PG L. The Value
Provider for
Power Generation
Management
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Memo
PG L. The Value
Provider for
Power Generation
Management
SPPA-T3000
Basic Engineering &
Operations
PG L332 Training Center
Engineering Training
Alpharetta, USA
Exit
Power Generation l Instrumentation & Controls
SPPA-T3000 Training
1
PG L. The Value
Provider for
SPPA-T3000 Basic Engineering & Operations
Syllabus
Power Generation
Management
Start
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Previous
Memo
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„
„
„
„
„
„
„
„
„
„
„
„
Overview
Basic principles
Project view
Editor
AF-Block, connector and parameter
Transaction concept
Faceplates
Graphics, display hierarchy, navigation
Engineering examples: motor, logic, controller, I/O
Redundancy, availability, dependability
Thin clients
Peripherals (field devices)
Power Generation l Instrumentation & Controls
SPPA-T3000 Training
2
PG L. The Value
Basic Engineering
& Operations
Provider for
Power Generation
Management
PowerPoint
Presentation
Memo
Start
Next
Outline
4
Engineering View
2 Hardware Configuration
5
Operation View
3
6
Documentation
1
Previous
Memo
Software Architecture
7
Exit
Exercises
Power Generation l Instrumentation & Controls
SPPA-T3000 Training
3
Outline
HMI
Engineering
Diagnostics
Power Services
Siemens –
setting new standards in power plant automation
Automation
SPPA-T3000
Classical DCS
„
Sub-systems and multiple internal
interfaces
„
Various tools for HMI, engineering,
diagnostics
„
Different sessions with no navigation in
between
SPPA-T3000
„
All functions embedded in a common
frame, no sub-systems
„
Unified access to central data storage
(engineering data, project data, archive etc.)
„
All tasks performed from any work place
due to Web-based functionality
Power Generation l Instrumentation & Controls
1
A
!
SPPA-T3000
innovating power plant control
SPPA-T3000
Power Generation l Instrumentation & Controls
2
Embedded Component Services® –
intrinsically integrated data
Unique user interface for all tasks
„ All data intrinsically
embedded in every
object
„ Different views
possible for different
user roles
„ All the information is
available, at a glance
SPPA-T3000
Power Generation l Instrumentation & Controls
3
A
!
ECS® – powers the complete system
Minimal system complexity
SPPA-T3000 architecture
User
Interfaces
„
Flat system
architecture with
fewer components
and interfaces
„
New Server contains
all intrinsic functions
for operation,
monitoring, archive,
engineering,
diagnostics – Control
functions provided on
the world best
hardware: SIMATICCPU
„
No sub-system
boundaries, less
administration efforts
required
„
Easy online upgrade
and extension of
components
Hardware assignment
Thin
Clients
Power Services
Power Server
Server
Products
Process
Interfaces
I/O Modules
SPPA-T3000
Power Generation l Instrumentation & Controls
4
A
!
Embedded Component Services® –
freely designable
Customizable design
SPPA-T3000
„
Customizable
according to
users'
requirements,
including
individual look &
feel to reduce
mistakes
„
Free choice of
on-line change
of US/European
symbols
„
Personalized
desktops for
each user’s
responsibilities
and preferences
to optimize
working
processes
Power Generation l Instrumentation & Controls
5
A
!
Embedded Component Services® –
Summary
Unique user interface for all tasks
„
„
Easy to use
Reduces time to indicate disturbances and
increases uptime
Minimal system complexity
„
Less components and internal interfaces, less
administration
„
Minimized optimal specific hardware
Customizable design
„
Tailored solutions to specific customer’s needs, from
look & feel to functionality
„
Optimal adaptation to every working processes
SPPA-T3000
Power Generation l Instrumentation & Controls
6
SPPA-T3000 –
At work…
Operation
Engineering
Maintenance
SPPA-T3000
SPPA-T3000
Power Generation l Instrumentation & Controls
7
Use-case
- Operation –
the power plant at your fingertips
„
Access to all types of data through
multiple views (Plant Display, Point View,
Function Diagram, Diagnostic View)
„
Comprehensive information and
interaction through Point View
„
Forcing, mini trends & online tuning
„
Online configuration of new plant
displays, trends and reports through the
operator interface
Easy to operate - everything under control
SPPA-T3000
Power Generation l Instrumentation & Controls
8
SPPA-T3000
Power Generation l Instrumentation & Controls
9
Easy and fast navigation to any kind of information
Direct links between all views
Alarm sequence display
Dynamic
Function Diagram
Plant Display
Point View
Diagnostic View
Faceplate
„
„
„
„
Excellent supervision through summarized information
Easy access to detailed information through specific views
Fast navigation between all views through direct links
Active user guidance in the event of disturbances or malfunctions
SPPA-T3000
Power Generation l Instrumentation & Controls
10
Safe operation via Faceplates
Examples of Faceplates:
Motor
Navigation from Faceplates:
Continuous Controller
Select options:
Open IC-Diagram
Open Force AF Block
Open Diagnostic View
Open Trend Display
Open Point View
Open Notice
Open Help
„
„
„
„
„
Specific pictograms and faceplates for different automation functions
Safe operation through clear layout and customizable access rights
Buttons are blocked, depended on access rights or feedback signals
Adaptable to specific layout requirements
Fast access to all corresponding detail views and other information
SPPA-T3000
Power Generation l Instrumentation & Controls
11
Operator guidance for fast fault analysis
SPPA-T3000
„
Group alarm indication
in the screen header
„
The affected plant
display can be selected
with one mouse click
„
In the event of more
than one fault, the
selection will be directed
to the corresponding
hierarchy level
„
Loop in alarm:
A direct link to the
affected plant display
Power Generation l Instrumentation & Controls
12
Task-oriented User Interface
Supervisor
Operator Unit 1
„
„
„
„
Operator Unit 2
Oper. Facilities &
I&C Engineer
Service
Flexible definition of user roles with different levels of access rights
User-specific desktop tailored to individual roles
Assignment of users with specific roles to plant areas
Optimized views for operation, engineering, maintenance, service and management
SPPA-T3000
Power Generation l Instrumentation & Controls
13
Easy configuration of Trend Displays via Drag & Drop
„ User defined trend displays can be easily configured via drag and drop of
„
process values
The configuration can be stored with a user-defined name for later reuse
SPPA-T3000
Power Generation l Instrumentation & Controls
14
A
!
"Operator on the move"
Benefits to Plant Floor Operators:
„
„
„
„
Wireless communication based on IEEE 802.11 or Bluetooth
Access to all process values and diagnostic data
Reduction of commissioning effort
Different tasks can be done by one person
SPPA-T3000
Power Generation l Instrumentation & Controls
15
A
!
Use-case
- Engineering –
immediate online modifications
„
Integrated engineering of automation
and HMI with a unique user interface.
Standard interface for field engineering.
„
Embedded data means intrinsic
consistency, no mapping of sub-systems
„
Online configuration changes,
comprehensive checks and logic testing
before activating changes
„
Fast rollback to previous configuration
of the control logic, even with a
non-redundant automation system
Easy to engineer - rapid function implementation
SPPA-T3000
Power Generation l Instrumentation & Controls
16
SPPA-T3000
Power Generation l Instrumentation & Controls
17
Integrated engineering
Integrated object
Classical DCS
Plant Display
SPPA-T3000
Function Diagram
Plant
Display
Function
Diagram
Integrated
object
Data
synchronization
Data
Data
Download
SPPA-T3000
Power Generation l Instrumentation & Controls
18
Flexible and customizable
Switch between Configuration and Operation mode
Easy switch
from Operation to
Configuration mode
Shows
status of process and
engineering
SPPA-T3000
Power Generation l Instrumentation & Controls
19
A
!
Flexible and customizable
Language, Colors, Styles etc.
Customizable ...
Different
Presetting
Colors
Language
Spain
Styles
IEC
IEC with
graphic
French
Sama
German
English
Online changeable
SPPA-T3000
Power Generation l Instrumentation & Controls
20
A
!
Use-case
- Maintenance –
details at a glance
„
Diagnostic functions embedded due
to ECS ® technology
„
Built on standard, off-the-shelf
components, as much as practical
„
No administration of remote setup
required, easy hook-up of experts
„
Online replacement of equipment
„
Context sensitive online diagnostic
information and advice
Easy to maintain - a user-friendly view of each device
SPPA-T3000
Power Generation l Instrumentation & Controls
21
SPPA-T3000
Power Generation l Instrumentation & Controls
22
Event-driven navigation
Connected AF
„
„
„
Every ECS provides at least one Trouble Alarm port
Fast navigation between different alarm presentations
Easy navigation to connected Automation Function instances
SPPA-T3000
Power Generation l Instrumentation & Controls
23
Embedded Component Services ECS® – making
power plant management easy
ECS® Means for YOU –
asy control system
SPPA-T3000
innovating power plant control
SPPA-T3000
Power Generation l Instrumentation & Controls
24
Hardware Config
PG L. The Value
Provider for
Power Generation
Management
SPPA-T3000 Hardware Configuration
Hierarchical levels
Thumbs
Next
Previous
Thin Clients
Memo
User
Interface
Application
Server
Automation
Server
PROFIBUS-DP
PROFIBUS-DP
AddFEM
AddFEM
ET200
Power
Services
ET200
Process
Interface
I/O Modules
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
1
PG L. The Value
Provider for
Power Generation
Management
Thumbs
SPPA-T3000 Hardware Configuration
Process Interface
Standard I/O components
Next
Previous
Memo
•Connected via hardware proxy
•Aassignable I/O parameters
•PROFIBUS DP communication
(bus redundancy optional)
•Standard diagnostic features
•Hot swapping of modules
ET 200 M
PROFIBUS-DP
PROFIBUS-DP
AddFEM
AddFEM
ET200
Exit
SPPA-T3000 Training
ET200
Power Generation l Instrumentation & Controls
2
PG L. The Value
Provider for
Power Generation
ET 200M Station
Management
Thumbs
Next
Previous
Memo
I/O modules
IM 153-2
Profibus
Exit
SPPA-T3000 Training
IM 153-2
Profibus
Power Generation l Instrumentation & Controls
1
PG L. The Value
Provider for
Power Generation
ET 200M Configuration with active bus modules
Management
Thumbs
Next
Previous
Memo
Power
Supply
IM 153-2
I/O modules
Plug-in bus
Bus bar
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
2
PG L. The Value
Provider for
Power Generation
IM 153-2
Management
Thumbs
Next
Previous
Memo
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
3
PG L. The Value
Provider for
Power Generation
PROFIBUS address of IM 153-2
Management
Thumbs
Next
Previous
PROFIBUS
address
Memo
64
+ 32
+ 2
+ 1
=99
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
4
PG L. The Value
Provider for
Power Generation
Digital input module
Management
Thumbs
Next
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Memo
LEDs
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
5
PG L. The Value
Provider for
Power Generation
ET 200M I/O modules
Management
Thumbs
„ Digital input:
Next
Previous
Memo
Digital output:
Input and output:
Analog input:
Analog output:
Exit
SPPA-T3000 Training
SM 321 1BL00
SM 321 1CH20
SM 321 1FH00
SM 321 7BH00
SM 321 1BH02
SM 322 1BH01
SM 322 1BL00
SM 322 1HF01
SM 322 1HF10
SM 323 1BH01
SM 323 1BH81
SM 323 1BL00
SM 331 7KB02
SM 331 7KF02
SM 331 7NF00
SM 331 7NF10
SM 331 7PF00
SM 331 7PF10
SM 331 7SF00
SM 332 5HD01
SM 332 5HF00
32 x 24 V
16 x 48 – 125 VDC
16 x 120 VAC
16 x 24 VDC
16 x 24 VDC
16 x 24 VDC / 0.5 A
32 x 24 VDC / 0.5 A
16 x Relais, 230 VAC
8 x Relais, 230 VAC / 5 A
8 x 24 VDC / 0.5 A
8 x 24 VDC / 0.5 A (outdoor)
16 x 24 VDC / 0.5 A
2 x U, I, R, TC, RTD (12 Bit)
8 x U, I, R, TC, RTD (12 Bit)
8 x U, I (16 Bit)
8 x U, I (16 Bit)
8 x RTD
8 x TC
8 x TC / 4 x RTD
4 x U, I
8 x U, I
Power Generation l Instrumentation & Controls
6
PG L. The Value
Provider for
Power Generation
Modbus CP 341
Management
Thumbs
Next
Previous
„ CP 341 1AH01
Memo
CP 341 1BH01
CP 341 1CH01
Exit
SPPA-T3000 Training
RS232C V.24
20 mA TTY
RS422/RS485
Power Generation l Instrumentation & Controls
7
PG L. The Value
Provider for
Power Generation
Management
SPPA-T3000 Hardware Configuration
Process Interface
Thumbs
Next
Previous
Memo
AddFEM SOE
•Connected via hardware proxy
•Assignable I/O parameters
•PROFIBUS DP communication
(bus redundancy optional)
•Standard diagnostic features
•Sequence of event accuracy 1ms
PROFIBUS-DP
PROFIBUS-DP
AddFEM
AddFEM
ET200
Exit
SPPA-T3000 Training
ET200
Power Generation l Instrumentation & Controls
3
PG L. The Value
Provider for
Power Generation
Management
Thumbs
Next
Previous
Memo
SPPA-T3000 Hardware Configuration
Server Products
Application Server
•WINDOWS based
•Increased dependability
•Webserver
•Project data container
•Non time critical applications
Stratus
ft-server
Aria 4300
PROFIBUS-DP
PROFIBUS-DP
AddFEM
AddFEM
ET200
Exit
SPPA-T3000 Training
ET200
Power Generation l Instrumentation & Controls
4
PG L. The Value
Provider for
Power Generation
Management
Thumbs
Next
Previous
Memo
SPPA-T3000 Hardware Configuration
Server Products
Automation Server
•Based on world market leader SIMATIC
•Time critical applications
•Real time processing
•Hot swap of modules online
•Increased dependability
•PROFIBUS DP Interface
S7 417-H
PROFIBUS-DP
PROFIBUS-DP
AddFEM
AddFEM
ET200
Exit
SPPA-T3000 Training
ET200
Power Generation l Instrumentation & Controls
5
Automation Server
Redundant:
S7 414-4H
S7 417-4H
Single:
S7 414-3
S7 416-2
S7 416-3
S7 417-4
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
1
Power Supply PS 405 and PS 407
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
2
CPU: S7 417-4H
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
3
Synchronization submodule
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
4
Ethernet modul CP 443-1
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
5
DP Master: CP443-5 EXT
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
6
Turbine control: FM 458-1 DP
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
7
PG L. The Value
Provider for
Power Generation
Management
SPPA-T3000 Hardware Configuration
User Interface
Thumbs
Next
Previous
Memo
Thin Clients
PROFIBUS-DP
•e.g. office
PC
•Internet Java technology
AddFEM
•Only browser needed
ET200
•No engineering
or process data
are stored on the Thin Client
Exit
SPPA-T3000 Training
PROFIBUS-DP
AddFEM
ET200
Power Generation l Instrumentation & Controls
6
PG L. The Value
Provider for
Power Generation
Management
SPPA-T3000 Hardware Configuration
Network
Thumbs
Next
Previous
Memo
Network
•Ethernet 10/100 Mbps
•TCP/IP
•One Failure tolerant
•Copper/Fibre Optics
•Electrical/optical switch modules
AddFEM
AddFEM
Exit
SPPA-T3000 Training
OSM TP62
PROFIBUS-DP
PROFIBUS-DP
ET200
ESM ITP80
ET200
Power Generation l Instrumentation & Controls
7
Software Arch.
