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Changes for page 12 PLC Protocol OLD

Last modified by Mora Zhou on 2024/12/05 14:53
From version 129.1
edited by Ben
on 2022/08/30 14:54
Change comment: There is no comment for this version
To version 102.1
edited by Ben
on 2022/08/29 16:30
Change comment: There is no comment for this version

Summary

Details

Page properties
Content
... ... @@ -511,7 +511,7 @@
511 511  (% style="text-align:center" %)
512 512  [[image:12.PLC Protocol_html_58205bdf82c06d4.png||data-xwiki-image-style-alignment="center" height="307" width="500" class="img-thumbnail"]]
513 513  
514 -== **CompactLogix FreeTag Ethernet protocol** ==
514 +== **FreeTag Ethernet/IP (CompactLogix)** ==
515 515  
516 516  Allen-Brandly CompactLogix
517 517  
... ... @@ -568,7 +568,7 @@
568 568  (% style="text-align:center" %)
569 569  [[image:12.PLC Protocol_html_2297240b57346b2a.png||data-xwiki-image-style-alignment="center" height="170" width="400" class="img-thumbnail"]]
570 570  
571 -== **MicroLogix 1200** ** protocol** ==
571 +== **AB PLC address edit** ==
572 572  
573 573  The operational address is determined by the connection of Allen-Bradley PLC to HMI. For extension modules or other special conditions, refer to allen-Bradley PLC instruction manual. The following is an example of allen-bradley MicroLogix1200.
574 574  
... ... @@ -1584,13 +1584,16 @@
1584 1584  [[image:image-20220829152102-5.png]]
1585 1585  
1586 1586  
1587 +(% class="wikigeneratedid" %)
1587 1587  == **DVP Ethernet Protocol** ==
1588 1588  
1590 +
1589 1589  (% class="wikigeneratedid" %)
1590 1590  Supported Series: Delta DVP ES2/EX2/SS2/SA2/SX2/SE Controller
1591 1591  
1592 1592  **1)HMI Settings**
1593 1593  
1596 +
1594 1594  |**Items**|**Settings**|**Note**
1595 1595  |Protocol|DELTA DVP Modbus TCP|
1596 1596  |Connection|Ethernet|
... ... @@ -1627,211 +1627,226 @@
1627 1627  
1628 1628  [[image:https://docs.we-con.com.cn/bin/download/PIStudio/12.PLC%20protocols/WebHome/12.PLC%20Protocol_html_2297240b57346b2a.png?width=401&height=170&rev=1.1||alt="12.PLC Protocol_html_2297240b57346b2a.png" height="170" width="401"]]
1629 1629  
1630 -== **AS serial protocol** ==
1633 += **MODBUS** =
1631 1631  
1632 -**1)HMI Settings**
1635 +== **MODBUS RTU Master** ==
1633 1633  
1634 -|**Item**|**Settings**|**Note**
1635 -|Protocol|DELTA AS300 MODBUS RTU|
1636 -|Connection|RS485|
1637 -|Baud rate|9600|
1637 +Supported Series: MODBUS RTU CONTROLLER
1638 +
1639 +HMI works as MODBUS SLAVE connecting with MASTER
1640 +
1641 +(% style="text-align:center" %)
1642 +[[image:12.PLC Protocol_html_44425b313b0a6b96.png||data-xwiki-image-style-alignment="center" height="571" width="544" class="img-thumbnail"]]
1643 +
1644 +
1645 +(% style="text-align:center" %)
1646 +[[image:12.PLC Protocol_html_b56b9da32c3caaa.png||data-xwiki-image-style-alignment="center" height="462" width="600" class="img-thumbnail"]]
1647 +
1648 +
1649 +(% style="text-align:center" %)
1650 +[[image:12.PLC Protocol_html_67cd25458b9c72a6.png||data-xwiki-image-style-alignment="center" height="462" width="600" class="img-thumbnail"]]
1651 +
1652 +**HMI Settings**
1653 +
1654 +(% class="table-bordered" %)
1655 +|**Items**|**Settings**|**Note**
1656 +|Protocol|MODBUS RTU Master|
1657 +|Connection|RS485/RS232|
1658 +|Baud rate|2400~~187500|
1638 1638  |Data bit|8|
1639 -|Parity|NONE|
1640 -|Stop bit|1|
1641 -|PLC station No.|1|
1660 +|Parity|Even/ Odd/ None|
1661 +|Stop bit|1/2|
1662 +|Station No.|0~~255|
1642 1642  
1643 -**2)Address List**
1664 +**Address List**
1644 1644  
1666 +(% class="table-bordered" %)
1667 +|**Type**|**HMI address**|**MODBUS code**|**Range**
1668 +|Bit|HDX3000.0~~HDX3499.15|0|0~~7999
1669 +|Word|HDW3500~~HDW7999|4|0~~4499
1645 1645  
1646 -|**Type**|**Device registers**|**HMI registers**|**Format**|**Range**|**Note**
1647 -|Bit|X|X|X d|0~~63|
1648 -|Bit|Y|Y|Y d|0~~63|
1649 -|Bit|D|D|D d|0~~29999|
1650 -|Bit|M|M|M d|0~~8191|
1651 -|Bit|SM|SM|SM d|0~~4095|
1652 -|Bit|S|S|S h|0~~2047|
1653 -|Bit|T|T|T d|0~~511|
1654 -|Bit|C|C|C d|0~~511|
1655 -|Bit|HC|HC|HC d|0~~255|
1656 -|Word|X|X|X h|0~~63|
1657 -|Word|Y|Y|Y d|0~~63|
1658 -|Word|SR|SR|SR d|0~~2047|
1659 -|Word|D|D|D d|0~~29999|
1660 -|Word|T|T|T d|0~~511|
1661 -|Word|C|C|C h|0~~511|
1662 -|Word|E|E|E d|0~~9|
1671 +**Cable Wiring**
1663 1663  
1664 -**3)Configure the communication protocol**
1673 +* **RS485**
1665 1665  
1666 -[[image:image-20220830094600-1.png]]
1675 +(% style="text-align:center" %)
1676 +[[image:12.PLC Protocol_html_68dfb6d383f0edd9.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
1667 1667  
1668 -[[image:image-20220830094657-2.png]]
1678 +(% style="text-align:center" %)
1679 +[[image:12.PLC Protocol_html_cbeb90cb4faaa8bc.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
1669 1669  
1670 -**4)Cable Wiring**
1681 +* **RS232**
1671 1671  
1672 -Figure
1683 +(% style="text-align:center" %)
1684 +[[image:12.PLC Protocol_html_9030ba679545793b.png||data-xwiki-image-style-alignment="center" height="241" width="387" class="img-thumbnail"]]
1673 1673  
1674 -[[image:image-20220830141138-1.png]]
1686 +**✎Note:** COM3 only available in PI8000/PI9000 series.
1675 1675  
1676 -Pin Definition Diagram
1688 +== **MODBUS RTU Slave (All function)/(All function OneBaseAddress)** ==
1677 1677  
1678 -[[image:image-20220830095131-1.png]]
1690 +Supported Series: MODBUS RTU CONTROLLER
1679 1679  
1680 -== **AS Ethernet Protocol** ==
1692 +HMI works as MODBUS MASTER connecting with SLAVE.
1681 1681  
1682 -**1)HMI Settings**
1694 +The addresses in [All function] start from 0, while the addresses in [All function OneBaseAddress] start from 1 (offset 1).
