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Wiki source code of 06 Function parameter table

Version 2.1 by Iris on 2025/11/11 09:36
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1 ○——It indicates that the set value of the parameter can be changed when the inverter is shut down or running.
2
3 ●——It indicates that the setting value of the parameter cannot be changed when the inverter is in operation;
4
5 ◎——It indicates that the value of the parameter is the actual detection record value and cannot be changed;
6
7 □——It indicates that the parameter is Manufacturer parameter, which can only be set by the manufacturer and cannot be operated by users.
8
9
10 Mailing address description:
11
12 The following table indicates the communication addresses in hexadecimal format.
13
14 In the following table, the communication address is the RAM address, and the parameter is not saved if the power fails, you need to save, please see the instructions for writing EEPROM in section 7.4.
15
16
17 6.1 Basic parameter set
18
19 |**Function code**|**Name**|**Setting range**|**Default**|**Property**|**Modbus address**
20 |(% colspan="6" %)**F0 Basic function parameter group**
21 |F0.00|Motor control mode|(((
22 0: SVC
23
24 1: V/F
25
26 2: -
27 )))|1|●|0x0000
28 |F0.01|Command source selection|(((
29 0: Operation panel command channel
30
31 1: Terminal command channel
32
33 2: Serial port communication command channel
34 )))|0|●|0x0001
35 |F0.02| UP/DOWN standard|(((
36 0: Operating frequency
37
38 1: Set frequency
39 )))|1|●|0x0002
40 |F0.03|Primary frequency source X selection|(((
41 0: Digital setting F0.08 (Adjustable terminal UP/DOWN, non-relative after power failure)
42
43 1: Digit setting F0.08 (Terminal
44
45 UP/DOWN adjustable, power down memory)
46
47 2: AI1
48
49 3: AI2
50
51 4: Keyboard potentiometer set
52
53 5: The terminal PULSE pulse is set
54
55 6: Multi-speed instruction
56
57 7: Simple PLC
58
59 8: PID
60
61 9: Communication setting
62
63 10: AI3(Expansion module)
64 )))|4|●|0x0003
65 |F0.04|Auxiliary frequency source Y selection|Same as F0.03|0|●|0x0004
66 |F0.05|Range of auxiliary frequency source Y|(((
67 0: Relative to the maximum frequency F0.10
68
69 1: Relative to the frequency source X
70 )))|0|○|0x0005
71 |F0.06|Auxiliary frequency source Y range in superposition|0% to 150%|100%|○|0x0006
72 |F0.07|Frequency source operation selection|(((
73 LED ones: Frequency source
74
75 selection
76
77 0: The primary frequency source
78
79 1: The result of primary and secondary operations
80
81 2: Switch between primary frequency source and secondary frequency source
82
83 3: Switch between the primary frequency source and the primary and secondary operation results
84
85 4: Switch between auxiliary frequency source and primary and secondary operation results
86
87 LED ten: Frequency source main and auxiliary operation relationship
88
89 0: Primary + secondary
90
91 1: Primary to secondary
92
93 2: Indicates the maximum value of both
94
95 3: The minimum value of both
96
97 4: Main*auxiliary
98 )))|0|○|0x0007
99 |F0.08|Keyboard setting frequency|(((
100 0.00Hz to Maximum frequency
101
102 F0.10
103 )))|50.00Hz|○|0x0008
104 |F0.09|Running direction selection|(((
105 0: The same direction
106
107 1: The direction is reversed
108
109 2: Reverse prohibition
110 )))|0|○|0x0009
111 |F0.10|Maximum output frequency|0.00Hz to 320.00Hz|50.00Hz|●|0x000A
112 |F0.11|Source of frequency upper limit|(((
113 0: The number is given F0.12
114
115 1: AI1
116
117 2: AI2
118
119 3: AI3
120
121 4: Set the terminal PULSE
122
123 5: Communication setting
124
125 6: Reservations
126
127 7: Keyboard potentiometer set
128 )))|0|●|0x000B
129 |F0.12|Upper limiting frequency|F0.14 to F0.10|50.00Hz|○|0x000C
130 |F0.13|Upper frequency bias|0.00Hz to F0.10|0.00Hz|○|0x000D
131 |F0.14|Lower frequency|0.00Hz to F0.12|0.00Hz|○|0x000E
132 |F0.15|Lower frequency operating mode|(((
133 0: Run at lower frequency
134
135 1: STOP
136
137 2: Zero speed operation
138 )))|0|○|0x000F
139 |F0.16|Carrier frequency|0.5kHz to 16.0kHz|Model determination|○|0x0010
140 |F0.17|Carrier PWM characteristic selection|(((
141 Bits: Select PWM mode
142
143 0: Automatic switching;
144
145 1: 7 waves;
146
147 2: 5 waves;
148
149 3: SPWM;
150
151 LED ten: Carrier is associated with the output frequency
152
153 0: Independent of output frequency
154
155 1: It depends on the output frequency
156
157 LED hundred: random PWM depth
158
159 0: OFF
160
161 1-8: Open, adjust depth
162
163 LED kilobit: Over modulation option
164
165 0: OFF
166
167 1: ON
168 )))|1010|●|0x0011
169 |F0.18|Acceleration time 1|0.0s to 6500.0s|Model determination|○|0x0012
170 |F0.19|Deceleration time1|0.0s to 6500.0s|Model determination|○|0x0013
171 |F0.20|Parameter initialization|(((
172 0: No action is taken
173
174 1: Restore factory value (Do not restore motor parameters)
175
176 2: Clear the record information
177
178 3: Restore factory value (Restore motor parameters)
179 )))|0|●|0x0014
180 |F0.23|Unit of acceleration and deceleration time|(((
181 0: 1 s
182
183 1: 0.1s
184
185 2: 01s
186 )))|1|●|0x0017
187 |F0.24|Acceleration and deceleration time reference frequency|(((
188 0: Maximum frequency (F0.10)
189
190 1: Set the frequency
191
192 2: 100 Hz
193 )))|0|●|0x0018
194 |F0.25|Fan control|(((
195 Bits: Start/stop control
196
197 0: The fan runs after the inverter is powered on
198
199 1: Shutdown is related to temperature, and operation is running
200
201 2: Stop The fan stops, and the operation is related to temperature
202
203 Tens place: Enables the speed adjustment function
204
205 0: Off
206
207 1: Enable
208 )))|01|○|0x0019
209 |F0.26|Frequency command decimal point|(((
210 1: 1 decimal place
211
212 2: 2 decimal places
213 )))|2|●|0x001A
214 |F0.27|Modulation ratio coefficient|10.0-150.0%|100.0%|○|0x001B
215 |(% colspan="6" %)**F1 Start stop control parameter group**
216 |F1.00|Start-up operation mode|(((
217 LED bits: Boot mode
218
219 0: Start directly from the start frequency
220
221 1: Start after speed tracking and direction judgment
222
223 2: The asynchronous machine starts with pre-excitation
224 )))|00|●|0x0100
225 |F1.01|Speed tracking mode|(((
226 LED ten: Speed tracking direction
227
228 0: One to the stop direction
229
230 1: One to the starting direction
231
232 2: Automatic search
233 )))|0|●|0x0101
234 |F1.02|Speed tracking time|0.01 to 60.00s|1.00s|○|0x0102
235 |F1.03|Speed tracking current loop gain|0.00-100.00|10.00|○|0x0103
236 |F1.04|RPM tracking speed gain|0.01 to 10.00|2.00|○|0x0104
237 |F1.05|Speed tracking current|50 to 200%|150%|○|0x0105
238 |F1.06|Starting frequency|0.00-60.00Hz|0.00Hz|○|0x0106
239 |F1.07|Startup frequency duration|0.0-50.0s|0.0s|●|0x0107
240 |F1.08|Braking current before starting|0.0-150.0%|80.0%|●|0x0108
241 |F1.09|Braking time before starting|0.0-60.0s|0.0s|●|0x0109
242 |F1.10|Stop method|(((
243 0: Slow down and stop
244
245 1: Free shutdown
246 )))|0|○|0x010A
247 |F1.11|Stop DC braking start frequency|0.00Hz -F0.10|0.00Hz|○|0x010B
248 |F1.12|Stop DC braking wait time|0.0s to 100.0s|0.0s|○|0x010C
249 |F1.13|Stop DC braking current|0.0% to 150.0%|80.0%|○|0x010D
250 |F1.14|Stop DC braking duration|0.0s to 100.0s|0.0s|○|0x010E
251 |F1.16|Energy consumption brake action voltage|115.0%-140.0%|130%|●|0x0110
252 |F1.17|Magnetic flux braking gain|10-150%|80%|○|0x0111
253 |F1.18|Magnetic flux braking operating voltage|110%-500%|120%|○|0x0112
254 |F1.19|Flux brake limiting|0-200%|20%|○|0x0113
255 |F1.20|Acceleration and deceleration selection|(((
256 0: Straight line
257
258 1: S curve
259 )))|0|●|0x0114
260 |F1.21|S-curve initial acceleration rate|20.0%-100.0%|50.0%|●|0x0115
261 |F1.22|S-curve initial deceleration rate|20.0%-100.0%|50.0%|●|0x0116
262 |F1.23|Zero speed holding torque|0.0-150.0%|0|●|0x0117
263 |F1.24|Zero speed holding torque time|(((
264 0.0 to 6000.0s
265
266 If the value is set to 6000.0s, the value remains unchanged without time limit.
267 )))|Model determination|●|0x0118
268 |F1.25|Start pre-excitation time|0.00-60.00s|0.20|○|0x0119
269 |F1.26|Shutdown frequency|0.00-60.00Hz|0.00Hz|○|0x011A
270 |F1.27|Power failure restart action selection|(((
271 0: Invalid
272
273 1: Valid
274 )))|0|○|0x011B
275 |F1.28|Power failure restart waiting time|0.00-120.00s|0.50s|○|0x011C
276 |F1.29|Select the terminal running protection|(((
277 LED bits: Select the terminal run instruction when powering on
278
279 0: The terminal running instruction is invalid during power-on.
280
281 1: Terminal running instructions are valid during power-on
282
283 LED ten: Run command given channel switch terminal run instruction selection
284
285 0: The terminal running instruction is invalid
286
287 1: The terminal instruction is valid when the terminal is cut in.
