Emerson Micro Motion IFT9701 Instruction Manual Download Page 1

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Micro Motion

Model IFT9701 Transmitter
with Optional Display

Instruction Manual

Instruction Manual

P/N 3100572, Rev.

March 2004

Summary of Contents for Micro Motion IFT9701

Page 1: ...Micro Motion TM Micro Motion Model IFT9701 Transmitter with Optional Display Instruction Manual Instruction Manual P N 3100572 Rev E March 2004 ...

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Page 3: ...ou In U S A phone 1 800 522 MASS 1 800 522 6277 In Canada and Latin America phone 303 530 8400 In Asia phone 65 6770 8155 In the U K phone 0800 966 180 toll free Outside the U K phone 31 0 318 495 670 2004 Micro Motion Inc All rights reserved Micro Motion is a registered trademark of Micro Motion Inc The Micro Motion and Emerson logos are trademarks of Emerson Electric Co All other trademarks are ...

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Page 5: ...oard compartment cover 10 Chapter 3 Remotely Mounting the Transmitter 11 3 1 Overview 11 3 2 Choosing the proper location 11 3 3 Mounting the transmitter 11 3 3 1 Guidelines for flat surface mounting 11 3 3 2 Guidelines for pole mounting 11 3 4 Connecting the transmitter to the sensor 14 3 4 1 Cable types 14 3 4 2 Guidelines for conduit 16 3 4 3 Guidelines for cable gland 16 3 4 4 Wiring connectio...

Page 6: ...3 Flow cutoff 38 6 2 4 Damping 38 6 2 5 Flow direction 39 6 2 6 Range values for milliamp output 40 6 2 7 Pulse output scaling 40 6 3 Calibration procedures 41 6 3 1 Auto zero 41 6 3 2 Flow calibration procedure 42 6 4 Characterization 44 Chapter 7 Configuration with ProLink II Software 45 7 1 Configuration overview 45 7 2 Configuration parameters 46 7 2 1 HART tag 46 7 2 2 Process variable measur...

Page 7: ...ault indication 66 A 2 7 Output testing 66 A 2 8 Power supply options 66 A 3 Environmental limits 67 A 3 1 Temperature 67 A 3 2 Process fluid temperature limits 67 A 3 3 Humidity limits 68 A 3 4 Vibration limits 68 A 4 Density limits 68 A 5 Environmental effects 68 A 6 Ambient temperature effect on milliamp output 69 A 7 Shipping weight 69 A 8 Hazardous area classifications 69 Appendix B HART Comm...

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Page 9: ...es are provided throughout this manual to protect personnel and equipment Read each safety message carefully before proceeding to the next step WARNING Improper installation in a hazardous area can cause an explosion For information about hazardous applications refer to Micro Motion ATEX CSA or UL installation instructions shipped with the transmitter or available from the Micro Motion web site WA...

Page 10: ...ponents The IFT9701 transmitter can be integrally mounted to a Micro Motion F Series sensor or remotely mounted from an ELITE F Series Model D or Model DL sensor The IFT9701 transmitter does not operate with Micro Motion T Series R Series or Model D600 or DT sensors If the transmitter is integrally mounted to the sensor the flowmeter includes the components shown in Figure 1 1 If the transmitter w...

Page 11: ...ional LCD Sensor wiring compartment 4X M8 mounting bolt 4X lock washer 4X flat washer To rotate transmitter remove then re install to 12 ft lb 16 Nm torque Sensor cable For minimum bend radius of cable see Figure 3 4 3 5 or 3 6 If conduit is used install drip leg in conduit Circuit board compartment User access not normally required Mounting bracket Requires 4 user supplied bolts Cable gland To as...

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Page 13: ...For more information about hazardous area classifications see Section A 8 See Figure 2 1 for the location of the approvals tag on your transmitter WARNING Improper installation in a hazardous area could cause an explosion Install the transmitter in an environment that is compatible with the hazardous area specified on the approvals tag For intrinsically safe sensor installations use this document ...