1683 1683  
1696 +(% style="text-align:center" %)
1697 +[[image:12.PLC Protocol_html_7236139c887defad.png||data-xwiki-image-style-alignment="center" height="571" width="544" class="img-thumbnail"]]
1684 1684  
1685 -|=**Items**|=**Settings**|=**Note**
1686 -|Protocol|DELTA AS300 MODBUS TCP|
1687 -|Connection|Ethernet|
1688 -|Port No.|502|
1689 -|Device No.|1|
1690 -|HMI No.|0|
1691 1691  
1692 -**2)Address List**
1700 +(% style="text-align:center" %)
1701 +[[image:12.PLC Protocol_html_de80207f2b495c17.png||data-xwiki-image-style-alignment="center" height="462" width="600" class="img-thumbnail"]]
1693 1693  
1694 1694  
1695 -|**Type**|**Device registers**|**HMI registers**|**Format**|**Range**|**Note**
1696 -|Bit|X|X|X d|0~~63|
1697 -|Bit|Y|Y|Y d|0~~63|
1698 -|Bit|D|D|D d|0~~29999|
1699 -|Bit|M|M|M d|0~~8191|
1700 -|Bit|SM|SM|SM d|0~~4095|
1701 -|Bit|S|S|S h|0~~2047|
1702 -|Bit|T|T|T d|0~~511|
1703 -|Bit|C|C|C d|0~~511|
1704 -|Bit|HC|HC|HC d|0~~255|
1705 -|Word|X|X|X h|0~~63|
1706 -|Word|Y|Y|Y d|0~~63|
1707 -|Word|SR|SR|SR d|0~~2047|
1708 -|Word|D|D|D d|0~~29999|
1709 -|Word|T|T|T d|0~~511|
1710 -|Word|C|C|C h|0~~511|
1711 -|Word|E|E|E d|0~~9|
1704 +(% style="text-align:center" %)
1705 +[[image:12.PLC Protocol_html_4e9e8eff81c7ff8b.png||data-xwiki-image-style-alignment="center" height="462" width="600" class="img-thumbnail"]]
1712 1712  
1713 -**3)Configure the communication protocol**
1707 +**HMI Settings**
1714 1714  
1715 -[[image:image-20220830140537-1.png]]
1709 +(% class="table-bordered" %)
1710 +|**Items**|**Settings**|**Note**
1711 +|Protocol|MODBUS RTU Slave (All function)/( All function OneBaseAddress)|
1712 +|Connection|RS485/RS232|
1713 +|Baud rate|2400~~187500|
1714 +|Data bit|8|
1715 +|Parity|Even/ Odd/ None|
1716 +|Stop bit|1/2|
1717 +|PLC station No.|0~~255|
1716 1716  
1717 -[[image:image-20220830140629-2.png]]
1719 +**Address List**
1718 1718  
1719 -**4)Cable Wiring**
1721 +(% class="table-bordered" %)
1722 +|**Type**|**Address Type**|**Function code & Description**
1723 +|(% rowspan="11" %)Word|(% rowspan="3" %)3|04 (read input register: read current binary value in one or more input registers)
1724 +|06 (write single register: write a binary value to a holding register)
1725 +|10 (write values to multiple addresses )
1726 +|(% rowspan="3" %)4|03 (read holding register: read current binary value in one or more holding registers)
1727 +|06 (write single register: write a binary value to a holding register)
1728 +|10 (write values to multiple addresses )
1729 +|(% rowspan="3" %)W6|03 (read holding register: read current binary value in one or more holding registers)
1730 +|06 (write single register: write a binary value to a holding register)
1731 +|10 (write values to multiple addresses )
1732 +|(% rowspan="2" %)W16|03 (read holding register: read current binary value in one or more holding registers)
1733 +|10 (write values to multiple addresses )
1734 +|(% rowspan="11" %)Bit|(% rowspan="3" %)0|01 (Read coil state)
1735 +|05 (Force a single coil to force the on/off state of a logic coil)
1736 +|0F (Write multiple bits, ie write continuously)
1737 +|(% rowspan="3" %)1|02 (Read the input state)
1738 +|05 (Force a single coil to force the on/off state of a logic coil)
1739 +|0F (Write multiple bits)
1740 +|(% rowspan="3" %)W5|01 (Read coil state to obtain the current state of a set of logic coils)
1741 +|05 (Force a single coil to force the on/off state of a logic coil)
1742 +|0F (Write multiple bits)
1743 +|(% rowspan="2" %)W15|01 (Read coil state to obtain the current state of a set of logic coils)
1744 +|0F (Write multiple bits)
1720 1720  
1721 -Figure
1746 +**✎Note:**
1722 1722  
1723 -[[image:image-20220830094929-1.png]]
1748 +* Modbus can also support getting bit from the word, which could access the address such as 100.1 and other formats.
1749 +* The function codes sent out are the same as those that read and write words.
1724 1724  
1725 -Pin Definition Diagram
1751 +**Station number for more than one slaves**
1726 1726  
1727 -[[image:https://docs.we-con.com.cn/bin/download/PIStudio/12.PLC%20protocols/WebHome/12.PLC%20Protocol_html_2297240b57346b2a.png?width=401&height=170&rev=1.1||alt="12.PLC Protocol_html_2297240b57346b2a.png" height="170" width="401"]]
1753 +If there are more than one slaves connected to HMI, please set slave station number during editing address, as below shows.
1728 1728  
1729 -= Create communication with **Omron** PLC =
1755 +(% style="text-align:center" %)
1756 +[[image:12.PLC Protocol_html_31f028c6d80be344.png||data-xwiki-image-style-alignment="center" height="515" width="485" class="img-thumbnail"]]
1730 1730  
1731 -== **CJ TCP FINS Ethemet  Protocol** ==
1758 +**Cable Wiring**
1732 1732  
1733 -Supported device:CJ series
1760 +* **RS485**
1734 1734  
1735 -**1)HMI Settings**
1762 +(% style="text-align:center" %)
1763 +[[image:12.PLC Protocol_html_68dfb6d383f0edd9.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
1736 1736  
1737 -|=**Items**|=**Settings**|=**Note**
1738 -|Protocol|OMRON CJ TCP FINS Ethemet|
1739 -|Connection|Ethernet|
1740 -|Port No.|9600|
1741 -|Device No.|0|
1742 -|HMI No.|0|(((
1743 -
1744 -)))
1765 +(% style="text-align:center" %)
1766 +[[image:12.PLC Protocol_html_cbeb90cb4faaa8bc.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
1745 1745  
1746 -**2)Address List**
1768 +* **RS232**
1747 1747  
1748 -|**Type**|**Device registers**|**HMI registers**|**Format**|**Range**|**Note**
1749 -|Bit|CIO|CIO|CIO d|0~~99999|
1750 -|Bit|W|W|W d|0~~99999|
1751 -|Bit|D|D|D d|0~~99999|
1752 -|Bit|H|H|H d|0~~99999|
1753 -|Bit|A|A|A d|0~~99999|
1754 -|Bit|T|T|T h|0~~99999|
1755 -|Bit|CF|CF|CF d|0~~99999|
1756 -|Bit|FF|FF|FF d|0~~99999|
1757 -|Bit|C|C|C d|0~~99999|
1758 -|Bit|EM0|EM0|EM0 d|0~~99999|
1759 -|Bit|EM1|EM1|EM1 d|0~~99999|
1760 -|Bit|EM2|EM2|EM2 d|0~~99999|
1761 -|Bit|EM3|EM3|EM3 d|0~~99999|
1762 -|Bit|EM4|EM4|EM4 d|0~~99999|
1763 -|Bit|EM5|EM5|EM5 h|0~~99999|
1764 -|Bit|EM6|EM6|EM6 d|0~~99999|
1765 -|Bit|EM7|EM7|EM7 d|0~~99999|
1766 -|Bit|EM8|EM8|EM8 d|0~~99999|
1767 -|Bit|EM9|EM9|EM9 d|0~~99999|
1768 -|Bit|EMA|EMA|EMA d|0~~99999|
1769 -|Bit|EMB|EMB|EMB d|0~~99999|
1770 -|Bit|EMC|EMC|EMC d|0~~99999|
1771 -|Bit|Lamp|Lamp|Lamp d|0~~0|
