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Form A6188 - Well Control User Program

1. 01 0 2 15 User Defined Calc 5 R W System FL 4 0 Valid Positive 0 1 00 User Defined Calc 5 Floating Point FEMINA asin cmon 16 Sample Minute End R W System UINT16 2 0 gt 0xFFFF OxFFFF 1 00 The minute value read from the GC at the end of the GC Interface Program s polling Lee M E sucum E ee T 17 Sample Minute Start R W System UINT16 2 0 gt 60 0 1 00 The minute value read from the GC at the start of the GC Interface Program s polling Parm Description of functionality Length Range Default Version and meaning of values 18 Alarm 1 RW System UNII6 2 03255 0 1 00 GC Alarm 1 WAG Alarm2 RW System UNG 2 09258 0 100 GC Alarm 21 20 Calibration Flag R W System UINT 16 2 0 gt 255 1 1 00 Calibration Flag 0 Calculation data 21 Mole Sum R W System FL 4 0 Valid Positive 0 1 00 Mole Sum Floating Point Number Rev Feb 10 Reference 4 9 Gas Chromatograph Software Interface User Manual Point Type 23 26 GC User C Program Stream Data System Name Access or User eh Update yp 22 Error Code R W System UINT8 1 028 0 1 00 Error Code 0 All Checks Pass 1 Poll Sequence Failed 2 Alarm Check Failed 3 Calibration Check Failed 4 Sample Minute Changed 5 Total Un normalized Mole Percentage Failed 6 Mole Sum Check Failed 7 Heating Value Range Check Failed 8 Specific Gravity Range Ee ee ee o Check Failed 23 Alarm Logging Mode R W Use
2. 24 60 900 0 Version 1 00 Description of functionality and meaning of values Point Type Description User Program Status 0 No Error 1 License Unavailable Auto configuration 0 Disabled 1 Enabled Comm Port used to GC Address Modbus address Interval at which this program polls the GC for new data In Secods Amount of time In Seconds until the next time the GC will Heating Value Low Limit If the Heating Value returned from the GC is less than this value an _alarmwillbe set gt Hev Feb 10 Gas Chromatograph Software Interface User Manual Point Type 22 25 GC User Program Configuration and Status System Name Access or User eh Update yp 10 Heating Value High Limit R W User FL 4 Any Floating Point 1300 0 1 00 Heating Value High Limit If the Number Heating Value returned from the GC is greater than this value e ee an alarm willbe set amp 11 Bypass Alarm 1 R W User UINT8 1 031 0 1 00 Bypass Alarm 1 from GC 0 Alarm Allowed mm I Alarm Bypassed 12 Bypass Alarm 2 R W User UINT8 1 031 0 1 00 Bypass Alarm 2 from GC 0 Alarm Allowed Parm Description of functionality Length Range Default Version and meaning of values 13 Max Streams RAN User UINT8 1 02255 6 1 00 Maximum number of streams available from GC 14 Total Mole Deviation RW User FL 4 0950 127 X 4100 M Total Mole Deviation 15
3. Figure 6 ROCLINK 800 Download Confirmation Rev Feb 10 Installation 2 5 Gas Chromatograph Software Interface User Manual 9 Click OK The User Program Administrator screen displays see Figure 9 Note that The User Programs Installed in Device frame identifies the installed program s The Status field indicates that the program is running User Program Administrator User Programs Installed in Device 1 GC Interface Mame GC Interface Ma Program Ma Program Version Rev 1 10 Library Version Rev 1 No Program vm No Program Created 02 08 2010 14 22 18 DRAM Used 16384 Ma Program CALC OxD5C1 FLASH Used 29025 Entry Pt 05860000 Displays ZZ Z3 24 Clear Start Status Running All Option Download User Program File E Program Files GCInterface 1 bin Browse Mame GC Interface Download amp Start Download Version Rev 1 10 Created 2 8 2010 2 22 18 PM CAC OxD5C1 Size 29025 Figure 9 User Program Administrator Note If you install the program before you install the license key the Status field reads License Key Not Found 10 Click Close The main ROCLINK 800 screen displays and the download is complete 2 6 Installation Rev Feb 10 Gas Chromatograph Software Interface User Manual Chapter 3 Configuration After you have loaded the GC Interface program on the FB107 you configure the program using three program specific screens GC In
4. Point Type 23 26 GC User C Program Stream Data System Name Access or User eh Update yp 73 User Defined Avg R W System FL 4 0 Valid Positive 0 1 00 User Defined Average 2 Floating Point 74 User Defined Avg R W System FL 4 0 Valid Positive 0 1 00 User Defined Average 3 Floating Point o Number 75 User Defined Avg R W System FL 4 0 gt Valid Positive 0 1 00 User Defined Average 4 Floating Point Number 76 User Defined Avg R W System FL 4 0 Valid Positive 0 1 00 User Defined Average 5 Floating Point Number 77 User Defined Avg R W System FL 4 0 Valid Positive 0 1 00 User Defined Average 6 Floating Point L Number 78 User Defined Avg R W System FL 4 0 Valid Positive 0 1 00 User Defined Average 7 Floating Point Number 79 User Defined Avg R W System FL 4 0 Valid Positive 0 1 00 User Defined Average 8 Floating Point o Number 80 User Defined Avg R W System FL 4 0 Valid Positive 0 1 00 User Defined Average 9 Floating Point Number me 81 User Defined Avg R W System FL 4 0 Valid Positive 0 1 00 User Defined Average 10 Floating Point Number J L2 0 22222 82 User Defined Avg R W System gs 4 0 Valid Positive 0 1 00 User Defined Average 11 Floating Point Number 83 User Defined Avg R W System FE 4 0 Valid Positive 0 1 00 User Defined Average 12 Floating Point Number 84 User Defined Avg R W System FL 4 0 Valid Positive 0 1 00 User Defined Average 13 Floating Point Numb
5. installed in user program location 1 To download the program using ROCLINK 800 software 1 Connect the FB107 to your computer using the LOI port 2 Start and logon to ROCLINK 800 3 Select Utilities User Program Administrator from the ROCLINK menu bar The User Program Administrator screen displays see Figure 4 User Program Administrator User Programs Installed in Device Mame No Program Ma Program Ma Program Version Library version Ma Program No Program Created DRAM Used Ma Program CALC FLASH Used 0 Entry Pt Displays peer Stor Status Empty All Option Download User Pragram File Browse Name Version Created ERC Size Update Close Figure 4 User Program Administrator Rev Feb 10 Installation 2 3 Gas Chromatograph Software Interface User Manual 4 Click Browse in the Download User Program File frame The Select User Program File screen displays see Figure 5 5 Select the path and user program file to download from the CD ROM Program files are typically located in the Program Files folder on the CD ROM As Figure 5 shows the screen lists all valid user program files with the BIN extension Note Load only one of the included program files The manual shows installation of GCInterface_1 bin Load GCInterface_1 bin unless another user program is currently installed in user program location 1 Select Use
6. that the program allows for Total Unnormalized Mole 96 or the sum of the component mole percentages The program subtracts or adds this value to 10096 to determine the range The FB107 considers any stream gas compositions that exceed this value to be invalid and does not forward them to the meter run Valid values are 0 100926 Sets the minimum specific gravity value the FB107 accepts for a meter run update The FB107 considers any specific gravity values sent by the GC that are lower than this value to be invalid and does not forward them to the meter Sets the maximum specific gravity value the FB107 accepts for a meter run update The FB107 considers any specific gravity values sent by the GC that are greater than this value to be invalid and does not forward them to the meter Rev Feb 10 Configuration 3 7 Gas Chromatograph Software Interface User Manual Field Description Heating Value Sets whether the program in case of differing Adjustment base pressures between the GC and the meter run point adjusts the GC s heating value before storing the value in the meter run parameter If you click Enable the heating value stored in the meter run equals the GC heating value multiplied by the ratio of the meter run base pressure to the GC s base pressure GC Base Pressure Sets the base pressure in PSIA or kPa the GC uses to determine the heating value that is returned on a Modbus request Note This field is active only if y