Page 14: ... Series sensor see the sensor product data sheet for transmitter and sensor dimensions and see the instruction manual that was shipped with the sensor for information about flowmeter mounting and location If the transmitter will be remotely mounted use the supplied bolt assemblies to attach the transmitter to the mounting bracket Attach the bracket to a rigid stable surface or instrument pole that...

Page 15: ...e 2 2 The circuit board compartment is rated EEx d flameproof and should remain closed at all times after the transmitter has been installed If the transmitter is approved by ATEX as flameproof the compartment has a lockout device shown in Figure 2 2 The lockout device must be loosened and rotated before the compartment cover can be unscrewed WARNING Explosion hazard The circuit board compartment ...

Page 16: ...vice must be loosened and rotated before the compartment cover can be unscrewed CAUTION Improper handling of transmitter components can damage the transmitter If a breaker bar is used for loosening the cover of the circuit board compartment Apply steady pressure to avoid chipping the paint on the transmitter housing Chipped paint can result in corrosion of the housing If paint becomes chipped repa...

Page 17: ...jumper see Figure 2 3 2 3 2 Fault output levels The transmitter can be configured to produce downscale or upscale fault outputs In a fault condition Downscale The milliamp output goes to 2 mA the pulse output goes to 0 Hz Upscale The milliamp output goes to 22 mA the pulse output goes to 7200 Hz The diagnostic LED blinks ON four times per second whether the setting is upscale or downscale The defa...

Page 18: ...f the circuit board compartment 1 Screw the cover back onto the housing 2 Hand tighten the cover until it seats on the O ring 3 If the circuit board compartment has a lockout device as shown in Figure 2 2 rotate the clamp into place and push it into the slot Use a 4 mm 5 32 inch Allen wrench to tighten the lockout screw to 5 inch pounds 0 56 N m of torque ...

Page 19: ...l length of cable from sensor to transmitter must not exceed 1000 feet 300 meters For bend radii of cables see Figure 3 4 Figure 3 5 or Figure 3 6 according to the type of cable to be used 3 3 Mounting the transmitter A transmitter that is to be remotely mounted from the sensor is shipped with an L shaped mounting bracket Attach the bracket to a rigid stable surface or instrument pole that will no...

Page 20: ...2 13 16 71 4 1 4 108 9 43 64 245 4 53 64 122 6 17 64 159 For minimum bend radii of cable see Figure 3 4 Figure 3 5 or Figure 3 6 7 1 64 178 2X 5 57 64 150 1 3 4 44 1 4 1 4 107 19 32 15 3 4 14 NPT or M20 X 1 5 for power wiring 3 4 14 NPT or M20 X 1 5 for output wiring Field wiring compartment 3 4 14 NPT gland for sensor wiring 1 2 13 Character height 1 If transmitter is ordered without display dime...

Page 21: ...ormally required Area approvals tag Field wiring compartment Sensor wiring compartment 4X M8 bolt 4X lock washer 4X flat washer To rotate transmitter remove then re install to 12 ft lb 16 N m torque 4X 5 16 M8 bolt User supplied Circuit board compartment User access not normally required Area approvals tag Field wiring compartment Sensor wiring compartment 4X M8 bolt 4X lock washer 4X flat washer ...

Page 22: ...conduit that provides 360 termination shielding for the enclosed cable See Figure 3 4 for an illustration of jacketed cable Shielded and armored cable are CE compliant when the cable is installed with the factory supplied cable glands See Figure 3 5 for an illustration of shielded cable and Figure 3 6 for an illustration of armored cable Each cable type is available with a PVC or Teflon FEP jacket...

Page 23: ... dynamic load inches mm inches mm inches mm PVC 0 525 14 4 1 4 108 8 1 2 216 Teflon FEP 0 425 11 3 1 4 83 6 3 8 162 Table 3 1 Temperature ranges for jacket material Jacket material Low operating temperature limit High operating temperature limit PVC 40 F 40 C 221 F 105 C Teflon FEP 76 F 60 C 302 F 150 C Table 3 2 Cable selection guidelines Installation requirements Jacketed cable Shielded cable Ar...

