TechView User's Guide (D5131) - Welcome to Emerson Process
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1. 120 Figure 3 5 Dial Parameters Description Enter any modem commands as well as the dial string here This is the number of attempts TechView makes to dial a controller RTU before declaring that it is off line This must be an integer from 0 to 10 This is the period of time in seconds TechView waits before declaring a dialing attempt to be a failure This is the period of time in seconds TechView waits between sending commands This is an initialization string for the modem TechView immediately precedes the initialization string with the AT modem command TechView sends the initialization string ahead of the dial up string This is the first string TechView sends to the modem when an attempt is made to hang up Issued Dec 2014 TechView User s Guide D5131 String2 This is the second string TechView sends to the modem when an attempt is made to hang up Retries This is the number of attempts which will be made to hang up the modem before declaring a hang up failure This value must range from 0 to 10 Timeout This is the amount of time TechView waits before declaring an attempt to hang up to be a failure No Data Timeout This value specifies the amount of time in seconds after which the modem should be hung up if there has been no communication other than poll messages between TechView and the controller DTR Support If you check this box TechView will drop DTR in order to hang up2. 3 2 3 Advanced Communication Parameters BSAP Most users should not edit these parameters If however you are having certain communication problems you may edit these parameters to better tune your system Advanced Communication Parameters Eg Pall Period seconds Link Level Timeout oo seconds Front Pad oo Back Pad oo Use ATSCTS Signals Dialup Line Disable the sending of the Time Synch Cancel Figure 3 4 Advanced Communication Parameters dialog box BSAP 3 4 Starting TechView Establishing Communications Issued Dec 2014 Field Poll Period Variable Front Pad Back Pad Use RTS CTS Signals Disable the sending of the Time Synch Dialup Line Dial Parameters TechView User s Guide D5131 Description This is the rate in seconds in which TechView polls the directly connected RTU This is the amount of time in seconds that TechView waits for a response from an RTU or transmitter before assuming that the unit is dead and will not respond These fields specify the number of null characters to insert at the beginning front or ending back of a message Null characters may be useful in situations where there may be a momentary delay which could cause the start of a message to be missed for example while a radio link is being activated Null characters are also necessary if you are communicating using a 2 wire RS 485 link to ensure that DTR is not dropped prematurely To
3. Live Reading Restore Factor Defaults Figure 9 5 T tab Calibration of RTD Temperature 1 Select the transmitter you want to calibrate using the Transmitter list box Wet ends refer to internal transmitters all other transmitters are external 2 Disconnect the regular RTD and connect a 100 Ohm 40 01 precision resistor across the RTD terminals which is equivalent to 32 F Observe the Live Value and wait for it to stabilize 4 Click on the Calibrate Zero at 100 ohm button to calibrate the RTD zero If you are calibrating the internal transmitter the ControlWave EFM GFC XFC Calibration Issued Dec 2014 TechView User s Guide D5131 Calibration Status will be set to SUCCESS or FAIL based on whether the trim operation was successful Calibration status is not available for external transmitters 5 Disconnect the resistor of step 2 and connect a precision resistor across the RTD terminals to represent your desired span To calibrate to the default temperature span value of 558 C 1036 F requires a resistance value of 300 ohms 0 01 To calibrate the temperature span to any other desired value you must know the proper resistance value for that span You must calculate this yourself or refer to a 100 ohm platinum RTD chart For example to calibrate the span to the upper range limit URL of the transmitter 660 C 1220 F requires a 332 ohm resistance 0 01 After you connect the require
4. verification in ControlWave EFM GFC XFC 9 2 group number CHANGING IME esras 4 11 H Historical data Coann osa a 4 13 I Icons Mool Dir ennaa a a 4 2 Initialization TIES cc ec ecececececececececaceceuneaenenes A 1 Inputs calibration in 3530 45B and 55B 8 8 7 HAS TAIN Meana a aaa 2 1 L Lists online editing cccceeeeeeceeseeecseeeceesseesseees 11 1 local address changing the ccccseeeeeccesseeeceeseeeseeeseessees 4 11 LRL CISTI eco has Moc tees OEA EEE ES A ten Sete tren eee 5 2 LRV COTING cccccccecececcecececsceccucececscaueusecseanaueens 5 2 Issued Dec 2014 M Me easur d Variable sacisscdacroscncoscshoecaderanataweansionass 5 1 Measurement Qroup cccccseseeecseeeeeeeeeeeeeseees 12 1 N Node Setup dialog DOX cccccceseeeeeeeeeeeeeeeeees 3 8 Node Status dialog DOX cccccceeeeeeeeeeeeeeseeeeees 4 6 Notes SAVING nigane a a 4 12 O Online editing ACNE TICS ornina NS 11 4 SIG Man ISIS sonica 11 1 Orifice specifying plate diameter for ControlWave EFM GIG AFG aera eto a aes 9 12 R RTD CANON IT BOOB ss cossteacsanastansadsctwaraaantavieowars 6 5 CANO FAllOMi NT GOS 0 sss cossueaceansasansaaaeewansuaaceteonnts 8 4 Calibration IN S808 ccccccseeeceseeeeeeeteeeeeeees 7 3 Calibration in 4088B ccccccsseeeeeeeeeeeeees 10 9 calibration in ControlWave EFM GFC XFC 9 6 coefficients IN 4088B ccccse
5. GV RealVarl105 Q GV RealVar106 GV RealVar107 GV RealVarl108 TRANSLATION INI Initialization File Many of the standard application programs shipped with particular controllers include a TRANSLATION INI file that is used to support on line editing of signal lists The TRANSLATION INI file lists all signals marked as PDD within the ControlWave application and therefore the pool of variables that are available to be added to lists during on line editing In addition it optionally includes descriptive information that may be used for list selection in lieu of the actual list number or variable name Notes You can have the Signal Extractor program generate the TRANSLATION INI file automatically To do this select the Produce On Line Edit Translation File box in the Signal Extractor For more information on the Signal Extractor see Chapter 12 of the OpenBSI Utilities Manual D508 1 If your ControlWave project includes multiple configurations or resources and you use the Signal Extractor to generate the TRANSLATION INI file select the Add 1131 Configuration name option from the Applications page of the Advanced Configuration utility to append the configuration and resource name to the LOAD name used in the TRANSLATION INI file For example if the project MYPROJ has a resource named CW1 the LOAD name is MYPROJ_CW1 This option is supported in OpenBSI 5 8 Service Pack and newer versions See Appendix E of t
6. 101 6 RID GOGMGI SIS oionn e n a aa a i teenie 10 6 102 Calibrating te AOS SB aie a a a e e a aN 10 6 10 2 1 Calibration of Gage or Differential Pressure cccccccceeeeecceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeaas 10 7 10 2 2 Calibration of Static Pressure cceecccccccccccseeeeeeeeeeeeeaeeeseeeeeseeeaeeesseeeeessaaseeeeeeeeeessaaas 10 7 10 2 3 Calibration of RTD Temperature ccccccccssesceccceeseeceeecseeeceeseeeaeseessaeaseeeesseaeseeeseaas 10 8 Chapter 11 Online Editing ControlWave only 11 1 da On line Editing ol signalikisisuciccs ete sie ea ee 11 1 11 2 On line Editing of Archive Files ccccccccssssseeecceesseeeecceeueeeeceeauseeeecssagseeeesssaseeeessaseeeesssaas 11 4 gf yey Keer 204 a hd m Fields aarne rn ora ee eM TO 11 6 112232 Dalen Editing o Archive FIGS axsscasinnsneiiapaninetiun sbcntumaneeiden punetuvaetnerearein aa aniaatwehineinelaue 11 7 Chapter 12 Device and Measurement Groups 12 1 iv Contents Issued Dec 2014 TechView User s Guide D5131 Appendix A Initialization Files A 1 Creating an Advanced Interface Setup File for Storage at the RTU cc eecccessssseeeeeeeaeeeeeeeeens A 2 To create an Advanced Interface Setup Zip File for a custom application cccceecceeeseeeeeeeeeees A 2 ADF AEVO FE FO cc DAR oe ene R ne ek EE tro me ee eR ere ee A 3 Configuration Initialization INI Files Platform dependent ccccsseeccceeeeeeeeee
7. 5 4 Entering Calibration Mode 00 5 8 5 5 Exiting Calibration Mode cccccee 5 8 6 1 DP Tab Calibrating Differential or Gage FLOSS UNC oada trete tease abelian 6 1 6 2 SP Tab Calibrating Static Pressure 6 3 6 3 T tab Calibrating RTD Temperature 6 5 6 4 Calibrating Differential or Gage Pressure 6 6 7 1 DP tab Calibrating Gage or Differential POSS UIC aiicid taviadsvminenik x ccstate aatateenees 7 1 7 2 SP tab Calibration of Station Pressure 7 2 7 3 T tab Calibration of RTD Temperature 7 3 7 4 Model 3808 Transmitter Calibration Connection Diagram cccccseeeeeeeeeeeeeeaeeees 7 4 7 5 3808 Analog Output Calibration Voltage Measurement Diagram ccccseseeesseeeeeees 1 5 7 6 3808 Analog Output Calibration Current Measurement Diagram ccccseseeesseeeeeees 7 6 7 7 AO tab Calibrating the Analog Output 7 6 8 1 DP tab Calibration of Differential or Gage Press UG nooi nenn a 8 1 8 2 SP tab Calibration of Static Pressure 8 3 8 3 T tab Calibration of RTD Temperature 8 4 8 4 TeleFlow CPU Board RTD Calibration Connection Diagram cccccseeeeeeeeeeeeeeeee ees 8 5 8 5 Damping tab ccccccssseeecsesseseeeeeeeees 8 6 8 6 3530 45B or 55B TeleRecorder Pressure Transducer Connections cccccseeeeeeeees 8 8 S27 Manm AD ea 8 8 9 1 DP tab Calibration of Differential or Gage Press UG soia 9 1
8. URL value Click on Calibrate Span The Measured Value will be trimmed to be as close to the desired span as possible Note Span calibration may only be performed successfully if the applied pressure and span are within 3 of one another Note If for some reason you want to return to the calibration that was performed by the factory click on Restore Factory Defaults 10 8 4088B Configuration and Calibration Issued Dec 2014 TechView User s Guide D5131 10 2 3 Calibration of RTD Temperature XDP se RT DP 0 527 IN H20 SP 5 74PSI lt sensor LRL 40 C 40 F Calibrate Zero at 100 ohm Sensor URL 660 C 1220 F Calibrate Span at 300 ohm Measured Value Custom Span in degrees Restore Factory Defaults Live Reading Figure 10 10 T tab Calibration of RTD Temperature 1 Disconnect the regular RTD and connect a 100 Ohm 0 01 precision resistor across the RTD terminals this is equivalent to 32 F Observe the Measured Value and wait for it to stabilize Click the Calibrate Zero button to calibrate the RTD zero 4 Disconnect the resistor of step 1 and connect a precision resistor across the RTD terminals to represent your desired span To calibrate to the default temperature span value of 558 C 1036 F requires a resistance value of 300 ohms 0 01 To calibrate the temperature span to any other desired value you must know the proper resistance value for that span You must calc
9. of analog output in 3808 cc ceeeeeeeeeeeees 7 5 of differential or gage pressure in 3508 6 1 of differential or gage pressure in 3530 8 1 of differential or gage pressure in 3808 7 1 of differential or gage pressure in 4088B 10 7 of differential or gage pressure in ControlWave EFM GFC XFO cavvistunpatinattatohinanPeanctann nantes 9 1 of RTD Temperature in 3508 0 ccccee 6 5 of RTD Temperature in 3580 cccccceee 8 4 of RTD Temperature in 3808 ccee 7 3 of RTD Temperature in ControlWave EFM GFC AFO sircaectiscithe liccdiusa asa A 9 6 of static pressure in 3508 cceeeeeeeeeeeeeees 6 3 of Static pressure in 3530 eeeceeeseeeeeeeees 8 2 of static pressure IN 3808 cccceesseeeeeeeees 7 2 of static pressure in 4088B 00ccceee 10 7 of static pressure in ControlWave BPM GEG XFO orrian iar a a 9 4 of TeleRecorder inputs in 3530 45B and 55B8 7 OVEIVICW A 5 1 Calibration MOCE cccccsseeccceeessseeeeseeseeeeeeeeeees 5 7 Calibration Setup page cceeccccceessessseeeeeeees 3 10 Communication Issued Dec 2014 Index TechView User s Guide D5131 port considerations cccceesseeeeeeeeeeeeeeeeeees 5 4 viewing statistics ccccccsseeeeceesseeseeseeeees 4 13 Communication Setup page B AP rasa aaieuietaudnea ania eae neeat 3 2 Hes EE AE aaa E E E A A EE E E 3 3 Configuration Ol
10. valn_l parn_n valn_n Unitsl units Units2 units2 Appendix A Initialization Files TechView User s Guide D5131 linkn entries define the web pages or applications associated with the corresponding button label s on this page If referring to an application the page TYPE 3 this must be the absolute path of the Windows application to be started by this button titlen entries define text that appears in the title bars of web associated with the corresponding button label 2 on this page Titles defined here override the global_title_bar setting defined in Applications or if the global_title_bar entry includes is preceded by a character titlen entries append to the global_title_bar entry If you specify the Titlen keyword but don t specify text for the title the command uses the buttonn_label text OpenBSI 5 8 and newer staten specifies the initial appearance for the web page called up from this button staten overrides the group level VisibilityState setting for this individual web page Valid state values are Minimized The web page initially shows minimized Maximized The web page initially shows maximized Normal TechView determines the size and position of the web page default OpenBSI 5 8 and newer The entries define parameters and their associated values that are to be passed to the HTML page identified by the corresponding Link keyword The entri
11. 1 TechView User s Guide D5131 2 2 running OpenBSI Click Finish and the installation will be complete and re boot will proceed if you chose to do it now After re boot an OpenBSI Tools menu selection is added to your Windows Start Programs menu through which you can access the various OpenBSI utilities If you prefer you can create Windows shortcuts to the tools to provide access through icons on the desktop See your Windows documentation for information on how to do this Installation Issued Dec 2014 TechView User s Guide D5131 Chapter 3 Starting TechView and Establishing Communications Note Neither LocalView nor NetView can be running on your computer at the same time you are running TechView If either of those programs are running you must shut them down first Click Start gt Programs gt OpenBSI Tools gt TechView In This Chapter Oil OlaMing YOUR SESSION osaa tae alan 3 1 3 2 Establishing COMMUNICATIONS ccccceccceeeeeseeeeeeeeeeeeeesaeeeeeeeeeees 3 2 3 2 1 Communication Setup page BSAP cccsseeeeeeeeeeeees 3 2 3 2 2 Communication Setup page IP cc eeeeecccceessesseeeeeeeeeees 3 3 3 2 3 Advanced Communication Parameters BSAP 3 4 3 2 4 Advanced Communication Parameters IP ccceeeeee 3 7 32 0 Node Sep iene re eer 3 8 3 2 6 Gallbrallon Seuuy satin staccteiAwarec tersear a N 3 10 3 2 7 Transmitter Setup O
12. 9 2 DP tab Verification of Differential or Gage PLOSSUIC cceccceececeseeceeeceseeeeeeeeeeeseneeteneenaues 9 3 9 3 SP tab Calibration of Static Pressure 9 4 INDEX 2 Index 9 4 SP tab Verification of Static Pressure 9 5 9 5 T tab Calibration of RTD Temperature 9 6 9 6 Connections for RTD Temperature Calibration EFM GFC GFC CL 9 8 9 7 Connections for RTD Temperature Calibration XFO ccccecccecssseeeeeeseeeeeeneess 9 9 9 8 T tab Verification of Temperature 9 10 9 9 DAMPING tab cccceseeeesssseeeeeseeeeneees 9 11 1 0 SO PMCS Ta Doea a 9 12 11 1 Lists tab Online Editing of Signal Lists 11 2 11 2 Archives tab Online Editing of Archives PREA PEAAOS AAA A ANE TENE T A T 11 4 11 3 Archive Column Definition 00 11 6 11 4 Batch Edits tab ce eeeceeseeeeeeees 11 7 A 1 Advanced Interface Setup dialog box A 1 A 2 Sample INI File ccececcceeesseesseeeeeeees A 14 Firmware version VIQWING tNO ccccseeeeeceeeeeeeeeeeeeeeeaeeeeeaeeeeens 4 12 Flash Configuration utility staring ocenenia ced iatdeclawerued saetoaavaentewds 4 12 G Gage pressure CallDEATION IN S508 ia a 6 1 calibration In 3530 kssin 8 1 Calibration IN 3808 irissen ai 7 1 calibration in 4088B cccccceeceeeeeeseeeeees 10 7 calibration in ControlWave EFM GFC XFC 9 1 configuration in 4088B c ccccceeeseeeeeeeees 10 2
13. AUS GB ur inioartanaaarnraetnin 10 1 D Damping delne Oesen 5 3 Ol OUUM 399 Qoe aa Sinncid 8 6 of output in ControlWave EFM GFC XFC 9 11 Deleting historical data cccccccscceeeseeeeeeeees 4 13 DEVICS Ol OUD sane enrm 12 1 Devices supported by TechView 000000 1 1 DIAM ALAIMCIONS aenea 3 6 Differential pressure Calibration IN 3508 si a aia 6 1 Calibration IN 3580 eere ia 8 1 Calibration in 3808 ccceecccseececeeeeeeeeeeeeees 7 1 Calibration in 4088B ccccceeceeseeeeeeeeeeees 10 7 calibration in ControlWave EFM GFC XFC 9 1 configuration in 4088B ccccccsseeeeeeeeeees 10 2 verification IN B5B0 cccccseeeceseeteeeeseeeeseeneees 8 2 verification in ControlWave EFM GFC XFC 9 2 E EBSAP group number changing ING scarna denarii 4 11 Editing ARCHIVE TGS yanar ar teens eiees 11 4 SUS ard higieeiiteornnieivevedavurrnedeneniueawes aver 11 1 Extended Verification modifying signal names used for 00 4 9 F Figures 3 1 Opening a Session File 3 2 3 2 Communication Setup dialog box BSAP 3 3 3 3 Communication Setup dialog box IP 3 4 3 4 Advanced Communication Parameters dialog box BSAP cc ceeccceccseeeeeeeeeeeeeeeees 3 4 3 5 Dial Parameters cccecceceececeeceeeeeeeeees 3 6 3 6 Advanced Communication Parameters 0 f e lel 010 Co nee 3 7 3 7 Node Setup dialog DOX ccccsseeeeeeeees 3 9 3 8 Calibration Setup
14. As Left and Extended Verification features are mutually exclusive If you chose Local for Select Transmitter Access click Finish if you chose Remote click Next Starting TechView Establishing Communications Issued Dec 2014 TechView User s Guide D5131 3 2 Transmitter Setup Only Visible if using Remote Access First specify the number of transmitters connected below this RTU Specify the number of transmitters below this RTU Transmitter Setup First Level Noth Address 1 l Select number of transmitters second level ey A Back Cancel Help Figure 3 9 Transmitter Setup dialog box Initial View Issued Dec 2014 Starting TechView Establishing Communications 3 13 TechView User s Guide D5131 3 14 If desired you can change the Local Address and the Type of the transmitter from the Transmitter Identification dialog box To modify the address or type of a transmitter in the list either double click on the transmitter s name or click on the name and then click on Modify and make the changes in the Transmitter Identification dialog box Transmitter Setup First Level Node CYyave EFM Address 1 2 ty Remove Remove All Finish Cancel Help Transmitter Identification Local Address 3 Cancel Type S808 PT Transmitter Transmither is connected to a BETI board Advanced Interace Setup Figure 3 10
15. Batch Options Archive Definitions Collected J g Archive Definitions Collected Complete Complete Complete Complete Complete S ce Complete Fetching Signal List from ATL a a eee Issued Dec 2014 Field Process Lists Only Load From RTU Save To RTU Figure 11 4 Batch Edits tab Description When checked archive files will not be included in the batch operation only lists will be loaded or saved To save archive file definitions and signal list definitions from the currently connected RTU into a file on your PC click on this button The Save As dialog box will appear and you will be prompted to specify a path and filename to hold the retrieved data To write archive file definitions and signal list definitions to the currently connected RTU click on this button The Open dialog box will appear and you will be prompted to locate the file on your PC holding the signal and archive data to be transferred Online Editing 11 7 TechView User s Guide D5131 Chapter 12 Device and Measurement Groups Issued Dec 2014 By default the Device and Measurement groups contain links to web pages that are specific to particular platforms and applications and so vary from system to system As such they are beyond the scope of this manual Device and Measurement Groups 12 1 TechView User s Guide D5131 Appendix A Initialization Files Tech View uses initialization files to determine the organization
16. Brierly Hill Dudley UK DY5 1LX T 44 1384 487200 F 44 1384 487258 www EmersonProcess com Remote North American Latin America Emerson Process Management Remote Automation Solutions 6005 Rogerdale Road Houston TX USA 77072 T 1 281 879 2699 F 1 281 988 4445 www EmersonProcess com Remote Middle East Africa Emerson Process Management Remote Automation Solutions Emerson FZE P O Box 17033 Jebel Ali Free Zone South 2 Dubai U A E T 971 48118100 F 971 4 8865465 www EmersonProcess com Remote Asia Pacific Emerson Process Management Remote Automation Solutions 1 Pandan Crescent Singapore 128461 T 65 6777 8211 F 65 6777 0947 www EmersonProcess com Remote Remote Automation Solutions Dec 201 4 2014 Remote Automation Solutions a business unit of Emerson Process Management All rights reserved Remote Automation Solutions a business unit of Emerson Process Management shall not be liable for technical or editorial errors in this manual or omissions from this manual REMOTE AUTOMATION SOLUTIONS MAKES NO WARRANTIES EXPRESSED OR IMPLIED INCLUDING THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE WITH RESPECT TO THIS MANUAL AND IN NO EVENT SHALL REMOTE AUTOMATION SOLUTIONS BE LIABLE FOR ANY INCIDENTAL PUNITIVE SPECIAL OR CONSEQUENTIAL DAMAGES INCLUDING BUT NOT LIMITED TO LOSS OF PRODUCTION LOSS OF PROFITS LOSS OF REVENUE OR USE AND COSTS INCURRED INCLUDING WITHOUT LIMITATION FO
17. Ser Calibration Span Calibration Restore Factor Defaults Static Pressure Span Calibration sensor LAL 0 00 Sensor URL 2000 00 Measured value OOO FSI Target Trim Yalue 0 00 yy caira i Nem Applied Value E Calibrate Span Figure 7 2 SP tab Calibration of Station Pressure The Sensor LRL and Sensor URL display the lower range limit and upper range limit respectively of the static pressure sensor 1 In the Select Operation for SP Sensor box select Zero Calibration 7 2 3808 Calibration Issued Dec 2014 TechView User s Guide D5131 2 To perform the zero calibration vent the transmitter to atmosphere so only atmospheric pressure is applied Click on the Calibrate Zero button and the Measured Value will be trimmed to be as close to the zero as possible 3 To calibrate the span select Span Calibration in the Select Operation for SP Sensor box then apply a pressure equivalent to the desired span Now enter the pressure you applied in the New Applied Value field If the transmitter accepts the New Applied Value the value you entered will be displayed in the Target Trim Value field This value must be less than or equal to the Sensor URL value Click on Calibrate Span The Measured Value will be trimmed to be as close to the desired span as possible Note Span calibration may only be performed successfully if the applied pressure and span are within 3 of one another Note If for som
18. Transmitter Identification To add another transmitter to the list click Add and fill in the fields in the Transmitter Identification dialog box To remove a transmitter from the list click on the transmitter s name then click Remove To remove all of the transmitters from the list click on Remove All Click OK when finished When you have finished configuration for the transmitters click Finish Starting TechView Establishing Communications Issued Dec 2014 TechView User s Guide D5131 3 3 Signing On to the RTU Once you click Finish and communications have been successfully established with the RTU TechView prompts you for a Username and Password SignOn to RTU Ibis recommended that you supply 4 usermame when signing on to Controlwave type devices Co Status Login required Usemame SYST EM ea Figure 3 11 SignOn to RTU Enter the username password combination and click Signon The RTU must recognize this username password combination as valid in order for you to gain access Notes Some customers may choose to set up a default username password to avoid having to enter it repeatedly See Application Settings later in this manual for details If you use TechView to call up web pages for example in the Measurement group do not sign off from the Sign On Off web page control unless you intend to also exit TechView since the web pages and TechView share the same connection to t
19. application and calibration success failure will be noted as an audit record in the multi run application You must specify the total number of transmitters both internal wet ends and external transmitters here Issued Dec 2014 Starting TechView Establishing Communications 3 11 TechView User s Guide D5131 Disable Damping Do not ask user s permission when freezing unfreezin g live values Enable As Found As Left Verification Functionality Calibration Signal Configuration Extended Verification Signal Configuration As Found As Left Verification Signal Configuration Note If you want to use TechView to communicate with an RTU that doesn t require any calibration you can hide calibration options by setting this to 0 OpenBSI 5 8 Service Pack 1 and newer If your ControlWave RTU has an internal transmitter that doesn t require damping you can disable damping functions by selecting this box OpenBSI 5 8 Service Pack 1 and newer When the user enters calibration mode live values for differential pressure static pressure gage pressure and temperature are frozen i e the RTU will collect no new values from the transmitter during calibration mode A prompt appears warning the user of this and giving them the option of not entering calibration mode Similarly when the user tries to exit calibration mode the user will be prompted to confirm that they want to exit thereby unfreezing live