Alarm
Management
Java
Report
Generator
…
Plant Disp.
Eng. Editor
Alarm List
Diagnostic
…
Session
Management
Plant Display
Servlet
User
Interfaces
Engineering
Servlet
Web Browser
SW Architecture of SPPA-T3000
Power
Services
Application
Server
Automation
Server
Archive
Project Cont. RT Container
(non-realtime)
Application Server
Process
Interfaces
SPPA-T3000 Training
RT Container
(realtime)
Automation
Server
I/O
Modules
Power Generation l Instrumentation & Controls
1
Project Container
„ Central Data Manager
„ Stores and Organizes
ENG
RT Cont.
HMI
DIA
Alarm
Project structure
Hardware topology
Plant displays
Engineering views
Complete documentation
„ Manages and Provides
Session
Archive
Persist.
SPPA-T3000 Training
Persistent storage
Revision Management
Transaction Management
...
Power Generation l Instrumentation & Controls
2
Runtime Container
„ Management and
execution of enclosed
ENG
EXEC
HMI
DIA
Alarm
I&C IN
I&C OUT
Automation Function
Hardware Proxies
Management Proxies
Connections
Execution sequence
Deterministic cycle time
Execution management
„ Bundling of outside
communication lines
Other RT Containers
Faceplates
Alarms
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
3
Automation Function
„ Component with
standardized interface
ENG
EXEC
DIA
I&C IN
HMI
„ Provides the following
main functions:
„ Automation task like all
Alarm
I&C OUT
„
SPPA-T3000 Training
individual drives,
controllers...
Operator Interface
Alarm management
Diagnostic interface
Engineering interface
Execution management
„
„
„
„
„
Connects to other AFBlocks via I&C input
and output
Power Generation l Instrumentation & Controls
4
Hardware Proxies
EXEC
„ Represents a I/O module
ENG
„
DIA
Alarm
I&C IN
I&C OUT
„
„
Maps raw input data to/from
I&C IN/OUT interface
Supervises field device
Gathers diagnostic info
about field device
„ Implements protocol
for communicating with
field device
FD
Hardware Proxy
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
5
PG L. The Value
Provider for
Power Generation
Management
Thumbs
Next
Previous
Memo
Hardware Proxies
„ Hardware proxies are SW
EXEC
representatives of the HW. They
are in the Runtime Containers and
enables the communication.
ENG
DIA
Alarm
I&C IN
I&C OUT
„ A Device Proxy represents a compact field
FD
device e.g. AddFEM
„ A Module Proxy represents a module of a modular field
device. e.g. ET 200 I/O card. It requires another Gateway
Proxy
„ A Gateway Proxy represents a modular field device
with I/O modules. It requires Module Proxies. e.g. ET 200
„ A Communcation Proxy handles the communication with
field devices operating as gateways to subconnected field
devices using Fieldbus Protocols
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
1
PG L. The Value
Provider for
Power Generation
Management
Thumbs
Next
Use of Hardware Proxy (HP)
RTC
HMI
DIA
Alarm
EXEC
HMI
DIA
Alarm
I&C IN
I&C OUT
AF
AF
Previous
Field
ENG
ENG
EXEC
I&C IN
I&C OUT
Field Device
NI
Memo
ENG
EXEC
EXEC
ENG
HMI
DIA
Alarm
AF
I&C IN
DIA
Alarm
I&C IN
I&C OUT
Field NI
Device
I&C OUT
HP
EXEC
ENG
DIA
Alarm
I&C IN
I&C OUT
HP
FD
Comm.
Interface
FD
PROFIBUS DP
„ The HP acts as a driver to a field device. It is representative
of all process signals of a field device and all available
diagnostic information. It also provides device specific,
module specific, and channel specific I&C alarms
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
2
PG L. The Value
Provider for
Power Generation
Management
Thumbs
Use of Module Proxy (MP)
RTC
ENG
Next
Previous
EXEC
HMI
DIA
Alarm
HMI
DIA
Alarm
ENG
I&C IN
AF
Memo
Field
ENG
EXEC
I&C IN
I&C OUT
I&C OUT EXEC
1
HMI
DIA
Alarm
I&C IN
I&C OUT
AF
3 ...
Field device
NI
1
MP
HP
Comm.
Interface
3
MP
PROFIBUS DP
„ To facilitate the handling of more complex field devices like
remote I/O, Module Proxies (MP) have been introduced
„ Thus the function can be split into one general hardwarespecific part (HP) and individual module-specific parts
(MPs), referring to the hardware modules of the field device
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
3
Management Proxies
EXEC
„ Coordination of all
ENG
DIA
Alarm
I&C IN
I&C OUT
SPPA-T3000 Training
software components
and services
„ Provides the following
main functions:
„ Operating system
„ Server components
„ Network communication
„ Field device communication
Power Generation l Instrumentation & Controls
6
Engineering View
Application Server
Web Server
Thin Client
Project container
Engineering
Servlet
Browser
RT container
SPPA-T3000 Training
Plug-in Viewer Components
Power Generation l Instrumentation & Controls
7
Engineering / Runtime View Highlights
„
„
„
„
Component technology leads to simple online changes
Runtime component always consistent with Engineering View
Realtime execution and optimized performance
Full support of components for optimized engineering
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
8
Operating & Monitoring (HMI) View
Application Server
Web Browser
Viewer Applet
Web Server
Thin Client
Plant Display
Servlet
RT
Container
Faceplate
Faceplate
Component
(Applet)
Component
Distributor
Component
Field
Device
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
9
HMI View Highlights
„
Complete integration of web technologies from
browser to Runtime System
„
Bundling of communication to avoid other systems´
communication problems
„
Simple data exchange with standard software tools
(e.g. Excel)
„
Event driven data transfer: Only changed values are
updated
„
SPPA-T3000 Training
Tunneling through firewalls using http protocol
Power Generation l Instrumentation & Controls
10
Diagnostic View
Thin Client
Web Server
Application Server
Diagnostic
Servlet
RT Container
Web Browser
Diagnostic
HTML
page
SPPA-T3000 Training
Field
Device
Power Generation l Instrumentation & Controls
11
Diagnostic View Highlights
„
Complete URL addressing of every process value in the
system
„
„
Dynamic browsing of the plant
Application hosting for additional diagnostic tools
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
12
Highlights of Web Technology
„
Thin clients using only a web browser
„
„
„
„
„
„
Low cost hardware
No additional administration necessary
Software is automatically downloaded by the
browser, not installed locally
World wide access with any device at any time
„
„
Global engineering
Improved service and diagnostic possibilities
HTTP protocol allows tunneling through firewalls
HTML as standard format for documents, XML as
standard format for data exchange
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
13
Summery: Software Architecture
„
„
Total Integration
„
„
Integrated engineering, I&C, HMI, alarm and diagnostic
„
Integration of Turbine Control and Fail Save
Platform independency
„
„
„
„
Consistent views at anytime and one data base
Protection of investment
Free movement of components throughout system
Support of web application service
„
„
Reduces customer’s initial invest
„
Reduced administration costs
Flexible and easy update / upgrade
Openness
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
14
Engineering View
Engineering View
„
Starting the SPPA-T3000 Workbench, opening the views and
create the project structure
General Terms
„
Commit and activate or rollback engineering data in a multi user
environment
Transaction Concept
„
Create and edit Function Diagrams. Insert and parameterize AFBlocks. Create connections
New Function Diagram
„
Top Down engineering using the built in Inheritance features,
according to the KKS structure
Inheritance
„
Create and edit Plant Displays. Insert pictograms and standard
graphic objects
New Plant Display
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
1
Engineering View
„
Using Integrated Engineering to place AF-Blocks in function
diagrams and pictograms in plant displays along with all
mappings
Integrated Engineering
„
Creating Macros and save macro definitions in a project specific
library node
Using Macros
„
Creating a 10 channel Trend Display. Assigning tags along with
the trend settings
Trend Display
„
General Archive structure. Archive settings for individual
process values
Archive
„
Creating and modifying the operators Plant Display Hierarchy
Display Hierarchy
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
2
General Terms
Logging into the Workbench
„ User Login via Internet Explorer or Java WebStart:
SPPA-T3000
„ Username and Password is requested
Workbench
„ If the user is assigned different profiles, the desired role has to be chosen
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
1
Opening Views
„
To open a view, e.g. the Project View, use the Applications pull
down menu
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
2
Project View Window
„
SPPA-T3000 Training
Project View opens into a new window
<
>
Power Generation l Instrumentation & Controls
3
Opening Different Views within the
Workbench
„ Different views can be opened at the same time
„ To open a view use the applications menu or the short cut keys
„ To select a window click on the window header or use the optional keys
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
...
4
Arranging Views within the Workbench
„ To Tile or Cascade the views use the Window-> Arrange menu
„ Move, Close, Iconize the views normally
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
5
Docking Views to the Workspace Frame
...
Note:
the Diagnostic view
can not be docked
„ Moving a view outside the workspace causes the view to be docked at
the left or at the top of the workspace.
„ To undock it, pull the view back to the center of the workspace.
