XD 1 N series
Multi-channel temperature control module
User manual
User manual
User manual
Preface
This manual describes the XD1N series multi-channel temperature control module, including installation, performance, and usage.
When using the XD1N multi-channel temperature control module, the following precautions should be observed:
• Allow specialists with extensive knowledge of electrical systems to operate the temperature control module .
• Read this manual completely and make sure you understand it before attempting to use the temperature control module
content and use the temperature control module correctly according to the information provided.
• Keep this manual in a safe place for future reference.
Thank you for choosing Xianda products. Please read this instruction carefully before use and keep it properly for reference when needed. If you have any questions, please call the nearby dealer or our company's technical support hotline.
Wiring warning
• If a module fails or an error occurs, it can cause system failure. Install external protection circuits to prevent such accidents .
• To prevent module damage or failure, use fuses to protect power lines and output lines to prevent strong current from impacting the power supply.
• To prevent module damage or failure, please use rated power supply
• To prevent module damage or failure, please power on after completing the wiring work and checking that it is correct.
Restrictions on use occasions
• To prevent fire, it is prohibited to use it in places with flammable and explosive gases.
• To prevent module damage, please do not use the module in places with corrosive gas or steam emissions
• To prevent module damage, please do not use the module in places subject to strong vibrations and impacts .
• This product should not be used in situations where the failure of the controller may cause personal safety accidents or cause significant property damage. If necessary, independent protection measures should be designed and installed around the periphery.
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Safety precautions
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The following precautions must be observed to prevent operational failure, malfunction, or adverse effects on product performance and functionality. Otherwise, unexpected events may occur.
1)
This product is for indoor use only. Do not use outdoors or in one of the following locations:
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Places directly exposed to heat radiation from heating equipment
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Places with liquid splash or oily air
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Direct sunlight
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Where there is dust or corrosive gas (especially sulfur gas or ammonia gas)
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Places with drastic temperature changes
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There is ice or condensation
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Place subject to vibration or strong impact
2)
Use and store this product within the rated ambient temperature and humidity range.
Installing two or more temperature sensors close to each other or installing temperature control modules on top of each other will cause heat to accumulate inside the temperature control module, shortening its service life. if
If the temperature control module is to be installed close to or stacked on top of each other, a fan should be used for forced cooling or other measures should be taken to cool down the temperature control module.
3)
To facilitate heat dissipation, do not block the area around the product and do not block the vents on the product.
4)
Pay attention to the terminal polarity when wiring.
5)
Please use pin-type terminals with a crimped front end smaller than 2.35mm in diameter. Do not use excessive force when locking the terminals, and make sure the wiring is connected to the correct terminal.
6) Do not use terminals without specific purposes.
7)
To reduce induced noise, keep wiring to the product's terminal block away from cables carrying high voltages or currents. Likewise, do not connect power cords in series or parallel with product wiring. It is recommended to use shielded cables and use separate conduits.
Install a surge suppressor or noise filter on peripheral devices that produce noise (especially motors, transformers, solenoids, solenoids, or other devices with inductive components).
If a noise filter is used at the power supply, first check the voltage or current and install the noise filter as close to the product as possible.
Leave sufficient space between this product and equipment that generates powerful frequencies (high-frequency welders, high-frequency sewing machines, etc.) or equipment that generates surges.
8)
Use this product with rated load and power supply.
9)
Use switch or relay contacts to ensure rated voltage is reached within 2 seconds after turning on power. If voltage is applied slowly, the power supply may not reset or may
malfunction occurs.
10)
Make sure to preheat before starting actual control operations after turning on the power to ensure the correct temperature is displayed.
11)
The switch or circuit breaker must be placed within easy reach of the operator and must be marked as the disconnecting means for the unit.
12)
Do not use paint thinner or similar chemicals to clean this product. Use standard alcohol.
13)
When designing a system (such as a control panel), allow for a delay in the relay before the output takes effect after the product is powered on.
14)
Never touch electronic components, connectors, or patterns on product panels with bare hands. This product should be held by its outer shell. Improper handling of this product may
Internal parts may be damaged by static electricity.
15) Use switches, relays or other devices with contacts to quickly turn off the power supply. Gradually reducing the power supply voltage may cause erroneous output or memory errors.
16)
Do not touch electronic components with your hands or subject them to shock when removing the terminal block.
17)
Only connect the specified number of this product in the specified configuration.
18)
Install this product on a DIN rail vertical to the ground .
19)
Power must be turned off before wiring the product, replacing the product, or changing product configurations.
20)
During installation, install the included cover over the left open connector on the terminal unit.
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Version revision history
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V2.0 | | 2022-01 |
User manual
General catalog
Table of contents
1-2-2 indicator light definition 14
1-3 I/O configuration and main functions 15
1-3-3 Electrical indicators 16
1-5-1 Ordering Guide (Example) 18
Chapter 2 Hardware and Software Introduction 19
2-3-1 Operating environment 23
2-3-2 Software installation 23
2-4-3 Communication settings 27
2-4-3-1 RS485 communication parameter setting 27
2-4-3-2 Ethernet communication parameter setting 29
2-5 Expansion module internal communication station address automatic allocation 32
2-7-2 Basic parameter setting 39
2-7-5 Control parameter setting 42
2-7-6 LSP group parameter setting 43
2-7-7 PID group parameter setting 44
2-7-10 RS485 communication station number setting 48
2-7-10-1 RS485 communication station number 48
2-7-11 Ethernet IP address setting 50
Chapter 3 Typical Control Cases 54
3-1 Typical single module control configuration 55
3-1-3 Communication settings 56
3-1-4 Module parameter setting 57
3-1-5 PID parameter self-tuning 58
3-2 Typical multi-module control configuration 59
3-2-4 Communication Settings 59
3-2-5 The internal station address of the expansion module is automatically assigned 60
3-2-6 Module parameter setting 60
3-2-7 PID parameter auto-tuning 61
3-3 Typical multi-module control configuration 62
3-3-4 Communication Settings 63
3-3-5 Extension module internal station address automatic allocation 63
3-3-6 Module parameter setting 63
3-3-7 PID parameter auto-tuning 63
Chapter 4 Basic Parameter Description 64
4-1 Set input specifications 65
4-1-3 Input gain and offset (correction) 65
4-2 Set output specifications 68
4-2-1 Minimum output ON/OFF width (system internal parameter) 68
4-2-2 Operation volume upper limit / operation volume lower limit 68
4-2-3 Operating volume rising change limit / operating volume falling change limit 69
4-2-5 Current output lag time 69
4-3 Set control specifications 70
4-3-4 fixed output ( operated value ) 71
4-3-5 Heating and cooling dead zone 71
4-3-6 ON/OFF control deviation 71
4-4 Set LSP group parameters 73
4-5-2 set value ( SV value) 75
4-5-3 PID value description 75
4-8 Set RS485 communication station number 78
4-8-1 Station number display rule 78
Chapter 5 485 Communication Instructions 79
5-1 Overview of communication protocol 80
5-3 RS-485 communication specifications and protocol description 81
5-3-1 interface specifications 81
Chapter 6 Ethernet Communication Instructions 85
6-1 Ethernet communication specifications and protocol description 86
6-1-1 interface specifications 86
6-1-3 Ethernet communication settings 87
Chapter 7 Faults and Troubleshooting 88
7-2 Determine the error based on the indicator light 90
8-1 Appendix 1 : "Communication Function Code and Data Format" 92
8-1-1 Communication command function code 92
8-1-2 Detailed explanation of communication command function code 92
8-1-2-1 word data reading [Function code: 03 ] 92
8-1-2-2 Input register reading [Function code: 04 ] 93
8-1-2-3 Single function writing [Function code: 06 ] 93
8-1-2-4 Continuous function writing [Function code: 16 ] 94
8-2 Appendix 2 : "Register Parameter List" 95
8-2-2 Register parameter list 96
8-2-2-1 1#- 8# module parameter list 96
8-2-2-2 9#-16# module parameter list 98
8-2-2-3 Communication parameter list 100
8-2-2-4 CH1-CH8 channel parameter list 101
1# module ( CH1-CH8) channel parameters (parameter group 1 ) address definition: 101
1# module ( CH1-CH8) channel parameter (parameter group 2 ) address definition: 105
1# module ( CH1-CH8) channel parameters (parameter group 3 ) address definition: 109
1# module ( CH1-CH8) channel parameters (parameter group 5 ) address definition: 110
1# module ( CH1-CH8) channel parameters (parameter group 6 ) address definition: 116
User-defined data area (parameter group 7 ) address table: 120
8-2-3-5 Register storage content (current temperature value) 121
8-2-3-6 Register storage content (output operand) 122
8-2-3-7 Input register storage content (others) 123
8-3 Appendix 3 : " XD1N-ET8000 and Delta touch screen communication case" 125
8-3-1 RS 485 communication 125
8-3-2 Ethernet communication 131
8-4 Appendix 4 : " Communication between XD1N-ET8000 and Delta PLC " 137
8-5 Appendix 5 : " Sensor Types Supported by XD1N Series Temperature Control Module" 140
User manual
About this manual
About this manual
This manual describes the use of the XD1N multi-channel temperature control module , including the following chapters.
Try to install or operate
Please read this manual carefully and make sure you understand the contents before using the XD1N multi-channel temperature control module.
·Overview
Chapter 1 Overview describes the features of XD1N , names of each part, functions, label contents, and ordering information.
·Hardware and software introduction
Chapter 2 Preparation Work describes the preparation work required to use XD1N , including installation, wiring, use of debugging software, module upgrade and other information.
·Typical application examples
Chapter 3 Typical Control Examples describes the basic application of XD1N (software usage, parameter setting, monitoring and debugging) with specific control examples.
·Basic parameter setting instructions
Chapter 4: XD1N basic unit function parameter setting instructions.
· RS485 communication instructions
Chapter 5 RS485 Communication Description describes the XD1N module M0DBUS RS485 communication protocol specifications.
· Ethernet communication instructions
Chapter 6 Ethernet Communication Description describes the XD1N module M0DBUS TCP/IP communication protocol specifications.
·troubleshooting
Chapter 7 Troubleshooting describes solutions to possible problems that may arise in checking operation based on the classification of the temperature control module status.
·Parameter list and communication cases
The appendix of Chapter 8 provides parameter list, status list, module address details, communication cases with the host computer and other information.
! Failure to read and understand this manual may result in personal injury or death, property damage, or product failure. Please read each section in its entirety and make sure you understand each section and its related sections before attempting any procedure.
User manual
Chapter 1 Overview
Chapter 1
Overview
This chapter mainly introduces the characteristics, professional terms and functions of the XD1N series temperature control module.
1-2-2 indicator light definition 14
1-3 I/O configuration and main functions 15
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1-1 Product Overview
The XD1N series single module provides 4/8 channels of sensor input, which can simultaneously measure 4/8 different temperatures and control 4/8 outputs .
The XD1N series includes: host module, expansion module. One XD1N host can be connected to up to 15 expansion modules, and can perform up to 128 channels of temperature control. With RS485 or Ethernet , multiple XD1N hosts can be connected to achieve temperature control of up to a thousand points.
1-1-1 product features
The XD1N series is a multi-channel modular temperature controller. The modular design is convenient for users to apply and install. The host collects information from each expansion module and the channels are completely isolated, which can improve the stability of measurement.
• A single host module can control the temperature of 4/8 channels .
• A single host module can be expanded with 15 expansion unit modules.
• The terminal block can be removed and connected.
• The host module supports RS485 and Ethernet communication.
• Modular design simplifies wiring installation.
• Complete isolation between channels.
• The host module collects expansion module information to improve information exchange efficiency.
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1-2 Part name
1-2-1 appearance interface
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1-2-2 indicator light definition
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1-3 I/O configuration and main functions
1-3-1 I/O configuration
1-3-2 Main functions
• The main input channels CH1-CH8 of a single module are temperature sampling input ports.
• The control outputs CH1-CH8 of a single module are temperature control output ports, corresponding to the main input CH1-CH8 .
• A single host module can be expanded with 15 expansion modules through the inter-module communication interface .
• The terminal block can be removed and connected.
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1-3-3 Electrical indicators
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1-4 label description
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1-5 Purchase information
XD | _N | - | E | T | 8 | 0 | 0 | 0 |
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1-5-1 Ordering Guide (Example)
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| XD1N-ET8100 |
| TC | 8 |
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Note:
( 1 ) The expansion module does not have an external 24V power input terminal and cannot be used alone.
( 2 ) Please pay attention to the manufacturer’s official website announcement for model updates.
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Chapter 2 Hardware and Software Introduction
Chapter 2
Hardware and software introduction
This chapter mainly introduces the preparation work, installation, wiring and station address setting, connection monitoring, parameter setting, etc. required for using XD1N .
Chapter 2 Hardware and Software Introduction 19
2-3-1 Operating environment 23
2-3-2 Software installation 23
2-4-3 Communication settings 27
2-4-3-1 RS485 communication parameter setting 27
2-4-3-2 Ethernet communication parameter setting 29
2-5 Expansion module internal communication station address automatic allocation 32
2-7-2 Basic parameter setting 39
2-7-5 Control parameter setting 42
2-7-6 LSP group parameter setting 43
2-7-7 PID group parameter setting 44
2-7-10 RS485 communication station number setting 48
2-7-10-1 RS485 communication station number 48
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2-1Hardware installation
2-1-1 Dimensional unit ( mm)
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2-2 terminal arrangement
8- channel host module:
PT series TC series
8-channel expansion module:
PT series TC series
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4- channel host module
PT series TC series
4- channel expansion module
PT series TC series
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2-3 Software installation
The software is used for XD1N series temperature control module parameter setting, monitoring and debugging, and supports Ethernet and RS485.
Communication connection.
2-3-1 Operating environment
1 , 2 , 3... The following configuration is recommended for the running and installation environment of the host computer software:
1.OS :
Windows 7 [32bit or 64bit] or above
2. CPU : 1GHz or above
3. Memory environment: 1[GB] or more
4.Display
Compatible with Windows displays with a resolution of XGA (1024 × 768 [pixel]) or above.
5.Hard disk
Hard drive space capacity of 100[MB] or more.
2-3-2 Software installation
1 , 2 , 3... 1. Start the XD-SDP installer
Double click - XD-SDP_S tandard_ Setup -***.msi
Figure 2.2.1
2. Display the installation preparation screen
Confirm the installation of [ XD-SDP ] and click [Next]
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3. Sign the use commitment letter
When using this software, please pay attention to the content of the use commitment letter and read it carefully.
If there are no problems, click [Agree] and then click [Next]
4. Follow the prompts to complete the installation.
Click the [Close] button to complete the installation.
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2-4 Software connection
Debugging Guide
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2-4-1 Enter the project
1 , 2 , 3... 1. Double-click on the desktop to start [ SD-SDP.exe ], and the following dialog box will pop up. Please choose different ways to enter the project.
1.1 New construction
Click [New Project] and [OK] to create a new project.
1.2 Select existing projects
Click [Select an existing project] and [OK] to import the previously created and saved project, as shown below:
1.3Default last project
Click [Default last project] and click the [OK] button to read the project saved when XD-SDP was closed last time.
and enter.
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2-4-2Initial settings
After entering as [New Project], you need to configure the temperature control module and perform initial parameter settings.
Can communicate with the temperature control module. Entering in the other two ways will automatically import the previous project configuration, and you can directly
Please skip this section.
2.1 Add and delete modules
Open the XD-SDP software and when creating a new project, the system default setting is module 1, and the module name is customized.
After entering the main project screen, click [Options] - [Add and Delete Modules] in the menu bar to enter the Add and Delete Modules screen.
As shown below:
In this screen, you can add / delete modules, and rename / modify notes on existing modules.
do.
2-4-3 Communication settings
Please choose different communication connection methods according to the networking method :
( 1 ) RS -485 communication parameter setting
( 2 ) Ethernet communication parameter setting
Purpose: Use SD-SDP debugging software to establish a communication connection with the module through a personal computer.
Set the communication parameters through [Options] - [Communication Settings ] to establish a connection between the module and the PC- side SD-SDP software.
2-4-3-1 RS485 communication parameter setting
1 , 2 , 3... 1. Select the device you want to connect in the left area of the main screen, as shown in the figure below:
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2. Enter the communication setting screen through [Options] - [Communication Settings ] , as shown in the figure below:
3. In the communication setting screen, select the tab [RS-485] and set the properties of the required connected device.
As shown below:
4. After the setting is completed, you can click the [Connection Test] button to test whether the parameters are set correctly. If it prompts "Connection Test"
"Try successful" means that the connection can be established normally, as shown in the following figure: (This step can be omitted)
5. Click the [OK] button to save the current settings. After returning to the main screen, select the module and right-click
[Connect] to establish the current connection, as shown in the figure below:
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2-4-3-2 Ethernet communication parameter setting
There are two descriptions for new modules and already set modules:
1. New modules:
In order to establish a connection between the new temperature control module and the PC-side SD-SDP software for monitoring and debugging,
In [Module 1]-[ Options] - [Communication Settings ] - [ E thernet ] - [ IP Search ] the following address:
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2. Modules have been set:
Then use the IP search function to check the IP address of the module and establish a connection with the PC .
