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中级会员第4年
生产厂家ARTM变压器电气接点无限测温智能温度巡检仪适用于一路或多路温度的测量和控制,主要应用于火电厂、水电站等场合的温度巡检测量及控制。ARTM-8 变压器电气接点无限测温智能温度巡检仪适用于多路温度测量与控制,可接入最多8路PT100 传感器,适用于低压开关柜电气接点、变压器绕组、电机绕组等场合的测温
1,型号与功能
注:ARTM8的测温通道可由用户,具体见订货范例。
2,技术参数
包装内含下列项目:
Packaging contains the following items:
主机(含插拔式端子排,铭牌,安装支架等);
Main engine (including plug-in terminal, nameplate, mounting bracket, etc.)
产品安装使用手册。’
Product installation manual.
在打开产品包装时,请仔细检查是否有损坏,如有任何损坏,请及时通知ACREL公司或代理商,并请保留损坏的外包装。如系ACREL公司或代理商责任,将及时予以更换。
When opening the product packaging, please check if there is any damage, please inform ACREL or agent in time, and please keep the damaged outer packing. If it is the responsibility of ACREL company or agent, it will be replaced in time.
n ARTM8:
在您的配电盘上,选择合适的地方开一个与所安装温度巡检仪开孔尺寸相同的安装孔。
On your switchboard, select the appropriate place to open a hole with the same size as the installed temperature inspector.
取出温度巡检仪,松开定位螺钉(逆时针),取下安装支架。
Remove the temperature inspector, loosen the positioning screw (counterclockwise) and remove the mounting bracket.
把仪表插入配电盘仪表孔中。
Insert the meter into the dial gauge hole.
插入仪表后装上安装支架、定位螺钉(顺时针)。
Insert mounting bracket and positioning screw (clockwise) after instrumentation.
n ARTM8:
注意:二线制接线时必须按照图示,将热电阻传感器的其中一根引线接到2个端子上。
Notice:In the second wire connection, one of the wires of the thermal resistance sensor must be connected to two terminals according to the diagram.
2 操作指南
n ARTM8的面板图示
n ARTM8 Panel graphic
依照说明正确接线后,接通工作电源即进入测量状态。
After the correct wiring is indicated, the working power is connected to the measuring state.
2.3.1 Enter/exit system setting mode
在正常情况下,仪表处于正常工作状态,此时按下SET键大于3秒,会进入系统设置模式,进入系统设置模式前,首先需要输入正确的密码(出厂时一般设置为0001)。
Under normal circumstances, the normal work of the instrument, press the SET key at this time more than 3 seconds, will enter the system setup mode, before entering the system setup mode, you first need to enter the correct password (factory generally SET to 0001).
进入系统设置模式的具体操作如下:
The specific operation of entering the system setting mode is as follows:
(1)按住SET键,直至画面显示“Prog”,再单击回车键,显示“code”,提示要输入密码,再单击回车键出现“0000”,按左右方向键减小或增大数值大小至正确的密码;
(1)Press SET key, until it showed "Prog", then click the enter key to display "code", prompt to enter a password, then click the enter key in "0000", according to the or so direction key numerical size to decrease or increase the correct password.
(2)密码正确,则画面显示“PASS”,单击回车即进入系统设置的最高一层菜单;否则显示“Err”(error),单击回车返回正常模式。
(2)The password is correct, the screen shows "PASS", and click enter to enter the highest level menu of system Settings; otherwise, "Err" (error) is displayed, and click return to return to normal mode.
系统设置包括报警点设置(菜单“SET”),回滞量及报警延时设置(菜单“HyS”),显示模式设置(菜单“DISP”),通讯设置(菜单“BUS”),设置新密码(菜单“n.cod”),查看软件版本号(菜单“UErn”)。
System Settings includes emergency alarm Settings (menu "SET"), the amount of hysteresis and alarm delay Settings
(menu " HyS "), the display mode Settings (menu " DISP "), communication Settings (menu "BUS"), setting a new password (menu "n.cod"), to check the software version number (menu "UErn").
进入系统设置模式后,选择菜单状态进入。
After entering the system Settings mode, select menu status to enter.
