Bailey STT03E Product Instruction Download

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XM/SM/XE MAGNETIC FLOWMETER

CREATE/MODIFY CONFIGURATION
E - 4

WBPEEUI110501A0

Input range value 1 using the number keys, then press

. Input range value 2. The

UNITS

displayed will

be those designated in the previous screens.

Make a selection using the arrow keys.

Select the engineering units for the totalizer.

Enter the proper pulse factor for the totalization
process.

Enter a value between 0.032 and 2000 ms. For driving an
electromechanical counter, the pulse width should be
about 50 ms. For high speed electronic devices a pulse
width of 0.05 ms. is common.

Enter a value between 0 and 10% of full scale. This
parameter causes the input to drop to a zero state when the
flow drops below the set value.

Make a selection using the arrow keys.

Key

Display

Comments

ENTER

RANGE VAL 1:.

nnn.nn UNITS

RANGE VAL 2:

nnn.nn UNITS

ENTER

ENTER

FAIL MODE:

→

LOW
HIGH

ENTER

SELECT TOT. EU:

→

l
m3
User Defined

ENTER

PULSE FACTOR:
(0.001 - 1000/EU)

nnn.nn

ENTER

PULSE WIDTH:
(0.64 - 2000 ms)

nnn.nn

ENTER

LOW FLOW CUTOFF:
(0 - 10%)

nn.nn%

ENTER

DIGITAL FILTER:

→

OFF
ON

ENTER

RESPONSE TIME:

→

NORMAL
FAST

ENTER

RANGE CONFIG:

→

2-FWD
1-FWD, 1REV

ENTER

FLOW DIRECTION:

→

FWD AND REV
FWD ONLY

Summary of Contents for STT03E

Page 1: ...PRODUCT INSTRUCTION Elsag Bailey Process Automation Type STT03E Smart Transmitter Terminal ...

Page 2: ...This instruction is a supplement to the device product instructions The STT03E terminal interfaces to the following devices Type AVS Smart Positioner Type BCN Pressure Transmitter Type EQN Temperature Transmitter Type EQS Temperature Transmitter Type XM SM XE Magnetic Flowmeter Type PTS Pressure Transmitter TBN480 Conductivity Transmitter TBN580 Transmitter TBN581 ORP pION Transmitter ...

Page 3: ...gh B 10 Original C 1 through C 8 Original D 1 through D 8 Original E 1 through E 8 Original F 1 through F 9 Original G 1 through G 12 Original H 1 through H 12 Original I 1 through I 10 Original Worksheets 9 Original Index 1 through Index 3 Original When an update is received insert the latest changed pages and dispose of the superseded pages NOTE On an update page the changed text or table is ind...

Page 4: ...4 1 INTRODUCTION 4 1 HOW TO USE THE PROCEDURE TABLES 4 2 OPERATOR INTERFACE CONTROLS 4 2 INITIAL START UP 4 4 SEND CONFIGURATION 4 5 GET CONFIGURATION 4 6 VIEW CONFIGURATION 4 8 ERASE CONFIGURATION 4 9 CHANGING WORKING CONFIGURATION 4 10 OPERATIONAL FUNCTIONS 4 11 Special Feature Key 4 11 FIx Output Cancel Fix Output Procedure 4 11 LCD Setup Procedure 4 12 Standard Configuration 4 12 Output Key 4 ...

Page 5: ... TYPE STT03E TERMINAL 7 5 SECTION 8 SUPPORT SERVICES 8 1 INTRODUCTION 8 1 REPLACEMENT PARTS 8 1 SPARE PARTS LISTS 8 1 TRAINING 8 1 TECHNICAL DOCUMENTATION 8 1 APPENDIX A AVS SMART POSITIONER A 1 INTRODUCTION A 1 AVS CONFIGURATION FUNCTIONS A 1 CREATE MODIFY CONFIGURATION A 2 CALIBRATION A 6 Output D to A Calibration A 7 Input A to D Calibration A 8 Manual Position Calibration A 8 Automatic Positio...

Page 6: ...PRESSURE TRANSMITTER F 1 INTRODUCTION F 1 PTS CONFIGURATION FUNCTION PROCEDURES F 1 CREATE MODIFY CONFIGURATION F 2 CALIBRATION F 5 Bench Calibration F 6 Rezero F 7 D to A Adjust F 8 APPENDIX G TBN480 CONDUCTIVITY TRANSMITTER G 1 INTRODUCTION G 1 TBN480 CONFIGURATION G 1 CREATE MODIFY CONFIGURATION G 2 CALIBRATION G 5 Process Calibration G 5 Calibrate Process Conductivity G 6 Calibrate Process Tem...

Page 7: ...omponent Locations 7 2 A 1 Configuration Flowchart AVS A 2 A 2 Calibration Flowchart AVS A 6 B 1 Configuration Flowchart BCN B 2 B 2 Calibration Flowchart BCN B 6 C 1 Configuration Flowchart EQN C 2 C 2 Calibration Flowchart EQN C 5 D 1 Configuration Flowchart EQS D 2 D 2 Calibration Flowchart EQS D 6 E 1 Configuration Flowchart XM SM XE Mag Flow E 2 E 2 Calibration Flowchart XM SM XE Mag Flow E 6...

Page 8: ...binations 1 3 1 3 Reference Documents 1 4 1 4 Glossary of Terms and Abbreviations 1 4 1 5 STT03E Terminal Specifications 1 5 1 6 STC Cartridge Specifications 1 6 4 1 STT03E Keypad Functions 4 2 4 2 STT03E Function Groupings 4 4 4 3 STT03E Scroll Characters 4 4 5 1 STT03E Error Messages 5 1 7 1 List of Spare Parts 7 6 ...

Page 9: ...revent igni tion of a hazardous atmosphere batteries must only be charged or changed in an area known to be nonhazardous p 3 1 7 4 System maintenance must be performed only by qualified personnel and only after securing equipment controlled by the circuit Altering or remov ing components from an active circuit may upset the process being con trolled p 6 1 Explosionproof dust ignitionproof installa...

Page 10: ...ment Afin d èviter l ignition d une atmosphère que dans un endroit où le danger est manifestement inexistant p 3 1 7 5 L entretien du système ne doit être effectuquèe par le personnel qualifiè et seulement une fois que l èquipement contrôlè par le circuit est fixè en place La modification ou le retrait des composants d un circuit actif pour raient perturber le processus controlè p 6 1 En ce qui co...

Page 11: ...or various functions In addition there are two function keys one for future use and the other used to copy configurations to and from STC car tridges The STT03E terminal operates for approximately 24 continuous hours with a full charge on six AA NiCd rechargeable batteries Each terminal includes a battery charger The internal nonvolatile memory NVRAM maintains information for approximately ten yea...

