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User Guide
Inform
IT
Advanced Videographic Recorder
SM2000
ABB
The Company
We are an established world force in the design and manufacture of instrumentation for industrial process control, flow measurement, gas and liquid analysis and environmental applications.
As a part of ABB, a world leader in process automation technology, we offer customers application expertise, service and support worldwide.
We are committed to teamwork, high quality manufacturing, advanced technology and unrivalled service and support.
The quality, accuracy and performance of the Company’s products result from over 100 years experience, combined with a continuous program of innovative design and development to incorporate the latest technology.
The NAMAS Calibration Laboratory No. 0255 is just one of the ten flow calibration plants operated by the Company, and is indicative of our dedication to quality and accuracy.
BS EN ISO 9001:1994
R
E
GISTER E
D
Cert. No. Q05907
EN 29001 (ISO 9001)
Lenno, Italy – Cert. No. 9/90A
Stonehouse, U.K.
Electrical Safety
0255
This instrument complies with the requirements of BS EN 61010-1:1993 "Safety Requirements for Electrical Equipment for
Measurement, Control and Laboratory Use". If the instrument is used in a manner NOT specified by the Company, the protection provided by the instrument may be impaired.
Symbols
One or more of the following symbols may appear on the instrument labelling:
Warning – Refer to the manual for instructions
Caution – Risk of electric shock
Protective earth (ground) terminal
Earth (ground) terminal
Direct current supply only
Alternating current supply only
Both direct and alternating current supply
The equipment is protected through double insulation
Information in this manual is intended only to assist our customers in the efficient operation of our equipment. Use of this manual for any other purpose is specifically prohibited and its contents are not to be reproduced in full or part without prior approval of the
Technical Publications Department.
Health and Safety
To ensure that our products are safe and without risk to health, the following points must be noted:
1. The relevant sections of these instructions must be read carefully before proceeding.
2. Warning labels on containers and packages must be observed.
3. Installation, operation, maintenance and servicing must only be carried out by suitably trained personnel and in accordance with the information given.
4. Normal safety precautions must be taken to avoid the possibility of an accident occurring when operating in conditions of high pressure and/ or temperature.
5. Chemicals must be stored away from heat, protected from temperature extremes and powders kept dry. Normal safe handling procedures must be used.
6. When disposing of chemicals ensure that no two chemicals are mixed.
Safety advice concerning the use of the equipment described in this manual or any relevant hazard data sheets (where applicable) may be obtained from the Company address on the back cover, together with servicing and spares information.
CONTENTS
1 INTRODUCTION ......................................................................... 2
2 OPERATION ................................................................................ 3
2.1
Powering Up the Instrument .................................................... 3
2.2
2.3
Displays and Controls ............................................................. 3
Chart Views (Horizontal and Vertical) ....................................... 4
2.4
2.5
2.6
2.7
2.8
Bargraph Views (Horizontal and Vertical) ............................... 10
Digital Indicator View ............................................................. 12
Process View ........................................................................ 15
Alarm Event Log ................................................................... 17
Totalizer Log .......................................................................... 19
2.9
Audit Log .............................................................................. 21
2.10
Status View ........................................................................... 22
3 SET UP ...................................................................................... 23
3.1
Introduction ........................................................................... 23
3.2
Accessing the Set Up Level .................................................. 23
3.3
3.4
3.5
3.6
3.7
3.8
3.9
Set Up Menu ........................................................................ 24
Archiving ............................................................................... 26
3.4.1
SmartMedia Handling and Care ............................... 26
3.4.2
Media Status ........................................................... 26
3.4.3
Inserting and Removing Media ................................ 27
3.4.4
Archive File Types .................................................... 28
Text Format Archive Files ....................................................... 28
3.5.1
Text Format Channel Data Files ............................... 28
3.5.2
Text Format Filename Examples .............................. 29
3.5.3
Text Format Log files ............................................... 30
3.5.4
Text Format Data File Examples ............................... 30
3.5.5
Text Format Data File Digital Signatures ................... 30
3.5.6
Text Format Data Verification and Integrity ............... 30
Binary Format Archive Files ................................................... 32
3.6.1
Binary Format Archive Filenames ............................. 32
3.6.2
Binary Format Channel Data Files ............................ 32
3.6.3
Binary Format Log files ............................................ 32
3.6.4
Binary Format Data File Examples ........................... 32
3.6.5
Binary Format Data Verification and Integrity ............ 32
Archiving Online/Offline ......................................................... 35
Archiving Updates ................................................................. 35
Backing-up Archived Data .................................................... 35
4 CONFIGURATION ..................................................................... 36
4.1
Introduction ........................................................................... 36
4.2
4.1.2
Configuration Level Security .................................... 36
4.1.3
Configuration Level Access ..................................... 36
Overview of Configuration ..................................................... 39
4.3
4.4
4.5
4.6
4.7
Making Changes to Parameters ............................................ 40
Common Configuration ......................................................... 43
4.4.1
Set Up ..................................................................... 43
4.4.2
Time ........................................................................ 44
4.4.3
Security ................................................................... 46
4.4.4
Logs ........................................................................ 47
4.4.5
Operator Messages ................................................. 47
4.4.6
RS485 Communications ......................................... 48
Process Group Configuration ................................................ 49
4.5.1
Setting the Recording Parameters ........................... 49
4.5.2
Configuring the Chart Display .................................. 51
4.5.3
Configuring the Bargraph display ............................. 53
4.5.4
Configuring the Process View .................................. 54
4.5.5
Digital Indicator View ............................................... 55
4.5.6
Archiving ................................................................. 56
Channel Configuration ........................................................... 58
4.6.1
Recording Channel Set Up ...................................... 59
4.6.2
Analog Input Configuration ...................................... 62
4.6.3
Digital Input Configuration ........................................ 64
4.6.4
Alarm Configuration ................................................. 65
4.6.5
Totalizer Configuration ............................................. 71
4.6.6
Scales ..................................................................... 74
I/O Module Configuration ...................................................... 75
4.7.1
Analog Inputs .......................................................... 75
4.7.2
3-Relay and 6-Relay Modules .................................. 77
4.7.3
Hybrid Modules ....................................................... 77
4.7.4
Ethernet Modules .................................................... 78
4.8
Functions .............................................................................. 79
4.8.1
Custom Linearizers .................................................. 79
4.8.2
Real Time Alarms .................................................... 80
5 INSTALLATION ......................................................................... 81
5.1
Siting .................................................................................... 81
5.2
5.3
5.4
5.5
5.6
5.7
5.8
Mounting .............................................................................. 82
Electrical Connections ........................................................... 83
Analog Inputs ........................................................................ 85
RS422/485 Serial Communications ...................................... 86
Mains Power Connections .................................................... 87
Relay Output Board Connections .......................................... 87
Hybrid I/O Module Connections ............................................ 87
5.8.1
Digital Output Connections ...................................... 87
5.8.2
Digital Input Connections ......................................... 87
5.8.3
Analog Output Connections .................................... 87
APPENDIX 1 – SIGNAL SOURCES ................................................ 88
APPENDIX 2 – MODBUS GUIDE ................................................... 89
A2.1
Introduction ........................................................................... 89
A2.2
Setting Up ............................................................................. 89
A2.3
Modbus Commands Supported ............................................ 89
A2.4
Modbus Exception Responses .............................................. 89
A2.5
Operating Mode Modbus Coils ............................................. 89
A2.6
Operating Mode Modbus Registers ....................................... 92
A2.7
Comms Analog and Digital Inputs ......................................... 94
APPENDIX 3 – STORAGE CAPACITY ............................................ 94
A3.1
Internal Storage Capacity ...................................................... 94
A3.2
Archive Storage Capacity ...................................................... 95
APPENDIX 4 – DEFAULT SETTINGS ............................................. 97
A4.1
Company Standard ............................................................... 97
A4.1.1
Common Configuration ........................................... 97
A4.1.2
Process Groups 1 and 2 ......................................... 97
A4.1.3
Recording Channels ................................................ 97
A4.1.4
I/O Modules ............................................................ 98
A4.1.5
Functions ................................................................ 98
A4.2.
QuickStart Templates ............................................................ 98
A4.2.1
QSMilliAmp ............................................................. 98
A4.2.2
QSFlow ................................................................... 99
A4.2.3
QSTHC_C ............................................................... 99
A4.2.4
QSTHC_F ................................................................ 99
A4.2.5
QSRTD_C ............................................................... 99
A4.2.6
QSRTD_F ................................................................ 99
A4.2.7
QSDEMO ................................................................ 99
A4.2.8
QSDAIRY .............................................................. 100
APPENDIX 5 – SPARE PARTS & ACCESSORIES ....................... 101
APPENDIX 6 – ERROR & DIAGNOSTICS INFORMATION .......... 103
INDEX ............................................................................................ 104
Keys
Note.
For optional accessories, refer to APPENDIX 5.
Mounting Clamps
Shunt Resistors
(1 per analog input)
Standard Accessories
1
1 INTRODUCTION
Functional Overview – Fig. 1.1.
• 12 Recording Channels as standard, divided into 2 Process
Groups, each with 6 Recording Channels.
• Two Alarms and one Totalizer are assigned to each
Recording Channel.
• Recording Channels 1.1 to 1.6 pre-assigned to Process
Group 1. Recording Channels 2.1 to 2.6 pre-assigned to
Process Group 2.
• Recording sources derived from universal analog inputs, the
Modbus serial link, optional digital inputs or internal analog and digital signals.
• Any source can be assigned to any recording channel.
• Data from assigned sources can be displayed in Chart,
Bargraph, Indicator and Process formats.
• Three instrument logs record alarm events, totalizer values and system/configuration changes.
Sources
Note. Sources can be assigned to any recording channel in either process group.
Analog Inputs
A1
A2
A3
A4
A5
A6
B1
B2
B3
B4
B5
B6
Internal sources – see Appendix 1
Comms
Analog Inputs
1
2
3
24
Comms
Digital Inputs
1
2
3
24
Digital Inputs
C1
C2
C3
C4
C5
C6
D1
D2
D3
D4
D5
D6
Process Group 1
1.1
1.2
1.3
1.4
1.5
Recording
1.6
Channels
1.1 to 1.6
• Two process groups as standard provide 12 recording channels, irrespective of the number of external inputs.
Chart View
Level Pressure In Flow Out Flow Temp
0
High Out Flow Rate
28/03/00
14:52:00
Alarm 1
On
10
12:00:00
11:59:00
11:58:00
11:57:00
High Level
Chart View (Section 2.3)
Digital Indicator
2.08
In Flow
204.4
0005402801
Temp
195
Pressure
28/03
/00
4
Out Flow
198.4
0005402060
Alarm 1
On
Digital Indicator View (Section 2.5)
Vertical Bargraph
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
28/03/00
14:52:00
Alarm 1
On
5.0
5.0
300 300 250
2.5
2.5
150 150 125
0.0
0 0.0
0 0.0
Bargraph View (Section 2.4)
Process View
Total Daily In Flow
00054
02801
00054
02060 litres
Tank 1 Low Level
Tank 1 High Level
Tank 1 Low Pressure
Tank 1 High Pressure
1.2
4.
28/03/
00
Level
2.0
8
0.2
4.
4 bar
Storage Tank 1 In Flow
225.4
110.9
201.0
In
20
4.9
Storage Tank 1 Out Flow
229.1
100.1
200.9
19
8.9
Tank 1 Low Temp
Tank 1 High Temp
15
25
19
5
On
Process View (Section 2.6)
Process Group 2
2.1
2.2
2.3
2.4
2.5
2.6
Recording
Channels
2.1 to 2.6
Chart View
Level
0
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
28/03/00
14:52:00
Alarm 1
On
10
High Out Flow Rate
12:00:00
11:59:00
11:58:00
11:57:00
High Level
Chart View
Vertical Bargraph
Level
2.08
metres
5.0
Pressure
4 bar
5.0
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
300 300 250
28/03/00
14:52:00
Alarm 1
On
2.5
2.5
150 150 125
0.0
0 0.0
0.0
Bargraph View
0
Digital Indicator
2.08
In Flow
204.4
0005402801
Temp
195
Pressure
4
28/03
/00
Out Flow
198.4
0005402060
Alarm 1
On
Digital Indicator View
Instrument Logs
Alarm/Event Log Records all alarm transistions and all operator messages
Totalizer Log
Audit Log
Records all totalizer activity
Records all system acfivity
Process View
Total Daily In Flow
00054
02801
00054
02060 litres
Tank 1 Low Level
Tank 1 High Level
1.2
4.
28/03/
00
Level
2.0
8
Tank 1 Low Pressure
Tank 1 High Pressure
0.2
4.
Storage Tank 1 In Flow
225.4
110.9
201.0
4 bar
In
20
4.9
Storage Tank 1 Out Flow
229.1
100.1
200.9
19
8.9
Tank 1 Low Temp
Tank 1 High Temp
15
25
19
5
On
Process View
Alarm Event Log
03
04
05
06
00
01
02
Alarm Event Log
(Section 2.7)
Tank 1 High Level
Tank 1 High Level
High Out Flow Rate
Tank 1 High Level
High Out Flow Rate
High Out Flow Rate
Duty/Standby Change
Level
Level
Out Flow
Level
Out Flow
Out Flow
Out Flow
28/03/00
14:52:00
28/08/00 14:01
28/08/00
28/08/00
14:03
14:09
28/08/00
28/08/00
28/08/00
14:11
14:12
14:15
28/08/00 14:31
Totalizer Log
(Section 2.8)
Totalizer Log
No Tag/Value
Total Daily In Flow
0005402801 Litres
225.4 l/hr
110.9 l/hr
201.0 l/hr
Total Daily Out Flow
0005402060 Litres
229.1 l/hr
100.1 l/hr
200.9 l/hr
Source Tag
In Flow
Date
28/03/00
28/03/00
14:52:00
Time
14:52
Out Flow 28/03/00 14:52
Audit Log
(Section 2.9)
Audit Log
No
00
04
05
06
01
02
03
Alarm Event Tag
Power Restored
I/O Configuration
Common Configuration
Group 1 Configuration
Ch1.1 to 6 Config
AIN Cal, Module A
System Alarm
Source Tag
JM
JM
JM
JM
JM
Date
25/03/00
25/03/00
25/03/00
25/03/00
25/03/00
25/03/00
Time
11:59
12:01
12:05
12:09
12:10
12:15
• Views provide a window on the stored data.
Configuration Data
Configuration
Data
Stores all instrument configuration, calibration and user preferences
Status View
VERSION
Software
System
SM 2001/1
1.0.130
28/03/00
14:52:00
CJ TEMPERATURES
A 25°C / 77°F
B 25°C / 77°F
ARCHIVING
Group 1 Filename
Group 2 Filename
% Memory used
Time left
Process Group 1
Process Group 2
80.5%
5 days
• Status View
Recorded Data
Recording Channels 1.1 to 1.6
(Process Group 1)
Recording Channels 2.1 to 2.6
(Process Group 2)
Instrument Logs
Configuration Data
Files stored in instrument's on-board flash memory.
Newest data overwrites oldest.
Archive Data
Archive Media
Data saved to archive storage media
Fig. 1.1 Functional Overview
2
2 OPERATION
2.1
Powering Up the Instrument
When power is first applied to the instrument, its processor carries out a number of self-tests and displays the start up screen.
At the end of the start up sequence the instrument displays the Operator View that was being displayed when the instrument was powered down.
2.2
Displays and Controls – Figs. 2.1 and 2.2
In normal day-to-day use, the instrument is operated via the Operator Keys located along the bottom of the touch screen.
Process Group Name
Channel not enabled
Short Channel Tag
Current Value
Alarm Status
Engineering Units
Touch Screen
(Configuration
Mode only)
Process Group 1
Level
0
2.08
metres
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
28/03/00
12:00:45
Alarm 1
On
10
12:00:30 High Out Flow Rate
12:00:00
11:59:15
11:58:30
11:57:45
11:58:53 Duty/Standby Switched
11:58:00 High Level
Status Icons – see inside rear fold-out
Current
Date and Time
Digital ON or OFF tag, according to input status
Operator Keys
Group Key
Selects a different process group.
Process Group 1
Process Group 2
Instrument Status & Logs
Note.
• Do Not use sharp objects such as screwdrivers, pen nibs etc. to operate the touch screen.
• Clean the touch screen periodically using a soft cloth and mild detergent.
Programming
Socket
(Inside Door)
Door Lock Jacking
Screw and
Fitting for
Tamper-proof
Seal
View Key
Selects a different process view or log.
Chart View – see Section 2.3
Bargraph Views – see Section 2.4
Media
Door
Infrared
Link
Menu Key
Displays or hides the context-sensitive operator menu associated with each view:
Configuration
Set Up
Historical Review
Operator Messages
Chart Annotation
Screen Interval
Scales
Trace Select
Alarm Acknowledge
Also cancels the menu without making a change or returns to the previous menu level.
Digital Indicator
View – see
Section 2.5
Up/Down Keys
Highlights menu items and scrolls through previously recorded data.
Process View – see Section 2.6
Enter Key
Selects the highlighted menu item.
Fig. 2.1 Displays and Controls
3
…2 OPERATION
…2.2
Displays and Controls
Process Group 1
(Recording Channels 1.1 to 1.6)
Chart View
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
0
Out Flow
198.9
l/hr
Temp
195
°C
28/03/00
14:52:00
Alarm 1
On
10
High Out Flow Rate
12:00:00
11:59:00
11:58:00
11:57:00
High Level
Vertical Bargraph
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
28/03/00
14:52:00
Alarm 1
On
5.0
5.0
300 300 250
2.5
2.5
150 150 125
0.0
0.0
0 0.0
0
0
0
0
0.0
0.0
Horizontal Bargraph
2.5
2.5
150
150
125
5.0
5.0
300
300
250
28/03/00
14:52:00
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
Alarm 1
On
Digital Indicator
2.08
578494
In Flow
204.4
0005402801
Temp
195
28/03/00
14:52:00
Pressure
4
578494
Out Flow
198.4
0005402060
Alarm 1
On
Process View
Total Daily In Flow
0005402801 litres
Total Daily Out Flow
0005402060 litres
Tank 1 Low Level
Tank 1 High Level
Tank 1 Low Temp
Tank 1 High Temp
1.25
4.75
Tank 1 Low Pressure
Tank 1 High Pressure
0.25
4.75
Storage Tank 1 In Flow
225.4
110.9
201.0
Storage Tank 1 Out Flow
229.1
100.1
200.9
150
250
28/03/00
14:52:00
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
Alarm 1
On
Process Group 2
(Recording Channels 2.1 to 2.6)
Process Group 1
28/03/00
12:00:45
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Alarm 1
On
Vertical Bargraph
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
28/03/00
14:52:00
Alarm 1
On
5.0
5.0
300 300 250
2.5
2.5
150 150 125
0.0
0.0
0 0.0
0
0
0
0
0.0
0.0
Horizontal Bargraph
2.5
2.5
150
150
125
5.0
5.0
300
300
250
28/03/00
14:52:00
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
Alarm 1
On
Digtial Indicator 28/03/00
14:52:00
Pressure
In Flow
578494 metres m 3
204.4
0005402801
Temp
195
578494 metres m
3
Out Flow
198.4
0005402060
Alarm 1
On
Process View
Total Daily In Flow
0005402801 litres
Total Daily Out Flow
0005402060 litres
Tank 1 Low Level
Tank 1 High Level
Tank 1 Low Temp
Tank 1 High Temp
1.25
4.75
Tank 1 Low Pressure
Tank 1 High Pressure
0.25
4.75
Storage Tank 1 In Flow
225.4
110.9
201.0
Storage Tank 1 Out Flow
229.1
100.1
200.9
150
250
28/03/00
14:52:00
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
Alarm 1
On
Instrument Status
VERSION
Software
System
SM 2001/1
1.0.130
28/03/00
14:52:00
CJ TEMPERATURES
A 25°C / 77°F
B 25°C / 77°F
ARCHIVING
Group 1 Filename
Group 2 Filename
% Memory used
Time left
Process Group 1
Process Group 2
80.5%
5 days
Totalizer Log
No Tag/Value
Total Daily In Flow
0005402801 Litres
225.4 l/hr
110.9 l/hr
201.0 l/hr
Total Daily Out Flow
0005402060 Litres
229.1 l/hr
100.1 l/hr
200.9 l/hr
Source Tag
In Flow
Date
28/03/00
28/03/00
14:52:00
Time
14:52
Out Flow 28/03/00 14:52
Audit Log
04
05
06
No
00
01
02
03
Alarm Event Tag
Power Restored
I/O Configuration
Common Configuration
Group 1 Configuration
Ch1.1 to 6 Config
AIN Cal, Module A
System Alarm
Date
25/03/00
25/03/00
25/03/00
25/03/00
25/03/00
25/03/00
28/03/00
14:52:00
Time
11:59
12:01
12:05
12:09
12:10
12:15
Note.
Only process groups and views that have been enabled are displayed – see Section 4.5,
Process Group Configuration.
Fig. 2.2 Overview of Operator Displays
4
2 OPERATION…
2.3
Chart Views (Horizontal and Vertical) – Fig. 2.3
Units
Short Channel Tag
Current Value
(see Note 1 on page 6)
Alarm Status
(see Note 2 on page 6)
Scale Bar
Chart Trace
Time Stamp
Operator Message Annotation
(see Note 3 on page 6)
Alarm Event Annotation
(see Note 3 on page 6)
Group Tag Title Bar Status Icons Current Date and Time
Process Group 1
Level
0
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
12:00:30 High Out Flow Rate
28/03/00
12:00:45
Alarm 1
On
10
12:00:00
Digital On/Off Tag
Channel Not Used
Newest Data
11:59:15
11:58:30
11:57:45
11:58:53 Duty ON, Standby OFF
11:58:00 High Level
Duty/Standby Change
Screen Interval
Operator Message
(appears for 1 second)
Oldest Data
Selects next Process Group
(if enabled) or Status View
Opens the Operator Menu for the current view
Selects the next enabled view in the group
(Bar, Digital or Process)
Process Group 1
28/03/00
12:00:45
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Duty/Standby Change
Alarm 1
On
Screen Interval
Newest Data Oldest Data
For description of the range of Status Icons (displayed in the Status Bar) and Alarm Event Icons
(displayed in the Bargraph, Digital Indicators, Process and Chart Views), refer to the Rear Foldout.
Note.
Do not remove media while the media update in progress icon is displayed.
Fig. 2.3 Chart View
5
…2 OPERATION
…2.3
Chart View
Notes.
1. Current Values
The Current Value, shown on the digital indicators at the top of the screen, is the latest instantaneous value and its update rate is not affected by the recording sample rate.
If the current value in the digital indicator is displayed in red, recording has been stopped for that channel – see Section
4.5.1, Setting the Recording Parameters.
Traces are shown only when that particular channel is being recorded. When channels are set to stop, the trace continues to be shown for up to one sample period.
2. Alarm Status
• Flashing Red icon – Alarm Active and Unacknowledged
• Continuous Red icon – Alarm Active and Acknowledged
If any alarm is active, the Global Alarm icon ( ) is displayed in the title bar – see Fig. 2.3. If any active alarm is unacknowledged, the icon is surrounded by a red flashing border.
3. Alarm Event and Operator Message Annotations
Alarm Event and Operator Message annotations are not shown on the chart unless enabled – see 'Chart Annotation' on Page 8 and Section 4.5.2.
If Alarm event annotation is enabled and an alarm becomes active, a red alarm icon surrounded by a channel-colored box is displayed at the point at which the alarm occured, together with the alarm time and tag.
11:58:00 1.1A High Level
If more than one alarm occurs in the same sample period:
• If the second alarm on a channel becomes active its icon is added behind the first.
• If more than one operator messages is active (max. six) a second icon is added behind the first.
• New alarm icons appear to the left of earlier icons.
• The time and tag of the oldest alarm (right-most icon) only is displayed.
Configuration
Set Up
Historical Review
Select the Configuration Level – see Section 4.
Select the Set Up Level – see Section 3.
Select Historical Review to view previously recorded data stored in the instrument's onboard memory.
Note.
Use the and keys to move backwards and forwards through the recorded data.
Digital
Indicators
Historical
Review Active
Invalid data – e.g.
recording disabled
Process Group 1
Level
0
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
- - - -
°C
28/03/00
11:59:30
Alarm 1
On
10
Values displayed indicate the process status at the cursor position
12:00:00
11:59:00
11:58:00
11:57:00
11:58:23 Duty/Standby Pumps Switched
11:57:30 High Level
Cursor
6
…2.3
Chart View
✔ Historical Review
Goto
Exit
2 OPERATION…
Notes.
While in Historical Review mode:
• Recording of new data continues unless stopped from the Set Up Menu – see
Section 3.3.
• Invalid historical data (e.g. when recording has stopped) is denoted by '– – – –' in the digital indicator.
• Where the trace at the cursor position represents more than one sample, the indicators flash between the maximum and minimum values of those samples.
• Menu options remain active, allowing the screen interval to be changed, different scales and channels to be selected, etc.
• Operator messages are added to the alarm event log at the present time, not historical time.
• All data stored in the instrument's internal memory can be viewed.
• The display can be scrolled back to the start of the oldest data.
Select Goto to move to data stored in the instrument's onboard memory that was recorded at a specific date and time.
Oldest data in internal memory
Target date
Target time
Newest data in internal memory
Moves cursor between target day, month, year, hours, minutes & seconds
Goes to the chart view display, at the selected date and time.
Returns to Menu
Notes.
• Once internal memory becomes full, oldest data is overwritten by newest data. If historical review has been selected for some time, the oldest data present may no longer be available.
• If different sample rates have been selected for different channels, earlier data from channels with faster sample rates are overwritten before those with slower sample rates.
• The instrument exits historical review mode automatically after 15 minutes if no key is pressed.
Select Exit to return to the real-time recording display.
Note.
Pressing the key also exits Historical Review mode and displays the next enabled view.
7
…2 OPERATION
…2.3
Chart View
Operator Messages
1 - 6
7 - 12
Start of batch
End of batch
13 - 18 Standby mode active
19 - 24 Cleaning in progress
No message
Chart Annotation
✓ Alarms
✓ Operator Messages
Screen Interval
18 Seconds/Screen
90 Seconds/Screen
1 Minute/Screen
✔ 3 Minutes/Screen
7 Days/Screen
Add one of 24 predefined Operator Messages (see Section 4.4.5) or one User Defined
Message to the alarm event log. If User Defined is selected, a data entry keyboard appears to enable the message to be entered – see Fig. 4.5. The selected or user defined message is displayed briefly in a dialog box. If Operator Message annotation is selected (see Chart
Annotation below) the message is also added to the chart.
Note.
When the instrument is in Historical Review mode, Operator Messages generated are added at the current time, not the time indicated by the cursor.
If an alarm or operator message is obscuring part of a chart trace, use the Chart
Annotation option to hide or display alarms and messages on the screen.
Select the annotation required. ✓ indicates the annotations selected.
The possible combinations are: No annotation (Alarms and Operator Messages both disabled); Alarm annotation only or Alarms and Operator Message annotation. Operator
Message Annotation cannot be enabled unless Alarm Annotation is also enabled.
Notes.
• If more than 15 icons are present on the screen, chart annotation is disabled automatically.
• When chart annotation is disabled, new operator messages and alarms are still added to the Alarm event log – see Section 2.7
Use the Screen interval to change the amount of data displayed on the screen. A longer screen interval displays more data, a shorter screen interval displays data over a shorter time period, but in more detail. In both cases, the full trace is preserved by plotting the maxiumum and minimum samples for each display point.
Longer interval = better overview
Shorter interval
= more detail
When Basic configuration is selected, the maximum screen interval is determined by the sample rate. These restrictions are not enforced when Advanced configuration is selected, but are recommended to avoid an excessive delay before the new screen is displayed.
M
S a m p l e o r e t h a n
B
R
< 1 s U p t o 9 m i n u t e s / s c r e e n
B e t w e e n 1 a n d 1 0 s U p t o 1 h o u r / s c r e e n
1 0 e t a t e s , w e e l e n
S e s s
2 t
0 t i t h n g a n a n d
2
4
0 s
0 s
U
U p p t t o o
M a x S c r e e n I n t e r v a l
V e r t i c a l C h a r t V i e w H o r i z o n t a l C h a r t V i e w
1
1
2 d h a o u r s / s c y / s c r e e n r e e n
U
U p p t t o o
1
1
3
.
5 m i n h u t e s / s c r e o u r s / s c r e e
U p t o 1 8 h o u r s / s c r e e n
U p t o 1 .
5 d a y s / s c r e e n n e n
M o r e t h a n
B e t
6 0 w e s ,
M e o n l e s s r e
4 t
0 h a n t h a n a n d
1
6
1 4
4
0 s
0 s
0 s
U
U
U p p p t t t o o o
2
3
7 d d d a a a y / s c r e e n y s / s c y s / s c r e e n r e e n
U p t o 3 d a y s / s c r e e n
U p t o 4 .
5 d a y s / s c r e e n
U p t o 1 0 d a y s / s c r e e n
Notes.
• A 'Please Wait' dialog box appears while the instrument retrieves data from storage.
• Selecting a different screen interval does not affect the rate at which data is sampled.
• When in historical review mode, changing the scan interval may cause the time at the cursor position to change slightly.
8
…2.3
Chart View
Scales
Select
✔ Ch 1.1 Level
Ch 1.2 Pressure
Autoscroll
Range
Ch 1.1 Level
Ch 1.2 Pressure
Ch 1.3 In Flow
Ch 1.6 Alarm 1
All
Trace Select Hide individual channel traces to improve chart clarity.