20. before sending the hang up strings and TechView will raise DTR before dialing Click OK to save the dial up and hang up parameters 3 2 4 Advanced Communication Parameters IP Most users should not edit these parameters If however you are having certain communication problems you can edit these parameters to better tune your system Advanced Communication Parameters Eg UDF Port forthe IP Driver 1234 UDF Port for Time Synchs i 235 Frequency of Time Synchs 600 seconds Digable the sending of the Time Synch roa Figure 3 6 Advanced Communication Parameters dialog box IP Issued Dec 2014 Starting TechView Establishing Communications 3 7 TechView User s Guide D5131 Field Description UDP Port for the IP Driver The UDP Port Number for IP Driver sometimes known as the socket number is used for communication with RTUs It is used to split message traffic along different streams All PCs or RTUs which are to communicate with each other must have the same UDP Port Number for IP Driver In a sense this value is like a common password which must be known by each node in the network If no value is entered TechView assigns a default value for use throughout the network when the system is first created Note Although the term UDP port is used it has no actual relationship with the physical communication ports Note The UDP Port Number for IP Driver should never be 0 UDP Port for Time Synch
21. determine the delay caused by null packing perform the following calculation seconds of delay number of null characters x 10 baud rate On an FSK connection use 3 back pad for model 4088B Use 2 or 3 Back Pad for models 3508 and 3808 If your communication line uses Ready to Send RTS Clear to Send CTS signals not to be confused with ACCOL signals check this box Check this box to prevent TechView from sending a BSAP time synch message Requires OpenBSI 5 8 Service Pack 1 or newer The default setting for this is set in the Advanced Configuration utility See Appendix E of the OpenBS Utilities Manual D5081 for details on the Advanced Configuration utility If using a dial line to communicate with the controller check this box then click the Dial Parameters button and specify the dialing parameters Issued Dec 2014 Starting TechView Establishing Communications 3 5 TechView User s Guide D5131 Enter modem commands and phone number to be dialed _ee esOws Dial Farms Retries Timeout Command Delay Init String Hangup Farms String Stringz Retries Timeout Mo Data Timeout Field Dial up Parameters Enter modem commands and phone number to be dialed Retries Timeout Command Delay Init String Hang up parameters String1 Starting TechView Establishing Communications Cancel 5 GR THOR Tee ONG MO iM DTR Support
22. dialog box 3 11 3 9 Transmitter Setup dialog box Initial View3 13 3 10 Transmitter Identification dialog box 3 14 3 11 SignOn to RTU dialog box 3 15 TechView User s Guide D5131 4 1 TechView Overview cccccseeeeeeeseeeeeees 4 2 4 2 COPYING a SESSION cceeeeeeeeeeeeeeeeeeeees 4 3 4 3 Application Settings dialog box 4 4 4 4 Create Session Fil cccccccceceeeeeeees 4 5 4 5 Open Session Fil cceeeeeeeeeeeeeeeeeees 4 5 4 6 Node Status DOX cccccecssseeeeeeeeeeeeeees 4 6 4 7 Communication Statistics window 4 6 4 8 Application Settings dialog box Security 2 ARA Recta eee AET Te eee te ne 4 7 4 9 Application Settings dialog box General TAO a jeee ieee ee ee eee 4 8 4 10 Modifying Calibration Signal Names 4 9 4 11 Extended Verification Signals dialog box 4 10 4 12 Changing the name of a transmitter 4 11 4 13 Changing the Local Address or Group NOMDE aemeeceineanesren ie tesco pen a 4 11 4 14 Version Information dialog box 4 12 4 15 Notes dialog DOX cccccseseeeeeseeeeees 4 13 4 16 OpenBSI System Processe6 4 13 4 17 Deleting Historical Data 0 4 14 5 1 Identifying the Local Port n 5 5 5 2 Typical Setup for MVT Calibration 5 6 5 3 Typical Calibration Setup of GPT Using Test PI CSS UNC snae iea a eos 5 6
23. etc in the What port would you like to use field Specify the baud rate used by the port in the What baud rate would you like to use field If you are making an FSK connection to a 4088B this must be 1200 Most users don t need to adjust the advanced parameters but if you need to click on Advanced Communication Parameters Information on this dialog box is included later in this section Click on Next to proceed to the next page 3 2 2 Communication Setup page IP Issued Dec 2014 For IP communication you must specify the IP address of the RTU If you want the user to specify the IP address at startup select Ask for IP Address at startup the user will be prompted to enter the address Most users don t need to adjust the advanced parameters but if you need to click Advanced Communication Parameters Information on this dialog box is included later in this section Click Next to proceed to the next page Starting TechView Establishing Communications 3 3 TechView User s Guide D5131 Specify the IP address of the RTU Communication Setup E3 Choose Internet SelecNanmunication Protocot C BSAP ft If Protocol IP IP Address Selects f Specify IP Address mW 0 f Ask for IP Address at startup Most users a mapari i fae lt i don t need to a a m gt Advanced Communication Parameters adjust these advanced parameters Cancel Help Figure 3 3 Communication Setup dialog box IP
24. for your process This cannot be more than the Upper Range Limit URL which represents the factory set highest value for the range of values the sensor can read 10 1 2 Static Pressure Configuration options for the static pressure variable consist of setting the damping selecting the engineering units and setting lower and upper range values 10 2 4088B Configuration and Calibration Issued Dec 2014 TechView User s Guide D5131 n TechView RTU 4088 B Static SP Pressure Static SP Pressure Enable ON Set Off Damping 0 40 SEC Units psi Lower Range Value 0 00 Upper Range Value 3626 00 Lower Range Limit 14 20 Upper Range Limit 3626 00 Figure 10 3 Configuring the Static SP Pressure Variable 1 Click Static SP Pressure to open the Static SP Pressure menu 2 Click Set On to enable SP conversion click Set Off to disable SP conversion 3 Specify a Damping value from 0 0 none to 30 0 seconds For a step change in input it takes five times the damping value for the reading to reach the new input For example an input change from 60 psi to 70 psi will take five seconds when damping is set to 1 Similarly an input change from 60 psi to 70 psi will take 20 seconds when damping is set to 4 Select the engineering Units for the static pressure variable Specify the Lower Range Value LRV The LRV should be the lowest value for the SP variable you want to measure for
25. group icon First select the list you want to modify here imal Lists Select a list bo modi chives mal Batch Edite STATION AUCIT LIST ing Search For Descriptor W List number 2 Signal Description A CALIE MODE Z T2 0P FROZEN Dee T2 5F FROZEN Move Down CFTEMP FROSEM CP ma aC 53 JSEFIXEDONERRZR When TRUE Causes Fixed values to be sw Sendist to z gt ATU Available SignAls Seargh For Signal a nd gg ZO Description SB Units For Wet End E Unit IC UC Flow Total to use in Run 4 Hourly 41 UC Flow Total to use in Run 4 Daily Arc UC Flow Total to use in Run 3 Hourly 41 z Prem min aia EA E E E E a E eth ee gt You can search for particular signals based on their signal name or signal descriptor Choose either Search for Signal or Search for Descriptor and type a partial signal name or descriptor TechView automatically scrolls the list to a matching signal or descriptor and displays a hand icon gt next toa matching If Description is blank no description Use the scroll bars to bring additional signals into view You can sort the available signals alphabetically by signal name or descriptor by clicking on the label Sort alphabetically from top Sort alphabetically signal from bottom Figure 11 1 Lists tab Online Editing of Signal Lists Field Select a list to modify Search for Signal Search for Descri
26. of screens the PC applications that can be started from buttons the HTML files that are accessible which icons are used etc If you purchased a standard application for your controller it may come with its own set of predefined initialization files that are specific to that application If that is the case there is no need for you to edit initialization files Users can however modify many of the items in the initialization files to meet their specific needs You can also create your own custom INI files If you do this you will need to specify them for TechView Beginning with OpenBSI 5 6 Service Pack 1 initialization files web pages etc can be stored in a zip file in FLASH memory at each individual ControlWave series controller This allows a more customized application to be created that will automatically be uploaded to the PC when the user begins their Tech View session To specify your own custom initialization files or to specify the name of a zip file click on the Session Parameters icon and click on Next in the Communications Setup dialog box In the Node Setup dialog box click on the Advanced Interface Setup button and specify the appropriate file s in the Advanced Interface Setup dialog box Advanced Interface Setup if your INI files are stored in a zipped file at the RTU click here and specify the Get Advanced Interface Setup from the ATU AISF name ee Configuration INI File The TechView Tool wil
27. point number by direct entry 1 Compare the floating point values in the Live Value field with the pressure standard Choose values at or close to zero and the URV If the zero pressure reading is offset from zero proceed to step 2 However if the zero readings agree but an offset occurs at the upper end of the range proceed to step 4 2 Calculate the amount of ZERO shift necessary to correlate the floating point number with the external reading as described in the following example and enter it in the Zero Shift field Example Assume that a DP Transmitter with a 300 inH2O URL has been properly calibrated for a 0 to 100 inH20 range If the external device reads 1 400 the difference is O 1 400 1 400 1 400 A Zero Shift entry of 1 4 would provide correlation between the floating point number and the external device Note Always set the zero before attempting span calibration Any zero errors result in an equivalent span offset that complicates calibration 3 Click Shift Floating Point Zero The adjusted value will appear in the Live Value field If an error occurs proceed to step 6 4 Calculate the amount of SPAN shift necessary to correlate the floating point number with the external reading at the upper end of the range this assumes that zero was previously calibrated as noted above Use the following example as a guide then enter the value in the Span Shift field Example Assume that the URL of the transmitter
28. pressure using a deadweight tester or similar device and let the reading stabilize Enter the Tester Value which represents the known pressure value you applied then click on the button labeled with that test point The grid in the right side of the screen displays the Actual Value read from the transmitter the Tester Value you entered and then calculates the difference between these values and displays it in the Deviation field The cursor advances to the next test point 5 Repeat step 4 for each additional test point If you make a mistake and want to re run the verification for a particular test point click the Back button If you want to skip over a test point click the Skip Test Point button Issued Dec 2014 ControlWave EFM GFC XFC Calibration 9 3 TechView User s Guide D5131 9 3 Calibration of Static Pressure Note For static pressure calibration setup connect identical supply pressures to both the low and high side ports of the MVT Boop RB osP 1 E Damping X orice DP 0 000 T 0 000 a Select Operation Calibrate Verify Transmitter Sensor 1 Internal Transmitter Calibration Calibration Status SUCCESS Test Paint Actual Tester Live Value 0 000 ero Tester Value 300 0 Span 0 000 300 000 Calibrate Zera Restore Factor Defaults Figure 9 3 SP tab Calibration of Static Pressure 1 Select the transmitter you want to calibrate using the Transmitter list box Wet ends ref
29. psig applied a 100 psig sensor may be reading 49 psig because the sensor slope is slightly off The load will calculate and apply a span correction factor of 50 49 1 0205 to the Input Value to compensate for the slope variation THIS CALIBRATION DOES NOT LINEARIZE THE SENSOR INPUT READING IT ONLY COMPENSATES FOR ZERO OFFSET AND SLOPE VARIATION The result of applying zero offset and span factor to the Input Value is the Value in Use The ACCOL load executes every 15 seconds so allow time for results to appear Note If desired you can clear the Zero Offset and Span Factor values by clicking on Restore Defaults the offset and span factors are set to 0 0 and 1 0 respectively 3530 TeleFlow Calibration 8 9 TechView User s Guide D5131 Chapter 9 Calibrating the ControlWave EFM GFC CL GFC XFC This chapter covers calibration activities for the ControlWave EFM GFC XFC and GFC CL For a general overview of calibration concepts see Chapter 5 For instructions on starting calibration mode see Section 5 4 4 In This Chapter 9 1 Calibration of Differential Gage Pressure ccccccccceeseseeeeeeeeeees 9 1 9 2 Verification of Differential Gage Pressure ccccccesseeeeeeeaeeeeeees 9 2 9 3 Calibration of Static Pressure cc ceeccceceeeeeeeaeeeeeeeeeesesaaeeeeeeeeees 9 4 9 4 Verification Of Static PreSSUI cecccccccceesceseeeseeceeeeeeeeaaeeeeeeeeees 9 5 9 5 Calibration of RTD Tempera
30. range limit respectively of the gage pressure differential pressure sensor ROP sp RT SP 5 76PSl I Select Operation for DP Sensor Zero Calibration C Span Calibration Restore Factory Defaults DP GP Zero Calibration Sensor LRL 249 80 IN H20 Sensor URL 249 80 IN H20 Measured Value 0 537 IN H20 Calibrate Zero Figure 10 8 Calibrating Gage or Differential Pressure 1 In the Select Operation for DP Sensor box select Zero Calibration 2 To perform the zero calibration vent the transmitter to atmosphere so no pressure is applied Click on the Calibrate Zero button and the Measured Value will be trimmed to be as close to the zero as possible 3 To calibrate the span select Span Calibration in the Select Operation for DP Sensor box then apply a pressure equivalent to the desired span Now enter the pressure you applied in the New Applied Value field If the transmitter accepts the New Applied Value the value you entered will be displayed in the Target Trim Value field This value must be less than or equal to the Sensor URL value Click on Calibrate Span The Measured Value will be trimmed to be as close to the desired span as possible Note Span calibration may only be performed successfully if the applied pressure and span are within 3 of one another Note If for some reason you want to return to the calibration that was performed by the factory click on Restore Factory Defaults
31. results to the temperature indicated by the temperature transmitter Issued Dec 2014 ControlWave EFM GFC XFC Calibration 9 9 TechView User s Guide D5131 Boor Mose BT R Damping BH Orice SP 0 000 DP 0 000 a Select Operation Calibrate Werify Transmitter Sensor 1 Internal Transmitter Ventication f As Found As Left Live Value 0 000 Fahrenheit Test Point Actual Tester Deviation SP MidPoint Tester Value 0 1 ero era Shift AF Verify Mid Point 1 Leul Full Scale Mid Paint 2 Skip Test Point Figure 9 8 T tab Verification of Temperature 1 Select the transmitter you want to verify using the Transmitter list box Wet ends refer to internal transmitters all other transmitters are external In the Select Operation box select Verify 3 If you are performing the verification prior to calibration choose As Found If you are performing the verification after calibration choose As Left This choice determines where reading are stored for the calibration report 4 Depending upon your application you may have multiple test points to check in sequence For the first test point apply a known pressure using a deadweight tester or similar device and let the reading stabilize Enter the Tester Value which represents the known pressure value you applied then click on the button labeled with that test point The grid in the right side of the screen displays the Actual
32. the change to take effect OF Cancel Help Figure 4 9 Application Settings dialog box General tab You can also use the Change Font button to change the font used in properties pages from the default of MS San Serif 8 point The change of font takes effect once the application or session is re started You can change the point size of text immediately by clicking View gt Small Fonts View gt Medium Fonts or View gt Large Fonts Note Bolding or larger point sizes may result in text that cannot fit on pages and so cannot be read Verify your changes to ensure readability 4 5 Calibration and Verification Signals 4 8 If you modify a standard application pre made ACCOL load or ControlWave project that shipped from the factory with your unit and as part of that modification change the signal names used for calibration verification live values etc you must identify the new signal names within TechView otherwise calibration and verification operations will not function properly To do this you must call up the associated Calibration or Verification signals dialog box To call up configuration signals click Configure gt Calibration Signals or click the Calibration Signal Configuration button located in the Calibration Setup page of the Session Parameters wizard You can also click the icon shown above To call up verification signals click Configure gt As Found As Left Verification Sig
33. the program executable or it may optionally also include other switches or command line parameters The Groups section defines the groups that appear in the Group control pane group1_section through groupn_section are the names of these group sections By default these names are also used as the names of the icons for the respective group Issued Dec 2014 Issued Dec 2014 ExclCalibGroup hide StartupGroup first groupn_section ExcludePagelmage hide_image name group_name VisibilityState default_st ate Image group_icon_number Calib include_in_this_group pagel pagel_section page2 page2_section Appendix A Initialization Files TechView User s Guide D5131 This line may optionally be included to hide the calibration group If hide is set to 1 the calibration group will be hidden If hide is set to 0 or if the ExclCalibGroup is not included the Calibration Group will be present by default This optional line specifies the group number that is active when TechView is first started i e the page that is on top among all the groups By default this is O Calibration Group The groupn_section must be one of the group section names defined previously in the Groups section Optionally set hide_image to 1 to prevent display of icons on the tabs for this group OpenBSI 5 8 Service Pack 1 and newer group_name optionally defines the name appearing under the icon for t
34. values If you check this box however these warning boxes will not appear and the user will automatically enter exit calibration mode If you don t check it the warning prompts will appear giving the user the option of aborting the starting or exiting of calibration mode Check this button to activate the As Found As Left feature for calibration logs OpenBSI 5 8 and newer Note You cannot use this feature if you are also using the extended verification feature they are mutually exclusive If you have modified a standard application with different calibration signal or variable names the Calibration Signal Configuration button allows you to specify the new signal variable names If you have modified an application that uses the extended verification feature for Modbus messages and specified different variable names for the extended verification signal configuration feature click the Extended Verification Signal Configuration button to specify the new variable names OpenBSI 5 8 Service Pack 2 and newer Note Extended verification only applies to external transmitters In addition the Extended Verification and As Found As Left functions are mutually exclusive If you have modified a standard application with different verification signal or variable names the As Found As Left Verification Signal Configuration button allows you to specify the new signal variable names OpenBSI 5 8 and newer Note The As Found
35. you create your own file for the ControlWave or ControlWave MICRO platform default names of CFGCW INI and CFGCWM INI will be assigned respectively There are no standard files for these two platforms however The basic syntax of an initialization file is as follows Applications Tit le global_title_bar Button1 title_in_menu_1l Link1 application_l Button2 tHitle_in _menu_2 Link2 application_2 Buttonn title_in_menu_n Linkn application_n Groups ExclCalibGroup hide StartupGroupsfirst Groupl groupl_section Group2 group2_section Groupn groupn_section eroupn_section ExcludePageImage hide_image Name group_name VisibilityState default_state Image group_icon_number Appendix A Initialization Files Issued Dec 2014 Issued Dec 2014 TechView User s Guide D5131 Calib include_in_this_group Pagel pagel_section Page2 page2_section Pagen pagen_section pagen_section Unit s units Name tab_name Type page_type Image page_icon_number Cont rol control_type Buttonl button label Link1 linkl Titlel title Statel statel Parameters1 parl_l vall_l parl_2 vall_2 parl_n vall_n Unitsl units1 Positionl xi yl Sizel widthI height Button2 button2_label Link2 link2 Title2 title2 State2 title2 Parameters2 par2_l val2_l par2_2 val2_2 par2_n val2_n Units2 units2 Position2 x2 y2 Size2 width 2 height2 Buttonn buttonn_label Linkn linkn Titlen titlen Appendix A Initialization Files A 7 T
36. you want to return to the calibration that was performed by the factory click on Restore Factory Defaults 9 4 Verification of Static Pressure You perform verification as a check to see whether calibration is required or after calibration 1s completed to verify proper calibration You choose As Found to record that verification readings are before calibration or As Left to record that verification readings are after calibration For static pressure transmitters you must perform verification at a minimum of two points typically at zero the transmitter vented to atmosphere and under pressure often the upper range limit or if that is not practical near the typical operating range of the transmitter Roop RSP Rr Damping X orice DP 0 000 T O 000 a Select Operation Ciee Verify Transmitter Sensor 1 Internal Traremitter Vertication f As Found As Left Test Point Actual Tester Deviation Live Value 0 000 sf Zer Shift poo o100 0100 Mid Point 3 Mid Point 2 Mid Point 1 ero ero Shift AF Back Skip Test Point Tester Value ih Figure 9 4 SP tab Verification of Static Pressure 1 Select the transmitter you want to verify using the Transmitter list box Wet ends refer to internal transmitters all other transmitters are external 2 In the Select Operation box select Verify If you are performing the verification prior to calibration choose As Found If
37. 1 Open new session file Open existing session file Save session file Restart session with new parameters View Modify application parameters Modify session parameters View modify calibration signal names Change local address and group number Start Flash Configuration Utility Write audit note Show hide Node status box Show hide Communication Statistics Window Show firmware version in node Show TechView version info Blinks on data refresh Access help file Title bar Tech Sios Inyo Apes Menu bar FITT T Dao gt Tool baar ea E oF 9 sr RT IE owes WebPages fl Dat ariere Pa 0000 T 000 Network tree Dowedaadter CortrolVierw Belect Oper ston 7 prasa _ manen 3 l O Cobie Venky animalen Wet End 1 intemal Tzanim ter 7 Venhicahon Pop up menu to call up other Uova 0 000 programs for use with this RTU T E j om x PSB Bak tN ty i i ee Select the group of pages you want to use right now Communication Statistics gO Pach ei iama p Eer information AchOncad O Ack Timeout 0 Deced Pug 0 DecadQucte 0 OncedSeq 0 Ow of Order 0 FalQvers 0 FaiOver Fale 0 Resanseq 0 SewEnor 0 PetsBeev 124 Pris Sere 165 SiubPks Hoey 13 StF als Sere 127 Inv SUPRE 0 tev Phir 0 ksi Commuter Slains Typical calibration page Fot Haley pr si 2 Fun CWave_EFM SMe nznm Node status box Curre
