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Dynamic Fluid Measurement 

SFC3 Liquid Pulse Manual  

Data Entry  2-24 

 

 

Date: 8/1/2019 

 

Assignment 

Comments 

24 

Stream#2 Flow Direction 

 

25 

Stream#2 Product ID Bit 0 
Stream#2 Product ID Bit 1 
Stream#2 Product ID Bit 2 
Stream#2 Product ID Bit3 

Product ID Bits:  Before ending batch, user can use status 
bits to select next product.  These bits are read immediately 
at batch end. 
See the following table to specify a product. 

26 
27 
28 
29 

Stream#3 Flow Direction 

 

30 

Stream#3 Product Bit 0 
Stream#3 Product Bit 1 
Stream#3 Product Bit 2 
Stream#3 Product Bit 3 

Product ID Bits:  Before ending batch, user can use status 
bits to select next product.  These bits are read immediately 
at batch end. 
See the following table to specify a product. 

31 
32 
33 
34 

Display Freeze 

 

35 

Display Toggle 

 

36 

Stream#1 Partial Batch End 

 

37 

Stream#2 Partial Batch End 

 

38 

Stream#3 Partial Batch End 

 

39 

End All Streams Batch 

 

40 

End All Streams Partial Batch 

 

 

 

 

Summary of Contents for SFC3

Page 1: ...Date 8 1 2019 SFC3 OPERATORS MANUAL Smart Flow Computer Liquid Pulse Version 11104 W Airport Blvd Suite 108 148 Stafford Texas 77477 USA 281 565 1118 Fax 281 565 1119 ...

Page 2: ...EU OF ANY OTHER WARRANTY EXPRESS IMPLIED OR STATUTORY BUT NOT LIMITED TO ANY WARRANTY OF MERCHANTABILITY FITNESS FOR PARTICULAR PURPOSE OR ANY WARRANTY ARISING OUT OF ANY PROPOSAL SPECIFICATION OR SAMPLE LIMITATION OF LIABILITY DYNAMIC FLUID MEASUREMENT SHALL HAVE NO LIABILITY FOR ANY INDIRECT OR SPECULATIVE DAMAGES INCLUDING WITHOUT LIMITING THE FOREGOING CONSEQUENTIAL INCIDENTAL AND SPECIAL DAMA...

Page 3: ...ing for passive dry contact pulse generators 1 23 Density input wiring 1 24 RS 232 Connection 1 25 RS 485 Connection 1 26 Wiring of Status Inputs 1 27 Wiring of Switch Pulse Outputs 1 28 I O Expansion 1 29 Wiring of Brooks Prover 1 32 Wiring of Calibron Prover 1 33 CALIBRATION 1 34 Analog Input 4 20mA or 1 5 volt signal 1 34 RTD calibration 1 35 Calibration of analog output 1 36 Multi Variable Tra...

Page 4: ...nd Stream Data 2 15 METER DATA 2 16 PRODUCT DATA 2 19 OTHER PARAMETERS 2 20 Day Start Hour 0 23 2 20 Company Name 2 20 Flow Rate Average Second 2 20 Old Table Gravity Unit 2 20 Disable Alarms 2 20 Print Intervals in Minutes 2 20 GM CC Conversion Factor 2 20 Weight of H2O in Vac 60 Deg F 2 20 Atmospheric Pressure 2 20 Pulse Output Width 2 20 Date and Time 2 20 End Batch 2 20 Overrides 2 20 Security...

Page 5: ...DATA 4 1 MODBUS PROTOCOL 4 1 TRANSMISSION MODE 4 1 ASCII FRAMING 4 1 RTU FRAMING 4 1 FUNCTION CODE 4 2 ERROR CHECK 4 2 EXCEPTION RESPONSE 4 2 BROADCAST COMMAND 4 2 MODBUS EXAMPLES 4 3 FUNCTION CODE 03 Read Single or Multiple Register Points 4 3 Scaled Data Area N 1 meter1 2 meter2 6 meter6 4 13 Stream Data Area N 1 Stream 1 2 Stream 2 3 Stream 3 4 14 Last Batch Daily Hourly Data Area 4 21 Stream D...

Page 6: ...he measurement of liquid products Twelve days of previous daily data twelve previous batch data and twelve previous hourly data are stored in the full format type reports The previous 50 audit trail reports and 50 alarm reports are stored User formatted reports and user formatted ticket reports are available Sixteen different product files are user configurable with easy switch feature and product...

Page 7: ...SH ROM 4 MB 70 NANO SECONDS ROM 2 MB 30 NANO SECONDS FREQUENCY INPUT 3 CHANNELS 0 5000 Hz 70 mV FOR SIN WAVE 6 VOLTS FOR SQUARE WAVE ANALOG INPUT FOUR 24 BIT CHANNEL RTD INPUTS 2 CHANNELS 4 WIRES ANALOG OUTPUT 2 CHANNELS 12 BIT SINGLE ENDED DIGITAL OUTPUT OUTPUTS 1 2 PULSE SWITCH 0 5 AMPS RATING OUTPUTS 3 TO 5 ARE SWITCH OUTPUTS 0 25 AMPS RATING STATUS INPUTS 4 ON OFF TYPE SIGNAL ALL INPUTS AND OU...

Page 8: ... SFC332 1000 332 07 Enclosure for SFC332 1000 332 08 Mounting Bracket w captive screws for SFC332 1000 Boards 332 09 Adapter between SFC1000 and Rosemount 205 332 10 Center portion of housing for SFC332 1000 enclosure 332 11 Glass Dome Cover for SFC332 1000 Enclosure 332 12 Blank Dome Cover for SFC332 1000 Enclosure 332 13 O ring for SFC332 Enclosure 332 14 External I O Expansion 332 15 Battery Re...

Page 9: ...Dynamic Fluid Measurement SFC3 Liquid Pulse Manual Quick Start 1 4 Date 8 1 2019 Smart Flow Computer Dimensions ...

Page 10: ...ements In order to install this software product the following requirements must be met Windows Operating System Win95 Win98 Win98SE win2000 WinNT WinXP Vista Windows 7 Windows 8 Windows 10 For Windows NT 2000 XP or Vista Administrator level access to create an ODBC system DNS Minimum disk space available 16 MB 1 Serial Communication Port If your computer meets these requirements you can run the s...

Page 11: ... WWW DYNAMICFLOWCOMPUTERS COM Step 2 Click on the Downloads Step 3 Select either Windows or DOS software based on Step 2 Step 4 On the new screen presented to you click on the application that you are trying to download Once you hit the link it will ask you if you want to run or save the file in your computer Select SAVE See illustration 1 ...

Page 12: ...will start to transfer to your computer The download time depends on your Internet connection speed and the type of application that being downloaded Step 6 When the download if finish Press the OPEN button to start the setup process See Illustration Step 7 Follow the steps in the application setup ...

Page 13: ...rs are also shown refer to the next drawing Back Panel Jumpers for information on their settings and functions The Smart Flow Computer receives its power via the two topmost pins on Terminal P1 on the left of the terminal board Also on Terminal P1 are from top to bottom inputs from the two turbines and the RS 485 serial connection To the right P4 from top to bottom is status input 1 density freque...

Page 14: ...stration a jumper is ON when the jumper block is used to connect the jumper s to wire prongs OFF means the jumper block is completely removed or attached to only one of the two wire prongs Note R11 and R3 could have a vertical orientation instead of a horizontal orientation on certain Smart Flow Computer models ...

Page 15: ...Dynamic Fluid Measurement SFC3 Liquid Pulse Manual Quick Start 1 10 Date 8 1 2019 Memory Jumper ...

Page 16: ...ck Start 1 11 Date 8 1 2019 Steps to clear memory through removing the memory jumper 1 Turn off the power move the jumper to the next two pins wait for 5 seconds 2 Put the jumper back Memory cleared and Flow Computer ID is set to 1 9600 baud rate RTU mode ...

