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Yamaha TXn/ACD1 Specifications

1. koi pei Nei pei kei pei ie NAJS 00 2 2 2 2 2 e e kei pei k i pei k i pei ie o e e on koi pei Nei pei kei pei ie NJSM c c oe oo e e en mx pb eo t lo o jo um o om n ia 27 Appendix Parameter Table Fader YAMAHA A fader table of to 10dB Data Value Value Inf dB 138 00d 193 4600dB 257 3500dB 66 7140dB 130 58 60a8 194 45 80aB 258 132 00d 195 45 60dB 259 129 00aB 68 71 0008 132 5820 196 45 136 0048 69 70 8008 133 S amp oodB 197 45 261 2123 008 2120 008 199 263 117 006 0 9 70 0008 137 5720dB 20 10 aooaa 74 60 8008 138 5700 202 266 204 268 43 6008 43 40aB 270 16 9soodB 68
2. 107008 873 75008 937 43008 100i 1 100B sss 2325 622 20 0508 686 168508 750 136508 814 1045 878 7258 942 1006 085 3e 215a x 19 9508 688 167508 752 816 10358 880 944 1008 075 230085 es 19 9008 689 167008 753 135008 817 103008 881 945 39008 1009 0 700B 2058 ex 19 8508 60 754 134508 818 10250B 946 38508 1010 0 650B 522 250 21 8508 eso 186508 i4 15458 776 2258 842 20s 906 5858 970 265 525 21 7008 153008 781 12 100B 89008 909 57008 973 2500 526 590 21 6508 654 184508 718 152508 782 1205 s46 974 245 52 396 213508 660 181508 724 149508 788 852 916 __ 1548 Es 598 212508 662 180508 726 854 918 52508 205dh sss 24258B 602 210508 666 730 146508 74 858 82508 022 _ 185 Eu eos 20 9008 660 73 i4soaB s61 025 49008 089 1 700B sz 405aB 606 20 8508
3. Enable 0 490 2 320 92 1 0 490 2 320 2 1 0 490 2 1 o 0 Disable I Enable 01 Ch B 1 Speaker Ouiput Power Alert Max Threshold 31001 26501 2200 1 0 Enable 0 0 0 9 6200 2 0 1 0 0 5300 2 9 1 0 4400 2 1 0 Disable 1 Enable 00 Ch 01 Ch B 1 PCN AMP PCN common Speaker Output Imp 1 Power Amp Mod 2 Power Amp Alert Max Threshold value x 0 1 ohms 0 0 250 0 ohms lex 95 6 ohms 956 Alert Min Threshold x 0 1 ohms 0 0 250 0 ohms ex 95 6 ohms 956 Enable tereo or Parallel ridge 0 Standby On 0 UnMuted 1 Muted Attenuation 805 value x 0 1 dB Sstep 720 80 0 0 0 dB 0 5 dB step lex 36 5 dBFS 365 Polarity 0 Normal I lnverted Analog Input Voltage Alert Max Threshold value x 0 1 dBFS 80 0 0 0 dBFS lex 42 3 dBFS 423 Enable 0 Disable 1 Enable Alert Max Threshold Step 5 PCN AMP Model dependent Link T Link On 0 Disable 1 Enable Tn PCN Status Common 1 Power Amp 2 Power Amp ridge stereo or Parallel Protecting 0 Not pr
4. TXn ACD1 Remote Control Protocol Specifications V1 12 The TXn ACDI will return two lines of character strings if successful The first line will have a character string GCS The second line will have a character string SCN Scene and t he Scene 7 takes either a scene number from 1 to 999 or number 0 The scene number 0 indicates that a scene has not been recalled no current scene The first character string can be ignored for the controller The TXn ACDI will return a one line character string of GCS ERR if unsuccessful E g ACK when Scene 4 is returned by obtaining a current scene number GCS OK CSN 04 The character string stands for Current Scene Number ACK when no scene is returned by obtaining a current scene number GCS OK CSN 00 ACK is unsuccessful in obtaining a current scene number GCS ERR 18 GSN Used to obtain a scene name Command Option TXWVACDI s if successful GSN AMP ID Scene GSN OK GSN ERR SNM AMP ID Scene Scene name The command name stands for Get Scene Name This command will enable the user to obtain a TXn ACDI scene name of a specified number from the controller If sending to a TXn AMP ID is always 0 If sending to an ACD1 AMP ID is the AMP ID 0 to 39 assigned to the amp to be controlled Scene will have an appropriate number converted to a character string One or more spaces are needed between the command and the option an
5. n 10 40dB 10 35d 10 30d 10 25dB Iz E vs 72548 742 40548 806 0 85 870 80 3 9548 7 681 745 996 23548 934 5 55dB 998 8 75dB 240dB 935 5 6098 999 8 80dB 2 45dB 5 6548 1000 8 85dB 2 50dB 937 5 7048 1001 2 55 13 45dB 555 13 40dB 9 620 10 20dB 10 15dB 3 90dB 0 7048 873 682 7 05 746 7 00dB 8 90dB 2 55dB 938 5 75dB 1002 2 60dB 5 80dB M ele 92 io bo oju aja w w 55 A 55 621 10 10dB 10 05dB 3 85 810 0 65 874 68 74 6 95dB 748 3 75 812 0 55 8 95dB 939 1003 2 65dB 13 25dB 13 20dB 559 622 623 10 00dB 624 9 95dB 875 684 7 6 85dB 750 3 65 814 0454 9 00dB 940 5 85dB 1004 2 75dB 7 8 1 13 15dB 13 10dB 56 562 5 9 90dB 563 13 05dB 13 00dB 62 626 9 85dB 62 9 80dB 5dB 7 628 3 876 685 7 6 75dB 752 3 55dB 816 0 35dB 88 6 70dB 753 3 50dB 817 0 30dB 88 1 8 6 9 70dB 9 65dB 7 877 686 6 6548 754 3 45dB 8 0 25dB 882 6 60dB 5 3 40dB 9 0 20dB 83 7 1 29 630 631 9 60dB 632 9 55dB 878 68 879 688 8 5 8 5548 756 33sdB 820 0 15dB 884 6 45 758 32saB 822 0 05 886 696 9 65dB Ll 633 634 9 50dB 9 45dB 689 690 0 00dB 87 6 35 760 3 1548 824
6. 0 0 250 0 ohms LF Detected Imp Result 0 Calibration State Start Stop 0 0 Speaker Output Voltage Above High Threshold value x 0 1 ohms 0 0 250 0 ohms alibration signal chain 0 Stop Start TN npu a Above threshold level checi 0 00 00 0 00 Speaker Output Power Above High Threshold 0 Above High Threshold 0 Below Low Threshold 0 0 Speaker Output Imp Clip Limiter Clipping 1 1 0 below threshold leve U Not above threshold level Above threshold level U Not above threshold leve Above threshold level U Not Chipping Cliping 00 00 00 00 00 00 c e e Appendix Parameter Amp Protection Limiter Limiting 0 Execution 0 PowerSequencer 0 Not limiting Limiting 0 Idle activity 2 Executing power sequencer 19 Meter TXn TXn AMP ____ 40 0 45 0 dBu 12 6 dBu 126 2 SP Out B 3 Impedance A 340 51 0 dBul 18 6 dBu 126 0 an O ohms 4 Impedance B 5 SP Out Power A 6 SP Out Power B SP Out Gain Reduction A 8 SP Out Gain Reduction B Analog Input zr Input B Slot Input A 00 00 00 MM 3 Power Amplifier Mode Slot Input B Bridge Others 1 2 Speaker Processor Ach Output Eu 1 Level 1920 OSC MIX PG
7. 0 UnMuted 1 Muted XH Status Protection Protecting 0 Not protecting L Protecting 02 00 Eds Speaker Output Voltage Appendix Parameter ACDI amp control Above High Threshold 0 n ERR Execution 4 Not above threshold level 1 Above threshold level Executing power sequencer 23 Meter ACD1 Amp Control Tn AMP SP Out A 170 430 dBu value x 0 1 dBu ex 12 6 dBu 126 SP Out 110 490 o o mpedance value x 0 TTohms 2500 ohms oo Impedance B 0 0 250 0 ohms ex 95 6 ohms 956 o foo Speaker output power table o jo m Analog Input 240 dBu value x 0 1 dBu ex I2 6 dBu 126 8 Analog Input PCN AMP 1 SPOut A 180 420 dBu value x 0 1 dBu ex 12 6 dBu 126 Toe B 0 0 250 0fohms ex 95 6 ohms 056 00 5 Power A See Speaker output power table 6 pem 00 lot Jo 7 A dBu value x 0 I dBu ex 12 6 4 126 o Input B XP AMP SP Out A 180 420 dBu value x 0 1 dBu ex I2 6 dBu 126 SPOutB 120 9 480 XM AMP 1 SP Out A 180 420 dBu value x 0 1 dBu ex 12 6 dBu 126 ame XH AMP SP Out A 180 420 dBu value x 0 1 dBu ex 12 6 dBu 126 SP Out B 120 480 ACD1 AMP Model dependent Speaker Output Power value W ex 598 W
8. YAMAHA TXn ACDI Remote Control Protocol Specifications Version 1 12 2nd edition Release dates 2011 12 01 This document relates to Firmware of TXn V1 30 ACDI 1 12 or later commercial eudio TXn ACD1 Remote Control Protocol Specifications V 1 12 1 YAMAHA 1 Setup 1 1 Connection When using this protocol to carry out remote control through the NETWORK connector connect as follows Ethernet Network Ethernet Switch Remote Controller Ethernet Remote Controller See device manual for details 1 2 Remote Controller Setting The TXn and ACDI can be controlled from an external device via Ethernet NETWORK connector The Remote Controller settings for each connection are indicated below Settings for control via Ethernet the NETWORK connector IP Address Specify the IP address of the TXn and ACDI to be controlled IP Port No Specify the IP Port No of the TXn and ACDI to be controlled 1 3 TXn and ACDI Settings The TXn and ACDI can be controlled from an external device via Ethernet NETWORK connector The TXn and ACDI settings are indicated below Settings for control via Ethernet the NETWORK connector To set the Remote Control via Ethernet parameter Connect Amp Editor and the TXn ACD1 unit s and go online Then from the Amp Editor Device setup gt Utility gt Misc page place a chec
9. 188 47 0008 252 37 104 316 72 4008 125 59 6008 189 46 8008 253 37004 317 126 594008 190 46 6008 254 6 0 Value Data Iz Appendix Parameter Table Fader Data 36 70d 36 60d 36 50d 36 40d 36 30d 36 20d 36 10d 36 00d Value Data Value Data 3 321 385 449 323 387 45 5 325 389 453 5 327 391 as 330 394 as 5 332 396 46 3540d 6 35 304 334 398 462 35204 35 10d 35 004 6 EN gt 5 r Aje o EN 8 5 ve 234901 6 34 80d 339 403 467 34 704 34 604 341 405 469 34 504 34 40d 343 407 471 34304 34204 34 104 346 410 474 34 00 7 33 90d 348 412 47 233 801 7 33 70d 350 414 478 33 60d 7 33 50d 352 416 480 3340d 8 3330d 3320d 355 419 483 33 10d 8 33 00d 357 421 48 32 90 8 32 80d 359 423 48 32 70d 32 604 32 504 5 B lve Res Hes EN gt EN ve E loo Res Hes oo w 32 404 5 364 428 492 366 430 494 5 368 432 29 5 5 371 435 499 0 32 30d 32 20d 32 10d 32 00d 31 90d 31 80d 31 70d 31 60d 31 50d 31 40d 31 30d 31 20d 31 10d 31 00d 30 90d 30 80d 30 70d 30 60d 30 50d 30 40d Hes Heel es g o lve Reel lve A 437 5
