DS200SDCIG2AHB燃機電氣卡件
本節概述了可使用Modbus、LIL或以太網從站點獲取的數據,其通過以太網協議提供Modbus。在以太網Modbus協議中,所有列出的Modbus項為:可用,但嵌入在Modbus/以太網協議框架中。參考第7節,了解實際數據
6.1 MODBUS數據映射
Modbus是一種主/從協議,其中主設備(例如基于PC的操作員工作站)將命令發送到:一個從機(即Moore 353過程自動化控制器)并等待響應。每個站都有一個獨特的網絡地址(1-32),配置為站點參數的一部分,用于標識特定控制器。
數據被分配給寄存器(16位字)或線圈(1位)。IEEE浮點數(實數)為:分配給兩個連續寄存器,第一個寄存器包含最高有效位,第二個寄存器包含最低有效位浮點數的一部分。
該站支持Modbus功能代碼01、02、03、04、05、06、08和16。第7節列出了Modbus圖中的可用數據和特定位置。以下是Modbus數據的概述映射。
電站線圈x0001-x0071
環形線圈x0296-x1495
擴展回路線圈(奇數按鈕)V2.1………………………x8701-X9100
擴展MODBUS寄存器
MODBUS保持寄存器的傳統尋址僅限于然而,由于實際地址包含在16位字中,因此9999以上的地址可用。許多的Modbus主機支持這種擴展尋址。a中包含的定序器和定時器的配置數據在此空間中可以訪問單個定序器回路。可訪問的實際回路包含在Modbus中參數MSLCP Modbus定序器和定時器配置指針位于寄存器40041中。該寄存器
包含可使用這些擴展參數配置的回路的Modbus索引。少數這些參數也已映射到實際循環區域中列出的區域中,用于無法映射的主控器訪問擴展區域。
此外,還為對等網絡中使用的Modbus寄存器的映射保留了許多寄存器以太網功能塊的功能。LIL數據被分配給兩種數據類型之一。第一個是全局數據,它占用每個通道的參數1并且每0.5秒由LIL接口發送。其余數據為非全局數據,占用參數2至256,并響應LIL讀取命令發送,或可由LIL更改寫入命令。
每個參數是一個16位字。IEEE浮點數(實數)分配給兩個連續參數
第一個包含浮點數的最高有效部分,第二個包含浮點的最低有效部分
數字字符串數據可以占用一個或多個連續參數。下表提供了概述第7節列出了可用數據的描述。表中的首字母縮寫詞標識了第7節數據可使用320型獨立計算機接口訪問。參考AD320-10型號
320 ICI用戶手冊和AD320-20使用320型ICI編寫應用軟件的指南。
This section provides an overview of the data that can be obtained from the station using Modbus, LIL, or Ethernet,
which provides Modbus over Ethernet protocol. In the Modbus over Ethernet protocol all listed Modbus items are
available but are embedded in the Modbus/Ethernet protocol frame. Refer to Section 7 for detailed list of the actual
data.
6.1 MODBUS DATA MAPPING
Modbus is a master/slave protocol where a master device (e.g. PC-based operator workstation) sends commands to
one slave (i.e. Moore 353 Process Automation Controller) and waits for a response. Each station has a unique
network address (1-32), configured as part of the station parameters, that identifies a specific controller.
Data is assigned to either a register (16-bit word) or a coil (1-bit). An IEEE floating point number (Real) is
assigned to 2 consecutive registers with the first containing the most significant and the second the least significant
portion of the floating point number.
The station supports Modbus function codes 01, 02, 03, 04, 05, 06, 08, and 16. Section 7 provides a listing of
available data and specific locations within the Modbus map. The following is the overview for the Modbus data
mapping.
Station Coils......................................................................................x0001 - x0071
Loop Coils.........................................................................................x0296 - x1495
Extended Loop Coils (ODD Pushbuttons) V2.1...............................x8701 - x9100EXTENDED MODBUS REGISTERS: The traditional addressing of Modbus Holding Registers has been limited to
9999. However, since the actual address is contained in a 16-bit word, addresses above 9999 are available. Many
Modbus Masters support this extended addressing. Configuration data for a Sequencer & Timers contained in a
single sequencer loop can be accessed in this space. The actual loop that can be accessed is contained in the Modbus
parameter MSLCP Modbus Sequencer & Timers Configuration Pointer located in register 40041. This register
contains the Modbus Index for the loop that can be configured with these extended parameters. A small number of
these parameters have also been mapped in the areas listed within the actual loop area for those Masters that cannot
access the extended area.
In addition, there are a number of registers reserved for the mappings of Modbus registers used in the Peer-to-Peer
functionality of the Ethernet function blocks.LIL data is assigned to one of two data types. The first is global data which occupies parameter 1 of each channel
and is transmitted by the LIL interface every 0.5 seconds. The remaining data is non-global which occupies
parameters 2 through 256 and is transmitted in response to a LIL READ command or can be changed by a LIL
WRITE command.
Each parameter is a 16-bit word. An IEEE floating point number (Real) is assigned to 2 consecutive parameters
with the first containing the most significant and the second the least significant portion of the floating point
number. String data can occupy one or more consecutive parameters. The following tables provide an overview
listing of available data with descriptions located in Section 7. The acronym in the table identifies the data in
Section 7. Data can be accessed using the Model 320 Independent Computer Interface. Refer to AD320-10 Model
320 ICI User Manual and AD320-20 Guidelines for Writing Application Software Using the Model 320 ICI.