(1)“SET”状态设置
(1)“SET” state setting
密码设置成功,进入系统设置模式以后,按左或右方向键直到显示“SET”,回车确认后显示“CH1”,再次回车后显示“ON”或“OFF”,可按左或右方向键选择。选择“OFF”,回车,即屏蔽通道1的温度测量和监控,画面返回“CH1”;选择“ON”,回车,即打开通道1的温度测量和监控,并显示“AL1”,即通道1的报警点1的设定,回车进入显示“HI”或“LO”,首先按左或右键选择设定报警点1的报警趋势,“HI”表示高越限报警,“LO”表示低越限报警,回车确认后设定具体数值,按左右方向键减小或增大数值大小,达到要求后回车确定,系统返回“AL1”。
After entering the system setting mode, press left or right arrow keys until the "SET" is displayed. After returning the car, the "CH1" will be displayed, and the "ON" or "OFF" will be displayed after enter, and the left or right arrow keys can be selected. Select "OFF", enter, the temperature measurement and monitoring of shield channel 1, and return "CH1"; Choose "ON", press enter, or open channel 1 temperature measurement and monitoring, and display the "AL1", namely channel 1 emergency alarm 1 set, enter into the show "HI" or "LO", firstly, according to the left or the right to choose to set alarm trend of emergency alarm 1, said "HI" the high limit alarm, "LO" said low limit alarm, press enter to confirm after setting specific values, press the left right direction key numerical size, decrease or increase after reaching requirements determine rate of return, return to "AL1" system.
在“AL1”状态下按左或右键选择“AL2”,即通道1的报警点2的设定,设定方法与“AL1”*相同。
In the "AL1" state, press left or right select "AL2", which is the setting of alarm point 2 of channel 1, and the setting method is exactly the same as "AL1".
在“AL1”或“AL2”状态下,按“SET”键返回“CH1”,此时再按左或右键选择可进入其他通道的设置,设置方法与通道1*相同。
Under the condition of "AL1" or "AL2", press "SET" to return "CH1". At this time, select the Settings that can enter other channels on the left or right button, and the setting method is exactly the same as channel 1.
在“CH1”、“CH2”、“CH3”等状态下按“SET”键返回最高一层菜单“SET”。
Press "SET "to return the top menu "SET" in "CH1", "CH2" and "CH3".
(2)“HyS”状态设置
(2)“HyS” state setting
进入系统设置模式以后,按左或右方向键直到显示“HyS”,即设置报警的回滞量和报警延时。按回车键进入,选择“HyS1”设定所有通道报警1的回滞量;选择“HyS2”设定所有通道报警2的回滞量,选择“DEL”设定报警延时时间。报警延时设定的范围是1~10,而单位并非秒,假定现设定报警延时值为4,即连续“4”次测得某一通道的温度处于报警位置,才触发报警。
After entering the system setting mode, press the left or right arrow keys until the "HyS" is displayed, that is, set the alarm back delay and alarm delay. Press enter key to enter, select "HyS1" to set the return amount of all channel alarm 1; select "HyS2" to set the back delay of all channel alarm 2, and select "DEL" to set alarm delay time. The range of alarm delay setting is 1~10, and the unit is not seconds, assuming that the alarm delay value is 4, that is, the temperature of a channel must be set at the alarm setting in a continuous "4" test, then the alarm will be triggered.
(3)“DISP”状态设置
(3)“DISP” state setting
进入系统设置模式以后,按左或右方向键直到显示“DISP”,按回车键进入“cyc”状态,即设置循环显示各通道温度值的间隔时间,回车进入数值设置,设置范围0~20,其中0表示正常模式下静态显示某一通道的温度值,其余数值即正常模式下循环显示的间隔时间(单位:秒)。回车确认后返回“DISP”状态。
Into system setting mode, press left or right direction until the show "DISP", press the enter key to enter "cyc" state, which set up the cycle time interval of each channel temperature value, enter into the value set, the set range 0 ~ 20, where 0 means normal mode shows a static channel temperature value, the rest of the numerical display of cycle in the normal mode namely time interval (unit: second). Enter the "DISP" state after the enter confirmation.
设定静态显示,在正常模式下按住左或右键不放,可快速切换到需要的通道温度显示,并保持。
Set the static display, press left or right button in normal mode, can accelerate the switch to the required channel temperature display, and maintain.
设定循环显示,在正常模式下按住右键不放,可加快循环显示速度。
Set the cycle to display, under normal mode, hold right button, can speed up the circulation display speed.