Page 12: ...calibration procedures for the Series TBN480 Conductivity Transmitter TBN580 Transmitter Covers configuration and calibration procedures for the Series TBN580 pH Transmitter TBN581 ORP pION Transmitter Covers configuration and calibration procedures for the Series TBN581 ORP pION Transmitter HOW TO USE THIS INSTRUCTION Read this instruction completely through in sequence It is important to become ...

Page 13: ...er type 1 TBN480 580 581 AVS 2 AVS 3 BCN EQN 4 XM SM XE Mag Flow A Cartridge firmware level1 Language E English F French S Spanish NOTE 1 The original design will be designated by the letter A in the fifth nomenclature position and will change to B C D etc as revisions are made Table 1 2 STT03E Support Combinations STT03E STT03E with STC1ME STT03E with STC2ME STT03E with STC3ME STT03E with STC4ME ...

Page 14: ...latinum Standard Series Smart Temperature Transmitter Type EQS I E51 79 Smart Temperature Transmitter Type EQN I E67 38 Smart pH ORP Specific Ion Transmitter Series TBN580 581 I E67 42 Smart Conductivity Transmitter Series TBN 480 I E96 302 Field Bus Slave Module IMFBS01 I P88 27 Smart Positioner Type AVS Table 1 3 Reference Documents continued Number Document Table 1 4 Glossary of Terms and Abbre...

Page 15: ...ncendive Class I Division 2 Groups A B C D Intrinsically Safe Class I Division 1 Groups A B C D NOTE 1 Hazardous location approvals for use in flammable atmospheres are for ambient conditions of 25 to 40 C 13 to 104 F 86 to 106 kPa 12 5 to 15 7 psi with a maximum oxygen concentration of 21 percent SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE Table 1 6 STC Cartridge Specifications Property Chara...

Page 16: ...minal to interface to other devices Order STC cartridges by nomenclature Table 1 1 Refer to RECOMMENDED SPARE PARTS FOR TYPE STT03E TERMINAL in Section 7 for other available items related to the STT03E terminal Weight 53 g 1 9 oz SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE Table 1 6 STC Cartridge Specifications continued Property Characteristic Value ...

Page 17: ...rm of frequency modulation used for digital communication The communica tion signal is a high frequency AC signal with a DC average of zero There fore digital communication and process variable output can occur simultaneously PHYSICAL OPERATION The STT03E terminal connects to the field device anywhere there is access to the signal leads of the transmitter for point to point The STT03E terminal mus...

Page 18: ...ICAL OPERATION 2 2 WBPEEUI110501A0 Figure 2 2 Digital Field Bus Wiring STT03E TP30242B SIGNALWIRES TRANSMITTER7 TRANSMITTER1 TRANSMITTER8 TERMINA TION UNIT FIELDBUS I O MODULE MFP MFC TEST PWR OUTPUT TEST PWR OUTPUT TEST PWR OUTPUT ...

Page 19: ...e provided clip leads Other wise the STT03E terminal comes fully assembled and operational Charging STT03E Terminal Periodically the six AA batteries require charging Use the battery charger Bailey Fischer Porter part number 1948580 1 With a full charge the STT03E terminal can operate continuously for 24 hours without a recharge WARNING Nonrechargeable batteries may explode or leak if recharged Th...

Page 20: ...while recharging is in progress Smart Terminal Cartridge Installation The basic firmware of the STT03E terminal interfaces two device types PTS and EQS transmitters STC cartridges are available that allow the STT03E terminal to address other devices refer to NOMENCLATURE in Section 1 The cartridge slides into the bottom of the terminal and can store up to 85 configurations To install an STC cartri...

Page 21: ...ce type selection in the configu ration sequence will list the devices of the cartridge NOTES 1 Do not attempt to edit an existing configuration that is supported by a STC cartridge without having the cartridge installed 2 Do not plug in the cartridge with the power on as it may cause mem ory disruption ...

Page 22: ...nsmitters Smart transmitter cartridges STC are available refer to NOMENCLATURE in Section 1 that allow the terminal to interface other Bailey Fischer Porter devices Configuration and calibration flowcharts provide an overview prior to the detailed procedures Step by step configuration and calibration proce dures for these devices are located in the appendices at the back of this instruction Config...

Page 23: ...d displays the STT03E software revision level Turns power off Stored configurations remain in internal memory The terminal will shut itself off after 15 minutes of idle operation Scrolls through menus selects functions and selects ASCII characters for data input Refer to Table 4 3 for the characters available on the STT03E Inputs values into the terminal Includes digits 0 through 9 a decimal point...

Page 24: ...iguration PTS only Escapes the current function and returns the display to the READY condition Selects and changes working configurations and field devices if connected Steps through the selections of the working configuration Used to view a configura tion and does not allow modifications to be made Copies configurations from an STT03E terminal to an STC cartridge and vise versa For future use Tab...

Page 25: ...put engineering units Monitor field device temperature Monitor secondary units output Fix field device output value Status check LCD set up Standard configuration Copying configurations to and from STC cartridges NOTE 1 These functions apply to all field devices covered in this section The procedures for each transmitter type are covered in the appendices at the back of this instruction Table 4 3 ...

Page 26: ...ears with ID tags If initial start up just out of the box no configurations will be found In the case of PTS a standard or special configuration will be found A configuration can be created Refer to the appendices at the back of this instruction for configuration procedures for all Bailey Fischer Porter smart devices Key Display Comments ENTER SCANNING FOR SMART TRANSMITTERS NO SMART FIELD DEVICE ...

Page 27: ...nfiguration The option to save the configuration in the STT03E ter minal internal memory is presented When the configura tion is stored exit the function by pressing NOTE A maximum of 70 configurations can be stored in the STT03E terminal Displays the 14 character ID tag of the connected device If ANALOG mode the CHANNEL field is not shown The TYPE field displays the device type Indicator points t...

Page 28: ...ng a Type PTS transmitter The upper and lower range temperature alarm values are shown as configured Configuration ID tag name just configured will be in the upper left corner if the configuration was saved This becomes the working configuration Key Display Comments ENTER LOWER RANGE VAL nn nn UNITS UPPER RANGE VAL nn nn UNITS ENTER INITIALIZE MODE LOW HIGH ENTER FAIL MODE LOW HIGH LAST ENTER SECO...

Page 29: ...onfigured initialization mode Indicator points to the configured fail mode Secondary lower and upper range values are displayed Only applies if interfacing a Type PTS transmitter The upper and lower range temperature alarm values are shown as configured Key Display Comments ENTER OUTPUT ACTION NORMAL REVERSE ENTER DAMPING 0 32 SEC 1 00 SEC ENTER LOWER RANGE VAL 0 00 PSI UPPER RANGE VAL 100 00 PSI ...

Page 30: ...al is operating on To change the working configuration refer to the following procedure Key Display Comments Select ERASE Scroll through the displayed ID tags using the arrow keys When the desired choice is inside the brackets press NOTE To return to the READY screen without erasing a configuration press The selected configuration has been erased CONFIG CONFIGURATION NEW MODIFY ERASE ENTER STT03 C...

