Transcript
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Textbook and
Educational ids
TE Y109JA01E-VPOP
CENTUM VP OperationsTraining Manual
TE Y109JA01E-VPOP1st Edition
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Introduction
The objective of the Training manual is to acquaint the user with the system layout,operations screens and the terminologies used in the CENTUM VP system.
This training module is designed to add more value to the traditional training. Theparticipant can acquire basic knowledge on the operations of CENTUM VP system.
The Training manual consists of multiple chapters
Each chapter consists of multiple topics.
Media No. TEY109JA01E-VPOP Edition: JAN 2009All Rights Reserved Copyright 2000, Yokogawa India Ltd.
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Safety Precautions
Safety, Protection, and Modification of the Product
- In order to protect the system controlled by the product and the product itself
and ensure safe operation, observe the safety precautions described in thisinstruction manual. We assume no liability for safety if users fail to observethese instructions when operating the product.
- If any protection or safety circuit is required for the system controlled by theproduct or for the product itself, prepare it separately.
- Be sure to use the spare parts approved by Yokogawa Electric Corporation(hereafter simply referred to as YOKOGAWA) when replacing parts orconsumables.
- Modification of the product is strictly prohibited.
- The following symbols are used in the product and instruction manual to indicatethat there are precautions for safety:
Indicates that caution is required for operation. This symbol is placed on theproduct to refer the user to the instruction manual in order to protect theoperator and the equipment. In the instruction manuals you will find precautionsto avoid physical injury or death of the operator, including electrical shocks.
Identifies a protective grounding terminal. Before using the product, ground theterminal.
Identifies a functional grounding terminal. Before using the product, ground the
terminal.
Indicates an AC supply.
Indicates a DC supply.
Indicates that the main switch is ON.
Indicates that the main switch is OFF.
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Notes on Handling Manuals
- Please read the information thoroughly before using the product.
- The purpose of these manuals is not to warrant that the product is well suited toany particular purpose but rather to describe the functional details of theproduct.
- No part of the manuals may be transferred or reproduced without prior written
consent from YOKOGAWA.
- YOKOGAWA reserves the right to make improvements in the manuals andproduct at any time, without notice or obligation.
- If you have any questions, or you find mistakes or omissions in the manuals,please contact our sales representative or your local distributor.
Warning and Disclaimer
The product is provided on an "as is" basis. YOKOGAWA shall have neither liabilitynor responsibility to any person or entity with respect to any direct or indirect loss ordamage arising from using the product or any defect of the product that YOKOGAWA
cannot predict in advance.
Notes on Software
- YOKOGAWA makes no warranties, either expressed or implied, with respectto the software's merchantability or suitability for any particular purpose,except as specified in the terms of warranty.
- This product may be used on a one machine only. If you need to use theproduct on another machine, you must purchase another product.
- It is strictly prohibited to reproduce the product except for the purpose ofbackup.
- Store the CD-ROM (the original medium) in a safe place.- It is strictly prohibited to perform any reverse-engineering operation, such as
reverse compilation or reverse assembling on the product.
- No part of the product may be transferred, converted or sublet for use byany third party, without prior written consent from YOKOGAWA.
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Documentation Conventions
Typographical Conventions
The following typographical conventions are used throughout the manuals:
Commonly used conventions throughout manuals:
Character string enclosed by a set of single angle-brackets:
Indicates a portion provided with a link. Clicking the string in angle-bracketscalls up related topics.
Example:
Character string to be entered:
The characters that must be entered are shown in monospace font as follows:Example:
FI.PV=50.0
Mark
This symbol indicates the description for an item for which you should make asetting in the products engineering window.
While operating an engineering window, the help information for the selecteditem can be accessed from Builder Definition Items in the Help menu.
Listing more than one definition item after this symbol implies that the paragraph
on the page describes more than one definition item.Example:
Tag name, Tag importance, Window name
Mark
Indicates a space between character strings that must be entered.
Example:
.AL PIC010 -SC
Character string enclosed by brackets ({ }):
Indicates an option that can be omitted.
Example:
.PR TAG{ .sheet name}
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Conventions used to show key or button operations:
Characters enclosed by brackets ([ ]):
Characters enclosed by brackets within any description on a key or buttonoperation, indicate either a key on the HIS (Human Interface Station) keyboard, akey on the operation keyboard, a button name on a window, or an item displayedon a window.
Example:To alter the function, press the [ESC] key.
Conventions used in command syntax or program statements:
The following conventions are used within a command syntax or programstatement format:
Characters enclosed by angle-brackets:
Indicate character strings that user can specify freely according to certainguidelines.
Example:#define
... Mark
Indicates that the previous command or argument may be repeated.
Example:
Imax (arg1, arg2, ...)
Characters enclosed by brackets ([ ]):
Indicate those character strings that can be omitted.Example:
sysalarm format_string [output_value ...]
Characters enclosed by separators ( ):
Indicate those character strings that can be selected from more than one option.
Example:
opeguide [, ...]
OG,
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Symbol Marks
Throughout this manual, you will find several different types of symbols are usedto identify different sections of text. This section describes these icons.
CAUTION
Identifies instructions that must be observed in order to avoid physical injuryand electric shock or death of the operator.
WARNING
Identifies instructions that must be observed in order to prevent the softwareor hardware from being damaged or the system from becoming faulty.
CAUTION
Identifies additional information required to understand operations or
functions.
TIP
Identifies additional information.
SEE ALSO
Identifies a source to be referred to.
Clicking a reference displayed in green can call up its source, while clicking areference displayed in black cannot.
Drawing Conventions
Some drawings may be partially emphasized, simplified, or omitted, for theconvenience of description.
Some screen images depicted in the manual may have different display positionsor character types (e.g., the upper / lower case). Also note that some of theimages contained in this manual are display examples.
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Copyright and Trademark Notices
All Rights Reserved
The copyrights of the programs and online manual contained in the CD-ROM are
reserved.
The online manual is protected by the PDF security from modification, however, itcan be output via a printer. Printing out the online manual is only allowed for thepurpose of using the product. When using the printed information of the onlinemanual, check if the version is the most recent one by referring to the CD-ROM'sversion.
No part of the online manual may be transferred, sold, distributed (includingdelivery via a commercial PC network or the like), or registered or recorded onvideotapes.
Trademark Acknowledgments
- CENTUM is a registered trademark of YOKOGAWA.
- Microsoft, Windows, Windows NT, Excel, Visual Basic, and Internet Explorerare registered trademarks of Microsoft Corporation.
- Adobe and Acrobat are trademarks of Adobe Systems Incorporated andregistered within particular jurisdictions.
- Ethernet is a registered trademark of XEROX Corporation.
- Java is a registered trademark of Sun Microsystems,Inc.
- Netscape Communicator is a registered trademark of NetscapeCommunications Corporation.
- NetDDE is a registered trademark of Wonderware Corporation.
- MELSEC-A is a registered trademark of Mitsubishi Electric Corporation.
- Modicon and Modbus are registered trademarks of AEG SchneiderAutomation.
- Memocon-SC is a registered trademark of Yaskawa Electric Corporation.
- PLC is a registered trademark of Allen-Bradley Company Inc.
- SYSMAC is a registered trademark of OMRON Corporation.
- SIEMENS and SIMATIC are registered trademarks of Siemens IndustrialAutomation Ltd.
- "FOUNDATION" in "FOUNDATION Fieldbus" is a trademark of FieldbusFoundation.
- All other company and product names mentioned in this manual aretrademarks or registered trademarks of their respective companies.
- We do not use TM or (R) mark to indicate those trademarks or registeredtrademarks in this manual.
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Table of contents
Chapter Topic Page Number
01.
Introduction to Distributed Control System 2
02.
Introduction to CENTUM VP 11
03.
HIS Desktop Layout 22
04.
Operation and Monitoring Windows 32
05.
Instrument Faceplate 36
06.
Function Block Modes and Alarm Status 47
07.
Tuning View 53
08.
Digital Instruments 63
09.
Graphic View (Control Attribute) 72
10.
Trend View 79
11.
Graphic View 93
12.
Alarm Processing 102
13.
Windows for Operation and Monitoring 113
14.
Message Processing 122
15.
