00825-0100-4665

www.rosemount.com

00825-0100-4725.

Quick Installation Guide00825-0100-4665, Rev AAJanuary 2010 Rosemount 8732

Start

Step 1: Pre-InstallationStep 2: HandlingStep 3: MountingStep 4: Installation

(Flanged Sensors)(Wafer Sensors)(Sanitary Sensors)

Step 5: GroundingStep 6: WiringStep 7: Basic Configuration

End

Rosemount 8732E Magnetic Flowmeter System with Profibus PA digital fieldbus(Transmitter and Sensor)

4665RevAAQIG.fm Page 1 Monday, February 8, 2010 2:12 PM

Quick Installation Guide00825-0100-4665, Rev AA

January 2010Rosemount 8732

2

2010 Rosemount Inc. All rights reserved. All marks property of owner.

This document provides baprovide instructions for detatroubleshooting, explosion-to the Rosemount 8732 refmore instructions. The manwww.rosemount.com.

Failure to follow these insinjury:Installation and servicing inperform any servicing othequalified. Verify that the opewith the appropriate FM, CDo not connect a Rosemouexplosive atmosphere.

The sensor liner is vulnerabsensor for the purpose of lifuseless.To avoid possible damage gaskets. If frequent removaShort spool pieces attacheCorrect flange bolt tighteninbe tightened in the proper sthese instructions could resreplacement.

Emerson Process ManagementRosemount Inc.12001 Technology DriveEden Prairie, MN USA 55344T (US) (800) 999-9307T (Intnl) (952) 906-8888F (952) 949-7001

Emerson Process Management FlowNeonstraat 1 6718 WX EdeThe Netherlands

Emerson Process Management Asia Pacific Private Limited1 Pandan CrescentSingapore 128461

Emerson FZEP.O. Box 17033Jebel Ali Free ZoneDubai UAETel +971 4 811 8100

4665RevAAQIG.fm Page 2 Monday, February 8, 2010 2:12 PMIMPORTANT NOTICEsic installation guidelines for the Rosemount 8732. It does not iled configuration, diagnostics, maintenance, service,

proof, flameproof, or intrinsically safe (I.S.) installations. Refer erence manual (document number 00809-0100-4665) for ual and this QIG are also available electronically on

WARNINGtallation guidelines could result in death or serious

structions are for use by qualified personnel only. Do not r than that contained in the operating instructions, unless rating environment of the sensor and transmitter is consistent

SA, ATEX, or IECEx approval.nt 8732 to a non-Rosemount sensor that is located in an

WARNINGle to handling damage. Never place anything through the ting or gaining leverage. Liner damage can render the sensor

to the sensor liner ends, do not use metallic or spiral-wound l is anticipated, take precautions to protect the liner ends.

d to the sensor ends are often used for protection.g is crucial for proper sensor operation and life. All bolts must equence to the specified torque limits. Failure to observe ult in severe damage to the sensor lining and possible sensor

T +31 (0)318 495555F +31(0) 318 495556

T (65) 6777 8211F (65) 6777 0947/65 6777 0743

Fax +971 4 886 5465


STEP 1: PRE-INSTALLATIONBefore installing the Rosemount 8732 Magnetic Flowmeter Transmitter, there are several pre-installation steps that should be completed to make the installation process easier:

Identify the options and Set the hardware switch Consider mechanical, el

Mechanical ConsideratiThe mounting site for the Rosecure mounting, easy acceeasy readability of the displaIf the Rosemount 8732 is mothat might apply to the senso

Figure 1. Rosemount 8732 Dim

4.97 (126)

8.81 (224)

3.00(76

3.0(78

NOTE: * M20 and PG 13.5 connect

4665RevAAQIG.fm Page 3 Monday, February 8, 2010 2:12 PM3

configurations that apply to your applicationes if necessaryectrical, and environmental requirementsonssemount 8732 transmitter should provide enough room for ss to conduit ports, full opening of the transmitter covers, and y screen (see Figure 1).unted separately from the sensor, it is not subject to limitations r.

ensional Drawing

5.82(148)

6.48 (165)7.49 (190)

LOI Cover

)

7 )

4.97 (126)

1/2-14 NPT, (3 places)*

1/2-14 NPT, (2 places)*

ions are available with the use of threaded conduit adapters.



4

Environmental ConsiderationsTo ensure maximum transmitter life, avoid excessive heat and vibration. Typical problem areas include:

High-vibration lines with integrally mounted transmitters Warm-climate installations in direct sunlight Outdoor installations in cold climates.

Remote-mounted transmitters may be installed in the control room to protect the electronics from the harsh environment Both remotely and integrallyso there must be access to a

Installation ProcedurRosemount 8732 installationprocedures.

Mount the TransmitterAt a remote site the transmitagainst a flat surface.Pipe MountingTo mount the transmitter on 1. Attach the mounting brac2. Attach the Rosemount 87

Hardware Jumpers/SwitThe 8732 Profibus PA electrswitches. These switches dopositions as listed below:

Changing the switch position

Electrical ConsiderationBefore making any electricalelectrical standards and be saccessories necessary to co

Rotate Transmitter HouThe electronics housing canfour mounting bolts on the bhousing is returned to its origbetween the housing and thedisconnect the wiring from thtightened in the desired orien

Simulate Enable: O

Transmitter Security: O

4665RevAAQIG.fm Page 4 Monday, February 8, 2010 2:12 PMand provide easy access for configuration or service. mounted Rosemount 8732 transmitters require external power suitable power source.

es includes both detailed mechanical and electrical installation

ter may be mounted on a pipe up to two inches in diameter or

a pipe: ket to the pipe using the mounting hardware.32 to the mounting bracket using the mounting screws.

chesonics board is equipped with two user-selectable hardware not have any functionality and should be left in the default

will have no effect on the functionality of the electronics.

s connections to the Rosemount 8732, consider local and plant ure to have the proper power supply, conduit, and other mply with these standards.

sing be rotated on the sensor in 90 increments by loosening the ottom of the housing, and reinstalling the bolts. When the inal position, be sure the surface is clean and there is no gap sensor. When rotating the housing more than 90 , be sure to e electronics board and reconnect once the housing is securely tation.

