SUN DGA 2500 Diagnostic Gas Analyser Operator’s Manual
The SUN® DGA 2500 is a versatile, high-performance PC-based test instrument for the analysis of motor vehicle exhaust gases. The unit is designed to meet the performance requirements of OIML Class 1 and 0 and ISO 3930. The DGA 2500 forms part of the SUN® Diagnostic Platform System.
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Diagnostic Gas Analyser
Operator’s Manual
Operator’s Manual
Software Version V 2.1.0.14
Models: EEEA132
Diagnostic Gas Analyser
Copyright 2002 Snap-on UK Holdings Ltd.
All rights reserved
Part number : ZEEEAGB132A
PCN : 02 E 0293
Doc. No.: ZEEEAGB132A Operator’s Manual Rev.: C
Rev.:C
i
Doc. No.: ZEEEAGB132A Operator’s Manual Rev.: C ii
DISCLAIMER OF WARRANTIES AND
LIMITATIONS OF LIABILITIES
Whilst the authors have taken due care in the preparation of this manual, nothing contained herein:
• modifies or alters in any way the standard terms and conditions of the purchase, lease or rental agreement under the terms of which the equipment to which this manual relates was acquired,
• increases in any way the liability to the customer or to third parties.
TO THE READER
Whilst every effort has been made to ensure that the information contained in this manual is correct, complete and up-to date, the right to change any part of this document at any time without prior notice is reserved.
ä
Before installing, maintaining or operating this unit, please read this manual carefully, paying extra attention to the safety warnings and precautions.
a
Copyright 2002 Snap-on UK Holdings Ltd
All Rights Reserved
Sun Electric Europe B.V.
Spaklerweg 69
1099 BB Amsterdam
The Netherlands
Tel: +31.20.5682.622
Fax: +31.20.6947.962
Web-site: http://www.Sun-diagnostics.com
Doc. No.: ZEEEAGB132A Operator’s Manual Rev.: C iii
iv DGA 2500 2002 - 11
Table of Contents
Table of Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1
Notes on User Documentation . . . . . . . . . . . . . . . . . . . .5
1 Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
Read all Instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
2 Product Specification . . . . . . . . . . . . . . . . . . . . . . . . . . .9
Propane Equivilance Factor . . . . . . . . . . . . . . . . . . . . . . . . 10
3 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
3.1
The DGA 2500 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
4 Functional Description . . . . . . . . . . . . . . . . . . . . . . . . .15
Platform Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Gas Module Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Common Program Elements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
Gas Analyser Icons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
5 System and Gas Analyser General Screens . . . . . . . .21
Gas Analyser Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
The Gas Analyser System Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
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Gas Analyser Maintenance Menu . . . . . . . . . . . . . . . . . . . . . . . . . . .25
Gas Analyser System Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . .26
Gas Analyser System Information . . . . . . . . . . . . . . . . . . . . . . . . . .28
6 Preparatory Steps . . . . . . . . . . . . . . . . . . . . . . . . . . . . .31
Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .31
Power Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .31
Data Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .31
Gas Module Pneumatic Connections . . . . . . . . . . . . . . . . .32
Power Up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .32
Gas Analyser Start-up . . . . . . . . . . . . . . . . . . . . . . . . . . . . .33
Warm up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .33
Zero-calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .34
Daily Leak Check . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35
HC Residue Check . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .36
Fuel Type Selection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .37
Speed Factor Setting . . . . . . . . . . . . . . . . . . . . . . . . . . . . .37
Lambda/AFR Selection . . . . . . . . . . . . . . . . . . . . . . . . . . . .37
Vehicle Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .38
RPM Pick-Up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .38
Oil Temperature Probe . . . . . . . . . . . . . . . . . . . . . . . . . . . .38
7 Operation — General . . . . . . . . . . . . . . . . . . . . . . . . . .39
Measurement Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .40
Shut Down Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .41
8 Operation – The Free Measurement Procedure . . . . .43
The Free Measurement Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . .44
Free Measurement Vehicle Setup . . . . . . . . . . . . . . . . . . . . . . . . . .46
Saving and Loading Vehicle Setups . . . . . . . . . . . . . . . . . . . . . . . . .48
Editing Limit Sets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .49
Free Measurement Test Procedure . . . . . . . . . . . . . . . . . . . . . . . . .50
Storing Data in the Data Buffers . . . . . . . . . . . . . . . . . . . . . . . . . . . .51
The Print Preview Window . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .54
2 DGA 2500 2002 - 11
Printing Test Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
9 Operation – The SUN EEC Test Procedure . . . . . . . . .57
SUN EEC Test Vehicle Set-up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58
Editing Limit Sets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61
Saving and Loading Vehicle Set-ups . . . . . . . . . . . . . . . . . . . . . . . . 62
Test Procedure Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
Initialization Phase . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65
Fast Idle Preconditioning Phase . . . . . . . . . . . . . . . . . . . . . . . . . . . 66
Fast Idle Measurement Phase . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70
Normal Idle Preconditioning Phase . . . . . . . . . . . . . . . . . . . . . . . . . 72
Normal Idle Measurement Phase . . . . . . . . . . . . . . . . . . . . . . . . . . . 74
Results Phase . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 78
10 Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .81
System Checks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81
Leak Check (Vacuum) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81
Leak Check (Gas) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 84
Gas Calibration Check . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87
Check and/or Install the O2 Cell . . . . . . . . . . . . . . . . . . . . . . . . . . . 88
Routine Maintenance Procedures . . . . . . . . . . . . . . . . . . . . . . . . . . 92
10.6.1 Periodic Checks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 92
10.6.2 Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 92
10.6.3 Sample Probe and Hose . . . . . . . . . . . . . . . . . . . . . . . . . . 93
10.6.4 Test Leads . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94
10.6.5 O2 Cell . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94
10.6.6 NO Cell (Optional) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94
10.6.7 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95
Error, Warning and System Status Messages . . . . . . . . . . . . . . . . . 95
10.7.1 Automatic Pop-up Windows . . . . . . . . . . . . . . . . . . . . . . . . 95
The Error/Warning Button . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97
Maintenance Parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100
Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .101
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4 DGA 2500 2002 - 11
Notes on User
Documentation
The DGA 2500 user documentation contains instructions for the safe operation and efficient use of the unit.
This important information is designed for the prevention of injury to the operator and/or other persons and for the avoidance of damage to the unit or vehicles connected thereto.
The user documentation comprises:
• The SUN
®
Diagnostic Platform Operator’s manual containing an introduction to the SUN
®
Diagnostic Platform system together with safety and operating instructions that are common to all system modules.
• The DGA 2500 Operator’s Manual describing the DGA 2500 module in detail and providing instructions for carrying out complete Free
Measurement and SUN ECC vehicle test procedures.
• The appropriate Operator’s Manual or Manuals relating to any jurisdiction specific test programs (e.g. MOT, AU etc.) that may be installed.
Whilst no documentation is supplied in printed form, this documentation is included on the CD-ROM and will be installed on the unit PC during the installation of the software.
To access the documentation:
• press F1 on the keyboard or the F1 or help button on the remote control.
or
• Click the “Help” button in the program toolbar.
Doc. No.: ZEEEAGB132A Operator’s Manual 5
C H A P T E R N
OTES ON
U
SER
D
OCUMENTATION
6 DGA 2500 2002 - 11
1
Safety
All Safety Precautions relevant to the unit are described in the Safety
Precautions book,
Figure 1-1
part number: EAZ0007E04A
The Safety Precautions book should be fully understood by every operator. We suggest that (a copy of) of the Safety Precautions book be stored near the unit, in sight of the operator.
The Operator’s Manual will contain specific warnings and cautions when possible dangerous situations may be encountered during the described procedures.
1.1 Safety Notice
Read this manual thoroughly before operating the unit.
The unit is intended for use by properly trained, skilled professional automotive technicians. The safety messages presented in the Safety
Precautions book and throughout this manual are reminders to the operator to exercise extreme care when using this unit.
There are many variations in procedures, techniques, tools, and parts for servicing vehicles, as well as in the skill of the individual doing the work.
Because of the vast number of test applications and variations in the
Doc. No.: ZEEEAGB132A Operator’s Manual 7
8
C H A P T E R 1 S
AFETY
products that can be tested with this instrument, we cannot possibly anticipate or provide advice or safety messages to cover every situation.
It is the automotive technician’s responsibility to be knowledgeable of the system being tested. It is essential to use proper service methods and test procedures and to perform tests in an appropriate and acceptable manner that does not endanger your safety, the safety of others in the work area, or vehicle or equipment being tested.
It is assumed the operator has a thorough understanding of vehicle systems before using the unit. Understanding of these system principles and operating theories is necessary for competent, safe and accurate use of this unit.
Before using the unit, always refer to and follow safety messages and applicable test procedures provided by the manufacturer of the vehicle or equipment being tested.
ä
Use equipment only as described in the manual.
1.1.1 Read all Instructions
Read, understand and follow all safety messages and instructions in the
Safety Precautions book, this manual and on the unit.
1.2 Conventions
This manual contains text styles that ask you to pay extra attention:
Note:
p
Suggestion or explaination.
Caution:
c
Stresses that the following action may cause damage to the unit or objects attached to it.
ä
Stresses that the following action may cause (severe) injury to the operator or others.
ä
The operator must have full knowledge of all information stated in the Operator’s Manual.
DGA 2500 2002 - 11
2
Product Specification
2.1 General
Refer to the SUN
®
Diagnostic Platform Operator’s Manual for details of the Power Supply ( 3.1: ‘Power Supply’ ) and Dimensions
( 3.2: ‘Dimensions’ ) of the Diagnostic Platform and for the Minimum PC
Specifications ( 3.3: ‘Minimum PC Specifications’ ).
2.2 Gas Bench
Table 2-1
Operation & Storage
Operating Conditions
Max. ambient temp.
+40 °C
Min. ambient temp.
+5 °C
Rel. humidity: up to 90%, non-condensing
Max atmospheric pressure variation
700 – 1100 mbar
Storage Conditions
Temperature:
Rel. humidity:
-20 to +55 °C
Up to 90%, non-condensing
Table 2-2
Measurements
Parameter
%vol CO:
%vol CO
2
:
Range/
Resolution
0.000 – 9.999
Accuracy: Relative/Absolute
±5%/±0.03*
10.00 –14.00
0.00 – 18.00
±5%/±0.5%*
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C H A P T E R 2 P
RODUCT
S
PECIFICATION
Table 2-2
Measurements
Parameter
ppmvol HC:
Range/
Resolution
0 – 2000
2000 – 5000
5000 – 9000
%vol O
2
: 0 – 25.00
ppmvol NO (option): 0 – 5000 rpm
°C:
°F:
0 – 9999
0 – 120
14 –302
Accuracy: Relative/Absolute
±5%/10ppm*
±5%/10ppm
±10%
±5%/±0.1*
±5%/25ppm (at room temperature)
±1.0%
Note:
p
*accuracy according to OIML Class 0
2.2.1 Propane Equivilance Factor
The P.E.F. value is 0.530.
10 DGA 2500 2002 - 11
3
Introduction
3.1 The DGA 2500
The SUN
®
DGA 2500 is a versatile, high-performance PC-based test instrument for the analysis of motor vehicle exhaust gases. The unit is designed to meet the performance requirements of OIML Class 1 and 0 and ISO 3930.
The basic configuration of the unit comprises:
- A gas analysis module containing a Siemens “Sibench” gas bench.
- A rpm/oil temperature module (ROTI) for the measurement of engine speed and oil temperature. The unit is supplied with a
Grey inductive pick-up (P/N EAX0048E03A; for use with conventional HT ignition systems) as standard equipment.
- An exhaust probe and hose assembly, used for the collection of the gas sample from the vehicle tailpipe.
The DGA 2500 forms part of the SUN
®
Diagnostic Platform System.
Refer to the SUN
®
Diagnostic Platform Operator’s Manual ( 2: ‘The SUN
Diagnostic Platform’ ) for an introduction to the system as a whole.
The addition of an optional USB to 4 x RS232 connector enables a smoke module, for testing diesel emissions, and a Portable Data Link, used to obtain information from the vehicle engine management system, to be connected to the system via the Gas Analyser. This connector can also be used for external communication with, for example, the customer’s central computer system.
Specific software versions will be available for performing the emissions tests specified by separate national or international jurisdictions.
Although this jurisdiction specific software may alter the DGA 2500 standard software described herein, this manual is also applicable to these specific programs when used in conjunction with the specific documentation relating to such programs.
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C H A P T E R 3 I
NTRODUCTION
With the standard software the unit is capable of measuring the concentrations of up to five gases in vehicle exhaust emissions:
- Carbon Monoxide, Carbon Dioxide and Hydrocarbons (CO, CO
2 and HC) by infra red absorption.
- Oxygen (O
2
) by an operator changeable electrochemical cell.
- Oxides of Nitrogen (NO) by electrochemical cell. The NO cell is optional and is NOT operator changeable.
In addition to the gas measurements the unit also displays:
- Lambda (
λ) according to Brettschneider.
- Engine speed (rpm) via the ROTI module. An inductive rpm pickup, to be placed on a secondary ignition cable, is supplied as standard equipment. A capacitive pick-up, for use on a primary or injector wire, and a primary ECU/RPM adapter, for connection to a square wave from the engine management system, are available as options, thus making the analyser suitable for conventional, wasted spark and direct ignition systems.
- Oil temperature via the ROTI module by means of an oil temperature probe substituted for the oil dipstick.
Note:
p
In cases where a Portable Data Link is connected to the analyser, rpm and oil temperature data will be obtained via the PDL.
CO corrigé (CO c
) may be displayed using a formula corrected for fuel type.