Consolidated Alarm Management Software (CAMS) 126
CENTUM VP Operations
Training Manual
TE Y109JA01E-VPOP 1st Edition
TOC
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1. INTRODUCTION TO DISTRIBUTED
CONTROL SYSTEM
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Table of contents Page Number
1.1 Basic Control Loop 4
1.2 Process Control Methodology 4
1.3 Process Control Systems 5
1.3.1 Analog Control System 5
1.3.2 Digital Control System 6
1.4 Digital Control Systems 6
1.4.1 Centralized Control System 6
1.4.2 Drawbacks of Centralized Control System 7
1.4.3 Distributed Control System 8
1.4.4 Advantages of Distributed Control System 8
1.5 Distributed Control System 9
1.5.1 Yokogawas Contribution 10
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1.1Basic Control Loop
In any process plant, the parameters generally measured are Level, Flow, Temperature, Pressureetc The transmitter converts the process input into a 4-20mA current signal. This signal is given asinput or process variable (PV) to the controller. The desired value is given as the set point or setvariable (SV) to the controller. The function of a controller is to match the PV with the SV and make thedeviation zero. In order to achieve this, the controller checks the deviation continuously (DV=PV-SV)and tries to make the deviation zero. The controller generates the output or the manipulated variable(MV) based on the deviation. The generated MV is also in terms of 4-20mA current signal.
However the final control element in most of the cases is pneumatically operated control valves.
Hence an I/P converter (Current to Pneumatic signal converter) is used to convert the 4-20mA currentsignal to 3-15psi or 0.2 to 1 kg pressure signal which is used to operate the control valve.
1.2 Process Control Methodology
For the controller to match the process value with the set value and calculate the manipulated value,various control methodologies are used. The commonly used control methodologies are:
Feedback Control: It is a control in which the controller continuously checks the deviation between
the input and the set point and always corrects the input to match the set point.
Feed forward Control: It is a control in which corrective action is taken by measuring the disturbanceand directly driving the final control element before it affects the process.
Sequential Control: It is a control which successively advances each control step in accordance witha predefined sequence.
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1.3 Process Control Systems
A process control system comprises of multiple simple and complex control loops.Process control systems are primarily classified into:
Analog Control Systems
Digital Control Systems
1.3.1 Analog Control System
Analog control system uses operational amplifiers to do the control function.
In an analog control system, the process parameters are measured by the transmitter. Thetransmitter generates 4 to 20 mA current signal corresponding to 0 to 100% of the process parametermeasured. This signal is converted to 1 to 5V DC and given as input signal to the operational amplifier.The desired set point is also given to the operational amplifier. The operational amplifier calculatesthe output based on the input and the set point. The 4 20 mA current output is given to an I/Pconverter and then to the final control element.
Signal
Conversion
I/P
4-20 mA DC
1 to 5V DC
Operational Amplifier
Set Point
Final Control Element
Transmitter
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1.3.2 Digital Control System
Digital control system uses microprocessors to do the control function.
In a digital control system, the process parameters are measured by the transmitter. The transmittergenerates 4 to 20 mA current signal corresponding to 0 to 100% of the process parameter measured.This signal is converted by signal converter into a voltage signal. Analog to Digital Converters are
used to convert this analog signal to digital signal. This digital signal is given to the microprocessorfor processing. Digital Control system uses microprocessors to do the control function.
Digital control systems are preferred over analog control systems since it is easy to interface withcomputers for data analysis.
1.4 Digital Control Systems
Digital Control Systems are further classified into: Centralized Control Systems (CCS)
Distributed Control Systems (DCS)
1.4.1 Centralized Control System
CCS is a centralized control, centralized monitoring system. All the inputs from the field are given to asingle CPU. The relevant set points are also given to the same CPU. The outputs are also taken fromthe same CPU.
I/P
4-20 mA DC
SignalConversion
&A / D
D / A
Digital
Output
Unit
InputUnit
MemoryUnit
ControlUnit
Arithmetic
Unit
SetPoint
Processor
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In a Centralized Control System, all the field inputs PV1to PVnare fed to a single CPU, the relevant setpoints SV1to SVnare also given to the same CPU and all the outputs MV1to MVnare also taken fromthe same CPU. Hence if the CPU fails, the whole plant gets affected.
1.4.2 Drawbacks of Centralized Control System
If the CPU fails the entire plant gets affected.
Redundancy concept is not available.
Input Signalsfrom Field
Set Points
Output Signals toField
PV1
PV2
PVn
MV1
MV2
MVn
SV1 SV2 SVn
Centralized Control, Centralized Monitoring
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1.4.3 Distributed Control System
DCS is distributed control and centralized monitoring system. In a Distributed Control System, thecontrol function is distributed, but the monitoring is still centralized. All the n field inputs are not fed toa single CPU. Instead they are distributed among multiple CPUs. In DCS terminology, CPUs arereferred as Field Control Stations (FCS).
Let us consider that there are n parameters from the field to be monitored and controlled in a plant.The signal distribution is done as shown in the figure.
1.4.4 Advantages of Distributed Control System
Control function is distributed among multiple CPUs (Field Control Stations). Hence failure ofone FCS does not affect the entire plant.
Redundancy is available at various levels.
Instruments and interlocks are created by software.
Generation and modifications of the interlocks are very flexible and simple.
Information regarding the process is presented to the user in various formats.
Field wiring is considerably less.
Maintenance and trouble shooting becomes very easy.
Cost effective in the long run.
InputSignals fromField
Set Points
CommunicationBus
OutputSignals toField
MV1
MV8
FCS
PV1
PV8
SV SV8
MV9
MV16
FCSPV9
PV16
SV9 SV16
MV17
MVn
FCS
PV17
PVn
SV17 SVn
OPS
OPS
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1.5 Distributed Control System
In a Distributed Control System, the control function is distributed, but the monitoring is stillcentralized. The basic components of a DCS are:
Field Control Station.
Operator Station.
Communication Bus.
FCS Field Control Station):
The Field Control Station is used to control the process. All the instruments and interlocks created bysoftware reside in the memory of the FCS. All the field instruments like transmitters and control valvesare wired to the FCS.
OPS Operator Station):
The operator station is used to monitor the process and to operate various instruments.
Communication Bus:
Communication bus is used to communicate between the Field Control Station and the OperatorStation.
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1.5.1 Yokogawas Contribution
Yokogawa were the pioneers in introducing the first Distributed Control System to the world. Centumwas the first Distributed Control System introduced by Yokogawa in the year 1975. Yokogawacontinued its research in the DCS field and introduced many systems in line with the technologicaldevelopment.
The latest DCS from the Yokogawa fold is the CENTUM VP system.
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2. INTRODUCTION TO CENTUM VP
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Table of contents Page Number
2.1 CENTUM VP 132.1.1 CENTUM VP System Components 14
2.1.2 CENTUM VP System Capacity 15
2.2 Operator Keyboard 16
2.2.1 Parts of Operator Keyboard 16
2.2.2 Window Call Keys 17
2.2.3 Operation Control Keys 20
2.2.4 Other Useful Keys 20
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2.1 CENTUM VP
CENTUM VP is the worlds first Windows Vista ready DCS.
The primary factors considered during the development of CENTUM VP are:
To realize ideal plant operation for customers. To develop new Operation & Monitoring Environment for operations which provide more
meaningful information. To incorporate a modern, simple, intuitive look and feel.
The basic frame of the new CENTUM VP HMI is designed to facilitate simple and easy access to theright information.
The system message banner at the top displays key information such as alarms and guidance thateveryone must be aware of.
The navigation bar to the left allows users to get to the right information quickly and efficiently.
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The intuitive consolidated alarm management system is now the standard alarm viewer in the new HMI,ensuring role-based delivery of actionable, prioritized information and advisories.
2.1.1 CENTUM VP System Components
CENTUM VP DCS has the following minimum system components.
The Field Control Station FCS)
This is the interface between the field instruments and the control room. This is the component whereall the control functions are executed and hence is a very important and critical component in theoverall system.
The Engineering / Operator Station ENG / HIS)
The operator controls the plant from here. The same component can be used to do the configurationchanges. The operator station or the Man Machine Interface (MMI) is called the Human InterfaceStation (HIS) in CENTUM VP system. The component used for configuration is called the Engineeringstation (ENG). Both these components can reside in one hardware.
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The Communication Network
The FCS and HIS are connected via a real time control network. This communicates all the parametersto and from the Field Control Station to the Human Interface Station. The communication cable for thecontrol network can be an Ethernet cable or V net / VL net cable.
