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User’s

Manual

R1.05

FSA120

Flow Conguration Software

IM 01C25R51-01E

8th Edition

IM 01C25R51-01E

FSA120

Flow Conguration Software

IM 01C25R51-01E 8th Edition

8th Edition: Aug. 2012 (KP)

Contents

1. Introduction ...............................................................................................1-1

1.1 About This Manual ............................................................................................1-2

1.1.1 Trademarks ........................................................................................1-2

.1.2 Environmental Condition....................................................................1-3

.2 Software License Agreement ..........................................................................1-3

.2.1 Grant of License .................................................................................1-3

.2.2 Restriction ..........................................................................................1-4

.2.3 Copyright / Ownership .......................................................................1-4

.2.4 No Warranty / Limitation of Liability ....................................................1-4

.2.5 Term and Termination ........................................................................1-5

.2.6 General Provisions.............................................................................1-5

.2.7 DIPPR ................................................................................................1-6

2. General ......................................................................................................2-1

2.1 Components ......................................................................................................2-1

2.2 To Start with .......................................................................................................2-3

.3 Installation Flow ................................................................................................2-4

.4 Outline of FlowNavigator .................................................................................2-5

.5 FlowNavigator Programs .................................................................................2-9

3. Functional Specication ..........................................................................3-1

3.1 PC .......................................................................................................................3-1

3.1.1 Hardware Operating Environment .....................................................3-1

.1.2 Software Operating Environment ......................................................3-2

.2 Field Communication .......................................................................................3-3

.3 Model to be Connected ....................................................................................3-3

.4 Function Detail ..................................................................................................3-4

.4.1 Device Management ..........................................................................3-4

.4.2 FlowParameterManagement(FlowCongurationWizard) .............3-5

.4.3 FlowParameterManagement(ObtainFlowCoefcient) ..................3-6

.4.4 Primary Device ...................................................................................3-6

.4.5 Density Compensation.......................................................................3-7

IM 01C25R51-01E

4. Preparation ................................................................................................4-1

4.1 PC .......................................................................................................................4-1

4.1.1 Setting Items after Installing Windows ...............................................4-1

.2 Installation Procedure ......................................................................................4-2

.2.1 Online Manual ....................................................................................4-2

.2.2 Uninstall FSA210 ...............................................................................4-2

.2.3 For FieldMate Users ..........................................................................4-3

.2.4 FieldMate and Device Files Installation .............................................4-4

.2.5 FlowNavigator Installation ..................................................................4-4

.2.6 HowtoconrmVersionNumber ......................................................4-18

.3 Uninstallation ..................................................................................................4-20

.4 Initial Setting (HART Communication) .........................................................4-21

.4.1 Install Communication Device .........................................................4-21

.4.2 COM Port .........................................................................................4-21

.4.3 Wiring ...............................................................................................4-21

.4.4 Communication Setting....................................................................4-21

.5 Initial Setting (F

OUNDATION eldbus Communication) .................................4-23

4.5.1 Device ..............................................................................................4-23

.5.2 Install Communication Device .........................................................4-23

.5.3 Communication Setting....................................................................4-23

.5.4 Connect the Device to the power supply .........................................4-23

.5.5 Connect the Device to the Segment ................................................4-23

.6 Start FDT Frame Application .........................................................................4-25

.6.1 Update DTM Setup ..........................................................................4-25

.6.2 Start FieldMate .................................................................................4-25

.6.3 Start Device DTM .............................................................................4-29

.6.4 Save DTM Infomation ......................................................................4-31

.6.5 Exit FieldMate and DTM Works .......................................................4-31

.7 FlowNavigator Activation ...............................................................................4-32

.7.1 How to Activate ................................................................................4-32

5. Operational Flowchart .............................................................................5-1

5.1 Conguration Procedure (EJXMVTool) ..........................................................5-1

5.2 Conguration Procedure (DYFMVTool) .........................................................5-6

.3 Flow Parameters Download Procedure .......................................................5-10

6. Operation of FlowNavigator Program ....................................................6-1

6.1 Outline of FlowNavigator Program .................................................................6-1

6.1.1 Menu ..................................................................................................6-1

.1.2 Data Flow Diagram ............................................................................6-3

.1.3 Flow Calculation of Device and FlowNavigator .................................6-5

.2 Device Management .........................................................................................6-6

.2.1 Connect / Disconnect .........................................................................6-7

.2.2 Parameter ..........................................................................................6-8

iii

IM 01C25R51-01E

6.2.3 Upload from Device / Download to Device ......................................6-10

6.2.4 Print ..................................................................................................6-12

.2.5 Properties .........................................................................................6-13

.2.6 Additional functions ..........................................................................6-14

.3 Flow Parameters Management ......................................................................6-15

6.3.1 Initialize .

...........................................................................................6-16

6.3.2 Import ...............................................................................................6-17

.3.3 Export ...............................................................................................6-18

.3.4 Report ..............................................................................................6-19

.3.5 Help ..................................................................................................6-20

7. Operation of EJXMVTool .........................................................................7-1

7.1 Flow Conguration Wizard (Auto Compensation Mode) .............................7-1

7.1.1 FlowCongurationMode ...................................................................7-1

.1.2 Primary Device and Pipe Setup .........................................................7-2

.1.3 Fluid Setup .........................................................................................7-4

.1.4 Natural Gas Setup .............................................................................7-7

.1.5 Fluid Operating Range Setup ..........................................................7-12

.1.6 Fluid Physical Property Setup ..........................................................7-15

.1.7 ApplyFlowConguration .................................................................7-17

.2 Flow Conguration Wizard (Basic Mode) ....................................................7-18

.2.1 FlowCongurationMode .................................................................7-18

.2.2 Basic Mode Setup ............................................................................7-19

.2.3 ApplyFlowConguration .................................................................7-21

.3 Obtain Flow Coefcient ..................................................................................7-22

8. Operation of DYFMVTool .........................................................................8-1

8.1 Flow Conguration Wizard (Detail Compensation Mode) ............................8-1

8.1.1 FlowCongurationMode ...................................................................8-1

.1.2 Fluid Type Setup ................................................................................8-3

.1.3 Natural Gas Setup .............................................................................8-6

.1.4 Fluid Operating Range Setup ..........................................................8-11

.1.5 Fluid Physical Property Setup ..........................................................8-13

.1.6 ApplyFlowConguration .................................................................8-15

.2 Flow Conguration Wizard (Steam, Simple Compensation Mode) ...........8-16

.2.1 FlowCongurationMode .................................................................8-16

.2.2 Fluid Type Setup ..............................................................................8-17

.2.3 ApplyFlowConguration .................................................................8-18

.3 How to Conrm Flow Conguration .............................................................8-19

.3.1 Case1: Arithmetic Function Block is Standalone .............................8-20

.3.2 Case2: AR Block is Connected with Other Devices ........................8-22

9. File Format ................................................................................................9-1

9.1 Conguration File .............................................................................................9-1

9.2 Other Files ..........................................................................................................9-2

IM 01C25R51-01E

10. Error Message.........................................................................................10-1

10.1 Error Message .................................................................................................10-1

Appendix A. FSA210 Uninstallation ...............................................................A-1

Appendix B. Device Information .....................................................................B-1

B-1 Start up Procedure of Device and FlowNavigator ........................................ B-1

B-2 How to Congure digitalYEWFLO AR Block ................................................ B-2

-3 How to Check digitalYEWFLO AR Block Alarm ............................................ B-8

Appendix C. HART Communication Device Information .............................C-1

C-1 Installing Software for Communication Device ............................................ C-1

C-2 How to Conrm COM Port............................................................................... C-1

Appendix D. FOUNDATION eldbus Communication Device Information .......D-1

D-1 Installing Software for Communication Device ............................................ D-1

D-1-1 NI-FBUS Card ................................................................................... D-1

-2 Setting Software for Communication Device ............................................... D-1

-2-1 NI-FBUS Card ................................................................................... D-1

-3 Starting Software for Communication Device .............................................. D-3

-3-1 NI-FBUS Card ................................................................................... D-3

Revision Information ...............................................................................................i

<1. Introduction>

1-1

IM 01C25R51-01E

1. Introduction

ThisUser’sManualgivesinstructionsonFSA120FlowCongurationSoftware“FieldMate

FlowNavigator”.

FlowNavigator User’s Manual contains the following two items.

Table 1.1a FlowNavigator User’s Manual List

Title Contents Media IM No.

FSA120FlowConguration

Software

Operation manual for FlowNavigator

PDF File IM 01C25R51-01E

SA120FlowConguration

Software Getting Started

Basic procedure to install and

precautions

Paper IM 01C25R51-10E

ThissoftwareistobeusedtosetuptheEJXMultivariableTransmitteranddigitalYEWFLOVortex

Flowmeter; therefore, it is indispensable for users to read, understand and follow the instructions

on all the following user’s manual before actually starting the operation.

Table 1.1b EJX Multivariable Transmitter User’s Manual List

Title Contents IM No.

EJX910A and EJX930A Multivariable

Transmitters

Installation, wiring, and

maintenance

IM 01C25R01-01E

EJX910A and EJX930A Multivariable

Transmitter HART Communication

Type

Operation manual for HART

communication type

IM 01C25R02-01E

EJX910A and EJX930A Fieldbus

Communication Type

Operation manual for F

OUNDATION

eldbuscommunication

IM 01C25R03-01E

able 1.1c digitalYEWFLO Vortex Flowmeter User’s Manual List

Title Contents IM No.

ModelDYVortexFlowmeter,

ModelDYAVortexFlowConverter

Installation, wiring, and

maintenance

IM 01F06A00-01E

odelDYVortexFlowmeter,

ModelDYAVortexFlowConverter

Fieldbus Communication Type

Operation manual for F

OUNDATION

eldbuscommunication

IM 01F06F00-01E

Refer to FieldMate User’s Manual when using FlowNavigator.

Table 1.1d FieldMate User’s Manual List

Title Contents Media IM No.

FieldMate

ersatileDeviceManagement

Wizard

Operation manual for FieldMate PDF File IM 01R01A01-01E

FieldMate Operational Precaution Precautions Paper IM 01R01A01-91E

FieldMate

ersatileDeviceManagement

WizardGettingStarted

Quick start procedure for FieldMate Paper IM 01R01A04-01E

In this manual, following abbreviations are often used:

• AR Block stands for Arithmetic Function Block

• HART protocol revision 5 and 7 are described as HART 5 and HART 7 respectively.

<1. Introduction>

1-2

IM 01C25R51-01E

1.1 About This Manual

• This manual should be delivered to the end user.

• The information contained in this manual is subject to change without prior notice.

• The information contained in this manual, in whole or part, shall not be transcribed or copied

without YOKOGAWA’s written permission.

• I

n no case does this manual guarantee the merchantability of the transmitter or the software

oritsadaptabilitytoaspecicclientneeds.

• If any question arises or errors are found, or if any information is missing from this manual,

pleaseinformthenearestYokogawasalesofce.

• Changestospecications,structure,andcomponentsusedmaynotleadtotherevisionof

this manual unless such changes affect the function and performance of the products.

• T

he operation of the FlowNavigator described in this manual is the operation for the use

with FieldMate Basic. For the detailed installation and operation of FieldMate and additional

functions available on FieldMate Advance, please refer to the FieldMate User’s manual.

• T

he following safety symbols are used in this manual:

WARNING

Indicatesapotentiallyhazardoussituationwhich,ifnotavoided,couldresultindeathorserious

injury.

CAUTION

Indicatesapotentiallyhazardoussituationwhich,ifnotavoided,mayresultinminorormoderate

injury. It may also be used to alert against unsafe practices.

IMPORTANT

Indicates that operating the hardware or software in this manner may damage it or lead to system

failure.

NOTE

Draws attention to information essential for understanding the operation and features.

1.1.1 Trademarks

All the brand names or product names of Yokogawa Electric used in this document are either

trademarks or registered trademarks of Yokogawa Electric Corporation.

All the brand names or product names of other companies mentioned in this document are either

trademarks or registered trademarks of their respective holders.

<1. Introduction>

1-3

IM 01C25R51-01E

1.1.2 Environmental Condition

Operation

Temperature: 0 to 40 °C

Humidity: 20 to 80 % (No dew condensation)

Storage

Temperature: -10 to 50 °C

Humidity: 20 to 80 % (No dew condensation)

1.2 Software License Agreement

LicenseAgreementonFlowCongurationSoftware(“FieldMateFlowNavigator”)forEJX

MultivariableTransmitteranddigitalYEWFLOVortexFlowmeter.

IMPORTANT - PLEASE READ THIS AGREEMENT CAREFULLY:

BY INSTALLING, COPYING OTHERWISE USING THE ENCLOSED SOFTWARE PRODUCT

SIDENTIFIEDABOVE,YOUAGREETOBEBOUNDBYTHETERMSANDCONDITIONS

OFTHISSOFTWARELICENSEAGREEMENT(“AGREEMENT”).IFYOUDONOTAGREETO

THE TERMS OF THIS AGREEMENT, DO NOT INSTALL, COPY OR USE THE SOFTWARE

PRODUCT AND PROMPTLY RETURN IT TO THE PLACE OF PURCHASE.

1.2.1 Grant of License

(1) Subject to the terms and conditions of this Agreement, Yokogawa Electric Corporation

(“Licensor”)herebygrantstoyou(“Licensee”)anon-exclusiveandnon-transferable

righttousetheenclosedsoftwareproduct,FieldMateFlowNavigator,asidentiedabove

and associated materials and documentation in printed or electronic format (Collectively

“

LicensedSoftware”),inconsiderationoffullpaymentbyLicenseetotheLicensorofthe

license fee separately agreed upon by Licensor or its distributor.

(

2) Licensee shall have the right to use the Licensed Software in the operating environment

identiedbytheLicensor,either(a)totheextentspeciedinthespecicationsasagreed

uponbybothparties,or(b)ifnotspecied,forasingleuseronsinglecomputer.

(3) Licensee may use the Licensed Software solely for its own internal data processing

operations. Use of the Licensed Software for any purpose other than those as expressly

peciedinthedocumentationprovidedbyLicensorshallbeprohibited.Anyresultor

damage arising out of the use of Licensed Software shall be at Licensee’s own risk and

responsibility.

(

4) No copies of the Licensed Software shall be made without Licensor’s prior written consent.

(5) The Licensed Software may contain software which Licensor is licensed from third parties

(“ThirdPartySoftware”).LicenseeagreestousetheThirdPartySoftwareinaccordance

with the terms and conditions as set forth by licensors of such Third Party Software and

agrees to be bound thereby.

(

6) In no event shall Licensee make any use of the Licensed Software for any other purposes or

in any other manner than those stipulated hereunder.

(

7) Licensee agrees to use any Third Party Software solely as runtime use software which shall

be used solely as part of and with the integrated Licensed Software, and shall not make any

further use of Third Party Software for any other purposes or in any other manner.

<1. Introduction>

1-4

IM 01C25R51-01E

1.2.2 Restriction

Licenseeshallnot:(a)removeanymarksornoticesoftheLicensedSoftwareidentication,

intellectual property rights like trademark and copyright notice, or other notices or restrictions

from the Licensed Software; (b) transfer, sell, assign, sublicense or otherwise convey the

Licensed Software to any third party without Licensor’s prior written consent; nor (c) cause,

permit or attempt the reverse engineering, disassembly, decompilation, translation or adaptation

of the Licensed Software. Any transfer of the Licensed Software is subject to Licensor’s transfer

policies and fees.

1.2.3 Copyright / Ownership

The Licensed Software, including but not limited to any technology, algorithm, know-how,

process and others contained therein, is the proprietary property and trade secret of Licensor or

a third party who grants to Licensor the right of sub-licensing and is protected by copyright and

other intellectual property laws and treaties. Licensee acquires only right to use the Licensed

Software and does not acquire any rights, expressed or implied, in the Licensed Software or

ediacontainingtheLicensedSoftwareotherthanthosespeciedinthisAgreement.Licensor

shall at all times retain all rights, titles, and interests, including intellectual property rights, in the

Licensed Software and such media.

The Licensee shall not disclose or divulge the aforesaid proprietary property and trade secret to

any other individual or entity than the Licensee's personnel who reasonably need to know such

proprietary property and trade secret. Such Licensee’s personnel shall be bound by the same

secrecy obligations set forth herein.

1.2.4 No Warranty / Limitation of Liability

(1) THELICENSEDSOFTWARESHALLBEPROVIDEDTOLICENSEEONAN"ASIS"

BASIS.UNLESSOTHERWISEEXPRESSLYPROVIDEDBYLICENSOR,LICENSOR

ANDTHESUPPLIERSWHOPROVIDEORLICENSEPARTOFTHELICENSED

SOFTWARETOLICENSOR("SUPPLIERS")HEREBYEXPRESSLYDISCLAIMANYAND

ALLIMPLIEDWARRANTIESOFANYKINDWHATSOEVER,INCLUDINGWITHOUT

LIMITATION WARRANTY OF UNINTERRUPTED OR ERROR- FREE OPERATION,

SATISFACTORY QUALITY, NON-INFRINGEMENT, MERCHANTABILITY OR FITNESS

FOR A PARTICULAR PURPOSE, AND SHALL NOT BE LIABLE TO LICENSEE FOR

ANY DAMAGE OR LOSS CAUSED BY USE OR INABILITY TO USE OF THE LICENSED

SOFTWARE. LICENSOR AND SUPPLIERS DISCLAIM ANY AND ALL LIABILITY AND

ILLHAVENOLIABILITYFORVIOLATION,MISAPPROPRIATIONORINFRINGEMENT

OF INTELLECTUAL PROPERTY RIGHTS OF ANY THIRD PARTY.