2 OPERATION…
Scales
Select
Select the scale displayed in the scale bar at the top of the chart window. For digital channels, the On and Off tags are displayed at the corresponding position on the scale bar.
Select Autoscroll to display the scale for each channel in turn for a few seconds.
Note.
If Autoscroll is selected, only enabled and selected channels' scales are displayed.
Range
Select the scale range used on a particular channel (or all channels). Switches between the preset primary and secondary values.
Note.
Available only if Advanced configuration is selected – see Sections 4.1 and 4.4.1.
Alarm Acknowledge
Ch 1.1 Level
Ch 1.2 Pressure
Ch 1.3 In Flow
Ch 1.4 Out Flow
Ch 1.5 Temp
Ch 1.6 Alarm 1
All
AutoView Scroll
Traces are identified by the Channel Number (e.g. Ch1.1) and its short tag.
Note.
The recording of a channel's data is not affected by this operation and the instantaneous channel values are still shown on the indicators at the top of the screen.
Used to acknowledge active alarms in the current process group either individually or globally.
Note.
Active alarms are identified by a flashing red 'Alarm Status' icon in the bottom left hand corner of the associated channel indicator and a Global Alarm icon in the title bar – see Fig. 2.3. If the Global Alarm icon is surrounded by a flashing red border, an active alarm is unacknowledged.
If neither alarm on a particular channel is configured, the short channel tag is shown greyed-out in the menu.
Select AutoView Scroll to display the chart for each configured process group in turn for 40 seconds. The AutoView Scroll icon ( ) is displayed in the status bar at the top of the screen when AutoView Scroll is active. Press any key to cancel AutoView Scroll.
9
…2 OPERATION
2.4
Bargraph Views (Horizontal and Vertical)
Status Icons – see Rear Foldout
Short Channel Tag
Current Value
Alarm Status – see Rear fold-out
Engineering Units
Alarm Trip Level
Not shown for slow and fast rate alarms)
Maximum Value
(solid color)
Instantaneous Value
Minimum Value
(white fill)
Process Group 1
Level
2.08
metres
5.0
2.5
Pressure
5.0
2.5
4 bar
In Flow
204.9
l/hr
300
150
Out Flow
198.9
l/hr
300
150
Temp
195
°C
28/03/00
14:52:00
Alarm 1
On
250
125
Digital On or Off tag, according to input status
Engineering Range High Value
Digital
Channel
Engineering Range
Middle Value
0.0
0.0
0 0.0
0
Engineering Range Low Value
Selects the next Process Group
(if enabled) or Status View
Selects the next enabled view in the group
(Digital Indicator, Process or Chart)
Opens the Operator Menu for the current view
Minimum below engineering limit, maximum above engineering limit
Identical Maximum and Minimum Values
A – Vertical Bargraph View
Alarm Trip Level
Not shown for slow and fast rate alarms)
Maximum Value
(solid color)
Minimum Value
(white fill)
Identical Maximum and Minimum Values
Minimum below engineering limit,
Maximum above engineering limit
Process Group 1
0.0
0.0
0
0
0
2.5
2.5
150
150
125
5.0
5.0
300
300
250
28/03/00
14:52:00
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
Alarm 1
On
Engineering
Range
Low Value
Engineering
Range
Middle Value
Instantaneous
Value
Engineering
Range High
Value
B – Horizontal Bargraph View
Fig. 2.4 Bargraph Views
Short Channel Tag
Current Value
Alarm Status – see
Rear Fold-out
10
2 OPERATION…
…2.4
Bargraph Views (Horizontal and Vertical)
Configuration
Select the Configuration level – See Section 4.
Setup
Select the Set Up level – see Section 3.
Operator Messages
1 - 6 Start of batch
Add one of 24 predefined Operator Messages (see Section 4.4.5) or one User Defined
Message to the alarm event log. If User Defined is selected, a data entry keyboard appears to enable the message to be entered – see Fig. 4.5. The selected or user defined message is displayed on-screen briefly.
No message
Max/Min Reset
Ch 1.1 Level
Ch 1.2 Pressure
Ch 1.3 In Flow
Ch 1.4 Out Flow
Ch 1.5 Temp
Ch 1.6 Alarm 1
All
Alarm Acknowledge
Ch 1.1 Level
Ch 1.2 Pressure
Ch 1.3 In Flow
Ch 1.4 Out Flow
Ch 1.5 Temp
Ch 1.6 Alarm 1
All
AutoView Scroll
Reset the Maximum and Minimum value markers on one or all channels to the current value.
Notes.
• These Maximum and Minimum values are for display purposes only. They are not saved or archived and are not connected to the Totalizer Maximum and Minimum Values displayed in the Process View.
• These Maximum and Minimum values are reset whenever the current configuration has been changed or is re-saved.
Acknowledge active alarms in the current process group either individually or globally.
Note.
Active alarms are identified by a flashing red 'Alarm Status' icon in the bottom left hand corner of the associated channel indicator and a Global Alarm icon in the title bar – see Fig. 2.4. If the Global Alarm icon is surrounded by a flashing red border, an active alarm is unacknowledged.
If neither alarm on a particular channel is configured, the short channel tag appears greyed-out in the menu.
Select AutoView Scroll to display the chart for each configured process group in turn for 40 seconds. The AutoView Scroll icon ( ) is displayed in the status bar at the top of the screen when AutoView Scroll is active. Press any key to cancel AutoView Scroll.
11
…2 OPERATION
2.5
Digital Indicator View – Fig. 2.5
Short Channel Tag
Current Value
Alarm Status – see Rear Fold-out
Engineering Units
Process Group 1
Status Icons
Pressure
28/03/00
14:52:00
In Flow
578494 m 3
204.4
0005402801 litre/h m 3
Temp
195
°C
578494 m 3
Out Flow
198.4
0005402060 litre/h m 3
Alarm 1
On
Channel Units
Totalizer Units
Totalizer Value
Selects the next Process Group
(if enabled) or the Status View
Opens the Operator Menu for the current view
Selects the next enabled view in the group
(Process, Chart or Bargraph)
Notes.
• Indicators resize automatically according to the number of channels displayed.
• Totalizers must be configured and enabled before they can be displayed – see Section 4.6.5.
• Totalizer values are shown in red if the totalizer is not running.
Fig. 2.5 Digital Indicator View
12
2 OPERATION…
…2.5
Digital Indicator View
Configuration
Setup
Operator Messages
Select the Configuration level – see Section 4.
Select the Set Up level – see Section 3.
Add one of 24 predefined Operator Messages (see Section 4.4.5) or one User Defined
Message to the alarm event log. If User Defined is selected, a data entry keyboard appears to enable the message to be entered – see Fig. 4.5. The selected or user defined message is displayed on-screen briefly.
No message
Channel select
Hide or display individual channel indicators.
Notes.
• The display is re-adjusted according to the number of channels selected. This has no effect on the recording of the channel.
• Channels that have not been configured are shown greyed out.
Process Group 1
Level
26.78
metres
In Flow
204.4
28/03/00
14:52:00
0005402801 m
3 gal/hr
Out Flow
198.4
0005402060 m
3 gal/hr
Temp
195
°C
Three or Four
Channels Selected
Process Group 1
In Flow
204.4
0005402801
28/03/00
14:52:00 gal/hr m 3
Out Flow
198.4
gal/hr m 3
Two Channels Selected
Process Group 1
In Flow
204.4
0005402801 m 3 gal/hr
28/03/00
14:52:00
One Channel Selected
13
…2 OPERATION
…2.5
Digital Indicator View
Totalizer stop/go
Ch 1.1 Level
Ch 1.2 Pressure
Ch 1.3 In Flow
Ch 1.6 Alarm 1
All
Totalizer reset
Ch 1.1 Level
Ch 1.2 Pressure
Ch 1.3 In Flow
Ch 1.4 Out Flow
Ch 1.5 Temp
Ch 1.6 Alarm 1
Alarm acknowledge
Ch 1.1 Level
Ch 1.2 Pressure
Ch 1.3 In Flow
Ch 1.4 Out Flow
Ch 1.5 Temp
Ch 1.6 Alarm 1
All
AutoView Scroll
Stop and start individual totalizers.
Channel totalizers that have not been enabled in the configuration level are shown greyed out.
Note.
When a totalizer is not running (i.e. Stop is selected), the corresponding totalizer value is shown in red.
Reset the totalizer value to the totalizer preset value.
Note.
Channel totalizers that have not been enabled in the Configuration level are shown greyed out.
Acknowledge active alarms individually, in the current process group or globally.
Note.
Active alarms are identified by a flashing red 'Alarm Status' icon in the bottom left hand corner of the associated channel indicator and a Global Alarm icon in the title bar – see Fig. 2.5. If the Global Alarm icon is surrounded by a flashing red border, an active alarm is unacknowledged.
If neither alarm on a particular channel is configured, the short channel tag is greyed-out in the menu.
Select AutoView Scroll to display the chart for each configured process group in turn for 40 seconds. The AutoView Scroll icon ( ) is displayed in the status bar at the top of the screen when AutoView Scroll is active. Press any key to cancel AutoView Scroll.
14
2 OPERATION…
2.6
Process View – Fig. 2.6
Totalizer not enabled in configuration level
Totalizer
Tag Name
Totalizer
Value
Alarm Tag Alarm Trip Level
Process Group 1
Total Daily In Flow
0005402801 litres
Total Daily Out Flow
0005402060 litres
Tank 1 Low Level
Tank 1 High Level
1.25
4.75
Tank 1 Low Pressure
Tank 1 High Pressure
Low In Flow Rate
High In Flow Rate
0.25
4.75
40
280
High Out Flow Rate
Tank 1 Low Temp
Tank 1 High Temp
250
150
200
Alarm Acknowledged
28/03/00
14:52:00
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
Alarm 1
On
Short Channel Tag
Instantaneous Value
Alarm Status
Selects the next Process Group
(if enabled) or the Status View
Selects the next enabled view
(Bargraph, Digital Indicator or Chart)
Opens the Operator Menu for the current view
A – Process View (Alarms)
Total Daily In Flow
0005402801 litres
Channel Source Long Tag
Storage Tank 1 In Flow
225.4
110.9
201.0
In Flow
204.9
l/hr
Max Min Average
Values since last totalizer reset or totalizer wrap. Calculated only while the totalizer is enabled. Updated only while the totalizer is running.
B – Process View (Statistics)
Notes.
• Only totalizers that have been enabled in the configuration level are displayed.
• When a totalizer is not running (i.e. Stop is selected), the corresponding totalizer value is shown in red.
Fig. 2.6 Process View
15
…2 OPERATION
…2.6
Process View
Configuration
Setup
View Select
✔ Alarms
Statistics
Operator Messages
1 - 6 Start of batch
No message
Totalizer Stop/Go
Ch 1.1 Level
Ch 1.2 Pressure
Ch 1.3 In Flow
Ch 1.6 Alarm 1
All
Totalizer Reset
Ch 1.1 Level
Ch 1.2 Pressure
Ch 1.3 In Flow
Ch 1.4 Out Flow
Ch 1.5 Temp
Ch 1.6 Alarm 1
Alarm Acknowledge
Ch 1.1 Level
Ch 1.2 Pressure
Ch 1.3 In Flow
Ch 1.4 Out Flow
Ch 1.5 Temp
Ch 1.6 Alarm 1
All
AutoView Scroll
Select the Configuration level – see Section 4.
Select the Set Up level – see Section 3.
Switch between the Alarm View and Statistics View.
Note.
If a channel's totalizer has not been enabled in the Configuration level, Alarm trip levels are shown in place of the channels statistics. If no alarms are enabled, the channel long tag is displayed for that channel.
Add one of 24 predefined Operator Messages (see Section 4.4.5) or one User Defined
Message to the alarm event log. If User Defined is selected, a data entry keyboard appears to enable the message to be entered – see Fig. 4.5. The selected or user defined message is displayed on-screen briefly.
Stop and start individual totalizers.
Notes.
• Channel totalizers that have not been enabled in the configuration level are shown greyed out.
• When a totalizer is not running (i.e. Stop is selected), the corresponding totalizer value is shown in red.
Reset the totalizer value to the totalizer preset value.
Note.
Channel totalizers that have not been enabled in the Configuration level are shown greyed out.
Acknowledge active alarms in the current process group, either individually or globally.
Note.
Active alarms are identified by a flashing red 'Alarm Status' icon in the bottom left hand corner of the associated channel indicator and a Global Alarm icon in the title bar – see Fig. 2.6. If the Global Alarm icon is surrounded by a flashing red border, an active alarm is unacknowledged.
If neither alarm on a particular channel is configured, the channel short tag is greyed out in the menu.
Select AutoView Scroll to display the chart for each configured process group in turn for 40 seconds. The AutoView Scroll icon ( ) is displayed in the status bar at the top of the screen when AutoView Scroll is active. Press any key to cancel AutoView Scroll.
16
2 OPERATION…
2.7
Alarm Event Log – Fig. 2.7
Note.
This view provides an historical log of all alarm events in the sequence in which they occurred. To view the current status of all alarms, choose the Process View – see Section 2.6.
Alarm becomes active
(Active transition)
Alarm becomes inactive
(Inactive transition)
Operator Message
Short tag of the alarm's source
Alarm Event Log
No Alarm Event Tag
00 Tank 1 High Level
01 Tank 1 High Level
02 High Out Flow Rate
03 Tank 1 High Level
04 High Out Flow Rate
05 High Out Flow Rate
06 Duty/Standby Change
Source Tag
Level
Level
Out Flow
Level
Out Flow
Out Flow
Out Flow
28/03/00
14:52:00
Date Time
28/08/00 14:01
28/08/00 14:03
28/08/00 14:09
28/08/00 14:11
28/08/00 14:12
28/08/00 14:15
28/08/00 14:31
View previous page of data
Oldest Data
Alarm Acknowledged
Select Process
Group 1
Opens the Operator Menu for the current view
Selects the
Totalizer Log
For a description of the range of Alarm Event Icons displayed in the Alarm Event Log and in the Bargraph, Digital Indicators, Process and Chart Views, refer to the Rear Foldout.
Newest Data
View next page of data
Note.
When the alarm event log has reached the maximum number of entries, the oldest data is overwritten by the newest. Entries are renumbered so that the number of the oldest entry is always 00.
Fig. 2.7 Alarm Event Log
17
…2 OPERATION
…2.7
Alarm Event Log
Configuration
Set Up
Filter
Group 1 Alarms
Group 2 Alarms
Operator Messages
Active Transitions Only
Select the Configuration level – see Section 4.
Select the Set Up level – see Section 3.
Select the entries displayed in the log. ✔ Indicates categories currently displayed.
Notes.
• Hiding and displaying log entries does not affect the recording of events in the log.
• All selected alarm event transitions (from inactive to active, from active to acknowledged, from acknowledged to inactive, from active to inactive) appear in the sequence in which they occurred.
• Selecting 'Active Transitions Only' displays entries for alarms when made active and hides all acknowledged & inactive transistions.
Used to acknowledge active alarms in each of the process groups, either individuallly or globally.
Alarm Acknowledge
Group 1 Alarms
Group 2 Alarms
Ch 1.1 Level
Ch 1.2 Pressure
Ch 1.3 In Flow
Ch 1.4 Out Flow
Ch 1.5 Temp
Ch 1.6 Alarm 1
All
Note.
If neither alarm on a particular channel is configured, the short channel tag is greyed-out in the menu.
18
2 OPERATION…
2.8
Totalizer Log – Fig. 2.8
Notes.
• This view provides an historical log of totalizer activity. To view the current totalizer status, choose the Process or Digital
View.
• When the totalizer log has reached the maximum number of entries defined in the Configuration level (see Section 4.4.3), the oldest data is overwritten by the newest.
• The logging of totalizer values can be triggered at pre-determined intervals or by a digital signal assigned to the Totalizer
Log Source – see Section 4.6.5.
Icon – see list below
Log Entry Number
Batch total at the time of the event
Max., min. and average of the value being totalized at the time of the event
Totalizer Log
No Tag/Value
00 Total Daily In Flow
0005402801 Litres
225.4 l/hr
110.9 l/hr
201.0 l/hr
01 Total Daily Out Flow
0005403191 Litres
235.8 l/hr
110.9 l/hr
210.0 l/hr
02 Total Daily Out Flow
0005403120 Litres
Source Tag
In Flow
Out Flow
Out Flow
Date
28/03/00
28/03/00
14:52:00
Time
14:52
28/03/00
28/03/00
14:52
15:01
View previous page of data
Oldest
Data
Newest
Data
Selects Process
Group 1
Selects the
Audit Log
Opens the Operator Menu for the current view
View next page of data
For a description of the range of Totalizer Icons displayed in the Totalizer Log and the Process View, refer to the Rear Foldout.
Note.
Maximum, Minimum and Average statistics are not shown unless enabled in the Filters menu – see overleaf.
Fig. 2.8 Totalizer Log
19
…2 OPERATION
…2.8
Totalizer Log
Configuration
Setup
Filter
Group 1 Totalizers
Group 2 Totalizers
Statistics
Select the Configuration level – see Section 4.
Select the Set Up level – see Section 3.
Select the log entries that are displayed. This does not affect which events are recorded in the log.
Note.
✔ indicates entries displayed.
'Statistics' displays the maximum, minimum and average values of the analog value being totalized.
These values are reset when the totalizer is reset and are updated only when the totalizer is running.
20
2 OPERATION…
2.9
Audit Log – Fig. 2.9
Notes.
• This view provides an historical log of system activity.
• When the audit log has reached the maximum number of entries, the oldest data is overwritten by the newest.
Audit Log Icon
Audit Log
No Alarm Event Tag
00 Power Restored
01 Configuration Change, Oper 1
02 Input Calibration
03 System Alarm
Date
28/03/00
14:52:00
Time
25/03/00 11:59
25/03/00 12:01
25/03/00 12:15
25/03/00 13:17
View previous page of data
Oldest Data
Newest Data
Configuration
Setup
Selects
Process
Group 1
Opens the
Operator Menu for the current log
Selects the
Status View
View next page of data
For a description of the range of Icons displayed in the Audit Log , refer to the Rear Foldout.
Fig. 2.9 Audit Log
Select the Configuration level – see Section 4.
Select the Set Up level – see Section 3.
21
…2 OPERATION
2.10
Status View – Fig. 2.10
Note.
This view provides an overview of the instrument's status.
Instrument Software Version
Operating System Version
Instrument Status
VERSION
Software 2002.7.233
System 1002.5.180
28/03/00
14:52:00
CJ TEMPERATURES
A 25°C / 77°F
B 25°C / 77°F
Cold junction temp for Modules A & B; by the built-in cold circuitry.
'Not Used' is displa of the inputs on th are thermocouples
Amount of memory used on the archive media currently installed
Approximate time left before the current archive media is full, assuming the amount of data recorded remains the same
ARCHIVING
Group 1 Filename
Group 2 Filename
% Memory used
Time left
Selects Process Group 1
Selects the Alarm Event Log
Opens the Operator Menu for the current view
Process Group 1
Process Group 2
80.5%
5 days
Time Left
>=1 Day:
Display Format
Days, e.g. '5 Days'
>=1 Hour, <1 Day: Hours, e.g. '10 hours'
<1 Hour: Minutes, e.g. '25 minutes'
Fig. 2.10 Status View
Configuration
Setup
Select the Configuration level – see Section 4.
Select the Set Up level – see Section 3.
22
3 SET UP
3.1
Introduction
Note.
Users with Set Up access can:
• Start/Stop recording.
• Switch between primary and secondary recording rates.
• Set archiving 'on-line' and 'off-line'.
• View internal and external archive media file directories and delete files
3.2
Accessing the Set Up Level – Fig. 3.1
0
Process Group 1
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
28/03/00
14:52:00
Alarm 1
On
10
High Out Flow Rate
12:00:00
11:59:00
11:58:00
11:57:00
High Level Invalid Set Up
Password
Note.
Can be activated from any operator screen.
Note.
Do not use sharp objects such as screwdrivers, pen nibs etc. to operate the touch screen.
Set Up
Set Up Security
Not Enabled
Set Up
Security
Enabled
Set Up
Use the up and down keys to select your password.
Confirm with Enter key
0000
Valid Set Up
Password
Recording Control
On-Line
Off-Line
Update
File Viewer
Fig. 3.1 Accessing the Set Up Level
23
…3 SETUP
3.3
Set Up Menu
Recording Control
Ch 1.1 Level
Ch 1.2 Pressure
Ch 1.3 In Flow
All
Reset archiving
On-Line
Off-Line
Use this menu to stop and start recording or change the sample rate on one or more channels in the current Process Group.
The Primary and Secondary sample rates allow a slow rate to be selected for normal conditions and a faster rate for abnormal alarm conditions in order to record the maximum amount of detail. The rates are set during configuration – see Section 4.5.1 (Basic
Configuration selected) or 4.6.1 (Advanced Configuration selected).
Notes.
• Switching between primary & secondary sample rates does not affect the screen interval on the Chart View.
• When a channel is set to 'Stop' the instantaneous value in the associated indicator is displayed in red and, after the end of the next sample period, no further samples are plotted on the associated trace.
• Digital recording channels can only be set to 'Stop' or 'Go'.
• Recording control can also be implemented using digital sources – see Sections 4.5.1
and 4.6.1.
• If Basic configuration is enabled, individual channel selections are greyed out and all channels in the current process group must be switched simultaneously. If Advanced
Configuration is selected, individual channels can be stopped and started.
If selected, the date of the oldest unarchived data is set to that of the oldest data in the internal flash memory. This allows all data in the internal memory to be re-archived to external media.
Note.
Ideally, a blank media storage card should be inserted prior to selecting this function. If the original archive files are still present on the inserted card after Reset acrchiving, the new, re-archived files are annotated '_1' to distinguish them from the original archive files, e.g.
original archive file: 10_00 25Feb02 Zone abc.d00
re-archived file: 10_00 25Feb02 Zone abc_1.d00
To re-archive data:
Insert archive media, with sufficient free space, into the instrument.
Select 'Off-line' in the Setup Menu
Select 'Reset archiving' in the Setup Menu
Select 'On-line' in the Setup Menu
Select amount of data to be archived (if >1 hour of data in internal memory)
Places the archive media on-line, starting the archiving process. Any un-archived data is stored automatically to the removable media. If there is un-archived data more than one hour old, a selection box may be displayed – see Section 3.7.
Notes.
• When an archive media card/disk is inserted, a dialog box is displayed giving the user the choice of putting the media on-line or remaining off-line. If no selection is made within 10 seconds, the media card is placed on-line automatically.
• The On-line function is disabled (greyed out) in the Setup Menu when in Historical
Review mode.
Places the archive media off-line. Recording of channel data into internal memory continues uninterrupted but archiving to the removable media is suspended until it is put on-line again.
Notes.
• Always set the external media Off-line before removing it.
• The Off-line function is disabled (greyed out) in the Setup Menu when in Historical
Review mode.
24
3 SET UP…
…3.3
Setup Menu
Update
Select the amount of data to archive
No historical data
< 1 day old
< 2 days old
< 3 days old
< 4 days old
< 5 days old
< 6 days old
< 7 days old
< 2 weeks old
All historical data
More than 1 day of unarchived data has been detected. Please select the amount of data to be archived and press enter.
Saves any unarchived data to the removable media.
Any unarchived data less than one day old is saved automatically to removable media. If there is any un-archived data more than one day old, a selection box is displayed, allowing the user to determine which data is archived to external memory.
Once selected, all data within the selected time frame is archived. Older unarchived data remains in the internal memory buffer until overwritten by newer data, but is not available for archiving to removable media.
File Viewer
Internal
External
External File Viewer
Name
SM2000.cfg
12_10_59 011100 SM2000.cfg
13_09_48 311200 SM2000.cfg
13_59_37 280800 SM2000.cfg
21_49_58 010100 SM2000.cfg
Size
17848
17848
17848
17848
17848
Use the file viewer to view a list of the files stored in internal memory and on external archive media.
Note.
Files stored in internal memory cannot be deleted.
Delete Exit
25
…3 SET UP
3.4
Archiving
Recorded data, logs and configuration files stored on the instrument's internal memory can be archived to files created on removable media. Parameters for archiving Process Groups 1 and 2 data are set up independently.
Note.
For further information on Archiving refer to Section 4.5.6 – Archiving Configuration.
3.4.1
SmartMedia Handling and Care
Note.
The instrument is designed to work only with 3.3V SmartMedia cards.
Follow the manufacturers' recommendations.
1) Avoid touching the gold connectors on SmartMedia cards to prevent damage to the card from static electricity. Before touching a memory card, ensure that you are discharged of static electricity by touching a grounded metal object.
2) Keep the gold contacts on the card clean to prevent card corruption on insertion of the card. Clean the contacts using a soft, clean cloth before re-insertion in the instrument.
3) Do not bend the card or subject it to impacts.
4) Keep the card in an anti-static film case when not in use.
5) Do not place the card in direct sunlight.
3.4.2
Media Status – Fig. 3.2
Process Group 1
28/03/00
12:00:45
External archive media on-line
(green icon, shaded area indicates % used)
External archive media off-line
(grey icon, shaded area indicates % used)
Instrument Status
VERSION
Software SM 2000/01
System 1.0.130
28/03/00
14:52:00
CJ TEMPERATURES
A 25°C / 77°F
B 25°C / 77°F
External archive media update in progress (see Note below) .
ARCHIVING
Group 1 Filename
Group 2 Filename
% Memory used
Time left
Process Group 1
Process Group 2
80.5%
5 days
External media 100% full, archiving stopped
(white cross on red background)
Amount of memory used on the external archive media currently installed
Approximate time left before the current external archive media is full, assuming the amount of data recorded remains the same.
Time Left
>=1 Day:
Display Format
Days, e.g. '5 Days'
>=1 Hour, <1 Day: Hours, e.g. '10 hours'
<1 Hour: Minutes, e.g. '25 minutes'
Note.
Do not remove media while the media update in progress icon is displayed.
Fig. 3.2 Media Status Icons
26
3 SET UP…
3.4.3
Inserting and Removing Media – Fig. 3.3
1
Ensure that the media is put off-line – see Section 3.3
4
Withdraw the media
Compact Flash Media
4
3
Press the eject button
SmartMedia
2 Unlock the media door with the key supplied and press the release catch to open the door
Note.
When inserting the media into the instrument:
• Ensure that the media is the correct type for the instrument.
• Do not use excessive force.
Fig. 3.3 Inserting and Removing External Media
27
…3 SET UP
3.4.4
Archive File Types
Archive files can be created in one of two user-selectable formats:
Text (comma separated values [.csv]) – see Section 3.5
or
Secure binary encoded – see Section 3.6
All archive files created by the instrument are given filenames automatically but each type of archived file is given a different file extension depending on whether Text or Binary format has been selected during archive configuration – see Section 4.5.6. File types and extensions for Text files are shown in Table 3.1. File types and extensions for Binary files are shown in Table 3.2.
T y p e / E x t e n s i o n C o n t e n t s
C h a n n e l d a t a
* .
D * * f li e s /
T o t a il z e r l o g
* .
T * * f li e s /
A n a l o g o r d i g i t a l r e c o r d i n c u r r e n t p r o c e s s g r o u p g c h a n n e l s i n t h e
A l a r m e v e n t
* .
E * * l o g f li e s /
T h e h i s t o r r e l a t e d i c a l t o t h e r e c o r d o f g r o u p ’ s t c h h e a n n a l a r m e l s e v p l u s e n t t h e s , h i s t o r y o f a n y o p e r a t o r m e s s a g e s o r r e a l t i m e a l a r m s .
T h e h i s t o r i c a l r e c o r d o f a ll t o t a il z e r a n d a g r s s o c i a o u p ’ s t e r e d c s t a t i s t i o r d i n g c a l v a l u e s c h a n n e l s .
r e l a t i n g t o t h e
A
D i u d g i t i t a l f li e s l o g
* .
A * * f li e s / s i g n a t u r e
/ * .
S * *
T h
( N e o t h e .
i s t o r
T h e i c a c l o e n n t e t r i e n t s o f f r o m t h i s f t h e li e a i s u t d i t h e g r o u p s ) l o g .
s a m e f o r a ll
D i g i t a l d a t a s f li e .
i g n a t u r e f o r t h e c o r r e s p o n d i n g c h a n n e l
Table 3.1 Text Format File Types and Extensions
Note.
The 'New File Interval' is set in the Configuration level – see Section 4.5.6.
In addition to new files being created according to the New File
Interval selection, they are also created in the following circumstances if automatic update is enabled and the media is on-line or if a manually triggered update is in progress:
• The instrument's power is lost then restored.
• The instrument is taken offline and the archive media removed, replaced or refitted.
• The instrument's configuration is changed.
• One of the current files exceeds the maximum permissible size.
f l
T y p
C h a d a
A l a r m e v e n t l o g f li e s
T o
A li o g u e t a t a d s i f e n n e l t li il f z e s l li e e o r s g
E x t e n s i o n
*
*
*
*
.
.
.
B
E
.
T
A
0
E
E 0
E
0
0
0
N o .
o f
F i l e s
O c
O p
O p n h n a r o g n r o g r r e e c e o e p n n p u p c e o u e s s p p e e e r r s s l r
C o n t e n t s
A n a l o g d a t a o r d i g i t a l r e c o r d i n g c h a n n e l
T h e h i e v e n t s s t o r i r e l a c a l t e d r e c o r d t o a p o a f t r t i c h e a u l a r l a r m p r o c h e l i s e t c o t e r s y r o s o f n i g r c a o u s n i y g p ’ n o a s p t c h e u r r a e a n n t s o r o r e r l s e a p l u s l t t i m e h m e s s a g e s , e a l a r m s .