3.2 Maintenance
Details of the maintenance operations that should be carried out by the operator are included in this manual together with a list of operator service messages and a list of maintenance parts.
All maintenance operations, other than those specifically described in this manual, must be carried out by trained service personnel authorised by the manufacturer.
In particular, full gas calibrations must only be performed by a qualified representative of the manufacturer.
12 DGA 2500 2002 - 11
O
PTIONS
3.3 Options
The optional parts are available for the DGA 2500 are shown by the table.
Table 3-1
Options
Part No.
EAK0245E01A
EAK0245E02A
EAK0245E04A
EAX0048E06A
7009E9322-69
Description
Serial Interface Board Kit
NO Sensor Kit
PRIM/ECU rpm adaptor Kit
Capacitive rpm Pick-up Kit
Exhaust Probe Kit (High Temperature)
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C H A P T E R 3 I
NTRODUCTION
14 DGA 2500 2002 - 11
4
Functional Description
4.1 Platform Layout
Refer to the SUN
®
Diagnostic Platform Operator’s Manual ( 4.1: ‘General
Layout’ ) for details of the Diagnostic Platform general layout .
4.2 Gas Module Layout
1
2 3 4 5 6
7 8
9
10 11
12
18
17
16 15 14 13
Figure 4-1
The Gas Module - Rear Panel
1. 3 x USB connections (used for connection to ROTI module,Infa red reciever etc)
2. USB connection for PC interface
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C H A P T E R 4 F
UNCTIONAL
D
ESCRIPTION
3. 4 x RS232 connections (used for connection to Smoke Module,
Portable Data Link etc)
4. DC power output (for use with future options)
5. Clean air inlet (with charcoal filter (p/n 7096E9061-99) to filter incoming air)
6. Primary filter (p/n 7096E9062-98)
7. Calibration gas inlet (used for the supply of calibration gas to the unit)
8. Gas Filter (white, p/n 7096E9061-03)
9. Gas sample inlet (connection point for exhaust probe/sample hose assembly)
10. Water filter (blue, IDN-8G, p/n 7096E9061-02)
11. NO sensor (Behind cover plate; optional; p/n 7096E4060-20).
12. O
2
Sensor ( behind cover plate; p/n 7096E4060-31)
13. 115/230 V~ in (115/230 V~ from cabinet power distribution system)
14. Voltage selector switch (selects 115 V~ or 230 V~)
15. 115/230 V~ out (may be used as power supply for optional or other equipment)
16. NO outlet (gas sample outlet from NO sensor)
17. Water outlet (connect a tube to this outlet to drain water from the water removal system)
18. Gas sample outlet (outlet for gas sample from gas bench)
16 DGA 2500 2002 - 11
C
OMMON
P
ROGRAM
E
LEMENTS
4.3 Common Program Elements
For details of program elements that are common across the SUN
®
Diagnostic Platform system, refer to the following sections of the
Diagnostic Platform Operator’s Manual:
• For details of screen elements, refer to the Diagnotstic Platform
Manual 4.2: ‘Screen Elements’ .
• For details of buttons together with an illustrated guide to icons used in common by all system modules, refer to the Diagnostic Platform
Manual 4.3: ‘Buttons’ .
• For details of the use of drop-down menus, refer to the Diagnostic
Platform Manual 4.4: ‘Drop-down Menus’ .
• For details of Diagnostic Platform System Screens, refer to the
Diagnostic Platform Manual 5: ‘Diagnostic Platform System Screens’ .
• For details of controls and navigation, refer to the Diagnostic Platform
Manual 6.1: ‘Navigation’ .
4.4 Gas Analyser Icons
The toolbar and menu icons shown in the tables are specific to the Gas
Analyser.
Table 4-1
Gas Analyser Toolbar Icons
Icon Name Desription
Gas Analyser
Use this button to return to the Gas Analyser
Main Menu.
Vehicle Setup
Use this button to access the vehicle setup screens (see
8.2: ‘Free Measurement Vehicle
9.2: ‘SUN EEC Test Vehicle Set-up’ ).
Print Preview
Use this button to preview the data to be printed.
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18
C H A P T E R 4 F
UNCTIONAL
D
ESCRIPTION
Table 4-1
Gas Analyser Toolbar Icons
Icon Name Desription
Standby
Use this button to place the unit in standby mode.
Zerocalibration
Use this button to manually initiate a zerocalibration (see
Toggle Limits 1
Toggle Limits 2
Indicates that limit set 1 is currently applied; click to toggle to limit set 2; (see
Measurement Vehicle Setup’ and
Measurement Test Procedure’ ).
Indicates that limit set 2 is currently applied: click to toggle to limit set 1; (see
Measurement Vehicle Setup’ and
Measurement Test Procedure’ ).
Table 4-2
Gas Analyser Menu Icons
Icon Name Description
Free
Measurement
Selects the Free Measurement Program (see
8: ‘Operation – The Free Measurement
EU
Selects the EU test procedure (see
9: ‘Operation – The SUN EEC Test
1
Gas Analyser
System Setup
Selects the
DGA 2500 2002 - 11
G
AS
A
NALYSER
I
CONS
Table 4-2
Gas Analyser Menu Icons
Icon Name Description
Maintenance
Selects the
Setings
Selects the
Gas Analyser
System
Infomation
Selects Gas Analyser System Information
Gas analyser
Software
Update
Allows updated softwareto be loaded.
Currently disabled.
Initiates the
maintenance procedure.
Leak Check
(Vacuum)
Leak Check
(Gas)
Initiates the
procedure.
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C H A P T E R 4 F
UNCTIONAL
D
ESCRIPTION
Table 4-2
Gas Analyser Menu Icons
Icon Name Description
Gas Calibration
Check
Initiates the
maintenance procedure.
Check/install
O
2
Cell
Initiates the
Check and/or Install the O2 Cell
maintenance procedure.
1
If a specific national test procedure is installed on the unit, the EU icon button will be replaced by the button relating to that procedure.
20 DGA 2500 2002 - 11
5
System and Gas Analyser
General Screens
This Chapter contains:
• A description of the DGA 2500 Gas Analyser System Screens. Gas
Analyser System Screens are defined as being screens shown by the
DGA 2500 that do not relate to a specific test procedure. These
Screens comprise:
- The Gas Analyser Main Menu ( 5.1: ‘Gas Analyser Menu’ ).
- The Gas Analyser System Menu (
).
- The Gas Analyser Maintenance Menu (
- The Gas Analyser System Settings Screen (
- The Gas Analyser System Information Window (
Analyser System Information’ ).
• Details of the procedure to be followed in order to obtain a printout of
the DGA 2500 gas analysis test results ( 5.6: ‘Print’ ).
Descriptions of the SUN
®
Diagnostic Platfrom Startup and General
System Setup screens may be found in the Diagnostic Platform
Operator’s Manual ( 5.1: ‘The Diagnostic Platform Main Menu’ & 5.2: ‘The
General System Setup Screen’ ).
Doc. No.: ZEEEAGB132A Operator’s Manual 21
C H A P T E R 5 S
YSTEM AND
G
AS
A
NALYSER
G
ENERAL
S
CREENS
5.1 Gas Analyser Menu
.
22
Figure 5-1
The Gas Analyser Menu
• To access the Gas Analyser Menu , select the “Gas Analyser” option from The Diagnostic Platform Main Menu (see the SUN
®
Diagnostic
Platform Operator’s Manual 5.1: ‘The Diagnostic Platform Main
Menu’ ).
The following options may be selected:
- Free Measurement Procedure.
- SUN EEC Test Procedure.
- The Gas Analyser System Setup Menu.
Note:
p
If the DGA 2500 is configured to perform a country specific test procedure, the SUN EEC test procedure will not be available. In this case the “SUN EEC Test” button will be replaced by an icon button corresponding to the country specific test in question.
• The “Free Measurement” procedure.
The Free Measurement procedure continuously measures and displays the values for all available test parameters. Upper and lower limits for any or all of these parameters may be introduced as required. Refer to
8: ‘Operation – The Free Measurement
for further information.
• The “SUN EEC Test” procedure.
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The SUN EEC Procedure is based on the provisions of EU directives which specify a procedure to be followed in testing motor vehicle emissions and prescribes maximum default values for certain gas emissions and related parameters. Refer to
• The “System Setup” option.
The
The Gas Analyser System Menu allows operator maintenance
functions to be initiated, gas analyser system settings to be made, gas analyser system information to be consulted and updates to the gas analyser software to be loaded. Refer to
System Menu’ for further information.
• To return to the The Diagnostic Platform Main Menu , press the
“Home” icon button on the toolbar.
• To place the Gas Analyser in Standby Mode, press the “Standby” icon button on the toolbar.
Once the Gas Analyser is switched on, it should remain on for the whole working day, however, it is recommended that the unit should be put into Standby Mode when tests are not being performed. This will reduce waer and tear to the pump and increase the effecive life of the filters.
The unit will return to the normal operating mode when:
- The “Standby” button is pressed once more, or
- One of the Gas Analyser Main Menu option buttons (“Free
Measurement”, “SUN EEC Test” “Country Specific Test”, or
“System Setup”) is pressed.
On leaving the Standby Mode, a Zero-calibration (see 6.2.4
) will automatically be performed before the unit returns to normal operation.
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5.2 The Gas Analyser System Menu
24
Figure 5-2
The Gas Analyser System Menu
• To access the Gas Analyser System Menu , select the “System
Setup” option from the
(see
The Gas Analyser System Menu allows access to:
- The Gas Analyser Operator Maintenance Procedures.
- The Gas Analyser System Settings Screen.
- The Gas Analyser System Information Screen.
- The Gas Analyser Software Update Screen.
• To access the Gas Analyser Maintenance Menu , select the
“Maintenance” menu button.
The
Gas Analyser Maintenance Menu Screen will be displayed, via
which leak checks, gas calibration checks and O
2
sensor checks can
for a description of the Maintenance Menu
Screen and to Chapter
10: ‘Maintenance’ for details of the available
maintenance procedures.
• To access the Gas Analyser System Settings Screen, select the
“System Settings” option.
The System Settings Screen allows settings to be made affecting the operation of the gas Analyser. Refer to
• To reveal the
Gas Analyser System Information window, select the
“System Information” option.
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The System Information Pop-up Window provides details of gas calibration dates, software versions etc. Refer to
information.
• To access the Software Update Screen, select the “Update Software” option.
Details of the software update procedure will be supplied with the relevant software.
• Press “Back” or the “Gas Analyser” toolbar icon button to return to the
5.3 Gas Analyser Maintenance Menu
Figure 5-3
The Gas Analyser Maintenance Menu
• To access the Gas Analyser Maintenance Menu, select the
“Maintenance” option from the
(see
The Maintenance procedures that can be initiated from the Gas
Analyser Maintenance Menu are:
-
-
).
-
Gas Calibration Check (see 10.4
-
Check and/or Install the O2 Cell (see 10.5
• To initiate a
Leak Check (Vacuum) , select the “Leak Check (Vacuum)
option.
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• To initiate
, select the Leak Check (Gas) option.
• To initiate a
Gas Calibration Check , select the Gas Calibration Check
Option.
• To
Check and/or Install the O2 Cell , select the O
2
Sensor Check
Option.
Details of the procedures for these checks are to be found in
.
5.4 Gas Analyser System Settings
.
26
Figure 5-4
The Gas Analyser System Settings Screen
To access the Gas Analyser System Settings Screen, select the “System
Settings” option from the
The Gas Analyser System Menu (see 5.2
The Gas Analyser System Settings Screen comprises drop-down menus for the selection of:
- Lambda/AFR.
- Summertime On/Off.
- LPG composition.
• Use the “Summertime On/Off” drop-down menu to switch between
Summertime/Wintertime.
The Summertime/Wintertime information is required by the gas module for the calculation of daily leak check and gas calibration intervals.
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• Use the Lambda/AFR drop down menu to select either Lambda or Air
Fuel Ratio (AFR).
Depending on the selection, the unit will calculate and display either
Lambda or Air Fuel Ratio.
• Use the LPG Composition drop-down menu to specify the appropriate ratio of Butane (C
4
H
10
) to Propane (C
3
H
8
) in the LPG fuel used by the test vehicle.
The available range is from 100% Butane to 100% Propane in 10% increments. This information is required for the determination of the ratio of Hydrogen to Carbon present in the fuel, which information is, in turn, used for the accurate determination of Lamdba.
Note:
p
The composition of LPG fuel may vary from country to country. If the composition of the LPG fuel is not known, set the Butane/Propane ratio to 50%/50%. If the composition is known (e.g. LPG used in the United
Kingdom has a composition of 0% Butane/100% Propane), this ratio should be selected.
• Press “OK” to apply the settings made in the Gas Analyser System
Settings Screen and return to the
The Gas Analyser System Menu .
• Press “Cancel” to return to the
without applying any changes made in the Gas Analyser System
Settings Screen.
• Press the “Gas Analyser” toolbar button to return to the
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5.5 Gas Analyser System Information
Figure 5-5
The Gas Analyser System Information Window
• To open the Gas Analyser System Information Window, select the
“System Information” option from the The Gas Analyser System Menu
(see
The Gas Analyser System Information Window comprises six tabs:
- System Information (includes application versions, checksums etc.).
- Gas Tag Values (displays the composition of the gases used for gas calibration)
- Gas Settings (includes approval type, gas calibration interval, summertime on/off setting, daily leak check requirement etc.).
- Service Dates (shows the last and next calibration dates, last leak check date, date of sensor installation etc.)
- Factors (includes the applied PEF, NO gain and NO cell aging factors).