38. 1 Archive FieldS focncassindcntaccanatacetencuntinctsigupied cintdeatocsenhsecendagnaces 11 6 10 2 2 Batch Editing of Archive FIl S ccccsesceeesseseeseeeeeeeeeees 11 7 11 1 On line Editing of Signal Lists Signal lists are a convenient way to organize and view signals used in your control strategy For example you might have a list of configuration parameters that apply to a particular portion of the control strategy or you might have a list containing the current values of various process variables Note Beginning with OpenBSI 5 8 Service Pack 1 lists can contain up to 10 000 signals earlier versions limited this to 5000 signals If your controller is running a standard application created by Emerson certain signals will already be stored in signal lists for you to look at You may decide however that there are other signals in the application that you want to add to an existing list or maybe there are signals you want to remove from a list because you don t use them much These changes can be made via on line signal list editing TechView User s Guide D5131 These are all the signals in the currently selected list Signals appear in the order they are defined in the list you cannot sort them This is a list of other signals in the application that are available for you to add to the currently selected list By default online signal list editing 1s accessed by clicking on the On Line Edits
39. 10 2 2 Calibration of Static Pressure Note For static pressure calibration setup connect identical supply pressures to both the low and high side ports of the MVT Issued Dec 2014 4088B Configuration and Calibration 10 7 TechView User s Guide D5131 Rope RsP RT DP 0 527 INH20 T Select Operation for SP Sensor C Zero Calibration Span Calibration Restore Factory Defaults Static Pressure Span Calibration Sensor LRL 14 20 PSI Sensor URL 3626 00 PSI Measured Value 5 76 PSI Target Trim Value 3626 00 PSI New Applied Value Calibrate Span Figure 10 9 SP tab Calibration of Station Pressure The Sensor LRL and Sensor URL display the lower range limit and upper range limit respectively of the static pressure sensor 1 In the Select Operation for SP Sensor box select Zero Calibration 2 To perform the zero calibration vent the transmitter to atmosphere so only atmospheric pressure is applied Click on the Calibrate Zero button and the Measured Value will be trimmed to be as close to the zero as possible 3 To calibrate the span select Span Calibration in the Select Operation for SP Sensor box then apply a pressure equivalent to the desired span Now enter the pressure you applied in the New Applied Value field If the transmitter accepts the New Applied Value the value you entered will be displayed in the Target Trim Value field This value must be less than or equal to the Sensor
40. 100 Position3 100 100 Sizel 400 400 Size2 400 400 Size3 400 400 rr Sof 3 BP 8 Bx f Data Contig J Logs Eile Corligure Operations View Help O MeasConfig Name Config Buttonl I 0 Configuration Button2 Basic Flow Setup Button3 Flow Equation Details Button4 Compressibility Details here a name different ButtonS Chromatograph poco ce than the default is used Figure A 2 Sample INI File A 14 Appendix A Initialization Files Issued Dec 2014 TechView User s Guide D5131 LISTS INI Issued Dec 2014 The _LISTS INI file identifies the contents of signal lists in the RTU and also marks which lists are available for on line editing LIST listnumberx editable variable variable2 variablen where listnumber is the number used to identify this list editable is either not present indicating the list cannot be edited or is replaced with the letter M meaning that the list can be modified on line variablel n are the variables in the list For example LIST 1 below cannot be edited on line whereas LIST 7 below can be edited on line SPISE E GV _AT FOR_NON_ALARMS GV _ALARMS BSAP_PORT1 GV _ALARMS BSAP_PORT1 GV _ ALARMS _BSAP_PORT10 GGV ALARMS BSAP PORTII GGV ALARMS BSAP_PORT11 Q GV _T16_AVG_DUR AT EST of OM Q GV RealVarl101 Q GV RealVarioZ Appendix A Initialization Files A 15 TechView User s Guide D5131 A 16 GV RealVarl103 GV RealVar104
41. 3 2 0 Node SEU arenas sets lic A teat 3 8 3 2 6 GalibralOn Se arisen ee ee eo 3 10 3 2 7 Transmitter Setup Only Visible if using Remote ACCESS 0cccceeeseeeeeeeeeeeeeeeeeees 3 13 29 SIgn ONTO Me ef lO Rasen annen ten emer a neat eee re eer kT ee mee ere eer 3 15 Chapter 4 Overview of TechView Functions 4 1 4 1 Changing the Session Parameters You Entered cccccccccssseseeeceeeeeceeeeeeceeeeeseeeeeeeeeeeeeeaaas 4 2 AZ TRESTAMING INES SOSSIOM tis sccctesctnaiits aidan a a a cease 4 3 4 3 Saving Your Session File sereine na a a a ai 4 3 Copying Your Session to Another Session File NAM c cccceeecccceecseeeeeeeeeeeeeeaeeeeeeeeeeseaas 4 3 AA NOI C ALO IN Se TWN CS ennn a a a a e a aa 4 3 AAT SVAN aD a caches sae a A N eae a a 4 4 AAZ OCCU Wa D a a a a aoeatet sae 4 7 4A General VAD esea a aaa ase aa aN 4 7 4 5 Calibration and Verification Signals ccccccccceccceceeeseeeeeeeeeeeeeseaaeseeeeeeeeeaeeaeeeeeeeeessaeaeeeeeeeeaaas 4 8 4S Extended VernicatiOm iisi a a a i 4 9 4 5 2 Changing the Name of a Transmitter ccccccccccsssseeeeceesseeeeeeeeeeeeeeesaeaeeeeeesaeeseneeeas 4 11 4 6 Changing the Local Address Group NUMDEL cccccsceeeceeceeeeeeeeeceaeeeeeeseeeeseeessaeeeeeseaaaess 4 11 4 6 1 Starting the Flash Configuration Utility ccccseeseeeeeeeeeesaeeeeeeeeeeesseeeeeeeeeeeeeeaas 4 12 4 6 2 Show Firmware Version in Node cccccccssesceeeceeeeeeeeeeeeeeeeeesseeeee
42. 3808 series Transmitters and controls the rate at which the output responds to a given change of input It is used to slow down the output response to a rapid or oscillatory change of the measured variable The period of time during which the indicated value changes only 63 of the difference between the present measured variable and the present indicated pressure in one damping time period It would take 5 times the DP Floating Point Damping Time for the present indicated pressure to equal the present measured pressure if a change in the present measured pressure didn t occur An increase in the DP Floating Point Damping Time results in an increased smoothing of the indicated value Note In the case of a model 3530 series unit if the External Transmitter 1s a model 3808 Damping Mode is always enabled and can t be changed Damping Time can t be changed either As Found As Left verification is a systematic method to capture the state of a transmitter both before and after linearization or calibration of the transmitter At the start of the process you perform the As Found verification This determines the current state of the transmitter You evaluate the results against a set of limits to determine whether you need to a leave the transmitter as is b perform a physical calibration of the transmitter or c take the transmitter out of service and replace it You can compare the resul
43. 90 RTD 20 ag E 12 a RTD al Ri 0fScale 21 RID 21 R 0fScoale i JSU RTDEXC 5 T1221 RTD EXC 29 z Figure 8 4 TeleFlow CPU Board RTD Calibration Connection Diagram See page 5 7 for resistor Issued Dec 2014 values 3530 TeleFlow Calibration 8 5 TechView User s Guide D5131 8 5 1 Verification of RTD Temperature 1 If this flow computer is handling more than one meter run first select the run you want to configure from the Run list box 2 In the Select Operation box select Verify 3 Disconnect the regular RTD and connect a 100 Ohm 40 01 precision resistor across the RTD terminals this 1s equivalent to 32 F 4 The regular RTD must be disconnected and replaced with a resistor which simulates the desired temperature 5 When the Reported Value is steady enter the value you applied in the Applied Value field then click on the Verify Temperature Calibration button 6 Repeat this process with other test values typically 0 50 100 80 20 O percent of scale values would be applied 8 6 Damping The output damping feature controls the rate at which the output responds to a given change of input It is used to slow down the output response to a rapid or oscillatory change of the measured variable p Damping SP 1150 333 pzi DP 305 000 inch H20 T r6 Degrees F When your eternal tranemitter is a 3808 the Damping Mode and Damping Time cannot
44. Application Settings or simply click on the icon shown at left Application Settings Startup Security General Select the way the TechView Tool will start when no Session file is specified in the command line Create a new Session i i Open an existing Session f None iM Run application maximized at startup mM Show Node Status and Communication Statistics at startup Cancel Help Figure 4 3 Application Settings dialog box Startup tab 4 4 1 Startup tab The Startup tab specifies the initial prompt a user sees if a session file is not specified via the command line As discussed earlier a TVS session file holds certain configuration parameters for how TechView communicates with a controller or transmitter Field Description Create a new If selected when TechView starts it prompts the user Session to provide a name for a new session or to use the default name of temp tvs This session file holds the communication configuration settings you subsequently define 44 Overview of TechView Functions Issued Dec 2014 TechView User s Guide D5131 Create Session File Save irr OpenB S 9 AccoL 3 WebEFM JE cwaveGFc tys hes CfoFiles 3 WwebGre cwaveGFC_CL tys Mu Recent Dataview 3 WebGFc_cL cwavelF tvs Documents Downloads C WebPages 2 CWaverF bys E Firmware 9 WebTeleCorrector 2 mytemp tws Harvester 9 WebTeleFlow 2 TelecCorr bys Desktop L
45. B coefficients in the modified DIN equation RT RO 1 A T B T 2 The sensor then calculates RTD temperature from the resistance Ed TechView RTU 4088 B RTD Coefficients RTD Coefficients RTD Temperature 16000000000000000000 RTD Information Current Value Factory Default A Coefficient 0 0039083 0 0039083 B Coefficient 0 0000005775 0 0000005775 RO Value 100 00 100 00 Restore Factory Defaults Figure 10 7 Configuring the RTD Field Description RTD Temperature The RID temperature computed from the RTD resistance A Coefficient Shows the A coefficient currently in use If needed you can specify a different A coefficient to use in the A T term B Coefficient Shows the B coefficient currently in use If needed you can specify a different B coefficient to use in the B T 2 term RO Value Shows the RO value currently in use If needed you can specify a different RO value to use in the equation Restore Factory Click here to restore the factory default values for the Defaults A B and RO coefficients These are the coefficients for a platinum RTD with an alpha of 0 00385 10 2 Calibrating the 4088B SE ate 0 See Click the Calibration icon KASto bring up the Calibration tabs 10 6 4088B Configuration and Calibration Issued Dec 2014 TechView User s Guide D5131 10 2 1 Calibration of Gage or Differential Pressure The Sensor LRL and Sensor URL display the lower range limit and upper
46. Calibrating the ControlWave EFM GFC CL GFC XFC 9 1 9 1 Calibration of Differential Gage Pressure cccccccccccececseeeseeeeeeeeeeeeseeeeeeeeeseseasseeeeeeessaaeeeeeees 9 1 9 2 Verification of Differential Gage PreSSUIe ccccccsssseeecccceseecececeeeseceeeceeeeeesseaeeeeessuagseeessaas 9 2 93 Galiran or StatiG Pross Girsan cette fell oe Bical a a dah ans tnhc aaa tenes bes Satan dees 9 4 g4 Verification Of Stalle Pressu Een innn ots Siac dy ed See E ocd Gee roids heaadecedoant ead aes 9 5 9 5 Galiration of RTD Temperattl Gisnccats onia Desa fee a O E aetna vaeadaecs 9 6 9 6 NenicalonorTemperatUre sre a A E OE vised anand 9 9 9 TAN UAG eee tani ta ist aa E N 9 11 9 7 4 Gontiguring the Damping TIME ssndsn en aga tic ease Ae areas ie adnate 9 11 9 8 ONC rere te cae ee cee ere ee ee 9 12 9 8 1 SODSCIVING MNE ONCE PIANC SIZ Eere a cea ladiawcG via tau E EA eaeaderes 9 12 Chapter 10 Configuring and Calibrating the 4088B 10 1 LOA GOMGUIINO ANG A OSS B isa a a a NN 10 1 TPO PCa PG SS Ul anonn anaa a a E 10 2 TO KZ Sale RESSU Grn sacudeneseassuae eat aasesecseaeaeaeueese 10 2 TODS COD PANG eas snaneunoracunstuceyarsuarcaoetayscaupotccheqatstncssatnanicssauetesduiaunenaroua tence yrancatustetenansene 10 3 BO Ax ASO lial ON SEUD aaea caoduaauienanseetvanitancetarstecuatued 10 4 VO sol FARSI Oli Al ely asacterete txnnpcaetecnantacacsunineteodniacteasaseetsaanhsigsaaattaiean saben siancjenetccstets 10 5
47. Floating Point Damping Time results in an increased smoothing of the indicated value Note If the External Transmitter is a model 3808 damping mode is always enabled and can t be changed damping time can t be changed either 9 7 1 Configuring the Damping Time 1 Select the transmitter you want to change the damping time for using the Transmitter list box Wet ends refer to internal transmitters all other transmitters are external 2 To change the Damping Time enter a new damping time in seconds in the Damping Time field then click on the Change DP Floating Point Damping Time button This writes the new damping time to your application in the ControlWave TechView User s Guide D5131 9 8 Orifice If you change the orifice plate on your pipe you can use the Orifice tab to update your application with the new orifice plate diameter K DF K SP w T i D amping ai Orifice SP 0 000 DP 0 000 T 0 00 a Run Sensor 1 Internal Transmitter hal Orifice Plate Diameter Current Plate Diameter 2 000 Mew Plate Diameter Figure 9 10 Orifice tab 9 8 1 Specifying the Orifice Plate Size 1 Select the transmitter using the Transmitter list box Wet ends refer to internal transmitters 2 Enter the New Plate Diameter and click the Apply new Orifice Plate Diameter button This writes the new orifice diameter to your application in the ControlWave The Current Plate Diameter field updates w
48. Local Port MUST be marked as LOCAL via the System Variable Wizard in ControlWave Designer Otherwise communications will not be possible 5 4 Calibration Overview Issued Dec 2014 TechView User s Guide D5131 Port 1 Configuration Pa eh Time _Px_POLL_PER Write Delay Ps WRITE _DEL write CTS Timeout _Pe_WRITE_TMO Ignore Echo Data Fs IGNORE ECHO Fort Supports Dial _Px_DISL PORT Port perform Auto OTR shutdown _Px_ AUTO_DTR BSAF Pad Front _Px_PAD_ FRONT ESAF Pad Back _Px_ PAD BACE Slave Time Syne Disable Px Te DS Time Sync Needed _FPs_T5_FORCE Node Routing Table Disable _FPs_NAT_DIS Alarm Disable Pe ALM DIS Immediate Response Disable Pe IMM DIS Fast Radio Interval Pe CYCLE_INT Fast Radio On Time Pe CYCLE _TIMEQ W Local Port Px LOCAL PORT WSAT Minimum Response Time Pe VSAT_M Se WSAT Maximum Response Time The Px LOCAL PORT must be set to TRUE Figure 5 1 Identifying the Local Port 5 4 Equipment Required for Calibration The equipment required depends on what type of calibration you need to perform 5 4 1 Equipment Required For Pressure Calibration Pressure calibration static differential or gage requires the following items Instrument Mounting Fixture This fixture must secure the instrument such that the MVT is positioned identically to its installation site GPT equipped units must be positioned vertically A Pres
49. MODE 4 DESCRIPTION Calibration WEB PAGE MY_GECPAGE HIM RTU MF PRUNS 2 INTERNAL XMTR 1 CUSTOM_CFGINI CEGINI INI CUSTOM_XLTINI TRANSLAT INI RTU_CALIB SIGNALS Mode GV CALIB MODE ExecOper GV MIX_1_ CALIBOP DP GV MIX_1 DP DpApplied GV MIX_1_DPSPAN DpRestore GV MIX_1_RESTOREDP SP GV MIX 1 SP SpApplied GV MIX_1_SPSPAN SpRestore GV MIX_1_ RESTORESP RTD GV MIX_1 RTD RtdApplied GV MIX_TO_APPLIED RtdRestore GV MIX 1 RESTORERTD DPDampFactor GV MIX_DP_DAMP_ FACTOR Status GV MIX_ 1 LASTCALBOP Configuration Initialization INI Files Platform dependent Issued Dec 2014 TechView includes several default configuration initialization files that are tailored for specific hardware platforms and software applications Users can modify them or use them as a basis for creating customized initialization files The default initialization files included in the TechView package are named as follows Default INI Filename Type of RTU CFG3508 INI 3508 transmitter CFG3808 INI 3808 transmitter CFG4088B INI 4088B transmitter CFGATF1 INI Teleflow 1 run load CFGATF2 INI Teleflow 2 run load CFGCTF INI C based Teleflow CFGATC1 INI Telecorrector Appendix A Initialization Files A 5 TechView User s Guide D5131 A 6 CFGTR2 INI 2 sensor Telerecorder CFGTR4 INI 4 sensor Telerecorder CFGEFM INI ControlWave EFM unit CFGGFC INI ControlWave GFC unit CFGXFC INI ControlWave XFC unit Note In addition to these names if
50. P you must perform verification at a minimum of two points typically at zero the high and low side of the transmitter equalized and with a differential pressure applied across the high and low sides of the transmitter typically the upper range limit Typically you would use three five or seven verification points to verify differential pressure 9 2 ControlWave EFM GFC XFC Calibration Issued Dec 2014 TechView User s Guide D5131 K DP SP w T Damping 4 Orifice SP 0 000 T 0 000 a Select Operation Calibrate Verify Transmitter Sensor 1 Internal Transmitter Vernhication f as Found C ss Lett Test Point Actual Tester Deviation Live Value 0 0000 w Mid Point 3 0 000 120 000 120 000 Tester Value 1 20 0 Mid Point 1 Back Skip Test Point Figure 9 2 DP tab Verification of Differential Gage Pressure 1 Select the transmitter you want to verify using the Transmitter list box Wet ends refer to internal transmitters all other transmitters are external 2 In the Select Operation box select Verify If you are performing the verification prior to calibration choose As Found If you are performing the verification after calibration choose As Left This choice determines where readings are stored for the calibration report 4 Depending upon your application you may have multiple test points to check in sequence For the first test point apply a known
51. P CURVE REE _HBEAP BLK _ FREE _HEAP_START_F REE _HBEAP RBLK_FREE _SLAVE_PORT _MSG_ TIMEOUT MESSAGE TIMEOUT _NEW_NRT_RCVD _SLAVE_DEAD Slav i POLCE iS DEM PORT DIM oR Por _DLM_ READ _DLM WRITE _ALM RETRIES _ALM RET ACT _ALM RET DEAD EOE POLL PER _ETH1_ACT Jn ACI THs ACT _NHP_IGNORE_NRT NHP IGNORE ho _BSAP_FLAG SENSE _NHP_ADDITIONAL_MASK _TS_DELTA_ACCURACY API POLG Pink PL WRL E DEE P1 WRITE TMO PIL TCNORE ECHO aE D y Appendix A Initialization Files Issued Dec 2014 TechView User s Guide D5131 SG 41 CGV P1 TO _ FORCE SIG_42 GV _P1_NRT_DIS SIG_43 GV _P1_ ALM DIS LIST DESCRIPTIONS LIST 1 LIST1 LIST 2 LIST2 LIST 3 LIST3 LIST 4 LIST4 LIST _100 UnknownList PROJECT_NAME LOAD EditArchive Notes about IP Address Formats in TVS Files IP addresses are not stored in dotted decimal format within the TEMP TVS file instead a conversion is performed Each of the four decimal numbers in the dotted decimal IP address 1s converted to a hex number The four hex numbers are then concatenated and then the resulting hex number is converted to decimal and then stored in the TVS file convert abc def ghi jkl decimals to hex hex1 hex2 hex3 hex4 concatentate the hex values gt hex 1hex2hex3hex4 convert the hex value to decimal decimal and store For example if you ha
52. Places Files of type Techview Session Files tvs Cancel Figure 4 5 Open Session File None If selected no prompt appears initially The user has two choices i The user can choose to manually start a new session by clicking on File gt New Session or by clicking on the icon shown at left The user can choose to open a previously defined La session by clicking on File gt Open Session or by clicking on the icon shown at left and then selecting Issued Dec 2014 Overview of TechView Functions 4 5 TechView User s Guide D5131 the appropriate TVS file Run application If checked when the TechView application starts it maximized at fills the available screen space on your PC monitor startup Show Node Status If checked displays the Node Status box and the and Communication Statistics window Communication Note These items can be shown hidden after startup Statistics at startup is completed In Service Unit is currently on line e aa Out of Service Unit is currently off line Alive o Alive TechView can communicate with the unit DOOS Dead TechView cannot communicate with the Needs NAT unit Time Sync Downloading Download in progress Needs NRT IP node needs new Node Routing Table Needs Poll BSAP node needs to be polled Time Sync Unit needs a time synchronization Figure 4 6 Node Status Box ii To show hide the Node Status
53. Q input JRID 3s R ofScale ControlWave ControlWave GFC CL GFC Battery Charger CPU System amp 1 O Bd Controller Bd e RIDEXC TB6 p 1S e al en RIDE 2 8 Rzero 4 S or Ss RTD 3 oFSeale F IQ ASIDE dJ TB2 RTD Input Figure 9 6 Connections for RTD Temperature Calibration ControlWave EFM ControlWave GFC CL ControlWave GFC See page 5 7 for resistor values 9 8 ControlWave EFM GFC XFC Calibration Issued Dec 2014 TechView User s Guide D5131 RTD Excitation ag RTD Sense 2 AERIS ae RTD Return 18 ofScole J3 J2 f N sa Sg Figure 9 7 Connections for RTD Temperature Calibration ControlWave XFC see page 5 7 for resistor values 9 6 Verification of Temperature You perform verification as a check to see whether calibration is required or after calibration is completed to verify proper calibration You choose As Found to record that verification readings are before calibration or As Left to record that verification readings are after calibration For temperature transmitters you can perform verification at two points but more often you would use single point verification You perform the single point verification by measuring the process temperature with a calibrated thermometer and comparing the
54. R CAPITAL FUEL AND POWER AND CLAIMS OF THIRD PARTIES Emerson Process Management Lid Remote Automation Solutions UK is a wholly owned subsidiary of Emerson Electric Co doing business as Remote Automation Solutions a business unit of Emerson Process Management FloBoss ROCLINK ControlWave Helicoid and OpenEnterprise are trademarks of Remote Automation Solutions AMS PlantWeb and the PlantWeb logo are marks owned by one of the companies in the Emerson Process Management business unit of Emerson Electric Co Emerson Process Management Emerson and the Emerson logo are trademarks and service marks 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 accuracy 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 Remote Automation Solutions reserves the right to modify or improve the designs or specifications of such products at any time without notice All sales are governed by Remote Automation Solutions terms and conditions which are available upon request Remote Automation Solutions does not assume responsibility for the selection use or maintenance of any product Responsibility for proper selection use and maintenance of any Remote Automation Solutions product re
55. Run list box 2 In the Select Operation box select Verify 3 Using an external test fixture apply a known pressure When the Reported Value is steady enter the pressure you applied in the Applied Value field then click on Verify Static Pressure Calibration Repeat this process using the external test fixture to apply known pressures of 0 50 100 80 20 and O percent of span 3530 TeleFlow Calibration 8 3 TechView User s Guide D5131 Note If during the verification procedure the transmitter is found to be out of calibration perform the calibration procedure to correct the discrepancy 8 5 Calibration of RTD Temperature Prl E SP lil SESS pi DP 305 000 inch H20 Select Operation Eun First Run 7 f Calibrate C Verify Calibration Live Reading 7 6 Degrees F Change Units Uperating Spar Live Reading Figure 8 3 T tab Calibration of RTD Temperature 1 If this flow computer is handling more than one meter run first select the run you want to configure from the Run list box In the Select Operation box select Calibrate You have the option of displaying the temperature in either Fahrenheit or Celsius to switch the units displayed click on the Change Units button 4 Disconnect the regular RTD and connect a 100 Ohm 40 01 precision resistor across the RTD terminals this is equivalent to 32 F Observe the Live Reading and wait for it to stabilize Click on the Cal
56. User Manual Document D5131 Part D301430X012 December 2014 SCO pen BSI Version 5 9 TechView User s Guide TechView CWaveEFM tvs modified Fie Configure Operations Config Pages View Help DSH Pe SPS Mei tN gt u Data f Config BB Loas Measurement Device On Line Edits Communication Statistics Packet Information Pkts Recy 697 Pkts Sent 716 SubPkts Recv 703 SubPkts Sent 704 Inv Pkts 0 Inv SubPkts Error Information Ack Discard Ack Timeout Discard Purge Discard Quota Discard Seq Out of Order Fail Owers Fail Over Fails In Service Alive Initialize Communication Statistics Restart Seq Send Error For Help press F1 1 Run Cw ave _EFM 05 20 09 10 211 74 223 6 S Remote Automation Solutions gt S E M E RSO N u www EmersonProcess com Remote Process Aar es eee RR Le IMPORTANT READ INSTRUCTIONS BEFORE STARTING Be sure that these instructions are carefully read and understood before any operation is attempted Improper use of this device in some applications may result in damage or injury The user is urged to keep this book filed in a convenient location for future reference These instructions may not cover all details or variations in equipment or cover every possible situation to be met in connection with installation operation or maintenance Should problems arise that are not covered sufficiently in the text the purchaser is advised to contact Emer