Page 17: ...Dynamic Fluid Measurement SFC3 Liquid Pulse Manual Quick Start 1 12 Date 8 1 2019 ...

Page 18: ...Dynamic Fluid Measurement SFC3 Liquid Pulse Manual Quick Start 1 13 Date 8 1 2019 ...

Page 19: ...prover densitometer or spare temperatures are inputted via terminal P5 on the back panel Assignment 7 indicates a density frequency input it is assigned automatically once you choose live density frequency input in the setup menu at density type selection and it can only be assigned via Meter Set Up Density n where n 1 to 4 Assignment 10 module 1 and assignment 11 module 2 are used for Rosemount m...

Page 20: ...eyond that range require a 4 20mA signal to the flow computer Density coefficients for raw frequency inputs are programmed in this menu The menu will only show parameters relevant to the live density selected i e Solartron or UGC etc NOTE Solartron density input requires values in US units i e PSI and F Request a calibration sheet in US units from the densitometer manufacturer ...

Page 21: ...flow computer for the 1 5 volt signal because the flow computer calibration defaults for the 4 20mA which is different from the 1 5 volts JP5 must be cut for 1 5 volt inputs The jumpers for analog 1 4 are in order from right to left It is possible to cut the first two jumpers for analog 1 2 in for 1 5 volts signal and have analog in 3 4 as 4 20mA signal Signal line impedance provided by our flow c...

Page 22: ...Dynamic Fluid Measurement SFC3 Liquid Pulse Manual Quick Start 1 17 Date 8 1 2019 Wiring the Analog Inputs 1 4 ...

Page 23: ... ENTER The flow computer shows wiring to RTD 1 and RTD 2 100 platinum can be used a temperature range of 43 F to 300 F can be measured RTD 1 is to the right where P5 designation is In the figure below notice that each side of the RTD requires two wire connections When using less than 4 wires a jumper must be used to make up for the missing lead Internal excitation current source generated is appro...

Page 24: ...ill regulate 4 20mA current loop but DOES NOT source the power for it External power is required ASSIGNING RANGING THE 4 20MA ANALOG OUTPUTS Go to the I O assignment main menu and scroll to Analog Output Assignment Press ENTER A selection menu is prompted Select the analog output number and then enter what the 4mA output will indicate and the 20mA Make sure that the 20mA assignment value exceeds t...

Page 25: ...nd JP2 must be off when using sine wave On the other hand when using square wave the square wave signal can be sinusoidal but has to be above 5 volts peak to peak with less than 0 4 volts offset in order for the flow computer to read it R11 and R3 must be off and JP3 on for meter 1 JP2 must be on for meter 2 Note When connecting square wave input the JP3 and JP2 connect the turbine return to the f...

Page 26: ...Dynamic Fluid Measurement SFC3 Liquid Pulse Manual Quick Start 1 21 Date 8 1 2019 TURBINE SINE WAVE ...

Page 27: ...Dynamic Fluid Measurement SFC3 Liquid Pulse Manual Quick Start 1 22 Date 8 1 2019 TURBINE SQUARE WAVE Note R11 and R3 are oriented vertically in some flow computers ...

Page 28: ...ower but instead require external power they are referred to as passive outputs dry outputs open collector etc For example the Krohne UFM 3030 Mass meter In these cases the wiring should be as shown on the below diagram The pull up resistor can be adjusted to limit the current sink by the Mass meter For Turbine Input 1 JP3 must be ON and R11 OFF and if using Turbine Input 2 then JP2 must be ON and...

Page 29: ...nsity and press ENTER Find two drawings one with barrier and the other without Barriers are used for area classification Notice that the RTD wiring is also drawn to show how to hook the density RTD signal Note When wiring the density input polarity is of significance and reverse polarity could result in some damage or power loss The density signal is on connector P4 the third and fourth pin down f...

Page 30: ... top corner of the board on the same side of the RS 232 connector The two jumpers at the top are for terminating the transmit line and below it is the receive line The RS 232 port can be used for printing reports Modbus communication or interfacing to the configuration program If the port is configured as printer port in the flow computer communication setup then reports get printed i e interval a...

Page 31: ...g diagram under RS 485 The RS 485 termination jumper is JP4 located on the back terminal The maximum distance when 18 gauge wire is used would be 4000 feet Note Twisted shielded cable is required WARNING When the RS 485 terminal is used external transient protection and optical isolation is required especially for long distance wiring ...

Page 32: ...rd status input is shown in the wiring diagram under Status Input It has 4 volts of noise hysteresis with a trigger point of 5 volts and an off point of 1 Volt Status inputs 2 3 and 4 require the I O expansion connector and its wires be installed refer to wiring drawing IO Exp Connection numbers 6 7 and 8 are the status in positive for inputs 2 3 and 4 respectively and 11 is the return for all thr...

Page 33: ...ER The wiring diagram shows switch 1 and 2 and the return Please note that switches 3 4 and 5 cannot be used for pulse output switches 1 and 2 can be used for pulse or switch output See also I O Expansion Notice that the switch outputs are transistor type outputs open collector type with maximum DC rating of 350 mA continuous at 24 VDC and require external power ...

Page 34: ...he outer end of the wire The tag will indicate the wire number The following is the sequence for the wires On the top right edge of the connector towards the top outer side of the CPU board is pin 1 across from it is pin 9 Connection Purpose Comments 1 detector switch 1 Requires prover option CPU to operate Rating 5 36 Vdc 2 detector switch 2 3 switch output 3 Maximum rating 75mA 24 volts Range 5 ...

Page 35: ...Dynamic Fluid Measurement SFC3 Liquid Pulse Manual Quick Start 1 30 Date 8 1 2019 ...

Page 36: ... prover option CPU to operate Rating 5 36 Vdc 2 detector switch 2 3 switch output 3 Maximum rating 75mA 24 volts Range 5 36 Vdc 4 switch output 4 5 switch output 5 6 status input 2 Rating 6 36 Vdc 7 status input 3 8 status input 4 9 Return detector switches 10 Return switches 3 4 5 11 Return status 2 3 and 4 12 RS232 TX 13 RS232 RX 14 RS232 RTS 15 RS232 ret ...

Page 37: ...Dynamic Fluid Measurement SFC3 Liquid Pulse Manual Quick Start 1 32 Date 8 1 2019 Wiring of Brooks Prover ...

Page 38: ...Dynamic Fluid Measurement SFC3 Liquid Pulse Manual Quick Start 1 33 Date 8 1 2019 Wiring of Calibron Prover ...

Page 39: ...readings press F2 key and then the flow computer will display the new calibrated readings The offset type calibration is mainly used when a small offset adjustment needs to be changed in the full scale reading The offset will apply to the zero and span FULL CALIBRATION METHOD To perform full calibration be prepared to induce zero and span type signal 1 Induce the low end signal i e 4mA in the anal...

Page 40: ...bration see offset calibration below Calibration after that will be simple verification for the stability of the transmitter If it drifts abnormally then you need to verify the other parts involved RESET TO DEFAULT CALIBRATION To go back to the default calibration simply press F8 and scroll to the RTD input and press ALT R key followed by F3 function key OFFSET CALIBRATION For offset calibration s...

Page 41: ... calibration device Multi Variable Transmitters Model 205 DP and Pressure OFFSET CALIBRATION 1 Induce live value for temperature pressure or DP 2 Go to Calibration Multi Variable menu 3 Press F8 point to the value being calibrated enter the correct value followed by ENTER and then press F3 to download data 4 Now read induce live values to verify the calibration FULL SCALE CALIBRATION 1 Press F8 Sc...

Page 42: ...ed to simply connecting the actual RTD and doing an offset point calibration see offset calibration below Calibration after that will be simple verification for the stability of the transmitter If it drifts abnormally then you need to verify the other parts involved RESET TO DEFAULT CALIBRATION To go back to the default calibration simply press F8 and scroll to the RTD input and press ALT R key fo...

