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Last modified by Theodore Xu on 2025/02/21 14:13
From version 3.1
edited by Stone Wu
on 2022/08/01 14:28
Change comment: There is no comment for this version
To version 14.1
edited by Theodore Xu
on 2023/08/23 15:47
Change comment: There is no comment for this version

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Author
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1 -XWiki.Stone
1 +XWiki.AiXia
Content
... ... @@ -51,7 +51,7 @@
51 51  |2|(% colspan="2" %)AI1
52 52  |3|(% colspan="2" %)AI2
53 53  |4|(% colspan="2" %)Reserved
54 -|5|(% colspan="2" %)Reserved
54 +|5|(% colspan="2" %)PULSE setting(Reserved
55 55  |6|(% colspan="2" %)Multi-stage speed setting
56 56  |7|(% colspan="2" %)Simple PLC
57 57  |8|(% colspan="2" %)PID
... ... @@ -59,13 +59,13 @@
59 59  
60 60  Select the main source of the AC drive’s input frequency. There are 10 main frequency sources:
61 61  
62 -0: Digital setting (non-retentive at power failure)
62 +**0:** Digital setting (non-retentive at power failure)
63 63  
64 64  The initial value is 0. The frequency can be increased or decreased by the pulse knob, and the set frequency value of the inverter can be changed by the ▲/▼ keys of the keyboard (or UP and DOWN of the multi-function input terminals).
65 65  
66 66  Non-retentive means that after the AC drive is powered off, the set frequency value will be restored to 0; it will be cleared after switching as the frequency source, so this parameter should not be the object of frequency source switching.
67 67  
68 -1: Digital setting (retentive at power failure)
68 +**1: **Digital setting (retentive at power failure)
69 69  
70 70  The initial value is the value of F0.08 "Keypad setting frequency".
71 71  
... ... @@ -73,27 +73,33 @@
73 73  
74 74  Retentive means that when the AC drive is powered on again after power failure, the set frequency is the value before the last power failure (note that it is used in conjunction with F0.23).
75 75  
76 -2: AI1
76 +**2: **AI1
77 77  
78 -3: AI2
78 +**3:** AI2
79 79  
80 80  Means that the frequency is determined by the analog input terminal. The standard unit provides 2 analog input terminals (AI1, AI2), among which AI1 is 0V~~10V voltage input, AI2 can be 0V~~10V voltage input, or 4mA~~20mA current input, Selected by jumper J8 on the control board.
81 81  
82 -4/5: Reserved
82 +**5: **PULSE setting(Reserved
83 83  
84 -6: Multi-stage speed
84 +The set frequency is given by the terminal pulse.
85 85  
86 +Pulse given signal specifications: voltage range 9V~~30V, frequency range 0kHz~~100kHz.
87 +
88 +Note: Pulse reference can only be input from the multi-function input terminal, __**requires custom control board development.**__
89 +
90 +**6: **Multi-stage speed
91 +
86 86  Select multi-stage speed operation mode. Need to set the F5 group "input terminals" and FD group "multi-stage speed and PLC" parameters to determine the corresponding relationship between the given signal and the given frequency.
87 87  
88 -7: Simple PLC
94 +**7: **Simple PLC
89 89  
90 90  Select simple PLC mode. When the frequency source is simple PLC, you need to set the FD group "multi-speed and PLC" parameters to determine the set frequency.
91 91  
92 -8: PID
98 +**8: **PID
93 93  
94 94  Select process PID control. At this time, you need to set the F9 group "PID function of process control ". The running frequency of the inverter is the frequency value after PID action. For the meaning of PID given source, given amount, feedback source, etc., please refer to the introduction of "PID Function of process control" in F9 group.
95 95  
96 -9: Communication setting
102 +**9: **Communication setting
97 97  
98 98  Means that the main frequency source is given by the upper machine through communication.
99 99  
... ... @@ -254,6 +254,8 @@
254 254  |(% rowspan="2" %)** F0.16**|Carrier Frequency|Default|Model Dependent
255 255  |Setting Range|(% colspan="2" %)0.5kHz~~16.0kHz
256 256  
263 += Carrier Frequency: =
264 +
257 257  This function adjusts the carrier frequency of the AC drive. By adjusting the carrier frequency, the motor noise can be reduced, the resonance point of the mechanical system can be avoided, the leakage current of the line to the ground and the interference caused by the inverter can be reduced.
258 258  
259 259  When the carrier frequency is low, the higher harmonic components of the output current increase, the motor loss increases, and the motor temperature rise increases.