10. 2 0 3000 2 0 2200 2 0 1600 2 0 1000 2 Enable 0 1 0 1 0 1 0 1 0 1 o O Disable I Enable 00 Ch 01 ChB Speaker Output Imp Alert Max Threshold 9 2500 0 2500 0 2500 0 2500 0 2500 ohms x 0 1 ohms 0 0 250 0 ohms Alert Min Threshold 0 2500 ohms 95 6 ohm Enable 0 0 Disable T Enable 22 XP AMP XP common 0 Stereo I Bridge oo 00 oo Mode Power Amp Mode 9 20 2 Parallel 380 420 1 dBu SIUS RU TII 38 0 45 0 1 32 0 51 0 2 dBu 00 Ch A Speaker Output Voltage Alert Max Threshold lex Biss oo Jor orchB oo oo 320 02 4802 7 o0 Enable 0 lE O Disable I Enable _ 00 7 02 00 7 00 00 Standby Standby On T TE Standby 1 Power oo joo 0 Jo Ch B oo oo JOutput 9 0 UnMuted 1 Muted XP Status Model dependent 1 Power Amp Mode Stereo or Parallel 2 Power Amp Mode Bridge Protection Protecting 0 Not protecting L Protecting Speaker Output Voltage Above High Threshold 0 Not above threshold level 1 threshold level XM AMP XP common PowerSequencer Execution T 2 Executing power sequencer 10 51 I Bridge oo loo 00 oo foo Mode Power Amp Mode op 0 2 Pa
11. 0 05 888 698 625dB 9 70dB 9 75dB 71 amp 9 35dB 691 889 762 3 05dB 826 0 15dB 6 20dB 763 3 00dB 827 0 20dB 699 700 9 30dB 946 6 40dB 9 60dB 953 3 35dB 3 40dB 9 80dB 9 85dB 5 5 N 12 55dB 73 12 50dB 7 6 6 6 9 30dB 638 9 25dB 692 890 6 15dB 764 2 95dB 828 0 25dB 6 10dB 2 90dB 0 30dB 701 702 894 9 05dB 941 9 10dB 942 5 95dB 1006 2 85dB 6 05dB 1008 2 95dB 9 35dB 948 6 45dB 1016 954 6 55dB 1018 3 45dB 3 55dB 9 95dB 5 575 4 12 45dB 12 40dB 35 36 37 39 6 9 20dB 694 892 766 830 695 893 703 6 00dB 767 831 0 40dB 895 693 891 765 829 6 05dB 2 85dB 0 35dB 2 80dB Appendix Parameter Table Fader 9 15dB 943 9 20dB 944 9 25dB 945 6 1548 1010 3 05dB 62548 1012 945dB 3 15dB 950 635 1014 9 55dB 3 25dB 952 956 6654 1020 958 6 7548 1022 10 00dB 2008 2011 Yamaha Corporation 29
12. 00d 8 00d 7 00d 6 00d 5 00d 4 00d 3 00d 2 00d 1 00d 0 00d 109 00d 108 00d 107 00d 106 00d 105 00d 104 00d 103 00d 102 00d 101 50d dada pada de raf 1 _ _ 650 130 08 0008 194 558008 258 46 5008 322 386 450 28 6548 5 0 132 6204 196 554008 260 46 3008 324 399008 388 452 28 5508 85005 133 08 0008 197 552008 261 46 2008 325 398008 389 453 28 5008 28 4508 28 4008 28 3508 28 3008 28 2508 28 2048 76 204 538008 268 455008 332 19 1008 396 460 77 room 6640dB 205 536008 269 454008 353 39 0008 397 32 60dB 461 B B Iz B B B B B B B B B B 78 2 6620dB 206 534008 276 453008 334 389008 398 250 462 75 ooa 6600dB 207 532008 271 452008 335 38 8008 399 463 80 7088 144 208 530008 272 45108 336 387008 400 2 464 70085 14s 209 528008 357 38 6008 201 2208 365 oo N 785008 146 6540dB 210 5260aB 274 338
13. 598 Appendix Meter ACD1 Amp Control 24 Table 1 Parameter table Q Table 2 Parameter table Filter type Table 3 Parameter table Release Thru 6dB Oct 12dB Oct AdjustGc 12dB Oct Butrwrt 12dB Oct Besse B Oct Linkwitz B Oct AdjustGc B Oct Butrwrt B Oct Besse B Oct AdjustGc B Oct Butrwrt B Oct Besse B Oct Linkwit B Oct AdjustGc B Oct Butrwrt B Oct Besse B Oct Ad B Oct Butrwrt B Oct Besse B Oct Linkwitz 151m 157m 163m 168m 174m 186m 192m 203m 215m 119m 125m 131m 137m 261m 142m 272m 148m 283m 154m 160m 166m 171m 177m 366m 336m 183m 347m 368m 389m 496m 328m 340m 351m 725m 667m 363m 749m 688m 375m 795m 730m 398m 842m 773m 421m 467m 491m 514m 986m 537m 560m 584m 607m 630m 653m 676m 700m 25 Appendix Parameter Table YAMAHA A Fader Table of o to 0 dB Value 2 3 5 8 9 10 18 19 Data Inf dB 138 00d 136 00d 134 00d 133 00d 132 00d 131 00d 130 00d 129 00d 128 00d 127 00d 126 00d 125 00d 124 00d 123 00d 122 00d 121 00d 120 00d 9
14. 599 Iz 660 8 15dB 724 4 95dB 78 1 75dB 43548 43008 856 7 90dB 7 95dB 8 00dB 8 05dB 7 55dB issm _ 516 99 iem 983 536 14 35dB 537 14 30dB 600 601 11 10dB 11 05dB 664 7 95dB 728 4 75dB 792 1 554 665 7 90dB 729 4 70dB 3 1 50dB 857 58 1 7 50dB 5 7 6 4 65dB 980 7 4 70dB 981 8 5 8 10dB 8 15dB 538 1425dB 539 1420dB 14 15dB 541 14 10dB 14 05dB 14 00dB 602 603 11 00dB 10 95d 10 90dB 10 85d 10 80d 10 75dB e vs 605 79 666 7 85 730 4654 794 1 45 1554 669 733 4 504 861 1454 6 3 671 4 40dB 1 20dB 63 8 20dB 8 25dB 8 30dB 8 35dB 8 40dB 8 45dB iss sim f 9 544 13 95dB 545 13 90dB 608 609 10 70dB 10 65dB 736 4 35dB 800 1 15dB 864 4 30dB 1 1088 737 801 865 928 5 25dB 992 2 10dB 929 5 30dB 993 8 50dB 8 55dB 546 13 85dB 547 13 80dB 10 60dB 10 55dB 674 7 45dB 738 4 25dB 802 1 05dB 866 675 7 40dB 739 4 20dB 1 00dB 867 804 8 60dB 2 1548 930 5 35dB 994 2 20dB 931 5 40dB 8 65dB 548 13 75dB 13 70dB 10 50dB 10 45dB 803 676 7 35dB 740 4 15dB 0 95dB 868 677 7 30dB 741 4 10dB 805 0 90dB 869 78 995 2 25dB 932 5 45dB 2 30dB 933 5 50dB 997 8 70dB 9 549 550 13 65dB 5 5 4 ALALAL ALA sia aya lool Hes
15. 6008 144 55 8008 208 4300dB 272 1 9 oodB s2 682008 146 55 4008 210 42 604B 274 19 200 68 0008 147 528 211 4240dB 275 22 s9oodB s 674008 150 54 6008 214 41 80aB 278 25 seoodB 668008 153 54 0008 217 4120dB 251 26 ssoodB 66 6008 154 53 8008 218 41 00aB 252 32 7oodB 96 6540dB 160 52 6008 224 258 34 78odB 98 65 0008 162 3220dB 226 39 70aB 290 35 77eodB 99 648008 163 52 0008 227 39 60aB 291 36 74odB 100 64604 164 5 228 39 50aB 292 ss 7700dB 102 6420dB 166 sr4odB 230 3930dB 294 40 7eeodB 104 63 8008 168 sLoodB 232 296 41 764odB 105 63 60a8 169 so odB 233 39 00aB 297 42 7620dB 106 6340dB 170 50 60 234 298 4 75sodB 6300dB 172 5020 236 38 70aB 300 s 75eodB 109 628008 173 50 0008 237 38604 301 46 754odB 6260dB 174 49 80a8 238 38 50aB 302 52 742008 6140dB 244 37 90aB 7sodB 118 LoodB 182 48 2008 246 37 70aB 310 ss 73 0008 122 6020dB 186 4740dB 250 373008 314 72 608 124 59 8008
16. 670 76508 734 14458 798 62 926 990 1 650B sss 237588 612 205508 676 740 141508 804 10 950B 77508 952 _ 4554 _ 996 1350B E45 23088 eis 205008 677 173008 74 141008 805 109008 6 45008 097 1300B Essi 205 es 20 4008 67 172008 140008 807 10 8008 871 7o0dB 935 44008 999 1200B Esc 234585 20 2508 682 746 138508 810 10 0508 874 938 __ 425 6 1002 1 050B en en DIVIVIVIVIVIV TITIES IS AAS en en e Ie on on en en koa pei kzi pei uei pei iei c oo eje oo oo DIN fan faa VDIVIVIVIVIVIVD KAN LeS LAN im bua ba 9 9 9 9 en oo oo oo 20 e e on on 2 2 KAN ye c p e e e ce e e
17. 70dB 901 3 90dB 965 7 10dB 646 838 518 15 25dB 519 15 20dB 582 583 12 00dB 11 95dB 647 39 0 75dB 902 3 95dB 966 7 15dB 0 80dB 903 4 00dB 967 7 20dB 520 15 15dB 521 15 10dB 584 585 11 90dB 11 85dB 8 85dB 710 5 65dB 774 2 45dB 648 8 75dB 712 5 55dB 716 2 35dB 840 S 650 8 70dB 0 85dB 904 4 05dB 968 7 25dB 0 90dB 90 4 10dB 9 522 15 05dB 523 15 00dB 586 587 11 80dB 11 75dB 4 8 65dB 714 5 45dB 778 2 25dB 842 651 8 60dB 715 5 40dB 779 2 20dB 43 524 14 95dB 525 14 90dB 588 589 11 70dB 11 65dB 526 14 85dB 527 14 80dB 590 591 11 60dB 11 55dB 8 652 8 55dB 716 5 35dB 780 2 15dB 4 653 8 50dB 717 5 30dB 781 2 10dB 84 7 5 6 7 30dB 0 95dB 906 4 15dB 970 00dB 907 4 20dB 97 7 1 7 60dB 7 65dB 7 40dB 15dB 9 4 35dB 974 20dB 9 4 40dB 97 528 14 75dB 529 14 70dB 592 593 11 50dB 11 45dB 8 5 654 8 45dB 718 5 25dB 782 2 05dB 846 655 8 40dB 9 5 20dB 83 2 00dB 47 1 8 9 7 35dB 05dB 908 4 25dB 972 10dB 909 4 30dB 973 9 7 70dB 7 75dB 7 45dB 0 912 4 45dB 976 5 913 4 50dB 7 4 530 14 65dB 531 14 60dB 594 595 11 40dB 11 35dB 5 7 7 8 656 8 35dB 720 5 15dB 784 1 95dB 4 657 8 30dB 72 5 10dB 785 1 90dB 849 658 8 25dB 722 5 05dB 786 1 85dB 5 659 8 20dB 723 5 00dB 787 1 80dB 8 7 80dB 7 85dB 532 14 554 596 597 11 30dB 11 25dB 11 20d 11 15dB 598
18. The ACDI will return a one line character string of SGO OK if successful The ACDI will return a one line character string of SGO ERR if unsuccessful E g ACK when GPI port 3 is successfully turned ON SGO OK ACK when GPI port 3 is unsuccessfully turned ON SGO ERR 3 3 5 Emergency Control command 24 SEMG Used to set Emergency scene TXn ACDI s ACKs when successful TXn ACDI s ACKs when unsuccessful The command name stands for Set Emergency This command changes the TXn ACD1 scene number to the Emergency scene 3 3 6 Amp Connection Status Command ACD1 25 GCON Used to obtain an amp connection status ACDI s ACKs when successful ACDI s ACKs when unsuccessful AMP ID GCON OK GCON ERR CON AMP ID Amp Connection Status ON OFF The command name stands for Get Connection This command only applies to ACDI firmware 1 12 or later This command will enable the user to obtain an amp connection status connected or disconnected from the controller AMP ID is the AMP ID 0 to 39 assigned to the amp to be controlled A space will be needed between the command and the option and between the options E g To obtain the connection status of the amp with ID 0 on the ACDI from the controller GCON 0 The ACDI will return a two line character string if successful The first line should be a character string OK The second line should be a character string CON AMP ID A