1772 -|Word|CIO|CIO|CIO d|0~~99999|
1773 -|Word|W|W|W d|0~~99999|
1774 -|Word|D|D|D d|0~~99999|
1775 -|Word|H|H|H d|0~~99999|
1776 -|Word|A|A|A d|0~~99999|
1777 -|Word|T|T|T h|0~~99999|
1778 -|Word|CF|CF|CF d|0~~99999|
1779 -|Word|FF|FF|FF d|0~~99999|
1780 -|Word|C|C|C d|0~~99999|
1781 -|Word|EM0|EM0|EM0 d|0~~99999|
1782 -|Word|EM1|EM1|EM1 d|0~~99999|
1783 -|Word|EM2|EM2|EM2 d|0~~99999|
1784 -|Word|EM3|EM3|EM3 d|0~~99999|
1785 -|Word|EM4|EM4|EM4 d|0~~99999|
1786 -|Word|EM5|EM5|EM5 h|0~~99999|
1787 -|Word|EM6|EM6|EM6 d|0~~99999|
1788 -|Word|EM7|EM7|EM7 d|0~~99999|
1789 -|Word|EM8|EM8|EM8 d|0~~99999|
1790 -|Word|EM9|EM9|EM9 d|0~~99999|
1791 -|Word|EMA|EMA|EMA d|0~~99999|
1792 -|Word|EMB|EMB|EMB d|0~~99999|
1793 -|Word|EMC|EMC|EMC d|0~~99999|
1794 -|Word|IR|IR|IR d|0~~99999|
1795 -|Word|DR|DR|DR d|0~~99999|
1770 +(% style="text-align:center" %)
1771 +[[image:12.PLC Protocol_html_9030ba679545793b.png||data-xwiki-image-style-alignment="center" height="241" width="387" class="img-thumbnail"]]
1796 1796  
1797 -**3)Configure the communication protocol**
1773 +**✎Note:** COM3 only available in PI8000/PI9000 series.
1798 1798  
1799 -[[image:image-20220830143348-1.png]]
1775 +== **MODBUS TCP Slave (All function)** ==
1800 1800  
1801 -[[image:image-20220830143511-2.png]]
1777 +Supported series: MODBUS TCP controller
1802 1802  
1779 +HMI works as MODBUS TCP MASTER connecting with TCP SLAVE
1803 1803  
1781 +(% style="text-align:center" %)
1782 +[[image:12.PLC Protocol_html_8877cb7f39c2b607.png||data-xwiki-image-style-alignment="center" height="571" width="544" class="img-thumbnail"]]
1804 1804  
1805 -**4)Cable Wiring**
1784 +(% style="text-align:center" %)
1785 +[[image:12.PLC Protocol_html_e7e1f06f127a9175.png||data-xwiki-image-style-alignment="center" height="426" width="553" class="img-thumbnail"]]
1806 1806  
1807 -Pin Definition Diagram
1808 1808  
1809 -[[image:https://docs.we-con.com.cn/bin/download/PIStudio/12.PLC%20protocols/WebHome/12.PLC%20Protocol_html_2297240b57346b2a.png?width=401&height=170&rev=1.1||alt="12.PLC Protocol_html_2297240b57346b2a.png" height="170" width="401"]]
1788 +(% style="text-align:center" %)
1789 +[[image:12.PLC Protocol_html_60bbfe5de79417a6.png||data-xwiki-image-style-alignment="center" height="163" width="553" class="img-thumbnail"]]
1810 1810  
1811 -(% class="wikigeneratedid" %)
1812 -== ==
1791 +**HMI Setting**
1813 1813  
1814 -(% class="wikigeneratedid" %)
1815 -== ==
1793 +(% class="table-bordered" %)
1794 +|**Items**|**Settings**|**Note**
1795 +|Protocol|MODBUS TCP Slave (All function)|
1796 +|Connection|Ethernet|
1797 +|Port No.|502|
1798 +|PLC station No.|1|
1816 1816  
1817 -(% class="wikigeneratedid" %)
1818 -== ==
1800 +**Address List**
1819 1819  
1820 -(% class="wikigeneratedid" %)
1821 -== ==
1802 +(% class="table-bordered" %)
1803 +|**Type**|**Register**|**Function code & Description**
1804 +|(% rowspan="11" %)Word|(% rowspan="3" %)3|04 (read input register: read current binary value in one or more input registers)
1805 +|06 (write single register: write a binary value to a holding register)
1806 +|10 (write values to multiple addresses )
1807 +|(% rowspan="3" %)4|03 (read holding register: read current binary value in one or more holding registers)
1808 +|06 (write single register: write a binary value to a holding register)
1809 +|10 (write values to multiple addresses )
1810 +|(% rowspan="3" %)W6|03 (read holding register: read current binary value in one or more holding registers)
1811 +|06 (write single register: write a binary value to a holding register)
1812 +|10 (write values to multiple addresses )
1813 +|(% rowspan="2" %)W16|03 (read holding register: read current binary value in one or more holding registers)
1814 +|10 (write values to multiple addresses )
1815 +|(% rowspan="11" %)Bit|(% rowspan="3" %)0|01 (Read coil state)
1816 +|05 (Force a single coil to force the on/off state of a logic coil)
1817 +|0F (Write multiple bits, ie write continuously)
1818 +|(% rowspan="3" %)1|02 (Read the input state)
1819 +|05 (Force a single coil to force the on/off state of a logic coil)
1820 +|0F (Write multiple bits)
1821 +|(% rowspan="3" %)W5|01 (Read coil state to obtain the current state of a set of logic coils)
1822 +|05 (Force a single coil to force the on/off state of a logic coil)
1823 +|0F (Write multiple bits)
1824 +|(% rowspan="2" %)W15|01 (Read coil state to obtain the current state of a set of logic coils)
1825 +|0F (Write multiple bits)
1822 1822  
1823 -(% class="wikigeneratedid" %)
1824 -== ==
1827 +**Communication Settings**
1825 1825  
1826 -(% class="wikigeneratedid" %)
1827 -== ==
1829 +Enable HMI Ethernet in [Project Settings];
1828 1828  
1829 -== **EC55 Protocol** ==
1831 +(% style="text-align:center" %)
1832 +[[image:12.PLC Protocol_html_43b671f18153910d.png||data-xwiki-image-style-alignment="center" height="107" width="405" class="img-thumbnail"]]
1830 1830  
1834 +Set PLC IP in [Device IP] settings;
1835 +
1836 +(% style="text-align:center" %)
1837 +[[image:12.PLC Protocol_html_4bd3cc8348adecf8.png||data-xwiki-image-style-alignment="center" height="190" width="554" class="img-thumbnail"]]
1838 +
1839 +**Cable Wiring**
1840 +
1841 +(% style="text-align:center" %)
1842 +[[image:12.PLC Protocol_html_2297240b57346b2a.png||data-xwiki-image-style-alignment="center" height="170" width="401" class="img-thumbnail"]]
1843 +
1844 += **Omron** =
1845 +
1846 +== **EC55** ==
1847 +
1831 1831  Supported device: EC55 temperature instrument
1832 1832  
1833 1833  **HMI Settings**
1834 1834  
1852 +(% class="table-bordered" %)
1835 1835  |**Items**|**Settings**|**Note**
1836 1836  |Protocol|Omron EC55|
1837 1837  |Connection|RS485 (9600, 2, 7, EVEN)|
... ... @@ -1840,6 +1840,7 @@
1840 1840  
1841 1841  **Address List**
1842 1842  
1861 +(% class="table-bordered" %)
1843 1843  |**Type**|**Register**|**Device range**|**HMI range**|**Function**
1844 1844  |(% rowspan="3" %)Double word|C0|0-13 (Hex)|0-19|Set read only parameter for area 0
1845 1845  |C1|0-4D(Hex)|0-77|Set Read/Write parameter for area 0
... ... @@ -1885,14 +1885,15 @@
1885 1885  * Because of the mechanism problem, this protocol could not support CompoWay/F function that is read-write function of variables in protocol document.