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
6
Saving the Workbench Arrangement
„ Save your Workspace arrangement using the
View Æ Save Workspace
menu and every time the workbench is opened you will be returned to
your personal view
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
7
User Properties
„ The Look and Feel of the workbench can be set individually in
the project view
User Properties
„ User properties individually for each user
„ Project settings project wide for all users (default)
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
8
Global Settings
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
1
Diagram Styles
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
2
Module Styles
The graphic style of the AF-Blocks:
can be set individually for each user
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
3
Print Connector
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
4
Connector Styles
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
5
Link Styles
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
6
Workbench
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
7
Operating View
Navigation Buttons
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
8
Navigating within the Project View
„
Navigation through the project structures is accomplished by
using the left mouse button
„
„
„
„
SPPA-T3000 Training
Select one item by simply clicking on it
A second click to rename a selected item
Click
Click
+
<
object or double-click to extend view to the item
object to close extended view
>
Power Generation l Instrumentation & Controls
9
Displaying and Opening Items
„
The available objects for the selected item on the left can be
seen here
„
„
„
SPPA-T3000 Training
Select one item by simply clicking on it
Selected items are highlighted in blue
Double click to open one item
<
>
Power Generation l Instrumentation & Controls
10
General Options Menu
„
Click the right mouse button to see the General Options Menu
(context menu) with its available options
„
SPPA-T3000 Training
Context menus depend on the current cursor position and selected
items
<
>
Power Generation l Instrumentation & Controls
11
Displaying Options of Specific Items
„
Select one item and then click the right mouse button to see the
context menu with its available options
„
„
SPPA-T3000 Training
Use the Rename option to assign a name to newly created items
Use the Delete option to delete items
<
>
Power Generation l Instrumentation & Controls
12
Editing Titel Block Data
„
The Edit Title Block
option provides a detailed
description of a selected Project node, Function Diagram, Plant
Display, AF-Block, etc. to edit and save
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
13
Assigning Runtime Containers
Note:
The runtime container
assignment is
automatically passed
onto all underlying
project nodes and
diagrams
„ The Assign Runtime Container option supplied with the context
menu is used to assign a new Project Node to an existing runtime
container. The window contains a list of available runtime
containers
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
14
Container Overview
„ Basic project settings:
Container Overview
Project Container
Runtime Containers
…
Client 1
WEB
Server
Work
Bench
Client n
W2k-Server
…
„
„
Work
Bench
Automation
Server
Realtime automation
Project
Container
Alarm
Server
Plant
Display
Server
Monitor
SPPA-T3000 Training
Automation
Server
LAN
Runtime
Container
101
<
>
Runtime
Container
102
…
Realtime automation
…
Non time critical
functions
Runtime
Container
702
Runtime
Container
701
Power Generation l Instrumentation & Controls
15
Creating New Items
„
SPPA-T3000 Training
Use the context menu to create a new item
„
„
„
„
Project Node
New Function Diagram
New Plant Display
New System Diagram
<
>
Power Generation l Instrumentation & Controls
16
Setting the Function Diagram Cycle Time
Note:
The base cycle time
definition is part of the
runtime container setup
„ To change the Function Diagram cycle time, select
the time multiple factor from the AF Cycle Time (n*Base Cycle)
drop down list. The cycle time for the Function Diagram will be the
base cycle time multiplied by the factor chosen
„ Setting the cycle time individually for single AF-Blocks is also
possible, but is not recommended
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
17
Opening Selected Items
„ To open the selected item
„
„
Either Double click left mouse button
Or use the Open in Configuration Mode option from the context menu
„ Opening a diagram automatically starts the Diagram Editor (This
may take several seconds)
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
18
Exit the Workbench
X
„ To Exit the Workbench always use the Exit option in
Applications menu
SPPA-T3000 Training
<
>
the
Note: Simply closing the Workbench window using
the close button could result in a loss of data
engineered during the current session
Power Generation l Instrumentation & Controls
19
Editing
Diagram
Editor
Project
Container
Runtime
Container
Status:
Mod.
Mod.
11
Mod.
Mod.
22
Mod.
Mod.
33
Edit
Project
Project
Data
Data
activated
edited
„ Modification of the Project Data is always carried out using the
Diagram Editor
„ Regarding the Automation Functions, objects of modification are:
„ Function Diagrams AF-Blocks, Parameters, Connections...
„ Regarding the HMI, objects of modification are:
„ Plant Displays, graphic objects, Properties, Mapping...
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
1
Committing Changes
Diagram
Editor
Mod.
Mod.
11
Mod.
Mod.
22
Project
Container
Mod.
Mod.
11
Mod.
Mod.
22
Runtime
Container
Status:
Project
Project
Data
Data
activated
Mod.
Mod.
33
Commit
committed edited
not
not activated
activated
„ Committing a selected Project Node including Function Diagrams
or Plant Displays is Saving the adressed Modifications to the
Project Container
Note: „Not activated“ means the modifications are not (yet) available in the Runtime
System. With regards to the modification deleting any object, this object is still
executed in the runtime container as it has been activated formerly
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
2
Rollback Changes
Diagram
Editor
Project
Container
Runtime
Container
Mod.
Mod.
33
Project
Project
Data
Data
Mod.
Mod.
11
Rollback
Mod.
Mod.
22
rolled back
Status:
activated
committed edited
not
not activated
activated
„ All uncommitted modifications can be removed from the
Engineering View using the Rollback function
„ Project Data is rolled back to the last committed status
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
3
Activate
Diagram
Editor
Project
Container
Runtime
Container
Status:
Activate
Project
Project
Data
Data
activated
Mod.
Mod.
Mod.
Mod.
Project
Project
11
22
Note
*)
+
Data
Data
Mod.
Mod.
11
Mod.
Mod.
22
committed
activated
not
not activated
activated
„ Activating committed modifications is integrating the changes
into the execution cycles of the Runtime System
„ The modified Project Data is now executed in the Runtime System
Note: While „Autocommit“ is not activated the last executed Activation is still reversible
if the Modifications turn out to be not applicable
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
4
Commit Last Activation
9
Diagram
Editor
Project
Container
Project
Project
Data
Data +
Commit
last Activation
Project
Project
Note *)
Data
Data
+
Runtime
Container
Status:
activated
„ If the Modifications are in good working order, the Activation can
be made permanent using the Commit Last Activation option
„ The modified Project Data is now executed permanently in the
Runtime System
Note: The last executed Activation is still reversible if the Modifications turn out to be
not applicable
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
5
Rollback Last Activation
Diagram
Editor
Project
Container
Runtime
Container
Status:
Rollback
last Activation
Project
Project
Data
Data
activated
Mod.
Mod.
Mod.
Mod.
Project
Project
11
22
Note
*)
+
Data
Data
committed
activated
not
not activated
activated
Note: While „Autocommit“ is not
activated each Activation or
Deactivation must be terminated
using either Commit or Rollback
last Activation/Deactivation
before starting the next
Activation or Deactivation
„ If the Modifications turn out to be not applicable, the Last
Activation can be rolled back
„ Now the previously activated state of project data is executed in
the Runtime system again
Note: While „Autocommit“ is not activated the last executed Activation is still reversible
if the Modifications turn out to be not applicable
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
6
Deactivate Selection
Diagram
Editor
Deactivate
Project
Container
Sel.
Sel.
Project
Project
Data
Data
Runtime
Container
not
not activated
activated
activated
Status:
„ A Selection of Project Nodes, Function Diagrams or Plant
Displays can be deactivated using the Deactivate Function
„ After Deactivation the Selection of Project Data is not further
executed in the Runtime System
„ Rollback last Deactivation again or Commit last Deactivation to
make the Deactivation permanent
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
7
Activate Selection
Diagram
Editor
Activate
Project
Container
Sel.
Sel.
Project
Project
Data
Data
Runtime
Container
Sel.
Sel.
not
not activated
activated
activated
Status:
„ A Selection of deactivated Function Diagrams or Plant Displays
can be activated using the Activate Function
„ After Activation the Selection of Project Data is executed in the
Runtime System
„ Rollback last Activation again or Commit last Activation to make
the Activation permanent
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
8
Transaction Handling Menu
„ After opening the Project View the
following options are available in the
Edit menu
„ Commit / Rollback
„ All Function Diagrams
„ Single selected Plant Display
„ A collection of Plant Displays (Project Node)
„ Activate / Deactivate
„ Single Function Diagram or Display
„ A collection of PDs or FDs (Project Node)
„ Commit / Rollback
„ Last Activation / Deactivation
Note: The functions mentioned above are generally handling
only data previously selected in the project view.
But with regard to data consistency of Automation Functions
Commit and Rollback are handling ALL Function Diagrams
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
9
Commit and activate using the Editor
„ A selected Function Diagram in the
Editor or a single AF-Block can be
activated or deactivated using the
ÆEdit Menu
„ The Editor toolbar is also provided
with context sensitive hotkeys
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
10
Commit Reminder Window
„ If the user intends to Exit the workbench and there are still some
uncommitted changes, a reminder window appears providing
options
„
„
„
Commit all and exit
Close, then continue or rollback work
Close, then exit uncommitted
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
11
Multi User Environment
„ Considering the Multi User Environment supported, each user is
responsible to commit and activate his own changes made during
a session
„ Changed data are not accessible to other users while they are
uncommitted. This Interaction Safeguarding is not executed on
the diagram level but on the level of AF-Blocks, Connectors,
Graphic Objects etc.
„ Only Administrators are allowed to commit or rollback other
users´ changes
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
12
Summary
„ Each User is Responsible to commit and activate the changes he
made. All interactions are safeguarded
„ Online Changes (e.g. changing already activated data) are normal
modifications and only need to be committed and activated as
usual
„ There is No Code Generation. All modifications are directly
carried out in the Project Container and in the Runtime
Containers after they have been committed.
„ There is No Download. All modifications are directly included in
the Runtime Containers execution cycle after they have been
activated
„ To Undo Changes and Activations various rollback functions are
available
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
13
New Function Diagram
PG L. The Value
Provider for
Power Generation
Management
SPPA-T3000 Diagram Editor
...
Standard Toolbar
Thumbs
Next
Previous
Memo
Filled Ellipse
Automation Function Libraries
(Normal Navigation)
Diagram workspace
(Multiple Windows)
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
1
PG L. The Value
Provider for
Power Generation
Management
Automation Function Libraries
Available Sub-libraries :
Thumbs
„
Next
Previous
Memo
Analog calculation modules
„ Binary calulation modules
„Conditioning and monitoring
„ Closed loop controllers
„ Open loop controllers
„ Operation Metering
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
2
PG L. The Value
Provider for
Power Generation
Management
Creating Logic: Copying Functions
From the Library to a Diagram
...
Thumbs
Next
Previous
Memo
INT
Select AF-Block
„
single mouse click
INT
Drag and drop
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
3
PG L. The Value
Provider for
Power Generation
Management
Creating Logic: Multiple Function
Copying From the Library to a Diagram
...
Thumbs
Next
Previous
Memo
INT
Select AF-Block
„
Double click
INT
Drag and multiple drop
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
4
PG L. The Value
Provider for
Power Generation
Management
Creating Logic: Options Menu
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Memo
„ Select instance and use the
context menu to access
available options
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
5
PG L. The Value
Provider for
Power Generation
Management
Creating Logic: Connection Icons
...
Thumbs
Next
Previous
Memo
Note:
To deactivate the connection
icon click the pointer icon or
any icon in the toolbar
Two Icon types
„ Graphical Icon (line)
„ Click Icon (connector)
Using the Icons
„ Single click Æ single interaction
„ Double-click Æ multiple interactions
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
6
PG L. The Value
Provider for
Power Generation
Management
Thumbs
Next
Creating and Deleting Connections
„
...
Creating connections:
„ Activate Icon
„ Move mouse over object and see
Previous
Memo
the connection points highlight.
Color depends on the chosen
interaction:
Graphical interaction (line)
click interaction (connector)
„ Select connection point
„ Move mouse to the corresponding object
and matching connection points
highlight
„ Select connection point … connection is complete
„
Deleting connections:
„
Select connection line then use the context menu to delete
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
7
PG L. The Value
Provider for
Power Generation
Management
Thumbs
Next
Previous
Memo
Creating Connections between Diagrams
„
Creating a connector:
„
„
Activate click Icon
Select connection
point in first diagram
„
Bring to front second
diagram´s window
„
Select connection point
in second diagram
„
Connectors are
automatically inserted
and named
Power Generation l Instrumentation & Controls
Exit
...
SPPA-T3000 Training
8
PG L. The Value
Provider for
Power Generation
Management
Creating Open Source Connectors
...