T h e h i s t o r i c a l r e c o r d o f a ll t o t a il z a n r e l d a t a s s o c i a t e d i n g t o a p a s t a r t i c u t i s l a r t i c g a l r o v a l u u p ’ s e s r e c o r d i n g c h a n n e l s .
e r
O n e p e r i n s t r u m e n t
T h e l o g .
h i s t o r i c a l e n t r i e s f r o m t h e a u d i t
Table 3.2 Binary Encoded Format File Types and Extensions
3.5
Text Format Archive Files
3.5.1
Text Format Channel Data Files
Text format channel data files can be configured to contain data gathered over a predefined period of time using the 'New File
Interval' setting – see Table 3.3.
N e w F i l e I n t e r v a l
H o u r l y
D a li y
M o n t h l y
N o n e
F i l e n a m e
< h o u r s > < d a y , m o n t h , y e a r > * < f li e n a m e >
< d a y , m o n t h , y e a r > * < f li e n a m e t a g > .
< m o n t h , y e a r > * < f li e n a m e t a g >
< f li e n a m e t a g >
* F o r m a t t e d a c c o r d i n g
C o n if g u r a t i o n – s e e t o t h e ' D a t e
S e c t i o n 4 .
4 .
1 .
f o r m a t ' s e t i n C o m m o n
Table 3.3 New Text File Intervals
28
3 SET UP…
…3.5.1
Text Format Channel Data Files
When one of these conditions occurs, new channel data files are created for each enabled group and the file extension index on each new file is incremented by one from the previous file.
Example – if the original file had an extension of .D00, after one of the above events a new file will be created with the same filename but an extension of .D01.
New text format channel data files are also created when the daylight saving period starts or ends.
Files containing data generated during the daylight saving period
(summertime) have '~DS' appended to the filename.
Example 1 – Start of daylight saving period:
A daily file is started at 00:00:00 on 30 th March 2003 – filename: 30Mar03ProcessGroup1.D00.
Summertime starts at 2:00am on 30 th March 2003.
The clock changes automatically to 3:00am.
The existing file is closed and a new file is created – filename: 30Mar03ProcessGroup1~DS.D00.
The file '30Mar03ProcessGroup1.D00' contains data generated from 00:00:00 to 01:59:59 (before summertime starts).
The file '30Mar03ProcessGroup1~DS.D00' contains data generated from 03:00:00 (after summertime starts).
3.5.2
Text Format Filename Examples
'New file interval' set to hourly, filename tag set to 'Process
Group 1'; date is 10th October 2000; Channel data and alarm event log files only enabled:
9:00 am New file created in which all channel data recorded between 9:00 and 9:59:59 is archived in the following file:
09_00_10Oct00_Process_Group_1.d00
09:12am Power interrupt occurs
09:13am Power restored and new file created:
09_00_10Oct00_Process_Group_1.d01
10:00am New file created in which all data recorded between
10:00 and 10:59:59 is archived.
10_00_10Oct00_Process_Group_1.d00
Note.
• Hourly files start exactly on the hour.
• Daily files start at 00:00:00.
• Monthly files start at 00:00:00 on the first of the month.
Example 2 – End of daylight saving period:
A daily file is started at 00:00:00 on 26 th October 2003 – filename: 26Oct03ProcessGroup1~DS.D00
Summertime ends at 3:00am on 26 th October 2003.
The clock changes automatically to 2:00am.
The existing file is closed and a new file is created – filename: 26Oct03ProcessGroup1.D00
The file '26Oct03ProcessGroup1~DS.D00' contains data generated from 00:00:00 to 02:59:59 (before summertime ends).
The file '26Oct03ProcessGroup1.D00' contains data generated from 02:00:00 (after summertime ends)
29
…3 SET UP
3.5.3
Text Format Log files
The Alarm Event and Totalizer Logs for each Process Group are each archived into individual files; the Audit Log is archived into a separate file. The filenames have the formats shown in Table
3.4 with the date and the time indicating the first entry in the file:
L o g F i l e
A l a r m E v e n t
T o t a il z e r
<
< h h o o u u r r m m i n i n
>
>
<
< d d d d
,
, m m m , m ,
F i l y y y y e n
> *
> * a
<
< m f f li li e e n a m e e n a m e
> .
e 0 0
> .
t 0 0
A u d i t < h o u r m i n > < d d , m m , y y > * < i n s t r u m e n t t a g > .
a 0 0
* F o r m a t t e d a c c o r d i n g t o t h e ' D a t e f o r m a t ' s e t i n C o m m o n C o n if g u r a t i o n
Table 3.4 Log File Formats
If one of the archive log files becomes full (>64000 entries) a new file is created with an extension incremented by 1, e.g. a01, e01 etc.
New text format log data files are also created when the daylight saving period starts or ends.
Files containing data generated during the daylight saving period
(summertime) have '~DS' appended to the filename.
3.5.4
Text Format
Data File Examples – Figs. 3.4 to 3.7
Text format archived data is stored in a comma separated value
(*.csv) format so that it can be imported directly into a standard spreadsheet, e.g. Microsoft Excel™ and Lotus 1-2-3™. The files can also be read as an ASCII text file by a text viewer. When imported in to a spreadsheet, the files appear as shown in
Figs. 3.4 to 3.7.
Alternatively, detailed graphical analysis of the data can be carried out on a PC using the Company's DataManager software package – refer to the DatManager Datasheet,
SS/DatMgr.
3.5.5
Text Format
Data File Digital Signatures – Fig. 3.4
A digital signature file is created for each channel data file using the same filename but with a *.S** extension. The file contains a unique 'fingerprint' of the contents of the data file that can be used to prove if the data has been tampered with or corrupted.
Data validation can be carried out on a PC using the Company's
DataManager software package.
3.5.6
Text Format Data Verification and Integrity
When data is saved to the archive media it is checked automatically to verify that the date value stored on the media matches exactly the date value stored in the internal memory.
30
Fig. 3.4 Channel Data File Sample (Text Format)
3 SET UP…
Fig. 3.5 Alarm Event Log Sample (Text Format)
Fig. 3.6 Totalizer Log Sample (Text Format)
Fig. 3.7 Audit Log Sample (Text Format)
31
…3 SETUP
3.6
Binary Format Archive Files
3.6.1
Binary Format Archive Filenames
Examples of binary archive filenames are shown in Table 3.5: l f
T
C h a d a t a y p e n n e l f li e
A l a r m e v e n t l o g f li e s
T o
A li o g u e t d s a f i li il t z l e e s o r s g
F o r m a t
< S t a r t T i m e H H M M S S > < S t a r t D a t e
D D M M M Y Y > C h < G r o u p > _ < C h a n n e l > < I n s t r u m e n t e .
g .
1 4 3 2 2 7 1 9 D e c 0 2 C h 1 _ 2 B o li e r r o o m 3 t a g >
< S t a r t
G r o u p
T i m e
T a g >
H H _ M M > < S t a r t D a t e D D M M M Y Y > < P r o c e s s e .
g .
1 4 _ 3 2 1 9 D e c 0 2 B o li e r 5
< S t a r t
G r o u p
T i m e
T a g >
H H _ M M > < S t a r t D a t e D D M M M Y Y > < P r o c e s s e .
g .
1 4 _ 3 2 1 9 D e c 0 2 B o li e r 5
< S t a r t T i m e H H _ M M > < S t a r t D a t e
D D e .
g .
M M M Y Y > < I n s t r u m e n t
1 4 _ 3 2 1 9 D e c 0 2 B o li e r
T a g > r o o m 3
Table 3.5 Binary Archive Filenames
Example 2 – End of daylight saving period:
Archiving is started at 00:15:00 on 26 th October 2003 – filename: 00150026Oct03Ch1_1AnlgSM2000~DS.B00.
Summertime ends at 3:00am on 26 th October 2003.
The clock changes automatically to 2:00am.
The existing file is closed and a new file is created – filename: 02000026Oct03Ch1_1AnlgSM2000.B00.
The file '00150026Oct03Ch1_1AnlgSM2000~DS.D00' contains data generated from 00:15:00 to 02:59:59 (before summertime ends).
The file '02000026Oct03Ch1_1AnlgSM2000' contains data generated from 02:00:00 (after summertime ends).
3.6.2
Binary Format Channel Data Files
A new channel data binary file is created under the following conditions:
• When the current file for a channel does not exist on the media card.
• When the maximum size (5Mb) of the existing data file is exceeded.
• When the recording channel's configuration is changed.
• When the daylight saving period starts or ends.
Files containing channel data generated during the daylight saving period (summertime) have “~DS” appended to the filename.
Example 1 – Start of daylight saving period:
Archiving is started at 01:45:00 on 30 th March 2003 – filename: 01450030Mar03Ch1_1AnlgSM2000.B00.
Summertime starts at 2:00am on 30 th March 2003.
The clock changes automatically to 3:00am.
The existing file is closed and a new file is created – filename: 03000030Mar03Ch1_1AnlgSM2000~DS.B00.
The file '01450330Mar03Ch1_1AnlgSM2000.B00' contains data generated from 01:45:00 to 01:59:59 (before summertime starts).
The file '03000030Mar03Ch1_1AnlgSM2000~DS.B00' contains data generated from 03:00:00 (after summertime starts).
3.6.3
Binary Format Log files
A new binary log file is created under the following conditions:
• When an existing valid binary log file does not exist on the media card.
• When the maximum size (64000 entries) is exceeded.
• When the daylight saving period starts or ends.
Files containing log data generated during the daylight saving period (summertime) have “~DS” appended to the filename.
3.6.4
Binary Format
Data File Examples – Figs. 3.8 to 3.11
Binary format archived data is stored in a secure binary encoded format. A separate file is created for each recording channel. The log data is stored in an encrypted text format. The files can be read on a PC using the Company's DataManager software package.
3.6.5
Binary Format Data Verification and Integrity
When data is saved to the archive media it is checked automatically to verify that the data stored on the media matches exactly what is stored in the internal memory.
Each block of data in the channel data files has its own data integrity check. This enables the integrity of the data stored on the external media card to be verified when it is viewed using the
DataManager Review software package.
The log files also contain built-in integrity checks enabling the integrity of the data to be verified by the DataManager software.
32
3 SETUP…
Fig. 3.8 Channel Data File Sample (Binary Format)
Fig. 3.9 Alarm Event Log Sample (Binary Format)
33
…3 SETUP
Fig. 3.10 Totalizer Log Sample (Binary Format)
Fig. 3.11 Audit Log Sample (Binary Format)
34
3 SETUP
3.7
Archiving Online/Offline
Before data can be archived to external media, the external media must be placed on-line and one or more archive file enables set.
• When an external archive media card is inserted, a dialog box is displayed giving the user the choice of putting the media on-line or remaining off-line. If no selection is made within 10 seconds, the media card is placed on-line automatically:
3.8
Archiving Updates
Data from the instrument's internal memory is archived to external memory in the following circumstances:
• Automatically, if 'Update type' is set to 'Automatic' during configuration.
• When the operator selects 'Update' from the Setup menu.
• When a digital signal assigned to the archive update source becomes active.
If there is un-archived data more than one day old (Binary format) or one hour old (Text format) when the external media is inserted or placed on-line, or when 'Update' is selected from the Setup menu, the operator is prompted to select the data to be archived:
• When an external archive media card is inserted and there is >1 day (Binary format) or >1 hour (Text format) of data in internal memory, a dialog box is displayed prompting the user to select either the data to be archived or remain offline:
If a large amount of Text format unarchived data exists, a progress bar appears. During this time operator views cannot be accessed, but new data continues to be recorded to the internal buffer memory.
Updating Archive...
50%
Cancel
• External archive media can be set on-line (if a media card is inserted) or off-line in the setup menu.
• Set archiving off-line before removing external media to prevent loss of data and possible damage to the media card.
Note.
Data stored in the internal memory buffer can still be transferred to the archive media when the archive media is placed on-line again (providing it is not off-line so long that the un-archived data in the internal memory is overwritten).
3.9
Backing-up Archived Data
It is advisable to back-up critical data stored on SmartMedia or
Compact Flash cards on a regular basis. The instrument's internal memory provides a buffer for the most recent data so, if data stored on archive media is lost, it can be re-archived – see
Reset archiving on page 23.
To ensure that all required data is available for re-archiving, it is recommended that data archived on archive media is removed and backed-up before the instrument's internal buffer overwrites that data. The amount of time that data remains in the instrument's internal memory depends on the sample rate and the number of channels selected. See Table A3.1 on page 88 for details.
35
4 CONFIGURATION
4.1
Introduction
This section details the configuration of the instrument locally using the touch screen. A configuration file can also be created on a PC and transferred to the instrument via one of the archive media options.
In addition, up to 16 different configurations can be stored on internal memory and restored when required.
4.1.3
Configuration Level Access – Figs 4.1 and 4.2
To configure an instrument when 'Configuration security' is set to the factory default setting of 'Password protected':
• Access the Configuration Level – see Fig 4.1.
• Determine the type of configuration required – see Table 4.1.
• Make changes to parameters as detailed in
Figs. 4.1 and 4.3.
4.1.1
Types of Configuration
The instrument has two modes of operation, Basic and
Advanced. The differences in operation and configuration methods are shown in Table 4.1.
To configure an instrument when 'Configuration security' is set to 'Internal switch protected':
• Set the internal security switch to the 'Configuration Level
Not Protected' position – see Fig 4.2.
• Access the Configuration Level – see Fig 4.1.
• Make changes to parameters as detailed in
Figs. 4.1 and 4.3.
4.1.2
Configuration Level Security
Two methods of configuration access protection are available:
1) Password protection (Factory Default).
The Configuration level cannot be accessed until the correct passsword has been entered – see Fig. 4.1.
2) Internal switch protection .
The Configuration level cannot be accessed until the instrument is withdrawn from its case and the internal switch set to the 'Configuration Level Not Protected' position – see Fig. 4.2.
I n t e r n a l S e c u r i t y
S w i t c h S e t t i n g
( S e e F i g .
4 .
2 )
C o n f i g u r a t i o n
P r o t e c t e d
L e v e l
( F a c t o r y D e f a u l t )
C o n f i g u r a t i o n L e
P r o t e c t e d v e l N o t
' C o n f i g u r a t i o n s e c u r i t y '
(
P a r
S e a e m e t
S e c e t i r o
S e t t i n g n 4 .
4 .
2 )
( F a
' P a s s w o r d p r o t e c t e d ' c t o r y D e f a u l t )
' S w i t c h p r o t e c t e d '
( A l t e r n a t i v e )
P a s s w o r d
A c c e s s
F r e e
A c c e s s
N o
A
A
F c r c c c e e e s e s s s
O p e r a t i n g M o d e s / C o n f i g u r a t i o n T y p e s
B a s i c
( C o m m o
E a n s i e r &
S e t t i n g s
F a f o s t r e r t o e a c h
S e t U p
P r o c e s s G r o u p )
O n e r a t e f o r a ll c h a n n e l s i n a g r o u p .
A d v a n c e d
M o r e
( I n d i v i d u a l
F l e x i b i l i t y
S e t t i n g s i n f o r
O p e e a c h r a t i o n
C h a n n e )l
I n d i v i d u a l s a m p l e r a t e f o r e a c h c h a n n e l .
R e c o r d i n g S a m p l e R a t e s
A r c h i v i n g t o R e m o v e a b l e M e d i a A t t h e s a m e r a t e a s r e c o r d i n g t o i n t e r n a l m e m o r y .
r
A t a t s e e l e c t a b l e s e l e c t i o n p r i o f m a r y / s e c o n d a r y a u s e r s e l e c t a b l e r a t e s , il n k e d c h a n n e l .
t o t h e
R e c o r d i n g t u r n e d o n a n d o f f f o r i n d i v i d u a l c h a n n e l s .
T u r n i n g R e c o r d i n g O n a n d O f f A ll c h a n n e l s i n a s i m u l t a n e o u s l y .
g r o u p t u r n e d o n a n d o f f
T r a c e C o l o r s P r e s e t t o D I N s t a n d a r d .
C a n n o t b e c h a n g e d .
S e l e c t f r o m 1 6 c o l o r p a l e t t e .
D i s p l a y S c a l e s
S c r e e n I n t e r v a l
S a m e a s E n g i n e e r i n g R a n g e .
P r i m a r y
S e t i n d a n d e p e n s e c o d e n t l y n d a r y o f e s n g c i n a l e r a n e e r i n g g e s .
r a n g e .
L i m i t e d
S e c t i o n r a n g e
4 .
5 .
1 .
d e p e n d a n t o n s a m p l e r a t e – s e e F u ll s e l e c t i o n a v a li a b l e .
Table 4.1 Differences Between Basic and Advanced Configurations
36
4 CONFIGURATION…
…4.1.3
Configuration Level Access – Figs. 4.1 and 4.2
Configuration
Operator 1
Operator 2
Operator 3
Operator 4
User 1
Use the up and down keys to select your password.
Confirm with Enter key
0000
Note.
Do not use sharp objects such as screwdrivers, pen nibs etc. to operate the touch screen.
Displayed only if 'Configuration Security' parameter is set to 'Password Protected'
– see Section 4.4.3
User 1
Edit Current Configuration
Open Configuration
New Configuration
Cancel
Disable Recording in Configuration
Edit the currently active configuration.
Changes are not implemented until saved on exit from the configuration level
Open a configuration previously saved to internal or external archive storage media
(up to 16 configurations can be stored in internal memory) – see Note below .
Alternatively, open one of the QuickStart templates – see APPENDIX 4.
Cancel and return to the operator level
Check this box to stop recording while in the configuration mode
QSRTD_F
QSRTD_C
QSTHC_F
QSTHC_C
QSFlow
QSMilliamp
QSDemo
QSDairy
Company standard
Switch between internal and external storage.
System Configuration
Common
Configuration
Process
Group 1
Group 1
Channels
Process
Group 2
Open a new configuration with the default settings detailed in APPENDIX 4 (see Note below)
Group 2
Channels
I/O
Modules
Functions
Note.
If New Configuration or Open Configuration is selected and the modified configuration file is later saved as the current configuration, new internal data files for all enabled recording channels are created and any unarchived data is lost.
Fig. 4.1 Accessing the Configuration Level
37
…4 CONFIGURATION
…4.1.3
Configuration Level Access – Figs. 4.1 and 4.2
Note.
The Internal Security Switch is used only if 'Configuration security' is set to 'Internal switch protected' – see
Section 4.4.3. Do Not access the switch if 'Configuration security' is set to 'Password protected' (default setting).
4
Set the yellow Security switch to the
'Configuration Level Not Protected' position
2
Switch off the power to the instrument and unscrew the jacking screw securing the instrument to the case.
3
Withdraw the instrument from the case
Configuration level protected
Configuration level not protected
1
Remove tamper-proof seal, if fitted
Fig. 4.2 Setting the Security Switch
5
Refit the instrument to the case and secure with the jacking screw
6
Re-apply power to the instrument and wait for the Operator Level to display
7
Access the Configuration Level as shown in Fig. 4.1
Note.
The red switch is for factory use only. Ensure that it remains in the position closest to the rear of the instrument.
38
4 CONFIGURATION…
4.2
Overview of Configuration – Fig. 4.3
1 Select the Common Configuration icon in the main configuration window (see Note 1 below) .
Close the Configuration Window and Save or Cancel the changes (see Note 2 below)
System Configuration
7
6 Repeat steps 1 to 5 for the remaining icons in the Configuration Window
Common
Configuration
Process
Group 1
Group 1
Channels
Process
Group 2
Group 2
Channels
I/O
Modules
Functions
4 Select the next tab (in this case 'Time') and repeat steps 2 and 3 .
5
2
Close the current configuration window
(in this case 'Common Configuration')
(see Note 2 below)
Edit the first parameter on the first Tab
(in this case the 'Configuration Type' in the 'Set Up' tab.
3 Repeat for each parameter, as required
Notes.
1 The number of Process Group and Channel Icons change to reflect the number of Process Groups that are currently enabled.
2 It is also possible to exit Configuration screens by pressing the key.
Fig. 4.3 Overview of Configuration Steps
39
…4 CONFIGURATION
4.3
Making Changes to Parameters – Figs. 4.4 to 4.6
Channel Selectors
(Recording Channel configuration only)
Configuration Tab
Parameter Value
Note.
Set Up
Recording Channel 1.1
Analog I/P Alarm A Totalizer Scales
Input Type 4.0 - 20.0 mA
Engineering range 0 to 20000 Litres/sec
Short tag 8 Character
Long tag 20 Characters
Filter time constant In seconds
Fault detect level (%) 110%
Broken sensor detection Upscale
Sub-menu
The appropriate data entry box is displayed automatically – see Fig. 4.5.
Edit Button
Recording Channel 1.1
Analog Input A1
Type milliAmps
Linearizer type Linear
Electrical range low 4.0
Electrical range high 20.0
OK
Higher-level windows remain visible to identify location within the configuration structure
Selection List
Recording Channel 1.1
Analog Input A1
Type 4 to 20mA
Off milliAmps
Linearizer units None
Electrical range low 50.2
Resistance
Resistance thermometer
OK
Click on OK to accept selection
Use arrows to highlight selection or press an option on the list
Fig. 4.4 Locating Parameter Settings
40
4 CONFIGURATION…
…4.3
Making Changes to Parameters – Figs. 4.4 to 4.6
Parameter Limits
Numeric (0.0...1000.0)
999.9
Tick Box
1. Totalizer reset enable
2. Totalizer stop/go enable
3. Message select enable
4. Alarm acknowledge enable
OK
Note.
Items not selected are indicated by an X in the parameter window
1 2 X 4
Note.
Values outside the given range or with too many decimal places are highlighted
123.45
Flashing Cursor
Alphanumeric Keypad
Parameter Value
List Box
Off milliAmps milliVolts
Volts
Resistance
Resistance thermometer
Thermocouple
Moves the Cursor
Number/Symbol Keypad
Parameter Value
Deletes character to left of cursor
Alphanumeric Keypad
Spacebar
Number/Symbol Caps
Parameter Value
Note.
Tags with a high percentage of capital letters and wide characters such as 'W' or 'M' may appear truncated in some Operator Views. In such cases, use lower case letters or fewer characters.
Fig. 4.5 Data Entry Dialog Boxes
41
…4 CONFIGURATION
…4.3
Making Changes to Parameters – Figs. 4.4 to 4.6
System Configuration
Common
Configuration
Group 2
Channels
Save as Current Configuration
I/O
Modules
Functions
Save Configuration
Cancel
Save Configuration
Internal Storage
External Storage
Notes.
• The current, active, configuration is saved on internal storage with the filename 'SM2000.cfg'.
• Selecting 'Save as Current Configuration' causes recording to be suspended for a short time while the new configuration is implemented.
• When saving the current configuration to internal storage, the file is saved automatically with the 'SM2000.cfg' filename, and with a
<time><date><instrument tag>.cfg filename.
• When saving the current configuration to external storage, the file is saved automatically to internal storage with the 'SM2000.cfg' filename, as well as to the external archive media as <time><date><instrument tag>.cfg.
• When 'Save Configuration' is selected the configuration file is stored as
<time><date><instrument tag>.cfg on internal or external storage.
• Changes are saved to non-volatile memory only when one of the save options above has been selected. Any powerdown before this results in lost configuration changes.
• Selecting 'Cancel' causes unsaved changes to be discarded and returns the instrument to the Operating Level.
• New internal data files for enabled recording channels are created if any of the following configuration parameters have been changed: Recording channel source; Primary sample rate; Secondary sample rate; Primary/secondary sample rate source; Input filter type; Engineering range; Channel tag;
Configuration type (Basic / Advanced). Any unarchived data is lost.
Fig. 4.6 Exiting Configuration Mode
Switch between internal and external media
Please Wait
0
Process Group 1
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
28/03/00
14:52:00
Alarm 1
On
10
High Out Flow Rate
12:00:00
11:59:00
11:58:00
11:57:00
High Level
42
4 CONFIGURATION…
4.4
Common Configuration
System Configuration
Common
Configuration
Process
Group 1
Group 1
Channels
Process
Group 2
Group 2
Channels
I/O
Modules
Functions Commissioning
Fig. 4.7 Selecting Common Configuration
4.4.1
Set Up
•1
Select the Configuration type required – see Section 4.1.1.
Note.
Parameters applying only to Advanced or to Basic
Configuration are identified A and B respectively.
Enter the number of Process Groups required.
Each Process Group has 6 recording channels pre-assigned to it – Group 1 (Ch1.1 to 1.6), Group 2 (Ch2.1 to 2.6).
If the Number of Groups is changed from 2 to 1, configuration data for Process Group 2 is retained but not used.
Select the language to be used to display standard user prompts and menu items.
A digital source can be used to acknowledge active alarms in both Process Groups 1 and 2. Refer to APPENDIX 1 for a full list of sources available.
Enter the tag to be used to identify the instrument on configuration and audit log files.
Select the waiting time between the last key press and screen saver activation.
•1 A new channel data file is created if this parameter is changed. All unarchived channel data will be lost.
43
…4 CONFIGURATION
4.4.2
Time
Set the current date and time.
Note.
Enter the required daylight saving settings before setting the time and date as the operation of the internal clock is affected by the daylight saving settings.
Notes.
• The date and time cannot be adjusted if recording is enabled during configuration, i.e the 'Disable recording in configuration' check box is not ticked on entry to the
Configuration level – see Fig. 4.1.
• Changes to the date and time are effective immediately, not when the configuration is saved.
• Setting an earlier date or time results in the loss of all data currently in the internal buffer memory past that date. Data archived to external media is unaffected. If an earlier time must be set, change the Instrument Tag (see previous page). This causes new archive files to be created and the duplicated hour of data is then saved to the new files.
• Time changes due to automatic daylight saving do not affect the recorded data.
• Only on issue 5.8 or later of the Company's DataManager data analysis software package is the database feature compatible with daylight saving.
44
…4.4.2
Time
4 CONFIGURATION…
Select the daylight saving method.
O f f D a y il g h t s a v i n g i s d i s a b l e d
A u t o U S A T h e s t a r t a n d e n d o f t h e d a y il g h t s a v i n g p e r i o d i n t h e U S A i s c a l c u l a t e d a u t o m a t i c a ll y .
T h e c l o c k i s a u t o m a t i c a ll y i n c r e m e n t e d b y 1 h o u r a t 2 : 0 0 a m o n t h e if r s t S u n d a u t o m a t i c a ll y d e c r e m e n t e d a y b y i n
1
A p r h o u r li a n d a t 2 : 0 0 a m o n t h e l a s t S u n d a y i n O c t o b e r .
A u t o E u r o p e T h e s t a r t a n d e n d o f
C e n t r a l E u r o p e t h e d a y il g h t s a v i n g p i s c a l c u l a t e d a u t o m a t i c a ll y .
e r i o d i n
T h e c l o c k i s a u t o m a t i c a ll y i n c r e m e n t e d b y 1 h o u r a t 2 : 0 0 a m o n t h e l a s t S u n d a y a u t o m a t i c a ll y o n t h e l a s t S u d e c r e n d a y i m e n n t e d b y
O c t o b e r .
i n
1
M h o a r u r c h a n d a t 2 : 0 0 a m
A u t o C u s t o m T h e s t a r t a n d e n d o f c a n b e m a n u a ll y c o n t h e d a y if g u r e d f il g h t o r r s a v i n g p e r i o d e g i o n s t h a t d o n o t f o ll o w e i t h e r t h e U S A o r E u r o p e c o n v e n t i o n s .
T h e c l o c k h o u r a t t h e i s m a u t o m a a n u a ll y t i c a s e l e ll y c a u t o m a t i c a ll y d e c r e m e n t e d t i n c r e m e n e d b y s t a r t t i m e a n d
1 h o t e u r d a t b t y h e
1 m a n u a ll y s e l e c t e d e n d t i m e .
Note.
Changes to daylight saving are effective immediately, not when the configuration is saved. However, if the configuration is not saved on exiting the configuration level, the last saved daylight saving settings are re-used.
Notes.
• Displayed only if Daylight Saving is enabled.
• Start and end times are configurable only if 'Daylight
Saving – Enable' is set to 'Auto - Custom'.
Manually set the start end end of the daylight saving period.
45
…4 CONFIGURATION
4.4.3
Security
User 2
Name Operator 2
Password ****
Access Enabled
Change the user name and password used to access the configuration level when 'Password protection' is enabled – see below.
Note.
User 1 has 'administrator' type privileges and is able to change the user names and passwords of all other users.
Other users can change only their own user name and password. For users 2, 3 and 4, access can be enabled or disabled. If it is disabled then the configuration levels cannot be accessed using that user name.
When a change to the instrument's configuration occurs, the user's ID is added to the audit log entry.
Set the method of access to the Configuration level. If
'Password protected' is selected, access is by means of the password set above.
Note.
If 'Switch protected' is selected, access to the
Configuration level for all users is prohibited once the changes have been saved and made active. Access to the configuration level can then be achieved only by setting the security switch to the 'Configuration not protected' position
– see Fig. 4.2.
When set to 'On', access to the Setup level is protected by a single password for all users.
Displayed only when Setup Level Security is set to 'On'
46
4.4.4
Logs
4.4.5
Operator Messages
4 CONFIGURATION…
Set the maximum number of entries in each instrument log.
Note.
Changing the log size results in the current log entries being deleted.