Page 31: ...s Use the arrow keys to choose the configuration The STT03E terminal displays the names of the stored configurations For this example select CONFIG 2 As many as 70 configurations can be stored in the STT03E terminal Scroll through available configurations using the up and down arrow keys Working configuration is now CONFIG 2 Key Display Comments ENTER SELECT XMITTER CONFIG 1 CONFIG 2 CLEAR CLEAR S...

Page 32: ... specific product instruction for special feature information An example of the PTS transmitter is explained in this section allows the user to perform the following functions Fix output and cancel fix output LCD setup Standard configuration FIX OUTPUT CANCEL FIX OUTPUT PROCEDURE The fix output function allows the user to set the output to a percentage of output where the output of the field devic...

Page 33: ...r configuration back to the original configuration installed in the factory The output remains at a fixed value until CANCEL FIX OUT is selected Key Display Comments ENTER CONFIG ID TAG READY Key Display Comments Use the arrow keys to select LCD SETUP NOTE Menu selections will vary depending on device type Specify the LCD display variable NOTE CELL TEMP applies to PTS pressure transmitter only NOT...

Page 34: ...ets back to the standard configuration or press to abort the reset function Use to select a tag as the working con figuration SPECIAL FEATURE FIX OUTPUT CANCEL FIX OUT LCD SETUP STANDARD CONFG ENTER RESET TO STD CONFIGURATION NO YES OUTPUT WILL BE AFFECTED ENTER PROCEED NO YES ENTER RESET XMITTER CONFIG ID TAG PRESS ENTER ENTER CLEAR ENTER SENDING STANDARD CONFIG CHOOSE A TAG READY SELECT DEVICE ...

Page 35: ...field device The output is displayed in engineering units MONITOR FIELD DEVICE INPUT PROCEDURE This function allows the user to continuously monitor the input to the target device The input is displayed in engineering units MONITOR SECONDARY UNITS OUTPUT PROCEDURE With this function the user can display the output of the target device in user defined units specified in the configuration OUTPUT OUT...

Page 36: ...primary engineering units The display is updated every second To exit the monitor input function press Key Display Comments Select SECONDARY OUTPUT using the down arrow key OUTPUT MONITOR OUTPUT MONITOR INPUT SECONDARY UNITS TEMPERATURE ENTER CONFIG ID TAG PRIMARY INPUT nnn nn UNITS GOOD STATUS CLEAR CLEAR CONFIG ID TAG READY OUTPUT MONITOR OUTPUT MONITOR INPUT SECONDARY UNITS TEMPERATURE ENTER CO...

Page 37: ...er to Section 5 for troubleshooting information F1 Key Copy Configurations to and from STC Cartridges The STT03E terminal allows the user to copy a single or all configurations to and from STC cartridges Multiple configuration copies overwrite existing configurations on the terminal or cartridge regardless of the amount of Key Display Comments Select TEMPERATURE using the down arrow key The temper...

Page 38: ...E to the STC cartridge Key Display Comments Select TO CARTRIDGE Select OVERWRITE ALL This selection will copy all the existing STT03E terminal configurations to the STC cartridge NOTE For a detailed screen flow of COPY ONE selec tion refer to COPY STC CONFIGS TO STT03E TER MINAL Regardless of the amount of free space of the cartridge only the configurations from the terminal will exist on the cart...

Page 39: ...play Comments Select FROM CARTRIDGE Select COPY ONE The asterisk on the top line of the screen indicates copying from the cartridge to STT03E terminal NOTE For details on the screen flow of OVERWRITE ALL selection refer to COPY STT03E CONFIGS TO STC CARTRIDGE Select a configuration using the up and down arrow keys For this example CONFIG 1 is the chosen configuration The asterisk on the top line o...

Page 40: ...the operation is per formed on the cartridge The chosen configuration has been erased NOTE To erase a configuration from the STT03E termi nal refer to ERASE CONFIGURATION F1 COPY CONFIGS TO CARTRIDGE FROM CARTRIDGE ERASE 1 CONFIG ENTER STT03 CONFIG CONFIG 1 CONFIG CONFIG 85 ENTER CONFIG ID TAG READY Key Display Comments This operation will cause a change in output not corre sponding to the input B...

Page 41: ...lt values Enter differ ent values or accept the default values by pressing will update the field device configuration not the STT03E terminal internal configuration To update the internal STT03E terminal configuration perform and save it in the STT03E terminal Key Display Comments ENTER DAMPING 0 32 SEC nn nn SEC ENTER ENTER LOWER TEMP ALARM 50 00 C UPPER TEMP ALARM 120 00 C ENTER ENTER SENDING RA...

Page 42: ...mplifier assembly Calibrate the field device Refer to the cali bration section of the appropriate PTS pres sure transmitter instruction EQS Field device needs to be cali brated Calibrate the field device Refer to the cali bration section of the appropriate EQS tem perature transmitter instruction CANNOT SAVE CONFIGURATION TOO LARGE STT03E Transmitter type not sup ported by STT03E terminal revision...

Page 43: ...c tory NOTE The temperature of the high side of the cell with respect to the low side of a PTS Output may no longer be accurate Remove source of temperature shift ELECTRONICS TEMPERATURE MEASUREMENT FAILURE EQS PTS Hardware failure of on board temperature sensor Replace amplifier assembly Refer to repair replacement section of the appropriate prod uct instruction ELECTRONIC TEMPERATURE OUT OF RANG...

Page 44: ...nal Verify by using another STT03E terminal that is known to be operational FIELD DEVICE CAN T EXECUTE COMMAND LOCKOUT ENGAGED All Unable to configure or cali brate Hardware lock active Refer to the device product instruction for details about the configuration lockout jumper FIELD DEVICE CAN T EXECUTE DATA OUT OF RANGE All Transmitter sent data that is out of acceptable range Press to verify the ...

Page 45: ...D DEVICE INTERNAL REFERENCE FAILURE AVS BCN EQN EQS XM SM XE Reference problem on circuit board Check connections Replace electronics assembly Refer to repair replacement section of the appropriate field device instruction PTS Reference problem on circuit board Replace amplifier assembly If problem still exists replace cell and characterization board Refer to the repair replacement section of the ...

Page 46: ...ics assembly PTS Replace amplifier assembly refer to repair replacement section of the appropriate product instruction for replacement proce dures FIELD DEVICE NOT SUPPORTED BY CARTRIDGE OR HANDHELD All Field device type not sup ported by the release of STT03E terminal and car tridge Check to see if correct cartridge is inserted into the STT03E terminal FIELD DEVICE OPEN SENSOR EQS Field device te...

Page 47: ... details LOSS OF COIL EXCITATION XM SM XE Coil excitation has stopped Check wiring of excitation signal and refer ence signal If both are OK call service MAIN POWER WAS LOST XM SM XE Power was lost to device Check for loose wiring Restore totalizers to known values if lost NO CARTRIDGE DETECTED STT03E Wrong cartridge type i e CTT or cartridge not seated properly Insert correct cartridge or check f...