- File Versions (Lists the version numbers of .dll and .exe files in the DGA software)
28 DGA 2500 2002 - 11
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5.6 Print
Figure 5-6
The “Notes” Dialog Box 1
Note:
p
The DGA 2500 uses the same “Print” procedure to provide a printout of all gas analyser test results. The following description is, therefore, applicable irrespecive of whether the Free Measurement, SUN EEC or
Country Specific test procedure is employed.
• Open the “Notes” dialog box:
- By pressing the “Print” toolbar icon button, or
- By pressing the “Print” text button in the The Print Preview
Window (Free Measurement procedure only (see 8.7
The “Notes” dialog box will be displayed. The vehicle identification information headings, entered via the “Printout Footer” box of the The
General System Setup Screen (see the Diagnostic Platform
Operator’s Manual 5.2: ‘The General System Setup Screen’ ), will be shown in the left-hand text box.
• Enter the vehicle identification information for the test vehicle in the right-hand text box, opposite the appropriate heading.
Figure 5-7
The “Notes” Dialog Box 2
• Press “OK” to make a printout of the test results.
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A typical sample results printout is illustrated below..
• Press “Cancel” to abort the print instruction and return to the test procedure.
Note:
p
Calculated values will be shown for either Lambda or AFR depending on
the setting made in the Gas Analyser System Settings Screen (see 5.4
Note:
p
Although the printout format allows all test parameters to be shown, numerical values will only be shown for the limit values applied and test results obtained during the current test. Fields for which no data is available will show a series of dashes.
Figure 5-8
Sample Printout
30 DGA 2500 2002 - 11
6
Preparatory Steps
6.1 Connections
Warning:
ä
For your own and other people’s safety the DGA 2500 must only be used in a well ventilated clean air environment
6.1.1 Power Connections
Caution:
c
Before making any power connections ensure that the mains power switch is set to “off” and that the mains voltage selector switch is set to correspond with the local mains supply voltage.
Power is supplied to the Gas analyser from the SUN
®
Diagnostic
Platform electrical distribution block via an electrical input socket located on the rear panel of the Gas Module (see
6.1.2 Data Connections
Communication between the PC. Gas Module, ROTI module and infra red Remote Control Receiver takes place via the USB (Universal Serial
Bus) connectors located on the Gas Module rear panel (see
An optional USB to 4 x RS232 connector may be installed in the Gas
Module allowing for communication with optional ancillary equipment
(Smoke Meter, Portable Data Link Etc.). Connection details for such optional ancillary equipment will be found in the relevant documentation that will be supplied together with the equipment.
• Connect the PC USB port to the Gas module via the USB P.C. interface connector on the Gas Module rear panel.
The P.C. interface is marked with the letter “E” on the Gas Module rear panel.
• Connect the ROTI Module and Remote Control Receiver to the USB connectors on the Gas Module rear panel.
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The USB connectors are marked with the letters “F”, “G” and “H” on the Gas Module rear panel. Connect the ROTI Module to “G” and the
Remote Control Receiver to “F”.
Note:
p
If the DGA 2500 is used in conjunction with a Portable Data Link
(Scanner), the unit will derive rpm and oil temperature data direct from the test vehicle engine management system via the PDL. In this case the use of the ROTI Module is unnecessary.
• Connect the Printer, Mouse and Keyboard to the P.C. Printer, Mouse and Keyboard ports.
6.1.3 Gas Module Pneumatic Connections
• Connect the Exhaust Sample Probe and Hose to the Gas Sample
Inlet on the Gas Module rear panel.
Note:
p
Do not insert the Sample Probe into the vehicle exhaust tailpipe at this stage.
6.2 Start-Up
6.2.1 Power Up
• Set the Main, PC and Gas Module power switches to “On”.
The PC will load the Windows Operating System. After a short interval the Windows desk-top will be displayed.
Note:
p
For normal operating purposes it is recommended that the PC and Gas
Module power switches be left permanently in the “On” position and that the unit be turned on and off with the Diagnostic Platform main power switch.
• Select the SUN
®
Diagnostic Platform program using either the
Windows start menu or the shortcut on the desk-top.
The operating system will load the software and the The Diagnostic
Platform Main Menu will be displayed (see the Diagnostic Platform
Operator’s Manual 5.1: ‘The Diagnostic Platform Main Menu’ ).
• Select the Gas Analyser option from the Main Menu.
Selecting the Gas Analyser mode will display the
).
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p
The body of this manual concerns the operation of the DGA 2500 in Gas
Analyser mode only. Information concerning the use of the unit in conjunction with the Diesel Smoke Meter, Portable Data Link, and
Engine Diagnostics menu options will be provided as separate documentation.
6.2.2 Gas Analyser Start-up
At start-up, the analyser will automatically perform the following functions in sequence:
- Warm up.
- Zero-calibration.
- HC residue check.
While these functions are being performed, “pop-up” windows will be automatically displayed showing the status of the unit. These windows will automatically close when the function has been successfully completed. They may be manually closed at any time to give full access to the screen buttons.
Note:
p
A manually closed pop-up window can reappear if a new screen is selected which requires a change in the Gas Analyser mode, e.g. a popup screen can reappear if a leak check is selected but will not reappear when moving to a different menu or set-up screen.
If the system is configured to require a Daily Leak Check (see 6.3
operator will be prompted to perform this during the initial start-up sequence.
6.2.3 Warm up
The warm-up and stabilisation period normally lasts approximately 90 seconds. During this time:
- The pump will run continuously.
- The unit will check for condensation in the gas bench.
- The warm up pop-up screen will be displayed showing the elapsed warm up time (unless manually closed).
If the gas bench and PC are switched on simultaneously (by use of the main power switch), the warm-up period will proceed in the background whilst the PC loads the Windows operating system. Since the time needed to load the operating system is greater than the warm-up period, the latter will not be apparent to the operator. Conversely, if the gas bench is switched on after the operating system and Diagnostic Platform software has been loaded by the PC, the warm-up period will be visible.
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Note:
p
The warm up period cannot be overridden by the operator.
At the end of the warm up period the unit will proceed to zero-calibration.
6.2.4 Zero-calibration
Zero-calibration, which allows the Gas Module to determine the correct zero reference and gain settings, lasts approximately 30 seconds.
During this time:
- The pump will initially be off and will cut in after approximately 10 seconds.
- The zero-calibration pop-up screen will be displayed showing the elapsed calibration time.
An zero-calibration may be triggered in three ways:
- As part of the start-up procedure or on return from standby mode
(initial zero-calibration).
- Automatically by the Gas Bench as required (automatic zerocalibration; see note below).
- Manually by the operator from
An initial or manual zero-calibration (but not an automatic zerocalibration) will be followed by a HC residue check (see below).
If the system is configured to require a
Daily Leak Check , the unit will
prompt the operator to perform this at the end of the zero-calibration period. Until a successful leak check has been preformed all measurements will be blocked and it will not be possible to proceed
(see 6.3: ‘Daily Leak Check’ below for
further details).
Note:
p
The gas bench automatically assesses the stability of the zero reference and gain settings and will perform an zero-calibration as and when required. The frequency with which an automatic zero-calibration is performed will depend on the stability of the environment in which the analyser is operated. If a CO
2
concentration of 0.5 % vol. or greater is detected at the time the gas bench determines that an automatic zerocalibration is necessary, the software will assume that gas measurements are currently being taken. In this case the zerocalibration will be delayed until the CO
2 measurement has fallen below
0.5% vol. or for a maximum of 30 minutes. The Error/Warning toolbar button will be displayed. If this button is pressed, error/warning code 06 will be seen, advising that a zero-calibration is pending
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Note:
p
During zero-calibration the DGA 2500 derives the zero reference point settings from the atmospheric conditions of the environment in which it is operated. If the operating environment is poorly ventilated, or if sources of atmospheric pollution (e.g. petrol soaked rags etc.) are present in close proximity to the unit, this may lead to the zero reference points being set too high. This may, in turn, lead to vehicle emission readings that are below the zero reference settings of the analyser (“negative indications”). To avoid this problem, the operating environment should be well ventilated and possible sources of atmospheric pollution should be removed.
6.3 Daily Leak Check
The accuracy of test measurements will be compromised if ambient air is allowed to enter the analyser sampling and/or pneumatic systems. In order to ensure the integrity of the system, the standard software configuration requires that a leak check should be carried out prior to the commencement of each day’s operation. The unit will not be capable of normal operation unless a successful leak check has been carried out within the preceding 24 hours. If the operator fails to carry out a daily leak check, or if a leak check is failed, an error warning will appear in the toolbar and all gas measurements will be blocked until a satisfactory leak check has been performed.
Note:
p
If the unit is left running continuously, the standard software configuration will require a leak check to be performed within 24 hours of the previous check. If the unit is switched off (e.g. overnight) the software will require a leak check at the start of each operating day even if the previous leak check was performed within the last 24 hours.
Note:
p
The daily leak check requirement may be deactivated by Sun service personnel unless the unit is configured for an approval type under which such a check is mandatory
The leak check requirement may be satisfied by the successful performance of either:
- A
(see
- A
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6.4 HC Residue Check
A HC residue check will follow every initial or manually triggered zerocalibration.
The HC residue check will be aborted or postponed if a maintenance function is selected (e.g. in order to perform a leak check) The residue check will be resumed when the maintenance function is exited.
The HC residue check lasts a minimum of 20 seconds with no upper time limit. During the check the unit will:
- Display the HC Residue Check pop-up window.
- Determine the concentration of hydro-carbons present in the gas circuit. If a concentration greater than 20 ppm is found the pop-up window will continue to be displayed and all measurements will be blocked until the concentration of HC present in the analyser has fallen to within the acceptable limits.
Caution:
c
The sample probe must not be allowed to remain in the vehicle exhaust tailpipe during the HC residue check. A concentration of more than 0.5 % vol. co
2
detected during the check indicates that vehicle exhaust gases are being drawn into the unit. The program will prompt the operator to remove the sample probe from the tailpipe and all measurements will be blocked until this has been done.
As ambient air is drawn through the gas circuit, the concentration of HC should fall. If the residue has not fallen to within acceptable limits within a reasonable time (1 – 2 minutes), the sample hose and probe should be cleaned in accordance with the instructions contained in
Maintenance Procedures’ and the zero-calibration procedure repeated.
If the concentration of HC does not fall to within acceptable limits after the sample hose and probe have been cleaned the HC residue check pop-up window will continue to be displayed. Switch the unit off and back on in order to reset the machine. Repeat the calibration and HC residue check procedure. If the concentration of HC is still too high, service is required. Contact your SUN service centre or dealer.
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6.5 Settings
The following settings must be made before the unit is ready for operation:
6.5.1 Fuel Type Selection
The correct fuel type for the vehicle under test should be selected in the
Vehicle Setup screen.
• Select the vehicle fuel type (LPG, CNG or Petrol) from the fuel type drop down menu as described in
8.2: ‘Free Measurement Vehicle
and
9.2: ‘SUN EEC Test Vehicle Set-up’
.
6.5.2 Speed Factor Setting
Refer to the SUN
®
Diagnostic Platform Operator’s Manual ( 6.2: ‘RPM
Measurement and Speed Factor Selection’ ) for details of factors governing Speed Factor selection.
To set the Speed factor:
• Open the vehicle setup screen.
• Select and apply the Speed Factor as described in 8.2: ‘Free
or
9.2: ‘SUN EEC Test Vehicle Set-up’
.
6.5.3 Lambda/AFR Selection
The DGA 2500 calculates and can display either Lambda (
λ) or Air Fuel
Ratio (AFR).
To select Lambda or AFR:
• Open the
Gas Analyser System Settings screen (see 5.4
To reach the
Gas Analyser System Settings screen select the
“System Settings” icon button in the
(see
The Gas Analyser System Menu (see 5.2
) will be displayed. Select
the “Settings” Icon button in the The Gas Analyser System Menu
, the
page wll be shown.
• Select Lambda or AFR as required.
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6.6 Vehicle Connections
Caution:
c
Route the rpm pick-up lead and oil temperature probe clear of any hot or moving engine parts.
6.6.1 RPM Pick-Up
Refer to the SUN
®
Diagnostic Platform Operator’s Manual ( 6.2.1: ‘RPM
Pick-up (Otto Engines)’ ) for details of rpm pick-up connection.
6.6.2 Oil Temperature Probe
Refer to the SUN
®
Diagnostic Platform Operator’s Manual ( 6.3: ‘Oil
Temperature Measurement’ ) for details of oil temperature measurement.
38 DGA 2500 2002 - 11
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Operation — General
The following sections contain general information applicable to all test procedures. Specific information relating to the performance of tests using the Free Measurement Procedure and the SUN EEC Test
Procedure may be found in
8: ‘Operation – The Free Measurement
9: ‘Operation – The SUN EEC Test Procedure’
respectively.
Information necessary to conduct country specific tests (MOT, AU, APK etc.) will be provided in separate documentation.
7.1 Testing Tips
• Read and follow the procedures in this manual.
• Keep the probe tip openings clean and free from debris.
• Do not place the probe tip in liquids or allow liquids to be drawn into the analyser sampling system. Contamination will affect the accuracy of any future tests.
• Do not insert the probe into an exhaust pipe until the vehicle engine is at normal operating temperature. This allows time for the exhaust system to vaporize any residual moisture.
• Never move the analyser by pulling on the probe, sample hose or power cord.
• Never drive over the probe, sample hose or power cord.
• Never place any liquids on the analyser that could spill and run into the ventilation holes.
• Clean any spilt liquids (gasoline, brake fluid, cleaning solvents etc) from the exterior of the analyser immediately in order to protect the finish.