The type of communication cable used is decided by the FCS used in the CENTUM VP system. If thecommunication network is Ethernet based, the system is called a V net / IP system and if it is V net orVL net based it is called as a V net system.
2.1.2 CENTUM VP System Capacity
Maximum number of stations per domain 64 stations
Maximum number of HIS per domain 16 stations
Station number for HIS 1 to 64 in descending order
Station number for FCS 1 to 64 in ascending order
Maximum number of domains 16 per system
Numbering of domains 1 to 64
Maximum number of stations per system 256 per system
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2.2 Operator Keyboard
Operator Keyboard is used along with the HIS for convenient operation.
2.2.1 Parts of Operator Keyboard
Function Keys
Function keys are used for one-touch operations only. These keys can be used to call windows andstart application programs. An LED lamp and a space for writing the assigned service function nameare provided on each key. A total of 32 keys are provided.
Window Call Keys
These keys are used for calling various windows.
Operation Confirmation Keys
These keys are used for verifying operations.[Verify Operation] key: Used for confirming and executing an operation.[Cancel Operation] key: Used for canceling an operation.
Cursor Move Keys
These keys are used for moving the cursor horizontally and vertically.
Function Keys
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Mode Select Key Switch
This key switch is located at the top left of the keyboard and used for specifying the operation range ofthe keyboard.
MODE-OFF
Only the operation and monitoring functions specified in the system generation are allowed.
MODE-ON
In addition to the functions above, modifying the control parameters and other operations are allowed.
MODE-ENG
All functions including operations for the system maintenance functions are allowed.
2.2.2Window Call Keys
These keys are used for calling various windows.
Function of each window calling key is as described below.
This displays the System Status Overview, to allow confirmation of the system operationstatus. It indicates the system alarm message generation state by its LED status.
This Prints the image of the entire screen.
This toggles between the top and bottom positions of the operation and monitoringwindow group and windows general application window group.
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This closes all of the operation and monitoring windows and views except for the System
Message Banner.
This Displays the User-In dialog, window switching menu, operation menu and resetmenu all at once.AUX menu can be called up by pressing down the following keys:[ALT] [CTRL] [F12].
This displays the Help dialog box displaying help related to the active window.
This displays the Process Alarm view to allow confirmation of the alarm content. Itindicates the process alarm occurrence state by its LED lamp indication.
This displays the Operator Guide view or Operator Guide Acknowledgement window.Indicates the operator guide message generation state by its LED lamp.
This displays the Graphic View with control attribute.
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This displays the Tuning View.
This displays the Trend View.
This displays the Graphic View with graphic attribute.
This displays the Process Report View.
Displays the Navigator window.
Displays the hierarchy windows of the active window in ascending order of the sequencedefined in the window hierarchy.
Displays the upper windows in the hierarchy of the active window.
Displays the hierarchy windows of the active window in a descending order based on the
window hierarchy definition.
Displays the Graphic view with overview attribute.
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2.2.3 Operation Control Keys
These keys are used to operate the instrument faceplate.
Switches the action target data in the manual mode (MAN) from the manipulatedoutput value to the set point value.
Increases the target data. While the INC key is being operated, the dataincreases by 1 % of the full scale every 0.2 second. The full stroke of the indexcan be changed after every 20 seconds.
Decreases the target data. While the DEC key is being operated, the datadecreases by 1 % of the full scale every 0.2 second. The full stroke of the indexcan be changed after 20 seconds.
Pressing this key with the INC key or DEC key quadruples the analog dataincrease/decrease speed during INC/DEC operation.
Changes the block mode to the cascade mode (CAS) or semiautomatic mode
(SEMI). Pressing the AUT key with this key held down changes to the cascademode. Pressing the MAN key with this key held down changes to thesemiautomatic mode.
Changes the block mode to manual mode (MAN).
Changes the block mode to automatic mode (AUT).
2.2.4 Other Useful Keys
Confirms and executes the operation.
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Cancels the operation.
Used to move the cursor up and down or to right and left.
Used to display the selected item.
Used to stop the buzzer sound generated by alarm output.
Used to acknowledge the alarm.
Used to scroll the content of the active window.
Reverse paging key.
Sequential paging key
Used to change the data item of action target.
Calls up the name input dialog box.
Used to erase dialog boxes. Triggers the same action as when the ESC key ispressed.
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Table of contents Page Number
3.1 HIS Desktop Layout 24
3.2 System Message Banner 24
3.2.1 Components of System Message Banner 25
3.3 Browser Bar 26
3.3.1 Access Area 27
3.4 HIS Desktop Area 30
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3.1 HIS Desktop Layout
The display layout of CENTUM VP HIS consists of the System Message Banner, Browser Bar, and HISDesktop Area.
System Message Banner
The System Message Banner is always displayed at the top of the screen, and shows the operatorwhether any alarms have occurred in the plant. No window can overlap the System Message Banner.
Browser Bar
The Browser Bar is displayed in the left or right side of the screen, and has the role as the launcher tocall up various operation and monitoring windows. It also helps the user to have a general view of thesystem. Browser Bar can be minimized on the edge of the screen, and be opened for use when it isneeded.
HIS Desktop Area
Views and windows for operation and monitoring of the plant are shown in this area.
3.2 System Message Banner
The System Message Banner is always displayed at the top of the display, and presents alarminformation and provides instant access to frequently used views and priority features. The alarmoccurrence status is shown by colors and flashing of operation buttons, and the message display.
Among the most recent process alarms and system alarms, three unacknowledged alarm messagesare displayed.
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System Message Banner will never be hidden behind other windows.
3.2.1 Components of System Message Banner
The System Message Banner consists of operation buttons, a message display area, a system statusicon display area, a date and time display area and a user information display area.
Process Alarm icon
Indicates that the process alarm has occurred. The number of unacknowledged process alarmmessages is displayed in the lower part of the icon when there are unacknowledged process alarms.Clicking this button will call up the process alarm view.
System Alarm icon
Indicates that the system alarm has occurred. The number of unacknowledged system alarmmessages is displayed in the lower part of the icon when there are unacknowledged system alarms.Clicking this button will call up the system alarm view.
Operator Guide Message icon
Indicates that the operator guide message has occurred. The number of unacknowledged operatorguide messages is displayed in the lower part of the icon when there are unacknowledged operatorguide messages. Clicking this button will call up the operator guide view.
Message Monitor icon
Indicates that the message registered by the user has occurred among various messages of thesequence message and the operation message, etc. This button lights up in green when there areunacknowledged messages. Clicking this button will call up the message monitor window.
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Reset Buzzer icon
Turns the buzzer off. This button has the same function as the buzzer stop key on the operationkeyboard.
Copy icon
Outputs the entire screen image to the printer or file. This button has the same function as the [COPY]key on the operation keyboard.
Message Display Area
Among the process alarm messages, annunciator messages and system alarm messages that havebeen generated, three most recent unacknowledged messages are displayed in the Message DisplayArea of the System Message Banner.
3.3 Browser Bar
The Browser Bar is displayed in the left or right side of the screen, and has the role as the launcher tocall up various operation and monitoring windows. It also helps the user to have a general view of thesystem by showing the tree structures of the operation and monitoring windows and the plantorganization.
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Browser Bar can be minimized on the edge of the screen, and be opened for use when it is needed.The Browser Bar consists of the access area, toolboxes and the button area.
3.3.1 Access Area
The access area is always displayed even if the Browser Bar is closed.The labels of individual toolboxes are displayed in the access area. Clicking a label displays thecorresponding toolbox.The access area consists of the Overview Tool Box, Preset Menu Tool Box, Tool Button Tool Box,Name Input Tool Box and Window History Tool Box.
OVERVIEW TOOL BOX
The Overview Tool Box displays all the windows in tree structure. Double click on the window list toopen the window.
PRESET MENU TOOL BOX
In the Preset Menu toolbox, the user can freely register the functions assignable to the function keys.The preset menu can be registered in the HIS Setup Window. When the preset menu is registered in
the HIS Setup window, the buttons are displayed in the preset menu toolbox. Clicking each buttonexecutes the registered function.
TOOL BUTTON TOOL BOX
Buttons for calling up views and operating windows are displayed in the Tool Button toolbox. Thefollowing two display formats can be switched by the format select buttons.Icons: Displays tool buttons only.List: Displays tool buttons and the description.