(

2) INNOEVENTSHALLLICENSORANDSUPPLIERSBELIABLE,WHETHERIN

CONTRACT, TORT OR OTHERWISE AND WHETHER OR NOT LICENSOR AND

UPPLIERSHAVEBEENADVISEDOFTHEPOSSIBILITYOFSUCHLOSSOR

DAMAGE, FOR ANY LOSS OR DAMAGE INCLUDING CONSEQUENTIAL, INCIDENTAL,

NDIRECTOREXEMPLARYDAMAGES,LOSSOFPROFITS,LOSSOFREVENUE,

LOSSOFBUSINESSORGOODWILL,LOSSOFDATAORLOSSOFAVAILABILITY.

NNOEVENTSHALLLICENSORANDSUPPLIERS’AGGREGATELIABILITYEXCEED

THE AMORTIZED BALANCE OF THE AMOUNT PAID BY LICENSEE FOR USE OF THE

CONCERNED PART OF THE LICENSED SOFTWARE.

(

3) THIS PARAGRAPH 1.2.4 STATES THE ENTIRE WARRANTY AND LIABILITY OF

LICENSOR AND SUPPLIERS IN CONNECTION WITH THE LICENSED SOFTWARE.

THIS PARAGRAPH 1.2.4 ALLOCATES RISKS UNDER THIS AGREEMENT BETWEEN

LICENSEE AND LICENSOR/SUPPLIERS AND COMPRISES FUNDAMENTAL

ELEMENTS OF THIS LICENSE. LICENSOR’S PRICING OF THE LICENSED SOFTWARE

REFLECTS THIS ALLOCATION OF RISKS AND LIMITATION OF LIABILITY.

<1. Introduction>

1-5

IM 01C25R51-01E

(4) LICENSEE SHALL INDEMNIFY, DEFEND AND HOLD LICENSOR AND SUPPLIERS

FROM ANY CLAIMS, DEMANDS, LIABILITIES, LOSSES, DAMAGES, JUDGMENTS OR

SETTLEMENTS, INCLUDING ALL REASONABLE COSTS AND EXPENSES RELATED

THERETO INCLUDING ATTORNEY’S FEES, DIRECTLY OR INDIRECTLY RESULTING

FROM ANY CLAIM MADE OR POTENTIAL CLAIM BY A THIRD PARTY AGAINST

LICENSOR OR SUPPLIERS ARISING OUT OF ANY ACT OR USE OF LICENSED

SOFTWARE BY LICENSEE.

1.2.5 Term and Termination

(1) This Agreement shall become effective when the Licensee installs, copies or otherwise

commences to use the Licensed Software and remain in full force until and terminate when

(a) Licensor terminates this Agreement according to paragraph 1.2.5 (2); or (b) the Licensee

ceases to use the Licensed Software, whichever comes earlier.

(

2) Licensor shall have the right to immediately terminate this Agreement without any notice to

Licensee, if Licensee breaches any of the terms and conditions hereof.

(

3) Upon termination of this Agreement, Licensee shall immediately, in accordance with

instructions by Licensor, return all copies of the Licensed Software in its possession to

Licensor or its designee and erase all copies of the Licensed Software installed in any

computer hereunder.

(

4) The license fee paid by the Licensee to the Licensor in consideration of the use of the

Licensed Software hereunder shall be non-refundable unless otherwise expressly provided

herein.

(

5) The provisions of the paragraphs 1.2.3, 1.2.4, 1.2.5 and 1.2.6 shall survive any expiration or

termination of this Agreement.

1.2.6 General Provisions

(1) This Agreement shall be governed by and construed in accordance with the laws of Japan.

All disputes, controversies or differences which may arise between the parties hereto, out

forinrelationtoorinconnectionwiththisAgreementshallbenallysettledbyarbitration

in Tokyo, Japan in accordance with the Commercial Arbitration Rules of the Japan

ommercialArbitrationAssociation.Theawardrenderedbythearbitrator(s)shallbenal

and binding upon the parties hereto.

(

2) This Agreement shall supersede any prior representations, discussions, undertakings,

communications or advertising with respect to the Licensed Software to the extent such

representations, discussions, undertakings, communications or advertising should be

discrepant or inconsistent with this Agreement.

(

3) If any part of this Agreement is found void or unenforceable under any laws or regulations

and Licensor deems it is not reasonable to license without such void or unenforceable part,

Licensor is entitled to modify the terms of this Agreement or terminate this Agreement at its

option without owing any liability to Licensee.

(

4) Licensee agrees that the Licensed Software shall not be shipped, transferred or exported to

any country or used in any manner prohibited by any export administration laws, restrictions

or regulations of Japan, the United States and other countries that may be applicable to the

Licenced Software.

<1. Introduction>

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IM 01C25R51-01E

1.2.7 DIPPR

(1) Licensed Software may include a database developed by the Design Institute for Physical

Property Data (DIPPR

) which is a branch of the sponsored research projects of the

American Institute of Chemical Engineers (AIChE

(2) THEBYU-TPLWILLUSEREASONABLEEFFORTSDESIGNEDTOVERIFYTHATTHE

DATA CONTAINED IN THE DATABASE HAS BEEN SELECTED ON THE BASIS OF

OUNDSCIENTIFICJUDGMENT.HOWEVER,NEITHERTHEBYU-TPLNORAICHE

MAKEANYWARRANTIESTOTHATEFFECT.THEDATABASEISPROVIDED“AS

IS” WITHOUT WARRANTY OF ANY KIND. BYU-TPL DISCLAIMS ALL WARRANTIES,

EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO WARRANTIES OF

MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. NEITHER THE

BYU-TPL NOR AICHE

SHALL BE LIABLE FOR ANY DAMAGES, LOSS OF PROPERTY

OR PROFITS, OR CONSEQUENTIAL, EXEMPLARY OR SPECIAL DAMAGES THAT MAY

ESULTFROMERRORSOROMISSIONSINTHEDATABASEEVENIFADVISEDOF

THE POSSIBILITY OF SUCH DAMAGES.

(

3) LICENSEEACKNOWLEDGESTHEABOVEARTICLE1.2.7(1)AND(2)ANDAGREES

NOT TO MAKE ANY CLAIMS OR DEMANDS AGAINST LICENSOR, BYU-TPL NOR

AIChE

WITH RESPECT TO DIPPR

AS STATED IN ARTICLE 1.2.4 (4).

<2. General>

2-1

IM 01C25R51-01E

2. General

2.1 Components

The following picture shows the items included in the FSA120 package.

FieldMate (bundled)

CD-ROM DVD-ROM

FieldMate

CD-ROM

FlowNavigator

FSA120

USB FieldMate Modem (Option)

Device Files

License Number

Sheet

FieldMate

Paper Document

FieldMate

License Number

Sheet

FlowNavigator

Disc No.1

Disc No.3

Disc No.2 License Sheet No.1 Document No.1 and No.2

License Sheet No.2

Paper Document

FlowNavigator

Document No.3 and No.4

F01E.ai

FlowNavigator

Figure 2.1 Components of FSA120

Each disk contains the following software.

 CD-ROM/DVD-ROM: 3 discs

(1) FieldMate <Disc No.1>

(2) Device Files (Includes Device DTM*) <Disc No.2>

*: Device DTM is delivered by Yokogawa DTMLibrary HART/FOUNDATIONeldbus

(3) FlowNavigator (Includes FlowNavigator Program and Resource) <Disc No.3>

 License Sheet: 2 sheets

(1) FieldMateLicenseNumberSheet(BasicorAdvance,asspeciedinorder)

(

2) FlowNavigator License Number Sheet <License Sheet No.2>

<2. General>

2-2

IM 01C25R51-01E

 Paper Document: 4 sheets

(1) FieldMate Getting Started (IM 01R01A04-01E) <Document No.1>

(2) FieldMate Operational Precaution (IM 01R01A01-91E) <Document No.2>

(3) FlowNavigator Getting Started (IM 01C25R51-10E) <Document No.3>

(4) FlowNavigator License Agreement <Document No.4>

 USB FieldMate Modem (Option)

NOTE

ForFSA120R1.04orlater,theproductnamehasbeenchangedto“FieldMateFlowNavigator”

becausetheDYFMVToolprogramfordigitalYEWFLOVortexFlowmeterhasbeenadded.

Consequently, the following items have been renamed accordingly:

<Disc No.3>:

JXMVToolAdditionalresourcedisk→FlowNavigatorCD-ROM

<License Sheet No.2>:

JXMVToolLicenseNumberSheet→FlowNavigatorLicenseNumberSheet

<Document No.3>:

JXMVToolReadMeFirst→FlowNavigatorGettingStarted

<Document No.4>:

JXMVToolLicenseAgreement→FlowNavigatorLicenseAgreement.

NOTE

The location of following software has been changed for FSA120 R1.04 or later.

• DeviceFilesDVD-ROM<DiscNo.2>:

FlowNavigator program has been moved from Yokogawa DTMLibrary HART/F

OUNDATION

eldbusinDeviceFilesDVD-ROMtoFlowNavigatorCD-ROM

• FlowNavigator CD-ROM <Disc No.3>:

nadditiontoResource,theFlowNavigatorprogram(EJXMVToolandDYFMVTool)hasbeen

added.

<2. General>

2-3

IM 01C25R51-01E

2.2 To Start with

1) FlowNavigatoristhesoftwareutilizingFDT/DTMtechnology.Tousethissoftware,aframe

application is required. ‘Field Mate’ is bundled with this software package as Yokogawa

tandardframeapplication.ThequalityandoperabilityofFlowNavigatoriscertiedforuse

with FieldMate only. Please use ‘Field Mate’ as frame application.

Also, you can use Field communication server included in FieldMate as a Communication

DTM. For the installation and operation of FieldMate, please refer to the printed document.

•“

FieldMateGettingStarted”(IM01R01A04-01E)<DocumentNo.1>

•“FieldMateOperationalPrecaution”(IM01R01A01-91E)<DocumentNo.2>

For the details of installation and operation, please also refer to the user’s manual of

FieldMate in pdf format shown by start menu.

) Before starting any operation, please carefully read the instructions in the user’s manual

of FlowNavigator and obtain necessary knowledge about installation and operation of the

software.

heUser’smanual“FSA120FlowCongurationSoftware”(IM01C25R51-01E)isprovided

asaPortableDocumentFormat(pdf)leintheCD-ROMlabeled“FlowNavigator”,andis

located at



<FlowNavigatorCD-ROM>:\EJXMVTool_Manual.pdf

 <FlowNavigatorCD-ROM>:\DYFMVTool_Manual.pdf

Set the FlowNavigator CD-ROM in the CD-ROM drive of your computer and double click the

ameofthele.

ToreadtheleinPDFformat,AdobeReaderisrequired.

If Adobe Reader is not on your PC, download and install Adobe Reader from the following

website.

<http://www.adobe.com/>

<2. General>

2-4

IM 01C25R51-01E

2.3 Installation Flow

Followingsaretheowofstandardinstallation.Astheproceduresmaydifferaccordingtothe

condition,pleasenddetailsineachdesignatedmanualandfollowtheinstructions.

Step 1

Conrm incompatible software does not exist, PRM and FSA210

(Refer to <Document No.2>)

Step 2

Install communication device software (For F

OUNDATION eldbus

communication)

Step 3 Install FieldMate (Refer to <Document No.1>)

1) Install FieldMate <Disc No.1>

2) Enter the license number of FieldMate <License Sheet No.1>

3) Install Device Files <Disc No.2>

Step 4 Install FlowNavigator <Disc No.3>

Step 5 Start FieldMate

1) Register yourself in FieldMate (Refer to <Document No.1>)

2) Start Device DTM

Step 6 Start FlowNavigator Program

1) Enter the license number of FlowNavigator <License Sheet No.2>

<2. General>

2-5

IM 01C25R51-01E

2.4 Outline of FlowNavigator

The FSA120 (FieldMate FlowNavigator) is the software package which offers various functions to

helpuserstoeasilycongurethemassowparametersofdevice.

The FSA120 includes following two programs:

•

 EJXMVTool:forEJXMultivariableTransmitter

• DYFMVTool:fordigitalYEWFLOVortexFlowmeter

FSA120 includes FieldMate, Yokogawa’s frame application. It employs FDT/DTM technology and

works on the FieldMate.

FSA120 has the following features:

•

 Easyowparametercongurationbydialogwindows

• Congurationoftheuidphysicalproperties*

*: DIPPR, Steam tables IAPWS-IF97, Natural gas standard AGA8/ISO12213

• Congurationoftheprimarydevice**

 **:Orice,Nozzle,Venturi,FIX

• Variousowcalculationmodes

EJXMVTool:AutoCompensationMode/BasicMode

DYFMVTool:DetailCompensationMode/SteamMode/SimpleMode

• HART and F

OUNDATIONeldbusH1aresupported.

FSA120 provides the following advantages to device:

•

 Highly-responsiveowmeasurementandsavingcostbybuilt-inowcomputerinside

device

•

 Highly-accuratemassowrateoutputcompensatedbyprocesstemperatureorpressure

valuebyusingtheuidphysicalpropertiesdatabase

• EasymassowcongurationbyFDT/DTMstandardconformingsoftware

FieldMate: Yokogawa’s frame application which conforms to FDT standard

 FDT(FieldDeviceTool):denesthesystemenvironmentinwhichtheDTMruns.

 DTM(DeviceTypeManager):theapplicationwhichdenesthegraphicaluserinterface(GUI)specictothedevice.

NOTE

ForFSA120R1.03orbefore,FSA120wascalled“EJXMVTool(EJX-MVCongurationDTM)”

becauseitcomprisedasingleEJXMVToolprogramfortheEJXMultivariableTransmitter.

ForFSA120R1.04orlater,theproductnamehasbeenchangedto“FieldMateFlowNavigator

(FlowCongurationSoftware)”becausetheDYFMVToolprogramfordigitalYEWFLOVortex

Flowmeter has been added.

<2. General>

2-6

IM 01C25R51-01E

FlowNavigatorconsistsoftwoprograms(EJXMVToolandDYFMVTool)andResource

(Instruction Manual and Database) for both programs.

operformtheowcongurationofEJXMultivariableTransmitter,useFlowNavigatorprogram,

EJXMVTool,whichworksonDeviceDTM,EJX910HART/F

OUNDATIONeldbusDTM.

EJXMVToolconsistsoftheFlowCongurationWizard,adialogeditorforowconguration,and

ObtainFlowCoefcient,adisplayforconrmingtheowconguration.

ToperformtheowcongurationofdigitalYEWFLOVortexFlowmeter,useFlowNavigator

program,DYFMVTool,whichworksonDeviceDTM,DYF(SoftDL)F

OUNDATIONeldbusDTM.

DYFMVToolconsistsoftheFlowCongurationWizard,adialogeditorforowconguration.

ThefollowingchartsshowacongurationconsistingofanotebookPC,communicationdevice

andEJXMultivariableTransmittersanddigitalYEWFLOVortexFlowmeter.

Database

Instruction Manual

Device DTM (Device Management)

Communication DTM

Notebook PC

USB Port / PCMCIA Card Slot

Communication Device (HART, F

OUNDATION fieldbus)

HART Communication /

OUNDATION fieldbus-H1 Communication

EJX Multivariable Transmitter digitalYEWFLO Vortex Flowmeter

FieldMate (Versatile Device Management Wizard)

FlowNavigator(Flow Configuration Software)

Resource

EJXMVTool

Program

EJX910 HART/

OUNDATION fieldbus DTM

DYFMVTool

DYF(SoftDL)

FOUNDATION fieldbus DTM

F0202E.ai

Figure 2.2a Functional diagram

<2. General>

2-7

IM 01C25R51-01E

F0203E.ai

FlowNavigator Resource

Database

Physical Properties

Database

Primary Device

Information

(Only EJXMVTool)

Fluid Information Operating Conditions

Instruction Manual

FlowNavigator

Figure 2.2b FlowNavigator Resource

EJXMVTool

(Flow Parameter Management)

Obtain Flow Coefficient

Flow Configuration Wizard

Sensor mode

Simulation mode

Auto / Basic

Compensation Mode

Dialog Editor Dialog Editor Dialog Editor Dialog Editor

File Management

Calculation of flow

parameters

Report

Download to /

Upload from

Device

Monitoring

Process Value

Offline Parameters Online Parameters

EJX910 HART/F

OUNDATION fieldbus DTM

(Device Management)

F0204E.ai

Tag

Range

Unit

Damping

Lowcut

Tag

Range

Unit

Damping

Lowcut

Adjustment

Figure 2.2c FlowNavigator Program and Device DTM (EJX Multivariable Transmitter)

<2. General>

2-8

IM 01C25R51-01E

DYFMVTool

(Flow Parameter Management)

Flow Configuration Wizard

Detail / Steam, Simple

Compensation Mode

Dialog Editor Dialog Editor Dialog Editor

Calculation of Flow Parameters

File Management

Report

Download to /

Upload from

Device

Monitoring

Process Value

Offline Parameters Online Parameters

DYF(SoftDL) F

OUNDATION fieldbus DTM

(Device Management)

F0205E.ai

Tag

Range

Unit

Damping

Lowcut

Tag

Range

Unit

Damping

Lowcut

Adjustment

Figure 2.2d FlowNavigator Program and Device DTM (digitalYEWFLO Vortex Flowmeter)

<2. General>

2-9

IM 01C25R51-01E

2.5 FlowNavigator Programs

FlowNavigator and Device DTM consist of following programs.

Each program can be started in the following way.

