Changes for page 08 High-speed pulse output

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Content

...	...	@@ -1208,8 +1208,11 @@
1208	1208	1. The actual synthetic frequency S (the minimum frequency value) is the lowest base frequency of the output synthetic frequency. The calculation modes are as follows:
1209	1209
1210	1210	(% style="text-align:center" %)
1211		-[[image:image-20220921172417-2.png]]
	1211	+[[image:08_html_6f6668df922f7274.gif||class="img-thumbnail"]]
1212	1212
	1213	+(% style="text-align:center" %)
	1214	+[[image:08_html_6854958a7732277a.gif||class="img-thumbnail"]]
	1215	+
1213	1213	**{{id name="_Toc32765"/}}Error Codes**
1214	1214
1215	1215	(% class="table-bordered" %)
...	...	@@ -1288,10 +1288,13 @@
1288	1288	1. The actual synthetic frequency S (the minimum frequency value) is the lowest base frequency of the output synthetic frequency. The calculation modes are as follows:
1289	1289
1290	1290	(% style="text-align:center" %)
1291		-[[image:image-20220921172437-3.png]]
	1294	+[[image:08_html_6f6668df922f7274.gif||class="img-thumbnail"]]
1292	1292
1293		-**Error Codes**
	1296	+(% style="text-align:center" %)
	1297	+[[image:08_html_6854958a7732277a.gif||class="img-thumbnail"]]
1294	1294
	1299	+**{{id name="_Toc8461"/}}Error Codes**
	1300	+
1295	1295	(% class="table-bordered" %)
1296	1296	|**Error Codes**|**Contents**
1297	1297	|4084H|The data input in the application instruction (s1) and (s2) exceed the specified range
...	...	@@ -1365,10 +1365,13 @@
1365	1365	1. The actual synthetic frequency S (the lowest frequency value) is the lowest base frequency of the output synthetic frequency. The calculation modes are as follows:
1366	1366
1367	1367	(% style="text-align:center" %)
1368		-[[image:image-20220921172524-4.png]]
	1374	+[[image:08_html_6f6668df922f7274.gif||class="img-thumbnail"]]
1369	1369
1370		-**Error Codes**
	1376	+(% style="text-align:center" %)
	1377	+[[image:08_html_6854958a7732277a.gif||class="img-thumbnail"]]
1371	1371
	1379	+ **Error Codes**
	1380	+
1372	1372	(% class="table-bordered" %)
1373	1373	|(% style="width:134px" %)**Error Codes**|(% style="width:947px" %)**Contents**
1374	1374	|(% style="width:134px" %)4084H|(% style="width:947px" %)The data input in the application instruction (s1) and (s2) exceed the specified range
...	...	@@ -1453,8 +1453,11 @@
1453	1453	1. The actual synthetic frequency S (the lowest frequency value) is the lowest base frequency of the output synthetic frequency. The calculation modes are as follows:
1454	1454
1455	1455	(% style="text-align:center" %)
1456		-[[image:image-20220921172550-5.png]]
	1465	+[[image:08_html_6f6668df922f7274.gif||class="img-thumbnail"]]
1457	1457
	1467	+(% style="text-align:center" %)
	1468	+[[image:08_html_6854958a7732277a.gif||class="img-thumbnail"]]
	1469	+
1458	1458	**Error Codes**
1459	1459
1460	1460	(% class="table-bordered" %)
...	...	@@ -1541,8 +1541,11 @@
1541	1541	1. The actual synthetic frequency S (the lowest frequency value) is the lowest base frequency of the output synthetic frequency. The calculation modes are as follows:
1542	1542
1543	1543	(% style="text-align:center" %)
1544		-[[image:image-20220921172606-6.png]]
	1556	+[[image:08_html_6f6668df922f7274.gif||class="img-thumbnail"]]
1545	1545
	1558	+(% style="text-align:center" %)
