Bberechti SIMATIC PCS 7 OS V7 - cache.industry.siemens.com · Der sichere Betrieb von SIMATIC PCS 7 erfolgt durch die Vergabe von Bedienberechtigungen fr Benutzer, die sich, bevor

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Bedienberechtigungen in SIMATIC PCS 7 OS V7.1

SIMATIC PCS 7 V7.1

FAQ � Mai 2012

Question

2 Bedienberechtigungen 1.0, Item-ID: 60575347

Dieser Beitrag stammt aus dem Siemens Industry Online Support. Es gelten die allgemeinen Nutzungsbedingungen (http://www.siemens.com/Nutzungsbedingungen).

Mit dem folgenden Link gelangen Sie direkt zur Downloadseite dieses Dokuments.

http://support.automation.siemens.com/WW/view/de/60575347

Vorsicht Die in diesem Beitrag beschriebenen Funktionen und Lösungen beschränken sich überwiegend auf die Umsetzung der Automatisierungsaufgabe. Bitte beachten Sie darüber hinaus, dass bei Vernetzung Ihrer Anlage mit anderen Anlagenteilen, dem Unternehmensnetz oder dem Internet entsprechende Schutzmaßnahmen im Rahmen der Industrial Security zu ergreifen sind. Weitere Informationen dazu finden Sie unter der Beitrags-ID 50203404. http://support.automation.siemens.com/WW/view/de/50203404

Frage Wie funktionieren die Benutzerrechte (Bedienberechtigungen) in SIMATIC PCS 7 V7.1?

Antwort Folgen Sie zur umfassenden Beantwortung dieser Frage den in diesem Dokument aufgeführten Handlungsanweisungen und Hinweisen.

http://www.siemens.com/Nutzungsbedingungen



Inhaltsverzeichnis

Bedienberechtigungen 1.0, Beitrags-ID: 60575347 3

Inhaltsverzeichnis 1 Wie funktionieren die Bedienberechtigungen?.............................................4

1.1 Verwaltung von Benutzernamen und Passwörtern .............................5 1.2 Verwaltung der Bedienberechtigungen in SIMATIC PCS 7 OS...........6 1.3 Verwaltung der Bedienberechtigungen in SIMATIC PCS 7 OS

in Kombination mit Windows ..............................................................8 1.4 Verwaltung der Bedienberechtigungen für die PCS 7 OS Web

Option .............................................................................................10 1.5 Bedienberechtigungen für Messtellen ..............................................11 1.6 Funktionsprinzip der Bedienberechtigungen.....................................11

2 Anhang..........................................................................................................14 2.1 Anhang 1.........................................................................................14 2.2 Anhang 2.........................................................................................14 2.3 Anhang 3.........................................................................................15

1 Wie funktionieren die Bedienberechtigungen?

4 Bedienberechtigungen

1.0, Beitrags-ID: 60575347

1 Wie funktionieren die Bedienberechtigungen? Der sichere Betrieb von SIMATIC PCS 7 erfolgt durch die Vergabe von Bedienberechtigungen für Benutzer, die sich, bevor sie einen Prozess beobachten oder bedienen können, im System anmelden müssen.

Bedienberechtigungsstufen

Innerhalb des SIMATIC PCS 7 Operator Systems (OS) bietet SIMATIC PCS 7 die folgenden Bedienberechtigungen:

Tabelle 1-1

Nr. Funktion Beschreibung 1 Benutzerverwaltung Bedienberechtigung für das Anlegen und Ändern von Benutzern

und Benutzergruppen in der HMI. 2 Freigabe für Bereich Zugriffs- und Bedienberechtigung für die jeweiligen

Anlagenbereiche sowie die zugehörigen Bausteinsymbole und Messstellen.

3 Systemwechsel Bedienbberechtigung zum Beenden der Runtime und für den Zugriff auf den Windows-Desktop.

4 Beobachten Bedienbberechtigung für das Überwachen von Prozessen und das Aufrufen anderer Applikationen (für die,die eigenen Benutzerrechte gelten), z. B. SIMATIC BATCH Client

5 Prozessbedienungen Bedienbberechtigung für das Bedienen eines Prozesses und für normale Prozessbedienungen, einschließlich das Ein- und Abschalten von Apparaturen, das Öffnen und Schließen von Ventilen und Sollwertänderunen an PID-Reglern.

6 Höherwertige Prozessbedienungen

Bedienbberechtigung für das Anpassen kritischer Prozess- und Einstellparameter wie beispielsweise Meldegrenzwerte und Einstellparameter für den PID-Algorithmus.

7 Reportsystem Wird nicht mehr verwendet; besteht nur noch aus Kompatibilitätsgründen.

1000 Remote aktivieren Bedienbberechtigung für das Starten und Beenden der Runtime von einem anderen Rechner aus; diese Berechtigung gilt jedoch nicht für SIMATIC PCS 7 OS.

1001 Remote projektieren Bedienbberechtigung für das Projektieren und Ändern am Projekt von einem anderen Rechner aus; diese Berechtigung gilt jedoch nicht für SIMATIC PCS 7 OS.

1002 Web Access – Nur beobachten

Bedienbberechtigung zum Beobachten von Prozessbildern (OS Runtime) über Data Monitor.

1100 Höchstwertige Prozessbedienungen

Bedienbberechtigung für das Einstellen besonderer Variablen, z.B. Zu- oder Abschalten einer Variablen bei einer Simulation (wie in den APL-Funktions- und Bildbausteinen).



Bedienbberechtigungen für spezifische Bereiche und Stationen (Rechner)

Die Bedienbberechtigungen werden an Einzelpersonen oder Gruppen vergeben und können für bestimmte Prozessbereiche oder Bedienstationen unterschiedlich festgelegt werden.

Nachdem die Bausteinsymbole und Variablen innerhalb des SIMATIC PCS 7 Operator Systems stets zu bestimmten Anlagenbereichen gehören, gelten die Bedienberechtigungen für alle Bausteinsysmbole und Variablen, die diesem Anlagenbereich zugeordnet sind.

Ebenso kann die Zugriffsberechtigung auf bestimmte Anlagenbereiche und die zugehörigen Bausteinsymbole und Variablen wieder aufgehoben werden.

Benutzer und Gruppen

Zur einfacheren Konfiguration und Fehlervermeidung werden in der Benutzerverwaltung von SIMATIC PCS 7 OS (“User Administrator”) Benutzer und Gruppen festgelegt.

Jeder Benutzer muss Mitglied einer Gruppe sein.

Die Konfiguration für eine Gruppe kann auf einen neuen Benutzer übertragen werden. Die Konfiguration für einzelne Benutzer kann jedoch von der Konfiguration der restlichen Gruppe abweichen.

Benutzernamen und Passwörter können von der Benutzerverwaltung unter Windows in SIMATIC PCS 7 OS übernommen werden. Nachfolgend wird diese empfohlene Methode beschrieben.

1.1 Verwaltung von Benutzernamen und Passwörtern

Die Standard-Softwarefunktion SIMATIC Logon (ist im Lieferumfang von SIMATIC PCS 7 enthalten und benötigt keine weitere Lizenz) bietet die Möglichkeit, Benutzernamen und Passwörter in der Windows-Umgebung zu verwalten.

Die Verwaltung von Benutzernamen und Passwörtern unter Windows bietet folgende Vorteile:

· Zentrale Verwaltung von Benutzernamen und Passwörtern (zum Einrichten von Domänen und Workgroups).

· Effektive Nutzung der Windows-Funktionen bei Passwortsicherheit und Passwortwechseln.

· Synchronisation der Benutzer von SIMATIC PCS 7 OS mit der betrieblichen Systemumgebung. Anwendung der Richtlinien für die Benutzerverwaltung auf die gesamte Prozessumgebung (z. B. können alle Benutzer, die keinen Zugang mehr haben sollen, in einem Schritt gesperrt werden).

Erfolgt die Verwaltung der Benutzernamen und Passwörter über SIMATIC Logon, so werden die in diesem Umfeld konfigurierten Benutzer von der Benutzerverwaltung unter SIMATIC PCS 7 OS ignoriert, und es werden nur die Berechtigungen verwendet, die durch einen Abgleich der Benutzergruppen unter Windows und SIMATIC PCS 7 OS ermittelten wurden. Deshalb ist es erforderlich, die für die Prozessbedienung erforderlichen Gruppen auch in der Windows-Umgebung einzurichten. Die Anzahl der zu erstellenden Gruppen hängt von der gewünschten Granularität der jeweiligen Benutzergruppen ab (z. B. sind Abstufungen nach



1.0, Beitrags-ID: 60575347

Bedienpersonal, Ingenieuren, Kontrolleuren denkbar oder auch „Bedienpersonal_Reaktor“ und „Bedienpersonal_Verpackung“).

1.2 Verwaltung der Bedienberechtigungen in SIMATIC PCS 7 OS

Für die Verwaltung der Benutzernamen und Passwörter in SIMATIC PCS 7 OS muss jeder Benutzer auf jedem OS-Client angelegt sein.

Das Anlegen eines Benutzer erfolgt durch das Öffnen des User Administrators und dem Anlegen des Benutzers.

Hinzufügen eines neuen Benutzers

Für das Hinzufügen eines neuen Benutzers gibt es zwei Möglichkeiten, die sich davon unterscheiden, ob die einzelne OS-Clients deaktiviert werden können oder nicht.

1. Ohne Deaktivierung der OS-Clients Hierzu muss der neue Benutzer auf allen OS-Clients angelegt werden. Zusätzlich müssen diese Änderungen auf dem Engineering System (ES) in allen offline OS-Client-Projekten hinterlegt werden.

2. Mit Deaktivierung der OS-Clients Hierzu muss der neue Benutzer auf dem Engineering System (ES) in jedem OS-Client-Projekt hinzugefügt werden und die OS-Client-Projekte müssen erneut heruntergeladen werden; hierzu muss das Runtime OS-Client-Projekt deaktiviert werden.

Die Verwaltung von Benutzernamen und Passwörtern über das OS- Client-Projekt geschieht wie folgt:

· Hinzufügen/Ändern/Löschen von Benutzern in der Benutzerverwaltung des OS-Client-Projekts / der OS-Client-Projekte im ES.

· Hinzufügen/Ändern/Löschen von Benutzern in der Benutzerverwaltung des OS-Client-Projekts / der OS-Client-Projekte auf dem Runtime Operator System.

· Download des OS-Client-Projekts / der OS-Client-Projekte vom ES zum/zu den Runtime Operator System(en).



Benutzerverwaltung

Abbildung 1-1



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1.3 Verwaltung der Bedienberechtigungen in SIMATIC PCS 7 OS in Kombination mit Windows

Für die Verwaltung von Benutzernamen und Passwörtern unter Windows müssen folgende Voraussetzungen erfüllt sein:

· SIMATIC Logon muss auf jedem OS-Rechner installiert sein, einschließlich ES.

· Wählen Sie einen bestehenden Benutzer oder legen Sie einen neuen Benutzer unter Windows an und ordnen Sie diesem Benutzer in Windows der Gruppe “Logon_Administrator” zu. Hiermit erhält dieser Benutzer die Bedienberechtigung, selbst Einstellungen in SIMATIC Logon vorzunehmen.

· Legen Sie in der Windows-Benutzerverwaltung (User Administration) verschiedene Gruppen an (z. B. Bedienpersonal, Ingenieure, Kontroleure).

· Erstellen Sie dieselben Gruppen wie in der Windows-Benutzerverwaltung auch in der User Administration auf der ES für OS-Server und OS-Clients und in den OS Runtime. Legen Sie die Bedienberechtigungen für die einzelnen Gruppen fest.

· Aktivieren Sie in der OS-Benutzerverwaltung (“User Administration”) für alle OS das Optionsfeld “SIMATIC Logon”; dieses Feld ist nur bei deaktiviertem OS-Projekt verfügbar.

Wenn Ihre Rechner Teil einer Domäne sind, werden die Benutzernamen und Passwörter über diese Domäne verwaltet. In diesem Fall können Sie den nächsten Schritt überspringen.

Wenn Ihre Rechner Teil einer Workgroup sind, müssen Sie entscheiden, ob die Benutzernamen und Passwörter zentral über einen Rechner oder einzeln auf jedem Rechner verwaltet werden sollen.

Die folgende Tabelle stellt die Auswirkungen der jeweiligen Entscheidung dar.

Rechnerkonfiguration in einer Workgroup

Tabelle 1-2

Benutzernamen und Passwörter werden nicht zentral über einen Rechner verwaltet

Benutzernamen und Passwörter werden (mit SIMATIC Logon) zentral

über einen Rechner verwaltet

Für jeden Benutzer müssen Benutzername und Passwort auf vielen Rechnern angelegt werden.

Benutzernamen und Passwörter müssen nur auf einem einzigen Rechner angelegt werden.

Die OS-Zugriffsberechtigung eines Nutzers hängt von dem auf dem jeweiligen Rechner festgelegten Benutzernamen und Passwort ab.

Die OS-Zugriffsrechte gelten für jeden Rechner, auf dem SIMATIC Logon installiert ist und sofern die Verwendung der Benutzernamen und Passwörter speziell für diesen Rechner konfiguriert wurden.

Das Ändern/Hinzufügen/Löschen von Benutzernamen und Passwörter muss auf jedem Rechner durchgeführt werden.

Die Bedienberechtigungen der Benutzer entsprechen der jeweiligen Konfiguration auf dem Rechner von dem aus Sie Zugriff haben möchten. (Diese Berechtigungen können von Rechner zu Rechner unterschiedlich sein. Auch wenn die Benutzernamen und Passwörter zentral über einen Rechner konfiguriert werden, können auf jedem Rechner unterschiedliche Zugriffsrechte für einzelne Benutzer festgelegt werden.)



Das Hinzufügen/Ändern/Löschen von Benutzern unter Windows geschieht wie folgt:

· Öffnen Sie die Benutzerverwaltung (User Administration) unter Windows (Einzelheiten hierzu sind in der Windows-Dokumentation beschrieben).

– Falls Ihr Rechner Teil einer Domäne ist, werden die Benutzer in der Benutzerverwaltung dieser Domäne verwaltet.

– Falls Ihr Rechner Teil einer Workgroup ist, werden die Benutzer für jeden Rechner einzeln oder auf einem für die Verwaltung von Benutzernamen und Passwörtern bestimmten Rechner verwaltet.

– Falls Sie die Benutzernamen und Passwörter auf jedem Rechner einzeln verwalten möchten, müssen Sie die unten aufgeführten Schritte an jedem Rechner separat durchführen.

· Legen Sie die Gruppen an und verwenden Sie dabei genau die gleichen Namen wie in dem/der OS-Projekt(en)

· Legen Sie die Benutzer an und lehnen Sie, wenn nichts anderes vorgegeben, alle standardmäßigen Gruppenzuordnungen ab. Ordnen Sie danach die Benutzer einer oder mehreren Gruppen zu, die sowohl in der Benutzerverwaltung unter Windows, als auch in der OS vorhanden sind.

HINWEIS Legen Sie keine Benutzer direkt in den OS-Projekten an; es genügt die Festlegung in der Windows-Benutzerverwaltung.



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Konfigurationsfenster für SIMATIC Logon

Abbildung 1-2

VoreingestellterBenutzer

Bei einer Single Stationoder wenn der Rechner einer

Domäne zugeordnet ist, werdenkeine Änderungen benötigt

Auswahl und Angabe deszugeordneten Rechners,

wenn mehrere Computer in einerWorkgroup eingebunden sind

VoreingestellterBenutzer

Bei einer Single Stationoder wenn der Rechner einer

Domäne zugeordnet ist, werdenkeine Änderungen benötigt

Auswahl und Angabe deszugeordneten Rechners,

wenn mehrere Computer in einerWorkgroup eingebunden sind

1.4 Verwaltung der Bedienberechtigungen für die PCS 7 OS Web Option

Web Client-Benutzer müssen sich am OS Web Server authentifizieren. Die Konfiguration der Web-User, bzw. von SIMATIC Logon geschieht am OS Web Server, analog zur normalen Benutzerkonfiguration.

Folgende Einstellungen können Sie für jeden Web-User zusätzlich vornehmen:

· Anzeigesprache am Web Client

· Unterschiedliche Startbilder

· Zusätzliches Benutzerrecht „Web Access – nur beobachten“



1.5 Bedienberechtigungen für Messtellen

Nach dem Anlegen der Benutzer werden diesen bei jeder Anmeldung in einer OS-Runtime die entsprechenden Bedienberechtigungen für den jeweiligen Rechner zugewiesen.

Die Zugriffs- und Bedienberechtigung für einen Anlagenbereich wurden bereits in der „User Administration“ der OS festgelegt. Verfügt ein Benutzer über Zugriffsrechte zu einem Anlagenbereich, sind seine Bedienmöglichkeiten aufgrund der speziellen Berechtigungen für diesen Benutzer festgelegt.

Die zugewiesenen Bedienberechtigungen müssen mit den Berechtigungen für die einzelnen Aktionen im Bildbaustein einer Messstelle innerhalb des jeweiligen Anlagenbereichs übereinstimmen.

Je nach Anlagenbereich kann jeder Benutzer andere Rechte für die Navigation besitzen und für spezielle Aktionen einer Messstelle unterschiedliche Bedienberechtigungen benötigen. Das Anzeigen von Messstellenparametern innerhalb eines freigegebenen Anlagenbereichs, ist jedoch zu jeder Zeit möglich.

Dies bedeutet, dass ein Benutzer einen Meldegrenzwert für eine bestimmte Messung ändern kann, nicht aber die Meldegrenzwerte für andere Messungen.

Anhang 3 enthält eine Liste aller APL-Funktionsbausteine für SIMATIC PCS 7, deren Eingänge vom Bedienpersonal entsprechend der erforderlichen Bedienberechtigungen angepasst werden können.

1.6 Funktionsprinzip der Bedienberechtigungen

Für die Bedienung über einen Bildbaustein gibt es drei Bedienberechtigungsstufen, die auch als „Levels“ bezeichnet werden und nach den Stufen 1, 2 und 3 gestaffelt sind.

Standardmäßig sind den jeweiligen Stufen die folgenden Bedienberechtigungen zugewiesen:

Tabelle 1-3

Stufe Benutzerrecht Nr.

Name Beschreibung

1 5 Prozessbedienungen Bedienberechtigung zum Bedienunen eines Prozesses und für normale Prozesseinstellungen, einschließlich das Ein- und Abschalten von Apparaturen, das Öffnen und Schließen von Ventilen und Sollwertänderunen an PID-Reglern.

2 6 Höherwertige Prozessbedienungen

Bedienberechtigung zum Anpassen kritischer Prozess- und Einstellparameter wie beispielsweise Meldegrenzwerte und Einstellparameter für den PID-Algorithmus.

3 1100 Höchstwertige Prozessbedienungen

Bedienberechtigung zum Einstellunen besonderer Variablen, z.B. Zu- oder Abschalten einer Variablen bei einer Simulation (wie in den APL-Funktions- und Bildbausteinen).



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Anpassung der Bedienberechtigungen eines Bildbausteins

Zur kundenspezifischen Anpassung der Bedienberechtigungen eines Bildbausteins stehen Ihnen drei Möglichkeiten zur Verfügung:

1. Einer Stufe eine andere Bedienberechtigung zuweisen (z.B. 1100 für Stufe 2)

– Dazu muss der Bildbaustein nicht verändert werden.

– Dies kann auf Instanz-Ebene erfolgen.

– Dies geschieht über die Eigenschaft des Bausteinsymbols mit dem der Bildbaustein geöffnet wird.

– Dieser Vorgang kann umgangen werden (bei geringerer Sicherheit, falls eine höhere Bedienberechtigung zugeordnet wurde), sofern der Bildbaustein für die Messstelle aus dem Symbolverzeichnis (Tag Directory) heraus geöffnet wurde (Anwahl über die Funktionsleiste).

2. Ändern des Bildbausteins und Ändern der Stufenzuordnungen für bestimmte Bedienungen

– Jedes Bausteinsymbol, welches über einen Bildbaustein bedient werden kann, verfügt über bestimmte Eigenschaften. Eine davon ist der „OperationLevel“, der auf einen anderen Wert gesetzt werden kann. Hierdurch wird gleichzeitig die Bedienberechtigung des Bausteinsymbols geändert.