• E

xecute Device DTM on the FieldMate*.

(Not necessary to enter a license for FlowNavigator)

• E

xecute the FlowNavigator Program on Device DTM.

(Necessary to enter your license for FlowNavigator)

*: Device DTM function is operated by DTMWorks

Table 2.1 Function of FlowNavigator Resource

Program Function Contents Install location

Startup

method

License

FlowNavigator Resource Database Database • P

hysical property

databaseusedforow

parameter calculation

– – Required

Instruction

Manual

Instruction

Manual

• F

lowNavigator

Instruction Manual

<DTM InstDrive>:

\Program Files

\Yokogawa\DTMs

\MVToolCommon

Table 2.2 Function of EJXMVTool (for HART communication) and EJX910 HART DTM

Program Function Contents Install location

Startup

method

License

Device DTM EJX910

HART DTM

Device

Management

• Online Parameter

• OfineParameter

• Download to or Upload

from the device

<DTM InstDrive>:

\Program Files

\Yokogawa\DTMs

Execute

from

FieldMate

Not

required

Flow

Navigator

Program

-EJXMVTool-

Flow

Conguration

Wizard

Flow

Parameter

Management

-Flow

Conguration-

•

 Congurationof

owparametersfor

EJX Multivariable

Transmitter

- Auto Compensation

Mode

- Basic Mode

• File management

• Report function

<DTM InstDrive>:

\Program Files

\Yokogawa\DTMs

\EJXMVTool

Execute

from

EJX910

HART

DTM

Required

Obtain Flow

Coefcient

Flow

Parameter

Management

Conrming

Flow

Conguration-

• Flowcoefcient

retrieval

Required

<2. General>

2-10

IM 01C25R51-01E

Table 2.3 Function of EJXMVTool (for F

OUNDATION

fieldbus communication) and EJX910 F

OUNDATION

eldbus DTM

Program Function Contents Install location

Startup

method

License

Device DTM EJX910

OUNDATION

eldbusDTM

Device

Management

• Online Parameter

• OfineParameter

• Download to or Upload

from the device

<DTM InstDrive>:

\Program Files

\Yokogawa\DTMs

Execute

from

FieldMate

Not

required

Flow

Navigator

Program

-EJXMVTool-

Flow

onguration

Wizard

Flow

Parameter

Management

-Flow

Conguration-

• Congurationof

owparametersfor

EJX Multivariable

Transmitter

- Auto Compensation

Mode

- Basic Mode

• File management

• Report function

<DTM InstDrive>:

\Program Files

\Yokogawa\DTMs

\YokFFFramework

\EJXMVToolFF

Execute

from

EJX910

OUNDATION

eldbus

DTM

Required

Obtain Flow

Coefcient

Flow

Parameter

Management

Conrming

Flow

Conguration-

• Flowcoefcient

retrieval

Required

Table 2.4 Function of DYFMVTool (for F

OUNDATION

fieldbus communication) and DYF(SoftDL)

OUNDATION

eldbus DTM

Program Function Contents Install location

Startup

method

License

Device DTM DYF(SoftDL)

OUNDATION

eldbusDTM

Device

Management

• Online Parameter

• OfineParameter

• Download to or Upload

from the device

<DTM InstDrive>:

\Program Files

\Yokogawa\DTMs

Execute

from

FieldMate

Not

required

Flow

Navigator

Program

-DYFMVTool-

Flow

onguration

Wizard

Flow

Parameter

Management

-Flow

Conguration-

• Congurationofow

parameters for DYF

- Detail

Compensation Mode

- Steam, Simple

Compensation Mode

• File management

• Report function

<DTM InstDrive>:

\Program Files

\Yokogawa\DTMs

\YokFFFramework

\DYFMVToolFF

Execute

from

DYF

(SoftDL)

OUNDATION

eldbus

DTM

Required

<3. Functional Specication>

3-1

IM 01C25R51-01E

3. Functional Specication

3.1 PC

3.1.1 Hardware Operating Environment

Hardware Operating Environment

Windows 7 Windows Vista

PC IBM PC/AT Compatible

CPU Intel

Core

2DuoT7100orsimilarspecicationCPU

Main Memory

2GB or more

1GB or more

(2GB or more recommended)

Hard Disk Drive 8GB or more

CD-ROM Drive Windows 7 compatible W

indowsVistacompatible

Display 1024×768 or better resolution

recommended

Windows 7 compatible

1024×768 or better resolution

recommended

indowsVistacompatible

Network port

HART One USB port USB2.0 standard / Bluetooth 2.0

OUNDATIONeldbusH1 One PCMCIA card slot / One USB port USB2.0 standard

<3. Functional Specication>

3-2

IM 01C25R51-01E

3.1.2 Software Operating Environment

• Windows 7 Professional 32bit / 64bit / Home Premium 32bit / 64bit SP1 or later (English)

• WindowsVistabusiness32bitSP2orlater(English)

IMPORTANT

The following software is necessary to be installed in your computer.

Common

Adobe Reader

DTframeapplicationconformingtoFDTInterfaceSpecicationVersion1.2

The frame application which is already tested with FSA120 and proper operation is

onrmed;FieldMate

For HART Communication

ommunicationDTMforHARTModemconformedFDTInterfaceSpecicationVersion1.2

The following Communication DTM has been tested with FSA120 and compatibility is

onrmed;HARTCommunicationDTMincludedinFieldMate

For F

OUNDATION eldbus Communication

Communication DTM for PCMCIA-FBUS conforming to FDT version 1.2

The following Communication DTM has been tested with FSA120 and compatibility is

onrmed;F

OUNDATIONeldbuscommunicationDTMincludedinFieldMate.

NI-FBUS Communications Manager

•W

indowsVista,Windows7:4.0.1orlater

FunctionBlockSchedulingandConnectionTool(ForDYFMVTool)

e.g.NI-FBUSCongurator

•WindowsVista,Windows7:4.0.1orlater

NOTE

Install the following software which is contained in FSA120.

1) FieldMate

• FDT frame application

• H

ART communication DTM

• F

OUNDATIONeldbuscommunicationDTM

2) Device Files

• E

JX910 HART DTM (included in Yokogawa DTM Library HART)

• E

JX910 FOUNDATIONeldbusDTM(includedinYokogawaDTMLibraryFOUNDATION

eldbus)

• DYF(SoftDL) F

OUNDATIONeldbusDTM(includedinYokogawaDTMLibraryFOUNDATION

eldbus)

IMPORTANT

IfyoualreadyhaveFSA210MassFlowCongurationSoftwareinstalledinyourcomputer,

uninstall FSA210 to avoid the competition of COM PORT.

<3. Functional Specication>

3-3

IM 01C25R51-01E

3.2 Field Communication

1) HART communication

Recommended HART modem:

USB FieldMate Modem: BRAIN/HART (Optional code: /B, Yokogawa Parts Number:

F9197UC)

 VIATOR

Bluetooth

Interface: Model 010041 (MACTek

) *

2) F

OUNDATIONeldbuscommunication

Recommended:

Softing

FFusb**

National Instruments

PCMCIA-FBUS Series 2

NI USB-8486

* : Microsoft supplied Bluetooth stack is used.

**: The package is provided complete with FieldMate driver from Softing.

3.3 Model to be Connected

• EJX Multivariable Transmitter

EJX910A/EJX930A

Protocol: HART, F

OUNDATIONeldbus

• digitalYEWFLOVortexFlowmeter

DY-F/DYA-F

Protocol: F

OUNDATIONeldbus

Device Type: 9, Device revision: 3 or later

<3. Functional Specication>

3-4

IM 01C25R51-01E

3.4 Function Detail

3.4.1 Device Management

Device Management function is supported by EJX910 HART/FOUNDATIONeldbusand

DYF(SoftDL) F

OUNDATIONeldbusDTM.

OUNDATIONeldbusDeviceDTMsupportsfollowingblocks.

EJX910 F

OUNDATIONeldbusDTM:

Resource block, Sensor Transducer block, Flow Transducer block, LCD Transducer block,

and AI function blocks

DYF(SoftDL) F

OUNDATIONeldbusDTM:

Resource block, Transducer block, AI function blocks and AR function block

ParametersofotherfunctionblocksshouldbesetandchangedbyotherFieldbuscongurators.

IMPORTANT

UsefunctionblockschedulingandconnectiontoolforDYFMVTool.Afterusingthesesettingtool,

nishtheprogrambeforestartingFlowNavigator.

(1) Online Parameter

The Device General Parameters of the device can be edited directly in online status.

(Tag, Range, Unit, Damping, Lowcut, Indicator display)

(

2) OfineParameter

TheDeviceGeneralParametersofthedevicecanbeeditedandstoredinofinedatabase.

(Process value monitoring, Tag, Range, Unit, Damping, Lowcut, Indicator display)

(

3) Downloads to or uploads from the device

TheDeviceFlowParametersandDeviceGeneralParametersstoredinofinedatabaseare

downloaded to the device.

heparametersofthedeviceisuploadedfromthedeviceandstoredinofinedatabase.

Device General Parameters:

HART or F

OUNDATIONeldbusparametersofthedevice,whichcanbemodiedwithusing

Device DTM. e.g. range, damping, etc.

User Flow Parameters:

heparameterswhichusersinputonEJXMVToolandDYFMVToolforowconguration.

These parameters are used to only generate Device Flow Parameters and not downloaded to

the device.

Device Flow Parameters:

heparameterswhichEJXMVToolandDYFMVToolcalculateandgeneratewithusingtheUser

Flow Parameters and are downloaded to the device.

<3. Functional Specication>

3-5

IM 01C25R51-01E

3.4.2 Flow Parameter Management (Flow Conguration

Wizard)

(1) EJXMVTool

(a) Auto Compensation Mode

 CongurationoftheuidphysicalpropertiesandprimarydevicefortheEJX

Multivariable Transmitter can be performed using a dialog window. Refer to Section 7.1.

(

b) Basic Mode

 Flowoperationanddensitycompensationareperformedconventionally,withtheow

factors being input manually. Refer to Section 7.2.

(

c) File management

Parametersareimportedandexportedusingfollowingles.

xmvle:import/exportUserFlowParametersandDeviceFlowParameters

prmle:ImportHARTDeviceFlowParameters(onlyforFSA210user)

(d) Report function

 ExportUserFlowParametersandDeviceGeneralParametersinCSVleformat.

(2) DYFMVTool

(

a) Detail (Gas / Liquid) Compensation Mode

 CongurationoftheuidphysicalpropertiesforthedigitalYEWFLOVortexFlowmeter

can be performed using a dialog window. Refer to Section 8.1.

(

b) Steam Compensation Mode

 Flowoperationanddensitycompensationareperformed,withtheowfactorsinside

digitalYEWFLOVortexFlowmeter.RefertoSection8.2.

 Flowoperationanddensitycompensationareperformedconventionally,withtheow

factors being input manually. Refer to Section 8.2.

(

d) File management

 Parametersareimportedandexportedusingfollowingles.



vmvle:import/exportUserFlowParametersandDeviceFlowParameters

(e) Report function

 ExportUserFlowParametersandDeviceGeneralParametersinCSVleformat.

<3. Functional Specication>

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IM 01C25R51-01E

3.4.3 Flow Parameter Management (Obtain Flow Coefcient)

ThisfunctionissupportedbyEJXMVTool.

 Flowcoefcientretrieval

 Theowcoefcientcanbeobtainedfromthedevice(inputselection:sensordataor

simulated data).

3.4.4 Primary Device

ThisfunctionissupportedbyEJXMVToolAutoCompensationMode.

Table 3.1 Supported primary devices

Type Primary Device

Orice O

riceCornerTaps[ISO5167-11991]

OriceCornerTaps[ISO5167-22003]

OriceCornerTaps[ASMEMFC-3M1989]

OriceFlangeTaps[ISO5167-11991]

OriceFlangeTaps[ISO5167-22003]

OriceFlangeTaps[ASMEMFC-3M1989]

OriceFlangeTaps[AGANo.31992]

OriceDandD/2Taps[ISO5167-11991]

OriceDandD/2Taps[ISO5167-22003]

OriceDandD/2Taps[ASMEMFC-3M1989]

Nozzle I

SA1932nozzle[ISO5167-11991/ISO5167-32003]

Longradiusnozzle[ISO5167-11991/ISO5167-32003]

ASMEFLOWNOZZLES[ASMEMFC-3M1989]

Venturi V

enturinozzle[ISO5167-11991/ISO5167-32003]

ClassicalVenturitube“ascast”convergentsection[ISO5167-11991/ISO5167-42003]

ASMEVenturiTubesWitharoughCastorFabricatedConvergent[ASMEMFC-3M1989]

ClassicalVenturitubewithamachinedconvergentsection[ISO5167-11991/ISO5167-42003]

ASMEVenturiTubesWithamachinedconvergentsection[ASMEMFC-3M1989]

ClassicalVenturitubewitharough-weldedsheet-ironconvergentsection

[ISO5167-11991/ISO5167-42003]

FIX F

ixedMode(Setsthedischargecoefcientandgasexpansionfactortoaxedvalue)

<3. Functional Specication>

3-7

IM 01C25R51-01E

3.4.5 Density Compensation

ThisfunctionissupportedbyEJXMVToolAutoCompensationModeandDYFMVToolDetail

(Gas/Liquid) Compensation Mode.

(

1) Density compensation using physical properties database

Table 3.2 Supported physical properties database

Fluid name

Acetic Acid (*)

Acetone

Acetonitrile

Acetylene

Acrylonitrile

Air

Allyl Alcohol

Ammonia

Argon

Benzaldehyde

Benzene

enzoicAcid(*)

BenzAlcohol

Biphenyl

Bromine

Carbon Dioxide

Carbon Monoxide

Carbon Tetrachloride

Chlorine

Chlorodiuoromethane

Chloroprene

Chlorotriuoroethylene

Cycloheptane

Cyclohexane

Cyclopentane

Cyclopentene

Cyclopropane

Dichlorodiuoromethane

Divinyl Ether

Ethane

Ethanol

Ethylamine

Ethylbenzene

Ethylene

Ethylene Glycol

Ethylene Oxide

Fluorene

Furan

Helium-4

Hydrazine

Hydrogen

Hydrogen Chloride

Hydrogen Cyanide

Hydrogen Peroxide

ydrogenSulde

Fluid name

Isobutane

Isobutene

Isobutylbenzene

Isopentane

Isoprene

Isopropanol

m-chloronitrobenzene

m-dichlorobenzene

Methane

Methanol

Methyl Acrylate

Methyl Ethyl Ketone

ethylVinylether

Monochlorobenzene

n-Butane

n-Butanol

n-Butyraldehyde

n-Butyronitrile

n-Decane

n-Dodecane

n-Heptadecane

n-Heptane

n-Hexane

n-nonane

n-Octane

n-Pentane

Neon

Neopentane

Nitric Acid (*)

Nitric Oxide

Nitrobenzene

Nitroethane

Nitrogen

Nitromethane

Nitrous Oxide

Oxygen

Pentauoroethane

Phenol

Phosphoric Acid (*)

Propadiene

Propane

Propylene

Pyrene

Styrene

Sulfur Dioxide

Fluid name

Toluene

Trichloroethylene

Trichlorouoromethane

inylAcetate

VinylChloride

VinylCyclohexene

Water

1-Butene

1-Decene

1-Decanal

1-Decanol

1-Dodecene

1-Dodecanol

1-Heptanol

1-Heptene

1-Hexene

1-Hexadecanol

1-Octanol

1-Octene

1-Nonanal

1-Nonanol

1-Pentadecanol

1-Pentanol

1-Pentene

1-Undecanol

1,1,2,2-Tetrauoroethane

1,1,2-Trichloroethane

1,2,4-Trichlorobenzene

1,2-Butadiene

1,3-Butadiene

1,3,5-Trichlorobenzene

1,4-Dioxane

1,4-Hexadiene

2-Methyl-1-Pentene

2,2-Dimethylbutane

*: Only for liquid.

<3. Functional Specication>

3-8

IM 01C25R51-01E

Source:

DIPPR

Project No.801 Database 2003 Edition

This Physical Property Database from American Institute of Chemical Engineers (AIChE

)

NOTE

The DIPPR recommends an air temperature no higher than –25°C and cannot guarantee results

if this temperature limit is exceeded.

(

2) Density compensation using standard steam tables (For EJXMVTool)

IAPWS-IF97 Water and Steam (1997)

IAPWS-IF97: IAPWS Industrial Formulation 1997

IAPWS: The International Association for the Properties of Water and Steam

(3) Density compensation using standard.

Natural gas:

AGA8.

Compressibility Factors of Natural Gas and Other Related Hydrocarbon Gases

American Gas Association (AGA)

Transmission Measurement Committee Report No.8 Second Edition, November 1992

etailCharacterizationMethod

GrossCharacterizationMethod1

GrossCharacterizationMethod2

ISO 12213:1997 First edition 1997-12-01

Part 2: molar-composition analysis

Part 3: physical properties

(

4) Custom uid density and viscosity compensation

Numerical value user input for physical properties (density, viscosity, etc.)

<4. Preparation>

4-1

IM 01C25R51-01E

4. Preparation

4.1 PC

To ensure that FlowNavigator functions properly, please make sure your PC meets the

requirements stated in the section ‘3.1’.

llapplicationmustbenished.

4.1.1 Setting Items after Installing Windows

Itisrecommendedthatthefollowingitemsbesetandconrmedbeforeinstallationof

FlowNavigator.

● Power Management

FieldMate may not function properly while the sleep, standby and hibernation settings are

enabled. The settings above can be disabled in Windows. The setting procedure is as follows.

