Emerson MICRO MOTION 2700 Configuration And Use Manual Download Page 1

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Configuration and Use Manual

MMI-20019043, Rev AA

March 2012

Micro Motion

Model 2700 Transmitters with

Analog Outputs

Configuration and Use Manual

Summary of Contents for MICRO MOTION 2700

Page 1: ...Configuration and Use Manual MMI 20019043 Rev AA March 2012 Micro Motion Model 2700 Transmitters with Analog Outputs Configuration and Use Manual ...

Page 2: ...eding to the next step Micro Motion customer service Location Telephone number Email U S A 800 522 MASS 800 522 6277 toll free flow support emerson com Canada and Latin America 1 303 527 5200 U S A Asia Japan 3 5769 6803 All other locations 65 6777 8211 Singapore Europe U K 0870 240 1978 toll free All other locations 31 0 318 495 555 The Netherlands ...

Page 3: ...fault values and ranges 21 3 3 Enable access to the off line menu of the display 21 3 4 Disable write protection on the transmitter configuration 21 3 5 Restore the factory configuration 22 Chapter 4 Configure process measurement 23 4 1 Configure mass flow measurement 23 4 1 1 Configure Mass Flow Measurement Unit 23 4 1 2 Configure Flow Damping 26 4 1 3 Configure Mass Flow Cutoff 27 4 2 Configure ...

Page 4: ...e Field Communicator 73 4 9 4 Options for Pressure Measurement Unit 74 Chapter 5 Configure device options and preferences 77 5 1 Configure the transmitter display 77 5 1 1 Configure the language used for the display 77 5 1 2 Configure the process variables shown on the display 78 5 1 3 Configure the precision of variables shown on the display 79 5 1 4 Configure the refresh rate of data shown on th...

Page 5: ...figure an enhanced event 121 6 6 Configure digital communications 124 6 6 1 Configure HART Bell 202 communications 124 6 6 2 Configure HART RS 485 communications 129 6 6 3 Configure Modbus RS 485 communications 130 6 6 4 Configure Digital Communications Fault Action 131 Chapter 7 Completing the configuration 135 7 1 Test or tune the system using sensor simulation 135 7 1 1 Sensor simulation 136 7 ...

Page 6: ...ion 171 Chapter 11 Measurement support 173 11 1 Options for measurement support 173 11 2 Use Smart Meter Verification 173 11 2 1 Smart Meter Verification requirements 174 11 2 2 Smart Meter Verification test preparation 174 11 2 3 Run Smart Meter Verification 175 11 2 4 View test data 179 11 2 5 Schedule automatic execution of the Smart Meter Verification test 183 11 3 Zero the flowmeter 186 11 3 ...

Page 7: ...7 12 21 Check Frequency Output Scaling Method 237 12 22 Check Frequency Output Fault Action 237 12 23 Check Flow Direction 237 12 24 Check the cutoffs 238 12 25 Check for slug flow two phase flow 238 12 26 Check the drive gain 239 12 26 1 Collect drive gain data 240 12 27 Check the pickoff voltage 240 12 27 1 Collect pickoff voltage data 241 12 28 Check for electrical shorts 241 12 28 1 Check the ...

Page 8: ...connection 305 C 2 5 Make a Modbus RS 485 connection 308 C 3 Menu maps for ProLink III 311 Appendix D Using the Field Communicator with the transmitter 321 D 1 Basic information about the Field Communicator 321 D 2 Connect with the Field Communicator 322 D 3 Menu maps for the Field Communicator 324 Appendix E Default values and ranges 341 E 1 Default values and ranges 341 Appendix F Transmitter co...

Page 9: ...Part I Getting Started Chapters covered in this part Before you begin Quick start Getting Started Configuration and Use Manual 1 ...

Page 10: ...Getting Started 2 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 11: ...nstallation manual and that the installation complies with all applicable safety requirements 1 2 Transmitter model code Your transmitter can be identified by the model number on the transmitter tag The transmitter has a model number of the following form 2700 I R C B A I Integral mount R 4 wire remote mount C 9 wire remote mount B Remote core processor with remote transmitter A Analog outputs opt...

Page 12: ...n Micro Motion web site www mi cromotion com Field Commu nicator HART Bell 202 Complete configuration and commissioning Basic user information See Appendix D User manual on Micro Motion web site www micromo tion com Tip You may be able to use other communications tools from Emerson Process Management such as AMS Suite Intelligent Device Manager or the Smart Wireless THUM Adapter Use of AMS or the ...

Page 13: ... Hazardous area installa tion See the approval documentation shipped with the transmitter or download the appropriate documentation from the Micro Motion web site at www micromotion com All documentation resources are available on the Micro Motion web site at www micromotion com or on the Micro Motion user documentation CD Before you begin Configuration and Use Manual 5 ...

Page 14: ...Before you begin 6 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 15: ...routines During this period Alarm 009 is active The diagnostic routines should complete in approximately 30 seconds For transmitters with a display the status LED will turn green and begin to flash when the startup diagnostics are complete If the status LED exhibits different behavior an alarm condition is present Postrequisites Although the sensor is ready to receive process fluid shortly after p...

Page 16: ...arms are active and have not been acknowledged A low severity alarm condition does not affect measurement accuracy or output behavior You can continue with configuration or proc ess measurement If you choose you can iden tify and resolve the alarm condition You may also acknowledge the alarm Red One or more high severity alarms are active and have been acknowledged A high severity alarm condition ...

Page 17: ...Postrequisites Optional Change the communications parameters to site specific values To change the communications parameters using ProLink II To change the protocol baud rate parity or stop bits choose ProLink Configuration RS 485 To change the address choose ProLink Configuration Device To change the communications parameters using ProLink III choose Device Tools Configuration Communications To c...

Page 18: ...as already been characterized at the factory However you should still verify the characterization parameters Procedure 1 Specify Sensor Type Straight tube T Series Curved tube all sensors except T Series 2 Set the flow characterization parameters Be sure to include all decimal points For straight tube sensors set FCF Flow Cal or Flow Calibration Factor FTG and FFQ For curved tube sensors set Flow ...

Page 19: ... T Series see Figure 2 2 Older straight tube sensors T Series see Figure 2 3 Newer straight tube sensors T Series see Figure 2 4 Tag on older curved tube sensors all sensors except T Series Figure 2 1 Tag on newer curved tube sensors all sensors except T Series Figure 2 2 Quick start Configuration and Use Manual 11 ...

Page 20: ...or D2 value from the calibration certificate This value is the line condition density of the high density calibration fluid Micro Motion uses water If you cannot find a Dens B or D2 value enter 0 998 g cm3 If your sensor tag does not show a K1 or K2 value For K1 enter the first 5 digits of the density calibration factor In the sample tag this value is shown as 12500 see Figure 2 1 For K2 enter the...

Page 21: ... the decimal point FT The last 4 characters including the decimal point Example Concatenating FCF and FT FCF x xxxx FT y yy Flow calibration parameter x xxxxy yy Example Splitting the concatenated Flowcal or FCF value Flow calibration parameter x xxxxy yy FCF x xxxx FT y yy 2 5 Verify mass flow measurement Check to see that the mass flow rate reported by the transmitter is accurate You can use any...

Page 22: ...ro the flowmeter unless one of the following is true The zero is required by site procedures The stored zero value fails the zero verification procedure Prerequisites ProLink II v2 94 or later Important Do not verify the zero or zero the flowmeter if a high severity alarm is active Correct the problem then verify the zero or zero the flowmeter You may verify the zero or zero the flowmeter if a low...

Page 23: ...s true The zero is required by site procedures The stored zero value fails the zero verification procedure Prerequisites ProLink III v1 0 with Patch Build 31 or a later release Important Do not verify the zero or zero the flowmeter if a high severity alarm is active Correct the problem then verify the zero or zero the flowmeter You may verify the zero or zero the flowmeter if a low severity alarm ...

Page 24: ...stored in the transmitter typically obtained from a zero calibration proce dure It may also be configured manually Also called mechanical zero or stored zero Live Zero The real time bidirectional mass flow rate with no flow damping or mass flow cutoff ap plied An adaptive damping value is applied only when the mass flow rate changes dra matically over a very short interval Unit configured mass flo...

Page 25: ... to configuration and commissioning Configure process measurement Configure device options and preferences Integrate the meter with the control system Completing the configuration Set up the Weights Measures application Configuration and commissioning Configuration and Use Manual 17 ...

Page 26: ...Configuration and commissioning 18 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 27: ...tore the factory configuration 3 1 Configuration flowchart Use the following flowchart as a general guide to the configuration and commissioning process Some options may not apply to your installation Detailed information is provided in the remainder of this manual If you are using the Weights Measures application additional configuration and setup are required Introduction to configuration and co...

Page 28: ...s Configure digital communications Configure pressure compensation optional Test and move to production Done Test or tune transmitter using sensor simulation Back up transmitter configuration Enable write protection on transmitter configuration Configure the mA output s Configure the frequency output s Configure the discrete output s Configure events Configure density measurement Configure petrole...

Page 29: ...ant to use the display to configure the transmitter Restriction You cannot use the display to enable access to the off line menu You must make a connection from another tool 3 4 Disable write protection on the transmitter configuration Display OFF LINE MAINT CONFG LOCK ProLink II ProLink Configuration Device Enable Write Protection ProLink III Device Tools Configuration Write Protection Field Comm...

Page 30: ...iguration ProLink III Device Tools Configuration Transfer Restore Factory Configuration Field Communicator Not available Overview Restoring the factory configuration returns the transmitter to a known operational configuration This may be useful if you experience problems during configuration Tip Restoring the factory configuration is not a common action You may want to contact Micro Motion to see...

Page 31: ...measurement parameters include Mass Flow Measurement Unit Flow Damping Mass Flow Cutoff 4 1 1 Configure Mass Flow Measurement Unit Display OFF LINE MAINT OFF LINE CONFG UNITS MASS ProLink II ProLink Configuration Flow Mass Flow Units ProLink III Device Tools Configuration Process Measurement Flow Field Communicator Configure Manual Setup Measurements Flow Mass Flow Unit Overview Mass Flow Measurem...

Page 32: ...kg min kg min Kilograms per hour KG H kg hr kg hr kg h Kilograms per day KG D kg day kg day kg d Metric tons per minute T MIN mTon min mTon min MetTon min Metric tons per hour T H mTon hr mTon hr MetTon h Metric tons per day T D mTon day mTon day MetTon d Pounds per second LB S lbs sec lbs sec lb s Pounds per minute LB MIN lbs min lbs min lb min Pounds per hour LB H lbs hr lbs hr lb h Pounds per d...

Page 33: ...ement unit Procedure 1 Specify Base Mass Unit Base Mass Unit is the existing mass unit that the special unit will be based on 2 Specify Base Time Unit Base Time Unit is the existing time unit that the special unit will be based on 3 Calculate Mass Flow Conversion Factor as follows a x base units y special units b Mass Flow Conversion Factor x y 4 Enter Mass Flow Conversion Factor 5 Set Mass Flow L...

Page 34: ...ocedure Set Flow Damping to the value you want to use The default value is 0 8 seconds The range depends on the core processor type and the setting of Update Rate as shown in the following table Core processor type Update Rate setting Flow Damping range Standard Normal 0 to 51 2 seconds Special 0 to 10 24 seconds Enhanced Not applicable 0 to 51 2 seconds Tips A high damping value makes the process...

Page 35: ...e damped mass flow data Interaction between Flow Damping and Added Damping In some circumstances both Flow Damping and Added Damping are applied to the reported mass flow value Flow Damping controls the rate of change in flow process variables Added Damping controls the rate of change reported via the mA output If mA Output Process Variable is set to Mass Flow Rate and both Flow Damping and Added ...

Page 36: ... mA output is controlled by the higher of the two cutoff values Mass Flow Cutoff affects all reported values and values used in other transmitter behavior e g events defined on mass flow AO Cutoff affects only mass flow values reported via the mA output Example Cutoff interaction with AO Cutoff lower than Mass Flow Cutoff Configuration mA Output Process Variable Mass Flow Rate Frequency Output Pro...

Page 37: ... Configure Volume Flow Type for liquid applications Display Not available ProLink II ProLink Configuration Flow Vol Flow Type Liquid Volume ProLink III Device Tools Configuration Process Measurement Flow Field Communicator Configure Manual Setup Measurements GSV Volume Flow Type Liquid Overview Volume Flow Type controls whether liquid or gas standard volume flow measurement will be used Restrictio...

Page 38: ...ocedure Set Volume Flow Measurement Unit to the unit you want to use The default setting for Volume Flow Measurement Unit is l sec liters per second Tip If the measurement unit you want to use is not available you can define a special measurement unit Options for Volume Flow Measurement Unit for liquid applications The transmitter provides a standard set of measurement units for Volume Flow Measur...

Page 39: ... H l hr l hr L h Million liters per day MILL D mil l day mil l day ML d Imperial gallons per second UKGPS Imp gal sec Imp gal sec Impgal s Imperial gallons per minute UKGPM Imp gal min Imp gal min Impgal min Imperial gallons per hour UKGPH Imp gal hr Imp gal hr Impgal h Imperial gallons per day UKGPD Imp gal day Imp gal day Impgal d Barrels per second 1 BBL S barrels sec barrels sec bbl s Barrels ...

Page 40: ...ecify Base Volume Unit Base Volume Unit is the existing volume unit that the special unit will be based on 2 Specify Base Time Unit Base Time Unit is the existing time unit that the special unit will be based on 3 Calculate Volume Flow Conversion Factor as follows a x base units y special units b Volume Flow Conversion Factor x y 4 Enter Volume Flow Conversion Factor 5 Set Volume Flow Label to the...

Page 41: ...ow calibration factor in units of l sec multiplied by 0 2 Interaction between Volume Flow Cutoff and AO Cutoff Volume Flow Cutoff defines the lowest liquid volume flow value that the transmitter will report as measured AO Cutoff defines the lowest flow rate that will be reported via the mA output If mA Output Process Variable is set to Volume Flow Rate the volume flow rate reported via the mA outp...

Page 42: ...ctual flow rate will be used in all internal processing If the volume flow rate drops below 10 l sec both outputs will report zero flow and 0 will be used in all internal processing 4 3 Configure gas standard volume GSV flow measurement The gas standard volume GSV flow measurement parameters control how gas standard volume flow is measured and reported The GSV flow measurement parameters include V...

Page 43: ...f you are using the concentration measurement application you must set Volume Flow Type to Liquid Gas standard volume measurement is incompatible with the concentration measurement application Procedure Set Volume Flow Type to Gas Standard Volume 4 3 2 Configure Standard Gas Density Display Not available ProLink II ProLink Configuration Flow Std Gas Density ProLink III Device Tools Configuration P...

Page 44: ...nit used for the gas standard volume total and the gas standard volume inventory is derived from this unit Prerequisites Before you configure Gas Standard Volume Flow Measurement Unit be sure that Volume Flow Type is set to Gas Standard Volume Procedure Set Gas Standard Volume Flow Measurement Unit to the unit you want to use The default setting for Gas Standard Volume Flow Measurement Unit is SCF...

Page 45: ...SCFH Standard cubic feet per day SCFD SCFD SCFD SCFD Standard cubic meters per sec ond SM3 S Sm3 S Sm3 sec Sm3 sec Standard cubic meters per mi nute SM3 MN Sm3 min Sm3 min Sm3 min Standard cubic meters per hour SM3 H Sm3 hr Sm3 hr Sm3 hr Standard cubic meters per day SM3 D Sm3 day Sm3 day Sm3 day Standard liter per second SLPS SLPS SLPS SLPS Standard liter per minute SLPM SLPM SLPM SLPM Standard l...

Page 46: ...on Factor x y 4 Enter the Gas Standard Volume Flow Conversion Factor 5 Set Gas Standard Volume Flow Label to the name you want to use for the gas standard volume flow unit 6 Set Gas Standard Volume Total Label to the name you want to use for the gas standard volume total and gas standard volume inventory unit The special measurement unit is stored in the transmitter You can configure the transmitt...