– Die Änderungen im Bildbaustein sind für alle Instanzen desselben Typs wirksam (z.B. Typ MonAnL).

3. Anlegen einer neuen Bausteinsymbol-Variante

Kopieren Sie hierzu das Bausteinsymbol und erstellen Sie eine neue Variante, indem Sie diese umbenennen und das Attribut Type anpassen. Kopieren Sie danach den dazugehörigen Bildbaustein und benennen Sie diesen ebenfalls um. Ändern Sie den Bildbausteinaufruf, anschließend ändern Sie die Bedienberechtigungen im Bildbaustein.



Bedienberechtigungen über das Bausteinsymbol anpassen

Das Bausteinsymbol, mit dem ein Bildbaustein (Faceplate) aufgerufen wird, kann so konfiguriert werden, dass für jede der drei Stufen unterschiedliche Bedienberechtigungen definiert werden.

Jedes Bausteinsymbol verfügt über drei Eigenschaften: „OperationLevel1_backup“, „OperationLevel2_backup“ und „OperationLevel3_backup“, denen jeweils eine Bedienberechtigung zugeordnet ist. Werden diese Bedienberechtigungen geändert, wird die Änderung auch auf den Bildbaustein übertragen.

Symboleigenschaften für die drei Stufen mit Änderung der Bedienrechte:

Abbildung 1-3

Grundeinstellungen für die Bedienberechtigungsstufen 1, 2 und 3

Möglichkeit für das Zuweisen von unterschiedlichen

Bedienberechtigungen für jede Bedienberechtigungs-

stufe

Tag (Symbol) für den diese Einstellungen wirksam sind

2 Anhang


1.0, Beitrags-ID: 60575347

2 Anhang 2.1 Anhang 1

Die nachfolgende Abbildung zeigt die Festlegung von Benutzern in der OS (einzeln für jede Bedienstation).

Abbildung 2-1

2.2 Anhang 2

Die nachfolgende Abbildung illustriert die Funktionsweise bei Benutzern, die unter Windows festgelegt wurden.

Abbildung 2-2

Gruppehat

......

...X1100

...XX6

...XXX5

...Bereich 1Bereich 1Bereich 1Bedien-berechtigung

zugeordnet zu

hat korrespondierende Gruppe

Benutzer Gruppeist Mitglied in

Windows User Administration

SIMATIC PCS 7 OS User Administration

Benutzerist Element von

Messstelle Bereich

Benutzer Bedienberechtigungendefinieren

ist Teil von

BereichsspezifischeBenutzerrechte

für

definieren zusammen

Messstellen Eigenschaften

definierenMessstellenBildbausteinwie konfiguriert in

sind getestet von

Symbol

für

zugeordnetzu

Bedienberechtigungen

Bedienberechtigungen Bedienberechtigungs-stufen

Gruppehat

......

...X1100

...XX6

...XXX5

...Bereich 1Bereich 1Bereich 1Bedien-berechtigung

zugeordnet zu

hat korrespondierende Gruppe

Benutzer Gruppeist Mitglied in

Windows User Administration

SIMATIC PCS 7 OS User Administration

Benutzerist Element von

Messstelle Bereich

Benutzer Bedienberechtigungendefinieren

ist Teil von

BereichsspezifischeBenutzerrechte

für

definieren zusammen

Messstellen Eigenschaften

definierenMessstellenBildbausteinwie konfiguriert in

sind getestet von

Symbol

für

zugeordnetzu

Bedienberechtigungen

Bedienberechtigungen Bedienberechtigungs-stufen

2 Anhang


2.3 Anhang 3

Die beiliegende Tabelle enthält die Stufen für alle Bildbausteine (Faceplates), die in der Bibliothek SIMATIC PCS 7 APL V7.1 SP5 enthalten sind.

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objName .#StatusPermanent On 1 5 ~PG_APL_Memo.PDL _CheckBox_BLR .#StatusPermanent Of f 1 5 ~PG_APL_Memo.PDL _CheckBox_BLR

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameConPerMon .Ov sAH_Lim 2 6 High alarm limit f or Ov ershoot [%] ~PG_ConPerMon_Limit.PDL csoIOAnaAHConPerMon .CPI_AL_Lim 2 6 Low alarm limit f or CPI [%] ~PG_ConPerMon_Limit.PDL csoIOAnaALConPerMon .CPI_AlmHy st 2 6 CPI alarm hy steresis [%] ~PG_ConPerMon_Limit.PDL csoIOAnaHy sConPerMon .Ov sWH_Lim 2 6 High warning limit f or Ov ershoot [%] ~PG_ConPerMon_Limit.PDL csoIOAnaWHConPerMon .CPI_WL_Lim 2 6 Low warning limit f or CPI [%] ~PG_ConPerMon_Limit.PDL csoIOAnaWLConPerMon .InitRef Var Initialize 2 6 Initialize Ref Variance, PV_Ref and MV_Ref in steady state of control loop ~PG_ConPerMon_Parameter.PDL csoBtnInitializeConPerMon .MV_Ref 2 6 In/out: MV v alue in ref erence steady state of the control loop ~PG_ConPerMon_Parameter.PDL csoIOAnaMVRefConPerMon .PV_Ref 2 6 In/out: PV v alue in ref erence steady state of the control loop ~PG_ConPerMon_Parameter.PDL csoIOAnaPVRefConPerMon .Ref Variance 2 6 Ref erence v alue f or PV_Variance in proper state of the control loop ~PG_ConPerMon_Parameter.PDL csoIOAnaPVRef VarConPerMon .Ref StdDev #Value 2 6 Value ~PG_ConPerMon_Parameter.PDL csoIOAnaPVRev DevConPerMon .TimeWindow 2 6 length [s] of mov ing time window f or statistical ev aluations ~PG_ConPerMon_Parameter.PDL csoIOAnaTimeWindowConPerMon .BreakSuppress Cancel ev al. 2 6 Break suppression of CPI alarms at the end of closed loop step response ~PG_ConPerMon_Setpoint.PDL csoBtnCancelEv alConPerMon .OnOp On 1 5 Operator input to switch back to serv ice, 1= Block on, i.e. in serv ice ~PG_ConPerMon_Standard.PDL csoBtnModeConPerMon .OosOp Out of serv ice 2 6 Operator input f or Out Of Serv ice, 1= Out Of Serv ice ~PG_ConPerMon_Standard.PDL csoBtnMode

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameCountOh .Day sAHLim 2 6 Day s-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtAHCountOh .HrsAHLim 2 6 Hours-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtAHCountOh .MinsAHLim 2 6 Minutes-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtAHCountOh .Day sAHLim 2 6 Day s-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtALCountOh .HrsAHLim 2 6 Hours-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtALCountOh .MinsAHLim 2 6 Minutes-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtALCountOh .Day sAHLim 2 6 Day s-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtTHCountOh .MinsAHLim 2 6 Minutes-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtTHCountOh .HrsAHLim 2 6 Hours-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtTHCountOh .MinsAHLim 2 6 Minutes-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtTHCountOh .Day sAHLim 2 6 Day s-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtTLCountOh .HrsAHLim 2 6 Hours-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtTLCountOh .MinsAHLim 2 6 Minutes-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtTLCountOh .Day sAHLim 2 6 Day s-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtWHCountOh .HrsAHLim 2 6 Hours-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtWHCountOh .Day sAHLim 2 6 Day s-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtWLCountOh .HrsAHLim 2 6 Hours-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtWLCountOh .MinsAHLim 2 6 Minutes-High Alarm Limit ~PG_CountOh_Limit.PDL csoIOAnaDtWLCountOh .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_CountOh_Parameter.PDL csoBtnMaintenanceCountOh .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_CountOh_Parameter.PDL csoBtnMaintenanceCountOh .PresetEn Preset 2 6 Preset Enable ~PG_CountOh_Parameter.PDL csoBtnPresetCountOh .PresetTime 2 6 Preset Time v alue[Sec]. ~PG_CountOh_Parameter.PDL csoIOAnaPresetDay sCountOh .PresetTime 2 6 Preset Time v alue[Sec]. ~PG_CountOh_Parameter.PDL csoIOAnaPresetHoursCountOh .PresetTime 2 6 Preset Time v alue[Sec]. ~PG_CountOh_Parameter.PDL csoIOAnaPresetMinsCountOh .UpOp Up 1 5 1 = Up Counter ~PG_CountOh_Standard.PDL csoBtnCommand

CountOh .DnOp Down 1 5 1 = Down Counter ~PG_CountOh_Standard.PDL csoBtnCommandCountOh .Of f Op Of f 1 5 Counter Of f by Operator: 1 = Counter is Of f ~PG_CountOh_Standard.PDL csoBtnCommandCountOh .OnOp On 1 5 1=On Mode: On Mode by Operator ~PG_CountOh_Standard.PDL csoBtnModeCountOh .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_CountOh_Standard.PDL csoBtnModeCountOh .Day s 2 6 Operating Day s ~PG_CountOh_Standard.PDL csoIOAnaDay sCountOh .Hours 2 6 Operating Hours ~PG_CountOh_Standard.PDL csoIOAnaHoursCountOh .Minutes 2 6 Operating Minutes ~PG_CountOh_Standard.PDL csoIOAnaMins

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameCountScL .OutAH_Lim 2 6 Out Value High Alarm Limit ~PG_CountScL_Limit.PDL csoIOAnaAHCountScL .OutAL_Lim 2 6 Out Value Low Alarm Limit ~PG_CountScL_Limit.PDL csoIOAnaALCountScL .OutTH_Lim 2 6 Out Value High Tolerance Limit ~PG_CountScL_Limit.PDL csoIOAnaTHCountScL .OutTL_Lim 2 6 Out Value Low Tolerance Limit ~PG_CountScL_Limit.PDL csoIOAnaTLCountScL .OutWH_Lim 2 6 Out Value High Warning Limit ~PG_CountScL_Limit.PDL csoIOAnaWHCountScL .OutWL_Lim 2 6 Out Value Low Warning Limit ~PG_CountScL_Limit.PDL csoIOAnaWLCountScL .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_CountScL_Parameter.PDL csoBtnMaintenanceCountScL .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_CountScL_Parameter.PDL csoBtnMaintenanceCountScL .PresetEn Preset 2 6 Preset Out ~PG_CountScL_Parameter.PDL csoBtnPresetCountScL .PresetVal 2 6 Preset Value ~PG_CountScL_Parameter.PDL csoIOAnaPresetValCountScL .UpOp Up 1 5 1 = Up Counter ~PG_CountScL_Standard.PDL csoBtnCommandCountScL .DnOp Down 1 5 1 = Down Counter ~PG_CountScL_Standard.PDL csoBtnCommandCountScL .Of f Op Of f 1 5 Counter Of f by Operator: 1 = Counter is Of f ~PG_CountScL_Standard.PDL csoBtnCommandCountScL .OnOp On 1 5 1=On Mode: On Mode by Operator ~PG_CountScL_Standard.PDL csoBtnModeCountScL .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_CountScL_Standard.PDL csoBtnModeCountScL .Out 1 5 Counter Value ~PG_CountScL_Standard.PDL csoIOAnaOut

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameDoseL .PV_AH_Lim 2 6 PV - Flow rate high alarm limit (coarse dose) ~PG_DoseL_Limit.PDL csoIOAnaAHCoarseDoseL .CR_AH_Lim 2 6 Creep f low - High alarm limit ~PG_DoseL_Limit.PDL csoIOAnaAHCreepDoseL .PV_AH2_Lim 2 6 PV - Flow rate high alarm limit (f ine dose) ~PG_DoseL_Limit.PDL csoIOAnaAHFineDoseL .PV_AL_Lim 2 6 PV - Flow rate low alarm limit (coarse dose) ~PG_DoseL_Limit.PDL csoIOAnaALCoarseDoseL .PV_AL2_Lim 2 6 PV - Flow rate low alarm limit (f ine dose) ~PG_DoseL_Limit.PDL csoIOAnaALFineDoseL .PV_Hy st 2 6 PV - Flow rate hy steresis (coarse dose) ~PG_DoseL_Limit.PDL csoIOAnaHy sCoarseDoseL .CR_Hy st 2 6 Creep f low - Hy steresis ~PG_DoseL_Limit.PDL csoIOAnaHy sCreepDoseL .PV_Hy st2 2 6 PV - Flow rate hy steresis (f ine dose) ~PG_DoseL_Limit.PDL csoIOAnaHy sFineDoseL .DQ_AH_Tol 2 6 Quantity high alarm tolerance band (ov erdose) ~PG_DoseL_Limit.PDL csoIOAnaOv erdosDoseL .DQ_AL_Tol 2 6 Quantity lower alarm tolerance band (underdose) ~PG_DoseL_Limit.PDL csoIOAnaUnderdoseDoseL .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_DoseL_Parameter.PDL csoBtnMaintDoseL .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_DoseL_Parameter.PDL csoBtnMaintDoseL .SimOn On 3 1100 Simulation on/of f ~PG_DoseL_Parameter.PDL csoBtnSimuDoseL .SimOn Of f 3 1100 Simulation on/of f ~PG_DoseL_Parameter.PDL csoBtnSimuDoseL .DribbCor On 2 6 Dribbling Correction On/Of f ~PG_DoseL_Parameter.PDL csoChkBoxAutoOnDoseL .DribbCor Of f 2 6 Dribbling Correction On/Of f ~PG_DoseL_Parameter.PDL csoChkBoxAutoOnDoseL .SP_TrkExt On 2 6 1: Internal SPs tracks to external SPs in external mode ~PG_DoseL_Parameter.PDL csoChkBoxSPTrkDoseL .SP_TrkExt Of f 2 6 1: Internal SPs tracks to external SPs in external mode ~PG_DoseL_Parameter.PDL csoChkBoxSPTrkDoseL .DribbMax 2 6 Dribble Value Maximum ~PG_DoseL_Parameter.PDL csoIOAnaDribbMax

DoseL .RelaxTime 2 6 Relax Time [s] ~PG_DoseL_Parameter.PDL csoIOAnaDribbTimeDoseL .DribbIn 2 6 Dribble Value ~PG_DoseL_Parameter.PDL csoIOAnaDribbValueDoseL .P_DoseTime 2 6 Post dose time [s] ~PG_DoseL_Parameter.PDL csoIOAnaPostTimeDoseL .DCF 2 6 Dribbling Correction Factor [%] ~PG_DoseL_Parameter.PDL csoIOAnaWeightFactDoseL .SP_HiLim#Value 2 6 Value ~PG_DoseL_Setpoint_Flow.PDL csoIOAnaHCoarseDoseL .SP2_HiLim#Value 2 6 Value ~PG_DoseL_Setpoint_Flow.PDL csoIOAnaHFineDoseL .SP_LoLim#Value 2 6 Value ~PG_DoseL_Setpoint_Flow.PDL csoIOAnaLCoarseDoseL .SP2_LoLim#Value 2 6 Value ~PG_DoseL_Setpoint_Flow.PDL csoIOAnaLFineDoseL .SimPV 1 5 PV Simulation Value, tracks when not in simulation ~PG_DoseL_Setpoint_Flow.PDL csoIOAnaPVDoseL .SP_Int 1 5 Flow rate internal setpoint ~PG_DoseL_Setpoint_Flow.PDL csoIOAnaSPCoarseDoseL .SP2_Int 1 5 Flow rate internal setpoint (f ine dose) ~PG_DoseL_Setpoint_Flow.PDL csoIOAnaSPFineDoseL .DQ2_HiLim#Value 2 6 Value ~PG_DoseL_Setpoint_Quantity .PDL csoIOAnaHFineDoseL .DQ_HiLim#Value 2 6 Value ~PG_DoseL_Setpoint_Quantity .PDL csoIOAnaHTotalDoseL .DQ2_LoLim#Value 2 6 Value ~PG_DoseL_Setpoint_Quantity .PDL csoIOAnaLFineDoseL .DQ_LoLim#Value 2 6 Value ~PG_DoseL_Setpoint_Quantity .PDL csoIOAnaLTotalDoseL .DQ1_SP#Value 2 6 Value ~PG_DoseL_Setpoint_Quantity .PDL csoIOAnaSPCoarseDoseL .DQ2_SP#Value 2 6 Value ~PG_DoseL_Setpoint_Quantity .PDL csoIOAnaSPFineDoseL .DQ2_Int 1 5 Quantity setpoint f actor internal (f ine dose) ~PG_DoseL_Setpoint_Quantity .PDL csoIOAnaSPFineFactorDoseL .DQ_SP#Value 2 6 Value ~PG_DoseL_Setpoint_Quantity .PDL csoIOAnaSPTotalDoseL .StartMan Start 1 5 1=Start: Start Command in Manual Mode ~PG_DoseL_Standard.PDL csoBtnCommandDoseL .ContMan Continue 1 5 1=Continue: Continue Command in Manual Mode ~PG_DoseL_Standard.PDL csoBtnCommandDoseL .PauseMan Pause 1 5 1=Pause: Pause Command in Manual Mode ~PG_DoseL_Standard.PDL csoBtnCommandDoseL .CancelMan Cancel 1 5 1=Cancel: Cancel Command in Manual Mode ~PG_DoseL_Standard.PDL csoBtnCommandDoseL .AutModOp Automatic 1 5 1=Auto mode: auto mode by operator ~PG_DoseL_Standard.PDL csoBtnModeDoseL .ManModOp Manual 1 5 1=Manual mode: manual mode by operator ~PG_DoseL_Standard.PDL csoBtnModeDoseL .LocalOp Local 1 5 1=Local Mode: Local operation by operator ~PG_DoseL_Standard.PDL csoBtnModeDoseL .OosOp Out of serv ice 2 6 1=Oos mode: Oos mode by operator ~PG_DoseL_Standard.PDL csoBtnModeDoseL .RstOp Reset 1 5 Operator reset signal ~PG_DoseL_Standard.PDL csoBtnResetDoseL .RstDQ_Op Reset 1 5 Operator signal to reset dosed quantity ~PG_DoseL_Standard.PDL csoBtnResetQuantityDoseL .U_AckOp Acknowledge 1 5 Underdose acknowledge operator ~PG_DoseL_Standard.PDL csoBtnResetUnderdoseDoseL .SP_ExtOp External 1 5 Operator Input to Select External Setpoint ~PG_DoseL_Standard.PDL csoBtnSPModeDoseL .SP_IntOp Internal 1 5 Operator Input to Select Internal Setpoint ~PG_DoseL_Standard.PDL csoBtnSPModeDoseL .SimDQ 1 5 Dosing quantity simulation v alue, tracks when not in simulation ~PG_DoseL_Standard.PDL csoIOAnaPVDoseL .DQ_Int 1 5 Quantity setpoint internal ~PG_DoseL_Standard.PDL csoIOAnaSP

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameFmCont .PV_AH_Lim 2 6 PV alarm high limit ~PG_FmCont_Limit.PDL csoIOAnaAHFmCont .PV_AL_Lim 2 6 PV alarm low limit ~PG_FmCont_Limit.PDL csoIOAnaALFmCont .ER_AH_Lim 2 6 ER alarm high limit ~PG_FmCont_Limit.PDL csoIOAnaErrHFmCont .ER_Hy st 2 6 Hy steresis f or ER alarms ~PG_FmCont_Limit.PDL csoIOAnaErrHy sFmCont .ER_AL_Lim 2 6 ER alarm low limit ~PG_FmCont_Limit.PDL csoIOAnaErrLFmCont .PV_Hy st 2 6 Hy steresis f or PV alarms, warnings and tolerance messages ~PG_FmCont_Limit.PDL csoIOAnaHy sFmCont .ManHiLim 2 6 High limit f or manipulated v ariable in manual mode ~PG_FmCont_Limit.PDL csoIOAnaMVHFmCont .ManLoLim 2 6 Low limit f or manipulated v ariable in manual mode ~PG_FmCont_Limit.PDL csoIOAnaMVLFmCont .RbkWH_Lim 2 6 Rbk - High Warning Limit ~PG_FmCont_Limit.PDL csoIOAnaRbkHFmCont .RbkHy st 2 6 Rbk - Hy steresis ~PG_FmCont_Limit.PDL csoIOAnaRbkHy s

