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Last modified by Mora Zhou on 2024/08/08 14:35
From version 5.9
edited by Stone Wu
on 2022/09/21 16:39
Change comment: There is no comment for this version
To version 5.8
edited by Stone Wu
on 2022/08/01 15:29
Change comment: Update document after refactoring.

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... ... @@ -1143,7 +1143,7 @@
1143 1143  (% style="text-align:center" %)
1144 1144  [[image:08_html_13acf8747e8703ff.png||class="img-thumbnail"]]
1145 1145  
1146 -= **G90G01 Absolute position line interpolation instruction** =
1146 += {{id name="_Toc26527"/}}**{{id name="_Toc9670"/}}{{id name="_Toc32423"/}}{{id name="_Toc27238"/}}G90G01 Absolute position line interpolation instruction** =
1147 1147  
1148 1148  **G90G01**
1149 1149  
... ... @@ -1221,16 +1221,16 @@
1221 1221  |4085H|The result output in the read application instruction (s1), (s2), (d1) and (d2) exceed the device range
1222 1222  |4088H|The same pulse output axis (d1) is used and has been started.
1223 1223  
1224 -**Example**
1224 +**{{id name="_Toc29603"/}}Example**
1225 1225  
1226 1226  (% style="text-align:center" %)
1227 -[[image:image-20220921163523-1.jpeg||class="img-thumbnail"]]
1227 +[[image:08_html_c30d92ae8a2303e1.png||class="img-thumbnail"]]
1228 1228  
1229 1229  Set Y0 as the interpolation starting axis, Y5 as the direction starting axis, and the maximum speed is 2000, the offset speed is 500, and the acceleration/deceleration time is 500ms. Send a absolute position line interpolation output based on the original position which is with acceleration and deceleration, and the end position is X (Y0) axis 100, Y (Y1) axis 100, and the pulse synthesis frequency is 1000.
1230 1230  
1231 -= **G91G01 Relative position line interpolation instruction** =
1231 += {{id name="_Ref31771"/}}**{{id name="_Toc17391"/}}{{id name="_Toc10640"/}}{{id name="_Toc32642"/}}G91G01 Relative position line interpolation instruction** =
1232 1232  
1233 -**G91G01**
1233 +{{id name="OLE_LINK10"/}}{{id name="_Toc20742"/}}**G91G01**
1234 1234  
1235 1235  Execute 2 axis/3 axis line interpolation instruction in relative drive mode. The method of specifying the movement distance from the current position is also called incremental(relative) drive mode.
1236 1236  
... ... @@ -1306,7 +1306,8 @@
1306 1306  
1307 1307  **{{id name="_Toc16441"/}}Example**
1308 1308  
1309 -[[image:image-20220921163600-2.png]]
1309 +(% style="text-align:center" %)
1310 +[[image:08_html_c30d92ae8a2303e1.png||class="img-thumbnail"]]
1310 1310  
1311 1311  {{id name="_Toc26903"/}}Set Y0 as the interpolation starting axis, Y5 as the direction starting axis, and the maximum speed is 2000, and the offset speed is 500, and the acceleration/deceleration time is 500ms. Send a relative position line interpolation output based on the relative position which is with acceleration and deceleration , and the incremental position is X (Y0) axis 100, Y (Y1) axis 100, and the pulse synthesis frequency is 1000.
1312 1312  
... ... @@ -1393,7 +1393,7 @@
1393 1393  **{{id name="OLE_LINK268"/}}Example**
1394 1394  
1395 1395  (% style="text-align:center" %)
1396 -[[image:image-20220921163619-3.png||class="img-thumbnail"]]
1397 +[[image:08_html_c30d92ae8a2303e1.png||class="img-thumbnail"]]
1397 1397  
1398 1398  Set Y0 as the interpolation starting axis, Y5 as the direction starting axis, and the maximum speed is 2000, and the offset speed is 500, and the acceleration/deceleration time is 500ms. Send a absolute position clockwise circular interpolation output based on the absolute position with acceleration and deceleration, and the target position is X (Y0) axis 100, Y (Y1) axis 100, and the the radius is 1000 pulse in radius mode, and the pulse synthesis frequency is 1000.
1399 1399  
... ... @@ -1484,7 +1484,7 @@
1484 1484  **Example**{{id name="OLE_LINK22"/}}
1485 1485  
1486 1486  (% style="text-align:center" %)
1487 -[[image:image-20220921163641-4.png||class="img-thumbnail"]]
1488 +[[image:08_html_c30d92ae8a2303e1.png||class="img-thumbnail"]]
1488 1488  
1489 1489  {{id name="OLE_LINK21"/}}Set Y0 as the interpolation starting axis, Y5 as the direction starting axis, and the maximum speed is 2000, and the offset speed is 500, and the acceleration/deceleration time is 500ms. Send a relative position clockwise circular interpolation output based on relative position with acceleration and deceleration, and the incremental position is X (Y0) axis 100, Y (Y1) axis 100, and the the radius is 1000 pulse in radius mode, and the pulse synthesis frequency is 1000.
