Emerson Hasxee Im Hs Users Manual

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Instruction Manual
HASXEE-IM-HS
10/2010

Gas Analyzer Series
Instruction Manual

www.EmersonProcess.com

ESSENTIAL INSTRUCTIONS

READ THIS PAGE BEFORE PROCEEDING!
Emerson Process Management (Rosemount Analytical) designs, manufactures and
tests its products to meet many national and international standards. Because these
instruments are sophisticated technical products, you MUST properly install, use, and
maintain them to ensure they continue to operate within their normal specifications.
The following instructions MUST be adhered to and integrated into your safety program
when installing, using and maintaining Emerson Process Management (Rosemount
Analytical) products. Failure to follow the proper instructions may cause any one of the
following situations to occur: Loss of life; personal injury; property damage; damage to
this instrument; and warranty invalidation.
•	 Read all instructions prior to installing, operating, and servicing the product.
•	 If you do not understand any of the instructions, contact your Emerson Process
Management (Rosemount Analytical) representative for clarification.
•	 Follow all warnings, cautions, and instructions marked on and supplied with the
product.
•	 Inform and educate your personnel in the proper installation, operation, and
maintenance of the product.
•	 Install your equipment as specified in the Installation Instructions of the
appropriate Instruction Manual and per applicable local and national codes.
Connect all products to the proper electrical and pressure sources.
•	 To ensure proper performance, use qualified personnel to install, operate, update,
program, and maintain the product.
•	 When replacement parts are required, ensure that qualified people use replacement
parts specified by Emerson Process Management (Rosemount Analytical).
Unauthorized parts and procedures can affect the product’s performance, place the
safe operation of your process at risk, and VOID YOUR WARRANTY. Look-alike
substitutions may result in fire, electrical hazards, or improper operation.
•	 Ensure that all equipment doors are closed and protective covers are in place,
except when maintenance is being performed by qualified persons, to prevent
electrical shock and personal injury.
The information contained in this document is subject to change without notice.
X-STREAM and IntrinzX are marks of one of the Emerson group of companies.
All other marks are property of their respective owners.
2nd edition, 2010-10

Rosemount Analytical
Process Gas Analyzer Center of Excellence
Emerson Process Management GmbH & Co. OHG
Industriestrasse 1
63594 Hasselroth
Germany
T +49 6055 884 0
F +49 6055 884 209

HASXEE-IM-HS
10/2010

X-STREAM XE
Table of contents

Instruction manual

SHORT FORM GUIDE FOR THIS MANUAL
see chapter

TOC

To find information about	

Safety instructions  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  . S
The different instruments designs . .  .  .  .  .  .  .  .  .  .  .  .  .  . 1
The instruments technical data .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  . 2
Measuring principles characteristics  .  .  .  .  .  .  .  .  .  .  .  . 3
How to install the instruments .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  . 4
1st startup procedures,
checking the instrument´s setup .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  . 5
Software menu structure, how to navigate
and menu entries descriptions  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  . 6
Basic procedures (e.g. calibration) .  .  .  .  .  .  .  .  .  .  .  .  .  . 7
Maintenance procedures  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  . 7
Status messages and troubleshooting .  .  .  .  .  .  .  .  .  .  . 8
Modbus parameters  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  . 9
Service information .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  . 10
Dismounting and disposal of instruments .  .  .  .  .  .  . 11
Block diagrams, terminals & connectors .  .  .  .  .  .  .  . A
Index .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  .  . I

Emerson Process Management GmbH & Co. OHG

TOC-1

Instruction manual

X-STREAM XE

HASXEE-IM-HS
10/2010

Table of Contents
Introduction	

S-1

Definitions	

S-1

Safety instructions	

S-5

Chapter 1 Technical description	

1-1

Terms used in this instruction manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . S-2
Symbols used on and inside the unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . S-3
Symbols used in this manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . S-4
Intended use statement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
General safety notice / Residual risk . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Authorized personnel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Disposal of batteries  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Installing and connecting the unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Operating and maintaining this unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

S-5
S-5
S-6
S-6
S-7
S-7

1.1	 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
1.1.1	 The Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
1.2	 Configuration of Gas Lines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
1.2.1	 Materials Used . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
1.2.2	 Safety Filter  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
1.2.3	 Gas Inlets and Outlets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
1.2.4	 Tubing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
1.2.5	 Infallible Containments  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
1.2.6	 Optional Components for Gas Lines  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6
1.2.7	 Alternative Configurations  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-9
1.3	 Interfaces  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10
1.3.1	 Analog Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10
1.3.2	 Status Relays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10
1.3.3	 Modbus Interface, Ethernet  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-11
1.3.4	 Serial Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-11
1.3.5	 USB Interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-11
1.3.6	 Optional Interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-12
1.4	 Comparison of the Various X-STREAM Analyzer Models . . . . . . . . . . . . . . . . . . . . . . . 1-13
1.5	 X-STREAM XEGC: ½ 19 Inch Table-Top Unit  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-15
1.6	 X-STREAM XEGP: 19 inch table-top or rackmount design  . . . . . . . . . . . . . . . . . . . . . 1-17
1.7	 X-STREAM XEF/XDF: Field Housing With Single Or Dual Compartment . . . . . . . . . . 1-19
1.7.1	 Field Housings for Installation in Hazardous Areas (Ex-Zones) . . . . . . . . . . . . . . . . . 1-23
1.8	 X-STREAM XEFD: Cast Aluminum Flameproof Housing . . . . . . . . . . . . . . . . . . . . . . . 1-24

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Instruction manual

Chapter 2 Technical data	

2-1

Chapter 3 Measuring Principles	

3-1

Chapter 4 Installation	

4-1

Chapter 5 Startup	

5-1

2.1	 Common Technical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2
2.2	 Model-Specific Technical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6
2.2.1	 X-STREAM XEGC: ½ 19 Inch Tabletop Unit  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6
2.2.2	 X-STREAM XEGP: 19 Inch Tabletop and Rack-Mount Models . . . . . . . . . . . . . . . . .2-12
2.2.3	 X-STREAM XEF/XDF: Single/Dual Compartment Field Housing  . . . . . . . . . . . . . . . 2-15
2.2.4	 X-STREAM XEFD: Flameproof Housing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-19
2.3	 Information on Name Plate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-22
3.1	 Infrared Measurement (IR), Ultraviolet Measurement (UV)  . . . . . . . . . . . . . . . . . . . . . . 3-1
3.1.1	 IntrinzX Technology  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1
3.1.2	 NDIR Detector  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3
3.1.3	 Technical Implementation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4
3.2	 Oxygen Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-5
3.2.1	 Paramagnetic Measurement  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-5
3.2.2	 Electrochemical Measurement (I) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8
3.2.3	 Special Hints  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-10
3.3	 Thermal Conductivity Measurement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-11
3.3.1	 Principle of Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-11
3.3.2	 Technical Implementation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-12
3.4	 Measurement Specification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13
4.1	 Scope of Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
4.2	 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2
4.3	 Gas Conditioning  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-3
4.4	 Electrical Connections  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-6
4.5	 Analyzer Specific Instructions for Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-7
4.5.1	 X-STREAM XEGC, X-STREAM XEGP  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-8
4.5.2	 X-STREAM XEF, X-STREAM XDF  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-19
4.6	 Notes On Wiring Signal Inputs and Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-31
4.6.1	 Electrical Shielding of Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-31
4.6.2	 Wiring Inductive Loads . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-34
4.6.3	 Driving High-Current Loads . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-34
4.6.4	 Driving Multiple Loads  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-35
5.1	 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1
5.2	 Symbols and Typographical Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2
5.3	 Front Panel Elements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-3

Emerson Process Management GmbH & Co. OHG

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TOC

Table of Contents

Table of contents

X-STREAM XE

HASXEE-IM-HS
10/2010

Instruction manual

X-STREAM XE

HASXEE-IM-HS
10/2010

Table of Contents
5.3.1	 Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-3
5.3.2	 Status Line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-3
5.3.3	 Keys	  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-4
5.4	 Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-6
5.4.1	 Access Levels & Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-9
5.4.2	 Special Messages  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-10
5.5	 Powering Up  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-10
5.5.1	 Boot Sequence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-10
5.5.2	 Measurement Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-10
5.6	 Selecting the Language  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-12
5.7	 Checking the Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-13
5.7.1	 Installed Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-14
5.7.2	 Configuring the Display  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-15
5.7.3	 Calibration Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-16
5.7.4	 Setting the Analog Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-18
5.7.5	 Setting Concentration Alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-23
5.7.6	 Backup the Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-24
5.8	 Perform a Calibration  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-26

Chapter 6 User Interface and Software Menus	

6-1

Chapter 7 Maintenance and other Procedures	

7-1

6.1	 Symbols and Typographical Conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-1
6.2	 Menu System  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-2
6.2.1	 Switching On  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-4
6.2.2	 Control Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-5
6.2.3	 Setup Menu  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-21
6.2.4	 Status Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-108
6.2.5	 Info Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-122
6.2.6	 Service Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-126
7.1	 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1
7.2	 General Maintenance Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2
7.3	 Performing a Leak Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-4
7.4	 Calibration Procedures  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-5
7.4.1	 Preparing Calibrations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-7
7.4.2	 Manual Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-17
7.4.3	 Advanced Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-20
7.4.4	 Remote Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-32
7.4.5	 Unattended Automatic Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-36
7.4.6	 Verifying a Calibration  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-39

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7.4.8	 Restoring a Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-40
7.4.7	 Cancelling an Ongoing Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-40
7.5	 Replacing the Electrochemical Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-41
7.5.1	 General Hints on Handling the Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-44
7.5.2	 Opening X-STREAM Analyzers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-45
7.5.3	 Locating the Sensor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-47
7.5.4	 Disassembling the Sensor Unit  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-48
7.5.5	 Adjusting the Output Signal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-49
7.5.6	 Finalizing the Sensor Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-50
7.6	 Cleaning the Instrument´s Outside . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-51
7.7	 Save / Restore Configuration Data Sets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-52
7.7.1	 Local Backup - Save  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-54
7.7.2	 Local Backup - Restore  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-55
7.7.3	 Factory Defaults - Restore . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-56
7.7.4	 USB Backup - Save . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-57
7.7.5	 USB Backup - Restore . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-60
7.7.6	 Undo Restore . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-61
7.8	 Handling Log Files  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-62
7.8.1	 Configuring Log Files . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-62
7.8.2	 Exporting Log Files . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-63
7.8.3	 Log Files Content . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-65
7.9	 Files on USB Memory Device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-66
7.9.1	 autorun.inf  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-66
7.9.2	 xe_win_tools.zip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-67
7.10	 Web Browser  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-68

Chapter 8 Troubleshooting	

8-1

8.1	 Abstract . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1
8.2	 Solving Problems Indicated by NAMUR Status Messages . . . . . . . . . . . . . . . . . . . . . . . 8-2
8.2.1	 Analyzer Related NAMUR Messages  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-3
8.2.2	 Channel Related Messages (preceded by Channel Tag, e.g. CO2.1) . . . . . . . . . . . . . 8-8
8.3	 Solving Problems Not Indicated by Status Messages  . . . . . . . . . . . . . . . . . . . . . . . . . 8-12
8.4	 Troubleshooting on Components  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-18
8.4.1	 Opening X-STREAM Analyzers  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-20
8.4.2	 Signal Connectors on XSP Board  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-22
8.4.3	 Sample Pump: Replacement of Diaphragm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-23
8.4.4	 Paramagnetic Oxygen Cell for Standard Applications: Adjustment of Physical Zero . 8-34
8.4.5	 Thermal Conductivity Cell: Adjustment of Output Signal . . . . . . . . . . . . . . . . . . . . . . 8-37

Emerson Process Management GmbH & Co. OHG

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Table of Contents

Chapter 9 Modbus Functions	

9-1

9.1	 Abstract . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1
9.1.1	 Modbus TCP/IP  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1
9.2	 Supported Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-2
9.3	 List of Parameters and Registers - Sorted by Tag Name . . . . . . . . . . . . . . . . . . . . . . . . 9-2
9.4	 List of Parameters and Registers - Sorted by Daniel Registers . . . . . . . . . . . . . . . . . . 9-31

Chapter 10 Service Information	

10-1

Chapter 11 Dismounting and Disposal	

11-1

10.1	 Return of Material . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-1
10.2	 Customer Service . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-2
10.3	 Training . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-2

11.1	 Dismounting and Diposal of the Analyzer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-1

Appendix 	

A-1

A.1	 Modbus Specification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-2
A.2	 EC Declaration of Conformity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-12
A.3	 CSA Certificate of Compliance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-14
A.4	 Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-21
A.5	 Water Vapor: Relationship of Dewpoint, Vol.-% and g/Nm³  . . . . . . . . . . . . . . . . . . . . . A-34
A.6	 Declaration of Decontamination . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-35
A.7	 PLC Quick Reference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-36
A.8	 Assignment of Terminals and Sockets  . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-43
A.8.1	 Tabletop & Rack Mount Analyzers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-43
A.8.2	 Field Housings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-44

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Instruction manual

Tab. 3-1:
Tab. 3-2:
Tab. 3-3:
Tab. 3-4:
Tab. 3-5:
Tab. 3-6:
Tab. 3-7:
Tab. 3-8:
Tab. 3-9:

Standard paramagnetic sensor -cross interference by accompanying gases.............. 3-6
Solvent resistant paramagnetic sensor - approved solvents.....................................3-7
Solvent resistant paramagnetic sensor - medium affected materials .......................3-7
Solvent resistant paramagnetic sensor -cross interference by gases.......................... 3-7
Electrochemical oxygen measurement -cross interference by gases.......................3-10
Examples of specific thermal conductivities............................................................ 3-11
Gas Components and Measuring Ranges, examples.............................................3-13
General Measurement Performance Specifications................................................3-14
Special Performance Specifications for Gas Purity Measurements........................3-15

Tab. 5-1: Analog output signals settings and operation modes..............................................5-21
Tab. 6-1: Analog output failure modes....................................................................................6-61
Tab. 7-1: Digital Inputs Priorities.............................................................................................7-31

Emerson Process Management GmbH & Co. OHG

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Index of Tables

Table of contents

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Instruction manual

X-STREAM XE

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10/2010

Index of Figures
Fig. 1-1:	
Fig. 1-2:	
Fig. 1-3:	
Fig. 1-4:	
Fig. 1-5:	
Fig. 1-6:	
Fig. 1-7:	
Fig. 1-8:	
Fig. 1-9:	
Fig. 1-10:	
Fig. 1-11:	
Fig. 1-12:	

X-STREAM front panel (here the X-STREAM XEGP).............................................1-3
Optional heated area...............................................................................................1-8
Gas flow diagram: single channel or in series.........................................................1-9
Serial Interface Marking.........................................................................................1-11
X-STREAM XEGC - views.....................................................................................1-16
X-STREAM XEGP - Details...................................................................................1-18
X-STREAM XEF / XDF- Front views.....................................................................1-20
X-STREAM XEF - right side and bottom view.......................................................1-21
X-STREAM XEF - power supply and signal terminals...........................................1-22
X-STREAM XEFD - Front view . ...........................................................................1-25
X-STREAM XEFD - Bottom view...........................................................................1-26
X-STREAM XEFD - terminals................................................................................1-27

Fig. 2-1:	
Fig. 2-2:	
Fig. 2-3:	
Fig. 2-4:	
Fig. 2-5:	
Fig. 2-6:	
Fig. 2-7:	
Fig. 2-8:	
Fig. 2-9:	
Fig. 2-10:	
Fig. 2-11:	
Fig. 2-12:	
Fig. 2-13:	
Fig. 2-14:	
Fig. 2-15:	
Fig. 2-16:	
Fig. 2-17:	

X-STREAM XEGC - dimensions.............................................................................2-6
X-STREAM XEGC - connectors and Fuse..............................................................2-6
X-STREAM XEGC - Rack mounting options...........................................................2-7
UPS 01 tabletop power supply unit.........................................................................2-9
UPS 01 power supply unit for rack installation......................................................2-10
10 A tabletop PSU.................................................................................................2-11
X-STREAM XEGP - dimensions............................................................................2-12
X-STREAM XEGP - Power supply and signal connections...................................2-14
X-STREAM XEGP - Signal connections with screw-type terminal adapters.........2-14
X-STREAM XEF - dimensions...............................................................................2-15
X-STREAM XDF - dimensions..............................................................................2-16
X-STREAM XE Field housing - power supply terminals / fuse holders ...............2-18
X-STREAM XE Field housing - signal terminals....................................................2-18
X-STREAM XEFD - dimensions............................................................................2-19
X-STREAM XEFD - Power supply terminals / fuse holders..................................2-21
X-STREAM XEFD - signal terminals.....................................................................2-21
Analyzer name plate (examples)...........................................................................2-22

Fig. 3-1:	
Fig. 3-2:	
Fig. 3-3:	
Fig. 3-4:	
Fig. 3-5:	
Fig. 3-6:	
Fig. 3-7:	

IntrinzX signal forms................................................................................................3-2
Gas detector design principle..................................................................................3-3
Photometer assembly principle...............................................................................3-4
Paramagnetic oxygen sensor - assembly principle.................................................3-5
Electrochemical sensor - design principle...............................................................3-8
Electrochemical sensor - assembly.........................................................................3-8
Electrochemical reaction of oxygen sensor............................................................3-9

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Fig. 3-8:	 Wheatstone Bridge................................................................................................3-11
Fig. 3-9:	 TC cell, exterior view ,thermal isolation removed..................................................3-12
Fig. 3-10:	 TC cell, sectional view...........................................................................................3-12
Fig. 4-1:	
Fig. 4-2:	
Fig. 4-3:	
Fig. 4-4:	
Fig. 4-5:	
Fig. 4-6:	
Fig. 4-7:	
Fig. 4-8:	
Fig. 4-9:	
Fig. 4-10:	
Fig. 4-11:	
Fig. 4-12:	
Fig. 4-13:	
Fig. 4-14:	
Fig. 4-15:	
Fig. 4-16:	
Fig. 4-17:	
Fig. 4-18:	
Fig. 4-19:	
Fig. 4-20:	
Fig. 4-21:	
Fig. 4-22:	
Fig. 4-23:	
Fig. 4-24:	
Fig. 4-25:	
Fig. 4-26:	
Fig. 4-27:	
Fig. 4-28:	
Fig. 4-29:	
Fig. 4-30:	
Fig. 4-31:	

X-STREAM XE Analyzers - scope of supply...........................................................4-1
Labelling of gas connectors (example)....................................................................4-4
Installation in bypass mode.....................................................................................4-5
X-STREAM XEGC - table top version rear panel....................................................4-8
X-STREAM XEGP - table top version rear panel....................................................4-9
X-STREAM XEGP - Rear panel, model with terminal adapters and brackets.......4-10
Socket X1 - Analog & Digital Outputs 1-4.............................................................4-11
Plug X2 - Modbus interface...................................................................................4-12
Configuration of XSTA terminal adapter................................................................4-13
Sockets X4.1 and X4.2 - Pin configuration...........................................................4-14
Configuration of XSTD terminal adapter................................................................4-15
Plug X5 - analog inputs.........................................................................................4-16
Configuration of XSTI terminal adapter.................................................................4-17
24 V DC in connector, pin configuration................................................................4-18
X-STREAM XEF - dimensions for installation......................................................4-19
X-STREAM XDF - dimensions for installation......................................................4-20
X-STREAM XE Field housing - terminals, cable glands and gas connectors.......4-21
Terminal block X1 - analog signals and relay outputs 1-4....................................4-24
Terminal block X1 - Modbus interface...................................................................4-25
X-STREAM XEF - Ethernet connector..................................................................4-26
Terminal blocks for digital inputs and outputs........................................................4-27
Terminal block X5 - Analog input signals..............................................................4-28
Power supply connections.....................................................................................4-29
Shielded signal cable, shielding connected at both ends......................................4-31
Shielded signal cable, shielding connected at one end.........................................4-32
Signal cable with double shielding, shieldings connected at alternate ends.........4-32
Shield connector terminal with cable.....................................................................4-33
Suppressor diode for inductive loads....................................................................4-34
Driving high-current loads......................................................................................4-34
Loads in series......................................................................................................4-35
Loads in parallel....................................................................................................4-35

Fig. 5-1:	
Fig. 5-2:	

X-STREAM XE front panel......................................................................................5-3
Arrangement of concentration thresholds..............................................................5-23

Emerson Process Management GmbH & Co. OHG

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Index of Figures

Table of contents

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Instruction manual

X-STREAM XE

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10/2010

Index of Figures
Fig. 6-1:	
Fig. 6-2:	
Fig. 6-3:	
Fig. 6-4:	
Fig. 6-5:	

X-STREAM XE Software menu structure................................................................6-2
Measurement display elements.............................................................................6-25
Usage of labels and tags ......................................................................................6-31
Measurement display with labels and tags (example)...........................................6-93
USB file system structure......................................................................................6-98

Fig. 7-1:	
Fig. 7-2:	
Fig. 7-3:	
Fig. 7-4:	
Fig. 7-5:	
Fig. 7-6:	
Fig. 7-7:	
Fig. 7-8:	
Fig. 7-9:	
Fig. 7-10:	
Fig. 7-11:	
Fig. 7-12:	
Fig. 7-13:	
Fig. 7-14:	
Fig. 7-15:	
Fig. 7-16:	
Fig. 7-17:	
Fig. 7-18:	
Fig. 7-19:	
Fig. 7-20:	
Fig. 7-21:	
Fig. 7-22:	
Fig. 7-23:	
Fig. 7-24:	

Leak Testing with U-turn Manometer.......................................................................7-2
Calibration improvement by variable valve assignments.........................................7-8
Internal valves assignments..................................................................................7-10
Zero All Calibration Procedure Flow Diagram.......................................................7-21
Span All Calibration Procedure Flow Diagram......................................................7-24
Zero&Span All Calibration Procedure Flow Diagram.............................................7-26
Digital Inputs - Initializing Calibrations...................................................................7-32
Graphical Explanation of Interval Time Settings....................................................7-36
X-STREAM XEGP.................................................................................................7-44
X-STREAM XEGC.................................................................................................7-44
X-STREAM field housings - Interior views(shown without front doors).................7-45
Location of the eO2 Sensor Unit...........................................................................7-46
Sensor Unit Design................................................................................................7-47
OXS Board, top view.............................................................................................7-48
Locking device details...........................................................................................7-49
Relations of supported data sets, and where to find further information...............7-52
USB file system structure......................................................................................7-59
Subdirectory for log files........................................................................................7-67
Example of log file.................................................................................................7-68
USB file system structure......................................................................................7-69
Autorun.inf template..............................................................................................7-69
Ethernet connectors..............................................................................................7-71
Web browser logon screen....................................................................................7-72
Web browser measurements screen.....................................................................7-72

Fig. 8-1:	
Fig. 8-2:	
Fig. 8-3:	
Fig. 8-4:	
Fig. 8-5:	

X-STREAM XEF, XDF and XEFD, opened with visible front panel.......................8-16
X-STREAM XEGP.................................................................................................8-24
X-STREAM XEGC.................................................................................................8-24
X-STREAM field housings - Interior views(shown without front doors).................8-25
XSP - Allocation of signal connectors....................................................................8-26

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X-STREAM XE

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The manual covers several X-STREAM analyzer models and so may contain information
about configurations and/or options not applicable to your analyzer.
The installation and operation of units for use in explosive (hazardous) environments is
not covered in this manual.
Analyzers intended to be used in such environments are supplied with further instruction
manuals, which should be consulted in addition to this.

DEFINITIONS
The following definitions apply to the terms WARNING, CAUTION and NOTE, and the symbol
, as used in this manual.

Indicates an operational or maintenance procedure, a process, a condition,
an instruction, etc.
Failure to comply may result in injury, death or permanent health risk.

Indicates an operational or maintenance procedure, a process, a condition,
an instruction, etc.
Failure to comply may result in damage to or destruction of the instrument,
or impaired performance.
NOTE!
Indicates an imperative operational procedure, an important condition or instruction.
, together with a page number (
6-5 ) or chapter headline (
The symbol
refers to more information, provided on the indicated page or chapter.

Emerson Process Management GmbH & Co. OHG

Startup )

S-1

S

The instruction manual contains information about the component assembly, function,
installation, operation and maintenance of the X-STREAM® series gas analyzers.

Safety Instructions

INTRODUCTION

X-STREAM XE

Instruction Manual
HASXEE-IM-HS
04/2010

TERMS USED IN THIS INSTRUCTION MANUAL
Explosive Gas(es)
Flammable Gases and gas mixtures in a mixture with air within the explosive limits.
Flammable Gas(es)
Gases and gas mixtures are assigned to be
flammable if they might become ignitable
when in a mixture with air.
Infallible Containment
This term is derived from the standards of
explosion protection especially from the requirements for pressurized housings: thus an
infallible containment can be characterized
by no intended leakage out of the gas paths
enabling gas to enter the inner compartment
of the analyzer housing.
Intrinsically Safe Cell (IS Cell)
Cells supplied with an intrinsically safe power
signal, approved by a Test Institute, to operate
with explosive gases.
The design ensures the IS cells remains safe
even in case of failure and explosive gases
are not ignited.

Protection Class IP66 / NEMA 4X
Both terms are used to specify conditions for
equipment to be installed outdoor.
IP stands for Ingress Protection, the first number specifies protection against solid objects
(6. = dust tight) while the second number
specifies the degree of protection against
liquids (.6 = heavy seas).
NEMA stands for National Electrical Manufacturers Association. 4X specifies a degree
of protection to personnel against incidental
contact with the enclosed equipment; to provide a degree of protection against falling dirt,
rain, sleet, snow, windblown dust, splashing
water, and hose-directed water; and that will
be undamaged by the external formation of
ice on the enclosure
Upper Explosion Limit (UEL)
Volume ratio of flammable gas in air above
which an explosive gas atmosphere will not
be formed: the mixture of gas and air is too
rich in fuel (deficient in oxygen) to burn.

Lower Explosion Limit (LEL)
Volume ratio of flammable gas in air below
which an explosive gas atmosphere will not
be formed: the mixture of gas and air lacks
sufficient fuel (gas) to burn.
NAMUR
NAMUR is an international user association of
automation technology in process industries.
This organisation has issued experience reports and working documents, called recommendations (NE) and worksheets (NA).

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Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

... means
dangerous voltages may be exposed. Covers
may only be removed when power to the unit is
disconnected, and only be trained personnel.
hot surfaces may be exposed. Covers may
only be removed by trained personnel and when
power is disconnected. Certain surfaces may
remain hot.
further information and instructions are required: read the instruction manual.

Emerson Process Management GmbH & Co. OHG

S-3

S

This symbol attached to the unit ...

Safety Instructions

SYMBOLS USED ON AND INSIDE THE UNIT

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

SYMBOLS USED IN THIS MANUAL

Wherever one or more of the following symbols are used in this instruction manual, read the
accompanying information and instructions carefully.
Follow these warnings and notes carefully
to minimize risk.
This symbol used in the manual ...

... means
dangerous voltages may be exposed
hot surfaces may be exposed
possible danger of explosion
toxic substances may be present
substances harmful to health may be present
indicates notes relating to heavy instruments
electrical components may be destroyed by
electrostatic discharges
units must be disconnected from the power
source
indicates basic conditions or procedures are
being described.
This symbol may also indicate information important for achieving accurate measurements.

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Instruction Manual

INTENDED USE STATEMENT
X-STREAM series gas analyzers are intended to be used as analyzers for industrial purposes. They must not be used in medical, diagnostic or life support applications nor as
safety devices.
Using X-STREAM XE analyzers as safety devices, requiring redundant design or SIL classification, is also not permitted.
No independent agency certifications or approvals are to be implied as covering such
applications!

GENERAL SAFETY NOTICE / RESIDUAL RISK
If this equipment is used in a manner not specified in these instructions, protective systems may be impaired.
Despite of incoming goods inspections, production control, routine tests and application
of state-of-the-art measuring and test methods, an element of risk remains when operating
a gas analyzer!
Even when operated as intended and observing all applicable safety instructions some
residual risks remain, including, but not limited to, the following:
•		 An interruption of the protective earth line, e.g. in an extension cable, may result in
risk to the user.
•		 Live parts are accessible when operating the instrument with doors open or covers
removed.
•		 The emission of gases hazardous to health may even be possible when all gas connections have been correctly made.
Avoid exposure to the dangers of these residual risks by taking particular care when installing, operating, maintaining and servicing the analyzer.

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SAFETY INSTRUCTIONS

Safety Instructions

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Safety Instructions

AUTHORIZED PERSONNEL
In-depth specialist knowledge is an absolutely necessary condition for working with and
on the analyzer.
Authorized personnel for installing, operating, servicing and maintaining the analyzer are
instructed and trained qualified personnel of the operating company and the manufacturer.
It is the responsibility of the operating company to
• 		 train staff,
• 		 observe safety regulations,
• 		 follow the instruction manual.
Operators must
• 		 have been trained,
• 		 have read and understood all relevant sections of the instruction manual before
commencing work,
• 		 know the safety mechanisms and regulations.
To avoid personal injury and loss of property, do not install, operate, maintain or service
this instrument before reading and understanding this instruction manual and receiving
appropriate training.

DISPOSAL OF BATTERIES
• 		 This instrument contains a Li battery (button cell) of type CR 2032.
• 		 The battery is soldered and usually does not need to be replaced during the
instrument´s lifetime.
•		 At the end of lifetime, the instrument must be disposed in compliance with the wast
regulations. The disposal specialist then has to disassemble the instrument and
dispose the battery in compliance with the regulations.

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1.	 Suitable grounding connections should be made at all connectors provided for this purpose.
2.	 All safety covers and grounding connections must be properly reinstated after maintenance
work or troubleshooting.
3.	 A fuse should be provided at the installation site which will completely disconnect the unit
in case of failure. Installing an isolating switch may also be beneficial. In either case, these
components must be constructed to conform to recognised norms.

OPERATING AND MAINTAINING THIS UNIT
On leaving our factory, this instrument conformed to all applicable safety directives.
In order to preserve this state of affairs, the
operator must take care to follow all the instructions and notes given in this manual and
on the unit.
Before switching on the unit, ensure that the
local nominal mains voltage corresponds to
the factory-set operational voltage of this
unit.
Any interruption of the protective earth connections, whether inside or outside of the unit,
may result in exposure to the risk of electricity.
Deliberately disconnected the protective earth
is therefore strictly forbidden.

work requiring access to the inside of the
unit.
Only trained personnel who are aware of
the risk involved may work on an open and
energized unit.
Fuses may only be replaced by fuses of an
identical type and with identical ratings. It is
forbidden to use repair fuses or to bypass
fuses.
Take note of all applicable regulations when
using this unit with an autotransformer or a
variable transformer.
Substances hazardous to health may escape
from the unit’s gas outlet. This may require
additional steps to be taken to guarantee the
safety of operating staff.

Removing covers may expose components
conducting electric current. Connectors may
also be energised. The unit should therefore
be disconnected from the power supply before
any kind of maintenance, repair or calibration

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INSTALLING AND CONNECTING THE UNIT

The following notices should be carefollowed to ensure compliance with the low voltage directive
(Europe) and other applicable regulations.

Safety Instructions

Safety Instructions

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Safety Instructions

EXPLOSION HAZARD
The units described in this manual may not be used in explosive atmospheres
without additional safety measures.

ELECTRICAL SHOCK HAZARD
Do not operate without covers secure. Do not open while energized.
Installation requires access to live parts which can cause death or serious
injury.
For safety and proper performace this instrument must be connected to a
properly grounded three-wire source of power.

TOXIC GASES
This unit’s exhaust may contain toxic gases such as (but not limited to)
e.g. sulfur dioxide. These gases can cause serious injuries.	
Avoid inhaling exhaust gases.
Connect the exhaust pipe to a suitable flue and inspect the pipes regularly
for leaks.
All connections must be airtight to avoid leaks;
7-4 for instructions on
performing a leak test.

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The models intended for outside and wall mounted use (X-STREAM XEF,
XDF and XEFD) weigh between 26 kg (57 lb) and 63 kg (139 lb) depending
on options installed.
Two people and/or lifting equipment is required to lift and carry these
units.
Take care to use anchors and bolts specified to be used for the weight of 	
the units!
Take care the wall or stand the unit is intended to be installed at is solid
and stable to support the weight!

CRUSHING HAZARD
Take care of crushing hazard when closing the front door of analyzer field
housings!
Keep out of the closing area between enclosure cover and base!

OPERATION AT LOW TEMPERATURES
When operating an instrument at temperatures below 0 °C (32 °F), do
NOT apply gas nor operate the internal pump before the warmup time has
elapsed!
Violation may result in condensation inside the gas paths or damaged
pump diaphragm!

HIGH TEMPERATURES
Hot parts may be exposed when working on photometers and/or
heated components in the unit.

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HEAVY INSTRUMENT

Safety Instructions

Safety Instructions

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Safety Instructions
GASES AND PREPARATION OF GASES

GASES HAZARDOUS TO HEALTH
Follow the safety precautions for all gases (sample and span gases) and
gas cylinders.
Before opening the gas lines, they must be purged with air or neutral gas
(N2) to avoid danger from escaping toxic, flammable, exposive or hazardous
gases.

FLAMMABLE OR EXPLOSIVE GASES
When supplying explosive gases or flammable gases with concentrations of
more than 25 % of the lower explosion limit, we RECOMMEND implementing
one or more additional safety measures:
• purging the unit with inert gas
• stainless steel internal pipes
• flame arrestors on gas inlets and outlets
• infallible measuring cells.

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CONNECTING UNITS FOR PERMANENT INSTALLATION
Only qualified personnel following all applicable and legal regulations may
install the unit and connect it to power and signal cables. Failure to comply
may invalidate the unit’s warranty and cause exposure to the risk of damage,
injury or death.
This unit may only be installed by qualified personnel familiar with the
possible risks.
Working on units equipped with screw-type terminals for electrical
connections may require the exposure of energized components.
Wall-mounted units have no power switch and are operational when
connected to a power supply. The operating company is therefore required
to have a power switch or circuit breaker (as per IEC 60947-1/-3) available
on the premises. This must be installed near the unit, easily accessible to
operators and labelled as a power cut-off for the analyzer.

HAZARD FROM WRONG SUPPLY VOLTAGE
Ensure that the local power voltage where the unit is to be installed,
corresponds to the unit’s nominal voltage as given on the name plate
label.

ADDITIONAL NOTES FOR UNITS WITH SCREW-TYPE TERMINALS
Cables for external data processing must be double-insulated against mains
power.
If this is not possible, cables must be laid in such a way as to guarantee
a clearance of at least 5 mm from power cables. This clearance must be
permanently secured (e.g. with cable ties).

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POWER SUPPLY

Safety Instructions

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General Operational Notes
GENERAL OPERATING NOTES

EXPLOSION HAZARD
Exhaust gases may contain hydrocarbons and other toxic gases such as
carbon monoxide. Carbon monoxide is toxic.
Faulty gas connections may lead to explosion and death.
Ensure that all gas connections are connected as labelled and airtight.

•	

The unit must be installed in a clean and dry area protected from strong vibrations and
frost.

•	

The unit must not be exposed to direct sunlight and sources of heat. Admissable ambient
temperatures (see technical details) must be adhered to.

•	

Gas inlets and outlets must not be interchanged.All gases must be supplied to the unit already
processed. When using this unit with corrosive sample gases, ensure that these gases do
not contain components harmful to the gas lines.

•	

Admissable gas pressure for sample and test gases is 1,500 hPa.

•	

Exhaust lines must be laid inclined downwards, depressurized, protected from frost and
according to applicable regulations.

•	

If it is necessary to disconnect the gas lines, the unit’s gas connectors must be sealed with
PVC caps to avoid polluting the internal gas lines with condensate, dust, etc.

•	

To ensure electromagnetic compatibility (EMC), only shielded cables (supplied by us on request, or of equivalent standard) may be used. The customer must ensure that the shielding
is correctly fitted. Shielding and terminal housing must be electrically connected; submin-D
plugs and sockets must be screwed to the unit.

•	

When using optional external adapters (submin-D to screw-type terminal), protection from
electromagnetic interference can no longer be guaranteed (CE compliance pursuant to EMC
guidelines). In this case the customer or operating company functions as a system builder
and must therefore ensure and declare compliance with EMC guidelines.

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Emerson Process Management GmbH & Co. OHG

Modified resistant measuring cells are available for use with corrosive gases and/or
gases containing solvents.
Special configurations (e.g. intrinsically safe
or infallible measuring cells) for the analysis
of combustible gases are also available.
Chapter 3 gives a detailed description of
the various measuring techniques.
Standard applications
Different housings allow X-STREAM analyzers to be tailored to the many different
applications:
•	 Tabletop units in 1⁄2 19in modular design,
with IP 20 protection class
•	 Tabletop and rack mountable units in 19in
modular design, with IP 20 protection
class
•	 Stainless steel wall mountable field
housing with IP 66 / NEMA 4X protection
class for outdoor use (operating temperature -20°C to +50°C).
•	 Cast aluminium wall mountable field
housing with IP 66 / NEMA 4X protection
class for outdoor use (operating temperature -20 °C to +50 °C).
The various analyzer types are described in
more detail beginning with
1-13.
Installation in hazardous areas
X-STREAM analyzers in field housings, when
fitted with various protective devices, can also
be installed and operated in hazardous areas.
Available options are:
•	 Pressurized enclosure conforming to
ATEX directive 94/9/EC, for installation
in Zone 2.

1-1

1

The following are the main features of the new
Emerson Process Management X-STREAM
gas analyzers in brief:
•	 compact design with easily accessible
internal components
•	 customizable for a wide range of applications: different housings are available
while internal construction remains largely
identical
•	 a highly integrated mainboard contains
all interfaces and basic functions for the
operation of the unit
•	 multilingual microprocessor-controlled
user interface with liquid crystal (LCD) to
indicate measurement value and status
messages
•	 units for outdoor use are optionally supplied with an impact tested front panel
•	 widerange power supply unit for worldwide
use without modification (1⁄2 19in units with
external PSUs)
The new X-STREAM gas analyzers can
measure up to five different gas components using any combination of the following
analyzing techniques (restrictions apply to
1
⁄2 19in units):
IR	 =	non-dispersive infrared analysis
UV	 =	ultraviolet analysis
pO2	 =	paramagnetic oxygen analysis
eO2	 =	electrochemical oxygen analysis
TC	 =	thermal conductivity analysis

Technical Description

Chapter 1
Technical Description

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1 Technical Description

•	 Non-incendive assembly for installation in
Zone 2 and Div 2 for the measurement of
non-flammable gases.
•	 Simplified purge system (Z-purge) for
installation in North American Div 2 environments.
The cast aluminium field housing is designed
to withstand an explosion and intended to be
used in hazardous areas of Zone 1.
More information about EXanalyzers can be obtained from
your Emerson Process Management sales office.
Note!
These instructions do not detail the installation nor operation of X-STREAM analyzers in
hazardous areas. If you intend to use your
analyzer for such purposes, pay attention to the separate instruction manuals
supplied with analyzers to be used in hazardous areas.

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1.1 Overview

All X-STREAM gas analyzers feature an
easy-to-use graphical user interface, which
displays measurement values, status and
error messages, and menus for the input of
parameters.
For ease of use, the operator can select one
of three languages for the display: By default
any analyzer is configured with English and

German language sets, while a third can
optionally be added. Currently available:
French, Italian, Portuguese and Spanish..

1

1.1.1	 The Front Panel
The graphic LCD shows measurement and
status information with plain text and symbols.
The symbols are designed to indicate the different status 'Failure', 'Function check', 'Out
of specification' and 'Maintenance request' as
specified by the NE 107 standard. For further
information,
chapter 8.

1
	
	
	
	

1	
2	
3	
4	

2

The analyzer software is operated by means
of only six keys.
Depending on the analyzer model, the display
is protected with an impact tested glass panel,
to withstand even harsher conditions and to
provide a higher IP protection class of up to
IP66 / NEMA Type 4X.

3

4

Graphic display
“Measure“ key
“Enter” key
4 keys for settings and menu navigation

Fig. 1-1:	 X-STREAM Front Panel (here the X-STREAM XEGP)

Emerson Process Management GmbH & Co. OHG

Technical Description

1.1	 Overview

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1.1 Overview

Further analyzer features include (some of
them optional):
•	 Configurable measurement display:
•	 gas measurements results and/or secondary results (e.g. flow)
•	 one or two independently configurable
pages
•	 Configurable measurement units
•	 user configurable units and conversion
factors from ppm to user unit
•	 3 software access levels with individual
password protection, and administrator
selectable activation
•	 protection against unauthorized configuration changes
•	 Unattended zero and span calibrations
•	 enables operation without user interaction
•	 Communication via serial interface and
Ethernet
•	 enables remote operation
•	 Web browser interface
•	 for remote operation with full analyzer
control
•	 Realtime clock (supports time server synchronization)
•	 enables time controlled operation
•	 Data logger with configurable logging
periods
•	 for legislative and quality documentation
•	 Event logger with configurable events
list
•	 keep monitoring the analyzer, even
when not present

1-4

•	 Log files sizes only limited by free memory
on an internal SD card
•	 up to 2 GB for up to 1 year logging without storage problems
•	 replaceable (not by operator, as the
card is also used for storage of analyzer
operating software files)
•	 Export of log files via USB, ethernet and
webbrowser
•	 export to text files
•	 enables external data analysis
•	 Save and load analyzer configuration to/
from an internal protected memory area
and USB stick
•	 save a functional configuration to protect
it against changes or for reference
•	 restore a functional setup in case of
misconfiguration or crashes
•	 Calculator for 'virtual' channels or measurement calculations
•	 setup a virtual measurement channel
by calculating results of existing real
channels (e.g. summarize NO and NO2
to show NOx)
•	 PLC (programmable logic controller) for
enhanced functionality
•	 no need to add an external PLC to control external valves, pumpes, etc.
•	 supports uploading externally written
PLC text files into the analyzer
See the related sections in this manual for
more detailled information on these features.

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1.2 Configuration of Gas Lines

1.2.1	 Materials Used
The physical and chemical properties of the
sample gas as well as the conditions under
which measurement takes place influence the
choice of materials. Among those available
are Viton®, PFA and stainless steel.
1.2.2	 Safety Filter
The analyzers are generally fitted with an
internal stainless-steel filter. This filter is not
a replacement for any dust filter in the preparation of the gas, but represents a last line of
defence.
1.2.3	 Gas Inlets and Outlets
Rackmounted and tabletop devices are fitted
with PVDF inlets and outlets (ø 6/4 mm) as
standard. Alternatively, Swagelok™ or stainless steel fittings (ø 6/4 mm or 1⁄4 in).
Wall-mounted field housings are supplied
with Swagelok™ or stainless steel fittings (ø
6/4 mm or 1⁄4 in).
Other materials available on request.
X-STREAM XEFD units are always supplied
with flame arrestors and stainless steel fittings
(ø 6/4 mm or 1⁄4 in).

1.2.5	 Infallible Containments
Infallible containments are gas lines which,
due to their design, can be regarded as permanently technically tight. This is achieved
by, for example, welded joints, or metallically
sealing joints (e.g. tap connectors and binders), providing they are seldom disconnected. Gas lines configured in this manner can
be used for measuring noxious, flammable
and explosive gases. At the time of going to
press, infallible containments are available
for thermal conductivity analysis (TC) only.
Further information about infallible containments can be found in the separate instruction
manual supplied with these units.
Infallible containments do not
render it unnecessary to test for
leaks regularly, e.g. following
lengthy breaks in service, substantial alterations, repairs and
modifications.
Read the separate instruction
manual giving detailed instructions on the configuration, operation and maintenance of units
fitted with infallible containments.

1.2.4	 Tubing
Unless otherwise specified, the analyzers
are supplied with Viton ® or PVDF piping
(ø  6/4 mm or 1⁄4 in). Other materials (e.g.
stainless steel) can be used, depending on
the application.

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1

Various materials are available to allow the
analyzer to be customized to your needs.
The materials used are selected based on
the characteristics of the sample gas, e.g.
diffusion rate, corrosiveness, temperature
and pressure.

Technical Description

1.2	 Configuration of Gas Lines

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1.2 Configuration of Gas Lines
1.2.6	 Optional Components for Gas Lines
The analyzers can, as an option, be fitted with
further components. Not all components are
available for all analyzer types:
•	 internal sample gas pump
•	 internal valve block
•	 internal flow sensors
•	 internal flow monitor switch
•	 internal barometric pressure sensor
•	 internal temperature sensors.
1.2.6.1	 Internal Sample Gas Pump
An internal sample gas pump is used when
the sample gas is under insufficient pressure.
It ensures a constant flow of sample gas (max.
2.5 l/min through the analyzer).
When in internal pump is fitted, the relevant
parameter in the software setup dialog is set
to Yes (
6-88). The pump can be controlled either manually through a software
menu or optionally by a digital input.
Note!
Gas pressure is limited to atmospheric, if an
internal pump is used!
1.2.6.2	 Internal Valve Block
An internal valve block allows all necessary
gas lines (zero gas, span gas, sample gas)
to remain permanently connected to the
analyzer. Valves are then activated automatically when required (e.g. during automatic
calibration).
When an internal valve block is fitted, this
is shown in the relevant software setup
dialog as either Internal or Int+Ext (
6-88). The valves are controlled by either
a software menu, optionally by digital input, or automatically during autocalibration.
Depending on the model, up to two valve
bocks can be fitted.

1-6

1.2.6.3	 Internal Flow Sensor
Up to two internal flow sensors can measure
the flow of gas and, compared to the flow
monitor switch can provide a flow reading.
They also can activate an alarm signal in the
event of a failure.
The alarm level for flow sensors is operator
adjustable to up to 2000 ml/min. Depending
on the model, up to two sensors can be fitted
and evaluated separately.
When a sensor is fitted, the relevant parameter in the software setup dialog is set to Yes
(
6-90).
If the current flow rate is too low, a status
message is displayed and the parameter
under CHECK REQUESTS.. is set to Yes
(
Chapter 8 'Troubleshooting').

1.2.6.4	 Internal Flow Monitor Switch
An internal flow switch monitors the gas flow
and activates an alarm signal in case it is
not sufficient. Compared to the flow sensore
it does not provide a flow reading, but only
indicates if the flow is sufficient, or not.
The alarm level for the internal flow switch is
fixed and not operator adjustable. Additional
external switches may be used and connected
via digital inputs. All fitted flow switches are
evaluated to share a common alarm.
When an internal flow switch is fitted, the relevant parameter in the software setup dialog
is set to Yes (
6-85).
If the current flow rate is too low, a status
message is displayed and the parameter
under CHECK REQUESTS.. is set to Yes
(
Chapter 8 'Troubleshooting').

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1.2 Configuration of Gas Lines

sate the atmospheric pressure variation (
measurement specification, page 3-14).
If such a sensor is installed in the unit, the
related menu shows the entry Internal (
6-91).

1

Varying atmospheric pressure has an influence also on the density of the gases applied
to the measuring system: Higher density correlates with more molecules per volume and
thus influences the measuring results.
To compensate such influences. an internal
barometric pressure sensor can be installed.
It´s reading is used to electronically compen-

Technical Description

1.2.6.6	 Internal Barometric Pressure Sensor

1.2.6.5	 Internal Temperature Sensors
In the same way as pressure variations, varying temperatures influence the measuring
results: Higher temperature results in lower
gas density and thus in less molecules per
volume. To compensate temperature influence, internal temperature sensors can be
installed to electronically compensate temperature variations (
page 3-14 ,measurement
specification).

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Depending on the configuration of the unit or
the demands of the application, temperature
sensors can measure the unit’s internal temperature or selected measurement channel
components.
If such sensors are installed in the unit, this
is indicated in the installed options menu
(
6-85).

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1.2 Configuration of Gas Lines

1.2.6.7	 Optional Heated Area
The physical components can be optionally
separated from the electrical components
by means of a special box (not an option for
½ 19 in units). This can be done for one or
both of the following purposes:
Firstly, the box allows the physical components to be regulated to a temperature of
approx. 60 °C, avoiding condensation of
gases or minimizing the influence of varying
environmental temperatures.
Secondly, the box can be purged with, for
example, inert gas. The purge gas is first fed
through a separate fitting, purges the electronic components, then floods the box and
leaves the instrument via another fitting.
Purging in this manner can be useful when
measuring very low concentrations (e.g. of

CO or CO2): the expulsion of ambient air
avoids adulterant outside influences.
Alternatively, purging can be used to secure
enhanced protection for electronic parts and
operators from corrosive or toxic gases: any
leaking gas is expelled from the housing and
does not escape into the vicinity of the unit or
come into contact with any electronic components located outside the box.
In either case, the purge gas outlet should be
connected to an exhaust gas line.

Insulating cover

Physical
components
(example)
Heated mounting panel
The figure shows the heated
area with the insulating cover
removed.

Cable support for
signal wires

Fig. 1-2:	 Optional Heated Area

1-8

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1.2 Configuration of Gas Lines

1.2.7	 Alternative Configurations

1

Technical Description

Depending on the application and the selected
analyzer options, alternative gas line configurations are available, exemplified in the following diagram of a dual-channel analyzer:

Fig. 1-3:	 Gas Flow Diagram: Single Channel Or in Series

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1.3 Interfaces
1.3	 Interfaces
All analyzer types are fitted with one analog
electrical output for each channel, four status
relays, 2 Ethernet interfaces and a serial service interface as standard.
As an option, further interfaces can be added.

Depending on the unit configuration, all interfaces are accessible via either SubminD
connectors or screw terminals.

1.3.1	 Analog Outputs
By default each X-STREAM analyzer is fitted with one output per channel, which can
transmit data on concentration levels to an
external data acquisition system. Up to four
analog outputs can be installed.
The analog outputs support several operation
modes, such as 4-20 mA, 0-20 mA, as well
as the NAMUR NE  43 specifications (incl.
Live Zero). Operation modes can be set in a
software menu (
6-63).
The factory setting for analog outputs is
4-20 mA.

X-STREAM analyzers support up to four
analog outputs, which, however, do not always need to be assigned to measurement
channels which are physically present: If a
unit features less than four channels, the
remaining analog outputs can be used to
transmit concentration levels with a different
resolution; for example, a single-channel
analyzer could be set up as follows:
Output 1: 0 ... 100 % CO2 = 4 ... 20 mA
Output 2: 0 ... 25 % CO2 = 4 ... 20 mA

1.3.2	 Status Relays
By default each analyzer provides four relays
outputs, preconfigured to signal the current
status of the unit according to the NAMUR
NE 44 specification ('Failure', “Maintenance
request”, 'Out of specification' and 'Function
check'). However, the operator can assign
different functions to the relays via software
menus. For a comprehensive list of available
functions,
6-68.
Note!
Any NE 44 status is also indicated by symbols appearing in the display´s 1st line. These
symbols remain conformant to NE 44 even
when the status relays are software assigned
different functions.

1-10

Electrical details:
maximum load of 30 V / 1 A / 30 W,
can be operated as normally open (NO) or
normally closed (NC).
Further information on the status relays is provided in the chapter 'Technical Data'
2-2.

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All supported Modbus parameters are listed
in chapter 9.
Information about web-browser access is
provided in chapter 7

Fig. 1-4:	 Ethernet Interface Marking

Note!
All analyzers provide 2 Ethernet connectors:
the upper marked "2" is configured to be used
for network connection. The lower, marked "1"
is for service purpose only!
Simultaneously connecting Ethernet and serial interface is not supported!

1.3.4	 Serial Interface
A serial interface with the Modbus protocol
allows communication with external data
acquisition systems. The interface enables
the exchange and modification of measurement and analyzer signals, analyzer status
monitoring as well as remote activation of
procedures.
The serial interface is electrically isolated from
the unit’s electronic components. RS 485 facilitates the construction of a network of several analyzers. RS 232 interface only supports
communication between two end devices.
1.3.5	 USB Interfaces
Two USB connectors enable connecting
•	 storage devices to the bigger port for
external data and analyzer configuration
storage
•	 external computers to the smaller Mini
USB port.

Emerson Process Management GmbH & Co. OHG

All supported Modbus parameters are listed
in chapter 9.
A table nearby the
connector shows the
interface configuration
(here: MODBUS)

X

Fig. 1-5:	 Serial Interface Marking

Chapter 7 provides more information on how
to use USB ports.

Fig. 1-6:	 USB Interfaces

1-11

1

1.3.3	 Modbus Interface, Ethernet
The Ethernet Modbus interface offers the
same form of communication with a data
acquisition system as does a serial interface.
Furthermore this interface enables to connect
the analyzer to a network, providing webbrowser access.
This interface is electrically isolated from the
unit’s electronic components and enables
the construction of a network of several analyzers.

Technical Description

1.3 Interfaces

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1.3 Interfaces
1.3.6	 Optional Interfaces
1.3.6.1	 Analog Inputs
Two d. c. analog inputs enable connection to
external devices. Their signals can be used
for e.g.
•	 cross compensation
•	 pressure compensation, or
•	 handled as a separate measurement channels.

Electrical details:
0 - 1 (10) V , Rin = 100 kΩ
or
0 (4) - 20 mA, Rin = 50 Ω
The inputs are protected against overload up
to ± 15 V or ± 20 mA.

1.3.6.2	 Digital Outputs
In addition to the 4 default digital outputs,
analyzers can optionally be upgraded with 9
or 18 more digital outputs (
1-13), to be
used for various purposes, e.g.:
•	 Triggering concentration alarms: Process
control systems can detect when limits are
exceeded and trigger appropriate actions.
•	 Switching external components: For example, during automatic calibration, the
necessary valves can be activated directly
by the analyzer.

1.3.6.3	 Digital Inputs
Digital inputs can be integrated into the units
in groups of 7 or 14 (
1-13).
Digital inputs can be used to:
•	 trigger calibration procedures, for example
by a process control system
•	 remotely control valves and the optional
sample gas pump (in concert with correctly
configured digital outputs).
The different functions can be assigned via
software menus. For a comprehensive list of
available functions,
6-71 .

1-12

The different functions can be assigned via
software menus. For a comprehensive list of
6-68.
available functions,
Electrical details:
maximum load of 30 V / 1 A / 30 W,
can be operated as normally open (NO) or
normally closed (NC).

Electrical details:
D. C. inputs
LOW: Uin < 1,5 V
HIGH: Uin > 4,5 V
Rin: 57,5 kΩ
Common ground for all outputs (“INGND”)
The inputs are protected against excess
voltages of up to approx. 40 V. An open (not
wired) input has LOW potential.

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1.4 Comparison of Analyzer Models
1.4	 Comparison of the Various X-STREAM Analyzer Models
X-STREAM XEGP

X-STREAM XEGC

1

⁄2 19 in housing, table-top or rackmountable,
protection type: IP 20

1

24V input with external power supply unit
Max. 3 channels: 2 photometer + 1 WLD/O2
max. 6 gas connections,
including 1 optional purge gas connection
Options for gas lines: Flow sensor, pressure
sensor, infallible gas lines
1-4 analog outputs, 4 relay outputs, 2 Modbus
Ethernet interfaces, 2 USB connectors
optional:
1 interface card with 7 digital inputs and
9 digital outputs
1 interface card with analog inputs
electrical interfaces accessible via sockets on
back of unit, optionally: screw-type terminal
adapters (except for Ethernet & USB)
LCD
Operating ambient temperature:
0 °C to +50 °C (32 °F to 122 °F)

Internal wide range power supply unit
Max. 4 channels in any combination
max. 8 gas connections,
1 optional extra connection for purge gas
Options for gas lines: Flow sensor, pressure sensor, heating for physical components,
sample gas pump, 1 or 2 valve blocks, infallible gas lines
1-4 analog outputs, 4 relay outputs, 2 Modbus
Ethernet interfaces, 2 USB connectors
optional:
1 or 2 interface cards, each with 7 digital
inputs and 9 digital outputs
1 interface card with analog inputs
electrical interfaces accessible via sockets on
back of unit, optionally: screw-type terminal
adapters (except for Ethernet & USB)
LCD
Operating ambient temperature:
0 °C to +50 °C (32 °F to 122 °F)

Size: (DxHxW): max. ca. 440x130x220 mm
Weight: ca. 8 - 12 kg (17.6 - 26.5 lb)

Size: (DxHxW): max. ca. 411x133x482 mm
Weight: ca. 11 - 16 kg (24.3 - 35.3 lb)

For more detailed information:

For more detailed information:

1-13

1-15

⁄1 19 in housing, table-top or rackmountable,
protection type: IP 20

1-17

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1.4 Comparison of Analyzer Models

X-STREAM XEFD

1

Technical Description

X-STREAM XEF / XDF

Stainless steel wallmountable field housing,
protection type: IP66 / NEMA 4X
Single or dual compartment design
Internal wide range power supply unit
Max. 4 channels in any combination
max. 8 gas connections,
1 optional extra connection for purge gas
Options for gas lines: Flow sensor, pressure
sensor, heating for physical components,
sample gas pump, 1 or 2 valve blocks, infallible gas lines
1-4 analog outputs, 4 relay outputs, 2 Modbus
Ethernet interfaces, 2 USB connectors
optional:
1 or 2 interface cards, each with 7 digital
inputs and 9 digital outputs
1 interface card with analog inputs
electrical interfaces on internal screw-type terminal adapters (except for Ethernet & USB)

Cast aluminium wallmountable field housing,
protection type: IP66 / NEMA 4X

LCD, impact tested front panel
Operating ambient temperature:
-20 °C to +50 °C (-4 °F to 122 °F)
Models available for use in explosive environments

LCD, impact tested front panel
Operating ambient temperature:
-20 °C to +50 °C (-4 °F to 122 °F)
Flameproof enclosure: approved for use in
hazardous areas (explosive environments)

Size: (DxHxW): ca. 265x400 (815)x550 mm
Weight: max. ca. 25 (45) kg / 55.1 (99.2) lb

Size: (DxHxW): max. ca. 222x512x578 mm
Weight: max. ca. 63 kg (138.9 lb)

For more detailed information:

For more detailed information:

1-19

Emerson Process Management GmbH & Co. OHG

Internal wide range power supply unit
Max. 4 channels in any combination
max. 8 gas connections,
including 2 optional purge gas connection
Options for gas lines: Flow sensor, pressure sensor, heating for physical components,
sample gas pump, 1 or 2 valve blocks, infallible gas lines
1-4 analog outputs, 4 relay outputs, 2 Modbus
Ethernet interfaces, 2 USB connectors
optional:
1 or 2 interface cards, each with 7 digital
inputs and 9 digital outputs
1 interface card with analog inputs
electrical interfaces on internal screw-type terminal adapters (except for Ethernet & USB)

1-24

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1.5 X-STREAM XEGC

Any free tube fittings can be used for purging
the device to minimize interference from the ambient atmosphere, or when measuring corrosive
and/or flammable gases.

1

This compact model for general purposes
can be fitted with up to three photometer
measurement channels (IR or UV) and one
additional non-photometer channel (eO2, pO2
or WLD). Power is supplied by a separate
external power supply unit.
By default the units are configured for tabletop
use. For rack mounting an accessory kit can
be ordered to either install 2 units alongside,
or one single unit together with a blind plate.
Connection to power supply
DC 24 V power is supplied via a 3-pin socket
at the rear of the unit.
Interfaces
Electrical connections for interface signals are
provided via submin-D connectors, Ethernet
and USB connectors mounted on the rear
panel of the device (fig. 1-5).
For applications where screw-type terminals
are preferred, optional adapters are available,
which are mounted directly onto the submin-D
connectors.
Interface signals
Detailed technical details on the various interfaces can be found at
1-10. The configuration of the connectors and the optional
screw-type terminal adapters are described in
chapter 4 'Installation' and the software
settings in
chapter 6 'Software'.
Gas connections
Depending on the configuration of the unit
(number of measurement channels and serial
or parallel connection), sample and calibration gases are fed into the unit via up to 6
tube fittings mounted on the rear panel. The
configuration of the fittings is indicated on an
adhesive label located near the tube fittings.

Emerson Process Management GmbH & Co. OHG

Technical Description

1.5	 X-STREAM XEGC: ½ 19 Inch Table-Top Unit

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1.5 X-STREAM XEGC

1
	
	
	
	
	
	

1	
2	
3	
4	
5	
6	

2

3

4

5

Status line
Graphic display
Messages line
home key
enter key
4 keys for adjustment and menu selection

6

7
	
	
	
	

7	
8	
9	
10	

8

9

10

Signal connectors (some optional)
Gas fittings
Power input fuse
Power input connector

Fig. 1-7:	 X-STREAM XEGC - Views

1-16

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1.6 X-STREAM XEGP

Connection to power supply
Main power is supplied via the IEC chassis
plug mounted on the rear panel, with integrated power switch and fuse holders. The
internal wide range power supply unit enables
the analyzers to be used worldwide.

Depending on the configuration of the unit
(number of measurement channels and serial
or parallel connection), sample and calibration gases are fed into the unit via up to 8
threaded connectors mounted on the rear
panel. The configuration of the connectors is
indicated on an adhesive label located near
the connectors.
A further optional tube fitting enables the
housing to be purged to minimize interference
from the ambient atmosphere, or when measuring corrosive and/or flammable gases.
For further information, see
1-5.

Interfaces
Electrical connections for interface signals are
provided via submin-D connectors mounted
on the rear panel of the device (fig 1-6).
For applications where screw-type terminals
are preferred, optional adapters are available,
which are mounted directly onto the submin-D
connectors.
Interface signals
Detailed technical details on the various interfaces can be found at
1-10. The configuration of the connectors and the optional
screw-type terminal adapters are described in
chapter 4 'Installation' and the software
settings in
chapter 6 'Software'.
Up to two digital I/O cards may be installed,
where the first digital I/O card is marked
"X4.1" while the second is "X4.2" on the rear
panel, right above the connector (fig. 1-6,
rear view).
Gas connections

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1

This model can be fitted with up to four
measurement channels in any combination.
The physical components can optionally be
encased in a cover. This area can be held at
a specific temperature of up to 60 °C to minimize interference from changes in external
temperature.
Units configured for rack mounting can be
converted for tabletop use by removing the
lateral mounting brackets and attaching the
four feet supplied as accessories.

Technical Description

1.6	 X-STREAM XEGP: 19 Inch Table-Top or Rackmount Design

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Front view

1.6 X-STREAM XEGP

1	
2	
3	

1
Status line
Graphic display
Messages line

2

3

4

5
	
	
	

4	
5	
6	

6
home key
enter key
4 keys for adjustment and menu selection

Rear view

	
	
	

	
	
	

1	
2	
3	

5
1
Gas connector fittings		
Space for additional fittings
Optional purge gas inlet

2
	
	

4	
5	

4
3
Power inlet with filter, fuses & switch
Signal input/output connectors (some optional)

Optional
screw-type terminal
adapter

Strain-reliefs, top view details

1
1

2

	
	

1	
2	

Screw-type terminal adapters
Strain-reliefs

Fig. 1-8:	 X-STREAM XEGP - Details

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1.7 X-STREAM XE Field Housing

Front panel
The analyzer’s display is covered by an impact
tested glass for enhanced protection against
breakage in harsh environments.
Electrical connections
Electrical connections are provided via internal tube fittings, the cables being fed through
cable glands on the underside of the unit (fig.
1-8). The front cover of the housing swings
open to the left once the fasteners have been
released.
Connection to power supply
Mains power is supplied via screw-type terminals with integrated fuse holders at the right
of the housing, near the front. The wide range
power supply unit mounted internally enables
the analyzers to be used worldwide.

Up to two digital I/O cards may be installed.
If so, on a label nearby, they are labeled
"X4.1" for the first I/O board, and "X4.2" for
the second.
Detailed technical details on the various interfaces can be found at
1-10. The configuration of the screw-type terminal adapters
are described in
chapter 4 'Installation'
and the software settings in
chapter 6
'Software'.
Gas connections
Depending on the configuration of the unit
(number of channels, series or parallel piping), up to eight tube fittings are provided for
the supply of sample and calibration gases.
The assignments of the fittings is given on an
adhesive label situated near the fittings.
A further optional tube fitting enables the
housing to be purged to minimize interference
from the ambient atmosphere, or when measuring corrosive and/or flammable gases.
For further information, see
1-5.
Dual compartment variation XDF
The dual compartment variation XDF supports separating electronics and physics,
e.g. for measurement of corrosive or solvent
gases. For such applications the electronics
are installed in the upper compartment, while
measurement physics are in the lower compartment.
XDF also provides more space e.g. for installation of optional signal converter elements for
system integrators.

Interface signals

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1-19

1

The field housing model is conceived for
outdoor use and wall-mounting. The coated stainless steel housing has a protection
class rated IP66 / NEMA Type  4X, offering
protection against water and dust entering
the device:
IPx6: In case of occasional flooding, e.g.
heavy seas, water shall not enter in harmful
quantities
IP6x: Protection against penetration by dust.
Live or internal moving parts are completely
protected.
An X-STREAM XEF can be fitted with up to
four measurement channels in any combination. The physical components can optionally
be encased in a cover. This separate volume
can be held at a specific temperature of up to
60 °C to minimize interference from changes
in external temperature.

Technical Description

1.7	 X-STREAM XEF/XDF: Field Housing With Single Or Dual Compartment

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1.7 X-STREAM XE Field Housing

Fig. 1-9:	 X-STREAM XEF / XDF- Front Views

HEAVY INSTRUMENT
X-STREAM field housings, intended for outside and wall mounted use,
weigh approx. (XEF) 26  kg (57  lb) or (XDF) 45 kg (99 lb), depending on
options installed.
Two people and/or lifting equipment is required to lift and carry these units.
Take care to use anchors and bolts specified to be used for the weight of 	
the units!
Take care the wall or stand the unit is intended to be installed at is solid
and stable to support the weight!

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1

Technical Description

1.7 X-STREAM XE Field Housing

1

	
	
	
	
	

2

1	
2	
3	
4	
5	

3

Cable gland for power cable
Cable glands for signal cables
4 brackets for wall-mounting
Gas in- & outlets (max. 8)
Cutouts, to combine 2 housings (here closed)

5

4

5

Note!
In case of XDF, the cable glands are
located at the upper compartment, while
the gas in- & outlets are at the bottom
side of the lower compartment.
Also only 2 brackets are at each compartment.

Fig. 1-10:	 X-STREAM XEF - Right Side and Bottom View

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1.7 X-STREAM XE Field Housing

1

5

2

(shown with front
panel removed)
	
	
	
	
	

1	
2	
3	
4	
5	

Screw-type terminals for signal cables
Power line filter
Cable glands
Power supply terminals with integrated fuses
Ethernet and USB connectors

4

3

Note!
In case of XDF, the terminals and
connectors are located at the upper
compartment, while physical components and gas fittings are in the lower
compartment.

Fig. 1-11:	 X-STREAM XEF - Power Supply and Signal Terminals

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1.7 Field Housings in Hazardous Areas

X-STREAM XEF and XDF models CAN NOT be used in explosive environments
(hazardous areas) without additional safety features.
This instruction manual does NOT describe the special conditions necessary
to operate gas analyzers in hazardous areas.
Please refer to the separate instruction manual supplied with units for use
in hazardous areas.

Special X-STREAM field housing analyzer models can be used in Ex-zones 1, 2 or Div 2:
X-STREAM XEFN/XDFN:
These analyzer variations feature a protection
concept called "non-incendive", which means
that non-sparking and non-arcing components, installed within a protecting enclosure,
enable installation in an European Ex-zone  2
for measuring non-flammable gases. No further
measures, such as a supply of protective gas,
are necessary.

X-STREAM XEFZ/XDFZ:
Equipped with a simplified pressurization system, these models can be used to measure
non-flammable gases in American zone Div 2.
A protective gas (e.g. pressurized air) must be
supplied when operating this model.
Please contact your local EMERSON Process
Management office if you require analyzers
for use in hazardous areas.

X-STREAM XEFS/XDFS:
Equipped with a simplified pressurization system,
these field housings can be used to measure
non-flammable gases in European Ex-zone 2.
A protective gas (e.g. pressurized air) must be
supplied when operating this model.

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1

EXPLOSION HAZARD

Technical Description

1.7.1	 Field Housings for Installation in Hazardous Areas (Ex-Zones)

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1.8 X-STREAM XEFD
1.8	 X-STREAM XEFD: Cast Aluminum Flameproof Housing
The most obvious X-STREAM XEFD analyzer
feature is its flameproof housing (fig. 1-10).
This enables its use in Ex-zone 1 hazardous
environments. With a protection type of IP66/
NEMA Type  4X and sturdy cast aluminum
housing designed for wall-mounting, it can
also be used in other tough environments.
IPx6: In case of occasional flooding, e.g.
heavy seas, water shall not enter in harmful
quantities
IP6x: Protection against penetration by dust.
Live or internal moving parts are completely
protected.
Up to four measuring channels in any combination can be installed in the X-STREAM
XEFD. Optionally, a cover can be installed
over the physical components. This separate volume can be heated up to a maximum
temperature of 60 °C to minimize the effects
of changes in external temperature.
Front panel
The analyzer’s display is protected by an
impact tested glass for enhanced protection
against breakage in harsh environments.
Electrical connections
Electrical connections are made via internal
screw-type terminals; the corresponding
cables are fed through cable inlets on the

underside of the unit into the housing (fig.
1-12). The front of the unit opens downwards
once the screws located on the surrounding
flange are removed.
Connection to power supply
Mains power is connected via screw-type
terminals with integrated fuses, located in
the front right-hand area of the housing. The
internally mounted wide range power supply unit ensures, the analyzers can be used
worldwide.
Interface signals
Up to two digital I/O cards may be installed,
where terminal strip for the first digital I/O card
is marked "X4.1" while the second is "X4.2"
on a label near the terminals.
Detailed technical details on the various interfaces can be found at
1-10. The configuration of the screw-type terminal adapters
are described in
chapter 4 'Installation'
and the software settings in
chapter 6
'Software'.
Gas connections
Depending on the configuration of the unit
(number of channels, series or parallel piping), up to eight flame arresters are provided for the supply of sample and calibration

EXPLOSION HAZARD
The special conditions for installing and operating analyzers in hazardous
areas are not covered by this manual!
Read the separate instruction manuals shipped together with instruments
intended to be installed in hazardous area!

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situation special conditions apply for operation
in hazardous areas, described in the separate
manual addendum for hazardous areas.
For further information on operation in general
purpose environments, see
1-5.

1

gases. The assignments of the connectors is
given on an adhesive label situated near the
connectors.
Optional two of the fittings may be used to
purge the housing to minimize interference
from the ambient atmosphere, or when measuring corrosive and/or flammable gases. In this

Technical Description

1.8 X-STREAM XEFD

transport
lug
transport
lug

screws for
housing

hinges

Fig. 1-12:	 X-STREAM XEFD - Front View

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1.8 X-STREAM XEFD

3
	
	
	

2
1	
2	
3	

3

1

Cable inlets for power and signal cables
Gas tube fittings, protected by flame arrestors
4 brackets for wall mounting

Fig. 1-13:	 X-STREAM XEFD - Bottom View

HEAVY INSTRUMENT
The model X-STREAM XEFD, intended for outside and wall mounted use,
weighs approx. 63 kg (139 lb), depending on options installed.
Two people and/or lifting equipment is required to lift and carry these units.
Use the transport lugs located on the sides of the instrument.
Take care to use anchors and bolts specified to be used for the weight of 	
the units!
Take care the wall or stand the unit is intended to be installed at is solid
and stable to support the weight!

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1

Technical Description

1.8 X-STREAM XEFD

(shown with front
panel removed)

5
	
	
	
	
	

1	
2	
3	
4	
5	

1

2

3

4

Terminals for signal cables (shown fully populated)
Power line filter
Cable inlets for power and signal cables
Power supply terminals with integrated fuses
Ethernet and USB connectors

Fig. 1-14:	 X-STREAM XEFD - Terminals

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Chapter 2
Technical Data

Common technical data	

	 page 2-2

	

X-STREAM XEGC 	

	 page 2-6

	

X-STREAM XEGP	

	 page 2-12

	

X-STREAM XEF, XDF	

	 page 2-15

	

X-STREAM XEFD	

	 page 2-19

Emerson Process Management GmbH & Co. OHG

2

	

Technical Data

This chapter contains all the technical details
of the analyzers, divided into common and
model-specific data.

2-1

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2.1 Common Technical Data
2.1	 	Common Technical Data
Site of installation
Humidity
(non-condensing)
Degree of pollution
Installation category
Elevation
Ambient atmosphere

< 90 % RH at +20 °C (68 °F)
< 70 % RH at +40 °C (104 °F)
2
II
0 to 2000 m (6560 ft) above sea level
Units may not be operated in corrosive,
flammable or explosive environments (except flameproof XEFD) without additional
safety measures.

Certification
Electrical safety
CAN / USA

CSA-C/US, based on CAN/CSA-C22.2 No.
61010-1-04 / UL 61010-1, 2nd edition

Europe

CE, based on EN 61010-1

Electromagnetic
compatibility
Europe
Australia
others

CE, based on EN 61326
C-Tick
NAMUR

Gas parameters
Chapter 3 “Measuring principles”
Purging option
The purging medium (e.g. to minimize CO2
interference or for enhanced safety when
measuring corrosive or poisonous gases)
must be dry, clean and free of corrosives
or components containing solvents.
To minimize cross interferences the purge
gas also has to be free of components to
be measured.

2-2

Its temperature must correspond to the
ambient temperature of the analyzer, but
be at least within the range 20 ... 35 °C
(68 ... 95 °F).
For information about values for pressure and
flow, please contact your nearest EMERSON
Process Management sales office.

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2.1 Common Technical Data

Interfaces, signal inputs and outputs
standard: 	
optional:	

subminD plugs and sockets
screw-type terminal adapters

X-STREAM XEF, XDF, XEFD:		

internal screw-type terminals

All versions provide a 2 RJ45 plugs for Ethernet connections as well as 1 USB and 1 mini USB
connector (field housings internally only).
All models are supplied with

4 (0) - 20 mA (RB < 500 Ω)
electrical
specification optically isolated from each other and from analyup to 5 analog outputs
zer electronics
user-configurable activation and deactivation of
(standard: 1 analog output
concentration levels
per channel)
function
support for NAMUR NE 43 operation modes, configurable via keypad and Modbus
dry contacts
electrical
specification max. load. 30 V; 1 A; 30 W resistive
Each output can be configured to one of the following functions:
NAMUR NE 107 status signal
'Failure'
'Maintenance request'
4 relay outputs
'Out of specification'
'Function check'
function
1 of 2 concentration limits per channel,
Control signals for
external valve V1 ... V8,
external sample gas valve
external pump
zoom status for analog outputs
2 Modbus interfaces
Ethernet (RJ45 sockets)
specification USB 1.0
1 USB connector type A,
for connecting external storage devices
2 USB ports
function
1 USB connector type mini AB,
for connecting external computers

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2

X-STREAM XEGC, XEGP: 	
	

Technical Data

Interface signals are accessed in different ways depending on the analyzer model:

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2.1 Common Technical Data

Optional interfaces for all models
Digital I/O board
electrical
specification

7 or 14 digital inputs
(X-STREAM XEGC: max. 7 inputs)

function

electrical
specification

9 or 18 additional relay outputs
(X-STREAM XEGC: max. 9 add.
outputs)

2-4

function

max. 30 V, internally limited to 2.3 mA
HIGH: min. 4 V; LOW: max. 3 V
common GND
Each input can be configured to one of
the following functions:
Open valve V1 ... V8
Open sample gas valve
Activate sample gas pump
Zero calibrate all channels
Span calibrate all channels
Zero and span calibrate all channels
Abort calibration
Zoom analog output 1
Zoom analog output 2
Zoom analog output 3
Zoom analog output 4
Dry relay change-over contacts can be
used as NO or NC
max. load. 30 V; 1 A; 30 W resistive
Each output can be configured to one of
the following functions:
NAMUR NE 107 status signal
'Failure',
'Maintenance request'
'Out of specification' or
'Function check'
1 of 2 concentration limits per channel,
Control signals for
external valve V1 ... V8,
external sample gas valve,
external pump,
zoom status for analog outputs

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

2.1 Common Technical Data

Optional interfaces for all models
Analog I/O board

2 analog inputs

function

protected against overload up to ± 15 V
or ± 20 mA
Input analog signals from external devices, such as e.g.
pressure transmitters,
flow sensors,
analyzers, etc.
for compensation or other purposes

Serial Interface
electrical
specification
function

1 Interface

9-pin,optically isolated from analyzer
electronics
RS232C, RS485 or Modbus

Special Interface
Service Interface
1 serial

electrical
RS232C,
specification NOT optically isolated from analyzer electronics
function
Only for special trained service personnel!

Emerson Process Management GmbH & Co. OHG

2-5

2

electrical
specification

optional (requires to fit wire bridges,
Chapter 4 'Installation'):
4 (0) - 20 mA ; Rin = 50 Ω
optically isolated from analyzer GND

Technical Data

0 - 1 V, 0 - 10 V (software selectable)
Rin = 100 kΩ

Instruction Manual

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04/2010

2.2.1 Model-Specific Technical Data: X-STREAM XEGC
2.2	 Model-Specific Technical Data
2.2.1	 X-STREAM XEGC: ½ 19 Inch Tabletop Unit

All dimensions in mm [in]

Dimensional drawings show tabletop version with strain-reliefs
and screw-type terminals.

Fig. 2-1:	 X-STREAM XEGC - Dimensions

	 1	
	 2	
	 3	
		

Power connector
Fuse holder
Signal connectors
(some optional; CAN projected)

Fig. 2-2:	 X-STREAM XEGC - Connectors and Fuse

2-6

3

2

1

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Instruction Manual
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X-STREAM XE

2.2.1 Model-Specific Technical Data: X-STREAM XEGC

2

Technical Data

Analyzer with
blindplate to the left

Analyzer with
blindplate to the right

Two analyzers in a
rack

All dimensions in mm [in]

Fig. 2-3:	 X-STREAM XEGC - Rack Mounting Options

Emerson Process Management GmbH & Co. OHG

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2.2.1 Model-Specific Technical Data: X-STREAM XEGC

Temperatures
operational
storage
Weight, max
IP or Type rating
Gas connections
max number
max for purging
(incl. / separate)
material
sizes
Power supply unit
Power supply
nominal voltage
voltage range
nominal input current, max
Power input fuses
Electrical in- and outputs
power
signals
optional
special

2-8

0 ... +50 °C / 32 ... 122 °F
-20 ... +70 °C / -4 ... -158 °F
8 ... 12 kg / 17.6 ... 26.5 lb
IP 20 for indoor use,
protected against dripping water and direct sun light
6
2 incl.
PVDF; stainless steel (opt.)
6/4 mm; 1⁄4"
wide range, external
Mains supply voltage fluctuations are not to exceed
+/- 10 percent of the nominal voltage
DC 24 V
DC 10 ... 30 V
2.5 A
AC 230 V / T 3.15 A / 5x20 mm
3-pin XLR connector
signal cables are connected using submin-D plugs or sockets
on the unit’s rear panel
terminals adaptors, to be installed onto the submin-D connectors
Ethernet: RJ45 socket; USB connectors

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

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04/2010

2.2.1 Model-Specific Technical Data: X-STREAM XEGC
2.2.1.1	 Data for Optional External Power Supply Units
Model UPS 01 T
PE

57.7

54.2

This PSU can be ordered as an option for supplying power to one tabletop unit.

Technical Data

All dimensions in mm [in]

105.9
IEC power input socket

275.3

(shielding)
2

3

2

Pin 1: ME
Pin 2: + 24 V
Pin 3: 0 V (⊥)
shield: housing flange

1

Pin configuration for 24 V DC output socket
Fig. 2-4:	 UPS 01 Tabletop Power Supply Unit

Nominal input voltage
Input voltage range
Power consumption
Input
Power input fuses
Nominal output voltage
Nominal output current
Surge protection
Excess temperature protection
Output
Weight
Certification
Safety
EMC

Emerson Process Management GmbH & Co. OHG

120 / 230 V
50/60 Hz
95 - 138 V / 187 - 264 V , 47 - 63 Hz
max. 240 VA
via rubber connector (IEC plug;
fig. 2-4).
The PSU does not include user-replaceable fuses.
(+- 5 %)
24 V
5A
current limiting typ. 110% Inom, straight response curve,
short-circuit-proof
reduction of output voltage to disconnection. Resets
after cooling.
3-pin XLR socket
approx. 2.5 kg (4.8 lb)
EN 60950, UL1950, CSA22.2 NO 950-95
EN 50081-1 (emitted interference) EN 50082-2 (interference resistance), et al

2-9

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2.2.1 Model-Specific Technical Data: X-STREAM XEGC

This PSU can optionally be ordered for rack installation.
Two variations are available:
•	 with blind front panel, connectors at the rear side
•	 with rear panel, connectors to the front.
Both variations are fixed to the rack by means of screws at the panels.

Fig. 2-5:	 UPS 01 Power Supply Unit for Rack Installation

2-10

Emerson Process Management GmbH & Co. OHG

Instruction Manual

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2.2.1 Model-Specific Technical Data: X-STREAM XEGC

Model 10 A tabletop PSU
This PSU can optionally be ordered for powering 2 tabletop units with a single common power
supply.
PE

1

2

All dimensions in mm [in]

front

2
3

(shielding)

rear

Pin 1: ME
Pin 2: + 24 V
Pin 3: 0 V (⊥)
shield: housing flange

Technical Data

IEC power input connector
with fuse-holder

Pin configuration for 24 V DC output socket

Fig. 2-6:	 10 A Tabletop PSU

Nominal input voltage
Input voltage range
Input current
115 V setting
230 V setting
Input
Power input fuses
Nominal output voltage
Nominal output current
Surge protection
Excess temperature protection
Power loss
Output
Weight
Certification
Safety
EMC
Recommended clearance

Emerson Process Management GmbH & Co. OHG

100-120 / 220-240 V
50/60 Hz
(Nominal voltage not to be changed by operator)
85 - 132 / 176 - 264 V, 47 - 63 Hz
max. 240 VA
<6A
< 2.8 A
fig. 2-6).
via rubber connector (IEC plug;
AC 230 V / T 6.3 A / 5x20 mm
(+ 5 / -1 %)
24 V
max. 10 A, limited to 5 A per output
protection against short-circuits, 	power surges and no-load
running
derating from 60 °C /140 °F
typ. 29 W (230 V ; 24 V, 10 A)
two 3-pin XLR socket
approx. 2 kg / 4.4 lb
(for internal power supply module only)
EN 60950, EN 50178, UL1950, UL/CSA-22.2 No 950-M90
EN 50081-1, class B (emitted interference), 	EN 50082-2,
class A (interf. resistance), et al
15 mm / 0.6" in front and behind

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2.2.2 Model-Specific Technical Data: X-STREAM XEGP
2.2.2	 X-STREAM XEGP: 19 Inch Tabletop and Rack-Mount Models

approx. values in mm [in]

Strain relief bracket, detail
(model with clamping adapters)

Fig. 2-7:	 X-STREAM XEGP - Dimensions

2-12

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2.2.2 Model-Specific Technical Data: X-STREAM XEGP

Gas connections
max number
max for purging
(incl. / separate)
material
sizes
Power supply unit
Power supply
nominal voltage
voltage range
nominal input current, max
standard, max
w/ temperature control, max
Power input fuses
Electrical in- and outputs
power
signals
optional
special

Emerson Process Management GmbH & Co. OHG

Technical Data

IP or Type rating

0 ... +50 °C / 32 ... 122 °F
-20 ... +70 °C / -4 ... -158 °F
12 ... 16 kg / 26.5 ... 35.3 lb
IP 20 for indoor use,
protected against dripping water and direct sun light
8
1 separate.
PVDF; stainless steel (opt.)
6/4 mm; 1⁄4"
wide range, internal
Mains supply voltage fluctuations are not to exceed
+/- 10 percent of the nominal voltage
100 - 240 V
50 / 60 Hz
85 - 264 V
47 - 63 Hz

2

Temperatures
operational
storage
Weight, max

1.3 - 0.7 A
3 - 1.5 A
AC 230 V / T 4 A / 5x20 mm
IEC connector with integrated power switch & fuse holders
signal cables are connected using submin-D plugs or sockets on the unit’s rear panel
terminals adaptors, to be installed onto the submin-D connectors
Ethernet: RJ45 socket; USB connectors

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2.2.2 Model-Specific Technical Data: X-STREAM XEGP

	
	

1	
2	

4
Power connector
Fuse holder

	 3	
	 4	
		
Fig. 2-8:	 X-STREAM XEGP - Power Supply and Signal Connections

1

2

	 1	
		
		
	 2	
	

Strain relief with cable shield
grounding clamps (quantity varies
depending on installed options)
Terminal adapters

1
2
3
Power switch
Signal connectors
(some optional; CAN projected)

Terminal adapters (detail)

Fig. 2-9:	 X-STREAM XEGP - Signal Connections With Screw-Type Terminal Adapters (top View)

2-14

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2.2.3 Model-Specific Technical Data: X-STREAM XE Field Housing
2.2.3	 X-STREAM XEF/XDF: Single/Dual Compartment Field Housing

Connector
for potential
equalization

2

Cable glands

Technical Data

Gas fittings

All dimensions in mm
[inches in brackets]

Fig. 2-10:	 X-STREAM XEF - Dimensions

Emerson Process Management GmbH & Co. OHG

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2.2.3 Model-Specific Technical Data: X-STREAM XE Field Housing

All dimensions in mm
[inches in brackets]

Gas fittings
Connector
for potential
equalization

Cable glands

Fig. 2-11:	 X-STREAM XDF - Dimensions

2-16

Emerson Process Management GmbH & Co. OHG

Instruction Manual

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2.2.3 Model-Specific Technical Data: X-STREAM XE Field Housing

Gas connections
max number
max for purging
(incl. / separate)
material
sizes
Power supply unit
Power supply
nominal voltage
voltage range
nominal input current, max
XEF
standard, max
w/ temperature control, max
XDF
standard, max
w/ temperature control, max
Power input fuses
Electrical in- and outputs
power
signals
special
Cable entries
permissible cable outer dia

Emerson Process Management GmbH & Co. OHG

up to approx. 25 kg / 55.1 lb
up to approx. 45 kg / 99.2 lb
IP 66, Type 4X for outdoor use,
protected against direct sun light

Technical Data

IP or Type rating

0 (-20) ... +50 °C / 32 (-4) ... 122 °F
-20 ... +70 °C / -4 ... -158 °F

8
1 separate.