FmCont .RbkWL_Lim 2 6 Rbk - Low Warning Limit ~PG_FmCont_Limit.PDL csoIOAnaRbkLFmCont .SP_InHiLim 2 6 High limit of internal setpoint ~PG_FmCont_Limit.PDL csoIOAnaSPHFmCont .SP_InLoLim 2 6 Low limit of internal setpoint ~PG_FmCont_Limit.PDL csoIOAnaSPLFmCont .PV_TH_Lim 2 6 PV tolerance message high limit ~PG_FmCont_Limit.PDL csoIOAnaTHFmCont .PV_TL_Lim 2 6 PV tolerance message low limit ~PG_FmCont_Limit.PDL csoIOAnaTLFmCont .PV_WH_Lim 2 6 PV warning high limit ~PG_FmCont_Limit.PDL csoIOAnaWHFmCont .PV_WL_Lim 2 6 PV warning low limit ~PG_FmCont_Limit.PDL csoIOAnaWLFmCont .MS_RelOp Yes 3 1100 1 = Release f or maintenance by operator ~PG_FmCont_Parameter.PDL csoBtnMaintFmCont .MS_RelOp No 3 1100 1 = Release f or maintenance by operator ~PG_FmCont_Parameter.PDL csoBtnMaintFmCont .SimOn On 3 1100 1 = Simulation activ ated ~PG_FmCont_Parameter.PDL csoBtnSimuFmCont .SimOn Of f 3 1100 1 = Simulation activ ated ~PG_FmCont_Parameter.PDL csoBtnSimuFmCont .SP_TrkPV On 2 6 1 = Setpoint f ollows PV in manual mode and in tracking ~PG_FmCont_Parameter.PDL csoChkBoxPVTrkFmCont .SP_TrkPV Of f 2 6 1 = Setpoint f ollows PV in manual mode and in tracking ~PG_FmCont_Parameter.PDL csoChkBoxPVTrkFmCont .SP_TrkExt On 2 6 1 = Bumpless switchov er f rom external to internal setpoint activ e ~PG_FmCont_Parameter.PDL csoChkBoxSPTrkFmCont .SP_TrkExt Of f 2 6 1 = Bumpless switchov er f rom external to internal setpoint activ e ~PG_FmCont_Parameter.PDL csoChkBoxSPTrkFmCont .BreakTime 2 6 Minimum Break Time [s] ~PG_FmCont_Parameter.PDL csoIOAnaBreakTFmCont .DeadBand 2 6 Width of deadband ~PG_FmCont_Parameter.PDL csoIOAnaDeadBFmCont .Gain#Value 2 6 Value ~PG_FmCont_Parameter.PDL csoIOAnaGainFmCont .Dif f Gain#Value 2 6 Value ~PG_FmCont_Parameter.PDL csoIOAnaGainDFmCont .MotorTime 2 6 Motor Actuating Time [s] ~PG_FmCont_Parameter.PDL csoIOAnaMotorTFmCont .PulseTime 2 6 Minimum Pulse Time [s] ~PG_FmCont_Parameter.PDL csoIOAnaPulseTFmCont .TD#Value 2 6 Value ~PG_FmCont_Parameter.PDL csoIOAnaTDFmCont .TI#Value 2 6 Value ~PG_FmCont_Parameter.PDL csoIOAnaTIFmCont .SP_RmpOn Activ e 1 5 1= Activ ate setpoint ramp to target setpoint SP_RmpTarget ~PG_FmCont_Ramp.PDL csoBtnRampFmCont .SP_RmpOn Inactiv e 1 5 1= Activ ate setpoint ramp to target setpoint SP_RmpTarget ~PG_FmCont_Ramp.PDL csoBtnRampFmCont .SP_RmpModTime Duration 1 5 1= Use time (SP_RmpTime) f or ramp, 0= Use rates SP_UpRaLim, SP_DnRaLim ~PG_FmCont_Ramp.PDL csoBtnRampModeFmCont .SP_RmpModTime Gradient 1 5 1= Use time (SP_RmpTime) f or ramp, 0= Use rates SP_UpRaLim, SP_DnRaLim ~PG_FmCont_Ramp.PDL csoBtnRampModeFmCont .SP_RateOn On 1 5 1= Activ ate limitation of setpoint gradients by SP_UpRaLim and SP_DnRaLim ~PG_FmCont_Ramp.PDL csoChkBoxGrdFmCont .SP_RateOn Of f 1 5 1= Activ ate limitation of setpoint gradients by SP_UpRaLim and SP_DnRaLim ~PG_FmCont_Ramp.PDL csoChkBoxGrdFmCont .SP_RmpTime 1 5 Time f or setpoint ramp [s] f rom current SP up to SP_RmpTarget ~PG_FmCont_Ramp.PDL csoIOAnaDurationFmCont .SP_DnRaLim 1 5 Downward rate limit of setpoint [PV_Unit/s] ~PG_FmCont_Ramp.PDL csoIOAnaGrdDownFmCont .SP_UpRaLim 1 5 Upward rate limit of setpoint [PV_Unit/s] ~PG_FmCont_Ramp.PDL csoIOAnaGrdUpFmCont .SP_RmpTarget 1 5 Target setpoint f or setpoint ramp ~PG_FmCont_Ramp.PDL csoIOAnaTargetSPFmCont .OpenOp Open 1 5 Manual Signal Open by Operation ~PG_FmCont_Standard.PDL csoBtnManipSignalsFmCont .CloseOp Close 1 5 Manual Signal Close by Operation ~PG_FmCont_Standard.PDL csoBtnManipSignalsFmCont .StopOp Stop 1 5 Manual Signal Stop by Operation ~PG_FmCont_Standard.PDL csoBtnManipSignalsFmCont .AutModOp Automatic 1 5 1 = Automatic mode by operator (controlled by ModLiOp = 0) ~PG_FmCont_Standard.PDL csoBtnModeFmCont .ManModOp Manual 1 5 1 = Manual mode by operator (controlled by ModLiOp = 0) ~PG_FmCont_Standard.PDL csoBtnModeFmCont .Adv CoOn Program 1 5 1 = Enable program mode v ia f aceplate ~PG_FmCont_Standard.PDL csoBtnModeFmCont .OosOp Out of serv ice 2 6 1 = Out of serv ice by OS operation ~PG_FmCont_Standard.PDL csoBtnModeFmCont .SP_ExtOp External 1 5 1 = Select external setpoint (v ia operator) ~PG_FmCont_Standard.PDL csoBtnSPModeFmCont .SP_IntOp Internal 1 5 1 = Select internal setpoint (v ia operator) ~PG_FmCont_Standard.PDL csoBtnSPModeFmCont .Man 1 5 Operator input f or manual setting of manipulated v ariable MV ~PG_FmCont_Standard.PDL csoIOAnaMVFmCont .SimPV 1 5 Process v alue used f or SimOn = 1 ~PG_FmCont_Standard.PDL csoIOAnaPVFmCont .SimRbk 1 5 Readback v alue used f or SimOn = 1 ~PG_FmCont_Standard.PDL csoIOAnaRbkFmCont .SP_Int 1 5 Internal setpoint f or operation ~PG_FmCont_Standard.PDL csoIOAnaSP

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameFmTemp .PV_AH_Lim 2 6 PV alarm high limit ~PG_FmTemp_Limit.PDL csoIOAnaAHFmTemp .PV_AL_Lim 2 6 PV alarm low limit ~PG_FmTemp_Limit.PDL csoIOAnaALFmTemp .ER_AH_Lim 2 6 ER alarm high limit ~PG_FmTemp_Limit.PDL csoIOAnaErrHFmTemp .ER_Hy st 2 6 Hy steresis f or ER alarms ~PG_FmTemp_Limit.PDL csoIOAnaErrHy sFmTemp .ER_AL_Lim 2 6 ER alarm low limit ~PG_FmTemp_Limit.PDL csoIOAnaErrLFmTemp .PV_Hy st 2 6 Hy steresis f or PV alarms, warnings and tolerance messages ~PG_FmTemp_Limit.PDL csoIOAnaHy sFmTemp .ManHiLim 2 6 High limit f or manipulated v ariable in manual mode ~PG_FmTemp_Limit.PDL csoIOAnaMVHFmTemp .ManLoLim 2 6 Low limit f or manipulated v ariable in manual mode ~PG_FmTemp_Limit.PDL csoIOAnaMVLFmTemp .RbkWH_Lim 2 6 Rbk - High Warning Limit ~PG_FmTemp_Limit.PDL csoIOAnaRbkHFmTemp .RbkHy st 2 6 Rbk - Hy steresis ~PG_FmTemp_Limit.PDL csoIOAnaRbkHy sFmTemp .RbkWL_Lim 2 6 Rbk - Low Warning Limit ~PG_FmTemp_Limit.PDL csoIOAnaRbkLFmTemp .SP_InHiLim 2 6 High limit of internal setpoint ~PG_FmTemp_Limit.PDL csoIOAnaSPHFmTemp .SP_InLoLim 2 6 Low limit of internal setpoint ~PG_FmTemp_Limit.PDL csoIOAnaSPLFmTemp .PV_TH_Lim 2 6 PV tolerance message high limit ~PG_FmTemp_Limit.PDL csoIOAnaTHFmTemp .PV_TL_Lim 2 6 PV tolerance message low limit ~PG_FmTemp_Limit.PDL csoIOAnaTLFmTemp .PV_WH_Lim 2 6 PV warning high limit ~PG_FmTemp_Limit.PDL csoIOAnaWHFmTemp .PV_WL_Lim 2 6 PV warning low limit ~PG_FmTemp_Limit.PDL csoIOAnaWLFmTemp .MS_RelOp Yes 3 1100 1 = Release f or maintenance by operator ~PG_FmTemp_Parameter.PDL csoBtnMaintFmTemp .MS_RelOp No 3 1100 1 = Release f or maintenance by operator ~PG_FmTemp_Parameter.PDL csoBtnMaintFmTemp .SimOn On 3 1100 1 = Simulation activ ated ~PG_FmTemp_Parameter.PDL csoBtnSimuFmTemp .SimOn Of f 3 1100 1 = Simulation activ ated ~PG_FmTemp_Parameter.PDL csoBtnSimuFmTemp .SP_TrkPV On 2 6 1 = Setpoint f ollows PV in manual mode and in tracking ~PG_FmTemp_Parameter.PDL csoChkBoxPVTrkFmTemp .SP_TrkPV Of f 2 6 1 = Setpoint f ollows PV in manual mode and in tracking ~PG_FmTemp_Parameter.PDL csoChkBoxPVTrkFmTemp .SP_TrkExt On 2 6 1 = Bumpless switchov er f rom external to internal setpoint activ e ~PG_FmTemp_Parameter.PDL csoChkBoxSPTrkFmTemp .SP_TrkExt Of f 2 6 1 = Bumpless switchov er f rom external to internal setpoint activ e ~PG_FmTemp_Parameter.PDL csoChkBoxSPTrkFmTemp .BreakTime 2 6 Minimum Break Time [s] ~PG_FmTemp_Parameter.PDL csoIOAnaBreakTFmTemp .DeadBand 2 6 Width of deadband ~PG_FmTemp_Parameter.PDL csoIOAnaDeadBFmTemp .Gain#Value 2 6 Value ~PG_FmTemp_Parameter.PDL csoIOAnaGainFmTemp .Dif f Gain#Value 2 6 Value ~PG_FmTemp_Parameter.PDL csoIOAnaGainDFmTemp .MotorTime 2 6 Motor Actuating Time [s] ~PG_FmTemp_Parameter.PDL csoIOAnaMotorTFmTemp .PulseTime 2 6 Minimum Pulse Time [s] ~PG_FmTemp_Parameter.PDL csoIOAnaPulseTFmTemp .TD#Value 2 6 Value ~PG_FmTemp_Parameter.PDL csoIOAnaTDFmTemp .TI#Value 2 6 Value ~PG_FmTemp_Parameter.PDL csoIOAnaTIFmTemp .ConZone 2 6 Control zone ~PG_FmTemp_Parameter.PDL csoIOAnaZoneCFmTemp .SP_RmpOn Activ e 1 5 1= Activ ate setpoint ramp to target setpoint SP_RmpTarget ~PG_FmTemp_Ramp.PDL csoBtnRampFmTemp .SP_RmpOn Inactiv e 1 5 1= Activ ate setpoint ramp to target setpoint SP_RmpTarget ~PG_FmTemp_Ramp.PDL csoBtnRampFmTemp .SP_RmpModTime Duration 1 5 1= Use time (SP_RmpTime) f or ramp, 0= Use rates SP_UpRaLim, SP_DnRaLim ~PG_FmTemp_Ramp.PDL csoBtnRampModeFmTemp .SP_RmpModTime Gradient 1 5 1= Use time (SP_RmpTime) f or ramp, 0= Use rates SP_UpRaLim, SP_DnRaLim ~PG_FmTemp_Ramp.PDL csoBtnRampModeFmTemp .SP_RateOn On 1 5 1= Activ ate limitation of setpoint gradients by SP_UpRaLim and SP_DnRaLim ~PG_FmTemp_Ramp.PDL csoChkBoxGrdFmTemp .SP_RateOn Of f 1 5 1= Activ ate limitation of setpoint gradients by SP_UpRaLim and SP_DnRaLim ~PG_FmTemp_Ramp.PDL csoChkBoxGrdFmTemp .SP_RmpTime 1 5 Time f or setpoint ramp [s] f rom current SP up to SP_RmpTarget ~PG_FmTemp_Ramp.PDL csoIOAnaDurationFmTemp .SP_DnRaLim 1 5 Downward rate limit of setpoint [PV_Unit/s] ~PG_FmTemp_Ramp.PDL csoIOAnaGrdDownFmTemp .SP_UpRaLim 1 5 Upward rate limit of setpoint [PV_Unit/s] ~PG_FmTemp_Ramp.PDL csoIOAnaGrdUpFmTemp .SP_RmpTarget 1 5 Target setpoint f or setpoint ramp ~PG_FmTemp_Ramp.PDL csoIOAnaTargetSP

FmTemp .OpenOp Open 1 5 Manual Signal Open by Operation ~PG_FmTemp_Standard.PDL csoBtnManipSignalsFmTemp .CloseOp Close 1 5 Manual Signal Close by Operation ~PG_FmTemp_Standard.PDL csoBtnManipSignalsFmTemp .StopOp Stop 1 5 Manual Signal Stop by Operation ~PG_FmTemp_Standard.PDL csoBtnManipSignalsFmTemp .AutModOp Automatic 1 5 1 = Automatic mode by operator (controlled by ModLiOp = 0) ~PG_FmTemp_Standard.PDL csoBtnModeFmTemp .ManModOp Manual 1 5 1 = Manual mode by operator (controlled by ModLiOp = 0) ~PG_FmTemp_Standard.PDL csoBtnModeFmTemp .Adv CoOn Program 1 5 1 = Enable program mode v ia f aceplate ~PG_FmTemp_Standard.PDL csoBtnModeFmTemp .OosOp Out of serv ice 2 6 1 = Out of serv ice by OS operation ~PG_FmTemp_Standard.PDL csoBtnModeFmTemp .SP_ExtOp External 1 5 1 = Select external setpoint (v ia operator) ~PG_FmTemp_Standard.PDL csoBtnSPModeFmTemp .SP_IntOp Internal 1 5 1 = Select internal setpoint (v ia operator) ~PG_FmTemp_Standard.PDL csoBtnSPModeFmTemp .Man 1 5 Operator input f or manual setting of manipulated v ariable MV ~PG_FmTemp_Standard.PDL csoIOAnaMVFmTemp .SimPV 1 5 Process v alue used f or SimOn = 1 ~PG_FmTemp_Standard.PDL csoIOAnaPVFmTemp .SimRbk 1 5 Readback v alue used f or SimOn = 1 ~PG_FmTemp_Standard.PDL csoIOAnaRbkFmTemp .SP_Int 1 5 Internal setpoint f or operation ~PG_FmTemp_Standard.PDL csoIOAnaSP

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameGainSched .Gain1#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaGain1GainSched .Gain2#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaGain2GainSched .Gain3#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaGain3GainSched .GainOp#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaGainOpGainSched .TD_Op#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaTD_OpGainSched .TD1#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaTD1GainSched .TD2#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaTD2GainSched .TD3#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaTD3GainSched .TI_Op#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaTI_OpGainSched .TI1#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaTI1GainSched .TI2#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaTI2GainSched .TI3#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaTI3GainSched .X1#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaX1GainSched .X2#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaX2GainSched .X3#Value 2 6 Value ~PG_GainSched_Parameter.PDL csoIOAnaX3GainSched .ManParOn#Value Automatic 1 5 Value ~PG_GainSched_Standard.PDL csoBtnModeGainSched .ManParOn#Value Manual 1 5 Value ~PG_GainSched_Standard.PDL csoBtnModeGainSched .GainOp#Value 2 6 Value ~PG_GainSched_Standard.PDL csoIOAnaGainGainSched .TD_Op#Value 2 6 Value ~PG_GainSched_Standard.PDL csoIOAnaTDGainSched .TI_Op#Value 2 6 Value ~PG_GainSched_Standard.PDL csoIOAnaTI

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameIntlk02 .By pIn01 Set 2 6 By pass In01 ~PG_Intlk02_Standard.PDL csoBtnBy p1Intlk02 .By pIn01 Reset 2 6 By pass In01 ~PG_Intlk02_Standard.PDL csoBtnBy p1Intlk02 .By pIn02 Set 2 6 By pass In02 ~PG_Intlk02_Standard.PDL csoBtnBy p2Intlk02 .By pIn02 Reset 2 6 By pass In02 ~PG_Intlk02_Standard.PDL csoBtnBy p2Intlk02 .RstBy pOp By passes 2 6 Reset FirstIn (operator) ~PG_Intlk02_Standard.PDL csoBtnResetIntlk02 .RstOp Initial signal 1 5 Reset FirstIn (operator) ~PG_Intlk02_Standard.PDL csoBtnReset

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameIntlk04 .By pIn01 Set 2 6 By pass In01 ~PG_Intlk04_Standard.PDL csoBtnBy p1

Intlk04 .By pIn01 Reset 2 6 By pass In01 ~PG_Intlk04_Standard.PDL csoBtnBy p1Intlk04 .By pIn02 Set 2 6 By pass In02 ~PG_Intlk04_Standard.PDL csoBtnBy p2Intlk04 .By pIn02 Reset 2 6 By pass In02 ~PG_Intlk04_Standard.PDL csoBtnBy p2Intlk04 .By pIn03 Set 2 6 By pass In03 ~PG_Intlk04_Standard.PDL csoBtnBy p3Intlk04 .By pIn03 Reset 2 6 By pass In03 ~PG_Intlk04_Standard.PDL csoBtnBy p3Intlk04 .By pIn04 Set 2 6 By pass In04 ~PG_Intlk04_Standard.PDL csoBtnBy p4Intlk04 .By pIn04 Reset 2 6 By pass In04 ~PG_Intlk04_Standard.PDL csoBtnBy p4Intlk04 .RstBy pOp By passes 2 6 Reset FirstIn (operator) ~PG_Intlk04_Standard.PDL csoBtnResetIntlk04 .RstOp Initial signal 1 5 Reset FirstIn (operator) ~PG_Intlk04_Standard.PDL csoBtnReset

