Changes for page 12 PLC Protocol OLD

Last modified by Mora Zhou on 2024/12/05 14:53

From 8.1 to 8.2 From 9.1 to 10.1

From version 8.2

edited by Leo Wei
on 2022/07/29 15:04

Change comment: Update document after refactoring.

To version 9.1

edited by Stone Wu
on 2022/08/05 11:45

Change comment: There is no comment for this version

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@@ -1,1 +1,1 @@
--XWiki.admin
++XWiki.Stone

Content

@@ -29,32 +29,26 @@
  (% style="text-align:center" %)
  [[image:Communication Timout settings.png||data-xwiki-image-style-alignment="center" class="img-thumbnail"]]
--Wait Timeout(ms): The time HMI waits for a response from the PLC.
++* Wait Timeout(ms): The time HMI waits for a response from the PLC.
++* Receive Timeout(ms): The longest waiting interval between the HMI receiving two characters.
++* Retry Count: The number of retries when there is no response in the communication between HMI and PLC.
++* Retry Timeout(s): The PLC will not be accessed during the Retry Timeout period when there is no response in the communication between HMI and PLC.
++* Delay Time(ms): The speed at which the HMI communicates with the device.
++* Continuous Length: Default value 0 means the maximum length specified by each protocol. Addresses dealt by Maximum Span settings, its read length for single time, if the Continouous Length is 1, which means it will read/write the every register one by one. If the length of Maximum Span is greater than or equal to the Continuous Length, the continuous read/write will be performed in groups according to Continuous Length.
++* Maximum Span:  Set the interval for reading PLC addresses. If there exists two same register type addresses, their interval is less than the set value of Maximum Span, then they will be integrated into a continuous address, otherwise it will be divide into two independent addresses.
--Receive Timeout(ms): The longest waiting interval between the HMI receiving two characters.
--
--Retry Count: The number of retries when there is no response in the communication between HMI and PLC.
--
--Retry Timeout(s): The PLC will not be accessed during the Retry Timeout period when there is no response in the communication between HMI and PLC.
--
--Delay Time(ms): The speed at which the HMI communicates with the device.
--
--Continuous Length: Default value 0 means the maximum length specified by each protocol. Addresses dealt by Maximum Span settings, its read length for single time, if the Continouous Length is 1, which means it will read/write the every register one by one. If the length of Maximum Span is greater than or equal to the Continuous Length, the continuous read/write will be performed in groups according to Continuous Length.
--
--Maximum Span:  Set the interval for reading PLC addresses. If there exists two same register type addresses, their interval is less than the set value of Maximum Span, then they will be integrated into a continuous address, otherwise it will be divide into two independent addresses.
--
  **Operating Procedure**
--1) After creating the [Quick_Start] project,select the [Project]->[Communication].
++After creating the [Quick_Start] project,select the [Project]->[Communication].
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_39c0d342e4b1dd27.png||data-xwiki-image-style-alignment="center" height="128" width="294" class="img-thumbnail"]]
--2) Click “Setting” to open protocol setting windows.
++Click “Setting” to open protocol setting windows.
  (% id="cke_bm_5533S" style="display:none" %) [[image:12.PLC Protocol_html_7b55815442c5544a.png||height="450" width="537"]]
--3) Select communication protocol, users could select serial port, Ethernet port, CAN port or USB.
++Select communication protocol, users could select serial port, Ethernet port, CAN port or USB.
  * Serial port:
@@ -75,7 +75,7 @@
  (% id="cke_bm_5554S" style="display:none" %) [[image:12.PLC Protocol_html_a3105a98b48fb9b7.png||height="242" width="500"]]
--4) About parameters for communication, PLC default communication parameters have been written to PIStudio, the user can adjust them according to the actual situation.
++About parameters for communication, PLC default communication parameters have been written to PIStudio, the user can adjust them according to the actual situation.
  * Serial port:
@@ -89,7 +89,7 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_eebfc6b1337ea860.png||data-xwiki-image-style-alignment="center" height="207" width="600" class="img-thumbnail"]]
--5) Click [OK] button to save settings and close the dialog;
++Click [OK] button to save settings and close the dialog;
  = **Allen-Bradley** =
@@ -107,19 +107,19 @@
  **PLC Setting**
--1) Create new tags
++Create new tags
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_a748a27dcf7f1124.png||data-xwiki-image-style-alignment="center" height="411" width="700" class="img-thumbnail"]]
--2) Export tags to CSV file. ([Tools] » [Export] » [Tags and Logic Comments])
++Export tags to CSV file. ([Tools] » [Export] » [Tags and Logic Comments])
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_151379170bb8ff3e.png||data-xwiki-image-style-alignment="center" height="352" width="700" class="img-thumbnail"]]
--3) Import labels, please open [Communication] window and click [Import label];
++Import labels, please open [Communication] window and click [Import label];
--4) Select csv file, all tags will be displayed as belows;
++Select csv file, all tags will be displayed as belows;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_af192e54dee96f38.png||data-xwiki-image-style-alignment="center" height="586" width="700" class="img-thumbnail"]]
@@ -135,12 +135,12 @@
  **Communication settings in HMI**
--1) Enable HMI Ethernet in [Project Settings];
++Enable HMI Ethernet in [Project Settings];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_43b671f18153910d.png||data-xwiki-image-style-alignment="center" height="106" width="400" class="img-thumbnail"]]
--2) Set PLC IP in [Device IP] settings;
++Set PLC IP in [Device IP] settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_27870d373581892e.png||data-xwiki-image-style-alignment="center" height="206" width="600" class="img-thumbnail"]]
@@ -194,17 +194,13 @@
  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.
--**Bit address I:** The address ranges from 0.0 to 255.15. The value of the data before the decimal point ranges from 0 to 255 (decimal). The value from 0 to 15 after the decimal point is the sub address (decimal).
++* **Bit address I:** The address ranges from 0.0 to 255.15. The value of the data before the decimal point ranges from 0 to 255 (decimal). The value from 0 to 15 after the decimal point is the sub address (decimal).
++* **Bit address B:** The address ranges from 000.0 to fff.15. The first f from left to right represents the block number (hexadecimal); The second and third f from left to right represent the word address (hexadecimal). The value 0 to 15 after the decimal point reprensents the sub address (decimal).
++* **Word address S:** The word address ranges from 0 to 255 (decimal).
++* **Word address TS:** The address ranges from 000.0 to ffff. The first and second f from left to right represents the block number (hexadecimal); The third and fourth f from left to right represent the word address (hexadecimal).
--**Bit address B:** The address ranges from 000.0 to fff.15. The first f from left to right represents the block number (hexadecimal); The second and third f from left to right represent the word address (hexadecimal). The value 0 to 15 after the decimal point reprensents the sub address (decimal).
--
--**Word address S:** The word address ranges from 0 to 255 (decimal).
--
--**Word address TS:** The address ranges from 000.0 to ffff. The first and second f from left to right represents the block number (hexadecimal); The third and fourth f from left to right represent the word address (hexadecimal).
--
  **✎Note: **Register address TP, CS, CP, N, F and TS address edit tare he same. D indicates decimal, and F indicates hexadecimal. Different PLC models may support different registers. See the following table.