2

Temperatures
operational
storage
Weight, max
XEF
XDF

stainless steel
6/4 mm; 1⁄4"
wide range, internal
Mains supply voltage fluctuations are not to exceed
+/- 10 percent of the nominal voltage
100 - 240 V
50 / 60 Hz
85 - 264 V
47 - 63 Hz

1.3 - 0.7 A
3 - 1.5 A
1.5 - 0.8 A
5.5 - 3 A
AC 230 V / T 6.3 A / 5x20 mm
screw terminals with integrated fuse holders,
max. 4 mm² / 11 AWG
screw terminals, max. 1.5 mm² / 15 AWG
Ethernet: RJ45 socket; USB connectors
Cable glands, IP 68
7 ... 12 mm / 0.27" ... 0.47"

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2.2.3 Model-Specific Technical Data: X-STREAM XE Field Housing

1

2

	 1	
		
	 2	
	 3	

Power supply terminals with
fuse holders
Grounded conductor clamp (PE)
Power supply cable entry

3

Fig. 2-12:	 X-STREAM XE Field Housing - Power Supply Terminals / Fuse Holders

1

	
	
	

1	
2	
3	

2

Ethernet & USB (CAN projected)
Analog & digital I/O terminal strips
Max. 4 signal cables entries

3
Note!
Depending on the actual analyzer configuration
not all shown terminal strips may be installed!

Fig. 2-13:	 X-STREAM XE Field Housing - Signal Terminals

2-18

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Instruction Manual

X-STREAM XE

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2.2.4 Model-Specific Technical Data: X-STREAM XEFD
2.2.4	 X-STREAM XEFD: Flameproof Housing

2

Technical Data

Transport lugs to be removed after installation

Flame arrestors with gas fittings
(enclosure threads: M18 x 1.5)

Cable inlets
(enclosure threads; M20 x 1.5)

Eyebolt detail
All dimensions in mm
[inches in brackets]

Fig. 2-14:	 X-STREAM XEFD - Dimensions

Emerson Process Management GmbH & Co. OHG

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2.2.4 Model-Specific Technical Data: X-STREAM XEFD

Temperatures
operational
storage
Weight, max
IP or Type rating
Gas connections
max number
max for purging (incl. / separate)
material
sizes
Power supply unit
Power supply
nominal voltage
voltage range
nominal input current, max
standard, max
w/ temperature control, max
Power input fuses
Electrical in- and outputs
power
signals
special
Cable entries
cable glands:
permissible cable outer dia

2-20

0 (-20) ... +50 °C / 32 (-4) ... 122 °F
-20 ... +70 °C / -4 ... -158 °F
up to approx. 63 kg / 138.6 lb
IP 66, Type 4X for outdoor use,
protected against direct sun light
8
2 incl..
stainless steel
6/4 mm; 1⁄4"
wide range, internal
Mains supply voltage fluctuations are not to exceed
+/- 10 percent of the nominal voltage
100 - 240 V
50 / 60 Hz
85 - 264 V
47 - 63 Hz
1.3 - 0.7 A
3 - 1.5 A
AC 230 V / T 4 A / 5x20 mm
screw terminals with integrated fuse holders,
max. 4 mm² / 11 AWG
screw terminals, max. 1.5 mm² / 15 AWG
Ethernet: RJ45 socket; USB connectors
Cable glands, IP 68, or conduits with metric-to-NPT adaptors
3 ... 13 mm / 0.11" ... 0.5"
dependent on inset used in cable gland

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

	 1	
		
	 2	
	 3	
	 4	

Power terminals with integrated
fuse holders
Protective earth terminal (PE)
Power cable entry
EMI power supply filter

Technical Data

2.2.4 Model-Specific Technical Data: X-STREAM XEFD

1

4

3

2

2
Fig. 2-15:	 X-STREAM XEFD - Power Supply Terminals / Fuse Holders

1
	
	
	

1	
2	
3	

Ethernet & USB (CAN projected)
Analog & digital I/O terminal strips
Max. 3 signal cables entries

2

3

Note!
Depending on the actual analyzer configuration
not all shown terminal strips may be installed!

Fig. 2-16:	 X-STREAM XEFD - Signal Terminals

Emerson Process Management GmbH & Co. OHG

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2.3 Information on Name Plate
2.3	 Information on Name Plate
The name plate provides details on the configuration of the unit, installed measuring techniques, sample gases and measuring ranges.
It also indicates the unit’s serial number.
The plate is located on either the side or the
rear of the unit.

Note!
Analyzers configured to be installed in hazardous areas have special name plates,
described in the associated manuals.
7

1

2
IR UV UV eO2

XEGC, XEGP
3

11812345678

NO:FS 150 ... 5000 ppm

NO2:FS 100 ... 5000 ppm

SO2:FS 100 ... 5000 ppm

O2:FS 5 ... 25 %

4

6
8

1
Field housings

2

5

IR UV UV eO2
11912345678

9
7
3 ... 6

1	
2	
3	
4	
5	
6	
7	
8	
9	

NO:FS 150 ... 5000 ppm
SO2:FS 100 ... 5000 ppm
NO2:FS 100 ... 5000 ppm
O2:FS 5 ... 25 %

Model and installed measuring techniques (here: IR & 2x UV & electrochemical O2)
Serial number
Channel 1: Gas and full scale ranges (here: NO, 150 to 5000 ppm)
Channel 2: Gas and full scale ranges (here:SO2, 100 to 5000 ppm)
Channel 3: Gas and full scale ranges (here: NO2, 100 to 5000 ppm)
Channel 4: Gas and full scale ranges (here:O2, 5 to 25 %)
Manufacturer´s address
Certification marks (XEGC, XEGP: on a separate label)
Electrical data (XEGC, XEGP: on rear panel)

Fig. 2-17:	 Analyzer Name Plate (examples)

2-22

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

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3.1	 Infrared Measurement (IR)
	 Ultraviolet Measurement (UV)
The non-dispersive measurement methods
described in this section utilize gas specific
light absorption in order to discriminate between different gases. This is possible, as
any gas possesses distinct absorption characteristics. Selective measurement of these
so called absorption lines can be used to
identify gas components: The amount of light
absorpted by the absorption lines, is a direct
measure of the gas concentration.
One can distinguish between two different
types of non-dispersive measurements, differing in the way, wavelength selectivity is
accomplished. It is essential for gas specific
concentration measurements, to selectively
detect only light of the absorption line wavelengths of the gas of interest. Typically a gas
selective detector is used for NDIR measure3-3. For NDUV the selectivity
ments,
is achieved by an additional optical filter, as
the detector itself is broadband sensitive. In
some applications, a pyrodetector is used for
NDIR measurements. This type of detectors
is not wavelength selective, hence these setups also use an optical filter to narrow their
wavelength response function.
The assembly of a NDIR and NDUV channel
is shown in
Fig. 3-3. For NDIR a broad-

Emerson Process Management GmbH & Co. OHG

band IR light source is used to generate the
light, while NDUV measurements utilize a UV
narrowband fluorescence source, already
adopted for the absorption lines of the gas
of interest. Part of this adoption is done by a
specially selected optical filter in the adaptor
cell.
The diameter of the light beam emitted from
the sources is adjusted to completely fill the
opening of the split analysis cell. After traversing the analysis cell, the light passes through
a filter cell which adjusts the beam diameter
to the chopper opening and the diameter of
the active detector area. The chopper wheel
used is designed to allow an intrinsically referenced measurement. The details of this
new patent pending method are described in
section 3.1.1.
The decision, which measurement (UV / IR)
to use for a specific application depends on
the gas component to be measured, and the
required measurement performance.

3.1.1	 IntrinzX Technology
The IntrinzX technology is an enhancement
of the well established “proof peak” technology with automatic sensitivity control, known
from the MLT gas analyzer series. While the
“proof peak” provided only one reference
measurement per chopper wheel revolution,
the IntrinzX technology provides four reference measurements per revolution. The
patent pending IntrinzX technology has been
introduced into the market with the launch of
the X-STREAM X2 gas analyzers.
Using the new IntrinzX chopper wheel, the
reference and the measurement signal are
modulated with 4 and 5 times the basic revo-

3-1

3

X-STREAM series analyzers support several
measuring principles depending on the gas
component of interest. This provides best
possible results, as the measurement can be
chosen to optimally fit the characteristics of
the gas to be measured with respect to the
application. The following sections introduce
the available measuring principles highlighting
their specific characteristics.

Principles

Chapter 3
Measuring Principles

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3.1 Infrared (IR) and Ultraviolet (UV) Measurement

3-2

50 % absorption

0 % absorption

•	 Small and large ranges before and after
scrubbers
•	 Measurement of carbon bed breakthrough /
catalyst efficiency
•	 Mobile measurements at different sampling points / locations
•	 Easy adaption to different applications
(universities, laboratories)
•	 Supports automotive engine testing
•	 Benches to be used in TOC applications
for measurements of low and high carbon
content

100 % absorption

lution frequency. As a result, the proof peak
process is integrated into the measurement
information, in contrast to being artificially
inserted in the measurement signal.
Frequency filtering separates the sum signal
into measurement and reference signal (
Fig. 3-1). This results in a permanently
referenced signal by dividing the integrated
reference level by the integrated measurement level for each revolution.
Therefore the IntrinzX technology provides
many outstanding features:
•	 High dynamic measurement ranges (e.g.
0-200 to 50,000 ppm CO), which cannot
be obtained with standard photometric
technologies
•	 Reduced temperature dependency
•	 High sensitivity for lowest measuring
ranges
This leads to cost saving effects for the customer:
•	 Fewer number of benches & cells
•	 Easier field repair and replacement of
parts
•	 Easy adjustment of low measuring ranges
in the field
•	 Reduced maintenance
•	 Extended span calibration intervals
•	 Minimized demand for test gases
Due to the inherent correlation between reference and measurement side, span calibration
can often be achieved by zero calibration.
The above listed IntrinzX features offer a
high degree of flexibility with regards to applications:
•	 One bench enables measurements of low
& high ranges
•	 Low & high concentration in raw and clean
gases

Fig. 3-1:	 IntrinzX Signal Forms

Emerson Process Management GmbH & Co. OHG

Instruction Manual

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3.1 Infrared (IR) and Ultraviolet (UV) Measurement
3.1.2	 NDIR Detector

Absorption chamber

Principles

absolute flow, detected by the micro flow sensor, in both cases is therefore a measure for
the light absorbed while the chopper is open.
This directly correlates to the amount of light
not absorbed in the analysis cell and therefore
to the concentration of the measurement gas
inside the analysis cell.
Using the divided analysis cell and the IntrinzX
chopper wheel, this enables simultaneous
detection of measurement and reference
signal.

3

The standard detector used for NDIR measurements is an opto pneumatic detector. It
consists of two chambers, filled with gas and
connected via a small channel (
Fig. 3-2).
The gas filling is chosen to provide maximum
overlap with the gas to be measured. Usually
the gas to be measured itself is used.
A micro flow sensor, placed in the connecting
channel, measures the flow between both
chambers. As light is absorbed by the gas in
the absorption chamber, the gas temperature
changes. This results in an increase of volume
of the heated gas: The gas expands and flows
towards the compensation chamber. When
the chopper closes, no light is absorbed and
thus temperature and volume of the gas in
the absorption chamber decrease. Gas flows
back from the (now) hotter compensation
chamber into the absorption chamber. The

Window

Fill nozzle

Connecting channel
with
micro flow detector

Compensation chamber

Fig. 3-2:	 Gas Detector Design Principle

Emerson Process Management GmbH & Co. OHG

3-3

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3.1 Infrared (IR) and Ultraviolet (UV) Measurement
3.1.3	 Technical Implementation
pyrodetectors, limiting the bandwidth of radiation passing the chopper.

The radiation emitted by an IR or UV source
passes an adaptor cell, widening the beam to
completely fill out the analysis cell´s diameter.
At the opposite side of the cell, another adaptor cell is installed to reduce the beam to the
diameter of the opening in the chopper.
The detectors are installed at the rear side
of the chopper. As pyrodetectors are not as
frequency selective as gas detectors, an additional filter has to be installed when using

7

6
5
4

1

2

8

3

13

1	
2	
3	
4	
5	
6	

UV source
Adaptor cell
Analysis cell (internal view)
Filter cell
UV detector
Gas detector

12

11

10

9

7	 IR detector electronics
8	 Pyro detector (alternatively)
9	 Temperature sensor
10	 Filter for pyro detector assembly
11	 Chopper
12	 Chopper electronics
13	 IR source

Fig. 3-3:	 Photometer Assembly Principle

3-4

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3.2 Oxygen Measurement
3.2	 Oxygen Measurement
Two different principles are used for measuring oxygen concentrations. The principle
used in your specific instrument is given by
the channel code (sample gas designator)
on the nameplate label (
figure on page
2-22):
pO2 = paramagnetical sensor
eO2 = electrochemical sensor

The paramagnetic oxygen detector also contains a temperature sensor and a heating element to hold the detector at approx. 55 °C.
Several variations are available including
corrosion resistant, solvent resistant and/or
intrinsically safe (for measuring flammable
gases) versions.
10

11

7

9

Emerson Process Management GmbH & Co. OHG

3

Oxygen measurement is based on the paramagnetical characteristics of oxygen molecules:
Two quartz spheres filled with nitrogen (N2 is
not paramagnetic) are arranged in a dumbbell configuration and, hinged to a platinum
wire, placed inside a cell. Fixed to the wire a
small mirror reflects a light beam to a photo
detector (Fig. 3-4).
The measuring cell is placed inside an inhomogeneous magnetical field, generated
by a strong permanent magnet of specific
design.
Oxygen molecules within the sample gas now
due to their paramagnetical characteristics
are deflected into the area of highest field
strength. This generates different forces on
both spheres and the resulting torque turns
dumbbell and mirror out of the rest position.
This generates a photodetector signal because the beam is deflected, too.
Initiated by the photodetector signal a preamplifier drives a compensation current
through a loop surrounding the dumbbell to
turn back the dumbbell into the rest position
by effect of a magnetic field
So the current compensating the torque affecting the dumbbell is a direct measure for the
oxygen concentration within the sample gas.

Principles

3.2.1	 Paramagnetic Measurement

4

1
2
3
4
5

1

5

	 Permanent magnet
	 Platinum wire
	 Mirror
	 Glass ball
	 Loop

2

3

6

8

6 	 Photodetector
7 	 Light source
8 	 Preamplifier
9 	 Display
10	 Gas inlet
11	 Gas outlet

Fig. 3-4:	 Paramagnetic Oxygen Sensor Assembly Principle

3-5

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3.2 Oxygen Measurement
3.2.1.1	 Cross Interferences by Accompanying Gases
The table below shows, how accompanying
gases interfere the paramagnetical oxygen
measurement. If the concentration of such
gases is already given at time of enquiry, this
interference may be taken into account during
factory startup and thus minimized (option).

100 % Gas
Acetylene
Allene
Ammonia
Argon
Bromine
1.2-Butadiene
1.3-Butadiene
n-Butane
i-Butene
cis 2-Butene
trans 2-Butene
Carbon dioxide
Carbon monoxide
Chlorine
Cyclohexane
Ethane
Ethylene
Helium
n-Heptane
n-Hexane
Hydrogen
Hydrogen bromide

Zero-level effect % O2
C 2H 2
C3H4
NH3
A
Br2
C4H6
C4H6
C4H10
C4H8
C4H8
C4H8
CO2
CO
Cl2
C6H12
C2H6
C2H4
He
C7H16
C6H14
H2
HBr

-0.24
-0.44
-0.26
-0.22
-1.30
-0.49
-0.49
-1.11
-0.85
-0.89
-0.92
-0.27
+0.06
-0.77
-1.56
-0.43
-0.26
+0.30
-2.10
-1.70
+0.24
-0.61

100 % Gas
Hydrogen chloride HCl
Hydrogen flouride
HF
Hydrogen iodide
HI
Hydrogen sulphide H2S
Iodine
I
Isobutane
C4H10
Isobutane
C5H12
Krypton
Kr
Laughing gas
N 2O
Methane
CH4
Neon
Ne
Neoptane
C5H12
Nitric acid
HNO3
Nitrogen dioxide
NO2
Nitrous oxide
NO
n-Octane
C8H18
n-Pentane
C5H12
Propane
C3H8
Propylene
C3H6
Vinyl chloride
C2H3Cl
Water
H2O
Xenon
Xe

Zero-level effect % O2
-0.30
+0.10
-1.10
-0.39
-2.40
-1.11
-1.49
-0.51
-0.20
-0.20
+0.13
-1.49
+0.43
+28.00
+40.00
-2.50
-1.45
-0.86
-0.55
-0.63
-0.02
-0.95

Tab. 3-1: 	 Standard Paramagnetic Sensor - Cross Interference by Accompanying Gases

3-6

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3.2 Oxygen Measurement
3.2.1.2	 Applications With Corrosive Or Solvent Components

Component

Acetic acid
Acetone
Acrolein
Aromatics
Butadiene
Butadiene-1
Butadiene-2
C2H2
C4H8
C5
C6H12
CH3COOH
Cyclohexane
Cyclohexanon
Dimethyl sulfide
Ethanol
Ethene
Ethylene
Ethylene oxid

Concentration

Component

Concentration

0.1- 20 %
Heptane
0.1- 20 %
0.1- 20 %
Hexane
0.1- 20 %
0.1- 20 %
Isopropanol
0.1- 20 %
0.1- 20 %
Methanol
0.1- 20 %
0.1- 20 %
Methyl acetate 0.1- 20 %
0.1- 20 % Methylethylketone 0.1- 20 %
0.1- 20 % Methylmercaptane 0.1- 20 %
0.1- 20 %
Propadiene
0.1- 20 %
0.1- 20 %
Propene
0.1- 20 %
0.1- 20 % Propylen oxide 0.1- 20 %
0.1- 20 %
Propylene
0.1- 20 %
0.1- 20 %
Toluene
0.1- 20 %
0.1- 20 %
Vinyl acetate
0.1- 20 %
0.1- 20 % Vinyl acetylene 0.1- 20 %
0.1- 20 %
Xylene
0.1- 20 %
0.1- 20 %
i-Butyr acid
0.1- 20 %
0.1- 20 % i-Butyr aldehyd 0.1- 20 %
0.1- 20 %
i-Propylformiat 0.1- 20 %
0.1- 20 %
n-Butane
0.1- 20 %

Conditions
· Single or summarized concentrations do not
exceed 20 %
· Gas passes gas cooler prior to entering the
analyzer
· Gas dew point at max. 5 °C
Solvent resistant sensors are consumables!

Tab. 3-2: 	 Solvent Resistant Paramagnetic Sensor Approved Solvents

Case
Pole nucleus
Mirror
Tension band
Loop wire
Supporting
wire
Cylinder
Cylinder
bushing
Dumbbell
Taring

Measuring cell type
Corrosion resistant
(Chlorine, dry)
SS 1.4572
SS 1.4573
Tantalum
Glass, Rhodium
Platinum alloy
Platinum alloy

Solvent resistant

Platinum alloy
Glass
Ceramics
Glass
Epoxy

Epoxy

Compound
material

Plumb bob, Epoxy

Epoxy

Seals

Kalrez

Kalrez

Principles

Approved solvents
(inclusive accompanying disturbing
components)

Component

Tab. 3-3: 	 Solvent Resistant Paramagnetic Sensor Medium Affected Materials

The table below shows, how accompanying
gases interfere the paramagnetical oxygen
measurement. If the concentration of such
gases is already given at time of enquiry, this
interference may be taken into account during
factory startup and thus minimized (option).
100 % Gas
Argon
Carbon Dioxide
Carbon Monoxide
Ethane
Ethene
Helium
Hydrogen
Methane
Neon
Nitrogen
Nitrogen Dioxide
Nitrogen Oxide
Nitrous Oxide
Propane
Propene

Zero-level effect % O2
Ar
CO2
CO
C2H6
C2H4
He
H2
CH4
Ne
N2
NO2
NO
N 2O
C3H8
C3H6

-0.22
-0.27
+0.01
-0.46
-0.26
+0.3
+0.24
-0.2
+0.13
+0.00
+28.0
+43.0
-0.2
-0.86
-0.55

Tab. 3-4: 	 Solvent Resistant Paramagnetic Sensor Cross Interference by Accompanying
Gases

Emerson Process Management GmbH & Co. OHG

3-7

3

Special paramagnetic oxygen sensors are
available to measure gases, containing corrosive or solvent components.
See below tables for further information on
approved solvents, and medium affected
materials.

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3.2 Oxygen Measurement
3.2.2	 Electrochemical Measurement (I)
This sensor utilizes the principle of galvanic
cells, fig. 3-5 shows the design.

10

11

6
9

11

3
5

1

7
13
2
4
8

12
12

	 1	Anode (lead)
	 2	Cathode (Gold)
	 3	Electrolyte solution
	 4	Membrane
	 5	Thermistor
	 6	Resistance
	 7	Titanum wire
	 8	O-Ring
	 9	Pressure compensating volumes
	10	Lid
	11	Electrical connections
	12	Lids
	13	Current collector
Fig. 3-5:	 Electrochemical Sensor Design Principle

3-8

The electrochemical oxygen sensor‘s key
components are a lead anode (1) and a gold
cathode (2) surrounded by a special acid
electrolyte (3).
The gold electrode is integrated solid with the
membrane,which is a non-porous fluororesin
membrane. Oxygen which barely diffuses
through the membrane is electrochemically
reduced on the gold electrode.
The temperature compensating thermistor
and adjusting resistance are connected between the cathode and anode. The current
generated by oxygen reduction is converted
into a voltage by these resistances.
The value of the current flowing to the thermistor and resistance varies in proportion to the
oxygen concentration of the measuring gases
which contact the membrane. Therefore, the
voltage at the terminal of the resistances is
used for the sensor output to measure the
oxygen concentration.

Sensor inserted
into holder

Fig. 3-6:	 Electrochemical Sensor - Assembly

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3.2 Oxygen Measurement

(black)

(11)

Thermistor (5)

Resistance (6)

(-)

(+)

Gold

Lead

cathode (2)

anode (1)

Principles

(red)

Electrolyte (3)
Electrochemical reaction:

3

Fig. 3-7:	 Electrochemical Reaction of Oxygen Sensor

In consequence of its design the sensor‘s
lifetime is limited and depends on theoretical
designed life and oxygen concentration. The
sensor output can be taken as a rough criterion for end of lifetime: The sensor is weared
when the output in atmosphere is below 70 %
of the initial output. The period till this can be
calculated by
Lifetime =

designed life (% hours)
O2 concentration (%)

The sensor‘s designed lifetime under constant
conditions of ambient temperature 20 °C is
approx. 900,000 % hrs.
The lifetime at 21 % oxygen is then calculated
to approx. 42,857 hrs, corresponding to
approx. 5 years.
An indicator for end of lifetime is a reduced
output signal. In this case the sensor must be
replaced to ensure accurate measurements
(
Chapter 7 "Maintenance").

Emerson Process Management GmbH & Co. OHG

Note!
The given values are for reference only! The
expected lifetime is greatly affected by the
temperature of the environment in which the
sensor is used or stored (operation at 40 °C
halves lifetime).
Increases or decreases in atmospheric pressure have the same effect as increasing or
decreasing oxygen concentrations.

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3.2 Oxygen Measurement
3.2.3	 Special Hints
Due to the measuring principle the electrochemical oxygen cell requires a minimum
internal consumption of oxygen (residual
humidity avoids drying of the cell). Supplying
cells continuously with dry sample gas of low
grade oxygen concentration or with sample
gas free of oxygen could result in a reversible
detuning of O2 sensitivity. The output signal
will become unstable, but response time remains constant.
For correct measurement the cell needs continuously to be supplied with concentrations
of at least 0.1 Vol.-% O2 . We recommend to
use the cells if need be in alternating mode,
means to purge cells with conditioned (not
dried, but dust removed) ambient air when
measurement pauses.
If it is necessary to interrupt oxygen supply
for several hours or days, the cell has to regenerate (supply cell for about one day with
ambient air). Temporary flushing with nitrogen
(N2) for less than 1 h (e.g. for analyzer zeroing purpose) has no influence on measuring
characteristics.This sensor is not suitable
for anorganic gases containing chlorene or
flourene!
In addition it is not suitable for sample gases containing ozone, H2S (> 100 ppm) or
NH3 (> 20 ppm).

Concen- Interference
tration
Level

Gas
Carbon monoxide

CO

0-100 %

no effect

Carbon dioxide

0-100 %

no effect

Nitric monoxide

CO2

NO

0-1 %

no effect

Nitrogen dioxide

NO2

0-1 %

no effect

SO2

0-3 %

3%

0-3 %

no effect

NH3

0-3 %

1%

0-100 %

no effect

0-3 %

1%

Sulfur dioxide
Hydrogen sulfide
Ammonia
Hydrogen

H2S
H2

Hydrogen chloride HCl
Benzene
Methane

C6H6 0-100ppm

CH4

0-100 %

1%
no effect

Tab. 3-5: 	 Electrochemical Oxygen Measurement Cross Interference by Accompanying
Gases

For a number of other interfering gases
Tab. 3-5.

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3.3 Thermal Conductivity Measurement

Gas
Helium
He
Neon
Ne
Argon
Ar
Krypton
Kr
Xenon
Xe
Radon
Rn
Hydrogen
H2
Oxygen
O2
Chlorine
Cl2
Sulfur Dioxide
SO2
Nitrogen
N2
Ammonia
NH3
Carbon Dioxide
CO2
Air
N2 /O2
Hydrochloric Acid
HCl
Carbon Monoxide
CO
Methane
CH4
Butane
C4 H10

l in mw / cm grd
50 °C
1580
516
189
102
60
26
1910
283
96,8
113
277
270
184
276
151
267
371
185

The bridge output signal (UBr) is adjusted to
zero when in rest position (no gas flow). By
default the reference gas path is closed (not
flown through by gas). When sample gas is
supplied, the sensors in the sample gas path
are cooled due to the thermal conductivity effect: The gas absorbs heat and carries it away
from the sensors. This tunes the Wheatstone
bridge and generates a signal proportional to
the thermal conductivity.
Additional electronics linearizes and conditions this signal to provide usefull measuring
values.Depending on application, it is possible to supply a reference gas to the bridge‘s
reference side. The output signal in this case
is proportional to the difference of the thermal
conductivities of sample and reference gas.

UBr

Tab. 3-6: Examples of Specific Thermal Conductivities

RS

3.3.1	 Principle of Operation
A Wheatstone bridge, made of 4 temperature
sensitive resistors (PT 100 sensors), is surrounded by gas in a way, that each 2 sensors
are located in the sample gas stream (RS) and
in a reference gas stream (RR),
Fig. 3-8.

Emerson Process Management GmbH & Co. OHG

RS

RR

Sample

RR

Reference

Fig. 3-8:	 Wheatstone Bridge

3-11

3

Thermal conductivity is the property of a material that indicates its ability to conduct heat.
Thermal conductivity measurement primarily is used for measuring concentrations of
hydrogen (H2) and helium (He). These gases
are characterized by a specific thermal conducitivity, differing clearly from that of other
gases (see table 3-5).

Principles

3.3	 	Thermal Conductivity Measurement

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3.3 Thermal Conductivity Measurement
3.3.2	 Technical Implementation
A block made of stainless steel contains two
gas paths. Both, the volume of the block and
the mass of the sensors have been minimized in order to obtain short response times.
To suppress influences by changing ambient
temperature the block is thermostatted and
isolated against ambience.
The sensors are fully glass packaged to withstand aggressive gases.

1

2
3

4

1
2
3
4
5

	 Sensor
	 Sample gas inlet and outlet
	 Reference side inlet and outlet
	 Metal block
	 Heater for thermostatting

Fig. 3-9:	 TC Cell, Exterior View ,
Thermal Isolation Removed

3-12

5

2

1
2
3
4
5

1

3

4

5

	 Internal gas path
	 Sample gas inlet and outlet
	 PT 100 sensors
	 Metal block
	 Lid

Fig. 3-10:	 TC Cell, Sectional View

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3.6 Measurement Specification
3.4	 	Measurement Specification
Sample gas components and measuring ranges (standard configurations)
Note!
The following table gives an overview only. Not all data is applicable to all analyzer variations.
The sample gas(es) and measuring ranges for your specific analyzer are given by the order
acknowledgement and on the analyzer‘s name plate label.

1

	

	 More than 60 gases are detectable; other
components and configurations on request

2

Lowest measuring range
0 - 200 ppm 4
0-3%
0 - 100 ppm
0 - 50 %
0 - 5 ppm 4
0 - 10 ppm 4
0 - 300 ppm
0 - 1000 ppm
0 - 1000 ppm
0 - 400 ppm
0 - 10 %
0 - 300 ppm
0-2%5
0 - 100 ppm
0 - 1000 ppm
0 - 800 ppm
0 - 25 ppm
0 - 100 ppm
0 - 100 ppm
0-5%
0-1%4
0 - 1,000 ppm
0 - 10 %
0 - 25 ppm
0 - 20 ppm
0 - 300 ppm
0-2%
0 - 1000 ppm

	 Dew point below ambient temperature

3	

Higher concentrations decrease sensor lifetime

4	
5

Highest measuring range
0-3%
0 - 100 %
0 - 100 %
0 - 100 %
0 - 100 %
0 - 100 %
0 - 100 %
0 - 100 %
0 - 10 %
0 - 100 %
0 - 100 %
0 - 10 %
0 - 100 %
0 - 100 %
0 - 10 %
0 - 100 %
0 - 10 %
0 - 100 %
0 - 100 %
0 - 25 % 3
0 - 100 %
0 - 100 %
0 - 100 %
0 - 100 %
0-2%
0-5%
0-2%
0-8%

Principles

CH3COCH3
C2 H 2
NH3
Ar
CO2
CO
Cl2
C 2H 6
C2H5OH
C 2H 4
He
C6H14
H2
CH4
CH3OH
C4H10
NO2
NO
N 2O
O2
O2
C 3H 8
C 2H 6
SO2
SF6
C 7H 8
C2H3Cl
H 2O

3

Gas component 1
Acetone
Acetylene
Ammonia
Argon
Carbon dioxide
Carbon monoxide
Chlorine
Ethane
Ethanol
Ethylene
Helium
Hexane
Hydrogen
Methane
Methanol
n - Butane
Nitrogen dioxide
Nitrogen monoxide
Nitrous oxide
Oxygen (electrochemical)
Oxygen (paramagnetic)
Propane
Propylene
Sulfur dioxide
Sulfur hexafluoride
Toluene
Vinyl chloride
Water vapor 2

Non-standard specifications for lowest range

	 Special "refinery" application with 0 - 1% H2 in N2 available

Tab. 3-7: Gas Components and Measuring Ranges, Examples

Emerson Process Management GmbH & Co. OHG

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3.6 Measurement Specification

General Performance Specifications
NDIR/UV/VIS

Oxygen Sensor (PO2 and EO2)

Thermal Conductivity

Detection limit

<1%1

4

<1%1

4

<2%1

4

Linearity

<1%1

4

<1%1

4

<1%1

4

< 2 % per week

Zero-point drift

< 0.5 % per week

Span (sensitivity) drift

<1%1

Repeatability

<1%1
<5s3

5

6

< 2 % per week 1

1 4

< 1 % per week

1 4

4

4 s < t90 < 7 s 3

Response time (t90)

< 2 % per week

1 4

< 1 % per week

1

<1%1

4

/ approx. 12 s 3

4

5 s < t90 < 20 s 3

9

4

1 4

7

0.2 - 1.5 l/min. (+ 0.1 l/min)

Permissible gas flow

0.2 - 1.5 l/min.

Influence of gas flow

< 0.5 % 1 4

<2%14

< 1,500 hPa abs. (< 7 psig) 17

< 1,500 hPa abs. (< 7 psig) 16 17

< 1,500 hPa abs. (< 7 psig) 17

< 0.10 % per hPa 2

< 0.10 % per hPa 2

< 0.10 % per hPa 2

< 0.01 % per hPa

< 0.01 % per hPa

Maximum gas pressure 18

0.2 - 1.0 l/min / 0.2 - 1.5 l/min.
6

9

<1%1

4 13

Influence of pressure
– At constant temperature
– With pressure compensation
Permissible ambient temperature

8

2

0 to +50 °C (32 to 122 °F)

< 0.01 % per hPa 2

2

0 to +50 °C (32 to 122 °F)

10

0 to +50 °C (32 to 122 °F)

Influence of temperature
(at constant pressure)
– On zero point
– On span (sensitivity)
Thermostat control 14
Warm-up time
1
2

3

4
5
6

< 1 % per 10 K 1
< 5 % (0 to +50 °C)

1 11 15

< 1 % per 10 K 1
< 1 % per 10 K

1 15

< 1 % per 10 K

1 15

< 1 % per 10 K

1 15

Optionally 60 °C (140 °F) 5

60 °C (140 °F) 6 / None 9

75 °C (167 °F) 12

15 to 50 minutes 5 7

Approx. 50 minutes 6

15 to 50 minutes 7

Related to full scale
Related to measuring value;
1 psi = 68.95 hPa
From gas analyzer inlet at gas flow of 1.0 l/min 	
	 (electronic damping = 0 s)
Constant pressure and temperature
Dependent on integrated photometer bench
Paramagnetic oxygen measurement (PO2)

7
8
9

10

11

Depending on measuring range
Pressure sensor is required
Electrochemical oxygen measurement (EO2),
not for use with sample gas containing
FCHC´s
Electrochemical oxygen measurement (EO2):
+5 to +40 °C (41 to 104 °F)
Starting from +20 °C (68 °F) to 0 °C (32 °F) to
+50 °C (122 °F) to +20 °C (68 °F)

12
13
14

15
16
17
18

Sensor / cell only
Flow variation within + 0.1 l/min
Optional thermostatically controlled box with
temperature 60 °C (140 °F)
Temperature variation: 10 K in 1 hour
No sudden pressure surge for PO2 allowed
Special conditions apply to model X2FD
Limited to atmospheric if internal sample
pump

Notes!
Not all data listed above are applicable to all analyzer versions (e.g. thermostatically controlled box is not available for 1⁄2 19 in
instruments).See also table 3-9 for special performance specifications!

Tab. 3-8: General Measurement Performance Specifications

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3.6 Measurement Specification

Special Performance Specifications for Gas Purity Measurements (ULCO & ULCO2)

Noise

<1%1

Detection limit

<2%

Linearity

< +1 % 1
< +2 % 1

Span (sensitivity) drift

< +2 %

Repeatability
Response time (t90)

< +2 % 1

2 3

< +2 %

1 2 4

< 10 s

resp. < 0.2 ppm

2 3

1 2 4

2 9

1 2 9

2

resp. < 0.2 ppm 1
resp. < 0.2 ppm
< 10 s

2 3 9

1 2 4 9

< +2 % 1 2 resp. < 0.2 ppm 1

2

7

< +2% 1

2 9

7

0.2 - 1.5 l/min.
< +2% 1

2

< 1,500 hPa abs. (< 7 psig)

10

resp. < 0.1 ppm 1
< +1 % 1

0.2 - 1.5 l/min.

Influence of gas flow
Maximum gas pressure

<2%

2

1 2

2

< +2 % 1

Permissible gas flow

<1%1

2

1 2

Zero-point drift

B61: 0 - 5 ... 100 ppm CO2

Principles

A61: 0 - 10 ... 100 ppm CO
A62: 0 - 20 ... 100 ppm CO
B62: 0 - 10 ... 100 ppm CO2

2

< 1,500 hPa abs. (< 7 psig)

< 0.1 % per hPa 5

< 0.1 % per hPa 5

< 0.01 % per hPa

< 0.01 % per hPa 5

– At constant temperature
– With pressure compensation
Permissible ambient temperature

8

5

5 to +40 °C (41 to 104 °F)

3

Influence of pressure

5 to +40 °C (41 to 104 °F)

Influence of temperature
(at constant pressure)
– On zero point

< +2 % per 10 K 6

< +2 % per 10 K 6 resp. < 0.2 ppm per 10 K 6

9

– On span (sensitivity)

< +2 % per 10 K 6

< +2 % per 10 K 6 resp. < 0.2 ppm per 10 K 6

9

Thermostat control
1
2
3
4
5

Related to full scale
Constant pressure and temperature
Within 24 h; daily zero calibration requested
Within 24 h; daily span calibration recommended
Related to measuring value

None

None
6
7
8
9
10

Temperature must not change > 10 K within 1 h
From gas analyzer inlet at gas flow of 1.0 l/min
Barometric pressure sensor is required
Applies to measuring range < 10 ppm
Limited to atmospheric if internal sample pump

Tab. 3-9: Special Performance Specifications for Gas Purity Measurements

All these performance data is verified during the manufacturing process for each unit by the
following tests:
•	 Linearization and sensitivity test
•	 Long term drift stability test
•	 Climate chamber test
•	 Cross interference test (if applicable)

Emerson Process Management GmbH & Co. OHG

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Chapter 4
Installation
This chapter describes the correct installation procedure for the various X-STREAM analyzer
versions.
On receipt, check the packaging and its contents thoroughly for damage.
Inform the carrier immediately of any damage to packaging or contents.
Keep the packaging in a safe place until unit is installed. We recommend to keep the packaging
available for returning the instrument in case of failure, because only the original packaging
ensures proper protection during transportation!

HAZARDS FROM MISSING INFORMATION
Compare the contents of your package with the pictures below.
Analyzers for hazardous areas need additional parts, described in the
accompanying documentation refering to hazardous area installations.
Call your local sales office if something is missing, and DO NOT continue
to install your analyzer, until all parts are at hand!

Analyzer

Manuals:
•	 this X-STREAM XE series manual, either as paper or CD-ROM version
•	 a short form manual for general purpose
instruments
•	 special addendum manuals for hazardous area installations

Fig. 4-1:	 X-STREAM XE Analyzers - Scope of Supply

Emerson Process Management GmbH & Co. OHG

4-1

4

Installation

4.1	 Scope of Supply

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.2 Installation - Introduction
4.2	 Introduction

ELECTRICAL SHOCK HAZARD
Before connecting the analyzer to mains power, please read the chapter on
safety warnings and the following instructions carefully.

The place of installation must be clean, dry and protected against strong
vibrations and frost. Please observe the admissable operating temperatures
given in the technical data.
Units must not be subjected to direct sunlight or sources of heat.
For outdoor installation it is recommended to install the unit in a cabinet.
It should at least be protected against rainfall.

In order to comply with regulations on electromagnetic compatibility, it is recommended
to use only shielded cables which can be
supplied by Emerson Process Management.
The customer must ensure that the shielding
is correctly connected to the signal cable plug
housing. Submin-d plugs and sockets must
be screwed to the analyzer.

4-2

The use of external submin-d to screw-type
terminal adapters affects electromagnetic
compatibility. In such a case the customer
must take appropriate measures to comply
with the regulations, and must declare conformity when this is legally required (e.g.
European EMC guidelines).

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

Purging option
The purging medium (e.g. to minimize CO2
interference or for enhanced safety when
measuring corrosive or poisonous gases)
must be dry, clean and free of corrosives
or components containing solvents.
To minimize cross interferences the purge
gas also has to be free of components to
be measured.
Its temperature must correspond to the ambient temperature of the analyzer, but be at
least within the range 20–35 °C (68–95 °F).
For information about values for pressure and
flow, please contact your nearest EMERSON
Process Management sales office.

4

4.3	 	Gas Conditioning
In order to ensure trouble-free operation, special attention must be paid to the preparation
of the gases:
All gases must be conditioned
before supplying to the analyzer, to be
•	 dry,
•	 free of dust and
•	 free of any aggressive components which may damage
the gas lines (e.g. by corrosion or solvents) .
Flammable gases must not be
supplied without additional
protective measures.

Pressure and gas flow must remain within
the values given in the
„Measurement
Specification“ section within this manual.
If moisture cannot be avoided, it is necessary
to ensure that the dew point of the gases is at
least 10 °C (18 °F) below the ambient temperature to avoid condensate in the gas lines.
The X-STREAM field housings can optionally
be fitted with heated piping to enable the use
of gases with a maximum dew point of 25 °C
(77 °F).

Emerson Process Management GmbH & Co. OHG

Installation

4.3 Installation - Gas Conditioning

4-3

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.3 Installation - Gas Preparation

TOXIC GAS HAZARDS
Take care that all external gas pipes are connected in the described way
and that they are gastight to avoid leakages!
Faulty connected gas pipes lead to explosion hazard or even to mortal
danger!
Don‘t take a breath of the emissions! Emissions may contain hydrocarbons
or other toxic components (e.g. carbon monoxide)! Carbon monoxide may
cause headache, sickness, unconsciousness and death.

Do not confuse gas inlets and outlets. All gases supplied must be prepared
beforehand. When supplying aggressive gases, ensure that the gas lines
are not damaged.
Max. admissable pressure: 1500 hPa, except in units with integrated valve
blocks (500 hPa)!
Exhaust lines must be installed to incline downwards and be unpressurized
and protected against frost, and conform to legal requirements.
The number of gas connections and their
configuration may vary according to analyzer
version and installed options.
All gas connectors are labelled and can be
found on the

Should it be necessary to open the gas lines,
the gas connectors should be sealed with
PVC caps to prevent pollution by moisture,
dust, etc.

•	 analyzer’s rear panel (X-STREAM XEGP,
X-STREAM XEGC)
•	 underside of the analyzer (X-STREAM XEF,
X-STREAM XEFD)
Fig. 4-2:	 Labelling of Gas Connectors (example)

4-4

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.3 Installation - Gas Preparation
The analyzer should be mounted close to the
sample gas source to minimize transport time.
A sample gas pump can be used to reduce the
reaction time; this requires that the analyzer
be operated in bypass mode or fitted with

a pressure control valve to protect against
excessive gas flow and pressure (Fig. 4-3).

Exhaust

Analyzer

Exhaust

Filter

Installation

Pressure control valve
Flow sensor

4

Sample gas pump
Fig. 4-3:	 Installation in Bypass Mode

Internal solenoid valve block
The max. permissable overpressure for all
gases is restricted to 500 hPa if the analyzer
is fitted with an internal solenoid valve block.

Emerson Process Management GmbH & Co. OHG

4-5

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.4 Installation - Electrical Connections
4.4	 Electrical Connections

ELECTRICAL SHOCK HAZARD
Only qualified personnel, observing all applicable technical and legal
requirements, may install these devices and connect power and signal
cables.
Failure to comply may render the guarantee void and cause exposure to
risk of damage, injury or death.
The devices may only be installed by personnel who are aware of the
possible risks. Working on units with screw-type terminals for electrical
connections may require exposure to energized components.
Wall-mountable X-STREAM analyzers are not fitted with power switches
and are operational as soon as they are connected to a power supply. For
these analyzers a switch or circuit breaker (IEC 60947-1/-3) must be installed
on the premises. The switch or breaker must be located near the analyzer,
easily accessible and labelled as a power supply cut-off for the analyzer.
Units with screw-type terminals must be de-energized by unplugging it or
operating the separate cut-off switch or circuit breaker when working on
the power connections.
To avoid the risk of electrical shock, all units must be earthed. For this
reason, the power cable with a protective earth wire must be used.
Any break in the earth wire inside or outside the unit may cause exposure
to the risk of electrocution and is therefore prohibited.

4-6

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.5 Analyzer Specific Instructions for Installation
4.5	 Analyzer Specific Instructions for Installation

Installation instructions:	

X-STREAM XEGC & XEGP	

	 page 4-8

				

X-STREAM XE field housings	

	 page 4-19

Notes for wiring signal inputs and outputs			

Emerson Process Management GmbH & Co. OHG

4

Installation

Important note for X-STREAM XEFD!
Due to the special conditions which must be observed when installing units in EX zones, the
installation of the flameproof X-STREAM XEFD version is described in a separate instruction
manual HASXMDE-IM-EX.
Even if you do not install your X-STREAM XEFD in an EX zone, please install the unit according
to the instructions in the separate manual.

	 page 4-31

4-7

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X-STREAM XE

HASXEE-IM-HS
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4.5.1 Installation - X-STREAM XEGC, X-STREAM XEGP
4.5.1	 X-STREAM XEGC, X-STREAM XEGP
be used instead, provided it conforms to the
specifications on
2-9.
X-STREAM XEGC / XEGP analyzers should
be operated in a horizontal position.
An optional kit with brackets and blindplate
enables to install XEGC models into a rack;
this is accomplished by means of four screws
(
2-7 ). The external PSU is optionally
available for rack mounting, too.

HAZARD BY RACK
INSTALLATION

Digital in- /
outputs

USB connectors
RJ45 ethernet connectors

Analog outputs / relay
outputs

Service interface

Plugs and sockets required for the electrical
connections are on the rear panel of the units
(fig. 4-4 & 4-5).
X-STREAM XEGP analyzers provide an internal widerange power supply for worldwide
use.
X-STREAM XEGC analyzers are powered
by an external DC 24 V power supply unit,
optionally supplied with the unit. If a PSU
is not included in delivery, another unit can

The optional brackets for
rack mounting (
2-7) are
not designed to carry the
weight of the instrument!

Gas inlets
Gas outlets

Support the instrument, when
rack mounting!

Power in

Fuse

Serial CAN
interface

Serial interface
( RS 232 /
Modbus 485)

Disregarding may cause personal injury and damaged
equipment.

1:
2:
3:
2

1

ME
+ 24 V
0V( )

3

Fig. 4-4:	 X-STREAM XEGC - Table Top Version Rear Panel

4-8

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

Purge gas inlet
(optional)
Fuses

Power in

Power switch

Serial CAN
interface

Serial interface
( RS 232 /
Modbus 485)

4

Installation

Gas outlets

Gas inlets

Digital in- / outputs
(Board 2)

Digital in- / outputs
(Board 1)

USB connectors
RJ45 ethernet connectors

Analog outputs / relay
outputs

Service interface

4.5.1 Installation - X-STREAM XEGC, X-STREAM XEGP

Fig. 4-5:	 X-STREAM XEGP - Table Top Version Rear Panel

The number and configuration of the gas inlets and outlets vary from model to model and are
indicated on the notice on the rear of the instrument.
To simplify installation, we recommend labelling the gas lines as in the figures above (1, 2, 3, ...).
This avoids confusion in case the analyzer ever has to be disconnected.
X2GC
Gas connections
max number
max for purging (incl. / separate)
material
sizes

Emerson Process Management GmbH & Co. OHG

X2GP

6
8
2 incl.
1 incl. & 1 separate
PVDF; stainless steel (opt.)
6/4 mm; 1⁄4"

4-9

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Purge gas inlet
(optional)
Fuses

Power in

Power switch

Strain reliefs and
shielding contacts
for signal cables

Serial CAN
interface

Serial interface
( RS 232 /
Modbus 485)

4 screw holes for rack mounting
(7.5 x 10.5 mm / 0.29" x 0.41")

Gas outlets

Gas inlets

Digital inputs /
outputs

USB connectors
RJ45 ethernet connectors

Analog outputs / NAMUR status relays

Services interface

4.4.2 Installation - X-STREAM XEGP

Fig. 4-6:	 X-STREAM XEGP - Rear Panel, Model With Terminal Adapters and
Front Side Brackets for Rack Mounting

The brackets on either side of the front panel
enable to install the unit into a rack; this is
accomplished by means of four screws (fig.
4-6).

HAZARD BY INSTALLATION
The brackets are not designed
to carry the weight of the
instrument!
Support the instrument, when
rack mounting!
Disregarding may cause personal injury and damaged
equipment.

4-10

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.5.1 Installation - X-STREAM XEGC, X-STREAM XEGP
Signal inputs and outputs
The number of signal outputs actually available varies according to the unit’s configuration.
Analog signals
Relay outputs
Analog signals and relay outputs are located on a shared 25-pin submin socket (X1; Fig. 4-7),
4-13).
or on an optional terminals adaptor XSTA (
4 (0) - 20 mA; burden: RB ≤ 500 Ω
Dry relay change-over contacts can be used as
NO or NC.
max. 30 VDC, 1 A, 30 W

Specification of relay outputs 1-4:
Electrical specification:

Installation

Specification of analog signal outputs:

4

Note!
Consider the installation notes in section 4.6.

1

Channel 2, (+) 4 (0) - 20 mA

2

Channel 3, (+) 4 (0) - 20 mA

3

Channel 4, (+) 4 (0) - 20 mA

4

Channel 5, (+) 4 (0) - 20 mA

5

unused

6

unused

7

Output1 (Failure) NC

8

Output1 (Failure) NO

9

Output1 (Failure) COM

10

Output3 (Off spec) NC

11

Output3 (Off spec) NO

12

Output3 (Off spec) COM

13

Pin

Signal

14

Channel 1, GND

15

Channel 2, GND

16

Channel 3, GND

17

Channel 4, GND

18

Channel 5, GND

19

unused

20

Output2 (Maintenance request) NC

21

Output2 (Maintenance request) NO

22

Output2 (Maintenance request) COM

23

Output4 (Function check) NC

24

Output4 (Function check) NO

25

Output4 (Function check) COM

Analog
outputs

Pin

Channel 1, (+) 4 (0) - 20 mA

Relay contacts
(Status signals)

Relay contacts
(Status signals)

Analog
outputs

Signal

Note!
Configuration of relay contacts
as per standard factory setting (NAMUR
status signals)
Fig. 4-7:	 Socket X1 - Analog & Digital Outputs 1-4

Emerson Process Management GmbH & Co. OHG

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HASXEE-IM-HS
04/2010

4.5.1 Installation - X-STREAM XEGC, X-STREAM XEGP
Serial interface
For specifications and notes on control, see
chapter 7

Pin 1
Pin

Pin

1

6

2

7

3

8

4

9

5

Pin 8
Pin no.
1
2
3
4
5
6
7
8
9

MOD 485/ MOD 485/
2 wire
4 wire
Common
not used
not used
not used
D1(+)
not used
not used
not used
D0(-)

Common
not used
not used
RXD1(+)
TXD1(+)
not used
not used
RXD0(-)
TXD0(-)

RS 232
Common
RXD
TXD
not used
Common
not used
not used
not used
not used

Pin no. Signal
1
2
3
6
other

TX+
TXRX+
RXnot
used

Ethernet connector

Fig. 4-8:	 Plug X2 - Serial Interface

Notes!
Consider the installation notes in section 4.6.
When terminal adapters are used, the Modbus interface terminals are located on the
same adapter as those for the analog signal
outputs (
Fig. 4-9, page 4-13).
Then a flat flexible cable attached to the terminal adapter is used for connecting to the
illustrated 9-pole plug.

4-12

X-STREAM analyzers are classified DTE
(Data Terminal Equipment).

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.5.1 Installation - X-STREAM XEGC, X-STREAM XEGP

1

2

Analog Outputs

0.14 ... 1.5 mm2
Recommended (AWG 26 ... AWG 16)
wire gauge:
end sleeves not required
Skinning length: 5 mm (0.2")
Thread:
M2
Min. tightening 0.25 Nm
torque:
(2.21 in.lb)

4

Channel 1, (+) 4 (0) - 20 mA
Channel 1, GND
Channel 2, (+) 4 (0) - 20 mA
Channel 2, GND
Channel 3, (+) 4 (0) - 20 mA
Channel 3, GND
Channel 4, (+) 4 (0) - 20 mA
Channel 4, GND
Channel 5, (+) 4 (0) - 20 mA (in preparation)
Channel 5, GND (in preparation)
not used
not used
not used
not used
Output 1 (Failure), NC
Output 1 (Failure), NO
Output 1 (Failure), COM
Output 2 (Maintenance Request), NC
Output 2 (Maintenance Request), NO
Output 2 (Maintenance Request), COM
Output 3 (Out of Spec), NC
Output 3 (Out of Spec), NO
Output 3 (Out of Spec), COM
Output 4 (Function check), NC
Output 4 (Function check), NO
Output 4 (Function check), COM
not used

Relay Outputs**)

Signal

P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
P2.8
P2.9
P2.10
P2.11
P2.12
P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
P3.8
P3.9
P3.10
P3.11
P3.12
P4.1
P4.2
P4.3
P4.4
P4.5
P4.6
P4.7
P4.8
P4.9
P4.10
P4.11
P4.12

*)

See table below

**)
Configuration of relay output terminals as per standard factory setting
(NAMUR status signals)

Serial Interface*)

Pin

3

1	 Connector for plug X1 (on reverse side)
2	 Connection for flat cable to plug X2 (cable not illustrated)
3	 Screw-type terminals

Assignment of serial interface terminals
Terminal
P4.4
P4.5
P4.6
P4.7
P4.8
P4.9
P4.10
P4.11
P4.12

SER1
SER2
SER3
SER4
SER5
SER6
7
8
9

MOD 485/ MOD 485/
RS 232
2 wire
4 wire
Common Common Common
not used not used
RXD
not used not used
TXD
not used RXD1(+) not used
D1(+)
TXD1(+) Common
not used not used not used
not used not used not used
not used RXD0(-) not used
D0(-)
TXD0(-)
not used

Note!
Consider the installation notes in section 4.6.
Fig. 4-9:	 Configuration of XSTA Terminal Adapter

Emerson Process Management GmbH & Co. OHG

Installation

To connect any serial interface, the adapter is
equipped with a flat flexible cable ending in a
9-pin submin-D plug, which should be plugged
onto the unit’s X2 connector.

The XSTA adapter can optionally be used to
connect signal cables to screw-type terminals
instead of submin-D plugs and sockets: it is
plugged onto the X1 Submin-D connector on
the unit.

4-13

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X-STREAM XE

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4.5.1 Installation - X-STREAM XEGC, X-STREAM XEGP
Digital inputs & outputs

7 or 14 digital inputs
(X-STREAM XEGC: max. 7 inputs)
9 or 18 additional relay outputs
(X-STREAM XEGC: max. 9 add.
outputs)

max. 30 V, internally limited to 2.3 mA
HIGH: min. 4 V; LOW: max. 3 V
common GND
Dry relay change-over contacts can be
used as NO or NC

electrical
specification
electrical
specification

max. load. 30 V; 1 A; 30 W resistive

Digital in- & outputs are located on shared 37-pin submin sockets (X4.1 or X4.2; Fig. 4-10),
next page)
or on optional terminals adaptor XSTD (

Pin

Input 1

1

Input 2

2

Input 3

3

Input 4

4

GND for all digital inputs

5

unused

6

unused

7

Output 5 NC

8

Output 5 NO

9

Output 5 COM

10

Output 6, NC

11

Output 6, NO

12

Output 6, COM

13

Output 7, NC

14

Output 7, NO

15

Output 7, COM

16

Output 8, NC

17

Output 8, NO

18

Output 8, COM

19

Pin

Signal

20

Input 5

21

Input 6

22

Input 7

23

Output 9, NC

24

Output 9, NO

25

Output 9, COM

26

Output 10, NC

27

Output 10, NO

28

Output 10, COM

29

Output 11, NC

30

Output 11, NO

31

Output 11, COM

32

Output 12, NC

33

Output 12, NO

34

Output 12, COM

35

Output 13, NC

36

Output 13, NO

37

Output 13, COM

Digital
inputs

Signal

To aid identification, the sockets are labelled X4.1 and X4.2.
Consider the installation notes in section
4.6.

Digital
outputs

Digital
outputs

Digital
inputs

Notes!
Depending on model and configuration, an
analyzer may be fitted with up to 2 of these
sockets (the unit is thus equipped with 14
digital inputs and 18 digital outputs).

Note!
The configuration illustrated here
is that of the first socket, labelled
X4.1.
Inputs 8-14 and outputs 14-22
are on the second socket (X4.2),
if installed.

Fig. 4-10:	 Sockets X4.1 and X4.2 - Pin Configuration

4-14

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Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.5.1 Installation - X-STREAM XEGC, X-STREAM XEGP

1

0.14 ... 1.5 mm2
Recommended (AWG 26 ... AWG 16)
wire gauge:
end sleeves not required
Skinning length: 5 mm (0.2")
Thread:
M2
Min. tightening 0.25 Nm
torque:
(2.21 in.lb)

Note!
The configuration illustrated here is that of
the first adapter (on socket X4.1).
Inputs 8-14 and outputs 14-22 are on the second adapter (on socket X4.2), if installed.

2

1	 Connector for socket X4.1 / X4.2 (on reverse side)
2	 Screw-type terminals

Note!
Consider the installation notes in section 4.6.
Fig. 4-11:	 Configuration of XSTD Terminal Adapter

Emerson Process Management GmbH & Co. OHG

Installation

Input 1
Input 2
Input 3
Input 4
Input 5
Input 6
Input 7
GND for inputs 1-7
unused
Output 5, NC
Output 5, NO
Output 5, COM
Output 6, NC
Output 6, NO
Output 6, COM
Output 7, NC
Output 7, NO
Output 7, COM
Output 8, NC
Output 8, NO
Output 8, COM
Output 9, NC
Output 9, NO
Output 9, COM
Output 10, NC
Output 10, NO
Output 10, COM
Output 11, NC
Output 11, NO
Output 11, COM
Output 12, NC
Output 12, NO
Output 12, COM
Output 13, NC
Output 13, NO
Output 13, COM

4

Signal

P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
P3.8
P3.9
P3.10
P3.11
P3.12
P4.1
P4.2
P4.3
P4.4
P4.5
P4.6
P4.7
P4.8
P4.9
P4.10
P4.11
P4.12
P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
P2.8
P2.9
P2.10
P2.11
P2.12

Digital outputs

Pin

Digital inputs

An XSTD adapter can optionally be used to
connect digital I/O cables to screw-type terminals instead of Submin-D plugs and sockets:
it is plugged onto the X4.1 and X4.2 (if fitted)
Submin-D connectors on the unit.

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4.5.1 Installation - X-STREAM XEGC, X-STREAM XEGP
Analog inputs
Analog inputs are located on a 9-pole submin-D-connector (plug X5; Fig. 4-12) or on an optional terminals adaptor XSTI (Fig. 4-13).
0 - 1 (10) V, software selectable; Rin = 100 kΩ
2 analog inputs

electrical
specification

optional (requires to fit wire bridges, see figures):
4 (0) - 20 mA ; Rin = 50 Ω
optically isolated from analyzer GND
protected against overload up to ± 15 V or ± 20 mA

Note!
Consider the installation notes in section 4.6.

Signal
BR 2 fit a wire bridge here to apply analog

{
}
BR 2 signal in current mode to input 2 **)
unused

{
}
BR 1 signal in current mode to input 1 *)
BR 1 fit a wire bridge here to apply analog

Pin
5
4
3
2
1

Pin

Signal

9

Input 2 high (+)

8

Input 2 low (-)

7

Input 1 low (-)

6

Input 1 high (+)

*) alternatively set jumper P2 on electronics board XASI
**) alternatively set jumper P1 on electronics board XASI

Fig. 4-12:	 Plug X5 - Analog Inputs

4-16

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Instruction Manual

X-STREAM XE

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04/2010

4.5.1 Installation - X-STREAM XEGC, X-STREAM XEGP
A XSTI adapter can optionally be used to connect analog IN cables to screw-type terminals
instead of a submin-D plugs and sockets. The
adapter is plugged onto the unit´s submin-D
connector X5.

0.14 ... 1.5 mm2
Recommended (AWG 26 ... AWG 16)
wire gauge:
end sleeves not required
Skinning length: 5 mm (0.2")
Thread:
M2
Min. tightening 0.25 Nm
torque:
(2.21 in.lb)
Signal

P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
P3.8
P3.9
P3.10
P3.11
P3.12

not used
not used
not used
not used
not used
not used
not used
not used
not used
not used
not used
not used

P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
P2.8
P2.9
P2.10
P2.11
P2.12

BR 1 fit a wire bridge here to apply analog
BR 1 signal in current mode to input 1
Input 1 high (+)
Input 1 high (+)
Input 1 low (-)
Input 1 low (-)
BR 2 fit a wire bridge here to apply analog
BR 2 signal in current mode to input 2
Input 2 high (+)
Input 2 high (+)
Input 2 low (-)
Input 2 low (-)

4

Installation

Pin

1

2

}

IN1
Mode

{

}

Analog Inputs

{

IN2
Mode

3

1	 Connector for socket X5 (on reverse side)
2	 Screw-type terminals
3	 Reserved for future use

Fig. 4-13:	 Configuration of XSTI Terminal Adapter

Emerson Process Management GmbH & Co. OHG

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4.5.1 Installation - X-STREAM XEGC, X-STREAM XEGP
Power supply
X-STREAM XEGC
24 VDC is supplied to the unit by means of a
three-pin XLR connector on the rear panel of
the instrument.
Depending on the order, the following is supplied as an accessory: either
•	 an external power supply unit which can
be connected directly to the analyzer using
the supplied cable
or
•	 a connector which can be used with a
cable and PSU as specified by the customer.
Note the configuration of the pins on the connector (
Fig. 4-14).

2
1:
2:
3:

1

3

ME
+ 24 V
0 V (⊥)

Fig. 4-14:	 24 V DC in Connector, Pin Configuration

Details of any PSUs supplied with the unit are
2-9.
given on

4-18

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.5.2 Installation - X-STREAM XE Field Housings
4.5.2	 X-STREAM XEF, X-STREAM XDF
Fitted with four eyebolts and featuring IP66/
Type 4X protection, the X-STREAM XE field

housing can be mounted in the open air on a
wall or frame with no extra work.

Gas fittings
Connector
for potential
equalization

Installation

Cable glands

4

Note!
Take care to reserve space at the
right side of the instrument for laying
the cables!

All dimensions in mm
[inches in brackets]

Fig. 4-15:	 X-STREAM XEF - Dimensions for Installation

HEAVY INSTRUMENT
X-STREAM XEF / XDF analyzers, intended to be wall mounted and/or outdoor
installed, weigh up to 45 kg (99 lbs), depending on the chosen options!
Use two persons and/or suitable tools for transportation and lifting these
instruments!
Take care to use anchors and bolts specified to be used for the weight of
the instruments!
Assure that the wall / device for installation is sufficiently attached and
stable to carry the instrument!

Emerson Process Management GmbH & Co. OHG

4-19

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4.5.2 Installation - X-STREAM XE Field Housings

Note!
Take care to reserve space
at the right side of the instrument for laying the cables!

Gas fittings
Connector
for potential
equalization

Cable glands

All dimensions in mm
[inches in brackets]

Fig. 4-16:	 X-STREAM XDF - Dimensions for Installation

4-20

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.5.2 Installation - X-STREAM XE Field Housings

8

1

2

3

4

Note on XDF!
In case of the dual compartment
version XDF, the electrical connections are established in the
upper compartment, and the
gas connections to fittings at the
lower compartment.
Besides this, the design and
layout of terminals and fittings
are the same as with the single
compartment version XEF.

1

7
1	
2	
3	
4	

Gas inlets
Gas outlets

4

Terminals for signal cables
Mains filter
Power connections with integrated fuses
Gland for power cable

6

5
5	
6	
7	
8	

Glands for signal cables
Gas inlets and outlets
Plugs for openings to connect housings
Ethernet connectors (optional)

Fig. 4-17:	 X-STREAM XE Field Housing - Arrangement of Terminals, Cable Glands and Gas Connectors

Emerson Process Management GmbH & Co. OHG

4-21

Installation

application, and is noted on a sticker on the
underside of the instrument next to the connectors.
To simplify installation, we recommend labelling the gas lines in accordance with these
markings. This avoids confusion should the
analyzer need to be disconnectedfor maintenance.

4

Power and signal cables are connected using
internal screw-type terminals. This requires
opening the unit, which in turn requires releasing the fasteners on the housing.
Gas connectors are accessible from the outside, on the underside of the instrument.
The number and configuration of the gas
inlets and outlets depends on the analytical

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.5.2 Installation - X-STREAM XE Field Housings
Gas connections
Gas connections
max number
max for purging (incl. / separate)
material
sizes

8
2 incl.
PVDF; stainless steel (opt.)
6/4 mm; 1⁄4"

Signal in- and outputs
Preparation of signal cables
All signal cables are connected to screw-type
terminals located inside the housing. Access
to the internal components is gained by releasing the two fasteners at the top of the unit
and opening the front panel downwards.
All cables must be fed through cable glands
and secured with a gland nut.

Properly installed, the glands act as a strain
relief and guarantee EMC (electromagnetic
compatibility):

Installing cable glands with shielded cables
1.	 Strip the cabel
2. 	 Expose braided
shield

6.	 Push clamping insert
into body and tighten
dome nut
7.	 Assemble into housing
and you´re done!

3.	 Feed cable through
dome nut and clamping insert
4. 	 Fold braided shield
over clamping insert
5.	 Make sure that braided shield overlaps
the O-ring by 3 ⁄ 32 “
(2 mm)

4-22

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
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4.5.2 Installation - X-STREAM XE Field Housings

ELECTRICAL SHOCK HAZARD
Verify the power supply at installation site meets the specification given on
the analyzer´s nameplate label, before installing the instrument!
Verify power cables are disconnected and/or instrument is de-energized
prior to working at the terminals!

A maximum of three modules with 36 terminals each can be fitted.
The terminals can be accessed by opening
the front panel of the instrument.

Characteristics of terminals:
Accepted wire gauge:
Skinning length:
Thread:
Min. tightening torque:

Emerson Process Management GmbH & Co. OHG

0.14 ... 1.5 mm2 (AWG 26 ... AWG 16),
end sleeves not required
5 mm (0.2")
M2
0.25 Nm (2.21 in.lb)

4-23

4

The number of actually available signal outputs, and also the number of built-in modules
with screw-type terminals, varies according to
the configuration of the unit.

Installation

Verify the power cord is layed with a distance of at least 1 cm (0.4 in) to any
signal cable to ensure proper insulation from signal circuits!

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.5.2 Installation - X-STREAM XE Field Housings
Analog signals
Relay outputs 1-4
Terminals for analog signals and relay outputs
1 - 4 are located on the outer left module
(terminal block X1; Fig. 4-18).
Specification of analog signal outputs:

4 (0) - 20 mA; burden: RB ≤ 500 Ω
Dry relay change-over contacts can be used as
NO or NC.
max. 30 VDC, 1 A, 30 W

Specification of relay outputs 1-4:
Electrical specification:
Note!
Consider the installation notes in section
4.6.and the notes on installing cable glands
on page 4-22.

P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
P2.8
P2.9
P2.10
P2.11
P2.12
P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
P3.8
P3.9
P3.10
P3.11
P3.12
P4.1
P4.2
P4.3
P4.4
P4.5
P4.6
P4.7
P4.8
P4.9
P4.10
P4.11
P4.12

Pin

Channel 1, (+) 4 (0) - 20 mA
Channel 1, GND
Channel 2, (+) 4 (0) - 20 mA
Channel 2, GND
Channel 3, (+) 4 (0) - 20 mA
Channel 3, GND
Channel 4, (+) 4 (0) - 20 mA
Channel 4, GND
Channel 5, (+) 4 (0) - 20 mA
Channel 5, GND
not used
not used
not used
not used
Output 1 (Failure), NC
Output 1 (Failure), NO
Output 1 (Failure), COM
Output 2 (Maintenance Request), NC
Output 2 (Maintenance Request), NO
Output 2 (Maintenance Request), COM
Output 3 (Out of Spec), NC
Output 3 (Out of Spec), NO
Output 3 (Out of Spec), COM
Output 4 (Function check), NC
Output 4 (Function check), NO
Output 4 (Function check), COM
not used

Signal

Relay Outputs**)

Serial Interface*)

Analog Outputs

Configuration of relay output terminals as per standard factory setting
(NAMUR status signals)
**)

Fig. 4-18:	 Terminal Block X1 - Analog Signals and Relay Outputs 1-4

4-24

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.5.2 Installation - X-STREAM XE Field Housings
Serial interface

The 9 terminals on the left (28 - 36) of the right
most strip carry the serial interface signals.

Specification and interface control:
Chapter 9

Pin

Channel 1, (+) 4 (0) - 20 mA
Channel 1, GND
Channel 2, (+) 4 (0) - 20 mA
Channel 2, GND
Channel 3, (+) 4 (0) - 20 mA
Channel 3, GND
Channel 4, (+) 4 (0) - 20 mA
Channel 4, GND
Channel 5, (+) 4 (0) - 20 mA
Channel 5, GND
not used
not used
not used
not used
Output 1 (Failure), NC
Output 1 (Failure), NO
Output 1 (Failure), COM
Output 2 (Maintenance Request), NC
Output 2 (Maintenance Request), NO
Output 2 (Maintenance Request), COM
Output 3 (Out of Spec), NC
Output 3 (Out of Spec), NO
Output 3 (Out of Spec), COM
Output 4 (Function check), NC
Output 4 (Function check), NO
Output 4 (Function check), COM
not used

Signal

Serial Interface*)
*)

See table

P4.4
SER1
P4.5Relay Outputs
SER2**)
P4.6
SER3
P4.7
SER4
P4.8
SER5
P4.9
SER6
P4.10
7
P4.11
8
P4.12
9

4

P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
P2.8
P2.9
P2.10
P2.11
P2.12
P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
P3.8
P3.9
P3.10
P3.11
P3.12
P4.1
P4.2
P4.3
P4.4
P4.5
P4.6
P4.7
P4.8
P4.9
P4.10
P4.11
P4.12

Terminal

Installation

X

MOD 485/ MOD 485/
RS 232
2 wire
4 wire
Common Common Common
Outputs
not used not usedAnalogRXD
not used not used
TXD
not used RXD1(+) not used
D1(+)
TXD1(+) Common
not used not used not used
not used not used not used
not used RXD0(-) not used
D0(-)
TXD0(-)
not used

Notes!
Consider the installation notes in section
4.6.and the notes on installing cable glands
on page 4-22.
X-STREAM analyzers are classified DTE
(Data Terminal Equipment).

Your analyzer´s type of serial interface is
marked on a label nearby the terminals (see
sample above)

Fig. 4-19:	 Terminal Block X1 - Serial Interface

Emerson Process Management GmbH & Co. OHG

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X-STREAM XE

HASXEE-IM-HS
04/2010

4.5.2 Installation - X-STREAM XE Field Housings
RJ45 Ethernet connection
The RJ45 connectors are located on an
electronics board in the card cage section of
the unit (Fig. 4-17, pg. 4-21). For connecting the
analyzer into a network for analysis purposes,
use the leftmost Ethernet connector.
To install this connection, a cable must be
fed through the cable entry without a connector.
The connector can be wired when the free
end has been fed into the instrument:
We recommend the VARIOSUB RJ45 QUICKON connector (PHOENIX CONTACT), which
is supplied with the unit and requires no special tools. Wiring instructions can be found
in the separate manual supplied with the
connector.

Pin 1

Pin 8
Pin no.

Signal

1

TX+

2

TX-

3

RX+

6

RX-

other

not used

Fig. 4-20:	 X-STREAM XEF - Ethernet Connector

4-26

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.5.2 Installation - X-STREAM XE Field Housings
Digital inputs and relay outputs (option)
Terminals for these signals are located on the terminals board XSTD (terminal block X4; Fig. 4-21).

electrical
specification

Notes!
Depending on configuration, an analyzer
can be fitted with up to two of these terminal blocks (the unit will then feature 14
digital inputs and 18 digital outputs). To aid
identification, the sockets are labelled X4.1
and X4.2 (see sample of label to the right).

max. load. 30 V; 1 A; 30 W resistive

Consider the installation notes in section 4.6.
and the notes on installing cable glands on
page 4-22.

P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
P3.8
P3.9
P3.10
P3.11
P3.12
P4.1
P4.2
P4.3
P4.4
P4.5
P4.6
P4.7
P4.8
P4.9
P4.10
P4.11
P4.12
P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
P2.8
P2.9
P2.10
P2.11
P2.12

Pin

Input 1
Input 2
Input 3
Input 4
Input 5
Input 6
Input 7
GND for inputs 1-7
unused
Output 5, NC
Output 5, NO
Output 5, COM
Output 6, NC
Output 6, NO
Output 6, COM
Output 7, NC
Output 7, NO
Output 7, COM
Output 8, NC
Output 8, NO
Output 8, COM
Output 9, NC
Output 9, NO
Output 9, COM
Output 10, NC
Output 10, NO
Output 10, COM
Output 11, NC
Output 11, NO
Output 11, COM
Output 12, NC
Output 12, NO
Output 12, COM
Output 13, NC
Output 13, NO
Output 13, COM

Signal

Digital outputs

Note!
The configuration illustrated here is that of the first
adapter.
Inputs 8-14 and outputs
14-22, if available, are on
the second adapter.

Digital inputs

Fig. 4-21:	 X4: Terminal Blocks for Digital Inputs and Outputs

Emerson Process Management GmbH & Co. OHG

4-27

Installation

9 or 18 additional relay outputs

max. 30 V, internally limited to 2.3 mA
HIGH: min. 4 V; LOW: max. 3 V
common GND
Dry relay change-over contacts can be
used as NO or NC

4

7 or 14 digital inputs

electrical
specification

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.5.2 Installation - X-STREAM XE Field Housings
Analog inputs (option)
Terminals for analog input signals are located on the terminals board XSTI (terminal block X5;
fig. 4-22).
0 - 1 V,
2 analog inputs

0 - 10 V (software selectable) Rin = 100 kΩ

optional (requires to fit wire bridges, see figure):
4 (0) - 20 mA ; Rin = 50 Ω
optically isolated from analyzer GND
protected against overload up to ± 15 V or ± 20 mA

Note!
Consider the installation notes in section 4.6.
and the notes on installing cable glands on
page 4-22.

2

Pin
Signal

}
IN1
Mode

not used
not used
not used
not used
not used
not used
not used
not used
not used
not used
not used
not used

{

}
IN2
Mode

P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
P3.8
P3.9
P3.10
P3.11
P3.12

{

BR 1 fit a wire bridge here to apply analog
BR 1 signal in current mode to input 1
Input 1 high (+)
Input 1 high (+)
Input 1 low (-)
Input 1 low (-)
BR 2 fit a wire bridge here to apply analog
BR 2 signal in current mode to input 2
Input 2 high (+)
Input 2 high (+)
Input 2 low (-)
Input 2 low (-)

1	 Screw-type terminals
2	 Reserved for future use

P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
P2.8
P2.9
P2.10
P2.11
P2.12

1

Analog Inputs

Fig. 4-22:	 Terminal Block X5 - Analog Input Signals

4-28

Emerson Process Management GmbH & Co. OHG

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X-STREAM XE

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4.5.2 Installation - X-STREAM XE Field Housings
Connecting the power cord
The power cord is connected to screw-type
terminals located inside the housing.

Skinning length:
Thread:
Min. tightening torque:

ELECTRICAL SHOCK HAZARD
Verify the power supply at installation site meets the specification given on
the analyzer´s nameplate label, before installing the instrument!
Verify power cables are disconnected and/or instrument is de-energized
prior to working at the terminals!
Verify the power cord is layed with a distance of at least 1 cm (0.5“) to any
signal cable to ensure proper insulation from signal circuits!
Feed the power cable through the cable
gland at the instrument´s right side and strip
the outer insulation. Strip the individual wires
and connect to the terminals (a label is located next to the terminals on the mains filter
housing).
Finally, tighten the outer dome nut to secure
the power cable.

Earth PE

Live L
Neutral N

Power supply
cable gland

Fig. 4-23:	 Power Supply Connections

Emerson Process Management GmbH & Co. OHG

4-29

Installation

Recommended wire gauge

0.2 ... 4 mm2 (AWG 24 ... AWG 12)
min. 1.5 mm² (AWG 15),
end sleeves not required
8 mm (0.315")
M3
0.5 Nm (4.4 in.lb)

4

Accepted wire gauge:

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.5.2 Installation - X-STREAM XE Field Housings

ELECTRICAL SHOCK HAZARD BY MISSING EARTHING CONDUCTOR
Before completing the electrical connection of the instrument, verify cables
are inserted and connected in correct manner!
Ensure the earthing conductor (protective earth; PE) is connected!

When all connections are correctly made and
checked,
•	 close the front panel and secure with the
two fasteners.

4-30

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.6 Installation - Notes on Wiring
4.6	 Notes On Wiring Signal Inputs and Outputs
Emerson Process Managament has made
every effort during the development process,
to ensure that the X-STREAM analyzer series
ensures electromagnetic compatibility (EMC)
with respect to emission and interference
resistance, as confirmed by EMC measurements.

However, EMC is not wholly influenced by the
design of the instrument, but to a large degree
by the on-site installation process. Please
observe the following sections and precautions to guarantee the safe and problem-free
operation of this analyzer.

Installation

4.6.1	 Electrical Shielding of Cables

4

In order to minimise ambient electromagnetic interference, it is necessary to take care
making all electrical connections between the
analyzer and any other devices:
•	 We recommend using only shielded signal
cables. The shielding must be connected
at both ends to the housing (Fig. 4-24).

Fig. 4-24:	 Shielded Signal Cable, Shielding Connected At Both Ends.

Emerson Process Management GmbH & Co. OHG

4-31

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4.6 Installation - Notes on Wiring
On-site conditions often differ from test
environments and may require special precautions. Such a case arises when strong
electromagnetic fields which could induce
an interference current in the shielding. This
type of current creates a potential difference
between the connected housings.
Two possible methods of eliminating this are
described here. Fitters familiar with EMC
problems must decide which method should
be emplyed.

•	

The shielding is connected only at one
end (connecting to the analyzer is recommended): this gives better protection
against external interference, and interference currents are prevented because
the ground loop is interrupted.
This is the preferred method for connecting
cable shields in hazardous area installations,
to prevent interference currents between connected enclosures.

Fig. 4-25:	 Shielded Signal Cable, Shielding Connected At One end.

•	

Cables with double shielding: in this
case, one shielding is connected to the
analyzer housing, the other shielding
to the external device. This is advantageous when both units are supplied
from different grids (e.g. when installed
in different buildings).

	

This method is more expensive, but gives the best protection against external
interference and against interference
currents.

Fig. 4-26:	 Signal Cable With Double Shielding, Shieldings Connected At Alternate Ends.

4-32

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Instruction Manual

X-STREAM XE

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4.6 Installation - Notes on Wiring

Installation

Fig. 4-27:	 Shield Connector Terminal With Cable

4

X-STREAM XEGP/XEGC with screw-type
terminal adapters
In order to avoid measured values being influenced by external interference signals when
terminal adapters are in use, the signal cable
shieldings must be connected to the analyzer housing by means of shield connector
terminals:
•	 Strip the signal cable to a length of 20 cm
(8"). Take care to not damage the braided
shield!
•	 Pull up the contact part of the shield connector terminal,
•	 feed through the cable as illustrated in
Fig. 4-27, and
•	 release the contact part down onto the
braided shield.
The result is a secure contact with the cable
shield, improving the unit’s immunity against
interference from other electronic devices.
Finally connect the individual wires as described in section 4.5.1.

The shield connector must be ordered to fit the cable diameter, and can be retrofitted:
Ø 1.5 ... 6.5 mm (0.06" ... 0.25")
Ø 5 ... 11 mm (0.2" ... 0.43")
Ø 10 ... 17 mm (0.4" ... 0.66")
Ø 16 ... 24 mm (0.63" ... 0.94")

Emerson Process Management GmbH & Co. OHG

part # ETC02019
part # ETC02020
part # ETC02021
part # ETC02022

4-33

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X-STREAM XE

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4.6 Installation - Notes on Wiring
4.6.2	 Wiring Inductive Loads
Switching inductive loads creates electromagnetic interference:
When an inductive load (e.g. relay, valve) is
switched off, the magnetic field resists the
change in current; this induces a high voltage across the coil contacts (several hundred
volts). This impulse propogates through the
connected cables and can influence any
electrical devices nearby or destroy signal
inputs and outputs. This can be avoided with
a simple precaution:
•	

A silicon diode is connected in parallel to
the load’s contacts. The induced impulse is thus short-circuited at its source.
The cathode must be connected to the
positive end of the coil, the anode to the
negative end (Fig. 4-28).

4.6.3	 Driving High-Current Loads
Loads which draw a current in excess of the
specifications for X-STREAM series analyzer
outputs (>30 mA / >1 A) may not be directly
driven from digital or relay outputs.
Such loads require external relays serving as
de-coupling modules: the X-STREAM output
drives the external relay, which in turn drives
the load.
In order to avoid interference, we recommend
supplying the analyzer and the high-current
loads from different sources (Fig. 4-29).
As previously described, the use of suppressor diodes for inductive loads is highly
recommended.

Last

Compatible filter components for standard
valves are available on request.
External relay

Analyzer output

Fig. 4-29:	 Driving High-Current Loads

Fig. 4-28:	 Suppressor Diode for Inductive Loads.

4-34

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

4.6 Installation - Notes on Wiring
4.6.4	 Driving Multiple Loads
Frequently, several loads in one system are
controlled by several analyzer outputs, whereby the power for the loads derives from a
common source.
Special care is needed when wiring the loads
to minimize interference from switching these
loads:

avoid connecting the loads to their power
supply by a common line:

L

Installation

•	

4

Fig. 4-30:	 Common Line

•	

It is recommended the loads to be wired
separately, and each load connected separately to the power supply. Beginning
at the distribution point, both the + and
the - wires for each load are laid together
to the load (Fig. 4-31). Interference is
further reduced if a twisted multi-core
cable is used.

ib

str

Di

n

io
ut

int

po

Lay cables to the loads
together as far as possible
(using twisted-pair cables
if possible)

Fig. 4-31:	 Loads in Parallel

Emerson Process Management GmbH & Co. OHG

J
4-35

X-STREAM XE

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Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

Chapter 5
Startup
5.1	 Introduction
Once the unit has been unpacked and installed, it is recommended to first check the
settings, and if necessary adjust them to the
user’s needs. e.g:
•	

What hardware is installed?

•	

Is the unit configured to your needs
(alarms, inputs, outputs, etc.)

The following pages describe how to navigate
through the menus and what is to be observed
when configuring the unit. For the first startup
after installation, follow the step-by-step instructions for navigating the menus, allowing
you to familiarise yourself with the unit and its
software, and if necessary adjust the settings
to your own requirements.

OPERATION AT LOW TEMPERATURES
When operating an instrument at temperatures below 0 °C (32 °F), do NOT
apply gas nor operate the internal pump before the warmup time has elapsed!
Violation may result in condensation inside the gas paths or damaged pump
diaphragm!

Emerson Process Management GmbH & Co. OHG

5-1

5

Startup

In order for the information in this chapter
to be of any relevence, the unit must have
been installed according to the instructions
in chapter 4.

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

5.2 Symbols Used
5.2	 Symbols and Typographical Conventions
In the following sections, the symbols and
typographical conventions explained below
are used to describe the software menus and
navigation.
Symbol

Description

Convention

Within Process Descriptions
Setup..

Menu title

Setup..
Analog outputs..

Parent (SETUP) and current menu (ANALOG OUTPUTS)

Analog outputs..
Output1...5

As an example, the menu
for Output1 is shown; the
menus for outputs 2 to 5
look identical

Setup..
In-/Outputs..
Analog outputs..
Output1...5

To access the current
menu, access level code
3 has to be entered somewhere in the menu history
Access levels:

Description

Within Text
(MENU TITLE)
6-12

For a detailed description
of MENU, see page 6-12.

CONTROL

Identifies the CONTROL
menu, e.g. "press enter to
open CONTROL"

CONTROL - RANGES

From within the CONTROL
menu, select the RANGES
menu.

"Valves"
"Control.."

Parameter or menu line
name

Never, 1 min

Values to be selected

0 ... 2000

Value to be entered

enter

press key (here:
key)

enter

Access level 1
(user)
Access level 2
(expert)
Access level 3
(administrator)
Access level 4
(service level)

Control..
Setup..
Status..
Info..

Screen shot
(here: MAIN MENU)

Service..

5-2

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5.3 Front Panel Elements
5.3	 Front Panel Elements
All X-STREAM XE gas analyzers have an
graphic display to show measuring and status
information, and the easy-to-use menu-based
user interface for entering parameters. For
ease of understanding, the user can at any
time select one of three languages stored in

Ch1
Ch2
Ch3
Ch4

the unit (currently available: English, French,
German, Italian, Polish, Portuguese and Spanish in various combinations).
Units are operated by six keys on the front
panel.

0.000 ppm
CO
0.000 ppm
CO
0.000 ppm
CO
0.000 ppm
CO

5.3.1	 Display

Ch1
Ch2
Ch3
Ch4

10.000ppm
CO
5.000ppm
CO
7.000ppm
CO
20.000ppm
CO

Input
Ch1
Output
Ch2
Flow 1

10.0000ppmCOppm
10.0000CO
0.00 l/min

The measurement display can be configured
in to various layouts. The figure to the left
examplarly shows a 4 channel layout and a
2 channel layout with additional Information
and differing letter sizes.

5.3.2	 Status Line
Status information is provided by different
symbols in the display´s first line:

Ch1
Ch2
Ch3
Ch4

10.000
5.000
7.000
20.000

ppm
CO
ppm
CO
ppm
CO
ppm
CO

Emerson Process Management GmbH & Co. OHG

Bell = 'Alarm'
Cross = 'Failure'
Question mark = 'Off spec'
Oil can = 'Maintenance request'
Tool = 'Function check'
Heart = the analyzer´s 'heart beat',
indicating the instrument is operating.

