Changes for page 08 Function parameter details

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1		-8 Function parameter details
	1	+08 Function parameter details

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13	13
14	14	It is suitable for occasions where the load requirements are not high or one AC drive drives multiple motors, such as fans and pumps.
15	15
16		-**✎Note**: The motor parameter identification process must be carried out when selecting the SVC mode. Only accurate motor parameters can give full play to the advantages of it
	16	+(% class="box infomessage" %)
	17	+(((
	18	+**✎Note**: The motor parameter identification process must be carried out when selecting the SVC mode. Only accurate motor parameters can give full play to the advantages of it.
	19	+)))
17	17
18	18	(% class="table-bordered" %)
19	19	|(% rowspan="4" %)**F0.01**|(% colspan="2" %)Command source selection|Default|0
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44	44
45	45	This function is only valid for the digital setting of the frequency source. It is used to determine whether the set frequency is the current operating frequency or the current target frequency in UP/DOWN. .
46	46
47		-(% class="table-bordered" %)
	50	+(% class="table-bordered" style="width:1474px" %)
48	48	|(% rowspan="11" %)**F0.03**|(% colspan="2" %)Setting main frequency source X|Default|1
49	49	|(% rowspan="10" %)Setting Range|0|(% colspan="2" %)Digital setting (non-retentive at power failure)
50	50	|1|(% colspan="2" %)Digital setting (retentive at power failure)
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51	51	|2|(% colspan="2" %)AI1
52	52	|3|(% colspan="2" %)AI2
53	53	|4|(% colspan="2" %)Reserved
54		-|5|(% colspan="2" %)PULSE setting（Reserved）
	57	+|5|(% colspan="2" %)PULSE setting DI6（Reserved）
55	55	|6|(% colspan="2" %)Multi-stage speed setting
56	56	|7|(% colspan="2" %)Simple PLC
57	57	|8|(% colspan="2" %)PID
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130	130
131	131	(% class="table-bordered" %)
132	132	|(% rowspan="3" %)**F0.05**|(% colspan="2" %)Range of auxiliary frequency source Y|Default|0
133		-|(% rowspan="2" %)Setting Range|0|(% colspan="2" %)Relative to the maximum frequency
134		-|1|(% colspan="2" %)Relative to the frequency source X
	136	+|(% rowspan="2" style="width:494px" %)Setting Range|(% style="width:271px" %)0|(% colspan="2" %)Relative to the maximum frequency
	137	+|(% style="width:271px" %)1|(% colspan="2" %)Relative to the frequency source X
135	135	|(% rowspan="2" %)**F0.06**|(% colspan="2" %)Percentage range of auxiliary frequency source Y|Default|0
136	136	|(% colspan="2" %)Setting Range|(% colspan="2" %)0%~~150%
137	137
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154	154
155	155	Use this parameter to select the frequency given channel. The frequency setting is realized by the combination of the main frequency source X and the auxiliary frequency source Y.
156	156
157		-One’s digit:Selection of frequency source
	160	+One’s digit: Selection of frequency source
158	158
159		-0:main frequency source X
	162	+0: Main frequency source X
160	160
161	161	The main frequency X is used as the target frequency.
162	162
163		-1: main and auxiliary calculation results
	166	+1: Main and auxiliary calculation results
164	164
165	165	The main and auxiliary calculation result is used as the target frequency (The calculation relationship is determined by the ten’s digits).
166	166
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178	178
179	179	4: Switchover between Y and main (X) & auxiliary(Y) calculation
180	180
181		-When the multi-function input terminal 18: frequency source switching is invalid, the auxiliary frequency source Y is taken as the target frequency.
	184	+When the multi-function input terminal 18: Frequency source switching is invalid, the auxiliary frequency source Y is taken as the target frequency.
182	182
183		-When the multi-function input terminal 18: frequency source switching is valid, the main and auxiliary calculation result is taken as the target frequency.
	186	+When the multi-function input terminal 18: Frequency source switching is valid, the main and auxiliary calculation result is taken as the target frequency.
184	184
185	185	Ten’s digit:X and Y calculation relationship:
186	186
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205	205	The result of multiplying the main frequency source X by the auxiliary frequency source Y is used as the target frequency.