7. 9 34 Mee Selup STEN Lade SAG 3 13 2 5 Saving Ihe GONTGUI AtlOM x ads 3 15 Chapter 4 Reference 4 1 4 1 Point Type 22 25 GC User Program Configuration and Status s 4 2 4 2 Point Type 23 26 GC User C Program Stream Data sees 4 8 Rev Feb 10 Contents lil Gas Chromatograph Software Interface User Manual This page is intentionally left blank iv Rev Feb 10 Gas Chromatograph Software Interface User Manual Chapter 1 Introduction This chapter describes the structure of this manual and presents an overview of the Gas Chromatograph Software Interface for the FloBoss 107 1 1 Scope and Organization This document serves as the user manual for the Gas Chromatograph Software Interface which is intended for use in a FloBoss 107 FB107 This manual describes how to download install and configure the Gas Chromatograph Software Interface user program referred to as the GC Interface program or the program throughout the rest of this manual You access and configure this program using ROCLINK 800 Configuration Software loaded on an personal computer PC running Windows 2000 with Service Pack 2 Windows XP or Windows Vista The sections in this manual provide information in a sequence appropriate for first time users Once you become familiar with the procedures and the software the manual becomes a reference tool This manual has the followin
8. Composition Values Mole Comp 1 16 7033 _ BTU day 7034 _ BTU saturated 7035 _ Specific Gravity 7036 Compressibility 7037 Wobbe Index BEEN 7038 Total Unnormalized Mole Introduction 1 3 Gas Chromatograph Software Interface User Manual 7039 _ Total GPM CF 7040 7044 _User Defined Calc Values 7070 7084 _ User Defined Average 9034 _ Active Alarm Status 2 9035 Unacknowledged Alarm Status When you select Auto configure on the GC Interface screen the program sets the Modbus Master Tables for each GC with a valid address The first GC s master table uses the first logical point for the communications port and the second GC if present uses the second logical point for its communications port The actual poll sequence set for each GC is 3045 3047 3001 3032 3034 3035 3059 7001 7016 1033 7044 1070 7084 9034 9035 The Modbus Register to TLP Mapping assigns TLPs to registers The program maps TLPs to the register table you specify in the Modbus Register Table Location field on the GC Interface screen The parameters necessary for this program automatically map to the appropriate registers Finally when the auto configure process completes the program disables the auto configure parameter Note After the auto configure process completes you may modify the Modbus Master Table and or the Modbus Register Table but register 3045 must be the first and last register polled The first poll must be stored in a
9. Disable Ethane Disable H25 255 V Disable Propane 2 Disable Water 255 Iv Disable TER B Disable Halen 255 Disable Heating Value Low Limit 900 0 n Butane rm Disable Oxygen 255 MV Disable Heating Value High Limit 1300 0 Neo Pentane 7 Disable Carbon Monoxide 255 IV Disable Total Mole Deviation 2 0 Iv v lv Alarm 1 Bypass Alarm 2 Bypass i Pentane 5 Disable Hydrogen 255 Disable Specific Gravity Low Limit foo n Pentane le Disable Heptane 255 Disable Specific Gravity High Limit 152 Hexane 255 iw Disable Octane 255 Disable Hexane 8 J Disable Nonane 255 IV Disable Nu Nitrogen 14 Disable Decane 255 Iv Disable ee m n ia 255 v Disable GC Base Pressure 14 73 PSIA kPa Hexane Split Setup Heating Value Adjustment Hexane Split Vv Enable Hexane 147 466 Heptane 35 34 Octane 117 194 Nonane bo Decane oo Toi gt Print Save As Auto Scan Update Close gt BRNE 2024M Figure 12 GC Configuration 3 Complete the screen fields based on your organization s requirements Field Description Point Number Identifies the GC number for this screen The program provides one instance for each GC Click v to display all defined instances Component IDs Assigns each gas component a value in component data tables 1 and 2 Select Disable to identify any gases the FB107 supports but for which the gas chromatograph does not provide d
10. File Edit View ROC Configure Meter Utilities Tools Window Help Da kd AR c RE Ce Nw VRISZ ORR UR E On Line Com FB107 FB107 a EE Im Modules 1 0 E amp Control cs Meter System History User Program Administrator GC Interface Display 22 GC Interface Display 23 GC Configuration Display 24 GC Stream Data User Display General Advanced 170 Paints Meter Paints Diagnostic Installed Module CPU Actual Module peu Description Application Firmware Revision fRev 10 Part Number wens2 Build Date Jun 23 2008 740 Serial Number w480830022 D E 07460021 Boot Revision fRe 100 Boot Build Date Nov17 2006 33 Integrity md Uninstall Auto Scan Update Apply GIRE 44m 7 Figure 10 ROCLINK 800 3 2 Configuration Rev Feb 10 Gas Chromatograph Software Interface User Manual 3 1 GC Interface Screen Use this screen to configure one or more GC addresses select a Comm port modify the Modbus Register Table location 1f necessary assign the GC streams to meter runs enable GC polling and enable automatic configuration of the Modbus parameters and communications ports To access this screen 1 From the Directory Tree select User Program gt GC Interface 2 Double click Display 22 GC Interface The GC Interface screen displays mam ROCLINK 800 GC I
11. Hexane Split Enable R W User UINT8 1 021 1 1 00 Enable the Hexane Split D O Y C1 O NO O O O r lt o D 39 UD D lt O 5 16 Communication Timeout R W User FL 4 0 gt 60 0 45 0 1 00 Amount of time to wait for a response from a GC 17 Meter Run 1 Stream R W User UINT8 1 028 0 1 00 Meter Run 1 Stream 0 Disable Meter Run Updating 1 8 Stream number to use to update meter run s gas composition 5 18 Meter Run 2 Stream R W User UINT8 1 028 0 1 00 Meter Run 2 Stream 0 Disable Meter Run Updating 1 8 Stream number to use to update meter run s gas 19 Meter Run 3 Stream R W User UINT8 1 028 0 1 00 Meter Run 3 Stream 0 Disable Meter Run Updating 1 8 Stream number to use to update meter run s gas composition gt Rev Feb 10 Reference 4 3 Gas Chromatograph Software Interface User Manual Point Type 22 25 GC User Program Configuration and Status Parm 20 30 32 33 34 System or User Update User Data Type UINT8 1 Name Access Length Meter Run 4 Stream R W Range 038 Not Used eee __Not Used Not Used Not Used NotUsed ooo Not Used R W Ethane Component ID R W Propane Component ID R W i Butane Component ID R W n Butane Component ID R W Neo Pentane Component ID R W Reference Default Description of functionality Version and meaning
12. Sample Minute value Point 23 26 Parameter 17 and Ending Sample Minute value Point 23 26 Parameter 16 in the poll must match or the meter runs are not updated The current Stream Number Point 23 26 Parameter 2 must be assigned to a meter run The Total Un Normalized Mole value Point 23 26 Parameter 9 must be within plus or minus the Total Mole Deviation value Point 22 25 Parameter 14 of 100 If this value is outside of this limit the meter runs are not updated The Mole Sum value Point 23 26 Parameter 21 must be within plus or minus the Total Mole Deviation value Point 22 25 Parameter 14 of 100 If this value 1s outside of this limit the meter runs are not updated If you enable HV Limits Point 23 26 Parameter 90 on the GC Stream Data screen ensure that the Stream Heating Value is between the Heating Value Low Point 23 26 Parameter 91 and Heating Value High Point 23 26 Parameter 92 values Note If you do not enable the HV Limits which is a per stream value the module uses the Heating Value described below as the BEIC The Heating Value Point 23 26 Parameter 4 or 5 depending on Wet vs Dry must be between Heating Value Low Point 22 25 Parameter 9 and Heating Value High Point 22 25 Parameter 10 If this value 1s outside the limits the meter runs are not updated Note The Heating Value is the default parameter the module checks first If you have enabled the HV Limits param