--
  |(% style="width:393px" %)**PLC bit address type**|(% style="width:350px" %)**Address format**|(% style="width:333px" %)**Address range**
  |(% style="width:393px" %)I|(% style="width:350px" %)dd.dd|(% style="width:333px" %)I 0.0 ~~ 255.15
  |(% style="width:393px" %)O|(% style="width:350px" %)dd.dd|(% style="width:333px" %)O 0.0 ~~ 255.15
@@ -233,14 +233,14 @@
  **Operating Procedures**
--1) Select [Barcode Scanner];
++Select [Barcode Scanner];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_55a3056357320966.png||data-xwiki-image-style-alignment="center" height="266" width="600" class="img-thumbnail"]]
--2) Set address for receiving;
++Set address for receiving;
--3) Set correct length;
++Set correct length;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_30a4c9e9dd4db40b.png||data-xwiki-image-style-alignment="center" height="701" width="500" class="img-thumbnail"]]
@@ -247,12 +247,10 @@
  **✎Note:**
--1) The protocol uploads the information acquired by the USB scanner to the HMI;
++* The protocol uploads the information acquired by the USB scanner to the HMI;
++* The acquired information is displayed in string mode, so it is necessary to use [characters input/display] object;
++* Recommended model: DELI 14880 barcode scanner;
--2) The acquired information is displayed in string mode, so it is necessary to use [characters input/display] object;
--
--3) Recommended model: DELI 14880 barcode scanner;
--
  = **Hitachi EHV Series (Ethernet)** =
  Supported series: Hitachi EHV series
@@ -324,12 +324,12 @@
  **Communication settings in HMI**
--1) Enable HMI Ethernet in [Project Settings];
++Enable HMI Ethernet in [Project Settings];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_43b671f18153910d.png||data-xwiki-image-style-alignment="center" height="107" width="405" class="img-thumbnail"]]
--2) Set PLC IP in [Device IP] settings;
++Set PLC IP in [Device IP] settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_d825387f5bde6cdd.png||data-xwiki-image-style-alignment="center" height="190" width="554" class="img-thumbnail"]]
@@ -336,12 +336,12 @@
  **PLC Configuration**
--1) Connect with PLC, select[Online mode];
++Connect with PLC, select[Online mode];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_8430dda44e5c199c.png||data-xwiki-image-style-alignment="center" height="420" width="600" class="img-thumbnail"]]
--2) Set IP address, it is the same LAN parameters with HMI;
++Set IP address, it is the same LAN parameters with HMI;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_1d8a634f64e25fc3.png||data-xwiki-image-style-alignment="center" height="252" width="347" class="img-thumbnail"]]
@@ -350,22 +350,22 @@
  **PLC Monitor Mode**
--1) Connect with PLC and choose to “online” mode
++Connect with PLC and choose to “online” mode
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_cdac598e770e3b67.png||data-xwiki-image-style-alignment="center" height="193" width="553" class="img-thumbnail"]]
--2) Open I/O monitor sheet1
++Open I/O monitor sheet1
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_68eb3518e5f80892.png||data-xwiki-image-style-alignment="center" height="369" width="559" class="img-thumbnail"]]
--3) During monitoring bit address,1 pts should be selected; during monitoring word address, 16 pts should be selected
++During monitoring bit address,1 pts should be selected; during monitoring word address, 16 pts should be selected
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_774652d8daf548d4.png||data-xwiki-image-style-alignment="center" height="118" width="102" class="img-thumbnail"]]
--4) Enter the register address, click OK to view the value of the register.
++Enter the register address, click OK to view the value of the register.
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_bba169c300c92051.png||data-xwiki-image-style-alignment="center" height="404" width="600" class="img-thumbnail"]]
@@ -375,10 +375,9 @@
  **✎Note:**
--1) Both word registers and bit registers support even continuous read/write functions;
++* Both word registers and bit registers support even continuous read/write functions;
++* The range of registers is based on the specific PLC type;
--2) The range of registers is based on the specific PLC type;
--
  **Cable Wiring**
  (% style="text-align:center" %)
@@ -431,18 +431,18 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_23533fd5bb81f4ab.png||data-xwiki-image-style-alignment="center" height="389" width="600" class="img-thumbnail"]]
--1) Extended tag name
++Extended tag name
--2) Address range for the extended tag.
++Address range for the extended tag.
  **Communication Settings**
--1) Enable HMI Ethernet in [Project Settings];
++Enable HMI Ethernet in [Project Settings];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_43b671f18153910d.png||data-xwiki-image-style-alignment="center" height="107" width="405" class="img-thumbnail"]]
--2) Set PLC IP in [Device IP] settings;
++Set PLC IP in [Device IP] settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_f848736ec68b125.png||data-xwiki-image-style-alignment="center" height="191" width="554" class="img-thumbnail"]]
@@ -485,20 +485,18 @@
  **✎Note:**
--1) In addition to the "UxDD" register, the others correspond to the PLC register one by one. UxDD corresponds to U in the PLC;
++* In addition to the "UxDD" register, the others correspond to the PLC register one by one. UxDD corresponds to U in the PLC;
++* The [UxDD] register, defined in the PLC is Ux.dd, x represents the block, and dd represents 0-31 of each block. There are 64 blocks in the PLC;
++* All bit registers are in the form of bits in word, and the range is the same as the word register;
--2) The [UxDD] register, defined in the PLC is Ux.dd, x represents the block, and dd represents 0-31 of each block. There are 64 blocks in the PLC;
--
--3) All bit registers are in the form of bits in word, and the range is the same as the word register;
--
  **Communication settings in HMI**
--1) Enable HMI Ethernet in [Project Settings];
++Enable HMI Ethernet in [Project Settings];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_43b671f18153910d.png||data-xwiki-image-style-alignment="center" height="107" width="405" class="img-thumbnail"]]
--2) Set PLC IP in [Device IP] settings;
++Set PLC IP in [Device IP] settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_a2a19b5003ad4090.png||data-xwiki-image-style-alignment="center" height="189" width="554" class="img-thumbnail"]]
@@ -545,7 +545,7 @@
  **Cable Wiring**
--**1) RS485**
++* **RS485**
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_d4012bdeb4ce4aae.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
@@ -553,15 +553,13 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_4bf57ad8d44eacc4.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
--**2)RS422**
++* **RS422**
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_f8a6bebc5792960d.png||data-xwiki-image-style-alignment="center" height="253" width="402" class="img-thumbnail"]]
--**✎Note:**
++**✎Note:** COM3 only available in PI8000/PI9000 series.
--COM3 only available in PI8000/PI9000 series.
--
  == **FX5U Ethernet** ==
  Mitsubishi FX5U series PLC
@@ -606,32 +606,32 @@
  **PLC Settings (GX Works 3)**
--1) Find the [Ethernet port] in the navigation area.
++Find the [Ethernet port] in the navigation area.
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_8e8f85ace087346c.png||data-xwiki-image-style-alignment="center" height="593" width="300" class="img-thumbnail"]]
--2) Select [Own Node Settings] in the [Setting Item List];
++Select [Own Node Settings] in the [Setting Item List];
--3) Set [IP Address], [Subnet Mask], [Default Gateway];
++Set [IP Address], [Subnet Mask], [Default Gateway];
--4) Click [Detailed Settings] into [Ethernet Configuration (Built-in Ethernet Port)] windows;
++Click [Detailed Settings] into [Ethernet Configuration (Built-in Ethernet Port)] windows;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_5d98495052c8c10e.png||data-xwiki-image-style-alignment="center" height="339" width="600" class="img-thumbnail"]]
--5) Select [SLMP Connection Module] and add into host station as below picture shows;
++Select [SLMP Connection Module] and add into host station as below picture shows;
--6) Set Port number as 5002 (this is necessary settings);
++Set Port number as 5002 (this is necessary settings);
--7) Click [Close with Reflecting the Setting] to save and close window;
++Click [Close with Reflecting the Setting] to save and close window;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_14b489fdc6c6589d.png||data-xwiki-image-style-alignment="center" height="350" width="600" class="img-thumbnail"]]
--8) Click [Apply] to completed Etherenet settings;
++Click [Apply] to completed Etherenet settings;
--9) Switch to the [On line data operation] interface as below, check the item and click [Execute] to download.
++Switch to the [On line data operation] interface as below, check the item and click [Execute] to download.
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_c93025a968a8a9e7.png||data-xwiki-image-style-alignment="center" height="434" width="600" class="img-thumbnail"]]
@@ -688,37 +688,37 @@
  **PLC Settings (GX Works 3)**
--1) Create a blank FX5U project
++Create a blank FX5U project
--2) Find the 485 serial port module in the system navigation bar and double click to enter the settings.
++Find the 485 serial port module in the system navigation bar and double click to enter the settings.
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_5c9cb13fac1e6c93.png||data-xwiki-image-style-alignment="center" height="462" width="200" class="img-thumbnail"]]
--3) Select protocol in the setting item, and set parameters.
++Select protocol in the setting item, and set parameters.
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_de942589ca070228.png||data-xwiki-image-style-alignment="center" height="324" width="600" class="img-thumbnail"]]
--4) Set station number, and [Message Pattern] (Pattern 1 or Pattern 4)
++Set station number, and [Message Pattern] (Pattern 1 or Pattern 4)
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_387ec7d00b5feb59.png||data-xwiki-image-style-alignment="center" height="323" width="600" class="img-thumbnail"]]
--5) Click the [Apply] button to finish the setting.
++Click the [Apply] button to finish the setting.
--6) Click download and select the items as below, then click [execute] to download the configuration to PLC.
++Click download and select the items as below, then click [execute] to download the configuration to PLC.
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_cdef1c5ec8cc2105.png||data-xwiki-image-style-alignment="center" height="434" width="600" class="img-thumbnail"]]
--7) As soon as download is completed, connect PLC with serial port, then configure it in the [Specify Connection Destination Connection].