(4)“BUS”状态设置
(4)“BUS” state setting
进入系统设置模式以后,按左或右方向键直到显示“BUS”,即通讯设定,回车确认后显示“Addr”状态,再次回车后就可以设置地址的值,通过左或右方向键改变地址值,按回车确认后返回“Addr”状态,按左或右方向键选择“Baud”状态,回车进入后通过左或右方向键选择合适的波特率,按回车键确认退出。
Enter the system after setting mode, press left or right direction until the show "Bus", namely the communication setting, press enter to confirm after the "Addr" status display, enter again after can set the value of address, change address
values by left or right direction key, press enter to confirm back the "Addr" status, according to the left or right direction key to choose "Baud" state, after enter into by left or right direction key to choose the appropriate Baud rate, press enter to confirm.
显示状态 Display state | 解释 Explanation | 可设定范围 Adjustable range |
Addr | 通讯地址 Communication address | 0001~0247 |
Baud | 通讯波特率 Communication baud rate | 1200、2400、4800、9600、19200 |
(5)“n.cod”状态设置
(5)“n.cod” state setting
进入系统设置模式以后,按左或右方向键直到显示“n.cod”,即设置新的系统密码,按回车进入后,按左或右键输入合适的新密码后,按回车确认。
Enter the system after setting mode, press left or right direction until the show "n.cod", set up new system password, press enter to enter, press the left or right input right after the new password, and press enter to confirm.
(6)“UErn”状态设置
(6)“UErn” state setting
进入系统设置模式以后,按左或右方向键直到显示“UErn”,即查看产品软件版本号,按回车后进入查看状态。
After entering the system setting mode, press the left or right arrow keys until the "UErn" is displayed, that is, check the product software version number, and press enter to enter the viewing status.
全部参数设置完成后,在上述六个状态中的任意一个状态下按“SET”键,进入“SAUE”状态,即保存数据。此时,按回车键保存设置的内容,按“SET”键直接退出系统设置模式,不保存所设置的内容,返回正常模式后按原有参数运行。
After all the parameter Settings are completed, press the "SET" button in any of the above six states to enter the "SAVE" state, which is to save the data. At this time, press enter key to save the Settings, press the "SET" key to directly exit the system setting mode, do not save the contents SET, return to normal mode and follow the original parameters.
3通讯指南
3 Communication
在本章主要讲述如何利用软件通过通讯口来操控该系列仪表。本章内容的掌握需要您具有MODBUS协议的知识储备并且通读了本册其他章节所有内容,对本产品功能和应用概念有较全面的了解。
This chapter focuses on how to use software to manipulate the series of instruments through a communication port. The mastery of the content of this chapter requires that you have the knowledge reserve of MODBUS protocol and read all the contents of the other chapters of this book, and have a comprehensive understanding of the functions and application concepts of the product.
本章内容包括:MODBUS协议简述,通讯应用格式详解,本机的应用细节及参量地址表。
The contents of this chapter include: brief introduction of MODBUS protocol, details of communication application format, application details of the machine and parameter address table.
传输方式是指一个数据帧内,一系列独立的数据结构以及用于传输的数据的有限规则,下面定义了与MODBUS协议(RTU方式)相兼容的传输方式。
Transport refers to a data frame, a series of separate data structure and used for the transmission of data to limited rules, the following defines that is compatible with the MODBUS protocol (RTU) transmission mode.
每个字节的位
Bits per byte
l 1个起始位
l 1 start bit
l 8个数据位,最小的有效位先发送
l 8 data bits, the smallest valid bit is sent firstly
l 无奇偶校验位
l Unexciting parity bit
l 1个停止位
l 1 stop bit
错误检测:CRC(循环冗余校验)
Error detection: CRC (Cyclic redundancy check)
当数据帧到达终端设备时,它通过一个简单的“端口”进入被寻址的设备,该设备去掉数据帧的“信封”(数据头),读取数据,如果没有错误,就执行数据所请求的任务,然后,它将自己生成的数据加入到取得的“信封”中,把数据帧返回给发送者。返回的响应数据帧中包含了以下内容:终端从机地址(Address)、被执行了的命令(Function)、执行命令生成的被请求数据(Data)和一个校验码(Check)。发生任何错误都不会有成功的响应。
When data frames to terminal equipment, it by a simple "ports" to be addressing device, the device to remove the "envelope" data frames (data), read the data, if there are no mistakes, will carry out the tasks of the requested data, then, it will generate its own data to join the "envelope" of the data frame is returned to the sender. The response returned Data frame contains the following contents: the terminal Address (Address), was carried out from the machine's command (Function), execute the command to generate the requested Data (Data) and a Check code (Check). There will be no successful response to any errors.