5-3

5

Startup

Fig. 5-1:	 X-STREAM XE Front Panel

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5.3 Front Panel Elements
5.3.3	 Keys

Six keys enable the use of the menu system.
Depending on the operational mode (measuring, browsing menus, editing) they have the
following functions:

enter

key:

Mode
Function
Measuring Enter main menu
Open submenu (..) or
Browsing
execute command (!)
Editing
Confirm new entry

home

key:

Mode
Function
Measuring (no function)
Return to measurement disBrowsing
play
Editing
Abort entry
up

/ down keys:

Mode
Function
Measuring Enter main menu
Highlight next menu line
Open the previous/next page,
Browsing
when currently a line beginning
with / is highlighted
Editing
Change current parameter

5-4

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5.3 Front Panel Elements

left

key:

Function
Enter main menu or
Measuring open 2nd measurement display
page (if configured)
Go up 1 level or page in menu
Browsing
system
Move cursor 1 char to the left
Leave channel selection
Cancel editing of given paraEditing
meter
Go to previous menu page, if 
shows in first menu line
key:

Mode
Function
Measuring Enter main menu or
open 2nd measurement display
page (if configured)
Browsing
Open submenu (..)
Go to next menu page, when
 shows in last menu line
Editing
Move cursor 1 char to the right

Emerson Process Management GmbH & Co. OHG

5-5

5

right

Startup

Mode

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5.4 Software
5.4	 Software
The analyzer software displays measurement
results and status messages, allows parameters to be set and edited, and maintenance
functions (e.g. calibration) to be carried out.
The software is organised hierarchically: The
topmost level is called MEASUREMENT DISPLAY, followed by a MAIN MENU; all other
menus and submenus are arranged below
(
fig. 6-1, page 6-2).
Menu lines can perform different functions,
to be distinguished by the following characteristics:
Function
Text

Description
Simple text (not selectable with
cursor)
A variable description shows a
colon; the line can be made up
of up to 3 elements:
1. description
2. value (number or text)
3. unit (optional)

Editable
variables /
parameters

Examples:
Span gas: 2000 ppm
Tol.Check: Off
Pressing enter in an editable
variable line highlights the value to be changed.

Function

Description
A command line text ends in
an exclamation mark; pressing
enter with such a line highlighExecutable ted, the command is executed,
command e.g. a calibration procedure.

Selectable
submenu

Example:
Start calibration !
A menu line text ends in two
dots. Press enter with a menu
line highlighted to open the
submenu.
Example:
Setup..

The optional unit can only
be changed utilizing a setup
menu.
Variables shown without a colon cannot be edited, they are
for information only.

5-6

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5.4 Software

Program Sequence 1of8
Action1:
END-OF-PGRM
Node1:
All
Page 4
Action2:
END-OF-PGRM
Node2:
All
 Program END-OF-PGRM
Sequence 4of8
Action3:
Action13:
END-OF-PGRM
Node3:
All
Node13:
Action4:
END-OF-PGRM All
Action14:
END-OF-PGRM
Page 8
All
Node4:
Node14:
All
 ProgramEND-OF-PGRM
Sequence 8of8
Action15:
Action29:
END-OF-PGRM
Node15:
All
Node29:
Action16:
END-OF-PGRM All
Action30:
END-OF-PGRM
All
Node16:
Node30:
All

To show the next page (indicator  )
•	 place the cursor in the last accessible line
and press down or
•	 press right, irrespective of where the cursor
is located.
To show the previous page (indicator  )
•	 place the cursor in the first accessible line
and press up or
•	 press left, irrespective of where the cursor
is located.

Emerson Process Management GmbH & Co. OHG

5-7

Startup

Page 1

Some menus have more entries than can displayed at once. In these menus, an indicator
in the last () and/or first () line indicates the
direction the menu continues in.
In the example to the left
•	 page 1 continues downwards
•	 page 4 continues upwards and downwards
•	 page 8 continues upwards.

5

Browsing

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5.4 Software

Editing
The editing mode enables changing parameters. It is initiated by pressing enter.
If the selection is a parameter list, the current
entry is highlighted and may be changed by
up and down.
If the selection is a value, the cursor is placed
over the last character. Use up and down to
change it.
Use left and right to select another character.
The type of available characters depends on
the position of the cursor:
•	 It is not possible to select the minus sign or
decimal point as the last character.
•	 It is not possible to select the decimal point
in integer values.
•	 For decimal numbers, the decimal point can
be placed anywhere within certain limits.
There are two ways to exit the data entry
mode:
enter:

	
	
	

home:	

	

	 the entry is verified.If it is accepted,
it is saved and the new value displayed; if not, an error message is
displayed.
Cancel: all settings and changes are
reset to their former values.

Component selection menu
Within the analyzer software, one can distinguish between analyzer related and component related menus: While the first contain
entries, relevant for the analyzer (e.g. time
setting), the second contain entries relevant
for a specific component (channel) only (e.g.
calibrating a channel).
For single channel analyzers, editing any
channel specific parameter will only effect
this one channel.
Different for multi-channel analyzers: Such
instruments require selecting a channel prior
to changing channel related parameters.
When a channel related menu entry is selected, automatically a SELECT COMPONENT
menu shows up, to select the component of
interest, or to cancel the current action.

Select Component
Component:
Press

Ch1
to return

Select the component / channel you want to
work with, and press enter.
This menu does not show on single-channel
units.
Within menu descriptions, the following points
out, that for multi-channel instruments a selection is required:
Multi-channel unit:
In SELECT COMPONENT select the channel to be ...

5-8

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5.4 Software
5.4.1	 Access Levels & Codes

Level three gives access to system admin
parameters, e.g. for configuring data acquisition systems communication.
Level two covers the expert settings, e.g.
basic settings for calibrations and measurements.
Level one is the user level and includes
•	 parameters which should be set by trained
personnel only.
•	 functions, not to be started by any person
(e.g. start calibrations).
All menus not assigned to one of these levels
are not editable or of minor relevance.
Within this manual, the descriptions of the
menus and procedures also indicate, which
level the menus are assigned. These assignments cannot be changed.
Access codes for levels 1 to 3 can be defined, activated and deactivated by the client.
The analyzer is delivered with the following
settings:
Level	
Access code	
Status
	 1	
00000001	
Off
	 2	
00000002	
Off
	 3	
00000003	
Off

Emerson Process Management GmbH & Co. OHG

Notes!
If a low level is locked (status On), all higher
levels will also be locked.
If a high level is unlocked (status Off, or code
entered when requested), automatically all
lower levels will also be unlocked.
For above reasons, it is always possible to
enter a higher code than requested, to gain
access to a menu (e.g. if access code 1 is requested, you may also enter access code 2).

Entering access codes
If an access code is required for a menu, a
message like the following appears:
Access Code 1
Code

00000000

Press

to return

To enter the code, press
•	 up/down to change the currently selected
digit,
•	 left/right to select a different digit,
•	 enter to submit the code
or
•	 home to exit the edit mode and return to
the previous display.

5-9

Startup

Level four has the highest priority and is
used for factory settings — only qualified
EMERSON service personnel have access
to this level.

We recommend to set new access codes, if you want to use
this option (
6-32)!

5

Access levels can be used to prevent changes
to parameters by unauthorised personnel.
The X-STREAM menu system supports four
prioritized access levels, which can be activated and deactivated separately, and should
be supplied with their own access codes.

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5.4 Software
5.4.2	 Special Messages

5.5	 Powering Up

Depending on the last action performed by the
user, one of the following messages may be
displayed to assist or inform the user.

5.5.1	 Boot Sequence

Information on incorrect entry:
The value entered by the user is outside
valid limits. The display indicates what limits
apply.
Press  to return to the previous screen to
enter an acceptable value.

Wrong input
Range

0.1 ... 50
Press  to return

Confirmation of execution of command:
Confirms that a function or procedure (e.g.
calibration) has been started, or cancelled.
The message automatically dissapears after
a few seconds.

Function executing

Press  to return

5-10

When the unit is powered up, a series of internal tests is automatically performed. During
this time the front panel keys are disabled,
while the remaining time counts down in the
display.
5.5.2	 Measurement Display
The measurement display is shown
•	 automatically on completion of the boot
sequence
•	 when home is pressed
•	 automatically after a set period of time
of inactivity (i.e. with no keys being
pressed).
The information, to be provided in each of the
four lines of the measurement display, can be
configured by an expert (access level 2):
•	 Sample gas components, measuring
results and measuring units for each
channel
•	 secondary measurements, e.g. pressure, gas flow, temperature
•	 nothing (empty line)
The factory settings are as follows:
Line 1: measured value of channel 1
Line 2: measured value of channel 2
Line 3: measured value of channel 3
Line 4: measured value of channel 4
Note!
If less than four channels are installed in the
unit, only the measureands for these channels
are available for selection.

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5.5 Powering Up

The setup menu enables several additional
configurations, e.g.
•	 2 pages measurement display
•	 different font sizes
6-29.

Note!
There are also functions, that do activate a
relay, but are not shown on the display (e.g.
concentration alarms). In such cases, check
the status menu for more information.

Emerson Process Management GmbH & Co. OHG

4 lines display
Startup

The display´s bottom line shows plain text
status information (errors, maintenance
requests, function checks or off-spec performance).
Active messages are stored in an internal
buffer. If there is more than one message in
the buffer, the display will cycle through.
Most messages also activate a NAMUR relay
(if a relay has been assigned to that NAMUR
function;
6-68).

0.000 ppm
CO
0.000 ppm
CO
0.000 ppm
CO
0.000 ppm
CO

Input
Ch1
Output
Ch2
Sample
Ch3
Boiler
Ch4

Input
Ch1
Output
Ch2
Flow 1

10.0000
10.0000

ppm
CO
ppm
CO

5

The very first display line shows
•	 a flashing heart, showing the instrument is
operating
•	 one or more status pictograms, if (NAMUR)
status are active. Some of these are explained by a text message in the last line
(see below)
•	 a channel indicator, if the current menu
page is related to a specific channel only.

0.00 l/min

2 lines display with additional secondary parameter line
MEASUREMENT DISPLAY

5-11

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5.6 Selecting the Language
5.6	 Selecting the Language
If the analyzer is operational and it becomes
clear that the incorrect language has been
set, which is unintelligible to the operator, the

following sequence of keypresses (starting at
the measurement display) can be used to set
the language.

If the system has been set up accordingly,
the code for access level 1 must be entered
at this point to enable access to the following
menu.
Note!
The factory setting for this unit is "no code
required”. For ease of operation, it is recommended to use the factory settings for access
codes while setting up the unit for the first
time. In the following sections, therefore, no
more reference will be made to any need for
entering a code.

Note!
Pressing enter the 3rd time in this sequence
highlights the "Language” line.
•	
•	

changes the language.
enter sets this language and the display is
updated accordingly.
•	 If the selected language is not the intended,
repeate the last three steps until the intended language is set.

5-12

down

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5.7 Checking the Settings
5.7	 Checking the Settings

)

Setup
Display..
Alarm..
Measurements..
In-/Outputs..
Communication..
Alarms..
Installed Options..
Save-Load..

Display
Contrast..
Language:
English
Phrase Version
EN1.04B
Measurements..
Measurement Display..
Menu Access..
10 Min
Auto Home:
10 Min

Emerson Process Management GmbH & Co. OHG

Starting with the measurement display (
page 5-11), pressing any key except home will
access the MAIN MENU; from here, follow
these steps:
(If the display is showing anything other than
the measurement display, press home to return
to the measurement display first).
Note!
If you are unfamiliar with the language set:
5-12 shows the sequence of keys to set
a different language.
If the system has been set up accordingly,
the code for access level 1 must be entered
at this point to enable access to the following
menu.
Note!
The factory setting for this unit is "no code
required”. For ease of operation, it is recommended to use the factory settings for access
codes while setting up the unit for the first
time. In the following sections, therefore, no
more reference will be made to any need for
entering a code.
Set the preferred language for the software;
each analyzer shipped with 3 out of below list
of available languages.
Currently available (may be extended by
future software versions.):
English, French, German, Italian, Spanish,
Polish, Portuguese

5-13

Startup

(

these steps, the unit will be configured to the
user’s needs and properly functioning.

5

The following sections are structured so that
the user can work through them one by one
after powering up the unit. After completing

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5.7 Checking the Settings
5.7.1	 Installed Options
All X-STREAM gas analyzers can be fitted
with a variety of optional components: follow
these steps to see which options are installed
on your analyzer.
Press left to return to SETUP, highlight "Installed options" and press enter.

Installed Options 1of2
Licenses..
Valves:
Pumps:
DIO#1 Installed:
DIO#2 Installed:
Anal. Outputs:
AIN Installed:



None
None
No
No
4
No

This 2 pages menu indicates, which of the
possible optional components are installed
in the unit. The values displayed on your unit
may differ from those illustrated here.

Installed Options 2of2

Flow..
Pressure..

Licenses
Key 1:
Key 2:
Key 3:
Package
Trial Days

5-14

Do not edit any entries in these
menus without special knowledge.
Incorrect entries may result in
incorrect results or impair the
performance of the unit.
Initial access to this menu
should be to gain information
on the configuration of the
unit.

0
0
0

"Licenses.." opens another menu where you
can check or enter license codes to unlock
optional software features.

None

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5.7 Checking the Settings
5.7.2	 Configuring the Display
Press left to return to SETUP.

Line 1:
Line 2:
Line 3:
Line 4:
Line 5:

Comp1
Comp2
Comp3
Comp4
Blank

Labels..

Note!
X-STREAM currently supports one pressure
sensor only. Values Press1 to Press5 thus
refer to the same sensor.
Display 1 labels
Line 1:
Line 2:
Line 3:
Line 4:
Line 5:

When entering LABELS.., you may change
the channel´s label, that is the first text phrase in a line showing a measurement value: If
here nothing is entered, the default phrases
(Ch1 ... Ch4) are used.

Note!
Notice the headlines of the menus showing
a "1": This indicates that you can setup more
than 1 measurement display page.

Emerson Process Management GmbH & Co. OHG

5-15

5

Display 1 assignments

Select the value to be displayed in each line
of the measurement display. The following
options are available:
	
Comp1 ... Comp5,
	
Temp1 ... Temp5,
	
Press1 ... Press5,
	
Flow1 ... Flow5
	
Blank (nothing)

Startup

Check the settings for the measurement
display, temperature and pressure units, and
for menu access: press enter to open DISPLAY.., select "Measurement display.." and
press enter.
If a setting does not meet your requirements,
access that menu and adjust the parameter.

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5.7 Checking the Settings
5.7.3	 Calibration Setup
Once the display settings have been checked, press left to return to SETUP and
open CALIBRATION to check the calibration
settings.

Setup..
Calibration..

Multi-channel unit:
Select the component to be set in the gas
component selection menu.
Note!
For more detailed information on calibration
7-5.
procedures,

Ch1
Calibration
Gases..
Tolerances..
Procedure..
Valve Assignment..
Program Sequence..
Interval Time..
Deviations..

In CALIBRATION - GASES, enter the values
for zero and span gas:
•	 See gas supplier´s certificate for correct
values.
•	 Values must be correctly set for results to
be accurate.
•	 Multi-channel units: the values for each
channel must be entered separately.

Gases
Zero Gas:
Span Gas:
Range Gases..

0.000 ppm
50000.000 ppm

Current Range:

Range 1

Ch2
Tolerances
DeviatToler:
Zero Limit:
Span Limit:

5-16

Off
20.0 %
20.0 %

Press left to return to CALIBRATION, and
enter TOLERANCES .
By default the 'Deviation Tolerance check'
option is set inactive (Off).
With "DeviatToler" set to On,
•	 during calibration the analyzer checks
whether the values set for zero and span
gas conform to the concentration of the gas
currently being supplied.
•	 If the concentrations differ more than the
percentage of range entered in the following lines, the calibration is aborted.This
prevents calibration from being performed
when the incorrect gas is supplied (e.g.
span gas calibration using zero gas), which
would result in an incorrectly configured
unit.

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5.7 Checking the Settings

Press left several times to return to SETUP
and open MEASUREMENT.

Measurement 1of2
Ranges..
Damping..
Linearization..
Cross Interference..
Average..
Delay..


Ch1



Measurement 2of2

Cut-off:
None
Pressure Compensation ..

Ch1
Pressure compensation
Manual Pressure:

1013 hPa

Pressure
Pressure Status

1013 hPa
Good

Emerson Process Management GmbH & Co. OHG

Signal damping (set in DAMPING) allows
smoothing the output signal, but also affects
the response time of outputs and display:
•	 The factory setting is 0 seconds.
•	 The maximum possible t90 time is limited by
the size of the internal sampling buffer and
the sampling rates of the installed measuring principles/sensors.
•	 Multi-channel units: the value for each
channel must be entered separately.
The second page´s last line
enables the user
•	 to enter the current ambient pressure manually, if no pressure sensor is installed,
or
•	 to view the current pressure, if a sensor
is installed (
INSTALLED OPTIONS,
page 5-14).
If no pressure sensor is installed, enter the
current ambient pressure here and adjust
it, when significant changes take place: this
improves the accuracy of the instrument.

5-17

5

Ch1

Startup

Setup..
Measurement..

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5.7 Checking the Settings
5.7.4	 Setting the Analog Outputs
Press left to return to SETUP, and then
open IN/OUTPUTS, and from there ANALOG
OUTPUTS.

Setup..
In/Outputs..
Analog Outputs..

Analog Outputs
Output1..
Output2..
Output3..
Output4..
Output5..

Signal:
OutRange:
Low Scale:
Max Scale:
AutoScale:
FailMode:
0/4 mA:
20 mA:
Hold:

5-18

Comp1
0-20 mA
0.00
100.00
Yes
Live
0.00
100.00
No

Select the analog output you like to check.
Note!
The following section only in brief describes
Chapter
the entries currently of interest!
6 for a more detailed description.
Select the signal assigned to this analog
output.
Selectable options:
0 mA	
20 mA	
Comp1 ... 4	
Temp1 ... 4
Press1 ... 4
Flow1	 ... 4
Calc A ... D	
RawVal1 ... 4	
RangeID1 ... ID4
"Signal” specifies the value associated with
the selected output. The following options
(partly dependent on the number of measuring channels and sensors installed) are
available:

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5.7 Checking the Settings

Description
The analog output is deactivated
A 0 or 4 mA signal is generated, e.g. to check the signal processing in an
external system. Whether a 0 or 4 mA signal is generated, is set by the "Out
0 mA
range” line (
next page).
A 20 mA signal is generated, e.g. to check the signal processing in an exter20 mA
nal system.
Comp1 ... 5 Gas concentration
Temp1 ... 5
Temperature
Press1 ... 5 Pressure
Flow1 ... 5
Flow
Calc A ... D
Result of calculator
RawVal1 ... 5 Raw value
RangeID1 ... 5 ID of selected range

Emerson Process Management GmbH & Co. OHG

In contrast, capital letters A to D imply that
these calculator results are component
[channel] independent (Calc C is the result
of calculator C).

5-19

5

*) Numbers 1 to 5 refer to components [channels] 1 to 5: In case of secondary parameters,
this means, the selected value is that of the
sensor assigned to the given component
(Press2 is the pressure value of the sensor
assigned to component 2).

Startup

Signal*)
None

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5.7 Checking the Settings

Signal:
OutRange:
Low Scale:
Max Scale:
AutoScale:
FailMode:
0/4 mA:
20 mA:
Hold:

Comp1
0-20 mA
0.00
100.00
Yes
Live
0.00
100.00
No

Next, select the output range:
•	 0-20 mA (dead zero) generates a 20 mA
signal, if a concentration is measured at
the upper limit of the signal range. A 0 mA
signal is generated if the sample gas concentration equals the value specified with
"LowScale" .
•	 4-20 mA (life zero): A 4 mA signal is generated if the concentration equals the value
specified with "LowScale", thus enabling to
detect e.g. a broken cable.
Enter a concentration, to equal the low output
limit (0 or 4 mA)
Enter a concentration, to equal the high output
limit (20 mA)
Enable (Yes) or disable (No) output autoscaling.
"FailMode" selects the output´s behaviour under
failure conditions, considering or not, the NAMUR recommendation NE 43. NE 43 defines
output signals enabling to detect different types
of failures/status (see table 6-1): The related
information is transmitted as a current signal,
but outside the (0)4-20 mA measurement signal
range.
Available options:
Track: NE 43 not considered.
HIGH + 10%: NE 43 failure signal level:
"above".
LOW - 10%: NE 43 failure signal level:
"below".

5-20

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5.7 Checking the Settings

Operation modes conforming to NAMUR 43
(NE 43) recommendations
The operation modes described above do not
generate a signal which enables detection of a
failure in the measurement system. In such cases the behaviour of the output signal is undefined: either the last value is held, or a random

NE 43 contains recommendations for setting
analog outputs in order to avoid these situations. These are implemented by X-STREAM
analyzers as follows:
Setting "FailMode" to HIGH + 10% or LOW 10% defines specific analog output signals in
case of a failure. Since these values do not
occur under normal operation conditions, a data
acquisition system is enabled to distinguish
between the following situations (table 5-1):
•	 Valid signal (signal within valid range; column C)
•	 Signal out of range (signal rises or falls
slowly to the limits given in columns D or E
and holds this value until the concentration
returns to a valid level).
•	 Failure (signal out of range; column F)
•	 Severed cable (no signal; column G)

Output signal, if
Column

A

B

C

D

E

F

G

"OutRange"

"FailMode"

Failure
signal level
acc. NE 43

Measured
value is
valid

Measured value is
below lower limit
("Low scale")

Measured value is
above upper limit
("High scale")

An internal
failure
occured

Cable is
severed

0-20 mA

Track

-

0 ... 20 mA

< -19 mA

> 21 mA

undefined

0 mA

4-20 mA

Track

-

4 ... 20 mA

< -19 mA

> 21 mA

undefined

0 mA

0-20 mA

LOW - 10%

below

0 ... 20 mA

-0.2 mA

20.5 mA

-2 mA

0 mA

4-20 mA

LOW - 10%

below

4 ... 20 mA

3.8 mA

20.5 mA

2.4 mA

0 mA

0-20 mA

HIGH + 10%

above

0 ... 20 mA

-0.2 mA

20.5 mA

> 22 mA

0 mA

4-20 mA

HIGH + 10%

above

4 ... 20 mA

3.8 mA

20.5 mA

> 21.6 mA

0 mA

Tab. 5-1: Analog Output Signals Settings and Operation Modes

Emerson Process Management GmbH & Co. OHG

5-21

Startup

However, a severed cable also results in a
signal value of 0. An external data acquisition
system thus cannot detect such an failure and
accepts a gas concentration of 0.
The commonly used method of detecting a
severed cable is to apply an offset: a concentration corresponding to the lower range value
is assigned an analog signal of 4 mA, enabling
to detect a severed or disconnected cable.
This live zero mode is activated by setting “Out
Range” to 4-20 mA.

value is sent. System failures thus cannot be
detected by an external data acquisition system.

5

Operation Modes acc. NAMUR NE 43
If "OutRange" is set to 0-20 mA, a 20 mA signal
is generated, if the measured concentration
is equal to "Max Scale". A 0 mA signal is generated if the sample gas concentration is 0
(dead zero).

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5.7 Checking the Settings

"0/4 mA" enables to finetune the analog
output: Set "Signal" to 0 mA and, while
measuring the output current, adjust it to the
expected value.
Accepted range: -10,000 ... +10,000
Signal:
OutRange:
Low Scale:
Max Scale:
AutoScale:
FailMode:
0/4 mA:
20 mA:
Hold:

5-22

Comp1
0-20 mA
0.00
100.00
Yes
Live
0.00
100.00
No

"20 mA" enables to finetune the analog output:
Set "Signal" to 20 mA and while measuring
the output current, adjust it to the expected
value.
Accepted range: -10,000 ... +10,000
"Hold" selects the output´s behaviour during
calibrations.
If set to Yes,
•	 the analog output is fixed to the last measured value;
•	 concentration alarms, which may otherwise
be triggered by the concentrations of the
calibration gases, are supressed.
If set to No,
•	 the analog output signal always corresponds to the actual measured value during
calibration; this may trigger alarms if limits
are exceeded.
Note!
This behaviour may be undesireable if e.g.
the unit is connected to a data acquisition
system.

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5.7 Checking the Settings
5.7.5	 Setting Concentration Alarms
Note!
If concentration alarms are not being used,
continue with
5-24.
Press left until SETUP is displayed, then
open ALARMS - CONCENTRATION

Concentration
Alarm Monitor:
LoLo Level:
Lo Level:
Hi Level:
HiHi Level:
Hysteresis:
States..

On
50.000 ppm
100.000 ppm
400.000 ppm
600.000 ppm
10.000 ppm

Four concentration limits can be set for each
channel:
"Lo" and "Hi" enframe the expected gas
concentration,
"LoLo" equals or is below "Lo",
"HiHi" equals or is above "Hi".
See the figure to the left for an explanation.
If you enter values for any threshold, the
above given order has to be considered. A
message is displayed, if an entered value
does no comply with this condition.
Should the measured concentration go beyond one of the threshold levels (areas B, C, D
& E in the figure), a message is displayed in
the message line of the measurement display,
the NAMUR pictogram appears (bell) and a
corresponding digital output is activated, if
assigned.

Fig. 5-2:	 Arrangement of Concentration Thresholds

Emerson Process Management GmbH & Co. OHG

A hysteresis avoids oscillating alarms in
case the concentration is fluctuating around
a threshold.

5-23

5

Ch1

Startup

Multi-channel unit:
Select the channel to be calibrated in the
SELECT COMPONENT menu.

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5.7 Checking the Settings

Ch1
Concentration Alarms
LoLo Alarm:
Lo Alarm
Hi Alarm
HiHi Alarm

Off
On
Off
Off

Concentration

75.000 ppm

You may turn the alarm function On or Off
separately for each channel ("Alarm Monitor").
It´s also possible to use only some of the
thresholds. In this case, set the not used to a
level outside the range limits (for this, "Lo" and
"LoLo" support entering negative values).
In case of an alarm, you may like to enter
the STATES submenu, to check which one
is triggered.

5.7.6	 Backup the Settings
The most important settings have now been
checked and the unit is configured to suite
your needs.
A backup copy of these configuration data
can now be saved.

Press left until SETUP and then open SAVELOAD.

Save-Load
Local Backup..
Factory Defaults..
USB Backup..
USB Firmware Update..

5-24

This menu gives you the choice, to either
•	 make a local backup to a protected memory
area
•	 restore the factory default settings, or
•	 make a backup to an external USB device.

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5.7 Checking the Settings

Local Backup
Save..
UsrBack Date
Restore..
Undo Restore!
Busy
Progress (0..1000)

7/29/09 14:26

For now, make a local backup:
Enter LOCAL BACKUP and then select
"Save..".

0
0

Save new local backup
and overwrite old one!
Are you sure?

Confirm the operation (select "Yes!").

5

Startup

No!
Yes!

Copying Data
Busy
Progress (0..1000)

0
1000

Wait until "Progress (0..1000)" shows 1000,
then press enter to return to LOCAL BACKUP.

Press  to return

You have now completed checking the
unit’s settings:
•	 Press home to return to the MEASUREMENT DISPLAY.

Emerson Process Management GmbH & Co. OHG

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5.8 Perform a Calibration
5.8	 Perform a Calibration
We recommend to perform at least a zero
calibration, after startup of the instrument, to
ensure proper measuring results.
Refer to chapter 7 for a �����������������
comprehensive description of calibration procedures.

5-26

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Chapter 6
User Interface and Software Menus
This chapter describes the structure and content of the X-STREAM gas analyzer software
menus.

While this chapter describes all software menus in hierarchical order, chapters 5 & 7 explain by practical examples, how to navigate
through the menus to perform certain basic
setup operations, or maintenance functions.

6.1	 Symbols and Typographical Conventions

Description

Symbol

Within Process Descriptions
Setup..

Menu title

Setup..
Analog outputs..

Parent (SETUP) and current menu (ANALOG OUTPUTS)

Analog outputs..
Output1...5

As an example, the menu
for Output1 is shown; the
menus for outputs 2 to 5
look similiar

Setup..
In-/Outputs..
Analog outputs..
Output1...5

To access the current
menu, access level code
3 has to be entered somewhere in the menu history
Access levels:
Access level 1
(user)
Access level 2
(expert)
Access level 3
(administrator)
Access level 4
(service level)

Emerson Process Management GmbH & Co. OHG

Description

Within Process Descriptions
Screen shot
(here: MAIN MENU)

Control..
Setup..
Status..
Info..

Software Menus

Symbol

are used to describe the software menus and
navigation.

Service..

Convention

6

In the following sections, the symbols and
typographical conventions described below

Description

Within Text
(MENU TITLE)
6-12

For a detailed description
of MENU, see page 6-12.

CONTROL

Identifies the CONTROL
menu, e.g. "press enter to
open CONTROL"

CONTROL - RANGES

From within the CONTROL
menu, select the RANGES
menu.

"Valves"
"Control.."

Parameter or menu line
name

Never, 1 min

Values to be selected

0 ... 2000

Value to be entered

enter

press key (here:
key)

enter

6-1

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6.2 Menu System
6.2	 Menu System
Note!
This overview does only show menu branches
up to the 3rd menu level, not functions nor parameter lines! E.g. the lines "Pump" or "Lock
menus" of CONTROL are not shown.

The analyzer´s menu system has a dynamic
behavior in that it does not show entries not
supported by the current analyzer configuration. Therefore this overview might show
entries hidden in your specific instrument!

Status Menu Failures 6-109
Status Menu Off-specs 6-109
Status Menu Maintenance Requests 6-110
Status Menu Function Checks 6-110
Status Menu Component 6-112
Status Menu Temperature Sensors 6-114
Status Menu Pressure Sensors 6-115

Status Menu Measurement 6-111

Status Menu 6-108

Status Menu Flow Sensors 6-115

Control Menu 6-5
Status Menu Single Calibration 6-116
Next Automatic Calibrations Menu 6-118

Alarms Status Details 6-120
Operation Hours Status 6-121

Info Menu Measurements 6-123

Status Menu Calibration 6-116

Setup Menu 6-21

Status Menu Alarms 6-119

Note!
See next page,
lower diagram.

Info Menu Components 6-123
Info Menu Installed Options 6-124

Info Menu Measurements 6-125

Main Menu 6-2

Note!
See next page,
upper diagram.

Info Menu 6-122

Info Menu Identification 6-125

Service Menu 6-126

Notes!
This figure applies to software revision 1.0.x
Numbers are page numbers of this manual, where the
associated menu is explained.

Fig. 6-1:	 X-STREAM XE Software Menu Structure

6-2

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6.2 Menu System

Zero Calibration Menu 6-6

Apply Gas Menu 6-16

Span Calibration Menu 6-7

Acknowledgements Menu 6-17
Ranges Menu 6-18

Zero Span Single Menu 6-10

Control Menu 6-5

Advanced Calibration Menu 6-8

Data logger 6-19

Calibration Status Summary 6-11
Calibration Status Single 6-12
Calibration Results 6-13

Event/Calibration logger 6-20

Calibration Results Single 6-14

Setup Alarms Concentrations 6-81

Calibration Deviations 6-15

Display Contrast Setup Menu 6-23

Setup Concentration Average Alarms 6-83

Display Setup Menu 6-22

Setup Temperature Alarms 6-85

Setup Alarms 6-80

Setup Pressure Alarms 6-85

Display Measurements Setup Menu 6-24
Measurement Display Setup Menu 6-29
Menu Access Setup 6-32

Setup Flow Alarms 6-85
Setup Alarms Calculatorn 6-86

Setup Calibration Gases 6-34

Software Menus

Setup Calibration Tolerances 6-35
Setup Calibration Procedure 6-36

Setup Installed Options Licenses 6-89

Calibration Setup Menu 6-33

Setup Installed Options 6-88

Setup Installed Options Flow 6-90

Setup Calibration Valves 6-37
Setup Calibration Program Sequence 6-39

Setup Installed Options Pressure 6-91

Setup Calibration Interval Time 6-40
Setup Calibration Deviations 6-42

Notes on Save-Load Procedures 6-93
Save-Load Local backup 6-94
Save-Load USB Backup 6-95

Setup Measurement Ranges 6-44

Setup Menu 6-21

Setup Damping 6-47

6

Setup Save-Load 6-92

Save-Load Factory Defaults 6-94

Setup Linearization 6-48

Save-Load USB Backup 6-96

Setup Measurement 6-43

Setup Cross Interference 6-56
Setup Measurement Average 6-59

Setup Operation Hours Meter 6-97

Setup Measurement Delay 6-60

Setup Identification 6-98

Component Tag Setup Menu 6-99
Setup NTP Server 6-101

Setup Manual Time 6-102

Setup Pressure Compensation 6-61
Setup Analog Outputs 6-63

Setup Time 6-100

Setup Digital Outputs 6-68

Setup In-/Outputs 6-62
Format USB Stick 6-104
Setup Data Logger Export 6-106

Setup USB Interface 6-103

Setup Internal SHS 6-73
Setup Analog Inputs 6-74

Setup Data Logger 6-105
Setup Event Logger 6-107
Setup PLC 6-107

Setup Digital Inputs 6-71

Setup Communication 6-77

Setup Communication Serial 6-78
Setup Communication Ethernetn 6-79

Setup Calculator 6-107

Fig. 6-1:	

X-STREAM XE Software menu structure (continued)

Emerson Process Management GmbH & Co. OHG

6-3

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6.2 Menu System
6.2.1	 Switching On

Input
Ch1
Output
Ch2
Flow 1

10.0000
10.0000

Ch1
Ch2
Ch3
Ch4

ppm
CO
ppm
CO

0.00 l/min

When the unit is powered up, a self-test
(POST) is initiated, after which the unit shows
the MEASUREMENT DISPLAY.
Note!
Two different measurement display layouts
are available and user selectable.
DISPLAY SETUP, 6-29.
Depending on the setup, either a 2-channel
layout or a 4-channel layout is used.

0.000 ppm
CO
0.000 ppm
CO
0.000 ppm
CO
0.000 ppm
CO

MEASUREMENT DISPLAY
Press left or right to switch to the MAIN
MENU and select one of the main submenus:
Start functions or perform actions

Control..
Setup..
Status..
Info..

Setup the instrument

Service..

Get status information
Some analyzer information
MAIN MENU

6-4

Get service information

6-5

6-21
6-108
6-122
6-126

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6.2.2 Control Menu
6.2.2	 Control Menu
Control..
Perform zero calibrations

6-6

Perform span calibrations

6-7

Perform advanced calibrations

Off
Off

6-16

Press enter in this line to lock all menus, for
which "Code" in MENU ACCESS has been
set to On (
6-32)
Acknowledge messages

6-17

Available if the related internal pump is installed:
Switch internal pump 1 / 2 On or Off.
Note!
These lines do not appear if digital inputs are
used to control the pumps (
6-71), or if
no internal pump is available.
Set ranges


Data Logger..
Event/Calibration Logger..

Emerson Process Management GmbH & Co. OHG

6-18

Handle data logger data

6-19

Handle event/calibration logger data
6-20

6-5

Software Menus

Apply gases

6

Zero Calibration..
Span Calibration..
Advanced Calibration..
Apply Gas..
Lock Menus!
Acknowledgements
Pump 1:
Pump 2:
Ranges..

6-8

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6.2.2 Control Menu
6.2.2.1	 Zero Calibration Menu
Control..
Zero Calibration..
If the system is setup accordingly, the access
code for level 1 must be entered to gain access to this menu.
Multi-channel unit:
In SELECT COMPONENT, select the channel to be calibrated.
Press enter in this line to cancel any ongoing
calibration
Press
tion
Zero Calibration
Cancel!
Start!
Zero Gas
0.000 ppm
Concentration
0.000 ppm
Flow
0.00 l/min
Status..
Results..
Restore..

enter

in this line to start a zero calibra-

Nominal zero gas concentration (can be set
6-24)
in SETUP
Currently measured gas concentration, if a
flowsensor is installed.
Currently measured gas flow
Open a submenu to see calibration status
6-12
information
Open a submenu to see calibration results
6-14
information
Press enter in this line to restore calibration
data to the last known good data set.
A confirmation screen appears, before the
function is executed.
Multi-channel unit:
Press left to enter SELECT COMPONENT,
to calibrate another channel.

6-6

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6.2.2 Control Menu
6.2.2.2	 Span Calibration Menu
Control..
Span Calibration..
If the system is setup accordingly, the access
code for level 1 must be entered to gain access to this menu.
Multi-channel unit:
In SELECT COMPONENT, select the channel to be calibrated.

Span Calibration
Cancel!
Start!
Span Gas
0.000 ppm
Concentration
0.000 ppm
Flow
0.00 l/min
Status..
Results..
Restore..

Nominal span gas concentration (can be set
6-24)
in SETUP
Currently measured gas concentration.
Currently measured gas flow, if a flow sensor
is installed.
Open a submenu to see calibration status
6-12
information
Open a submenu to see calibration results
6-14
information
Press enter in this line to restore calibration
data to the last known good data set.
A confirmation screen appears, before the
function is executed.

Multi-channel unit:
Press left to enter SELECT COMPONENT,
to calibrate another channel.

Emerson Process Management GmbH & Co. OHG

6-7

6

Press enter in this line to start a span calibration

Software Menus

Press enter in this line to cancel any ongoing
calibration

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6.2.2 Control Menu
6.2.2.3	 Advanced Calibration Menu
Control..
Advanced calibration..

Start and control valve supported calibration
procedures
Note!
This menu is only available if “Valves” in INSTALLED OPTIONS is set to a value other
than none.
If the system is setup accordingly, the access
code for level 1 must be entered to gain access to this menu.
Press enter in this line to cancel any ongoing
calibration
Zero & span a single channel

Advanced Calibration 1of2
Cancel!
Zero&Span Single..
Zero All!
Span All!
Zero&Span All!
Programmed Sequence!
Blowback!


6-5

Highlight any of the next 3 lines and press
enter to start the related calibration procedure:
- zero all channels
- span all channels
- zero and span all channels
Press enter in this line to start a programmed
calibration sequence;
6-39 for information
on how to program a sequence.
Press enter in this line to start a blowback procedure for all channels
Note!
This menu is also available in single-channel
units.
In this case, the 3rd and 4th lines will start a
zero or span calibration, while the 5th line
starts the same procedure as the 2nd.

6-8

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6.2.2 Control Menu

 Advanced Calibration 2of2
Status..
Results..
Next Automatic Calibrations..

Open a submenu to see calibration status
6-11
summary for all channels
Open a submenu to see calibration results
6-13
summary for all channels

6

Software Menus

Open a submenu to view the scheduled dates
for next automatically performed calibrations
6-118 .

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6.2.2 Control Menu
6.2.2.3.1	

Zero & Span Single Menu
Control..
Advanced Calibration..
Zero&Span Single..
Start and control a valve supported calibration procedure for zero and span for a single
channel only.
Multi-channel unit:
In SELECT COMPONENT, select the channel to be calibrated.

Press enter in this line to cancel any ongoing
calibration
Press enter in this line to start a zero & span
calibration procedure
Zero&Span Single
Cancel!
Start!
Zero Gas
Span Gas
Blowback!
Concentration
Status..

0.000 ppm
500.000 ppm
0.000 ppm

Nominal zero gas concentration (can be set
6-24)
in SETUP
Nominal span gas concentration (can be set
6-24)
in the SETUP menu
Immediately start a blowback procedure
Currently measured gas concentration.
Open a submenu to see calibration status
summary for all channels
6-11

Multi-channel unit:
Press left to enter SELECT COMPONENT,
to select another channel.

6-10

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6.2.2 Control Menu
6.2.2.3.2	

Calibration Status Summary
Control..
Advanced Calibration..
Status..

Press enter in this line to cancel any ongoing
calibration

Indicates the currently ongoing procedure
(Purging, Zeroing, Spaning, Ready)
Shows the current procedure, or Off
Shows the remaining time for the current
procedure
Shows the time for the previous procedure
Information about the step currently carried
out

Emerson Process Management GmbH & Co. OHG

6-11

6

Calibration Status Summary
Cancel!
Calibration Status Single..
Current Action
Ready
Action Detail
Off
Current Duration
0s
Prev. Duration
0s
Current Step
0

Software Menus

Open a submenu to see detailed calibration
status information for a specific component
6-12.
(to be selected in a next step)

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6.2.2 Control Menu
6.2.2.3.3	

Calibration Status Single

Control..
...
...
Calibration Status Single..
This menu gives a channel specific status.
Note!
This menu can be opened from several higher-level menus, dependent on which it now
may be necessary to select a component:
Multi-channel unit:
In SELECT COMPONENT select the channel to be viewed.
Press enter in the first line to cancel any ongoing calibration
Indicates the currently ongoing procedure
(Purging, Zeroing, Spaning, Ready)
Calibration Status Single
Cancel!
CalibrStatus
Ready
Remaining Time
0s
Concentration
0.000 ppm
Zero Gas
0.000 ppm
Span Gas
5000.000 ppm
Current Range
Range 1
Applied Gas
Sample gas

Shows the remaining time for the current
procedure
Currently measured gas concentration.
Current channel´s calibration gases setup
Range under calibration.

Multi-channel unit:
Press left to enter SELECT COMPONENT,
to view the status for another channel.

6-12

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6.2.2 Control Menu
6.2.2.3.4	

Calibration Results
Control..
Advanced Calibration..
Results..

Result

OK

Any ZeroFail
Any SpanFail

No
No

Calibration Results Single..

Emerson Process Management GmbH & Co. OHG

Open a submenu to see detailed, channel
specific calibration results information
6-14

6-13

6

Calibration Results Summary

Software Menus

Open this menu, to see an overall calibration
results summary.

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6.2.2 Control Menu
6.2.2.4	 Calibration Results Single
Control..
...
...
Calibration Results Single...

This menu gives a channel specific summary
of results.
Note!
This menu can be opened from several higher-level menus, dependent on which it now
may be necessary to select a component:

Multi-channel unit:
In SELECT COMPONENT select the channel to be viewed.

Calibration Results Single
Zero Result
Zero Date
Span Result
Span Date
Calibr. Ranges

Success
---Success
---None

Deviations..

Open a submenu to view calibration results
deviations information
next page.

Multi-channel unit:
Press left to enter SELECT COMPONENT,
to view another channel´s results.

6-14

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6.2.2 Control Menu
Calibration Deviations

Example:
A measuring channel shows zero drift of
10  ppm per week. It is calibrated once a
week.
After the 3rd zero calibration, DEVIATIONS
shows:
ZeroDev:		
10 ppm (=last calibr.)
ZeroDev. total:	
30 ppm (=summary of 3
			
calibrations carried out
			
within 3 weeks)

This menu gives a channel specific summary
of deviations of calibration results.
Note!
This menu is a submenu of CALIBRATION
RESULTS SINGLE, which can be opened
from several higher-level menu.

In the context of this menu, deviation means
the value, a calibration corrected the zero or
respectively the span calibration value.

Software Menus

Control..
...
Calibration Results Single..
Deviations..

6

6.2.2.4.1	

ZeroDev. or SpanDev. in concentration units
give the correction of the last corresponding
calibration.

Deviations
ZeroDev.
ZeroDev. Total

0.000 ppm
0.000 ppm

SpanDev.
SpanDev. Total

0.000 ppm
0.000 Ppm

Emerson Process Management GmbH & Co. OHG

ZeroDev. total or SpanDev. total in concentration units give the total (sum of) corrections of
the corresponding calibrations since the last
time, deviations have been reset ( SETUP CALIBRATION - DEVIATIONS;
6-42)

6-15

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6.2.2 Control Menu
6.2.2.5	 Apply Gas Menu
Control..
Apply gas..
If the instrument is equipped with internal, or
connected to external valves, this menu enables to apply a specific gas to the analyzer,
e.g. for maintenance purposes.
If the system is setup accordingly, the access
code for level 1 must be entered to gain access to this menu.

Multi-channel unit:
In SELECT COMPONENT, select the channel for the gas to be applied.

Apply gas
Applied Gas:

SampleGas

Flow
Concentration

1.00 l/min
25.000 ppm

Select the gas to be applied.
Available options:
SampleGas
ZeroGas
SpanGas1
SpanGas2
SpanGas3
SpanGas4
Blowback
All Closed
Currently measured gas concentration.

Multi-channel unit:
Press left to enter SELECT COMPONENT, to
change the settings for another channel.

6-16

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6.2.2 Control Menu
6.2.2.6	 Acknowledgements Menu
Control..
Acknowledgements..

Acknowledgements

This submenu provides function lines to
acknowledge status messages and alarms,
separately (lines 1 to 5) or simultaneously
(last line).
To do so, highlight the relevant line and press
enter.

6

Failures!
Off-Specs!
Maintenance Requests!
Function Checks!
Alarms!
All States!

Software Menus

If the system is setup accordingly, the access
code for level 1 must be entered to gain access to this menu.

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6.2.2 Control Menu
6.2.2.7	 Ranges Menu
Control..
Ranges..
If the system is setup accordingly, the access
code for level 1 must be entered to gain access to this menu.
Multi-channel unit:
In SELECT COMPONENT, select the channel to be configured.

Ranges
Current Range
Range Start
Range End
Concentration

Range1
0.000 ppm
100000.000 ppm
25000.000 ppm

Select the measuring range to be used.
Available options:
Range1
Range2
Range3
Range4
Lines 2 & 3 show the corresponding range
limits.
Line 4 shows the currently measured value.
Note!
To change range limits
6-44

SETUP, page

Multi-channel unit:
Press left to enter SELECT COMPONENT,
to change the settings for another channel.

6-18

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6.2.2 Control Menu
6.2.2.8	 Data Logger
Control..
Data logger..
Enter this menu to export data logger data to
an external device for further processing.

Data Logger
Data Logger Data to USB!
Cached Entries
Total Entries

10
120

Number of entries currently in RAM, not yet
saved to the internal data logger (total entries)
file.
Note!
Data is written to the internal file every 30 min,
or the moment, "Logging" is turned Off (SETUP - DATA LOGGER;
6-105 )
Total number of entries in the internal data
logger file.

Emerson Process Management GmbH & Co. OHG

6-19

6

Export logged data (=total entries) to an USB
device.
Notes!
Make sure, there´s a memory device connected!
Before the data is exported, all "Cached entries" are copied to the "Total entries" file.

Software Menus

If the system is setup accordingly, the access
code for level 1 must be entered to gain access to this menu.

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6.2.2 Control Menu
6.2.2.9	 Event/Calibration Logger
Control..
Event/Calibration Logger..

Enter this menu to export event or calibration
logger data to an external device for further
processing.
Note!
This menu is available only, if an optional
software features license code has been
purchased and installed;
6-89

If the system is setup accordingly, the access
code for level 1 must be entered to gain access to this menu.
Export logged event data to an USB device.
Note!
Make sure, there´s a memory device connected!
Total number of entries of the internal event
logger file.

Event/Calibration Logger
Event Logger Data to USB!
Total Entries

1

Calib Logger Data to USB!
Total Entries

5

Export logged calibration data to an USB
device.
Note!
Make sure, there´s a memory device connected!
Total number of entries of the internal calibrationein logger file.

6-20

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6.2.3 Setup Menu
6.2.3	 Setup Menu
Setup..

Enter this menu to change basic analyzer
settings.
Setup display layout, language and more
6-22
Setup calibration parameters

6-62

Configure In- and Outputs

Setup communication parameters
Configure concentration alarms

6-77
6-80

Configure installed options, enter licence codes
for software options
6-88
Backup and restore analyzer configurations
6-92

Operation hours meter

6-97

System identification

6-100

Setup date/time
Setup 2of2
Operation Hours Meter..
Identification..
Time..
USB Interface..
Data Logger..
Event Logger..
PLC..
Calculator..

USB interface setup

6-103

Data logger setup

6-105

Event logger setup
PLC setup
Calculator setup

Emerson Process Management GmbH & Co. OHG

6-98

6-107

6-107
6-107

6-21

Software Menus

Display..
Calibration..
Measurement..
In-/Outputs..
Communication..
Alarms..
Installed Options..
Save-Load..

Setup channel specific parameters
6-43

6

Setup 1of2

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6.2.3 Setup Menu
6.2.3.1	 Display Setup Menu
Setup..
Display..

From within this menu you can setup how
measuring results show up, control menu
access, and more.

If the system is setup accordingly, the access
code for level 1 must be entered to gain access to this menu.
Adjust the display´s contrast

6-23

Selects the preferred language for the analyzer software. Available options may vary
according to the software version.
Currently available:
English, French, German, Italian,
Polish, Portuguese, Spanish
Display
Contrast..
Language:
English
Phrase Version
EN1.08
Measurements..
Measurement Display..
Menu Access..
10 Min
Auto Home:
10 Min

Phrases file version
Configure how measurement results are displayed
6-24
Setup the measurement display

6-29

Configure menu access authorizations
6-32
This parameter determines the time period
without user activity, before returning to the
measurement display from any submenu.
Available options:
Never, 1 min, 10 min

6-22

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6.2.3 Setup Menu
6.2.3.1.1	

Display Contrast Setup Menu
Setup..
Display..
Contrast

Press
(148).

Contrast

148

Increase / decrease contrast by a value of 3,
each time enter is pressed in either of these
lines.
Limits: 82 ... 208
Shows the currently used contrast value and
is updated each time, enter is pressed in one
of the above menu lines.

Notes!
If by mistake characters are not visible any
longer, reset the contrast to the default value.
The display´s contrast is temperature dependent. If need be, re-adjust.
The default value gives an acceptable result
for the analyzer´s permitted operating temperature range.

Emerson Process Management GmbH & Co. OHG

6-23

Software Menus

Default!
Increase!
Decrease!

to reset to the default value

6

Contrast

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6.2.3 Setup Menu
6.2.3.1.2	

Display Measurements Setup Menu
Setup..
Display..
Measurements..
Enter this menu to setup measurement tags,
units, precision and more for primary and
secondary measurements. This specifies how
the measured values are displayed.
If the system is setup accordingly, the access
code for level 2 must be entered to gain access to this menu.

Configure the parameters for
Measurements
Component..
Temperature..
Pressure..
Flow..

Gas measurement

6-25
6-27

Temperature measurement
Pressure measurement
Flow measurement

6-27
6-28

Note!
Temperature, pressure and flow are referred
to as 'secondary measurements'.

6-24

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6.2.3 Setup Menu
6.2.3.1.2.1	

Display Component Setup Menu
Setup..
Display..
Measurements..
Component..

Specify how the measured gas concentration
values are displayed.

Multi-channel unit:
In SELECT COMPONENT, select the channel to be configured.

Component
Unit..
Precision:
Gas Name:
Range Tag
Concentration

d.ddd
CO
Ch1-R1
10.000 ppm

Enter this line to specify the gas name for this
component. This name will show up on the
measurement display.
Maximum length: 12 characters
Shows the current range tag

Label

Input

Output
Flow 1

10.0000
10.0000

ppm
CO
ppm
CO

Unit text
Gas
name

The last line shows the current settings for
the selected channel, depending on the settings above, and is updated if settings are
changed.

0.00 l/min

Secondary
measurement
Fig. 6-2:	 Measurement Display Elements

Emerson Process Management GmbH & Co. OHG

Multi-channel unit:
Press left to enter SELECT COMPONENT,
to change the settings for another channel.

6-25

6

Configure the precision of the displayed measured value for this component.
Selectable options:
0. 0.1 0.12 0.123 0.1234
(means, the fraction part can be setup between none and four digits).

Software Menus

Configure the component´s measuring unit
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6.2.3 Setup Menu
6.2.3.1.2.1.1	

Component Unit Setup Menu
Setup..
Display..
Measurements..
Component..
Unit..

Within this menu, configure the component´s
unit to be used for measurement results.
Select the measuring unit for the component.
Available options: ppm, ppb, Vol%, Custom

Ch1
Component Unit
Unit:
ppm
Unit Text:
ppm
Span Gas Unit:
ppm
Span Unit Text:
ppm
Custom Factor:
1.000000
Custom Offset:
0.000000
Span Gas
50000.000 ppm
Concentration
0.000 ppm

Configuring individual text strings is
permitted only, if "Unit" or "Span gas unit"
is set to Custom.

1)

"Custom factor" and "Custom offset" are
visible and editable only, if "Unit" or "Span
gas unit" is set to Custom. For all other
options, conversion factors and offsets are
pre-defined.

2)

Note!
Texts for units, and values for factor and offset
are not checked for plausibility. Any arbitrary
value can be set..

6-26

Set the text for the measuring unit of the component, to be shown in the measuring screen:
each character must be set separately.1)
Select the measuring unit for the span gas.
Available options: ppm, ppb, Vol%, Custom
Note!
Zero gas unit and zero gas unit text are always as configured for the component (first
2 menu lines)!
Set the text for the measuring unit of the span
gas: each character must be set separately.1)
Gas concentrations are internally calculated
as ppm. To use other units, the corresponding
factor must always be specified, e.g. 0.0001
to calculate from ppm to %.2)
If necessary, enter an offset here, to be added
to the measured value.2)
The last 2 lines show how the settings affect
the display of measurements.

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6.2.3 Setup Menu
6.2.3.1.2.2	

Display Temperature Setup Menu
Setup..
Display..
Measurements..
Temperature..
Select the temperature unit to be used for all
measurements.
Available options: °C, °F, K

Temperature Unit
Unit:
Precision:

°C
1

DSP-T1

30.0 °C

Configure the precision of temperature displays
Accepted values: 0 ... 2

Note!
Conversion factors for the different units are
pre-defined.
6.2.3.1.2.3	

Display Pressure Setup Menu

6

Setup..
Display..
Measurements..
Pressure..
Select the pressure unit to be used for all
measurements.
Available options: hPa, mbar, bar, psig, Pa

Pressure Unit
Unit:
Precision:
DSP-P1

Software Menus

Example for the current settings.

hPa
0
1013 hPa

Configure the precision of pressure displays
Accepted values: 0 ... 2
Example for the current settings.
Note!
Conversion factors for the different units are
pre-defined.

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6.2.3 Setup Menu
6.2.3.1.2.4	

Display Flow Setup Menu
Setup..
Display..
Measurements..
Flow..

Note!
This menu is available only if at least one flow
sensor is installed (
6-88 ).

Flow Unit
Unit:
Precision:
DSP-F1

l/min
2
1.00 l/min

Select the flow unit to be used for all measurements.
Available options:
l/min, l/h, ml/min, gal/min
Note!
1 gal = 1 US.liq.gal. = 3.7853 l
Configure the precision of flow displays
Accepted values: 0 ... 2
Example for the current settings.
Note!
Conversion factors for the different units are
pre-defined.

6-28

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6.2.3 Setup Menu
6.2.3.1.3	

Measurement Display Setup Menu
Setup..
Display..
Measurement Display..

Enter this menu to configure the measurement
display.

Line 1:
Line 2:
Line 3:
Line 4:
Line 5:

Comp1
Comp2

Display
2 Assignments
Comp3
Comp4
Line 1:
Comp1
Blank
Line 2:
Comp2
Line 3:
Comp3
Line 4:
Comp4
Line 5:
Blank

Labels..

Labels..

Note!
Primary measurements are gas measurements. Secondary measurements are pressure, flow, temperature; these are always
displayed with the smaller font.

Display 1 Assignments
Line 1:
Line 2:
Line 3:
Line 4:
Line 5:

Comp1
Comp2
Comp3
Comp4
Flow1

Labels..

On either setup menu page, highlight the line
to be configured, press enter and then select
the parameter to be displayed in the related
line by means of up / down.
Available options:
Comp1 ... Comp5
Temp1 ... Temp5
Flow1 ... Flow5
Press1 ... Press5
CalcA ... CalcD
Blank
Configure the labels

Emerson Process Management GmbH & Co. OHG

6-30.

6-29

6

Display 1 Assignments

The MEASUREMENT DISPLAY may be
configured as a single or dual page version,
where the content of each page can be configured separately by a related page within
this setup menu.
The first setup menu page ('Display 1 ...') configures the first MEASUREMENT DISPLAY
page. You may specify up to 5 measurements
to be shown on the page. If only up to two primary and one secondary measurements are
configured, the display will use the 2 lines layout with bigger characters. Enter the second
menu page ('Display 2 assignments') to setup
a second MEASUREMENT DISPLAY page.

Software Menus

If the system is setup accordingly, the access
code for level 2 must be entered to gain access to this menu.

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6.2.3 Setup Menu
6.2.3.1.3.1	

Setup Measurement Display Labels

Setup..
Display..
Measurement Display..
Labels..

Display 1 Labels
Line 1:
Line 2:
Line 3:
Line 4:
Line 5:

Input
Output
Flow1

For each MEASUREMENT DISPLAY line you
may enter an individual text, called "label".
Specifications:
•	 free alphanumeric text
•	 maximum length: 8 characters.
Labels
•	 show up on the MEASUREMENT DISPLAY only,
•	 may be setup for primary and secondary
measurements, as they refer to the MEASUREMENT DISPLAY line, and not to the
parameter.
Within this menu, to configure a label, enter the
related menu line and enter the text.

Display 2 Labels
Line 1:
Line 2:
Line 3:
Line 4:
Line 5:

Press1
Press2
Flow2

Note!
There are separate DISPLAY LABELS menus
for each MEASUREMENT DISPLAY.

6-30

Differing from labels, tags are used to identify
a measurement (primary or secondary), and
for this reason
•	 are transmitted via network
•	 show up on menu head lines with channel
related data
•	 show up on the MEASUREMENT DISPLAY, too.
Due to their importance for measurement identification within a network, the menu to setup
tags can be found at
SETUP - IDENTIFICATION, page 6-9925.

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6.2.3 Setup Menu
Examples:
MEASUREMENT DISPLAY, if besides gas
names and units, only labels are setup:

0.000 ppm
CO
0.000 ppm
CO
0.000 ppm
CO
0.000 ppm
CO

Input

Labels

Output

Flow 1

MEASUREMENT DISPLAY, if also tags are
setup:

Gas name1)

Tags

Unit text1)

Input
Ch1
Output
Ch2
Ch3
Ch4
Flow 1

0.00 l/min

0.000 ppm
CO
0.000 ppm
CO
0.000 ppm
CO
0.000 ppm
CO

0.00 l/min

Identification of component specific menu
pages:
Ch1

Concentration

Off
Off
Off
Off
5.000 ppm

Identification of components in log files:

Tags

Fig. 6-3:	 Usage of Labels and Tags

Emerson Process Management GmbH & Co. OHG

Software Menus

LoLo alarm:
Lo alarm:
Hi alarm:
HiHi alarm:

	 To configure gas names and units:
	
SETUP - DISPLAY - MEASUREMENTS, page 6-25.
1)

Concentration

6

Tag

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6.2.3 Setup Menu
6.2.3.1.4	

Menu Access Setup
Setup..
Display..
Menu access..

If the system is setup accordingly, the access
code for level 3 must be entered to gain access to this menu.

Menu access
Restrict Level1:
Off
Code Level1:
00000001
Restrict Level2:
Off
Code Level2:
00000002
Restrict Level3:
Off
Code Level3:
00000003
Activate:
On Home

When using access codes, we
recommend NOT using the
factory-set codes.

Enter these lines to activate or de-activate
the access restrictions for the related menu
level.
Avaliable options: On, Off
Setup the access codes:
Up to 8 alphanumeric characters may be
entered for each code.
Determines how unlocked menus are relocked to restore security settings.
Available options:
On Home: all levels with active acess code
are locked on return to the MEASUREMENT DISPLAY
1 min: Levels are locked after 1 minute of
inactivity.
Never: Menus remain unlocked
Note!
Executing “Lock menus!” in CONTROL (
6-5), immediately sets all activated locks.

6-32

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6.2.3 Setup Menu
6.2.3.2	 Calibration Setup Menu
Setup..
Calibration..

Note!
Multi-channel unit:
Some of the following submenus require to
select the component to be configured:
In SELECT COMPONENT, select which
channel´s calibration to be configured.

Setup calibration tolerances;

Ch1

6

Submenu to specify the calibration gases for
the selected channel;
6-34.
6-35.

Calibration
Gases..
Tolerances..
Procedure..
Valve Assignment..
Program Sequence..
Interval Time..
Deviations..

Setup details for the channel´s calibration
procedure;
6-36.
Assign calibration valves;

6-37.

Program a detailled calibration sequence;
6-39.
Specify interval times for automatic calibra6-40.
tions;
See (and reset) calibrations deviations infor6-42.
mation

Emerson Process Management GmbH & Co. OHG

Software Menus

If the system is setup accordingly, the access
code for level 2 must be entered to gain access to this menu.

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6.2.3 Setup Menu
6.2.3.2.1	

Setup Calibration Gases
Setup..
Calibration..
Gases..
Enter this line to setup the zero gas concentration.

Ch1
Gases
Zero Gas:
Span Gas:
Range Gases..

0.000 ppm
50000.000 ppm

Current Range:

Range 1

Enter this line to setup the span gas concentration.
Submenu to specify different calibration gases
for several ranges (if instrument is setup to
below.
use different ranges);
Information about currently used range.
Note!
The calibration gases units are as setup for
6-26.
the currently selected channel;

6.2.3.2.1.1	

Setup Range Gases
Setup..
Calibration..
Gases..
Range Gases..

Ch1
Range Gases
Zero Gas1:
0.000 ppm
Zero Gas2:
0.000 ppm
Zero Gas3:
0.000 ppm
Zero Gas4:
0.000 ppm
Span Gas1:
500.000 ppm
Span Gas2:
5000.000 ppm
Span Gas3:
25000.000 ppm
Span Gas4:
50000.000 ppm

6-34

This menu enables to specify separate zero
and span calibration gas concentrations for
each range of the selected channel.

Note!
The calibration gases units are as setup for
the currently selected channel;
6-26.

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6.2.3 Setup Menu
6.2.3.2.2	

Setup Calibration Tolerances
Setup..
Calibration..
Tolerances..

Multi-channel unit:
In SELECT COMPONENT, select the channel to be configured.

Ch2
Tolerances
Off
20.0 %
20.0 %

If tolerance check is enabled (On), setup the
limits for zero and span gas individually.
Accepted values: 0 ... 100 %
(of the channel´s full range)

6

DeviatToler.:
Zero Limit:
Span Limit:

Software Menus

This parameter determines whether the tolerance check is active during calibration (On),
or not (Off).

Multi-channel unit:
Press left to enter SELECT COMPONENT,
to change the settings for another channel.

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6.2.3 Setup Menu
6.2.3.2.3	

Setup Calibration Procedure
Setup..
Calibration..
Procedure..
If the system is setup accordingly, the access
code for level 3 must be entered to gain access to this menu.
Multi-channel unit:
In SELECT COMPONENT, select the channel to be configured.
The time required to completely fill the gas line
with the related gas, when switching to zero
or span gas 1). Adjust according your system.
Accepted values:
0 ... [max. time, see next menu line]
The maximum time to complete a calibration
procedure, if calibrated with stability method.
If not already regular finished, a calibration
will be terminated after this time.
Accepted values: 0 ... 600 seconds

Ch2
Procedure
Purge Time:
Max. Time:
Zero Ranges:
Span Ranges
Zero Method:
Span Method:
Test Mode:

10 s
120 s
Together
Separately
Stability
Instant
No

Note!
Marked lines are available only if “Valves” in
INSTALLED OPTIONS is set to a value other
than none.

1)

6-36

see note on page 6-37

Specify how to calibrate multiple ranges of a
channel.
Available options: Together, separately
Specify the calibration methods for zero and
span calibrations.
Available options: Stability, Instant
Set to Yes, to simply check, if the calibration is
still valid: now the instrument performs calibration procedures, without correcting the calibration parameters (simulation of calibrations).
Multi-channel unit:
Press left to enter SELECT COMPONENT,
to change the settings for another channel.

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6.2.3 Setup Menu
6.2.3.2.4	

Setup Calibration Valves
Note!
This line is available only if “Valves” in INSTALLED OPTIONS is set to a value other
6-88 ).
than none. (

Setup..
Calibration..
Valve Assignment..

If the system is setup accordingly, the access
code for level 3 must be entered to gain access to this menu.

Valve Assignment 1of3
Sample Valve:
Purge Time:

V3
10 s

Zero Valve:
Purge Time:

V4
5s

Correct Assign

Yes

and
•	 specify the purge time for each valve (accepted values: 0 ... 10,000 s)
If there is no conflict in valve assignment, this
line shows Yes, otherwise check if, e.g. one
valve has been assigned different functions
for the same channel.
Note!
The purge time depends on the gas line
design and length, and is the time it takes
for the gas stream to completely fill the measuring cell, after the related valve has been
opened.
Take care, that measured concentrations are
faulty, because the cell is filled with improper
gas, if purge times are too short.

Emerson Process Management GmbH & Co. OHG

6-37

6

Ch1

For the selected channel:
•	 assign the valves to be used for the different functions, (available options: None,
V1 ... V20)

Software Menus

Multi-channel unit:
In SELECT COMPONENT, select the channel to be configured.

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6.2.3 Setup Menu

Ch1


Valve Assignment 2of3
Span1 Valve:
V1
Purge Time:
1s
Span2 Valve:
None
Purge Time:
0s
Span3 Valve:
None
Purge Time:
0s
Span4 Valve:
None
0s
Purge Time:

On the 2nd menu page, assign the span valves, and specify their purge times for the
different ranges of the selected channel.

Ch1



Valve Assignment 3of3

Blowback Valve:
Purge Time:

None
0s

The 3rd menu page enables to assign a blowback valve, and specify its purge time for the
selected channel.

Multi-channel unit:
Press left to enter SELECT COMPONENT,
to change the settings for another channel.

6-38

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6.2.3 Setup Menu
6.2.3.2.5	

Setup Calibration Program Sequence
Setup..
Calibration..
Program Sequence..

Note!
This line is available only if “Valves” in INSTALLED OPTIONS is set to a value other
than none (
6-88 ).
This menu with 8 pages allows to setup a sequences of up to 30 actions (steps), to carry
out individual calibration procedures.

 Program Sequence 4of8
Action13:
END-OF-PGRM
Node13:
All
Action14:
END-OF-PGRM
Node14:
All
Action15:
END-OF-PGRM
Node15:
All
Action16:
END-OF-PGRM
All
Node16:

...
 Program Sequence 8of8
Action29:
END-OF-PGRM
Node29:
All
Action30:
END-OF-PGRM
Node30:
All

Emerson Process Management GmbH & Co. OHG

Action name
Span1-Cal ...
Span4-Cal
ZSpan-Cal
Span-Cal
Zero-Cal
NoOp
Blowback
END-OF-PGRM

What happens
span calibrate range1
... range4
zero & span calibrate
span calibrate
zero calibrate
no action
start blowback
end of programmed
sequence

Available nodes are (depending on number of
channels installed within your analyzer):
Node name
All
Ch1 ... Ch5

Selected action is carried
out for
all installed channels
the selected channel only

Example:
The sequence in the first figure to the left
(page 1of8) starts with
- a zero calibration for all channels,
followed by
- a span calibration of range 1 of channel 1
- a span calibration of range 2 of channel 3.

6-39

Software Menus

...

Each step consists of an action and a related
node.
Available actions are:

6

Program Sequence 1of8
Action1:
Zero-Cal
Node1:
All
Action2:
Span1-Cal
Node2:
Ch1
Action3:
Span2-Cal
Node3:
Ch3
Action4:
END-OF-PGRM
All
Node4:

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6.2.3 Setup Menu
6.2.3.2.6	

Setup Calibration Interval Time
Setup..
Calibration..
Interval Times..

Note!
This line is available only if “Valves” in INSTALLED OPTIONS is set to a value other
than none (
6-88 ).

Interval Times

Select the procedure(s) you want to configure
to be carried out on a regular (interval time)
basis.

Zero All..
Zero&Span All..
Programmed Sequence..
Blowback All..

6.2.3.2.6.1	

Note!
All 4 lines in this menu link to submenus of
a similiar design, exemplified in the following
section.

Setup an Interval Time
Note!
For information about how to access menus
exemplified in this section,
above.
Depending on the procedure selected on the
previous menu page, the title shows 'Zero All',
'Zero&Span All', 'Programmed Sequence' or
'Blowback All'.
Enable or Disable interval times for the selected procedure

...
Enable:
Interval:
Start Time..

Disabled
24 h

Next:

--

Time

6/22/09 15:33

Specify the interval between two procedures.
Accepted values: 1 ... 10,000 h

Shows the time for the next start of procedure,
based on the current settings.
Current time.

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6.2.3 Setup Menu

'...' in the title is replaced by 'Zero All',
'Zero&Span All', 'Programmed Sequence'
or 'Blowback All', depending on the selected
procedure.

Month:
Day:
Hour:
Minute:
Set!
Next

1
1
10
0
6/23/09 10:00

Set start date and time: The next calibration
time is calculated, considering the entries in
above lines and the interval time given on the
previous page.
Note!
This procedure also updates the 4 lines above, to show the next calibration date as start
time.

6

Shows the time for the next start of procedure,
based on the current settings.

Software Menus

In lines 1 ... 4, specify date and time for the
next countdown to start.

Start ...

Emerson Process Management GmbH & Co. OHG

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6.2.3 Setup Menu
6.2.3.2.7	

Setup Calibration Deviations
Setup..
Calibration..
Deviations..
Multi-channel unit:
In SELECT COMPONENT select the channel to be setup.
In the context of this menu, deviation means
the value, the current zero or span calibration
value is corrected by subsequent calibrations.

Ch2
Deviations
ZeroDev
5.000 ppm
ZeroDev Total
7.000 ppm
Zero Deviation Reset!
SpanDev
100.000 ppm
SpanDev Total
230.000 ppm
Span Deviation Reset!

Example:
A measuring channel shows zero drift of
10  ppm per week. It is calibrated once a
week.
After 3 weeks, DEVIATIONS would show:
ZeroDev:		
10 ppm (= last calibr.)
ZeroDev Total:	
30 ppm (= summary of 3
			
calibrations, carried out
			
within 3 weeks)

"ZeroDev." or "SpanDev." in concentration
units give the correction by the last performed
calibration.
"ZeroDev. total" or "SpanDev. total" in concentration units give the total (sum of) corrections
of all the referred calibrations since the last
time, deviations have been reset.

Reset all zero or span deviations.
Note!
These functions are carried out immediately,
and there´s no undo!

Multi-channel unit:
Press left to enter SELECT COMPONENT, to
change the settings for a different channel.

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6.2.3 Setup Menu
6.2.3.3	 Setup Measurement
Setup..
Measurement..
If the system is setup accordingly, the access
code for level 2 must be entered to gain access to this menu.
Multi-channel unit:
In SELECT COMPONENT, select the channel to be configured.
Submenu to configure up to 4 ranges per
channel;
6-44.
Measurement 1of2
Ranges..
Damping..
Linearization..
Cross Interference..
Average..
Delay..


Setup t90 times;

6-47.

Setup and activate linearization;

6-56.

Setup and activate cross interference compensation;
6-xx.
Setup and activate averaging;
6-60.

6

Setup delay time;

6-59.

Software Menus

Ch1

Ch1



Measurement 2of2

Cut-off:
None
Pressure Compensation ..

Cut-off mode: Output values are limited, in
case they exceed the configured range limits,
or are becoming negative.
Available options:
None: cut-off mode is disabled
RngLimits: values are limited to range limits
NonNegat.: negative values are output as '0'
Setup ambient pressure for compensation;
6-61

Note!
Cut-off always is disabled during calibrations!

Emerson Process Management GmbH & Co. OHG

Multi-channel unit:
Press left to enter SELECT COMPONENT, to
change the settings for another channel.

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6.2.3 Setup Menu
6.2.3.3.1	

Setup Measurement Ranges
Setup..
Measurement..
Ranges..

Enter this menu to configure up to 4 ranges
per channel.

Select the range to be configured.
Available options: Range1 ... Range4
For the current range, specify start and end
concentration limits.

Ch1
Ranges
Current Range:
Range Start:
Range End:
Starts & Ends..
Range Control:
Auto Ranging..

Range1
0.000 ppm
50000.000 ppm
Manual

Specify the limits for up to 4 ranges per channel in one single menu, making it easier to
6-45.
adjust several limits at a glance;
For the current range, specify how range
switching is done.
Available options:
Manual, Remote, Automatic
Note!
Selecting Remote or Automatic range control is not possible, if identical ranges end
values are specified (
6-45)!
Specify the switchover levels for up to 4
6-45.
ranges per channel;

6-44

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6.2.3 Setup Menu
6.2.3.3.1.1	

Measurement Ranges Starts & Ends
Setup..
Measurement..
Ranges..
Starts & Ends..

Ch1

Measurement Autoranging

6

6.2.3.3.1.2	

Select the range to be configured, and set
start and end concentrations.
Note!
For automatic or remote range control, all
ranges end values need to be different!
Software Menus

Starts & Ends
Range1 Start:
0.000 ppm
Range1 End:
500.000 ppm
Range2 Start:
0.000 ppm
Range2 End:
1000.000 ppm
Range3 Start:
0.000 ppm
Range3 End:
5000.000 ppm
Range4 Start:
0.000 ppm
Range4 End:
10000.000 ppm

Setup..
Measurement..
Ranges..
Autoranging..

For each range select separately, if autoranging is used (Yes) or not (No)

Ch1
Auto Ranging
Range1:
Range2:
Range3:
Hysteresis:
Switchover Levels..

Yes
Yes
Yes
10 %

Emerson Process Management GmbH & Co. OHG

Specify the hysteresis for autoranging.
Accepted range: 1 ... 50 %
Alternatively specify switchover limits for each
range separately;
6-46.

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6.2.3 Setup Menu
6.2.3.3.1.2.1	

Autoranging Switchover Levels

Setup..
Measurement..
Ranges..
Autoranging..
Switchover Levels..

Ch1
Switchover Levels
MinLevel1:
200.000 ppm
MaxLevel1:
500.000 ppm
MinLevel2:
400.000 ppm
MaxLevel2:
750.000 ppm
MinLevel3:
600.000 ppm
MaxLevel3:
2000.000 ppm
MinLevel4:
1800.000 ppm
MaxLevel4:
5000.000 ppm

Specify individual switchover levels, instead
of using one single hysteresis value for all
ranges.
Max. level gives the switchover limit for rising
concentrations: If this level is exceeded, the
analyzer activates the next higher range.
Min. level gives the switchover limit for decreasing concentrations: If this level is underrun, the analyzer activates the next lower
range.
Note!
As given in the figures to the left, specifying
the 'Min.level' of a level to be lower than the
'Max.level' of the level right below, defines a
switching hysteresis.

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6.2.3 Setup Menu
Setup Damping
Setup..
Measurement..
Damping..

This software menu enables to setup an additional electronic damping (t90 time), that is
added to the system damping. The reason
to do so, is to e.g. have a smoother output
signal.

Ch1
Damping
t90 Range1:
t90 Range2:
t90 Range3:
t90 Range4:
t90 Current
Current Range
t90 Time Max

2.0 s
2.0 s
2.0 s
2.0 s
2.0 s
Ch1-R1
76.9 s

Specify t90 times for each range of the selected
channel.
Gives the current t90 time, specified for the
currently selected range.
Shows the current measuring range.
Gives the maximum possible t90 time, which
is limited by the size of the internal sampling
buffer and the sampling rates of the installed
measuring principles/sensors.

Emerson Process Management GmbH & Co. OHG

6-47

Software Menus

Any measuring system applies a damping on
its output signal, compared to the change of
the 'real' measurand, due to delays caused
by
•	 electronic signal processing,
•	 sensors with finite response time,
•	 gas flow, and more.
This damping is called 'system damping'.

6

6.2.3.3.2	

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6.2.3 Setup Menu
6.2.3.3.3	

Setup Linearization
Setup..
Measurement..
Linearization..

If the system is set up accordingly, the access
code for level 3 must be entered to gain access to this menu.

Switch On or Off the linearizer.
Specify the linearization methode to be
used.
Available options: Splines, Polynom.
Ch1
Linearization
Linearizer:
Off
LinearMethod:
Splines
Calculate!
Setpoints (X)..
Actuals (Y)..
Linearizer Min
20.000 ppm
Linearizer Max
110.000 ppm
Normal
Status

Select this line to let the analyzer calculate
the new linearization curve.
First enter SETPOINTS (X) to enter the new
setpoint values (
6-50 ).
When done, enter ACTUALS (Y) to enter the
corresponding actuals (
6-51 ).
The linearization status.
Possible values: Normal, Underflow, Overflow, Undefined

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6.2.3 Setup Menu

Specify the linearization methode to be used.
Available options: Splines, Polynom.

Linearization
LinearMethod:
Splines
LinearizerRange1:
Off
LinearizerRange2:
Off
LinearizerRange3:
Off
LinearizerRange4:
Off
Coefficients..
Current range:
Range1
0.000 ppm
Concentration

Separately switch On or Off the Linearization
for each range of the selected channel.
Submenu to enter coefficients (

).

Select the currently to be used range.

Ch1



Linearization

Linearizer Min
Linearizer Max
Status

20.000 ppm
110.000 ppm
Normal

Emerson Process Management GmbH & Co. OHG

Software Menus

Currently measured gas concentration

Measuring range, covered by the linearization
settings.
Linearization status.
Possible values: Normal, Underflow, Overflow, Undefined

6-49

6

Ch1

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6.2.3 Setup Menu
6.2.3.3.3.1	

Setup Linearization Setpoints (X)
Setup..
Measurement..
Linearization..
Setpoints (X)..

Ch1
Setpoints (X) 1of4
Lin X1:
0.000 ppm
Lin X2:
0.000 ppm
Lin X3:
0.000 ppm
Lin X4:
0.000 ppm
Lin X5:
0.000 ppm
Lin X6:
0.000 ppm
Lin X7:
0.000 ppm
0.000 ppm
Lin X8:

To modify a linearization curve, within this
menu enter up to 32 setpoint values (x values)
for the new parameter sets.
When done, return to the previous menu,
enter ACTUALS (Y) and enter the corresponding (y) values.

Ch1


Setpoints (X) 2of4
Lin X9:
0.000 ppm
Lin X10
0.000 ppm
Ch1
Lin X11:
0.000 ppm
Lin X12:
ppm

Setpoints0.000
(X) 3of4
Lin X13:
0.000 ppm
Lin X17:
0.000 ppm
Lin X14:
0.000 ppm
Lin X18:
0.000 ppm
Lin X15:
0.000 ppm
Ch1
Lin X19:
0.000 ppm
0.000 ppm ppm
Lin X16:
Lin X20:

Setpoints0.000
(X) 4of4
Lin X21:
0.000 ppm
Lin X25:
0.000 ppm
Lin X22:
0.000 ppm
Lin X26:
0.000 ppm
Lin X23:
0.000 ppm
Lin X27:
0.000 ppm
0.000 ppm
Lin X24:
Lin X28:
0.000 ppm
Lin X29:
0.000 ppm
Lin X30:
0.000 ppm
Lin X31:
0.000 ppm
Lin X32:
0.000 ppm

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6.2.3 Setup Menu
6.2.3.3.3.2	

Setup Linearization Actuals (Y)
Setup..
Measurement..
Linearization..
Actuals (Y)..

Ch1
Actuals (Y) 1of4
0.000 ppm
0.000 ppm
0.000 ppm
0.000 ppm
0.000 ppm
0.000 ppm
0.000 ppm
0.000 ppm

To modify a linearization curve, after having
entered the setpoint values (x values) for the
new parameter sets, within this menu enter
the new actuals (y) values.
4 menu pages enable to enter up to 32 values.
Note!
Take care to enter the same number of actuals
as setpoints!

Ch1

Emerson Process Management GmbH & Co. OHG

6


Actuals (Y) 2of4
Lin Y9:
0.000 ppm
Lin Y10
0.000 ppm
Ch1
Lin Y11:
0.000 ppm
Lin Y12:
0.000

Actuals (Y)
3of4ppm
Lin Y13:
0.000 ppm
Lin Y17:
0.000 ppm
Lin Y14:
0.000 ppm
Lin Y18:
0.000 ppm
Lin Y15:
0.000 ppm
Ch1
Lin Y19:
0.000 ppm
0.000 ppm
Lin Y16:
Lin Y20:
0.000

Actuals (Y)
4of4ppm
Lin Y21:
0.000 ppm
Lin Y25:
0.000 ppm
Lin Y22:
0.000 ppm
Lin Y26:
0.000 ppm
Lin Y23:
0.000 ppm
Lin Y27:
0.000 ppm
0.000 ppm
Lin Y24:
Lin Y28:
0.000 ppm
Lin Y29:
0.000 ppm
Lin Y30:
0.000 ppm
Lin Y31:
0.000 ppm
Lin Y32:
0.000 ppm

Software Menus

Lin Y1:
Lin Y2:
Lin Y3:
Lin Y4:
Lin Y5:
Lin Y6:
Lin Y7:
Lin Y8:

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6.2.3 Setup Menu
6.2.3.3.3.3	

Polynomials Coefficients
Setup..
Measurement..
Linearization..
Coefficients..

Assign polynomials to each range of the
current channel. Multiple assignments are
supported.
Range1 Uses:
Range2 Uses:
Range3 Uses:
Range4 Uses:
Coeffs Poly1..
Coeffs Poly2..
Coeffs Poly3..
Coeffs Poly4..
Calculation..

6-52

Poly1
Poly3
Poly3
Poly4

Submenus to enter polynomials coefficients;
.
Submenu to calculate the polynomials;

.

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6.2.3 Setup Menu
6.2.3.3.3.3.1	

Enter Polynomials Coefficients

10.0 %
5.0 %

100000 ppm
No coeffs

Enter the coefficients here for a 4th order
polynomial:
a4 x4 + a3 x3 + a2 x2 + a1 x + a0

6

Software Menus

Overflow:
Underflow:
a0:
a1:
a2:
a3:
a4:
RefValue
State Poly1

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6.2.3 Setup Menu
6.2.3.3.3.3.2	

Calculate Polynomials

Ch1
LinearSetpoints..
CalcPolySet:
Calculate!
Cancel!
State Poly1
State Poly2
State Poly3
State Poly4
Merit

Submenu for linearization setpoints (
6-55 )
All poly
No coeffs
No coeffs
No coeffs
No coeffs
0

Ch1



Approximation setup

MaxItera:
Cut-off:

6-54

100
0.001

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6.2.3 Setup Menu
6.2.3.3.3.3.2.1	 Linearization Setpoints

Ch1

Linearization setpoints

6-50 ).
6-51 ).

10000 ppm
10000 ppm
10000 ppm
10000 ppm

6

Software Menus

Setpoints (X)..
Actuals (Y)..
RefPoly1:
RefPoly2:
RefPoly3:
RefPoly4:
Clear all points!

Submenu to enter setpoints (
Submenu to enter actuals (

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6.2.3 Setup Menu
6.2.3.3.4	

Setup Cross Interference
Setup..
Measurement..
Cross Interference..
This menu enables to configure up to 4 sources (internal or external) for cross interference
compensation.

Ch1
Cross Interference
Activated:
IF Source1..
IF Source2..
IF Source3..
IF Source4..

6-56

Off

Enable (On) or disable (Off) cross interference
compensation for the selected channel.
Up to 4 sources of concentration values can
be configured for compensation. These sub6-57.
menus are exemplified on

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6.2.3 Setup Menu
Setup Cross Interference Sourcen
Setup..
Measurement..
Cross Interference..
IF Source1 ... 4

Select the source of measuring values to be
used for cross compensating the selected
channel.
Available options:
None: source is disabled for cross compensation
Conc1 ... Conc5: Measurement values of
internal channels 1 ... 5
AIN1, AIN2: Analog input 1 or 2
Calc A ... Calc D: Result of Calc A to Calc D

Ch1

IF Source1
Source:
Value
Status
Interference Factor:

None
0
Good
1

Apply IF Factor!
Linearization Curve..

Shows the interfering components value,
currently applied.
Shows the interfering components status.
Available options: Absent, Good.
Specify the influence of the selected source on
the selected channel to be compensated.
Accepted range: -1x109 ... +1x109
Apply the configured settings.
If the source signal is not linear, enter this
submenu .to configure a fourth-order polynomial,
6-578.

Emerson Process Management GmbH & Co. OHG

6-57

Software Menus

Within this menu, configure the source and
effect of interference of the component, interfering the currently selected channel.

6

6.2.3.3.4.1	

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6.2.3 Setup Menu
6.2.3.3.4.1.1	

Setup Cross Interference Linearization Curve

Setup..
Measurement..
Cross Interference..
IF Source1 ... 4
Linearization Curve..

Note!
The menu figure to the left shows the default
setup for the polynomials, which relates to a
straight line.
So, if your IF source signal is linear, no further actions or changes in this menu are
required.
Reference value to normalize the linearization
curve.
Accepted range: -1E+9 ... +1E+9

Ch1

IF Source1

6-58

Reference Value:

1

IF Polynomial a1:
IF Polynomial a2:
IF Polynomial a3:
IF Polynomial a4:

1.00000000
0.00000000
0.00000000
0.00000000

Enter up to 4 polynomial factors to linearize
the interfering component´s input signal with
a fourth-order polynomial of the form
a4 x4 + a3 x3 + a2 x2 + a1 x

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6.2.3 Setup Menu
6.2.3.3.5	

Setup Measurement Average
Setup..
Measurement..
Average..
Some applications, like e.g. CEMS, require
to calculate and monitor concentration averages. Enter this menu to setup averaging.

Average
2 min
32 s
0.000 ppm

Elapsed time for the next average.
Last average result.

6

Averaging Time:
Next Average in
Last Average

Software Menus

In this line specify the averaging time.
Accepted values: 0 ... 120 min

Ch1

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6.2.3 Setup Menu
6.2.3.3.6	

Setup Measurement Delay
Setup..
Measurement..
Delay..
This menu option enables to delay a measurement output (on all display, analog outputs,
network, etc.).
Use this option to compensate signal delays
within multichannel instruments, if you need
very synchronous results.
Reasons for unsynchronous behaviour may
be e.g. serial tubing of multiple channels,
where the first channel already gives a valid
reading, while the last one is still waiting for
the gas.

Ch1
Delay
Delay Time::
Delay Time Max

6-60

2.0 s
98.0 s

Setup the output delay time.
Accepted range: 0.0 s ... "Max. Delay time"
The acceptable maximum delay time is internally calculated, depending on the installed
measuring options, and cannot be changed.

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6.2.3 Setup Menu
6.2.3.3.7	

Setup Pressure Compensation

Setup..
Measurement..
Pressure Compensation..

Manually enter the current ambient pressure
for pressure compensation.
Note!
If a pressure sensor is installed, this line is
hidden!

Ch1
Manual Pressure:

1013 hPa

Pressure
Pressure Status

1013 hPa
Good

6

These lines show the pressure, currently
used for pressure compensation and the
status.

Software Menus

Pressure compensation

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6.2.3 Setup Menu
6.2.3.4	 Setup In-/Outputs
Setup..
In-/Outputs..

If the system is setup accordingly, the access
code for level 2 must be entered to gain access to this menu.

Enter the submenu for the in- or outputs you
want to configure:
In-/Outputs
Analog Outputs..
Digital Outputs..
Digital Inputs..
Internal SHS..
Analog Inputs..