	1559	+[[image:08_html_6854958a7732277a.gif||class="img-thumbnail"]]
	1560	+
1546	1546	**Error Codes**
1547	1547
1548	1548	(% class="table-bordered" %)
...	...	@@ -1629,8 +1629,11 @@
1629	1629	1. The actual synthetic frequency S (the lowest frequency value) is the lowest base frequency of the output synthetic frequency. The calculation modes are as follows:
1630	1630
1631	1631	(% style="text-align:center" %)
1632		-[[image:image-20220921172617-7.png]]
	1647	+[[image:08_html_6f6668df922f7274.gif||class="img-thumbnail"]]
1633	1633
	1649	+(% style="text-align:center" %)
	1650	+[[image:08_html_6854958a7732277a.gif||class="img-thumbnail"]]
	1651	+
1634	1634	**Error Codes**
1635	1635
1636	1636	(% class="table-bordered" %)
...	...	@@ -1696,7 +1696,7 @@
1696	1696	(% style="text-align:center" %)
1697	1697	[[image:08_html_769e3269fb4c782e.png||class="img-thumbnail"]]
1698	1698
1699		-* (s1) is the starting address, and occupies 8 consecutive addresses. s1 is the target position (absolute positioning) of X axis , s1+2 is the target position (absolute positioning) of Y axis, and s1+4 is the target position (absolute positioning) of Z axis, and s1+6 is the lead range of Z axis. The lead range is [[image:image-20220921171331-1.png||height="31" width="113"]],, ,,.(The range is -2147483648 to +2147483647.)
	1717	+* (s1) is the starting address, and occupies 8 consecutive addresses. s1 is the target position (absolute positioning) of X axis , s1+2 is the target position (absolute positioning) of Y axis, and s1+4 is the target position (absolute positioning) of Z axis, and s1+6 is the lead range of Z axis. The lead range is[[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_8d829d6ac7cb190d.gif?rev=1.1||alt="08_html_8d829d6ac7cb190d.gif" height="26" width="80"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_8d829d6ac7cb190d.gif?rev=1.1||alt="08_html_8d829d6ac7cb190d.gif"]],,[[image:08_html_8d829d6ac7cb190d.gif]] ,,.(The range is -2147483648 to +2147483647.)
1700	1700	* Specify radius or center mode in (s2), and occupy 4 consecutive addresses. The coordinate of circle center of s2+0 is in the difference value of the number of pulse output of X axis relative to the current position, or the number of the pulse of radius R. The coordinate of circle center of s2+2 is in the difference value of the number of pulse output of Y axis relative to the current position. When using radius, the value must be 0X7FFF FFFF. The range is 1 to 141421.
1701	1701
1702	1702	* Specify the synthetic output frequency in (s3) . The range is 1 to 100000. Helical interpolation can switch the synthetic frequency by setting SM901. 0 means default, and the synthetic frequency is the frequency of the linear velocity of helix. 1 means that the synthetic frequency is the frequency of the linear velocity of the arc of arc plane, that is, the actual synthetic frequency is greater than the setting synthetic frequency.
...	...	@@ -1716,7 +1716,7 @@
1716	1716
1717	1717	(5) IJ mode: Regardless of absolute position interpolation or relative position interpolation, s2 is only expressed as the difference of the pulse output number between the coordinates of circle center on the XY axis (Y0/Y1) relative to the current position, and both are in the offset value.