Log on as a user with administrator privileges, click the Start menu, select Control Panel,

Hardware and Sound, double-click Power Options to display the Power Options Properties dialog

box, and then make sure the following items are set as described below. Note that some of the

temsdescribedbelowmaynotbedisplayeddependingonthecongurationofthePC.

If an item is not displayed, the function is disabled.

• C

hoose what the power button does.

When I press the power button: Do nothing

When I close the lid: Do nothing

• C

hoose what to turn off the display

Turn off the display: Never

Log on as a user with administrator privileges, click the Start menu, select Control Panel, double-

click Power Options to display the Power Options Properties dialog box, and then make sure the

following items are set as described below. Note that some of the items described below may not

edisplayeddependingonthecongurationofthePC.Ifanitemisnotdisplayed,thefunctionis

disabled.

• S

ystem Settings window

When I press the power button: Do nothing

When I press the sleep button: Do nothing

When I close the lid: Do nothing

• E

dit Plan Settings window

Put the computer to sleep: Never

<4. Preparation>

4-2

IM 01C25R51-01E

4.2 Installation Procedure

4.2.1 Online Manual

The pdf format Manual for FlowNavigator is located at

 <FlowNavigatorCD-ROM>:\EJXMVTool_Manual.pdf

 <FlowNavigatorCD-ROM>:\DYFMVTool_Manual.pdf

If Adobe Reader is not on your PC, download and install it from the following website.

http://www.adobe.com/>

4.2.2 Uninstall FSA210

ThisproceduresareonlyapplicablefortheusersofFSA210MassFlowCongurationSoftware.

If FSA210 is existing on your PC, uninstall it to avoid the competition with FieldMate.

To uninstall all the program of FSA210, take the following three steps.

(

1) Uninstallaeldcommunicationserver

Execute <FieldInstDrive>: \PRM\Program\PRMUninstall.exe

 Double-clickthelenameinWindowsExplorer.

 <FieldInstDrive>isthedriveonwhicheldcommunicationserverisinstalled.

<FieldInstDrive> is the drive where the PRM directory is located.

The default drive is the same drive on which Windows is installed.

(2) UninstalltheEJXMVToolprogramwiththeAddorRemoveProgramsfunctionofthe

WindowsControlPanel.SelectEJXMVToolandclick[Change/Remove].

(3) Uninstall Exaopc

Use the Add or Remove Programs function of the Windows Control Panel to uninstall

xaopc.SelectExaopcandclick[Change/Remove].

Follow the instruction to reboot the computer.

NOTE

Refer to Appendix A for the detailed procedures of uninstalling FSA210.

<4. Preparation>

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IM 01C25R51-01E

4.2.3 For FieldMate Users

IfyoualreadyhaveFieldMateinstalledinyourcomputer,whichsatisestheoperating

requirement of FlowNavigator, you may need to skip the installation of FieldMate. Please see the

followings.

NOTE

If FieldMate installed in your PC is older version and does not satisfy the working condition of

FlowNavigator,itisnecessarytoinstallFieldMatewhichsatisestherequirement.

NOTE

FlowNavigatorrequires“DeviceFilesR3.03.00orlater”.DeviceFilesR3.03.00includes

“DTMLibraryF

OUNDATIONeldbus2011-4”and“DTMLibraryHART2011-3”.

If Device Files installed in your PC does not satisfy the above condition, it is necessary to install

the FieldMate and Device Files which are bundled in FSA120.

1) If you have FieldMate Basic installed on your PC, and...

• i

f you have purchased FSA120 with FieldMate Basic;

check the version of FieldMate which is installed on your PC.

On the other hand, the version of the bundled FieldMate is shown on the disk.

If the version is lower than that of the bundled FieldMate, install the bundled FIeldMate.

If the version is equivalent or higher, install FlowNavigator CD-ROM alone.

• if you have purchased FSA120 with FieldMate Advance;

install the bundled FieldMate Advance and FlowNavigator CD-ROM.

2) If you have FieldMate Advance installed on your PC, and...

• i

f you have purchased FSA120 with FieldMate Basic;

check the version of FieldMate which is installed on your PC.

On the other hand, the version of the bundled Fieldmate is shown on the disk.

If the version is lower than that oh the bundled FieldMate, install the bundled FieldMate

Basic after uninstalling the previous version of FieldMate Advance.

f the version is equivalent or higher, install FlowNavigator CD-ROM alone.

• if you have purchased FSA120 with FieldMate Advance;

check the version of FieldMate which is installed on your PC.

On the other hand, the version of the bundled FieldMate is shown on the disk.

If the version is lower than that of the bundled FieldMate, install the bundled FIeldMate.

if the version is equivalent or higher, install FlowNavigator CD-ROM alone.

<4. Preparation>

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IM 01C25R51-01E

4.2.4 FieldMate and Device Files Installation

Install following software before installing FlowNavigator.

Step 1 Install software for communication device (For F

OUNDATION

fieldbus

communication)

Refer to Appendix D-1 for detail.

Step 2 Install FieldMate

NOTE

Device Files which includes Yokogawa DTMLibrary HART/FOUNDATIONeldbusandsoftwarefor

HART communication device are automatically installed during the installation of FieldMate.

Regarding installation of software for HART communication device, refer to Appendix C-1.

NOTE

For the installation procedures of FieldMate, refer to the User’s Manual IM01R01A04-01E

“FieldMateVersatileDeviceManagementWizardGettingStarted”.

When installing FieldMate, log-in the Windows as an Administrator or an user with an

administrative authority.

4.2.5 FlowNavigator Installation

Following gives the overview of FlowNavigator Setup and recommended installation procedures.

Overview of FlowNavigator Setup

The FlowNavigator setup is used for installing FlowNavigator (F

OUNDATIONeldbusProgram,

HARTProgramandResource)andlocatedin“FlowNavigatorCD-ROM”.

Followingshows“FlowNavigatorSetupwindow”.

F0401E.ai

Install FlowNavigator for both HART and

FOUNDATION fieldbus

[FlowNavigator]

Install FlowNavigator for HART

[FlowNavigator HART]

Install FlowNavigator for FOUNDATION

fieldbus

[FlowNavigator F

OUNDATION fieldbus]

Figure 4.1 FlowNavigator Setup window

<4. Preparation>

4-5

IM 01C25R51-01E

Following gives FlowNavigator Software Component assigned to FlowNavigator setup window

button.

Table 4.1 Assignment of FlowNavigator setup window button

FlowNavigator

Software Component

FlowNavigator setup window button

Recommended Custom

[FlowNavigator] [

FlowNavigatorHART]

[FlowNavigator

OUNDATIONeldbus]

OUNDATIONeldbusProgram

(EJXMVToolFOUNDATIONeldbus

andDYFMVToolF

OUNDATION

eldbus)

Installed Not installed Installed

HART Program

(EJXMVToolHART)

Installed Installed Not installed

Resource

(Database and Instruction manual)

Installed Installed Installed

*1:Installedby“FlowNavigatorFOUNDATIONeldbusprogram”UpgradeSetup.Fordetail,

referto“InstallationProcedure<Step3>”.

*2:Installedby“FlowNavigatorHARTprogram”UpgradeSetup.Fordetail,referto“InstallationProcedure<Step4>”.

*3:Installedby“FlowNavigatorResource”Setup.Fordetail,referto“InstallationProcedure<Step5>”.

Installation Procedure

Following gives the FlowNavigator recommended installation procedures.

IMPORTANT

Thequality,operabilityofFlowNavigatoriscertiedforusewithFieldMateonly.

Step 1 Login Windows

Step 2 Insert the “FlowNavigator CD-ROM”

Insertthe“FlowNavigatorCD-ROM”intotheCD-ROMdrive.AutorunstartsandaFlowNavigator

setupwindowappears.Andclick[FlowNavigator].

Figure 4.2 FlowNavigator Setup window

<4. Preparation>

4-6

IM 01C25R51-01E

IMPORTANT

IfautorundoesnotstartafterinsertingtheCD-ROM,double-clickthefollowingle.

<FlowNavigator CD-ROM>:\FlowNavigator.exe

NOTE

OnWindowsVista/Windows7,duetouseraccountcontrol,the“AutoPlay”or“UserAccount

Control”windowmaybedisplayed.Andconrmationoperationisrequired.

Step 3 “FlowNavigator FOUNDATION eldbus program” Upgrade Setup window appears

NOTE

“FlowNavigatorFOUNDATIONeldbusprogram”UpgradeSetupinstallsEJXMVToolFOUNDATION

eldbusandDYFMVToolF

OUNDATIONeldbus.

Thesetuprequires“DTMLibraryF

OUNDATIONeldbus2011-4orlater”.DeviceFilesR3.03.00

includes“DTMLibraryF

OUNDATIONeldbus2011-4”and“DTMLibraryHART2011-3”.

(1) Click [Next].

Figure 4.3 Welcome screen

NOTE

Incaseofanerroroccurrenceorcancellationduringtheinstallationof“FlowNavigator

OUNDATIONeldbusprogram”UpgradeSetup,thefollowingsetupwindowappears.

•“FlowNavigatorHARTprogram”UpgradeSetup(“InstallationProcedure<Step4>”)

Then cancel the setup (If not canceled, the setup is installed).

After that, the following setup window appears sequentially.

• “

FlowNavigatorResource”Setup(“InstallationProcedure<Step5>”)

Then cancel the setup (If not canceled, the setup is installed).

<4. Preparation>

4-7

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NOTE

If following error message is shown, cancel the HART program setup and Resource setup.

Then install the FieldMate and Device Files which are bundled in FSA120 (refer to section 4.2.4),

and install FlowNavigator again.

Error message:

“

PleasecheckthatthefollowinglesareinstalledinyourPC.YokogawaDTMLibrary

OUNDATIONeldbus 2011-4 or later”

Figure 4.4 “DTMLibrary FOUNDATION eldbus 2011-4 or later” nonexistence error message

The cause of error:

• Device Files is not installed

• The Device Files installed in your PC is R3.02.10 or before

(

2) Select [I accept...] and click [Next].

Figure 4.5 License Agreement screen

NOTE

Print function is not supported.

The“LicenseAgreement”paperisincludedinFSA120package.

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(3) Input “User Name”, “Organization” and click [Next].

Figure 4.6 Customer Information screen

(4) Select [Automatic Upgrade].

[CustomUpgrade]setupisnotsupported.

Figure 4.7 Choose Upgrade Type screen

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(5) Click [Install].

Figure 4.8 Ready to Install screen

(6) Click [Finish]

Figure 4.9 Finish Setup screen

NOTE

Eventhough“PleaseupdatetheDTMcatalog”messageisshown,FlowNavigatorinstallation

doesnotrequire“UpdateDTMcatalog”operation.

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Step 4 FlowNavigator HART program Upgrade Setup window appears

NOTE

“FlowNavigatorHARTprogram”UpgradeSetupinstallsEJXMVToolHART.Thesetuprequires

“DTMLibraryHART2011-3orlater”.

(1) Click [Next].

Figure 4.10a Welcome screen

NOTE

Incaseoferroroccurrenceorcancellationduringtheinstallationof“FlowNavigatorHART

program” Upgrade Setup, the following setup window appears.

•“

FlowNavigatorResource”Setup(“InstallationProcedure<Step5>”)

Then cancel the setup (If not canceled, the setup is installed.).

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NOTE

If following error message is shown, cancel Resource setup.

Then install the FieldMate and Device Files which are bundled in FSA120 (refer to section4.2.4),

and install FlowNavigator again.

Error message:

“PleasecheckthatthefollowinglesareinstalledinyourPC.YokogawaDTMLibrary

HART 2011-3/ HART 2011-3J or later”

Figure 4.10b “DTMLibrary HART 2011-3/ HART 2011-3J or later” nonexistence error message

The cause of error:

• Device Files is not installed

• The Device Files installed in your PC is R3.02.10 or before

(2) Select [I accept...] and click [Next].

Figure 4.11 End-User License Agreement screen

NOTE

Print function is not supported.

The“LicenseAgreement”paperisincludedinFSA120package.

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(3) Input “User Name”, “Organization” and click [Next].

Figure 4.12 Customer Information screen

(4) Select [Automatic Upgrade].

[CustomUpgrade]setupisnotsupported.

Figure 4.13 Choose Upgrade Type screen

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(5) Click [Install].

Figure 4.14 Ready to Install screen

(6) Click [Finish].

Figure 4.15 Finish Setup screen

NOTE

Eventhough“PleaseupdatetheDTMcatalog”messageisshown,FlowNavigatorinstallation

doesnotrequire“UpdateDTMcatalog”operation.

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Step 5 “FlowNavigator Resource” Setup window appears

NOTE

“FlowNavigatorResource”SetupinstallsDatabaseandInstructionManual.

(1) Click [Next].

Figure 4.16a Welcome screen

NOTE

Incasethat“FlowNavigatorResource”isalreadyinstalled,followingwindowappears.

Click[Next].

Figure 4.16b Welcome screen

This case is no problem and installation can be continued.

Because this can occur in following procedure:

1) FlowNavigator installation is partly canceled



-“FlowNavigatorHART/F

OUNDATIONeldbusprogram”iscanceled

-“

FlowNavigatorResource”isnotcanceledandinstalledcorrectly

2) FlowNavigator is installed again

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(2) Select [I accept...] and click [Next].

Figure 4.17 End-User License Agreement screen

NOTE

Incasethat“FlowNavigatorResource”isalreadyinstalled,abovewindowdoesnotappear.

NOTE

Print function is not supported.

The“LicenseAgreement”paperisincludedinFSA120package.

(3) Input “User Name”, “Organization” and click [Next].

Figure 4.18 Customer Information screen

NOTE

Incasethat“FlowNavigatorResource”isalreadyinstalled,abovewindowdoesnotappear.

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(4) Select [Complete] or [Custom].

Complete setup is recommended.

Figure 4.19a Choose Setup Type screen

NOTE

Incasethat“FlowNavigatorResource”isalreadyinstalled,followingwindowappears.

Select[Repair].

F0419bE.ai

Overwrite

“FlowNavigator Resource”

[Repair]

Figure 4.19b Modify, Repair or Remove installation screen

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(5) Click [Install].

Figure 4.20 Ready to Install screen

(6) Click [Finish].

Figure 4.21 Finish Setup screen

NOTE

Eventhough“PleaseupdatetheDTMcatalog”messageisshown,FlowNavigatorinstallation

doesnotrequire“UpdateDTMcatalog”operation.

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Step 6 FlowNavigator setup window appears

Click[EXIT].

Figure 4.22 FlowNavigator Setup window

4.2.6 How to conrm Version Number

1) FlowNavigator Resource

 Theversionnumberisdisplayedonthe“ProgramsandFeatures”screenofWindows

Control Panel. Select Yokogawa FlowNavigator Resource.

Figure 4.23 Version Number of Yokogawa FlowNavigator Resource

NOTE

ForFSA120R1.03orbefore,theWindowsControlPaneldisplays“YokogawaMVTooladditional

resource,”not“YokogawaFlowNavigatorResource,”onthe“ProgramsandFeatures”screen.

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2) FlowNavigatorProgram:EJXMVTool,DYFMVTool

The version number is displayed on the HELP screen.

 FlowCongurationWizard(EJXMVTool,DYFMVTool):Referto6.3.5

 ObtainFlowCoefcient(EJXMVTool):Referto7.3

3) Yokogawa DTMLibrary HART/F

OUNDATIONeldbus

 Theversionnumberisdisplayedonthe“ProgramsandFeatures”screenofWindows

Control Panel.

F0424E.ai

Version number

OUNDATION ﬁeldbus)

Version number

(HART)

Figure 4.24 Version Number of DTM Library

4) Device DTM: EJX910 HART/FOUNDATIONeldbusDTM,DYF(SoftDL)FOUNDATIONeldbus

DTM

efer to 4.6.2 or 6.2.5.

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4.3 Uninstallation

(1) FieldMate

Refer to User's manual IM01R01A01-00E.

(2) FlowNavigator

 Usethe“ProgramsandFeatures”screenoftheWindowsControlPanel.

 SelectYokogawaFlowNavigatorResourceandclick[Uninstall].

Figure 4.25 Remove Yokogawa FlowNavigator Resource

NOTE

ForFSA120R1.03orbefore,theWindowsControlPaneldisplays“YokogawaMVTooladditional

resource,”not“YokogawaFlowNavigatorResource,”onthe“ProgramsandFeatures”screen.

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4.4 Initial Setting (HART Communication)

NOTE

Regarding start up procedure of the device, refer to following:

EJXMultivariableTransmitter:User’sManualIM01C25R01-01E“EJX910AandEJX930A

Multivariable Transmitters”

4.4.1 Install Communication Device

Connect the HART communication modem to the PC’s COM port.

4.4.2 COM Port

RefertoAppendixC-2forhowtoconrmCOMPort.

4.4.3 Wiring

SUPPLY

PULSE

CHECK

ALARM

EJX910A

HART modem

F00426E.ai

Power supply

–

Note PC

5

L

6833/<í

SUPPLY+

Figure 4.26 Connection of HART instruments

NOTE

When RTD is not connected to EJX Multivariable Transmitter, the setting is possible though

alarm 03 is displayed on the indicator.

4.4.4 Communication Setting

This subsection describes the procedures to change the communication related setting of

FieldMate. Please try these procedures after you start FieldMate and if you experience that

communication is not correctly established. Please refer to 4.6.2.

(

1) Communication port setting on FieldMate

1.Clickthe[Tool]→[HARTModemConguration..]atFieldMatewindow.

2. Select com port number.

.Clickthe[OK]button.