Page 47: ...low rate that will be reported via the mA output If mA Output Process Variable is set to Gas Standard Volume Flow Rate the volume flow rate reported via the mA output is controlled by the higher of the two cutoff values Gas Standard Volume Flow Cutoff affects both the gas standard volume flow values reported via outputs and the gas standard volume flow values used in other transmitter behavior e g...

Page 48: ... in all internal processing 4 4 Configure Flow Direction Display Not available ProLink II ProLink Configuration Flow Flow Direction ProLink III Device Tools Configuration Process Measurement Flow Field Communicator Configure Manual Setup Measurements Flow Flow Direction Overview Flow Direction controls how forward flow and reverse flow affect flow measurement and reporting Flow Direction is define...

Page 49: ...gate Forward Negate Forward Negate Forward Only Appropriate when the Flow Direction arrow is in the opposite direction from the majority of flow Negate Bidirectional Negate Bidirectional Negate Bi directional Appropriate when both forward and reverse flow are expected and reverse flow will dominate but the amount of forward flow will be significant Effect of Flow Direction on mA outputs Flow Direc...

Page 50: ...tion on the mA output Lower Range Value 0 Figure 4 2 Flow Direction Forward mA output x 0 x Reverse flow Forward flow 20 12 4 Flow Direction Reverse Negate Forward mA output x 0 x Reverse flow Forward flow 20 12 4 Flow Direction Absolute Value Bidirectional Negate Bidirectional mA output x 0 x Reverse flow Forward flow 20 12 4 Lower Range Value x Upper Range Value x Example Flow Direction Forward ...

Page 51: ...0 5 mA and will be level at 20 5 mA at higher flow rates Under conditions of reverse flow for flow rates between 0 and 100 g sec the mA output varies between 4 mA and 12 mA in inverse proportion to the absolute value of the flow rate Under conditions of reverse flow if the absolute value of the flow rate equals or exceeds 100 g sec the mA output is inversely proportional to the flow rate down to 3...

Page 52: ...z 0 Hz Hz 0 Negate Bidirectional Hz 0 0 Hz Hz 0 Effect of Flow Direction on discrete outputs The Flow Direction parameter affects the discrete output behavior only if Discrete Output Source is set to Flow Direction Effect of the Flow Direction parameter and actual flow direction on discrete outputs Table 4 7 Flow Direction setting Actual flow direction Forward Zero flow Reverse Forward OFF OFF ON ...

Page 53: ...Totals increase Totals do not change Totals do not change Reverse Totals do not change Totals do not change Totals increase Bidirectional Totals increase Totals do not change Totals decrease Absolute Value Totals increase Totals do not change Totals increase Negate Forward Totals do not change Totals do not change Totals increase Negate Bidirectional Totals decrease Totals do not change Totals inc...

Page 54: ...ent units for Density Measurement Unit Different communications tools may use different labels Options for Density Measurement Unit Table 4 10 Unit description Label Display ProLink II ProLink III Field Communica tor Specific gravity unit not tem perature corrected SGU SGU SGU SGU Grams per cubic centimeter G CM3 g cm3 g cm3 g Cucm Grams per liter G L g l g l g L Grams per milliliter G mL g ml g m...

Page 55: ...ity value in the normal range of your process Tip Gas entrainment can cause your process density to drop temporarily To reduce the occurrence of slug flow alarms that are not significant to your process set Slug Low Limit slightly below your expected lowest process density You must enter Slug Low Limit in g cm3 even if you configured another unit for density measurement The default value for Slug ...

Page 56: ... above Slug High Limit If this occurs A slug flow alarm is posted to the active alarm log All outputs that are configured to represent flow rate hold their last pre slug flow value for the configured Slug Duration If the slug flow condition clears before Slug Duration expires Outputs that represent flow rate revert to reporting actual flow The slug flow alarm is deactivated but remains in the acti...

Page 57: ...ore erratic because the reported value changes more quickly Whenever the damping value is non zero the reported measurement will lag the actual measurement because the reported value is being averaged over time In general lower damping values are preferable because there is less chance of data loss and less lag time between the actual measurement and the reported value The value you enter is autom...

Page 58: ...lowest density value that will be reported as measured All density values below this cutoff will be reported as 0 Procedure Set Density Cutoff to the value you want to use The default value for Density Cutoff is 0 2 g cm3 The range is 0 0 g cm3 to 0 5 g cm3 Effect of Density Cutoff on volume measurement Density Cutoff affects liquid volume measurement If the density value goes below Density Cutoff...

Page 59: ... Temperature Measurement Unit The transmitter provides a standard set of units for Temperature Measurement Unit Different communications tools may use different labels for the units Options for Temperature Measurement Unit Table 4 12 Unit description Label Display ProLink II ProLink III Field Commu nicator Degrees Celsius C degC C degC Degrees Fahrenheit F degF F degF Degrees Rankine R degR R degR...

Page 60: ...between the actual measurement and the reported value The value you enter is automaticaly rounded down to the nearest valid value Valid values for Temperature Damping are 0 0 6 1 2 2 4 4 8 76 8 Effect of Temperature Damping on process measurement Temperature Damping affects the response speed for temperature compensation with fluctuating temperatures Temperature compensation adjusts the process me...

Page 61: ...e two parameters uniquely specify the API table 3 If your API table is 53A 53B 53D or 54C set Reference Temperature to the appropriate value for your application Enter the value in C 4 If your API table is 6C 24C or 54C set Thermal Expansion Coefficient to the appropriate value for your application 5 Determine how the transmitter will obtain temperature data for the petroleum measurement calculati...

Page 62: ...nd communications setup to write temperature data to the transmitter at appropri ate intervals Note If the Weights Measures application is implemented and the trans mitter is secured digital communications cannot be used to write temperature data to the transmitter 4 7 2 Configure petroleum measurement using ProLink III 1 Choose Device Tools Configuration Process Measurement Petroleum Measurement ...

Page 63: ... temperature data a Select the Polling Slot to use The transmitter has two polling slots You can use one for temperature and the other for pressure if pressure compensation is enabled b Set Polling Control to Poll as Primary or Poll as Secondary and click Apply Tip Poll as Primary No other HART masters will be on the network Poll as Secondary Other HART masters will be on the network The Field Com...

Page 64: ...ature value a Choose Online Configure Manual Setup Measurements External Pressure Temperature Temperature b Set External Temperature to Enabled c Set Correction Temperature to the value to be used Polling for tempera ture a Ensure that the primary mA output has been wired to support HART polling b Choose Online Configure Manual Setup Measurements External Pressure Temperature Temperature c Set Ext...

Page 65: ...nge 0 to 85 5D Lubricating oils Observed density and observed temperature 60 F non configurable Degrees API Range 10 to 40 6C Liquids with a constant density base or known thermal expansion coef ficient User supplied reference density or thermal ex pansion coefficient and observed temperature 60 F non configurable Degrees API 23A Generalized crude and JP4 Observed density and observed temperature ...

Page 66: ...ss fluids If desired you can build a custom matrix for your process fluid or purchase a custom matrix from Micro Motion More information about the concentration measurement application is available in the following manual Micro Motion Enhanced Density Application Theory Configuration and Use Note The concentration measurement application is also known as the enhanced density application 4 8 1 Conf...

Page 67: ...ng a custom matrix see the reference information for your matrix If you change the setting of Derived Variable all existing concentration matrices will be deleted from transmitter memory Set Derived Variable before loading concentration matrices 5 Load one or more matrices a In Curve Specific Config set Curve Configured to the location to which the matrix will be loaded b Click Load this curve fro...

Page 68: ...Preferences b Disable Use External Temperature A user configured static temperature value a Choose View Preferences b Enable Use External Temperature c Choose ProLink Configuration Temperature d Set External Temperature to the value to be used Polling for tempera ture a Ensure that the primary mA output has been wired to support HART polling b Choose View Preferences c Enable Use External Temperat...

Page 69: ...either by loading an existing matrix from a file or by building a new matrix Up to six matrices can be available on your transmitter but only one can be used for measurement at any given time See Micro Motion Enhanced Density Application Theory Configuration and Use for detailed information on building a matrix Prerequisites Before you can configure concentration measurement The concentration meas...

Page 70: ...gured to the matrix you want to view and click Change Matrix b Set Concentration Unit to the label that will be used for the concentration unit c If you set Concentration Unit to Special enter the custom label d If desired change the matrix name e Review the data points for this matrix f Do not change Reference Temperature or Curve Fit Maximum Order g If you changed any matrix data click Apply 7 S...

Page 71: ... memory Note If the Weights Measures application is implemented and the transmitter is secured digital communications cannot be used to write temperature data to the transmitter 9 If you chose RTD no more configuration is required Click Apply and exit 10 If you chose to poll for temperature data a Select the Polling Slot to use b Set Polling Control to Poll as Primary or Poll as Secondary and clic...

Page 72: ...now the density unit used by your matrix You must know the temperature unit used by your matrix The concentration measurement application must be unlocked Procedure 1 Choose Online Configure Manual Setup Measurements Density and set Density Unit to match the density unit used by your matrix 2 Choose Online Configure Manual Setup Measurements Temperature and set Temperature Unit to match the temper...

Page 73: ...atrix Configuration b Set Matrix Being Configured to the matrix that you want to configure c Set Concentration Units to the desired label d If you set Units to Special enter the custom label 6 Determine how the transmitter will obtain temperature data for the concentration measurement calculations and perform the required setup Option Setup Temperature data from the sensor a Choose Online Configur...

Page 74: ...the necessary host programming and communications setup to write temperature data to the transmitter at appropri ate intervals Note If the Weights Measures application is implemented and the trans mitter is secured digital communications cannot be used to write temperature data to the transmitter 7 Online Configure Manual Setup Measurements Conc Measurement CM CM Configuration and set Active Matri...

Page 75: ...Brix solution g cm3 C Brix Deg Plato Matrix represents percent extract by mass in solution based on Plato For example if a wort is 10 Plato and the extract in solution is 100 sucrose the extract is 10 of the total mass g cm3 F Plato HFCS 42 Matrix represents a hydrometer scale for HFCS 42 high fructose corn syrup solutions that indicates the percent by mass of HFCS in solution g cm3 C HFCS 55 Matr...

Page 76: ...l in suspension in the total solution derived from reference density Mass concentration derived from specif ic gravity The percent mass of solute or of material in suspension in the total solution derived from specific gravity Volume concentra tion derived from reference density The percent volume of solute or of material in suspension in the total solution derived from reference density Volume co...

Page 77: ...ibration pressure and the process pressure Tip Not all sensors or applications require pressure compensation The pressure effect for a specific sensor model can be found in the product data sheet located at www micromotion com If you are uncertain about implementing pressure compensation contact Micro Motion customer service 4 9 1 Configure pressure compensation using ProLink II Prerequisites You ...

Page 78: ...w the transmitter will obtain pressure data and perform the required setup Option Setup A user configured static pressure val ue a Set Pressure Units to the desired unit b Set External Pressure to the desired value Polling for pressure a Ensure that the primary mA output has been wired to support HART polling b Choose ProLink Configuration Polled Variables c Choose an unused polling slot d Set Pol...

Page 79: ...on pressure values for your sensor For the flow factor and density factor see the product data sheet for your sensor For the calibration pressure see the calibration sheet for your sensor If the data is unavailable use 20 PSI Procedure 1 Choose Device Tools Configuration Process Measurement Pressure Compensation 2 Set Pressure Compensation Status to Enabled 3 Enter Flow Calibration Pressure for yo...

Page 80: ... secured digital communications cannot be used to write temperature data to the transmitter 7 If you chose to poll for pressure data a Select the Polling Slot to use The transmitter has two polling slots You can use one for pressure and the other for temperature if concentration measurement or petroleum measurement is enabled b Set Polling Control to Poll as Primary or Poll as Secondary and click ...

Page 81: ...Choose Online Configure Manual Setup Measurements External Pressure Temperature Pressure 2 Set Pressure Compensation to Enabled 3 Enter Flow Cal Pressure for your sensor The calibration pressure is the pressure at which your sensor was calibrated and defines the pressure at which there is no pressure effect If the data is unavailable enter 20 PSI 4 Enter Flow Press Factor for your sensor The flow ...

Page 82: ... a Set Pressure Unit to the desired unit b Perform the necessary host programming and communications setup to write pressure data to the transmitter at appropriate in tervals Note If the Weights Measures application is implemented and the trans mitter is secured digital communications cannot be used to write temperature data to the transmitter Postrequisites If you are using an external pressure v...

Page 83: ...ters water 68 F mmH2O mm Water 68 F mm Water 68 F mmH2O Millimeters mercury 0 C mmHG mm Mercury 0 C mm Mercury 0 C mmHg Inches mercury 0 C INHG In Mercury 0 C In Mercury 0 C inHG Pounds per square inch PSI PSI PSI psi Bar BAR bar bar bar Millibar mBAR millibar millibar mbar Grams per square centimeter G SCM g cm2 g cm2 g Sqcm Kilograms per square centime ter KG SCM kg cm2 kg cm2 kg Sqcm Pascals PA...

Page 84: ...Configure process measurement 76 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 85: ...ay parameters include Display Language Display Variables Display Precision Update Period Auto Scroll and Auto Scroll Rate Backlight Status LED Blinking 5 1 1 Configure the language used for the display Display OFF LINE MAINT OFF LINE CONFG DISPLAY LANG ProLink II ProLink Configuration Display Display Language ProLink III Device Tools Configuration Transmitter Display General Field Communicator Con...

Page 86: ... Display Variable 1 using this procedure To change the setting of Display Variable 1 you must change the configuration of mA Output Process Variable for the primary mA output Note If you configure a display variable as a volume process variable and then change Volume Flow Type the display variable is automatically changed to the equivalent process variable For example Volume Flow Rate would be cha...

Page 87: ... you can control Display Variable 1 from the display menu Tip This feature is the only way to configure a display variable from the display menus and it applies only to Display Variable 1 Procedure Configure Display Variable 1 to track the primary mA output Display Variable 1 will automatically be set to match mA Output Process Variable for the primary mA output If you change the configuration of ...

Page 88: ...greater the process change must be for it to be reflected on the display Do not set Display Precision value too low or too high to be useful 5 1 4 Configure the refresh rate of data shown on the display Display OFF LINE MAINT OFF LINE CONFG DISPLAY RATE ProLink II ProLink Configuration Display Update Period ProLink III Device Tools Configuration Transmitter Display Display Variables Field Communic...

Page 89: ...Enabled The display automatically scrolls through each display variable as specified by Scroll Rate The operator can move to the next display variable at any time using Scroll Disabled de fault The display shows Display Variable 1 and does not scroll automatically The operator can move to the next display variable at any time using Scroll 2 If you enabled Auto Scroll set Scroll Rate as desired The...

Page 90: ...links flashes to indicate unacknowledged alarms If you disable Status LED Blinking the status LED does not blink whether alarms are acknowledged or not It still changes color to indicate active alarms Procedure Enable or disable Status LED Blinking The default setting is Enabled 5 2 Enable or disable operator actions from the display You can configure the transmitter to let the operator perform sp...

Page 91: ... computer the operator must enter the off line password to perform this function even if the off line password is not enabled Procedure 1 Ensure that at least one totalizer is configured as a display variable 2 Enable or disable Totalizer Reset as desired Option Description Enabled Operators can start and stop totalizers and inventories from the display if at least one totalizer is configured as a...

Page 92: ...ay if the totalizer is config ured as a display variable Disabled default Operators cannot reset totalizers from the display 5 2 3 Enable or disable the Acknowledge All Alarms display command Display OFF LINE MAINT OFF LINE CONFG DISPLAY ALARM ProLink II ProLink Configuration Display Display Options Display Ack All Alarms ProLink III Device Tools Configuration Transmitter Display Ack All Field Com...