1 , 2 , 3.... 1. Set the IP address of the PC : such as 192.168.0.2 or other addresses. Make sure it is in the same network segment as the module IP .
Select the device you want to connect to in the left area of the main screen, as shown in the figure below:
3. Enter the communication setting screen through [Options] - [Communication Settings ] , as shown in the figure below:
4. In the communication setting screen, select the label [ Ethernet ], as shown in the figure below:
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5. Click the [ IP Search ] button, as shown in the figure below:
6. Click [Refresh List], select the corresponding network card, and then click the [Search] button, as shown in the figure below:
7. After the search is completed, select the object and click the [OK] button, as shown in the figure below:
8. You can click the [Connection Test] button to test whether the parameters are set correctly. If it prompts "Connection Test"
"Successful" means that the connection can be established normally. As shown in the figure below: (This step can be omitted)
9Click the [OK] button to save the current settings. After returning to the main screen, select the module and right-click
[Connect] to establish the current connection, as shown in the figure below:
Remark
( 1 ) The purpose of [ IP Search] in [Options] - [Communication Settings ] is to read the module IP and establish a connection with the PC .
( 2 ) The IP address assigned to the module in the project needs to be set in [Module] - [Communication Settings] after the module has established a connection with the PC . For details, please refer to " 2-7 Parameter Settings 2-7-11 " "Ethernet IP address settings are explained".
2-5 Expansion module internal communication station address automatic allocation
This temperature control module provides the function of automatically assigning internal communication station addresses to expansion modules connected to the host module.
Before performing address assignment settings, please cut off the power supply, securely connect the expansion module hardware, and then turn on the power again.
Note:
( 1 ) The expansion module does not support hot insertion and removal. Please do not add or replace modules while the power is on.
( 2 ) When the host module is connected to multiple expansion modules, it is recommended to terminate the internal communication of the last expansion module.
Set the DIP switch of the terminal resistor to the [ ON ] position (the factory default is [ OFF ]).
(3)
modules只
allow
the last one
Expand
module
The DIP switch is in [ON
】Location,2个
Or more than two expansion module DIP switches are in the [ ON ] position, which will cause the communication to operate abnormally .
The automatic allocation operation is as follows:
1 , 2 , 3... 1. After operating 2-4 communication settings and successfully connecting to the PC , select the module, click [Options] - [ Set Slave Address ], [Auto Number] to set the current The expansion modules of each module in the project automatically assign communication station addresses.
The operation steps are shown in the figure below:
2. Click [Auto Number], as shown in the figure below:
3. After the automatic address allocation is completed, the internal station addresses of all expansion modules under the module will be automatically updated and established.
connect .
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Remark:
( 1 ) If there are multiple modules, each module needs to perform the [Automatic Numbering] step once.
( 2 ) During the execution of [Automatic Numbering], the expansion module output indicator light performs a ticker action.
( 3 ) After the current module [automatic numbering] operation is successful, the internal communication station address is automatically assigned to the expansion module.
( 4 ) If the modules in the project are replaced (host module, or expansion module) or automatically numbered successfully
If the modules in the module change their positions, the [Automatic Numbering] step must be performed again for the module.
( 5 ) After this step is successfully executed, you can debug, monitor and set parameters for the expansion module in the module.
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2-6 connection monitoring
The monitoring screen is also the main screen of this software. Execute " 2-4 Communication Settings", " 2-5 Expansion Module Internal Station Location"
After the "Address Automatic Numbering" is successful, click [Monitoring Screen] - [Module] - [Module] in the left area and then click the upper right
Click the [Connect] button in the corner to enter the monitoring and debugging state, as shown in the following figure:
2-6-1 real-time data
After connection, the screen can display real-time [PV value], [SV value], [proportional band], [integration time],
[ Differential time ], [ Operation volume ] and other information . As shown in the picture:
Operation command:
( 1 ) Click the [Start / Stop] switch and the auto-tuning [Start / Stop] switch to change the start/stop or auto-tuning status of the current channel.
( 2 ) Double-click the [ SV Value ], [ Proportional Band ], [ Integral Time ], and [ Derivative Time ] labels to change the setting parameters of the current channel .
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2-6-2 Dynamic trends
This screen can display the dynamic trend of temperature collected by 8 channels , as shown in the figure:
1 ) Double-click the color label to modify the color of the selected channel.
2 ) Click [Auto Adjust] to zoom the screen to the optimal ratio.
3 ) Click [Save to local] to save the screen to local, which can be viewed in [Options] - [ View historical curve ]
View the saved footage .
4) Support operations:
Scroll wheel: Zoom in and out of the timeline .
Ctrl+ Scroll Wheel: Scale the temperature axis .
Mouse drag: move the current graphic .
Mouseover: Displays the temperature and time at the hovered location .
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2-6-3 Alarm
This screen displays the abnormal conditions of each module in the project, as shown in the figure:
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2-6-4 View historical data
Click [Options] - [View Historical Curve] in the menu bar to enter the historical curve screen, as shown in the figure:
After exporting the dynamic trend curve of the monitoring screen, import it into the screen.
Supported operations:
Scroll wheel: Zoom in and out of the timeline .
Ctrl+ Scroll Wheel: Scale the temperature axis .
Mouse drag : move the current graphic .
Mouseover: Displays the temperature and time at the hovered location .
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2-7 Parameter setting
2-7-1 Function description
Click [Export Parameters] on the lower right to export the parameters in the software to an external file.
Click [Import Settings] on the lower right to import the exported parameters into the software.
Click [Read Settings] on the lower right to read the module's setting parameters from the module.
Click [Write Settings] on the lower right to write the module's setting parameters into the module.
Click [Restore Default Parameters] in the lower right corner to restore the module's setting parameters to their initial values.
Click [Calibrate Sensor] on the lower right to automatically calculate the bias and gain through the two-point method.
Click [Set Mapping Address] on the lower right to set the mapping address of the module.
Click Help on the lower right to view the analysis of the current setting screen.
Follow the steps below to set parameters:
1 , 2 , 3.... 1. Change the parameters that need to be modified or the content that needs to be operated.
2. Click the [Confirm] button. If there is any abnormality in the set data, a prompt will appear.
3. Click [Confirm] and then click [Write Settings] to indicate that the modified parameters are written to the module and the parameter modification is completed.
Remark
( 1 ) The communication parameter is the IP address assigned to the temperature control module in the project .
For example: In the entire project, the IP assigned to this temperature control module is: 192.168.0.15
Then enter 192.168.0.15 in [Setting Screen] - [Module] - [Set Communication Parameters] . If there is
For multiple modules, enter the corresponding IP address for each module.
( 2 ) After the communication parameter setting of the module is completed, the communication content in the software’s [Options] - [Communication Settings]
Automatically update the content in [Set Communication Parameters] to maintain a real-time connection between the current module and the PC XD-SDP software.
Automatically update the content in [Set Communication Parameters ] to maintain a real-time connection between the current module and the PC XD-SDP software.
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2-7-2 Basic parameter setting
Data valid range:
Autorun : valid / invalid
Delayed start : 0~600
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2-7- 3 Input settings
Data valid range:
Valid channels : valid / invalid
Sensor : supports PT , TC , all-pass
Gain : 0.000~10.000
Offset: -10.0~10.0
Filter factor 1 : 0~30
Filter factor 2 : 0~30
Filter factor 3 : 0~30
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2-7- 4 Output Settings
Data valid range:
Control mode: 0: heating 1: cooling
Output upper limit: 0.0~100.0
Output lower limit : 0.0 ~ 100.0
Control mode: PID / fixed operating value / 【 ON/OFF 】
Fixed operation amount : 0~100
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2-7- 5 Control parameter setting
Data valid range:
System type: 0 : Standard, 1 : Fast response
Control mode: heating, cooling, heating/cooling
Control cycle : 1 00~ 1 0000
Operation mode: fixed value / PID, fixed output, ON /OFF, ramp operation, cascade control, block control
Fixed output : 0.0~100.0%
Heating and cooling dead zone: - 3200.0~3200.0
ON/OFF control deviation: - 3200.0~3200.0
LSP group number: 0~8
Ramp up slope: 0 -32000
Ramp down slope: 0 -32000
Ramp units: 0 : 0.1 seconds , 1 : 1 minute, 2 : 1 hour
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2-7- 6 L SP group parameter setting
Data valid range:
LSP1 SP:-300.0~3000.0℃
LSP1 PID group number: PID1 group 1-PID8 group
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2-7- 7 PID group parameter setting
Data valid range:
Proportional band: 0.0 ~999.9
Points band: 0.0 ~99.9
Differential band: 0.0 ~999.9
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2-7- 8 Alarm settings
Provides two alarm contents [Alarm 1 ] and [Alarm 2 ] . The valid data range of each alarm is as follows
Data valid range:
Alarm 1 mode: 0~6
Alarm 1 function: 0~2
.Alarm 1 delay : 0~100 s
Alarm 1 upper limit : -300.0~3000.0 ℃
Alarm 1 lower limit : -300.0~3000.0 ℃
Alarm 2 mode: 0~6
Alarm 2 function: 0~2
.Alarm 2 delay : 0~100 s
Alarm 2 upper limit : -300.0~3000.0 ℃
Alarm 2 lower limit : -300.0~3000.0 ℃
User manual
2-7- 9 Set address mapping
In order to make it easier for customers to read and write data, this product provides an address mapping function. The user-defined data area is opened to customers, which is used to turn discontinuous parameter addresses into continuous addresses. The data length is 1024 addresses .
The mapping area is from 0X1C00-0X1FF0 , with a total of 1024 addresses .
Operation steps:
1 , 2 , 3.... 1. After the current module has established a connection with the PC , select the module to be set in the area setting interface on the left.
As shown below:
2. Hold down [ Shift ] on the computer - click [Set Mapping Address] to enter the custom mapping address screen , as shown in the figure below:
3. Click [View Parameters] to enter the mapping address editing screen , as shown in the figure below:
The mapping area is from 0X1C00-0X1FF0 , with a total of 1024 addresses. There are 16 addresses in a single row in the software mapping address table.
Setting method:
Please choose two different setting methods according to customer habits:
( 1 ) Press [Export Parameters] to export an EXCEL file, and edit the addresses that need to be mapped in the EXCEL table.
After checking, click [Import Parameters] to import the EXCEL file into the software to complete the address mapping .
settings.
( 2 ) In the mapping address table of this interface, manually enter the address that needs to be mapped, and click the [OK] button.
Note: ( 1 ) Please read the instructions carefully before setting.
( 2 ) The mapped address is stored in the host module. When replacing the host module, the mapped address needs to be re-imported or
Enter it manually once.
( 3 ) It is recommended that customers export parameters and save the EXCEL file after completing debugging .
User manual
2-7- 10 R S485 communication station number setting
When the client host computer communicates with multiple modules through RS485 , it is necessary to set the RS485 station number of the host module in each module .
Otherwise, communication connections cannot be established with each module, and duplicate or incorrect settings will cause errors in reading and writing data from the host computer.
Set communication parameters through [Options] - [Communication Settings ].
2-7-10-1 RS485 communication station number
Set the station number to 1 , 2 , 3...1. During use, the module in the general electric control cabinet has been installed, and the input and output lines on the module, the RS485 communication line and the host computer have also been connected. It is troublesome to remove the communication line from the host module and then use the 485 port to connect to the computer to set the station number. Therefore, it is recommended to use the Ethernet port to set the RS485 station number of each module host module.
Station number [display] 2. After the host module station number of each module is set one by one, check whether the station number of all modules is set correctly.
Switch to the RS485 communication setting interface, click [Display Station Number] - [Display], and the indicator light status of each module host module on the 4 85 link switches to the RS 4 85 station number display mode.
User manual
Set the purpose of this function:
When all station numbers are set, it is convenient for customers to check whether all RS485 station numbers are set correctly through the status of the indicator lights on the panel .
Station number [do not display]
3. Click [Show station number] - [Do not display], and the indicator light status of each module host module on the 4 85 link switches back to output.
Display mode.
Note: During normal operation, the indicator light status is in the output display mode. After operating the station number [display] function, when the verification is completed
After all station numbers are set without errors, you must operate the station number [not displayed] or power off the host modules of all modules and restart them.
times, let the indicator light status switch to output display mode.
Remark
( 1 ) The rules for the indicator light to display the station number. For details, please refer to the instructions in " 4-8 Setting the RS 4 85 Communication Station Number".
User manual
2-7- 11 Ethernet IP address setting
Purpose : Set the IP address of the module in the project .
The IP address assigned to the module in the project needs to be set in [Module] - [Communication Settings] after the current module has established a connection with the PC .
1 , 2 , 3.... 1. After the current module has established a connection with the PC , select the connected module in the left area, as shown in the figure below:
3. Enter the communication setting screen through [Options] - [Communication Settings ] , as shown in the figure below:
4. In the communication setting screen, select the tab [ Ethernet ], enter the IP address , and click [Write].
User manual
2-7-12 Slope control
Overview of slope control
Control the temperature according to the set slope.
Original SV : original set temperature value, new SV: new set temperature value
How to set slope control
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Slope setting example:
For example: the original set value is 3 0 , the new set temperature value is 1 00 , the ramp up slope is set to 1000 , the ramp unit
Set to 0 (unit: seconds)
It means that the time it takes to rise from the original set temperature of 30 degrees to the target temperature of 100 degrees is 1000 seconds .
User manual
2-8 Exception prompts
When there is an abnormality in the module, the module's abnormal light will flash, and the corresponding module in the management area will be marked red.
As shown in the figure below:
When there is an exception in the module:
The alarm light will appear and flash in the upper right corner of the [Monitoring Screen] and [Setting Screen].
Double-click the alarm light and it will automatically jump to [Monitoring Screen] - [ Alarm ], which will display the current alarm information .
As shown in the picture:
User manual
2-9 Equipment information
View device information for connected modules.
Right-click the module in the left area and select Device Information to view the device information of all modules of the current module, as follows
As shown in the picture:
User manual
Chapter 3 Typical Control Cases
Chapter 3
Typical control cases
This chapter mainly introduces the basic application of XD1N through specific control examples .
Chapter 3 Typical Control Cases 54
3-1 Typical single module control configuration 55
3-1-3 Communication settings 56
3-1-4 Module parameter setting 57
3-1-5 PID parameter self-tuning 58
3-2 Typical multi-module control configuration 59
3-2-4 Communication Settings 59
3-2-5 The internal station address of the expansion module is automatically assigned 60
3-2-6 Module parameter setting 60
3-2-7 PID parameter auto-tuning 61
3-3 Typical multi-module control configuration 62
3-3-4 Communication Settings 63
3-3-5 Extension module internal station address automatic allocation 63
User manual
3-1 Typical single module control configuration
3-1-1 Application
This chapter is about the application case of a small electronic oven and explains how to start and control the temperature with only one temperature control module.
Configuration:
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XD1N-ET8000 ( new module ) default IP address: 192.168.0.3 Port number: 1024
Note: The module name can be named according to customer needs in the software. This example is named: Module 1
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Control requirements:
3-1-2 Wiring
User manual
3-1-3 Communication settings
Use the XD-SDP debugging software to set the parameters of the XD 1 NE T8 000 via a personal computer .
Follow these steps to set parameters:
1, 2, 3.... 1. Turn on the power of the XD1N module.
2.Connect the cable
Use a cable to connect the Ethernet interface of your computer to the Ethernet interface on the XD 1 NE T8 000 .
3. Set the IP address of the PC : such as 192.168.0.2 or other address, make sure it matches the IP of module 1
( 192.168.0.3 ) in the same network segment.
4. Open the XD - SDP software, create a new project, and go to [Options] - [Communication Settings] - [ E thernet ] - [ I P
Search] to establish a connection with this module.
IP search method: (Refer to "2-4-3-2 Ethernet Communication Parameter Settings" in the catalog " 2-4-3 Communication Settings " )
After the setting is completed, select the module [Module 1 ], right-click and select [Connect], as shown in the figure below:
5. After the communication connection with PC is successful, select [Module 1 ] - [Communication Settings] - [ Ethernet ] to set the IP address of the module . IP address: 192.168.0.10 Port number: 1024
Note: For the module parameter setting operation method, please refer to the instructions in the " 2-7 Parameter Setting" chapter.
User manual
3-1-4 Module parameter setting
Setting method: refer to the instructions in the catalog " 2-7 Parameter Settings"
Parameter setting and operation commands of XD1N-ET8000 in this example
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3-1-5 PID parameter self-tuning
Execute PID auto-tuning button to auto-tune PID parameters.