FF

FF


STEP 2: HANDLINGHandle all parts carefully to prevent damage. Whenever possible, transport the system to the installation site in the original shipping containers. PTFE-lined sensors are shipped with end covers that protect it fromRemove the end covers just

STEP 3: MOUNTINGUpstream/Downstream To ensure specification accuminimum of five straight pipethe electrode plane (see Fig

Installations with reduced strstraight pipe run installationsrepeatable.

Figure 2. Rosemount 8705 Sen

Figure 3. Upstream and Downs

- through 4-in. Sens

Flow


both mechanical damage and normal unrestrained distortion. before installation.

Pipingracy over widely varying process conditions, install the sensor a diameters upstream and two pipe diameters downstream from ure 3).

aight runs from 0 to 5 pipe diameters are possible. In reduced , performance will shift. Reported flow rates will still be highly

sor Support for Handling

tream Straight Pipe Diameters

ors 6-in. and Larger Sensors

5 Pipe Diameters 2 Pipe Diameters



6

Flow DirectionThe sensor should be mounsensor identification tag, poi

Sensor OrientationThe sensor should be installVertical installation allows upregardless of flow rate. Horizare normally full. In these ca

The electrodes in the Rosemmeasurement electrodes areFigure 4.The electrodes in the Rosemeither vertical or horizontal, apositions the top of the sens

Figure 4. Sensor Orientation

Figure 5. Rosemount 8711 Mou

FLOW

45 Electrode Plane

4665RevAAQIG.fm Page 6 Monday, February 8, 2010 2:12 PMted so the FORWARD end of the flow arrow, shown on the nts in the direction of flow through the sensor.

ed in a position that ensures it remains full during operation. ward process fluid flow and keeps the cross-sectional area full, ontal installation should be restricted to low piping sections that ses, orient the electrode plane to within 45 of horizontal.

ount 8705 sensor are properly orientated when the two in the 3 and 9 oclock positions, as shown on the right of

ount 8711 are properly orientated when the top of the sensor is s shown in Figure 5. Avoid any mounting orientation that

or at 45 from the vertical or horizontal position.

nting Position

FLOW

45 Electrode Plane


STEP 4: INSTALLATIONFlanged SensorsGasketsThe sensor requires a gasket amaterial selected must be comspiral-wound gaskets can dagrounding ring. All other appelectrode) require only one g

Flange BoltsNOTEDo not bolt one side at a tim1. Snug left2. Snug right3. Tighten left4. Tighten rightDo not snug and tighten the Failure to alternate betweenmay result in liner damage.Suggested torque values byB16.5 (ANSI) and Table 2 fosensor is not listed. Tighten incremental sequence shownprocess on the downstream tighten the bolts in a similar c40%, 60%, 80%, and 100% process and sensor flanges If leakage has not stopped aadditional 10% increments ureaches the maximum torquthe liner often leads the usercombinations of flanges, bolCheck for leaks at the flangemethods can result in severethe initial installation. Over ti


t each of its connections to adjacent devices or piping. The gasket patible with the process fluid and operating conditions. Metallic or mage the liner. Gaskets are required on each side of a lications (including sensors with lining protectors or a grounding asket on each end connection.

e. Tighten each side simultaneously. Example:

upstream side and then snug and tighten the downstream side. the upstream and downstream flanges when tightening bolts

sensor line size and liner type are listed in Table 1 for ASME r DIN flanges. Consult the factory if the flange rating of the flange bolts on the upstream side of the sensor in the in Figure 6 to 20% of the suggested torque values. Repeat the

side of the sensor. For sensors with more or less flange bolts, rosswise sequence. Repeat this entire tightening sequence at

of the suggested torque values or until the leak between the stop. t the suggested torque values, the bolts can be tightened in ntil the joint stops leaking, or until the measured torque value e value of the bolts. Practical consideration for the integrity of to distinct torque values to stop leakage due to the unique ts, gaskets, and sensor liner material.s after tightening the bolts. Failure to use the correct tightening damage. Sensors require a second tightening 24 hours after

me, sensor liner materials may deform under pressure.



8

Figure 6. Flange Bolt Torquing Sequence

Table 1. Suggested Flange Bolt

Size Code Line Size (

(1) Derated available with PTF

005 0.5-in. (15 mm)010 1- in. (25 mm)015 1.5-in. (40 mm)020 2-in. (50 mm)030 3-in. (80 mm)040 4-in. (100 mm)060 6-in. (150mm)080 8-in. (200 mm)100 10-in. (250 mm)120 12-in. (300 mm)140 14-in. (350 mm)160 16-in. (400 mm)180 18-in. (450 mm)200 20-in. (500 mm)240 24-in. (600 mm)300 30-in. (750 mm)360 36-in. (900 mm)

4665RevAAQIG.fm Page 8 Monday, February 8, 2010 2:12 PM Torque Values for Rosemount 8705 and 8707 High-Signal Sensors

PTFE/ETFE/PFA linersPolyurethane/Neoprene/

Linatex liner

Class 150pound-feet)

Class 300(pound-feet)

Class 600(1) (Derated to 1000 psi)

E lining only.