1490 1490  
... ... @@ -1575,7 +1575,7 @@
1575 1575  **Example**
1576 1576  
1577 1577  (% style="text-align:center" %)
1578 -[[image:image-20220921163737-5.png||class="img-thumbnail"]]
1579 +[[image:08_html_c30d92ae8a2303e1.png||class="img-thumbnail"]]
1579 1579  
1580 1580  Set Y0 as the interpolation starting axis, Y5 as the direction starting axis, the maximum speed is 2000, the offset speed is 500, and the acceleration/deceleration time is 500ms. Send a absolute position counterclockwise circular interpolation output based on relative position with acceleration and deceleration, and the target position is X (Y0) axis 100, Y (Y1) axis 100, and the the radius is 1000 pulse in radius mode, and the pulse synthesis frequency is 1000.
1581 1581  
... ... @@ -1666,7 +1666,7 @@
1666 1666  **Example**
1667 1667  
1668 1668  (% style="text-align:center" %)
1669 -[[image:image-20220921163754-6.png]]
1670 +[[image:08_html_c30d92ae8a2303e1.png||class="img-thumbnail"]]
1670 1670  
1671 1671  Set Y0 as the interpolation starting axis, Y5 as the direction starting axis, the maximum speed is 2000, the offset speed is 500, and the acceleration/deceleration time is 500ms. Send a relative position reverse circular interpolation output based on relative position with acceleration and deceleration, and the incremental position is X (Y0) axis 100, Y (Y1) axis 100, and the the radius is 1000 pulse in radius mode, and the pulse synthesis frequency is 1000.
1672 1672  
... ... @@ -1714,7 +1714,7 @@
1714 1714  (% style="text-align:center" %)
1715 1715  [[image:08_html_769e3269fb4c782e.png||class="img-thumbnail"]]
1716 1716  
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%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_8d829d6ac7cb190d.gif?rev=1.1||alt="08_html_8d829d6ac7cb190d.gif"]][[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.)
1718 +* (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%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_8d829d6ac7cb190d.gif?rev=1.1||alt="08_html_8d829d6ac7cb190d.gif"]],,[[image:08_html_8d829d6ac7cb190d.gif]] ,,.(The range is -2147483648 to +2147483647.)
1718 1718  * 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.
1719 1719  
1720 1720  * 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.
... ... @@ -1734,7 +1734,7 @@
1734 1734  
1735 1735  (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.
1736 1736  
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%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_16dfa306a6cd6123.gif?rev=1.1||alt="08_html_16dfa306a6cd6123.gif" class="img-thumbnail"]][[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]] ,,)
1738 +(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%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_16dfa306a6cd6123.gif?rev=1.1||alt="08_html_16dfa306a6cd6123.gif" class="img-thumbnail"]],,[[image:08_html_16dfa306a6cd6123.gif]] ,,)
1738 1738  
1739 1739  (7) When using the interpolation instruction, parameter settings (such as acceleration/deceleration time and so on) are subject to the X axis (Y0);
1740 1740  
... ... @@ -1746,15 +1746,15 @@
1746 1746  (% style="text-align:center" %)
1747 1747  [[image:08_html_6854958a7732277a.gif||class="img-thumbnail"]]
1748 1748  
1749 -(9) Exact match pitch of screws (lead) K and [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif"]],,[[image:08_html_26235c6907b42965.gif]] .,,
1750 +(9) Exact match pitch of screws (lead) K and [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]],,[[image:08_html_26235c6907b42965.gif]] .,,
1750 1750  
1751 -The starting point coordinate of helical interpolation is [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_5aecdb267e93e1ef.gif?rev=1.1||alt="08_html_5aecdb267e93e1ef.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_5aecdb267e93e1ef.gif?rev=1.1||alt="08_html_5aecdb267e93e1ef.gif"]],,[[image:08_html_5aecdb267e93e1ef.gif]] ,,, set the end point coordinate to [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_62eafa46570f5bd9.gif?rev=1.1||alt="08_html_62eafa46570f5bd9.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_62eafa46570f5bd9.gif?rev=1.1||alt="08_html_62eafa46570f5bd9.gif"]],,[[image:08_html_62eafa46570f5bd9.gif]] ,,,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 of X axis and Y axis according to the number of turns of interpolation.