13. 00 1 00 Gas Chromatograph Software Interface User Manual Description of functionality and meaning of values i Pentane Component ID This is the Component ID number that is associated with i Pentane in the GC n Pentane Component ID This is the Component ID number that is associated with n Hexane Component ID This is the Component ID number that is associated with Hexane in the Hexane Component ID This is the Component ID number that is associated with Hexane Nitrogen Component ID This is the Component ID number that is associated with Nitrogen in the GC Carbon Dioxide Component ID This is the Component ID number that is associated with Carbon Dioxide in the GC H2S Component ID This is the Component ID number that is Water Component ID This is the Component ID number that is associated with Water in the Helium Component ID This is the Component ID number that is associated with Helium in the Oxygen Component ID This is the Component ID number that is associated with Oxygen in the Gas Chromatograph Software Interface User Manual Point Type 22 25 GC User Program Configuration and Status System dj Name Access or User uc Update 45 Carbon Monoxide Component ID R W User UINT8 1 03255 255 1 00 Carbon Monoxide Component ID This is the Component ID number that is associated with Carbon Monoxide in the GC 46 Hydrogen Component ID R W User UINT8 1 03255 255 1 00 Hydrogen Component ID
14. 2 m 45 Component Index 6 Table 2 I 46 Component Index 7 Table 2 47 Component Index 8 Table 2 48 Component Index 9 Table2 W 2 99 Component Index 14 Table 2 54 Component Index 15 Table 2 56 Mole 96 Component 1 55 Component Index 16 Table2 M 57 Mole Component 2 R W 58 Mole Component 3 R W 59 Mole Component 4 Rev Feb 10 RW System UINT8 41 Component Index 2 Table2 RW System UINT8 RW System Ul c z I CECE x ee I ek l C Z CO Heference Gas Chromatograph Software Interface User Manual 02 Valid Positive Floating Point Number 02 Valid Positive Floating Point Number 02 Valid Positive Floating Point Number 02 Valid Positive Floating Point Number Default Version Description of functionality and meaning of values _ Component Index 6 Table 2 Component Index 7 Table2 Component Index 16 Table 2 Mole Component 1 Gas Chromatograph Software Interface User Manual Point Type 23 26 GC User C Program Stream Data System an Name Access or User Tvpe Update yp 60 Mole Component 5 R W System FL 4 0 Valid Positive 0 1 00 Mole Component 5 Floating Point 61 Mole Component 6 R W System FL 4 0 Valid Positive 0 1 00 Mole Component 6 Floating Point Number 62 Mole Component 7 R W System FL 4 0 Valid Po
15. 7 you must assign the streams to a meter run in the FB107 s database This allows the FB107 to log the gas component data heating value and specific gravity and use these values in volume mass and energy calculations Note Two versions of the program are included Installation and operation are identical between the two programs but they use different point type locations different display numbers and are loaded into different program slots on the FB107 GCInterface 1 bin loads into user program location I and uses point types 22 and 23 GCInterface 2 bin loads into user program location 2 and uses point types 25 and 26 The manual shows installation of GCInterface_1 bin Load GCInterface 1 bin unless another user program is currently installed in user program location 1 1 2 1 Communications Wiring The GC must be connected to the communications port on the FB107 with wiring between 16 and 24 AWG Figure I shows the wiring for an EJA 232 RS 232 to a Daniel 2350A GC Daniel 2350A FB107 Terminals J6 port 2 J10 EIA 232 RS 232 Port port 3 or J11 port 4 Figure 1 Communications Wiring 1 Introduction Rev Feb 10 Rev Feb 10 Gas Chromatograph Software Interface User Manual Auto configure The GC Program provides an auto configure option on the GC Interface screen see Figure I I This option enables the program to automatically configure the communication ports and Modbus parameters necessary to pol
16. DM 31529 GC Interface 09 06 2007 14 30 50 KEY SERI JMB 09 06 2007 14 30 49 KEY FORI JMB 0170171970 00 00 00 NONE 0170171970 00 00 00 NONE 0170171970 00 00 00 NONE 01014970 00 00 00 NONE OO 09 O7 42 03 13 o oa a adl ad ad G Figure 3 License Installed Note An FB107 can hold up to six different licenses although you can install only one instance of each license on the FB107 When you click Move to Device ROCLINK 800 moves only one instance of the license onto the FB 107 and automatically decreases the license quantity on the USB key by one 5 Verify the license name displays in the Licenses on Device section of the screen Proceed to Section 2 2 to download the user program Installation Rev Feb 10 Gas Chromatograph Software Interface User Manual 2 2 Downloading the Program This section provides instructions for installing the program into the Flash memory on the FB107 Note Two versions of the program are included Installation and operation are identical between the two programs but they use different point type locations different display numbers and are loaded into different program slots on the FB107 GCInterface 1 bin loads into user program location I and uses point types 22 and 23 GCInterface 2 bin loads into user program location 2 and uses point types 25 and 26 The manual shows installation of GCInterface_1 bin Load GCInterface 1 bin unless another user program is currently
17. Expiration Licenses on KEY Serial Number 2456 53 icense Key Event Lo B Time Stamp Action UserID endar ID Application Mame Previous Quantity Mew Quantity Figure 2 Transfer Licenses Between a Device and a Key Note This screen has three sections The upper portion Licenses on Device shows any software licenses installed on the FB107 The middle portion Licenses on Key shows software licenses on the license key The lower portion of the screen License Key Event Log provides a rolling log of the last eight events related to this license key Rev Feb 10 Installation 2 1 Gas Chromatograph Software Interface User Manual 2 2 3 Select the key based license you want to transfer to the FB107 GC Interface as shown in Figure 2 4 Click Move to Device ROCLINK moves the license from the key to the FB107 and updates the screen Transfer Licenses Between a DEVICE and a KEY Licenses on DEVICE Application Mame Vendor Mame App Code Version Quantity License Source Expiration Time Created 1 GC Interface RAS 1 0 00 1 ke No Expiration 01 03 2008 02 44 28 PM Connect to KE Move to DEVICE Add License Remove Licenses on KEY Time Created Application Name Vendor ID i Serial Number 123456789 License Key Event Log ernal Number jb Time Stamp i UserID Vendar ID Application Mame Previous Quantity Mew Quantity 0103 2008 16 03 55 REMOVE LOI 31529 GC Interface 01 03 2008 14 44 23 ADD A
18. Form A6248 Part Number D301345X012 February 2010 Gas Chromatograph Software Interface for FloBoss 107 Flow Managers User Manual es Remote Automation Solutions EMERSON Gas Chromatograph Software Interface User Manual Revision Tracking Sheet February 2010 This manual may be revised periodically to incorporate new or updated information The revision date of each page appears at the bottom of the page opposite the page number A change in revision date to any page also changes the date of the manual that appears on the front cover Listed below is the revision date of each page if applicable Page Revision All pages Feb 10 All pages Feb 09 All pages Oct 08 All pages Sep 08 Page 5 7 Feb 08 Initial release Jan 08 NOTICE Bristol Inc Bristol Canada BBI SA de CV and Emerson Process Management Ltd Remote Automation Solutions division UK are wholly owned subsidiaries of Emerson Electric Co doing business as Remote Automation Solutions RAS a division of Emerson Process Management FloBoss ROCLINK Bristol Bristol Babcock ControlWave TeleFlow and Helicoid are trademarks of RAS AMS PlantWeb and the PlantWeb logo are marks of Emerson Electric Co The Emerson logo is a trademark and service mark of the Emerson Electric Co All other marks are property of their respective owners The contents of this publication are presented for informational purposes only While every effort has been made to ensure informational a