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Figure 4.27 HART Modem conguration

F0428E.ai

Select COM port number.

Figure 4.28 COM port

Please refer to FieldMate User's manual for details.

(2) Communication address setting on FieldMate

InFieldMate,thedefaultsettingofmaximumscanvalueofcommunicationaddressis“0”.

Ifthetransmitter’saddressisotherthan“0”,FieldMatecannotdistinguishthetransmitter.

Therefore, the setting should be changed to the correct value.

.Clickthe[Tool]→[HARTModemConguration..]atFieldMatewindow.

2. Select address number.

.Clickthe[OK]button.

F0429E.ai

Maximum value of communication

Address for scaning

Figure 4.29 Address Setting

Please refer to FieldMate for detail.

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4.5 Initial Setting (FOUNDATION eldbus

Communication)

NOTE

Regarding start up procedure of the device, refer to following:

JXMultivariableTransmitter:User’sManualIM01C25R01-01E“EJX910AandEJX930A

Multivariable Transmitters”

igitalYEWFLOVortexFlowmeter:AppendixB-1

4.5.1 Device

AddressandTags(PDTagandVFDTag)mustbesetinthedevice.

IMPORTANT

UsefunctionblockschedulingandconnectiontoolforDYFMVTool.Afterusingthesesettingtool,

nishtheprogrambeforestartingFlowNavigator.

4.5.2 Install Communication Device

Install the Communication Device on PC.

4.5.3 Communication Setting

Refer to Appendix D-2 for Communication Device Setting.

4.5.4 Connect the Device to the power supply

(1) For EJX Multivariable Transmitter

RefertoUser’smanualIM01C25R03-01E“EJX910AandEJX930AFieldbus

Communication Type.”

(

2) For digitalYEWFLO Vortex Flowmeter

RefertoUser’smanualIM01F06F00-01E“ModelDYVortexFlowmeter,ModelDYAVortex

Flow Converter, Fieldbus Communication Type”

4.5.5 Connect the Device to the Segment

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CAUTION

FSA120 is the software tool which is purposed for the setup and maintenance. Do not try

connecting it to the device which is under actual operation in the process. Before connecting

communication device to the segment, make sure that the process which is controlled by the

segment is off-lined.

communication device

F0430E.ai

Loop Power

Supply

OUNDATION

fieldbus Device

Across the FOUNDATION fieldbus device.

Terminator

−

Figure 4.30 Connection example for FOUNDATION eldbus

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4.6 Start FDT Frame Application

This section describes the operation of DTM with using FieldMate.

For the detailed operation of FieldMate, refer to User's manual of FieldMate.

The procedure is described with EJX910 HART DTM as an example.

4.6.1 Update DTM Setup

AfternewDTMisinstalled,click“DTMSetup”,soastoconrmthatthedesignatedDTMis

correctly installed.

lick[Start]→[AllPrograms]→[YOKOGAWAFieldMate]→[Tools]→[DTMSetup]

4.6.2 Start FieldMate

Starting FieldMate by following operation.

Step 1 Click [Start] → [All Programs] → [YOKOGAWA FieldMate] → [FieldMate]

Figure 4.31a Start FieldMate

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Step 2 Select Default Scan Segment

Specify whether to automatically scan HART devices/Foundation Fieldbus H1 devices after

tartup.Select[HART]or[F

OUNDATIONeldbus]andclick[OK].

Figure 4.31b Select HART/FOUNDATION eldbus

NOTE

Thesoftwareforthecommunicationdevicestartsautomaticallywhen[FOUNDATIONeldbus]is

selectedat[FieldMate].RefertoAppendixD-3forhowtostartthesoftware.

Step 3 FieldMate Segment Viewer window

OpenSegmentVieweronFieldMate.

AdeviceiconappearsonthewindowifitissuccessfultoconnecttoFieldMate.Ifnot,“Nodevice

found” message is shown on the window.

If a connected device icon does not appear, check that initial setting for communication is

correctly done. Refer to section 4.4 for HART and 4.5 for F

OUNDATIONeldbus.

Figure 4.31c Segment Viewer

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NOTE

FlowNavigator works on following Device DTM.

Table 4.2 Device DTM Name (EJX910 HART DTM)

Device DTM EJX Multivariable Transmitter

Name Model Name HART Protocol

Revision

Device Type Device Revision

JX910V1.1

EJX910A

EJX930A

EJX910

(0x0054)

JX910V2.1 EJX910

(0x0054)

JX910V2.1* 7 EJX910

(0x3754)

*: ForEJX910A/EJX930AHART7model,“EJX910V2.1”DTMisusedforFlowNavigator.Fordetail,referto

Section 4.6.4.

Table 4.3 Device DTM Name (EJX910 FOUNDATION eldbus DTM)

Device DTM EJX Multivariable Transmitter

Name Model Name Device Type Device Revision

JX910V1.2 EJX910A EJX910

(0x000E)

JX910V2.1 EJX910A

EJX930A

EJX910

(0x000E)

Table 4.4 Device DTM Name (DYF(SoftDL) F

OUNDATION eldbus DTM)

Device DTM digitalYEWFLO Vortex Flowmeter

Name Model Name Device Type Device Revision

YF(SoftDL)V3.1 DY-F

DYA-F

DYF (Software Download)

(0x0009)

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NOTE

HowtoconrmDeviceDTMversionnumber.

 Click[Action]→[SelectDTM]toselectthetargetdevice.

 Conrmversionnumber.

Figure 4.31d Conrm Version of Device DTM

Figure 4.31e Version Number of Device DTM

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4.6.3 Start Device DTM

(1) Start DTM Works

(a) Case 1 (Except for EJX910A/EJX930A HART 7 model)

Select the icon of the target device. Regarding the device DTM on which FlowNavigator works,

refer to Table 4.2, Table 4.3 and Table 4.4.

lickthe[Action]→[AssignedDTM]

Figure 4.32a Start DTM Works

(b) Case 2 (For EJX910A/EJX930A HART 7 model)

Select the icon of the target device.

lickthe[Action]→[SelectDTM]

Select“EJX910V2.1”DTMandclickOK.

Fig 4.32b Select “EJX910 V2.1” DTM

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NOTE

UsethedeviceDTM“EJX910V2.1”forEJX910A/EJX930AHART7model.“EJX910V2.1”

is a DTM which corresponds to EJX910A/EJX930A HART 5 model (Device revision 2). Flow

arametercongurationbyFlowNavigatorcanbedonebythisDTM.

NOTE

GeneralparametercongurationforEJX910A/EJX930AHART7model(Devicerevision10)

canbedoneby“EJX910HART7DTM”.WhenstartingFieldMateforEJX910A/EJX930A

HART7model,“EJX910HART7DTM”isautomaticallyassignedbydefault.Sowhenusing

FlowNavigator,select“EJX910V2.1”DTMmanually.

(2) Online Parameter window appears.

It may takes about one minute to open Online Parameter window.

Figure 4.33 Online Parameter Window

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4.6.4 Save DTM Infomation

If“Savetole”isperformed,adeviceparametersnapshotissavedtoanexternalle-.dns,which

includes the following parameters.

• User Flow Parameters

• Device Flow Parameters

• Device General Parameters

For detail of .dns, refer to section 3.4.1, 6.1.2 and 9.1.

. Clickthe[File]→[Savetole]atDTMWorkswindow.

2. Themessagebelowappearswhen[Savetole]isclickedwithout[UploadfromDevice].

Clickthe[OK]button.

Figure 4.34 Conrmation Message in Saving .dns le

3. Save.dnsleinthecomputer.

NOTE

.dnsleisnotcompatibleamongdifferentcommunication.

4.6.5 Exit FieldMate and DTM Works

DTM Works and FieldMate are ended by closing each window.

1. Clickthe[File]→[Exit]atDTMWorkswindow.

2. Clickthe[File]→[Exit]atFieldMatewindow.0

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4.7 FlowNavigator Activation

4.7.1 How to Activate

Start EJX910 HART/FOUNDATIONeldbusorDYF(SoftDL)FOUNDATIONeldbusDTM.(see4.6.3)

> Start DTM Works.

>S

elect[Device]→[AdditionalFunctions]→[FlowCongurationWizard]

• Thefollowingscreenappearsonlywhenthisprogramisrunforthersttime.

Figure 4.35 EJXMVTool / DYFMVTool Activation Screen

EntertheFlowNavigatorlicensenumber,andClick[CheckandSave].

NOTE

You must enter whole license number including ‘-’ .

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Figure 4.36 Software License Form

Oncethelicensenumberisconrmed,FlowCongurationWizardscreenbelowappears.

Figure 4.37 Top Menu Screen of Flow Conguration Wizard (EJXMVTool)

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5. Operational Flowchart

5.1 Conguration Procedure (EJXMVTool)

FollowingisanexampleofcongurationproceduresusingAutoCompensationMode.

(A) NewConguration(exampleforusingFieldMateprojectle)

(B) CongurewithexistingCongurationFile(dns/dfsle)

(C) CongurewithexistingCongurationFile(exampleforusingXMVle)

(D) CongurewithexistingCongurationFile(import:XMVle,PRMle,export:dnsle)

<5. Operational Flowchart>

5-2

IM 01C25R51-01E

(A) New Conguration (Example of using Auto Compensation Mode)

Step FieldMate Menu

EJX910 HART / F

OUNDATION fieldbus DTM Menu

Layer1 Layer2 Layer3

EJXMVTool

Main Window

Procedure

"Online Parameter" is opened

Upload "Device Flow Parameters"

and "Device General Parameters".

Edit "Device General Parameters"

and Apply "Offline Database".

"Initialize Menu" (If needed)

Initialize "User Flow Parameters"

and "Device Flow Parameters".

Select compensation mode.

Edit "User Flow Parameters".

Edit "User Flow Parameters" and

"Device Flow Parameters".

"Export -> Export XMV Menu"

Export "User Flow Parameters"

and "Device Flow Parameters" to

binary file.

Download

"Device Flow Parameters" and

"Device General Parameters".

Check the flow coefficient

The value is saved in a log file:

"FlowCoeffLog".

"Report Menu"

Export "User Flow Parameters" in

CSV file format.

Apply "Device Flow Parameters"

to "Offline Database".

Goes offline.

Save the "*.dns"

"User Flow Parameters", "Device

Flow Parameters" and "Device

General Parameters".

Start DTM and

upload

parameter

from the

device

Perform Flow

Configuration

Download

parameter to

the device

Confirm flow

coefficient

Save settings

to "DNS" file

Device

Parameter

Offline

Parameter

Flow

Configuration

Wizard

Flow

Configuration

Mode

Primary

Device and

Pipe Setup

Fluid Type

Setup

Fluid

Operating

Range Setup

Fluid Physical

Property

Setup

Apply Flow

Configuration

Assigned DTM

Device

Download to

device 2)

Upload from

device 1)

Additional

Functions

Additional

Functions

Obtain Flow

Coefficient

Disconnect

Save to file...

Device

File

F0501E.ai

1) Beforestartingoperation,execute‘Uploadfromdevice’,sothatthe“DeviceGeneralParameters”intheofine

databasearesynchronizedwiththedevice.Uploaddatafromthedevicedoesnotinclude“UserFlowParameters”.

 *:“UserFlowParameters”consistofprimarydeviceinformation,uidinformationandoperatingcondition.

2) Executing‘Downloadtodevice’willwriteboth“DeviceFlowParameters”and“DeviceGeneralParameters”into

thedevice.Beforeexecuting‘Downloadtodevice’,execute‘Uploadfromdevice’,soastomake“DeviceGeneral

Parameters”intheofinedatabasesynchronizedwiththedevice.

 Downloaddatatothedevicedoesnotinclude“UserFlowParameters”.

<5. Operational Flowchart>

5-3

IM 01C25R51-01E

(B) Congure with existing conguration le (dns/dfs le)

Step FieldMate Menu

EJX910 HART / F

OUNDATION fieldbus DTM

Layer1 Layer2 Layer3

EJXMVTool

Main Window

Procedure

"Online Parameter" is opened

Load the *.dns / dfs file

- "User Flow Parameters"

- "Device Flow Parameters"

- "Device General Parameters"

Edit "Device General Parameters"

and Apply to "Offline Database".

Check the flow coefficient

The value is saved in a log file:

"FlowCoeffLog"

Download "Device Flow

Parameters" and "Device General

Parameters"

Goes offline

Start DTM

Open

"DNS/DFS"

file and

download

parameters to

the device

Confirm flow

coefficient

File

Assigned DTM

Device

Load from

file...

Additional

Functions

Download to

device 1)

Obtain Flow

Coefficient

Disconnect

Device

F0502E.ai

1) Executing‘Downloadtodevice’willwriteboth“DeviceFlowParameters”and“DeviceGeneralParameters”into

thedevice.Beforeexecuting‘Downloadtodevice’,execute‘Uploadfromdevice’,soastomake“DeviceGeneral

Parameters”intheofinedatabasesynchronizedwiththedevice.

 Downloaddatatothedevicedoesnotinclude“UserFlowParameters”.

<5. Operational Flowchart>

5-4

IM 01C25R51-01E

Step FieldMate Menu

EJX910 HART/F

OUNDATION fieldbus DTM

Layer1 Layer2 Layer3

EJXMVTool

Main Window

Description

"Online Parameter" is opened.

Upload "Device Flow Parameters"

and "Device General Parameters".

Edit "Device General Parameters"

and Apply "Offline Database".

"Import -> Import XMV Menu"

Import "User Flow Parameters"

and "Device Flow Parameters"

from existing file (*.xmv file).

Confirm / Modify compensation

mode.

Confirm / Modify "User Flow

Parameters".

Confirm / Modify "User Flow

Parameters".

Confirm / Modify "User Flow

Parameters".

Confirm / Modify "User Flow

Parameters" and "Device Flow

Parameters".

"Export -> Export XMV Menu"

Export "User Flow Parameters"

and "Device Flow Parameters" to

binary file.

Download

"Device Flow Parameters" and

"Device General Parameters".

Check the flow coefficient.

The value is saved in a log file.:

"FlowCoeffLog"

"Report Menu"

Export "User Flow Parameters" in

CSV file format.

Apply "Device Flow Parameters"

to "Offline Database".

Goes offline.

Start DTM and

upload

parameter

from the

device

Import

existing

file and

confirm /

modify flow

configuration

Download

parameter to

the device

Confirm flow

coefficient

Device

Parameter

Offline

Parameter

Flow

Configuration

Wizard

Flow

Configuration

Mode

Primary

Device and

Pipe Setup

Fluid Type

Setup

Fluid

Operating

Range Setup

Fluid Physical

Property

Setup

Apply Flow

Configuration

Assigned DTM

Device

Download to

device 2)

Upload from

device 1)

Additional

Functions

Additional

Functions

Obtain Flow

Coefficient

Disconnect

Device

F0503E.ai

1) Beforestartingoperation,execute‘Uploadfromdevice’,sothatthe“DeviceGeneralParameters”intheofine

databasearesynchronizedwiththedevice.

 Uploaddatafromthedevicedoesnotinclude“UserFlowParameters”.*

 *:“UserFlowParameters”consistofprimarydeviceinformation,uidinformationandoperatingcondition.

2) Executing‘Downloadtodevice’willwriteboth“DeviceFlowParameters”and“DeviceGeneralParameters”into

thedevice.Beforeexecuting‘Downloadtodevice’,execute‘Uploadfromdevice’,soastomake“DeviceGeneral

Parameters”intheofinedatabasesynchronizedwiththedevice.

 Downloaddatatodevicedoesnotinclude“UserFlowParameters”.

<5. Operational Flowchart>

5-5

IM 01C25R51-01E

(D) Congure with existing Conguration File (import:XMV and PRM le,export:dns le)

Applicable only for FSA210 user.

Step FieldMate Menu

EJX910 HART / F

OUNDATION fieldbus DTM

Layer1 Layer2 Layer3

EJXMVTool

Main Window

Procedure

"Online Parameter" is opened.

Upload "Device Flow Parameters"

and "Device General Parameters".

Edit "Device General Parameters"

and Apply "Offline Database".

"Import -> Import XMV Menu"

Import "User Flow Parameters"

and "Device Flow Parameters"

from existing file (*.xmv file).

"Import -> Import PRM Menu"

(HART only)

Import "Device General

Parameters" from existing file

(*.prm file) (FSA210 user only).

Confirm / Modify compensation

mode.

Confirm / Modify "User Flow

Parameters".

Confirm / Modify "User Flow

Parameters".

Confirm / Modify "User Flow

Parameters".

Confirm / Modify "User Flow

Parameters" and "Device Flow

Parameters".

"Export -> Export XMV Menu"

Export "User Flow Parameters"

and "Device Flow Parameters" to

binary file.

Download

"Device Flow Parameters" and

"Device General Parameters".

Check the flow coefficient.

The value is saved in a log file.:

"FlowCoeffLog"

"Report Menu"

Export "User Flow Parameters" in

CSV file format.

Apply "Device Flow Parameters"

to "Offline Database".

Goes offline.

Save the "*.dns"

"User Flow Parameters", "Device

Flow Parameters" and "Device

General Parameters".

Start DTM and

upload

parameter

from the

device

Import

existing

file and

confirm /

modify flow

configuration

Download

parameter to

the device

Confirm flow

coefficient

Save settings

to "DNS" file

Device

Parameter

Offline

Parameter

Flow

Configuration

Wizard

Flow

Configuration

Mode

Primary

Device and

Pipe Setup

Fluid Type

Setup

Fluid

Operating

Range Setup

Fluid Physical

Property

Setup

Apply Flow

Configuration

Assigned DTM

Device

Download to

device 2)

Upload from

device 1)

Additional

Functions

Additional

Functions

Obtain Flow

Coefficient

Disconnect

Save to file...