1752 +The starting point coordinate of helical interpolation is [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_5aecdb267e93e1ef.gif?rev=1.1||alt="08_html_5aecdb267e93e1ef.gif" class="img-thumbnail"]],,[[image:08_html_5aecdb267e93e1ef.gif]] ,,, set the end point coordinate to [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_62eafa46570f5bd9.gif?rev=1.1||alt="08_html_62eafa46570f5bd9.gif" class="img-thumbnail"]],,[[image:08_html_62eafa46570f5bd9.gif]] ,,,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 of X axis and Y axis according to the number of turns of interpolation.
1752 1752  
1753 -The final interpolation result is: make sure that lead is equal to K, and the end point of Z axis is equal to[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif"]],,[[image:08_html_26235c6907b42965.gif]] ,,.The actual end point position of X and Y axes [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_812f611042b80df0.gif?rev=1.1||alt="08_html_812f611042b80df0.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_812f611042b80df0.gif?rev=1.1||alt="08_html_812f611042b80df0.gif"]],,[[image:08_html_812f611042b80df0.gif]] ,,may not be equal to the set [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,, but it must pass through the set point [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,in the whole circle.
1754 +The final interpolation result is: make sure that lead is equal to K, and the end point of Z axis is equal to[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]],,[[image:08_html_26235c6907b42965.gif]] ,,.The actual end point position of X and Y axes [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_812f611042b80df0.gif?rev=1.1||alt="08_html_812f611042b80df0.gif" class="img-thumbnail"]],,[[image:08_html_812f611042b80df0.gif]] ,,may not be equal to the set [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif" class="img-thumbnail"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,, but it must pass through the set point [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif" class="img-thumbnail"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,in the whole circle.
1754 1754  
1755 -[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_d3f40984948fb2f1.gif?rev=1.1||alt="08_html_d3f40984948fb2f1.gif" class="img-thumbnail"]][[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)
1756 +[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_d3f40984948fb2f1.gif?rev=1.1||alt="08_html_d3f40984948fb2f1.gif" class="img-thumbnail"]],,[[image:08_html_d3f40984948fb2f1.gif]] ,,(1)
1756 1756  
1757 -(10) In helical interpolation radius mode, the center distribution table of whole circle is as below. (For example: the starting point coordinate [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_3ed96de3414e2c4d.gif?rev=1.1||alt="08_html_3ed96de3414e2c4d.gif"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_3ed96de3414e2c4d.gif?rev=1.1||alt="08_html_3ed96de3414e2c4d.gif"]],,[[image:08_html_3ed96de3414e2c4d.gif]] ,,,the end point coordinate[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_a9e3b53d7dfa134a.gif?rev=1.1||alt="08_html_a9e3b53d7dfa134a.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_a9e3b53d7dfa134a.gif?rev=1.1||alt="08_html_a9e3b53d7dfa134a.gif"]],,[[image:08_html_a9e3b53d7dfa134a.gif]] ,,).
1758 +(10) In helical interpolation radius mode, the center distribution table of whole circle is as below. (For example: the starting point coordinate [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_3ed96de3414e2c4d.gif?rev=1.1||alt="08_html_3ed96de3414e2c4d.gif"]],,[[image:08_html_3ed96de3414e2c4d.gif]] ,,,the end point coordinate[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_a9e3b53d7dfa134a.gif?rev=1.1||alt="08_html_a9e3b53d7dfa134a.gif" class="img-thumbnail"]],,[[image:08_html_a9e3b53d7dfa134a.gif]] ,,).
1758 1758  
1759 1759  (% class="table-bordered" %)
1760 1760  |**Helical interpolation direction**|**Radius value R**|**Coordinate of circle center**|**Helical interpolation direction**|**Radius value R**|**Coordinate of circle center**
... ... @@ -1775,12 +1775,12 @@
1775 1775  |(% 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.
1776 1776  |(% 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)
1777 1777  |(% style="width:139px" %)4F99H|(% style="width:942px" %)Helical interpolation error, Z axis is 0.
1778 -|(% style="width:139px" %)4F9BH|(% style="width:942px" %)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]] ,,)
1779 +|(% style="width:139px" %)4F9BH|(% style="width:942px" %)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:08_html_63ad102f937fdad0.gif]] ,,)
1779 1779  
1780 1780  **{{id name="_Toc12418"/}}Example**
1781 1781  
1782 1782  (% style="text-align:center" %)
1783 -[[image:image-20220921163843-7.png||class="img-thumbnail"]]
1784 +[[image:08_html_61693f5f524ad69e.png||class="img-thumbnail"]]
1784 1784  
1785 1785  Set Y0 as the interpolation starting axis, Y4 as the direction starting axis, and the maximum speed is 2000, and the offset speed is 500, and the acceleration/deceleration time is 500ms. Send a absolute position clockwise circular helical interpolation output based on the absolute position with acceleration and deceleration, and the target position is X (Y0) axis 0, Y (Y1) axis 0 and Z (Y2) axis 5000, and the lead is 5000, and the radius is 5000 pulse in radius mode, and the synthesis frequency is 1000.