Page 43: ...er turbine input wiring Density input can be sine or square wave with or without DC offset Minimum accepted signal has to be greater than 1 2 volt peak to peak Status input is shown below the frequency input to the left of the screen When the status input is on the live diagnostic data will show ON Minimum voltage to activate the status is 7 volts with negative threshold of 2 volts Switch outputs ...

Page 44: ... Volume Provers use pulse interpolation for fractional meter pulse counting To interpolate fractional meter pulses or to mathematically interpolate partial pulses Dynamic uses the double chronometry method for this purpose since it is the method most widely used Double Chronometry Double chronometry pulse interpolation increments time precisely every millisecond A high frequency master oscillator ...

Page 45: ...mixes API 2565 is used for propylene and ethylene In addition NBS 1045 can be selected for ethylene calculations ASTM 1550 can be used for butadiene Terms 1 3600 BSW LMF CPL CTL IV LMF CPL CTL IV CPL CTL IV L Pulses BB Factor K Nominal es sec Total Puls NSV Volume Standard Net GSV Volume Standard Gross ISV Volume Standard Indicated IV Volume Indicated Correction Rate Flow Linearized Factor Meter W...

Page 46: ...rtant area of the screen is the filename area This is the rightmost section of the menu bar it informs you what configuration file you are presently viewing and editing In the example above you are editing the file mainunits When you first begin the SFC sotware however it will display because no file has yet been chosen Until you choose a file to edit or view by opening either an existing file or ...

Page 47: ...e Flow Computer You are prompted for the new file s name of eight characters or less If you enter the name of a pre existing file the software informs you of this and prompts you for your file s name again After a file is opened it becomes the currently active file its contents can be viewed and its parameters can be edited Delete a File Delete a file when that file is no longer needed When this f...

Page 48: ...e Unlike every other file function View File does not act upon configuration files Instead View File allows the user to view files that were previously captured in a report For capturing data in a report look for these items under the Report menu header Prev Hourly Data Prev Daily Data Alarm Data Audit Trail Report TicKet Report Auto Data Retrieval Current Data When viewing a file use PageUp and P...

Page 49: ...19 Save When permanent modifications are performed on a file user must save the new changes before exiting the program or proceeding to open a different file Save and Exit Exit the program and save the parameters that were changed Exit Exit without saving new modified parameters ...

Page 50: ...to 247 Only one master can exist in each loop Note Do not duplicate the Unit ID number in a single communication loop This situation will lead to response collisions and inhibit communications to units with duplicate ID numbers Modbus Type Note this parameter must be set the same for both the PC and the Flow Computer for communication to occur The Modbus Communication Specification is either Binar...

Page 51: ...pecially when using a half duplex RS 485 port it allows the RS 485 port to turn off A delay of 50 milliseconds is normally sufficient RTS can also be used as transmit line to printer RTS to Pin2 Common to Pin7 Flow Computer Communication Set Up Unit ID Number The Unit ID Number is used strictly for communication purposes it can take any value from 1 to 247 Note Do not duplicate the Unit ID number ...

Page 52: ...ts per second The available selections are 1200 2400 4800 or 9600 Select 0 RTS 1 Printer RTS line has dual function selection either RTS for driving request to send or transmit to serial printer To use serial printer interface for printing reports ie batch daily interval and proving Connect the serial printer pin2 to RTS and common return to pin7 and select 1 for printer Port 2 Number of Nulls Thi...

Page 53: ...ialing Comma Pause Example T 9 1281 530 5539 instructs the dialer to use tone dialing pause dial 9 for an outside line pause then dial the number Modem Setup Modem Dial Prefix Enter the string sent to the modem before the phone number Normally either ATDT dial tone or ATDP dial pulse Modem Dial Suffix Enter the string sent to the modem after the phone number Normally just M CR Modem Hangup String ...

Page 54: ...low Computer Modbus type parity baud rate etc or lack of power to the Flow Computer To use this feature the user must insure that only one Flow Computer is connected to the PC More than one Flow Computer in the loop will cause data collisions and unintelligible responses Diagnostic Data Diagnostic Data shows real time live data Use it to monitor switch outputs status inputs analog inputs and outpu...

Page 55: ...ns Prover Shaft Temperature Override The shaft temperature override is used in piston type provers The temperature for the shaft is normally the ambient temperature CTL or CPL Override Enter the override value the proving meter temperature and pressure correction will default to the override value Zero in the data entry indicates use calculated value Prove Data PROVER REPORT NUMBER The number that...

Page 56: ... detector switches distance will change with temperature For ballistic provers the user must select on calibration section mounting Pipe provers are normally off calibration section mounting Prove Seal When prover seal signal is not available The option for requiring prove ready signal is waived NUMBER OF PROVE RUNS TO AVERAGE Numbers 1 10 are for the consecutive runs to achieve good meter factor ...

Page 57: ... be re initiated Prove Abort Time Out in Seconds If the prove run was not achieved in the set time then the prove will be aborted The reason for this function is to accommodate the possibility the second detector switch was not triggered for one reason or another or the proving was launched from the wrong direction UPSTREAM DOWNSTREAM PROVER VOLUME The prover volume in barrels at reference conditi...

Page 58: ...ng a prove The temperature sample checking period is also used PULSE DEVIATION The pulse deviation limit is for setting the repeatability of runs The Flow Computer will try to achieve consecutive runs within the programmed limits Pulse Deviation Highest of Counts Lowest of Counts Counts Lowest of 100 METER FACTOR DEVIATION To implement proved meter factor the deviation must be within these limits ...

Page 59: ...sequencing prover temperature and prover pressure meter temperature and pressure Previous Prove Report Up to 16 previous proves can be stored and retrieve at any time The prove reports are not associated with certain product files but are in chronological order Single Prove Report The previous single prove run report Prove Abort Report The previous prove abort report ...

Page 60: ...ill increment by one at the end of batch NEXT BATCH PRESET WARNING Batch Preset warns the operator the batch has reached the preset warning limit Enter data for the next batch NEXT BATCH PRESET Batch Preset warns the operator the batch has reached the preset limit Enter data for the next batch If ending batch at preset is configured and the batch has reached the preset limit the batch will be ende...

Page 61: ... difficult PRODUCT METER FACTOR Enter the meter factor for each product This will be the default value used at the beginning of each new batch Changing the value during the batch will not affect the meter factor for the current batch To change current batch meter factor use the Meter Factor Override entry Changing the meter factor in the product meter factor file only applies the next time this pr...

Page 62: ...iable 1 21 Multi Variable 2 DENSITY TYPE If live density is connected to the meter user must enter the density type Raw density frequency or a 4 20mA input can be selected This density will be used to calculate mass flow and net flow Density Type Densitometer Type 0 None Type 1 4 20 mA Density 4 20 mA Type Gravity Unit Type 0 Specific Gravity 4 20mA Type 1 API Gravity 4 20mA Type 2 Density Signal ...

Page 63: ...Analog Input 1 2 Analog Input 2 3 Analog Input 3 4 Analog Input 4 5 Analog Input 5 6 Analog Input 6 7 Analog Input 7 8 Analog Input 8 DENSITY FREQ INPUT POSITION ASSIGNMENT ASSIGNMENT DESCRIPTION 1 First Set of Densitometer Data Entries 2 Second Set of Densitometer Data Entries PROVE VOLUME SELECTION ASSIGNMENT DESCRIPTION 0 Upstream 1 Downstream ...

Page 64: ...nzene toluene styrene ortho xylene and meta xylene acetone use 6C 24C Enter slope and intercept if ethanol product is selected GRAVITY DENSITY 60 The gravity at 60 will be prompted only if the table selected density at reference condition is known Even table is selected The gravity at 60 is used to calculate the volume correction factor ALPHA T E 6 The Alpha T will be prompted only if table 6C or ...

