DensityPRO with Foundation Fieldbus
Contents
1. Parameter Type R W Description ALARM STATUS FLAGS 1 ASF R Alarm and status flag set 1 Bit 0 Unused Bit 16 Process Alarm 1 Bit 1 Unused Bit 17 Process Alarm 2 Bit 2 Standardization mode Bit 18 Process Alarm 3 active Bit 3 Calibration mode active Bit 19 Process Alarm 4 Bit 4 lump mode active Bit 20 Process Alarm 5 Bit 5 Unused Bit 21 Process Alarm 6 Bit 6 scan mode Bit 22 Process Alarm 7 Bit 7 X Ray Safeguard Active Bit 23 Process Alarm 8 Bit 8 CAL Cycle aborted Bit 24 Process Alarm 9 Bit 9 FIFO Full Bit 25 Process Alarm 10 Bit 10 Current over max or under Bit 26 Process Alarm 11 min Bit 11 Power has been off Bit 27 Process Alarm 12 Bit 12 Hold s are active Bit 28 Process Alarm 13 Bit 13 Alternate time constant Bit 29 Process Alarm 14 active Bit 14 Output on alternate Bit 30 Process Alarm 15 measurement Bit 15 Keypad in use Bit 31 Process Alarm 16 ALARM STATUS FLAGS 2 ASF Alarm and status flag set 2 Bit 0 Safeguard Mode Armed Bit 16 Current output under min Bit 1 Unused Bit 17 RAM Memory Error Bit 2 Sensor Under Range Bit 18 PROM Checksum Error Bit 3 Sensor Over Range Bit 19 Protected memory checksum error Bit 4 No STD since last power Bit 20 Primary me2. Ba loopTime tsec Stale Limt 1 401 5 QE BLOCK ANALDG_INPUT1 interface0 0 100073 AI Network Parameters The Analog Input Al block takes Schedule the manufacturer s input data Function Application selected by channel number and makes it available to other interface0 0 function blocks at output DensityPRO 1 113085100079 RESOURCE 085100079 RB2 Block help Double click right AI TRANSDUCER 7 085100079 etonu eders block ANAL INPUT a parameters ace can eq Spa pang ye be used to tag the block and to ANALOG alter parameters in the block ANALOG INPUT3 085100079 AI ANALOG INPUT4 085100079 lt gt read data object success a PARAMETER LO_LO_ALM read data object success 08 03 11 LINK interface0 0 is currently idle 08 03 12 Status Download Enos Assignment Live Ust Ready Figure 3 5 FBAP grid opens in the middle frame 07 06 10 08 43 09 The Help Window help window displays the help information available for a particular object or parameter Move the cursor over any object in the configuration tree and the help for that object will be displayed Help is also displayed for block parameters when you click on them 3 6 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific The NI FBUS Configurator Configurator Interface NI FBUS Confi
3. 3 00000 Primary Measurement Density 1 Density 2 Solids content vol 3 Carrier content vol Solids carrier by weight solids by weight carrier by volume solids by volume carrier 4 5 6 7 8 x Figure 4 1 Example of primary measurement types 7 Structural Units Select the desired units for the inside diameter of the process pipe 8 Pipe Inside Diameter Enter the inside diameter of the pipe 9 Meas 1 Reading for 20 mA Output Enter the primary measurement value that represents the maximum current output 10 Meas 1 Reading for 4 mA Output Enter the primary measurement value that represents the minimum current output 11 Density setup is complete DensityPRO with FOUNDATION fieldbus Application Guide 4 3 DensityPRO Setup Time Constants Time Constants Temperature Compensation Setup To set the primary and alternate time constants using the NI FBUS Configurator Go to AI TRANSDUCER gt Root Menu gt 1 Setup gt 2 Time Constant gt Time constant setup Remove the loop from automatic control as prompted Primary Time Constant value Set the primary time constant Alternate Time Constant value Set the alternate time constant Current Time Constant Enter 1 to use the primary time constant or 2 to use the alternate Time constant setup is complete If temperature compensation is required access the Temp Compensation Setup menu Setup consists of the
4. DensityPRO With FOUNDATION Fieldbus Application Guide P N 717917 Revision A 2010 Thermo Fisher Scientific Inc All rights reserved FOUNDATION fieldbus and Fieldbus Foundation are registered trademarks of Fieldbus Foundation FOUNDATION National Instruments is a registered trademark of National Instruments Corporation Windows is a registered trademark of Microsoft Corporation in the United States and or other countries All other trademarks are the property of Thermo Fisher Scientific Inc and its subsidiaries Thermo Fisher Scientific Inc Thermo Fisher makes every effort to ensure the accuracy and completeness of this manual However we cannot be responsible for errors omissions or any loss of data as the result of errors or omissions Thermo Fisher reserves the right to make changes to the manual or improvements to the product at any time without notice The material in this manual is proprietary and cannot be reproduced in any form without expressed written consent from Thermo Fisher This page intentionally left blank Revision History Revision Level Date Comments A 08 10 Initial release ERO 7489 Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide v This page intentionally left blank Chapter 1 Chapter 2 Chapter 3 Chapter 4 Thermo Fisher Scientific Contents Safety Information amp Guidelines 22
5. of x sec time constant x CAL Density Value X XXX NOTE Loop may be Standardization returned to Data Cycle has been automatic control completed Figure E 8 Standardization E 6 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific 3 Gauge Calibration Cal Cycle time CAL Density value of x sec time X XXX 0 Not used constant x 2 Manual entry Start calibration cycle 1 Exit 2 Start cycle Temperature Input Source DD Flow Blocks WARNING This function can affect device output Loop should be removed from automatic control Process temperature 1 100 ohm American RTD learned during CAL XX XX CAL 1 Temperature CAL XX XX Use Latest CAL Value for CAL point 1 1 Skip 2 Execute Gauge Calibration Cycle Time Remaining xxs Click Next to update CAL STD ratio from latest X XXX Use Latest CAL Value for CAL point 1 1 Skip 2 Execute Figure E 9 Calibration Thermo Fisher Scientific Attenuation Coef of Carrier X XXX Attenuation Coef of Solid X XXX STD mode CAL cycle NOTE Loop may be returned to automatic control DensityPRO with FOUNDATION fieldbus Application Guide 7 DD Flow Blocks WARNING This function Alarm Setup can affect device output Loop should be removed from automatic control Select alarm number Alarm set point Alarm clear mode to set up 1 8 X XXX 1 Clear Point 2 D
6. Restart without power cycling Restart the system without cycling power Erase all alarm action assignments Erase entries for alarm assignments to relays current output etc Start standardization Begin a standardization cycle Hold current output at FAULT LOW Hold the current output at the FAULT LOW level Switch current out to alt pri mode Switch the current output to alternate primary mode Abort standardization Stop the currently running standardization cycle Erase protected NVRAM Erase NVRAM Refresh 0 2 DensityPRO with FOUNDATION fieldbus Application Guide Refresh the data in the fieldbus interface Thermo Fisher Scientific Appendix DD Flow Blocks The DensityPRO with FOUNDATION fieldbus DD is designed to offer access to the gauge s process data and basic setup functions The DD menu flow blocks are provided in this appendix Note Text in blue indicates user entered data or selections A Root Menu 1 Setup 3 Calibration Standardization Figure 1 Root menu 1 Density Setup 2 Time Constant 3 Temp 4 Other meas 5 View other meas Compensation assign amp modify Setup Figure 2 Setup menu Thermo Fisher Scientific DensityPRO with FOUNDATION Fieldbus Application Guide 1 DD Flow Blocks WARNING This function can affect device output Loop should be removed from automatic control Carrier Gravity Solids Gravi
7. 3 Gauge Calibration GAUGE CALIBRATION 4 Alarm Alarm Setup 5 Actions 1 System Restart System Restart 2 Erase All Entries Erase All Entries 3 Clear All Alarms Clear All Alarms 4 Clear All Holds Clear All Holds 6 Diag Service 1 Current Output Current output setup 2 Loop Test Loop test 3 Trim Analog Output Trim analog output 3 10 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific Menu Level 1 The NI FBUS Configurator Configurator Basics Menu Level 2 Menu Level 3 6 Diag Service cont 4 Device Status Device status 5 Al_Transducer Parameters All parameters related to the instrument Following is an example of how to use the menus 1 Go to AI TRANSDUCER gt Root Menu gt 5 Actions gt 4 Clear All Holds gt Clear All Holds 2 The Clear All Holds screen will appear under the Methods tab Click Next or press Enter when you are ready to continue The configurator will display that the task has been completed DensityPRO 085100079 AI TRAN EBR Apply Values Root Menu 1500 EB Sea BM E33 r j DOS Auto Process 1 0 Config Alarms Diagnostics Trends Others Methods Clear all Holds Varning This function can affect the device output Loop should be removed from automatic control Next_ Abort DensityPRO _ 085100079 Al TRAN BR Apply Values Root Menu fA_TRaNSOUCER i 285 m m Periodic Upda
8. Thermo Fisher Scientific DensityPRO with FOUNDATION Fieldbus Application Guide 1 Specifications Approvals Model 9720A FMRC approved explosion proof in Class Div 1 Groups B C and D Class Il Div 1 Groups E F and G suitable for Class Ill Div 1 hazardous locations indoor and outdoor NEMA 4 CSA approved explosion proof in Class Div 1 Groups and D Class Il Div 1 Groups E F and G suitable for Class Ill Div 1 hazardous locations indoor and outdoor CSA ENCL 4 Power 115 230 Vac 10 50 60 Hz or 24 Vde Operating temperature 40 10 60 C 40 F to 140 F ambient Table 4 Outputs Inputs Current outputs Standard 4 20 mA isolated loop powered into 700 ohms field scalable Optional 4 20 mA isolated self powered into 700 ohms field scalable Serial outputs RS485 half duplex 5232 full duplex Fieldbus A Device Description DD for the E DensityPRO is available from the Fieldbus Foundation website The DD is a DD4 that is interpreted by a host implementing DD FOUNDATION Services 4 x or higher Contact closure outputs 2X 115 Vac 28 Vde SPDT at 10 amps 230 Vac SPDT at8 amps Inputs Flowmeter 4 20 mA linear Dry contact closure Table 5 Mounting Hardware Gamma ray source Integral bolt on bracket compatible with chain or saddle mount Integrated transmitter detector Single or dual chain un
9. The measurement type for measurement 3 If the material type is slurry 0 inactive 14 solids volume flow 13 bulk volume flow 15 carrier volume flow If the material type is solution 0 inactive 14 solute volume flow 13 bulk volume flow 15 solvent volume flow If the material type is single phase 0 inactive 13 bulk volume flow If the material type is emulsion 0 inactive 14 fluid 2 volume flow 13 bulk volume flow 15 fluid_1 volume flow MEA3_ READOUT 5 R The value of measurement 3 MEA4 READ CON R W The measurement type for measurement 4 If the material type is slurry 0 inactive 12 carrier mass flow 10 bulk mass flow 16 bulk solids flow 11 solids mass flow If the material type is solution 0 inactive 12 solvent mass flow 10 bulk mass flow 16 bulk solute flow 11 solute mass flow If the material type is single phase 0 inactive 10 bulk mass flow If the material type is emulsion 0 inactive 11 fluid 2 mass flow 10 bulk mass flow 12 fluid 1 mass flow MEA4 READOUT S R The value of measurement 4 MEASURET1 AT IOUT CON R W The measurement 1 value that represents the maximum current output MEASURE1 AT MIN IOUT CON R W The measurement 1 value that represents the minimum current output MEASURE2 AT 1007 CON R W The measurement 2 value that represents the maximum current output MEASURE2 AT MIN IOUT CON R W The measurement 2 value that represents the minimum
10. Alarm Setup 7 Alarm x set action Select the action used to indicate that the alarm has been triggered 8 Alarm setup is complete and the loop can be returned to automatic control 6 2 DensityPRO with FoOUNDATION fieldbus Application Guide Thermo Fisher Scientific Chapter 7 Actions The Actions menu provides access to frequently used commands The commands are listed below e System Restart Restarts the system erasing temporary memory User entered setup data is not affected e Erase All Entries Erases previously entered set up data All settings except for the serial communication settings are reset to factory defaults e Clear All Alarms Acknowledges clears and resets all alarms Alarm actions are cleared but the setups are not affected Alarms actions are re established when the alarms activates again e Clear All Holds Clears all holds currently in effect Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide 1 1 This page intentionally left blank Current Output Thermo Fisher Scientific Chapter 8 Diagnostics This chapter provides on the Diag Service menu in the NI FBUS Configurator root menu The Diag Service menu provides access to the Current Output Loop Test Trim Analog Output Device Status and AI Transducer Parameters items Note If you are not using the NI FBUS Configurator reference the documentation that came with your host system Note This chapter