Device

File

F0504E.ai

1) Beforestartingoperation,execute‘Uploadfromdevice’,sothatthe“DeviceGeneralParameters”intheofine

databasearesynchronizedwiththedevice.

 Uploaddatafromthedevicedoesnotinclude“UserFlowParameters”.*

 *:“UserFlowParameters”consistofprimarydeviceinformation,uidinformationandoperatingcondition.

2) Executing‘Downloadtodevice’willwriteboth“DeviceFlowParameters”and“DeviceGeneralParameters”into

thedevice.Beforeexecuting‘Downloadtodevice’,execute‘Uploadfromdevice’,soastomake“DeviceGeneral

Parameters”intheofinedatabasesynchronizedwiththedevice.

 Downloaddatatodevicedoesnotinclude“UserFlowParameters”.

<5. Operational Flowchart>

5-6

IM 01C25R51-01E

5.2 Conguration Procedure (DYFMVTool)

FollowingisanexampleofcongurationproceduresusingFlowCongurationWizard.

(A) NewConguration(exampleforusingFieldMateprojectle)

(B) CongurewithexistingCongurationFile(dnsle)

(C) CongurewithexistingCongurationFile(VMVle)

<5. Operational Flowchart>

5-7

IM 01C25R51-01E

(A) New Conguration

Step FieldMate Menu

DYF(SoftDL) F

OUNDATION fieldbus DTM

Layer1 Layer2 Layer3

DYFMVTool

Main Window

Procedure

"Online Parameter" is opened.

Upload "Device Flow Parameters"

and "Device General Parameters".

Edit "Device General Parameters"

and Apply "Offline Database". 3)

"Initialize Menu" (If needed)

Initialize "User Flow Parameters"

and "Device Flow Parameters".

Select compensation and

edit "Device General Parameter".

Edit "User Flow Parameters".

Edit "User Flow Parameters" and

"Device Flow Parameters".

"Export -> Export VMV Menu"

Export "User Flow Parameters"

and "Device Flow Parameters" to

binary file.

Download

"Device Flow Parameters" and

"Device General Parameters".

Confirm the compensation

calculation by input simulation for

flow rate, temperature and

pressure.

"Report"

Export "User Flow Parameters" in

CSV file format.

Apply "Device Flow Parameters"

to "Offline Database".

Goes offline.

Save the "*.dns"

"User Flow Parameters", "Device

Flow Parameters" and "Device

General Parameters".

Start DTM and

upload

parameter

from the

device

Perform Flow

Configuration

Download

parameter to

the device

Confirm flow

configuration

Save settings

to DNS file

Device

Parameter

Offline

Parameter

Flow

Configuration

Wizard

Flow

Configuration

Mode

Fluid Type

Setup

Fluid

Operating

Range Setup

Fluid Physical

Property

Setup

Apply Flow

Configuration

Assigned DTM

Device

Download to

device 2)

Upload from

device 1)

Parameter

Additional

Functions

Online

Parameter

Disconnect

Save to file...

Device

File

F0505E.ai

1) Beforestartingoperation,execute‘Uploadfromdevice’,sothat“DeviceGeneralParameters”oftheowmeterin

theofinedatabasearesynchronizedwiththedevice.Uploaddatafromthedevicedoesnotinclude“UserFlow

Parameters”.

 *:UserFlowParametersconsistofuidinformationandoperatingcondition.

2) Executing‘Downloadtodevice’willwriteboth“DeviceFlowParameters”and“DeviceGeneralParameters”into

thedevice.Beforeexecuting‘Downloadtodevice’,execute‘Uploadfromdevice’,soastomake“DeviceGeneral

Parameters”oftheowmeterintheofinedatabasesynchronizedwiththedevice.

 Downloaddatatothedevicedoesnotinclude“UserFlowParameters”.

3) TemperatureunitandpressureunitinARBlockarenotconguredinFlowCongurtionWizardDetailCompensation

Mode.

 TheseparametersmustbesetmanuallyinARBlockofineparameter.

<5. Operational Flowchart>

5-8

IM 01C25R51-01E

(B) Conguration with existing conguration le (dns le)

Step FieldMate Menu

DYF(SoftDL) F

OUNDATION fieldbus DTM

Layer1 Layer2 Layer3

DYFMVTool

Main Window

Procedure

"Online Parameter" is opened.

Load the *.dns file 2)

- "User Flow Parameters"

- "Device Flow Parameters"

- "Device General Parameters"

Edit "Device General Parameters"

and Apply to "Offline Database".

Confirm the compensation

calculation by input simulation for

flow rate, temperature and

pressure.

Download "Device Flow

Parameters" and "Device General

Parameters".

Goes offline.

Start DTM

Open "DNS"

file and

download

parameters to

the device

Confirm flow

configuration

File

Assigned DTM

Device

Load from

file...

Parameter

Download to

device 1)

Online

Parameter

Disconnect

Device

F0506E.ai

1) Executing‘Downloadtodevice’willwriteboth“DeviceFlowParameters”and“DeviceGeneralParameters”intothe

device. Before executing ‘Download to device’, execute ‘Upload from device’, so as to make General Parameters of the

deviceintheofinedatabasesynchronizedwiththedevice.

 *:UserFlowParametersconsistofuidinformationandoperatingcondition.

2) TemperatureunitandpressureunitinARBlockarenotconguredinFlowCongurationWizardDetailCompensation

Mode.

 TheseparametersmustbesetmanuallyinARBlockofineparameter.

<5. Operational Flowchart>

5-9

IM 01C25R51-01E

Step FieldMate Menu

DYF(SoftDL) F

OUNDATION fieldbus DTM

Layer1 Layer2 Layer3

DYFMVTool

Main Window

Procedure

"Online Parameter" is opened.

Upload "Device Flow Parameters"

and "Device General Parameters".

Edit "Device General Parameters"

and Apply "Offline Database". 3)

"Import VMV Menu"

Import "User Flow Parameters"

and "Device Flow Parameters"

from existing file (*.vmv file).

Confirm / Modify compensation

mode and "Device Flow

Parameters".

Confirm / Modify "User Flow

Parameters".

Confirm / Modify "User Flow

Parameters".

Confirm / Modify "User Flow

Parameters" and "Device Flow

Parameters".

"Export -> Export VMV Menu"

Export "User Flow Parameters"

and "Device Flow Parameters" to

binary file.

Download

"Device Flow Parameters" and

"Device General Parameters".

Confirm the compensation

calculation by input simulation for

flow rate temperature and pressure.

"Report Menu"

Export "User Flow Parameters" in

CSV file format.

Apply "Device Flow Parameters"

to "Offline Database".

Goes offline.

Start DTM and

upload

parameter

from the

device

Import

existing

file and

confirm /

modify flow

configuration

Download

parameter to

the device

Confirm flow

configuration

Device

Parameter

Offline

Parameter

Flow

Configuration

Wizard

Flow

Configuration

Mode

Fluid Type

Setup

Fluid

Operating

Range Setup

Fluid Physical

Property

Setup

Apply Flow

Configuration

Assigned DTM

Device

Download to

device 2)

Upload from

device 1)

Parameter

Additional

Functions

Online

Parameter

Disconnect

Device

F0507E.ai

1) Beforestartingoperation,execute‘Uploadfromdevice’,sothat“DeviceGeneralParameters”oftheowmeterin

theofinedatabasearesynchronizedwiththedevice.Uploaddatafromthedevicedoesnotinclude“UserFlow

Parameters”.

 *:“UserFlowParameters”consistofuidinformationandoperatingcondition.

2) Executing‘Downloadtodevice’willwriteboth“DeviceFlowParameters”and“DeviceGeneralParameters”into

thedevice.Beforeexecuting‘Downloadtodevice’,execute‘Uploadfromdevice’,soastomake“DeviceGeneral

Parameters”ofthedeviceintheofinedatabasesynchronizedwiththedevice.

 Downloaddatatothedevicedoesnotinclude“UserFlowParameters”.

3) TemperatureunitandpressureunitinARBlockarenotconguredinFlowCongurationWizardDetailCompensation

Mode.

 TheseparametersmustbesetmanuallyinARBlockofineparameter.

<5. Operational Flowchart>

5-10

IM 01C25R51-01E

5.3 Flow Parameters Download Procedure

Thebasicprocedurefordownloadingtheowparameterstoadeviceisasfollows.Referto

Figure 5.2.

Step 1 Upload from Device

Perform“UploadfromDevice”sothatthesettingparameters(“DeviceFlowParameters”and

“DeviceGeneralParameters”)inthedevicearesavedtotheofinedatabaseonyourPC.

TheparameterswillthenbedisplayedintheOfineParameterscreen.

Step 2 Flow Conguration

PerformFlowcongurationinaccordancewiththeguidanceintheFlowCongurationWizard.

“DeviceFlowParameters”areoutputbyFlowCongurationWizard.

Save“DeviceFlowParameters”asXMVle(EJXMVTool)orVMVle(DYFMVTool)inthelast

menu,andclickthe“Apply”button.

“DeviceFlowParameters”arethenstoredtotheofinedatabaseonyourPC.

NOTE

ClickingonApplydoesnotdownloadtheowparameterstothedevice.

<5. Operational Flowchart>

5-11

IM 01C25R51-01E

Step 3 Download to Device

Perform“DownloadtoDevice”.“DeviceFlowParameters”willthenbedownloadedtogetherwith

the“DeviceGeneralParameters”tothedevice.

IMPORTANT

For FOUNDATIONFieldbus,followingblockmustbecheckedonthe“Downloadblocks”menuin

theOfineParameterscreentodownload“DeviceFlowParameters”setbyFlowConguration

Wizard.

JX910 F

OUNDATIONeldbusDTM:FTBblock

DYF(SoftDL) F

OUNDATIONeldbusDTM:ARblock

“Download blocks” menu

(EJX910 FOUNDATION fieldbus DTM)

“Download blocks” menu

(DYF(SoftDL) FOUNDATION fieldbus DTM)

F0508E.ai

Figure 5.1 “Download blocks” menu in the Ofine Parameter

Offline Parameter Flow Configuration Wizard Offline Parameter

Offline

Database

Offline

Database

Offline

Database

Step 1 Step 2 Step 3

Device General Parameters (Default value: , Configured value: )

Device Flow Parameters (Default value: , Configured value: )

*: Confirm the checkbox on the “Download blocks” menu in the Offline Parameter (refer to Figure 5.1)

F0509E.ai

Figure 5.2 Procedure to Download the Parameters to the Device

<6. Operation of FlowNavigator Program>

6-1

IM 01C25R51-01E

6. Operation of FlowNavigator Program

6.1 Outline of FlowNavigator Program

6.1.1 Menu

ThefollowingshowsthemenuitemsinFlowNavigatorexceptforthosespecictoDeviceDTM.

TheitemsforDeviceDTMarelistedintheDTMWorks"Device"menu.

FlowNavigatorProgramisoperatedusingtheDeviceDTM“Additionalfunctions”menu.

(1) Menu Structure (Example of EJXMVTool HART)

F0601E.ai

Connect

Disconnect

------

Parameter

Additional functions

------

Upload from device

Download to device

------

Property

Online Parameter

Offline Parameter

EJXMVTool Help

EJXMVTool About

Initialize

Report

Export XMV

Diagnosis

Observe

Flow Configuration Wizard

Obtain Flow Coefficient

------

About

Import XMV

Import PRM

(HART only)

Online Parameter

Offline Parameter

Diagnosis

Observe

Figure 6.1 Menu structure of EJXMVTool HART

NOTE

Displayed items may slightly differ according to communication protocol.

<6. Operation of FlowNavigator Program>

6-2

IM 01C25R51-01E

(2) Menu and Function

Menu Functions Reference Program

Cennect Device

Management

Connect a device Refer to

section 6.2

EJX910

HART/

OUNDATION

eldbus

DTM,

DYF(SoftDL)

FOUNDATION

eldbusDTM

Disconnect Disconnect a device

Parameter Online

Parameter

Opens the online

parameters view

Ofine

Parameter

penstheofine

parameters view

Additional

Functions

Diag / Service Open Diagnosis view

Observe Open Observe view

Flow

Conguration

Wizard

Flow

Parameter

Management

-Flow

Conguration-

alculateow

congurationdataofa

device

Refer to

section 6.3,

chapter 7, 8

EJXMVTool

DYFMVTool

Initialize Initialize I

nitialization(Needed

onlyifconguration

has been done before)

Import I

mportXMV

(EJXMVTool)

Flowcongurationle

management

ImportVMV

(DYFMVTool)

Import PRM

(EJXMVTool)

Import FSA210

RMle

Export E

xportXMV

(EJXMVTool)

Flowcongurationle

management

ExportVMV

(DYFMVTool)

Report Report F

lowconguration

reportle

Help E

JXMVToolHelp FlowNavigator Program

Instruction Manual

DYFMVToolHelp

EJXMVToolAbout Versioninformation

DYFMVTool

About

Obtain

Flow

Coefcient

Flow

Parameter

Management

ConrmingFlow

Conguration-

ObtainFlowcoefcient

from a device

Refer to

chapter 7

EJXMVTool

Help E

JXMVToolHelp FlowNavigator Program

Instruction Manual

EJXMVToolAbout Versioninformation

About Device

Management

Show DTM information Rerer to

section 6.2

EJX910

HART/

OUNDATION

eldbus

DTM,

DYF(SoftDL)

FOUNDATION

eldbusDTM

Upload from

Device

Load from a device

Download to

Device

Store to a device

Print Online

Parameter

Print the Online

Parameter

Ofine

Parameter

rinttheOfine

Parameter

Diagnosis Print the Diagnosis

Parameter

Observe Print the Observe

Parameter

Property Show property

information

<6. Operation of FlowNavigator Program>

6-3

IM 01C25R51-01E

6.1.2 Data Flow Diagram

(1) EJXMVTool

EJXMVTool

XMV File

User Flow

Parameters

Device Flow

Parameters

Device General

Parameters

Compatible between different frame application

Compatible between HART and

OUNDATION fieldbus DTMs

Report File(csv)

User Flow Parameters

Device General Parameters

EJX910 HART/FOUNDATION fieldbus DTM

DNS/DFS File

Not compatible between different frame application

Not compatible between HART and

OUNDATION fieldbus DTMs

Device General

Parameters

Device Flow

Parameters

User Flow

Parameters

PRM File

(Note3)

Device General

Parameters (HART)

Import

Offline Parameter

Device Flow Parameters

Device

General Parameters

Offline Database

Device

General Parameters

Device Flow

Parameters

Online Parameter

Device

General Parameters

Device Flow Parameters

(Not displayed)

EJX Multivariable Transmitter

Device General

Parameters

Device Flow

Parameters

(Note1)

Sensor Input

F0602E.ai

DP, SP, ET

(Auto Compensation/Basic Mode)

User Flow

Parameters

(Note2)

Device General Parameters

Flow Configuration Wizard

Obtain Flow Coefficient

Simulated Sensor Input

Flow Calculation Output

Process Value (DP,SP,ET)

Flow Coefficient (Flow, Density,

Viscosity,Gas Expansion Factor,

Discharge Coefficient, Reynolds No.)

Auto

Compensation

Mode

initialize

Apply

Start up /

Apply

Simulated Input *

Read Parameter *

Input*

Read/

Write*

Enter

Start up/

Open/

Save As

Open/

Save As

Open /

Export

Import/

Export

to Device*

Device*

Download

Lead from

*: Online function (executed while connect)

Note1) Device does not hold User Flow Parameter.

Note2) User Flow Parameters consist of fluid

information and operating condition.

Note3) Generated by FSA210.

Can be imported to HART DTM.

Figure 6.2 Data ow diagram of EJXMVTool

<6. Operation of FlowNavigator Program>

6-4

IM 01C25R51-01E

(2) DYFMVTool

F0603E.ai

initialize

Read/

Write *

Download

to Device*

Load from

Device*

Import/

Exort

Export

digitalYEWFLO Vortex Flowmeter

DYF(SoftDL) FOUNDATION fieldbus DTMDYFMVTool

Offline Parameter

Device Flow Parameters

(Not displayed)

Device

General Parameters

Online Parameter

Device Flow Parameters

(Not displayed)

Device

General Parameters

VMV File

User Flow

Parameters

Device Flow

Parameters

Device General

Parameters

Compatible between different frame application

Flow Configuration Wizard

User Flow

Parameters

(Note2)

Device Flow

Parameters

Device General Parameters

Device General

Parameters

Device Flow

Parameters

(Note1)

Sensor

- Volumetric Flowrate

- Temperature

(Optional Code: /MV)

DNS File

Device General

Parameters

Device Flow

Parameters

User Flow

Parameters

Open/

Save As

Not compatible between different frame application

Report File (csv)

User Flow Parameters

Device General Parameters

Offline Database

Device Flow Parameters

Device

General Parameters

Start up/

Enter

Input *

Temperature Transmitter

- Temperature

Pressure Transmitter

- Pressure

Input *

(Detail, Steam and Simple Compensation Mode)

Start up/

Apply

Detail

Compensation

Mode

Apply

Open/

Save As

Open/

Save As

Flow Calculation Output

- Density

- Mass Flow Rate

Output*

*: Online function (executed while

connect)

Note1) Device does not hold User Flow

Parameter.

Note2) User Flow Parameters consist of

fluid information and operating

condition.