57. Value read from the transmitter the Tester Value you entered and then calculates the difference between these values and displays it in the Deviation field The cursor advances to the next test point 5 Repeat step 4 for each additional test point If you make a mistake and want to re run the verification for a particular test point click the Back button If you want to skip over a test point click the Skip Test Point button 9 10 ControlWave EFM GFC XFC Calibration Issued Dec 2014 TechView User s Guide D5131 9 7 Damping The output damping feature controls the rate at which the output responds to a given change of input It is used to slow down the output response to a rapid or oscillatory change of the measured variable X ooe Mose Rt E Damping orice SP 0 000 DP 0 000 T 0 000 a Transmitter Sensor 1 Internal Transmitter DP Damping Time Control Damping Time 4 000 Damping Time 5 Secs Change OP Floating Point Damping Time Figure 9 9 Damping tab The Damping Time is a period of time during which the indicated value changes only 63 of the difference between the present measured variable and the present indicated pressure in one damping time period It would take 5 times the DP Floating Point Damping Time for the present indicated pressure to equal the present measured pressure if a change in the present measured pressure didn t occur An increase in the DP
58. ad by an accurate milli ammeter or voltmeter connected to the analog output To calibrate the analog output 7 6 3808 Calibration Issued Dec 2014 TechView User s Guide D5131 Issued Dec 2014 1 For Select the output to be calibrated choose Cal 4 mA Measure the current or voltage externally and enter the measured value in the Enter new measured value for the selected Output field in milliamperes 2 To calibrate select the Calibrate Analog Output button The 3808 will adjust and save the new settings 3 Repeat steps 1 and 2 but this time select Cal 20 mA for the Select the output to be calibrated choice Note When calibrating the 4mA point only measured value entries between 3mA and 5mA are accepted When calibrating the 20mA point only measured value entries between 19mA and 21mA are accepted 3808 Calibration 7 7 TechView User s Guide D5131 Chapter 8 Calibrating the 3530 TeleFlow series Flow Important Computers This chapter covers calibration activities for the Bristol 3530 series flow computers TeleFlow TeleRecorder TeleCorrector For a general overview of calibration concepts see Chapter 5 For instructions on starting calibration mode see Section 5 4 4 In This Chapter 8 1 Calibration of Differential Gage Pressure cccccceeseeeeeeeeeeeeeees 8 1 8 2 Verification of Differential Pressure ccccsesceeesseeeeeeeeeeeseeeeeeens 8 2 8 3 Calibra
59. apassword is used for evepwetde in the curen Sessonsretrork W Enable Default Security If you don t want to enter a username and password every time you log onto an RTU you can enable the default security feature and then set a default username and password You must have configured the same username erm ENNE password combination for each RTU UONE S you try to access during this session Data Server Time to wait for a successful Login through the Data Server 1 0 ace These settings allow you to change the timeouts for logging into out of web pages handled via the Data Cancel Help Server Figure 4 8 Application Settings dialog box Security tab Time to wait for a successful Logout through the Data Server 10 SECS 4 4 3 General tab On the General tab you can specify whether or not you want the Advanced Interface Setup File detection dialog box to prompt you when AISF files already exist on the PC and would be overwritten by files from the RTU To disable this prompt un check the Show Advanced Interface Setup File Detection Dialog option Issued Dec 2014 Overview of TechView Functions 4 7 TechView User s Guide D5131 Application Settings Startup Security General i Show Advanced Interface Setup File Detection Dialog Font for Technician s Property Sheet MS Sans Sent 8 Changing the font of the Technician s Property Sheet requires restart of the Session or the Techyiew Application for
60. ation of a transmitter You can use TechView to calibrate the RTD temperature circuitry and or the MVT GPT pressure transducer for the following products 3508 TeleTrans Transmitter 3808 MVT Transmitter Firmware Version 1 5 or newer 3530 10B TeleFlow Electronic Gas Measurement Computer 3530 20B TeleFlow Plus 3530 45B TeleRecorder 3530 50B TeleFlow Corrector 3530 55B TeleRecorder Rosemount 4088B Transmitter ControlWave EFM ControlWave GFC ControlWave XFC Introduction 1 1 TechView User s Guide D5131 Chapter 2 TechView Installation Issued Dec 2014 10 Note For minimum system requirements and more detailed installation instructions refer to Chapter 2 of the OpenBSI Utilities Manual D5081 Log into the workstation with administrative privileges 2 Insert the OpenBSI CD ROM in your CD ROM drive 3 If your CD ROM drive has autorun enabled skip to the next step Otherwise open a DOS prompt with administrative privileges then set the folder to the CD root directory and run the same open command that is in the autorun inf file on the CD for example demo32 exe openbsi dbd When the CD browser screen appears choose the Install OpenBSI option A screen reminds you to close all other programs and warns you that older OpenBSI versions will be removed Click Next A license agreement screen opens Review the agreement using the scroll bar to bring it into view Click I accept the t
61. be changed Run First Rur ha Damping and Mode Control Damping Mode Enabled Damping Time 0 0 Secs Damping Time Secs Figure 8 5 Damping tab The Damping Time is a period of time during which the indicated value changes only 63 of the difference between the present measured variable and the present indicated pressure in one damping time period It would take 5 times the DP floating point damping time 8 6 3530 TeleFlow Calibration Issued Dec 2014 TechView User s Guide D5131 for the present indicated pressure to equal the present measured pressure if a change in the present measured pressure didn t occur An increase in the DP floating point damping time results in an increased smoothing of the indicated value Note In the case of a model 3530 series unit if the external transmitter is a model 3808 damping mode is always enabled and can t be changed damping time can t be changed either 8 6 1 Configuring the Damping Time 1 If this flow computer is handling more than one meter run first select the run you want to configure from the Run list box 2 Enable the damping feature if it isn t already active by clicking on the Change DP Floating Point Damping Mode button The currently active mode is displayed in the Damping Mode field 3 To change the Damping Time enter a new damping time in seconds in the Damping Time field then click on the Change DP F
62. be renumbered automatically Precision e z Characterisics Ava for time when Factor 0 T When TRAUE causes all fixed variables to come from the St When TRUE causes all Limit variables to come from the Str When TRUE Causes Fited values to be used when the str When TRUE Causes Fited values to be used when the str When TRUE Causes Fited values to be used when the str When TRUE Causes Fited values to be used when the str Use Invidual PY for TS Unite from Wet E rnd Units for wet Erd Unite for wet Erd Unite for wet Erd Unit ID UC Flow Total to use in Aun 2 Hourly Archive UC Flow Total to use in Aun 2 Daily Archive UC Flow Total to use in Aun 1 Hourly Archive Figure 11 3 Archive Column Definition Cancel You can sort the available signals alphabetically by signal name or descriptor by clicking on the label Sort alphabetically from top Sort alphabetically from bottom Field Description Column This displays the number of the column you are defining column numbers are assigned sequentially Note This cannot be changed via TechView Title Enter a description for the column here It can range from 1 to 16 characters Data Type Allows you to choose the data type of the variable associated with this Characteristics column This should match the data type configured for this variable in ControlWave Designer Note The choice of which variable is associated with a parti
63. be running BE Copy she Enter a name for the Save in OpenBS we e Ee session then click on acco O WebEFM cwaveGFc tys S ave 9 O cfgFiles 5 WebGFc cWaveGFC_CL tvs My Recent Dataview E WebGFC_CL cwaveTF tvs Documents Downloads O WebPages cwavexFc tvs Firmware O WebTeleCorrector B mytemp tvs Harvester O WebTeleFlow B Telecorr tvs Desktop Libraries O WebTeleFlowTwoRun B TeleFlow tvs O NetworkTemplates O WebTeleRecorder B TeleRecdr tvs O New Folder O WebWaterApp TFlow2Run tv 5 Pagelayouts O WebxFc projects B 3330 tvs recipe stuff 3508 tvs g Securit 3808 tvs O Sigwrite CTeleFlow tvs E web3808 cwaveEFM ty A A My Documents ea My Computer 3 i My Network File name my_new tys Places Save as type Techview Session Files tvs Figure 4 2 Copying a Session 4 4 Application Settings Note Unlike session parameters which are stored in TVS files and can thereby vary depending upon which session file you have running application parameters apply to the TechView application itself Therefore there is only one set of application parameters that apply no matter what session file you are using Issued Dec 2014 Overview of TechView Functions 4 3 TechView User s Guide D5131 ae Application Settings determine the choices the user needs to make when TechView first starts To call up the Application Settings dialog box click Configure gt
64. ble Signals into the currently selected list To do this click on signals in the Available Signals box so they are highlighted then click on the Insert button As in standard Windows you can hold down the Ctrl key to select multiple signals individually or select the first signal in a range and then select the final signal in the range while clicking on Shift Once you click on Insert the signals will be added to the currently selected list If a signal is already highlighted the list TechView inserts the signals immediately below it If no signal is highlighted in the list or multiple signals are already highlighted in the list TechView inserts the signals at the top of the list If desired you can move them one at a time to a different position in the list by clicking on the signal then using the Move Up or Move Down buitons Replace This button allows you to replace any signal in the currently selected list with a signal from the Available Signals box To do this click on the signal you want to be replaced in the currently selected list so it is highlighted then click on the signal you want to replace it with in the Available Signals box then finally click on the Replace button The highlighted signal in the currently selected list will be replaced with the highlighted signal from the Available Signals box Send list to RTU When you have finished modifying the signal list click on Send listto RTU and the modified list will be s
65. box click View gt Node Status or click on the icon shown at left Communication Statistics Packet Information Error Information Pkts Recw 10 Pkts Sent 14 SubPkts Recw 14 SubPkts Sent 15 Inv Pets 0 Inv SubPkts 0 Ack Discard Ack Timeout Discard Purge Discard Quota Discard Seq Out of Order Fail Overs Fail Over Fails Restart Seq Send Error Initialize Communication Statistics Figure 4 7 Communication Statistics window eine To show hide the Communication Statistics window click on View gt Comm Statistics or click on the icon shown at left 46 Overview of TechView Functions Issued Dec 2014 4 4 2 Security tab TechView User s Guide D5131 The Security tab allows you to optionally set up a default username password combination that TechView uses to log onto any RTU in your network For this to work each RTU you want to communicate with must have this same username password combination defined locally Note Beginning with OpenBSI 5 8 Service Pack 1 passwords can include up to 16 characters previous versions were limited to six characters The Security tab also allows you to set a timeout in seconds for successfully logging in or out of web pages Application Settings Startup Security General Default Security Enable Default Security when you want to sigeertta the target pert sA automatically by using the selegkedars mname and passyyort selected username ape
66. brate 3 To calibrate the zero vent the transmitter to atmosphere so atmospheric pressure 1s applied Click on the Calibrate Zero button and the Live Value will be trimmed to be as close to the zero as possible 4 To calibrate the span enter the desired span in the Operating Span field then apply a pressure equivalent to the desired span This value must be less than or equal to the Data Plate URL value Then click on Calibrate Operating Span The Live Value will be trimmed to be as close to the desired span as possible 8 2 Verification of Differential Pressure Note This must be performed using an external test fixture that can apply various pressures 1 If this flow computer is handling more than one meter run first select the run you want to configure from the Run list box 2 Inthe Select Operation box select Verify 3 Using an external test fixture apply a known pressure When the Reported Value is steady enter the pressure you applied in the Applied Value field then click on Verify Differential Pressure Calibration Repeat this process using the external test fixture to apply known pressures of 0 50 100 80 20 and O percent of span Note If during the verification procedure the transmitter 1s found to be out of calibration perform the calibration procedure to correct the discrepancy 8 3 Calibration of Static Pressure For static pressure the same pressure must be applied to both the HI and LO i
67. ceeeeeeeeeeeees 10 6 VErifiCAtiION IN 35930 sarie a 8 6 verification in ControlWave EFM GFC XFC 9 9 S Security SIGNING Orus 3 15 tab in Application Settings dialog box 4 7 Serial port configuration in 4088B ccccseeseesseeeeeees 10 4 Session changing parameters fOr cssscceesseeeeeeees 4 2 copying to another NaMe scccceeseeeeeeeees 4 3 FOS TAMING aivcicinbaievinn R 4 3 SAVING your SESSION file ce cceceeeeeceeeeeeeeeees 4 3 SESSION TEk N 3 1 Sng Oean ee acuoers oaeten 3 15 SPAN GETING Geena a erences ake 5 2 Starting LEC ViCW nazenin 3 1 Startup parameters for a SESSION sccceeeeeeeeeeees 4 4 Static pressure CallOFatlOn IN BOOS tiscetes amen A 6 3 CallDFavloni li 0000 sissies entree ae ances 8 2 CallD Lavon IN BOOS i5 ssive canteen eee 7 2 Issued Dec 2014 Index TechView User s Guide D5131 calibration In 4088B cceceeeceeceeeeeeeeeees 10 7 calibration in ControlWave EFM GFC XFC 9 4 configuration in 4088B cccceeeeeeeeeeeees 10 2 verification AN B58 O wiisci sctacive si iaaa 8 3 verification in ControlWave EFM GFC XFC 9 5 T Tables 4 1 Default variable names for extended VEC ATOM tases tasters eine a sean 4 10 A 1 Advanced Interface Setup File Components NE ARO NEATA EEE EET Mel ea ae bene ee EET A 2 TechView Slanica le taadenen aude ntiaeenetna 3 1 TechView session file 2 2 2 ce eeceeeececeececeececeeeeeeees 3 1 Tem
68. ck the Restore Factory Default Signal Names button then click OK Table 4 1 Default Variable Names for Extended Verification Default Variable Name Data Type Description GV MVT_ Events MB BOOL Set to TRUE to enable the extended verification feature TechView only enables extended verification when this variable is defined if the default variable name or a substitute name you specify does not exist in the application the extended verification feature is disabled GV VF_Applied_x REAL TechView stores the verification tester value the user enters here The x refers to the external transmitter number GV CV_Applied_x REAL TechView stores the actual live value read from the process variable in the transmitter here The x refers to the external transmitter number GV Verif_Exec_x INTEGER This field shows an execution code when the applied variables are updated These codes are 1 Verify DP Zero 2 Verify DP Span 3 Verify SP Zero 4 Verify SP Span 5 Verify T Zero 6 Verify T Span Note The application programmer is responsible for resetting this value to 0 after the code is read 410 Overview of TechView Functions Issued Dec 2014 TechView User s Guide D5131 4 5 2 Changing the Name of a Transmitter To change the name displayed for a particular transmitter click the Change Transmitter Name button and type in a new name for the transmitter If you decide you don t want to change the name prior to pr
69. cord increases based on number of columns types of data etc fewer records can be saved in the archive file Note Each archive record includes 14 bytes to store the timestamp and sequence numbers in addition to the bytes used to store the actual column data This displays the number of columns in the archive file The number of columns can range from 1 to 64 Displays the amount of FLASH memory used for this archive file Note This cannot be changed via TechView Displays the amount of RAM memory used for this archive file Note This cannot be changed via TechView If shown as selected indicates this archive file will be saved in FLASH Note This cannot be changed via TechView If shown as selected indicates this archive file will be saved in RAM Note This cannot be changed via TechView For certain modes shows how often archive record snapshots are stored Note This cannot be changed via TechView When Start of Period is shown selected the timestamp assigned to this archive record is the time at the beginning of the interval Note This cannot be changed via TechView When At Store is shown selected the timestamp assigned to this archive record is the time at which the record is stored Note This cannot be changed via TechView When shown selected archive records are stored when the ARCHIVE function block executes fthe criteria determined by the iiMode terminal is met See the on line help for the ARCHIVE fu
70. cular column is determined based on entries in the ARCHIVE function block in your ControlWave project Determines the type of calculation to be performed on the collected data for this variable Click on the Characteristics field and choose from the list box For information on the different calculations see the Archive Configuration section of the ControlWave Designer Programmer s Handbook document D5125 Precision Enter the number of spaces to the right of the decimal point that should be represented in the archive file for this signal value Signal Select the name of the signal you want to map to this column of the archive file Online Editing Issued Dec 2014 Description TechView User s Guide D5131 Shows the descriptive text associated with this signal OpenBSI 5 8 Service Pack 1 and newer only Click on OK to exit the Archive Column Definition dialog box 11 2 2 Batch Editing of Archive Files Batch editing is a way to save and retrieve Archive File Definitions and Signal List edits for re use in more than one RTU Note Errors in any list archive will cause cancellation of the batch operation ists Archives Si Batch Edits bern Name Acton Archive Definition AAS HLF Read Archive List Read Archive Definition AR1T3_ 5M5 Read Archive List Read Initialize Activated Lists Get List 15 Get List 101 Get List 102 Get List Runz GCC Get List Ae Contig List lt AH Chatus A
71. d resistance enter the desired temperature span value in the Custom Span field 6 Observe the Live Value and wait for it to stabilize 7 If you used a 300 ohm resistance in step 5 click the Calibrate Span at 300 ohm button if you connected any other resistance value click the Calibrate Custom Span button In either case if you are calibrating the internal transmitter the Calibration Status will be set to SUCCESS or FAIL based on whether the trim operation was successful Calibration status is not available for external transmitters Disconnect the resistor and reconnect the RTD 8 To change the reading from the RTD enter the desired reading in the Live Reading field which should be similar to the actual reading but presumably off slightly and click on Adjust Live Reading The page displays the actual reading and the live reading you entered in the Actual and Tester fields respectively Note If for some reason you want to return to the calibration that was performed by the factory click on Restore Factory Defaults Issued Dec 2014 ControlWave EFM GFC XFC Calibration 9 7 TechView User s Guide D5131 N Kreto BAAS ee A T MIERO DLE ood WD s00 100 00 aa a co DISBLAY Ayo Aero ee 2RTID RTD Uwoscae 3RTD Input 1 TB10 RID EXC 1 i RTD pene AE al ME
72. e isi E pie E R E EEE 6 5 Chapter 7 Calibrating the 3808 Transmitter 7 1 7 1 Calibration of Gage or Differential Pressure 3808 10A 3808 30A oOnlly cccceeeeeesseeeeeeees 7 1 7 2 Calibration of Static Pressure 8808 30A ONLY cccceeceeceeeeeeeeeseeeeeeeeeeeeeeeeeeeeeeeesaaeeeeeeess 7 2 7 3 Galibration or AYD Temperature vinnie ae ee 7 3 7 4 Calibrating the Analog Output Analog Pressure Transducer models ONLY eeeeee 7 5 Chapter 8 Calibrating the 3530 TeleFlow series Flow Computers 8 1 8 1 Calibration of Differential Gage Pressure cccccccccccceeeeseseeeceeeeeeeeeseeeeeeeeeseeaasseeeeeeessaaeeeeeeees 8 1 8 2 Verification of Differential PreSSUIe cccccsssececesseeeceeseeecceseecceuseeecseaeeeeeuseeessagseessansessseaes 8 2 8 3 Calibration Of StatiG PRESSUNC opona a aa a a a a aa a a an 8 2 8 4 Verification Of Static PreSSUIe esoneenni aa aaa aaa Ea ai ael t ai 8 3 8 5 Calibration of RTD Temperature ccccccccssssssssseeeeeeeeeeesseeeeeeeeseesseeceeeeesseeaaseeeeeeeessnaasseeeeees 8 4 8 5 1 Verification of RTD Temperature ccccccccesececeeeeeeceseeeceeseesseaseeessaeeeseuseeessaseeenes 8 6 20 WD AINMOUING ees a a 8 6 8 61 Configuring the Damping TINE rsss i a a aiaei 8 7 8 7 Calibrating TeleRecorder Inputs 8530 45B 55B ONLY cccccssseeeeeeeseeeeeeeeeeeeeeeeessseeeeeeeeas 8 7 8l Calibrate INpUt e raise es a O 8 8 Chapter 9
73. e list You may sort the signals in this list either by signal name or signal description by clicking on the Signal or Description titles at the top of the list box To remove one or more signals from the currently selected list click on Online Editing Issued Dec 2014 TechView User s Guide D5131 the signals to be removed so they are highlighted and then click on the Delete button As in standard Windows you can hold down the Ctrl key to select multiple signals individually or select the first signal in a range and then select the final signal in the range while clicking on Shift Once you click on Delete the highlighted signals will be removed from the currently selected list Note The signal is still in the control strategy file but once you send the modified list to the RTU it will no longer be part of this list Move Up This button allows you to change the position of the currently selected signal so that is moved one position closer to the top of the list Click on the signal you want to move then click on Move Up and the signal will be moved one position up in the list Move Down This button allows you to change the position of the currently selected signal so that is moved one position closer to the end of the list Click on the signal you want to move then click on Move Down and the signal will be moved one position down in the list Insert This button allows you to add any signals selected from the Availa
74. e reason you want to return to the calibration that was performed by the factory click on Restore Factory Defaults 7 3 Calibration of RTD Temperature eT Ei GP 1 10PSI Sensor LRL 40C 40F Calibrate Zero at 100 ohm Sensor URL 660 C 1220 F Calibrate Span at 300 ohm Measured Value 10800007 DEG Custom Span 340 in degrees Restore Factory Defaults Calibrate Custom Span Live Reading Figure 7 3 T tab Calibration of RTD Temperature Issued Dec 2014 3808 Calibration 7 3 TechView User s Guide D5131 R 72 r0 R of Scale IDIDICDICDID i I i Wi Lower TB HH Not Shown OLO 3808 RTD Connections Figure 7 4 Model 3808 Transmitter RTD Calibration Connection Diagram See Section 5 4 2 for resistor values 1 Disconnect the regular RTD and connect a 100 Ohm 40 01 precision resistor across the RTD terminals this is equivalent to 32 F Observe the Measured Value and wait for it to stabilize Click the Calibrate Zero button to calibrate the RTD zero 4 Disconnect the resistor of step 1 and connect a precision resistor across the RTD terminals to represent your desired span To calibrate to the default temperature span value of 558 C 1036 F requires a resistance value of 300 ohms 0 01 To calibrate the temperature span to any other desired value you must know the prop
75. e value which when added to the ZERO value defines the highest expected operational value for a particular measured variable This could be the same as the URL but in some cases the SPAN value might not equal the URL For example a transmitter having a 2000 psi URL might only be used over a 0 to 1000 psi range and so a span calibration at the 1000 psi point is performed The minimum value for the span is URL divided by 20 If when calibrating the SPAN value for a pressure transducer you apply a pressure value significantly less than the URL accuracy may be reduced for readings outside of the span The ZERO value is the measured variable value that corresponds to 0 of the transmitter s SPAN i e 4 mA for a 4 to 20 mA range or 1V fora 1 to 5V range Multi variable transducer Resistance Temperature Detector Gage Pressure Transducer This 1s a periodic check in which you compare the live reading of a transmitter against a known measurement standard in order to Calibration Overview Issued Dec 2014 Damping Damping Time As Found As Left OpenBSI 5 8 and newer TechView User s Guide D5131 determine if the transmitter measures accurately and remains properly calibrated You apply an external source such as a dead weight tester to the transmitter and check points along the measurement curve The output damping feature is applicable to ControlWave EFM GFC XFC flow gas computers 3508 series Transmitters and