Page 24: ...the sensor junction box 3 4 4 Wiring connections to sensor 1 At the sensor insert the ends of the individual wires into the terminals inside the sensor junction box Match the wire colors of the cable with the wire colors at the sensor wiring terminal as described in Figure 3 7 and Table 3 3 No bare wire should remain exposed 2 If possible position the junction box on the sensor so the conduit entr...

Page 25: ...ls Flowmeter cable IFT9701 terminals Brown Red Green White Blue Gray Orange Violet Yellow Black Drains from all wire sets Maximum cable length 1000 ft 330 m Prepare cable in accordance with the instructions that are shipped with the cable Black Drains remote mount only Brown Red Orange Yellow Green Blue Violet Gray White 10 11 12 GND Brown Red Orange Yellow Green Blue Violet Gray White Brown Red C...

Page 26: ... Model IFT9701 Transmitter Instruction Manual Remotely Mounting the Transmitter continued Figure 3 8 Sensor wiring compartment and sensor wiring terminals Sensor wiring terminals Sensor wiring compartment ...

Page 27: ...o they meet local code requirements The transmitter has two separate inch NPT or M20 female conduit openings which must remain sealed to keep the transmitter watertight See Figure 4 1 and Figure 4 2 The transmitter has a sensor wiring compartment for intrinsically safe sensor wiring and a field wiring compartment for non intrinsically safe power supply and output wiring See Figure 4 1 and Figure 4...

Page 28: ...case ground screw may be used as required by local policy or code Figure 4 1 Power supply wiring terminals CAUTION Incorrect voltage or installation with power supply on could cause transmitter damage or failure Match power supply voltage with voltage indicated on label in field wiring compartment Shut off power before installing transmitter 85 250 VAC 20 30 VDC N L If national standards are not i...

Page 29: ...For instructions on pulse output wiring see Section 4 4 4 Figure 4 2 Output wiring terminals Table 4 1 Wire guidelines for DC power supply Wire size Wire length 16 AWG 1 5 mm 1500 feet 450 meters 18 AWG 0 75 mm 1000 feet 300 meters 20 AWG 0 5 mm 600 feet 200 meters Terminate output cable shielding at gland or conduit fitting 360 termination of shielding is not necessary Do not terminate shield ins...

Page 30: ... and illustrated in Figure 4 3 In compliance with the NAMUR NE43 standard To represent process data the milliamp output will produce a live signal in the range of 3 8 20 5 mA The milliamp output will never produce a signal in the range of 2 0 3 8 mA or in the range of 20 5 22 mA To indicate a fault the milliamp output will produce a signal of 2 or 22 mA The fault output level is determined by the ...

Page 31: ...ther than 0 to the transmitter causes the primary mA output to remain at a constant 4 mA level Figure 4 4 shows how to connect wiring for a HART compatible network The maximum number depends upon the type of transmitters the method of installation and other external factors The primary mA output must produce a 4 20 mA current for the Bell 202 physical layer The Bell 202 layer will work when the pr...

Page 32: ...2 R3 Note 3 R1 Note 1 DCS or PLC with internal resistor Note 2 HART Communicator 4 20 mA terminals 4 20 mA terminals for communicator hook up 1 If necessary add resistance in the loop by installing resistor R1 SMART FAMILY devices require a minimum loop resistance of 250 ohms Loop resistance must not exceed 600 ohms regardless of the communication setup 2 The DCS or PLC must be configured for an a...

Page 33: ...ion The pulse output is galvanically isolated to 500 VDC from the rest of the flowmeter When connected to the Series 3000 applications platform the pulse output does not require an external power source Otherwise the pulse output requires a 5 30 VDC power source In the ON state voltage will be less than 1 V For wiring to any pulse counter see Figures 4 6 and 4 7 For wiring to the Series 3000 appli...