Address | Function | Data | Check |
8-bits | 8-bits | N×8-bits | 16-bits |
地址域在帧的开始部分,由一个字节(8位二进制码)组成,十进制为0~255,在我们的系统中只留用1~247,其它地址保留。这些位标明了用户的终端设备地址,该设备将接收来自与之相连的主机数据。每个终端设备的地址必须是的,仅仅被寻址到的终端会响应包含了该地址的查询。当终端发送回一个响应,响应中的从机地址数据便告诉了主机哪台终端正与之进行通讯。
The Address is at head of the data, and it has 1 byte (8-bits binary code). The decimal is 0~255. In ARTM, it just uses 1~247. It stores the slave address. These bits indicate the address of the terminal device specified by the user, which will receive the host data that is connected to it. The address of each terminal device must be only one, and only the addressable terminal will respond to the query containing the address. When the terminal sends back a response, the data from the machine address in the response tells the host which terminal is communicating with it.
功能域代码告诉了被寻址到的终端执行何种功能。下表列出了该系列仪表用到的功能码,以及它们的意义和功能。
The functional domain code tells what function the addressable terminal performs. The following table lists the functional codes used in this series of instruments, as well as their meanings and functions.
代码 Code | 意义 Meaning | 行为 Action |
03或04 03 or 04 | 读数据寄存器 Read/hold register | 获得一个或多个寄存器的当前二进制值 Get the current binary value from one or multi hold register |
16 | 预置多寄存器 multiregister | 设定二进制值到一系列多寄存器中 Put the binary value into multi hold register |
数据域包括了终端执行特定功能所需要的数据或者终端响应查询时采集到的数据。这些数据的内容可能是数值、参考地址或者设置值。例如:功能域码告诉终端读取一个寄存器,数据域则要指明从哪个寄存器开始及读取多少个数据,内嵌的地址和数据依照类型和从机之间的不同内容而有所不同。
The data domain includes the data that the terminal needs to perform a particular function, or the data collected when the terminal responds to the query. The contents of these data may be numeric, reference addresses, or set values. For example, code tells terminal functional domains to read from a register, data domain to indicate the starting which register and read how many data, the embedded address and data in accordance with the type and different content varies between machine.
该域允许主机和终端检查传输过程中的错误。有时,由于电噪声和其它干扰,一组数据在从一个设备传输到另一个设备时在线路上可能会发生一些改变,出错校验能够保证主机或者终端不去响应那些传输过程中发生了改变的数据,这就提高了系统的安全性和效率,错误校验使用了16位循环冗余的方法。
This code allows the error of transmission between the master and slave. Sometimes, there will be the errors when a data transferred from equipment to another in the interference due to the electrical noise and other disturbances. The check code can make the slave not to answer the error data in the transmission. This improves the security and efficiency of the system. Check node uses 16-bits cyclic redundancy.
错误校验(CRC)域占用两个字节,包含了一个16位的二进制值。CRC值有传输设备计算出来,然后附加到数据帧上,接收设备在接收数据时重新计算CRC值,然后与就收到的CRC域中的值进行比较,如果这两个值不相等,就发生了错误。
CRC occupies 2 bytes, and it contains a binary value of 16 bits. It is got by the transmission equipment, and than it is added in the data frame. The master will recalculate the CRC value, and then it compares the value to that received. If 2 values is not same, there must be error.
CRC运算时,首先将一个16位的寄存器预置为全1,然后连续把数据帧中的每个字节中的8位与该寄存器的当前值进行运算,仅仅每个字节的8个数据位参与生成CRC,起始位和终止位以及可能使用的奇偶位都不影响CRC。在生成CRC时,每个字节的8位与寄存器中的内容进行异或,然后将结果向低位移位,高位则用0补充,位(LSB)移出并检测,如果是1,该寄存器就与一个预设的固定值(0A001H)进行一次异或运算,如果位为0,则不作任何处理。
The CRC algorithm, you will preset a 16-bit register all to 1, then each byte in the data frame of eight consecutive operation with the current value of the register, only 8 bits of each byte in generate CRC, start bit and stop bit and the possibility of using parity bit does not affect the CRC. When generate CRC, each byte of eight different XOR with the contents of the registers, then the results to the low displacement, high use 0, lowest (LSB) removed and test, if it is 1, the register is fixed with a preset value (0A001H) for an XOR operation, if the lowest is 0, do not make any processing.