1718	1718
1719		-(6) In helical interpolation R mode (radius mode): When the value of R is greater than 0, it indicates that from the starting point coordinate to the set end point coordinate in the circular plane of XY is an arc less than or equal to 180 degrees. When the value of R is less than 0, it indicates that from the starting point coordinate to the set end point coordinate in the circular plane of XY is an arc greater than or equal to 180 degrees, and the actual passing angle is determined by the endpoint of Z axis and the lead K. (If Ze=75, lead K=50, and the actual radian [[image:image-20220921171348-2.png||height="47" width="90"]],,),,
	1737	+(6) In helical interpolation R mode (radius mode): When the value of R is greater than 0, it indicates that from the starting point coordinate to the set end point coordinate in the circular plane of XY is an arc less than or equal to 180 degrees. When the value of R is less than 0, it indicates that from the starting point coordinate to the set end point coordinate in the circular plane of XY is an arc greater than or equal to 180 degrees, and the actual passing angle is determined by the endpoint of Z axis and the lead K. (If Ze=75, lead K=50, and the actual radian [[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_16dfa306a6cd6123.gif?rev=1.1||alt="08_html_16dfa306a6cd6123.gif" height="33" width="60"]],,[[image:08_html_16dfa306a6cd6123.gif]]),,
1720	1720
1721	1721	(7) When using the interpolation instruction, parameter settings (such as acceleration/deceleration time and so on) are subject to the X axis (Y0);
1722	1722
...	...	@@ -1723,8 +1723,11 @@
1723	1723	(8) The actual synthetic frequency S (the lowest frequency value) is the lowest base frequency of the output synthetic frequency. The calculation modes are as follows:
1724	1724
1725	1725	(% style="text-align:center" %)
1726		-[[image:image-20220921172637-8.png]]
	1744	+[[image:08_html_6f6668df922f7274.gif||class="img-thumbnail"]]
1727	1727
	1746	+(% style="text-align:center" %)
	1747	+[[image:08_html_6854958a7732277a.gif||class="img-thumbnail"]]
	1748	+
1728	1728	(9) Exact match pitch of screws (lead) K and Ze,,.,,
1729	1729
1730	1730	The starting point coordinate of helical interpolation is (0,0,0),, ,,, set the end point coordinate to (Xe,Ye,Ze), the number of turns of helical interpolation [[image:08_html_f1878c8190771c9b.gif||class="img-thumbnail"]] is determined by formula (1), and recalculate the end point coordinates (Xe',Ye') of X axis and Y axis according to the number of turns of interpolation.
...	...	@@ -1731,14 +1731,13 @@
1731	1731
1732	1732	The final interpolation result is: make sure that lead is equal to K, and the end point of Z axis is equal to Ze,, ,,.The actual end point position of X and Y axes  (Xe',Ye') ,, ,,may not be equal to the set  (Xe,Ye), but it must pass through the set point (Xe,Ye), in the whole circle.
1733	1733
1734		-(% style="text-align:center" %)
1735		-[[image:image-20220921171411-3.png||height="62" width="312"]]
	1755	+[[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_d3f40984948fb2f1.gif?rev=1.1||alt="08_html_d3f40984948fb2f1.gif"]],,[[image:08_html_d3f40984948fb2f1.gif]] ,,(1)
1736	1736
1737	1737	(10) In helical interpolation radius mode, the center distribution table of whole circle is as below. (For example: the starting point coordinate (0,0,0), the end point coordinate (0,0,Ze).
1738	1738
1739	1739	(% class="table-bordered" %)
1740	1740	|**Helical interpolation direction**|**Radius value R**|**Coordinate of circle center**|**Helical interpolation direction**|**Radius value R**|**Coordinate of circle center**
1741		-|(% rowspan="2" %)Clockwise circular|R > 0|(0，R）|(% rowspan="2" %)Counter clockwise circular|R > 0|（0，-R）
	1761	+|(% rowspan="2" %)Clockwise circular|R > 0|(0，R）|(% rowspan="2" %)Counterclockwise circular|R > 0|（0，-R）
1742	1742	|-R < 0|（0，-R）|-R < 0|（0，R）
1743	1743
1744	1744	**Error Codes**
...	...	@@ -1755,7 +1755,7 @@
1755	1755	|(% style="width:139px" %)4F97H|(% style="width:942px" %)In center mode, the calculated radius distance is greater than the maximum radius range, which is positive or negative 800,000 pulse.
1756	1756	|(% style="width:139px" %)4F98H|(% style="width:942px" %)Helical interpolation error, Z axis is the main axis.(The coordinate of Z axis is greater than the number of of virtual main axis of circular plane)
1757	1757	|(% style="width:139px" %)4F99H|(% style="width:942px" %)Helical interpolation error, Z axis is 0.