• In order to ensure accurate test results, perform a daily Leak Check
(Vacuum) as described in
10.2: ‘Leak Check (Vacuum)’ below. This
check should also be performed after probe changes or filter service.
• Prolonged use of the analyser in conjunction with a dynamometer and a hot running vehicle under load may damage the sample probe and affect readings. An alternative sample probe (P/N: 7009-1869-00) is available for use in these circumstances.
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• The O
2
Sensor is stated by the manufacturer to have life expectancy of 24 months from the date of manufacture, irrespective of how often the analyser is used.
• The (optional) NO sensor has a minimum life expectancy of 24 months after installation or until it undergoes a 20% signal strength loss, whichever occurs sooner. It is powered by an internal battery.
The analyser must run at least 12 hours over a 30 day period to maintain this battery at full charge.
7.2 Measurement Procedure
Caution:
c
In order to ensure representative measurements, The engine should be at normal operating temperature.
Note:
p
Under moderate loads and operating at moderate speeds a typical nominal oil temperature is approximately 85 °C. Under these circumstances a temperature of 65 °C is considered to be low and a temperature of 105 °C is considered to be high. At idling speeds engine oil temperature does not, generally, reach a nominal value. Proper oil temperature depends on the engine operating conditions, but may be considered acceptable if falling within the range mentioned above.
During testing, engine exhaust gas samples are continuously gathered by means of the Exhaust Sample Probe inserted into the vehicle’s exhaust tail pipe.
The DGA 2500 continuouslly determines the amount of CO, CO
2
, HC and O
2
present in the exhaust sample. In the Free Measuring Procedure these values are continuously displayed in the parameter windows together with the values for CO corrigè, engine speed and oil temperature. If the optional NO sensor is present the value for NO will also be measured and displayed. Depending on the selection made (see
), the value for Lambda or Air Fuel Ratio will also be displayed. In the SUN EEC Procedure the values measured are displayed in the Results Screen at the conclusion of the test.
Besides determining whether or not the vehicle exhaust emissions comply with legal requirements, emissions tests may be performed at various engine speeds and under various conditions, forming a valuable diagnostic aid in the discovery of a variety of engine, ignition and fuel system service requirements.
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After all necessary settings and connections have been made, proceed as follows:
• Start the vehicle engine and allow the oil temperature to come up to normal operating temperature (see Note above).
• Insert the sample probe fully into the vehicle tailpipe.
Note:
p
On exhaust systems having twin tail pipes that exit a common resonator or muffler the exhaust gas sample may be diluted by ambient air entering the system via the tail pipe that is not in use for sampling. To prevent this, block off the tail pipe that is not in use for the sample probe.
Note:
p
Do not block off a tail pipe if the vehicle is being operated on a chassis dynamometer. Always be sure to unblock the tail pipe when testing is complete.
Caution:
c
Do not leave the sample probe in the tail pipe when measurements are not being made, as this will shorten the life of the filter elements.
• When testing has been completed and the test results have been printed or noted, remove the sample probe from the tail pipe and store it in a dust and water free environment until it is required again.
• Remove the Oil Temperature probe from the dipstick tube and reinsert the oil dipstick.
• Disconnect the rpm pick-up.
Caution:
c
If the dipstick is of an adjustable type, ensure that it is properly adjusted before re-inserting it into the dipstick tube.
7.3 Shut Down Procedure
Refer to the SUN
®
Diagnostic Platform Operator’s Manual ( 6.4: ‘Shut
Down Procedure’ ) for details of the shut down procedure.
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8
Operation – The Free
Measurement Procedure
The Free Measurement program allows the DGA 2500 to be used as a diagnostic tool for the investigation of the fuel, ignition and emission control systems of a vehicle without applying the limits and procedures specified in any local, national or international test. By operating the vehicle under varying conditions (if neccessary on a chassis dynanometer) it is possible to:
- Identify emission failure areas.
- Reduce emissions in general.
- Locate/correct driveability problems.
The driveability and emissions symptoms (or combinations of symptons) that can be addressed include:
- Engine will not crank.
- Engine will crank but will not start.
- Engine is hard to start.
- Malfunction lamp is on.
- Engine stalls.
- Engine shows hesitation, sag, stumble and/or lack of power, is sluggish or feels spongy.
- Engine surge.
- Engine misses or cuts out.
- Engine backfires.
- Excessive engine noise.
- Excessive emissions or a failed emission test.
- Poor fuel economy.
- Incorrect idle.
- Engine jumps or jerks.
- Excessive exhaust odour.
- Excessive exhaust smoke.
- Fuel odour and/or dieseling or run-on.
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In testing emission control devices any of the following tests may be performed as necessary, applicable or useful:
- Exhaust Gas Recirculation Valve.
- Positive Crankcase Ventilation (PCV) Valve.
- Air Pump
- Carburettor Adjustments for Vehicles Without Feedback Systems,
- Lean-misfire Adjustment.
- Lean-drop Adjustment.
- Accelerator Pump.
- Power Valve.
- High Fuel Level in Float Chamber.
- Testing the Cooling System for Combustion Gases.
- Fuel Leak.
- Exhaust Leak.
- Testing for Fumes in the Passenger Compartment.
- No-start Condition – Fuel.
The following section provides a brief description of the screens that will be encountered during the Free Measurement Procedure
8.1 The Free Measurement Screen
44
Figure 8-1
The Free Measurement Screen
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CREEN
• To open the Free Measurement Screen, select the “Free
Measurement” option from the
Gas Analyser Menu (see section 5.1
The Free Measurement Screen displays the current values for the test parameters that are continuously being analysed by the unit.
These values may be compared with two Limit Sets stored in the unit memory. Limit Sets 1 and 2 are intended for use with measurements at high and low engine speeds respectively.
Unlike the EU and country specific test procedures, available under the DGA 2500 software, the Free Measurement Procedure does not incorporate the requirements of any regulatory authority. The upper and lower limits for each test parameter may be either edited by the operator or disabled entirely.
Numerical values for the measured gas emissions, lambda/AFR, oil temperature and engine speed are shown in the nine fields comprising the bulk of the screen. The field background will be Green so long as the measured value for a particular parameter falls within the applied limits but will change to Red if the values fall outside these limits.
An analog representation of the current test values, in relation to the applied limits, is given by the coloured bars associated with each parameter field. The Green section of these bars shows the range of values falling within the limits whilst the Red sections indicate values above and below the acceptable range. The relative proportions of the Green and Red areas will reflect the limits applied. The value currently measured for each parameter is represented by a thin
Yellow band.
If no limit sets are applied, or if no measurements are available, the parameter field backgrounds and the analog bars will be Grey.
The current parameter values may be frozen, stored in the unit memory or printed out at any time during normal operation.
• To specify the vehicle setup via the
Free Measurement Vehicle Setup
Screen, press the “Vehicle Setup” toolbar button (see
• To print test result data, press the
• To review or delete data stored in the data buffers, press the “Print
Preview” button to open the
The Print Preview Window (see 8.7
• To manually initiate an
, press the “Zero-calibration”
• To toggle between limit sets, press the “Toggle Limit Sets” button (see
8.6: ‘Storing Data in the Data Buffers’ ).
• To freeze the current readings, press the “Freeze” button (see
8.6: ‘Storing Data in the Data Buffers’ ).
• To store the current readings, press the “Store” button.
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The “store” button is only available after the “Freeze” button has been pressed (see
8.6: ‘Storing Data in the Data Buffers’ ).
• To unfreeze the frozen readings, press the “Unfreeze” button.
The unfreeze button is only available after the “Freeze” button has been pressed (see
8.6: ‘Storing Data in the Data Buffers’ ).
• To return to the
Gas Analyser Menu , press the “Gas Analyser” toolbar
button.
8.2 Free Measurement Vehicle Setup
46
Figure 8-2
The Free Measurement Vehicle Setup Screen
To access the Free Measurement Vehicle Setup Screen, press the
“Vehicle Setup” toolbar button in the
).
In the Free Measurement Vehicle Setup Screen it is possible to:
- Specify the vehicle fuel type.
- Save the current set-up to file.
- Load a previous set-up from file
- Load the SUN default set-up.
- Enable/disable limit sets.
- Edit limit sets.
- Enter the speed factor.
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The vehicle fuel type, limit set values, limit sets On/Off setting and the speed factor are collectively refered to as the “Vehicle Setup”.
8.3: ‘Saving and Loading Vehicle Setups’ and
provide information on saving, loading and editing Vehicle Setups.
• Use the Fuel Type Drop-down Menu to select the correct fuel type for
the vehicle under test (see 6.5.1: ‘Fuel Type Selection’
).
The available alternatives are:
- Petrol (default).
- LPG (Liquified Petroleum Gas).
- CNG (Compressed Natural Gas).
Refer to the Diagnostic Platform Operator’s Manual ( 4.4: ‘Drop-down
Menus’ ) for details of the use of drop-down menus.
Note:
p
In the event of the fuel type LPG being selected, ensure that the correct
Butane/Propane ratio is entered in
). Failure to set the correct ratio may result in inaccurate
lambda calculation.
• Select the appropriate Speed Factor.
• The Speed Factor is the factor that must be applied to the raw rpm data received by the unit (e.g. from the inductive pick-up) in order to arrive at a true engine speed reading. For further information concerning Speed Factor selection refer to the Diagnostic Platform
Operator’s Manual ( 6.2.3: ‘Speed Factor Selection’ ). The Speed
Factor currently applied is highlighted in green in the Speed Factor section of the Vehicle Setup Screen. To change the applied factor:
• Click with the mouse on the desired new Speed Factor, or
• Select the new Speed Factor using the keyboard or remote control left and right cursor keys and press the “Enter” key to confirm the new factor.
A thin yellow frame will move along the series of Speed Factor values as the cursor keys are pressed. When the “Enter” key is pressed the green highlight will move to the newly selected value.
• Use the “Limits” button to enable or disable the Limit Sets.
Pressing the “Limits” button will change the status of the limit sets from ON to OFF and vice versa. The “Limits” button will be Green when the limits are switched ON and Red when the limits are switched OFF.
To toggle between “Limit Sets On” and “Limit Sets Off” or vice versa:
• Click with the mouse on the “Limits” button, or
• Select the “Limits” button with the cursor keys and press “Enter”.
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8.3 Saving and Loading Vehicle Setups
The vehicle setup currently displayed in the Vehicle Setup Screen can be saved in the PC memory for future use.
The information stored will be:
- Fuel type
- Speed Factor
- Limits On/Off
- Limit set values.
To save the current vehicle setup:
• Press the “Save Setup” button.
The Save Limits File dialog box will be displayed .
Figure 8-3
The Save Limits Dialog Box
• Check the location to which the file is to be saved.
• Enter a name for the file in the File name box.
• To save the setup click “Save” or press the “Enter” key.
The file containing the vehicle setup will be saved and can be recalled for future use using the “Load Setup” button.
• To cancel, click the “Cancel” button or press the”Esc” key.
The Save Limits File box will be closed without storing the setup.
To load a previously saved setup:
• Press the “Load Setup” button.
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The Load Limits File dialog box will be displayed).
Figure 8-4
The Load Setup Dialog Box
• Select the file to be loaded with the mouse or enter the file name in the file name box.
• Click “Open” in the dialog box or press the “Enter” key.
The loaded set-up will be applied in the Free Measurement Screen.
• To load the SUN default set-up, press the “Load Default” button.
• The software will warn that loading the default set-up will cause data stored in the buffers to be lost and ask for confirmation before continuing. Click “Yes” to proceed with loading the defaults or “No” to continue using the current settings.
8.4 Editing Limit Sets
Figure 8-5
The Edit Limit Sets Window
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To alter any or all of the limit values currently shown in the Vehicle Setup
Screen:
• Press the “Edit Limit Set” button corresponding to the Limit Set to be edited.
The Edit Limit Set Window will be displayed.
• Use the keyboard to make the required alterations.
To alter a limit value:
• Select the value to be altered using the “Tab” key.
The selected field will be highlighted in Blue.
• Use the “Backspace” key to delete the current value.
• Enter the required new value.
• Repeat the procedure for all values that are to be altered.
• If required, repeat the procedure to edit the other limit set.
• To apply the new values, click “OK” or press the “Enter” key.
The new values will be applied and the window will be closed.
• To cancel the alterations and return to the Vehicle Setup Screen, click
“Cancel” or press the “Esc” key.
The window will be closed and the current limit values will continue to be applied.
8.5 Free Measurement Test Procedure
Note:
p
The following description of the Free Measurement Test Procedure assumes that the Limit Sets are applied and that gas readings are required at both high and low engine revolutions. This may not be the case in all circumstances. Since the Free Measurement Procedure is highly flexible and is suitable for a variety of diagnostic purposes, the description below should be considered to be a guideline only. An experienced operator may, for instance, consider that to perform both a high speed and a low speed test is, in certain cases, unnecessary in view of the diagnostic purpose of the test.
To make gas measurements using the Free Measuring procedure:
• Select the
The Free Measurement Screen from the
and
).
• Make any necessary amendments to the vehicle setup in the Free
Measurement Vehicle Setup Screen (see 8.2
).
• Allow the vehicle to come to normal operating temperature.
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• Insert the exhaust probe fully into the vehicle tail pipe.
Refer to the notes to
7.2: ‘Measurement Procedure’ if the test vehicle
is equipped with twin tail pipes.
• Select Limit Set 1 (see
8.1: ‘The Free Measurement Screen’
)
• Accelerate the engine until the rpm reading falls within the Green band of the Free Measurement Screen rpm indicator.
• Maintain a steady engine speed and allow the gas readings to stabilize (approx. 30 seconds).
