD A4 37 to DM1 3 17 SI 5 INVERTER SWPMLMDI6 34 SWPMLMDIS SWPMLMA 19 11 38 g i 9 VCC3 o O x SWPMLMD 7 1 40 paz Deto SWPMLMD 8 SWPMLMA 2 rui 37 e 8506 100 530 IC100 IC100 ui pas pag Ne 21 vCC37E 8507 100 t TC74HC14AF TC7A4HC14AF to IC1 4P 11 13 36 AW NC11 NC32 A20 NC M g 8 5 6 NC 42 nc12 ccas Eite me MMA 1814 14 18 p11 pa j SM D 11 DSS0C402M 1 tow De Dm to DM1 3 B7 8545 13 UCASEO SMCASN SWEMLMAL 17 15 417 SWPMLMDI3 DGND poss 68 idis 1 SWEMLMA 7 n pio Swevcver 10 828 SWAMMRASN NC _ SWPMLMALS 6 SWPMLMA S 1 pose _ 2 8 m 16 b7 swerm mal BINE SWPMLMA 5 18 SWPMLMDIS TED si 150 NC16 AB AS 101 17 0 S
70. 46 0 MCPUA 2 1 26 9 25 2 11 22 11121 1 NC15 MCPUA 8 a 021 PRSE MERLO 1 MCPUA 8 m osi 17 MCPUA 1 12 52 21 MCPUD 7 1 12 008 15 MCPUA 18 97 u 091 35 7 MCPUD 14 MCPUA 2 24 MCPU 7 23 2 paa 34 MCPUD 8 7 23 6 34 MCPLD 24 1331 007 2 MCPUD 8 1331 007 PUAS i AI Pe MCPUATE E 0 6 24 bao 33 MCPUD 16 MCPUD 1 0 14 AS MCPUATST 5 paos 5 mas o ae 21 isl nos Dosla 0341 101 15 545 MCEUA 4 14 43 25 MCPUDI 11 ad 21 MCPUA 4 26143 BYTE MCPUA 4 2643 BYTE 31 18 GND 16 MERLO lai 18 GND16 Da4 5521 25 0 fo MCPUA 3 22 2 MCPUA 2 ee 1 nc29 2 28 A 1 DGND DGND DGND to DM2 3 A5 DGND DGND PEND RENO to DM3 3 B1 to DM2 3 H9 2 pus B3 JO 28 1 8813230 5 CS6X to DM2 3 lt 1 p CS6X to DM3 3 B4 lt 12 10 11 12 CS6X CIRCUIT DIAGRAM 2 4 DM2 3
71. 5 according to the instruction on the LCD as shown below Check that the numbers change sequentially and that OK appears as the result Begin the check from the specified knob The mark gt will appear to the left of the value of the knob being checked 08 KnobA 2 gt B gt C 21 22 yyy gt YYY YYY yyy current knob value y y y next target value DISPLAY OF RESULTS OK KnobA 2 gt A gt gt 21 gt OK OK OK OK OK OK No change in the message on the display TEST END The test ends after the results have been displayed When the test result is NG refer to C TEST SELECTION WHEN AN ERROR HAS BEEN DETECTED T10 A KNOB1 4 10 Knobl 4 Move each knob gradually in the following order Center 64 63 65 Left 127 126 127 Right 0 0 1 Center 64 63 65 according to the instruction on the LCD as shown below Check that the numbers change sequentially and that OK appears as the result Begin the check from the specified knob The mark gt will appear to the left of the value of the knob being checked 10 Knobl 4 gt COF gt RES gt REV gt CHO yyy XXX XXX XXX current knob value yyy next target value DISPLAY OF RESULTS OK 10 Knob1 4 gt COF gt RES gt REV gt CHO OK OK OK OK OK No change in the message on the display TEST END The test ends after the results h
72. 5 2878 A B 12802878 AB 25 2878 A B 9 1110 10 JK L 80 220P 50V K 470P 50V K 1000P 50V 1500 50 100 50V J 0 01 50 2 100 00 16 0V 22 00 16 0V 10 00 25 0V 100 00 25 0V 10 00 16 0V V388510 V388520 PHONES OUTPUT L MONO R INDIVIDUAL OUTPUT 1 2 A D INPUT MIC LINE2 INPUT LINE1 MIDI THRU OUT IN TO HOST FOOT SWITCH SUSTAIN FOOT CONTROLLER FOOT VOLUME BREATH VK26370 HOST SELECT GAIN V397890 C 32 C 13 18 23 28 C 3 8 15 20 25 30 C 11 16 21 26 C 1 2 6 7 12 17 22 27 31 33 34 46 65 C 5 10 37 45 47 56 C 4 9 C 14 19 24 29 36 C 57 C 58 59 61 35 RANK J apan only X DESCRIPTION REMARKS CS6X HF454560 HF455100 HF455220 HF455470 HF456100 HF456180 HF456270 HF456470 HF457100 HF457120 HF457220 HF457470 HF458100 HF458220 HF459100 VI912000 VQ359100 VA078900 VE387000 VE 387800 VE 387900 VB941200 VB941200 1G001390 LB016030 V4818900 V4819100 UJ 827470 VC694800 HF755150 HF756100 HF756220 HF756680 HF757470 V3579500 V3579700 V3579600 VB858300 VB858400 VK015600 VB858600 VB858400 VB858200 VB389900 VB390600 VB 390400 VB390000 VU033600 VE 222400 VD631600 VD631600 V4607200 V4607200 V4434100 V4434100 VD542700 XS711200 VH885000 V 041400 XT744A00 VA078900 New Parts Carbon Resistor Carbon Resistor Carbon Resistor Carbon Resistor Carbon Resisto
73. 5 A D INPUT jack 68 GAIN knob VOLUME knob 2 OCTAVE UP and DOWN keys PITCH bend wheel 4 MODULATION wheel 5 Ribbon control Sound Control knobs MODE keys LCD Liquid Crystal Display 9 SHIFT key 49 PAGE knob Knobs A B C 1 and 2 DATA knob 43 EF BYPASS key 43 MASTER KEYBOARD key EXIT key 46 ENTER key 6 DEC NO key 49 INC YES key 49 MEMORY keys BANK A to H keys 0 PROGRAM PART 1 to 16 keys CS6X CIRCUIT BOARD LAYOUT 9 la 18 lel I L 9 9 PLG DM PNA 9 9
74. 510 RANK J apan only CS6X MK ASSEMBLY PART NO DESCRIPTION ie ee REMARKS VN399200 VN399200 VN405500 VL570000 VL570100 VL570200 VL570300 VL570400 VL570500 VL570600 077600 VR857100 VN406100 VF834100 VM630100 EP630630 079800 New Parts 600230 1912000 MK ASSEMBLY MK Assembly Keyboard Assembly Front Rail Bind Head Tapping Screw B Keyboard Assembly MK Frame Assembly MK Frame White Key White Key White Key White Key White Key White Key Black Key Spring Felt PC Sensor Circuit Board Rubber Contact Insulation Spacer Bind Head Tapping Screw S Stopper C61K6 3 0X6 MFZN2BL C61K6 LC C61 LC D BL 820X6X3 6 MK LC61TO N LC LC LC 3 0X10 MFZN2Y LC V441400 V410720 VM63000 RANK J apan only POWER SUPPLY ASSEMBLY PART NO 0 0 459 DC e 1 B 50a 50 42 amp DESCRIPTION REMARKS CS6X V3484100 V3484200 EP600230 VP691000 EP600230 VL785200 EP600190 03769690 CB069250 PP gt
75. 57A00 1C8 1C17 1C20 1C22 1732 1C 100 Hex Inverter e TC74HC74AF 00 1 18 1 19 Dual D Type Flip Flop INPUTS OUTPUTS PR CLR CLK H x Bae p xr 7 2 S f f L DS90C402M XW357A00 IC102 Line Receiver e TC7W32FU TE12L XQ173A00 75 OR vec gt 18 2 lt 2B GND 4 5 TC74HC4052AF XS790A00 IC13 1C14 1C15 IC16 Multiplexer CS6X 15 CS6X CIRCUIT BOARDS DM Circuit Board CN22 to SM CN1 CN18 OPTION MLAN CN1 MIN gt lt 2 40476 A0477 A0478 C169 17777777 ini 100 5 U TOF amm 23 2 1040 IWI I2K IIIIIIIIIII O IIII IIIIIGIIIII m XV914 wl F IWIIII IIIR IAIIIIIIIWQII III I II IIIIIIIIIII 1036 607 CN15 to PLUG IN1 CN1 CN16 to PLUG IN2 CN1 2NA V357640 16 ES 29 1
76. 8 MFZN2BL 12X50 3 0X6 MFZN2BL K CB ENCODER S 75B 3 0X6 MFZN2BL LWS 1S 10P 550 KRD KRD 16P 750 KRD KRD 8P 400 KRD KRD 7P 450 KRD KRD 4P 100L S DM MVR P 1 0 L 26 430 5 300L S JK MVR 5P 450 KRD KRD 3P 200 KRD KRD 0 8 3 0X6 MFZN2BL 12X50 V3871 10 V387190 V387150 V409790 OCTAVE DOWN UP SCENE 1 2 ARPEGGIO HOLD ON OFF MODE VOICE PER FORM UTILITY CARD EDIT JOB PORTAMENTO ON OFF PHASE CLIP PITCH REC SEQ PLAY TEMPO PLAY STOP MODE STORE V409800 A D E H 1 4 5 8 EF BYPASS MASTER BOARD MEMORY PRE1 PRE2 INT EXT PLG1 PLG2 EXIT ENTER DEC NO INC YES V451160 V409770 VOLUME REVERB CHORUS ATTACK DECAY SUSTAIN RELEASE CONTROL PAN VEL RATE PITCH TEMPO A B C 1 2 PAGE DATA VK11400 VK12060 VK10980 434190 V381550 VK11090 VK10230 V387150 V388390 V419800 RANK J apan only WHEEL ASSEMBLY PART NO DESCRIPTION CS6X REMARKS VF536800 VQ546400 VC792800 CB819020 EW600110 VQ764300 VN245400 CB069250 New Parts V4579900 WHEEL ASSEMBLY Wheel Assembly Frame Wheel Wheel Spring Wheel Tube Stop Ring Rotary Variable Resistor Rotary Variable Resistor Connector Assembly Cord Holder 12 0 RK1631110T54A 10K 10 0K K161100S 5P 100L X WHEEL BK 1 V387160 _ Since 1999 11 01 Pitch Modulation V381