Follow the steps below to perform PID parameter auto-tuning:
1 , 2 , 3.... 1. While connected, click [Monitoring Interface] to select [Real-time of module [Module 1 ] - [Main Module #1 ]
data】.
2. Activate the CH1 [Start / Stop] switch to put CH1 into working status.
3. Activate the CH1 auto-tuning [Start / Stop] switch to put CH1 into the auto-tuning state, as shown in the figure below:
4. The self-tuning process takes a certain amount of time. You can switch to the [Dynamic Trend] screen in this interface to view the temperature.
degree control curve.
5. After the auto-tuning is completed, CH1 [Running Status] changes to the " Running " status, and the PID parameter values are automatically refreshed.
6. After the self-tuning is completed, the temperature of the module [ Module 1 ] - main module #1-CH1 channel enters the PID temperature control state.
Switch to the [Dynamic Trend] screen in this interface to view the temperature control curve and current temperature value ( PV value)
Automatic control based on the set value ( SV value).
If the temperature control accuracy does not meet the requirements, there may be a problem with the PID auto-tuning process. You can repeat step 3 .
The action performs self-tuning again.
Note: ( 1 ) Before starting auto-tuning, be sure to ensure that the external wiring is correct.
( 2 ) Before starting self-tuning, the absolute alarm value needs to be set first to ensure safety during the self-tuning process.
( 3 ) Before starting self-tuning, the temperature setting value must be set to the temperature value that the equipment needs to operate.
(4) During the entire self-tuning process, the current temperature will exceed the set temperature within a certain range (the purpose is to automatically adjust the output temperature
change trend ) , if it is found that the auto-tuning ends halfway, increase the absolute alarm value and then re-auto-tune.
( 5 ) During the self-tuning process, pay attention to the changes in temperature and the operation of the equipment.
User manual
3-2 Typical multi-module control configuration
3-2-1 Application
This example is an application case of XD1N-ET8000 ( host module ) with 5 XD1N -T8000 ( extension modules ) .
By adding expansion modules, the system can be expanded to 48 channels of temperature control.
Configuration:
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| XD1N-T8000 | 5 |
XD1N-ET8000 ( new module ) default IP address: 192.168.0.3 Port number: 1024
Note: The module name can be named according to customer needs in the software. In this example, it is named: Module 1
3-2-2System architecture
3-2-3 wiring
Refer to the terminal wiring instructions for wiring.
3-2-4 Communication settings
The content of "Communication Settings" in 3-1-3 in parameter " 3-1 Typical Minimum Control Configuration" .
User manual
3-2-5 Automatic allocation of station addresses within the expansion module
Use XD-SDP software to connect to the XD1N-ET8000 host and expand the module through Ethernet
Automatic assignment of internal station addresses.
Before performing address allocation settings, please cut off the power and securely connect the expansion module hardware and then power on again.
The automatic allocation operation is as follows:
1 , 2 , 3... 1. After the communication connection with the PC is successful, select the module and click [Options] - [ Set Slave Address ], as shown in the figure below:
2. Click [Auto Number], as shown in the figure below:
3. After the address is assigned, the internal communication station addresses of all modules under the module will be automatically assigned and the connection will be established.
Please refer to the chapter " 2-5 Expansion Module Internal Communication Station Address Automatic Assignment" for specific instructions .
3-2-6 Module parameter setting
Refer to the "Module Parameter Setting" method in 3-1-4 in " 3-1 Typical Minimum Control Configuration" .
User manual
3-2-7 PID parameter self-tuning
Refer to the content of " PID Parameter Auto-tuning" in 3-1-5 of " 3-1 Typical Minimum Control Configuration" .
One-button start, self-tuning button (operate the modules CH1-CH8 simultaneously to start and self-tuning)
1, 2, 3.... 1. Press the all-channel start/stop switch to put CH1-CH8 into working status.
2. Press the all-channel auto-tuning start / stop switch to put CH1-CH8 into auto-tuning state.
Because the time required for self-tuning of each channel of CH1-CH8 is different, the operating status of CH1-CH8 is from self-tuning to - - -
All display is running, which means that the self-tuning of the 8 channels of the module is completed.
Note: ( 1 ) Before starting auto-tuning, be sure to ensure that the external wiring is correct.
( 2 ) Before starting self-tuning, the absolute alarm value needs to be set first to ensure safety during the self-tuning process.
( 3 ) Before starting self-tuning, the temperature setting value must be set to the temperature value that the equipment needs to operate.
(4) During the entire self-tuning process, the current temperature will exceed the set temperature within a certain range (the purpose is to automatically adjust the output temperature
change trend ) , if it is found that the auto-tuning ends halfway, increase the absolute alarm value and then re-auto-tune.
( 5 ) During the self-tuning process, pay attention to the changes in temperature and the operation of the equipment.
User manual
3-3 Typical multi-module control configuration
3-3-1 Application
This example is an application case of two modules composed of two XD1N-ET8000 (hosts).
By adding modules, the system can be expanded to thousands of channels of temperature control.
Configuration:
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XD1N-ET8000 ( new module ) default IP : 192.168.0.3 Port number: 1024
Note: The module name can be named according to customer needs in the software. In this example, it is named: Module 1 , Module 2
Control requirements: IP address assigned to module 1 by the project: 192.168.0.18 Port number: 1024
IP address assigned to module 2 by the project: 192.168.0.19 Port number: 1024
3-3-2 System Architecture
User manual
3-3-3 Add modules
Add modules:
Open the XD-SDP software, when creating a new project, click [Options] - [Add and Delete Modules] in the menu bar to enter add and delete
Module screen, in this screen, add module 2. As shown in the figure below:
3-3-4 Communication settings
Refer to the "Communication Settings" method in 3-1-3 in " 3-1 Typical Minimum Control Configuration" ,
Use the PC software to set the following parameters:
( 1 ) After successful communication connection with PC , select [Module 1 ] - [ Communication Settings] - [ Ethernet ] to set the IP address of module 1 , IP address: 192.168.0.1 8 Port number: 1024
( 2 ) After successful communication connection with PC, select [Module 2 ] - [ Communication Settings] - [ E thernet ] to set the IP address of module 2 , IP address: 192.168.0.1 9 Port number: 1024
3-3-5 Automatic allocation of station addresses within the expansion module
In the online state, the expansion modules of module 1 and module 2 are [automatically numbered].
3-3-6 Module parameter setting
Refer to the method operation in " 3-1 " case.
3-3-7 PID parameter self-tuning
Refer to the method operations in " 3-1 " or " 3-2 " cases.
User manual
Chapter 4 Basic Parameter Description
Chapter 4
Basic parameter description
This chapter mainly introduces the basic parameter applications of the XD1N series.
Chapter 4 Basic Parameter Description 64
4-1 Set input specifications 65
4-1-3 Input gain and offset (correction) 65
4-2 Set output specifications 68
4-2-1 Minimum output ON/OFF width (system internal parameter) 68
4-2-2 Operation volume upper limit / operation volume lower limit 68
4-2-3 Operating volume rising change limit / operating volume falling change limit 69
4-2-5 Current output lag time 69
4-3 Set control specifications 70
4-3-4 fixed output ( operated value ) 71
4-3-5 Heating and cooling dead zone 71
4-3-6 ON/OFF control deviation 71
4-4 Set LSP group parameters 73
4-5-2 set value ( SV value) 75
4-5-3 PID value description 75
User manual
4-1 Set input specifications
4-1-1 input type
Set the input type to match the type of sensor being used.
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TC:0 |
NOTE This parameter can only be set when operation is stopped.
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T | 2 | -210-400 | ||
E | 3 | -270-1000 | ||
N | 4 | -200-1300 | ||
B | 5 | 0-1820 | ||
R | 6 | -50-1768 | ||
S | 7 | -50-1768 | ||
| PT100 | 9 | -200-500 | |
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| 0-10V | 11 |
4-1-2 Temperature input
temperature unit
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Note: This parameter can only be set when the operation is stopped . Currently, only 0 is supported.
4-1-3 Input gain and offset (correction)
If the temperature at the measuring point is significantly different from the displayed temperature, the current sensor position ( measuring point)
Where the display/control performance is not satisfactory, the temperature difference can be set as the input gain offset (correction value).
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Correction formula: T = (Gain × T 0 ) + Offset. ( T is the displayed temperature, T 0 is the temperature before correction)
User manual
Gain:
When there is a deviation between the actual temperature of the sensor and the displayed temperature during use, this module provides correction methods to correct the displayed temperature.
indicates the temperature.
Simple Offset: One Point Offset
The temperature measurement is offset at all points within the sensor range. For example, if you want the temperature to rise by 1.2
℃, then make the following settings.
• Input offset = 1.2
Calculate the input offset value to measure the temperature at two points: the current value displayed by the XD1N and the position to be displayed (control target).
Preparation
1. Set the input type to match the sensor used.
2. Prepare a thermometer that can measure and control the target temperature, as shown in the figure below, to facilitate the measurement of temperature offsets
User manual
4-1- 4 filter factors
When the input jumps too frequently, the filter factor can be adjusted to make the temperature control more stable. The larger the filter factor, the smoother the change, and the real-time performance becomes worse. The system supports 3 filtering methods. A filter factor value of 0 means that the filtering method is not enabled.
Filter factor 1 :
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Filter factor 2 :
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Filter factor 3 :
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User manual
4-2 Set output specifications
4-2-1 Minimum output ON/OFF width (system internal parameter)
Set the minimum output ON/OFF width.
When using output relays, this feature can be used to prevent relay damage. The figure below shows the relationship between MV and actual output.
example:
When the control time is 10s , the minimum
Output ON/OFF width is 10.0%
And if the MV is less than 10.0% , lose
The output will be 0% .
When MV is 90.0% or above,
The output will be 100%.
Note: System parameters cannot be modified by customers.
4-2- 2 Upper limit of operation volume / lower limit of operation volume
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User manual
4-2- 3 Operation volume rising change limit / operating volume falling change limit
The control loop can limit changes in the operating variable ( MV) .
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Please set the maximum operating amount change per 1 S in absolute value (%). However, the change in operation volume per sampling period is affected by
The limit of the value obtained by multiplying the set value by the number of seconds of the sampling period.
For example: when the sampling period is 0.01S and is set to 5.0 (% / S) , the maximum operating volume change is subject to 0.05 %
restrictions.
When set to 0, there is no operating variable change limit.
During ON/OFF control, the operating variable change limiter is invalid.
4-2-4 current output range
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4-2- 5 Current output lag time
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User manual
4-3 Set control specifications
4-3-1 system type
selector switch
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Note: This parameter can only be set when the operation is stopped , and is disabled by default.
4-3-2 control method
selector switch
Optional heating, cooling, heating / cooling
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NOTE This parameter can only be set when operation is stopped
4-3-3 operating mode
selector switch
PID control, fixed operating quantity output control or ON/OFF output can be selected .
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NOTE This parameter can only be set when operation is stopped
PID mode:
Perform P (proportional) I (integral) D (differential) calculation on the deviation between the current temperature and the set value , and output appropriate control
signal to the actuator.
The PID value can be adjusted manually or the best PID value can be obtained through self-tuning. It is generally recommended that customers choose
Use self-tuning.
User manual
4- 3 - 4 fixed output ( operated value )
Fixed operation output
Output fixed operation amount
It outputs a fixed operating quantity, the temperature control does not perform PID control, and the temperature value does not automatically adjust with the set value ( SV ).
Section, continuous heating or cooling.
Note only used in debugging or fault diagnosis, default value 0
4-3-5 Heating and cooling dead zone
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Note: It is only valid in the control mode [ heating/cooling] system.
For example, if the target temperature is 100 °C and the heating and cooling dead zone is set to 5.0 , the cooling output will start when the current temperature reaches 105 ° C.
If the heating and cooling dead zone is set to 0 , the cooling output will start when the current temperature reaches the target temperature of 100° C .
vice versa.
4- 3 - 6 ON/OFF control deviation
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Note: ON/OFF control means that when the value is lower than ( current set value + 0N/OFF control deviation) , the control output is turned ON; when it is higher than ( current set value + 0N/OFF control deviation value) , the control output is turned ON. Control output OFF. (when running in reverse) .
For example, if 1 00 ℃ is set and the ON/OFF control deviation is set to 5 , then the current temperature reaches 1 05 ℃ and the output is OFF .
If the ON/OFF control deviation is set to 0 , then OFF will be output when the current temperature reaches the target temperature of 100 ° C .
vice versa.
4- 3 - 7 LSP group number
A single channel has 8 sets of LSP numbers, namely LSP0-LSP7.
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Usage steps:
1 , 2 , 3.... 1. In [Setting Screen] - [ L SP Group], preset L SP SP (setting value) and select the LSP P ID group number.
For example, the default L SP1 SP:60.0 LSP1 PID group: P ID group 1 , L SP8 SP:400.0 LSP8 PID group: P ID group 8 ,
Note: A single channel can pre-store up to 8 temperature setting values and corresponding P ID values.
2. In [Setting Screen] - [ PID Group], preset the PID group 1 value and PID group 8 value as follows:
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3. Select the LSP group number in [Setting Screen] - [Control Parameters] , select: 0 : LSP1 group, that is, call the P ID value corresponding to 6 0 degrees
Choice: 7: LSP8 group, that is, calling the P ID value corresponding to 4 00 degrees
User manual
4-3-8 ramp up / down slope
The rising slope and falling slope of the SP slope can be set for each control loop .
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When the initial value is 0 , the SP ramp does not operate. So if the rising slope is set to be greater than 0 , the falling slope
If set to 0 , the SP ramp will act only when SP rises , and when SP falls, the SP ramp will not act.
On the contrary, the SP ramp can also be set to act when SP falls and not act when SP rises.
4-3-9 ramp unit
The time unit of the S P slope of each control loop can be set in one of seconds, minutes, and hours.
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4 -3- 10 control cycle
Control output method
The control output uses the time proportional output method.
MV determines the percentage of time the output is on during each control cycle.
NOTE Control response improves as the control period shortens, but if the relay is being used to control a heater ,
The life of the relay will also be shortened, so we recommend a control cycle of at least 20 seconds.
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User manual
4- 4Set L SP group parameters
LSP1 SP is used in conjunction with the LSP1 PID group number. The LSP group supports up to 8 preset SPs (set temperature values)
Each SP (set value) can select a group of P ID values using L SP1 PID1 group - LSP1 PID8 group .
example:
There are two heating systems with temperatures of 60 ℃ and 400 ℃. When a set of P ID parameters cannot meet the control accuracy requirements, the L SP group function can be enabled.
1 , 2 , 3... 1. Set the following parameters in [Setting Screen] - [ LSP Group]:
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When the temperature is set to 6 0.0 , the P ID value of P ID group 1 is selected .
When the temperature is set to 400.0 , the P ID value of P ID group 8 is selected .
2. Set the following parameters in [Setting Screen] - [ PID Group]:
Set the P ID value in PID group 1 in [Setting screen] - [ PID group], as follows:
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| 15.0 |
| 40.0 |
Proportional band (heating) 1, integral band (heating) 1, differential band (heating) 1 represent the PID value of PID group 1.
Set the P ID value in PID group 8 in [Setting screen] - [ PID group], as follows:
| CH1 |
| 8.0 |
| 17.0 |
| 30.0 |
Proportional band (heating) 8 , integral band (heating) 8 , differential band (heating) 8 represents the P ID value of P ID group 8
Note: P ID values under different temperature settings can be obtained through self-tuning.
Select the L SP group number in [Setting Screen] - [Control Parameters] , as follows:
Select: 0 : LSP1 group, that is, call the P ID value corresponding to 60 degrees
Choice: 7: LSP8 group, that is, calling the P ID value corresponding to 4 00 degrees
User manual
4-5Set P ID parameters
4-5-1Set P ID value
PID is divided into two sets of heating / cooling parameters, and supports up to 8 groups of P ID, namely P ID group 1 - PID group 8.
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step:
1, 2, 3.... 1. Set the LSP SP (setting value) in [Setting Screen]-[LSP Group] and select the PID group number used by the LSP SP group number..
2. Set the PID value in [Setting Screen] - [ PID Group] . This value can be obtained through auto-tuning.
3. Select the LSP group number in [Setting Screen]-[Control Parameters].
Note: The values of the P ID group corresponding to different temperature set values ( L SP SP ) can be automatically calculated through P ID self-tuning.
For example: when the set temperature is 60 degrees , auto-tuning is performed once to set the corresponding P ID value.
Then change the set temperature to 400 degrees , and auto-tune it again to get the corresponding P ID.
User manual
4-5-2 set value ( SV value )
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4- 5 - 3 PID value description
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(1) When the control characteristics are unknown, use the currently set PID for automatic adjustment. After performing PID self-tuning, it will automatically
Set the optimal PID constant for the current set value.
(2) When the control characteristics are known, the PID parameters can be directly set to adjust the control. The PID parameters include proportion
Band (P), integral time (I) and derivative time (D).