288 )))|11|○|0x011D
289 |(% colspan="6" %)**F2 Motor parameter group**
290 |F2.00|Motor type|(((
291 0: Asynchronous machine (AM)
292
293 1: Permanent magnet synchronous motor(PM)
294
295 2: Single-phase induction motor (VF control only)
296 )))|0|●|0x0200
297 |F2.01|Rated power of motor|0.1kW to 400.0kW|(% rowspan="10" %)Model determination|●|0x0201
298 |F2.02|Rated voltage of motor|1V to 440V|●|0x0202
299 |F2.03|Rated current of motor|0.1-2000.0A|●|0x0203
300 |F2.04|Rated frequency of motor|0.01Hz -F0.10|●|0x0204
301 |F2.05|Rated motor speed|1rpm to 65000rpm|●|0x0205
302 |F2.06|Motor stator resistance|0.001-65.000|●|0x0206
303 |F2.07|Motor rotor resistance|0.001-65.000|●|0x0207
304 |F2.08|Motor fixed rotor inductance|0.1-6500.0mH|●|0x0208
305 |F2.09|Mutual inductance of motor fixed rotor|0.1-6500.0mH|●|0x0209
306 |F2.10|Motor no-load current|0.1-650.0A|●|0x020A
307 |F2.11|Tuning selection|(((
308 0: No operation is performed
309
310 1: Static tuning 1
311
312 2: Full tuning
313
314 3: Static tuning 2(AM calculated Lm)
315 )))|0|●|0x020B
316 |F2.12|G/P model|(((
317 0: Type G machine
318
319 1: P-type machine
320 )))|Model determination|◎|0x020C
321 |F2.13|Single-phase motor turns ratio|10 -200%|100%|●|0x020D
322 |F2.14|Current calibration coefficient of single-phase motor|50 -200%|120%|●|0x020E
323 |F2.15|Number of motor poles|2-48|4|●|0x020F
324 |F2.16|Speed feedback or encoder type|(((
325 Units place: encoder type
326
327 0: Expansion interface for IO module
328
329 1: Standard ABZ encoder
330
331 2: Resolver
332
333 3: UVW encoder
334
335 4: UVW encoder with reduced wiring
336
337 Tens place: encoder Direction
338
339 0: Direction same
340
341 1: Direction opposite
342
343 Hundreds place: break Detection
344
345 0: Disable
346
347 1: Enable
348
349 Thousands Digit: Reserved
350 )))|0|●|0x0210
351 |F2.17|Photoelectric encoder line count|0-60000|2500|●|0x0211
352 |F2.18|PG disconnection detection time|0.000-60.000s|0.100sec|○|0x0212
353 |F2.19|Resolver pole pairs|2-128|2|●|0x0213
354 |F2.20|Encoder installation reduction ratio|0.100-50.000|1.000|●|0x0214
355 |F2.21|Encoder filter time|1-1000ms|10ms|●|0x0215
356 |F2.22|Stator resistance of synchronization|0.001-65.000 (0.0010hm)|(% rowspan="4" %)Model determination|●|0x0216
357 |F2.23|Synchronize d-axis inductance|0.01mH-655.35mH|●|0x0217
358 |F2.24|Synchronize Q-axis inductance|0.01mH-655.35mH|●|0x0218
359 |F2.25|Synchronize back electromotive force|0.1V-1000.0V|○|0x0219
360 |F2.28|High frequency injection voltage|0.1% to 100.0%|20.0%|●|0x021C
361 |F2.29|Back potential identification current|0.1% to 100.0%|50.0%|●|0x021D
362 |F2.31|Asynchronous no-load current per unit value|0.1%|(% rowspan="9" %)Model determination|●|0x021F
363 |F2.32|Per unit asynchronous stator resistance|0.01%|●|0x0220
364 |F2.33|Asynchronous rotor resistance per unit value|0.01%|●|0x0221
365 |F2.34|Asynchronous mutual inductance per unit value|0.1%|●|0x0222
366 |F2.35|Asynchronous leakage sensing per unit value|0.01%|●|0x0223
367 |F2.36|Per unit value of asynchronous leakage sensing coefficient|0.01%|●|0x0224
368 |F2.37|Synchronous stator resistance per unit value|0.01%|●|0x0225
369 |F2.38|Per unit value of synchronous D-axis inductance|0.01%|●|0x0226
370 |F2.39|Synchronous Q-axis inductance per unit value|0.01%|●|0x0227
371 |F2.40|Back electromotive force of synchronous motor|0.1V|300.0V|●|0x0228
372 |F2.41|Encoder mounting angle|0.1 °|0.0 °|●|
373 |(% colspan="6" %)**F3 Vector control parameter group**
374 |F3.00|ASR (Speed loop) proportional gain 1|0.00 to 100.00%|20%|○|0x0300
375 |F3.01|ASR (Velocity ring) integration time 1|0.01s to 10.00s|0.20|○|0x0301
376 |F3.02|Loss of velocity protection value|(((
377 0 to 5000ms
378
379 (0 Turn off stall protection)
380 )))|0ms|○|0x0302
381 |F3.03|ASR filtering time 1|0.000 to 0.100s|0.000s|○|0x0303
382 |F3.04|ASR switching frequency 1|0.00 to 50.00Hz|5.00Hz|○|0x0304
383 |F3.05|ASR (Speed loop) proportional gain 2|0.00 to 100.00%|20%|○|0x0305
384 |F3.06|ASR (Velocity loop) integration time 2|0.01s to 10.00s|0.30|○|0x0306
385 |F3.07|Retain| |0|-|0x0307
386 |F3.08|ASR filtering time 2|0.000-0.100s|0.000s|○|0x0308
387 |F3.09|ASR switching frequency 2|0.00-50.00Hz|10.00Hz|●|0x0309
388 |F3.10|Slip compensation coefficient|0-250%|100%|●|0x030A
389 |F3.11|Maximum electric torque|0.0-250.0%|160.0%|○|0x030B
390 |F3.12|Maximum generating torque|0.0-250.0%|160.0%|○|0x030C
391 |F3.16|Current loop D axis proportional gain|0.1 to 10.0|1.0|●|0x0310
392 |F3.17|Current loop D axis integral gain|0.1 to 10.0|1.0|○|0x0311
393 |F3.18|Current loop Q axis proportional gain|0.1 to 10.0|1.0|○|0x0312
394 |F3.19|Current loop Q axis integral gain|0.1 to 10.0|1.0|○|0x0313
395 |F3.20|D-axis feed-forward gain|0.0-200.0%|50.0%|○|0x0314
396 |F3.21|Q-axis feed-forward gain|0.0-200.0%|50.0%|○|0x0315
397 |F3.22|Optimize the current loop bandwidth|0.0 to 99.99ms|2.00ms|○|0x0316
398 |F3.23|Current loop control word|0 to 65535|0|○|0x0317
399 |F3.24|Weak magnetic control current upper limit|0 to 200%|50%|●|0x0318
400 |F3.25|Weak magnetic control feed forward gain|0 to 500%|0%|●|0x0319
401 |F3.26|Weak magnetic control proportional gain|0 to 9999|500|○|0x031A
402 |F3.27|Weak magnetic control integral gain|0 to 9999|1000|○|0x031B
403 |F3.28|MTPA gain|0.0 to 500.0%|0.0%|○|0x031C
404 |F3.29|MTPA filtering time|0.0 to 999.9ms|100.0ms|○|0x031D
405 |F3.30|Magnetic flux compensation coefficient|0-500%|100%|○|0x031E
406 |F3.31|Open-loop vector observeration gain|0 to 9999|1024|○|0x031F
407 |F3.32|Open loop vector observation filtering time|1 to 100ms|20ms|○|0x0320
408 |F3.33|Open-loop vector compensates start frequency|0 to 100.0%|1.0%|○|0x0321
409 |F3.34|Open loop vector control word|0 to 9999|8|○|0x0322
410 |F3.35|Synchronous open loop starting mode|(((
411 0: Direct startup.
412
413 1: Start at an Angle
414 )))|0|○|0x0323
415 |F3.36|Dc pull in time|1ms to 9999ms|500ms|○|0x0324
416 |F3.37|Synchronous open loop vector low-frequency boost|0-100.0%|20.0%|○|0x0325
417 |F3.38|Synchronous open loop vector high-frequency boost|0.0-100.0%|0.0%|○|0x0326
418 |F3.39|Low frequency boost to maintain frequency|0.0-100.0%|10.0%|○|0x0327
419 |F3.40|Low frequency increases cutoff frequency|0.0-100.0%|20.0%|○|0x0328
420 |F3.46|Speed/torque control mode|(((
421 0: Speed control
422
423 1: Torque control
424 )))|0|●|0x032E
425 |F3.47|Torque given channel selection|(((
426 0: F3.48 is set
427
428 1: AI1╳F3.48
429
430 2: AI2╳F3.48
431
432 3: AI3╳F3.48
433
434 4: PUL╳F3.48
435
436 5: Keyboard potentiometer given ╳F7.01
437
438 6: RS485 communication given ╳F3.48
439 )))|0|●|0x032F
440 |F3.48|Torque keyboard numeric setting|0 to 200.0%|100.0%|○|0x0330
441 |F3.49|Torque direction selection|(((
442 Units: Torque direction setting
443
444 0: The torque direction is positive
445
446 1: The torque direction is negative
447
448 Tens place: torque reversing setting
449
450 0: Torque reversal is allowed
451
452 1: Torque reversal is prohibited
453 )))|00|○|0x0331
454 |F3.50|Upper limit of output torque|F3.51 to 200.0%|150.0%|○|0x0332
455 |F3.51|Lower limit of output torque|0 to F3.50|0%|○|0x0333
456 |F3.52|Torque control forward speed limit selection|(((
457 0: F3.54 is set
458
459 1: AI1╳F3.54
460
461 2: AI2╳F3.54
462
463 3: AI3╳F3.54
464
465 4: PUL╳F3.54
466
467 5: Keyboard potentiometer given ╳F3.54
468
469 6: RS485 communication given ╳F3.54
470 )))|0s|○|0x0334
471 |F3.53|Torque control reversal speed limit selection|(((
472 0: F3.55 is set
473
474 1: AI1╳F3.55
475
476 2: AI2╳F3.55
477
478 3: AI3╳F3.55
479
480 4: PUL╳F3.55
481
482 5: Keyboard potentiometer given ╳F3.55
483
484 6: RS485 communication given ╳F3.55
485
486 7: Purchase card
487 )))|0|○|0x0335
488 |F3.54|Torque control positive maximum speed limit|0.00 to upper limiting frequency|50.00Hz|○|0x0336
489 |F3.55|Torque control reversal maximum speed limit|0.00 to upper limiting frequency|50.00Hz|○|0x0337
490 |F3.56|Speed/torque switching delay|0.00 to 10.00s|0.01s|○|0x0338
491 |F3.57|Torque acceleration time|0.00 to 10.00s|0.01s|○|0x0339
492 |F3.58|Torque deceleration time|0.00 to 10.00s|0.01s|○|0x033A
493 |F3.59|Forward and reverse torque dead zone time|0.00 to 650.00s|0.00s|○|0x033B
494 |(% colspan="6" %)**F4 V/F control parameter group**
495 |F4.00|Linear VF curve selection|(((
496 0: Linear V/F curve;
497
498 1: Multi-point V/F curve
499
500 2: Square V/F curve
501
502 3-11: 1.1-1.9 power VF curves, respectively;
503
504 12: V/F fully separated mode
505 )))|0|●|0x0400
506 |F4.01|Manual torque lift|0.1-30.0%, 0 automatic torque boost|Model determination|○|0x0401
507 |F4.02|Torque boost cutoff frequency|0.00Hz -F0.10|50.00Hz|●|0x0402
508 |F4.03|Self-set frequency F1|0.00Hz to F4.05|3.00Hz|●|0x0403
509 |F4.04|Self-set voltage V1|0.0% to 100.0%|10.0%|●|0x0404
510 |F4.05|Self-set frequency F2|F4.03 to F4.07|5.00Hz|●|0x0405
511 |F4.06|Self-set voltage V2|0.0% to 100.0%|15.0%|●|0x0406
512 |F4.07|Self-set frequency F3|F4.05-F4.09|8.00Hz|●|0x0407
513 |F4.08|Self-set voltage V3|0.0% to 100.0%|22.0%|●|0x0408
514 |F4.09|Self-set frequency F4|F4.07-Rated frequency of motor F2.04|12.00Hz|●|0x0409
515 |F4.10|Self-set voltage V4|0.0% to 100.0%|31.0%|●|0x040A