Page 48: ...a If message persists verify that electronic noise on line is within specifications using an oscilloscope STT03 RECEIVE FAILURE STT03E Reply from device was pos sibly corrupted Try again or check data If message persists verify that electronic noise on line is within specifications using an oscilloscope TAG ID LENGTH NOT SUPPORTED BY FIELD DEVICE BCN EQN STT03E Attempting to send a 13 or 14 charac...

Page 49: ...heck 4 to 20 mA input VALVE STUCK AVS Valve has not moved for over two minutes Check valve Check 4 to 20 mA input OPTION NOT INSTALLED XM SM XE The current configuration is calling to use the empty pipe detector which requires an optional board Add empty pipe detector option or turn empty pipe detection off in the configuration Table 5 1 STT03E Error Messages continued Message AffectedD evice Prob...

Page 50: ...proof dust ignitionproof installations and intrinsically safe installations in Class II or Class III hazardous locations require that the assembly be kept tight while circuits are live unless the location is known to be nonhazardous at the time AVERTISSEMENT L entretien du système ne doit être effectuquèe par le personnel quali fiè et seulement une fois que l èquipement contrôlè par le circuit est...

Page 51: ...tatic pro tective container only under the following conditions a When at a static free work station or when the bag is grounded at the field site b After neutralizing the conductive area of the container c Only after firm contact with an antistatic mat and or firmly gripped by a grounded individual 3 Personnel handling assemblies with MOS devices should be neutralized to a static free work statio...

Page 52: ...E terminal on a table or smooth surface with the keypad facing down 3 Remove the four screws from the lower case of the terminal 4 Carefully lift the lower case off the PC board 5 Grasp the PC board by the edges and turn it over so the components on the board are facing up Fig 7 1 6 Carefully disconnect the keypad connector strip from the PC board This will allow the PC board to lie flat next to t...

Page 53: ...cket d Place two fingers on the chip and evenly apply pressure The chip should snap into place 4 To complete this procedure refer to REASSEMBLING THE TYPE STT03E TERMINAL CASE in this section REPLACING NVRAM The NVRAM storage chip stores device configurations To replace the NVRAM storage chip 1 Complete the DISASSEMBLY OF TYPE STT03E TERMINAL CASE in this section 2 Using an integrated circuit IC r...

Page 54: ...ng so the batteries are accessible 5 Remove the batteries from the housing 6 Insert the replacement AA rechargeable batteries according to the dia gram shown on the battery housing 7 Turn the battery housing over batteries facing down and insert hous ing as shown in Figure 7 1 8 Replace the screw securing the battery housing 9 To complete this procedure refer to REASSEMBLING THE TYPE STT03E TERMIN...

Page 55: ... the back of the lower case and tighten until heads are flush with case RECOMMENDED SPARE PARTS FOR TYPE STT03E TERMINAL Table 7 1 lists the available spare parts for the Type STT03E terminal Use the kit or part number to order components from your Bailey Fischer Por ter sales representative Table 7 1 List of Spare Parts Part Number Description NVRAM Part number 258474 1 NVRAM internal configurati...

Page 56: ...struction manual number page number and reference figure that identifies the part When ordering standard parts from Bailey Fischer Porter use the part numbers and descriptions from the spare parts lists Order parts without commercial descriptions from the nearest Bailey Fischer Porter sales office SPARE PARTS LISTS For available spare parts refer to RECOMMENDED SPARE PARTS FOR TYPE STT03E TERMINAL...

Page 57: ...nfigurations Get configurations Change working configurations For operation function procedures i e and refer to OPERATIONAL FUNCTIONS in Section 4 To change calibration or configuration parameters of a smart field device that is connected to an IMFBS01 module the device must be taken off line This is done at the INFI 90 OPEN console Interfacing AVS positioner requires a Type STC1 Smart Terminal C...

Page 58: ...entered The STT03E terminal is assumed to be in the READY state when beginning the following proce dures Figure A 1 Configuration Flowchart AVS ENTERHIGH RANGEV ALUE INPUTSIGNAL NORMALREVERSE HIGHLIMIT SIGNAL ENTERLOW RANGEV ALUE K DERIV A TIVE D LOWLIMIT SIGNAL IDT AG V AL VE STUCK ALARMYES NO DAMPING 0 5 LOWFLOW SHUTOFF SELECT MODE PRESSURE UNITS DEVIA TION ALARM DO3ACTION ENTERCHANNEL NUMBER DI...

Page 59: ...sign an address to the AVS positioner for use with the field bus The address range is 1 through 15 Choose AVS Move the indicator to the choice with the up and down arrow keys Refer to the appropriate product instruction for input characterization types For this example LINEAR is the input characterization type NOTE The STT03E terminal is capable of displaying 3 input characterization types on the ...

Page 60: ... NOTE Review product instruction for details Derivative tuning constant This number will usually range between 2 and 70 NOTE Review product instruction for details Move the indicator to proper selection Refer to the AVS Smart Positioner instruction for an explanation of terms The input can be damped with a value of 1 to 5 seconds A value of 0 will disable this parameter Set the deviation alarm in ...

Page 61: ...Select a DO3 action with the arrow keys Reference AVS instruction for details NOTE Scroll with the up and down arrow keys to view other selections Make selection using arrow keys Configuration ID tag name just configured will be in the upper left corner if the configuration is saved It becomes the working configuration Key Display Comments ENTER LO PRESS ALARM nn nn UNITS ENTER HI PRESS ALARM nn n...

Page 62: ... using NOTE To change calibration or configuration parameters of a field device that is connected to an IMFBS01 module the field device must be taken off line This is done at the INFI 90 OPEN console After selecting a field device the READY screen appears All calibration functions can be performed on the selected device Refer to Figure A 2 for an overview of the calibration functions SELECT DEVICE...

Page 63: ...ignal NOTE When increasing or decreasing the mA signal the increments of change increase with successive depressions until the maximum level of change is reached By chang ing direction you will return to the smallest increment of change This adjustment technique speeds up the adjust ment process without affecting fine adjustment Use the up and down arrow keys to adjust the 20 mA sig nal NOTE Refer...

Page 64: ...ferences between the two are noted in the Comments col umn Key Display Comments Select the desired calibration Make the proper adjustments and press NOTE Refer to AVS instruction for details on the cali brations Make the proper adjustments and press NOTE Refer to AVS instruction for details on the cali brations CALI BRATE OUTPUT WILL BE AFFECTED PROCEED NO YES ENTER OUTPUT D A CAL INPUT A D CAL MA...

Page 65: ... the desired calibration Make the proper adjustments and press NOTE Refer to AVS instruction for details on the cali brations Make the proper adjustments and press NOTE Refer to AVS instruction for details on the cali brations CALI BRATE OUTPUT WILL BE AFFECTED PROCEED NO YES ENTER OUTPUT D A CAL INPUT A D CAL MAN POS CAL AUTO POS CAL ENTER ADJUST OUTPUT TO ZERO THEN HIT ENTER ENTER ENTER ADJUST O...