8 8 8 - -8 12 13 - -13 25 29 7 1819 17 20 14 1134 35 41 23 2326 50 68 17 3245 50 77 30 3760 82 121 42 5555 80 129 40 7065 125 146 55 10585 110 194 70 9585 160 274 65 140120 170 432 95 150110 175 444 90 150165 280 731 140 250195 375 - 165 350280 575 - 245 575

15

3

7

8

4

62

8-bolt


Table 2. Flange Bolt Torque and Bolt Load Specifications for 8705PTFE/ETFE liner

Size Code

PN10 PN 16 PN 25 PN 40

Line Size(Newton-

meter) (Ne(Newton- (Newton- (Newton-

005 0.5-in.(15 mm)

010 1-in.(25 mm)

015 1.5-in.(40 mm)

020 2-in.(50 mm)

030 3-in. (80 mm)

040 4-in. (100 mm)

060 6-in. (150mm)

080 8-in.(200 mm)

130 3

100 10-in.(250 mm)

100 2

120 12-in.(300 mm)

120 3

140 14-in.(350 mm)

160 4

160 16-in.(400 mm)

220 5

180 18-in.(450 mm)

190 4

200 20-in.(500 mm)

230 5

240 24-in. (600 mm)

290 5


wton) meter) (Newton) meter) (Newton) meter) (Newton)10 4400

20 10100

50 16100

60 20100

50 16800

50 17800 70 19600

90 24700 130 28700

5200 90 19700 130 29200 170 34400

8000 130 28300 190 38000 250 44800

2000 170 38400 190 38600 270 47700

3800 220 49500 320 57200 410 68100

0600 280 56200 410 68100 610 92900

3200 340 68400 330 55100 420 64000

1100 380 68900 440 73300 520 73900

8600 570 93600 590 90100 850 112000



10

Table 2. Flange Bolt Torque and Bolt Load Specifications for 8705

Wafer SensorsGasketsThe sensor requires a gasket amaterial selected must be comspiral-wound gaskets can dagrounding ring.

Alignment and Bolting1. On 1.5 - through 8-in. (40

end of the sensor. The smrequire centering rings. Oand then insert the studsring.

2. Insert studs for the bottomspecifications are listed in

NOTEUsing carbon steel bolts on sthan the required stainless s

Size Code Line Size

Polyurethane, Linatex, and Neoprene LinersPN 10 PN 16 PN 25 PN 40

(Newton-meter) (Ne

010 1-in. (25 mm)

015 1.5-in. (40 mm)

020 2-in.(50 mm)

030 3-in.(80 mm)

040 4-in. (100 mm)

060 6-in. (150mm)

080 8-in. (200 mm)

90 2

100 10-in. (250 mm)

70 1

120 12-in. (300 mm)

80 2

140 14-in. (350 mm)

110 2

160 16-in. (400 mm)

150 3

180 18-in. (450 mm)

130 2

200 20-in. (500 mm)

150 3

240 24-in. (600 mm)

200 3

4665RevAAQIG.fm Page 10 Monday, February 8, 2010 2:12 PMt each of its connections to adjacent devices or piping. The gasket patible with the process fluid and operating conditions. Metallic or mage the liner. Gaskets are required on each side of a

through 200 mm) line sizes, place centering rings over each aller line sizes, 0.15- through 1-inch (4 through 25 mm), do not n the 4- and 6-in. PN 1016, insert the sensor with rings first

. The slots on this ring scenario are located on the inside of the

side of the sensor between the pipe flanges. Stud Table 3.

maller line sizes, 0.15- through 1-in. (4 through 25 mm), rather teel bolts, will degrade performance.

wton)(Newton-

meter) (Newton)(Newton-

meter) (Newton)(Newton-

meter) (Newton)20 7040

30 10700

40 13400

30 11100

40 11700 50 13200

60 16400 90 19200

3400 60 13100 90 19400 110 22800

8600 80 18800 130 25400 170 29900

1300 110 25500 130 25800 180 31900

9100 150 33000 210 38200 280 45400

3700 190 37400 280 45400 410 62000

8700 230 45600 220 36800 280 42700

4100 260 45900 300 48800 350 49400

9200 380 62400 390 60100 560 74400


3. Place the sensor betweeplaced in the studs. The correspond to the flange

4. Insert the remaining stud5. Tighten to the torque spe

bolts or the liner may be

Flange BoltsTighten flange bolts in crosstightening the flange bolts. Abolt tightening.

Table 3. Stud SpecificationsNominal Sensor Size Stud Specifications

0.15 1 in. (4 25 mm) 316 SST ASTM A193, Grade B8M Class 1 threaded mounted studs1.5 8 in. (40 200 mm) CS, ASTM A193, Grade B7, threaded mounting studs

Figure 7. Gasket Placement wit

Table 4. Rosemount 8711 TorquSize Code

15F 0.1530F 0.30005 0.5 010 1 in015 1.5 020 2 in030 3 in040 4 in060 6 in080 8 in

CenteringRings

Installation, Studs Nuts

and Washers


n the flanges. Make sure that the centering rings are properly studs should be aligned with the markings on the rings that you are using.s, washers, and nuts.cifications shown in Table 4 on page 11. Do not overtighten the damaged.