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameIntlk08 .By pIn01 Set 2 6 By pass In01 ~PG_Intlk08_Standard.PDL csoBtnBy p1Intlk08 .By pIn01 Reset 2 6 By pass In01 ~PG_Intlk08_Standard.PDL csoBtnBy p1Intlk08 .By pIn02 Set 2 6 By pass In02 ~PG_Intlk08_Standard.PDL csoBtnBy p2Intlk08 .By pIn02 Reset 2 6 By pass In02 ~PG_Intlk08_Standard.PDL csoBtnBy p2Intlk08 .By pIn03 Set 2 6 By pass In03 ~PG_Intlk08_Standard.PDL csoBtnBy p3Intlk08 .By pIn03 Reset 2 6 By pass In03 ~PG_Intlk08_Standard.PDL csoBtnBy p3Intlk08 .By pIn04 Set 2 6 By pass In04 ~PG_Intlk08_Standard.PDL csoBtnBy p4Intlk08 .By pIn04 Reset 2 6 By pass In04 ~PG_Intlk08_Standard.PDL csoBtnBy p4Intlk08 .By pIn05 Set 2 6 By pass In05 ~PG_Intlk08_Standard.PDL csoBtnBy p5Intlk08 .By pIn05 Reset 2 6 By pass In05 ~PG_Intlk08_Standard.PDL csoBtnBy p5Intlk08 .By pIn06 Set 2 6 By pass In06 ~PG_Intlk08_Standard.PDL csoBtnBy p6Intlk08 .By pIn06 Reset 2 6 By pass In06 ~PG_Intlk08_Standard.PDL csoBtnBy p6Intlk08 .By pIn07 Set 2 6 By pass In07 ~PG_Intlk08_Standard.PDL csoBtnBy p7Intlk08 .By pIn07 Reset 2 6 By pass In07 ~PG_Intlk08_Standard.PDL csoBtnBy p7Intlk08 .By pIn08 Set 2 6 By pass In08 ~PG_Intlk08_Standard.PDL csoBtnBy p8Intlk08 .By pIn08 Reset 2 6 By pass In08 ~PG_Intlk08_Standard.PDL csoBtnBy p8Intlk08 .RstBy pOp By passes 2 6 Reset FirstIn (operator) ~PG_Intlk08_Standard.PDL csoBtnResetIntlk08 .RstOp Initial signal 1 5 Reset FirstIn (operator) ~PG_Intlk08_Standard.PDL csoBtnReset

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameIntlk16 .By pIn09 Set 2 6 By pass In09 ~PG_Intlk16_Screen2.PDL csoBtnBy p1Intlk16 .By pIn09 Reset 2 6 By pass In09 ~PG_Intlk16_Screen2.PDL csoBtnBy p1Intlk16 .By pIn10 Set 2 6 By pass In10 ~PG_Intlk16_Screen2.PDL csoBtnBy p2Intlk16 .By pIn10 Reset 2 6 By pass In10 ~PG_Intlk16_Screen2.PDL csoBtnBy p2Intlk16 .By pIn11 Set 2 6 By pass In11 ~PG_Intlk16_Screen2.PDL csoBtnBy p3Intlk16 .By pIn11 Reset 2 6 By pass In11 ~PG_Intlk16_Screen2.PDL csoBtnBy p3Intlk16 .By pIn12 Set 2 6 By pass In12 ~PG_Intlk16_Screen2.PDL csoBtnBy p4Intlk16 .By pIn12 Reset 2 6 By pass In12 ~PG_Intlk16_Screen2.PDL csoBtnBy p4Intlk16 .By pIn13 Set 2 6 By pass In13 ~PG_Intlk16_Screen2.PDL csoBtnBy p5Intlk16 .By pIn13 Reset 2 6 By pass In13 ~PG_Intlk16_Screen2.PDL csoBtnBy p5Intlk16 .By pIn14 Set 2 6 By pass In14 ~PG_Intlk16_Screen2.PDL csoBtnBy p6Intlk16 .By pIn14 Reset 2 6 By pass In14 ~PG_Intlk16_Screen2.PDL csoBtnBy p6Intlk16 .By pIn15 Set 2 6 By pass In15 ~PG_Intlk16_Screen2.PDL csoBtnBy p7Intlk16 .By pIn15 Reset 2 6 By pass In15 ~PG_Intlk16_Screen2.PDL csoBtnBy p7Intlk16 .By pIn16 Set 2 6 By pass In16 ~PG_Intlk16_Screen2.PDL csoBtnBy p8

Intlk16 .By pIn16 Reset 2 6 By pass In16 ~PG_Intlk16_Screen2.PDL csoBtnBy p8Intlk16 .RstBy pOp By passes 2 6 Reset FirstIn (operator) ~PG_Intlk16_Screen2.PDL csoBtnResetIntlk16 .RstOp Initial signal 1 5 Reset FirstIn (operator) ~PG_Intlk16_Screen2.PDL csoBtnResetIntlk16 .By pIn01 Set 2 6 By pass In01 ~PG_Intlk16_Standard.PDL csoBtnBy p1Intlk16 .By pIn01 Reset 2 6 By pass In01 ~PG_Intlk16_Standard.PDL csoBtnBy p1Intlk16 .By pIn02 Set 2 6 By pass In02 ~PG_Intlk16_Standard.PDL csoBtnBy p2Intlk16 .By pIn02 Reset 2 6 By pass In02 ~PG_Intlk16_Standard.PDL csoBtnBy p2Intlk16 .By pIn03 Set 2 6 By pass In03 ~PG_Intlk16_Standard.PDL csoBtnBy p3Intlk16 .By pIn03 Reset 2 6 By pass In03 ~PG_Intlk16_Standard.PDL csoBtnBy p3Intlk16 .By pIn04 Set 2 6 By pass In04 ~PG_Intlk16_Standard.PDL csoBtnBy p4Intlk16 .By pIn04 Reset 2 6 By pass In04 ~PG_Intlk16_Standard.PDL csoBtnBy p4Intlk16 .By pIn05 Set 2 6 By pass In05 ~PG_Intlk16_Standard.PDL csoBtnBy p5Intlk16 .By pIn05 Reset 2 6 By pass In05 ~PG_Intlk16_Standard.PDL csoBtnBy p5Intlk16 .By pIn06 Set 2 6 By pass In06 ~PG_Intlk16_Standard.PDL csoBtnBy p6Intlk16 .By pIn06 Reset 2 6 By pass In06 ~PG_Intlk16_Standard.PDL csoBtnBy p6Intlk16 .By pIn07 Set 2 6 By pass In07 ~PG_Intlk16_Standard.PDL csoBtnBy p7Intlk16 .By pIn07 Reset 2 6 By pass In07 ~PG_Intlk16_Standard.PDL csoBtnBy p7Intlk16 .By pIn08 Set 2 6 By pass In08 ~PG_Intlk16_Standard.PDL csoBtnBy p8Intlk16 .By pIn08 Reset 2 6 By pass In08 ~PG_Intlk16_Standard.PDL csoBtnBy p8Intlk16 .RstBy pOp By passes 2 6 Reset FirstIn (operator) ~PG_Intlk16_Standard.PDL csoBtnResetIntlk16 .RstOp Initial signal 1 5 Reset FirstIn (operator) ~PG_Intlk16_Standard.PDL csoBtnReset

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameModPreCon .SP1DeadBand 2 6 Radius (deadband) f or range control of CV1 ~PG_ModPreCon_Channel1.PDL csoIOAnaDeadBModPreCon .MV1RaLim 2 6 Manipulated v ariable 1 rate limit per sample ~PG_ModPreCon_Channel1.PDL csoIOAnaGradModPreCon .MV1HiLim 2 6 Manipulated v ariable 1 high limit ~PG_ModPreCon_Channel1.PDL csoIOAnaMVHModPreCon .MV1LoLim 2 6 Manipulated v ariable 1 low limit ~PG_ModPreCon_Channel1.PDL csoIOAnaMVLModPreCon .PreFilt1 2 6 Setpoint 1 pref ilter settling time [s] ~PG_ModPreCon_Channel1.PDL csoIOAnaPref ilModPreCon .SP1HiLim 2 6 High limit f or operator setpoint 1 ~PG_ModPreCon_Channel1.PDL csoIOAnaSPHModPreCon .SP1LoLim 2 6 Low limit f or operator setpoint 1 ~PG_ModPreCon_Channel1.PDL csoIOAnaSPLModPreCon .SP2DeadBand 2 6 Radius (deadband) f or range control of CV2 ~PG_ModPreCon_Channel2.PDL csoIOAnaDeadBModPreCon .MV2RaLim 2 6 Manipulated v ariable 2 rate limit per sample ~PG_ModPreCon_Channel2.PDL csoIOAnaGradModPreCon .MV2HiLim 2 6 Manipulated v ariable 2 high limit ~PG_ModPreCon_Channel2.PDL csoIOAnaMVHModPreCon .MV2LoLim 2 6 Manipulated v ariable 2 low limit ~PG_ModPreCon_Channel2.PDL csoIOAnaMVLModPreCon .PreFilt2 2 6 Setpoint 2 pref ilter settling time [s] ~PG_ModPreCon_Channel2.PDL csoIOAnaPref ilModPreCon .SP2HiLim 2 6 High limit f or operator setpoint 2 ~PG_ModPreCon_Channel2.PDL csoIOAnaSPHModPreCon .SP2LoLim 2 6 Low limit f or operator setpoint 2 ~PG_ModPreCon_Channel2.PDL csoIOAnaSPLModPreCon .SP3DeadBand 2 6 Radius (deadband) f or range control of CV3 ~PG_ModPreCon_Channel3.PDL csoIOAnaDeadBModPreCon .MV3RaLim 2 6 Manipulated v ariable 3 rate limit per sample ~PG_ModPreCon_Channel3.PDL csoIOAnaGradModPreCon .MV3HiLim 2 6 Manipulated v ariable 3 high limit ~PG_ModPreCon_Channel3.PDL csoIOAnaMVHModPreCon .MV3LoLim 2 6 Manipulated v ariable 3 low limit ~PG_ModPreCon_Channel3.PDL csoIOAnaMVLModPreCon .PreFilt3 2 6 Setpoint 3 pref ilter settling time [s] ~PG_ModPreCon_Channel3.PDL csoIOAnaPref ilModPreCon .SP3HiLim 2 6 High limit f or operator setpoint 3 ~PG_ModPreCon_Channel3.PDL csoIOAnaSPHModPreCon .SP3LoLim 2 6 Low limit f or operator setpoint 3 ~PG_ModPreCon_Channel3.PDL csoIOAnaSPLModPreCon .SP4DeadBand 2 6 Radius (deadband) f or range control of CV4 ~PG_ModPreCon_Channel4.PDL csoIOAnaDeadBModPreCon .MV4RaLim 2 6 Manipulated v ariable 4 rate limit per sample ~PG_ModPreCon_Channel4.PDL csoIOAnaGrad

ModPreCon .MV4HiLim 2 6 Manipulated v ariable 4 high limit ~PG_ModPreCon_Channel4.PDL csoIOAnaMVHModPreCon .MV4LoLim 2 6 Manipulated v ariable 4 low limit ~PG_ModPreCon_Channel4.PDL csoIOAnaMVLModPreCon .PreFilt4 2 6 Setpoint 4 pref ilter settling time [s] ~PG_ModPreCon_Channel4.PDL csoIOAnaPref ilModPreCon .SP4HiLim 2 6 High limit f or operator setpoint 4 ~PG_ModPreCon_Channel4.PDL csoIOAnaSPHModPreCon .SP4LoLim 2 6 Low limit f or operator setpoint 4 ~PG_ModPreCon_Channel4.PDL csoIOAnaSPLModPreCon .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1= MS release requirement ~PG_ModPreCon_Parameter.PDL csoBtnMaintModPreCon .MS_RelOp No 3 1100 Operator input f or MS Release, 1= MS release requirement ~PG_ModPreCon_Parameter.PDL csoBtnMaintModPreCon .SimOn On 3 1100 Simulation On/Of f ~PG_ModPreCon_Parameter.PDL csoBtnSimuModPreCon .SimOn Of f 3 1100 Simulation On/Of f ~PG_ModPreCon_Parameter.PDL csoBtnSimuModPreCon .DV_On On 2 6 1 = Activ ate disturbance f eedf orward of DV1 ~PG_ModPreCon_Parameter.PDL csoChkBoxDisturbModPreCon .DV_On Of f 2 6 1 = Activ ate disturbance f eedf orward of DV1 ~PG_ModPreCon_Parameter.PDL csoChkBoxDisturbModPreCon .SP_TrkCV On 2 6 SPs track CVs in manual mode and in tracking mode ~PG_ModPreCon_Parameter.PDL csoChkBoxPVTrkModPreCon .SP_TrkCV Of f 2 6 SPs track CVs in manual mode and in tracking mode ~PG_ModPreCon_Parameter.PDL csoChkBoxPVTrkModPreCon .DV1#Value 2 6 Value ~PG_ModPreCon_Parameter.PDL csoIOAnaDisturbModPreCon .AutModOp Automatic 1 5 Operator input f or automatic mode, 1= Automatic ~PG_ModPreCon_Standard.PDL csoBtnModeModPreCon .ManModOp Manual 1 5 Operator input f or manual mode, 1= Manual ~PG_ModPreCon_Standard.PDL csoBtnModeModPreCon .OosOp Out of serv ice 2 6 Operator input f or Out Of Serv ice, 1= Out Of Serv ice ~PG_ModPreCon_Standard.PDL csoBtnModeModPreCon .SimCV1 1 5 CV Simulation Value, tracks when not in simulation ~PG_ModPreCon_Standard.PDL csoIOAnaCV1ModPreCon .SimCV2 1 5 CV Simulation Value, tracks when not in simulation ~PG_ModPreCon_Standard.PDL csoIOAnaCV2ModPreCon .SimCV3 1 5 CV Simulation Value, tracks when not in simulation ~PG_ModPreCon_Standard.PDL csoIOAnaCV3ModPreCon .SimCV4 1 5 CV Simulation Value, tracks when not in simulation ~PG_ModPreCon_Standard.PDL csoIOAnaCV4ModPreCon .MV1Man 1 5 Manual setting of manipulated v ariable MV1 ~PG_ModPreCon_Standard.PDL csoIOAnaMV1ModPreCon .MV2Man 1 5 Manual setting of manipulated v ariable MV2 ~PG_ModPreCon_Standard.PDL csoIOAnaMV2ModPreCon .MV3Man 1 5 Manual setting of manipulated v ariable MV3 ~PG_ModPreCon_Standard.PDL csoIOAnaMV3ModPreCon .MV4Man 1 5 Manual setting of manipulated v ariable MV4 ~PG_ModPreCon_Standard.PDL csoIOAnaMV4ModPreCon .SP1#Value 1 5 Value ~PG_ModPreCon_Standard.PDL csoIOAnaSP1ModPreCon .SP2#Value 1 5 Value ~PG_ModPreCon_Standard.PDL csoIOAnaSP2ModPreCon .SP3#Value 1 5 Value ~PG_ModPreCon_Standard.PDL csoIOAnaSP3ModPreCon .SP4#Value 1 5 Value ~PG_ModPreCon_Standard.PDL csoIOAnaSP4

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameMonAnL .PV_AH_Lim 2 6 PV - High Alarm Limit ~PG_MonAnL_Limit.PDL csoIOAnaAHMonAnL .PV_AL_Lim 2 6 PV - Low Alarm Limit ~PG_MonAnL_Limit.PDL csoIOAnaALMonAnL .PV_Hy st 2 6 PV - Alarm Hy steresis ~PG_MonAnL_Limit.PDL csoIOAnaHy sMonAnL .PV_TH_Lim 2 6 PV - High Tolerance Limit ~PG_MonAnL_Limit.PDL csoIOAnaTHMonAnL .PV_TL_Lim 2 6 PV - Low Tolerance Limit ~PG_MonAnL_Limit.PDL csoIOAnaTLMonAnL .PV_WH_Lim 2 6 PV - High Warning Limit ~PG_MonAnL_Limit.PDL csoIOAnaWHMonAnL .PV_WL_Lim 2 6 PV - Low Warning Limit ~PG_MonAnL_Limit.PDL csoIOAnaWLMonAnL .GradLLim 2 6 Low alarm limit f or positiv e and negativ e gradient ~PG_MonAnL_Limit.PDL csoIOXAnaGAMonAnL .GradHUpLim 2 6 High alarm limit f or positiv e gradient ~PG_MonAnL_Limit.PDL csoIOXAnaGHMonAnL .GradHDnLim 2 6 High alarm limit f or negativ e gradient ~PG_MonAnL_Limit.PDL csoIOXAnaGLMonAnL .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MonAnL_Parameter.PDL csoBtnMaintenanceMonAnL .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MonAnL_Parameter.PDL csoBtnMaintenanceMonAnL .SimOn On 3 1100 Simulation On/Of f ~PG_MonAnL_Parameter.PDL csoBtnSimMonAnL .SimOn Of f 3 1100 Simulation On/Of f ~PG_MonAnL_Parameter.PDL csoBtnSimMonAnL .DeadBand 2 6 Dead band width ~PG_MonAnL_Parameter.PDL csoIOAnaDeadB

MonAnL .OnOp On 1 5 1=On Mode: On Mode by Operator ~PG_MonAnL_Standard.PDL csoBtnModeMonAnL .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_MonAnL_Standard.PDL csoBtnModeMonAnL .RstOp Reset 1 5 Reset Peak Values ~PG_MonAnL_Standard.PDL csoBtnResetMonAnL .SimPV 1 5 Simulation Value ~PG_MonAnL_Standard.PDL csoIOAnaPV

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameMonAnS .PV_AH_Lim 2 6 PV - High Alarm Limit ~PG_MonAnS_Limit.PDL csoIOAnaAHMonAnS .PV_AL_Lim 2 6 PV - Low Alarm Limit ~PG_MonAnS_Limit.PDL csoIOAnaALMonAnS .PV_Hy st 2 6 PV - Alarm Hy steresis ~PG_MonAnS_Limit.PDL csoIOAnaHy sMonAnS .PV_WH_Lim 2 6 PV - High Warning Limit ~PG_MonAnS_Limit.PDL csoIOAnaWHMonAnS .PV_WL_Lim 2 6 PV - Low Warning Limit ~PG_MonAnS_Limit.PDL csoIOAnaWLMonAnS .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MonAnS_Parameter.PDL csoBtnMaintenanceMonAnS .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MonAnS_Parameter.PDL csoBtnMaintenanceMonAnS .SimOn On 3 1100 Simulation On/Of f ~PG_MonAnS_Parameter.PDL csoBtnSimMonAnS .SimOn Of f 3 1100 Simulation On/Of f ~PG_MonAnS_Parameter.PDL csoBtnSimMonAnS .DeadBand 2 6 Dead band width ~PG_MonAnS_Parameter.PDL csoIOAnaDeadBMonAnS .OnOp On 1 5 1=On Mode: On Mode by Operator ~PG_MonAnS_Standard.PDL csoBtnModeMonAnS .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_MonAnS_Standard.PDL csoBtnModeMonAnS .SimPV 1 5 Simulation Value ~PG_MonAnS_Standard.PDL csoIOAnaPV

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameMonDi08 .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MonDi08_Parameter.PDL csoBtnMaintenanceMonDi08 .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MonDi08_Parameter.PDL csoBtnMaintenanceMonDi08 .Flut1TmIn 2 6 Fluttering Time [s] ~PG_MonDi08_Parameter.PDL csoIOAnaFlutTm1MonDi08 .Flut2TmIn 2 6 Fluttering Time [s] ~PG_MonDi08_Parameter.PDL csoIOAnaFlutTm2MonDi08 .Flut3TmIn 2 6 Fluttering Time [s] ~PG_MonDi08_Parameter.PDL csoIOAnaFlutTm3MonDi08 .Flut4TmIn 2 6 Fluttering Time [s] ~PG_MonDi08_Parameter.PDL csoIOAnaFlutTm4MonDi08 .Flut5TmIn 2 6 Fluttering Time [s] ~PG_MonDi08_Parameter.PDL csoIOAnaFlutTm5MonDi08 .Flut6TmIn 2 6 Fluttering Time [s] ~PG_MonDi08_Parameter.PDL csoIOAnaFlutTm6MonDi08 .Flut7TmIn 2 6 Fluttering Time [s] ~PG_MonDi08_Parameter.PDL csoIOAnaFlutTm7MonDi08 .Flut8TmIn 2 6 Fluttering Time [s] ~PG_MonDi08_Parameter.PDL csoIOAnaFlutTm8MonDi08 .OnOp On 1 5 1=On Mode: On Mode by Operator ~PG_MonDi08_Standard.PDL csoBtnModeMonDi08 .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_MonDi08_Standard.PDL csoBtnMode