... ... @@ -1095,18 +1095,27 @@
1095 1095  
1096 1096  0: Two-line mode 1: This mode is the most commonly used two-line mode. The FWD and REV terminal commands determine the forward and reverse of the motor.
1097 1097  
1098 -1: Two-wire mode 2: REV is the enable terminal when using this mode. The direction is determined by the state of the FWD.
1106 +[[image:1681697850903-377.png||height="282" width="633"]]
1099 1099  
1100 -2: Three-line mode 1: This mode Din is the enable terminal, and the direction is controlled by FWD and REV respectively.
1108 +1: Two-wire mode 2: FWD is the enable terminal when using this mode. The direction is determined by the state of the REV.
1101 1101  
1102 -But the pulse is valid, it must be completed by disconnecting the Din terminal signal when stopping.
1110 +[[image:1681697969422-504.png]]
1103 1103  
1112 +2: Three-line mode 1: This mode Din(function code 3) is the enable terminal, and the direction is controlled by FWD and REV respectively.
1113 +
1114 +DIN is pulse effective, user need to disconnect the Din terminal signal when stop.
1115 +
1104 1104  Din is the multifunctional input terminal of DI1~~DI6. At this time, the corresponding terminal function should be defined as the No. 3 function "three-wire operation control".
1105 1105  
1118 +[[image:1681698530367-261.png||height="298" width="628"]]
1119 +
1106 1106  3: Three-line mode 2: The enable terminal of this mode is Din, the running command is given by FWD, and the direction is determined by the state of REV. The stop command is completed by disconnecting the Din signal.
1107 1107  
1108 1108  Din is the multi-function input terminal of DI1~~DI6. At this time, the corresponding terminal function should be defined as the No. 3 function "three-wire operation control".
1109 1109  
1124 +[[image:1681698557086-403.png||height="267" width="625"]]
1125 +
1126 +
1110 1110  (% class="table-bordered" %)
1111 1111  |(% rowspan="2" %)**F5.17**|UP/DOWN change rate range|Default|0.50Hz
1112 1112  |Setting range|(% colspan="2" %)0.01Hz~~65.535Hz
... ... @@ -1151,20 +1151,6 @@
1151 1151  The function of AI2 is similar to the setting method of AI1.
1152 1152  
1153 1153  (% class="table-bordered" %)
1154 -|(% rowspan="2" %)**F5.28**|PULSE INPUT minimum input|Default|0.00kHz
1155 -|Setting range|(% colspan="2" %)0.00kHz~~F5.30 
1156 -|(% rowspan="2" %)**F5.29**|Percentage rate of PULSE INPUT minimum input|Default|0.0%
1157 -|Setting range|(% colspan="2" %)-100.00%~~100.0%
1158 -|(% rowspan="2" %)**F5.30**|PULSE INPUT maximum input|Default|50.00kHz
1159 -|Setting range|(% colspan="2" %)F5.28~~50.00kHz  
1160 -|(% rowspan="2" %)**F5.31**|Percentage rate of PULSE INPUT maximum input|Default|100.0%
1161 -|Setting range|(% colspan="2" %)-100.00%~~100.0%
1162 -|(% rowspan="2" %)**F5.32**|PULSE INPUT filter time|Default|0.10s
1163 -|Setting range|(% colspan="2" %)0.00s~~10.00s
1164 -
1165 -This group of function codes defines the corresponding relationship when pulse is used as the frequency setting method. Pulse frequency input can only be input through DI6 channel. The application of this group of functions is similar to that of AI1.
1166 -
1167 -(% class="table-bordered" %)
1168 1168  |(% rowspan="2" %)**F5.33**|DI1 enable delay time|Default|0.0s
1169 1169  |Setting range|(% colspan="2" %)0.0s~~3600.0s
1170 1170  |(% rowspan="2" %)**F5.34**|DI1 disable delay time|Default|0.0s
... ... @@ -1456,6 +1456,12 @@
1456 1456  
1457 1457  For the second output, the parameter setting method is the same as F6.28~~F6.32.