516 |F4.11|Oscillation suppression gain|0.0 to 10.0|Model determination|○|0x040B
517 |F4.12|Oscillation suppression filtering time|1 to 1000ms|50ms|○|0x040C
518 |F4.14|Percentage of output voltage|25-100%|100%|●|(((
519
520
521 0x040E
522 )))
523 |F4.16|(((
524 AVR function
525
526
527 )))|(((
528 0: Invalid
529
530 1: Only slowing down is not effective
531
532 2: Only constant speed is effective
533
534 3: Valid
535 )))|3|●|0x0410
536 |F4.17|EVF torque boost gain|0 to 500.0%|50.0%|○|0x0411
537 |F4.18|EVF torque boost filtering time|1 to 1000ms|20ms|○|0x0412
538 |F4.19|EVF slip compensation gain|0 to 500.0%|0.0%|○|0x0413
539 |F4.20|EVF slip compensation filtering time|1 to 1000ms|100ms|○|0x0414
540 |F4.21|Automatic energy saving selection|(((
541 Units bit: 0 is off, 1 is on
542
543 Tens: Frequency change exit depth
544
545 Hundreds place: Reserve
546
547 Thousands: Reserve
548 )))|50|○|0x0415
549 |F4.22|Lower limit frequency of energy saving operation|0.0-100.0%|25.0%|○|0x0416
550 |F4.23|Energy saving and pressure reduction time|0.1-5000.0s|10.0s|○|0x0417
551 |F4.24|Lower limit of energy saving and pressure reduction|20.0-100.0%|30.0%|○|0x0418
552 |F4.25|Energy saving and pressure reduction rate|1 to 1000V/s|50V/s|○|0x0419
553 |F4.26|Voltage regulated proportional gain|0 to 100|20|○|0x041A
554 |F4.27|Voltage regulation integral gain|0 to 100|20|○|0x041B
555 |F4.30|Stabilizer proportional gain|0.1% to 100.0%|10.0%|○|0x041E
556 |F4.31|Stabilizer filtering time|1ms to 1000ms|50ms|○|0x041F
557 |F4.32|Low frequency current lift|0.0% to 200.0%|100.0%|○|0x0420
558 |F4.33|Low frequency boost maintenance frequency|0 to 100.0%|10.0%|○|0x0421
559 |F4.34|Low frequency current boosts the cutoff frequency|0 to 100.0%|30.0%|○|0x0422
560 |F4.35|D-axis current gain|0.0 to 100.0|2.0|○|0x0423
561 |F4.36|Q-axis current gain|0.0 to 100.0|2.0|○|0x0424
562 |F4.37|Magnetic flux set strength|0 to 500%|30%|○|0x0425
563 |F4.38|Magnetic flux control proportional gain|0 to 9999|500|○|0x0426
564 |F4.39|Magnetic flux controls the integral gain|0 to 9999|500|○|0x0427
565 |F4.40|Dc pull in time|1ms to 9999ms|1000ms|○|0x0428
566 |F4.41|Starting frequency|0.00Hz to 99.00Hz|3.00Hz|○|0x0429
567 |F4.42|Starting frequency time|0.0s- 999.0s|3.0s|○|0x042A
568 |F4.43|V/F Separate the output voltage source|(((
569 0: Function code F0.27 set
570
571 1: AI1 is set
572
573 2: AI2 is set
574
575 3: Reservations
576
577 4: Set the terminal PULSE
578
579 5: Multi-speed
580
581 6: Simple PLC
582
583 7: PID
584
585 8: Communication is given 100% corresponding to the rated voltage of the motor
586 )))|0|○|0x042B
587 |F4.44|V/F separation output voltage digital setting|0.0% to 100.0%|0|○|0x042C
588 |F4.45|V/F separation voltage rise time|0.0-1000.0s|1.0|○|0x042D
589 |F4.46|V/F separation voltage drop time|0.0-1000.0s|1.0|○|0x042E
590 |F4.47|V/F separate stop mode|(((
591 0: The voltage/frequency is simultaneously reduced to 0;
592
593 1: The frequency decreases after the voltage drops to 0
594 )))|0|○|0x042F
595 |(% colspan="6" %)**F5 Enter the terminal parameter group**
596 |F5.00|DI1 Terminal function selection|(% rowspan="8" %)(((
597 0: Non-function
598
599 0: Non-function
600
601 1: FWD
602
603 2: REV
604
605 3: Three-wire operation control
606
607 4: FJOG
608
609 5: RJOG
610
611 6: Terminal UP
612
613 7: Terminal DOWN
614
615 8: Free break
616
617 9: RESET
618
619 10: Running pause
620
621 11: External fault input(NO)
622
623 12: Multi-speed instruction terminal 1
624
625 13: Multi-speed instruction terminal 2
626
627 14: Multi-speed instruction terminal 3
628
629 15: Multi-speed instruction terminal 4
630
631 16: Acceleration and deceleration time select terminal 1
632
633 17: Acceleration and deceleration time select terminal 2
634
635 18: Frequency source switching (terminal, keyboard)
636
637 19: The UP/DOWN setting clears zero
638
639 20: Run the command to switch terminals
640
641 21: Acceleration and deceleration prohibition
642
643 22: PID pause
644
645 23: PLC State reset
646
647 24: Swing pause
648
649 25: Counter input
650
651 26: Counter reset
652
653 27: Length count input
654
655 28: Length reset
656
657 29: Torque control prohibited
658
659 30: PULSE impulse input(only DI4)
660
661 31: Reverse
662
663 32: Immediate DC braking
664
665 33: The external fault is normally closed
666
667 34: Reverse
668
669 35: The direction of PID action is reversed
670
671 36: External parking terminal 1
672
673 37: Control command switching terminal
674
675 38: PID integration pause terminal
676
677 39: Main frequency source and preset frequency switching terminal
678
679 40: Auxiliary frequency source and preset frequency switching terminal
680
681 41: Retain
682
683 42: Retain
684
685 43: PID parameter switching terminal
686
687 44: User-defined fault 1
688
689 45: User-defined fault 2
690
691 46: Speed control/torque control switch
692
693 47: Emergency stop
694
695 48: External parking terminal 2
696
697 49: Decelerate DC braking
698
699 50: The running time is cleared
700
701 51: Timing enable
702
703 52: Timing reset
704 )))|1|●|0x0500
705 |F5.01|DI2 Terminal function selection|2|●|0x0501
706 |F5.02|DI3 Terminal function selection|9|●|0x0502
707 |F5.03|DI4 Terminal function selection|12|●|0x0503
708 |F5.04|DI5 Terminal function selection (Extension)|0|●|0x0504
709 |F5.05|DI6 Terminal function selection (Extension)|0|●|0x0505
710 |F5.08|AI1 Indicates the DI terminal function|0|●|0x0508
711 |F5.09|AI2 Indicates the DI terminal function|0|●|0x0509
712 |F5.10|AI1 Input selection|(((
713 0: 0-10V
714
715 3: 0-5V
716
717 4: 0.5-4.5V
718 )))|0|●|0x050A
719 |F5.11|AI2 Input selection|(((
720 0: 0-10V
721
722 1: 4-20mA
723
724 2: 0-20mA
725
726 3: 0-5V
727
728 4: 0.5-4.5V
729 )))|1|●|0x050B
730 |F5.12|VDI1 terminal function selection|(% rowspan="3" %)(((
731 0: Non-function
732
733 1: FWD
734
735 2: REV
736
737 3: Three-wire operation control
738
739 4: FJOG
740
741 5: RJOG
742
743 6: Terminal UP
744
745 7: terminal DOWN
746
747 8: Free break
748
749 9: RESET
750
751 10: Running pause
752
753 11: External fault input(NO)
754
755 12: Multi-speed instruction terminal 1
756
757 13: Multi-speed instruction terminal 2
758
759 14: Multi-speed instruction terminal 3
760
761 15: Multi-speed instruction terminal 4
762
763 16: Acceleration and deceleration time select terminal 1
764
765 17: Acceleration and deceleration time select terminal 2
766
767 18: Frequency source switching (terminal, keyboard)
768
769 19: The UP/DOWN setting clears zero
770
771 20: Run the command to switch terminals
772
773 21: Acceleration and deceleration prohibition
774
775 22: PID pause
776
777 23: PLC State reset
778
779 24: Swing pause
780
781 25: Counter input
782
783 26: Counter reset
784
785 27: Length count input
786
787 28: Length reset
788
789 29: Torque control prohibited
790
791 30: PULSE impulse input(only DI4)
792
793 31: Reverse
794
795 32: Immediate DC braking
796
797 33: The external fault is normally closed
798
799 34: Reverse
800
801 35: The direction of PID action is reversed
802
803 36: External parking terminal 1
804
805 37: Control command switching terminal
806
807 38: PID integration pause terminal
808
809 39: Main frequency source and preset frequency switching terminal
810
811 40: Auxiliary frequency source and preset frequency switching terminal
812
813 41: Reverse
814
815 42: Reverse
816
817 43: PID parameter switching terminal
818
819 44: User-defined fault 1
820
821 45: User-defined fault 2
822
823 46: Speed control/torque control switch
824
825 47: Emergency stop
826
827 48: External parking terminal 2
828
829 49: Decelerate DC braking
830
831 50: The running time is cleared
832
833 51: Timing enable
834
835 52: Timing reset
836 )))|0|●|0x050C
837 |F5.13|VDI2 terminal function selection|0|●|0x050D
838 |F5.14|VDI3 terminal function selection|0|●|0x050E
839 |F5.15|DI filtering time|0.000s to 1.000s|0.010s|○|0x050F
840 |F5.16|Terminal command mode|(((
841 0: Two-wire type 1
842
843 1: Two-wire type 2
844
845 2: Three-wire type 1
846
847 3: Three-wire type 2
848 )))|0|●|0x0510
849 |F5.17|UP/DOWN change rate|0.01Hz to 655.35Hz|0.50Hz|○|0x0511
850 |F5.18|AI1 minimum input|0.00V to F5.20|0.00V|○|0x0512
851 |F5.19|AI1 minimum input setting|-100.0% to +100.0%|0%|○|0x0513
852 |F5.20|AI1 maximum input|F5.18 to +10.00V|10.00V|○|0x0514
853 |F5.21|AI1 maximum input setting|-100.0% to +100.0%|100.0%|○|0x0515
854 |F5.22|AI1 filtering time|0.00s to 10.00s|0.10s|○|0x0516
855 |F5.23|AI2 minimum input|-10.00V to F5.25|2.00V|○|0x0517
856 |F5.24|AI2 minimum input setting|-100.0% to +100.0%|0%|○|0x0518
857 |F5.25|AI2 maximum input|F5.23 to +10.00V|10.00V|○|0x0519
858 |F5.26|AI2 maximum input setting|-100.0% to +100.0%|100.0%|○|0x051A
859 |F5.27|AI2 filtering time|0.00s to 10.00s|0.10s|○|0x051B
860 |F5.28|PULSE|0.00 to F5.30|0.00kHz|○|0x051C
861 |F5.29|PULSE input minimum frequency setting|0.00-100.00%|0%|○|0x051D
862 |F5.30|PULSE input maximum frequency|F5.28-50.00kHz|20.00kHz|○|0x051E
863 |F5.31|PULSE maximum frequency setting|0.00-100.00%|100.0%|○|0x051F
864 |F5.32|PULSE filtering time|0.00-10.00s|0.10s|○|0x0520
865 |F5.33|DI1 Enable delay time|0.0s to 360.0s|0.0s|○|0x0521
