Distrubuted control system training Part 4

Commands Assignable to Function Keys•Call Window O Calls up a specified operation and monitoring window.. From specific types of operation and monitoring windows, you can call up their a

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Schedule for the day :

HIS Configuration Window Configuration Graphic Builder 1

Day 4

HIS Configuration - Function Keys

There are function keys on the operation keyboard User can assign

predetermined commands to function keys

Figure: Function keys (for Single-Loop Operation)

Figure: Function keys (for Console Type HIS)

HIS Configuration - Function Keys

There are function keys on the operation keyboard User can assign predetermined commands to function keys

HIS Configuration - Function Keys

You can specify a name or window name as the condition for triggering flashing of

LED on the function key

•A tag name or an annunciator message

•A window name (Graphic view, Process Alarm view, Operator Guide Message

view, System Alarm view)

HIS Configuration - Function Keys

Whether or not the function key assignment can be changed in the HIS Setup window is specified by setting one of the following security levels for each function key

Table: Window Operation and Monitoring Authorities

R/W: Both operation and monitoring are permitted.

R:Only monitoring is permitted.

-:Both operation and monitoring are not permitted

Commands Assignable to Function Keys

•Call Window (O)

Calls up a specified operation and monitoring window From specific types of operation and monitoring windows, you can call up their associated builder by adding “BDR” as the

function parameter to the window name (*1)

•Call Frame (G)

In full-screen mode, calls up a frame in the main window

•Execute System Function Key (K)

Runs a predefined system function key command.

•Execute Command for the Specified Monitor (L)

In a multiple-monitor environment, executes a system function key command on a specified

monitor.

•Start/Stop/Resume Trend (T)

Starts, stops, or resumes batch trend data acquisition.

The following types of commands can be assigned to the function keys

*1:“BDR” is only valid when the Standard Builder Function package or Configured Information

Reference package is installed on the HIS computer

Commands Assignable to Function Keys

•Flash/Light/Turn OFF the LED (E)

Flashes, lights or turns off the LED on each function key

•Execute a Program by File Name (F)

Runs a program of the specified name

•Play/Repeat/Stop Multimedia File (X)

Plays a multimedia file of the specified name

•Send Event to ActiveX Control (D)

Sends an event to the ActiveX control of a graphic view

•Execute Panel set (P)

Calls up a predefined panel set

•Call Window to Other Station (S)

Calls up an operation and monitoring window on a specified HIS

•Clear Window on Other HIS (S)

Clears the windows displayed on a specified HIS

Assigning a Window Call

Window call can be assigned to a function key by specifying a window name or a

system function key nameO:Window name [ΔFunction parameter] [Δ-Window size] [Δ=Display position]:Function parameter] [ΔFunction parameter] [Δ-Window size] [Δ=Display position]:-Window size] [ΔFunction parameter] [Δ-Window size] [Δ=Display position]:=Display position]Display position]

[ΔFunction parameter] [Δ-Window size] [Δ=Display position] ] : Can be omitted

: : Space

Example: O:FIC101:TUNΔ-SLΔ=+200+100:-SL:=Display position]+200+100With this example, a Tuning View for the tag name “FIC101” is shown in large size, located at X-coordinate 200 and Y-coordinate 100 on HIS desktop area

Example: O:.AL:FCS0101:-SMWith this example, a Process Alarm View in medium size showing a list of

process alarms raised for station FCS0101 will be displayed

Assigning a Frame Call

G:Frame name:Frame calling parameter(s)

Trend View is shown in the lower half of the frame

Example: G:FRLT02:'1=Display position]GR0001: {$TAG1=FIC001}, 2=.PR'TAG1=Display position]FIC001}, 2=Display position].PR'With this example, a Graphic View appears on the left side and a Process Report View

on the right side in the frame As the function parameter for the Graphic View, a tag

name “FIC001” is set for the Graphic generic name “TAG1”

Assigning Execution of a System Function Key Command

KΔSystem function key name System function key name (: : Space)

Example: KΔUSIN:USINΔ-SLΔ=+200+100With this example, the User-In dialog box is shown

Assign system function key commands to Function KΔUSINeys

History File Calling backward (RECB)

Sequentially calls up the operation windows displayed in the past, starting with the latest one Up to 30 windows can be called

up

KΔUSIN RECF History File Calling forward (RECF)

Sequentially calls up the operation windows displayed in the past, starting with the oldest one Up to 30 windows can be called up.KΔUSIN RECB

System Function Keys

You can assign any of the following system function key commands to a function

key The following table shows the system function keys:

Hard Copy (HDCP) Window Up (CRUP) Calling a Hierarchy Window in

Ascending Order (WNDL)

Message Printout (MSPR) Primary Window Focus (FCSF) Hide Primary Window (CLFS) Buzzer Reset (BUZZ) Circulate (CIRC) Clear Primary Window (ERFS) Stop Voice Play (VOIC) Halve (HALF) Erase Pop-up Windows