• Store the Limit Set 1 test results in data buffer 1 as described in
8.6: ‘Storing Data in the Data Buffers’ .
After the test data for Limit Set 1 has been stored Limit Set 2 will be automatically selected and the “Toggle Limit Sets” button will show
Limit Set 2. The Green and Red indicator bands will change to represent the Limit Set 2 values. The fact that data is now stored in data buffer 1 will be confirmed by the appearance of the figure “1” in the Free Measurement Screen toolbar.
• Reduce the engine speed until the rpm indicator is between the upper and lower limits specified for Limit Set 2, maintain a steady engine speed and allow the gas readings to stabilize once more.
• Store the Limit Set 2 test results in data buffer 2.
After the test data for Limit Set 2 has been stored the “Toggle Limit
Sets” button will show that Limit Set 1 has been automatically reselected and the indicator bands will change accordingly. A figure
“2” will appear in the toolbar, confirming that data is stored in data buffer 2.
The data stored in the data buffers can be reviewed, printed or deleted via the
(see
8.6 Storing Data in the Data Buffers
Current test readings to which a Limit Set has been applied may be temporarily stored in one of the two data buffers. This temporary storage allows the second Limit Set to be applied without the loss of the initial test results. Data to which Limit Set 1 is applied will be stored in buffer 1 and data to which Limit Set 2 is applied will be stored in buffer 2.
Note:
p
The following description assumes that the Free Measurement
Procedure is performed as outlined in
Procedure’ (i.e. the data to which Limit Set 1 has been applied is to be
stored before Limit Set 2 is applied). Although this will be the usual procedure, it should be noted that it is possible to apply Limit Set 2 before Limit Set 1 or to apply either Limit Set independently.
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To store data in data buffer 1:
• Apply Limit Set 1 using the “Toggle Limit Set” button .
Figure 8-6
Apply Limit Set 1
• Take the Limit Set 1 gas measurements as outlined in
• Press the “Freeze” toolbar button.
Figure 8-7
Freeze Limit Set 1 Readings
The “Freeze” button will be replaced by the “Store” and “Undo” buttons. The “Store” button will be automatically selected (indicated by a Green background – see
• Press “Store” to store the data or “Undo” to unfreeze the data and return to continuous measurement..
Figure 8-8
Store Limit Set 1 Readings
If the “Store” button is pressed:
- The “Store” and “Undo” buttons will be replaced by the “Freeze” button.
- The “Freeze” button will be automatically selected.
- The number “1” (corresponding to the Limit Set and data buffer selected) will appear in the toolbar indicating that the data is stored in data buffer 1.
- Limit Set 2 will be applied automatically and the “Toggle Limit
Sets” button will change accordingly.
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p
If the “Undo” button is pressed the “Store” and “Undo” buttons will be replaced by the “Freeze” button. The “Freeze” button will be automatically selected. Limit Set 1 will continue to be applied.
• Take the Limit Set 2 gas measurements as outlined in 8.5: ‘Free
• Press the“Freeze” toolbar button.
Figure 8-9
Freeze Limit Set 2 Readings
The “Freeze” button will be replaced by the “Store” and “Undo” buttons. The “Store” button will be automatically selected (indicated by a Green background – see figure below).
• Press “Store” to store the Limit Set 2 data or “Undo” to unfreeze the data and return to continuous measurement .
Figure 8-10
Store Limit Set 2 Readings
The number “2” will appear alongside the number “1” in the toolbar indicating that data is now stored in both buffers.
Limit Set 1 will be automatically applied for the next set of measurements and will be shown by the “Toggle Limit Sets” button.
The “Freeze” button will be automatically selected.
Figure 8-11
Limit Set 1 and 2 Readings Stored
• Press the “Print preview” button to review the stored data
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8.7 The Print Preview Window
54
Figure 8-12
The Print Preview Window
• To open the Print Preview Window, press the “Print Preview” toolbar button on the
The Free Measurement Screen toolbar.
The Print Preview Window will be displayed. The window shows the measurements stored in the data buffers (1 & 2) together with the limit values applied. By using the text buttons in the Print Preview
Window it is possible to:
- Delete either or both sets of test measurements.
- Proceed to the “Print” Window.
• To delete data stored in buffer 1 (Limit Set 1), press “Delete Set 1”.
The gas measurements stored in buffer 1 will be deleted.
• To delete data stored in buffer 2 (Limit Set 2), press “Delete Set 2.
The gas measurements stored in buffer 2 will be deleted.
Note:
p
Pressing the delete buttons in the Print Preview Window will only cause the stored test data to be deleted. The limit set values will continue to be shown and applied until either a new vehicle setup (having different limit values) is applied or the limit sets are disabled.
• To access the Print Screen, press the “Print” button.
• To return to the
The Free Measurement Screen , press the “Back”
button.
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8.8 Printing Test Results
Refer to 5.6: ‘Print’ for information on printing test results
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9
Operation – The SUN EEC
Test Procedure
9.1 Introduction
The Sun EEC Test Procedure allows emission testing in accordance with
EEC council directives.
The procedure described in this chapter is designed for use with vehicles fitted with “Otto” engines (powered by petrol, liquified petroleum gas or compressed natural gas). The procedure for testing vehicles with diesel engines will be described in separate documentation.
For the purposes of the test procedure, vehicles are divided into three categories:
- Vehicles fitted with a regulated catalytic converter (Catalyst Test).
- Vehicles without a catalytic converter manufactured prior to 1
October 1986 (Non-catalyst Test 1).
- Vehicles without a catalytic converter manufactured on or after 1
October 1986 (Non-catalyst Test 2).
Non-catalyst test 1 and non-catalyst test 2 differ from each other solely in respect of the maximum permitted level of CO. Since the two noncatalyst tests procedures are, in all other ways, identical, they will be treated as a single procedure for the purposes of this description.
When performing a SUN EEC test on vehicles fitted with a catalytic converter, measurements will be taken at both normal and fast idle engine revolutions. In the case of tests on vehicles without a catalytic converter, measurements will only be taken at normal idle engine speed.
The DGA 2500 software compares the test results obtained against sets of pre-defined limits. These limits may be either the SUN EEC default limits (included in the program) or an alternative limit set edited and entered by the operator. When testing catalytic converter equipped vehicles two limit sets (one for normal idle speed and one for fast idle speed) are applied.
Measurement parameters to which limit values are not applied will be determined in both catalyst and non-catalyst procedures and will appear in the Results Screen and results printout but will not affect the overall
(pass/fail) test result.
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When testing catalyst equipped vehicles at fast idle, upper and lower limits may be set for CO, HC, lambda, rpm and oil temperature. At normal idle, limits may be set for CO, rpm and oil temperature.
In the non-catalyst test procedures, which are conducted at normal idle speed only, limits may be set for CO, HC, rpm and oil temperature.
9.2 SUN EEC Test Vehicle Set-up
The SUN EEC Test Vehicle Set-up Screen is automatically displayed
when the SUN EEC Test Procedure option is selected in the Gas
).
In the Vehicle Setup Screen it is possible to:
- Specify the vehicle fuel type (petrol, LPG, or CNG).
- Specify the vehicle category and test procedure (catalyst, noncatalyst 1, or non-catalyst 2).
- Save the current set-up to file.
- Load a previous set-up from file
- Load the SUN EEC default set-up.
- Edit limit sets.
- Enter the speed factor.
The vehicle fuel type, vehicle category, limit set values, and the speed factor are collectively referred to as the “Vehicle Setup”.
9.3: ‘Editing Limit Sets’ provides information on editing Limit Set values.
9.4: ‘Saving and Loading Vehicle Set-ups’ provides information on
saving and loading Vehicle Setups.
When the EEC Test Procedure is selected the unit will automatically carry out a zero-calibration and HC Residue check. During these checks the Zero-calibration and HC Residue Check pop-up windows will be displayed (see
). These windows may be manually closed to allow access to the Vehicle Set-up Screen but measurements will not be possible until the zero-calibration and HC Residue checks have been completed.
Use the Fuel Type Drop-down Menu to select the correct fuel type for the vehicle under test.
The available alternatives are:
- Petrol (default).
- LPG (Liquefied Petroleum Gas).
- CNG (Compressed Natural Gas).
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Refer to the Diagnostic Platform Operator’s Manual ( 4.4: ‘Drop-down
Menus’ ) for details of the use of drop-down menus.
The measurement parameter field that shows “HC” when the fuel type
”Petrol” is selected will change when the fuel type “LPG” or “CNG” is selected and will show “LPG” or “CNG” respectively.
Note:
p
In the event of the fuel type LPG being selected, ensure that the correct
Butane/Propane ratio is entered in
). Failure to set the correct ratio may result in inaccurate
lambda calculation.
• Select the appropriate vehicle category using the Vehicle Category drop-down menu.
The selection made in the Vehicle Category menu determines which test procedure will be used and which set of default limit values are applicable.
The possible alternatives are:
- Vehicles equipped with a regulated catalytic converter (Catalyst
Test)
- Vehicles without a catalytic converter, built prior to 1 October
1986 (Non-catalyst Test 1, maximum default CO limit 4.5% vol.
CO)
- Vehicles without a catalytic converter, built October 1986 or later
(Non-catalyst Test 2, maximum default CO limit 3.5% vol. CO)
The Vehicle Set-up Screen will vary depending on the vehicle category selected. The figures below illustrate the vehicle set-up screens for both catalyst and a non-catalyst tests.
Figure 9-1
The EEC Test Procedure Vehicle Setup Screen (Catalyst Test)
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Figure 9-2
The EEC Test Procedure Vehicle Setup Screen (Non-catalyst Test)
• Select the appropriate Speed Factor.
The Speed Factor is the factor that must be applied to the raw rpm data received by the unit (e.g. from the inductive pick-up) in order to arrive at a true engine speed reading. For further information concerning Speed Factor selection refer to the Diagnostic Platform
Operator’s Manual ( 6.2.3: ‘Speed Factor Selection’ ).
The Speed Factor currently applied is highlighted in green in the Speed
Factor section of the Vehicle Setup Screen. To change the applied factor:
• Click with the mouse on the desired new Speed Factor or
• Select the new Speed Factor using the keyboard or remote control left and right cursor keys and press the “Enter” key to confirm the new factor.
A thin yellow frame will move along the series of Speed Factor values as the cursor keys are pressed. When the “Enter” key is pressed the green highlight will move to the newly selected value.
• Make any required amendments to the applied limit values
It is possible to:
- Edit the currently displayed limit values.
- Save the currently displayed values to file for future use.
- Load the SUN default limit values.
- Load a previously saved set of limit values.
Refer to 9.3: ‘Editing Limit Sets’ for further information.
• To initiate the test procedure, press “OK”.
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• To abort the test procedure and return to the Gas Analyser Menu ,
press “Cancel”.
9.3 Editing Limit Sets
The table below shows the parameters to which limits may be applied within the EEC Test Procedure
Table 9-1EEC Test Procedure Limits
Catalyst Test 1 (fast idle)
CO (% vol.)
HC (ppm vol
Lambda
RPM
Oil temperature
Catalyst Test 2
(Natural idle)
CO (% vol.)
RPM
Non-catalyst test
CO (% vol.)
HC (ppm vol.)
RPM
Oil temperature
Figure 9-3
The Edit Limit Set Window
To alter any or all of the limit values currently shown in the
Screen:
• Press the “Edit Limit Set” button corresponding to the Limit Set to be edited.
The Edit Limit Set Window for Limit Set 1 or Limit Set 2 will be displayed.
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Note:
p
The “Edit Limit Set 2” button is only present if “Catalyst” is selected in the
Vehicle Category drop-down menu.
• Use the keyboard to make the required alterations.
To alter a limit value:
• Select the value to be altered using the “Tab” key.
- The selected field will be highlighted in Blue.
• Use the “Backspace” key to delete the current value.
• Enter the required new value.
• Repeat the procedure for all values that are to be altered.
• To accept the new values, click “OK” or press the “Enter” key.
The new values will be applied and the window will be closed. Accepted limit values will be applied to the current test, and to all subsequent tests using the same test procedure, until superceded. The application of a different set of limit values will delete the values currently applied. Sets of limit values that may be required for future tests should, therefore, be saved to file as outlined below.
• If required, repeat the procedure to edit the other limit set.
• Press “OK” to apply the revised limits and return to the Vehicle Setup
Screen.
The window will be closed and the revisedlimit values will be applied.
• To cancel the alterations and return to the Vehicle Setup Screen, click
“Cancel” or press the “Esc” key.
The window will be closed and the current limit values will continue to be applied.
9.4 Saving and Loading Vehicle Set-ups
The vehicle setup currently displayed in the Vehicle Setup Screen can be saved in the PC memory for future use.
The information stored will be:
- Fuel type
- Vehicle category
- Speed factor
- Limit values.
To save the current vehicle setup:
• Press the “Save Setup” button.
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The Save Limits File dialog box wiil be displayed.
Figure 9-4
The Save Limits Dialog Box
• Check the location to which the file is to be saved (C:/Program Files/
Sun Equipment/Gas Module).
• Enter a name for the file in the File name box.
• To save the setup click “Save” or press the “Enter” key.
The file containing the vehicle setup will be saved and can be recalled for future use using the “Load Setup” button.
• To cancel, click the “Cancel” button or press the”Esc” key.
The Save Limits File box will be closed without storing the setup.
To load a previously saved setup:
• Press the “Load Setup” button.
The Load Limits File dialog box will be displayed .
Figure 9-5
The Load Limits File Dialog Box
• Select the file to be loaded with the mouse or enter the file name in the file name box.
• Click “Open” in the dialog box or press the “Enter” key.
The loaded set-up will be applied.