866 |F5.34|DI2 Enable delay time|0.0s to 360.0s|0.0s|○|0x0522
867 |F5.35|DI1 Forbidden delay time|0.0s to 360.0s|0.0s|○|0x0523
868 |F5.36|DI2 Forbidden delay time|0.0s to 360.0s|0.0s|○|0x0524
869 |F5.37|Enter terminal valid status setting 1|(((
870 0: Low level valid
871
872 1: High level valid
873
874 LED one place: D1 terminal
875
876 LED tens place: D2 terminal
877
878 LED hundreds place: D3 terminal
879
880 LED thousands place: D4 terminal
881 )))|0|●|0x0525
882 |F5.38|Enter terminal valid status setting 2|(((
883 0: Low level valid
884
885 1: High level valid
886
887 LED one place: D5 terminal(expend)
888
889 LED tens place: D6 terminal(expend)
890 )))|0|●|0x0526
891 |F5.39|Enter terminal valid status setting 3|(((
892 0: Low level valid
893
894 1: High level valid
895
896 LED one place: AI1
897
898 LED tens place: AI2
899
900 LED hundreds place: AI3(expend)
901 )))|0|●|0x0527
902 |F5.40|Analog input curve selection|(((
903 One place: AI1
904
905 Tens place: AI2
906
907 Hundreds place: AI3 (expend)
908
909 0: Straight line (default)
910
911 1: Curve 1
912
913 2: Curve 2
914 )))|0|●|0x0528
915 |F5.41|Lower limit of curve 1|0.00 to F5.43|0.00V|○|0x0529
916 |F5.42|The lower limit of curve 1 is set accordingly|0.00 to 100.00%|0.0%|○|0x052A
917 |F5.43|Curve 1 inflection point 1 Input voltage|F5.41 to F5.45|3.00V|○|0x052B
918 |F5.44|Curve 1 inflection point 1 corresponds to the setting|0.00 to 100.00%|30.0%|○|0x052C
919 |F5.45|Curve 1 inflection point 2 Input voltage|F5.43 to F5.47|6.00V|○|0x052D
920 |F5.46|Curve 1 inflection point 2 corresponds to the setting|0.00 to 100.00%|60.0%|○|0x052E
921 |F5.47|Upper limit of curve 1|F5.45 to 10.00V|10.0V|○|0x052F
922 |F5.48|The upper limit of curve 1 is set accordingly|0.00 to 100.00%|100.0%|○|0x0530
923 |F5.49|Lower limit of curve 2|0.00 to F5.51|0.00V|○|0x0531
924 |F5.50|The lower limit of curve 2 is set accordingly|0.00 to 100.00%|0.0%|○|0x0532
925 |F5.51|Curve 2 Inflection point 1 Input voltage|F5.49 to F5.53|3.00V|○|0x0533
926 |F5.52|Curve 2 inflection point 1 corresponds to the setting|0.00 to 100.00%|30.0%|○|0x0534
927 |F5.53|Curve 2 Inflection point 2 Input voltage|F5.51 to F5.55|6.00V|○|0x0535
928 |F5.54|Curve 2 inflection point 2 corresponds to the setting|0.00 to 100.00%|60.0%|○|0x0536
929 |F5.55|Upper limit of curve 2|F5.53 to 10.00V|10.00V|○|0x0537
930 |F5.56|The upper limit of curve 2 is set accordingly|0.00 to 100.00%|100.0%|○|0x0538
931 |F5.57|AI3(Extension) is used to select the DI terminal function|(% rowspan="2" %)(((
932 0: Non-function
933
934 1: FWD
935
936 2: REV
937
938 3: Three-wire operation control
939
940 4: FJOG
941
942 5: RJOG
943
944 6: Terminal UP
945
946 7: terminal DOWN
947
948 8: Free break
949
950 9: RESET
951
952 10: Running pause
953
954 11: External fault input(NO)
955
956 12: Multi-speed instruction terminal 1
957
958 13: Multi-speed instruction terminal 2
959
960 14: Multi-speed instruction terminal 3
961
962 15: Multi-speed instruction terminal 4
963
964 16: Acceleration and deceleration time select terminal 1
965
966 17: Acceleration and deceleration time select terminal 2
967
968 18: Frequency source switching (terminal, keyboard)
969
970 19: The UP/DOWN setting clears zero
971
972 20: Run the command to switch terminals
973
974 21: Acceleration and deceleration prohibition
975
976 22: PID pause
977
978 23: PLC State reset
979
980 24: Swing pause
981
982 25: Counter input
983
984 26: Counter reset
985
986 27: Length count input
987
988 28: Length reset
989
990 29: Torque control prohibited
991
992 30: PULSE impulse input(only DI4)
993
994 31: Retain
995
996 32: Immediate DC braking
997
998 33: The external fault is normally closed
999
1000 34: Retain
1001
1002 35: The direction of PID action is reversed
1003
1004 36: External parking terminal 1
1005
1006 37: Control command switching terminal
1007
1008 38: PID integration pause terminal
1009
1010 39: Main frequency source and preset frequency switching terminal
1011
1012 40: Auxiliary frequency source and preset frequency switching terminal
1013
1014 41: Retain
1015
1016 42: Retain
1017
1018 43: PID parameter switching terminal
1019
1020 44: User-defined fault 1
1021
1022 45: User-defined fault 2
1023
1024 46: Speed control/torque control switch
1025
1026 47: Emergency stop
1027
1028 48: External parking terminal 2
1029
1030 49: Decelerate DC braking
1031
1032 50: The running time is cleared
1033
1034 51: Timing enable
1035
1036 52: Timing reset
1037 )))| |○|0x0539
1038 |F5.58|AI4 (Extension) is used to select the DI terminal function| | |
1039 |F5.59|(((
1040
1041
1042 AI3(Extension) Input selection
1043 )))|(((
1044 0: 0 to 10V
1045
1046 1: 4 to 20mA
1047
1048 2: 0 to 20mA
1049
1050 3: 0 to 5V
1051
1052 4: 0.5 to 4.5V
1053 )))|0| |0x053A
1054 |F5.60|AI4(Extension) Input selection|(((
1055 0: 0 to 10V
1056
1057 1: 4 to 20mA
1058
1059 2: 0 to 20mA
1060
1061 3: 0 to 5V
1062
1063 4: 0.5 to 4.5V
1064 )))|0| |0x053B
1065 |F5.61|AI3(Extended) lower limit|0 to F5.63|0.00V|○|0x053C
1066 |F5.62|AI3(Extended) lower limit is set accordingly|-100.0% to +100.0%|0.00%|○|0x053D
1067 |F5.63|AI3(Extended) Upper limit|F5.61 to +10.00V|10.00V|○|0x053E
1068 |F5.64|The AI3(Extended) upper limit corresponds to the setting|-100.0% to +100.0%|100.00%|○|0x053F
1069 |F5.65|AI3(Extended) filtering time|0.00-10.00s|0.10s|○|0x0540
1070 |F5.71|vX terminal valid state source|(((
1071 0: Internal connection with virtual vYn
1072
1073 1: Whether the function code setting is valid.
1074
1075 One place: Virtual VDI1
1076
1077 Tens place: Virtual VDI2
1078
1079 Hundred bit: Virtual VDI3
1080
1081 Thousands: Reserved
1082 )))|0|○|0x0547
1083 |F5.72|Virtual vX terminal function code set valid status|(((
1084 0: Invalid;
1085
1086 1: Valid
1087
1088 Units bit: Virtual VDI1
1089
1090 Tens place: Virtual VDI2
1091
1092 Hundreds place: Virtual VDI3
1093
1094 Thousands place: Reserved
1095 )))|0|○|0x0548
1096 |F5.73|Select the terminal action mode|(((
1097 LED one place: free shutdown terminal recovery mode
1098
1099 0: Restore the original command after it is invalid
1100
1101 1: The original instruction is not restored if invalid
1102
1103 LED tens place: emergency stop terminal recovery mode
1104
1105 0: Restore the original command after disconnection
1106
1107 1: The original command is not restored after the disconnect
1108
1109 LED hundreds place: Select terminal operation mode after fault reset
1110
1111 0: The terminal control can be started directly
1112
1113 1: Stop the terminal control before starting
1114
1115 LED thousands place: Reserve
1116 )))|111|○|0x0549
1117 |(% colspan="6" %)**F6 Output terminal parameter group**
1118 |F6.00|FM terminal output selection|(((
1119 0: Pulse output
1120
1121 1: Open collector output (FMR)
1122 )))|1|○|0x0600
1123 |F6.01|FMR open collector output selection|(% rowspan="7" %)(((
1124 0: No output
1125
1126 1: The inverter is in operation
1127
1128 2: Fault output (Fault shutdown)
1129
1130 3: Frequency level detection FDT1 Output
1131
1132 4: Frequency reaches
1133
1134 5: Zero speed running 1
1135
1136 6: Motor overload forecast alarm
1137
1138 7: Inverter overload forecast alarm
1139
1140 8: Set meter value reached
1141
1142 9: The specified count value is reached
1143
1144 10: Length reached
1145
1146 11: The PLC cycle is complete
1147
1148 12: The accumulated running time reaches
1149
1150 13: Reservations
1151
1152 14: Torque limit
1153
1154 15: Ready to run
1155
1156 16: AI1 > AI2
1157
1158 17: The upper frequency reaches
1159
1160 18: The lower limit frequency reaches 1
1161
1162 19: Output in undervoltage state
1163
1164 20: Communication control
1165
1166 21: Positioning completed (reserved)
1167
1168 22: Positioning close (reserved)
1169
1170 23: Zero speed running 2
1171
1172 24: The cumulative power-on time reaches
1173
1174 25: Frequency level detection FDT2 output
1175
1176 26: Frequency reaches 1 output
1177
1178 27: Frequency reaches 2 output
1179
1180 28: Current reaches 1 output
1181
1182 29: Current reaches 2 output
1183
1184 30: timed to reach output
1185
1186 31: Reserved
1187
1188 32: Reserved
1189
1190 33: Running direction
1191
1192 34: Reserved
1193
1194 35: The module temperature reaches
1195
1196 36: Reserved
1197
1198 37: The lower limit frequency reaches 2
1199
1200 38: Fault output 2
1201
1202 39: Reserved
1203
1204 40: The running time arrives
1205
1206 41: User-defined output 1
1207
1208 42: User-defined output 2
1209
1210 43: Timer output
1211
1212 44: Running forward
1213
1214 45: Reverse running
1215 )))|0|○|0x0601
1216 |F6.02|Relay 1 output selection|2|○|0x0602
1217 |F6.03|Relay 2 output selection (Extended)|0|○|0x0603
1218 |F6.06|VDO1 output selection|0|●|0x0606
1219 |F6.07|VDO2 output selection|0|●|0x0607
1220 |F6.08|VDO3 output selection|0|●|0x0608
1221 |F6.09|Reserve| |-|0x0609
1222 |F6.10|AO Output signal selection|(((
1223 One place: AO1
1224
1225 0: 0 to 10V
1226
1227 1: 4.00 to 20.00mA
1228
1229 2: 0.00 to 20.00mA
1230
1231 Tens place: AO2 (expend)
1232
1233 0: 0 to 10V
1234
1235 1: 4.00 to 20.00mA
1236
1237 2: 0.00 to 20.00mA
1238 )))|00|-|0x060A
1239 |F6.11|FMP (Pulse output terminal) output selection|(% rowspan="3" %)(((