++ As soon as download is completed, connect PLC with serial port, then configure it in the [Specify Connection Destination Connection].
--8) Done.
++Done.
  **Cable Wiring**
--**1) RS485**
++* **RS485**
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_d4012bdeb4ce4aae.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
@@ -726,15 +726,13 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_4bf57ad8d44eacc4.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
--**2) RS422**
++* **RS422**
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_f8a6bebc5792960d.png||data-xwiki-image-style-alignment="center" height="253" width="402" class="img-thumbnail"]]
--**✎Note:**
++**✎Note:** COM3 only available in PI8000/PI9000 series.
--COM3 only available in PI8000/PI9000 series.
--
  == **L02 MELSEC (Ethernet)** ==
  Mitsubishi Q series CPU built-in Ethernet port.
@@ -784,11 +784,11 @@
  **Communication Settings**
--1) Enable HMI Ethernet in [Project Settings];
++Enable HMI Ethernet in [Project Settings];
  (% id="cke_bm_7504S" style="display:none" %) [[image:12.PLC Protocol_html_43b671f18153910d.png||height="107" width="405"]]
--2) Set PLC IP in [Device IP] settings;
++Set PLC IP in [Device IP] settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_38189fae42f6caa7.png||data-xwiki-image-style-alignment="center" height="206" width="600" class="img-thumbnail"]]
@@ -795,25 +795,25 @@
  **PLC Settings (GX Works2 )**
--1) Create a project
++Create a project
--2) Set PLC IP, subnet mask and gateway;
++Set PLC IP, subnet mask and gateway;
--3) Select [Binary Code] as communication data code;
++Select [Binary Code] as communication data code;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_776e17505f3fc6c0.png||data-xwiki-image-style-alignment="center" height="524" width="600" class="img-thumbnail"]]
--4) Set PLC port number, for example 1025
++Set PLC port number, for example 1025
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_8d0d1a22d388f70b.png||data-xwiki-image-style-alignment="center" height="524" width="600" class="img-thumbnail"]]
--5) Save settings;
++Save settings;
--6) Download project into PLC device;
++Download project into PLC device;
--7) Restart PLC device;
++Restart PLC device;
  **Cable Wiring**
@@ -879,42 +879,22 @@
  **PLC Settings(GX Works2)**
--1) Click [Ethernet/CC IE/MELSECNET];
++* Click [Ethernet/CC IE/MELSECNET];
++* Please select [Ethernet] as network type;
++* Set station I/O number according to situation (For example, 0000 means that the module is connected to PLC CPU in first order);
++* Select [Online] as Mode;(% id="cke_bm_8449S" style="display:none" %) [[image:12.PLC Protocol_html_acd084d845da380e.png||height="300" width="554"]]
++* Click [Operation setting] to set IP;
++* Select [Binary Code] as [Communication Data Code];(% id="cke_bm_8474S" style="display:none" %) [[image:12.PLC Protocol_html_a972e671d2bb9150.png||height="304" width="553"]]
++* Set protocol: TCP;
++* Set [unpassive] in [Open system];
++* Set [receive] in [Fixed buffer];
++* Set [procedure Exist] in [Fixed buffer communication];
++* Disable [Pairing open];
++* Set [No confirm] in [Existence confirmation];
++* Host station port number: 1025;
++* (% id="cke_bm_8547S" style="display:none" %) [[image:12.PLC Protocol_html_f2c432006cdd2f9.png||height="220" width="553"]](%%)Save settings;
++* Download project into PLC and restart it
--2) Please select [Ethernet] as network type;
--
--3) Set station I/O number according to situation (For example, 0000 means that the module is connected to PLC CPU in first order);
--
--4) Select [Online] as Mode;
--
--(% id="cke_bm_8449S" style="display:none" %) [[image:12.PLC Protocol_html_acd084d845da380e.png||height="300" width="554"]]
--
--5) Click [Operation setting] to set IP;
--
--6) Select [Binary Code] as [Communication Data Code];
--
--(% id="cke_bm_8474S" style="display:none" %) [[image:12.PLC Protocol_html_a972e671d2bb9150.png||height="304" width="553"]]
--
--7) Set protocol: TCP;
--
--8) Set [unpassive] in [Open system];
--
--9) Set [receive] in [Fixed buffer];
--
--10) Set [procedure Exist] in [Fixed buffer communication];
--
--11) Disable [Pairing open];
--
--12) Set [No confirm] in [Existence confirmation];
--
--13) Host station port number: 1025;
--
--(% id="cke_bm_8547S" style="display:none" %) [[image:12.PLC Protocol_html_f2c432006cdd2f9.png||height="220" width="553"]]
--
--14) Save settings;
--
--15) Download project into PLC and restart it
--
  **Cable Wiring**
  (% style="text-align:center" %)
@@ -960,7 +960,7 @@
  **Cable Wiring**
--**1) RS485**
++* **RS485**
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_68dfb6d383f0edd9.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
@@ -968,17 +968,15 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_cbeb90cb4faaa8bc.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
--**2) RS232**
++* **RS232**
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_9030ba679545793b.png||data-xwiki-image-style-alignment="center" height="241" width="387" class="img-thumbnail"]]
--**✎Note:**
++**✎Note:** COM3 only available in PI8000/PI9000 series.
--COM3 only available in PI8000/PI9000 series.
++== **MODBUS RTU Slave (All function)/(All function OneBaseAddress)** ==
--== **{{id name="_Toc30118"/}}MODBUS RTU Slave (All function)/(All function OneBaseAddress)** ==
--
  Supported Series: MODBUS RTU CONTROLLER
  HMI works as MODBUS MASTER connecting with SLAVE.
@@ -1037,10 +1037,9 @@
  **✎Note:**
--Modbus can also support getting bit from the word, which could access the address such as 100.1 and other formats.
++* Modbus can also support getting bit from the word, which could access the address such as 100.1 and other formats.
++* The function codes sent out are the same as those that read and write words.
--The function codes sent out are the same as those that read and write words.
--
  **Station number for more than one slaves**
  If there are more than one slaves connected to HMI, please set slave station number during editing address, as below shows.
@@ -1050,7 +1050,7 @@
  **Cable Wiring**
--**1) RS485**
++* **RS485**
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_68dfb6d383f0edd9.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
@@ -1058,17 +1058,15 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_cbeb90cb4faaa8bc.png||data-xwiki-image-style-alignment="center" height="244" width="394" class="img-thumbnail"]]
--**2) RS232**
++* **RS232**
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_9030ba679545793b.png||data-xwiki-image-style-alignment="center" height="241" width="387" class="img-thumbnail"]]
--**✎Note:**
++**✎Note:** COM3 only available in PI8000/PI9000 series.
--COM3 only available in PI8000/PI9000 series.
++== **MODBUS TCP Slave (All function)** ==
--== **{{id name="_Toc16172"/}}MODBUS TCP Slave (All function)** ==
--
  Supported series: MODBUS TCP controller
  HMI works as MODBUS TCP MASTER connecting with TCP SLAVE
@@ -1121,12 +1121,12 @@
  **Communication Settings**
--1) Enable HMI Ethernet in [Project Settings];
++Enable HMI Ethernet in [Project Settings];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_43b671f18153910d.png||data-xwiki-image-style-alignment="center" height="107" width="405" class="img-thumbnail"]]
--2) Set PLC IP in [Device IP] settings;
++Set PLC IP in [Device IP] settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_4bd3cc8348adecf8.png||data-xwiki-image-style-alignment="center" height="190" width="554" class="img-thumbnail"]]
@@ -1167,7 +1167,7 @@
  **Device Settings**
--1) Omron E5CC PLC configuration
++Omron E5CC PLC configuration
  After entering the Communication Settings menu, please set the parameters to the default values for the following table. Press the cycle key of the instrument to enter the next setting.
@@ -1174,15 +1174,13 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_3d95e093792ba98a.png||data-xwiki-image-style-alignment="center" height="229" width="550" class="img-thumbnail"]]
--2) According to PLC configuration and communication port configuration information of the HMI, provide the corresponding steps and configuration screenshots. This configuration needs to communicate properly with the above PLC configuration. The project settings are as follows
++According to PLC configuration and communication port configuration information of the HMI, provide the corresponding steps and configuration screenshots. This configuration needs to communicate properly with the above PLC configuration. The project settings are as follows
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_be583aa69dd6cf4c.png||data-xwiki-image-style-alignment="center" height="242" width="550" class="img-thumbnail"]]
--**✎Note:**
++**✎Note:** The communication settings for HMI should be consistent with this setting.