Page 66: ...UTO POS CAL selection NOTE Refer to AVS instruction for details on the cali brations The AVS is being automatically calibrated The AVS is calibrated CALI BRATE OUTPUT WILL BE AFFECTED PROCEED NO YES ENTER OUTPUT D A CAL INPUT A D CAL MAN POS CAL AUTO POS CAL ENTER LIMIT STOPS REQUIRED PROCEED NO YES ENTER AUTO CAL STARTED AUTO CAL COMPLETE ...

Page 67: ...RATIONAL FUNCTIONS in Section 4 To change calibration or configuration parameters of a smart field device that is connected to an IMFBS01 module the device must be taken off line This is done at the INFI 90 OPEN console Interfacing BCN transmitter requires a Type STC3 Smart Terminal Car tridge The cartridge inserts into the bottom of the STT03E terminal For an installation procedure of the STC car...

Page 68: ...217A SELECT F AIL MODE ENTER SECONDARY UNITS SELECT ENGINEERING UNITS C O N F I G U R E SELECT MODE SEND CONFIG Key Display Comments Select NEW to create a new configuration To modify an existing configuration select MODIFY The screen sequence is the same however the MODIFY screens will appear with the values and cursor positions as originally configured Enter a name for the configuration also kno...

Page 69: ...types on the screen Use the up and down arrow keys to view the additional output types Five input and output points need to be specified as a per centage of input The first and last points on the curve are assumed to be 0 00 and 100 00 Use the number keys to enter a value Press Continue until all 5 pairs of points have been entered Move the indicator to your selection Refer to the Smart Pressure T...

Page 70: ...nd right arrow keys to move through the character places Specify values using the number keys The UNITS dis played will be those designated in the previous screen After entering value press Make a selection using the arrow keys The Configuration ID tag name just configured will be in the upper left corner if the configuration is saved It becomes the working configuration Key Display Comments ENTER...

Page 71: ...d to an IMFBS01 module the transmitter must be taken off line This is done at the INFI 90 OPEN console After selecting a field device the READY screen appears All calibration functions can be performed on the selected device Refer to Figure B 2 for an overview of the calibration functions SELECT DEVICE Figure B 2 Calibration Flowchart BCN DIGIT AL ANALOG APPL Y LOW CALIBRA TION PRESSURE BENCH D TO...

Page 72: ...Type BCN instruction There are 5 sets of data A through E Press to advance to the next set of data This data should match the tag located in the electronics side of the transmitter NOTE After a value for C is entered D and E are dis played and after E is entered a checksum value is requested There are also 5 sets of data A through E for span shift Press to advance to the next set of data NOTE Afte...

Page 73: ...rminal using low and high values If configured digitally this adjust selection does not appear Adjust transmitter output using up and down arrow keys NOTE When increasing or decreasing the mA signal the increments of change increase with successive depressions until the maximum level of change is reached By chang ing direction the smallest increment of change returns This technique speeds up the p...

Page 74: ...REZERO If digitally configured the D TO A ADJUST selection will not appear Apply zero value to the transmitter Rezero is complete CALI BRATE OUTPUT WILL BE AFFECTED PROCEED NO YES ENTER CALIBRATION D TO A ADJUST BENCH CALIB REZERO ENTER APPLY PRESSURE THEN HIT ENTER nn nn ENTER CONFIG ID TAG READY Key Display Comments CALI BRATE OUTPUT WILL BE AFFECTED PROCEED NO YES ...

Page 75: ...mum level of change is reached By chang ing direction you will return to the smallest increment of change This adjustment technique speeds up the adjust ment process without affecting fine adjustment Use the up and down arrow keys to adjust the 20 mA sig nal Key Display Comments ENTER CALIBRATION D TO A ADJUST BENCH CALIB REZERO ENTER ADJUST TO 4 mA THEN HIT ENTER ENTER ADJUST TO 20 mA THEN HIT EN...

Page 76: ...NAL FUNCTIONS in Section 4 To change calibration or configuration parameters of a smart field device that is connected to an IMFBS01 module the device must be taken off line This is done at the INFI 90 OPEN console Interfacing the EQN transmitter requires a Type STC3 Smart Terminal Car tridge The cartridge inserts into the bottom of the STT03E terminal For an installation procedure of the STC cart...

Page 77: ...NALOG TC RTD mV YES NO SELECT TRANSMITTER TYPE ENTER LO WER RANGEV ALUE ENTER DAMPING CONSTANT ENTER SECONDARY UNITS ENTER SECOND ARY LOWERRANGE SELECT TRANSMITTER MODE ENTER UPPER RANGEV ALUE TP30225B SELECT INITIALIZE MODE SELECT F AIL MODE FUNCTION GENERA TOR ENTER5 INPUT AND5 OUTPUT POINTS SELECT OUTPUT ACTION SELECT MODE SEND CONFIG Key Display Comments Select NEW To create a new configuratio...

Page 78: ...cription Enter a value between 0 and 32 Refer to the Smart Elec tronic Temperature Transmitter Type EQN instruction for description Enter the lower range temperature value and press Input the upper range value Key Display Comments ENTER TRANSMITTER TYPE BCN EQN ENTER TRANSMITTER MODE THERMOCOUPLE RTD MILLIVOLT ENTER THERMOCOUPLE N B E J K R S T C ENTER APPROX METHOD LINEAR NON LINEAR ENTER TEMP UN...

Page 79: ...ic Temperature Transmitter Type EQN instruction for description Enter up to 6 characters Use familiar units to describe the output Input the lower range value and press Input the upper range value The Configuration ID tag name just configured will be in the upper left corner if the configuration is saved It becomes the working configuration Key Display Comments ENTER INITIALIZE MODE LOW HIGH ENTER...

Page 80: ...the selected device Refer to Figure C 2 for an over view of the calibration functions Bench Calibration This procedure applies to EQN Transmitters configured for either ANALOG or DIGITAL Any difference between the two are noted in the Comments column SELECT DEVICE Figure C 2 Calibration Flowchart EQN ENTER AMBIENT TEMPERATURE CALIBRATION COMPLETE BENCH THERMOCOUPLE D TO A APPLY 0 mV SIGNAL ADJUST ...

Page 81: ...field device ambient temperature in degrees Cel sius using the number keypad The surrounding room tem perature can be used for this temperature value Adjust the transmitter output using the up and down arrow keys Adjust the transmitter output using the up and down arrow keys Bench calibration is complete Key Display Comments ENTER CALIBRATION D TO A ADJUST BENCH CALIB ENTER APPLY 0 mV SIGNAL THEN ...