11. Follow this procedure to perform standardization 1 Put the gauge head and pipe in one of the following standard configurations Use the exact same standard configuration every time you standardize a Pipe full of carrier b Pipe empty c Pipe full of process 2 Open the source shutter 3 In the NI FBUS Configurator go to AI TRANSDUCER gt Root Menu 2 Standardization Standardization 4 When prompted remove the loop from automatic control DensityPRO with FOUNDATION fieldbus Application Guide 5 1 Standardization amp Calibration Perform Calibration Perform Calibration Std Cycle Time Specify the number of time constant periods used for the standardization If the time constant is 128 seconds and you enter 2 here the standardization cycle will last 256 seconds 2 x 128 seconds Standardization on Enter the number that describes how the standardization will be performed on a pipe full of carrier 1 an empty pipe 2 or a pipe full of process 3 Start Data Cycle Enter 1 to start standardization Once standardization begins the time remaining will be displayed You can interrupt the cycle at any time by clicking Abort When the time remaining is 0 seconds click Next two times The software will display that the cycle has been completed Click Write Changes The steps below describe how to calibrate the gauge If necessary set up the gauge Standardize according to Perform Standardi
12. Thermo Fisher Scientific Appendix Specifications Results may vary under different operating conditions Table B 1 Performance specifications System performance From 0 0001 gm cc depending on application Table B 2 Gamma ray source Source type Cs 137 or Co 60 both stainless steel doubly encapsulated Size 10 10 000 mCi Cs 137 or 1 000 3 000 mCi Co 60 Source housing Carbon steel or stainless steel lead filled polyurethane painted Two position shutter locks in OFF closed position Table B 3 Integrated transmitter detector System architecture Multiprocessor based electronics provides uninterrupted output during data entry and system interrogation Surface mount technology provides high degree of reliability All user data is doubly stored in non volatile memory with no battery backup required Detection type PVT plastic scintillator with wide dynamic range PVT resists shock and moisture damage Detector stabilization Electronic control without heater stabilization for optimum performance Enclosure construction Carbon steel polyurethane painted Approvals Model 9719 FMRC approved dust ignition proof in Class Il Div 1 Groups E F and G suitable for Class Div 1 hazardous locations indoor and outdoor NEMA 4 CSA approved dust ignition proof in Class Il Div 1 Groups E F and G suitable for Class Ill Div 1 hazardous locations indoor and outdoor CSA ENCL 4
13. which may result in equipment damage if not carefully observed or followed Note Notes emphasize important or essential information or a statement of company policy regarding an operating procedure practice condition etc x DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific Introduction Fieldbus Overview Thermo Fisher Scientific Chapter 1 Product Overview The Thermo Scientific DensityPRO is designed to provide reliable and accurate measurements of process material density for a variety of challenging applications With FOUNDATION fieldbus the gauge also provides users with access to control or program parameters via a host system Note This guide contains information specific to applications using the DensityPRO with FOUNDATION fieldbus For information on the standard DensityPRO reference the DensityPRO user guide P N 717784 Fieldbus is an all digital communication system between devices on the bus The DensityPRO with FOUNDATION fieldbus provides the following e Execution of control functions algorithms in the actual device e Device registration with the Fieldbus Foundation ensuring compatibility with the devices of other systems e Ability to configure using device specific device description DD e Ability to send data directly between devices Note This manual assumes a working knowledge of FOUNDATION fieldbus terminology and practices For additional informa
14. 1 to FAULT HIGH 2 Control relay 2 SET POINT The process level at which the alarm will activate CLR MODE Select a clear point clr point or dead band deadband to clear the alarm 0 clr point 1 deadband POINT Enter clear point or dead band value DEADBAND Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide C 5 DensityPRO Specific Parameters ALARME Parameter Type R W Description ALARM5 ALM R W Setup alarm triggering point clear point and gauge actions when alarm happens for ALARMS Sub parameter Description ACTION Select the action used to indicate that the alarm has been triggered 0 Nothing 3 Output 1 to FAULT LOW 1 Control relay 1 5 Output 1 to FAULT HIGH 2 Control relay 2 SET_POINT The process level at which the alarm will activate CLR_MODE Select a clear point clr point or dead band deadband to clear the alarm 0 clr point 1 deadband CLR_POINT_ Enter clear point or dead band value DEADBAND ALARM6 ALM R W Setup alarm triggering point clear point and gauge actions when alarm happens for Sub parameter Description ACTION Select the action used to indicate that the alarm has been triggered 0 Nothing 3 Output 1 to FAULT LOW 1 Control relay 1 5 Output 1 to FAULT HIGH 2 Control relay 2 SET POINT The process level at which the alarm wil
15. 2 cde 9 2 Ordering Information 2 222 A 1 1 DensityPRO Specific Parameters 22222 C 1 DensityPRO 5 222 D 1 DD Flow ug 1 GLOSS diy GLOSSARY 1 FID INDEX 1 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific Safety Considerations Warnings Cautions amp Notes AA Thermo Fisher Scientific Safety Information amp Guidelines his section contains information that must be read and understood all y persons installing using or maintaining this equipment Failure to follow appropriate safety procedures or inappropriate use of the equipment described in this manual can lead to equipment damage or injury to personnel Any person working with or on the equipment described in this manual is required to evaluate all functions and operations for potential safety hazards before commencing work Appropriate precautions must be taken as necessary to prevent potential damage to equipment or injury to personnel The information in this manual is designed to aid personnel to correctly and safely install operate and or maintain the system described however personnel are still responsible for considering all actions and procedures for potential hazards or conditions
16. 7 Bad XRAY Threshold Bit 23 Unused Bit 8 MSG over run Bit 24 Unused Bit 9 Gain not yet stable Bit 25 Unused Bit 10 NV tot Fault Bit 26 Unused Bit 11 Cal Pt Pending Bit 27 Unused Bit 12 HV unstable Bit 28 IOUT Hold Bit 13 FBUFFER overrun Bit 29 IOUT Hold at min Bit 14 NV data changed Bit 30 IOUT Hold at max Bit 15 Unused Bit 31 IOUT Hold at other Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide 3 DensityPRO Specific Parameters 2 Parameter Type R W Description ALARM1 ALM R W Set up alarm triggering point clear point and gauge actions when alarm happens for Sub parameter Description ACTION Select the action used to indicate that the alarm has been triggered 0 Nothing 3 Output 1 to FAULT LOW 1 Control relay 1 5 Output 1 to FAULT HIGH 2 Control relay 2 SET_POINT The process level at which the alarm will activate CLR_MODE Select a clear point clr point or dead band deadband to clear the alarm 0 clr point 1 deadband CLR_POINT_ Enter clear point or dead band value DEADBAND ALARM2 ALM R W Set up alarm triggering point clear point and gauge actions when alarm happens for Sub parameter Description ACTION Select the action used to indicate that the alarm has been trig
17. Dares Ea eger Ue a Ready LINK interface0 0 is currently idle success a 20 28 success 13 0 29 13 2 2 2j 06 11 10 13 21 01 Figure 3 11 DensityPRO Al block on the FBAP grid 3 14 DensityPRO with FOUNDATION fieldbus Application Guide 3 Click on the AO block of the other device and drag it to the FBAP grid Connect the OUT of the DensityPRO AI block to the CAS IN of the other device s AO block To do this click the Wiring Tool icon on the FBAP toolbar Click on the OUT terminal of the AI block and then click on the CAS IN terminal of the AO block Note An alternative to wiring blocks together is to use one of the templates provided by the NI FBUS Configurator Reference the NI FBUS Configurator user manual for more information Additional information on the FBAP tools can also be found in the configurator manual 5 Check the execution schedule Loop Time and make necessary adjustments Repeat this process for each loop you want to make Upon completion you can see the schedule in its entirety view execution order of all the loops through the Schedule object in the configuration tree For more information on the Schedule object reference the configurator user manual Thermo Fisher Scientific The NI FBUS Configurator Configurator Basics 7 Now you are ready to download the configuration Saving amp After setting block parameters creating a block diagram and schedule and Downloadin
18. When prompted remove the loop from automatic control Select measurement You can configure three measurements in addition to the primary measurement Enter which measurement you want to configure or modify Reading represented by measurement Select the readout type for the measurement Unit selection Time selection Select the unit and or time unit as required Reading for high end low end values Enter the values that represent the highest and lowest measurement readings Measurement configuration modification is complete The loop may be returned to automatic control The View other meas item allows you to view other configured measurements and their current value 4 6 DensityPRO with FOUNDATIONT M fieldbus Application Guide Thermo Fisher Scientific Perform Standardization Thermo Fisher Scientific Chapter 5 Standardization amp Calibration This chapter provides an overview on how to use the NI FBUS Configurator menus to standardize and calibrate the DensityPRO Note This chapter provides setup instructions using the NI FBUS Configurator menus as this is the preferred way to configure the instrument Move from one step to the next in the configurator method window by clicking Next or pressing Enter If your host does not support menus reference Appendix for a list of DensityPRO parameters Note For detailed discussion on standardization and calibration reference the DensityPRO user guide P N 717784
19. band deadband to clear the alarm 0 clr point 1 deadband CLR POINT Enter clear point or dead band value DEADBAND BAD FLAGS 1 BF R Bad flags set 1 Bit 0 Bad entry values see details Bit 16 Invalid Density Slope in setup Bit 1 No bad data detected Bit 17 Unit has not been standardized Bit 2 No Bad Entries Bit 18 How Temp use same A D Chan Bit 3 Solution Polynomial failed Bit 19 Unit address 32 Bit 4 Meas 1 is not Density Bit 20 Unused Bit Meas Select code includes Bit 21 Unused flow Bit 6 Cal den value is not realistic Bit 22 Number of Break Points 16 Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide 6 7 DensityPRO Specific Parameters Parameter Type R W Description BAD FLAGS 1 cont BF R Bad flags set 1 Bit 7 1 Cal Std ratio value too Bit 23 Data Testing suspended low Bit 8 1 Cal Std ratio too high Bit 24 Max flow required but not entered Bit 9 Pipe ID value too low Bit 25 Unused Bit 10 Standardization detector Bit 26 Unused count too low Bit 11 Cal value too low Bit 27 Unused Bit 12 2 Cal Std ratio value too Bit 28 Unused low Bit 13 2 Cal Std ratio value too Bit 29 Window Code must be greater than hi 0 Bit 14 Invalid ST
20. current output MEASURE3 AT IOUT CON R W The measurement 3 value that represents the maximum current output MEASURE3 AT MIN IOUT CON R W The measurement 3 value that represents the minimum current output MEASURE4 MAX IOUT CON R W The measurement 4 value that represents the maximum current output DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific DensityPRO Specific Parameters Parameter Type R W Description MEASURE4_AT_MIN_IOUT CON R W The measurement 4 value that represents the minimum current output MIN IOUT VALUE CON R W The minimum current output in mA 3 80 to 20 0 mA NUM MEASUREMENT 5 R The number of active measurements NUMBER_OF_RELAYS 5 R The number of relays available PIPE_INSIDE_DIAMETER CON R W The inside diameter of the process pipe PRIMARY_MEASURE_TYPE CON R W The primary measurement type If the material type is slurry 1 density 6 by weight solids 3 solids content vol 7 by weight carrier 4 carrier content vol 8 by volume solids 5 solids carrier 9 by volume carrier If the material type is solution 1 density 6 by weight solute 2 bulk density 7 by weight solvent 3 solute content vol 8 by volume solute 4 solvent content vol 9 by volume solvent 5 solute solvent If the material type
21. following steps Go to AI TRANSDUCER gt Root Menu gt Setup gt 3 Temperature Comp Setup gt Temp Compensation Setup Remove the loop from automatic control Temp Input Source Select the source of the temperature input signal Temp hold constant Enter the temperature hold constant if you selected Manual entry above Temperature comp polynomial Choose a user defined or predefined temperature compensation polynomial The gauge uses polynomial equations to compute the change in density of the process material s as a function of the change in temperature relative to the reference temperature If you select user defined temperature compensation polynomials are defined based on the material type selected 4 4 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific Thermo Fisher Scientific 10 11 12 DensityPRO Setup Temperature Compensation Setup Ref Temperature Enter the reference temperature The gauge performs all of its temperature compensation calculations relative to the reference temperature Ref Density The density of a material at the reference temperature is called its reference density The density values specified in the Density Setup menu are used For example the carrier gravity and the solids gravity values are used when the material type is slurry Coefficients A B C for equation 1 If you selected user defined polynomials enter three coefficients A B C for equa