19. Nonane Percentage Access R W RW R W 59 Decane Percentage 60 Spec Grav Low Limit 63 IP Port of GC Rev Feb 10 R W R W RW System or User Update Both Both Data Type FL 4 Length FL 4 FL 4 FL 4 FL 4 FL 4 AG 20 Heference Gas Chromatograph Software Interface User Manual Range 02 Valid Positive Floating Point Number 02 Valid Positive Floating Point Number 02 Valid Positive Floating Point Number 02 Valid Positive Floating Point Number 02 Valid Positive Floating Point Number 02 Valid Positive Floating Point Number 02 Valid Positive Floating Point Number 20 Characters 0 65535 Default 47 466 35 34 17 194 0 07 1 52 Version 1 00 1 00 Description of functionality and meaning of values Hexane Split C6 Hexane Component Percentage This is the percentage of the Hexane value returned from the GC Hexane Split C7 Heptane Component Percentage This is the percentage of the Hexane value returned from the GC that will be attributed to Hexane Split C8 Octane Component Percentage This is the percentage of the Hexane value returned from the GC Hexane Split C9 Nonane Component Percentage This is the percentage of the Hexane value returned from the GC that will be attributed to Nonane 1 01 Hexane Split C10 Decane Component Percentage This is t
20. This is the Component ID number that is associated with Description of functionality Length Range Default Version and meaning of values 47 Heptane Component ID R W User UINT8 1 03255 255 1 00 Heptane Component ID This is the Component ID number that is associated with Heptane in 48 Octane Component ID R W User UINT8 1 03255 255 1 00 Octane Component ID This is the Component ID number that is associated with Octane in the 49 Nonane Component ID R W User UINT8 1 03255 255 1 00 Nonane Component ID This is the Component ID number that is associated with Nonane in 50 Decane Component ID R W User UINT8 1 03255 255 1 00 Decane Component ID This is the Component ID number that is associated with Decane in the 51 Argon Component ID R W User UINT8 1 03255 255 1 00 Argon Component ID This is the Component ID number that is associated with Argon in the EE GC 00 52 Heating Value Adjust Option R W User UINT8 1 021 0 1 00 Heating Value Adjust Option 0 Disabled AzEnabled 53 GC Base Pressure R W User FL 4 0 Valid Positive 14 73 1 00 Base Pressure Configured in Floating Point GC Number s s j 20e 54 Poll Mode R W User UINT8 1 021 0 1 00 GC Polling Mode 0 Disabled 1 Enabled 4 6 Reference Rev Feb 10 61 Spec Grav High Limit Point Type 22 25 GC User Program Configuration and Status Parm s Name 55 Hexane Percentage 56 Heptane Percentage 57 Octane Percentage 58
21. and so on If the bit is set the program uses Component ID table 1 If the bit is not set the program uses Component ID table 2 Note This value reflects settings from the GC This read only field provides a color coded error display Red indicates an alarm condition 3 10 Configuration Rev Feb 10 Gas Chromatograph Software Interface User Manual Field Alarm Logging Mode Description Sets how the program logs alarms with Spontaneous Report by Exception SRBX notification Click w to select a mode described below Note The system generates one alarm regardless of the number of different errors that may occur in the time before the alarm clears SRBX notification occurs based on the Alarm Logging Mode For the system to generate an alarm such as for a Poll Sequence Failure error you must first enable the Alarm Logging Mode parameter on the current logical stream Disable No logging occurs Logging Enable Logging occurs but without Logging generating SRBX notifications No SRBX Enable Logging occurs and SRBX Logging notifications occur on alarm set SBRX in Set Enable Logging occurs and SRBX Logging notifications occur on alarm clear SRBX on Clear Enable Logging occurs and SRBX GC Defined Averages Specific Gravity Limits Logging notifications occur on both alarm set SRBXon and alarm clear Both This read only field shows component values for the selected stream T
22. ata 3 6 Configuration Rev Feb 10 Gas Chromatograph Software Interface User Manual Field Hexane Split Enable Alarm Bypass 1 and Alarm Bypass 2 Heating Value Low Limit Saueceseacecescacecsscscscescacecesscesescncesescesesencesensecesesceseseeceseseesesescecessscecesescecesescesm Heating Value High Limit Total Mole Deviation Specific Gravity Low Limit Specific Gravity High Limit Description Enables the hexane composition to be split between hexane heptane octane nonane and decane The program uses a pre defined split if the component ID for hexane is set to 8 9 10 or 11 see table below Hexane Heptane Octane Nonane Decane 96 47 466 i 35 34 17194 0 0 mum 50 p 50 0 GE 0 ZEB 50 po 25 25 0 0 EE 57 143 E 28 572 14285 0 0 nz Select this check box to allow the program to update the meter run values even if the Alarm 1 or Alarm 2 field in the GC displays an alarm Sets the minimum heating value the FB107 accepts for a meter run update The FB107 considers any heating values sent by the GC that are lower than this value to be invalid and does not forward them to the meter run INS Sets the maximum heating value the FB107 accepts for a meter run update The FB107 considers any heating values sent by the GC that are greater than this value to be invalid and does not forward them to the meter run Sets as a percentage either the difference plus or minus from 100
23. avity High Limit 1 52 Stream Data Component Data Dry BTU Value Wet BTLI Value Specific Gravity Component ID Table 1 ID Table 2 Mole 0 0 0 0 0 0 0 0 0 0 0 0 Compressibility Wobbe Index Total Unnormalized 0 0 Total GPM 0 0 Mole Sum 0 0 Component Mask D Error Code a DA a DA gt OI gt DI gt DI gt OY gt gt DI gt gt DA gt DX gt gt DY gt DI gt DI gt DA gt DA gt GA CO OOO OOOO DE GA DE DE Ooo Disable Logging M 0 Rev Feb 10 GC Defined Averages Event Logging Archive Avg CAUTION This option will disable all Value error events from being written to the 0 0 event log 0 0 00 Disable Event Logging 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 co nor Wh Print Save As Auto Scan Update Close b EENE 3 08 4M Figure 13 GC Stream Data 3 Review and change as necessary the values in the following fields Field Point Number Calibration Analysis Flag HV Limits Description Identifies the stream number for this screen Click w to display all defined streams This read only field indicates the chromatograph s status self calibration or analysis Select the Enable checkbox to allow user defined Heating Value HV limits to be set for the selected run If the HV Limits are enabled the BTU Low High values override the Heating Value High Low Limits set on the GC Configuration screen Configura
24. b displays Meter Setup Heter Number 1M AAF Meter Tag Meter 1 Active Flow Calculation Coriolis Active Properties Calculation AGAS 92 Detailed General Inputs Advanced Fluid Properties Sampler Calibration Factors Alarms FP Method Nitrogen Heptane 10 0 f Detailed f Grossl coz Terme 0 0 Heating Value Ti f Calculate f Enter Methane Nonane msn BTL CF Ethane Decane 0 0 easy aT eating value basis Propane l H25 o o r C wel n Butane Water 10 0 FA Butane Helium 0 0 f Calculate Enter n Pentane Oxygen o n 0 573538 Pentane CO 0 0 Mee Songtime enn me Viscosity 0 0000069 Aaa Bo o Sp Heat Ratio 1 3 E Gaz Quality Total Mole amp 100 Per Live Log Methane Adjust f Enabled f Disabled Copy Figure 14 Meter Setup Fluid Properties tab 3 Review and change as necessary the values in the following fields Field Description Meter Number has been assigned Component Mole 96 from the GC Heating Value Heating Value Basis meter run Rev Feb 10 Configuration 3 13 Gas Chromatograph Software Interface User Manual Field Description Specific Gravity Indicates the specific gravity ratio of the molar mass gas to the molar mass of air The program sets this option to Enter and retrieves this value from the GC Gas Quality Indicates the source of the gas quality The GC Interface program sets this field to Live when it copies data to the meter run 4 Cli
25. ccuracy they are not to be construed as warranties or guarantees express or implied regarding the products or services described herein or their use or applicability RAS reserves the right to modify or improve the designs or specifications of such products at any time without notice All sales are governed by RAS terms and conditions which are available upon request RAS does not assume responsibility for the selection use or maintenance of any product Responsibility for proper selection use and maintenance of any RAS product remains solely with the purchaser and end user 2008 2010 Remote Automation Solutions division of Emerson Process Management All rights reserved li Rev Feb 10 Gas Chromatograph Software Interface User Manual Contents Page Chapter 1 Introduction 1 1 til Scope And OPahz lon pvr 1 1 1 2 POUR ON Zsa cca tect re auicm tuia Eu MEUM a E e EU Men eee aU dE EIS 1 1 121 eaeMen miirgemm t ER 1 2 122 PUTO COMIC US cates ale sealer deu ta ai ddr 4 bac tent 1 3 1 2 9 VANG GG PRS 1 4 13 Program RETTENE Sveen 1 6 IOS License ES meer cT TT 1 6 Chapter 2 Installation 2 1 2 1 installing tn License Key 5 buta aset DU Rev ane b Ed D re ud aai vo bu bue Sura o dun au oaa 2 1 2 2 JDowrnlodgding INE PEOGEaFTI sai iiuvs Unna avden Hebe ba velt pape roba ads ewboat 2 3 Chapter 3 Configuration 3 1 Ol OG Me SEN ee 3 3 32 CX IU fiet TET Gb 3 6 39 GO oleam Dala STEEN ssi greeted veio e ea 3