Analog outputs:
Digital outputs:
Digital inputs:

6-68
6-71

Internal sample handling system:
Analog inputs:

6-62

6-63

6-73

6-74

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6.2.3 Setup Menu
6.2.3.4.1	

Setup Analog Outputs
Setup..
In-/Outputs..
Analog Outputs..
Configure your analyzer´s analog outputs.

Analog Outputs
Output1..
Output2..
Output3..
Output4..
Output5..

Emerson Process Management GmbH & Co. OHG

Note!
All submenus for the analog outputs settings
are of an identical design.

6-63

6

Enter the submenu for the output you want
to configure.

Software Menus

If the system is setup accordingly, the access
code for level 3 must be entered to gain access to this menu.

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6.2.3 Setup Menu
6.2.3.4.1.1	

Setup Analog Outputn
Setup..
In-/Outputs..
Analog outputs..
Output1...5..

Signal:
OutRange:
Low Scale:
Max Scale:
AutoScale:
FailMode:
0/4 mA:
20 mA:
Hold:

Comp1
0-20 mA
0.00
100.00
Yes
Live
0.00
100.00
No

"Signal” specifies the value associated with
the selected output. The following options
(partly dependent on the number of measuring channels and sensors installed) are
available:

Signal*)
None

Description
The analog output is deactivated
A 0 or 4 mA signal is generated, e.g. to check the signal processing in an
external system. Whether a 0 or 4 mA signal is generated, is set by the "Out
0 mA
range” line (
next page).
A 20 mA signal is generated, e.g. to check the signal processing in an exter20 mA
nal system.
Comp1 ... 5 Gas concentration
Temp1 ... 5
Temperature
Press1 ... 5 Pressure
Flow1 ... 5
Flow
Calc A ... D
Result of calculator
RawVal1 ... 5 Raw value
RangeID1 ... 5 ID of selected range
*) Numbers 1 to 5 refer to components [channels] 1 to 5: In case of secondary parameters,
this means, the selected value is that of the
sensor assigned to the given component
(Press2 is the pressure value of the sensor
assigned to component 2).

6-64

In contrast, capital letters A to D imply that
these calculator results are component
[channel] independent (Calc C is the result
of calculator C).

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6.2.3 Setup Menu

Enter a concentration, to equal the low output
limit (0 or 4 mA)
Enter a concentration, to equal the high output
limit (20 mA)
Enable (Yes) or disable (No) output autoscaling.

Note!
Factory settings are OutRange: 4-20 mA and
FailMode: LOW - 10%, if not changed at time
of order.

Emerson Process Management GmbH & Co. OHG

"Fail mode" selects the output´s behaviour under failure conditions, considering or not, the
NAMUR recommendation NE 43. NE 43 defines
output signals enabling to detect different types
of failures/status (see table 6-1): The related
information is transmitted as a current signal,
but outside the (0)4-20 mA measurement signal
range.
Available options:
Track: NE 43 not considered.
HIGH + 10%: NE 43 failure signal level:
"above".
LOW - 10%: NE 43 failure signal level:
"below".

6-65

Software Menus

Comp1
0-20 mA
0.00
100.00
Yes
Live
0.00
100.00
No

6

Signal:
OutRange:
Low Scale:
Max Scale:
AutoScale:
FailMode:
0/4 mA:
20 mA:
Hold:

"Out(put) range":
•	 0-20 mA (dead zero) generates a 20 mA
signal, if a concentration is measured at
the upper limit of the signal range. A 0 mA
signal is generated if the sample gas concentration equals the value specified with
"LowScale" .
•	 4-20 mA (life zero): A 4 mA signal is generated if the concentration equals the value
specified with "LowScale", thus enabling to
detect e.g. a broken cable.

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6.2.3 Setup Menu
6.2.3.4.1.1.1	

Operation Modes Acc. NAMUR NE 43

If "OutRange" is set to 0-20 mA, a 20 mA signal
is generated, if the measured concentration
is equal to "Max Scale". A 0 mA signal is generated if the sample gas concentration is 0
(dead zero).
However, a severed cable also results in a
signal value of 0. An external data acquisition
system thus cannot detect such an failure and
accepts a gas concentration of 0.
The commonly used method of detecting a
severed cable is to apply an offset: a concentration corresponding to the lower range value
is assigned an analog signal of 4 mA, enabling
to detect a severed or disconnected cable.
This live zero mode is activated by setting “Out
Range” to 4-20 mA.
Operation Modes Conforming to NAMUR 43
(NE 43) Recommendations
The operation modes described above do not
generate a signal which enables detection of a
failure in the measurement system. In such cases the behaviour of the output signal is undefined: either the last value is held, or a random

value is sent. System failures thus cannot be
detected by an external data acquisition system.
NE 43 contains recommendations for setting
analog outputs in order to avoid these situations. These are implemented by X-STREAM
analyzers as follows:
Setting "FailMode" to HIGH + 10% or LOW 10% defines specific analog output signals in
case of a failure. Since these values do not
occur under normal operation conditions, a data
acquisition system is enabled to distinguish
between the following situations (table 6-1):
•	 Valid signal (signal within valid range; column C)
•	 Signal out of range (signal rises or falls
slowly to the limits given in columns D or E
and holds this value until the concentration
returns to a valid level).
•	 Failure (signal out of range; column F)
•	 Severed cable (no signal; column G)

Output signal, if
Column

A

B

C

D

E

F

G

"OutRange"

"FailMode"

Failure
signal level
acc. NE 43

Measured
value is
valid

Measured value is
below lower limit
("Low scale")

Measured value is
above upper limit
("High scale")

An internal
failure
occured

Cable is
severed

0-20 mA

Track

-

0 ... 20 mA

< -19 mA

> 21 mA

undefined

0 mA

4-20 mA

Track

-

4 ... 20 mA

< -19 mA

> 21 mA

undefined

0 mA

0-20 mA

LOW - 10%

below

0 ... 20 mA

-0.2 mA

20.5 mA

-2 mA

0 mA

4-20 mA

LOW - 10%

below

4 ... 20 mA

3.8 mA

20.5 mA

2.4 mA

0 mA

0-20 mA

HIGH + 10%

above

0 ... 20 mA

-0.2 mA

20.5 mA

> 22 mA

0 mA

4-20 mA

HIGH + 10%

above

4 ... 20 mA

3.8 mA

20.5 mA

> 21.6 mA

0 mA

Tab. 6-1: Analog Output Failure Modes

6-66

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6.2.3 Setup Menu

"0/4 mA" enables to finetune the analog output: Set "Signal" to 0 mA and, while measuring the output current, in this line adjust it to
the expected value.
Accepted range: -10,000 ... +10,000

Emerson Process Management GmbH & Co. OHG

"20 mA" enables to finetune the analog output: Set "Signal" to 20 mA and while measuring the output current, in this line adjust it to
the expected value.
Accepted range: -10,000 ... +10,000
"Hold" selects the output´s behaviour during
calibrations.
If set to Yes,
•	 the analog output is fixed to the last measured value;
•	 concentration alarms, which may otherwise
be triggered by the concentrations of the
calibration gases, are supressed.
If set to No,
•	 the analog output signal always corresponds to the actual measured value during
calibration; this may trigger alarms if limits
are exceeded.
Note!
This behaviour may be undesireable if e.g.
the unit is connected to a data acquisition
system.

6-67

Software Menus

Comp1
4-20 mA
0.00
100.00
Yes
LOW - 10%
0.00
100.00
No

6

Signal:
OutRange:
Low Scale:
Max Scale:
AutoScale:
FailMode:
0/4 mA:
20 mA:
Hold:

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6.2.3 Setup Menu
6.2.3.4.2	

Setup Digital Outputs
Setup..
In-/Outputs..
Digital Outputs..

This first menu page enables to configure
digital outputs 1 ... 4, which are the basic
outputs, available with every X-STREAM XE
analyzer ('X1' in the menu title refers to the
instrument´s I/O connector X1).
Digital Outputs (X1)
Output1 Node:
System
Output1 Signal:
Off
Output2 Node:
Ch1
Output2 Signal:
Off
Output3 Node:
Ch2
Output3 Signal:
Off
Output4 Node:
Ch3
Output4 Signal:
Off

For each output 1 .. 4 specify within the
"Node" line the signal source.
Available options: System, Ch1 ... Ch5
(depending on the number of channels installed).
If any one of Ch1 ... Ch5 is selected, only
signals, valid for the selected channel are
considered.
If System is selected, analyzer specific signals are selectable.

Once the "Node" is specified, for each output
1 .. 4 select within the "Signal" line, what to
output. Depending on the node, the list of
available signals varies;
next page.

6-68

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6.2.3 Setup Menu

Off
On
Heartbeat
Any Failure
Any Off-Spec
Any MaintRequ
Any FctCheck
Any calibrating
Any zeroing
Any spanning
Any zero failed
Any span failed
Any range low
Any range high
Any conc alm
Any average alm
Any temper alm
Any press alm
Any flow alm
V1 ... V20
Pump1 ... 2
Ext Alarm1 ... 8
PLC result1 ... 10
CalcA rslt LoLo
CalcA rslt Lo
CalcA rslt Hi
CalcA rslt HiHi
CalcB rslt LoLo
....
CalcD rslt HiH

Description
Switched off
Switched on
Status changes every
second (test mode)

Node: Ch1 ... Ch5
Option
Off
On
Heartbeat

Any failure, off-spec,
maintenance request or
function check status is
set

Failure
Off-Spec
MaintRequ

Any calibration, zero or
span calibration is ongoing

Calibrating
Zeroing
Spanning
Zero failed
Span failed
Range underflow
Range overflow

A zero or span calibration failed
Any measured value exceeds a current range
Any channel triggered
an alarm of the selected
type
Drive an external valve
Drive an external pump
An alarm is triggered
The result of calculatorA
exceeds the selected
limit
Similar to CalcA, but for
calculators B ... D

Emerson Process Management GmbH & Co. OHG

FctCheck

Range 1 ... 4
Conc LoLo
Conc Lo
Conc Hi
Conc HiHi
Average ..
..LoLo, ..Lo,
..Hi, ..HiHi
Temperature ..
..LoLo, ..Lo,
..Hi, ..HiH
Pressure ..
..LoLo, ..Lo,
..Hi, ..HiH
Flow ..
..LoLo, ..Lo,
..Hi, ..HiH

(related to channel)
Description
Switched off
Switched on
Status changes every
second (test mode)
A channel specific failure, off-spec, maintenance request or
function check status
is set
The channel is calibrating, zeroing or
spanning
The selected procedure failed
Measured value exceeds current range
The selected range is
active
A concentration alarm
of the selected type is
triggered
A concentration average alarm of the selected type is triggered
A temperature alarm
of the selected type is
triggered
A pressure alarm of
the selected type is
triggered
A flow alarm of the
selected type is triggered

6-69

Software Menus

Option

(related to analyzer)

6

Node: System

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6.2.3 Setup Menu

If your instrument features optional digital I/O
boards, similiar menu pages for the additional
digital outputs are unlocked. The options for
each output are as described before.:
 Digital Outputs (X4.1) 1of3
Output5 Node:
System
Output5 Signal:
Off
Output6
Node:
Digital OutputsSystem
(X4.1)
2of3
Output6
Signal:
OffSystem
Output8 Node:
Output8
Off
Output7
Node: Signal: System
Output7 Signal:
OffSystem
Output9
Node:

Digital
Outputs
(X4.1)
3of3
Output9
Signal: Node:
OffSystem
Output11
Output11
Off
Output10
Node: Signal: System
Output10 Signal:
OffSystem
Output12 Node:
Output12 Signal:
Off
Output13 Node:
Output13 Signal:

System
Off

 Digital Outputs (X4.2) 1of3
Output14 Node:
System
Output14 Signal:
Off
Output15
 Node:
Digital OutputsSystem
(X4.2)
2of3
Output15
Signal:
OffSystem
Output17 Node:
Output17
Off
Output16
Node: Signal: System
Output16 Signal:
OffSystem
Output18
Node:

Digital
Outputs
(X4.2)
3of3
Output18
Signal:Node:
OffSystem
Output20
Output20
Off
Output19
Node: Signal: System
Output19 Signal:
OffSystem
Output21 Node:
Output21 Signal:
Off
Output22 Node:
Output22 Signal:

6-70

Menu pages 4 ... 6 (titled 'Digital outputs
(X4.1)') enable to configure outputs 5 ... 13 on
the first expansion board ('X4.1' in the menu
title refers to the instrument´s I/O connector
X4.1).

Menu pages 7 ... 9 (titled 'Digital outputs
(X4.2)') enable to configure outputs 14 ...
22 on the second expansion board ('X4.2' in
the menu title refers to the instrument´s I/O
connector X4.2).

System
Off

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6.2.3 Setup Menu
6.2.3.4.3	

Setup Digital Inputs
Setup..
In-/Outputs..
Digital Inputs..

If your instrument features optional digital
I/O boards, this menu appears, enabling to
configure the digital inputs.

Input1 Node:
Input1 Function:
Input1 Edge:
Input2 Node:
Input2 Function:
Input2 Edge:

System
ExtFail
Up
Ch1
Range1
Down

System
Input3 Node:
Input3 Function:
ExtFail
Input3 Edge:
Up
Input4 Node:
System
Input4 
Function:
ExtFail
Digital inputs (X4.1)
3of3
Input4 Edge:
Up
Input5 Input6
Node: Node:
Ch1System
Input5 Input6
Function:
Range1ExtFail
Function:
Input5
Edge:Edge:
Down
Input6
Up
Input7 Node:
Up
Input7 Function:
Ch3
Range4
Input7 Edge:


Emerson Process Management GmbH & Co. OHG

Once the "Node" is specified, for each input
select the "Function" of that input (depending
on the node, the list of available signals varies;
next page) and select, how the input
is to be triggered: by rising "Edge" (Up), or
falling "Edge" (Down).

6-71

6

Digital Inputs (X4.1) 1of3

For each input 1...7 specify within the "Node"
line the signal source.
Available options: System, Ch1 ... Ch5
(depending on the number of channels installed).
If any one of Ch1 ... Ch5 is selected, only
signals, valid for the selected channel are
selectable.
If System is selected, any system signal is
selectable.

Software Menus

Menu pages 1...3 (titled "Digital inputs (X4.1)")
enable to configure inputs 1...7 on the first expansion board ('X4.1' in the menu title refers
to the instrument´s I/O connector X4.1).

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6.2.3 Setup Menu
Node: System
Inputn Function
Option
Description
None
Not used
ZeroCalAll
Carry out the selected
SpanCalAll
calibration procedure,
ZeroSpanCalAll or cancel any ongoing
calibration
CancelAll
ExtFail
The input is a NAMUR
ExtMaint
signal of the selected
ExtFctCtrl
type
ExtOffSpec



Inputn Function
Option
Description
None
Not used
ZeroCal
Carry out the selected
SpanCal
calibration procedure,
or cancel any ongoing
ZeroSpanCal
calibration
Cancel
Activate the selected
Range 1 ... 4
range

Digital Inputs (X4.2) 1of3

Input8 Node:
System
Input8 Function:
ExtFail
Input8 Edge:
Up
Input10 Node:
Input9 
Edge:
UpSystem
Input10
Function:
Input9 Node:
Ch3ExtFail
Edge:
Up
Input9 Input10
Function:
Range4
Input11 Node:
System

Input11Function:
ExtFail
Digital inputs (X4.2)
3of3
Input11 Edge:
Up
Input12Input13
Node: Node:
Ch1System
Input12Input13
Function:
Function: Range1ExtFail
Input12
Edge:Edge:
Down
Input13
Up
Input14 Node:
Up
Input14 Function:
Ch3
Input14 Edge:
Range4

6-72

Node: Ch1 ... Ch5

Menu pages 4 ... 6 (titled 'Digital inputs
(X4.2)') enable to configure outputs 8 ... 14
on a second expansion board ('X4.2' in the
menu title refers to the instrument´s I/O connector X4.2).

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6.2.3 Setup Menu
6.2.3.4.4	

Setup Internal SHS
Setup..
In-/Outputs..
Internal SHS..

If the system is setup accordingly, the access
code for level 3 must be entered to gain access to this menu.

Software Menus

Off
Off
Off
Off
Off
Off
Off
Off

6

Internal SHS (1of2)
Gas1 Signal:
Gas2 Signal:
Gas3 Signal:
Gas4 Signal:
Gas5 Signal:
Gas6 Signal:
Gas7 Signal:
Gas8 Signal:


Internal SHS (2of2)
Pump1 Signal:
Off
Pump2 Signal:
Off

Emerson Process Management GmbH & Co. OHG

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6.2.3 Setup Menu
6.2.3.4.5	

Setup Analog Inputs
Setup..
In-/Outputs..
Analog Inputs..

Enter this menu to configure the optional
analog inputs.
Note!
If your instrument does not feature analog
inputs, this menu is not available.
If the system is setup accordingly, the access
code for level 3 must be entered to gain access to this menu.

Analog Inputs
Analog Input1..
Analog Input2..

6-74

Select the analog input you want to configure
6-75).
(

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6.2.3 Setup Menu
6.2.3.4.5.1	

Setup Analog Input n
Setup..
In-/Outputs..
Analog Inputs..
Analog Input1 ... 2

Max. Good Value:
Min. Good Value:

800
1100

Adjust analog-digital conversion

1013
Good

Shows the calculated input value, based on
the conversion coefficients a0..a2, as specified in the submenu.

6-76

Adjust Conversion..
Calc. Input Value
Status

Input value status.
Possible entries:
Absent, Failure, Good, Simulated (e.g.
when in test mode)

Emerson Process Management GmbH & Co. OHG

6-75

6

Analog Input1

Software Menus

With this two lines specify the range for the
input value to be accepted as 'good'. The (not
shown) unit for these entries is the measurement unit of the external source, such as e.g.
pressure sensor: hPa, flow sensor: l/min, ...

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6.2.3 Setup Menu
6.2.3.4.5.1.1	

Adjust Conversion

Setup..
In-/Outputs..
Analog Inputs..
Analog Input1 ... 2
Adjust Conversion..
Select the type of signal, provided by the
external source.
Available options:
0..10V, 0..1V, 4..20mA: voltage or current
signal is applied
Off: Input is switched off
Test: the instrument internally generates a
step-like signal for testing purposes.
Adjust Conversion Input1
Mode:
4..20mA
ADC Output
8388608
Input Normalized to 0...1
Coeff a0:
1
Coeff a1:
2
Coeff a2:
3
Calc. Input Value
1013
Status
Good

Shows the internal ADC output (informative)
Enter the coefficients for your input signal
here, considering
- it is for a cubic equation max.
- it is normalized to 0...1 (see note in menu)
Shows the calculated input value, based on
the coefficients a0..a2, for comparison with
the real input value. If both do not match,
correct the coefficients.
Input signal status.
Possible values:
Absent, Failure, Good, Simulated (e.g.
when in test mode)

6-76

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6.2.3 Setup Menu
6.2.3.5	 Setup Communication
Setup..
Communication..
If the system is setup accordingly, the access
code for level 3 must be entered to gain access to this menu.

Setup the interface parameters to meet the
configuration of your host system.
Configure the serial interface (

Serial..
Web Server:
Ethernet1..
Ethernet2..

On

6-78)

Specify, if (On) or not (No) a web server connection is used.

6

Configure "Ethernet1" or "Ethernet2"�������
communication (
6-79)

Software Menus

Communication

Emerson Process Management GmbH & Co. OHG

6-77

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6.2.3 Setup Menu
6.2.3.5.1	

Setup Communication Serial
Setup..
Communication..
Serial..

Select the Modbus protocol.
Available options:
MODB-RTU, None

Serial
Protocol:
32Bit Mode:
Mbus ID:
Baud Rate:
Parity:

Modbus-RTU
16BitLow
1
19200
Even

Modbus mode of operation.
Available options:
32Bit (=Daniel mode),
16BitLow (=Modicon mode, LOW word first)
16BitHigh (=Modicon mode, HIGH word first)
Enter instrument ID for network.
Accepted values: 1 .. 254
Select baud rate for the serial interface.
Available options:
2400, 4800, 9600, 19200
Set whether a parity bit is used.
Available options:
None, Even, Odd

6-78

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6.2.3 Setup Menu
Setup Communication Ethernetn
Setup..
Communication..
Ethernet1...2

Ethernet1
MAC
123456789
IP:
123.456.78.9
Subnet:
255.255.255.1
Gateway:
123.456.78.0
Use DHCP:
Yes
IP Status
Ready
Apply Configuration!


Within these menus, configure the Ethernet
communication for connector 1 or 2.
Most entries are standard, to be setup to meet
your local network configuration.
Enter the second menu page to configure the
Modbus parameters.
If your network does not feature a DHCP
server, enter these lines to configure the
network settings manually.
If your network does not feature a DHCP
server, select No to enter the network settings manually.
If your network features a DHCP server, "IP
status" turns to Ready, if a valid IP address
has been assigned.



Ethernet1 Modbus

32Bit Mode:
Modb Timeout:

16BitLow
1000 ms

6

To apply any changes made on this first
menu page, press enter in this line.

Modbus mode of operation.
Available options:
32Bit (=Daniel mode),
16BitLow (=Modicon mode, LOW word first)
16BitHigh (=Modicon mode, HIGH word first)
Modbus timeout.
Accepted values: 500 ... 10,000 ms
Note!
At maximum 2 hosts at a time can connect
to the analyzer. "MBus timeout" specifies the
time interval to elapse, before a host without
activity is disconnected.

Emerson Process Management GmbH & Co. OHG

Software Menus

6.2.3.5.2	

6-79

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6.2.3 Setup Menu
6.2.3.6	 Setup Alarms
This menu and its submenus enable to configure a couple of alarm conditions.
In case an alarm goes off, a status is set and
the related pictogram shows in the display.
Also digital outputs may be configured to be
activated (
6-68 ).

Setup..
Alarms..

If the system is setup accordingly, the access
code for level 3 must be entered to gain access to this menu.
Select if the alarms outputs are failsafe (Yes)
or not (No): Failsafe means, relay output coils
are powered during normal operation.

Alarms
Alarms Output Failsafe:
Concentration..
Conc Average..
Temperature..
Pressure..
Flow..

Yes

Configure concentration alarms (

6-81 )

Configure alarms for concentration averages
(
6-83 )
Configure temperature alarms (
Configure pressure alarms (
Configure flow alarms (

Alarms 2
Calculator A..
Calculator B..
Calculator C..
Calculator D..

6-80

6-85 )
6-85 )

6-85 )

X-STREAM XE analyzers can be upgraded
with optional software packages, to provide
4 calculators (A ... D).
Their results can be monitored to activate
alarms (
6-86 ).

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6.2.3 Setup Menu
6.2.3.6.1	

Setup Alarms Concentrations
Setup..
Alarms..
Concentration..

Note!
To configure concentration alarm levels for
averaging measurements,
6-83!

Ch1
Concentration
Alarm Monitor:
LoLo Level:
Lo Level:
Hi Level:
HiHi Level:
Hysteresis:
States..

On
50.000 ppm
100.000 ppm
400.000 ppm
600.000 ppm
10.000 ppm

Specify up to 4 concentration (threshold)
levels:
"LoLo" and "Lo" levels are to be setup below
the expected concentration.
"HiHi"and "Hi" levels are to be setup above
the expected concentration.
See the figure to the left for details.
Specify the hysteresis to be considered
around the concentration levels, to avoid
oscillating alarms.
To view the current alarm states;

6-82

Multi-channel unit:
Press left to enter SELECT COMPONENT, to
change the settings for another channel.

Emerson Process Management GmbH & Co. OHG

6-81

6

Switch On or Off the alarm monitor for the
current channel.

Software Menus

Multi-channel unit:
In SELECT COMPONENT, select the channel to be setup.

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6.2.3 Setup Menu
6.2.3.6.1.1	

View Concentration Alarms States
Setup..
Alarms..
Concentration..
States..

Ch1
Concentration Alarms
LoLo Alarm:
Lo Alarm
Hi Alarm
HiHi Alarm
Concentration

6-82

Off
On
Off
Off

This menu gives an overview of activated
alarms, based on the currently measured
"Concentration".

75.000 ppm

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6.2.3 Setup Menu
6.2.3.6.2	

Setup Concentration Average Alarms
Setup..
Alarms..
Conc Average..

Note!
To configure concentration alarm levels for
non-averaging measurements,
6-81!
If concentration averaging (
6-59) is active, specify concentration alarms within this
menu. In this case, an alarm goes off only, if
an average value exceeds one of the given
levels.

Ch1
Concentration Average
Alarm Monitor:
LoLo Level:
Lo Level:
Hi Level:
HiHi Level:
Hysteresis:
States..

On
50.000 ppm
100.000 ppm
400.000 ppm
600.000 ppm
10.000 ppm

Specify up to 4 concentration (threshold)
levels:
"LoLo" and "Lo" levels are to be setup below
the expected concentration.
"HiHi"and "Hi" levels are to be setup above
the expected concentration.
See the figure to the left for details.
Specify the hysteresis to be considered
around the concentration levels, to avoid
oscillating alarms.
To view the current alarm states;

6-84

Multi-channel unit:
Press left to enter SELECT COMPONENT, to
change the settings for another channel.

Emerson Process Management GmbH & Co. OHG

6-83

6

Switch On or Off the alarm monitor for the
current channel.

Software Menus

Multi-channel unit:
In SELECT COMPONENT, select the channel to be setup.

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6.2.3 Setup Menu
6.2.3.6.2.1	

Setup Alarms Conc Average States
Setup..
Alarms..
Average..
States..

ConcAverage Alarms
LoLo Alarm
Lo Alarm
Hi Alarm
HiHi Alarm
Average

6-84

Off
Off
On
Off

This menu gives an overview of activated
alarms, based on the currently measured
"Average" of concentration.

468.000 ppm

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6.2.3 Setup Menu
Setup Temperature Alarms
Setup..
Alarms..
Temperature..

6.2.3.6.4	

Configuring temperature alarms is similiar to
the procedure for concentration alarms;
6-81 .

Setup Pressure Alarms
Configuring pressure alarms is similiar to the
6-81
procedure for concentration alarms;
.

6

Setup..
Alarms..
Pressure..

Software Menus

6.2.3.6.3	

6.2.3.6.5	

Setup Flow Alarms
Setup..
Alarms..
Flow..

Emerson Process Management GmbH & Co. OHG

Configuring flow alarms is similiar to the procedure for concentration alarms;
6-81 .

6-85

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6.2.3 Setup Menu
6.2.3.6.6	

Setup Alarms Calculatorn
Setup..
Alarms..
Calculator A..D

Any X-STREAM XE analyzer can be upgraded with optional software packages to
provide 4 calculators (A ... D). The results can
be monitored to activate alarms.
Note!
This menu is available only, if a valid software upgrade code has been purchased and
entered (
6-89 ).
For more information on calculators, see
the associated separate software features
manual.
Switch On or Off the alarm monitor for the
current calculator (here: exemplary Calculator
A).

Calculator A
Alarm Monitor:
LoLo Level:
Lo Level:
Hi Level:
HiHi Level:
Hysteresis:
States..

On
50.000
100.000
400.000
600.000
1000

Specify up to 4 threshold levels:
"LoLo" and "Lo" levels are to be setup below
the expected calculator result range.
"HiHi"and "Hi" levels are to be setup above
the calculator result range.
See the figure to the left for details.
Specify the hysteresis to be considered
around the threshold levels, to avoid oscillating alarms.
To view the current alarm states;

6-86

6-84

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6.2.3 Setup Menu
6.2.3.6.6.1	

Setup Alarms Calculator n States
Setup..
Alarms..
Calculator n..
States..

LoLo Alarm
Lo Alarm
Hi Alarm
HiHi Alarm

468.000 Unit A

Note!
The calculator result unit is shown as configured in SETUP - CALCULATOR.

6

Result A

Off
Off
Off
Off

This menu gives an overview of activated
alarms, based on the currently calculated
"Result n" (here of Calculator A).

Software Menus

Calculator A Alarms

Emerson Process Management GmbH & Co. OHG

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6.2.3 Setup Menu
6.2.3.7	 Setup Installed Options
Setup..
Installed Options..

Note!
Don´t change settings in this menu without
experienced knowledge! Wrong settings may
result in a defective instrument.
If the system is setup accordingly, the access
code for level 3 must be entered to gain access to this menu.
Some software features are optional and can
be unlocked with a license code. To do so,
6-89

Installed Options 1of2
Licenses..
Valves:
Pumps:
DIO#1 Installed:
DIO#2 Installed:
Anal. Outputs:
AIN Installed:

None
None
No
No
4
No

Lines 3 to 6 show if the related optional component is installed with the current instrument
(Yes) or not (None), respectively shows, how
they are installed ("Valves": Internal, External or Int+Ext), or which ("Pumps": Pump 1,
Pump 1&2).
Indicates how many analog outputs are installed (0 ... 9).
Indicates if analog inputs are installed, or
not.
Multi-channel unit:
In SELECT COMPONENT select the channel to be setup.



Installed Options 2of2

Flow..
Pressure..

Setup flow sensor installation,

6-90

Setup pressure sensor installation,
6-91
Multi-channel unit:
Press left to enter SELECT COMPONENT to
change the settings for a different channel.

6-88

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6.2.3 Setup Menu

Setup..
Installed Options..
Licenses..

Licenses
Key 1:
Key 2:
Key 3:
Package
Trial Days

88888
88888
88888
Trial
21

This menu is used to unlock software features, to be purchased separately.
By default, X-STREAM XE analyzers provide
a web browser interface and a basic data
logger. 3 optional software packages are
available, to upgrade the software:
Enhanced:	add PLC and calculator.
Advanced:	add advanced data logger,
event/calibration logger and email support.
Professional: add all enhanced and advanced packages options.
Note!
For more information on these options, see
the associated separate software features
manual.
Trial version
Enter 88888 into each line "Key 1" to "Key 3"
to unlock a 30 days full version (Professional) trial. This trial is available only once for
each analyzer, and only, if no other package
has been activated before ("Package" shows
None). Once entered, "Trial Days" shows the
remaining time, until the package is disabled.
To unlock one of above packages for unlimited
time, contact your EMERSON sales office.
Have the analyzer serial number at hand, to
purchase and receive an unlock code.
The code (3 5-digit numbers) has to be
entered into lines "Key 1" to "Key 3". If the
entered code is correct, "Package" shows the
related name (see above).
Upgrades from one to another package are
possible at any time, by purchasing and entering a valid unlock code.

Emerson Process Management GmbH & Co. OHG

6-89

Software Menus

Setup Installed Options Licenses

6

6.2.3.7.1	

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6.2.3 Setup Menu
6.2.3.7.2	

Setup Installed Options Flow
Setup..
Installed Options..
Flow..

Select the flow measurement data source for
the currently selected channel.
Available options:
XSP F1 ...XSP F4: internal sensors, connected to the board XSP
AIN1, AIN2: analog inputs

Ch1
Flow
Flow Source:
Flow
SensorMin.:
SensorMax.:
Flow Status

XSP F1
1.00 l/min
0.00 l/min
1.50 l/min
Good

Currently measured flow.
The sensor´s minimum and maximum limits.
The sensor´s status.
Possible entries: Good, Absent, Failure

6-90

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6.2.3 Setup Menu
6.2.3.7.3	

Setup Installed Options Pressure
Setup..
Installed Options..
Pressure..

Pressure
Pressure Source:
Pressure
SensorMin:
SensorMax
Pressure Status
Reference:
Manual Pressure:
Compensation:

AIN1
1013 hPa
800 hPa
1100 hPa
Good
1013 hPa
1014 hPa
Off

Currently measured pressure, or currently
entered manual pressure value.
The sensor´s minimum and maximum limits,
or the limits for manual pressure entries.
The sensor´s status.
Possible entries: Good, Absent, Failure

6

Ch1

Enter the reference pressure for pressure
compensaion here.
Manually enter the current ambient pressure
here.
Note!
If "Pressure source" is set to an option other
than Manual, this line is hidden.
Enable or disable pressure compensation for
the selected channel.
Available options: On, Off

Emerson Process Management GmbH & Co. OHG

Software Menus

Select the pressure measurement data source
for the currently selected channel.
Available options:
XSP P1, XSP P2: internal sensors, connected
to the board XSP
AIN1, AIN2: analog inputs
Manual: enter the current pressure manually

6-91

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6.2.3 Setup Menu
6.2.3.8	 Setup Save-Load
Setup..
Save-Load..

Enter this menu, if you want to save or restore
configuration files from/to your analyzer.

If the system is setup accordingly, the access
code for level 3 must be entered to gain access to this menu.

Enables to save/restore analyzer configuration data to/from a special internal memory
6-94
area;
Save-Load
Local Backup..
Factory Defaults..
USB Backup..
USB Firmware Update..

Restore the factory configuration;

6-94

Save/restore analyzer configuration data to/
from external USB devices;
6-95
Update the analyzer firmware with a new
version, available on the connected USB
device;
6-

6-92

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6.2.3 Setup Menu
Notes on Save-Load Procedures

Save new local backup
and overwrite old one!
Are you sure?

After selecting any 'backup' procedure, a
safety prompt appears: select "Yes!" to start
the backup; "No!" cancels.
Note!
There is no undo for this procedure, overwriting any older backup!

Restore from local backup!
This will restart device!
Are you sure?

After selecting any 'restore' procedure, a
safety prompt appears: select "Yes!" to start
the backup; "No!" cancels.

No!
Yes!

6

No!
Yes!

Software Menus

6.2.3.8.1	

Copying data
Busy
Progress (0..1000)

0
1000

Press  to return

Emerson Process Management GmbH & Co. OHG

While a backup or restore procedure is ongoing, an information screen appears, as
shown to the left:
Wait until "Progress (0..1000)" shows 1000,
then press enter to return to the previous
menu.

6-93

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6.2.3 Setup Menu
6.2.3.8.2	

Save-Load Local Backup
Setup..
Save-Load..
Local Backup..

This menu enables to save or restore the current analyzer configuration to/from a special
internal memory area.
Consider the notes on
6-93 !
Save the configuration data
Date of last backup

Local Backup
Save..
UsrBack Date
Restore..
Undo Restore!
Busy
Progress (0..1000)

7/29/09 14:26
0
0

Restore saved configuration data
Undo a restore
Wait until "Progress (0..1000)" shows 1000,
then press enter to return to LOCAL BACKUP.

6.2.3.8.3	

Save-Load Factory Defaults
Setup..
Save-Load..
Factory Defaults..

Note!
Factory defaults are saved once after factory
startup and can only be restored!
Consider the notes on
6-93 !
Date of last backup

Factory Defaults
FacBack Date
Restore..
Undo Restore!
Busy
Progress (0..1000)

7/29/09 14:26
0
0

Restore saved factory configuration data
Undo a restore
Wait until "Progress (0..1000)" shows 1000,
then press enter to return to LOCAL BACKUP.

6-94

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6.2.3 Setup Menu
6.2.3.8.4	

Save-Load USB Backup
Setup..
Save-Load..
USB Backup..

This menu enables to save or restore the
current analyzer configuration to/from an
external USB device.
Consider the notes on
6-93 !

Save the configuration data

USB Backup

Restore saved configuration data
0
1000

Undo a restore

6

Save..
Restore..
Undo Restore!
Busy
Progress (0..1000)

Software Menus

Note!
Take care to consider the important informa7-57, before starting any procetion on
dures with USB devices!

Wait until "Progress (0..1000)" shows 1000,
then press enter to return to LOCAL BACKUP.

Emerson Process Management GmbH & Co. OHG

6-95

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6.2.3 Setup Menu
6.2.3.8.5	

Save-Load USB Firmware Update
Setup..
Save-Load..
USB Firmware Update..

Replace current firmware!
This will restart device!
Are you sure?
No!
Yes!

6-96

Firmware is the analyzer´s basic operation
software. This menu enables to update your
current analyzer firmware from an external
USB device, e.g. to add new features, etc.

After selecting the firmware update procedure, a safety prompt appears: select "Yes!" to
start the procedure; "No!" cancels.

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6.2.3 Setup Menu
6.2.3.9	 Setup Operation Hours Meter
Setup..
Operation Hours Meter..
If the system is set up accordingly, the access
code for level 2 must be entered to gain access to this menu.

Operation Hours Meter
MaintRequInterval:
Hrs of Operation
Reset Hours!

26000 h
145 h

Operating hours since last reset.
Note!
If this function is enabled, a maintenance request is triggered the moment, "Hrs of Operation"
matches "MaintRequInterval". To reset this
message, activate "Reset Hours".
Press enter in this line to reset the operating
hours meter for the selected channel.

Multi-channel unit:
Press left to enter SELECT COMPONENT to
change the settings for a different channel.

Emerson Process Management GmbH & Co. OHG

6-97

6

Ch1

Enter the operating hours for the selected
channel´s maintenance requests interval.
Accepted range: 0 ... 26280 hrs.
Note!
Enter 0 to disable operation hours monitoring
for the selected channel.

Software Menus

Multi-channel unit:
In SELECT COMPONENT select the channel to be configured.

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6.2.3 Setup Menu
6.2.3.10	 Setup Identification
Setup..
Identification..

Enter analyzer identification data here.

If the system is set up accordingly, the access
code for level 3 must be entered to gain access to this menu.

Identification
System Tag:
Plant Name:
Customer:

Device tag
Plant name
Company name

Enter a device tag here to identify the analyzer
in e.g. a network
Enter a plant and customer name here.

Component Tags..

Enter tags for components;

6-98

6-99

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6.2.3 Setup Menu
6.2.3.10.1	 Component Tag Setup Menu
Setup..
Identification..
Component Tags..
Multi-channel unit:
In SELECT COMPONENT select the channel to be setup.

Tags
Tag:
Range1 Tag:
Range2 Tag:
Range3 Tag:
Range4 Tag:

Ch1
Ch1-R1
Ch1-R2
Ch1-R3
Ch1-R4

Note!
If set, the "Tag" always appears in the very
top menu line, if the current menu refers to a
specific component.
Multi-channel unit:
Press left to enter SELECT COMPONENT to
change the settings for a different channel.

Label
Tag

Input
Ch1
Output
Ch2

Label

)

Flow 1

0.000 ppm
CO
0.000 ppm
CO

MEASUREMENT DISPLAY setup, page
6-30, to setup labels, and see examples of
usage.
Gas name
Unit text

0.00 l/min

Fig. 6-4:	 Measurement Display With Labels and Tags (example)

Emerson Process Management GmbH & Co. OHG

6-99

Software Menus

Ch1

Within this menu, you may configure the
component´s tag, and individual tags for each
range.
Accepted entries: alphanumeric text, up to 8
characters long.

6

Component´s tag

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6.2.3 Setup Menu
6.2.3.11	 Setup Time
Setup..
Time..

Within this menu configure time settings.
Note!
Correct time settings are important for e.g.
time interval based calibrations and log files
entries.

If the system is setup accordingly, the access
code for level 3 must be entered to gain access to this menu.

Select, how the analyzer time is set
Available options: Manual, NTP
Time
Time Source:
NTP Server..
Manual Time..
Time

Manual

7/7/2009 10:27

Configure a NTP time server

6-101

Enter this menu to setup the analyzer time
manually
6-102
The last line shows the current analyzer time.
Note!
Time format is 24h (13 = 1 pm)

6-100

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6.2.3 Setup Menu
6.2.3.11.1	 Setup NTP Server

To sync the time with a NTP server,
•	 select NTP as "Time Source" in the previous menu
•	 ensure the analyzer has internet access (
SETUP - COMMUNICATION - ETHERNET1 or ETHERNET2; page 6-79 ).
Next enter
•	 a valid NTP server IP address
•	 the difference (hrs) of your local time to the
standard NTP time (UTC)
Accepted values: -12 ... 12 hrs
•	 the difference (min) of your local time to the
standard NTP time (UTC)
Accepted values: 0 ... 59 min

NTP Server
NTP Server:
xx.xxx.xx.xxx
Time Zone:
1h
Time Zone:
0 min
Sync Time:
No
Sync Interval:
1h
Synchronize Now!
Time
7/7/2009 13:27

Set "Sync Time" to Yes, if you want the analyzer to automatically sync the time.
The interval, you want your analyzer to synchronize with the NTP server
Accepted values: 0 ... 23 h
To manually sync the time, start "Synchronize
Now!"
The last line shows the current analyzer time.
Note!
Time format is 24h (13 = 1 pm)

Emerson Process Management GmbH & Co. OHG

6-101

Software Menus

Note!
A list of public NTP serves is available on the
internet, e.g. at
http://support.ntp.org/bin/view/Servers/WebHome.

The Network Time Protocol (NTP) is a protocol for synchronizing the clocks of computer
systems over internet.
NTP provides UTC time, and no information
about time zones or daylight saving time is
transmitted.

6

Setup..
Time..
NTP Server..

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6.2.3 Setup Menu
6.2.3.11.2	 Setup Manual Time
Setup..
Time..
Manual Time..

Manual time
Year:
Month:
Day:
Hour:
Minutes:
Set!
Time

2009
7
7
10
29
7/7/2009 13:29

Use this menu page to manually set analyzer
date and time.
Note!
Time format is 24h (13 = 1 pm)

The last line shows the current analyzer
time.

6-102

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6.2.3 Setup Menu
6.2.3.12	 Setup USB Interface
Setup..
USB Interface..
If the system is set up accordingly, the access
code for level 3 must be entered to gain access to this menu.

Interface:
USB Operation
USB Total
USB Free
Usage Warning:

enabled
Mass Memory
4033.6 MB
3985.7 MB
95 %

Format USB Stick..

If "Interface" is set to Disabled, the line shows
Disabled, too.

Software Menus

USB Interface

USB stick memory information (if a device is
connected).

6

Indicator for an connected USB
device.

If "Interface" is set to Enabled, this line shows
status USB information:
MassMemory, if a memory stick is connected
Formatting, if formatting a device is ongoing
NoDevice, if no device is connected

Specify the usage limit for the USB stick, to
give a warning.

Format an USB memory stick before using it
with this analyzer
6-104

Emerson Process Management GmbH & Co. OHG

6-103

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6.2.3 Setup Menu
6.2.3.12.1	 Format USB Stick
Setup..
USB interface..
Format USB stick...

Format USB stick
and erase all existing data!
Are you sure?
No!
Yes!

Select "Yes!" to start formatting.
A progress screen appears. Formating has
ended when "Busy" in this screen shows 0.
Note!
While formatting is in progress, "USB operation" in the previous menu shows formatting.
Do not remove a device while formatting!
This may cause loss of data or abnormal behaviour of the instrument!

Formatting creates a basic file system structure on the stick:
'emerson_xe' directory within the root
File, to automatically run functions when
7-66
connecting the stick to an analyzer,
'Serial number directory', beginning with 'SN',
followed by the analyzer´s numeric serial
number.
Fig. 6-5:	 USB File System Structure

'logs' directory to hold the log files, copied
to the stick by "Export data to USB!" actions
within logger menus. Files within this directory are specific only for the analyzer with the
serial number of the parent directory.
File with USB tools,

6-104

7-67

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6.2.3 Setup Menu
6.2.3.13	 Setup Data Logger
Setup..
Data Logger..
If the system is setup accordingly, the access
code for level 3 must be entered to gain access to this menu.
Enable (On) or disable (Off) data logging.

Data logger

Logging:
Sample Time:
Data Logger Data Delete!
Cached Entries
Total Entries

Off
1s
14
0

Export..
Export data to USB!

Number of records currently in RAM, not yet
saved to the internal data logger file.
Note!
Data is written to the internal file every 30 min,
or the moment, "Logging" is turned Off
Total number of records in the internal data
logger file.
Setup data logger export options
(
6-106).

Notes!
Make sure, there´s a memory device connected!
If not yet present, the structure as shown on
6-104 is created on the stick, without
formatting.
The log files can be found within the 'logs'
directory,
6-104.
7-65 for detailed information on the content of logfiles.

Emerson Process Management GmbH & Co. OHG

Export logged data to an USB device.
Note!
See left hand notes.

6-105

6

Delete current set of logged data.
Note!
There is no undo for this procedure!

Software Menus

Specify data logging interval time.
Accepted values: 0 ... 30,000 s

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6.2.3 Setup Menu
6.2.3.13.1	 Setup Data Logger Export
Setup..
Data Logger..
Export..

Export

6-106

Concentration:
Temperature:
Flow:
Pressure:

Yes
No
No
Yes

FieldSep:

TAB

Menu lines 1 ... 4:
Specify which data to be exported.
Available options: Yes, No
Select the field separator, separating the different data columns in the exported text file.
Available options: TAB, Semikol, Comma

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6.2.3 Setup Menu
6.2.3.14	 Setup Event Logger
Setup..
Event Logger..

Note!
This menu is available only, if a valid software upgrade code has been purchased
6-89 ). See the separate
and entered (
software options manual for more information
on this menu.

Note!
This menu is available only, if a valid software upgrade code has been purchased
6-89 ). See the separate
and entered (
software options manual for more information
on this menu.

6

Setup..
PLC..

Software Menus

6.2.3.15	 Setup PLC

6.2.3.16	 Setup Calculator
Setup..
Calculator..

Emerson Process Management GmbH & Co. OHG

Note!
This menu is available only, if a valid software upgrade code has been purchased
6-89 ). See the separate
and entered (
software options manual for more information
on this menu.

6-107

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6.2.4 Status Menu
6.2.4	 Status Menu
Status..

Within this menu, select any submenu to see
detailed information about related status.
Note!
Lines 1 to 4 conform with NAMUR status. If no
status of a specific type is active (no message
to show), the related menu line is hidden.

Failure status information (

6-109 )

Off-specs status information (

Failures..
OffSpecs..
Maintenance Requests..
Function Checks..
Measurement..
Calibration..
Alarms..
Operation Hours Meter..
Time
1/02/10 13:18

6-109 )

Maintenance request status information
6-110 )
(
Function checks status information
(
6-110 )
Measurement status information
6-111 )
(
Calibration status information (
Alarms status information (
Operation hours information (

6-116 )
6-119 )
6-121 )

Current date & time

6-108

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6.2.4 Status Menu
6.2.4.1	 Status Menu Failures

Failures
Ch1 SENSOR Communication Ti..
Ch2 SENSOR Communication Ti..
Ch3 SENSOR Communication Ti..
Ch4 
SENSOR Communication
Failures 2 Ti..



Failures 3





Up to 3 menu pages are prepared to show
status messages of type 'Failure'.
Note!
If no failure is active (no message to show),
this menu is hidden.
Messages starting with strings like 'Ch1' are
channel related, while all others are analyzer
related.
For a detailled description of messages, hints
on causes of failures and recommended actions,
chapter 8 'Troubleshooting'.

6.2.4.2	 Status Menu Off-Specs

Offspecs

Offspecs 2







Offspecs 3



Emerson Process Management GmbH & Co. OHG

6

Status..
Off-specs..

Software Menus

Status..
Failures..

Up to 3 menu pages are prepared to show
status messages of type 'Off-specs'.
Note!
If no off-spec is active (no message to show),
this menu is hidden.
Messages starting with strings like 'Ch1' are
channel related, while all others are analyzer
related.
For a detailled description of messages, hints
on causes of off-specs and recommended
actions,
chapter 8 'Troubleshooting'.

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6.2.4 Status Menu
6.2.4.3	 Status Menu Maintenance Requests
Status..
Maintenance Requests..

Maintenance Requests

Maintenance Requests 2







Maintenance Requests 3



Up to 3 menu pages are prepared to show
status messages of type 'Maintenance requests'.
Note!
If no maintenance request is active (no message to show), this menu is hidden.
Messages starting with strings like 'Ch1' are
channel related, while all others are analyzer
related.
For a detailled description of messages,
hints on causes of maintenance requests
and recommended actions,
chapter 8
'Troubleshooting'.

6.2.4.4	 Status Menu Function Checks
Status..
Function Checks..

Function Checks

Function Checks 2









6-110

Function Checks 3

Up to 3 menu pages are prepared to show
status messages of type 'Function check'.
Note!
If no function check is active (no message to
show), this menu is hidden.
Messages starting with strings like 'Ch1' are
channel related, while all others are analyzer
related.
For a detailled description of messages, hints
on causes of function check and recommended actions,
chapter 8 'Troubleshooting'.

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6.2.4 Status Menu
6.2.4.5	 Status Menu Measurement
Status..
Measurement..

View status information on a specific component (
6-112 )

Component..
Temperature Sensors..
Pressure Sensors..
Flow Sensors..

View status information on pressure sensors
(
6-115 )

6

View status information on flow sensors
(
6-115 )

Software Menus

Measurement

View status information on temperature sensors (
6-114 )

Emerson Process Management GmbH & Co. OHG

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6.2.4 Status Menu
6.2.4.5.1	

Status Menu Component
Status..
Measurement..
Component..

Multi-channel unit:
In SELECT COMPONENT, select the channel to be viewed.

Ch1
Component
Raw Signal1
109518.000
Raw Signal2
54321.000
Raw Signal
2.016
Concentration
1,984 %
Current Range
Range 1
Statistics..
Secondary Variables..

Opens a submenu with measurement statistics for the selected channel;
6-113
Opens a submenu with information on secondary variables (pressure, flow, ...) of this
channel;
6-114

Multi-channel unit:
Press left to enter SELECT COMPONENT,
to view the status for another channel.

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6.2.4 Status Menu
Status Menu Component Statistics
Status..
Measurement..
Component..
Statistics..
Ch1
Statistics

MinConc
MinDate
MaxConc
MaxDate

0.000 ppm
7/7/2009 07:42:49
5000.000 ppm
8/7/2009 12:11:10

StdDev
Start Date
Reset Statistics..

6.2.4.5.1.1.1	

100 ppm
1.1.10 10:00

This menu page provides some statistical
data for the selected component:
•	 Minimum and maximum measured concentrations, and the related date
•	 standard deviation of measured concentrations, and date when calculation started

To reset statistics

below

Software Menus

6.2.4.5.1.1	

Status Menu Reset Statistics

6

Status..
Measurement..
Component..
Reset statistics..
If the system is setup accordingly, the access
code for level 2 must be entered to gain access to this menu.
Ch1
Reset Statistics
Reset Peak!
Reset StdDeviation!

Emerson Process Management GmbH & Co. OHG

Select, which statistic to reset.
Note!
There´s no undo for these functions!

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6.2.4 Status Menu
6.2.4.5.1.2	

Status Menu Secondary Variables

Status..
Measurement..
Component..
Secondary Variables..

Ch1
Temperature
Temp Status
TempZComp
TempSComp
Pressure
Pressure Status
Flow
Flow Status
Source Current

6.2.4.5.2	

40.0 °C
Good
0.0 °C
0.0 °C
1013 hPa
Good
1.1 l/min
Good

If the analyzer features an IR measurement,
this line shows the IR source current.

Status Menu Temperature Sensors
Status..
Measurement..
Temperature Sensors..

Ch1
Temperature Sensors 1of2
DSP-T1
40.0 °C
Status
Installed
DSP-T2
0.0 °C
Status
Absent
DSP-T3
0.0 °C
Status
Absent
Ch1
DSP-T4
0.0 °C
Abset
Status
Temperature
Sensors 2of2
AIN1
20.0 °C
Status
Installed
AIN2
0.0 °C
Status
Absent

6-114

This menu page provides some secondary
measurement data for the selected component:
•	 Temperature, pressure and flow values
•	 Status of the related sensors
•	 Reference temperature for temperature
compensation, separately for zero and
span
Possible status values:
Good, Simulated, Failure, Absent

View data for all possibly installed temperature sensors, provided in two lines each:
Each first line shows the temperature sensor
and the currently measured value, followed by
a related line showing the sensor status:
Sensor (possible values: DSP-T1 ... -T4,
AIN1, AIN2) and current temperature.
Sensor status
Possible values: Installed, Absent, Failure.

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6.2.4 Status Menu
Status Menu Pressure Sensors

DSP-P1
Status
DSP-P2
Status
AIN1
Status
AIN2
Status

6.2.4.5.4	

Pressure Sensors
1090 hPa
Installed
0 hPa
Absent
0 hPa
Absent
0 hPa
Absent

View data for all possibly installed pressure
sensors, provided in two lines each:
Each first line shows the pressure sensor and
the currently measured value, followed by a
related line showing the sensor status:
Sensor (possible values: DSP-P1, DSP-P2,
AIN1, AIN2) and current pressure.
Sensor status
Possible values: Installed, Absent, Failure.

Software Menus

Status..
Measurement..
Pressure Sensors..

Status Menu Flow Sensors
Status..
Measurement..
Flow Sensors..

Ch1
Flow Sensors 1of2
DSP-F1
0.0 l/min
Status
Installed
DSP-F2
0.0 l/min
Status
Absent
DSP-F3
0.0 l/min
Ch1
Status
Absent
DSP-F4
0.0Sensors
l/min

Flow
2of2
Absent
Status
AIN1
0.0 l/min
Status
Installed
AIN2
0.0 l/min
Status
Absent

Emerson Process Management GmbH & Co. OHG

View data for all possibly installed flow sensors, provided in two lines each:
Each first line shows the flow sensor and
the currently measured value, followed by a
related line showing the sensor status:
Sensor (possible values: DSP-F1 ... -F4,
AIN1, AIN2) and current flow.
Sensor status
Possible values: Installed, Absent, Failure.

6-115

6

6.2.4.5.3	

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6.2.4 Status Menu
6.2.4.6	 Status Menu Calibration
Status..
Calibration..

Calibration
Component..
Next Automatic Calibrations..

6.2.4.6.1	

Enter this menu to view calibration status
information.

View calibration data for a specific component
6-116.
Enter this menu to view scheduled dates for
the next automatically performed calibrations;
6-118.

Status Menu Single Calibration
Status..
Calibration..
Component..
Multi-channel unit:
In SELECT COMPONENT, select the channel to be viewed.

Ch1
Single Calibration
Status..
Results..

View the calibration status for the current
6-117.
channel;
View the calibration results for the current
6-110.
channel;
Multi-channel unit:
Press left to enter SELECT COMPONENT,
to view the status for another channel.

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6.2.4 Status Menu
6.2.4.6.1.1	

Calibration Status Single Menu
Status..
Calibration..
Single Calibration..
Status..

This page provides calibration status information for the last calibration for the selected
component.

Ch1
Calibration Status Single

Calibration Results Single Menu
Status..
Calibration..
Single Calibration..
Results...

6

6.2.4.6.1.2	

Ready
0s
0.000 ppm
0.000 ppm
5000.000 ppm
Range 1
SampleGas

Software Menus

CalibrStatus
Remaining Time
Concentration
Zero Gas
Span Gas
Current Range
Applied Gas

This page provides calibration results for the
selected channel.

Ch1
Calibration Results Single
Zero Result
Zero Date
Span Result
Span Date
CalibrRanges

Success
7/7/2009
Success
7/7/2009
None

Deviations..

Emerson Process Management GmbH & Co. OHG

Calibration result deviations for the current
channel;
6-118.

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6.2.4 Status Menu
6.2.4.6.1.2.1	

Calibration Results Single Deviations

Status..
Single Calibration..
Results..
Deviations..

This menu page provides calibration results
for the selected channel.

Ch1
Deviations
ZeroDev
ZeroDev Total

0.000 %
0.000 %

SpanDev
SpanDev Total

0.000 %
0.000 %

6.2.4.6.2	

Next Automatic Calibrations Menu

...
...
Next Automatic Calibrations..

Note!
This menu page is accessible from STATUS CALIBRATION, and CONTROL - ADVANCED
CALIBRATION.
This page provides information about scheduled automatic calibrations.

Next Automatic Calibrations
Zero All
Zero & Span All
Progr. Sequence
Blowback All

6-118

4/15/10 14:30
----

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6.2.4 Status Menu
6.2.4.7	 Status Menu Alarms

Concentration..
Conc Average..
Temperature..
Pressure..
Flow..





Alarms 2

Calculator A..
Calculator B..
Calculator C..
Calculator D..

Emerson Process Management GmbH & Co. OHG

The first menu page opens submenus for
component (channel) related alarms, where
you have so select the component of interest
first, before gaining access to the detailed
information.
Software Menus

Alarms

This menu lets you select from several alarm
functions, to view detailed status information.

The second menu page is available only, if
the calculator option has been installed, and
then enables to view related alarm status
information.

6-119

6

Status..
Alarms..

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6.2.4 Status Menu
6.2.4.7.1	

Alarms Status Details
Status..
Alarms..
...

All alarm status menus, accessible from
STATUS - ALARMS (
previous page),
are designed in a similiar way to provide the
information.

For submenus of the first STATUS ALARMS menu page only:
Multi-channel unit:
In SELECT COMPONENT select the channel to be viewed.

'...' in the title is replaced by the text of the
submenu line, selected in the previous menu,
e.g. "Concentration"

Ch1
... Alarm States
LoLo Alarm
Lo Alarm
Hi Alarm
HiHi Alarm
Concentration

Off
Off
Off
Off

These four menu lines show, if alarms are
activated (On), or not (Off).

500 ppm

The last line shows the current value for the
selected function, e.g. the currently measured
concentration.

Multi-channel unit:
Press left to enter SELECT COMPONENT,
to view the status for another channel.

6-120

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6.2.4 Status Menu
6.2.4.7.2	

Operation Hours Status
Status..
Operation Hours Meter..

Multi-channel unit:
In SELECT COMPONENT select the channel to be viewed.

Ch1
30000 h
145 h

6

MaintRequInterval
Hours of Operation

Software Menus

Operation Hours Meter

Multi-channel unit:
Press left to enter SELECT COMPONENT,
to view the status for another channel.

Emerson Process Management GmbH & Co. OHG

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6.2.5 Info Menu
6.2.5	 Info Menu
Info..
Open this menu to view the most important
information about your instrument at a glance.

Info
Firmware
1.0
XSP Version
1.0
Serial no
123456789
Components..
Installed Options..
Ethernet1 IP
192.168.1.1
Ethernet2 IP
192.168.1.2
10/01/10 14:00
 Time

 Data Logger
Event Logger
PLC Enabled
Calculator Enabled
Identification..
LOI Firmware
Phrase Version
Time

6-122

Off
Off
Yes
No

Enter this submenu to see how many measuring channels are installed;
6-123 .
Enter this submenu to see information about
6-124 .
installed options;

Enter this submenu to see how the analyzer
6-125 .
is identified, e.g. in a network;

V1.00 12.02.10
EN 1.09
10/01/10 10:00

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6.2.5 Info Menu
6.2.5.1	 Info Menu Components
Info..
Components..

Components
Channel1
Channel2
Channel3
Channel4
Channel5
Measurement..

Enabled
Enabled
Enabled
Disabled
Disabled

Only measuring channels indicating Enabled
are installed in the current analyzer.

See below for the measurement info menu

Info..
Components..
Measurement..

Software Menus

Info Menu Measurements
This menu shows the full scale limits.

6

6.2.5.1.1	

Multi-channel unit:
In SELECT COMPONENT select the channel to be viewed.

Measurement
RangeAbsMin
RangeAbsMax

-10000 ppm
10000000 ppm

Multi-channel unit:
Press left to enter SELECT COMPONENT
to change the settings for a different channel.

Emerson Process Management GmbH & Co. OHG

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6.2.5 Info Menu
6.2.5.2	 Info Menu Installed Options
Info..
Installed Options..

Installed Options
Package
Valves
Pump
DIO#1 Installed
DIO#2 Installed
Anal. Outputs
AIN Installed

6-124

None
None
None
Yes
No
4
No

This menu indicates, if your analyzer features
any of the listed options.
("Package" refers to the software upgrade
options;
6-89).

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6.2.5 Info Menu
6.2.5.3	 Info Menu Identification
Info..
Identification..

Identification
System Tag
Plant Name
Customer

My Tag
My Plant
Me

See how the instrument is identified.

Info Menu Component Tags
Info..
Identification..
Component Tags..

View channel and range tags for a selected
component.

6

6.2.5.3.1	

Multi-channel unit:
In SELECT COMPONENT select the channel to be viewed.

Tags
Tag
Range1 Tag
Range2 Tag
Range3 Tag
Range4 Tag

Ch1
Ch1-R1
Ch1-R2
Ch1-R3
Ch1-R4

Multi-channel unit:
Press left to enter SELECT COMPONENT
to change the settings for a different channel.

Emerson Process Management GmbH & Co. OHG

Software Menus

Component Tags..

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6.2.6 Service Menu
6.2.6	 Service Menu
Service..

Service
Europe..
North America..
Latin America..
Asia-Pacific..
Factory Setup..

This menu provides contact information about
Emerson Process Management offices in
several world regions (see below).
The factory setup menu is protected
by access level 4 code, and intended
to be used by special trained personnel (Emerson Process Management
service) only!

Service information (exemplarly; see analyzer, or contact your sales office for latest data)

Europe
Emerson Process Management
GmbH & Co. OHG
Industriestr. 1
D-63594 Hasselroth
Germany
T +49(6055) 884-0
T +49(6055) 884-209

Latin America
Emerson Process Management
Rosemount Analytical Inc.
11100 Brittmoore Park Road
Houston, TX 77041
United States of America
T +1(713) 467-6000
F +1(713) 827-3328

6-126

North America
Emerson Process Management
Rosemount Analytical Inc.
6565 P Davis Industrial Parkway
Solon, OH 44139
United States of America
T +1(440) 914-1261
F +1(440) 914-1262

Asia-Pacific
Emerson Process Management
Asia Pacific Pte Ltd
1 Pandan Crescent
Singapore 128461
Singapore
T +65(6777) 8211
F +65(6777) 0947

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Chapter 7
Maintenance and Other Procedures
7.1	 Introduction
This chapter gives instructions not only for
maintenance procedures, but also covers several procedures useful for properly operating
the instruments.

Maintenance carried out on a regular basis
ensures long-term efficiency of your EMERSON Process Management gas analyzer!
page 7-2 for general information about
maintenance procedures and intervals.

Live parts are accessible when working at open and powered instruments,
and is subject to instructed and trained personnel only!
Take care to observe all applicable safety instructions!

For more detailled information about how to:
Perform a leak test		
					
Perform a calibration	
					
Replace an electrochemical oxygen sensor			
Clean the instrument´s outside	 				
Backup / restore configuration data sets			
	

	
	
	
	
	

	
	
	

Use log files								
Handle files on USB sticks						
Access the web browser interface					

	 page 7-62
	 page 7-66
	 page 7-68

Emerson Process Management GmbH & Co. OHG

page 7-4
page 7-5
page 7-41
page 7-51
page 7-52

7

	
	
	
	
	

Maintenance & Procedures

ELECTRICAL SHOCK HAZARD

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7.2 General Maintenance Information
7.2	 General Maintenance Information
Intervals given in the following tables are
based on standard operating conditions
(ambient temperatures +10 ... +40 °C /
+50 ... +104 °F; temperature changes < 10 K
/hr).
Try cleaning contaminated components.
Replace components showing corrosion, or
not passing inspections or tests!

Maintenance intervals must be
shortened for differing operating conditions, and if aggressive gases are supplied.
Take care of special maintenance instructions in separate
manuals for accessories or
safety equipment, e.g. flame arrestors, infallible containments,
etc.
If applicable, consider the manual addendums for instruments for hazardous areas!

Visual Inspections
Component
Tubing, flexible
Tubing, stainless steel (SS)
Pressure sensor, pressure switch,
Flowmeter
Pump
Valve block
Flame arrestors
Field housings (IP 66 / NEMA 4X)
Field housings stopping plugs
Field housings cable glands

7-2

Interval
Leakage, embrittlement, contamination
Corrosion, contamination
Corrosion, leakage
Fixed screws, swing free to move
Corrosion, leakage
Corrosion, damages, firmly seated
Corrosion, damages on enclosure and
gaskets
Firmly seated
Firmly seated

Once a year

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7.2 General Maintenance Information

Tests

Pump diaphragm
Capillars
Flame arrestors
Infallible containments

RAW measuring values

Interval
Leak Test

Once a year

After 5,000 hrs of operation
(=208 days, if continuously operating)
Pressure drop
Once a year
See instructions in separate maPressure drop
nual
See instructions in separate maSeveral
nual
Verify counts for zero Monthly, then quarterly
gases
Acceptable values:
(decreasing counts
photometer quotient: 1.0 ± 0.1
may indicate conta- NO, N2O quotient: 1.0 ± 0.2
pO2, eO2, TC: 0 ± 100,000 counts
mination of optical
(for zero gas N2)
components)
Leak Test

Emerson Process Management GmbH & Co. OHG

7

Replace Components Regularly
Component
Interval
Filter, internal
Once a year, at least when contaminated
Filter, external
Several times a year, depending on process conditions

Maintenance & Procedures

Component
Tubing, flexible
Pressure sensor, pressure switch
Valve block

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7.3 Performing a Leak Test
7.3	 Performing a Leak Test
To achieve best and proper measuring results
you must ensure the gas path system does
not have leaks.
The following procedure describes how to
perform a leak test with focus on the instrument.
The gas path system should be leak tested
at least on a bimonthly basis and after maintenance, replacement or repair of gas path
parts.
Note!
It is recommended to include external equipment (e.g. cooler, dust filters, etc.) into a leak
test!

Required tools
•	 U-turn manometer for max. 1.45 psi
(100 mbar)
•	 Stop valve
Procedure
•	 Connect the water filled u-turn manometer to the analyzer‘s sample gas output
(disconnect external gas lines).
•	 Install the stop valve between gas input
fitting and a nitrogen (N2) supply.
•	 Open the stop valve until the internal
gas path is under pressure of approx.
0.725 psi/50  mbar (corresponding to
19.7 inch/500 mm water column)
•	 Close the stop valve. After a short time
for the water to balance, the water level
must not change over a time period of
approx. 5 minutes!

7-4

HAZARD FROM GASES
Before opening gas paths
they must be purged with
ambient air or neutral gas (N2)
to avoid hazards caused by
toxic, flammable, explosive
or harmful to health sample
gas components!

Analyzer

overpressure
approx.
0.725 psig /
50 mbar

stop
valve
Water

Fig. 7-1:	 Leak Testing With U-Turn Manometer

Max. pressure 7.25 psig
(500 mbar)!
Multi channel instruments:
Analyzers with parallel tubing
require separate leak tests for
each gas path !

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7.4 Calibration Procedures

X-STREAM gas analyzers support several
calibration procedures:
Manual calibration
Typically a calibration procedure is carried out
manually by supplying the gases sequentially
by hand and activating the procedures via
front panel keys.The operator has to take
care to consider purge times and supply the
proper gases in correct order.
It is the operators responsibility to not perform
a span calibration without a preceding zero
calibration!
Advanced calibration
Advanced calibration is a more comfortable
variation of manual calibration, providing ONE
KEY calibrations supported by internal and/or
external valves. The analyzer automatically
supplies the right gas and considers purge
times.

Emerson Process Management GmbH & Co. OHG

Remote calibration
Remote calibrations may be activated by
means of digital inputs or Modbus commands.
Calibrations activated via digital inputs require either internal or external valves to be
installed. Modbus supports both calibrations
with or without valves as well as calibration
sequences.
Unattended automatic calibration
Unattended automatic calibrations are activated utilizing the analyzer software time interval
setting:
After a specified time interval has elapsed,
the analyzer automatically carries out valve
supported zero or span calibrations.
The main advantage is that no user interaction
is required to start a calibration or during calibrations: The analyzer automatically supplies
the right gas, considers purge times and, that
a span calibration has to be preceded by a
zero calibration.
Configuring and performing calibrations is important to ensure
proper analyzer function. For
this reason, several calibration
related SETUP and CONTROL
menus and their submenus can
be protected by different access
codes.
In the following sections this
manual does not note when to
enter access codes.
For information about which
calibration related menus can
be access code protected
Chapter 6 - CONTROL menus,
6-5 and SETUP menus, 6-21.

7-5

7

Note!
To achieve best and proper measuring results, it is recommended to perform zero and
span calibrations on a regular weekly basis.
Also a zero calibration must always precede
a span calibration!
Zero calibration
To perform a zero calibration supply either
nitrogen (N2) or another suitable zero gas
[conditioned ambient air or industrial air (NOT
for oxygen measurement!)] to the gas path.
Span calibration
Supply span gases with concentrations of
80 % to 110 % of the upper measuring range
limit to the gas path. Using lower concentrations may decrease accuracy when measuring above the span gas concentration!
If the oxygen concentration is known, ambient
air may be used for an oxygen channel span
calibration.

Maintenance & Procedures

7.4	 Calibration Procedures

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7.4 Calibration Procedures
Before starting any calibration take care of
the table below, and the following sections,
describing general preparations for calibration procedures and how to perform such
calibrations!

Type of Procedure
Manual calibration

Menu Page
(CONTROL - )
ZERO CALIBRATION...
SPAN CALIBRATION...

Furthermore you´ll find information about
calibration gases setup:
7-7.

Valves

Simultaneously More Information
Calibrated
Channels

optional

single channel

page 7-17

required

all channels

page 7-20

ADV.CALIBRATION - ZEROALL!
Advanced calibration

ADV.CALIBRATION - SPANALL!
ADV.CALIBRATION - ZSCALALL!

Remote calibration

n.a. (via Modbus or Dig IN)

recommended

all channels

page 7-32

Unattended calibration

n.a. (via interval time)

required

all channels

page 7-36

7-6

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7.4.1 Preparing Calibrations
7.4.1	 Preparing Calibrations
Before starting calibrations it is required to
tell the instrument the calibration gas concentrations.
Setup..
Calibration..
Gases..

Starting from the MEASUREMENT SCREEN
press down to open the MAIN MENU, enter
SETUP-CALIBRATION and directly enter
GASES.

Gases
Zero gas:
Span gas:
Range gases..

0.000 ppm
50000.000 ppm

Current range:

Range 1

Enter the concentration value for the zero gas
to be used during zero calibration.
Enter the concentration value for the span
gas to be used during span calibration.
Note!
The units for the calibration gases are taken
from the related entry in the display setup
menu.
Multi-channel unit:
Press left to enter SELECT COMPONENT to
change the settings for a different channel.

When done, press left to return to CALIBRATION.

Emerson Process Management GmbH & Co. OHG

7-7

7

Note!
Within the following sections it is not always
pointed out, where to enter access codes or
select components!

Maintenance & Procedures

Multi-channel unit:
Select the channel to be calibrated in
SELECT COMPONENT.

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7.4.1 Preparing Calibrations
Next enter TOLERANCES:
By default the option 'Deviat.toler.' (deviation
tolerance check) is disabled (Off).

Tolerances
Deviat. toler.:
Zero limit:
Span limit:

Off
20.0 %
20.0 %

Example:
Measuring range: 0 ... 50 %
Zero gas: 0 %
Span gas: 50 %
Tolerance limits: 20.0 % (see figure above)
Situation:
Due to a fault zero gas is supplied to carry
out a span calibration, instead of span gas.
Deviat. toler. check disabled (Off):
The analyzer calibrates the span with the
wrong gas resulting in an analyzer out of
tune.
Deviat. toler. check enabled (On):
Starting a span calibration with zero gas
connected instead of span gas, the analyzer
gives an error message and stops calibrating
because the measured (expected span gas)
value differs more than the value specified,
from the upper measuring range limit.

Note!
Unacknowledged maintenance requests are
stored even if the instrument is switched off
and on again!
In addition: If, for example, a calibration was
aborted because of a tolerance check, the
maintenance request is active. If the operator

7-8

With deviation tolerance check enabled (On),
during calibration the analyzer compares the
currently measured concentration to the expected value, as setup in the GASES menu.
If the measured concentration differs from the
expected values by more than the percentage
of measuring range, given in the menu lines
2&3, calibration is aborted and a maintenance
request alarm is set (symbol, message and
optional relay output).
Resetting the alarm requires to perform a valid
calibration, or to confirm it within CONTROL
- ACKNOWLEDGEMENTS.
So, tolerance check helps avoiding calibrating
with a wrong gas (e.g. starting a span calibration while zero gas is flowing), resulting
in an instrument out of tune (see example to
the left side).
There are situations, when deviation tolerance check must be disabled, e.g. during first
time calibration after changing the span gas
concentration. In this cases select Off.

does not acknowledge the request and performs a new calibration, now with disabled
tolerance check, the earlier maintenance request is stored and re-activated again, when
the tolerance check is enabled somewhere
in the future!

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7.4.1 Preparing Calibrations

When done, press left several times to return
to SETUP:
If you use analog output signals, you may
want to check or setup, how the analog signals proceeds during calibrations.

Signal:
Out range:
LowScale:
MaxScale:
Auto scale:
Fail mode:
0/4 mA:
20 mA:
Hold:

0
0-20 mA
0.00
100.00
Yes
Live
0.00
100.00
No

The menu to the left shows up, where the last
line parameter specifies the behaviour during
calibrations:
When "Hold" is set to Yes,
•	 the analog output is fixed to the last measured value;
•	 concentration alarms, which may otherwise
be triggered by the concentrations of the
calibration gases, are supressed.
When set to No,
•	 the analog output signal always corresponds to the actual measured value during
calibration; this may trigger alarms when
limits are exceeded.
Note!
This behaviour may be undesireable if e.g.
the unit is connected to a data acquisition
system.
Setup this parameter in a way to serve your
needs.
If you do not intend to carry out valve supported calibrations, continue with
7-17.

Emerson Process Management GmbH & Co. OHG

7-9

Maintenance & Procedures

Output1..
Output2..
Output3..
Output4..
Output5..

To do so, enter IN-/OUTPUTS - ANALOG
OUTPUTS and enter the submenu of your
analog output:

7

Analog outputs

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7.4.1 Preparing Calibrations
7.4.1.1	 Valve Assignment for Valve Supported Calibrations
As described earlier, several calibration
procedures require installed internal and/or
external valves.
In addition this requires all requested calibration gases to be connected to the valves
and the valves to be software assigned to
the gases.
Why is assigning valves required?
For such calibrations the analyzer controls the
gas flow and therefore needs to 'know' about
the different valve functions - this is done by
valve assignment.
In addition variable valve assignment allows
to use one valve for different functions.

purge times

Zero spanning with
fixed assignment

ch1

Zero spanning with
variable assignment

ch1
&
ch2

ch1

ch1 &
ch2

Example:
•	 Dual channel analyzer for measuring CO
and CO2.
•	 Span gases are CO and CO2 , zero gas
for both channels is N2.
Without variable assignment one would need
to zero span channel 1 separately from channel
2. Taking into account the purge times before
a calibration calculation starts, to ensure the
measuring cells are filled with calibration gas,
the whole procedure would take a quite long
time.
With variable valve assignment the operator
can specify e.g. the valve V1 to be the zero
gas valve for channel 1 AND channel 2.
Now, when starting a zero calibration, the
analyzer calculates the zero values for both
channels at a time!

calibration

ch1

ch2

ch1
&
ch2

ch2

ch2

improvement in
time
timeline

Fig. 7-2:	 Calibration Improvement by Variable Valve Assignments

7-10

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7.4.1 Preparing a Calibration

Installed Options 1of2
Licenses..
None
None
No
No
4
No

7

Valves:
Pumps:
XDIO1 Installed:
XDIO2 Installed:
Anal. Outputs:
AIN Installed:

Open SETUP - INSTALLED OPTIONS and
check the "Valves:" line.
Available options:
None: Valves are not supported
Internal: Open INTSHS (
7-12) to assign
internal valves.
External: Open DIGITAL OUTPUTS (
7-13) to assign external valves.
Int+Ext: Open both, INTSHS (
7-120)
and DIGITAL OUTPUTS (
7-12) to assign
internal and external valves.

Maintenance & Procedures

Before starting to assign valves to gases and
channels, you need to check if valves are
supported:

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7.4.1 Preparing a Calibration
7.4.1.1.1	

Internal Valve Assignment
If your analyzer provides internal valves, at
first open SETUP - IN-/OUTPUTS - INTERNAL
SHS to assign the valves to the gas inlets:

Internal SHS (1of2)
Gas1 Signal:
Gas2 Signal:
Gas3 Signal:
Gas4 Signal:
Gas5 Signal:
Gas6 Signal:
Gas7 Signal:
Gas8 Signal:

This menu allows to configure the optional
internal valves for routing gas.

V4
V1
V3
Off
Off
V2
Off
Off

Each available analyzer gas inlet ("Gas1 Signal ... Gas8 Signal") with a valve connected
is assigned a virtual valve label (V1...V8). (If
the components have been installed in the
factory, the configuration is already setup).
Notes!
If already factory setup, changing the configuration could result in inproper operation!
Depending on the analyzer model, 1 or 2
valve blocks with up to 4 or 8 valves can be
installed.
The number of available gas connections
depends on the analyzer model and varies
from 4 to 8.

virtual
valve label
V4

valve block outlet
to measuring cell

V1
V3

tu

V2

bi

ng

s

internal valve
block
The exemplary menu settings shown
above could relate to an analyzer configuration as shown here.
Fig. 7-3:	 Internal Valves Assignments

7-12

gas fittings
at analyzer
rear side

The next step is to assign the internal valves
to the channels. If there are no external valves to be controlled by your analyzer, continue
with
7-15.

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7.4.1 Preparing a Calibration
External Valve to Digital Output Assignment

Setup..
In-/Outputs..
Digital Outputs..

Digital Outputs (X1)
Output1 Node:
System
Output1 Signal:
Off
Output2 Node:
System
Output2 Signal:
Off
Output3 Node:
System
Output3 Signal:
Off
Output4 Node:
System
Output4 Signal:
Off

Further pages are indicated by a down arrow
(   ), only when at least one extension card
(outputs 5 - 13) is installed:

 Digital Outputs (X4.1) 1of3
Output5 Node:
System
Output5 Signal:
Off
Output6 Node:
System
Output6 Signal:
Off
 Digital Outputs (X4.1) 2of3
Output8
Output7
Node: Node: SystemSystem
Output8
Signal:
Off
Output7
Signal:
Off
Output9 Node:
System
Output9 Signal:
Off
 Digital Outputs (X4.1) 3of3
Output11
Output10
Node: Node: SystemSystem
Output11
Signal:
Off
Output10
Signal:
Off
Output12 Node:
Output12 Signal:

System
Off

Output13 Node:
Output13 Signal:

System
Off

Emerson Process Management GmbH & Co. OHG

This menu configures the digital outputs: All
outputs (default and optional) support the
same range of signals/functions. Outputs 1
to 4 are available in every unit, and by default
setup to provide NAMUR signals (see figures
to the left).

Maintenance & Procedures

If your analyzer has to control external valves,
at first check if all valves required for calibration are connected to digital outputs.
Then open SETUP - IN/OUTPUTS - DIGITAL
OUTPUTS, to software assign the valves to
the outputs:

7

7.4.1.1.2	

Outputs 5 - 13 are present on the first extension card,labelled X4.1 (outputs 9 to 13 setup
on separate menu pages are not shown in
this example).
Note!
Depending on the analyzer model, 1 or 2 Digital I/O extension cards can be installed.

7-13

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7.4.1 Preparing a Calibration

Verify which digital outputs are connected
to control your external valves, and how the
valves are labelled.
Next enter the menu page, showing these
outputs, and for each output select System in
the line "Outputn Node" (where "n" is replaced
by the output number).
Finally for each output setup the valve's label.

 Digital Outputs (X4.1) 1of3
Output5 Node:
System
Output5 Signal:
V5
Output6 Node:
Output6 Signal:

System
V6

Output7 Node:
Output7 Signal:

System
V7

Example:
For our example we assume, that the analyzer
controls 4 internal and 3 external valves:
•	 Internal valves are connected as shown
in fig. 7-3.
•	 3 external valves are labelled V5 ... V7,
and connected to digital outputs 5 .. 7
For this to be setup, enter the second page
of the Digital Outputs menu, and for each
output 5 ... 7
•	 select System for the "... Node"
•	 select the label of the connected valve
(V5, V6 or V7) for the "...Signal", as shown
in the lefthand figure.

The next step is to assign the valves to the
7-15.
channels: Continue with

7-14

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7.4.1 Preparing a Calibration
7.4.1.1.3	

Calibration Valve Assignment
For each channel a valve has to be assigned
zero gas valve or span gas valve, whereat the
valves can be freely assigned to any channel.
This includes:
•	 selecting the same combination for all
channels
•	 selecting combinations where one valve has
the same function for several channels
•	 selecting combinations where one valve
has different functions for several channels,
e.g. the channel 1 zero valve is the channel
2 span valve.

Multi-channel unit:
Select the component to be set in SELECT
COMPONENT.
Note!
The selected channel is indicated in the uppermost display line!

Ch1
Valve assignment 1of3
Sample valve:
Purge time:

V3
1s

Zero valve:
Purge time:

V4
1s

Correct assign

Yes

Emerson Process Management GmbH & Co. OHG

On the first menu page, configure the sample
and zero valves to be used for the selected
channel with their individual purge times (this
is the time needed to completely fill the cell
with the gas, after the valve is activated. If
the calibration is started earlier, the gas lines
will still contain other components and the
calibration will be inaccurate.).
"Correct assign" indicates, if the current assignment is correct (Yes), or not (No).

7-15

7

To do so, enter SETUP - CALIBRATION VALVE ASSIGNMENT:

Setup..
Calibration..
Valve assignment..

Maintenance & Procedures

Depending on the gases used, this may allow
higher calibration performance.

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7.4.1 Preparing a Calibration

Ch1


Valve assignment 2of3
Span1 valve:
V1
Purge time:
1s
Span2 valve:
None
Purge time:
0s
Span3 valve:
None
Purge time:
0s
Span4 valve:
None
0s
Purge time:

Now open the next menu to assign up to 4
span gas valves to the selected channel: one
for each range.
Note!
Depending on the gas analyzer and SHS
configuration, is may be possible to assign a
specific valve to multiple ranges.
Again, don´t forget to specify the individual
purge times.

Ch1



Valve assignment 3of3

Blowback valve:
Purge time:

None
0s

On the 3rd menu page, assign a blowback
valve for the selected channel, if such is
installed.

Note!
To check, if entries, made on menu pages 2
& 3 are correct, go back to menu 1 and check
"Correct assign".

Multi-channel unit:
On menu 1, press left to open SELECT
COMPONENT to change the settings for a
different channel.

7-16

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7.4.2 Manual Calibration
7.4.2	 Manual Calibration
Starting from the MEASUREMENT SCREEN
press down to open the MAIN MENU and
enter CONTROL.

Control..

To start a zero calibration select the first
line:

7.4.2.1	 Manual Zero Calibration

Ch1
Zero calibration
Cancel!
Start!
Zero gas
0.000 ppm
Concentration
0.000 ppm
Flow
0.00 l/min
Status..
Results..
Restore!

Emerson Process Management GmbH & Co. OHG

Multi-channel unit:
Select the channel to be calibrated in
SELECT COMPONENT.
Before selecting any further
line make sure the required
calibration gas is applied and
flowing!
Supply all calibration gases
with the same flow as the sample gas (recommeded approx. 1 l/
min), pressureless and utilizing
the correct gas fitting (
sect.
3.4).
Ensure the warm-up time after
switching on has elapsed!
Warm-up time is 15 to 50 minutes
depending on installed measuring system and configuration!
The first line gives you the choice to cancel
the procedure now.
Select the second line to start the calibration.

7-17

Maintenance & Procedures

Off
Off

7

Zero calibration..
Span calibration..
Advanced calibration..
Apply gas..
Lock menus!
Acknowledgements
Pump 1:
Pump 2:
Ranges..

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7.4.2 Manual Calibration
The next lines show
•	 the calibration gas setup (here: required
zero gas concentration is 0.000 ppm),
•	 the currently measured gas concentration
•	 and the current gas flow.

Ch1
Calibration status single
Cancel!
Calibr.status
Ready
Remaining time
0s
Concentration
0.000 ppm
Zero gas
0.000 ppm
Span gas
5000.000 ppm
Current range
Range 1
Applied gas
Sample gas

"Status.." opens a new screen with enhanced
calibration information about the current channel (indicated in the uppermost display line).

Ch1
Calibration results single
Zero result
Zero date
Soan result
Span date
Calibr. ranges

Success
31/01/2009
Success
31/01/2009None

"Results.." opens a new screen with results
of earlier calibrations (see left side).

Within this screen, "Deviations.." enables to
open another screen, showing the last and
and the summary of all deviations of earlier
calibrations.

Deviations..

Deviations

7-18

ZeroDev.
ZeroDev. total

0.000 ppm
0.000 ppm

SpanDev.
SpanDev. total

0.000 ppm
0.000 ppm

When finished press left several times to
return to either
SELECT COMPONENT (multi channel analyzer only), to perform a zero calibration for
another channel,
or
to CONTROL, where you may start a span
calibration. The procedure and screens look
similiar to those of a zero calibration:

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7.4.2 Manual Calibration
7.4.2.2	 Manual Span Calibration

Zero calibration..
Span calibration..
Advanced calibration..
Apply gas..
Lock menus!
Acknowledgements
Pump 1:
Pump 2:
Ranges..

Select "Span calibration.."
Off
Off

Span calibration offers the same options as
Zero calibration, so for a detailled description
7-17.

7

Span calibration
Cancel!
Start!
Span gas
0.000 ppm
Concentration
0.000 ppm
Flow
0.00 l/min
Status..
Results..
Restore!

Before selecting any further line
make sure the required calibration gas is applied and flowing!

Maintenance & Procedures

Multi-channel unit:
Select the channel to be calibrated in
SELECT COMPONENT.

When finished, press left several times to return to SELECT COMPONENT (multi channel
analyzer only), to perform a span calibration
for another channel,
or
press home to return to the MEASUREMENT
SCREEN, to finish with manual calibration
procedures.

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7.4.3 Advanced Calibration
7.4.3	 Advanced Calibration
Standard manual calibration procedures offer
limited funtionality:
To zero and span calibrate a multi channel
instrument the operator has to manually start
2 procedures per channel in proper sequence.
In addition he has to stay at the instrument to
see when the one sequence has finished and
to start the following.
The same is applicable for a single channel
instrument, when the operator wants to perform both zero and span calibrations.