wise sequence. Always check for leaks at the flanges after ll sensors require a second torquing 24 hours after initial flange

h Centering Rings

e SpecificationsLine Size Pound-feet Newton-meter inch (4 mm) 5 7 inch (8 mm) 5 7

inch (15 mm) 5 7ch (25 mm) 10 14

inch (40 mm) 15 20ch (50 mm) 25 34ch (80 mm) 40 54ch (100 mm) 30 41ch (150 mm) 50 68ch (200 mm) 70 95

Customer-supplied Gasket

FLOW



12

Sanitary SensorsGasketsThe sensor requires a gasket at each of its connections to adjacent devices or piping. The gasket material selected must be compatible with the process fluid and operating conditions. Gaskets are supplied betweeTri-Clamp fitting, on all Roseconnection fittings are not su

Alignment and BoltingStandard plant practices shofittings. Unique torque value

Figure 8. Rosemount 8721 San

User supplied

User supplied ga

4665RevAAQIG.fm Page 12 Monday, February 8, 2010 2:12 PMn the IDF fitting and the process connection fitting, such as a mount 8721 Sanitary sensors except when the process pplied and the only connection type is an IDF fitting.

uld be followed when installing a magmeter with sanitary s and bolting techniques are not required.

itary Installation

clamp

sket


STEP 5: GROUNDINGUse Table 5 to determine which process grounding option to follow for proper installation. The sensor case should be ecodes. Failure to do so may

Table 5. Process Grounding Ins

Type of PipeGroundin

StrapsConductive Unlined Pipe

See Figure 9

Conductive Lined Pipe

Insufficient Grounding

Non-Conductive Pipe

Insufficient Grounding

Figure 9. Grounding Straps or G

Figure 10. Grounding with Grou


arth grounded in accordance with national and local electrical impair the protection provided by the equipment.

tallationProcess Grounding Options

g Grounding Rings

Grounding Electrode

Lining Protectors

Not Required Not Required See Figure 10

See Figure 10 See Figure 9 See Figure 10

See Figure 11 See Figure 12 See Figure 11

rounding Electrode in Lined Pipe

nding Rings or Lining Protectors

Grounding Rings or Lining Protectors



14

Figure 11. Grounding with Grounding Rings or Lining Protectors

Figure 12. Grounding with Grou

4665RevAAQIG.fm Page 14 Monday, February 8, 2010 2:12 PMnding Electrode

Grounding Rings or Lining Protectors


STEP 6: WIRINGConduit Ports and ConnectionsBoth the sensor and transmiconnections with optional CMshould be made in accordanshould be sealed with metal errors due to electrical noisecoil drive and electrode cablsensor is required. Shieldedenvironments. When preparifit the wire completely underresult in an unwanted electriFor flanged and sanitary sensealed cable glands, conduitmore details on proper instalreference Rosemount Technwww.Rosemount.com.

Conduit CablesRun the appropriate size cabsystem. Run the power cableand electrode cables betweeand electrode cables as shomm) on both the electrode acable shields can create elec

Installed signal wiring shtray as AC or DC power

Device must be properly Rosemount combination

08712-0752-2003 (m) is

Powering the TransmittThis wiring section covers susensor and the transmitter, aConnect power to the transmrequirements. For AC powerterminal 9 (AC N/L2) and coapplications, connect negativpowered by 12-42 Vdc powewire and disconnect requirem


tter junction boxes have ports for 1/2-in. NPT conduit 20 or PG 13.5 connections available. These connections

ce with national, local, and plant electrical codes. Unused ports plugs. Proper electrical installation is necessary to prevent and interference. Separate conduits are not necessary for the es, but a dedicated conduit line between each transmitter and cable must be used for best results in electrically noisy ng all wire connections, remove only the insulation required to the terminal connection. Removal of excessive insulation may cal short to the transmitter housing or other wire connections.sors installed into an application requiring IP68 protection, , and conduit plugs that meet IP68 ratings are required. For lation techniques for an IP68 / submersible application, ical Document 00840-0100-4750 available on

le through the conduit connections in your magnetic flowmeter from the power source to the transmitter. Run the coil drive n the sensor and transmitter. Prepare the ends of the coil drive wn in Figure 15. Limit the unshielded wire length to 1-in. (26 nd coil drive cables. Excessive lead length or failure to connect trical noise resulting in unstable meter readings.ould not be run together and should not be in the same cable wiring. grounded or earthed according to local electric codes. cable model number 08712-0752-0001 (ft) or required to be used to meet EMC requirements.

erpplying power to the transmitter, the connections between the nd the Profibus PA segment.itter according to national, local, and plant electrical

applications (90-250 Vac, 50-60 Hz) connect AC Neutral to nnect AC Line to terminal 10 (AC/L1). For DC power e to terminal 9 (DC -) and positive to terminal 10 (DC +). Units r supply may draw up to 1 amp of current. Follow the supply ents on the next page.



16

Supply Wire RequirementsUse 14 to 18 AWG wire ratedin ambient temperatures aboambients greater than 176 Ftransmitters with extended pthe terminals of the transmittDisconnectsConnect the device through disconnect or circuit breaker

Overcurrent ProtectionThe Rosemount 8732 Flowmlines. Maximum ratings of ov

Transmitter CommunicaThe Profibus PA fieldbus comVdc at the transmitter commcommunication terminals. Docommunication terminals. ImPower ConditioningEach fieldbus power supply output from the fieldbus wirin

Figure 13. Power Supply Current

Table 6. Overcurrent RatingsPower System

95-250 Vac 250 V; 42 Vdc 50 V, 3

0.2

0.3

0.4

0.5

0.6

0.7

0.8

0.9

I =I =V =

Supp

ly C

urre

nt (A

mps

)

4665RevAAQIG.fm Page 16 Monday, February 8, 2010 2:12 PM for the proper temperature of the application. For connections ve 140 F (60 C), use a wire rated for 176 F (80 C). For (80 C), use a wire rated for 230 F (110 C). For DC powered

ower cable lengths, verify that there is a minimum of 12 Vdc at er.

an external disconnect or circuit breaker. Clearly label the and locate it near the transmitter and per local electrical code.

eter Transmitter requires overcurrent protection of the supply ercurrent devices are as follows:

tion Inputmunication requires a minimum of 9 Vdc and a maximum of 32

unication terminals. Do not exceed 32 Vdc at the transmitter not apply AC line voltage to the transmitter proper supply voltage can damage the transmitter.

requires a power conditioner to decouple the power supply g segment.