76. ear All Archive Files C Clear Single Archive File HRMISC 33 C Clear All History 4udit and All Archives Choose the type of historical data you want to delete then click Start Figure 4 17 Deleting Historical Data 3 You have four possible choices on what to delete See explanations for the fields below 414 Overview of TechView Functions Issued Dec 2014 TechView User s Guide D5131 Field Description Clear Audit Records This choice deletes all Audit records residing in the ControlWave Clear All Archive Files This choice deletes all Archive Files residing in the ControlWave Clear Single Archive File This choice deletes a single Archive File When choosing this use the list box to specify which Archive File you want to delete Clear All History Audit This choice deletes all Audit Records and all Archive and All Archives Files 4 After you make your choice click OK to proceed with the deletions or Cancel to abort the operation After you click OK TechView gives you a warning prompt and asks you to confirm that you want to perform the deletions Once you click OK to the deletion confirmation prompt there is no way A Caution to reverse the deletion operation the delete command removes the chosen files from the unit and the unit re boots twice to accomplish the deletion operation Note If you see the status message Not enough memory to complete parameter setting it means the flash memor
77. echView User s Guide D5131 A 8 Staten staten Parametersn parn_l valn_l parn_2 valn_2 parn_n valn_n Unitsn unitsn Positionn xn yn Sizen widthn heightn where Applications Title global_title_bar Button 1 title_in_menu_1 Button2 title_in_ menu 2 Buttonn title_in_menu_n Link application_l Link 2 application_2 Linkn application_n Groups Groupl group _section Group2 group2_section Groupn groupn_section Appendix A Initialization Files The Applications section of the file defines which applications appear in the pop up menu for the RTU s icon in the TechView tree You can control the text displayed in the title bar of the web page by entering it in global_title_bar Individual web pages may override this setting or append to it If global_title_baris prececeded by the A character the individual page title appends to the global_title_bar instead of overwriting it entirely OpenBSI 5 8 and newer title_in _menu_nis the name that will appear in the pop up menu for the user to select when starting an application There must be one button n for each application you want to appear in the pop up menu The first n must be the integer 1 and additional buttons must be numbered consecutively from that point application is the command line argument for starting the application associated with button n in the pop up menu The command line argument may just be the name of
78. eeeeeeseeeeeeeeeeeeeeeas A 5 PE eM aeolian wa ae areca het cc tala ie calf eset gale ota sd mati neste wen E ene A 15 TRANSLATION INI Initialization File ccccccccsssecceeeeseseceeeeeeeseceesseaeceeeeeeeseeeeeseeeeeeeeeas A 16 Notes about IP Address Formats in TVS FIil S cc ccccccccecccecesseeeceeeceseeeeeeseeeeeeseeeeessaeees A 19 Index IND 1 Issued Dec 2014 Contents This page is intentionally left blank TechView User s Guide D5131 Chapter 1 Introduction What is TechView TechView is a standalone software package that allows a technician to Issued Dec 2014 Calibrate transmitter s either locally bench configuration or via communication with the transmitter s master controller RTU Perform certain basic configuration operations on a controller flow computer or transmitter such as changing the local address or EBSAP group number Collect real time or historical data from the controller flow computer or transmitter Start other OpenBSI programs or utilities to perform other activities such as the Flash Configuration utility Perform on line edits to signal lists and to the structure of archive files in ControlWave series controllers Requires 4 60 or newer ControlWave firmware Typically you install TechView software on a portable laptop computer to allow the technician to bring it to the site of the RTU transmitter You could also install it on a desktop computer in a lab for bench configur
79. eeeeeseeeeeeeesaeeeeees 4 9 4 5 2 Changing the Name of a Transmitter cccceeeceeeeeeeees 4 11 Changing the Local Address Group Numbet 0000000eeees 4 11 4 6 1 Starting the Flash Configuration Utility cceeeeeeeeeeees 4 12 4 6 2 Show Firmware Version in NOdG ccccscscceeeeeeeeeeeeeeeees 4 12 4 6 3 Writing an Audit NOG 2j2ec55s3 56 cS eoosade ccdeeeateandetdaseeecgeaendaiebens 4 12 4 6 4 Viewing OpenBSI Workstation Communication Statistics 4 13 4 6 5 Deleting Historical Files from the RTU Clear History 4 13 transmitter or RTU containing a transmitter are included when you install TechView Based on your choice of node type these pages load in a series of one or more groups accessible via icons on the right hand side of the page When you choose a particular group the associated pages appear on the screen or menu items which call them appear depending upon the number of pages Once the group is activated you can proceed to perform the calibration configuration or online editing for your RTU transmitter The Calibration group is always required Additional groups may exist for other functions Advanced users can also change the organization of the pages in groups by editing TechView initialization files For more information on changing these initialization files see Appendix A Initialization Files Overview of TechView Functions 4 1 TechView User s Guide D513
80. eeeseeeeeeeeseneeeeeeeas 4 12 4 6 3 Writing an Audit Note cccccccccccceccesseeeeesaeeseeeeeseeeseeeeeseeeseeeeeseueeeeesseaeeeeesaageeeseeeas 4 12 4 6 4 Viewing OpenBSI Workstation Communication Statistics ccceeeeeeeeeeeeeeeeeees 4 13 4 6 5 Deleting Historical Files from the RTU Clear History cccccececeeseseeeeeeeeeeeeeeeeeees 4 13 Chapter 5 Calibration Overview 5 1 Oak Why is Calibration Necessary 2 misuse etnGt ies yan a E el eee 5 1 O22 CallDratlOMn GONCCOIS misera Melee alee oe eee at aaa ocddalanea melee adi alcbes 5 1 9 9 Blore YOU BEGIN seare E E a T ana 5 3 54 EgupmentReguiedTorGalipratoN seraen e a E 5 5 5 4 1 Equipment Required For Pressure Calibration cccccccccceccceeessseeeeeeeeeeeeeeeeeeeeeesaaaaes 5 5 5 4 2 Equipment Required For Temperature Calibration ccccccccccceseeeeeeeeeeeeeeeseeeeeeeeeens 5 7 5 4 3 Equipment Required for Analog Output Calibration 3808 only ceeeeeeeeeeeeeeeees 5 7 5 4 4 Entering Calibration Mode Leaving Calibration Mode cccseeeeeeeeeeeeeeeeeeeeeeeeeeaes 5 7 Chapter 6 Calibrating the 3508 series TeleTrans Transmitter 6 1 6 1 Calibration of Differential Gage Pressure ccccccccceeeeeeeeeeeeeaaeeeesseeeeeeeeeeeeeeeeeeaaaaaaaaesseeeness 6 1 Issued Dec 2014 Contents jii TechView User s Guide D5131 602 Calibration GiSlaliG PKCSS Ut arrr i aE E EA 6 3 6 3 Galbraion Gr RTD TEmMpErItU G
81. ent to the controller thereby completing you online edits Issued Dec 2014 Online Editing 11 3 TechView User s Guide D5131 11 2 On line Editing of Archive Files Through on line editing of archive files you can Change the number of records rows that will be saved in an existing archive file Add delete or modify the column definitions for an existing archive file You cannot however create new archive files nor can you edit saved archive file data Archive files larger than 1 sector cannot be edited online To determine whether or not your archive file exceeds 1 sector please review the Historical System overview section of the ACCOL3 online help in ControlWave Designer Important The lists identified by the iiOutList and iiArchiveList parameters of the Archive function block must be modifiable in order for your archive structure to be modified ASCII archive files introduced in ControlWave firmware version 05 10 cannot be edited online T Lists M Archives Batch Edite Humber Name A File Definition Options 4 ARA HLY Number 4 Manne ARA_HLYP Flash 69328 pema ATU 10 ARCOD l 1 ARTI 5M Records 1440 Columns RAP 736 i lant r Location Interval Mode Type z ARS DLY pat a a E ARE_HLY e 2 ARY_HLY ay e S C m os t ii go Archive Fields Column Mame Type Characteristics Precision Signal a Add COLON 1 Avg for time wher 2 fay TiN 2 COLUMN 2 Real A
82. er resistance value for that span You must calculate this yourself or refer to a 100 ohm platinum RTD chart For example to calibrate the span to the upper range limit URL of the transmitter 660 C 1220 F requires a 332 ohm resistance 0 01 After you connect the required resistance enter the desired temperature span value in the Custom Span field Observe the Live Value and wait for it to stabilize If you used a 300 ohm resistance in step 4 click the Calibrate Span at 300 ohm button if you connected any other resistance value click the Calibrate Custom Span button 7 Disconnect the resistor and reconnect the RTD 7 4 3808 Calibration Issued Dec 2014 TechView User s Guide D5131 Notes If for some reason you want to return to the calibration that was performed by the factory click on Restore Factory Defaults To change the reading from the RTD for the 3808 enter the desired reading which should be similar to the actual reading but presumably off slightly and click on Adjust Live Reading 7 4 Calibrating the Analog Output Analog Pressure Transducer models ONLY 3808 analog output calibration requires the following items electrical supply source 6Vdc Min 42Vdc Max powers the transmitter digital multimeter DMM or ammeter with a 5 1 2 digit scale 0 005 accuracy Transmitter Interface Unit Part No 389959 01 4 250 ohm resistor 0 01 1 4 watt DMM set f
83. er to internal transmitters all other transmitters are external 2 To perform the zero calibration vent the transmitter to atmosphere so atmospheric pressure is applied Wait for the Live Value to become steady and enter a Tester Value equivalent to the zero value 3 Click on Calibrate Zero and the Live Value will be trimmed to be as close to the zero as possible If you are calibrating the internal transmitter the Calibration Status will be set to SUCCESS or FAIL based on whether the trim operation was successful Calibration status is not available for external transmitters The page displays the Live Value and Tester Value in the Actual and Tester value fields respectively for the Zero test point 4 To calibrate the span apply a pressure equivalent to the desired span and wait for the Live Value to settle Now enter the pressure you applied in the Tester Value field and click on Calibrate Span The Live Value will be trimmed to be as close to the desired span as possible If you are calibrating the internal transmitter the Calibration Status will be set to SUCCESS or FAIL based on whether the trim operation was successful Calibration status is not available for external transmitters The page displays the Live Value and Tester Value in the Actual and Tester value fields respectively for the Span test point 9 4 ControlWave EFM GFC XFC Calibration Issued Dec 2014 TechView User s Guide D5131 Note If for some reason
84. era Calibrate era Calibrate era Calibrate era Calibrate Spar Calibrate Span Calibrate Span Calibrate Span Input Value 24 960 24 560 24 960 24 960 Zero Offset 0 000 0 000 0 000 0 000 Span Factor 1 000 1 000 1 000 1 000 Restore Defaults Restore Defaults Restore Defaults Restore Defaults Figure 8 7 Main tab 8 7 1 Calibrating the Input Note Calibration mode only remains active for the length of time indicated in the Calibrate Time field Otherwise Zero Offset and Span Factor will be set to 0 000 and 1 000 respectively 1 First calibrate the ZERO You should apply atmospheric pressure when calibrating the ZERO Click on Calibrate Zero The load calculates a Zero Offset that will be added to the sensor reading to 8 8 3530 TeleFlow Calibration Issued Dec 2014 TechView User s Guide D5131 Issued Dec 2014 remove any existing offset at zero pressure For example a 1000 psig sensor may be reading 1002 psig with no pressure applied After calibration a 2 0 zero offset will be used on the Input Value to remove the 2 psig offset To calibrate the span apply 25 to 100 of sensor URL pressure and enter the applied value in the Applied Pressure field then click the Calibrate Span button to do a span factor calculation The load calculates a Span Factor that will be applied to the Input Value reading to compensate for slope variation For example with zero offset already calculated and 50
85. erms of the license agreement to proceed Then click Next On the next screen you can specify the user files folder The system stores user files such as ControlWave projects ACCOL files recipes and network files in sub folders of this folder Note If User Account Control UAC is enabled in Windows you must have write access to this folder The default is C ProgramData Bristol Openbsi Use the default or use Browse to specify a different user files folder When finished click Next On the next screen use the check boxes to select either Network Edition if you purchased the full Network Edition or BSI_Config if you are using the free BSI_Config package These are the packages which include TechView 7 Once you make your choices click Next 8 This is your last opportunity to make any changes prior to starting the installation If you want to make changes you can click Back to go back to earlier pages If you want to read the printed release notes for this version of OpenBSI check the View the Release Notes box If you are ready to perform the installation click Install and the installation process starts Be patient as it may take several minutes to install all of the different utilities depending upon which you choose When the installation completes re boot your computer when prompted This must be done in order for OpenBSI to function properly If you choose not to re boot now you must do so before Installation 2
86. es will be stored in memory as a cookie named TechView To retrieve the parameters and their values the HTML page must include Java script code to access the cookie and parse the parameters If there is more than one parameter for a given link it must be separated from the next one by a semicolon units specifies the unit of measurement for a particular web page s width and height units can be A 11 TechView User s Guide D5131 Unit sn unitsn Positionl x yl Position2 r2y2 Positionn xn Sizel widthI height Size2 widthl height Sizen widthn heightn any of the following pixels inches centimeters Note This field overrides any entry made for Units at the page level These specify the x and y coordinates of the top left corner of the web page Coordinates are relative to the screen so a value of 0 0 specifies that the web page will appear at the top left corner of the screen If not specified the web page will be centered on the screen These specify the width and height of the web page in units specified by the unitsn or units keywords If neither of these keywords are specified pixels will be used The size keywords override State and VisibilityState keywords when a page is restored after its initial appearance The group_icon_number and page_icon_number specify which icon will be used for the group and the Property Sheet page s tab nothing 1s specified index 16 will be
87. essing Enter press Esc wet End 1 Internal Transmitter Change Transmitter Name Transmitter Number 1 Figure 4 12 Changing the Name of a Transmitter If you make a mistake and want to change signal names back to the original names from the standard application click Restore Factory Default Signal Names This feature requires OpenBSI 5 8 or newer 4 6 Changing the Local Address Group Number IE For those RTUs in which the local address is stored in FLASH ControlWave series TeleFlow series TechView can change the local address of the unit and simultaneously change the local address for this session so communications will continue The session is temporarily suspended while this change is occurring By default the Group Number is always set to 0 however 1f you are using Expanded Node Addressing EBSAP you may assign different group numbers Note however that once you have changed the group number you must drag the icon for the node in the NetView tree so that it is underneath the correct virtual node Change Local Address Group Number ATU Information Name ATU Desc Type Crave EFt Local Address l Group Number Local Address Select Hew Local Address Do r Change Group Humber Select New Group Number fr Change Mote tor NetView Users OpenBSI will mowe the ATU to the new Local Address within the Network Tree However when changing the group number you must manually move the ATU
88. gle ZIP file named AISF ZIP If you want to download it using the 1131 Downloader it must be stored in the following folder ProgramData Bristol OpenBSI projects project_name C resource_name R RTU_RESOURCE Note If you use a name other than AISF ZIP it will NOT be included in the download 5 Download the ZIP file along with the bootproject to your ControlWave controller using the OpenBSI 1131 Downloader Be sure you check the zipfile option in the Downloader Note The A 2 Appendix A Initialization Files Issued Dec 2014 TechView User s Guide D5131 AISF TVS File Format Issued Dec 2014 File Transfer control may also be used to transfer the ZIP file separately but it cannot be used to transfer the bootproject 6 Open the session file TVS on your PC that you want to configure Note This is not the AISF TVS file mentioned above In the Advanced Interface Setup dialog box check the Get Advanced Interface Setup from the RTU box and specify the name of the ZIP file you defined in Step 4 Once you ve completed these steps TechView automatically uploads the appropriate web pages and initialization files to your PC In subsequent sessions TechView prompts you as to whether you want to use the files for this RTU already on the PC or you want to upload the files from the RTU This prompt may be disabled by un checking the Show Advanced Interface Setup File Detection Dialog option in the Application Settings d
89. gnificant system events Normally the Harvester or some other program periodically collects this data for export to Issued Dec 2014 Overview of TechView Functions 4 13 TechView User s Guide D5131 OpenEnterprise or a third party package and eventually new data overwrites the existing data If however you want to permanently delete audit or archive data residing in the ControlWave you can use the Clear History function Note The ControlWave series controller must have 04 80 or newer firmware to use this function This operation requires OpenBSI 5 7 or newer If there should be a power failure to the ControlWave during the Clear A Caution History operation files will not delete properly If you want to save any Audit or Archive data you must do this before A Caution you use the Clear History function We also recommend you save your current historical configuration to an FCP file prior to deleting audit or archive files so that you can restore the structure though not the data if a failure occurs 1 To delete historical data click Operations gt Clear History 2 The Clear RTU History dialog box opens Clear RTU History RTO CAVE Type CWwave_ Micro Desc WORAIM SS 1 These Functions remove historical records From the RTU Please verify the history has been collected before performing any Functions 2 The ATU will be WARM STARTED during this process Select Clear Function C clear Audit Records Cl
90. gure 7 1 DP tab Calibrating Gage or Differential Pressure 1 In the Select Operation for DP Sensor box select Zero Calibration Issued Dec 2014 3808 Calibration 7 1 TechView User s Guide D5131 2 To perform the zero calibration vent the transmitter to atmosphere so no pressure is applied Click on the Calibrate Zero button and the Measured Value will be trimmed to be as close to the zero as possible 3 To calibrate the span select Span Calibration in the Select Operation for DP Sensor box then apply a pressure equivalent to the desired span Now enter the pressure you applied in the New Applied Value field If the transmitter accepts the New Applied Value the value you entered will be displayed in the Target Trim Value field This value must be less than or equal to the Sensor URL value Click on Calibrate Span The Measured Value will be trimmed to be as close to the desired span as possible Note Span calibration may only be performed successfully if the applied pressure and span are within 3 of one another Note If for some reason you want to return to the calibration that was performed by the factory click on Restore Factory Defaults 7 2 Calibration of Static Pressure 3808 30A ONLY Note For static pressure calibration setup connect identical supply pressures to both the low and high side ports of the MVT BP sp OF O00 PSI Te HEHEHE KHMER EME EEE Select Operation for SP Sensor C
91. gured for the session If not specified however the number configured for the session will be used identifies whether or not this RTU has an internal transmitter A value of 1 indicates an internal transmitter is present A value of 0 indicates there is no internal transmitter This entry is ignored if the RTU is a ControlWave XFC which always has an internal transmitter or if the RTU does not support a wet end If the INTERNAL_XMTR keyword is omitted session parameters will be used instead identifies the Configuration initialization INI file used for this session If nothing is specified this would be the default configuration INI filename for this RTU type cfg_ini_filename must exist in the AISF zip file in the RTU identifies the Translation initialization INI file used for this session If nothing is specified the current translation INI filename for this session would be used translate_ini_ filename must exist in the AISF zip file in the RTU specifies the calibration signals to be used if this RTU includes an internal or external transmitter If nothing is specified the factory default calibration signal names will be used TechView will only examine this section if meter_runs is configured The calib_keyword and calib_signal vary depending upon the type of RTU and Issued Dec 2014 TechView User s Guide D5131 application Example AISF TVS file PARAMETERS
92. he Select Communication Protocol field 3 2 1 Communication Setup page BSAP For BSAP communication specify the BSAP local address of the RTU or transmitter If you know the BSAP local address select the Specify Local Address button and choose the address using the list box or enter it directly If you want the user to specify the local address at startup select Ask for Local Address at startup the user will be prompted to enter the address If you want TechView at startup to attempt to find the local address by sequentially polling each possible local address 1 127 at the current baud rate select Auto Detection 3 2 Starting TechView Establishing Communications Issued Dec 2014 Most users don t need to adjust these advanced parameters TechView User s Guide D5131 Choose BSAP protocol Communication Setup Ed Ppr a z a owed es rea Th Phu L ae Fh 1 j i il H l Specify the local address of the Select Communication Protocol A BSAP C F RTU transmitter f Specify Local Address f Local ddress Selection Ne Select the PC C Ask for Local Address at startup i Piano Detection communication port ae Select the What pork would you like to use i i baud rate What baud rate would you like to use Advanced Communication Parameters Click on Next gt Figure 3 2 Communication Setup dialog box BSAP Specify the PC communication port e g COM1 COM2
93. he OpenBSI Utilities Manual D5081 for more information The basic syntax of the TRANSLATION INI file is as follows AVAILABLE SIGNALS SIG_1 signal_name_l SIG_2 signal_name_2 signal_description_2 SIG_3 signal_name_3 signal_description_3 Appendix A Initialization Files Issued Dec 2014 Important Issued Dec 2014 SIG_n signal_name_n pit or DESCRIPTIONS LIST_1 description_for_list_l LIST_2 description_for_list_2 LIST_n description_for_list_n PROJECT_NAME LOAD identifier where SIG_1 signal_name_I SIG_n signal_name_n signal_description_l signal_description_n LIST_1 description_for_list_l LIST_n description_for_list_n LOAD identifier TechView User s Guide D5131 are the variables marked as PDD in your ControlWave project OPTIONAL allows a description of the signal The description is separated from the signal_name by a comma and must appear between the single quotation marks used for the signal_name are descriptions of lists specifies which standard application is being used The identifier must match the first eleven characters of the MWT file name This same identifier must also be reflected in the first eleven characters stored in the CW _LOAD_STR system variable If you use multiple configurations resources in your project you should include the configuration resource name as part of the identifier to distinguish them from