206	206
207	207	(% class="table-bordered" %)
208		-|(% rowspan="2" %)**F0.08**|Keypad setting frequency|Default|50.00Hz
209		-|Setting Range|(% colspan="2" %)0.00~~Maximum frequency F0.10 (valid for digital setting for frequency source selection)
	211	+|(% rowspan="2" style="width:126px" %)**F0.08**|(% style="width:296px" %)Keypad setting frequency|(% style="width:525px" %)Default|(% style="width:504px" %)50.00Hz
	212	+|(% style="width:296px" %)Setting Range|(% colspan="2" %)0.00~~Maximum frequency F0.10 (valid for digital setting for frequency source selection)
210	210
211	211	When the frequency source is selected as "digital setting" or "terminal UP/DOWN", the function code value is the initial value of the frequency digital setting of the inverter.
212	212
213		-(% class="table-bordered" %)
214		-|(% rowspan="3" %)**F0.09**|(% colspan="2" %)Running direction selection|Default|0
215		-|(% rowspan="2" %)Setting Range|0|(% colspan="2" %)Forward direction
216		-|1|(% colspan="2" %)Reverse direction
	216	+(% class="table-bordered" style="width:1454px" %)
	217	+|(% rowspan="3" style="width:134px" %)**F0.09**|(% colspan="2" style="width:825px" %)Running direction selection|(% style="width:405px" %)Default|(% style="width:117px" %)0
	218	+|(% rowspan="2" style="width:288px" %)Setting Range|(% style="width:528px" %)0|(% colspan="2" style="width:513px" %)Forward direction
	219	+|(% style="width:528px" %)1|(% colspan="2" style="width:513px" %)Reverse direction
217	217
218	218	By changing this parameter, the rotation direction of the motor can be changed without changing any other parameters. Its function is equivalent to realizing the conversion of the rotation direction of the motor by adjusting any two cables of the motor (U, V, W).
219	219
220	220	Tip: After the parameters are initialized, the motor running direction will return to the original state. Use it with caution when it is forbidden to change the rotation of the motor after the system is debugged.
221	221
222		-(% class="table-bordered" %)
223		-|(% rowspan="2" %)**F0.10**|(% colspan="2" %)Maximum Frequency|Default|50.00 Hz
224		-|(% colspan="2" %)Setting Range|(% colspan="2" %)50.00Hz~~500.00Hz
225		-|(% rowspan="7" %)**F0.11**|(% colspan="2" %)Source of frequency upper limit|Default|0
226		-|(% rowspan="6" %)Setting Range|0|(% colspan="2" %)Set by F0.12
227		-|1|(% colspan="2" %)AI1
228		-|2|(% colspan="2" %)AI2
229		-|3|(% colspan="2" %)Reserved
230		-|4|(% colspan="2" %)Reserved
231		-|5|(% colspan="2" %)Communication setting
	225	+(% class="table-bordered" style="width:1473px" %)
	226	+|(% rowspan="2" style="width:135px" %)**F0.10**|(% colspan="2" style="width:815px" %)Maximum Frequency|(% style="width:376px" %)Default|50.00 Hz
	227	+|(% colspan="2" style="width:815px" %)Setting Range|(% colspan="2" style="width:501px" %)50.00Hz~~500.00Hz
	228	+|(% rowspan="7" style="width:135px" %)**F0.11**|(% colspan="2" style="width:815px" %)Source of frequency upper limit|(% style="width:376px" %)Default|0
	229	+|(% rowspan="6" style="width:285px" %)Setting Range|(% style="width:530px" %)0|(% colspan="2" style="width:501px" %)Set by F0.12
	230	+|(% style="width:530px" %)1|(% colspan="2" style="width:501px" %)AI1
	231	+|(% style="width:530px" %)2|(% colspan="2" style="width:501px" %)AI2
	232	+|(% style="width:530px" %)3|(% colspan="2" style="width:501px" %)Reserved
	233	+|(% style="width:530px" %)4|(% colspan="2" style="width:501px" %)Reserved
	234	+|(% style="width:530px" %)5|(% colspan="2" style="width:501px" %)Communication setting
232	232
233	233	Define the source of the upper limit frequency. The upper limit frequency can come from the digital setting (F0.12) or the analog input channel. When using the analog input to set the upper limit frequency, 100% of the analog input setting corresponds to F0.12.
234	234
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235	235	For example, in torque control, speed control is invalid. In order to avoid "overspeeding" due to material disconnection, the upper limit frequency can be set by analog. When the inverter runs to the upper limit frequency value, the torque control is invalid and the inverter continues to run at the upper limit frequency.
