A2 功能概述

為了使用Exasmoc控制器，用戶必須熟悉Exasmoc規(guī)范，尤其是先進過程控制的功能概述術(shù)語。接下來的部分將提供此信息。

A2.1控制器規(guī)范

Exasmoc集成模型預測控制和優(yōu)化控制器由主控制器和子控制器組成。集成優(yōu)化控制器可以在子控制器之間共享控制結(jié)果。一個子控制器對應于一個常規(guī)MVC控制器。SMOC集成優(yōu)化控制器的特點如下所示。

Fig. A 2.1 Control structure of Exasmoc controller 圖A 2.1 Exasmoc控制器的控制結(jié)構(gòu)

? SMOC控制器由兩層結(jié)構(gòu)組成。第一層用于集成第二層最優(yōu)控制的執(zhí)行。第二層的處理被稱為子控制器，在一個SMOC控制器中可以有幾個子控制器。第一層的處理被稱為主控制器。
? 可以通過在子控制器之間接收和傳遞中間變量來建立控制器之間的關(guān)系。因此，可以延伸兩個或更多子控制器以構(gòu)建大規(guī)模先進控制。
? 下面寫了控制器規(guī)格的最大數(shù)量。 超出此范圍的控制器的行為將得不到不保證。

表A 2.1控制器規(guī)范

? 一個SMOC控制器的最大I / O數(shù)

| 條目| 規(guī)范|
| ------------- |:-------------:| -----:|
| Exasmoc Main Controller （Exasmoc主控制器） | 每臺PC最多20個。|
| Sub Controller （子控制器） | 每個主控制器最多50個，每臺PC 250個。|
| MV | 每個子控制器最多100 MVs，每個主控制器最多500個，每臺PC總共180 MVs。|
| CV | 每個子控制器最多200個CVs，每個主控制器最多250個。|
| DV| 每個子控制器最多50個DVs，每個主控制器最多1000個。|
| POV| 每個子控制器最多200個POVs，每個主控制器最多1000個。|
| EF | 每個主控制器有一個EV。|
| Economic Function（經(jīng)濟函數(shù)）| 每個主控制器最多50個，每臺PC 250個。|
| Economic Function Coefficient（經(jīng)濟函數(shù)系數(shù)）| 每個主控制器最多500個，每臺PC 2000個。|
| GAIN（可在線更改）| 每個主控制器最多500個，每臺PC 2000個。|
| Prediction points （預測點）| 每個MV或CV最多60個。|
*數(shù)目按照R3.05更新，同時它也取決于安裝的硬件。

原文：

A2. Functional Outline

In order to use Exasmoc controller it is necessary for user to get acquainted with Exasmoc specifications and especially terminology in view of its functional outline for Advanced Process Control. Following subsequent section will be providing this information.

A2.1 Controller Specification

Exasmoc integrated model predictive control and optimization controller is composed of Main Controller and the Sub controllers. The integrated optimization controller can share the control results among sub controllers. One sub controller corresponds to one conventional MVC controller. The features of SMOC integrated optimization controller are shown as follows.
? One SMOC controller is composed as two hierarchies. The first hierarchy is integrated to perform optimum control with the second hierarchy. The processing of the second hierarchy is called a sub controller, and can have several sub controllers in one SMOC controller. The processing of the first hierarchy is called a Main controller.
? It is possible to establish relationship between controllers by receiving and passing the intermediate variables between sub controllers. As a result, it is possible to build a large-scale advanced control to extend over two or more sub controllers.
? Maximum number of the controller specification is written below. The behavior of the controllers beyond this specification is not guaranteed.

Table A 2:1 Controller specification

? The maximum number of I/O for one SMOC controller

| Item| Specification|
| ------------- |:-------------:| -----:|
|Exasmoc Main Controller |Up to 20 per PC|
|Sub Controller | Up to 50 per Main controller, 250 per PC|
|MV| Up to 100 MVs per Sub controller, 500 per Main controller, totally 180 MVs per PC
|CV |Up to 200 CVs per Sub controller, 250 per Main controller
|DV |Up to 50 DVs per Sub controller, 1000 per Main controller
|POV| Up to 200 POVs per Sub controller, 1000 per Main controller
|EF |One EV available per Main controller
|Economic Function|Up to 50 per Main controller, , 250 per PC
|Economic Function Coefficient |Up to 500 per Main controller, 2000 per PC
|GAIN (online changeable) | Up to 500 per Main controller, 2000 per PC
|Prediction points |Up to 60 per MV or CV

• Number is updated from R3.05, even though it depends of the installed hardware.

2017.3.20