94. he RTU If you only want to exit web pages but continue with TechView just close the web pages from the standard windows control don t sign off If you are unable to sign on to the RTU because it needs to be downloaded first you can do this without logging on In TechView click on Operations gt Download First Level Node to call up the Downloader and download a control strategy file to the RTU You can then proceed to download Issued Dec 2014 Starting TechView Establishing Communications 3 15 TechView User s Guide D5131 Chapter 4 Overview of TechView Functions The basic functions of TechView are available through the menu bar and tool bar items see Figure 4 1 Issued Dec 2014 In This Chapter 4 1 4 2 4 3 4 4 4 5 4 6 Standard sets of configuration calibration pages specific to each type of Changing the Session Parameters You Entered ccccceeeeees 4 2 Restarting the Session sensaro aaia 4 3 Saving Your SeSSION File serenata aea aiai 4 3 Copying Your Session to Another Session File Name 0 4 3 Applicaton Seng Seriese 4 3 AA sStANUD taD ni 4 4 4 4 2 Security tab cccceceecccccseseeceecceeeeceeeseeeseeeeeseeasseeeessaaeeees 4 7 AAS General TaD cecssaisleets cahactuseeleeian Giaisedutevbiinieleenaeerestveadedeenn 4 7 Calibration and Verification Signals ccccccccsssessseeeeeeeseeseeeeeeees 4 8 4 5 1 Extended Verification ccccccccccsssseceeeeese
95. hen click the Adjust Live Reading button 6 6 3508 Calibration Issued Dec 2014 TechView User s Guide D5131 Chapter 7 Calibrating the 3808 Transmitter This chapter covers calibration activities for the Bristol 3808 series transmitter For a general overview of calibration concepts see Chapter 5 For instructions on starting calibration mode see Section 5 4 4 In This Chapter 7 1 Calibration of Gage or Differential Pressure 8808 10A 3808 30A only ie sire EE E EEE oan edaw E A E A A E A ES 7 1 7 2 Calibration of Static Pressure 8808 30A ONLY seeeeeeeeees 7 2 7 3 Calibration of RTD Temperature ccccccccccessseeeeeeeeeeeeaaeseeeeeeees 7 3 7 4 Calibrating the Analog Output Analog Pressure Transducer models ONGI ea aie case ine eeastcton aunertensen atest aieetuedsasa cop esaiatnaa teense 7 5 7 1 Calibration of Gage or Differential Pressure 3808 10A 3808 30A only The Sensor LRL and Sensor URL display the lower range limit and upper range limit respectively of the gage pressure differential pressure sensor TechView Calib_3808 tvs File Configure Operations View Help amp PW P DP sp T ao SP 0 00 PSI E CALIBRATION Select Operation for DP Sensor Zero Calibration Span Calibration Restore Factory Defaults DP GP Zero Calibration CONFIGURATION Sensor LAL 25 00 Sensor URL 25 00 Measured Value 0 00 PSI Calibrate Zero For Help press F1 Fi
96. his group If not specified the name for group_n_section will appear under the icon default default_state specifies the default web page initial appearance for this group You can override the setting for an individual web page in the group using the Staten keyword Valid default_state values are Minimized The web page initially shows minimized Maximized The web page initially shows maximized Normal TechView determines the size and position of the web page default OpenBSI 5 8 and newer group_icon_number is used to choose which icon will be displayed in the Group control for this group A table of available icons is included at the end of this section specifies that the calibration pages should appear in this group The pages will be appended to this group page1_section pagen_section are used to reference the page definitions for pages in this group In addition these are the default names that will appear on the tabs for the pages if A 9 TechView User s Guide D5131 pagen pagen_section pagen_section Image page_icon_number Units units name tab_name Type page_type Cont rol control_type Buttonl button label Buttonn buttonn_label A 10 Appendix A Initialization Files no other names are chosen defines the buttons or controls that will appear on this page page must have been defined earlier under groupname page_icon_number is used to choose which ico
97. ialog box TechView performs a validation on the files before it uses them Because some filenames such as AISF TVS are shared among more than one RTU files from each RTU are stored on the PC in their own folder named after the application program running in the RTU These folders are sub folders of the ProgramData Bristol OpenBSI TechView_AISetup folder The AISF TVS file must follow the format shown below PARAMETERS MODE 4 DESCRIPTION Calibration WEB_PAGE startup_web_page REH MFPRUNS meter_runs INTERNAL_XMTR present CUSTOM_CFGINI cfg_ini_filename CUSTOM_XLTINI translate_ini_filename REU CAL LBS LGNALS Calib_keyword1l calib_signall Calib_keyword2 calib_signal2 Calib_keywordn signaln Appendix A Initialization Files A 3 TechView User s Guide D5131 A 4 where MODE 4 DESCRIPTION Calibration startup_web_page meter_runs present cfg_ini_filename translate_ini_filename Calib_keyword1 calib_signall Calib_keyword2 calib_signal2 Calib_keywordn calib_signain Appendix A Initialization Files must be entered exactly as shown must be entered exactly as shown identifies the first start up web page for this session If not specified the default web page for this RTU type is included The startup web page must be included in the AISF zip file in the RTU specifies the number of meter runs in this particular application This takes precedence over the number of meter runs confi
98. ibraries 9 WebTeleFlowTwokun 2 TeleFlow bys 3 NetworkTemplates 9 WebTeleRecorder 2 TeleRecdr tvs New Folder C WebWater4App 2 TFlowe2Run bys Pagelayouts 3 WebXFC projects 3330 tv5 recipe stuff 3508 tvs security 3808 tvs C SigWrite cTeleFlow tys G web3aa8 cwavelFM tys My Network File name temp tvs Places Save as type Techview Session Files tvs Cancel Figure 4 4 Create Session File Open an existing If selected when TechView starts it prompts the user Session to choose a previously defined session file which TechView then starts Default choice Note Only one session can be active at any one time If you already have a session running when you try to open a new session file TechView prompts you to confirm that the current session will be closed Open Session File E webEFM cwavegrC tys ed 3 WebGre cwaveGFC_CLtvs My Recent Dataview 3 WebGFe_c cwavelF tvs Documents C Downloads 3 WebPages cwavexFc tvs Firmware 9 webTeleCorrector BE mytemp tvs Harvester 3 WebTeleFlow Telecorr tys Desktop Libraries SQ WebTeleFlowTwoRun B TeleFlow tvs C NetworkTemplates webTeleRecorder TeleRecdr tvs C New Folder O WebWater4pp TFlow2Run tys CO Pagelayouts 3 WebXFc projects 3330 tvs recipe stuff 3508 tvs Security 3808 tvs C SigWrite cTeleFlow tvs Sy web3808 cwaveEFM tvs My Network File name zz hi
99. ibrate Zero at 100 OHMs button to calibrate the RTD zero 8 4 3530 TeleFlow Calibration Issued Dec 2014 TechView User s Guide D5131 7 Disconnect the resistor of step 4 and connect a 140 23 Ohm 0 01 precision resistor across the RTD terminals this is equivalent to 220 F 8 Observe the Live Reading and wait for it to stabilize 9 Enter the desired operating span in the Operating Span field 10 Click on the Calibrate Operating Span button 11 Disconnect the resistor and reconnect the RTD 12 If after re connecting the unit to the process it is determined that the number in the Live Reading field does not correlate with that measured by an external process monitoring device offset compensation may be performed To do this enter the desired reading and click on the Adjust Live Reading button Current Early 353Q 10B 20B 50B 3530 1 0B 20B 508B CPU Bd CPU Bd 392926 XX X 392561 XX X nol IS LL JB F S J8 I aN d S J vi HEN o BS J J5 T J5 J3 LE m Ta RTD se a 1
100. ific pressure range When you install the transmitter on site however the accuracy of the transmitter may have been affected by environmental conditions temperatures atmospheric pressures etc at that particular site For this reason you must calibrate the transmitter In addition you must periodically re calibrate the transmitter to ensure that it maintains its accuracy 5 2 Calibration Concepts Measured Variable Applied Value Upper Range Limit URL and Lower Range Limit LRL Issued Dec 2014 You must understand certain concepts and terminology before performing the calibration procedures The measured variable is the actual live process variable reading coming from the transmitter This could be a differential gage pressure reading a static pressure reading or a resistance temperature detector RTD temperature reading Applied values are used during calibration They represent known values which are used as a standard or benchmark from which other values can be calculated by the transmitter For pressure the applied value is a known pressure applied from an external pressure source to the transmitter For temperature the applied value is a known resistance applied by the user by connecting a resistor in place of the RTD Transmitters are ordered with specific pressure ranges An upper range limit URL and a lower range limit LRL are preset at the factory to define the range of pressures that the t
101. ions pertaining to Design Safety Standards for Electrical Systems 29 CFR Part 1910 Subpart S dated April 16 1981 OSHA rulings are in agreement with the National Electrical Code The grounding requirement is also applicable to mechanical or pneumatic instruments that include electrically operated devices such as lights switches relays alarms or chart drives EQUIPMENT DAMAGE FROM ELECTROSTATIC DISCHARGE VOLTAGE This product contains sensitive electronic components that can be damaged by exposure to an electrostatic discharge ESD voltage Depending on the magnitude and duration of the ESD this can result in erratic operation or complete failure of the equipment Read supplemental document S14006 for proper care and handling of ESD sensitive components TechView User s Guide D5131 Contents Chapter 1 Introduction What is TechView 1 1 Chapter 2 TechView Installation 2 1 Chapter 3 Starting TechView and Establishing Communications 3 1 Soll SO LAmUINCy WO Ul eo O osese Restate ate ade c tk So asia T N 3 1 3 2 ESTEDIISMING GOMINUMICAIONS ovira a a a a teduateeecee 3 2 32 1 Communication Setup page BSAP nesei a a aa a 3 2 322 Communication Setup page P erisa a cosets delaadecaas 3 3 3 2 3 Advanced Communication Parameters BSAP cccccccccccccsssssssssseeeeeeeeeeeeeeeeeeeeaaaaes 3 4 3 2 4 Advanced Communication Parameters IP cccccceeeeeeeeeeeeeeaeeeeeeeeeeeeeeeeeeeeeeeeeaaaas 3 7
102. is 300 inH2O and that the calibrated range is O to 100 inH2O If the external device reads 0 000 and 99 125 inH2O for equivalent DP GP floating point readings of 0 000 and 100 000 inH2O the difference would be 100 000 99 125 0 875 The required span shift entry would be calculated as follows Span Shift inH20 error URL URV 40 875 300 100 2 625 inH2O 5 Click Shift Floating Point Span The adjusted value will appear in the Live Value field If an error occurs proceed to step 6 6 If the error message Correction not allowed change exceeds 3 of URL appears the problem may be caused by a the pressure source 1S not accurate b an incorrect value was entered or c the zero pressure point was not set accurately Check out each item and make corrections as required Changing the Pressure Select the pressure units for the transmitter from the Select Pressure Units Units list box then click the Change Pressure Units button Note To force a refresh after changing pressure units click the Restart button 6 2 3508 Calibration Issued Dec 2014 TechView User s Guide D5131 6 2 Calibration of Static Pressure For static pressure the same pressure must be applied to both the HI and LO inputs of the transmitter thus producing a zero differential across the HI and LO ports and a SP value at the HI port P sp OP 0 004 mm H20 T 38 1 Degrees C Festart p Calibration Live Value 0 291 psi Data Pla
103. ith the new value 9 12 ControlWave EFM GFC XFC Calibration Issued Dec 2014 TechView User s Guide D5131 Chapter 10 Configuring and Calibrating the 4088B This chapter covers configuration and calibration activities for the Rosemount 4088B transmitter For a general overview of calibration concepts see Chapter 5 For instructions on starting calibration mode see Section 5 4 4 In This Chapter 10 1 Configuring the 4088B ccccssssssssseseeeeeeeeseeeeeeeaaaeeeeeseneeees 10 1 IOE DP GP Pressu ncu 10 2 10 1 2 Static PrOSSUIC sisien EEEE 10 2 WO LS Tempora E a a i 10 3 101 4 Setial Porn SetUD serseri a i 10 4 10 1 5 Transmitter Dalacin a 10 5 10 1 6 RTD COGIICIGIGS rssi tocecaueataleencdonsinaeeenescate 10 6 10 2 Calibrating the 4089B srei a aia 10 6 10 2 1 Calibration of Gage or Differential Pressure 0 10 7 10 2 2 Calibration of Static Pressure sssesseneeennneensrrnrreneeenna 10 7 10 2 3 Calibration of RTD Temperature ccccccceeeeeeeeeeeeeeees 10 9 10 1 Configuring the 4088B FE Click the Configuration icon Efmfemto bring up the Config tab The Config tab includes buttons for calling up menus to configure the sensor esoocceceessosoococsocsoooooseooos DP GP Pressure Static SP Pressure Serial Port Setup Temperature Transmitter Data RTD Coefficients Figure 10 1 Config tab Note The menus may be re sized so they may appear different from the i
104. l use the default Configuratioe 4 c ProgramD ataBristohlleert GGFC INI Target Hode Cw ave GFC If you create your own configuration INI file that you want to use instead of the default click here and specify its path and name The Tech iew Tool will use the following Custom Configuration IHI file Translation IMI File x The Tech iew Tool will use the default Translation IMI file for On Line Issued Dec 2014 Editing c ProgramD atat Bristol Openb SLT GFOIE m Ahe tethiview Tool will uze the following Custom Translation IMI file for On Line E diting oms Cancel If you create your own translation INI file that you want to use instead of the default click here and specify its path and name Figure A 1 Advanced Interface Setup dialog box Appendix A Initialization Files A 1 TechView User s Guide D5131 Creating an Advanced Interface Setup File for Storage at the RTU The Advanced Interface Setup File AISF allows a customized set of initialization files to be stored in the RTU s flash memory This provides a mechanism for ensuring that the correct initialization files are used for a particular application and TechView session The Advanced Interface Setup File is a Zipped compressed file that contains several other files used with the application and TechView session It includes Table A 1 Advanced Interface Setup File Components Component Description AISF TVS Thi
105. le If you are calibrating the internal transmitter the Calibration Status will be set to SUCCESS or FAIL based on whether the trim operation was successful Calibration status is not available for external transmitters The page displays the Live Value and Tester Value in the Actual and Tester value fields respectively for the Zero test point 6 To calibrate the span apply a pressure equivalent to the desired span and wait for the Live Value to settle 7 Now enter the pressure you applied in the Tester Value field and click on Calibrate Span The Live Value will be trimmed to be as close to the desired span as possible If you are calibrating the internal transmitter the Calibration Status will be set to SUCCESS or FAIL based on whether the trim operation was successful Calibration status is not available for external transmitters The page displays the Live Value and Tester Value in the Actual and Tester value fields respectively for the span test point Note If for some reason you want to return to the calibration that was performed by the factory click on Restore Factory Defaults 9 2 Verification of Differential Gage Pressure You perform verification as a check to see whether calibration is required or after calibration 1s completed to verify proper calibration You choose As Found to record that verification readings are before calibration or As Left to record that verification readings are after calibration For a D
106. llustrations shown here Issued Dec 2014 4088B Configuration and Calibration 10 1 TechView User s Guide D5131 10 1 1 DP GP Pressure Configuration options for the differential pressure variable consist of setting the damping selecting the engineering units and setting lower and upper range values TechView RTU 4088 8 DP GP Pressure Differential Gage DP GP Pressure Damping Units Lower Range Value Upper Range Value Lower Range Limit Upper Range Limit Figure 10 2 Configuring the Differential Gage DP GP Pressure Variable 1 Click DP GP Pressure to open the DP GP Pressure menu 2 Specify a Damping value from 0 0 none to 30 0 seconds For a step change in input it takes five times the damping value for the reading to reach the new input For example an input change from 60 inH20 to 70 inH20 will take five seconds when damping is set to 1 Similarly an input change from 60 inH20 to 70 inH20 will take 20 seconds when damping is set to 4 3 Select the engineering Units for the differential pressure variable 4 Specify the Lower Range Value LRV The LRV should be the lowest value for the DP GP variable you want to measure for your process This cannot be less than the Lower Range Limit LRL which represents the factory set lowest value for the range of values the sensor can read 5 Specify the Upper Range Value URV The URV should be the highest value for the DP GP variable you want to measure
107. loating Point Damping Time button Note If you later decide to disable the damping feature click again on Change DP Floating Point Damping Mode 8 7 Calibrating TeleRecorder Inputs 3530 45B 55B ONLY Important Issued Dec 2014 The Inputs page provides for gage pressure calibration of inputs to remove the effect of sensor zero offset and slope variation You must calibrate the Zero first Gage pressure calibration requires the following items Instrument mounting fixture This fixture must secure the instrument such that the presure transducer is mounted vertically apressure gauge must cover the range of the pressure transducer an adequate pressure regulator a pressure source and interconnect lines A test fixture that incorporates the items listed above may be used A typical 3530 series pressure transducer calibration interconnection diagram is provided below 3530 TeleFlow Calibration 8 7 TechView User s Guide D5131 3530 SERIES PRESSURE TRANSDUCER APPLIED PRESSURE GAUGE PRESSURE PRESSURE REGULATOR PRESSURE SOURCE Figure 8 6 3530 45B 55B TeleRecorder Pressure Transducer Connections B Main END CI Calibrate Time 3600 000 SECS Pressure 1 Pressure 2 Pressure 3 Pressure 4 Value in Use 24 960 24 960 24 960 24 960 Appled Pressure Po D TCS a SetPresswe 1 _SetPressue2 SetPiesswe3 Set Pressure 4 Calibrate
108. lt Signal Hames Lancel cancel Figure 4 10 Modifying Calibration Signal Names Note The dialog box appears different depending upon which RTU platform and application you are modifying Be sure when specifying calibration signals that you first select the correct transmitter meter run and or application 4 5 1 Extended Verification If you are using the extended verification feature OpenBSI 5 8 Service Pack 2 and newer which allow audit logging of Modbus messages for verification of zero and span and you change the names of verification variables used in the application you must specify the new names as well To call up the Extended Verification Signals dialog box click Configure gt Extended Verification Signals or click on the Extended Verification Signal Configuration button located in the Calibration Setup page of the Session Parameters wizard Issued Dec 2014 Overview of TechView Functions 4 9 TechView User s Guide D5131 Extended Verification Signals External Transmitter 1 Enable GYMYT_Events MB Execute G Werif Exec 1 00 Live Value GVCV_Applied 1 0 Applied value GVVF_Applied 1 Restore Factory Default Signal Names eneel Figure 4 11 Extended Verification Signals dialog box The table below describes the functions of each of the variables Change the names as required and click OK If at any time you need to restore the default variable names call up the dialog box and cli
109. mains solely with the purchaser and end user Ss EMERSON
110. ms In addition beginning with TechView it is possible to have an operator or technician send their own audit note to be stored in the RTU isl To send an audit note to the RTU type the text in the box up to 37 characters then click on the Send button TechView adds the note to the audit file with a timestamp 412 Overview of TechView Functions Issued Dec 2014 TechView User s Guide D5131 Use the area below to type your text and press Send to write it to the Audit Trail File of the target node CHANGED ORIFICE PLATE Send Clear Clear edit box after sending text to target node Figure 4 15 Notes dialog box To close the Notes dialog box click Exit 4 6 4 Viewing OpenBSI Workstation Communication Statistics In addition to RTU communication statistics which may be displayed at the bottom of TechView screens you can optionally view OpenBSI workstation communication statistics To see these click View gt OpenBSI Processes from the menu bar For information on what the various statistics mean see Chapter 6 of the OpenBSI Utilities Manual D5081 OpenBS System Processes wait M eqsent i sgAcy RESMON Initialize SSS SS SS SS SS ES S E a D 5 A A A Se oyo e D A A AAAA AA D Figure 4 16 OpenBSI System Processes 4 6 5 Deleting Historical Files from the RTU Clear History A ControlWave series controller stores archive files of historical data and audit records of si
111. n will be displayed on the tab for this page A table of available icons Is included at the end of this section Beginning with OpenBSI 5 8 Service Pack 1 you can hid the page icon for this tab by specifying 1 for the page_icon_number Specifies a default unit of measurement to be used when sizing the height and width of web pages units can be any one of the following pixels inches centimeters Note This field is overridden by any entry made for Units_n for an individual button link tab_name optionally defines the name appearing on the tab for this page If not specified the name for pagen_section will appear default Optionally specifies the page type If 1 default if no type specified this page consists of buttons to activate external web pages or WINUOI pages If 2 this page includes one of the TechView ActiveX controls See control_type below If 3 this page can start a Windows application control_type is only necessary if Type 2 In this case there are three possible choces for control_type 1 On Line Editing Archive Control 2 On Line Editing List Control 3 On Line Editing Batch Control buttonn_label entries define the text labels that appear on the buttons on this page Issued Dec 2014 Issued Dec 2014 Link1 linkl Linkn linkn Titlel titlel Titlen titlen Statel statel Staten Staten Parameters1l parl_l vall_l parl_n vall_n Parametersn parn_l
112. nals or click on the As Found As Left Signal Configuration button located in the Calibration Setup page of the Session Parameters wizard Overview of TechView Functions Issued Dec 2014 TechView User s Guide D5131 Configuration for CWave_EFM with 1 Transmitter s x As Found As Left Verification Signals Change Transmitter Name Vertication signals are used by the application load running in the ATU to generate a calibration report Mode G y CALIB_MODE Execute GYSCB_1CALIBOP As Found As Left Flag Status G yv SCB_1_LASTCALBOP Sensor Selected GV VAF_SENSOR Eee enue aa Live Value G VAF_LIVE_VAL DP Live SP Live jeqv sCB1DP f G SCB SP Execute GV VRF_EXEC DP Applied oP Altea GY SCB_1_DPSPAN G SCB_1_SPSPAN Step Back GV WAF_STEP_BACK SP Restore DP Restore GV SCB_1_RESTORESP Skip Step SGV VR F_SEIP_STEP GV SCB_1_RESTOREDP Reset GV VR F_RESET ATO Tempearture DP Damping Se be DP Damp Factor GV SCB_1_ATD Verification steps required for SP GV VR F_STEPS_SP GV SCB_DP_DAMP_FACTOR ATO Custom Span oe GV SCB_1_RTDSPAN Verification steps required for DF GV VR F_STEPS_DP Sues ATD Applied Verification steps required for T GV VRF_STEPS_RTD G 5CB_TO_APPLIED Diameter GV R1_ORIF_DIAM PTO Bectae Current venfication step GV VAF_THIS_STEP G SCB_1_RESTORERTD AID Units Restore Factory Default Signal Names GV 5CB_1_TEMP_UnitsCode Restore Factory Defau
113. nction block for details Note This cannot be changed via TechView When shown selected archive records are stored when the ARCHIVE function block executes and the chosen interval either 1 minute 5 minute 15 minute 1 hour 1 day has expired See the on line help for the ARCHIVE function block for details Note This cannot be changed via TechView See Section 11 2 1 Online Editing 11 5 TechView User s Guide D5131 Archive Column Definition Title co LUM 1 11 2 1 Archive Fields To define a new column in the archive file click on the Add button on the Archive tab The Archive Column Definition dialog box opens Column Data Type Real ma GC Common Fired fy GC Common Limits fy GC 51 _UseF med OneError fay GC_S3 User med OneError aay GC Se User med OneError aay GC S4 User med Onerror fala ST 1_ 7 Slrdiv_PY fay BM 1 DP_UNITS fal M 1 OP_UNITS fol Mix 1 SPLUNITS fol Mix 1 TEMP_LUNITS fala UNIT _ID fh AZ ArchUCFLOMW Toth fay AS ArchUCFLOW Tot fl AT ArchUCFLOW Toth Make entries as described below If you need to modify a column after you exit the Archive Column Definition dialog box double click on the column number in the list or select the column number and then click on the Modify button to re call the dialog box To delete an existing column select the column number in the list in the lower right part of the Archive page then click on the Remove button The remaining columns will