1786 1786  
... ... @@ -1828,7 +1828,7 @@
1828 1828  (% style="text-align:center" %)
1829 1829  [[image:08_html_769e3269fb4c782e.png||class="img-thumbnail"]]
1830 1830  
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%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_8d829d6ac7cb190d.gif?rev=1.1||alt="08_html_8d829d6ac7cb190d.gif"]][[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.)
1832 +* (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%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_8d829d6ac7cb190d.gif?rev=1.1||alt="08_html_8d829d6ac7cb190d.gif"]],,[[image:08_html_8d829d6ac7cb190d.gif]] ,,.(The range is -2147483648 to +2147483647.)
1832 1832  * 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.
1833 1833  
1834 1834  * 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.
... ... @@ -1848,7 +1848,7 @@
1848 1848  
1849 1849  (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.
1850 1850  
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%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_16dfa306a6cd6123.gif?rev=1.1||alt="08_html_16dfa306a6cd6123.gif" class="img-thumbnail"]][[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]] ,,)
1852 +(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%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_16dfa306a6cd6123.gif?rev=1.1||alt="08_html_16dfa306a6cd6123.gif" class="img-thumbnail"]],,[[image:08_html_16dfa306a6cd6123.gif]] ,,)
1852 1852  
1853 1853  (7) When using interpolation instruction, parameter settings (such as acceleration/deceleration time and so on) are subject to the X axis (Y0);
1854 1854  
... ... @@ -1860,15 +1860,15 @@
1860 1860  (% style="text-align:center" %)
1861 1861  [[image:08_html_6854958a7732277a.gif||class="img-thumbnail"]]
1862 1862  
1863 -(9) Exact match pitch of screws (lead) K and [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif"]],,[[image:08_html_26235c6907b42965.gif]] .,,
1864 +(9) Exact match pitch of screws (lead) K and [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]],,[[image:08_html_26235c6907b42965.gif]] .,,
1864 1864  
1865 -The starting point coordinate of helical interpolation is [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_5aecdb267e93e1ef.gif?rev=1.1||alt="08_html_5aecdb267e93e1ef.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_5aecdb267e93e1ef.gif?rev=1.1||alt="08_html_5aecdb267e93e1ef.gif"]],,[[image:08_html_5aecdb267e93e1ef.gif]] ,,, set the end point coordinate to [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_62eafa46570f5bd9.gif?rev=1.1||alt="08_html_62eafa46570f5bd9.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_62eafa46570f5bd9.gif?rev=1.1||alt="08_html_62eafa46570f5bd9.gif"]],,[[image:08_html_62eafa46570f5bd9.gif]] ,,,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.
1866 +The starting point coordinate of helical interpolation is [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_5aecdb267e93e1ef.gif?rev=1.1||alt="08_html_5aecdb267e93e1ef.gif" class="img-thumbnail"]],,[[image:08_html_5aecdb267e93e1ef.gif]] ,,, set the end point coordinate to [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_62eafa46570f5bd9.gif?rev=1.1||alt="08_html_62eafa46570f5bd9.gif" class="img-thumbnail"]],,[[image:08_html_62eafa46570f5bd9.gif]] ,,,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.
1866 1866  
1867 -The final interpolation result is: make sure that lead is equal to K, and the end point of Z axis is equal to[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif"]],,[[image:08_html_26235c6907b42965.gif]] ,,.The actual end point position of X and Y axes [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_812f611042b80df0.gif?rev=1.1||alt="08_html_812f611042b80df0.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_812f611042b80df0.gif?rev=1.1||alt="08_html_812f611042b80df0.gif"]],,[[image:08_html_812f611042b80df0.gif]] ,,may not be equal to the set [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,, but it must pass through the set point [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,in the whole circle.
1868 +The final interpolation result is: make sure that lead is equal to K, and the end point of Z axis is equal to[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]],,[[image:08_html_26235c6907b42965.gif]] ,,.The actual end point position of X and Y axes [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_812f611042b80df0.gif?rev=1.1||alt="08_html_812f611042b80df0.gif" class="img-thumbnail"]],,[[image:08_html_812f611042b80df0.gif]] ,,may not be equal to the set [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif" class="img-thumbnail"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,, but it must pass through the set point [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif" class="img-thumbnail"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,in the whole circle.