Page 65: ...o reference the density to density of water i e 999012 to establish specific gravity Weight of H2O in Vac 60 Deg F The weight of one barrel of water under vacuum conditions i e 350 1616 Lb barrel Atmospheric Pressure Local pressure or contracted atmospheric pressure i e 14 73 psi Pulse Output Width Pulse Output Width is the duration in milliseconds of one complete pulse cycle where each cycle is t...

Page 66: ...not effect the Alpha T value in the product file Alpha T is the thermal expansion coefficient for the selected product The flow computer divides by 1000000 Example 0 000355 355 1000000 EQUILIBRIUM PRESSURE OVERRIDE Enter the equilibrium pressure override for the current batch METER TEMPERATURE OVERRIDE This value is entered when no live temperature is available or different value from live value s...

Page 67: ...O HI LIMIT Enter the low and high limits When live value exceeds high limit or less than low limit an alarm log will be generated MAINTENANCE VALUE The value to be used when the transmitter fails or while calibrating For calibration set fail code to 1 while calibrating FAIL CODE Fail Code 0 always use the live value even if the transmitter failed Fail Code 1 always use the maintenance value Fail C...

Page 68: ...When this status is activated the Flow Computer will send the Request Report to the printer via the serial port 2 6 Request Prove Meter 1 7 Request Prove Meter 2 8 Request Prove Meter 3 9 Request Prove Meter 4 10 Request Prove Meter 5 11 N A 12 Request Trial Prove Meter1 13 Request Trial Prove Meter2 14 Request Trial Prove Meter3 15 Request Trial Prove Meter4 16 Request Trial Prove Meter5 17 Reque...

Page 69: ... batch end See the following table to specify a product 26 27 28 29 Stream 3 Flow Direction 30 Stream 3 Product Bit 0 Stream 3 Product Bit 1 Stream 3 Product Bit 2 Stream 3 Product Bit 3 Product ID Bits Before ending batch user can use status bits to select next product These bits are read immediately at batch end See the following table to specify a product 31 32 33 34 Display Freeze 35 Display T...

Page 70: ...t 0r Product Number 0 0 0 0 1 0 0 0 1 2 0 0 1 0 3 0 0 1 1 4 0 1 0 0 5 0 1 0 1 6 0 1 1 0 7 0 1 1 1 8 1 0 0 0 9 1 0 0 1 10 1 0 1 0 11 1 0 1 1 12 1 1 0 0 13 1 1 0 1 14 1 1 1 0 15 1 1 1 1 16 Examples Assign Status Input 1 19 Assign Status Input 2 20 Assign Status Input 3 21 Assign Status Input 4 22 User is using the four inputs to monitor the product ID ...

Page 71: ...304 704 804 904 Mass 105 205 305 705 805 905 Pulse Output and Pulse Output Width Pulse Output is used to activate a sampler or external totalizer The number selected will be pulses per unit volume or per unit mass If 0 1 pulse is selected the one pulse will be given every 10 unit volumes has passed through the meter Pulse Output Width is the duration in milliseconds of one complete pulse cycle whe...

Page 72: ... Range 110 210 310 API Out of Range 111 211 311 Meter Down 112 212 312 Corr Inhibitor 113 213 313 Antistatic 114 214 314 Stream No 1 2 3 Product Bit 0 720 820 920 Product Bit 1 721 821 921 Product Bit 2 722 822 922 Product Bit 3 723 823 923 Partial or Batch Ended 30 Sec 724 824 924 Batch Warning 725 825 925 Batch Preset 726 826 926 Partial Batch Ended 727 827 927 Traditional Batch Ended 728 828 92...

Page 73: ...ar Pressure Failed 89 Analog Input 4 Low 46 RTD Input 9 Low 51 Watchdog 90 RTD Input 10 Low 52 Day Ended 30 Seconds 91 Analog Input 1 Failed 55 Month Ended 5 Seconds 92 Analog Input 2 Failed 56 Active Alarms 93 Analog Input 3 Failed 57 Ocdurred Alarms 94 Analog Input 4 Failed 58 Remote Control 95 RTD Input 9 Failed 63 Multi Var Temperature High 96 RTD Input 10 Failed 64 Multi Var Temperature Low 9...

Page 74: ... Date 8 1 2019 PRODUCT ID BITS Product Bit 3 Product Bit 2 Product Bit 1 Product Bit 0 Product Number 0 0 0 0 1 0 0 0 1 2 0 0 1 0 3 0 0 1 1 4 0 1 0 0 5 0 1 0 1 6 0 1 1 0 7 0 1 1 1 8 1 0 0 0 9 1 0 0 1 10 1 0 1 0 11 1 0 1 1 12 1 1 0 0 13 1 1 0 1 14 1 1 1 0 15 1 1 1 1 16 ...

Page 75: ...eter The 4 20mA signal is 12 bits ASSIGNMENTS Meter 1 Meter 2 Meter 3 IV 101 201 301 ISV 102 202 302 GSV 103 203 303 NSV 104 204 304 Mass 105 205 305 Density 106 206 306 SG 107 207 307 SG 60 108 208 308 API 109 209 309 API60 110 210 310 Temperature 111 211 311 Pressure 112 212 312 Stream 1 Stream 2 Stream 3 IV 701 801 901 ISV 702 802 902 GSV 703 803 903 NSV 704 804 904 Mass 705 805 905 ...

Page 76: ... Entry 2 31 Date 8 1 2019 Meter Independent Parameters Analog Input 1 51 Analog Input 2 52 Analog Input 3 53 Analog Input 4 54 RTD Input 9 59 RTD Input 10 60 Remote Control 63 Note Remote control output can be controlled through the modbus communcation link ...

Page 77: ...d 1 Reverse 2nd Digit 1 Meter 1 2 Meter 2 3 Meter 3 7 Stream 1 8 Stream 2 9 Stream 3 3rd and 4th Digit Selection see table below Flow Rate Batch Total Cumulative Total Previous Daily Previous Batch IV 01 06 11 16 21 ISV 02 07 12 17 22 GSV 03 08 13 18 23 NSV 04 09 14 19 24 Mass 05 10 15 20 25 OTHER ASSIGNMENTS 3 Digit Selection where 1st Digit 1 Meter 1 2 Meter 2 3 Meter 3 7 Stream 1 8 Stream 2 9 S...

Page 78: ...de 76 Dens Period 1 61 Prove Temperature 77 Dens Frequency 2 62 Prove Pressure 78 Dens Period 2 63 Time Date 73 Alarm 74 Examples 0116 Display Meter 1 Forward Previous Daily IV Total 0106 Display Meter 1 Forward Batch IV Total 1106 Display Meter 1 Reverse Batch IV Total 1210 Display Meter 2 Reverse Batch Mass Total 0147 Display Meter 1 Temperature 0248 Display Meter 2 Pressure ...

Page 79: ...l repeat the assigned variables into the selected locations Note some Modbus registers are 2 byte 16 bit and some are 4 byte 32 bit Register size incompatibility could cause rejection to certain address assignments Refer to the manual for more details and a listing of the Modbus Address Table Registers Example you want to read the current status of switches 1 and 2 addresses 2617 and 2618 and the ...

Page 80: ...ta are stored in the Flow Computer Enter starting hour and date the Flow Computer will go backward from that selected time and date Current hour cannot be selected Press F4 to display then press F5 to print or enter the file name and press F6 to capture the Previous Hourly Report Previous Daily Data Enter start date and the Flow Computer will move backward from the entered data and time Up to 12 p...

Page 81: ...user to make personal ticket report This ticket report is just for display and printing purposes To make this report user must use Last Daily Data Area in the Modbus registers 3n761 3n931 4m881 4m959 n meter 1 6 m stream1 3 3703 Example DYNAMIC FLUID BATCH REPORT METER 1 PRODUCT SELECTION 31843 METER 1 MASS TOTAL 31899 Results The report will look as follows DYNAMIC FLUID BATCH REPORT METER 1 PROD...