Page 34: ... to pulse counter without internal pull up resistor Pulse counter with pull up to internal power Input Ground Frequency in IFT9701 pulse output terminals Pulse counter with no pull up Pull up resistor Input Ground Frequency in IFT9701 pulse output terminals External 5 30 VDC power supply To determine the value of the pull up resistor see the graph earlier in this section ...

Page 35: ... 22 AWG wire 150 meters for 0 3 mm2 wire 2 Do not connect shields at this end IFT9701 pulse output terminals Series 3000 I O cable terminals See Note 2 Earth ground 1 Paired cables with shield Maximum length is 50 feet for 28 AWG wire 15 meters for 0 1 mm wire 500 feet for 22 AWG wire 150 meters for 0 3 mm2 wire 2 Do not connect shields at this end IFT9701 pulse output terminals Series 3000 screw ...

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Page 37: ...d on the title page of this manual 5 3 Startup procedures Startup procedures include zeroing which is required and calibration which may or may not be required Zeroing After the flowmeter has been fully installed you must perform the zeroing procedure Flowmeter zeroing establishes flowmeter response to zero flow and sets a baseline for flow measurement To perform the zeroing procedure Using the fl...

Page 38: ... or volume flow rate or the operating condition of the transmitter 5 4 3 Startup mode During startup and initialization the following status indicators can be observed The diagnostic LED remains on continuously Milliamp and pulse outputs go to fault levels If the transmitter has an optional display its display reads 88 8 8 0 If a HART Communicator is connected to the meter the Communicator display...

Page 39: ... for zeroing a Install the flowmeter according to the instructions in this manual b Apply power to the meter then allow it to warm up for at least 30 minutes c Run the process fluid to be measured through the flowmeter until the meter temperature approximates the normal process operating temperature d Ensure that the sensor is completely filled with fluid 2 Close the shutoff valve downstream from ...

Page 40: ...r then re zero the flowmeter after correcting the problem or abort the procedure by cycling power to the flowmeter 5 6 Configuration calibration and characterization The following information explains the difference between configuration calibration and characterization Certain parameters might require configuration even when calibration is not necessary Configuration parameters include such items...

Page 41: ...wmeter Startup 5 7 Process measurement After flowmeter zeroing has been completed the flowmeter is ready for process measurement WARNING Operating flowmeter without compartment covers in place exposes electrical hazards that can cause property damage injury or death Ensure all housing covers are tightly closed and fully sealed before operating the flowmeter ...

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Page 43: ...ters and peripheral devices Calibration procedures include autozeroing and flow calibration Zeroing is required upon initial flowmeter startup see Section 5 3 flow calibration may or may not be required For information on calibration procedures using a HART Communicator see Section 6 3 Characterization is the process of using a communication device to enter calibration factors for flow density and...

Page 44: ...these steps 1 At the online menu choose 3 basic setup 2 At the basic setup menu choose 1 tag 3 Enter the desired tag of up to eight characters then press F4 enter The tag can include spaces and periods 6 2 2 Measurement units The meter can use one mass flow unit or one volume flow unit The meter can also provide density and temperature indication to a HART Communicator To select a measurement unit...

Page 45: ... Software label grams second grams minute grams hour kilograms second kilograms minute kilograms hour kilograms day metric tonnes 1000 kg minute metric tonnes 1000 kg hour metric tonnes 1000 kg day pounds second pounds minute pounds hour pounds day short tons 2000 pounds minute short tons 2000 pounds hour short tons 2000 pounds day g s g min g h kg s kg min kg h kg d Met Ton min Met Ton h Met Ton ...

Page 46: ...st the flow cutoff use the menu below and follow these steps 1 At the online menu choose 4 detailed setup 2 At the detailed setup menu choose 2 configure field device variables 3 At the configure field device variables menu choose 1 flow 4 At the flow menu choose 2 flow cutoff 5 Enter the desired flow cutoff value 6 Press F2 send to send the flow cutoff to the flowmeter memory 6 2 4 Damping Intern...