Thumbs
Next
Previous
Memo
„
Creating an open connector
„ Activate click Icon
„ Select connection point
„ Determine the connectors
position
„ Click to create an
automatically named open
source connector
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
9
PG L. The Value
Provider for
Power Generation
Management
Editing Connectors
Thumbs
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Memo
„
Editing a connector
„ Double-click the
connector to open the
Signal Definition window
„ Complete or modify the
inherited data
Note:
These definitions can also
be carried out in the AFBlock output Signal
Settings (coming next)
„ Determine the information
shown with the connector
in the function diagram
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
10
PG L. The Value
Provider for
Power Generation
Management
Properties and Parameters of AF-Blocks
Thumbs
Next
Previous
Memo
„
To open Symbol Parameters of an instance
„
„
Double-click AF-Block
or select AF-Block and use the context menu (via right mouse button)
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
11
PG L. The Value
Provider for
Power Generation
Management
Editing Parameters of an AF-Block
Tick
or
edit
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Memo
Connected
Tick
„
Changeable parameters are highlighted in white
„
„
„
„
tick the Visible Port column to display an I/O-port
tick the Value column to fix binary values
9 =1
9
=0
edit number 0.0
to assign a fixed value to an analog input
connected ports supplying dynamic values are gray 0.0
9
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
12
PG L. The Value
Provider for
Power Generation
Management
Adapting the Parameters Window
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Memo
„ To sort the columns individually simply drag and drop the
column bar to the new position
„ Determine the width of a column by sizing its column bar
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
13
PG L. The Value
Provider for
Power Generation
Management
Parameter Window Extensions
Thumbs
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Memo
„ Some settings are available in extendable columns.
„
„
to open the extension click the header button provided with ........>>
to close the extension click the header button provided with ........<<
Archive Settings
Alarm Settings
Signal Settings
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
14
Archive Settings
PG L. The Value
Provider for
Power Generation
Management
Thumbs
Next
Archiving
„ Archive component is an „off
SPPA-T3000
the shelf“ component
Previous
Memo
Interface
Modules
Java
Trend Bean
„ Data access to the
proprietary Samsoft Data
Base is carried out using
mysql, a reduced set of SQL
commands
SQL
Archive
„ Various embedded SPPAWINDOWS 2000
T3000 Interface Modules are
available (e.g. for Trend
Displays (Java Trend Bean)
and Logs
Stratus
ft-server
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
PG L. The Value
Provider for
Power Generation
Management
Archive Structure, Current Day
Thumbs
Next
Search Tag 10240
Memo
Archive
Previous
t
Current
Day
08.04.03 14:00
Tag 10240
Tag 10112
Tag 10430
Tag 10240
Tag 10240
Tag 10522
Tag 10240
Time Stamp
Time Stamp
Time Stamp
Time Stamp
Time Stamp
Time Stamp
Time Stamp
1h
„ The Current Day is structured in Hourly Files
„ The Entries (24 Byte Timed Tags) to the files are carried out in
order of appearance
„ Reduced Time Stamps are used (Date supplied by File)
„ Data Access via Search for Tag specific entries
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
PG L. The Value
Provider for
Power Generation
Management
Archive Structure, Daily Files
Thumbs
Next
Memo
Archive
Previous
t
1 Day
-1
-2
-3
Current
Day
Month
„ After one Day all 24 Hourly Files are combined to 1 Daily File
„ The entire Archive consists of Daily Files
„ To speed up access in case of overview trend displays with a
time range of more than a week, Monthly Files with less
resolution are available, in addition to the daily files
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
PG L. The Value
Provider for
Power Generation
Management
Swap out and Recover
Thumbs
Next
Memo
Archive
Previous
Daily Files
-2
-1
-3
Recover if
requested
„ To Export and Import Archive Data
a Swap out Server with built in DVD
burner is used
„ System DVDs will be created automatically when a DVD is completed
„ User specific DVDs can be burned
manually at any time
Exit
SPPA-T3000 Training
Thin Client
Swap out Serv
er
DVD
Power Generation l Instrumentation & Controls
PG L. The Value
Provider for
Power Generation
Management
Assigning Tags to the Archive
Thumbs
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Memo
„ Open the Function Diagram using
the Configuration Mode and Select
the desired AF-Block supplying the
signal
„ Open the Properties Window using
the context menu
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
PG L. The Value
Provider for
Power Generation
Management
Archiving Settings
Thumbs
Settings:
Next
•
•
•
•
Previous
Memo
Variation min
Variation max
Variation Percent
Engineering Unit
„ To enter the Archiving Settings open
the Archive Extension
„ A Tick in the column Archive to the respective Signal Output
activates archiving and enables the Settings
„ Don´t forget to Save, Commit and Activate the Changes
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
Alarm Settings
PG L. The Value
Provider for
Power Generation
Management
Opening the Alarm Extension
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Memo
Output Upper Limit
Note:
Alarm Settings are only available for binary outputs
„ To enter the Alarm Settings open the Alarm >> Extension
„ A tick in the Alarm column enables the Alarm Settings
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
1
PG L. The Value
Provider for
Power Generation
Management
Alarm Settings
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Memo
Output Upper Limit
„ Select the Alarm Type from the drop down list
„ Edit the Message text for active and deactive
„ Select the Acknowledge Mode from the drop down list
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
2
PG L. The Value
Provider for
Power Generation
Management
Closing Alarm Extension
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Memo
Output Upper Limit
„ To close the extension of the AF-Block parameter window click the
header button provided with Alarm <<
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
3
Signal Settings
Opening the Signal Extension
Note:
Signal Settings are available for all outputs
„ To enter the Signal Settings open the Signal >> Extension
„ If a tick in the Signal column enables the Signal Settings, the default
settings -usually inherited data- will appear and can be modified
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
1
Signal Settings
„ The Signal Settings will supply
any connector linked to this output automatically
Note:
Editing the Connector will, vice versa, also modify the Signal
Settings of the respective output
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
2
Closing Signal Extension
„ To close the extension of the AF-Block parameter window click the
header button provided with Signal <<
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
3
PG L. The Value
Provider for
Power Generation
Management
AF-Block Properties
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Memo
„ To modify the inherited Tag Name or Designation specific to the
selected AF-Block, select the tab Symbol Properties
„ Inheritance is a built-in feature
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
15
PG L. The Value
Provider for
Power Generation
Management
Saving Engineered Data
...
„
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Previous
The Project View Æ Edit menu
contains the following options
Memo
„
Commit All Function Diagrams:
to save the previously engineered
data
„
Rollback All Function Diagrams:
to undo the previously engineered
data
„
Alternatively the customized
toolbar in the Project View is
offering shortcut buttons to
commit or rollback
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
16
PG L. The Value
Provider for
Power Generation
Management
Activate Function in the Runtime
Container
„
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Memo
...
The Project View Æ Edit menu also
contains the following options
„
Activate: to start the cyclic
execution of a selected object
„
Deactivate: to stop the cyclic
execution of a selected object
Note:
A selected object in the project
view could be a project node or
a single function diagram
„
Alternatively the customized
toolbar in the Project View is
offering shortcut buttons to
activate or deactivate all changes
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
17
PG L. The Value
Provider for
Power Generation
Management
Status of AF-Blocks and Connectors
...
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Memo
„ Meaning of colors
Blue indicates active AF-Blocks
White indicates closed connections
Yellow indicates open connections
Black indicates not yet active AF-Blocks
Gray indicates deleted but still active AF-Blocks
Power Generation l Instrumentation & Controls
Exit
SPPA-T3000 Training
18
Inheritance
PG L. The Value
Provider for
Power Generation
Management
Inheritance
e.g. KKS Structure:
Tag name
Thumbs
7 0HNC11 AP002.XQ01
Next
Signal name
Previous
Memo
Project
Project
node
node
Function
Function
Diagram
Diagram
Title Block Data
Automation
Automation
Function
Function
Signal Item
Signal/Connector
Signal/Connector
AF Type
„ Inheritance functions are to
„
„
„
„
Exit
avoid Multiple Recording of the same data
avoid Data Inconsistencies
consider Logic Context in the engineering
make Easy Engineering possible
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
1
PG L. The Value
Provider for
Power Generation
Management
Tag Inheritance
Air Fluegas (FA11)
Thumbs
Next
+
Project
Node
Previous
Memo
Forced Draft
Ventilator
+
Induced Draft
Ventilator
„ To use
the Inheritance
Function consequently, the
Title Block Data has to be completed, regarding the final target,
whenever a Project Node or Function Diagram has been created.
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
2
PG L. The Value
Provider for
Power Generation
Management
Inheritance between Node, Diagram and
Module
Air Fluegas (FA11)
Thumbs
Next
+
Project
Node
Previous
Memo
Function
Diagram
Automation
Function
Signal
Flow
Measurement
Analog value
Connector
Forced Draft
Ventilator
0 7HNC11 AP001.OUT
XQ01
Title Block
+
Induced Draft
Ventilator
Title Block Data
0 7HNC11 AP001
FD name
0 7HNC11 AP001
Tag name
„ When a new Function Diagram is created, the Default Settings of
the Title Block Data are inherited data from the Project Node.
„ The default settings of the AF-Block are inherited data from the
Function Diagram; e.g. the Tag name is provided by the FD name
„ The Default Signal Item supplied with the Output is the Port Name.
This can be edited at the Ports Signal definition, e.g. XQ01
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
3
PG L. The Value
Provider for
Power Generation
Management
Inheritance
Air Fluegas (FA11)
Thumbs
Next
+
Project
Node
Previous
Memo
Function
Diagram
Automation
Function
Signal
Flow
Measurement
Analog value
Connector
Forced Draft
Ventilator
AP001.XQ01
AP999
0 7HNC11 AP002
Title Block Data
+
Induced Draft
Ventilator
Title Block Data
AP002
AP003
0 7HNC11 AP001
FD name
0 7HNC11 AP003
AP002
AP001
Tag name
„ When changing any data, Inheritance is carried out immediately
after saving (Release 2)
„ But if inherited data once have been modified manually, the
Inheritance is blocked at this point
„ To restore inherited data, delete the manually modified data in the
Title Block Data using „Blank“, then save
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
4
New Plant Display
PG L. The Value
Provider for
Power Generation
Management
Diagram Editor: Plant Displays
...
Standard graphics toolbar
Thumbs
Next
Previous
Memo
Filled Ellipse
Open Prototypes Libraries
(Normal Navigation)
Exit
SPPA-T3000 Training
Plant Display workspace
(Multiple Windows)
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
1
PG L. The Value
Provider for
Power Generation
Management
Copying Symbols
From the Library to a Plant Display
...
Thumbs
Next
Previous
Memo
Select symbol
„ Single mouse click
Exit
SPPA-T3000 Training
Drag and drop symbol
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
2
PG L. The Value
Provider for
Power Generation
Management
Multiple copying of Pictograms
From the Library to a Plant Display
...
Thumbs
Next
Previous
Memo
Select symbol
„ Double-click
Exit
SPPA-T3000 Training
Drag and drop symbols
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
3
PG L. The Value
Provider for
Power Generation
Management
Positioning of Objects
...
Thumbs
Next
Previous
Memo
„
„
Exit
Multiple Selection using shift click or lasso function
Adjust the position using the mouse or any align function
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
4
PG L. The Value
Provider for
Power Generation
Management
Adding Static Graphic Objects
...
Thumbs
Next
Previous
Memo
„
„
Exit
Select the desired object type from the tool bar (e.g. line)
Create a standard object of this type using the mouse
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
5
PG L. The Value
Provider for
Power Generation
Management
Modifying Objects
...
Thumbs
Next
Previous
The Standard Toolbar
must be ticked in the
View menu
Object Properties
Memo
„
To modify graphic objects, open the object´s properties
in the standard toolbar
„ Stroke opens a window to modify the width and other
attributes of a line. Changes can be set default.
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
6
PG L. The Value
Provider for
Power Generation
Management
Determine the color of objects
Thumbs
Next
Previous
Memo
„
Exit
StrokePaint opens the color table
Various options are available to change the color
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
7
PG L. The Value
Provider for
Power Generation
Management
Adjusting Objects
Thumbs
Next
Previous
Memo
„
Exit
SPPA-T3000 Training
To exactly adjust objects it is
advisable to use the align functions or
deactivate the grid in the Tools menu
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
8
PG L. The Value
Provider for
Power Generation
Management
Arranging Objects
Thumbs
Next
Note:
just like the shapes
menu, the context
menu also provides
alignment and
arrangement functions
Previous
Memo
„
Exit
SPPA-T3000 Training
Define the layer using the
context menu to arrange the
display with other objects
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
9
PG L. The Value
Provider for
Power Generation
Management
Size to Fit
Thumbs
Next
Previous
Memo
Note:
The size to fit function is also used when
opening a display in the operators view.
