Changes for page 4 Common function of VB

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1		-= Parameters uploading and downloading =
2		-
3		-(% class="box infomessage" %)
4		-(((
5		-**✎Note:**
6		-1.Parameter uploading and downloading is only supported between the same models.
7		-2.F7.11 shows the software version of the inverter, the parameters may differ between different versions, especially between 2.072 and versions below 2.072.
8		-)))
9		-
10		-1.Press MF.K and ↑ and wait while the keyboard displays "u~-~-~-~-", the keyboard is uploading the parameters.
11		-
12		-2.Remove the keyboard and install to other VB.  Please be careful to align the pins when unplugging and plugging in the keyboard.
13		-
14		-3.Press MF.K and ↓ and wait while the keyboard display"d~-~-~-~-", the keyboard is downloading the parameters.
15		-
16	16	= **Start up** =
17	17
18	18	~1. Keyboard start and stop, panel potentiometer speed regulation. (F5.17 adjusts the change amplitude of the panel potentiometer)
...	...	@@ -55,7 +55,7 @@
55	55
56	56	F0.07=01
57	57
58		-6. On some equipment, two potentiometers are required to adjust the speed, one potentiometer 0-10V controls 20HZ, and the other potentiometer controls 0-10V control 25HZ so that the spindle frequency is superimposed, and the frequency is 45HZ.
	43	+6.On some equipment, two potentiometers are required to adjust the speed, one potentiometer 0-10V controls 20HZ, and the other potentiometer controls 0-10V control 25HZ so that the spindle frequency is superimposed, and the frequency is 45HZ.
59	59
60	60	F0.03=2
61	61
...	...	@@ -81,7 +81,7 @@
81	81
82	82	= **Acceleration time** =
83	83
84		-~1. When the device is started, the customer feels that the startup time is too long or the startup time is too short, which parameters need to be modified? (This parameter should be fine-tuned appropriately according to the equipment load. Improper setting can easily cause fault alarms such as overcurrent).
	69	+1 When the device is started, the customer feels that the startup time is too long or the startup time is too short, which parameters need to be modified? (This parameter should be fine-tuned appropriately according to the equipment load. Improper setting can easily cause fault alarms such as overcurrent).
85	85
86	86	F0.18 (appropriate setting) etc.
87	87
...	...	@@ -253,6 +253,7 @@
253	253
254	254	= **Digital input function** =
255	255
	241	+
256	256	~1. Since an external switch is needed on the device to control the emergency stop of the motor, which function parameter should be set?
257	257
258	258	F5.02=10
...	...	@@ -278,11 +278,13 @@
278	278
279	279	= **Digital output function** =
280	280
	267	+
281	281	~1. The customer needs to use the FM open-collector output function. When the inverter fails, output a switch value to make the fault alarm lamp/fault buzzer act, so that the on-site operator knows that the inverter has a fault alarm and what to do Setup and wiring?
282	282
283	283	F6.00=1
284	284
285	285	F6.01=2
	273	+
286	286
287	287	2. When the inverter runs more than 20HZ, the relay T1A and T1C terminals output a switch value to control an indicator light, so that the indicator line is connected and the indicator light is on. How to set up and wire?
288	288
...	...	@@ -316,10 +316,12 @@
316	316
317	317	= **Display monitoring** =
318	318
	307	+
319	319	~1. Master the functions of F7.03, F7.04, and F7.05, all of which are used for display and monitoring. Please refer to page 35 of the manual for details
320	320
321	321	= **Operating mode selection** =
322	322
	312	+
323	323	~1. Master the definition of each control mode of the F0.00 parameter group.
324	324
325	325	Vector control, V/F control
...	...	@@ -326,6 +326,7 @@
326	326
327	327	= **Analog signal gain** =
328	328
	319	+
329	329	~1. The user uses the AI1 terminal function, and the device is given a voltage of 0-5V for speed regulation. Which parameter should be modified accordingly?
330	330
331	331	F0.03=2
...	...	@@ -359,6 +359,7 @@
359	359
360	360	= **Display monitoring options** =
361	361
	353	+
362	362	~1. The user requires the inverter to display only the speed during operation, which parameter should be modified?
363	363
364	364	F7.03=4000
...	...	@@ -367,30 +367,8 @@
367	367	2. The user requires the inverter to display various states during shutdown. Which parameter can be set?
368	368
369	369	F7.05
	362	+
370	370
371		-= **Constant pressure water supply** =
372		-
373		-The following example uses a current sensor to simulate a water pressure test, the sensor specification is 4-20mA current signal, the range is 16 bar. use the sensor to connect to the AI2 terminal port of the VB.
374		-Firstly please check the software version of **F7.11**, **F7.11 **is software version, if the **F7.11 **is greater than 2.064, please use A4 parameter group, A4 parameter group is special parameter for constant pressure water supply project.
375		-F0.20=1 Factory data reset
376		-A4.00=1
377		-A4.01=Set pressure
378		-A4.03=Sensor range
379		-A4.04=0
380		-
381		-If the value of F7.11 is less than or equal to 2.064, use PID parameter group F9.