Page 82: ...w keys to move to Wiring and then to the desired diagram 6 Press ALT ENTER then press ALT SPACEBAR to open Control menu for the application 7 From the Control menu choose Edit and then choose Mark A flashing rectangular cursor appears at the upper left corner of the window 8 Move the cursor to the first character you want to select 9 Mark the information you want to copy and press ENTER to transfe...

Page 83: ...ess F5 to print Modbus registers Print Schematic Turn on parallel printer point the cursor to the Schematic press ENTER and then press F5 to print schematic Terminal Board Wiring only Print Calibration Data Calibration data are programmed parameters in the data file To print turn on parallel printer point the cursor to the Calib Data press ENTER and then press Print Files The user can print the fi...

Page 84: ...e No MASS applied is density live If erature rence temp ty at refe API Gravi where API temp reference at density Product API f Water Density o temp reference at expansion of Correction K K T T liquid on effect e temperatur for Correction Factor Meter Factor ion Linearizat MF LF Where T T T T Reference Actual T T T T T e 5 131 5 141 ASTM D1250 8 0 1 2 1 0 CTL LMF 1 3600 BSW LMF CPL CTL IV LMF CPL C...

Page 85: ...are physical constants from the API Manual and are given in the table below for various product types However for products between the jet group and gasoline use constants A and B in the following equation Table Product Type API Gravity Relative Density K0 K1 6A 23A Crude Oil 0 100 6110 to 1 0760 341 0957 0 0 6B 23B Fuel Oil 0 137 5270 to 1 0760 103 8720 0 2701 6B 23B Jet Group 37 1 47 9 7890 to 8...

Page 86: ...r Meter Prove Volume Meter Corrected Volume Meter Volume Prover Corrected 3600 3600 Flowrate IV Prove Prover Compact Prover Pipe prove a during prover at Pressure Avg P when CPL Pressure Meter of effect the for Correction CPLM prove a during meter at Temp Avg T when CTL e Temperatur Meter of Factor Correction Volume CTLM prove a during prover at Pressure Avg P when CPL Pressure Prover of effect th...

Page 87: ... T G CTSP ON Section n Calibratio Mounting Detector Prover Compact T T G CTSP OFF Section n Calibratio Mounting Detector Prover Compact e temperatur of effect the for Correction l a b p b p a b p l b p a b p a 1 1 1 1 CTSP prover of thickness Wall WT material prover for elasticity of Modulus E prover of diameter Internal ID Pressure Base P prover of pressure operating Internal P WT E P ID CPSP Pro...

Page 88: ...Dynamic Fluid Measurement SFC3 Liquid Pulse Manual Flow Equations 3 5 Date 8 1 2019 ...

Page 89: ...below PSIG in pressure n Calibratio P ds PSIG microsecon in t coefficien Pressure P PSIG in pressure Flowing P F ds microsecon in t coefficien e Temperatur T ds microsecon in constant n Calibratio T F e temperatur Flowing T ds microsecon in period n oscillatio er densitomet The t GM CC e mass volum constant n Calibratio A D Factor Correction Density DCF T P P P T T T T Where T K t T T t T D DCF ca...

Page 90: ... and pressure corrections as shown below F ds microsecon in t coefficien e Temperatur T F e temperatur Flowing T t Coefficien e Temperatur K Offset Pressure P Constant Pressure K PSIG in pressure Flowing P Factor Correction Density DCF ds microsecon in period n oscillatio er densitomet The t Constants n Calibratio K K K Where t K t K K d d T T K d K P P DCF cal t 0 2 1 0 cal t 2 2 1 0 6 0 10 Densi...

Page 91: ...nal Equation for Velocity of Sound Effects The following equation can provide more accurate measurement for LPG products in the density range of 0 300 D 0 550 D is in gm cc on by Solartr Supplied Constants n Calibratio K K K ds microsecon in Period n Oscillatio er Densitomet t Where t K t K K D 2 1 0 2 2 1 0 F re in Temperatu Where T T K T K D DT 68 68 1 19 18 n by Solarto Supplied Constants n Cal...

Page 92: ...racter indicating the beginning of frame and carriage CR line feed LF for the end of frame ASCII MESSAGE FORMAT ADDRESS FUNCTION DATA ERR CHECK 2 CHAR 2 CHAR Nx2 CHAR 2 CHAR CR LF 8 BITS 16 BITS 16 BITS Nx16 BITS 16 BITS 8 BITS 8 BITS RTU FRAMING Frame synchronization is done by time basis only The Smart Flow Computer allows 3 5 characters time without new characters coming in before proceeding to...

Page 93: ... 16 The integer quotient digits are ignored and the 16 bit remainder is appended to the message as the two CRC check bytes The resulting message including the CRC when divided by the same polynomial X16 X15 X2 1 at the receiver which will give zero remainder if no error has occurred EXCEPTION RESPONSE Exception response comes from the slave if it finds errors in communication The slave responds to...

Page 94: ...E COUNTS DATA CRC CHECK HI LO 01 03 02 00 01 79 84 Write Address 3076 ADDR FUNC CODE START POINT OF POINTS BYTE COUNTS DATA CRC CHECK HI LO HI LO HI LO 01 10 0C 04 00 01 02 00 01 AA 14 Response ADDR FUNC CODE START ADDR OF POINTS CRC CHECK C 10 0C 04 01 43 58 ASCII MODE READ ADDRESS 3076 ADDR FUNC CODE STARTING POINT OF POINTS LRC CHECK HI LO HI LO 30 31 30 33 30 43 30 43 30 30 30 31 45 42 CR LF R...

Page 95: ... Read 3029 Meter 4 Frequency 0 Inferred Read 3030 3034 Spare 3035 Status Input 1 Status 1 ON 0 OFF 0 Inferred Read 3036 Status Input 2 Status 1 ON 0 OFF 0 Inferred Read 3037 Status Input 3 Status 1 ON 0 OFF 0 Inferred Read 3038 Status Input 4 Status 1 ON 0 OFF 0 Inferred Read 3039 Status Input 5 Status 1 ON 0 OFF 0 Inferred Read 3040 Status Input 6 Status 1 ON 0 OFF 0 Inferred Read 3041 Status Inp...

Page 96: ...16 Status 1 ON 0 OFF 0 Inferred Read 3172 Status Input 17 Status 1 ON 0 OFF 0 Inferred Read 3173 Status Input 18 Status 1 ON 0 OFF 0 Inferred Read 3174 Status Input 19 Status 1 ON 0 OFF 0 Inferred Read 3175 Status Input 20 Status 1 ON 0 OFF 0 Inferred Read 3176 Switch output11 Status 1 ON 0 OFF 0 Inferred Read 3177 Switch output12 Status 1 ON 0 OFF 0 Inferred Read 3178 Switch output13 Status 1 ON ...

Page 97: ...in progress 4 Meter 2 temperature out of range 5 Stream 2 batch ended flag 6 Meter 3 prove run in progress 7 Meter 3 temperaure out of range 8 Stream 3 batch ended flag 9 10 Meter 4 temperature out of range 11 12 13 Meter 5 temperature out of range 14 15 Meter 6 temperature out of range 30005 Prove Meter 1 4 Status Meter 1 2 3 4 Aborted Bit 0 on Bit 2 on Bit 4 on Bit 6 on Completed Bit 1 on Bit 3 ...

Page 98: ...it position Status 0 1 Meter 1 Related Fault 2 3 4 Meter 2 Related Fault 5 6 7 Meter 3 Related Fault 8 9 10 Meter 4 Related Fault 11 12 13 Meter 5 Related Fault 14 15 Meter 6 Related Fault 30008 Traditional Batch End Acknowledgement Bit position Status 0 1 2 Stream 1 Batch End Acknowledgement 3 4 5 Stream 2 Batch End Acknowledgement 6 7 8 Stream 3 Batch End Acknowledgement 9 ...