Therefore a given outline rectangle will fix
the proportion and maximum size
„
To display all objects of a display, use the size to fit option
„
„
Exit
All objects are displayed and adopted to the given window
frame, irrespective of their original proportions
Return to the original size using the 1:1 button
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
10
PG L. The Value
Provider for
Power Generation
Management
Assigning Display Object to AF-Block
Thumbs
Next
Previous
Memo
„
„
„
Exit
Double click an object to open the mapping window
Type the Tag-name and -item or start the Tag Browser
Tag Browser
Save to close and store data
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
11
PG L. The Value
Provider for
Power Generation
Management
Default Mapping of AF-Block
and Faceplate
Symbol
Thumbs
Next
M
Previous
Memo
Status
AF Type
Faceplate
ENG
EXEC
HMI
DIA
Alarm
I&C IN
I&C OUT
Operation
Default mapping = Mapping of entities
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
12
PG L. The Value
Provider for
Power Generation
Management
Changing the Default Mapping
Thumbs
Next
Previous
Memo
„ If a symbol supports
different faceplates, the desired Faceplate-Type can be selected
from the drop down list, which contains all applicable faceplates
„ Even the mapping of the AF Type is selectable, but only if
different AF-Blocks support the same symbol
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
13
PG L. The Value
Provider for
Power Generation
Management
Default Mapping of AF-Block and
Faceplate using Alternatives
Symbol
Thumbs
Next
M
Previous
Memo
Alternative AF Types
Status
AFI Type
Alternative Faceplates
Operation
Faceplate
ENG
EXEC
HMI
DIA
Alarm
I&C IN
I&C OUT
Default mapping = Mapping of entities
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
14
PG L. The Value
Provider for
Power Generation
Management
Individual Mapping of Symbols and
Faceplates Using the Mapping Details View
Thumbs
Next
Previous
Use the Tag
Browser for
mapping
Memo
„ If requested, individual mapping is possible
„ Mapping status information from other AF-Blocks to the pictogram
„ Mapping faceplate items to other AF-Blocks (e.g. Position feedback)
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
15
PG L. The Value
Provider for
Power Generation
Management
Saving Changes
Thumbs
Next
Previous
Memo
„ To save the
engineered data,
return to the
Project view
„ Select the newly
created display or
the project node
„ Use Edit-> Commit
Plant Displays to
save changes of the
selected item
„ Use Edit->Rollback
Plant Displays to
undo changes of the
selected item
„ Alternatively the customized toolbar offers shortcut buttons
to Commit or Rollback Plant display
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
16
PG L. The Value
Provider for
Power Generation
Management
Activating changes
Thumbs
Next
Previous
Memo
„ Use Edit-> Activate…
to make the
committed changes of
the selected Plant
Displays available to
the operators view
„ If customized, the
toolbar is offering a
shortcut button to
Activate selected Plant
Displays
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
KW OEBASIC, Kratzer, 04/2002
17
Integrated Engineering
PG L. The Value
Provider for
Power Generation
Management
Integrated Engineering
Thumbs
Next
Previous
Memo
„ When creating either a new Function Diagram or a new Plant
Exit
Display, Integrated Engineering allows creation of both a
Plant Display and a Function Diagram
„ Enter the name of the diagram to be assigned or use the
diagram browser to assign an already existing diagram
„ Function Diagram and the Plant Display are then referring to
each other
Power Generation l Instrumentation & Controls
SPPA-T3000 Training
PG L. The Value
Provider for
Power Generation
Management
Manual Diagram Assignment
Thumbs
Next
Previous
Memo
„ Using the context menu, the Diagram Assignment of a
selected diagram can be manually modified
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
PG L. The Value
Provider for
Power Generation
Management
Diagram Assignment
Thumbs
Next
Previous
Memo
„ The target is always assigned to the
source using drag, drop, and save
„ Multiple assignment is feasible as well:
„ Different targets assigned to one source diagram
„ One target assigned from different source diagrams
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
PG L. The Value
Provider for
Power Generation
Management
Easy to ... design a Plant Display
Thumbs
Next
Previous
Memo
„ If a graphic symbol is placed in a Plant Display, the respective
Exit
AF-Block is automatically placed at the assigned Function
Diagram´s disposal
„ Where appropriate, the target must be determined from the
list of assigned diagrams.
„ This includes carrying out all necessary mapping between
Symbol, AF-Block and Faceplate Power Generation l Instrumentation & Controls
SPPA-T3000 Training
PG L. The Value
Provider for
Power Generation
Management
Easy to ... use the placed AF-Block
Thumbs
Next
Previous
Memo
„ With regards to the target Function Diagram, all previously placed
AF-Blocks are available in the Reference List, which can be
opened using the File Æ Open Reference List option
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
PG L. The Value
Provider for
Power Generation
Management
Easy to ... use the placed AF-Block
Thumbs
Next
Previous
Memo
Note:
If the AF-Block is deleted
from the diagram, it will
appear again in the
Reference List
„ The Reference List appears docked at the left side
„ The AF-Blocks can now be moved from the Reference List to the
Diagram by simply using click, drag, and drop
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
PG L. The Value
Provider for
Power Generation
Management
Easy to ... design Function Diagrams
Thumbs
Next
Previous
Memo
„ Every time an AF-Block is placed in a Function Diagram, the
respective graphic symbol is automatically placed at the
assigned Plant Display´s disposal
„ This includes carrying out all necessary mapping between
AF-Block, Graphic symbol, and Faceplate
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
PG L. The Value
Provider for
Power Generation
Management
Easy to ... compose Plant Displays
Thumbs
Next
Previous
Memo
„ With regards to the target Plant Display, all previously placed
symbols are available in the Reference List
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
PG L. The Value
Provider for
Power Generation
Management
Easy to ... compose Plant Displays
Thumbs
Next
Previous
Memo
Note:
If the symbol is deleted from
the display, it will appear
again in the Reference List
„ Before moving from the Reference List to the Diagram, the
symbol can be changed in the reference list using the context
menu
„ Select the desired symbol from a list of matching objects
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
PG L. The Value
Provider for
Power Generation
Management
Activating Integrated Engineering
Thumbs
Note:
In the Mode „Map new
Pictogram to existing Afi“ no
Diagram Assignment is
necessary. In this mode
simply the Tag Browser is
started whenever a new
Pictogramm is installed in a
Plant Display
Next
Previous
Memo
„ The Integrated Engineering can be
Activated/Deactivated using the Edit
Menu in the Diagram Editor
„ Integrated Engineering off
„ Create New Afi for Pictogram
„ Map new Pictogram to existing AF-Block
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
Macros
PG L. The Value
Provider for
Power Generation
Management
Macro
User View
Thumbs
Valve Simulation
Macro Library
Function Diagram
Next
Previous
Memo
„ For multiple use, a well tested structure of Automation
Functions can be defined and stored in a Macro Library
„ Once copied to a Function Diagram a Macro appears like a
compact Module, with Inputs, Outputs and Connectivity
just like an AF-Block
Move to embedded Macro...
„ There are 3 options for
Macro from Selection
Creating Macros:
Macro from Diagram
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
1
PG L. The Value
Provider for
Power Generation
Management
Embedded Macro
Thumbs
Next
Previous
Memo
„ A group of user defined logic can be defined
as an Embedded Macro using the context menu
„ The Macro has to be named
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
2
PG L. The Value
Provider for
Power Generation
Management
Appearance of a Macro
Thumbs
Next
Previous
Memo
„ The logic then appears as a compact block, as previously
named, with all signals remaining intact, but all internally
used signals are hidden
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
3
PG L. The Value
Provider for
Power Generation
Management
Macro from Selection
Thumbs
Next
Previous
Memo
„ A Macro from Selection is similar to an
embedded Macro but can be saved in a Library
Note: Macros saved in a library can be copied to function diagrams like AF-Blocks
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
4
PG L. The Value
Provider for
Power Generation
Management
Macro from Diagram
Thumbs
Next
Previous
Memo
„ To turn an entire Function Diagram into a macro, first define
all input and output signals refering to any external diagram
as Macro Port References
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
5
PG L. The Value
Provider for
Power Generation
Management
Editing the Port References
Thumbs
Next
Previous
Memo
„ Double-click to Edit name and description of these references
„ Also the graphic appearance can be modified
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
6
PG L. The Value
Provider for
Power Generation
Management
Saving Macro in a Library
Thumbs
Next
Previous
Memo
„ This type of macro must be saved in a Library
using the Macro from Diagram option in the context menu
„ Default name is the function diagrams name
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
7
PG L. The Value
Provider for
Power Generation
Management
Placing Macros in a Function Diagram
Thumbs
Next
Previous
Memo
„ Copying Macros from the library to function diagrams is
carried out the same as with AF-Blocks.
„ A macro can be inserted in both views: as a Block or as a
Network
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
8
PG L. The Value
Provider for
Power Generation
Management
Modifying Macros in the Library
Thumbs
Next
Previous
Memo
„ If a macro is modified in the library only subsequently
placed macros are affected
„ If a placed macro is modified only this individual macro is
affected
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
9
PG L. The Value
Provider for
Power Generation
Management
Viewing embedded Macros
Thumbs
Next
Previous
Memo
Note: This option is available in both, the
engineering view and the operating view
„ Use the Navigate –> Embedded Diagram option in the context
menu to display the network of an embedded macro
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
10
PG L. The Value
Provider for
Power Generation
Management
Create new Macro Library Node
Thumbs
Next
Previous
Memo
„ Open the Library in the Hierarchy tree of the Project View
„ Select the target folder the new Library Node is to be inserted
„ Keep the mouse pointer in the Hierarchy tree and select
Create New Library Node from the context menu, using the
right mouse button
„ After the Library Node has been created, it can be renamed,
e.g. Basic1
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
11
Trend Display
Create Trend Display
„ To create a full size 10 channel curve display copy a Trend Bean
Object from the Prototypes Library to a new Plant Display
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
1
Trend Assignment
„ To name the diagram and enter other settings and Tag
assignments doubleclick anywhere on the trend bean object
„ This opens the Bean Customizer window
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
2
Bean Customizer
Notice:
All Settings using the Engineering
View are default setting definitions
All Settings in the Operation Mode
are carried out only temporarily
User can save temporary changes
individually using „save workspace“
before closing the Trend Display
The Operation Mode is supplied with
additional „OK“ and „Cancel“ buttons
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
3
General Settings
„ In the General Settings the
Diagram Title must be
determined
„ If Interpolation of the curve
is desired, a tick in this
option is necessary
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
4
Time Settings
„ The Time Settings are used
to determine the Time
Frame of archived data
shown in the display
„ The Start Time determines
whether the display shows
the curve at the current time
(Now) or at a given time
„ The Duration determines the
Time Axis Range shown
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
5
Assigning Tags to the Channels
„ The Tag Assignment is
used to determine which
signal is displayed in the
respective Channel 1-10
„ First of all the desired
Channel must be determined
(Tag 1 - Tag 10)
„ Next Step is to Assign a
Tag to the channel using
the Browser
Tag Browser
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
6
Tag Color and Style
„ The Tag is now assigned to
the channel and the Tag
Name appears
„ Next step is to determine
Tank..Level
the Tag Color of the
channel using the system
color table
„ The Trend Style option is
to be used in the Operation
Mode only
„ Tick the Logarithmic Scale
option if desired
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
7
Defining the Range
„ The Range of the curve can
Tank..Level
be assigned individually
using Physical Values
according to the signal
requirements (EU):
Range High: 100%
Range Low:
0%
„ Repeat Assigning Tag for each channel if requested
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
8
Appearance
„ In the Appearance tab the
color indicating Invalid Data
can be determined
Tank..Level
SPPA-T3000 Training
<
>
„ Additionally the Insertion of
Physical Scales on the left
hand of the Trend Display
can be activated and
assigned to a Tag (channel)
Power Generation l Instrumentation & Controls
9
Apply and Close
„ To apply previously made
settings use the Apply button
„ Before Closing the Bean
Tank..Level
Customizer Window you
should apply all settings.