1240 0: Run frequency
1241
1242 1: Setting frequency
1243
1244 2: Output current
1245
1246 3: Output torque
1247
1248 4: Output power
1249
1250 5: Output voltage
1251
1252 6: Reserve
1253
1254 7: AI1
1255
1256 8: AI2
1257
1258 9: AI3(Expansion module)
1259
1260 10: PULSE input value
1261
1262 11: Reserve
1263
1264 12: Communication setting
1265
1266 13: Motor speed
1267
1268 14: Output current (0-1000A, corresponding to 0-10V)
1269
1270 15: Output voltage (0-1000V, corresponding to 0-10V)
1271
1272 16: Bus voltage (0-1000V, corresponding to 0-10V)
1273 )))|0|○|0x060B
1274 |F6.12|AO1 Output selection|0|○|0x060C
1275 |F6.13|AO2 Output(expend)|0|○|0x060D
1276 |F6.14|FM frequency output upper limit|0.00 to 20.00kHz|20.00kHz|○|0x060E
1277 |F6.15|AO1 Minimum input|0.00V to F6.17|0.00V|○|0x060F
1278 |F6.16|AO1 Minimum input corresponds to setting|0.0% to +100.0%|0.0%|○|0x0610
1279 |F6.17|AO1 Maximum output|F6.15 to +10.00V|10.00V|○|0x0611
1280 |F6.18|AO1 The maximum output corresponds to the setting|0.0% to +100.0%|100.0%|○|0x0612
1281 |F6.19|AO2 Minimum output(expend)|0.00V to F6.21|0.00V|○|0x0613
1282 |F6.20|AO2 Minimum output correspondence settings (expend)|0.0% to +100.0%|0.0%|○|0x0614
1283 |F6.21|AO2 Maximum output(expend)|F6.19 to +10.00V|10.00V|○|0x0615
1284 |F6.22|AO2 Maximum output correspondence settings (expend)|0.0% to +100.0%|100.0%|○|0x0616
1285 |F6.23|FMR connecting delay time|0.0s to 3600.0s|0.0s|○|0x0617
1286 |F6.24|Relay 1 connecting delay time|0.0 to 3600.0s|0.0s|○|0x0618
1287 |F6.25|Relay 2 connecting delay time(expend)|0.0s to 3600.0s|0.0s|○|0x0619
1288 |F6.26|VDO connecting delay time|0.0 to 3600.0s|0.0s|○|0x061A
1289 |F6.27|FMR disconnect delay time|0.0s to 3600.0s|0.0s|○|0x061B
1290 |F6.28|Relay 1 disconnect delay time|0.0 to 3600.0s|0.0s|○|0x061C
1291 |F6.29|Relay 2 disconnect delay time(expend)|0.0s to 3600.0s|0.0s|○|0x061D
1292 |F6.30|VDO1 disconnect delay|0.0 to 3600.0s|0.0s|○|0x061E
1293 |F6.31|Output terminal valid status select 1|(((
1294 0: Positive logic
1295
1296 1: Reverse logic
1297
1298 One place: FDOR
1299
1300 Tens place: RL1
1301
1302 Hundreds place: RL2 (Extended)
1303
1304 Thousands place: -
1305 )))|000|○|0x061F
1306 |F6.32|Virtual output terminal valid status Select 2|(((
1307 0: Positive logic
1308
1309 1: Reverse logic
1310
1311 One place: VDO1
1312
1313 Tens place: VDO2
1314
1315 Hundreds place: VDO3
1316
1317 Thousands palce: -
1318 )))|000|○|0x0620
1319 |F6.33|User-defined output selection (EX) 1|(((
1320 0: The running frequency
1321
1322 1: Set the frequency
1323
1324 2: Bus voltage
1325
1326 3: Output voltage
1327
1328 4: Output current
1329
1330 5: Output power
1331
1332 6: Output torque
1333
1334 7-8: Reserved
1335
1336 9: AI1 input
1337
1338 10: AI2 input
1339
1340 11: AI3 input(expansion module)
1341 )))|0|○|0x0621
1342 |F6.34|User selected comparison method 1|(((
1343 Units: Compare test methods
1344
1345 0: Equal to (EX == X1)
1346
1347 1: The value is greater than or equal to
1348
1349 2: Less than or equal to
1350
1351 3: Interval comparison (X1 ≤ EX ≤ X2)
1352
1353 4: Bit test (EX & X1=X2)
1354
1355 Tens: output mode
1356
1357 0: False value output
1358
1359 1: Truth output
1360 )))|0|○|0x0622
1361 |F6.35|User-defined dead zone 1|0 to 65535|0|○|0x0623
1362 |F6.36|User-defined 1 output comparison value 1|0 to 65535|0|○|0x0624
1363 |F6.37|User defined 1 output comparison value 2|0 to 65535|0|○|0x0625
1364 |F6.38|User-defined output selection (EX) 2|(((
1365 0: The running frequency
1366
1367 1: Set the frequency
1368
1369 2: Bus voltage
1370
1371 3: Output voltage
1372
1373 4: Output current
1374
1375 5: Output power
1376
1377 6: Output torque
1378
1379 7-8: Reserved
1380
1381 9: AI1 input
1382
1383 10: AI2 input
1384
1385 11: AI3 input(Expansion module)
1386 )))|0|○|0x0626
1387 |F6.39|User defined comparison method 2|(((
1388 One place: Compare test methods
1389
1390 0: Equal to (EX == X1)
1391
1392 1: The value is greater than or equal to
1393
1394 2: Less than or equal to
1395
1396 3: Interval comparison (X1 ≤ EX ≤ X2)
1397
1398 4: Bit test (EX & X1=X2)
1399
1400 Tens: output mode
1401
1402 0: False value output
1403
1404 1: Truth output
1405 )))|0|○|0x0627
1406 |F6.40|User-defined dead zone 2|0 to 65535|0|○|0x0628
1407 |F6.41|User defined 2 output comparison value 1|0 to 65535|0|○|0x0629
1408 |F6.42|User defined 2 output comparison value 2|0 to 65535|0|○|0x062A
1409 |F6.43|Timer time unit|(((
1410 0: Second
1411
1412 1: Min
1413
1414 2: Hour
1415 )))|0|○|0x062B
1416 |F6.44|Timer maximum|0-65000 (No reset when the set value is 65000)|0|○|0x062C
1417 |F6.45|Timer set value|0-65000|0|○|0x062D
1418 |F6.46|Counter maximum|0-65000|0|○|0x062E
1419 |F6.47|Counter set value|0-65000|0|○|0x062F
1420 |(% colspan="6" %)**F7 Keyboard and display parameter group**
1421 |F7.00|LCD Keyboard parameter copy|(((
1422 0: No operation is performed
1423
1424 1: The function parameters of the machine are uploaded to the LCD keyboard
1425
1426 2: LCD keyboard function parameters download to the machine
1427 )))|0|○|0x0700
1428 |F7.01|ENT key function selection|(((
1429 0: ENT is invalid.
1430
1431 1: Switch between the instruction channel of the operation panel and the remote instruction channel (the remote instruction channel includes communication and terminal control)
1432
1433 2: Reverse switch
1434
1435 3: Forward jog
1436
1437 4: Reverse jog
1438
1439 5: Menu mode switch
1440
1441 6: Reverse operation
1442 )))|0|●|0x0701
1443 |F7.02|Keyboard STOP key range|(((
1444 LED one place: Terminal control selection
1445
1446 0: The terminal instruction is invalid
1447
1448 1: Valid for the terminal command
1449
1450 LED tens place: Communication control selection
1451
1452 0: The communication instruction is invalid.
1453
1454 1: Valid for communication instructions
1455
1456 LED hundreds place: Reserved
1457
1458 LED thousands place: Reserved
1459 )))|0011|○|0x0702
1460 |F7.03|Keyboard run displays parameter 1|(((
1461 LED one place: First group display
1462
1463 0: Output frequency
1464
1465 1: Given frequency
1466
1467 2: Bus voltage
1468
1469 3: Output voltage
1470
1471 4: Output current
1472
1473 5: Output power
1474
1475 6: Output torque
1476
1477 7: DI input status
1478
1479 8: DO output status
1480
1481 9: AI1 voltage
1482
1483 A: AI2 voltage
1484
1485 B: AI3 voltage(expansion module)
1486
1487 C: Reserved
1488
1489 D: Reserved
1490
1491 E: Motor speed
1492
1493 F: PID setting
1494
1495 LED tens place: second group display
1496
1497 LED hundreds place: Third group display
1498
1499 LED thousands place: Fourth group display
1500 )))|E420|○|0x0703
1501 |F7.04|Keyboard run displays parameter 2|(((
1502 LED one place: First group display
1503
1504 0: Not displayed
1505
1506 1: PID feedback
1507
1508 2: PLC stage
1509
1510 3: PULSE input pulse frequency
1511
1512 4: Feedback speed
1513
1514 5: Reserved
1515
1516 6: Reserved
1517
1518 7: Reserved
1519
1520 8: Reserved
1521
1522 9: Current power-on time
1523
1524 A: Current running time
1525
1526 B: Reserved
1527
1528 C: Communication setting
1529
1530 D: Reserved
1531
1532 E: Main frequency X display
1533
1534 F: Auxiliary frequency Y display
1535
1536 LED ten: Second group display
1537
1538 LED hundreds place: Third group display
1539
1540 LED thousands place: Fourth group display
1541 )))|0000|○|0x0704
1542 |F7.05|Keyboard stop displays parameters|(((
1543 LED one place: First group display
1544
1545 0: Output frequency
1546
1547 1: Given frequency
1548
1549 2: Bus voltage
1550
1551 3: Output voltage
1552
1553 4: Output current
1554
1555 5: Output power
1556
1557 6: Output torque
1558
1559 7: DI input status
1560
1561 8: DO output status
1562
1563 9: AI1 voltage
1564
1565 A: AI2 voltage
1566
1567 B:AI3 voltage(Expansion module)
1568
1569 C: Motor speed
1570
1571 D: PID setting
1572
1573 E: PID feedback
1574
1575 F: PLC stage
1576
1577 LED tens place: Second group display
1578
1579 LED hundreds place: Third group display
1580
1581 LED thousands place: Fourth group display
1582 )))|C421|○|0x0705
1583 |F7.06|Load speed display factor|0.001 to 65.000|1.000|○|0x0706
1584 |F7.07|Radiator temperature of inverter module|0℃- 100℃| |◎|0x0707
1585 |F7.08|Radiator temperature of rectifier bridge|0℃- 100℃| |◎|0x0708
1586 |F7.09|Cumulative running time|0h to 65535h| |◎|0x0709
1587 |F7.10|Product number|-| |◎|0x070A
1588 |F7.11|Software version|-| |◎|0x070B
1589 |F7.12|Reverse| | |◎|0x070C
1590 |F7.13|Total power-on time|0 to 65535h| |◎|0x070D
1591 |F7.14|High cumulative power consumption|(% rowspan="2" %)(((
1592 Power consumption
1593
1594 ~=F7.14*65535+F7.15
1595
1596 Units: kWh
1597 )))| |◎|0x070E
1598 |F7.15|Low cumulative power consumption| |◎|0x070F
1599 |F7.16|Output power correction factor|0 to 100.0%|100.0%|○|0x0710
1600 |F7.17|Power display dimension selection|(((
1601 0 to Power display percentage ~(%)
1602
1603 1 to Power display kilowatts (KW)
1604 )))|1|○|0x0711
1605 |(% colspan="6" %)F8 Auxiliary function parameter group
1606 |F8.00|JOG running frequency|0.00Hz -Maximum frequency F0.10|2.00Hz|○|0x0800
1607 |F8.01|JOG acceleration time|0.00s to 6500.0s|20.0s|○|0x0801
1608 |F8.02|JOG deceleration time|0.00s to 6500.0s|20.0s|○|0x0802
