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02 Minerals Library Basic Objects 5p1s4a
Transcript of 02 Minerals Library Basic Objects 5p1s4a
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Based on Project Minerals Library, CoE Cement and Minerals
Prep. ATBPA / P.Topfmeyer 10.07.2009Appr. ATBPA / M.Knabenhans 30.04.2010Doc. kind Reference Manual Doc. Item
Title Basic Objects des. des.800xA Minerals Library version 5.1/4a Resp. dept. CHIND / ATBPA
Document identityLang. Rev. ind. Sheet 1
ABB Switzerland Ltd 3BHS 161556 en R No. of sh. 113Template: Design Description_1,1_A4h_en_standard.dot; Filename: 02 Minerals Library Basic Objects 5p1s4a.docx; Print: 9/15/2013 10:02:00 PM; Save: 9/14/2013 4:34:00 PM; CHIND No. 3BHS102547 ZAB E01 Rev A. -; I-Q
Basic ObjectsReference Manual
800xA AC800M Connect - Minerals Library
Version 5.1/4a
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We reserve all rights in this document and in the information contained therein. Reproduction, use or disclosure to third parties without express authority is strictly forbidden.Copyright 2013 ABB. All rights reserved.
Doc. kind Reference Manual Project Minerals Library, CoE Cement andMinerals
Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 2
ABB Switzerland Ltd 3BHS 161556 en R No. of p. 113
CONTENT
1 SUMMARY ................................................................................................................ 5
2 COMMON DATA ....................................................................................................... 52.1 BASIC DESCRIPTION ..................................................................................... 52.2 CONTROL ....................................................................................................... 6
2.2.1 Library location .................................................................................... 62.2.2 Control modes ..................................................................................... 6
2.2.3 PCC, Interlock Bus (Process Control Connection) ............................... 62.2.3.1 PCC Bus concept ................................................................ 62.2.3.2 Basic Functions of PCC ....................................................... 62.2.3.3 PCC Interlock Parameter Description .................................. 7
2.2.4 Simulation Mode ............................................................................... 112.3 OPERATION.................................................................................................. 11
2.3.1 Properties .......................................................................................... 112.3.1.1 IndicationType ................................................................... 112.3.1.2 EnableLimitLabel ............................................................... 132.3.1.3 NumberOfDigits ................................................................. 132.3.1.4 EnableUnit ......................................................................... 132.3.1.5 TextIndAbnormalPos / TextIndNormalPos ......................... 132.3.1.6 Orientation ......................................................................... 142.3.1.7 SymbolSize ........................................................................ 142.3.1.8 EnableFitToBestSize ......................................................... 142.3.1.9 EnableLogicalColor ............................................................ 142.3.1.10 ValueColor ......................................................................... 14
3 AI Analogue Input .................................................................................................. 163.1 BASIC DESCRIPTION ................................................................................... 163.2 CONTROL ..................................................................................................... 17
3.2.1 Diagram Graphical Representation AIS ............................................. 173.2.2 Diagram Graphical Representation AIC............................................. 173.2.3 Parameter description ....................................................................... 17
3.2.3.1 Parameter AIS ................................................................... 173.2.3.2 Parameter AIC ................................................................... 19
3.2.4 Data Type description ....................................................................... 223.2.5 Project Constants .............................................................................. 243.2.6 PCC Interlock Limitations for AIS and AIC ......................................... 24
3.3 OPERATION.................................................................................................. 253.3.1 Graphic elements .............................................................................. 25
3.3.1.1 AISandUnit or AICandUnit ................................................. 263.3.1.2 AISTxt or AICTxt ................................................................ 283.3.1.3 AISBar or AICBar............................................................... 30
3.3.2 Faceplate .......................................................................................... 333.3.2.1 Aspect Link Buttons ........................................................... 333.3.2.2 Default View ...................................................................... 333.3.2.3 Extended View ................................................................... 343.3.2.4 Faceplate Control Permission ............................................ 41
3.3.3 Alarm & Event List ............................................................................. 423.3.3.1 Object Status and Modes ................................................... 423.3.3.2 Alarm Messages ................................................................ 42
4 AO Analogue Output .............................................................................................. 444.1 BASIC DESCRIPTION ................................................................................... 444.2 CONTROL ..................................................................................................... 44
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Doc. kind Reference Manual Project Minerals Library, CoE Cement andMinerals
Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 3
ABB Switzerland Ltd 3BHS 161556 en R No. of p. 113
4.2.1 Diagram Graphical Representation AOS ........................................... 444.2.2 Diagram Graphical Representation AOC ........................................... 444.2.3 Parameter description ....................................................................... 45
4.2.3.1 Parameter AOS ................................................................. 454.2.3.2 Parameter AOC ................................................................. 45
4.2.4 Data Type description ....................................................................... 464.3 OPERATION.................................................................................................. 48
4.3.1 Graphic elements .............................................................................. 48
4.3.1.1 AOSandUnit or AOCandUnit .............................................. 494.3.1.2 AOCBar or AOSBar ........................................................... 514.3.1.3 AOCIncDecButton or AOSIncDecButton ............................ 53
4.3.2 Faceplate .......................................................................................... 544.3.2.1 Aspect Link and Command Buttons ................................... 544.3.2.2 Default View ...................................................................... 544.3.2.3 Extended View ................................................................... 554.3.2.4 Faceplate Control Permission ............................................ 58
4.3.3 Alarm & Event List ............................................................................. 594.3.3.1 Object Status and Modes ................................................... 594.3.3.2 Alarm Messages ................................................................ 59
5 DI Digital Input ....................................................................................................... 605.1 BASIC DESCRIPTION ................................................................................... 605.2 CONTROL ..................................................................................................... 61
5.2.1 Diagram Graphical Representation DIS............................................. 615.2.2 Diagram Graphical Representation DIC ............................................ 615.2.3 Parameter description ....................................................................... 61
5.2.3.1 Parameter DIS ................................................................... 615.2.3.2 Parameter DIC ................................................................... 62
5.2.4 Data Type description ....................................................................... 635.2.5 Project Constants .............................................................................. 645.2.6 PCC Interlock Limitations .................................................................. 64
5.3 OPERATION.................................................................................................. 65
5.3.1 Time Diagram.................................................................................... 655.3.2 Graphic elements .............................................................................. 65
5.3.2.1 DIS or DIC ......................................................................... 665.3.2.2 DISTxt or DICTxt ............................................................... 68
5.3.3 Faceplate .......................................................................................... 705.3.3.1 Aspect Link and Command Buttons ................................... 705.3.3.2 Default View ...................................................................... 705.3.3.3 Extended View ................................................................... 715.3.3.4 Faceplate Control Permission ............................................ 74
5.3.4 Alarm & Event List ............................................................................. 755.3.4.1 Object Status and Modes ................................................... 755.3.4.2 Alarm Messages ................................................................ 75
6 DO Digi tal Outpu t ................................................................................................... 766.1 BASIC DESCRIPTION ................................................................................... 766.2 CONTROL ..................................................................................................... 76
6.2.1 Diagram Graphical Representation DOS ........................................... 766.2.2 Diagram Graphical Representation DOC........................................... 766.2.3 Parameter description ....................................................................... 77
6.2.3.1 Parameter DOS ................................................................. 776.2.3.2 Parameter DOC ................................................................. 77
6.2.4 Data Type description ....................................................................... 78
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Doc. kind Reference Manual Project Minerals Library, CoE Cement andMinerals
Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 4
ABB Switzerland Ltd 3BHS 161556 en R No. of p. 113
