DS200DPCBG1AAA通用电气卡件
工厂配置选项FCO104提供了一个单回路控制器,该控制器具有在Loop01中配置的外部设定点。
回路配置框图如下所示,以及对默认参数值的任何更改所配置的块。如果循环标记“LOOP01”已更改,所有配置的引用将自动已更改为新标签。工厂配置选项FCO105在Loop01中提供一个比率设置控制器。自备流量的设定点控制器可以保持为俘获流和野流的比率。控制器具有完整的设定点跟踪以及比率跟踪。当回路未处于自动状态时,本地设定点将跟踪捕获流量信号(NA)或在外部(比率)集合中。比率的值将计算为俘获流量设定点/野生值在跟踪模式下流动,该模式在循环不处于自动(NA)或处于内部设置(is)时发生。这个通过将TC输入设置为“未配置”,可以删除跟踪功能。将显示野流信号
在变量X上,实际比率CF/WF将显示在变量Y上。配置选项FCO106提供了在Loop01中配置的单回路控制器。这类似于FCO101,但将SPLIM块添加到SETPT块的输出。回路框图配置以及对配置块的默认参数值的任何更改如下所示。此配置提供设定点跟踪。如果需要固定的设定点,则将TC输入至SETPT功能块可以设置为未配置。如果循环标记“LOOP01”已更改,所有配置的引用将自动被更改为新标签。工厂配置的选项FCO107提供了两个具有跟踪设定点的独立回路。方框图
两个循环的配置以及对的默认参数值所做的更改如下所示
配置的块。此配置提供设定点跟踪。如果需要固定设定点,则TC输入至SETPT功能块可以设置为未配置。第一个回路的过程范围可以模拟改变输入1和模拟输入2FCO121中第二个回路的范围-串级控制工厂配置选项FCO121提供了两个配置用于级联控制的回路。的框图
下面显示了两个循环的配置,以及对的默认参数值所做的更改配置块。主回路的过程范围可以在模拟输入1和
模拟输入2中的二次回路。此外,必须更改主PID控制器的输出范围以匹配二次回路中的任何新范围。如果循环标记“PRIM”或“SEC”更改,所有配置的引用将自动更改为新标签。工厂配置选项FCO122提供了两个配置用于级联控制的回路。的框图下面显示了两个循环的配置,以及对的默认参数值所做的更改配置块。主回路的过程范围可以在模拟输入1和模拟输入2中的二次回路。此外,必须更改主PID控制器的输出范围以匹配二次回路中的任何新范围。如果循环标记“PRIM”或“SEC”更改,所有配置的引用将自动更改为新标签。
Factory Configured Option FCO104 provides a single loop controller with external setpoint configured in Loop01.
A block diagram of the loop configuration is shown below along with any changes to the default parameter values
of the configured blocks. If the loop tag ‘LOOP01’ is changed, all configured references will automatically be
changed to the new tag. Factory Configured Option FCO105 provides a ratio set controller in Loop01. The setpoint to the Captive Flow
controller can be maintained as a ratio of the Captive Flow to Wild Flow. The controller has complete setpoint
tracking as well as ratio tracking. The local setpoint will track the Captive Flow signal when the loop is not in auto
(NA) OR is in External (Ratio) Set (ES). The value of the RATIO will be computed as Captive Flow setpoint / Wild
Flow while in the tracking mode which occurs whenever the loop is not in auto (NA) OR is in Internal Set (IS). The
tracking features can be removed by setting the TC inputs to UNCONFIG. The Wild Flow signal will be displayed
on Variable X and the actual Ratio CF/WF will be displayed on Variable YFactory Configured Option FCO106 provides a single loop controller configured in Loop01. This is similar to
FCO101 but with a SPLIM block added to the output of the SETPT block. A block diagram of the loop
configuration is shown below along with any changes to the default parameter values of the configured blocks.
This configuration provides setpoint tracking. If a fixed setpoint is desired, the TC input to the SETPT function
block can be set to UNCONFIG. If the loop tag ‘LOOP01’ is changed, all configured references will automatically
be changed to the new tag. Factory Configured Option FCO107 provides two independent loops with tracking setpoints. The block diagram of
the configuration of the two loops is shown below along with the changes made to the default parameter values of
the configured blocks. This configuration provides setpoint tracking. If a fixed setpoint is desired, the TC input to
the SETPT function block can be set to UNCONFIG. The process range of the first loop can be changed in Analog
Input 1 and the range of the Second loop in Analog Input 2FCO121 - Cascade Control
Factory Configured Option FCO121 provides two loops configured for Cascade control. The block diagram of the
configuration of the two loops is shown below along with the changes made to the default parameter values of the
configured blocks. The process range of the Primary loop can be changed in Analog Input 1 and the range of the
Secondary loop in Analog Input 2. Also, the output range of the primary PID controller must be changed to match
any new range in the secondary loop. If the loop tag ‘PRIM’ or ‘SEC’ is changed, all configured references will
automatically be changed to the new tag. Factory Configured Option FCO122 provides two loops configured for Cascade control. The block diagram of the
configuration of the two loops is shown below along with the changes made to the default parameter values of the
configured blocks. The process range of the Primary loop can be changed in Analog Input 1 and the range of the
Secondary loop in Analog Input 2. Also, the output range of the primary PID controller must be changed to match
any new range in the secondary loop. If the loop tag ‘PRIM’ or ‘SEC’ is changed, all configured references will
automatically be changed to the new tag.
