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Changes for page 4 Common function of VB

Last modified by Theodore Xu on 2025/02/27 09:58
From version 24.1
edited by Theodore Xu
on 2024/04/22 11:04
Change comment: There is no comment for this version
To version 31.1
edited by Theodore Xu
on 2024/04/23 10:32
Change comment: There is no comment for this version

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... ... @@ -442,8 +442,83 @@
442 442  
443 443  Braking resistor
444 444  
445 -= **Installation guidance required by EMC** =
445 += **EMC** =
446 446  
447 447   The input terminal of the inverter has EMC screw access option.
448 448  
449 +(% style="text-align:center" %)
450 +[[image:企业微信截图_16890580824807.png||height="394" width="284"]]
451 +
449 449  
453 +
454 += Torque mode control on winding project =
455 +
456 +Torque mode can only be vector control, torque control refers to the strength, that in the torque mode F0.03 is the default value, modify F0.03 for other values is invalid.
457 +
458 +Debugging ideas:
459 +
460 +~1. According to the application requirements of the torque command and the upper limit of the frequency.
461 +
462 +2. Set the frequency acceleration/deceleration time F0.18/F0.19 and the torque acceleration/deceleration time F3.14/F3.15, the torque acceleration/deceleration time is less than or equal to the frequency acceleration/deceleration time.
463 +
464 +3. Start the motor and observe whether the motor can run or not, if it can't run normally, rotate the motor with external force, if it can be started, it is judged to be necessary to increase the static friction coefficient compensation.
465 +
466 +4. After the motor is running, observe the motor running state, if the motor is blocked, check whether it is shaking when it is blocked, if it is shaking, increase F3.07, generally 0.01 amplitude increment.
467 +
468 +5. When the torque command F3.10 is lower than the percentage of "no-load current / rated current", the running frequency is about: rated frequency * torque command percentage * rated current / no-load current.
469 +
470 +6. Static Friction Compensation Logic: During startup, the torque command 1 = F3.11* F3.24 /100 is passed to the performance; after a maintenance time of F3.25 seconds, it reverts to torque command 2 = F3.11; the switching of torque commands 1 /2 occurs through the torque acceleration and deceleration times F3.14 / F3.15;
471 +
472 +7. Auxiliary debugging parameters: filter coefficient F3.07 and static friction compensation F3.24/ F3.25.
473 +
474 +F0.00=0 Vector control
475 +
476 +F0.18=2.0 Acceleration time
477 +
478 +F0.19=2.0 Deceleration time
479 +
480 +F2.01=Motor rated power
481 +
482 +F2.02=Motor rated voltage
483 +
484 +F2.03=Rated motor current
485 +
486 +F2.04=Rated motor frequency
487 +
488 +F2.05=Rated motor speed
489 +
490 +F2.11=1 Static tuning
491 +
492 +F3.01=0.2 Speed loop integration time
493 +
494 +F3.07=0.005 Speed loop filter coefficient
495 +
496 +F3.09=1 Torque control
497 +
498 +F3.10=1 Torque control upper limit source
499 +
500 +F3.11=200 Torque upper limit setting
501 +
502 +F3.12=50 Torque control maximum frequency
503 +
504 +F3.14=1.2 Torque control acceleration time
505 +
506 +F3.15=1.2 Torque control deceleration time
507 +
508 +F3.16=120 Torque stiffness factor
509 +
510 +Torque control commissioning instructions:
511 +
512 +F0.18: Frequency acceleration time
513 +
514 +F0.19: Frequency deceleration time
515 +
516 +F3.14: Torque acceleration time
517 +
518 +F3.15: Torque deceleration time
519 +
520 +F3.07: Frequency low-pass filtering factor
521 +
522 +F3.24: Static friction compensation
523 +
524 +F3.25: Static friction compensation time
企业微信截图_16890580824807.png
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