22. is single phase 1 density If the material type is emulsion 1 density 6 by weight fluid 2 3 fluid 2 content vol 7 by weight fluid 1 4 fluid 1 content vol 8 96 by volume fluid 2 5 fluid 2 fluid 1 9 by volume fluid 1 PROCESS TEMP LEARNED CAL R W The process temperature learned during the calibration cycle AT CAL REFERENCE DENSITY CON R W The material density at the reference temperature REFERENCE TEMPERATURE CON R W The temperature used by the gauge for temperature compensation calculations RELAY1 ALM MODE CON R W The alarm mode for relay 1 0 energize when alarm occurs 1 deenergize when alarm occurs RELAY1 LATCH MODE CON R W The latching mode for relay 1 0 disable latching mode 1 enable latching mode RELAY2_ALM_MODE CON R W The alarm mode for relay 2 0 energize when alarm occurs 1 deenergize when alarm occurs RELAY2 LATCH MODE CON R W The latching mode for relay 2 0 disable latching mode 1 enable latching mode Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide 13 DensityPRO Specific Parameters Parameter Type R W Description SIZE_UNIT CON R W The units used to specify the pipe ID 12cm 4 ft 2 mm 5 yd 3 in SOLID ATTEN COEF CAL R W The solids attenuation coefficien
23. vol 5 Fluid2 Fluid1 6 96 by weight Fluid2 7 by weight Fluid 8 by volume Fluid2 9 by volume Fluid1 Density unit 1 g ml 2 b US gal 3 Ib UK gal 4 b cu ft 5 ston cu yd 6 Iton cu yd 7 g l Meas 1 Reading for 20 mA Output X XXX X XXX Meas 1 Reading for 4 mA Output 8 oz cu in 9 Ib cu in 10 g cu in 11 Ib cu yd 13 deg API 14 deg Baum It 15 deg Baum hv NOTE Loop may be returned to automatic control Thermo Fisher Scientific DD Flow Blocks 2 Time Constant Root Menu Time constant setup WARNING This function can affect device output Loop should be removed from automatic control Primary Time Constant Alternate Time Constant Current Time Constant Value Value 1 Primary TC 2 Alternate TC NOTE Loop may be returned to automatic control Figure 4 Time constant setup Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide 3 DD Flow Blocks 3 Temp Temperature Comp 1 WARNING This function can affect device output Loop should be removed from automatic control Carrier temp comp polynomial eq 1 0 User defined 1 H20 90 C REF 20 Solid temp comp polynomial eq 2 0 User defined Ref Temperature Ref Density for solid temp poly X XX Temp comp equation eq 2 Coefficient A X XX Temperature Input Source 0 Not used Temp hold constant 1 100 ohm American RTD Xxx 2 Manual entry Re
24. 0 1 DensityPRO commands Command Description Ready The interface is ready for the next command Hold current output Hold the current output at the current output hold value Clear all alarms Acknowledges clear and reset all alarms Start CAL cycle Begin a calibration cycle Hold current output at maximum setting Hold the current output at the maximum output value Hold current output at minimum setting Hold the current output at the minimum output value Clear ALL holds Clear all holds that are currently active Hold density at density hold mode value Hold the density at the density hold mode value Hold current output at FAULT HIGH Hold the current output at the FAULT HIGH level Start system test Causes the unit to test the various types of memory the data integrity and the signal processor The system performs an automatic test and verification function every 10 minutes and all user entered data is double stored and periodically cross checked Errors are automatically corrected and an alarm is activated when an error is detected Use latest CAL value for CAL point 1 Use the latest CAL value as CAL point 1 Select alternate time constant Switch to the alternate time constant TC_ALTERNATE Select primary time constant Switch to the primary time constant TC_PRIMARY Erase all entries EVERYTHING Erase all configured data
25. 1 enable xray safeguard XRAY_THRESHOLD CON R W The xray safeguard threshold Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide 15 This page intentionally left blank Thermo Fisher Scientific Appendix D DensityPRO Commands 085100079 Al TRA jAI TRANSDUCER Periodic Updates 2 sec 005 Auto Process 1 0 Config Alama Diagnostics Trends Others Methods Note If you are not using the NI FBUS Configurator reference the documentation that came with your host system In the NI FBUS Configurator open the AL TRANSDUCER block and click the Others tab Click on DPRO_CMD to view the list of available commands To execute a command select it from the drop down list and click Write Changes gt COUNTDOWN_TIMER Hold current output Clear all alarms IOUT MAX CORRECTION Restart lt Start Standardization Figure 0 1 Drop down list for the DPRO_CMD parameter Descriptions of the commands are provided in the following table DensityPRO with FOUNDATION Fieldbus Application Guide Parameter Value L TRANSDUCER DIRECTORY m E COLLECTION_DIRECTORY COLLECTION_DIRECTORY c LEVEL AT MIN IOUT Start CAL cycle ka LEVEL AT MAX IDUT MIN_IOUT_VALUE MAX_JOUT_VALUE 1007 MIN CORRECTION D 1 DensityPRO Commands Table
26. 22 ix Safety Considerations ices ix Warnings Cautions amp Notes set tdt entes enatibus Eti ve one tud ix Product DVervi eW T aeiiae anaiai 1 1 INET OC enn 1 1 Fieldbus Overviews edis eec ea 1 1 Linksa d Deyices cscs seals ec ees queda eue ecd 1 2 1 2 Inputs Be Ou u u 1 3 Using this Application Guide dia edat 1 4 Associated Documentation 1 4 Wiring amp Connections u u 2 1 The NI FBUS Configurator u u eene 3 1 Install the Device Description ite asss 3 1 Configurator Startups Sedes tm toc esis 3 2 Configurator Minter ace ss a la 3 4 The Configuration Tree amp Object Menus oe ere ee 3 5 The Middle ttn tasted ems 3 5 The Help WindoW esce ect tbe 3 6 WIN AO Wi c aa aqna aa eat vate decret 3 7 Configurator diste aec ba desti ica Gai SS 3 8 iis diuo RE 3 9 Using Menus amp Methods uci er ertet etr ei 3 10 Directly Editing Parameters cse 3 12 Updating Parameters a e pete 3 13 Functi
27. 7904 e National Instruments NI FBUS Configurator user manual if using the NI FBUS Configurator as the host system or documentation supplied with your host 1 4 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific Thermo Fisher Scientific Chapter 2 Wiring amp Connections Note This chapter provides wiring details for fieldbus operation It is assumed that the instrument has already been installed refer to the DensityPRO installation guide The fieldbus connector is accessible from the faceplate of the DensityPRO pee Td o ege Dee Huj ig Figure 2 1 Signals on the DensityPRO FOUNDATION fieldbus connector The only connections required for operation are to the H1 bus Table 2 1 H1 bus to DensityPRO fieldbus connector DensityPRO Fieldbus Connector FFB FP Positive lead Negative lead FFB FN H1 Bus DensityPRO with FOUNDATION fieldbus Application Guide 2 1 Wiring amp Connections Associated Documentation Note Refer to FOUNDATION fieldbus specification for cable sizes and maximum cable length Cable length trunk length all spur lengths Maximum length 1900 meters with type A cable Table 2 2 Spur lengths Device Spur Length meters 25 32 1 19 24 30 15 18 60 13 14 90 1 12 120 The following table lists the possible jumper settings for the fieldbus board Table 2 3 Jumper settings for fiel
28. Buyer shall ship with transportation charges paid by the Buyer to Thermo Fisher plant Shipment of repaired or replacement goods from Thermo Fisher plant shall Thermo Fisher plant A quotation of proposed work will be sent to the customer Thermo Fisher shall be liable only to replace or repair at its option free of charge products which are found by Thermo Fisher to be defective in material or workmanship and which are reported to Thermo Fisher within the warranty period as provided above This right to replacement shall be Buyer s exclusive remedy against Thermo Fisher Thermo Fisher shall not be liable for labor charges or other losses or damages of any kind or description including but not limited to incidental special or consequential damages caused by defective products This warranty shall be void if recommendations provided by Thermo Fisher or its Sales Representatives are not followed concerning methods of operation usage and storage or exposure to harsh conditions Thermo Fisher Scientific Thermo Fisher Scientific Troubleshooting amp Service Warranty Materials and or products furnished to Thermo Fisher by other suppliers shall carry no warranty except such suppliers warranties as to materials and workmanship Thermo Fisher disclaims all warranties expressed or implied with respect to such products EXCEPT AS OTHERWISE AGREED TO IN WRITING BY Thermo Fisher THE WARRANTIES GIVEN ABOVE ARE IN LIEU OF A
29. C 13 4 READOUT C 13 MEASUREI AT MAX C 13 MEASUREI AT MIN IOUT C 13 MEASURE2 AT IOUT C 13 MEASURE2 AT MIN IOUT C 13 MEASURE3 AT IOUT C 13 MEASURE3 AT MIN IOUT C 13 MEASUREA MAX IOUT C 13 4 AT MIN IOUT C 13 menus 3 10 3 11 Actions 7 1 Alarms 6 1 6 2 Density Setup 3 10 Diag Service 3 10 8 1 8 4 Gauge Calibration 5 2 5 3 Setup 4 1 4 6 Standardization 5 1 5 2 methods See menus MIN IOUT VALUE C 13 NI FBUS Configurator 3 1 3 16 node address 3 4 NUMBER OF RELAYS C 13 0 OOS See out of service mode ordering information 1 2 other meas assign amp modify 4 6 E 5 Thermo Fisher Scientific of service mode 3 9 outputs 4 20 mA current 1 3 B 2 contact closure B 2 overview 1 3 P parameters alarm C 1 alarm and status flags C 1 bad flags C 1 calibration C 1 command C 1 configuration C 1 specific to DensityPRO 1 16 status C 1 PD tag 3 4 PIPE_INSIDE_DIAMETER C 13 primary time constant 4 4 PRIMARY_MEASURE_TYPE C 14 PROCESS_TEMP_LEARNED_AT_CAL C 14 REFERENCE_DENSITY C 14 REFERENCE_TEMPERATURE C 14 RELAY1_ALM_MODE C 14 RELAY1_LATCH_MODE C 14 RELAY2_ALM_MODE C 14 RELAY2_LATCH_MODE C 14 resource block 1 2 3 3 Root Menu 3 10 E 1 5 safety overview ix setup menu 4 1 4 6 Setup menu E 1 SIZE_UNIT C 14 SOLID_ATTEN_COEF C 15 SOLID_GRAVITY C 15 SOLI
30. D mode Bit 30 Transmit update time must be 19 Bit 15 Invalid Days week Bit 31 Master Unit has no update time BAD FLAGS 2 BF R Bad flags set 2 Bit 0 Unused Bit 5 Brktab Range Error Bit 1 Unused Bit 6 Div by 0 Err in Bit 2 No Rate Channel specified Bit 7 Xray Safeguard Min Hold is gt Max Bit 3 Measurement for rate Bits 8 through Bit 31 Unused must BE 1 Bit 4 PIPE ID null CAL STD RATIO FROM CAL R W The calibration standardization ratio from latest calibration LAST CAL CAL X TIME CONST CON R W Specify the number of time constant periods to be used for the calibration cycle CAL1 TEMP CAL R W Temperature of CAL point 1 normally learned during calibration CAL2 TEMP CAL R W Temperature of CAL point 2 normally learned during calibration CARRIER ATTEN COEF CAL R W The carrier attenuation coefficient used to calculate density based on the detector signal CARRIER GRAVITY CON R W The gravity of the carrier in the process material CARRIER TEMP COMP CON R W Thecarrier temperature compensation polynomial FO 0 User defined 1 H20 90 C REF 20 CARRIER TEMP EO COEFA CON R W Carrier temperature compensation equation coefficient A CARRIER TEMP EO COEFB CON R W Carrier temperature compensation equation coefficient B CARRIER TEMP EO COEFC CON R W Carrier temperature compensation equation coefficient C COUNTDOWN TIMER R The time left in seconds to com
31. D_TEMP_COMP_POLY C 15 SOLID_TEMP_EQ_COFFA C 15 Thermo Fisher Scientific Index SOLID TEMP EQ COEFB 15 SOLID TEMP EQ COEFC C 15 SOLUTION POLY C 15 SOLUTION POLY COEFB C 15 SOLUTION POLY COEFC C 15 SOLUTION POLY COEFD C 15 SOLUTION POLY TYPE C 15 SOURCE HALF LIFE VALUE C 15 specifications 1 3 standardization 5 1 5 2 E 6 STD USE VALUE C 15 STD ON PIPE COND C 15 STD VALUE C 15 STD X TIME CONST C 15 system restart 7 1 E 8 T ALTERNATE C 15 PRIMARY C 15 TEMP CONSTANT C 15 TEMP INPUT SOURCE C 16 TEMP OFFSET CORRECTION C 16 temperature compensation setup 4 4 4 5 4 time constant setup 4 4 E 3 transducer block 1 2 3 3 trim analog output 8 2 8 3 E 12 troubleshooting steps for fieldbus 9 1 U USE TEMP COMP STD C 16 V view other meas 4 6 E 6 VOLUME FLOW TIME UNIT C 16 wiring 2 1 2 2 WKS_SINCE_LAST_STD C 16 DensityPRO with FOUNDATION fieldbus Application Guide INDEX 3 Index XRAY MODE 16 XRAY MAX HOLD TIME C 16 SRAY THRESHOLD C 16 XRAY_MIN_HOLD_TIME C 16 INDEX 4 DensityPRO with FOUNDATIONTM fieldbus Application Guide Thermo Fisher Scientific Thermo Fisher Scientific 81 Wyman Street Box 9046 Waltham Massachusetts 02454 9046 United States www thermofisher com
32. E1 AT MAX IOUT MEASURE2 AT MIN IOUT MEASURE2 AT MAX MEASURE3 AT MIN IOUT MEASURE3 AT IOUT MEASURE4 AT MIN IOUT M M M EASURE4 AT MAX IOUT IOUT VALUE VALUE IOUT_MIN_CORRECTION IOUT_MAX_CORRECTION IOUT_HOLD_VALUE TC_ALTERNATIVE SOURCE_HALF_LIFE_VALUE CAL_X_TIME_CONST STD_X_TIME_CONST STD_IN_USE_VALUE DAYS_GAUGE_ON CAL1_TEMP CAL_STD_RATIO_FROM_LAST_CAL PROCESS_TEMP_LEARNED_AT_CAL LAST_STD NUM_MEASUREMENT MEA1_READ MEA2_READ MEA3_READ MEA4_READ EA1_READOUT EA2_READOUT EA3_READOUT EA4_READOUT EA_NUM_AT_CURRENT_OUT_PRIMODE EA_NUM_AT_CURRENT_OUT_ALTMODE DD Flow Blocks IOUT1 VALUE PERCENT LUMPT STATUS XRAY_THRESHOLD XRAY_MIN_HOLD_TIME XRAY_MAX_HOLD_TIME XRAY_MODE LARM1 LARM2 LARM3 LARM4 LARM5 LARM6 LARM7 LARM8 LARM1_MONITOR_MEAS_ASS LARM2_MONITOR_MEAS_ASS LARM3_MONITOR_MEAS_ASS LARM4_MONITOR_MEAS_ASS LARM5_MONITOR_MEAS_ASS LARM6_MONITOR_MEAS_ASS LARM7_MONITOR_MEAS_ASS LARM8_MONITOR_MEAS_ASS RELAY1 ALM MODE RELAY1 LATCH MODE RELAY2 ALM MODE RELAY2 LATCH MODE NUMBER OF RELAYS 100711 VALUE DENSITY HOLD MODE FLOW VOLUME UNIT VOLUME FLOW TIME UNIT MASS FLOW UNIT MASS FLOW TIME UNIT gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt gt DensityPRO with FOUNDATION fieldbus Application Guide 13 This page intentionally left blank Glossary analog input block Makes ma