Page 93: ...section of the off line menu enable or disable Off Line Menu Option Description Enabled de fault Operator can access the maintenance section of the off line menu This access is required for configuration and calibration but is not required to view alarms or to access Smart Meter Verification if applicable Disabled Operator cannot access the maintenance section of the off line menu 2 To control ope...

Page 94: ...pted for the off line password at entry to the alarm menu Disabled default No password is required for entry to the alarm menu If both Off Line Password and Alarm Password are enabled the operator is prompted for the off line password to access the off line menu but is not prompted thereafter 5 Optional Set Off Line Password to the desired value The same value is used for both the off line passwor...

Page 95: ...etting Update Rate to Special Check the effects of Special mode on specific process variables Contact Micro Motion Procedure 1 Set Update Rate as desired Option Description Normal All process data is polled at the rate of 20 times per second 20 Hz All process variables are calculated at 20 Hz This option is appropriate for most applications Special A single user specified process variable is polle...

Page 96: ...he petroleum measurement application is disa bled Never updated Mass flow Volume flow Gas standard volume flow Density Temperature Drive gain LPO amplitude Status contains Event 1 and Event 2 basic events Raw tube frequency Mass total Volume total Gas standard volume total Temperature corrected volume total Temperature corrected density Temperature corrected volume flow Batch weighted average temp...

Page 97: ...onse Time Restriction Calculation Speed is available only on systems with the enhanced core processor Tip You can use Calculation Speed Special with either setting of Update Rate The parameters control different aspects of flowmeter processing Procedure Set Calculation Speed as desired Option Description Normal Transmitter calculates process variables at the standard speed Special Transmitter calc...

Page 98: ...lt Timeout to 0 fault actions are performed as soon as the alarm condition is detected The fault timeout period begins when the transmitter detects an alarm condition During the fault timeout period the transmitter continues to report its last valid measurements If the fault timeout period expires while the alarm is still active the fault actions are performed If the alarm condition clears before ...

Page 99: ...nfigured fault action after Fault Timeout has expired if applicable Digital communications go to the configured fault action after Fault Timeout has expired if applicable The status LED if available changes to red or yellow depending on alarm se verity Actions when alarm clears Outputs return to normal behavior Digital communications return to normal behavior The status LED if available returns to...

Page 100: ...Yes A017 T Series RTD Failure Fault Yes A018 EEPROM Error Transmit ter Fault No A019 RAM Error Transmitter Fault No A020 No Flow Cal Value Fault Yes A021 Incorrect Sensor Type K1 Fault No A022 Configuration Database Corrupt Core Processor Fault Applies only to flowmeters with the standard core processor No A023 Internal Totals Corrupt Core Processor Fault Applies only to flowmeters with the standa...

Page 101: ...Loss Possible Totals and Inventories Informational Applies only to flowmeters with the standard core processor Can be set to either Informational or Ignore but cannot be set to Fault Yes A104 Calibration in Progress Informational Can be set to either Informational or Ignore but cannot be set to Fault Yes A105 Slug Flow Informational Yes A106 Burst Mode Enabled Informational Can be set to either In...

Page 102: ...mitters with the concentration measurement application No A121 Extrapolation Alarm Con centration Informational Applies only to transmitters with the concentration measurement application Yes A131 Meter Verification in Pro gress Outputs to Last Measured Value Informational Applies only to transmitters with Smart Meter Verification Yes A132 Sensor Simulation Active Informational Applies only to flo...

Page 103: ...ssing and is not required Procedure Enter a description for the transmitter You can use up to 16 characters for the description 5 6 2 Configure Message Display Not available ProLink II ProLink Configuration Device Message ProLink III Device Tools Configuration Informational Parameters Transmitter Field Communicator Configure Manual Setup Info Parameters Transmitter Info Message Overview Message le...

Page 104: ... to help you select the date 5 6 4 Configure Sensor Serial Number Display Not available ProLink II ProLink Configuration Sensor Sensor S N ProLink III Device Tools Configuration Informational Parameters Sensor Field Communicator Configure Manual Setup Info Parameters Sensor Information Sensor Serial Number Overview Sensor Serial Number lets you store the serial number of the sensor component of yo...

Page 105: ...data sheet for your sensor 2 Set Sensor Material to the appropriate option 5 6 6 Configure Sensor Liner Material Display Not available ProLink II ProLink Configuration Sensor Liner Matl ProLink III Device Tools Configuration Informational Parameters Sensor Field Communicator Configure Manual Setup Info Parameters Sensor Information Tube Lining Overview Sensor Liner Material lets you store the type...

Page 106: ... Type lets you store your sensor s flange type in transmitter memory This parameter is not used in processing and is not required Procedure 1 Obtain your sensor s flange type from the documents shipped with your sensor or from a code in the sensor model number To interpret the model number refer to the product data sheet for your sensor 2 Set Sensor Flange Type to the appropriate option Configure ...

Page 107: ...ts Outputs Channels Channel B Overview You can configure Channel B on your transmitter to operate as a frequency output or a discrete output The channel configuration must match the wiring at the transmitter terminals Prerequisites To avoid causing process errors Configure the channels before configuring the outputs Before changing the channel configuration ensure that all control loops affected b...

Page 108: ...URV AO Cutoff Added Damping AO Fault Action and AO Fault Value Important Whenever you change an mA output parameter verify all other mA output parameters before returning the flowmeter to service In some situations the transmitter automatically loads a set of stored values and these values may not be appropriate for your application 6 2 1 Configure mA Output Process Variable Display OFF LINE MAINT...

Page 109: ...ocess Variable Table 6 1 Process variable Label Display ProLink II ProLink III Field Communicator Standard Mass flow rate MFLOW Mass Flow Rate Mass Flow Rate Mass flo Volume flow rate VFLOW Volume Flow Rate Volume Flow Rate Vol flo Gas standard volume flow rate GSV F Gas Std Vol Flow Rate Gas Standard Volume Flow Rate Gas vol flo Temperature TEMP Temperature Temperature Temp Density DENS Density D...

Page 110: ... Value ProLink Configuration Analog Output Primary Output Upper Range Value ProLink III Device Tools Configuration I O Outputs mA Output Field Communicator Configure Manual Setup Inputs Outputs mA Output mA Output Settings PV LRV Configure Manual Setup Inputs Outputs mA Output mA Output Settings PV URV Overview The Lower Range Value LRV and Upper Range Value URV are used to scale the mA output tha...

Page 111: ...set URV below LRV For example you can set URV to 50 and LRV to 100 The mA output uses a range of 4 20 mA to represent mA Output Process Variable Between LRV and URV the mA output is linear with the process variable If the process variable drops below LRV or rises above URV the transmitter posts an output saturation alarm Default values for Lower Range Value LRV and Upper Range Value URV Each optio...

Page 112: ... Output Process Variable is set to Mass Flow Rate Volume Flow Rate or Gas Standard Volume Flow Rate If mA Output Process Variable is set to a different process variable AO Cutoff is not configurable and the transmitter does not implement the AO cutoff function Procedure Set AO Cutoff as desired The default value for AO Cutoff is 0 0 g sec Tip For most applications the default value of AO Cutoff sh...

Page 113: ...guration Analog Output Primary Output AO Added Damp ProLink III Device Tools Configuration I O Outputs mA Output Field Communicator Configure Manual Setup Inputs Outputs mA Output mA Output Settings PV Added Damping Overview Damping is used to smooth out small rapid fluctuations in process measurement Damping Value specifies the time period in seconds over which the transmitter will spread changes...

Page 114: ...al 100 Hz variable if assigned to the mA output 100 Hz 0 0 0 04 0 12 0 30 0 64 1 32 2 6 5 4 11 22 44 88 176 350 100 Hz variable if not as signed to the mA output All other process variables 6 25 Hz 0 0 0 32 0 96 2 40 5 12 10 56 20 8 43 2 88 176 352 Interaction between Added Damping and process variable damping When mA Output Process Variable is set to a flow variable density or temperature Added D...

Page 115: ...For some faults only If Last Measured Value Timeout is set to a non zero value the transmitter will not implement the fault action until the timeout has elapsed Procedure 1 Set mA Output Fault Action to the desired value The default setting is Downscale 2 If you set mA Output Fault Action to Upscale or Downscale set mA Output Fault Level as desired Options for mA Output Fault Action and mA Output ...

Page 116: ...tter may have zero or one frequency output Channel B can be configured as a frequency output or a discrete output The frequency output parameters include Frequency Output Process Variable Frequency Output Polarity Frequency Output Scaling Method Frequency Output Maximum Pulse Width Frequency Output Fault Action and Frequency Output Fault Value Important Whenever you change a frequency output param...

Page 117: ...Rate Options for Frequency Output Process Variable The transmitter provides a basic set of options for Frequency Output Process Variable plus several application specific options Different communications tools may use different labels for the options Options for Frequency Output Process Variable Table 6 5 Process variable Label Display ProLink II ProLink III Field Communica tor Standard Mass flow ...

Page 118: ... Output FO Settings FO Polarity Overview Frequency Output Polarity controls how the output indicates the ON active state The default value Active High is appropriate for most applications Active Low may be required by applications that use low frequency signals Procedure Set Frequency Output Polarity as desired The default setting is Active High Options for Frequency Output Polarity Options for Fr...

Page 119: ...onal required parameters If you set Frequency Output Scaling Method to Frequency Flow set Rate Factor and Frequency Factor If you set Frequency Output Scaling Method to Pulses Unit define the number of pulses that will represent one flow unit If you set Frequency Output Scaling Method to Units Pulse define the number of units that each pulse will indicate Calculate frequency from flow rate The Fre...

Page 120: ...rt all flow rates up to 2000 kg min The frequency receiving device is configured for 10 pulses kg Solution FrequencyFactor x 10 2000 60 333 33 FrequencyFactor FrequencyFactor x N RateFactor T Set parameters as follows Rate Factor 2000 Frequency Factor 333 33 6 3 4 Configure Frequency Output Maximum Pulse Width Display Not available ProLink II ProLink Configuration Frequency Discrete Output Frequen...

Page 121: ...act Micro Motion customer service before changing Frequency Output Maximum Pulse Width 6 3 5 Configure Frequency Output Fault Action and Frequency Output Fault Level Display Not available ProLink II ProLink Configuration Frequency Discrete Output Frequency Freq Fault Action ProLink Configuration Frequency Discrete Output Frequency Freq Fault Level ProLink III Device Tools Configuration Fault Proce...

Page 122: ...lt Action or Frequency Output Fault Action to None be sure to set Digital Communications Fault Action to None If you do not the output will not report actual process data and this may result in measurement errors or unintended consequences for your process Restriction If you set Digital Communications Fault Action to NAN you cannot set mA Output Fault Action or Frequency Output Fault Action to Non...

Page 123: ...ent ProLink III Device Tools Configuration I O Outputs Discrete Output Field Communicator Configure Manual Setup Inputs Outputs Discrete Output DO Assignment Overview Discrete Output Source controls which flowmeter condition or process condition is reported via the discrete output Procedure Set Discrete Output Source to the desired option The default setting for Discrete Output Source is Flow Dire...

Page 124: ...ndicator Forward Re verse Forward flow 0 V Reverse flow Site specific Calibration in Pro gress ZERO Calibration in Progress Calibration in Pro gress Calibration in Progress ON Site specific OFF 0 V Fault FAULT Fault Condition Indication Fault Indication Fault ON Site specific OFF 0 V Important This table assumes that Discrete Output Polarity is set to Active High If Discrete Output Polarity is set...

Page 125: ...y done so 2 Set Flow Switch Variable to the flow variable that you want to use to control the flow switch 3 Set Flow Switch Setpoint to the value at which the flow switch will be triggered after Hysteresis is applied If the flow rate is below this value the discrete output is ON If the flow rate is above this value the discrete output is OFF 4 Set Hysteresis to the percentage of variation above an...

Page 126: ...t Polarity controls which voltage level represents which state Procedure Set Discrete Output Polarity as desired The default setting is Active High Options for Discrete Output Polarity Options for Discrete Output Polarity Table 6 10 Polarity Description Active High When asserted condition tied to DO is true the circuit provides a pull up to 24 V When not asserted condition tied to DO is false the ...

Page 127: ...controls the behavior of the discrete output if the transmitter encounters an internal fault condition Note For some faults only If Last Measured Value Timeout is set to a non zero value the transmitter will not implement the fault action until the timeout has elapsed CAUTION Do not use Discrete Output Fault Action as a fault indicator If you do you may not be able to distinguish a fault condition...

Page 128: ...s assignment None default Discrete output is controlled by its assignment Fault indication with the discrete output To indicate faults via the discrete output set parameters as follows Discrete Output Source Fault Discrete Output Fault Action None Note If Discrete Output Source is set to Fault and a fault occurs the discrete output is always ON The setting of Discrete Output Fault Action is ignore...

Page 129: ...ou want to configure 2 Specify Event Type Options Description HI x A The event occurs when the value of the assigned process variable x is greater than the setpoint Setpoint A endpoint not included LO x A The event occurs when the value of the assigned process variable x is less than the setpoint Setpoint A endpoint not included 3 Assign a process variable to the event 4 Set a value for Setpoint A...

Page 130: ... endpoint not included IN A x B The event occurs when the value of the assigned process variable x is in range that is between Setpoint A and Setpoint B endpoints included OUT x A or x B The event occurs when the value of the assigned process variable x is out of range that is less than Setpoint A or greater than Setpoint B end points included 3 Assign a process variable to the event 4 Set values ...

Page 131: ...t Volume Total at Reference Temperature Reset corrected volume total Concentration measurement Reset CM reference volume total RESET STD V Reset CM Ref Vol Total Reset Volume Total at Reference Temperature Not available Reset CM net mass to tal RESET NET M Reset CM Net Mass Total Reset Net Mass Total Not available Reset CM net volume total RESET NET V Reset CM Net Vol Total Reset Net Volume Total ...

Page 132: ...tor Configure Manual Setup Inputs Outputs Communications HART Communications Overview HART Bell 202 communications parameters support HART communication with the transmitter s primary mA terminals over a HART Bell 202 network The HART Bell 202 communications parameters include HART Address Polling Address Loop Current Mode ProLink II or mA Output Action ProLink III Burst Parameters optional HART V...

Page 133: ...ode is disabled Enable burst mode only if another device on the network requires burst mode communication 4 Optional Configure HART Variables Configure burst parameters Display Not available ProLink II ProLink Configuration Device Burst Setup ProLink III Device Tools Configuration Communications Communications HART Field Communicator Configure Manual Setup Inputs Outputs Communications Set Up Burs...

Page 134: ...nsure that the burst output variables are set appropriately If you set Burst Mode Output to send four user specified variables set the four process variables to be sent in each burst If you set Burst Mode Output to any other option ensure that the HART variables are set as desired Configure HART variables PV SV TV QV Display Not available ProLink II ProLink Configuration Variable Mapping ProLink I...

Page 135: ...ory Tube frequency Meter temperature LPO amplitude RPO amplitude Board temperature External pressure External temperature Gas standard volume flow rate Gas standard volume total Gas standard volume inventory Live zero Petroleum measurement API density API volume flow rate API volume total API volume inventory API average density API average temperature API CTL Concentration measurement ED density ...

Page 136: ... Reported via Comments Primary Variable PV Primary mA output If one assignment is changed the other is changed auto matically and vice versa Secondary Variable SV Not associated with an out put The SV must be configured directly and the value of the SV is available only via digital communications Tertiary Variable TV Frequency output if present on your transmitter If one assignment is changed the ...

Page 137: ...ASCII communications All RS 485 connection requests must use the same protocol and connection parameters that are configured in the transmitter Procedure 1 Set Protocol to HART RS 485 2 Set Baud Rate to match the baud rate that will be used by your HART master 3 Set Parity to match the parity that will be used by your HART master 4 Set Stop Bits to match the stop bits setting that will be used by ...