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameMonDiL .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MonDiL_Parameter.PDL csoBtnMaintenanceMonDiL .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MonDiL_Parameter.PDL csoBtnMaintenanceMonDiL .SimOn On 3 1100 Simulation On/Of f ~PG_MonDiL_Parameter.PDL csoBtnSimMonDiL .SimOn Of f 3 1100 Simulation On/Of f ~PG_MonDiL_Parameter.PDL csoBtnSimMonDiL .Out_DC 2 6 Out Delay Time Coming [s] ~PG_MonDiL_Parameter.PDL csoIOAnaControlMonMonDiL .FlutFactor 2 6 Fluttering Factor ~PG_MonDiL_Parameter.PDL csoIOAnaFlutFactorMonDiL .FlutTmIn 2 6 Flutter Suppression Time [s] ~PG_MonDiL_Parameter.PDL csoIOAnaFlutTimeMonDiL .Out_DG 2 6 Out Delay Time Going [s] ~PG_MonDiL_Parameter.PDL csoIOAnaRuntimeMonMonDiL .SimIn Activ e 1 5 Simulation Value ~PG_MonDiL_Standard.PDL csoBtnCommandMonDiL .SimIn Inactiv e 1 5 Simulation Value ~PG_MonDiL_Standard.PDL csoBtnCommandMonDiL .OnOp On 1 5 1=On Mode: On Mode by Operator ~PG_MonDiL_Standard.PDL csoBtnMode

MonDiL .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_MonDiL_Standard.PDL csoBtnMode

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameMonDiS .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MonDiS_Parameter.PDL csoBtnMaintenanceMonDiS .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MonDiS_Parameter.PDL csoBtnMaintenanceMonDiS .SimOn On 3 1100 Simulation On/Of f ~PG_MonDiS_Parameter.PDL csoBtnSimMonDiS .SimOn Of f 3 1100 Simulation On/Of f ~PG_MonDiS_Parameter.PDL csoBtnSimMonDiS .Out_DC 2 6 Out Delay Time Coming [s] ~PG_MonDiS_Parameter.PDL csoIOAnaControlMonMonDiS .SimIn Activ e 1 5 Simulation Value ~PG_MonDiS_Standard.PDL csoBtnCommandMonDiS .SimIn Inactiv e 1 5 Simulation Value ~PG_MonDiS_Standard.PDL csoBtnCommandMonDiS .OnOp On 1 5 1=On Mode: On Mode by Operator ~PG_MonDiS_Standard.PDL csoBtnModeMonDiS .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_MonDiS_Standard.PDL csoBtnMode

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameMotL .AV_AH_Lim 2 6 AV - High Alarm Limit ~PG_MotL_Limit.PDL csoIOAnaAHMotL .AV_AL_Lim 2 6 AV - Low Alarm Limit ~PG_MotL_Limit.PDL csoIOAnaALMotL .SimAV 1 5 AV Simulation Value, tracks when not in simulation ~PG_MotL_Limit.PDL csoIOAnaAVMotL .AV_Hy st 2 6 AV - Hy steresis ~PG_MotL_Limit.PDL csoIOAnaHy sMotL .AV_TH_Lim 2 6 AV - High Tolerance Limit ~PG_MotL_Limit.PDL csoIOAnaTHMotL .AV_TL_Lim 2 6 AV - Low Tolerance Limit ~PG_MotL_Limit.PDL csoIOAnaTLMotL .AV_WH_Lim 2 6 AV - High Warning Limit ~PG_MotL_Limit.PDL csoIOAnaWHMotL .AV_WL_Lim 2 6 AV - Low Warning Limit ~PG_MotL_Limit.PDL csoIOAnaWLMotL .Monitor On 2 6 1=Monitor ON, 0=Monitor OFF: Feedback Monitor ~PG_MotL_Parameter.PDL chkMonitorMotL .Monitor Of f 2 6 1=Monitor ON, 0=Monitor OFF: Feedback Monitor ~PG_MotL_Parameter.PDL chkMonitorMotL .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MotL_Parameter.PDL csoBtnMaintenanceMotL .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MotL_Parameter.PDL csoBtnMaintenanceMotL .SimOn On 3 1100 Simulation On/Of f ~PG_MotL_Parameter.PDL csoBtnSimMotL .SimOn Of f 3 1100 Simulation On/Of f ~PG_MotL_Parameter.PDL csoBtnSimMotL .MonTiDy namic 2 6 Monitoring Time of Feedback [s] ~PG_MotL_Parameter.PDL csoIOAnaDy nMonTimeMotL .MonTiStatic 2 6 Monitoring Time of Feedback [s] ~PG_MotL_Parameter.PDL csoIOAnaStaMonTimeMotL .StartMan Start 1 5 1=Start: Start Command in Manual Mode ~PG_MotL_Standard.PDL csoBtnCommandMotL .StopMan Stop 1 5 1=Stop: Stop Command in Manual Mode ~PG_MotL_Standard.PDL csoBtnCommandMotL .RapidStp Rapid stop 1 5 1 = Motor Rapid Stop command ~PG_MotL_Standard.PDL csoBtnCommandMotL .AutModOp Automatic 1 5 1=Auto Mode: Auto Mode by Operator ~PG_MotL_Standard.PDL csoBtnModeMotL .ManModOp Manual 1 5 1=Manual Mode: Manual Mode by Operator ~PG_MotL_Standard.PDL csoBtnModeMotL .LocalOp Local 1 5 1=Local Mode: Local Operation by Operator ~PG_MotL_Standard.PDL csoBtnModeMotL .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_MotL_Standard.PDL csoBtnModeMotL .RstOp Reset 1 5 Operator Reset Signal ~PG_MotL_Standard.PDL csoBtnReset

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameMotRev L .AV_AH_Lim 2 6 AV - High Alarm Limit ~PG_MotRev L_Limit.PDL csoIOAnaAHMotRev L .AV_AL_Lim 2 6 AV - Low Alarm Limit ~PG_MotRev L_Limit.PDL csoIOAnaALMotRev L .SimAV 1 5 AV Simulation Value, tracks when not in simulation ~PG_MotRev L_Limit.PDL csoIOAnaAVMotRev L .AV_Hy st 2 6 AV - Hy steresis ~PG_MotRev L_Limit.PDL csoIOAnaHy sMotRev L .AV_TH_Lim 2 6 AV - High Tolerance Limit ~PG_MotRev L_Limit.PDL csoIOAnaTHMotRev L .AV_TL_Lim 2 6 AV - Low Tolerance Limit ~PG_MotRev L_Limit.PDL csoIOAnaTL

MotRev L .AV_WH_Lim 2 6 AV - High Warning Limit ~PG_MotRev L_Limit.PDL csoIOAnaWHMotRev L .AV_WL_Lim 2 6 AV - Low Warning Limit ~PG_MotRev L_Limit.PDL csoIOAnaWLMotRev L .Monitor On 2 6 1=Monitor ON, 0=Monitor OFF: Feedback Monitor ~PG_MotRev L_Parameter.PDL chkMonitorMotRev L .Monitor Of f 2 6 1=Monitor ON, 0=Monitor OFF: Feedback Monitor ~PG_MotRev L_Parameter.PDL chkMonitorMotRev L .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MotRev L_Parameter.PDL csoBtnMaintenanceMotRev L .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MotRev L_Parameter.PDL csoBtnMaintenanceMotRev L .SimOn On 3 1100 Simulation On/Of f ~PG_MotRev L_Parameter.PDL csoBtnSimMotRev L .SimOn Of f 3 1100 Simulation On/Of f ~PG_MotRev L_Parameter.PDL csoBtnSimMotRev L .MonTiDy namic 2 6 Monitoring Time of Feedback [s] ~PG_MotRev L_Parameter.PDL csoIOAnaDy nMonTimeMotRev L .MonTiStatic 2 6 Monitoring Time of Feedback [s] ~PG_MotRev L_Parameter.PDL csoIOAnaStaMonTimeMotRev L .FwdMan Forward 1 5 1=Start: Forward Start Command in Manual Mode ~PG_MotRev L_Standard.PDL csoBtnCommandMotRev L .Rev Man Rev erse 1 5 1=Start: Rev erse Start Command in Manual Mode ~PG_MotRev L_Standard.PDL csoBtnCommandMotRev L .StopMan Stop 1 5 1=Stop: Stop Command in Manual Mode ~PG_MotRev L_Standard.PDL csoBtnCommandMotRev L .RapidStp Rapid stop 1 5 1 = Motor Rapid Stop command ~PG_MotRev L_Standard.PDL csoBtnCommandMotRev L .AutModOp Automatic 1 5 1=Auto Mode: Auto Mode by Operator ~PG_MotRev L_Standard.PDL csoBtnModeMotRev L .ManModOp Manual 1 5 1=Manual Mode: Manual Mode by Operator ~PG_MotRev L_Standard.PDL csoBtnModeMotRev L .LocalOp Local 1 5 1=Local Mode: Local Operation by Operator ~PG_MotRev L_Standard.PDL csoBtnModeMotRev L .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_MotRev L_Standard.PDL csoBtnModeMotRev L .RstOp Reset 1 5 Operator Reset Signal ~PG_MotRev L_Standard.PDL csoBtnReset

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameMotS .Monitor On 2 6 1=Monitor ON, 0=Monitor OFF: Feedback Monitor ~PG_MotS_Parameter.PDL chkMonitorMotS .Monitor Of f 2 6 1=Monitor ON, 0=Monitor OFF: Feedback Monitor ~PG_MotS_Parameter.PDL chkMonitorMotS .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MotS_Parameter.PDL csoBtnMaintenanceMotS .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MotS_Parameter.PDL csoBtnMaintenanceMotS .SimOn On 3 1100 Simulation On/Of f ~PG_MotS_Parameter.PDL csoBtnSimMotS .SimOn Of f 3 1100 Simulation On/Of f ~PG_MotS_Parameter.PDL csoBtnSimMotS .MonTiDy namic 2 6 Monitoring Time of Feedback [s] ~PG_MotS_Parameter.PDL csoIOAnaDy nMonTimeMotS .StartMan Start 1 5 1=Start: Start Command in Manual Mode ~PG_MotS_Standard.PDL csoBtnCommandMotS .StopMan Stop 1 5 1=Stop: Stop Command in Manual Mode ~PG_MotS_Standard.PDL csoBtnCommandMotS .AutModOp Automatic 1 5 1=Auto Mode: Auto Mode by Operator ~PG_MotS_Standard.PDL csoBtnModeMotS .ManModOp Manual 1 5 1=Manual Mode: Manual Mode by Operator ~PG_MotS_Standard.PDL csoBtnModeMotS .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_MotS_Standard.PDL csoBtnModeMotS .RstOp Reset 1 5 Operator Reset Signal ~PG_MotS_Standard.PDL csoBtnReset

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameMotSpdCL .AV_AH_Lim 2 6 AV - High Alarm Limit ~PG_MotSpdCL_Limit.PDL csoIOAnaAHMotSpdCL .AV_AL_Lim 2 6 AV - Low Alarm Limit ~PG_MotSpdCL_Limit.PDL csoIOAnaALMotSpdCL .SimAV 1 5 AV Simulation Value, tracks when not in simulation ~PG_MotSpdCL_Limit.PDL csoIOAnaAVMotSpdCL .AV_Hy st 2 6 AV - Hy steresis ~PG_MotSpdCL_Limit.PDL csoIOAnaHy sMotSpdCL .AV_TH_Lim 2 6 AV - High Tolerance Limit ~PG_MotSpdCL_Limit.PDL csoIOAnaTHMotSpdCL .AV_TL_Lim 2 6 AV - Low Tolerance Limit ~PG_MotSpdCL_Limit.PDL csoIOAnaTLMotSpdCL .AV_WH_Lim 2 6 AV - High Warning Limit ~PG_MotSpdCL_Limit.PDL csoIOAnaWHMotSpdCL .AV_WL_Lim 2 6 AV - Low Warning Limit ~PG_MotSpdCL_Limit.PDL csoIOAnaWLMotSpdCL .ER_AH_Lim 2 6 ER alarm high limit ~PG_MotSpdCL_LimitRbk.PDL csoIOAnaAHMotSpdCL .ER_AL_Lim 2 6 ER alarm low limit ~PG_MotSpdCL_LimitRbk.PDL csoIOAnaAL

MotSpdCL .RbkHy st 2 6 Rbk - Hy steresis ~PG_MotSpdCL_LimitRbk.PDL csoIOAnaHy sMotSpdCL .ER_Hy st 2 6 Hy steresis f or ER alarms ~PG_MotSpdCL_LimitRbk.PDL csoIOAnaHy sERMotSpdCL .RbkWH_Lim 2 6 Rbk - High Warning Limit ~PG_MotSpdCL_LimitRbk.PDL csoIOAnaWHMotSpdCL .RbkWL_Lim 2 6 Rbk - Low Warning Limit ~PG_MotSpdCL_LimitRbk.PDL csoIOAnaWLMotSpdCL .SP_TrkExt On 2 6 Bumpless Transf er f rom External to Internal ~PG_MotSpdCL_Parameter.PDL chkBumplessMotSpdCL .SP_TrkExt Of f 2 6 Bumpless Transf er f rom External to Internal ~PG_MotSpdCL_Parameter.PDL chkBumplessMotSpdCL .Monitor On 2 6 1=Monitor ON, 0=Monitor OFF: Feedback Monitor ~PG_MotSpdCL_Parameter.PDL chkMonitorMotSpdCL .Monitor Of f 2 6 1=Monitor ON, 0=Monitor OFF: Feedback Monitor ~PG_MotSpdCL_Parameter.PDL chkMonitorMotSpdCL .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MotSpdCL_Parameter.PDL csoBtnMaintenanceMotSpdCL .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MotSpdCL_Parameter.PDL csoBtnMaintenanceMotSpdCL .SimOn On 3 1100 Simulation On/Of f ~PG_MotSpdCL_Parameter.PDL csoBtnSimMotSpdCL .SimOn Of f 3 1100 Simulation On/Of f ~PG_MotSpdCL_Parameter.PDL csoBtnSimMotSpdCL .MonTiDy namic 2 6 Monitoring Time of Feedback [s] ~PG_MotSpdCL_Parameter.PDL csoIOAnaDy nMonTimeMotSpdCL .MonTiStatic 2 6 Monitoring Time of Feedback [s] ~PG_MotSpdCL_Parameter.PDL csoIOAnaStaMonTimeMotSpdCL .SP_RateOn On 1 5 Setpoint changes are rate limited by SP_UpRaLim and SP_DnRaLim ~PG_MotSpdCL_Ramp.PDL chkRampOnMotSpdCL .SP_RateOn Of f 1 5 Setpoint changes are rate limited by SP_UpRaLim and SP_DnRaLim ~PG_MotSpdCL_Ramp.PDL chkRampOnMotSpdCL .SP_RmpModTime Duration 1 5 1: SP ramped ov er SP_RmpTime, 0: SP ramped by rates SP_UpRaLim, SP_DnRaLim ~PG_MotSpdCL_Ramp.PDL csoBtnRampModeMotSpdCL .SP_RmpModTime Gradient 1 5 1: SP ramped ov er SP_RmpTime, 0: SP ramped by rates SP_UpRaLim, SP_DnRaLim ~PG_MotSpdCL_Ramp.PDL csoBtnRampModeMotSpdCL .SP_RmpOn Activ e 1 5 Setpoint is ramped to SP_RmpTarget ~PG_MotSpdCL_Ramp.PDL csoBtnRampOnMotSpdCL .SP_RmpOn Inactiv e 1 5 Setpoint is ramped to SP_RmpTarget ~PG_MotSpdCL_Ramp.PDL csoBtnRampOnMotSpdCL .SP_RmpTime 1 5 Setpoint ramp time [s] ~PG_MotSpdCL_Ramp.PDL csoIOAnaDurationMotSpdCL .SP_DnRaLim 1 5 Downward rate limit f or setpoint changes or ramping [EUs/min] ~PG_MotSpdCL_Ramp.PDL csoIOAnaRampDnMotSpdCL .SP_UpRaLim 1 5 Upward rate limit f or setpoint changes or ramping [EUs/min] ~PG_MotSpdCL_Ramp.PDL csoIOAnaRampUpMotSpdCL .SP_RmpTarget 1 5 Setpoint ramp target ~PG_MotSpdCL_Ramp.PDL csoIOAnaTargetSPMotSpdCL .FwdMan Forward 1 5 1=Start: Forward Start Command in Manual Mode ~PG_MotSpdCL_Standard.PDL csoBtnCommandMotSpdCL .Rev Man Rev erse 1 5 1=Start: Rev erse Start Command in Manual Mode ~PG_MotSpdCL_Standard.PDL csoBtnCommandMotSpdCL .StopMan Stop 1 5 1=Stop: Stop Command in Manual Mode ~PG_MotSpdCL_Standard.PDL csoBtnCommandMotSpdCL .RapidStp Rapid stop 1 5 1 = Motor Rapid Stop command ~PG_MotSpdCL_Standard.PDL csoBtnCommandMotSpdCL .AutModOp Automatic 1 5 1=Auto Mode: Auto Mode by Operator ~PG_MotSpdCL_Standard.PDL csoBtnModeMotSpdCL .ManModOp Manual 1 5 1=Manual Mode: Manual Mode by Operator ~PG_MotSpdCL_Standard.PDL csoBtnModeMotSpdCL .LocalOp Local 1 5 1=Local Mode: Local Operation by Operator ~PG_MotSpdCL_Standard.PDL csoBtnModeMotSpdCL .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_MotSpdCL_Standard.PDL csoBtnModeMotSpdCL .RstOp Reset 1 5 Operator Reset Signal ~PG_MotSpdCL_Standard.PDL csoBtnResetMotSpdCL .SP_ExtOp External 1 5 Operator Input to Select External Setpoint ~PG_MotSpdCL_Standard.PDL csoBtnSetpointMotSpdCL .SP_IntOp Internal 1 5 Operator Input to Select Internal Setpoint ~PG_MotSpdCL_Standard.PDL csoBtnSetpointMotSpdCL .SimRbk 1 5 Readback v alue used f or SimOn = 1 ~PG_MotSpdCL_Standard.PDL csoIOAnaRbkOutMotSpdCL .SP_Int 1 5 Setpoint (Internal) ~PG_MotSpdCL_Standard.PDL csoIOAnaSPMotSpdCL .AV_AH_Lim 2 6 AV - High Alarm Limit ~PG_MotSpdCL_Limit.PDL csoIOAnaAHMotSpdCL .AV_AL_Lim 2 6 AV - Low Alarm Limit ~PG_MotSpdCL_Limit.PDL csoIOAnaALMotSpdCL .SimAV 1 5 AV Simulation Value, tracks when not in simulation ~PG_MotSpdCL_Limit.PDL csoIOAnaAVMotSpdCL .AV_Hy st 2 6 AV - Hy steresis ~PG_MotSpdCL_Limit.PDL csoIOAnaHy sMotSpdCL .AV_TH_Lim 2 6 AV - High Tolerance Limit ~PG_MotSpdCL_Limit.PDL csoIOAnaTHMotSpdCL .AV_TL_Lim 2 6 AV - Low Tolerance Limit ~PG_MotSpdCL_Limit.PDL csoIOAnaTLMotSpdCL .AV_WH_Lim 2 6 AV - High Warning Limit ~PG_MotSpdCL_Limit.PDL csoIOAnaWHMotSpdCL .AV_WL_Lim 2 6 AV - Low Warning Limit ~PG_MotSpdCL_Limit.PDL csoIOAnaWLMotSpdCL .Monitor On 2 6 1=Monitor ON, 0=Monitor OFF: Feedback Monitor ~PG_MotSpdCL_Parameter.PDL chkMonitor