77. 8P 500L 10P 500L PH 5P SE PH 3P SE PH 3P TE PH 10P TE 8 TE PH 4P TE FM 5P SE 8 MHZ EFO FC8004A4 155133 176 55104 155133 176 55104 1FWJ43N 1FWJ43N REB161 9 5 PVB17 5 REB161 9 5 PVB17 5 DSS306 93F223Z1 MN101C027YB TD62785P SOURCE TD62381P TC74VHCT245AFT BUF 0 55 R 59 60 R 7 16 19 27 35 43 52 80 83 90 91 R 5 14 69 72 R 75 R 25 33 41 49 56 58 61 62 71 74 76 R 77 R 20 28 36 44 70 73 R 63 66 78 R 1 3 4 9 10 12 13 18 20 26 29 34 37 42 45 50 55 81 88 89 R 23 31 39 47 R 64 67 R 6 15 22 24 30 32 38 40 46 48 53 54 82 R 65 68 R 79 R 51 87 XH247G0 4 1 3 R 1 3 R 4 5 8 10 11 R 9 R 2 R 6 7 XV916B0 91630 91630 V381570 V381590 PAGE DATA CPU BUFFER RANK J apan only 13 CS6X PART NO DESCRIPTION REMARKS 078900 078900 078900 078900 VS704700 VS704700 VF771900 VZ085500 VZ085500 V3625500 V4102900 V4102900 FG644100 VB639900 V5220100 HF455100 HF456100 HF457100 V3579800 VD631600 VD631600 078900 078900 VS704700 VS704700 VZ085500 VZ085500 V3577200 078900 V3962800 RD255100 RD256100 RD257100 VT119800 VB927800 VB928000 VP204400 VU033000 VN103500 V4196000 VQ764300 VN245400 VF834100 V3484100 V3484200 VP 691000 VL785200 New Parts 14 Jumper Wire Jumper Wire Jumper Wire Jumper Wire LED LED Resistor Array Tact Switch
78. C IC IC IC IC Coil Chip Inductor Chip Inductance Chip Inductance Chip Inductance Chip Inductance Chip Inductance Chip Inductance Chip Inductance Chip Inductance Chip Inductance Chip Inductance Chip Inductance Chip Inductance Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor HD63B01YORCEOF TC74VHC245F M5M34051FP TC74HC4052AF TC74HC4052AF TC74HC14AF TP1 TC74HC74AF TC74HC74AF TC74HC14AF TP1 SC7SU04FEL 74 14 1 NJM4556AMT 1 HD74LVC139FPEL SN74HC273NSR SN74HC273NSR TC74VHC32F TC7S66F SN74HC245NSR TC74HC14AF TP1 PC410T TC203C760HF 002 UPC2933T E1 MSM514260C 60JS HD74LVC139FPEL MX23C6410TC 10 MX23C6410TC 10 MSM5118160D 60J MSM5118160D 60J 74 245 TC74VHC244F TC74VHC273F TC74VHCO4F TC74VHC32F MM1180ZT JG710069 UPD63200GS UPC4570G2 JG710069 UPD63200GS UPC4570G2 1800 2 UPC4570G2 NJM78L05UA NJM79L05UA TC74VHCOOF UPC4570G2 TC7W32FU TE12L TC74HC14AF TP1 TC74VHC245F DS90C402M TC74VHC157F BLM31A700SPT BK2125HS601 T BK2125HS601 T 2125 5601 1 2125 5601 2125 5601 2125 5601 BK2125HM601 T BK2125HS601 T BK2125HS601 T BK2125HS601 T BK2125HS601 T BK2125HS601 T 68X4 68X4 10KX4 10KX4 68X4 10 4 TRANSCEIVER LINE TRANSCEIVER MPX MPX INVERTER D FF D FF INVERTER INVERTER INVERTER OP AMP DEMULTIPLEXER D FF D FF OR ANALOG SW BUFFER I
79. CE PRE1 A01 1 T27 SWP Ch 27 SWP Ch From OUTPUT L the sound output is repeated until the EXIT switch is pressed via the SWP64Ch on the Master side to the L channel and via the SWP64Ch on the Slave side to the R channel Connect the plugs to OUTPUT L and R Observe the output waveform using the oscilloscope to check that the level of all channels is within the below specified range Set the master volume to the Max position OUTPUT L 1 kHz 1 5 Hz sine wave OUTPUT R 2 kHz 1 5 Hz sine wave Also the following message appears on the LCD during sound output 27 SWP Ch Mode 64 Chxxx xx x Sound outputting channel no Either 64 or 128 can be selected for the mode TEST END AUTO when the EXIT switch is pressed the sound output will stop MANUAL when the EXIT switch is pressed the sound output will stop and the mode select standby state will be set When the EXIT switch is pressed twice more testing will end 29 CS6X 30 28 EXIT LR Ext When testing is executed the following message will appear on the LCD 28 Exit NO or YES When YES is pressed testing will end When NO is pressed the entry screen for the AUTO and MANUAL modes will be restored D OTHERS When the test mode is cancelled the same sequence that occurred when turning on the power will be executed Check that the on off clicking noises of the main unit power swit
80. CN4 KONOO HMD 14 13 E 46 KONO1 35 ee 4 C158 12V 47 HMD 12 34 12 12 11 tS SWEMHMD 11 8 14217 SWPMHMDI 10 A D CONVERTER C solsvsLo fa SWPMHMD 9 TSS EDS y SWPM ADLR E C 54 1 SWPMHMD 8 IC68 C 52 29 SWPMHMD 7 1 PM SYSL2 HMD7 SW 1 UPC4570G2 53 3 8 SWPMHMD 6 SWPMRDI 2 2 171 A mos 27 5 SWPMADI 3 3 SWPMRDI 16 SWPM_CK256 3 E 55 5 143 5 SWPMHMD 4 5 4 4 SWPMAD 15 5A 25 SWPMHMDT3 SWPMADIS 5 SWPMADI 14 OP AMP 57 7 24 SW M MD e 8 E SBIKONIO 431 SWPMHMD 1 SWPMRDI 6 7 SWPMRD 13 1 5 DIE 2502712 206 KONI 4 SWPMHMD ED SWPMRD 12 Le 59 VDDEO vss121 2 5 8 SWPMAD 11 5A 057 1K m o SWPMRD 9 4C SWPMAD 10 50 SS355_TE 17 0 10 m O 0 0 01 nz tH Hi O x O G O O O lt f Hi H H H Hi H Hi H 0 0 01000010 11 D z J o nuo 03 1 s 6 s 03 DION C QI et Q UI eios wt lt t lt st 91 Q C3 SWPMRCASN o Q O O lt WU UU ww uj O D tu duosxasxaoagdaxzaxzxzaxzxzxazsaaooooaoaoooooooooooaoogaouqaooo
81. CONTROL SYNTHESIZER E SERVICE MANUAL r 5 SPECIFICATIONS 3 PANELLATOUT siria 4 CIRCUIT BOARD LAYOUT 0 1 5 BLOCK DIAGRAM 7 6 WIRING 7 DISASSEMBLY PROCEDURE 8 LSI PIN DESCRIPTION sic 10 IC BLOCK DIAGRAM 14 CIRCUIT BOARDS 16 TEST PROGRAM 21 31 MIDI DATA FORMAT 40 MIDI INPLEM ENTATION CHART 542040 eruere 44 PARTS LIST OVERALL CIRCUIT DIAGRAM SY 1011470 19991101 168000 YAMAHA HAM AMATSU J APAN 1 58K 3711 244 Printed J 99 11 CS6X 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 under stood 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 per sonal 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 t
82. Cntrls X O 121 Local ON OFF X X Mes All Notes OFF X O 123 125 sages Active Sense O O Reset x x Notes 1 receive if switch is on 2 15 always treated as 1 regardless of its value 3 CS6x only Mode 1 OMNI ON POLY Mode 2 OMNI ON MONO Yes Mode 3 OMNI OFF POLY Mode 4 OMNI OFF MONO X No CS6X YAMAHA Music Synthesizer seq part Date 13 JUL 1999 Model CS6x CS6R MIDI Implementation Chart Version 1 0 Function Transmitted Recognized Remarks Basic Default 1 16 x Memorised Channel Changed x x Mode Default x x Messages X x Altered kkkkkkxkkkkkkkxk x Note 0 127 x Number True voice XXXXXXX x Velocity Note ON 9nH v 1 127 x Note OFF X 9nH v 0 x After Key s Touch Ch s x Pitch Bend O X Control 0 121 O x Change Prog 0 127 x Change True ck k ck ck lt kc System Exclusive O X Common Song Pos X X Song Sel X X Tune x x System Clock 2 1 2 Real Time Commands O 2 O 2 All Sound x Aux Reset All Cntrls x Local ON OFF O x Mes All Notes OFF O sages Active Sense Reset x x Notes 1 if MIDI sync is midi 2 if MIDI control in is on Mode 1 OMNI ON POLY Mode 2 OMNI ON MONO Yes Mode 3 OMNI OFF POLY Mode 4 OMNI OFF MONO 45 CONTROL SYNTHESIZER EE PARTS LIST ll CONTENTS OVERALL ASSEMBLY