Page 138: ...sponse Delay Restriction To configure Floating Point Byte Order or Additional Communications Response Delay you must use ProLink II Procedure 1 Set Disable Modbus ASCII as desired Support for Modbus ASCII limits the set of addresses that are available for the transmitter s Modbus address Modbus ASCII support Available Modbus addresses Disabled 1 127 excluding 111 111 is reserved to the service por...

Page 139: ... port currently in use and the character transmission parameters Valid values range from 1 to 255 Additional Communications Response Delay is used to synchronize Modbus communications with hosts that operate at a slower speed than the transmitter The value specified here will be added to each response the transmitter sends to the host Tip Do not set Additional Communications Response Delay unless ...

Page 140: ...sor lim it Totalizers stop incrementing Zero Zero IntZero All 0 Flow rate variables go to the value that represents a flow rate of 0 zero Density is reported as 0 Temperature is reported as 0 C or the equivalent if other units are used e g 32 F Drive gain is reported as measured Totalizers stop incrementing Not a Number NAN Not a Number Not a Number Process variables are reported as IEEE NAN Drive...

Page 141: ...process data and this may result in measurement errors or unintended consequences for your process Restriction If you set Digital Communications Fault Action to NAN you cannot set mA Output Fault Action or Frequency Output Fault Action to None If you try to do this the transmitter will not accept the configuration Integrate the meter with the control system Configuration and Use Manual 133 ...

Page 142: ...Integrate the meter with the control system 134 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 143: ...flowmeters with the enhanced core processor Prerequisites Before enabling sensor simulation ensure that your process can tolerate the effects of the simulated process values Procedure 1 Navigate to the sensor simulation menu Communications tool Menu path Display Not available ProLink II ProLink Configuration Sensor Simulation ProLink III Device Tools Diagnostics Testing Sensor Simulation Field Com...

Page 144: ...you have finished testing or tuning disable sensor simulation 7 1 1 Sensor simulation Sensor simulation allows you to test the system or tune the loop without having to create the test conditions in your process When sensor simulation is enabled the transmitter reports the simulated values for mass flow density and temperature and takes all appropriate actions For example the transmitter might app...

Page 145: ...nient way to replicate a configuration across multiple devices Prerequisites One of the following An active connection from ProLink II An active connection from ProLink III Restriction This function is not available with any other communications tools Procedure To back up the transmitter configuration using ProLink II 1 Choose File Load from Xmtr to File 2 Specify a name and location for the backu...

Page 146: ...e Protection Field Communicator Configure Manual Setup Info Parameters Transmitter Info Write Protect Overview If the transmitter is write protected the configuration is locked and nobody can change it until it is unlocked This prevents accidental or unauthorized changes to the transmitter configuration parameters Completing the configuration 138 Micro Motion Model 2700 Transmitters with Analog Ou...

Page 147: ...of Legal Metrology OIML requirements apply in all other world areas Depending on the regulatory agency that governs your installation different setup configuration and operation methods are applicable Secured vs unsecured When the Weights Measures application is installed the transmitter is always secured or unsecured The transmitter leaves the factory in unsecured mode with Status Alarm A027 Secu...

Page 148: ...ce port connection to configure the Weights Measures parameters 8 2 Set up the Weights Measures application using ProLink II When your transmitter is set up to comply with OIML or NTEP requirements and the transmitter is secured selected measurement data from the transmitter is approved for Weights Measures applications Prerequisites Important Review the Weights Measures requirements for your loca...

Page 149: ...gure your transmitters for two frequency outputs and set them to operate in Quadrature mode a Choose ProLink Configuration Channel b Set Channel B Type Assignment to Frequency Output and click Apply c Set Channel C Type Assignment to Frequency Output and click Apply d Choose ProLink Configuration Frequency and set Freq Output Mode to Quadrature 6 If required for your installation enable Alarm Menu...

Page 150: ... After this step the transmitter is in a condition of metrological security measurement security The transmitter performs the following actions Securing all measurement parameters You can read the current configurations but you cannot change them Clearing Status Alarm A027 Security Breach 10 Install the physical seal Important In most installations the physical seal is a wire seal that must be ins...

Page 151: ...intenance actions are disallowed and some operator actions are disallowed Procedure 1 Make a service port connection from ProLink III to your transmitter 2 Choose Device Tools Configuration Weights Measures and set Regulatory Agency to the apropriate regulatory agency for your application Option Description NTEP Regulatory agency for the U S A and Canada OIML Regulatory agency for all other world ...

Page 152: ...mmissioning to meet Weights Measures requirements for gas applications in Germany They may also be useful for MID Welmec 7 2 test reports 7 If required for your installation monitor the zero value of your system a Choose Device Tools Configuration Transmitter Display Display Variables and configure Field Verification Zero FVZ as a display variable b At the transmitter display read and record the c...

Page 153: ... a certified Weights Measures inspector The seal is provided by the inspector The physical seal is inserted through the locking clamps on the transmitter if available on your transmitter Example of locking clamp and seal on transmitter Figure 8 2 Set up the Weights Measures application Configuration and Use Manual 145 ...

Page 154: ...Set up the Weights Measures application 146 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 155: ...oubleshooting Chapters covered in this part Transmitter operation Operate the transmitter with the Weights Measures application Measurement support Troubleshooting Operations maintenance and troubleshooting Configuration and Use Manual 147 ...

Page 156: ...Operations maintenance and troubleshooting 148 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 157: ...e a record of specific process variable measurements including the acceptable range of measurements under normal operating conditions This data will help you recognize when the process variables are unusually high or low and may help you better diagnose and troubleshoot application issues Procedure Record the following process variables under normal operating conditions Process variable Measuremen...

Page 158: ...ide data about flowmeter operation such as drive gain and pickoff voltage This information can be used to understand and troubleshoot your process 9 2 1 View process variables using the display View the desired process variable s If you are using the transmitter display by default the display shows the mass flow rate mass total volume flow rate volume total temperature density and drive gain The d...

Page 159: ...e 9 2 2 View process variables using ProLink III When you connect to a device the process variables are displayed on the main screen of ProLink III Procedure View the desired process variable s Tip ProLink III allows you to choose the process variables that appear on the main screen You can also choose whether to view data in Analog Gauge view or digital view and you can customize the gauge settin...

Page 160: ...arm has not been acknowl edged Solid yellow Active low severity alarm Alarm has been acknowledged Flashing yel low Active low severity alarm Alarm has not been acknowledged Solid red Active high severity alarm Alarm has been acknowledged Flashing red Active high severity alarm Alarm has not been acknowledged 9 4 View and acknowledge status alarms The transmitter posts status alarms whenever a proc...

Page 161: ... alarm menu must be enabled default setting If operator access to the alarm menu is disabled you must use another method to view or acknowledge status alarms Procedure See Figure 9 2 Transmitter operation Configuration and Use Manual 153 ...

Page 162: ...ct simultaneously for 4 seconds ACK ALL Yes EXIT Select No Alarm code Scroll ACK Yes Select No Active unacknowledged alarms No Yes Select NO ALARM EXIT Scroll Scroll Select Scroll Scroll Select Is ACK ALL enabled Yes No Transmitter operation 154 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 163: ...ing of alarms into these two categories is hard coded and is not affected by Status Alarm Severity All active or unacknowledged alarms are listed Red indicator Alarm is currently active Green indicator Alarm is inactive but unacknowledged Note Only Fault and Informational alarms are listed The transmitter automatically filters out alarms with Status Alarm Severity set to Ignore 3 To acknowledge an...

Page 164: ... transmitter automatically filters out alerts with Alert Severity set to Ignore 2 To acknowledge a single alert check the Ack checkbox for that alert To acknowledge all alerts at once click Ack All Postrequisites To clear the following alarms you must correct the problem acknowledge the alarm then power cycle the transmitter A001 A002 A010 A011 A012 A013 A018 A019 A022 A023 A024 A025 A028 A029 A03...

Page 165: ...red and regenerated with every transmit ter power cycle Alert Statistics One record for each alarm by alarm number that has occurred since the last master reset Each record contains A count of the number of occurrences Timestamps for the most recent posting and clearing Not cleared maintained across transmitter power cycles Recent Alerts 50 most recent alarm postings or alarm clear ings Not cleare...

Page 166: ...talizers Stop Totalizers Overview When you start a totalizer it tracks process measurement In a typical application its value increases with flow When you stop a totalizer it stops tracking process measurement and its value does not change with flow Inventories are started and stopped automatically when totalizers are started and stopped Important Totalizers and inventories are started or stopped ...

Page 167: ...ct 5 Select again to confirm 6 Scroll to EXIT To stop all totalizers and inventories using the display 1 Scroll until the word TOTAL appears in the lower left corner of the display Important Because all totalizers are started or stopped together it does not matter which total you use 2 Select 3 Scroll until STOP appears beneath the current totalizer value 4 Select 5 Select again to confirm 6 Scrol...

Page 168: ...al Service Tools Variables Totalizer Control All Totalizers Reset All Totals Overview When you reset a totalizer the transmitter sets its value to 0 It does not matter whether the totalizer is started or stopped If the totalizer is started it continues to track process measurement Tip When you reset a single totalizer the values of other totalizers are not reset Inventory values are not reset 9 7 ...

Page 169: ...the current totalizer value 4 Select 5 Select again to confirm 6 Scroll to EXIT 7 Select 9 8 Reset inventories ProLink II ProLink Totalizer Control Reset Inventories ProLink Totalizer Control Reset Mass Inventory ProLink Totalizer Control Reset Volume Inventory ProLink Totalizer Control Reset Gas Volume Inventory ProLink III Device Tools Totalizer Control Totalizer and Inventories Reset Mass Inven...

Page 170: ...ories are not reset Totalizer values are not reset Prerequisites To use ProLink II or ProLink III to reset the inventories the feature must be enabled To enable inventory reset in ProLink II 1 Click View Preferences 2 Check the Enable Inventory Totals Reset checkbox 3 Click Apply To enable inventory reset in ProLink III 1 Choose Tools Options 2 Select Reset Inventories from ProLink III Transmitter...

Page 171: ... other supported connection type To read or obtain process data For an approved measurement you must use an approved method If the measurement does not have to be approved you can use any available method Important The behavior of transmitter outputs and process variable values is modified by the Weights Measures application Ensure that you know the effects of this application on outputs and proce...

Page 172: ...a Table 10 1 Process data mA output Modbus RS 485 or HART RS 485 Transmitter dis play Mass Volume Density Totalizer values Inventory values OIML approved methods to read or obtain process data Table 10 2 Process data mA output Modbus RS 485 or HART RS 485 Transmitter dis play Mass Volume Density Totalizer values 1 Inventory values 10 1 2 Large totalizer values on the display OIML applications only...

Page 173: ...in the standard manner 10 1 3 Effect of the Weights Measures application on process measurement and outputs When the Weights Measures application is installed process measurement and reporting is modified to prevent unauthorized use of the data Specific changes are controlled by whether the transmitter is secured or unsecured Transmitter outputs and process data when Approvals NTEP Table 10 3 Func...

Page 174: ...maintenance activities may be disallowed You can switch to unsecured mode perform the required actions then switch back to secured mode Available actions when Approvals NTEP Table 10 5 Function Transmitter status Unsecured Secured Connecting from ProLink II ProLink III the Field Communicator or a host All supported connec tion types are availa ble Physical security prevents access to the service p...

Page 175: ...y single totalizer is reset all other total izers are reset automatically Starting Not allowed N A Stopping N A Not allowed Inventories Resetting Not allowed Not allowed Sensor simulation Allowed Not allowed Available actions when Approvals OIML Table 10 6 Function Transmitter status Unsecured Secured Connecting from ProLink II ProLink III the Field Communicator or a host All supported connec tion...

Page 176: ...zer is reset all other totalizers are reset auto matically May or may not be allowed depend ing on configuration Can be per formed only if flow rate is zero If any single totalizer is reset all other total izers are reset automatically Starting Not allowed N A Stopping N A Not allowed Inventories Resetting Allowed Not allowed Sensor simulation Allowed Not allowed 10 2 Switch between secured and un...

Page 177: ...d mode 1 Make a service port connection to your transmitter 2 Choose Plug ins Enable Disable Custody Transfer 3 Click Enable Custody Transfer 10 2 2 Switch between secured and unsecured mode using ProLink III Prerequisites Before switching to unsecured mode ensure that you will be able to switch back to secured mode Because switching to unsecured mode requires breaking the physical seal switching ...

Page 178: ...wiring is in place for a service port connection You may need to break the seal and remove the clamp Procedure To switch from secured mode to unsecured mode 1 Run the switching utility 2 Select the COM port to use for the connection 3 Click Disable Custody Transfer To switch from unsecured mode to secured mode 1 Run the switching utility 2 Select the COM port to use for the connection 3 Click Enab...

Page 179: ...tter will post Status Alarm A026 Sensor Xmtr Communication Error To clear this alarm you must switch the transmitter to unsecured mode and resecure it This requires breaking the physical seal and reinstalling it when the entire process is complete Other procedures may be required Refer to the Weights Measurements documentation for your installation Important In most cases the physical seal must be...

Page 180: ...Operate the transmitter with the Weights Measures application 172 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 181: ...ator of measurement performance Meter validation compares flowmeter measurements reported by the transmitter to an external measurement standard Meter validation requires one data point Calibration establishes the relationship between a process variable and the signal produced at the sensor You can calibrate the flowmeter for zero density and temperature Density and temperature calibration require...

Page 182: ...ption was ordered for your transmitter See Table 11 2 for a description of the major differences between the older meter verification and the newer Smart Meter Verification Major differences between meter verification and Smart Meter Verification Table 11 2 Feature Meter verification older Smart Meter Verification newer Measurement inter ruption Suspended during the test 3 mi nutes No interruption...

Page 183: ... through the sensor Smart Meter Verification is not affected by any configured transmitter parameters for flow density or temperature 11 2 3 Run Smart Meter Verification Run a Smart Meter Verification test using the display 1 Navigate to the Smart Meter Verification menu Smart Meter Verification Top level menu Figure 11 1 Scroll and Select simultaneously for 4 seconds ENTER METER VERFY Scroll RUN ...

Page 184: ...lt action The test will run for approximately 140 seconds While the test is in progress dots traverse the display and test progress is shown Postrequisites View the test results and take any appropriate actions Measurement support 176 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 185: ...ONTINUE MEASR FAULT LAST VALUE Select Scroll Scroll Scroll Select Scroll RESULTS VIEW YES Select Scroll Scroll Select Select Select Select Select SENSOR ABORT YES Select Scroll Abort Type Scroll Scroll Select To Runcount see Results Read Test result Pass EXIT Scroll EXIT Scroll To Enter Meter Verfy Run a Smart Meter Verification test using ProLink II 1 Choose Tools Meter Verification Run Meter Ver...

Page 186: ...played on the screen Postrequisites View the test results and take any appropriate actions Run a Smart Meter Verification test using ProLink III 1 Choose Device Tools Diagnostics Meter Verification Run Test You may need to wait a few seconds while ProLink II synchronizes its database with the transmitter data 2 Enter any desired information on the Test Definition screen and click Next All informat...

Page 187: ...lt During the test all outputs will go to their configured fault action The test will run for approximately 140 seconds Test progress is displayed on the screen Postrequisites View the test results and take any appropriate actions 11 2 4 View test data You can view the results of the current test You can also view results from previous tests The transmitter stores the following information about t...

Page 188: ...ayed automatically at the end of the test 2 If you want to view results from previous tests a Navigate to the Smart Meter Verification menu Smart Meter Verification Top level menu Figure 11 3 Scroll and Select simultaneously for 4 seconds ENTER METER VERFY Scroll RUN VERFY RESULTS READ SCHEDULE VERFY Select EXIT Scroll Scroll Scroll Scroll Select Select Select Select b Scroll to Results Read and p...

Page 189: ...e 11 4 RESULTS READ Select xx L STF RUNCOUNT x Select xx HOURS Select PASS Select xx R STF Select RESULTS MORE Select Scroll To Run Verfy Pass Select Scroll Result type Fail Abort xx HOURS Select CAUTION xx L STF xx R STF Select Select xx HOURS Abort Type To Runcount x 1 Select Select Select Measurement support Configuration and Use Manual 181 ...