1886 1886  * When using double-word address, set the data format to 32 bits, otherwise the read/write function is unable.
1887 1887  * Please set the communication delay time of 10ms in setting, to avoid that the instrument may not be able to communicate in a short time due to too fast data access and too much connection requests.
1888 -* [[image:12.PLC Protocol_html_d428cad280fdefb3.png||height="276" width="347"]]Because of the particularity of the instrument, it is necessary to write the value of the address in the menu interface corresponding to the address, and to enter the menu where the address locates, so that the value could be written.
1907 +* (% id="cke_bm_8690S" style="display:none" %)[[image:12.PLC Protocol_html_d428cad280fdefb3.png||height="276" width="347"]](%%)Because of the particularity of the instrument, it is necessary to write the value of the address in the menu interface corresponding to the address, and to enter the menu where the address locates, so that the value could be written.
1889 1889  
1890 -== **EtherNet/IP NX series Protocol** ==
1909 +== EtherNet/IP NX series ==
1891 1891  
1892 1892  Supported series: Omron NX/NJ series
1893 1893  
1894 1894  **HMI Setting**
1895 1895  
1915 +(% class="table-bordered" %)
1896 1896  |**Items**|**Settings**|**Note**
1897 1897  |Protocol|Omron NX Ethernet/IP|
1898 1898  |Connection|Ethernet|
... ... @@ -1944,224 +1944,183 @@
1944 1944  (% style="text-align:center" %)
1945 1945  [[image:12.PLC Protocol_html_437cb087b36b5784.png||data-xwiki-image-style-alignment="center" height="330" width="600" class="img-thumbnail"]]
1946 1946  
1967 +
1947 1947  (% style="text-align:center" %)
1948 1948  [[image:12.PLC Protocol_html_60ef71528a99abf5.png||data-xwiki-image-style-alignment="center" height="188" width="554" class="img-thumbnail"]]
1949 1949  
1950 1950  **Cable Wiring**
1951 1951  
1952 -[[image:https://docs.we-con.com.cn/bin/download/PIStudio/12.PLC%20protocols/WebHome/12.PLC%20Protocol_html_2297240b57346b2a.png?width=401&height=170&rev=1.1||alt="12.PLC Protocol_html_2297240b57346b2a.png" height="170" width="401"]]
1953 -
1954 -= **MODBUS** =
1955 -
1956 -== **MODBUS RTU Master** ==
1957 -
1958 -Supported Series: MODBUS RTU CONTROLLER
1959 -
1960 -HMI works as MODBUS SLAVE connecting with MASTER
1961 -
1962 1962  (% style="text-align:center" %)
1963 -[[image:12.PLC Protocol_html_44425b313b0a6b96.png||data-xwiki-image-style-alignment="center" height="571" width="544" class="img-thumbnail"]]
1974 +[[image:12.PLC Protocol_html_2297240b57346b2a.png||data-xwiki-image-style-alignment="center" height="170" width="401" class="img-thumbnail"]]
1964 1964  
1976 += **OpenCAN** =
1965 1965  
1966 -(% style="text-align:center" %)
1967 -[[image:12.PLC Protocol_html_b56b9da32c3caaa.png||data-xwiki-image-style-alignment="center" height="462" width="600" class="img-thumbnail"]]
1978 +OpenCan is based on CAN2.0 standard; OpenCAN protocols that could be configured autonomously to accept and send frames.
1968 1968  
1980 +This protocol is only available in PI8000 series HMI.
1969 1969  
1970 -(% style="text-align:center" %)
1971 -[[image:12.PLC Protocol_html_67cd25458b9c72a6.png||data-xwiki-image-style-alignment="center" height="462" width="600" class="img-thumbnail"]]
1972 -
1973 1973  **HMI Settings**
1974 1974  
1975 1975  (% class="table-bordered" %)
1976 1976  |**Items**|**Settings**|**Note**
1977 -|Protocol|MODBUS RTU Master|
1978 -|Connection|RS485/RS232|
1979 -|Baud rate|2400~~187500|
1980 -|Data bit|8|
1981 -|Parity|Even/ Odd/ None|
1982 -|Stop bit|1/2|
1983 -|Station No.|0~~255|
1986 +|Protocol|OPENCAN|
1987 +|Connection|CAN port|
1988 +|Baud rate|250000|
1984 1984  
1985 -**Address List**
1990 +**CAN frame setting in HMI**
1986 1986  
1987 -(% class="table-bordered" %)
1988 -|**Type**|**HMI address**|**MODBUS code**|**Range**
1989 -|Bit|HDX3000.0~~HDX3499.15|0|0~~7999
1990 -|Word|HDW3500~~HDW7999|4|0~~4499
1992 +Click [OpenCAN setting] button in communication setting window;
1991 1991  
1992 -**Cable Wiring**
1994 +(% style="text-align:center" %)
1995 +[[image:12.PLC Protocol_html_e866b9e56e19785d.png||data-xwiki-image-style-alignment="center" height="503" width="600" class="img-thumbnail"]]
1993 1993  
1994 -* **RS485**
1997 +Click [Add] to create a new frame;
1995 1995  
1996 1996  (% style="text-align:center" %)
1997 -[[image:12.PLC Protocol_html_68dfb6d383f0edd9.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
2000 +[[image:12.PLC Protocol_html_3a6f4e2141763c8f.png||data-xwiki-image-style-alignment="center" height="315" width="600" class="img-thumbnail"]]
1998 1998  
1999 -(% style="text-align:center" %)
2000 -[[image:12.PLC Protocol_html_cbeb90cb4faaa8bc.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
2002 +(% class="table-bordered" %)
2003 +|**No**|**Items**|**Description**
2004 +|1|Add|add a frame related to register address
2005 +|2|Insert|Select the position where you want to insert a frame, and click [Insert frame] to add a new frame in front of the current frame position
2006 +|3|Frame manager|This list shows some of the main parameters for each frame that the user adds
2007 +|4|Modify|Modify the frames in frame management
2008 +|5|Copy|Copy one frame to another
2009 +|6|Delete|Remove the selected frames from the list by modifying the frames in frame management. If no frames are selected in the list, the first frame is deleted.
2010 +|7|Empty|All frames in the list are cleared
2011 +|8|Browse|Displays configuration files in XML format in IE
2012 +|9|OK|Complete the configuration of the frame and exit
2001 2001  
2002 -* **RS232**
2014 +Set CANBUS frame in setting windows
2003 2003  
2004 2004  (% style="text-align:center" %)
2005 -[[image:12.PLC Protocol_html_9030ba679545793b.png||data-xwiki-image-style-alignment="center" height="241" width="387" class="img-thumbnail"]]
2017 +[[image:12.PLC Protocol_html_7c83130820321ef.png||data-xwiki-image-style-alignment="center" height="507" width="600" class="img-thumbnail"]]
2006 2006  
2007 -**✎Note:** COM3 only available in PI8000/PI9000 series.