--The communication settings for HMI should be consistent with this setting.
--
  **Cable Wiring**
  (% style="text-align:center" %)
@@ -1193,28 +1193,18 @@
  **✎Note:**
--1) COM3 only available in PI8000/PI9000 series.
++* COM3 only available in PI8000/PI9000 series.
++* CA address could not support continuous writing function；
++* Because of CP address intrinsic property: read control intrinsic property, so please place the character input part in use. Set address with CP0 and character length 10, used to display controller type. And place a number input part, set address with CP5 (cache size). Do not place other CP type address without CP0 in screen, otherwise CP type address is invalid
++* When set value into read & write address, it is necessary to switch the temperature instrument meter to the corresponding interface according to the menu of the instrument where the address locates, so that the value could be written, otherwise, the value could not be written; When the communication write setting of the instrument is turned off, the writing function is invalid. Writing function could be opened by using the 00 address of the CA register, which write 01 value.
++* When continuous writing of a value to a read-write address, please make sure all continuous writing address could be written. Otherwise, if one of these addresses could not be written, then all continuous writing commands will fail.
++* Because of the mechanism problem, this protocol could not support CompoWay/F function that is read-write function of variables in protocol document.
++* When using double-word address, set the data format to 32 bits, otherwise the read/write function is unable.
++* 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.
++* (% 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.
--2) CA address could not support continuous writing function；
++== EtherNet/IP NX series ==
--3) Because of CP address intrinsic property: read control intrinsic property, so please place the character input part in use. Set address with CP0 and character length 10, used to display controller type. And place a number input part, set address with CP5 (cache size). Do not place other CP type address without CP0 in screen, otherwise CP type address is invalid
--
--4) When set value into read & write address, it is necessary to switch the temperature instrument meter to the corresponding interface according to the menu of the instrument where the address locates, so that the value could be written, otherwise, the value could not be written; When the communication write setting of the instrument is turned off, the writing function is invalid. Writing function could be opened by using the 00 address of the CA register, which write 01 value.
--
--5) When continuous writing of a value to a read-write address, please make sure all continuous writing address could be written. Otherwise, if one of these addresses could not be written, then all continuous writing commands will fail.
--
--6) Because of the mechanism problem, this protocol could not support CompoWay/F function that is read-write function of variables in protocol document.
--
--7) When using double-word address, set the data format to 32 bits, otherwise the read/write function is unable.
--
--8) 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.
--
--(% id="cke_bm_8690S" style="display:none" %) [[image:12.PLC Protocol_html_d428cad280fdefb3.png||height="276" width="347"]]
--
--9) 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.
--
--== **{{id name="_Toc5393"/}}EtherNet/IP NX series** ==
--
  Supported series: Omron NX/NJ series
  **HMI Setting**
@@ -1237,24 +1237,24 @@
  **Export labels from Sysmac Studio**
--1) Launch Sysmac Studio, under Global Variables create the address labels, and thenselect [Tools] -> [Export Global Variables];
++Launch Sysmac Studio, under Global Variables create the address labels, and thenselect [Tools] -> [Export Global Variables];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_26f91dee66c723e9.png||data-xwiki-image-style-alignment="center" height="276" width="600" class="img-thumbnail"]]
--2) Launch PIStudio, in [Communication] Settings add Omron NX Ethernet/IP protocol;
++Launch PIStudio, in [Communication] Settings add Omron NX Ethernet/IP protocol;
--3) Click [Label manage];
++Click [Label manage];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_cd38d2d0c5187f6b.png||data-xwiki-image-style-alignment="center" height="276" width="600" class="img-thumbnail"]]
--4) Click [Import labels] and then select the file exported in step 1;
++Click [Import labels] and then select the file exported in step 1;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_52bd5da678bef9b4.png||data-xwiki-image-style-alignment="center" height="403" width="600" class="img-thumbnail"]]
--5) The Import Status field shows the result, click [OK] to finish importing address labels;
++The Import Status field shows the result, click [OK] to finish importing address labels;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_7f0465a589b98912.png||data-xwiki-image-style-alignment="center" height="291" width="600" class="img-thumbnail"]]
@@ -1261,12 +1261,12 @@
  **Communication Settings**
--1) Enable HMI Ethernet in [Project Settings];
++Enable HMI Ethernet in [Project Settings];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_43b671f18153910d.png||data-xwiki-image-style-alignment="center" height="107" width="405" class="img-thumbnail"]]
--2) Set PLC IP in [Device IP] settings;
++Set PLC IP in [Device IP] settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_437cb087b36b5784.png||data-xwiki-image-style-alignment="center" height="330" width="600" class="img-thumbnail"]]
@@ -1296,12 +1296,12 @@
  **CAN frame setting in HMI**
--1) Click [OpenCAN setting] button in communication setting window;
++Click [OpenCAN setting] button in communication setting window;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_e866b9e56e19785d.png||data-xwiki-image-style-alignment="center" height="503" width="600" class="img-thumbnail"]]
--2) Click [Add] to create a new frame;
++Click [Add] to create a new frame;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_3a6f4e2141763c8f.png||data-xwiki-image-style-alignment="center" height="315" width="600" class="img-thumbnail"]]
@@ -1318,19 +1318,19 @@
  |8|Browse|Displays configuration files in XML format in IE
  |9|OK|Complete the configuration of the frame and exit
--3) Set CANBUS frame in setting windows
++Set CANBUS frame in setting windows
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_7c83130820321ef.png||data-xwiki-image-style-alignment="center" height="507" width="600" class="img-thumbnail"]]
  (% class="table-bordered" %)
--|**No**|**Items**|**Description**
--|1|ID|Set the ID of a can frame in hexadecimal format;
--|2|ID assign|split the ID by PF, PS, and SA;
--|3|Frame type|Select Standard frame or Extended Frame;
--|4|Frame format|Select between data frame and remote Frame;
--|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;
--|6|Use address|(((
++|**No**|(% style="width:185px" %)**Items**|(% style="width:854px" %)**Description**
++|1|(% style="width:185px" %)ID|(% style="width:854px" %)Set the ID of a can frame in hexadecimal format;
++|2|(% style="width:185px" %)ID assign|(% style="width:854px" %)split the ID by PF, PS, and SA;
++|3|(% style="width:185px" %)Frame type|(% style="width:854px" %)Select Standard frame or Extended Frame;
++|4|(% style="width:185px" %)Frame format|(% style="width:854px" %)Select between data frame and remote Frame;
++|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;
++|6|(% style="width:185px" %)Use address|(% style="width:854px" %)(((
  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;
  **Edit:** Set a bit or word address by its format;
@@ -1337,46 +1337,46 @@
  **Option: **Set address options related to frame, enter “register address option” interface, specifically browse the following “register address option” interface;
  )))
--|(% 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;
--|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;
--|Feedback mode: feedback mode includes no response, confirm response and data response;
--|No response: the device or touch screen will not receive feedback;
--|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;
--|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;
--|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;
--|Response timeout: sets whether the response frame timeout;
--|(% rowspan="3" %)8|(% rowspan="3" %)Control address|If ticked, enable sending when the value of the corresponding control bit number (address) is non-0.
--|Control bit: CtrlBit register range 0~~255, if the control bit is ON, can instruction will run normally. Otherwise, it doesn't run;
--|Manually send: a manually send tick indicates only one send;
--|9|Flag configuration|Communication control for each frame. Display OFF when communication is normal, and ON when communication is abnormal;
--|10|Note|Fill the text to explain the meaning of the frame;
--|11|Data assign|Preview the display in this table based on the address and the corresponding number of digits;
--|12|Current operation display|Display the description of current operation;
--|13|Add|Add a new frame;
--|14|Save frame|Save the configured frame format;
--|15|Cancel|Cancel the frame configuration;
++|(% 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;
++|(% 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;
++|(% style="width:854px" %)Feedback mode: feedback mode includes no response, confirm response and data response;
++|(% style="width:854px" %)No response: the device or touch screen will not receive feedback;
++|(% 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;
++|(% 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;
++|(% 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;
++|(% style="width:854px" %)Response timeout: sets whether the response frame timeout;
++|(% 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.