83. D14 D13 012 VCC77 D11 VSS79 D10 D9 D8 D7 D6 VCC85 D5 VSS87 D4 D3 D2 D1 DO VSS93 XTAL MD3 EXTAL MD2 NMI VCC99 FWP99 PA16 PA17 MD1 MDO PLLVCC PLLCAP PLLVSS PA15 RES TIOCOA PE1 PE2 VCC112 PES PE4 PES PE6 VSS117 ANO ANI AN2 AN3 AN4 ANS AVSS AN6 AN7 AVREF AVCC VSS129 RXDO TXDO IRQO RXD1 TXD1 VCC135 IRQ1 PE7 PE8 PE9 PE10 VSS141 PE11 PE12 PE13 Data bus Power supply Data bus Ground Data bus Power supply Data bus Ground Data bus Ground Crystal oscillator Mode select Crystal oscillator Mode select Non maskable interrupt Power supply Encoder 1B input Encoder 1A input Mode select Mode select PLL power supply PLL capacitor PLL ground CPU clock out Reset jack insert detect interrupt request input Smart MINS Model detection Power supply Smart busy input MLAN reset interrupt request input 1M clock out Model detection Ground Analog input Analog ground Analog input Analog reference voltage Analog power supply Ground MIDI input MIDI output Plug in sireal interrupt request input HOST input HOST output Power supply MLAN MIDI interrupt input Smart Vprt Input LCD data 0 input output LCD data 1 input output LCD data 2 input output Ground LCD data 3 input output LCD data 4 input output LCD data 5 input output CS6X e HD63B01 YORCEOF XM234A00 CPU PKS NO FUNCTION yo FUNCTION
84. ER LIP J aw i 1 o ol s 0 98 21 00 10 0 on HD RES1 HD_RES1 HD RES1 IC28 2 oly aby s Jaaa aaa aa a T ES TIE S SN74HC273NSR 3 MCPUD 5 1 38 MCPUA 2 Oi FL ADSCAN2 05 15959 MOLSON 0 0 lt gt MCPUCLKOUT 161 e o 35 MCPUA 1 SERI amp 44790 amp CLEAR 2 0 7 D6 A x DGND oo HOFE 9 lt gt 9 PKS_RES lt 216 edle T T Cc0 R w lt 210 MCPUD 7 M 9 9 gt gt B4 70 MCPUD 0 355 80 MCPUD 7 8 3 _ 15 vss33 33 34 1 s W 50 MCPUDI 1 ilap Solz 6 1 alp plz 1141 STRAGI y LCOD 6 2 PENE we pes lt 5 T ADSCAN LCD E lt E gt slvsss IC9 5531 21 CN15 Sus PLLVSs 106 2 392 2a 70 ea 5 9 Mrd PLLCAP 105 QE Sm pen 500 ADGAINC i SWSCAN_IRQ lt 5104 P lt 810 8 5 7 amp MLANINS CHK 4 LLCA Je 85 23 83 MCPUD 2 7 ha 5 MCPUD 40 7 14 PLUGIN IRG lt 7333 TX33 ps4 180 104 3D 6D 3D eD n 28 PLUGINB2_CTRIN R56 yy 1 AN LCDD Z 5 PLLVCC Ms 3 slo so 4 MCPUD 11 alan 3 12 2 MCPURD 2 RD GATE ARRAY Tt x RES yy 180 MCPUA 0 1 7 2 PLUGIN_RES lt
85. ERB SEND 93 CHORUS SEND PM 9 95 ASSIGNABLE CONTROLLER av B 127 The Sequencer Part will play back all the recorded control change messages RECEIVED CONTROL NUMBER 0 BANK SEL 5 amp w c 32 BANK SEL LSB ENM 3 MODULATION iv 5 PORTAMENTO TIME 47 6 DATA ENTRY MSB V 38 DATA ENTRY LSB PM c 7 MAIN VOLUME 10 iv 1 55 iv 31 EG SUSTAIN LEVEL Pow 64 0 127 63 2 c 64 SUSTAIN SWITCH 64 127 0N 65 PORTAMENTO SWITCH PM 64 127 0N c 66 SOSTENUTO 64 127 0N 7X HARMONIC CONTENT 64 0 127 63 72 EG RELEASE TIME Pv 64 0 127 63 73 EG ATTACK TIME Pv 64 0 127 63 c 74 BRIGHTNESS 64 B 127 63 75 EG DECAY TIME 64 0 127 63 84 CONTROL av 91 EFFECT1 DEPTH FW c 93 EFFECT3 DEPTH PM 96 DATA ENTRY INC PM 127 c 97 DATA ENTRY DEC 127 0 95 ASSIGNABLE CONTROLLER PM 0 127 9 95 ARPEGGIO SW 0 63 0FF 64 127 0N 0 95 ARPEGGIO HOLD ij 0 6 FF 64 127 0N 1 Used only when a value is set using RPN 2 Invalid with Drum Voices 3 Relation between BANK CHANGE and PROGRAM is as follows MSB CATEGORY LSB PROGRAM No Normal Voice Internal 10 10 127 1 128 Drum Voice Internal 1127 10 10 1 85 62 Normal Voice Preset 1 163 10 10 127 1 128 Preset 2 163 11 10 127 1 128 Internal 163 18 10 127 1 128 External 163 19 10 127 1 128
86. F223Z1 DSS306 93F223Z1 DSS306 93F223Z1 HD64F7045F24F 28F160S5 28F160S5 M5M51008CFP 70H M5M51008CFP 70H MSM514260C 60JS M62021FP TC74HC14AF TP1 MBCG46183 129 CPU FLASH RO FLASH RO SRAM 1M SRAM 1M DRAM 4M 911 0 914 0 XH247G0 916 0 916 0 916 0 917 0 XV915C0 911 0 V353210 M1 16M M2 16M SYSTEM RESET INVERTER GATE ARR RANK J only PART NO DESCRIPTION REMARKS CS6X XM234A00 XT487A00 XV103A00 XS790A00 XS790A00 XD657A00 XP003A00 XP003A00 XD657A00 1348 00 XD657A00 XQ138A00 XS048A00 XH223A00 XH223A00 XN963A00 XR682A00 XD838A00 XD657A00 VN686000 5725 00 5516 00 XV077A00 XS048A00 XW333A00 XW334A00 XV932A00 XV932A00 XV242A00 XT800A00 XN971A00 XM332A00 XN963A00 XP713A00 XM326B00 XM145A00 XF291A00 XM326B00 XM145A00 XF291A00 XU770A00 XF291A00 XJ 598A00 086 00 229 00 291 00 XQ173A00 XD657A00 XT487A00 XW357A00 XN966A00 VL139800 VR579900 VR579900 VR579900 VR579900 VR579900 VR579900 VQ724900 VR579900 VR579900 VR579900 VR579900 VR579900 44680 RE044680 RE047100 RE047100 RE044680 RE047100 New Parts IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC Photo Coupler IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC IC I
87. N103 to DM CN102 iA PE 9 MK88 on 10 44 d 6 410 1 px int O ukes e 9 hate T Kit oO 9 7412 c 1 tot Udi 1 1 as 1 4 12 P roZ LO 2 0 048 Or 0 44 D EE 8 4 te H ric t RE D ess in 9 5 4 s 15V ir a 9 69 re 9 1 6 a t DAD T 1 V 9 97 2 XJ U C V348410 V348420 CS6X CS6X 10 11 12 CS6X
88. NVERTER SWP30 REGULATOR 3 3V DRAM 4M DEMULTIPLEXER MASK ROM 64M MASK ROM 64M DRAM 16M DRAM 16M BUS TRANSCEIVER BUS BUFFER D FF INVERTER OR REGULATOR 3 3V DDE1 DDE1 OP AMP A D CONVERTER OP AMP REGULATOR 5V REGULATOR 5V NAND OP AMP OR INVERTER BUFFER LINE RECEIVER MULTIPLEXER RANK J apan only CS6X 10 PART NO DESCRIPTION REMARKS RE044680 RE047100 RE047100 RE047150 RE047150 RE047220 RE047220 RE047150 RE047150 RE047220 RE047100 RE047220 RE047220 RE047100 RE047100 RE044680 RE044680 RE044680 RE044680 RE047100 RE047100 RE048100 RE048100 VD303700 927200 927100 927200 927100 927100 VD303700 VD303700 927200 VD303700 VV762900 VY 681200 VV345500 VU171500 UB012390 UB012470 UB012680 UB013100 UB013150 UB013220 08013560 0 051220 UB051470 UB051680 UB052100 UB044100 UB044680 UB245100 927300 UF037100 New Parts Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Resistor Array Transistor Transistor Transistor Transistor Transistor Transistor Transistor Transistor Transistor
89. OH mmH 01H OOH 11H PITCH BEND SENSITIVITY 00H 18H 0 24 semitones MASTER FINE TUNE mmH 11H 00H 00 40 7 8192 100 8192 0 8192 100 8192 MASTER COARSE TUNE 28H 40H 58H 24 0 424 semitones RPN RESET RPN numbers will be left not designated The internal values are not affected 02H 00H REGISTERED PARAMETER NUMBER There are no applicable parameters TEM REAL TIME MESSAGES CTIVE SENSING STATUS 11111110 Transmitted at every 200 msec Once this code is received the instrument starts sensing When no status nor data is received for over approximately 350 ms MIDI receiving buffer will be cleared and the sounds currently played and the sustain switch are forcibly turned off In this case each control data will be reset to a certain value TEM EXCLUSIVE MESSAGE NIVERSAL NON REALTIME MESSAGE 6 1 1 GENERAL MIDI MODE ON FOH 7EH 7FH 09H 01H F7H Received only when SYSTEM Receive GM XG on is set to on in PERFORMANCE MODE The Part values will be reset according to the SYSTEM Internal Part settings 3 6 1 2 IDENTITY REQUEST Receive only FOH 7 OnH 06H 01H 7 n Device No However this instrument receives under omni 3 6 1 3 IDENTITY REPLY Transmit only FOH 06H 02H 43H OOH 41H OOH OOH 01 7 dd Device Number Code 56 5 03 CS6R 50 03 580 5 03 3 6