Page 190: ...on 2 Optional If the Field Communicator database is out of date choose Upload Results Data from Device 3 To view data from the most recent test choose Most Recent Test Results 4 To view data for all tests in the Field Communicator database a Press Show Results Table Data from the most recent test is displayed b Press OK to scroll through data from previous tests c To exit the results table press A...

Page 191: ...3 Code Description Recommended actions 1 User initiated abort None required Wait 15 seconds before starting another test 3 Frequency drift Ensure that temperature flow and density are stable and rerun the test 5 High drive gain Ensure that flow is stable minimize en trained gas and rerun the test 8 Unstable flow Check factors that could cause process in stability then rerun the test To maximize pr...

Page 192: ...st in recurring execution a Scroll to Set Next and press Select b Enter the number of hours that the transmitter will wait before beginning the test 4 To schedule recurring execution a Scroll to Set Recur and press Select b Enter the number of hours that will elapse between tests 5 To disable scheduled execution To disable execution of a single scheduled test set Set Next to 0 To disable recurring...

Page 193: ...S SET RECUR No SCHED IS OFF xx HOURS Select Scroll No Yes Select xx HOURS Select SAVE YES Scroll No Yes Scroll Scroll EXIT Scroll Select Select Scroll Manage scheduled test execution using ProLink II 1 Choose Tools Meter Verification Schedule Meter Verification 2 To schedule a single test or the first test in recurring execution specify a value for Hours Until Next Run 3 To schedule recurring exec...

Page 194: ...test execution using the Field Communicator 1 Navigate to the Smart Meter Verification menu Overview Shortcuts Meter Verification Service Tools Maintenance Routine Maintenance Meter Verification 2 Choose Automatic Verification 3 To schedule a single test or the first test in recurring execution specify a value for Hrs Until Next Run 4 To schedule recurring execution specify a value for Set Recurri...

Page 195: ...dure The default value is 20 seconds If you need to change Zero Time you must make a connection to the transmitter from a communications tool such as ProLink II Prerequisites Assign the following as display variables Live Zero or Field Verification Zero Drive Gain Temperature Density See Section 5 1 2 for assistance Procedure 1 Prepare the flowmeter a Allow the flowmeter to warm up for at least 20...

Page 196: ...ing the original components 11 3 2 Zero the flowmeter using ProLink II Zeroing the flowmeter establishes a baseline for process measurement by analyzing the sensor s output when there is no flow through the sensor tubes Prerequisites ProLink II must be running and must be connected to the transmitter Procedure 1 Prepare the flowmeter a Allow the flowmeter to warm up for at least 20 minutes after a...

Page 197: ...tion If you want to return the flowmeter to operation using a previous zero value To restore the zero value set at the factory ProLink Zero Verification and Calibration Calibrate Zero Restore Factory Zero This function requires the enhanced core processor To restore the most recent valid value from transmitter memory ProLink Zero Verification and Calibration Calibrate Zero Restore Prior Zero Resto...

Page 198: ...as successful a Calibration Success message and a new zero value are displayed If the zero procedure failed a Calibration Failed message is displayed Postrequisites Restore normal flow through the sensor by opening the valves Need help If the zero fails Ensure that there is no flow through the sensor then retry Remove or reduce sources of electromechanical noise then retry Set Zero Time to a lower...

Page 199: ... the transmitter takes to determine its zero flow reference point The default Zero Time is 20 seconds For most applications the default Zero Time is appropriate 4 Press OK to start the zero and wait while the zero calibration is performed 5 When the zero is complete data from the zero calibration is displayed Press OK to accept the data and store the values Press ABORT to discard the data and retu...

Page 200: ... mass flow affects only the value reported for mass flow The meter factor for density affects only the value reported for density The meter factor for volume flow affects only the value reported for volume flow or gas standard volume flow Important To adjust volume flow you must set the meter factor for volume flow Setting a meter factor for mass flow and a meter factor for density will not produc...

Page 201: ...s validated again The mass flow measurement from the transmitter is 250 07 lb The mass flow measurement from the reference device is 250 25 lb The new mass flow meter factor is calculated as follows MeterFactorMassFlow 0 9989 250 25 250 07 x 0 9996 The new meter factor for mass flow is 0 9996 11 4 1 Alternate method for calculating the meter factor for volume flow The alternate method for calculat...

Page 202: ...flowmeters are calibrated at the factory and normally do not need to be calibrated in the field Calibrate the flowmeter only if you must do so to meet regulatory requirements Contact Micro Motion before calibrating the flowmeter Tip Micro Motion recommends using meter validation and meter factors rather than calibration to prove the meter against a regulatory standard or to correct measurement err...

Page 203: ... the current configuration to a file on the PC If the calibration fails restore the known values Restriction For T Series sensors the D1 calibration must be performed on air and the D2 calibration must be performed on water Procedure See Figure 11 7 D1 and D2 density calibration using ProLink II Figure 11 7 Enter density of D1 fluid Calibration in Progress light turns green Calibration in Progress...

Page 204: ...this choose Device Tools Configuration LD Optimization LD Optimization is used only with large sensors in hydrocarbon applications In some installations only Micro Motion customer service has access to this parameter If this is the case contact Micro Motion before continuing The calibrations must be performed without interruption in the order shown Make sure that you are prepared to complete the p...

Page 205: ... calibration fluid and flow through the sensor must be at the lowest rate allowed by your application This is usually accomplished by closing the shutoff valve downstream from the sensor then filling the sensor with the appropriate fluid D1 and D2 density calibration require a D1 low density fluid and a D2 high density fluid You may use air and water If LD Optimization is enabled on your meter dis...

Page 206: ...ion in Progress message D1 calibration Close shutoff valve downstream from sensor Fill sensor with D1 fluid Fill sensor with D2 fluid D2 calibration OK Dens Pt 1 Calibration method executes OK Home Enter density of D2 fluid Density Calibration Complete message Calibration in Progress message OK Dens Pt 2 Calibration method executes OK Home Done On Line Menu Service Tools Maintenance Density Calibr...

Page 207: ...ally accomplished by closing the shutoff valve downstream from the sensor then filling the sensor with the appropriate fluid For D3 density calibration the D3 fluid must meet the following requirements Minimum density of 0 6 g cm3 Minimum difference of 0 1 g cm3 between the density of the D3 fluid and the density of water The density of the D3 fluid may be either greater or less than the density o...

Page 208: ...k III Prerequisites During density calibration the sensor must be completely filled with the calibration fluid and flow through the sensor must be at the lowest rate allowed by your application This is usually accomplished by closing the shutoff valve downstream from the sensor then filling the sensor with the appropriate fluid For D3 density calibration the D3 fluid must meet the following requir...

Page 209: ...e 11 11 Enter density of D3 fluid D3 calibration Close shutoff valve downstream from sensor Fill sensor with D3 fluid Done Device Tools Calibration Density Calibration Density Calibration Point 3 Close Start Calibration Enter density of D4 fluid D4 calibration Fill sensor with D4 fluid Device Tools Calibration Density Calibration Density Calibration Point 4 Close Start Calibration 11 6 3 Perform a...

Page 210: ...3 Minimum difference of 0 1 g cm3 between the density of the D4 fluid and the density of the D3 fluid The density of the D4 fluid must be greater than the density of the D3 fluid Minimum difference of 0 1 g cm3 between the density of the D4 fluid and the density of water The density of the D4 fluid may be either greater or less than the density of water Before performing the calibration record you...

Page 211: ... OK Home Done On Line Menu Service Tools Maintenance Density Calibration Service Tools Maintenance Density Calibration Done 11 7 Perform temperature calibration Temperature calibration establishes the relationship between the temperature of the calibration fluids and the signal produced by the sensor Prerequisites The temperature calibration is a two part procedure temperature offset calibration a...

Page 212: ...ves thermal equilibrium Fill sensor with low temperature fluid Calibration in Progress light turns green Calibration in Progress light turns red Close Enter temperature of high temperature fluid Temperature Slope calibration Do Cal Wait until sensor achieves thermal equilibrium Fill sensor with high temperature fluid Calibration in Progress light turns green Calibration in Progress light turns red...

Page 213: ...d Enter temperature of high temperature fluid Temperature Slope calibration Start Calibration Wait until sensor achieves thermal equilibrium Fill sensor with high temperature fluid Done Device Tools Calibration Temperature Calibration Temperature Calibration Offset Start Calibration Device Tools Calibration Temperature Calibration Temperature Calibration Slope Measurement support Configuration and...

Page 214: ...Measurement support 206 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 215: ...e RFI Check the HART communication loop Check HART Address and Loop Current Mode Check HART burst mode Check the trimming of the mA output Check Lower Range Value and Upper Range Value Check mA Output Fault Action Check Frequency Output Maximum Pulse Width Check Frequency Output Scaling Method Check Frequency Output Fault Action Check Flow Direction Check the cutoffs Check for slug flow two phase ...

Page 216: ...d yellow Unacknowledged low severity alarm outputs continue to report process data Enabled Flashing yellow Disabled Solid yellow Acknowledged high severity alarm outputs in fault N A Solid red Unacknowledged high severity alarm outputs in fault Enabled Flashing red Disabled Solid red 12 2 Status alarms Status alarms and recommended actions Table 12 2 Alarm code Description Recommended actions A001...

Page 217: ... 28 1 d Check the continuity of all wires from the transmitter to the sensor 3 Check for electrical shorts See Section 12 28 4 Check the integrity of the sensor tubes A004 Temperature Overrange The sensor RTD is signaling a resistance that is out of range for the sensor 1 Check the sensor RTD resistance values and for RTD shorts to case See Section 12 28 1 2 Check the wiring between the sensor and...

Page 218: ...or leaks c Monitor the density of your process fluid output under normal process conditions A006 Characterization Required The calibration factors for the sensor have not been entered or the sensor type is incorrect or the calibration factors are incor rect for the sensor type 1 Verify that all of the characterization parameters match the data on the sensor tag 2 Check the resistance of the LLC Se...

Page 219: ...vitation flashing or leaks c Monitor the density of your process fluid output under normal process conditions d Check the values of Slug Low Limit Slug High Limit and Slug Duration 5 If accompanied by an A003 alarm check for electrical shorts between sensor terminals or between the sensor terminals and the sensor case 6 Verify that all of the characterization parameters match the data on the senso...

Page 220: ...t is above the valid range This alarm will be accompanied by A010 Power to the transmitter must be cycled to clear this alarm 1 Cycle power to the meter 2 Make sure there is no flow through the sensor 3 Retry the zero calibration 4 Power cycle the transmitter A013 Zero Calibration Failed Unsta ble There was too much instability during the calibration procedure Power to the transmitter must be cycl...

Page 221: ...ify that the transmitter is connected to the sensor according to the instructions Obey all safety messages when open ing wiring compartments b Verify that the wires are making good contact with the terminals c Perform RTD resistance checks and check for shorts to case see Section 12 28 1 d Check the continuity of all wires from the transmitter to the sensor 2 Check your process conditions against ...

Page 222: ...is a curved tube sensor A021 Incorrect Sensor Type K1 The sensor is recognized as a straight tube but the K1 value indi cates a curved tube or vice versa Verify that all of the character ization parameters match the data on the sensor tag If the prob lem persists 1 Check that the sensor type curved or straight is properly se lected 2 Confirm that no T Series calibration parameters have been set if...

Page 223: ...place both the transmitter and core processor A027 Security Breach 1 Check the HART device ID 2 The transmitter has a weights and measures security feature that is currently set to unsecure Set the transmitter to se cure to clear the alarm An authorized procedure may be re quired to resecure the transmitter A028 Core Processor Write Failure There has been a failure in the transmitter electronics T...

Page 224: ...receiving sufficient voltage and the problem still persists replace the transmitter A032 Meter Verification in Progress Outputs to Fault Meter verification in progress with outputs set to Fault or Last Measured Value A033 Insufficient Right Left Pickoff Signal There is insufficient signal coming from the sensor pickoff coils which suggests that the sensor tubes are being prevented from vibrating a...

Page 225: ... voltage 2 Check for electrical shorts between sensor terminals or be tween the sensor terminals and the sensor case 3 Check for partially filled tubes tube fouling damaged tubes and excessive air entrainment or flashing 4 Settling from a two or three phase fluid could create this alarm even if the flow tubes are full which could mean the sensor needs to be reoriented Refer to the sensor installa ...

Page 226: ...e Contact Micro Motion A113 mA Output 2 Saturated 1 Check your process conditions against the values reported by the flowmeter 2 Verify process conditions checking especially for air in the flow tubes tubes not filled foreign material in the tubes or coating in the tubes 3 Verify that the measurement units are configured correctly for your application 4 Purge the flow tubes 5 Check the Upper Range...

Page 227: ...his alarm should clear when the process fluid returns to normal If the problem persists check the configuration of the concen tration measurement application A131 Meter Verification in Progress Outputs to Last Measured Val ue Meter verification in progress with outputs set to Last Measured Value A132 Sensor Simulation Active Simulation mode is enabled A133 EEPROM Error Display Change the display m...

Page 228: ...problem Vibration in pipeline at rate close to sen sor tube frequency Damping value too low Mounting stress on sensor Verify that the sensor orientation is appropri ate for your application refer to the sensor installation manual Check the drive gain and the pickoff voltage See Section 12 26 and Section 12 27 If the wiring between the sensor and the transmitter includes a 9 wire segment verify tha...

Page 229: ...ibration Verify damping configuration Verify that the measurement units are con figured correctly for your application Check for slug flow See Section 12 25 Check for radio frequency interference See Section 12 13 Contact Micro Motion Inaccurate flow rate or batch total Wiring problem Inappropriate measurement unit Incorrect flow calibration factor Incorrect meter factor Incorrect density calibrat...

Page 230: ... too near each other separate them Purge the flow tubes Unusually high densi ty reading Plugged or coated flow tube Incorrect K2 value Incorrect temperature measurement RTD problem In high frequency meters this can be an indication of erosion or corrosion In low frequency meters this can indi cate tube fouling Verify that all of the characterization parame ters match the data on the sensor tag Pur...

Page 231: ...e calibration Check the wiring between the sensor and transmitter See Section 12 10 Temperature reading slightly different from process temperature Sensor temperature not yet equalized Sensor leaking heat The RTD has a specification of 1 C If the error is within this range there is no prob lem If the temperature measurement is outside the specification for the sensor contact Micro Motion The tempe...

Page 232: ...RV LRV and URV are not set correctly Fault condition if fault action is set to inter nal zero or downscale Bad mA receiving device Check your process conditions against the values reported by the flowmeter Verify that the receiving device and the wiring between the transmitter and the re ceiving device Check the settings of Upper Range Value and Lower Range Value See Section 12 18 Check the Fault ...

Page 233: ... 17 Consistently incorrect mA measurement Loop problem Output not trimmed correctly Incorrect flow measurement unit config ured Incorrect process variable configured LRV and URV are not set correctly Check the mA output trim See Section 12 17 Verify that the measurement units are con figured correctly for your application Verify the process variable assigned to the mA output Check the settings of ...

Page 234: ...Incorrect flow measurement unit config ured Check the frequency output scaling See Section 12 21 Verify that the measurement units are con figured correctly for your application Erratic frequency out put Radio frequency interference RFI from environment Check for radio frequency interference See Section 12 13 12 8 Use sensor simulation for troubleshooting When sensor simulation is enabled the tran...

Page 235: ...er supply wires are making good contact and are not clamped to the wire insulation 5 Inspect the voltage label on the inside of the field wiring compartment The voltage supplied to the transmitter should match the voltage specified on the label 6 Reapply power to the transmitter CAUTION If the transmitter is in a hazardous area do not reapply power to the transmitter with the housing cover removed...

Page 236: ...led as part of the transmitter or the sensor it is grounded automatically If the core processor is installed separately it must be grounded separately Prerequisites You will need Installation manual for your sensor Installation manual for your transmitter Procedure Refer to the sensor and transmitter installation manuals for grounding requirements and instructions 12 12 Perform loop tests A loop t...