Fuse Rating Manufacturer2 Amp, Quick Acting Bussman AGCI or Equivalent Amp, Quick Acting Bussman AGCI or Equivalent

12 18 24 30 36 42

Power Supply (Volts) 10/V Supply current requirement (Amps) Power supply voltage (Volts)


Field WiringPower independent of the transmitter power supply must be supplied for Profibus PA fieldbus digital communications. Use shielded, twisted pair cable for best results. In order to get maximum performance in new applications, twisted pair cable specifically designed for fieldbus communications sholimited by the power supply vdrawn by each device.

Transmitter Wiring ConThe communication terminaldoes not matter when connecrimped lugs are recommentransmitter covers must be furemove the transmitter cove

Transmitter to Sensor WA single dedicated conduit rusensor and a remote transminterference and noise probl

Table 7. Ideal Cable SpecificatioCharacteristicImpedanceWire SizeShield CoverageLoop ResistanceCapacitance

Figure 14. Power Connections

(The power supply, filter, first terminator, and configuration tool are typically located in the control room.)

* Intrinsically safe installationsallow fewer devices per I.S. barr

Profibus DPProfibus PConverto

(d


uld be used. The number of devices on a fieldbus segment is oltage, the resistance of the cable, and the amount of current

nections are polarity insensitive: the polarity of the DC power leads cting to the power terminals. When wiring to screw terminals, ded. Tighten the terminals to ensure adequate contact. Both lly engaged to meet explosion-proof requirements. Do not

rs in an explosive atmosphere when the transmitter is powered.

iringn for the coil drive and electrode cables is needed between a

itter. Bundled cables in a single conduit are likely to create ems in your system. Use one set of cables per conduit run.

ns for Profibus PA fieldbus WiringIdeal Specification135 to 165 (150 Nominal)22 AWG (0,34 mm2)90%< 110 /km< 30 pF/km

(Trunk)

(Spu

r)

Terminators

Devices 1 through 11* may ier.

to A r (S

pur)

6234 ft (1900 m) maxepending upon cable characteristics)



18

Figure 15. Cable Preparation Detail

Figure 16. Conduit PreparationWrong

Cable Shield

NOTEDimensions are in inches (millimeters).

Power

Outputs

Power

Outputs

4665RevAAQIG.fm Page 18 Monday, February 8, 2010 2:12 PMCorrect

1.00(26)

Coil Drive and Electrode Cables

Coil Drive and Electrode CablesPower

Outputs

Power

Outputs


Remote transmitter installatioIntegrally mounted transmitteLengths from 5 to 1,000 ft .(1sensor.When connecting the remoteterminals 17, 18 and 19. The1, 2 and ground. Table 9 beloterminal block connections a

Table 9. Remote Wiring Connec

Sensor to Remote Moun

Table 8. Cable RequirementsDescription Length Part NumberSignal Cable (20 AWG) Belden 8762, Alpha 2411 equivalent

ftm

08712-0061-000108712-0061-2003

Coil Drive Cable (14 AWG) BeldAlpha 2442 equivalentCombination Signal and Coil DriAWG)(1)

(1) For remote mount installatio330 ft. (100 m)

Transmitter Terminal Senso1 12 2Ground Groun17 1718 1819 19

Figure 17. Remote Mount Wirin


ns require equal lengths of signal and coil drive cables. rs are factory wired and do not require interconnecting cables..5 to 300 m) may be specified, and will be shipped with the

cables, be sure to connect the signal cables (20 AWG) to coil drive cable (14 AWG) should be used to connect terminals w shows the required wiring connections. Figure 17 shows the t the sensor and transmitter.

tions Using Individual Coil and Signal Cable

t Transmitter Connections

en 8720, ftm

08712-0060-000108712-0060-2003

ve Cable (18

ns, combination signal and coil drive cable should be limited to less than

ftm

08712-0752-000108712-0752-2003

r Terminal Wire Gauge Wire Color14 Clear or Red14 Black

d 14 Shield20 Shield 20 Black20 Clear or Red

g Diagram

Do not connect AC power to the sensor or to terminals 1 and 2 of the transmitter, or replacement of the electronics board will be necessary.



20

Sensor to Integral Mount Transmitter Connections

Cover Jam ScrewFor transmitter housings shipinstalled once the transmitteintended to disallow the remothe use of tooling. Follow the1. Verify that the cover jam 2. Install the transmitter hou3. Using an M4 hex wrench4. Turn the jam screw an ad

(Note: Application of exce5. Verify that the cover cann

Figure 18. Integral Mount Wiring Diagram

Electronics

Dpotothreelbe

NOTEInterconnecting cables foruse cable other than that

4665RevAAQIG.fm Page 20 Monday, February 8, 2010 2:12 PMped with a cover jam screw, the screw should be properly r has been wired and powered up. The cover jam screw is val of the transmitter cover in flameproof environments without se steps to install the cover jam screw:screw is completely threaded into the housing.sing cover and verify that the cover is tight against the housing., loosen the jam screw until it contacts the transmitter cover.ditional 1/2 turn counterclockwise to secure the cover. ssive torque may strip the threads.)ot be removed.