The Alarm Event log records all process alarm transitions
(inactive to active, unacknowledged to acknowledged or active to inactive), real-time events and Operator Messages
– see Section 2.7
The Totalizer log records all activity associated with the totalizers: start, stop, reset, wrap, current total and intermediate totals – see Section 2.8.
The Audit log records all system changes and events – see
Section 2.9.
Log sizes must be set in the range 10 to 200. The size of the logs has no effect on the amount of memory available for storing channel data.
Operator Messages can be triggered via the Operator
Menus or a digital signal.
Tag
Enter the message text – 20 characters maximum.
Source ID
Select the internal or external source used to add the tag to the Alarm Event log.
47
…4 CONFIGURATION
4.4.6
RS485 Communications
Refer to APPENDIX 2 for information on using the Modbus link.
Set according to the number of transmission wires connected to the instrument: 4-wire, 2-wire.
Set the Baud rate used by the host system: 1200, 2400,
4800, 9600, 19200, 38400, 115200.
Set the Parity used by the host system: None, Odd, Even.
Set a unique Modbus Address that allows the host system to identify the instrument on a Modbus link.
Note.
Maximum 31 slaves per loop.
48
4 CONFIGURATION…
4.5
Process Group Configuration
Process Group 1
System Configuration
Common
Configuration
Process
Group 1
Group 1
Channels
Process
Group 2
Group 2
Channels
I/O
Modules
Functions or
Group 1 Configuration
Recording Chart Bar Process Digital
Tag 20 Characters
Recording On, Off
Primary sample rate HH:MM:SS:ms
Secondary sample rate HH:MM:SS:ms
Sample rate source None
Archive
Process Group 2
Note.
If only one Process Group has been selected in the common configuration set up, only one
Process Group icon is displayed in the main configuration window.
Fig. 4.8 Selecting Process Group Configuration
4.5.1
Setting the Recording Parameters
N
ote.
Parameters marked B are displayed only if Basic Configuration is selected – see Table 4.1 and Section 4.4.1.
Recording Chart Bar Process Digital Archive
Tag 20 Characters
Recording enable source None B
Enter the Process Group tag that appears in the title bar when any operator views from that group are displayed.
Set the edge-triggered digital source (e.g. Alarm Signal,
Real-time Event) used to enable/disable recording of all channels in the group.
Enabled Disabled
49
…4 CONFIGURATION
…4.5.1
Setting the Recording Parameters
Primary sample rate mm:ss
Secondary sample rate mm:ss
Sample rate source None
B
•1
B
•1
B
•1
Set the rate at which all recording channels in the group are sampled and stored to internal memory. With Basic configuration selected, this is also the time interval between samples stored on archive media, if archiving is enabled.
Note.
If a sample rate of less than 1s is selected then the time interval between samples stored on archive media is set to 1s.
S a m p l e R a t e
1 s
3 s
6 s
1 2 s
3 6 s
7 2 s
E q u i v a l e n t
S p e e d
C h a r t
7 2 0 m m / h
2 4 0 m m / h
1 2 0 m m / h
6 0 m m / h
2 0 m m / h
1 0 m m / h
O n b o a r d
T i m e ( 6 C
S h a t o r n n a g e e l s )
5 .
7 d a y s
1 7
3 4 d a y s d a y s
2 .
3
6 .
8 m o n t h s m o n t h s
1 3 .
7 m o n t h s
Notes.
• Sample rates must be set using one of the following combinations of units:
– Minutes or minutes and seconds
– Seconds
– Tenths of seconds (minutes and seconds must first be set to zero) .
• The rate at which data is displayed in the Chart View (the screen interval) is set separately – see Section 4.5.2.
• In basic configuration the sample rate determines the maximum screen interval that can be selected. See Table below.
S a m p l e R a t e
S e t t i n g
< 1 s
1 s t o 1 0 s
> 1 0 s , < 2 0 s
2 0 s t o 6 0 s
> 6 0 s , < 1 4 0 s
> 1 4 0 s
M a x S c r e e n I n t e r v a l
V e r t i c a l C h a r t V i e w H o r i z o n t a l C h a r t V i e w
U
U p
U p
U
U
U t o p p p t p t o t
9 o t o o t o
1 m i
1
2
1
3
7 h h d d d n u o o a a a u u y y t y s s e s r r s
U p t o 1 3 m i n u t e s
U p t o 1 .
5 h o u r s
U p t o 1 8 h o u r s
U p t o 1 .
5 d a y s
U p t o 4 .
5 d a y s
U p t o 1 0 d a y s
Primary and Secondary sample rates allow a slow rate to be selected for normal conditions and a faster rate for abnormal alarm conditions in order to record the maximum amount of detail. The sample rate is selected by the sample rate source
– see following parameter.
Set the digital source (e.g. alarm signal, real-time event) used to switch between the primary and secondary sample rates.
Secondary Primary
Edge-triggered signal
•1 A new internal data file for all the recording channels in this group is created if this parameter is changed. All historical data stored internally for these channels will be lost.
50
4 CONFIGURATION…
4.5.2
Configuring the Chart Display
Scale Bar
Major Chart Divisions Minor Chart Divisions
0
Group 1
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Temp
195
°C
28/03/00
12:00:45
Alarm 1
On
10
12:00:30 High Out Flow Rate
12:00:00
Chart Trace
Time Stamp
Operator Message
Annotation
Alarm Event
Annotation
11:59:15
11:58:30
11:58:53 Duty/Standby Switched
11:58:00 High Level
11:57:45
Chart Divisions
Process Group 1
28/03/00
12:00:45
Level
2.08
metres
Pressure
4 bar
In Flow
204.9
l/hr
Out Flow
198.9
l/hr
Screen Interval
Alarm 1
On
Screen Interval
Select the Horizontal or Vertical chart view.
Select the annotations displayed on the chart. Alarm events and operator messages are displayed on the chart adjacent to the point at which the alarm occurred – see Section 2.3.
This initial setting can be changed by the operator if 'Chart annotation select enable' is enabled in the Chart view menu enables – see 'Menu Enables' overleaf.
Set the number of major vertical divisions to be displayed on the scale bar and the chart.
Set the number of minor vertical divisions to appear between the major chart divisions on the scale bar.
51
…4 CONFIGURATION
…4.5.2
Configuring the Chart Display
Chart menu enables
1. Message select enable
2. Alarm acknowledge enable
3. Scale select enable
4. Trace select enable
5. Screen interval select enable
6. Historical review enable
7. Chart annotation select enable
Set the amount of historical data displayed on the screen.
In Basic mode limits are enforced according to the sample rate selected:
S a m p l e R a t e
S e t t i n g
< 1 s
1 s t o 1 0 s
> 1 0 s , < 2 0 s
2 0 s t o 6 0 s
> 6 0 s , < 1 4 0 s
> 1 4 0 s
M a x S c r e e n I n t e r v a l
V e r t i c a l C h a r t V i e w H o r i z o n t a l C h a r t V i e w
U
U p
U p
U
U
U p t p p p o t o t t t o
9 t o o o m i n
1
1 2
3
7
1 h o d d a d a u t e s u r h o u a y y s y s r s
U p t o 1 3 m i n u t e s
U p t o 1 .
5 h o u r s
U p t o 1 8 h o u r s
U p t o 1 .
5 d a y s
U p t o 4 .
5 d a y s
U p t o 1 0 d a y s
For optimum performance in Historical Review mode, It is recommended that these limits are also used when
Advanced configuration is selected.
Select the trace width required in the chart view.
Select the menu items to be accessible from the Chart View.
Message select enable
Allows the operator to activate one of six pre-configured messages.
Alarm acknowledge enable
Allows the Operator to acknowledge any alarms associated with the current group.
Scale select enable
Allows the operator to display the scale for one enabled channel, or all channels in turn, on the scale bar at the top of the screen.
Trace select enable
Allows individual chart traces to be displayed or hidden.
Screen interval select enable
Allows the Operator to change the amount of data displayed on the screen at one time.
Historical review enable
Allows the Operator to scroll back through previously recorded data that is no longer visible on screen.
Chart annotation select enable
Allows the display of Alarm events and Operator messages on the chart to be enabled or disabled by the operator.
Note.
Menu items that are not enabled appear greyed-out on the Chart View menu.
52
4 CONFIGURATION…
4.5.3
Configuring the Bargraph display
Group 1
Level
2.08
metres
Pressure
4 bar
5.0
5.0
In Flow
204.9
l/hr
300
Out Flow
198.9
l/hr
300
Temp
195
°C
28/03/00
14:52:00
Alarm 1
On
250 Alarm Trip Level
(not shown for slow and fast rate alarms)
Maximum Value
(solid color)
2.5
2.5
150 150 125 Instantaneous Value
Minimum Value
(white fill)
Engineering High Value
Engineering Middle Value
Engineering Low Value
0.0
0.0
0 0.0
0
Analog Channels
Identical Maximum and Minimum
Values
Minimum below engineering limit, maximum above engineering limit
Digital
Channel
Recording Chart Bar Process Digital Archive
Bar graph view enable Horizontal
Select the Bargraph views that can be displayed in the current Process Group.
Bar graph markers Max, Min and Alarm Trips
Select the markers (channel-colored max./min. indicators and alarm trip points) to be displayed on the bargraph.
Menu enables 1 2 3
Bar graph menu enables
1. Message select enable
2. Alarm acknowledge enable
3. Max/min reset enable
Select the menu items to be accessible from the Bargraph views.
Message select enable
Allows the Operator to activate one of six pre-configured messages.
Alarm acknowledge enable
Allows the Operator to acknowledge any alarms associated with the current group.
Max/min reset enable
Allows the operator to reset the maximum and minimum values of one or more channels to the current value.
Note.
Menu items that are not enabled appear greyed out on the Bargraph menu.
53
…4 CONFIGURATION
4.5.4
Configuring the Process View
Alarms View – Totalizer Enabled
Totalizer Tag Name
Total Daily In Flow
0005402801 litres
Low In Flow Rate
High In Flow Rate
Totalizer Value
Alarm
Tag
40
280
Alarm Trip
Level
In Flow
204.9
l/hr
Statistics View – Totalizer Enabled
Channel Long Tag Name
Total Daily In Flow
0005402801 litres
Storage Tank 1 In Flow
225.4
110.9
201.0
In Flow
204.9
l/hr
Max Min Average
Values since last Totalizer Reset or Totalizer wrap.
Updated only if the Totalizer is Enabled and Running.
Alarm Acknowledged
Alarms View or Statistics View – Totalizer not Enabled
Low In Flow Rate
High In Flow Rate
40
280
In Flow
204.9
l/hr
Alarms View – Alarms A and B not Enabled
Total Daily In Flow
0005402801 litres
Storage Tank 1 In Flow
In Flow
204.9
l/hr
Recording Chart Bar Process
Process view enable On
Digital Archive
Totalizer view select Statistics
Set to 'On' to allow the operator to display the Process View.
Menu enables 1 2 3 X X
Process view enables
1. Message select enable
2. Alarm acknowledge enable
3. Totalizer reset enable
4. Totalizer stop/go enable
5. View select enable
Select the Totalizer View to be displayed – Alarms or
Statistics. This setting can be changed by the Operator if
'View select enable' is ticked below.
Select the menu items to be accessible from the Process
View.
Message select enable
Allows the Operator to activate one of six pre-configured messages.
Alarm acknowledge enable allows the Operator to acknowledge any alarms associated with the current group.
Totalizer reset enable
Allows the Operator to reset the totalizers on any or all channels.
Totalizer stop/go enable
Allows the Operator to stop and start totalizers on any or all channels.
View select enable
Allows the Operator to select the Alarms and Statistics views.
Note.
Menu items that are not enabled appear greyed-out on the Process View menu.
54
4 CONFIGURATION…
4.5.5
Digital Indicator View
Short Channel Tag Group 1
Current Value
Alarm Status
Units
Pressure
28/03/00
14:52:00
578494 m 3 m 3
In Flow
204.4
0005402801 l/hr m 3
Temp
195
°C m 3
578494 m 3
Out Flow
198.4
0005402060 l/hr m 3
Alarm 1
On
Channel Units
Totalizer Units
Totalizer Value
Recording Chart Bar Process
Digital view enable On
Digital Archive
Totalizer display enable On
Menu enables 1 2 3 4 5
Digital menu enables
1. Message select enable
2. Alarm acknowledge enable
3. Totalizer reset enable
4. Totalizer stop/go enable
5. Channel select enable
Set to 'On', to allow the Digital Indicator View to be selected for display by the operator.
Set to 'On' to add the channel totalizer value and units to the indicator displays (if the totalizer for that channel is enabled).
Select the menu items to be accessible from the Digital Indicator view.
Message select enable
Allows the Operator to activate one of six pre-configured messages.
Alarm acknowledge enable
Allows the Operator to acknowledge any alarms associated with the current group.
Totalizer reset enable
Allows the Operator to reset the totalizer value to the preset totalizer value on any or all channels.
Totalizer stop/go enable
Allows the Operator to start and stop the totalizer.
Channel select enable
Allows the Operator to display or hide individual channels.
Note.
Menu items that are not enabled appear greyed-out on the Digital Indicator View menu.
55
…4 CONFIGURATION
4.5.6
Archiving
Introduction
Recorded data, logs and configuration files stored in the instrument's internal memory can be archived to files created in removable media in either text or binary encoded format. Parameters for archiving Process Group 1 are set up independently from Process
Group 2 parameters.
For a full description of archiving and archive file formats, refer to Sections 3.4 to 3.9.
Sample Rates – Fig. 4.9
With Basic configuration selected, data is saved to the archive file at the same rate as it is saved to internal memory, i.e. at either the
Group's primary or secondary recording sample rate.
With Advanced configuration selected, the sample rate for archiving is set independently of the recording channel sample rates that are used for saving the data to internal memory. The archive primary and secondary sample rates can be linked to an internal recording channel so that when that channel is switched between primary and secondary sample rate the archive sample rate is also switched between the archive primary sample rate and the archive secondary sample rate.
Primary rate
Secondary rate
Group Sample
Rate
Internal Memory Archive Media
1.1
1.2
1.3
1.4
1.5
1.6
Recording
Channels
Archive
Channel
Data
Archive rate is always same as channel sample rate. Archive channel data is a direct
Individual channel sample rates copy of channel data on internal memory
A – Basic Configuration
Primary
Secondary
Primary
Secondary
Primary
Secondary
Fig. 4.9 Archiving Sample Rates
Rate linked to channel
1.1
1.2
1.6
sample rates
Primary
Archive
Archive
Channel
Data
B – Advanced Configuration
Secondary
Recording Chart Bar Process Digital Archive
Archive file enables *.d, *.e, *.t, *.a
Archive file enables
1. Channel data file enable (*.d)
2. Alarm/event log file enable (*.e)
3. Totalizer log file enable (*.t)
4. Audit log file enable (*.a)
Select the data types that are to be archived to the storage media: Channel Data; Alarm Event Log; Totalizer Log; Audit Log.
F i l e
C d h a t a n a
T y p e f n e l li e s
C o n t e n t s
A n a l o g s i g n a l s o r i n d i g t h e i t a c l u r r e c o r e n t r d p r i n o g c e c h s s a n n g r o e l u p
E x t e n s i o n
* .
D 0 0 o r
( T e x t )
* .
B 0 0 ( B i n a r y ) f l
A l a r m e v e n t l o g f li e s
T o t a o g f li il z e r e s
T h e h i s t o r i c a l r e c o r d o f t h e a l a r m e p l v e n u s t s t h e r e h l a t i s e d t o r t o y o f t h e a n g y r o u o p e p ’ s r a c t o r h a n n e l s m e s s a g e s o r r e a l t i m e a l a r m s .
T a h e s s o h c i i s t o r a t e i c d a l r e c o r d s t a t i s t i c a l o f v a a ll l u e t o s t a il z e r r e l a t i n a n d g t o t h e g r o u p ’ s r e c o r d i n g c h a n n e l s .
A li u e d s i t l o g
T h e h i s t o r i c a l e n t r i e s i n t h e a u d i t l o g .
* .
E 0 0 ( T e x t )
* .
E E 0 o r
( B i n a r y )
* .
T 0 0 o r
( T e x t )
* .
T E 0 ( B i n a r y )
* .
A 0 0 o r
( T e x t )
* .
A E 0 ( B i n a r y )
Filename tag 20 Characters
Enter the filename to be used to identify the instrument to which the archive files belong.
Note.
The following characters cannot be used in the filename tag: \, /, :, *, ?, ", <, >, |, superscript characters, ~,
Ω
and º. These are greyed-out on the keyboard.
56
…4.5.6
Archiving
New file interval Off, Hourly, Daily, Monthly
Archive update Man, None
Archive Update
Update type Manual, Automatic
Digtial update source None
Archive file rates 10.0s, 1.0s, Ch 1.1
Archive File Rates
Primary rate 10.0
Secondary rate 1.0
Rate linked to Ch 1.1
Archive file format Text format
4 CONFIGURATION…
Set the frequency with which new channel data files are created.
Note.
Not applicable when 'Archive file format' (below) is set to 'Binary format'.
N e w F i l e I n t e r v a l
H o u r l y
D a li y
M o n t h l y
N o n e
F i l e n a m e
< h o u r s > < d a y , m o n t h , y e a r > * < f li e n a m e >
< d a y , m o n t h , y e a r > * < f li e n a m e t a g > .
< m o n t h , y e a r > * < f li e n a m e t a g >
< f li e n a m e t a g >
* F o r m a t t e d a c c o r d i n g t o t h e
C o n if g u r a t i o n – s e e S e c t i o n
' D a t e
4 .
4 .
1 .
f o r m a t ' s e t i n C o m m o n
Select the archiving trigger and the interval – see Table 4.2.
Update type
The frequency with which data is copied from the instrument's internal memory to the removable storage media.
Digital update source
The digital update source is used to archive all unarchived data from the instrument's internal memory to the removable media.
A
Note.
Archive file rates are displayed only if Advanced configuration is selected. When Basic configuration is selected the Archive Sample Rate is fixed at the 'Primary data sample rate' – see Section 4.5.1.
Archive File Primary rate, Secondary rate
The archive file rate is the interval at which data stored in the instrument's internal memory is sampled and archived to removable media.
Rate linked to
Selection between the primary and secondary archive sample rates is determined by the recording channel the archive sample rate is linked to – see Fig. 4.9.
Select the archive file format required – Text format or Binary format.
Note.
The selected archive file format is applied automatically to both process groups. It is not possible to set each group to different formats.
57
…4 CONFIGURATION
4.6
Channel Configuration
System Configuration
Common
Configuration
Process
Group 1
Group 1
Channels
Process
Group 2
Group 2
Channels
I/O
Modules
Functions or
Process Group 1,
Channels 1.1 to 1.6
Process Group 2,
Channels 2.1 to 2.6
Recording Channel 1.1
Recording Channel 1.2
Recording Channel 1.6
Fig. 4.10 Recording Channel Configuration
' U p d a t e ' o r
' O n il n e ' r e q u e
A r s t f c h i v e r o r e q u e s t f r o m m t h
T t h e e r i g g e r s
S e t u
S e t u p p m e n m e n u .
u .
(
A u t o s e t m a t i c d u r i n g u p d a t e
C o n if g u r a t i o n
U p d a t e ' ) .
– s e e ' A r c h i v e
D i g i t a l s i g n a l
( a s s i g n e d
U p d a t e ' ) .
d u r i n g c o n if g u r a t i o n – s e e ' A r c h i v e
O l d e s t U n a r c h i v e d D a t a
< 1 D a y O l d ( B i n a r y ) o r < 1 H o u r O l d ( T e x t )
A n y t h e u n a r c h i v r e m o v a b l e e d a r d a t a c h i v e i s s t o r e d m e d i a .
a u t o m a t i c a ll y t o A ll
> 1 D a y O l d t h e u n a r c h
( B i n a r y ) o r i v e d d a t a
> 1 H o u r O l d ( T e x t ) w i t h i n t h e s e l e c t e d r t i m e f r a m e e m a i n s i n i s t h a e r i c h n t i v e d .
e r n a l
O l d e r u n m e m o r y
b a r c h i v e d u f f e r u n t li d a o v e a v a li r w r i a b t t l e e n f o r b y a r n c h e w e r i v i n g d a t a t o r b e m u t o v w i ll a b l e n o t b e m e d i a .
t a
A n y u n a r c h i v e
a r c h i v e d m e d i a a t d a t a r e g u i s s a l a t i o n v e i n d t t e r o r e m v a l s o v a b l e
( a p p r o x .
e v e r y 3 0 s ) .
A n y u n a r c h i v e .
a r c h i v e d d a t a i s s a v e d t o r e m o v a b l e
N / A .
A a ll r c u h i n a v e r c m h i v e d e d i a .
d a t a i s s a v e d t o r e m o v a b l e
Table 4.2 Archive Triggers
58
4 CONFIGURATION…
4.6.1
Recording Channel Set Up
Note.
Parameters applying only to Advanced configuration are identified A .
•1
Select the signal source for the selected channel. This can be any external analog or digital signal. See APPENDIX 1 for full list.
Note.
The tabs change according to selection.
A – Analog Source
A
B – Digital Source
Note.
Setting a channel source to 'None' does not switch off the analog input to which the channel was previously assigned – i.e. the analog input continues to be monitored.
To switch off an analog input, set 'Analog I/P Type' for the required channel to 'Off' – see Section 4.6.2.
Select the color used to display the trace and its short tag on
Chart and Digital Indicator views.
Note.
The trace color cannot be changed when Basic configuration is selected.
1st
Magenta
2nd
Red
3rd 4th
Black Green
5th 6th
Blue Brown
When Advanced configuration is selected, trace colors can be selected from the following:
Cyan, Magenta, Blue, Dark Cyan, Dark Blue, Yellow, Light
Green, Dark Yellow, Green, Red, Brown, Black
•1 If this parameter is changed, a new internal data file for this recording channel is created. All historical data stored internally for this channel is lost.
59
…4 CONFIGURATION
…4.6.1
Recording Channel Set Up
100
Sample Interval
Max.Value over sample interval
Instantaneous Value at time of sample
Avg. Value over sample interval
Raw
Input
Value
0
12:00:00
(Previous
Sample)
(Current
Min.Value over sample interval
12:00:01
Sample) t
•1
Select the filter to be applied to the electrical input prior to sampling.
Notes.
• Applicable to analog sources only.
• Filters are applied to the recorded values shown on the chart view only, not to instantaneous values displayed on the channel indicators or bargraphs.
Instantaneous – A single value based on process
Average conditions at the time of sampling.
– The average value of the analog signal
Minimum
Maximum since the previous sample.
– The minimum value of the analog signal since the previous sample.
– The maximum value of the analog signal
Max/Min since the previous sample.
– Two values are recorded to capture the maximum & minimum signal values since the previous sample. This allows the memory use to be extended by permitting a slower sample rate to be selected without losing the transient behaviour of the signal.
Select the signal to be used to stop and start recording channel data on screen and to archive – see full signal list in
APPENDIX 1.
Recording enabled
Recording stopped
•1 If this parameter is changed, a new internal data file for this recording channel is created. All historical data stored internally for this channel is lost.
60
…4.6.1
Recording Channel Set Up
4 CONFIGURATION…
A •1
A •1
A •1
Set the rate at which the channel source is to be sampled and stored to internal memory.
Note.
Sample rates must be set using one of the following combinations of units:
• Minutes or minutes and seconds
• Seconds
• Tenths of seconds (Minutes and seconds must first be set to zero) .
Note.
Guidelines on sample rate and screen interval selection:
S a m p l e R a t e S e t t i n g
< 1 s
B e t w e e n 1 s a n d 1 0 s
M o r e t h a n 1 0 s , l e s s t h a n 2 0 s
B e t w e e n 2 0 s a n d 6 0 s
M o r e t h a n 6 0 s , l e s s t h a n 1 4 0 s
M o r e t h a n 1 4 0 s
M a x i m u m S c r e e n I n t e r v a l
U p t o 9 m i n u t e s / s c r e e n
U p t o 1 h o u r / s c r e e n
U p t o 1 2 h o u r s / s c r e e n
U p t o 1 d a y / s c r e e n
U p t o 3 d a y s / s c r e e n
U p t o 7 d a y s / s c r e e n
S a m p l e R a t e
1 s
3 s
6 s
1 2 s
3 6 s
7 2 s
E q u i v a l e n t
S p e e d
C h a r t
7 2 0 m m / h
2 4 0 m m / h
1 2 0 m m / h
6 0 m m / h
2 0 m m / h
1 0 m m / h
O
T i n b o m e a
( 6 r d S t o r a g e
C h a n n e l s )
5 .
7 d a y s
1 7
3 4 d a y s d a y s
2 .
3 m o n t h s
6 .
8
1 3 .
7 m o n t h s m o n t h s
Set the alternative sample rate at which data is to be logged to internal memory. Selected by the sample rate source – see following.
Set the digital source (e.g. alarm signal, real-time event) used to switch between the primary and secondary sample rates.
Note.
This is an edge-triggered signal.
Secondary Primary
•1 If this parameter is changed, a new internal data file for this recording channel is created. All historical data stored internally for this channel is lost.
61
…4 CONFIGURATION
4.6.2
Analog Input Configuration
Note.
• This tab is displayed only if the Source ID is set to an analog signal – see Section 4.6.1.
• If an analog input is assigned to more than one recording channel, changes to any of its parameters and tags are applied to each channel the input is assigned to.
• If an analog input is already assigned to another channel, the edit keys are not available.
Analog I/P A1
Type milliamps
•1
Set the electrical characteristics of the input.
Notes.
• Simulated input types have been made available for evaluating instrument features without the need for process connections.
• If 'Type' is set to 'Volt free digital input', the input channel becomes a digital input channel – see Section 4.6.3.
• Set 'Type' to 'Off' to switch off an analog input.
Linearizer Type Linear
Linearizer units Degrees C
Electrical range low 5.2
Electrical range high 52.0
Warning. Ensure that the appropriate electrical connections have been made. An optional external voltage divider (part no. GR2000/0375) is required for operation when this parameter is set to 'Voltage' – see Section 5.4. Voltages under 2V can be measured without a divider using the milliVolt range. An external shunt is required for current ranges – see
Section 5.4.
Select the linearizer type and the units used to condition the input signal before it is sampled.
Notes.
• For thermocouple applications using an external fixed cold junction, select 'mV' input type and the appropriate linearizer type.
• Linearizer Units are displayed only if a temperature linearizer type (Thermocouple or RTD) is selected.
Notes.
• mA, mV, V or Resistance input types only.
• An optional external voltage divider (part no.
GR2000/0375) is required on each channel where the
'Input type' parameter (above) is set to 'Voltage' – see
Section 5.4. The electrical range low and high should be set to the actual voltage applied to the divider, not the voltage after it has been divided down.
The range of the electrical input signal is determined by the input type:
Input
Type
Min.
Max.
mV
0
Standard Inputs
2000
V
0
20 mA
0
Ω
0
50 5000
Limits of Electrical Ranges
•1 If this parameter is changed to or from 'Volt free digital input', a new internal data file for this recording channel is created. All historical data stored internally for this channel is lost.
62
…4.6.2
Analog Input Configuration
Engineering range
Low 0
High 2000
Units l/sec
4 CONFIGURATION…
•1
•1
•1
Specify the display range and units of the engineering value corresponding to the electrical high and low values, within the limits defined below:
THC/RTD Type
Type B
Type E
Type J
Type K
Type L
Type N
Type R&S
Type T
Pt100
Min.
–18
–100
–100
–100
–100
–200
–18
–250
–200
°
C
Max.
1800
900
900
1300
900
1300
1700
300
600
Power 5/2
Power 3/2
SqRoot
Custom
Linearizer 1
Custom
Linearizer 2
Linear
–999 to +9999
Limits of Engineering Ranges
Min.
0
°
F
Max.
3270
–140
–140
–140
–140
–325
0
–400
–325
570
1100
1650
1650
2350
1650
2350
3090
Example – for an electrical input range of 4.0 to 20.0 mA, representing a pressure range of 50 to 250 bar, set the 'Low' value to 50.0 and the 'High' value to 250.0.
Enter the tag name to be displayed on channel indicators and used to identify the channel in archive files. (8 characters max.).
Note.
Tags with a high percentage of capital letters and wide characters such as 'W' or 'M' may appear truncated in some Operator Views. In such cases, use lower case letters or fewer characters.
Enter the tag name to be displayed on the process view and used in the archive files (20 characters max.).
•1 If this parameter is changed, a new internal data file for this recording channel is created. All historical data stored internally for this channel is lost.
63
…4 CONFIGURATION
…4.6.2
Analog Input Configuration
Set the time period over which the process variable is to be filtered prior to being sampled (0 to 60 seconds).
Set a tolerance level (between 0 and 100% of the engineering range) to allow for deviation of the input signal above or below the input span before an input failure is detected.
Example – setting the fault detection level to 10% on an input range of 50 to 250 bar causes an 'Analog Input Failure' fault to be detected below 30 bar and above 270 bar.
In the event of an input failure, recorder channels can be set to drive upscale, downscale or in the direction of failure.
Upscale – channel value driven beyond full scale.
None – driven in direction of failure.
Downscale – channel value driven below zero.
4.6.3
Digital Input Configuration
N
ote.
This tab is displayed only if the Source ID for this Recording Channel is a digital source – see Section 4.6.1.
•1
•1
•1
Note.
This parameter is displayed only if 'Analog I/P Type' is set to 'Volt free digital input'. If this parameter is changed to anything other than 'Volt free digital input', the input channel reverts back to an analog input channel – see Section 4.6.2.