26. ck Apply to save your changes Proceed to Section 3 5 to save the configuration 3 14 Configuration Rev Feb 10 Gas Chromatograph Software Interface User Manual 3 5 Saving the Configuration Whenever you modify or change the configuration it is a good practice to save the final configuration to memory To save the configuration 1 Select ROC gt Flags The Flags screen displays Restart Flash Memory Warm Start Save Configuration Cold Start Cold Start amp Clear Alarms E vents Status a Cold Start amp Clear Displays Cold Start amp Clear FST Cold Start amp Clear History Cold Start amp Clear ALL 3 Update v OK S Cancel Figure 15 Flags screen 2 Click Save Configuration A verification message displays ROCLINK 800 3 Perform Flash Memory Save Configuration Figure 16 Perform screen Rev Feb 10 Configuration 3 15 Gas Chromatograph Software Interface User Manual 3 Click Yes to begin the save process The Flash Write Status field on the Flags screen displays n Progress The following message displays ROCLINK 800 m h 1 1 Flash Memory Save Configuration COMPLETED Figure 17 Save Confirmation 4 Click OK The Flash Write Status field on the Flags screen displays Completed 5 Click Update on the Flags screen This completes the process of saving your new configuration Note For archive purposes you should also save this configuration to your PC s
27. er 85 User Defined Avg R W System FL 4 0 Valid Positive 0 1 00 User Defined Average 14 Floating Point Number Rev Feb 10 Reference 4 13 Parm Description of functionality Length Range Default Version and meaning of values Gas Chromatograph Software Interface User Manual Point Type 23 26 GC User C Program Stream Data Parm 86 87 88 91 92 93 Name User Defined Avg Active Alarm Status Unacknowledged Alarm Status GC Number Stream Heating Value Heating Value Low Limit Heating Value High Limit Spec Grav Limit RW Access R W R W R W R W R W R W R W System or User Update System System System System System System System User User Data Type FL UINT8 UINT8 UINT8 UINT8 UINT8 FL FL Length Range 4 0 gt Valid Positive Floating Point 1 021 1 021 1 122 1 021 4 02 Valid Positive Floating Point Number 4 0 Valid Positive Floating Point Number 1 021 FL 4 02 Valid Positive Floating Point Number Heference Default 900 1300 0 07 Version 1 00 1 00 Description of functionality and meaning of values User Defined Average 15 Active Alarm Status Red light on GC Controller 0 Disabled d Enabled 1 00 Unacknowledged Alarm Status Yellow Light on GC Controller 0 Disabled 1 Enab
28. eter which is a per stream value that value overrides this value The Specific Gravity Point 23 26 Parameter 6 must be between 0 07 and 1 52 If this value is outside of this limit the meter runs are not updated Hev Feb 10 Introduction 1 5 Gas Chromatograph Software Interface User Manual Note The program copies each GC stream component to its corresponding component in the meter run with the exception of neo pentane Neo pentane is added to the 1so pentane component and then copied to the meter run The heating value and specific eravity are also copied to the appropriate meter run 1 3 Program Requirements The GC Interface program is compatible with version 1 01 or greater of the FB107 firmware and with version 1 86 or greater of the ROCLINK 800 software Program specifics include ROCLINK File Name Target Unit User Defined Flash Used DRAM Used 800 Display Version Point UDP in bytes in bytes Vare on Number 22 23 GCInterface 1 bin FB107 1 01 location 1 29025 16 384 1 86 22 23 24 GCinterface 2 bin FB107 1 01 idi 29025 16 384 1 86 24 25 26 location 2 Note You must connect a PC to the FB107 s LOI port before starting the download For information on viewing the memory allocation of user programs refer to the ROCLINK 800 Configuration Software User Manual Form A6217 1 3 1 License Keys Some applications require that you install a license in the CPU to run the application This lice
29. g major sections Chapter I Introduction Chapter 2 Installation Chapter 5 Configuration Chapter 4 Reference This manual assumes that you are familiar with the FB107 and its configuration For more information refer to the FloBoss 107 Flow Manager Instruction Manual Form A6206 or the ROCLINK 800 Configuration Software User Manual Form A6217 1 2 Product Overview Hev Feb 10 The GC Interface program enables the FB107 to communicate directly with up to two gas chromatographs GCs on the same EIA 232 RS 232 EIA 485 RS 485 or Ethernet communications port Gas Chromatographs supported include the Daniel Danalyzer and Rosemount Analytical Models 500 570 590 700 7770 and 1000 1000A GC controllers supported include the Daniel and Rosemount Analytical Models 2251 2255 2350 2350A and 2360 The program communicates directly with the GC using Modbus protocol in which the FB107 has Master status The FB107 polls data from the GC validates that data and updates the appropriate meter run parameters using that data The program can poll up to eight GC streams on one GC or up to a total of ten streams on two GCs Introduction 1 1 Gas Chromatograph Software Interface User Manual Note Using MON 2000 software you set the Daniel GC communications port to the SIM 2251 protocol For all other parameter configurations refer to the MON 2000 documentation _ In order to update meter run data in the FB10
30. hard drive or a removable media such as a diskette or a flash drive using the File Save Configuration option on the ROCLINK 800 menu bar 3 16 Configuration Rev Feb 10 Gas Chromatograph Software Interface User Manual Chapter 4 Reference Materials This section provides tables of information on the user defined point types used by the GC Interface program Point Type 22 25 GC User Program Configuration and Status Point Type 23 26 GC User C Program Stream Data Rev Feb 10 Reference 4 1 Gas Chromatograph Software Interface User Manual 4 1 Point Type 22 25 GC User Program Configuration and Status Point type 22 and 25 contains the parameters for configuring the GC Interface program and houses the status information from the gas chromatograph The program maintains two logical points of this point type Point Type 22 25 GC User Program Configuration and Status Parm d Name 0 Point Tag ID 1 Not Used Access R W 2 User Program Status System or User Update User 3 Autoconfiguration 4 Comm Port Number 5 GC Address 6 MODBUS Location R W R W R W 7 Polling Interval 8 Next Poll Request 9 Heating Value Low Limit 4 2 RWO Data Type Length FL 4 Reference Range 0x20 gt 0x7E for each ASCII 0 gt 1 Any Positive Floating Point Number Any Positive Floating Point Number _ Any Floating Point Number Default GC Config
31. he percentage of the Hexane value returned from the GC Specific Gravity Low Limit If the specific gravity value returned from the GC is less than this value an alarm will be set that will be attributed to Decane _ Specific Gravity High Limit If the specific gravity value returned from the GC is more than this value an alarm will be Seb IP address of the GC 4 7 Gas Chromatograph Software Interface User Manual 4 2 Point Type 23 26 GC User C Program Stream Data Point type 23 and 26 contains the parameters for configuring the GC Interface program and houses the status information from the gas chromatograph The program maintains 11 logical points of this point type Logical 0 is the current steam and logical I through 10 are mapped to streams on the gas chromatographs as assigned by the maximum streams per GC point type 22 25 parameter 13 Point Type 23 26 GC User C Program Stream Data System Name Access or User pi Update yp 0 Point Tag Id R W User AC 10 0x20 0x7E for Cur 1 00 Point Type Description each ASCII Stream character or Description of functionality and meaning of values Parm Length Range Default Version Stream 1 Not Used o 2 Stream Number R O System UINT16 2 128 1 8 1 00 Stream Number depending onlogical 1 1 3 Component Table Mask R W System UINT16 2 0 gt 0xFFFF 0 1 00 Component Table Mask Each bit corresponds to a stream A bit value
