HONEYWELL 05704-A-0145通道控制卡
當(dāng)安裝LIL選項(xiàng)板以啟用時,根據(jù)需要在回路中使用LIL全局功能塊LIL上的全球數(shù)據(jù)通信。它們將自動分配
每個循環(huán)內(nèi)的唯一名稱(如AIL01、DIL01),配置為唯一的塊名變?yōu)椋糽oop><塊>(如TC2053.AIL01)。
根據(jù)需要提供輸入和輸出數(shù)據(jù)塊,并將其分配使用的唯一名稱(例如,模擬輸入LIL塊的AIL01、AIL02)。
以太網(wǎng)功能塊(V2.4)在以下情況下根據(jù)需要在環(huán)路中使用:已安裝以太網(wǎng)選項(xiàng)板。它們將自動分配一個
每個循環(huán)內(nèi)的唯一名稱(如AIE01、DIE01),配置為唯一的塊名變?yōu)椋糽oop><塊>(如TC2053.AIE01)。加電初始化
Moore 353將在工作站NVRAM中保留計算出的塊值(例如,輸出、經(jīng)過時間、最后輸入/輸出邏輯狀態(tài)),包括自斷電以來的時間。三種通電模式(熱、熱和冷)為用于影響功能塊初始化的摩爾353。這些模式由兩個電源配置站參數(shù)中包含的啟動定時器(暖定時器和冷定時器)。通電時,電站將初始化熱啟動
在暖定時器到期之前發(fā)生。到期后通電時將發(fā)生冷啟動冷定時器到期后,當(dāng)電站通電時,將進(jìn)行熱啟動
但在冷定時器期滿之前。
熱啟動1-所有功能塊的執(zhí)行從斷電前的最后一個狀態(tài)繼續(xù)。
暖啟動1通過設(shè)計或配置,在最后狀態(tài)下具有通電功能的功能塊
選擇,將按照單個塊描述中的定義通電。所有其他功能塊將在冷啟動條件。
冷啟動1除非個別塊描述中另有說明,否則所有功能塊輸出將初始化為0。
1.2.3配置摩爾353可以本地或遠(yuǎn)程配置。首先,本地面板包括位于用于完整配置的翻轉(zhuǎn)門后,包括回路和功能塊的添加/刪除,以及功能塊參數(shù)的編輯。第2節(jié)“配置概述”包括步驟的路線圖通過配置。某些塊參數(shù)(如增益、常數(shù))可以在線編輯,但設(shè)計變更(如塊互連、塊添加)將使電站處于“配置保持”狀態(tài),該狀態(tài)將保持以當(dāng)前值輸出,直到按下退出按鈕。這將允許在在線。第二種方法是使用圖形配置程序。A.配置可以通過本地端口下載到控制器面板或通過網(wǎng)絡(luò)(Modbus、以太網(wǎng)或LIL)。在
下載,所有輸出將被保留,控制器將保留所有在之前運(yùn)行的所有塊的中間計算下載后,具有相同標(biāo)簽的所有功能塊參數(shù)保存的名稱將用于初始化下載的功能塊從而在這些條件下提供無碰撞下載。如果循環(huán)標(biāo)記名更改,該循環(huán)中所有功能塊的標(biāo)記名將改變,因此需要重新初始化所有這些塊。
但是,可以從本地面板更改回路標(biāo)記,而不會導(dǎo)致重新初始化,提供無碰撞的標(biāo)簽更改。
LIL Global Function Blocks are used as needed within a LOOP when the LIL option board is installed to enable
global data communication over the LIL. They will automatically be assigned
a unique name (e.g. AIL01, DIL01) within each loop when it is configured so
that the unique block name becomes <loop>.<block> (e.g. TC2053.AIL01).
Input and output data blocks are available as needed and will be assigned
unique names as used (e.g. AIL01, AIL02 for Analog Input-LIL blocks).
Ethernet Function Blocks (V2.4) are used as needed within a LOOP when
the Ethernet option board is installed They will automatically be assigned a
unique name (e.g. AIE01, DIE01) within each loop when it is configured so
that the unique block name becomes <loop>.<block> (e.g. TC2053.AIE01). Power Up Initialization
The Moore 353 will retain, in the station NVRAM, calculated block values (e.g. outputs, elapsed time, last
input/output logic states), including the time since power was lost. Three power up modes (hot, warm, and cold) are
utilized in the Moore 353 that affect the initialization of function blocks. These modes are configured by two power
up timers (warm and cold), included in STATION parameters. The station will initialize a hot start when power up
occurs prior to the expiration of the warm timer. A cold start will occur when power up occurs after the expiration
of the cold timer and a warm start will take place when the station powers up after the expiration of the warm timer
but prior to the expiration of the cold timer.
Hot Start1
- All function block execution continues from the last state prior to power fail.
Warm Start1
- Function blocks that have a power up in a last state feature, either by design or by configuration
selection, will power up as defined in the individual block descriptions. All other function blocks will initialize at
cold start conditions.
Cold Start1
- All function block outputs will initialize at 0 unless otherwise stated in individual block descriptions.
1.2.3 Configuration
The Moore 353 can be configured either locally or remotely. First, the local faceplate includes buttons located
behind a flip-down door for complete configuration including the addition/deletion of loops and function blocks and
the editing of function block parameters. Section 2 Configuration Overview includes a road map for stepping
through configuration. Certain block parameters (e.g. gains, constants) can be edited while on-line but design
changes (e.g. block interconnections, block additions) will put the station in “configuration hold” which will hold
outputs at the current value until the Exit button is pressed. This will enable bumpless changes to be made while
on-line.
The second method is to use the Graphical Configuration program. A
configuration can be downloaded to a controller either via the port on the local
faceplate or over a network (either Modbus, Ethernet, or LIL). During a
download, all outputs will be held and the controller will retain all the
intermediate calculations of all the blocks it had been running prior to the
download. After the download, all function block parameters with the same tag
name as those held will be used to initialize the downloaded function block
parameters, thus providing a bumpless download under these conditions. If a
loop tag name is changed, the tag names of all function blocks within that loop
will change and will, therefore, require re-initialization of all of these blocks.
However, the loop tag can be changed from the local faceplate without causing
re-initialization, providing a bumpless tag change.