Omni 6000 and Omni 3000流量計(jì)算機(jī)說明書

Basic

OperationConfiguration

and

AdvancedOperationModbusDatabase

Addresses

and

Index

NumbersManual

GuideVolume

1System

Architecture

and

InstallationFirmware

Revisions

20.71/24.71Turbine

/

Positive

Displacement

/

CoriolisLiquid

Flow

Metering

Systems

with

Meter

Factor

LinearizationVolume

5Technical

BulletinsWarranty

&

LicencesManual

GuideALL.71+

05/99xiAboutOur

CompanyOmniFlowComputers,Inc.istheworld’sleadingmanufacturerandsupplierofpanel-mountcustodytransferflowcomputersandcontrollers.Ourmissionisto

continuetoachievehigherlevels

ofcustomerandusersatisfactionbyapplyingthebasic

company

values:our

people,

our

products

and

productivity.Ourproducts

havebecome

the

internationalflowcomputing

standard.

Omni

FlowComputers

pursues

a

policy

of

product

development

and

continuousimprovement.

As

a

result,

our

flow

computers

are

considered

the

“

brain”

and

“

cashregister”

of

liquid

and

gas

flow

meteringsystems.Our

staff

is

knowledgeable

andprofessional.

They

represent

the

energy,

intelligence

andstrengthof

our

company,

adding

valueto

ourproducts

andservices.Withthecustomeranduserinmind,wearecommittedtoqualityin

everythingwedo,devotingoureffortstodeliverworkmanshipofhighcaliber.

Teamwork

withuncompromisingintegrity

is

our

lifestyle.Contacting

Our

Corporate

HeadquartersOmniFlowComputers,Inc.

10701Corporate

Drive,

Suite

300

Stafford,

Texas

77477

USAPhone:Fax:281-240-6161281-240-6162World-wide

Web

Site:Getting

User

SupportE-mail

Addresses:

techsupport@info@Technicalandsalessupportisavailableworld-widethroughourcorporateor

authorizedrepresentativeoffices.Ifyourequireusersupport,pleasecontactthelocation

nearest

you

(see

insert)

or

ourcorporate

offices.

Our

staff

and

representatives

will

enthusiastically

work

with

you

to

ensure

the

sound

operation

of

your

flow

computer.Measure

the

Difference!Omniflowcomputers-

Ourproducts

are

currently

being

used

world-wide

at:Offshore

oil

and

gas

production

facilitiesCrudeoil,

refinedproducts,LPG,NGLand

gastransmissionlinesStorage,

truck

andmarineloading/offloading

terminalsRefineries;petrochemical

and

cogeneration

plants.Omni

6000

/

Omni

3000

User

Manual Manual

GuideAbout

the

Flow

Computer

ApplicationsOmni6000andOmni3000FlowComputersareintegrableintothemajorityof

liquidandgasflowmeasurementandcontrolsystems.Thecurrentfirmware

revisions

of

Omni6000/Omni3000

FlowComputers

are:20.71/24.71:Turbine/PositiveDisplacement/Coriolis

Liquid

Flow

Metering

SystemswithKFactor

Linearization(US/metric

units)21.71/25.71:

Orifice/Differential

Pressure

LiquidFlow

Metering

Systems

(US/metricunits)22.71/26.71:

Turbine/Positive

Displacement

Liquid

Flow

Metering

Systems

withMeter

Factor

Linearization(US/metric

units)23.71/27.71:

Orifice/Turbine

Gas

FlowMetering

Systems

(US/metric

units)About

theUser

ManualThis

manualappliesto.71+firmwarerevisionsofOmni6000

and

Omni3000

FlowComputers.Itisstructuredinto5volumesandistheprincipalpartofyour

flow

computer

documentation.Target

AudienceAsauser’sreferenceguide,thismanualisintendedforasophisticatedaudience

withknowledgeofliquidandgasflowmeasurementtechnology.Differentuser

levelsoftechnicalknow-howareconsideredinthismanual.Youneednotbeanexpert

to

operate

theflowcomputer

or

use

certain

portionsof

thismanual.