33. EAD or MEA4_READ FLOW_VOLUME_UNIT CON R W The volume units for the flow measurement 2 cubic meter 6 gallon 4 cubic feet 10 liter 5 cubic yard HEAD_ TYPE CON R W The source head type 1 5190 source head 5 5201 source head 2 5191 source head 6 5202 source head 3 5176 source head 7 5203 or 5204 source head 4 5200 source head 8 5211 source head HV CTL 5 R The high voltage control signal IOUT HOLD VALUE CON R W The current output hold value IOUT MAX CORRECTION CON R W The correction factor for the current output at maximum Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide C 9 DensityPRO Specific Parameters Parameter Type R W Description IOUT MIN CORRECTION CON R W The correction factor for the current output at minimum IOUT1 VALUE S R The internal value of IOUT1 IOUT1 VALUE PERCENT S R The internal value of IOUT1 in percent LAST STD S R The status of the last standardization cycle 1 full of carrier 6 full of process 2 empty LUMP_STATUS 5 R The lump status MASS_FLOW_TIME_UNIT CON R W The time units for the mass flow measurement 2 minutes 3 hours MASS_FLOW_UNIT CON R W The mass units for the mass flow measurement 4 metric ton 5 short ton MATERIAL_TYPE CON R W The material type that most closely matches the process m
34. LL OTHER WARRANTIES EXPRESSED OR IMPLIED AND Thermo Fisher HEREBY DISCLAIMS ALL OTHER WARRANTIES INCLUDING THOSE OF MERCHANTABILITY AND FITNESS FOR PURPOSE DensityPRO with FOUNDATION fieldbus Application Guide 9 3 This page intentionally left blank Thermo Fisher Scientific Appendix A Ordering Information Table 1 System ordering information Code Model DPRO DensityPRO integrated gamma density system Code High Performance Input Power 1 115 230 Vac 10 50 60 Hz 2 24 Vde Code Relays R Two SPDT relay contacts rated 10 amps 115 Vac N No relay contacts Code 4 20 mA output L Isolated loop powered Namur compliant 700 ohm load max 5 Isolated self powered Namur compliant 700 ohm load max Code Detector Approvals N4 Non hazardous model 9719 Type 4 CSA C US XP Hazardous model 9720 XP Class 1 Div 1 CSA C US Type 4 ATEX IP65 Code Detector Enclosure D Dual chain mount B Base plate mount required if pipe saddle option selected or for wall mounting W Base plate mount water cooled pipe saddle required Code Mounting Hardware NO No mounting hardware DS Dual chain 2 steel pipes dual chain mounting required DM Dual chain 2 5 18 pipes dual chain mounting required DL Dual chain 20 36 pipes dual chain mounting required 1 5 Pipe saddle for 1 5 or 2 0 pipes XX Pipe saddle for 3 16 pipes available
35. XXXXXXXX In this case 544653 is the manufacturer ID 0200 is the device type is the serial number The node address is the device address The PD tag and node address can be changed using the configurator software or host system Note Additional information on the NI FBUS Configurator can be found in the configurator user manual Help gt User Manual If you are not using this configurator reference the documentation that came with your host system A The main screen of the NI FBUS Configurator is composed of the object menu the toolbar and several windows These are shown below Help window Status window Configuration Tree Figure 3 3 Parts of the NI FBUS Configurator main screen 3 4 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific The Configuration Tree amp Object Menu The Middle Frame Thermo Fisher Scientific The NI FBUS Configurator Configurator Interface The configuration tree displays the objects on the network that are configurable Double click on a device to the view the device properties Each object in the tree has its own main menu For example click on the Network Parameters The object menu consists of the following items File Network Parameters Configure View Window and Help Click on Function Block Application and the Network Parameters object menu item changes to Function Block Application NI FBUS Configurato
36. ad Material Type 1 Slurry 2 Solution 3 Single phase 4 Emulsion Solvent temp comp polynomial eq 1 0 User defined 1 H20 90 C REF 20 Fld temp comp polynomial eq 1 0 User defined 1 H20 90 C REF 20 Fluid1 temp comp polynomial eq 1 0 User defined 1 H20 90 C REF 20 Solute temp comp polynomial eq 2 0 User defined 1 Sugar at 1096 2 Sugar at 2596 3 Sugar at 5096 4 Sugar at 7596 Product temp comp polynomial eq 2 0 User defined Fluid2 temp comp polynomial eq 2 0 User defined Temp comp equation Temp comp equation eq 1 Coefficient A eq 1 Coefficient B X XX X XX Carrier temp comp poly 1 Enable Disable temp comp eq 1 1 Do not use EQ1 2 use Temp comp equation eq 1 Coefficient C Temp comp equation eq 2 Coefficient B X XX Temp comp equation eq 2 Coefficient C X XX X XX Temperature error correction NOTE Loop may be returned to automatic control Figure 5 Temperature compensation setup 4 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific DD Flow Blocks 4 Other meas assign Other meas assign 5 WARNING This function Select follo ng Measurement to configure can affect device output 1 measurement 2 Loop should be removed 2 measurement 3 automatic control 3 measurement 4 Reading represented by Reading represented by Reading represented by measureme
37. aterial 1 slurry 3 single phase 2 solution 4 emulsion MAX IOUT VALUE CON R W The maximum current output in mA 4 0 to 20 5 mA MEA NUM ALARM1 CON R W The measurement number ALARMI is assigned to ASSIGN MEA NUM ALARM2 CON R W The measurement number ALARM7 is assigned to ASSIGN MEA NUM ALARM3 CON R W The measurement number ALARMG is assigned to ASSIGN MEA NUM ALARMA CON R W The measurement number ALARM is assigned to ASSIGN MEA NUM ALARM5 CON R W The measurement number ALARMS is assigned to ASSIGN MEA NUM ALARM6 _ CON R W The measurement number ALARM is assigned to ASSIGN MEA NUM ALARM7 _ CON R W The measurement number ALARM is assigned to ASSIGN MEA NUM ALARMB8 CON R W The measurement number ALARMS is assigned to ASSIGN MEA NUM AT CURRENT CON R W The measurement sent to the current output in alternate mode OUT ALTMODE MEA NUM AT CURRENT _ CON R W The measurement sent to the current output in normal mode OUT PRIMODE DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific DensityPRO Specific Parameters Parameter Type R W Description MEA1_READ CON R W The measurement type for measurement 1 If the material type is slurry 1 density 6 96 by weight solids 3 solids content vol 7 by w
38. d loop powered 24 Vdc input 700 ohm max load Alternate configurations Non isolated self powered 700 ohm max load Isolated self powered 700 ohm max load current output is provided on the CPU Piggyback board P N 886595 required for isolated self powered configuration Optional relays Two relays optionally available on the AC power relay board Form C SPDT isolated 8 A 220 Vac Process alarms and system fault or warning alarms can be assigned to control open close relays Contact closure inputs Two contact closure inputs provided on the CPU DensityPRO with FOUNDATION fieldbus Application Guide Execute system commands based on a user provided contact switch opening or closing input 1 3 Product Overview Using this Application Guide Using this This document was created specifically for applications using the E DensityPRO with FOUNDATION fieldbus Refer to the DensityPRO user Appl ication guide P N 717784 for a complete set of instructions and details on the Guide mer structure and functionality of the standard DensityPRO A working knowledge of FOUNDATION fieldbus is assumed Associated Along with this guide the following documents must be read and Documentation understood by all persons installing using or maintaining this equipment e DensityPRO user guide P N 717784 e DensityPRO installation guide P N 717774 e Gamma Radiation Safety Guide P N 71
39. dbus board Jumper Default Setting Description SIM Off For testing only Puts interface in a simulation mode HW Off Hardware write lock Not supported Software write 2 2 DensityPRO with FOUNDATION fieldbus Application Guide lock supported Access WRITE_LOCK parameter through RESOURCE gt Process or Options tab Thermo Fisher Scientific Install the Device Description Thermo Fisher Scientific Chapter 3 The NI FBUS Configurator This chapter describes how to use the NI FBUS Configurator with the DensityPRO It is assumed that you have installed the instrument and the application software and that all necessary connections have been made Note This manual assumes a working knowledge of FOUNDATION fieldbus terminology and practices Note This chapter was written based on using the National Instruments NI FBUS Configurator If you are using this application software additional information can be found in the configurator user manual open the configurator and go to Help gt User Manual If you are not using the NI FBUS Configurator reference the documentation that came with your host system To install the device description DD go to www fieldbus org Search the list of registered devices to locate the Thermo Scientific DensityPRO DD CFF files Download the files and unzip them DensityPRO with FOUNDATION fieldbus Application Guide 3 1 NI FBUS Configurator Configurator Startup Confi
40. double click on an error a window opens that displays the cause of the error allowing you to fix it Reference the NI FBUS user manual for a list of error messages and warnings e Assignment tab Click to view the status information for the process of assignment when taking a link online This data is updated when an offline link is taken online e Live List tab Click to view the live links and devices on the network By default only the online links and devices are shown Check the Show offline link box to view offline links devices Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide 3 7 The NI FBUS Configurator Configurator Basics Configurator Basics Note Information on specific tasks such as setting up level or performing a calibration can be found in the remainder of this manual The purpose of this section is to provide general instructions on how to use the NI FBUS Configurator with the DensityPRO Note If you are not using the NI FBUS Configurator reference the documentation that came with your host system In general commissioning the gauge consists of 1 Installing the application software and downloading the DensityPRO DD 2 Setting block parameters for gauge operation setting the time constant the minimum and maximum level the current output range etc 3 Creating a block diagram or control strategy and the execution schedule 4 Configuring alarms 5 Down
41. eadband Alarm clear point X XXX Alarm Set Action 0 Nothing Alarm Deadband 1 Control relay 1 X XXX 2 Control relay 2 3 Output 1 to FAULT LOW 5 Output 1 to FAULT HIGH NOTE Loop may be returned to automatic control Figure 10 Alarm setup WARNING This function can affect device output Loop should be removed automatic control 5 Actions 1 System restart NOTE Loop may be returned to automatic control Figure E 11 System restart E 8 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific DD Flow Blocks WARNING This function can affect device output Loop should be removed from automatic control 5 Actions Erase all entries Root Menu NOTE Loop may be returned to automatic control Figure E 12 Erase all entries NARNING This function can affect device output Loop should be removed from automatic control 5 Actions 3 Clear all alarms NOTE Loop may be returned to automatic control Figure 13 Clear all alarms 6 Diag Service 3 rim Analog Output 1 Current Output 2 Loop Test Figure E 14 Diag Service menu 4 Device Status 5 Al_ Transducer Parameters Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide 9 DD Flow Blocks WARNING This function can affect device output Loop should be removed from automatic control Maximum current
42. eight carrier 4 carrier content vol 8 96 by volume solids 5 solids carrier 9 by volume carrier If the material type is solution 1 density 6 96 by weight solute 2 bulk density 7 by weight solvent 3 solute content vol 8 96 by volume solute 4 solvent content vol 9 96 by volume solvent 5 solute solvent If the material type is single phase 1 density If the material type is emulsion 1 density 6 96 by weight fluid 2 3 fluid 2 content vol 7 by weight fluid_1 4 fluid_1 content vol 8 by volume fluid_2 5 fluid_2 fluid_1 9 by volume fluid_1 MEA1_READOUT 5 R The value of measurement 1 MEA1_UNIT CON R W The density units for measurement 1 If PRIMARY_MEASURE_TYPE is 1 2 3 4 or 5 1 g mL 8 oz cu 2 Ib gal 9 Ib cu in 3 Ib UK gal 10 g cu in 4 Ib cu ft 11 Ib cu yd 5 ston cu yd 13 degAPI 6 yd 14 degBaum It 7 g l 15 degBaum hv If PRIMARY_MEASURE_TYPE is 6 7 8 or 9 Show MEA2_READ CON R W The measurement type for measurement 2 0 inactive 20 temperature deg F 19 temperature deg C MEA2_READOUT 5 R The value of measurement 2 Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide C 11 DensityPRO Specific Parameters Parameter Type R W Description MEA3_READ CON R W