Page 82: ...he maximum level of change is reached By chang ing direction you will return to the smallest increment of change This adjustment technique speeds up the adjust ment process without affecting fine adjustment Use the arrow keys to adjust the 20 mA signal CALI BRATE OUTPUT WILL BE AFFECTED PROCEED NO YES ENTER CALIBRATION D TO A ADJUST BENCH CALIB ENTER ADJUST TO 4 mA THEN HIT ENTER ENTER ADJUST TO 2...

Page 83: ...ions Erase configurations View configurations Get configurations Change working configurations For operation function procedures i e and refer to OPERATIONAL FUNCTIONS in Section 4 To change calibration or configuration parameters of a smart field device that is connected to an IMFBS01 module the device must be taken off line This is done at the INFI 90 OPEN console Refer to Figure D 1 for an over...

Page 84: ...AG OUTPUTTYPE SELECTFAIL MODE SELECTMODE OUTPUT ACTION ENTER SECONDARY UNITS ENTERCHANNEL NUMBER DIGIT AL ANALOG T C RTD mV OHMS SELECT TRANSMITTER TYPE DAMPING CONSTANT ENTER SECONDARY LOWERRANGE SA VE CONFIGURA TION SELECT RTDTYPE NO OF ELEMENTS SELECT THERMOCOUPLE TYPE ENTERLOWER RANGEV ALUE ENTER SECONDARY UPPERRANGE TP81001A C O N F I G U R E SEND CONFIG Key Display Comments Select NEW to cre...

Page 85: ...ion for description Enter a value between 0 and 32 Refer to the Platinum Standard Series Smart Temperature Transmitter Type EQS instruction for description Enter the lower range temperature value and press Input the upper range value Key Display Comments ENTER SELECT MODE ANALOG DIGITAL ENTER TRANSMITTER TYPE PTS EQS ENTER SENSOR TYPE T C RTD mV OHMS ENTER THERMOCOUPLE N B E J K R S T C ENTER ENGI...

Page 86: ...p to 6 characters Use familiar units to describe the output Input the lower range value and press Input the upper range value Input the lower temperature alarm value and press Input the upper temperature alarm value and press Configuration ID tag name just configured will be in the upper left corner if the configuration is saved It becomes the working configuration Key Display Comments ENTER INITI...

Page 87: ...l calibration functions can be performed on the selected device Refer to Figure D 2 for an over view of the calibration functions Bench Calibration This procedure applies to EQS Transmitters configured for either ANALOG or DIGITAL Any difference between the two are noted in the Comments column SELECT DEVICE Figure D 2 Calibration Flowchart EQS APPLY 0 mV SOURCE ADJUST HIGH CALIBRATION RESISTANCE B...

Page 88: ...agrams of this procedure Apply 0 Ω to the transmitter NOTE Refer to the EQS instruction for detailed wiring diagrams of this procedure Apply 250 Ω to the transmitter NOTE Refer to the EQS instruction for detailed wiring diagrams of this procedure CALI BRATE OUTPUT WILL BE AFFECTED PROCEED NO YES ENTER CALIBRATION D TO A ADJUST BENCH CALIB ENTER LOW CALIB n nnn mV HIGH CALIB n nnn mV ENTER LOW CALI...

Page 89: ...s adjustment technique speeds up the adjust ment process without affecting fine adjustment Use the arrow keys to adjust the 20 mA signal Key Display Comments ENTER ADJUST TO 4 mA THEN HIT ENTER ENTER ADJUST TO 20 mA THEN HIT ENTER ENTER CONFIG ID TAG READY Key Display Comments Use the arrow keys to adjust the 4 mA signal NOTE When increasing or decreasing the mA signal the increments of change inc...

Page 90: ...EQS TEMPERATURE TRANSMITTER CALIBRATION D 8 WBPEEUI110501A0 Use the arrow keys to adjust the 20 mA signal Key Display Comments ENTER ADJUST TO 20 mA THEN HIT ENTER ENTER CONFIG ID TAG READY ...

Page 91: ...to OPERATIONAL FUNCTIONS in Section 4 To change calibration or configuration parameters of a smart field device that is connected to an IMFBS01 module the device must be taken off line This is done at the INFI 90 OPEN console Interfacing the XM SM XE Mag Flow Meter requires a Type STC4 Smart Terminal Cartridge The cartridge inserts into the bottom of the STT03E ter minal For an installation proced...

Page 92: ...TOR SELECT FLOW DIRECTION ENTERPULSE WIDTH ENTERUPPER ANDLOWERPV ALARMS TP81006A C O N F I G U R E UNIT MASS RELA TED ENTERRANGE V ALUES ENTERUNIT DESCRIPTOR ENTERUNIT F ACTOR USER DEFINED ENTERTIME RELA TION SEND CONFIG Key Display Comments Select NEW to create a new configuration To modify an existing configuration select MODIFY The screen sequence is the same however the MODIFY screens will app...

Page 93: ...d engineering units Enter a range and a scale factor for the user defined engi neering unit Select a time relation for the user defined engineering unit If the engineering unit is not mass related skip the next screen Enter the density factor for the user defined engineering unit Key Display Comments ENTER TRANSMITTER TYPE PTS XM SM XE ENTER FLOW DIRECTION FORWARD REVERSED ENTER DAMPING 0 32 SEC _...

Page 94: ...ulse width of 0 05 ms is common Enter a value between 0 and 10 of full scale This parameter causes the input to drop to a zero state when the flow drops below the set value Make a selection using the arrow keys Make a selection using the arrow keys Make a selection using the arrow keys Make a selection using the arrow keys Key Display Comments ENTER RANGE VAL 1 nnn nn UNITS RANGE VAL 2 nnn nn UNIT...

Page 95: ...aken off line This is done at the INFI 90 OPEN console After selecting a field device the READY screen appears All calibration functions can be performed on the selected device Refer to Figure E 2 for an overview of the calibration functions Make a selection using the arrow keys Specify values using the number keys The UNITS dis played will be those designated in a previous screen After entering a...

Page 96: ...UE CALIBRA TION COMPLETE ADJUSTTO 20mA TP81007A C A L I B R A T E Key Display Comments Select EMPTY PIPE DET If configured digitally the D TO A ADJUST selection will not appear Use the arrow keys to adjust the frequency as described in the Mag Flow product instruction The frequency value will be updated between key presses during which a wait screen will appear Enter the threshold of the empty pip...

Page 97: ... A ADJUST Use the arrow keys to adjust the 4 mA signal NOTE When increasing or decreasing the mA signal the increments of change increase with successive depressions until the maximum level of change is reached By chang ing direction you will return to the smallest increment of change This adjustment technique speeds up the adjust ment process without affecting fine adjustment Use the arrow keys t...

Page 98: ... to Section 4 for the detailed description of these functions Send configurations Erase configurations View configurations Get configurations Change working configurations For operation function procedures i e and refer to OPERATIONAL FUNCTIONS in Section 4 To change calibration or configuration parameters of a smart field device that is connected to an IMFBS01 module the device must be taken off ...