1868 1868  
1869 -[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_d3f40984948fb2f1.gif?rev=1.1||alt="08_html_d3f40984948fb2f1.gif" class="img-thumbnail"]][[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)
1870 +[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_d3f40984948fb2f1.gif?rev=1.1||alt="08_html_d3f40984948fb2f1.gif" class="img-thumbnail"]],,[[image:08_html_d3f40984948fb2f1.gif]] ,,(1)
1870 1870  
1871 -(10) In helical interpolation radius mode, the center distribution table of whole circle is as below. (For example: the starting point coordinate [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_3ed96de3414e2c4d.gif?rev=1.1||alt="08_html_3ed96de3414e2c4d.gif"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_3ed96de3414e2c4d.gif?rev=1.1||alt="08_html_3ed96de3414e2c4d.gif"]],,[[image:08_html_3ed96de3414e2c4d.gif]] ,,,the end point coordinate[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_a9e3b53d7dfa134a.gif?rev=1.1||alt="08_html_a9e3b53d7dfa134a.gif"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_a9e3b53d7dfa134a.gif?rev=1.1||alt="08_html_a9e3b53d7dfa134a.gif"]],,[[image:08_html_a9e3b53d7dfa134a.gif]] ,,).
1872 +(10) In helical interpolation radius mode, the center distribution table of whole circle is as below. (For example: the starting point coordinate [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_3ed96de3414e2c4d.gif?rev=1.1||alt="08_html_3ed96de3414e2c4d.gif"]],,[[image:08_html_3ed96de3414e2c4d.gif]] ,,,the end point coordinate[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_a9e3b53d7dfa134a.gif?rev=1.1||alt="08_html_a9e3b53d7dfa134a.gif"]],,[[image:08_html_a9e3b53d7dfa134a.gif]] ,,).
1872 1872  
1873 1873  (% class="table-bordered" %)
1874 1874  |**Helical interpolation direction**|**Radius value R**|**Coordinate of circle center**|**Helical interpolation direction**|**Radius value R**|**Coordinate of circle center**
... ... @@ -1889,12 +1889,12 @@
1889 1889  |(% 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.
1890 1890  |(% 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)
1891 1891  |(% style="width:129px" %)4F99H|(% style="width:952px" %)Helical interpolation error, Z axis is 0.
1892 -|(% style="width:129px" %)4F9BH|(% style="width:952px" %)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]] ,,)
1893 +|(% style="width:129px" %)4F9BH|(% style="width:952px" %)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:08_html_63ad102f937fdad0.gif]] ,,)
1893 1893  
1894 1894  **{{id name="_Toc28830"/}}Example**
1895 1895  
1896 1896  (% style="text-align:center" %)
1897 -[[image:image-20220921163904-8.png]]
1898 +[[image:08_html_61693f5f524ad69e.png||class="img-thumbnail"]]
1898 1898  
1899 1899  Set Y0 as the interpolation starting axis, Y4 as the direction start axis, and the maximum speed is 2000, and the offset speed is 500, and the acceleration/deceleration time is 500ms. Send a relative position clockwise circular helical interpolation output based on the relative position with acceleration and deceleration, and the target position is X (Y0) axis 0, Y (Y1) axis 0 and Z (Y2) axis 5000, and the lead is 5000, and the radius is 5000 pulse in radius mode, and the synthesis frequency is 1000.
1900 1900  
... ... @@ -1942,7 +1942,7 @@
1942 1942  (% style="text-align:center" %)
1943 1943  [[image:08_html_769e3269fb4c782e.png||class="img-thumbnail"]]
1944 1944  
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%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_8d829d6ac7cb190d.gif?rev=1.1||alt="08_html_8d829d6ac7cb190d.gif"]][[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.)
1946 +* (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%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_8d829d6ac7cb190d.gif?rev=1.1||alt="08_html_8d829d6ac7cb190d.gif"]],,[[image:08_html_8d829d6ac7cb190d.gif]] ,,.(The range is -2147483648 to +2147483647.)
1946 1946  * 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.
1947 1947  
1948 1948  * 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.
... ... @@ -1962,7 +1962,7 @@
1962 1962  
1963 1963  (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.