++|(% 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;
++|(% style="width:854px" %)Manually send: a manually send tick indicates only one send;
++|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;
++|10|(% style="width:185px" %)Note|(% style="width:854px" %)Fill the text to explain the meaning of the frame;
++|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;
++|12|(% style="width:185px" %)Current operation display|(% style="width:854px" %)Display the description of current operation;
++|13|(% style="width:185px" %)Add|(% style="width:854px" %)Add a new frame;
++|14|(% style="width:185px" %)Save frame|(% style="width:854px" %)Save the configured frame format;
++|15|(% style="width:185px" %)Cancel|(% style="width:854px" %)Cancel the frame configuration;
--4) Set CAN address (Read or write operation);
++Set CAN address (Read or write operation);
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_7e9f9b25eb6ae8ce.png||data-xwiki-image-style-alignment="center" height="446" width="600" class="img-thumbnail"]]
  (% class="table-bordered" %)
--|**No.**|**Item**|**Description**
--|1|Current address|Displays the register type and register address set by the user in the data access interface
--|(% rowspan="3" %)2|(% rowspan="3" %)Trigger|Two operations, "read" and "write," are based on on-screen registers
--|If "read" is selected, the register address is reading device data in a manner of sending frames set by the user in a loop.
--|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.
--|(% rowspan="5" %)3|(% rowspan="3" %)Data operation|The read and write operations in the trigger conditions are set accordingly.
--|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.
--|If the trigger condition is a writing operation, there are two situations:(((
++|**No.**|(% style="width:207px" %)**Item**|(% style="width:829px" %)**Description**
++|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
++|(% rowspan="3" %)2|(% rowspan="3" style="width:207px" %)Trigger|(% style="width:829px" %)Two operations, "read" and "write," are based on on-screen registers
++|(% 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.
++|(% 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.
++|(% 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.
++|(% 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.
++|(% style="width:829px" %)If the trigger condition is a writing operation, there are two situations:(((
  * 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.
  * 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.
  )))
--|(% 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.
--|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.
--|4|Add|Add current configuration
--|5|Close|Close the configuration window to exit
++|(% 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.
++|(% 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.
++|4|(% style="width:207px" %)Add|(% style="width:829px" %)Add current configuration
++|5|(% style="width:207px" %)Close|(% style="width:829px" %)Close the configuration window to exit
  **Multiple Packages Settings**
@@ -1383,15 +1383,15 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_107e0f6b1a90afff.png||data-xwiki-image-style-alignment="center" height="341" width="600" class="img-thumbnail"]]
--1) Check [Multiple packages supported] to open [Multiple package data] window, as below show.
++Check [Multiple packages supported] to open [Multiple package data] window, as below show.
--2) Select Multiple package type
++Select Multiple package type
  * Not Multiple packages
  * J1939 Multiple packages
  * Customized Multiple packages
--3) Click [Edit Receive data] for [Receive] settings
++Click [Edit Receive data] for [Receive] settings
  * Start code+ Total length (J1939)
@@ -1421,7 +1421,7 @@
  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.
--4) Click [Edit Send data] for [Send] setting
++Click [Edit Send data] for [Send] setting
  * J1939
@@ -1446,12 +1446,10 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_fccede84efcbdc22.png||data-xwiki-image-style-alignment="center" height="111" width="391" class="img-thumbnail"]]
--**✎Note:**
++**✎Note:** The address interval between each frame need to be more than a word address;
--The address interval between each frame need to be more than a word address;
++= **SHIMADEN** =
--= **{{id name="_Toc24639"/}}SHIMADEN** =
--
  == **FP23** ==
  Supported series: SHIMADEN FP23 series
@@ -1486,22 +1486,17 @@
  **✎Note:**
--1) The upper 2 bits of the address of the HMI register are taken as the sub address, and the real address is the last four bits (for example, if the address is 100256, then 10 is the sub address as 1, and 0256 is the real address);
++* The upper 2 bits of the address of the HMI register are taken as the sub address, and the real address is the last four bits (for example, if the address is 100256, then 10 is the sub address as 1, and 0256 is the real address);
++* The address range in the table is only divided by the start and end addresses, and some of the addresses in the range have no corresponding address in FP23;
++* The Ctrl register is used to store the control group number and BCC check mode.
--2) The address range in the table is only divided by the start and end addresses, and some of the addresses in the range have no corresponding address in FP23;
--
--3) The Ctrl register is used to store the control group number and BCC check mode.
--
  **Ctrl Register Description**
--1) The Ctrl register is a special register that does not communicate with the temperature controller. User needs to assign value in the screen according to the settings as in the temperature controller.
++* The Ctrl register is a special register that does not communicate with the temperature controller. User needs to assign value in the screen according to the settings as in the temperature controller.
++* Ctrl0 indicates the setting of the control character, the valid values are 1, 2, 3 respectively, and the corresponding control group is: STX_ETX_CR , STX_ETX_CR LF and @_:_CR .
++* Ctrl1 indicates the BCC block check mode. The valid value range is 1-4. The corresponding check mode is: 1.ADD, 2.ADD_two's cmp, 3.XOR, 4.None;
++* Ctrl3 reserved
--2) Ctrl0 indicates the setting of the control character, the valid values are 1, 2, 3 respectively, and the corresponding control group is: STX_ETX_CR , STX_ETX_CR LF and @_:_CR .
--
--3) Ctrl1 indicates the BCC block check mode. The valid value range is 1-4. The corresponding check mode is: 1.ADD, 2.ADD_two's cmp, 3.XOR, 4.None;
--
--4) Ctrl3 reserved
--
  **✎Note:**
  After reloading the HMI project or restarting the HMI, HMI will reset the value of ctrl0 and ctrl1 as 1, so user need to set these two values to make it the same as it in the temperature controller, then communication will be normal.
@@ -1514,10 +1514,8 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_1897d92be6948d58.png||data-xwiki-image-style-alignment="center" height="223" width="393" class="img-thumbnail"]]
--**✎Note:**
++**✎Note:** COM3 only available in PI8000/PI9000 series.
--COM3 only available in PI8000/PI9000 series.
--
  == **{{id name="_Toc23422"/}}SR90** ==
  Supported series: SHIMADEN SR90 series
@@ -1546,22 +1546,17 @@
  **✎Note:**
--1) The upper 2 bits of the address of HMIs are taken as the sub address, and the real address is the last four bits (for example, if the address is 100256, then 10 is the sub address as 1, and 0256 is the real address);
++* The upper 2 bits of the address of HMIs are taken as the sub address, and the real address is the last four bits (for example, if the address is 100256, then 10 is the sub address as 1, and 0256 is the real address);
++* The address range in the table is only divided by the start and end addresses, and some of the addresses in the range have no corresponding address in SR90;
++* The Ctrl register is used to store the control group number and BCC check mode. See how to use it below;
--2) The address range in the table is only divided by the start and end addresses, and some of the addresses in the range have no corresponding address in SR90;
--
--3) The Ctrl register is used to store the control group number and BCC check mode. See how to use it below;
--
  **Ctrl Register Description**
--1) The Ctrl register is a special register that does not communicate with the temperature controller. User needs to assign value in the screen according to the settings as in the temperature controller.
++* The Ctrl register is a special register that does not communicate with the temperature controller. User needs to assign value in the screen according to the settings as in the temperature controller.
++* Ctrl0 indicates the setting of the control character, the valid values are 1, 2, 3 respectively, and the corresponding control group is: STX_ETX_CR , STX_ETX_CR LF and @_:_CR .
++* Ctrl1 indicates the BCC block check mode. The valid value range is 1-4. The corresponding check mode is: 1.ADD, 2.ADD_two's cmp, 3.XOR, 4.None;
++* Ctrl3 reserved
--2) Ctrl0 indicates the setting of the control character, the valid values are 1, 2, 3 respectively, and the corresponding control group is: STX_ETX_CR , STX_ETX_CR LF and @_:_CR .
--
--3) Ctrl1 indicates the BCC block check mode. The valid value range is 1-4. The corresponding check mode is: 1.ADD, 2.ADD_two's cmp, 3.XOR, 4.None;
--
--4) Ctrl3 reserved
--
  **✎Note:**
  After reloading the HMI project or restarting the HMI, HMI will reset the value of ctrl0 and ctrl1 as 1, so user need to set these two values to make it the same as it in the temperature controller, then communication will be normal.
@@ -1574,10 +1574,8 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_1897d92be6948d58.png||data-xwiki-image-style-alignment="center" height="223" width="393" class="img-thumbnail"]]
--**✎Note:**
++**✎Note:** COM3 only available in PI8000/PI9000 series.
--COM3 only available in PI8000/PI9000 series.