上述处理重复进行,直到执行完了8次移位操作,当最后一位(第8位)移位完成以后,下一个8位字节与寄存器的当前值进行异或运算,同样进行上述的另一个8次移位异或操作,当数据帧中的所有字节都作了处理,生成的最终值就是CRC值。
The above process repeated, until the end of the eight times perform shift operation, when the last one (eighth) after the completion of the shift, an 8-bit bytes and register under the current value of XOR operation, another eight times for the same shift XOR operation, when all the bytes of a data frame processing, generate the final value is CRC value.
生成一个CRC的流程为:
The process of generating a CRC is:
1、 预置一个16位寄存器为0FFFFH(全1),称之为CRC寄存器。
1、 Preset a 16-bit register to be 0FFFFH (all 1), which is called CRC register.
2、 把数据帧的第一个字节的8位与CRC寄存器中的低字节进行异或运算,结果存回CRC寄存器。
2、XORing the 8 bits of the first byte of the data frame with the low byte in the CRC register, and the result is saved back to the CRC register.
1、 将CRC寄存器向右移一位,最高位填以0,位移出并检测。
3、Move the CRC register to the right one, the highest position is 0, and the minimum displacement is detected.
4、如果位为0:重复第三步(下一次移位);如果位为1:将CRC寄存器与一个预设的固定值(0A001H)进行异或运算。
4、If the lowest level is 0: repeat step 3 (the next shift);If the lowest level is 1: the CRC register is XORed with a preset fixed value (0A001H).
5、 重复第三步和第四步直到8次移位。这样处理完了一个完整的8位。
5、Repeat step 3 and step 4 up to 8 shifts. This completes a complete 8 bit.
6、 重复第2步到第5步来处理下一个8位,直到所有的字节处理结束。
6、Repeat step 2 to step 5 to handle the next 8 bit, knowing that all byte processing ends.
7、 最终CRC寄存器的值就是CRC的值。
7、The value of the final CRC register is the value of CRC.
此外,还有一种利用预设的表格计算CRC的方法,它的主要特点是计算速度快,但是表格需要较大的存储空间,该方法此处不再赘述,请参阅相关资料。
In addition, there is a way to use the default form of CRC calculation method, its main characteristic is computing speed, but the form needs large storage space, the method is no longer here, please refer to the relevant information.
本节所举实例将尽可能的使用如下表所示的格式,(数字为16进制)。
The examples in this section will use the format shown in the following table as much as possible (the number is hexadecimal).
Addr | Fun | Data start reg hi | Data start reg lo | Data #of reg hi | Data #of reg lo | CRC16 lo | CRC16 hi |
01H | 03H | 00H | 00H | 00H | 03H | 05H | CBH |
Addr:从机地址
Addr: slave address
Fun:功能码
Fun: function code
Data start reg hi:数据起始地址 寄存器高字节
Data start reg hi: the start of data code, the high byte
Data start reg lo:数据起始地址 寄存器低字节
Data start reg lo: the start of data code, the low byte
Data #of reg hi:数据读取个数 寄存器高字节
Data #of reg hi: the number of data, the high byte
Data #of reg lo:数据读取个数 寄存器低字节
Data #of reg lo: the number of data, the low byte
CRC16 hi:循环冗余校验 高字节
CRC16 hi: check data, the high byte
CRC16 lo:循环冗余校验 低字节
CRC16 lo: check data, the low byte
l 查询数据帧
l The read data frame
此功能允许用户获得设备采集与记录的数据及系统参数。主机一次请求的数据个数没有限制,但不能超出定义的地址范围。
This function allows the user to get the data measured and registered by slave and its system parameters. There is not the asking limit, but the data cannot exceed the defined code domain.
下面的例子是从01号从机读3个采集到的基本数据(数据帧中的每个地址占用2个字节)T1、T2、T3,其中T1的地址为0006H,T2的地址为0007H,T3的地址为0008H。
For example, the 3 data (T1, T2, T3) is red by slave No.01. Each code in the data frame has 2 bytes. T1 is 0006H, T2 is 0007H, T3 is 0008H.