1964 1964  
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%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_16dfa306a6cd6123.gif?rev=1.1||alt="08_html_16dfa306a6cd6123.gif" class="img-thumbnail"]][[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]] ,,)
1966 +(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%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_16dfa306a6cd6123.gif?rev=1.1||alt="08_html_16dfa306a6cd6123.gif" class="img-thumbnail"]],,[[image:08_html_16dfa306a6cd6123.gif]] ,,)
1966 1966  
1967 1967  (7) When using the interpolation instruction, parameter settings (such as acceleration/deceleration time and so on) are subject to the X axis (Y0);
1968 1968  
... ... @@ -1974,15 +1974,15 @@
1974 1974  (% style="text-align:center" %)
1975 1975  [[image:08_html_6854958a7732277a.gif||class="img-thumbnail"]]
1976 1976  
1977 -(9) Exact match pitch of screws (lead) K and [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif"]],,[[image:08_html_26235c6907b42965.gif]] .,,
1978 +(9) Exact match pitch of screws (lead) K and [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]],,[[image:08_html_26235c6907b42965.gif]] .,,
1978 1978  
1979 -The starting point coordinate of helical interpolation is [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_5aecdb267e93e1ef.gif?rev=1.1||alt="08_html_5aecdb267e93e1ef.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_5aecdb267e93e1ef.gif?rev=1.1||alt="08_html_5aecdb267e93e1ef.gif"]],,[[image:08_html_5aecdb267e93e1ef.gif]] ,,, set the end point coordinate to [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_62eafa46570f5bd9.gif?rev=1.1||alt="08_html_62eafa46570f5bd9.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_62eafa46570f5bd9.gif?rev=1.1||alt="08_html_62eafa46570f5bd9.gif"]],,[[image:08_html_62eafa46570f5bd9.gif]] ,,,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.
1980 +The starting point coordinate of helical interpolation is [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_5aecdb267e93e1ef.gif?rev=1.1||alt="08_html_5aecdb267e93e1ef.gif" class="img-thumbnail"]],,[[image:08_html_5aecdb267e93e1ef.gif]] ,,, set the end point coordinate to [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_62eafa46570f5bd9.gif?rev=1.1||alt="08_html_62eafa46570f5bd9.gif" class="img-thumbnail"]],,[[image:08_html_62eafa46570f5bd9.gif]] ,,,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.
1980 1980  
1981 -The final interpolation result is: make sure that lead is equal to K, and the end point of Z axis is equal to[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif"]],,[[image:08_html_26235c6907b42965.gif]] ,,.The actual end point position of X and Y axes [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_812f611042b80df0.gif?rev=1.1||alt="08_html_812f611042b80df0.gif"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_812f611042b80df0.gif?rev=1.1||alt="08_html_812f611042b80df0.gif"]],,[[image:08_html_812f611042b80df0.gif]] ,,may not be equal to the set [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,, but it must pass through the set point [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,in the whole circle.
1982 +The final interpolation result is: make sure that lead is equal to K, and the end point of Z axis is equal to[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]],,[[image:08_html_26235c6907b42965.gif]] ,,.The actual end point position of X and Y axes [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_812f611042b80df0.gif?rev=1.1||alt="08_html_812f611042b80df0.gif"]],,[[image:08_html_812f611042b80df0.gif]] ,,may not be equal to the set [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif" class="img-thumbnail"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,, but it must pass through the set point [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif" class="img-thumbnail"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,in the whole circle.
1982 1982  
1983 -[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_d3f40984948fb2f1.gif?rev=1.1||alt="08_html_d3f40984948fb2f1.gif" class="img-thumbnail"]][[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)
1984 +[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_d3f40984948fb2f1.gif?rev=1.1||alt="08_html_d3f40984948fb2f1.gif" class="img-thumbnail"]],,[[image:08_html_d3f40984948fb2f1.gif]] ,,(1)
1984 1984  
1985 -(10) In helical interpolation radius mode, the center distribution table of whole circle is as below. (For example: the starting point coordinate [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_3ed96de3414e2c4d.gif?rev=1.1||alt="08_html_3ed96de3414e2c4d.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_3ed96de3414e2c4d.gif?rev=1.1||alt="08_html_3ed96de3414e2c4d.gif"]],,[[image:08_html_3ed96de3414e2c4d.gif]] ,,,the end point coordinate[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_a9e3b53d7dfa134a.gif?rev=1.1||alt="08_html_a9e3b53d7dfa134a.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_a9e3b53d7dfa134a.gif?rev=1.1||alt="08_html_a9e3b53d7dfa134a.gif"]],,[[image:08_html_a9e3b53d7dfa134a.gif]] ,,).
1986 +(10) In helical interpolation radius mode, the center distribution table of whole circle is as below. (For example: the starting point coordinate [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_3ed96de3414e2c4d.gif?rev=1.1||alt="08_html_3ed96de3414e2c4d.gif" class="img-thumbnail"]],,[[image:08_html_3ed96de3414e2c4d.gif]] ,,,the end point coordinate[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_a9e3b53d7dfa134a.gif?rev=1.1||alt="08_html_a9e3b53d7dfa134a.gif" class="img-thumbnail"]],,[[image:08_html_a9e3b53d7dfa134a.gif]] ,,).