MotSpdCL .Monitor Of f 2 6 1=Monitor ON, 0=Monitor OFF: Feedback Monitor ~PG_MotSpdCL_Parameter.PDL chkMonitorMotSpdCL .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MotSpdCL_Parameter.PDL csoBtnMaintenanceMotSpdCL .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_MotSpdCL_Parameter.PDL csoBtnMaintenanceMotSpdCL .SimOn On 3 1100 Simulation On/Of f ~PG_MotSpdCL_Parameter.PDL csoBtnSimMotSpdCL .SimOn Of f 3 1100 Simulation On/Of f ~PG_MotSpdCL_Parameter.PDL csoBtnSimMotSpdCL .MonTiDy namic 2 6 Monitoring Time of Feedback [s] ~PG_MotSpdCL_Parameter.PDL csoIOAnaDy nMonTimeMotSpdCL .MonTiStatic 2 6 Monitoring Time of Feedback [s] ~PG_MotSpdCL_Parameter.PDL csoIOAnaStaMonTimeMotSpdCL .Spd1Man Slow 1 5 ~PG_MotSpdCL_Standard.PDL csoBtnCommandMotSpdCL .Spd2Man Fast 1 5 ~PG_MotSpdCL_Standard.PDL csoBtnCommandMotSpdCL .StopMan Stop 1 5 1=Stop: Stop Command in Manual Mode ~PG_MotSpdCL_Standard.PDL csoBtnCommandMotSpdCL .RapidStp Rapid stop 1 5 1 = Motor Rapid Stop command ~PG_MotSpdCL_Standard.PDL csoBtnCommandMotSpdCL .AutModOp Automatic 1 5 1=Auto Mode: Auto Mode by Operator ~PG_MotSpdCL_Standard.PDL csoBtnModeMotSpdCL .ManModOp Manual 1 5 1=Manual Mode: Manual Mode by Operator ~PG_MotSpdCL_Standard.PDL csoBtnModeMotSpdCL .LocalOp Local 1 5 1=Local Mode: Local Operation by Operator ~PG_MotSpdCL_Standard.PDL csoBtnModeMotSpdCL .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_MotSpdCL_Standard.PDL csoBtnModeMotSpdCL .RstOp Reset 1 5 Operator Reset Signal ~PG_MotSpdCL_Standard.PDL csoBtnReset

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameOpAnL .SP_TrkExt On 2 6 1: SP_Int tracks SP_Ext in External ~PG_OpAnL_Parameter.PDL chkBumplessOpAnL .SP_TrkExt Of f 2 6 1: SP_Int tracks SP_Ext in External ~PG_OpAnL_Parameter.PDL chkBumplessOpAnL .SP_RateOn On 1 5 Setpoint changes are rate limited by SP_UpRaLim and SP_DnRaLim ~PG_OpAnL_Ramp.PDL chkRampOnOpAnL .SP_RateOn Of f 1 5 Setpoint changes are rate limited by SP_UpRaLim and SP_DnRaLim ~PG_OpAnL_Ramp.PDL chkRampOnOpAnL .SP_RmpModTime Duration 1 5 1: SP ramped ov er SP_RmpTime, 0: SP ramped by rates SP_UpRaLim, SP_DnRaLim ~PG_OpAnL_Ramp.PDL csoBtnRampModeOpAnL .SP_RmpModTime Gradient 1 5 1: SP ramped ov er SP_RmpTime, 0: SP ramped by rates SP_UpRaLim, SP_DnRaLim ~PG_OpAnL_Ramp.PDL csoBtnRampModeOpAnL .SP_RmpOn Activ e 1 5 Setpoint is ramped to SP_RmpTarget ~PG_OpAnL_Ramp.PDL csoBtnRampOnOpAnL .SP_RmpOn Inactiv e 1 5 Setpoint is ramped to SP_RmpTarget ~PG_OpAnL_Ramp.PDL csoBtnRampOnOpAnL .SP_RmpTime 1 5 Setpoint ramp time [s] ~PG_OpAnL_Ramp.PDL csoIOAnaDurationOpAnL .SP_DnRaLim 1 5 Downward rate limit f or setpoint changes or ramping ~PG_OpAnL_Ramp.PDL csoIOAnaRampDnOpAnL .SP_UpRaLim 1 5 Upward rate limit f or setpoint changes or ramping ~PG_OpAnL_Ramp.PDL csoIOAnaRampUpOpAnL .SP_RmpTarget 1 5 Setpoint ramp target ~PG_OpAnL_Ramp.PDL csoIOAnaTargetSPOpAnL .OnOp On 1 5 1=On Mode: On Mode by Operator ~PG_OpAnL_Standard.PDL csoBtnModeOpAnL .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_OpAnL_Standard.PDL csoBtnModeOpAnL .SP_ExtOp External 1 5 Operator input to select external setpoint ~PG_OpAnL_Standard.PDL csoBtnSetpointOpAnL .SP_IntOp Internal 1 5 Operator input to select internal setpoint ~PG_OpAnL_Standard.PDL csoBtnSetpointOpAnL .PV_In#Value 1 5 Value ~PG_OpAnL_Standard.PDL csoIOAnaPVOpAnL .SP_Int 1 5 Internal Analog setpoint ~PG_OpAnL_Standard.PDL csoIOAnaSP

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameOpDi01 .SetOp On 1 5 Operator Set Signal ~PG_OpDi01_Standard.PDL csoBtnCommandOpDi01 .RstOp Of f 1 5 Operator Reset Signal ~PG_OpDi01_Standard.PDL csoBtnCommandOpDi01 .OnOp On 1 5 1=On Mode: On Mode by Operator ~PG_OpDi01_Standard.PDL csoBtnModeOpDi01 .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_OpDi01_Standard.PDL csoBtnMode

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameOpDi03 .SetOp1 On 1 5 Operator Digital Input 1 ~PG_OpDi03_Standard.PDL csoBtnCommand1OpDi03 .SetOp2 On 1 5 Operator Digital Input 2 ~PG_OpDi03_Standard.PDL csoBtnCommand2

OpDi03 .SetOp3 On 1 5 Operator Digital Input 3 ~PG_OpDi03_Standard.PDL csoBtnCommand3OpDi03 .OnOp On 1 5 1=On Mode: On Mode by Operator ~PG_OpDi03_Standard.PDL csoBtnModeOpDi03 .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_OpDi03_Standard.PDL csoBtnMode

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameOpStations .In0 Enable 3 1100 1='Enable operator station 1 ~PG_OpStations_Standard.PDL csoChkBoxIn0OpStations .In0 Disable 3 1100 1='Enable operator station 1 ~PG_OpStations_Standard.PDL csoChkBoxIn0OpStations .In1 Enable 3 1100 1='Enable operator station 2 ~PG_OpStations_Standard.PDL csoChkBoxIn1OpStations .In1 Disable 3 1100 1='Enable operator station 2 ~PG_OpStations_Standard.PDL csoChkBoxIn1OpStations .In10 Enable 3 1100 1='Enable operator station 11 ~PG_OpStations_Standard.PDL csoChkBoxIn10OpStations .In10 Disable 3 1100 1='Enable operator station 11 ~PG_OpStations_Standard.PDL csoChkBoxIn10OpStations .In11 Enable 3 1100 1='Enable operator station 12 ~PG_OpStations_Standard.PDL csoChkBoxIn11OpStations .In11 Disable 3 1100 1='Enable operator station 12 ~PG_OpStations_Standard.PDL csoChkBoxIn11OpStations .In12 Enable 3 1100 1='Enable operator station 13 ~PG_OpStations_Standard.PDL csoChkBoxIn12OpStations .In12 Disable 3 1100 1='Enable operator station 13 ~PG_OpStations_Standard.PDL csoChkBoxIn12OpStations .In13 Enable 3 1100 1='Enable operator station 14 ~PG_OpStations_Standard.PDL csoChkBoxIn13OpStations .In13 Disable 3 1100 1='Enable operator station 14 ~PG_OpStations_Standard.PDL csoChkBoxIn13OpStations .In14 Enable 3 1100 1='Enable operator station 15 ~PG_OpStations_Standard.PDL csoChkBoxIn14OpStations .In14 Disable 3 1100 1='Enable operator station 15 ~PG_OpStations_Standard.PDL csoChkBoxIn14OpStations .In15 Enable 3 1100 1='Enable operator station 16 ~PG_OpStations_Standard.PDL csoChkBoxIn15OpStations .In15 Disable 3 1100 1='Enable operator station 16 ~PG_OpStations_Standard.PDL csoChkBoxIn15OpStations .In2 Enable 3 1100 1='Enable operator station 3 ~PG_OpStations_Standard.PDL csoChkBoxIn2OpStations .In2 Disable 3 1100 1='Enable operator station 3 ~PG_OpStations_Standard.PDL csoChkBoxIn2OpStations .In3 Enable 3 1100 1='Enable operator station 4 ~PG_OpStations_Standard.PDL csoChkBoxIn3OpStations .In3 Disable 3 1100 1='Enable operator station 4 ~PG_OpStations_Standard.PDL csoChkBoxIn3OpStations .In4 Enable 3 1100 1='Enable operator station 5 ~PG_OpStations_Standard.PDL csoChkBoxIn4OpStations .In4 Disable 3 1100 1='Enable operator station 5 ~PG_OpStations_Standard.PDL csoChkBoxIn4OpStations .In5 Enable 3 1100 1='Enable operator station 6 ~PG_OpStations_Standard.PDL csoChkBoxIn5OpStations .In5 Disable 3 1100 1='Enable operator station 6 ~PG_OpStations_Standard.PDL csoChkBoxIn5OpStations .In6 Enable 3 1100 1='Enable operator station 7 ~PG_OpStations_Standard.PDL csoChkBoxIn6OpStations .In6 Disable 3 1100 1='Enable operator station 7 ~PG_OpStations_Standard.PDL csoChkBoxIn6OpStations .In7 Enable 3 1100 1='Enable operator station 8 ~PG_OpStations_Standard.PDL csoChkBoxIn7OpStations .In7 Disable 3 1100 1='Enable operator station 8 ~PG_OpStations_Standard.PDL csoChkBoxIn7OpStations .In8 Enable 3 1100 1='Enable operator station 9 ~PG_OpStations_Standard.PDL csoChkBoxIn8OpStations .In8 Disable 3 1100 1='Enable operator station 9 ~PG_OpStations_Standard.PDL csoChkBoxIn8OpStations .In9 Enable 3 1100 1='Enable operator station 10 ~PG_OpStations_Standard.PDL csoChkBoxIn9OpStations .In9 Disable 3 1100 1='Enable operator station 10 ~PG_OpStations_Standard.PDL csoChkBoxIn9

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameOpTrig .OnOp On 1 5 1=On Mode: On Mode by Operator ~PG_OpTrig_Standard.PDL csoBtnModeOpTrig .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_OpTrig_Standard.PDL csoBtnModeOpTrig .InOp Set 1 5 Operator Binary Input ~PG_OpTrig_Standard.PDL csoBtnReset

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNamePIDConL .PV_AH_Lim 2 6 PV alarm high limit ~PG_PIDConL_Limit.PDL csoIOAnaAHPIDConL .PV_AL_Lim 2 6 PV alarm low limit ~PG_PIDConL_Limit.PDL csoIOAnaAL

PIDConL .ER_AH_Lim 2 6 ER alarm high limit ~PG_PIDConL_Limit.PDL csoIOAnaErrHPIDConL .ER_Hy st 2 6 Hy steresis f or ER alarms ~PG_PIDConL_Limit.PDL csoIOAnaErrHy sPIDConL .ER_AL_Lim 2 6 ER alarm low limit ~PG_PIDConL_Limit.PDL csoIOAnaErrLPIDConL .PV_Hy st 2 6 Hy steresis f or PV alarms, warnings and tolerance messages ~PG_PIDConL_Limit.PDL csoIOAnaHy sPIDConL .ManHiLim 2 6 High limit f or manipulated v ariable in manual mode ~PG_PIDConL_Limit.PDL csoIOAnaMVHPIDConL .ManLoLim 2 6 Low limit f or manipulated v ariable in manual mode ~PG_PIDConL_Limit.PDL csoIOAnaMVLPIDConL .RbkWH_Lim 2 6 Rbk warning high limit ~PG_PIDConL_Limit.PDL csoIOAnaRbkHPIDConL .RbkHy st 2 6 Hy steresis f or Rbk warnings ~PG_PIDConL_Limit.PDL csoIOAnaRbkHy sPIDConL .RbkWL_Lim 2 6 Rbk warning low limit ~PG_PIDConL_Limit.PDL csoIOAnaRbkLPIDConL .SP_InHiLim 2 6 High limit of internal setpoint ~PG_PIDConL_Limit.PDL csoIOAnaSPHPIDConL .SP_InLoLim 2 6 Low limit of internal setpoint ~PG_PIDConL_Limit.PDL csoIOAnaSPLPIDConL .PV_TH_Lim 2 6 PV tolerance message high limit ~PG_PIDConL_Limit.PDL csoIOAnaTHPIDConL .PV_TL_Lim 2 6 PV tolerance message low limit ~PG_PIDConL_Limit.PDL csoIOAnaTLPIDConL .PV_WH_Lim 2 6 PV warning high limit ~PG_PIDConL_Limit.PDL csoIOAnaWHPIDConL .PV_WL_Lim 2 6 PV warning low limit ~PG_PIDConL_Limit.PDL csoIOAnaWLPIDConL .MS_RelOp Yes 3 1100 1 = Release f or maintenance by operator ~PG_PIDConL_Parameter.PDL csoBtnMaintPIDConL .MS_RelOp No 3 1100 1 = Release f or maintenance by operator ~PG_PIDConL_Parameter.PDL csoBtnMaintPIDConL .SimOn On 3 1100 1 = Simulation activ ated ~PG_PIDConL_Parameter.PDL csoBtnSimuPIDConL .SimOn Of f 3 1100 1 = Simulation activ ated ~PG_PIDConL_Parameter.PDL csoBtnSimuPIDConL .OptimEn On 2 6 1 = Enable optimization of PID parameters by PID tuner ~PG_PIDConL_Parameter.PDL csoChkBoxOptiPIDConL .OptimEn Of f 2 6 1 = Enable optimization of PID parameters by PID tuner ~PG_PIDConL_Parameter.PDL csoChkBoxOptiPIDConL .SP_TrkPV On 2 6 1 = Setpoint f ollows PV in manual mode and in tracking ~PG_PIDConL_Parameter.PDL csoChkBoxPVTrkPIDConL .SP_TrkPV Of f 2 6 1 = Setpoint f ollows PV in manual mode and in tracking ~PG_PIDConL_Parameter.PDL csoChkBoxPVTrkPIDConL .SP_TrkExt On 2 6 1 = Bumpless switchov er f rom external to internal setpoint activ e ~PG_PIDConL_Parameter.PDL csoChkBoxSPTrkPIDConL .SP_TrkExt Of f 2 6 1 = Bumpless switchov er f rom external to internal setpoint activ e ~PG_PIDConL_Parameter.PDL csoChkBoxSPTrkPIDConL .DeadBand 2 6 Width of deadband ~PG_PIDConL_Parameter.PDL csoIOAnaDeadBPIDConL .Gain#Value 2 6 Value ~PG_PIDConL_Parameter.PDL csoIOAnaGainPIDConL .Dif f Gain#Value 2 6 Value ~PG_PIDConL_Parameter.PDL csoIOAnaGainDPIDConL .TD#Value 2 6 Value ~PG_PIDConL_Parameter.PDL csoIOAnaTDPIDConL .TI#Value 2 6 Value ~PG_PIDConL_Parameter.PDL csoIOAnaTIPIDConL .ConZone 2 6 Width of control zone ~PG_PIDConL_Parameter.PDL csoIOAnaZoneCPIDConL .SP_RmpOn Activ e 1 5 1= Activ ate setpoint ramp to target setpoint SP_RmpTarget ~PG_PIDConL_Ramp.PDL csoBtnRampPIDConL .SP_RmpOn Inactiv e 1 5 1= Activ ate setpoint ramp to target setpoint SP_RmpTarget ~PG_PIDConL_Ramp.PDL csoBtnRampPIDConL .SP_RmpModTime Duration 1 5 1= Use time (SP_RmpTime) f or ramp, 0= Use rates SP_UpRaLim, SP_DnRaLim ~PG_PIDConL_Ramp.PDL csoBtnRampModePIDConL .SP_RmpModTime Gradient 1 5 1= Use time (SP_RmpTime) f or ramp, 0= Use rates SP_UpRaLim, SP_DnRaLim ~PG_PIDConL_Ramp.PDL csoBtnRampModePIDConL .SP_RateOn On 1 5 1= Activ ate limitation of setpoint gradients by SP_UpRaLim and SP_DnRaLim ~PG_PIDConL_Ramp.PDL csoChkBoxGrdPIDConL .SP_RateOn Of f 1 5 1= Activ ate limitation of setpoint gradients by SP_UpRaLim and SP_DnRaLim ~PG_PIDConL_Ramp.PDL csoChkBoxGrdPIDConL .SP_RmpTime 1 5 Time f or setpoint ramp [s] f rom current SP up to SP_RmpTarget ~PG_PIDConL_Ramp.PDL csoIOAnaDurationPIDConL .SP_DnRaLim 1 5 Downward rate limit of setpoint [PV_Unit/s] ~PG_PIDConL_Ramp.PDL csoIOAnaGrdDownPIDConL .SP_UpRaLim 1 5 Upward rate limit of setpoint [PV_Unit/s] ~PG_PIDConL_Ramp.PDL csoIOAnaGrdUpPIDConL .SP_RmpTarget 1 5 Target setpoint f or setpoint ramp ~PG_PIDConL_Ramp.PDL csoIOAnaTargetSPPIDConL .AutModOp Automatic 1 5 1 = Automatic mode by operator (controlled by ModLiOp = 0) ~PG_PIDConL_Standard.PDL csoBtnModePIDConL .ManModOp Manual 1 5 1 = Manual mode by operator (controlled by ModLiOp = 0) ~PG_PIDConL_Standard.PDL csoBtnModePIDConL .Adv CoOn Program 1 5 1 = Enable program mode v ia f aceplate ~PG_PIDConL_Standard.PDL csoBtnModePIDConL .OosOp Out of serv ice 2 6 1 = Out of serv ice by OS operation ~PG_PIDConL_Standard.PDL csoBtnModePIDConL .SP_ExtOp External 1 5 1 = Select external setpoint (v ia operator) ~PG_PIDConL_Standard.PDL csoBtnSPMode

PIDConL .SP_IntOp Internal 1 5 1 = Select internal setpoint (v ia operator) ~PG_PIDConL_Standard.PDL csoBtnSPModePIDConL .Man 1 5 Operator input f or manual setting of manipulated v ariable MV ~PG_PIDConL_Standard.PDL csoIOAnaMVPIDConL .SimPV 1 5 Process v alue used f or SimOn = 1 ~PG_PIDConL_Standard.PDL csoIOAnaPVPIDConL .SimRbk 1 5 Readback v alue used f or SimOn = 1 ~PG_PIDConL_Standard.PDL csoIOAnaRbkPIDConL .SP_Int 1 5 Internal setpoint f or operation ~PG_PIDConL_Standard.PDL csoIOAnaSP