Addr | Fun | Data start Addr hi | Data start Addr lo | Data #of Reg hi | Data #of Reg lo | CRC16 lo | CRC16 hi |
01H | 03H | 00H | 06H | 00H | 03H | E5 | CA |
l 响应数据帧
l The answer data frame
响应数据帧包括从机地址、功能码、数据的数量、采集的数据和CRC错误校验。
The answer data frame includes slave address code, function code, data number code, the measured data code and CRC
code.
下面的例子是读取T1、T2、T3(T1=016AH,T2=016BH,T3=0169H)的响应。
The example as below: T1, T2, T3(T1=016AH, T2=016BH, T3=0169H)
Addr | Fun | Byte Count | Data1 Hi | Data1 Lo | Data2 Hi | Data2 Lo | Data3 Hi | Data3 Lo | CRC16 Lo | CRC16 Hi |
01H | 03H | 06H | 01H | 6AH | 01H | 6BH | 01H | 69H | 89H | 33H |
l 查询数据帧
l The read data frame
功能码16允许用户改变多个寄存器的内容,该仪表中系统参数等可用此功能码写入。
The function code 16 allows user to change the content in the register. The system parameters of ARTM can be changed by this code.
下面的例子是预置ARTM8或ARTM16,设定温度显示的间隔时间为4秒,并关闭通道1和通道2的温度测量。显示控制字的地址为0003H,通道开/关状态控制寄存器的地址为0004H。
The example as below, set the interval of loop display is 4 seconds; and turn off temperature input channel 1 and channel 2. The code of display control word is 0003H, the code of state of NO/OFF is 0004H.
Addr | Fun | Data start hi | Data start lo | Data #of reg hi | Data #of reg lo | Byte Count | Value1 Hi | Value1 Lo | Value2 Hi | Value2 Lo | CRC16 Lo | CRC16 hi |
01H | 10H | 00H | 03H | 00H | 02H | 04H | 00H | 04H | FFH | FCH | B3H | CAH |
l 响应数据帧
l The answer data frame
对于预置寄存器请求的正常响应数是在寄存器值改变后回应机器地址、功能码、数据起始地址、数据个数、CRC校验码。
The normal response number for the preset register request is to respond to the machine address, function code, data start address, data number and CRC check code after the register value changes.
Addr | Fun | Data start Addr hi | Data start Addr lo | Data #of Reg hi | Data #of Reg lo | CRC16 lo | CRC16 hi |
01H | 10H | 00H | 03H | 00H | 02H | B1H | C8H |
地址 Code | 参数 Parameter | 读写属性 R/W | 数值范围 Value | 数据类型 Format |
0000H 高字节 High byte | 仪表型号 The type of ARTM | R | 1:ARTM8;2:ARTM16 | word |
0000H 低字节 Low byte | 传感器类型 The type of sensor | R | 1:Pt100;2:Cu50 | |
0001H | 保护密码 Password | R/W | 0000~9999 | word |
0002H 高字节 High byte | 通讯地址 Slave address | R/W | 0001~0247 | word |
0002H 低字节 Low byte | 通讯波特率 Communication speed | R/W | 0-4:对应1200、2400、4800、9600、19200 0-4: for 1200、2400、4800、9600、19200 | |
0003H | 显示控制字 Display setting | R/W | 0~20,0表示静态显示 ,其余表示循环显示的间隔时间 0~20,0 normal display; the others is the interval of loop display | word |
0004H 高字节 High byte | 9~16通道状态:打开/屏蔽 (仅ARTM16有效) 9~16 channel state: ON/OFF (just for ARTM16) | R/W | 每一位分别对应一个通道的状态: 0— 屏蔽,1—打开 Each bit corresponds one channel: 0-OFF, 1-ON | word |
0004H 低字节 Low byte | 1~8通道状态:打开/屏蔽 1~8 channel: ON/OFF | R/W | 每一位分别对应一个通道的状态: 0— 屏蔽,1—打开 Each bit corresponds one channel: 0-OFF, 1-ON | |
0005H 高字节 High byte | 9~16通道的传感器状态 (仅ARTM16有效) 9~16 channel sensor state: (just for ARTM16) | R | 每一位分别对应一个通道传感器的状态:0—正常,1—错误 Each bit corresponds one channel: 0-OK, 1-ERRO | word |
0005H 低字节 Low byte | 1~8通道的传感器状态 1~8 channel sensor state | R | 每一位分别对应一个通道传感器的状态:0—正常,1—错误 Each bit corresponds one channel: 0-OK, 1-ERRO | |
0006H | 温度测量值T1 Temperature value T1 | R | Pt100:-200~600; Cu50:-50~150 | word |
0007H | 温度测量值T2 Temperature value T2 | R | Pt100:-200~600; Cu50:-50~150 | word |
0008H | 温度测量值T3 Temperature value T3 | R | Pt100:-200~600; Cu50:-50~150 | word |
0009H | 温度测量值T4 Temperature value T4 | R | Pt100:-200~600; Cu50:-50~150 | word |