Figure 6.3 Data Flow Diagram of DYFMVTool

<6. Operation of FlowNavigator Program>

6-5

IM 01C25R51-01E

6.1.3 Flow Calculation of Device and FlowNavigator

(1) EJX Multivariable Transmitter

Refertotheinstructionmanual“EJX910AandEJX930AMultivariableTransmitters”(IM

01C25R01-01E)

(

2) digitalYEWFLO Vortex Flowmeter

Followings give an overview of the calculation modes.

• Detail (Gas / Liquid) Compensation Mode

- Gas temperature pressure compensation (Detail)

hemassowrateofthegasiscalculatedbasedontheprocesstemperatureandpressure

by referring to the physical property database of FlowNavigator Resource.

The temperature value is the output of digitalYEWFLO Built-in Temperature Sensor

(

OptionalCode/MV)orTemperatureTransmitter.Thepressurevalueistheoutputof

Pressure Transmitter.

- Liquid temperature compensation (Detail)

hemassowrateoftheliquidiscalculatedbasedontheprocesstemperaturebyreferring

to the physical property database of FlowNavigator Resource. The temperature value is the

output of digitalYEWFLO Built-in Temperature Sensor (Optional

ode:/MV)orTemperatureTransmitter.

• Steam Compensation Mode

- Saturated steam (Temperature)

hemassowrateofthesaturatedsteamiscalculatedbasedontheprocesstemperature

by referring to the saturated steam table (a process temperature) in the device. The process

temperature value is the output of digitalYEWFLO Built-in Temperature Sensor (Optional

ode:/MV)orTemperatureTransmitter.

- Saturated steam (Pressure)

hemassowrateofthesaturatedsteamiscalculatedbasedontheprocesspressure

by referring to the saturated steam table (a process pressure) in the device. The process

pressure value is the output of Pressure Transmitter.

- Superheated steam

hemassowrateofthesuperheatedsteamcalculatedbasedontheprocesstemperature

and pressure by referring to the superheated steam table in the device. The process

temperature value is the output of digitalYEWFLO Built-in Temperature Sensor (Optional

ode:/MV)orTemperatureTransmitter,andtheprocesspressurevalueistheoutputof

Pressure Transmitter.

• Simple (Gas / Liquid) Compensation Mode

- Gas temperature pressure compensation

hemassowrateofthegasiscalculatedbasedontheprocesstemperatureandpressure

by using the density correction value input by users in FlowNavigator. The temperature

alueistheoutputofdigitalYEWFLOBuilt-inTemperatureSensor(OptionalCode:/MV)or

Temperature Transmitter. The pressure value is the output of Pressure Transmitter.

- Liquid temperature compensation

hemassowrateoftheliquidiscalculatedbasedontheprocesstemperaturebyusing

the density correction value input by users in FlowNavigator. The temperature value is the

utputofdigitalYEWFLOBuilt-inTemperatureSensor(OptionalCode:/MV)orTemperature

Transmitter.

<6. Operation of FlowNavigator Program>

6-6

IM 01C25R51-01E

Sensor

DYFMVTool

Steam Mode

Device General Parameter

Density Simple Compensation Coefficient

Simple (Gas/Liquid) Mode

Detail (Gas/Liquid) Mode

Physical Property Database

- Natural Gas

AGA No. 8

ISO12213

- DIPPR

Fluid Condition

- Fluid Selection

- Range Setup

(Temp, Press)

Device Flow Parameters

- Density Detail

Compensation Coefficient

Device General Parameter

Download

to Device

digitalYEWFLO Vortex Flowmeter

(Optional Code: /MV)

Built-in

Temperature

Sensor

Vortex

Sensor

Amplifier

Temperature

Transmitter

Pressure

Transmitter

AI.Out AI.Out

Steam

Table

Simple

Comp.Coef.

Transducer

Block

Flow Rate Calc.

Density

TempQv

AI3.Out

AI2.Out

AI1.Out

Qv, Qm, Qn

Steam

Table

In.Value In1.Value In2.Value

Simple

Comp.Coef.

Qm, Qn

AR.Out

Detail

Comp.Coef.

Density

Flow Rate Calc

AR Block

Qv: Volumetric Flow Rate

F0604E.ai

Qm: Mass Flow Rate

Qn: Volumetric Flow Rate at Normal Condition

Figure 6.4 digitalYEWFLO Vortex Flowmeter and FlowNavigator Block Diagram

6.2 Device Management

Device management is a function of Device DTM.

Please refer to Device DTM HELP for detail.

Please also refer to FieldMate User’s Manual for operation.

This function is described with EJX910 HART DTM as an example.

F0605E.ai

Click here to refer

EJX910 DTM HELP for

detail. (HART)

Click here to refer EJX910 DTM HELP

for detail (FOUNDATION fieldbus)

Device Help

(HART/F

OUNDATION fieldbus)

Figure 6.5 DTM HELP

<6. Operation of FlowNavigator Program>

6-7

IM 01C25R51-01E

6.2.1 Connect / Disconnect

(1) How to Connect

Clickthe[Device]→[Connect]

Figure 6.6a How to Connect

NOTE

‘Connect’ menu is active only while the device is disconnected.

(2) How to Disconnect

Clickthe[Device]→[Disconnect]

Figure 6.6b How to Disconnect

NOTE

‘Disconnect’ menu is active only while the device is connected.

<6. Operation of FlowNavigator Program>

6-8

IM 01C25R51-01E

6.2.2 Parameter

Online Parameter:

The parameters of the device can be edited directly in online status.

fineParameter:

Theparametersofthedevicecanbeeditedandstoredinofinedatabase.

Parameterssavedinofinedatabasecanbedownloadedtothedevicebyusing“Downloadto

Device”function.Parametersinthedevicecanbeuploadedtotheofinedatabasebyusing

“UploadfromDevice”function.Uploadedparameterscanbeeditedintheofineparameter

window.

(

1) Online Parameter

 Clickthe[Device]→[Parameter]→[OnlineParameter]

Figure 6.7 Online Parameter

NOTE

‘Online Parameter’ menu is active only while the device is connected.

<6. Operation of FlowNavigator Program>

6-9

IM 01C25R51-01E

(2) Ofine Parameter

 Clickthe[Device]→[Parameter]→[OfineParameter]

Figure 6.8a Go to Ofine Parameter

F0610E.ai

Figure 6.8b Ofine Parameter

<6. Operation of FlowNavigator Program>

6-10

IM 01C25R51-01E

6.2.3 Upload from Device / Download to Device

(1) How to load from a device

• HART DTM / F

OUNDATION eldbus DTM

1. Clickthe[Device]→[Parameter]→[OfineParameter]

2. Clickthe[Device]→[UploadfromDevice]

Uploading icon on the tool bar can also be used to execute upload.

Figure 6.9 Upload from Device

OfineParameters(“DeviceFlowParameters”and“DeviceGeneralParameters”)areuploaded

fromthedevicetoofinedatabase.“DeviceGeneralParameters”canbeeditedusingofine

parameter window.

If an error occurs, an error message dialog will be displayed.

IMPORTANT

Beforestartingoperation,execute‘UploadfromDevice’,sothatthe“DeviceGeneral

Parameters”intheofinedatabaseissynchronizedwiththedevice.

<6. Operation of FlowNavigator Program>

6-11

IM 01C25R51-01E

(2) How to download to a device

• HART DTM

1. Clickthe[Device]→[Parameter]→[OfineParameter]

2. Clickthe[Device]→[DownloadtoDevice]

• F

OUNDATION eldbus DTM

1. Clickthe[Device]→[Parameter]→[OfineParameter]

2. Check the checkbox of the function blocks downloading to a device.

Figure 6.10a Checkbox of Blocks to Download (EJX910 FOUNDATION eldbus DTM)

Figure 6.10b Checkbox of Blocks to Download (DYF(SoftDL) FOUNDATION eldbus DTM)

IMPORTANT

• It is recommended to select all blocks.

• Followingblockmustbecheckedtodownload“DeviceFlowParameters”setbyFlow

CongurationWizard.

EJX910 F

OUNDATIONeldbusDTM:DownloadFTBBlock

DYF(SoftDL) F

OUNDATIONeldbusDTM:DownloadARBlock

<6. Operation of FlowNavigator Program>

6-12

IM 01C25R51-01E

3. Clickthe[Device]→[DownloadtoDevice]

Downloading icon on the tool bar can also be used to execute download.

Figure 6.10c Download to Device

6.2.4 Print

Parameters can be printed out by using print function.

 Clickthe[Device]→“Print”.

 Select“OnlineParameter”,“OfineParameter”,“Diagnosis”or“Observe”.

Figure 6.11 Print (Online Parameter)

<6. Operation of FlowNavigator Program>

6-13

IM 01C25R51-01E

6.2.5 Properties

The Device DTM version number is shown when this menu is clicked.

 Clickthe[Device]→“Property”.

F0616E.ai

EJX910 DTM version number

Figure 6.12 Property

<6. Operation of FlowNavigator Program>

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IM 01C25R51-01E

6.2.6 Additional functions

(1) Diagnosis (for HART)

Diagnostics related parameters are shown.

 Clickthe[Device]→[AdditionalFunctions]→[Diagnosis]

Figure 6.13a Diagnosis

(2) Observe (for HART)

Process variables related parameters are shown.

 Clickthe[Device]→[AdditionalFunctions]→[Observe]

Figure 6.13b Observe

<6. Operation of FlowNavigator Program>

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IM 01C25R51-01E

6.3 Flow Parameters Management

FlowParametersManagementconsistsofFlowCongurationWizardandObtainFlow

Coefcient.

hissectiondescribesthelemanagementintheFlowCongurationWizard.

Clickthe[Device]→[AdditionalFunctions]→[FlowCongurationWizard]

ThisfunctionisdescribedwithEJXMVToolasanexample.

Figure 6.14 Top Menu Screen of Flow Conguration Wizard

WARNING

Theuseofinappropriatematerialscanresultintheleakageofcorrosiveprocessuidsandcause

injury to personnel and/or damage to plant facilities. Check wetted parts materials and transmitter



lluidforcompatibilitywiththeintendedprocessuid.

<6. Operation of FlowNavigator Program>

6-16

IM 01C25R51-01E

6.3.1 Initialize

Initializeowcongurationparameters.

NOTE

InitializecanbeusedonlyintheFlowCongurationModescreen.

Figure 6.15a Initializing

Figure 6.15b Initializing Message

<6. Operation of FlowNavigator Program>

6-17

IM 01C25R51-01E

6.3.2 Import

(1) ImportFlowConguration.XMVle.

 “UserFlowParameters”and“DeviceFlowParameters”forEJXMultivariableTransmitter

can be imported.

(

2) ImportFlowConguration*.VMVle

 “UserFlowParameters”and“DeviceFlowParameters”fordigitalYEWFLOVortex

Flowmeter can be imported.

NOTE

Referto‘9.1CongurationFile’forinformationofleformatofFlowCongurationle.

ImportcanbeusedintheFlowCongurationModescreen.

NOTE

TheXMVlemadeontheFSA210iscompatiblewithFSA120.

Figure 6.16a Importing a File

NOTE

FlowCongurationWizardR1.02.01orlaterdoesnotallowsettingthegaugepressuretothe

Referencepressure.Ifimporting.XMVleinwhichtheReferencepressureisconguredasthe

gauge pressure using R1.02.00 or earlier, the following message is displayed.

Figure 6.16b Information Message for Reference Pressure

Reenter the absolute pressure equivalent to the displayed gauge pressure for the Reference

Condition in Fluid Operating Range Setup screen.

<6. Operation of FlowNavigator Program>

6-18

IM 01C25R51-01E

6.3.3 Export

“UserFlowParameters”and“DeviceFlowParameters”canbeexported.

NOTE

Referto‘9.1Congurationle’forinformationofleformatofFlowCongurationle.

ExportcanbeusedonlyintheApplyFlowCongurationscreen.

NOTE

TheXMVlemadeontheFSA210iscompatiblewithFSA120.

Figure 6.17 Exporting a File

<6. Operation of FlowNavigator Program>

6-19

IM 01C25R51-01E

6.3.4 Report

Export“UserFlowParameters”and“DeviceGeneralPrameters”inCSVFileformat.

NOTE

ReportcanbeusedonlyintheApplyFlowCongurationscreen.

Figure 6.18 Report

NOTE

Usernameonthereportmaybeshownas“unknown”onthoseframeapplicationwhichdoesnot

supportuserauthorizationfunction.

<6. Operation of FlowNavigator Program>

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IM 01C25R51-01E

6.3.5 Help

(1) EJXMVToolHelp/DYFMVToolHelp

 TheEJXMVToolmanualmaporDYFMVToolmanualmapopenswhenthismenuisclicked.

Figure 6.19 Help

NOTE

EJXMVTool/DYFMVToolOnlineHelpusesAdobeReader.InstallAdobeReadertoviewOnline

Help.

(

2) EJXMVToolAbout/DYFMVToolAbout

 TheversionnumberofFlowCongurationWizardisshownwhenthismenuisclicked.

Figure 6.20 About

<7. Operation of EJXMVTool>

7-1

IM 01C25R51-01E

7. Operation of EJXMVTool

7.1 Flow Conguration Wizard (Auto

Compensation Mode)

7.1.1 Flow Conguration Mode

Figure 7.1 Flow Conguration Mode screen

Selectdesiredowcongurationmodeandclick[Next].

FlowCongurationMode

• Auto Compensation Mode (Default)

 CongurationoftheuidphysicalpropertiesandprimarydevicefortheEJXMultivariable

Transmitter can be performed using a dialog window.

• Basic Mode



Flowoperationanddensitycompensationareperformedconventionally,withtheow

factors being input manually.

<7. Operation of EJXMVTool>

7-2

IM 01C25R51-01E

7.1.2 Primary Device and Pipe Setup

Figure 7.2 Primary Device and Pipe Setup Screen

(1) Primary Device Type

The device types are Selectable from the followings:

Type

Orice

Nozzle

Venturi

Fix

(2) Primary Device Description

The primary device selectable from followings.

Table 7.1 Primary Device

Type Primary Device

Orice O

riceCornerTaps[ISO5167-11991]

OriceCornerTaps[ISO5167-22003]

OriceCornerTaps[ASMEMFC-3M1989]

riceFlangeTaps[ISO5167-11991]

OriceFlangeTaps[ISO5167-22003]

OriceFlangeTaps[ASMEMFC-3M1989]

OriceFlangeTaps[AGANo.31992]

OriceDandD/2Taps[ISO5167-11991]

OriceDandD/2Taps[ISO5167-22003]

OriceDandD/2Taps[ASMEMFC-3M1989]

Nozzle I

SA1932nozzle[ISO5167-11991/ISO5167-32003]

Longradiusnozzle[ISO5167-11991/ISO5167-32003]

ASMEFLOWNOZZLES[ASMEMFC-3M1989]

Venturi V

enturinozzle[ISO5167-11991/ISO5167-32003]

ClassicalVenturitube“ascast”convergentsection[ISO5167-11991/ISO5167-42003]

ASMEVenturiTubesWitharoughCastorFabricatedConvergent[ASMEMFC-3M1989]

ClassicalVenturitubewithamachinedconvergentsection[ISO5167-11991/ISO5167-42003]

ASMEVenturiTubesWithamachinedconvergentsection[ASMEMFC-3M1989]

ClassicalVenturitubewitharough-weldedsheet-ironconvergentsection

[ISO5167-11991/ISO5167-42003]

FIX Fixed Mode

*1:Setsthedischargecoefcientandgasexpansionfactortoaxedvalue

<7. Operation of EJXMVTool>

7-3

IM 01C25R51-01E

(3) Discharge Coefcient of the Primary Device

Thisparameterisactiveonlywhen‘Fix’selectedfor[Type].

InputtheDischargeCoefcientmanuallywhen‘Fix’isselected.

(4) Primary Device Gas Expansion Factor

Thisparameterisactiveonlywhen‘Fix’selectedfor[Type].

Input the Gas Expansion Factory manually when ‘Fix’ is selected.

(

5) Primary Device Sizing

Set the following values and select a unit.

Diameter of Differential Producer

unit: mm (default)/in

measuring temperature: 20 (default)

unit: degC (default), degF, Kelvin

(

6) Primary Device Material

The primary device material selectable from followings.

hermal expansion of the primary device is automatically calculated according to the

material.

Table 7.2 Primary device material

Material Remarks

304 Stainless Steel Default

316 Stainless Steel

Carbon Steel

Hastelloy C

Monel

(7) Pipe Sizing

Set the following values and select a unit.

Pipe inside Diameter

unit: mm (default) / in

Measuring temperature: 20 (default)

unit: degC (default), degF, Kelvin

(

8) Pipe material

The pipe material selected from followings.

Thermal expansion of pipe is automatically calculated according to the material.

Table 7.3 Pipe material

Pipe Material Remarks

304 Stainless Steel

316 Stainless Steel

Carbon Steel Default

Hastelloy C

Monel

<7. Operation of EJXMVTool>

7-4

IM 01C25R51-01E

7.1.3 Fluid Setup

Autocompensationmodesupportedphysicalpropertydatabaseofuid.