43. from one function block to another The DensityPRO supports the following blocks e One resource block RB Contains device information such as the device tag and device ID e One transducer block TB Allows you to configure or view setup parameters and access system diagnostic tools e Four analog input blocks AI Makes manufacturer s input data available to other functions at its output The figure below illustrates how the blocks are interconnected by default 1 2 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific Sensor signal evaluation Transducer Block parameters that describe the device Physical Block parameters of the Primary value main value physical unit Analog Input Block parameters important to the process control system Product Overview Fieldbus Overview Figure 1 1 Default block configuration Inputs amp Outputs Thermo Fisher Scientific The characteristics of the input and output options for the DensityPRO with FOUNDATION fieldbus are summarized in the table below Note The I O listed below can be configured via FOUNDATION fieldbus More I O are available with the standard DensityPRO but can only be configured using other interfaces Reference the DensityPRO user guide P N 717784 A Table 1 1 Type Characteristics Comments Current output 3 8 20 5 mA DC Default range is 4 20 mA DC One Standard configuration Isolate
44. g the configuring alarms you should save the configuration From the main Configuration screen of the configurator click File gt Save Now you are ready to download the configuration project to the DensityPRO Follow the procedure below to do so 1 Click the Download Project icon the main screen toolbar The Download Configuration dialog box opens Download Configuration Choose object to download F interfaceD D Write Contained Block Parameters Clear Devices Automatic Mode Handling Verify and Diff Configuration Link Masters Ready for download Figure 3 12 Download Configuration dialog box 2 Make the appropriate selections In general you should always select Clear Devices and Automatic Mode Handling a Write Contained Parameters Causes the parameter changes you made in each block to take effect b Clear Devices Clears the existing configuration of the DensityPRO before downloading c Automatic Mode Handling Automatically places the blocks into OOS mode during the download process and returns them to AUTO mode when the download is complete If you do not make this selection you will be prompted to do this manually d Verify and Diff Causes the configurator to upload the configuration from the devices after a download It then compares the uploaded information to the file in the configurator and generates a report of any differences between the two files Ther
45. gered 0 Nothing 3 Output 1 to FAULT LOW 1 Control relay 1 5 Output 1 to FAULT HIGH 2 Control relay 2 SET_POINT The process level at which the alarm will activate CLR_MODE Select a clear point clr point or dead band deadband to clear the alarm 0 point 1 deadband CLR POINT Enter clear point or dead band value DEADBAND C 4 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific DensityPRO Specific Parameters ALARMA Parameter Type R W Description ALARM3 ALM Setup alarm triggering point clear point and gauge actions when alarm happens for Sub parameter Description ACTION Select the action used to indicate that the alarm has been triggered 0 Nothing 3 Output 1 to FAULT LOW 1 Control relay 1 5 Output 1 to FAULT HIGH 2 Control relay 2 SET POINT The process level at which the alarm will activate CLR MODE Select a clear point clr point or dead band deadband to clear the alarm 0 clr point 1 deadband POINT Enter clear point or dead band value DEADBAND ALARMA ALM Setup alarm triggering point clear point and gauge actions when alarm happens for Sub parameter Description ACTION Select the action used to indicate that the alarm has been triggered 0 Nothing 3 Output 1 to FAULT LOW 1 Control relay 1 5 Output
46. gurator Startup Note If you are not using the NI FBUS Configurator reference the documentation that came with your host system amp 1 Launch the NI FBUS Configurator by selecting Start gt Programs gt TE NationalInstruments gt NI FBUS gt NI FBUS Configurator or double click the NI FBUS icon on the PC desktop NI FBUS icon 2 dialog appears informing you that NIFB EXE has not been launched Click Yes to start the program 3 When the NI FBUS Configurator dialog appears verify Any Project is selected and click OK to start program ride Grid de Heb Create New Project ya Any Projeet cortains bath online and offine inks Offine Project only contains offine links Added ink s a _ __ 01 5 0102116 Figure 3 1 The NI FBUS Configurator dialog box 3 2 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific NI FBUS Configurator Configurator Startup 4 Reference Figure 3 2 for this step a The NI FBUS Configurator automatically detects all valid devices connected to the network If the connected devices are registered by the Fieldbus Foundation as compliant devices and the DD files have been imported the configurator will detect the device and the blocks contained within the device This process can take a few minutes When complete the configurator main screen will open and the configuration tree w
47. gurator Ver 3 2 3 DensityPRO 085100079 Al TRAN eb y Values Root TERT mmm e PARAMETER TAG DESC Pesiodic Updates 268 The user destino he ended 00 Auo Process 1 0 Contig Alarms Diagnostics Trends Others Methods TAG DESC len 32 TAG DESC Help The user description of the intended application of the block Parameter help double click on this item to open amp TARGET T the editor for this parameter ACTUAL PERMITTED NORMAL 1005 EERE El g PRIMARY_VALUE STATUS QUALITY SUBSTATUS UMITS HEAD TYPE 09 TEMP OFFSET CORRECTION 07 PARAMETER HEAD read data object success PARAMETER TEMP OFFSET CORRECTION resd data object success 08 44 45 e gt Status Download Error Assignment Live List 141 Figure 3 6 Example of help information for selected block parameter 07 06 10 08 44 43 The Status Window status window displays the current status of the configurator and contains several tabs e Status tab Click to view live updates of what the configurator is doing e Download tab Click to view all the status information for the last configuration download to the bus This data is updated when the next download occurs e Errors tab Click to view all recent I O errors project configuration errors and warnings If you
48. h up to 32 DensityPRO units over RS485 RS485 RS232 converter provided DensityPRO with FOUNDATION fieldbus Application Guide 3 This page intentionally left blank Thermo Fisher Scientific Appendix C DensityPRO Specific Parameters The fieldbus parameters that are specific to the DensityPRO are categorized as follows e Command parameters Used to issue commands to the device e Status parameters Display the internal status of the DensityPRO e Configuration parameters Used to configure the DensityPRO s operational modes e Alarm parameters Used to set up the gauge alarms e Calibration parameters Used to linearize gauge performance e Alarm and Status Flags Display information on the state of the alarm e Bad Flags Indicate the cause of incorrect gauge configuration The parameter types are indicated in the table according to the abbreviations below CMD Command S Status CON Configuration ALM Alarm CAL Calibration ASF Alarm and Status Flag BE Bad Flag All DensityPRO parameters are located in the AI TRANSDUCER block AITB Note To make locating a parameter easy they are listed alphabetically a Caution Take care when modifying parameters directly If you change the value for one parameter you may need to change the value for other parameters A DensityPRO with FOUNDATION Fieldbus Application Guide C 1 DensityPRO Specific Parameters Table 1 DensityPRO specific parameters
49. he AI block using the Function Block Application FBAP 1 Double click the Function Block Application object in the configuration tree The FBAP grid opens in the middle frame 2 For this example connect the AO block of another device on the network to the DensityPRO AI block Click on the DensityPRO AI block and drag it to the FBAP grid Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide 3 13 The NI FBUS Configurator Configurator Basics gt NI FBUS Configurator Ver 3 2 3 FCP1 interface0 0 Function Block Application F e Edt Configure Zoom View Window Help lide Gid Hide Help 3 seres loop Tine sec 1 O4 BLOCK ANALOG_INPUTI wm 0 _ 085100079 jay Network Parameters The Analog Input Al block takes E schedule the manulactuer s input data Function Block Application selected by channel number and makes t avaiable to other function blocks at t output E DensityPRO 085100079 RESOURCE 085100079 RBZ Block help Double click or right AI TRANSDUCER 085100079 AITB dem to block ANALOG JNPUTI 065100079 AD acer sad nime be used to tag the block and to ANALOG INPUT2 085100079 aber parameters n the block ANALOG_INPUTS 085100079 AI ANALOG_INPUTS 085100079 read data object VIEV 3 data object sa
50. ic control 3 There are four selections shown a Selection 1 4 mA Enter 1 to fix the device at 4 mA b Selection 2 20 mA Enter 2 to fix the device at 20 mA Selection 3 Other Enter 3 to fix the device at a value you enter d Selection 4 End Enter 4 to exit the menu Enter the selection you want 4 When prompted confirm the selection you made 5 The method has completed Loop may be returned to automatic control Trim Ana log The trim analog output function allows you to confirm that the current output value of the reference meter can be adjusted to match the set value Output 1 In the NI FBUS Configurator go to AI TRANSDUCER gt Root Menu gt 6 Diag Service gt 3 Trim Analog Output gt Trim analog output 2 When prompted remove the loop from automatic control 3 Connect the reference meter The output will be set to the minimum current value 4 Enter meter value Enter the value displayed the reference meter 8 2 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific 10 Diagnostics Device Status Does set output x mA equal readout device Confirm the set output and reference meter reading are the same Enter 1 to continue to the next step If you need to modify the value again enter 2 If you entered 1 in the previous step the software will show that the current output is being set to maximum Enter meter value Enter the value displayed by the
51. ill display all valid devices found on the network b Check the blocks available RESOURCE_ RB2 The resource block contains device information such as device name and serial number AI TRANSDUCER XXXXXXXXX AITB Open the AI TRANSDUCER block to configure or view setup parameters and access system diagnostic tools ANALOG INPUT XXXXXXXXX AD There are four ANALOG_INPUT blocks AI which take the manufacturer s input data and makes it available to another function at its output NI FBUS Configurator Ver 3 2 3 FCP1 ide Grid 2 Hide Help UNUM amp 59 3 B im t 085100079 1 085100079 1 Valid device detected on network read data object success PARAMETER LO LO ALM read data object success 08 03 11 LINK interface0 0 is currently idle 08 03 12 07 06 10 08 33 43 Figure 3 2 NI FBUS main screen Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide 3 3 NI FBUS Configurator Configurator Interface Configurator Interface Object menu Toolbar Middle frame 5 Double click on DensityPRO_XXXXXXXXxX to view the device properties If the DensityPRO has been connected correctly PD tag the device ID and node address are shown The PD tag is the physical name of the device The device ID is a unique device identifier Following is an example of a typical device ID 5446530200_X
52. ith FOUNDATION fieldbus Application Guide 9 1 Troubleshooting amp Service Contact Information Contact Information Warranty 9 2 DensityPRO with FOUNDATION fieldbus Application Guide The local representative is your first contact for support and is well equipped to answer questions and provide application assistance You can also contact Thermo Fisher directly 1410 Gillingham Lane Sugar Land TX 77478 USA Tel 1 713 272 0404 Fax 1 713 272 2272 14 Gormley Industrial Avenue Gormley Ontario LOH 160 CANADA Tel 1 905 888 8808 Fax 1 905 888 8828 lon Path Road Three Winsford Cheshire CW7 3GA UNITED KINGDOM Tel 44 0 1606 548700 Fax 44 0 1606 548711 Room 1010 1019 Ping An Mansion No 23 Jing Rong St Beijing 100032 CHINA Tel 86 10 5850 3588 Fax 86 10 6621 0847 A 101 1 Trade Tower Senapati Bapat Road Pune 411 016 INDIA Tel 91 20 6626 7000 Fax 91 20 6626 7001 On the Web www thermoscientific com Thermo Scientific products are warranted to be free from defects in material and workmanship at the time of shipment and for one year thereafter Any claimed defects in Thermo Scientific products must be reported within the warranty period Thermo Fisher Scientific shall have the right to inspect such products at Buyer s plant or to require Buyer to return such products to Thermo Fisher plant In the event Thermo Fisher requests return of its products
53. iversal mount 2 5 to 36 63 5 B 2 DensityPRO with FOUNDATION fieldbus Application Guide to 914 4 mm Pipe saddle mount 2 to 42 50 8 to 1066 8 mm Pipe saddle with tabs for mounting on insulated pipes Axial mount hardware for Z pipe installations 1 to 4 25 4 to 101 6 mm Thermo Fisher Scientific Thermo Fisher Scientific Specifications Table B 6 Optional Model 9723 local remote display Display 2 line X 16 character backlit LCD Qualifications CSA C US Class Groups B and D Class Il Groups E F G Class Type 4 Enclosure ATEX Il 2G Ex d IIC T6 Tamb 40 C to 60 C EN60079 0 2006 and EN60079 1 2007 Power Display powered from electronics Installation site Table 7 Programming Maximum separation from electronics 300 ft 91 4 m Fieldbus host such as National Instruments NI FBUS Configurator Provides the interface between the DensityPRO and other devices on a FOUNDATION fieldbus network Emerson 375 475 Field Communicator For gauge configuration and calibration Communicates with any DensityPRO via the current loop BEL202FSK standard Thermo Scientific Model 9734 hand held terminal For gauge configuration and calibration Communicates with any DensityPRO via RS485 connector Provides upload download of gauge configuration to from PC via RS232 interface Comm PC interface software For interfacing wit