1609 |F8.03|Acceleration time 2|0.00s to 6500.0s|(% rowspan="7" %)Model determination|○|0x0803
1610 |F8.04|Deceleration time 2|0.00s to 6500.0s|○|0x0804
1611 |F8.05|Acceleration time 3|0.00s to 6500.0s|○|0x0805
1612 |F8.06|Deceleration time 3|0.00s to 6500.0s|○|0x0806
1613 |F8.07|Acceleration time 4|0.00s to 6500.0s|○|0x0807
1614 |F8.08|Deceleration time 4|0.00s to 6500.0s|○|0x0808
1615 |F8.09|Emergency stop deceleration time|0.00s to 6500.0s|○|0x0809
1616 |F8.10|Jump frequency 1|0.00Hz -Maximum frequency|0.00Hz|○|0x080A
1617 |F8.11|Jump frequency 2|0.00Hz -Maximum frequency|0.00Hz|○|0x080B
1618 |F8.12|Jump frequency amplitude|0.00Hz -Maximum frequency|0.00Hz|○|0x080C
1619 |F8.13|Forward-reverse dead zone time|0.0 to 120.0s|0.0s|○|0x080D
1620 |F8.14|The carrier frequency is adjusted with temperature|(((
1621 0: Temperature independent
1622
1623 1: Temperature dependent
1624 )))|1|○|0x080E
1625 |F8.15|Terminal action is preferred|(((
1626 0: Invalid
1627
1628 1: Valid
1629 )))|1|○|0x080F
1630 |F8.16|Setting of accumulated power-on arrive time|0h to 65000h|0h|○|0x0810
1631 |F8.17|Set the accumulative running arrival time|0h to 65000h|65000h|○|0x0811
1632 |F8.18|Setting of accumulated power-on arrive action|(((
1633 0: Continue to run
1634
1635 1: Fault warning
1636 )))|0|●|0x0812
1637 |F8.19|Set the accumulative running time arrival action|(((
1638 0: Continue to run
1639
1640 1: Fault warning
1641 )))|0|●|0x0813
1642 |F8.20|Arrival time of this run|0-65000min|0|○|0x0814
1643 |F8.21|The running time reaches the action selection|(((
1644 0: Continue to run
1645
1646 1: Fault prompt
1647 )))|0|●|0x0815
1648 |F8.22|Frequency detection value(FDT1)|0.00-Maximum frequency|50.00Hz|○|0x0816
1649 |F8.23|Frequency detection lag value(FDT1)|0.00-Maximum frequency|0.00Hz|○|0x0817
1650 |F8.24|Frequency detection value(FDT2)|0.00-Maximum frequency|50.00Hz|○|0x0818
1651 |F8.25|Frequency detection lag value(FDT2)|0.00-Maximum frequency|0.00Hz|○|0x0819
1652 |F8.26|Frequency reaches the detect width|(((
1653 0.0% to 100.0%
1654
1655 (Maximum frequency)
1656 )))|0.0%|○|0x081A
1657 |F8.27|Arbitrary arrival frequency detection value 1|0.00Hz-Maximum frequency|50.00Hz|○|0x081B
1658 |F8.28|Arbitrary arrival frequency detection amplitude 1|0.0% to 100.0% (Maximum frequency)|0.0%|○|0x081C
1659 |F8.29|Arbitrary arrival frequency detection value 2|0.00Hz-Maximum frequency|50.00Hz|○|0x081D
1660 |F8.30|Arbitrary arrival frequency detection amplitude 1|0.0% to 100.0% (Maximum frequency)|0.0%|○|0x081E
1661 |F8.31|Arbitrarily reach current1|(((
1662 0.0% to 300.0%
1663
1664 (Motor rated current)
1665 )))|100.0%|○|0x081F
1666 |F8.32|Arbitrarily reach current 1 width|(((
1667 0.0% to 300.0%
1668
1669 (Motor rated current)
1670 )))|0.0%|○|0x0820
1671 |F8.33|Arbitrarily reach current 2|(((
1672 0.0% to 300.0%
1673
1674 (Motor rated current)
1675 )))|100.0%|○|0x0821
1676 |F8.34|Arbitrarily reach current 2 width|(((
1677 0.0% to 300.0%
1678
1679 (Motor rated current)
1680 )))|0.0%|○|0x0822
1681 |F8.35|Zero current detection value|0.0% to 300.0%(Motor rated current)|5.0%|○|0x0823
1682 |F8.36|Zero current detection delay time|0 to 600.00s|0s|○|0x0824
1683 |F8.37|Software over current point (D0 output)|(((
1684 0.0% to 300.0%
1685
1686 (AC drive rated current)
1687 )))|200.0%|○|0x0825
1688 |F8.38|Software over current detection delay time|0 to 600.00s|0s|○|0x0826
1689 |(% colspan="6" %)**F9 Functional parameter array**
1690 |F9.00|PID setting source|(((
1691 0: Keyboard number PID given F9.01
1692
1693 1: AI1
1694
1695 2: AI2
1696
1697 3: Reserve
1698
1699 4: Terminal pulse setting
1700
1701 5: Communication setting
1702
1703 6: Multi -stage speed setting
1704
1705 7: Keyboard potentiometer setting
1706 )))|0|○|0x0900
1707 |F9.01|PID digital setting|0.0% to 100.0%|50.0%|○|0x0901
1708 |F9.02|PID feedback source|(((
1709 0: AI1
1710
1711 1: AI2
1712
1713 2: Reserve
1714
1715 3: AI1-AI2
1716
1717 4: Terminal pulse setting
1718
1719 5: Communication setting
1720
1721 6: AI1+AI2
1722
1723 7: MAX(|AI1|, |AI2|)
1724
1725 8: MIN(|AI1|, |AI2|)
1726
1727 9: Keyboard potentiometer setting
1728 )))|0|○|0x0902
1729 |F9.03|PID control characteristics|(((
1730 LED units: Feedback characteristic selection
1731
1732 0: Positive action
1733
1734 1: Reaction
1735
1736 LED tens: PID adjustment direction selection
1737
1738 0: Reverse prohibition
1739
1740 1: Reverse permit
1741
1742 LED hundreds digit: Alignment selection
1743
1744 0: Off-center alignment
1745
1746 1: Center alignment
1747
1748 LED kilobit: Reserve
1749 )))|0100|○|0x0903
1750 |F9.04|PID given feedback range|0 to 65535|1000|○|0x0904
1751 |F9.05|Proportional gain P1|0 to 1000.0|20.00|○|0x0905
1752 |F9.06|Integration time I1|0.00s to 10.00s|2.00s|○|0x0906
1753 |F9.07|Differential time D1|0.00s to 10.00s|0.00s|○|0x0907
1754 |F9.08|PID reverse cutoff frequency|0.00 to Maximum frequency F0.10|0.00Hz|○|0x0908
1755 |F9.09|PID deviation limit|0.0% to 100.0%|0.0%|○|0x0909
1756 |F9.10|PID differential limiting|0.00% to 100.00%|0.10%|○|0x090A
1757 |F9.11|PID given change time|0.00 to 100.00s|0s|○|0x090B
1758 |F9.12|PID feedback filtering time|0.00 to 60.00s|0.00s|○|0x090C
1759 |F9.13|PID output filtering time|0.00 to 60.00s|0.00s|○|0x090D
1760 |F9.14|Proportional gain P2|0.0 to 1000.0|20.00|○|0x090E
1761 |F9.15|Integration time I2|0.00s to 10.00s|2.00s|○|0x090F
1762 |F9.16|Differential time D2|0.00s to 10.00s|0.00s|○|0x0910
1763 |F9.17|PID parameter switching condition|(((
1764 0: Do not switch
1765
1766 1: Terminal switching
1767
1768 2: Automatic switching based on deviation
1769 )))|0|○|0x0911
1770 |F9.18|PID parameter switching deviation 1|0.0% to F9.19|20.0%|○|0x0912
1771 |F9.19|PID parameter switching deviation 2|F9.18 to 100.0%|80.0%|○|0x0913
1772 |F9.20|PID Initial frequency value|0.0% to 100.0%|0%|○|0x0914
1773 |F9.21|PID Frequency initial holding time|0.0 to 6500.0s|0.0s|○|0x0915
1774 |F9.23|Feedback wire break action selection|(((
1775 0: The PID continues to run and no fault is reported
1776
1777 1: Stop and report fault (Manual reset)
1778
1779 2: Continue PID operation, output alarm signal
1780
1781 3: Run at the current frequency, output alarm signal
1782
1783 4: Stop and report fault (Automatic reset)
1784 )))|0|○|0x0917
1785 |F9.24|Wire break alarm upper limit|F9.25 to 100.0%|100.0%|○|0x0918
1786 |F9.25|Line break alarm lower limit|0 to F9.24|0.0%|○|0x0919
1787 |F9.26|Feedback break detection time|0.0s to 120.0s|0.0s|○|0x091A
1788 |F9.27|PID stop operation|(((
1789 0: No operation at stop
1790
1791 1: Operation at stop
1792 )))|0|○|0x091B
1793 |F9.28|PID function selection|(((
1794 0: Normal PID
1795
1796 1: Dormant PID
1797 )))|0|○|0x091C
1798 |F9.29|PID sleep threshold|0.0% to 100.0%|60.0%|○|0x091D
1799 |F9.30|PID sleep delay|0.0 to 3600.0s|3.0s|○|0x091E
1800 |F9.31|PID wake-up threshold|0.0% to 100.0%|20.0%|○|0x091F
1801 |F9.32|PID wake up delay|0.0 to 3600.0s|3.0s|○|0x0920
1802 |F9.33|Dormancy detection frequency|0 to Upper limit frequency F0.12|25.00Hz|○|0x0921
1803 |F9.34|Minimum output|(((
1804 0: F0.14(Lower frequency)
1805
1806 1: 0Hz
1807 )))| |●|0x0922
1808 |F9.35|Double output deviation reverse minimum|0.00-100.00%|1.00%|○|0x0923
1809 |F9.36|Double output deviation reverse maximum|0.00-100.00%|1.00%|○|0x0924
1810 |F9.37|PID integral attribute|(((
1811 Units place: integral separation
1812
1813 0: Invalid
1814
1815 1: Valid
1816
1817 Tens: output to the limit, whether to stop integrating
1818
1819 0: Continue to integrate
1820
1821 1: Stop collecting points
1822 )))|0|○|0x0925
1823 |F9.38|PID Preset Switchover condition selection|(((
1824 0: Time
1825
1826 1: Switch according to AI1 feedback value
1827 )))|0|○|0x0926
1828 |F9.39|PID Minimum value of AI feedback switching|0.0-F9.40|45.0%|○|0x0927
1829 |F9.40|PID AI feedback maximum switching value|F9.39-100.0%|55.0%|○|0x0928
1830 |(% colspan="6" %)**FA Fault and protection parameter group**
1831 |FA.00|Motor overload protection selection|(((
1832 0: Off
1833
1834 1: On
1835 )))|1|○|0x0A00
1836 |FA.01|Motor overload protection factor|0.0-250.0%|100.0%|○|0x0A01
1837 |FA.02|Motor overload warning coefficient|20.0-250.0%|80.0%|○|0x0A02
1838 |FA.03|Overvoltage stall and overcurrent stall control selection|(((
1839 0: Off
1840
1841 1: On
1842
1843 Unit: Excessive suppression enable
1844
1845 Tens: Over current suppression enable
1846
1847 Hundreds: Judge the input of brakes
1848
1849 Thousands: Excessive suppression of fast rising frequency
1850 )))|1111|○|0x0A03
1851 |FA.04|Over voltage protection voltage|110% to 150%|Model settings|○|0x0A04
1852 |FA.05|The Udc controls voltage loop gain|0.00 to 50.00|2.00|○|0x0A05
1853 |FA.06|The Udc controls current loop gain|0.00 to 50.00|2.00|○|0x0A06
1854 |FA.07|Overcurrent suppression point|50% to 200%|150%|○|0x0A07
1855 |FA.08|Overcurrent suppression gain|0.00 to 50.00|2.00|○|0x0A08
1856 |FA.09|Overcurrent suppression points|0.00 to 50.00|4.00|○|0x0A09
1857 |FA.10|Short -circuit detection|(((
1858 0: Invalid
1859
1860 1: Valid
1861 )))|1|○|0x0A0A
1862 |FA.11|Input phase loss protection|(((
1863 0:Disable
1864
1865 1: Enable
1866 )))|1|○|0x0A0B