• Proportional action: In proportional action, the MV is proportional to the offset value (control error).
• Integral action: This control action produces an output proportional to the time integral of the control error.
Offset usually occurs under proportional control, so proportional action is performed together with integral action.
As time passes, the offset disappears and the control temperature (current value) matches the setpoint.
• Derivative action: A control action that produces an output proportional to the rate of change of the input. Due to proportional control and integral
The control is corrected for errors in the control results, and the control system will respond more slowly to sudden changes in temperature.
Differential action performs corrective action by increasing MV in proportion to the slope of the temperature change。
• Effect of changes in P (proportional band)
• Effect of changes in I (integration time)
• Effect of D change (derivative time)
User manual
4-6 Set alarm parameters
The alarm function includes five options: alarm mode, alarm function, alarm delay, alarm upper limit, and alarm lower limit. Customers can customize the alerts they want to output based on these five options. When conditions are met, alert status is sent via communication.
4-6-1 Alarm Mode
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4-6-2 Alarm Function
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4-6-3 Alarm Delay
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4-6-4 alarm limit
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4- 6-5 Alarm lower limit
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User manual
4-7 Set address mapping
In order to make it easier for customers to read and write data, this product provides an address mapping function. Open user-defined data area to customers, which is used to turn discontinuous parameter addresses into continuous addresses.
The mapping area is from 0X1C00-0X1FF0 , with a total of 1024 addresses .
Please refer to Chapter 2-7-9 (Setting Address Mapping) for the steps and methods of setting address mapping .
User manual
4-8 Set the RS485 communication station number
The XD1N host module establishes communication with the host computer. If you choose RS485 communication, you need to set the RS485 communication station number for the host module of each module (the module itself does not support the physical DIP switch to set the station number), which needs to be done through the XD-SDP software. set up.
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4-8-1 Station number display rules
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Through the status of the indicator light on the XD1N panel, the station number of the current module host module can be calculated.
illustrate:
The station number passes through hundreds, tens, and ones digits
Composed of three numbers.
User manual
Chapter 5 485 Communication Instructions
Chapter 5
RS485 communication instructions
This chapter mainly introduces the application of RS485 ModBus communication parameters of the XD1N series .
Chapter 5 485 Communication Instructions 79
5-1 Overview of communication protocol 80
5-3 RS-485 communication specifications and protocol description 81
User manual
5-1 Overview of communication protocol
( 1 ) Communication is programmed via the host computer. Therefore, the communication instructions in this manual are also provided by the host
Written from a computer perspective , for example : about reading and writing, which means reading data from the XD1N to higher-level calculations
machine and write data from the host computer to the XD1N .
(2) The XD1N series temperature control module provides standard RS -485 communication interface and Ethernet communication interface. Users can
PC /HMI/PLC realizes centralized monitoring (sending control instructions, setting the working parameters of the temperature control module and reading the temperature control module
block's working status, real-time temperature value) to meet the user's specific requirements.
( 3 ) This protocol is based on the standard Modbus protocol ※1 , in order to realize Modbus RTU and Ethernet via RS -485 interface
Designed by Modbus TCP/IP with Ethernet interface .
5-1-1 Agreement Contents
This protocol adopts the form of "main module polling (or broadcast), and slaves respond respectively". Users can choose PC/ HMI/PLC
As the main module, the temperature control module is controlled as a slave.
The sequence of message transmission is as follows:
( 1 ) The master module sends command messages to the slave machine.
( 2 ) The slave machine confirms whether the station number in the received message is the same as its own station number.
( 3 ) If consistent, execute the instruction and return a response message.
( 4 ) If inconsistent, discard the received instruction message and wait for the next instruction message.
a ) The station number in the command message is consistent with the station number of this station
B ) The station number in the command message is inconsistent with the station number of this station
( 5 ) After the master module sends the command message, the slave does not respond and can be retried more than 3 times.
( 6 ) The main module can communicate with multiple slaves connected on the same line by specifying the station number of the command message.
5-2 Scope of application
5-2-1 applicable products
XD1N full range of temperature control modules.
5-2-2 applicable method
( 1 ) Connect to the PC/ HMI/PLC control network with the "single master multiple slaves" mode of RS -485 bus .
( 2 ) Connect to the PC/ HMI /PLC control network with the "single master multiple slaves" mode of industrial Ethernet bus .
Remarks: (1 Standard Modbus protocol messages are available in RTU format and ASCII format. The XD1N series temperature control module only supports RTU format.
( 2This product supports both RS -485 interface and Ethernet interface, so there is no need to switch the communication interface settings.
User manual
5-3 RS -485 communication specifications and protocol description
5-3-1 Interface specifications
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5-3-2 Topology
User manual
5-3-3 Modbus RTU protocol
Message format
The command message and response message consist of four parts: station number, function code, data and error check code, and are sent in this order.
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The detailed description of the four parts is as follows:
( 1 ) Station number
The station number is the designated number of the slave station. Only the slave station with the same received station number will process the instruction.
The station number address is 1 byte long, and the station number can be selected from 0 to 255 . Selecting address No. 0 means selecting all slave stations, which represents the wide
Broadcast news.
( 2 ) Function code
The function code is the function code specified for the slave station to execute. The function code is 1 byte long and uses the values from 0 to 255 as shown in the table below.
Define.
The gray grid indicates unused function codes. If you specify an unused function code, the slave station will respond abnormally.
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( 3 )Data
It is the data necessary to execute the function code. The composition of the data varies with the function code.
The data in the temperature control module is assigned a register number. If you want to use this data during communication, please specify the register number.
Register numbers transferred on messages are performed via relative addresses.
User manual
The relative address calculation formula is as follows:
Relative address = [lower 4 bits of register address ] - 1
For example, when the register number specified by a certain function code = 40003 ,
Relative address = ( low 4 bits of 4 0003 ) - 1 = 0002
Error check code
CRC -16 cyclic redundancy check is used for error checking during message transmission . CRC -16 is 2 bytes of data. calculate
The range is from the station number at the beginning of the message to the end of the data. The slave calculates the result of the CRC and the CRC of the received message
If the data is inconsistent, no response will be made.
The cyclic redundancy check calculation method is omitted in this article, please check other related documents.
Message type
The message types include query, normal response, abnormal response and broadcast.
( 1 ) Query ( Query )
The master module sends message instructions to the slave.
( 2 ) Normal response ( Normal Response )
After receiving the query message from the master module, the slave machine processes the request and returns the corresponding normal response.
( 3 ) Abnormal response ( Abnormal Response )
If the slave receives the query message from the master module, but the function code specified in the message is invalid, it will return an exception response.
In addition, abnormal responses are also returned for CRC check errors and physical transmission errors.
The error response message is composed as follows. The function code is the command message function code plus the value of 8 0 H.
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The error code is as follows:
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This processing ends after the main module times out.
User manual
Message transfer control
( 1 ) Slave response time
When the slave receives the query request from the master module, it executes query processing. When responding as shown below
response time.
T1 : response interval time
The response interval time is the function code setting, 6 bytes of time, which is the longest in the temperature control module processing time.
time.
T2 : sending interval time
The sending interval is more than 6 bytes.
( 2 ) Timeout processing
The read and write command message sent by the master module must be confirmed by the slave machine before the next command message can be sent.
interest. After a certain period of time (timeout time), if no response from the slave is received, it is considered a timeout.
and execute the resend function. The number of retransmissions is usually about 3 times. The timeout must be set longer than the slave
response time.
For example, when reading the first data of channel 1 (relative address 0x0 065 H ) of slave station No. 1 , send the
Send message command.
Modbus RTU message command.
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Function code
For detailed explanation of function codes, please refer to: 8-1 Appendix 1 "Communication Function Codes and Data Format"
User manual
Chapter 6 Ethernet Communication Instructions
Chapter 6
Ethernet communication instructions
This chapter mainly introduces the application of Ethernet communication parameters of the XD1N series .
Chapter 6 Ethernet Communication Instructions 85
6-1 Ethernet communication specifications and protocol description 86
6-1-1 interface specifications 86
User manual
6-1 Ethernet communication specifications and protocol description
6-1-1Interface specifications
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6-1-2 Topology composition
User manual
6-1-3 Ethernet communication settings
In order to connect the temperature control module to the Ethernet and monitor it, the IP address must be set.
The default factory IP addresses are as follows:
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For how to modify the IP address, please refer to the relevant chapters in the "Xianda XD1N User Manual".
6-2 Modbus TCP / IP protocol
The Modbus TCP/IP protocol is designed based on the standard Modbus protocol and combined with the TCP/ IP protocol.
For Modbus protocol, please refer to the Modbus RTU protocol in Chapter 3. This chapter focuses on the description and Modbus
There are different parts of the RTU protocol.
6-2-1 Message composition
The Modbus TCP/IP protocol message deletes the Modbus RTU error check code ( CRC -16 ) and traces
It is composed after adding a 6 -byte header. The specific differences are as follows:
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The header part of the Modbus TCP/IP message consists of the transmission ID , the protocol ID , and the byte length of the data part.
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Transmission ID : Fixed to 0 for Modbus TCP/IP
Protocol ID : Fixed to 0 for Modbus TCP/IP
Data byte length: the number of bytes in the data part
For example, when reading the first data of channel 1 (relative address 0x0 065 H ) of slave station No. 1 , send the
Send message command.
( 1 ) Modbus TCP/IP message command
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User manual
Chapter 7 Faults and Troubleshooting
Chapter 7
Faults and troubleshooting
This chapter describes the method of checking possible problems during operation according to the classification of the temperature control module status.
User manual
7-1 What to check first
If an error occurs, check the following items and take corrective action if necessary.
Look at the indicator lights to check the operating status of the XD1N module .
If the ERR indicator light is on, then power cycle the XD1N . If ERR is indicated after the power is turned back on
The light does not light up, check whether the switch and wiring are correct .
Check switch settings and wiring.
• power supply
• Is the power turned on?
• Is the supply voltage within the permitted range?
• wiring
• Is the terminal block connected correctly?
• Is the polarity correct?
• Are there any line breaks?
• Are any wires or cables disconnected or tied together?
• Communication conditions
• Does the communication condition match the host computer system?
If none of the above items need to be corrected, or the error is not cleared after completing the check, the communication function should be used
for a more in-depth examination
Check the status of the XD1N , find the cause of the error based on the data read by the XD1N , and then correct it.
If the cause of the error is still unclear after checking all items, guess the cause of the error based on the current situation and
Try to solve it .
User manual
7-2 Determine the error based on the indicator light
The following table shows the indicator status, possible error causes, and solutions .
Tips in case of failure
When the control module fails, the cause can be eliminated through the prompts of the indicator light. After the cause is eliminated, please cut off the power and then turn it on again.
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Note 1 ) When the sub-module address is assigned, the output indicator light performs a ticker action.
User manual
Chapter 8 Appendix
Chapter 8
appendix
The appendix of this chapter describes the temperature control module communication function code, data format, and register storage content information.
8-1 Appendix 1 : "Communication Function Code and Data Format" 92
8-1-1 Communication command function code 92
8-1-2 Detailed explanation of communication command function code 92
8-1-2-1 word data reading [Function code: 03 ] 92
8-1-2-2 Input register reading [Function code: 04 ] 93
8-1-2-3 Single function writing [Function code: 06 ] 93
8-1-2-4 Continuous function writing [Function code: 16 ] 94
8-2 Appendix 2 : "Register Parameter List" 95
8-2-2 Register parameter list 96
8-2-2-1 1#- 8# module parameter list 96
8-2-2-2 9#-16# module parameter list 98
8-2-2-3 Communication parameter list 100
8-2-2-4 CH1-CH8 channel parameter list 101
1# module ( CH1-CH8) channel parameters (parameter group 1 ) address definition: 101
1# module ( CH1-CH8) channel parameter (parameter group 2 ) address definition: 105
1# module ( CH1-CH8) channel parameters (parameter group 3 ) address definition: 109
1# module ( CH1-CH8) channel parameters (parameter group 5 ) address definition: 110
1# module ( CH1-CH8) channel parameters (parameter group 6 ) address definition: 116
User-defined data area (parameter group 7 ) address table: 120
8-2-3-5 Register storage content (current temperature value) 121
8-2-3-6 Register storage content (output operand) 122
8-2-3-7 Input register storage content (others) 123
8-3 Appendix 3 : " XD1N-ET8000 and Delta touch screen communication case" 125
8-3-1 RS 485 communication 125
8-3-2 Ethernet communication 131
8-4 Appendix 4 : " Communication between XD1N-ET8000 and Delta PLC " 137
8-5 Appendix 5 : " Sensor Types Supported by XD1N Series Temperature Control Module" 140
User manual
8-1 Appendix 1 : "Communication Function Code and Data Format "
8-1-1 Communication command function code
The XD1N series only provides [ 0 3 ] function reading, [ 0 4 ] reading input register, [ 0 6 ] :
Single function writing, [ 1 6 ] continuous function writing of four function codes to access the specified register address. press work
The word lengths of messages that can be classified are as follows:
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8-1-2 Detailed explanation of communication command function codes
8-1-2-1 Word data reading [Function code: 0 3 ]
( 1 )Composition of command message
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( 2 ) Response message composition
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( 3 ) Function description
Starting from the relative address where reading is started, continuous word data is read. The slave machine follows the high-order byte, low-order byte
The read data is sent in byte order.
User manual
8-1-2-2 Input register reading [Function code: 0 4 ]
( 1 )Composition of command message
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( 3 ) Function description
Starting from the relative address where reading is started, continuous word data is read. The slave machine follows the high-order byte, low-order byte
The read data is sent in byte order.
8-1-2-3 Single function writing [Function code: 06 ]
( 1 )Composition of command message
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( 3 ) Function description
Starting from the writing start number, single data is written. The main module is divided into high-order byte and low-order byte.
Write data is sent sequentially.
User manual
8-1-2-4 Continuous function writing [Function code: 16 ]
( 1 )Composition of command message
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( 3 ) Function description
Starting from the number at which writing is started, continuous data is written. The main module is in the order of high-order byte and low-order byte.
Send write data sequentially.
Error check code
CRC -16 cyclic redundancy check is used for error checking during message transmission . CRC -16 is 2 bytes of data. calculate
The range is from the station number at the beginning of the message to the end of the data. The slave calculates the result of the CRC and the CRC of the received message
If the data is inconsistent, no response will be made.
Note 1 ) The calculation method of cyclic redundancy check is omitted in this article, please check other related documents.
8-1-3 Data format
( 1 ) Decimal point processing
No decimal point is appended to the data transmitted in this protocol. For data with decimal points, please correct the decimal point position.
Process it all (remove the decimal point when sending, add the decimal point when receiving).
( 2 )Write data range
When writing data, please pass in the data according to the range of the written data. When writing data outside the setting range,
It does not ensure that the main unit operates correctly.
User manual
8-2 Appendix 2 : "Register Parameter List"
8-2-1 Address mapping
Please refer to the table below for the data types used in this protocol and the storage contents of the corresponding registers.
( 1 ) Data type
Font : Word data handles the address data in word units. 1 data / 1 address
Byte type: Byte data handles the address data in byte units. Up to 2 data / 1 address
Bit type: Bit data handles the address data in bit units. Up to 16 data / 1 address
( 2 ) Variable type:
WORD : word data
( 3 ) Category:
RW : Readable and writable data
R : read-only data
User manual
8-2-2 Register parameter list
8-2-2-1 1#- 8# module parameter list
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40064 | 003F |
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Remarks: ( 1 ) Operating module parameters, the contents of the module’s 8 channels ( CH1-CH8 ) take effect at the same time.
For example: If the start / stop switch of module 1# is activated, CH1-CH8 of module 1# will be activated.