If you don´t, all changes
are rejected
„ In the Operation Mode two
additional buttons are
available
OK:
to apply and close
Cancel: to reject and close
SPPA-T3000 Training
<
>
Power Generation l Instrumentation & Controls
10
Plant Display Hierarchy
PG L. The Value
Provider for
Power Generation
Management
Use of Display Hierarchy
Thumbs
Next
Previous
„ Allows the operator to navigate through all plant
displays
Memo
„ Defines levels, grouping and arrangement of plant
displays in a logical order
„ Supplies a path through all displays from the unit
overview down to a single device
„ Allows the operator to move from display to display
using left- right- up- down-buttons
„ Enables the operator to access any display directly from
the hierarchy structure
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
1
PG L. The Value
Provider for
Power Generation
Management
Built-up Display Hierarchy
Thumbs
Next
Previous
Memo
„ After the plant displays have been
created and arranged in the project view
structure, the automatically built-up display hierarchy
can be opened, using the applications menu or the shortcut key
„ The display hierarchy mirrors the project node‘s structure,
created during the engineering session
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
2
PG L. The Value
Provider for
Power Generation
Management
Removing Displays from the Hierarchy
Thumbs
Next
Previous
Memo
„ There are two buttons to
remove plant displays from
the display hierarchy
„ The left button removes only the selected
plant display from the hierarchy
„ The right button removes the selected plant display and all
underlying plant displays from the hierarchy
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
3
PG L. The Value
Provider for
Power Generation
Management
Resetting the Display Hierarchy
Thumbs
Next
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Memo
„ To reset the display hierarchy use
the ÆEdit Æ Reset Hierarchy option
„ Pay particular attention when resetting the
!
Exit
SPPA-T3000 Training
hierarchy. All modifications previously made will be
lost and cannot be recovered!
Power Generation l Instrumentation & Controls
4
PG L. The Value
Provider for
Power Generation
Management
Adding Displays to the Hierarchy
Thumbs
Next
Previous
Memo
„ To add a single display to the
hierarchy simply click, drag and drop from
the Project View to the Plant Display Hierarchy
„ When dropping into the hierarchy, the display´s ranking in the
hierarchy is determined by the mouse position
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
5
PG L. The Value
Provider for
Power Generation
Management
Saving the Modifications
Thumbs
Next
Previous
Memo
„ The modifications of the Plant
Display Hierarchy are not available
for the operators view until they
have been committed and activated
„ There is no repercussion upon the
project structure !
Exit
SPPA-T3000 Training
Power Generation l Instrumentation & Controls
6
Operations View
PG L. The Value
Provider for
Power Generation
Management
Operators Views
Thumbs
Next
Previous
Memo
„ General information and observance of the plant is
carried out using Plant Displays. They are also used for
operation of controls and devices
Plant Displays
„ Alarm notification, valuation, filtering, tracking and
confirmation is carried out using the Alarm Sequence
Alarm Sequence Display
Display
„ The Group Alarm Indication provides a summary of the
alarm status of all Plant Displays
Group Alarm Indication
„ For diagnostics, fault analysis, and trouble shooting,
the Diagnostic View is used. Service information and
help is also available here
Diagnostic View
„ For value tracking and trouble shooting Dynamic
Function Diagrams are used
Exit
SPPA-T3000 Training
Dyn. Function Diagram
Power Generation l Instrumentation & Controls
1
PG L. The Value
Provider for
Power Generation
Management
Thumbs
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Memo
Operator Views
„ For curves presentation, Trend Displays are used
allowing analysis of archived data
Trend Displays
„ Reports are used to compile a set of information based
on process variables which are stored in the Archive
Reports
„ Point View is used to display and modify the complete
data set of a point including live values and alarm states
Point View
„ The MultiScreen Function provides a workbench using
multiple screens
MultiScreen
„ User Specific Plant Displays allows Individual Users to
easily create their own Plant Displays
Exit
SPPA-T3000 Training
USP Display
Power Generation l Instrumentation & Controls
2
Plant Displays Navigation
Starting Operation Mode
Note: If a user is given operators
access rights, the workbench is
automatically opened in the
Operation Mode
„ To start Operation Mode enable it in the Mode menu
SPPA-T3000 Training
KW_T3OPER, Kratzer, 05/2005
<
>
Power Generation l Instrumentation & Controls
1
Operation Mode
Note: The hierarchy is diagramed horizontally
„ The display will change to Operation View.
„ The display hierarchy is either available in the header bar as a
drop down menu or docked left
„ The navigation buttons visibility is optional
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Opening a Plant Display
„ A double click on the respective display icon in the display
hierarchy opens a new plant display window.
„ During download the transmission indicator is visible
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Plant Displays in the Workspace
„ After transmission is terminated the display appears in the
workspace. Several displays can be opened at the same time
„ The respective navigation button becomes „active“ when a
display is available in the hierarchy
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UP/DOWN Navigation Buttons
UP DOWN
in the same path
„ The „Up“ and „Down“ buttons provide navigation to a
neighboring display within a given path (e.g. Unit 2 Overview)
„ UP from Feedwater to Turbine
„ DOWN from Feedwater to Generator
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LEFT Navigation Button
LEFT : back to the
superordinate display
„ The „Left“ button returns to the superordinate display (e.g. Unit
2 Overview)
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RIGHT Navigation Button
RIGHT :
to subordinate displays
„ The „Right“ button provides navigation to a subordinate display.
„ If more than one exists, an additional window appears listing the
available displays
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Selecting Open Displays
Using Short Cut Keys
„ The currently open displays are selectable using the shortcut
keys in the windows toolbar
„ The selected display is indicated with it's short cut key pressed
and highlighted in the plant display hierarchy
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Paging Back
„ A straight paging-back function is not available. However, the
recently opened displays are always selectable from the
Applications menu, even after they have been closed.
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Operating the Process
„ In Plant Displays various Pictograms are available, indicating
both Status and Value of Process Variables
„ Faceplates supply more details and operating facilities. To open
a Faceplate doubleclick the respective Pictogram
Faceplate Positioning
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Individual Faceplates Positioning
„ To assign an Individual Popup Position to a Faceplate, a Grid
has to be defined first, fine tuning the whole screen
„ The positions defined in this Screen Grid are valid on every
Monitor for every Login (user) in the project
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Defining the Screen Grid
„ Select the menu Window -->
Define screen grid... from the Workbench
„ In the opened dialog window the Squares represent Position on
the monitor screen
„ Adjust the numbers of vertical and horizontal positions
(Columns and Rows) to be used
„ Finalize the dialog with Save
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Setting the individual Popup Position
„ In the Operation View double click the desired Pictogram to
open the Faceplate
„ After placing the mouse pointer in the center of the Faceplate
open the context menu, then select Set Screen Position
„ In the opened Grid Scheme you can accept the proposed
location or select another locaton with a mouse click, then Save
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Validity of Popup Positions
Workbench
Note: In the Dialog window the
squares represent position
on the Monitor Screen. The
positions are not limited to
the workbench area
„ When the Faceplate is opened the next time it will appear at the
new position
„ The new position is valid on every monitor for every login (user)
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Display Navigation Buttons
„ In Plant Displays also Navigation Buttons can be engineered to
directly open other Plant Displays
„ The first click only selects the Navigation Button. The selection is
indicated by a green frame
„ The second click opens the preselected Plant Display
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Alarm Sequence Display
Opening the Alarm Sequence Display
„ To open the Alarm Sequence Display use the short cut keys
from the Toolbar or the applications menu
„ The Default ASD is available, but users may create own ASDs,
which will only appear in the submenu if the user is logged in
„ It is most convenient to dock the ASD at the top of the
workspace
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ASD view
„ The user can toggle between the Chronological View (default)
and the Alarm Point View
„ In the chronological view, each time an alarm is raised, a new line
„
SPPA-T3000 Training
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In the alarm point view alarms from the same Alarm Source will
only occupy one row in the ASD. A counter indicates how many
alarms from the Alarm Source have been raised
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ASD Window Structure
„ The ASD provides the interface for users to view, analyze and
control alarms
„ Indicators for Raised/Gone (Arriving/Clearing) and Acknowledged
„ Alarm-Type, assigned Tag, and Description-text
„ Status and event-time stamp
Alarm Types
„ If Alarms are displayed in chronological order. Click the „Time
in“ bar to invert the time axis
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Alarm Types
„A
„W
„T
„M
„S
- Alarm, a critical Alarm.
- Warning, a less critical Alarm.
- Tolerance, a least critical Alarm.
- Maintenance, a maintenance or service activity is required
- Status, an important device has been started or stopped,
or a device changeover has occurred
„ I&C - Instrumentation and Control, a fault in the I&C system
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Alarm Status
Inactive
Alarm
Active
Alarm
GONE
RAISED
1
Inactive
Alarm
0
time
„ An alarm can be in one of two states, it is either Active or Inactive
„ When an alarm becomes active (1) it is RAISED, when it becomes
inactive (0) it is GONE
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Customize the ASD view
„ To add(+) or remove(-) columns from the
customized view, position the mouse in any column header bar
and open the context menu, then make your choice
„ To sort the columns individually simply drag and drop the
column bar to the new position
„ Determine the width of a column by sizing its column bar
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Acknowledging Alarms
„ Select the alarms to be acknowledged.
Selected alarms are indicated by a bold
black frame
click
: Single selection
shift + click …. click : Range selection
ctrl + click, click … : Multiple selection
„ A range selection can also be achieved by dragging the
mouse over the desired alarms keeping the mouse button
pressed
„ To acknowledge the alarms open the context menu, using the
right mouse button. Both, acknowledgement of the selected
alarms and acknowledgement of the entire page, is possible
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Acknowledged Alarms Indication
„ The acknowledged alarms, which are still present, stop
flashing and are now marked with a check in the „Ack“
column
„ Alarms which are already gone, disappear from the ASD after
they have been acknowledged
Note: Acknowledged alarms only disappear from the Display. They are still
available in the Archive and may be displayed at any time using Trend
Displays or Reports
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Acknowledging Alarms of a Plant Display
„ In the Operation Mode the Workspace Header is supplied with a
button to acknowledge all alarms present within a selected
Plant Display
„ Additionally buttons are available to silence Alarm Sounds at
the local client or to silence Alarm Sounds at all clients
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Individual Alarm Source Configuration
Note: During the system configuration
the default settings of alarm
ports are specified
„ During the Engineering process, the alarm sources automatic
acknowledgement mode can be fixed
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ASD Hierarchy Tree view
Note: In the default ASD the Hierarchy Tree
cannot be turned off to prevent supressed
alarms from not being indicated
„ The Hierarchy Tree on the left hand is used to specify
„ Selection of alarms
„ Automatic Acknowledgement of alarm groups
„ Suppression of Alarms
„ To turn off the Hierarchy Tree in any User Specific ASD,
the
respective menu point must be unticked
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Alarm Selection
Note: Since it is intended to display
all alarms, alarm selection is
deactivated in the default ASD
„ Alarm Selection can be assigned to each
project node individually, by setting
selection criteria in the Hierarchy Tree
„ Select the node in the Hierarchy Tree View and open the Selection
dialog box using this option from the context menu
„ Select or deselect individually the Alarm Types. Only ticked Alarm
Types will be displayed. Substructures can be included
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Indication of Alarm Selection
Hierarchy Tree
„ A black tick will appear, if all alarm
sources of all alarm types are selected
for a node (and its sub-nodes)
„ A gray tick will appear, if some of the
alarm sources and/or some of the alarm
types are selected for a node (and its
sub-nodes)
„ No tick will appear, if none of the alarm
sources of any Alarm Type are selected
for a node (and its sub-nodes)
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Automatic Acknowledgement
„ Due to some temporary condition in
the plant, the user can acknowledge
alarms (raised or gone) of a Project Node automatically
„ Select the node in the Hierarchy View and open the Auto
Acknowledgement box using this option from the context menu
„ A tick in the dialog box enables the automatic acknowledgement
to the respective Alarm Type. Substructure can be included
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Selective Alarm Suppression
Alarm
sequence
display
„ Two levels of suppression can be selected
Alarm
buffer
1st level of suppression
„ No entry into alarm buffer
„ Archiving continues
1st level
Archive
2nd level
2nd level of suppression
„ No entry into archive
Event
Acquisition
„ Temporary suppression of "disruptive" alarms, e.g., faulty
components on night shift
„ Immediate selection of alarms possible via the operator interface
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Suppressing Alarms
„ To suppress a single alarm message, select the line in the ASD
then determine the suppression mode using the context menu
„ Display and Archive: the alarm is suppressed in both, the
Alarm Sequence Display and in the Archive
„ Display: the alarm is suppressed in the Alarm Sequence
Display, but still stored in the Archive
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Suppressing Alarm Groups
Gray if only a
single Diagram
is concerned
„ To suppress alarm groups, select node or diagram in the
Hierarchy View then open the Suppression dialog box using this
option from the context menu
„ Determine a multiple choice of alarm groups to be suppressed
„ Determine the suppression mode then click the Suppress button
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Indication of suppressed Alarms
„ Suppressed alarms will disappear immediately from the Display
„ The names of all nodes containing suppressed alarms will
appear in red color in the Hierarchy Tree
Note: If an alarm is suppressed in the Archive, former messages of this alarm will
not be removed from the Archive. They are still accessible using Trend
Displays and Reports
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Browsing for suppressed alarms
„ Select any Node
indicating suppressed alarms in the Hierarchy Tree and open the
Alarm Point Browser using this option from the context menu
„ Determine a multiple choice of suppression modes you want to
browse for, then click Search
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Unsuppress alarms
Note: Display Unsuppress is processing ASD-blocked alarms,
Unsuppress is processing Archive-blocked alarms only
„ All matches will be
listed in the Alarm Point Browser window
„ To unsuppress alarms select the desired line in the Browser
window and use the context menu to unsuppress the selected
alarm
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Group Alarm Indication
Group Alarm Indication
„ In the Operation Mode a Group Alarm Indicator for Plant Displays
provides a summary of the current alarm status of a Plant Display
„ The Group Alarm Indicator for a Plant Display will appear if the
Cursor is held stationary over that Plant Display in the PDH.