54. l activate CLR MODE Select a clear point clr point or dead band deadband to clear the alarm 0 clr point 1 deadband CLR POINT Enter clear point or dead band value DEADBAND C 6 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific DensityPRO Specific Parameters Parameter Type R W Description ALARM7 ALM R W Setup alarm triggering point clear point and gauge actions when alarm happens for Sub parameter Description ACTION Select the action used to indicate that the alarm has been triggered 0 Nothing 3 Output 1 to FAULT LOW 1 Control relay 1 5 Output 1 to FAULT HIGH 2 Control relay 2 SET_POINT The process level at which the alarm will activate CLR_MODE Select a clear point clr point or dead band deadband to clear the alarm 0 point 1 deadband CLR POINT Enter clear point or dead band value DEADBAND ALARMS ALM R W Setup alarm triggering point clear point and gauge actions when alarm happens for ALARMB Sub parameter Description ACTION Select the action used to indicate that the alarm has been triggered 0 Nothing 3 Output 1 to FAULT LOW Control relay 1 5 Output 1 to FAULT HIGH 2 Control relay 2 SET POINT The process level at which the alarm will activate CLR MODE Select a clear point clr point or dead
55. loading the project to the device As mentioned earlier the DensityPRO with FOUNDATION fieldbus supports six blocks one resource block one transducer block and four function blocks When you double click on a block in the configuration tree the block configuration window opens as a floating window over the main screen You can enlarge resize the window to improve viewing The block configuration window is shown below as an example for this section Note Additional information on the block configuration window such as how to create customized tabs can be found in the configurator user manual 3 8 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific Thermo Fisher Scientific Block Modes The NI FBUS Configurator Configurator Basics DensityPRO 085100079 ANALOG e Configuration block window toolbar Block modes Block tabs TAG_DESC E MODE f TARGET 005 es PERMITTED Auto 1 1005 NORMAL Esuesrarus LIMITS Wite Changes Figure 3 7 Block configuration window The gauge supports three block modes Automatic AUTO Manual MAN and Out of Service OOS Automatic mode is the normal operating mode of the block In this mode the block uses a local set point value in the normal block algorithm to determine the output value In Out Of Service mode the block is disabled This mode is typically used during block configuration Whe
56. metry Scroll through list of source head models and select the model used on your gauge The source head model is used to set a geometry factor to tune the gauge s performance Material Type Select the correct material type slurry solution single phase or emulsion Carrier Gravity and Solids Gravity Additional menu items are displayed to enter the required specific gravity values for that material type as listed below a Ifyou selected slurry enter the carrier gravity and solids gravity b Ifyou selected solution enter the solvent gravity and solution type c Ifit is either unnecessary or impossible to describe your process material as a slurry emulsion or solution select single phase d Ifyou selected emulsion enter the specific gravity of the carrier liquid Fluid_1_gravity and suspended liquid Fluid_2_gravity in g cc Primary Measurement The available measurements depend on selection of material type selected The example below shows the measurements available for slurry 4 2 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific Thermo Fisher Scientific DensityPRO Setup Density Setup DensityPRO 085100079 TRANSDUCER _ Dx A TRANSDUCEF Be El El Pe jpd 005 Process 1 0 Config Alarms Diagnostics Trends Others Methods Material Type Slurry Slurry Carrier Gravity 1 000000 g cc 9982 Solids Gravity 3 000000
57. mo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide 3 15 NI FBUS Configurator Configurator Basics Other Configurator Functions 3 It is assumed that you have already designated the link master and set the Link Active Schedule for devices on the network If you have not dick the Link Masters button to access the Network Parameters dialog box For information on link masters the Link Active Schedule and setting network parameters refer to the configurator user manual 4 Click the Download Project button to start the download This may take several minutes When finished a dialog box appears informing you that download is complete Once you have downloaded the configuration to the DensityPRO you can use the NI FBUS Configurator to do other things Note Refer to the NI FBUS user manual for more information on the functions introduced in this section If you are not using the NI FBUS Configurator reference the documentation that came with your host system A Monitor Parameters You can view a graphical representation of the updates to the block parameters This is referred to as monitoring the parameters Use the Monitor Mode icon on the FBAP toolbar Quick Verify A quick verify compares the parameters on the bus to those in the configuration for a selected device or block Right click on the device or block and select Simple Verify Configuration Print a Configuration The NI FBUS Co
58. mory checksum off error Bit 5 System Fault Bit 21 Secondary nvram memory checksum error Bit 6 Totalizer locked Bit 22 Primary and secondary nvram checksum error Bit 7 Standardization difference Bit 23 NV Write Error Bit 8 HART communication error Bit 24 1 Totalizer locked C 2 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific DensityPRO Specific Parameters Parameter Type R W Description ALARM_STATUS_FLAGS 2 ASF R Alarm and status flag set 2 cont Bit 9 Temp ADC error Bit 25 2 Totalizer locked Bit 10 Flow ADC error Bit 26 3 Totalizer locked Bit 11 Current output over max Bit 27 4 Totalizer locked Bit 12 NV Erase failed Bit 28 HART POLL fault Bit 13 NV Checksum Error Bit 29 Unused Bit 14 Totalizer locked Bit 30 Unused Bit 15 Totalizer high rate Bit 31 Unused ALARM STATUS FLAGS 3 ASF Alarm and status flag set 3 Bit 0 HV Background Interpolator Bit 16 FB IF to device comm error Active Bit 1 Unused Bit 17 Unused Bit 2 Unused Bit 18 Unused Bit 3 Unused Bit 19 Unused Bit 4 Unused Bit 20 Unused Bit 5 A D Converter Fault Bit 21 Unused Bit 6 Unused Bit 22 Unused Bit
59. n a block is placed into OOS mode its output is held at the last value In Manual mode the block output is set by the operator through the interface device DensityPRO with FOUNDATION fieldbus Application Guide 3 9 The NI FBUS Configurator Configurator Basics Using Menus amp Methods The preferred way to configure the device is to use menus and methods The NI FBUS Configurator supports user menus Access the menus by going to AI TRANSDUCER gt Root Menu DensitypRO 085100079 AL TRAN EBX BZ es ene 2 zati 0 EB 2 Standardization PB 3 Gauge Calibration gt 005 Au 4 Alarm Process jix 5 Actions EB 6 Diag Service ACTUAL PERMITTED NORMAL MODE P PRIMARY VALUE 5 05 QUALITY Es esrarus UMITS HEAD TYPE 0x00 TEMP OFFSET CORRECTION 0 C lt gt Trends Others Method Wie Changes Read Al Figure 3 8 The Root Menu The table below lists the items contained within each menu Table 3 4 Root Menu items Menu Level 1 Menu Level 2 Menu Level 3 1 Setup 1 Density Setup Density Setup 2 Time Constant Time constant setup 3 Temp Compensation Setup Temperature Comp Setup 4 Other meas assign modify Other meas assign modify 5 View other measurement View other measurement 2 Standardization Standardization
60. nfigurator provides several options for printing a configuration project Go to File Print and make the desired selections 3 16 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific Chapter 4 DensityPRO Setup Note If you are not using the NI FBUS Configurator reference the documentation that came with your host system Note This chapter provides setup instructions using the NI FBUS Configurator menus as this is the preferred way to configure the instrument Move from one step to the next in the configurator method window by clicking Next or pressing Enter If your host does not support menus reference Appendix for a list of DensityPRO parameters The second level menus for the Setup menu are listed below Density Setup Time Constant Temp Compensation Setup Other meas assign modify View other measurement Note This chapter gives you an overview of the Setup menus For additional information reference the DD flow blocks in Appendix E and the DensityPRO user guide P N 747784 Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide 4 1 DensityPRO Setup Density Setup Density Setup The Density Setup menu takes you through the steps required to configure the density measurement These steps are listed below Go to AI TRANSDUCER gt Root Menu gt Setup gt 1 Density Setup When prompted remove the loop from automatic control Source Head Geo
61. nt 2 is measurement 3 15 measurement 4 15 0 inactive 0 inactive 0 inactive 19 temperature deg C 13 Bulk volume flow 10 bulk mass flow 20 temperature deg F 14 Solids volume flow 11 solute mass flow 15 Carrier volume flow 12 solvent mass flow 16 bulk solute flow Unit selection 2 cubic meter 4 cubic feet 5 cubic yard 6 gallon 10 liter Unit selection 4 metric ton 5 short ton Time Unit selection 2 minutes 3 hours Meas reading for Meas reading for NOTE Loop may be High end value Low end value returned to X XXX X XXX automatic control Figure 6 Other meas assign amp modify Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide 5 DD Flow Blocks View other measurement Root Menu 5 View other meas WARNING This Select following Meas x is function can affect Measurement to view XXXXX NOTE Loop may be device output Loop 1 measurement 2 Value xxxx returned to should be removed from 2 measurement 3 1 Select Other Meas automatic control automatic control 3 measurement 4 2 Exit Figure 7 View other meas WARNING This function Root Menu 2 Standardization Standardization can affect device output Loop should be removed from automatic control Standardization on 0 None Start Data Cycle Standardization Data Cycle 1 full of carrier 1 Yes Time Remaining 2 empty 2 No Click Next to update Timer B full of Process STD Cyde time
62. nter meter value X XX Output is set at xx xx mA Enter meter value XX XX All Status information has 1 Yes been displayed 2 No Device status See all flags again Does set output x xx mA equal readout device 1 Yes 2 No Setting output to maximum current value Method execution has completed Note The Device Status allows a user to view which device status fault and alarm bits are set The above is only an example Figure E 18 Device status E 12 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific Root Menu 6 Diag Service 5 Al_Transducer Parameters DPRO_CMD COUNTDOWN_TIMER TC_PRIMARY STD_VALUE DETECT_SIG_VALUE DENSITY_CAL_POINT1 CARRIER_ATTEN_COEF SOLID_ATTEN_COEF HV_CTL DATA_REF_CNT_RATIO WKS_SINCE_LAST_STD HEAD_TYPE MATERIAL_TYPE CARRIER_GRAVITY SOLID_GRAVITY TEMP_INPUT_SOURCE TEMP_CONSTANT CARRIER_TEMP_COMP_POLY REFERENCE_TEMPERATURE CARRIER TEMP EQ COEFA CARRIER TEMP EQ COEFB CARRIER TEMP EQ COEFC USE TEMP COMP ON STD SOLID TEMP EQ COEFA SOLID TEMP EQ COEFB SOLID TEMP EQ COEFC REFERENCE DENSITY SOLUTION POLY TYPE SOLUTION POLY COEFA SOLUTION POLY COEFB SOLUTION POLY COEFC SOLUTION POLY COEFD TEMP OFFSET CORRECTION PRIMARY MEASURE TYPE MEA1 UNIT MEA2 UNIT MEAS UNIT Figure 19 Transducer Parameters Thermo Fisher Scientific MEAM UNIT SIZE UNIT PIPE INSIDE DIAMETER MEASURE1 MIN IOUT MEASUR
63. nufacturer s input data available to other functions at its output AUTO See automatic mode automatic mode AUTO The normal operating mode of a block basic device Device type that communicates on the fieldbus network It cannot become the LAS bridge Device type that connects two or more devices on the fieldbus network DD See device description device description DD A machine readable description of all the blocks and block parameters of a device device ID The unique identifier assigned to the device by the manufacturer device tag The unique name assigned to the device by the user FOUNDATION fieldbus The communications network specification created by the Fieldbus Foundation LAS See link active scheduler link active scheduler LAS The device that is currently controlling access to the fieldbus link master Controls communications traffic on a link and prevents multiple devices from communicating data at the same time MAN See manual mode manual mode MAN In this mode the block output is set by the user through the interface device node address The device address Thermo Fisher Scientific OOS See Out Of Service mode out of service mode OOS The mode typically used during block configuration In OOS mode the block is disabled PD tag The physical name of the device resource block Contains device information such as the device tag and device ID transducer block Allows a