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The following operations can be performed using the tool buttons.Calling up windowsWindow operationCalling up builders
The tool buttons displayed in the Tool Button toolbox and their functions are explained below:
Closes all windows except the System Message Banner.
Calls up the hierarchy windows of the active window in ascending order of thesequence defined in the window hierarchy.
Calls up the upper window of the active window.
Calls up the hierarchy windows of the active window in descending order of thesequence defined in the window hierarchy.
Calls up the System Status Overview view.
Calls up the Help window for the active operation and monitoring window.
ICONS LIST
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Calls up the Process Alarm view.
Calls up the Operator Guide view.
Calls up the Graphic view with control attribute.
Calls up the Graphic view with graphic attribute.
Calls up the Graphic view with overview attribute.
Calls up the Tuning view.
Calls up the Trend view.
Calls up the Process Report view.
Calls up the Historical message report window.
Calls up the System View.
Calls up the Recipe view.
Calls up the Report Package.
Calls up the long-term data archive dialog box.
Calls up the active operation and monitoring window in large size.
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Calls up the active operation and monitoring window in mediumsize.
Toggles between the front and back positions of the operation and monitoringwindows and the Windows general application windows.
Calls up the image window.
Switches the active window in sequence when multiple operation andmonitoring windows are displayed.
Calls up the builder related to the active operation and monitoring window.
Calls up the control drawing builder for the active operation andmonitoring window.
3.4 HIS Desktop Area
The HIS Desktop area displays various operation and monitoring windows. The desktop area consistsof the Container window, Frame and View.
Container window:The Container Window is the outermost structure of the HIS display and acts as a"board" to mount display elements (view) for display.
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Frame:A Frame offers a framework to arrange several views for a certain function or purpose to alloweffective operation. A frame is placed in a Container Window.
View: A view is a component displayed in a Container Window. Views are arranged in a frame fordisplay. In the full-screen mode, up to four views can be arranged in one frame.
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4. OPERATION AND MONITORING
WINDOWS
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4.1 Introduction to Operation and Monitoring
Windows
CENTUM VP provides for various operation and monitoring windows for convenience of operation andmonitoring.Operation and Monitoring windows provided by CENTUM VP HMI include:
System defined windows
User defined windows
System defined windows are operation and monitoring windows built into the system.User defined windows are operation and monitoring windows whose display content can be definedas desired by the user at system generation.
4.1.1 System Defined Windows
System defined windows are built into the system. They are provided by default, irrespective of thetype of project. Few of the System defined windows are:
System Message Banner
Instrument Faceplate View
Tuning View
Process Alarm View
Message Monitor Window
Process Report View
System Maintenance Windows
4.1.2 User Defined Windows
User-defined windows can be defined in accordance with the target of operation and monitoring. Theycan play a central role during the operation and monitoring performed by the operator.
Few of the User defined windows are:
Graphic View (Control Attribute)
Graphic View (Overview Attribute)
Graphic View (Graphic Attribute)
Custom Faceplate View
Trend View
Trend Point View
4.2 User Login
CENTUM VP provides for default users and user login to the system. The operators performing theoperations and monitoring functions are classified based on their authority. Each user is given aprivilege level and logs on to the HIS through a User Name and password. The HIS offers the followingdefault user names:
USER NAME PRIVILEGE LEVEL DESCRIPTION
OFFUSER S1 User name for monitoring data
ONUSER S2 User name for operation and monitoring data
ENGUSER S3 User name for maintenance
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A user can log in to the CENTUM VP HIS from the User-In dialog box. From the User-In dialog boxregistering or changing passwords, switching users (user-in), users log-out and shutting down
Windows can be done.
User information
The user name, user group, and the time when the user currently performing operation andmonitoring logged in are displayed.
Change Password
This is used when changing a password. Up to 32 single-byte alphanumeric characters may beentered as a password.
User In
A user logs in with the user name entered in the User-In dialog box.
User Out
The user with the user name entered in the User-In dialog box logs out.
Shut Down
This is used to shut down Windows. This button is displayed only when the user has logged in with theprivilege level S3 (ENG User).
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5. INSTRUMENT FACEPLATE
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Table of contents Page Number
5.1 Instrument Faceplate 38
5.2 Calling Instrument Faceplate 39
5.2.1 Calling Instrument Faceplate from NAME Icon 39
5.2.2 Calling Instrument Faceplate from Window History Tool Box 40
5.3 Components of Instrument Faceplate 40
5.3.1 Comment Display Area 41
5.3.2 Status Display Area 41
5.3.2.1 Tag Mark 41
5.3.3 Parameter Display Area 42
5.3.4 Instrument Display Area 43
5.3.5 Operation Mark 43
5.3.6 Data Entry Dialog Call Button 44
5.4 Operations on Instrument Faceplate 44
5.4.1 SV Operation 44
5.4.2 Block Mode Change Operation 45
5.4.3 Data Entry Operation 46
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5.1 Instrument Faceplate
The Instrument Faceplate indicates the status of a function block in the form of a window. Theinstrument faceplate displays the status and data of a function block, an instrument or contact I/Ographically and compactly on a window.When an instrument is created in the engineering builder, the instrument faceplate windowautomatically gets created depending on the type of the instrument. The Instrument Faceplate is usednot only for monitoring but also for changing or setting of parameters and changing modes byoperating the instrument faceplate.
The figure below shows examples of various Instrument Faceplates.
The faceplates of the function blocks are classified into various display types. The display types aregrouped according to their display characteristics. The display types are:
Analog typeSuch as PID controller block family.
Discrete typeSuch as Three-Position Motor Control Block (MC-3), Switch Instrument Block with 1 Output(SO-1) and Batch Status Indicator Block (BSI).
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Faceplate block typeSuch as Extended 5-Push-Button Switch Block (PBS5C), Triple-Pointer Manual Station Block(INDST3) and Extended Hybrid Manual Station Block (HAS3C).
Data display typeSuch as Sequence Table Block (ST16).
5.2 Calling Instrument Faceplate
Instrument faceplate window can be called on any window and the instruments can be directlyoperated from this window.
5.2.1 Calling Instrument Faceplate from NAME Icon
To call an instrument faceplate, select theNAMEIcon. Type the Tag Name of the instrument and click
on Call. The Instrument Faceplate is displayed.
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5.2.2 Calling Instrument Faceplate from Window History Tool Box
The Window History tool box lists up to 30 calls of views or frames or windows. If a faceplate hasalready been called, double clicking on the line of the display history log opens the faceplate.
5.3 Components of Instrument Faceplate
The instrument faceplate consists of the following components: Comment display area Status display area Parameter display area Instrument display area Operation mark Data input dialog box call button
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The following section describes each component displayed in the instrument faceplate.
5.3.1 Comment Display Area
The Tag name and Tag comment fall in this area.Tag Name - The tag name assigned to the function block is displayed on the instrument faceplate.Tag Comment - The tag comment assigned to the function block is displayed on the instrument
faceplate. The user can specify a desired tag comment.
5.3.2 Status Display Area
The tag mark, block mode, block status, alarm status, calibration status and alarm ON/OFF status isdisplayed in this area.
5.3.2.1 Tag MArk
This mark indicates the tag priority level of the displayed function block. All function blocks areprovided with tag marks to reflect their priority levels. The table shows the relationship between tagmarks and tag priority levels.
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TAG MARK PRIORITY
Important Tag
Ordinary Tag
Auxiliary Tag 1, Auxiliary Tag 2
The display color of the tag mark indicates the alarm status of the function block. The table shows therelationship between tag mark display colors and alarm status.
COLOR PROCESS STATUS EXAMPLE OF ALARMSTATUS
Blue Alarm Output Off AOF
Red Alarm Occurrence IOP,OOP,HH,HI,LL,LO
Yellow Alarm Occurrence DV,VEL,MHI,MLO
Green Normal NR
White Function Block that has no alarm function -
Gray Communication Error -
5.3.3 Parameter Display Area
The process data of the data items like process value (PV), set value (SV) and manipulated value (MV)are displayed in this area.
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5.3.4 Instrument Display Area
The Instrument Display Area primarily consists of the Instrument Faceplate Scale. This is a displayscale used for bar graphs and pointers. The high/low limits, reverse scale display, and the number ofdivisions of scale can be viewed from here.