90. P New Parts POWER SUPPLY ASSEMBLY Power Supply Assembly Power Supply Assembly Shield Plate Power Supply Unit Power Supply Unit Bind Head Tapping Screw B Power Switch Assembly Push Switch Bind Head Tapping Screw B Connector Assembly AC IN Connector Bind Head Tapping Screw B Bind Head Tapping Screw S Cord Holder J E 3 0X6 MFZN2BL 3P 100L SDDLB1 3 0 6 MFZN2BL AC IN3P 2F 1 AC 01 02 3 0X8 MFZN2BL 4 0X8 MFZN2Y BK 1 CS6X J U JU E B with power SW with AC inlet V387130 V387140 V474280 VZ06880 V418560 RANK J only CS6X X X X ELECTRICAL PARTS PART NO DESCRIPTION REMARKS V3579100 V3579900 1912000 V3579500 V3579700 V3579600 V3579800 V3577200 V3579100 VN103600 LB918110 VB390800 VF283100 VF283300 VB390100 VB390600 VF283400 VB390500 VB390000 VB389900 VK690400 VB389800 VB390400 VE352600 VF283300 VB390300 VM673300 VB390000 VB390100 VB390400 VT332900 VT332900 VT332900 VT332900 VT332900 VT332900 5201100 VT332900 VT332900 VT332900 VT332900 VV220700 VV220700 VS201100 5201100 VT332900 VT332900 5201100 5201100 VT332900 VT332900 VT332900 VT332900 VV220700 VD542700 VD542700 VD542700 VD542700 XW419400 XW476300 XW477300 XV976A00 XV976A00 XV077A00 X1686A00 XD657A00 XV833A00 k New Parts ELECTRICAL PARTS Circuit Board Circuit
91. PEN MCPUCASL RES 0 5 410 RAAT 10 ang RA28 STN OTs MCPUDL20 44 MCPUAL 111 HOCTR CS1 5 ren ols gt asce 8 SWPM_SYOD MCPUCASH Sw 4 MCPUDI21 0 7 w 8 10 77 50 aa to DM2 3 J6 MCPURDWR z MCPUDI 22 4 CE 5 E MCPUA S DGND MCPURD OR C30 3 gt 1 lt WEM_HCLK DGND Di MCPUDI 23 7 3 4 MCPUA 8 TC7AVHC32F OR TC74HC 1 4AF to DM2 3 J6 Qe 3 DGND oly aly 25 lt Qi x9 24 25 10 12554 20K 4acPUAL7 SDE rete TC74HC14AF 88 4445 asada auda S yee MCRAE 4 R13 DI 5 5 gt HO RES2 Lhe ebb di bla MCPUDT25 d 9 5 MCPUAIS M to DM3 3 B5 ax O E BEI wceuD 27 7 me 3 4 MCPUAT4 ICB SN74HC245NSR ag exu Ema 5D TOT 7 14 DGND d sz sug FACE10Kx4 45 10K 4 5j 4 FLASH ROM2 16M S 1 ERG pesi 11 10 BEND xxi 22 6 1 ve 0 WM Qm OG 2559 R46 LOK lt MLAN_MIDI_IRG 25 3 7 MCPuAT2 FLASH ROM1 16M 199 16746 E E 2 mal 2 o olola aola 10K MCPUD SO 5 B 5 MCPUAI 1 Y I
92. PKS SI0 530 A 9 9 PKS_ST8 PKSB 8 p31 Bo 5_ 1 PKS S 1 3 4 1 4 pes h2 5 5171 C85 4 PKSBIS alos p32 PKS Sle essi E 0631 1 0 10 77 6 PKSBI 10 al 233 5 5 3 5131 7 1012 AVSS PKSB 11 4 PKS_ST4 i M5M3405 oly NC AVSS wE P34 PKS_SIS pks_s 4 PA35 15K 4 xls 929 FA 12 4 pas 6 529 AT BC FV 1 14 L_KNOB 0 4 PB RB RA32 PKSB 13 2555 pag 45 5 516 3 WA MCPU_TXD1 50 150 N PKSB 141 p37 PKS S 6i 5 B 4 xo 077 50 150 lt 7 10 5 PKS SI7 7 DGND 4 3 4 W557 P10 Me 5p C94 O tu C95 O tu R102 104 0 10 NW 101559 HD63B0 1 YORCEOF 1 RA36 22K 4 IC15 AT s we 11 554 2 iit wA TC74HC4052AF m IC16 pala T 12 PKSBI3 a KSB L Same iceo TC74HC40524F 74 4052 61 f 4 ls r AOS eer 10 4 FOOTSWS gt P52 CP PKSBI2 TC74HE14AF 7 OY VCC 4 1 505 58 gt Salen 3 E DGND 2 1 KNOB 4 iov expe bogia ole _2 lt 5 4 Tc 5 3 Doe L
93. Pees 22549 554558 42566253566 5268 E 56656266 S63 See 252 55 55 9 54424 63252 55 25222225 MIDI MIDI MIDI MIDI When NOTE OFF NOTE ON OFF 9nH CONTROL CHANGE 1 MODULATION 01H PORTAMENTO TIME 05H 1 DATA ENTRY MSB 06 DATA ENTRY LSB 26H 1 MAIN VOLUME 078 0 EXPRESSION 0BH 1 SUSTAIN SWITCH 40H PORTAMENTO SWITCH 41H SOSTENUTO 42H 1 47H EG RELEASE TIME BnH 48H 1 EG ATTACK TIME Bn 49H BRIGHTNESS EG DECAY TIME 4BH 1 PORTAMENTO CONTROL 54 EFFECT1 DEPTH 5BH EFFECT3 DEPTH 5DH 1 DATA ENTRY INC 60H DATA ENTRY DEC 61H 1 ASSIGNABLE CONTROLLER 00H RPN PITCH BEND SENS BnH 64H 1 FINE TUNING 64H COARSE TUNING 64H RPN RESET 64H 1 ALL SOUND OFF 78H RESET ALL CONTROLLERS BnH 79H 1 ALL NOTE OFF 7BH OMNI MODE OFF 7CH OMNI MODE 7DH 1 POLY MODE 7FH SW2 EG SUSTAIN LEVEL BnH 1FH SW8 BANK SEL MSB 00H 1 BANK SEL LSB 20H SW9 PROGRAM CHANGE CnH CHANNEL AFTER TOUCH DnH PITCH BEND CHANGE EnH SYSTEM EXCLUSIVE MESSAGE IDENTITY REQUEST FOH 7 REMOTE SWITCH FOH 43H SW12 GM MODE
94. R 1 kHz 5 Hz sine wave 15 0 2 dBm 10k ohm load Distortion 1 00 or less TEST END When the EXIT switch is pressed the sound output will stop and the next test number will be set T23 PLUG IN1 24 PLUG IN2 23 Plug In Connect the HARMONY PLUG ON boarding into the PLUG IN 1 slot After checking the connection of the PLG IN 1 slot the signal transmission and reception of the CONTROL LINE and the IN OUT of the MIDI LINE and MEL LINE check to ensure that the output level specified below is obtained at output L and R respectively Set the MASTER VOLUME knob to the Max position OUTPUT L 1 kHz 5 Hz sine wave 11 5 2 dBm 10k ohm load Distortion 1 00 or less OUTPUT R 1 kHz 5 Hz sine wave 11 5 2 dBm 10k ohm load Distortion 1 00 or less DISPLAY OF RESULTS OK Nochange in the message on display NG 3 Plug Inl NG 0 BOARD Error code Error code NG BOARD a board other than the VH board is loaded NO BOARD board is not loaded CONTROL CONTROL line failure TEST END When the EXIT switch is pressed the sound output will stop and the next test number will be set 25 mLAN 25 mLAN Connect the mLAN board to the mLAN slot and execute testing After checking the connection of the mLAN board the signal transmission and reception of the MIDI line the RESET request signal and the operation of OUT SWP30 of the MEL line by th
95. RWEN SWPMRA 0 81 xe UUUU q ololo 230 AGNO cla 9 8555 qs gt gt gt gt 8 uuruuu 8150 1513 121212 gt x 5911 JPLUGIN2 MELO to DM1 3 O8 4 to DM3 3 110 our gige gege z 3333 4 d 2123 z HIST RE 0 PLUGINI_MELO to DM1 3 8 5A NUM79LOSUA GU OR 5V 0005 0 12728 DI QJ lt Q K AKL lt 0160 z 4 055 szz Q 28CC1 8813230 3 A 1 DGND S 9 vo E 200 55 4 to DM3 3 J4 lt 22 SHH CS6X 2 28CC1 8813230 CS6X to DM3 3 45 lt 10 11 12 CS6X CIRCUIT DIAGRAM 3 4 DM3 3 AE88L AE AE88H CS6X
96. S Owner s Manual Data List Memory Card CD ROM AC Power Cord OPTIONAL ACCESSORIES PLG150 Plug in Boards Series PLG100 Plug in Boards Series FC4 5 Footswitch FC7 Foot Controller BC3 Breath Controller POWER CONSUMPTION 16watts OUTPUT IMPEDANCE Output 18 1 2dbm 10k ohms Phones 17 2 2dbm 33 ohms DIMENSIONS 1019 W 357 D x 109 H mm WEIGHT 11 6 kg CS6X PANEL LAYOUT Front panel N 0 7 9 24543 YAMAHA coma recs lt E OunurvOcnao e m 8 p Ex 566666000 4 i 5 Rear panel 0 3 0 O 789 h YAMAHA d po V 3 POWER switch 2 AC INLET terminal 3 CARD slot 4 MIDI IN OUT and THRU connectors 5 HOST SELECT switch 6 TO HOST terminal 2 BREATH jack FOOT SWITCH jack 9 SUSTAIN jack 9 FOOT CONTROLLER jack 01 FOOT VOLUME jack INDIVIDUAL OUTPUT 1 and 2 jacks 03 OUTPUT L MONO and R jack 04 PHONES jack
97. WEMLMAT7 SWPMLMA 4 adag SWPMLMDI 1 000 4955 33 LINE RECEIVER IC 100 SWPMLMA 1 igi Ras SWPMLMA 6 NG SWPMLMA 3 2 pales Swevcvota TC74HC14AF SWEM 121 14 5 spa SWeMLMATS YO SWPMLMAL2 _SWPMLMDIO m MULTIPLEXER lt sfido SWPMLMA 3 SWPMLMA 4 SWPMLMAT 1 Em os 0e lez 988 E 00 DGND 21 SWPMLMA 0 23 26 0 26100 21 22 AO __ diss i JEU SWPLMACSO 24 vss s 25 SWPM_MOEN DRAM 16M dio SWP_MCLKS DGND WROM 64M glo 77 1 74 14 DGND DGND m R148 10101 to DM3 3 B2 MES i SWP30_MLAN_SYW 8 2545 DGND DEND to DM1 3 G12 MCPUDTO 31 t DM1 3 C6 to IC9 14 0 21 MCPU_TXDO gt MLAN MIDIIN to DM1 3 L8 to DM1 3 A10 COM DS SWPM_SYOD SWPM_DACO SWPM_MELOO SWPM_MELO1 SWPM_MELO2 DEMULTIPLEXER 2 P 905580 q Og T o 0 10 50 e 7 gu SG 5 915411348436 ssssssssssss IC42 R145 052520 gt 1000 2255593999995 HD74LVC 139FP gt gt gt a s SWP 24 8141 wo 10 00000 121 HEMMA 24 ilig SIG SWEMAMA 221 e SWPMLMA 24 ay 200000 VEO m 86899