1867 |FA.12|Output phase loss protection|(((
1868 0:Disable
1869
1870 1: Enable
1871 )))|1|○|0x0A0C
1872 |FA.13|Input phase loss protection software detection level|0.0-999.9%|15.0%|○|0x0A0D
1873 |FA.14|PWM parameter setting|(((
1874 One place: Enable voltage prediction compensation
1875
1876 Tens - place: PWM update mode
1877
1878 0: Single sample update
1879
1880 1: Double sample and double update
1881
1882 Hundreds place: Random carrier mode
1883
1884 0: Random carrier
1885
1886 1: Random 0 vector
1887 )))|0010| |0x0A0E
1888 |FA.15|Hardware current and voltage protection|(((
1889 One place: Hardware current limit(CBC)
1890
1891 0: Disable
1892
1893 1: Enable
1894
1895 Tens places: -
1896
1897 Hundreds place: FAU filtering time
1898
1899 1 to F
1900
1901 Thousands place: TZ filtering time
1902
1903 1 to F
1904 )))|0001|○|0x0A0F
1905 |FA.16|CBC protection point|100-220%|200%|○|0x0A10
1906 |FA.17|CBC overload protection time|1-5000ms|500ms|○|0x0A11
1907 |FA.18|Undervoltage threshold setting|40.0% to 100.0%|100.0%|○|0x0A12
1908 |FA.19|Reserve|-|Model determination|◎|0x0A13
1909 |FA.20|Number of failure recovery|0 to 5|0|○|0x0A14
1910 |FA.21|Interval for fault self-recovery|0.1 to 100.0s|1.0s|○|0x0A15
1911 |FA.22|Power loss ride-through selection|(((
1912 One place: Power loss ride-through selection function enable
1913
1914 0: Disable
1915
1916 1: Enabled
1917
1918 Tens place: Power loss ride-through function selection
1919
1920 0: Continue to operation
1921
1922 1: Shut down
1923 )))|0000|○|0x0A16
1924 |FA.23|Instant stop non-stop enter voltage|40% to 150%|75%|○|0x0A17
1925 |FA.24|Instant stop non-stop stable voltage|60% to 150%|95%|○|0x0A18
1926 |(% colspan="6" %)FB Application parameter set
1927 |FB.00|Swing frequency control|(((
1928 LED one-place: Swing frequency control
1929
1930 0: The swing frequency control is invalid
1931
1932 1: Swing frequency control is valid
1933
1934 LED tens place: Swing frequency input mode
1935
1936 0: Automatic input
1937
1938 1: Manual input
1939
1940 LED hundreds-place: Swing control
1941
1942 0: Variable swing
1943
1944 1: Fixed swing
1945
1946 LED thousands place: Reserved
1947 )))|0|●|0x0B00
1948 |FB.01|Swing preset frequency|0.00-Maximum frequency|0.00Hz|●|0x0B01
1949 |FB.02|Preset frequency duration|0.00-650.00s|0.00s|●|0x0B02
1950 |FB.03|Swing amplitude|0.0-100.0%|0.0%|●|0x0B03
1951 |FB.04|Jump frequency amplitude|0.0-50.0%|0.0%|●|0x0B04
1952 |FB.05|Swing frequency rise time|0.00-650.00s|5.00s|●|0x0B05
1953 |FB.06|Swing frequency drop time|0.00-650.00s|5.00s|●|0x0B06
1954 |(% colspan="6" %)FC Communication parameter group
1955 |FC.00|Local address|1 to 247, 0 is Broadcast address|1|○|0x0C00
1956 |FC.01|Baud rate|(((
1957 0: 300 bps
1958
1959 1: 600 bps
1960
1961 2: 1200 bps
1962
1963 3: 2400 bps
1964
1965 4: 4800 bps
1966
1967 5: 9600 bps
1968
1969 6: 19200 bps
1970
1971 7: 38400 bps
1972
1973 8: 57600 bps
1974
1975 9: 115200 bps
1976 )))|5|○|0x0C01
1977 |FC.02|Modbus data format|(((
1978 0: (8.N.2) 8 data bits, no parity, 2 stop stops
1979
1980 1: (8.E.1) 8 data bits, even parity, 1 stop position
1981
1982 2: (8.O.1) 8 data bits, odd parity, 1 stop stop
1983
1984 3: (8.N.1) 8 data bits, no parity, 1 stop stop
1985 )))|3|○|0x0C02
1986 |FC.03|Modbus Communication response delay|0ms to 20ms|2ms|○|0x0C03
1987 |FC.04|Modbus Communication timeout|0.0 (Invalid), 0.1s to 60.0s|0|○|0x0C04
1988 |FC.06|​Master-slave selection|(((
1989 LED units place: Modbus communication master-slave selection
1990
1991 0: Slave 1: Host
1992 )))|0| |
1993 |FC.07|Communication ratio setting|0.00 to 5.00|1.00| |
1994 |FC.08|Modbus communication fault action mode selection|(((
1995 0: Alarm and free parking (manual reset)
1996
1997 1: No alarm and continue running
1998
1999 2: Alarm and free parking (automatic reset)
2000
2001 3: Parking does not alarm (based on F1.10 parking)
2002 )))|1| |
2003 |FC.09|Modbus transfers response processing|(((
2004 Units place: Write operation response
2005
2006 0: Response to the write operation
2007
2008 1: No response to write operation
2009
2010 Tens Place: Communication exception response​​
2011
2012 0: Response to exception
2013
2014 1: No response to exception
2015
2016 Hundreds place: Communication exception response protocol​
2017
2018 0:8001 1:83
2019 )))|000| |
2020 |FC.10|Hosts send selection|(((
2021 LED units place: 1st group sending frame selection
2022
2023 LED tens place:2st group sending frame selection
2024
2025 LED hunderds place: 3st group sending frame selection
2026
2027 0: Invalid
2028
2029 1: Running command given
2030
2031 2: Host given frequency
2032
2033 3: Host output frequency
2034
2035 4: Host upper limit frequency
2036
2037 6: Host output torque
2038
2039 9: Host given PID A: Host feedback PID
2040 )))|0x21| |
2041 |FC.11|RS485 communication port configuration|(((
2042 0: Configure to Modbus Communication
2043
2044 1: Quota is serial communication
2045
2046 2: UART_OSC
2047 )))|0| |
2048 |(% colspan="6" %)**FD Multi -speed instructions and simple PLC parameter arrays**
2049 |FD.00|Multi-speed instruction 0|-100.0% to 100.0% (100.0% corresponds to maximum frequency F0.10)|0|○|0x0D00
2050 |FD.01|Multi-speed instruction 1|-100.0% to 100.0%|0|○|0x0D01
2051 |FD.02|Multi-speed instruction 2|-100.0% to 100.0%|0|○|0x0D02
2052 |FD.03|Multi-speed instruction 3|-100.0% to 100.0%|0|○|0x0D03
2053 |FD.04|Multi-speed instruction 4|-100.0% to 100.0%|0|○|0x0D04
2054 |FD.05|Multi-speed instruction 5|-100.0% to 100.0%|0|○|0x0D05
2055 |FD.06|Multi-speed instruction 6|-100.0% to 100.0%|0|○|0x0D06
2056 |FD.07|Multi-speed instruction 7|-100.0% to 100.0%|0|○|0x0D07
2057 |FD.08|Multi-speed instruction 8|-100.0% to 100.0%|0|○|0x0D08
2058 |FD.09|Multi -speed instruction 9|-100.0% to 100.0%|0|○|0x0D09
2059 |FD.10|Multi-speed instruction10|-100.0% to 100.0%|0|○|0x0D0A
2060 |FD.11|Multi-speed instruction11|-100.0% to 100.0%|0|○|0x0D0B
2061 |FD.12|Multi-speed instruction12|-100.0% to 100.0%|0|○|0x0D0C
2062 |FD.13|Multi-speed instruction13|-100.0% to 100.0%|0|○|0x0D0D
2063 |FD.14|Multi-speed instruction14|-100.0% to 100.0%|0|○|0x0D0E
2064 |FD.15|Multi-speed instruction15|-100.0% to 100.0%|0|○|0x0D0F
2065 |FD.16|PLC mode of operation|(((
2066 0: Stops after a single run
2067
2068 1: Maintain the final value at the end of a single run
2069
2070 2: Keep cycling
2071 )))|0|○|0x0D10
2072 |FD.17|PLC Power down memory selection|(((
2073 Ones Slot:
2074
2075 0: Power failure does not memory
2076
2077 1: Power failure memory
2078
2079 Ten places:
2080
2081 0: Stop and does not remember
2082
2083 1: Shutdown memory
2084 )))|0|○|0x0D11
2085 |FD.18|Running time of simple PLC reference 0|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D12
2086 |FD.19|Acceleration/deceleration time of simple PLC reference 0|0 to 3|0|○|0x0D13
2087 |FD.20|Running time of simple PLC reference 1|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D14
2088 |FD.21|Acceleration/deceleration time of simple PLC reference 1|0 to 3|0|○|0x0D15
2089 |FD.22|Running time of simple PLC reference 2|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D16
2090 |FD.23|Acceleration/deceleration time of simple PLC reference 2|0 to 3|0|○|0x0D17
2091 |FD.24|Running time of simple PLC reference 3|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D18
2092 |FD.25|Acceleration/deceleration time of simple PLC reference 3|0 to 3|0|○|0x0D19
2093 |FD.26|Running time of simple PLC reference 4|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D1A
2094 |FD.27|Acceleration/deceleration time of simple PLC reference 4|0 to 3|0|○|0x0D1B
2095 |FD.28|Running time of simple PLC reference 5|0.0-6553.5(s/m/h)|0.0s(h)|○|0x0D1C
2096 |FD.29|Acceleration/deceleration time of simple PLC reference 5|0 to 3|0|○|0x0D1D
2097 |FD.30|Running time of simple PLC reference 6|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D1E
2098 |FD.31|Acceleration/deceleration time of simple PLC reference 6|0 to 3|0|○|0x0D1F
2099 |FD.32|Running time of simple PLC reference 7|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D20
2100 |FD.33|Acceleration/deceleration time of simple PLC reference 6|0 to 3|0|○|0x0D21
2101 |FD.34|Running time of simple PLC reference 8|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D22
2102 |FD.35|Acceleration/deceleration time of simple PLC reference 8|0 to 3|0|○|0x0D23
2103 |FD.36|Running time of simple PLC reference 9|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D24
2104 |FD.37|Acceleration/deceleration time of simple PLC reference 9|0 to 3|0|○|0x0D25
2105 |FD.38|Running time of simple PLC reference 10|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D26
2106 |FD.39|Acceleration/deceleration time of simple PLC reference 10|0 to 3|0|○|0x0D27
2107 |FD.40|Running time of simple PLC reference 11|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D28
2108 |FD.41|Acceleration/deceleration time of simple PLC reference 11|0 to 3|0|○|0x0D29
2109 |FD.42|Running time of simple PLC reference 12|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D2A
2110 |FD.43|Acceleration/deceleration time of simple PLC reference 12|0 to 3|0|○|0x0D2B
2111 |FD.44|Running time of simple PLC reference 13|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D2C