(Although advanced calibration offers most
advantages for multi channel instruments, it
may be used for single channel analyzers as
well, that is to activate zero and span calibration for the one channel by a single key press.)
The only precondition for making use of this
new feature is to have internal and/or external valves installed and properly assigned
7-10).
(

To improve even manual calibration procedures, X-STREAM analyzers offer a new
ADVANCED CALIBRATION menu: It allows
single key activation for
•	 zero calibration of all channels of an analyzer
•	 span calibration of all channels of an analyzer
•	 zero and span calibration of all channels
of an analyzer

For a description of how to perform
	
	
	

7-20

all channel zero calibrations	
	
all channel span calibrations	
	
all channel zero & span calibrations	

	 page 7-21
	 page 7-24
	 page 7-27

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7.4.3 Advanced Calibration

Before selecting any further line
make sure the required calibration gas is applied!
Supply all calibration gases with
the same flow as the sample gas
(recommeded approx. 1 l/min),
pressureless and utilizing the
correct gas fitting (
sect.
3.4).
Make sure the purge time is set
to a value ensuring the measuring cell is filled properly with
the related calibration gas after
the valve has opened!
Ensure the warmup time after
switching on has elapsed!
Warmup time is 15 to 50 minutes
depending on installed measuring system and configuration!

7

The procedure starts with the first channel´s
zero valve, checks if other channel use the
same zero valve, then in parallel zeroes all
these channels and then selects the next zero
valve.
Fig. 7-4 on 7-23 for a procedure
flow diagram.

Maintenance & Procedures

7.4.3.1	 Zero All Calibration

Control..
Advanced Calibration..

Starting from the MEASUREMENT SCREEN
press enter to open the MAIN MENU and enter
CONTROL - ADVANCED CALIBRATION.

Advanced calibration 1of2
Cancel!
Zero&span single..
Zero all!
Span all!
Zero&span all!
Programmed sequence!
Blowback!


To start a zero calibration for ALL channels
select the 3rd line.

Emerson Process Management GmbH & Co. OHG

Note!
Single channel analyzers show the same
menu, with the restriction, that the term `all`
relates to the single channel only!

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7.4.3 Advanced Calibration
The analyzer immediately begins zero
calibration(s), showing the CALIBRATION
STATUS SUMMARY screen.

Calibration Status Summary
Calibration Status Single..
Current Action
Ready
Action Detail
Off
Current Duration
0s
Prev. Duration
0s
Current Step
0

"Current action" indicates, what currently is
carried out (purging, zeroing, ready)
"Action detail" shows the current procedure,
or Off
"Current duration" gives the remaining time
for the current procedure
"Prev. duration" shows the time elapsed since
start of procedure
"Current step" gives information about the
step currently carried out.
To see a detailled calibration status for a single channel, enter CALIBRATION STATUS
SINGLE,
Multi-channel unit:
Select the channel in SELECT COMPONENT.

Ch1
Calibration status single
Cancel!
Calibr.status
Ready
Remaining time
0s
Concentration
0.000 ppm
Zero gas
0.000 ppm
Span gas
5000.000 ppm
Current range
Range 1
Applied gas
Zero gas

to open the status screen with enhanced
calibration information about the current
channel (indicated in the uppermost display
line), including
remaining calibration time, currently measured concentration, setup of zero & span gas
concentrations and currently calibrated range
(only valid for span calibrations).
The procedure has finished when "Applied gas"
shows Sample gas, or "Current action" in the
previous screen says Ready.
Press home to return to the MEASUREMENT
SCREEN.

7-22

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7.4.3 Advanced Calibration

start
zero all
procedure

select
channel 1

start to
zero all channels
with the current
zero gas valve
assigned, considering the individual
purge times

is current
channel the
last channel?

Maintenance & Procedures

select all
channels with
the same
zero gas valve
assigned

Yes

END

No

7

wait until
all selected
channels are
zeroed

increase
channel no.
by 1

Yes

is this
channel
already
zeroed?

No

Fig. 7-4:	 Zero All Calibration Procedure Flow Diagram

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7.4.3 Advanced Calibration
7.4.3.2	 Span All Calibrations
Before selecting any further line
make sure the required calibration gas is applied!
Supply all calibration gases with
the same flow as the sample gas
(recommeded approx. 1 l/min),
pressureless and utilizing the
correct gas fitting (
sect.
3.4).
Make sure the purge time is set
to a value ensuring the measuring cell is filled properly with
the related calibration gas after
the valve has opened!
Ensure the warmup time after
switching on has elapsed!
Warmup time is 15 to 50 minutes
depending on installed measuring system and configuration!
Control..
Advanced Calibration..

Advanced calibration 1of2
Cancel!
Zero&span single..
Zero all!
Span all!
Zero&span all!
Programmed sequence!
Blowback!


Starting from the MEASUREMENT SCREEN
press enter to open the MAIN MENU and enter
CONTROL - ADVANCED CALIBRATION.
To start a SPAN calibration for ALL channels
select the 4th line.
7-30 for �������������������������������
notes on span calibrating channels with multiple ranges!
Notes!
Perform zero calibrations before initiating
span calibrations
Single channel analyzers show the same
menu, with the restriction, that the term `all`
relates to the single channel only!
The procedure starts with the first channel´s
span valve, checks if other channel use the
same span valve, then in parallel spans all these channels, and then selects the next span
valve.
Fig. 7-5 on 7-26 for a procedure
flow diagram.

7-24

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7.4.3 Advanced Calibration
The analyzer immediately begins span
calibration(s), showing the CALIBRATION
STATUS SUMMARY screen.

Multi-channel unit:
Select the channel in SELECT COMPONENT.

Ch1
Calibration status single
Cancel!
Calibr.status
Ready
Remaining time
0s
Concentration
0.000 ppm
Zero gas
0.000 ppm
Span gas
5000.000 ppm
Current range
Range 1
Applied gas
Zero gas

to open the status screen with enhanced
calibration information about the current
channel (indicated in the uppermost display
line), including
remaining calibration time, currently measured
concentration, setup of zero & span gas concentrations and currently calibrated range.
The procedure has finished when 'Applied gas'
shows Sample gas, or "Current action" in the
previous screen says Ready.
Press home to return to the MEASUREMENT
SCREEN.

Emerson Process Management GmbH & Co. OHG

7-25

Maintenance & Procedures

To see a detailled calibration status for a single channel, enter CALIBRATION STATUS
SINGLE,

7

Calibration status summary
Cancel!
Calibration status single..
Current action
Ready
Action detail
Ch2
Current duration
0s
Prev. duration
0s
Current Step
0

Press enter in the first line to cancel the current calibration
"Current action" indicates, what currently is
carried out (purging, zeroing, ready)
"Action detail" shows the current procedure,
or Off
"Current duration" gives the remaining time
for the current procedure
"Prev. duration" shows the time elapsed since
start of procedure
"Current step" gives information about the
step currently carried out.

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7.4.3 Advanced Calibration

start
span all
procedure

select
channel 1

select all
channels with
the same
span gas valve
assigned

start to
span all channels with the current span gas valve
assigned, considering the individual
purge times

is current
channel the
last channel?

Yes

END

No

wait until
all selected
channels are
spanned

increase
channel no.
by 1

Yes

is this
channel
already
spanned?

No

Fig. 7-5:	 Span All Calibration Procedure Flow Diagram

7-26

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7.4.3 Advanced Calibration

Control..
Advanced Calibration..

Advanced calibration 1of2
Cancel!
Zero&span single..
Zero all!
Span all!
Zero&span all!
Programmed sequence!
Blowback!


Emerson Process Management GmbH & Co. OHG

Starting from the MEASUREMENT SCREEN
press enter to open the MAIN MENU and enter
CONTROL - ADVANCED CALIBRATION.
To start a ZERO & SPAN calibration for ALL
channels select the 5th line.
7-30 for �������������������������������
notes on span calibrating channels with multiple ranges!
Notes!
Single channel analyzers show the same
menu, with the restriction, that the term `all`
relates to the single channel only!

7-27

7

Before selecting any further line
make sure the required calibration gas is applied!
Supply all calibration gases with
the same flow as the sample gas
(recommeded approx. 1 l/min),
pressureless and utilizing the
correct gas fitting (
sect.
3-4).
Make sure the calibration purge
time is set to a value ensuring the
measuring cell is filled properly
with the related calibration gas
after the valve has opened!
Ensure the warmup time after
switching on has elapsed!
Warmup time is 15 to 50 minutes
depending on installed measuring system and configuration!
This procedure is a combination of the two
described before, with an important deviation:
If a selected zero gas valve is also assigned
span gas valve for an already zeroed channel, this channel is spanned, while others are
Fig. 7-6 on 7-28 for a
zeroed in parallel (
procedure flow diagram).

Maintenance & Procedures

7.4.3.3	 Zero&Span All Calibration

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7.4.3 Advanced Calibration

start
zero all
procedure

select
channel 1

select all
channels with
the same
span gas valve
assigned

select all
channels with
the same
zero gas valve
assigned

increase
channel no.
by 1

No

is current
channel the
last channel?

Yes
is current
valve also
assigned span
gas valve?

Yes

select all
channels with
the same
span gas valve
assigned,
AND
already zeroed

select
channel 1

No

start to
zero all channels
with the current
zero gas valve
assigned, considering the individual
purge times

start to
calibrate (zero or
span) all channels
with this valve
assigned, considering the individual
purge times

wait until
all selected
channels are
zeroed

wait until
all selected
channels are
calibrated

span all
channels with
the current
span gas valve
assigned

is current
channel last
channel?

Yes

END

No
increase
channel no.
by 1

is this
channel
already
spanned?

No

Yes

Fig. 7-6:	 Zero&Span All Calibration Procedure Flow Diagram

7-28

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7.4.3 Advanced Calibration
The analyzer immediately begins to calibrate,
showing the CALIBRATION STATUS SUMMARY screen.

Ready
Ch2
0s
0s
0

To see a detailled calibration status for a single channel, enter CALIBRATION STATUS
SINGLE,
Multi-channel unit:
Select the channel in SELECT COMPONENT.

Ch1
Calibration status single
Cancel!
Calibr.status
Ready
Remaining time
0s
Concentration
0.000 ppm
Zero gas
0.000 ppm
Span gas
5000.000 ppm
Current range
Range 1
Applied gas
Zero gas

to open the status screen with enhanced
calibration information about the current
channel (indicated in the uppermost display
line), including
remaining calibration time, currently measured concentration, setup of zero & span
gas concentrations and currently calibrated
range.
The procedure has finished when "Applied
gas" shows Sample gas, or "Current action"
in the previous screen says Ready.
Press home to return to the MEASUREMENT
SCREEN.

Emerson Process Management GmbH & Co. OHG

7-29

Maintenance & Procedures

Calibration status single..
Current action
Action detail
Current duration
Prev. duration
Current Step

7

Calibration status summary

"Current action" indicates, what currently is
carried out (purging, zeroing, spanning,
ready)
"Action detail" shows the channel currently
calibrated
"Current duration" gives the remaining time
for the current procedure
"Prev. duration" shows the time elapsed since
start of procedure

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7.4.3 Advanced Calibration
7.4.3.4	 Notes on Span Calibrating Channels With Multiple Ranges
X-STREAM XE series gas analyzers support up to 4 ranges per measuring channel
6-44).
(
For valve supported calibrations, each range
can be assigned an individual span gas valve (
6-37 and figure to the left).
Ch1


Valve assignment 2of3
Span1 valve:
V1
Purge time:
1s
Span2 valve:
V1
Purge time:
5s
Span3 valve:
V4
Purge time:
5s
Span4 valve:
V4
2s
Purge time:

Example:
Span gas valves configuration
Channel Range 1 Range 2 Range 3 Range 4
1
V1
V1
V4
V4
2
V1
V2
V4
V4
3
V4
V2
V5
-4
V5
V5
V5
V5

During calibrations, ranges are considered
in a special way:
•	 Ranges not assigned a span gas valve are
disregarded for span procedures.
•	 The main order of span calibrations is
based on ascending order of channels:
Firstly the channel 1 valves are selected
in ascending order, then the (not yet used)
valves of channel 2, etc., considering the
next two conditions, saving time and gas
consumption:
•	 Ranges of the same channel with the
same valve assigned: Only one range is
span calibrated, and the resulting data is
copied into the other range.
•	 Ranges of different channels with the
same valve assigned are calibrated in
parallel, considering the individual purge
times.
Note!
Except for copied data, all calibration steps
can be reviewed in the event logger file.

Resulting span calibration procedure, focusing on handling of ranges
Step Valve
1

V1

Ch1 / R1

2

V4

Ch1 / R3

3
4

V2
V5

Ch2 / R2
Ch3 / R3

7-30

Calibrated channel / range (Cn / Rn)
Ch 1 / R2
Ch2 / R1
(R1 data copied)
Ch2 / R4
Ch1 / R4
Ch3 / R2
Ch2 / R3
(R3 data copied)
(R3 data copied)
Ch3 / R2
Ch4 / R1
(Ch4 / R1 data copied to all remaining Ch4 ranges)

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7.4.3 Advanced Calibration
7.4.3.5	 Blowback

From ADVANCED CALIBRATION you may
also start a blowback procedure:
Press enter in this line to .
While the procedure is active, a "Function
executing" message appears.

7

Maintenance & Procedures

Advanced calibration 1of2
Cancel!
Zero&span single..
Zero all!
Span all!
Zero&span all!
Programmed sequence!
Blowback!


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7.4.4 Remote Calibration
7.4.4	 Remote Calibration
Remote calibrations may be initialized by digital inputs or Modbus commands, whereas
both offer different functionalities:
Remote calibration via digital inputs (option)
is feasible only in combination with internal or
external valves and is limited to 3 procedures,
to be assigned to any digital input:
•	 Zero calibrate all channels (Zero all),
•	 span calibrate all channels (SpanAll) and
•	 zero & span calibrate all channels (Zero &
span all).
Note!
By activating span calibrations, it is the operators responsibility to not perform a span calibration without a preceding zero calibration!
The Modbus interface offers more variability
in performing calibrations:
•	 Calibration without valves:
The Modbus command initializes the procedure within the analyzer, but the operator
has to take care that the gases are supplied
in proper order, has to consider purge times
as well as the condition to not perform a
span calibration without a preceding zero
calibration. So, in this configuration Modbus
may be used e.g. together with an external
sample handling system that controls the
gas flow.

•	 Calibration with valves:
Installed and assigned valves (
7-10)
support two different variations of how to
perform calibrations:
1. Perform single calibrations
The Modbus command initializes single
procedures (zero or span calibrations).
The analyzers controls gas supply and
purge times while it is the operators responsibility to not activate a span calibration without a preceding zero calibration!
2. Special calibration procedures:
• Zero calibrate all channels
• Span calibrate all channels
• Zero & span calibrate all channels.
Initialized by the Modbus command the
analyzer performs above mentioned procedures and controls gas supply, purge
times and (for the last given procedure
only) performs a zero calibration for all
channels before activating span calibrations.

For detailled descriptions on how to perform
		
		
		

7-32

calibrations initialized via digital inputs	 		
calibrations initialized via Modbus, without valves	
calibrations initialized via Modbus, with valves		

7-33
7-35
7-35

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7.4.4 Remote Calibration
7.4.4.1	 Calibrations Initialized by Digital Inputs
As already mentioned, the analyzer must either provide internal valves or external valves
(connected to its digital outputs), to make use
of this feature.

time slot starts after the zero calibration has
ended (see fig. 7-7, signal D), otherwise it
is rejected (signal B)..

	 Chapter 4 for information about electrical data and installation of digital inputs and
outputs.

Maintenance & Procedures

Digital inputs are edged triggered whereat the
type of edge (rising or falling) can be setup
via software menu (
6-7171).
An edge is detected within a time slot of 300
to 500 ms after the edge is applied. To be
accepted as an input signal,
•	 no change in signal is permitted for a minimum duration of 500 ms after the edge
has been applied, otherwise it is rejected.

Emerson Process Management GmbH & Co. OHG

7

Furthermore take care
•	 calibrations can only be canceled by an
approriate digital input signal or command,
but not by another calibration trigger signal
•	 while a calibration is ongoing, any valve
can only be activated if it is not used by this
calibration procedure, and not assigned to
a channel currently calibrated.
•	 input signals, intended to start another
procedure, must be applied complying to
the following condition:
•	 if this next procedure affects components
already in use for the ongoing procedure,
the edge detection time slot must start
after the ongoing procedure has ended
For example, during an ongoing zero calibration, an input signal to start a span
calibration for the same channel should
be applied after the zero calibration has
finished. At least it must be applied in a
way, that the 300 to 500 ms edge detection

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7.4.4 Remote Calibration

Examples
The sequences shown in Fig. 7-7 are based on the following setup for digital inputs IN1 to IN3:
•	 IN1 starts a zero calibration, initiated by a rising edge
•	 IN2 starts a span calibration, initiated by a rising edge
•	 IN3 cancels all calibrations with its falling edge

Zero
calibration

Span
calibration

Cancel
Calibration
If signals are applied as shown, then
•	 IN1 (A) starts a zero calibration (Z1)
•	 the detection window (300 - 500 ms after edge) for IN2 (B) begins while the zero calibration (Z1) is ongoing: Signal
(B) is ignored
•	 the edge of IN1 (C) is detected and the associated zero calibration (Z2) is started
•	 the detection window (300 - 500 ms after edge) for IN2 (D) begins after the zero calibration (Z2) has ended, so
the span calibration (S1) is started
•	 the span calibration (S1) is canceled by the falling edge of IN3 (E)
Fig. 7-7:	 Digital Inputs - Examples of Sequences

7-34

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7.4.4 Remote Calibration
7.4.4.2	 Modbus Activated Calibrations Without Valves

7.4.4.3	 Modbus Activated Calibrations With Valves
Several Modbus commands allow to start
calibrations (
Chapter 9, List of Modbus
Commands).
If the analyzer provides either internal valves
or digital inputs and outputs (for controlling
external valves), then Modbus commands
allow to make use of all the options described
in Section 7.3.3 'Advanced Calibration' (page
7-20), with the Modbus commands replacing
the manual front panel button keypresses.

Emerson Process Management GmbH & Co. OHG

This means, Modbus commands can initialize
•	 Zero calibrate all channels
•	 Span calibrate all channels
•	 Zero and span calibrate all channels.
The analyzer controls the gas flow, if applicable optimizes the sequence of multiple
calibrations and takes care to not activate
a span calibration without a preceding zero
calibration.

7-35

Maintenance & Procedures

This means, the Modbus command immediately starts the calculation. The operator
has to ensure in this moment, the proper gas
is applied and the measuring system is filled
with calibration gas. If applicable, he also has
to take care to not activate a span calibration
without a preceding zero calibration.
For detailled instructions about manual calibration
7-17.

7

Several Modbus commands allow to start
calibrations (
Chapter 9, List of Modbus
Commands).
If the analyzer does neither provide internal
valves nor digital inputs and outputs (for controlling external valves), then the procedure
corresponds to the manual calibration, with
the Modbus commands replacing the manual
front panel button keypresses.

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7.4.5 Unattended Automatic Calibration
7.4.5	 Unattended Automatic Calibration
The unattended automatic calibration feature
allows to program the analyzer to automatically perform valve supported calibration
procedures without the need of digital inputs
or Modbus interface connections.
Compared to the procedures described in the
section before (advanced calibration), there
are only very limited options, comparable to
the manual calibration procedures: The operator has the simple choice of programming
zero, or zero and span calibration intervals.
The main features compared to advanced
calibrations as described from 7-18 are:
1) 	 an interval time specifies the time between two calibrations
2)	 starting and processing calibrations does
not need operator interaction
3)	 for span calibrations the analyzer consi   ders the requirement, that always a zero
calibration has to be carried out first,
4)	 (multi channel instruments only): Every
time an unattended calibration is started,
it is carried out for all channels!

7-36

Before selecting any further line
make sure the required calibration gases are applied, and valves are assigned properly!
Supply all calibration gases with
the same flow as the sample gas
(recommended approx. 1 l/min),
pressureless and utilizing the correct gas fittings (
sect. 3.4).
Make sure the calibration purge
time is set to a value ensuring
the measuring cell is filled properly with the related calibration
gas after the valve has opened!
Ensure the warm-up time after
switching on has elapsed!
Warm-up time is 15 to 50 minutes
depending on installed measuring system and configuration!

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7.4.5 Unattended Automatic Calibration

Setup..
Calibration..
Interval times..

Zero all..
Zero & span all..
Programmed sequence..
Blowback all..

Settings

Diagram

7

Several time intervals may be specified:
"Zero all..": This entry specifies intervals for
zero calibrations only! If there is an entry for
"Zero & span all..", too, the instrument will
carry out additional zero calibrations based
on the "Zero & span all.." interval.
"Zero & span all..": This is the interval to elapse before the analyzer automatically starts a
full calibration procedure, consisting of a zero
calibration followed by a span calibration.
"Programmed sequence..": This is the interval time for the sequence, setup in SETUP CALIBRATION - PROGRAM SEQUENCE
"Blowback all..": To blowback all channels at
regular intervals, enter this submenu.

Interval times

Description

Zero all: T1
Zero & span all: 0

Zero calibrations only;
time interval T1

Zero all: 0
Zero & span all: T2

Span calibrations preceded by
zero calibrations; time interval T2

Zero all: T1
Zero & span all: T2

Span calibrations, preceded by
zero calibrations (time interval T2),
and additional zero calibrations
(time interval T1)

Fig. 7-8:	 Graphical Explanation of Interval Time Settings

Emerson Process Management GmbH & Co. OHG

Maintenance & Procedures

Within SETUP - CALIBRATION, "Interval
time.." opens the following screen:

7-37

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7.4.5 Unattended Automatic Calibration
All submenus opened by above menu lines
have the same content, exemplarily described
below:
Set to Enabled, to use interval times for the
selected calibration (here: Zero all)
Enter the interval time
Accepted range: 1 ... 10,000 h

Zero all
Enable:
Interval:
Start time..

Enabled
15 h

In this submenu enter the start time for the
first calibration (s. below)

Next:

--

Time

10/01/10 15:33

Start time & date for the next calibration,
based on the entered parameters (empty
until date & time have been entered in the
submenu)
Current date & time

Start zero all
Month:
Day:
Hour:
Minute:
Set!
Next

1
10
16
0
10/01/10 16:00

In this submenu enter the date and start
time for the first calibration after finishing this
setup.
Note!
Time format is 24h (1 pm = 13)
Start time & date for the next calibration,
based on the entered parameters

Zero all
Enable:
Interval:
Start time..

7-38

Enabled
15 h

Next:

10/01/10 16:00

Time

10/01/10 15:33

Press left to return to the previous menu, to
see a summary.
Note!
If the displayed current time is not correct,
update the system setup on
6-100.

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7.4.6 Verifying a Calibration
7.4.6	 Verifying a Calibration
For instruments without internal and/or external valves simply apply either span or zero
calibration gas to the sample gas inlet. If the
calibration still is proper, the reading on the
MEASUREMENT SCREEN should show the
related value.
For instruments with internal and/or external
valves follow the procedure below:
Starting from the MEASUREMENT SCREEN
press down to open the MAIN MENU and
enter CONTROL.
Enter APPLY GAS

Maintenance & Procedures

Off
Off

Multi-channel unit:
Select the component to be verified in
SELECT COMPONENT.

Ch1
Apply gas
Applied gas:
Flow
Concentration

Span gas
1.00 l/min
25.000 ppm

Changing the "Applied gas" parameter opens
the related valve.
Available options:
SpanGas-1 ... -4, ZeroGas, SampleGas,
Blowback, All closed.
"Flow" shows the current gas flow, while "Concentration" should show the expected value,
if the calibration is valid and correct.

Emerson Process Management GmbH & Co. OHG

7-39

7

Zero calibration..
Span calibration..
Advanced calibration..
Apply gas..
Lock menus!
Acknowledgements
Pump 1:
Pump 2:
Ranges..

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7.4 Calibration Procedures
7.4.8	 Restoring a Calibration
Ch1
Zero calibration
Cancel!
Start!
Zero gas
0.000 ppm
Concentration
0.000 ppm
Flow
0.00 l/min
Status..
Results..
Restore!

In case a wrong configuration was detected
after a calibration was carried out (e.g. wrong
gas connected), there is an option to restore
the last calibration data:
Any menu, from where a channel specific
calibration can be started, shows a line "Restore!" (see example to the left).
Press enter in such a line to restore the last
calibration data for the selected channel and
type of calibration (zero/span). While restore
is processing, a 'Function executing' message
appears.

7.4.7	 Cancelling an Ongoing Calibration
Ch1
Zero calibration
Cancel!
Start!
Zero gas
0.000 ppm
Concentration
0.000 ppm
Flow
0.00 l/min
Status..
Results..
Restore!

7-40

Any menu, from where a calibration can be
started, shows a line "Cancel!" (see example
to the left).
Press enter in such a line to cancel any ongoing calibration. While canceling, a 'Function
executing' message appears.

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7.5 Replacing the Electrochemical Sensor
7.5	 Replacing the Electrochemical Sensor

designed life (% hours)
O2 concentration (%)

The sensor‘s designed life under constant
conditions of 20 °C is approx. 900,000 hrs.
The lifetime at 21 % oxygen is therefore calculated to approx. 42,857 hrs, corresponding
to approx. 5 years.
Irrespective of all calculations above:
A sensor is worn-out when, connected to
ambient air, the output voltage is less than
2.8 V: Replace the sensor!
For replacing the electrochemical sensor the
following tools are required:
•	 Philips screw drivers # 0 & 2
•	 Square key for the field housing's squash
fasteners
•	 allen key for the flameproof analyzer to
remove/open the cover/front door.
•	 1 digital volt meter (measuring range
0 ... 2 V dc minimum) with suitable cables
and probes.

Emerson Process Management GmbH & Co. OHG

Note 2!
Due to the measuring principle the electrochemical oxygen cell requires a minimum
internal consumption of oxygen (residual
humidity avoids drying up the cell). Supplying
cells continuously with dry sample gas of low
grade oxygen concentration or with sample
gas free of oxygen could result in a reversible
detuning of O2 sensitivity. The output signal
will become unstable, but response time remains constant.
For proper measurement results the cell
needs to be supplied continuously with concentrations of at least 0.1 Vol.-% O2.
We recommend using the cell if need be in
alternating mode, means to purge the cell with
conditioned ambient air (not dried, but dust
removed) when measurement pauses.
If it is necessary to interrupt the oxygen supply for several hours or days, the cell has to
regenerate (supply cell for about one day with
ambient air). Temporary flushing with nitrogen
(N2) for less than 1 h (e.g. for analyzer zeroing purpose) has no influence on measuring
characteristics.

7-41

Maintenance & Procedures

Lifetime =

Note 1!
The given lifetime values are for reference
only! The expected lifetime is greatly affected by the temperature of the environment in
which the sensor is used or stored. Increases
or decreases in atmospheric pressure have
the same effect as that by increases or decreases in oxygen concentration. (Operation
at 40 °C halves lifetime).

7

In consequence of its design the sensor‘s
lifetime is limited and depends on theoretical
designed life and Oxygen concentration.
The sensor output can be taken as a rough
criterion for end of lifetime: The sensor is
worn-out when the output in atmosphere is
below 70 % of the initial output. The period
till then can be calculated by

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7.5 Replacing the Electrochemical Sensor

ELECTRICAL SHOCK HAZARD
Working at opened and powered instruments means working near live parts
and is subject to instructed and trained personnel only!

HAZARD FROM EXPLOSIVE, FLAMMABLE AND HARMFUL GASES

Before opening gas paths they must be purged with ambient air or neutral
gas (N2) to avoid hazards caused by toxic, flammable, explosive or harmful
to health sample gas components!

ELECTROSTATIC DISCHARGE HAZARD
Working at internal components of electronical and electrical instruments
may cause electrostatic discharge (ESD), destroying components!
Working at open instruments is recommended at special workplaces only!
If no such workplace is available, at minimum perform the following
procedures to not destroy electronic components:
Discharge the electric charge from your body. Do this by touching a device
that is grounded electrically (e.g. instruments with earth connectors, heating
installations). This should be done periodically when working at open
instruments (especially after leaving the service site, because e.g. walking
on low conducting floors might cause additional ESD).

7-42

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7.5 Replacing the Electrochemical Sensor

HAZARD FROM WEAK ACID AQUEOUS SOLUTION
If the electrolyte leaks due to sensor damage, put the sensor in a plastic
bag so that the solution will not be smeared on other places and return the
sensor to Emerson Process Management or an industrial waste management
contractor.

If the electrolyte leaked due to sensor damage gets into an eye,
immediately wash the eye with a large amount of tap water for 15
minutes and consult a doctor promptly.
If the electrolytic solution or atomized electrolytic solution leaked due
to sensor damage is inhaled, immediately wash the nostrils and gargle
with tap water and consult a doctor promptly.
Do not disassemble or repair the sensor. Removing a sensor part or
remodeling the sensor will damage the sensor or leak the electrolyte and
restoration to the original condition may not be possible.
If the electrolyte leaked due to sensor damage is swallowed, immediately
wash the mouth with tap water. Swallow a large amount of tap water
or 600 cm³ (20.29 fl.oz) of milk and vomit it. Consult a doctor promptly.
Discarded sensors cause environmental contamination. Return a worn-out
sensor to Emerson Process Management or an industrial waste management
contractor when discarding a worn-out sensor.

Emerson Process Management GmbH & Co. OHG

7-43

7

If the electrolyte leaked due to sensor damage is smeared on the skin
or clothing, immediately wash the contacted part with soapy water and
wash off the solution with a large amount of tap water.

Maintenance & Procedures

The electrolyte is a weak acid aqueous solution of 5 to 6 in pH with an
irritating odor. It will not ignite spontaneously even if it is left. Nevertheless,
lead acetate, which is a component of the solution, is harmful to human
bodies and should be handled with care as follows:

Instruction Manual

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HASXEE-IM-HS
10/2010

7.5 Replacing the Electrochemical Sensor
7.5.1	 General Hints on Handling the Sensor
GENERAL HINTS ON HANDLING THE SENSOR
Do not expose the sensor to a temperature other than the temperature range of -20 to
+60‘C (-4 to +140 F). Exposing to a temperature outside the temperature range may
cause abnormal output or leak of the electrolyte due to parts degradation or damage.
Make sure to prevent condensation of the oxygen concentration detecting part. If
condensed, the output will lower and response speed will slow down, disabling accurate
concentration measurement. The sensor characteristics will return to the original
characteristics if condensation moisture evaporates after putting the sensor in dry air
several hours to several days.
Do not drop or apply a violent shock or vibration to the sensor. If shocked or vibrated, the
sensor output may temporarily vary or become unstable. The original sensor condition
will usually reset by putting the sensor in a stationary condition in the atmosphere at
a ordinary temperature several hours to several days. Depending on the degree of a
shock or vibration, the internal sensor structure may break and the sensor may not
return to original condition.

7-44

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Instruction Manual

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7.5 Replacing the Electrochemical Sensor
7.5.2	 Opening X-STREAM Analyzers

ELECTRICAL SHOCK HAZARD
Live parts are accessible when working at open instruments!
Take care to observe all applicable safety instructions!
7.5.2.1	 How to Open X-STREAM XEGP
Remove the top cover after loosening the 12
screws.
If your instrument features an internal heated
fig. 7-11 on next for information on
box,
how to open.

Maintenance & Procedures

12 screws on top
of the instrument

Fig. 7-9:	 X-STREAM XEGP

7.5.2.2	 How to Open X-STREAM XEGC

7

Loosen the 4 screws for the cover, push the
cover towards the rear and remove it.




2 screws on each side
of the instrument
Fig. 7-10:	 X-STREAM XEGC

Emerson Process Management GmbH & Co. OHG

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HASXEE-IM-HS
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7.5 Replacing the Electrochemical Sensor
7.5.2.3	

How to Open X-STREAM XEF / XDF

Depending on the individual analyzer configuration, either open the upper or lower
front door to the left, utilizing the two sash
fasteners.
sash fasteners

7.5.2.4	 How to Open X-STREAM XEFD
To open a X-STREAM XEFD loosen the 20
screws located at the instrument´s flange.
Then carfeully flip down the front door to not
damage the instrument, hinges or equipment
installed below the analyzer.

locking
device

Fig. 7-11:	 X-STREAM Field Housings - Interior Views
(shown Without Front Doors)

unlocked position



Note 2!
To remove the box loosen the 2 screws of the locking device,
push it´s slider upwards as shown to the right, and take out
the box to the frontside of the instrument!

locked position	

push here
to unlock



Note 1!
The internal box covering the physical components, as
shown in this figure, is optional and may not be installed in
your specific instrument!

push this
way to lock

Locking device details

EXPLOSION HAZARD
Special variations of X-STREAM XEF and XDF. as well as X-STREAM XEFD
may be installed in hazardous areas.
Maintaining such instruments is permitted only considering special
conditions, given in the related separate manuals.
Do not open nor maintain instruments in hazardous areas without having
read and understood all associated instruction manuals!

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HASXEE-IM-HS
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7.5 Replacing the Electrochemical Sensor
7.5.3	 Locating the Sensor

7

Maintenance & Procedures

The instruments provide two different variations of internal designs (except 1⁄2 19'
instruments):
•	 Instruments with internal heated box covering the physical components cannot
provide an electrochemical sensor due
to the limited temperature range of the
sensor itself
•	 Instruments without internal heated box
have the sensor installed onto the basic
mounting plate.

eO2
Sensor Unit

Fig. 7-12:	 Location of the EO2 Sensor Unit

Emerson Process Management GmbH & Co. OHG

Note!
Exemplary this figure shows the internal design of a
X-STREAM XEGP analyzer. The other analyzer variations
are designed in a comparable way.

7-47

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HASXEE-IM-HS
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7.5 Replacing the Electrochemical Sensor
7.5.4	 Disassembling the Sensor Unit
The sensor unit consists of a holder, an electronics board and the sensor itself, all together
installed on a base plate (Fig. 7-13).
After loosening the nut (5), push the holder
(3) with sensor (1) until the nut is above the
hole (see details), then lift the holder from the
base plate (4). The sensor is still fixed in the
holder by means of a clip (8).
Now loosen the screws (7), fixing the sensor
block (6) to the holder, push the holder downwards until the screws heads slip through the
holes.





3

1

2

3

5





(details
rotated
90°)

4

Sensors



6

7

Pull off the signal connector from the electronics board (2) and take off the sensor.
Take a new sensor, remove its plug, insert the
sensor into the block and connect the signal
connector to P3 on the electronics board (Fig.
7-14).



8

7

3

Fig. 7-13:	 Sensor Unit Design
1	
2	
3	
4	

Sensor
Electronics Board
Holder
Base Plate

7-48

5	
6	
7	
8	

Nuts
Sensor block
Screws
Clip

weared

new

Now re-assemble the sensor unit in reverse
order, but do not yet install it into the analyzer
as it requires a signal adjustment.

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Instruction Manual

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7.5 Replacing the Electrochemical Sensor
7.5.5	 Adjusting the Output Signal

Having replaced the worn sensor, the board´s
output signal requires some adjustment.

ELECTRICAL SHOCK HAZARD

Tp 1

Strip P3 for sensor connection

Fig. 7-14:	 OXS Board, Top View

Emerson Process Management GmbH & Co. OHG

Tp 2

Procedure:
•	 power on the open instrument.
•	 Supply ambient air (approx. 21 % O2)
•	 Connect a digital voltmeter (DVM) to
	 Tp 1 (signal) and Tp 2 (GND) on the elec	 tronics board OXS (fig. 7-14).
•	 Adjust the measured signal to 3360 mV DC
	 (± 5 mV) utilizing the potentiometer R4 on
	 OXS board.

Note!
Once the output signal has been adjusted for
a specific sensor, changing the potentiometer settings will cause incorrect measuring
results!

7-49

7

Potentiometer R4

Maintenance & Procedures

Working at open and powered instruments means working near live parts
and is subject to instructed and trained personnel only!

Instruction Manual

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7.5 Replacing the Electrochemical Sensor
7.5.6	 Finalizing the Sensor Replacement
•	 Disconnect the analyzer from power
•	 Re-install the sensor unit into the analyzer
•	 Close the housing. Take care to use all
screws, especially if the instrument is to
be used in hazardous areas!
In a next step for proper measuring results,
perform a zero and a span calibration at least
for the channel with the replaced sensor.

EXPLOSION HAZARD
Special conditions and instructions for start-up after maintenance apply to
instruments to be operated in hazardous areas!
Not observing these conditions and instructions may cause explosions!
See the associated manuals, provided with instruments for use in hazardous
areas, for more information.

To ensure proper disposal, send back the old
sensor to the EMERSON Process Management factory (or to your local sales office) or
to an industrial waste management contractor
for waste disposal.

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Instruction Manual

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7.6 Cleaning the Instrument´s Outside
7.6	 Cleaning the Instrument´s Outside
Use a liquid general purpose detergent and
a lint-free cloth for cleaning the analyzer´s
outside.

HAZARD FROM UNHEALTHY SUBSTANCES

Take care to follow the safety instructions and instructions for use given
by the manufacturer of the chosen general purpose detergent!

EXPLOSIVE, FLAMMABLE AND HARMFUL GASES HAZARD

Before opening gas paths they must be purged with ambient air or neutral
gas (N2) to avoid hazards caused by toxic, flammable, explosive or harmful
to health sample gas components!

Seal the open analyzer´s gas
fittings utilizing PVC caps to
avoid contamination of inner
gas path.
•	 Moisten the lint-free cloth with a mixture of
3 parts of water and 1 part of the general
purpose detergent.

Emerson Process Management GmbH & Co. OHG

Do NOT drench the cloth, just
moisten it to prevent liquid entering the housing!
•	 Clean the analyzer housing outside with
the moistened cloth.
•	 If need be dry the housing after cleaning.

7-51

7

Maintenance & Procedures

Procedure
•	 Disconnect the instrument from power!
•	 If disconnecting from gas lines is required,
take care of the following:

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
10/2010

7.7 Save / Restore Configuration Data Sets
7.7	 Save / Restore Configuration Data Sets
After some time of operating the instrument,
one can assume all the parameters (calibration
gases setup, measuring ranges, inputs and
outputs, etc) are setup to meet the application´s
and operator´s needs. To save these settings
for means of restoring them in case of failures,
data loss or even overwriting, use the options
of the SETUP - SAVE-LOAD menus.
X-STREAM analyzers support saving analyzer data by providing different options:
Local backup	
Use this option to save the current data in
a special analyzer memory section.
Factory defaults..	
This is the data, stored in a special memory section after the instrument has
been configured in the factory. The user
cannot change, but only restore this
data.
USB backup	
This option enables to save or restore an
analyzer configuration to/from an external
USB device. This way e.g. administrators can save analyzer configurations
separately from the analyzer at a safe
location.

Note!
During backup or restore processes, a progress indicator menu is shown: "Busy" turns
from 0 to 1. "Progress (0..1000)" shows 1000
when copying data has finished.

Copying data
Busy
Progress (0..1000)

7-52

0
1000

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7.7 Save / Restore Configuration Data Sets

USB backup
Backup/Restore
to/from
external device

On user request restore and overwrite current configuration in RAM
(USB BACKUP - RESTORE,
7-60 )

Backup on user request
(USB BACKUP - SAVE,
7-57)

CfgData
configuration
used during
operation

FactData
Factory setup
configuration

Overwrites after factory
analyzer startup

Automatically overwrites in case
of faulty checksum, or manually on user request
(LOCAL BACKUP - RESTORE,
7-55)

7

Overwrites after factory analyzer
startup, or on user request
(LOCAL BACKUP - SAVE,
7-54)

Maintenance & Procedures

Overwrites on user request
(FACTORY DEFAULTS - RESTORE,
7-56)

UserData
configuration
saved to local
FRAM

Fig. 7-15:	 Relations of Supported Data Sets, and Where to Find Further Information

Emerson Process Management GmbH & Co. OHG

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HASXEE-IM-HS
10/2010

7.7 Save / Restore Configuration Data Sets
7.7.1	 Local Backup - Save
Starting at the MEASUREMENT SCREEN
press down to open the MAIN MENU, enter
SETUP and next SAVE-LOAD.. .

Setup..
Save-Load..

If system is setup accordingly, access level 3
code must be entered to gain access to this
menu.

Save-Load
Local backup..
Factory defaults..
USB backup..

Highlight "Local backup.." and press enter.

Local backup
Save..
UsrBack date
Restore..
Undo restore!
Busy
Progress

7/29/09 14:26

Store new local backup
and overwrite old one!
Are you sure?

Highlight 'Save..' and enter the submenu.

0
0

A screen appears to confirm the operation:
Select Yes! and press enter to see a new
screen, showing the current status.

No!
Yes!

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Instruction Manual

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7.7 Save / Restore Configuration Data Sets
7.7.2	 Local Backup - Restore
Starting at the MEASUREMENT SCREEN
press down to open the MAIN MENU, enter
SETUP and next SAVE-LOAD.. .

Setup..
Save-Load..

If system is setup accordingly, access level 3
code must be entered to gain access to this
menu.

Save-Load
Local backup..
Factory defaults..
USB backup..

Local backup
Save..
UsrBack date
Restore..
Undo restore!
Busy
Progress

7/29/09 14:26
0
0

Information about the last backup
Highlight "Restore.." and enter the submenu.

Restore from local backup!
This will restart device!
Are you sure?

A screen appears to confirm the operation:
Select Yes! and press enter to see a new
screen, showing the current status.

Emerson Process Management GmbH & Co. OHG

7-55

No!
Yes!

7

Maintenance & Procedures

Highlight "Local backup.." and press enter.

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
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7.7 Save / Restore Configuration Data Sets
7.7.3	 Factory Defaults - Restore
Setup..
Save-Load..

Starting at the MEASUREMENT SCREEN
press down to open the MAIN MENU, enter
SETUP and next SAVE-LOAD.. .
If system is setup accordingly, access level 3
code must be entered to gain access to this
menu.

Save-Load
Local backup..
Factory defaults..
USB backup..

Highlight "Factory defaults.." and press enter.

Factory defaults
FacBack date
Restore..
Undo restore!
Busy
Progress

7/29/09 14:26

Restore factory defaults!
This will restart device!
Are you sure?
No!
Yes!

7-56

Information about the last backup
Highlight "Restore.." and enter the submenu.

A screen appears to confirm the operation:
Select Yes! and press enter to see a new
screen, showing the current status.
Note!
All changes regarding the analyzer setup,
applied after instrument was shipped, will be
overwritten!

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7.7 Save / Restore Configuration Data Sets
7.7.4	 USB Backup - Save
IMPORTANT INFORMATION!
Read carefully before activating USB procedures!

Installation
Mass storage devices can be hot-plugged.
After attaching a device, the analyzer will automatically recognize it, if the USB interface is
enabled;
6-103. However, do not remove
a memory device, while data transmission is
ongoing, this can cause loss of data!

Fig. 7-16:	 USB File System Structure

Auto-Run Feature
It is possible to initiate special procedures
upon connecting a mass storage device,
e.g. updating the firmware, firmware backup,
7-66 for more
configuration backup, etc.,
information.

Formatting
Prior to first usage, it is recommended to format
the mass storage device by the analyzer:
•	 Attach an USB device
•	 Enter SETUP - USB INTERFACE (may
require to enter access level 3 code)
•	 Select "Format USB stick.." and press
enter.

Emerson Process Management GmbH & Co. OHG

7-57

Maintenance & Procedures

Supported Mass Storage Device Types
Unfortunately not all USB mass storage
devices are completely compatible with the
interface.
It is recommended to use brands like SANDISK, KINGSTON, TOSHIBA etc.
Before finally storing data, check for proper
operation!

File System
The analyzer requires a special file system
on the memory device:
After installation (and formatting), the analyzer
checks the file system on the mass storage
device, and automatically creates whatever
is required.

7

The analyzer provides a dual-mode USB 1.0
interface, which comes with two connectors.
The primary purpose of the bigger connector
is to attach mass storage devices such as
sticks or disk drives, while the smaller mini
USB connector is preserved to connect a PC/
computer.
Note!
Using both connectors in parallel is not supported. Connecting a PC will disable mass
storage functionality.

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
10/2010

7.7 Save / Restore Configuration Data Sets

Starting at the MEASUREMENT SCREEN
press down to open the MAIN MENU, enter
SETUP and next SAVE-LOAD.

Setup..
Save-Load..

If system is setup accordingly, access level 3
code must be entered to gain access to this
menu.

Save-Load
Local backup..
Factory defaults..
USB backup..

Highlight "USB backup.." and press enter.

USB backup
Save..
Restore..
Undo restore!
Busy
Progress

Highlight "Save.." and enter the submenu.
0
1000

Save config to USB stick
and overwrite old file!
Are you sure?
No!
Yes!

7-58

Note!
Take care to have an USB device connected
to the analyzer´s USB port!
A screen appears to confirm the operation:
Select Yes! and press enter to see a new
screen, showing the current status.

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7.7 Save / Restore Configuration Data Sets

7

Maintenance & Procedures

The backup files are stored within the USB
device' file structure, in a subdirectory 'config'.
For more information on the USB device file
system structure,
6-104

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10/2010

7.7 Save / Restore Configuration Data Sets
7.7.5	 USB Backup - Restore
Starting from the MEASUREMENT SCREEN,
press down to open the MAIN MENU, enter
SETUP and next SAVE-LOAD.. .

Setup..
Save-Load..

If system is setup accordingly, access level 3
code must be entered to gain access to this
menu.

Save-Load
Local backup..
Factory defaults..
USB backup..

In this line press enter.

USB backup
Save..
Restore..
Undo restore!
Busy
Progress

Enter this submenu.
0
1000

Restore config from USB stick!
This will restart device!
Are you sure?
No!
Yes!

7-60

Note!
Take care to have an USB device connected
to the analyzer´s USB port (icon to be visible
in the first menu line)!
A screen appears to confirm the operation:
Select Yes! and press enter to start the process.

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7.7 Save / Restore Configuration Data Sets
7.7.6	 Undo Restore

Local backup
3/16/10 14:26
0
0

7

Maintenance & Procedures

Save..
UsrBack date
Restore..
Undo restore!
Busy
Progress

Each backup menu has a function line called
"Undo restore!" to undo the last restore backup operation, as shown exemplarily shown by
the figures to the left (local backup menu).
This works from any backup/restore menu,
and undoes any last restore, regardless if this
was started from the current or from another.
During the undo process, a 'Function executing' message appears.

Emerson Process Management GmbH & Co. OHG

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7.8 Logfiles
7.8	 Handling Log Files
Log files are created by the internal data
logger, event logger and calibration logger,
whereat the latter are part of optional software
upgrade packages.

Working with log files is in the following exemplarily explained on the basis of the data
logger:

7.8.1	 Configuring Log Files

Data logger
Logging:
Sample time:
Data logger data delete!
Cached entries
Total entries

Off
1s
14
0

Data Selection
Export data to USB!

Data Selection
Concentration:
Temperature:
Flow:
Pressure:

Yes
No
No
No

FieldSep:

TAB

Open SETUP - DATA LOGGER (this may
require to enter the access code for level 3),
to see the following menu:
Highlight the 7th line and open the associated
submenu to see a list of data available for
logging.

Each entry in the log file contains the following
fields
•	 date
•	 time, followed by
•	 the fields as selected in the menu:
For each parameter select, if it is to be included
(Yes) or not (No) in the log file:
"Concentration" includes the measured concentration (ppm) and current status of all installed
channels.
"Temperature", "Flow" and "Pressure" include
the associated measured values.

Data Selection

7-62

Concentration:
Temperature:
Flow:
Pressure:

Yes
No
No
No

FieldSep:

TAB

The separator for the fields within an entry
is specified with the last menu line: Available options are TAB(ulator), Comma and
SemiKol(on). Entries are separated by a carrige return and line feed.

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7.8 Logfiles
Press left to return to the previous menu,
and
•	 enter a sample time to specify the time
interval between entries
•	 turn "Logging" On, to start logging.

14
0

Data Selection..
Export data to USB!

7.8.2	 Exporting Log Files
There are two options to export log files to
an USB device:

Data logger
Logging:
Sample time:
Data logger data delete!
Cached entries
Total entries

On
1s

Data Selection..
Export data to USB!

Emerson Process Management GmbH & Co. OHG

14
0

1st option:
From within SETUP - DATA LOGGER (this
may require to enter the access code for
level 3)

The last line "Export data to USB!" enables to
export the total entries to a connected USB
device.

7-63

Maintenance & Procedures

On
1s

7

Data logger
Logging:
Sample time:
Data logger data delete!
Cached entries
Total entries

All the log file data is kept in an internal memory,
and written into a file on the internal memory
card every 30 minutes (or when "Logging" is
turned Off.
So,
•	 "Cached entries" shows the number of
entries in memory
•	 "Total entries" gives the number of entries, already saved to the internal memory card.

Instruction Manual

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7.8 Logfiles

2nd option:
From within CONTROL - DATA LOGGER
(this may require to enter the access code
for level 1)

Data logger
Export data to USB!
Cached entries
Total entries

0
0

The line "Export data to USB!" enables to export
the total entries to a connected USB device.

Before starting to export, the analyzer automatically adds the cached entries to the total
entries file, so all available data is exported to
the log file.
Take care to have a proper USB memory de7-57), before starting to
vice connected (
export a log file, otherwise an error message
shows up.
Fig. 7-17:	 Subdirectory for Log Files

Note!
Data logger exports into data.log, event logger
into events.log, and calibration logger into
calibration.log.
Several files of the same type are added by
extending the file names with increasing numbers, e.g. data001.log, data002.log, ...

7-64

Log files are exported to the subdirectory
named 'logs' beneath a directory, named with
the serial number of the current analyzer.
Notes!
If not already present, the file system structure
is created automatically.
One memory device may have multiple 'serial
number' directories, each created automatically, when for the first time connected to a
new analyzer, and containing only the files for
that specific analyzer.

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7.8 Logfiles

Example
Imported into a text file, for a 3 channel instrument the above settings would give the
following log file layout:

The exported log file does not only show the
discussed entries data, but also separate
lines with
•	 the type of log file
•	 the analyzer tag, if such has been setup
(
6-98 )
•	 the analyzer serial number
•	 column headings for the entries fields
For further processing, import that file e.g. into
a spreadsheet.

Maintenance & Procedures

7.8.3	 Log Files Content

7

Imported into a spreadsheet software, it looks like this:

Note!
Date format is dd/mm/yyyy
Time format is hh:mm:ss (with 24 h format)
Status codes are: G = Good, F = Failure, A = Alarm, M = Maintenance,
C = Check function, O = Out of specification, S = Simulate, X = Absent
Fig. 7-18:	 Example of Log File

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7.9 Files on USB Stick
7.9	 Files on USB Memory Device
After connecting or formatting an USB device,
or after a first log file export, a special file
structure is present on the stick,
figure
below.

Furthermore, two files are created within this
structure:
•	 autorun.inf
•	 xe_win_tools.zip

7.9.1	 autorun.inf
'Autorun.inf' can be used to automatically start
actions, when the USB device, it is saved on,
is connected to the analyzer.
Each time, an USB mass memory device is
connected, the analyzer checks for the precense of a plain text file, called 'autorun.inf'.
If such a file does not exist, a template file is
automatically created, as well as, if need be,
the file structure.
Fig. 7-19:	 USB File System Structure

# Emerson X-STREAM XE | USB-AUTORUN File
#
# -- Functions --------------------------------------#
# Remove # from a line below to activate a function
#
# SAVE_CONFIG Save current configuration to USB
# SAVE_FIRMWARE Save firmware (incl. config) to USB
# SAVE_DATALOGS Save data logger files to USB
# SAVE_EVENTLOGS Save event logger files to USB
# SET_PASSWORDS Set all passwords to factory
#
defaults (LOI and webbrowser)
#
# .----------------------------------------------------

Another file, automatically created, is called
'xe_win_tools.zip';
7-67 .

The automatically created autorun.inf acts as
a template, containing
•	 help text, and
•	 instruction lines: To enable, just remove
the leading '#' and save the file as text file
to the device again.
The file is scanned line by line. Any line not
starting with '#' is checked for a valid key word
(CAPITAL terms in the template´s functions
section), which is passed to a batch loop processor, to be executed as soon as possible.

Fig. 7-20:	 Autorun.inf Template

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7.9 Files on USB Stick
7.9.2	 xe_win_tools.zip
This ZIP contains some files to be used with
a Microsoft Windows based computer only.
Chiptool for Ethernet connections, enables
to remotely identify an analyzer by its IP
address, without requiring front panel access.

7

Maintenance & Procedures

USB driver for MS Windows PC

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7.10 Web Browser
7.10	 Web Browser
Field housings

Table top analyzers

To gain access to the instrument´s web
browser interface, first ensure the instrument
is powered and connected to your network via
Ethernet1 connector (see figure on the left)

Ethernet1 connector

Fig. 7-21:	 Ethernet Connectors

Next enter INFO, to check if the instrument has
been assigned a valid network IP address:

Info
Firmware
1.0
DSP version
1.0
Serial no
123456789
Components..
Installed options..
Ethernet1 IP
192.168.1.1
Ethernet2 IP
192.168.1.2
10/01/10 14:00
 Time

IP address for Ethernet1 connector

If no network IP address has been assigned,
6-79 )
check the network settings (

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7.10 Web Browser
Connect your computer to the network, open
a web browser and enter the instrument´s network IP address, and if all is configured properly, a screen like the following appears:
IP address in web browser´s address line
Analyzer information
IP address on logon screen
MAC address of interface
Analyzer serial number

After logon, the measurements
screen appears.
Click on the left most icon in the status bar,

to receive comprehensive online
help on the X-STREAM XE web
browser interface.

HELP button
Fig. 7-23:	 Web Browser Measurements Screen

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7

Fig. 7-22:	 Web Browser Logon Screen

Usernames for login are: Operator, Expert,
Administrator.
Default password (for all) is: password
We recommend to set new
passwords, to limit access to
critical submenus (see online
help).

Maintenance & Procedures

Enter your login data (user name & password) here

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Chapter 8
Troubleshooting
8.1	 Abstract

8.2 Problems indicated by status messages
			
Analyzer related messages
			
Channel related messages

As the analyzer software is not capable to
detect all problems and faults, section 8.3
describes such faults, their consequences,
gives hints on potential causes and on how
to solve the problem(s).
Section 8.4 gives detailled instructions on how
to replace or adjust components, addressed
to personnel familiar with the aspects of working on such components.

		
		

8.3 Problems NOT indicated by status messages

	
		

page 8-12
page 8-18

8

8.4 Extended troubleshooting on components

page 8-3
page 8-8
Troubleshooting

This chapter covers troubleshooting the analyzer:
Section 8.2 describes messages possibly appearing in the measuring screen‘s status line
gives hints on the potential causes and on
how to solve the problem(s).
Two tables differentiate between analyzer
related messages and channel related messages.

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8.2 Solving Problems Indicated by Status Messages
8.2	 Solving Problems Indicated by NAMUR Status Messages
As mentioned before, status messages show
up in the measuring display´s last line. Multiple status messages, active at a time, show
up sequentially in this status line. To see all
status messages at a glance, enter STATUS:
If any status is set, the corresponding menu
line appears, whereat only the first 4 lines are
of interest here (NAMUR status).

Failures..
Off-Specs..
Maintenance requests..
Function checks..
Measurement..
Calibration..
Alarms..

Enter any status line to see detailled status
messages.
In the following table, all possible NAMUR status messages are listed in alphabetical order,
together with hints on the possible causes,
and tips on how to solve the problems.
Depending on the NAMUR status level assigned, the instrument can also activate status
relay outputs, according the NAMUR NE 107
specifications.
Notes!
Recommended actions preceded by a bullet
are alternatives.
If recommended actions do not solve a problem, call Emerson Service!

Supported NAMUR status levels:
Failures: Require immediate actions. The
analyzer is not any longer working properly,
and the output signal is invalid due to malfunction.
Off-spec: The analyzer is working outside
its specification (e.g. measuring range), or
internal diagnostics indicate deviations due to
internal problems. To achieve proper outputs,
corrective action is required.

Check request (or maintenance requests):
The instrument is still working properly, within
its specifications and the output signal is valid,
but maintenance is required in for-seeable future, because a function will soon be restricted
or a wear reserve is nearly exhausted.
Function check: The analyzer is still working
properly, but currently is in a status where
the output signal is temporarily invalid (e.g.
frozen) due to some ongoing procedures (e.g.
during calibration).

If solving a reported problem
requires working inside an open
instrument, take care of the safety instructions, given at the
beginning of this manual!

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8.2.1 Analyzer Related Messages
8.2.1	 Analyzer Related NAMUR Messages
Message

Maintenance
Can´t open Data Logger
file
Maintenance
Can´t write to Data Logger
file
Maintenance
Checksum error
Maintenance
Cfg checksum error
Maintenance
Cfg file open error
Maintenance
Cfg file read error
Maintenance
Cfg file write error
Maintenance
Device not in Service
Function check
DISK Free space warning

While running the calculator,
an inconsistency was detected
Division by 0 detected

•	Check the calculator program for syntax errors, impossible commands or signal
references
•	Check for divisions by 0

Accessing the data logger file
is not possible
•	Check if internal disk is present / installed
Accessing the data logger file •	Call Emerson Service
is not possible

Creating the factory configuration file caused a checksum
error.
Creating the user configuration file caused a checksum
error.

Store a new factory configuration file.
Create a new user configuration file.

Opening the user configuration file is not possible.
Writing to the user configuratiCall Emerson service
on file is not possible.
Writing to the user configuration file is not possible
Operator has set the analyzer
Set analyzer into service
to function check mode

Maintenance

Internal disk usage exceeded
specified limit (default: 80 %)

Maintenance

Internal disk usage exceeded
95 % limit

DISK full

Recommended Actions

Troubleshooting

Calculator program error

Explanation

8

Status level

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Free space by deleting files

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8.2.1 Analyzer Related Messages

Message
Status level
E-Mail: Not sent
Maintenance
E-Mail: Could not open
LOG file
Maintenance
External Failure
Failure

External FctCheck
Function check

External MaintRequ
Maintenance

External OffSpec
Off-spec

Factory file open error
Maintenance

8-4

Explanation

Recommended Actions
•	Check Ethernet connection
•	Check SMTP configuration

Failed to send e-mail

Accessing log file not possib- •	Check if internal disk is present / installed
le
•	Call Emerson service
No NAMUR!
An external source (e.g. digital
input or PLC program) meets
a failure condition that is forwarded to the self-diagnostics
system.
An external source (e.g.
digital input or PLC program)
meets a function check condition that is forwarded to the
self-diagnostics system.
An external source (e.g. digital
input or PLC program) meets
a maintenance request condition that is forwarded to the
self-diagnostics system.
An external source (e.g.
digital input or PLC program)
meets a out-of-specification
condition that is forwarded to
the self-diagnostics system.

•	Check the assigned digital
input for the condition.
•	Check PLC program for the
condition.
•	Reassign digital inputs to not
being forwarded to the diagnostic system.

•	Create a new factory configuration file
Opening the factory configura•	Check the file system for
tion file is not possible.
consistency using CHKDISK
tool

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8.2.1 Analyzer Related Messages

Message
Status level
Factory file read error
Maintenance
Factory file write error
Maintenance
FATAL!! Configuration
data destroyed
Failure
FATAL: FRAM read/write
error
Maintenance
Flash write count over limit
Maintenance

Explanation

Recommended Actions

Reading the factory configuration file is not possible
Writing the factory configuration file is not possible. This
message does not appear
during normal operation!
The instrument is now unconfigured, because retrieving
the configuration data from
several sources failed.
The instrument is now unconfigured, because retrieving the
configuration data from several sources failed.
Write cycles to internal CPU
Flash Memory exceeded
number of 90,000

•	Check if internal disk is present / installed
•	Call Emerson service

Call Emerson service

Off-spec
Limitation analog output 3
Off-spec
Limitation analog output 4

Concentration assigned to
the indicated analog output
is outside configured ranges:
Analog output is limited to
configured ranges

•	Use another measurement
range.
•	Extend analog output range
configuration if possible.
•	Run measurement inside its
given ranges.

While installing the PLC program, a program error was
discovered

Check the PLC program for
syntax errors, wrong commands or references

8

Off-spec
Limitation analog output 2

Troubleshooting

Limitation analog output 1

Off-spec
Limitation analog output 5
Off-spec
PLC program error
Maintenance

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8.2.1 Analyzer Related Messages

Message
Status level
SCAL blowback
Function check
SCAL program sequence
Function check
SCAL spanning
Function check
SCAL zeroing
Function check
SCAL zeroing & spanning
Function check

Explanation
Device runs system
calibration’s blowback mode

Recommended Actions

Device runs system
calibration’s program sequence
Currently a system
calibration’s spanning is ongoing
Currently a system
calibration’s zeroing is ongoing
Currently a system calibration (zeroing and spanning) is
ongoing

•	Wait until system calibration
procedure is finished
•	Cancel system calibration
procedure

XPSV - CPU communication
failure

Call Emerson service, if message shows up repeatedly

•	Wait until system calibration
procedure is finished
•	Cancel system calibration
procedure

Sensor CRC-check
Failure
Sensor command buffer
overflow
Failure
Sensor failure
Failure
Sensor invalid message
length
Failure
SENSOR RESET
Maintenance

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8.2.1 Analyzer Related Messages

Message
Status level
USB free space warning
Maintenance
USB stick full

The attached USB storage
devices´s free memory exceeded the setup limit (
6-103 )
The attached USB storage
device has not sufficient free
memory to store data

Recommended Actions
•	Replace USB device by another one with sufficient free
memory
•	On the USB device, delete
files not required. To do so,
attach it to a computer.
•	Format USB device (
6-104 )

8

Troubleshooting

Maintenance

Explanation

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8.2.2 Channel Related Messages
8.2.2	 Channel Related Messages (preceded by Channel Tag, e.g. CO2.1)
Message
Status level
Concentration Is Higher
Than Limit
Off-spec
Concentration Is Lower
Than Limit
Off-spec
Device Not in Service
Function check
External Failure

Description

Recommended Actions

Currently the actual concentration is outside the
analyzer's range limits. The
shown measuring value does
not comply to the actual concenctration.

Function check
External MaintRequ
Maintenance
External OffSpec
Off-spec
Flow High
Maintenance
Flow High-High
Failure
Flow Low
Maintenance

8-8

Increase concentration

Operator has set the analyzer
Set analyzer into service
to function check mode

Failure
External FctCheck

Reduce concentration

An external source (e.g. digital
input or PLC program) meets
a failure condition that is forwarded to the self-diagnostics
system.

•	Check the assigned digital
input for the condition.
•	Check PLC program for the
condition.
•	Reassign digital inputs to not
being forwarded to the diagnostic system.

The activated flow monitor de•	Ensure proper flow
tected a too high flow accor•	Increase limit if appropriate
ding its configured high level.
•	Check flow adjusting equipment, reduce flow to accepted value
The detected flow is too high
•	If applicable check internal or
external pump function, reduce flow to accepted value
The activated flow monitor
•	Ensure proper flow
detected a too low flow accor•	Decrease limit if appropriate
ding its configured low level.

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8.2.2 Channel Related Messages

Message

Description

Status level

Invalid Interference Value
Off-spec
Linearizer Overflow
Off-spec
Linearizer Underflow
Off-spec

Operation Hours Exceeded
Maintenance

No Sample Gas
Function check

Range Overflow
Off-spec

A measuring value used for
Check status of interfering
cross interference compensacomponents
tion is found to be erroneous.
The current concentration value is above the upper linearization range limit, so measuring results are not reliable.
The current concentration
value is below the lower linearization range limit, so measuring results are not reliable.

Adjust gas concentration to be
within range
Adjust gas concentration to be
within range

•	The instrument, or selected
components require maintenance
The operation hours excee•	After maintenance, enter SEded the service interval time.
TUP - OPERATION HOURS
METER (
6-97 ), to reset
the counter.
•	Check, if a calibration is
The concentration measureongoing
ment does not represent the
•	If no calibration is ongoing,
normal value. Possible reacheck if sample gas is apsons: Calibration procedure is
plied (if need be, check for
busy.
open sample gas valves)
Gas concentration is out of
•	Select higher range (polynomeasurement range and
mial linearization mode only)
therefore linearization curve
•	Adjust gas concentration to
does not apply (�������������
measuring rebe within range
sults are not reliable).

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8-9

Troubleshooting

Failure

•	Check the external and internal gas path for leakage and
plugging
•	If applicable check internal
pump function

8

Flow Low-Low

The detected flow is too low
or missing due to a leak, not
limited to the instrument‘s
internal gas path

Recommended Actions

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8.2.2 Channel Related Messages

Message
Status level
Range Underflow
Off-spec
Secondary Sensor Signal
Simulation
Function check
Sensor ADC
Failure

Sensor Chopper
Failure
Sensor Communication
Timeout
Failure
Sensor Detector
Failure
Sensor Flow
Failure
Sensor Pressure
Off-spec
Sensor Signal Simulation
Function check

8-10

Description

Recommended Actions

Gas concentration is out of
•	Select lower range (polynomeasurement range and themial linearization mode only)
refore linearization curve does
•	Adjust gas concentration to
not apply (measuring results
be within range
are not reliable).
•	Restart device.
Any secondary sensor’s
signal is simulated for service •	Ask service personnel to
deactivate simulation.
purposes
Input voltage applied to an
internal DC signal input (DC
1...5) too high
Input voltage applied to an
internal AC signal input (WS
1...4)too high
Internal failure bit of electronics board XSP is set

•	Adjust sensors output voltage to be within 0 .. 5 V limit
•	Replace sensor
•	Adjust sensors output voltage to be within ± 6 V limit
•	Replace sensor
•	Switch analyzer off and on
again
•	Check red LED on chopper
board UCC
•	Replace chopper

The serial communication between the main controller and Check both boards, and prothe sensor interface has timed per connections
out. The reason is unknown.
•	Switch off / on the analyzer
•	Check if VVS signal is proper
XSP's failure bit was set
•	Replace detector
Check the sensors function,
The flow sensor is not working
and if need be, replace the
properly
sensor.
The pressure measurement is
Configure pressure to be
not working properly for comwithin limits
pensation purposes
The primary sensor signal is •	Restart device.
•	Ask service personnel to
simulated for service purpodeactivate simulation.
ses

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8.2.2 Channel Related Messages

Message

Description

Status level
Failure

The current through the IR or
UV source is too high

Failure

The current through the IR or
UV source is too low

Sensor Temperature
Off-spec
Spanning Started
Function check
STANDBY Status
Function check
Startup Phase
Function check
Tolerance Check Failed
Maintenance
Unstable Measurement
Maintenance
Warming Up
Function check
Zeroing Started
Function check

The temperature measurement is not working properly
Span calibration is ongoing
All valves are closed

-

Physical components starting Wait until all components are
up
working properly
Difference between setpoint
and actuals is too high

•	Disable check or change
tolerance
•	Check components for proper function

Measurement too noisy while
calibrating

•	Check for constant gas flow
•	Increase t90 time

Some components need to be
•	Wait until warmup time has
at a specific temperature to
elapsed
work properly. This message
•	Check function of heaters
shows, until all components
and temperature control
reached their temperatures.
•	Wait for the procedure to
finish.
Zero calibration ongoing
•	Cancel the procedure

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Troubleshooting

Sensor Source -

•	Check for IR source internal
resistance is > 6 Ohms
•	Replace source
•	Check for IR source internal
resistance is < 8 Ohms
•	Check for broken cables
•	Replace source
•	Check the temperature sensor
•	Check function of heaters
•	Wait for the procedure to
finish.
•	Cancel the procedure

8

Sensor Source +

Recommended Actions

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8.3 Solving Problems Not Indicated by Status Messages
8.3	 Solving Problems Not Indicated by Status Messages
The following table lists possible faults not
detectable by the instrument‘s software, gives
hints on the potential causes, and tips on how
to solve the problems.
If solving a problem requires working inside
the instrument take care of the safety instructions given at the beginning of this manual!
Note on X-STREAM field housings!
To see the current analyzer status, or operate the instrument even if the front door is
open, just loosen the screw, fixing the front
panel, and swivel the front panel to the side
or to the top (flameproof XEFD), as shown in
figure 8-1.

Notes!
Recommended actions preceded by a bullet
are alternatives.
If recommended actions do not solve a problem, call Emerson Service!

swivel to the right

swivel to the top

Screws to loosen

Fig. 8-1:	 X-STREAM XEF, XDF and XEFD, Opened With Visible Front Panel

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8.3 Solving Problems Not Indicated by Status Messages

Instrument Does Not Work
nor Respond on Inputs

Power supply missing

•	Check power connection
•	Check power supply
•	Check instrument‘s power
fuses
•	Check power supply unit:
green LED (OK)

Front panel connection faulty

Check front panel connections

CPU hang up
External failure

No Analog Output Signal

Recommended Actions

Internal connection failure

Analog outputs 2 - 4 affected
External failure
Configuration failure
Digital Outputs Not Working
Properly
Outputs 1 - 4 affected

Emerson Process Management GmbH & Co. OHG

Disconnect power to reset
CPU
Check external circuitry for
failures
•	Check signal connection at
P22 of board XPSA
•	XPSA: If red LED "No PWM"
glows - check connection to
P19
•	XPSA: LED "No PWM" dark
- check power connection to
XPSA (2-pole cable br/wht)
Check installation of module
XSIA on XPSA board
Check external circuitry for
failures
Check digital outputs menu
settings
•	XPSA: If red LED "TIMEOUT" glows - check connection to P33
•	XPSA: LED "TIMEOUT" dark
- check power connection to
XPSA (2-pole cable br/wht)

8-13

Troubleshooting

Display Dark	

Description

8

Situation

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8.3 Solving Problems Not Indicated by Status Messages

Situation

Description

Recommended Actions

•	XDIO: If LED "TIMEOUT"
glows - check jumpers on
XDIO.
XDIO #1: jumper on ADR2
XDIO #2: jumpers on ADR2
Digital Outputs Not Working Outputs on extension board(s) & ADR0
Properly (cont.)
(XDIO) affected
•	XDIO: If LED "TIMEOUT"
glows - check connection to
P33
•	XDIO: If LED "NO SPI" glows
- check internal SPI communication cable (10 pole cable)
Check external circuitry for
External failure
failures
Check digital inputs menu
Configuration failure
settings
•	XDIO: If LED "TIMEOUT"
glows - check jumpers on
XDIO.
Digital Inputs Not Working
XDIO #1: jumper on ADR2
Properly
XDIO #2: jumpers on ADR2
Outputs on extension board(s) & ADR0
•	XDIO: If LED "TIMEOUT"
(XDIO) affected
glows - check connection to
P33
•	XDIO: If LED "NO SPI" glows
- check internal SPI communication cable (10 pole cable)
•	Check electrical connection
of valves
•	XPSA: If red LED "TIInternal Valves Not Working
MEOUT" glows - check conConnection failure
Properly
nection to P33
•	XPSA: LED "TIMEOUT" dark
- check power connection to
XPSA (2-pole cable br/wht)

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8.3 Solving Problems Not Indicated by Status Messages

Recommended Actions

Valves connected to digital
outputs
Valves not connected to digital
outputs

See "Digital outputs not working properly"
Check external valve controller
Check external circuitry for
failures
•	XPSA: If red LED "TIMEOUT" glows - check connection to P33
•	Check installation of interface module (SIF 232 or 485)

External failure
Serial Communication Not
Working Properly

Connection failure
Leak in gas path
Ambient air contains high
concentration of measured
gas component

Fluctuating gas pressure
Fluctuating or Invalid
Readout

Perform a leak test
•	Check absorber (at chopper/
measuring cell) and replace
if need be.
•	Purge instrument with inert
(neither absorbing, nor interfering) gas
•	Check gas path before and
behind cell and sensor
•	Remove restriction behind
gas outlet
•	Reduce gas flow or pump
rate

Sensor or detector not conCheck detectors connections
nected
Electrochemical Oxygen sen- Check sensor and replace if
sor worn-out
need be
•	Check connections:
X3 (1/2) / source channel 1
X3 (4/5) / source channel 2
IR channel:	
•	If source housing is cold:
Source not connected or deExchange all sources in
fective
case of multi-channel analyzer / replace source if need
be (see service manual)

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Troubleshooting

External Valves Not
Working Properly

Description

8

Situation

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8.3 Solving Problems Not Indicated by Status Messages

Situation

Description

Recommended Actions

Check measuring point
(
page 8-19)
•	Check analysis cells and
windows for pollution
•	Clean polluted parts (see
Gas path(s) polluted
service manual)
•	Check gas paths for pollution
and clean gas paths if need
be
•	Set ambient pressure to proper value (
page 6-61)
Wrong pressure value used
•	Sensor failure (
status
for compensation
message "PressSensor“,
page 8-10)
•	Check temperature of gas
path(s)
•	Remove all sources of conCondensation inside gas path
densation
•	Keep all temperatures at
least 10 °C above dew point
Check signal damping
Wrong signal damping settings
page 6-47)
(
•	Distance between sampling
point and analyzer too long
•	Replace pump by external
Pump rate too low
model with higher pump rate
(operate in bypass mode,
page 4-5)
•	Check gas path and sample
Gas path(s) polluted
handling system for pollution
•	Clean gas path

Analog preamplifier of affected channel defective

Fluctuating or Invalid
Readout (continued)

Readout Damping Time
Too Long

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8.3 Solving Problems Not Indicated by Status Messages

Situation

No Gas Flow

Description

Recommended Actions

Sample gas pump (option)
switched off
Membrane of sample gas
pump defective

Switch on sample gas pump
(
page 6-5)
Replace sample pump membrane

Sample gas pump defective

Replace sample gas pump

Solenoid valves (option) not
opened / defective

8

Troubleshooting

Gas path(s) polluted

External valves:
•	Check connection between
valves and digital outputs
All valves:
•	Check valve seat and replace if need be
•	Replace solenoid valves
•	For valve control via serial
interface or digital inputs:
•	Any valve activated?
•	Check gas path and sample
handling system for pollution
•	Clean gas path

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8.4 Troubleshooting on Components
8.4	 Troubleshooting on Components

This section gives information on how to
check and replace internal components.
Some work described on the
next pages need to be carried
out by qualified personnel only,
and may require special tools,
to ensure the instrument or
component is not damaged or
disadjusted!
	

Opening X-STREAM analyzers	

	 page 8-20

	

Signal connectors	

	 page 8-22

	

Sample Pump: Replacement of Diaphragm	

	 page 8-23

	

Paramagnetic Oxygen Cell: Adjustment of physical zero	

	 page 8-34

	

Thermal Conductivity Cell: Adjustment of output signal	

	 page 8-37

ELECTRICAL SHOCK HAZARD
Working at opened and powered instruments means working near live parts
and is subject to instructed and trained personnel only!

ELECTRICAL SHOCK HAZARD
Live parts are accessible when working at open instruments!
Take care to observe all applicable safety instructions!

8-18

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8.4 Troubleshooting on Components

HAZARD FROM EXPLOSIVE, FLAMMABLE AND HARMFUL GASES

Before opening gas paths they must be purged with ambient air or neutral
gas (N2) to avoid hazards caused by toxic, flammable, explosive or harmful
to health sample gas components!

HIGH TEMPERATURES

ELECTROSTATIC DISCHARGE HAZARD
Working at internal components of electronical and electrical instruments
may cause electrostatic discharge (ESD), destroying components!
We recommend special antistatic workplaces for working at open instruments!
If no such workplace is available, at minimum perform the following
procedures to not destroy electronic components:
Discharge the electric charge from your body. Do this by touching a device
that is grounded electrically (e.g. instruments with earth connectors,
heating installations). This should be done periodically when working at
open instruments (especially after leaving the service site, because e.g.
walking on low conducting floors might cause additional ESD).

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8

Troubleshooting

While working at internal components hot surfaces may be accessible, even
after the instrument has been disconnected from power!

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8.4 Troubleshooting on Components
8.4.1	 Opening X-STREAM Analyzers

ELECTRICAL SHOCK HAZARD
Live parts are accessible when working at open instruments!
Take care to observe all applicable safety instructions!
8.4.1.1	 How to Open X-STREAM XEGP
Remove the top cover after loosening the 12
screws.
If your instrument features an internal heated
fig. 8-4 on next page for information
box,
on how to open.

12 screws on top
of the instrument

Fig. 8-2:	 X-STREAM XEGP

8.4.1.2	 How to Open X-STREAM XEGC
Loosen the 4 screws for the cover, push the
cover towards the rear and remove it.




2 screws on each side
of the instrument
Fig. 8-3:	 X-STREAM XEGC

8-20

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8.4 Troubleshooting on Components
8.4.1.3	

How to Open X-STREAM XEF / XDF

Depending on the individual analyzer configuration, either open the upper or lower
front door to the left, utilizing the two sash
fasteners.
sash fasteners

8.4.1.4	 How to Open X-STREAM XEFD
To open a X-STREAM XEFD loosen the 20
screws located at the instrument´s flange.
Then carfeully flip down the front door to not
damage the instrument, hinges or equipment
installed below the analyzer.

locking
device

push this
way to lock

Locking device details

Troubleshooting

push here
to unlock

8

Fig. 8-4:	 X-STREAM Field Housings - Interior Views
(shown Without Front Doors)

unlocked position



Note 2!
To remove the box loosen the 2 screws of the locking device,
push it´s slider upwards as shown to the right, and take out
the box to the frontside of the instrument!

locked position	



Note 1!
The internal box covering the physical components, as
shown in this figure, is optional and may not be installed in
your specific instrument!

EXPLOSION HAZARD
Special variations of X-STREAM XEF and XDF. as well as X-STREAM XEFD
may be installed in hazardous areas.
Maintaining such instruments is permitted only considering special
conditions, given in the related separate manuals.
Do not open nor maintain instruments in hazardous areas without having
read and understood all associated instruction manuals!

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8.4 Troubleshooting on Components
8.4.2	 Signal Connectors on XSP Board

Fig. 8-5:	 XSP - Allocation of Signal Connectors

8-22

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8.4 Troubleshooting on Components
8.4.3	 Sample Pump: Replacement of Diaphragm

8

To do so you need to dismantle the pump from
your analyzer.

Troubleshooting

This instruction explains the procedure to
replace the diaphragms of sample gas pumps
(PN 42716569) used in the X-STREAM series
gas analyzers.

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8.4 Troubleshooting on Components

Required parts for the spare parts
kit for the pump (PN 0375946).

Step 1:

S1

8-24

If applicable:
Remove the screws S1 on both sides
of the pump. Take off the cover.

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8.4 Troubleshooting on Components

S3

S2

Step 2:

8

Troubleshooting

Remove the screws S2 and screw S3.

Step 3:
Take out the pump assembly.

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8.4 Troubleshooting on Components

Step 4:
Mark the pump assy. before disassembly.

Step 5:
Remove the white block.

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8.4 Troubleshooting on Components

Step 6:

Troubleshooting

Remove the teflon gasket.

8

Step 7:
Remove the remaining two pump
parts.
Clean the white plate for the gas inand outlet.

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8.4 Troubleshooting on Components

Clamp

S4

Step 8:
Disassemble the lower block and the
clamp.
Loosen the screw S4 and
the nut N1.
N1

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8.4 Troubleshooting on Components

Step 9:

8

Troubleshooting

Remove the two washers on the diaphragm.

Step 10:
Replace the old with the new diaphragm and assemble the washers
and the clamp in reverse order (step 9
and 8).

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8.4 Troubleshooting on Components

Step 11:
Remove the locking springs on both
sides of the white block and take out
the old diaphragms on both sides.

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8.4 Troubleshooting on Components

Step 12:
Clean the white block.
Afterwards put in the new dia-phragms
and fix them with the new locking
springs.

1

Assemble the pump assy. Take care of
your marker (
step 4)

8

1. Put the two upper plates under the
clamp (
steps 6 & 7 for reference).

Troubleshooting

Step 13:

2. Put the white block and the new
teflon gasket between the lower block
and the in-outlet plate.
2

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8.4 Troubleshooting on Components

Step 14:
Assemble the pump assy in reverse
order.

S3

Put it in the pump housing and fix it
with the screws S2.
Fix the clamp with screw S3 and
the black buffer.

S2

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8.4 Troubleshooting on Components

Step 15:

8

Finally re-install the pump into your analyzer, to complete the replacement of pump
diaphragm.

Troubleshooting

S1

If applicable:
Install the cover and fix it with screws
S1 at both sides.

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8.4 Troubleshooting on Components
8.4.4	 Paramagnetic Oxygen Cell for Standard Applications: Adjustment of Physical Zero

GND

+6 V

-6 V

Signal connectors
Signal pins

To adjust the physical zero you need
to measure some voltages on the XSP
board:
Depending on which channel the cell is
assigned to, the measuring signal (+)
can be measured at pin 3 of the related
connector. GND (-) is available at a separate pin (see figure).
The measured voltage should be
0 V ± 50 mV.
The cell contains strong magnets!
Use only non-magnetic tools to
adjust the zero point!
Step 1:
The figure to the left shows a heated
paramagnetic oxygen cell.

S1

Note!
Depending on your specific instrument
alternatively an unheated cell may be
installed.
In this case skip step 2 and continue
with step 3.

Step 2:
Open the cell cover by loosening the
screw S1 at the top.

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8.4 Troubleshooting on Components

Step 3:
Apply N2 to the analyzer.
Step 4:

A

Step 5:
Tighten the screw S2 with care, close
the cover and check the zero point
again.
Note!
If the cell itself does not provide a cover,
close the instrument while checking the
cell!
You might have to re-adjust the zero
point several times until it remains at
the expected value.

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8

S3

S2

The cell´s electronic is light sensitive: When exposed to light
while adjusting the zero point
utilizing screw S3, a zero point
shift may arise after the cover
is closed.
Tip:
Shade the cell with a cloth when
adjusting screw S3.

Troubleshooting

Carefully loosen the screw S2.
Now you can adjust the physical zero
point with screw S3.
Turn the screw carefully.

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8.4 Troubleshooting on Components

Step 6:
Fix the closed cell´s cover with screw
S1.
S1

8-36

This completes the zero point adjustment procedure.

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8.4 Troubleshooting on Components
8.4.5	 Thermal Conductivity Cell: Adjustment of Output Signal

A digital voltmeter (DVM) is required to
measure and adjust several voltages!

8

Troubleshooting

To adjust the zero signal of this measuring cell
you need to have access to both sides of the
related electronics board WAP 100.

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8.4 Troubleshooting on Components

Step 1:
Check the solder bridges, located at
the solder side of the board, for proper
configuration:

LB20
LB10

LB10
LB4 2-5
LB21 1-4
LB20

LB21
LB4

open
closed
closed
open

Step 2:
Switch on the analyzer.
The onboard LED will light up red and
green.
LED
LED

When the warmup time has elapsed,
the LED flashes green.
LED

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8.4 Troubleshooting on Components

Step 3:
Locate test connector P4 to measure
the bridge voltage:
P4.16
P4.15
R60

Bridge voltage (+)
Bridge voltage (-); GND

CAUTION!
Do not short-circuit pins!

P4.16

+

Test connector P4

_

8

Troubleshooting

P4.15

Alternatively the GND signal (-) is accessible on the main board BKS, too:
fig. 8-3, page 8-16) .
Locate X11 (
The bridge voltage depends on range
and sample gas and should be between 3V and 5V.
Only if the WAP 100 board has been
replaced, it is necessary to adjust the
voltage with potentio-meter R60.

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8.4 Troubleshooting on Components
Step 4:
To adjust the physical zero point:
Apply zero gas to the analyzer.

P11/ P17

Connect the DVM to the following
pins:
P4.5 	 Raw signal (+)
P4.15 	 Bridge voltage (-); GND
	
	

CAUTION!
Do not short-circuit pins!

P4

P4.15
P4.5 Raw

To adjust the physical zero point, it is
necessary to install a resistor between
P11/ P17 at position 1, 2, 3 or 4 (the
following figure shows it at position 4).
The position and value depends on
the individual cell parameters. Proper
configuration is a result of "try and error"!
Change resistor and/or position until
the voltage is 0 V ± 500 mV.
P17

Finally solder in the resistor between P11/ P17.
P11

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8.4 Troubleshooting on Components
Step 5:
To adjust the physical span:
LB3

R119
P4

Apply span gas to the analyzer.
Do not disconnect the DVM:
P4.5 	 Raw signal (+)
P4.15 	 Bridge voltage (-); GND
CAUTION!
Do not short-circuit pins!
P4.15
P4.5 Raw

If 10V is not within the adjustable
range, it is necessary to change the
signal amplification with solder bridge
LB3:
close
1-5
3-5
4-5
2-3-4-5

8

For an amplification
factor of
20
150
300
500

Step 6:
Now once more check the zero point:
Apply zero gas to the analyzer.
Do not disconnect the DVM:
The voltage should be 0 V ± 500 mV.
If it does not, repeat from step 3!

Emerson Process Management GmbH & Co. OHG

Troubleshooting

Adjust the voltage to 10V
utilizing R119.

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8.4 Troubleshooting on Components
Step 7:

LB10

To finetune the physical zero point:
Close solder bridge LB10.
Apply zero gas to the analyzer.
Do not disconnect the DVM:
P4.5 	 Raw signal (+)
P4.15 	 Bridge voltage (-); GND
CAUTION!
Do not short-circuit pins!
Now you can finetune the zero point to
a minimum value, using R103.

R103

P4.15
P4.5 Raw

P4

Check the zero point with zero gas
again and perform a zero calibration.
Check the full scale signal (10V at
P4.5) with span gas and perform a
span calibration.
This step completes the adjustment of output
procedure.

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Chapter 9
Modbus Functions
9.1	 Abstract
This chapter lists all Modbus functions
and registers supported by X-STREAM gas
analyzers.
Refer to the www.Modbus-IDA.org website
for detailled documentation about programming the interface. At date of creation of this
instruc-tion manual the following documents
were used:

•	

MODBUS Serial Line Implementation Guide:
Modbus_over_serial_line_V1.pdf.