5.3.5 Operation Mark
The operation mark is a mark with comment attached to an instrument faceplate. It can temporarilychange the operation status (permission/prohibition) of the instrument faceplate.When an operation mark is attached to a function block, a colored label is attached to the instrument
faceplate. The operation permission/prohibition status of the instrument faceplate may be temporarilychanged.Attaching or removing an operation mark may be carried out in the operation mark assignment dialogbox called up from the Tuning view.
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5.3.6 Data Entry Dialog Call Button
The data entry dialog box call button on the instrument faceplate is used to call up the data entrydialog box. Clicking the button displays the data entry dialog box.
The data entry dialog box is used to change data values displayed on the instrument faceplate.
5.4 Operations on Instrument Faceplate
The following operations may be performed on the instrument faceplates displayed in the activewindow:
SV Operation
Block mode change Operation
Data Entry Operation
5.4.1 SV Operation
The set point value can be changed:
By clicking on the SV pointer
By clicking on the Set Value in the Parameter display area
From the data entry dialog box
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5.4.2 BLOCK MODE CHANGE OPERATION
On clicking the block mode, a dialog box for changing the block mode will be displayed. The blockmode can be changed from here.
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5.4.3 Data Entry Operation
All the other parameters like MV, alarm limits and index limits can be set by the data entry operation.
Click on the data entry dialog box call button to open the data entry dialog box. Click on ITEM to selectthe desired parameter.
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6. FUNCTION BLOCK MODES AND
ALARM STATUS
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Table of contents Page Number
6.1 Function Block Modes 496.1.1 Manual Mode (MAN) 49
6.1.2 Auto Mode (AUT) 49
6.1.3 Cascade Mode (CAS) 49
6.1.4 Primary Direct Mode (PRD) 50
6.1.5 Initialization Manual (IMAN) 50
6.2 Function Block Alarm Status 51
6.2.1 Process Alarm Status 51
6.2.2 Alarm Output Off 52
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6.1 Function Block Modes
Block mode indicates the current mode in which an instrument is operating. There are different modesavailable for an instrument.
MAN (Manual)
AUT (Auto)
CAS (Cascade)
PRD (Primary Direct)
6.1.1Manual Mode MAN)
In this mode the instrument or function block needs to be manually operated.The manipulated value (MV) or set value (SV) can be changed by the user.In manual mode, the MV pointer appears in red colour and the SV pointerappears in yellow colour.
6.1.2 Auto Mode AUT)
In this mode the operator would provide the desired set point. The instrumentwould respond automatically to the PV changes based on the set point given bythe operator and would generate the MV values.
In Auto mode, the SV pointer appears in red colour and the MV pointer appearsin yellow colour. While the SV of the instrument can be changed, the MV cannotbe changed by any method in this mode.
6.1.3 Cascade Mode CAS)
In a cascade loop the output of the primary controller (MV1) goes as set pointof the secondary controller (SV2). The output of the secondary controller (MV2)goes to the final control element.
For a cascade loop, the primary controller can be in AUT or MAN mode, but thesecondary controller has to be in CAS mode. In cascade mode both the SV andMV pointers appear in yellow color. Both the SV and MV cannot be changed.
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6.1.4 Primary Direct Mode PRD)
In normal cascade mode the output of the primary controller (MV1) goes as set point of the secondarycontroller (SV2). The output of the secondary controller (MV2) goes to the final control element.
In PRD mode the output of the primary controller (MV1) directly goes to the final control element. Thesecondary controller is bypassed and cannot be operated.
The PRD mode can be set from the tuning view of the secondary controller.
6.1.5 Initialization Manual IMAN)
IMAN is not a mode status, but a mode sub-status.In a cascade loop, if the cascade is broken by taking the secondary controller from CAS to either AUTor MAN mode, IMAN appears as the mode sub status of the primary controller.
IMAN indicates that
Cascade loop is broken Primary controller is bypassed
Primary controller cannot be operated due to SV tracking.
In SV tracking the output of the primary controller (MV1) automatically tracks the set point of thesecondary controller (SV2) to have bump less transfer to CAS mode.
The primary controller can be brought out of IMAN mode by changing the mode status of thesecondary controller to CAS. The primary controller will automatically come out of IMAN mode andstart functioning normally.
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6.2 Function Block Alarm Status
Alarm processing in a DCS can be classified into two types: System Alarm
Process Alarm
System Alarm
The system alarm notifies operator of the abnormalities in the hardware and communication errors.The type and contents of the system alarm are predetermined.
Process AlarmThe process alarm notifies operator of the occurrence and recovery of abnormality in the process.The type and contents of the process alarm are predetermined.
When an alarm occurs, the alarm is indicated on the faceplate, tuning view, System Message Bannerand is also listed in the Process Alarm View. It indicates a color change and an audible buzzer sound.
6.2.1 Process Alarm Status
The table shows the list of process alarms that an instrument can have. It also indicates the settingsrequired for the alarms and the color change when the alarm occurs. The settings for the processalarms can be set in the tuning view.
ALARM
STATUS
PROCESS
STATUS
ALARM
SETTINGS
ITEM TO BE SET
IN THE TUNNG
VIEW
PV BAR
COLOR
TAG
MARK
COLOR
NR PROCESSNORMAL
----- ------ GREEN GREEN
HH PV VERY HIGH PV > HH HH RED REDHI PV HIGH PV > PH PH RED RED
LL PV VERY LOW PV < LL LL RED RED
LO PV LOW PV < PL PL RED RED
DV+/- DEVIATIONALARM
DV > DL; DV =PV-SV
DL DEVIATIONLIMIT
YELLOW YELLOW
VEL+/- VELOCITYALARM
VEL =PV / T
VL VELOCITYLIMIT
YELLOW YELLOW
MHI MV HIGH MV > MH MH YELLOW YELLOW
MLO MV LOW MV < ML ML YELLOW YELLOW
IOP+/- INPUT OPEN INPUT IS OUTOF RANGE
CHECK RAWVALUE IN TUNING
VIEW
RED RED
OOP OUTPUT OPEN OUTPUT LINEIS OPEN
---- RED RED
The alarms are displayed on the faceplate or tuning view based on priority. The highest priority alarmappears on the faceplate while the remaining alarms are displayed in the System Message Banner.Thealarm priority is as shown:
IOP/OOP
HH/LL
HI/LO
DV+/VEL+
MHI/MLO
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6.2.2 Alarm Output Off
Normally when an alarm occurs The tag mark changes color depending on the type of the alarm.
Audible alarm is heard.
The alarm status (HI/LO/HH/LL etc) is displayed on the faceplate, tuning view and processalarm view.
When the alarm needs to be put off, the Alarm Output Off is used. It is not a process alarm but analarm sub status. The alarm can be put off from the tuning view.
In Alarm Output Off (AOF) mode
The tag mark changes to dark blue color irrespective of the alarm.
Audible alarm is put off.
The alarm status is displayed only on the instrument faceplate and tuning view.
All the alarms status except IOP & OOP on the instrument is not listed in the process alarmview or in the System Message Banner.
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7. TUNING VIEW
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Table of contents Page Number
7.1 Tuning View 55
7.2 Calling Tuning View 55
7.2.1 Calling Tuning View from NAME Input Tool Box 55
7.2.2 Calling Tuning View from Window History Tool Box 56
7.2.3 Calling Tuning View from Faceplate 57
7.2.4 Calling Tuning View from Tool Button Tool Box 57
7.3 Components of Tuning View 587.3.1 Toolbar of Tuning View 58
7.3.2 Parameter Display Area 61
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7.1Tuning View
The Tuning view displays a detailed control status for individual function blocks. This window can be
used for monitoring and be used to change tuning parameters.
It can also be used for attaching and removing operation marks. The Tuning view is automaticallycreated when a function block is created on the Function Block Overview Builder.
7.2 Calling Tuning View
Tuning View can be called on any window and the parameters can be directly set from this window.
7.2.1 Calling Tuning View from Name Input Tool Box
To call a tuning view, select theNAMEIcon. The syntax for calling the tuning view is: TAGNAME space
TUN. The window size can also be specified if required.
In such a case the syntax would be:
TAGNAME TUN {SL} to open a large size view
TAGNAME TUN {SM} to open a medium size view
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7.2.2 Calling Tuning View from Window History Tool Box
The Window History tool box lists up to 30 calls of views or frames or windows. If a tuning view has
already been called, double click on the line of the display history log to open the tuning view.