(ERWD) Panel set (PSET) Maximize (FULL) Erase Active Window (ERAW) Isolate (ISOL) Restore Window Size (RSIZ) Feed Forward according to

Window History (RECF) Acknowledge (ACKN) Prioritized Display (HOLD) Feed Backward according to

Window History (RECB) Clear (CLER)) Calling the Upper Window (WNDU) Navigator (NAVI)

Window Down (CRDN) Calling a Hierarchy Window in

Descending Order (WNDR) Call Name Input Toolbox (NAME)

System Function Keys

User-In (USIN) Trend View (TRGL, TRGM) Logic Chart View (LOGL) Shift Window (SHnn) n,m = 1

to 4 Graphic View (Graphic Attribute) (GRPL, GRPM, GRPC) Sequence Table View (SQTL) Shift Window (SHFT) Graphic View (Overview Attribute)

(OVGL , OVGM, OVGC) SEBOL View (SBLL) Exchange Window (ECnm)

n,m = 1 to 4 Graphic View (Control Attribute) (CTLL, CTLM, CTLC) SFC View (SFCL)

Exchange Window (ECHG) Historical Report Window (HRPT) HELP Window (HELP)

Copy Window (CPYn) n = 1

to 4 Process Report View (PRPT, PRPL, PRPM) Message Monitor Window (MSDW) Process Alarm View (ALML,

ALMM, ALMW) System Overview (SMNT) Call Related Builder (BDRA) Operator Guide View

(OPGL, OPGM, OPGW) Image Window (IMAG) Call Control Drawing Builder (BDRD) System Alarm View (SYAL,

SYAM, SYAW) Faceplate View (FACE)

Tuning View (TUNL, TUNM) Control Drawing View (DRWL)

Assigning Execution of a Program

You can assign execution of a program to a function key by defining the

following items on the Function KΔUSINey Assignment Builder

•Program name

•Parameter

F:program name [ΔFunction parameter] [Δ-Window size] [Δ=Display position]:parameter]

[ΔFunction parameter] [Δ-Window size] [Δ=Display position] ] : Can be omitted

: : Space

“F:Program NΔ-SLΔ=+200+100ame [ΔFunction parameter] [Δ-Window size] [Δ=Display position]:Parameter]” must be a string of up to 48 alphanumeric

characters

Example: F:BKΔUSINHRPT:-nCYOHYO:-f:-pWith this example, the report function will print the report “CYOHYO” to the default printer, and at the same time the report is set as a subject of historical management

Example: F:C:\ USER_File\File1.docWith this example, the Microsoft Word is started and the file “File1.doc” in the

“USER_File” folder is opened

Assigning a Panel Set Call

You can assign a panel set call to the function keys by specifying the panel set

name on the Function KΔUSINey Assignment Builder

P:Panel set name

: : space

Example: P:PSET001With this example, the panel set “PSET001” is called up

HIS Configuration – Sequence Message Request

The sequence message request is sent by the Process Sequence Control Function at a

certain process timing to an HIS to execute certain Operation and Monitoring Functions The functions to be executed for the corresponding request message numbers

may be defined in the HIS After the Operation and Monitoring Functions’ execution, the request messages are logged into the historical message log files.

The sequence message request is managed in an HIS

Request received from all FCSs may be executed.

Sequence Message Request

Figure: Occurrence of a Request Message

Example of Sequence Message Request

Control View CG0002 will

HIS Constants – Printer Tab

1 The message output can be assigned to different printers according to the message type Set the correspondence between the output printer

device and the HIS Printer Name in the HIS Setup window.

2 The scope of operation and monitoring of the designated user group

decides the scope of the message to print out

Figure: Message Print Start Position

HIS Setup – Printer Tab

Set the correspondence between the output printer device and the HIS Printer NΔ-SLΔ=+200+100ame in the HIS Setup window

HIS Constants –Instrument Diagram Operation Tab

A dialog box for changing the block mode or a menu for changing the block mode

will be displayed

Figure: Dialog Box for Changing Block Mode

HIS Constants –Instrument Diagram Operation Tab

A menu for changing the block mode will be displayed

Figure: Menu for Changing Block

Mode (select from MANΔ-SLΔ=+200+100, AUT, CAS)

Panel Set

By defining a combination of several frequently-used windows as a panel set,

multiple windows can be called up collectively

Panel set name

Up to 1000 Panel Sets can be defined per HIS Up to 5 windows can be defined per set

Panel Set

Define the window name and the function parameter with up to 23 double-byte

characters or 46 single-byte characters as follows:

Window name [Δfunction parameter] [Δ-display size] [Δ=display position]ΔSystem function key name function parameter] [Δfunction parameter] [Δ-display size] [Δ=display position]ΔSystem function key name -display size] [Δfunction parameter] [Δ-display size] [Δ=display position]ΔSystem function key name =display position]

[Δfunction parameter] [Δ-display size] [Δ=display position] ]: can be omitted ΔSystem function key name : Space

•Window name Define a window name or a tag name

•Function parameter Set as needed

Define any of the following as a function parameter when a tag name is specified.