User manual
8-2-2-2 9 #- 16 #Module parameter list
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WORD | RW | 40065 | 0040 |
| 0-1 | 0 |
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40066 | 0041 |
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40067 | 0042 |
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40068 | 0043 |
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40069 | 0044 |
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40070 | 0045 |
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40071 | 0046 |
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40072 | 0047 |
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40073 | 0048 |
| 0-1 | 0 |
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40074 | 0049 |
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40075 | 004A |
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40076 | 004B |
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40077 | 004C |
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40078 | 004D |
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40079 | 004E |
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40080 | 004F |
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40081 | 0050 |
| 0-255 | 255 |
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40082 | 0051 |
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40083 | 0052 |
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40084 | 0053 |
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40085 | 0054 |
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40086 | 0055 |
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40087 | 0056 |
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40088 | 0057 |
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40089 | 0058 |
| 0-1 | 0 |
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40090 | 0059 |
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40091 | 005A |
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40092 | 005B |
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40093 | 005C |
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40094 | 005D |
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40095 | 005E |
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40096 | 005F |
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40097 | 0060 |
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40098 | 0061 |
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40099 | 0062 |
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40100 | 0063 |
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40101 | 0064 |
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40102 | 0065 |
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40103 | 0066 |
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40104 | 0067 |
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40105 | 0068 |
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40106 | 0069 |
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40107 | 006A |
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40108 | 006B |
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40109 | 006C |
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40110 | 006D |
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40111 | 006E |
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40112 | 006F |
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40113 | 0070 |
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40114 | 0071 |
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40115 | 0072 |
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40116 | 0073 |
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40117 | 0074 |
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40118 | 0075 |
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40119 | 0076 |
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40120 | 0077 |
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40121 | 0078 |
| 0-600 | 0 |
| S | ||
40122 | 0079 |
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40123 | 007A |
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40124 | 007B |
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40125 | 007C |
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40126 | 007D |
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40127 | 007E |
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40128 | 007F |
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User manual
8-2-2- 3 Communication parameter list
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WORD | RW | 40769 | 0300 |
| 1-255 | 192 |
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40770 | 0301 |
| 0-255 | 168 |
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40771 | 0302 |
| 0-255 | 0 |
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40772 | 0303 |
| 0-255 | 3 |
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40773 | 0304 |
| 0-255 | 255 |
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40774 | 0305 |
| 0-255 | 255 |
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40775 | 0306 |
| 0-255 | 255 |
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40776 | 0307 |
| 0-255 | 0 |
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40777 | 0308 |
| 0-255 | 0 |
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40778 | 0309 |
| 0-255 | 0 |
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40779 | 030A |
| 0-255 | 0 |
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40780 | 030B |
| 0-255 | 0 |
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40781 | 030C |
| 0-32767 | 1024 |
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40782 | 030D |
| 0-6 | 6 |
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40783 | 030E |
| 0 | 0 |
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40784 | 030F |
| 0-2 | 0 |
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40785 | 0310 |
| 0-1 | 1 |
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40786 | 0311 |
| 1-255 | 1 |
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40897 | 0380 |
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| 0x5A5A |
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40898 | 0381 |
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User manual
8-2-2- 4 CH1-CH8 channel parameter list
1# module ( CH1-CH8) channel parameter (parameter group 1 ) address definition:
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WORD | RW | 41025 | 0400 |
| -300.0 - 3000.0 | 0.0 |
| ℃ |
41026 | 0401 |
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41027 | 0402 |
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41028 | 0403 |
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41029 | 0404 |
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41030 | 0405 |
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41031 | 0406 |
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41032 | 0407 |
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41033 | 0408 |
| 0-1 | 0 |
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41034 | 0409 |
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41035 | 040A |
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41036 | 040B |
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41037 | 040C |
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41038 | 040D |
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41039 | 040E |
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41040 | 040F |
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41041 | 0410 |
| 0-1 | 0 |
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41042 | 0411 |
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41043 | 0412 |
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41044 | 0413 |
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41045 | 0414 |
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41046 | 0415 |
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41047 | 0416 |
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41048 | 0417 |
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41049 | 0418 | P CH1 | 0.0-999.9 | 6 |
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41050 | 0419 | I CH1 | 0.00-99.99 | 0.2 |
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41051 | 041A | D CH1 | 0.0-999.9 | 5 |
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41052 | 041B | P CH2 |
| 6 |
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41053 | 041C | I CH2 |
| 0.2 |
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41054 | 041D | D CH2 |
| 5 |
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41055 | 041E | P CH3 | … | … |
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41056 | 041F | I CH3 | … | … |
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41057 | 0420 | D CH3 | … | … |
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41058 | 0421 | P CH4 | … | … |
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41059 | 0422 | I CH4 | … | … |
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41060 | 0423 | D CH4 | … | … |
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41061 | 0424 | P CH5 | … | … |
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41062 | 0425 | I CH5 | … | … |
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41063 | 0426 | D CH5 | … | … |
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41064 | 0427 | P CH6 | … | … |
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41065 | 0428 | I CH6 | … | … |
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41066 | 0429 | D CH6 | … | … |
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41067 | 042A | P CH7 | … | … |
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41068 | 042B | I CH7 | … | … |
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41069 | 042C | D CH7 | … | … |
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41070 | 042D | P CH8 | … | … |
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41071 | 042E | I CH8 | … | … |
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41072 | 042F | D CH8 | … | … |
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41073 | 0430 |
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| ms | ||
41074 | 0431 |
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41075 | 0432 |
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41076 | 0433 |
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41077 | 0434 |
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41078 | 0435 |
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41079 | 0436 |
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41080 | 0437 |
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41081 | 0438 |
| -10.0-10.0 | 0 |
| ℃ | ||
41082 | 0439 |
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41083 | 043A |
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41084 | 043B |
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41085 | 043C |
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41086 | 043D |
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41087 | 043E |
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41088 | 043F |
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User manual
2#-8# module (CH1-CH8) channel parameters (parameter group 1 ) address table :
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| 41089 | 0440 | 41153 | 0480 | 41217 | 04C0 | 41281 | 0500 | 41345 | 0540 | 41409 | 0580 | 41473 | 05C0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 41096 | 0447 | 41160 | 0487 | 41224 | 04C7 | 41288 | 0507 | 41352 | 0547 | 41416 | 0587 | 41480 | 05C7 |
| 41097 | 0448 | 41161 | 0488 | 41225 | 04C8 | 41289 | 0508 | 41353 | 0548 | 41417 | 0588 | 41481 | 05C8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 41104 | 044F | 41168 | 048F | 41232 | 04CF | 41296 | 050F | 41360 | 054F | 41424 | 058F | 41488 | 05CF |
| 41105 | 0450 | 41169 | 0490 | 41233 | 04D0 | 41297 | 0510 | 41361 | 0550 | 41425 | 0590 | 41489 | 05D0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 41112 | 0457 | 41176 | 0497 | 41240 | 04D7 | 41304 | 0517 | 41368 | 0557 | 41432 | 0597 | 41496 | 05D7 |
P CH1 | 41113 | 0458 | 41177 | 0498 | 41241 | 04D8 | 41305 | 0518 | 41369 | 0558 | 41433 | 0598 | 41497 | 05D8 |
I CH1 | 41114 | 0459 | 41178 | 0499 | 41242 | 04D9 | 41306 | 0519 | 41370 | 0559 | 41434 | 0599 | 41498 | 05D9 |
D CH1 | 41115 | 045A | 41179 | 049A | 41243 | 04DA | 41307 | 051A | 41371 | 055A | 41435 | 059A | 41499 | 05DA |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
P CH8 | 41134 | 046D | 41198 | 04AD | 41262 | 04ED | 41326 | 052D | 41390 | 056D | 41454 | 05AD | 41518 | 05ED |
I CH8 | 41135 | 046E | 41199 | 04AE | 41263 | 04EE | 41327 | 052E | 41391 | 056E | 41455 | 05AE | 41519 | 05EE |
D CH8 | 41136 | 046F | 41200 | 04AF | 41264 | 04EF | 41328 | 052F | 41392 | 056F | 41456 | 05AF | 41520 | 05EF |
| 41137 | 0470 | 41201 | 04B0 | 41265 | 04F0 | 41329 | 0530 | 41393 | 0570 | 41457 | 05B0 | 41521 | 05F0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 41144 | 0477 | 41208 | 04B7 | 41272 | 04F7 | 41336 | 0537 | 41400 | 0577 | 41464 | 05B7 | 41528 | 05F7 |
| 41145 | 0478 | 41209 | 04B8 | 41273 | 04F8 | 41337 | 0538 | 41401 | 0578 | 41465 | 05B8 | 41529 | 05F8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 41152 | 047F | 41216 | 04BF | 41280 | 04FF | 41344 | 053F | 41408 | 057F | 41472 | 05BF | 41536 | 05FF |
Remarks: ( 1 ) The content of the 2#-8# module channel parameters (parameter group 1 ) is the same as the definition method of the 1# module channel parameters (parameter group 1 )
( 2 ) The address offset of each parameter between adjacent modules is 64.
( 3 ) Module decimal address formula = (module number -1 ) *64+1# The first address of each parameter of the module
For example: The decimal address of module 1# SV setting value CH1 is 41025
Then: 2# module SV setting value CH1 = ( 2-1 ) *64+41025=41089
8# module SV setting value CH1 = ( 8-1 ) *64+41025=41473
For example: The decimal address of module 1# offset CH8 is 41088
Then: 2# module offset CH8 = ( 2-1 ) *64+41088=41152
8# module bias CH8 = ( 8-1 ) *64+41088=41536
User manual
9 #- 16 # module (CH1-CH8) channel parameters (parameter group 1 ) address table:
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| 41537 | 0600 | 41601 | 0640 | 41665 | 0680 | 41729 | 06C0 | 41793 | 0700 | 41857 | 0740 | 41921 | 0780 | 41985 | 07C0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 41544 | 0607 | 41608 | 0647 | 41672 | 0687 | 41736 | 06C7 | 41800 | 0707 | 41864 | 0747 | 41928 | 0787 | 41992 | 07C7 |
| 41545 | 0608 | 41609 | 0648 | 41673 | 0688 | 41737 | 06C8 | 41801 | 0708 | 41865 | 0748 | 41929 | 0788 | 41993 | 07C8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 41552 | 060F | 41616 | 064F | 41680 | 068F | 41744 | 06CF | 41808 | 070F | 41872 | 074F | 41936 | 078F | 42000 | 07CF |
| 41553 | 0610 | 41617 | 0650 | 41681 | 0690 | 41745 | 06D0 | 41809 | 0710 | 41873 | 0750 | 41937 | 0790 | 42001 | 07D0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 41560 | 0617 | 41624 | 0657 | 41688 | 0697 | 41752 | 06D7 | 41816 | 0717 | 41880 | 0757 | 41944 | 0797 | 42008 | 07D7 |
P CH1 | 41561 | 0618 | 41625 | 0658 | 41689 | 0698 | 41753 | 06D8 | 41817 | 0718 | 41881 | 0758 | 41945 | 0798 | 42009 | 07D8 |
I CH1 | 41562 | 0619 | 41626 | 0659 | 41690 | 0699 | 41754 | 06D9 | 41818 | 0719 | 41882 | 0759 | 41946 | 0799 | 42010 | 07D9 |
D CH1 | 41563 | 061A | 41627 | 065A | 41691 | 069A | 41755 | 06DA | 41819 | 071A | 41883 | 075A | 41947 | 079A | 42011 | 07DA |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
P CH8 | 41582 | 062D | 41646 | 066D | 41710 | 06AD | 41774 | 06ED | 41838 | 072D | 41902 | 076D | 41966 | 07AD | 42030 | 07ED |
I CH8 | 41583 | 062E | 41647 | 066E | 41711 | 06AE | 41775 | 06EE | 41839 | 072E | 41903 | 076E | 41967 | 07AE | 42031 | 07EE |
D CH8 | 41584 | 062F | 41648 | 066F | 41712 | 06AF | 41776 | 06EF | 41840 | 072F | 41904 | 076F | 41968 | 07AF | 42032 | 07EF |
| 41585 | 0630 | 41649 | 0670 | 41713 | 06B0 | 41777 | 06F0 | 41841 | 0730 | 41905 | 0770 | 41969 | 07B0 | 42033 | 07F0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 41592 | 0637 | 41656 | 0677 | 41720 | 06B7 | 41784 | 06F7 | 41848 | 0737 | 41912 | 0777 | 41976 | 07B7 | 42040 | 07F7 |
| 41593 | 0638 | 41657 | 0678 | 41721 | 06B8 | 41785 | 06F8 | 41849 | 0738 | 41913 | 0778 | 41977 | 07B8 | 42041 | 07F8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 41600 | 063F | 41664 | 067F | 41728 | 06BF | 41792 | 06FF | 41856 | 073F | 41920 | 077F | 41984 | 07BF | 42048 | 07FF |
Remarks: ( 1 ) 9 #- 16 #The content of module channel parameters (parameter group 1 ) is the same as the definition method of 1# module channel parameters (parameter group 1 )
( 2 ) The address offset of each parameter between adjacent modules is 64.
( 3 ) Module decimal address formula = (module number -1 ) *64+1# The first address of each parameter of the module
User manual
1# module ( CH1-CH8) channel parameter (parameter group 2 ) address definition:
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WORD | RW | 42049 | 0800 |
| 0.000-10.000 | 10.00 |
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42050 | 0801 |
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42051 | 0802 |
| ||||||
42052 | 0803 |
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42053 | 0804 |
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42054 | 0805 |
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42055 | 0806 |
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42056 | 0807 |
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42057 | 0808 |
| 0-8 | PT:8
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42058 | 0809 |
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42059 | 080A |
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42060 | 080B |
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42061 | 080C |
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42062 | 080D |
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42063 | 080E |
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42064 | 080F |
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42065 | 0810 |
| 0-1 | 0 |
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42066 | 0811 |
| ||||||
42067 | 0812 |
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42068 | 0813 |
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42069 | 0814 |
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42070 | 0815 |
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42071 | 0816 |
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42072 | 0817 |
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42073 | 0818 |
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42074 | 0819 |
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42075 | 081A |
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42076 | 081B |
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42077 | 081C |
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42078 | 081D |
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42079 | 081E |
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42080 | 081F |
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42081 | 0820 |
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42082 | 0821 |
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42083 | 0822 |
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42084 | 0823 |
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42085 | 0824 |
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42086 | 0825 |
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42087 | 0826 |
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42088 | 0827 |
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42089 | 0828 |
| 0.0-100.0 | 100 |
| % | ||
42090 | 0829 |
| ||||||
42091 | 082A |
| ||||||
42092 | 082B |
| ||||||
42093 | 082C |
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42094 | 082D |
| ||||||
42095 | 082E |
| ||||||
42096 | 082F |
| ||||||
42097 | 0830 |
| 0-2 | 0 |
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42098 | 0831 |
| ||||||
42099 | 0832 |
| ||||||
42100 | 0833 |
| ||||||
42101 | 0834 |
| ||||||
42102 | 0835 |
| ||||||
42103 | 0836 |
| ||||||
42104 | 0837 |
| ||||||
42105 | 0838 |
| 0.0-100.0 | 0 |
| % | ||
42106 | 0839 |
| ||||||
42107 | 083A |
| ||||||
42108 | 083B |
| ||||||
42109 | 083C |
| ||||||
42110 | 083D |
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42111 | 083E |
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42112 | 083F |
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User manual
2#-8# module (CH1-CH8) channel parameters (parameter group 2 ) address table:
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| 42113 | 0840 | 42177 | 0880 | 42241 | 08C0 | 42305 | 0900 | 42369 | 0940 | 42433 | 0980 | 42497 | 09C0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42120 | 0847 | 42184 | 0887 | 42248 | 08C7 | 42312 | 0907 | 42376 | 0947 | 42440 | 0987 | 42504 | 09C7 |
| 42121 | 0848 | 42185 | 0888 | 42249 | 08C8 | 42313 | 0908 | 42377 | 0948 | 42441 | 0988 | 42505 | 09C8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42128 | 084F | 42192 | 088F | 42256 | 08CF | 42320 | 090F | 42384 | 094F | 42448 | 098F | 42512 | 09CF |
| 42129 | 0850 | 42193 | 0890 | 42257 | 08D0 | 42321 | 0910 | 42385 | 0950 | 42449 | 0990 | 42513 | 09D0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42136 | 0857 | 42200 | 0897 | 42264 | 08D7 | 42328 | 0917 | 42392 | 0957 | 42456 | 0997 | 42520 | 09D7 |
| 42137 | 0858 | 42201 | 0898 | 42265 | 08D8 | 42329 | 0918 | 42393 | 0958 | 42457 | 0998 | 42521 | 09D8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42144 | 085F | 42208 | 089F | 42272 | 08DF | 42336 | 091F | 42400 | 095F | 42464 | 099F | 42528 | 09DF |
| 42145 | 0860 | 42209 | 08A0 | 42273 | 08E0 | 42337 | 0920 | 42401 | 0960 | 42465 | 09A0 | 42529 | 09E0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42152 | 0867 | 42216 | 08A7 | 42280 | 08E7 | 42344 | 0927 | 42408 | 0967 | 42472 | 09A7 | 42536 | 09E7 |
| 42153 | 0868 | 42217 | 08A8 | 42281 | 08E8 | 42345 | 0928 | 42409 | 0968 | 42473 | 09A8 | 42537 | 09E8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42160 | 086F | 42224 | 08AF | 42288 | 08EF | 42352 | 092F | 42416 | 096F | 42480 | 09AF | 42544 | 09EF |
| 42161 | 0870 | 42225 | 08B0 | 42289 | 08F0 | 42353 | 0930 | 42417 | 0970 | 42481 | 09B0 | 42545 | 09F0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42168 | 0877 | 42232 | 08B7 | 42296 | 08F7 | 42360 | 0937 | 42424 | 0977 | 42488 | 09B7 | 42552 | 09F7 |
| 42169 | 0878 | 42233 | 08B8 | 42297 | 08F8 | 42361 | 0938 | 42425 | 0978 | 42489 | 09B8 | 42553 | 09F8 |
| … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42176 | 087F | 42240 | 08BF | 42304 | 08FF | 42368 | 093F | 42432 | 097F | 42496 | 09BF | 42560 | 09FF |
Remarks: ( 1 ) The content of the 2#-8# module parameters (parameter group 2 ) is the same as the definition method of the 1# module parameters (parameter group 2 ).