19. next scene RRSC 01 To recall the second to last scene two scenes prior to current one RRSC 0 2 The TXn ACDI will return two lines of character strings if successful The first line will have the character string RRSC OK For details on the character string SCN in the second line see chapter 3 2 2 The first line can be ignored check the second line to find if a scene is recalled for a controller scene number after scene recall should be returned in the second line absolute quantity Even a relative recall will not return the quantity changed The TXn ACDI will return a one line character string of RRSC ERR if unsuccessful E g ACK if the current scene is 3 and if successful in recalling the next scene RRSC OK SCN 04 ACK if the current scene is 3 and if unsuccessful in recalling the next scene RRSC ERR 17 GCS Used to obtain a current scene number Option TXn ACDI s ACKs if successful TXn ACDI s if unsuccessful GCS AMP ID GCS OK GCS ERR CSN 0 Scene The command name stands for Get Current Scene This command will enable the user to obtain a TXn ACDI scene name of a specified number from the controller If sending to a TXn AMP ID is always 0 If sending to an ACD1 AMP ID is the AMP ID 0 to 39 assigned to the amp to be controlled One or more spaces are needed between the command and the option and between the options E g To obtain a current scene number GCS 0
20. of a level meter registered in the TXn ACD1 with the GCMT command If sending to a TXn AMP ID is always 0 If sending to an ACDI AMP ID is the AMP ID 0 to 39 assigned to the amp to be controlled Access ID identifies the level meter 0 should be always assigned to Meter One or more spaces are needed between the command and the option and between the options E g To discard registration of an obtained meter cycle QCMT 012340 The TXn ACDI will return a one line character string of OK if successful The TXn ACDI will return a one line character string of QCMT ERR if unsuccessful E g ACK if successful in discarding meter number registration QCMT OK ACK if unsuccessful in discarding meter number registration QCMT ERR 22 SMC Used to set the cyclical period for automatically obtaining all level meters TXn ACDI s ACKs if successful TXn ACD1 s ACKs if unsuccessful DSE i The command name stands for Set Meter Cycle This command will enable the user to set a cycle in ms units for sending all level meters set to be obtained cyclically The TXn ACDI will send level meters at 100 msec intervals if the TXn ACD1 have not received this command The first option will always take 0 It is reserved for future extensions to the command The meter transmission interval from the TXn ACDI should be assigned to Cycle in ms units One or more spaces are needed between the command and the o
21. table max 10dB SVL OK VOL 0 0104 00 0100 0000 323 ACK if an attempt to change the value of TXn parameter Matrix Input ch2 Access ID 0104 00 0100 0000 to 30dB curve table setting max 10dB has failed SVL ERR 11 RSPR Used to relatively set a parameter other than that for a fader and a fader using a dB method 12 RSVL Used to relatively set a fader using a curve table method ACKS i success RSPR AMP ID Access ID Relative parameter valy RSPR OK RSPR ERR PRM AMP ID Access ID Parameter value RSVL AMP ID Access ID Relative curve value RSVL OK RSVL ERR VOL AMP ID Access ID Level value The command names stand for Set Parameter and Set Volume respectively If sending to a TXn AMP ID is always 0 If sending to an ACDI AMP ID is the AMP ID 0 to 39 assigned to the amp to be controlled Access ID is the 17 strings including of the parameter to be controlled See separate parameter map Relative parameter value or Curve value must contain an appropriate relative value written as a character string One or more spaces are needed between the command and the option and between the options This command cannot set a library protected parameter Attempt to do so will return an error E g To raise the value of TXn parameter Att chA Access ID 0000 10 0000 0100 by 30 RSPR 0 0000 10 0000 0100 30 To reduce the value of TXn parameter Att chA Access ID 0000 10 00
22. 0 9008 37 amp 442 29 0508 25 85dB 505 124 09 8008 188 252 471008 316 407008 380 444 289508 508 257548 59005 5 189 47 000 317 381 245 28 9008 509 25 700B 126 6 40dB 190 5 048 254 469008 318 000b 46 28 8508 510 25 6548 Appendix Parameter Table Fader 26 YAMAHA 15 60dB En 21085 ses 219008 640 187008 713 155008 12 3008 sos 59008 969 27008 227545 652 19 5508 606 __163548 131508 824 888 675dB 952 116 0350B 3 22705 ex 19 5008 697 761 131008 825 880 670dB 35008 1017 0 300B es 19 4008 699 162008 763 130008 amp 9 8008 891 955 1019 0 200B 55 2 609 20 7008 737 11 10dB 865 7 906 _ 4 7046 1500B 56 3855 610 20 6508 674 17458 738 14258 802 11 05dB 785dB 030 4650B8 994 1450B 5 255m 616 20 3508 680 r7isab 744 139508 808 1075 872 936 43508 1000 L15dh 5 2305 617 20 3008 ei 171008 745 139008
23. 00 00 Thermal Meter Alert Max Threshold Attenuation 0 5 dB step ex 36 5 dBFS 365 Analog Input Signal Chain Detection Threshold Enable Detection Time 0 0 Notch Freq 5 40000 z 27 806 kHz 27806 Notch 0 See parameter tablel value x 0 I dBFS Slot Input Signal Chain Detection Threshold 800 O dBFS 80 0 0 0 dBFS dBFS 423 Enable 1 Detection Time 0 05 00 02 2 0 Off 1 0n value Hz ex I02 6 HzT 1026 S Hz 40 kHz 27 806 2 27806 See parameter tablel Output Signal Chain 0 0 Disable 1 Enable L Freq Enable 0 Disable 1 Enable value x 0 H Freq Level 0 1 10 0 10 ex 7 4 V 74 V ohms H Freq Detection Imp Max 0 2500 ohms 0 0 250 0 ohms ex 95 6 ohms 956 H Freq Detection Imp Min 0 2500 ohms 0 0 250 0 ohms ex 95 6 ohms 956 value x 0 I ohms L Freq Detection Imp Max 0 2500 ohms 0 0 250 0 ohms ex 95 6 ohms 956 x 0 ohms L Freq Detection Imp Min 0 0 0 250 0 ohms 95 6 ohms 956 x V H Freq Detection Threshold 1 0 10 ex 7 4 74 L Freq Detection Threshold 0 1 10 0 10 ex 7 4 V 74 Detection Time 5 0 gt ere a a o nm As as ee es 5 5 5 5 5 Calibration req Enable 0 Disable 1 Enable 0 Disable 1 Enable U UIT 1 Redundant Backup Input Redundancy
24. 00 0100 by 30 RSPR 0 0000 10 0000 0100 30 To increase the value of TXn parameter Matrix Input ch2 Access ID 0104 00 0100 0000 by 10 steps curve table setting RSVL 0 0104 00 0100 0000 10 To reduce the value of TXn parameter Matrix Input ch2 Access ID 0104 00 0100 0000 by 10 steps curve table setting RSVL 0 0104 00 0100 0000 10 TXn ACD1 Remote Control Protocol Specifications V1 12 5 The TXn ACDI will return two lines of character strings if successful The first line will be a character string of RSPR OK or RSVL For details on the character strings and VOL in the second line see chapter 3 2 1 Ignore the first line but see only the second line to find a value after a parameter is changed for a controller A value returned in the second line is the changed value absolute quantity Even a relative setting will not return the quantity changed If unsuccessful the TXn ACD1 will return a one line character string either RSPR ERR or RSVL ERR E g ACK if the value of TXn parameter Att chA Access ID 0000 10 0000 0100 was successfully increased from 20dB by 30 steps dB table RSPROK PRM 0 0000 10 0000 0100 170 ACK if an attempt to increase the value of TXn parameter Att chA Access ID 0000 10 0000 0100 from 20dB by 30 steps dB table has failed RSPRERR ACK if value of TXn parameter Matrix Input ch2 Access ID 0104 00 0100 0000 was successfully decreased from 20dB by 10 step
25. 01 0 375 439 508 0 377 ui sos 0 0 loo Hee Hes Hee Hoel Hes tA tA N Iz 580 424 508 0 382 426 a7 t 383 24 00dB Value 5 4 Oo Din eju ALR A o o Data 8 75dB 8 70dB 8 65dB 8 60dB 8 55dB 8 50dB 8 45dB 8 40dB 18 35dB 18 30dB 18 25dB 8 20dB 8 15dB 8 10dB 8 05dB 18 00dB 17 95dB 17 90dB EN A 7 85dB 7 80dB 7 75dB 7 70dB 7 65dB 7 60dB 17 55dB 17 50dB 17 45dB 7 40dB 7 35dB 7 30dB 7 25dB 7 20dB 7 15dB 17 10dB 17 05dB 17 00dB 6 95dB 6 90dB 16 85dB 16 80dB 6 75dB 6 70dB 6 65dB 6 60dB 6 55dB 6 50dB 6 45dB 6 40dB 6 35dB 6 30dB 6 25dB 6 20dB 6 15dB 6 10dB 6 05dB 6 00dB 5 95dB 5 90dB 5 85dB 5 80dB 5 75dB 5 70dB 5 65dB 5 60dB EN Ll gt PES 28 512 15 55dB 576 12 35dB 640 9 15dB 704 5 95dB 768 2 75dB 832 0 45dB 896 3 65dB 960 6 85dB 513 15 50dB 577 12 30dB 641 9 10dB 705 5 90dB 769 2 70dB 833 0 50dB 897 3 70dB 961 6 90dB 15 45 578 1225dB 9 05dB 5 85dB 2 654 0 55dB 3 75dB 6 95dB 15 40dB 579 12 204 9 00dB 5 80dB 2 60dB 0 60dB 3 80dB 7 00dB 12 15dB 516 15 35dB 517 15 30dB 580 581 12 10dB 12 05dB 644 8 95dB 708 5 75dB 772 2 55dB 836 0 65dB 900 3 85dB 964 7 05dB 645 8 90dB 709 5 70dB 773 2 50dB 837 0