6.3 OPERATION.................................................................................................. 796.3.1 Graphic elements .............................................................................. 79
6.3.1.1 DOS or DOC...................................................................... 806.3.1.2 DOSTxt or DOCTxt ............................................................ 826.3.1.3 DOSButton or DOCButton ................................................. 84
6.3.2 Faceplate .......................................................................................... 866.3.2.1 Aspect Link and Command Buttons ................................... 866.3.2.2 Default View ...................................................................... 86
6.3.2.3 Extended View ................................................................... 876.3.3 Faceplate Control Permission ........................................................... 896.3.4 Alarm & Event List ............................................................................. 90
6.3.4.1 Object Status and Modes ................................................... 906.3.4.2 Alarm Messages ................................................................ 90
7 PCC_Connect_2 ..................................................................................................... 917.1 BASIC DESCRIPTION ................................................................................... 917.2 CONTROL ..................................................................................................... 91
7.2.1 Parameter description ....................................................................... 917.3 OPERATION.................................................................................................. 92
7.3.1 PCC Parent Link ............................................................................... 92
8 PCC_Connect ......................................................................................................... 938.1 BASIC DESCRIPTION ................................................................................... 938.2 CONTROL ..................................................................................................... 93
8.2.1 Diagram Graphical Representation ................................................... 938.2.2 Parameter description ....................................................................... 938.2.3 Interlock Masks ................................................................................. 958.2.4 Application Example .......................................................................... 96
8.3 OPERATION.................................................................................................. 988.3.1 PCC Parent Link ............................................................................... 98
9 PCC_Threshold_AND3 .......................................................................................... 999.1 Basic Description ........................................................................................... 99
9.2 CONTROL ................................................................................................... 1009.2.1 Diagram Graphical Representation ................................................. 1009.2.2 Parameter description ..................................................................... 1009.2.3 Application Example ........................................................................ 1029.2.4 PCC Viewer Presentation ................................................................ 103
9.3 OPERATION................................................................................................ 1049.3.1 Faceplate ........................................................................................ 104
9.3.1.1 Aspect Link Buttons ......................................................... 1049.3.1.2 Default View .................................................................... 1049.3.1.3 Application Example ........................................................ 108
10 PCC_Intlk .............................................................................................................. 109
10.1 BASIC DESCRIPTION ................................................................................. 10910.2 CONTROL ................................................................................................... 10910.2.1 CDE Graphical Representation ....................................................... 10910.2.2 Parameter description ..................................................................... 10910.2.3 Data Type Definition ........................................................................ 110
10.2.3.1 OPERATION ................................................................... 11110.2.3.2 Extended View ................................................................. 112
11 DOCUMENT REVISION HISTORY........................................................................ 113
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Doc. kind Reference Manual Project Minerals Library, CoE Cement andMinerals
Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 5
ABB Switzerland Ltd 3BHS 161556 en R No. of p. 113
1 SUMMARY
This document contains a detailed description of the following Basic Objects:
AI (Analog Input)
AO (Analog Output)
DI (Digital Input)
DO (Digital Output)
Additionally, four PCC specific Function Blocks and Control Modules are described
PCC_Connect_2
PCC_Connect
PCC_Threshold_AND3
PCC_Intlk
2 COMMON DATA
2.1 BASIC DESCRIPTION
Basic Objects provide access and control for process IO-signals and calculated IO-signalsfrom the ABB System 800xA operator workplace.
All basic objects have the following commonbasic functions:
Tracking of control mode and status changes on the Operator station
Operator Station Interface (graphic element and faceplate) including detailed alarmand interlock indications.
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Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 6
ABB Switzerland Ltd 3BHS 161556 en R No. of p. 113
2.2 CONTROL
2.2.1 Library location
The Control Module Types for basic objects and its corresponding Structured Data Typesare located in the library BMIStandardfor Control Builder M Professional.
2.2.2 Control modes
The basic objects AO and DO have 2 different control modes ManandAuto. All modesare selectable from the operator station or the superior application.
Man:Object is controlled via On/Off commands for DOs and Set Value commands for AOs.These commands are issued from the faceplate.
Auto :Object is controlled by On/Off commands for DOs and Set Value commands for AOs.These commands are issued from the superior application.
2.2.3 PCC, Interlock Bus (Process Control Connection)
2.2.3.1 PCC Bus concept
Using the unique PCC (Process Control Connection) concept input signal objects(AIS/AIC and DIS/DIC) can propagate their state to the consumer object. Depending onthe configuration, signals may send interlock actions to the connected consumer withoutusing binary interlock code. In addition it is possible to link between faceplates of signalsand consumers as soon a PCC is available.
2.2.3.2 Basic Functions of PCC
Interlock configuration for connected consumers thru parameters on AIS/AIC andDIS/DIC.
Connection of unlimited number of AIS and DIS to a Consumer Object or Group
Local Start override and Start Inhibit
Automatic first fault detection of signal causing an interlock. First fault is presented onthe Consumer Object and Group faceplates including a link button to the source signal
Link between AIS, AIC / DIS, DIC faceplates and to the consumer / group faceplate
Two direction Alarm Acknowledgement between AIS/DIS and Consumer / Group.Typical use is the auto alarm-acknowledge while a Consumer Object is controlled inLocal.
Function Block PCC_Connect allows connecting two or more consumers or groups toone AIS / DIS. In addition, this Function Block allows overwriting of the PCC
Alarm/Event enabling from the consumer for the connected AIS / DIS. For eachconnected consumer an individual Interlock forwarding mask defines which interlocksare blocked on a per limit basis if they are not desired.
Function Block PCC_ThresholdAND3 to handle complex interlocks. It allows definingmultiple custom conditions to be used as interlocks on the PCC bus.
PCC Status viewer for consumer and group objects
Automatic disabling of AIS / DIS alarming with the following option:
cBMI.Std_Type: 0
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Doc. kind Reference Manual Project Minerals Library, CoE Cement andMinerals
Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 7
ABB Switzerland Ltd 3BHS 161556 en R No. of p. 113
Motor is not running, NC Valve is closed, NO Valve is Open, for PCC connected toGroup: if Group is not started
cBMI.Std_Type: 1Same as Std_Type 0 but always alarm on all Objects if Group is started andConsumer preselected. In case object is standby preselected alarm priority isautomatically reduced from Failure to Warning.
PCCAEListFrcEn = trueAutomatic alarm disabling switched off. This option shall be used in cases a signalhas to alarm independent from the status of its parent.
2.2.3.3 PCC Interlock Parameter Description
The following configuration options are applicable for AIC, AIS, DIC, DIS, PIDCtrl,PCC_Intlk and PCC_Threshold_AND3.
IntlkType and IntlkDir are limit based configurations where as IntlkStartInhibit andIntlkLocStartOverride are valid for all limits of the object.
Parameter Name Description
IntlkType - assigns the interlock to one of the interlock categories- ready for start (RFS) configuration option to keep consumer readyfor group start even when interlock is present
- can be configured to start consumer in auto mode
IntlkDir - direction of interlock for two direction consumers
- Option to act only as start interlock
IntlkStartInhibit the interlocks are bypassed for the set time after the start of thePCC parent (MOTx, VLVx)Application example: bypass of rush in for motor current
IntlkLocStartOverride Bypass interlocks in Local mode if LCBStart is continuouslypushed. All PCC parents need to be in LOC.Application example: temporary bypass of drift switches for a beltconveyor in local mode to align the belt
The possible configuration settings for Interlock Type are:
IntrlkTypeConfiguration Option
Description
PCC_Disabled No alarm or interlock forwarding on PCC bus
No_Interlock No interlock forwarding, only alarm forwarding
PD_PrevDrive Previous drive interlock, group remains ready for start
IA_Process Process interlockIf the consumer is in Auto mode the IA interlock is not reset againon the ok condition. It is only reset by an Auto_Start command fromanother PCC limit or signal.
IA_Process_RFS Process interlock, group remains ready for startSame functionality in Auto as described above.
IB_Equipment Equipment interlock
IB_Equipment_RFS Equipment interlock, group remains ready for start
IC_Safety Safety interlock
IC_Safety_RFS Safety interlock, group remains ready for start
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Doc. kind Reference Manual Project Minerals Library, CoE Cement andMinerals
Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 8
ABB Switzerland Ltd 3BHS 161556 en R No. of p. 113
Auto_Start Only used if consumer is in Auto mode: removes retained IAinterlock if it is not active anymore and thus the drive will start(IO.In.IA also needs to be ok)
The possible configuration settings for Interlock Direction are:
IntlkDirConfiguration Option
Description
DirX Configured interlock is only valid for direction X
DirXStart Same as DirX, but once the consumer is running in direction X (or has reached end position X) the interlock is disregarded.