98. Y CARD EDIT JOB STORE VOLUME CUTOFF RESONANCE REVERB CHORUS PORTAMENTO PITCH ATTACK DECAY SUSTAIN RELEASE CONTROL PAN VEL RATE A B C 1 2 C 4 8 11 C 5 6 C 1 3 7 12 R 1 5 R 6 7 R 8 9 917 0 55 MASTER KEYBOARD EF BYPASS MASTER KEYBOARD EXIT ENTER DEC NO INC YES PRE1 PRE2 INT EXT PLG1 PLG2 A H 1 16 915 0 V457490 Pitch Modulation J U RANK J only CS6X 56 CIRCUIT DIAGRAM 1 4 DM1 3
99. alH 7 4CH 00H OOH 7EH OOH F7H MASTER VOLUME will be received 580 In the PERFORMANCE MODE PERFORMANCE all modes in the Play Mode when Voice Mode or ioned in SW7 above 3 TRANSMIT RECEIVE DATA 3 1 CHANNEL VOICE MESSAGES CS6R transmits BC and A C 1 2 of ASSIGNABLE CONTROLLER Sequencer Part 3 1 1 NOTE OFF and the data from the STATUS 1000nnnn 8nH n 0 15 CHANNEL NUMBER NOTE NUMBER k 0 C 2 127 68 VELOCITY Ovvvvvvv ignores v Receive only 3 1 2 NOTE ON OFF STATUS 1001nnnn 9nH 15 CHANNEL NUMBER NOTE NUMBER k 0 C 2 127 G8 VELOCITY Ovvvvvvv v0 NOTE ON Ovvvvvvv v 0 NOTE OFF 3 1 3 CONTROL CHANGE STATUS CONTROL NUMBER 0 CONTROL VALUE Ovvvvvvv TRANSMITTED CONTROL NUMBER 1011nnnn BnH n 15 CHANNEL NUMBER c 0 BANK SEL MSB 0 63 127 32 BANK SEL LSB i v 0 1 8 9 24 25 32 40 41 64 65 1 MODULATION PM 127 5 PORTAMENTO TIME PM 127 MAIN VOLUME 127 10 iv 127 e ii EXPRESSION PM 31 EG SUSTAIN LEVEL Pv 64 0 127 63 4 64 SUSTAIN SWITCH 65 SWITCH 64 127 0N 71 FILTER RESONANCE Pv 64 0 127 63 c 72 EG RELEASE TIME 64 0 gt 127 63 73 EG ATTACK TIME 64 0 127 63 74 FILTER CUTOFF FREQ 64 0 127 63 75 EG DECAY TIME Pv 64 0 127 63 91 REV
100. ave been displayed When the test result is NG refer to C TEST SELECTION WHEN AN ERROR HAS BEEN DETECTED T11 A KNOB 5 14 11 Knob5 14 Move each knob gradually in the following order Center 64 63 65 Left 127 126 127 Right 0 0 1 Center 64 63 65 according to the instruction on the LCD as shown below Check that the numbers change sequentially and that OK appears as the result Begin the check from the specified knob The mark gt will appear to the left of the value of the knob being checked 11 Knob5 14 Move Knob zzz yyy gt XXX XXX XXX XXX XXX current knob value yyy next target value ZZZ name of the Knob being checked Checking order ATK DCY SUS REL POR PCH SCN PAN ARP TMP DISPLAY OF RESULTS OK 11 Knob5 14 Move Knob zzz OK gt OK OK OK OK OK OK OK OK OK OK No change in the message on the display TEST END The test ends after the results have been displayed When the test result is NG refer to C TEST SELECTION WHEN AN ERROR HAS BEEN DETECTED T12 CONTROLLER 12 Controller current knob value Move the PITCH BENDER MODULATION WHEEL RIBBON and AFTER TOUCH controllers according to the instructions on the LCD as described below Check that the numbers change sequentially and that OK appears as the result PITCH BENDER move this
101. board by soldering solder using the connection terminals provided on the battery cells Never solder directly to the cells Perform the soldering as quickly as possible Never reverse the battery polarities when installing Do not short the batteries Do not attempt to recharge these batteries Do not disasemble the batteries Never heat batteries or throw them into fire ADVARSEL Lithiumbatteri Eksplosionsfare ved fejlagtig handtering Udskiftning ma kun ske med batteri af samme fabrikat og type lever det brugte batteri tilbage til leverandren VARNING Explosionsfara vid felaktigt batteribyte Anvand samma batterityp eller en ekvivalent typ som rekommenderas av apparattillverkaren Kassera anvant batteri enligt fabrikantens instruktion VAROITUS Paristo voi rajahtaa jos se on virheellisesti asennettu Vaihda paristo ainoastaan laitevalmistajan suosittelemaan tyyppiiin Havita kaytetty paristo valmistajan ohjeiden mukaisesti The following information complies with Dutch official Gazette 1995 45 ESSENTIALS OF ORDER ON THE COLLECTION OF BATTERIES Please refer to the diassembly procedure for the removal of Back up Battery Leest u voor het verwijderen van de backup batterij deze beschrijving WARNING CHEMICAL CONTENT NOTICE The solder used in the production of this product contains LEAD In addition other electrical electronic and or plastic Where applicable components may also contain traces of chemicals found
102. by the California Health and Welfare Agency and possibly other entities to cause cancer and or birth defects or other reproductive harm DO NOT PLACE SOLDER ELECTRICAL ELECTRONIC OR PLASTIC COMPONENTS IN YOUR MOUTH FOR ANY REASON WHAT SO EVER Avoid prolonged unprotected contact between solder and your skin When soldering do not inhale solder fumes or expose eyes to solder flux vapor If you come in contact with solder or components located inside the enclosure of this product wash your hands before handling food WARNING Components having special characteristics are marked AN and must be replaced with parts having specification equal to those originally installed CS6X SPECIFICATIONS KEYBOARD Number of Keys 61 Touch Initial touch Aftertouch TONE GENERATION SYSTEM Tone Generators 2 Phrase Clip Modular Synthesis Plug in System Polyphony Number of Voice Normal voices 256 Presets 128 Internals Users 128 Externals Memory Cards Drum voices 8 presets 2 Internals Users 2 Externals Memory Cards Plug in voices 64 x 2 Plug in Boards If installed Wave ROM 16 MByte PERFORMANCE Multi Timbres 20 16 Voice Parts Phrase Clip Part A D Input Part Plug in 1 2 Parts Number of Performance 128 Internals 64 Externals Master Keyboard Mode 4 Zones PHRASE CLIP Number of Clip 256 Max Number of Clip Kits 4 73 Keys 0 6 x 4 Kits Sampling 16 bits linear 44 1 kHz Memory 4 Mbyte
103. ch is as described below OUTPUT L R Less than 500 mV INDIV 1 2 Less than 500 mV PHONES L R Less than 500 mV Also with testing cancelled check the noise level when the voice play mode is set according to the factory settings and no note has been played to confirm that it satisfies the following conditions Take measurements with the voltmeter with JIS C filter connected OUTPUT L Less than 82 dBm 10k ohm load OUTPUT R Less than 82 dBm 10k ohm load INDIV 1 Less than 82 dBm 10k ohm load INDIV 2 Less than 82 dBm 10k ohm load PHONES L Less than 82 dBm 33k ohm load PHONES R Less than 82 dBm 33k ohm load E Short cut Functions 1 Turn on the power while pressing PRE1 and PRE2 and forced initialization will be executed FACTORY SET lt lt Executing gt gt 2 Turn on the power while pressing INT and EXT the version will then appear and the operating power will be restored about 5 seconds later gt gt gt gt VERSION Int ExtV lt lt lt lt 3 4 Turn on the power while pressing EXIT and ENTER and the system program will be loaded from SMART MEDIA and the operating power will be restored PROGRAM LOAD lt lt Executing gt gt Turn the power while pressing DEC and INC and the wave data will be loaded from SMART MEDIA and the operating power will be restored AVE LOAD lt lt Executing gt