However,someflowcomputerfeaturesrequireacertaindegreeofexpertise

and/oradvancedknowledgeofliquidandgasflowinstrumentationandelectronicmeasurement.

In

general,

each

volume

is

directed

towards

the

following

users:Volume1.System

Architectureand

InstallationInstallersSystem/Project

ManagersEngineers/ProgrammersAdvanced

OperatorsOperatorsVolume

2.

BasicOperationAll

UsersVolume3.Configurationand

Advanced

OperationEngineers/ProgrammersAdvanced

OperatorsVolume

4.

Modbus

Database

Addresses

and

Index

NumbersEngineers/ProgrammersAdvanced

OperatorsVolume

5.

TechnicalBulletinsUserswithdifferentlevelsof

expertise.xiiALL.71+

05/99ALL.71+

05/99xiiiManual

StructureTheUserManualcomprises5volumes;eachcontainedinseparatebindingfor

easymanipulation.Youwillfindadetailedtableofcontentsatthebeginningofeach

volume.Volume1.

SystemArchitecture

andInstallationVolume

1

is

generic

to

all

applications

and

considers

both

US

and

metric

units.

Thisvolumedescribes:Basichardware/softwarefeaturesInstallation

practicesCalibrationproceduresFlow

computer

specificationsVolume

2.

Basic

OperationThisvolumeisapplicationspecificandisavailableinfourseparateversions(one

for

each

applicationrevision).

It

covers

theessential

and

routine

tasks

and

proceduresthatmaybeperformedbytheflowcomputeroperator.BothUSandmetricunits

areconsidered.Generalcomputer-related

features

are

described,

such

as:Overview

ofkeypad

functionsAdjusting

the

displayClearingandviewingalarmsComputer

totalizingPrintingandcustomizingreportsTheapplication-related

topics

may

include:Batching

operationsProving

functionsPID

control

functionsAudit

trailOtherapplicationspecific

functionsDependingonyourapplication,someofthesetopicsmaynotbeincludedinyour

specificdocumentation.Anindexofdisplayvariablesandcorrespondingkey

presssequencesthatarespecifictoyourapplicationare

listed

at

the

end

ofeach

versionof

this

volume.Volume

3.

Configuration

and

AdvancedOperationVolume

3

is

intended

forthe

advanceduser.

It

refers

to

application

specific

topics

andis

availablein

four

separate

versions

(onefor

each

applicationrevision).

This

volumecovers:Application

overviewFlow

computerconfigurationdataentryUser-programmable

functionsModbus

Protocol

implementationFlow

equations

andalgorithmsUserReferenceDocumentation-TheUser

Manual

is

structured

into

fivevolumes.Volumes1

and5are

generic

toall

flow

computerapplicationrevisions.Volumes2,3and

4are

applicationspecific.

Thesehavefourversions

each,

publishedinseparate

documents;i.e.,

one

per

applicationrevision

per

volume.Youwillreceivethe

versionthat

corresponds

to

your

application

revision.The

volumes

respective

to

eachapplication

revision

are:Revision

20/24.71:Volume

#s2a,

3a,

4aRevision

21/25.71:Volume

#s2b,

3b,

4bRevision

22/26.71:Volume

#s2c,

3c,4cRevision

23/27.71:Volume

#s2d,

3d,

4dForexample,

if

yourflowcomputerapplication

revisionis

20/24.71,

youwill

besuppliedwithVolumes

2a,

3a&

4a,

alongwithVolumes1

&

5.Omni

6000

/

Omni

3000

User

Manual Manual

GuideVolume

4.

Modbus

Database

Addresses

and

IndexNumbersVolume

4

is

intended

for

the

system

programmer

(advanced

user).

It

comprises

adescriptivelistofdatabasepointassignmentsinnumericalorder,withinourfirmware.Thisvolumeisapplicationspecific,forwhichthereisoneversionper

applicationrevision.xivALL.71+

05/99Volume5.