DirY Configured interlock is only valid for direction Y
DirYStart Same as DirY, but once the consumer is running in direction Y (or has reached end position Y) the interlock is disregarded.
DirXY Configured interlock is valid for direction X and Y
DirXYStart Same as DirXY, but once the consumer is running in direction X/Y(or has reached end position X/Y) the interlock is disregarded.
DirFBX Configured interlock is dynamic feedback (like FB1 in MOT1) fordirection X.
IO.Out.RunX or PosX will only become active if condition is fulfilled.It can be used for additional limit switches [MOTP], speed-,pressure, flow-switch with advantage of prewarning, alarm andready delay.
DirFBY Configured interlock to handle as dynamic feedback (like FB1 inMOT2) for direction Y.IO.Out.RunY or PosY will only become active if condition is fulfilled.It can be used for additional limit switches [MOTP], speed-,pressure, flow-switch with advantage of prewarning, alarm andready delay.
DirFBXY Configured interlock to handle as dynamic feedback for directionX/Y.
IO.Out.RunX/Y or PosX/Y will only become active if condition isfulfilled.It can be used for additional limit switches [MOTP], speed-,pressure, flow-switch with advantage of prewarning, alarm andready delay.
DirXFast Configured interlock to execute action in fast task for direction X.
Applicable for stop at position for MOT2, middle position stop forMOTP and the other application where fast stop is required.
DirYFast Configured interlock to execute action in fast task for direction Y.
Applicable for stop at position for MOT2, middle position stop forMOTP and the other application where fast stop is required.
DirXYFast Configured interlock to execute action in fast task for direction X/Y.
Applicable for stop at position for MOT2, middle position stop forMOTP and the other application where fast stop is required.
DirFBXFast Combination of FB and Fast for Direction X
DirFBYFast Combination of FB and Fast for Direction Y
DirFBXYFast Combination of FB and Fast for Direction X/Y
DirXnoAck Configured interlock to use "Value" instead of "Normal". Useful forcases where operation will be possible even if the alarm was notacknowledged but the value returned to Normal Position.
DirYnoAck Configured interlock to use "Value" instead of "Normal". Useful forcases where operation will be possible even if the alarm was not
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Doc. kind Reference Manual Project Minerals Library, CoE Cement andMinerals
Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 9
ABB Switzerland Ltd 3BHS 161556 en R No. of p. 113
IntlkDirConfiguration Option
Description
acknowledged but the value returned to Normal Position.
DirXYnoAck Configured interlock to use "Value" instead of "Normal". Useful forcases where operation will be possible even if the alarm was notacknowledged but the value returned to Normal Position.
DirXStartnoAck Same as DirXnoAck, but once the parent is running in direction X(or has reached end position X) the interlock is disabled.
DirYStartnoAck Same as DirYnoAck, but once the parent is running in direction Y(or has reached end position Y) the interlock is disabled.
DirXYStartnoAck Same as DirXYnoAck, but once the parent is running in directionX/Y (or has reached end position X/Y) the interlock is disabled.
DirFBXnoAck Combination of FB and noAck for Direction X.
DirFBYnoAck Combination of FB and noAck for Direction Y.
DirFBXYnoAck Combination of FB and noAck for Direction X/Y.
DirXFastnoAck Combination of Fast and noAck for Direction X.
DirYFastnoAck Combination of Fast and noAck for Direction Y.
DirXYFastnoAck Combination of Fast and noAck for Direction X/Y.
DirFBXFastnoAck Combination of FB and Fast and noAck for Direction X.
DirFBYFastnoAck Combination of FB and Fast and noAck for Direction Y.DirFBXYFastnoAck Combination of FB and Fast and noAck for Direction X/Y.
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Doc. kind Reference Manual Project Minerals Library, CoE Cement andMinerals
Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 10
ABB Switzerland Ltd 3BHS 161556 en R No. of p. 113
The possible assignment for different control modules are:
IntlkDirConfigurationOption
AIS AIC DIS DICPCC_Com_
Drive(ComError)
PCC_Threshold_AND_3& PCC_Intlk
PID
DirX Yes Yes Yes Yes Yes Yes Yes
DirXStart Yes Yes Yes Yes Yes Yes Yes
DirY Yes Yes Yes Yes Yes Yes Yes
DirYStart Yes Yes Yes Yes Yes Yes YesDirXY Yes Yes Yes Yes Yes Yes Yes
DirXYStart Yes Yes Yes Yes Yes Yes Yes
DirFBX Yes Yes Yes Yes - Yes Yes
DirFBY Yes Yes Yes Yes - Yes Yes
DirFBXY Yes Yes Yes Yes - Yes Yes
DirXFast - - Yes - - - -
DirYFast - - Yes - - - -
DirXYFast - - Yes - - - -
DirFBXFast - - Yes - - - -
DirFBYFast - - Yes - - - -
DirFBXYFast - - Yes - - - -
DirXnoAck Yes Yes Yes Yes - - Yes
DirYnoAck Yes Yes Yes Yes - - Yes
DirXYnoAck Yes Yes Yes Yes - - Yes
DirXStartnoAck Yes Yes Yes Yes - - Yes
DirYStartnoAck Yes Yes Yes Yes - - Yes
DirXYStartnoAck Yes Yes Yes Yes - - Yes
DirFBXnoAck Yes Yes Yes Yes - - Yes
DirFBYnoAck Yes Yes Yes Yes - - Yes
DirFBXYnoAck Yes Yes Yes Yes - - Yes
DirXFastnoAck - - Yes - - - -
DirYFastnoAck - - Yes - - - -
DirXYFastnoAck - - Yes - - - -
DirFBXFastnoAck - - Yes - - - -
DirFBYFastnoAck - - Yes - - - -
DirFBXYFastnoAck - - Yes - - - -
For more details about PID refer to the Loop Object Reference manual document ID:3BHS161562.
http://europe.abb.com/ch/c04/01/Aut_Devel/03_OperateIT_BMI/Documentation%20-%20Original/AC800M/08%20System%20Version%205p1s4%20for%20Minerals/03%20Minerals%20Library%20Loop%20Objects%205p1s3.pdfhttp://europe.abb.com/ch/c04/01/Aut_Devel/03_OperateIT_BMI/Documentation%20-%20Original/AC800M/08%20System%20Version%205p1s4%20for%20Minerals/03%20Minerals%20Library%20Loop%20Objects%205p1s3.pdfhttp://europe.abb.com/ch/c04/01/Aut_Devel/03_OperateIT_BMI/Documentation%20-%20Original/AC800M/08%20System%20Version%205p1s4%20for%20Minerals/03%20Minerals%20Library%20Loop%20Objects%205p1s3.pdfhttp://europe.abb.com/ch/c04/01/Aut_Devel/03_OperateIT_BMI/Documentation%20-%20Original/AC800M/08%20System%20Version%205p1s4%20for%20Minerals/03%20Minerals%20Library%20Loop%20Objects%205p1s3.pdf -
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Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 11
ABB Switzerland Ltd 3BHS 161556 en R No. of p. 113
2.2.4 Simulation Mode
It is possible to simulate DIS, AIS, DOS and AOS objects. Under simulation mode thehardware error connection is not considered.
When set the simulation mode, the following is set as initial behaviour after a warm start.Notice that it is the initial condition which can be changed afterwards.
AIS hardware connection (error condition) is not considered and the value
is set to 50% of the total range. Input is blocked. Notice that the input willbe blocked and the value will be set to 50% only in case of warm start.
DIS hardware connection is not considered and the value is set to thenormal position. Input is blocked. Notice that the value is simulated only incase of warm start.
DOS and AOS hardware connections are not considered.
In case any of output objects (DOS and AOS) are connected to thehardware all the changes to them will be written to the hardware.
For safety reason we advise to disconnect the Profibus, modulebus or anyother hardware interface.
2.3 OPERATION
Details on all available graphic elements for the basic objects are available in theoperation chapter of the individual object type e.g. Analog Input.
2.3.1 Properties
Below is an overview of the properties that are applicable for the graphic elements thatrepresent basic objects.