64. on Block Application teniente 3 13 Saving amp Downloading the Configuration sss 3 15 Other Configurator Functions ies teaches 3 16 DensityPRO sepe tpe 4 1 Density SEED Ioas meten 4 2 Time Constants oce dee fud 4 4 Temperature Compensation Setup 4 4 Other Meas Assign ib et aee 4 6 View Other Meas angu eddie de dedu uat ud eiie 4 6 DensityPRO with FOUNDATION fieldbus Application Guide Contents viii Chapter 5 Chapter 6 Chapter 7 Chapter 8 Chapter 9 Appendix A Appendix B Appendix C Appendix D Appendix E Standardization amp Calibration 22222 5 1 Perform Standardization 5 1 5 2 Alarm Setup 6 1 FID 1 1 Diagnosties 8 1 Current Output a 8 1 Pesta qay a 8 2 Tri adici Tig 8 2 Device BENESSERE coda deb E usa 8 3 Troubleshooting amp Service 1 ss 9 1 Fieldbus Troubleshooting 9 1 Contact Informat on Ascot pce ten ded tts 9
65. onally left blank Thermo Fisher Scientific Chapter 6 Alarm Setup This chapter provides an overview on how to use the NI FBUS Configurator menus to configure alarms Note If you are not using the NI FBUS Configurator reference the documentation that came with your host system Note This chapter provides instructions using the NI FBUS Configurator menus as this is the preferred way to configure the instrument Move from one step to the next in the configurator method window by clicking Next or pressing Enter If your host does not support menus reference Appendix C for a list of DensityPRO parameters A Note For detailed discussion on alarm parameters reference the DensityPRO user guide P N 717784 1 In the NI FBUS Configurator go to AI TRANSDUCER gt 4 Alarm gt Alarm Setup 2 When prompted remove the loop from automatic control 3 Select alarm number to set up You can configure up to eight alarms Enter the alarm number you want to configure now 4 Alarm x set point Enter the set point the measurement value at which the alarm is activated 5 Alarm x clear mode Select a clear point or deadband configuration A clear point is the exact measurement value at which the alarm is cleared A dead band specifies the span between the set point and the implicit clear point 6 Alarm x clr point deadband Enter the clear point or deadband value DensityPRO with FOUNDATION fieldbus Application Guide 6 1
66. ostics Trends Others Methods Parameter Value Tua ADE m Parameter Value STATUS El PRIMARY VALUE SUBSTATUS m STATUS LIMITS m SUBSTATUS Cum UMITS COUNTDOWN_TIMER TC PRIMARY STD VALUE DETECT SIG VALUE Ready COUNTDOWN TIMER STD_VALUE 23950 DETECT_SIG_VALUE lt Hold current output at FAULT HIGH SOLID ATTEN COEF System test Use latest CAL value for CAL pt 1 PROCESS TEMP LEARNED A Lse Altemate Time Const lt Use Primary Time Const Erase all entries EVERYTHING eases est Write Changes Erase all alarm action assignments Hold current output at FAULT LOW Start Standardization Switch current out to alt pri mode ABORT Standardization Erase Protected NVRAM Refresh Selecting from a drop down list Entering a value Write Changes Figure 3 10 Examples of modifying parameters using the NI FBUS Configurator There are two ways to save your changes depending on what you want to do e Ifyou want the changes to take effect immediately click the Write Save button in the configuration window toolbar You can also click the Write Changes button on the bottom of the block configuration window e Make other changes and save them all at once by clicking the m Write Save All button in the configuration window toolbar If you do not click the Write Save All button
67. output Minimum current output Measurement number XX XX XX XX used for current output X Current output hold mode value of scale XX XX NOTE Loop may be returned to automatic control Figure 15 Current output setup E 10 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific DD Flow Blocks 6 Diag Service 2 Loop Test WARNING This function can affect device output Loop should be removed from automatic control Choose analog output level 1 4mA 2 20mA 3 Other 4 End Fld device output Fld device output is fixed at 4 mA is fixed at 20 mA 1 Yes 1 Yes 2 No 2 No Field device output is fixed at xx xx percent 1 Yes 2 No Returning field device to original output NOTE Loop may be returned to automatic control Figure 16 Loop test Thermo Fisher Scientific DensityPRO with FOUNDATION fieldbus Application Guide 11 DD Flow Blocks 6 Diag Service 3 Trim Analog Output Trim analog output WARNING This function can affect device output Loop should be removed from automatic control Connect Setting output reference meter to minimum current value Does set output xx xx mA equal readout device 1 Yes 2 Returning device to original output NOTE Loop may be returned to automatic control Figure 17 Trim analog output Hold s are active Keypad in use 4 Device Status Output is set at x xx mA E
68. pipe sizes 3 4 5 6 8 10 12 14 16 DensityPRO with FOUNDATION Fieldbus Application Guide 1 Ordering Information XX Pipe saddle for 18 42 pipes available pipe sizes 18 20 22 24 26 28 30 36 42 Code Backshield Option B Detector with backshield NEMA 4 only N No backshield Code Temperature Compensation N No selection T Temperature compensation board R Temperature compensation with RTD Code Communications 0 No selection A Thermo Scientific 9734 HHT E HART communication module F FOUNDATION fieldbus module Code Accessories optional L Lg SS tag 3 3 x 2 5 wired R RJ 11 modular connector jack D Model 9723 backlit LCD T Pipe tabs pipe saddles only Table 2 Spare parts Part Number Description 886631 Complete electronics chassis 8866 70 2 CPU assembly NDMI PWRO01 AC power supply assembly without relays NDMI PWRO02 AC power supply assembly with relays 886595 1 Kit 4 20 mA isolated self powered 885882 1 Backlit display PCB assembly circuit board only 886609 Temperature compensation circuitry assembly OPRO101C Complete electronics chassis with AC power supply no relays tested OPRO101D Complete electronics chassis with AC power supply with relays tested DPROCBLKIT Kit complete set of DensityPRO connection cables excluding HART 2 DensityPRO with FOUNDATION fieldbus Application Guide
69. plete standardization or calibration C 8 DensityPRO with FOUNDATION fieldbus Application G uide Thermo Fisher Scientific DensityPRO Specific Parameters Parameter Type R W Description DATA_REF_CNT_RATIO 5 R The data ref count ratio DAYS_GAUGE_ON CON R W The number of days the gauge is on in one week DENSITY_CAL_POINT1 CAL R W The density at calibration point 1 DENSITY HOLD MODE CON R W The hold value for the density measurement DENSITY SLOPE CAL R W Density slope DETECT SIG VALUE 5 R The internal value of the detector signal DPRO_CMD CMD R W Commands that can be issued to the DensityPRO Ready Select alternate time constant Hold current output Select primary time constant Clear all alarms Erase all entries EVERYTHING Start CAL cycle Restart Hold current output at maximum Erase all alarm action assignments setting Hold current output at minimum Hold current output at FAULT LOW setting Clear ALL holds Start Standardization Hold density at density hold mode Switch current out to alt pri mode value Hold current output at FAULT HIGH Abort standardization Start system test Erase protected NVRAM Use latest CAL value for CAL point 1 Refresh DRY_BULK_DENSITY_FOR_ CON R W The dry bulk density for flow measurement shown if bulk solids flow selected for FLOW_MEAS MEA1_READ MEA2_READ MEA3_R
70. provides instructions using the NI FBUS Configurator menus as this is the preferred way to configure the instrument Move from one step to the next in the configurator method window by clicking Next or pressing Enter If your host does not support menus reference Appendix C for a list of DensityPRO parameters A Note For detailed discussion on any of the diagnostic items discussed reference the DensityPRO user guide P N 717784 The steps below describe how to configure the current output 1 Go to AI TRANSDUCER gt Root Menu gt 6 Diag Service gt 1 Current Output gt Current output setup 2 When prompted remove the loop from automatic control 3 Max current output Enter the maximum current output between 0 and 20 5 mA 4 Min current output Enter the minimum current output between 3 8 and 20 mA 5 Current output hold mode value Enter the hold mode value for the current output The value is entered as a percentage of the maximum current output DensityPRO with FOUNDATION fieldbus Application Guide 8 1 Diagnostics Loop Test 6 Current output setup is complete The loop may be returned to automatic control Loop Test The Loop Test function allows you to manually manipulate the analog output to a selected constant output value 1 In the NI FBUS Configurator go to AI TRANSDUCER gt Root Menu gt 6 Diag Service gt 2 Loop Test gt Loop test 2 When prompted remove the loop from automat
71. r Ver 3 2 3 FCP1 gt NI FBUS Configurator Ver 3 2 3 FCP1 Fie Network Parameters Configure Window Heb Fie Function Block Apoication Configure View Window Heb Hide Grid Hide Help Hide Help amp F interface0 0 we interfaceO 0 1 Network Parameters Network Parameters FBAP Grid o 5 Schedule Schedule Function Block Application Function Block Application interface0 0 interface0 0 1 DensityPRO 085100079 DensityPRO 085100079 RESOURCE 085100079 RB2 RESOURCE 085100079 RB2 AI TRANSDUCER 085100079 ATTI AI TRANSDUCER 085100079 Figure 3 4 Object menus for Network Parameters and Function Block Application The contents of the middle frame can vary depending on what you are currently doing For instance if you double click on the Function Block Application FBAP object in the configuration tree the FBAP grid opens in the middle frame You can open multiple windows in the middle frame Use the Minimize Restore Down and Close buttons in top right corner of the window as you would in other Windows based programs DensityPRO with FOUNDATION fieldbus Application Guide 3 5 The NI FBUS Configurator Configurator Interface NI FBUS Configurator Ver 3 2 3 interface0 0 Function Block Application ta Fie Edt Configure Zoom View Window Help C Hide FRAP Grid Hide Help
72. r host documentation The resource block is in OOS mode Set the resource block mode to AUTO Other blocks cannot be in AUTO mode if the resource block is in OOS mode A device is not shown in the configuration tree Communication parameters are incorrect Verify communication parameters reference your host documentation A function block alternates between MAN and AUTO modes Status of the input parameter is Bad No comm There is not enough time between the function block and communication schedules Edit the schedule to add more time between the function block and communication schedules reference your host documentation A block parameter cannot be modified The parameter is read only If the parameter is read only it may not be modified The block operating mode is incorrect Certain parameters can only be modified in OOS or MAN modes reference your host documentation The data is out of range Enter data within the specified range There is no power to the device Check ALARM_STATUS_FLAGS_3 If FB IF to device comm error is displayed check the DensityPRO CPU A device does not transmit alarms Alarms are not configured Configure alarms reference your host documentation Block alarm active parameters Thermo Fisher Scientific Invalid feature selection The ANALOG_INPUT block units do not match the transducer block units DensityPRO w
73. reference meter Does set output x mA equal readout device Confirm the set output and reference meter reading are the same Enter 1 to continue to the next step If you need to modify the value again enter 2 If you entered 1 in the previous step the software will show that the field device is being returned to its original output Click Next to finish the process The loop may be returned to automatic control Device Status When you select the Device Status item from the Diag Service menu any alarms or bad flags indicators that the gauge has been incorrectly configured are displayed Click Next to view each one An example is shown below Thermo Fisher Scientific Process 1 0 Config Alarms Diagnostics Trend Others Methods Device status FB IF to device comm error Status information has been displayed Figure 8 1 Device status example DensityPRO with FOUNDATION fieldbus Application Guide 8 3 This page intentionally left blank Troubleshooting Chapter 9 Troubleshooting amp Service Fieldbus table below provides troubleshooting for problems related to the 8 tor p fieldbus network Table 9 1 Fieldbus troubleshooting Description of Problem Possible Cause Possible Solution Corrective Action AI_TRANSDUCER block will not go into AUTO mode stays in OOS mode Configuration is incorrect or incomplete Verify configuration reference you
74. t used to calculate the density based on the detector signal SOLID GRAVITY CON R W The gravity of the solids in the process material SOLID TEMP COMP POLY CON R W The solids temperature compensation polynomial If the material type is solution 0 user defined 3 sugar at 5096 1 sugar at 10 4 sugar at 75 2 sugar at 2596 If the material type is slurry single phase or emulsion 0 1 2 3 4 user defined SOLID TEMP EQ COEFA CON R W Solids temperature compensation equation coefficient A SOLID TEMP COEFB CON R W Solids temperature compensation equation coefficient SOLID TEMP COEFC CON R W Solids temperature compensation equation coefficient C SOLUTION POLY COEFA CON R W Solution polynomial coefficient A SOLUTION POLY COEFB CON R W Solution polynomial coefficient B SOLUTION POLY COEFC CON R W Solution polynomial coefficient C SOLUTION POLY COEFD CON R W Solution polynomial coefficient D SOLUTION POLY TYPE CON R W The polynomial formula used to relate the solution s density to its concentration 1 Suc 0 100 7 0 52 2 D Fruc 0 60 8 0 40 3 D Gluc 0 10 9 0 40 4 NaCl 0 50 10 A Lac 0 18 5 NaOH 0 50 11 0 18 6 KCI 0 24 13 User entered polynom SOURCE HALF LIFE VALUE CON R W The source half life in years STD_IN_USE_VALUE 5 R The standardization value currently in use STD_ON_PIPE_COND CON R W The condition of