For a list of
	
supported functions			

		

	
supported parameters and registers,
		
ordered by parameter tag name		
		
ordered by register number		

9.1.1	 Modbus TCP/IP
Before using Modbus TCP/IP take care to
configure the communication properly:
6-79.
For Modbus TCP/IP the analyzer is factory
configured to support DHCP servers: The moment, the powered instrument is connected

Emerson Process Management GmbH & Co. OHG

page 9-2
page 9-22
page 9-20

to a DHCP server via ethernet, it will receive
a valid IP address and become visible in the
network.
If no DHCP server is available, configure the
6-79.
IP address manually

9-1

Modbus Commands

MODBUS Protocol Specification:
Modbus_Application_Protocol_V1_1a.
pdf

9

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9.2 Modbus - Supported Functions
9.2	 Supported Functions
Function Code
decimal
(hex)

Modbus Function
ReadCoils
ReadDiscreteInputs
ReadHoldingRegisters
ReadInputRegisters
WriteSingleCoil
WriteSingleRegister
Diagnostic
WriteMultipleCoils
WriteMultipleRegisters

01
02
03
04
05
06
08
15
16

(0x01)
(0x02)
(0x03)
(0x04)
(0x05)
(0x06)
(0x08)
(0x0F)
(0x10)

Note 1)
for registers of 2000
for registers of 1000
for registers of 3000, 8000, 9000
for registers of 4000, 8000, 9000
for registers of 2000
for registers of 3000
sub function "00 = Return Query Data" only
for registers of 2000
for registers of 3000, 8000, 9000

	 Registers ranges 8000 and 9000 are Daniel long word or floating point registers.
	 To calculate the related Modicon registers use the following table:
1)

	
	

or

Daniel
8001 - 8499
9001 - 9999

equals
equals

Modicon
5001 - 5999
6001 - 7999

Data type
long word
floating point

the following pages for comparisons of all Daniel and Modicon registers.

9.3	 List of Parameters and Registers - Sorted by Tag Name
Note!
The client access column in the following list provides information about the read only (RO) or
read/write (R/W) access restrictions for each parameter.
All parameters with read/write access, as well as tag names beginning with "Service." require
entering the service level access code into register 3008 (parameter "Service.RemoteSecurity"),
to enable write access.

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9.3 List of Parameters and Registers - Sorted by Tag Name

Modicon Daniel

Data
Type

Client
Access

Control.Acknowledge.AllStates

2091

2091

Boolean

R/W

Control.Acknowledge.Failure

2092

2092

Boolean

R/W

Control.Acknowledge.FctChecks

2095

2095

Boolean

R/W

Control.Acknowledge.LevelAlarms

2096

2096

Boolean

R/W

Control.Acknowledge.MaintRequests

2094

2094

Boolean

R/W

Control.Acknowledge.OffSpecs

2093

2093

Boolean

R/W

Control.ApplyGas.PumpState1
Control.ApplyGas.PumpState2

2081
2082

2081
2082

Boolean
Boolean

R/W
R/W

Control.ApplyGas.SampleValve1

2051

2051

Boolean

R/W

Control.ApplyGas.SampleValve2

2052

2052

Boolean

R/W

Control.ApplyGas.SampleValve3

2053

2053

Boolean

R/W

Control.ApplyGas.SampleValve4

2054

2054

Boolean

R/W

Control.ApplyGas.SampleValve5

2055

2055

Boolean

R/W

Control.ApplyGas.Span1Valve1

2061

2061

Boolean

R/W

Control.ApplyGas.Span1Valve2

2065

2065

Boolean

R/W

Control.ApplyGas.Span1Valve3

2069

2069

Boolean

R/W

Control.ApplyGas.Span1Valve4

2073

2073

Boolean

R/W

Control.ApplyGas.Span1Valve5

2077

2077

Boolean

R/W

Control.ApplyGas.Span2Valve1

2062

2062

Boolean

R/W

Control.ApplyGas.Span2Valve2

2066

2066

Boolean

R/W

Control.ApplyGas.Span2Valve3

2070

2070

Boolean

R/W

Control.ApplyGas.Span2Valve4

2074

2074

Boolean

R/W

Control.ApplyGas.Span2Valve5

2078

2078

Boolean

R/W

Control.ApplyGas.Span3Valve1

2063

2063

Boolean

R/W

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Description
0=no effect, 1=Acknowledge device‘s
states
0=no effect, 1=Acknowledge device‘s
Namur Failure alarms
0=no effect, 1=Acknowledge device‘s
Namur FctCheck alarms
0=no effect, 1=Acknowledge device‘s
level alarms
0=no effect, 1=Acknowledge device‘s
Namur MaintRequ alarms
0=no effect, 1=Acknowledge device‘s
Namur Off-spec alarms
Pump1 state (0=Off, 1=On)
Pump1 state (0=Off, 1=On)
0=close all valves, 1=open sample
valve comp1
0=close all valves, 1=open sample
valve comp2
0=close all valves, 1=open sample
valve comp3
0=close all valves, 1=open sample
valve comp4
0=close all valves, 1=open sample
valve comp5
0=open sample valve, 1=open span1
valve comp1
0=open sample valve, 1=open span1
valve comp2
0=open sample valve, 1=open span1
valve comp3
0=open sample valve, 1=open span1
valve comp4
0=open sample valve, 1=open span1
valve comp5
0=open sample valve, 1=open span2
valve comp1
0=open sample valve, 1=open span2
valve comp2
0=open sample valve, 1=open span2
valve comp3
0=open sample valve, 1=open span2
valve comp4
0=open sample valve, 1=open span2
valve comp5
0=open sample valve, 1=open span3
valve comp1

Modbus Commands

Address

9

Tag Name

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9.3 List of Parameters and Registers - Sorted by Tag Name

Tag Name

Address
Modicon Daniel

Data
Type

Client
Access

Control.ApplyGas.Span3Valve2

2067

2067

Boolean

R/W

Control.ApplyGas.Span3Valve3

2071

2071

Boolean

R/W

Control.ApplyGas.Span3Valve4

2075

2075

Boolean

R/W

Control.ApplyGas.Span3Valve5

2079

2079

Boolean

R/W

Control.ApplyGas.Span4Valve1

2064

2064

Boolean

R/W

Control.ApplyGas.Span4Valve2

2068

2068

Boolean

R/W

Control.ApplyGas.Span4Valve3

2072

2072

Boolean

R/W

Control.ApplyGas.Span4Valve4

2076

2076

Boolean

R/W

Control.ApplyGas.Span4Valve5

2080

2080

Boolean

R/W

Control.ApplyGas.ZeroValve1

2056

2056

Boolean

R/W

Control.ApplyGas.ZeroValve2

2057

2057

Boolean

R/W

Control.ApplyGas.ZeroValve3

2058

2058

Boolean

R/W

Control.ApplyGas.ZeroValve4

2059

2059

Boolean

R/W

Control.ApplyGas.ZeroValve5

2060

2060

Boolean

R/W

Control.Calibration.Blowback_1
Control.Calibration.Blowback_2
Control.Calibration.Blowback_3
Control.Calibration.Blowback_4
Control.Calibration.Blowback_5
Control.Calibration.Blowback_All
Control.Calibration.Calib_Cancel
Control.Calibration.ProgSequence
Control.Calibration.Span_1
Control.Calibration.Span_2
Control.Calibration.Span_3
Control.Calibration.Span_4
Control.Calibration.Span_5
Control.Calibration.Span_All
Control.Calibration.Zero_1
Control.Calibration.Zero_2
Control.Calibration.Zero_3
Control.Calibration.Zero_4

2016
2017
2018
2019
2020
2025
2026
2024
2006
2007
2008
2009
2010
2022
2001
2002
2003
2004

2016
2017
2018
2019
2020
2025
2026
2024
2006
2007
2008
2009
2010
2022
2001
2002
2003
2004

Boolean
Boolean
Boolean
Boolean
Boolean
Boolean
Boolean
Boolean
Boolean
Boolean
Boolean
Boolean
Boolean
Boolean
Boolean
Boolean
Boolean
Boolean

R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W

9-4

Description
0=open sample valve, 1=open span3
valve comp2
0=open sample valve, 1=open span3
valve comp3
0=open sample valve, 1=open span3
valve comp4
0=open sample valve, 1=open span3
valve comp5
0=open sample valve, 1=open span4
valve comp1
0=open sample valve, 1=open span4
valve comp2
0=open sample valve, 1=open span4
valve comp3
0=open sample valve, 1=open span4
valve comp4
0=open sample valve, 1=open span4
valve comp5
0=open sample valve, 1=open zero
valve comp1
0=open sample valve, 1=open zero
valve comp2
0=open sample valve, 1=open zero
valve comp3
0=open sample valve, 1=open zero
valve comp4
0=open sample valve, 1=open zero
valve comp4
Blowback procedure comp1 (1=start)
Blowback procedure comp2 (1=start)
Blowback procedure comp3 (1=start)
Blowback procedure comp4 (1=start)
Blowback procedure comp5 (1=start)
Blowback procedure all (1=start)
Cancel any calibration (1=cancel)
Zero+span calibration all (1=start)
Span calibration comp1 (1=start)
Span calibration comp2 (1=start)
Span calibration comp3 (1=start)
Span calibration comp4 (1=start)
Span calibration comp5 (1=start)
Span calibration all (1=start)
Zero calibration comp1 (1=start)
Zero calibration comp2 (1=start)
Zero calibration comp3 (1=start)
Zero calibration comp4 (1=start)

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9.3 List of Parameters and Registers - Sorted by Tag Name

Info.ProgramVersion
Info.SensorVersion
Info.SerialNumber
PV1
PV2
PV3
PV4
PV5
Service.General.ChannelActive1
Service.General.ChannelActive2
Service.General.ChannelActive3
Service.General.ChannelActive4
Service.General.ChannelActive5
Service.General.Identification.CPLDVersion
Service.General.Identification.ManufacturingInfo
Service.General.Identification.ProgramVersionDate
Service.General.Identification.SensorBuild
Service.Measurement.AbsMaxRange1
Service.Measurement.AbsMaxRange2
Service.Measurement.AbsMaxRange3
Service.Measurement.AbsMaxRange4
Service.Measurement.AbsMaxRange5
Service.Measurement.AbsMinRange1

Emerson Process Management GmbH & Co. OHG

Client
Access

Modicon
2005
2021
2011
2012
2013
2014
2015
2023
4011…
4016
4026
3141…
3147
6001…
6002
6003…
6004
6005…
6006
6007…
6008
6009…
6010
3001
3002
3003
3004
3005
4028
3251…
3266
4017…
4022
4027
6323…
6324
6327…
6328
6331…
6332
6335…
6336
6339…
6340
6321…
6322

Boolean
Boolean
Boolean
Boolean
Boolean
Boolean
Boolean
Boolean

R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W

Zero calibration comp5 (1=start)
Zero calibration all (1=start)
Zero+span calibration comp1 (1=start)
Zero+span calibration comp1 (1=start)
Zero+span calibration comp1 (1=start)
Zero+span calibration comp1 (1=start)
Zero+span calibration comp1 (1=start)
Zero+span calibration all (1=start)

String

RO

software release version

Word

RO

Version number of sensor firmware

String

RO

serial number of the device

9001

Float

RO

Primary Variable 1

9002

Float

RO

Primary Variable 2

9003

Float

RO

Primary Variable 3

9004

Float

RO

Primary Variable 4

9005

Float

RO

Primary Variable 5

3001
3002
3003
3004
3005
4028
3251…
3266
4017…
4022
4027

Word
Word
Word
Word
Word
Word

R/W
R/W
R/W
R/W
R/W
RO

String

RO

built-in component1
built-in component2
built-in component3
built-in component4
built-in component5
Version number of CPLD firmware
Infos stored for manufacturing purposes

String

RO

software release date

Word

RO

Build number of sensor firmware

9162

Float

R/W

absolute maximum range of comp1

9164

Float

R/W

absolute maximum range of comp2

9166

Float

R/W

absolute maximum range of comp3

9168

Float

R/W

absolute maximum range of comp4

9170

Float

R/W

absolute maximum range of comp5

9161

Float

R/W

absolute minimum range of comp1

Daniel
2005
2021
2011
2012
2013
2014
2015
2023
4011…
4016
4026
3141…
3147

Description

Modbus Commands

Control.Calibration.Zero_5
Control.Calibration.Zero_All
Control.Calibration.ZeroSpan_1
Control.Calibration.ZeroSpan_2
Control.Calibration.ZeroSpan_3
Control.Calibration.ZeroSpan_4
Control.Calibration.ZeroSpan_5
Control.Calibration.ZeroSpan_All

Data
Type

Address

9

Tag Name

9-5

Instruction Manual

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HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Tag Name
Service.Measurement.AbsMinRange2
Service.Measurement.AbsMinRange3
Service.Measurement.AbsMinRange4
Service.Measurement.AbsMinRange5
Service.Measurement.Compensation.PfactCoeffs1
Service.Measurement.Compensation.PfactCoeffs2
Service.Measurement.Compensation.PfactCoeffs3
Service.Measurement.Compensation.PfactCoeffs4
Service.Measurement.Compensation.PfactCoeffs5
Service.Measurement.Compensation.PfactEnable1
Service.Measurement.Compensation.PfactEnable2
Service.Measurement.Compensation.PfactEnable3
Service.Measurement.Compensation.PfactEnable4
Service.Measurement.Compensation.PfactEnable5
Service.Measurement.Compensation.PfactSensorAssign1
Service.Measurement.Compensation.PfactSensorAssign2
Service.Measurement.Compensation.PfactSensorAssign3
Service.Measurement.Compensation.PfactSensorAssign4
Service.Measurement.Compensation.PfactSensorAssign5
Service.Measurement.Compensation.TfactCoeffs1
Service.Measurement.Compensation.TfactCoeffs2
Service.Measurement.Compensation.TfactCoeffs3
Service.Measurement.Compensation.TfactCoeffs4

9-6

Data
Type

Client
Access

9163

Float

R/W

absolute minimum range of comp2

9165

Float

R/W

absolute minimum range of comp3

9167

Float

R/W

absolute minimum range of comp4

9169

Float

R/W

absolute minimum range of comp5

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Address
Modicon
6325…
6326
6329…
6330
6333…
6334
6337…
6338
6541…
6548
6549…
6556
6557…
6564
6565…
6572
6573…
6580

Daniel

9271…
9274
9275…
9278
9279…
9282
9283…
9286
9287…
9290

3421

3421

Word

R/W

3422

3422

Word

R/W

3423

3423

Word

R/W

3424

3424

Word

R/W

3425

3425

Word

R/W

3426

3426

Word

R/W

3427

3427

Word

R/W

3428

3428

Word

R/W

3429

3429

Word

R/W

3430

3430

Word

R/W

6441…
6448
6449…
6456
6457…
6464
6465…
6472

9221…
9224
9225…
9228
9229…
9232
9233…
9236

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Description

polynom coeffs for pressure factor of
comp1
polynom coeffs for pressure factor of
comp2
polynom coeffs for pressure factor of
comp3
polynom coeffs for pressure factor of
comp4
polynom coeffs for pressure factor of
comp5
enable pressure span compensation of
comp1
enable pressure span compensation of
comp2
enable pressure span compensation of
comp3
enable pressure span compensation of
comp4
enable pressure span compensation of
comp5
assign press-sensor of span comp1
(0=Man, 1=DSP_P1, 2=DSP_P2 etc.)
assign press-sensor of span comp2
(0=Man, 1=DSP_P1, 2=DSP_P2 etc.)
assign press-sensor of span comp3
(0=Man, 1=DSP_P1, 2=DSP_P2 etc.)
assign press-sensor of span comp4
(0=Man, 1=DSP_P1, 2=DSP_P2 etc.)
assign press-sensor of span comp5
(0=Man, 1=DSP_P1, 2=DSP_P2 etc.)
polynom coeffs for temperature factor
of comp1
polynom coeffs for temperature factor
of comp2
polynom coeffs for temperature factor
of comp3
polynom coeffs for temperature factor
of comp4

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Emerson Process Management GmbH & Co. OHG

Data
Type

Client
Access

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Modicon
6473…
6480
6481…
6488
6489…
6496
6497…
6504
6505…
6512
6513…
6520

Daniel
9237…
9240
9241…
9244
9245…
9248
9249…
9252
9253…
9256
9257…
9260

3411

3411

Word

R/W

3412

3412

Word

R/W

3413

3413

Word

R/W

3414

3414

Word

R/W

3415

3415

Word

R/W

3416

3416

Word

R/W

3417

3417

Word

R/W

3418

3418

Word

R/W

3419

3419

Word

R/W

3420

3420

Word

R/W

9266

Float

RO

9267

Float

RO

9268

Float

RO

9269

Float

RO

9270

Float

RO

Float

R/W

Float

R/W

6531…
6532
6533…
6534
6535…
6536
6537…
6538
6539…
6540
6401…
6408
6409…
6416

9201…
9204
9205…
9208

Description
polynom coeffs for temperature factor
of comp5
polynom coeffs for conc correction of
temp factor comp1
polynom coeffs for conc correction of
temp factor comp2
polynom coeffs for conc correction of
temp factor comp3
polynom coeffs for conc correction of
temp factor comp4
polynom coeffs for conc correction of
temp factor comp5
enable temperature span compensation of comp1
enable temperature span compensation of comp2
enable temperature span compensation of comp3
enable temperature span compensation of comp4
enable temperature span compensation of comp5
assign temp-sensor of span comp1
(0=None, 1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of span comp2
(0=None, 1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of span comp3
(0=None, 1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of span comp4
(0=None, 1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of span comp5
(0=None, 1=DSP_T1, 2=DSP_T2 etc.)
temperature for span compensation of
comp1
temperature for span compensation of
comp2
temperature for span compensation of
comp3
temperature for span compensation of
comp4
temperature for span compensation of
comp5
polynom coeffs for temperature offset
of comp1
polynom coeffs for temperature offset
of comp2

9-7

Modbus Commands

Service.Measurement.Compensation.TfactCoeffs5
Service.Measurement.Compensation.TfactConcCoeffs1
Service.Measurement.Compensation.TfactConcCoeffs2
Service.Measurement.Compensation.TfactConcCoeffs3
Service.Measurement.Compensation.TfactConcCoeffs4
Service.Measurement.Compensation.TfactConcCoeffs5
Service.Measurement.Compensation.TfactEnable1
Service.Measurement.Compensation.TfactEnable2
Service.Measurement.Compensation.TfactEnable3
Service.Measurement.Compensation.TfactEnable4
Service.Measurement.Compensation.TfactEnable5
Service.Measurement.Compensation.TfactSensorAssign1
Service.Measurement.Compensation.TfactSensorAssign2
Service.Measurement.Compensation.TfactSensorAssign3
Service.Measurement.Compensation.TfactSensorAssign4
Service.Measurement.Compensation.TfactSensorAssign5
Service.Measurement.Compensation.TfactTemperature1
Service.Measurement.Compensation.TfactTemperature2
Service.Measurement.Compensation.TfactTemperature3
Service.Measurement.Compensation.TfactTemperature4
Service.Measurement.Compensation.TfactTemperature5
Service.Measurement.Compensation.ToffCoeffs1
Service.Measurement.Compensation.ToffCoeffs2

Address

9

Tag Name

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Tag Name
Service.Measurement.Compensation.ToffCoeffs3
Service.Measurement.Compensation.ToffCoeffs4
Service.Measurement.Compensation.ToffCoeffs5
Service.Measurement.Compensation.ToffEnable1
Service.Measurement.Compensation.ToffEnable2
Service.Measurement.Compensation.ToffEnable3
Service.Measurement.Compensation.ToffEnable4
Service.Measurement.Compensation.ToffEnable5
Service.Measurement.Compensation.ToffSensorAssign1
Service.Measurement.Compensation.ToffSensorAssign2
Service.Measurement.Compensation.ToffSensorAssign3
Service.Measurement.Compensation.ToffSensorAssign4
Service.Measurement.Compensation.ToffSensorAssign5
Service.Measurement.Compensation.ToffTemperature1
Service.Measurement.Compensation.ToffTemperature2
Service.Measurement.Compensation.ToffTemperature3
Service.Measurement.Compensation.ToffTemperature4
Service.Measurement.Compensation.ToffTemperature5
Service.Measurement.Lin.CutOff1
Service.Measurement.Lin.CutOff2
Service.Measurement.Lin.CutOff3
Service.Measurement.Lin.CutOff4
Service.Measurement.Lin.CutOff5
Service.Measurement.Lin.Enable1

9-8

Address

Data
Type

Client
Access

Float

R/W

Float

R/W

Float

R/W

Description

Modicon
6417…
6424
6425…
6432
6433…
6440

Daniel
9209…
9212
9213…
9216
9217…
9220

3401

3401

Word

R/W

3402

3402

Word

R/W

3403

3403

Word

R/W

3404

3404

Word

R/W

3405

3405

Word

R/W

3406

3406

Word

R/W

3407

3407

Word

R/W

3408

3408

Word

R/W

3409

3409

Word

R/W

3410

3410

Word

R/W

9261

Float

RO

9262

Float

RO

9263

Float

RO

9264

Float

RO

9265

Float

RO

9593

Float

R/W

Linearizer Cut-off value of comp1

9693

Float

R/W

Linearizer Cut-off value of comp1

9793

Float

R/W

Linearizer Cut-off value of comp1

9893

Float

R/W

Linearizer Cut-off value of comp1

9993

Float

R/W

Linearizer Cut-off value of comp1

3501

Word

R/W

Enable Linearizer of comp1

6521…
6522
6523…
6524
6525…
6526
6527…
6528
6529…
6530
7185…
7186
7385…
7386
7585…
7586
7785…
7786
7985…
7986
3501

polynom coeffs for temperature offset
of comp3
polynom coeffs for temperature offset
of comp4
polynom coeffs for temperature offset
of comp5
enable temperature zero compensation
of comp1
enable temperature zero compensation
of comp2
enable temperature zero compensation
of comp3
enable temperature zero compensation
of comp4
enable temperature zero compensation
of comp5
assign temp-sensor of zero comp1
(0=None, 1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of zero comp2
(0=None, 1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of zero comp3
(0=None, 1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of zero comp4
(0=None, 1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of zero comp5
(0=None, 1=DSP_T1, 2=DSP_T2 etc.)
temperature for zero compensation of
comp1
temperature for zero compensation of
comp2
temperature for zero compensation of
comp3
temperature for zero compensation of
comp4
temperature for zero compensation of
comp5

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Modicon Daniel
3502
3502
3503
3503
3504
3504
3505
3505
3521
3521
3522
3522
3523
3523
3524
3524
3525
3525

Data
Type

Client
Access

Word
Word
Word
Word
Word
Word
Word
Word
Word

R/W
R/W
R/W
R/W
RO
RO
RO
RO
RO

Description
Enable Linearizer of comp1
Enable Linearizer of comp1
Enable Linearizer of comp1
Enable Linearizer of comp1
Lin-computing iteration steps of comp1
Lin-computing iteration steps of comp1
Lin-computing iteration steps of comp1
Lin-computing iteration steps of comp1
Lin-computing iteration steps of comp1
Lin, status comp1 (0=Normal, 1=Underflow, 2=Overflow, 3=Undefined)
Lin, status comp2 (0=Normal, 1=Underflow, 2=Overflow, 3=Undefined)
Lin, status comp3 (0=Normal, 1=Underflow, 2=Overflow, 3=Undefined)
Lin, status comp4 (0=Normal, 1=Underflow, 2=Overflow, 3=Undefined)
Lin, status comp5 (0=Normal, 1=Underflow, 2=Overflow, 3=Undefined)

Service.Measurement.Lin.LinearizerStatus1

3516

3516

Word

RO

Service.Measurement.Lin.LinearizerStatus2

3517

3517

Word

RO

Service.Measurement.Lin.LinearizerStatus3

3518

3518

Word

RO

Service.Measurement.Lin.LinearizerStatus4

3519

3519

Word

RO

Service.Measurement.Lin.LinearizerStatus5

3520

3520

Word

RO

9592

Float

RO

Linearizer Maximum Value of comp1

9692

Float

RO

Linearizer Maximum Value of comp2

9792

Float

RO

Linearizer Maximum Value of comp3

9892

Float

RO

Linearizer Maximum Value of comp4

9992

Float

RO

Linearizer Maximum Value of comp5

Service.Measurement.Lin.MaxValue1
Service.Measurement.Lin.MaxValue2
Service.Measurement.Lin.MaxValue3
Service.Measurement.Lin.MaxValue4
Service.Measurement.Lin.MaxValue5

7183…
7184
7383…
7384
7583…
7584
7783…
7784
7983…
7984

Linearization method of comp1
(0=Splines, 1=Polynom)
Linearization method of comp2
(0=Splines, 1=Polynom)
Linearization method of comp3
(0=Splines, 1=Polynom)
Linearization method of comp4
(0=Splines, 1=Polynom)
Linearization method of comp5
(0=Splines, 1=Polynom)

Service.Measurement.Lin.Method1

3506

3506

Word

R/W

Service.Measurement.Lin.Method2

3507

3507

Word

R/W

Service.Measurement.Lin.Method3

3508

3508

Word

R/W

Service.Measurement.Lin.Method4

3509

3509

Word

R/W

Service.Measurement.Lin.Method5

3510

3510

Word

R/W

9591

Float

RO

Linearizer Minimum Value of comp1

9691

Float

RO

Linearizer Minimum Value of comp2

9791

Float

RO

Linearizer Minimum Value of comp3

Service.Measurement.Lin.MinValue1
Service.Measurement.Lin.MinValue2
Service.Measurement.Lin.MinValue3

Emerson Process Management GmbH & Co. OHG

7181…
7182
7381…
7382
7581…
7582

Modbus Commands

Service.Measurement.Lin.Enable2
Service.Measurement.Lin.Enable3
Service.Measurement.Lin.Enable4
Service.Measurement.Lin.Enable5
Service.Measurement.Lin.Iterations1
Service.Measurement.Lin.Iterations2
Service.Measurement.Lin.Iterations3
Service.Measurement.Lin.Iterations4
Service.Measurement.Lin.Iterations5

Address

9

Tag Name

9-9

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Tag Name
Service.Measurement.Lin.MinValue4
Service.Measurement.Lin.MinValue5
Service.Measurement.Lin.OverflowPerc1
Service.Measurement.Lin.OverflowPerc2
Service.Measurement.Lin.OverflowPerc3
Service.Measurement.Lin.OverflowPerc4
Service.Measurement.Lin.OverflowPerc5
Service.Measurement.Lin.RangePolySet1
Service.Measurement.Lin.RangePolySet2
Service.Measurement.Lin.RangePolySet3
Service.Measurement.Lin.RangePolySet4
Service.Measurement.Lin.RangePolySet5
Service.Measurement.Lin.Set1Coeffs1
Service.Measurement.Lin.Set1Coeffs2
Service.Measurement.Lin.Set1Coeffs3
Service.Measurement.Lin.Set1Coeffs4
Service.Measurement.Lin.Set1Coeffs5
Service.Measurement.Lin.Set2Coeffs1
Service.Measurement.Lin.Set2Coeffs2
Service.Measurement.Lin.Set2Coeffs3
Service.Measurement.Lin.Set2Coeffs4
Service.Measurement.Lin.Set2Coeffs5
Service.Measurement.Lin.Set3Coeffs1

9-10

Data
Type

Client
Access

9891

Float

RO

Linearizer Minimum Value of comp4

9991

Float

RO

Linearizer Minimum Value of comp5

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Word

R/W

Word

R/W

Word

R/W

Word

R/W

Word

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Address
Modicon
7781…
7782
7981…
7982
7161…
7168
7361…
7368
7561…
7568
7761…
7768
7961…
7968
3531…
3534
3535…
3538
3539…
3542
3543…
3546
3547…
3550
7121…
7130
7321…
7330
7521…
7530
7721…
7730
7921…
7930
7131…
7140
7331…
7340
7531…
7540
7731…
7740
7931…
7940
7141…
7150

Daniel

9581…
9584
9681…
9684
9781…
9784
9881…
9884
9981…
9984
3531…
3534
3535…
3538
3539…
3542
3543…
3546
3547…
3550
9561…
9565
9661…
9665
9761…
9765
9861…
9865
9961…
9965
9566…
9570
9666…
9670
9766…
9770
9866…
9870
9966…
9970
9571…
9575

Description

Lin-Overflow [%] for Range1..4 of
comp1
Lin-Overflow [%] for Range1..4 of
comp2
Lin-Overflow [%] for Range1..4 of
comp3
Lin-Overflow [%] for Range1..4 of
comp4
Lin-Overflow [%] for Range1..4 of
comp5
polyn, set of range1..4 comp1
(0=Poly1, 1=Poly2, 2=Poly3, 3=Poly4)
polyn, set of range1..4 comp2
(0=Poly1, 1=Poly2, 2=Poly3, 3=Poly4)
polyn, set of range1..4 comp3
(0=Poly1, 1=Poly2, 2=Poly3, 3=Poly4)
polyn, set of range1..4 comp4
(0=Poly1, 1=Poly2, 2=Poly3, 3=Poly4)
polyn, set of range1..4 comp5
(0=Poly1, 1=Poly2, 2=Poly3, 3=Poly4),
Lin-Polynom. Set1-Coeffs (A0..4) for
comp1
Lin-Polynom. Set1-Coeffs (A0..4) for
comp2
Lin-Polynom. Set1-Coeffs (A0..4) for
comp3
Lin-Polynom. Set1-Coeffs (A0..4) for
comp4
Lin-Polynom. Set1-Coeffs (A0..4) for
comp5
Lin-Polynom. Set2-Coeffs (A0..4) for
comp1
Lin-Polynom. Set2-Coeffs (A0..4) for
comp2
Lin-Polynom. Set2-Coeffs (A0..4) for
comp3
Lin-Polynom. Set2-Coeffs (A0..4) for
comp4
Lin-Polynom. Set2-Coeffs (A0..4) for
comp5
Lin-Polynom. Set3-Coeffs (A0..4) for
comp1

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Data
Type

Client
Access

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Description

Modicon
7341…
7350
7541…
7550
7741…
7750
7941…
7950
7151…
7160
7351…
7360
7551…
7560
7751…
7760
7951…
7960

Daniel
9671…
9675
9771…
9775
9871…
9875
9971…
9975
9576…
9580
9676…
9680
9776…
9780
9876…
9880
9976…
9980

Service.Measurement.Lin.StartFunction1

3511

3511

Word

R/W

Service.Measurement.Lin.StartFunction2

3512

3512

Word

R/W

Service.Measurement.Lin.StartFunction3

3513

3513

Word

R/W

Service.Measurement.Lin.StartFunction4

3514

3514

Word

R/W

Service.Measurement.Lin.StartFunction5

3515

3515

Word

R/W

7001…
7006
7201…
7206
7401…
7406
7601…
7606
7801…
7806
7061…
7066
7261…
7266
7461…
7466
7661…
7666

9501…
9503
9601…
9603
9701…
9703
9801…
9803
9901…
9903
9531…
9533
9631…
9633
9731…
9733
9831…
9833

Float

R/W

Linearization table X-Values of comp1

Float

R/W

Linearization table X-Values of comp2

Float

R/W

Linearization table X-Values of comp3

Float

R/W

Linearization table X-Values of comp4

Float

R/W

Linearization table X-Values of comp5

Float

R/W

Linearization table Y-Values of comp1

Float

R/W

Linearization table Y-Values of comp2

Float

R/W

Linearization table Y-Values of comp3

Float

R/W

Linearization table Y-Values of comp4

Service.Measurement.Lin.Set3Coeffs2
Service.Measurement.Lin.Set3Coeffs3
Service.Measurement.Lin.Set3Coeffs4
Service.Measurement.Lin.Set3Coeffs5
Service.Measurement.Lin.Set4Coeffs1
Service.Measurement.Lin.Set4Coeffs2
Service.Measurement.Lin.Set4Coeffs3
Service.Measurement.Lin.Set4Coeffs4
Service.Measurement.Lin.Set4Coeffs5

Service.Measurement.Lin.TableXValues1
Service.Measurement.Lin.TableXValues2
Service.Measurement.Lin.TableXValues3
Service.Measurement.Lin.TableXValues4
Service.Measurement.Lin.TableXValues5
Service.Measurement.Lin.TableYValues1
Service.Measurement.Lin.TableYValues2
Service.Measurement.Lin.TableYValues3
Service.Measurement.Lin.TableYValues4

Emerson Process Management GmbH & Co. OHG

Lin-Polynom. Set3-Coeffs (A0..4) for
comp2
Lin-Polynom. Set3-Coeffs (A0..4) for
comp3
Lin-Polynom. Set3-Coeffs (A0..4) for
comp4
Lin-Polynom. Set3-Coeffs (A0..4) for
comp5
Lin-Polynom. Set4-Coeffs (A0..4) for
comp1
Lin-Polynom. Set4-Coeffs (A0..4) for
comp2
Lin-Polynom. Set4-Coeffs (A0..4) for
comp3
Lin-Polynom. Set4-Coeffs (A0..4) for
comp4
Lin-Polynom. Set4-Coeffs (A0..4) for
comp5
LinFct c1: 1=On/Off, 2=Calc, 3=ToUSB,
4=FromUSB, 5=Install, 6=ToFile
LinFct c2: 1=On/Off, 2=Calc, 3=ToUSB,
4=FromUSB, 5=Install, 6=ToFile
LinFct c3: 1=On/Off, 2=Calc, 3=ToUSB,
4=FromUSB, 5=Install, 6=ToFile
LinFct c4: 1=On/Off, 2=Calc, 3=ToUSB,
4=FromUSB, 5=Install, 6=ToFile
LinFct c5: 1=On/Off, 2=Calc, 3=ToUSB,
4=FromUSB, 5=Install, 6=ToFile

9-11

Modbus Commands

Address

9

Tag Name

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Tag Name
Service.Measurement.Lin.TableYValues5
Service.Measurement.Lin.UnderflowPerc1
Service.Measurement.Lin.UnderflowPerc2
Service.Measurement.Lin.UnderflowPerc3
Service.Measurement.Lin.UnderflowPerc4
Service.Measurement.Lin.UnderflowPerc5
Service.Measurement.Simulation.PVARawValue1
Service.Measurement.Simulation.PVARawValue2
Service.Measurement.Simulation.PVARawValue3
Service.Measurement.Simulation.PVARawValue4
Service.Measurement.Simulation.PVARawValue5
Service.Measurement.Simulation.SimPVARawEnable1
Service.Measurement.Simulation.SimPVARawEnable2
Service.Measurement.Simulation.SimPVARawEnable3
Service.Measurement.Simulation.SimPVARawEnable4
Service.Measurement.Simulation.SimPVARawEnable5
Service.Measurement.Simulation.SimPVARawValue1
Service.Measurement.Simulation.SimPVARawValue2
Service.Measurement.Simulation.SimPVARawValue3
Service.Measurement.Simulation.SimPVARawValue4
Service.Measurement.Simulation.SimPVARawValue5
Service.Measurement.Simulation.SimXSPMuxEnable1
Service.Measurement.Simulation.SimXSPMuxValue1

9-12

Data
Type

Client
Access

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

9006

Float

RO

value for rawPVA of comp1

9007

Float

RO

value for rawPVA of comp2

9008

Float

RO

value for rawPVA of comp3

9009

Float

RO

value for rawPVA of comp4

Address

Description

Modicon
7861…
7866
7169…
7176
7369…
7376
7569…
7576
7769…
7776
7969…
7976
6011…
6012
6013…
6014
6015…
6016
6017…
6018
6019…
6020

Daniel
9931…
9933
9585…
9588
9685…
9688
9785…
9788
9885…
9888
9985…
9988

9010

Float

RO

value for rawPVA of comp5

3456

3456

Word

R/W

enable simulation for rawPVA of comp1

3457

3457

Word

R/W

enable simulation for rawPVA of comp2

3458

3458

Word

R/W

enable simulation for rawPVA of comp3

3459

3459

Word

R/W

enable simulation for rawPVA of comp4

3460

3460

Word

R/W

enable simulation for rawPVA of comp5

9486

Float

R/W

simulation value for rawPVA of comp1

9487

Float

R/W

simulation value for rawPVA of comp2

9488

Float

R/W

simulation value for rawPVA of comp3

9489

Float

R/W

simulation value for rawPVA of comp4

9490

Float

R/W

simulation value for rawPVA of comp5

Word

R/W

Float

R/W

6971…
6972
6973…
6974
6975…
6976
6977…
6978
6979…
6980
3461…
3468
6981…
6996

3461…
3468
9491…
9498

Linearization table Y-Values of comp5
Lin-Underflow [%] for Range1..4 of
comp1
Lin-Underflow [%] for Range1..4 of
comp2
Lin-Underflow [%] for Range1..4 of
comp3
Lin-Underflow [%] for Range1..4 of
comp4
Lin-Underflow [%] for Range1..4 of
comp5

enable simulation for XSP‘s multiplexer
value1..8
simulation value for XSP‘s multiplexer
value1..8

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Service.Status.DeviceStates.ChStateForce1
Service.Status.DeviceStates.ChStateForce2
Service.Status.DeviceStates.ChStateForce3
Service.Status.DeviceStates.ChStateForce4
Service.Status.DeviceStates.ChStateForce5
Service.Status.DeviceStates.ChStateInhibit1
Service.Status.DeviceStates.ChStateInhibit2
Service.Status.DeviceStates.ChStateInhibit3
Service.Status.DeviceStates.ChStateInhibit4
Service.Status.DeviceStates.ChStateInhibit5
Service.Status.DeviceStates.DvcStateForce
Service.Status.DeviceStates.DvcStateInhibit
Service.Status.NAMUR.FailureMap
Service.Status.NAMUR.FailureMask
Service.Status.NAMUR.FctCheckMap
Service.Status.NAMUR.FctCheckMask
Service.Status.NAMUR.MaintMap
Service.Status.NAMUR.MaintMask
Service.Status.NAMUR.OffSpecMap
Service.Status.NAMUR.OffSpecMask
Setup.Calibration.CurrentSpangas1
Setup.Calibration.CurrentSpangas2

Emerson Process Management GmbH & Co. OHG

Client
Access

Modicon
6341…
6356
5311…
5318
5321…
5328
5331…
5338
5341…
5348
5351…
5358
5251…
5258
5261…
5268
5271…
5278
5281…
5288
5291…
5298
5301…
5308
5241…
5248
5029…
5030
5021…
5022
5035…
5036
5027…
5028
5033…
5034
5025…
5026
5031…
5032
5023…
5024
6111…
6112
6113…
6114

Float

RO

DWord

R/W

DWord

R/W

DWord

R/W

DWord

R/W

DWord

R/W

DWord

R/W

DWord

R/W

DWord

R/W

DWord

R/W

DWord

R/W

DWord

R/W

DWord

R/W

8015

DWord

R/W

8011

DWord

R/W

8018

DWord

R/W

8014

DWord

R/W

8017

DWord

R/W

8013

DWord

R/W

8016

DWord

R/W

8012

DWord

R/W

9056

Float

R/W

current zero gas of comp1

9057

Float

R/W

current zero gas of comp2

Daniel
9171…
9178
8156…
8159
8161…
8164
8166…
8169
8171…
8174
8176…
8179
8126…
8129
8131…
8134
8136…
8139
8141…
8144
8146…
8149
8151…
8154
8121…
8124

Description
values for XSP‘s multiplexer value1..8
Forcing for comp1‘s state bitfield
(b0:......)
Forcing for comp2‘s state bitfield
(b0:......)
Forcing for comp3‘s state bitfield
(b0:......)
Forcing for comp4‘s state bitfield
(b0:......)
Forcing for comp5‘s state bitfield
(b0:......)
Inhibit for comp1‘s state bitfield
(b0:......)
Inhibit for comp2‘s state bitfield
(b0:......)
Inhibit for comp3‘s state bitfield
(b0:......)
Inhibit for comp4‘s state bitfield
(b0:......)
Inhibit for comp5‘s state bitfield
(b0:......)
Forcing for device (N0) state bitfield
(b0:......)
Inhibit for device (N0) state bitfield
(b0:......)
Bitmask that maps cond. for failure
source
Bitmask that disables failure sources
Bitmask that maps cond. for FctCheck
source
Bitmask that disables NAMUR FctCheck sources
Bitmask that maps cond. for maintenance request source
Bitmask that disables NAMUR maintenance request sources
Bitmask that maps cond. to OffSpec
source
Bitmask that disables NAMUR OffSpec
sources

9-13

Modbus Commands

Service.Measurement.Simulation.XSPMuxValue1

Data
Type

Address

9

Tag Name

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Tag Name
Setup.Calibration.CurrentSpangas3
Setup.Calibration.CurrentSpangas4
Setup.Calibration.CurrentSpangas5
Setup.Calibration.CurrentZerogas1
Setup.Calibration.CurrentZerogas2
Setup.Calibration.CurrentZerogas3
Setup.Calibration.CurrentZerogas4
Setup.Calibration.CurrentZerogas5
Setup.Calibration.Range1Spangas1
Setup.Calibration.Range1Spangas2
Setup.Calibration.Range1Spangas3
Setup.Calibration.Range1Spangas4
Setup.Calibration.Range1Spangas5
Setup.Calibration.Range1Zerogas1
Setup.Calibration.Range1Zerogas2
Setup.Calibration.Range1Zerogas3
Setup.Calibration.Range1Zerogas4
Setup.Calibration.Range1Zerogas5
Setup.Calibration.Range2Spangas1
Setup.Calibration.Range2Spangas2
Setup.Calibration.Range2Spangas3
Setup.Calibration.Range2Spangas4
Setup.Calibration.Range2Spangas5

9-14

Address
Modicon Daniel
6115…
9058
6116
6117…
9059
6118
6119…
9060
6120
6101…
9051
6102
6103…
9052
6104
6105…
9053
6106
6107…
9054
6108
6109…
9055
6110
6261…
9131
6262
6269…
9135
6270
6277…
9139
6278
6285…
9143
6286
6293…
9147
6294
6221…
9111
6222
6229…
9115
6230
6237…
9119
6238
6245…
9123
6246
6253…
9127
6254
6263…
9132
6264
6271…
9136
6272
6279…
9140
6280
6287…
9144
6288
6295…
9148
6296

Data
Type

Client
Access

Float

R/W

current zero gas of comp3

Float

R/W

current zero gas of comp4

Float

R/W

current zero gas of comp5

Float

R/W

current zero gas of comp1

Float

R/W

current zero gas of comp2

Float

R/W

current zero gas of comp3

Float

R/W

current zero gas of comp4

Float

R/W

current zero gas of comp5

Float

R/W

span gas of range1 of comp1

Float

R/W

span gas of range1 of comp2

Float

R/W

span gas of range1 of comp3

Float

R/W

span gas of range1 of comp4

Float

R/W

span gas of range1 of comp5

Float

R/W

zero gas of range1 of comp1

Float

R/W

zero gas of range1 of comp2

Float

R/W

zero gas of range1 of comp3

Float

R/W

zero gas of range1 of comp4

Float

R/W

zero gas of range1 of comp5

Float

R/W

span gas of range2 of comp1

Float

R/W

span gas of range2 of comp2

Float

R/W

span gas of range2 of comp3

Float

R/W

span gas of range2 of comp4

Float

R/W

span gas of range2 of comp5

Description

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Setup.Calibration.Range2Zerogas2
Setup.Calibration.Range2Zerogas3
Setup.Calibration.Range2Zerogas4
Setup.Calibration.Range2Zerogas5
Setup.Calibration.Range3Spangas1
Setup.Calibration.Range3Spangas2
Setup.Calibration.Range3Spangas3
Setup.Calibration.Range3Spangas4
Setup.Calibration.Range3Spangas5
Setup.Calibration.Range3Zerogas1
Setup.Calibration.Range3Zerogas2
Setup.Calibration.Range3Zerogas3
Setup.Calibration.Range3Zerogas4
Setup.Calibration.Range3Zerogas5
Setup.Calibration.Range4Spangas1
Setup.Calibration.Range4Spangas2
Setup.Calibration.Range4Spangas3
Setup.Calibration.Range4Spangas4
Setup.Calibration.Range4Spangas5
Setup.Calibration.Range4Zerogas1
Setup.Calibration.Range4Zerogas2
Setup.Calibration.Range4Zerogas3

Emerson Process Management GmbH & Co. OHG

Modicon Daniel
6223…
9112
6224
6231…
9116
6232
6239…
9120
6240
6247…
9124
6248
6255…
9128
6256
6265…
9133
6266
6273…
9137
6274
6281…
9141
6282
6289…
9145
6290
6297…
9149
6298
6225…
9113
6226
6233…
9117
6234
6241…
9121
6242
6249…
9125
6250
6257…
9129
6258
6267…
9134
6268
6275…
9138
6276
6283…
9142
6284
6291…
9146
6292
6299…
9150
6300
6227…
9114
6228
6235…
9118
6236
6243…
9122
6244

Data
Type

Client
Access

Float

R/W

zero gas of range2 of comp1

Float

R/W

zero gas of range2 of comp2

Float

R/W

zero gas of range2 of comp3

Float

R/W

zero gas of range2 of comp4

Float

R/W

zero gas of range2 of comp5

Float

R/W

span gas of range3 of comp1

Float

R/W

span gas of range3 of comp2

Float

R/W

span gas of range3 of comp3

Float

R/W

span gas of range3 of comp4

Float

R/W

span gas of range3 of comp5

Float

R/W

zero gas of range3 of comp1

Float

R/W

zero gas of range3 of comp2

Float

R/W

zero gas of range3 of comp3

Float

R/W

zero gas of range3 of comp4

Float

R/W

zero gas of range3 of comp5

Float

R/W

span gas of range4 of comp1

Float

R/W

span gas of range4 of comp2

Float

R/W

span gas of range4 of comp3

Float

R/W

span gas of range4 of comp4

Float

R/W

span gas of range4 of comp5

Float

R/W

zero gas of range4 of comp1

Float

R/W

zero gas of range4 of comp2

Float

R/W

zero gas of range4 of comp3

Description

Modbus Commands

Setup.Calibration.Range2Zerogas1

Address

9

Tag Name

9-15

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Tag Name
Setup.Calibration.Range4Zerogas4
Setup.Calibration.Range4Zerogas5

Address
Modicon Daniel
6251…
9126
6252
6259…
9130
6260

Data
Type

Client
Access

Float

R/W

zero gas of range4 of comp4

Float

R/W

zero gas of range4 of comp5

Description

span cal method comp1 (0=Instant,
1=Stability)
span cal method comp2 (0=Instant,
1=Stability)
span cal method comp2 (0=Instant,
1=Stability)
span cal method comp4 (0=Instant,
1=Stability)
span cal method comp5 (0=Instant,
1=Stability)
zero cal method comp1 (0=Instant,
1=Stability)
zero cal method comp2 (0=Instant,
1=Stability)
zero cal method comp3 (0=Instant,
1=Stability)
zero cal method comp4 (0=Instant,
1=Stability)
zero cal method comp5 (0=Instant,
1=Stability)
Modbus 32Bit mode of Ethernet1
Modbus 32Bit mode of Ethernet2
Modbus 32Bit mode of serial COM
Modbus 32Bit mode of serial service
COM

Setup.Calibration.SpanMethod1

3306

3306

Word

R/W

Setup.Calibration.SpanMethod2

3307

3307

Word

R/W

Setup.Calibration.SpanMethod3

3308

3308

Word

R/W

Setup.Calibration.SpanMethod4

3309

3309

Word

R/W

Setup.Calibration.SpanMethod5

3310

3310

Word

R/W

Setup.Calibration.ZeroMethod1

3301

3301

Word

R/W

Setup.Calibration.ZeroMethod2

3302

3302

Word

R/W

Setup.Calibration.ZeroMethod3

3303

3303

Word

R/W

Setup.Calibration.ZeroMethod4

3304

3304

Word

R/W

Setup.Calibration.ZeroMethod5

3305

3305

Word

R/W

Setup.Communication.Eth1ModbusFt32
Setup.Communication.Eth2ModbusFt32
Setup.Communication.SIntModbusFt32

3400
3399
3397

3400
3399
3397

Word
Word
Word

R/W
R/W
R/W

Setup.Communication.SSvcModbusFt32

3398

3398

Word

R/W

3071…
3074
3075…
3078
3079…
3082
3083…
3086
3087…
3090

3071…
3074
3075…
3078
3079…
3082
3083…
3086
3087…
3090

String

R/W

gas name of component1

String

R/W

gas name of component2

String

R/W

gas name of component3

String

R/W

gas name of component4

String

R/W

gas name of component5

Setup.Display.Component.Precision1

3036

3036

Word

R/W

Setup.Display.Component.Precision2

3037

3037

Word

R/W

Setup.Display.Component.Precision3

3038

3038

Word

R/W

Setup.Display.Component.Precision4

3039

3039

Word

R/W

Setup.Display.Component.Gasname1
Setup.Display.Component.Gasname2
Setup.Display.Component.Gasname3
Setup.Display.Component.Gasname4
Setup.Display.Component.Gasname5

9-16

decimal points displayed for component1
decimal points displayed for component2
decimal points displayed for component3
decimal points displayed for component4

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Modicon Daniel

Data
Type

Client
Access

Description
decimal points displayed for component4
PV1 unit: 0 = Custom, ppm, ppb, Vol%
PV2 unit: 0 = Custom, ppm, ppb, Vol%
PV3 unit: 0 = Custom, ppm, ppb, Vol%
PV4 unit: 0 = Custom, ppm, ppb, Vol%
PV5 unit: 0 = Custom, ppm, ppb, Vol%
factor to convert ppm into displayed
custom unit1
factor to convert ppm into displayed
custom unit2
factor to convert ppm into displayed
custom unit3
factor to convert ppm into displayed
custom unit4
factor to convert ppm into displayed
custom unit5
offset to convert ppm into displayed
custom unit1
offset to convert ppm into displayed
custom unit2
offset to convert ppm into displayed
custom unit3
offset to convert ppm into displayed
custom unit4
offset to convert ppm into displayed
custom unit5

Setup.Display.Component.Precision5

3040

3040

Word

R/W

Setup.Display.Component.PV_Unit1
Setup.Display.Component.PV_Unit2
Setup.Display.Component.PV_Unit3
Setup.Display.Component.PV_Unit4
Setup.Display.Component.PV_Unit5

3011
3016
3021
3026
3031
6301…
6302
6305…
6306
6309…
6310
6313…
6314
6317…
6318
6303…
6304
6307…
6308
6311…
6312
6315…
6316
6319…
6320
3012…
3015
3017…
3020
3022…
3025
3027…
3030
3032…
3035
3041…
3045
3046…
3050
3051…
3055
3056…
3060
3061…
3065

3011
3016
3021
3026
3031

Word
Word
Word
Word
Word

R/W
R/W
R/W
R/W
R/W

9151

Float

R/W

9153

Float

R/W

9155

Float

R/W

9157

Float

R/W

9159

Float

R/W

9152

Float

R/W

9154

Float

R/W

9156

Float

R/W

9158

Float

R/W

9160

Float

R/W

String

R/W

unit displayed for comp1

String

R/W

unit displayed for comp2

String

R/W

unit displayed for comp3

String

R/W

unit displayed for comp4

String

R/W

unit displayed for comp5

String

R/W

displayed tag for component1

String

R/W

displayed tag for component2

String

R/W

displayed tag for component3

String

R/W

displayed tag for component4

String

R/W

displayed tag for component5

Setup.Display.Component.PV_UnitFactor1
Setup.Display.Component.PV_UnitFactor2
Setup.Display.Component.PV_UnitFactor3
Setup.Display.Component.PV_UnitFactor4
Setup.Display.Component.PV_UnitFactor5
Setup.Display.Component.PV_UnitOffset1
Setup.Display.Component.PV_UnitOffset2
Setup.Display.Component.PV_UnitOffset3
Setup.Display.Component.PV_UnitOffset4
Setup.Display.Component.PV_UnitOffset5
Setup.Display.Component.PV_UnitString1
Setup.Display.Component.PV_UnitString2
Setup.Display.Component.PV_UnitString3
Setup.Display.Component.PV_UnitString4
Setup.Display.Component.PV_UnitString5
Setup.Display.Component.Tag1
Setup.Display.Component.Tag2
Setup.Display.Component.Tag3
Setup.Display.Component.Tag4
Setup.Display.Component.Tag5

Emerson Process Management GmbH & Co. OHG

3012…
3015
3017…
3020
3022…
3025
3027…
3030
3032…
3035
3041…
3045
3046…
3050
3051…
3055
3056…
3060
3061…
3065

Modbus Commands

Address

9

Tag Name

9-17

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Tag Name

Address

Data
Type

Client
Access

String

R/W

String

R/W

String

R/W

String

R/W

String

R/W

Modicon
3101…
3104
3105…
3108
3109…
3112
3113…
3116
3117…
3120

Daniel
3101…
3104
3105…
3108
3109…
3112
3113…
3116
3117…
3120

Setup.Display.MeasDisplay.Dis1Line1

3091

3091

Word

R/W

Setup.Display.MeasDisplay.Dis1Line2

3092

3092

Word

R/W

Setup.Display.MeasDisplay.Dis1Line3

3093

3093

Word

R/W

Setup.Display.MeasDisplay.Dis1Line4

3094

3094

Word

R/W

Setup.Display.MeasDisplay.Dis1Line5

3095

3095

Word

R/W

3121…
3124
3125…
3128
3129…
3132
3133…
3136
3137…
3140

3121…
3124
3125…
3128
3129…
3132
3133…
3136
3137…
3140

String

R/W

String

R/W

String

R/W

String

R/W

String

R/W

Setup.Display.MeasDisplay.Dis2Line1

3096

3096

Word

R/W

Setup.Display.MeasDisplay.Dis2Line2

3097

3097

Word

R/W

Setup.Display.MeasDisplay.Dis2Line3

3098

3098

Word

R/W

Setup.Display.MeasDisplay.Dis2Line4

3099

3099

Word

R/W

Setup.Display.MeasDisplay.Dis2Line5

3100

3100

Word

R/W

9184

Float

R/W

9188

Float

R/W

9192

Float

R/W

Setup.Display.MeasDisplay.Dis1Label1
Setup.Display.MeasDisplay.Dis1Label2
Setup.Display.MeasDisplay.Dis1Label3
Setup.Display.MeasDisplay.Dis1Label4
Setup.Display.MeasDisplay.Dis1Label5

Setup.Display.MeasDisplay.Dis2Label1
Setup.Display.MeasDisplay.Dis2Label2
Setup.Display.MeasDisplay.Dis2Label3
Setup.Display.MeasDisplay.Dis2Label4
Setup.Display.MeasDisplay.Dis2Label5

Setup.In/Outputs.AO.AdjustEnd1
Setup.In/Outputs.AO.AdjustEnd2
Setup.In/Outputs.AO.AdjustEnd3

9-18

6367…
6368
6375…
6376
6383…
6384

Description
displayed label of measure display 1,
Line 1
displayed label of measure display 1,
Line 2
displayed label of measure display 1,
Line 3
displayed label of measure display 1,
Line 4
displayed label of measure display 1,
Line 5
assigned signal of measure display 1,
Line 1
assigned signal of measure display 1,
Line 2
assigned signal of measure display 1,
Line 3
assigned signal of measure display 1,
Line 4
assigned signal of measure display 1,
Line 5
displayed label of measure display 2,
Line 1
displayed label of measure display 2,
Line 2
displayed label of measure display 2,
Line 3
displayed label of measure display 2,
Line 4
displayed label of measure display 2,
Line 5
assigned signal of measure display 2,
Line 1
assigned signal of measure display 2,
Line 2
assigned signal of measure display 2,
Line 3
assigned signal of measure display 2,
Line 4
assigned signal of measure display 2,
Line 5
fine adjustment for end range of output1
fine adjustment for end range of output2
fine adjustment for end range of output3

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Setup.In/Outputs.AO.AdjustEnd5
Setup.In/Outputs.AO.AdjustStart1
Setup.In/Outputs.AO.AdjustStart2
Setup.In/Outputs.AO.AdjustStart3
Setup.In/Outputs.AO.AdjustStart4
Setup.In/Outputs.AO.AdjustStart5

Modicon Daniel
6391…
9196
6392
6399…
9200
6400
6365…
9183
6366
6373…
9187
6374
6381…
9191
6382
6389…
9195
6390
6397…
9199
6398

Data
Type

Client
Access

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Setup.In/Outputs.AO.AutoScale1

3273

3273

Word

R/W

Setup.In/Outputs.AO.AutoScale2

3278

3278

Word

R/W

Setup.In/Outputs.AO.AutoScale3

3283

3283

Word

R/W

Setup.In/Outputs.AO.AutoScale4

3288

3288

Word

R/W

Setup.In/Outputs.AO.AutoScale5

3293

3293

Word

R/W

9182

Float

R/W

6363…
6364
6371…
6372
6379…
6380
6387…
6388
6395…
6396

9186

Float

R/W

9190

Float

R/W

9194

Float

R/W

9198

Float

R/W

Setup.In/Outputs.AO.FailMode1

3274

3274

Word

R/W

Setup.In/Outputs.AO.FailMode2

3279

3279

Word

R/W

Setup.In/Outputs.AO.FailMode3

3284

3284

Word

R/W

Setup.In/Outputs.AO.FailMode4

3289

3289

Word

R/W

Setup.In/Outputs.AO.FailMode5

3294

3294

Word

R/W

Setup.In/Outputs.AO.Hold1

3275

3275

Word

R/W

Setup.In/Outputs.AO.EndRange1
Setup.In/Outputs.AO.EndRange2
Setup.In/Outputs.AO.EndRange3
Setup.In/Outputs.AO.EndRange4
Setup.In/Outputs.AO.EndRange5

Emerson Process Management GmbH & Co. OHG

Description
fine adjustment for end range of output4
fine adjustment for end range of output5
fine adjustment for start range of
output1
fine adjustment for start range of
output2
fine adjustment for start range of
output3
fine adjustment for start range of
output4
fine adjustment for start range of
output5
Auto scale for ranged signals on output1 (0=NO, 1=Yes)
Auto scale for ranged signals on output2 (0=NO, 1=Yes)
Auto scale for ranged signals on output3 (0=NO, 1=Yes)
Auto scale for ranged signals on output4 (0=NO, 1=Yes)
Auto scale for ranged signals on output5 (0=NO, 1=Yes)
level where analoge output scaling
ends on output1
level where analoge output scaling
ends on output2
level where analoge output scaling
ends on output3
level where analoge output scaling
ends on output4
level where analoge output scaling
ends on output5
Behavior on errors output1 (0=Track,
1=-10%Start, 2=+10%End)
Behavior on errors output2 (0=Track,
1=-10%Start, 2=+10%End)
Behavior on errors output3 (0=Track,
1=-10%Start, 2=+10%End)
Behavior on errors output4 (0=Track,
1=-10%Start, 2=+10%End)
Behavior on errors output5 (0=Track,
1=-10%Start, 2=+10%End)
Hold output1 on calibrations (0=Track,
1=Hold)

9-19

Modbus Commands

Setup.In/Outputs.AO.AdjustEnd4

Address

9

Tag Name

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Tag Name

Address
Modicon Daniel

Data
Type

Client
Access

Setup.In/Outputs.AO.Hold2

3280

3280

Word

R/W

Setup.In/Outputs.AO.Hold3

3285

3285

Word

R/W

Setup.In/Outputs.AO.Hold4

3290

3290

Word

R/W

Setup.In/Outputs.AO.Hold5

3295

3295

Word

R/W

Setup.In/Outputs.AO.NumberOuts

3270

3270

Word

R/W

Setup.In/Outputs.AO.OutRange1

3272

3272

Word

R/W

Setup.In/Outputs.AO.OutRange2

3277

3277

Word

R/W

Setup.In/Outputs.AO.OutRange3

3282

3282

Word

R/W

Setup.In/Outputs.AO.OutRange4

3287

3287

Word

R/W

Setup.In/Outputs.AO.OutRange5

3292

3292

Word

R/W

Setup.In/Outputs.AO.SignalAsgn1
Setup.In/Outputs.AO.SignalAsgn2
Setup.In/Outputs.AO.SignalAsgn3
Setup.In/Outputs.AO.SignalAsgn4
Setup.In/Outputs.AO.SignalAsgn5

3271
3276
3281
3286
3291
6361…
6362
6369…
6370
6377…
6378
6385…
6386
6393…
6394
3221
3238
3239
3240
3241
3242
3222
3223
3224
3225
3226
3227

3271
3276
3281
3286
3291

Word
Word
Word
Word
Word

R/W
R/W
R/W
R/W
R/W

9181

Float

R/W

9185

Float

R/W

9189

Float

R/W

9193

Float

R/W

9197

Float

R/W

3221
3238
3239
3240
3241
3242
3222
3223
3224
3225
3226
3227

Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word

R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W

Setup.In/Outputs.AO.StartRange1
Setup.In/Outputs.AO.StartRange2
Setup.In/Outputs.AO.StartRange3
Setup.In/Outputs.AO.StartRange4
Setup.In/Outputs.AO.StartRange5
Setup.In/Outputs.DI.Node_DI1
Setup.In/Outputs.DI.Node_DI10
Setup.In/Outputs.DI.Node_DI11
Setup.In/Outputs.DI.Node_DI12
Setup.In/Outputs.DI.Node_DI13
Setup.In/Outputs.DI.Node_DI14
Setup.In/Outputs.DI.Node_DI2
Setup.In/Outputs.DI.Node_DI3
Setup.In/Outputs.DI.Node_DI4
Setup.In/Outputs.DI.Node_DI5
Setup.In/Outputs.DI.Node_DI6
Setup.In/Outputs.DI.Node_DI7

9-20

Description
Hold output2 on calibrations (0=Track,
1=Hold)
Hold output3 on calibrations (0=Track,
1=Hold)
Hold output4 on calibrations (0=Track,
1=Hold)
Hold output5 on calibrations (0=Track,
1=Hold)
number of analog outputs
range of output1 (0=0..20mA, 1=420mA)
range of output2 (0=0..20mA, 1=420mA)
range of output3 (0=0..20mA, 1=420mA)
range of output4 (0=0..20mA, 1=420mA)
range of output5 (0=0..20mA, 1=420mA)
assigned signal output1
assigned signal output2
assigned signal output3
assigned signal output4
assigned signal output5
level where analoge output scaling
starts on output1
level where analoge output scaling
starts on output2
level where analoge output scaling
starts on output3
level where analoge output scaling
starts on output4
level where analoge output scaling
starts on output5
node of DigInp1 / XDIO1 Inp1
node of DigInp10 / XDIO2 Inp3
node of DigInp11 / XDIO2 Inp4
node of DigInp12 / XDIO2 Inp5
node of DigInp13 / XDIO2 Inp6
node of DigInp14 / XDIO2 Inp7
node of DigInp2 / XDIO1 Inp2
node of DigInp3 / XDIO1 Inp3
node of DigInp4 / XDIO1 Inp4
node of DigInp5 / XDIO1 Inp5
node of DigInp6 / XDIO1 Inp6
node of DigInp7 / XDIO1 Inp7

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Emerson Process Management GmbH & Co. OHG

Modicon Daniel
3236
3236
3237
3237
3228
3228
3245
3245
3246
3246
3247
3247
3248
3248
3249
3249
3229
3229
3230
3230
3231
3231
3232
3232
3233
3233
3234
3234
3243
3243
3244
3244
3151
3151
3166
3166
3167
3167
3168
3168
3169
3169
3181
3181
3182
3182
3183
3183
3184
3184
3185
3185
3186
3186
3152
3152
3187
3187
3188
3188
3189
3189
3153
3153
3154
3154
3161
3161
3162
3162
3163
3163
3164
3164
3165
3165
3156
3156
3176
3176
3177
3177
3178
3178
3179
3179

Data
Type

Client
Access

Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word

R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W

Description
node of DigInp8 / XDIO2 Inp1
node of DigInp9 / XDIO2 Inp2
signal of DigInp1 / XDIO1 Inp1
signal of DigInp10 / XDIO2 Inp3
signal of DigInp11 / XDIO2 Inp4
signal of DigInp12 / XDIO2 Inp5
signal of DigInp13 / XDIO2 Inp6
signal of DigInp14 / XDIO2 Inp7
signal of DigInp2 / XDIO1 Inp2
signal of DigInp3 / XDIO1 Inp3
signal of DigInp4 / XDIO1 Inp4
signal of DigInp5 / XDIO1 Inp5
signal of DigInp6 / XDIO1 Inp6
signal of DigInp7 / XDIO1 Inp7
signal of DigInp8 / XDIO2 Inp1
signal of DigInp9 / XDIO2 Inp2
node of DigOut1 / XPSA
node of DigOut10 / XDIO1 Out6
node of DigOut11 / XDIO1 Out7
node of DigOut12 / XDIO1 Out8
node of DigOut13 / XDIO1 Out9
node of DigOut14 / XDIO2 Out1
node of DigOut15 / XDIO2 Out2
node of DigOut16 / XDIO2 Out3
node of DigOut17 / XDIO2 Out4
node of DigOut18 / XDIO2 Out5
node of DigOut19 / XDIO2 Out6
node of DigOut2 / XPSA
node of DigOut20 / XDIO2 Out7
node of DigOut21 / XDIO2 Out8
node of DigOut22 / XDIO2 Out9
node of DigOut3 / XPSA
node of DigOut4 / XPSA
node of DigOut5 / XDIO1 Out1
node of DigOut6 / XDIO1 Out2
node of DigOut7 / XDIO1 Out3
node of DigOut8 / XDIO1 Out4
node of DigOut9 / XDIO1 Out5
signal of DigOut1 / XPSA
signal of DigOut10 / XDIO1 Out6
signal of DigOut11 / XDIO1 Out7
signal of DigOut12 / XDIO1 Out8
signal of DigOut13 / XDIO1 Out9

Modbus Commands

Setup.In/Outputs.DI.Node_DI8
Setup.In/Outputs.DI.Node_DI9
Setup.In/Outputs.DI.Signal_DI1
Setup.In/Outputs.DI.Signal_DI10
Setup.In/Outputs.DI.Signal_DI11
Setup.In/Outputs.DI.Signal_DI12
Setup.In/Outputs.DI.Signal_DI13
Setup.In/Outputs.DI.Signal_DI14
Setup.In/Outputs.DI.Signal_DI2
Setup.In/Outputs.DI.Signal_DI3
Setup.In/Outputs.DI.Signal_DI4
Setup.In/Outputs.DI.Signal_DI5
Setup.In/Outputs.DI.Signal_DI6
Setup.In/Outputs.DI.Signal_DI7
Setup.In/Outputs.DI.Signal_DI8
Setup.In/Outputs.DI.Signal_DI9
Setup.In/Outputs.DO.Node_DO1
Setup.In/Outputs.DO.Node_DO10
Setup.In/Outputs.DO.Node_DO11
Setup.In/Outputs.DO.Node_DO12
Setup.In/Outputs.DO.Node_DO13
Setup.In/Outputs.DO.Node_DO14
Setup.In/Outputs.DO.Node_DO15
Setup.In/Outputs.DO.Node_DO16
Setup.In/Outputs.DO.Node_DO17
Setup.In/Outputs.DO.Node_DO18
Setup.In/Outputs.DO.Node_DO19
Setup.In/Outputs.DO.Node_DO2
Setup.In/Outputs.DO.Node_DO20
Setup.In/Outputs.DO.Node_DO21
Setup.In/Outputs.DO.Node_DO22
Setup.In/Outputs.DO.Node_DO3
Setup.In/Outputs.DO.Node_DO4
Setup.In/Outputs.DO.Node_DO5
Setup.In/Outputs.DO.Node_DO6
Setup.In/Outputs.DO.Node_DO7
Setup.In/Outputs.DO.Node_DO8
Setup.In/Outputs.DO.Node_DO9
Setup.In/Outputs.DO.Signal_DO1
Setup.In/Outputs.DO.Signal_DO10
Setup.In/Outputs.DO.Signal_DO11
Setup.In/Outputs.DO.Signal_DO12
Setup.In/Outputs.DO.Signal_DO13

Address

9

Tag Name

9-21

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Tag Name
Setup.In/Outputs.DO.Signal_DO14
Setup.In/Outputs.DO.Signal_DO15
Setup.In/Outputs.DO.Signal_DO16
Setup.In/Outputs.DO.Signal_DO17
Setup.In/Outputs.DO.Signal_DO18
Setup.In/Outputs.DO.Signal_DO19
Setup.In/Outputs.DO.Signal_DO2
Setup.In/Outputs.DO.Signal_DO20
Setup.In/Outputs.DO.Signal_DO21
Setup.In/Outputs.DO.Signal_DO22
Setup.In/Outputs.DO.Signal_DO3
Setup.In/Outputs.DO.Signal_DO4
Setup.In/Outputs.DO.Signal_DO5
Setup.In/Outputs.DO.Signal_DO6
Setup.In/Outputs.DO.Signal_DO7
Setup.In/Outputs.DO.Signal_DO8
Setup.In/Outputs.DO.Signal_DO9
Setup.In/Outputs.SHS.Node_Gas1
Setup.In/Outputs.SHS.Node_Gas2
Setup.In/Outputs.SHS.Node_Gas3
Setup.In/Outputs.SHS.Node_Gas4
Setup.In/Outputs.SHS.Node_Gas5
Setup.In/Outputs.SHS.Node_Gas6
Setup.In/Outputs.SHS.Node_Gas7
Setup.In/Outputs.SHS.Node_Gas8
Setup.In/Outputs.SHS.Node_Pump1
Setup.In/Outputs.SHS.Node_Pump2
Setup.In/Outputs.SHS.Signal_Gas1
Setup.In/Outputs.SHS.Signal_Gas2
Setup.In/Outputs.SHS.Signal_Gas3
Setup.In/Outputs.SHS.Signal_Gas4
Setup.In/Outputs.SHS.Signal_Gas5
Setup.In/Outputs.SHS.Signal_Gas6
Setup.In/Outputs.SHS.Signal_Gas7
Setup.In/Outputs.SHS.Signal_Gas8
Setup.In/Outputs.SHS.Signal_Pump1
Setup.In/Outputs.SHS.Signal_Pump2
Setup.Measurement.EndOfCurrentRange_1
Setup.Measurement.EndOfCurrentRange_2
Setup.Measurement.EndOfCurrentRange_3

9-22

Address
Modicon Daniel
3191
3191
3192
3192
3193
3193
3194
3194
3195
3195
3196
3196
3157
3157
3197
3197
3198
3198
3199
3199
3158
3158
3159
3159
3171
3171
3172
3172
3173
3173
3174
3174
3175
3175
3201
3201
3202
3202
3203
3203
3204
3204
3205
3205
3206
3206
3207
3207
3208
3208
3209
3209
3210
3210
3211
3211
3212
3212
3213
3213
3214
3214
3215
3215
3216
3216
3217
3217
3218
3218
3219
3219
3220
3220
6043…
9022
6044
6047…
9024
6048
6051…
9026
6052

Data
Type

Client
Access

Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word

R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W

signal of DigOut14 / XDIO2 Out1
signal of DigOut15 / XDIO2 Out2
signal of DigOut16 / XDIO2 Out3
signal of DigOut17 / XDIO2 Out4
signal of DigOut18 / XDIO2 Out5
signal of DigOut19 / XDIO2 Out6
signal of DigOut2 / XPSA
signal of DigOut20 / XDIO2 Out7
signal of DigOut21 / XDIO2 Out8
signal of DigOut22 / XDIO2 Out9
signal of DigOut3 / XPSA
signal of DigOut4 / XPSA
signal of DigOut5 / XDIO1 Out1
signal of DigOut6 / XDIO1 Out2
signal of DigOut7 / XDIO1 Out3
signal of DigOut8 / XDIO1 Out4
signal of DigOut9 / XDIO1 Out5
node of SHS GasOut1
node of SHS GasOut2
node of SHS GasOut3
node of SHS GasOut4
node of SHS GasOut5
node of SHS GasOut6
node of SHS GasOut7
node of SHS GasOut8
node of SHS Pump1
node of SHS Pump1
signal of SHS GasOut1
signal of SHS GasOut2
signal of SHS GasOut3
signal of SHS GasOut4
signal of SHS GasOut5
signal of SHS GasOut6
signal of SHS GasOut7
signal of SHS GasOut8
signal of SHS Pump1
signal of SHS Pump1

Float

R/W

end of current range of comp1

Float

R/W

end of current range of comp2

Float

R/W

end of current range of comp3

Description

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Modicon Daniel
6055…
9028
Setup.Measurement.EndOfCurrentRange_4
6056
6059…
9030
Setup.Measurement.EndOfCurrentRange_5
6060
6143…
9072
Setup.Measurement.EndOfRange1_1
6144
6159…
9080
Setup.Measurement.EndOfRange1_2
6160
6175…
9088
Setup.Measurement.EndOfRange1_3
6176
6191…
9096
Setup.Measurement.EndOfRange1_4
6192
6207…
9104
Setup.Measurement.EndOfRange1_5
6208
6147…
9074
Setup.Measurement.EndOfRange2_1
6148
6163…
9082
Setup.Measurement.EndOfRange2_2
6164
6179…
9090
Setup.Measurement.EndOfRange2_3
6180
6195…
9098
Setup.Measurement.EndOfRange2_4
6196
6211…
9106
Setup.Measurement.EndOfRange2_5
6212
6151…
9076
Setup.Measurement.EndOfRange3_1
6152
6167…
9084
Setup.Measurement.EndOfRange3_2
6168
6183…
9092
Setup.Measurement.EndOfRange3_3
6184
6199…
9100
Setup.Measurement.EndOfRange3_4
6200
6215…
9108
Setup.Measurement.EndOfRange3_5
6216
6155…
9078
Setup.Measurement.EndOfRange4_1
6156
6171…
9086
Setup.Measurement.EndOfRange4_2
6172
6187…
9094
Setup.Measurement.EndOfRange4_3
6188
6203…
9102
Setup.Measurement.EndOfRange4_4
6204
6219…
9110
Setup.Measurement.EndOfRange4_5
6220
6041…
9021
Setup.Measurement.StartOfCurrentRange_1
6042

Emerson Process Management GmbH & Co. OHG

Data
Type

Client
Access

Float

R/W

end of current range of comp4

Float

R/W

end of current range of comp5

Float

R/W

end of range1 of comp1

Float

R/W

end of range1 of comp2

Float

R/W

end of range1 of comp3

Float

R/W

end of range1 of comp4

Float

R/W

end of range1 of comp5

Float

R/W

end of range2 of comp1

Float

R/W

end of range2 of comp2

Float

R/W

end of range2 of comp3

Float

R/W

end of range2 of comp4

Float

R/W

end of range2 of comp5

Float

R/W

end of range3 of comp1

Float

R/W

end of range3 of comp2

Float

R/W

end of range3 of comp3

Float

R/W

end of range3 of comp4

Float

R/W

end of range3 of comp5

Float

R/W

end of range4 of comp1

Float

R/W

end of range4 of comp2

Float

R/W

end of range4 of comp3

Float

R/W

end of range4 of comp4

Float

R/W

end of range4 of comp5

Float

R/W

start of current range of comp1

Description

Modbus Commands

Address

9

Tag Name

9-23

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Tag Name
Setup.Measurement.StartOfCurrentRange_2
Setup.Measurement.StartOfCurrentRange_3
Setup.Measurement.StartOfCurrentRange_4
Setup.Measurement.StartOfCurrentRange_5
Setup.Measurement.StartOfRange1_1
Setup.Measurement.StartOfRange1_2
Setup.Measurement.StartOfRange1_3
Setup.Measurement.StartOfRange1_4
Setup.Measurement.StartOfRange1_5
Setup.Measurement.StartOfRange2_1
Setup.Measurement.StartOfRange2_2
Setup.Measurement.StartOfRange2_3
Setup.Measurement.StartOfRange2_4
Setup.Measurement.StartOfRange2_5
Setup.Measurement.StartOfRange3_1
Setup.Measurement.StartOfRange3_2
Setup.Measurement.StartOfRange3_3
Setup.Measurement.StartOfRange3_4
Setup.Measurement.StartOfRange3_5
Setup.Measurement.StartOfRange4_1
Setup.Measurement.StartOfRange4_2
Setup.Measurement.StartOfRange4_3
Setup.Measurement.StartOfRange4_4

9-24

Address
Modicon Daniel
6045…
9023
6046
6049…
9025
6050
6053…
9027
6054
6057…
9029
6058
6141…
9071
6142
6157…
9079
6158
6173…
9087
6174
6189…
9095
6190
6205…
9103
6206
6145…
9073
6146
6161…
9081
6162
6177…
9089
6178
6193…
9097
6194
6209…
9105
6210
6149…
9075
6150
6165…
9083
6166
6181…
9091
6182
6197…
9099
6198
6213…
9107
6214
6153…
9077
6154
6169…
9085
6170
6185…
9093
6186
6201…
9101
6202

Data
Type

Client
Access

Float

R/W

start of current range of comp2

Float

R/W

start of current range of comp3

Float

R/W

start of current range of comp4

Float

R/W

start of current range of comp5

Float

R/W

start of range1 of comp1

Float

R/W

start of range1 of comp2

Float

R/W

start of range1 of comp3

Float

R/W

start of range1 of comp4

Float

R/W

start of range1 of comp5

Float

R/W

start of range2 of comp1

Float

R/W

start of range2 of comp2

Float

R/W

start of range2 of comp3

Float

R/W

start of range2 of comp4

Float

R/W

start of range2 of comp5

Float

R/W

start of range3 of comp1

Float

R/W

start of range3 of comp2

Float

R/W

start of range3 of comp3

Float

R/W

start of range3 of comp4

Float

R/W

start of range3 of comp5

Float

R/W

start of range4 of comp1

Float

R/W

start of range4 of comp2

Float

R/W

start of range4 of comp3

Float

R/W

start of range4 of comp4

Description

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Setup.Measurement.StartOfRange4_5

Address
Modicon Daniel
6217…
9109
6218

Data
Type

Client
Access

Float

R/W

Description
start of range4 of comp5
Compute cross interference factor
comp1 (0=Src1, 1=Src2 etc.)
Compute cross interference factor
comp2 (0=Src1, 1=Src2 etc.)
Compute cross interference factor
comp3 (0=Src1, 1=Src2 etc.)
Compute cross interference factor
comp4 (0=Src1, 1=Src2 etc.)
Compute cross interference factor
comp5 (0=Src1, 1=Src2 etc.)
Enable cross interference compensation for comp1
Enable cross interference compensation for comp2
Enable cross interference compensation for comp3
Enable cross interference compensation for comp4
Enable cross interference compensation for comp5

Setup.Measurement.XIntf.ComputeFactor1

3476

3476

Word

R/W

Setup.Measurement.XIntf.ComputeFactor2

3477

3477

Word

R/W

Setup.Measurement.XIntf.ComputeFactor3

3478

3478

Word

R/W

Setup.Measurement.XIntf.ComputeFactor4

3479

3479

Word

R/W

Setup.Measurement.XIntf.ComputeFactor5

3480

3480

Word

R/W

Setup.Measurement.XIntf.Enable1

3471

3471

Word

R/W

Setup.Measurement.XIntf.Enable2

3472

3472

Word

R/W

Setup.Measurement.XIntf.Enable3

3473

3473

Word

R/W

Setup.Measurement.XIntf.Enable4

3474

3474

Word

R/W

Setup.Measurement.XIntf.Enable5

3475

3475

Word

R/W

Float

R/W

Cross interfere factors1..4 for comp1

Float

R/W

Cross interfere factors1..4 for comp2

Float

R/W

Cross interfere factors1..4 for comp3

Float

R/W

Cross interfere factors1..4 for comp4

Float

R/W

Cross interfere factors1..4 for comp5

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Float

R/W

Emerson Process Management GmbH & Co. OHG

9305…
9308
9335…
9338
9365…
9368
9395…
9398
9425…
9428
9313…
9316
9343…
9346
9373…
9376
9403…
9406
9433…
9436
9309…
9312
9339…
9342

Cross interfere linearization references1..4 for comp1
Cross interfere linearization references1..4 for comp2
Cross interfere linearization references1..4 for comp3
Cross interfere linearization references1..4 for comp4
Cross interfere linearization references1..4 for comp5
Cross interfere linearization references1..4 for comp1
Cross interfere linearization references1..4 for comp2

9

6609…
6616
6669…
Setup.Measurement.XIntf.InterfereFactors2
6676
6729…
Setup.Measurement.XIntf.InterfereFactors3
6736
6789…
Setup.Measurement.XIntf.InterfereFactors4
6796
6849…
Setup.Measurement.XIntf.InterfereFactors5
6856
6625…
Setup.Measurement.XIntf.LinearPolyCoeffs1
6632
6685…
Setup.Measurement.XIntf.LinearPolyCoeffs2
6692
6745…
Setup.Measurement.XIntf.LinearPolyCoeffs3
6752
6805…
Setup.Measurement.XIntf.LinearPolyCoeffs4
6812
6865…
Setup.Measurement.XIntf.LinearPolyCoeffs5
6872
6617…
Setup.Measurement.XIntf.LinearReferences1
6624
6677…
Setup.Measurement.XIntf.LinearReferences2
6684
Setup.Measurement.XIntf.InterfereFactors1

Modbus Commands

Tag Name

9-25

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Tag Name

Address

Modicon
6737…
Setup.Measurement.XIntf.LinearReferences3
6744
6797…
Setup.Measurement.XIntf.LinearReferences4
6804
6857…
Setup.Measurement.XIntf.LinearReferences5
6864
4051…
Setup.Measurement.XIntf.SignalStates1
4054
4055…
Setup.Measurement.XIntf.SignalStates2
4058
4059…
Setup.Measurement.XIntf.SignalStates3
4062
4063…
Setup.Measurement.XIntf.SignalStates4
4066
4067…
Setup.Measurement.XIntf.SignalStates5
4070
6601…
Setup.Measurement.XIntf.SignalValues1
6608
6661…
Setup.Measurement.XIntf.SignalValues2
6668
6721…
Setup.Measurement.XIntf.SignalValues3
6728
6781…
Setup.Measurement.XIntf.SignalValues4
6788
6841…
Setup.Measurement.XIntf.SignalValues5
6848
3481…
Setup.Measurement.XIntf.Sources1
3484
3485…
Setup.Measurement.XIntf.Sources2
3488
3489…
Setup.Measurement.XIntf.Sources3
3492
3493…
Setup.Measurement.XIntf.Sources4
3496
3497…
Setup.Measurement.XIntf.Sources5
3500
5191…
Status.DeviceStates.ChannelState1
5198
5201…
Status.DeviceStates.ChannelState2
5208
5211…
Status.DeviceStates.ChannelState3
5218
5221…
Status.DeviceStates.ChannelState4
5228
5231…
Status.DeviceStates.ChannelState5
5238

9-26

Daniel
9369…
9372
9399…
9402
9429…
9432
4051…
4054
4055…
4058
4059…
4062
4063…
4066
4067…
4070
9301…
9304
9331…
9334
9361…
9364
9391…
9394
9421…
9424
3481…
3484
3485…
3488
3489…
3492
3493…
3496
3497…
3500
8096…
8099
8101…
8104
8106…
8109
8111…
8114
8116…
8119

Data
Type

Client
Access

Float

R/W

Float

R/W

Float

R/W

Word

RO

Word

RO

Word

RO

Word

RO

Word

RO

Float

RO

Float

RO

Float

RO

Float

RO

Float

RO

Word

R/W

Word

R/W

Word

R/W

Word

R/W

Word

R/W

DWord

RO

component1‘s state bitfield (b0:......)

DWord

RO

component2‘s state bitfield (b0:......)

DWord

RO

component3‘s state bitfield (b0:......)

DWord

RO

component4‘s state bitfield (b0:......)

DWord

RO

component5‘s state bitfield (b0:......)

Description
Cross interfere linearization references1..4 for comp3
Cross interfere linearization references1..4 for comp4
Cross interfere linearization references1..4 for comp5
Cross interfere signal value states1..4
for comp1
Cross interfere signal value states1..4
for comp2
Cross interfere signal value states1..4
for comp3
Cross interfere signal value states1..4
for comp4
Cross interfere signal value states1..4
for comp5
Cross interfere signal values1..4 for
comp1
Cross interfere signal values1..4 for
comp2
Cross interfere signal values1..4 for
comp3
Cross interfere signal values1..4 for
comp4
Cross interfere signal values1..4 for
comp5
Interf. sources 1..4 comp1 (0=None,
1=Conc1, 2=Conc2, 6=AIN1 etc.)
Interf. sources 1..4 comp2 (0=None,
1=Conc1, 2=Conc2, 6=AIN1 etc.)
Interf. sources 1..4 comp3 (0=None,
1=Conc1, 2=Conc2, 6=AIN1 etc.)
Interf. sources 1..4 comp4 (0=None,
1=Conc1, 2=Conc2, 6=AIN1 etc.)
Interf. sources 1..4 comp5 (0=None,
1=Conc1, 2=Conc2, 6=AIN1 etc.)

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Status.Diagnostics.DSPMuxValue1
Status.Diagnostics.DSPMuxValue2
Status.Diagnostics.DSPMuxValue3
Status.Diagnostics.DSPMuxValue4
Status.Diagnostics.DSPMuxValue5
Status.Diagnostics.DSPMuxValue6
Status.Diagnostics.DSPMuxValue7
Status.Diagnostics.DSPMuxValue8
Status.Diagnostics.RawMeasConce1
Status.Diagnostics.RawMeasConce2
Status.Diagnostics.RawMeasConce3
Status.Diagnostics.RawMeasConce4
Status.Diagnostics.RawMeasConce5
Status.Diagnostics.RawQuotConce1
Status.Diagnostics.RawQuotConce2
Status.Diagnostics.RawQuotConce3
Status.Diagnostics.RawQuotConce4
Status.Diagnostics.RawQuotConce5
Status.Diagnostics.RawRefConce1
Status.Diagnostics.RawRefConce2
Status.Diagnostics.RawRefConce3
Status.Diagnostics.RawRefConce4

Emerson Process Management GmbH & Co. OHG

Data
Type

Modicon Daniel
5181… 8091…
DWord
5188
8094
6341…
9171
Float
6342
6343…
9172
Float
6344
6345…
9173
Float
6346
6347…
9174
Float
6348
6349…
9175
Float
6350
6351…
9176
Float
6352
6353…
9177
Float
6354
6355…
9178
Float
6356
6021…
9011
Float
6022
6025…
9013
Float
6026
6029…
9015
Float
6030
6033…
9017
Float
6034
6037…
9019
Float
6038
6011…
9006
Float
6012
6013…
9007
Float
6014
6015…
9008
Float
6016
6017…
9009
Float
6018
6019…
9010
Float
6020
6023…
9012
Float
6024
6027…
9014
Float
6028
6031…
9016
Float
6032
6035…
9018
Float
6036

Client
Access

Description

RO

device (N0) state bitfield (b0:......)