2.3.1.1 IndicationType
Name DataType Default Value Description
IndicationType IndicationTypeEnum A03_MotorM Symbol type selection
Name Values
IndicationTypeEnum A00_Rectangle.A01_Motor.A03_MotorM.A04_Pump.A05_Fan.A06_RotaryFeeder.E77_BeltCleaner.A02_Valve.B11_Damper.B14_LouvreDamper.B16_PropRoller.B15_AirslideDiverter.B12_Shut.B13_Diverter.E21_GearwheelPump.
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Doc. kind Reference Manual Project Minerals Library, CoE Cement andMinerals
Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 12
ABB Switzerland Ltd 3BHS 161556 en R No. of p. 113
C31_Valve3way.C32_ValveMan.C33_ValveAuto.E41_Generator.E42_Switch.E07_Triangle.E08_Lollipop.E09_Diamond.
E99_TagName.F00_None.
With this property the type of graphic symbol that shall represent a DI or DO object canbe selected.
Not applicable for AI / AO objects.
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Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 13
ABB Switzerland Ltd 3BHS 161556 en R No. of p. 113
2.3.1.2 EnableLimitLabel
Name DataType Default Value Description
EnableLimitLabel Boolean True Show limit labels
When set to True, the alarm limits are visible next to the graphic element.
Only applicable for AI objects.
2.3.1.3 NumberOfDigits
Aspect: AISandUnit, AICandUnit, AOSandUnit, AOCandUnit
Name DataType Default Value Description
NumberOfDigits Integer 4 Number of presented digits
Used for setting how many digits need to be shown.
This is only applicable for AI / AO objects.
Not applicable for the bar graph.
2.3.1.4 EnableUnitAspect: AISandUnit, AICandUnit, AOSandUnit, AOCandUnit, PIDCtrl
Name DataType Default Value Description
EnableUnit Boolean True Show units
When set to true, the engineering units are visible next to the graphic element.
This is only applicable for AI / AO / PID objects.
2.3.1.5 TextIndAbnormalPos / TextIndNormalPos
Aspect: DISTxt, DICTxt, DOSTxt, DOCTxt
Name DataType Default Value DescriptionTextIndAbnormalPos String "On" Text for abnormal positionTextIndNormalPos String "Off" Text for normal position
With these properties a text can be added for abnormal position and normal position.This text will be represented on the graphic symbol for DI / DO objects.
Aspect: AISTxt, AICTxt
Name DataType Default Value Description
TextIndTrH1AbnormalPos String "H1" TextIndTrH1AbnormalPosTextIndTrH1NormalPos String "Off" TextIndTrH1NormalPos
With these properties a text can be added for abnormal position and normal position.This text will be represented on the graphic symbol for AI.
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2.3.1.6 Orientation
Name DataType Default Value Description
Orientation Integer 0 Obsolete property used for migrationonly, Orientation in degrees, clockwise.
Obsolete property used for migration only, Orientation in degrees, clockwise.
Orientation is still used (to rotate the symbol indication) in the following Generic
Elements core: DigitalCmdButtonCore
DigitalCore
DriveCmdButtonCore
DriveCore
SymbolCore
2.3.1.7 SymbolSize
Name DataType Default Value Description
SymbolSize Integer 12 Defined the square size in case of IndicationType = 10
Size of the symbol in the graphic display.
E.g. Symbol size in pixel: 8 = Little
12 = Small
16 = Standard
20 = Large
24 = XXL
2.3.1.8 EnableFitToBestSize
Name DataType Default Value Description
EnableFitToBestSize Boolean True Set best unit size
When set to True, the unit size is calculated to best size according to the string.
Not applicable for the bar graph.
2.3.1.9 EnableLogicalColor
Name DataType Default Value Description
EnableLogicalColor Boolean True If EnableLogicalColor is true, then allused colors are logical colors. The
logical color reference is equal to thedefault logical color used in the colorproperties. To use an individual colorset it to false.
When set to True, the colors are based on logical colors.
Not applicable for the PID object.
2.3.1.10 ValueColor
Name DataType Default Value Description
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ValueColor Color BMIvalueMV(AI)
BMIvalueOUT(AO)
Value color. Only applied ifEnableLogicalColor is set to false.
When EnableLogicalColorset to False, the ValueColor is used to show the value color orBar color with the defined ValueColor.
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3 AI Analogue Input
3.1 BASIC DESCRIPTION
The Control Module Types AIS and AIC are used to access and control an analog input.
AIS module is used to read one analog input signal, coming from the process
AIC module is used to write a calculated signal from the application, that is to be
indicated on the operator station and that will have alarm limit control.
The analog input module provides the following features:
Blocking and forcing of input value
Threshold detection and alarming on 4 alarm limit levels (L2,L1,H1,H2)
Threshold detection and eventing on 2 Process Limit levels (PLo, PHi)
Adjustable Low Pass Filter to create the FilteredSignal output.
FilteredSignal Rate of change calculation and alarm. The ROC is presented in % ofTotal Range per second.
All Substatus for DP, PA and FF Field Devices will generate error control when qualityis Bad or Uncertain for AIS Control Module.
Common or Individual alarm delay for all 6 limits.
Alarm blocking (from faceplate). All alarm limit levels will be blocked.
Alarm disabling/enabling of each alarm limit individually (from application program /Faceplate); generating events when blocked.
Single and Triple trend and automatic log configuration for:
FilteredSignal
IOSignal
RateofChange
Minerals Library Process Control Connection (PCC)
Parameterized interlocks towards parent objects
Advanced alarm disabling from parent objects
Interface to Process Panel
Additionally, the AIS Control Module has the following feature:
Signal Error pre-warning with adjustable alarm delay.
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3.2 CONTROL
3.2.1 Diagram Graphical Representation AIS
The default view is shown, its possible to modify the visible ports in CBM.
3.2.2 Diagram Graphical Representation AIC
The default view is shown, its possible to modify the visible ports in CBM.
3.2.3 Parameter description
3.2.3.1 Parameter AIS
No Name Data Type Initial Value Port Direction Description
1 Name string 'Name' 1 in INIT: Tag name of the AIS (allowed deliminatorsare "_" or "." or "-", no blanks,":" or ";" allowed)
2 Description string 'Description' 1 in IN: Description text of the AIS
3 IO AISData 1 in_out IN/OUT: Connection to AISData variable
4PCC PCCComDat
aDefault 1 out IN/OUT: Interlock Bus, Priority
Command/Interlock to motors, valves or groups
5 PCCAEListFrcEn
bool false 0 in IN: PCC AE List handling forced to be always onand not controlled by PCC parent
6 Class dint 1 0 in INIT: AE Class 1 ... 9999 (Section)
7 Lim2Tr dint 3 0 in INIT: Alarm L2/H2 limit treatment: -1 no AE; 0 =Event ; 1,2,3 = ALPrio# (1=lowest)
8 Lim1Tr dint 2 0 in INIT: Alarm L1/H1 limit treatment: -1 no AE; 0 =Event ; 1,2,3 = ALPrio# (1=lowest)
9 ROCLimTr dint -1 0 in INIT: ROC limit treatment: -1 no AE; 0 = Event ;1,2,3 = ALPrio# (1=lowest)
10 PLimTr dint 0 0 in INIT: Process limit treatment: -1 no AE; 0 =Event
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No Name Data Type Initial Value Port Direction Description
11 StatusTr bool true 0 in IN: True enables events on Forced valuechanges
12 LogTr bool true 0 in INIT: Limit change treatment: true = Event onlimit value change, false = Events on limit valuechange are disabled.