Page 237: ...dings do not need to match exactly If the values are slightly different you can correct the discrepancy by trimming the output f At the transmitter activate Select 2 Test the frequency output s a Choose OFFLINE MAINT SIM FO SIM and select the frequency output value The frequency output can be set to 1 10 or 15 kHz Note If the Weights Measures application is enabled on the transmitter it is not pos...

Page 238: ...r application Follow appropriate procedures to ensure that loop testing will not interfere with existing measurement and control loops ProLink II must be running and must be connected to the transmitter Procedure 1 Test the mA output s a Choose ProLink Test Fix Milliamp 1 or ProLink Test Fix Milliamp 2 b Enter 4 mA in Set Output To c Click Fix mA d Read the mA current at the receiving device and c...

Page 239: ...UnFix Postrequisites If the mA output reading was slightly off at the receiving device you can correct this discrepancy by trimming the output If the mA output reading was significantly off 200 microamps or if at any step the reading was faulty verify the wiring between the transmitter and the remote device and try again If the discrete output reading is reversed check the setting of Discrete Outp...

Page 240: ...ferent you can correct the discrepancy by trimming the output i Click UnFix mA 2 Test the frequency output s Note If the Weights Measures application is enabled on the transmitter it is not possible to perform a loop test of the frequency output even when the transmitter is unsecured a Choose Device Tools Diagnostics Testing Frequency Output Test b Enter the frequency output value in Fix to c Clic...

Page 241: ...ols Simulate Simulate Outputs mA Output Loop Test and select 4 mA b Read the mA current at the receiving device and compare it to the transmitter output The readings do not need to match exactly If the values are slightly different you can correct the discrepancy by trimming the output c Press OK d Select 20 mA e Read the mA current at the receiving device and compare it to the transmitter output ...

Page 242: ...ed check the setting of Discrete Output Polarity 12 13 Check for radio frequency interference RFI The transmitter s frequency output or discrete output can be affected by radio frequency interference RFI Possible sources of RFI include a source of radio emissions or a large transformer pump or motor that can generate a strong electromagnetic field Several methods to reduce RFI are available Use on...

Page 243: ...rimary mA output terminals 4 Check the voltage drop across the resistor 4 20 mA 1 5 VDC If voltage drop is less than 1 VDC add resistance to achieve a voltage drop of greater than 1 VDC 5 Connect a Field Communicator directly across the resistor and attempt to communicate poll If communication with the transmitter cannot be established the transmitter may need service Contact Micro Motion 12 15 Ch...

Page 244: ...t correct the problem contact Micro Motion 12 18 Check Lower Range Value and Upper Range Value If the process conditions fall below the configured Lower Range Value LRV or rise above the configured Upper Range Value URV the transmitter outputs may send unexpected values 1 Make a note of your current process conditions 2 Check the configuration of the LRV and URV 12 19 Check mA Output Fault Action ...

Page 245: ...ncy Output Scaling Method check the settings of all other frequency output parameters 12 22 Check Frequency Output Fault Action The Frequency Output Fault Action controls the behavior of the frequency output if the transmitter encounters an internal fault condition If the frequency output is reporting a constant value the transmitter may be in a fault condition 1 Check the status alarms for active...

Page 246: ...re Verify the configuration of the cutoffs Tip For typical applications Micro Motion recommends setting Mass Flow Cutoff to the zero stability value for your sensor multiplied by 10 Zero stabiliy values can be found in the Product Data Sheet for your sensor 12 25 Check for slug flow two phase flow Slug flow two phase flow entrained gas can cause spikes in the drive gain This may cause the transmit...

Page 247: ...r three phase fluids Increase the inlet or back pressure at the sensor If a pump is located upstream from the sensor increase the dis tance between the pump and sensor The sensor may need to be reorientated Consult the installa tion manual for your sensor for recommended orientations Drive board or module failure Contact Micro Motion Bent flow tube Check the pickoff voltages see Section 12 27 If e...

Page 248: ...ow you may have any of a variety of process or equipment problems To know whether your pickoff voltage is unusually low you must collect pickoff voltage data during the problem condition and compare it to pickoff voltage data from a period of normal operation Possible causes and recommended actions for low pickoff voltage Table 12 10 Possible cause Recommended actions Air entrainment Increase the ...

Page 249: ...he pickoff voltage data 2 Observe and record data for both the left pickoff and the right pickoff over an appropriate period of time under a variety of process conditions 12 28 Check for electrical shorts Shorts between sensor terminals or between the sensor terminals and the sensor case can cause the sensor to stop working Possible causes and recommended actions for electrical shorts Table 12 11 ...

Page 250: ...ve coil All Brown to red Left pickoff coil LPO All Green to white Right pickoff coil RPO All Blue to gray Resistance temperature detector RTD All Yellow to violet Lead length compensator LLC All except T Series and CMF400 see note Yellow to orange Composite RTD T Series Yellow to orange Fixed resistor see note CMF400 Yellow to orange Note The CMF400 fixed resistor applies only to certain specific ...

Page 251: ...her terminals except the blue one g Test the orange terminal against all other terminals except the yellow and violet ones h Test the yellow terminal against all other terminals except the orange and violet ones i Test the violet terminal against all other terminals except the yellow and orange ones There should be infinite resistance for each pair If there is any resistance at all there is a shor...

Page 252: ...x cap screws 4 mm Transition ring Transmitter Core processor b Rotate the transmitter counter clockwise so that the cap screws are in the unlocked position c Gently lift the transmitter straight up disengaging it from the cap screws Important Do not disconnect or damage the wires that connect the transmitter to the core processor d Check the state of the core processor LED 4 If you have a 9 wire r...

Page 253: ...ck the state of the core processor LED Postrequisites To return to normal operation For a 4 wire remote installation or a remote core processor with remote transmitter installation replace the core processor lid For an integral installation 1 Without pinching or stretching the wires lower the transmitter onto the base inserting the cap screws into the slots 2 Rotate the transmitter clockwise so th...

Page 254: ...uires factory service 4 flashes per second Fault condition Check alarm status OFF Core processor receiving less than 5 volts Verify power supply wiring to core processor If transmitter status LED is lit transmitter is re ceiving power Check voltage across terminals 1 VDC and 2 VDC in core processor If reading is less than 1 VDC verify power supply wiring to core processor Wires may be switch ed If...

Page 255: ... If transmitter status LED is lit transmitter is re ceiving power Check voltage across terminals 1 VDC and 2 VDC in core processor If reading is less than 1 VDC verify power supply wiring to core processor Wires may be switch ed If transmitter status LED is not lit transmitter is not receiving power Check power supply If power supply is operational internal transmit ter display or LED failure is p...

Page 256: ...move the end cap 9 wire remote installation components Figure 12 4 Transmitter Core processor 4 x cap screws 4 mm End cap b Inside the core processor housing loosen the three screws that hold the core processor mounting plate in place Do not remove the screws c Rotate the mounting plate so that the screws are in the unlocked position d Holding the tab on the mounting plate slowly lower the mountin...

Page 257: ...r lid 3 Restore power to the transmitter For an integral installation 1 Reconnect the 4 wire cable between the core processor and the transmitter 2 Without pinching or stretching the wires lower the transmitter onto the base inserting the cap screws into the slots 3 Rotate the transmitter clockwise so that the cap screws are in the locked position 4 Tighten the cap screws torquing to 20 to 30 in l...

Page 258: ...Troubleshooting 250 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 259: ...use the display menu system Display codes for process variables Codes and abbreviations used in display menus Menu maps for the transmitter display A 1 Components of the transmitter interface The transmitter interface includes the status LED the display LCD panel and two optical switches Using the transmitter display Configuration and Use Manual 251 ...

Page 260: ...ansmitter interface to control the transmitter display The transmitter has two optical switches Scroll and Select To activate an optical switch block the light by holding your thumb or finger in front of the opening Tip You can activate the optical switch through the lens Do not remove the transmitter housing cover The optical switch indicator lights up when the transmitter senses that an optical ...

Page 261: ...e Scroll and Select optical switches simultaneously until the display changes You will enter the Off Line menu at any of several locations depending on several factors If an alarm is active and access to the Alarm menu is enabled you will see SEE ALARM If no alarm is active and Smart Meter Verification is enabled on the transmitter you will see ENTER METER VERFY If no alarm is active and Smart Met...

Page 262: ...mple Lower Range Value and Upper Range Value are entered as floating point values The display supports both decimal notation and exponential notation for floating point values The display allows you to enter a maximum of 8 characters including the sign The decimal point is not counted as a character Exponential notation is used to enter values that require more than 8 characters Enter a floating p...

Page 263: ... To move the decimal point 1 Activate Select until the decimal point is flashing 2 Activate Scroll The decimal point is removed from its current position 3 Activate Select and watch the position of the decimal point As the cursor moves to the left the decimal point will flash between each pair of digits up to a maximum precision of four four digits to the right of the decimal point Tip If the posi...

Page 264: ...notation a Activate Select as required until the rightmost digit is flashing b Activate Scroll until E is displayed c Activate Select Tip If you have modified the value in decimal notation without saving the changes to transmitter memory the changes will be lost when you switch to exponential notation Save the decimal value before switching to exponential notation 2 Enter the exponent The first ch...

Page 265: ...ue is the same as the value in transmitter memory you will be returned to the previous screen If the displayed value is not the same as the value in transmitter memory SAVE YES flashes on the display Activate Select 6 Optional Switch back from exponential notation to decimal notation a Activate Select until the E is flashing b Activate Select until d is displayed c Activate Select A 4 Display code...

Page 266: ...entration measurement applica tion only PWRIN Input voltage Refers to power input to the core pro cessor RDENS Density at reference temperature Concentration measurement applica tion only RPO_A Right pickoff amplitude SGU Specific gravity units STD V Standard volume flow rate Concentration measurement applica tion only STDVI Standard volume inventory Concentration measurement applica tion only TCD...

Page 267: ...B CH C Channel C CHANGE PASSW CHANGE CODE Change password or passcode Change the password or passcode re quired for access to display functions CONFG Configuration CORE Core processor CUR Z Current zero CUSTODY XFER Custody transfer D EV Discrete event Events configured using the enhanced event model DENS Density DGAIN DRIVE Drive gain DI Discrete input DISBL Disable Select to disable DO1 Discrete...

Page 268: ...Enable or disable totalizer start stop from display EVNT1 Event 1 Event configured using the basic event model only EVNT2 Event 2 Event configured using the basic event model only EXTRN External FAC Z Factory zero FCF Flow calibration factor FL SW FLSWT Flow switch FLDIR Flow direction FO Frequency output FO FREQ Frequency factor FO RATE Rate factor FR FL Frequency Flow FREQ Frequency GSV Gas stan...

Page 269: ...Polarity PRESS Pressure QUAD Quadrature r Revision SCALE Scaling method SIM Simulation Used for loop testing not simulation mode Simulation mode is not accessi ble via the display SPECL Special SRC Source Variable assignment TEMP TEMPR Temperature UNT P Units pulse VAR 1 Display Variable 1 VER Version VERFY Verify VFLOW Volume flow VOL Volume volume flow WRPRO Write protect XMTR Transmitter Using ...

Page 270: ...t SEE ALARM Scroll Scroll EXIT CONFG Scroll SIM ZERO SENSOR VERFY Scroll Scroll Scroll Scroll EXIT This option is displayed only if the transmitter is connected to an enhanced core processor and the meter verification software is installed on the transmitter Using the transmitter display 262 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 271: ...o Scroll Select Yes CEQ ETO info Scroll CUSTODY XFER Scroll Yes SENSOR VERFY Scroll Scroll EXIT OFF LINE MAINT Select Scroll ED API info Scroll The option is displayed only if the corresponding CEQ ETO or application is installed on the transmitter Using the transmitter display Configuration and Use Manual 263 ...

Page 272: ... SRC AO 1 4 MA AO 120 MA Scroll Scroll EXIT Scroll Scroll PRESS FO FO SRC FO FREQ Select Scroll Scroll Scroll FO RATE Scroll FO POLAR Scroll EXIT DO DO SRC DO POLAR Select Scroll Scroll CONFIG FL SW SETPOINT FL SW SOURCE FL SW Scroll EXIT Scroll Select Scroll IO CH A CH B Select Scroll Select Select Scroll EXIT Scroll Using the transmitter display 264 Micro Motion Model 2700 Transmitters with Anal...

Page 273: ...Y RATE DISPLAY BKLT DISPLAY LANG Scroll Scroll Scroll Scroll ADDRESS HART COMM LOOP CURR HART EXIT Select Scroll Scroll Scroll LOCK CODE ALARM PROTOCOL BAUD PARITY STOP BITS Scroll Scroll Scroll Scroll ADDRESS MBUS Scroll Scroll If you disable access to the offline menu the offline menu will disappear as soon as you exit To re enable access you must use ProLink II or the Communicator If Auto Scrol...

Page 274: ...m code Scroll ACK Yes Select No Active unacknowledged alarms No Yes Select NO ALARM EXIT Scroll Scroll Select Scroll Scroll Select This screen is displayed only if the ACK ALL function s enabled and there are unacknowledged alarms Using the transmitter display 266 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 275: ...ect Select Offline menu meter verification schedule Figure A 8 SCHEDULE VERFY Select SAVE YES TURN OFF SCHED YES SET NEXT Select Select Schedule set Yes Schedule deleted Scroll HOURS LEFT Select Scroll xx HOURS SET RECUR No SCHED IS OFF xx HOURS Select Scroll No Yes Select xx HOURS Select SAVE YES Scroll No Yes Scroll Scroll EXIT Scroll Select Select Scroll Using the transmitter display Configurat...

Page 276: ...EASR FAULT LAST VALUE Select Scroll Scroll Scroll Select Scroll RESULTS VIEW YES Select Scroll Scroll Select Select Select Select Select SENSOR ABORT YES Select Scroll Abort Type Scroll Scroll Select To Runcount see Results Read Test result Pass EXIT Scroll EXIT Scroll To Enter Meter Verify Using the transmitter display 268 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 277: ...xx HOURS Select PASS Select xx R STF Select RESULTS MORE Select Scroll To Run Verfy Pass Select Scroll Result type Fail Abort xx HOURS Select CAUTION xx L STF xx R STF Select Select xx HOURS Abort Type To Runcount x 1 Select Select Select Using the transmitter display Configuration and Use Manual 269 ...

Page 278: ... define or change the setpoint for Event 1 or Event 2 in the basic event model These screens are displayed only if the event is defined on mass total or volume total Note that this functionality does not apply to discrete events the enhanced event model 2 The transmitter must be configured to allow starting and stopping totalizers from the display 3 The transmitter must be configured to allow rese...

Page 279: ... SET y KHZ Select SET OFF SET ON Select EXIT Scroll Scroll Select EXIT Yes Select Scroll Select Yes Select EXIT Scroll Select Yes Select Scroll Select OFF LINE MAINT Select Scroll SIM The output can be fixed at 2 4 12 20 or 22 mA Fixes the output Unfixes the output The output can be fixed at 1 10 or 15 kHz Using the transmitter display Configuration and Use Manual 271 ...

Page 280: ...S CAL PASS CAL FAIL RESTORE ZERO RESTORE ZERO YES Current zero display Factory zero display Select Select Yes No EXIT Scroll Select Scroll Scroll Scroll Yes Select No Scroll ZERO Select Scroll RESTORE ZERO Scroll Select RESTORE EXIT Select Scroll Scroll Using the transmitter display 272 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 281: ...need more information than this manual provides see the ProLink II manual ProLink II Software for Micro Motion Transmitters Installation and Use Manual In most ProLink II installations the manual is installed with the ProLink II program Additionally the ProLink II manual is available on the Micro Motion documentation CD or the Micro Motion web site www micromotion com ProLink II features and funct...