Technical

BulletinsVolume

5

includestechnical

bulletins

thatcontain

important

complementary

information

about

your

flow

computer

hardware

andsoftware.

Each

bulletincoversatopicthatmaybegenerictoallapplicationsorspecifictoaparticular

revision.They

includeproduct

updates,theoretical

descriptions,

technical

specifications,procedures,and

other

informationof

interest.This

is

the

most

dynamic

and

current

volume.

Technical

bulletins

may

be

added

tothisvolumeafter

its

publication.You

canviewandprintthese

bulletins

from

our

website.Conventions

Used

in

this

ManualSeveraltypographicalconventionshavebeenestablishedasstandardreference

tohighlightinformationthatmaybeimportanttothereader.Thesewillallowyou

to

quickly

identify

distincttypes

of

information.CONVENTION

USED DESCRIPTIONSidebar

Notes

/

InfoTipsExample:INFO-Sidebarnotesareusedto

highlightimportantinformationin

a

concisemanner.Sidebar

notes

or“InfoTips”consist

of

concise

informationofinterestwhichisenclosedinagray-

shaded

boxplaced

onthe

left

marginof

a

page.

Theserefertotopicsthatareeithernexttothem,or

onthe

same

or

facing

page.It

is

highly

recommendedthat

you

read

them.Keys

/

Keypress

SequencesExample:[Prog]

[Batch]

[Meter]

[n]Keysontheflowcomputerkeypadaredenotedwithbrackets

and

boldface

characters

(e.g.:

the

‘up

arrow’keyisdenotedas[]).Theactualfunctionof

the

key

asit

is

labeled

onthe

keypad

is

what

appears

between

brackets.

Keypress

sequencesthatareexecutedfromtheflowcomputerkeypadare

expressedinaseriesofkeysseparatedbyaspace

(as

shown

in

the

example).Screen

DisplaysExample:UseUp/DownArrows

To

Adjust

Contrast;

Left,RightArrows

To

Adjust

BacklightSample

screensthat

correspondto

the

flow

computerdisplayappearsurroundedbyadarkgray

border

withthe

text

in

boldface

characters

and

mono-spacedfont.

The

flow

computer

display

is

actually4linesby20characters.Screensthatare

morethan4linesmustbescrolledtorevealthetext

shown

in

the

manual.ManualUpdates

and

Technical

Bulletins-

Volume5oftheUser

Manualisacompendiumof

TechnicalBulletins.Theycontainupdatestotheuser

manual.Youcanviewand

print

updates

from

our

website:Typographical

Conventions-Theseare

standardgraphical/textelementsusedtodenote

types

ofinformation.

For

yourconvenience,

a

few

conventions

were

establishedinthemanual’s

layout

design.

These

highlight

importantinformationofinteresttothe

reader

and

are

easily

caught

bytheeye.ALL.71+

05/99xvCONVENTION

USED DESCRIPTIONHeadingsExample:Chapter

HeadingSection

HeadingSubsection

HeadingSequentialheadingnumberingisusedtocategorizetopicswithineachvolumeoftheUserManual.The

highestheadinglevelisachapter,whichisdivided

intosections,

which

are

likewise

subdivided

into

subsections.

Among

otherbenefits,

this

facilitates

informationorganization

and

cross-referencing.Figure

CaptionsExample:Fig.

2-3.

FigureNo.3ofChapter

2Figurecaptionsarenumberedinsequenceasthey

appearineachchapter.Thefirst

number

identifiesthechapter,followedbythesequencenumberandtitleof

the

illustration.Page

NumbersExample:2-8Pagenumberingrestartsatthebeginningofevery

chapter

and

technical

bulletin.

Page

numbers

are

preceded

bythe

chapter

number

followed

by

a

hyphen.Technicalbulletinsonlyindicatethe

page

numberofthatbulletin.Page

numbers

are

located

on

the

outside

margin

in

the

footer

of

each

page.Application

Revision

and

Effective

Publication

DateExamples:All.71

03/9820/24.7103/9821/25.7103/9822/26.7103/9823/27.7103/98Thecontents

of

Volume

1

and

Volume

5

are

commontoallapplicationrevisionsandaredenoted

as

All.71.