1758		-|(% style="width:139px" %)4F9BH|(% style="width:942px" %)Lead setting exceeds the range.(Lead,, ,,[[image:image-20220921171529-5.png||height="32" width="69"]],, ,,)
	1778	+|(% style="width:139px" %)4F9BH|(% style="width:942px" %)Lead setting exceeds the range.(Lead[[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_63ad102f937fdad0.gif?rev=1.1||alt="08_html_63ad102f937fdad0.gif"]],,[[image:08_html_63ad102f937fdad0.gif]] ,,)
1759	1759
1760	1760	**{{id name="_Toc12418"/}}Example**
1761	1761
...	...	@@ -1808,7 +1808,7 @@
1808	1808	(% style="text-align:center" %)
1809	1809	[[image:08_html_769e3269fb4c782e.png||class="img-thumbnail"]]
1810	1810
1811		-* (s1) is the starting address, and occupies 8 consecutive addresses. s1 is the target position (relative positioning) of X axis , s1+2 is the target position (relative positioning) of Y axis, and s1+4 is the target position (relative positioning) of Z axis, and s1+6 is the lead range of Z axis. The lead range is,, ,,[[image:image-20220921171628-6.png||height="29" width="106"]]. (The range is -2147483648 to +2147483647.)
	1831	+* (s1) is the starting address, and occupies 8 consecutive addresses. s1 is the target position (relative positioning) of X axis , s1+2 is the target position (relative positioning) of Y axis, and s1+4 is the target position (relative positioning) of Z axis, and s1+6 is the lead range of Z axis. The lead range is [[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_8d829d6ac7cb190d.gif?rev=1.1||alt="08_html_8d829d6ac7cb190d.gif" height="23" width="72"]],,[[image:08_html_8d829d6ac7cb190d.gif]] ,,.(The range is -2147483648 to +2147483647.)
1812	1812	* Specify radius or center mode in (s2), and occupy 4 consecutive addresses. The coordinate of circle center of s2+0 is in the difference value of the number of pulse output of X axis relative to the current position, or the number of the pulse of radius R. The coordinate of circle center of s2+2 is in the difference value of the number of pulse output of Y axis relative to the current position. When using radius, the value must be 0X7FFF FFFF. The range is 1 to 141421.
1813	1813
1814	1814	* Specify the synthetic output frequency in (s3). The range is 1 to 100000. Helical interpolation can switch the synthetic frequency by setting SM901. 0 means default, and the synthetic frequency is the frequency of the linear velocity of helix. 1 means that the synthetic frequency is the frequency of the linear velocity of the arc of arc plane, that is, the actual synthetic frequency is greater than the setting synthetic frequency.
...	...	@@ -1828,17 +1828,18 @@
1828	1828
1829	1829	(5) IJ mode: Regardless of absolute position interpolation or relative position interpolation, s2 is only expressed as the difference of the pulse output number between the coordinates of the circle center on the XY axis (Y0/Y1) relative to the current position, and both are in the offset value.
1830	1830
1831		-(6) In helical interpolation R mode (radius mode) : When the value of R is greater than 0, it indicates that from starting point coordinate to the setting end point coordinate in the circular plane of XY is an arc less than or equal to 180 degrees. When the value of R is less than 0, it indicates that from starting point coordinate to the setting end point coordinate in the circular plane of XY is an arc greater than or equal to 180 degrees, and the actual passing angle is determined by the endpoint of Z axis and the lead K.
