ICS TRIPLEX T8310擴展模塊
一些事情進行更改時要記住的是:
a) 所有模擬信號已配置為0.00至100.00的工程范圍。在大多數(shù)情況下,轉(zhuǎn)換對于其他工程單位,只需要改變源的范圍(例如模擬輸入功能塊)。需要了解范圍的所有其他模塊(即控制器、操作員顯示器、報警和設定點)具有指向該信息的信號源(例如模擬輸入塊)的范圍指針。
b) 許多功能塊具有可能受范圍指針影響的參數(shù)。范圍指針限制將參數(shù)值設置在范圍的-10%到110%之間。如果改變范圍,則電流參數(shù)值將在新范圍內(nèi)更改為相同的%。例如,如果范圍為0.0-100.0報警1限值設置為90.0,范圍更改為400.0-500.0。報警設置將更改至490.0。
c) 所有控制器(ID、PID、PD、PIDAG)輸出的工程范圍為0.0-100.0,令人滿意在大多數(shù)情況下,因為輸出通常轉(zhuǎn)換為4-20mA信號以驅(qū)動閥門0-100%打開或關閉。
然而,當控制器用于級聯(lián)配置時,主控制器輸出必須為配置用于與次級控制器過程相同的工程范圍。
d) FCO不會更改臺站參數(shù)或校準。
e) FCO 0刪除所有循環(huán),并將STATN和SECUR功能塊中的所有參數(shù)設置為默認值。校準不受影響。隨著新循環(huán)和功能塊的添加,參數(shù)將默認顯示價值觀工廠配置選項FCO101提供了在Loop01中配置的單回路控制器循環(huán)配置以及對配置的默認參數(shù)值的任何更改如下所示阻礙。
此配置提供了設定點跟蹤
當循環(huán)未處于自動(NA)。如果回路標簽“Loop01”被更改,則站內(nèi)所有配置的參考將自動更改為新標簽FCO102-帶固定設定點的單回路控制器
工廠配置選項FCO102提供了在Loop01中配置的單回路控制器
循環(huán)配置以及對配置的默認參數(shù)值的任何更改如下所示阻礙。如果回路標簽“Loop01”更改,則站內(nèi)所有配置的參考將自動已更改為新標簽。工廠配置選項FCO103提供了一個單回路控制器,該控制器具有在Loop01中配置的外部設定點。
回路配置框圖如下所示,以及對默認參數(shù)值的任何更改所配置的塊。此配置提供設定點跟蹤。如果需要固定設定點,則TC輸入可將SETPT功能塊設置為未配置。如果循環(huán)標記“LOOP01”已更改,則所有已配置
引用將自動更改為新標記
Some things
to keep in mind when making changes are:
a) All analog signals have been configured for an engineering range of 0.00 to 100.00. In most cases converting
to other engineering units will only require changing the range at the source (e.g. Analog Input function block).
All other blocks (i.e. Controller, Operator Display, Alarm, and Setpoint) that require knowledge of the range
have range pointers that point to the signal source (e.g. Analog Input block) for this information.
b) A number of function blocks have parameters that may be affected by range pointers. The range pointer limits
the setting of parameter values to within -10% to 110% of the range. If a range is changed, the current
parameter values will be changed to the same % within the new range. For example, if the range is 0.0-100.0
and the Alarm 1 Limit setting is 90.0 and the range is changed to 400.0-500.0 the alarm setting will be changed
to 490.0.
c) All controller (ID, PID, PD, PIDAG) outputs have an engineering range of 0.0-100.0 which will be satisfactory
in most cases since outputs normally convert to a 4-20 mA signal to drive a valve 0-100% Open or Closed.
However, when a controller is used in a cascade configuration, the primary controller output must be
configured for the same engineering range as the secondary controller process.
d) FCOs do not change Station parameters or calibration.
e) FCO 0 deletes all loops and set all parameters in the STATN & SECUR function blocks to default values.
Calibration is not affected. As new loops and function blocks are added, parameters will appear at default
values.Factory Configured Option FCO101 provides a single loop controller 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. This configuration provides setpoint tracking which will cause the setpoint to track the process when the
loop is not in Auto (NA). If the loop tag ‘Loop01’ is changed, all configured references within the station will
automatically be changed to the new tag FCO102 - Single Loop Controller w/ Fixed Setpoint
Factory Configured Option FCO102 provides a single loop controller 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 within the station will automatically be
changed to the new tag. Factory Configured Option FCO103 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. 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