32. his read only field shows data returned by the GC but is not used by the program For more information refer to the GC s user manual Select the Enable checkbox to allow user defined specific gravity limits to be set for the selected run If enabled the Specific Gravity Low High values for the selected run will override the Specific Gravity High Low Limits set on the GC Configuration screen Rev Feb 10 Configuration 311 Gas Chromatograph Software Interface User Manual Field Description Specific Gravity Low If Specific Gravity Limits are enabled sets the Limit minimum specific gravity value for the selected run that the FB107 accepts for a meter run update The FB107 considers any specific gravity values sent by the GC that are greater than this value to be invalid and does not forward them to the meter run Note Values entered in this field override the Specific Gravity Low Limits set on the GC Configuration screen for the selected run only Specific Gravity High If Specific Gravity Limits are enabled sets the Limit maximum specific gravity value for the selected run that the FB107 accepts for a meter run update The FB107 considers any specific gravity values sent by the GC that are greater than this value to be invalid and does not forward them to the meter run Note Values entered in this field override the Specific Gravity High Limits set on the GC Configuration screen for the selected run only Disable Event Se
33. l the GC s For this option to work however you must first specify a communication port in the Comm Port field on the GC Interface screen specify the maximum number of streams and Modbus address for each GC in use and modify the Modbus register table location if desired When you select Auto configure on the GC Interface screen the program sets the selected communication port parameters to the following values Baud Rate _ 9600 Data Bits O Stop Bits 1 Parity None Key On Delay 200 mSec Key Off Delay 200 mSec Port Owner Modbus Master When you select Auto configure on the GC Interface screen the program sets the Modbus configuration parameters for the selected communications port to the following values Transmission Mode RTU Byte Order MSBFirt Event Log Enable Disabled Master Starting Request Number 1 Master Number of Requests Bs When you select Auto configure on the GC Interface screen the program automatically configures the Modbus Master Table using values in the Comm Port and Modbus Address fields on the GC Interface screen to poll for the following registers in the GC 3001 3016 Component IDs Table 1 3017 3032 Component IDs Table 2 3034 Current Stream 3035 _ Mask of Streams associated with Table 1 3045 Cycle Start Time minutes 3046 GC Alarm 1 3047 GC Alarm 2 3059 Calibration Analysis Flag 7001 7016 Gas
34. lect the Enable checkbox to disable error Logging events from being written to the FB107 s event log Note This option disables logging for ALL error events except parameter change events For example an event is not logged if the GC reports an out of range specific gravity value and event logging is disabled 4 Click Apply to save your changes 5 Click Close to return to the ROCLINK 800 screen Proceed to Section 3 4 to set up meter run parameters 3 12 Configuration Rev Feb 10 Gas Chromatograph Software Interface User Manual Use this screen to set gas quality and heating values To access this screen Gross As Delivered Lom Ft Sec 2 Update v OK p Cancel Select the meter number to which the GC stream Indicates the mole percentage of each gas component The program retrieves these values Indicates the heating value of a specified quantity of gas The program sets this option to Enter and retrieves this value from the GC Determines the heating value dry or saturated the program copies to the meter run Valid values for this program are Dry or Wet If you select Wet the program copies the saturated heating value to the meter run If you select As Delivered or Dry the program resets the value to Dry and copies the dry heating value to the 3 4 Meter Setup Screen 1 Select Meter gt Setup from the ROCLINK 800 menu bar 2 Select the Fluid Properties tab The Fluid Properties ta
35. led GC Number The data in this stream was received from this Stream Heating Value Limits 0 Disabled 1 Enabled Stream Heating Value Low Limit If the Stream Heating Value Limits parameter is enabled and the Heating Value in this stream is less than this Value then an alarm will be set 1 00 Stream Heating Value High Limit If the Stream Heating Value Limits parameter is enabled and the Heating Value in this stream is greater than this value then an alarm will be 80 1 01 Specific Gravity Limit 0 Disabled 1 Enabled Specific Gravity Low Limit If the specific gravity value returned from the GC is less than this value an alarm will be set Hev Feb 10 Gas Chromatograph Software Interface User Manual Point Type 23 26 GC User C Program Stream Data System Name Access or User ad Length Range Default Version ge de of Update ype and meaning of values 95 Spec Grav Hi Limit R W User FL 4 0 Valid Positive 1 52 1 01 Specific Gravity High Limit If Floating Point the specific gravity value Number returned from the GC is more than this value an alarm will be Parm 96 Event Disable R W User UINT8 1 02 1 0 1 01 Error Event Disable 0 Error Event Logging Enabled 1 Error Event Logging m _ Disabled Rev Feb 10 Reference 4 15 Gas Chromatograph Software Interface User Manual If you have comments or questions regarding this manual please direct them to your local sales repre
36. ngs for a Daniel gas chromatograph Polling must be disabled and at least one valid GC address configured before you can initiate Autoconfigure Notes See Section 1 2 2 for further information on auto configuration lf you do not select this option you must configure the comm port Modbus comm configuration Modbus register mapping and Modbus master table Alternately you can select Auto configure and then use the ROCLINK 800 Modbus Configuration screen Configure gt MODBUS gt Configuration to change the values to suit the application 4 Click Apply to save any changes you have made to this screen 5 Click Close to return to the ROCLINK 800 screen Proceed to Section 3 2 to define GC configuration settings Rev Feb 10 Configuration 3 5 Gas Chromatograph Software Interface User Manual 3 2 GC Configuration Screen Use this screen to configure GC settings It also displays communication status for each polling configurable AGA update parameters and some returned data values To access this screen 1 From the Directory Tree select User Program gt GC Interface gt Display 23 GC Configuration 2 Double click 1 GC Config The GC Configuration screen displays xm ROCLINK 800 GC Configuration Eile Edit view ROC Configure Meter Utilities Tools Window Help D c B gu MUS MM Se 4 Ol amp E w Point Number 11 GC Config Y Component IDs Configuration Methane 0 Disable Carbon Dioxide 117
37. nse software is specific to these applications and is the property of the individual vendor shown in the Vendor Name field on the License Key Administrator screens RAS and other authorized vendors distributes software licenses on security enhanced universal serial bus USB drives You must install the following license keys to use the GC Interface Program GC Interface License Key vg Introduction Rev Feb 10 Gas Chromatograph Software Interface User Manual Chapter 2 Installation This section provides instructions for installing the GC Interface program Read Section 1 5 of this manual for program requirements Note The program and license key can be installed in any order The manual shows the installation of the license key first 2 1 Installing the License Key A license key is required to use the GC Interface program To install a USB key based license 1 Insert the USB license key in a USB port on your PC 2 Select Utilities gt License Key Administrator gt Transfer Between Device and Key from the ROCLINK 800 menu bar The Transfer Licenses Between a Device and a Key screen displays Transfer Licenses Between a DEVICE and a KEY Licenses on DEVICE Application Name App Code Version Quantity Time Created Connect to KEY Moye to REY Add License Remove Time Created Application Name Vendor ID vendor Mame App Code Version Expiration 0103 2008 02 44 29 PM GC Interface 31523 RAS 0 0 4 Mo