• To load the SUN default set-up, press the “Load Default” button.
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The software will warn that loading the default set-up will cause the current limit values to be overwritten and ask for confirmation before continuing. Click “Yes” to proceed with loading the defaults or “No” to continue using the current settings.
9.5 Test Procedure Summary
The SUN EEC Test comprises three test procedures, each corresponding to one of the Vehicle Categories that may be selected using the Vehicle Category drop-down menu:
- The “Catalyst” procedure for vehicles fitted with a regulated catalytic converter.
- The “< 10-86” procedure for vehicles without a catalytic converter constructed prior to 1 October 1986.
- The “>= 10-86” procedure for vehicles without a catalytic converter constructed on or after 1 October 1986.
The non-catalyst procedures vary from each other only in respect of the maximum permitted default value for CO and will, therefore, be treated as being identical for the purposes of this description.
The Catalyst procedure differs from the non-catalyst procedures in that:
- Measurements are taken at both fast and normal idle engine speeds whereas, in the non-catalyst procedures, measurements are only taken at normal idle.
- HC limits may be applied, and HC values will be displayed, at fast idle in the Catalyst procedure and at natural idle in the noncatalyst procedure. HC limits cannot be applied, and values will not be displayed, at natural idle in the catalyst procedure.
- Limits for lambda can only be applied, and lambda values will only be displayed, when measuring at fast idle in the Catalyst procedure. Lambda limits cannot be applied, and values will not be displayed, in the Non-catalyst procedure.
Note:
p
Only those measurement parameters to which limits may be applied in each specific procedure will be displayed, however, the unit will continuously determine and save the values for all measurable parameters (including NO if the optional NO kit is installed). These measured values will be displayed in the Final Results Screen and will be included in the results printout but will not be taken into account in determining whether or not the vehicle has passed or failed the test procedure.
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For convenience, the SUN EEC Test may be divided into a number of phases which may appear in either both Catalyst and Non-catalyst procedures or in the Catalyst procedure alone. The following list shows these phases together with the procedures in which they appear:
1. Initialization phase (all procedures)
2. Fast idle preconditioning phase (Catalyst procedure only)
3. Fast idle measurement phase (Catalyst procedure only)
4. Normal idle preconditioning phase (all procedures)
5. Normal idle measurement phase (all procedures)
6. Results phase (all procedures)
The following sections will describe the test procedures with reference to these phases. Where necessary, attention will be drawn to any differences between their application in the Catalyst and Non-catalyst procedures.
The following descriptions assume:
- That all necessary connections to the test vehicle have been made.
- That all necessary alterations to the vehicle set-up have been made in the Vehicle Set-up Screen.
- That the zero-calibration and HC Residue checks have been completed.
- That the operator has pressed the “OK” button in the Vehicle Setup Screen to initiate the selected test procedure.
9.6 Initialization Phase
The Initialization Phase is identical for all SUN EEC Test procedures.
Note:
p
The limit values for rpm and oil temperature that will be displayed during the Initialization Phase will vary according to the test procedure that has been selected in the Vehicle Set-up Screen. If a Catalyst Test is to be performed the limit set 1 (Fast Idle) values will be shown. If a Noncatalyst Test has been selected the appropriate Normal Idle limit values will be applied.
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• The Initialization Screen will automatically open when the Zerocalibration and HC residue checks have been completed and the
Screen “OK” button has been pressed.
66
Figure 9-6
Initialization
• Insert the sample probe fully into the vehicle tail pipe.
During the Initialization Phase the values of all parameters will be continuously determined but only the values for rpm and oil temperature will be displayed.
The Initialization Screen will remain active until a concentration of 0.5% vol. CO
2
has been recorded or until the “Continue” button has been pressed.
If the Catalyst Test procedure is selected the Initialization Phase will be
followed by the Fast Idle Preconditioning Phase
(see
).
If a Non-catalyst procedure is selected the Initialization Phase will be
followed by the Normal Idle Preconditioning Phase
(see
).
9.7 Fast Idle Preconditioning Phase
The Fast Idle Preconditioning Phase is only encountered when performing the Catalyst Test.
The Catalyst Test limit set 1 values will be applied during the Fast Idle
Pre-conditioning Phase.
During this phase the oil temperature and engine rpm should be brought within the limits specified for fast idle measurement (Catalyst Test, limit set 1).
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The Fast Idle Preconditioning Phase consists of three screens that will be shown in sequence.
Figure 9-7
Fast Idle Oil Temperature Check
• The Oil Temperature Check Screen will open automatically when a concentration of 0.5% vol CO
2 is reached during the Initialization
Phase or when the “Continue” button is pressed from the Initialization
Screen.
The Screen will display the message “OIL TEMPERATURE IS
BEING CHECKED’”.
All parameters will be continuously determined. The measured values for oil temperature and rpm will be displayed.
The screen will continue to be displayed until:
- The oil temperature reaches the minimum prescribed limit, or
- The “Continue” button is pressed.
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• The RPM Screen will open automatically when the oil temperature falls within the limit range or when the “Continue” button is pressed from the Oil Temperature Check Screen.
Figure 9-8
Fast Idle Preconditioning RPM Check
The screen will show the instruction “BRING RPM WITHIN LIMITS”.
All parameters will be determined continuously and the measured values for CO, HC, rpm and oil temperature will be displayed together with the calculated value for lambda.
• Depress the accelerator until the engine rpm indicator is within the
Green section of the rpm scale.
The RPM Screen (
Figure 9-8 ) will be displayed until:
- The engine speed falls within the limit range, or
- The “Continue” button is pressed.
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• The Fast Idle Preconditioning Countdown Screen will be opened automatically when the engine rpm falls within the limit range or when the “Continue” button is pressed from the RPM Screen .
Figure 9-9
Fast Idle Preconditioning Countdown
The screen will show the instruction ”MAINTAIN SPEED – 60
SECONDS” together with a 60 second countdown.
Parameters will be determined and displayed as in The RPM Screen.
• Hold the accelerator depressed and maintain the engine rpm within the fast idle range.
If, during the 60 second countdown, the engine rpm moves out of range, the instruction on the screen will change to “BRING RPM BACK WITHIN
LIMITS”. When the rpm are once more within limits the procedure will return to the Countdown Screen . The countdown will continue during the time that the rpm measurement is outside the specified range.
After the first 30 seconds of the countdown, if the displayed values to which limits are applied fall within the limit range for 2 seconds, the values will be stored and the procedure will proceed automatically to the
Fast Idle Measurement Phase (see section 9.8
If the values are not within limits after the whole 60 second countdown has elapsed, the last measured values will be stored and the procedure will move to the
.
• The operator may proceed to the
Fast Idle Measurement Phase at
any time, irrespective of the measured values, by pressing the
“Continue” button.
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9.8 Fast Idle Measurement Phase
The Fast Idle Measurement Phase is only encountered when performing a Catalyst Test.
The Catalyst Test limit set 1 values are applied during the Fast Idle
Measurement Phase.
During the Fast Idle Measurement Phase all parameters will be determined continuously and the measured values for CO, HC, rpm and oil temperature will be displayed together with the calculated value for lambda.
• The Fast Idle Measurement Phase may be entered:
- Automatically if the displayed values are within limits for 2 seconds at any time after 30 seconds of the preconditioning phase countdown have elapsed.
- Automatically at the end of the preconditioning phase countdown
(60 seconds).
- Manually, by pressing the “Continue” button from the previous screen.
On entering the phase the procedure will check the current status of the engine rpm measurement.
• If the rpm value is outside the specified range, The Fast Idle
Measurement RPM Check Screen will be shown.
70
Figure 9-10
Fast Idle Measurement RPM Check
The screen will show the instruction “BRING RPM WITHIN LIMITS”.
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This screen will continue to be displayed so long as the engine speed falls outside the applied limits. When the rpm measurement returns to within the specified range Fast Idle Measurement Countdown Screen will be displayed.
• The operator may proceed from the rpm check screen to the countdown screen at any time, irrespective of the measured rpm values, by pressing the “Continue” button.
• If the rpm value is within the specified range when entering the Fast
Idle Measurement Phase, The countdown screen will be shown immediately.
Figure 9-11
Fast Idle Measurement Countdown
The screen will show the message “MAINTAIN SPEED – 120
SECONDS”.
A 120 second countdown will be displayed. If, at any time after the first
15 seconds of the countdown, the displayed values to which limits are applied fall within the specified range for a period of 2 seconds, the procedure will continue automatically with the Normal Idle
Preconditioning Phase.
If the values do not fall within the specified range, the full 120 second countdown will elapse. At the end of the countdown period, the last measured values will be saved and the procedure will continue with the
Normal Idle Preconditioning Phase .
• If the “Continue” button is pressed from the countdown screen, all measurements will be saved and the procedure will advance to the
Normal Idle Preconditioning Phase
.
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• If the measured rpm value moves outside the specified range during the countdown period, the Fast Idle Measurement RPM Warning
Screen will be displayed showing the message “BRING RPM BACK
WITHIN LIMITS”.
72
Figure 9-12
Fast Idle Measurement RPM Warning
When the rpm value has been brought within the specified range, the countdown screen will be displayed once more. The 120 second countdown will continue during the time that the rpm measurement is outside the specified limits.
• The operator may return to the countdown screen from the rpm warning screen at any time, irrespective of the measured rpm value, by pressing the “Continue” button.
9.9 Normal Idle Preconditioning Phase
The Normal Idle Preconditioning Phase occurs in all SUN EEC test procedures.
The Normal Idle limit values will be applied during the Normal Idle
Preconditioning Phase. The values applied will depend on the test selected (Catalyst, Non-catalyst pre 10 – 86, or Non-catalyst post 10 –
86).
During this phase, all parameters will be continuously determined. The measured values for CO, rpm and oil temperature will be displayed.
The Normal Idle Preconditioning Phase will be entered either immediately after the Initialization Phase has been completed (Noncatalyst Test) or after the completion of the Fast Idle Measurement
Phase (Catalyst Test).
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P
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• On entering the Normal Idle Pre-conditioning Phase, the Normal Idle
Preconditioning RPM Check Screen will be displayed.
Figure 9-13
Normal Idle Preconditioning RPM Check
The screen will show the message “BRING RPM WITHIN LIMITS”.
• Adjust the engine speed until the rpm indicator falls within the Green sector of the rpm scale.
The rpm check screen will continue to be displayed until:
- The rpm measurement is within the specified range, or
- The “Continue” button is pressed.
• The Normal Idle Preconditioning Countdown Screen will automatically be shown when the rpm measurement is within the limit range or the
“Continue” button is pressed in the rpm check screen.
Figure 9-14
Normal Idle Preconditioning Countdown
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The screen will show the instruction ”MAINTAIN SPEED – 20
SECONDS” together with a 20 second countdown.
• Hold the accelerator depressed and maintain the engine rpm within the normal idle range.
If, during the 20 second countdown, the engine rpm moves out of range, the instruction on the screen will change to “BRING RPM BACK WITHIN
LIMITS”. When the rpm is once more within limits the procedure will return to the countdown screen. The countdown will continue during the time that the rpm measurement is out of limits.
• The operator may proceed to the
Normal Idle Measurement Phase at
any time, irrespective of the measured rpm value, by pressing the
“Continue” button.
The procedure will continue to the
Normal Idle Measurement Phase :
- Automatically after the 20 second countdown is completed, or
- When the “Continue” button is pressed.
9.10 Normal Idle Measurement Phase
The Normal Idle Measurement Phase occurs in all SUN EEC test procedures.
The Normal Idle limit values will be applied during the Normal Idle
Measurement Phase. The values applied will depend on the test selected (Catalyst, Non-catalyst pre 10 – 86, or Non-catalyst post 10 –
86).
During this phase, all parameters will be continuously determined. The measured values for CO, rpm and oil temperature will be displayed.
• The Normal Idle Measurement Phase may be entered:
- Automatically at the end of the preconditioning phase countdown
(20 seconds).
- Manually, by pressing the “Continue” button from the Normal Idle
Preconditioning Countdown Screen.
On entering the phase the procedure will check the current status of the engine rpm measurement.
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• If the rpm value is outside the specified range, The Normal Idle
Measurement RPM Check Screen will be shown.
Figure 9-15
Normal Idle Measurement RPM Check
The screen will show the instruction “BRING RPM WITHIN LIMITS”.
• Adjust the engine speed until the rpm indicator falls within the Green sector of the rpm scale.
The rpm check screen will continue to be displayed until:
- The rpm measurement is within the specified range, or
- The “Continue” button is pressed.
• The operator may proceed from The rpm check screen to the normal idle measurement countdown screen at any time, irrespective of the measured rpm values, by pressing the “Continue” button.
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• If the rpm value is within the specified range when entering the
Normal Idle Measurement Phase, the countdown screen be shown immediately.
Figure 9-16
Normal Idle Measurement Countdown
The screen will show the message “MAINTAIN SPEED – 15
SECONDS”.
A 15 second countdown will be displayed. At the end of the countdown period, the last measured values will be saved and the procedure will continue automatically to the Results Phase.
• If the “Continue” button is pressed from the countdown screen, all measurements will be saved and the procedure will advance to the
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• If the measured rpm value moves outside the specified range during the countdown period, The Normal Idle Measurement RPM Warning
Screen will be displayed showing the message “BRING RPM BACK
WITHIN LIMITS”.
Figure 9-17
Normal Idle Measurement RPM Warning
When the rpm value has been brought within the specified range, the countdown screen will be displayed once more. The countdown will continue during the period that the rpm measurement is out of limits.
• The operator may return to The countdown screen from the rpm warning screen at any time, irrespective of the measured rpm value, by pressing the “Continue” button.