Page 99: ...in Progress 2 3 4 Proving Meter 2 in Progress 5 6 7 Proving Meter 3 in Progress 8 9 10 Proving Meter 4 in Progress 11 12 13 Proving Meter 5 in Progress 14 15 Proving Meter 6 in Progress 30010 Prove Meter 1 6 Status Meter 1 2 3 4 Aborted Bit 0 on Bit 2 on Bit 4 on Bit 6 on 30011 Prove Meter 5 6 Status Meter 5 6 Aborted Bit 0 on Bit 2 on Note A proving process has aborted or a proving process has co...

Page 100: ...ata 0 Inferred Read 30091 Analog 6 Input Scale Data 0 Inferred Read 30092 Analog 7 Input Scale Data 0 Inferred Read 30093 Analog 8 Input Scale Data 0 Inferred Read 30094 RTD 9 Input Scale Data 0 Inferred Read 30095 RTD 10 Input Scale Data 0 Inferred Read 30096 RTD 11 Input Scale Data 0 Inferred Read 30097 RTD 12 Input Scale Data 0 Inferred Read 30098 Density Input 1 Scale Data 0 Inferred Read 3009...

Page 101: ...us Input 17 Assign 0 Inferred Read Write 30148 Status Input 18 Assign 0 Inferred Read Write 30149 Status Input 19 Assign 0 Inferred Read Write 30150 Status Input 20 Assign 0 Inferred Read Write 30151 30160 Spare 30161 Status Input 1 Status 0 Inferred Read Write 30162 Status Input 2 Status 0 Inferred Read Write 30163 Status Input 3 Status 0 Inferred Read Write 30164 Status Input 4 Status 0 Inferred...

Page 102: ...t 0 Inferred Read Write 30222 Analog Output 2 Assignment 0 Inferred Read Write 30223 Analog Output 3 Assignment 0 Inferred Read Write 30224 Analog Output 4 Assignment 0 Inferred Read Write 30225 30226 Spare 30227 Analog Output 1 Remote Control Range 0 4095 0 Inferred Read Write 30228 Analog Output 2 Remote Control Range 0 4095 0 Inferred Read Write 30229 Analog Output 3 Remote Control Range 0 4095...

Page 103: ...s Read Write 30385 30392 30393 Multi Var 1 Spare Fail Code 0 Inferred Read Write 30394 Multi Var 1 Pressure Fail Code 0 Inferred Read Write 30395 Multi Var 1 Temperature Fail Code 0 Inferred Read Write 30396 Multi Var 2 Spare Fail Code 0 Inferred Read Write 30397 Multi Var 2 Pressure Fail Code 0 Inferred Read Write 30398 Multi Var 2 Temperature Fail Code 0 Inferred Read Write 30399 Analog Input 1 ...

Page 104: ...rite 30459 Number of Total Prove Run 0 Inferred Read Write 30460 Signal Polarity 0 Inferred Read Write 30461 Run Output Signal Polarity 0 Inferred Read Write 30462 Prove Abort Delay Period in Seconds 0 Inferred Read Write 30463 Prover Temperature Sample Period 0 Inferred Read Write 30464 Change Meter Factor Automatically 0 Inferred Read Write 30465 Prover Pressure Assignment 0 Inferred Read Write ...

Page 105: ...n Batch Type 0 Daily 1 On Demond 0 Inerred Read Write 4n022 Stream n Enable Batch Schedule 0 Inerred Read Write 4n023 Stream n Enable Batch Preset 1 Yes 0 Inerred Read Write 4n024 4n027 Stream n ID 8 Chars Read Write 4n028 4n033 Stream n ID Next Batch ID 12 Chars Read Write 4n034 4n039 Stream n Batch Schedule 1 Batch ID 12 Chars Read Write 4n040 4n045 Stream n Batch Schedule 2 Batch ID 12 Chars Re...

Page 106: ...ferred Read Write 4n167 Stream n Batch Schedule 7 Product No 0 Inferred Read Write 4n168 Stream n Batch Schedule 8 Product No 0 Inferred Read Write 4n169 Stream n Batch Schedule 9 Product No 0 Inferred Read Write 4n170 Stream n Weekly Batch 0 Monday 1 Tur 0 Inferred Read Write 4n171 Stream n Month End Batch 0 Inferred Read Write 4n172 Stream n Batch Ended Flag 0 Inferred Read Write 4n173 4n180 Str...

Page 107: ...am n Prod 3 1 Inhibitor 2 Antistatic 0 Inferred Read Write 4n320 Stream n Prod 4 1 Inhibitor 2 Antistatic 0 Inferred Read Write 4n321 Stream n Prod 5 1 Inhibitor 2 Antistatic 0 Inferred Read Write 4n322 Stream n Prod 6 1 Inhibitor 2 Antistatic 0 Inferred Read Write 4n323 Stream n Prod 7 1 Inhibitor 2 Antistatic 0 Inferred Read Write 4n324 Stream n Prod 8 1 Inhibitor 2 Antistatic 0 Inferred Read Wr...

Page 108: ...se Output 4 Volume 3 Inferred Read Write 30743 Pulse Output 5 Volume 3 Inferred Read Write 30745 30789 Spare 30791 Density 1 Period Low Limit 3 Inferred Read Write 30793 Density 1 Period High Limit 3 Inferred Read Write 30795 Density 1 Correction Factor 5 Inferred Read Write 30797 Density 1 Low Limit 4 Inferred Read Write 30799 Density 1 High Limit 4 Inferred Read Write 30801 Density 1 Maintenance...

Page 109: ...erature 2 Inferred Read 3n227 Meter n FWA Dens Pressure 1 Inferred Read 3n229 Meter n FWA Density 4 Inferred Read 3n231 Meter n FWA Density 60 4 Inferred Read 3n233 Meter n FWA SG 4 Inferred Read 3n235 Meter n FWA SG 60 4 Inferred Read 3n237 Meter n FWA API 1 Inferred Read 3n239 Meter n FWA API 60 1 Inferred Read 3n241 Meter n Temperature 2 Inferred Read 3n243 Meter n Pressure 1 Inferred Read 3n24...

Page 110: ... Batch GSV 0 Inferred Read 3n337 Meter n Batch NSV 0 Inferred Read 3n339 Meter n Batch MASS 1 Inferred Read 3n341 Meter n Cum IV 0 Inferred Read 3n343 Meter n Cum ISV 0 Inferred Read 3n345 Meter n Cum GSV 0 Inferred Read 3n347 Meter n Cum NSV 0 Inferred Read 3n349 Meter n Cum MASS 1 Inferred Read 3n351 Meter n Opening IV 0 Inferred Read 3n353 Meter n Opening ISV 0 Inferred Read 3n355 Meter n Openi...

Page 111: ... Meter Factor 4 Inferred Read Write 3n623 Meter n Product 12 Meter Factor 4 Inferred Read Write 3n625 Meter n Product 13 Meter Factor 4 Inferred Read Write 3n627 Meter n Product 14 Meter Factor 4 Inferred Read Write 3n629 Meter n Product 15 Meter Factor 4 Inferred Read Write 3n631 Meter n Product 16 Meter Factor 4 Inferred Read Write 3n633 Meter n Flowrate Threshold 1 1 Inferred Read Write 3n635 M...

Page 112: ... 3n793 Meter n FWA SG 4 Inferred Read 3n795 Meter n FWA SG 60 4 Inferred Read 3n797 Meter n FWA API 1 Inferred Read 3n799 Meter n FWA API 60 1 Inferred Read 3n801 Meter n Temperature 2 Inferred Read 3n803 Meter n Pressure 1 Inferred Read 3n805 Meter n CTL 4 Inferred Read 3n807 Meter n CPL 4 Inferred Read 3n809 Meter n Linear Meter Factor 4 Inferred Read 3n811 Meter n BS W 2 Inferred Read 3n813 Met...