However, this indicator is for display purposes only, and cannot
be clicked on for navigation
Alarm Types
„ Each Alarm Type is represented by a separate indicator
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Collecting Alarms
„ Furthermore, a Group Alarm Indicator for a Plant Display also
collects the alarms from all subordinate Plant Displays in the
Plant Display Hierarchy
„ When an Alarm Type is present it is indicated by its color as
defined in the Project Settings, otherwise the indicator will be
gray
„ All Alarms Acknowledged is indicated by a steady color
„ At least one Alarm Unacknowledged is indicated by flashing
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Alarm Tracking
„ Navigation buttons to subordinate Plant Displays include a Group
Alarm Indicator for that display as well. Only present alarms are
indicated
„ This allows the Operator to navigate down the Plant Display
Hierarchy using the Plant Display Selection Buttons and
following the Group Alarm Indication
„ To navigate this way, the Operators Plant Display Hierarchy can
be closed
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Navigation via Group Alarm Indicator
„ The Group Alarm Indicator in the Workbench Header displays the
alarms for the whole plant.
„ The user can navigate directly to Plant Displays with active
alarms by clicking on the respective Group Alarm Indicator
„ Navigation from the Workbench Header starts from the highest
level of the Plant Display Hierarchy
„ If two alarms of the same Alarm Type exist on the same hierarchy
level, the superordinate diagram is navigated to automatically
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Diagnostic View
Features of the Diagnostic View
„ The Diagnostic View provides Fault Analysis, Display of Status
Information, and Status Reports collected from different
components necessary for:
„ Clarification of disturbances
„ Status information on demand
„ Maintenance purposes.
„ SPPA-T3000 System Software administration purposes
„ Both event driven and dialog driven diagnostic mechanisms
are available
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Opening the Diagnostic View
„ The Diagnostic View can be opened using either the
Applications menu or the shortcut key
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Layout of the Diagnostic View
„ Generally, the Diagnostic View is divided into two parts:
„ The Tree View on the left, representing each possible source
of diagnostic data, structured in various system components
and containers. Typical selection and navigation is used
„ The Detailed Diagnostic Information on the right hand side,
provided by the currently selected item and is updated
automatically
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Filtering the Diagnostic Information
„ The Filter option in the Edit menu opens the filter dialog
„ The dialog supports both filter functions, search pattern, and
type.
„ After activating the filter function, only containers and
components that match the filter criteria are displayed in the
view tree
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Find Diagnostic Information
„ The Find option in the Edit menu opens the Search dialog
„ A search pattern and the option to search within the selected
node can be fed
„ After clicking the Search button, the first match is highlighted in
the view tree. Search Again continues the search
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Project Node
„ The Project Node is the top level node in the diagnostic view
„ There is only static diagnostic information here. It is comprised
of the node name and ID, which are assigned during the project
setup
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Host Computer Node
„ In a distributed system the various system containers are
assigned to different host computers. There is a diagnostic node
for each host computer in the project
„ A host computer node covers the diagnostic view of the
assigned system containers
„ The host computer node only provides the static name and ID
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Alarm Container Node
„ Alarm Container node (ac) collects the alarms, generated in the
system, for displaying
„ In addition to the static information, the dynamic information
provides the current status: Started / Running / Terminating / Stopped / Failed
„ Only the project administrator is allowed to start or stop the ac
using the action button
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Automation Function Container
(AFC) Node
„ The Automation Function Container nodes (afc) represent the
diagnostic interfaces to all AFCs assigned to the host computer
„ An afc node covers the diagnostic nodes of the function
diagrams
„ In addition to the Static and Status Information the connection
status is displayed regarding receipt of data from other AFCs
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Function Diagram Node
„ The Function Diagram node provides only static diagnostic
information
„ It covers the Function Block nodes assigned to the respective
Function Diagram
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Function Block Node
„ The Function Block node provides following diagnostic data:
„ All diagnostic ports
Note: After the respective button
„ All I&C ports
is pressed, the information is
„ All HMI ports
displayed below
„ All ports with bad Quality
„ All other ports
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Fault Tracking
„ To follow an input signal to the source or an output signal to the
destination, move the mouse to the signal and open the context
menu. Option: display of the acquired data in a 2nd Window
„ Source AF Block or a single destination AF Block is displayed
immediately. When multiple destinations are involved, the target
must also be determined
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More Container Nodes
„ Additionally there are several system container nodes that
contain status information:
„ The Logging information
„ Diagnostic container – dc
supports developers with
„ Monitor container – mc
software debugging
„ Project container - pc
„ Plant display container - pds Power Generation l Instrumentation & Controls
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Dynamic Function Diagrams
Dynamic Function Diagram
„ The function diagram is displayed in operation mode with all
current values inserted and continuously updated
„ There are various ways to select a dynamic function diagram.
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Selecting a Dynamic Function Diagram
„ From the project view a selected function diagram can be
opened in the operation mode using the Context menu or using
the Edit menu
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Selecting a Dynamic Function Diagram
„ If operation mode is already activated, then an icon in the
project view can be opened with a double-click
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Selecting a Dynamic Function Diagram
„ If a function diagram is already opened in the Diagram Editor,
the „Start Dynamic Function Diagram“ option from the View
menu can be used
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Selecting a Dynamic Function Diagram
„ After the faceplate of a display object has been opened, the hotkey can be used to open the dynamic view of the respective
function diagram to which the display object is mapped
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Additional Information
„ Additional information is inserted into the Dynamic Function
Diagram if the respective Option in the View Menu is checked
„ There are various options available in this menu,
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Signal Tracking
„ The Navigate Option allows
tracking a signal via connector to
the destination or vice versa
„ If a signal is multiple-used the
respective target can be selected
from the External applications list
„ The Source/Destination Diagram is displayed in a new window
Forcing Ports
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Forcing Ports of an AF Block
Force Value:
True
False
88.88
analog
„ To force ports click the respective AF Block in the dyn. function
diagram and open the forced ports view using the context menu
„ Select the input or output to be forced in the Force column.
Enter or change the Force Value, then Save
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Listing Forced Ports
„ To list the forced ports of a selected diagram in the
Project view use the Extras -> Documentation menu
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Trend Display
Trend Display
„ Trend Displays are used to display archived data graphically for
analysing and tracking
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Selecting a Trend Display
„ To open predefined Trend Displays usually specific Selection
Buttons are available in both; Plant Displays and Faceplates
„ In the Operation Mode also the selection via Display Hierarchy
Navigation is available
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Opening Trend Display
Note:
The very first
click anywhere in
the trend display
only enables
operating
(indicated by a
green frame)
„ The Trend Display opens into a new Full Screen Window
„ The current Display Parameters like Time Scale, Physical Scale
and Range are in accordance with the engineered default settings
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Trend Display Legend
„ Although showing the current values at the right border of the
screen, the Dynamization is stopped.
To start, release the Pause button.
„ In the lower part of the window, the Legend display includes all
necessary information to the signals like Tag name, Description,
display Range, engineering Unit and the Last value.
„ The curves in the curve field are identified by the given Tag Color
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Analysing Curves
„ To analyse curves, two vertical Cursors Lines are available which
can be switched on and then freely positioned on the time axis
„ The current position and the time difference between both cursor
lines is inserted above. Positioning is used by using the scroll
buttons or simply drag and drop anywhere.
„ The values at the cursor position are then visible in the respective
column
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Scrolling the Time Axis
Page left
Segment left
Segment right
Page right
„ To scroll the curve field along the time axis two pairs of Scroll
Buttons are available
„ Scroll by Page
„ Scroll by Time Segment
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Scrolling the Range
„ To scroll the curve field along the
Range axis a pair of Scroll
Buttons is available
„ Scroll up by 1/4 of the Range
scale
„ Scroll down by 1/4 of the Range
scale
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Change Predefined Time Range
„ To change display between
predefined Time Ranges a drop
down menu is available
„
„
„
„
„
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Inserting Physical Scales
„ On the left Physical Scales are „ Add or remove Physical
inserted according with the
engineered default settings
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scales temporaryly using the
Physical Scale Button
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Assigning a Tag to a Physical Scale
„ The Tag Colors indicate the Physical Scales assignment
„ Modify the assignment temporarily using the drop down
Tag Color Menu
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Magnifying individually
Magnify
Time
Range
Step back
Return
„ To magnify the curve representation individually activate the
button showing the Magnifying Glass symbol
„ Preselect the „X“ option to magnify related Time axis.
Preselect the „X:Y“ option to magnify related Range axis
„ Then use the Lasso Function (dragging the mouse, keeping left
mouse button pressed) to select the desired range
„ The desired range is then shown individually magnified
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Assigning Channels
„ Clicking any Tag Color Button
or the Set Parameter Button to open a window which allows to
temporarily modify the channels general assignment
Assigning Trend Displays
„ To support easy analysis the display style of a selected curve
channel can be modified using the Tags/Appearance sheet. The
options Highlighted, Flooded and Hidden are available
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Drag and Drop Configuration
Note:
If the cursor is positioned
over an existing signal in the
signal list, the new signal will
replace the existing signal
„ Tags in a trend Display can also be configured in the Operation
Mode (only temporary) using the drag and drop method
„ Select a pictogram in an open Plant Display with the CTRL key
simultaneously pressed, then drag the mouse to the Trend
Displays symbol list keeping the mouse button pressed, then drop
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Reports
Reports
Repo
rt
Archive
Compiling
Reports
• Sequence
• Status
„ The compiling of reports is based on process variables which are
stored in the Archive
„ Reports are used to compile a set of information under a certain
aspect. Some of those aspects could be:
„ Measured values during a given Period of Time
„ To start investigations after an Event in the process
„ Collecting Balance Data of performance or wear
„ Operation Sequences
„ Snapshot of a certain set of process values
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Starting the dialog to create Reports
„ The dialog to create Reports is started by using the Reports
option from the Workbench - Applications menu
„ The Reports Dialog then appears in a new window
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Opening the Reports Dialog
„ After opening the menu FileÆ Create Report the report types are
listed in a submenu.
„ Various Sequence Reports and Status Reports are available
„ Click on the desired report to open the configuration dialog
e.g. Binary Status
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Binary Status Report
The Binary Status Report
represents the current status
of a selection of signals at a
specific time (snapshot)
Archive
Query
„ To configure the query on the archived data the selection criteria
Time, Tags, Quality and Value have to be defined in the
Parameters tab
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Selection criteria: Time
„ Open the calendar to adjust the date. A calendar sheet appears
with the present date selected.
„ Select the desired date. Change month/year using the up/down
buttons
„ Open the time indication which appears with the present time
„ Click on the up/down buttons to select
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Selection criteria: Tags
Note: When there is no specification or a specification
which cannot be interpreted from the report generator,
the user will be informed with an error message
„ Add then Browse for Tags to be
included in the report
„ A fully specified Tag consists of 3
parts Tag Name, Signal Item and
Signal Name
„ Tags can also be entered manually.