The procedure will continue to the
- Automatically after the 15 second countdown is completed, or
- When the “Continue” button is pressed.
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9.11 Results Phase
The Results Phase is found in all Sun EEC test procedures.
• The Results Phase may be entered:
- Automatically at the end of the
countdown (15 seconds).
- Manually, by pressing the “Continue” button from the Normal Idle
Countdown Screen.
- As illustrated by the figures below the results screen that will be displayed will depend on the test conducted:If a Catalyst Test has been performed the Results Screen will appear as illustrated by
.
Figure 9-18
The EEC Catalyst Test Results Screen
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If a Non-catalyst Test has been performed the Results Screen will appear as illustrated by
Figure 9-19
The EEC Non-catalyst Test Results Screen
The results screens will show:
- The measured or calculated values for the various test parameters.
- The applied limit values (where applicable).
- The overall test result (pass/fail).
- The test result for each limit set (pass/fail).
Measurement parameters for which no results were obtained and available limit values for which no limits were specified will be represented by a series of dashes.
Individual parameter results that are within the specified limit range will be indicated by a Green background.
Individual parameter results that are outside the specified limits will be indicated by a Red background.
Parameters to which no limits were applied will have a neutral (Grey) background.
• Press the “Print” toolbar button to make a printout of the test results.
Refer to 5.6: ‘Print’ for details of the DGA 2500 print procedure.
• Press the “Vehicle Set-up” toolbar button to return to the
Screen (see section
The limit values applied for the current test will appear in the Vehicle Setup Screen until superceded.
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• Press the “Gas Analyser” toolbar button to return to the
).
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10
Maintenance
The “Maintenance” section of this manual is divided into three main subsections:
- Operator initiated system checks.
- Routine maintenance procedures.
- Error codes and warnings.
10.1 System Checks
The operator may initiate the following system checks:
-
-
-
-
Check and/or Install the O2 Cell .
All the above checks are initiated via the
).
10.2 Leak Check (Vacuum)
Note:
p
A daily check of the gas analyser pneumatic circuit for air leaks that could compromise the accuracy of the test results is a mandatory requirement of many country specific test procedures (see
Leak Check’ ). If the DGA 2500 is configured for an approval type that
requires such a daily leak check, the appropriate settings will be made at the time of the installation of the test software. In this case the unit will not commence normal operation unless a satisfactory leak check has been carried out. In order to ensure the continued accuracy of the test results, it is recommended that a daily leak check be carried out at the start of the day’s operation even in cases where such a test is not a statutory requirement.To conduct a Leak Check (Vacuum):
• Select the “Leak Check (Vacuum)” option from the
)
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The Leak Check (Vacuum) screen will be displayed instructing the operator to block the sample probe inlet.
Figure 10-1
Leak Check (Vacuum) Initialization
• Block the probe inlet using the Probe Sealing Tool (p/n 7009E9317-
46) supplied with the unit.
The screen will indicate that the unit has entered a stabilisation period during which the pump will build up a vacuum in the gas analyser pneumatic circuit. The current vacuum will be displayed in mBar and a status bar will indicate a 20 second countdown.
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ACUUM
)
At the end of the stabilisation period, the pump will cut out and the unit will measure the vacuum decay over a further 20 second period. During this measurement period the current vacuum and the vacuum decay will be dislayed. A status bar will show a 20 second countdown.
Figure 10-2
Leak Check (Vacuum) Measurement
After the elapse of the decay measurement period the screen will indicate either a successful or unsuccessful test result
Figure 10-3
Leak Check (Vacuum) Result
• If the leak check is successful, unblock the probe tip, store the Probe
Sealing Tool in a safe place until it is required again and press
“Continue” to return to the
Gas Analyser Maintenance Menu .
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• If the leak check is unsuccessful, check all filter and hose connections for tightness and ensure that the sample hose is not damaged.
Repeat the Leak Check (Vacuum). Refer to
10.6.3: ‘Sample Probe and Hose’ ) for information on how to isolate possible leaks in the
sampling system (Probe, Hose and Gas Filter).
• If a satisfactory result is still not obtained, and the sample hose and connections are in order, conduct a Leak Check (Gas) (see below,
10.3: ‘Leak Check (Gas)’ ) to eliminate the possibility that a leak in the
gas module water circuit is influencing the result of the Leak Check
(Vacuum).
10.3 Leak Check (Gas)
The Leak Check (Gas) tests for gas/air leaks in the pneumatic system of the gas analyser but is not influenced by leaks occuring in the gas module water circuit. Since leaks in the water circuit do not compromise measurement accuracy, a successful Leak Check (Gas) is considered to fulfill the requirement for a daily leak check even if a previous Leak
Check (Vacuum) has been unsuccessful (see
Note:
p
It will be apparent that a successful Leak Check (Gas) following an unsuccessful Leak Check (Vacuum) indicates an internal leak in the gas module water circuit. Although measurements will not be blocked and normal unit operation may continue, contact your SUN dealer or Service
Representative to arrange for water circuit service.
To conduct a Leak Check (Gas):
• Select the “Leak Check (Gas)” from the Gas Analyser Maintenance
).
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AS
)
• The Leak Check (Gas) screen will be displayed instructing the operator to inset the sample probe in the vehicle tail pipe and showing the current measured level of CO
2.
Figure 10-4
Leak Check (Gas) Initialization
• Start the vehicle engine (if not already running) and insert the sample probe fully into the exhaust tailpipe.
The unit will collect an exhaust gas sample from the vehicle and the CO
2 concentration will be continuously measured and displayed. When the proper CO
2 threshold has been reached (+/- 5% vol) the screen will indicate that a 20 second stabilisation period has begun. A status bar representing a 20 second countdown will be shown (figure 10-5).
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At the end of the stabilisation period the pump will switch off and the screen will ask the operator to remove the probe from the tailpipe and block the probe tip using the Probe Sealing Tool (p/n 7009E9317-46).
Figure 10-5
Leak Check (Gas) - Block Probe Tip
• Remove the sample probe from the vehicle exhaust, block the probe tip and press the “Continue” button to proceed.
After the “Continue” button is pressed, the pump will re-start and the unit will enter the measurement phase in which the decay in the concentration of CO
2
will be determined. The vacuum, CO
2
level and
CO
2
decay will be continuously measured and the values for CO
2
and
CO
2
decay will be displayed. The status bar will show a 20 second countdown during the decay measurement phase.
86
Figure 10-6
Leak Check (Gas) - Measurement
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At the end of the measurement phase the screen will indicate whether the leak check was successful or unsuccessful.
• If the leak check has been successfully performed, unblock the probe tip, store the Probe Sealing Tool in a safe place until it is required
again and press “Continue” to return to the Gas Analyser
Maintenance Menu . If the leak check was unsuccessful, check the
sampling system for loose connections and/or damage and repeat the test.
If the sampling sytem is in good order and the leak check is still not satisfactory, an internal leak in the gas module is indicated. Contact your
SUN
®
dealer or Service Representative.
10.4 Gas Calibration Check
The Gas Calibration check tests the calibration of the gas measurement system against a calibration gas of a known composition. This check should be carried out by the operator as and when necessary using a
1% accuracy gas mixture of:
- 1.3 – 1.7% vol CO
- 10.5 – 11.55 %vol CO
2
- 540 – 660 ppm vol HC.
Note:
p
The Gas Calibration Check should not be confused with the full gas calibration that should only be carried out by a SUN Service Engineer.
The DGA 2500 system may be set to specify that a full gas calibration be performed at specified intervals (normally once every 12 months). If such a setting has been entered into the system, the unit will give a warning that a full gas calibration is required.
• Select the “Gas Calibration Check” option from the
The Gas Calibration screen will be displayed holding two drop-down menus (“Lambda calculated for” and “HC represents”) and measurement fields for CO, CO
2
, HC, NO, O
2
and lambda.
• Select a fuel type from the “Lambda calculated for” drop-down menu.
The alternatives (Petrol, LPG, and CNG) represent the three possible fuel types available.
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• Select a gas mixture from the “HC represents” drop-down menu.
88
Figure 10-7
Gas Calibration Check
The available options are:
- C
3
H8 (Propane)
- C
6
H
14
(Hexane)
- CH
4
(Methane)
- LPG (Liquified Pertroleun Gas).
The default setting is HC represents C
6
H
14
(Hexane).
• Connect the calibration gas bottle to the calibration gas inlet on the gas module rear panel, set the flow to 5 liters/min and turn on the gas.
• Allow the readings to stabilise and compare the readings obtained by the analyser with the known composition of the calibration gas. The indicated ppm vol reading for HC must be the same as the known concentration of HC in the gas bottle.
• When the check is completed, turn off the gas and disconnect the gas cylinder from the calibration gas inlet.
• Press “Back” to return to the
Gas Analyser Maintenance Menu .
10.5 Check and/or Install the O
2
Cell
The O
2
cell generates an electrical voltage proportional to the O
2
present in the exhaust sample. The anlyser interprets this voltage and displays the O
2 content as a percentage. After a zero calibration the O
2 concentration should read approximately 20.93 %vol.
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ELL
Due to the chemical processes within the O2 cell it has a limited life. The current status of the cell may be derived from it’s output voltage which is monitored by the unit software. If the output voltage falls below 7.5 mV the unit will display a warning that the cell will soon require replacement
(“Pre-warning – change O
2
cell”). The unit will display an error message that cell must be changed if the output voltage drops to 7 mV (“Change
O
2
cell”). The condition of the cell may be checked at any time by using the O
2
Check/Install facility built into the software.
To check the status of the cell:
• Select the “O
2
Check/Install” option from the
The “O
2
Check/Install” screen will be displayed showing the message
“CHECKING O
2
CELL – PLEASE WAIT” .
Figure 10-8
O2 Sensor Status Check
• The unit will proceed to determine and display the cell output voltage and will show the cell status as follows:
- Output voltage 7.5 mV or more – “Acceptable O
2
cell”.
- Output voltage between 7.0 mV and 7.5 mV – “Pre-warning change O
2
cell”.
- Output voltage less than 7.0 mV – “Change O
2
cell”.
- Output voltage –2.5 mV – “No O
2
cell connected”.
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• Press “Exit” to return to the
Gas Analyser Maintenance Menu or
“Continue” to proceed with the installation of a new cell .
Figure 10-9
O2 Sensor Status Check - Result
Note:
p
Once “Continue” is pressed the installation procedure must be completed even if a new cell is not installed. If the old cell remains in situ the software will see the existing cell as a new cell and will require that the auto-calibration refered to below be performed.
The screen will show “Change O
2
cell” and ask the operator to press
“Continue” in order to proceed with the installation of a new cell.
To install a new cell:
• Remove the O
2
/NO cell cover plate on the rear panel of the gas module, remove the connector from the existing O
2
cell and turn the cell anti-clockwise to remove it.
• Install the new cell and replace the connector.
• Press “Continue”.
The unit will determine the output voltage of the new cell. If the new cell is acceptable the screen will prompt the operator to press
“Continue” to initiate an auto-calibration.
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ELL
• Press “Continue” to initiate the auto-calibration .
Figure 10-10
O2 Sensor Replacement - Auto-calibration
The unit will initiate the auto-calibration and the auto-calibration pop-up window will apppear showing the auto-calibration countdown. At the end of the auto-calibration the screen will show the message “Installation complete” and prompt the operator to press “Exit” to leave the installation procedure.
• Press “Exit” to return to the Gas Analyser Maintenance screen.
• Replace the O
2
/NO sensor cover plate.
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10.6 Routine Maintenance Procedures
Caution:
c
The maintenance and service procedures presented in this section are those that the operator may perform. All other service procedures should only be carried out by an authorised sun service representative.
The SUN Diagnostic Gas Analyser is a precision measurement instrument that requires little maintenance, nevertheless, the following maintenance and service procedures should be carried out in order to maintain the accuracy of the test results.
10.6.1 Periodic Checks
- A Leak Check (Vacuum) or a Leak Check (Gas) should be carried out daily, before the start of operation. Refer to
10.3: ‘Leak Check (Gas)’ for further information.
- A Gas Calibration Check should be carried out as and when required or when indicated by the system. Refer to section
for further information.
10.6.2 Filters
Caution:
c
Failure to adequately maintain the filters will invalidate the DGA
2500 Warranty.
- CHARCOAL FILTER (p/n 7096E9061-54). The charcoal filter should be replaced when the annual gas calibration is carried out.
- WATER FILTER (Blue, p/n 7096E9061-0). The water filter should be replaced when it has become very dirty or clogged.
- GAS FILTER (White; p/n 7096E9061-03). The gas filter should be replaced when the “Low Flow” warning message is displayed, or when it has become very dirty or clogged.
- PRIMARY (PETROL) FILTER (p/n 7096E9062-98. The primary filter should be replaced when clogged.
More frequent filter service will be required when:
- The analyser is in constant use.
- Testing vehicles not warmed up to normal operating temperature.
- Testing vehicles with very high emissions.
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10.6.3 Sample Probe and Hose
Periodically check the inlet holes at the probe tip for dirt and debris. To clean:
• Disconnect the sample hose from the analyser at the sample inlet.
• Clean the probe tip using a small pointed tool or piece of thin wire.
• Blow any remaining debris away using compressed air.
Caution:
c
Do not apply compressed air to the probe tip without first disconnecting the sample hose from the sample inlet.
Backpressure could damage the sampling system.
The sample hose should be free of any cuts or abrasions that may cause leaks. Follow the leak check procedures in this manual and replace any damaged hoses.