Page 99: ...0223A ENTER SECONDARY UPPERRANGE SELECT ENGINEERING UNITS ENTERLOWER RANGEVALUE ENTERUPPER RANGEVALUE C O N F I G U R E SELECT OUTPUT ACTION ENTERLOWER TEMPERATURE ALARM SEND CONFIG Key Display Comments Select NEW to create a configuration To modify an exist ing configuration select MODIFY The screen sequence is the same however the MODIFY screens will appear with the values and arrow positions as...

Page 100: ... keys to enter a value between 0 00 and 100 00 for the OUT value Press Continue until all 5 pairs of points have been entered Move the indicator to your selection Refer to the Plati num Standard Series Smart Pressure Transmitter Type PTS instruction for an explanation of terms Enter a value between 0 and 32 seconds Select an engineering unit best suited for the application Key Display Comments ENT...

Page 101: ...ignated in the previous screen After entering value press Lower and upper temperature alarms are user configurable alarms The temperature is based on the cell The default alarms setting are shown here The defaults are also the lower and upper limits of the alarm Make a selection using the arrow keys Configuration ID tag name just configured will be in the upper left corner if the configuration was...

Page 102: ...n parameters of a smart trans mitter that is connected to an IMFBS01 module the transmitter must be taken off line This is done at the INFI 90 OPEN console After selecting a device the READY screen appears All calibration functions can be performed on the selected device Refer to Figure F 2 for an overview of the calibration functions SELECT DEVICE Figure F 2 Calibration Flowchart PTS ANALOG DIGIT...

Page 103: ...ut of trans mitter as specified earlier Adjust transmitter output using the up and down arrow keys If configured digitally this adjust display does not appear NOTE When increasing or decreasing the mA signal the increments of change increase with successive depressions until the maximum level of change is reached By chang ing direction the smallest increment of change returns This technique speeds...

Page 104: ...ench calibration is complete Key Display Comments ENTER ADJUST TO 20 mA THEN HIT ENTER ENTER CONFIG ID TAG READY Key Display Comments Select REZERO If digitally configured the D TO A ADJUST selection will not appear Apply zero value to the transmitter Rezero is complete CALI BRATE OUTPUT WILL BE AFFECTED PROCEED NO YES ENTER CALIBRATION D TO A ADJUST BENCH CALIB REZERO ENTER APPLY PRESSURE OF nn n...

Page 105: ...When increasing or decreasing the mA signal the increments of change increase with successive depressions until the maximum level of change is reached By chang ing direction you will return to the smallest increment of change This adjustment technique speeds up the adjust ment process without affecting fine adjustment Use the arrow keys to adjust the 20 mA signal CALI BRATE OUTPUT WILL BE AFFECTED...

Page 106: ...ONAL FUNCTIONS in Section 4 To change calibration or configuration parameters of a smart field device that is connected to an IMFBS01 module the device must be taken off line This is done at the INFI 90 OPEN console Interfacing TBN480 transmitter requires a Type STC1 Smart Terminal Car tridge The cartridge inserts into the bottom of the STT03E terminal For an installation procedure of the STC cart...

Page 107: ... SELECTDIAG SPIKENO YES ENTER DAMPING CONST ANT SAVE CONFIGURA TION SELECT ANAL YZER TYPE ENTERLOWER RANGEV ALUE TP81004A ENTERUPPER RANGEV ALUE SELECT INITIALIZE MODE SELECTF AIL MODE SELECT TEMPERA TURE COMPENSA TION INPUT C O N F I G U R E SEND CONFIG Key Display Comments Select NEW To create a new configuration To modify an existing configuration select MODIFY The screen sequence is the same h...

Page 108: ...ruction for description Enter a value between 0 and 32 Refer to the Smart Con ductivity Transmitter Series TBN480 instruction for description Enter the lower range temperature value and press Input the upper range value Low and high default values are dependent on the sensor group and range jumper setting Refer to the Smart Conductivity Transmitter Series TBN480 instruction for description Key Dis...

Page 109: ...device Refer to Figure G 1 for an overview of the calibration functions On power up a two second initialization period occurs during which the transmitter output becomes either 100 high or 0 low During continual diagnostics if the micro computer detects a fatal problem the transmitter output will go to 0 low 100 high or the last value before the error In analog mode a pulse can be sent on the 4 to...

Page 110: ...through the calibration of the process conductivity CALIBRATE PROCESS TEMPERATURE This section steps through calibrating the process temperature Figure G 2 Calibration Flowchart TBN480 ADJUST TO DESIRED CONDUCTIVITY CALIBRATION COMPLETE PROCESS EDIT RESET CONDUCTIVITY CONDUCTIVITY RESET TO FACTORY CONFIGURATION TEMPERATURE TEMPERATURE PROCESS TEMPERATURE CORRECT ENTER SLOPE AND OFFSET CHANGE TEMPE...

Page 111: ...able press The value displayed is captured for the next process calibration screen Use the numeric keys to correct the captured value to the desired value Calibration complete CALI BRATE OUTPUT WILL BE AFFECTED PROCEED NO YES ENTER CALIBRATION PROCESS CAL EDIT CAL RESET CAL ENTER PROCESS CAL CONDUCTIVITY TEMPERATURE ENTER PROCESS TEMP nn nn CAL TEMP 1st IF INCOR RECT ENTER PROCESS CAL nn nn mS cm ...

Page 112: ...ERATURE Use the numeric keys to enter the process temperature Calibration complete CALI BRATE OUTPUT WILL BE AFFECTED PROCEED NO YES ENTER CALIBRATION PROCESS CAL EDIT CAL RESET CAL ENTER PROCESS CAL CONDUCTIVITY TEMPERATURE ENTER CHANGE TEMP FOR CAL IBRATION nn nn C ENTER WORKING CALIBRATION COMPLETE ENTER CONFIG ID TAG READY ...

Page 113: ...tivity Key Display Comments Select YES Select EDIT CAL Select CONDUCTIVITY To view values press twice To change the slope enter the correct number and press To change the offset enter the correct number and press CALI BRATE OUTPUT WILL BE AFFECTED PROCEED NO YES ENTER CALIBRATION PROCESS CAL EDIT CAL RESET CAL ENTER EDIT CAL DATA CONDUCTIVITY TEMPERATURE ENTER CONDUCTIVITY PROCESS CAL SLP n nnnn O...

Page 114: ...ey Display Comments Select YES Select EDIT CAL Select TEMPERATURE To view values press twice To change the slope enter the correct number and press To change the offset enter the correct number and press CALI BRATE OUTPUT WILL BE AFFECTED PROCEED NO YES ENTER CALIBRATION PROCESS CAL EDIT CAL RESET CAL ENTER EDIT CAL DATA CONDUCTIVITY TEMPERATURE ENTER TEMPERATURE PROCESS CAL SLP n nnnn OFF n nnnn ...