Page 47: ...flow variables menu choose 3 flow direction then choose the desired option The table below lists how outputs and totalizers are affected by the option that is chosen 5 To send the flow direction to the flowmeter press F2 send 1 Process variables 2 Diag service 3 Basic setup 4 DETAILED SETUP 5 Review 1 Flo unit 2 Flo cutoff 3 Flo direction 4 FLOW DAMPING 1 Charize sensor 2 CONFIG FLD DEV VAR 3 Conf...

Page 48: ...output scaling The pulse output produces a frequency proportional to the flow rate Pulse output scaling requires entry of frequency and flow rate values To scale the pulse output use the menu below and follow these steps 1 At the online menu choose 3 basic setup 2 At the basic setup menu choose 4 frequency factor 3 Enter a value for the frequency in pulses per second Hertz that corresponds to the ...

Page 49: ...se the shutoff valve downstream from the meter 3 Fill the flowmeter completely with the process fluid under normal process conditions of temperature density pressure etc and ensure zero flow through the flowmeter 4 To initiate the auto zero procedure use the menu below and follow these steps a At the online menu choose 2 diagnostics service b At the diagnostics service menu choose 3 perform auto z...

Page 50: ...LEC0 appears in the meter s optional display To abort the zeroing procedure press F3 abort To re zero make sure flow is completely shut off and flowmeter tubes are completely filled with fluid then press F4 OK The most common sources of zeroing failure are Flow of fluid through meter during zeroing Partially empty flow tubes An improperly mounted meter Re zero the flowmeter after correcting the pr...

Page 51: ...h the meter e When the display returns to the characterize sensor menu press F2 send to send the factor to the flowmeter memory 3 Zero the flowmeter see Section 6 3 1 4 Refer to the menu below and follow these steps a Reset the internal totalizer to zero b Run three batches of fluid resetting the scale and totalizer between batches For each batch record the weights indicated by the scale and the t...

Page 52: ...ted by the mass totalizer should equal the weighed amount of fluid in the batch within accuracy specifications provided by Micro Motion for the flowmeter 6 4 Characterization Characterization involves entering a density calibration factor that accurately represents the sensitivity of the flowmeter to fluid density To characterize the flowmeter for density measurement refer to the menu below and fo...

Page 53: ...es Calibration procedures include autozeroing and flow calibration Zeroing is required upon initial flowmeter startup see Section 4 3 flow calibration may or may not be required For information on calibration procedures using ProLink II see Section 7 3 Characterization is the process of using a communication device to enter calibration factors for flow density and temperature directly into flowmet...

Page 54: ...g the flow direction parameter Setting range values for the milliamp output Scaling the pulse output 7 2 1 HART tag The HART tag consists of up to eight characters that identify the flowmeter when it communicates with other devices in a HART multidrop network To assign a HART tag to a flowmeter 1 From the ProLink menu click on Configuration 2 In the Configuration window click on the Device tab 3 W...

Page 55: ...oLink menu click on Configuration 2 In the Configuration window click on the Flow tab The Flow panel appers as depicted in Figure 7 2 Figure 7 2 Configuration window Flow panel 3 To specify the flow measurement unit open the Flow Units list box and select a flow unit If you select a unit of mass flow the transmitter will measure mass flow If you select a unit of volume flow the transmitter will me...

Page 56: ...her direction Table 7 2 lists how outputs and totalizers are affected by the option that is chosen To configure flow direction for outputs and totalizers open the Flow Direction list box in the Flow panel and select the desired setting Table 7 1 Measurement units for mass and volume flow Mass flow unit Software label Volume flow unit Software label grams second grams minute grams hour kilograms se...

Page 57: ... Programmed filter coefficients in seconds are If desired enter an internal damping value into the Damping text box in the Flow panel Table 7 2 Effect of flow direction on outputs and totalizers Fluid flow direction Output or totalizer Flowmeter configuration Forward Reverse Fluid flowing in same direction as flow arrow on sensor Milliamp output Output increases as flow rate increases Output goes ...