26. 385008 402 321008 466 83 oo 147 6520d 211 32 4008 275 339 384008 405 320008 367 B Aj 78088 8 65 0008 212 522008 276 383008 404 31 9045 468 oo 5_ _ 149 213 277 341 382008 405 31808 469 74088 150 eieod 214 518008 278 342 38 1008 406 470 28 05dB 28 00dB 27 95dB 27 90dB 27 85dB 27 80dB 27 75dB 27 70dB 27 65dB 27 60dB B 87 72008 151 644008 215 279 343 380008 407 3100 471 s8 77 004 152 216 280 344 379008 408 472 B s 768008 153 6400aB 217 31 2008 281 345 378008 409 473 766008 154 218 346 377008 410 31308 474 762008 155 63 600 219 283 347 37608 31208 475 52 762088 156 63 4008 220 506008 284 239008 375008 412 96 76005 157 6320d 221 285 372008 413 477 273008 272518 1e 224 499008 288 43 5008 352 416 27 1
27. 588 B 98 750008 162 622008 226 290 33008 354 369008 418 30500 482 270506 163 02 0008 227 496008 291 432008 355 368008 419 4 amp 3 27 0008 27 55dB 27 50dB 27 45dB 27 40dB 27 35dB ve w B B 740 108 73 8048 168 232 491008 296 427008 360 363008 424 29 9508 488 26 750B 0s 73 0048 169 233 490008 27 22600 36208 5 29 900 489 26 700B 2 106 73 4008 170 60 008 489008 2 362 36105 426 29 8508 490 26 650B 108 300dB 172 602008 236 487008 300 223008 364 359008 428 2975dB 492 26 5508 45 109 72 8048 48 6006 2204 365 358008 429 29 7008 493 26 50dB 56 6 72 6008 174 598008 485008 302 2 100B 366 357008 29 6508 494 264508 714008 180 s860dB 244 479008 308 372 351088 436 29 3508 50 26 15dB sa 923085 ns 182 582008 246 477008 310 374 349008 29 250 502 2605dB 12 7020dB 18e 574008 250 473008 314 4
28. CK when command to get meter values for meter access ID 1234 on channel 4 is successful GMT OK MTR 0 1234 CUR 13801 2000 3000 13801 HOLD 13801 1500 2800 13801 The command name stands for MeTeR ACK when attempt to get meter values for meter access ID 1234 on channel 8 is successful GMT OK MTR 0 1234 CUR 1800 2300 200 1 300 0 13801 13801 HOLD 1500 2000 0 1 200 1 13801 13801 ACK when command to get meter values for meter access ID 1234 on channel 4 fails GMT ERR 20 GCMT Used to set cyclical obtaining of a level meter TXwACDIS ACKs if successful GCMT AMP ID Access ID Meter GCMT GCMT ERR MTR AMP ID Access ID CUR HOLD The command name stands for Get Cyclic Meter CUR stands for Current meter value HOLD stands for Peak hold value Registering a meter number to be obtained using this command will send the level meter value cyclically from the TXn ACDI The level meter value will be sent until it is cancelled with a QCMT command described later Up to 100 meters can be registered If sending to a TXn AMP ID is always 0 If sending to an ACDI AMP ID is the AMP ID 0 to 39 assigned to the amp to be controlled The same as Access ID GMT The same as Meter GMT One or more spaces are needed between the command and the option and between the options E g To register to cyclically periodically receive level meter values from specified chann
29. Enable Speaker Output Detection Alert Detection Time 10 10 5 Alert Count 100 100 Voltage Limiter Threshold 450 1 450 1 450 1 value x 0 1 dBu 00 Ch A 510 2 510 2 510 2 38 0 45 0 1 32 0 01 Ch B 1 51 0 2 ex 5 4 4 Attack 100 100 100 0 Release 1000 1000 1000 s value x 0 015 0 0 10 0 5 ex 545 On 1 1 1 1 00 Ch Threshold 4800 1 4200 1 3600 1 01 Ch B 1 Power Limiter 9600 2 8400 2 7200 2 0 OIT 1 Limiter Gain Reduction 0 Off 1 1 Power Amp Mode Stereo or Parallel 2 Power Amp Mode Bridge 3 High Sample Mode Only 4 Sensitivity and PowerAmpGain operate together 5 When Gain Setting Mode 0 Link On chA and B take same value 6 Can be set when Redundant Mode is not OFF 7 Can be set when Redundant Mode Override 8 Can be set when Redundant Mod verrride and AutoReturn 1 9 When Redundant Mode Override AutoReturn l OverrideChannelLink 1 chB cannot be set Appendix Parameter TXn Amp 18 TXn Status section Common to TX4n TX5n and TX6n Analog Input Voltage Above High Threshold Above threshold level Slot Input Voltage Above High Threshold Matrix Mixer Input Voltage Above High Threshold U Not above threshold Tevel Above threshold level 0 Not above threshold leve
30. LPFGc This parameter can not be displayed when value except dB Oct AdjustGC HPFGc This parameter can not be displayed when value except dB Oct AdjustGC Polarity Polarity 0 Normal 1 nverted PEQ Q 2 Sec table 1 This parameter can not be displayed when value except PEQ APF 2nd Frequency Hz value Hz ex 102 6 Hz 1026 20 20 kHz 27 806 kHz 27806 Gain value x 0 01 dB 18 00 18 00 dB1 100 A This parameter can not be displayed when value LPF HPF APF Ist 01 Band Bypass 02 C 03 Band 4 04 Band E L L SHELF 6dB Oct 05 Band 2 L SHELF 12dB Oct 3 H SHELF 6dB Oct 4 H SHELF 12dB Oct 5 6 LPF 7 Ist 8 APF 2nd EQ Limiter Threshold Attack 200 ms value x 0 1 ms ex 48 7 ms 487 0 0 120 0 ms 10 Ch A 5 This parameter can not be displayed when value except Manual 11 Ch B Release 59 See paramet 3 This parameter can not be displayed when value except Manual 0 Off 1 On 0 Fast low 3 Manual ReleaseMode 0 Fast low anual value x 0 1 dBFS ex c dBFS 138 0 0 0 dBFS1 42 314 51 423 parameter table fader Mute 0 Unmuted 1 Muted 00 PEQOn 0 OF 00 Slot Ch Output Router Output Assign 0 None 1 1 4x4 Matr
31. M 1 1920 dBFS value x 0 1 1920 dBFS value x 0 1 dBu X U I OIIIIIST ohms NOTE2 Short circuit 0 W table Speaker output Power measurement fail 1 ex 95 6 ohms 956 E value x 0 1 ex 4 3 dB 43 ex oo dBFS 1920 I dBFS OVER dBFS value x 0 1 dBFS value x 0 1 42 3 dBFS 423 dBFS 1920 dBFS value x 0 1 dBFS value x 0 1 dBFS oo 1 dBFS OVER 42 3 4 51 423 dBFS 1920 dBFS OVER 423 dBFS ex of 1 42 3 dBFS dBFS ex oo 1 42 3 dBFS dBFS 1920 dBFS OVER 423 dBFS ex co dBFS 1920 1 dBFS OVER 42 3 dBFS 423 dBFS ex dBFS 1920 1 dBFS OVER dBFS I dBFS 42 3 dBFS 423 dBFS value x 0 1 Speaker Processor Ach Gain 2 Reduction 1920 value x 0 1 dB ex 4 EIE insu 0 Speaker Processor Bch Output Level i aBFS OVER value x 0 1 dBFS 42 3 dBFS 423 Speaker Processor Bch Gain Reduction 1 1920 10 dBFS 1920 value x 0 1 dB ex 4 3 dB 43 TXn AMP Model dependent Speaker Output Power 40 0 Appendix Meter TXn 8400 3609 0 value W ex 598 W 598 20 Parameter TXn Signal Path TXn Signal Path Common to TX4n TX5n and TX6n 00 4x4 Matrix Mixer Input Master Level value x 0 01 dBFS 7c 138 0 10 0 42 3IdBFS parameter table fader 00 Ch 1 00 Polarity 0 Normal 01 Ch2 L I
32. Override Channel Link 0 8 Override Threshold 300 7 Auto Return Delay ovs oss 5Hz ZUKHz 2 10Hz 20kHz 3 5Hz 25kHz 3 Output Signal Chain Tone Frequency Type 4 10Hz 25kHz 3 5 mae Appendix Parameter TXn Amp 17 TXn AMP section Model dependent v 1 Bridge Power Amp Mode Power Amp Mode 2 2 2 Parallel Gain Setting Mode Gain Setting Mode 1 0 Link OFF 1 Link On vane X U ITUBUT TX4n 2 1 21 9 dBu TX5n 14 22 6 dBu 00 Ch A TX6n 0 0 24 0 dBu 01 Ch B 1 Sensitivity Sensitivity 0 240 14 226 21 219 4 5 ex 11 6 4 116 Power Amp Gain 198 D BIED IED BSED 19810 BEED value x 0 1 dB 19 8 49 8 1 25 8 258 2 498 2 258 2 498 2 2582 498 2 49 8 2 dB CRANES ex 29 1 dB 291 Speaker Output Voltage Alert Max Threshold 380 1 45000 380 1 _ 50 91 380 D _ 45001 value x 0 1 dBu 00 Ch A 320 2 510 2 320 2 510 2 320 2 510 2 38 0 45 0 1 32 0 01 Ch B 1 51 0 2 dBu ex 5 4 dBu Enable 1 1 1 0 Disable 1 Enable Speaker Output Power Alert Max Threshold 4800 1 4200 1 3600 1 01 Ch B 1 9600 2 8400 2 7200 2 Enable 1 I I 0 Disable 1 Enable 00 Ch A value x 0 I ohms 01 Ch B 1 Speaker Output Imp Alert Max Threshold 5 2500 2500 0 0 250 0 ohms ex 95 6 ohms value x 0 I ohms Alert Min Threshold 2500 2500 0 0 250 0 ohms ex 95 6 ohms Enable 1 I 0 Disable 1
33. To switch Identify On Off Identify Control Fons Contro GIDENT 1 Toobtain Identify On Off Utility Commands No Command 29 For debug ECHO To set cancel echo back 9 30 Communication Control FRSP Suppress re enable output of parameter change notifications at time of scene recall Available only for TXn firmware V1 30 ACDI firmware V1 12 or later TXn ACD1 Remote Control Protocol Specifications V1 12 2 3 Command Specifications 3 1 Basic Command Specifications A command type transmitted between the TXn ACD1 and the Remote Controller is in the following format Command name gt Option 1 Option 2 Option n gt lt Line feed LF 0 x 0A will be needed at the end of a command as a line feed code At least one space will be needed between a command name and an option or between options A command must consist of only ASCII character strings Other character strings cannot be used Optional character strings for parameter values are shown in the following table Character strings such as ON or HARD are not returned as a parameter value A fader parameter value will take the following character strings using a curve table method See chapter 3 3 1 for details on curve table methods and the Appendix at the end for values in dB and the character strings A table for a fader of which maximum is 0 dE A table for a fader of which maximum is 10 dE Character strings Ch