236	236
237	237	(% class="table-bordered" %)
238		-|(% rowspan="2" %)**F0.12**|Frequency upper limit|Default|50.00Hz
239		-|Setting Range|(% colspan="2" %)Frequency lower limit (F0.14)~~F0.10
240		-|(% rowspan="2" %)**F0.13**|Upper limit frequency offset|Default|0.00Hz
241		-|Setting Range|(% colspan="2" %)0.00Hz ~~F0.10
	241	+|(% rowspan="2" style="width:138px" %)**F0.12**|(% style="width:814px" %)Frequency upper limit|(% style="width:113px" %)Default|50.00Hz
	242	+|(% style="width:814px" %)Setting Range|(% colspan="2" style="width:500px" %)Frequency lower limit (F0.14)~~F0.10
	243	+|(% rowspan="2" style="width:138px" %)**F0.13**|(% style="width:814px" %)Upper limit frequency offset|(% style="width:113px" %)Default|0.00Hz
	244	+|(% style="width:814px" %)Setting Range|(% colspan="2" style="width:500px" %)0.00Hz ~~F0.10
242	242
243	243	When the upper limit frequency is given by the analog input, this parameter is used as the offset of the upper limit frequency calculation, and this upper limit frequency offset is added to the set value of the analog upper limit frequency as the final upper limit frequency setting value.
244	244
245	245	(% class="table-bordered" %)
246		-|(% rowspan="2" %)**F0.14**|Frequency lower limit|Default|0.00Hz
247		-|Setting Range|(% colspan="2" %)0.00Hz~~F0.12
	249	+|(% rowspan="2" style="width:136px" %)**F0.14**|(% style="width:670px" %)Frequency lower limit|(% style="width:217px" %)Default|0.00Hz
	250	+|(% style="width:670px" %)Setting Range|(% colspan="2" style="width:491px" %)0.00Hz~~F0.12
248	248
249	249	When the inverter starts to run, it starts from the starting frequency. If the given frequency is less than the lower limit frequency during operation, the inverter will run at the lower limit frequency, stop or run at zero speed. You can set which operating mode to use through F0.15.
250	250
251	251	(% class="table-bordered" %)
252		-|(% rowspan="4" %)**F0.15**|(% colspan="2" %)The function of frequency lower limit|Default|0
253		-|(% rowspan="3" %)Setting Range|0|(% colspan="2" %)Running at frequency lower limit
254		-|1|(% colspan="2" %)Stop
255		-|2|(% colspan="2" %)Standby（Running at 0 Hz）
	255	+|(% rowspan="4" style="width:136px" %)**F0.15**|(% colspan="2" style="width:676px" %)The function of frequency lower limit|(% style="width:546px" %)Default|0
	256	+|(% rowspan="3" style="width:488px" %)Setting Range|(% style="width:188px" %)0|(% colspan="2" style="width:640px" %)Running at frequency lower limit
	257	+|(% style="width:188px" %)1|(% colspan="2" style="width:640px" %)Stop
	258	+|(% style="width:188px" %)2|(% colspan="2" style="width:640px" %)Standby（Running at 0 Hz）
256	256
257	257	Select the running state of the AC drive when the set frequency is lower than the lower limit frequency. In order to prevent the motor from running at low speed for a long time, this function can be used to choose to stop.
258	258
259	259	(% class="table-bordered" %)
260		-|(% rowspan="2" %)** F0.16**|Carrier Frequency|Default|Model Dependent
261		-|Setting Range|(% colspan="2" %)0.5kHz~~16.0kHz
	263	+|(% rowspan="2" style="width:139px" %)** F0.16**|(% style="width:680px" %)Carrier Frequency|(% style="width:429px" %)Default|(% style="width:204px" %)Model Dependent
	264	+|(% style="width:680px" %)Setting Range|(% colspan="2" style="width:633px" %)0.5kHz~~16.0kHz
262	262
263	263	= Carrier Frequency: =
264	264
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1983	1983	(% style="text-align:center" %)
1984	1984	[[image:CHAPTER 7 FUNCTIONAL PARAMETER DETAILS_html_972dcbcc01a1c9f6.png]]
1985	1985
	1989	+(% style="text-align:center" %)
	1990	+[[image:生产流程图.png]]
	1991	+
1986	1986	Figure 6-10-1 Block diagram of process PID principle
1987	1987
1988	1988	(% class="table-bordered" %)

生产流程图.png

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