Page 113: ...um GSV 0 Inferred Read 3n907 Meter n Closing Cum NSV 0 Inferred Read 3n909 Meter n Closing Cum MASS 1 Inferred Read 3n911 Meter n Opening IV 0 Inferred Read 3n913 Meter n Opening ISV 0 Inferred Read 3n915 Meter n Opening GSV 0 Inferred Read 3n917 Meter n Opening NSV 0 Inferred Read 3n919 Meter n Opening MASS 1 Inferred Read 3n921 3n923 Meter n Stream ID 8 Chars Read 3n925 3n927 Meter n Ship to ID ...

Page 114: ...ss Flowrate 2 Inferred Read 4n931 Stream n Reverse Batch Daily IV 0 Inferred Read 4n933 Stream n Reverse Batch Daily ISV 0 Inferred Read 4n935 Stream n Reverse Batch Daily GSV 0 Inferred Read 4n937 Stream n Reverse Batch Daily NSV 0 Inferred Read 4n939 Stream n Reverse Batch Daily Mass 1 Inferred Read 4n941 Stream n Reverse Closing Cum IV 0 Inferred Read 4n943 Stream n Reverse Closing Cum ISV 0 In...

Page 115: ...m n Forward Opening GSV 0 Inferred Read 4n377 Stream n Forward Opening NSV 0 Inferred Read 4n379 Stream n Forward Opening Mass 1 Inferred Read 4n381 Stream n Reverse IV Flowrate 1 Inferred Read 4n383 Stream n Reverse ISV Flowrate 1 Inferred Read 4n385 Stream n Reverse GSV Flowrate 1 Inferred Read 4n387 Stream n Reverse NSV Flowrate 1 Inferred Read 4n389 Stream n Reverse Mass Flowrate 2 Inferred Re...

Page 116: ... Read Write 4n467 Stream n Product 6 Alpha T E 6 Override 1 Inferred Read Write 4n469 Stream n Product 7 API Override 1 Inferred Read Write 4n471 Stream n Product 7 SG Override 4 Inferred Read Write 4n473 Stream n Product 7 Density Override 4 Inferred Read Write 4n475 Stream n Product 7 Alpha T E 6 Override 1 Inferred Read Write 4n477 Stream n Product 8 API Override 1 Inferred Read Write 4n479 Str...

Page 117: ...n Product 16 SG Override 4 Inferred Read Write 4n545 Stream n Product 16 Density Override 4 Inferred Read Write 4n547 Stream n Product 16 Alpha T E 6 Override 1 Inferred Read Write 4n549 Stream n BS W Override 2 Inferred Read Write 4n551 Stream n Density Override 4 Inferred Read Write 4n553 Stream n SG Override 4 Inferred Read Write 4n555 Stream n API Override 1 Inferred Read Write 4n557 Stream n ...

Page 118: ...ad Write 40305 Prover Temperature Override 2 Inferred Read Write 40307 Prover Pressure Override 1 Inferred Read Write 40309 Prover API Override 1 Inferred Read Write 40311 Prover SG Override 4 Inferred Read Write 40313 Prover Density Override 4 Inferred Read Write 40315 Prover Shaft Temp Override 2 Inferred Read Write 40317 Prove Meter CTL Override 5 Inferred Read Write 40319 Prove Meter CPL Overr...

Page 119: ...Read 6093 Prove Meter Factor 4 Inferred Read 6095 Prove Actual K Factor 2 Inferred Read 6097 Prove Pulse Deviation 2 Inferred Read 6099 Prove Meter Factor Deviation 2 Inferred Read 6101 Reserved 6103 Change Meter Factor Flag 0 Inferred Read 6105 Last Prove Data 1 Date 0 Inferred Read 6107 Last Prove Data 1 Time 0 Inferred Read 6109 Last Prove Data 1 Temperature 2 Inferred Read 6111 Last Prove Data...

Page 120: ... Inferred Read 6181 Prove Run 2 Prover Temperature 2 Inferred Read 6183 Prove Run 2 Meter Pressure 1 Inferred Read 6185 Prove Run 2 Prover Pressure 1 Inferred Read 6187 Prove Run 2 Gravity 4 Inferred Read 6189 Prove Run 2 IV Flowrate 1 Inferred Read 6191 Prove Run 3 Counts 0 Inferred Read 6193 Prove Run 3 Total Counts 0 Inferred Read 6195 Prove Run 3 Interpolated Counts 3 Inferred Read 6197 Prove ...

Page 121: ... Prove Run 6 Meter Pressure 1 Inferred Read 6273 Prove Run 6 Prover Pressure 1 Inferred Read 6275 Prove Run 6 Gravity 4 Inferred Read 6277 Prove Run 6 IV Flowrate 1 Inferred Read 6279 Prove Run 7 Counts 0 Inferred Read 6281 Prove Run 7 Total Counts 0 Inferred Read 6283 Prove Run 7 Interpolated Counts 3 Inferred Read 6285 Prove Run 7 TFMP 5 Inferred Read 6287 Prove Run 7 TDVOL 5 Inferred Read 6289 ...

Page 122: ...351 Prove Run 10 TFMP 5 Inferred Read 6353 Prove Run 10 TDVOL 5 Inferred Read 6355 Prove Run 10 Meter Temperature 2 Inferred Read 6357 Prove Run 10 Prover Temperature 2 Inferred Read 6359 Prove Run 10 Meter Pressure 1 Inferred Read 6361 Prove Run 10 Prover Pressure 1 Inferred Read 6363 Prove Run 10 Gravity 4 Inferred Read 6365 Prove Run 10 IV Flowrate 1 Inferred Read 6367 Averaged Shaft Temperatur...

Page 123: ...10 00 00 Prove Meter 5 or 01 10 00 00 00 04 00 00 Prove Meter 3 or 01 04 00 00 00 20 00 00 Prove Meter 6 or 01 20 00 00 08 00 00 00 Launch Forward 20 00 00 00 Launch Ball 10 00 00 00 Launch Reverse 80 00 00 00 Compact Smith Proving in Progress 40 00 00 00 Proving in Progress 00 02 00 00 Prove Aborted 00 01 00 00 Prove Completed 00 00 00 00 Prove not in Progress Combination Examples 43 00 00 00 Met...

Page 124: ...1 Prover Elasticity E 7 1 Inferred Read 6483 Prover Coeff of Shaft E 7 1 Inferred Read 6485 Area Coeff 1 Inferred Read 6487 Wall Thickness in Inches 4 Inferred Read 6489 Cubic Expansion 1 Inferred Read 6491 Cum IV Total 0 Inferred Read 6493 Counts 0 Inferred Read 6495 Total Counts 0 Inferred Read 6497 Interpolated Counts 3 Inferred Read 6499 TFMP 5 Inferred Read 6501 TDVOL 5 Inferred Read 6503 Met...

Page 125: ... Total Counts 0 Inferred Read 6575 Prove Run 1 Interpolated Counts 3 Inferred Read 6577 Prove Run 1 TFMP 5 Inferred Read 6579 Prove Run 1 TDVOL 5 Inferred Read 6581 Prove Run 1 Meter Temperature 2 Inferred Read 6583 Prove Run 1 Prover Temperature 2 Inferred Read 6585 Prove Run 1 Meter Pressure 1 Inferred Read 6587 Prove Run 1 Prover Pressure 1 Inferred Read 6589 Prove Run 1 Gravity 4 Inferred Read...

Page 126: ...unts 0 Inferred Read 6663 Prove Run 5 Interpolated Counts 3 Inferred Read 6665 Prove Run 5 TFMP 5 Inferred Read 6667 Prove Run 5 TDVOL 5 Inferred Read 6669 Prove Run 5 Meter Temperature 2 Inferred Read 6671 Prove Run 5 Prover Temperature 2 Inferred Read 6673 Prove Run 5 Meter Pressure 1 Inferred Read 6675 Prove Run 5 Prover Pressure 1 Inferred Read 6677 Prove Run 5 Gravity 4 Inferred Read 6679 Pro...