34. anged to 20B the following is sent from the TXn VOL 0 0104 00 0100 0000 423 TXn ACD1 Remote Control Protocol Specifications V1 12 3 2 2 Scene Control Command 3 SCN Used when a scene is recalled Command ID Scene The command name stands for Scene The TXn ACDI will send the command when a scene is recalled If sending from a TXn AMP ID is always 0 If sending from ACDI AMP ID is the AMP ID 0 to 39 assigned to the amp to be controlled Scene will have an appropriate character string A space will be needed between the command and the option and between the options E g If scene 8 is recalled the TXn sends the following string to the controller SCN 08 3 2 3 Amp Connection Status Command ACD1 7 CON Used when an amp connection is established or lost Command AMP ID Amp Connection Status The command name stands for Connection This command only applies to ACDI firmware 1 12 or later The ACDI will send the command when an amp connection is established or lost AMP ID is the AMP ID 0 to 39 assigned to the amp to be controlled Amp Connection Status will have a character string of either ON when connected or OFF when disconnected A space will be needed between the command and the option and between the options The command is not available for the TXn E g Ifthe amp with ID 2 is newly connected the ACDI sends the following string to t
35. aracter strings 3 2 Command Notified to Remote Controller from the TXn and ACD1 3 2 1 Parameter Control Command 1 PRM Used to change a parameter other than a fader parameter and a fader using a dB method 2 VOL Used to change a fader using a curve table method PRM AMP ID Access ID Parameter value VOL AMP ID Access ID Level value The command names stand for Parameter and Volume respectively These commands will be sent from the TXn ACD1 when a parameter registered in Remote Control Setup List of TXn ACDI Designer is changed If sending from a TXn AMP ID is always 0 If sending from an ACDI AMP ID is the AMP ID 0 to 39 assigned to the amp to be controlled Access ID is the 17 strings including of the parameter to be controlled See separate parameter map Parameter value and Level value contain appropriate character string values A space will be needed between the command and the option and between the options No notification is made for changes to library protected parameters E g Ifthe value of TXn parameter Att chA Access ID 0000 10 0000 0100 is changed to OdB the following string is sent from the TXn PRM 0 0000 10 0000 0100 0 If the value of Tn parameter connected to ACD1 Output Mute chA Access ID 0000 02 0000 0000 is set to MUTE the following string is sent from the ACDI PRM 0 0000 10 0000 0100 0 If the value of a fader parameter curve table type max 104 is ch
36. arate parameter map Parameter value or curve value must contain an appropriate value written as a character string A space will be needed between the command and the option and between the options This command cannot set a library protected parameter Attempt to do so will return an error E g To set the value of TXn parameter Att chA Access ID 0000 10 0000 0100 to OdB SPR 0 0000 10 0000 0100 0 To change the value of TXn parameter Matrix Input ch2 Access ID 0104 00 0100 0000 to 30 dB where setting is curve table type max 10dB SVL 0 0104 00 0100 0000 323 If the parameter value is set successfully the TXn ACDI return a 2 line character string The first line should be a character string either SPR OK or SVL OK For details on the character strings PRM and VOL in the second line see chapter 3 2 1 The first line can be ignored check the second line to find the value after a parameter is changed for a controller If the command fails the TXn ACD1 return a one line character string either SPR ERR or SVL ERR E g ACK when the value of TXn parameter Att chA Access ID 0000 10 0000 0100 was successfully changed to 0dB SPR OK PRM 0 0000 10 0000 0100 0 ACK if an attempt to change the value of TXn parameter Att chA Access ID 0000 10 0000 0100 to OdB has failed SPR ERR ACK if the value of TXn parameter Matrix Input ch2 Access ID 0104 00 0100 0000 was successfully changed to 30dB curve
37. at are the possible causes and solutions When large number of commands are transmitted to the TXn ACD1 in a short time processing time may be longer because data is accumulated in the receive buffer In this case make sure that the transmission interval between the commands for the remote controller is long enough for optimum processing If the response speed of the meter is slow what are the possible causes and solutions The response speed of the meter will be slow when the number of meters displayed on the screen increases In this case try the following solutions If the cyclical period for automatically obtaining a meter is too short the response speed will be slow due to the accumulation of data Try to set a cycle as long as possible using the SMC command The response speed will be faster by using the GCMT command that can obtain data cyclically than by using the GMT command that obtains data each time because the volume of communication decreases If you want to display multiple meters in the same component you can ensure a faster response speed by assigning a value of 0 to a meter number to obtain data all at once rather than by assigning a meter number to obtain data individually If you want to display a meter in the Meter component you can ensure a faster response speed by assigning the multiple channel Meter component rather than by assigning multiple one channel Meter components For more informatio
38. command and the option and between the options E g To recall Scene 4 RSC 04 The TXn ACDI will return two lines of character strings if successful The first line will have a character string RSC OK For details on the character string SCN in the second line see chapter 3 2 1 The first line can be ignored check the second line to find if a scene is recalled for a controller The TXn ACDI will return a one line character string of RSC ERR if unsuccessful The TXn ACDI will return ERR if the Remote Controller sends the RSC command for an unsaved scene E g ACK if successful in recalling Scene 4 RSC OK SCN 04 ACK if unsuccessful in recalling Scene 4 RSC ERR 16 RRSC Used to relatively recall a scene TXn ACDI s ACKs if successful TXn ACDI s if unsuccessful RRSC AMP ID Relative scene RRSC RRSC ERR SCN AMP ID Scene The command name stands for Relatively Recall Scene This command will perform relative scene recall For example it will enable the user to recall the next scene and the second to last scene If sending to a TXn AMP ID is always 0 If sending to an ACD1 AMP ID is the AMP ID 0 to 39 assigned to the amp to be controlled An appropriate number should be given by a character string to Relative scene A plus sign can be omitted but not a minus One or more spaces are needed between the command and the option and between the options E g To recall the
39. d between the options E g To obtain Scene 4 name GSN 04 The TXn ACDI will return two lines of character strings if successful The first line will have the character string GSN OK The second line will have a scene number from 1 to 999 for the Scene and a new name for the Scene name by a character string The first character string can be ignored for the controller A scene name that is blank looks as a scene name is not returned The TXn ACDI will return a one line character string of GSN ERR if unsuccessful E g ACK when a character string Scene 004 is returned by obtaining a name of Scene 4 GSN OK SNM 0 0 Initial Data The character string stands for Scene NaMe ACK when a character string 15 returned by obtaining a name of Scene 4 GSN OK SNM 4 ACK if unsuccessful in obtaining a name of Scene 4 GSN ERR 3 3 3 Command to Obtain Level Meter 19 GMT Used to obtain a level meter position Command Option TXn ACDI s ACKs if successful GMT AMP ID Meter access ID Meter GMT OK GMT ERR MTR AMP ID Meter access ID CUR HOLD The command name stands for Get Meter CUR stands for Current meter value HOLD stands for Peak hold value This command will enable the user to obtain a TXn ACD1 meter value If sending to a TXn AMP ID is always 0 If sending to an ACDI AMP ID is the AMP ID 0 to 39 assigned to the amp to be controlled Meter acces