Then „Wildcards“ can be used:
Tag Browser
„ An asterisk ( * ) replaces an unspecified number of characters
„ A question mark ( ? ) replaces one character
„ Merging of different Tags in one Report can be achieved by
entering more than one specification
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Selection criteria: Quality
„ Quality Codes, in accordance with the OPC Data Access
Custom Interface Specification, are stored with the event
records in the archive. A filter can be set to a selection of
these Quality Codes
OPC Quality Codes
„ Select the desired Quality Code with the left mouse button.
If necessary scroll down in the list using the slider. Then
press the Add button
„ To select more than one Quality Code repeat the selection or
press Add all
„ To remove Quality Codes from the selection proceed vice versa
or press Remove all
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Selection criteria: Value
„ Binary Values are stored with the event records in the archive.
A filter can be set to a selection of these binary states
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Define Comment
„ A freely editable comment can be fed in the Info tab. This
comment will appear in the reports output file
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Define Output
„ To save the Report in the archive a file name must be assigned
„ Other output options are Printer, Remote Filesystem or Email
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Start Output
Archive
Query
„ Start the report output using FileÆCreate Report and after the
Query is performed, the result will be displayed in the HTMLbrowser window
Power Generation l Instrumentation & Controls
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Point View
Point View
Configuration mode
AF-Block information
Parameter
• Function Diagram
• Plant Display
Operation mode
Hardware
• Function Diagram
Forcing
• Plant Display
Dynamic Values
Diagnostic View
„ For advanced engineering the Point View is offered, an
additional and comprehensive online access to all values,
parameters, connections and hardware assignments which may
also be used during the commissioning
„ With the Point View of a selected AF Block the user also
acquires easy and fast access to all its views and diagrams
using shortcut keys
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Opening Point View
Note:
only graphic objects with AF-Block
assignment are supported
„ After selecting any object in any
plant display or in any function
diagram using either the Engineering View or the Operation
View, the Point View can be opened using the context menu
„ Also Faceplates are provided with a Point View Button
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Point View - General
Toolbar
„ The General tab shows various assignments and information
which cannot be modified at this stage
„ The Toolbar provides the shortcut keys for switching directly to
other views of the AF-Block
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Point View - Engineering Parameter
„ The Engineering Parameter tab allows the user to modify the
AF-Block Parameter Set1 online.
„ Simply click Apply or Ok to execute changes, no committing or
activating function diagrams
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Point View - Dynamic Values
„ The Dynamic Values tab provides the current values from the
process in the cyclically dynamized column “Value”
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Point View - Forcing
„ The Dynamic Values tab also supports the ability to force
values
„ Thus forcing parameters and watch the process before changing
the engineered parameters facilitates interactive commissioning
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Point View - Hardware
„ If the AF-Block is using or providing any hardware signal, the
Hardware tab shows both, the link to the hardware diagram and
the HW Proxy and HW Module Type used.
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Multi-Screen
MultiScreen Operation
„ Standard PC with 4 channel graphic devices
„ Single start up of the Workbench
„ One keyboard to enter data
„ One mouse to operate up to 4 screens
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Typical MultiScreen Arrangements
„ Typical multiscreen arrangements consist of two or four screens
in line or square configuration
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MultiScreen Layout
„ One Screen is provided with the
entire workbench header
„ The other upper screens are
provided only with buttons to
operate PDH, CAI, ASD and
Horn
„ The lower screens are
additionally provided with a
footer
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Operating the Plant Display Hierarchy
„ The Button to open the Plant
Display Hierarchy is available on
each screen
„ Click item to select a Plant
Display from the hierarchy
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Maximize to all Screens
A
B
C
D
View over all screens
„ To maximize any window e.g. from screen A to all screens, first select
the window on screen A
„ Then select Maximize to all Screens from the Window menu
„ The window now appears enlarged on all screens
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Restore from all Screens
A
B
C
D
View before maximized
„ To restore a window previously maximized from screen A, first select
the window
„ Then select Restore from all Screens from the Window menu
„ The window now appears restored again on screen A
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Screen selection
A
B
C
D
„ A new window will open on the pre selected screen
„ Example: when using the Faceplate shortcut button on screen A the
associated dynamic function diagram will open on screen B.
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USP Display
User Specific Plant Displays
„ USP-Displays are Plant Displays that can be created and edited
by operation users, in the Operation Mode.
No engineering functions are required
„ Objects can be dragged and dropped from existing Plant Displays
into USP-Displays, and freely arranged
„ This allows Individual Users to easily create their own Plant
Displays, e.g. for any unusual operating condition
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Create a new USP-Display
Sample 1
Fluegas problem
„ To Create a new USP-Display in the Operation Mode select the
Favorites menu --> create user specific plant display
„ Enter Display Name and Designation to the appearing Dialog Box
then click Create
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Accessing and Managing USP-Displays
„ USP-Displays are available in the Users Favorites List, but are
only available to the user who created them
„ The USP-Displays can be moved to folders, renamed or deleted
just like other favorites using the Manage Favorites... option
„ USP-Displays do not appear in the Plant Display Hierarchy
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Editing USP-Displays
Note: Set the View control for
the source Plant Display
to Zoom to Original Size
to prevent distortions
when adding the object
„ To Open a USP-Display click the Icon in the Favorites List
„ USP-Displays are edited by dragging and dropping objects from
other Plants displays
„ Arrange the USP-Display with other Displays supplying with the
desired objects on the Workbench
„ Select the desired objects then drag and drop to the USP-Display
keeping the Ctrl Button simultaneously pressed
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Inserting Objects to USP-Displays
„ Release the Mouse Button at the required position to add the
copy of objects to the USP-Display
„ Objects can be moved by selecting them, then dragging and
dropping them into a new position
„ Live values will start updating immediately and the contents will
be saved automatically when the user closes the USP-Display
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Deleting Objects from USP-Displays
„ Select the objects to be deleted
„ Delete the selected objects using the Context Menu
(Right Mouse Click)
„ Confirm the delete action in the appearing dialog box
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USP-Display in the Project View
„ Regarding the Project View, the USP-Displays are saved in a
special Project Node linked directly to the Project Root. This
Project Node was installed and given the user´s name when the
user created his first USP-Display
„ To handle the USP-Displays in the Project View, Engineering
rights have to be assigned to the user
„ If appropriate, USP-Displays can be deleted
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Documentation
PG L. The Value
Provider for
Power Generation
Management
Documentation
Thumbs
Next
Previous
„ The System Documentation is supplied completely
online using the Help Function of the Workspace
Memo
Online Help
„ To support the Plant Documentation all Diagrams can
be printed using standard printers
Printing Diagrams
„ Various Project Documentation is available to provide
information required on the project
Project Documentation
„ Various Project Documentation is available to provide
information required on the project
Exit
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Online Help
Online Help
„ Online manual
„ Getting Started
„ Context sensitive help
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Start Online Help
„ To start the Online Help use the Help Menu or press F1
„ Context sensitive Help can be started directly from the Faceplate
„ The Online Help opens into a New Window
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Context sensitive Help
„ In case of context sensitive activation the online help opens the
starting page of the respective item provided with a page icon
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Online Help Window
„ To guide the user when using the online help the Window shows
two parts:
„ Description of the selected item on the right side
„ Navigation on the left side
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Backtrack and Hardcopy
„ The users navigation path can be backtracked or recovered using
the Left – Right Buttons
„ The selected description can be forwarded to a hardcopy printer
using the Print and Page Setup Buttons
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Tree Of Classes
„ Navigation using the Tree Of Classes is the default setting.
To return to this mode, click the tab with the Manual symbol
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Search For Expression
„ A Search For Expression-Function is also available
„ All chapters covering this expression are displayed, sorted by the
amount of Matches
„ On the right, the Matches are highlighted in gray
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Printing Diagrams
PG L. The Value
Provider for
Power Generation
Management
Page Setup
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Memo
„ To determine the current Page Setup of your diagram open the
Page Setup Window in the Diagram Editor using the File Menu
Exit
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PG L. The Value
Provider for
Power Generation
Management
Printing Page Settings
Thumbs
„ The first tab is to define the
Next
Printing Page Settings
Previous
Memo
„ Determine the Paper Size of
your Printer, usually DIN A4
„ Determine the desired
Paper Orientation:
Landscape or Portrait
Exit
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PG L. The Value
Provider for
Power Generation
Management
Drawing Page Settings
Thumbs
„ The second tab is to define
Next
the Drawing Page Settings
Previous
Memo
„ Determine the Page Size of
one Diagram Page
(e.g DIN A3)
Note: Printing DIN A3 Pages
to DIN A4 Paper causes
downsizing when printing !
„ Select the Page Orientation
„ Determine the requested
Page Numbers. Usually one
Diagram is larger than a
single page
Exit
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PG L. The Value
Provider for
Power Generation
Management
Diagram Pages
Thumbs
„ After Saving the changes,
Next
the predicted Print Pages are
now shown as gray
rectangles in your Diagram
Previous
Memo
„ If necessary correct the
Position of AF Blocks and
Connectors to avoid parts
appearing on different
pages
Exit
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PG L. The Value
Provider for
Power Generation
Management
Special Print Options
Thumbs
„ Additional Information
Next
printed at the Connectors
between the pages can be
activated
Previous
Memo
„
„
„
„
Show signal item
Show Designation and Setting
Show Source/Designation
Source display mode
„ To apply all printing settings
to your diagram don´t forget
to Save
Exit
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PG L. The Value
Provider for
Power Generation
Management
Start Printing
Thumbs
Next
Previous
Memo
„ The Print... Option is used to print a selection of pages.
„ Additionally the entire diagram can be printed on one page.
Also printing to a JPEG File is available
Exit
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PG L. The Value
Provider for
Power Generation
Management
Local Print Window
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Next
Previous
Memo
„ Now the Print Window appears as configured on your local PC.
Select Printer, Pages and Number of copies as needed
Exit
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Find Functions
PG L. The Value
Provider for
Power Generation
Management
Find... Functions
Thumbs
Searching in the
entire project
Next
Previous
Memo
Searching in the
selected node
„ The Find... Functions provided with both, the Workbench and
the Project View->Extras are used to search, find and locate
items in the Project Hierarchy
„ The user is also supported with searching for items which
conform to a particular Search Pattern
Exit
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PG L. The Value
Provider for
Power Generation
Management
Find Diagram
Thumbs
Next
Previous
Memo
Note:
The search is executed
case sensitive if Match
Case is checked
„ A dialog box appears to
specify the Diagram Search in the selected node
„ Enter the Search Pattern and determine the diagram Type
„ After clicking Start Search the matches are listed in the
extended dialog box
„ Select a diagram to open it using the context menu
Exit
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PG L. The Value
Provider for
Power Generation
Management
Find Tags
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Previous
Memo
„ A dialog box appears to specify the Tag Search
„ Enter the Search Pattern for Tag and Item
„ The Hierarchy Browser is used to change the Selected Node
Exit
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PG L. The Value
Provider for
Power Generation
Management
Find Tags
Thumbs
Next
Previous
Memo
„ After clicking Start Search the matches are listed
„ Select a Tag to open the Point View directly using the context
menu or open the Function Diagram containing the Tag
Exit
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PG L. The Value
Provider for
Power Generation
Management
Find Signals
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Memo
„ If Find Signals is checked an extention
will appear which allows to specify
additional filter criteria for a signal search
(e.g. all active alarms)
Exit
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PG L. The Value
Provider for
Power Generation
Management
Signal Search
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Next
Previous
Memo
„ Start Search is then listing the signals matching to the filter
criteria with more details about Port Name, Forcing, Alarm
Suppression, Alarm Type, Quality and Designation Text
Exit
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PG L. The Value
Provider for
Power Generation
Management
Find Open Function Diagram Connection
Thumbs
Next
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Memo
The source diagram
does not exist
„ A dialog box appears listing the Open Connections. That is to
say signals which are used (coming in) but still are open
„ Select a connection to open the respective Function Diagram
using the context menu
Exit
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PG L. The Value
Provider for
Power Generation
Management
Find Open Plant Display Mappings
Thumbs
Next
Previous
Memo
„ A dialog box appears listing the pictograms with Open Mappings
„ Select a pictogram to open the respective Plant Display using the
context menu
Exit
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PG L. The Value
Provider for
Power Generation
Management
Find Tag inside Diagram
Thumbs
Next
Previous
Memo
Note: The search is executed case
sensitive if Match Case is checked
„ In the Operation Mode, with a dynamic Function Diagram
opened, Find Tag inside Diagram is available in the Workbench
„ After entering the entire Tag Name or search pattern determine
the search direction then click Find next to select (highlight) the
item found in the diagram
„ Find next again continues the search
Exit
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