114. ne a critical process could accidentally be driven into a dangerous region causing damage to equipment and property and injury to persons Note If you modified your application to use different calibration verification signal names you must identify these within TechView See Section 4 5 Communication Notes Port When performing calibration in the field for a Network 3000 Considerations device use the Pseudo Slave Port of the RTU not the Slave Port Connecting through the Slave port would force you to break communications with upper levels of the network In addition if you use the Slave Port it would receive a node routing table NRT from TechView which would only encompass the locally connected node and its transmitters When the connection is subsequently restored with the network this would be an incorrect node routing table and communications would still not be possible with higher level nodes To avoid these problems perform calibration through a Pseudo Slave Port When performing calibration through a ControlWave unit s port you must set its _Px_ NRT_DIS system variable to TRUE to avoid the same problem described above When performing calibration through a ControlWave unit s port you must set its _Px_ NRT_DIS system variable to TRUE to avoid the same problem described above If you are using Expanded Node Addressing EBSAP with ControlWave and the ControlWave unit is in a group other than Group 0 the
115. nits Issued Dec 2014 Starting TechView Establishing Communications 3 9 TechView User s Guide D5131 Wet Ends Perform Horn in operation Control Strategy Resource Load Type Control Strategy file name Web Access Startup Page Advanced Interface Setup Certain RT Us EFM GFC XFC may include a built in internal transmitter with sensor wet end Some versions of the XFC can include 2 wet ends Specify the number of wet ends for this RTU If checked the transmitters communication with the BBTI board will be temporarily suspended so that a different program can communicate with the transmitter If this ControlWave project has multiple resources select the resource which is currently running in the unit Not shown If communication is with a 3530 TeleFlow series unit specify which of the standard application ACCOL loads or C load is running in the unit If needed you can then use the Calibration Signal Configuration button to specify different signal names for the configuration signals associated with the load Note If the load type you specify here does not match the load type running in the controller TechView prompts you to change the load type so that it does match the one running in the controller You can specify a control strategy to be used in conjunction with the RTU used in this application For the 33XX line of RTUs this is the name of the ACCOL load running in the RTU For the ControlWave line
116. nly Visible if using Remote Access 3 13 39 oloning On tothe RTU ceke armel 3 15 3 1 Starting Your Session The configuration information you specify to allow TechView to communicate with controllers flow computers and transmitters 1s stored in a session file Session files have a file extension of TVS Once you have a session file saved you can start TechView by standard Windows methods such as typing TechView on the command line followed by the path and name of the session file excluding the TVS extension or you can drag a TVS file icon onto a shortcut icon for the TechView application Note If you use the command line option put quotation marks around the path or filename if it includes spaces Issued Dec 2014 Starting TechView Establishing Communications 3 1 TechView User s Guide D5131 When first starting TechView by default the software prompts you to open an existing session file Bi wey Bie Sow Bi Md By Bi viir Beet ra TE tae cero amp im Figure 3 1 Opening a Session File Note You can change the initial prompt for the user from the Application Settings dialog box Select the session file name you want to open then click Open 3 2 Establishing Communications You can establish communication with all RTUs transmitters using the BSAP protocol For some RTUs you may also use Internet IP protocol On the Communication Setup page choose either BSAP or IP in t
117. nputs of the transmitter thus producing a zero differential across the HI and LO ports and a SP value at the HI port 8 2 3530 TeleFlow Calibration Issued Dec 2014 DP 304 624 inch Select Operation Calibrate Calibration TechView User s Guide D5131 T 7 6 Degrees F Run First Aun C Verify Data Plate UAL 1000 psi Live Value 14 516 psi Calibrate ero Operating Span Figure 8 2 SP tab Calibration of Static Pressure 1 If this flow computer is handling more than one meter run first select the run you want to configure from the Run list box 2 In the Select Operation box select Calibrate 3 To calibrate the zero vent the transmitter to atmosphere so no pressure is applied Click on the Calibrate Zero button and the Live Value will be trimmed to be as close to the zero as possible To calibrate the span enter the desired span in the Operating Span field then apply a pressure equivalent to the desired span This value must be less than or equal to the Data Plate URL value Then click on Calibrate Operating Span The Live Value will be trimmed to be as close to the desired span as possible 8 4 Verification of Static Pressure Issued Dec 2014 Note This must be performed using an external test fixture that can 1 apply various pressures If this flow computer is handling more than one meter run first select the run you want to configure from the
118. nt security level ae a i of logged on user Communication Statistics window Most recent status message ation Type of RTU applic Firmware revision in RTU or Transmitter Node address IP or BSAP local Figure 4 1 TechView Overview 4 1 Changing the Session Parameters You Entered x If you want to change the entries you made in the Communication H Setup Node Setup or Calibration Setup dialog boxes for this session click on the icon shown at left or click on Configure gt Session Parameters Enter the new parameters as desired After exiting the wizard the session restarts automatically with the new parameters 4 2 Overview of TechView Functions Issued Dec 2014 TechView User s Guide D5131 4 2 Restarting the Session If you change the local address or group number of the RTU and want to restart the session click on the icon shown at left If communication is lost during calibration you can also use this button to restart communications 4 3 Saving Your Session File To save your session file click on File gt Save Session or click on the icon shown at left i Click on File gt Save Session As The Save Copy As dialog box opens Copying Your Enter a name for the second copy of the session file in the File name Session to field and click Save The original session file remains active the newly Another Session named session file will be a copy of the active session file but will not File Name
119. ode Baud Rate 9600 BPS Transmit Delay 50 MSEC MODBUS Address 1 Figure 10 5 Configuring the Serial Port 1 Specify the BSAP local address for the sensor in the Node Address field 2 If your network uses expanded BSAP addressing EBSAP enter the EBSAP group number in the Group Number field otherwise set to 0 Choose the Local Port Address Mode Specify the Baud Rate the serial port uses to communicate Specify the Transmit Delay in milliseconds This is the amount of time the sensor will wait before it responds to a request 6 Ignore the MODBUS Address this is not useful for the 4088B 10 1 5 Transmitter Data The Transmitter Data menu shows certain identifying information about the sensor P TechView ATU 4088 6 Transmitter Data Transmitter Data Transmitter Tagname Transmitter Serial Number 0 sensor Block Number 6883112 Firmware Revision 4038 00 Figure 10 6 Viewing Transmitter Identification Information Field Description Transmitter Shows the user configurable tag name for the transmitter Tagname Issued Dec 2014 4088B Configuration and Calibration 10 5 TechView User s Guide D5131 Transmitter Shows the transmitter serial number Serial Number Sensor Block Shows the transmitter block number Number Firmware Shows the revision of firmware running in the transmitter Revision 10 1 6 RTD Coefficients The sensor computes RTD resistance using the RO value and the A and
120. of RTUs this is the name of the MWT project running in the RTU Click Browse to locate the file Note 3508 and 3808 Transmitters don t have a control strategy file You can optionally specify a default web page for this RTU which you may start while you are in TechView Click Browse if necessary to locate it Most users use the standard configuration INI files that come with TechView Some advanced users however may want to customize the organization of pages within TechView This button calls up a dialog box allowing you to identify special configuration files for TechView For details on this subject please see Appendix A of this manual 3 2 6 Calibration Setup This page specifies certain parameters that tell TechView how it will access the transmitters for calibration Starting TechView Establishing Communications Issued Dec 2014 TechView User s Guide D5131 Calibration Setup Target Node Cy ave GFC Select Transmitter Access Local C Remote How many transmitters does the application 2 load support Met ends and extemnals Do not ask user s permission when freezing untreezing live values Enable As Found 7 As Left Yerificaton Functionality Calibration Signal Configuration Extended Yentication Signal Configuration 4s Found As Lett Signal Configuration Back Cancel Help Figure 3 8 Calibration Setup dialog box Field Description Target Node Displays the type of node ch
121. one another On line list editing requires that the LOAD identifier be set correctly If identifier does NOT match the first eleven characters of the MWT file name which is also the first eleven characters of the _CW_LOAD_STR created via the System Variable Wizard no on Appendix A Initialization Files line list editing will be possible In addition any list to be available for A 17 TechView User s Guide D5131 A 18 on line editing must be created via the DBLOAD function block you cannot perform on line editing in TechView to lists created with LIST function blocks A sample TRANSLATION INI file is shown below AVAILABLE SIGNALS SIG_1 GV SIG_2 GV SIG_3 GV SIG_4 GV SIG_5 GV pLG 6 CGV SIG_7 GV SIG_8 GV SIG_9 GV SIG_10 GV SIG_11 GV SIG_12 GV SIG_13 GV SIG_14 GV SIG_15 GV SIG_16 GV SIG_17 GV SIG_18 GV SIG_19 GV SIG_20 GV SIG_21 GV SIG_22 GV SIG_23 GV SIG_24 GV SIG_25 GV SIG_26 GV SIG_27 GV SIG_28 GV SIG_29 GV SIG_30 GV SIG_31 GV SIG_32 GV SIG_33 GV SIG_34 GV SIG_35 GV SIG_36 GV SIG_37 GV SIG_38 GV SIG_39 GV SIG_40 GV Pie Ho USAGE FL ALTSI FREE EP ERR OC DUE PERCENT CPU BUS P17 EXP_HEART_BEAT USE_ACCOL_NAME AT_FOR_NON_ALARMS LOCAL_ADDRESS _EBSAP_ADDRESS GROUP_NUMBER HEA
122. or Voltage or Voltmeter Lower TB Not Shown POWER SUPPLY 9Vdc Min 42Vdc Max 389959 01 4 TRANSMITTER INTERFACE Z Z Figure 7 5 3808 Analog Output Calibration Voltage Measurement Diagram Issued Dec 2014 3808 Calibration 7 5 TechView User s Guide D5131 Lower TB Not Shown set for mA 389959 01 4 TRANSMITTER INTERFACE aN UNIT TO PC Figure 7 6 3808 Analog Output Calibration Current Measurement Diagram POWER SUPPLY Vdc Min 42Vdc Max Rao SP 0 00 PSI DP 0 14 PSI T 10800 00 DEG Curent Analog Output Source Dp Calibrate Analog Output 1 Select the output to be calibrated Cal 4 m o Cal 20 m 2 Enter new measured value for the selected Output 3 3 Calibrate Analog Output signal Yrite Success Figure 7 7 AO tab Calibrating the Analog Output Any of the three process variables differential gauge pressure static pressure or RTD temperature can control the analog output of the transmitter The analog output ranges from 4 mA to 20 mA but the 4 mA and 20 mA points may change over time and require calibration The measured variable in this case is the value re
123. or better Otherwise you could actually make the RTD calibration less accurate than it was prior to your calibration verification For example with a 0 1 resistor a temperature reading could be off 0 25 degrees C at 100 ohms and 0 9 degrees C at 300 ohms Factory calibration accuracy is 0 05 C at 100 C 212 F and 0 30 C at 300 C 572 F RTD Calibration Resistors Roero 100 009 0 01 1 4W 0 C 32 F R20 Scale 140 23Q 0 01 1 4W 104 55 C 220 F R40 Scale 180 57Q 0 01 1 4W 212 85 C 415 F R50 Scale 200 019 0 01 1 4W 266 38 C 511 F R60 Scale 220 12Q 0 01 1 4W 322 74 C 613 F Rg0 Scale 260 22Q 0 01 1 4W 438 34 C 821 F Rspan 300 009 0 01 1 4W 557 69 C 1035 84 F 5 4 3 Equipment Required for Analog Output Calibration 3808 only Analog output calibration requires electrical supply source 5Vdc Min 42Vdc Max powers the transmitter digital multimeter DMM or ammeter with a 5 1 2 digit scale 005 accuracy Transmitter Interface Unit Part No 389959 01 4 250 ohm resistor 01 1 4 watt 5 4 4 Entering Calibration Mode Leaving Calibration Mode You enter calibration mode by clicking on the Calibration icon on the right hand side of the screen Calibration Issued Dec 2014 Calibration Overview 5 7 TechView User s Guide D5131 TechView P o Entering calibration mode Freezing live values Do you
124. osen in the Node Setup dialog box Select This field only applies for BSAP communication Transmitter connections Access Local Remote For 3508 and 3808 series transmitters checking Local means that TechView will communicate locally with a transmitter directly connected to the PC on Level 1 of the temporary BSAP network For Network 3000 except for the 3530 series checking the Remote box means that TechView will communicate with an RTU directly connected to the PC on level 1 of the BSAP network This RTU has one or more transmitters connected to it that will be on Level 2 of the temporary BSAP network Note The 3530 series does not support Remote access Note In Remote Access if your Network 3000 RTU is not currently part of a network i e you are working in the lab or performing bench testing you should connect through the Slave Port Conversely if you are working in the field with an RTU that is already part of a network you should connect through the Pseudo Slave Port Note If you select Remote the Transmitter Setup page will be added to your Session configuration How many If using the ControlWave Express EFM GFC XFC transmitters does series with multiple transmitters the application running the application in the ControlWave EFM GFC XFC must support load support Wet multiple meter runs and TechView configures the ends and transmitter s by setting parameters within the RTU s externals multi run
125. perature Calibration in 3508 eoria iiaeaae 6 5 calibration iN S530 aer S 8 4 Calibration IN 3808 o errian 7 3 calibration in 4088B aaannnnnannnnnnennnnnnnnnnnnnnn 10 9 calibration in ControlWave EFM GFC XFC 9 6 configuration in 4088B 0cceecseeeeeeeeeees 10 3 verification M3530 nees a taenk 8 6 verification in ControlWave EFM GFC XFC 9 9 Transmitter renamMiNO soegin a irda lewndave 4 11 Transmitter Data mMenu cccseeeesseeeeeeeeeees 10 5 Transmitter Identification dialog box 3 14 Transmitter Setup Page cceeeeecceeeeeeeeeeeees 3 13 U URL COPING caer 5 2 URV dened canoane 5 2 V Verification modifying signal names used for 00 4 8 of differential or gage pressure in ControlWave EFM GFCO KEG aAA 9 2 of differential pressure in 3530 cee 8 2 of RTD Temperature in 3530 ceeeees 8 6 of RTD Temperature in ControlWave EFM GFC AR aana a aa 9 9 of Static pressure in 3530 ccccccssseeseeeeeees 8 3 of static pressure in ControlWave EFM GFO AEG cic a aa 9 5 Z ZERO dened er e e E 5 2 INDEX 3 TechView User s Guide Headquarters Emerson Process Management Remote Automation Solutions 6005 Rogerdale Road Houston TX 77072 U S A T 1 281 879 2699 F 1 281 988 4445 www EmersonProcess com Remote Europe Emerson Process Management Remote Automation Solutions Emerson House Unit 8 Waterfront Business Park Dudley Road
126. ptor List number n Available Signals Delete Description This box displays all the lists marked for on line modification in the RTU Lists are shown either by their list number or a textual description Choose the list you want to modify This will be referred to as the currently selected list To locate a particular signal variable you can search based on the signal name or the signal descriptor Choose either Search for Signal or Search for Descriptor then enter partial search text in the search field to the right TechView searches through the list and scrolls the window to the first match It displays a hand F icon next to the matching signal name or signal descriptor OpenBSI 5 8 and newer This list shows all the signals included in the currently selected list you chose previously under Select a list to modify Signals are displayed in the order they appear in the list along with their associated signal descriptor if configured If no signal descriptor was configured the descriptor field is left blank If necessary use the scroll bar to bring more signals from the list into view This is a list of all signals in the RTU that have been marked as PDD along with their associated signal description If no signal descriptor was configured the descriptor field is left blank Any of these available signals may be added to the currently selected list or may be used to replace a particular signal already in th
127. ransmitter can Calibration Overview 5 1 TechView User s Guide D5131 Upper Range Value URV and Lower Range Value LRV applies to analog models only SPAN ZERO MVT RTD GPT Verification 5 2 read The URL is the maximum value for the pressure which can be read by the transmitter The LRL is the minimum value for the pressure which can be read by the transmitter Any pressure value which is higher than 105 of the value of the URL or lower than the value of LRL 5 of the URL is considered out of range and cannot be considered accurate In contrast to the URL and LRL which define the fixed pre defined factory range for the transmitter the Upper Range Value URV and Lower Range Value LRV may be used to establish the range being measured for the actual process For example suppose the transmitter has an LRL of 0 psi which corresponds to 4 mA and a URL of 1000 psi which corresponds to 20 mA but the range of values you want to measure is 0 to 500 psi then the LRV would be 0 4 mA and the URV would be 500 20 mA In this example the LRV and URV settings represent a 2 to 1 turndown There are certain rules to be observed when setting LRV and URV The LRV cannot be set below the LRL The URV cannot be set above the URL URV minus LRV must be greater than 1 20 of the URL For more information on LRV URV please consult the hardware documentation for the transmitter The SPAN value is a positiv
128. s click Restart Calibrating the Zero 1 Disconnect the regular RTD and connect a 100 Ohm 40 01 and Span precision resistor across the RTD terminals this is equivalent to 32 F 2 Observe the Live Reading and wait for it to stabilize 3 Click on the Calibrate Zero at 100 OHMs button to calibrate the RTD zero Issued Dec 2014 3508 Calibration 6 5 TechView User s Guide D5131 4 Disconnect the resistor of step 1 and connect a 140 23 Ohm 0 01 precision resistor across the RTD terminals this is equivalent to 220 F Observe the Live Reading and wait for it to stabilize Enter the desired operating span in the Operating Span field Click on the Calibrate Operating Span button OON S p Disconnect the resistor and reconnect the RTD Rizero Rizero Or or R of Scole RI Of Scale R zero X zero or R of Scale R of Scola Figure 6 4 Model 3508 TeleTrans Connections for RTD Calibration See page 5 7 for resistor values Adjusting the Live If after re connecting the unit to the process it is determined that the Reading number in the Live Reading field does not correlate with that measured by an external process monitoring device offset compensation may be performed To do this enter the desired reading in the Live Reading field t
129. s The UDP Port Number for Time Synch is used for time synchronization of the RTUs All PCs or RTUs must have this value defined or else they will be unable to receive time synchronization messages In a sense this value is like a common password which must be known by each node in the network If no value is entered TechView assigns a default value for use throughout the network when the system is first created Note Although the term UDP port is used it has no actual relationship with the physical communication ports Note The UDP Port Number for Time Synch should never be 0 Frequency of Time Synchs This value specifies in seconds how often time synchronization messages should be sent to IP RTUs Disable the sending of the Check this if you want to disable the transmission of time Time Synch synch messages 3 2 5 Node Setup Next you must identify certain characteristics of the unit to which you are trying to communicate The appearance of the Node Setup page varies somewhat depending upon what type of RTU you are configuring 3 8 Starting TechView Establishing Communications Issued Dec 2014 TechView User s Guide D5131 Node Setup us Node Setup Hode Type ae08 FT Transmitter Hode Type Cwave EFM Wet Ends fi d ae Oe Me Perform Horn in operation Bik ans Pe kiij l I i s et d Pi a 1 T ar l li I i o i mgu l L bey Control Strategy file name i k ProgramD atas Bri
130. s is a special TechView session file that identifies the startup web page the configuration INI file the translation INI file for this session and any custom calibration signals configuration INI_ A configuration initialization file is tailored specifically to a particular session It specifies which pages icons and applications can be started in a particular TechView session The configuration must be replaced with the actual base name of the file translation INI A translation initialization file identifies which variables in an application are available for online editing and also can be used to provide a textual description of a numbered list The trans ation must be replaced with the actual base name of the file Web pages The HTM HTML pages for configuration calibration etc associated with this particular application To create an Advanced Interface Setup Zip File for a custom application 1 Create a configuration INI file for the application See Configuration Initialization INI Files Platform dependent later in this section 2 Create a translation INI file for the application to support online editing of lists See Translation INI Initialization Files later in this section 3 Create an AISF TVS file according to the AISF TVS File Format description later in this section 4 Use a ZIP compression program such as Winzip to combine all these files along with the web pages for the application together into a sin
131. seeeeeeeeeeesseeseeeeeeees 6 3 6 3 Calibration of RTD Temperature ccccccccsssssssseeeeeeeseseessseeeeees 6 5 6 1 Calibration of Differential Gage Pressure DP SF 0 291 pest T 38 1 Degrees C pen p Calibration Live Yale 0 004 mm H20 Calibrate ero Data Plate SP UAL 2000 psi Operating Spar Data Plate OP URL 300 inch H20 Eng Units DP URL ng Onks 7619 971 mm H20 Bee Bi PO Select Pressure Units am H20 Span Shift Change Pressure Units Figure 6 1 DP Tab Calibrating Differential Gage Pressure Calibrating Zero and 1 To calibrate the zero vent the transmitter to atmosphere so no Span differential pressure is applied Click Calibrate Zero and the Live Value will be trimmed to be as close to the zero as possible 2 To calibrate the span enter the desired span in the Operating Span field then apply a pressure equivalent to the desired span This value must be less than or equal to the Data Plate DP URL value Then click Calibrate Operating Span The Live Value will be trimmed to be as close to the desired span as possible Shifting the DP GP If needed the span and zero of the DP GP floating point number may be Floating Point Number shifted a minor amount 43 of URL so that it correlates with the pressure standard A correction is achieved by calculating a shift Issued Dec 2014 3508 Calibration 6 1 TechView User s Guide D5131 correction factor and applying it to the floating
132. son Process Management Remote Automation Solutions for further information EQUIPMENT APPLICATION WARNING The customer should note that a failure of this instrument or system for whatever reason may leave an operating process without protection Depending upon the application this could result in possible damage to property or injury to persons It is suggested that the purchaser review the need for additional backup equipment or provide alternate means of protection such as alarm devices output limiting fail safe valves relief valves emergency shutoffs emergency switches etc If additional information is required the purchaser is advised to contact Remote Automation Solutions RETURNED EQUIPMENT WARNING When returning any equipment to Remote Automation Solutions for repairs or evaluation please note the following The party sending such materials is responsible to ensure that the materials returned to Remote Automation Solutions are clean to safe levels as such levels are defined and or determined by applicable federal state and or local law regulations or codes Such party agrees to indemnify Remote Automation Solutions and save Remote Automation Solutions harmless from any liability or damage which Remote Automation Solutions may incur or suffer due to such party s failure to so act ELECTRICAL GROUNDING Metal enclosures and exposed metal parts of electrical instruments must be grounded in accordance with OSHA rules and regulat