Contentof

Volumes2,

3

and

4

are

application

specific

and

are

identified

withthe

application

number.

These

identifiers

are

included

on

everypage

intheinside

marginofthefooter,

oppositethepagenumber.Thepublication/effective

dateof

the

manual

followsthe

application

identification.Thedateisexpressedasmonth/year(e.g.:March

1998

is03/98).Trademark

ReferencesThe

following

are

trademarks

of

OmniFlowComputers,Inc.:?

Omni

3000?

Omni

6000?

OmniComOther

brand,

product

and

company

names

that

appear

in

this

manual

are

trademarks

of

their

respectiveowners.Omni

6000

/

Omni

3000

User

Manual Manual

GuideCopyright

Information

and

Modifications

PolicyThismanualiscopyrightprotected.Allrightsreserved.Nopartof

this

manualmaybeusedorreproducedinanyform,orstoredinanydatabaseorretrievalsystem,withoutpriorwrittenconsentofOmniFlowComputers,Inc.,Stafford,Texas,USA.Makingcopiesofanypartofthismanualforanypurposeotherthan

yourownpersonal

use

is

a

violationof

United

States

copyright

laws

and

internationaltreaty

provisions.Omni

FlowComputers,

Inc.,

in

conformance

withits

policy

of

product

development

andimprovement,maymake

anynecessary

changesto

thisdocumentwithout

notice.xviALL.71+

05/99Warranty,

Licenses

and

Product

RegistrationProductwarrantyandlicensesforuseofOmniflowcomputerfirmwareandofOmniComConfigurationPCSoftwareareincludedinthefirstpagesofeach

Volumeofthismanual.Werequirethatyoureadthisinformationbeforeusing

yourOmniflow

computer

and

the

suppliedsoftware

anddocumentation.Ifyouhavenotdonesoalready,pleasecompleteandreturntoustheproduct

registrationformincludedwithyourflowcomputer.Weneedthisinformationfor

warrantypurposes,

to

render

you

technical

support

andserve

you

in

future

upgrades.Registereduserswillalsoreceiveimportantupdatesandinformation

about

their

flow

computer

andmeteringsystem.Copyright

1991-1999by

Omni

Flow

Computers,

Inc.All

Rights

Reserved.!Important!Volume

1

User

ManualSystem

Architecture

and

InstallationOmni6000/Omni

3000User

ManualContents

of

Volume

1iiALL.71+

05/991. Overview

of

Hardware

and

Software

Features

1-11.1. Introduction

1-11.2. Operator’s

Panel

1-21.2.1. LCD

Display

1-21.2.2. Electromechanical

Totalizers1-21.2.3. Diagnostic

and

Program

LEDs1-21.2.4. Active

Alarm

LED1-21.2.5. Alpha

Shift

LED1-21.2.6. Operator

Keypad

1-21.3. Passive

Backplane

Mother

Board

1-41.4. Back

Panel

Terminal

Module

1-61.4.1. Back

Panel

Terminations1-61.4.2. Extended

Back

Panel

1-71.5. Central

Processor

Module

1-81.6. Input/Output

(I/O)

Modules

1-91.6.1. Photo-Optical

Isolation

1-101.6.2. Digital

I/O

Modules

1-111.6.3. Serial

Communication

Modules

1-121.6.4. Process

I/O

Combination

Modules

1-.Operating

Power

1-17Firmware

and

Software

1-191.8.1. Interrupt-Driven

CPU

1-191.8.2. Cycle

Time

1-191.8.3. On-line

Diagnostics

and

Calibration

1-191.8.4. PC

Communications

Interface

1-191.8.5. OmniCom

Configuration

PC

Software

1-201.8.6. Year

2000

Compliance

1-201.9. Initializing

Your

Flow

Computer

1-21Volume

1System

ArchitectureandInstallationALL.71+

05/99iii2. ProcessInput/OutputCombinationModuleSetup

.