382		-F0.20=1 Factory data reset
383		-F0.03=8
384		-F5.23=2
385		-F9.01=Upper limit water pressure
386		-F9.02=1 (AI2)
387		-F9.28=1
388		-F9.29=Target value
389		-F9.31=Lower limit water pressure
390		-
391		-
392		-In the parameter setting of group F9, 20mA is the maximum value of the transducer with a range of 16bar, and F9.01/F9.29/F9.31 are the setting parameters for the water pressure in the VB in percentage. For example when the inverter is required to keep the pressure at 8bar, modify F9.29=50%. F9.01 is the upper limit of water pressure setting, it is recommended to set F9.29=F9.01,of course you can set F9.01=80%,it needs to be greater than or equal to F9.29. If when the control effect of the inverter is slow or the descent time is too long, try reducing the integration time: F9.06 = 0.5 or 1.0.
393		-
394	394	= **PID function** =
395	395
396	396	(% style="text-align:center" %)
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425	425
426	426	= **Communication function** =
427	427
	398	+
428	428	~1. Familiar with RS485 communication function, communication address, communication speed, communication format, how to set it? Familiar with the address of communication function?
429	429	Please refer to page 129 of the manual
430	430
...	...	@@ -432,8 +432,13 @@
432	432
433	433	Control operation command address: 2000H (premise F0.01=2)
434	434
	406	+= **Safety and precautions** =
	407	+
	408	+~1. Familiar with product standard technical specifications. Please refer to the manual
	409	+
435	435	= **Grounding** =
436	436
	412	+
437	437	~1. Understand the meaning and function of the ground wire and connect it correctly.
438	438	The grounding terminal E of the inverter must be well grounded, the grounding resistance should be less than 102, and the grounding wire should be thick and short. Multi-strand copper core wire of 3.5mm2 or more should be used.
439	439
...	...	@@ -457,91 +457,24 @@
457	457
458	458	Braking resistor
459	459
460		-= **EMC** =
	436	+= **Power and current value** =
461	461
462		- The input terminal of the inverter has EMC screw access option.
	438	+ ~1. Familiar with the rated current of the inverter in different power ranges, please refer to the manual
463	463
464		-* EMC Screws Installation Role: Filter out the common mode interference signals on the input side to the ground.
465		-* EMC Screw Removal Function: When the grounding of the whole equipment system is unstable, it is easy for the interference signal to enter the input terminal of the VFD, which leads to the inaccurate operation of the terminal motor, and then it is necessary to remove the EMC screws on the machine in order to solve the influence of external interference.
	440	+= **Braking resistor** =
466	466
467		-(% class="box infomessage" %)
468		-(((
469		-Do not remove the EMC unless there are special circumstances.
470		-)))
471	471
472		-(% style="text-align:center" %)
473		-[[image:企业微信截图_16890580824807.png||height="394" width="284"]]
	443	+ ~1. Familiar with the selection of braking resistor. Under what conditions do you need to install a braking resistor? How to install the braking resistor?
474	474
475		-
	445	+Braking resistors are installed on the and PB ends of the inverter (built-in braking unit)
476	476
477		-= Torque mode control on winding project =
	447	+= **Fault code and troubleshooting** =
478	478
479		-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.
480	480
481		-Debugging ideas:
	450	+ ~1. Familiar with various fault codes and countermeasures to deal with faults.
482	482
483		-~1. According to the application requirements of the torque command and the upper limit of the frequency.
	452	+= **Installation guidance required by EMC** =
484	484
485		-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.
	454	+ The input terminal of the inverter has EMC screw access option.
486	486
487		-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.
488		-
489		-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.
490		-
491		-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.
492		-
493		-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;
494		-
495		-7. Auxiliary debugging parameters: filter coefficient F3.07 and static friction compensation F3.24/ F3.25.
496		-
497		-F0.00=0 Vector control
498		-
499		-F0.18=2.0 Acceleration time
500		-
501		-F0.19=2.0 Deceleration time
502		-
503		-F2.01=Motor rated power
504		-
505		-F2.02=Motor rated voltage
506		-
507		-F2.03=Rated motor current
508		-
509		-F2.04=Rated motor frequency
510		-
511		-F2.05=Rated motor speed
512		-
513		-F2.11=1 Static tuning
514		-
515		-F3.01=0.2 Speed loop integration time
516		-
517		-F3.07=0.005 Speed loop filter coefficient
518		-
519		-F3.09=1 Torque control
520		-
521		-F3.10=1 Torque control upper limit source
522		-
523		-F3.11=200 Torque upper limit setting
524		-
525		-F3.12=50 Torque control maximum frequency
526		-
527		-F3.14=1.2 Torque control acceleration time
528		-
529		-F3.15=1.2 Torque control deceleration time
530		-
531		-F3.16=120 Torque stiffness factor
532		-
533		-Torque control commissioning instructions:
534		-
535		-F0.18: Frequency acceleration time
536		-
537		-F0.19: Frequency deceleration time
538		-
539		-F3.14: Torque acceleration time
540		-
541		-F3.15: Torque deceleration time
542		-
543		-F3.07: Frequency low-pass filtering factor
544		-
545		-F3.24: Static friction compensation
546		-
547		-F3.25: Static friction compensation time
	456	+

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