13 ErrCtrl bool true 0 in IN: Action in case of Signal Error: false = noaction; true = IO.Signal.Value is forced to Err_Val
14 ErrVal real 99999 0 in IN: Error Value used in case of Err_Ctrl = true
15 ErrTr dint cBMI.AE.Sig
Err_Sev
0 in IN: Severity for the Signal Error AlarmCond
16 EnExtLimits bool false 0 in IN: false = limit settings from Operate IT, true =COLD INIT can be used as external limits
17 HiLim2 real 100 0 in COLD INIT: Initial limit for High2 alarm.
18 BlkHiLim2 bool false 0 in COLD INIT: Initial value for blocking of the limithigh 2 handling
19 IntlkTypeHiLim2
dint No_Interlock 1 in INIT:PCC_Disabled;No_Interlock;PD_PrevDrive;IA_Process;IA_Process_RFS;IB_Equipment;IB_Equipment_RFS;IC_Safety;IC_Safety_RFS;Auto_Start
20 IntlkDirHiLim2 dint DirXY 1 in INIT: 1:DirX/Y/XY+noAck;2:DirFBX/Y/XY+noAck;3:DirX/Y/XYStart+noAck;Ex.DirFBX,DirXnoAck,noAck=Acknowledge not need if value back toNormPos
21 HiLim1 real 100 0 in COLD INIT: Initial limit for High1 alarm.
22 BlkHiLim1 bool false 0 in COLD INIT: Initial value for blocking of the limithigh 1 handling
23 IntlkTypeHiLim1
dint No_Interlock 1 in INIT:PCC_Disabled;No_Interlock;PD_PrevDrive;IA_Process;IA_Process_RFS;IB_Equipment;IB_Equipment_RFS;IC_Safety;IC_Safety_RFS;Auto_Start
24 IntlkDirHiLim1 dint DirXY 1 in INIT: 1:DirX/Y/XY+noAck;2:DirFBX/Y/XY+noAck;3:DirX/Y/XYStart+noAck;Ex.DirFBX,DirXnoAck,noAck=Acknowledge not need if value back toNormPos
25 PHiLim real 90 0 in COLD INIT: Initial limit for Process High alarm.
26 BlkPHiLim bool true 0 in COLD INIT: Initial value for blocking of the limitProcess High handling
27 IntlkTypePHiLi
m
dint No_Interlock 0 in INIT:
PCC_Disabled;No_Interlock;PD_PrevDrive;IA_Process;IA_Process_RFS;IB_Equipment;IB_Equipment_RFS;IC_Safety;IC_Safety_RFS;Auto_Start
28 IntlkDirPHiLim dint DirXY 0 in INIT: DirX; DirFBX; DirXStart; DirY; DirFBY;DirYStart; DirXY; DirFBXY; DirXYStart;
29 PLoLim real 10 0 in COLD INIT: Initial limit for Process Low alarm.
30 BlkPLoLim bool true 0 in COLD INIT: Initial value for blocking of the limitProcess Low handling
31 IntlkTypePLoLim
dint No_Interlock 0 in INIT:PCC_Disabled;No_Interlock;PD_PrevDrive;IA_Process;IA_Process_RFS;IB_Equipment;IB_Equipment_RFS;IC_Safety;IC_Safety_RFS;Auto_Start
32 IntlkDirPLoLim dint DirXY 0 in INIT: DirX; DirFBX; DirXStart; DirY; DirFBY;DirYStart; DirXY; DirFBXY; DirXYStart;
33 LoLim1 real 0 0 in COLD INIT: Initial limit for Low1 alarm.
34 BlkLoLim1 bool false 0 in COLD INIT: Initial value for blocking of the limitlow 1 handling
35 IntlkTypeLoLim1
dint No_Interlock 0 in INIT:PCC_Disabled;No_Interlock;PD_PrevDrive;IA_Process;IA_Process_RFS;IB_Equipment;IB_Equipment_RFS;IC_Safety;IC_Safety_RFS;Auto_Start
36 IntlkDirLoLim1 dint DirXY 0 in INIT: 1:DirX/Y/XY+noAck;2:DirFBX/Y/XY+noAck;3:DirX/Y/XYStart+noAck;Ex.DirFBX,DirXnoAck,noAck=Acknowledge not need if value back toNormPos
37 LoLim2 real 0 0 in COLD INIT: Initial limit for Low2 alarm.
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No Name Data Type Initial Value Port Direction Description
38 BlkLoLim2 bool false 0 in COLD INIT: Initial value for blocking of the limitlow 2 handling
39 IntlkTypeLoLim2
dint No_Interlock 0 in INIT:PCC_Disabled;No_Interlock;PD_PrevDrive;IA_Process;IA_Process_RFS;IB_Equipment;IB_Equipment_RFS;IC_Safety;IC_Safety_RFS;Auto_Start
40 IntlkDirLoLim2 dint DirXY 0 in INIT: 1:DirX/Y/XY+noAck;2:DirFBX/Y/XY+noAck;3:DirX/Y/XYStart+noAck;Ex.DirFBX,DirXnoAck,noAck=Acknowledge not need if value back toNormPos
41 IntlkTypeROC dint No_Interlock 0 in INIT:PCC_Disabled;No_Interlock;PD_PrevDrive;IA_Process;IA_Process_RFS;IB_Equipment;IB_Equipment_RFS;IC_Safety;IC_Safety_RFS;Auto_Start
42 IntlkDirROC dint DirXY 0 in INIT: DirX; DirXStart; DirY; DirYStart; DirXY;DirXYStart
43 IntlkStartInhibit time 0s 0 in INIT: Bypass Interlock for a certain time after start of PCC parent (MOTx, VLVx), Time will startwith Ord# instead of Run# where the IntlkD
44 IntlkLocStartOverride
bool false 0 in INIT: Bypass Interlock in LOC mode if LCBStartis continuously pushed. All PCC parents need tobe in LOC.
45 Hyst real 1.0 0 in COLD INIT: Initial Hysteresis in %
46 AlarmDelay time 0s 0 in COLD INIT: Initial time delay for the limit level
supervision47 EnIndividualAl
armDelaysbool cBMI.AIS.En
IndividualAlarmDelays
0 in IN: Enables the individual alarm delay setting for all the 6 limits in the faceplate. If True,
AlarmDelay has only effect for upgrade.
48 AlarmAck bool false 0 in IN pulse: Acknowledge the alarms
49 Simulation bool false 0 in IN: TRUE = override signal error indication inOperate IT, used for simulations only
For more information on how to use Interlock Parameters, see chapterPCC Interlock Parameter Description.
3.2.3.2 Parameter AIC
No Name Data Type Initial Value Port Direction Description
1 Name string 'Name' 1 in INIT: Tag name of the AIC (allowed deliminatorsare "." and "-", no blanks ":" or ";" allowed)
2 Description string 'Description' 1 in IN: Description text of the AIC
3 IO AISData Default 1 in_out IN/OUT: Connection to AISData variable
4 PCC PCCComData
Default 1 out IN/OUT: Interlock Bus,PriorityCommand/Interlock to motors, valves orgroups
5 PCCAEListFrcEn
bool false 0 in IN: PCC AE List handling forced to be always onand not controlled by PCC parent
6 Min real 0 1 in INIT: Scaling Parameter Range.
7 Max real 100 1 in INIT: Scaling Parameter Range Max.
8 Unit string '%' 1 in INIT: Scaling Parameter Unit.
9 Fraction dint 1 1 in INIT: Fraction (Number of Decimals).
10 SignalError bool false 1 in IN false: Input for calculated signal error indication
11 Class dint 1 0 in INIT: AE Class 1 ... 9999 (Section)12 Lim2Tr dint 3 0 in INIT: Alarm L2/H2 limit treatment: -1 no AE; 0 =
Event ; 1,2,3 = ALPrio# (1=lowest)
13 Lim1Tr dint 2 0 in INIT: Alarm L1/H1 limit treatment: -1 no AE; 0 =Event ; 1,2,3 = ALPrio# (1=lowest)
14 ROCLimTr dint -1 0 in INIT: ROC limit treatment: -1 no AE; 0 = Event ;1,2,3 = ALPrio# (1=lowest)
15 PLimTr dint 0 0 in INIT: Process limit treatment: -1 no AE; 0 =Event
16 LogTr bool true 0 in INIT: Limit change treatment: true = Event onlimit value change, false = Events on limit valuechange are disabled.
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No Name Data Type Initial Value Port Direction Description
17 ErrCtrl bool true 0 in IN: Action in case of Signal Error: false = noaction; true = IO.Signal.Value is forced to Err_Val
18 ErrVal real 0.0 0 in IN: Error Value used in case of Err_Ctrl = true
19 EnExtLimits bool false 0 in IN: false = limit settings from Operate IT, true =COLD INIT can be used as external limits
20 EnExtAlarm dint in no cBMI.AIC.EnExtAlarm.None
IN: Limit checks are external and Events aregenerated by writing to IO.H1.Value etc. for H2/1,PLo/Hi and L1/2. AlarmDelays are disabled.