RO

DSP multiplexer value 1

RO

DSP multiplexer value 2

RO

DSP multiplexer value 3

RO

DSP multiplexer value 4

RO

DSP multiplexer value 5

RO

DSP multiplexer value 6

RO

DSP multiplexer value 7

RO

DSP multiplexer value 8

RO

raw ADC of measure-side component1

RO

raw ADC of measure-side component2

RO

raw ADC of measure-side component3

RO

raw ADC of measure-side component4

RO

raw ADC of measure-side component5

RO

raw ADC quotient of component1

RO

raw ADC quotient of component2

RO

raw ADC quotient of component3

RO

raw ADC quotient of component4

RO

raw ADC quotient of component4

RO

raw ADC of reference side component1

RO

raw ADC of reference side component2

RO

raw ADC of reference side component3

RO

raw ADC of reference side component4

Modbus Commands

Status.DeviceStates.DeviceState

Address

9

Tag Name

9-27

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Tag Name
Status.Diagnostics.RawRefConce5
Status.Flow1
Status.Flow2
Status.Flow3
Status.Flow4
Status.Flow5
Status.NamurStates.FailAlarmComp1
Status.NamurStates.FailAlarmComp2
Status.NamurStates.FailAlarmComp3
Status.NamurStates.FailAlarmComp4
Status.NamurStates.FailAlarmComp5
Status.NamurStates.FailAlarmDev
Status.NamurStates.FailureActive
Status.NamurStates.FailureAlarm
Status.NamurStates.FctCheckActive
Status.NamurStates.FctCheckAlarm
Status.NamurStates.FctCheckAlarmComp1
Status.NamurStates.FctCheckAlarmComp2
Status.NamurStates.FctCheckAlarmComp3
Status.NamurStates.FctCheckAlarmComp4
Status.NamurStates.FctCheckAlarmComp5
Status.NamurStates.FctCheckAlarmDev
Status.NamurStates.MaintRequActive

9-28

Address
Modicon Daniel
6039…
9020
6040
6071…
9036
6072
6073…
9037
6074
6075…
9038
6076
6077…
9039
6078
6079…
9040
6080
5049…
8025
5050
5057…
8029
5058
5065…
8033
5066
5073…
8037
5074
5081…
8041
5082
5041…
8021
5042
5009…
8005
5010
5001…
8001
5002
5015…
8008
5016
5007…
8004
5008
5055…
8028
5056
5063…
8032
5064
5071…
8036
5072
5079…
8040
5080
5087…
8044
5088
5047…
8024
5048
5013…
8007
5014

Data
Type

Client
Access

Description

Float

RO

raw ADC of reference side component5

Float

RO

flow of comp1

Float

RO

flow of comp2

Float

RO

flow of comp3

Float

RO

flow of comp4

Float

RO

flow of comp5

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

Namur Failure active bitfield

DWord

RO

Namur Failure alarm bitfield

DWord

RO

Namur Function Check active bitfield

DWord

RO

Namur Function Check alarm bitfield

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

NamurFailure alarms that are component1 related
NamurFailure alarms that are component2 related
NamurFailure alarms that are component3 related
NamurFailure alarms that are component4 related
NamurFailure alarms that are component5 related
NamurFailure alarms that are device
related

Namur FctCheck alarms that are component1 related
Namur FctCheck alarms that are component1 related
Namur FctCheck alarms that are component1 related
Namur FctCheck alarms that are component1 related
Namur FctCheck alarms that are component1 related
Namur FctCheck alarms that are device related
Namur Maintenance Request active
bitfield

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Status.NamurStates.MaintRequAlarmComp1
Status.NamurStates.MaintRequAlarmComp2
Status.NamurStates.MaintRequAlarmComp3
Status.NamurStates.MaintRequAlarmComp4
Status.NamurStates.MaintRequAlarmComp5
Status.NamurStates.MaintRequAlarmDev

Modicon Daniel
5005…
8003
5006
5053…
8027
5054
5061…
8031
5062
5069…
8035
5070
5077…
8039
5078
5085…
8043
5086
5045…
8023
5046

Data
Type

Client
Access

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

Description
Namur Maintenance Request alarm
bitfield
Namur MaintRequ alarms that are component1 related
Namur MaintRequ alarms that are component2 related
Namur MaintRequ alarms that are component3 related
Namur MaintRequ alarms that are component4 related
Namur MaintRequ alarms that are component5 related
NamurMaintRequ alarms that are
device related
NAMUR sum state bit-field (b0:F b1:M
b2:S b3:C)
comp1‘s NAMUR state bit-field (b0:F
b1:M b2:S b3:C)
comp2‘s NAMUR state bit-field (b0:F
b1:M b2:S b3:C)
comp3‘s NAMUR state bit-field (b0:F
b1:M b2:S b3:C)
comp4‘s NAMUR state bit-field (b0:F
b1:M b2:S b3:C)
comp4‘s NAMUR state bit-field (b0:F
b1:M b2:S b3:C)
device‘s NAMUR state bit-field (b0:F
b1:M b2:S b3:C)

Status.NamurStates.NamurAlarm

4001

4001

Word

RO

Status.NamurStates.NamurAlarmCh1

4003

4003

Word

RO

Status.NamurStates.NamurAlarmCh2

4004

4004

Word

RO

Status.NamurStates.NamurAlarmCh3

4005

4005

Word

RO

Status.NamurStates.NamurAlarmCh4

4006

4006

Word

RO

Status.NamurStates.NamurAlarmCh5

4007

4007

Word

RO

Status.NamurStates.NamurAlarmDevice

4002

4002

Word

RO

8006

DWord

RO

Namur Off-spec active bitfield

8002

DWord

RO

Namur Off-spec alarm bitfield

8026

DWord

RO

8030

DWord

RO

8034

DWord

RO

8038

DWord

RO

8042

DWord

RO

8022

DWord

RO

9031

Float

RO

Status.NamurStates.OffSpecActive
Status.NamurStates.OffSpecAlarm
Status.NamurStates.OffSpecAlarmComp1
Status.NamurStates.OffSpecAlarmComp2
Status.NamurStates.OffSpecAlarmComp3
Status.NamurStates.OffSpecAlarmComp4
Status.NamurStates.OffSpecAlarmComp5
Status.NamurStates.OffSpecAlarmDev
Status.Pressure1

Emerson Process Management GmbH & Co. OHG

5011…
5012
5003…
5004
5051…
5052
5059…
5060
5067…
5068
5075…
5076
5083…
5084
5043…
5044
6061…
6062

Namur Off-spec alarms that are component1 related
Namur Off-spec alarms that are component2 related
Namur Off-spec alarms that are component3 related
Namur Off-spec alarms that are component4 related
Namur Off-spec alarms that are component5 related
NamurOff-spec alarms that are device
related
pressure of comp1

9-29

Modbus Commands

Status.NamurStates.MaintRequAlarm

Address

9

Tag Name

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.3 List of Parameters and Registers - Sorted by Tag Name

Tag Name
Status.Pressure2
Status.Pressure3
Status.Pressure4

9-30

Address
Modicon Daniel
6063…
9032
6064
6065…
9033
6066
6067…
9034
6068

Data
Type

Client
Access

Float

RO

pressure of comp2

Float

RO

pressure of comp3

Float

RO

pressure of comp4

Description

Emerson Process Management GmbH & Co. OHG

Instruction Manual
HASXEE-IM-HS
04/2010

X-STREAM XE

9.4 List of Parameters and Registers - Sorted by Daniel Registers

Emerson Process Management GmbH & Co. OHG

9-31

9

Address
Data
Client
Description
Tag Name
Type Access
Daniel Modicon
2001
2001
Control.Calibration.Zero_1
Boolean R/W Zero calibration comp1 (1=start)
2002
2002
Control.Calibration.Zero_2
Boolean R/W Zero calibration comp2 (1=start)
2003
2003
Control.Calibration.Zero_3
Boolean R/W Zero calibration comp3 (1=start)
2004
2004
Control.Calibration.Zero_4
Boolean R/W Zero calibration comp4 (1=start)
2005
2005
Control.Calibration.Zero_5
Boolean R/W Zero calibration comp5 (1=start)
2006
2006
Control.Calibration.Span_1
Boolean R/W Span calibration comp1 (1=start)
2007
2007
Control.Calibration.Span_2
Boolean R/W Span calibration comp2 (1=start)
2008
2008
Control.Calibration.Span_3
Boolean R/W Span calibration comp3 (1=start)
2009
2009
Control.Calibration.Span_4
Boolean R/W Span calibration comp4 (1=start)
2010
2010
Control.Calibration.Span_5
Boolean R/W Span calibration comp5 (1=start)
2011
2011
Control.Calibration.ZeroSpan_1 Boolean R/W Zero+span calibration comp1 (1=start)
2012
2012
Control.Calibration.ZeroSpan_2 Boolean R/W Zero+span calibration comp1 (1=start)
2013
2013
Control.Calibration.ZeroSpan_3 Boolean R/W Zero+span calibration comp1 (1=start)
2014
2014
Control.Calibration.ZeroSpan_4 Boolean R/W Zero+span calibration comp1 (1=start)
2015
2015
Control.Calibration.ZeroSpan_5 Boolean R/W Zero+span calibration comp1 (1=start)
2016
2016
Control.Calibration.Blowback_1 Boolean R/W Blowback procedure comp1 (1=start)
2017
2017
Control.Calibration.Blowback_2 Boolean R/W Blowback procedure comp2 (1=start)
2018
2018
Control.Calibration.Blowback_3 Boolean R/W Blowback procedure comp3 (1=start)
2019
2019
Control.Calibration.Blowback_4 Boolean R/W Blowback procedure comp4 (1=start)
2020
2020
Control.Calibration.Blowback_5 Boolean R/W Blowback procedure comp5 (1=start)
2021
2021
Control.Calibration.Zero_All
Boolean R/W Zero calibration all (1=start)
2022
2022
Control.Calibration.Span_All
Boolean R/W Span calibration all (1=start)
2023
2023
Control.Calibration.ZeroSpan_All Boolean R/W Zero+span calibration all (1=start)
2024
2024
Control.Calibration.ProgSequence Boolean R/W Zero+span calibration all (1=start)
2025
2025
Control.Calibration.Blowback_All Boolean R/W Blowback procedure all (1=start)
2026
2026
Control.Calibration.Calib_Cancel Boolean R/W Cancel any calibration (1=cancel)
2051
2051
Control.ApplyGas.SampleValve1 Boolean R/W 0=close all valves, 1=open sample valve comp1
2052
2052
Control.ApplyGas.SampleValve2 Boolean R/W 0=close all valves, 1=open sample valve comp2
2053
2053
Control.ApplyGas.SampleValve3 Boolean R/W 0=close all valves, 1=open sample valve comp3
2054
2054
Control.ApplyGas.SampleValve4 Boolean R/W 0=close all valves, 1=open sample valve comp4
2055
2055
Control.ApplyGas.SampleValve5 Boolean R/W 0=close all valves, 1=open sample valve comp5
2056
2056
Control.ApplyGas.ZeroValve1
Boolean R/W 0=open sample valve, 1=open zero valve comp1
2057
2057
Control.ApplyGas.ZeroValve2
Boolean R/W 0=open sample valve, 1=open zero valve comp2
2058
2058
Control.ApplyGas.ZeroValve3
Boolean R/W 0=open sample valve, 1=open zero valve comp3
2059
2059
Control.ApplyGas.ZeroValve4
Boolean R/W 0=open sample valve, 1=open zero valve comp4
2060
2060
Control.ApplyGas.ZeroValve5
Boolean R/W 0=open sample valve, 1=open zero valve comp4
2061
2061
Control.ApplyGas.Span1Valve1 Boolean R/W 0=open sample valve, 1=open span1 valve comp1
2062
2062
Control.ApplyGas.Span2Valve1 Boolean R/W 0=open sample valve, 1=open span2 valve comp1
2063
2063
Control.ApplyGas.Span3Valve1 Boolean R/W 0=open sample valve, 1=open span3 valve comp1
2064
2064
Control.ApplyGas.Span4Valve1 Boolean R/W 0=open sample valve, 1=open span4 valve comp1
2065
2065
Control.ApplyGas.Span1Valve2 Boolean R/W 0=open sample valve, 1=open span1 valve comp2
2066
2066
Control.ApplyGas.Span2Valve2 Boolean R/W 0=open sample valve, 1=open span2 valve comp2
2067
2067
Control.ApplyGas.Span3Valve2 Boolean R/W 0=open sample valve, 1=open span3 valve comp2

Modbus Commands

9.4	 List of Parameters and Registers - Sorted by Daniel Registers

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.4 List of Parameters and Registers - Sorted by Daniel Registers

Address
Daniel Modicon
2068
2068
2069
2069
2070
2070
2071
2071
2072
2072
2073
2073
2074
2074
2075
2075
2076
2076
2077
2077
2078
2078
2079
2079
2080
2080
2081
2081
2082
2082
2091
2091
2092

2092

2093

2093

2094

2094

2095

2095

2096
3001
3002
3003
3004
3005

2096
3001
3002
3003
3004
3005

3011

3011

3016

3016

3021

3021

3026

3026

3031

3031

3036

3036

3037

3037

3038

3038

9-32

Data
Client
Description
Type Access
Control.ApplyGas.Span4Valve2 Boolean R/W 0=open sample valve, 1=open span4 valve comp2
Control.ApplyGas.Span1Valve3 Boolean R/W 0=open sample valve, 1=open span1 valve comp3
Control.ApplyGas.Span2Valve3 Boolean R/W 0=open sample valve, 1=open span2 valve comp3
Control.ApplyGas.Span3Valve3 Boolean R/W 0=open sample valve, 1=open span3 valve comp3
Control.ApplyGas.Span4Valve3 Boolean R/W 0=open sample valve, 1=open span4 valve comp3
Control.ApplyGas.Span1Valve4 Boolean R/W 0=open sample valve, 1=open span1 valve comp4
Control.ApplyGas.Span2Valve4 Boolean R/W 0=open sample valve, 1=open span2 valve comp4
Control.ApplyGas.Span3Valve4 Boolean R/W 0=open sample valve, 1=open span3 valve comp4
Control.ApplyGas.Span4Valve4 Boolean R/W 0=open sample valve, 1=open span4 valve comp4
Control.ApplyGas.Span1Valve5 Boolean R/W 0=open sample valve, 1=open span1 valve comp5
Control.ApplyGas.Span2Valve5 Boolean R/W 0=open sample valve, 1=open span2 valve comp5
Control.ApplyGas.Span3Valve5 Boolean R/W 0=open sample valve, 1=open span3 valve comp5
Control.ApplyGas.Span4Valve5 Boolean R/W 0=open sample valve, 1=open span4 valve comp5
Control.ApplyGas.PumpState1 Boolean R/W Pump1 state (0=Off, 1=On)
Control.ApplyGas.PumpState2 Boolean R/W Pump1 state (0=Off, 1=On)
Control.Acknowledge.AllStates Boolean R/W 0=no effect, 1=Acknowledge device‘s states
0=no effect, 1=Acknowledge device‘s Namur
Control.Acknowledge.Failure
Boolean R/W
Failure alarms
0=no effect, 1=Acknowledge device‘s Namur OffControl.Acknowledge.OffSpecs Boolean R/W
spec alarms
0=no effect, 1=Acknowledge device‘s Namur
Control.Acknowledge.MaintRequeBoolean R/W
MaintRequ alarms
sts
0=no effect, 1=Acknowledge device‘s Namur
Control.Acknowledge.FctChecks Boolean R/W
FctCheck alarms
Control.Acknowledge.LevelAlarms Boolean R/W 0=no effect, 1=Acknowledge device‘s level alarms
Service.General.ChannelActive1
Word
R/W built-in component1
Service.General.ChannelActive2
Word
R/W built-in component2
Service.General.ChannelActive3
Word
R/W built-in component3
Service.General.ChannelActive4
Word
R/W built-in component4
Service.General.ChannelActive5
Word
R/W built-in component5
Setup.Display.Component.PV_
Word
R/W PV1 unit: 0 = Custom, ppm, ppb, Vol%
Unit1
Setup.Display.Component.PV_
Word
R/W PV2 unit: 0 = Custom, ppm, ppb, Vol%
Unit2
Setup.Display.Component.PV_
Word
R/W PV3 unit: 0 = Custom, ppm, ppb, Vol%
Unit3
Setup.Display.Component.PV_
Word
R/W PV4 unit: 0 = Custom, ppm, ppb, Vol%
Unit4
Setup.Display.Component.PV_
Word
R/W PV5 unit: 0 = Custom, ppm, ppb, Vol%
Unit5
Setup.Display.Component.PreciWord
R/W decimal points displayed for component1
sion1
Setup.Display.Component.PreciWord
R/W decimal points displayed for component2
sion2
Setup.Display.Component.PreciWord
R/W decimal points displayed for component3
sion3
Tag Name

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.4 List of Parameters and Registers - Sorted by Daniel Registers

3039

3040

3040

3091

3091

3092

3092

3093

3093

3094

3094

3095

3095

3096

3096

3097

3097

3098

3098

3099

3099

3100

3100

3151
3152
3153
3154
3156
3157
3158
3159
3161
3162
3163
3164
3165
3166
3167
3168
3169
3171
3172
3173
3174
3175

3151
3152
3153
3154
3156
3157
3158
3159
3161
3162
3163
3164
3165
3166
3167
3168
3169
3171
3172
3173
3174
3175

Setup.Display.Component.Precision4
Setup.Display.Component.Precision5
Setup.Display.MeasDisplay.Dis1Line1
Setup.Display.MeasDisplay.Dis1Line2
Setup.Display.MeasDisplay.Dis1Line3
Setup.Display.MeasDisplay.Dis1Line4
Setup.Display.MeasDisplay.Dis1Line5
Setup.Display.MeasDisplay.Dis2Line1
Setup.Display.MeasDisplay.Dis2Line2
Setup.Display.MeasDisplay.Dis2Line3
Setup.Display.MeasDisplay.Dis2Line4
Setup.Display.MeasDisplay.Dis2Line5
Setup.In/Outputs.DO.Node_DO1
Setup.In/Outputs.DO.Node_DO2
Setup.In/Outputs.DO.Node_DO3
Setup.In/Outputs.DO.Node_DO4
Setup.In/Outputs.DO.Signal_DO1
Setup.In/Outputs.DO.Signal_DO2
Setup.In/Outputs.DO.Signal_DO3
Setup.In/Outputs.DO.Signal_DO4
Setup.In/Outputs.DO.Node_DO5
Setup.In/Outputs.DO.Node_DO6
Setup.In/Outputs.DO.Node_DO7
Setup.In/Outputs.DO.Node_DO8
Setup.In/Outputs.DO.Node_DO9
Setup.In/Outputs.DO.Node_DO10
Setup.In/Outputs.DO.Node_DO11
Setup.In/Outputs.DO.Node_DO12
Setup.In/Outputs.DO.Node_DO13
Setup.In/Outputs.DO.Signal_DO5
Setup.In/Outputs.DO.Signal_DO6
Setup.In/Outputs.DO.Signal_DO7
Setup.In/Outputs.DO.Signal_DO8
Setup.In/Outputs.DO.Signal_DO9

Emerson Process Management GmbH & Co. OHG

Data
Type

Client
Access

Word

R/W

decimal points displayed for component4

Word

R/W

decimal points displayed for component4

Word

R/W

assigned signal of measure display 1, Line 1

Word

R/W

assigned signal of measure display 1, Line 2

Word

R/W

assigned signal of measure display 1, Line 3

Word

R/W

assigned signal of measure display 1, Line 4

Word

R/W

assigned signal of measure display 1, Line 5

Word

R/W

assigned signal of measure display 2, Line 1

Word

R/W

assigned signal of measure display 2, Line 2

Word

R/W

assigned signal of measure display 2, Line 3

Word

R/W

assigned signal of measure display 2, Line 4

Word

R/W

assigned signal of measure display 2, Line 5

Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word

R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W

node of DigOut1 / XPSA
node of DigOut2 / XPSA
node of DigOut3 / XPSA
node of DigOut4 / XPSA
signal of DigOut1 / XPSA
signal of DigOut2 / XPSA
signal of DigOut3 / XPSA
signal of DigOut4 / XPSA
node of DigOut5 / XDIO1 Out1
node of DigOut6 / XDIO1 Out2
node of DigOut7 / XDIO1 Out3
node of DigOut8 / XDIO1 Out4
node of DigOut9 / XDIO1 Out5
node of DigOut10 / XDIO1 Out6
node of DigOut11 / XDIO1 Out7
node of DigOut12 / XDIO1 Out8
node of DigOut13 / XDIO1 Out9
signal of DigOut5 / XDIO1 Out1
signal of DigOut6 / XDIO1 Out2
signal of DigOut7 / XDIO1 Out3
signal of DigOut8 / XDIO1 Out4
signal of DigOut9 / XDIO1 Out5

Description

Modbus Commands

3039

Tag Name

9

Address
Daniel Modicon

9-33

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.4 List of Parameters and Registers - Sorted by Daniel Registers

Address
Daniel Modicon
3176
3176
3177
3177
3178
3178
3179
3179
3181
3181
3182
3182
3183
3183
3184
3184
3185
3185
3186
3186
3187
3187
3188
3188
3189
3189
3191
3191
3192
3192
3193
3193
3194
3194
3195
3195
3196
3196
3197
3197
3198
3198
3199
3199
3201
3201
3202
3202
3203
3203
3204
3204
3205
3205
3206
3206
3207
3207
3208
3208
3209

3209

3210

3210

3211
3212
3213
3214
3215
3216
3217
3218

3211
3212
3213
3214
3215
3216
3217
3218

3219

3219

9-34

Tag Name
Setup.In/Outputs.DO.Signal_DO10
Setup.In/Outputs.DO.Signal_DO11
Setup.In/Outputs.DO.Signal_DO12
Setup.In/Outputs.DO.Signal_DO13
Setup.In/Outputs.DO.Node_DO14
Setup.In/Outputs.DO.Node_DO15
Setup.In/Outputs.DO.Node_DO16
Setup.In/Outputs.DO.Node_DO17
Setup.In/Outputs.DO.Node_DO18
Setup.In/Outputs.DO.Node_DO19
Setup.In/Outputs.DO.Node_DO20
Setup.In/Outputs.DO.Node_DO21
Setup.In/Outputs.DO.Node_DO22
Setup.In/Outputs.DO.Signal_DO14
Setup.In/Outputs.DO.Signal_DO15
Setup.In/Outputs.DO.Signal_DO16
Setup.In/Outputs.DO.Signal_DO17
Setup.In/Outputs.DO.Signal_DO18
Setup.In/Outputs.DO.Signal_DO19
Setup.In/Outputs.DO.Signal_DO20
Setup.In/Outputs.DO.Signal_DO21
Setup.In/Outputs.DO.Signal_DO22
Setup.In/Outputs.SHS.Node_Gas1
Setup.In/Outputs.SHS.Node_Gas2
Setup.In/Outputs.SHS.Node_Gas3
Setup.In/Outputs.SHS.Node_Gas4
Setup.In/Outputs.SHS.Node_Gas5
Setup.In/Outputs.SHS.Node_Gas6
Setup.In/Outputs.SHS.Node_Gas7
Setup.In/Outputs.SHS.Node_Gas8
Setup.In/Outputs.SHS.Node_
Pump1
Setup.In/Outputs.SHS.Node_
Pump2
Setup.In/Outputs.SHS.Signal_Gas1
Setup.In/Outputs.SHS.Signal_Gas2
Setup.In/Outputs.SHS.Signal_Gas3
Setup.In/Outputs.SHS.Signal_Gas4
Setup.In/Outputs.SHS.Signal_Gas5
Setup.In/Outputs.SHS.Signal_Gas6
Setup.In/Outputs.SHS.Signal_Gas7
Setup.In/Outputs.SHS.Signal_Gas8
Setup.In/Outputs.SHS.Signal_
Pump1

Data
Type
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word

Client
Access
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W

Word

R/W

node of SHS Pump1

Word

R/W

node of SHS Pump1

Word
Word
Word
Word
Word
Word
Word
Word

R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W

signal of SHS GasOut1
signal of SHS GasOut2
signal of SHS GasOut3
signal of SHS GasOut4
signal of SHS GasOut5
signal of SHS GasOut6
signal of SHS GasOut7
signal of SHS GasOut8

Word

R/W

signal of SHS Pump1

Description
signal of DigOut10 / XDIO1 Out6
signal of DigOut11 / XDIO1 Out7
signal of DigOut12 / XDIO1 Out8
signal of DigOut13 / XDIO1 Out9
node of DigOut14 / XDIO2 Out1
node of DigOut15 / XDIO2 Out2
node of DigOut16 / XDIO2 Out3
node of DigOut17 / XDIO2 Out4
node of DigOut18 / XDIO2 Out5
node of DigOut19 / XDIO2 Out6
node of DigOut20 / XDIO2 Out7
node of DigOut21 / XDIO2 Out8
node of DigOut22 / XDIO2 Out9
signal of DigOut14 / XDIO2 Out1
signal of DigOut15 / XDIO2 Out2
signal of DigOut16 / XDIO2 Out3
signal of DigOut17 / XDIO2 Out4
signal of DigOut18 / XDIO2 Out5
signal of DigOut19 / XDIO2 Out6
signal of DigOut20 / XDIO2 Out7
signal of DigOut21 / XDIO2 Out8
signal of DigOut22 / XDIO2 Out9
node of SHS GasOut1
node of SHS GasOut2
node of SHS GasOut3
node of SHS GasOut4
node of SHS GasOut5
node of SHS GasOut6
node of SHS GasOut7
node of SHS GasOut8

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.4 List of Parameters and Registers - Sorted by Daniel Registers

Data
Type

Client
Access

Description

Word

R/W

signal of SHS Pump1

3221
3222
3223
3224
3225
3226
3227
3228
3229
3230
3231
3232
3233
3234
3236
3237
3238
3239
3240
3241
3242
3243
3244
3245
3246
3247
3248
3249
3270
3271
3272

Setup.In/Outputs.SHS.Signal_
Pump2
Setup.In/Outputs.DI.Node_DI1
Setup.In/Outputs.DI.Node_DI2
Setup.In/Outputs.DI.Node_DI3
Setup.In/Outputs.DI.Node_DI4
Setup.In/Outputs.DI.Node_DI5
Setup.In/Outputs.DI.Node_DI6
Setup.In/Outputs.DI.Node_DI7
Setup.In/Outputs.DI.Signal_DI1
Setup.In/Outputs.DI.Signal_DI2
Setup.In/Outputs.DI.Signal_DI3
Setup.In/Outputs.DI.Signal_DI4
Setup.In/Outputs.DI.Signal_DI5
Setup.In/Outputs.DI.Signal_DI6
Setup.In/Outputs.DI.Signal_DI7
Setup.In/Outputs.DI.Node_DI8
Setup.In/Outputs.DI.Node_DI9
Setup.In/Outputs.DI.Node_DI10
Setup.In/Outputs.DI.Node_DI11
Setup.In/Outputs.DI.Node_DI12
Setup.In/Outputs.DI.Node_DI13
Setup.In/Outputs.DI.Node_DI14
Setup.In/Outputs.DI.Signal_DI8
Setup.In/Outputs.DI.Signal_DI9
Setup.In/Outputs.DI.Signal_DI10
Setup.In/Outputs.DI.Signal_DI11
Setup.In/Outputs.DI.Signal_DI12
Setup.In/Outputs.DI.Signal_DI13
Setup.In/Outputs.DI.Signal_DI14
Setup.In/Outputs.AO.NumberOuts
Setup.In/Outputs.AO.SignalAsgn1
Setup.In/Outputs.AO.OutRange1

Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word

R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W

3273

3273

Setup.In/Outputs.AO.AutoScale1

Word

R/W

3274

3274

Setup.In/Outputs.AO.FailMode1

Word

R/W

3275
3276
3277

3275
3276
3277

Setup.In/Outputs.AO.Hold1
Setup.In/Outputs.AO.SignalAsgn2
Setup.In/Outputs.AO.OutRange2

Word
Word
Word

R/W
R/W
R/W

3278

3278

Setup.In/Outputs.AO.AutoScale2

Word

R/W

3279

3279

Setup.In/Outputs.AO.FailMode2

Word

R/W

3280

3280

Setup.In/Outputs.AO.Hold2

Word

R/W

node of DigInp1 / XDIO1 Inp1
node of DigInp2 / XDIO1 Inp2
node of DigInp3 / XDIO1 Inp3
node of DigInp4 / XDIO1 Inp4
node of DigInp5 / XDIO1 Inp5
node of DigInp6 / XDIO1 Inp6
node of DigInp7 / XDIO1 Inp7
signal of DigInp1 / XDIO1 Inp1
signal of DigInp2 / XDIO1 Inp2
signal of DigInp3 / XDIO1 Inp3
signal of DigInp4 / XDIO1 Inp4
signal of DigInp5 / XDIO1 Inp5
signal of DigInp6 / XDIO1 Inp6
signal of DigInp7 / XDIO1 Inp7
node of DigInp8 / XDIO2 Inp1
node of DigInp9 / XDIO2 Inp2
node of DigInp10 / XDIO2 Inp3
node of DigInp11 / XDIO2 Inp4
node of DigInp12 / XDIO2 Inp5
node of DigInp13 / XDIO2 Inp6
node of DigInp14 / XDIO2 Inp7
signal of DigInp8 / XDIO2 Inp1
signal of DigInp9 / XDIO2 Inp2
signal of DigInp10 / XDIO2 Inp3
signal of DigInp11 / XDIO2 Inp4
signal of DigInp12 / XDIO2 Inp5
signal of DigInp13 / XDIO2 Inp6
signal of DigInp14 / XDIO2 Inp7
number of analog outputs
assigned signal output1
range of output1 (0=0..20mA, 1=4-20mA)
Auto scale for ranged signals on output1 (0=NO,
1=Yes)
Behavior on errors output1 (0=Track,
1=-10%Start, 2=+10%End)
Hold output1 on calibrations (0=Track, 1=Hold)
assigned signal output2
range of output2 (0=0..20mA, 1=4-20mA)
Auto scale for ranged signals on output2 (0=NO,
1=Yes)
Behavior on errors output2 (0=Track,
1=-10%Start, 2=+10%End)
Hold output2 on calibrations (0=Track, 1=Hold)

3220

3220

3221
3222
3223
3224
3225
3226
3227
3228
3229
3230
3231
3232
3233
3234
3236
3237
3238
3239
3240
3241
3242
3243
3244
3245
3246
3247
3248
3249
3270
3271
3272

Emerson Process Management GmbH & Co. OHG

9-35

Modbus Commands

Tag Name

9

Address
Daniel Modicon

Instruction Manual

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04/2010

9.4 List of Parameters and Registers - Sorted by Daniel Registers

Address
Tag Name
Daniel Modicon
3281
3281
Setup.In/Outputs.AO.SignalAsgn3
3282
3282
Setup.In/Outputs.AO.OutRange3

Data
Type
Word
Word

3283

3283

Setup.In/Outputs.AO.AutoScale3

Word

3284

3284

Setup.In/Outputs.AO.FailMode3

Word

3285
3286
3287

3285
3286
3287

Setup.In/Outputs.AO.Hold3
Setup.In/Outputs.AO.SignalAsgn4
Setup.In/Outputs.AO.OutRange4

Word
Word
Word

3288

3288

Setup.In/Outputs.AO.AutoScale4

Word

3289

3289

Setup.In/Outputs.AO.FailMode4

Word

3290
3291
3292

3290
3291
3292

Setup.In/Outputs.AO.Hold4
Setup.In/Outputs.AO.SignalAsgn5
Setup.In/Outputs.AO.OutRange5

Word
Word
Word

3293

3293

Setup.In/Outputs.AO.AutoScale5

Word

3294

3294

Setup.In/Outputs.AO.FailMode5

Word

3295
3301
3302
3303
3304
3305
3306
3307
3308
3309
3310

3295
3301
3302
3303
3304
3305
3306
3307
3308
3309
3310

Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word

3397

3397

3398

3398

3399

3399

3400

3400

3401

3401

3402

3402

3403

3403

Setup.In/Outputs.AO.Hold5
Setup.Calibration.ZeroMethod1
Setup.Calibration.ZeroMethod2
Setup.Calibration.ZeroMethod3
Setup.Calibration.ZeroMethod4
Setup.Calibration.ZeroMethod5
Setup.Calibration.SpanMethod1
Setup.Calibration.SpanMethod2
Setup.Calibration.SpanMethod3
Setup.Calibration.SpanMethod4
Setup.Calibration.SpanMethod5
Setup.Communication.SIntModbusFt32
Setup.Communication.SSvcModbusFt32
Setup.Communication.Eth2ModbusFt32
Setup.Communication.Eth1ModbusFt32
Service.Measurement.Compensation.ToffEnable1
Service.Measurement.Compensation.ToffEnable2
Service.Measurement.Compensation.ToffEnable3

9-36

Client
Description
Access
R/W assigned signal output3
R/W range of output3 (0=0..20mA, 1=4-20mA)
Auto scale for ranged signals on output3 (0=NO,
R/W
1=Yes)
Behavior on errors output3 (0=Track,
R/W
1=-10%Start, 2=+10%End)
R/W Hold output3 on calibrations (0=Track, 1=Hold)
R/W assigned signal output4
R/W range of output4 (0=0..20mA, 1=4-20mA)
Auto scale for ranged signals on output4 (0=NO,
R/W
1=Yes)
Behavior on errors output4 (0=Track,
R/W
1=-10%Start, 2=+10%End)
R/W Hold output4 on calibrations (0=Track, 1=Hold)
R/W assigned signal output5
R/W range of output5 (0=0..20mA, 1=4-20mA)
Auto scale for ranged signals on output5 (0=NO,
R/W
1=Yes)
Behavior on errors output5 (0=Track,
R/W
1=-10%Start, 2=+10%End)
R/W Hold output5 on calibrations (0=Track, 1=Hold)
R/W zero cal method comp1 (0=Instant, 1=Stability)
R/W zero cal method comp2 (0=Instant, 1=Stability)
R/W zero cal method comp3 (0=Instant, 1=Stability)
R/W zero cal method comp4 (0=Instant, 1=Stability)
R/W zero cal method comp5 (0=Instant, 1=Stability)
R/W span cal method comp1 (0=Instant, 1=Stability)
R/W span cal method comp2 (0=Instant, 1=Stability)
R/W span cal method comp2 (0=Instant, 1=Stability)
R/W span cal method comp4 (0=Instant, 1=Stability)
R/W span cal method comp5 (0=Instant, 1=Stability)

Word

R/W

Modbus 32Bit mode of serial COM

Word

R/W

Modbus 32Bit mode of serial service COM

Word

R/W

Modbus 32Bit mode of Ethernet2

Word

R/W

Modbus 32Bit mode of Ethernet1

Word

R/W

enable temperature zero compensation of comp1

Word

R/W

enable temperature zero compensation of comp2

Word

R/W

enable temperature zero compensation of comp3

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.4 List of Parameters and Registers - Sorted by Daniel Registers

3404

3405

3405

3406

3406

3407

3407

3408

3408

3409

3409

3410

3410

3411

3411

3412

3412

3413

3413

3414

3414

3415

3415

3416

3416

3417

3417

3418

3418

3419

3419

3420

3420

3421

3421

3422

3422

3423

3423

3424

3424

3425

3425

3426

3426

3427

3427

Service.Measurement.Compensation.ToffEnable4
Service.Measurement.Compensation.ToffEnable5
Service.Measurement.Compensation.ToffSensorAssign1
Service.Measurement.Compensation.ToffSensorAssign2
Service.Measurement.Compensation.ToffSensorAssign3
Service.Measurement.Compensation.ToffSensorAssign4
Service.Measurement.Compensation.ToffSensorAssign5
Service.Measurement.Compensation.TfactEnable1
Service.Measurement.Compensation.TfactEnable2
Service.Measurement.Compensation.TfactEnable3
Service.Measurement.Compensation.TfactEnable4
Service.Measurement.Compensation.TfactEnable5
Service.Measurement.Compensation.TfactSensorAssign1
Service.Measurement.Compensation.TfactSensorAssign2
Service.Measurement.Compensation.TfactSensorAssign3
Service.Measurement.Compensation.TfactSensorAssign4
Service.Measurement.Compensation.TfactSensorAssign5
Service.Measurement.Compensation.PfactEnable1
Service.Measurement.Compensation.PfactEnable2
Service.Measurement.Compensation.PfactEnable3
Service.Measurement.Compensation.PfactEnable4
Service.Measurement.Compensation.PfactEnable5
Service.Measurement.Compensation.PfactSensorAssign1
Service.Measurement.Compensation.PfactSensorAssign2

Emerson Process Management GmbH & Co. OHG

Data
Type

Client
Access

Description

Word

R/W

enable temperature zero compensation of comp4

Word

R/W

enable temperature zero compensation of comp5

Word

R/W

Word

R/W

Word

R/W

Word

R/W

Word

R/W

Word

R/W

enable temperature span compensation of comp1

Word

R/W

enable temperature span compensation of comp2

Word

R/W

enable temperature span compensation of comp3

Word

R/W

enable temperature span compensation of comp4

Word

R/W

enable temperature span compensation of comp5

Word

R/W

Word

R/W

Word

R/W

Word

R/W

Word

R/W

Word

R/W

enable pressure span compensation of comp1

Word

R/W

enable pressure span compensation of comp2

Word

R/W

enable pressure span compensation of comp3

Word

R/W

enable pressure span compensation of comp4

Word

R/W

enable pressure span compensation of comp5

Word

R/W

Word

R/W

assign temp-sensor of zero comp1 (0=None,
1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of zero comp2 (0=None,
1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of zero comp3 (0=None,
1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of zero comp4 (0=None,
1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of zero comp5 (0=None,
1=DSP_T1, 2=DSP_T2 etc.)

assign temp-sensor of span comp1 (0=None,
1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of span comp2 (0=None,
1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of span comp3 (0=None,
1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of span comp4 (0=None,
1=DSP_T1, 2=DSP_T2 etc.)
assign temp-sensor of span comp5 (0=None,
1=DSP_T1, 2=DSP_T2 etc.)

Modbus Commands

3404

Tag Name

9

Address
Daniel Modicon

assign press-sensor of span comp1 (0=Man,
1=DSP_P1, 2=DSP_P2 etc.)
assign press-sensor of span comp2 (0=Man,
1=DSP_P1, 2=DSP_P2 etc.)

9-37

Instruction Manual

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04/2010

9.4 List of Parameters and Registers - Sorted by Daniel Registers

Address
Daniel Modicon

Tag Name
Service.Measurement.Compensation.PfactSensorAssign3
Service.Measurement.Compensation.PfactSensorAssign4
Service.Measurement.Compensation.PfactSensorAssign5
Service.Measurement.Simulation.
SimPVARawEnable1
Service.Measurement.Simulation.
SimPVARawEnable2
Service.Measurement.Simulation.
SimPVARawEnable3
Service.Measurement.Simulation.
SimPVARawEnable4
Service.Measurement.Simulation.
SimPVARawEnable5

Data
Type

Client
Access

Word

R/W

Word

R/W

Word

R/W

Word

R/W

enable simulation for rawPVA of comp1

Word

R/W

enable simulation for rawPVA of comp2

Word

R/W

enable simulation for rawPVA of comp3

Word

R/W

enable simulation for rawPVA of comp4

Word

R/W

enable simulation for rawPVA of comp5

3428

3428

3429

3429

3430

3430

3456

3456

3457

3457

3458

3458

3459

3459

3460

3460

3471

3471

Setup.Measurement.XIntf.Enable1

Word

R/W

3472

3472

Setup.Measurement.XIntf.Enable2

Word

R/W

3473

3473

Setup.Measurement.XIntf.Enable3

Word

R/W

3474

3474

Setup.Measurement.XIntf.Enable4

Word

R/W

3475

3475

Setup.Measurement.XIntf.Enable5

Word

R/W

3476

3476

Word

R/W

3477

3477

Word

R/W

3478

3478

Word

R/W

3479

3479

Word

R/W

3480

3480

3501
3502
3503
3504
3505

Word

R/W

3501
3502
3503
3504
3505

Setup.Measurement.XIntf.ComputeFactor1
Setup.Measurement.XIntf.ComputeFactor2
Setup.Measurement.XIntf.ComputeFactor3
Setup.Measurement.XIntf.ComputeFactor4
Setup.Measurement.XIntf.ComputeFactor5
Service.Measurement.Lin.Enable1
Service.Measurement.Lin.Enable2
Service.Measurement.Lin.Enable3
Service.Measurement.Lin.Enable4
Service.Measurement.Lin.Enable5

Word
Word
Word
Word
Word

R/W
R/W
R/W
R/W
R/W

3506

3506

Service.Measurement.Lin.Method1

Word

R/W

3507

3507

Service.Measurement.Lin.Method2

Word

R/W

3508

3508

Service.Measurement.Lin.Method3

Word

R/W

9-38

Description
assign press-sensor of span comp3 (0=Man,
1=DSP_P1, 2=DSP_P2 etc.)
assign press-sensor of span comp4 (0=Man,
1=DSP_P1, 2=DSP_P2 etc.)
assign press-sensor of span comp5 (0=Man,
1=DSP_P1, 2=DSP_P2 etc.)

Enable cross interference compensation for
comp1
Enable cross interference compensation for
comp2
Enable cross interference compensation for
comp3
Enable cross interference compensation for
comp4
Enable cross interference compensation for
comp5
Compute cross interference factor comp1
(0=Src1, 1=Src2 etc.)
Compute cross interference factor comp2
(0=Src1, 1=Src2 etc.)
Compute cross interference factor comp3
(0=Src1, 1=Src2 etc.)
Compute cross interference factor comp4
(0=Src1, 1=Src2 etc.)
Compute cross interference factor comp5
(0=Src1, 1=Src2 etc.)
Enable Linearizer of comp1
Enable Linearizer of comp1
Enable Linearizer of comp1
Enable Linearizer of comp1
Enable Linearizer of comp1
Linearization method of comp1 (0=Splines, 1=Polynom)
Linearization method of comp2 (0=Splines, 1=Polynom)
Linearization method of comp3 (0=Splines, 1=Polynom)

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.4 List of Parameters and Registers - Sorted by Daniel Registers

Data
Type

Client
Access

Description
Linearization method of comp4 (0=Splines, 1=Polynom)
Linearization method of comp5 (0=Splines, 1=Polynom)
LinFct c1: 1=On/Off, 2=Calc, 3=ToUSB, 4=FromUSB, 5=Install, 6=ToFile
LinFct c2: 1=On/Off, 2=Calc, 3=ToUSB, 4=FromUSB, 5=Install, 6=ToFile
LinFct c3: 1=On/Off, 2=Calc, 3=ToUSB, 4=FromUSB, 5=Install, 6=ToFile
LinFct c4: 1=On/Off, 2=Calc, 3=ToUSB, 4=FromUSB, 5=Install, 6=ToFile
LinFct c5: 1=On/Off, 2=Calc, 3=ToUSB, 4=FromUSB, 5=Install, 6=ToFile
Lin, status comp1 (0=Normal, 1=Underflow,
2=Overflow, 3=Undefined)
Lin, status comp2 (0=Normal, 1=Underflow,
2=Overflow, 3=Undefined)
Lin, status comp3 (0=Normal, 1=Underflow,
2=Overflow, 3=Undefined)
Lin, status comp4 (0=Normal, 1=Underflow,
2=Overflow, 3=Undefined)
Lin, status comp5 (0=Normal, 1=Underflow,
2=Overflow, 3=Undefined)

3509

3509

Service.Measurement.Lin.Method4

Word

R/W

3510

3510

Service.Measurement.Lin.Method5

Word

R/W

3511

3511

Word

R/W

3512

3512

Word

R/W

3513

3513

Word

R/W

3514

3514

Word

R/W

3515

3515

Word

R/W

3516

3516

Word

RO

3517

3517

Word

RO

3518

3518

Word

RO

3519

3519

Word

RO

3520

3520

Word

RO

3521

3521

Word

RO

Lin-computing iteration steps of comp1

3522

3522

Word

RO

Lin-computing iteration steps of comp1

3523

3523

Word

RO

Lin-computing iteration steps of comp1

3524

3524

Word

RO

Lin-computing iteration steps of comp1

3525

3525

Word

RO

Lin-computing iteration steps of comp1

4001

4001

Word

RO

4002

4002

Word

RO

4003

4003

Word

RO

4004

4004

Word

RO

4005

4005

Word

RO

4006

4006

Word

RO

4007

4007

Word

RO

4026

4026

Word

RO

NAMUR sum state bit-field (b0:F b1:M b2:S b3:C)
device‘s NAMUR state bit-field (b0:F b1:M b2:S
b3:C)
comp1‘s NAMUR state bit-field (b0:F b1:M b2:S
b3:C)
comp2‘s NAMUR state bit-field (b0:F b1:M b2:S
b3:C)
comp3‘s NAMUR state bit-field (b0:F b1:M b2:S
b3:C)
comp4‘s NAMUR state bit-field (b0:F b1:M b2:S
b3:C)
comp4‘s NAMUR state bit-field (b0:F b1:M b2:S
b3:C)
Version number of sensor firmware

Service.Measurement.Lin.StartFunction1
Service.Measurement.Lin.StartFunction2
Service.Measurement.Lin.StartFunction3
Service.Measurement.Lin.StartFunction4
Service.Measurement.Lin.StartFunction5
Service.Measurement.Lin.LinearizerStatus1
Service.Measurement.Lin.LinearizerStatus2
Service.Measurement.Lin.LinearizerStatus3
Service.Measurement.Lin.LinearizerStatus4
Service.Measurement.Lin.LinearizerStatus5
Service.Measurement.Lin.Iterations1
Service.Measurement.Lin.Iterations2
Service.Measurement.Lin.Iterations3
Service.Measurement.Lin.Iterations4
Service.Measurement.Lin.Iterations5
Status.NamurStates.NamurAlarm
Status.NamurStates.NamurAlarmDevice
Status.NamurStates.NamurAlarmCh1
Status.NamurStates.NamurAlarmCh2
Status.NamurStates.NamurAlarmCh3
Status.NamurStates.NamurAlarmCh4
Status.NamurStates.NamurAlarmCh5
Info.SensorVersion

Emerson Process Management GmbH & Co. OHG

9-39

Modbus Commands

Tag Name

9

Address
Daniel Modicon

Instruction Manual

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HASXEE-IM-HS
04/2010

9.4 List of Parameters and Registers - Sorted by Daniel Registers

Address
Daniel Modicon
4027

4027

4028

4028

8001
8002
8003
8004
8005
8006
8007
8008
8011
8012
8013
8014
8015
8016
8017
8018
8021
8022
8023
8024
8025
8026

9-40

5001…
5002
5003…
5004
5005…
5006
5007…
5008
5009…
5010
5011…
5012
5013…
5014
5015…
5016
5021…
5022
5023…
5024
5025…
5026
5027…
5028
5029…
5030
5031…
5032
5033…
5034
5035…
5036
5041…
5042
5043…
5044
5045…
5046
5047…
5048
5049…
5050
5051…
5052

Data
Type

Client
Access

Word

RO

Build number of sensor firmware

Word

RO

Version number of CPLD firmware

DWord

RO

Namur Failure alarm bitfield

Status.NamurStates.OffSpecAlarm DWord

RO

Namur Off-spec alarm bitfield

DWord

RO

Namur Maintenance Request alarm bitfield

DWord

RO

Namur Function Check alarm bitfield

DWord

RO

Namur Failure active bitfield

Status.NamurStates.OffSpecActive DWord

RO

Namur Off-spec active bitfield

DWord

RO

Namur Maintenance Request active bitfield

DWord

RO

Namur Function Check active bitfield

DWord

R/W

Bitmask that disables failure sources

DWord

R/W

Bitmask that disables NAMUR OffSpec sources

Service.Status.NAMUR.MaintMask DWord

R/W

Bitmask that disables NAMUR maintenance
request sources

Service.Status.NAMUR.FctCheckDWord
Mask

R/W

Bitmask that disables NAMUR FctCheck sources

Service.Status.NAMUR.FailureMap DWord

R/W

Bitmask that maps cond. for failure source

Tag Name
Service.General.Identification.
SensorBuild
Service.General.Identification.
CPLDVersion
Status.NamurStates.FailureAlarm

Status.NamurStates.MaintRequAlarm
Status.NamurStates.FctCheckAlarm
Status.NamurStates.FailureActive

Status.NamurStates.MaintRequActive
Status.NamurStates.FctCheckActive
Service.Status.NAMUR.FailureMask
Service.Status.NAMUR.OffSpecMask

Description

Service.Status.NAMUR.OffSpecMap

DWord

R/W

Bitmask that maps cond. to OffSpec source

Service.Status.NAMUR.MaintMap

DWord

R/W

Bitmask that maps cond. for maintenance request
source

Service.Status.NAMUR.FctCheckDWord
Map

R/W

Bitmask that maps cond. for FctCheck source

Status.NamurStates.FailAlarmDev DWord

RO

NamurFailure alarms that are device related

DWord

RO

NamurOff-spec alarms that are device related

DWord

RO

NamurMaintRequ alarms that are device related

DWord

RO

Namur FctCheck alarms that are device related

DWord

RO

NamurFailure alarms that are component1 related

DWord

RO

Namur Off-spec alarms that are component1
related

Status.NamurStates.OffSpecAlarmDev
Status.NamurStates.MaintRequAlarmDev
Status.NamurStates.FctCheckAlarmDev
Status.NamurStates.FailAlarmComp1
Status.NamurStates.OffSpecAlarmComp1

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.4 List of Parameters and Registers - Sorted by Daniel Registers

Data
Type

Client
Access

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

DWord

RO

PV1

Float

RO

Primary Variable 1

PV2

Float

RO

Primary Variable 2

PV3

Float

RO

Primary Variable 3

PV4

Float

RO

Primary Variable 4

PV5

Float

RO

Primary Variable 5

Service.Measurement.Simulation.
PVARawValue1

Float

RO

value for rawPVA of comp1

Status.NamurStates.MaintRequAlarmComp1
Status.NamurStates.FctCheckAlarmComp1
Status.NamurStates.FailAlarmComp2
Status.NamurStates.OffSpecAlarmComp2
Status.NamurStates.MaintRequAlarmComp2
Status.NamurStates.FctCheckAlarmComp2
Status.NamurStates.FailAlarmComp3
Status.NamurStates.OffSpecAlarmComp3
Status.NamurStates.MaintRequAlarmComp3
Status.NamurStates.FctCheckAlarmComp3
Status.NamurStates.FailAlarmComp4
Status.NamurStates.OffSpecAlarmComp4
Status.NamurStates.MaintRequAlarmComp4
Status.NamurStates.FctCheckAlarmComp4
Status.NamurStates.FailAlarmComp5
Status.NamurStates.OffSpecAlarmComp5
Status.NamurStates.MaintRequAlarmComp5
Status.NamurStates.FctCheckAlarmComp5

Emerson Process Management GmbH & Co. OHG

Description
Namur MaintRequ alarms that are component1
related
Namur FctCheck alarms that are component1
related
NamurFailure alarms that are component2 related
Namur Off-spec alarms that are component2
related
Namur MaintRequ alarms that are component2
related
Namur FctCheck alarms that are component1
related
NamurFailure alarms that are component3 related
Namur Off-spec alarms that are component3
related
Namur MaintRequ alarms that are component3
related
Namur FctCheck alarms that are component1
related
NamurFailure alarms that are component4 related
Namur Off-spec alarms that are component4
related
Namur MaintRequ alarms that are component4
related
Namur FctCheck alarms that are component1
related
NamurFailure alarms that are component5 related
Namur Off-spec alarms that are component5
related
Namur MaintRequ alarms that are component5
related
Namur FctCheck alarms that are component1
related

Modbus Commands

Tag Name

9

Address
Daniel Modicon
5053…
8027
5054
5055…
8028
5056
5057…
8029
5058
5059…
8030
5060
5061…
8031
5062
5063…
8032
5064
5065…
8033
5066
5067…
8034
5068
5069…
8035
5070
5071…
8036
5072
5073…
8037
5074
5075…
8038
5076
5077…
8039
5078
5079…
8040
5080
5081…
8041
5082
5083…
8042
5084
5085…
8043
5086
5087…
8044
5088
6001…
9001
6002
6003…
9002
6004
6005…
9003
6006
6007…
9004
6008
6009…
9005
6010
6011…
9006
6012

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9.4 List of Parameters and Registers - Sorted by Daniel Registers

Address
Daniel Modicon
6011…
9006
6012
6013…
9007
6014
6013…
9007
6014
6015…
9008
6016
6015…
9008
6016
6017…
9009
6018
6017…
9009
6018
6019…
9010
6020
6019…
9010
6020
6021…
9011
6022
6023…
9012
6024
6025…
9013
6026
6027…
9014
6028
6029…
9015
6030
6031…
9016
6032
6033…
9017
6034
6035…
9018
6036
6037…
9019
6038
6039…
9020
6040
6041…
9021
6042
6043…
9022
6044
6045…
9023
6046
6047…
9024
6048
6049…
9025
6050

9-42

Data
Type

Client
Access

Float

RO

raw ADC quotient of component1

Float

RO

value for rawPVA of comp2

Float

RO

raw ADC quotient of component2

Float

RO

value for rawPVA of comp3

Float

RO

raw ADC quotient of component3

Float

RO

value for rawPVA of comp4

Float

RO

raw ADC quotient of component4

Float

RO

value for rawPVA of comp5

Float

RO

raw ADC quotient of component4

Float

RO

raw ADC of measure-side component1

Status.Diagnostics.RawRefConce1

Float

RO

raw ADC of reference side component1

Status.Diagnostics.RawMeasConce2

Float

RO

raw ADC of measure-side component2

Status.Diagnostics.RawRefConce2

Float

RO

raw ADC of reference side component2

Status.Diagnostics.RawMeasConce3

Float

RO

raw ADC of measure-side component3

Status.Diagnostics.RawRefConce3

Float

RO

raw ADC of reference side component3

Status.Diagnostics.RawMeasConce4

Float

RO

raw ADC of measure-side component4

Status.Diagnostics.RawRefConce4

Float

RO

raw ADC of reference side component4

Status.Diagnostics.RawMeasConce5

Float

RO

raw ADC of measure-side component5

Status.Diagnostics.RawRefConce5

Float

RO

raw ADC of reference side component5

Float

R/W

start of current range of comp1

Float

R/W

end of current range of comp1

Float

R/W

start of current range of comp2

Float

R/W

end of current range of comp2

Float

R/W

start of current range of comp3

Tag Name
Status.Diagnostics.RawQuotConce1
Service.Measurement.Simulation.
PVARawValue2
Status.Diagnostics.RawQuotConce2
Service.Measurement.Simulation.
PVARawValue3
Status.Diagnostics.RawQuotConce3
Service.Measurement.Simulation.
PVARawValue4
Status.Diagnostics.RawQuotConce4
Service.Measurement.Simulation.
PVARawValue5
Status.Diagnostics.RawQuotConce5
Status.Diagnostics.RawMeasConce1

Setup.Measurement.StartOfCurrentRange_1
Setup.Measurement.EndOfCurrentRange_1
Setup.Measurement.StartOfCurrentRange_2
Setup.Measurement.EndOfCurrentRange_2
Setup.Measurement.StartOfCurrentRange_3

Description

Emerson Process Management GmbH & Co. OHG

Instruction Manual

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04/2010

9.4 List of Parameters and Registers - Sorted by Daniel Registers

Data
Type

Client
Access

Float

R/W

end of current range of comp3

Float

R/W

start of current range of comp4

Float

R/W

end of current range of comp4

Float

R/W

start of current range of comp5

Float

R/W

end of current range of comp5

Status.Pressure1

Float

RO

pressure of comp1

Status.Pressure2

Float

RO

pressure of comp2

Status.Pressure3

Float

RO

pressure of comp3

Status.Pressure4

Float

RO

pressure of comp4

Status.Pressure5

Float

RO

pressure of comp5

Status.Flow1

Float

RO

flow of comp1

Status.Flow2

Float

RO

flow of comp2

Status.Flow3

Float

RO

flow of comp3

Status.Flow4

Float

RO

flow of comp4

Status.Flow5

Float

RO

flow of comp5

Status.Temperature1

Float

RO

temperature of comp1

Status.Temperature2

Float

RO

temperature of comp2

Status.Temperature3

Float

RO

temperature of comp3

Status.Temperature4

Float

RO

temperature of comp4

Status.Temperature5

Float

RO

temperature of comp5

Setup.Calibration.CurrentZerogas1

Float

R/W

current zero gas of comp1

Setup.Calibration.CurrentZerogas2

Float

R/W

current zero gas of comp2

Setup.Calibration.CurrentZerogas3

Float

R/W

current zero gas of comp3

Setup.Calibration.CurrentZerogas4

Float

R/W

current zero gas of comp4

Setup.Measurement.EndOfCurrentRange_3
Setup.Measurement.StartOfCurrentRange_4
Setup.Measurement.EndOfCurrentRange_4
Setup.Measurement.StartOfCurrentRange_5
Setup.Measurement.EndOfCurrentRange_5

Emerson Process Management GmbH & Co. OHG

Description

Modbus Commands

Tag Name

9

Address
Daniel Modicon
6051…
9026
6052
6053…
9027
6054
6055…
9028
6056
6057…
9029
6058
6059…
9030
6060
6061…
9031
6062
6063…
9032
6064
6065…
9033
6066
6067…
9034
6068
6069…
9035
6070
6071…
9036
6072
6073…
9037
6074
6075…
9038
6076
6077…
9039
6078
6079…
9040
6080
6081…
9041
6082
6083…
9042
6084
6085…
9043
6086
6087…
9044
6088
6089…
9045
6090
6101…
9051
6102
6103…
9052
6104
6105…
9053
6106
6107…
9054
6108

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9.4 List of Parameters and Registers - Sorted by Daniel Registers

Address
Daniel Modicon
6109…
9055
6110
6111…
9056
6112
6113…
9057
6114
6115…
9058
6116
6117…
9059
6118
6119…
9060
6120
6141…
9071
6142
6143…
9072
6144
6145…
9073
6146
6147…
9074
6148
6149…
9075
6150
6151…
9076
6152
6153…
9077
6154
6155…
9078
6156
6157…
9079
6158
6159…
9080
6160
6161…
9081
6162
6163…
9082
6164
6165…
9083
6166
6167…
9084
6168
6169…
9085
6170
6171…
9086
6172
6173…
9087
6174
6175…
9088
6176

9-44

Tag Name

Data
Type

Client
Access

Setup.Calibration.CurrentZerogas5

Float

R/W

current zero gas of comp5

Setup.Calibration.CurrentSpangas1

Float

R/W

current zero gas of comp1

Setup.Calibration.CurrentSpangas2

Float

R/W

current zero gas of comp2

Setup.Calibration.CurrentSpangas3

Float

R/W

current zero gas of comp3

Setup.Calibration.CurrentSpangas4

Float

R/W

current zero gas of comp4

Setup.Calibration.CurrentSpangas5

Float

R/W

current zero gas of comp5

Float

R/W

start of range1 of comp1

Float

R/W

end of range1 of comp1

Float

R/W

start of range2 of comp1

Float

R/W

end of range2 of comp1

Float

R/W

start of range3 of comp1

Float

R/W

end of range3 of comp1

Float

R/W

start of range4 of comp1

Float

R/W

end of range4 of comp1

Float

R/W

start of range1 of comp2

Float

R/W

end of range1 of comp2

Float

R/W

start of range2 of comp2

Float

R/W

end of range2 of comp2

Float

R/W

start of range3 of comp2

Float

R/W

end of range3 of comp2

Float

R/W

start of range4 of comp2

Float

R/W

end of range4 of comp2

Float

R/W

start of range1 of comp3

Float

R/W

end of range1 of comp3

Setup.Measurement.StartOfRange1_1
Setup.Measurement.EndOfRange1_1
Setup.Measurement.StartOfRange2_1
Setup.Measurement.EndOfRange2_1
Setup.Measurement.StartOfRange3_1
Setup.Measurement.EndOfRange3_1
Setup.Measurement.StartOfRange4_1
Setup.Measurement.EndOfRange4_1
Setup.Measurement.StartOfRange1_2
Setup.Measurement.EndOfRange1_2
Setup.Measurement.StartOfRange2_2
Setup.Measurement.EndOfRange2_2
Setup.Measurement.StartOfRange3_2
Setup.Measurement.EndOfRange3_2
Setup.Measurement.StartOfRange4_2
Setup.Measurement.EndOfRange4_2
Setup.Measurement.StartOfRange1_3
Setup.Measurement.EndOfRange1_3

Description

Emerson Process Management GmbH & Co. OHG

Instruction Manual

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HASXEE-IM-HS
04/2010

9.4 List of Parameters and Registers - Sorted by Daniel Registers

Emerson Process Management GmbH & Co. OHG

Data
Type

Client
Access

Float

R/W

start of range2 of comp3

Float

R/W

end of range2 of comp3

Float

R/W

start of range3 of comp3

Float

R/W

end of range3 of comp3

Float

R/W

start of range4 of comp3

Float

R/W

end of range4 of comp3

Float

R/W

start of range1 of comp4

Float

R/W

end of range1 of comp4

Float

R/W

start of range2 of comp4

Float

R/W

end of range2 of comp4

Float

R/W

start of range3 of comp4

Float

R/W

end of range3 of comp4

Float

R/W

start of range4 of comp4

Float

R/W

end of range4 of comp4

Float

R/W

start of range1 of comp5

Float

R/W

end of range1 of comp5

Float

R/W

start of range2 of comp5

Float

R/W

end of range2 of comp5

Float

R/W

start of range3 of comp5

Float

R/W

end of range3 of comp5

Float

R/W

start of range4 of comp5

Float

R/W

end of range4 of comp5

Float

R/W

zero gas of range1 of comp1

Float

R/W

zero gas of range2 of comp1

Modbus Commands

Description

9

Address
Tag Name
Daniel Modicon
6177…
Setup.Measurement.StartO9089
6178
fRange2_3
6179…
Setup.Measurement.En9090
6180
dOfRange2_3
6181…
Setup.Measurement.StartO9091
6182
fRange3_3
6183…
Setup.Measurement.En9092
6184
dOfRange3_3
6185…
Setup.Measurement.StartO9093
6186
fRange4_3
6187…
Setup.Measurement.En9094
6188
dOfRange4_3
6189…
Setup.Measurement.StartO9095
6190
fRange1_4
6191…
Setup.Measurement.En9096
6192
dOfRange1_4
6193…
Setup.Measurement.StartO9097
6194
fRange2_4
6195…
Setup.Measurement.En9098
6196
dOfRange2_4
6197…
Setup.Measurement.StartO9099
6198
fRange3_4
6199…
Setup.Measurement.En9100
6200
dOfRange3_4
6201…
Setup.Measurement.StartO9101
6202
fRange4_4
6203…
Setup.Measurement.En9102
6204
dOfRange4_4
6205…
Setup.Measurement.StartO9103
6206
fRange1_5
6207…
Setup.Measurement.En9104
6208
dOfRange1_5
6209…
Setup.Measurement.StartO9105
6210
fRange2_5
6211…
Setup.Measurement.En9106
6212
dOfRange2_5
6213…
Setup.Measurement.StartO9107
6214
fRange3_5
6215…
Setup.Measurement.En9108
6216
dOfRange3_5
6217…
Setup.Measurement.StartO9109
6218
fRange4_5
6219…
Setup.Measurement.En9110
6220
dOfRange4_5
6221…
Setup.Calibration.Range1Zerogas1
9111
6222
6223…
Setup.Calibration.Range2Zerogas1
9112
6224

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9.4 List of Parameters and Registers - Sorted by Daniel Registers

Address
Daniel Modicon
6225…
9113
6226
6227…
9114
6228
6229…
9115
6230
6231…
9116
6232
6233…
9117
6234
6235…
9118
6236
6237…
9119
6238
6239…
9120
6240
6241…
9121
6242
6243…
9122
6244
6245…
9123
6246
6247…
9124
6248
6249…
9125
6250
6251…
9126
6252
6253…
9127
6254
6255…
9128
6256
6257…
9129
6258
6259…
9130
6260
6261…
9131
6262
6263…
9132
6264
6265…
9133
6266
6267…
9134
6268
6269…
9135
6270
6271…
9136
6272

9-46

Tag Name

Data
Type

Client
Access

Setup.Calibration.Range3Zerogas1

Float

R/W

zero gas of range3 of comp1

Setup.Calibration.Range4Zerogas1

Float

R/W

zero gas of range4 of comp1

Setup.Calibration.Range1Zerogas2

Float

R/W

zero gas of range1 of comp2

Setup.Calibration.Range2Zerogas2

Float

R/W

zero gas of range2 of comp2

Setup.Calibration.Range3Zerogas2

Float

R/W

zero gas of range3 of comp2

Setup.Calibration.Range4Zerogas2

Float

R/W

zero gas of range4 of comp2

Setup.Calibration.Range1Zerogas3

Float

R/W

zero gas of range1 of comp3

Setup.Calibration.Range2Zerogas3

Float

R/W

zero gas of range2 of comp3

Setup.Calibration.Range3Zerogas3

Float

R/W

zero gas of range3 of comp3

Setup.Calibration.Range4Zerogas3

Float

R/W

zero gas of range4 of comp3

Setup.Calibration.Range1Zerogas4

Float

R/W

zero gas of range1 of comp4

Setup.Calibration.Range2Zerogas4

Float

R/W

zero gas of range2 of comp4

Setup.Calibration.Range3Zerogas4

Float

R/W

zero gas of range3 of comp4

Setup.Calibration.Range4Zerogas4

Float

R/W

zero gas of range4 of comp4

Setup.Calibration.Range1Zerogas5

Float

R/W

zero gas of range1 of comp5

Setup.Calibration.Range2Zerogas5

Float

R/W

zero gas of range2 of comp5

Setup.Calibration.Range3Zerogas5

Float

R/W

zero gas of range3 of comp5

Setup.Calibration.Range4Zerogas5

Float

R/W

zero gas of range4 of comp5

Float

R/W

span gas of range1 of comp1

Float

R/W

span gas of range2 of comp1

Float

R/W

span gas of range3 of comp1

Float

R/W

span gas of range4 of comp1

Float

R/W

span gas of range1 of comp2

Float

R/W

span gas of range2 of comp2

Setup.Calibration.Range1Spangas1
Setup.Calibration.Range2Spangas1
Setup.Calibration.Range3Spangas1
Setup.Calibration.Range4Spangas1
Setup.Calibration.Range1Spangas2
Setup.Calibration.Range2Spangas2

Description

Emerson Process Management GmbH & Co. OHG

Instruction Manual

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HASXEE-IM-HS
04/2010

Tag Name
Setup.Calibration.Range3Spangas2
Setup.Calibration.Range4Spangas2
Setup.Calibration.Range1Spangas3
Setup.Calibration.Range2Spangas3
Setup.Calibration.Range3Spangas3
Setup.Calibration.Range4Spangas3
Setup.Calibration.Range1Spangas4
Setup.Calibration.Range2Spangas4
Setup.Calibration.Range3Spangas4
Setup.Calibration.Range4Spangas4
Setup.Calibration.Range1Spangas5
Setup.Calibration.Range2Spangas5
Setup.Calibration.Range3Spangas5
Setup.Calibration.Range4Spangas5
Setup.Display.Component.PV_
UnitFactor1
Setup.Display.Component.PV_UnitOffset1
Setup.Display.Component.PV_
UnitFactor2
Setup.Display.Component.PV_UnitOffset2
Setup.Display.Component.PV_
UnitFactor3
Setup.Display.Component.PV_UnitOffset3
Setup.Display.Component.PV_
UnitFactor4
Setup.Display.Component.PV_UnitOffset4
Setup.Display.Component.PV_
UnitFactor5
Setup.Display.Component.PV_UnitOffset5

Emerson Process Management GmbH & Co. OHG

Data
Type

Client
Access

Float

R/W

span gas of range3 of comp2

Float

R/W

span gas of range4 of comp2

Float

R/W

span gas of range1 of comp3

Float

R/W

span gas of range2 of comp3

Float

R/W

span gas of range3 of comp3

Float

R/W

span gas of range4 of comp3

Float

R/W

span gas of range1 of comp4

Float

R/W

span gas of range2 of comp4

Float

R/W

span gas of range3 of comp4

Float

R/W

span gas of range4 of comp4

Float

R/W

span gas of range1 of comp5

Float

R/W

span gas of range2 of comp5

Float

R/W

span gas of range3 of comp5

Float

R/W

span gas of range4 of comp5

Float

R/W

factor to convert ppm into displayed custom unit1

Float

R/W

offset to convert ppm into displayed custom unit1

Float

R/W

factor to convert ppm into displayed custom unit2

Float

R/W

offset to convert ppm into displayed custom unit2

Modbus Commands

Address
Daniel Modicon
6273…
9137
6274
6275…
9138
6276
6277…
9139
6278
6279…
9140
6280
6281…
9141
6282
6283…
9142
6284
6285…
9143
6286
6287…
9144
6288
6289…
9145
6290
6291…
9146
6292
6293…
9147
6294
6295…
9148
6296
6297…
9149
6298
6299…
9150
6300
6301…
9151
6302
6303…
9152
6304
6305…
9153
6306
6307…
9154
6308
6309…
9155
6310
6311…
9156
6312
6313…
9157
6314
6315…
9158
6316
6317…
9159
6318
6319…
9160
6320

Float

R/W

factor to convert ppm into displayed custom unit3

9

9.4 List of Parameters and Registers - Sorted by Daniel Registers

Float

R/W

offset to convert ppm into displayed custom unit3

Float

R/W

factor to convert ppm into displayed custom unit4

Float

R/W

offset to convert ppm into displayed custom unit4

Float

R/W

factor to convert ppm into displayed custom unit5

Float

R/W

offset to convert ppm into displayed custom unit5

Description

9-47

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9.4 List of Parameters and Registers - Sorted by Daniel Registers

Address
Daniel Modicon
6321…
9161
6322
6323…
9162
6324
6325…
9163
6326
6327…
9164
6328
6329…
9165
6330
6331…
9166
6332
6333…
9167
6334
6335…
9168
6336
6337…
9169
6338
6339…
9170
6340
6341…
9171
6342
6343…
9172
6344
6345…
9173
6346
6347…
9174
6348
6349…
9175
6350
6351…
9176
6352
6353…
9177
6354
6355…
9178
6356
6361…
9181
6362
6363…
9182
6364
6365…
9183
6366
6367…
9184
6368
6369…
9185
6370
6371…
9186
6372

9-48

Data
Type

Client
Access

Float

R/W

absolute minimum range of comp1

Float

R/W

absolute maximum range of comp1

Float

R/W

absolute minimum range of comp2

Float

R/W

absolute maximum range of comp2

Float

R/W

absolute minimum range of comp3

Float

R/W

absolute maximum range of comp3

Float

R/W

absolute minimum range of comp4

Float

R/W

absolute maximum range of comp4

Float

R/W

absolute minimum range of comp5

Float

R/W

absolute maximum range of comp5

Status.Diagnostics.DSPMuxValue1

Float

RO

DSP multiplexer value 1

Status.Diagnostics.DSPMuxValue2

Float

RO

DSP multiplexer value 2

Status.Diagnostics.DSPMuxValue3

Float

RO

DSP multiplexer value 3

Status.Diagnostics.DSPMuxValue4

Float

RO

DSP multiplexer value 4

Status.Diagnostics.DSPMuxValue5

Float

RO

DSP multiplexer value 5

Status.Diagnostics.DSPMuxValue6

Float

RO

DSP multiplexer value 6

Status.Diagnostics.DSPMuxValue7

Float

RO

DSP multiplexer value 7

Status.Diagnostics.DSPMuxValue8

Float

RO

DSP multiplexer value 8

Setup.In/Outputs.AO.StartRange1

Float

R/W

Setup.In/Outputs.AO.EndRange1

Float

R/W

Setup.In/Outputs.AO.AdjustStart1

Float

R/W

fine adjustment for start range of output1

Setup.In/Outputs.AO.AdjustEnd1

Float

R/W

fine adjustment for end range of output1

Setup.In/Outputs.AO.StartRange2

Float

R/W

Setup.In/Outputs.AO.EndRange2

Float

R/W

Tag Name
Service.Measurement.AbsMinRange1
Service.Measurement.AbsMaxRange1
Service.Measurement.AbsMinRange2
Service.Measurement.AbsMaxRange2
Service.Measurement.AbsMinRange3
Service.Measurement.AbsMaxRange3
Service.Measurement.AbsMinRange4
Service.Measurement.AbsMaxRange4
Service.Measurement.AbsMinRange5
Service.Measurement.AbsMaxRange5

Description

level where analoge output scaling starts on
output1
level where analoge output scaling ends on
output1

level where analoge output scaling starts on
output2
level where analoge output scaling ends on
output2

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

9.4 List of Parameters and Registers - Sorted by Daniel Registers

Tag Name

Data
Type

Client
Access

Setup.In/Outputs.AO.AdjustStart2

Float

R/W

fine adjustment for start range of output2

Setup.In/Outputs.AO.AdjustEnd2

Float

R/W

fine adjustment for end range of output2

Setup.In/Outputs.AO.StartRange3

Float

R/W

Setup.In/Outputs.AO.EndRange3

Float

R/W

Setup.In/Outputs.AO.AdjustStart3

Float

R/W

fine adjustment for start range of output3

Setup.In/Outputs.AO.AdjustEnd3

Float

R/W

fine adjustment for end range of output3

Setup.In/Outputs.AO.StartRange4

Float

R/W

Setup.In/Outputs.AO.EndRange4

Float

R/W

Setup.In/Outputs.AO.AdjustStart4

Float

R/W

fine adjustment for start range of output4

Setup.In/Outputs.AO.AdjustEnd4

Float

R/W

fine adjustment for end range of output4

Setup.In/Outputs.AO.StartRange5

Float

R/W

Setup.In/Outputs.AO.EndRange5

Float

R/W

Setup.In/Outputs.AO.AdjustStart5

Float

R/W

fine adjustment for start range of output5

Setup.In/Outputs.AO.AdjustEnd5

Float

R/W

fine adjustment for end range of output5

Float

RO

temperature for zero compensation of comp1

Float

RO

temperature for zero compensation of comp2

Float

RO

temperature for zero compensation of comp3

Float

RO

temperature for zero compensation of comp4

Float

RO

temperature for zero compensation of comp5

Float

RO

temperature for span compensation of comp1

Float

RO

temperature for span compensation of comp2

Float

RO

temperature for span compensation of comp3

Float

RO

temperature for span compensation of comp4

Float

RO

temperature for span compensation of comp5

Emerson Process Management GmbH & Co. OHG

level where analoge output scaling starts on
output3
level where analoge output scaling ends on
output3

level where analoge output scaling starts on
output4
level where analoge output scaling ends on
output4

level where analoge output scaling starts on
output5
level where analoge output scaling ends on
output5

Modbus Commands

Service.Measurement.Compensation.ToffTemperature1
Service.Measurement.Compensation.ToffTemperature2
Service.Measurement.Compensation.ToffTemperature3
Service.Measurement.Compensation.ToffTemperature4
Service.Measurement.Compensation.ToffTemperature5
Service.Measurement.Compensation.TfactTemperature1
Service.Measurement.Compensation.TfactTemperature2
Service.Measurement.Compensation.TfactTemperature3
Service.Measurement.Compensation.TfactTemperature4
Service.Measurement.Compensation.TfactTemperature5

Description

9

Address
Daniel Modicon
6373…
9187
6374
6375…
9188
6376
6377…
9189
6378
6379…
9190
6380
6381…
9191
6382
6383…
9192
6384
6385…
9193
6386
6387…
9194
6388
6389…
9195
6390
6391…
9196
6392
6393…
9197
6394
6395…
9198
6396
6397…
9199
6398
6399…
9200
6400
6521…
9261
6522
6523…
9262
6524
6525…
9263
6526
6527…
9264
6528
6529…
9265
6530
6531…
9266
6532
6533…
9267
6534
6535…
9268
6536
6537…
9269
6538
6539…
9270
6540

9-49

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9.4 List of Parameters and Registers - Sorted by Daniel Registers

Address
Daniel Modicon
6971…
9486
6972
6973…
9487
6974
6975…
9488
6976
6977…
9489
6978
6979…
9490
6980
7181…
9591
7182
7183…
9592
7184
7185…
9593
7186
7381…
9691
7382
7383…
9692
7384
7385…
9693
7386
7581…
9791
7582
7583…
9792
7584
7585…
9793
7586
7781…
9891
7782
7783…
9892
7784
7785…
9893
7786
7981…
9991
7982
7983…
9992
7984
7985…
9993
7986
3012… 3012…
3015
3015
3017… 3017…
3020
3020
3022… 3022…
3025
3025
3027… 3027…
3030
3030

9-50

Tag Name
Service.Measurement.Simulation.
SimPVARawValue1
Service.Measurement.Simulation.
SimPVARawValue2
Service.Measurement.Simulation.
SimPVARawValue3
Service.Measurement.Simulation.
SimPVARawValue4
Service.Measurement.Simulation.
SimPVARawValue5
Service.Measurement.Lin.MinValue1
Service.Measurement.Lin.MaxValue1
Service.Measurement.Lin.CutOff1
Service.Measurement.Lin.MinValue2
Service.Measurement.Lin.MaxValue2
Service.Measurement.Lin.CutOff2
Service.Measurement.Lin.MinValue3
Service.Measurement.Lin.MaxValue3
Service.Measurement.Lin.CutOff3
Service.Measurement.Lin.MinValue4
Service.Measurement.Lin.MaxValue4
Service.Measurement.Lin.CutOff4
Service.Measurement.Lin.MinValue5
Service.Measurement.Lin.MaxValue5
Service.Measurement.Lin.CutOff5
Setup.Display.Component.PV_UnitString1
Setup.Display.Component.PV_UnitString2
Setup.Display.Component.PV_UnitString3
Setup.Display.Component.PV_UnitString4

Data
Type

Client
Access

Float

R/W

simulation value for rawPVA of comp1

Float

R/W

simulation value for rawPVA of comp2

Float

R/W

simulation value for rawPVA of comp3

Float

R/W

simulation value for rawPVA of comp4

Float

R/W

simulation value for rawPVA of comp5

Float

RO

Linearizer Minimum Value of comp1

Float

RO

Linearizer Maximum Value of comp1

Float

R/W

Linearizer Cut-off value of comp1

Float

RO

Linearizer Minimum Value of comp2

Float

RO

Linearizer Maximum Value of comp2

Float

R/W

Linearizer Cut-off value of comp1

Float

RO

Linearizer Minimum Value of comp3

Float

RO

Linearizer Maximum Value of comp3

Float

R/W

Linearizer Cut-off value of comp1

Float

RO

Linearizer Minimum Value of comp4

Float

RO

Linearizer Maximum Value of comp4

Float

R/W

Linearizer Cut-off value of comp1

Float

RO

Linearizer Minimum Value of comp5

Float

RO

Linearizer Maximum Value of comp5

Float

R/W

Linearizer Cut-off value of comp1

String

R/W

unit displayed for comp1

String

R/W

unit displayed for comp2

String

R/W

unit displayed for comp3

String

R/W

unit displayed for comp4

Description

Emerson Process Management GmbH & Co. OHG

Instruction Manual

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9.4 List of Parameters and Registers - Sorted by Daniel Registers

Tag Name

Data
Type

Setup.Display.Component.PV_UnitString
String5

Client
Access

Description

R/W

unit displayed for comp5

String

R/W

displayed tag for component1

Setup.Display.Component.Tag2

String

R/W

displayed tag for component2

Setup.Display.Component.Tag3

String

R/W

displayed tag for component3

Setup.Display.Component.Tag4

String

R/W

displayed tag for component4

Setup.Display.Component.Tag5

String

R/W

displayed tag for component5

String

R/W

gas name of component1

String

R/W

gas name of component2

String

R/W

gas name of component3

String

R/W

gas name of component4

String

R/W

gas name of component5

String

R/W

displayed label of measure display 1, Line 1

String

R/W

displayed label of measure display 1, Line 2

String

R/W

displayed label of measure display 1, Line 3

String

R/W

displayed label of measure display 1, Line 4

String

R/W

displayed label of measure display 1, Line 5

String

R/W

displayed label of measure display 2, Line 1

String

R/W

displayed label of measure display 2, Line 2

String

R/W

displayed label of measure display 2, Line 3

String

R/W

displayed label of measure display 2, Line 4

String

R/W

displayed label of measure display 2, Line 5

String

RO

serial number of the device

String

RO

Infos stored for manufacturing purposes

Word

R/W

enable simulation for XSP‘s multiplexer value1..8

Setup.Display.Component.Gasname1
Setup.Display.Component.Gasname2
Setup.Display.Component.Gasname3
Setup.Display.Component.Gasname4
Setup.Display.Component.Gasname5
Setup.Display.MeasDisplay.Dis1Label1
Setup.Display.MeasDisplay.Dis1Label2
Setup.Display.MeasDisplay.Dis1Label3
Setup.Display.MeasDisplay.Dis1Label4
Setup.Display.MeasDisplay.Dis1Label5
Setup.Display.MeasDisplay.Dis2Label1
Setup.Display.MeasDisplay.Dis2Label2
Setup.Display.MeasDisplay.Dis2Label3
Setup.Display.MeasDisplay.Dis2Label4
Setup.Display.MeasDisplay.Dis2Label5
Info.SerialNumber
Service.General.Identification.
ManufacturingInfo
Service.Measurement.Simulation.
SimXSPMuxEnable1

Emerson Process Management GmbH & Co. OHG

Modbus Commands

Setup.Display.Component.Tag1

9

Address
Daniel Modicon
3032… 3032…
3035
3035
3041… 3041…
3045
3045
3046… 3046…
3050
3050
3051… 3051…
3055
3055
3056… 3056…
3060
3060
3061… 3061…
3065
3065
3071… 3071…
3074
3074
3075… 3075…
3078
3078
3079… 3079…
3082
3082
3083… 3083…
3086
3086
3087… 3087…
3090
3090
3101… 3101…
3104
3104
3105… 3105…
3108
3108
3109… 3109…
3112
3112
3113… 3113…
3116
3116
3117… 3117…
3120
3120
3121… 3121…
3124
3124
3125… 3125…
3128
3128
3129… 3129…
3132
3132
3133… 3133…
3136
3136
3137… 3137…
3140
3140
3141… 3141…
3147
3147
3251… 3251…
3266
3266
3461… 3461…
3468
3468

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9.4 List of Parameters and Registers - Sorted by Daniel Registers

Address
Daniel Modicon
3481… 3481…
3484
3484
3485… 3485…
3488
3488
3489… 3489…
3492
3492
3493… 3493…
3496
3496
3497… 3497…
3500
3500
3531… 3531…
3534
3534
3535… 3535…
3538
3538
3539… 3539…
3542
3542
3543… 3543…
3546
3546
3547… 3547…
3550
3550
4011… 4011…
4016
4016
4017… 4017…
4022
4022
4051… 4051…
4054
4054
4055… 4055…
4058
4058
4059… 4059…
4062
4062
4063… 4063…
4066
4066
4067… 4067…
4070
4070
8091… 5181…
8094
5188
8096… 5191…
8099
5198
8101… 5201…
8104
5208
8106… 5211…
8109
5218
8111… 5221…
8114
5228
8116… 5231…
8119
5238
8121… 5241…
8124
5248

9-52

Tag Name

Data
Type

Client
Access

Setup.Measurement.XIntf.Sources1

Word

R/W

Setup.Measurement.XIntf.Sources2

Word

R/W

Setup.Measurement.XIntf.Sources3

Word

R/W

Setup.Measurement.XIntf.Sources4

Word

R/W

Setup.Measurement.XIntf.Sources5

Word

R/W

Word

R/W

Word

R/W

Word

R/W

Word

R/W

Word

R/W

String

RO

software release version

String

RO

software release date

Word

RO

Cross interfere signal value states1..4 for comp1

Word

RO

Cross interfere signal value states1..4 for comp2

Word

RO

Cross interfere signal value states1..4 for comp3

Word

RO

Cross interfere signal value states1..4 for comp4

Word

RO

Cross interfere signal value states1..4 for comp5

DWord

RO

device (N0) state bitfield (b0:......)

DWord

RO

component1‘s state bitfield (b0:......)

DWord

RO

component2‘s state bitfield (b0:......)

DWord

RO

component3‘s state bitfield (b0:......)

DWord

RO

component4‘s state bitfield (b0:......)

DWord

RO

component5‘s state bitfield (b0:......)

DWord

R/W

Inhibit for device (N0) state bitfield (b0:......)