	1851	+(6) In helical interpolation R mode (radius mode) : When the value of R is greater than 0, it indicates that from starting point coordinate to the setting end point coordinate in the circular plane of XY is an arc less than or equal to 180 degrees. When the value of R is less than 0, it indicates that from starting point coordinate to the setting end point coordinate in the circular plane of XY is an arc greater than or equal to 180 degrees, and the actual passing angle is determined by the endpoint of Z axis and the lead K. (If Ze=75, lead K=50, and the actual radian[[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_16dfa306a6cd6123.gif?rev=1.1||alt="08_html_16dfa306a6cd6123.gif"]],,[[image:08_html_16dfa306a6cd6123.gif]]),,
1832	1832
1833		-(If Ze=75, lead K=50, and the actual radian [[image:image-20220921171639-7.png||height="56" width="107"]],,),,
1834		-
1835	1835	(7) When using interpolation instruction, parameter settings (such as acceleration/deceleration time and so on) are subject to the X axis (Y0);
1836	1836
1837	1837	(8) The actual synthetic frequency S (the lowest frequency value) is the lowest base frequency of the output synthetic frequency. The calculation modes are as follows:
1838	1838
1839	1839	(% style="text-align:center" %)
1840		-[[image:image-20220921172651-9.png]]
	1858	+[[image:08_html_6f6668df922f7274.gif||class="img-thumbnail"]]
1841	1841
	1860	+(% style="text-align:center" %)
	1861	+[[image:08_html_6854958a7732277a.gif||class="img-thumbnail"]]
	1862	+
1842	1842	(9) Exact match pitch of screws (lead) K and Ze,,.,,
1843	1843
1844	1844	The starting point coordinate of helical interpolation is (0,0,0), set the end point coordinate to (Xe,Ye,Ze), the number of turns of helical interpolation [[image:08_html_f1878c8190771c9b.gif]] is determined by formula (1), and recalculate the end point coordinates (Xe‘,Ye’) of X axis and Y axis according to the number of turns of interpolation.
...	...	@@ -1845,14 +1845,13 @@
1845	1845
1846	1846	The final interpolation result is: make sure that lead is equal to K, and the end point of Z axis is equal to Ze,, ,,.The actual end point position of X and Y axes (Xe‘,Ye’) ,, ,,may not be equal to the set (Xe,Ye) ,, ,,, but it must pass through the set poin (Xe,Ye) ,, ,,in the whole circle.
1847	1847
1848		-(% style="text-align:center" %)
1849		-[[image:image-20220921171703-8.png||height="58" width="291"]]
	1869	+[[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_d3f40984948fb2f1.gif?rev=1.1||alt="08_html_d3f40984948fb2f1.gif"]],,[[image:08_html_d3f40984948fb2f1.gif]] ,,(1)
1850	1850
1851	1851	(10) In helical interpolation radius mode, the center distribution table of whole circle is as below. (For example: the starting point coordinate (0,0,0),, ,,,the end point coordinate (0,0,Ze),, ,,.
1852	1852
1853	1853	(% class="table-bordered" %)
1854	1854	|**Helical interpolation direction**|**Radius value R**|**Coordinate of circle center**|**Helical interpolation direction**|**Radius value R**|**Coordinate of circle center**
1855		-|(% rowspan="2" %)Clockwise circular|R > 0|(0，R）|(% rowspan="2" %)Counter clockwise circular|R > 0|（0，-R）
	1875	+|(% rowspan="2" %)Clockwise circular|R > 0|(0，R）|(% rowspan="2" %)Counterclockwise circular|R > 0|（0，-R）
1856	1856	|-R < 0|（0，-R）|-R < 0|（0，R）
1857	1857
1858	1858	**Error Codes**
...	...	@@ -1869,7 +1869,7 @@
1869	1869	|(% style="width:129px" %)4F97H|(% style="width:952px" %)In center mode, the calculated radius distance is greater than the maximum radius range, which is positive or negative 800,000 pulse.
1870	1870	|(% style="width:129px" %)4F98H|(% style="width:952px" %)Helical interpolation error, Z axis is the main axis.(The coordinate of Z axis is greater than the number of of virtual main axis of circular plane)
1871	1871	|(% style="width:129px" %)4F99H|(% style="width:952px" %)Helical interpolation error, Z axis is 0.