2-12.1. Introduction2-12.2. Features

of

the

I/O

Combo

Modules2-12.2.1. Setting

the

Address

of

the

Combo

Modules

2-22.2.2. Hardware

Analog

Configuration

Jumpers

2-22.2.3.

ProcessI/OComboModuleAddressesVersusPhysicalI/OPoints

2-2

2.2.4.

AssigningSpecificSignalInputs

2-3

2.2.5.

Sample

Omni

Flow

Computer

Configuration

Charts

2-42.3.

The

A

and

B

Combo

I/O

Modules

2-62.3.1.

AandBComboModuleNon-SelectableorSelectableAddress

2-7

2.3.2.TheATypeComboI/OModule2-8

2.3.3.

The

B

Type

Combo

I/O

Module

2-102.4. The

E/D

and

E

Combo

Modules2-112.4.1. The

E/D

Type

Combo

I/O

Module

2-112.4.2. The

E

Type

Combo

I/O

Module

2-122.5. The

H

Type

Combo

I/O

Module2-132.6. The

HV

Type

Combo

I/O

Module2-152.7. The

SV

Type

Combo

I/OModule2-163. MountingandPowerOptions

..

3-13.1. Mechanical

Installation3-13.1.1. Panel

Mounting

3-13.1.2. Nema

4

/

4X

Configurations

3-23.1.3. Nema

7

Specification

3-23.2. Input

Power3-43.2.1. AC

Power

3-43.2.2. DC

Power

3-43.2.3. Safety

Considerations

3-43.3. Power

Terminals3-53.3.1. CE

Equipment

Power

Terminals

3-53.3.2. Extended

Back

Panel

Power

Terminals

3-63.4. Power

Supply

Module

Switching

Regulator3-8Omni6000/Omni

3000

UserManualContents

of

Volume

1ivALL.71+

05/994. Connecting

to

Flowmeters

4-14.1. Turbine

Flowmeter

(A

or

B

Combo

Module)

4-14.2. WiringFlowmeterSignalstoETypeComboModules

4-2

4.3. Faure

Herman

Turbine

Meters

(E

ComboModule)

4-34.4. Pulse

Fidelity

and

Integrity

Checking

with

E

Type

Combo

Modules

4-45. Connecting

to

Transducers

and

Transmitters

5-15.1. WiringtheInputTransducers...

5-15.2. Wiring

ofaDry

‘C’

Type

Contact

5-25.3. Wiring

RTD

Probes

5-35.4. Wiring

Densitometers

5-45.4.1.

WiringDensitometerSignalstoanE/DTypeComboModule5-4

5.4.2.

Solartron

Densitometers5-4

5.4.3.

Sarasota

Densitometers5-6

5.4.4.

UGC

Densitometers

5-85.5.

Wiring

of

Honeywell

ST3000

Transmitters

5-105.6.

Wiring

Micro

Motion

Transmitters

5-11Connecting

Micro

Motion

RFT9739

Transmitter

to

A

Type

or

E

Type

ProcessI/O

Combination

Modules

5-11Connecting

Micro

Motion

RFT

9739

via

RS-485

Serial

Communications

5-12Connecting

Micro

Motion

RFT9739

via

Serial

RS-232-C

to

485

Converter

5-136.

ConnectingAnalogOutputsandMiscellaneousI/OIncludingProvers6-1

6.1.

AnalogOutputs

6-1

6.2.

Digital

Inputs/Outputs

6-26.2.1. Wiring

a

Digital

Point

as

an

Input

or

an

Output

6-26.2.2. Connecting

Various

Digital

I/O

Devices

6-46.3. Provers

6-56.3.1. Connecting

Pipe

Prover

Detector

Switches6-56.3.2. Interfacing

to

a

Brooks

Compact

Prover6-56.3.3. Controlling

the

Plenum

Pressure

of

a

Brooks

Compact

Prover

6-6Volume

1System

ArchitectureandInstallationALL.71+

05/99v7. ConnectingtoSerialDevices..