000AH | 温度测量值T5 Temperature value T5 | R | Pt100:-200~600; Cu50:-50~150 | word |
000BH | 温度测量值T6 Temperature value T6 | R | Pt100:-200~600; Cu50:-50~150 | word |
000CH | 温度测量值T7 Temperature value T7 | R | Pt100:-200~600; Cu50:-50~150 | word |
000DH | 温度测量值T8 Temperature value T8 | R | Pt100:-200~600; Cu50:-50~150 | word |
000EH | 温度测量值T9 (仅ARTM16有效) Temperature value T9 (just for ARTM16) | R | Pt100:-200~600; Cu50:-50~150 | word |
000FH | 温度测量值T10 (仅ARTM16有效) Temperature value T10 (just for ARTM16) | R | Pt100:-200~600; Cu50:-50~150 | word |
0010H | 温度测量值T11 (仅ARTM16有效) Temperature value T11 (just for ARTM16) | R | Pt100:-200~600; Cu50:-50~150 | word |
0011H | 温度测量值T12 (仅ARTM16有效) Temperature value T12 (just for ARTM16) | R | Pt100:-200~600; Cu50:-50~150 | word |
0012H | 温度测量值T13 (仅ARTM16有效) Temperature value T13 (just for ARTM16) | R | Pt100:-200~600; Cu50:-50~150 | word |
0013H | 温度测量值T14 (仅ARTM16有效) Temperature value T14 (just for ARTM16) | R | Pt100:-200~600; Cu50:-50~150 | word |
0014H | 温度测量值T15 (仅ARTM16有效) Temperature value T15 (just for ARTM16) | R | Pt100:-200~600; Cu50:-50~150 | word |
0015H | 温度测量值T16 (仅ARTM16有效) Temperature value T16 (just for ARTM16) | R | Pt100:-200~600; Cu50:-50~150 | word |
0016H 高字节 High byte | 9~16通道AL1的报警趋势 (仅ARTM16有效) 9th~16th channel AL1 alarm trend (just for ARTM16) | R/W | 每一位分别对应一个通道AL1的报警趋势:0—低报警,1—高报警 Each bit corresponds one channel AL1: 0-low alarm, 1-high alarm | word |
0016H 高字节 High byte | 9~16通道AL1的报警趋势 (仅ARTM16有效) 9th~16th channel AL1 alarm trend (just for ARTM16) | R/W | 每一位分别对应一个通道AL1的报警趋势:0—低报警,1—高报警 Each bit corresponds one channel AL1: 0-low alarm, 1-high alarm | word |
0016H 低字节 Low byte | 1~8通道AL1的报警趋势 1th~8th channel AL1 alarm trend | R/W | 每一位分别对应一个通道AL1的报警趋势:0—低报警,1—高报警 Each bit corresponds one channel AL1: 0-low alarm, 1-high alarm | |
0017H 高字节 High byte | 9~16通道AL2的报警趋势 (仅ARTM16有效) 9th~16th channel AL2 alarm trend (just for ARTM16) | R/W | 每一位分别对应一个通道AL2的报警趋势:0—低报警,1—高报警 Each bit corresponds one channel AL2: 0-low alarm, 1-high alarm | word |
0017H 低字节 Low byte | 1~8通道AL2的报警趋势 1th~8th channel AL2 alarm trend | R/W | 每一位分别对应一个通道AL2的报警趋势:0—低报警,1—高报警 Each bit corresponds one channel AL2: 0-low alarm, 1-high alarm | |
0018H | 通道1的AL1报警设定值 Setpoint of AL1 for 1st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0019H | 通道1的AL2报警设定值 Setpoint of AL2 for 1st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
001AH | 通道2的AL1报警设定值 Setpoint of AL1 for 2st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
001BH | 通道2的AL2报警设定值 Setpoint of AL2 for 2st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
001CH | 通道3的AL1报警设定值 Setpoint of AL1 for 3st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
001DH | 通道3的AL2报警设定值 Setpoint of AL2 for 3st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
001EH | 通道4的AL1报警设定值 Setpoint of AL1 for 4st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