1986 1986  
1987 1987  (% class="table-bordered" %)
1988 1988  |**Helical interpolation direction**|**Radius value R**|**Coordinate of circle center**|**Helical interpolation direction**|**Radius value R**|**Coordinate of circle center**
... ... @@ -2003,12 +2003,12 @@
2003 2003  |(% 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.
2004 2004  |(% 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)
2005 2005  |(% style="width:132px" %)4F99H|(% style="width:949px" %)Helical interpolation error, Z axis is 0.
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]] ,,)
2007 +|(% 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:08_html_63ad102f937fdad0.gif]] ,,)
2007 2007  
2008 2008  **{{id name="_Toc18584"/}}Example**
2009 2009  
2010 2010  (% style="text-align:center" %)
2011 -[[image:image-20220921163935-9.png||class="img-thumbnail"]]
2012 +[[image:08_html_61693f5f524ad69e.png||class="img-thumbnail"]]
2012 2012  
2013 2013  Set Y0 as the interpolation starting axis, Y4 as the direction starting axis, and the maximum speed is 2000, and the offset speed is 500, and the acceleration/deceleration time is 500ms. Send a absolute position counterclockwise circular helical interpolation output based on the absolute position with acceleration and deceleration, and the target position is X (Y0) axis 0, Y (Y1) axis 0 and Z (Y2) axis 5000, and the lead is 5000, and the radius is 5000 pulse in radius mode, and the synthesis frequency is 1000.
2014 2014  
... ... @@ -2076,7 +2076,7 @@
2076 2076  
2077 2077  (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.
2078 2078  
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%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_16dfa306a6cd6123.gif?rev=1.1||alt="08_html_16dfa306a6cd6123.gif" class="img-thumbnail"]][[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]] ,,)
2080 +(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%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_16dfa306a6cd6123.gif?rev=1.1||alt="08_html_16dfa306a6cd6123.gif" class="img-thumbnail"]],,[[image:08_html_16dfa306a6cd6123.gif]] ,,)
2080 2080  
2081 2081  (7) When using interpolation instruction, parameter settings (such as acceleration/deceleration time and so on) are subject to the X axis (Y0);
2082 2082  
... ... @@ -2088,15 +2088,15 @@
2088 2088  (% style="text-align:center" %)
2089 2089  [[image:08_html_6854958a7732277a.gif||class="img-thumbnail"]]
2090 2090  
2091 -(9) Exact match pitch of screws (lead) K and [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif"]],,[[image:08_html_26235c6907b42965.gif]] .,,
2092 +(9) Exact match pitch of screws (lead) K and [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]],,[[image:08_html_26235c6907b42965.gif]] .,,
2092 2092  
2093 -The start point coordinate of helical interpolation is [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_5aecdb267e93e1ef.gif?rev=1.1||alt="08_html_5aecdb267e93e1ef.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_5aecdb267e93e1ef.gif?rev=1.1||alt="08_html_5aecdb267e93e1ef.gif"]],,[[image:08_html_5aecdb267e93e1ef.gif]] ,,, set the end point coordinate to [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_62eafa46570f5bd9.gif?rev=1.1||alt="08_html_62eafa46570f5bd9.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_62eafa46570f5bd9.gif?rev=1.1||alt="08_html_62eafa46570f5bd9.gif"]],,[[image:08_html_62eafa46570f5bd9.gif]] ,,,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.
2094 +The start point coordinate of helical interpolation is [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_5aecdb267e93e1ef.gif?rev=1.1||alt="08_html_5aecdb267e93e1ef.gif" class="img-thumbnail"]],,[[image:08_html_5aecdb267e93e1ef.gif]] ,,, set the end point coordinate to [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_62eafa46570f5bd9.gif?rev=1.1||alt="08_html_62eafa46570f5bd9.gif" class="img-thumbnail"]],,[[image:08_html_62eafa46570f5bd9.gif]] ,,,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.
2094 2094  
2095 -The final interpolation result is: make sure that lead is equal to K, and the end point of Z axis is equal to[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif"]],,[[image:08_html_26235c6907b42965.gif]] ,,.The actual end point position of X and Y axes [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_812f611042b80df0.gif?rev=1.1||alt="08_html_812f611042b80df0.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_812f611042b80df0.gif?rev=1.1||alt="08_html_812f611042b80df0.gif"]],,[[image:08_html_812f611042b80df0.gif]] ,,may not be equal to the set [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,, but it must pass through the set point [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif" class="img-thumbnail"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,in the whole circle.