40. els Meter access ID 12345 meter 23 GCMT 012343 E g To register to cyclically periodically receive level meter values from all channels Meter access ID 12345 meter 0 GCMT 012340 The TXn ACDI will return two lines of character strings if successful The first line will have a character string of GCMT OK The second line will have the same character string as ACK when obtaining a meter using GMT The TXn ACDI will return a one line character string of GCMT ERR if unsuccessful E g Communication sequence with TXn initiated by registering for periodic receipt of meter values for specified channel Meter access ID 1234 meter 5 GCMT 012345 MTR 0 1234 CUR 1800 HOLD 0 Remote controller continues to periodically receive meter data from the TXn ACDI MTR 0 1234 CUR 1700 HOLD 0 E g Communication sequence for periodic receipt of meter values from all channels Meter access ID 1234 meter 0 GCMT 012340 MTR 0 1234 CUR 1800 2300 200 1 300 0 13801 13801 HOLD 0 0 0 0 0 10 Remote controller continues to periodically receive meter data from the TXn ACDI MTR 0 1234 CUR 1800 2300 200 1 300 0 13801 13801 HOLD 0 0 0 0 0 10 TXn ACD1 Remote Control Protocol Specifications V1 12 21 QCMT Used to cancel cyclical obtaining of a level meter TXn ACDI s if successful TXn ACD1 s ACKs if unsuccessfu pum The command name stands for Quit Cyclic Meter It will be used to cancel cyclic transmission
41. he controller CON 2 ON 3 2 4 Identify Control Command 8 IDENT Used when Identify is switched on or off IDENT 0 Identify ON OFF The command name stands for Identify This command only applies to TXn firmware V1 30 ACD1 firmware V1 12 or later The TXn ACDI will send the command when Identify is switched on or off The first option is always 0 Identify ON OFF will have a character string of either ON or OFF A space will be needed between the command and the option and between the options E g If Identify is switched ON the TXn ACDI sends the following string to the controller IDENT 0 ON TXn ACD1 Remote Control Protocol Specifications V1 12 3 3 Command for the TXn ACDI Control 3 3 1 Parameter Control Command 9 SPR Used to set a parameter other than a fader parameter and a fader using a dB method 10 SVL Used to set a fader using a curve table method TXWACDI s if successful TXW ACDI s if unsuccessful AMP ID Access ID Parameter value SPR PRM AMP ID Access ID Parameter value AMP ID Access ID Curve value SVL OK VOL AMP ID Access ID Level value The command names stand for Set Parameter and Set Volume respectively If sending to a TXn AMP ID is always 0 If sending to an ACD1 AMP ID is the AMP ID 0 to 39 assigned to the amp to be controlled Access ID is the 17 strings including of the parameter to be controlled See sep
42. ining the connection status of AMP 1 Remote Controller GCONOK ACK from the ACD CON 1 ON AMP I is connected CON 5 OFF AMP 5 is disconnected TXn ACD1 Remote Control Protocol Specifications V1 12 amp YAMAHA Troubleshooting FAQ Q A Q Is it possible to control TXn ACD1 from multiple external control devices No only one controlling device is allowed Is it okay to leave the port open until all communications have completed Must the port be opened and closed each time a command is sent Leaving the port open is okay There is no need to open and close the port each time a command is sent but the port should not be left open for long periods of time What should be used as a line feed code of a command LF 0x0A can be used as a line feed code 0A for AMX for Crestron For more information see the section 3 1 Basic Command Specifications Can the TXn ACD1 receive the parameter setting command SPR in the middle of scene recall processing the command is disabled during recall All the commands transmitted to the TXn ACD1 in the middle of scene recall processing will be ignored When scene recalls are complete the TXn ACD1 will restart receiving the SPR command The parameter setting command can be transmitted after checking the SCN command notified from the TXn ACD1 when scene recalls are complete Q If the response speed of the TXn ACD1 to a command is slow wh
43. ix Mixer Output 3 01 Slot Ch 2 4 4 Matrix Mixer Output 4 8 Osillator 2 16 0SC 1 Oscillator 1 2 value x 0 01 dBFS ex 0 4 17 08 2 138 0 0 0 4 See parameter table fader On 1 0 1 VariFrequency 20000 value Hz ex 102 6 Hz 1026 20 Hz 20 kHz 27 806 kHz 27806 Waveform 3 PINK NOISE 4 BURST 5 Vari 00 Slot In Ch 1 00 Slot Input Gain Input Gain Gain 01 Slot In Ch 2 15 Slot In 00 00 Select 1 Input Router Assign 0 None 1 SLOT Input 1 2 SLOT Input 2 16 SLOT Input 16 Appendix Parameter TXn Signal Path 21 Parameter ACD1 Amp Control Tn AMP Tn common 0 Standby On 0 UnMuted 1 Muted 805 value x 0 1 4 Sstep lt 80 0 0 0 4 0 5 dB step lex 36 5 dBFS 365 O Normal T Inverted value x 0 I dBFST 80 0 0 0 dBFS lex 42 3 dBFS 423 0 Disable 1 Enable Attenuation Polarity Analog Input Voltage Alert Max Threshold Enable Alert Max Threshold 0 Link O Link OT I Link On Tn AMP Model dependent 00 Power Amp Mode 0 2 0 2 0 2 0 Stereo 1 Bridge 2 Parallel 01 Ch B 1 Speaker Output Voltage Alert Max Threshold 381 320 22 330 1 3801 2300 1 2380091 2300 1 value x ex SA dBu 54
44. k in the Remote Control via Ethernet checkbox IP Port No parameter Generally the IP Port No does not have to be set However it needs to be changed via LCD or Amp Editor when the network consists of another network device other than the TXn and ACDI if the network device has the same IP Port No as the TXn and ACDI series The default Port No of TXn and ACDI is 49152 2 Command List Commands Notified to Remote Controller from the TXn ACDI No Category Command 1 Parameter Control PRM To notify a parameter change 2 VOL To notify a parameter change 3 SCN To notify scene recall 5 6 SNM s identify Conto IDENT 7 1 Commands for Controlling the TXn ACDI Category Command l o set a parameter l o set a parameter curve table method l o relatively set a parameter relatively set a parameter curve table method l o obtain a parameter l o obtain a parameter curve table method l o recall a scene assigning a scene number Stene Control recall a scene assigning a relative value obtain a current scene number obtain a scene name l o obtain a level meter position set cyclical obtaining of a level meter position Level Meter E P zm stop cyclical obtaining of a level meter position 2 l o set the cyclical period for obtaining a level meter position 2 fo control GPL OUT l o obtain an amp connection status connected disconnected To set reset Fault Out 7 2 28 SIDENT 1
45. l Above threshold level Slot Output Voltage Above High Threshold 0 Not above threshold level Above threshold level Mute protection function Above High Threshold 0 Unmuted Muted U Not above threshold leve Above threshold level 0 Not hot Step 5 0 Power Supply Hot 0 Meter 0 Peak Hold Value 0 Failure Status 0 0 Step 5 U Rotate Peak Hold Value Protecting 0 Not shutdown 0 Below Low Threshold 0 Detected Level Result 1 1 1 U Not protecting Protecting Not below threshold level Below threshold level value x 0 1 dBFS 80 5 0 0 dBFS 00 SHA e e e Slot Input Signal Chain Below Low Threshold U Not below threshold Tevel Below threshold level Detected Level Result Output Signal Chain HF Below Low Threshold value x U IT HBFS 80 5 0 0 4 Not below threshold Below threshold level 0 Not below threshold leve 0 LF Below Low Threshold 0 HF Imp Below Low Threshold 0 HF Imp Above High Threshold 0 LF Imp Below Low Threshold 0 Not below threshold level 0 Not above threshold leve LF Imp Above High Threshold 0 Not above threshold level HF Detected Level Result value x 0 1 V 0 1 10 0 10 LF Detected Level Result value x 0 1 V 0 1 10 0 10 HF Detected Imp Result value x 0 1 ohms
46. mp Connection Status Amp Connection Status will have a character string of either when connected or OFF when disconnected The first line can be ignored for the controller The ACDI will return a one line character string of ERR if unsuccessful The TXn always return the error TXn ACD1 Remote Control Protocol Specifications V1 12 11 YAMAHA E g ACK if the connection status of the amp with AMP ID 0 the ACDI is successfully obtained GCON OK CON 0 ON ACK if unsuccessful in obtaining an amp connection status GCON ERR 3 3 7 Fault Out Control Command 26 SFO Used to set reset Fault Out TXwACDTS when successful 0 Fault Out Set Reset ON OFF SFO OK SFO ERROR The command name stands for Set Fault Out This command only applies to TXn firmware V1 30 ACDI firmware 1 12 or later This command will enable the user to set reset the Fault Out status on the TXn ACD1 from the controller The first option is always 0 Fault Out Set Reset should be a character string of either ON when setting or OFF when resetting A space will be needed between the command and the option and between the options E g Toreset the Fault Out status SFO 0 OFF The TXn ACDI will return a one line character string of SFO OK if successful The TXn ACDI will return a one line character string of SFO ERR if unsuccessful E g ACK if the Fault Out status is successfully rese