Page 58: ...e that will be represented by the output at 4 mA into the Lower Range Value text box b Enter the flow rate that will be represented by the output at 20 mA into the Upper Range Value text box The Low Limit High Limit and Minimum Span display boxes in the panel indicate flowmeter limits in the configured flow measurement unit The value entered into the Lower Range Value text box must be lower than t...

Page 59: ...roportional to the flow rate Pulse output scaling requires entry of frequency and flow rate values To scale the pulse output a In the text box labeled Freq Factor enter a value for the frequency in pulses per second Hertz that corresponds to the maximum flow rate b In the text box labeled Rate Factor enter the maximum value of the flow rate The entered value corresponds to the frequency that was e...

Page 60: ... The Flow Calibration dialog box appears depicted in Figure 7 5 5 Make sure flow through the sensor is completely stopped then click the Zero button The flowmeter begins zeroing While zeroing is in progress The Calibration in Progess status light is red The transmitter s diagnostic LED remains ON The transmitter s optional display reads ZERO0 for up to one minute during zeroing When flowmeter zero...

Page 61: ...low tubes An improperly mounted meter Re zero the flowmeter after correcting the problem or cycle power to the meter to abort the entire zeroing procedure and return to the previously established zero 7 3 2 Flow calibration procedure Flow calibration involves adjusting the flow calibration factor so it accurately represents the sensitivity of the flowmeter to mass flow Performing the flow calibrat...

Page 62: ...asurement unit see Section 7 2 2 2 In the Flow panel depicted in Figure 7 2 enter the flowmeter s 8 digit flow calibration factor into the Flow Cal text box The flow calibration factor can be found on the flowmeter s serial number tag or on the certificate that is shipped with the sensor 3 Zero the flowmeter see Section 7 3 1 4 With flow through the meter completely stopped from the ProLink menu c...

Page 63: ...mal point enter the last three digits and second decimal point from the flow calibration factor entered in Step 2 10 To verify the accuracy of the new flow calibration factor repeat Step 6 The amount of fluid indicated in the Totalizer Control dialog box should equal the weighed amount of fluid in the batch within accuracy specifications provided by Micro Motion for the flowmeter 7 4 Characterizat...

Page 64: ...56 Model IFT9701 Transmitter Instruction Manual Configuration with ProLink II Software continued Figure 7 7 Configuration window Density panel ...

Page 65: ...nstruction manual for the sensor While troubleshooting a problem leave the sensor in place if possible Problems may result from the specific environment in which the sensor operates Check all signals under both flow and no flow conditions This procedure will minimize the possibility of overlooking some causes or symptoms 8 3 Transmitter diagnostic tools In some situations troubleshooting requires ...

Page 66: ...o change jumper settings for fault outputs see Section 2 3 Table 8 1 Normal conditions indicated by LED Diagnostic LED does this Condition Blinks ON once per second 25 ON 75 OFF Normal operation Remains ON Startup and initialization zero in progress transmitter hardware failure Blinks OFF once per second 75 ON 25 OFF Slug flow density below or above user defined limits Blinks ON 4 times per second...

Page 67: ...ly and making good connections Make sure no bare wires remain exposed 5 Wiring must be 20 AWG 0 5 mm to 16 AWG 1 5 mm wire 6 Maximum wire lengths for a DC power supply are as follows Table 8 2 Conditions indicated by optional LCD Optional LCD reads Condition Mass or volume flow rate such as 100 00 Normal operation OL0 Flow rate has exceeded upper limit of display 88 8 8 0 Startup and initializatio...

Page 68: ...irectly to earth The flowmeter does not have replaceable fuses for the power supply 8 5 Wiring For detailed wiring instructions refer to Chapters 3 and 4 Wiring problems are often incorrectly diagnosed as a faulty sensor At initial startup of the transmitter always check the following 1 Proper cabling and use of shielded pairs 2 Proper wire termination Wires on correct terminals Wires making good ...