104. e external clock check that OK appears Also confirm that a 900 Hz sine wave output is obtained as the final signal at OUTPUT L and R DISPLAY OF RESULTS OK mLAN OK 5 mLAN NG Error code Error code NO BOARD board is not loaded RESET errror in the reset request signal check MIDI MIDI line failure MEL MEL OUT line failure TEST END When the EXIT switch is pressed the sound output will stop and the next test number will be set T26 FACTORY SET 26 Factory Set This test is used to restore the factory settings When the test is executed the following message will appear on the LCD 26 Factory Set NO or YES Pressing YES will restore the factory settings Pressing NO will not restore the factory settings When the test ends properly the sine wave sound is output momentarily CS6X DISPLAY OF RESULTS When the factory settings are restored OK 26 Factory Set OK When the factory settings are not restored NG 26 Factory Set NO SET TEST END The test ends after the result is displayed FACTORY SETTING DATA After the factory settings are restored the following data will be set SYSTEM SETUP SYSTEM SETUP Initial valuse of the MIDI DATA specification INTERNAL VOICE FACTORY SET VOICE INTERNAL PERFORMANCE FACTORY PERFORMANCE MODE VOICE MODE VOI
105. ector Assembly Connector Assembly Connector Assembly ACCESSORIES AC Cord AC Cord AC Cord 3 0 8 MFZN2BL 3 0X8 MFZN2BL 5 15 3 0 8 MFZN2BL 3 0X8 MFZN2BL 3 0 8 MFZN2BL SMDO1 10KB 3 0X8 MFZN2BL 3 0 8 MFZN2BL 12X50m 5 758 3 0 8 MFZN2BL 205Y4179 3 0X6 3 0 8 MFZN2BL 3 0X6 LWS 1S UAMS 09 0 3 0 8 MFZN2BL 3 0X8 MFZN2BL 3 0 8 MFZN2BL FR25 15 12 1400L BK 1 DM CR2032 347 1 RIB FR25 15 12 1400L BK 1 JK 3 0X10 MFZN2BL FR25 15 12 1400L BK 1 11 5 DM PS 12P 600L DM KS A 13 11P500L DM KS B 15P 450 KRD KRD 9P 400 KRD KRD 4 400 300L DM KS A 15PX2PCS PULG CORE 5P 300 KRD KRD 4P 200L S DM JK J 7A 125V 2 5M CSA VDE Ribbon POWER ON OFF V387080 V387090 V387100 V387110 V388590 V387160 V475580 V441400 2154500 V387130 V387140 V387120 V474270 V388400 V481130 V478860 V381490 V381500 VK11170 VK10990 VS25210 VK10560 V417640 RANK Japan only PART DESCRIPTION CS6X 204400 VQ240200 V5389300 New Parts AC Cord Adapter AC Cord CD ROM Smart Media BS3 KPR 24 74min 12cm XW444B00 RANK J apan only CS6X PANEL ASSEMBLY DESCRIPTION REMARKS V3272300 VS863000 EP600230 V3579500 V4162700 V4162600 EP600230 CB069250 CB829850 V3579800
106. ector Base Post Connector Base Post Diode Diode LC Filter LC Filter IC IC IC Jumper Wire Jumper Wire Ceramic Capacitor F Ceramic Capacitor F Jumper Wire Jumper Wire Monolithic Ceramic cap Monolithic Ceramic cap Ceramic Capacitor Jumper Wire Ceramic Capacitor F Jumper Wire Ceramic Capacitor F Jumper Wire Phone Jack Phone Jack Phone Jack Phone Jack Phone Jack DIN Connector DIN Connector Phone Jack Phone Jack Phone Jack Phone Jack Phone Jack Coil Coil Coil Coil Connector Assembly Jumper Wire Slide Switch Transistor Transistor Transistor Rotary Variable Resistor GND Wire Ceramic Capacitor B Ceramic Capacitor B Ceramic Capacitor B Ceramic Capacitor B Ceramic Capacitor SL Ceramic Capacitor F Electrolytic Cap Electrolytic Cap Electrolytic Cap Electrolytic Cap Electrolytic Cap BP JKAD JKBC 1 0 55 5 5 5 8 15 5 9 155133 155176 155133 155176 LS MT Y223NB LS MT Y223NB NJM4556AD UPC4570C UPC4570C 0 55 0 55 0 01 0 01 0 55 0 55 01 50 27 T 52 01 50VZ T 52 0 01 50VZ 0 55 0 01 50VZ 0 55 0 01 50VZ 0 55 YKB21 5074 YKB21 5012 YKB21 5012 HLJ4416 JACK HLJ4416 JACK 3 DIN YKF51 5041 DIN 8P MD S813 YKB21 5012 YKB21 5012 YKB21 5074 YKB21 5074 ST HSJ0912 01 01 FL5R200QNT FL5R200QNT FL5R200QNT FL5R200QNT JKB 4 529585295 0 55 SSSF144 S06N 0 2
107. he appointed service representative IMPORTANT This presentation or sale of this manual to any individual or firm does not constitute authorization certifi cation recognition of any applicable technical capabilities or establish a principal agent relationship of any form 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 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 IMPORTANT Turn the unit OFF during disassembly and parts replacement Recheck all work before you apply power to the unit LITHIUM BA TTER Y 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 pre cautions when handling or replacing lithium batteries Leave lithium battery replacement to qualified service personnel Always replace with batteries of the same type When installing on the PC
108. ip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Carbon Resistor chip Metal Oxide Film Resistor Metal Oxide Film Resistor Circuit Board 47 16V 100 16V 4 7 25V 1 50V 3 3 50V 220 16V UUR1C2 47 25V UURIE4 220 25V UUR1E2 2200 10 0V 100 00 10 0V 220 00 10 0V 4 7 1 4 J 470 0 1 4 J 0 0 0 0 J 10 0 0 1 J 68 0 0 1 J 82 0 0 1 J 100 0 0 1 J 120 0 0 1 J 150 0 0 1 J 180 0 0 1 J 220 0 0 1 J 470 0 0 1 J 680 0 0 1 J 100 0 110 D 1 0K 0 1 J 3 3K 0 1 J 4 7K 0 1 J 6 8K 0 1 J _10 0 0 1 J 220K0 1J 33 0 0 1 J 47 0K 0 1 J 68 0K 0 1 J 100 0K 0 1 J 220 0K 0 1 J 470 0K 0 1 J 680 0K 0 1 J 10 0K 1 10 D 120 0 1WJ 360 0 1WJ JK 316 329 332 24 41 44 167 247 249 250 267 269 270 605 219 285 286 323 32 29 20 21 47 117 118 308 309 313 C 307 328 C 20 C 139 159 169 175 194 196 201 604 C 142 144 200 202 216 R 67 R 231 232 R 66 93 132 141 142 150 151 215 261 272 277 290 302 500 503 515 531 532 R 121 128 R 6 8 97 98 143 144 537 542 R 83 R 62 100 101 116 136 148 230 269 271 298 506 507 514 R 258 R 235 56 61 63 65 96 114 115 117 5 26 29 124 R 304 R 2 35 259 268 R 504 505 18 25 30 31 55 70 73 76 79 81 82 86 102 103
109. l pop up Druk de batterij naar beneden zoals aangeven in de tekening de batterij springt dan naar voren Battety holder 17 CS6X RIB Circuit Board RV Circuit Board CN15 from RIBBON CN9 to PNA CN8 CN10 to DM CN6 CN11 to DM CN14 CN14 to DM CN9 AHAMAY 916 CN14 to DM CN9 Component side Component side PNA Circuit Board CN1 CN2 CN7 CN8 to DM CN19 to JK CN1 CN3 to DM CN7 CN5 to PNB CN12 6146 to PNB CN13 CN4 to DM CN17 to JK CN6 to RV CN9 290 i i mmi m Component side RIB RV PNA 2NA V357940 18 PNB 2NA V357980 SM 2NA V357710 AN PNB Circuit Board CN12 to PNA CN5 CN13 to PNA CN6 SM Circuit Board CN1 to DM CN22 U LITOP A0476