001FH | 通道4的AL2报警设定值 Setpoint of AL2 for 4st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0020H | 通道5的AL1报警设定值 Setpoint of AL1 for 5st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0021H | 通道5的AL2报警设定值 Setpoint of AL2 for 5st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0022H | 通道6的AL1报警设定值 Setpoint of AL1 for 6st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0023H | 通道6的AL2报警设定值 Setpoint of AL2 for 6st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0024H | 通道7的AL1报警设定值 Setpoint of AL1 for 7st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0025H | 通道7的AL2报警设定值 Setpoint of AL2 for 7st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0026H | 通道8的AL1报警设定值 Setpoint of AL1 for 8st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0027H | 通道8的AL2报警设定值 Setpoint of AL2 for 8st channel | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0028H | 通道9的AL1报警设定值 (仅ARTM16有效) Setpoint of AL1 for 9st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0029H | 通道9的AL2报警设定值 (仅ARTM16有效) Setpoint of AL2 for 9st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
002AH | 通道10的AL1报警设定值 (仅ARTM16有效) Setpoint of AL1 for 10st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
002BH | 通道10的AL2报警设定值 (仅ARTM16有效) Setpoint of AL2 for 10st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
通道10的AL2报警设定值 (仅ARTM16有效) Setpoint of AL2 for 10st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
通道11的AL1报警设定值 (仅ARTM16有效) Setpoint of AL1 for 11st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
通道11的AL2报警设定值 (仅ARTM16有效) Setpoint of AL2 for 11st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
通道12的AL1报警设定值 (仅ARTM16有效) Setpoint of AL1 for 12st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
通道12的AL2报警设定值 (仅ARTM16有效) Setpoint of AL2 for 12st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
通道13的AL1报警设定值 (仅ARTM16有效) Setpoint of AL1 for 13st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
通道13的AL2报警设定值 (仅ARTM16有效) Setpoint of AL2 for 13st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
通道14的AL1报警设定值 (仅ARTM16有效) Setpoint of AL1 for 14st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0033H | 通道14的AL2报警设定值 (仅ARTM16有效) Setpoint of AL2 for 14st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0034H | 通道15的AL1报警设定值 (仅ARTM16有效) Setpoint of AL1 for 15st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0035H | 通道15的AL2报警设定值 (仅ARTM16有效) Setpoint of AL2 for 15st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0036H | 通道16的AL1报警设定值 (仅ARTM16有效) Setpoint of AL1 for 16st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0037H | 通道16的AL2报警设定值 (仅ARTM16有效) Setpoint of AL2 for 16st channel (just for ARTM16) | R/W | Pt100:-200~600; Cu50:-50~150 | word |
0038H | AL1的报警回滞量 The hysteresis of AL1 | R/W | 0~100 | word |
0039H | AL2的报警回滞量 The hysteresis of AL2 | R/W | 0~100 | word |
003AH | 报警延时 The delay of alarm | R/W | 0~10,延时时间单位为完成对所有开启的通道循环测量一次的周期 0~10, the delay time unit is to complete the cycle of measurement of all open channels. | word |
003BH~ 003FH | 保留 Reserved | —— | —— | 5 words |
0040H 高字节 High byte | 9~16通道AL1触发状态 (仅ARTM16有效) 9th~16th channel AL1 state (just for ARTM16) | R | 每一位分别对应一个通道AL1的是否触发:0—无,1—有 Each bit corresponds one channel AL1: 0-no, 1-active | word |
0040H 低字节 Low byte | 1~8通道AL1触发状态 1th~8th channel AL1 state | R | 每一位分别对应一个通道AL1的是否触发:0—无,1—有 Each bit corresponds one channel AL1: 0-no, 1-active | |
0041H 高字节 High byte | 9~16通道AL2触发状态 (仅ARTM16有效) 9th~16th channel AL2 state (just for ARTM16) | R | 每一位分别对应一个通道AL2的是否触发:0—无,1—有 Each bit corresponds one channel AL2: 0-no, 1-active | word |
0041H 低字节 Low byte | 1~8通道AL2触发状态 1th~8th channel AL2 state | R | 每一位分别对应一个通道AL2的是否触发:0—无,1—有 Each bit corresponds one channel AL2: 0-no, 1-active |
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