Page 69: ...reads SENS0 Table 8 3 Sensor terminal designations Terminal number Wire color Function 1 Brown Drive 2 Red Drive 3 Orange Temperature 4 Yellow Temperature lead length compensator 5 Green Left pickoff 6 Blue Right pickoff 7 Violet Temperature 8 Gray Right pickoff 9 White Left pickoff Table 8 4 Normal resistance and voltage ranges for flowmeter circuits Notes Temperature sensor value increases 0 386...

Page 70: ...r short from green to white at transmitter Open or short from green to white at sensor Faulty cable Faulty left pickoff in sensor Moisture in sensor case or junction box Open or short from blue to gray at transmitter Open or short from blue to gray at sensor Faulty cable Faulty right pickoff in sensor Moisture in sensor case or junction box No open circuits No short circuits Transmitter cannot cal...

Page 71: ...ion when density stabilizes within the programmed slug flow limits 8 8 Transmitter failure If the transmitter electronics fail all the following occur The transmitter produces fault outputs The diagnostic LED blinks ON 4 times per second The optional LCD reads ELEC0 If a transmitter failure is indicated phone the Micro Motion Customer Service Department Phone numbers are listed on the title page o...

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Page 73: ...to 500 VDC from all other outputs and earth ground Out of range capability is 3 8 or 20 5 mA Pulse passive Pulse output represents mass or volume flow Externally powered passive requires pull up resistor to 5 30 VDC power supply Minimum resistance is 500 ohms at 5 V 3 kohms at 30 V Galvanically isolated to 500 VDC Out of range capability to 7200 Hz Voltage in on state is less than 1 V Below 1 Hz t...

Page 74: ...ty outside user selected limits outputs default to levels indicating zero flow and totalizer stops counting A 2 5 Damping User selected time constant of 0 1 0 2 0 4 0 8 1 6 3 2 6 4 or 12 8 seconds A 2 6 Fault indication Fault condition can be indicated by user selected downscale 2 mA 0 Hz or upscale 22 mA 7200 Hz output levels Bell 202 communications and optional display A 2 7 Output testing Curre...

Page 75: ...Process fluid vs ambient temperature below Optional local display may become difficult to read below 14 F 10 C Storage 40 to 185 F 40 to 85 C without optional LCD 4 to 58 F 20 to 70 C with optional LCD A 3 2 Process fluid temperature limits Integrally mounted transmitter 40 to 257 F 40 to 125 C See Process fluid vs ambient temperature below Remotely mounted transmitter Refer to temperature limits ...

Page 76: ... 0 0 to 2 0 g cc 0 to 2000 kg m3 for mass flow 150 100 130 80 110 140 90 120 70 158 167 176 185 194 203 212 221 230 239 248 257 266 Maximum with no external heat source Process fluid temperature F Expected maximum ambient temperature F Maximum when mounted in direct sunlight 30 70 75 80 85 90 95 100 105 110 115 120 125 130 35 40 45 50 55 60 Process fluid temperature C Expected maximum ambient temp...

Page 77: ...lands or installed in continuous fully bonded metallic conduit The transmitter and sensor must be directly connected to a low impedance less than 1 ohm earth ground Transmitter outputs must be standard twisted pair shielded instrument wire A 6 Ambient temperature effect on milliamp output 0 005 of flow rate per C deviation from output trim temperature A 7 Shipping weight Transmitter only 12 5 lb 5...

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Page 79: ... 1 PROCESS VARIABLES 2 DIAGNOSTCS AND SERVICE 3 Basic setup 4 Detailed setup 5 Review Online Menu 1 TEST STATUS 2 LOOP TEST 3 PERFORM AUTO ZERO 4 Trim analog output 1 4 mA 2 20 mA 3 Other 4 End 1 FIX ANALOG OUTPUT 2 FIX FREQUENCY OUTPUT 1 View status 2 Self test 1 PV 2 PV rng 3 PV AO 1 VIEW FIELD DEVICE VARIABLES 2 VIEW OUTPUT VARIABLES 3 View status 4 TOTALIZER CONTROL 1 TV 2 Pres freq 1 Total 2 ...