2096 +The final interpolation result is: make sure that lead is equal to K, and the end point of Z axis is equal to[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_26235c6907b42965.gif?rev=1.1||alt="08_html_26235c6907b42965.gif" class="img-thumbnail"]],,[[image:08_html_26235c6907b42965.gif]] ,,.The actual end point position of X and Y axes [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_812f611042b80df0.gif?rev=1.1||alt="08_html_812f611042b80df0.gif" class="img-thumbnail"]],,[[image:08_html_812f611042b80df0.gif]] ,,may not be equal to the set [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,, but it must pass through the set point [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_72a7340925bd2eea.gif?rev=1.1||alt="08_html_72a7340925bd2eea.gif" class="img-thumbnail"]],,[[image:08_html_72a7340925bd2eea.gif]] ,,in the whole circle.
2096 2096  
2097 -[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_d3f40984948fb2f1.gif?rev=1.1||alt="08_html_d3f40984948fb2f1.gif" class="img-thumbnail"]][[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)
2098 +[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_d3f40984948fb2f1.gif?rev=1.1||alt="08_html_d3f40984948fb2f1.gif" class="img-thumbnail"]],,[[image:08_html_d3f40984948fb2f1.gif]] ,,(1)
2098 2098  
2099 -(10) In helical interpolation radius mode, the center distribution table of whole circle is as below. (For example: the start point coordinate [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_3ed96de3414e2c4d.gif?rev=1.1||alt="08_html_3ed96de3414e2c4d.gif"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_3ed96de3414e2c4d.gif?rev=1.1||alt="08_html_3ed96de3414e2c4d.gif"]],,[[image:08_html_3ed96de3414e2c4d.gif]] ,,,the end point coordinate[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_a9e3b53d7dfa134a.gif?rev=1.1||alt="08_html_a9e3b53d7dfa134a.gif"]][[image:/bin/download/PLC%20Editor2/08%20High-speed%20pulse%20output/WebHome/08_html_a9e3b53d7dfa134a.gif?rev=1.1||alt="08_html_a9e3b53d7dfa134a.gif"]],,[[image:08_html_a9e3b53d7dfa134a.gif]] ,,).
2100 +(10) In helical interpolation radius mode, the center distribution table of whole circle is as below. (For example: the start point coordinate [[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_3ed96de3414e2c4d.gif?rev=1.1||alt="08_html_3ed96de3414e2c4d.gif"]],,[[image:08_html_3ed96de3414e2c4d.gif]] ,,,the end point coordinate[[image:/bin/download/PLC%20Editor2/1%20User%20manual/2.1%20LX5V%20user%20manual/08/WebHome/08_html_a9e3b53d7dfa134a.gif?rev=1.1||alt="08_html_a9e3b53d7dfa134a.gif"]],,[[image:08_html_a9e3b53d7dfa134a.gif]] ,,).
2100 2100  
2101 2101  (% class="table-bordered" %)
2102 2102  |**Helical interpolation direction**|**Radius value R**|**Coordinate of circle center**|**Helical interpolation direction**|**Radius value R**|**Coordinate of circle center**
... ... @@ -2117,12 +2117,12 @@
2117 2117  |(% 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.
2118 2118  |(% 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)
2119 2119  |(% style="width:108px" %)4F99H|(% style="width:973px" %)Helical interpolation error, Z axis is 0.
2120 -|(% style="width:108px" %)4F9BH|(% style="width:973px" %)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]] ,,)
2121 +|(% style="width:108px" %)4F9BH|(% style="width:973px" %)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:08_html_63ad102f937fdad0.gif]] ,,)
2121 2121  
2122 2122  **{{id name="_Toc11997"/}}Example**
2123 2123  
2124 2124  (% style="text-align:center" %)
2125 -[[image:image-20220921163953-10.png]]
2126 +[[image:08_html_61693f5f524ad69e.png||class="img-thumbnail"]]
2126 2126  
2127 2127  Set Y0 as the interpolation starting axis, Y4 as the direction starting axis, and the maximum speed is 2000, and the offset speed is 500, and the acceleration/deceleration time is 500ms. Send a relative position counterclockwise circular helical interpolation output based on the relative position with acceleration and deceleration, and the target position is X (Y0) axis 0, Y (Y1) axis 0 and Z (Y2) axis 5000, and the lead is 5000, and the radius is 5000 pulse in radius mode, and the synthesis frequency is 1000.{{id name="_Toc24071"/}}{{id name="_Toc17235"/}}{{id name="_Toc1369"/}}{{id name="_Toc21558"/}}{{id name="_Toc23998"/}}{{id name="_Toc21982"/}}{{id name="_Toc6785"/}}{{id name="_Toc22083"/}}{{id name="_Toc31780"/}}{{id name="_Toc5703"/}}
2128 2128  
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