--
  == **{{id name="_Toc22635"/}}MR13 series(standard protocol)** ==
  Supported series: SHIMADEN MR13 series
@@ -1613,22 +1613,17 @@
  **✎Note:**
--1) The upper 2 bits of the address of the HMI register are taken as the sub address, and the real address is the last four bits (for example, if the address is 100256, then 10 is the sub address as 1, and 0256 is the real address);
++* The upper 2 bits of the address of the HMI register are taken as the sub address, and the real address is the last four bits (for example, if the address is 100256, then 10 is the sub address as 1, and 0256 is the real address);
++* The address range in the table is only divided by the start and end addresses, and some of the addresses in the range have no corresponding address in MR13;
++* The Ctrl register is used to store the control group number and BCC check mode.
--2) The address range in the table is only divided by the start and end addresses, and some of the addresses in the range have no corresponding address in MR13;
--
--3) The Ctrl register is used to store the control group number and BCC check mode.
--
  **Ctrl Register Description**
--1) The Ctrl register is a special register that does not communicate with the temperature controller. User needs to assign value in the screen according to the settings as in the temperature controller.
++* The Ctrl register is a special register that does not communicate with the temperature controller. User needs to assign value in the screen according to the settings as in the temperature controller.
++* Ctrl0 indicates the setting of the control character, the valid values are 1, 2, 3 respectively, and the corresponding control group is: STX_ETX_CR, STX_ETX_CR LF and @_:_CR .
++* Ctrl1 indicates the BCC block check mode. The valid value range is 1-4. The corresponding check mode is: 1.ADD, 2.ADD_two's cmp, 3.XOR, 4.None;
++* Ctrl3 reserved
--2) Ctrl0 indicates the setting of the control character, the valid values are 1, 2, 3 respectively, and the corresponding control group is: STX_ETX_CR, STX_ETX_CR LF and @_:_CR .
--
--3) Ctrl1 indicates the BCC block check mode. The valid value range is 1-4. The corresponding check mode is: 1.ADD, 2.ADD_two's cmp, 3.XOR, 4.None;
--
--4) Ctrl3 reserved
--
  **✎Note:**
  After reloading project or restarting the HMI, HMI will reset the value of ctrl0 and ctrl1 as 1, so user need to set these two values to make it the same as it in the temperature controller, then communication will be normal.
@@ -1641,10 +1641,8 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_1897d92be6948d58.png||data-xwiki-image-style-alignment="center" height="223" width="393" class="img-thumbnail"]]
--**✎Note:**
++**✎Note:** COM3 only available in PI8000/PI9000 series.
--{{id name="_Toc15768"/}}COM3 only available in PI8000/PI9000 series.
--
  = **Siemens** =
  == **S7-200 Smart Ethernet** ==
@@ -1714,12 +1714,12 @@
  **Communication Settings**
--1) Enable HMI Ethernet in [Project Settings];
++Enable HMI Ethernet in [Project Settings];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_43b671f18153910d.png||data-xwiki-image-style-alignment="center" height="107" width="405" class="img-thumbnail"]]
--2) Set PLC IP in [Device IP] settings;
++Set PLC IP in [Device IP] settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_70b0c4c2ee21b10d.png||data-xwiki-image-style-alignment="center" height="189" width="554" class="img-thumbnail"]]
@@ -1790,12 +1790,12 @@
  **Communication Settings**
--1) Enable HMI Ethernet in [Project Settings];
++Enable HMI Ethernet in [Project Settings];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_43b671f18153910d.png||data-xwiki-image-style-alignment="center" height="107" width="405" class="img-thumbnail"]]
--2) Set PLC IP in [Device IP] settings;
++Set PLC IP in [Device IP] settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_910b1a0aa9e2201c.png||data-xwiki-image-style-alignment="center" height="188" width="554" class="img-thumbnail"]]
@@ -1910,12 +1910,12 @@
  **Communication Settings**
--1) Enable HMI Ethernet in [Project Settings];
++Enable HMI Ethernet in [Project Settings];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_43b671f18153910d.png||data-xwiki-image-style-alignment="center" height="107" width="405" class="img-thumbnail"]]
--2) Set PLC IP in [Device IP] settings;
++Set PLC IP in [Device IP] settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_f7b3eb9abda33833.png||data-xwiki-image-style-alignment="center" height="190" width="554" class="img-thumbnail"]]
@@ -1922,59 +1922,53 @@
  **✎Note:**
--1) The S7-1200 supports simultaneous connection of three devices, so the driver supports simultaneous access to PLC by three touch screens.
++* The S7-1200 supports simultaneous connection of three devices, so the driver supports simultaneous access to PLC by three touch screens.
++* HMI access PLC, use S7 protocol, access PLC TSAP 02.01 (s7-1200 PROFINET interface only supports three connections, the default support), detailed reference to the system manual of S7-1200.
--2) HMI access PLC, use S7 protocol, access PLC TSAP 02.01 (s7-1200 PROFINET interface only supports three connections, the default support), detailed reference to the system manual of S7-1200.
--
  **PLC Settings**
--1) Add BD
++Add BD
--Please uncheck [Symbolic access only] option;
++* Please uncheck [Symbolic access only] option;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_643144c591994418.png||data-xwiki-image-style-alignment="center" height="546" width="550" class="img-thumbnail"]]
--2) Address settings, using BD2 as example.
++Address settings, using BD2 as example.
--DB×DBB2xxxx, DB×DBW2xxxx, DB×DBD2xxxx for accessing data of DB2 in B1.
++* DB×DBB2xxxx, DB×DBW2xxxx, DB×DBD2xxxx for accessing data of DB2 in B1.
++* 2 represent DB block number
++* xxxx represent address
--2 represent DB block number
--
--xxxx represent address
--
  **Such as:**
--DBxDBB20000 = DB2.DBB0
++* DBxDBB20000 = DB2.DBB0
++* DBxDBW20004 = DB2.DBW4
--DBxDBW20004 = DB2.DBW4
--
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_87ceaea84d552e62.png||data-xwiki-image-style-alignment="center" height="245" width="537" class="img-thumbnail"]]
  **How to connect with S7-1200 Firmware V4.0**
--1) PLC configuration
++PLC configuration
--a) Double click [device configuration] in Siemens via software
++* Double click [device configuration] in Siemens via software
++* Double click [protection] to enter protection configuration screen
--b) Double click [protection] to enter protection configuration screen
--
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_9779940d38da8e07.png||data-xwiki-image-style-alignment="center" height="426" width="341" class="img-thumbnail"]]
--c) Check [Permit access with PUT / GET communication from remote partner (PLC, HMI, OPC, ...)]
++* Check [Permit access with PUT / GET communication from remote partner (PLC, HMI, OPC, ...)]
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_d2c667b02f9720b1.png||data-xwiki-image-style-alignment="center" height="296" width="554" class="img-thumbnail"]]
--2) DB settings
++DB settings
--Right click [DB], select [properties]
++* Right click [DB], select [properties]
++* Uncheck [optimized block access]
--Uncheck [optimized block access]
--
  **Cable Wiring**
  (% style="text-align:center" %)
@@ -2015,22 +2015,22 @@
  **PLC Settings in LOGO Software:**
--1) Click [Tools]~-~-[Ethernet Connections],shown as below.
++Click [Tools]~-~-[Ethernet Connections],shown as below.
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_8b9d2322edf89519.png||data-xwiki-image-style-alignment="center" height="641" width="423" class="img-thumbnail"]]
--2) Set Ethernet connection parameter. IP, Subnet Mask, shown as below.
++Set Ethernet connection parameter. IP, Subnet Mask, shown as below.
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_6c4dd041b26cd8a1.png||data-xwiki-image-style-alignment="center" height="481" width="363" class="img-thumbnail"]]
--3) **TSAP set**:The value set by local TSAP is the remote TSAP set in HMI. PLC's remote TSAP is the opposite,shown as below.
++**TSAP set**:The value set by local TSAP is the remote TSAP set in HMI. PLC's remote TSAP is the opposite,shown as below.
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_7af2611d3790a77d.png||data-xwiki-image-style-alignment="center" height="359" width="426" class="img-thumbnail"]]
--4) **Download Project**: Click "Address book" to add the IP address to be downloaded (fi."Detect" to check whether the IP address can be detected. Then click “ok”, and the system will prompt that PLC will be "STOP" mode. Click “YES” to start download.
++**Download Project**: Click "Address book" to add the IP address to be downloaded (fi."Detect" to check whether the IP address can be detected. Then click “ok”, and the system will prompt that PLC will be "STOP" mode. Click “YES” to start download.