133. stol Openb SISFProjects Browse Web Access Startup Page Fal Web Access Startup Page c ProgramD atas Bristoh Openb SI tweb3S0 Browse HI c ProgramD atas Bristol Openb SI Yw ebEF Browse HE Advanced Interface Setup a 4L E Advanced Interface Setup lt Back Cancel Help lt Back Cancel Help Figure 3 7 Node Setup dialog box appearance varies based on node type Field Description Node Type The type of controller RTU flow computer or transmitter Valid choices include 3305 RTU 3305 controller 3310 RTU 3310 controller 3330 DPC 3330 controller 3335 DPC 3335 controller 3508 Model 3508 TeleTrans transmitter 3530 3530 series TeleFlow TeleRTU TeleCorrector T eleRecorder 3808 Model 3808 transmitter 4088B Rosemount 4088B transmitter ControlWave ControlWave Process Automation Controller CW_10 ControlWave_10 controller CW_30 ControlWave_30 controller CW_35 ControlWave_ 35 roller CWave_ EFM ControlWave Electronic Flow Meter Cwave Exp ControlWave Express Gas Flow Computer Cwave_GFC ControlWave Gas Flow Computer ControlWave_LP ControlWave Low Power Controller CWave_Micro ControlWave Micro Controller CWave_XFC ControlWave Explosion Proof Flow Computer 3820 PT Transmitter When checked indicates that communication will be with a gage pressure transmitter There will be no static pressure When not checked indicates that the transmitter has both differential and static pressures This applies only to 3508 3808 u
134. sure Gauge must cover the range of the MVT GPT Transducer 025 accuracy An adequate Pressure Regulator A Pressure Source and Interconnect Lines capable of generating fixed pressure values equivalent to 0 and 100 values of transmitter s range URL The pressure calibration procedures in this manual require that a text fixture incorporating these items be used Issued Dec 2014 Calibration Overview 5 5 TechView User s Guide D5131 A typical MVT pressure calibration interconnection diagram is shown below MULTIVARIABLE TRANSDUCER MVT HIGH SIDE LOW SIDE APPLIED PRESSURE GAUGE PRESSURE PRESSURE REGULATOR PRESSURE SOURCE f R 7 Note For static pressure calibration setup connect an identical supply pressure to the low side port of the MVT e Figure 5 2 Typical Setup for MVT Calibration A typical gage pressure calibration interconnection diagram is shown below GAGE PRESSURE TRANSDUCER GPT nim APPLIED SSU PRESSURE me a REGU ATOR PRESSURE SOURCE Sa p Figure 5 3 Typical Calibration Setup of GPT Using Test Pressure 5 6 Calibration Overview Issued Dec 2014 TechView User s Guide D5131 5 4 2 Equipment Required For Temperature Calibration In order to calibrate the RTD Temperature properly you must have a AN Caution resistor with accuracy of 0 01 accuracy
135. te SPURL 2000 pai Operating Spar ero Shift Select Pressure Units psi Span Shift Change Pressure Units Figure 6 2 SP Tab Calibrating Static Pressure Calibrating Zero and 1 To calibrate the zero vent the transmitter to atmosphere so only Span atmospheric pressure is applied Click Calibrate Zero and the Live Value will be trimmed to be as close to the zero as possible 2 To Calibrate the span enter the desired span in the Operating Span field then apply a pressure equivalent to the desired span This value must be less than or equal to the Data Plate SP URL value Then click Calibrate Operating Span The Live Value will be trimmed to be as close to the desired span as possible Shifting the SP Floating If needed the span and zero of the SP floating point number may be Point Number shifted a minor amount 3 of URL so that it correlates with the pressure standard used by the external process measuring device A correction is achieved by calculating a shift correction factor and applying it to the floating point number by direct entry If it is determined that the difference at zero and upper end of the SP range is the same then only a zero shift will be required Example Assume that the URL of the transmitter is 2000 psi and that it has been calibrated for a O to 500 psi range If the O check point was read as 1 200 the difference would be 0 1 200 1 200 A zero entry of 1 2 psi would pro
136. the new input For example an input change from 60 degrees to 70 degrees will take five seconds when damping is set to 1 Similarly an input change from 60 degrees to 70 degrees will take 20 seconds when damping is set to 4 Select the engineering Units for the temperature variable Specify the Lower Range Value LRV The LRV should be the lowest value for the temperature variable you want to measure for your process This cannot be less than the Lower Range Limit LRL which represents the factory set lowest value for the range of values the sensor can read 7 Specify the Upper Range Value URV The URV should be the highest value for the temperature variable you want to measure for your process This cannot be more than the Upper Range Limit URL which represents the factory set highest value for the range of values the sensor can read 8 If you want the sensor to report a preset temperature value if the RTD connection fails due an open or short set the Fail To option to ON and enter the preset temperature value you want to use during a failure in the Fail To value field 10 1 4 Serial Port Setup The Serial Port Setup menu lets you configure the RS 485 serial port for BSAP communication 10 4 4088B Configuration and Calibration Issued Dec 2014 TechView User s Guide D5131 a go TechView RTU 4088 B Serial Port Setup Serial Port Setup Node Address 2 Group Number 0 Local Port Address M
137. tion of Static Pressure cccccccccsseecceeceeseceeeeeeeeeeeeeaeeeeeess 8 2 8 4 Verification Of Static PrOSSUIE cccccccsessccceeeeeseeceeeceeeeeeeeeeaeaeeeess 8 3 8 5 Calibration of RTD Temperature ccccccccccssseseeeeeeeeeeeaeeseneeeeees 8 4 8 5 1 Verification of RTD Temperature cceeeeeeeeteeeeeeeeeeees 8 6 80 Damping sesser erase a nE ESTEEN Sr 8 6 8 6 1 Configuring the Damping TiMe ccceeccceeeeeeeseeseeeeeees 8 7 8 7 Calibrating TeleRecorder Inputs 3530 45B 55B ONLY 8 7 8 7 1 Calibrating the Input eseessseseeeeeeeeeeeeeeeeesaeeeeeseeeeeees 8 8 Whenever performing calibration operations on a 3530 series unit you must be connected to the ocal port of the 3530 You cannot perform calibration via the network port of the 3530 8 1 Calibration of Differential Gage Pressure Issued Dec 2014 J DP SFP 1103 810 p i T 7 6 Degrees F Select Operation aene Calibrate C Werify Calibration Data Plate URL 300 inch H20 Live Value 305 000 inch H20 Calibrate ero Wei Differential Pressure Calibration Operating Spar fats Dusty Sean Figure 8 1 DP tab Calibration of Differential Gage Pressure 3530 TeleFlow Calibration 8 1 TechView User s Guide D5131 1 If this flow computer is handling more than one meter run first select the run you want to configure from the Run list box 2 Inthe Select Operation box select Cali
138. to the correct virtual node Status Group Number Read successtul Exit Figure 4 13 Changing the Local Address Group Number Issued Dec 2014 Overview of TechView Functions 441 TechView User s Guide D5131 To change the local address or group number use the list boxes provided then click on the associated Change button Note The change local address and change group number functions for ControlWave require 04 60 or newer system firmware 4 6 1 Starting the Flash Configuration Utility y The Flash Configuration utility allows configuration of soft switches ports IP parameters and for ControlWave series units additional parameters as well To start the Flash Configuration utility click Operations gt Access Flash Parameters or click on the icon shown at left For information on the Flash Configuration utility see the Chapter 5 of the OpenBSI Utilities Manual document D5081 4 6 2 Show Firmware Version in Node kT To find out the version of system firmware within the RTU click on i View gt Version Information or click on the icon shown at left Version Information Product CM Load MEFM1_3 Prom Link Date Feb 18 From Yersior 05 20 08 Boot Prom Link Date Oct 02 Boot Prom Version U4 70 10 Figure 4 14 Version Information dialog box 4 6 3 Writing an Audit Note The Audit system configured in a ControlWave RTU s AUDIT function block maintains a history of certain system events and alar
139. ts to values from the previous As Left verification Note As Found As Left operations are logged in the audit buffer at the RTU 5 3 Before You Begin Before you start the calibration procedure there are several things you need to be aware of Calibration in the lab Although it is more convenient and recommended to perform this vs calibration on site procedure using a laboratory setup calibration can also be performed Issued Dec 2014 Calibration Overview 5 3 TechView User s Guide D5131 on site providing that the connecting line or flange is equipped with a calibration tap and appropriate shutoff and bypass valves This added equipment allows you to feed in an external test pressure source or use the process pressure as a reference signal In the latter setup the valves are closed to seal a fixed pressure in the connecting line Note Before starting any calibration procedures make sure that the unit in question is firmly anchored in its intended operating position A different mounting position can affect zero calibration for some ranges and necessitate re calibration A WARNING Only perform calibration activities if the area is non hazardous Before attempting on site calibration carefully check the application If the unit in question is operated in a closed control loop configuration either the MVT GPT Pressure Transducer must be isolated from the process or the process must be turned off If this is not do
140. ture ccccccccccsseesseeeeeeeeenaeeseeeeeeees 9 6 9 6 Verification Of Temperature cccceecceccsseeeeeeeeeeeeeeeeeeeseeeeeesaeeeeens 9 9 Ir DANNIN eitensaeirasy areas E E E 9 11 9 7 1 Configuring the Damping TiMe ccccccceeeeeeeaesseeeeeeees 9 11 Jo NCE eene A EE seeds 9 12 9 8 1 Specifying the Orifice Plate Size 00 eeeeeceeeeeeneeeeeeeeeees 9 12 9 1 Calibration of Differential Gage Pressure 4 DF SP w T w Damping i Orifice SP 0 000 T O 000 a Select Operation Calibrate Werify Transmitter Sensor 1 Internal Transmitter i Calibration Calibration Status Test Point Actual Tester Live Value 0 000 ero Tester Value 1 50 0 span Calibrate Span Calibrate ero Restore Factor Defaults Figure 9 1 DP tab Calibration of Differential Gage Pressure Issued Dec 2014 ControlWave EFM GFC XFC Calibration 9 1 TechView User s Guide D5131 1 Select the transmitter you want to calibrate using the Transmitter list box Wet ends refer to internal transmitters all other transmitters are external 2 In the Select Operation box select Calibrate 3 To perform the zero calibration vent the transmitter to atmosphere so no pressure is applied 4 Wait for the Live Value to become steady and enter a Tester Value equivalent to the zero value 5 Click on Calibrate Zero and the Live Value will be trimmed to be as close to the zero as possib
141. ulate this yourself or refer to a 100 ohm platinum RTD chart For example to calibrate the span to the upper range limit URL of the transmitter 660 C 1220 F requires a 332 ohm resistance 0 01 After you connect the required resistance enter the desired temperature span value in the Custom Span field Observe the Live Value and wait for it to stabilize 6 If you connected a 300 ohm resistance in step 4 click the Calibrate Span at 300 ohm button if you connected any other resistance value click the Calibrate Custom Span button 7 Disconnect the resistor and reconnect the RTD Notes If for some reason you want to return to the calibration that was performed by the factory click on Restore Factory Defaults To change the reading from the RTD for the 4088B enter the desired reading which should be similar to the actual reading but presumably off slightly and click on Adjust Live Reading Issued Dec 2014 4088B Configuration and Calibration 10 9 TechView User s Guide D5131 Chapter 11 Online Editing ControlWave only TechView supports online editing of signal lists and archive file structures in ControlWave series controllers with version 04 60 or On Line Edits newer firmware In This Chapter 10 1 On line Editing of Signal Lists cccecccecssseeeeeeeseeeeeeeeeeeeeeeeeeas 11 1 10 2 On line Editing of Archive Files cccccccssssseeeeeeeeeeeeeseeeeeeeeeeeaes 11 4 10 2
142. used The following table lists all the available stock icons Icon number Associated icon 1 Issued Dec 2014 Appendix A Initialization Files Issued Dec 2014 TechView User s Guide D5131 10 11 12 13 14 15 16 Excerpts from a sample INI file are shown on the next page Appendix A Initialization Files TechView User s Guide D5131 TechView mysessi Applications Buttonl WebPages Link1 IE Button e DataView Link 2 C ProgramData Bristol OpenBSI dataview exe Groups Calibration Groupl Measurement Group2 Device Group3 On Line Edits Pages StyleSheet C ProgramData Bristol OpeagBS1 WebEFM SyleSheets MEFMstyles css Measurement Measurement Pagel Data Page2 MeasComg Page3 Logs Device Pagel DeviceConfig Page Comm Page3 Specials On Line Edits Image 4 Pagel Lists On Line Edits Page2 Archives Page3 Batch Edits Archives Type 2 chView mysession tvs Control 1 Batch Edits Type 2 Control 3 Data Buttonl Meter Run Overview Button2 Station Summary Button3 Compositions Link1 C ProgramData BristoDVepeskg WebEFM MRSTSummary4R htm Link2 C ProgramData Bristol OpenBSI WePReMagc OV htm Parameters2 myparam S3 myotherparam alarm l Link3 C ProgramData Bristol OpenBSI WebEFM MRComposition4kR Meter Run Overview Unitsl pixels Units2 pixels z Units3 pixels Composition Positionl 100 100 Position2 100
143. values will be retained Changing the Pressure Select the pressure units for the transmitter from the Select Pressure Units Units list box then click the Change Pressure Units button Note To force a refresh after changing pressure units click Restart 6 4 3508 Calibration Issued Dec 2014 TechView User s Guide D5131 6 3 Calibration of RTD Temperature Note The maximum rated RTD cable length for the TeleTrans Transmitter Model 3508 is 100 feet This limitation is imposed to reduce noise pickup at electrically noisy sites and also to limit error due to line resistance Users may employ longer cables provided they verify proper operation in their specific application PT ae Ul ees ret DP 0 000 mm H20 Restart r Calibration Live Reading 98 1 Degrees C Change Units Operating Spar Live Reading Figure 6 3 T tab Calibrating RTD Temperature The factory calibrates the internal temperature sensor to provide optimum transmitter accuracy and performance over a wide range of temperature conditions and cannot be changed in the field However the temperature output reading can be calibrated for the user s application Changing the Readings can be displayed in either degrees Celsius or degrees Temperature Units Fahrenheit To toggle the units from one to the other click on the Change Units button Output values will be scaled to the selected units Note To force a refresh after changing unit
144. ve an IP address of 10 211 74 221 convert the four portions of the IP address to their hex equivalents which are QA D3 4A and DD respectively Then concatenate those values together OAD34ADD and convert it to decimal which is 181 619 421 Issued Dec 2014 Appendix A Initialization Files A 19 TechView User s Guide D5131 convert 10 7 14 A decimals to hex OA if 4A DD concatentate the hex values 0AD34ADD convert the hex value to 181 619 421 decimal and store A 20 Appendix A Initialization Files Issued Dec 2014 Index A Advanced Communication Parameters dialog box BOA Peang uaucaamteaaauteeesaaniaoea 3 4 Preire A 3 7 Analog output calibration in 3808 ccccceecccseeeeeeeeeeeeeeeees 7 5 Application Settings dialog DOX cccceeeeeees 4 3 Genelia Derne a 4 7 SECUN aD 5 utensgeccacsosasetexaneisaceaase 4 7 SAUP AD e AA 4 4 Applied V Al Gs jracsnccs ster cartatiascesaucecuntetunedisoeceaene 5 1 Archive Files GEIS TING be schists aee e ON 4 13 online editing OF cceeecesseeeeceeeeeeeeeeeeeees 11 4 As Found As Left deneden beri cand e ES 5 3 Audit note Writing an sssssssssssssnsnnsensosnreesrnrrnrnrresrrrennnrenene 4 12 Audit records deleting ccccccccseeeceeceeeeeeeeceeeseeeesseaeeeeeeeas 4 13 B BSAP local address changing Mesimi ras 4 11 C Calibration SOUIDIMG Ml aessa asa a 5 5 modifying signal names used for 006 4 8
145. vg for time wher 2 maY FA FACTOR Remove 3 COLUMN 3 Real Avg for time when 2 fala CPRIME_F 4 COLUMN 4 Real 9 Avg for time wher 2 fl FRY FACT Modify F COII F Heal Seto for hme mhen 2 aR PTR RIS C zg Load from ATU Completed ART3_ 5M5 Requesting Associated List Please wait ART3_ 5M5 Requesting Archive Definition Please wait ESNE Figure 11 2 Archives tab Online editing of Archives When you call up the Archives tab information on archive files is loaded Note If you see archive information colored red there is a configuration error 11 4 Online Editing Issued Dec 2014 Issued Dec 2014 Field File Definition Number Name Records Columns Flash RAM Location Flash RAM Interval 1 Min 5 Min 15 Min 1 Hour 1 Day Mode Start of Period At Store Type Non Periodic Periodic Archive Fields TechView User s Guide D5131 Description This displays the unique ID number for this Archive File Note This cannot be changed via TechView This displays the archive file name Note This cannot be changed via TechView This determines how many rows of snapshot data will be retained in this archive file For example if you want to save 24 rows records enter 24 here The upper limit on the number of records is based on the size of each record The total size of an archive file cannot exceed 74 000 bytes This means that as the size of the archive re
146. vide the correlation between the floating point number and the standard of the Issued Dec 2014 3508 Calibration 6 3 TechView User s Guide D5131 external device Note Always set the zero point before attempting span calibration Any zero errors will result in an equivalent span offset that complicates calibration To implement a zero correction enter the correction value in the Zero Shift field and click the Shift Floating Point Zero button After a moment the reading in the Live Value field will reflect the change The attempted entry of values that exceed 3 will result in an error message Should a correlation difference exist at the upper end of the range but none occurs at the zero end only a span shift will be required Example Assume that the URL of the static pressure sensor is 2000 psi and that the calibrated range is O to 500 psi If the Live Value field reads 0 000 and 500 psi and the external device reads 0 000 and 497 445 psi for these same points the difference is Q psi at the low end and 2 555 psi at the upper end The span shift is calculated as follows Span Shift psi error URL Operating Point 2 555 2000 500 10 22 psi To implement a span correction enter the correction value in the Span Shift field and click the Shift Floating Point Span button After a moment the reading in the Live Value field will reflect the change Values that exceed 3 will elicit an error message and the previous
147. wish to proceed 7 Mo Figure 5 4 Entering Calibration Mode When you enter calibration mode live values for differential pressure static pressure gage pressure and temperature are frozen 1 e the RTU will collect no new values from the transmitter during calibration mode By default you ll see a prompt warning you of this and giving you the option of not entering calibration mode Click Yes to enter calibration mode 2 Exiting calibration mode Unfreezing live values Do you wish to proceed 7 Mo Figure 5 5 Exiting Calibration Mode Similarly by default when you click on a different group icon to exit calibration mode you ll see a prompt asking you to confirm that you want to exit calibration mode thereby unfreezing live values Click Yes to exit calibration mode Note You can disable these confirmation prompts in the Calibration Setup session parameters dialog box 5 8 Calibration Overview Issued Dec 2014 TechView User s Guide D5131 Chapter 6 Calibrating the 3508 series TeleTrans Transmitter This chapter covers calibration activities for the Bristol 3508 series TeleTrans transmitter For a general overview of calibration concepts see Chapter 5 For instructions on starting calibration mode see Section 5 4 4 In This Chapter 6 1 Calibration of Differential Gage Pressure ccceccceceeesesseseeeeeeees 6 1 6 2 Calibration of Static Pressure cccccceeeeececceeeee
148. y area is full and the deletion could not be completed because files are shifted during the deletion If this occurs during the Clear All History operation try clearing audit files first then clear archives 1f this doesn t resolve the issue use the Flash File Access tool to delete individual files and free up space See the ControlWave Designer Programmer s Handbook D5125 for information on the Flash File Access tool Issued Dec 2014 Overview of TechView Functions 4 15 TechView User s Guide D5131 Chapter 5 Calibration Overview This chapter provides general information on calibration and then provides procedures for calibrating different devices In This Chapter 5 1 Why is Calibration Necessary cccccccccccccssssssseseeseeeeeeeeeeeeeeesaaaaes 5 1 5 2 Calibration GonCe pls cerere a a 5 1 99 Belore YOU BEGIM icccktnussertentnouvcwnndich A nea menie 5 3 5 4 Equipment Required for Calibration ccsssssssssssseeeeeeeeeeeeeenenees 5 5 5 4 1 Equipment Required For Pressure Calibration 04 5 5 5 4 2 Equipment Required For Temperature Calibration 5 7 5 4 3 Equipment Required for Analog Output Calibration 8808 only EE E EA tae eae ete feameeas est inti AEE AA cater eaenitans 5 7 5 4 4 Entering Calibration Mode Leaving Calibration Mode 5 7 5 1 Why is Calibration Necessary When a transmitter ships from the factory it is already factory compensated for a spec
149. you are performing the verification after calibration choose As Left This choice determines where reading are stored for the calibration report Issued Dec 2014 ControlWave EFM GFC XFC Calibration 9 5 TechView User s Guide D5131 4 Depending upon your application you may have multiple test points to check in sequence For the first test point apply a known pressure using a deadweight tester or similar device and let the reading stabilize Enter the Tester Value which represents the known pressure value you applied then click on the button labeled with that test point The grid in the right side of the screen displays the Actual Value read from the transmitter the Tester Value you entered and then calculates the difference between these values and displays it in the Deviation field The cursor advances to the next test point 5 Repeat step 4 for each additional test point If you make a mistake and want to re run the verification for a particular test point click the Back button If you want to skip over a test point click the Skip Test Point button 9 5 Calibration of RTD Temperature 9 6 Roo Mise BT Damping orice SP 0 000 DP 0 000 a Select Operation Calibrate Verify Transmitter Sensor 1 Internal Transmitter Calibration Calibration Status Live Value 0 000 Fahrenheit Test Point Actual Tester Cal ero Calibrate Zero at 100 chm D Custom Spar Custom Span in degrees Live Reading
150. your process This cannot be less than the Lower Range Limit LRL which represents the factory set lowest value for the range of values the sensor can read 6 Specify the Upper Range Value URV The URV should be the highest value for the SP variable you want to measure for your process This cannot be more than the Upper Range Limit URL which represents the factory set highest value for the range of values the sensor can read 10 1 3 Temperature Issued Dec 2014 Configuration options for the temperature variable consist of setting the damping selecting the engineering units and setting lower and upper range values 4088B Configuration and Calibration 10 3 TechView User s Guide D5131 go TechView RTU 4088 B Temperature Temperature Enable RTD Type 3 Wire Damping 4 00 SEC Units Fahrenheit Lower Range Value 40 00 Upper Range Value 1220 00 Lower Range Limit 40 C 40 F Upper Range Limit 660 C 1220 F Fail To option ON Fail To value 1701459701091 35690000000000000000000000 00 Figure 10 4 Configuring the Temperature Variable 1 Click Temperature to open the Temperature menu 2 Click Set On to enable RTD conversion click Set Off to disable RTD conversion 3 Choose either 3 Wire or 4 Wire based on the type of RTD you are using 4 Specify a Damping value from 0 0 none to 30 0 seconds For a step change in input it takes five times the damping value for the reading to reach
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