TABLE: Sequence Table view

SFC:SFC view DRAW: Control Drawing view LOGIC: Logic Chart view

Calling up the Panel Set

The panel set defined in the Panel Set Builder can be called up by the following methods:

• Assigning a function key

• Defining in the sequence message request

• Assigning to a graphic object

• Entering the panel set name in the NΔ-SLΔ=+200+100ame Input Tool Box of the Browser Bar

Enter "$TAG1=FIC001}, 2=.PR' + panel set name" in the NΔ-SLΔ=+200+100ame Input toolbox

Example: $TAG1=FIC001}, 2=.PR'PSET01

In the above example, the panel set "PSET01" is called up

Calling up the Panel Set on Other HIS

Figure: Execution of a Panel Set

If a Panel Set is called up, the

related panel set names are

notified to all the other HISs On

receiving the panel set name, the

HIS calls up the panel set

according to the Panel Set

definition of the same name

defined in its own HIS database

Scheduler controls the specified applications or tasks to run at the specified time

•Calling up windows

•Execution of the system function keys

•Starting, stopping or restarting of trends

•Flashing or turning ONΔ-SLΔ=+200+100/OFF of LED

•Startup of programs by file names

•Execution of the multimedia function

•Calling up a panel set

•Calling up windows to other stations The tasks assigned to the function keys are also executable by the scheduler.

Table: Scheduler Definition Method for Each Type of Startup

-:Not valid even when defined.

End of the Presentation

Trend Recording - Trend Blocks

Trend Data Acquisition refers to the function where the HIS periodically gathers

process data of the function blocks in the control station

Properties of Trend Blocks

Sampling period: 1 s, 10 s, 1 min, 2 mins, 5 mins

Once Sampling Period is selected the corresponding

recording time is displayed.

If Trend Format is selected as Other Station Acquisition Trend, a Station NΔ-SLΔ=+200+100ame of the referenced HIS and its Reference Trend Block NΔ-SLΔ=+200+100umber will have

to be specified

Specify a suitable Trend Data Store Time

Depending on the number of days specified, the

corresponding required disk capacity is displayed

Structure of Trend

The Trend Recording has a three-layer structure:

1 Trend block

2 Trend window

3 Trend point window

50 trend blocks per HIS

1 trend block

16 trend groups

1 trend group

8 pens

Structure of Trend

1 Trend Block

There are 50 trend blocks per HIS Up

to 20 of the 50 trend blocks can be defined in the rotary trend or batch trend format The remaining 30 trend blocks are defined as trend of other stations.

2 Trend Window

There are 16 Trend windows in 1

trend block 8 Pen trend data can

be assigned to a trend window

800 Trend windows per HIS

3 Trend Point Window

6,400 Trend Point windows per

HIS

Trend Recording

Trend Data Acquisition

Trend Data Acquisition refers to the function where the HIS periodically gathers process data of the function blocks in the control station

Trend Data Acquisition Type 1

1 Continuous-Rotary Type

By this mode, process data are acquired constantly Data acquisition startsautomatically after starting the HIS Data acquisition stops when the HIS stops.Acquired data will not be erased after the HIS stop When the storage capacity

is full, the oldest data are deleted and replaced by new data

Trend Data Acquisition Type 2

2 Batch-Stop Type

By this type, data acquisition starts and stops according to the received

stopinstruction is given, data acquisition will stop automatically when the

storagecapacity becomes full

Start, stop, and resume commands can be issued by the following means:

 Buttons on the toolbar of the Trend View

 Operation on the Graphic View, Function KΔUSINey or Preset Menu

 Sequence Messages Request function

Trend Data Acquisition Type 3

3 Batch-Rotary Type

By this type, data acquisition starts and stops according to the received command

If no stop instruction is given, data acquisition will continue until the storage capacity becomes full Once it is full, the oldest data are deleted and replaced by new data

Start, stop, and resume commands can be issued by the following means:

 Buttons on the toolbar of the Trend View

 Operation on the Graphic View, Function KΔUSINey or Preset Menu

 Sequence Messages Request function

Trend Data Acquisition Type 4

4 Trend Acquired by other HIS

By this type, trend data acquired by other HIS may be referenced in

blocks

Sampling Period & Recording Span of Trend Data

Sampling Period 1sec 10se

c 1min 2min 5min 10min

Recording Span 48min 8hrs 2 days 4 days 10 days 20 days

The recording span indicates the time to acquire 2,880

samples for each

trend graph (maximum number of samples) in the

specified sampling period

For example, if the trend sampling period is 1 minute:

1 (minute) x 2880 samples =Display position]2,880 minutes =Display position]48 hours

=Display position]2 days

2 days of process data may be recorded