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_3243e4cd600595cc.png||data-xwiki-image-style-alignment="center" height="368" width="554" class="img-thumbnail"]]
@@ -2042,41 +2042,36 @@
  **HMI Communication Settings**
--1)Set PLC IP in [Device IP] settings;
++Set PLC IP in [Device IP] settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_573fc64ad393cd4f.png||data-xwiki-image-style-alignment="center" height="655" width="379" class="img-thumbnail"]]
--2)Enable HMI Ethernet in [Project Settings];
++Enable HMI Ethernet in [Project Settings];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_95917a3d92068467.png||data-xwiki-image-style-alignment="center" height="311" width="553" class="img-thumbnail"]]
--3)TSAP setting
++TSAP setting
--Regarding the setting of PLC TSAP, HMI provides system special address for setting, it is recommended to run in HMI script initialization, write PLC TSAP to corresponding system special register.
++* Regarding the setting of PLC TSAP, HMI provides system special address for setting, it is recommended to run in HMI script initialization, write PLC TSAP to corresponding system special register.
++* HSW10118 = local TSAP of HMI, this is remote TSAP of PLC.
++* HSW10119 = Remote TSAP of HMI, this is local TSAP of PLC.
--HSW10118 = local TSAP of HMI, this is remote TSAP of PLC.
--
--HSW10119 = Remote TSAP of HMI, this is local TSAP of PLC.
--
  **✎Note:**
--1) The data of TSAP is hexadecimal format. For example: the remote TSAP configured in the PLC is set to 20.00, then HSW10118 should be set to 0x2000, that is, HSW10118 = 8192.
++* The data of TSAP is hexadecimal format. For example: the remote TSAP configured in the PLC is set to 20.00, then HSW10118 should be set to 0x2000, that is, HSW10118 = 8192.
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_5c6374b21f46e01e.png||data-xwiki-image-style-alignment="center" height="139" width="498" class="img-thumbnail"]]
--2) AI word address and Ibit address are read-only and cannot be written on HMI.
++* AI word address and Ibit address are read-only and cannot be written on HMI.
++* VW address should be even number.such as VW0, VW2, VW4...
++* VD address it takes two VW addresses.such as VD0,VD4,VD8...
++* Written value of RTC cannot exceed 255.
--3) VW address should be even number.such as VW0, VW2, VW4...
--
--4) VD address it takes two VW addresses.such as VD0,VD4,VD8...
--
--5) Written value of RTC cannot exceed 255.
--
  **Cable Wiring**
  (% style="text-align:center" %)
@@ -2178,12 +2178,12 @@
  **Communication Settings**
--1) Enable HMI Ethernet in [Project Settings];
++Enable HMI Ethernet in [Project Settings];
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_43b671f18153910d.png||data-xwiki-image-style-alignment="center" height="107" width="405" class="img-rounded img-thumbnail"]]
--2) Set PLC IP in [Device IP] settings;
++Set PLC IP in [Device IP] settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_f7b3eb9abda33833.png||data-xwiki-image-style-alignment="center" height="190" width="554" class="img-thumbnail"]]
@@ -2190,10 +2190,9 @@
  **✎Note:**
--1) The S7-1200 supports simultaneous connection of three devices, so the driver supports simultaneous access to PLC by three touch screens.
++* The S7-1200 supports simultaneous connection of three devices, so the driver supports simultaneous access to PLC by three touch screens.
++* HMI access PLC, use S7 protocol, access PLC TSAP 02.01 (s7-1200 PROFINET interface only supports three connections, the default support), detailed reference to the system manual of S7-1200.
--2) HMI access PLC, use S7 protocol, access PLC TSAP 02.01 (s7-1200 PROFINET interface only supports three connections, the default support), detailed reference to the system manual of S7-1200.
--
  **Cable Wiring**
  {{id name="OLE_LINK8"/}}
@@ -2218,14 +2218,14 @@
  **Operating Procedures**
--1) Select [User defined protocol];
++Select [User defined protocol];
--2) Click [User defined protocol] button to open setting window as below;
++Click [User defined protocol] button to open setting window as below;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_5ca13817ac812cf0.png||data-xwiki-image-style-alignment="center" height="367" width="437" class="img-thumbnail"]]
--3) Configure user defined command;
++Configure user defined command;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_11441e69f21e243d.png||data-xwiki-image-style-alignment="center" height="525" width="553" class="img-thumbnail"]]
@@ -2261,26 +2261,26 @@
  **Operating Procedures**
--1) Click [Add] to create a new command, as below shows;
++Click [Add] to create a new command, as below shows;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_463f2cd3a8c338fc.png||data-xwiki-image-style-alignment="center" height="116" width="88" class="img-thumbnail"]]
--2) Select mode, [Read] or [Write], and then select Format, there are two options [Hex] and [ASCII]. As below shows;
++Select mode, [Read] or [Write], and then select Format, there are two options [Hex] and [ASCII]. As below shows;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_a48eba3aa30b612d.png||data-xwiki-image-style-alignment="center" height="80" width="121" class="img-thumbnail"]]
--3) Other settings: [No receiving] means HMI only sends command, and it would not process the reply command which from device. [Send after receiving] means HMI will be receiving the command which from device firstly, and then sending the command to device. From example, when HMI receiving [00 FF 00] firstly and then send command, as below shows
++Other settings: [No receiving] means HMI only sends command, and it would not process the reply command which from device. [Send after receiving] means HMI will be receiving the command which from device firstly, and then sending the command to device. From example, when HMI receiving [00 FF 00] firstly and then send command, as below shows
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_b36d990e126365d.png||data-xwiki-image-style-alignment="center" height="77" width="179" class="img-thumbnail"]]
--4) Check [Manually send], and then please set the address for trigging, the setting range is 1~~10, and please put Bit switch in project screen for it, and [OneCtrlBit] register is for [Manually send].
++Check [Manually send], and then please set the address for trigging, the setting range is 1~~10, and please put Bit switch in project screen for it, and [OneCtrlBit] register is for [Manually send].
--5) Instruction edit, when the data format is HEX, please use two numbers to represent one 16-bit number. ASCII format using characters to input;
++Instruction edit, when the data format is HEX, please use two numbers to represent one 16-bit number. ASCII format using characters to input;
--6) Check settings;
++Check settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_5ac7075d9e8dad8d.png||data-xwiki-image-style-alignment="center" height="185" width="554" class="img-thumbnail"]]
@@ -2293,7 +2293,7 @@
  |(% rowspan="2" %)3|(% rowspan="2" %)Add control character|Start position: select the start position of the data which need to check.
  |Length: The data length need to be checked.
--7) Object settings;
++Object settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_1e776a838316fb5.png||data-xwiki-image-style-alignment="center" height="185" width="554" class="img-thumbnail"]]
@@ -2305,7 +2305,7 @@
  |Note: description to object;
  |2|Byte order|The numerical display order;
--8) Data length settings;
++Data length settings;
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_6959664a46b03b69.png||data-xwiki-image-style-alignment="center" height="185" width="554" class="img-thumbnail"]]
@@ -2317,7 +2317,7 @@
  |(% rowspan="2" %)2|(% rowspan="2" %)Write data|Position: the start position of the write data.
  |Length: the write data length.
--9) Instruction length settings
++Instruction length settings
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_7e0d8613c5e12f7b.png||data-xwiki-image-style-alignment="center" height="185" width="554" class="img-thumbnail"]]
@@ -2330,7 +2330,7 @@
  **Cable Wiring**
--**1)RS485**
++* **RS485**
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_5e9a81a14106da9e.png||data-xwiki-image-style-alignment="center" height="223" width="392" class="img-thumbnail"]]
@@ -2338,15 +2338,13 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_1897d92be6948d58.png||data-xwiki-image-style-alignment="center" height="223" width="393" class="img-thumbnail"]]
--**2)RS232**
++* **RS232**
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_5de71638aab8e40d.png||data-xwiki-image-style-alignment="center" height="205" width="385" class="img-thumbnail"]]
--**✎Note:**
++**✎Note:** COM3 only available in PI8000/PI9000 series.
--COM3 only available in PI8000/PI9000 series.
--
  = **WECON PLC** =
  Supported series: WECON LX2V/ LX2E/ LX3V/LX3VP/LX3VE/LX3VM
@@ -2384,7 +2384,7 @@
  **Cable Wiring**
--**1)RS485**
++* **RS485**
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_5e9a81a14106da9e.png||data-xwiki-image-style-alignment="center" height="223" width="392" class="img-thumbnail"]]
@@ -2392,7 +2392,7 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_1897d92be6948d58.png||data-xwiki-image-style-alignment="center" height="223" width="393" class="img-thumbnail"]]
--**2)RS422**
++* **RS422**
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_5c7fca9a70da2ee8.png||data-xwiki-image-style-alignment="center" height="247" width="389" class="img-thumbnail"]]
@@ -2399,10 +2399,9 @@
  **✎Note:**
--~1. HMI COM3 is available in PI8000 series and COM3 is in COM2(hardware PIN 7 and PIN 8) .