Enter the tag to be displayed on channel indicators when the digital signal is active (6 characters max.) .
Note.
Tags with a high percentage of capital letters and wide characters such as 'W' or 'M' may appear truncated in some Operator Views. In such cases, use lower case letters or fewer characters.
Enter the tag to be displayed on channel indicators when the digital signal is inactive (6 characters max.).
Enter the tag name to be displayed on channel indicators and used to identify the channel in archive files (8 characters max.).
Note.
Tags with a high percentage of capital letters and wide characters such as 'W' or 'M' may appear truncated in some Operator Views. In such cases, use lower case letters or fewer characters.
Enter the tag name to be displayed on the process view and used in the archive files (20 characters max.).
•1 If this parameter is changed, a new internal data file for this recording channel is created. All historical data stored internally for this channel is lost.
64
4.6.4
Alarm Configuration
Trip Point
Process
Variable
Alarm On
Alarm Off
Hysteresis
Hysteresis
High Process
Low Process
Fig. 4.11 High/Low Process Alarms
Alarm On
Alarm Off
4 CONFIGURATION…
Trip Point
Process
Variable
Hysteresis
Alarm On Alarm Latched
Alarm Off
Alarm acknowledged by operator
High Latch Alarm Action
Process
Variable
Trip Point
Hysteresis
Alarm On Alarm Latched
Low Latch Alarm Action
Alarm Off
Alarm acknowledged by operator
Fig. 4.12 High/Low Latch Alarms
65
…4 CONFIGURATION
…4.6.4
Alarm Configuration
Trip Point
Hysteresis
Process
Variable
Alarm On
Alarm Off
Alarm acknowledged by operator
High Annunciate Alarm Action
Process
Variable
Trip Point
Hysteresis
Alarm On
Alarm Off
Alarm acknowledged by operator
Low Annunciate Alarm Action
Fig. 4.13 High/Low Annunciate Alarms
Deviation exceeded – fast rate alarm becomes active, slow rate alarm becomes inactive, new period starts.
Deviation below limit at end of time period – slow rate alarm becomes active, new period starts.
Deviation
Fast Rate Alarm
Alarm On
Alarm Off
Slow Rate Alarm
Alarm On
Alarm Off
Deviation
Period
Deviation below limit at end of time period – fast rate alarm becomes inactive, slow rate alarm becomes active.
Deviation exceeded – fast rate alarm becomes active, slow rate alarm becomes inactive, new period starts.
Deviation below limit at end of time period – alarm becomes inactive.
Fig. 4.14 Fast/Slow Rate Alarms
66
4 CONFIGURATION…
…4.6.4
Alarm Configuration
Process variable goes above trip point but alarm is not activated because enable signal is low (Alarm Disable).
Process variable goes above trip point but alarm is not activated because alarm delay time has not expired.
Process variable goes below trip (hysteresis) point therefore alarm is de-activated.
Process variable goes above trip point, alarm is activated (alarm is enabled and delay time has expired).
Trip Point
Hysteresis
Process
Variable
Alarm Enabled
Delay Time
Alarm Enable signal is switched On. Alarm delay timer is started.
Alarm delay timer expires, alarm is now enabled.
Alarm is activated because process variable is above trip point.
Fig. 4.15 Delayed High/Low Process Alarm
Alarm Disabled
Alarm On
Alarm Off
Alarm Enable signal is switched Off. Alarm is disabled immediately.
Alarm de-activates.
67
…4 CONFIGURATION
…4.6.4
Alarm Configuration
Note.
This tab is displayed only if the Recording Channel source is an Analog signal.
Set the alarm type:
High/Low process – see Fig. 4.11
High/Low latch – see Fig. 4.12
High/Low annunciate – see Fig 4.13
Fast/Slow rate – see Fig. 4.14
Delayed High/Low process – see Fig. 4.15
Enter an Alarm Tag to identify the alarm when it is displayed in the Chart, Process and Alarm Event views.
Note.
Process and Latch alarms only – see Figs. 4.11 and 4.12.
Set the value, in engineering units, at which the alarm is to activate.
Set the hysteresis value in engineering units and the time hysteresis in seconds.
Process Variable
High Trip
Low Trip
Hysteresis
Trip Point
Hysteresis
Alarm On
Alarm Off
Alarm On
Alarm Off
When an alarm trip value is exceeded, the alarm does not become active until the time hysteresis value has expired. If the signal goes out of the alarm condition before the time hysteresis has expired, the hysteresis value is reset.
Note.
Annunciate alarms only – see Fig. 4.13.
Set the value, in engineering units, at which the alarm is to activate.
Set the time hysteresis in seconds.
68
…4.6.4
Alarm Configuration
4 CONFIGURATION…
Note.
Delayed process alarms only – see Fig. 4.15.
Set the value, in engineering units, at which the alarm is to activate.
Set the hysteresis value in engineering units and the delay time in seconds.
Output Alarm
Trip Point
70 130
0 40
Time in seconds (s)
Timer Timer
Started Reset
0
Timer
Started
Hysteresis
Time
Elapsed
Timer
Reset
Alarm On
Alarm Off
The delay time is the period of time for which alarm activation is delayed after the enable signal is switched on. Once the delay time has expired, the alarm operates in the same manner as a standard High/Low process alarm.
Notes.
• Rate alarms only – see Fig. 4.14.
• A rate alarm remains active until the rate has been within limits for at least one complete Alarm Period.
Set the minimum or maximum amount of deviation allowed within the Rate Alarm Period before the alarm is activated.
Set the time period over which the deviation is measured. For high rate alarms, the alarm becomes active if the value changes by more than the devation value within the alarm period. For low rate alarms, the alarm becomes active if the channel value changes by less than the deviation within the alarm period.
Set the filter time to be used to reduce the number of spurious alarm trips. The source signal is averaged over the filter period prior to the rate alarm being determined.
69
…4 CONFIGURATION
…4.6.4
Alarm Configuration
When the 'Enable source' is active, the alarm is enabled.
When the source is inactive the alarm is disabled. If set to
'None' the alarm is always enabled.
Note.
For Delayed Process alarm operation, see
Fig. 4.15.
Set to 'On' to record all changes in the alarm state in the
Alarm event log – see Section 2.7.
Assign the alarm to one or more of 12 groups.
The alarm states assigned to each group are 'OR'd' together to create an internal digital signal that may be assigned to relays, digital outputs or internal digital commands.
70
4 CONFIGURATION…
4.6.5
Totalizer Configuration
Notes.
• Current totalizer values are displayed in the Digital Indicator View and Process View – see Sections 2.5 and 2.6
(Operation), and Sections 4.5.4 and 4.5.5 (Configuration).
• For analog sources, the total value of a signal is calculated by counting pulses produced at a rate proportional to the input.
For digital sources, off/on transistions are scaled to produce a batch total.
Enable Count Up, Wrap On
Count Enable / Wrap Enable
Count enable Up
Wrap enable On
Set the Count direction and the Wrap action.
When the count direction is set to 'Up', the totalizer counts up from the preset value to the predetermined value – see
'Count Range' overleaf.
If Wrap Enable is set to 'On', the total is reset automatically to the Preset value once the Predetermined value is reached.
If 'Wrap' is set to 'Off', the count stops when the predetermined value is reached.
Note.
A wrap pulse, with a duration of 1s, occurs if the total reaches the predetermined count and 'Wrap Enable' is set to
'On'. If 'Wrap Enable' is set to 'Off', the wrap pulse becomes active when the predetermined count is reached and remains active until the totalizer is reset. The pulse can be assigned to a relay, digital output or digital counter.
Tag Outlet Flow Total
Units Gal
Stop/Go Stop
Stop/Go
Stop/go recovery Last
Stop/go source None
Enter the totalizer tag to be displayed in the Process View and the Totalizer Log (20 characters max).
Enter the totalizer units to be displayed in Operator Views
Set the digital signal used to start and stop the totalizer and determine its action on power failure.
Stop/go recovery:
Last – On power recovery, the totalizer continues in the same state as before the failure, i.e. stopped or running.
Stop – Totalizer stops counting
Go – Totalizer starts counting from the last recorded value.
Stop/go source
Set the digital source used to stop and start the totalizer – see APPENDIX 1.
Note.
This signal is edge-triggered. A rising edge (inactive to active) starts the totalizer. A falling edge (active to inactive) stops the totalizer.
Start
Stop
71
…4 CONFIGURATION
…4.6.5
Totalizer Configuration
Count range 0 to 100000000
Count range
Preset count 0
Predetermined count 1000000000
Intermediate count 900000000
Reset source See Appendix 1
Log update time 5 min
Log update source None
Set the Preset count – the value the totalizer counts from and the value applied when the totalizer is reset.
Set the Predetermined count – the value at which the totalizer stops or wraps.
Note.
A counter configured to count up must have a Preset count lower than the Predetermined count. A counter configured to count down must have a Preset count greater than the Predetermined count.
Set the required number of decimal places on the higher of the Preset or Predetermined counts.
Set the Intermediate count – causes a digital source to become active when the count value is reached. This can be used as an alarm threshold to indicate when the Predetermined count is about to be reached.
Set the Reset source – an edge-triggered signal that causes the totalizer to reset on a rising edge – see APPENDIX 1.
Set the frequency with which totalizer values are added to the Totalizer log.
L o g i n t e r v a l
5 m i n
1 0 m i n
1 5 m i n
2 0 m i n
3 0 m i n
6 0 m i n
2 h o u r s
3 h o u r s
4 h o u r s
8 h o u r s
1 2 h o u r s
2 4 h o u r s
0 , 5 , 1 0 , 1 5 .
.
.
L o g u p d a t e d e v e r y .
.
.
e t c m i n u t e s p a s t t h e h o u r
0 , 1 0 , 2 0 , 3 0 , .
.
.
e t c .
m i n u t e s p a s t t h e h o u r
0 , 1 5 , 3 0 , 4 5 m i n u t e s p a s t t h e h o u r
0 , 2 0 , 4 0 m i n u t e s p a s t t h e h o u r
0 , 3 0 m i n u t e s p a s t t h e h o u r
O n t h e h o u r
M i d n i g h t , 2 a m , 4 a m , e t c .
M i d n i g h t , 3 a m , 6 a m , e t c .
M i d n i g h t , 4 a m , 8 a m , e t c .
M i d n i g h t , 8 a m , 4 p m , e t c .
M i d n i g h t , 1 2 a m
M i d n i g h t
Set the source used to trigger the addition of the current totalizer values to the Totalizer log – see APPENDIX 1.
72
4 CONFIGURATION...
…4.6.5
Totalizer Configuration
Count rate/cut-off 0.01, 9999
Count rate / Cut off
Count rate 10.000
Cut off 0.0
Input Signal
150 m3/hr m3/sec
0.04167
Units
2000
75
0
1hr
0.0208
Area = total volume of flow t
The totalizer pulse rate is proportional to the input signal.
At this point it is
0.0208 pulses per second
0
1000
Totalizer Value
1hr t
Count rate 100.00000
Note.
Analog Sources only. The Count rate is determined by the maximum number of engineering units (or pulses) per second and the smallest totalizer increment: engineering full scale value (rate) engineering units (in seconds)
Example – to totalize a flow with a maximum rate of
2500 litres/min (= 2.5m
3 /min) to the nearest 0.1m
3 , the calculation is as follows:
150 m 3 /hr
3600 seconds
= 0.04167 pulses/second.
The resulting value must be within the range 0.00001 to
99.99999. The totalizer increment is determined by the number of decimal places in the predetermined count – see
'Count Range' above
The Totalizer Cutoff (analog sources only) is the lowest input value (in engineering units) at which the totalizer is to stop counting.
Note.
Digital Sources only. A digital totalizer pulse can be scaled to represent a value of between 0.00001 and 1000.
The totalizer is then incremented by this amount each time there is an off/on transition.
Example – a count of 5 digital pulses with the Count rate set to 100 would increase the totalizer from 0 to 500 in 100 unit steps.
On
Off
Input Signal t
1minute
0
Units
500
400
300
200
100 t
1minute
Totalizer Value
73
…4 CONFIGURATION
4.6.6
Scales
Note.
The scales configured here are used to scale analog channel data on the Chart View when Advanced configuration is selected. It has no effect on the Bargraph View (which always uses the engineering range of the analog signal displayed) or on digital channels.
<--Scales
Primary range low 100.0
A
Set within the range –999 to 9999.
Set within the range –999 to 9999.
Primary range high 0.0
A
Secondary range low 90.0
Secondary range high 60.0
Scale select source None
A
A
A
See Primary scale range low, above. Can be use to zoom in or out on data displayed in the Chart View.
See Primary scale range high, above.Can be use to zoom in or out on data displayed in the Chart View.
Select the digital source used to switch between the primary and secondary scales.
Secondary
Primary
74
4 CONFIGURATION…
4.7
I/O Module Configuration
System Configuration
Common
Configuration
Process
Group 1
Group 1
Channels
Process
Group 2
Group 2
Channels
I/O
Modules
Functions
I/O
Modules
I/O Module Configuration
Relay B1 Alarm 1.1A, Positive
Relay B2 Totalizer 1.2 Intermediate,
Relay B3 None, Positive
Relay B4 None, Positive
Relay B5 None, Positive
Relay B6 None, Positive
Note.
The instrument detects the type of module fitted in each position automatically.
Fig. 4.16 I/O Module Configuration
4.7.1
Analog Inputs
A:-Analog i/p
Mains rejection frequency 50 Hz
Input A1 Press edit to adjust....
Set the Mains rejection frequency used to filter electrical noise induced on the signal lines by power supply cables.
Note.
If the Mains rejection frequency is changed, the instrument must be powered down and powered up again in order to restore the inputs.
Input Adjustment
Inputs can be fine-tuned to remove process offset errors or system scale errors.
Notes.
• Input Adjustment frames appear only if recording is enabled during configuration – i.e. 'Disable recording in configuration' is not selected on entry to the Configuration level – see Fig. 4.2.
• Changes to the Analog Input Type (Section 4.6.2) must be saved to the current configuration before commencing input adjustment.
Actual value / Desired value
1. Adjust the process or simulated input signal to a known value below 50% of the engineering range.
2. If the 'Actual value' (in engineering units) is different from expected, set the 'Desired value' to the correct value.
3. Repeat steps 1 and 2 for a value above 50% of the engineering range.
4. Repeat steps 1 to 3 for each input.
Reset adjust
Resets the Offset adjust to zero and the Span adjust to 1.
75
…4 CONFIGURATION
…4.7.1
Analog Inputs
Offset adjust / Span adjust
These are calculated values applied to the raw input signal.
Cannot be adjusted by the user.
Note.
If simulating thermocouple inputs, connect the millivolt source using appropriate compensating cable – see
Section 5.4.2. For 2-lead resistance thermometers, either connect the resistance box at the sensor end of the leads or add the lead resistance to the calibration values.
Engineering
High
Engineering
High
Adjusted Value
Engineering
Low
Unadjusted Value
Engineering
Low
Engineering
High
Without Adjustment
(Span Adjust = 1, Offset Adjust = 0)
Adjusted Value
Span Adjust (<1)
Engineering
Low
Offset Adjust (>0)
Unadjusted Value
Engineering
Low
Engineering
High
With Adjustment
(typical example)
76
4.7.2
3-Relay and 6-Relay Modules
A:- Analog I/P B: Relay C:-Hybrid
Relay B1 Alarm 1.1A, Positive
Relay B2 Totalizer 1.2 Intermediate,
Relay B3 None, Positive
Relay B4 None, Positive
Relay B5 None, Positive
Relay B6 None, Positive
4.7.3
Hybrid Modules
A:- Analog I/P B:-Relay C: Hybrid
Digital outputs C1 + C2 None, None
Digital Outputs C1 and C2
D5 Source None
D5 Polarity Positive
D6 Source None
D6 Polarity Positive
Digital outputs C3 + C4 None, None
Digital outputs C5 + C6 None, None
4 CONFIGURATION…
The Relay Source is a digital source used to energize/ de-energize the relay.
Note.
If the relay is used to provide a totalizer count pulse, the maximum pulse frequency is 5Hz. Consideration must also be given to the mechanical life of the relay.
When the polarity is set to Positive, the relay is energized when the digital source is active (On).
The digital output source is the internal digital source that is used to activate/de-activate the digital output.
When the polarity is set to positive, the digital output is energized when the digital source is active (On).
77
…4 CONFIGURATION
…4.7.3
Hybrid Modules
Analog output C1 source None
Analog output C1 range Off
Analog output C2 source Analog i/p A1
Analog output C2 range 0.0-100.0, 4.0-20.0mA
Analog Outputs
Engineering low 0.0
Engineering high 100.0
Electrical low 4.0 mA
Electrical high 20 mA
4.7.4
Ethernet Modules
A:- Analog i/p C:- Ethernet email 1
IP-address
192.168.1.1
email 2
The Analog output source can be any internal or external analog signal.
The Analog output range is the engineering range of the output signal – see below.
The 'Engineering low' and 'Engineering high' settings allow the engineering values corresponding to the 'Electrical low' and 'Electrical high' values to be set.
The 'Electrical low' and 'Electrical high' values are the minimum and maximum values of the current output, in
Electrical units. Range: 0 to 21mA.
Source range high
Analog output engineering high
Analog output engineering low
Source range low
21mA
0mA
Analog output electrical high
Analog output electrical low
Refer to the Ethernet Communications Option User Guide
(IM/SMENET) for information on how to install, configure and use the instrument on an Ethernet network and for information on configuring and using the e-mail facility.
78
4 CONFIGURATION…
4.8
Functions
System Configuration
Common
Configuration
Process
Group 1
Group 1
Channels
Process
Group 2
Group 2
Channels
I/O
Modules
Functions
Functions Configuration
Custom Linearizer RTA 1
Adjust custom linearizer A
Adjust custom linearizer B
RTA 2 RTA 3 RTA 4
Functions
Fig. 4.17 Functions Configuration
4.8.1
Custom Linearizers
Custom Linearizer RTA 1 RTA 2 RTA 3 RTA 4
Adjust custom linearizer A
Adjust custom linearizer B
100
Use the and keys to highlight the point to be modified.
Use the edit keys to change the position of the point.
Each linearizer has 20 breakpoints. Both X and Y values are set as percentages.
Custom linearizers can be applied to any analog input by selecting them as the linearizer type for that input – see
Section 4.6.2.
Adjust custom linearizer A
X% Y%
5.0
10.0
15.0
20.0
25.0
30.0
35.0
40.0
45.0
5.0
10.0
15.0
20.0
25.0
30.0
35.0
40.0
45.0
0 100
0
79
…4 CONFIGURATION
4.8.2
Real Time Alarms
Custom Linearizer RTA 1 RTA 2 RTA 3 RTA 4
Tag Real Time Alarm 1
Daily enables None
Daily enables
Sunday
Monday
Tuesday
Wednesday
Thursday
Friday
Saturday
1st of the month enable Off
On time 00:00
On time
Every hour Off
Hours Off
Minutes Off
Enter the Tag that is displayed in the Alarm Event log.
Set the day(s) on which the alarm is activated.
When set to 'On' the real-time alarm is activated on the first day of each month.
Set the time at which the alarm becomes active.
If 'Every hour' is set to 'On', then the 'hours' setting cannot be adjusted and the alarm is activated at the same time every hour, determined by the 'minutes' setting, or on the hour if
'minutes' is set to 'Off'.
Duration Off
Log enable Off
Set the duration for which the alarm remains active.
When set to 'On', an entry is added to the Alarm event log each time the real-time alarm becomes active.
80
5 INSTALLATION
EC Directive 89/336/EEC
In order to meet the requirements of EC Directive 89/
336/EEC for EMC regulations, this product must not be used in a non-industrial environment.
End of Life Disposal
• The instrument contains a small lithium battery which should be removed and disposed of responsibly in accordance with local environmental regulations.
• The remainder of the instrument does not contain any substance that will cause undue harm to the environment and may therefore be considered as normal waste and disposed of accordingly.
Cleaning
Clean only the front panel, using warm water and a mild detergent.
5.1
Siting – Figs. 5.1 and 5.2
Sensors
Keep to minimum distance
A – Close to Sensors
B – At Eye-level Location
50
°
C
(122
°
F)
Max.
0
°
C
(32
°
F)
Min.
A – Within Temperature Limits
0 to 95% RH
B – Within Humidity Limits
IP66 / NEMA 4X front
IP40 rear (with extension)
IP20 rear (without extension)
C – Environmental Limits
+
Warning.
Select a location away from strong electrical and magnetic fields. If this is not possible, particularly in applications where mobile communications equipment is expected to be used, screened cables within earthed metal conduit must be used.
D – Use Screened Cable
Fig. 5.2 Environmental Limits
C – Avoid Vibration
Fig. 5.1 General Requirements
81
…5 INSTALLATION
5.2
Mounting – Figs. 5.3 and 5.4
Dimensions in mm (in.)
Gasket
7.0
(0.27) 155.0 (6.1) 40 (1.57)
AC Power Supply
Earth (Ground) Stud
144.0
(5.67)
138
+1.0
–0.0
Panel Cut-out
2
144.0 (5.67)
1 Cut a hole in the panel – see Fig. 5.3
Insert the instrument
3 (0.12)
29 (1.14)
Gasket
34 (1.34)
Fig. 5.3 Mounting Dimensions
30
(1.2)
138
+1.0
–0.0
3 Fit the panel clamps
4 Tighten the panel clamp securely by hand (see Note below) .
Note.
This is critical in order to to ensure proper compression of the panel seal and achieve the NEMA 4X hosedown rating.
AC Power Supply
Earth (Ground) Stud
Fig. 5.4 Fitting the Instrument
82
5 INSTALLATION…
5.3
Electrical Connections – Fig 5.5
Warnings.
• The instrument is not fitted with a switch therefore a disconnecting device such as a switch or circuit breaker conforming to local safety standards must be fitted to the final installation. It must be fitted in close proximity to the instrument within easy reach of the operator and must be marked clearly as the disconnection device for the instrument.
• Remove all power from supply, relay and any powered control circuits and high common mode voltages before accessing or making any connections.
• Use cable appropriate for the load currents. The terminals accept cables up to 14AWG (2.5mm
2 ).
• The instrument conforms to Mains Power Input Insulation Category III. All other inputs and outputs conform to Category II.
• All connections to secondary circuits must have basic insulation.
• After installation, there must be no access to live parts e.g. terminals.
• Terminals for external circuits are for use only with equipment with no accessible live parts.
• If the instrument is used in a manner not specified by the Company, the protection provided by the equipment may be impaired.
• All equipment connected to the instrument's terminals must comply with local safety standards (IEC 60950, EN601010-1).
Notes.
• Always route signal leads and power cables separately, preferably in earthed (grounded) metal conduit.
• It is strongly recommended that screened cable is used for signal inputs and relay connections. Connect the screen to the earth (ground stud) – see Fig. 5.5.
• Replacement of the internal battery (type CR2450 3V lithium cell) must be carried out by an approved technician only.
83
…5 INSTALLATION
…5.3
Electrical Connections – Fig 5.5
Module Positions
A B C D
E
Warnings.
1 The AC power supply earth (ground) cable must be connected to the earth
(ground) stud .
2 An external voltage divider (part no. GR2000/0375) is required for each channel for voltage input ranges above 2V, on which 'Input type' is set to
'Voltage' – see Sections 4.6.2 and 5.4.1.
F
Positions A and B
Analog Inputs
Section 5.4
13
14
15
16
9
10
11
12
17
18
19
20
7
8
5
6
3
4
1
2
+
THC
V, mV
–
+
THC
V, mV
– mA mA
+
THC mA
V, mV
–
+
–
+
THC mA
V, mV
–
THC mA
V, mV
+
THC mA
V, mV
–
RTD
RTD
RTD
RTD
RTD
RTD
Positions B,
C and D
Relays
Section 5.7
NO
C
NC
NO
C
NC
NO
C
NC
13
14
15
16
9
10
11
12
17
18
19
20
7
8
5
6
3
4
1
2
NC
NO
C
NC
NO
C
NC
NO
C
1
AC Power Supply
Earth (Ground) Stud
+
–
2
Positions B,
C and D
24V PSUs
Section 5.4.4
Position C
Ethernet
13
14
15
16
9
10
11
12
17
18
19
20
7
8
5
6
3
4
1
2
+
24V
45mA
–
+
–
24V
45mA
Transmit
LED
Continuity/ receive LED
RJ45
Connector
Fig 5.5 Electrical Connections
Positions B,
C and D
Hybrid Board
Section 5.8
13
14
15
16
9
10
11
12
17
18
19
20
7
8
5
6
3
4
1
2 di1 di2 di3 di4 di5 di6
Digital
Inputs
Section
5.8.2
COM
COM do1 do2
COM
COM do3 do4 do5 do6
Digital
Outputs
Section
5.8.1
+
– a01
+
– a02
Analog
Outputs
Section
5.8.3
Position E
Power Supplies
Sections 5.4.4 & 5.6
7
8
5
6
3
4
1
2
L
N
+
24V DC
–
+
Tx PSU
–
Position F
RS 485
Section 5.5
7
8
5
6
3
4
1
2
+
Tx
–
+
–
Tx/Rx
COM
84
5 INSTALLATION…
5.4
Analog Inputs
5.4.1
Current and Voltage – Fig. 5.6
Warnings.
• When the 'Input type' is set to 'Voltage', inputs must be connected through a 500k
Ω
voltage divider (part no. GR2000/0375). Voltages up to
2V can be measured without a divider, using the milliVolt range.
• To avoid damage to multi-channel instruments, high common mode voltages up to 500V r.m.s. max.
must be present on all channels, or not at all.
• The maximum channel-to-channel voltage (between any two channels) must not exceed 12.5V (100V high spec. inputs) or permanent damage to the instrument's input circuitry may occur. To prevent such damage, link the negative terminals on all inputs. For applications where the available isolation is required, this link must not be fitted.
5.4.2
Thermocouple – Fig. 5.6
Use the correct compensating cable between the thermocouple and the terminals – see Table 5.1.
Automatic cold junction compensation (ACJC) is incorporated but an independent cold (reference) junction may be used.
5.4.3
Resistance Thermometer (RTD) – Fig. 5.6
On applications requiring long leads it is preferable to use a
3-lead resistance thermometer.
If 2-lead resistance thermometers are used, each input must be calibrated to take account of the lead resistance.
5.4.4
Transmitter Power Supply – Fig. 5.7
Note.
The power supply board provides a 24V supply capable of driving two 2-wire transmitters. Two additional 24V power supplies are provided on the transmitter power supply module boards, each of which is capable of driving two 2-wire transmitters.
Voltage divider
(GR2000/0375) required for voltage inputs
+
–
+
10
Ω
Resistor supplied in accessory pack.
–
A – Voltage B – Current
+
–
3rd Lead
White
Red
Red
+
–
3rd Lead
+
–
C – Thermocouple
White
Red
Sleeved
Link
Each lead must be of equal resistance and less than 10
Ω
D – 3-lead RTD
E – 2-lead RTD
(and resistance)
Logic state inactive
Logic state active
F – Volt Free Digital Input
Warning.
Under no circumstances must the spare input terminal be linked to the negative.
Note.
Refer also to Fig. 5.5 for terminal numbers.
Fig. 5.6 Analog Input Connections
Analog Input
+
–
–
Tx
2-wire Transmitter Power Supply
(24V d.c., 45mA max.)
+
+
–
10
Ω
Shunt
Fig 5.7 Transmitter Power Supply
85
…5 INSTALLATION
5.5
RS422/485 Serial Communications
The serial interface fitted to this instrument has been designed to operate using the Modbus Remote Terminal Unit (RTU) Master/
Slave protocol.
An appropriate RS422/485 communications driver must fitted to the host (Master) computer. It is strongly recommended that the interface has galvanic isolation to protect the computer from lightning damage and increase signal immunity to noise pick-up.
The maximum serial data transmission line length for both RS422 and RS485 systems is 1200m. The types of cable that can be used are determined by the total line length:
Up to 6m
Up to 300m
– standard screened or twisted pair cable.
– twin twisted pair with overall foil screen and an integral drain wire.
Up to 1.2km
– twin twisted pair with separate foil screens and integral drain wires.
Notes.
• To prevent false triggering of slaves when the master
(host computer) is inactive, pull-up and pull-down resistors must be fitted to the RS422/485 interface in the host computer.
Resistors are normally connected to the interface by means of hard-wired links or switches – refer to the manufacturer's instructions.
• For long transmission lines, a 120
Ω
termination resistor must be fitted to the last slave in the chain.
• Connections on links with multiple slaves must be made in parallel.
• When connecting cable screens, ensure that no
'ground loops' are introduced.
Terminal Block F
4
5
6
7
8
Tx+/Rx+
Tx–/Rx–
COM
Host Computer
'B'
'A'
Tx+
Tx–
Rx+
Rx–
+5V
1.8k
Ω Pull-up
Resistor
'A'
GND
0V
'B'
1.8k
Ω Pull-down
Resistor
A – 2-wire Connection
Terminal Block F
4
5
6
7
8
Tx+
Tx–
Rx+
Rx–
COM
Host Computer
0V
+5V
1.8k
Ω
Pull-up
Resistor
+5V
1.8k
Ω
Pull-up
Resistor
'B'
'A'
1.8k
Ω
Pull-down
Resistor
0V
'B'
'A'
1.8k
Ω
Pull-down Resistor
0V
B – 4-wire Connection
See Warnings on Page 83
Fig. 5.8 RS422/485 Serial Communications
T y p e o f T h e r m o c o u p l e
N i C r / N i A l ( K )
N i C r / C u N i ( E )
N i c r i s li / N i s li ( N )
P t / P t R h ( R a n d S )
P t R h / P t R h ( B )
C u / C u N i ( T )
F e / C o n ( J )
F e / C o n ( D I N 4 3 7 1 0 )
+
B r o w n
B S 1 8 4 3
–
B l u e
O r
W
W
Y e a h h ll n i i o t t g e e e w
– –
B l u e
B l u e
– –
B l u e
B l u e
C
R
O r a n g e
G r e e n
B
B l a l e a s u d c e e k
– –
C o m p e n s a t i n g C a b l e
+
A N S I M C 9 6 .