2019 +(% class="table-bordered" %)
2020 +|**No**|(% style="width:185px" %)**Items**|(% style="width:854px" %)**Description**
2021 +|1|(% style="width:185px" %)ID|(% style="width:854px" %)Set the ID of a can frame in hexadecimal format;
2022 +|2|(% style="width:185px" %)ID assign|(% style="width:854px" %)split the ID by PF, PS, and SA;
2023 +|3|(% style="width:185px" %)Frame type|(% style="width:854px" %)Select Standard frame or Extended Frame;
2024 +|4|(% style="width:185px" %)Frame format|(% style="width:854px" %)Select between data frame and remote Frame;
2025 +|5|(% style="width:185px" %)Data|(% style="width:854px" %)Set the data part of CAN frame, with two Numbers representing a hexadecimal number and Spaces spaced; Maximum support of 8 bytes is defined according to CAN message;
2026 +|6|(% style="width:185px" %)Use address|(% style="width:854px" %)(((
2027 +Set the register address related to the CAN frame, which corresponds to the register address set on the main state one by one. The data obtained from the address is assigned continuously;
2008 2008  
2009 -== **MODBUS RTU Slave (All function)/(All function OneBaseAddress)** ==
2029 +**Edit:** Set a bit or word address by its format;
2010 2010  
2011 -Supported Series: MODBUS RTU CONTROLLER
2031 +**Option: **Set address options related to frame, enter “register address option” interface, specifically browse the following “register address option” interface;
2032 +)))
2033 +|(% rowspan="8" %)7|(% rowspan="8" style="width:185px" %)Data interactive configuration|(% style="width:854px" %)There are two interactive modes of the touch screen. One is that the touch screen actively sends frames, and the device receives and processes and feeds back. The other, on the contrary, passively receives frames from the device for processing and feedback;
2034 +|(% style="width:854px" %)Send after receiving: if this item is selected, the interaction of the touch screen will act as a passive party, and the touch screen will receive the CAN frame first and send feedback. Unchecked items interact in the opposite way;
2035 +|(% style="width:854px" %)Feedback mode: feedback mode includes no response, confirm response and data response;
2036 +|(% style="width:854px" %)No response: the device or touch screen will not receive feedback;
2037 +|(% style="width:854px" %)Confirm response: the device or the touch screen will receive feedback with confirmation, which could be used to compare the data parts. If this function is used, the 20 addresses before and after this address should not be used. All addresses of cata10-cata30 could not be used with the reply confirmation function of cata20;
2038 +|(% style="width:854px" %)Data response: the device or touch screen will receive feedback with data, and the data to be separated from the feedback frame should be set to store in the register address;
2039 +|(% style="width:854px" %)response ID: if the address wants to receive data on a frame with a different ID, set this, check "different from sender", and enter a different ID in the following input box. Without this setting, the screen will receive and process a frame with the same ID as the sender;
2040 +|(% style="width:854px" %)Response timeout: sets whether the response frame timeout;
2041 +|(% rowspan="3" %)8|(% rowspan="3" style="width:185px" %)Control address|(% style="width:854px" %)If ticked, enable sending when the value of the corresponding control bit number (address) is non-0.
2042 +|(% style="width:854px" %)Control bit: CtrlBit register range 0~~255, if the control bit is ON, can instruction will run normally. Otherwise, it doesn't run;
2043 +|(% style="width:854px" %)Manually send: a manually send tick indicates only one send;
2044 +|9|(% style="width:185px" %)Flag configuration|(% style="width:854px" %)Communication control for each frame. Display OFF when communication is normal, and ON when communication is abnormal;
2045 +|10|(% style="width:185px" %)Note|(% style="width:854px" %)Fill the text to explain the meaning of the frame;
2046 +|11|(% style="width:185px" %)Data assign|(% style="width:854px" %)Preview the display in this table based on the address and the corresponding number of digits;
2047 +|12|(% style="width:185px" %)Current operation display|(% style="width:854px" %)Display the description of current operation;
2048 +|13|(% style="width:185px" %)Add|(% style="width:854px" %)Add a new frame;
2049 +|14|(% style="width:185px" %)Save frame|(% style="width:854px" %)Save the configured frame format;
2050 +|15|(% style="width:185px" %)Cancel|(% style="width:854px" %)Cancel the frame configuration;
2012 2012  
2013 -HMI works as MODBUS MASTER connecting with SLAVE.
2052 +Set CAN address (Read or write operation);
2014 2014  
2015 -The addresses in [All function] start from 0, while the addresses in [All function OneBaseAddress] start from 1 (offset 1).
2016 -
2017 2017  (% style="text-align:center" %)
2018 -[[image:12.PLC Protocol_html_7236139c887defad.png||data-xwiki-image-style-alignment="center" height="571" width="544" class="img-thumbnail"]]
2055 +[[image:12.PLC Protocol_html_7e9f9b25eb6ae8ce.png||data-xwiki-image-style-alignment="center" height="446" width="600" class="img-thumbnail"]]
2019 2019  
2057 +(% class="table-bordered" %)
2058 +|**No.**|(% style="width:207px" %)**Item**|(% style="width:829px" %)**Description**
2059 +|1|(% style="width:207px" %)Current address|(% style="width:829px" %)Displays the register type and register address set by the user in the data access interface
2060 +|(% rowspan="3" %)2|(% rowspan="3" style="width:207px" %)Trigger|(% style="width:829px" %)Two operations, "read" and "write," are based on on-screen registers
2061 +|(% style="width:829px" %)If "read" is selected, the register address is reading device data in a manner of sending frames set by the user in a loop.
2062 +|(% style="width:829px" %)If "write" is selected, the screen data of the register address will be written into the device. The writing mode is that the user makes a write operation on the screen, which will trigger the sending of a frame set by the user.
2063 +|(% rowspan="5" %)3|(% rowspan="3" style="width:207px" %)Data operation|(% style="width:829px" %)The read and write operations in the trigger conditions are set accordingly.
2064 +|(% style="width:829px" %)If the trigger condition is a read operation, this section needs to set the position and length of the data to be obtained at the current address in the frame.
2065 +|(% style="width:829px" %)If the trigger condition is a writing operation, there are two situations:(((
2066 +* If the "add writing data to the frame" option is not selected, the frame set by the user will be sent directly when the user writes on the screen.
2067 +* Select the "add the written data to the frame" option, and when the user writes on the screen, the program will insert the data in the frame set by the user and send the written data to the frame set by the user according to the data insertion position and length set by the user.
2068 +)))
2069 +|(% rowspan="2" style="width:207px" %)Position and length input format|(% style="width:829px" %)If the register type is a bit address, the decimal point is required to represent the bits in the byte. For example, 1.1 represents the first bit of the first byte of 8 bytes in the data frame, and the length is in bits, and so on.
2070 +|(% style="width:829px" %)If the register type is word address, the integer only needs to represent the byte, such as 1, which represents the first byte of 8-byte data in the data frame, and the unit of length is byte, and so on.