1872		-|(% style="width:129px" %)4F9BH|(% style="width:952px" %)Lead setting exceeds the range.(Lead[[image:image-20220921171735-9.png||height="28" width="59"]])
	1892	+|(% style="width:129px" %)4F9BH|(% style="width:952px" %)Lead setting exceeds the range.(Lead[[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_63ad102f937fdad0.gif?rev=1.1||alt="08_html_63ad102f937fdad0.gif" height="20" width="38"]],,[[image:08_html_63ad102f937fdad0.gif]] ,,)
1873	1873
1874	1874	**{{id name="_Toc28830"/}}Example**
1875	1875
...	...	@@ -1922,8 +1922,7 @@
1922	1922	(% style="text-align:center" %)
1923	1923	[[image:08_html_769e3269fb4c782e.png||class="img-thumbnail"]]
1924	1924
1925		-* (s1) is the starting address, and occupies 8 consecutive addresses. s1 is the target position (absolute positioning) of X axis , s1+2 is the target position (absolute positioning) of Y axis, and s1+4 is the target position (absolute positioning) of Z axis, and s1+6 is the lead range of Z axis.
1926		-* The lead range is [[image:image-20220921171807-10.png||height="35" width="128"]]. (The range is -2147483648 to +2147483647.)
	1945	+* (s1) is the starting address, and occupies 8 consecutive addresses. s1 is the target position (absolute positioning) of X axis , s1+2 is the target position (absolute positioning) of Y axis, and s1+4 is the target position (absolute positioning) of Z axis, and s1+6 is the lead range of Z axis. The lead range is[[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_8d829d6ac7cb190d.gif?rev=1.1||alt="08_html_8d829d6ac7cb190d.gif" height="23" width="70"]],, [[image:08_html_8d829d6ac7cb190d.gif]] ,,.(The range is -2147483648 to +2147483647.)
1927	1927	* Specify radius or center mode in (s2), and occupy 4 consecutive addresses. The coordinate of circle center of s2+0 is in the difference value of the number of pulse output of X axis relative to the current position, or the number of the pulse of radius R. The coordinate of circle center of s2+2 is in the difference value of the number of pulse output of Y axis relative to the current position. When using radius, the value must be 0X7FFF FFFF. The range is 1 to 141421.
1928	1928
1929	1929	* Specify the synthetic output frequency in (s3). The range is 1 to 100000. Helical interpolation can switch the synthetic frequency by setting SM901. 0 means default, and the synthetic frequency is the frequency of the linear velocity of helix. 1 means that the synthetic frequency is the frequency of the linear velocity of the arc of arc plane, that is, the actual synthetic frequency is greater than the setting synthetic frequency.
...	...	@@ -1943,17 +1943,18 @@
1943	1943
1944	1944	(5) IJ mode: Regardless of absolute position interpolation or relative position interpolation, s2 is only expressed as the difference of the pulse output number between the coordinates of the center of the circle on the XY axis (Y0/Y1) relative to the current position, and both are in the offset value.
1945	1945
1946		-(6) In helical interpolation R mode (radius mode): When the value of R is greater than 0, it indicates that from starting point coordinate to the setting end point coordinate in the circular plane of XY is an arc less than or equal to 180 degrees. When the value of R is less than 0, it indicates that from starting point coordinate to the setting end point coordinate in the circular plane of XY is an arc greater than or equal to 180 degrees, and the actual passing angle is determined by the endpoint of Z axis and the lead K.
	1965	+(6) In helical interpolation R mode (radius mode): When the value of R is greater than 0, it indicates that from starting point coordinate to the setting end point coordinate in the circular plane of XY is an arc less than or equal to 180 degrees. When the value of R is less than 0, it indicates that from starting point coordinate to the setting end point coordinate in the circular plane of XY is an arc greater than or equal to 180 degrees, and the actual passing angle is determined by the endpoint of Z axis and the lead K. (If Ze=75, lead K=50, and the actual radian [[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_16dfa306a6cd6123.gif?rev=1.1||alt="08_html_16dfa306a6cd6123.gif"]],,[[image:08_html_16dfa306a6cd6123.gif]]),,
1947	1947
1948		-If Ze=75, lead K=50, and the actual radian(% style="font-size:10.5px" %) [[image:image-20220921171852-11.png||height="65" width="124"]]
1949		-
1950	1950	(7) When using the interpolation instruction, parameter settings (such as acceleration/deceleration time and so on) are subject to the X axis (Y0);
1951	1951
1952	1952	(8) The actual synthetic frequency S (the lowest frequency value) is the lowest base frequency of the output synthetic frequency. The calculation modes are as follows:
1953	1953
1954	1954	(% style="text-align:center" %)
1955		-[[image:image-20220921172744-10.png]]
	1972	+[[image:08_html_6f6668df922f7274.gif||class="img-thumbnail"]]
1956	1956
	1974	+(% style="text-align:center" %)
	1975	+[[image:08_html_6854958a7732277a.gif||class="img-thumbnail"]]
	1976	+
1957	1957	(9) Exact match pitch of screws (lead) K and Ze
1958	1958
1959	1959	The starting point coordinate of helical interpolation is (0,0,0),, ,,, set the end point coordinate to (Xe,Ye,Ze), the number of turns of helical interpolation [[image:08_html_f1878c8190771c9b.gif]] is determined by formula (1), and recalculate the end point coordinates of X axis and Y axis according to the number of turns of interpolation.