Table 7.4 Fluid setup

Type Category Name/Method

Gas or Steam

Gas (DIPPR) DIPPR database

Natural gas

GA8DetailCharacterizationMethod

AGA8GrossCharacterizationMethod1

AGA8GrossCharacterizationMethod2

ISO12213 molar-composition analysis

ISO12213 physical properties

Gas (custom data table) User's numerical input

Steam IAPWS/IF97 Water and steam(1997)

Liquid

Liquid (DIPPR) DIPPR database

Liquid (custom data table) User's numerical input

Figure 7.3 Fluid Type Setup Screen

<7. Operation of EJXMVTool>

7-5

IM 01C25R51-01E

Step 1

Selectthetypeofuid;

• Gas or Steam (Default) (Go to Step 2 )

• Liquid (Go to Step 3)

Step 2

When“GasorSteam”isselectedfor[Type],selecttheCategoryfromthefollowing;

• Natural Gas (Default)

• Steam

• Gas (DIPPR)

• Gas (Custom Data Table)

hen“NaturalGas(Default)”isselectedfor[Category],selecttheFluidname/Methodfrom

the followings;

•A

GA8DetailCharacterizationMethod(Default)

•AGA8GrossCharacterizationMethod1

•AGA8GrossCharacterizationMethod2

• ISO12213 molar-composition analysis

• ISO12213 physical properties

hen“Steam”isselectedfor[Category],selecttheFluidname/Methodfromthefollowings;

• Superheated and Saturated steam

• Saturated steam

hen“Gas(DIPPR)”isselectedfor[Category],selecttheFluidname/Methodfromthe

followings;

<7. Operation of EJXMVTool>

7-6

IM 01C25R51-01E

Table 7.5 Physical property database

Fluid name

Acetic Acid (*)

Acetone

Acetonitrile

Acetylene

Acrylonitrile

Air

Allyl Alcohol

Ammonia

Argon

Benzaldehyde

Benzene

enzoicAcid(*)

BenzAlcohol

Biphenyl

Bromine

Carbon Dioxide

Carbon Monoxide

Carbon Tetrachloride

Chlorine

Chlorodiuoromethane

Chloroprene

Chlorotriuoroethylene

Cycloheptane

Cyclohexane

Cyclopentane

Cyclopentene

Cyclopropane

Dichlorodiuoromethane

Divinyl Ether

Ethane

Ethanol

Ethylamine

Ethylbenzene

Ethylene

Ethylene Glycol

Ethylene Oxide

Fluorene

Furan

Helium-4

Hydrazine

Hydrogen

Hydrogen Chloride

Fluid name

Hydrogen Cyanide

Hydrogen Peroxide

ydrogenSulde

Isobutane

Isobutene

Isobutylbenzene

Isopentane

Isoprene

Isopropanol

m-chloronitrobenzene

m-dichlorobenzene

Methane

Methanol

Methyl Acrylate

Methyl Ethyl Ketone

ethylVinylether

Monochlorobenzene

n-Butane

n-Butanol

n-Butyraldehyde

n-Butyronitrile

n-Decane

n-Dodecane

n-Heptadecane

n-Heptane

n-Hexane

n-nonane

n-Octane

n-Pentane

Neon

Neopentane

Nitric Acid (*)

Nitric Oxide

Nitrobenzene

Nitroethane

Nitrogen

Nitromethane

Nitrous Oxide

Oxygen

Pentauoroethane

Phenol

Phosphoric Acid (*)

Fluid name

Propadiene

Propane

Propylene

Pyrene

Styrene

Sulfur Dioxide

Toluene

Trichloroethylene

Trichlorouoromethane

inylAcetate

VinylChloride

VinylCyclohexene

Water

1-Butene

1-Decene

1-Decanal

1-Decanol

1-Dodecene

1-Dodecanol

1-Heptanol

1-Heptene

1-Hexene

1-Hexadecanol

1-Octanol

1-Octene

1-Nonanal

1-Nonanol

1-Pentadecanol

1-Pentanol

1-Pentene

1-Undecanol

1,1,2,2-Tetrauoroethane

1,1,2-Trichloroethane

1,2,4-Trichlorobenzene

1,2-Butadiene

1,3-Butadiene

1,3,5-Trichlorobenzene

1,4-Dioxane

1,4-Hexadiene

2-Methyl-1-Pentene

2,2-Dimethylbutane

*: Only for liquid.

When“Gas(CustomDataTable)”isselectedfor[Category],SetthecustomFluidname/Method

in the blank box.

Step 3

When“Liquid”isselectfor[Type],selecttheCategoryfromthefollowings;

• Liquid (DIPPR)

• Liquid (Custom)

henLiquid(DIPPR)isselectedfor[Category],selecttheFluidname/Method

from the materials shown in Table 7.5.

henLiquid(Custom)isselectedfor[Category],settheFluidname/Methodintheblank

box.

<7. Operation of EJXMVTool>

7-7

IM 01C25R51-01E

7.1.4 Natural Gas Setup

(1) AGA8 Detail Characterization Method

Figure 7.4 Natural Gas Setup Screen (1)

Input the value as mole percent for each component shown in Table 7.6.

TheeachvaluemustbespeciedwithintherangeshowninTable7.6.

Total mole percent must become 100%.

•

 Standardize:Standardizethemolecomponentvalue.

  Click[Standardize]buttonwhentotalmolpercentdoesnotbecome100%.

• Reset: Reset the mole component value

• Total mole: Total mole percent is displayed

NOTE

Incasethat“TotalMole”isdisplayedas“100%”,errormessageisdisplayedasfollows.

 “Thetotalmoleshouldexactlybe100%”

Click[Standardize]button.

<7. Operation of EJXMVTool>

7-8

IM 01C25R51-01E

Table 7.6 AGA 8 Mole Valid Range

# Component Mole Valid Range (Expanded Range)

1 CH4 Methane mole percent 0–100 %

2 N2 Nitrogen mole percent 0–100 %

3 CO2 Carbon Dioxide mole percent 0–100 %

4 C2H6 Ethane mole percent 0–100 %

5 C3H8 Propane mole percent 0–12 %

6 H2O Water mole percent 0–Dew Point %

7 H2SHydrogenSuldemolepercent 0–100 %

8 H2 Hydrogen mole percent 0–100 %

9 CO Carbon Monoxide mole percent 0–3.0 %

10 O2 Oxygen mole percent 0–21 %

11 C4H10 i-Butane mole percent 0–6 %

12 C4H10 n-Butane mole percent 0–6 %

13 C5H12 i-Pentane mole percent 0–4 %

14 C5H12 n-Pentane mole percent 0–4 %

15 C6H14 n-Hexane mole percent 0–Dew Point %

16 C7H16 n-Heptane mole percent 0–Dew Point %

17 C8H18 n-Octane mole percent 0–Dew Point %

18 C9H20 n-Nonane mole percent 0–Dew Point %

19 C10H22 n-Decane mole percent 0–Dew Point %

20 He Helium mole percent 0–3.0 %

21 Ar ARGON 1–1.0 %

*1: ISOBUTANE (C4H10) and n-BUTANE (C4H10)’s sum cannot exceed 6 %.

*2: ISOPENTANE (C5H12) and n-Pentane (C5H12)’s sum cannot exceed 4 %.

*3: Upper limit Dew Point is not checked by the tool.

(2) AGA8 Gross Characterization Method 1

Figure 7.5 Natural Gas Setup Screen (2)

Table 7.7 Input & Valid Range (Expanded Range)

Contents Expanded Range Remarks

Mandatory

Real Gas Relative Density 0.554–0.87

at 14.73 psi abs 60 °F

(at 101.56 kPa abs and 15.56 °C)

CARBON DIOXIDE (CO2) mole 0–30%

olumetricGrossHeatingValue

17.76–42.87 MJ/m3

(477–1150 BTU/ft3)

at 14.73 psi abs 60 °F

(at 101.56 kPa abs and 15.56 °C)

Optional

HYDROGEN (H2) mole 0–10%

CARBON MONOXIDE (CO) mole 0–3%

<7. Operation of EJXMVTool>

7-9

IM 01C25R51-01E

(3) AGA8 Gross Characterization Method 2

Figure 7.6 Natural Gas Setup Screen (3)

Table 7.8 Input & Valid Range (Expanded Range)

Contents Expanded Range Remarks

Mandatory

Relative Density 0.554–0.87

at 14.73 psi abs 60 °F

(at 101.56 kPa abs and 15.56 °C)

CARBON DIOXIDE (CO2) mole 0–30%

NITROGEN (N2) mole 0–50%

Optional

HYDROGEN (H2) mole 0–10%

CARBON MONOXIDE (CO) mole 0–3%

(4) ISO12213 molar-composition analysis

Figure 7.7 Natural Gas Setup Screen (4)

<7. Operation of EJXMVTool>

7-10

IM 01C25R51-01E

Input the value as mole percent for each component shown in Table 7.9.

TheeachvaluemustbespeciedwithintherangeshowninTable7.9.

Total mole percent must become 100%.

•

 Standardize: Standardizethemolecomponentvalue.

 C

lick[Standardize]buttonwhentotalmolpercentdoesnotbecome100%.

• Reset: Reset the mole component value

• Total mole: Total mole percent is displayed

NOTE

Incasethat“TotalMole”isdisplayedas“100%”,errormessageisdisplayedasfollows.

 “Thetotalmoleshouldexactlybe100%”

Click[Standardize]button.

Table 7.9 ISO12213 Mole Valid Range

# Component Mole Valid Range (Expanded Range)

1 CH4 Methane mole percent 50–100 %

2 N2 Nitrogen mole percent 0–50 %

3 CO2 Carbon Dioxide mole percent 0–30 %

4 C2H6 Ethane mole percent 0–20 %

5 C3H8 Propane mole percent 0–5 %

6 H2O Water mole percent 0–0.015 %

7 H

2SHydrogenSuldemolepercent 0–0.02 %

8 H2 Hydrogen mole percent 0–10 %

9 CO Carbon Monoxide mole percent 0–3 %

10 O2 Oxygen mole percent 0–0.02 %

11 C4H10 i-Butane mole percent 0–1.5 %

12 C4H10 n-Butane mole percent 0–1.5 %

13 C5H12 i-Pentane mole percent 0–0.5 %

14 C5H12 n-Pentane mole percent 0–0.5 %

15 C6H14 n-Hexane mole percent 0–0.1 %

16 C7H16 n-Heptane mole percent 0–0.05 %

17 C8H18 n-Octane mole percent 0–0.05 %

18 C9H20 n-Nonane mole percent 0–0.05 %

19 C10H22 n-Decane mole percent 0–0.05 %

20 He Helium mole percent 0–0.5 %

21 Ar ARGON 0–0.02 %

*1: ISOBUTANE (C4H10) and n-BUTANE (C4H10) ‘s sum cannot exceed 1.5 %.

*2: ISOPENTANE (C5H12) and n-Pentane (C5H12) ‘s sum cannot exceed 0.5 %.

<7. Operation of EJXMVTool>

7-11

IM 01C25R51-01E

(5) ISO12213 physical properties

Figure 7.8 Natural Gas Setup Screen (5)

Table 7.10 Input & Valid Range (Expanded Range)

Contents Expanded Range Remarks

Mandatory

Relative Density 0.55–0.9 at 0°C, 1.01325 bar abs

CARBON DIOXIDE (CO2) mole 0–30%

olumetricGrossHeatingValue 20–48 MJ/m3 at 25°C, 1.01325 bar abs

Optional HYDROGEN (H2) mole 0–10%

<7. Operation of EJXMVTool>

7-12

IM 01C25R51-01E

7.1.5 Fluid Operating Range Setup

(1) Gas or Steam (excluding Category: Saturated steam),

Figure 7.9 Fluid Operating Range Setup Screen (1)

Input operating ranges and select units

Pressure and Temperature units are selectable from following.

Pressure unit: kPa abs, bar abs, psi abs, kPa gauge, bar gauge, psi gauge

Atmospheric Pressure unit: psi abs, bar abs, kPa abs

Temperature unit: degC, degF, Kelvin

Input reference condition and select units

Pressure and Temperature units are selectable from following.

Pressure unit: kPa abs, bar abs, psi abs

Temperature unit: degC, degF, Kelvin

NOTE

• Afterclickingthe[Next]button,ifa“Thespeciedoperatingconditionincludesbothgas

and liquid phases.” information message is displayed, the operating condition is near the

acceptable limits for liquid and gas.

Figure 7.10 Warning message

• Pleaseconrmthedensityvalueonthefollowingpage(uidphysicalpropertysetuppage)

andcontinueconguration.

• If the temperature and pressure range input on the Fluid Operating Range Setup is too wide,

there is a probability of the calculation error of density is big.

• T

hese ranges are used only for the density and viscosity calculation.

• Ranges of Transmitter are not changed.

<7. Operation of EJXMVTool>

7-13

IM 01C25R51-01E

(2) Gas or Steam (Category: Saturated steam)

Figure 7.11 Fluid Operating Range Setup Screen (2)

Input operating range and select units

Pressure unit is selectable from kPa abs, bar abs, psi abs, kPa gauge, bar gauge, psi gauge

Atmospheric Pressure unit is selectable from: psi abs, bar abs, kPa abs

Input reference condition and select units

Pressure unit is selectable from kPa abs, bar abs, psi abs

NOTE

• Afterclickingthe[Next]button,ifa“Thespeciedoperatingconditionincludesbothgas

and liquid phases.” information message is displayed, the operating condition is near the

acceptable limits for liquid and gas.

Figure 7.12 Warning message

• Pleaseconrmthedensityvalueonthefollowingpage(uidphysicalpropertysetuppage)

andcontinueconguration.

• If the pressure range input on the Fluid Operating Range Setup is too wide, there is a

probability of the calculation error of density is big.

• T

hese ranges are used only for the density and viscosity calculation.

• Ranges of Transmitter are not changed.

<7. Operation of EJXMVTool>

7-14

IM 01C25R51-01E

(3) Liquid

Figure 7.13 Fluid Operating Range Setup Screen (3)

Input operating range and select units

Temperature unit is selectable from degC, degF or Kelvin.

Input reference condition and select units

Temperature unit is selectable from degC, degF or Kelvin.

NOTE

• Pleaseconrmthedensityvalueonthefollowingpage(uidphysicalpropertysetuppage)

andcontinueconguration.

• If the temperature range input on the Fluid Operating Range Setup is too wide, there is a

probability of the calculation error of density is big.

• This range are used only for the density and viscosity calculation.

• Range of Transmitter are not changed.

<7. Operation of EJXMVTool>

7-15

IM 01C25R51-01E

7.1.6 Fluid Physical Property Setup

(1) Gas or Steam

Figure 7.14 Fluid Physical Property Setup Screen (1)

Conrmthevalueofdensity,viscosity,molecularweightandisentropicexponent.

Units can selectable from following.

Density: kg/m3 (Default), lb/ft3

iscosity:Pasec,lb/ftsec

NOTE

Thedensityandviscosityvaluecanbecustomized.

TheIsentropicexponentvaluecanbecustomized.

Themolecularweightvaluecanbecustomized.

The value is shown after entering return key.

NOTE

Ifthe“TherangethatspeciedinthestepofFluidOperatingRangeSetupistoonarrow.Expand

the range of pressure or temperature” error message is displayed when the Next button is

clicked, the temperature and pressure range input on the Fluid Operating Range Setup is narrow.

Please specify another value (wider range) and try again.

Figure 7.15 Information message for setting range

<7. Operation of EJXMVTool>

7-16

IM 01C25R51-01E

(2) Liquid

Figure 7.16 Fluid Physical Property Setup Screen (2)

Conrmthevalueofdensity,viscosityandmolecularweight.

Units can selected from following.

Density: kg/m3 (Default), lb/ft3

iscosity:Pasec,lb/ftsec

NOTE

Thedensityandviscosityvaluecanbecustomized.

Themolecularweightvaluecanbecustomized.

The value is shown when entering return key.

<7. Operation of EJXMVTool>

7-17

IM 01C25R51-01E

7.1.7 Apply Flow Conguration

Figure 7.17 Apply Flow Conguration

Inordertodownloadthecongurationtothetransmitterpleaseselect“Apply”.

Then perform download / store to device from Device DTM. (Refer to section 6.2.3).

Please refer to Chapter 5 and Figure 6.2.

<7. Operation of EJXMVTool>

7-18

IM 01C25R51-01E

7.2 Flow Conguration Wizard (Basic Mode)

7.2.1 Flow Conguration Mode

Figure 7.18 Flow Conguration Mode Screen (Basic mode)

FlowCongurationMode

• Auto Compensation Mode (Default)

 CongurationoftheuidphysicalpropertiesandprimarydevicefortheEJXMultivariable

Transmitter can be performed using a dialog window.

• B

asic Mode

 Flowoperationanddensitycompensationareperformedconventionally,withtheow

factors being input manually.

NOTE

1. Theowunitisnotautomaticallyconvertedinbasicmode.

2. TheowrangeissettoLRV=0andURV=100whentheFlowCongurationModeischanged

to Basic Mode or Auto Compensation Mode.

<7. Operation of EJXMVTool>

7-19

IM 01C25R51-01E

7.2.2 Basic Mode Setup

SelectaFluidTypefrom“Gas”or“Liquid”.

(1) Gas (Default)

Figure 7.19 Basic Mode Setup Screen

• Input Reference Temperature (Tb), Reference Static Pressure (SPb), and Kfactor.

NOTE

The static pressure value is according to the transmitter’s abs and gauge selection (A/G select).

But same unit character is used for both absolute and gauge.

The procedure for setting the BASIC Mode is as follows. For details on how to calculate the

Kfactor, refer to the EJX910A and EJX930A Multivariable Transmitters User’s Manual (IM

01C25R01-01E).

Table 7.11 Flow Operational Expression

T0701E.ai

*1: mark indicate User Input

*2: Kfactor must be calculated according to the Flow unit category

*3: Reter to table 7.5, 7.6, 7.7

× ∆P × T/Tb × SPb/SP

Fluid

type

Flow unit

Yokogawa FSA120 Flow Configuration Software Handleiding

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