2071 +|4|(% style="width:207px" %)Add|(% style="width:829px" %)Add current configuration
2072 +|5|(% style="width:207px" %)Close|(% style="width:829px" %)Close the configuration window to exit
2020 2020  
2021 -(% style="text-align:center" %)
2022 -[[image:12.PLC Protocol_html_de80207f2b495c17.png||data-xwiki-image-style-alignment="center" height="462" width="600" class="img-thumbnail"]]
2074 +**Multiple Packages Settings**
2023 2023  
2024 -
2025 2025  (% style="text-align:center" %)
2026 -[[image:12.PLC Protocol_html_4e9e8eff81c7ff8b.png||data-xwiki-image-style-alignment="center" height="462" width="600" class="img-thumbnail"]]
2077 +[[image:12.PLC Protocol_html_107e0f6b1a90afff.png||data-xwiki-image-style-alignment="center" height="341" width="600" class="img-thumbnail"]]
2027 2027  
2028 -**HMI Settings**
2079 +Check [Multiple packages supported] to open [Multiple package data] window, as below show.
2029 2029  
2030 -(% class="table-bordered" %)
2031 -|**Items**|**Settings**|**Note**
2032 -|Protocol|MODBUS RTU Slave (All function)/( All function OneBaseAddress)|
2033 -|Connection|RS485/RS232|
2034 -|Baud rate|2400~~187500|
2035 -|Data bit|8|
2036 -|Parity|Even/ Odd/ None|
2037 -|Stop bit|1/2|
2038 -|PLC station No.|0~~255|
2081 +Select Multiple package type
2039 2039  
2040 -**Address List**
2083 +* Not Multiple packages
2084 +* J1939 Multiple packages
2085 +* Customized Multiple packages
2041 2041  
2042 -(% class="table-bordered" %)
2043 -|**Type**|**Address Type**|**Function code & Description**
2044 -|(% rowspan="11" %)Word|(% rowspan="3" %)3|04 (read input register: read current binary value in one or more input registers)
2045 -|06 (write single register: write a binary value to a holding register)
2046 -|10 (write values to multiple addresses )
2047 -|(% rowspan="3" %)4|03 (read holding register: read current binary value in one or more holding registers)
2048 -|06 (write single register: write a binary value to a holding register)
2049 -|10 (write values to multiple addresses )
2050 -|(% rowspan="3" %)W6|03 (read holding register: read current binary value in one or more holding registers)
2051 -|06 (write single register: write a binary value to a holding register)
2052 -|10 (write values to multiple addresses )
2053 -|(% rowspan="2" %)W16|03 (read holding register: read current binary value in one or more holding registers)
2054 -|10 (write values to multiple addresses )
2055 -|(% rowspan="11" %)Bit|(% rowspan="3" %)0|01 (Read coil state)
2056 -|05 (Force a single coil to force the on/off state of a logic coil)
2057 -|0F (Write multiple bits, ie write continuously)
2058 -|(% rowspan="3" %)1|02 (Read the input state)
2059 -|05 (Force a single coil to force the on/off state of a logic coil)
2060 -|0F (Write multiple bits)
2061 -|(% rowspan="3" %)W5|01 (Read coil state to obtain the current state of a set of logic coils)
2062 -|05 (Force a single coil to force the on/off state of a logic coil)
2063 -|0F (Write multiple bits)
2064 -|(% rowspan="2" %)W15|01 (Read coil state to obtain the current state of a set of logic coils)
2065 -|0F (Write multiple bits)
2087 +Click [Edit Receive data] for [Receive] settings
2066 2066  
2067 -**✎Note:**
2089 +* Start code+ Total length (J1939)
2068 2068  
2069 -* Modbus can also support getting bit from the word, which could access the address such as 100.1 and other formats.
2070 -* The function codes sent out are the same as those that read and write words.
2091 +(% style="text-align:center" %)
2092 +[[image:12.PLC Protocol_html_3c360c6b5aca51bf.png||data-xwiki-image-style-alignment="center" height="340" width="426" class="img-thumbnail"]]
2071 2071  
2072 -**Station number for more than one slaves**
2094 +As set above set, J1939 command is received by the HMI, only when its length is 25 bytes, and the start code is 0x57, 0x1B;
2073 2073  
2074 -If there are more than one slaves connected to HMI, please set slave station number during editing address, as below shows.
2096 +* Start code + Data max length (J1939)
2075 2075  
2076 2076  (% style="text-align:center" %)
2077 -[[image:12.PLC Protocol_html_31f028c6d80be344.png||data-xwiki-image-style-alignment="center" height="515" width="485" class="img-thumbnail"]]
2099 +[[image:12.PLC Protocol_html_74496b2a68cfcdde.png||data-xwiki-image-style-alignment="center" height="340" width="426" class="img-thumbnail"]]
2078 2078  
2079 -**Cable Wiring**
2101 +As set above set, J1939 command is received by the HMI, only when its length less than 50 bytes, and the start code is 0x57, 0x1B;
2080 2080  
2081 -* **RS485**
2103 +* Data max length (J1939)
2082 2082  
2083 2083  (% style="text-align:center" %)
2084 -[[image:12.PLC Protocol_html_68dfb6d383f0edd9.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
2106 +[[image:12.PLC Protocol_html_98cea3e7cbd8f05d.png||data-xwiki-image-style-alignment="center" height="340" width="426" class="img-thumbnail"]]
2085 2085  
2086 -(% style="text-align:center" %)
2087 -[[image:12.PLC Protocol_html_cbeb90cb4faaa8bc.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
2108 +As set above set, J1939 command is received by the HMI, only when its length less than 50 bytes.
2088 2088  
2089 -* **RS232**
2110 +* Customized multiple package
2090 2090  
2091 2091  (% style="text-align:center" %)
2092 -[[image:12.PLC Protocol_html_9030ba679545793b.png||data-xwiki-image-style-alignment="center" height="241" width="387" class="img-thumbnail"]]
2113 +[[image:12.PLC Protocol_html_4635bbe4d7999db0.png||data-xwiki-image-style-alignment="center" height="395" width="367" class="img-thumbnail"]]
2093 2093  
2094 -**✎Note:** COM3 only available in PI8000/PI9000 series.
2115 +As set above, It is received by the HMI, when the first frame starts with 0X57 0X1B, and the sum of the data lengths of multiple frames is equal to 79 bytes.
2095 2095  
2096 -== **MODBUS TCP Slave (All function)** ==
2117 +Click [Edit Send data] for [Send] setting
2097 2097  
2098 -Supported series: MODBUS TCP controller
2119 +* J1939
2099 2099  
2100 -HMI works as MODBUS TCP MASTER connecting with TCP SLAVE
2101 -
2102 2102  (% style="text-align:center" %)
2103 -[[image:12.PLC Protocol_html_8877cb7f39c2b607.png||data-xwiki-image-style-alignment="center" height="571" width="544" class="img-thumbnail"]]
2122 +[[image:12.PLC Protocol_html_a4769e44331ca732.png||data-xwiki-image-style-alignment="center" height="280" width="463" class="img-thumbnail"]]
2104 2104  
2105 -(% style="text-align:center" %)
2106 -[[image:12.PLC Protocol_html_e7e1f06f127a9175.png||data-xwiki-image-style-alignment="center" height="426" width="553" class="img-thumbnail"]]
2124 +[Data] is all data to be sent.
2107 2107  
2126 +Since the frame of the J1939 frame contains the number of the data packet, so the data sent is: the first byte (number) + 7 bytes of data. If it is less than 7 bytes, it is sent in the actual number of bytes.