Page 127: ...unts 0 Inferred Read 6751 Prove Run 9 Interpolated Counts 3 Inferred Read 6753 Prove Run 9 TFMP 5 Inferred Read 6755 Prove Run 9 TDVOL 5 Inferred Read 6757 Prove Run 9 Meter Temperature 2 Inferred Read 6759 Prove Run 9 Prover Temperature 2 Inferred Read 6761 Prove Run 9 Meter Pressure 1 Inferred Read 6763 Prove Run 9 Prover Pressure 1 Inferred Read 6765 Prove Run 9 Gravity 4 Inferred Read 6767 Pro...

Page 128: ...alog Input 5 6 Analog Input 6 41 Multi Var 1 Spare 7 Analog Input 7 42 Multi Var 1 Pressure 8 Analog Input 8 43 Multi Var 1 Temperature 9 RTD Input 9 44 Multi Var 2 Spare 10 RTD Input 10 45 Multi Var 2 Pressure 11 RTD Input 11 46 Multi Var 2 Temperature 12 RTD Input 12 13 Analog Output 1 14 Analog Output 2 15 Analog Output 3 16 Analog Output 4 17 Densitometer 1 18 Densitometer 2 CODE 1 IV Indicate...

Page 129: ...Dynamic Fluid Measurement SFC3 Liquid Pulse Manual Modbus Data 4 38 Date 8 1 2019 13 Stream 3 Reverse STATUS 0 ID 17 or 18 OVERRANGE OK Others STATUS OK 1 HI 2 LO 3 Failed OK 4 6 or 7 FAILED 5 OVERRANGE ...

Page 130: ...alog Output 3 Tag 8 Stream 2 ID 26 Analog Output 4 Tag 9 Stream 3 ID 27 Densitometer 1 Tag 11 Analog Input 1 Tag 28 Densitometer 2 Tag 12 Analog Input 2 Tag 41 Multi Var 1 Spare Tag 13 Analog Input 3 Tag 42 Multi Var 1 Temperature Tag 14 Analog Input 4 Tag 43 Multi Var 1 Pressure Tag 15 Analog Input 5 Tag 44 Multi Var 2 Spare Tag 16 Analog Input 6 Tag 45 Multi Var 2 Temperature Tag 17 Analog Input...

Page 131: ...5 Meter Factor 57 Product 7 API Override 21 Product 6 Meter Factor 58 Product 8 API Override 22 Product 7 Meter Factor 59 Product 9 API Override 23 Product 8 Meter Factor 60 Product 10 API Override 24 Product 9 Meter Factor 61 Product 11 API Override 25 Product 10 Meter Factor 62 Product 12 API Override 26 Product 11 Meter Factor 63 Product 13 API Override 27 Product 12 Meter Factor 64 Product 14 ...

Page 132: ... 121 Product 11 Alpha T Override 85 Product 15 SG Override 122 Product 12 Alpha T Override 86 Product 16 SG Override 123 Product 13 Alpha T Override 91 Product 1 Density Override 124 Product 14 Alpha T Override 92 Product 2 Density Override 125 Product 15 Alpha T Override 93 Product 3 Density Override 126 Product 16 Alpha T Override 94 Product 4 Density Override 150 BS W Override 95 Product 5 Dens...

Page 133: ...ment 175 Volume Units 169 Pressure Assignment 185 Fail Code 170 Density Assignment 186 Calibration 173 Day Start Hour 180 SEE NOTE NOTE When Audit Code 180 then the following Modbus Addresses store the parameters indicated 5241 System Start Date 5243 System Start Time 5245 System Failed Date 5247 System Failed Time 5249 Not Used 5251 Not Used ...

Page 134: ...ut of Range 3068 0800 Meter 3 Alpha T Out of Range 3068 1000 Meter 3 IV Flowrate High 3068 2000 Meter 3 IV Flowrate Low 3068 4000 Meter 3 API2565 Prop Ethy Out of Range 3068 0001 Meter 4 Down 3068 0002 Meter 4 SG Out of Range 3068 0004 Meter 4 Temperature Out of Range 3068 0008 Meter 4 Alpha T Out of Range 3068 0010 Meter 4 IV Flowrate High 3068 0020 Meter 4 IV Flowrate Low 3068 0040 Meter 4 API25...

Page 135: ...071 0080 Analog Input 4 Low 3072 0100 Analog Input 5 High 3072 0200 Analog Input 5 Low 3072 0400 Analog Input 6 High 3072 0800 Analog Input 6 Low 3072 1000 Analog Input 7 High 3072 2000 Analog Input 7 Low 3072 4000 Analog Input 8 High 3072 8000 Analog Input 8 Low 3072 0001 RTD Input 9 High 3072 0002 RTD Input 9 Low 3072 0004 RTD Input 10 High 3072 0008 RTD Input 10 Low 3072 0010 RTD Input 11 High ...

Page 136: ...nalog Input 5 Failed 3074 0020 Analog Input 6 Failed 3074 0040 Analog Input 7 Failed 3074 0080 Analog Input 8 Failed 3075 0100 RTD Input 9 Failed 3075 0200 RTD Input 10 Failed 3075 0400 RTD Input 11 Failed 3075 0800 RTD Input 12 Failed 3075 0001 Multi Var Spare High 3075 0002 Multi Var Spare Low 3075 0004 Multi Var Pressure High 3075 0008 Multi Var Pressure Low 3075 0010 Multi Var Temperature High...

Page 137: ... 7003 UGC Density Constant K2 Read Write 7004 UGC Density Constant KT Read Write 7005 UGC Density Constant Tcal Read Write 7006 UGC Density Constant K Read Write 7007 UGC Density Constant PO Read Write 7008 Spare 7009 Spare 7010 Spare 7011 Spare Densitometer 1 Constants Solartron Density 7001 Solartron Density Constant K0 Read Write 7002 Solartron Density Constant K1 Read Write 7003 Solartron Dens...

Page 138: ...nt Tcal Read Write 7017 UGC Density Constant K Read Write 7018 UGC Density Constant P0 Read Write 7019 Spare 7020 Spare 7021 Spare 7022 Spare Densitometer 2 Constants Solartron Density 7012 Solartron Density Constant K0 Read Write 7013 Solartron Density Constant K1 Read Write 7014 Solartron Density Constant K2 Read Write 7015 Solartron Density Constant K18 Read Write 7016 Solartron Density Constan...

Page 139: ...i Var 2 Pressure High Limit Read Write 7070 Multi Var 2 Pressure Maintenance Read Write 7071 Multi Var 2 Temperature Low Limit Read Write 7072 Multi Var 2 Temperature High Limit Read Write 7073 Multi Var 2 Temperature Maintenance Read Write 7074 Analog Input 1 4mA Read Write 7075 Analog Input 1 20mA Read Write 7076 Analog Input 1 Low Limit Read Write 7077 Analog Input 1 High Limit Read Write 7078 ...

Page 140: ...nput 9 Maintenance Read Write 7119 Spare 7120 Spare 7121 RTD Input 10 Low Limit Read Write 7122 RTD Input 10 High Limit Read Write 7123 RTD Input 10 Maintenance Read Write 7124 Spare 7125 Spare 7126 RTD Input 11 Low Limit Read Write 7127 RTD Input 11 High Limit Read Write 7128 RTD Input 11 Maintenance Read Write 7129 Spare 7130 Spare 7131 RTD Input 12 Low Limit Read Write 7132 RTD Input 12 High Li...

Page 141: ...id Pulse Manual Modbus Data 4 50 Date 8 1 2019 7149 Analog Input 8 Override Read Write 7150 RTD Input 9 Override Read Write 7151 RTD Input 10 Override Read Write 7152 RTD Input 11 Override Read Write 7153 RTD Input 12 Override Read Write ...

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