( 2 ) The address offset of each parameter between adjacent modules is 64.
( 3 ) Module decimal address formula = (module number -1 ) *64+1# The first address of each parameter of the module
User manual
9 #- 16 # module (CH1-CH8) channel parameters (parameter group 2 ) address table:
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| 42561 | 0A00 | 42625 | 0A40 | 42689 | 0A80 | 42753 | 0AC0 | 42817 | 0B00 | 42881 | 0B40 | 42945 | 0B80 | 43009 | 0BC0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42568 | 0A07 | 42632 | 0A47 | 42696 | 0A87 | 42760 | 0AC7 | 42824 | 0B07 | 42888 | 0B47 | 42952 | 0B87 | 43016 | 0BC7 |
| 42569 | 0A08 | 42633 | 0A48 | 42697 | 0A88 | 42761 | 0AC8 | 42825 | 0B08 | 42889 | 0B48 | 42953 | 0B88 | 43017 | 0BC8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42576 | 0A0F | 42640 | 0A4F | 42704 | 0A8F | 42768 | 0ACF | 42832 | 0B0F | 42896 | 0B4F | 42960 | 0B8F | 43024 | 0BCF |
| 42577 | 0A10 | 42641 | 0A50 | 42705 | 0A90 | 42769 | 0AD0 | 42833 | 0B10 | 42897 | 0B50 | 42961 | 0B90 | 43025 | 0BD0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42584 | 0A17 | 42648 | 0A57 | 42712 | 0A97 | 42776 | 0AD7 | 42840 | 0B17 | 42904 | 0B57 | 42968 | 0B97 | 43032 | 0BD7 |
| 42585 | 0A18 | 42649 | 0A58 | 42713 | 0A98 | 42777 | 0AD8 | 42841 | 0B18 | 42905 | 0B58 | 42969 | 0B98 | 43033 | 0BD8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42592 | 0A1F | 42656 | 0A5F | 42720 | 0A9F | 42784 | 0ADF | 42848 | 0B1F | 42912 | 0B5F | 42976 | 0B9F | 43040 | 0BDF |
| 42593 | 0A20 | 42657 | 0A60 | 42721 | 0AA0 | 42785 | 0AE0 | 42849 | 0B20 | 42913 | 0B60 | 42977 | 0BA0 | 43041 | 0BE0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42600 | 0A27 | 42664 | 0A67 | 42728 | 0AA7 | 42792 | 0AE7 | 42856 | 0B27 | 42920 | 0B67 | 42984 | 0BA7 | 43048 | 0BE7 |
| 42601 | 0A28 | 42665 | 0A68 | 42729 | 0AA8 | 42793 | 0AE8 | 42857 | 0B28 | 42921 | 0B68 | 42985 | 0BA8 | 43049 | 0BE8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42608 | 0A2F | 42672 | 0A6F | 42736 | 0AAF | 42800 | 0AEF | 42864 | 0B2F | 42928 | 0B6F | 42992 | 0BAF | 43056 | 0BEF |
| 42609 | 0A30 | 42673 | 0A70 | 42737 | 0AB0 | 42801 | 0AF0 | 42865 | 0B30 | 42929 | 0B70 | 42993 | 0BB0 | 43057 | 0BF0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42616 | 0A37 | 42680 | 0A77 | 42744 | 0AB7 | 42808 | 0AF7 | 42872 | 0B37 | 42936 | 0B77 | 43000 | 0BB7 | 43064 | 0BF7 |
| 42617 | 0A38 | 42681 | 0A78 | 42745 | 0AB8 | 42809 | 0AF8 | 42873 | 0B38 | 42937 | 0B78 | 43001 | 0BB8 | 43065 | 0BF8 |
| … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 42624 | 0A3F | 42688 | 0A7F | 42752 | 0ABF | 42816 | 0AFF | 42880 | 0B3F | 42944 | 0B7F | 43008 | 0BBF | 43072 | 0BFF |
Remarks: ( 1 ) 9 #- 16 #The content of module parameters (parameter group 2 ) is the same as the definition method of 1# module parameters (parameter group 2 ).
( 2 ) The address offset of each parameter between adjacent modules is 64.
( 3 ) Module decimal address formula = (module number -1 ) *64+1# The first address of each parameter of the module
User manual
1# module ( CH1-CH8) channel parameters (parameter group 3 ) address definition :
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43089 | 0C10 |
| 0-30 | 3 | ||||
43090 | 0C11 |
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43091 | 0C12 |
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43092 | 0C13 |
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43093 | 0C14 |
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43094 | 0C15 |
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43095 | 0C16 |
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43096 | 0C17 |
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2#-8# module (CH1-CH8) channel parameters (parameter group 3 ) address table:
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| 43153 | 0C50 | 43217 | 0C90 | 43281 | 0CD0 | 43345 | 0D10 | 43409 | 0D50 | 43473 | 0D90 | 43537 | 0DD0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 43160 | 0C57 | 43224 | 0C97 | 43288 | 0CD7 | 43352 | 0D17 | 43416 | 0D57 | 43480 | 0D97 | 43544 | 0DD7 |
Remarks: ( 1 ) The content of the 2#-8# module parameters (parameter group 3 ) is the same as the definition method of the 1# module parameters (parameter group 3 ).
( 2 ) The address offset of each parameter between adjacent modules is 64.
( 3 ) Module decimal address formula = (module number -1 ) *64+1# The first address of each parameter of the module
9 #- 16 # module (CH1-CH8) channel parameters (parameter group 3 ) address table:
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| 43601 | 0E10 | 43665 | 0E50 | 43729 | 0E90 | 43793 | 0ED0 | 43857 | 0F10 | 43921 | 0F50 | 43985 | 0F90 | 44049 | 0FD0 | |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | |
| 43608 | 0E17 | 43672 | 0E57 | 43736 | 0E97 | 43800 | 0ED7 | 43864 | 0F17 | 43928 | 0F57 | 43992 | 0F97 | 44056 | 0FD7 | |
Remarks: ( 1 ) 9 #- 16 # The content of module parameters (parameter group 3 ) is the same as the definition method of 1# module parameters (parameter group 3 ).
( 2 ) The address offset of each parameter between adjacent modules is 64.
( 3 ) Module decimal address formula = (module number -1 ) *64+1# The first address of each parameter of the module
User manual
1# module (CH1-CH8) channel parameter (parameter group 5) address definition:
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WORD | RW | 45121 | 1400 |
| 0-6 | 0 |
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45122 | 1401 |
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45123 | 1402 |
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45124 | 1403 |
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45125 | 1404 |
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45126 | 1405 |
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45127 | 1406 |
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45128 | 1407 |
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45129 | 1408 |
| 0-3 | 0 |
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45130 | 1409 |
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45131 | 140A |
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45132 | 140B |
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45133 | 140C |
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45134 | 140D |
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45135 | 140E |
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45136 | 140F |
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45137 | 1410 |
| 0-100 | 0 |
| S | ||
45138 | 1411 |
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45139 | 1412 |
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45140 | 1413 |
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45141 | 1414 |
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45142 | 1415 |
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45143 | 1416 |
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45144 | 1417 |
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45145 | 1418 |
| -300.0~3000.0 | 0 |
| ℃ | ||
45146 | 1419 |
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45147 | 141A |
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45148 | 141B |
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45149 | 141C |
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45150 | 141D |
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45151 | 141E |
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45152 | 141F |
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45153 | 1420 |
| -300.0~3000.0 | 0 |
| ℃ | ||
45154 | 1421 |
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45155 | 1422 |
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45156 | 1423 |
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45157 | 1424 |
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45158 | 1425 |
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45159 | 1426 |
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45160 | 1427 |
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45161 | 1428 |
| 0-6 | 0 |
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45162 | 1429 |
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45163 | 142A |
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45164 | 142B |
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45165 | 142C |
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45166 | 142D |
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45167 | 142E |
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45168 | 142F |
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45169 | 1430 |
| 0-3 | 0 |
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45170 | 1431 |
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45171 | 1432 |
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45172 | 1433 |
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45173 | 1434 |
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45174 | 1435 |
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45175 | 1436 |
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45176 | 1437 |
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45177 | 1438 |
| 0-100 | 0 |
| S | ||
45178 | 1439 |
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45179 | 143A |
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45180 | 143B |
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45181 | 143C |
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45182 | 143D |
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45183 | 143E |
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45184 | 143F |
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User manual
2#-8# module (CH1-CH8) channel parameters (parameter group 5 ) address table:
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| 45185 | 1440 | 45249 | 1480 | 45313 | 14C0 | 45377 | 1500 | 45441 | 1540 | 45505 | 1580 | 45569 | 15C0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45192 | 1447 | 45256 | 1487 | 45320 | 14C7 | 45384 | 1507 | 45448 | 1547 | 45512 | 1587 | 45576 | 15C7 |
| 45193 | 1448 | 45257 | 1488 | 45321 | 14C8 | 45385 | 1508 | 45449 | 1548 | 45513 | 1588 | 45577 | 15C8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45200 | 144F | 45264 | 148F | 45328 | 14CF | 45392 | 150F | 45456 | 154F | 45520 | 158F | 45584 | 15CF |
| 45201 | 1450 | 45265 | 1490 | 45329 | 14D0 | 45393 | 1510 | 45457 | 1550 | 45521 | 1590 | 45585 | 15D0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45208 | 1457 | 45272 | 1497 | 45336 | 14D7 | 45400 | 1517 | 45464 | 1557 | 45528 | 1597 | 45592 | 15D7 |
| 45209 | 1458 | 45273 | 1498 | 45337 | 14D8 | 45401 | 1518 | 45465 | 1558 | 45529 | 1598 | 45593 | 15D8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45216 | 145F | 45280 | 149F | 45344 | 14DF | 45408 | 151F | 45472 | 155F | 45536 | 159F | 45600 | 15DF |
| 45217 | 1460 | 45281 | 14A0 | 45345 | 14E0 | 45409 | 1520 | 45473 | 1560 | 45537 | 15A0 | 45601 | 15E0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45224 | 1467 | 45288 | 14A7 | 45352 | 14E7 | 45416 | 1527 | 45480 | 1567 | 45544 | 15A7 | 45608 | 15E7 |
| 45225 | 1468 | 45289 | 14A8 | 45353 | 14E8 | 45417 | 1528 | 45481 | 1568 | 45545 | 15A8 | 45609 | 15E8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45232 | 146F | 45296 | 14AF | 45360 | 14EF | 45424 | 152F | 45488 | 156F | 45552 | 15AF | 45616 | 15EF |
| 45233 | 1470 | 45297 | 14B0 | 45361 | 14F0 | 45425 | 1530 | 45489 | 1570 | 45553 | 15B0 | 45617 | 15F0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45240 | 1477 | 45304 | 14B7 | 45368 | 14F7 | 45432 | 1537 | 45496 | 1577 | 45560 | 15B7 | 45624 | 15F7 |
| 45241 | 1478 | 45305 | 14B8 | 45369 | 14F8 | 45433 | 1538 | 45497 | 1578 | 45561 | 15B8 | 45625 | 15F8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45248 | 147F | 45312 | 14BF | 45376 | 14FF | 45440 | 153F | 45504 | 157F | 45568 | 15BF | 45632 | 15FF |
Remarks: ( 1 ) The content of the 2#-8# module channel parameters (parameter group 5 ) is the same as the definition method of the 1# module channel parameters (parameter group 5 )
( 2 ) The address offset of each parameter between adjacent modules is 64.
( 3 ) Module decimal address formula = (module number -1 ) *64+1# The first address of each parameter of the module
User manual
9 #- 16 # module (CH1-CH8) channel parameters (parameter group 5 ) address table:
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| 45633 | 1600 | 45697 | 1640 | 45761 | 1680 | 45825 | 16C0 | 45889 | 1700 | 45953 | 1740 | 46017 | 1780 | 46081 | 17C0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45640 | 1607 | 45704 | 1647 | 45768 | 1687 | 45832 | 16C7 | 45896 | 1707 | 45960 | 1747 | 46024 | 1787 | 46088 | 17C7 |
| 45641 | 1608 | 45705 | 1648 | 45769 | 1688 | 45833 | 16C8 | 45897 | 1708 | 45961 | 1748 | 46025 | 1788 | 46089 | 17C8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45648 | 160F | 45712 | 164F | 45776 | 168F | 45840 | 16CF | 45904 | 170F | 45968 | 174F | 46032 | 178F | 46096 | 17CF |
| 45649 | 1610 | 45713 | 1650 | 45777 | 1690 | 45841 | 16D0 | 45905 | 1710 | 45969 | 1750 | 46033 | 1790 | 46097 | 17D0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45656 | 1617 | 45720 | 1657 | 45784 | 1697 | 45848 | 16D7 | 45912 | 1717 | 45976 | 1757 | 46040 | 1797 | 46104 | 17D7 |
| 45657 | 1618 | 45721 | 1658 | 45785 | 1698 | 45849 | 16D8 | 45913 | 1718 | 45977 | 1758 | 46041 | 1798 | 46105 | 17D8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45664 | 161F | 45728 | 165F | 45792 | 169F | 45856 | 16DF | 45920 | 171F | 45984 | 175F | 46048 | 179F | 46112 | 17DF |
| 45665 | 1620 | 45729 | 1660 | 45793 | 16A0 | 45857 | 16E0 | 45921 | 1720 | 45985 | 1760 | 46049 | 17A0 | 46113 | 17E0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45672 | 1627 | 45736 | 1667 | 45800 | 16A7 | 45864 | 16E7 | 45928 | 1727 | 45992 | 1767 | 46056 | 17A7 | 46120 | 17E7 |
| 45673 | 1628 | 45737 | 1668 | 45801 | 16A8 | 45865 | 16E8 | 45929 | 1728 | 45993 | 1768 | 46057 | 17A8 | 46121 | 17E8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45680 | 162F | 45744 | 166F | 45808 | 16AF | 45872 | 16EF | 45936 | 172F | 46000 | 176F | 46064 | 17AF | 46128 | 17EF |
| 45681 | 1630 | 45745 | 1670 | 45809 | 16B0 | 45873 | 16F0 | 45937 | 1730 | 46001 | 1770 | 46065 | 17B0 | 46129 | 17F0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45688 | 1637 | 45752 | 1677 | 45816 | 16B7 | 45880 | 16F7 | 45944 | 1737 | 46008 | 1777 | 46072 | 17B7 | 46136 | 17F7 |
| 45689 | 1638 | 45753 | 1678 | 45817 | 16B8 | 45881 | 16F8 | 45945 | 1738 | 46009 | 1778 | 46073 | 17B8 | 46137 | 17F8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 45696 | 163F | 45760 | 167F | 45824 | 16BF | 45888 | 16FF | 45952 | 173F | 46016 | 177F | 46080 | 17BF | 46144 | 17FF |
Remarks: ( 1 ) 9 #- 16 #The content of module channel parameters (parameter group 5 ) is the same as the definition method of 1# module channel parameters (parameter group 5 )
( 2 ) The address offset of each parameter between adjacent modules is 64.