Service.Measurement.Lin.RangePolySet1
Service.Measurement.Lin.RangePolySet2
Service.Measurement.Lin.RangePolySet3
Service.Measurement.Lin.RangePolySet4
Service.Measurement.Lin.RangePolySet5
Info.ProgramVersion
Service.General.Identification.
ProgramVersionDate
Setup.Measurement.XIntf.SignalStates1
Setup.Measurement.XIntf.SignalStates2
Setup.Measurement.XIntf.SignalStates3
Setup.Measurement.XIntf.SignalStates4
Setup.Measurement.XIntf.SignalStates5
Status.DeviceStates.DeviceState
Status.DeviceStates.ChannelState1
Status.DeviceStates.ChannelState2
Status.DeviceStates.ChannelState3
Status.DeviceStates.ChannelState4
Status.DeviceStates.ChannelState5
Service.Status.DeviceStates.DvcStateInhibit

Description
Interf. sources 1..4 comp1 (0=None, 1=Conc1,
2=Conc2, 6=AIN1 etc.)
Interf. sources 1..4 comp2 (0=None, 1=Conc1,
2=Conc2, 6=AIN1 etc.)
Interf. sources 1..4 comp3 (0=None, 1=Conc1,
2=Conc2, 6=AIN1 etc.)
Interf. sources 1..4 comp4 (0=None, 1=Conc1,
2=Conc2, 6=AIN1 etc.)
Interf. sources 1..4 comp5 (0=None, 1=Conc1,
2=Conc2, 6=AIN1 etc.)
polyn, set of range1..4 comp1 (0=Poly1, 1=Poly2,
2=Poly3, 3=Poly4)
polyn, set of range1..4 comp2 (0=Poly1, 1=Poly2,
2=Poly3, 3=Poly4)
polyn, set of range1..4 comp3 (0=Poly1, 1=Poly2,
2=Poly3, 3=Poly4)
polyn, set of range1..4 comp4 (0=Poly1, 1=Poly2,
2=Poly3, 3=Poly4)
polyn, set of range1..4 comp5 (0=Poly1, 1=Poly2,
2=Poly3, 3=Poly4),

Emerson Process Management GmbH & Co. OHG

Instruction Manual

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Tag Name
Service.Status.DeviceStates.ChStateInhibit1
Service.Status.DeviceStates.ChStateInhibit2
Service.Status.DeviceStates.ChStateInhibit3
Service.Status.DeviceStates.ChStateInhibit4
Service.Status.DeviceStates.ChStateInhibit5
Service.Status.DeviceStates.DvcStateForce
Service.Status.DeviceStates.ChStateForce1
Service.Status.DeviceStates.ChStateForce2
Service.Status.DeviceStates.ChStateForce3
Service.Status.DeviceStates.ChStateForce4
Service.Status.DeviceStates.ChStateForce5
Service.Measurement.Simulation.
XSPMuxValue1
Service.Measurement.Compensation.ToffCoeffs1
Service.Measurement.Compensation.ToffCoeffs2
Service.Measurement.Compensation.ToffCoeffs3
Service.Measurement.Compensation.ToffCoeffs4
Service.Measurement.Compensation.ToffCoeffs5
Service.Measurement.Compensation.TfactCoeffs1
Service.Measurement.Compensation.TfactCoeffs2
Service.Measurement.Compensation.TfactCoeffs3
Service.Measurement.Compensation.TfactCoeffs4
Service.Measurement.Compensation.TfactCoeffs5
Service.Measurement.Compensation.TfactConcCoeffs1
Service.Measurement.Compensation.TfactConcCoeffs2

Emerson Process Management GmbH & Co. OHG

Data
Type

Client
Access

DWord

R/W

Inhibit for comp1‘s state bitfield (b0:......)

DWord

R/W

Inhibit for comp2‘s state bitfield (b0:......)

DWord

R/W

Inhibit for comp3‘s state bitfield (b0:......)

DWord

R/W

Inhibit for comp4‘s state bitfield (b0:......)

DWord

R/W

Inhibit for comp5‘s state bitfield (b0:......)

DWord

R/W

Forcing for device (N0) state bitfield (b0:......)

DWord

R/W

Forcing for comp1‘s state bitfield (b0:......)

DWord

R/W

Forcing for comp2‘s state bitfield (b0:......)

DWord

R/W

Forcing for comp3‘s state bitfield (b0:......)

DWord

R/W

Forcing for comp4‘s state bitfield (b0:......)

DWord

R/W

Forcing for comp5‘s state bitfield (b0:......)

Float

RO

values for XSP‘s multiplexer value1..8

Float

R/W

polynom coeffs for temperature offset of comp1

Float

R/W

polynom coeffs for temperature offset of comp2

Float

R/W

polynom coeffs for temperature offset of comp3

Float

R/W

polynom coeffs for temperature offset of comp4

Float

R/W

polynom coeffs for temperature offset of comp5

Float

R/W

polynom coeffs for temperature factor of comp1

Modbus Commands

Address
Daniel Modicon
8126… 5251…
8129
5258
8131… 5261…
8134
5268
8136… 5271…
8139
5278
8141… 5281…
8144
5288
8146… 5291…
8149
5298
8151… 5301…
8154
5308
8156… 5311…
8159
5318
8161… 5321…
8164
5328
8166… 5331…
8169
5338
8171… 5341…
8174
5348
8176… 5351…
8179
5358
9171… 6341…
9178
6356
9201… 6401…
9204
6408
9205… 6409…
9208
6416
9209… 6417…
9212
6424
9213… 6425…
9216
6432
9217… 6433…
9220
6440
9221… 6441…
9224
6448
9225… 6449…
9228
6456
9229… 6457…
9232
6464
9233… 6465…
9236
6472
9237… 6473…
9240
6480
9241… 6481…
9244
6488
9245… 6489…
9248
6496

Float

R/W

polynom coeffs for temperature factor of comp2

9

9.4 List of Parameters and Registers - Sorted by Daniel Registers

Float

R/W

polynom coeffs for temperature factor of comp3

Float

R/W

polynom coeffs for temperature factor of comp4

Float

R/W

polynom coeffs for temperature factor of comp5

Float

R/W

Float

R/W

Description

polynom coeffs for conc correction of temp factor
comp1
polynom coeffs for conc correction of temp factor
comp2

9-53

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9.4 List of Parameters and Registers - Sorted by Daniel Registers

Address
Daniel Modicon
9249… 6497…
9252
6504
9253… 6505…
9256
6512
9257… 6513…
9260
6520
9271… 6541…
9274
6548
9275… 6549…
9278
6556
9279… 6557…
9282
6564
9283… 6565…
9286
6572
9287… 6573…
9290
6580
9301… 6601…
9304
6608
9305… 6609…
9308
6616
9309… 6617…
9312
6624
9313… 6625…
9316
6632
9331… 6661…
9334
6668
9335… 6669…
9338
6676
9339… 6677…
9342
6684
9343… 6685…
9346
6692
9361… 6721…
9364
6728
9365… 6729…
9368
6736
9369… 6737…
9372
6744
9373… 6745…
9376
6752
9391… 6781…
9394
6788
9395… 6789…
9398
6796
9399… 6797…
9402
6804
9403… 6805…
9406
6812

9-54

Tag Name
Service.Measurement.Compensation.TfactConcCoeffs3
Service.Measurement.Compensation.TfactConcCoeffs4
Service.Measurement.Compensation.TfactConcCoeffs5
Service.Measurement.Compensation.PfactCoeffs1
Service.Measurement.Compensation.PfactCoeffs2
Service.Measurement.Compensation.PfactCoeffs3
Service.Measurement.Compensation.PfactCoeffs4
Service.Measurement.Compensation.PfactCoeffs5
Setup.Measurement.XIntf.SignalValues1
Setup.Measurement.XIntf.InterfereFactors1
Setup.Measurement.XIntf.LinearReferences1
Setup.Measurement.XIntf.LinearPolyCoeffs1
Setup.Measurement.XIntf.SignalValues2
Setup.Measurement.XIntf.InterfereFactors2
Setup.Measurement.XIntf.LinearReferences2
Setup.Measurement.XIntf.LinearPolyCoeffs2
Setup.Measurement.XIntf.SignalValues3
Setup.Measurement.XIntf.InterfereFactors3
Setup.Measurement.XIntf.LinearReferences3
Setup.Measurement.XIntf.LinearPolyCoeffs3
Setup.Measurement.XIntf.SignalValues4
Setup.Measurement.XIntf.InterfereFactors4
Setup.Measurement.XIntf.LinearReferences4
Setup.Measurement.XIntf.LinearPolyCoeffs4

Data
Type

Client
Access

Float

R/W

Float

R/W

Float

R/W

Float

R/W

polynom coeffs for pressure factor of comp1

Float

R/W

polynom coeffs for pressure factor of comp2

Float

R/W

polynom coeffs for pressure factor of comp3

Float

R/W

polynom coeffs for pressure factor of comp4

Float

R/W

polynom coeffs for pressure factor of comp5

Float

RO

Cross interfere signal values1..4 for comp1

Float

R/W

Cross interfere factors1..4 for comp1

Float

R/W

Float

R/W

Float

RO

Cross interfere signal values1..4 for comp2

Float

R/W

Cross interfere factors1..4 for comp2

Float

R/W

Float

R/W

Float

RO

Cross interfere signal values1..4 for comp3

Float

R/W

Cross interfere factors1..4 for comp3

Float

R/W

Float

R/W

Float

RO

Cross interfere signal values1..4 for comp4

Float

R/W

Cross interfere factors1..4 for comp4

Float

R/W

Float

R/W

Description
polynom coeffs for conc correction of temp factor
comp3
polynom coeffs for conc correction of temp factor
comp4
polynom coeffs for conc correction of temp factor
comp5

Cross interfere linearization references1..4 for
comp1
Cross interfere linearization references1..4 for
comp1

Cross interfere linearization references1..4 for
comp2
Cross interfere linearization references1..4 for
comp2

Cross interfere linearization references1..4 for
comp3
Cross interfere linearization references1..4 for
comp3

Cross interfere linearization references1..4 for
comp4
Cross interfere linearization references1..4 for
comp4

Emerson Process Management GmbH & Co. OHG

Instruction Manual

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9.4 List of Parameters and Registers - Sorted by Daniel Registers

Setup.Measurement.XIntf.SignalValues5
Setup.Measurement.XIntf.InterfereFactors5
Setup.Measurement.XIntf.LinearReferences5
Setup.Measurement.XIntf.LinearPolyCoeffs5
Service.Measurement.Simulation.
SimXSPMuxValue1
Service.Measurement.Lin.TableXValues1
Service.Measurement.Lin.TableYValues1
Service.Measurement.Lin.Set1Coeffs1
Service.Measurement.Lin.Set2Coeffs1
Service.Measurement.Lin.Set3Coeffs1
Service.Measurement.Lin.Set4Coeffs1
Service.Measurement.Lin.OverflowPerc1
Service.Measurement.Lin.UnderflowPerc1
Service.Measurement.Lin.TableXValues2
Service.Measurement.Lin.TableYValues2
Service.Measurement.Lin.Set1Coeffs2
Service.Measurement.Lin.Set2Coeffs2
Service.Measurement.Lin.Set3Coeffs2
Service.Measurement.Lin.Set4Coeffs2
Service.Measurement.Lin.OverflowPerc2
Service.Measurement.Lin.UnderflowPerc2
Service.Measurement.Lin.TableXValues3
Service.Measurement.Lin.TableYValues3
Service.Measurement.Lin.Set1Coeffs3

Emerson Process Management GmbH & Co. OHG

Data
Type

Client
Access

Float

RO

Cross interfere signal values1..4 for comp5

Float

R/W

Cross interfere factors1..4 for comp5

Float

R/W

Float

R/W

Float

R/W

simulation value for XSP‘s multiplexer value1..8

Float

R/W

Linearization table X-Values of comp1

Float

R/W

Linearization table Y-Values of comp1

Float

R/W

Lin-Polynom. Set1-Coeffs (A0..4) for comp1

Float

R/W

Lin-Polynom. Set2-Coeffs (A0..4) for comp1

Float

R/W

Lin-Polynom. Set3-Coeffs (A0..4) for comp1

Float

R/W

Lin-Polynom. Set4-Coeffs (A0..4) for comp1

Float

R/W

Lin-Overflow [%] for Range1..4 of comp1

Float

R/W

Lin-Underflow [%] for Range1..4 of comp1

Float

R/W

Linearization table X-Values of comp2

Float

R/W

Linearization table Y-Values of comp2

Float

R/W

Lin-Polynom. Set1-Coeffs (A0..4) for comp2

Float

R/W

Lin-Polynom. Set2-Coeffs (A0..4) for comp2

Float

R/W

Lin-Polynom. Set3-Coeffs (A0..4) for comp2

Float

R/W

Lin-Polynom. Set4-Coeffs (A0..4) for comp2

Float

R/W

Lin-Overflow [%] for Range1..4 of comp2

Float

R/W

Lin-Underflow [%] for Range1..4 of comp2

Float

R/W

Linearization table X-Values of comp3

Float

R/W

Linearization table Y-Values of comp3

Float

R/W

Lin-Polynom. Set1-Coeffs (A0..4) for comp3

Description

Cross interfere linearization references1..4 for
comp5
Cross interfere linearization references1..4 for
comp5

Modbus Commands

Tag Name

9

Address
Daniel Modicon
9421… 6841…
9424
6848
9425… 6849…
9428
6856
9429… 6857…
9432
6864
9433… 6865…
9436
6872
9491… 6981…
9498
6996
9501… 7001…
9503
7006
9531… 7061…
9533
7066
9561… 7121…
9565
7130
9566… 7131…
9570
7140
9571… 7141…
9575
7150
9576… 7151…
9580
7160
9581… 7161…
9584
7168
9585… 7169…
9588
7176
9601… 7201…
9603
7206
9631… 7261…
9633
7266
9661… 7321…
9665
7330
9666… 7331…
9670
7340
9671… 7341…
9675
7350
9676… 7351…
9680
7360
9681… 7361…
9684
7368
9685… 7369…
9688
7376
9701… 7401…
9703
7406
9731… 7461…
9733
7466
9761… 7521…
9765
7530

9-55

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9.4 List of Parameters and Registers - Sorted by Daniel Registers

Address
Daniel Modicon
9766… 7531…
9770
7540
9771… 7541…
9775
7550
9776… 7551…
9780
7560
9781… 7561…
9784
7568
9785… 7569…
9788
7576
9801… 7601…
9803
7606
9831… 7661…
9833
7666
9861… 7721…
9865
7730
9866… 7731…
9870
7740
9871… 7741…
9875
7750
9876… 7751…
9880
7760
9881… 7761…
9884
7768
9885… 7769…
9888
7776
9901… 7801…
9903
7806
9931… 7861…
9933
7866

9-56

Tag Name
Service.Measurement.Lin.Set2Coeffs3
Service.Measurement.Lin.Set3Coeffs3
Service.Measurement.Lin.Set4Coeffs3
Service.Measurement.Lin.OverflowPerc3
Service.Measurement.Lin.UnderflowPerc3
Service.Measurement.Lin.TableXValues4
Service.Measurement.Lin.TableYValues4
Service.Measurement.Lin.Set1Coeffs4
Service.Measurement.Lin.Set2Coeffs4
Service.Measurement.Lin.Set3Coeffs4
Service.Measurement.Lin.Set4Coeffs4
Service.Measurement.Lin.OverflowPerc4
Service.Measurement.Lin.UnderflowPerc4
Service.Measurement.Lin.TableXValues5
Service.Measurement.Lin.TableYValues5

Data
Type

Client
Access

Float

R/W

Lin-Polynom. Set2-Coeffs (A0..4) for comp3

Float

R/W

Lin-Polynom. Set3-Coeffs (A0..4) for comp3

Float

R/W

Lin-Polynom. Set4-Coeffs (A0..4) for comp3

Float

R/W

Lin-Overflow [%] for Range1..4 of comp3

Float

R/W

Lin-Underflow [%] for Range1..4 of comp3

Float

R/W

Linearization table X-Values of comp4

Float

R/W

Linearization table Y-Values of comp4

Float

R/W

Lin-Polynom. Set1-Coeffs (A0..4) for comp4

Float

R/W

Lin-Polynom. Set2-Coeffs (A0..4) for comp4

Float

R/W

Lin-Polynom. Set3-Coeffs (A0..4) for comp4

Float

R/W

Lin-Polynom. Set4-Coeffs (A0..4) for comp4

Float

R/W

Lin-Overflow [%] for Range1..4 of comp4

Float

R/W

Lin-Underflow [%] for Range1..4 of comp4

Float

R/W

Linearization table X-Values of comp5

Float

R/W

Linearization table Y-Values of comp5

Description

Emerson Process Management GmbH & Co. OHG

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Chapter 10
Service Information
10.1	 Return of Material

2.	 In no event will Rosemount be responsible for equipment without proper authorization and identification.
3.	 Carefully pack defective unit in a sturdy
box with sufficient shock absorbing material to ensure no additional damage will
occur during shipping.
The completed and signed
Declaration of Decontamination
(
page A-35) must be included with the instrument (we
recommend to attach it to the
packaging outside)!
4.	 In a cover letter, describe completely:
a.	The symptoms that determined the equipment is faulty.
b.	The environment in which the equipment
was operating (housing, weather, vibration, dust, etc.).
c.	 Site from which equipment was removed.
d.	Whether warranty service or non-warranty service is requested.
e.	Complete shipping instructions for the
return of the equipment.

Emerson Process Management GmbH & Co. OHG

In Europe:
Emerson Process Management
GmbH & Co. OHG
Service Department
Deutschland
+49 6055 884-470/-472
In US:
Emerson Process Management
Rosemount Analytical Inc.
Customer Service Center
1-800-433-6076
1-440-914-1261
In Asia Pacific:
Emerson Process Management
Asia Pacific Pte Limited
Singapore
+65-6-777-8211
If warranty service is expected, the defective
unit will be carefully inspected and tested at
the factory. If failure was due to conditions
listed in the standard Rosemount warranty,
the defective unit will be repaired or replaced
at Rosemount’s option, and an operating unit
will be returned to the customer in accordance
with shipping instructions furnished in the
cover letter.
For equipment no longer under warranty, the
equipment will be repaired at the factory and
returned as directed by the purchase order
and shipping instructions.

10-1

Service information

1. 	 Secure a return authorization from a
Rosemount Analytical Sales Office or
Representative before returning the
equipment. Equipment must be returned
with complete identification in accordance
with Rosemount instructions or it will not
be accepted.

5.	 Enclose a cover letter and purchase
order and ship the defective equipment
according to instructions provided in a
Rosemount Return Authorization, prepaid, to:

10

If factory repair of defective equipment is
required, proceed as follows:

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10

Service Information

10.2	 Customer Service

10.3	 Training

For order administration, replacement
parts, applicaton assistance, on-site or
factory repair, service or maintenance
contract information, contact:
In Europe:
Emerson Process Management
GmbH & Co. OHG
Service Department
Germany
T +49 6055 884-470/-472

A comprehensive Factory Training Program
of operator and service classes is available.
For a copy of the training schedule contact:
In Europe:
Emerson Process Management
GmbH & Co. OHG
Service Department
Germany
T +49 6055 884-470/-472
In US:

In US:
Emerson Process Management
Rosemount Analytical Inc.
Customer Service Center
T 1-800-433-6076
T 1-440-914-1261
In Asia Pacific:
Emerson Process Management
Asia Pacific Pte Limited
1 Pandan Crescent
Singapore 128461
T +65-6-777-8211

10-2

Emerson Process Management
Rosemount Analytical Inc.
Customer Service Center
T 1-800-433-6076
T 1-440-914-1261
In Asia Pacific:
Emerson Process Management
Asia Pacific Pte Limited
1 Pandan Crescent
Singapore 128461
T +65-6-777-8211

Emerson Process Management GmbH & Co. OHG

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Chapter 11
Dismounting and Disposal
11.1	 Dismounting and Diposal of the Analyzer

HAZARDS FROM DISMOUNTING
Dismounting instruments installed in hazardous area requires special
documents to be issued and instructions to be followed! Do not dismount
such instruments without written permit!
Failure to follow may result in explosion!
Gas lines may contain unhealthy or toxic gases, depending on the application,
the instrument has been used for! Take care to purge such gas lines prior
to disconnection, to remove all unhealthy or toxic components.
Failure to follow may result in personal injury or death!

ELECTRICAL SHOCK HAZARD WHEN DISMOUNTING
Only qualified personnel, observing all applicable technical and legal
requirements, may disconnect power and signal cables, and dismount
these devices.

HEAVY INSTRUMENT
The models intended for outside and wall mounted use (X-STREAM XEF,
XDF and XEFD) weigh between 26 kg (57 lb) and 63 kg (139 lb), depending
on version and options installed.
Two people and/or lifting equipment is required to lift and carry these
units.

Emerson Process Management GmbH & Co. OHG

11-1

11

Units with screw-type terminals must be de-energized by unplugging it or
operating the separate cut-off switch or circuit breaker, when working on
the power connections.

Dismounting & Disposal

Failure to follow may cause exposure to risk of damage, injury or death.

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11 Dismounting & Disposal
When the instrument has reached the end of its useful life, do not throw it in a
trash can!
This instrument has been made of materials to be recycled by recyclers specialised in this field. Let the instrument and the packing material duly and environmently friendly be disposed of. Ensure the equipment is free of dangerous
and harmful substances (decontaminated).
Take care of all local regulations for waste treatment.
Advice concerning the disposal of batteries
•	 This instrument contains a CR primary lithium button cell battery of size CR 2032.
•	 The battery is soldered to an electronics board and usually does not need to be replaced
during the instrument´s lifetime.
•	 At the end of lifetime, the instrument must be disposed in compliance with the wast regulations, see instructions below.

When the instrument has reached the end
of its useful life,
•	 purge all gas lines with inert gas
•	 ensure all gas lines are pressureless
•	 disconnect all gas lines
•	 switch off power and signal lines
•	 disconnect and remove all electrical connections
•	 for wall mounted instruments, support
the instrument before loosening the fixing
screws.
•	 properly fill out the Declaration of Decontamination (
A-35 )

11-2

•	 hand over the dismounted instrument together with the Declaration of Decontamination to a disposal specialist. The disposal specialist then has to disassemble the
instrument, and recycle and dispose it and
the contained battery in compliance with
all applicable waste treatment regulations.

Emerson Process Management GmbH & Co. OHG

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Appendix

This chapter contains
an excerpt from the Modbus publication
"Modbus_over_serial_line“				

	 page A-2

	

EC declaration of conformity			

	 page A-12

	

CSA Certificate of Compliance			

	 page A-14

	

Block diagram				

	

	 page A-21

	
	

Water Vapor: Conversion of
Dewpoint, Vol.-% and g/Nm³			

	 page A-34

	

Declaration of Decontamination			

	 page A-35

	

PLC Quick Reference				

	 page A-36

	

Assignment of Terminals and Sockets 		

	 page A-43

A

Appendix

	
	

Emerson Process Management GmbH & Co. OHG

A-1

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A.1

Modbus Specification

A.1	 Modbus Specification

A-2

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Modbus Specification

A

Appendix

A.1

Emerson Process Management GmbH & Co. OHG

A-3

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A.1

A-4

Modbus Specification

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Modbus Specification

A

Appendix

A.1

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A-5

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A.1

A-6

Modbus Specification

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Modbus Specification

A

Appendix

A.1

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A-7

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A.1

A-8

Modbus Specification

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Modbus Specification

A

Appendix

A.1

Emerson Process Management GmbH & Co. OHG

A-9

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A.1

A-10

Modbus Specification

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Modbus Specification

A

Appendix

A.1

Emerson Process Management GmbH & Co. OHG

A-11

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A.2 EC Declaration of Conformity
A.2	 EC Declaration of Conformity

A-12

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A

Appendix

A.2 EC Declaration of Conformity

Emerson Process Management GmbH & Co. OHG

A-13

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A.3 CSA Certificate of Compliance
A.3	 CSA Certificate of Compliance

Certificate of Compliance
Certificate:

1714037	(LR	105173)

Master Contract:

185562

Project:

2247530

Date Issued:

2010/01/21

Issued to:

Emerson Process Management
GmbH & Co. OHG
Industriestrasse 1
Hasselroth, 63594
Germany
Attention: Uwe Schmidt

The products listed below are eligible to bear the CSA
Mark shown with adjacent indicators 'C' and 'US' for
Canada and US or with adjacent indicator 'US' for
US only or without either indicator for Canada only.
Rob Kohuch, P. Eng.
Issued by: Rob	Kohuch,	P.	Eng.
PRODUCTS
CLASS 2258 02
CLASS 2258 82
CLASS 8721 05
CLASS 8721 85

-	PROCESS	CONTROL	EQUIPMENT	-	For	Hazardous	Locations
-	PROCESS	CONTROL	EQUIPMENT	-	For	Hazardous	Locations	Certified	to	US	Standards
-	LABORATORY	EQUIPMENT	-	Electrical
-	ELECTRICAL	EQUIPMENT	FOR	LABORATORY	USE	-	Certified	to
US	Standards

CLASS 8721 05 - LABORATORY ELECTRICAL EQUIPMENT
CLASS 8721 85 - ELECTRICAL EQUIPMENT FOR LABORATORY USE (Certified to U.S. Standards)
Gas	analyzer,	Model:	X-STREAM,	rated	100-240Vac,	50/60	Hz,	3	-	1.5A,	Class	I,	Pollution	Degree	II.
• X-STREAM F (XF) or X-STREAM (X2F, XLF) or X-STREAM Enhanced Field Housing Gas
Analyzer (XEF):	Wall	mounting	with	field	wiring	terminals,	for	outdoor	use	NEMA	4X	and	display;
• X-STREAM GP (XGP):	Table	Top	or	Rack	Mount	with	field	wiring	terminals	for	indoor	use;
• X-STREAM GPS (XGPS): Table	Top	or	Rack	Mount	with	appliance	inlet	for	indoor	use	with	or	without
display;
• X-STREAM (X2GP) or X-STREAM Enhanced (XEGP) General Purpose Gas Analyzer: Table	Top	or
Rack	Mount	with	appliance	inlet	for	indoor	use	and	display	(optional	with	field	wiring	terminals	for	indoor
use);

DQD	507	Rev.	2009-09-01

A-14

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A.3 CSA Certificate of Compliance

Certificate:

1714037	(LR	105173)

Master Contract:

185562

Project:

2247530

Date Issued:

2010/01/21

• X-STREAM Gas Analyzer Core (X2CA)	Table	Top	or	Rack	Mount	with	appliance	inlet	for	indoor	use	and
no	display	(optional	with	field	wiring	terminals	for	indoor	use);
Gas	analyzer,	Model:	X-STREAM,	rated	100-240Vac,	50/60	Hz,	5.5	-	3A,	Class	I,	Pollution	Degree	II.
• X-STREAM (XXF) or X-STREAM Enhanced Field Housing Gas Analyzer (XDF):	Wall	mounting	with
field	wiring	terminals,	for	outdoor	use	NEMA	4X	and	display;
Gas	analyzer,	Model:	X-STREAM,	rated	24Vdc,	2.5A,	Class	I,	Pollution	Degree	II.
• X-STREAM (X2GC)or X-STREAM Enhanced (XEGC)General Purpose Compact Gas Analyzer Table
Top	or	Rack	Mount	with	24Vdc	in	connector	and	display;
• X-STREAM Compact Gas Analyzer Core (X2CC): Table	Top	or	Rack	Mount	with	24Vdc	in
Conditions of Acceptability
-	For	the	X-STREAM	Models	XGP,	XGPS,	X2GP,	X2CA	and	XEGP	the	equipment	is	supplied	with	an
approved	power	supply	cord	set	or	power	supply	cord	with	plug	that	is	acceptable	to	the	authorities	in	the
country	where	the	equipment	is	to	be	used.	Units	supplied	without	a	power	cord	and	that	are	not	permanently
connected	are	considered	as	component.	Component-type	units	must	be	provided	with	a	Fire,	Mechanical	and
Electrical	enclosure	and	must	be	re-evaluated	by	CSA.
-	The	plug/connector	is	used	as	the	disconnected	device.	The	switch	for	X2GP/X2CA/XEGP	is	not	considered
the	disconnect	device.	All	units	must	be	provided	with	a	disconnect	device.
CLASS 2258-02 PROCESS CONTROL EQUIPMENT – For Hazardous Locations
CLASS 2258-82 PROCESS CONTROL EQUIPMENT – For Hazardous Locations – Certified to U.S.
Standards.
X-Stream FD (XFD):	Flameproof	for	Hazardous	Locations
Class	I,	Zone	1,	Ex	d	IIB+H2,	T3	
Class	I,	Zone	1,	AEx	d	IIB+H2,	T3
Gas	analyzer,	Model:	X-Stream,	rated	100-240Vac,	50/60	Hz,	2–1	A.	Class	I,	Pollution	Degree	II;	Type	4	&
IP66
Ambient	Temperature	Range:	-30°C	to	+50°C	Maximum	internal	case	pressure	=	110kpa

XFD-abcdefghijklmnop
a	=	Language:		A,	B,	C,	D	or	E
b	=	Ambient	Conditions:		1,	2,	3,	4,	5	or	6

Appendix

c	=	Instrument:		1,	2,	3,	4,	5,	6	or	7

A

d	=	Bench	1:		any	combination	of	2	or	3	alpha-numeric	characters

DQD	507	Rev.	2009-09-01

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A.3 CSA Certificate of Compliance

Certificate:

1714037	(LR	105173)

Master Contract:

185562

Project:

2247530

Date Issued:

2010/01/21

e	=	Bench	1	–	Special	Linearization	or	Calibration:		0,	1,	2,	3,	4	or	5
f	=	Bench	2:		any	combination	of	2	or	3	alpha-numeric	characters
g	=	Bench	2	–	Special	Linearization	or	Calibration:		0,	1,	2,	3,	4	or	5
h	=	Enclosure:		1,	2,	3,	4,	5	or	6
i	=	Hazardous	Area	Options	and	Special	Approvals:		B	or	D
												B	=	CSA	Certification
D	=	CSA	Certification	with	a	Breathing	Device	for	Venting	(Same	Device	as	option	“p”)
j	=	Input/Output	Options:		1,	2,	5	or	6
k	=	Communication	Interface:		A,	B,	C	or	D
l	=	Sample	Handling:		0,	1,	3,	5	or	7
m	=	Gas	Path	Sensors:		0,	1,	2,	3,	4	or	5
n	=	Gas	Path	Tubing:		A,	B,	C,	D	or	E
o	=	Gas	Path	Fittings:		3,	4,	5	or	6
p	=	Flame	Arrestors:		2,	3,	4,	5,	6,	7	or	8
	
X-Stream FD (X2FD):	Flameproof	for	Hazardous	Locations
Class	I,	Zone	1,		Ex	d	IIB+H2,	T3	
Class	I,	Zone	1,	AEx	d	IIB+H2,	T3
Gas	analyzer	,	Model:	X-Stream,	rated	100-240Vac,	50/60	Hz,	3	-	1.5A,	Class	I,	Pollution	Degree	II;	Ambient
Temperature	Range:	-30°C	to	+50°C
X-Stream	FD	(X2FD)	has	same	electronics	as	the	X-STREAM	General	Purpose	Gas	Analyzer	(X2GP)	with
new	Hazardous	Locations	Enclosure.
	
X2FD-abcdefghijklmnopqrstuv
a	=	Language:		A,	B,	C,	D,	E	or	F
b	=	Ambient	Conditions:		1,	2,	3,	4,	5	or	6

DQD	507	Rev.	2009-09-01

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A.3 CSA Certificate of Compliance

Certificate:

1714037	(LR	105173)

Master Contract:

185562

Project:

2247530

Date Issued:

2010/01/21

c	=	Instrument:		01,	02,	03,	04,	05,	06,	07,	08,	09,	10,	11,	12,	13,	14	or	15
d	=	Bench	1:		any	combination	of	2	or	3	alpha-numeric	characters
e	=	Bench	1	–	Special	Linearization	or	Calibration:		0,	1,	2,	3,	4,	5,	A,	B,	C	or	D
f	=	Bench	2:		any	combination	of	2	or	3	alpha-numeric	characters
g	=	Bench	2	–	Special	Linearization	or	Calibration:		0,	1,	2,	3,	4,	5,	A,	B,	C	or	D
h	=	Bench	3:	any	combination	of	2	or	3	alpha-numeric	characters
i	=	Bench	3	–	Special	Linearization	or	Calibration:		0,	1,	2,	3,	4,	5,	A,	B,	C	or	D
j	=	Bench	4:	any	combination	of	2	or	3	alpha-numeric	characters
k	=	Bench	4	–	Special	Linearization	or	Calibration:		0,	1,	2,	3,	4,	5,	A,	B,	C	or	D
l	=	Enclosure:		1,	2,	3,	4,	5	or	6
m	=	Hazardous	Area	Options	and	Special	Approvals:		B	or	D
												B	=	CSA	Certification
D	=	CSA	Certification	with	a	Breathing	Device	for	Venting	(Same	Device	as	option	“v”)
n	=	Analog	Outputs:	1,	2,	3	or	4
o	=	Digital	Inputs/Relay	Outputs:		0,	1	or	2
p	=	Communication	Interface:		0,	A,	B,	C	or	D
q	=	Spare:	0
r	=	Sample	Handling:		0,	1,	2,	3,	4,	5	or	6
s	=	Gas	Path	Sensors:		0,	1,	2,	3,	4,	5,	6,	7	or	8
t	=	Gas	Path	Tubing:		A,	B,	C,	D,	E,	F,	G,	H	or	I
u	=	Gas	Path	Fittings:		E,	F,	G,	H,	I,	J,	K	or	L
v	=	Flame	Arrestors:		2,	3,	4,	5,	6,	7	or	8
X-STREAM FD (XEFD):	Flameproof	for	Hazardous	Locations

A

Appendix

Class	I,	Zone	1,	Ex	d	IIB+H2,	T3	

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A.3 CSA Certificate of Compliance

Certificate:

1714037	(LR	105173)

Master Contract:

185562

Project:

2247530

Date Issued:

2010/01/21

Class	I,	Zone	1,	AEx	d	IIB+H2,	T3
Gas	analyzer	,	Model:	X-STREAM,	rated	100-240Vac,	50/60	Hz,	3	-	1.5A,	Class	I,	Pollution	Degree	II;
Ambient	Temperature	Range:	-30°C	to	+50°C
X-STREAM	FD	Enhanced	(XEFD)	has	same	electronics	as	the	X-STREAM	Enhanced	General	Purpose	Gas
Analyzer	(XEF)	with	same	Hazardous	Locations	Enclosure	as	X-STREAM	X2FD.
	
XEFD-abcdefghijklmnopqrstuv
a	=	Language:		A,	B,	C,	D,	E,	F	or	G
b	=	Ambient	Conditions:		1	or	4
c	=	Instrument:		01,	02,	03,	04,	05,	06,	07,	08,	09,	10,	11,	12,	13,	14	or	15
d	=	Bench	1:		any	combination	of	2	or	3	alpha-numeric	characters
e	=	Bench	1	–	Special	Linearization	or	Calibration:		0,	1,	2,	3,	4,	5,	A,	B,	C	or	D
f	=	Bench	2:		any	combination	of	2	or	3	alpha-numeric	characters
g	=	Bench	2	–	Special	Linearization	or	Calibration:		0,	1,	2,	3,	4,	5,	A,	B,	C	or	D
h	=	Bench	3:	any	combination	of	2	or	3	alpha-numeric	characters
i	=	Bench	3	–	Special	Linearization	or	Calibration:		0,	1,	2,	3,	4,	5,	A,	B,	C	or	D
j	=	Bench	4:	any	combination	of	2	or	3	alpha-numeric	characters
k	=	Bench	4	–	Special	Linearization	or	Calibration:		0,	1,	2,	3,	4,	5,	A,	B,	C	or	D
l	=	Enclosure:		1,	2,	3	or	4
m	=	Hazardous	Area	Options	and	Special	Approvals:		B	or	D
												B	=	CSA	Certification
D	=	CSA	Certification	with	a	Breathing	Device	for	Venting	(Same	Device	as	option	“v”)
n	=	Analog	Outputs:	1,	2,	3	or	4
o	=	Digital	Inputs/Relay	Outputs/Analog	Inputs:		0,	1,	2,	5	or	A
p	=	Communication	Interface:		0,	A	or	B
q	=	Advanced	Software	capabilities:	0,	1,	2	or	3

DQD	507	Rev.	2009-09-01

A-18

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A.3 CSA Certificate of Compliance

Certificate:

1714037	(LR	105173)

Master Contract:

185562

Project:

2247530

Date Issued:

2010/01/21

r	=	Sample	Handling:		0,	1,	2,	3,	4,	5	or	6
s	=	Gas	Path	Sensors:		0,	1,	3,	5,	7	or	9
t	=	Gas	Path	Tubing:		E,	F,	G,	H,	I,	J,	K	or	L
u	=	Gas	Path	Fittings:		E,	F,	G,	H,	I,	J,	K	or	L
v	=	Flame	Arrestors:		2,	3,	4,	5,	6,	7	or	8
X-STREAM FN (X2FN, XLFN, XXFN, XEFN, XDFN):	Non-Incendive	for	Hazardous	Locations
Class	1	Zone	2	Ex	nAC	IIC	T4
Class	1	Zone	2	AEx	nAC	IIC	T4
Class	I	Div	2	Groups	ABCD
-20	°C	to	+50	°C	IP66	Enclosure	Type	4X
	
Gas	analyzer,	Model:	X-STREAM,	rated	100-240Vac,	50/60	Hz,	3	-	1.5A,	Class	I,	Pollution	Degree	II.
• X-STREAM Field Housing Gas Analyzer (X2FN):
• X-STREAM (XLFN) or X-STREAM Enhanced (XEFN)Field Housing Gas Analyzer:
Gas	analyzer,	Model:	X-STREAM,	rated	100-240Vac,	50/60	Hz,	5.5	-	3A,	Class	I,	Pollution	Degree	II
X-STREAM (XXFN) or X-STREAM Enhanced Dual (XDFN) Field Housing Gas Analyzer:
APPLICABLE REQUIREMENTS
CAN/CSA-C22.2	No.	61010-1-04																	-					Safety	Requirements	for	Electrical	Equipment	for
Measurement,	Control,	and	Laboratory	Use,	Part	1:	General	Requirements
UL	Std	No.	61010-1,	2nd	Edition.																			-					Safety	Requirements	for	Electrical	Equipment	for
Measurement,	Control,	and	Laboratory	Use,	Part	1:	General	Requirements
CAN/CSA-E60079-0:02	(R2006)																			-					Electric	Apparatus	for	Explosive	Gas	Atmospheres,	Part	0:
General	Requirements
CAN/CSA-E60079-1:02	(R2006)																		-					Electric	Apparatus	for	Explosive	Gas	Atmospheres,	Part	1:
Construction	and	Verification	Test	of	Flameproof	Enclosures	of	Electrical	Apparatus	“d”
CAN/CSA-E60079-15:02	(R2006)																-					Electric	Apparatus	for	Explosive	Gas	Atmospheres,	Part	15:
Type	of	protection	"n"

A

Appendix

CSA	C22.2	No	213-M1987																												-					Non-Incendive	Electrical	Equipment	for	Use	in	Class
I,Division	2	Hazardous	Locations

DQD	507	Rev.	2009-09-01

Emerson Process Management GmbH & Co. OHG

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A.3 CSA Certificate of Compliance

Certificate:

1714037	(LR	105173)

Master Contract:

185562

Project:

2247530

Date Issued:

2010/01/21

CAN/CSA-C22.2	No.	94-M91	(R2001)								-					Special	Purpose	Enclosures
CAN/CSA	C22.2	No.	60529:05																					-					Degrees	of	protection	provided	by	enclosure	(IP	Code)
ANSI/ISA-12.00.01-2002	(IEC	60079-0	Mod)	-	Electric	Apparatus	for	Use	in	Class	I,	Zones	0,	1	&	2
Hazardous	(Classified)	Locations:	General	Requirements
ANSI/ISA-12.22.01-2002	(IEC	60079-1	Mod)	-	Electric	Apparatus	for	Use	in	Class	I,	Zones	1	Hazardous
(Classified)	Locations	Type	of	Protection	–	Flameproof	“d”
UL	60079-15:2009																																								-					Electric	Apparatus	for	Explosive	Gas	Atmospheres,	Part	15:
Construction,	Test	and	Marking	of	Type	of	Protection	’n’	Electrical	Apparatus
IEC	60529	Edition	2.1-2001-02																					-					Degrees	of	protection	provided	by	enclosure	(IP	Code)
UL	50	11th	ed																																																-					Enclosures	for	Electrical	Equipment
ISA	12.12.01-2007																																								-					Nonincendive	Electrical	Equipment	for	Use	in	Class	I	and	II,
Division	2	and	Class	III,	Divisions	1	and	2	Hazardous	(Classified)	Locations

DQD	507	Rev.	2009-09-01

A-20

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A.4 Block Diagram

A

Appendix

X-STREAM Version

A.4	 Block Diagram

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A

Appendix

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A

Appendix

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A

Appendix

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A.5 Calculation of Water Vapor
A.5	 Water Vapor: Relationship of Dewpoint, Vol.-% and g/Nm³
Dewpoint Content of
Water
Water
Concentration
°C °F
Vol. -%
g/Nm³

Dewpoint Content of
Water
Water
Concentration
°C °F
Vol. -%
g/Nm³

0

32,0

0,60

4,88

36

1

33,8

0,65

5,24

2

36,8

0,68

5,64

3

37,4

0,75

4

39,2

0,80

5

41,0

6

42,8

7

96,8

5,86

50,22

37

98,6

6,20

53,23

38

100,4

6,55

56,87

6,06

39

102,2

6,90

59,76

6,50

40

104,0

7,18

62,67

0,86

6,98

42

107,6

8,10

70,95

0,92

7,49

44

111,2

8,99

79,50

44,6

0,99

8,03

45

113,0

9,45

84,02

8

46,4

1,06

8,60

46

114,8

9,96

89,20

9

48,2

1,13

9,21

48

118,4

11,07

99,80

10

50,0

1,21

9,86

50

122,0

12,04

110,81

11

51,8

1,29

10,55

52

125,6

13,43

124,61

12

53,6

1,38

11,29

54

129,2

14,80

139,55

13

55,4

1,48

12,07

55

131,0

15,55

147,97

14

57,2

1,58

12,88

56

132,8

16,29

156,26

15

59,0

1,68

14,53

58

136,4

17,91

175,15

16

60,8

1,79

14,69

60

140,0

19,65

196,45

17

62,6

1,90

16,08

62

143,6

21,55

220,60

18

64,4

2,04

16,72

64

147,2

23,59

247,90

19

66,2

2,16

17,72

66

150,8

25,80

279,20

20

68,0

2,30

19,01

68

154,4

28,18

315,10

21

69,8

2,45

20,25

70

158,0

30,75

356,70

22

71,6

2,61

21,55

72

161,6

33,50

404,50

23

73,4

2,77

22,95

74

165,2

36,47

461,05

24

75,2

2,95

24,41

76

168,8

39,66

527,60

25

77,0

3,12

25,97

78

172,4

43,06

607,50

26

78,8

3,32

27,62

80

176,0

46,72

704,20

27

80,6

3,52

29,37

82

179,6

50,65

824,00

28

82,4

3,73

32,28

84

183,2

54,84

975,40

29

84,2

3,96

33,15

86

186,8

59,33

1171,50

30

86,0

4,18

35,20

88

190,4

64,09

1433,30

31

87,6

4,43

37,37

90

194,0

69,18

1805,00

32

89,6

4,69

39,67

33

91,4

4,97

42,09

34

93,2

5,25

44,64

35

95,0

5,55

47,35

A-34

Note!
Standard conditions: 273 K (0 °C) and 1013 hPa.
Water concentration calculated at dry standard conditions.

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A.6 Declaration of Decontamination
A.6	 Declaration of Decontamination
Because of legal regulations and for the safety of Emerson Process Management employees
and operating equipment, we need this "Declaration of Decontamination", signed by an authorized person, prior to processing your order. Ensure to include it with the shipping documents,
or (recommended) attach it to the outside of the packaging.
Instrument details
Process details

Analyzer model
Serial no.
Temperature
Pressure

Please check where applicable, include safety
data sheet and, if necessary, special handling
instructions!

The medium was
used for

Medium and
concentration

CAS No.

toxic

harmful

corrosive

flammable

other1)

harmless

Process
Process cleaning
Cleaning of
returned parts
1)

e.g. explosive, radioactive, environmentally hazardous, of biological risk, etc.

Declaration and Sender Data
We hereby declare that the retumed parts have been carefully cleaned. To the best of
our knowledge they are free from any residues in dangerous quantities.
Company
Contact Person / Function

Appendix

Address
Phone
Signature

A

Location, Date

Emerson Process Management GmbH & Co. OHG

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A.7 PLC Quick Reference
A.7	 PLC Quick Reference
PLC Quick Reference Card 
         Rev.  2010‐04 

 
 
 

PLC Quick Reference Card 
If timers need to be used, they have to be setup at the beginning of the program (see Example Program) 
For USB transfer save PLC.TXT on the USB stick in the directory 
emerson_xe\\config  

PLC Timer Setup 
Syntax:    ; [Comment]
For details see Timer Modes below 
COMMAND 
ID 
TMR_MODE 
1…8 

TMR_DURATION 
TMR_PERIOD_CNT 

1…8 
1…8 

TMR_TRIG_TIME 

1…8 

VALUE 
OFFDELAY, ONDELAY, 
REPPULSE, SINGLEPULSE, 
RETRIGSPULSE, INHIBSPULSE, 
CLKTRGPULSE , COUNTER 
1...3600 
1...3600  
(REPPULSE: sec 
 CLKTRGPULSE: min 
 COUNTER: counts) 
YYYY,MM,DD,hh,mm 

Programming Quick Reference 
Syntax:  [,,…]; [Comment]
Maximum amount of operators & operands: approx. 400 
 
SPECIAL CHARACTER 
Function 
, 
Separation of Operands 
; 
Command Termination 
# 
Start of Comment Line 
 
OPERATOR 
OPERANDS 
Description 
CLR 
‐ 
Set register to FALSE 
SET 
‐ 
Set register to TRUE 
AND 
O1, [O2, O3, …] 
Logical AND of register and  
OR 
O1, [O2, O3, …] 
Logical OR of register and  
NEG 
‐ 
Negate register 
LOAD 
O1 
load register with state of  
STO 
O1, [O2, O3, …] 
Store register to  
IF 
O1, O2 
if register = TRUE 
    then load register with state of first  
    else load register with state of second  
CALL 
O1, [O2, O3, …] 
if register = TRUE then call  
END 
‐ 
End of program 
 
READ & WRITE OPERANDS 
Description 
R1 … R10 
Result 1 ... 10 
M1 … M15 
Memory 1 … 15 

A-36

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A.7 PLC Quick Reference

PLC Quick Reference Card 
         Rev.  2010‐04 

 
 
 
WRITE ONLY OPERANDS 
Description 
T1I1, T1I2 
Timer 1 / Input 1, 2 
T2I1, T2I2 
Timer 2 / Input 1, 2 
T3I1, T3I2 
Timer 3 / Input 1, 2 
T4I1, T4I2 
Timer 4 / Input 1, 2 
T5I1, T5I2 
Timer 5 / Input 1, 2 
T6I1, T6I2 
Timer 6 / Input 1, 2 
T7I1, T7I2 
Timer 7 / Input 1, 2 
T8I1, T8I2 
Timer 8 / Input 1, 2 
 
Syntax of channel related operands indices:  
READ ONLY OPERANDS 
Description 
S01 … S76 
System Digital Output Pool (see below) 
S101 … S540 
Channel Digital Output Pool (see below) 
T1 … T8 
Timer Output 1 … 8 
DI1 … DI14 
Digital Input 1 … 14 
PU1, PU2 
Pump State 1, 2 
TRUE 
Logical TRUE operand 
FALSE 
Logical FALSE operand 
 
CALL ONLY OPERANDS 
Description 
A01 … A15 
System Actions (see below) 
A101 … A521 
Channel Actions (see below) 
 
 
 

System Actions Pool Index 

None 
Zero All 
Span All 
Zero&Span All 
Cancel All 
ProgSequ 
Blowback 

  
  
  
  
  
  
  

13 
14 
15 
16 
17 
18 
19 

FctCheck 
Pump1 
Pump2 
Ext Alarm1 
Ext Alarm2 
Ext Alarm3 
Ext Alarm4 

08 
09 
10 
11 
12 

CalCheckMod 
Reserved 
Failure 
OffSpec 
MaintRequ 

  
 
 
 
 

20 
21 
22 
23 
 

Ext Alarm5 
Ext Alarm6 
Ext Alarm7 
Ext Alarm8 
 

 

A

 
 

01 
02 
03 
04 
05 
06 
07 

Appendix

Usage example:  CALL A06; # Start programmed sequence if register changed to TRUE
 
ANR  Description 
Spalte1 
ANR 
Description 

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A.7 PLC Quick Reference

PLC Quick Reference Card 
         Rev.  2010‐04 

 
 

System Digital Output Pool Index 
 
Usage example: LOAD S41; Load the state of pump1
 
 
SNR 
Signal 
 
01 
Off 
 
02 
On 
 
03 
Heartbeat 
 
04 
Any Failure 
 
05 
Any OffSpec 
 
06 
Any MaintRequ 
 
07 
Any FctCheck 
 
08 
Any Calibrating 
 
09 
Any Zeroing 
 
10 
Any Spanning 
 
11 
Any Zero Failed 
 
12 
Any Span Failed 
 
13 
Any Range Low 
 
14 
Any Range High 
 
15 
Any ConcAlarm 
 
16 
Any AvgAlarm 
 
17 
Any TempAlarm 
 
18 
Any PressAlarm 
 
19 
Any FlowAlarm 
 
20 
reserved 
 
21 
V1 
 
22 
V2 
 
23 
V3 
 
24 
V4 
 
25 
V5 
 
26 
V6 
 
27 
V7 
 
28 
V8 
 
29 
V9 
 
30 
V10 
 
31 
V11 
 
32 
V12 
 
33 
V13 
 
34 
V14 
 
35 
V15 
 
36 
V16 
 
37 
V17 
 
38 
V18 
 

A-38

into register 
SNR 
39 
40 
41 
42 
43 
44 
45 
46 
47 
48 
49 
50 
51 
52 
53 
54 
55 
56 
57 
58 
59 
60 
61 
62 
63 
64 
65 
66 
67 
68 
69 
70 
71 
72 
73 
74 
75 
76 

Signal 
V19 
V20 
Pump1 
Pump2 
Ext Alarm1 
Ext Alarm2 
Ext Alarm3 
Ext Alarm4 
Ext Alarm5 
Ext Alarm6 
Ext Alarm7 
Ext Alarm8 
PLC Result1 
PLC Result2 
PLC Result3 
PLC Result4 
PLC Result5 
PLC Result6 
PLC Result7 
PLC Result8 
PLC Result9 
PLC Result10 
CalcA Rslt LoLo 
CalcA Rslt Lo 
CalcA Rslt Hi 
CalcA Rslt HiHi 
CalcB Rslt LoLo 
CalcB Rslt Lo 
CalcB Rslt Hi 
CalcB Rslt HiHi 
CalcC Rslt LoLo 
CalcC Rslt Lo 
CalcC Rslt Hi 
CalcC Rslt HiHi 
CalcD Rslt LoLo 
CalcD Rslt Lo 
CalcD Rslt Hi 
CalcD Rslt HiHi 

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A.7 PLC Quick Reference

PLC Quick Reference Card 
         Rev.  2010‐04 

 
 

Channel Actions Pool Index 
Usage example: CALL A103; Start span cal for channel 1, if register changed to TRUE
# Replace ‘x’ in table by channel # (1 … 5)
 
ANR   Description 
 
ANR  Description 
x01 
x02 
x03 
x04 
x05 
x06 
x07 

None 
ZeroCal 
SpanCal 
ZeroSpanCal 
Cancel 
Range1 
Range2 

 
X 
 
 
 
 
 

x12 
x13 
x14 
x15 
x16 
x17 
x18 

MaintRequ 
FctCheck 
SampleGas 
ZeroGas 
SpanGas1 
SpanGas2 
SpanGas3 

x08 
x09 
x10 

Range3 
Range4 
Failure 

 
 
 

x19 
x20 
x21 

SpanGas4 
All Closed 
Blowback 

x11 

OffSpec 

 

 

 

 
 

Channel Digital Output Pool Index 
Usage example: LOAD S332; Load press low alarm state of channel 3 into register
# Replace ‘x’ in table by channel # (1 … 5)
 
SNr   Description 
 
SNR  Description 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

x21 
x22 
x23 
x24 
x25 
x26 
x27 
x28 
x29 
x30 
x31 
x32 
x33 
x34 
x35 
x36 
x37 
x38 
x39 
x40 

Conc. Hi 
Conc. HiHi 
Average LoLo 
Average Lo 
Average Hi 
Average HiHi 
Temperature LoLo 
Temperature Lo 
Temperature Hi 
Temperature HiHi 
Pressure LoLo 
Pressure Lo 
Pressure Hi 
Pressure HiHi 
Flow LoLo 
Flow Lo 
Flow Hi 
Flow HiHi 
Off 
Off 

Appendix

Off 
On 
Heartbeat 
Failure 
OffSpec 
MaintRequ 
FctCheck 
Calibrating 
Zeroing 
Spanning 
Zero Failed 
Span Failed 
Range Underflow 
Range Overflow 
Range1 
Range2 
Range3 
Range4 
Conc. LoLo 
Conc. Lo 

A

x01 
x02 
x03 
x04 
x05 
x06 
x07 
x08 
x09 
x10 
x11 
x12 
x13 
x14 
x15 
x16 
x17 
x18 
x19 
x20 

Emerson Process Management GmbH & Co. OHG

A-39

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04/2010

A.7 PLC Quick Reference

PLC Quick Reference Card 
         Rev.  2010‐04 

 
 

Timer Modes 
TMR_MODE 

Timing Diagram 
Input 1 

OFFDELAY 
Output 

ONDELAY 

Time Duration

 

Input 1 
Output 

Time Duration

 
Input 1 

REPPULSE 

Output 

Time Duration 

Time Duration 
Period Time 

Input 1 

SINGLEPULSE 
Output 

Time Duration 

Time Duration

 
Retrigger 

Input 1 

RETRIGSPULSE 
Output 

Time   Duration 

Time Duration

Time Duration
Input 1 

INHIBSPULSE 

Input 2 

Inhibit

tion

Time Dura‐ 

Output 

Time   Duration 

Date / Time
Period Time 

CLKTRGPULSE 
Output 

Time Duration 

Time Duration 

Input 2 
(Reset) 
Input 1 
(Trigger) 

COUNTER 

PERIOD_CNT 
(Preset) 
internal 
Counter 

3 

2 

3 
1

0 

Output 

A-40

Emerson Process Management GmbH & Co. OHG

Instruction Manual

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HASXEE-IM-HS
04/2010

A.7 PLC Quick Reference

PLC Quick Reference Card 
         Rev.  2010‐04 

 
 

Example Program 
#-Example for Timer 1--------------------TMR_MODE
1 OFFDELAY;
TMR_DURATION 1 5; delay 5 sec
#-Example for Timer 2--------------------TMR_MODE
2 ONDELAY;
TMR_DURATION 2 5; delay 5 sec
#-Example for Timer 3--------------------TMR_MODE
3 REPPULSE;
TMR_DURATION 3 5; pulse width 5 sec
TMR_PERIOD_CNT 3 20;
periode 20 sec
#-Example for Timer 4--------------------TMR_MODE
4 SINGLEPULSE;
TMR_DURATION 4 5; pulse width 5 sec
#-Example for Timer 5--------------------TMR_MODE
5 RETRIGSPULSE;
TMR_DURATION 5 5; pulse width 5 sec
#-Example for Timer 6--------------------TMR_MODE
6 INHIBSPULSE;
TMR_DURATION 6 10; pulse width 10 sec
#-Example for Timer 7--------------------TMR_MODE
7 CLKTRGPULSE;
TMR_DURATION 7 5; pulse width 5 sec
TMR_PERIOD_CNT 7 10; pulse trigger is repeated each 10 minutes
TMR_TRIG_TIME 7 2009,10,26,17,00; start triggering Oct26 2009, 05:00 pm
#-Example for Timer 8--------------------TMR_MODE
8 COUNTER;
TMR_PERIOD_CNT 8 10; preset count value = 10

END;

Program end

A

 

Appendix

#-------------------------------LOAD DI1; Digital Input#1
STO
T1I1,T2I1,T3I1; feed Input1 of Timers1..3 with this state
STO
R9;
assign Digital Input#1 also to Result#9
LOAD DI5; load Digital Input#2
STO
T1I2,T2I2,T3I2; feed Input2 of Timers1..3 with this state
#-------------------------------LOAD T1;
read Timer 1 output
STO
R1;
store as Result#1
#-------------------------------LOAD DI5; read Digital Input #5
IF
R10,R2; if DI5 then load Result#10 else load Result#2
CALL A110; simulate an 'External Failure" of Ch1 if loaded with '1' state
LOAD T3;
read Timer 3 output
CALL A311; simulate an "MaintRequ" of Ch3 if loaded with '1' state
#-------------------------------LOAD S62; CalcA rslt Lo
STO
R3;
store as Result#3
LOAD S208;
Ch2 calibrating
STO
R4;
store as Result#4

Emerson Process Management GmbH & Co. OHG

A-41

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A-42

Instruction Manual
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04/2010

Emerson Process Management GmbH & Co. OHG

Instruction Manual

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04/2010

A.8

Assignment of Terminals and Sockets

A.8	 Assignment of Terminals and Sockets
A.8.1	 Tabletop & Rack Mount Analyzers
Pin

Pin
1

Channel 2, (+) 4 (0) - 20 mA

2

Channel 3, (+) 4 (0) - 20 mA

3

Channel 4, (+) 4 (0) - 20 mA

4

Channel 5, (+) 4 (0) - 20 mA

5

unused

6

unused

7

Output1 (Failure) NC

8

Output1 (Failure) NO

9

Output1 (Failure) COM

Pin

10

Output3 (Off spec) NC

11

Output3 (Off spec) NO

12

Output3 (Off spec) COM

13

Signal
Channel 1, GND

8

15

Channel 2, GND

9

16

Channel 3, GND

17

Channel 4, GND

18

Channel 5, GND

19

unused

20

Output2 (Maintenance request) NC

21

Output2 (Maintenance request) NO

22

Output2 (Maintenance request) COM

23

Output4 (Function check) NC

24

Output4 (Function check) NO

25

Output4 (Function check) COM

Pin no.
1
2
3
4
5
6
7
8
9

4

GND for all digital inputs

5

unused

6

unused

7

Output 5 NC

8

Output 5 NO

9

Output 5 COM

10

Output 6, NC

11

Output 6, NO

12

Output 6, COM

13

Output 7, NC

14

Output 7, NO

15

Output 7, COM

16

Output 8, NC

17

Output 8, NO

18

Output 8, COM

19

Common
not used
not used
RXD1(+)
TXD1(+)
not used
not used
RXD0(-)
TXD0(-)

Signal
Input 5

21

Input 6

22

Input 7

23

Output 9, NC

24

Output 9, NO

25

Output 9, COM

{
}
BR 2 signal in current mode to input 2

26

Output 10, NC

unused

27

Output 10, NO

BR 1 fit a wire bridge here to apply analog

28

Output 10, COM

BR 1 signal in current mode to input 1**)

29

Output 11, NC

30

Output 11, NO

31

Output 11, COM

32

Output 12, NC

33

Output 12, NO

34

Output 12, COM

35

Output 13, NC

36

Output 13, NO

37

Output 13, COM

Signal

BR 2 fit a wire bridge here to apply analog
*)

{

Socket X4 - Digital I/O
(Assignment of Screw Terminals Adaptor: See XSTD on Next Page)

Emerson Process Management GmbH & Co. OHG

Common
not used
not used
not used
D1(+)
not used
not used
not used
D0(-)

RS 232
Common
RXD
TXD
not used
Common
not used
not used
not used
not used

2

1
1:
2:
3:

3

ME
+ 24 V
0 V (⊥)

DC 24 V Input (1⁄2 19" Analyzer)

Note!
The configuration illustrated
here is that of the first socket,
labelled X4.1.
Inputs 8-14 and outputs 1422, are on the second socket
(X4.2), if installed.

}

Pin
5
4
3
2
1

Pin

Signal

9

Input 2 high (+)

8

Input 2 low (-)

7

Input 1 low (-)

6

Input 1 high (+)

alternatively set jumper P1 on electronics board XASI
**)
alternatively set jumper P2 on electronics board XASI
*)

Pin 1

Pin 8

Pin no.

Signal

1

TX+

2

TX-

3

RX+

6

RX-

other

not used

Appendix

Input 4

MOD 485/ MOD 485/
2 wire
4 wire

inputs

3

5

20

Digital

2

Input 3

4

Pin

Digital

Input 2

3

Connector X2 - IOIOI - Serial Interface
(Assignment of Screw Terminals Adaptor: See XSTA on
Next Page)

outputs

1

inputs

Pin

outputs

Digital

Digital

Socket X1 - Analog Outputs, Relay Outputs 1...4
(Assignment of Screw Terminals Adaptor: See XSTA on Next Page)

Input 1

2

7

14

Note!
Configuration of relay contacts
as per standard factory setting (NAMUR
status signals)

Signal

1

Connector X5 - Analog Inputs
(Assignment of Screw Terminals Adaptor: See XSTI on Next Page)

Ethernet Connector
for Modbus

A

Channel 1, (+) 4 (0) - 20 mA

Analog
outputs

Pin

Relay contacts
(Status signals)

Relay contacts
(Status signals)

Analog
outputs

Signal

6

A-43

P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
P3.8
P3.9
P3.10
P3.11
P3.12

Pin
not used
not used
not used
not used
not used
not used
not used
not used
not used
not used
not used
not used

Signal

{

{

}

}

BR 1 fit a wire bridge here to apply analog
BR 1 signal in current mode to input 1
Input 1 high (+)
Input 1 high (+)
Input 1 low (-)
Input 1 low (-)
BR 2 fit a wire bridge here to apply analog
BR 2 signal in current mode to input 2
Input 2 high (+)
Input 2 high (+)
Input 2 low (-)
Input 2 low (-)

Signal

Ethernet Connector
for Modbus
Flameproof (cast) housing
Power Terminals

TX+
TXRX+
RXnot used
L= Line
N= Neutral
PE= Protective Earth

1
2
3
6
other
Power cord
entry

Common
RXD
TXD
not used
Common
not used
not used
not used
not used

P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
P2.8
P2.9
P2.10
P2.11
P2.12

Pin

Signal

Input 1/8***)
Input 2/9
Input 3/10
Input 4/11
Input 5/12
Input 6/13
Input 7/14
GND for Inputs 1-7/8-14
not used
Output 5/14, NC
Output 5/14, NO
Output 5/14, COM
Output 6/15, NC
Output 6/15, NO
Output 6/15, COM
Output 7/16, NC
Output 7/16, NO
Output 7/16, COM
Output 8/17, NC
Output 8/17, NO
Output 8/17, COM
Output 9/18, NC
Output 9/18, NO
Output 9/18, COM
Output 10/19, NC
Output 10/19, NO
Output 10/19, COM
Output 11/20, NC
Output 11/20, NO
Output 11/20, COM
Output 12/21, NC
Output 12/21, NO
Output 12/21, COM
Output 13/22, NC
Output 13/22, NO
Output 13/22, COM

Pin

Channel 1, (+) 4 (0) - 20 mA
Channel 1, GND
Channel 2, (+) 4 (0) - 20 mA
Channel 2, GND
Channel 3, (+) 4 (0) - 20 mA
Channel 3, GND
Channel 4, (+) 4 (0) - 20 mA
Channel 4, GND
Channel 5, (+) 4 (0) - 20 mA
Channel 5, GND
not used
not used
not used
not used
Output 1 (Failure), NC
Output 1 (Failure), NO
Output 1 (Failure), COM
Output 2 (Maintenance Request), NC
Output 2 (Maintenance Request), NO
Output 2 (Maintenance Request), COM
Output 3 (Out of Spec), NC
Output 3 (Out of Spec), NO
Output 3 (Out of Spec), COM
Output 4 (Function check), NC
Output 4 (Function check), NO
Output 4 (Function check), COM
not used

P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
P3.8
P3.9
P3.10
P3.11
P3.12
P4.1
P4.2
P4.3
P4.4
P4.5
P4.6
P4.7
P4.8
P4.9
P4.10
P4.11
P4.12
P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.6
P2.8
P2.9
P2.10
P2.11
P2.12

P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
P2.8
P2.9
P2.10
P2.11
P2.12
P3.1
P3.2
P3.3
P3.4
P3.5
P3.6
P3.7
P3.8
P3.9
P3.10
P3.11
P3.12
P4.1
P4.2
P4.3
P4.4
P4.5
P4.6
P4.7
P4.8
P4.9
P4.10
P4.11
P4.12

Assignment of serial interface terminals

Emerson Process Management GmbH & Co. OHG
A-44

1

Signal
1
2
3
4
5
6
7
8
9

Field housing
Service Port Connector Serial RS 232 Interface
Signal Terminals Strips

2
6

Pin no.
RS 232

Note!
Line and neutral terminals with
built-in fuse holders
3
7

PE

Pin no.

Common
RXD
TXD
not used
Common
not used
not used
not used
not used
Common
not used
not used
RXD1(+)
TXD1(+)
not used
not used
RXD0(-)
TXD0(-)
Common
not used
not used
not used
D1(+)
not used
not used
not used
D0(-)
SER1
SER2
SER3
SER4
SER5
SER6
7
8
9
P4.4
P4.5
P4.6
P4.7
P4.8
P4.9
P4.10
P4.11
P4.12

4
8

HASXEE-IM-HS
04/2010

X-STREAM XE

Pin 8
Pin 1
N
RS 232

L
MOD 485/ MOD 485/
2 wire
4 wire
Terminal

5
9

Configuration of relay output terminals as per standard factory setting
(NAMUR status signals)
**)

See table below
*)

IN1
Mode

1 /2 no. identifies inputs/outputs
on the 1st /2nd expansion board
***)

st

nd

IN2
Mode

Digital Inputs
Digital Outputs

XSTI: Analog Inputs
XSTD: Optional Strips With
7 Dig Inputs and 9 Dig Outputs Each
A.8.2	 Field Housings
XSTA: Standard Strip With Standard and Optional Signals

Assignment of Terminals and Socket
A.8

Analog Inputs
Pin
Pin

Analog Outputs
Relay Outputs**)
Serial Interface*)

Instruction Manual

Instruction Manual

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04/2010

A
Access levels  see Menu access
Acknowledgements  6-17, 7-17, 7-19, 7-40
Advanced Calibration  6-8
Alarms  6-80
Setup  6-80
Alarms Status  6-119
Ambient temperature  1-13, 2-2, 3-9, 3-15, 4-3
Analog Input  6-74
Analog inputs  4-28, 6-57, 6-75
Conversion  6-76
Analog outputs  see Outputs: Analog outputs
Analog Outputs  6-63
Apply gas  6-16, 7-17, 7-19, 7-40
ATEX  1-1, 1-2, 1-13, 1-23...1-25, 2-22, 4-1, 8-21,
7-47, 7-51, 8-25  see also Hazardous areas
Autoranging  see Setup Menu: Autoranging
Auto-Run  7-61
Average  5-17, 6-59, 6-83, 6-84

B
Backup  5-24, 5-25, 6-92...6-95, 5-24, 5-25,
7-53...7-59, 7-61...7-66
Battery  S-6
Bell  see Status Line
Block diagram  A-1, A-21
Blowback  7-31

C
Cable glands  4-22
Calculator  1-4, 6-21, 6-80, 6-86, 6-87, 6-107,
6-119, 6-122
Alarms  6-86
Calculator Alarms  6-86
Calibration
Advanced Calibration  6-8, 6-10...6-13, 7-20...731, 7-36
Autocalibration  1-6
by Digital Inputs  7-33
Calibration Deviation  6-15
Calibration Results  6-13
Calibration Status  6-11
Cancelling  7-41
Cancelling an Ongoing Calibration  7-41
Deviations  6-42
Interval Time  6-40
Manual Calibration  7-17

Emerson Process Management GmbH & Co. OHG

Modbus Activated  7-35
multiple ranges  7-30
Preparing  7-7
Procedure  6-36
Program Sequence  6-39
Restoring  7-41
Setup  6-33
Span Calibration  6-7, 6-8, 6-10, 6-15, 6-34,
6-39, 6-42, 6-69, 7-5, 7-7, 7-8, 7-18...7-20,
7-25, 7-29, 7-30, 7-32, 7-35...7-38, 7-51, 8-42
Tolerances  6-35
Unattended  1-4
Unattended Automatic Calibration  7-5, 7-6,
7-37...7-39
Valves  6-37
Verifying  7-40
Zero calibration  3-15, 6-6, 6-15, 6-39, 7-5, 7-7,
7-10, 7-17, 7-18, 7-20...7-22, 7-32, 7-35...738, 7-40, 8-42
Calibration Gases  6-34
Calibration logger  6-20, 6-89
Calibration Procedures  7-5
all channel span calibrations  7-20
all channel zero calibrations  7-20
all channel zero & span calibrations  7-20
Remote calibration  7-32
Calibration Status  6-116
Certifications  see CSA; see EC
Cleaning the Instrument  7-52
Clock  see also Time
Communication  6-77  see also Ethernet; see
also Serial interface; see also Setup Menu:
Communication
Ethernet  6-79
Serial  6-78
Component Setup  6-25
Component, Status  6-112
Concentration Alarms  6-81
Concentration Average Alarms  6-83
Configuration Data, Save/Store  7-53
Control Menu  6-5
Conversion  6-27, 6-28, A-1
Dewpoint  A-1, A-34, A-36
Water Vapor  A-1, A-34, A-36
Cross  see Status Line
Cross Interference  5-17, 6-56...6-58  see
also Setup Menu: Cross Interference

I-1

IDX Index

Index

Instruction Manual

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HASXEE-IM-HS
04/2010

Index
Cross Interference Linearization Curve  6-58
CSA  2-2, A-1, A-14...A-20
Certificate of Compliance  A-1, A-14...A-20

D
Damping  see Setup Menu
Data logger  1-4, 6-19, 6-21, 6-105, 6-106, 6-122,
7-66...7-68
Dewpoint  see Conversion
DHCP  see Ethernet: Setup
Digital inputs  see Inputs: Digital inputs; see
also Setup Menu: Digital Inputs
Digital Inputs  6-71
Digital outputs  see Outputs: Digital outputs
Digital Outputs  6-68
Dimensions  2-6, 2-7, 2-9, 2-11, 2-12, 2-15, 2-16,
2-19, 4-19, 4-20

E
EC  1-1, A-1, A-12, A-13
Declaration of conformity  A-1
Electrochemical oxygen sensor  see Measuring
principles: Electrochemical oxygen sensor
Ethernet  1-4, 1-11, 1-13, 1-22, 1-27, 2-3, 2-18,
2-21, 4-12, 4-21, 4-26, 6-79, A-43, A-44
Setup  6-79
Event logger  1-4, 6-20, 6-21, 6-89, 6-107, 6-122
Explosive gas  see Gases: Explosive gas
EX zone  see ATEX; see Hazardous areas

F
Failures, Status  6-109
Field housing  see X-STREAM: XDF; see XSTREAM: XEF; see X-STREAM: XEFD
Flameproof  see X-STREAM: XEFD
Flammable gas  see Gases: Flammable gas
Flow Setup  6-28
Format  6-104
Front panel  1-1, 1-3, 1-13, 1-22, 1-27, 4-10, 4-22,
4-23, 4-30, 5-3, 5-10, 7-5, 7-35, 7-36, 8-12,
8-13
Fuses  S-7, 1-16, 1-17, 1-19, 2-11, 2-18, 2-21, A-44

G
Gas conditioning  see Gases: Gas conditioning
Gases
Explosive gas  S-2

I-2

Flammable gas  S-2
Gas conditioning  4-3
Gas pressure  S-12, 3-14, 8-15, 8-19
Sample gas  1-5, 1-6, 1-12, 1-13, 2-3, 2-4, 3-5,
3-10, 3-11, 3-13, 3-14, 4-5, 5-21, 6-65, 6-66,
7-4, 7-17, 7-21, 7-24, 7-27, 7-37, 8-16, 8-17,
8-19, 8-21, 8-39, 5-21, 8-21, 8-23, 8-27
Span gas  1-6, 5-16, 6-7, 6-10, 6-26, 6-34, 6-35,
6-36, 7-5, 7-7, 7-8, 7-15, 7-16, 7-22, 7-25...730, 8-41, 8-42
Zero gas  1-6, 5-16, 6-6, 6-10, 6-26, 6-34, 7-5,
7-7, 7-8, 7-10, 7-15, 7-18, 7-23, 7-27, 7-28,
8-40...8-42
Gas inlets  S-12, 1-5, 4-8...4-10, 4-21
Gas outlets  S-10, S-12, 1-5, 1-21, 4-4, 4-8...4-10,
4-21

H
Hazardous areas  1-1, 1-2, 1-13, 1-23...1-25, 2-22,
4-1, 7-47, 7-51, 8-21, 8-25  see also Non-incendive; see also Pressurization system; see
also ATEX; see also X-STREAM: XEFD
Heart  see Status Line

I
Identification  6-98
Infallible containment  S-2, 1-1, 1-5, 1-13
Info Menu  6-122
In-/Outputs  6-62, 6-75  see also Inputs; see
also Internal SHS; see also Options; see
also Outputs; see also Setup Menu: In-/Outputs
Inputs
Analog inputs  1-12, 4-16, 4-27, 4-28, 6-62,
6-74, A-43, A-44
Digital inputs  1-12, 4-10, 4-14, 4-15, 4-27, 6-62,
8-14, 8-18, A-43
Input voltage  2-9, 2-11
Installation  4-1, 4-7
XDF  4-19
XEF  4-19
XEFD  4-7
XEGC  4-8
XEGP  4-8
Installed Options  6-88
Flow  6-90
Pressure  6-91

Emerson Process Management GmbH & Co. OHG

Instruction Manual

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HASXEE-IM-HS
04/2010

Setup  6-88
Intended use statement  S-5
Internal SHS  6-62, 6-73, 7-12  see also Setup
Menu: Internal SHS
Interval Time  6-40  see Calibration: Interval Time
IP address  see Ethernet: Setup; see also Info
menu

J
K
L
Labels  6-30
Language  1-3, 5-12, 5-13, 6-21, 6-22
Leak test  S-8, 7-1, 7-4, 8-15
Leak Test  7-4
Licenses  6-89
Linearization
Setup  6-48
Local backup  6-94
Lock menus  6-2, 6-32, 7-17, 7-19, 7-40
Log files  see Logger: Log files
Handling  see Logger: Log files
Logger  see Calibration logger; see Data logger;
see Event logger
Log files
Configuring  7-67
Export  1-4, 6-19, 6-20, 6-105, 6-106, 7-66,
7-67, 7-68

M
MAC address  see Ethernet: Setup; see also Info
menu
Main menu  5-4...5-6, 5-13, 6-4, 7-7, 7-17, 7-21,
7-24, 7-27, 7-40, 7-55, 7-57, 7-59, 7-62, 7-64
Maintenance  7-1
Backup / restore data sets  see Save-Load
Calibration  see Calibration
Electrochemical oxygen sensor
Replacing  7-42
Intervals  7-2
Leak test  see Leak test
Maintenance Requests, Status  6-110
Manual Calibration  7-17
Measurement Average  see Setup Menu: Measurement

Emerson Process Management GmbH & Co. OHG

Measurement display  1-4, 5-4, 5-5, 5-6, 5-10...513, 5-15, 5-23, 5-25, 6-4, 6-22, 6-25, 6-29,
6-30, 6-32
Measurement Ranges  see Setup Menu
Measurement, Setup  see Setup Menu
Measurement, status  6-111
Measuring principles
Electrochemical oxygen sensor  3-8, 7-1, 7-42
Handling  7-45
Infrared  3-1...3-4
Measurement Specification  3-13
Paramagnetic oxygen sensor  3-5, 3-7, 3-14,
8-18, 8-34, 8-38
Performance Specifications  3-14
Photometer  3-4
Thermal Conductivity  3-11, 3-12, 3-14, 8-18,
8-37, 8-41
Ultraviolet  3-1...3-4
Menu access
Access levels  1-4, 5-9
Menu Access  6-32
Modbus  1-11, 1-13, 2-3, 4-8, 4-9, 4-10, 4-12, 4-26,
6-78, 6-79, 7-5, 7-6, 7-32, 7-35...7-37, 9-1,
9-2, A-1...A-3, A-5...A-11, A-43, A-44
Modbus TCP/IP  9-1
Registers  9-1, 9-2

N
NAMUR  S-2, 1-10, 2-2, 4-10, 4-11, 4-13, 4-24,
5-11, 5-20, 5-23, 6-65, 6-66, 6-108, 7-13, 8-2,
8-3, 5-21, A-43, A-44
NE 43  5-20, 5-21, 6-65
NE 44  1-10
NE 107  1-3, 2-3, 2-4, 8-2
Status  4-10, 4-11, 4-13, 4-24, 6-108, 8-2, A-43,
A-44
Node  6-39, 6-68...6-72, 7-13, 7-14
Non-incendive  1-23

O
Oil can  see Status Line
Opening housings  7-46, 7-47, 8-20, 8-21
Operation hours  6-97
Operation Hours Meter  6-97
Operation Hours Status  6-121
Options
Barometric pressure sensor  1-6, 1-7

I-3

IDX Index

Index

Instruction Manual

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HASXEE-IM-HS
04/2010

Index
Flow monitor switch  1-6
Flow sensor  1-6, 6-88
Heated area  1-8
Installed options  5-14, 6-36...6-40, 6-88...6-91,
6-122, 6-124, 6-125, 7-73
Purging  2-2, 4-3
Temperature sensors  1-6, 1-7, 3-5
Outputs
Analog outputs  1-10, 2-4, 4-8, 4-9, 4-10, 5-18,
5-19, 5-21, 5-22, 6-62, 6-63, 6-64, 6-66, 6-67,
7-9, 8-13, 8-17
Digital outputs  1-12, 1-13, 4-14, 4-27, 6-68,
6-70, 6-80, 7-11, 7-13, 7-33, 8-13, 8-15, 8-17
Status relays  1-10

P
Password protection  see Menu access
PLC  see Programmable logic controller
Polynom  see Linearization: Setup
Power supply units, external  2-9
Power terminals  2-21, A-44
Pressure Compensation  6-61
Pressure Sensors Status  6-115
Pressurization system  1-23
Procedures  7-1
Programmable logic controller  1-4, 6-21, 6-89,
6-107, 6-122
Programmable Logic Controller
Quick Reference  A-36
Program Sequence  6-39
Pump  1-6, 1-12, 1-13, 2-3, 2-4, 4-5, 6-5, 6-69,
7-33, 8-8, 8-9, 8-15...8-17, 8-23...8-27,
8-31...8-33
Purging  see Options: Purging

Q
Question mark  see Status Line

R
Ranges  6-18, 6-5, 7-17, 7-40
Rear panel  2-8, 2-13
Restore  1-4, 5-24, 5-25, 6-6, 6-7, 6-21, 6-32, 6-92,
6-94, 6-95, 7-1, 7-41, 7-53...7-55, 7-57, 7-59,
7-62, 7-64, 7-66

S
Safety instructions  S-5

I-4

Authorized personnel  S-6
Sample gas pump  see Pump
Save  see Backup
Save-Load  6-92, 6-94...6-96, 5-24, 7-55, 7-57,
7-59, 7-62, 7-64
Configuration Data  7-53
Factory defaults  7-59
Local backup  7-55
Notes  6-93
USB Backup  7-61
SD card  1-4
Serial interface
Setup  6-78
Serial no  6-122, 7-73, A-35
Service Menu  6-126
Setup Menu  6-21
Analog Inputs  6-74
Analog Outputs  6-63
Autoranging  6-45, 6-46
Calibration  6-33
Calibration Gases  6-34
Calibration Interval Time  6-40
Communication  6-77
Component  6-25
Component Tag  6-99
Component Unit  6-26
Cross Interference  6-56...6-58
Damping  6-47
Digital Inputs  6-71
Digital outputs  6-68
Display  6-21
Display Component  6-25
Display Contrast  6-23
Display Flow  6-28
Display labels  6-30
Display Temperature  6-27
Ethernet interface  6-79
Flow  6-28
Identification  6-98
In-/Outputs  6-62
Internal SHS  6-73
Linearization  6-48
Polynomials Coefficients  6-52
Measurement  6-30, 6-43, 6-44, 6-59, 6-60
Average  6-59
Measurement Delay  6-60
Measurement Display  6-4, 6-29, 6-30

Emerson Process Management GmbH & Co. OHG

Instruction Manual

X-STREAM XE

HASXEE-IM-HS
04/2010

Index

T
Tags  6-30
Technical data  2-1
Model-specific  2-6
Temperature
Alarms  6-85
Temperature Alarms  6-85
Temperature Setup  6-27
Terminal adapters  see Screw terminals; see Terminals
Terminals  1-27, 4-21, 4-24, 4-27, 4-28, A-1, A-43,
A-44
Time  6-102
Manual time setup  6-102
NTP Server  6-101
Realtime clock  1-4
Setup  6-100
Time server  1-4
Tool  see Status Line
Troubleshooting  8-1

U

Files  7-71
Preparation  7-61
Supported Mass Storage Device Types  7-61
USB Backup  6-95
USB Interface  6-103
USB Stick  6-104
File System Structure  6-104
Format  6-104

IDX Index

Measurement Ranges  6-44
Measurements Results  6-24
Menu Access  6-32
Range Gases  6-34
Serial interface  6-78
Temperature  6-27
USB Interface  6-103
Socket  4-11, A-43, A-44
Software
Licenses  6-89
Solvent Resistant  see Measuring principles: Paramagnetic oxygen sensor
Span Calibration  see Calibration
Span gas  see Gases
Splines  see Linearization: Setup
Startup  3-6, 3-7, 5-1, 7-54
Status Line  5-3  see also NAMUR
Status Menu  6-108
Status Messages  1-6, 8-2, 8-12...8-17
Switching On  6-4

V
Valve block  see Valves
Valves  1-6, 4-5, 6-37, 7-12
Valve assignment  7-10
Valve Assignment  6-37
Valve supported calibrations  7-10
Virtual measurement channel  1-4, 7-12

W
Water Vapor  see Conversion
Web browser  1-4, 7-73
Wheatstone Bridge  see Measuring principles:
Thermal Conductivity

X
X-STREAM
XDF  1-14, 1-19...1-23, 2-1, 2-3, 2-15, 2-16,
4-19...4-21, 7-47, 8-21, 8-25
XEF  S-9, 1-14, 1-19...1-23, 2-1, 2-3, 2-15, 4-4,
4-19, 4-26, 7-47, 8-12, 8-16, 8-21, 8-25, 11-1
XEFD  S-9, 1-5, 1-14, 1-24...1-27, 2-1, 2-3,
2-19...2-21, 4-4, 4-7, 7-47, 8-21, 11-1
XEGC  1-13, 1-15, 1-16, 2-1, 2-3, 2-4, 2-6...2-11,
4-4, 4-7...4-9, 4-11...4-18, 8-20, 8-24
XEGP  1-3, 1-13, 1-17, 1-18, 2-1, 2-3, 2-12...2-14,
4-4, 4-7...4-18, 4-33, 8-20, 8-24

Y
Z
Zero Calibration  see Calibration
Zero & Span Calibration  see Calibration: Advanced Calibration

USB  1-4, 1-22, 1-27, 2-3, 2-8, 2-13, 2-17, 2-18,
2-20, 2-21, 4-8...4-10, 5-24, 6-19, 6-20, 6-92,
6-95, 6-96, 6-103, 6-105, 7-53...7-57, 7-59,
7-61...7-64, 7-66, 7-68

Emerson Process Management GmbH & Co. OHG

I-5

X-STREAM XE

I-6

Instruction Manual
HASXEE-IM-HS
04/2010

Emerson Process Management GmbH & Co. OHG

Rosemount Analytical
Process Gas Analyzer Center of Excellence
Emerson Process Management GmbH & Co. OHG
Industriestrasse 1
63594 Hasselroth
Germany
T +49 6055 884 0
F +49 6055 884 209

Rosemount Analytical Inc.
Gas Analyzer Service Center
6565P Davis Industrial Parkway
Solon, OH 44139 USA
T +1 440.914.1261
Toll Free in US and Canada 800.433.6076
F +1 440.914.1262
e-mail: gas.csc@emerson.com
US Response Center 800.654.7768

LATIN AMERICA

EUROPE

ASIA-PACIFIC

MIDDLE EAST AND AFRICA

Emerson Process Management
Rosemount Analytical
11100 Brittmoore Park Drive
Houston, TX 77041 USA
T +1 713.467.6000
F +1 713.827.3328

Emerson Process Management
Shared Services Limited
Heath Place
Bognor Regis
West Sussex PO22 9SH
England
T +44 1243 863121
F +44 1243 845354

Emerson Process Management
Asia Pacific Private Limited
1 Pandan Crescent
Singapore 128461
Republic of Singapore
T +65 6 777 8211
F +65 6 777 0947
e-mail: analytical@
ap.emersonprocess.com

Emerson Process Management
Emerson FZE
P.O. Box 17033
Jebel Ali Free Zone
Dubai, United Arab Emirates
T +971 4 811 8100
F +971 4 886 5465

© 2010 Emerson Process Management GmbH & Co. OHG



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Manifest Placed Resolution Unit : Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, Inches, 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Manifest Reference Instance ID  : uuid:8CD7D66E3E1BDD119E619E2CD4A57BB9, uuid:6F4E4ADA6F22DD119309C913B5C4F142, xmp.iid:4DDA2D1C0451DF11A5F3B539A7977077, xmp.iid:CED85B1229C6DF11AE8580B3B8101844, uuid:CA2C126FCD1DDD1180B0AE91B168C09F, uuid:43301281EF0EDE11AC0C8B1920197FA9, uuid:CA2C126FCD1DDD1180B0AE91B168C09F, uuid:42301281EF0EDE11AC0C8B1920197FA9, uuid:D7BAB352B920DD11BCE585ADC1062D53, uuid:A4F7EB5ABF20DD11BCE585ADC1062D53, uuid:CA2C126FCD1DDD1180B0AE91B168C09F, uuid:D7BAB352B920DD11BCE585ADC1062D53, uuid:A4F7EB5ABF20DD11BCE585ADC1062D53, uuid:D5BAB352B920DD11BCE585ADC1062D53, uuid:AAF7EB5ABF20DD11BCE585ADC1062D53, uuid:A8F7EB5ABF20DD11BCE585ADC1062D53, uuid:CC2C126FCD1DDD1180B0AE91B168C09F, uuid:A2F7EB5ABF20DD11BCE585ADC1062D53, uuid:DBBAB352B920DD11BCE585ADC1062D53, uuid:D9BAB352B920DD11BCE585ADC1062D53, uuid:CA2C126FCD1DDD1180B0AE91B168C09F, uuid:CA2C126FCD1DDD1180B0AE91B168C09F, uuid:43301281EF0EDE11AC0C8B1920197FA9, uuid:D5BAB352B920DD11BCE585ADC1062D53, 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