Page 282: ...ns Modbus RTU When selecting a connection type consider the following Service port connections use standard connection parameters that are already defined in ProLink II and therefore you do not have to configure them HART Bell 202 connections use standard HART connection parameters that are already defined in ProLink II The only parameter you must configure is the transmitter address Some connecti...

Page 283: ...ne of the following RS 232 to RS 485 signal converter USB to RS 485 signal converter An available serial port or USB port Adapters as required for example 9 pin to 25 pin Procedure 1 Attach the signal converter to the serial port or USB port on your PC 2 Access the service port terminals a Remove the transmitter end cap to access the wiring compartment b Loosen the screw on the Warning flap and op...

Page 284: ...on parameters and a standard address You do not need to configure them here 7 Set the COM Port value to the PC COM port that you are using for this connection 8 Click Connect Need help If an error message appears Switch the leads and try again Ensure that you have specified the correct COM port Check the physical connection between the PC and the transmitter B 2 3 Make a HART Bell 202 connection Y...

Page 285: ...als Prerequisites ProLink II installed and licensed on your PC One of the following RS 232 to Bell 202 signal converter USB to Bell 202 signal converter An available serial port or USB port Adapters as required for example 9 pin to 25 pin Procedure 1 Attach the signal converter to the serial port or USB port on your PC 2 To connect directly to the transmitter terminals a Remove the transmitter end...

Page 286: ...ection USB connections are also supported 3 To connect from a point in the local HART loop a Attach the leads from the signal converter to any point in the loop b Add resistance as necessary Important HART Bell 202 connections require a voltage drop of 1 VDC To achieve this add resistance of 250 600 Ω to the connection Using ProLink II with the transmitter 278 Micro Motion Model 2700 Transmitters ...

Page 287: ...pply compartment opened Note This figure shows a serial port connection USB connections are also supported 4 To connect over a HART multidrop network a Attach the leads from the signal converter to any point on the network b Add resistance as necessary Important HART Bell 202 connections require a voltage drop of 1 VDC To achieve this add resistance of 250 600 Ω to the connection Using ProLink II ...

Page 288: ...mitter Tips If this is the first time you are connecting to the transmitter use the default address 0 If you are not in a HART multidrop environment the HART polling address is typically left at the default value If you are unsure of the transmitter s address click Poll The program will search the network and return a list of the transmitters that it detects 10 Set the COM Port value to the PC COM...

Page 289: ... the transmitter terminals requires opening the wiring compartment and opening the wiring compartment while the transmitter is powered up could cause an explosion To connect to the transmitter in a hazardous environment use a connection method that does not require opening the wiring compartment Prerequisites ProLink II installed and licensed on your PC One of the following RS 232 to RS 485 signal...

Page 290: ...nsmitter with wiring compartment and power supply compartment opened Note This figure shows a serial port connection USB connections are also supported 3 To connect over the RS 485 network a Attach the leads from the signal converter to any point on the network b Add resistance as necessary Using ProLink II with the transmitter 282 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 291: ...n the transmitter If your transmitter has not been configured use the default values shown here Default HART RS 485 connection parameters Table B 1 Parameter Default values Protocol HART Baud 1200 Parity Odd Stop Bits 1 Address 0 Tip If you do not know the transmitter s RS 485 communication settings you can connect through the service port which always uses default settings or use another communic...

Page 292: ...e transmitter is in a hazardous area do not connect directly to the transmitter terminals Connecting directly to the transmitter terminals requires opening the wiring compartment and opening the wiring compartment while the transmitter is powered up could cause an explosion To connect to the transmitter in a hazardous environment use a connection method that does not require opening the wiring com...

Page 293: ...ransmitter with wiring compartment and power supply compartment opened Note This figure shows a serial port connection USB connections are also supported 3 To connect over the RS 485 network a Attach the leads from the signal converter to any point on the network b Add resistance as necessary Using ProLink II with the transmitter Configuration and Use Manual 285 ...

Page 294: ...itter If your transmitter has not been configured use the default values shown here Default Modbus RS 485 connection parameters Table B 2 Parameter Default value Protocol Modbus RTU Baud 9600 Parity Odd Stop Bits 1 Address 1 Tip If you do not know the transmitter s RS 485 communication settings you can connect through the service port which always uses default settings or use another communication...

Page 295: ...rs in parallel with the output at both ends of the communication segment Ensure that there is no concurrent Modbus communication to the transmitter B 3 Menu maps for ProLink II Main menu Figure B 9 File Preferences Use External Temperature Enable Inventory Totals Reset Enable External Pressure Compensation Copper RTD Installed options Load from Xmtr to File Save to Xmtr from File License View Conn...

Page 296: ...rol Core Processor Diagnostics Finger Print API Process Variables CM Process Variables PPI Variables ED Process Variables Batcher Control Run Filler NOC Well Performance Measurement Gas Unit Configurator Meter Verification Entrained Gas Analyzer Commissioning Wizard Proving Wizard Marine Bunker Transfer Options For information about using Data Logger refer to the ProLink II manual Using ProLink II...

Page 297: ...Flow Cutoff Vol Flow Units Vol Flow Type Std Gas Vol Flow Cutoff Std Gas Vol Flow Units Std Gas Density Gas Wizard Density Dens Units Dens Damping Slug High Limit Slug Low Limit Slug Duration Low Density Cutoff K1 K2 FD D1 D2 Temp Coeff DT ProLink Configuration T Series FTG FFQ DTG DFQ1 DFQ2 K3 D3 D4 K4 Additional configuration options Using ProLink II with the transmitter Configuration and Use Ma...

Page 298: ...lt Action Freq Fault Level Freq Output Polarity Discrete Output DO Assignment DO Polarity DO Fault Action ProLink Configuration Pressure Flow Factor Dens Factor Pressure Units External Pressure Cal Pressure Analog Output Primary Output PV is LRV URV AO Cutoff AO Added Damp LSL USL Min Span AO Fault Action AO Fault Level Last Measured Value Timeout Valve Control Options Additional configuration opt...

Page 299: ...Restore Factory Configuration Digital Comm Fault Setting HART Address Enable Loop Current Mode HART Device ID Modbus Address Enable Write Protection Update Rate Response Time Enable Burst Burst Cmd Burst Var 1 4 Discrete Input Start Sensor Zero Reset Mass Total Reset Volume Total Reset All Totals Start Stop All Totalization Reset Gas Std Volume Total Reset API Ref Vol Total Reset CM Ref Vol Total ...

Page 300: ...Type Current Value Discrete Events Event Name Event Type Process Variable Low Setpoint A High Setpoint B Alarm Alarm Severity Events Event 1 2 Variable Type Setpoint RS 485 Protocol Parity Baud Rate Stop Bits Additional configuration options Using ProLink II with the transmitter 292 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 301: ...rs Display Totalizer Reset Display Auto Scroll Display Offline Menu Display Offline Password Display Alarm Menu Display Ack All Alarms Display Backlight On Off Display Alarm Screen Password Display Status LED Blinking Display Variable 1 Selection Offline Password Auto Scroll Rate Update Period Variable mapping PV is SV is TV is QV is Using ProLink II with the transmitter Configuration and Use Manu...

Page 302: ...Transient Mist Remediation Marine Bunkering CM Setup Active Curve Derived Variable Reset All Curve Info Show Advanced User Options Lock Unlock CM Curves Curve Configured Curve Name Water Ref Temp Water Ref Dens Trim Slope Trim Offset Alarm Limit Units Special Unit String Save this curve to a file Load this curve from a file Enable Density Low Enable Density High Ehable Temp Low Enable Temp High Ad...

Page 303: ...etup Generalized Crude or JP4 Generalized Products User Defined TEC Generalized Lubricants Degrees API Reference Temperature is 60 F Kg ms Reference Temp System Weights and Measures Approval Software Rev Totalizer Reset Options Additional configuration options Using ProLink II with the transmitter Configuration and Use Manual 295 ...

Page 304: ...ue Period Minimum Maximum Density Wave form Fixed value Period Minimum Maximum Temperature Wave form Fixed value Period Minimum Maximum Channel Channel A Channel B Type Assignment Power Type Channel C Type Assignment Power Type Using ProLink II with the transmitter 296 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 305: ...e ProLink III manual ProLink III Configuration and Service Tool for Micro Motion Transmitters User Manual In most ProLink III installations the manual is installed with the ProLink III program Additionally the ProLink III manual is available on the Micro Motion documentation CD or the Micro Motion web site www micromotion com ProLink III features and functions ProLink III offers complete transmitt...

Page 306: ...ons Modbus RTU When selecting a connection type consider the following Service port connections use standard connection parameters that are already defined in ProLink III and therefore you do not have to configure them HART Bell 202 connections use standard HART connection parameters that are already defined in ProLink III The only parameter you must configure is the transmitter address Some conne...

Page 307: ...ne of the following RS 232 to RS 485 signal converter USB to RS 485 signal converter An available serial port or USB port Adapters as required for example 9 pin to 25 pin Procedure 1 Attach the signal converter to the serial port or USB port on your PC 2 Access the service port terminals a Remove the transmitter end cap to access the wiring compartment b Loosen the screw on the Warning flap and op...

Page 308: ...n parameters and a standard address You do not need to configure them here 7 Set the PC Port value to the PC COM port that you are using for this connection 8 Click Connect Need help If an error message appears Switch the leads and try again Ensure that you have specified the correct COM port Check the physical connection between the PC and the transmitter C 2 3 Make a HART Bell 202 connection You...

Page 309: ...ls Prerequisites ProLink III installed and licensed on your PC One of the following RS 232 to Bell 202 signal converter USB to Bell 202 signal converter An available serial port or USB port Adapters as required for example 9 pin to 25 pin Procedure 1 Attach the signal converter to the serial port or USB port on your PC 2 To connect directly to the transmitter terminals a Remove the transmitter end...

Page 310: ...ction USB connections are also supported 3 To connect from a point in the local HART loop a Attach the leads from the signal converter to any point in the loop b Add resistance as necessary Important HART Bell 202 connections require a voltage drop of 1 VDC To achieve this add resistance of 250 600 Ω to the connection Using ProLink III with the transmitter 302 Micro Motion Model 2700 Transmitters ...

Page 311: ...pply compartment opened Note This figure shows a serial port connection USB connections are also supported 4 To connect over a HART multidrop network a Attach the leads from the signal converter to any point on the network b Add resistance as necessary Important HART Bell 202 connections require a voltage drop of 1 VDC To achieve this add resistance of 250 600 Ω to the connection Using ProLink III...

Page 312: ... Tips If this is the first time you are connecting to the transmitter use the default address 0 If you are not in a HART multidrop environment the HART polling address is typically left at the default value If you are unsure of the transmitter s address click Poll The program will search the network and return a list of the transmitters that it detects 10 Set the PC Port value to the PC COM port t...

Page 313: ...the transmitter terminals requires opening the wiring compartment and opening the wiring compartment while the transmitter is powered up could cause an explosion To connect to the transmitter in a hazardous environment use a connection method that does not require opening the wiring compartment Prerequisites ProLink III installed and licensed on your PC One of the following RS 232 to RS 485 signal...

Page 314: ...nsmitter with wiring compartment and power supply compartment opened Note This figure shows a serial port connection USB connections are also supported 3 To connect over the RS 485 network a Attach the leads from the signal converter to any point on the network b Add resistance as necessary Using ProLink III with the transmitter 306 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 315: ...o the values configured in the transmitter If your transmitter has not been configured use the default values shown here Default HART RS 485 connection parameters Table C 1 Parameter Default values Protocol HART Baud 1200 Parity Odd Stop Bits 1 Address 0 Tip If you do not know the transmitter s RS 485 communication settings you can connect through the service port which always uses default setting...

Page 316: ...transmitter or to any point on the network CAUTION If the transmitter is in a hazardous area do not connect directly to the transmitter terminals Connecting directly to the transmitter terminals requires opening the wiring compartment and opening the wiring compartment while the transmitter is powered up could cause an explosion To connect to the transmitter in a hazardous environment use a connec...

Page 317: ...gure C 7 A C B A PC B Signal converter C Transmitter with wiring compartment and power supply compartment opened Note This figure shows a serial port connection USB connections are also supported 3 To connect over the RS 485 network a Attach the leads from the signal converter to any point on the network b Add resistance as necessary Using ProLink III with the transmitter Configuration and Use Man...

Page 318: ...itter If your transmitter has not been configured use the default values shown here Default Modbus RS 485 connection parameters Table C 2 Parameter Default value Protocol Modbus RTU Baud 9600 Parity Odd Stop Bits 1 Address 1 Tip If you do not know the transmitter s RS 485 communication settings you can connect through the service port which always uses default settings or use another communication...

Page 319: ...e resistance For long distance communication or if noise from an external source interferes with the signal install 120 Ω W terminating resistors in parallel with the output at both ends of the communication segment Ensure that there is no concurrent Modbus communication to the transmitter C 3 Menu maps for ProLink III Device Tools Main Figure C 9 Using ProLink III with the transmitter Configurati...

Page 320: ...guration with Weights Measures Figure C 10 Configuration Process Measurement with Concentration Measurement Figure C 11 Using ProLink III with the transmitter 312 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 321: ...Configuration Process Measurement with Petroleum Measurement Figure C 12 Configuration I O Figure C 13 Using ProLink III with the transmitter Configuration and Use Manual 313 ...

Page 322: ...Configuration Transmitter Display Figure C 14 Configuration Events Figure C 15 Using ProLink III with the transmitter 314 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 323: ...Configuration Communications Figure C 16 Configuration Informational Parameters Figure C 17 Using ProLink III with the transmitter Configuration and Use Manual 315 ...

Page 324: ...Device Tools Calibration Figure C 18 Calibration Density Calibration Figure C 19 Using ProLink III with the transmitter 316 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 325: ...Calibration Temperature Calibration Figure C 20 Device Tools Configuration Transfer Figure C 21 Using ProLink III with the transmitter Configuration and Use Manual 317 ...

Page 326: ...Diagnostics Testing Figure C 22 Diagnostics Meter Verification Figure C 23 Using ProLink III with the transmitter 318 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 327: ...Device Tools Trending Figure C 24 Using ProLink III with the transmitter Configuration and Use Manual 319 ...

Page 328: ...Using ProLink III with the transmitter 320 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 329: ...nication with HART compatible devices Send configuration data to the device Use the alpha keys to enter information If you are unable to perform these tasks consult the Field Communicator manual before attempting to use the Field Communicator The Field Communicator manual is available on the Micro Motion documentation CD or the Micro Motion web site www micromotion com Device descriptions DDs In o...

Page 330: ...asks You can connect the Field Communicator to the mA terminals on the transmitter to any point in a local HART loop or to any point in a HART multidrop network CAUTION If the transmitter is in a hazardous area do not connect the Field Communicator to the mA terminals on the transmitter This connection requires opening the wiring compartment and opening the wiring compartment in a hazardous area c...

Page 331: ...loop and add resistance as necessary The Field Communicator must be connected across a resistance of 250 600 Ω Field Communicator connection to local HART loop Figure D 2 A B C A Field Communicator B 250 600 Ω resistance C Transmitter with wiring compartment and power supply compartment opened 3 To connect to a point in the HART multidrop network attach the leads from the Field Communicator to any...

Page 332: ...he transmitter The default HART address is 0 However in a multidrop network the HART address has probably been set to a different unique value Postrequisites To navigate to the Online menu choose HART Application Online Most configuration maintenance and troubleshooting tasks are performed from the Online menu Tip You may see messages related to the DD or active alerts Press the appropriate button...

Page 333: ... 2 Alert Setup Service Tools 1 Alerts 2 Variables 3 Trends 4 Maintenance 5 Simulate 2 3 Overview 1 Check Status 2 Primary Purpose Variables 3 Shortcuts 1 On Line Menu Using the Field Communicator with the transmitter Configuration and Use Manual 325 ...