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7.2.3 Calling Tuning View from Faceplate
If the faceplate is already opened, the tuning view can be called from the faceplate. Right click on thefaceplate to open the menu. Select Tuning to open the tuning view.
7.2.4 CALLING TUNING VIEW FROM TOOL BUTTON TOOL BOX
If the faceplate is already opened, the Tuning View can be called from the Tool Button tool box. Clickon the Tuning icon to open the Tuning View. The tuning view of the particular instrument would beopened.
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7.3 Components of Tuning View
The Tuning View consists of a toolbar, parameter display area, tuning trend display area andinstrument faceplate.
7.3.1 Toolbar of Tuning View
Hard Copy ButtonThis button outputs the image of the Tuning view currently displayed.
Acknowledge ButtonThis button acknowledges the alarm generated in the function block that is displayed.
Reserve ButtonWhen this button is pressed down, the tuning trend data continues to be collected evenwhen the Tuning view is closed; and the tuning trend is displayed when the Tuning view iscalled up the next time. This button can be used when the tuning trend is displayed.
Stop / Resume ButtonWhen this button is pressed down, the tuning trend display pauses. To resume updatingthe display, return the button to its original state.When the button is returned to the original state, the tuning trend display resumes from the
present time.
These buttons can be used to enlarge or reduce the tuning trend graphdisplay.
Primary Direct Mode ButtonClicking the PRD button changes the function block to the primary direct block mode.When this button is clicked, a dialog box appears to prompt for the operators confirmation.On confirmation, the block mode changes to PRD.
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Alarm Output Off ButtonClicking this button changes the function block mode to Alarm Output Off (AOF) mode andsuppresses the alarms. When this button is clicked, a dialog box appears to prompt foroperators confirmation. To return to the original state, click this button again.
Calibration ButtonClicking this button may change the data status to calibration status. When this button isclicked, a dialog box appears to prompt for the operators confirmation.
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To return to the original state, click this button again.
When an instrument is put in CAL mode:
CAL appears on the instrument faceplate. The PV bar changes to cyan colour.
The Instrument automatically comes to MAN mode.
The actual transmitter input is bypassed.
PV of the instrument can be changed.
All the alarms checking on the instrument are bypassed.
Calibration mode can be used when there is a failure in transmitter and the interlocks need to besustained.Calibration mode can be used only if the process is normal and transmitter has failed.
Operation MarkThe operation mark is for notifying the user of function block conditions such asequipment maintenance, malfunctioning and operation prohibited. By looking at theinstrument faceplate or tuning view the operator can be made aware of the function block
status.This button calls up the Operation Mark Assignment dialog box.
Clicking on the Operation Mark button opens the Operation Mark Assignment dialog box. Theoperation marks created would appear in the dialog box.
Select Setting, and select the operation mark to be assigned to the instrument faceplate and click the[OK] button.
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Control Drawing Button
Clicking this button calls up the Control Drawing view.
RAW ButtonThis button calls up a dialog box to display RAW data.
RAW is actual input in terms of %. 4mA from the transmitter will be indicated as 0% input and 20mAfrom the transmitter will be indicated as 100% input. PV is actual input in terms of engineering unit.
7.3.2 Parameter Display Area
The present values of the function block parameters are displayed in the parameter display area ofthe Tuning view. The types of displayed parameters vary with the type of function blocks.
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Only the tuning parameters indicated with a = in the tuning view can be changed.
The Tuning view is used to set up the alarm setting as well as the loop tuning parameters.
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8. DIGITAL INSTRUMENTS
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Table of contents Page Number
8.1 Contact Input 65
8.2 Contact Output 66
8.3 Software Switches 68
8.3.1 Common Switches 68
8.3.2 Global Switches 68
8.4
Switch Instrument 69
8.4.1 SIO Normal Operation 69
8.4.2 SIO Abnormal Operation (ANS+) 71
8.4.3 SIO Abnormal Operation (ANS-) 71
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8.1 Contact Input
Contact inputs are process inputs which handle ON/OFF signals such as DC voltages and currents.The ON/OFF signal is a digital value of either 0 or 1, which together with an indication of the quality ofthat value, shows the status of the process data item.
Contact input modules are classified into the following two types according to the input signal.
Status input moduleUsed for monitoring the status of contact inputs. ON/OFF status of input contact signals is used as themeasured value (raw data).
Pushbutton input moduleUsed for the input signal from pushbutton switches where the signal status change from ON to OFF orvice versa is momentary.
Contact Inputs are used to indicate:
ON / OFF status of pumps, motors, heaters, etc.
OPEN / CLOSE status of on-off valves.
The faceplate of contact inputs is as shown. The faceplates canbe called from the Name Input Tool Box.
The system code for contact inputs is:%ZnnusccSddss where,
%Z - Process Input/Output
nn - node numberu - I/O unit numbers - Slot numbercc - Channel numberS - Stationdd - Domain numberss - Station number
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A potential free contact is taken from the equipment under operation in the field to indicate whetherthe equipment is running or not. In case of valve, contact is taken from limit switches to indicatewhether the valve is open or close in the field at any point of time. These signals are wired as contact
inputs to the system. When the digital input process value is 1, it indicates that physically the contactconnected to the Digital Input card is closed in the field.
When the digital input process value is 0, it indicates that physically the contact connected to theDigital Input card is open in the field.
8.2 Contact Output
Contact outputs are process outputs which handle ON/OFF signals such as DC voltages and currents.The ON/OFF signal is a digital value of either 0 or 1, which together with an indication of the quality of
that value, shows the status of the process data item.
Contact Outputs are used to:
Switch ON / OFF pumps, motors, heaters etc
OPEN / CLOSE on-off valves.
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The system code for process outputs is:%ZnnusccSddss where,
%Z - Process Input/Outputnn - node numberu - I/O unit numbers - Slot numbercc - Channel numberS - Stationdd - Domain numberss - Station number
The faceplate of contact outputs is as shown. The faceplates can be called from the Name Input ToolBox.
Each contact output is physicallyconnected to a relay. This relay is in turnconnected to the equipment or solenoidin the field.
When the digital output process value is1, the relay connected to the digitaloutput is energized. Hence theequipment or the solenoid connected tothe relay is energized.
When the digital output process value is0, the relay connected to the digital
output is de-energized. Hence theequipment or the solenoid connected tothe relay is also de-energized.
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8.3 Software Switches
Software inputs/outputs are virtual inputs/outputs that are provided by the FCSs internal software.These software inputs/outputs also called as internal switches are classified into:
Common switches
Global switches
Switches are used to store intermediate variables in the interlocks. Switches are used for applicationslike Auto / Manual selection, pump selection, speed selection, bypass selection etc..
8.3.1 Common Switches
Common switches are internal switches used by various control functions to save the shared logicalvalues in an FCS. The logical value of a common switch is not directly output to an external FCS, butare used by various control functions in an FCS for condition testing and status manipulation.
The System Code for Common switches is: %SWxxxxSddss%SWxxxx - Switch number (0001 - 4000)dd - Domain numberss - Station number
Common switches with element number %SW0001 to %SW0400 are fixed as system switches.Common switches with element number %SW0401 to %SW4000 may be freely defined by users.
8.3.2 Global Switches
A global switch is an internal switch with the same logical value on all stations in the same domain.The value of global switch assigned to the present station can be checked and defined from anyapplication on a station. Up to 256 write-enable global switches can be assigned to each station.
The System Code for global switches is: %GSxxxxSddss%GSxxxx - Switch number (0001 - 0256)dd - Domain numberss - Station number
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The defined value is broadcasted to each station in the system via control bus scan transmission whendata transfer to other stations is defined at Scan Transmission Definition on the FCS ConstantsBuilder.The values of global switches are updated at the same time mostly on all stations in the system. Thevalues are updated by 100 msec, which is fixed. With this function, status information can betransferred from one station to the control function of another station with very little delay.
8.4 Switch Instrument
The switch instrument block is a function block whichis often used to start/stop motors and pumps andmonitor or manipulate open-close state of the motor-operated valves.
In most cases, this type of blocks is used incombination with the sequence table block (ST16,ST16E) and the Logic Chart Block (LC64).
The faceplate of the SIO block is as shown. MV is theoutput signal of the SIO block and the command to the
field instrument. PV is the answerback signal receivedfrom the field to the SIO block.