21 HiLim2 real 100 0 in COLD INIT: Initial limit for High2 alarm.
22 BlkHiLim2 bool false 0 in COLD INIT: Initial value for blocking of the limithigh 2 handling
23 IntlkTypeHiLim2
dint No_Interlock 1 in INIT:PCC_Disabled;No_Interlock;PD_PrevDrive;IA_Process;IA_Process_RFS;IB_Equipment;IB_Equipment_RFS;IC_Safety;IC_Safety_RFS;Auto_Start
24 IntlkDirHiLim2 dint DirXY 1 in INIT: 1:DirX/Y/XY+noAck;2:DirFBX/Y/XY+noAck;3:DirX/Y/XYStart+noAck;Ex.DirFBX,DirXnoAck,noAck=Acknowledge not need if value back toNormPos
25 HiLim1 real 100 0 in COLD INIT: Initial limit for High1 alarm.
26 BlkHiLim1 bool false 0 in COLD INIT: Initial value for blocking of the limithigh 1 handling
27 IntlkTypeHiLim1
dint No_Interlock 1 in INIT:PCC_Disabled;No_Interlock;PD_PrevDrive;IA_Process;IA_Process_RFS;IB_Equipment;IB_Equipment_RFS;IC_Safety;IC_Safety_RFS;Auto_Start
28 IntlkDirHiLim1 dint DirXY 1 in INIT: 1:DirX/Y/XY+noAck;2:DirFBX/Y/XY+noAck;3:DirX/Y/XYStart+noAck;Ex.DirFBX,DirXnoAck,noAck=Acknowledge not need if value back toNormPos
29 PHiLim real 90 0 in COLD INIT: Initial limit for Process High alarm.
30 BlkPHiLim bool true 0 in COLD INIT: Initial value for blocking of the limitProcess High handling
31 IntlkTypePHiLim
dint No_Interlock 0 in INIT:PCC_Disabled;No_Interlock;PD_PrevDrive;IA_Process;IA_Process_RFS;IB_Equipment;IB_Equipment_RFS;IC_Safety;IC_Safety_RFS;Auto_Start
32 IntlkDirPHiLim dint DirXY 0 in INIT: DirX; DirFBX; DirXStart; DirY; DirFBY;
DirYStart; DirXY; DirFBXY; DirXYStart;33 PLoLim real 10 0 in COLD INIT: Initial limit for Process Low alarm.
34 BlkPLoLim bool true 0 in COLD INIT: Initial value for blocking of the limitProcess Low handling
35 IntlkTypePLoLim
dint No_Interlock 0 in INIT:PCC_Disabled;No_Interlock;PD_PrevDrive;IA_Process;IA_Process_RFS;IB_Equipment;IB_Equipment_RFS;IC_Safety;IC_Safety_RFS;Auto_Start
36 IntlkDirPLoLim dint DirXY 0 in INIT: DirX; DirFBX; DirXStart; DirY; DirFBY;DirYStart; DirXY; DirFBXY; DirXYStart;
37 LoLim1 real 0 0 in COLD INIT: Initial limit for Low1 alarm.
38 BlkLoLim1 bool false 0 in COLD INIT: Initial value for blocking of the limitlow 1 handling
39 IntlkTypeLoLim1
dint No_Interlock 0 in INIT:PCC_Disabled;No_Interlock;PD_PrevDrive;IA_Pr
ocess;IA_Process_RFS;IB_Equipment;IB_Equipment_RFS;IC_Safety;IC_Safety_RFS;Auto_Start
40 IntlkDirLoLim1 dint DirXY 0 in INIT: 1:DirX/Y/XY+noAck;2:DirFBX/Y/XY+noAck;3:DirX/Y/XYStart+noAck;Ex.DirFBX,DirXnoAck,noAck=Acknowledge not need if value back toNormPos
41 LoLim2 real 0 0 in COLD INIT: Initial limit for Low2 alarm.
42 BlkLoLim2 bool false 0 in COLD INIT: Initial value for blocking of the limitlow 2 handling
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No Name Data Type Initial Value Port Direction Description
43 IntlkTypeLoLim2
dint No_Interlock 0 in INIT:PCC_Disabled;No_Interlock;PD_PrevDrive;IA_Process;IA_Process_RFS;IB_Equipment;IB_Equipment_RFS;IC_Safety;IC_Safety_RFS;Auto_Start
44 IntlkDirLoLim2 dint DirXY 0 in INIT: 1:DirX/Y/XY+noAck;2:DirFBX/Y/XY+noAck;3:DirX/Y/XYStart+noAck;Ex.DirFBX,DirXnoAck,noAck=Acknowledge not need if value back toNormPos
45 IntlkTypeROC dint No_Interlock 0 in INIT:PCC_Disabled;No_Interlock;PD_PrevDrive;IA_Process;IA_Process_RFS;IB_Equipment;IB_Equipment_RFS;IC_Safety;IC_Safety_RFS;Auto_Start
46 IntlkDirROC dint DirXY 0 in INIT: DirX; DirXStart; DirY; DirYStart; DirXY;DirXYStart
47 IntlkStartInhibit time 0s 0 in INIT: Bypass Interlock for a certain time after start of PCC parent (MOTx, VLVx), Start by Ordinstead of Run where the IntlkDir is DirFB
48 IntlkLocStartOverride
bool false 0 in INIT: Bypass Interlock in LOC mode if LCBStartis continuously pushed. All PCC parents need tobe in LOC.
49 Hyst real 1.0 0 in COLD INIT: Initial Hysteresis in %
50 AlarmDelay time 0s 0 in COLD INIT: Initial time delay for the limit levelsupervision
51 EnIndividualAl
armDelays
bool cBMI.AIS.En
IndividualAlarmDelays
0 in IN: Enables the individual alarm delay setting for
all the 6 limits in the faceplate. If True,AlarmDelay has only effect for upgrade.
52 ExtendedInfo dint in no 0 IN: Extended Info on Faceplace - setting onlyuseful if Faceplate is including the Extended Info
53 AlarmAck bool false 0 in IN pulse: Acknowledge the alarms
For more information on how to use Interlock Parameters, see chapterPCC Interlock Parameter Description.
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3.2.4 Data Type description
Together with the AIS and AIC Control Module Type a Structured Data Type AISData isavailable. This makes it possible to create one Global Variable in the application for eachAI instance.
AISData; componentsName Data Type Attributes Initial
ValueDescription
1 LimEn bool retainnosort
true IN true: External Enabling of AIS LimitSupervision, used to temporary block thealarming
2 EnHiLim2 bool retainnosort
true IN true: Enables High Limit 2
3 EnHiLim1 bool retainnosort
true IN true: Enables High Limit 1
4 EnPHiLim bool retainnosort
true IN true: Enables Process High Limit
5 EnPLoLim bool retainnosort
true IN true: Enables Process Low Limit
6 EnLoLim1 bool retainnosort
true IN true: Enables Low Limit 1
7 EnLoLim2 bool retainnosort
true IN true: Enables Low Limit 2
8 AEListEn bool retainnosort true IN true: External Alarm List Enabling of AIS,temporary disabling of unack alarming andentries in alarmlist, NOTE: Overwritten byPCC
9 H2 BoolAL retain OUT: Alarm Status of limit H2. Use the.Normal value for interlocking
10 H1 BoolAL retain OUT: Alarm Status of limit H1. Use the.Normal value for interlocking
11 PHi bool retain OUT: Indication of limit Process Limit High
12 PLo bool retain OUT: Indication of limit Process Limit Low
13 L1 BoolAL retain OUT: Alarm Status of limit L1. Use the.Normal value for interlocking
14 L2 BoolAL retain OUT: Alarm Status of limit L2. Use the.Normal value for interlocking
15 SigErr BoolAL retain OUT: Alarm Status of Signal Error (e.g.electrical signal less than 4 mA)
16 SigErrWarn bool retain OUT: Signal Error Warning Normal
17 ROCLim BoolAL retain OUT: Alarm Status of Rate of Change limit.Use the .Normal value for interlocking
18 Signal RealIO retaindisplayvalue
IN/OUT: Signal to be connected to the S800HW I/O
19 FilteredSignal RealIO retain IN/OUT: Filter to Signal.Value
20 RateofChange RealIO retain IN/OUT: Signal rate of change
21 FieldDeviceStatus
dword retainnosort
cBMI.AIS.FDStatusNC
IN: 2nd DWORD for Field Device StatusSupervision e.g. Profibus PA Devices etc. Ifvalue equals 16#80C0 the faceplateindication is hidden
22 FieldDeviceStatusDINT
dint retainnosort
cBMI.AIS.FDStat
usNCDINT
IN: 2nd DINT for Field Device StatusSupervision e.g. Profibus PA Devices etc. If
value equals 16#80C0 FieldDeviceStatusdword is used inste
23 ProcessPanel PanelLinkAIS
retain Interface from / to ProcessPanel
24 Name string[24] retain Name of AIS/AIC
For AIS, use the Data type structure as follows:Write: no supported (directly connected to IO Channel)Read: IO.. FilteredSignal.ValueInterlock: IO...Normal
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For AIC, use the Data type structure:Write: IO..Signal.IOValueRead: IO.. FilteredSignal.ValueInterlock: IO...Normal
FilteredSignal is related to the Signal as follows:
187.0
1
);1(1+
D
=-+= -
T
FilterTimeyxy kkk aaa
Which is equivalent to a 1storder low pass with15.1
FilterTime=t
Note that the IO.FilteredSignal.Parameter Values are copied from theIO.Signal.Parameter on Application Start only. In case of changes in theHardware Structure for the Channel where IO.Signal is connected, theParameter Value can be different between these two Variables after the
download to the Controller.