47. n on commands see GMT and GCMT in the section 3 3 3 Command to Obtain Level Meter parameter is assigned to GPI OUT and the port is controlled by the SGO command does the parameter link No the parameter does not link Only the GPI output from a port specified by the SGO command is controlled TXn ACD1 Remote Control Protocol Specifications V1 12 16 Appendix Parameter TXn Amp TXn AMP section Common to TX4n TX5n and TX6n Analog Input Voltage Alert Max Threshold Enable 0 Disable 1 Enable value x 0 5 Slot Input Voltage Alert Max Threshold 80 0 0 0 dBFS 42 3 dBFS 423 0 Disable 1 Enable value x 0 1 dBFS Alert Max Threshold 80 0 0 0 dBFS 42 3 dBFS 423 Enable 0 Disable 1 Enable value x 0 1 dBFS Alert Max Threshold 80 0 0 0 dBFS 42 3 dBFS 423 Enable 1 0 Disable 1 Enable Alert Detection Time Alert Count 100 s eei SS 9 00 Matrix Mixer Input Detection Alert Detection Time 10 5 Alert Count 10 Slot Output Detection Alert Detection Time 1015 or qoo OO 9 00100 Sandy SandyOn iE pSumbyron Output Mute 0 UnMuted 1 Muted value 0 1 dB 5step 00 00 o0 00 Attenuation Link 00 80 0 0 0 dB
48. n the character strings and VOL in the second line see chapter 3 2 1 The first line can be ignored check the second line to find the parameter value for a controller The TXn ACDI will return a one line character string of either ERR ERR if unsuccessful E g ACK if successful in getting the value TXn parameter Att chA Access ID 0000 10 0000 0100 30dB dB table method GPROK PRM 0 0000 10 0000 0100 300 ACK if unsuccessful in getting the value of TXn Att chA Access ID 0000 10 0000 0100 dB table method GPR ERR ACK if successful in getting the value of TXn parameter Att chA Access ID 0000 10 0000 0100 30dB curve table method max 10dB GVL VOL 0 0104 00 0100 0000 323 ACK if unsuccessful in getting the value of TXn parameter Att chA Access ID 0000 10 0000 0100 curve table method max 10dB GVL ERR TXn ACD1 Remote Control Protocol Specifications V1 12 3 3 2 Scene Control Command 15 RSC Used to recall a scene Command Option TXwACDI s ACKs if successful TXn ACD1 s ACKs if unsuccessful RSC AMP ID Scene RSC OK RSC ERR SCN AMP ID Scene The command name stands for Recall Scene If sending to a TXn AMP ID is always 0 If sending to an ACD1 AMP ID is the AMP ID 0 to 39 assigned to the amp to be controlled Scene will have an appropriate number converted to a character string One or more spaces are needed between the
49. nverted 02 3 00 Ch 1 On 0 1 0n 01 Ch2 02 Ch 3 03 Ch 4 04 00 Input On Off Input 1 On 05 A 00 Band A 8 Band Input EQ A Bch PEQ 2 table 1 06 Ch 01 Band 02 Band This parameter can not be displayed when value except PEQ 03 Band D Frequency Hz value Hz ex 102 6 Hz 1026 04 Band 20 Hz 201 21 27 806 kHz 27806 05 Band Gain value x 0 01 dB ex 2 05 dB 205 06 Band G 18 00 18 00 4 1 07 Band This parameter not be displayed when value HPF LPF Bypass 05 A 00 A 06 Ch 07 Band L L SHELF 6dB Oct 2 L SHELF 12dB Oct 3 H SHELF 6dB Oct 4 H SHELF 12dB Oct 5 6 Can not onerate Band B to G 00 On L PEO Off 07 Ch A 00 Input Delay A Bch Delay 1 0 0ff 1 On 08 Ch B 00 1300000 ms value x 0 001 ms ex 26 92 ms 26920 0 000 1300 000 ms To SP Oscillator Mix Input 0 Off 1 On To SP 2 Ose 1 To SP 3 2 To SP 10 A 00 Speaker Processor A Bch value x 0 01 dBFS 11 Ch B 138 0 0 0 A2 3IdBFS parameter table fader On 1 0 Off 1 On Delay 500000 value x 0 001 ms ex 26 92 ms 26920 0 000 500 000 ms LPFFrequency 20000 Hz value Hz 20 Hz 20 kHz HPFFrequency 20000 value Hz 20 Hz 20 kHz LPFType 19 parameter table2 HPFType 19 See parameter table2
50. ote Control Protocol Specifications V1 12 12 3 4 Utility Command 3 4 1 Command for Debug 29 ECHO Used to set cancel Echo Back TXn ACDI s ACKs if successful TXn ACDI s ACKs if unsuccessful ECHO 0 ON OFF ECHO OK ECHO ERR A character string received by the TXn ACD1 can be echoed back to debug the controller Switching the Echo function on will cause a character string to be echoed back until the Echo function or the TXn ACDI are switched off The default is OFF It may be controlled normally while it is echoed back The first option will always take 0 It is reserved for future extensions to the command ON OFF will have a character string of either ON or OFF One or more spaces are needed between the command and the option and between the options E g switch the TXn ACDI Echo on ECHO 0 ON To switch the TXn ACD1 Echo off ECHO 0 OFF A character string of ECHO will be output to the controller if successful or ECHO ERR if unsuccessful 3 4 2 Communication Control command 30 Suppress re enable output of parameter change notifications at time of scene recall Command TXn ACDI s ACKs if successful TXn ACD1 s if unsuccessful FRSP 0 ON OFF FRSP OK FRSP ERR The command name stands for Forbid Recall Scene Parameter If this feature is turned ON the TXn ACDI will not issue PRM commands to notify of parameter changes caused by scene recalls You can use this command
51. otecting L Protecting Speaker Output Voltage Above High Threshold 0 Not above threshold level 1 Above threshold level Clip Limiter Clipping Not Clipping 1 Cliping Analog Input Voltage Above High Threshold 0 Not above threshold level threshold level Speaker Output Power Above High Threshold 0 Not above threshold level 1 threshold level Speaker Output Imp Above High Threshold 0 Not above threshold level threshold level Below Low Threshold 0 Not below threshold level 1 Below threshold level Thermal Meter Above High Threshold 0 Not above threshold level threshold level Meter Sieps Peak Hold Value Step 3 PowerSequencer Appendix Parameter ACD1 amp control Execution activity 2 Executing power sequencer 1 00 Power Amp Mode 9 2 0 2 0 2 0 2 0 20 2 Parallel Alert Max Threshold 420 D 380 1 42091 380 420 D 3800 22001 380 1 420 D dBu value x 0 1 dBu oo cn A speaker Output Voltage einem 01 Ch B 1 320 2 480 2 320 92 480 92 320 92 480 2 320 2 480 2 320 2 480 2 Enable 0 1 0 1 0 1 0 1 0 0 O Disable I Enable Speaker Output Power Alert Max Threshold 0 220001 0 1500 1 0 11001 0 800 1 0 soo nw 0 01 Ch B 1 O 4400
52. ption and between the options E g To change the meter transmission interval from the TXn ACDI to 200msec SMC 0200 The TXn ACDI will return a one line character string of SMC OK if successful The TXn ACDI will return a one line character string of SMC ERR if unsuccessful E g ACK if successful in changing the meter transmission interval SMC OK ACK if unsuccessful in changing the meter transmission interval SMC ERR Guide for setting the cycle An appropriate cycle needs to be set in accordance with the number of the level meters to be obtained cyclically Follow the table below to find an appropriate cycle A table of the number of the level meters and the required cycle TXn ACDI Numberoflevel Cycle AMP ID 0 31 DATA PORT connector 40 80ms 250ms or longer 20 50ms AMP ID 32 39 MONITOR REMOTE connectors 10 50ms Number of level meters Cycle 5 5015 30 1005 20 7015 10 50115 5 50115 The cycle to automatically obtain a level meter however should be set to at least at 50 msec since too short of a cycle will increase the load of the communication line Please determine and set an approximate cycle based on the table above and the estimation of the cycle below Estimation of the cycle Example 1 To obtain 40 ch of level meters from the TXn The table above shows the required cycle for obtaining the level meters is 80 ms Example 2 To obtain the total 10 ch of level meter
53. rallel 7380071 420071 dBu value U T dBuT 38 0 45 0 1 32 0 51 0 2 dBu 00 A Speaker Output Voltage Alert Max Threshold lex 5 4 dBul 54 oo Jor oo oo 320 2 480 2 7 01 00 Enable 0 TE 0 Disable T Enable 7380071 4201 dBu value x U T dBuT 38 0 45 0 1 32 0 51 0 2 dBu 00 Ch C Speaker Output Voltage CD Alert Max Threshold lex 5 4 dBul 54 oo Joo o2 oo oo 320 2 480 2 7 o1 00 Enable 0 T 0 Disable T Enable o 00 7 03 D 7 oo 00 Standby Standby On T TE Standby 1 Power 01 ChB 02 ChC oo joo 04 03 chD oo Joo oo Output Mute 9 0 UnMuted 1 Muted XM Status Common Protection Protecting 0 Not protecting L Protecting peaker Output Voltage Above High Threshold 0 Not above threshold level 1 threshold level PowerSequencer Execution TATE ACT 2 Executing power sequencer 380 1 420 1 38 0 45 0 1 32 0 00 Ch A 51 0 2 dBu oo Joo 00 00 Speaker Output Voltage Alert Max Threshold Lex 5 AtdBul 34 7 oi 00 Enable 0 TE Disable 1 Enable oo 7 0 7 00 00 00 Standby Standby On 0 TE 0 Standby 1 Power On DUCI A oo joo oo Joo Output 9