75. tes 2 sec 00 Auto Process 1 0 Config Alarms Diagnostics Trends Others Methods Clear All Holds Warning This function can affect the device output Loop should be removed from automatic control NOTE Loop may be returned to automatic control Method execution has completed Figure 3 9 Clearing all holds Thermo Fisher Scientific Write Changes Read All using menus DensityPRO with FOUNDATION fieldbus Application Guide 3 11 The NI FBUS Configurator Configurator Basics Directly Editing Parameters Caution The preferred configuration method is to use menus as described in the previous section however you can edit a parameter directly if your host does not support menus Take care when modifying parameters directly If you change the value for one parameter you may need to change the value for other parameters To edit a parameter click on it In some cases you set the parameter value by selecting from a drop down box For other parameters you enter the value When you change a parameter an asterisk appears by the name 085100079 AI TRAN E X DensityPRO 085100079 AI TRAN 8 Apply Values Root Menu A TRANSDUCER 9 193 Periodic Updates 3 5 Process 1 0 Config Alarms Diagnostics Trends Others Methods Ja TRANSDUCER ___ 20 Mi 25 mime Periodic Updates 2 Process 1 0 Config Alarms Diagn
76. that may not have been anticipated in the written procedures If a procedure cannot be performed safely it must not be performed until appropriate actions can be taken to ensure the safety of the equipment and personnel The procedures in this manual are not designed to replace or supersede required or common sense safety practices safety warnings listed any documentation applicable to equipment and parts used in or with the system described in this manual must be read and understood prior to working on or with any part of the system Failure to correctly perform the instructions and procedures in this manual or other documents pertaining to this system can result in equipment malfunction equipment damage and or injury to personnel The following admonitions are used throughout this manual to alert users to potential hazards or important information Failure to heed the warnings and cautions in this manual can lead to injury or equipment damage Warning Warnings notify users of procedures practices conditions etc which may result in injury or death if not carefully observed or followed The triangular icon displayed with a warning may contain a lightning bolt or the radiation symbol depending on the type of hazard A DensityPRO with FOUNDATION fieldbus Application Guide ix Safety Information amp Guidelines Warnings Cautions amp Notes Caution Cautions notify users of operating procedures practices conditions etc
77. the pipe during standardization 0 2 empty 1 full of carrier 6 full of process STD_VALUE CON R W The standardization value from the last cycle STD_X_TIME_CONST CON R W The number of time constant periods used for the standardization cycle TC_ALTERNATE CON R W The alternate time constant DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific DensityPRO Specific Parameters Parameter Type R W Description TC_PRIMARY CON R W The primary time constant TEMP_CONSTANT CON R W The temperature constant in deg C TEMP INPUT SOURCE CON R W The source of the temperature input signal 0 not used 2 Manual entry 1 100 ohm American RTD TEMP OFFSET CORRECTIO CON R W N The temperature offset correction in deg C USE TEMP COMP ON STD CON R W Select whether temperature compensation equation will be used on the standardization cycle 0 no 1 yes VOLUME FLOW TIME UNIT CON R W The time units assigned the volume flow measurement 2 minutes 3 hours WKS_SINCE_LAST_STD CON R W The number of weeks since the last standardization XRAY_MAX_HOLD_TIME CON R W The xray safeguard maximum hold time in seconds XRAY_MIN_HOLD_TIME CON R W The xray safeguard minimum hold time in seconds XRAY_MODE CON R W The xray safeguard mode 0 disable xray safeguard
78. tion 1 Enable disable temp comp Choose whether equation 1 will be used for standardization If you standardize with the pipe full and the temperature is different than the reference temperature the density during the standardization measurement may be significantly different from the reference density value e g the carrier gravity for slurry that is assumed to correspond to the standardization To correct for this select to use temperature compensation With this setting the gauge uses the process temperature measured at the end of the standardization cycle and the temperature compensation polynomial to normalize the standardization measurement to what it would have been at the reference temperature Coefficients A B C for equation 2 Enter three coefficients A B C for equation 2 Temperature error correction Enter the temperature offset correction For example if the gauge consistently reads 2 C over the actual process temperature enter an offset correction of 2 C Temperature compensation setup is complete Loop may be returned to automatic control DensityPRO with FOUNDATION fieldbus Application Guide 4 5 DensityPRO Setup Other Meas Assign Modify Other Meas Assign Modify View Other Meas The Other meas assign amp modify menu allows you to configure other measurements and modify existing ones Go to AI TRANSDUCER gt Root Menu gt Setup gt 4 Other meas assign modify gt Other meas assign modify
79. tion on FOUNDATION fieldbus visit http www fieldbus org DensityPRO with FOUNDATION fieldbus Application Guide 1 1 Product Overview Fieldbus Overview Links and Devices Blocks A FOUNDATION fieldbus network consists of links and devices A link is the serial bus that connects the devices on the network There are three types of devices e Link master The DensityPRO with FOUNDATION fieldbus has link master capabilities This device type controls communications traffic on a link and prevents multiple devices from communicating data at the same time A link master may also be the Link Active Scheduler LAS which is the device that is currently controlling access to the fieldbus A fieldbus network may have more than one link master per link but there may be only one LAS at a time e Basic device This device type can communicate on the fieldbus network but it cannot become the LAS e Bridge This device type connects two or more links in a fieldbus network A device is identified by its device tag and device ID The device tag is the unique name you assign to it and the device ID is a unique identifier assigned by the manufacturer The device ID cannot be changed Blocks allow you to configure and control the fieldbus gauge A block is identified by its block tag which is similar to the device tag The block tag uniquely identifies the block on the network Linkages connect two blocks and enable the transfer of data
80. tup E 2 Density Setup menu 3 10 DENSITY CAL POINTI C 9 DENSITY HOLD MODE C 9 DENSITY SLOPE C 9 DETECT SIG VALUE C 9 device description 3 8 flow blocks 1 13 installation 3 1 device ID 3 4 device status 8 3 E 12 Diag Service menu 3 10 E 9 DPRO_CMD C 9 DRY DENSITY FOR FLOW MEAS 9 E erase all entries 7 1 E 9 DensityPRO with FOUNDATION M fieldbus Application Guide INDEX 1 Index F fieldbus 1 1 B 3 connector 2 1 jumper settings 2 2 parameters for DensityPRO 1 16 system connections 2 1 2 2 troubleshooting 9 1 FLOW_VOLUME_UNIT C 10 FOUNDATION fieldbus introduction 1 1 1 3 system connections 2 1 2 2 H HEAD_TYPE C 10 HV_CTL C 10 See inputs outputs inputs contact closure 1 3 overview 1 3 specification B 2 IOUT_HOLD_VALUE C 10 IOUT_MAX_CORRECTION C 10 IOUT_MIN_CORRECTION C 10 IOUT1_VALUE C 10 IOUT1_VALUE_PERCENT C 10 J jumper settings for fieldbus board 2 2 L LAST_STD C 10 link master 1 2 loop test 8 2 E 11 LUMP_STATUS C 10 MAN See manual mode manual mode 3 9 INDEX 2 DensityPRO with FoUNDATION fieldbus Application Guide MASS FLOW TIME UNIT C 10 MASS FLOW UNIT C 10 MATERIAL TYPE C 10 MAX VALUE C 10 MEA NUM AT CURRENT OUT ALTMODE C 11 1 READ C 11 1 READOUT C 11 1 UNIT C 12 2 READ C 12 MEA2 READOUT C 12 MEA3 READ C 12 MEA3_READOUT C 12 4 READ
81. ty Measurement 1 Density 3 Solids content vol 4 Carrier content vol 5 Solids carrier 6 by weight solids 7 by weight carrier 8 volume solids 9 bv volume carrier Source Head Geometry 1 5190 5 5201 2 5191 6 5202 3 5176 7 5203 5204 4 5200 8 5211 Solvent Gravity X XX Solution Type 1 Suc 0 100 2 D Fruc 0 60 3 D Gluc 0 1096 4 NaCl 0 50 5 NaOH 0 50 6 0 24 7 0 52 8 0 40 9 H3P03 0 40 10 A Lac 0 18 11 H Lac 0 18 13 User entered polynom Temp Input Source 0 Not used 1 100 ohm American 2 Manual entry Primary Measurement 1 Density 2 Bulk Density 3 Solute content vol 4 Solvent content vol 5 Solute Solvent 6 by weight Solute 7 by weight Solvent 8 by volume Solute 9 by volume Solvent 24 Pt Level 25 Glass Level Structural Unit 1 4 ft 2mm 6m Pipe Inside Diameter X XXX Figure 3 Density setup E 2 DensityPRO with FOUNDATION fieldbus Application Guide 1 Density Setup Material Type 1 Slurry 2 Solution 3 Single phase 4 Emulsion Primary Measurement 1 Density 2 Bulk Density Solution Polynomial A Coefficient X XXX Solution Polynomial Coefficient X XXX Solution Polynomial C Coefficient X XXX Solution Polynomial D Coefficient X XXX Density Setup Fluid1 Gravity X XX Fluid2 Gravity XXX Primary Measurement 1 Density 3 Fluid2 content vol 4 Fluid 1 content
82. user to configure or view setup parameters and access system diagnostic tools DensityPRO with FOUNDATION fieldbus Application Guide GLOSSARY 1 This page intentionally left blank Index 4 4 20 mA current output 1 3 specification B 2 A actions 7 1 AI TRANSDUCER block 1 2 3 3 C 1 D 1 AI Transducer Parameters E 13 alarm clear point 6 1 alarm deadband 6 1 alarm set point 6 1 alarm setup 6 1 6 2 E 8 ALARM STATUS FLAGS 1 C 2 ALARM STATUS FLAGS 2 C22 C 3 ALARM STATUS FLAGS 3 C 3 ALARMI C 4 C 5 C 6 C 7 ALARM2 4 C 5 C 6 C 7 alternate time constant 4 4 analog input block 1 2 ANALOG INPUT block 1 2 3 3 AUTO See automatic mode automatic mode 3 9 BAD FLAGS 1 C 7 C 8 BAD FLAGS 2 C 8 blocks 1 2 mode types 3 9 C CAL STD RATIO FROM C 8 CAL X TIME CONST C 8 CALI TEMP C 8 CAL2 TEMP C 8 calibration 5 2 5 3 7 CARRIER ATTEN COEF C 8 CARRIER GRAVITY C 8 Thermo Fisher Scientific CARRIER TEMP COMP C 8 CARRIER TEMP EQ COEFA C 8 CARRIER TEMP EQ C 8 CARRIER TEMP EQ COEFC C 8 Clear all alarms 7 1 E 9 clear all holds 7 1 commands D 1 D 2 connections 2 1 2 2 contact closure input 1 3 contact closure output specification B 2 contact information 9 2 COUNTDOWN TIMER C 8 current output setup 8 1 E 10 DATA REF RATIO 8 DAYS GAUGE 9 DD See device description density setup 4 2 4 3 density se
83. you can make all the changes take effect when you download the project by checking the Write Contained Block Parameters box Download the configuration is explained further in Saving amp Downloading the Configuration 3 12 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific NI FBUS Configurator Configurator Basics After saving the asterisk that appeared by the modified parameter will clear indicating that the changes have been accepted Note If you do not want to save the changes you made you can undo them by clicking the Read All button at the bottom of the configuration window This causes a read of the parameter values stored in the device before the changes Updating There are several ways to update the parameter values To update parameters in the block configuration window you have open click the Read All Set Defaults icon in the toolbar lt This may also be accomplished by clicking the Read All button at the bottom of the window e Toupdate a single parameter click on it and then click the Read fal Selected Set Selected Default icon e To update all parameters in the block configuration window automatically click the Periodic Updates box and select a poll rate Function Block Typically once you have configured block parameters you can create a Application block diagram or control strategy Following is an example of how to create a basic connection to t
84. zation Fill the pipe with process material at a density in the range of interest Keep the process density as stable as possible during the calibration measurement and be ready to take samples of the material during the calibration cycle In the NI FBUS Configurator go to AI TRANSDUCER gt 3 Gauge Calibration gt GAUGE CALIBRATION When prompted remove the loop from automatic control CAL Cycle Time Specify the number of time constant periods used for the standardization If the time constant is 128 seconds and you enter 2 here the standardization cycle will last 256 seconds 2 x 128 seconds Start Calibration Cycle Enter 2 to begin the calibration cycle 5 2 DensityPRO with FOUNDATION fieldbus Application Guide Thermo Fisher Scientific Thermo Fisher Scientific 8 10 11 Standardization amp Calibration Perform Calibration During the cycle take several samples of the process material and determine the average of the sample densities CAL STD ratio from latest CAL When the calibration cycle is complete the ratio of the last calibration measurement to the standardization value is displayed Use latest CAL value for CAL point 1 To use the calibration value for CAL point 1 enter 2 Enter 1 if you do not want to use the value for CAL point 1 Calibration is complete and the loop can be returned to automatic control DensityPRO with FOUNDATION fieldbus Application Guide 5 3 This page intenti
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