...	...	@@ -1960,8 +1960,7 @@
1960	1960
1961	1961	The final interpolation result is: make sure that lead is equal to K, and the end point of Z axis is equal to Ze,, ,,.The actual end point position of X and Y axes (Xe',Ye'),, ,,may not be equal to the set (Xe,Ye),, ,,, but it must pass through the set point (Xe,Ye),, ,,in the whole circle.
1962	1962
1963		-(% style="text-align:center" %)
1964		-[[image:image-20220921171930-12.png||height="74" width="370"]]
	1983	+[[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_d3f40984948fb2f1.gif?rev=1.1||alt="08_html_d3f40984948fb2f1.gif"]],,[[image:08_html_d3f40984948fb2f1.gif]] ,,(1)
1965	1965
1966	1966	(10) In helical interpolation radius mode, the center distribution table of whole circle is as below. (For example: the starting point coordinate (0,0,0),, ,,,the end point coordinate (0,0,Ze),, ,,).
1967	1967
...	...	@@ -1984,7 +1984,7 @@
1984	1984	|(% style="width:132px" %)4F97H|(% style="width:949px" %)In center mode, the calculated radius distance is greater than the maximum radius range, which is positive or negative 800,000 pulse.
1985	1985	|(% style="width:132px" %)4F98H|(% style="width:949px" %)Helical interpolation error, Z axis is the main axis.(The coordinate of Z axis is greater than the number of of virtual main axis of circular plane)
1986	1986	|(% style="width:132px" %)4F99H|(% style="width:949px" %)Helical interpolation error, Z axis is 0.
1987		-|(% style="width:132px" %)4F9BH|(% style="width:949px" %)Lead setting exceeds the range. (Lead [[image:image-20220921171956-13.png||height="29" width="61"]])
	2006	+|(% style="width:132px" %)4F9BH|(% style="width:949px" %)Lead setting exceeds the range. (Lead [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_63ad102f937fdad0.gif?rev=1.1||alt="08_html_63ad102f937fdad0.gif"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_63ad102f937fdad0.gif?rev=1.1||alt="08_html_63ad102f937fdad0.gif"]],,[[image:08_html_63ad102f937fdad0.gif]] ,,)
1988	1988
1989	1989	**{{id name="_Toc18584"/}}Example**
1990	1990
...	...	@@ -2057,17 +2057,18 @@
2057	2057
2058	2058	(5) IJ mode: Regardless of absolute position interpolation or relative position interpolation, s2 is only expressed as the difference of the pulse output number between the coordinates of the circle center on the XY axis (Y0/Y1) relative to the current position, and both are in the offset value.
2059	2059
2060		-(6) In helical interpolation R mode (radius mode) : When the value of R is greater than 0, it indicates that from starting point coordinate to the setting end point coordinate in the circular plane of XY is an arc less than or equal to 180 degrees. When the value of R is less than 0, it indicates that from starting point coordinate to the setting end point coordinate in the circular plane of XY is an arc greater than or equal to 180 degrees, and the actual passing angle is determined by the endpoint of Z axis and the lead K.