Board

o not connect AC wer to the sensor or

terminals 1 and 2 of e transmitter, or placement of the ectronics board will necessary.

integral mount transmitters are wired at the factory. Do not supplied by Emerson Process Management, Rosemount, Inc.


Step 7: Basic ConfigurationQuick Start-UpOnce the magnetic flowmeter system is installed and communication is established, configuration of the transmittwithout Option Code C1, CuEngineering Units: ft/sSensor Size: 3-in.Sensor Calibration Number: Assigning Device NodeThe 8732E Magnetic Flowmtemporary address. To changLocal Operator Interface (LO

Change the Node Addre Change the Ident Numb

Manufacturer Specific msystem.

Flow-Specific Block CoAI BlockThe Analog Input (AI) functiothe control and/or monitoringparameters should be reviewconfigured.1. The first parameter is CH

block measurement is usTransmitter, the channel variable.

2. The second parameter isrelationship between the Flowmeter Transmitter doNo Linearization. This mchecking to the input valu

3. The third parameter is PVdefine the unit of measurchoice of the PV_SCALE

4. The fourth parameter is Oto the relationship of the RANGE values.

5. The fifth group of parameAlarm limits should be coLOWER RANGE values


er must be completed. The standard transmitter configuration, stom Configuration, is shipped with the following parameters:

100000501000000 Address and Ident Numbereter Transmitter with Profibus PA fieldbus is shipped with a e the Node Address and Ident Number, use the features of the I) or a configuration tool. The tools do the following:ss to a user specified address on the network.er to determine if the device will operate in Generic mode or ode. This setting affects the GSD file required by the host

nfiguration

n block provides the primary interface of the measurement to systems. To properly configure the device, the following ed and configured to ensure that the device is correctly

ANNEL. The CHANNEL parameter defines which transducer ed by the AI block. In the 8732E Magnetic Flowmeter will always be set to Flow. There is no other option for this

the LINEARIZATION TYPE. This parameter defines the block input and the block output. Since the 8732E Magnetic es not require linearization, this parameter will always be set to eans that the AI block will only apply scaling, filtering, and limit e._SCALE. The Transducer Block VOLUME_FLOW_UNITS

e of the primary variable input and are directly related to the UPPER RANGE and LOWER RANGE values.UT_SCALE. The output from the AI Block is scaled according

PV_SCALE and OUT_SCALE UPPER RANGE and LOWER

ters are the alarm limits. The High and Low warning and Fault nfigured relative to the OUT_SCALE UPPER RANGE and to set the control limits for the primary variable.



22

Slot ConfigurationThe 8732E has 4 slots that must be configured. If a slot is not going to be used, it must be configured as an empty slot.Figure 19 shows an exampleFlow), and the totalized flow

Consult the GSD file for mor

Figure 19. Basic Slot Configura

4665RevAAQIG.fm Page 22 Monday, February 8, 2010 2:12 PM of a basic slot configuration for the Primary Variable (PV or value.

e details on what each slot can be configured for.

tion


Product CertificationsApproved Manufacturing LocationsRosemount Inc. Eden PraFisher-Rosemount Technolo

Chihuahua MexicoEmerson Process ManagemAsia Flow Technologies Cen

EUROPEAN DIREThe EC declaration of conforfound at www.rosemount.comType n protection type in a

The installation of externcarried out using appropcertified by an approved

CE MarkingComplies with EN 6132

For Rosemount 8732E transComplies with Essential HEN 60079-0: 2006EN 60079-1: 2007EN 60079-7: 2007EN 60079-11: 2007EN 60079-15: 2005EN 61241-0: 2004EN 61241-1: 2006

International CertC-Tick Marking

Rosemount Inc. complies wi

For Rosemount 8732E transIEC 60079-0 : 2004IEC 60079-0: 2007IEC 60079-1 : 2007IEC 60079-7 : 2006IEC 60079-11 : 2006IEC 60079-15: 2005IEC 61241-0 : 2004IEC 61241-1 : 2004


irie, Minnesota, USAgias de Flujo, S.A. de C.V.

ent Flow Ede, The Netherlandster Nanjing, China

CTIVE INFORMATIONmity can be found on page 28. The most recent revision can be

. ccordance with EN50021al connections and the plugging of any unused entries must be riate Ex e or Ex n cable glands and blanking plugs, component Certification Body.

6-1 : 2006

mitters:ealth and Safety Requirements:

ificates

th the following IEC Requirements.

mitters:



24

NOTEFor intrinsically safe (IS) outputs on the 8732E output option code B, F, or P must be selected.IS outputs for Class I, Division 1, Groups A, B, C, D. Temp Code T4 at 60C IS outputs for Ex de [ia] IIB oNOTEFor the 8732E transmitters wtemperature limit is -20 C.North American Certificati

FM ApprovalsN0 Non-incendive for Clas

at 60 C: -50 C Ta E, F, and G (T5 at 60

N5 Non-incendive for Clas60 C: -50 C Ta 6F, and G (T5 at 60 C)Requires sensors with

E5 Explosion-proof for ClaDust-ignition proof ClaNon-incendive for Clas60 C: -50 C Ta 6