2112 |FD.45|Acceleration/deceleration time of simple PLC reference 13|0 to 3|0|○|0x0D2D
2113 |FD.46|Running time of simple PLC reference 14|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D2E
2114 |FD.47|Acceleration/deceleration time of simple PLC reference 14|0 to 3|0|○|0x0D2F
2115 |FD.48|Running time of simple PLC reference 15|0.0-6553.5 (s/m/h)|0.0s(h)|○|0x0D30
2116 |FD.49|Acceleration/deceleration time of simple PLC reference 15|0 to 3|0|○|0x0D31
2117 |FD.50|PLC Run-time unit|(((
2118 LED units: timing unit
2119
2120 0: s(seconds)
2121
2122 1: h(hours)
2123
2124 2: min(minutes)
2125 )))|0|○|0x0D32
2126 |FD.51|Multi-segment speed instruction 0 given mode|(((
2127 0: Function code FD.00 is given
2128
2129 1: AI1
2130
2131 2: AI2
2132
2133 3: AI3 (expansion)
2134
2135 4: Terminal pulse PULSE given
2136
2137 5: PID
2138
2139 6: Preset frequency (F0.08) given, UP/DOWN modifiable
2140
2141 7: Keyboard potentiometer given
2142 )))|0|○|0x0D33
2143 |FD.52|Multispeed priority|(((
2144 0: Invalid
2145
2146 1: Valid
2147 )))|1|○|0x0D34
2148 |(% colspan="6" %)**FE User parameter group**
2149 |FE.00|User password|0 to 65535|0|○|0x0E00
2150 |FE.01|Fault record display times|0 to 8|4|○|0x0E01
2151 |FE.02|Parameter and key lock selection|(((
2152 0: Not locked
2153
2154 1: The function parameter is locked
2155 )))|0|○|0x0E02
2156 |(% colspan="6" %)**A0 Application parameter group**
2157 |A0.00|Application macro|(((
2158 0:Default macro
2159
2160 1: Pressure machine macro
2161
2162 2: Spring machinery macro
2163
2164 3: woodworking machinery macro
2165 )))|0|●|0xA000
2166 |(% colspan="6" %)**A4 Constant pressure water supply parameter group**
2167 |A4.00|Water supply function selection|(((
2168 0: Invalid
2169
2170 1: Valid
2171 )))|0|●|0xA400
2172 |A4.01|Setting pressure|1.0 to A4.19|3.0bar|○|0xA401
2173 |A4.02|Starting pressure|0.0 to A4.01|0.3bar|○|0xA402
2174 |A4.03|Sensor range|1.0 to 200.0bar|16.0bar|○|0xA403
2175 |A4.04|Sensor feedback type|(((
2176 0: 4 to 20mA(AI2)
2177
2178 1: 0 to 10V(AI1)
2179 )))|0|○|0xA404
2180 |A4.05|Pressure calibration factor|0.750 to 1.250|1.000|○|0xA405
2181 |A4.06|Proportional gain P|0.0 to 100.0|50.0|○|0xA406
2182 |A4.07|Integration time I|0.00s to 10.00s|0.50|○|0xA407
2183 |A4.08|Differential time|0.000s to 10.000s|0.000|○|0xA408
2184 |A4.09|Sleep time|(((
2185 0: Disable
2186
2187 1: Sleep mode 1
2188
2189 2: Sleep mode 2
2190 )))|(((
2191
2192
2193 1
2194 )))|○|(((
2195
2196
2197 0xA409
2198 )))
2199 |A4.10|Sleep delay|0.0s to 100.0s|5.0s|○|0xA40A
2200 |A4.11|Wake up delay|0.0s to 100.0s|3.0|○|0xA40B
2201 |A4.12|Low-frequency hold frequency|0.0 to A4.14|20.00Hz|○|0xA40C
2202 |A4.13|Low frequency hold frequency running time|0.0s to 100.0s|5.0s|○|0xA40D
2203 |A4.14|Sleep frequency|A4.12 to F0.12|25.00Hz|○|0xA40E
2204 |A4.15|Sleep detection cycle|0.0s to 600.0s|30.0s|○|0xA40F
2205 |A4.16|Leaking coefficient|0.1s to 100.0s|2.5s|○|0xA410
2206 |A4.17|Sleep detection coefficient|1 to 10|4|○|0xA411
2207 |A4.18|Deadband pressure|0.0bar to 1.0bar|0.1bar|○|0xA412
2208 |A4.19| High voltage alarm setting value|A4.00 to A4.03|15.0bar|○|0xA413
2209 |A4.20| Low voltage alarm setting value|0.0 to A4.01|0.0bar|○|0xA414
2210 |A4.21|Water pressure alarm delay time|0.0 to 100.0|3.0s|○|0xA415
2211 |A4.22|Sensor disconnection detection value|0.00 to 10.00V|0.20|○|0xA416
2212 |A4.23|Sensor disconnection detection time|0.0s to 100.0s|30.0s|○|0xA417
2213 |A4.24|Water shortage protection function|(((
2214 0: Disable
2215
2216 1: Judging by frequency and current
2217
2218 2: Judging by frequency and pressure
2219 )))|2|○|0xA418
2220 |A4.25|Water shortage fault detection threshold|0.00s to 10.00s|0.50|○|0xA419
2221 |A4.26|Water shortage protection detection frequency|0 to F0.12|48.00Hz|○|0xA41A
2222 |A4.27|Water shortage protection detection current percentage|0.0 to 100.0%|40.0%|○|0xA41B
2223 |A4.28|Water shortage protection detection time|0.0 to 200.0s|60.0s|○|0xA41C
2224 |A4.29|Water shortage protection automatic reset delay|0 to 1000|15|○|0xA41D
2225 |A4.30|Number of Auto-resets for water shortage protection|0 to 100|10|○|0xA41E
2226 |A4.31|Pressure rise control function|(((
2227 0: Invalid
2228
2229 1: Valid
2230 )))|0|○|0xA41F
2231 |(((
2232
2233
2234 A4.35
2235 )))|Constant frequency water shortage function selection|(((
2236 One place: Turn on protection
2237
2238 0: Disable 1: Enable
2239
2240 Tens place: Current detected
2241
2242 0: Total current 1: Torque current
2243 )))|(((
2244
2245
2246 0010
2247 )))| |
2248 |A4.36|Constant frequency water shortage protection current|0% to 150%|40%| |
2249 |A4.37|Constant frequency water shortage protection frequency|0% to 100%|50%| |
2250 |A4.38|Constant frequency water shortage protection detection time|1 to 1000s|30s| |
2251 |A4.39|Constant frequency water shortage protection recovery time|1 to 10000s|600s| |
2252 |A4.40| Constant frequency water shortage protection recovery times|0 to 100|3| |
2253
2254
2255
2256 6.2 Fault record parameter group
2257
2258 |**Function code**|**Name**|**Setting range and description**|**Change**|(((
2259 **Modbus**
2260
2261 **address**
2262 )))
2263 |(% colspan="5" %)**E0 Fault parameter set**
2264 |E0.00|Fault type|Refer to the fault Information code table for detail|◎|0xE000
2265 |E0.01|Failure operating frequency|0.0-Maximum frequency|◎|0xE001
2266 |E0.02|Fault output current|0.1-2000.0A|◎|0xE002
2267 |E0.03|Fault bus voltage|0-810.0V|◎|0xE003
2268 |E0.04|Fault input terminal status|Refer to the input terminal state diagram|◎|0xE004
2269 |E0.05|Fault output terminal status|Refer to the output terminal state diagram|◎|0xE005
2270 |E0.06|Fault module temperature|0-100℃|◎|0xE006
2271 |E0.07|Fault VFD condition|(((
2272 LED one place: Running direction
2273
2274 0: Forward
2275
2276 1: Reverse
2277
2278 LED tens place: Running status
2279
2280 0: Stop
2281
2282 1: Steady speed
2283
2284 2: Speed up
2285
2286 3: Slow down
2287 )))|◎|0xE007
2288 |E0.08|(((
2289 Down time
2290
2291 (Count from this power-on)
2292 )))|0-65535min|◎|0xE008
2293 |E0.09|(((
2294 Down time
2295
2296 (From total running time)
2297 )))|0-65535H|◎|0xE009
2298 |E0.10|Fault output voltage|0-1500V|◎|0xE00A
2299 |E0.11|Fault diagnosis information|Refer to (Chapter 8 to Fault Code Details)|◎|0xE00B
2300 |E0.12|Number of faulty CBC|10Sec if no CBC zeroing|◎|0xE00C
2301
2302 6.3 Display parameter group
2303
2304 |**Function code**|**Name**|**Minimum unit**|**Change**|**Modbus address**
2305 |(% colspan="5" %)**D0 Display parameter group**
2306 |D0.00|Running frequency(Hz)|0.01Hz|◎|0xD000
2307 |D0.01|Setting frequency(Hz)|0.01Hz|◎|0xD001
2308 |D0.02|Bus voltage(V)|0.1V|◎|0xD002
2309 |D0.03|Output voltage(V)|1V|◎|0xD003
2310 |D0.04|Output current(A)|0.1A|◎|0xD004
2311 |D0.05|Output power(kW)|0.1kW|◎|0xD005
2312 |D0.06|Output torque~(%)|0.1%|◎|0xD006
2313 |D0.07|DI Input state| |◎|0xD007
2314 |D0.08|DO Output state| |◎|0xD008
2315 |D0.09|AI1 Voltage (V)|0.01V|◎|0xD009
2316 |D0.10|AI2 Voltage(V)|0.01V|◎|0xD00A
2317 |D0.11|AO1 Voltage(V)|0.01V|◎|0xD00B
2318 |D0.12|Count value| |◎|0xD00C
2319 |D0.13|Axis Frequency| |◎|0xD00D
2320 |D0.14|Load speed display|1rpm|◎|0xD00E
2321 |D0.15|PID setting| |◎|0xD00F
2322 |D0.16|PID feedback| |◎|0xD010
2323 |D0.17|PLC phase| |◎|0xD011
2324 |D0.18|PULSE input pulse frequency| |◎|0xD012
2325 |D0.19|Feedback speed(Unit0.1Hz)| |◎|0xD013
2326 |D0.20|Remaining running time| |◎|0xD014
2327 |D0.21|AI1Pre-correction voltage| |◎|0xD015
2328 |D0.22|AI2Pre-correction voltage| |◎|0xD016
2329 |D0.23|Reserve| |◎|0xD017
2330 |D0.24|Linear velocity| |◎|0xD018
2331 |D0.25|Current power-on time|1min|◎|0xD019
2332 |D0.26|Current running time|0.1min|◎|0xD01A
2333 |D0.27|CPU temperature| |◎|0xD01B
2334 |D0.28|Communication setting| |◎|0xD01C
2335 |D0.29|Radiator temperature| |◎|0xD01D
2336 |D0.30|Main frequency X display|0.01Hz|◎|0xD01E
2337 |D0.31|Auxiliary frequency Y display|0.01Hz|◎|0xD01F
2338 |D0.34|Reserve| |◎|0xD022
2339 |D0.35|Analog grounding| |◎|0xD023
2340 |D0.36|3.3VA| |◎|0xD024
2341 |D0.37|Control board plate number| |◎|0xD025
2342 |D0.38|Plate number of the power board| |◎|0xD026
2343 |D0.39|Power factor Angle| |◎|0xD027
2344 |D0.40|Virtual VDI state| |◎|0xD100
2345 |D0.41|Virtual VDO state| |◎|0xD101
2346 |D0.42|Expand DI input status| |◎|0xD102
2347 |D0.43|Expand DO input status| |◎|0xD103
2348 |D0.44|Expansion board version| |◎|0xD104
2349 |D0.45|AI3 (Expand) voltage (V)|0.01V|◎|0xD105
2350 |D0.46|AI4 (Expand) voltage (V)|0.01V|◎|0xD106
2351 |D0.49|AO2 Voltage (V)|0.01V|◎|0xD109
2352 |D0.53|Communication status of the main control board| |◎|0xD10D
2353 |D0.54|Extended communication status| |◎|0xD10E
2354
2355
2356
2357
2358 6.4 A0 Application parameter group
2359
2360 Notes: As the software iterates, the parameter list may change.
2361
2362 |**Function code**|**Name**|**Minimum unit**|**Change**|(((
2363 **Modbus**
2364
2365 **address**
2366 )))
2367 |(% colspan="5" %)**A0 Application parameter set**
2368 |A0.00|Application macro|(((
2369 0: Default macro
2370
2371 1: Pressure tile machinery macro
2372
2373 2: Spring machinery macro
2374
2375 3: Woodworking machinery macro
2376 )))|●|0xA000