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNamePIDConR .PV_AH_Lim 2 6 PV alarm high limit ~PG_PIDConR_Limit.PDL csoIOAnaAHPIDConR .PV_AL_Lim 2 6 PV alarm low limit ~PG_PIDConR_Limit.PDL csoIOAnaALPIDConR .ER_AH_Lim 2 6 ER alarm high limit ~PG_PIDConR_Limit.PDL csoIOAnaErrHPIDConR .ER_Hy st 2 6 Hy steresis f or ER alarms ~PG_PIDConR_Limit.PDL csoIOAnaErrHy sPIDConR .ER_AL_Lim 2 6 ER alarm low limit ~PG_PIDConR_Limit.PDL csoIOAnaErrLPIDConR .PV_Hy st 2 6 Hy steresis f or PV alarms, warnings and tolerance messages ~PG_PIDConR_Limit.PDL csoIOAnaHy sPIDConR .ManHiLim 2 6 High limit f or manipulated v ariable in manual mode ~PG_PIDConR_Limit.PDL csoIOAnaMVHPIDConR .ManLoLim 2 6 Low limit f or manipulated v ariable in manual mode ~PG_PIDConR_Limit.PDL csoIOAnaMVLPIDConR .RbkWH_Lim 2 6 Rbk warning high limit ~PG_PIDConR_Limit.PDL csoIOAnaRbkHPIDConR .RbkHy st 2 6 Hy steresis f or Rbk warnings ~PG_PIDConR_Limit.PDL csoIOAnaRbkHy sPIDConR .RbkWL_Lim 2 6 Rbk warning low limit ~PG_PIDConR_Limit.PDL csoIOAnaRbkLPIDConR .SP_InHiLim 2 6 High limit of internal setpoint ~PG_PIDConR_Limit.PDL csoIOAnaSPHPIDConR .SP_InLoLim 2 6 Low limit of internal setpoint ~PG_PIDConR_Limit.PDL csoIOAnaSPLPIDConR .PV_TH_Lim 2 6 PV tolerance message high limit ~PG_PIDConR_Limit.PDL csoIOAnaTHPIDConR .PV_TL_Lim 2 6 PV tolerance message low limit ~PG_PIDConR_Limit.PDL csoIOAnaTLPIDConR .PV_WH_Lim 2 6 PV warning high limit ~PG_PIDConR_Limit.PDL csoIOAnaWHPIDConR .PV_WL_Lim 2 6 PV warning low limit ~PG_PIDConR_Limit.PDL csoIOAnaWLPIDConR .MS_RelOp Yes 3 1100 1 = Release f or maintenance by operator ~PG_PIDConR_Parameter.PDL csoBtnMaintPIDConR .MS_RelOp No 3 1100 1 = Release f or maintenance by operator ~PG_PIDConR_Parameter.PDL csoBtnMaintPIDConR .SimOn On 3 1100 1 = Simulation activ ated ~PG_PIDConR_Parameter.PDL csoBtnSimuPIDConR .SimOn Of f 3 1100 1 = Simulation activ ated ~PG_PIDConR_Parameter.PDL csoBtnSimuPIDConR .OptimEn On 2 6 1 = Enable optimization of PID parameters by PID tuner ~PG_PIDConR_Parameter.PDL csoChkBoxOptiPIDConR .OptimEn Of f 2 6 1 = Enable optimization of PID parameters by PID tuner ~PG_PIDConR_Parameter.PDL csoChkBoxOptiPIDConR .SP_TrkPV On 2 6 1 = Setpoint f ollows PV in manual mode and in tracking ~PG_PIDConR_Parameter.PDL csoChkBoxPVTrkPIDConR .SP_TrkPV Of f 2 6 1 = Setpoint f ollows PV in manual mode and in tracking ~PG_PIDConR_Parameter.PDL csoChkBoxPVTrkPIDConR .SP_TrkExt On 2 6 1 = Bumpless switchov er f rom external to internal setpoint activ e ~PG_PIDConR_Parameter.PDL csoChkBoxSPTrkPIDConR .SP_TrkExt Of f 2 6 1 = Bumpless switchov er f rom external to internal setpoint activ e ~PG_PIDConR_Parameter.PDL csoChkBoxSPTrkPIDConR .DeadBand 2 6 Width of deadband ~PG_PIDConR_Parameter.PDL csoIOAnaDeadBPIDConR .Gain#Value 2 6 Value ~PG_PIDConR_Parameter.PDL csoIOAnaGainPIDConR .Dif f Gain#Value 2 6 Value ~PG_PIDConR_Parameter.PDL csoIOAnaGainDPIDConR .TD#Value 2 6 Value ~PG_PIDConR_Parameter.PDL csoIOAnaTDPIDConR .TI#Value 2 6 Value ~PG_PIDConR_Parameter.PDL csoIOAnaTIPIDConR .SP_RmpOn Activ e 1 5 1= Activ ate setpoint ramp to target setpoint SP_RmpTarget ~PG_PIDConR_Ramp.PDL csoBtnRampPIDConR .SP_RmpOn Inactiv e 1 5 1= Activ ate setpoint ramp to target setpoint SP_RmpTarget ~PG_PIDConR_Ramp.PDL csoBtnRampPIDConR .SP_RmpModTime Duration 1 5 1= Use time (SP_RmpTime) f or ramp, 0= Use rates SP_UpRaLim, SP_DnRaLim ~PG_PIDConR_Ramp.PDL csoBtnRampModePIDConR .SP_RmpModTime Gradient 1 5 1= Use time (SP_RmpTime) f or ramp, 0= Use rates SP_UpRaLim, SP_DnRaLim ~PG_PIDConR_Ramp.PDL csoBtnRampModePIDConR .SP_RateOn On 1 5 1= Activ ate limitation of setpoint gradients by SP_UpRaLim and SP_DnRaLim ~PG_PIDConR_Ramp.PDL csoChkBoxGrdPIDConR .SP_RateOn Of f 1 5 1= Activ ate limitation of setpoint gradients by SP_UpRaLim and SP_DnRaLim ~PG_PIDConR_Ramp.PDL csoChkBoxGrdPIDConR .SP_RmpTime 1 5 Time f or setpoint ramp [s] f rom current SP up to SP_RmpTarget ~PG_PIDConR_Ramp.PDL csoIOAnaDuration

PIDConR .SP_DnRaLim 1 5 Downward rate limit of setpoint [PV_Unit/s] ~PG_PIDConR_Ramp.PDL csoIOAnaGrdDownPIDConR .SP_UpRaLim 1 5 Upward rate limit of setpoint [PV_Unit/s] ~PG_PIDConR_Ramp.PDL csoIOAnaGrdUpPIDConR .SP_RmpTarget 1 5 Target setpoint f or setpoint ramp ~PG_PIDConR_Ramp.PDL csoIOAnaTargetSPPIDConR .AutModOp Automatic 1 5 1 = Automatic mode by operator ~PG_PIDConR_Standard.PDL csoBtnModePIDConR .ManModOp Manual 1 5 1 = Manual mode by operator ~PG_PIDConR_Standard.PDL csoBtnModePIDConR .OosOp Out of serv ice 2 6 1 = Out of serv ice by OS operation ~PG_PIDConR_Standard.PDL csoBtnModePIDConR .Adv CoOn Program 1 5 1 = Enable program mode v ia f aceplate ~PG_PIDConR_Standard.PDL csoBtnModePIDConR .SP_ExtOp External 1 5 1 = Select external setpoint (v ia operator) ~PG_PIDConR_Standard.PDL csoBtnSPModePIDConR .SP_IntOp Internal 1 5 1 = Select internal setpoint (v ia operator) ~PG_PIDConR_Standard.PDL csoBtnSPModePIDConR .Man 1 5 Operator input f or manual setting of manipulated v ariable MV ~PG_PIDConR_Standard.PDL csoIOAnaMVPIDConR .SimPV 1 5 Process v alue used f or SimOn = 1 ~PG_PIDConR_Standard.PDL csoIOAnaPVPIDConR .SimRbk 1 5 Readback v alue used f or SimOn = 1 ~PG_PIDConR_Standard.PDL csoIOAnaRbkPIDConR .SP_Int 1 5 Internal setpoint f or operation ~PG_PIDConR_Standard.PDL csoIOAnaSP

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNamePIDStepL .PV_AH_Lim 2 6 PV alarm high limit ~PG_PIDStepL_Limit.PDL csoIOAnaAHPIDStepL .PV_AL_Lim 2 6 PV alarm low limit ~PG_PIDStepL_Limit.PDL csoIOAnaALPIDStepL .ER_AH_Lim 2 6 ER alarm high limit ~PG_PIDStepL_Limit.PDL csoIOAnaErrHPIDStepL .ER_Hy st 2 6 Hy steresis f or ER alarms ~PG_PIDStepL_Limit.PDL csoIOAnaErrHy sPIDStepL .ER_AL_Lim 2 6 ER alarm low limit ~PG_PIDStepL_Limit.PDL csoIOAnaErrLPIDStepL .PV_Hy st 2 6 Hy steresis f or PV alarms, warnings and tolerance messages ~PG_PIDStepL_Limit.PDL csoIOAnaHy sPIDStepL .ManHiLim 2 6 High limit f or manipulated v ariable in manual mode ~PG_PIDStepL_Limit.PDL csoIOAnaMVHPIDStepL .ManLoLim 2 6 Low limit f or manipulated v ariable in manual mode ~PG_PIDStepL_Limit.PDL csoIOAnaMVLPIDStepL .RbkWH_Lim 2 6 Rbk warning high limit ~PG_PIDStepL_Limit.PDL csoIOAnaRbkHPIDStepL .RbkHy st 2 6 Hy steresis f or Rbk warnings ~PG_PIDStepL_Limit.PDL csoIOAnaRbkHy sPIDStepL .RbkWL_Lim 2 6 Rbk warning low limit ~PG_PIDStepL_Limit.PDL csoIOAnaRbkLPIDStepL .SP_InHiLim 2 6 High limit of internal setpoint ~PG_PIDStepL_Limit.PDL csoIOAnaSPHPIDStepL .SP_InLoLim 2 6 Low limit of internal setpoint ~PG_PIDStepL_Limit.PDL csoIOAnaSPLPIDStepL .PV_TH_Lim 2 6 PV tolerance message high limit ~PG_PIDStepL_Limit.PDL csoIOAnaTHPIDStepL .PV_TL_Lim 2 6 PV tolerance message low limit ~PG_PIDStepL_Limit.PDL csoIOAnaTLPIDStepL .PV_WH_Lim 2 6 PV warning high limit ~PG_PIDStepL_Limit.PDL csoIOAnaWHPIDStepL .PV_WL_Lim 2 6 PV warning low limit ~PG_PIDStepL_Limit.PDL csoIOAnaWLPIDStepL .MS_RelOp Yes 3 1100 1 = Release f or maintenance by operator ~PG_PIDStepL_Parameter.PDL csoBtnMaintPIDStepL .MS_RelOp No 3 1100 1 = Release f or maintenance by operator ~PG_PIDStepL_Parameter.PDL csoBtnMaintPIDStepL .SimOn On 3 1100 1 = Simulation activ ated ~PG_PIDStepL_Parameter.PDL csoBtnSimuPIDStepL .SimOn Of f 3 1100 1 = Simulation activ ated ~PG_PIDStepL_Parameter.PDL csoBtnSimuPIDStepL .OptimEn On 2 6 1 = Enable optimization of PID parameters by PID tuner ~PG_PIDStepL_Parameter.PDL csoChkBoxOptiPIDStepL .OptimEn Of f 2 6 1 = Enable optimization of PID parameters by PID tuner ~PG_PIDStepL_Parameter.PDL csoChkBoxOptiPIDStepL .SP_TrkPV On 2 6 1 = Setpoint f ollows PV in manual mode and in tracking ~PG_PIDStepL_Parameter.PDL csoChkBoxPVTrkPIDStepL .SP_TrkPV Of f 2 6 1 = Setpoint f ollows PV in manual mode and in tracking ~PG_PIDStepL_Parameter.PDL csoChkBoxPVTrkPIDStepL .SP_TrkExt On 2 6 1 = Bumpless switchov er f rom external to internal setpoint activ e ~PG_PIDStepL_Parameter.PDL csoChkBoxSPTrkPIDStepL .SP_TrkExt Of f 2 6 1 = Bumpless switchov er f rom external to internal setpoint activ e ~PG_PIDStepL_Parameter.PDL csoChkBoxSPTrkPIDStepL .BreakTime 2 6 Minimum Break Time [s] ~PG_PIDStepL_Parameter.PDL csoIOAnaBreakTPIDStepL .DeadBand 2 6 Width of deadband ~PG_PIDStepL_Parameter.PDL csoIOAnaDeadBPIDStepL .Gain#Value 2 6 Value ~PG_PIDStepL_Parameter.PDL csoIOAnaGainPIDStepL .Dif f Gain#Value 2 6 Value ~PG_PIDStepL_Parameter.PDL csoIOAnaGainD

PIDStepL .MotorTime 2 6 Motor Actuating Time [s] ~PG_PIDStepL_Parameter.PDL csoIOAnaMotorTPIDStepL .PulseTime 2 6 Minimum Pulse Time [s] ~PG_PIDStepL_Parameter.PDL csoIOAnaPulseTPIDStepL .TD#Value 2 6 Value ~PG_PIDStepL_Parameter.PDL csoIOAnaTDPIDStepL .TI#Value 2 6 Value ~PG_PIDStepL_Parameter.PDL csoIOAnaTIPIDStepL .SP_RmpOn Activ e 1 5 1= Activ ate setpoint ramp to target setpoint SP_RmpTarget ~PG_PIDStepL_Ramp.PDL csoBtnRampPIDStepL .SP_RmpOn Inactiv e 1 5 1= Activ ate setpoint ramp to target setpoint SP_RmpTarget ~PG_PIDStepL_Ramp.PDL csoBtnRampPIDStepL .SP_RmpModTime Duration 1 5 1= Use time (SP_RmpTime) f or ramp, 0= Use rates SP_UpRaLim, SP_DnRaLim ~PG_PIDStepL_Ramp.PDL csoBtnRampModePIDStepL .SP_RmpModTime Gradient 1 5 1= Use time (SP_RmpTime) f or ramp, 0= Use rates SP_UpRaLim, SP_DnRaLim ~PG_PIDStepL_Ramp.PDL csoBtnRampModePIDStepL .SP_RateOn On 1 5 1= Activ ate limitation of setpoint gradients by SP_UpRaLim and SP_DnRaLim ~PG_PIDStepL_Ramp.PDL csoChkBoxGrdPIDStepL .SP_RateOn Of f 1 5 1= Activ ate limitation of setpoint gradients by SP_UpRaLim and SP_DnRaLim ~PG_PIDStepL_Ramp.PDL csoChkBoxGrdPIDStepL .SP_RmpTime 1 5 Time f or setpoint ramp [s] f rom current SP up to SP_RmpTarget ~PG_PIDStepL_Ramp.PDL csoIOAnaDurationPIDStepL .SP_DnRaLim 1 5 Downward rate limit of setpoint [PV_Unit/s] ~PG_PIDStepL_Ramp.PDL csoIOAnaGrdDownPIDStepL .SP_UpRaLim 1 5 Upward rate limit of setpoint [PV_Unit/s] ~PG_PIDStepL_Ramp.PDL csoIOAnaGrdUpPIDStepL .SP_RmpTarget 1 5 Target setpoint f or setpoint ramp ~PG_PIDStepL_Ramp.PDL csoIOAnaTargetSPPIDStepL .OpenOp Open 1 5 Manual Signal Open by Operation ~PG_PIDStepL_Standard.PDL csoBtnManipSignalsPIDStepL .CloseOp Close 1 5 Manual Signal Close by Operation ~PG_PIDStepL_Standard.PDL csoBtnManipSignalsPIDStepL .StopOp Stop 1 5 Manual Signal Stop by Operation ~PG_PIDStepL_Standard.PDL csoBtnManipSignalsPIDStepL .AutModOp Automatic 1 5 1 = Automatic mode by operator (controlled by ModLiOp = 0) ~PG_PIDStepL_Standard.PDL csoBtnModePIDStepL .ManModOp Manual 1 5 1 = Manual mode by operator (controlled by ModLiOp = 0) ~PG_PIDStepL_Standard.PDL csoBtnModePIDStepL .Adv CoOn Program 1 5 1 = Enable program mode v ia f aceplate ~PG_PIDStepL_Standard.PDL csoBtnModePIDStepL .OosOp Out of serv ice 2 6 1 = Out of serv ice by OS operation ~PG_PIDStepL_Standard.PDL csoBtnModePIDStepL .SP_ExtOp External 1 5 1 = Select external setpoint (v ia operator) ~PG_PIDStepL_Standard.PDL csoBtnSPModePIDStepL .SP_IntOp Internal 1 5 1 = Select internal setpoint (v ia operator) ~PG_PIDStepL_Standard.PDL csoBtnSPModePIDStepL .Man 1 5 Operator input f or manual setting of manipulated v ariable MV ~PG_PIDStepL_Standard.PDL csoIOAnaMVPIDStepL .SimPV 1 5 Process v alue used f or SimOn = 1 ~PG_PIDStepL_Standard.PDL csoIOAnaPVPIDStepL .SimRbk 1 5 Readback v alue used f or SimOn = 1 ~PG_PIDStepL_Standard.PDL csoIOAnaRbkPIDStepL .SP_Int 1 5 Internal setpoint f or operation ~PG_PIDStepL_Standard.PDL csoIOAnaSP

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameRatio .RatTrkExt On 2 6 Bumpless Transf er f rom External to Internal ~PG_Ratio_Parameter.PDL chkBumplessRatio .RatTrkExt Of f 2 6 Bumpless Transf er f rom External to Internal ~PG_Ratio_Parameter.PDL chkBumplessRatio .SimOn On 3 1100 Simulation On/Of f ~PG_Ratio_Parameter.PDL csoBtnSimRatio .SimOn Of f 3 1100 Simulation On/Of f ~PG_Ratio_Parameter.PDL csoBtnSimRatio .OutHiLim 2 6 Out High Limit ~PG_Ratio_Parameter.PDL csoIOAnaOutHiLimRatio .OutLoLim 2 6 Out Low Limit ~PG_Ratio_Parameter.PDL csoIOAnaOutLoLimRatio .RatHiLim 2 6 Ratio High Limit ~PG_Ratio_Parameter.PDL csoIOAnaRatioHiLimRatio .RatLoLim 2 6 Ratio Low Limit ~PG_Ratio_Parameter.PDL csoIOAnaRatioLoLimRatio .OnOp On 1 5 1=On Mode: On Mode by Operator ~PG_Ratio_Standard.PDL csoBtnModeRatio .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_Ratio_Standard.PDL csoBtnModeRatio .RatExtOp External 1 5 Operator Input to Select External Ratio ~PG_Ratio_Standard.PDL csoBtnSetpointRatio .RatIntOp Internal 1 5 Operator Input to Select Internal Ratio ~PG_Ratio_Standard.PDL csoBtnSetpointRatio .SimIn 1 5 In Simulation Value, tracks when not in simulation ~PG_Ratio_Standard.PDL csoIOAnaInRatio .RatioInt 1 5 Ratio (Internal) ~PG_Ratio_Standard.PDL csoIOAnaOf f setRatio .Out#Value 1 5 Value ~PG_Ratio_Standard.PDL csoIOAnaOutRatio .RatioPV#Value 1 5 Value ~PG_Ratio_Standard.PDL csoIOAnaRatioPVRatio .RatioInt 1 5 Ratio (Internal) ~PG_Ratio_Standard.PDL csoIOAnaSP

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameSelA16In .OnOp On 1 5 1=On Mode: On Mode by Operator ~PG_SelA16In_Standard.PDL csoBtnModeSelA16In .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_SelA16In_Standard.PDL csoBtnModeSelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel1SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel10SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel11SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel12SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel13SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel14SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel15SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel16SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel2SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel3SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel4SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel5SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel6SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel7SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel8SelA16In .SelInt Select 1 5 Select v ia operator input; 1 = select In01; 16 = select In16 ~PG_SelA16In_Standard.PDL csoBtnSel9

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameTotalL .OutAH_Lim 2 6 Out Value High Alarm Limit ~PG_TotalL_Limit.PDL csoIOAnaAHTotalL .OutAL_Lim 2 6 Out Value Low Alarm Limit ~PG_TotalL_Limit.PDL csoIOAnaALTotalL .OutTH_Lim 2 6 Out Value High Tolerance Limit ~PG_TotalL_Limit.PDL csoIOAnaTHTotalL .OutTL_Lim 2 6 Out Value Low Tolerance Limit ~PG_TotalL_Limit.PDL csoIOAnaTLTotalL .OutWH_Lim 2 6 Out Value High Warning Limit ~PG_TotalL_Limit.PDL csoIOAnaWHTotalL .OutWL_Lim 2 6 Out Value Low Warning Limit ~PG_TotalL_Limit.PDL csoIOAnaWLTotalL .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_TotalL_Parameter.PDL csoBtnMaintenanceTotalL .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_TotalL_Parameter.PDL csoBtnMaintenanceTotalL .SimOn On 3 1100 1 = Simulation activ ated ~PG_TotalL_Parameter.PDL csoBtnSimTotalL .SimOn Of f 3 1100 1 = Simulation activ ated ~PG_TotalL_Parameter.PDL csoBtnSimTotalL .Decr#Value 2 6 Value ~PG_TotalL_Parameter.PDL csoIOAnaDecrTotalL .Incr#Value 2 6 Value ~PG_TotalL_Parameter.PDL csoIOAnaIncrTotalL .PresetVal#Value 2 6 Value ~PG_TotalL_Parameter.PDL csoIOAnaPresetValTotalL .TI 2 6 Integral Time Constant [s] ~PG_TotalL_Parameter.PDL csoIOAnaTITotalL .UpOp Up 1 5 1 = Up Totaliser ~PG_TotalL_Standard.PDL csoBtnCommandTotalL .DnOp Down 1 5 1 = Down Totaliser ~PG_TotalL_Standard.PDL csoBtnCommandTotalL .Of f Op Of f 1 5 Totaliser Of f by Operator: 1 = Totaliser is Of f ~PG_TotalL_Standard.PDL csoBtnCommandTotalL .OnOp On 1 5 1=On Mode: On Mode by Operator ~PG_TotalL_Standard.PDL csoBtnModeTotalL .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_TotalL_Standard.PDL csoBtnModeTotalL .RstOp Preset 1 5 1 = Reset Calculation Process ~PG_TotalL_Standard.PDL csoBtnResetTotalL .SimOut 1 5 Process v alue used f or SimOn = 1 ~PG_TotalL_Standard.PDL csoIOAnaOut