1
– C a s e
Y e ll o w R e d Y e ll o w
O r a n g e
B l a c k
B l u e
W h i t e
– –
R e d
R e d
–
R e d
R e d
– –
O r a n g e
G r e e n
B l u e
B l a c k
+
R e d
R e d
R e d
R e d
D I N 4 3 7 1 4
–
G r e e n
– –
– –
W h i t e
–
B r o w n
B l u e
B S 4 9 3 7 P a r t N o .
3 0
C a s e + – C a s e
G r e e n
W h i t e
B r o w n
G r e e n
V i o l e t
P i n k
O r a n g e
G r e y
B r o w n
W h i t e
W h i t e
W h i t e
W h i t e
W h i t e
W h i t e
G r e e n
V i o l e t
P i n k
O r a n g e
G r e y
B r o w n
B l u e B l a c k W h i t e B l a c k *
*
C a s e B l u e f o r i n t r i n s i c a ll y s a f e c i r c u i t s
*
*
*
*
*
*
B l u e / r e d
D I N 4 3 7 1 0
B l u e B l u e
– –
Table 5.1 Thermocouple Compensating Cable
86
5.6
Mains Power Connections – Fig 5.9
Line
Neutral
Fuse,
315mA, Type T
L
N
85 min. – 265V max.
50/60Hz
Terminal Block E
Warning.
Use fuse rating – 315mA (max.) type T.
A - A.C. Supply
24V dc
Fuse,
3A, Type T
+
-
3
4
1
2
5
Terminal Block E
Warning.
Use fuse rating – 3A (max.) type T.
B - D.C. Supply
Fig. 5.9 Mains Power Supply
5.7
Relay Output Board Connections – Fig. 5.10
Notes.
• The maximum total combined current flowing through the relays is 36A. The maximum individual relay current is 5A.
• The polarity is set up during I/O module configuration – see Section 4.7.2, 3-Relay and 6-
Relay Modules.
17
18
19
14
15
16
11
12
13
7
8
9
4
5
6
1
2
3
Terminal Block C or D
Note.
Relay contacts are fitted with arc suppression components as standard.
Fig. 5.10 Relay Connections
5 INSTALLATION…
5.8
Hybrid I/O Module Connections
5.8.1
Digital Output Connections – Fig 5.11
Six digital outputs are provided on the Hybrid option board.
12
13
14
15
16
9
10
11
COM
COM do1 do2 do3 do4 do5 do6
Digital Output
Common
Load
Notes.
• Voltage level 5V. Load: 450
Ω
min. 15k
Ω
max.
• Refer to Fig. 5.5 for terminal numbers.
Fig. 5.11 Digital Output Connections
5.8.2
Digital Input Connections – Fig 5.12
Six digital inputs are provided on Hybrid option boards.
Terminal Blocks C or D
1
2
5
6
7
8
3
4
COM
COM di1 di2 di3 di4 di5 di6 or
Input State
Switch Input or 0V
Logic Input or 5V
5V 0V
Logic State
Dxx active
Dxx in-active
Fig. 5.12 Digital Input Connections
5.8.3
Analog Output Connections – Fig 5.13
Two analog outputs are provided on the Hybrid option board.
17
18
19
20
+
– a01
+
– a02
Fig. 5.13 Analog Output Connections
87
APPENDIX 1 – SIGNAL SOURCES
S o u r c e N a m e
A n a l o g S o u r c e s
A n a l o g
:
A n a l o g
I / P A 1
I / P A 6
:
A n a l o g
A n a l o g
I / P B 1
I / P B 6
:
S t a t s
S t a t s
1 .
1 m a x
1 .
6 m a x
S t a t s 2 .
1 m a x
:
S t a t s 2 .
6 m a x
:
S t a t s
S t a t s
1 .
1 m i n
1 .
6 m i n
S t a t s 2 .
1 m i n
:
S t a t s 2 .
6 m i n
S t a t s 1 .
1 a v g
:
S t a t s 1 .
6 a v g
:
S t a t s 2 .
1 a v g
S t a t s 2 .
6 a v g
C o m m s A I N 1 t o 2 4
:
S t a t s
S t a t s
1 .
1 f a li
2 .
6 F a li
E r r o r S t a t e s
A I N
:
A I N
A 1 F a li S t a t e
B 6 F a li S t a t e
:
C o m m s
C o m m s
A I N 1 f a li
A I N 2 4 f a li
A r c h i v e 1 0 0 % f u ll
A r c h i v e 8 0 % f u ll
A r c m e d i a p r e s e n t
A r c h i v e o n il n e
D e s c r i p t i o n
A n a l o g i n p u t v a l u e s ( f r o m A n a l o g m o d u l e ) .
if t t e d i n t h
A e v a li a r e l e b l e v a n o n l y t fi a n p o s i t i o n .
a n a l o g
I / P i n p u t i s
A n a l o g i n p u t
M o d b u s
A p p e n d i x s e r i a l
2 .
v a c o l u e s m m
.
u
R e c e i v e d n i c a t i o n s v i a il n k t h e
– s e e
M a x i m u m s i n c e t h e t o
S t a t i s t i c s t a il z e r o n a
I n p u t g i v e n
V a l u e .
c h a n n
V e l a l l u e a s t w r a p o r c h a n n e l s r e s e t .
a n d fi
A v a t h e li a b r e l l e e v o n l y a n t o n t o t a il a n a l o g z e r i s e n a b l e d i n t h e c o n if g u r a t i o n l e v e l .
M i n i m u m s i n c e t h e t
S t a t i s t i c s o t a il z e r o n
I a n p u t V a l u e .
g i v e n c h a n n
V a e l l u l a e s t w r a p o r c h a n n e l s r e s e t .
a n d fi
A v a t h e li a b r e l l e e v o n l y a n t o n t o t a il a n a l o g z e r i s e n a b l e d i n t h e c o n if g u r a t i o n l e v e l .
t
A v e r a g e h e t o t a
S t a t i il z e r o n s t i c s a g i
I n v e n p u t c h
V a n a l u n e l e .
l
V a s t a l u e w r a s p i n o c e r r e s e t .
fi t h e
A r e v l e a v li a a b n t l e t o o n l t a y il z e o n r i s a n a l o g e n a b l c e d h a n i n t n e l s h e c o n if g u r a t i o n l e v e l .
a n d
T o t a l i z e r I n f v a l u e a li s , f a li u r e c l e a r e d
.
p u t
A c w h t i
V a l u e e v a n t t e h d e
F a i l u r e .
T o t a il z e r i n p u t w h e t o t a il n z t h e e r t o t a w r a p s il z e r o r i s t r e h s e e t r e
.
A l e v a v a n li t a b l e t o t a o n l y il z e r f o r i s a n a l o g e n a b l e d i c h a n n e l s n t h e c o n if g u r a t i o n l e v e l .
fi
A n a l o g I n p u t F a i l u r e .
A c t i v e w h e n t h e s i g n a l t h e ' F a d e u l t t e
D c t e d e t e c t a t t h e
L e v e l ' a n a l o g s p e c i
4 .
6 .
2 .
i n p u t if e d i n i s o u t s i d e
S e c t i o n
A c t i v e
1 0 0 % w h e n f u ll .
t h e r e m o v a b l e a r c h i v e m e d i a i s
A c t i v e
8 0 % w f u ll .
h e n t h e r e m o v a b l e a r c h i v e m e d i a i s
A c t i v e w h e n p r e s e n t .
t h e r e m o v a b l e a r c h i v e m e d i a i s
A c t i v e w h e n a r c h i v i n g i s i n p r o g r e s s .
S o u r c e N a m e
D i g i t a l I n p u t S t a t e s
D e s c r i p t i o n
:
D
D i i g g i i t t a a l l
I
I /
/
P
P
A
D
1
6
D i g i t a l I n p u t S t a t e s f r o m o p t i o n a l h y b r i d I b o a r d s f r o m a if t t e n a l o g d a t m i n p u t o d m u l o d e u l p o e s s i if t i o n t t e d s C a t o r D o r m o d u l e
/ O f p o s i r e e t i o n s d i g i t a l
A o r B i n p u t ' .
fi i n p
A v a u li a t b t y l e p e o n i s l y s e t fi t h t o e i s if t t e d .
' V o l t m o d u l e
D i g i t a l v i a M o d
I n p b u u s t S t a s e r i a l t e s .
il n k
D
– i g i t a l s e e s i g n a l s r e c
A p p e n d i x 2 e i v e d
:
:
:
:
:
:
C o m m s D i g I / P 1
C o m m s D i g I / P 2 4
A l a r m s t a t e
:
A l a r m s t a t e
A l a r m s t a t e
A l a r m s t a t e
1 .
1 A
1 .
1 B
2 .
6 A
2 .
6 B
A l a r m a c k s t a t e 1 .
1 A
:
A l a r m a c k s t a t e 1 .
1 B
A l a r m
A l a r m a c k a c k s t a t e 2 .
6 A s t a t e 2 .
6 B
:
A l a r m g r o u p 1
A l a r m g r o u p 1 2
A
N n e
R e
R e
R
R
W
W
1
1 u s s
C o r r t t y w a l a l n u n a a
A p p
S
S u n
C o u n s s t
A t i t t i t t l a a a l a m p p r u u g g p r m e m e t a t a t e t e l l e e u l p u l m s a a s
1
2 s e e
O
O s e l e a l a
.
1
.
6
1
2 r
.
.
/ P
/ P
1
2 m r m
.
.
1
6
1
2
1
6
1
4
.
1
.
6
A l a r m a l a r m i s
S t a t e s .
e n a b l
A e d i v a n li a b l e t h e o n l y c o n if g u fi t r a h e r t i o n e l l e v a n t e v e l .
A l a r m A c k n o w l e d g e S t a t e s .
fi t h e c o n r e l e v a n if g u r a t i o n t a l a r m l e v e l .
i s e n a b l e d i n
A c k n o w l e d g e d t h e a l a r m = 0 ;
U n a c k n
P r o c e s s o w l e
, L a t d g c h e d a l a r m a n d A n
= n u
1 .
n c i a t o r a l a r m s o n l y
A l a r m G r o u p s .
A v a li a b l e o n l y
A v a li a b l e o n l y fi a n y a l a r m s a r e o n l y e n a b l e d fi a n y o f i n t h e c o n t h e a l a r m s if g u r a t i o n a s s i g n l e d e v e t o
.l
a
A c t i v e g r o u p a r e a c t i v e .
A v a li a b l e o n l y fi t h e e n fi a a n b l y e d o f i n t h e t h e e n a c o n b l e d r e a l i a s r a m t s l if g u r a t i o n e l a e a r e s t v e l a o c t
.
n e
A c i v e .
a l a r m t i v e o n l y
A
C a l v a a a r li u s a m e b s l e a b e c o n o n l m y e a s s e m a li a t s o u o b a c t i v e .
e r c e f g e n o e r r e m a li a t e d fi t r i g g e r s .
a n y t
R h e e a l T i m e r e l e v a n t
A l a r m a l a r m i
S s t a e t e s .
n a b l e
A v a d i n li a b l e t h e o n l y c o n if g u r a t i o n l e v e l .
fi
T o t a l i z e r R u n S t a t e s .
A i s t o t r u n n i n g .
a il z e r i s
A e n v a a b l li a b l e e d i n o n l y t h e c fi t i v e t h c o n e w h li e t o t a il z e r r e l e v a n t if g u r a t i o n l e v e l .
r
T o t a l i z e r W r a p P u l s e .
A v a li a b l e o n l y r e l e c o n v a n if g u t r a t o t a t i o n il z l e r e v e i s l – e n s a e b l e e d
S e i n c t i t h e o n 4 .
6 .
5 .
fi t h e
I f ' W b e e n r a s e c o n d r p e a
E w n h a e b n c h e d .
l e ' t h e s e t t o p r e d
' O n ' : A c e t e r m i n e t d i v e c f o o u r n t
1 h a s
' W r a p E n a b l e ' p r e d e t e r m i n e d s e t t o c o u n t i
' O f f ' : s b e
A e n c t i v e r e a w c h h e e d n t h a n d e e m a i n s a c t i v e u n t li t h e t o t a il z e r i s r e s e t .
T o t a l i z e r F i r s t S t a g e O u t p u t ( I n t e r m e d i a t e
C o u n t ) .
A c t i v e c o u n t h f o r 1 a s b s e c e e n o n d r e a c w h e n h e d – t h e s e e i n t e r m e d i a t e
S e c t i o n
4 .
e n
6 a
.
5 b l
.
e
A v a li a b l e d i n t h e o n l y c o n if fi g u t h e r r a t i o n e l l e e v a n t v e l .
t o t a il z e r i s
T o t a l e a c h i z e r t i m e
C t h o u e n t o t t
P u l s e .
a il z e r
A c t i v e u p d a t e s f o r b y
1 0 0 m s o n e w h o l e c o u n t .
E .
g .
fi t w o d e c i m a l p l a c e s a r e s e t , a p i n u l s e i s c r e m e n g e t s n e r f r a t o m e d
0 .
w h
9 9 e n t o t h e
1 .
0 0 t o t a il z e r o r 1 .
9 9 v a t o l u e
2 .
0 0
Table A1.1 Signal Sources
88
APPENDIX 2 – MODBUS GUIDE
A2.1
Introduction
This instrument is fitted with a Modbus/RS485 serial communications link as standard.
The instrument is designed to act as a Remote Terminal Unit
(RTU) slave when communicating with a master (host) system.
A2.2
Setting Up
a) Connect the instrument to a Modbus link – see Section 5.5.
b) Set the RS485 configuration parameters – see Section 4.4.6.
c) Add the instrument to the link configuration on the host system – refer to information supplied with the host system.
A2.3
Modbus Commands Supported
The following Modbus commands are supported:
01 Read Coil Status – reads the on/off status of 16 consecutive digital states, starting at a specified address.
The instrument returns zeros for points which do not contain defined data
03 Read Holding Registers – reads 8 consecutive anolog values, starting from a specified address. The instrument returns zeros for registers which do not contain defined data.
05 Force Single Coil – sets the value of a single coil (digital signal) at the specified address. The data value must be
FF00
Hex to set the signal ON and zero to turn it OFF. The instrument returns an exception response if the register is not currently writeable.
06 Preset Single Register – sets the value of a single register
(analog value) at the specified address. The instrument returns an exception response if the register is not currently writeable. Limits defined in configuration are applied to the value before storage.
08 Loopback Diagnostic Test – used to test the integrity of
Modbus transmissions. The instrument returns the message recieved.
15 Force Multiple Coils – the instrument carries out updates that are valid and returns an exception response if any of the coils are not currently writeable.
16 Preset Multiple Registers – the instrument carries out updates that are valid and generates an exception response if any of the registers are not currently writeable.
Note.
• Negative numbers are represented in '2's complement' format, e.g 1000 = 03E8 (Hex), –1000
= FC18 (Hex)
• The instrument cannot accept a new message until the current message has been processed and a reply sent to the master (maximum response time
50ms).
• The instrument monitors the elapsed time between receipt of characters from the host. If the elapsed time between two characters is 3.5 character times, the slave assumes the second character received is the start of a new message.
A2.4
Modbus Exception Responses
If the instrument detects one of the errors listed in Table A2.1
while receiving a message from the host system, it replies with a response message consisting of the instrument's Modbus address, the function code, the error code and error check fields.
C o d e
0
0
0
0
0
1
2
3
7
8
I
I
I D a t a
A d d r e s s ll ll ll e e e g g g a a a l l l
N
F
D u a a n t m c a t e i
V o n a l u e
D e f i n i t i o n
T h e a n m e s s a g e f u n c a ll o w a b l e a c t i o n t i o n r e c e i v e d i s n o t
T h e a d d i s n o t a n r e s s a ll r e f e r e n c e o w a b l e a d d i n t h r e s s e d a t a if e l d
T h e n o t a v a l u e ll o w a r e f e r e n c e d b l e i n t h e a i n t h e d a t a d d r e s s e d if e l d s l a v e i s
N e g a t i v e
A c k n o w l e d g m e n t
M e m o r y P a r i t y
E r r o r
R e c e i v e d m e s s a g e e r r o r
P a r i t y o r m o r c e h e o f c k t h i n d i c a t e s a n e e r r o r i n o c h a r a c t e r s r e c e i v e d n e
Table A2.1 Modbus Exception Responses
A2.5
Operating Mode Modbus Coils
Tables A2.2 to A2.7 detail the contents of each Modbus coil.
Each coil is assigned a register that can have one of two values:
0000 and 0001.
A n a l o g I n p u t
B 2
B 3
B 4
B 5
B 6
R e s e r v e d
A 4
A 5
A 6
B 1
A 1
A 2
A 3
R e a d O n l y .
0
M
= o d b u
I n p u t s
O
C o i l
K , 1 = I n p u t f a li e d
0 0 0 1
0 0 0 2
0 0 0 3
0 0 0 4
0 0 0 5
0 0 0 6
0 0 0 7
0 0 0 8
0 0 0 9
0 0 1 0
0 0 1 1
0 0 1 2
0 0 1 3 t o 0 0 5 0
Table A2.2 Analog Input Fail States
89
…APPENDIX 2 – MODBUS GUIDE
T i t l e
A l a r m 1 .
1 A
A l a r m 1 .
1 B
A l a r m 1 .
2 A
A l a r m 1 .
2 B
A l a r m 1 .
3 A
A l a r m 1 .
3 B
A l a r m 1 .
4 A
A l a r m 1 .
4 B
A l a r m 1 .
5 A
A l a r m 1 .
5 B
A l a r m 1 .
6 A
A l a r m 1 .
6 B
A l a r m 2 .
1 A
A l a r m 2 .
1 B
A l a r m 2 .
2 A
A l a r m 2 .
2 B
A l a r m 2 .
3 A
A l a r m 2 .
3 B
A l a r m 2 .
4 A
A l a r m 2 .
4 B
A l a r m 2 .
5 A
A l a r m 2 .
5 B
A l a r m 2 .
6 A
A l a r m 2 .
6 B
R e s e r v e d
…A2.5
Operating Mode Modbus Coils
R e a d A c c e s s
A l a r m
A c t i v e / I n a c t i v e
0 =
1 =
A l a r m
A l a r m i n a c t i a c t i v e v e
A l a r m A c k n o w l e d g e
W r i t e A c c e s s
1 8
1 9
2 0
2 1
1 4
1 5
1 6
1 7
2 2
2 3
2 4
1 0
1 1
1 2
1 3
8
9
6
7
N o .
1
4
5
2
3
N o n e
0 0 6 4
0 0 6 5
0 0 6 6
0 0 6 7
0 0 6 8
0 0 6 9
0 0 7 0
0 0 7 1
0 0 7 2
0 0 7 3
0 0 7 4
0 0 7 5 t o 0 1 0 0
M o d b u s C o i l
0 0 5 1
0 0 5 2
0 0 5 3
0 0 5 4
0 0 5 5
0 0 5 6
0 0 5 7
0 0 5 8
0 0 5 9
0 0 6 0
0 0 6 1
0 0 6 2
0 0 6 3
0 = A c k n o w l e d g e d o r
1 = i n a c t i v e
A c t i v e a n d u n a c k n o w l e d g e d
0 =
1 =
N o E f f e c t
A c k n o w l e d g e
M o d b u s C o i l
0 1 0 1
0 1 0 2
0 1 0 3
0 1 0 4
0 1 0 5
0 1 0 6
0 1 0 7
0 1 0 8
0 1 0 9
0 1 1 0
0 1 1 1
0 1 1 2
0 1 1 3
0 1 1 4
0 1 1 5
0 1 1 6
0 1 1 7
0 1 1 8
0 1 1 9
0 1 2 0
0 1 2 1
0 1 2 2
0 1 2 3
0 1 2 4
0 1 2 5 t o 0 1 5 0
Table A2.3 Alarm States
T i t l e
O p e r a t o r M e s s a g e 1
O p e r a t o r M e s s a g e 2
O p e r a t o r M e s s a g e 3
O p e r a t o r M e s s a g e 4
O p e r a t o r M e s s a g e 5
O p e r a t o r M e s s a g e 6
R e s e r v e d
C o i l N u m b e r
R e a d :
W r i t e :
A l w a y s
1 = A c r e t i v a t u t e r n s ' 0 '
0 1 5 1
0 1 5 2
0 1 5 3
0 1 5 4
0 1 5 5
0 1 5 6
0 1 5 7 t o 0 2 0 0
Table A2.4 Operator Messages
C h a n n e l
N o t U s e d
C 1
C 2
C 3
C 4
C 5
C 6
D 1
D 2
D 3
D 4
D 5
D 6
N o t U s e d
R e a d
M o d b u s C o i l N u m b e r s
O n l y .
1
0 =
=
O u t p u t
O u t p u t o r o r
I n p u
I n p u t t I n a c t
A c t i v e i v e ;
D i g i t a l I n p u t s
0 2 0 1 t o 0 2 1 2
D i
0 g
2 i t
5 a
1 l t
O o u
0 t p
2 u
6 t
2 s R
0 e l
3 a y
0 1
O t o u t p u t s
0 3 1 2
0 2 1 3
0 2 1 4
0 2 1 5
0 2 1 6
0 2 6 3
0 2 6 4
0 2 6 5
0 2 6 6
0 3 1 3
0 3 1 4
0 3 1 5
0 3 1 6
0 2 1 7
0 2 1 8
0 2 1 9
0 2 2 0
0 2 2 1
0 2 2 2
0 2 2 3
0 2 2 4
0 2 2 5 t o 0 2 5 0 0 2 7
0
0
0
0
0
0
0
0
5
2
2
2
2
2
2
2
2 t
6
6
6
7
7
7
7
7 o
7
8
9
0
1
2
3
4
0 3 0 0 0 3 2
0
0
0
0
0
0
0
0
5
3
3
3
3
3
3
3
3 t
1
1
1
2
2
2
2
2 o
7
8
9
0
1
2
3
4
0 3 5 0
Table A2.5 Digital I/O States
90
APPENDIX 2 – MODBUS GUIDE…
…A2.5
Operating Mode Modbus Coils
R e a d
W r i t e
1 T o t a il z e r 1 .
1
2 T o t a il z e r 1 .
2
3 T o t a il z e r 1 .
3
4 T o t a il z e r 1 .
4
5 T o t a il z e r 1 .
5
6 T o t a il z e r 1 .
6
7 T o t a il z e r 2 .
1
8 T o t a il z e r 2 .
2
9 T o t a il z e r 2 .
3
1 0 T o t a il z e r 2 .
4
1 1 T o t a il z e r 2 .
5
1 2 T o t a il z e r 2 .
6
R e s e r v e d
* T i m e s i n c e l a s t r e s e t
M o d b u s R e g i s t e r s
S t o p / G o
0 =
1 =
S t o p p e d
R u n n i n g
0 =
1 =
S t o p
S t a r t
0 3 5 1
0 3 5 2
0 3 5 3
0 3 5 4
0 3 5 5
0 3 5 6
0 3 5 7
0 3 5 8
0 3 5 9
0 3 6 0
0 3 6 1
0 3 6 2
0 3 6 3 t o 0 4 0 0
R e s e t
0 =
1 =
> 1 s *
< 1 s *
1 = R e s e t
0 4 0 1
0 4 0 2
0 4 0 3
0 4 0 4
0 4 0 5
0 4 0 6
0 4 0 7
0 4 0 8
0 4 0 9
0 4 1 0
0 4 1 1
0 4 1 2
0 4 1 3 t o 0 4 5 0
W r a p P u l s e
0 =
1 =
I n a c t i v e
A c t i v e
0 4 5 1
0 4 5 2
0 4 5 3
0 4 5 4
0 4 5 5
0 4 5 6
0 4 5 7
0 4 5 8
0 4 5 9
0 4 6 0
0 4 6 1
0 4 6 2
0 4 6 3 t o 0 5 0 0
Table A2.6 Totalizer Digital Signals
1 s t S t a g e P u l s e
0 =
1 =
I n a c t i v e
A c t i v e
0 5 0 1
0 5 0 2
0 5 0 3
0 5 0 4
0 5 0 5
0 5 0 6
0 5 0 7
0 5 0 8
0 5 0 9
0 5 1 0
0 5 1 1
0 5 1 2
F l o w r a t e F a i l u r e
1
0
=
= O
F a li
K e d
0 5 5 1
0 5 5 2
0 5 5 3
0 5 5 4
0 5 5 5
0 5 5 6
0 5 5 7
0 5 5 8
0 5 5 9
0 5 6 0
0 5 6 1
0 5 6 2
C h a n n e l N u m b e r
S i g n a l
C h a n n e l F a li S t a t e
A l a r m A S t a t e
A l a r m B S t a t e
A l a r m A A c k n o w l e d g e
A l a r m B A c k n o w l e d g e
T o t a il z e r S t o p / G o
T o t a il z e r R e s e t
T o t a il z e r W r a p
T o t a il z e r F i r s t S t a g e
T o t a il z e r F l o w r a t e F a li
R e s e r v e d
R
R
R
R
R
R
R / W
R / W
R / W
R / W
1 .
1
1 0 0 1
1
1
0
0
0
0
2
3
1 0 0 4
1 0 0 5
1
1
0
0
0
0
6
7
1 0 0 8
1 0 0 9
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
.
2
2
2
2
2
2
2
2
1
2
3
4
5
6
7
1 0 2 8
1 0 2 9
P r o c e s s G r o u p 1
1
1 0 4 2
1 0 4 3
1
1
1 0 4 6
1 0 4 7
1
1
1
0
0
0
0
0
.
3
4
4
4
4
4
1
4
5
8
9
1 .
4
1 0 6 1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
6
6
6
6
6
6
6
6
2
3
4
5
6
7
8
9
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
.
5
8
8
8
8
8
8
8
1
2
3
4
5
6
7
1 0 8 8
1 0 8 9
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
.
6
0
0
0
0
0
0
0
0
0
1
2
3
4
5
6
7
8
9
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
.
1
2
2
2
2
2
2
2
2
2
1
2
3
4
5
6
7
8
9
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
.
2
4
4
4
4
4
4
4
1
2
3
4
5
6
7
1 1 4 8
1 1 4 9
P r o c e s s
1
1
1
1
1
1
1
1
2 .
3
1 1 6 1
1
1
1
1
1
1
1
1
6
6
6
6
6
6
6
6
2
3
4
5
6
7
8
9
G r o u p 2
1
1
1
1
1
1
1
1
1
2
1
1
1
1
1
1
1
1
1
.
4
8
8
8
8
8
8
8
8
8
1
2
3
4
5
6
7
8
9
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
.
5
0
0
0
0
0
0
0
1
2
3
4
5
6
7
1 2 0 8
1 2 0 9
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
.
6
2
2
2
2
2
2
2
1
2
3
4
5
6
7
1 2 2 8
1 2 2 9
1 0 1 0 1 0 3 0
1 0 1 1 t o
1 0 2 0
1 0 3 1 t o
1 0 4 0
1 0 5 0
1 0 5 1 t o
1 0 6 0
1 0 7 0 1 0 9 0
1 0 7 1 t o
1 0 8 0
1 0 9 1 t o
1 1 0 0
1 1 1 0
1 1 1 1 t o
1 1 2 0
1 1 3 0 1 1 5 0 1 1 7 0
1 1 3 1 t o
1 1 4 0
1 1 5 1 t o
1 1 6 0
1 1 7 1 t o
1 1 8 0
1 1 9 0 1 2 1 0 1 2 3 0
1 1 9 1 t o
1 2 0 0
1 2 1 1 t o
1 2 2 0
1 2 3 1 t o
1 2 4 0
Table A2.7 Channel Digital Signals
91
…APPENDIX 2 – MODBUS GUIDE
A2.6
Operating Mode Modbus Registers
Tables A2.8 to A2.10 detail the contents of the Modbus registers accessible while the instrument is in the operating mode.
Two data types are used:
• 32-bit single precision floating point data in IEEE format
• 64-bit double precision floating point data in IEEE format
Notes.
• When writing to a parameter that occupies more than one register position then all registers relating to that parameter MUST be written to as part of a multiple register write. If this is not acheived a NAK exception response is issued. Individual registers can be read without causing an exception response.
• When accessing a parameter that occupies more than one register position, the lowest numbered register contains the most significant data.
A 5
A 6
B 1
B 2
A 1
A 2
A 3
A 4
B 3
B 4
B 5
B 6
R e s e r v e d
A n a l o g I n p u t s R e a d p o i o n t
M o d b u s n l n y , u s i n g l e m b e r
R p e g i s r e c
– 9 9 9 i t t e r s s i o n o + lf o
9 9 a t
9 9 i n g
0 0 0 1 a n d 0 0 0 2
0 0 0 3 a n d 0 0 0 4
0 0 0 5 a n d 0 0 0 6
0 0 0 7 a n d 0 0 0 8
0 0 0 9 a n d 0 0 1 0
0 0 1 1 a n d 0 0 1 2
0 0 1 3 a n d 0 0 1 4
0 0 1 5 a n d 0 0 1 6
0 0 1 7 a n d 0 0 1 8
0 0 1 9 a n d 0 0 2 0
0 0 2 1 a n d 0 0 2 2
0 0 2 3 a n d 0 0 2 4
0 0 2 5 t o 0 1 0 0
Table A2.8 Analog Inputs
1 3
1 4
1 5
1 6
9
1 0
1 1
1 2
7
8
5
6
3
4
1
2
2 1
2 2
2 3
2 4
1 7
1 8
1 9
2 0
A l a r m 1 .