( 3 ) Module decimal address formula = (module number -1 ) *64+1# The first address of each parameter of the module
User manual
1# module ( CH1-CH8) channel parameters (parameter group 6 ) address definition :
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WORD | RW | 46145 | 1800 |
| -300.0~3000.0 | 0 |
| ℃ |
46146 | 1801 |
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46147 | 1802 |
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46148 | 1803 |
| ||||||
46149 | 1804 |
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46150 | 1805 |
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46151 | 1806 |
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46152 | 1807 |
| ||||||
46153 | 1808 |
| -300.0~3000.0 | 0 |
| ℃ | ||
46154 | 1809 |
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46155 | 180A |
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46156 | 180B |
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46157 | 180C |
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46158 | 180D |
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46159 | 180E |
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46160 | 180F |
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46161 | 1810 |
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46162 | 1811 |
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46163 | 1812 |
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46164 | 1813 |
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46165 | 1814 |
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46166 | 1815 |
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46167 | 1816 |
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46168 | 1817 |
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46169 | 1818 |
| 0-32000 | 0 |
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46170 | 1819 |
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46171 | 181A |
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46172 | 181B |
| ||||||
46173 | 181C |
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46174 | 181D |
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46175 | 181E |
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46176 | 181F |
| ||||||
46177 | 1820 |
| 0-32000 | 0 |
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46178 | 1821 |
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46179 | 1822 |
| ||||||
46180 | 1823 |
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46181 | 1824 |
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46182 | 1825 |
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46183 | 1826 |
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46184 | 1827 |
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WORD | RW | 46185 | 1828 |
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| 0 |
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46186 | 1829 |
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46187 | 182A |
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46188 | 182B |
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46189 | 182C |
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46190 | 182D |
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46191 | 182E |
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46192 | 182F |
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46193 | 1830 |
| 0-32000 | 0 |
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46194 | 1831 |
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46195 | 1832 |
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46196 | 1833 |
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46197 | 1834 |
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46198 | 1835 |
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46199 | 1836 |
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46200 | 1837 |
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Note: Output abnormality detection time, this parameter is for output disconnection detection
User manual
2#-8# module (CH1-CH8) channel parameters (parameter group 6 ) address table:
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| 46209 | 1840 | 46273 | 1880 | 46337 | 18C0 | 46401 | 1900 | 46465 | 1940 | 46529 | 1980 | 46593 | 19C0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 46216 | 1847 | 46280 | 1887 | 46344 | 18C7 | 46408 | 1907 | 46472 | 1947 | 46536 | 1987 | 46600 | 19C7 |
| 46217 | 1848 | 46281 | 1888 | 46345 | 18C8 | 46409 | 1908 | 46473 | 1948 | 46537 | 1988 | 46601 | 19C8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 46224 | 184F | 46288 | 188F | 46352 | 18CF | 46416 | 190F | 46480 | 194F | 46544 | 198F | 46608 | 19CF |
| 46225 | 1850 | 46289 | 1890 | 46353 | 18D0 | 46417 | 1910 | 46481 | 1950 | 46545 | 1990 | 46609 | 19D0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 46232 | 1857 | 46296 | 1897 | 46360 | 18D7 | 46424 | 1917 | 46488 | 1957 | 46552 | 1997 | 46616 | 19D7 |
| 46233 | 1858 | 46297 | 1898 | 46361 | 18D8 | 46425 | 1918 | 46489 | 1958 | 46553 | 1998 | 46617 | 19D8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 46240 | 185F | 46304 | 189F | 46368 | 18DF | 46432 | 191F | 46496 | 195F | 46560 | 199F | 46624 | 19DF |
| 46241 | 1860 | 46305 | 18A0 | 46369 | 18E0 | 46433 | 1920 | 46497 | 1960 | 46561 | 19A0 | 46625 | 19E0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 46248 | 1867 | 46312 | 18A7 | 46376 | 18E7 | 46440 | 1927 | 46504 | 1967 | 46568 | 19A7 | 46632 | 19E7 |
| 46249 | 1868 | 46313 | 18A8 | 46377 | 18E8 | 46441 | 1928 | 46505 | 1968 | 46569 | 19A8 | 46633 | 19E8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 46256 | 186F | 46320 | 18AF | 46384 | 18EF | 46448 | 192F | 46512 | 196F | 46576 | 19AF | 46640 | 19EF |
| 46257 | 1870 | 46321 | 18B0 | 46385 | 18F0 | 46449 | 1930 | 46513 | 1970 | 46577 | 19B0 | 46641 | 19F0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 46264 | 1877 | 46328 | 18B7 | 46392 | 18F7 | 46456 | 1937 | 46520 | 1977 | 46584 | 19B7 | 46648 | 19F7 |
Remarks: ( 1 ) The content of the 2#-8# module channel parameters (parameter group 6 ) is the same as the definition method of the 1# module channel parameters (parameter group 6 )
( 2 ) The address offset of each parameter between adjacent modules is 64.
( 3 ) Module decimal address formula = (module number -1 ) *64+1# The first address of each parameter of the module
User manual
9 #- 16 # module (CH1-CH8) channel parameters (parameter group 6 ) address table:
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| 46657 | 1A00 | 46721 | 1A40 | 46785 | 1A80 | 46849 | 1AC0 | 46913 | 1B00 | 46977 | 1B40 | 47041 | 1B80 | 47105 | 1BC0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 46664 | 1A07 | 46728 | 1A47 | 46792 | 1A87 | 46856 | 1AC7 | 46920 | 1B07 | 46984 | 1B47 | 47048 | 1B87 | 47112 | 1BC7 |
| 46665 | 1A08 | 46729 | 1A48 | 46793 | 1A88 | 46857 | 1AC8 | 46921 | 1B08 | 46985 | 1B48 | 47049 | 1B88 | 47113 | 1BC8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 46672 | 1A0F | 46736 | 1A4F | 46800 | 1A8F | 46864 | 1ACF | 46928 | 1B0F | 46992 | 1B4F | 47056 | 1B8F | 47120 | 1BCF |
| 46673 | 1A10 | 46737 | 1A50 | 46801 | 1A90 | 46865 | 1AD0 | 46929 | 1B10 | 46993 | 1B50 | 47057 | 1B90 | 47121 | 1BD0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 46680 | 1A17 | 46744 | 1A57 | 46808 | 1A97 | 46872 | 1AD7 | 46936 | 1B17 | 47000 | 1B57 | 47064 | 1B97 | 47128 | 1BD7 |
| 46681 | 1A18 | 46745 | 1A58 | 46809 | 1A98 | 46873 | 1AD8 | 46937 | 1B18 | 47001 | 1B58 | 47065 | 1B98 | 47129 | 1BD8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 46688 | 1A1F | 46752 | 1A5F | 46816 | 1A9F | 46880 | 1ADF | 46944 | 1B1F | 47008 | 1B5F | 47072 | 1B9F | 47136 | 1BDF |
| 46689 | 1A20 | 46753 | 1A60 | 46817 | 1AA0 | 46881 | 1AE0 | 46945 | 1B20 | 47009 | 1B60 | 47073 | 1BA0 | 47137 | 1BE0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 46696 | 1A27 | 46760 | 1A67 | 46824 | 1AA7 | 46888 | 1AE7 | 46952 | 1B27 | 47016 | 1B67 | 47080 | 1BA7 | 47144 | 1BE7 |
| 46697 | 1A28 | 46761 | 1A68 | 46825 | 1AA8 | 46889 | 1AE8 | 46953 | 1B28 | 47017 | 1B68 | 47081 | 1BA8 | 47145 | 1BE8 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 46704 | 1A2F | 46768 | 1A6F | 46832 | 1AAF | 46896 | 1AEF | 46960 | 1B2F | 47024 | 1B6F | 47088 | 1BAF | 47152 | 1BEF |
| 46705 | 1A30 | 46769 | 1A70 | 46833 | 1AB0 | 46897 | 1AF0 | 46961 | 1B30 | 47025 | 1B70 | 47089 | 1BB0 | 47153 | 1BF0 |
… | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … | … |
| 46712 | 1A37 | 46776 | 1A77 | 46840 | 1AB7 | 46904 | 1AF7 | 46968 | 1B37 | 47032 | 1B77 | 47096 | 1BB7 | 47160 | 1BF7 |
Remarks: ( 1 ) 9 #- 16 #The content of module channel parameters (parameter group 6 ) is the same as the definition method of 1# module channel parameters (parameter group 6 )
( 2 ) The address offset of each parameter between adjacent modules is 64.
( 3 ) Module decimal address formula = (module number -1 ) *64+1# The first address of each parameter of the module.
User manual
User-defined data area (parameter group 7 ) address table :
This address area is used to store mapped addresses. Please refer to Chapter 2-7-9 (Setting Address Mapping) for the steps and methods of setting address mapping .
The mapping area is from 0X1C00-0X1FF0 , with a total of 1024 addresses .
User manual
8-2-3-5 Register storage content (current temperature value)
Variable type: WORD Category: R ( read-only )
4- channel module address: CH1-CH4 CH5-CH8 is not used, 8- channel module address: CH1-CH8
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1# | 30001 | 0000 | 30002 | 0001 | 30003 | 0002 | 30004 | 0003 | 30005 | 0004 | 30006 | 0005 | 30007 | 0006 | 30008 | 0007 |
2# | 30009 | 0008 | 30010 | 0009 | 30011 | 000A | 30012 | 000B | 30013 | 000C | 30014 | 000D | 30015 | 000E | 30016 | 000F |
3# | 30017 | 0010 | 30018 | 0011 | 30019 | 0012 | 30020 | 0013 | 30021 | 0014 | 30022 | 0015 | 30023 | 0016 | 30024 | 0017 |
4# | 30025 | 0018 | 30026 | 0019 | 30027 | 001A | 30028 | 001B | 30029 | 001C | 30030 | 001D | 30031 | 001E | 30032 | 001F |
5# | 30033 | 0020 | 30034 | 0021 | 30035 | 0022 | 30036 | 0023 | 30037 | 0024 | 30038 | 0025 | 30039 | 0026 | 30040 | 0027 |
6# | 30041 | 0028 | 30042 | 0029 | 30043 | 002A | 30044 | 002B | 30045 | 002C | 30046 | 002D | 30047 | 002E | 30048 | 002F |
7# | 30049 | 0030 | 30050 | 0031 | 30051 | 0032 | 30052 | 0033 | 30053 | 0034 | 30054 | 0035 | 30055 | 0036 | 30056 | 0037 |
8# | 30057 | 0038 | 30058 | 0039 | 30059 | 003A | 30060 | 003B | 30061 | 003C | 30062 | 003D | 30063 | 003E | 30064 | 003F |
Note: Select the function code to communicate with the host computer and read: [Function code: 04] Read the input register
9 #- 16 #Current temperature value (read-only) address table:
4- channel module address: CH1-CH4 CH5-CH8 is not used, 8- channel module address: CH1-CH8
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| 30065 | 0040 | 30066 | 0041 | 30067 | 0042 | 30068 | 0043 | 30069 | 0044 | 30070 | 0045 | 30071 | 0046 | 30072 | 0047 |
| 30073 | 0048 | 30074 | 0049 | 30075 | 004A | 30076 | 004B | 30077 | 004C | 30078 | 004D | 30079 | 004E | 30080 | 004F |
| 30081 | 0050 | 30082 | 0051 | 30083 | 0052 | 30084 | 0053 | 30085 | 0054 | 30086 | 0055 | 30087 | 0056 | 30088 | 0057 |
| 30089 | 0058 | 30090 | 0059 | 30091 | 005A | 30092 | 005B | 30093 | 005C | 30094 | 005D | 30095 | 005E | 30096 | 005F |
| 30097 | 0060 | 30098 | 0061 | 30099 | 0062 | 30100 | 0063 | 30101 | 0064 | 30102 | 0065 | 30103 | 0066 | 30104 | 0067 |
| 30105 | 0068 | 30106 | 0069 | 30107 | 006A | 30108 | 006B | 30109 | 006C | 30110 | 006D | 30111 | 006E | 30112 | 006F |
| 30113 | 0070 | 30114 | 0071 | 30115 | 0072 | 30116 | 0073 | 30117 | 0074 | 30118 | 0075 | 30119 | 0076 | 30120 | 0077 |
| 30121 | 0078 | 30122 | 0079 | 30123 | 007A | 30124 | 007B | 30125 | 007C | 30126 | 007D | 30127 | 007E | 30128 | 007F |
User manual
8-2-3- 6 Register storage content (output operand )
Variable type: WORD Category: R ( read-only )
4- channel module address: CH1-CH4 CH5-CH8 is not used, 8- channel module address: CH1-CH8
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1# | 30129 | 0080 | 30130 | 0081 | 30131 | 0082 | 30132 | 0083 | 30133 | 0084 | 30134 | 0085 | 30135 | 0086 | 30136 | 0087 |
2# | 30137 | 0088 | 30138 | 0089 | 30139 | 008A | 30140 | 008B | 30141 | 008C | 30142 | 008D | 30143 | 008E | 30144 | 008F |
3# | 30145 | 0090 | 30146 | 0091 | 30147 | 0092 | 30148 | 0093 | 30149 | 0094 | 30150 | 0095 | 30151 | 0096 | 30152 | 0097 |
4# | 30153 | 0098 | 30154 | 0099 | 30155 | 009A | 30156 | 009B | 30157 | 009C | 30158 | 009D | 30159 | 009E | 30160 | 009F |
5# | 30161 | 00A0 | 30162 | 00A1 | 30163 | 00A2 | 30164 | 00A3 | 30165 | 00A4 | 30166 | 00A5 | 30167 | 00A6 | 30168 | 00A7 |
6# | 30169 | 00A8 | 30170 | 00A9 | 30171 | 00AA | 30172 | 00AB | 30173 | 00AC | 30174 | 00AD | 30175 | 00AE | 30176 | 00AF |
7# | 30177 | 00B0 | 30178 | 00B1 | 30179 | 00B2 | 30180 | 00B3 | 30181 | 00B4 | 30182 | 00B5 | 30183 | 00B6 | 30184 | 00B7 |
8# | 30185 | 00B8 | 30186 | 00B9 | 30187 | 00BA | 30188 | 00BB | 30189 | 00BC | 30190 | 00BD | 30191 | 00BE | 30192 | 00BF |
9 #- 16 #Output operation volume (read - only) address table:
4- channel module address: CH1-CH4 CH5-CH8 is not used, 8- channel module address: CH1-CH8
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| 30193 | 00C0 | 30194 | 00C1 | 30195 | 00C2 | 30196 | 00C3 | 30197 | 00C4 | 30198 | 00C5 | 30199 | 00C6 | 30200 | 00C7 |
| 30201 | 00C8 | 30202 | 00C9 | 30203 | 00CA | 30204 | 00CB | 30205 | 00CC | 30206 | 00CD | 30207 | 00CE | 30208 | 00CF |
| 30209 | 00D0 | 30210 | 00D1 | 30211 | 00D2 | 30212 | 00D3 | 30213 | 00D4 | 30214 | 00D5 | 30215 | 00D6 | 30216 | 00D7 |
| 30217 | 00D8 | 30218 | 00D9 | 30219 | 00DA | 30220 | 00DB | 30221 | 00DC | 30222 | 00DD | 30223 | 00DE | 30224 | 00DF |
| 30225 | 00E0 | 30226 | 00E1 | 30227 | 00E2 | 30228 | 00E3 | 30229 | 00E4 | 30230 | 00E5 | 30231 | 00E6 | 30232 | 00E7 |
| 30233 | 00E8 | 30234 | 00E9 | 30235 | 00EA | 30236 | 00EB | 30237 | 00EC | 30238 | 00ED | 30239 | 00EE | 30240 | 00EF |
| 30241 | 00F0 | 30242 | 00F1 | 30243 | 00F2 | 30244 | 00F3 | 30245 | 00F4 | 30246 | 00F5 | 30247 | 00F6 | 30248 | 00F7 |
| 30249 | 00F8 | 30250 | 00F9 | 30251 | 00FA | 30252 | 00FB | 30253 | 00FC | 30254 | 00FD | 30255 | 00FE | 30256 | 00FF |
Note: To communicate with the host computer and read the function code: [ Function code: 0 4 ] Read the input register
User manual
8-2-3- 7 Input register storage content (others)
1# module system parameter (read-only) definition table :
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WORD | R | 31025 | 0400 |
| 0-1 |
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31041 | 0410 |
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31057 | 0420 |
| 0~65535 |
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38193 | 2000 |
| 0-255 |
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38209 | 2010 |
| 0-9999 |
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38225 | 2020 |
| 0-9999 |
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38241 | 2030 |
| 4,8 |
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Communicate with the host computer and read the function code selection: [ Function code: 0 4 ] Read the input register
User manual
2#-8# system parameter (read-only) address table:
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| 31026 | 0401 | 31027 | 0402 | 31028 | 0403 | 31029 | 0404 | 31030 | 0405 | 31031 | 0406 | 31032 | 0407 | |
| 31042 | 0411 | 31043 | 0412 | 31044 | 0413 | 31045 | 0414 | 31046 | 0415 | 31047 | 0416 | 31048 | 0417 | |
| 31058 | 0421 | 31059 | 0422 | 31060 | 0423 | 31061 | 0424 | 31062 | 0425 | 31063 | 0426 | 31064 | 0427 | |
| 38194 | 2001 | 38195 | 2002 | 38196 | 2003 | 38197 | 2004 | 38198 | 2005 | 38199 | 2006 | 38200 | 2007 | |
| 38210 | 2011 | 38211 | 2012 | 38212 | 2013 | 38213 | 2014 | 38214 | 2015 | 38215 | 2016 | 38216 | 2017 | |
| 38226 | 2021 | 38227 | 2022 | 38228 | 2023 | 38229 | 2024 | 38230 | 2025 | 38231 | 2026 | 38232 | 2027 | |
| 38242 | 2031 | 38243 | 2032 | 38244 | 2033 | 38245 | 2034 | 38246 | 2035 | 38247 | 2036 | 38248 | 2037 | |
Remarks: ( 1 ) The content of the 2#-8# module system parameters is the same as the 1# module parameter definition method.