38. nterface FB107 TJ Bile Edit View ROC Configure Meter Utilities Tools Window Help D c ea giu Ale it SONE LEN GC Interface Configuration Program Status No Error GC Setup Meter Run Map Autoconfigure Stream Max Streams Modbus Address Meter Note Configure all parameters on this screen GC 1 6 0 Run GLT GC2 before selecting the amp utoconfigure option 1 0 0 Polling must be disabled and at least one GC 2 4 0 o o o o valid GC address must be configured before GCs Modbus Register Setup Note Enter only one stream Eg Modbus Register Table Location 12 per Meter Run Autoconfig Status Complete 2 Note There is a maximum of 10 available streams for both 3 D D Autoconfigure may be selected 4 Poll Mode Comm Port Polling Polling Disabled Comm 2 vi Polling Interval 160 0 Sec Pong fh Next Poll Req 0 0 Sec Comm Timeout 45 0 Sec Comm3 IP Configuration IP Address IP Port Print Save s Auto Scan Update Close I Apply gt ONE 11 14AM Figure 11 GC Interface 3 Review the values in the following fields Field Description Max Streams Sets the maximum number of streams from the gas chromatograph Valid values are 1 8 You cannot define more than 10 streams for both GCs Rev Feb 10 Configuration 3 3 Gas Chromatograph Software Interface User Manual Field Modbus Address Modbus Register Table Location Comm Port IP Address Description Sets
39. of 1 means that the GC will return data from Table 1 will be used A bit value of 0 means that the GC will return 4 Dry Heating Value R W System FL 4 0 Valid Positive 0 1 00 Dry Heating Value Floating Point Nn 5 Saturated Heating Value R W System FL 4 0 Valid Positive 0 1 00 Saturated Wet Heating Value Floating Point Nn 6 Specific Gravity R W System FL 4 0 Valid Positive 0 1 00 Specific Gravity Floating Point Nn 7 Compressiblitiy R W System FL 4 0 Valid Positive 0 1 00 Compressibility Floating Point Number mm 8 Wobbe Index R W System FL 4 0 Valid Positive 0 1 00 Wobbe Index Floating Point o Number 4 8 Reference Rev Feb 10 Gas Chromatograph Software Interface User Manual Point Type 23 26 GC User C Program Stream Data System Name Access or User eh Update yp 9 Total Un Normalized Mole R W System FL 4 0 gt Valid Positive 0 1 00 Total Un Normalized Mole Floating Point 10 Total GPM R W System FL 4 0 Valid Positive 0 1 00 Total GPM Floating Point o Number gt 11 User Defined Calc 1 R W System FL 4 0 Valid Positive 0 1 00 User Defined Calc 1 Floating Point Number 12 User Defined Calc 2 R W System FL 4 0 Valid Positive 0 1 00 User Defined Calc 2 Floating Point Number 13 User Defined Calc 3 R W System FL 4 0 Valid Positive 0 1 00 User Defined Calc 3 Floating Point ELLES 14 User Defined Calc 4 R W System FL 4 0 Valid Positive 0 1 00 User Defined Calc 4 Floating Point Number
40. of values Meter Run 4 Stream 0 Disable Meter Run Updating 1 8 Stream number to use to update meter run s gas 1 00 Methane Component ID This is the Component ID number that is associated with Methane in Ethane Component ID This is the Component ID number that is associated with Ethane in the 1 00 the Component ID number that is associated with Propane in the GC i Butane Component ID This is the Component ID number that is associated with i Butane in n Butane Component ID This is the Component ID number that is associated with n Butane in 1 00 Neo Pentane Component ID This is the Component ID number that is associated with Neo Pentane in the GC Rev Feb 10 Point Type 22 25 GC User Program Configuration and Status Parm 35 3 38 39 40 41 42 44 Name i Pentane Component ID n Pentane Component ID Hexane Component ID Hexane Component Access R W RW R W R W IN Nitrogen Component ID H2S Component ID Water Component ID Carbon Dioxide Component ID R W R W R W R W Helium Component ID Oxygen Component ID Rev Feb 10 R W RW System or User Update User User User Data Type UINT8 UINT8 UINT8 Length 1 Reference Range 0255 0255 0255 Default 255 255 255 255 255 Version 1 00 1 00 1 00 1
41. ou enable the Heating Value Adjustment 4 Click Apply to save your changes 5 Click Close to return to the ROCLINK 800 screen Proceed to Section 3 3 to review stream data 3 8 Configuration Rev Feb 10 Gas Chromatograph Software Interface User Manual 3 3 GC Stream Data Screen Use this screen to review stream data the FB107 has received from the GC s The program provides one iteration of this screen for each active stream in each GC You can move between stream data displays using either the Point Number drop down box on this screen or from the list on the Directory Tree With the exception of the Alarm Logging Mode and HV Limits the fields on this screen are read only To access this screen 1 From the Directory Tree select User Program gt GC Interface gt Display 24 GC Stream Data 2 Double click 1 Cur Stream The GC Stream Data screen displays sam ROCLINK 800 GC Stream Data Ble Edit View D c Lk Point Number 1 Cur Stream Y Stream GC 1 Stream 0 GC Calcs Cale 1 Cale 2 Cale 3 Cale 4 Cale 5 Diagnostics Alarm 1 0 Alarm 2 n Sample Minute Active Alarm 0 Unack Alarm Alarm Logging Mode ROC Configure Meter Utilities Tools Window Help gi Ale white 4 Ol amp Calibration Analysis Flag HV Limits BTU Low Limit 900 0 CER E 2 hk Specific Gravity Limits Specific Gravity Low Limit fo 07 Analysis Live Reading Enable DE AED I Enable BTU High Limit 1300 0 Specific Gr
42. r Program File Ej GCInterface 1 E GCInterface 2 L My Computer File name oI Files of type User Programs bin Cancel Figure 5 Select User Program File 6 Click Open to select the program file The User Program Administrator screen displays As shown in Figure 6 note that the Download User Program File frame identifies the selected program and that the Download amp Start button is active 2 4 Installation Rev Feb 10 Gas Chromatograph Software Interface User Manual User Program Administrator User Programs Installed in Device Mame No Program 2 No Program 3 No Program Version 4 No Program l 5 No Program Lreated DRAM Used 0 B No Program CRC FLASH Used Entry Pt Library Version Displays ear Stat stor Status Empty All Option Download User Program File E Program FilessGCInterface 1 bin Mame GC Interface Download amp Start Download Hev 1 10 Created 2 8 2010 2 22 18 PM CAC OxD5C1 Size 29025 E Update Close Figure 6 User Program Administrator 7 Click Download amp Start to begin loading the selected programs The following message displays Confirm Download 3 Download amp Start User Program 1 Figure 7 Confirm Download 8 Click Yes to begin the download When the download completes the following message displays ROCLINK 800
43. r UINT8 1 0 1 00 Alarm Logging Mode 0 Disable Logging 1 Enable Logging No SRBX 2 Enable Logging SRBX on Set only 3 Enable Logging SRBX on Clear only 4 Enable Logging SRBX on both Set and Clear Parm Description of functionality Length Range Default Version and meaning of values 24 Component Index 1 Table 1 RW System UINT8 25 Component Index 2 Table 1 RW System UINT8 26 Component Index 3 Table 1 R W system UINT8 27 Component Index 4 Table1 RW System UNT8 1 2 28 Component Index 5 Table 1 R W system UINT8 29 Component Index 6 Table1 RW System UINTI 1 03255 30 Component Index 7 Table1 R W System UNT8 1 025255 91 Component Index 8 Table 1 RW System UINT8 32 Component Index 9 Table1 RW System UINT8 33 Component Index 10 Table 1 R W system UINT8 b b b b Cs es f NO C1 C1 34 Component Index 11 Table 1 RW System UINT8 35 Component Index 12 Table 1 R W System UINT8 1 00 Component Index 12 Table 1 OOoOOoOo0Joooooo Jo Jo d M o V MO Oi Oi 4 10 Reference Rev Feb 10 Point Type 23 26 GC User C Program Stream Data Parm s Name 36 Component Index 13 Table 1 Access R W 98 Component Index 15 Table 1 39 Component Index 16 Table 1 R W 40 Component Index 1 Table2 R W 44 Component Index 5 Table