1 A
A l a r m 1 .
1 B
A l a r m 1 .
2 A
A l a r m 1 .
2 B
A l a r m 1 .
3 A
A l a r m 1 .
3 B
A l a r m 1 .
4 A
A l a r m 1 .
4 B
A l a r m 1 .
5 A
A l a r m 1 .
5 B
A l a r m 1 .
6 A
A l a r m 1 .
6 B
A l a r m 2 .
1 A
A l a r m 2 .
1 B
A l a r m 2 .
2 A
A l a r m 2 .
2 B
A l a r m 2 .
3 A
A l a r m 2 .
3 B
A l a r m 2 .
4 A
A l a r m 2 .
4 B
A l a r m 2 .
5 A
A l a r m 2 .
5 B
A l a r m 2 .
6 A
A l a r m 2 .
6 B
R e s e r v e d
A l a r m N u m b e r a n d N a m e
T r i p P o i n t
( s i n g l e p r e c i s i o n
R e g i s t e r s lf o a t i n g p o i n t )
R e a d :
W r i t e :
– 9 9 9 t o
– 9 9 9 t o
+ 9 9 9 9
+ 9 9 9 9
0 1 0 1 a n d 0 1 0 2
0 1 0 3 a n d 0 1 0 4
0 1 0 5 a n d 0 1 0 6
0 1 0 7 a n d 0 1 0 8
0 1 0 9 a n d 0 1 1 0
0 1 1 1 a n d 0 1 1 2
0 1 1 3 a n d 0 1 1 4
0 1 1 5 a n d 0 1 1 6
0 1 1 7 a n d 0 1 1 8
0 1 1 9 a n d 0 1 2 0
0 1 2 1 a n d 0 1 2 2
0 1 2 3 a n d 0 1 2 4
0 1 2 5 a n d 0 1 2 6
0 1 2 7 a n d 0 1 2 8
0 1 2 9 a n d 0 1 3 0
0 1 3 1 a n d 0 1 3 2
0 1 3 3 a n d 0 1 3 4
0 1 3 5 a n d 0 1 3 6
0 1 3 7 a n d 0 1 3 8
0 1 3 9 a n d 0 1 4 0
0 1 4 1 a n d 0 1 4 2
0 1 4 3 a n d 0 1 4 4
0 1 4 5 a n d 0 1 4 6
0 1 4 7 a n d 0 1 4 8
0 1 4 9 t o 0 2 5 0
Table A2.9 Alarm Trip Levels
92
APPENDIX 2 – MODBUS GUIDE…
…A2.6
Operating Mode Modbus Registers
1 T o t a il z e r 1 .
1
2 T o t a il z e r 1 .
2
3 T o t a il z e r 1 .
3
4 T o t a il z e r 1 .
4
5 T o t a il z e r 1 .
5
6 T o t a il z e r 1 .
6
7 T o t a il z e r 2 .
1
8 T o t a il z e r 2 .
2
9 T o t a il z e r 2 .
3
1 0 T o t a il z e r 2 .
4
1 1 T o t a il z e r 2 .
5
1 2 T o t a il z e r 2 .
6
R e s e r v e d
M o d b u s R e g i s t e r s
M a x i m u m
F l o w r a t e
C u r r e n t B a t c h
M i n i m u m
F l o w r a t e
A v e r a g e
F l o w r a t e
B a t c h T o t a l
M a x i m u m
F l o w r a t e
P r e v i o u s B a t c h
M i n i m u m
F l o w r a t e
A v e r a g e
F l o w r a t e a n
0 2 5 1 d 0 2 5 2 a n
0 2 5 3 d 0 2 5 4 a n
0 2 5 5 d 0 2 5 6 a n
0 2 5 7 d 0 2 5 8 a n
0 2 5 9 d 0 2 6 0 a n
0 2 6 1 d 0 2 6 2 a n
0 2 6 3 d 0 2 6 4 a n
0 2 6 5 d 0 2 6 6 a n
0 2 6 7 d 0 2 6 8 a n
0 2 6 9 d 0 2 7 0 a n
0 2 7 1 d 0 2 7 2 a n
0 2 7 3 d 0 2 7 4 t o
0 2 7 5
0 3 0 0 a n
0 3 0 1 d 0 3 0 2 a n
0 3 0 3 d 0 3 0 4 a n
0 3 0 5 d 0 3 0 6 a n
0 3 0 7 d 0 3 0 8 a n
0 3 0 9 d 0 3 1 0 a n
0 3 1 1 d 0 3 1 2 a n
0 3 1 3 d 0 3 1 4 a n
0 3 1 5 d 0 3 1 6 a n
0 3 1 7 d 0 3 1 8 a n
0 3 1 9 d 0 3 2 0 a n
0 3 2 1 d 0 3 2 2 a n
0 3 2 3 d 0 3 2 4 t o
0 3 2 5
0 3 5 0 lf
R e a d o n l y , o a t i n g p o i n t , s i n g l e p r e c i s i o n
– 9 9 9 t o + 9 9 9 9 a n
0 3 5 1 d 0 3 5 2 a n
0 3 5 3 d 0 3 5 4
0 3 5 5 a n d 0 3 5 6
0 3 5 7 a n d 0 3 5 8
0 3 5 9 a n d 0 3 6 0
0 3 6 1 a n d 0 3 6 2 a n
0 3 6 3 d 0 3 6 4 a n
0 3 6 5 d 0 3 6 6 a n
0 3 6 7 d 0 3 6 8 a n
0 3 6 9 d 0 3 7 0 a n
0 3 7 1 d 0 3 7 2 a n
0 3 7 3 d 0 3 7 4 t o
0 3 7 5
0 4 0 0
Table A2.10 Totalizer Totals
R e a d o n l y , d o u b l e p r e c i s i o n , u n s i g n e d 0 t o
+ 9 9 9 9 9 9 9 9 9 9 t o
0 4 0 1
0 4 0 4 t o
0 4 0 5
0 4 0 8 t o
0 4 0 9
0 4 1 2 t o
0 4 1 3
0 4 1 6 t o
0 4 1 7
0 4 2 0 t o
0 4 2 1
0 4 2 4 t o
0 4 2 5
0 4 2 8 t o
0 4 2 9
0 4 3 2 t o
0 4 3 3
0 4 3 6 t o
0 4 3 7
0 4 4 0 t o
0 4 4 1
0 4 4 4 t o
0 4 4 5
0 4 4 8 t o
0 4 4 9
0 5 5 0
R e a d lf o a t i n g o n l y , p o i s n t , i n g l e p
– 9 9 9 r e c i s i o n , t o + 9 9 9 9 a n
0 5 5 1 d 0 5 5 2 a n
0 5 5 3 d 0 5 5 4
0 5 5 5 a n d 0 5 5 6
0 5 5 7 a n d 0 5 5 8
0 5 5 9 a n d 0 5 6 0
0 5 6 1 a n d 0 5 6 2 a n
0 5 6 3 d 0 5 6 4 a n
0 5 6 5 d 0 5 6 6 a n
0 5 6 7 d 0 5 6 8 a n
0 5 6 9 d 0 5 7 0 a n
0 5 7 1 d 0 5 7 2 a n
0 5 7 4 d 0 5 7 5 t o
0 5 7 6
0 6 0 0 a n
0 6 0 1 d 0 6 0 2 a n
0 6 0 3 d 0 6 0 4 a n
0 6 0 5 d 0 6 0 6 a n
0 6 0 7 d 0 6 0 8 a n
0 6 0 9 d 0 6 1 0 a n
0 6 1 1 d 0 6 1 2 a n
0 6 1 3 d 0 6 1 4 a n
0 6 1 5 d 0 6 1 6 a n
0 6 1 7 d 0 6 1 8 a n
0 6 1 9 d 0 6 2 0 a n
0 6 2 1 d 0 6 2 2 a n
0 6 2 3 d 0 6 2 4 t o
0 6 2 5
0 6 5 0 a n
0 6 5 1 d 0 6 5 2 a n
0 6 5 3 d 0 6 5 4 a n
0 6 5 5 d 0 6 5 6 a n
0 6 5 7 d 0 6 5 8 a n
0 6 5 9 d 0 6 6 0 a n
0 6 6 1 d 0 6 6 2 a n
0 6 6 3 d 0 6 6 4 a n
0 6 6 5 d 0 6 6 6 a n
0 6 6 7 d 0 6 6 8 a n
0 6 6 9 d 0 6 7 0 a n
0 6 7 1 d 0 6 7 2 a n
0 6 7 3 d 0 6 7 4 t o
0 6 7 5
0 7 0 0
B a t c h T o t a l
R e a d d o u b l e p o r e n l y , c i s i o n , u n s i g n e d 0 t o
+ 9 9 9 9 9 9 9 9 9 9 t o
0 7 0 1
0 7 0 4 t o
0 7 0 5
0 7 0 8
0 7 0 9 t o 0 7 1 2
0 7 1 3 t o 0 7 1 6
0 7 1 7 t o 0 7 2 0
0 7 2 1 t o 0 7 2 4 t o
0 7 2 5
0 7 2 8 t o
0 7 2 9
0 7 3 2 t o
0 7 3 3
0 7 3 6 t o
0 7 3 7
0 7 4 0 t o
0 7 4 1
0 7 4 4 t o
0 7 4 5
0 7 4 8 t o
0 7 4 9
0 8 5 0
93
…APPENDIX 2 – MODBUS GUIDE
A2.7
Comms Analog and Digital Inputs
C o m m s .
D i g i t a l
I n p u t s
C o m m s .
A n a l o g
I n p u t s F a i l u r e
0 =
R e a d /
I n a c t i v e ;
W r
1 i t e :
= A c t i v e
C o m m s .
A n a l o g
I n p u t s
F l o a t i n g p o i n t
( – 9 9 9 t o + 9 9 9 9 )
6 1 8
6 1 9
6 2 0
6 2 1
6 1 4
6 1 5
6 1 6
6 1 7
6 2 2
6 2 3
6 2 4
6 2 5 t o 6 5 0
C o i l N u m b e r
6 0 1
6 0 2
6 0 3
6 0 4
6 0 5
6 1 0
6 1 1
6 1 2
6 1 3
6 0 6
6 0 7
6 0 8
6 0 9
1 8
1 9
2 0
2 1
1 4
1 5
1 6
1 7
2 2
2 3
2 4
R e s e r v e d
1 0
1 1
1 2
1 3
8
9
6
7
I n p u t
N u m b e r
1
4
5
2
3
6 6 8
6 6 9
6 7 0
6 7 1
6 6 4
6 6 5
6 6 6
6 6 7
6 7 2
6 7 3
6 7 4
6 7 5 t o 7 0 0
C o i l N u m b e r
6 5 1
6 5 2
6 5 3
6 5 4
6 5 5
6 6 0
6 6 1
6 6 2
6 6 3
6 5 6
6 5 7
6 5 8
6 5 9
R e g i s t e r s
0 8 5 1 a n d 0 8 5 2
0 8 5 3 a n d 0 8 5 4
0 8 5 5 a n d 0 8 5 6
0 8 5 7 a n d 0 8 5 8
0 8 5 9 a n d 0 8 6 0
0 8 6 1 a n d 0 8 6 2
0 8 6 3 a n d 0 8 6 4
0 8 6 5 a n d 0 8 6 6
0 8 6 7 a n d 0 8 6 8
0 8 6 9 a n d 0 8 7 0
0 8 7 1 a n d 0 8 7 2
0 8 7 3 a n d 0 8 7 4
0 8 7 5 a n d 0 8 7 6
0 8 7 7 a n d 0 8 7 8
0 8 7 9 a n d 0 8 8 0
0 8 8 1 a n d 0 8 8 2
0 8 8 3 a n d 0 8 8 4
0 8 8 5 a n d 0 8 8 6
0 8 8 7 a n d 0 8 8 8
0 8 8 9 a n d 0 8 9 0
0 8 9 1 a n d 0 8 9 2
0 8 9 3 a n d 0 8 9 4
0 8 9 5 a n d 0 8 9 6
0 8 9 7 a n d 0 8 9 8
0 8 9 9 t o 1 0 0 0
Table A2.11 Modbus Inputs
APPENDIX 3 – STORAGE CAPACITY
A3.1
Internal Storage Capacity
S a m p l e
R a t e
0 .
9 s e c o n d s
1 .
0 s e c o n d s
2 .
0 s e c o n d s
3 .
0 s e c o n d s
4 .
0 s e c o n d s
5 .
0 s e c o n d s
6 .
0 s e c o n d s
7 .
0 s e c o n d s
8 .
0 s e c o n d s
9 .
0 s e c o n d s
1 0 .
0 s e c o n d s
1 m i n u t e
1 0 m i n u t e s
1 h o u r
1 2 h o u r s
0 .
1 s e c o n d s
0 .
2 s e c o n d s
0 .
3 s e c o n d s
0 .
4 s e c o n d s
0 .
5 s e c o n d s
0 .
6 s e c o n d s
0 .
7 s e c o n d s
0 .
8 s e c o n d s
1
1
1
2
2
3
3
3
1
2
.
.
.
.
.
.
.
.
1
1
7
1
1
2
1
5
9
2
6
0
4
7
1
8
2
.
2
3
4
5
6
8
9
0
1
2
.
.
.
.
.
.
.
.
.
.
.
.
.
3
3
3
4
6
7
8
0
1
2
4
8 m m m m m m m m
9
7
2 h o d d d d d d d d d d o n o n o n o n o n o n o n o n y y y e e e u a a a a a a a a a a y y y y y y y y y y t h t h t h t h t h t h t h t h a a a r s s s s s s s s s s s s s s s s s s s r s r s r s
1 3 4 6 .
6 y e a r s
1
1
1
1
1
1
.
.
.
.
.
N u m b e r o f C h a n n e l s
3
1
1
2
2
1
3
5
7
9
.
1
1
2
2
3
4
4
5
5
1
7
2
8 .
.
.
.
.
.
.
.
.
.
.
.
.
6
7
1
7
3
8
4
0
6
1
7
4
1
8
4 m m m m m h o o o o o o d d d d d d d d d d d d d a a a a a a a a a a a a a n t n t n t n t n t u r y y y y y y y y y y y y y s s s s s s s s s s s s s s h s h s h s h s h s
1 1 .
2 m o n t h s
6
5
7
9
6
3 .
.
.
4
1
3 y y y e e e a a a r r r s s s
1
1
1
7
4
1
.
.
.
.
3
4
9
8
1
1
1
2
2
0
1
2
5
6
7
8
.
.
1
1
1
2
2
3
3
3
7
1
5
9
2
6
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
9
1
2
2
4
8
1
5
9
3
7
0
4
8
6
4
2
0
8
5 m m m m h h y y y o u o u d d d d d d d d d d d d d d o n o n o n o n e e e a a a a a a a a a a a a a a a a a r s r s y s y y y y y y y y y y y y y t h t h t h t h r r r s s s s s s s s s s s s s s s s s s s s
Table A3.1 Internal Storage Capacity
1 2
6 .
8 h o u r s
1 3 .
7 h o u r s
2 0 .
5 h o u r s
1 .
1 d a y s
1 .
4 d a y s
1 .
7 d a y s
2 .
0 d a y s
2 .
3 d a y s
2 .
6 d a y s
2 .
8 d a y s
5 .
7 d a y s
8 .
5 d a y s
1 1 .
4 d a y s
1 4 .
2 d a y s
1 7 .
1 d a y s
1 9 .
9 d a y s
2 2 .
8 d a y s
2 5 .
6 d a y s
2 8 .
4 d a y s
5 .
6 m o n t h s
4 .
7 y e a r s
2 8 .
0 y e a r s
3 3 6 .
6 y e a r s
94
APPENDIX 3 – STORAGE CAPACITY…
A3.2
Archive Storage Capacity
Note.
The times shown are for archiving of a single group. If two groups are archived, the durations must be halved.
5 .
0 s e c o n d s
6 .
0 s e c o n d s
7 .
0 s e c o n d s
8 .
0 s e c o n d s
9 .
0 s e c o n d s
1 0 .
0 s e c o n d s
1 m i n u t e
1 0 m i n u t e s
1 h o u r
1 2 h o u r s
0 .
6 s e c o n d s
0 .
7 s e c o n d s
0 .
8 s e c o n d s
0 .
9 s e c o n d s
1 .
0 s e c o n d s
2 .
0 s e c o n d s
3 .
0 s e c o n d s
4 .
0 s e c o n d s
S a m p l e
T i m e
0 .
1 s e c o n d s
0 .
2 s e c o n d s
0 .
3 s e c o n d s
0 .
4 s e c o n d s
0 .
5 s e c o n d s
1
1
2
2
1
.
4
0
1
2
2
3
4
5
5
6
7
4
1
.
.
.
.
.
.
.
.
.
.
.
.
1
1
1
2
2
2
3
8
4
7
4
2
9
6
3
1
8
5
2
4
7
.
.
.
.
.
.
.
.
M
2
5
8
1
4
7
0
1 h h h h h h h h h h h h b o o o o o o o o o o o o d d d d d d d d u u u u u u u u u u u u a a a a a a a a r r r r r r r r r r r r y y y y y y y y s s s s s s s s s s s s s s s s s s s s
1
2
2
2
1
2
3
4
5
6
7
8
9
0
0 .
.
.
.
.
.
.
.
.
.
.
0
1
1
2
2
2
3
3
4
5
M
0
0
0
0
0
0
0
0
0
1
.
.
.
.
.
.
.
.
.
3
7
1
5
9
3
8
2
1 b h h h h h h h h h h h o u o o o o o o o o o o d d d d d d d d d u u u u u u u u u u a a a a a a a a a r s r r r r r r r r r r y y y y y y y y y s s s s s s s s s s s s s s s s s s s
4 .
1 m o n t h s 5 .
9 m o n t h s 8 .
2 m o n t h s
2
1
0
1
1
2
2
3
3
4
4
5
0
5
0
5
1
1
1
1
2
2
2
4
.
.
.
.
.
.
.
.
.
.
.
.
.
.
5
.
.
M
0
5
0
5
0
5
0
5
0
0
0
1
1
.
.
.
.
.
.
3
5
7
9
1
5
1
7 b h h h h h h h h h h h h h h y y o u r s o u o u o u o u o u o u o u o o o o o o d d d d d d e e u u u u u u a a a a a a a a r s r s r s r s r s r s r s r r r r r r y y y y y y s s s s s s s s s s s s r s r s
1
1
2
1
3
3
5 .
.
0
6 y y e e a a r r s s 4
4
9 .
.
1
5 y y e a e a r r s s
1
1
1
1
1
2
1 .
7 m o n t h s 3 .
3 m o n t h s 6 .
6 m o n t h s
9
4 M b
2 .
0 h o u r s
4
6
8
0
2
4
6
8
0 .
.
.
.
.
.
.
.
.
1
2
3
4
5
5
6
7
8
1
8
9 .
.
.
0
0
0
0
0
1
1
1
1
.
.
.
.
.
.
.
.
.
7
5
3
2
0
9
7
5
4
4
3
0 h h h h h h h h h y y y o o o o o o o o o d d d d d d d d d e e e u u u u u u u u u a a a a a a a a a a a a r r r r r r r r r y y y y y y y y y r r r s s s s s s s s s s s s s s s s s s s s s
M e d i a S i z e
1
1
1
2
2
4
8
2
6
0
4
1
1
1
1
1
1
9
8 M b
2
6
8
.
.
.
.
.
.
1
1
1
1
3
5
6
8
0
1
3
5
6
.
.
.
0
0
1
1
1
1
.
.
.
.
.
.
.
.
.
.
.
.
.
2
3
5
7
3
0
7
4
0
7
4
1
7
8
5
1 h h h h h h y y y o u o u o u o u o u o u d d d d d d d d d d d d d e a a a a a a a a a a a a a e a a e a r r r r r r y y y y y y y y y y y y y r r r s s s s s s s s s s s s s s s s s s s s s s
1
1
2
.
1
1
1
2
2
2
3
3
3 9
1
8
6
4
1
1
1
2
2
2
3
3
6
0
3
6
0
3
6
0
5
3
6
.
.
.
6 .
.
.
M
0
1
1
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
3
7
0
3
7
0
3
7
0
4
7
1
4
8
1 m
5
0
2 h h h b o u o u o u d d d d d d d d d d d d d d d o n y y y e e e a a a a a a a a a a a a a a a y y y y y y y y y y y y y y y t h a a a r s r s r s s s s s s s s s s s s s s s s s r s r s r s
1
1
1
1
1
2
2 .
.
.
.
.
.
1
6
3
6 .
1
2
2
1
3
6
8
0
2
1
1
6
2
1
2
2
3
4
4
5
6
6
3
0
6
.
.
.
1
.
.
.
.
.
.
.
.
.
.
.
.
M
3
0
7
3
0
7
4
0
7
4
1
8 m m m m m m
1
0
0 b h o o o o o o y y y o d d d d d d d d d d d d e e e u a a a a a a a a a a a a n t n t n t n t n t n t a a a r y y y y y y y y y y y y r r r s s s s s s s s s s s s s h s h s h s h s h s h s s s s
1
1
2
2
3
3
4
4
1
.
.
.
.
.
.
.
.
1
1
1
2
2
3
6
3
8
2
7
1
5
0
4
2
2
2
4
1
2
4
5
6
8
9
0
2
3
6
.
.
.
.
.
.
.
.
.
.
.
.
.
.
M
2
0
1
3
7
0
4
7
0
4
7
1
4
8 m m m m m m m m b y y y d d d d d d d d d d d o n o n o n o n o n o n o n o n e e e a a a a a a a a a a a a a a y y y y y y y y y y y t h t h t h t h t h t h t h t h r s r s s s s s s s s s s s s s s s s s s s s r s
1
2
3
4
5
6
7
7
8
2
1
.
.
.
.
.
.
.
.
.
1
1
1
1
2
2
2
4
6
2
8
7
5
4
3
2
0
9
8
2
5
8
0
3
6
8
1
4
6
4
4
4 .
.
.
8
.
.
.
.
.
.
.
.
.
M
.
7
4
0
7
4
1
7
4
1
8 m m m m m m m m m
4
0
2 o o o o o o o o o y y y b d a d d d d d d d d d a a a a a a a a a n t n t n t n t n t n t n t n t n t e e e a a a y s y y y y y y y y y h s h s h s h s h s h s h s h s h s r r r s s s s s s s s s s s s
7 9 2 .
5 y e a r s 1 5 8 5 .
0 y e a r s 3 1 7 0 .
0 y e a r s
Table A3.2 External (Archive) Storage Capacity (Text Formatted Archive Files)
95
…APPENDIX 3 – STORAGE CAPACITY
S a m p l e T i m e
0 .
1 s e c o n d s
0 .
2 s e c o n d s
0 .
3 s e c o n d s
0 .
4 s e c o n d s
0 .
5 s e c o n d s
0 .
6 s e c o n d s
0 .
7 s e c o n d s
0 .
8 s e c o n d s
0 .
9 s e c o n d s
1 .
0 s e c o n d s
2 .
0 s e c o n d s
3 .
0 s e c o n d s
4 .
0 s e c o n d s
5 .
0 s e c o n d s
6 .
0 s e c o n d s
7 .
0 s e c o n d s
8 .
0 s e c o n d s
9 .
0 s e c o n d s
1 0 .
0 s e c o n d s
1 .
0 m i n u t e s
1 0 .
0 m i n u t e s
1 .
0 h o u r s
1 2 .
0 h o u r s
7 .
6 d a y s
1 1 .
4 d a y s
1 5 .
2 d a y s
1 9 .
0 d a y s
2 2 .
8 d a y s
2 6 .
5 d a y s
1 .
0 m o n t h s
1 .
1 m o n t h s
1 .
2 m o n t h s
7 .
5 m o n t h s
6 .
2 y e a r s
3 7 .
4 y e a r s
4 4 8 .
9 y e a r s
8 M b
9 .
1 h o u r s
1 8 .
2 h o u r s
1 .
1 d a y s
1 .
5 d a y s
1 .
9 d a y s
2 .
3 d a y s
2 .
7 d a y s
3 .
0 d a y s
3 .
4 d a y s
3 .
8 d a y s
1 6 M b
1 8 .
2 h o u r s
1 .
5 d a y s
2 .
3 d a y s
3 .
0 d a y s
3 .
8 d a y s
4 .
6 d a y s
5 .
3 d a y s
6 .
1 d a y s
6 .
8 d a y s
7 .
6 d a y s
1 5 .
2 d a y s
2 2 .
8 d a y s
1 .
0 m o n t h s
1 .
2 m o n t h s
1 .
5 m o n t h s
1 .
7 m o n t h s
2 .
0 m o n t h s
2 .
2 m o n t h s
2 .
5 m o n t h s
1 .
2 y e a r s
1 2 .
5 y e a r s
7 4 .
8 y e a r s
8 9 7 .
8 y e a r s
1 5 .
2 d a y s
1 .
0 m o n t h s
1 .
5 m o n t h s
2 .
0 m o n t h s
2 .
5 m o n t h s
3 .
0 m o n t h s
3 .
5 m o n t h s
4 .
0 m o n t h s
4 .
5 m o n t h s
5 .
0 m o n t h s
2 .
5 y e a r s
2 4 .
9 y e a r s
1 4 9 .
6 y e a r s
1 7 9 5 .
5 y e a r s
M e d i a S i z e
3 2 M b
1 .
5 d a y s
3 .
0 d a y s
4 .
6 d a y s
6 .
1 d a y s
7 .
6 d a y s
9 .
1 d a y s
1 0 .
6 d a y s
1 2 .
1 d a y s
1 3 .
7 d a y s
6 4 M b
3 .
0 d a y s
6 .
1 d a y s
9 .
1 d a y s
1 2 .
1 d a y s
1 5 .
2 d a y s
1 8 .
2 d a y s
2 1 .
2 d a y s
2 4 .
3 d a y s
2 7 .
3 d a y s
1 .
0 m o n t h s
2 .
0 m o n t h s
3 .
0 m o n t h s
4 .
0 m o n t h s
5 .
0 m o n t h s
6 .
0 m o n t h s
7 .
0 m o n t h s
8 .
0 m o n t h s
9 .
0 m o n t h s
1 0 .
0 m o n t h s
5 .
0 y e a r s
4 9 .
9 y e a r s
2 9 9 .
3 y e a r s
3 5 9 1 .
0 y e a r s
Table A3.3 External (Archive) Storage Capacity (Binary Formatted Archive Files)
1 2 8 M b
6 .
1 d a y s
1 2 .
1 d a y s
1 8 .
2 d a y s
2 4 .
3 d a y s
1 .
0 m o n t h s
1 .
2 m o n t h s
1 .
4 m o n t h s
1 .
6 m o n t h s
1 .
8 m o n t h s
2 .
0 m o n t h s
4 .
0 m o n t h s
6 .
0 m o n t h s
8 .
0 m o n t h s
1 0 .
0 m o n t h s
1 2 .
0 m o n t h s
1 4 .
0 m o n t h s
1 6 .
0 m o n t h s
1 8 .
0 m o n t h s
2 0 .
0 m o n t h s
1 0 .
0 y e a r s
9 9 .
8 y e a r s
5 9 8 .
5 y e a r s
7 1 8 2 .
0 y e a r s
96
APPENDIX 4 – DEFAULT SETTINGS
A4.1
Company Standard
A4.1.1
Common Configuration
Setup
Configuration type
Number of groups
Language
Global alarm acknowledge source
Instrument tag
Time
Time format
Date format
Daylight saving
Security
User names
User passwords
Configuration security type
Setup level security
Setup level password
Logs
Alarm log size
Totalizer log size
Audit log size
Operator messages (all)
Tag
Message source ID
RS485
Protocol
Type
Baud rate
Parity
Address
Basic
1
English
None
SM2000 hhmmss ddmmyy
Off
Operator 1, 2 etc.