8.4.1 SIO Normal Operation
The normal operation of SIO is as explained.When MV=2, the DO is ON, the output relay isenergized. The equipment connected to the relay isON.The answerback DI is taken from the contact of theequipment. Since the equipment is ON, the contactcloses. So the DI is ON, then PV becomes 2.
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When MV =0, DO is OFF, the output relay is de-energized. The equipment connected to the relay isOFF.Since the equipment is OFF, the answerback contact opens. So the DI is OFF, then PV becomes 0.
Alarm Status is NR in the above conditions.
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8.4.2 SIO Abnormal Operation ANS+)
Let us consider the abnormal operation of the SIO.
When MV=2, theDO is ON, theoutput relay isenergized. Theequipmentconnected to therelay is ON.If the answerbackDI is not ON, thenPV=0, SIOgenerates anANS+ alarmautomatically.
This alarm isdisplayed in theSystem MessageBanner andrecorded in theProcess AlarmView.
8.4.3 SIO Abnormal Operation ANS-)
When MV=0, the DO is OFF, the output relay is de-energized. The equipment connected to the relay isOFF.
If the answerback DI is still ON,then PV=2, SIO generates an ANS-alarm automatically.This alarm is displayed in theSystem Message Banner andrecorded in the Process AlarmView.
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9. GRAPHIC VIEW CONTROL
ATTRIBUTE)
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Table of contents Page Number
9.1 Graphic View (Control Attribute) 74
9.2 Calling Control Group View 75
9.2.1 Calling Control Group View from NAME Input Tool Box 75
9.2.2 Calling Control Group View from Window History Tool Box 75
9.2.3 Calling Control Group View from Tool Button Tool Box 76
9.2.4 Calling Control Group View from Overview Tool Box 76
9.3 Control Group View Details 779.3.1 Assigning Instruments 77
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9.1 Graphic View Control Attribute)
A graphic view with control attribute is used to display multiple instrument faceplates. Maximum 8 or16 instrument faceplates can be displayed in one Graphic view with Control attribute. The instrumentscan be monitored and operated from this window.
An 8 faceplate display is as shown.
A 16 faceplate display is as shown.
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9.2 Calling Control Group View
The Control Group View can be called by a number of different ways.
9.2.1 Calling Control Group View from Name Input Tool Box
To call a control group view, select theNAMEIcon. The syntax for calling the control group view is:WINDOW NAME. The window size can also be specified if required. In such a case the syntax wouldbe:
WINDOW NAME {SL} to open a large size view
WINDOW NAME {SM} to open a medium size view
9.2.2Calling Control Group View from Window History Tool Box
The Window History tool box lists up to 30 calls of views or frames or windows. If a control group viewhas already been called, double click on the line of the display history log to open the Control GroupView.
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9.2.3 Calling Control Group View from Tool Button Tool Box
If the faceplate is already opened, the Control Group View can be opened from the Tool Button toolbox. Click on the Control icon to open the Control Group view. The Control Group view opened wouldhave the faceplate in it.
9.2.4 Calling Control Group View from Overview Tool Box
The Control Group view can also be called from the Overview Tool Box. The Overview tool box lists allthe windows used in the project under the View tab. Double click to open the Control Group view.
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9.3 Control Group View Details
The control group view is used to display multiple instrument faceplates. A maximum of 8 or 16instrument faceplates can be displayed in one Control Group view. Normally the instruments can bemonitored and operated from this view.
An 8 faceplate control group view shows normal width of Instrument Faceplates. All the dataregarding the instrument can be viewed and operated upon.
Double click on the Instrument faceplate to open the individual faceplate view. Monitoring andoperations can also be done from the faceplate view.
9.3.1 Assigning Instruments
While operating from the control group view, new faceplates can be added or existing faceplates canbe removed from the Control Group view.An instrument can be assigned from the Faceplate Assignment icon. In the Faceplate Assignmentdialog box that opens, the tag names can be modified.
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In the Faceplate Assignment dialog box that opens, the Tag Name of the instrument that needs to beviewed can be entered. If a faceplate is to be removed, that can also be done from the FaceplateAssignment dialog box.
The assignments made from the Faceplate Assignment dialog box are temporary assignments and areretained till the HIS is powered off.
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10. TREND VIEW
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Table of contents Page Number
10.1 Concept of Trend View 8110.1.1 Structure of Trend Recording 81
10.1.2 Trend Format 83
10.1.3 Sampling Period 84
10.1.4 Recording Span 84
10.2 Calling Trend View 85
10.2.1 Calling Trend View from NAME Input Tool Box 85
10.2.2 Calling Trend View from Window History Tool Box 86
10.2.3 Calling Trend View from Faceplate 86
10.2.4 Calling Trend View from Tool Button Tool Box 87
10.2.5 Calling Trend View from Overview Tool Box 87
10.3 Components of Trend View 88
10.3.1 Toolbar of Trend View 88
10.3.2 Trend Graph Display Area 90
10.3.3 Legend Area 90
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10.1 Concept of Trend View
The Trend view can be used for displaying various graphs of process data changed along with timeaxis. The change of process data with respect to time is referred to as trend data. On a Trend view, upto 8 trends of process data can be displayed.
10.1.1 Structure of Trend Recording
By using the Trend Recording function, process data such as temperature, pressure and flow ratecoming into the Control Station are gathered by the HIS, and the time-series changes in the processdata are displayed as a graph (trend graph).
The trend recording consists of:
Trend data acquisition
Trend data display
Closing processing
The Trend Recording has a three-layer structure:
Trend Block
Trend Group
Trend PenAcquired trend data can be displayed as graphs in the Trend View and the Trend Point View.CENTUM VP provides for up to 50 blocks of trend per HIS. Each block in turn consists of 16 groups or16 trend views. Under each group, up to 8 trend data can be assigned. Thus the trend data for up to6400 pen can be recorded.
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TREND BLOCK
The type of trend data acquisition and sampling period are specified for each trend block in thebuilder. Of the 50 trend blocks, 26 blocks can be defined as the trend format of Continuous-Rotary
Type, Batch-Stop Type or Batch-Rotary Type.The remaining 24 trend blocks can be defined as the reference of the trend data acquired by other HIS.
TREND VIEW
Eight pens of trend data can be assigned to a Trend View. A trend block has 16 trend views.
TREND POINT VIEW
The Trend Point view is called up from the Trend View and displays data for a single trend pen.
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10.1.2 Trend Format
Trend data acquisition can be specified for the following 4 types:
Continuous-Rotary TypeBatch-Stop TypeBatch-Rotary TypeOther-Station-Reference type (Other Station Acquisition Trend)
Continuous-Rotary Type
In this type, the trend data are acquired constantly.After the HIS is started, the data acquisition is started automatically and continued until the HIS isshutdown. The acquired data will be retained even if the HIS is shutdown.
After the maximum number of samples is reached, the data acquisition continues by overwriting theoldest data with new data.
Batch-Stop Type
Using this type, trend data acquisition starts and stops according to the received commands. If nostop command is received, the data acquisition will stop automatically after acquiring the maximumnumber of samples.
Batch-Rotary Type
Using this type, trend data acquisition starts and stops according to the received commands. Oncestarted, the data acquisition continues until a stop command is received. If the maximum number ofsamples is reached before receiving a stop command, older data are overwritten with new data.
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Other-Station-Reference Type Other Station Acquisition Trend)
Using this type, the trend data acquired by other HIS are referenced in trend block units.
10.1.3 Sampling Period
The sampling period of trend data is defined for each trend block in the Properties sheet of the TrendAcquisition Pen Assignment Builder.
The sampling period for the trend blocks can be:
1 second
10 seconds
1 minute
2 minutes
5 minutes
10 minutesThe number of trend blocks that can be specified for the sampling periods of 1 minute, 2 minutes, 5minutes, or 10 minutes is 18 in total. The number of trend blocks that can be specified for the samplingperiods of 1 second or 10 seconds is 8 in total.
10.1.4 Recording Span
The Recording Span is determined by the specified sampling period. The recording span is the timetaken to acquire data for the maximum number of samples with the specified sampling period. Themaximum number of samples is 2880 (fixed).The total recording span for each sampling period is as shown in the table.