2108 2108  
2109 -(% style="text-align:center" %)
2110 -[[image:12.PLC Protocol_html_60bbfe5de79417a6.png||data-xwiki-image-style-alignment="center" height="163" width="553" class="img-thumbnail"]]
2128 +* Customized multiple package
2111 2111  
2112 -**HMI Setting**
2113 -
2114 -(% class="table-bordered" %)
2115 -|**Items**|**Settings**|**Note**
2116 -|Protocol|MODBUS TCP Slave (All function)|
2117 -|Connection|Ethernet|
2118 -|Port No.|502|
2119 -|PLC station No.|1|
2120 -
2121 -**Address List**
2122 -
2123 -(% class="table-bordered" %)
2124 -|**Type**|**Register**|**Function code & Description**
2125 -|(% rowspan="11" %)Word|(% rowspan="3" %)3|04 (read input register: read current binary value in one or more input registers)
2126 -|06 (write single register: write a binary value to a holding register)
2127 -|10 (write values to multiple addresses )
2128 -|(% rowspan="3" %)4|03 (read holding register: read current binary value in one or more holding registers)
2129 -|06 (write single register: write a binary value to a holding register)
2130 -|10 (write values to multiple addresses )
2131 -|(% rowspan="3" %)W6|03 (read holding register: read current binary value in one or more holding registers)
2132 -|06 (write single register: write a binary value to a holding register)
2133 -|10 (write values to multiple addresses )
2134 -|(% rowspan="2" %)W16|03 (read holding register: read current binary value in one or more holding registers)
2135 -|10 (write values to multiple addresses )
2136 -|(% rowspan="11" %)Bit|(% rowspan="3" %)0|01 (Read coil state)
2137 -|05 (Force a single coil to force the on/off state of a logic coil)
2138 -|0F (Write multiple bits, ie write continuously)
2139 -|(% rowspan="3" %)1|02 (Read the input state)
2140 -|05 (Force a single coil to force the on/off state of a logic coil)
2141 -|0F (Write multiple bits)
2142 -|(% rowspan="3" %)W5|01 (Read coil state to obtain the current state of a set of logic coils)
2143 -|05 (Force a single coil to force the on/off state of a logic coil)
2144 -|0F (Write multiple bits)
2145 -|(% rowspan="2" %)W15|01 (Read coil state to obtain the current state of a set of logic coils)
2146 -|0F (Write multiple bits)
2147 -
2148 -**Communication Settings**
2149 -
2150 -Enable HMI Ethernet in [Project Settings];
2151 -
2152 2152  (% style="text-align:center" %)
2153 -[[image:12.PLC Protocol_html_43b671f18153910d.png||data-xwiki-image-style-alignment="center" height="107" width="405" class="img-thumbnail"]]
2131 +[[image:12.PLC Protocol_html_78546f765d6f3deb.png||data-xwiki-image-style-alignment="center" height="280" width="463"]]
2154 2154  
2155 -Set PLC IP in [Device IP] settings;
2133 +[Data] is all data to be sent.
2156 2156  
2157 -(% style="text-align:center" %)
2158 -[[image:12.PLC Protocol_html_4bd3cc8348adecf8.png||data-xwiki-image-style-alignment="center" height="190" width="554" class="img-thumbnail"]]
2135 +As set above, fist frame length is 2 bytes, and others are sent with 6 bytes for every frame, if the last frame is less than 6 bytes, send according to the actual length.
2159 2159  
2160 2160  **Cable Wiring**
2161 2161  
2162 2162  (% style="text-align:center" %)
2163 -[[image:12.PLC Protocol_html_2297240b57346b2a.png||data-xwiki-image-style-alignment="center" height="170" width="401" class="img-thumbnail"]]
2140 +[[image:12.PLC Protocol_html_fccede84efcbdc22.png||data-xwiki-image-style-alignment="center" height="111" width="391" class="img-thumbnail"]]
2164 2164  
2142 +**✎Note:** The address interval between each frame need to be more than a word address;
2143 +
2165 2165  = **SHIMADEN** =
2166 2166  
2167 2167  == **FP23** ==
... ... @@ -2961,168 +2961,3 @@
2961 2961  **Cable Wiring**
2962 2962  
2963 2963  [[image:https://docs.we-con.com.cn/bin/download/PIStudio/12.PLC%20protocols/WebHome/12.PLC%20Protocol_html_2297240b57346b2a.png?width=401&height=170&rev=1.1||alt="12.可编程逻辑控制器Protocol_html_2297240b57346b2a.png" height="170" width="401"]]
2964 -
2965 -
2966 -= **OpenCAN** =
2967 -
2968 -OpenCan is based on CAN2.0 standard; OpenCAN protocols that could be configured autonomously to accept and send frames.
2969 -
2970 -This protocol is only available in PI8000 series HMI.
2971 -
2972 -**HMI Settings**
2973 -
2974 -|**Items**|**Settings**|**Note**
2975 -|Protocol|OPENCAN|
2976 -|Connection|CAN port|
2977 -|Baud rate|250000|
2978 -
2979 -**CAN frame setting in HMI**
2980 -
2981 -Click [OpenCAN setting] button in communication setting window;
2982 -
2983 -(% style="text-align:center" %)
2984 -[[image:12.PLC Protocol_html_e866b9e56e19785d.png||data-xwiki-image-style-alignment="center" height="503" width="600" class="img-thumbnail"]]
2985 -
2986 -Click [Add] to create a new frame;
2987 -
2988 -(% style="text-align:center" %)
2989 -[[image:12.PLC Protocol_html_3a6f4e2141763c8f.png||data-xwiki-image-style-alignment="center" height="315" width="600" class="img-thumbnail"]]
2990 -
2991 -|**No**|**Items**|**Description**
2992 -|1|Add|add a frame related to register address
2993 -|2|Insert|Select the position where you want to insert a frame, and click [Insert frame] to add a new frame in front of the current frame position
2994 -|3|Frame manager|This list shows some of the main parameters for each frame that the user adds
2995 -|4|Modify|Modify the frames in frame management
2996 -|5|Copy|Copy one frame to another
2997 -|6|Delete|Remove the selected frames from the list by modifying the frames in frame management. If no frames are selected in the list, the first frame is deleted.
2998 -|7|Empty|All frames in the list are cleared
2999 -|8|Browse|Displays configuration files in XML format in IE
3000 -|9|OK|Complete the configuration of the frame and exit
3001 -
3002 -Set CANBUS frame in setting windows
3003 -
3004 -(% style="text-align:center" %)
3005 -[[image:12.PLC Protocol_html_7c83130820321ef.png||data-xwiki-image-style-alignment="center" height="507" width="600" class="img-thumbnail"]]
3006 -
3007 -|**No**|**Items**|**Description**
3008 -|1|ID|Set the ID of a can frame in hexadecimal format;
3009 -|2|ID assign|split the ID by PF, PS, and SA;
3010 -|3|Frame type|Select Standard frame or Extended Frame;
3011 -|4|Frame format|Select between data frame and remote Frame;
3012 -|5|Data|Set the data part of CAN frame, with two Numbers representing a hexadecimal number and Spaces spaced; Maximum support of 8 bytes is defined according to CAN message;
3013 -|6|Use address|(((
3014 -Set the register address related to the CAN frame, which corresponds to the register address set on the main state one by one. The data obtained from the address is assigned continuously;
3015 -
3016 -**Edit:** Set a bit or word address by its format;
3017 -
3018 -**Option: **Set address options related to frame, enter “register address option” interface, specifically browse the following “register address option” interface;
3019 -)))
3020 -|(% rowspan="8" %)7|(% rowspan="8" %)Data interactive configuration|There are two interactive modes of the touch screen. One is that the touch screen actively sends frames, and the device receives and processes and feeds back. The other, on the contrary, passively receives frames from the device for processing and feedback;
3021 -|Send after receiving: if this item is selected, the interaction of the touch screen will act as a passive party, and the touch screen will receive the CAN frame first and send feedback. Unchecked items interact in the opposite way;
3022 -|Feedback mode: feedback mode includes no response, confirm response and data response;
3023 -|No response: the device or touch screen will not receive feedback;
3024 -|Confirm response: the device or the touch screen will receive feedback with confirmation, which could be used to compare the data parts. If this function is used, the 20 addresses before and after this address should not be used. All addresses of cata10-cata30 could not be used with the reply confirmation function of cata20;
3025 -|Data response: the device or touch screen will receive feedback with data, and the data to be separated from the feedback frame should be set to store in the register address;
3026 -|response ID: if the address wants to receive data on a frame with a different ID, set this, check "different from sender", and enter a different ID in the following input box. Without this setting, the screen will receive and process a frame with the same ID as the sender;
3027 -|Response timeout: sets whether the response frame timeout;
3028 -|(% rowspan="3" %)8|(% rowspan="3" %)Control address|If ticked, enable sending when the value of the corresponding control bit number (address) is non-0.