1458 1458  
1462 +(% class="table-bordered" %)
1463 +|(% rowspan="2" %)**F6.38**|The setting time of timer|Default|0
1464 +|Setting range|(% colspan="3" %)0.00s~~100.0s
1465 +
1466 +Set the timer setting time
1467 +
1459 1459  = 8 F7 group keypad display =
1460 1460  
1461 1461  (% class="table-bordered" %)
... ... @@ -2293,23 +2293,17 @@
2293 2293  |(% rowspan="9" %)**FA.15**|(% colspan="2" style="width:442px" %)Fault protection action selection 3|(% style="width:451px" %)Default|(% colspan="2" %)00000
2294 2294  |(% rowspan="7" %)Setting range|(% style="width:316px" %)Ones Place|(% colspan="3" style="width:978px" %)User-defined fault 1(Err27) (0~~2,as ones place of FA.13)
2295 2295  |(% style="width:316px" %)Tens Place|(% colspan="3" style="width:978px" %)User-defined fault 2(Err28) (0~~2,as ones place of FA.13)
2296 -|(% style="width:316px" %)Hundr-eds Place|(% colspan="3" style="width:978px" %)Powering on time reached(Err29) (0~~2,as ones place of FA.13)
2297 -|(% style="width:316px" %)Thous-ands Place|(% colspan="3" style="width:978px" %)Load loss(Err30)
2305 +|(% style="width:316px" %)Hundreds Place|(% colspan="3" style="width:978px" %)Powering on time reached(Err29) (0~~2,as ones place of FA.13)
2306 +|(% style="width:316px" %)Thousands Place|(% colspan="3" style="width:978px" %)Load loss(Err30)
2298 2298  |(% style="width:316px" %)0|(% colspan="3" style="width:978px" %)Free stopping
2299 2299  |(% style="width:316px" %)1|(% colspan="3" style="width:978px" %)Stop according to the stop mode
2300 2300  |(% style="width:316px" %)2|(% colspan="3" style="width:978px" %)Decelerate to 7% of the rated frequency of the motor and continue to run, and automatically return to the set frequency if the load is not lost
2301 -| |(% style="width:316px" %)Ten thous-ands Place|(% colspan="3" style="width:978px" %)(((
2310 +| |(% style="width:316px" %)Ten thousands Place|(% colspan="3" style="width:978px" %)(((
2302 2302  PID feedback loss during
2303 2303  
2304 2304  Running (Err31) (0~~2,as ones place of FA.13)
2305 2305  )))
2306 -|(% rowspan="6" %)**FA.16**|(% colspan="2" style="width:442px" %)(((
2307 -Overcurrent stall Integral coefficient
2308 -)))|(% colspan="2" style="width:451px" %)Default|500
2309 -|(% rowspan="5" %)Setting range|(% colspan="4" rowspan="5" %)1~~2000
2310 2310  
2311 -set overcurrent stall Integral coefficient rate.
2312 -
2313 2313  When “free stop” is selected: the inverter prompts Err~*~* and stops directly.
2314 2314  
2315 2315  When "Stop according to stop mode" is selected: the inverter prompts A~*~* and stops according to the stop mode, and prompts ErrXX after stopping.
... ... @@ -2317,22 +2317,29 @@
2317 2317  When “continue running” is selected: the inverter continues to run and prompts A~*~*. For the running frequency, refer to the description of FA.20 and FA.21.
2318 2318  
2319 2319  (% class="table-bordered" %)
2320 -|(% rowspan="2" %)(((
2321 -FA.17
2322 -)))|(((
2323 -Undervoltage setting
2324 -)))|(((
2323 +|(% rowspan="6" %)**FA.16**|(% colspan="2" style="width:442px" %)(((
2324 +Overcurrent stall Integral coefficient
2325 +)))|(% colspan="2" style="width:451px" %)Default|500
2326 +|(% rowspan="5" %)Setting range|(% colspan="4" rowspan="5" %)1~~2000
2327 +
2328 +Set overcurrent stall Integral coefficient rate.
2329 +
2330 +(% class="table-bordered" %)
2331 +|(% rowspan="3" %)(((
2332 +**FA.17**
2333 +)))|(% colspan="2" rowspan="1" %)Instant stop /no-stop mode |(((
2325 2325  Default
2326 2326  )))|(((
2327 -100.0%
2336 +0
2328 2328  )))
2329 -|(((
2338 +|(% colspan="1" rowspan="2" %)(((
2330 2330  Setting range
2331 -)))|(% colspan="2" rowspan="1" %)(((
2332 -60.0%~~140.0%
2340 +)))|(% rowspan="1" %)0|(% colspan="2" rowspan="1" %)(((
2341 +General machine instant stop/no-stop
2333 2333  )))
2343 +|1|(% colspan="2" %)Spinning machine instant stop/no-stop
2334 2334  
2335 -Instantaneous power failure mode selection
2345 +Set the mode of instant stop and no-stop.
2336 2336  
2337 2337  (% class="table-bordered" %)
2338 2338  |(% rowspan="2" %)**FA.18**|Undervoltage setting|Default|100.0%
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