110. ncy counter oscilloscope and AC voltmeter with a JIS C filter CS6X Set the master volume to Max and check that the following signals are output from OUTPUT L INDIV 1 and 2 and PHONES L OUTPUT L 1kHz 1 5 Hz sine wave 6 0 2 dBm 10k ohm load OUTPUT R 72 dBm or less 10 kohm load INDIV 1 1 kHz 1 5 Hz sine wave 6 0 2 dBm 10 kohm load INDIV 2 72 dBm or less 10 kohm load PHONES L 1 kHz sine wave 5 0 2 dBm 83 ohm load PHONES R 64 dBm or less 33 ohm load While sound is being output the following message appears on the LCD 18 To Host NG DISPLAY OF RESULTS TEST END AUTO when the INC switch is pressed the sound output will stop and the next test will be executed MANUAL when the EXIT switch is pressed testing will end the initial display will be restored and the next test number will be set T20 1 OUTPUT R 18 To Host NG TIMEOUT Insert plugs into OUTPUT L OUTPUT R PHONES L and PHONES R and then connect the oscilloscope and AC voltmeter with a JIS C filter Set the master volume to the Max position Check that signals are output at OUTPUT L OUTPUT R PHONES L and PHONES R as described below At this time signals are output at MEL for mLAN as well OUTPUT L 72 dBm or less 10k ohm load OUTPUT R 1 KHZ 41 5 Hz sine wave 6 0 2 dBm 10k ohm load INDIV 1 72 dBm or less 10k ohm load INDIV 2 1kHz 1 5 Hz sine wave 6 0
111. next switch CS6X If the wrong switch is pressed NG will appear and no sine wave will be output If the correct switch is pressed after that testing will proceed to the next switch If the test results for all switches are satisfactory OK will appear The switches are checked in the following order VOICE gt PERFORM gt STORE gt UTILITY gt CARD gt SEQ gt EDIT gt JOB gt PLAY STP gt SHIFT gt EF BYPS gt MASTER gt EXIT ENTER gt DEC NO gt INC YES gt PRE1 gt PRE2 gt INT gt EXT gt PLG1 gt PLG2 gt Q ACCESS gt A gt B gt C gt D gt E gt F gt G gt H gt 1 gt 2 gt 3 gt 4 gt 5 gt 6 gt 7 gt 8 gt 9 gt 10 gt 11 gt 12 gt 13 gt 14 gt 15 gt 16 DISPLAY OF RESULTS OK 05 Panel Switch LED OK 5 Panel Switch LED NG Push xxxxxxxx TEST END If the test results of all switches are satisfactory OK will appear and testing will end T6 ENCODER 06 Encoder While turning the JOG first clockwise and then counterclockwise 32 according to the LCD instruction as shown below check that the number increases and decreases sequentially and that OK appears as the result 06 Encoder Page yyyy Data yyyy XXXX XX X X target value OK appears after checking X current value DISPLAY OF RESULTS OK 06 Encoder Page Data OK OK XXX X XX
112. nge of 2 7 V to 3 5 V DISPLAY OF RESULTS OK 02 RAM Battery OK OK 02 RAM Battery OK OK 02 RAM Battery High NG V TEST END The test ends after the result is displayed T3 WAVE ROM 03 Wave ROM This test compares each wave ROM data DISPLAY OF RESULTS 03 Wave ROM 1645 1043 10486 1644 OK OK OK OK Wave ROM 1045 1043 1046 16044 NG OK OK NG OK If any IC is NG the test result will be NG NG 03 TEST END The test ends after the result is displayed 4 LCD 04 LCD Blink This test is used to check that all dots on the LCD blink on and off alternately at approximately 1 second intervals and that the back light of the LCD lights up TEST END AUTO MODE Press the 1 switch to end the test and proceed to the next test MANUAL MODE Press the EXIT switch to end the test the initial display will appear and the next test number will be set T5 PANEL SWITCH LED 05 Panel Switch LED This test checks that all switches function properly when the panel switches are turned on and off according to the instructions displayed If the switch is connected to the LED it also checks that the corresponding LED lights up 05 Panel Switch LED Push xxxxxxxx XXX XXXX xX SWITCH If the test result is satisfactory the sine wave is output while the switch is on and the test will proceed to checking the
113. nput Series input Channel L series nput Clock io sem mp me to mem 1 2 3 4 5 6 7 8 Master clock Sync signal Signal input Signal input Ground Mode select Mode select 1 bit shift up input Ws Latch enable for DAC Power supply Output DAC Output DAC Clock for DAC Initial clear 11 CS6X TC203C760HF 002 XS725A00 SWP30B AWM Tone Generator coped with MEG Standard Wave Processor ue NAME FUNCTION NO NAME VO FUNCTION 1 Vss Ground 121 vss Ground 2 CAO 1 122 HMDO VO 3 1 123 HMD1 4 2 1 124 HMD2 5 1 125 HMD3 VO 6 CA4 1 126 HMD4 7 5 1 Address bus of internal register 127 HMD5 8 CA6 1 128 HMD6 vO Wave memory data bus Upper 16 bits 9 7 1 129 HMD7 10 1 130 HMD8 VO 11 9 1 131 HMD9 vO 12 10 1 132 HMD10 13 11 133 HMD11 14 VSS Ground 134 HMD12 vO 15 135 HMD13 16 CD1 136 HMD14 yo 17 CD2 137 HMD15 yo 18 CD3 138 VSS Ground 19 CD4 139 20 CD5 140 HMA1 21 CD6 141 2 22 CD7 142 23 CD8 yo Data bus of internal register 143 HMA4 24 CD9 144 5 25 CD10 145 HMA6 26 CD11 146 HMA7 27 CD12 147 28 CD13 148 9 29 CD14 149 HMA10 30 VDD Power supply 150 VDD Power supply 31 VSS Ground 151 VSS Ground 32 CD15
114. nts frequency counter oscilloscope AC voltmeter JIS C curve type distortion meter Jigs with flat filter keyboard amplifier etc MIDI cable specially designed expansion board etc CS6X 21 CS6X 22 A HOWTO ENTER THE TEST PROGRAM While pressing the VOICE PERFORM and STORE switches turn on the POWER ON OFF switch The following message will then appear EDI T AUTO JOB MANUAL TEST 476 IntV ExtV EXIT Exit CARD F SET In this state pressing the EXIT switch will cancel the test mode and restore the normal state B PROCEEDING THROUGH THE TEST PROGRAM AUTO MODE When the test program is started the following display will appear 01 RAM R W TEST 476 IntV 01165 EXIT Exit AUTO MODE Select the test number using the DEC NO and INC YES switches Press the ENTER switch to execute the tests one after another starting from the currently selected number If the test result is OK the next test will be selected and executed sequentially If an error occurs an error message will appear and the test will be discontinued After pressing the EXIT switch choose an appropriate measure to deal with the error by using the ENTER INC YES or EXIT switch Pressing the ENTER switch will automatically execute the test from where the error occurred Pressing the INC YES switch the test will automatically restart at
115. number will be set For the procedure to take when the test result is NG refer to C TEST SELECTION WHEN AN ERROR HAS BEEN DETECTED T22 A D gt D A A D D A Gain This test is used to check the signal passage from the A D input to the D A output GAIN is set to LINE 1 in the initial settings Input a 1 kHz 55 Hz 6 0 dBm 0 dBm sine wave signal to each signal passage through the A D input in the order described below Check that the output level specified below is obtained at the output L and R respectively Set the A D INPUT VOLUME knob to the Max position A D D A Gain LINE1 LINE 1 LINE 2 MIC 1 and MIC 2 can be selected by using DEC and INC With LINE 1 GAIN LINE applies and the signal input through the A D will be output at the D A as is With LINE 2 GAIN LINE applies and the level of the signal input through the A D will be lowered to the specification of the main unit 12dB and then output at the D A With MIC 1 GAIN MIC applies and the signal input through the A D will be output at the D A as is With MIC 2 GAIN MIC applies and the level of the signal input through the A D will be lowered to the specification of the main unit 12dB and then output at the D A When GAIN Line 1 move the A D INPUT VOLUME knob and check that the sound volume varies OUTPUT L 1 kHz 5 Hz sine wave 15 0 2 dBm 10k ohm load Distortion 1 00 or less OUTPUT