Page 80: ...t 3 Slug flow high limit 1 RANGE VALUES 2 FIX ANALOG OUTPUT 3 Trim analog output 1 4 mA 2 20 mA 3 Other 4 End 1 1 kHz 2 Other 3 End 1 Poll address 2 Number of request preambles 1 Tag 2 Descriptor 3 Date 4 Device ID 5 Write protect 6 REVISION 1 Universal revision 2 Flow dev revision 3 Software revision 4 Hardware revision 1 DEVICE INFORMATION 2 CHARACTERIZE SENSOR 3 FIELD DEVICE VARIABLES 4 OUTPUTS...

Page 81: ...ring terminals in the field wiring compartment Carefully move the wire pair and connector from behind the label as shown in the illustration below 5 On the back of the display is a spring loaded retaining clip which is held in place by a screw and washer Because the retaining clip springs open exercise care to avoid losing the screw and washer as they are removed Remove the screw and washer 6 Plug...

Page 82: ... compartment Tighten the screws evenly until the display assembly is flush against the flowmeter housing and is completely sealed CAUTION Failure to seal flowmeter housing could cause a short circuit which would result in measurement error or flowmeter failure To avoid risk of condensation or excessive moisture entering the flowmeter housing ensure integrity of gaskets and fully tighten all housin...

Page 83: ...t has not been removed from the original shipping package will be considered new and unused New and unused equipment includes sensors transmitters or peripheral devices which Were shipped as requested by the customer but are not needed or Were shipped incorrectly by Micro Motion New and unused equipment requires a completed Return Materials Authorization form D 3 Used equipment All equipment that ...

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Page 85: ...effects 68 power supply wiring 20 Characterization 32 Circuit board compartment jumper settings 10 Conduit openings orientation and mounting 6 Configuration flowmeter startup 32 HART Communicator 35 damping 38 density characterization 44 flow calibration 42 44 flow cutoff 38 flow direction 39 HART tag 36 measurement units 36 38 milliamp output 40 overview 35 process variable measurement 36 pulse o...

Page 86: ...RT Communicator configuration 35 menu trees 71 output specifications 65 wiring connections 24 HART protocol multidrop network 23 Humidity limits installation 6 specifications 68 I IFT9701 transmitter components 2 failure condition 63 mounting 6 orientation 6 specifications 65 Initialization 30 Intrinsically safe installations wiring guidelines 5 J Jacketed cable bend radii 14 cable types 14 condui...

Page 87: ...dii 15 cable types 14 conduit requirements 15 temperature limits 15 Slug flow specifications 66 troubleshooting 62 Specifications 65 agency approvals 69 damping 66 density limits 68 environmental effects 68 fault outputs 66 humidity limits 68 low flow cutoff 66 output signals 65 output testing 66 power supply 66 slug flow inhibit 66 temperature effects 69 process fluid limits 67 vibration limits 6...

Page 88: ...19 CE requirement 20 general guidelines 19 grounding 20 outputs 21 23 HART Communicator 24 HART network 23 milliamp output 22 ProLink II software 24 power supply 19 20 resistance 61 sensor connections 16 terminal designations 17 troubleshooting 60 61 voltage 61 Z Zeroing 31 32 failure HART Communicator 42 ProLink II software 53 startup 32 HART Communicator 41 42 ProLink II software 51 53 ...

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Page 90: ... Way Bredbury Industrial Estate Stockport SK6 2SU U K T 0800 966 180 F 0800 966 181 Micro Motion Japan Emerson Process Management Shinagawa NF Bldg 5F 1 2 5 Higashi Shinagawa Shinagawa ku Tokyo 140 0002 Japan T 81 3 5769 6803 F 81 3 5769 6843 Micro Motion Asia Emerson Process Management 1 Pandan Crescent Singapore 128461 Republic of Singapore T 65 6777 8211 F 65 6770 8003 2004 Micro Motion Inc All...

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Summary of Contents for Micro Motion IFT9701

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Emerson Micro Motion IFT9701, Instruction Manual, Page: 1 / 90

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Summary of Contents for Micro Motion IFT9701

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