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SAMPLING PERIOD TOTAL RECORDING TIME(2880 samples / pen)
1 second 48 minutes
10 seconds 480 minutes (8 hours)
1 minute 48 hours ( 2 days)
2 minutes 96 hours (4 days)
5 minutes 240 hours (10 days)
10 minutes 480 hours (20 days)
10.2 Calling Trend View
There are various ways of calling the Trend View.
10.2.1 CALLING TREND VIEW FROM NAME INPUT TOOL BOX
Trend View can be called from theNAMEIcon. The syntax for calling the trend view is: TGxxyy.TG stands for the Trend Group, xx Block Number and yy Group Number. The window size can also bespecified if required.The syntax would be:
TGXXYY {SL} to open a large size view
TGXXYY {SM} to open a medium size view
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10.2.2 Calling Trend View from Window History Tool Box
The Window History tool box lists up to 30 calls of views or frames or windows. If a trend view hasalready been called, double click on the line of the display history log to open the Trend View.
10.2.3 Calling Trend View from Faceplate
If the faceplate is already opened, the trend view can be called from the faceplate. Right click on thefaceplate to open the menu. Select Trend to open the Trend View.
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10.2.4 Calling Trend View from Tool Button Tool Box
If the faceplate is already opened, the control group view can be opened from the Tool Button tool box.
Click on the Trend icon to open the Trend view.
10.2.5 Calling Trend View from Overview Tool Box
The Trend view can also be opened from the Overview Tool box. The Overview tool box lists all theviews used in the project. Select the trend view and double click to open the view.
Overview Tool Box
Double click on theTrend view to be
opened
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10.3 Components of Trend View
The Trend View consists of a toolbar, trend graph display area and legend area.
10.3.1 Toolbar of Trend View
Hard Copy button: This button outputs the image of the currently displayed Trend View.
Pen Assignment button: This button is used to call up the Trend Pen Assignment dialog box.
Stop / Resume display button: Updating of Trend View display is temporarily suspendedwhen this button is pressed. When the button is pressed again, the updating of displayrestarts from the present time.
Reduce / Enlarge axis button: The four buttons can be used toReduce/Enlarge time and data axis.
Pen Number button: When this button is pressed down, the pen number is displayed on thetrend graph.
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Display Mode button: This button switches display modes. A menu is displayed when thisbutton is clicked, and standard mode, various tile modes or zoom mode can be selected.The default setting is Standard Mode.
Select target for scroll button: When trend data and reference patterns are superimposed inthe graph, this button selects the target of scrolling.
Display Reference button: When the trend data to which reference patterns are assignedare displayed, this button selects whether to show or hide the trend data and referencepatterns.
Trend Point View button: This button calls up the trend point view of the selected pen.
Display Initialization button: When the trend graph scales have been changed, clicking on
this button returns the trend graph display to the initial state.
Index Initialization button: This button moves the main index mark to its initial position(position of the latest data).
Save Data button: This button saves the trend data displayed in the Trend View in a file.
Read Data button: This button is used to display the trend data saved in a file.
Stop/Resume Collection button: This button pauses or stops trend data acquisition. Thisbutton can be used in the case of batch trend acquisition.
Start Collection button: This button starts batch trend acquisition. When the batch trendacquisition is started, the trend data displayed before is lost.
Redisplay button: This button calls up the Trend View again. When the Trend View is
showing trend data saved in a file, clicking this button resumes real-time data display.
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10.3.2 Trend Graph Display Area
In the trend graph display area of the Trend View, the acquired trend data are displayed. The trend
graphs are displayed in distinct colors for different trend pens.
10.3.3 Legend Area
In the legend area, information on each trend pen displayed in the graph is displayed.
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There are the following three types of legend display:
Grid type
Floating type
Bar typeWhen the Trend View is called, legends are displayed in the grid-type format. By switching to the
floating type or bar type, legends are displayed in simplified format to make the graph easy to see.
GRID TYPE
Grid-type legends are shown below the trend graph and display the detailed information of individualpens. The instantaneous values of the trend data at the main index mark position are displayed in thedata value fields.
FLOATING TYPE
In the floating format, the display size and the display position can be changed by mouse operation. Toset a floating type legend, right click on the trend graph and open the menu. Select Window-Legend-Floating type. The simplified format makes the graph easy to see.
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BAR TYPE
In the bar format, legends display is reduced to a single line below the graph. To set a bar type legend,right click on the trend graph and open the menu. Select Window-Legend-Bar type.The entire strings of the tag name, item name and tag comment can be read in the popup display bymoving the mouse cursor on the legend.
In all types of legend display, the following operation can be done:
Double-clicking a pen calls up the faceplate.
Check box operation selects show/hide of the pen.
Right clicking on the pen opens the tuning or process alarm or control group view.
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11. GRAPHIC VIEW
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Table of contents Page Number
11.1 Graphic View (Graphic Attribute) 9511.1.1 Components of Graphic View 95
11.2 Calling Graphic View 96
11.2.1 Calling Graphic View from NAME Input Tool Box 96
11.2.2 Calling Graphic View from Window History Tool Box 97
11.2.3 Calling Graphic View from Tool Button Tool Box 98
11.2.4 Calling Graphic View from Overview Tool Box 98
11.3 Graphic View (Overview Attribute) 99
11.4 Calling Overview View 99
11.4.1 Calling Overview View from NAME Input Tool Box 99
11.4.2 Calling Overview View from Window History Tool Box 100
11.4.3 Calling Overview View from Tool Button Tool Box 100
11.4.4 Calling Overview View from Overview Tool Box 101
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11.1 Graphic View Graphic Attribute)
The Graphic View with graphic attribute is the most dynamic and colorful view offered by CENTUM VP.This view is the graphical representation of the process with dynamic process values, color changesetc. The view also enables to display the real-time process status. The graphic view is completelyconfigurable by the user as per requirement. The user can create a desired Graphic view usingvarious drawing tools provided in the Graphic Builder.
11.1.1 Components of Graphic View
The graphic view consists of a toolbar and graphic display area.
GRAPHIC VIEW TOOLBAR
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The Graphic View toolbar provides various buttons as described above.
The following alarms can be acknowledged in the Graphic view:
Alarm status of the function blocks defined to trigger blinking
Function blocks defined to trigger blinking in Overview control
Function blocks being monitored by an instrument faceplate
Function blocks being monitored by Overview control
Also, alarms generated by multiple function blocks can be acknowledged globally.
GRAPHIC DISPLAY AREA
In the graphic display area of a Graphic view, the created graphics is displayed.
11.2 Calling Graphic ViewThere are different ways of calling the graphic view.
11.2.1 Calling Graphic View from NAME Input Tool Box
To call a graphic view, select the NAME Icon. The syntax for calling the graphic view is: WINDOWNAME.The window size can also be specified if required. In such a case the syntax would be:
WINDOW NAME {SL} to open a large size view
WINDOW NAME {SM} to open a medium size view
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11.2.2 Calling Graphic View from Window History Tool Box
The Window History tool box lists up to 30 calls of views or frames or windows. If a graphic view hasalready been called, double click on the line of the display history log to open the Graphic view.
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11.2.3 Calling Graphic View from Tool Button Tool Box
If the faceplate is already opened, the Graphic View can be opened from the Tool Button tool box.Click on the Graphic icon to open the graphic view.
11.2.4 Calling Graphic View from Overview Tool Box
The Graphic view can also be opened from the Overview Tool box. The Overview Tool box lists all the
views used in the project. Select the graphic view and double click to open the view.
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11.3 Graphic View Overview Attribute)
The graphic view with overview attribute makes the monitoring of the process easier for the operator.The whole plant monitoring and operating windows can be mapped to the Overview View. Doubleclicking on the push buttons opens the linked views.
11.4 Calling Overview View
There are various ways of calling the Overview View.
11.4.1 Calling Overview View from NAME Input Tool Box
To call an overview view, select theNAMEIcon. The syntax for calling the overview view is: WINDOWNAME.The window size can also be specified if required. The syntax would be:
WINDOW NAME {SL} to open a large size view
WINDOW NAME{SM} to open a medium size view
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11.4.2 Calling Overview View from Window History Tool Box
The Window History tool box lists up to 30 calls of views or frames or windows. If a Overview view hasalready been called, double click on the line of the display history log to open the Overview view.
11.4.3 Calling Overview View from Tool Button Tool Box
If the faceplate is already opened, the Overview View can be opened from the Tool Button tool box.Click on the Overview icon to open the Overview view. This opens the
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