7-17.1. Serial

Port

Connection

Options7-17.2. Connecting

to

Printers

7-27.2.1. Connecting

to

a

Dedicated

Printer

(Port

1)

7-27.2.2. Connecting

to

a

Shared

Printer

(Port

1)

7-37.2.3. Print

Sharing

Problems

7-37.3. Connecting

to

a

Personal

Computer

and

Modem

7-47.4. Peer-to-Peer

Communications

and

Multi-drop

Modes

7-67.4.1. Peer-to-Peer

RS-485

Two-wire

Multi-drop

Mode

7-67.4.2. Peer-to-Peer

via

RS-232-C

Communications

7-77.4.3. Keying

the

Modem

or

Radio

Transmitter

Carrier

in

Multi-drop

Applications

7-7

7.4.4. RS-485

Four-wire

Multi-drop

Mode

7-87.5. Connecting

to

a

SCADA

Device7-97.6. Interfacing

the

Fourth

Serial

Port

to

an

Allen-Bradley

KE

Module

7-108. DiagnosticandCalibrationFeatures

..

8-18.1. Introduction8-18.2. Calibrating

in

the

Diagnostic

Mode

8-28.2.1. Entering

The

Diagnostic

Mode

8-28.2.2. Display

Groups

in

the

Diagnostic

Mode

8-38.2.3. Leaving

The

Diagnostic

Mode

8-38.3. Calibration

Instructions...8-48.3.1. Calibrating

A

Voltage

or

Current

Analog

Input

8-48.3.2. Calibrating

an

RTD

Input

Channel

8-58.3.3. Calibrating

a

4

to

20

mA

Digital

to

Analog

Output

8-78.3.4. Verifying

the

Operation

of

the

Digital

I/O

Points

8-8Omni6000/Omni

3000

UserManualContents

of

Volume

1viALL.71+

05/999. Flow

ComputerSpecifications

..

9-19.1. Environmental

9-19.2. Electrical

9-19.3. Microprocessor

CPU

9-19.4. Backplane

9-29.5. Process

Input/Output

Combo

Modules

9-29.6. Flowmeter

Pulse

Inputs

9-29.7. Detector

Switch

Inputs

9-39.8. Detector

Switch

Inputs

of

E

Combo

Module

9-39.9. Analog

Inputs

9-39.10.

RTD

Inputs

9-39.11.

Analog

Outputs

9-49.12.

Control

Outputs/Status

Inputs

9-49.13.

Multi-bus

Serial

I/O

Interface

9-59.13.1.

RS-232

Compatible

9-59.13.2.

RS-4859-59.14.

Operator

Keypad

9-59.15.

LCD

Display

9-59.16.

Electromechanical

Counters

9-69.17.

Operating

Mode

Indicator

LEDs

9-69.18.

Security

9-6Volume

1System

ArchitectureandInstallationALL.71+

05/99viiFigures

of

Volume

1Fig.

1-1.Fig.

1-2.Fig.

1-3.Fig.

1-4.Fig.

1-5.Fig.

1-6.Fig.

1-7.Fig.

1-8.Fig.

1-9.Fig.

1-10.Fig.

1-11.Fig.

1-12.Fig.

1-13.Fig.

1-14.Fig.

2-1.Fig.

2-2.Fig.

2-3.Fig.

2-4.Fig.

2-5.Fig.

2-6.Fig.

2-7.Fig.

2-8.Fig.

2-9.Fig.

2-10.Fig.

2-11.Fig.

2-12.Features

of

the

Operator

Front

Panel

1-3Passive

Backplane

Motherboard

Omni

3000

1-4Passive

Backplane

Motherboard

Omni

6000

1-5Back

Panel

Terminations

Omni

6000

and

Omni

3000

1-6Extended

Back

Panel

-

Omni

6000

(left);

Omni

3000

(right)