++* HMI COM3 is available in PI8000 series and COM3 is in COM2(hardware PIN 7 and PIN 8) .
++* If PLC <= 20 points,such as LX3V-1208/LX3V-0806 PLC,PLC RS485A and RS485B mean PLC COM2 RS485+ and RS485- .PLC COM2 can support modbus. Please refer to PLC COM2 setting manual.
--2. If PLC <= 20 points,such as LX3V-1208/LX3V-0806 PLC,PLC RS485A and RS485B mean PLC COM2 RS485+ and RS485- .PLC COM2 can support modbus. Please refer to PLC COM2 setting manual.
--
  [[https:~~/~~/drive.google.com/drive/folders/13rgso7oUlatZQN_SNEcJCcN4toEdDPoP?usp=sharing>>url:https://drive.google.com/drive/folders/13rgso7oUlatZQN_SNEcJCcN4toEdDPoP?usp=sharing]]
  = **Printer** =
@@ -2409,28 +2409,27 @@
  == **TSPL label printer** ==
--**I. Introduction**
++**Introduction**
  TSPL label printer protocol supports following models.
--SPRT TL21: [[https:~~/~~/www.sprinter.com.cn/show-60-62-1.html>>https://www.sprinter.com.cn/show-60-62-1.html]]
++* SPRT TL21: [[https:~~/~~/www.sprinter.com.cn/show-60-62-1.html>>https://www.sprinter.com.cn/show-60-62-1.html]]
++* DL-888D: [[https:~~/~~/www.deliworld.com/product/detail/7624>>https://www.deliworld.com/product/detail/7624]]
--DL-888D: [[https:~~/~~/www.deliworld.com/product/detail/7624>>https://www.deliworld.com/product/detail/7624]]
++**Setting Step**
--**II. Setting Step**
++Select the protocol
--1) Select the protocol
++* Create a new project, select the TSPL label printer protocol as shown below.
--Create a new project, select the TSPL label printer protocol as shown below.
--
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_a2bec264816230db.png||data-xwiki-image-style-alignment="center" height="331" width="495" class="img-thumbnail"]]
--2) Set parameters
++Set parameters
--The connection between the TSPL label printer and the HMI is via the USB-A interface, no need to configure serial port parameters.
++* The connection between the TSPL label printer and the HMI is via the USB-A interface, no need to configure serial port parameters.
--3)Printer register
++Printer register
  (% class="table-bordered" %)
  |**Register**|**System**|**Range**|**Function**
@@ -2442,18 +2442,13 @@
  |TSPL_PN|decimal|0 - 0|Trigger printing
  |TSPL_PS|decimal|0 - 0|Print status
--1.Set paper size:
++* Set paper size:
++** TSPL_SP0: width of paper, unit: mm.
++**  TSPL_SP1: height of paper, unit: mm.
++* Print text:
++** TSPL_PT can print up to 20 texts. TSPL_PT0-TSPL_PT99 is the first text; TSPL_PT100-TSPL_PT199 is the second text; … TSPL_PT1000-TSPL_PT1999 is the 20th text.
++** Detailed parameter settings of each text is shown as below table. For example, first text,TSPL_PT0-TSPL_PT99.
--TSPL_SP0: width of paper, unit: mm.
--
--  TSPL_SP1: height of paper, unit: mm.
--
--2.Print text:
--
--TSPL_PT can print up to 20 texts. TSPL_PT0-TSPL_PT99 is the first text; TSPL_PT100-TSPL_PT199 is the second text; … TSPL_PT1000-TSPL_PT1999 is the 20th text.
--
--Detailed parameter settings of each text is shown as below table.for example,first text,TSPL_PT0-TSPL_PT99.
--
  (% class="table-bordered" %)
  |**Register**|**Function**|**Description**
  |TSPL_PT0|X coordinate|Unit: dot
@@ -2472,12 +2472,11 @@
  By analogy, we can know the text information configuration of the 2nd to 20th QR codes
--3.Print QR code:
++Print QR code:
--TSPL_PQ can print up to 10 QR codes. TSPL_PQ0-TSPL_PQ99 is the first QR code; TSPL_PQ100-TSPL_PQ199 is the second QR code; ...., TSPL_PQ900-TSPL_PQ999 is the tenth QR code.
++* TSPL_PQ can print up to 10 QR codes. TSPL_PQ0-TSPL_PQ99 is the first QR code; TSPL_PQ100-TSPL_PQ199 is the second QR code; ...., TSPL_PQ900-TSPL_PQ999 is the tenth QR code.
++* Specific parameter description of each item: for example, the first QR code, TSPL_PQ0-TSPL_PQ99:
--Specific parameter description of each item: for example, the first QR code, TSPL_PQ0-TSPL_PQ99:
--
  (% class="table-bordered" %)
  |**Register**|**Function**|**Description**
  |TSPL_PQ0|X coordinate|Unit: dot
@@ -2494,14 +2494,13 @@
  |TSPL_PQ3|Size|Range: 0-5
  |TSPL_PQ4 - TSPL_PQ99|QR code content|Use character input device to configure
--By analogy, we can know the text information configuration of the 2nd to 20th QR codes.
++* By analogy, we can know the text information configuration of the 2nd to 20th QR codes.
--4.Print bar code:
++Print bar code:
--TSPL_PB can print up to 10 barcodes. TSPL_PB0-TSPL_PB99 is the first bar code; TSPL_PB100-TSPL_PB199 is the second bar code; ..., TSPL_PB900-TSPL_PB999 is the tenth bar code.
++* TSPL_PB can print up to 10 barcodes. TSPL_PB0-TSPL_PB99 is the first bar code; TSPL_PB100-TSPL_PB199 is the second bar code; ..., TSPL_PB900-TSPL_PB999 is the tenth bar code.
++* Specific parameter description of each item: for example, the first barcode, TSPL_PB0-TSPL_PB99:
--Specific parameter description of each item: for example, the first barcode, TSPL_PB0-TSPL_PB99:
--
  (% class="table-bordered" %)
  |**Register**|**Function**|**Description**
  |TSPL_PB0|X coordinate|Unit: dot
@@ -2521,30 +2521,28 @@
  By analogy, we can know the text information configuration of the 2nd to 20th bar codes.
--5.Print offset:
++Print offset:
--     TSPL_PR0: X coordinate offset, unit: mm;
++* TSPL_PR0: X coordinate offset, unit: mm;
++* TSPL_PR1: Y coordinate offset, unit: mm.
--     TSPL_PR1: Y coordinate offset, unit: mm.
++Trigger printing:
--6.Trigger printing:
++* TSPL_PN0 = 1: trigger the printer to start printing.
--     TSPL_PN0 = 1: trigger the printer to start printing.
++Printing status:
--7.Printing status:
++* TSPL_PS0 = 1: The printing is normal.
++* TSPL_PS0 = 1: The printing is abnormal.
--     TSPL_PS0 = 1: The printing is normal.
++Print picture
--    TSPL_PS0 = 1: The printing is abnormal.
++* For the function of printing pictures, please refer to the configuration of [Printer object].
--4)Print picture
++Conversion between dot and mm
--For the function of printing pictures, please refer to the configuration of [Printer object].
++* Dot is the meaning of pixels. For the conversion between dot and mm, please refer to the printer manual or consult the customer service of the corresponding printer manufacturer. For example, SPRT TL21: 8 dots / mm, that is, 1mm = 8 dot.
--5)Conversion between dot and mm
--
--Dot is the meaning of pixels. For the conversion between dot and mm, please refer to the printer manual or consult the customer service of the corresponding printer manufacturer. For example, SPRT TL21: 8 dots / mm, that is, 1mm = 8 dot.
--
  == **EpsonTM series** ==
  **HMI Settings**
@@ -2580,6 +2580,4 @@
  (% style="text-align:center" %)
  [[image:12.PLC Protocol_html_1897d92be6948d58.png||data-xwiki-image-style-alignment="center" height="223" width="393" class="img-thumbnail"]]
--**✎Note:**
--
--COM3 only available in PI8000/PI9000 series.
++**✎Note:** COM3 only available in PI8000/PI9000 series.

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