Canadian Standards AssociaN0 Non-incendive for Clas

at 60 C: -50 C Ta E, F, and G (T5 at 60

European CertificationsE1 ATEX Flameproof

Certificate No.: KEMAEx de IIC or Ex de [ia]with LOI (-20C Ta Vmax = 250 V AC or 42

0575ED ATEX Flameproof

Certificate No.: KEMAEx de IIB or Ex de [ia] with LOI (-20C Ta Vmax = 250 V AC or 42

0575

4665RevAAQIG.fm Page 24 Monday, February 8, 2010 2:12 PMr IIC T6

ith a local operator interface (LOI), the lower ambient

ons

s I, Division 2, Groups A, B, C, and D non-flammable fluids (T4 60 C), and Dust-ignition proof Class II/III, Division 1, Groups C) Hazardous locations; Enclosure Type 4Xs I, Division 2, Groups A, B, C, and D flammable fluids (T4 at

0 C), and Dust-ignition proof Class II/III, Division 1, Groups E, Hazardous locations; Enclosure Type 4X N5 Approvalss I, Division 1, Groups C and D (T6 at 60 C), and

ss II/III, Division 1, Groups E, F, and G (T5 at 60 C), s I, Division 2, Groups A, B, C, and D flammable fluids (T4 at

0 C) Hazardous locations; Enclosure Type 4X

tion (CSA)s I, Division 2, Groups A, B, C, and D non-flammable fluids (T4 60 C), and Dust-ignition proof Class II/III, Division 1, Groups C) Hazardous locations; Enclosure Type 4X

07ATEX0073 X II 2G IIC T6 (-50C Ta +60 C) +60 C) V DC

07ATEX0073 X II 2GIIB T6 (-50C Ta +60 C) +60 C) V DC


Special conditions for safe(KEMA 07ATEX0073 X): Contact Rosemount Inc. for property class of the securitytransmitter is SST A2-70, or

INSTALLATION INSTRUCTThe cable and conduit entry or increased safety type, suiuse of conduit, a certified stoenclosure.

N1 ATEX Type n Certifica II 3(1)G

Ex nA nL [ia] IIC T4 (-5with LOI: (-20 C Ta Vmax = 42 V DC

0575

Special conditions for safeThe apparatus is not capable6.8.1 of EN 60079-15: 2005.

International Certifications

IECExE7 IECEx Flameproof Certif

Ex de IIC T6 Gb or Exwith LOI (-20C Ta Vmax = 250 V AC or 42

EF IECEx Flameproof CertifEx de IIB T6 Gb or Exwith LOI (-20C Ta Vmax = 250 V AC or 42

NF IECEx Dust Certificate NEx tD A20 IP66 T 100

with I.S.: Ex tD A20 IP66T6 (-50 C Ta +60 with LOI (-20C Ta Vmax = 250 V AC or 42

ND(1)

(1) Max surface temperature iscondistions. Tmax = 100 C

ATEX Dust Certificate No.: KEMA 06ATEX0006 II 1D

Ex tD A20 IP66 T 100with I.S.: [Ex ia] IIC Amb. Temp. Limits: (-2Vmax = 250 V AC or 42IP 66

0575


use

information on the dimensions of the flameproof joints. The screws which attach the flowtube or junction box to the SST A4-70.

IONS:devices and blanking elements shall be of a certified flameproof table for the conditions of use and correctly installed. With the pping box shall be provided immediately to the entrance of the

te No: BASEEFA 07ATEX0203X

0 C Ta 60 C)60 C)

use (x) of withstanding the 500V insulation test required by Clause

This must be taken into account when installing the apparatus.

icate No.: KEM 07.0038X de [ia Ga] IIC T6 Gb (-50 C Ta +60 C) +60 C) V DCicate No.: KEM 07.0038X de [ia IIC Ga] IIB T6 Gb (-50 C Ta +60 C) +60 C) V DCo.: KEM 07.0038XC T 100 C [Ex ia Ga] IICC) +60 C) V DC

40 C above the ambient temperature

C II (1)G0 C Ta + 65 C) V DC



26

Special conditions for safe use(KEM 07.0038X): Contact Rosemount Inc. for information on the dimensions of the flameproof joints. The property class of the security screws which attach the flowtube or junction box to the transmitter is SST A2-70, or

INSTALLATION INSTRUCTThe cable and conduit entry or increased safety type, suiuse of conduit, a certified stoenclosure.

N7 IECEx Type n CertificateEx nA nL [ia] IIC T4 (-5with LOI: (-20 C Ta Vmax = 42 V DC

Special conditions for safeThe apparatus is not capable6.8.1 of IEC 60079-15: 2005

NEPSI - ChinaE3 NEPSI Flameproof Certi

Ex de IIC or Ex de [ia]with LOI (-20C Ta Vmax = 250 V AC or 42

EP NEPSI Flameproof CeEx de IIB or Ex de [ia] with LOI (-20C Ta Vmax = 250 V AC or 42

InMetro - BrazilE2 InMetro Flameproof C

BR-Ex de IIC or BR-Exwith LOI (-20C Ta Vmax = 250 V AC or 42

EB InMetro Flameproof CBR-Ex de IIB or BR-Exwith LOI (-20C Ta Vmax = 250 V AC or 42

KOSHA - KoreaE9 KOSHA Flameproof C

Ex de IIC or Ex de [ia]with LOI (-20C Ta Vmax = 250 V AC or 42

EK KOSHA Flameproof CEx de IIB or Ex de [ia] with LOI (-20C Ta Vmax = 250 V AC or 42

4665RevAAQIG.fm Page 26 Monday, February 8, 2010 2:12 PMSST A4-70.