1-7Central

Processor

Module

-

Jumper

Settings

1-8MatchingtheI/OModulestotheBackPanelTerminations

1-9

Photo-optical

Isolation

-

How

It

Works

1-10Digital

I/O

Module

Model

#

6011

-

Jumper

Settings

1-11RS-232/485

Module

#68-6205

Showing

Selection

Jumpers

and

LED

Indicators

1-12

Layout

of

Jumper

Blocks

Showing

RS-232/485

Formats

1-13Back

Panel

Wiring

of

the

RS-232/485

Module

#68-6205

1-14Dual

RS-232

Serial

I/O

Module

Model

-

JumperSettings

1-15

Power

Supply

Module

Model

#

68-6118

1-18Sample

Configuration

Chart

(Blank)

-

Omni

3000

2-4Sample

Configuration

Chart

(Blank)

-

Omni

6000

2-5The

A

and

B

Combo

I/O

Module

-

Configuration

Jumpers

2-6AandBComboModule-Non-Selectable/SelectableAddress2-7

ATypeComboModule-FlowPulseJumperSettings(Channel3orChannel4)

2-8

ATypeComboModule-AnalogInputJumperSettings2-9

BTypeComboModule-JumperSettings-FrequencyDensitometerSetup

2-10

E/D

Type

Combo

Module

-

Jumper

Settings

2-11E

Type

Combo

Module

-

Jumper

Settings

2-12H

Type

Combo

Module

-

Jumper

Settings

2-13HV

Type

Combo

Module

-

Jumper

Settings

2-15Omni

Multivariable

Interface

(SV

Type

Combo)

Module

Model

68-6203

-

JumperSettings

2-16Panel

Mounting

-

Omni

6000

(upper),

Omni

3000

(lower)

3-1Input

Power

Terminals

-

Omni

3000

(upper),

Omni

6000

(lower)

3-5Input

Power

Terminals

-

Extended

Back

Panel

(Omni

6000

only)

3-6Example

of

Typical

Back

Panel

Assignments

(Omni

6000)

3-7Example

of

Typical

Back

Panel

Assignments

(Omni

3000)

3-7

Power

Supply

Module

Model

68-6118

3-8Fig.

3-1.Fig.

3-2.Fig.

3-3.Fig.

3-4.Fig.

3-5.Fig.

3-6.Omni

6000

/

Omni

3000

User

Manual Figures

of

Volume

1viiiALL.71+

05/99Fig.

4-1.Fig.

4-2.Fig.

4-3.Fig.

4-4.Fig.

4-5.Fig.

5-1.Fig.

5-2.Fig.

5-3.Fig.

5-4.Fig.

5-5.Connecting

to

a

Turbine

Pre-amp

(A

or

B

Combo

Modules)

4-1Wiring

to

Turbine

Pre-Amps

(E

Type

Combo

Modules

Only)4-2Wiring

of

Faure

Herman

Pre-amp

Using

Omni

24

VDC

4-3Wiring

of

Faure

Herman

Pre-amp

Using

External

24

VDC4-3Connecting

Dual

Coil

Turbines

for

Pulse

Fidelity

Checking

4-4Wiring

the

4-20

mA

Inputs

(Input

Channels

1

&

2

shown)5-1

Wiring

for

Dry

C

Type

Contact

5-2Wiring

a

4-Wire

RTD

Temperature

Probe

5-3Wiring

a

Solartron

Densitometer

with

Safety

Barriers

to

a

‘B’

Type

I/O

Combo

Module

...5-4WiringaSolartron

DensitometerwithoutSafetyBarrierstoa‘B’TypeI/OComboModule5-5Wiring

a

Sarasota

Densitometer

with

Safety

Barriers

to

a

‘B’

Type

I/O

Combo

Module5-6WiringaSarasota

DensitometerwithoutSafetyBarrierstoa‘B’TypeI/OComboModule5-7WiringaUGC

DensitometerwithSafetyBarrierstoa‘B’TypeI/OComboModule5-8

WiringaUGC

DensitometerwithoutSafetyBarrierstoa‘B’TypeI/OComboModule5-9

Wiring

of

a

Honeywell

Smart

Transmitter

5-10Wiring

of

a

Micro

Motion

RFT9739

Field-Mount

(Explosion-Proof)

Transmitter

5-11Wiring

of

a

Micro

Motion

RFT97