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameVlv 2Way L .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_Vlv 2Way L_Parameter.PDL csoBtnMaint

Vlv 2Way L .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_Vlv 2Way L_Parameter.PDL csoBtnMaintVlv 2Way L .SimOn On 3 1100 Simulation on/of f ~PG_Vlv 2Way L_Parameter.PDL csoBtnSimuVlv 2Way L .SimOn Of f 3 1100 Simulation on/of f ~PG_Vlv 2Way L_Parameter.PDL csoBtnSimuVlv 2Way L .Monitor On 2 6 1=Monitor ON, 0=Monitor OFF: Feedback monitor ~PG_Vlv 2Way L_Parameter.PDL csoChkBoxMonVlv 2Way L .Monitor Of f 2 6 1=Monitor ON, 0=Monitor OFF: Feedback monitor ~PG_Vlv 2Way L_Parameter.PDL csoChkBoxMonVlv 2Way L .MonTiP0Dy namic 2 6 Monitoring time f or expected change of f eedback position 0 [s] ~PG_Vlv 2Way L_Parameter.PDL csoIOAnaControlMonP0Vlv 2Way L .MonTiV0Dy namic 2 6 Monitoring time f or expected change of f eedback FbkV0 [s] ~PG_Vlv 2Way L_Parameter.PDL csoIOAnaControlMonV0Vlv 2Way L .MonTiV1Dy namic 2 6 Monitoring time f or expected change of f eedback FbkV1 [s] ~PG_Vlv 2Way L_Parameter.PDL csoIOAnaControlMonV1Vlv 2Way L .MonTiV2Dy namic 2 6 Monitoring time f or expected change of f eedback FbkV2 [s] ~PG_Vlv 2Way L_Parameter.PDL csoIOAnaControlMonV2Vlv 2Way L .MonTiStatic 2 6 Monitoring time f or unexpected change in any f eedback [s] ~PG_Vlv 2Way L_Parameter.PDL csoIOAnaRuntimeMonVlv 2Way L .Pos0Man Pos0 1 5 1=Pos0: Position 0 command in manual mode. ~PG_Vlv 2Way L_Standard.PDL csoBtnCommandVlv 2Way L .Pos1Man Pos1 1 5 1=Pos1: Position 1 command in manual mode. ~PG_Vlv 2Way L_Standard.PDL csoBtnCommandVlv 2Way L .Pos2Man Pos2 1 5 1=Pos2: Position 2 command in manual mode. ~PG_Vlv 2Way L_Standard.PDL csoBtnCommandVlv 2Way L .AutModOp Automatic 1 5 1=Auto mode: auto mode by operator ~PG_Vlv 2Way L_Standard.PDL csoBtnModeVlv 2Way L .ManModOp Manual 1 5 1=Manual mode: manual mode by operator ~PG_Vlv 2Way L_Standard.PDL csoBtnModeVlv 2Way L .LocalOp Local 1 5 1=Local Mode: Local operation by operator ~PG_Vlv 2Way L_Standard.PDL csoBtnModeVlv 2Way L .OosOp Out of serv ice 2 6 1=Oos mode: Oos mode by operator ~PG_Vlv 2Way L_Standard.PDL csoBtnModeVlv 2Way L .RstOp Reset 1 5 Operator reset signal ~PG_Vlv 2Way L_Standard.PDL csoBtnReset

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameVlv AnL .ER_AH_Lim 2 6 ER alarm high limit ~PG_Vlv AnL_Limit.PDL csoIOAnaErrHVlv AnL .ER_Hy st 2 6 Hy steresis f or ER alarms ~PG_Vlv AnL_Limit.PDL csoIOAnaErrHy sVlv AnL .ER_AL_Lim 2 6 ER alarm low limit ~PG_Vlv AnL_Limit.PDL csoIOAnaErrLVlv AnL .MV_HiLim 2 6 manipulated v ariable High Limit ~PG_Vlv AnL_Limit.PDL csoIOAnaMVHVlv AnL .MV_LoLim 2 6 manipulated v ariable Low Limit ~PG_Vlv AnL_Limit.PDL csoIOAnaMVLVlv AnL .RbkWH_Lim 2 6 Rbk - High Warning Limit ~PG_Vlv AnL_Limit.PDL csoIOAnaRbkHVlv AnL .RbkHy st 2 6 Rbk - Hy steresis ~PG_Vlv AnL_Limit.PDL csoIOAnaRbkHy sVlv AnL .RbkWL_Lim 2 6 Rbk - Low Warning Limit ~PG_Vlv AnL_Limit.PDL csoIOAnaRbkLVlv AnL .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_Vlv AnL_Parameter.PDL csoBtnMaintVlv AnL .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_Vlv AnL_Parameter.PDL csoBtnMaintVlv AnL .SimOn On 3 1100 Simulation on/of f ~PG_Vlv AnL_Parameter.PDL csoBtnSimuVlv AnL .SimOn Of f 3 1100 Simulation on/of f ~PG_Vlv AnL_Parameter.PDL csoBtnSimuVlv AnL .Monitor On 2 6 1=MonitorV ON, 0=Monitor OFF: Feedback monitor ~PG_Vlv AnL_Parameter.PDL csoChkBoxMonVlv AnL .Monitor Of f 2 6 1=MonitorV ON, 0=Monitor OFF: Feedback monitor ~PG_Vlv AnL_Parameter.PDL csoChkBoxMonVlv AnL .MonitorAuxV On 2 6 1=MonitorAuxV ON, 0=MonitorAuxV OFF: Feedback monitor of auxiliary v alv e ~PG_Vlv AnL_Parameter.PDL csoChkBoxMonAuxVlv AnL .MonitorAuxV Of f 2 6 1=MonitorAuxV ON, 0=MonitorAuxV OFF: Feedback monitor of auxiliary v alv e ~PG_Vlv AnL_Parameter.PDL csoChkBoxMonAuxVlv AnL .MV_TrkExt On 2 6 Bumpless Transf er f rom External to Internal ~PG_Vlv AnL_Parameter.PDL csoChkBoxMVTrkVlv AnL .MV_TrkExt Of f 2 6 Bumpless Transf er f rom External to Internal ~PG_Vlv AnL_Parameter.PDL csoChkBoxMVTrkVlv AnL .MV_TrkRbk On 2 6 Bumpless Transf er f rom tracking to not tracking ~PG_Vlv AnL_Parameter.PDL csoChkBoxRbkTrkVlv AnL .MV_TrkRbk Of f 2 6 Bumpless Transf er f rom tracking to not tracking ~PG_Vlv AnL_Parameter.PDL csoChkBoxRbkTrkVlv AnL .MonTiDy namic 2 6 Monitoring time f or expected change of f eedback [s] ~PG_Vlv AnL_Parameter.PDL csoIOAnaControlMonVlv AnL .MonAuxVTime 2 6 Monitoring time of auxiliary v alv e f or expected change of f eedback [s] ~PG_Vlv AnL_Parameter.PDL csoIOAnaControlMonAuxVlv AnL .MonTiStatic 2 6 Monitoring time f or unexpected change in any f eedback [s] ~PG_Vlv AnL_Parameter.PDL csoIOAnaRuntimeMonVlv AnL .MV_RmpOn Activ e 1 5 manipulated v ariable is ramped to MV_RmpTarget ~PG_Vlv AnL_Ramp.PDL csoBtnRampVlv AnL .MV_RmpOn Inactiv e 1 5 manipulated v ariable is ramped to MV_RmpTarget ~PG_Vlv AnL_Ramp.PDL csoBtnRampVlv AnL .MV_RmpModTime Duration 1 5 1: MV ramped ov er MV_RmpTime, 0: MV ramped by rates MV_UpRaLim, MV_DnRaLim~PG_Vlv AnL_Ramp.PDL csoBtnRampMode

Vlv AnL .MV_RmpModTime Gradient 1 5 1: MV ramped ov er MV_RmpTime, 0: MV ramped by rates MV_UpRaLim, MV_DnRaLim~PG_Vlv AnL_Ramp.PDL csoBtnRampModeVlv AnL .MV_RateOn On 1 5 manipulated v ariable changes are rate limited by MV_UpRaLim and MV_DnRaLim ~PG_Vlv AnL_Ramp.PDL csoChkBoxGrdVlv AnL .MV_RateOn Of f 1 5 manipulated v ariable changes are rate limited by MV_UpRaLim and MV_DnRaLim ~PG_Vlv AnL_Ramp.PDL csoChkBoxGrdVlv AnL .MV_RmpTime 1 5 manipulated v ariable ramp time [s] ~PG_Vlv AnL_Ramp.PDL csoIOAnaDurationVlv AnL .MV_DnRaLim 1 5 Downward rate limit f or MV changes or ramping [EUs/min] ~PG_Vlv AnL_Ramp.PDL csoIOAnaGrdDownVlv AnL .MV_UpRaLim 1 5 Upward rate limit f or MV changes or ramping [EUs/min] ~PG_Vlv AnL_Ramp.PDL csoIOAnaGrdUpVlv AnL .MV_RmpTarget 1 5 manipulated v ariable ramp target ~PG_Vlv AnL_Ramp.PDL csoIOAnaTargetSPVlv AnL .OpenMan Open 1 5 1=Open: Open Command in Manual Mode ~PG_Vlv AnL_Standard.PDL csoBtnCommandVlv AnL .CloseMan Close 1 5 1=Close: Close Command in Manual Mode ~PG_Vlv AnL_Standard.PDL csoBtnCommandVlv AnL .AutModOp Automatic 1 5 1=Auto mode: auto mode by operator ~PG_Vlv AnL_Standard.PDL csoBtnModeVlv AnL .ManModOp Manual 1 5 1=Manual mode: manual mode by operator ~PG_Vlv AnL_Standard.PDL csoBtnModeVlv AnL .LocalOp Local 1 5 1=Local Mode: Local operation by operator ~PG_Vlv AnL_Standard.PDL csoBtnModeVlv AnL .OosOp Out of serv ice 2 6 1=Oos mode: Oos mode by operator ~PG_Vlv AnL_Standard.PDL csoBtnModeVlv AnL .MV_ExtOp External 1 5 Operator Input to Select External manipulated v ariable ~PG_Vlv AnL_Standard.PDL csoBtnMVModeVlv AnL .MV_IntOp Internal 1 5 Operator Input to Select Internal manipulated v ariable ~PG_Vlv AnL_Standard.PDL csoBtnMVModeVlv AnL .RstOp Reset 1 5 Operator reset signal ~PG_Vlv AnL_Standard.PDL csoBtnResetVlv AnL .MV_Int 1 5 manipulated v ariable (Internal) ~PG_Vlv AnL_Standard.PDL csoIOAnaMVVlv AnL .SimRbk 1 5 Readback v alue used f or SimOn = 1 ~PG_Vlv AnL_Standard.PDL csoIOAnaRbk

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameVlv L .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_Vlv L_Parameter.PDL csoBtnMaintVlv L .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_Vlv L_Parameter.PDL csoBtnMaintVlv L .SimOn On 3 1100 Simulation on/of f ~PG_Vlv L_Parameter.PDL csoBtnSimuVlv L .SimOn Of f 3 1100 Simulation on/of f ~PG_Vlv L_Parameter.PDL csoBtnSimuVlv L .Monitor On 2 6 1=Monitor ON, 0=Monitor OFF: Feedback monitor ~PG_Vlv L_Parameter.PDL csoChkBoxMonVlv L .Monitor Of f 2 6 1=Monitor ON, 0=Monitor OFF: Feedback monitor ~PG_Vlv L_Parameter.PDL csoChkBoxMonVlv L .MonTiDy namic 2 6 Monitoring time f or expected change of f eedback [s] ~PG_Vlv L_Parameter.PDL csoIOAnaControlMonVlv L .MonTiStatic 2 6 Monitoring time f or unexpected change in any f eedback [s] ~PG_Vlv L_Parameter.PDL csoIOAnaRuntimeMonVlv L .OpenMan Open 1 5 1=Open: Open Command in Manual Mode ~PG_Vlv L_Standard.PDL csoBtnCommandVlv L .CloseMan Close 1 5 1=Close: Close Command in Manual Mode ~PG_Vlv L_Standard.PDL csoBtnCommandVlv L .AutModOp Automatic 1 5 1=Auto mode: auto mode by operator ~PG_Vlv L_Standard.PDL csoBtnModeVlv L .ManModOp Manual 1 5 1=Manual mode: manual mode by operator ~PG_Vlv L_Standard.PDL csoBtnModeVlv L .LocalOp Local 1 5 1=Local Mode: Local operation by operator ~PG_Vlv L_Standard.PDL csoBtnModeVlv L .OosOp Out of serv ice 2 6 1=Oos mode: Oos mode by operator ~PG_Vlv L_Standard.PDL csoBtnModeVlv L .RstOp Reset 1 5 Operator reset signal ~PG_Vlv L_Standard.PDL csoBtnReset

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameVlv MotL .AV_AH_Lim 2 6 AV - High Alarm Limit ~PG_Vlv MotL_Limit.PDL csoIOAnaAHVlv MotL .AV_AL_Lim 2 6 AV - Low Alarm Limit ~PG_Vlv MotL_Limit.PDL csoIOAnaALVlv MotL .SimAV 1 5 AV Simulation Value, tracks when not in simulation ~PG_Vlv MotL_Limit.PDL csoIOAnaAVVlv MotL .AV_Hy st 2 6 AV - Hy steresis ~PG_Vlv MotL_Limit.PDL csoIOAnaHy sVlv MotL .AV_TH_Lim 2 6 AV - High Tolerance Limit ~PG_Vlv MotL_Limit.PDL csoIOAnaTHVlv MotL .AV_TL_Lim 2 6 AV - Low Tolerance Limit ~PG_Vlv MotL_Limit.PDL csoIOAnaTLVlv MotL .AV_WH_Lim 2 6 AV - High Warning Limit ~PG_Vlv MotL_Limit.PDL csoIOAnaWHVlv MotL .AV_WL_Lim 2 6 AV - Low Warning Limit ~PG_Vlv MotL_Limit.PDL csoIOAnaWLVlv MotL .V_Monitor On 2 6 1=Monitor ON, 0=Monitor OFF: Valv e Feedback Monitor ~PG_Vlv MotL_Parameter.PDL chkMonitor

Vlv MotL .V_Monitor Of f 2 6 1=Monitor ON, 0=Monitor OFF: Valv e Feedback Monitor ~PG_Vlv MotL_Parameter.PDL chkMonitorVlv MotL .M_Monitor On 2 6 1=Monitor ON, 0=Monitor OFF: Motor Feedback Monitor ~PG_Vlv MotL_Parameter.PDL chkMonitor1Vlv MotL .M_Monitor Of f 2 6 1=Monitor ON, 0=Monitor OFF: Motor Feedback Monitor ~PG_Vlv MotL_Parameter.PDL chkMonitor1Vlv MotL .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_Vlv MotL_Parameter.PDL csoBtnMaintenanceVlv MotL .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_Vlv MotL_Parameter.PDL csoBtnMaintenanceVlv MotL .SimOn On 3 1100 Simulation On/Of f ~PG_Vlv MotL_Parameter.PDL csoBtnSimVlv MotL .SimOn Of f 3 1100 Simulation On/Of f ~PG_Vlv MotL_Parameter.PDL csoBtnSimVlv MotL .V_MonTiDy namic 2 6 Valv e Monitoring Time of Feedback [s] ~PG_Vlv MotL_Parameter.PDL csoIOAnaDy nMonTimeVlv MotL .M_MonTiDy namic 2 6 Motor Monitoring Time of Feedback [s] ~PG_Vlv MotL_Parameter.PDL csoIOAnaDy nMonTimeMotorVlv MotL .V_MonTiStatic 2 6 Valv e Monitoring Time of Feedback [s] ~PG_Vlv MotL_Parameter.PDL csoIOAnaStaMonTimeVlv MotL .M_MonTiStatic 2 6 Motor Monitoring Time of Feedback [s] ~PG_Vlv MotL_Parameter.PDL csoIOAnaStaMonTime1Vlv MotL .OpenMan Open 1 5 1=Open: Open Command in Manual Mode ~PG_Vlv MotL_Standard.PDL csoBtnCommandVlv MotL .CloseMan Close 1 5 1=Close: Close Command in Manual Mode ~PG_Vlv MotL_Standard.PDL csoBtnCommandVlv MotL .StopMan Stop 1 5 1=Stop: Stop Command in Manual Mode ~PG_Vlv MotL_Standard.PDL csoBtnCommandVlv MotL .RapidStp Rapid stop 1 5 1 = Motor Rapid Stop command ~PG_Vlv MotL_Standard.PDL csoBtnCommandVlv MotL .AutModOp Automatic 1 5 1=Auto Mode: Auto Mode by Operator ~PG_Vlv MotL_Standard.PDL csoBtnModeVlv MotL .ManModOp Manual 1 5 1=Manual Mode: Manual Mode by Operator ~PG_Vlv MotL_Standard.PDL csoBtnModeVlv MotL .LocalOp Local 1 5 1=Local Mode: Local Operation by Operator ~PG_Vlv MotL_Standard.PDL csoBtnModeVlv MotL .OosOp Out of serv ice 2 6 1=Oos Mode: Oos Mode by Operator ~PG_Vlv MotL_Standard.PDL csoBtnModeVlv MotL .RstOp Reset 1 5 Operator Reset Signal ~PG_Vlv MotL_Standard.PDL csoBtnReset

BlockType Tag Text Level User Right IO Comment Picture/Faceplate objNameVlv S .MS_RelOp Yes 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_Vlv S_Parameter.PDL csoBtnMaintVlv S .MS_RelOp No 3 1100 Operator input f or MS Release, 1: MS release requirement ~PG_Vlv S_Parameter.PDL csoBtnMaintVlv S .SimOn On 3 1100 Simulation on/of f ~PG_Vlv S_Parameter.PDL csoBtnSimuVlv S .SimOn Of f 3 1100 Simulation on/of f ~PG_Vlv S_Parameter.PDL csoBtnSimuVlv S .Monitor On 2 6 1=Monitor ON, 0=Monitor OFF: Feedback monitor ~PG_Vlv S_Parameter.PDL csoChkBoxMonVlv S .Monitor Of f 2 6 1=Monitor ON, 0=Monitor OFF: Feedback monitor ~PG_Vlv S_Parameter.PDL csoChkBoxMonVlv S .MonTiDy namic 2 6 Monitoring time f or expected change of f eedback [s] ~PG_Vlv S_Parameter.PDL csoIOAnaControlMonVlv S .OpenMan Open 1 5 1=Open: Open Command in Manual Mode ~PG_Vlv S_Standard.PDL csoBtnCommandVlv S .CloseMan Close 1 5 1=Close: Close Command in Manual Mode ~PG_Vlv S_Standard.PDL csoBtnCommandVlv S .AutModOp Automatic 1 5 1=Auto mode: auto mode by operator ~PG_Vlv S_Standard.PDL csoBtnModeVlv S .ManModOp Manual 1 5 1=Manual mode: manual mode by operator ~PG_Vlv S_Standard.PDL csoBtnModeVlv S .OosOp Out of serv ice 2 6 1=Oos mode: Oos mode by operator ~PG_Vlv S_Standard.PDL csoBtnModeVlv S .RstOp Reset 1 5 Operator reset signal ~PG_Vlv S_Standard.PDL csoBtnReset

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Bberechti SIMATIC PCS 7 OS V7 - cache.industry.siemens.com · Der sichere Betrieb von SIMATIC PCS 7 erfolgt durch die Vergabe von Bedienberechtigungen fr Benutzer, die sich, bevor