Page 334: ... Flow Rate Density Shortcuts 1 Device Information 2 Totalizer Control 3 Zero Calibration 4 Variables 5 Trends 6 Meter Verification 1 3 2 1 2 3 On Line Menu 1 Overview Device Information 1 Identification 2 Revisions 3 Mat of Construction 4 Licenses 5 Weights and Measures Displayed only if meter verification is enabled Displayed only if the Weights Measures application is enabled Menu numbers are ad...

Page 335: ...ze 2 Measurements 3 Display 4 Inputs Outputs 5 Info Parameters 2 1 Alert Setup 1 I O Fault Actions 2 Alert Severity 3 Discrete Events 4 CM Alerts On Line Menu 1 Configure Using the Field Communicator with the transmitter Configuration and Use Manual 327 ...

Page 336: ...st Mode 6 mA Output Mode 7 Set Up RS 485 Port 5 Display 1 Language 2 Display Variable Menu Features 3 Offline Variable Menu Features 4 Backlight 5 Display Variables 6 Decimal Places 4 Transmitter Info 1 Tag 2 Xmtr Serial Num 3 Message 4 Descriptor 5 Date 6 Write Protect Sensor Information 1 Sensor Type 2 Sensor Serial Num 3 Tube Wetted Mat 4 Tube Lining 5 Sensor Flange 1 2 On Line Menu 2 Configure...

Page 337: ...ty Parameters 1 D1 2 D2 3 DT 4 DTG 5 K1 6 K2 7 FD 8 DFQ1 9 DFQ2 Flow Parameters 1 Flow FCF 2 FTG 3 FFQ Sensor Tag Parameters 1 Flow Parameters 2 Density Parameters Sensor Tag Parameters 1 FlowCal 2 D1 3 D2 4 TC 5 K1 6 K2 7 FD Sensor Type 1 Curved Tube 2 Straight Tube Using the Field Communicator with the transmitter Configuration and Use Manual 329 ...

Page 338: ...ensity Damping 3 Density Cutoff 4 Density Factor 5 Slug Duration 6 Slug Low Limit 7 Slug High Limit Temperature 1 Temperature Unit 2 Temp Damping 1 2 3 6 Special Units 1 Mass Special Units 2 Volume Special Units Displayed only if Volume Flow Type Liquid Menu numbers are adjusted as required Update Rate 1 Update Rate 2 100 Hz Variable 4 Additional options Using the Field Communicator with the trans...

Page 339: ...External Pressure Temperature 1 Pressure 2 Temperature 3 External Polling Petroleum Measurement 1 2540 CTL Table type 2 TEC 3 Ref Temperature 4 Petroleum Msmt Setup GSV 1 Volume Flow Type 2 Gas Ref Density 3 GSV Cutoff 4 GSV Flow Unit 5 Gas Density Unit Conc Measure CM 1 CM Configuration 2 Matrix Configuration 3 Enter Matrix 4 Trim CM Process Variables 5 Reset Matrix Data Displayed only if petrole...

Page 340: ...2 Alert Menu 3 Acknowledge All 4 Offline Passcode 5 Alert Passcode 6 Offline Passcode 1 2 3 5 Display Variables 1 Display Variables 1 5 2 Display Variables 6 10 3 Display Variables 11 15 Decimal Places 1 For Process Variables 2 For Totalizer Variables 3 For Diagnostic Variables 6 Backlight 1 Control 2 Intensity 0 63 4 Displayed only if Auto Scroll is enabled Menu numbers are adjusted as required U...

Page 341: ... Min Span 4 PV LSL 5 PV USL 6 PV MAO Cutoff 7 PV Added Damping FO Settings 1 Third Variable 2 Max Pulse Width 3 FO Polarity FO Fault Parameters 1 Third Variable 2 FO Fault Action 3 FO Fault Level FO Scaling 1 FO Scaling Method 2 TV Frequency Factor 3 TV Rate Factor 4 Set FO Scaling 2 3 1 1 2 3 Options vary depending on FO Scaling Method Additional options Channels 1 Channel A 2 Channel B 3 Channel...

Page 342: ...ddress 2 Tag 3 Device Identification 4 Dev ID CP 5 Set Up Burst Mode 6 mA Output Mode 7 Set Up RS 485 Port Set Up Burst Mode 1 Burst Mode 2 Burst Option 3 Field Device Var 1 4 Field Device Var 2 5 Field Device Var 3 6 Field Device Var 4 Set Up RS 485 Port 1 Protocol 2 Baud Rate 3 Parity 4 Stop Bits 5 Modbus Slave Address 7 5 On Line Menu 2 Configure 1 Manual Setup 4 Inputs Outputs Using the Field ...

Page 343: ... Set Alert Severity 3 View Alert Severity Discrete Events 1 Discrete Event 1 2 Discrete Event 2 3 Discrete Event 3 4 Discrete Event 4 5 Discrete Event 5 6 Assign Discrete Action 7 Read Discrete Action 8 Review Discrete Actions 1 2 3 1 2 3 4 5 Discrete Event x 1 Discrete Event Var 2 Discrete Event Type 3 Setpoint A 4 Setpoint B Using the Field Communicator with the transmitter Configuration and Use...

Page 344: ...ariables 3 Maintenance 1 Routine Maintenance 2 Zero Calibration 3 Density Calibration 4 Temperature Calibration 5 Diagnostic Variables 6 Modbus Data Simulate 1 Simulate Outputs 4 Displayed only if petroleum measurement is enabled on your transmitter Menu numbers are adjusted as required Displayed only if concentration measurement is enabled on your transmitter Menu numbers are adjusted as required...

Page 345: ... 1 2 Mass 1 Mass Flow Rate 2 Mass Total 3 Mass Inventory 4 Reset Total Volume 1 Volume Flow Rate 2 Volume Total 3 Volume Inventory 4 Reset Total 3 Variable Summary Mass Flow Rate Volume Flow Rate Density External Variables 1 External Temperature 2 External Pressure 4 2 If Volume Flow Type GSV GSV variables are displayed Displayed only if petroleum measurement is enabled on your transmitter Menu nu...

Page 346: ...e Flow Rate 3 Net Mass Flow Rate 4 Density at Reference 5 Concentration 6 Density Fixed SG Units 6 8 7 Frequency Output 1 Present Freq Gauge 2 Present Freq Output 1 mA Output 1 Present MAO Gauge 2 PV MAO 3 PV Range 2 Displayed only if petroleum measurement is enabled on your transmitter Menu numbers are adjusted as required Displayed only if concentration measurement is enabled on your transmitter...

Page 347: ...mperature 2 Temp Cal Factor 4 3 Meter Verification 1 Run Meter Verification 2 View Test Results 3 Schedule Meter Verification 2 Displayed only if meter verification is enabled Displayed only if Smart Meter Verification is enabled For earlier versions the Meter Verification Method is launched Additional 1 Core Processor Input Voltage 2 Board Temperature 3 Power On Time 8 Modbus Data 1 Read Modbus D...

Page 348: ...put Loop Test 2 Frequency Output Test Discrete Output Test Options vary depending on Channel settings Simulate Sensor 1 Simulate Primary Purpose Variables 2 Mass Flow Rate 3 Density 4 Temperature 2 Using the Field Communicator with the transmitter 340 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 349: ...values are 1 5 nor mal For gas applications Micro Motion recommends a minimum value of 2 56 Flow calibration factor 1 00005 13 For T Series sensors this value represents the FCF and FT fac tors concatenated Mass flow units g s Mass flow cutoff 0 0 g s Recommended setting is 5 of the sensor s rated maximum flowrate Volume flow type Liquid Volume flow units L s Volume flow cutoff 0 0 L s 0 0 x L s x...

Page 350: ...tion 0 0 sec 0 0 60 0 sec Temperature Temperature damping 4 8 sec 0 0 80 sec User entered value is corrected to nearest lower value in list of preset values Temperature units Deg C Temperature calibration factor 1 00000T0 00 00 Pressure Pressure units PSI Flow factor 0 Density factor 0 Cal pressure 0 T Series sensor D3 0 g cm3 D4 0 g cm3 K3 0 µsec K4 0 µsec FTG 0 FFQ 0 DTG 0 DFQ1 0 DFQ2 0 Special ...

Page 351: ...on parameters USL 200 g s Read only USL is calculated based on the sensor size and characterization parameters MinSpan 0 3 g s Read only Fault action Downscale AO fault level downscale 2 0 mA 1 0 3 6 mA AO fault level upscale 22 mA 21 0 24 0 mA Last measured value timeout 0 00 sec mA output 2 Secondary variable Density LRV 0 00 g cm3 URV 10 00 g cm3 AO cutoff Not A Number AO added damping 0 00000 ...

Page 352: ...ensity 10 000 g cm3 Temperature 450 000 C Drive gain 100 000 Gas standard volume flow rate 423 78SCFM External temperature 450 000 C External pressure 100 000 psi Frequency out put Tertiary variable Mass flow Frequency factor 1 000 00 Hz 0 001 10 000 Hz Flow rate factor 1000 kg min Frequency pulse width 277 0 ms 0 or 0 5 277 5 ms Scaling method Freq Flow Frequency fault action Downscale Frequency ...

Page 353: ...able 6 Temperature Variable 7 Drive gain Variable 8 15 None Display totalizer start stop Disabled Display totalizer reset Disabled Display auto scroll Disabled Display offline menu Enabled Display offline password Disabled Display alarm menu Enabled Display acknowledge all alarms Enabled Offline password 1234 Auto scroll rate 10 sec Digital com munications Fault action None Fault timeout 0 seconds...

Page 354: ...Default values and ranges 346 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 355: ...n the sensor You do not need to install the transmitter separately but you will need to connect power supply and I O wiring Integral installation Figure F 1 Transmitter Sensor High temperature flexible conduit Some high temperature meters come preinstalled with a flexible conduit between the sensor and the transmitter You do not have to connect any wires between the transmitter and the sensor but ...

Page 356: ...flexible conduit 4 wire remote The transmitter is installed remotely from the sensor You need to mount the transmitter separately from the sensor connect a 4 wire cable between the transmitter and sensor and connect power and I O wiring to the transmitter 4 wire remote installation painted aluminum housing Figure F 3 Sensor Core processor Transmitter 4 wire cable Transmitter components and install...

Page 357: ...sor are combined in a single unit that is installed remotely from the sensor You need to mount the transmitter core processor assembly separately from the sensor connect a 9 wire cable between the transmitter core processor and connect power and I O wiring to the transmitter Transmitter components and installation wiring Configuration and Use Manual 349 ...

Page 358: ...ote sensor installation separates all three components transmitter core processor and sensor all of which are installed separately A 4 wire cable connects the transmitter to the core processor and a 9 wire cable connects the core processor to the sensor Transmitter components and installation wiring 350 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 359: ...mitter 4 wire cable 9 wire cable Sensor Junction box F 2 Power supply terminals and ground Power supply wiring terminals Figure F 7 A B C A Warning flap B Equipment ground C Power supply wiring terminals 9 and 10 Transmitter components and installation wiring Configuration and Use Manual 351 ...

Page 360: ...O wiring terminals I O wiring terminals Figure F 8 A B C A mA HART B Frequency output or discrete output C RS 485 Transmitter components and installation wiring 352 Micro Motion Model 2700 Transmitters with Analog Outputs ...

Page 361: ...safe transmitter option Added support to configure the process variable units for mass flow volume flow density and temperature from the display Added support for assigning process variables to the mA and frequency output from the display Adjustment Clarified the interaction of the digital fault set ting and the fault timeout last measured value timeout Feature Drive gain can be assigned to mA out...

Page 362: ...nsfer option added to Configurable I O option board HART polling for external pressure temperature added 06 2003 4 x Expansion Added support for the Model 1500 transmitter 20000325 C 20000150 C 3600647 C 20000148 B 20001715 A Additional variables displayed by the Model 1700 transmitter Adjustment Improved the handling of certain alarm condi tions Clarified the behavior of certain Modbus calibra ti...

Page 363: ...y transfer application for inde pendent implementation of NTEP and OIML compliance Adjustment Display improvements for floating point data Feature Configurable alarm severity Gas standard volume functionality Meter verification availability as an option Multiple display language selections 09 2009 6 x Expansion Frequency output configurable as discrete out put on Series 1000 transmitters 20001715 ...

Page 364: ...ay variables set to a volume process varia ble automatically switch between liquid and GSV according to current setting of Volume Flow Type Feature Configurable hysteresis for flow switch Field Verification Zero added to support Weights Measures application Transmitter firmware checksum and core pro cessor firmware checksum assignable as display variables and viewable in ProLink II NE 53 history 3...

Page 365: ...ation parameters See characterizing calibration pressure See pressure compensation channel configuration 99 characterizing density parameters 12 flow calibration parameters 13 parameters on sensor tags 10 procedure 10 communications See digital communications protocols 3 communications tools 3 concentration measurement application configuring using ProLink II 58 using ProLink III 61 using the Fiel...

Page 366: ...e calibration density density factor See pressure compensation density measurement configuring 45 cutoff configuring 50 effect on volume measurement 50 damping effect on volume measurement 49 interaction with added damping 50 measurement units configuring 46 options 46 meter factor 192 slug flow configuring 47 transmitter behavior 48 troubleshooting 238 troubleshooting 222 derived variable See con...

Page 367: ...g basic events 121 configuring enhanced events 121 Enhanced Event Action configuring 121 options 123 event models 120 exponential notation See display exponential notation F Fault Action affected by Fault Timeout 90 digital communications 131 discrete outputs 119 frequency outputs 113 mA outputs 107 Fault Timeout configuring 90 effect on Fault Action 90 Field Communicator connecting to the transmi...

Page 368: ...nals 352 informational parameters 94 installation types 4 wire remote 347 9 wire remote 347 high temperature flexible conduit 347 integral 347 remote core processor with remote transmitter 347 inventories resetting 161 starting and stopping 158 L language for display 77 Last Measured Value Timeout See Fault Timeout LD Optimization 194 196 197 LED See status LED local display See display Local Oper...

Page 369: ... verification See Smart Meter Verification metrological security See Weights Measures application Modbus Additional Communications Response Delay 130 address 130 configuring Modbus RS 485 digital communications 130 Floating Point Byte Order 130 model code 3 N National Type Evaluation Program NTEP See Weights Measures application O off line menu See display optical switches 252 Organization of Lega...

Page 370: ...9 startup connection 9 connection types 298 connnecting to the transmitter 298 menu maps 311 overview 297 298 requirements 297 298 protocols 3 proving See meter validation pulse width 112 Q quaternary variable QV 126 R radio frequency interference RFI troubleshooting 234 Rate Factor 111 reference density See standard density refresh rate display 80 Response Time 89 S safety messages ii scaling fre...

Page 371: ...loop testing using ProLink II 230 231 using the display 228 using the Field Communicator 233 system testing using ProLink II 135 using the Field Communicator 135 Thermal Expansion Coefficient TEC 53 totalizers displaying values and Weights Measures application 164 resetting enabling display function 83 options for Weights Measures application 140 143 performing action 160 starting and stopping ena...

Page 372: ... 140 process data NTEP 164 OIML 164 regulatory agencies 139 replacing the core processor 171 sealing 140 143 secured vs unsecured 139 security types 139 setting up using ProLink II 140 using ProLink III 143 Status Alarm A027 Security Breach 139 170 switching modes using ProLink II 169 using ProLink III 169 using the switching utility 170 totalizer reset options 140 143 wiring ground 351 grounding ...

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Page 374: ...ingapore T 65 6777 8211 F 65 6770 8003 Micro Motion United Kingdom Emerson Process Management Limited Horsfield Way Bredbury Industrial Estate Stockport SK6 2SU U K T 44 0870 240 1978 F 44 0800 966 181 Micro Motion Japan Emerson Process Management 1 2 5 Higashi Shinagawa Shinagawa ku Tokyo 140 0002 Japan T 81 3 5769 6803 F 81 3 5769 6844 2012 Micro Motion Inc All rights reserved The Emerson logo i...

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Summary of Contents for MICRO MOTION 2700

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Summary of Contents for MICRO MOTION 2700

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