PanelLinkAIS; componentsName Data
TypeAtt ributes Ini tial
ValueDescription
1 Status dint Retainnosorthidden
Object Status (Ready, H,HH,Phi,Plo etc.)
2 Cmd dint Retainnosorthidden
Object Commands from Panel to Basic Object
3 SignalValue real Retain
nosorthidden
Signal Value to Process Panel
4 Blink bool Retainnosorthidden
Enabling of Basic Object Blinking
Cmd ; Bits
Name BitPosition
1 AlarmAck 0
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Title Basic Objects800xA Minerals Library version 5.1/4a
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ABB Switzerland Ltd 3BHS 161556 en R No. of p. 113
3.2.5 Project Constants
Name Data Type Default Value
1 cBMI.AIS.DisabledIntMaxIndTr dint (dint): 132 cBMI.AIS.EnIndividualAlarmDelays bool (bool): false3 cBMI.AIS.FDStatusNC dword (dword): 16#80c04 cBMI.AIS.FDStatusNCDINT dint (dint): 16#80c05 cBMI.AIS.H1_txt string (string): 'H1'6 cBMI.AIS.H2_txt string (string): 'H2'
7 cBMI.AIS.L1_txt string (string): 'L1'8 cBMI.AIS.L2_txt string (string): 'L2'9 cBMI.AIS.PHi_txt string (string): 'PHi'10 cBMI.AIS.PLo_txt string (string): 'PLo'11 cBMI.AIS.PropagateSigErrToPCC bool (bool): true12 cBMI.AIS.ROC_Txt string (string): 'ROC'13 cBMI.AIS.SigErr_txt string (string): 'SigError'14 cBMI.AIS.SigErrDelay time (time): 0s15 cBMI.AIS.SigErrWarn_txt string (string): 'SigError'16 cBMI.AIS.UncertainAsGood bool (bool): false
FDStatusNC defines the Value that is used to detect that no Status is connected to theModule. Note that this Value should be impossible to be sent at any time by a Field
Device.
3.2.6 PCC Interlock Limitations for AIS and AIC
The Fast interlock direction (e.g. DirXFast, DirFBXFast) is not supported for AIS andAIC.
shown in FPL asParam Error
With Fast
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Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 25
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3.3 OPERATION
3.3.1 Graphic elements
Graphic Element Description Example
AISandUnit or AICandUnit Value indication and unit.
AISBar or AICBar Bar graph indication
AISTxt or AICTxt Limit status text indication
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Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 26
ABB Switzerland Ltd 3BHS 161556 en R No. of p. 113
3.3.1.1 AISandUnit or AICandUnit
The value and unit presents the measured value, alarm limits and status information.
3.3.1.1.1 Presentation
Indication Type Description Example
Value and Unit Value and unit indication
3.3.1.1.2 Status
Object status Symbol color
Value in normal range Value green
H2 Limit and signal blocked Red thick frame / Value green
Signal Quality Bad Yellow background color
3.3.1.1.3 Labels
Description Indication
Signal blocked
Limit High 2
Limit High 1
Limit Process High 1
Limit Process Low 1
Limit Low 1
Limit Low 2
Rate of Change
Example:
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Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 27
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3.3.1.1.4 Properties
Name DataType Default Value Description
EnableDisplayBackgroundColor Boolean False Show display background color assymbol background
EnableFitToBestSize Boolean True Set best unit sizeEnableLimitLabel Boolean True Show limit labelsEnableLogicalColor Boolean True If EnableLogicalColor is true, then all
used colors are logical colors. Thelogical color reference is equal to thedefault logical color used in the colorproperties. To use an individual colorset it to false.
EnableUnit Boolean True Show unitsNumberOfDigits Integer 4 Number of presented digitsUnitSize Integer 8 Unit size in pixel: 7 = Small, 8 =
Standard, 10 = Large, 12= XXLValueColor Color BMIvalueMV Value color. Only applied if
EnableLogicalColor is set to false.ValueSize Integer 12 Value size in pixel: 8 = Small, 10
Medium, 12 = Standard, 14 = Large,
16 = XXLFor common settings please refer to [1] Minerals Library Overview (3BHS 161555).
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Title Basic Objects800xA Minerals Library version 5.1/4a
Document numberLang. Rev. ind. Pages 28
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3.3.1.2 AISTxt or AICTxt
AIS and AIC text can be used to show alarm limits of analogue inputs as labels. The labeltext can be customized. The text appearance can be configured to show the text only onalarm, depending on the value, always but with different colours depending on value oralarm condition.
3.3.1.2.1 PresentationIndication Type Description Example
Text with background color Text with background color
Square in front of text Square in front of text
Text colored Text colored
3.3.1.2.2 StatusObject status Symbol color
Normal Position forAppearance Types, 0 = Alarm, 2= value
Gray dimmed (semitransparent)
Normal Position forAppearance Types, 10 = Alarm,12 = Value interlock
Green
Normal Position forAppearance Types, 0 = Alarm, 2= value
Red
3.3.1.2.3 Labels
Description Indication
Status blocked
Example:
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3.3.1.2.4 Properties
Name DataType Default Value Description
AppearanceType Integer 0 0 = Alarm, 2 = Value, 3 = Value customcolor, 10 = Alarm interlock, 12 Valueinterlock
ColorAbnormalPos Color Lime Used for AppearanceType 3 = Valuecustom color
ColorNormalPos Color RGB(159,159,159) Used for AppearanceType 3 = Valuecustom colorEnableFont Boolean False Enable the Font propertyEnableLogicalColor Boolean True To use an individual color set it to falseEnableNormalPos Boolean True Hide symbol in normal positionFont Font Font( "Arial" ,10
,Regular, Bold)Text font wehn EnableFont is true
IndicationType Integer 0 0 = Text with background color, 10 =Square in front of text, 20 = Text colored
IndicationValue Integer 1 0 = All, 1 = H2, 2 = H1, 3 = PH2, 4 = PH1,5 = PL1, 6 = PL2, 7 = L1, 8 = PL2
NormalPos Boolean False Used for AppearanceType 2 = Value, 3 =Value custom color
SymbolSize Integer 12 Symbol size in pixel: Little = 8, Small = 12,Standard = 14, Large = 18, XXL = 22
TextBold Boolean True Text style is boldTextColor Color BMIstaticTextOff Text color TextIndTrH1AbnormalPos String "H1" TextIndTrH1AbnormalPosTextIndTrH1NormalPos String "H1" TextIndTrH1NormalPosTextIndTrH2AbnormalPos String "H2" TextIndTrH2AbnormalPosTextIndTrH2NormalPos String "H2" TextIndTrH2NormalPosTextIndTrL1AbnormalPos String "L1" TextIndTrL1AbnormalPosTextIndTrL1NormalPos String "L1" TextIndTrL1NormalPosTextIndTrL2AbnormalPos String "L2" TextIndTrL2AbnormalPosTextIndTrL2NormalPos String "L2" TextIndTrL2NormalPos
TextIndTrPH1AbnormalPos String "PH1" TextIndTrPH1AbnormalPosTextIndTrPH1NormalPos String "PH1" TextIndTrPH1NormalPosTextIndTrPH2AbnormalPos String "PH2" TextIndTrPH2AbnormalPosTextIndTrPH2NormalPos String "PH2" TextIndTrPH2NormalPosTextIndTrPL1AbnormalPos String "PL1" TextIndTrPL1AbnormalPosTextIndTrPL1NormalPos String "PL1" TextIndTrPL1NormalPosTextIndTrPL2AbnormalPos String "PL2" TextIndTrPL2AbnormalPosTextIndTrPL2NormalPos String "PL2" TextIndTrPL2NormalPosTextSize Integer 10 Text size in pixel: 8 = Small, 10 =
Standard, 12 = Large, 16 = XXLTextSource Integer 1 0 = None, 1 = TextIndAbnormalPos /
TextIndNormalPos, 2 = OPC Text, 3 =NLS Text
For common settings please refer to [1] Minerals Library Overview (3BHS 161555).