	2079	+(6) In helical interpolation R mode (radius mode) : When the value of R is greater than 0, it indicates that from starting point coordinate to the setting end point coordinate in the circular plane of XY is an arc less than or equal to 180 degrees. When the value of R is less than 0, it indicates that from starting point coordinate to the setting end point coordinate in the circular plane of XY is an arc greater than or equal to 180 degrees, and the actual passing angle is determined by the endpoint of Z axis and the lead K. ( If Ze=75, lead K=50, and the actual radian [[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_16dfa306a6cd6123.gif?rev=1.1||alt="08_html_16dfa306a6cd6123.gif"]],,[[image:08_html_16dfa306a6cd6123.gif]] ,,)
2061	2061
2062		-If Ze=75, lead K=50, and the actual radian [[image:image-20220921172134-15.png||height="68" width="130"]]
2063		-
2064	2064	(7) When using interpolation instruction, parameter settings (such as acceleration/deceleration time and so on) are subject to the X axis (Y0);
2065	2065
2066	2066	(8) The actual synthetic frequency S (the lowest frequency value) is the lowest base frequency of the output synthetic frequency. The calculation modes are as follows:
2067	2067
2068	2068	(% style="text-align:center" %)
2069		-[[image:image-20220921172803-11.png]]
	2086	+[[image:08_html_6f6668df922f7274.gif||class="img-thumbnail"]]
2070	2070
	2088	+(% style="text-align:center" %)
	2089	+[[image:08_html_6854958a7732277a.gif||class="img-thumbnail"]]
	2090	+
2071	2071	(9) Exact match pitch of screws (lead) K and Ze
2072	2072
2073	2073	The start point coordinate of helical interpolation is(0,0,0), set the end point coordinate to (Xe,Ye,Ze),the number of turns of helical interpolation [[image:08_html_f1878c8190771c9b.gif]] is determined by formula (1), and recalculate the end point coordinates of X axis and Y axis according to the number of turns of interpolation.
...	...	@@ -2074,8 +2074,7 @@
2074	2074
2075	2075	The final interpolation result is: make sure that lead is equal to K, and the end point of Z axis is equal to Ze,, ,,.The actual end point position of X and Y axes (Xe',Ye'),, ,,may not be equal to the set (Xe,Ye), but it must pass through the set point (Xe,Ye),, ,,in the whole circle.
2076	2076
2077		-(% style="text-align:center" %)
2078		-[[image:image-20220921172159-16.png||height="72" width="362"]]
	2097	+[[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_d3f40984948fb2f1.gif?rev=1.1||alt="08_html_d3f40984948fb2f1.gif"]],,[[image:08_html_d3f40984948fb2f1.gif]] ,,(1)
2079	2079
2080	2080	(10) In helical interpolation radius mode, the center distribution table of whole circle is as below. (For example: the start point coordinate (0,0,0), the end point coordinate (0,0,Ze).
2081	2081
...	...	@@ -2098,7 +2098,7 @@
2098	2098	|(% style="width:108px" %)4F97H|(% style="width:973px" %)In center mode, the calculated radius distance is greater than the maximum radius range, which is positive or negative 800,000 pulse.
2099	2099	|(% style="width:108px" %)4F98H|(% style="width:973px" %)Helical interpolation error, Z axis is the main axis.(The coordinate of Z axis is greater than the number of of virtual main axis of circular plane)
2100	2100	|(% style="width:108px" %)4F99H|(% style="width:973px" %)Helical interpolation error, Z axis is 0.
2101		-|(% style="width:108px" %)4F9BH|(% style="width:973px" %)Lead setting exceeds the range.(Lead [[image:image-20220921172255-17.png||height="29" width="62"]],, ,,)
	2120	+|(% style="width:108px" %)4F9BH|(% style="width:973px" %)Lead setting exceeds the range.(Lead [[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_63ad102f937fdad0.gif?rev=1.1||alt="08_html_63ad102f937fdad0.gif" height="19" width="37"]],,[[image:08_html_63ad102f937fdad0.gif]] ,,)
2102	2102
2103	2103	**{{id name="_Toc11997"/}}Example**
2104	2104

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