0
Password protected
Off
0
200
200
200
“”
None
Modbus
4-wire
19200
Odd
1
A4.1.2
Process Groups 1 and 2
Recording
Group 1 tag
Group 2 tag
Recording enable source
Sample rate source
Primary sample rate
Secondary sample rate
Chart View
Chart view enable
Annotation
Screen interval
Major chart divisions
Minor chart divisions
Menu enables
Message select
Alarm acknowledge
Scale select
Trace select
Screen interval select
Historical review
Chart annotation select
Process group 1
Process group 2
None
None
10s
1s
On
Off
3 minutes
3
10
False
True
False
False
True
True
False
…A4.1.2
Process Groups 1 and 2
Bargraph View
Bargraph view enable
Markers
Menu enables
Message select
Alarm acknowledge
Max./min. reset
Process View
Off
No markers
False
True
False
Process view enable
View select
Menu enables
Message select
Alarm acknowledge
Totalizer reset
Totalizer stop/go
View select
Off
Statistics
False
False
False
False
False
Digital Indicator View
Digital indicator view enable
Menu enables
Message select
Off
Alarm acknowledge
Archiving
Data file enable
Alarm event log file enable
Totalizer log file enable
Audit log file enable
New file generation interval
Overwrite enable
Auto update enable
Digital save source
Primary rate
Secondary rate
False
True
False
False
False
False
Off
False
False
None
10s
1s
Group 1 rate linked to channel Channel 1.1
Group 2 rate linked to channel Channel 2.1
A4.1.3
Recording Channels
Setup
Source indentifiers
Channels 1.1 to 1.6
Channels 2.1 to 2.6
Trace colors
Channels 1.1 and 2.1
Channels 1.2 and 2.2
Channels 1.3 and 2.3
Channels 1.4 and 2.4
Channels 1.5 and 2.5
Channels 1.6 and 2.6
Filter type (all channels)
Analog input A1 to A6
Analog input B1 to B6
Magenta
Red
Black
Green
Blue
Brown
Instantaneous
97
…APPENDIX 4 – DEFAULT SETTINGS
…A4.1.3
Recording Channels
Analog Inputs (A1 to A6 and B1 to B6)
Type mA
Electrical range (high)
Electrical range (low)
20
4
Engineering range (high)
Engineering range (low)
Filter time
Linearizer type
100
0
0
Linear
Fault detect level
Broken sensor drive
Engineering units
Mains frequency
Short tag
Long tag
Digital recording channels
Long tag
10%
Downscale
%
50Hz
I/P xx
Analog input xx
Short tag
On tag
Off tag
Process Alarms (all channels)
Type
Log enable
Time hysteresis
Trip
Blank
Blank
On
Off
None
True
0
0.0
Recording channel x.x alarm tag
Alarm A tag x.xA
Alarm B tag
Totalizers x.xB
Integrator rate
Cut off
Stop/go source
Reset source
Count enable
Preset value
Predetermined value
Intermediate value
Wrap enable
Total units
Stop/go recovery mode
Log update time
Channel x.x totalizer tag
Scales (all channels)
Primary scale (high)
Primary scale (low)
Secondary scale (high)
Secondary scale (low)
Scale select source
1
0
None
None
Off
0
999999999.9
999999999.9
On
Blank
Last
Off
Total flow x.x
100
0
100
0
None
A4.1.4
I/O Modules
Relay modules (all sources)
Source
Polarity
Hybrid modules
Digital outputs
Source
Polarity
Analog outputs
Electrical range (low)
Electrical range (high)
Engineering range (low)
Engineering range (high)
Analog output source
A4.1.5
Functions
Custom Linearizers 1 and 2
X co-ordinates
None
Positive
None
Positive
4
20
0
100
None
0.0, 5.0, 10.0, 15.0,
20.0, 25.0, 30.0, 35.0,
40.0, 45.0, 50.0, 55.0,
60.0, 65.0, 70.0, 75.0,
80.0, 85.0, 90.0, 95.0,
100.0
As X co-ordinates Y co-ordinates
Real-time Alarms 1 to 4
X tag
Daily enables
(Sun, Mon, Tues etc.)
Monthly enable
Hourly enable
On hour
On minute
Duration (hours)
Duration (minutes)
Log enable
Real time alarm x
All false
False
False
0
0
0
0
False
A4.2.
QuickStart Templates
A4.2.1
QSMilliAmp
Bargraph
View enable
View markers
Menu enable
Max./min. reset
Process
Menu enables
Vertical
Max. and min. markers
True
Alarm acknowledge
Totalizer reset
Totalizer stop/go
View select
True
True
True
True
Digital indicator
View enable
Archiving
Data file enable
On
True
New file generation interval Hourly
Auto update enable True
98
A4.2.2
QSFlow
As A4.2.1 QSMilliAmp, except:
Analog inputs
Engineering range (high)
Engineering units
Totalizers
Count enable
Log update time
I/O modules
180
0
Up
1 hour
Analog output
Engineering range (high) 180
A4.2.3
QSTHC_C
As A4.2.1 QSMilliAmp, except:
Analog inputs
Type
Electrical range (high)
Electrical range (low)
Linearizer type
Engineering units
THC
0
0
Type K
°
C
A4.2.4
QSTHC_F
As A4.2.3 QSTHC_C, except engineering units set to
°
F
A4.2.5
QSRTD_C
As A4.2.3 QSTHC_C, except analog input type set to
PT100
A4.2.6
QSRTD_F
As A4.2.3 QSRTD_C, except analog input type set to
°
F
APPENDIX 4 – DEFAULT SETTINGS…
A4.2.7
QSDEMO
Operator messages
Message source ID
Message 1
Message 2
Message 3
Message 4
Chart View
Menu enables
Start of batch
End of batch
Standby mode active
Cleaning in progress
Message select
Scale select
True
True
Trace select True
Chart annotation select True
Bargraph View
View enable
View markers
Menu enables
Vertical and horizontal
Max. min. and alarms
True
True
Message select
Max./min. reset
Process View
View enable
View select
Menu enable
Message select
Alarm acknowledge
Totalizer reset
Totalizer stop/go
View select
Digital Indicator View
View enable
Menu enable
Message select
Archiving
On
Statistics
True
True
True
True
True
On
True
Data file enable True
Alarm event log file enable True
Totalizer log file enable
Audit log file enable
True
True
New file generation interval Hourly
Auto update enable True
Alarms
Source indentifier ch1.6
Alarm 1.1A
Analog inputs
Type
Electrical range (high)
Electrical range (low)
Engineering units
Ch1.1
Ch1.2
Ch1.3
Simulated sine wave
0
0
°
C
Bar
Gal/h
Litres
°
F
Ch1.4
Ch1.5
Analog input short tags
A1
A2
A3
A4
A5
Temp 1
Pressure
In flow
Volume
Temp 2
99
…APPENDIX 4 – DEFAULT SETTINGS
…A4.2.7
QSDEMO
Digital channel
Long tag
Short tag
On tag
Off tag
Alarms
Alarm 1.1A type
Totalizer
Count enable
Log update time
Real-time events
Daily enables
(Mon, Tues, Wed etc.)
Every hour
Duration (minutes)
Log enable
Valve status
Valve
Open
Close
High process
Up
1 hour
All true
True
10
True
A4.2.8
QSDAIRY
Inputs
Type
Linearizer type
Linearizer units
Engineering range (high)
Engineering range (low)
Analog input short tags
Ch1.1
Ch1.2
Analog input long tags
Ch1.1
Ch1.2
Broken sensor protection drive
Fault detection level
Filter
Alarms
Acknowledgement type
Global acknowledgement source
Alarm type
RTD
Pt100
°
C
90
°
C
–10
°
C
Tank
Return
Tank Temperature
Return Temperature
Upscale
10%
0 sec
None
None
Delayed high/low process
Trip level
Alarm 1.1A
Alarm 1.1B
Hysteresis
Alarm 1.1A
Alarm 1.1B
Delay
Alarm 1.1A
10
12
0.5
10
12
°
°
°
°
°
C
C
C
C
C
Alarm 1.1B
Enable source
Alarm 1.1A
Alarm 1.1B
Log enable
Relays
Source
Relay C1
7200 sec
1200 sec
Digital I/P C1
Digital I/P C2
On
Relay C2
Relay C3
Polarity
Vertical chart view
Logic equation 1
None
None
+ve
Screen interval
Primary sample rate
2 days/screen
1 minute
Archiving
New file generation interval Daily
File types enabled Data file; Audit log file;
Alarm event log file
Logic equations
Logic equation 1
All other logic equations
Alarm state 1.1B
and !Digital I/P C1 or
Alarm state 1.1A
Off
100
APPENDIX 5 – SPARE PARTS & ACCESSORIES
Media Door Keys
GR2000/0725
Panel Clamp
GR2000/0723
Voltage Divider Board
GR2000/0375
(inc. 250
Ω
shunt GR2000/0377)
SmartMedia Card
64Mb B11862
128Mb B11863
Compact Flash Card
64Mb B11866
128Mb B11867
SmartMedia to 3
1
/
2
inch Floppy Disk Drive Adapter
B11826
USB SmartMedia Card Reader
B12027
USB Compact Flash Card Reader
B12028
Parallel Port Compact Flash Card Reader
B11827
Documentation Pack
User Guide (this manual)
Quick Reference Guide
End User Licence Agreement
IM/SM2000
IM/SM2000–Q
IM/SM2000–L
101
…APPENDIX 5 – SPARE PARTS & ACCESSORIES
20-way Terminal Block
for analog input modules for other modules
GR2000/0726
GR2000/0727
8-way Terminal Block
GR2000/0728
Instrument to Panel Seal
PR100/0186
Terminal Compartment
GR2000/0716
Removeable Media Options
(in place of existing option, if fitted) for instruments manufactured before April 2002:
Compact Flash upgrade pack
SmartMedia upgrade pack
GR2000/0700
GR2000/0702 for instruments manufactured after April 2002:
Compact Flash upgrade pack GR2000/1700
SmartMedia upgrade pack GR2000/1702
Optional I/O Boards
(Max. 4, including factory fitted option boards – see Fig. 5.5 for possible combinations)
3-Relay board upgrade pack
6-Relay board upgrade pack
Hybrid I/O board upgrade pack
Transmitter PSU board upgrade pack
GR2000/0703
GR2000/0704
GR2000/0705
GR2000/0706
6-Channel analog I/P board upgrade pack GR2000/0708
Ethernet board upgrade pack GR2000/0722
102
APPENDIX 6 – ERROR & DIAGNOSTICS INFORMATION
E r r o r M e s s a g e
" T f o l h e d e r s y
.
s t e m
P l e a s e h a s n o t r e i n s e r t if n i s h e t h e s d t o u p d a r a g e t i n g c a r d t h e f li e n o w .
s i n t h e s t o
W A R N I N G : r a g e
F a c a li u r e r d t o d o s o m a y r e s u l t i n l o s t d a t a o n t h e s t o r a g e c a r d .
" t
R e i n s e r t h e e r r o r t h e s t o r a m e s s a g e .
g e c a r d
A c t i o i m m e d i a t e l y n a n d p r e s s t h e E n t e r k e y t o c l e a r
"
" s y c
W a s t r o d u e l d m f o l y d o e r u c a n il k e u s e w i ll t i b e h t ?
e s
W y s
A t
R e m
N e r a s e d !
"
I N t o
G : f o r m a t
I f y o u t h e s e l e s t o r a g e c t Y e s , a c a ll r d f li e s f o l d e r o n t h s o e t h a t t h e s t o r a g e
T h e
X X M b s t o o f r a g u s e a b c a r d l e f o l d e s p a c e " r h a s b e e n s u c e s s f u ll y f o r m a t t e d .
I t c o n t a i n s
I f t h e c a r d i s b e il e v e d t o b e f o r m a t t e d c o r r e c t l y , M e n u k e y t o c a n c e l p r e s s t h f o r m a e E n t t t i n e r g .
k e y
R e t o m o f o v e r m t h e a t c a r d t h e c a a n r d .
d r e -
N o t e i n s e r t .
t h i s
I f t h e e r a s e s e r r o r a ll d a p t a e r s o n i s t s t h e c a r d .
p r e s s t h e
P r e s s E n t e r .
" A n e r r o r o c c u r e d w h li e f o r m a t t i n g t h e s t o r a g e c a r d f o l d e r "
T h e w h e u n n i t h t e r u n r e s i s s l o w l y a n d a p p a r e n t l y t h e n o u r e n d a r a r c h i v e c h i v e d d a r r o w a t a t o i s o n c a t c c h o n u p t i n u a ll y , e v e n
P r e s s a g a i n .
t h e
I f
E t h e n e t e r r r k o r e y p e r t o s i c l e s t s , a r t t r y h e a m n o e s s t h e r a c g e a r b d .
o x .
R e m o v e t h e c a r d a n d t r y f
I f a t h e v e r e r y l a r m o v e g e a b l n e u m b e r m e d i a o f c a f li e s r d , s
( > o
5 0 m e
0 ) d e e x i s t l a y i m n a t h e y b e
S M 2 0 0 0 e x p e r i e d i r e n c e d c t o r y d u r i n o g n a o r r c h m i v a t i n g .
t h e
I n c s u c a r d .
h c i r c u m s t a n c e s i t i s a d v i s a b l e t o b a c k u p t h e d a t a a n d
103
INDEX
A
Advanced Configuration .................................... 36, 43, 56
Alarm Event Log .............................................................. 17
Archiving .................................................................... 56
Log Size .................................................................... 47
Alarm View ...................................................................... 16
Alarms ............................... 5, 6, 17, 65 to 67, 68, 69, 70
Acknowledging .......................... 9, 11, 14, 16, 18, 43
Alarm States .............................................................. 90
Annunciate ................................................................ 66
Delayed Process ........................................................ 67
Deviation .................................................................... 66
Displaying Current ...................................................... 15
Event Log .................................................................. 17
Groups ...................................................................... 70
Hysteresis ........................................................... 68, 69
Real Time .................................................................. 80
Tag ............................................................................ 68
Time Hysteresis ......................................................... 68
Trip Level ................................................................... 68
Analog
Inputs ................................................... 62, 75, 76, 85
Volt free digital input ...................................... 62, 64
Recording Channel Set Up ........................................ 62
Analog Input Connections ............................................... 85
Analog Input Fail States ................................................... 89
Archiving
Backing-up Archived Data ......................................... 35
Binary Format Archive Files ........................................ 32
Binary Format Channel Data Files .............................. 32
Daylight Saving .................................................... 32
Binary Format Data Verification and Integrity .............. 32
Binary Format Log files .............................................. 32
DataManager ............................................................. 44
File Enables ............................................................... 56
File Format Selection ................................................. 57
Filenames ........................................................... 32, 56
Log Files .................................................................... 32
Media Off-Line .................................................... 24, 35
Media On-Line .................................................... 24, 35
Media Status ............................................................. 26
Memory Used/Time Remaining .................................. 22
Re-archiving ............................................................... 24
Reset ......................................................................... 24
Sample Rate Setting .................................................. 56
Sample Rates ............................................................ 56
Storage Capacity ................................................ 95, 96
Text Format Archive Files ........................................... 28
Text Format Channel Data Files ........................... 28, 29
Daylight Saving ............................................. 29, 30
Text Format Log files .................................................. 30
Text Formatted Data Verification and integrity ............. 30
Triggers ...................................................................... 58
Updates ..................................................................... 35
Audit Log ......................................................................... 21
Archive File Enable ..................................................... 56
Log Size .................................................................... 47
Autoscroll .......................................................................... 9
Average Filters ................................................................. 60
B
Bargraph Views ............................................................... 10
Configuration ............................................................. 53
Basic Configuration .................................................. 36, 43
Binary Format Archive Files .............................................. 32
Broken Sensor Direction .................................................. 64
C
Channel Data
Archiving .................................................................... 24
Reviewing .................................................................... 6
Channel Tag .................................................................... 64
Channel Tags ................................................................... 63
Chart
Annotation ................................................................... 8
AutoView Scroll ....................................... 9, 11, 14, 16
Divisions .................................................................... 51
Range .......................................................................... 9
Select .......................................................................... 9
Traces
Color .................................................................... 59
Chart View ......................................................................... 5
Configuration ............................................................. 51
Enable ....................................................................... 51
Scales ........................................................................ 74
Configuration ................................................................... 36
Access ............................................................... 36, 37
Archiving .................................................................... 56
Common ............................................................ 43, 97
Data Entry Dialog Boxes ............................................ 41
Functions ............................................................ 79, 98
I/O Modules ........................................................ 75, 98
Internal Switch Protection .......................................... 36
Overview .................................................................... 39
Password .................................................................. 46
Password Protection .................................................. 36
Process Groups .................................................. 43, 97
QuickStart Templates ................................................. 98
Recording Channels ........................................... 58, 97
Saving ....................................................................... 42
Security ..................................................................... 36
Using a Previously Saved Configuration ..................... 37
Custom Linearizers .......................................................... 79
104
INDEX…
D
Data Entry Dialog Boxes .................................................. 41
Date and Time ................................................................. 44
Daylight Saving ......................................................... 44, 45
DataManager ............................................................. 44
Digital
Input Tags .................................................................. 64
Inputs ........................................................................ 64
Volt free digital input ...................................... 62, 64
Digital I/O States .............................................................. 90
Digital Indicator View ....................................................... 12
Configuration ............................................................. 55
Digital Input ..................................................................... 87
Configuration ............................................................. 64
Digital Output Connections .............................................. 87
Digital Signatures ...................................................... 28, 30
Disable Recording
During Configuration .................................................. 37
Displays
Overview ...................................................................... 4
Duration.
See Real Time Alarms
E
E-mail .............................................................................. 78
See also Ethernet Communications Option Manual,
IM/SMENET
Editing a Configuration .................................................... 37
Electrical Ranges ...................................................... 62, 78
Engineering Ranges .................................................. 63, 78
Error Messages ............................................................. 103
Ethernet .......................................................................... 78
See also Ethernet Communications Option Manual,
IM/SMENET
Events.
See Alarms: Event Log
Exporting Channel Data ................................................... 30
Saving a Configuration to ........................................... 42
External Media
Inserting and Removing ............................................. 27
Status Icons ............................................................... 26
Storage Capacity ....................................................... 95
F
Fast/Slow Rate Alarms .................................................... 66
Fault Detection Level ....................................................... 64
File Enables.
See Archiving: File Enables
File Viewer ....................................................................... 25
Filenames.
See Archiving: Filenames
Filter Time Constant ........................................................ 64
Filter Type ........................................................................ 60
Filtering Log Entries .................................................. 18, 20
Functions ........................................................................ 79
G
Global Alarm Acknowledgement.
See Alarms:
Acknowledging
Goto .................................................................................. 7
Group Tags.
See Tags: Process Groups
I
H
High/Low Annunciate Alarms ........................................... 66
High/Low Latch Alarms ................................................... 65
High/Low Process Alarms ............................................... 65
Historical Review Mode ..................................................... 6
Hybrid I/O Modules ......................................................... 77
Electrical Connections ............................................... 87
I/O Modules ............................................................ 75 to 78
Input Adjustment ............................................................. 75
Input Type ....................................................................... 62
Instantaneous Filters ........................................................ 60
Instrument Status View .................................................... 22
Instrument Tag ................................................................. 43
Intermediate Count .......................................................... 72
Internal Storage Capacity ................................................ 94
L
Language ........................................................................ 43
Linearizer ......................................................................... 79
Log Update Source ......................................................... 72
Log Update Time ............................................................ 72
Logs ................................................................ 17 to 22, 47
Long Tag ......................................................................... 63
M
Mains Rejection Frequency .............................................. 75
Major and Minor Chart Divisions ...................................... 51
Max/Min Filters ................................................................ 60
Maximum & Minimum Values
Bargraph View .................................................... 11, 53
Reset Enable ........................................................ 53
Process View ............................................................. 15
Totalizer Log View ...................................................... 19
Maximum Filters .............................................................. 60
Media Status.
See External Media: Status Icons
Minimum Filters ............................................................... 60
Modbus ........................................................................... 48
Commands ................................................................ 89
Exception Responses ................................................ 89
N
Number of Process Groups ............................................. 43
O
Off-Line ........................................................................... 24
Offset Adjust .................................................................... 76
On Time.
See Real Time Alarms
On-Line ........................................................................... 24
Operator Messages .................................................. 47, 90
105
…INDEX
P
Parameters
Changing .......................................................... 40 to 43
Passwords ............................................................... 37, 46
Power Supplies ............................................................... 87
Predetermined Count ...................................................... 72
Preset Count ................................................................... 72
Primary/Secondary
Archiving Sample Rates ............................................. 56
Channel Sample Rates ................................ 50, 56, 61
Scale Ranges ............................................................ 74
Process View ................................................................... 15
Configuration ............................................................. 54
Tag ............................................................................ 64
Q
QuickStart Templates ...................................................... 98
R
Rate Alarms ..................................................................... 66
Rate Filter ........................................................................ 69
Real Time Alarms ............................................................ 80
Recording Channel
Configuration ............................................................. 58
Relay Connections .......................................................... 87
Reset Source ................................................................... 72
Resistance Thermometer (RTD) ....................................... 85
RS485 Communications ........................................... 48, 86
S
Sample Rates ........................................................... 50, 61
Saving
Channel Data.
See Archiving
Configuration ............................................................. 42
Scales ............................................................................. 74
Screen Interval ................................................................... 8
Security ........................................................................... 46
Security Switch ................................................................ 36
Set Up
Level .......................................................................... 23
Password .................................................................. 46
Short Tag ......................................................................... 63
Signal Sources ................................................................ 88
Simulated Inputs .............................................................. 62
Slow Rate Alarms ............................................................ 66
SmartMedia Handling and Care ....................................... 26
Span Adjust ..................................................................... 76
Statistics View ................................................................. 16
Status View ..................................................................... 22
Storage Media ................................................... 26, 95, 96
T
Tags
Alarm Tags ................................................................. 68
Instrument ................................................................. 43
Long .......................................................................... 63
Process Groups ......................................................... 49
Short ......................................................................... 63
Totalizer ..................................................................... 71
Text Format Archive Files ................................................. 28
Thermocouple ................................................................. 85
Time Hysteresis ........................................................ 67, 68
Totalizers
Configuration ............................................................. 71
Cutoff ........................................................................ 73
Digital Signals ............................................................ 91
Log ............................................................................ 19
Log Size .................................................................... 47
Resetting ............................................................ 14, 16
Stopping & Starting ............................................. 14, 16
Tag ............................................................................ 71
Wrap .......................................................................... 71
Trace Color ...................................................................... 59
Transmitter Power Supply ................................................ 85
U
User Name ...................................................................... 46
W
Wrap.
See Totalizers: Wrap
106
PRODUCTS & CUSTOMER SUPPORT
Products
Automation Systems
• for the following industries:
– Chemical & Pharmaceutical
– Food & Beverage
– Manufacturing
– Metals and Minerals
– Oil, Gas & Petrochemical
– Pulp and Paper
Drives and Motors
• AC and DC Drives, AC and DC Machines, AC Motors to 1kV
• Drive Systems
• Force Measurement
• Servo Drives
Controllers & Recorders
• Single and Multi-loop Controllers
• Circular Chart , Strip Chart and Paperless Recorders
• Paperless Recorders
• Process Indicators
Flexible Automation
• Industrial Robots and Robot Systems
Flow Measurement
• Electromagnetic Magnetic Flowmeters
• Mass Flow Meters
• Turbine Flowmeters
• Wedge Flow Elements
Marine Systems & Turbochargers
• Electrical Systems
• Marine Equipment
• Offshore Retrofit and Refurbishment
Process Analytics
• Process Gas Analysis
• Systems Integration
Transmitters
• Pressure
• Temperature
• Level
• Interface Modules
Valves, Actuators and Positioners
• Control Valves
• Actuators
• Positioners
Water, Gas & Industrial Analytics Instrumentation
• pH, conductivity, and dissolved oxygen transmitters and sensors
• ammonia, nitrate, phosphate, silica, sodium, chloride, fluoride, dissolved oxygen and hydrazine analyzers.
• Zirconia oxygen analyzers, katharometers, hydrogen purity and purge-gas monitors, thermal conductivity.
Customer Support
We provide a comprehensive after sales service via a Worldwide
Service Organization. Contact one of the following offices for details on your nearest Service and Repair Centre.
United Kingdom
ABB Limited
Tel: +44 (0)1480 475 321
Fax: +44 (0)1480 470 787
United States of America
ABB Inc.
Tel: +1 215 674 6000
Fax: +1 215 674 7183
Client Warranty
Prior to installation, the equipment referred to in this manual must be stored in a clean, dry environment, in accordance with the
Company's published specification. Periodic checks must be made on the equipment's condition.
In the event of a failure under warranty, the following documentation must be provided as substantiation:
1. A listing evidencing process operation and alarm logs at time of failure.
2. Copies of operating and maintenance records relating to the alleged faulty unit.
Alarm Event Icons
Inactive Active
High Process Alarm
Low Process Alarm
Delayed High Process Alarm
Delayed Low Process Alarm
High Latch Alarm
Low Latch Alarm
Fast Rate Alarm
Slow Rate Alarm
High Annunciate Alarm
Low Annunicate Alarm
Real Time Alarm
Daylight Saving Start/End Changed
Alarm Acknowledged
Operator Message
SYMBOLS AND ICONS
Process Group Name
Process Group 1
Process Group 1 Configuration
Process Group 2 Configuration
Channel 1.1 to 1.6 Configuration
Channel 2.1 to 2.6 Configuration
Common Configuration
Functions Configuration
I/O Module Configuration
28/03/00
14:52:00
Status Icons
Historical Review Active
Archive media on-line
(green icon – shaded area indicates % used)
Archive media off-line
(grey shaded area indicates % used)
Media update in progress
DO NOT REMOVE MEDIA WHILE THIS
SYMBOL IS DISPLAYED
Media 100% full archiving stopped
Alarm(s) active. Red flashing border indicates unacknowledged alarm(s) active
Autoview scroll active
Totalizer Icons
Totalizer Started
Totalizer Stopped
Totalizer Wrapped
Totalizer Reset
Intermediate Value Reached
Timed Event
Triggered Event
Power Failed
Power Restored
Batch Total
Maximum Value
Minimum Value
Average Value
Daylight Saving Start/End Changed
Audit Log Icons
Power Failed
Power Restored
Calibration Change
Configuration Change
File Created
File Deleted
Archive Media Inserted
Archive Media Removed
Archive Media Off-line
Archive Media On-line
Archive Media Full
System Error/Reset Archiving
Date/Time or Daylight Saving
Start/End Changed
FTP Logon
PRODUCTS & CUSTOMER SUPPORT
Products
Automation Systems
• for the following industries:
– Chemical & Pharmaceutical
– Food & Beverage
– Manufacturing
– Metals and Minerals
– Oil, Gas & Petrochemical
– Pulp and Paper
Drives and Motors
• AC and DC Drives, AC and DC Machines, AC
M otors to 1kV
• Drive S ystems
• Force Measurement
• Servo Drives
Controllers & Recorders
• Single and Multi-loop Controllers
• Circular Chart , Strip Chart and Paperless Recorders
• Paperless Recorders
• Process Indicators
Flexible Automation
• Industrial Robots and Robot Systems
Flow Measurement
• Electromagnetic Magnetic Flowmeters
• Mass Flow Meters
• Turbine Flowmeters
• Wedge Flow Elements
Marine Systems & Turbochargers
• Electrical Systems
• Marine Equipment
• Offshore Retrofit and Refurbishment
Process Analytics
• Process Gas Analysis
• Systems Integration
Transmitters
• Pressure
• Temperature
• Level
• Interface Modules
Valves, Actuators and Positioners
• Control Valves
• Actuators
• Positioners
Water, Gas & Industrial Analytics Instrumentation
• pH, conductivity, and dissolved oxygen transmitters and sensors
• ammonia, nitrate, phosphate, silica, sodium, chloride, fluoride, dissolved oxygen and hydrazine analyzers.
• Zirconia oxygen analyzers, katharometers, hydrogen purity and purge-gas monitors, thermal conductivity.
Customer Support
We provide a comprehensive after sales service via a Worldwide
Service Organization. Contact one of the following offices for details on your nearest Service and Repair Centre.
United Kingdom
ABB Limited
Tel: +44 (0)1480 475 321
Fax: +44 (0)1480 470 787
United States of America
ABB Inc.
Tel: +1 215 674 6000
Fax: +1 215 674 7183
Client Warranty
Prior to installation, the equipment referred to in this manual must be stored in a clean, dry environment, in accordance with the
Company's published specification. Periodic checks must be made on the equipment's condition.
In the event of a failure under warranty, the following documentation must be provided as substantiation:
1. A listing evidencing process operation and alarm logs at time of failure.
2. Copies of operating and maintenance records relating to the alleged faulty unit.
SYMBOLS AND ICONS
Process Group Name
Process Group 1
Process Group 1 Configuration
Process Group 2 Configuration
Channel 1.1 to 1.6 Configuration
Channel 2.1 to 2.6 Configuration
Common Configuration
Functions Configuration
I/O Module Configuration
28/03/00
14:52:00
Status Icons
Historical Review Active
Archive media on-line
(green icon – shaded area indicates % used)
Archive media off-line
(grey shaded area indicates % used)
Media update in progress
DO NOT REMOVE MEDIA WHILE THIS
SYMBOL IS DISPLAYED
Media 100% full archiving stopped
Alarm(s) active. Red flashing border indicates unacknowledged alarm(s) active
Autoview scroll active
Alarm Event Icons
High Process Alarm
Low Process Alarm
High Latch Alarm
Low Latch Alarm
Fast Rate Alarm
Slow Rate Alarm
High Annunciate Alarm
Low Annunicate Alarm
Operator Message
Real Time Alarm
Totalizer Icons
Totalizer Started
Totalizer Stopped
Totalizer Wrapped
Totalizer Reset
Intermediate Value Reached
Timed Event
Triggered Event
Power Failed
Power Restored
Totalizer Total
Maximum Rate
Minimum Rate
Average Rate
Audit Log Icons
Power Failed
Power Restored
Calibration Change
Configuration Change
File Created
Media Inserted
Media Removed
System Alarm
Date/time or Daylight Saving
Start/End Changed
File Deleted
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ABB has Sales & Customer Support expertise in over 100 countries worldwide www.abb.com
ABB Limited
Howard Road, St. Neots
Cambridgeshire, PE19 8EU
UK
Tel: +44 (0)1480 475 321
Fax: +44 (0)1480 217 948
ABB Inc.
125 E. County Line Road
Warminster, PA 18974
USA
Tel: +1 215 674 6000
Fax: +1 215 674 7183
The Company’s policy is one of continuous product improvement and the right is reserved to modify the information contained herein without notice.
Printed in UK (
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© ABB 200
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