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3.3.1.3 AISBar or AICBar
AIS and AIC bar presents the analogue value as bar. Alarm or process limits are graphicalshown and different bar graph appearances are possible.
3.3.1.3.1 Presentation
Appearance Descript ion Example
0
StandardThis is the standard appearance of the bar graph. The value willbe indicated in relation to the maximum and minimum range. Thegreen bar will always start from the minimum range.
1Start from PivotUse this appearance to start the bar graph from another value
than the minimum range. The related property is Pivot.
2InverseThe bar will be inverse to the standard appearance.
3LineThe value will be indicated as a small line instead of a bar.
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3.3.1.3.2 Status
Example Object status Symbol color
Limit Alarm or process limitexceeded.
Colored Alarm band on one side.
Alarm Blocked Yellow thin frame
3.3.1.3.3 Labels
Description Indication
Signal blocked
Signal Quality Bad
Limit High 2
Limit High 1
Limit Process High 1
Limit Process Low 1
Limit Low 1
Limit Low 2
Example:
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3.3.1.3.4 Properties
Name DataType Default Value Description
Appearance Integer 0 0 = Standard, 1 = Start from Pivot, 2 = Inverse,3 = Line
BarColorCustom Color BMIbarMV Bar color. Only applied if EnableLogicalColor isset to false.
EnableLimitLabel Boolean True Show limit labelsEnableLogicalColor Boolean True If EnableLogicalColor is true, then all used
colors are logical colors. The logical colorreference is equal to the default logical colorused in the color properties. To use anindividual color set it to false.
EnableManualRange Boolean False If set to true, the bar's range can be setmanually
Pivot Real 0. Used together with Appearance = 1 (Start fromPivot). The bar will start from the value set asPivot.
RangeMax Real 100. Maximum range if EnableManualRange is trueRangeMin Real 0. Minimum range if EnableManualRange is trueSubscriptionRate Integer 0 The update rate for all aspect object properties
subscribed forSymbolSize Integer 14 Symbol size in pixel: Little = 8, Small = 12,
Standard = 14, Large = 18, XXL = 22VerticalBar Boolean True VerticalBar: True = vertical appearance, false =
horizontal appearance.
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3.3.2 Faceplate
3.3.2.1 Aspect Link Buttons
The following aspect view buttons are available on AIS and AIC Faceplates
Icon Aspect View
Alarm List
Event List
Single Trend (Filtered Value)
Multi Trend (Filtered Value / IO Value / Rate of Change)
Operators Note
Faceplate Documentation, reference to this document
3.3.2.2 Default View
Measured Value
&
alarm indication
Graphical BarMeasured Value
&alarm limits
Mini Trend
Measure Value
Tagname&
Description
Extended Viewfor detailed
information andsettings
Appl y But ton
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3.3.2.3 Extended View
The faceplate extended view gives more detailed information about the Analogue Input.
Additional information for the AIS is structured in tabs. The available tabs and a shortdescription of the contained information are shown below.
Tab Description
Trend Mini trend of filtered measured value, IO value and rate of changeLimit Limits and alarm delay settings for the measured valueROC Rate of change settingsBlock - Input Blocking
- Alarm BlockingMVStatus Sub status for DP, PA and FF Field DevicesPCC - PCC interlock configuration summery
- Link to connected consumer or consumer overview list
Reduced View
default
Tabbedinformation
Browse forward /backwards to show hidden
tabs
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3.3.2.3.1 Trend
On-Line single Triple trend and log Configuration aspect with the actual values: Signal,FilterdSignal and RateofChange.
Move over the trend area a curser will appear, showing enabled traces value and recordtime.
3.3.2.3.2 Limit
Limit settings for measured value are done here.
Show / Hide Grid
Show / Hide TracesMV: Filtered Signal
IO: SignalROC: Rate of Change
Record Time
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Reference Table
Description
B Indication that the corresponding alarm limit has been blocked. Yellowmeans that the alarm limit is blocked (disabled)
H2 2n
High limit (H2) - FailureH1 1
stHigh limit (H1) - Warning
PHigh Process High LimitPLow Process Low LimitL1 1stLow limit (L1) - WarningL2 2n Low limit (L2) - FailureAlarm Delay Time delay before alarm message will be send to the operator station.
Check below the special mode for 6 alarm limits.Hysteresis Alarm Hysteresis in %
F When limits are changed from the faceplate, you must take into consideration thatthese values will be overwritten again with the initial values when a cold restart /resetis performed and the coldretain files are not available for the correspondingcontroller.
To avoid this, you need to update the initial valuesfor the corresponding AIS/AIC
control module instance with Control Builder, after changing the Values from theFaceplate.
3.3.2.3.2.1 Six limits alarm delay special mode
There is a possibility to enable individual alarm delays for each AIS/AIC element. Theway to do that is setting EnIndividualAlarmDelays parameter to true in each AIS/AICelement.
After a download, you will be able to notice the following appearance of the AISfaceplate
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3.3.2.3.3 ROC
Description
ROC High Limit Rate Of Change in % of Total Range per seconds High LimitROC Hysteresis ROC Alarm Hysteresis in %Filter Time Filter time to be applied to the IO..FilteredValue
F When limits are changed from the faceplate, you must take into consideration thatthese values will be overwritten again with the initial values when a cold restart /resetis performed and the coldretain files are not available for the correspondingcontroller.
To avoid this, you need to update the initial valuesfor the corresponding AIS/AICcontrol module instance with Control Builder, after changing the Values from theFaceplate.
3.3.2.3.4 Block / Override
Block / Force Input
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Block Alarm
Reference Table, Block
Description
Block Input The analog input will be forced on controller hardware input level.The IO Value shows the actual value in the process. Alarm limits remain
active.Block Alarm All 4 alarm limits will be blocked as well as Signal Error and ROC Alarms.They are not taken into account anymore.
3.3.2.3.5 MVStatus
Substatus for Foundation Fieldbus and S800 Field Devices
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All Substatus for DP, PA and FF Field Devices will generate error control when quality isBad or Uncertain for AIS Control Module.An Aspect Link giving access to the Device Management Object can be configured viathe BMI DTM Link General Properties Aspect.
General PropertiesAspect
Property Description
BMI DTM Link FPLAspectLink.DTM.ObjectName Name of the DTM ObjectBMI DTM Link FPLAspectLink.DTM.AspectName Name of the DTM Aspect
BMI Overlap Link FPLAspectLink.DTM.DefaultAspectName Default Name of the DTMAspect
The Device Management Button will be shown only if the Properties are not emptyStrings.
Description
Signal ErrorDelay
Time between the Signal Error occurs until the Value is forced toErrValue. Only available for AIS Module.
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