44. register mapped to GC Stream parameter Sample Min Start 23 26 0 17 and the last poll must be stored in a register mapped to GC Stream parameter Sample Min End 23 26 0 16 1 2 3 Validating GC Data When the polls are complete the program validates the data to ensure the polling was successful and data is correct This validation occurs before the program copies the GC stream data to the meter run Checks include The Communication Status Point 121 Parameter 6 12 18 etc must return valid responses value of 8 for all registers polled If errors are present the meter runs are not updated If you disable Bypass Alarm I Point 22 25 Parameter 11 the Alarm Flag I Point 23 26 Parameter 18 bits 14 amp 15 from the GC is checked for errors If errors are present the meter runs are not updated 44 7 Introduction Rev Feb 10 Gas Chromatograph Software Interface User Manual If you disable Bypass Alarm 2 Point 22 25 Parameter 12 the Alarm Flag 2 Point 23 26 Parameter 19 bits 0 1 2 amp 3 from the GC is checked for errors If errors are present the meter runs are not updated The program checks the Calibration Flag Point 23 26 Parameter 20 to ensure it is in the Analysis State If it is not in the Analysis State the meter runs are not be updated The Starting Sample Minute value Point 23 26 Parameter 17 must be different than the previous value or the meter runs are not updated The Starting
45. s poll Identifies the IP address of the GC to be polled Note This field only appears if an Enhanced Communication Module Ethernet is installed in Slot 1 of the FB107 and Comm 3 is selected in the Comm Port drop down box or an Enhanced Communication Module module is installed in Slot 2 of the FB107 and Comm 2 is selected in the Comm Port drop down box 3 4 Configuration Rev Feb 10 Gas Chromatograph Software Interface User Manual Field Description IP Port Identifies the IP port of the GC to be polled Note This field only appears if an ECM is installed in Slot 1 of the FB107 and Comm 3 is selected in the Comm Port drop down box or an ECM is installed in Slot 2 of the FB107 and Comm 2 is selected in the Comm Port drop down box Meter Run Map Associates GC streams with configured FB107 meter runs Valid values are 1 8 Enter 0 to disable meter run updating You must configure this parameter before the program can poll data and write it to the meter run The program stores the gas composition data for the specified stream in the gas quality parameters of the specified meter run see Section 3 4 Poll Mode Indicates whether the program attempts to poll the GC s Note A valid license key and at least one valid GC address must be present before polling can be enabled Autoconfigure Indicates whether the program automatically determines the configuration values for communications ports and Modbus setti
46. sentative or contact Emerson Process Management Remote Automation Solutions Marshalltown lowa 50158 USA 23 Houston TX 77065 USA Pickering North Yorkshire UK Y018 7JA EMERSON Website www EmersonProcess com Remote
47. sitive 0 1 00 Mole Component 7 Floating Point Number 63 Mole Component 8 R W System FL 4 0 Valid Positive 0 1 00 Mole Component 8 Floating Point Number 64 Mole Component 9 R W System FL 4 0 Valid Positive 0 1 00 Mole Component 9 Floating Point S MuR E LUE 65 Mole Component 10 R W System FL 4 0 Valid Positive 0 1 00 Mole Component 10 Floating Point EE EEE LEE E o e 66 Mole Component 11 R W System FL 4 0 Valid Positive 0 1 00 Mole Component 1 1 Floating Point Number lake 67 Mole Component 12 R W System FL 4 0 Valid Positive 0 1 00 Mole Component 12 Floating Point Number lia dd 68 Mole Component 13 R W System FL 4 0 Valid Positive 0 1 00 Mole Component 13 Floating Point EE EEE 69 Mole Component 14 R W System FL 4 0 Valid Positive 0 1 00 Mole Component 14 Floating Point Number 0 0 0000 00 0 4 0000 A 70 Mole Component 15 R W System FL 4 0 Valid Positive 0 1 00 Mole Component 15 Floating Point Number 0 0 0 0 0 0 0 4 0000 A 71 Mole Component 16 R W System FL 4 0 Valid Positive 0 1 00 Mole Component 16 Floating Point Number Data Length Range Default Version Description of functionality and meaning of values 72 User Defined Avg R W System FL 4 0 Valid Positive 0 1 00 User Defined Average 1 Floating Point Number 4 12 Reference Rev Feb 10 Gas Chromatograph Software Interface User Manual
48. terface GC Configuration and GC Stream Data and one ROCLINK 800 screen Meter Setup Use the GC Interface screen to configure one or more GC addresses select a Comm port modify the Modbus Register Table location 1f necessary assign the GC streams to meter runs enable GC polling and enable auto configuration Use the GC Configuration screen to set GC specific parameters including component IDs GC alarm options hexane plus options data limits and heating value adjustment parameters Use the GC Stream Data screen to verify communications between the GC and the FB107 set SRBX alarms and configure stream specific heating value checks Use the Fluid Properties tab on the ROCLINK 800 Meter Setup screen to indicate the type of heating value read from the GC and to select the live gas quality option You must configure the software before you can establish communications with the GC To configure the program after logging onto ROCLINK 800 and successfully installing the program and license key proceed through the program screens as shown in this section Note Using MON 2000 software you set the Daniel GC communications port to the SIM 2251 protocol For all other pen rc onore HOUSSE IGNI NN You can access all the program specific screens from the main ROCLINK 800 screen Rev Feb 10 Configuration 3 1 Gas Chromatograph Software Interface User Manual iu ROCLINK 800 On Line Com1 FB107 FB107 Z
49. the address the FB107 uses to communicate with the gas chromatograph You must set this value before the program can poll data and write it to the meter run If you set this field to O the default GC polling is disabled Note The Auto configure option uses this value see Section 1 2 2 Identifies the location of the Modbus Register Table Valid values are 1 12 The default value is 12 Note The program uses this value for automatic configuration see Section 1 2 2 Indicates which FB107 communications port the program uses for the connection to the GC s Valid values are Comm 1 RS 485 Comm 2 RS 232 and Comm 3 RS 485 RS 232 or Enhanced Communication Module Ethernet Click w to display all valid values Notes The program uses this value for automatic configuration see Section 1 2 2 Unlike other programs the Comm Port owner is Modbus Master for all values except for an ECM module For that reason the Comm Port owner should be something other than this program Sets the delay in seconds the program waits before asking the GC for the next set of results Note The GC typically takes 3 to 6 minutes to update results This read only field shows the number of seconds remaining until the next polling cycle After a poll cycle completes the program resets this field to the value stored in the Polling Interval field Sets the period in seconds the system waits for the GC to respond to a Modbu
50. tion 3 9 Gas Chromatograph Software Interface User Manual Field BTU Low Limit BTU High Limit Component Mask Error Code Description If HV Limits are enabled sets the minimum heating value for the selected run that the FB107 accepts for a meter run update The FB107 considers any heating values sent by the GC that are greater than this value to be invalid and does not forward them to the meter run Note Values entered in this field override the Heating Value Low Limits set on the GC Configuration screen for the selected run only If HV Limits are enabled sets the maximum heating value for the selected run that the FB107 accepts for a meter run update The FB107 considers any heating values sent by the GC that are greater than this value to be invalid and does not forward them to the meter run Note Values entered in this field override the Heating Value High Limits set on the GC Configuration screen for the selected run only This read only field shows the selected stream for the GC This read only field shows data returned by the GC but is not used by the program For more information refer to the GC s user manual This read only field shows any diagnostic codes for the selected stream This read only field shows values for the selected stream This read only field shows which of the two Component ID tables each stream uses Bit 0 of the Component Mask represents stream 1 bit 1 represents stream 2

Form A6188 - Well Control User Program

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