54. s curve table method max 104 RSVL VOL 0 0104 00 0100 0000 413 ACK if an attempt to decrease the value of TXn parameter Matrix Input ch2 Access ID 0104 00 0100 0000 from 20dB by 10 steps curve table method max 104 has failed RSVL ERR 13 GPR Used to obtain a parameter using a dB method 14 GVL Used to obtain a parameter using a curve table method Eum e AMP ID Access ID IGPR OK PRM AMP ID Access ID Parameter value AMP ID Access ID GVL VOL AMP ID Access ID Level value The command names stand for Get Parameter and Get Volume respectively If sending to a TXn AMP ID is always 0 If sending to an ACDI AMP ID is the AMP ID 0 to 39 assigned to the amp to be controlled Access ID is the 17 strings including of the parameter to be controlled See separate parameter map One or more spaces are needed between the command and the option and between the options This command cannot get the value of a library protected parameter Attempt to do so will return an error E g get the value of TXn parameter Att chA Access ID 0000 10 0000 0100 GPR 0 0000 10 0000 0100 To the get value of TXn parameter Matrix Input ch2 Access ID 0104 00 0100 0000 using curve table method GVL 0 0104 00 0100 0000 The TXn ACDI will return two lines of character strings if successful The first line will have a character string GPR OK or OK For details o
55. s ID is the access ID of the parameter to be controlled See separate meter map The meter number to be obtained should be assigned to Meter A value of 1 or greater should be assigned to a meter number to obtain specific meter data For meter numbers refer to the meter map A value of 0 should be assigned to obtain meter data for every channel One or more spaces are needed between the command and the option and between the options E g To get level meter values for specified channel Meter access ID 1234 Meter 5 GMT 012345 E g get level meter values for all channels Meter access ID 1234 Meter 0 GMT 012340 TXn ACD1 Remote Control Protocol Specifications V1 12 The TXn ACDI will return two lines of character strings if successful The first line will have a character string of GMT OK The second line will have a character string of MTR index CUR CH1 CH2 HOLD CH1 CH2 The first character string can be ignored for the controller The same number of current meter levels as that of channels comes after CUR in the second line The same number of current meter hold levels as that of channels comes after HOLD in the second line The meter and hold level number ranges from 13801 to 1 The following table shows the relationship between character strings and levels sent from the TXn ACDI ES The TXn ACDI will return a one line character string of ERR if unsuccessful E g A
56. s from AMP ID 32 39 of the ACDI The table above shows the required cycle for obtaining the level meters is 50 ms TXn ACD1 Remote Control Protocol Specifications V1 12 10 YAMAHA Example 3 To obtain the total 10 ch of level meters from both AMP ID 0 31 and 32 39 of the ACDI The table above shows the required cycle is 250 ms if the slower cycle AMP ID 0 31 DATA PORT connector is accommodated You can also choose 50 ms cycle in accordance with AMP ID 32 39 MONITOR REMOTE connectors In this case the same meter values will be transmitted five times in a row for AMP ID 0 31 3 3 4 GPI Control Command ACDI 23 SGO Used to control GPI OUT ACDI s ACKs when successful ACD1 s ACKs when unsuccessfu SGO AMP ID Port OPEN CLOSE SGO OK SGO ERR The command name stands for Set GPI Out AMP ID is always 0 The second option will have a port number by a character string The third option will have a character string of either OPEN or CLOSE One or more spaces are needed between the command and the option and between the options Multiple GPI outputs can be controlled by adding another option SGO command changes GPI OUT port status without affecting any parameters in the ACD1 E g To set port 3 open SGO 03 OPEN To set port 10 open port 11 close SGO 0 10 OPEN 11 CLOSE To set port 1 open port 3 close port 4 open and port 5 open SGO 0 1 OPEN 3 CLOSE 4 OPEN 5 OPEN
57. set command Remote Controller 0 0000 10 0000 0100 0 Attenuator value set to 0 Obtaining a parameter GPR 0 0000 10 0000 0100 Get attenuator value Remote Controller 0 0000 10 0000 0100 0 Attenuator value set to 0 Scene recall executed by Remote Controller RSC 0 recalling scene 1 Remote Controller SCN 0 1 scene 1 is recalled Scene recall executed by other than Remote Controller Remote Controller SCN 0 1 recalling scene 1 Obtaining current scene information GCS obtaining the current scene number Remote Controller CSN 0 1 1 is the current scene Command to obtain a level meter GMT 0 0000 0 Get all meter values for meter access ID 0000 Remote Controller GMT OK ACK from the TXn MTR 0 0000 100 500 200 Get meter values TXn ACD1 Remote Control Protocol Specifications V1 12 14 amp YAMAHA GCMT 0 0000 0 Periodically get all meter values for meter access ID 0000 MTR 0 0000 CUR 100 500 200 Remote Controller Meter values for meter access ID 0000 500msec MTR 0 1 CUR 100 500 200 Meter values for meter access ID 0000 QCMT 0 0000 0 Stop periodic retrieval of meter values for meter access ID 0000 QCMT GPI OUT Control SGO 0 1 ON 2 OFF 3 ON Remote Controller Set GPI OUT Channel 1 ON Channel 2 OFF Channel 3 ON Detecting Amp Connection Status Available only for ACDI firmware V1 12 or later GCON 1 Obta
58. t SFO OK 3 3 8 Identify Control Command 27 SIDENT Used to switch Identify on off 28 GIDENT Used to obtain Identify on off TXwACDTS when successful SIDENT 0 Identify ON OFF SIDENT OK SIDENT ERR IDENT 0 Identify ON OFF GIDENT GIDENT OK GIDENT ERR IDENT 0 Identify ON OFF The command names stand for Set Identify and Get Identify respectively These commands only apply to TXn firmware V1 30 ACD1 firmware V1 12 or later These commands will enable the user to set obtain the Identify On Off status on the TXn ACD1 from the controller The first option is always 0 Identify ON OFF should be a character string of either ON or OFF A space will be needed between the command and the option and between the options E g To set the Identify to On SIDENT 0 ON To obtain the Identify On Off GIDENT 0 The TXn ACDI will return a two line character string if successful The first line should be a character string SIDENT or GIDENT OK The second line should be a character string IDENT 0 Identify ON OFF The first line can be ignored for the controller The TXn ACDI will return a one line character string of SIDENT ERR or GIDENT ERR if unsuccessful E g ACK if Identify ON is successfully set SIDENT OK IDENT 0 ON ACK if unsuccessful in setting Identify On Off SIDENT ERR ACK if Identify ON OFF is successfully obtained when the status is ON GIDENT OK IDENT 0 ON TXn ACD1 Rem
59. to control whether parameter values are sent to the external controller at time of scene change Under default conditions a scene recall will cause the TXn ACDI to send to the external controller a SCN command notifying of the recall together with multiple PRM commands notifying of the corresponding changes to parameter values If the scene involves many parameters then the recall will generate transmission of many PRM commands In some cases however these PRM commands are essentially meaningless If the external controller is only interested in the current scene number at the TXn ACDI for example then the PRM commands are of no value and are a waste of bandwidth In cases such as these you can use the FRSP 0 command to suppress output of these commands The first option will always take 0 ON OFF will have a character string of either ON or OFF One or more spaces are needed between the command and the option and between the options TXn ACD1 Remote Control Protocol Specifications V1 12 YAMAHA 4 Command sequences Below are some examples of important command sequences parameter change executed by Remote Controller A parameter set command SPR 0 0000 10 0000 0100 0 Set attenuator value to 048 Remote Controller SPR OK ACK from the TXn PRM 0 0000 10 0000 0100 0 value set to 0 A parameter change executed by other than Remote Controller A parameter

Yamaha TXn/ACD1 Specifications

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