9 #- 16 #System parameters (read-only) address table:
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| 31033 | 0408 | 31034 | 0409 | 31035 | 040A | 31036 | 040B | 31037 | 040C | 31038 | 040D | 31039 | 040E | 31040 | 040F |
| 31049 | 0418 | 31050 | 0419 | 31051 | 041A | 31052 | 041B | 31053 | 041C | 31054 | 041D | 31055 | 041E | 31056 | 041F |
| 31065 | 0428 | 31066 | 0429 | 31067 | 042A | 31068 | 042B | 31069 | 042C | 31070 | 042D | 31071 | 042E | 31072 | 042F |
| 38201 | 2008 | 38202 | 2009 | 38203 | 200A | 38204 | 200B | 38205 | 200C | 38206 | 200D | 38207 | 200E | 38208 | 200F |
| 38217 | 2018 | 38218 | 2019 | 38219 | 201A | 38220 | 201B | 38221 | 201C | 38222 | 201D | 38223 | 201E | 38224 | 201F |
| 38233 | 2028 | 38234 | 2029 | 38235 | 202A | 38236 | 202B | 38237 | 202C | 38238 | 202D | 38239 | 202E | 38240 | 202F |
| 38249 | 2038 | 38250 | 2039 | 38251 | 203A | 38252 | 203B | 38253 | 203C | 38254 | 203D | 38255 | 203E | 38256 | 203F |
User manual
8-3 Appendix 3 : " XD1N-ET8000 and Delta touch screen communication case"
8-3-1 RS 485 communication
1.Hardware configuration:
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1 | | XD1N-ET8000 | 1 |
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2 | | DOP-B107BV | 1 | |
3 | | | 1 | |
Communication connection cable production method:
2. Default communication format of XD1N-ET8000 module:
Baud rate: 115200 , stop bit: 2 bits, data bits: 8 bits, parity mode: even parity
2. Touch screen communication format setting:
After preparing the hardware, follow these steps:
1. Power on the DOP-B107BV touch screen, use the touch screen DOPSoft software to set the touch screen communication port (COM2)
RS485 communication data format ( setting content: based on the communication format of XD1N-ET8000 ), as shown in the figure :
User manual
Touch screen screen production:
(For the detailed address of the temperature control module, please refer to: "Chapter 8 Appendix" - "8-2 Appendix 2 Register Parameter List"
In this example, the touch screen address uses decimal addressing.
The screen of the temperature value of other channels is produced according to the following address.
Current temperature value of the second channel ( CH2 ): {Link3}1@W30002
Current temperature value of the third channel ( CH3 ): {Link3}1@W30003
Current temperature value of the fourth channel ( CH4 ): {Link3}1@W30004
The current temperature value of the fifth channel ( CH5 ): {Link3}1@W30005
Current temperature value of the sixth channel ( CH6 ): {Link3}1@W30006
Current temperature value of the seventh channel ( CH7 ): {Link3}1@W30007
Current temperature value of the eighth channel ( CH8 ): {Link3}1@W30008
( 2 ) . CH1-PID setting value
In the touch screen DOPSoft software, insert the component [numeric input] and set the memory address and location.
The address is as follows:
CH1: P value
User manual
CH1 : I value
CH1 : D value
The PID value screen of other channels is made according to the following table:
CH1-CH8 PID addresses are as follows:
| P | I | D |
CH1 | {Link3}1@W41049 | {Link3}1@W41050 | {Link3}1@W41051 |
CH2 | {Link3}1@W41052 | {Link3}1@W41053 | {Link3}1@W41054 |
CH3 | {Link3}1@W41055 | {Link3}1@W41056 | {Link3}1@W41057 |
CH4 | {Link3}1@W41058 | {Link3}1@W41059 | {Link3}1@W41060 |
CH5 | {Link3}1@W41061 | {Link3}1@W41062 | {Link3}1@W41063 |
CH6 | {Link3}1@W41064 | {Link3}1@W41065 | {Link3}1@W41066 |
CH7 | {Link3}1@W41067 | {Link3}1@W41068 | {Link3}1@W41069 |
CH8 | {Link3}1@W41070 | {Link3}1@W41071 | {Link3}1@W41072 |
User manual
( 3 ) . First channel ( CH2 ) temperature set value ( SV )
In the touch screen DOPSoft software, insert the component [numeric input] and set the memory address and location.
The address is as follows:
The screen of the temperature setting value of other channels is created according to the following address.
Second channel ( CH2 ) temperature setting value: {Link3}1@W41026
The third channel ( CH3 ) temperature setting value: {Link3}1@W41027
The fourth channel ( CH4 ) temperature setting value: {Link3}1@W41028
Fifth channel ( CH5 ) temperature setting value: {Link3}1@W41029
Sixth channel ( CH6 ) temperature setting value: {Link3}1@W41030
The seventh channel ( CH7 ) temperature setting value: {Link3}1@W41031
Eighth channel ( CH8 ) temperature setting value: {Link3}1@W41032
User manual
( 4 ) . First channel ( CH1 ) start / stop switch
In the touch screen DOPSoft software, insert the button component: [Alternate type component], set the memory address, location
The address is as follows:
The pictures of other channel heating switches are made according to the following address.
Second channel ( CH2 ) start / stop switch: {Link3}1@W41034.0
Third channel ( CH3 ) start / stop switch: {Link3}1@W41035.0
Channel 4 ( CH4 ) start / stop switch: {Link3}1@W41036.0
Fifth channel ( CH5 ) start / stop switch: {Link3}1@W41037.0
Channel 6 ( CH6 ) start / stop switch: {Link3}1@W41038.0
Channel 7 ( CH7 ) start / stop switch: {Link3}1@W41039.0
Eighth channel ( CH8 ) start / stop switch: {Link3}1@W41040.0
User manual
( 5 ) . The first channel ( CH1 ) self-tuning start / stop switch
In the touch screen DOPSoft software, insert the button component: [Alternate type component], set the memory address, location
The address is as follows:
The screen of the self-tuning switch of other channels is made according to the following address.
Second channel self-tuning start / stop switch: {Link3}1@W41042.0
Third channel auto-tuning start / stop switch: {Link3}1@W41043.0
Fourth channel self-tuning start / stop switch: {Link3}1@W41044.0
Fifth channel auto-tuning start / stop switch: {Link3}1@W41045.0
Sixth channel auto-tuning start / stop switch: {Link3}1@W41046.0
The seventh channel’s self-tuning start / stop switch: {Link3}1@W41047.0
Eighth channel self-tuning start / stop switch: {Link3}1@W41048.0
User manual
8-3-2 Ethernet communication
1.Hardware configuration:
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1 | | XD1N-ET8000 | 1 |
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2 | | DOP-110IS | 1 | |
3 | |
| 1 | |
XD1N-ET8000 module default communication address:
IP address: 192.168.0.3 Port number: 1024
2. Touch screen communication format setting:
After preparing the hardware, follow these steps:
1. Power on the DOP-110IS touch screen and use the touch screen DOPSoft software to set the touch screen communication Ethernet port.
Communication data format ( setting content: based on the communication format of XD1N-ET8000 ), as shown in the figure:
User manual
3. Touch screen screen production:
(For the detailed address of the temperature control module, please refer to: "Chapter 8 Appendix" - "8-2 Appendix 2 Register Parameter List"
In this example, the touch screen address uses hexadecimal addressing.
( 1 ) . Read the current value of the first channel ( CH1 ) temperature :
In the touch screen DOPSoft software, insert the component [numeric display] and set the read memory address.
As shown below:
The screen of the temperature value of other channels is produced according to the following address.
The current temperature value of the second channel ( CH2 ): {Link2}1@R-1
Current temperature value of the third channel ( CH3 ): {Link2}1@R-2
Current temperature value of the fourth channel ( CH4 ): {Link2}1@R-3
The current temperature value of the fifth channel ( CH5 ): {Link2}1@R-4
Current temperature value of the sixth channel ( CH6 ): {Link2}1@R-5
Current temperature value of the seventh channel ( CH7 ): {Link2}1@R-6
Current temperature value of the eighth channel ( CH8 ): {Link2}1@R-7
( 2 ) . CH1-PID setting value
In the touch screen DOPSoft software, insert the component [numeric input] and set the memory address and location.
The address is as follows:
CH1 : P value
User manual
CH1: I value
CH1 : D value
The PID value screen of other channels is made according to the following table:
CH1-CH8 PID addresses are as follows:
| P | I | D |
CH1 | {Link2}1@RW-418 | {Link2}1@RW-419 | {Link2}1@RW-41A |
CH2 | {Link2}1@RW-41B | {Link2}1@RW-41C | {Link2}1@RW-41D |
CH3 | {Link2}1@RW-41E | {Link2}1@RW-41F | {Link2}1@RW-420 |
CH4 | {Link2}1@RW-421 | {Link2}1@RW-422 | {Link2}1@RW-423 |
CH5 | {Link2}1@RW-424 | {Link2}1@RW-425 | {Link2}1@RW-426 |
CH6 | {Link2}1@RW-427 | {Link2}1@RW-428 | {Link2}1@RW-429 |
CH7 | {Link2}1@RW-42A | {Link2}1@RW-42B | {Link2}1@RW-42C |
CH8 | {Link2}1@RW-42D | {Link2}1@RW-42E | {Link2}1@RW-42F |
User manual
( 3 ) . First channel ( CH1 ) temperature set value ( SV )
In the touch screen DOPSoft software, insert the component [numeric input] and set the memory address and location.
The address is as follows:
The screen of the temperature setting value of other channels is created according to the following address.
Second channel ( CH2 ) temperature setting value: {Link2}1@RW-401
The third channel ( CH3 ) temperature setting value: {Link2}1@RW-402
The fourth channel ( CH4 ) temperature setting value: {Link2}1@RW-403
Fifth channel ( CH5 ) temperature setting value: {Link2}1@RW-404
The sixth channel ( CH6 ) temperature setting value: {Link2}1@RW-405
The seventh channel ( CH7 ) temperature setting value: {Link2}1@RW-406
Eighth channel ( CH8 ) temperature setting value: {Link2}1@RW-407
User manual
( 4 ) . First channel ( CH1 ) start / stop switch
In the touch screen DOPSoft software, insert the button component: [Alternate type component], set the memory address, location
The address is as follows:
The pictures of other channel heating switches are made according to the following address.
Second channel ( CH2 ) start / stop switch: {Link2}1@RW-409.0
Third channel ( CH3 ) start / stop switch: {Link2}1@RW-40A.0
Fourth channel ( CH4 ) start / stop switch: {Link2}1@RW-40B.0
Fifth channel ( CH5 ) start / stop switch: {Link2}1@RW-40C.0
Channel 6 ( CH6 ) start / stop switch: {Link2}1@RW-40D.0
Channel 7 ( CH7 ) start / stop switch: {Link2}1@RW-40E.0
Eighth channel ( CH8 ) start / stop switch: {Link2}1@RW-40F.0
User manual
( 5 ) . The first channel ( CH1 ) self-tuning start / stop switch
In the touch screen DOPSoft software, insert the button component: [Alternate type component], set the memory address, location
The address is as follows:
The screen of the self-tuning switch of other channels is made according to the following address.
Second channel ( CH2 ) self-tuning start / stop switch: {Link2}1@RW-411.0
The third channel ( CH3 ) self-tuning start / stop switch: {Link2}1@RW-412.0
The fourth channel ( CH4 ) self-tuning start / stop switch: {Link2}1@RW-413.0
Fifth channel ( CH5 ) self-tuning start / stop switch: {Link2}1@RW-414.0
The sixth channel ( CH6 ) self-tuning start / stop switch: {Link2}1@RW-415.0
Seventh channel ( CH7 ) self-tuning start / stop switch: {Link2}1@RW-416.0
Eighth channel ( CH8 ) self-tuning start / stop switch: {Link2}1@RW-417.0
User manual
8-4 Appendix 4 : " Communication between XD1N-ET8000 and Delta PLC "
8-4-1 RS485 communication
1.Hardware configuration:
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1 | | XD1N-ET8000 | 1 |
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2 | | DVP32ES200T | 1 | |
3 | | | 1 | |
Communication connection cable production method:
2. XD1N-ET8000 module communication format:
Baud rate: 115200 , stop bit: 2 bits, data bits: 8 bits, check mode: none station number: 1
2. Corresponding address of PLC- temperature control module: Please refer to Appendix 2 " 8-2-2 Register Parameter List" for the register address, and convert it into a relative address after looking up the table.
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CH1 | D50 | K0 | H0 | D408 | K1024 | H400 | D100 | K1032 | H408 | D108 | K1040 | H410 |
CH2 | D51 | K1 | H1 | D409 | K1025 | H401 | D101 | K1033 | H409 | D109 | K1041 | H411 |
CH3 | D52 | K2 | H2 | D410 | K1026 | H402 | D102 | K1034 | H40A | D110 | K1042 | H412 |
CH4 | D53 | K3 | H3 | D411 | K1027 | H403 | D103 | K1035 | H40B | D111 | K1043 | H413 |
CH5 | D54 | K4 | H4 | D412 | K1028 | H404 | D104 | K1036 | H40C | D112 | K1044 | H414 |
CH6 | D55 | K5 | H5 | D413 | K1029 | H405 | D105 | K1037 | H40D | D113 | K1045 | H415 |
CH7 | D56 | K6 | H6 | D414 | K1030 | H406 | D106 | K1038 | H40E | D114 | K1046 | H416 |
CH8 | D57 | K7 | H7 | D415 | K1031 | H407 | D107 | K1039 | H40F | D115 | K1047 | H417 |
The relative address calculation formula is as follows:
Relative address = [lower 4 bits of register address ] -1
Example: The set value ( SV ) address of module 1# CH1 is 41025
Then: 1# module CH1 set value ( SV ) relative address = [ lower 4 bits of 41025 ] - 1 = 1024
In the PLC program example, relative address programming is used. If you use hexadecimal programming, just use the hexadecimal address in Appendix 2 " 8-2-2 Register Parameter List" !
User manual
3.PLC communication format setting:
4.PLC program example:
When M1002=ON : Set the communication format of COM2 :
When M0=ON : MODRW K1 (station number 1 ) K4 (function code) K0 (read address) D0 (buffer area) K8 (data length)
That is, the current temperature value ( PV ) of CH1-CH8 is read and stored in the buffer area of D0-D8 .
K0 : Relative address [ lower 4 bits of 30001 ] -1=0 , which is K0
You can also enter K0 in hexadecimal to change it to H0.
K8 : Read 8 data in the K0-K7 addresses in the temperature control module , and the read data is in the D0 -D8 buffer area.
When M1=ON : Set the temperature set value ( SV ) of CH1-CH8
Write 8 data to the K1024-K1031 addresses of the temperature control module, and the written data values are the values of D408-D415.
User manual
When M2=ON : MODRW K1 (station number 1 ) H10 (function code) K1032 (write data address) D100 ( PLC setting value) K8 (data
length) to set the start/stop switch of CH1-CH8
H10 : [ 1 6 ] Continuous function writing (data 16 is a decimal number, and it becomes H10 when it becomes hexadecimal )
K1032 : Relative address [ lower 4 bits of 41033 ] -1=1032 , that is, K1032 can also be input in hexadecimal to change K1032 to H408 .
K8 : Write 8 data to the K1032-K1039 addresses of the temperature control module , and the written data value is the value of D100-D107 .
When M3=ON : Set the auto-tuning start / stop switch of CH1-CH8
Write 8 data to the K1040-K1047 addresses of the temperature control module , and the written data values are the values of D108-D115 .
When M0=ON and M1123=ON :
BMOV transmits the current value of D1296-D1303 ( MODBUS internal buffer content) to D50-D57 (reading CH1-CH8 ).
K8 : The data length is 8 , that is, the contents in the MODBUS internal buffer area are sent to ( D50-D57) in batches.
M1122 : Send request:
User manual
8-5 Appendix 5 : " Sensor types supported by XD1N series temperature control module"
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| PT100 | 8 | -200-300 |
| K | 0 | -270-1372 | |
J | 1 | -210-1200 | ||
T | 2 | -210-400 | ||
E | 3 | -270-1000 | ||
N | 4 | -270-1300 | ||
B | 5 | 0-1800 | ||
R | 6 | -50-1664.5 | ||
S | 7 | -50-1768.1 |
8-6Appendix 6 : "Products and Services"
Products and services
To facilitate parameter setting, our company provides XD1N communication setting software. Please download it from the Xianda website:
1.
Enter the official website of Freach: http://www.freach.com.cn
2.
Click to select products and services- > Industrial Automation
3.
Scroll to the lower right corner and click Download Center
For more information on temperature control module product data and product problem assistance, please call the nearby dealer or our company’s technical support
Hold the hotline.
XD1N series temperature control module
Zhejiang Xianda Technology Co., Ltd.
ZHEJIANG XIAN DA Protection Technology Co. , Ltd
Address: Building 3A, No. 8, Xiyuan 1st Road, Xihu Science and Technology Park, Xihu District, Hangzhou
Phone: 4 00-855-9788 0571-88236155
Fax: 0571-85122380