3029 -|Control bit: CtrlBit register range 0~~255, if the control bit is ON, can instruction will run normally. Otherwise, it doesn't run;
3030 -|Manually send: a manually send tick indicates only one send;
3031 -|9|Flag configuration|Communication control for each frame. Display OFF when communication is normal, and ON when communication is abnormal;
3032 -|10|Note|Fill the text to explain the meaning of the frame;
3033 -|11|Data assign|Preview the display in this table based on the address and the corresponding number of digits;
3034 -|12|Current operation display|Display the description of current operation;
3035 -|13|Add|Add a new frame;
3036 -|14|Save frame|Save the configured frame format;
3037 -|15|Cancel|Cancel the frame configuration;
3038 -
3039 -Set CAN address (Read or write operation);
3040 -
3041 -(% style="text-align:center" %)
3042 -[[image:12.PLC Protocol_html_7e9f9b25eb6ae8ce.png||data-xwiki-image-style-alignment="center" height="446" width="600" class="img-thumbnail"]]
3043 -
3044 -|**No.**|**Item**|**Description**
3045 -|1|Current address|Displays the register type and register address set by the user in the data access interface
3046 -|(% rowspan="3" %)2|(% rowspan="3" %)Trigger|Two operations, "read" and "write," are based on on-screen registers
3047 -|If "read" is selected, the register address is reading device data in a manner of sending frames set by the user in a loop.
3048 -|If "write" is selected, the screen data of the register address will be written into the device. The writing mode is that the user makes a write operation on the screen, which will trigger the sending of a frame set by the user.
3049 -|(% rowspan="5" %)3|(% rowspan="3" %)Data operation|The read and write operations in the trigger conditions are set accordingly.
3050 -|If the trigger condition is a read operation, this section needs to set the position and length of the data to be obtained at the current address in the frame.
3051 -|If the trigger condition is a writing operation, there are two situations:(((
3052 -* If the "add writing data to the frame" option is not selected, the frame set by the user will be sent directly when the user writes on the screen.
3053 -* Select the "add the written data to the frame" option, and when the user writes on the screen, the program will insert the data in the frame set by the user and send the written data to the frame set by the user according to the data insertion position and length set by the user.
3054 -)))
3055 -|(% rowspan="2" %)Position and length input format|If the register type is a bit address, the decimal point is required to represent the bits in the byte. For example, 1.1 represents the first bit of the first byte of 8 bytes in the data frame, and the length is in bits, and so on.
3056 -|If the register type is word address, the integer only needs to represent the byte, such as 1, which represents the first byte of 8-byte data in the data frame, and the unit of length is byte, and so on.
3057 -|4|Add|Add current configuration
3058 -|5|Close|Close the configuration window to exit
3059 -
3060 -**Multiple Packages Settings**
3061 -
3062 -(% style="text-align:center" %)
3063 -[[image:12.PLC Protocol_html_107e0f6b1a90afff.png||data-xwiki-image-style-alignment="center" height="341" width="600" class="img-thumbnail"]]
3064 -
3065 -Check [Multiple packages supported] to open [Multiple package data] window, as below show.
3066 -
3067 -Select Multiple package type
3068 -
3069 -* Not Multiple packages
3070 -* J1939 Multiple packages
3071 -* Customized Multiple packages
3072 -
3073 -Click [Edit Receive data] for [Receive] settings
3074 -
3075 -* Start code+ Total length (J1939)
3076 -
3077 -(% style="text-align:center" %)
3078 -[[image:12.PLC Protocol_html_3c360c6b5aca51bf.png||data-xwiki-image-style-alignment="center" height="340" width="426" class="img-thumbnail"]]
3079 -
3080 -As set above set, J1939 command is received by the HMI, only when its length is 25 bytes, and the start code is 0x57, 0x1B;
3081 -
3082 -* Start code + Data max length (J1939)
3083 -
3084 -(% style="text-align:center" %)
3085 -[[image:12.PLC Protocol_html_74496b2a68cfcdde.png||data-xwiki-image-style-alignment="center" height="340" width="426" class="img-thumbnail"]]
3086 -
3087 -As set above set, J1939 command is received by the HMI, only when its length less than 50 bytes, and the start code is 0x57, 0x1B;
3088 -
3089 -* Data max length (J1939)
3090 -
3091 -(% style="text-align:center" %)
3092 -[[image:12.PLC Protocol_html_98cea3e7cbd8f05d.png||data-xwiki-image-style-alignment="center" height="340" width="426" class="img-thumbnail"]]
3093 -
3094 -As set above set, J1939 command is received by the HMI, only when its length less than 50 bytes.
3095 -
3096 -* Customized multiple package
3097 -
3098 -(% style="text-align:center" %)
3099 -[[image:12.PLC Protocol_html_4635bbe4d7999db0.png||data-xwiki-image-style-alignment="center" height="395" width="367" class="img-thumbnail"]]
3100 -
3101 -As set above, It is received by the HMI, when the first frame starts with 0X57 0X1B, and the sum of the data lengths of multiple frames is equal to 79 bytes.
3102 -
3103 -Click [Edit Send data] for [Send] setting
3104 -
3105 -* J1939
3106 -
3107 -(% style="text-align:center" %)
3108 -[[image:12.PLC Protocol_html_a4769e44331ca732.png||data-xwiki-image-style-alignment="center" height="280" width="463" class="img-thumbnail"]]
3109 -
3110 -[Data] is all data to be sent.
3111 -
3112 -Since the frame of the J1939 frame contains the number of the data packet, so the data sent is: the first byte (number) + 7 bytes of data. If it is less than 7 bytes, it is sent in the actual number of bytes.
3113 -
3114 -* Customized multiple package
3115 -
3116 -(% style="text-align:center" %)
3117 -[[image:12.PLC Protocol_html_78546f765d6f3deb.png||data-xwiki-image-style-alignment="center" height="280" width="463"]]
3118 -
3119 -[Data] is all data to be sent.
3120 -
3121 -As set above, fist frame length is 2 bytes, and others are sent with 6 bytes for every frame, if the last frame is less than 6 bytes, send according to the actual length.
3122 -
3123 -**Cable Wiring**
3124 -
3125 -(% style="text-align:center" %)
3126 -[[image:12.PLC Protocol_html_fccede84efcbdc22.png||data-xwiki-image-style-alignment="center" height="111" width="391" class="img-thumbnail"]]
3127 -
3128 -**✎Note:** The address interval between each frame need to be more than a word address;
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