116. pply 20 RX2 Receive Data 2 44 DO VO 21 TX2 BO2 O Transmit Data 2 45 D1 VO 22 7 30 Receive Data 30 46 D2 yo Data Bus 23 Tx30 O Transmit Data 30 47 D3 VO 24 Rx31 Receive Data 31 48 D4 O 13 CS6X PCM1800 XU770A00 A D Converter FUNCTION FUNCTION Analog input L ch Reference 1 decoupling cap Reference decoupling common Reference 2 decoupling cap Analog input R ch Reset input active L LCF bypass control Audio data format 0 Audio data format 1 Master Slave mode selection 0 Master Slave mode selection 1 Frame sync input output BLOCK DIAGRAM TC74VHC00F XT229A00 1 73 1054 MAND Inverter 3 gt O 6 5 55 TC74LVC139FPEL XS048A00 TC74VHC157FF XN966A00 26 1042 103 Demultiplexer Multiplexer 14 XM332A00 Sampling clock input output Bit clock input output Audio data output System clock input Digital ground Power supply 5V Anti aliasing filter cap R ch Anti aliasing filter cap R ch Anti aliasing filter cap L ch Anti aliasing filter cap L ch Analog power supply Analog ground TC74VH32F XN963A00 IC29 1 55 OR 4 4Y 3B 3A 3Y TC74VHC244F XT800A00 IC51 Bus Buffer GND Vss
117. r Carbon Resistor Carbon Resistor Carbon Resistor Carbon Resistor Carbon Resistor Carbon Resistor Carbon Resistor Carbon Resistor Carbon Resistor Carbon Resistor Circuit Board Adhesive Tape Jumper Wire Base Post Connector Base Post Connector Base Post Connector Diode Diode IC Connector Trimmer Potentiometer Trimmer Potentiometer Electrolytic Cap Semiconductive Cera Cap Carbon Resistor Carbon Resistor Carbon Resistor Carbon Resistor Carbon Resistor Circuit Board Circuit Board Circuit Board Connector Base Post Connector Base Post Connector Base Post Connector Base Post Connector Assembly Connector Assembly Connector Base Post Connector Base Post Connector Base Post Connector Base Post Connector Base Post Connector Base Post FFC Connector Ceramic Resonator Diode Diode Shot Key Diode Shot Key Diode Rotary Encoder Rotary Encoder LC Filter IC Transistor Array Transistor Array IC Jumper Wire 56 0 1 4 J 100 0 1 4 J 220 0 1 4 J 470 0 1 4 J 1 0K 1 4 J 1 8K 1 4 J 2 7K 1 4 J 4 7K 1 4 J 10 0K 1 4 J 12 0K 1 4 J 22 0K 1 4 J 47 0K 1 4 J 100 0K 1 4 J 220 0K 1 4 J 1 0M 1 4 J MK 24mm 330m 0 55 53014 3P TE 53014 11P TE 53014 12P TE 188133 188176 188133 188176 RC4558D V FRG B100 0K 37 VZO 500 0 3P VZO 47 00 10 0V 01 25 2 150 0 1 4 J 1 0K 1 4 J 2 2K 1 4 J 6 8K 1 4 J 47 0K 1 4 J PNA RIB RV 4 SE PH 5P SE PH 16P SE PH 7P SE
118. r more Less than 3 5V WAVE ROM OK NG T4 LCD ON OFF blinking alternately 5 PANEL SWITCH LED OK NG T6 ENCODER OK 0 to 127 0 to 127 7 KEYBOARD OK KEY CODE KEY TOUCH T8 KNOB A 2 OK NG 64 127 0 64 T10 KNOB 1 4 OK NG 64 127 0 64 111 KNOB 5 14 OK NG 64 127 0 64 T12 CONTROLLER OK NG 64 127 0 64 PB 0 127 0 MW 0 107 0 AT T13 FOOT CONTROL SWITCH OK 0 127 0 114 BREATH CONTROLLER OK NG 127 0 127 T15 CARD OK NG 116 MIDI IN OUT THRU OK NG THRU Confirmation T17 HOST SELECT OK NG T18 TO HOST OK NG OUTPUT L 6 0 2 dBm OUTPUT R Less than 72 0 dBm 10 kohm load T19 1 KHz OUTPUT L INDIV 1 6 0 2 dBm INDIV 2 Less than 72 0 dBm 10 kohm load PHONES L 5 0 2 dBm PHONES R Less than 64 0 dBm 33 ohm load OUTPUT L Less than 72 0 dBm 10 kohm load OUTPUT R 46 0 2 dBm 120 1kHz OUTPUT R INDIV 1 Less than 72 0 dBm 10 kohm load INDIV 2 6 0 2 dBm PHONES L Less than 64 0 dBm 33 ohm load PHONES R 5 0 2 dBm T21 A D LEVEL JACK OK 122 A D gt D A OUTPUT L R 15 0 2 dBm Line 10 kohm 123 PLUG IN1 OUTPUT L 11 5 2 dBm 10 T24 PLUG IN2 OUTPUT L 11 5 2 dBm 10 T25 mLAN OK NG T26 FACTORY SET OK NG Initialized state T27 SWP CH 1 kHz sine wave OUTPUT L R Less than 82 0 dBm 10 kohm load T28 EXIT NOISE LEVEL PHONES L R Less than 85 0 dBm 33 ohm load Measuring instrume
119. the test following the one where the error occurred Pressing the EXIT switch will execute T28 EXIT and the testing will come to an end MANUAL MODE When the test program is started the following display will appear 01 RAM R W TEST 476 IntV ExtV EXIT Ex i t MANUAL MODE Select the test number using the DEC NO and INC YES switches Press the ENTER switch to execute the currently selected test After the test press the EXIT switch to set to standby mode When the EXIT switch is pressed again T28 EXIT will be executed C TESTSELECTION WHEN AN ERROR HAS BEEN DETECTED When the test result has been judged as NG in each of the following tests choose whether to execute the same test or to proceed to the next test AUTO MODE Press the EXIT switch to set to the error processing state MANUAL MODE Press the EXIT switch to set to the next test number This procedure however is not applicable to the T5 PANEL SWITCH test T1 RAM READ WRITE 01 RAM R W This test is used to check the write read verify functions of the main CPU SRAM DISPLAY OF RESULTS OK RAM R W SRAM OK 01 RAM RA SRAM NG NG TEST END The test ends after the result is displayed OTHER All RAM data are stored in the memory T2 RAM BATTERY 02 RAM Battery This test checks if the RAM backup battery voltage is within the ra
120. will be output If the switch is initially at the MIDI position move it to any other position and then return it to the MIDI position DISPLAY OF RESULTS OK 19 PCM SIN 1kHz L ON No change in the message on the display TEST END When the test results of all switches are satisfactory OK will appear on the LCD and the testing will end When the test result is NG refer to TEST SELECTION WHEN AN ERROR HAS BEEN DETECTED T18 TO HOST 20 PCM SIN 1kHz R Connect pin No 3 to pin No 5 and connect pin No 6 to No 8 and then execute testing Operate the HOST SELECT switch according to the instruction on the LCD and check that OK appears when MIDI is reached at the end When the HOST SELECT switch is set to the MIDI position the SET HOST Sw MAC message will appear Next set the HOST SELECT switch of the main unit to MAC to begin testing DISPLAY OF RESULTS PCM SIN 1kHz R ON NG 17 Host Select OK When unexpected data is received NG 18 To Host When reception is not completed within the specified time TEST END The test ends after the result is displayed When the test result is NG refer to C TEST SELECTION WHEN AN ERROR HAS BEEN DETECTED T19 1 OUTPUT L 18 To Host OK Insert plugs into OUTPUT L OUTPUT R INDIV 1 INDIV 2 PHONES L and PHONES R and then connect the freque

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