Use the following test/repair procedure if the analyser fails a
1. Ensure that assembly connections on the exhaust sample probe and filters are tight.
a. If tight, continue with step 2.
b. If loose tighten and repeat the leak check.
c. If the analyser fails the leak check, proceed with step 2.
2. Remove the sample probe from the hose and plug the hose. Repeat the leak check.
a. If the test fails, continue with step 3.
b. If the test is successful, install a new sample probe and repeat the test to check for other leaks.
c. If the test still fails, continue with step 3.
3. Remove the exhaust sample hose from the inlet fitting and plug the inlet fitting. Repeat the leak check.
a. If the test fails, proceed with step 4.
b. If the test is successful, install a new hose and repeat the leak test to check for other leaks.
c. If the test still fails, continue with step 4.
4. Pinch off the tube connected to the gas filter with a small vise grip or needle nose style pliers. Repeat the leak check.
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a. If the test fails, the problem is either the hose or there is an internal leak in the analyser. Contact your SUN Service
Representative for repair service.
b. f the test is successful, a gas filter leak is indicated. Replace the gas filter and repeat the leak test.
c. If the test is successful, the leak is repaired.
d. If the test fails, contact your SUN Service Representative for repair service.
10.6.4 Test Leads
- Inspect all test leads weekly for any cuts, kinks or abrasions and replace any faulty pick-ups or leads.
- When routing leads across an engine, ensure that they do not come into contact with any moving engine components or hot surfaces such as exhaust manifolds etc.
- Trigger clamps should be kept free from oil, grease and other contaminants and should be cleaned to minimise false triggering and, therefore, false measurements.
10.6.5 O
2
Cell
- The unit will indicate when the O2 cell requires replacing by showing the “Pre-warning change O
2
cell” and “Change O
2
cell” warning messages. Refer to
10.5: ‘Check and/or Install the O2
Cell’ for further information.
10.6.6 NO Cell (Optional)
- Replace the NO cell every two years. The replacement must be done by an authorised SUN Service Representative.
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10.6.7 General
- The exterior of the cabinet may be cleaned using a damp soft lintfree cloth. Use a mild detergent to remove grease.
Caution:
c
Do not use solvents (acetone, benzine etc.). These can damage plastic components and affect sampling accuracy if they contaminate the sampling system.
- Clean up any liquid spills immediately to protect the exterior of the unit and to prevent any spillage from entering the ventilation vents.
- Test leads and the main power cable may be cleaned by using a water-free hand-cleanser and wiping dry with a cloth.
10.7 Error, Warning and System Status
Messages
The DGA 2500 system gives error, warning and system status messages in two ways:
- By means of automatic pop-up windows.
- By means of the “Error/Warning” button on the toolbar.
10.7.1 Automatic Pop-up Windows
Automatic pop-up windows will be displayed to indicate the following system statuses:
- Warm-up
- Zero-calibration.
- HC residue check .
Figure 10-11
Warm-up
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Figure 10-12
Zero Calibration
96
Figure 10-13
HC Residue Check
Each of the above statuses is represented by its own automaticaly displayed pop-up window, showing the status concerned together with a countdown of the time remaining in that status.
The windows can either be closed manually to allow access to the screen buttons or will close automaticaly when the system moves into another status. In the event of a pop-up window being automaticaly closed, it will remain hidden when moving between menu or setup screens but will reappear if a different mode (e.g. leak check, system information display etc.) is selected.
Note:
p
The three statuses will be run in sequence upon power-up or when returning from standby mode.
a. The Zero-calibration and HC residue check will be run in sequence following the manual initiation of an auto-calibration.
b. An automaticaly triggered auto-calibration will not be followed by an HC residue check.
c. In the event of a maintenance function (e.g. leak check) being selected whilst a power-up or manually initiated auto-calibration is in progress, the auto-calibration pop-up window will be displayed and the auto-calibration will be completed. The subsequent HC residue check will be postponed or aborted until the maintenance mode is exited.
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10.8 The Error/Warning Button
The “Error/warning” button will appear on the right hand side of the toolbar whenever an error or warning condition is detected. Examples of such conditions are messages concerning the status of the O
2
Sensor, insufficient gas flow, daily leak check requirement etc.
• Select the Error/Warning button in order to review the error/warning messages.
The Error/Warning pop-up window will be displayed showing the error/warning code together with a brief description of the cause of the error/warning message.
The Error/Warning pop-up window may be closed at any time by selecting the “Close” button.
The Error/Warning button will disappear automatically when the conditions giving rise to the error/warning message(s) are rectified.
Error/Warning codes and messages may be of two types:
- Messages relating to the DGA 2500 system.
- Messages relating to the gas bench
The possible error codes are show by the tables below.
Table 10-1
Gas Bench Error Codes
15
17
19
08
10
11
13
04
05
06
07
Error Code Description
01 ADC HC out of tolerance
02
03
ADC CO out of tolerance
ADC CO2 out of tolerance
ADC NO out of tolerance
ADC O2 out of tolerance
analog input 1 out of tolerance
analog input 2 out of tolerance
pressure measurement out of tolerance
temperature CO/CO2 out of tolerance
temperature HC out of tolerance
source temperature 3K out of tolerance
supply voltage out of tolerance
supply voltage 3K source out of tolerance
HC zero cal error
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Table 10-1
Gas Bench Error Codes
55
56
57
59
49
51
52
53
60
61
67
44
45
47
48
39
40
41
43
33
34
35
38
26
29
30
32
22
23
24
25
Error Code Description
20
21
CO zero cal error
CO2 zero cal error
NO zero cal error
HC gain cal error at 1 point
CO gain cal error at 1 point
CO2 gain cal error at 1 point
NO gain cal error at 1 point
ADC error
source 3K error
chopper motor error
analog input 1 error
analog input 2 error
pressure sensor error
EEprom error
HC signal change too small at temp. compensation
CO signal change too small at temp. compensation
CO2 signal change too small at temp. compensation
HC signal change too high at temp. compensation
CO signal change too high at temp. compensation
CO2 signal change too high at temp. compensation
HC simulated signal at 10 C out of tolerance
CO simulated signal at 10 C out of tolerance
CO2 simulated signal at 10 C out of tolerance
HC simulated signal at 50 C out of tolerance
CO simulated signal at 50 C out of tolerance
CO2 simulated signal at 50 C out of tolerance
no HC cal with low level gas at 2 point cal
no CO cal with low level gas at 2 point cal
no CO2 cal with low level gas at 2 point cal
no HC cal with high level gas at 2 point cal
no CO cal with high level gas at 2 point cal
no CO2 cal with high level gas at 2 point cal
HC iteration error at 2 point cal
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Table 10-1
Gas Bench Error Codes
80
81
87
71
72
73
75
Error Code Description
68
69
CO iteration error at 2 point cal
CO2 iteration error at 2 point cal
HC gas tag conversion error at 2 point cal
CO gas tag conversion error at 2 point cal
CO2 gas tag conversion error at 2 point cal
mathematic error
NO sensor not connected
O2 sensor not connected
O2 zero error
Table 10-2
SUN System Error Codes
15
16
17
18
19
20
11
12
13
14
07
08
09
10
03
04
05
06
Error Code Description
00 Change O2 Cell
01
02
Pre_Warning Change O2 Cell
Temperature limit exceded
BGL
Water Detected
Sibench errors
Auto zero calibration pending
Condensation in Sibench Detected
Low Flow
Vacuum Error
Temperature Error
Co2 too high while HC-residue check active
Gasbench driver error
No NO-CELL
No O2-CELL
No Flow
No Acceptable new cell
Change NO-CELL
NO-CELL gas required
Gas calibration required
Pre Warning Gas calibration required
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Error Code Description
21
248
Leak Check Required
Error cannot open the device ROTI
249
259
260
261
262
Error cannot open the device SGM
GasModule can’t connect
Error Time Out
Error Nak
Error Crc Cmd
10.9 Maintenance Parts
The following maintenance parts are available for Operator Maintenance
Procedures:
Table 10-3
Operator Maintenance Parts
Part No.
Description
7096E9321-25 Exhaust Probe Assembly
7096E9061-40 Exhaust Sample Hose
7009E9317-46 Exhaust Probe Sealing Tool
7096E9061-02 Water Filter
7096E9061-03 Gas Filter
7096E9062-98 Primary Filter
7096E9061-54 Charcoal Filter
7096E4060-31 Oxygen Sensor
EAX0048E03A Trigger Pick-up Assembly (Grey) 1.2 m
EAX0048E04A Low Temperature Probe and Lead Assembly
100 DGA 2500 2002 - 11
Index
A
Application Version, see Gas Analyser
B
Buttons
C
D
Daily Leak Check, see Start-up
DGA 2500 11
E
Fast Idle Measurement Phase 70
Fast Idle Preconditioning Phase 66
Normal Idle Measurement Phase 74
Normal Idle Preconditioning Phase 72
EEC Test Procedure Vehicle Setup 58
Error Codes
F
Factors, see Gas Analyser System
File Versions, see Gas Analyser System
Free Measurement
Free Measurement Vehicle Setup 46
Fuel Type
Selection In Free Mesurement 47
Fuel Type Selection, see Setup
G
Gas Analyser System Information 28
Gas Analyser System Settings 25
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Gas Bench
Gas Calibration Check, see Maintenance
Gas Settings, see Gas Analyser System
Gas Tag Values, see Gas Analyser System
H
HC Residue Check
L
Lambda/AFR Selection, see Gas Analyser
Leak Check (Gas), see Maintenance
Leak Check (Vacuum), see Maintenance
Editing in Free Measurement 49
LPG Composition, see Gas Analyser System
M
Gas Analyser Maintenance Menu 25
Measurements
N
NO Sensor Replacement, see Maintenance
O
O2 sensor Check/Install, see Maintenance
P
Propane Equivalence Factor (P.E.F.) 10
S
Sample Hose & Probe, see Maintenance
Service Dates, see Gas Analyser System
Setup
See alsoFree Measurement Vehicle
See also EEC Test Procedure Vehicle
Start-up
Daily Leak Check Requirement 35
Summertime Setting, see Gas Analyser
T
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Vehicle Categories (EEC Test) 57
W
Z
Zero Calibration
Zero-calibration, see Start-up 34
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Key Features
- PC-based test instrument
- High-performance
- OIML Class 1 and 0 compliant
- ISO 3930 compliant
- Measures up to 5 gases
- Displays Lambda
- Measures engine speed
- Measures oil temperature
- Free Measurement procedure
- SUN EEC test procedure
Frequently Answers and Questions
What gas measurements can the DGA 2500 perform?
What other parameters can the DGA 2500 display?
What test procedures are included with the DGA 2500?
Related manuals
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Table of contents
- 7 Table of Contents
- 11 Notes on User Documentation
- 13 1 Safety
- 13 Safety Notice
- 14 Read all Instructions
- 14 Conventions
- 15 2 Product Specification
- 15 General
- 15 Gas Bench
- 16 Propane Equivilance Factor
- 17 3 Introduction
- 17 The DGA
- 18 Maintenance
- 19 Options
- 21 4 Functional Description
- 21 Platform Layout
- 21 Gas Module Layout
- 23 Common Program Elements
- 23 Gas Analyser Icons
- 27 5 System and Gas Analyser General Screens
- 28 Gas Analyser Menu
- 30 The Gas Analyser System Menu
- 31 Gas Analyser Maintenance Menu
- 32 Gas Analyser System Settings
- 34 Gas Analyser System Information
- 35 Print
- 37 6 Preparatory Steps
- 37 Connections
- 37 Power Connections
- 37 Data Connections
- 38 Gas Module Pneumatic Connections
- 38 Start-Up
- 38 Power Up
- 39 Gas Analyser Start-up
- 39 Warm up
- 40 Zero-calibration
- 41 Daily Leak Check
- 42 HC Residue Check
- 43 Settings
- 43 Fuel Type Selection
- 43 Speed Factor Setting
- 43 Lambda/AFR Selection
- 44 Vehicle Connections
- 44 RPM Pick-Up
- 44 Oil Temperature Probe
- 45 7 Operation — General
- 45 Testing Tips
- 46 Measurement Procedure
- 47 Shut Down Procedure
- 49 8 Operation – The Free Measurement Procedure
- 50 The Free Measurement Screen
- 52 Free Measurement Vehicle Setup
- 54 Saving and Loading Vehicle Setups
- 55 Editing Limit Sets
- 56 Free Measurement Test Procedure
- 57 Storing Data in the Data Buffers
- 60 The Print Preview Window
- 61 Printing Test Results
- 63 9 Operation – The SUN EEC Test Procedure
- 63 Introduction
- 64 SUN EEC Test Vehicle Set-up
- 67 Editing Limit Sets
- 68 Saving and Loading Vehicle Set-ups
- 70 Test Procedure Summary
- 71 Initialization Phase
- 72 Fast Idle Preconditioning Phase
- 76 Fast Idle Measurement Phase
- 78 Normal Idle Preconditioning Phase
- 80 Normal Idle Measurement Phase
- 84 Results Phase
- 87 10 Maintenance
- 87 System Checks
- 87 Leak Check (Vacuum)
- 90 Leak Check (Gas)
- 93 Gas Calibration Check
- 94 Check and/or Install the O2 Cell
- 98 Routine Maintenance Procedures
- 98 10.6.1 Periodic Checks
- 98 10.6.2 Filters
- 99 10.6.3 Sample Probe and Hose
- 100 10.6.4 Test Leads
- 100 10.6.5 O2 Cell
- 100 10.6.6 NO Cell (Optional)
- 101 10.6.7 General
- 101 Error, Warning and System Status Messages
- 101 10.7.1 Automatic Pop-up Windows
- 103 The Error/Warning Button
- 106 Maintenance Parts
- 107 Index