IONS:devices and blanking elements shall be of a certified flameproof table for the conditions of use and correctly installed. With the pping box shall be provided immediately to the entrance of the

No: IECEx BAS 07.0062X0 C Ta +60 C) +60 C)

use (x) of withstanding the 500V insulation test required by Clause

. This must be taken into account when installing the apparatus.

ficate No.: GYJ071438X IIC T6 (-50 C Ta +60 C) +60 C) V DCrtificate No.: GYJ071438XIIB T6 (-50 C Ta +60 C) +60 C) V DC

ertificate No.: NCC 5030/08 de [ia] IIC T6 (-50 C Ta +60 C)

+60 C) V DC

ertificate No.: NCC 5030/08 de [ia] IIB T6 (-50 C Ta +60 C)

+60 C) V DC

ertificate No.: 2008-2094-Q1X IIC T6 (-50 C Ta +60 C) +60 C) V DCertificate No.: 2008-2094-Q1XIIB T6 (-50 C Ta +60 C) +60 C) V DC


Sensor Approval Information TABLE 10. Sensor Option Codes(1)

(1) CE Marking is standard on

Approval Codes

Rosemount 8Sensor

Rosemount

For Non-flammable

Fluids

FFlam

FlNA N0 ND N1 N5 N7 ND NF E1 E2 E3

E5(2)

(2) Available in line sizes up to

E8 E9 EB EK EM EP KD


Rosemount 8705, 8711, and 8721.

705 Rosemount 8707 Sensor

Rosemount 8711 Sensor

8721Sensors

or mable

uids

For Non-flammable

Fluids

For Flammable

Fluids

For Non-flammable

Fluids

For Flammable

Fluids

For Non-flammable

Fluids

8 in. (200 mm) only.



28

Figure 20. Declaration of Conformity

EC D

FILE ID: 8732E CE Marking

We,

Rosemount Inc.12001 TechnoloEden Prairie, MUSA

declare under our sole re

Model 8manufactured by,

Rosemount Inc.12001 TechnoloEden Prairie, MUSA

to which this declarationCommunity Directives,

Assumption of conformstandards and, when appas shown in the attached

January 21, 2010(date of issue)

4665RevAAQIG.fm Page 28 Monday, February 8, 2010 2:12 PMeclaration of Conformity No: RFD 1068 Rev. E

Page 1 of 3 8732E_RFD1068E.DOC

gy Drive N 55344-3695

sponsibility that the product(s),

732E Magnetic Flowmeter Transmitter

gy Drive and 8200 Market Boulevard N 55344-3695 Chanhassen, MN 55317-9687

USA

relates, is in conformity with the provisions of the European including the latest amendments, as shown in the attached schedule.

ity is based on the application of harmonized or applicable technical licable or required, a European Community notified body certification, schedule.

Mark J Fleigle

Vice President Technology and New Products

(name - printed)

(function name - printed)

(signature)


EC D


EMC Directive (2004

All ModelsEN 61326

LVD Directive (2006

All ModelsEN 61010

ATEX Directive (94/

Model 8732E Ma

KEMA 07Intrinsica

EqExExEx

EqEx

Eq[Ex

EqEx

ENENENEN


Scheduleeclaration of Conformity RFD 1068 Rev. E


/108/EC)

-1: 2006

/95/EC)

-1: 2001

9/EC)

gnetic Flowmeter Transmitter

ATEX0073 X Flameproof, with Increased Safety Terminal(s), lly Safe Output(s), Dust

uipment Group II, Category 2 G: d IIB/IIC T6 de IIB/IIC T6 e IIB/IIC (Junctionbox)

uipment Group II, Category 2 (1) G: de [ia] IIB/IIC T6 (Transmitter)

uipment Group II, Category (1) G ia] IIC

uipment Group II, Category 1 D: tD A20 IP66 T100 C

60079-0: 2006 60079-1: 2007 60079-7: 2007 60079-11: 2007

EN 60079-26: 2004 EN 60079-27: 2006 EN 61241-0: 2006 EN 61241-1: 2004



30

EC D


BASEEF0

EqEx

EqEx

ENENEN

ATEX Notified Bodi

KEMA [NUtrechtsew

P.O. Box 5 The Nethe Postbank 6

Baseefa [NRockhead Buxton, DUnited Kin

ATEX Notified Body

Det Norsk Veritasvei

Hovik, No

4665RevAAQIG.fm Page 30 Monday, February 8, 2010 2:12 PMScheduleeclaration of Conformity RFD 1068 Rev. E


7ATEX0203X Type n, Intrinsically Safe Output

uipment Group II, Category 3 G nA nL IIC T4

uipment Group II, Category 3(1) G nA nL [ia] IIC T4

60079-0: 2006 60079-15: 2005 60079-11: 2007

es for EC Type Examination Certificate

otified Body Number: 0344] eg 310, 6812 AR Arnhem 185, 6802 ED Arnhem rlands 794687

otified Body Number: 1180] Business Park, Staden Laneerbyshire SK17 9RZ gdom

for Quality Assurance

e Veritas (DNV) [Notified Body Number: 0575] en 1, N-1322 rway

Rosemount 8732E Magnetic Flowmeter System with Profibus PA digital fieldbus (Transmitter and Sensor)Step 1: Pre-InstallationStep 2: HandlingStep 3: MountingStep 4: Installation(Flanged Sensors)(Wafer Sensors)(Sanitary Sensors)

Step 5: GroundingStep 6: WiringStep 7: Basic ConfigurationProduct Certifications

00825-0100-4665

Documents

Transcript of 00825-0100-4665