Page 115: ...to the factory settings Refer to the product instruction for information on the factory settings Calibration complete Key Display Comments ENTER WORKING CALIBRATION COMPLETE ENTER CONFIG ID TAG READY Key Display Comments Select YES Select RESET CAL CALI BRATE OUTPUT WILL BE AFFECTED PROCEED NO YES ENTER CALIBRATION PROCESS CAL EDIT CAL RESET CAL ...

Page 116: ...TBN480 CONDUCTIVITY TRANSMITTER CALIBRATION WBPEEUI110501A0 G 11 Calibration complete Key Display Comments ENTER WORKING CALIBRATION COMPLETE CONFIG ID TAG READY ...

Page 117: ...ge calibration or configuration parameters of a smart field device that is connected to an IMFBS01 module the device must be taken off line This is done at the INFI 90 OPEN console Interfacing a TBN580 transmitter requires a Type STC1 Smart Terminal Cartridge The cartridge inserts into the bottom of the STT03E terminal For an installation procedure of the STC cartridge refer to Smart Terminal Car ...

Page 118: ... SPECIFY FUNCTION GENERA TOR SELECT INITIALIZE MODE SELECT pH SENSOR INPUT ENTER DAMPING CONSTANT SAVE CONFIGURA TION TP30221A ENTER LOWER RANGEVALUE ENTER SECONDAR Y LOWER UPPER RANGEVALUES ENTER SECONDARY UNITS ENTER SOLUTION COEFFICIENT C O N F I G U R E SELECT TEMPERA TURE COMPENSA TION INPUT ENTER UPPER RANGEVALUE SEND CONFIG Key Display Comments To create a new configuration select NEW To mo...

Page 119: ...erature unit For this example select AUTO SOLUTION NOTE Other temperature compensation selections branch to a TEMPERATURE DISPLAY UNITS selection screen This screen is unique to the AUTO SOLUTION selection of the TEMP COMP TYPE Other selections go to the temperature display units If YES is selected enter 5 input and output points Values must be between 0 and 100 Key Display Comments ENTER TRANSMIT...

Page 120: ...6 characters Use familiar units to describe the output Input the lower range value and press Input the upper range value To store the configuration select YES The Configuration ID tag name just configured will be in the upper left corner if the configuration is saved It becomes the working configuration NOTE Connect the terminal to a device and send the configuration using to the device before cal...

Page 121: ...itter must be taken off line This is done at the INFI 90 OPEN console After selecting a device the READY screen appears All calibration func tions can be performed on the selected device Refer to Figure H 2 for an overview of the calibration functions SELECT DEVICE Figure H 2 Calibration Flowchart TBN580 ENTER pH OF PROCESS APPL Y LOW HIGH pHVALUES ENTER LOW HIGH pHVALUES CALIBRA TION COMPLETE PRO...

Page 122: ...nfiguration this screen will appear otherwise the next screen CHANGE TEMP OF PROCESS will appear Default is 25 C The value displayed is the temperature of the process interior of sensor NOTE If the new temperature value is entered this change will affect the calibration of temperature Value from last calibration If NEW SENSOR efficiency will be 98 This value can be changed if desired A change in e...

Page 123: ...hange over time for a particu lar sensor Value resets to 0 00 pH if installing a new sen sor Calibration complete Key Display Comments ENTER CURRENT READING nn nn pH ENTER DESIRED nn nn pH ENTER CALCULATED EFFICIENCY nnn nn HIT ENTER ENTER CALCULATED SENSOR OFFSET nnn nn pH HIT ENTER ENTER CUMULATIVE OFFSET CHANGE n nn pH HIT ENTER ENTER CONFIG ID TAG READY Key Display Comments CALI BRATE OUTPUT W...

Page 124: ...rt terminal from the input source will not match the specified value Hit when the applied value stabilizes When mV operation is complete hit the READY screen will follow The value displayed is the temperature of the process interior of sensor Default is 25 C NOTE If a new temperature value is entered it is used only for pH calibration This change does not affect the calibration on the temperature ...

Page 125: ...calibration If NEW SENSOR effi ciency will be 98 This value is recalculated during each calibration This value shows the offset change over time for a particu lar sensor Value resets to 0 00 pH if installing a new sen sor Key Display Comments ENTER APPLY nn nn pH nn nn pH HIT ENTER WHEN STABLE ENTER APPLY nn nn pH nn nn pH HIT ENTER WHEN STABLE ENTER CALCULATED EFFICIENCY nnn n HIT ENTER ENTER CAL...

Page 126: ...configuration this screen will not appear other wise the next screen CHANGE TEMP OF PROCESS appears Default is 25 C The value displayed is the temperature of the process interior of sensor NOTE If a new temperature value is entered this change will affect the calibration of temperature Calibration complete Key Display Comments ENTER CALIBRATION PROCESS CAL BENCH CAL pH BENCH CAL TEMP ENTER ENTER F...

Page 127: ...el of change is reached By chang ing direction you will return to the smallest increment of change This adjustment technique speeds up the adjust ment process without affecting fine adjustment Use the arrow keys to adjust the 20 mA signal Key Display Comments ENTER CALIBRATION PROCESS CAL BENCH CAL pH BENCH CAL TEMP D TO A ADJUST ENTER ADJUST TO 4 mA THEN HIT ENTER ENTER ADJUST TO 20 mA THEN HIT E...

Page 128: ...OPERATIONAL FUNCTIONS in Section 4 To change calibration or configuration parameters of a smart field device that is connected to an IMFBS01 module the device must be taken off line This is done at the INFI 90 OPEN console Interfacing TBN581 transmitter requires a Type STC1 Smart Terminal Car tridge The cartridge inserts into the bottom of the STT03E terminal For an installation procedure of the S...

Page 129: ...FUNCTION GENERA TOR TP30222A ENTER UPPER RANGEVALUE ENTER CHANNEL NUMBER DIGIT AL ANALOG SELECT INITIALIZEMODE SELECTFAIL MODE ENTER SECONDARY UNITS ENTER SECONDARY LOWER UPPER RANGEVALUES SAVE CONFIGURA TION C O N F I G U R E SELECT OUTPUT ACTION SEND CONFIG Key Display Comments To create a new configuration select NEW To modify an existing configuration select MODIFY The screen sequence is the s...

Page 130: ...000 mV Refer to the Smart ORP pION Transmitter Series TBN581 instruction for description Refer to the Smart ORP pION Transmitter Series TBN581 instruction for description Enter up to 6 characters Use familiar units to describe the output Input the lower range value and press Input the upper range value Key Display Comments ENTER TRANSMITTER TYPE cond TBN pH TBN ORP pION ENTER OUTPUT FUNC GEN NO YE...

Page 131: ...electing a device the READY screen appears All calibration func tions can be performed on the selected device Refer to Figure I 2 for an overview of the calibration functions Process Calibration This procedure applies to TBN581 Transmitters configured for either ANA LOG or DIGITAL Any difference between the two are noted in the Com ments column Bench Calibration ORP pION This procedure applies to ...

Page 132: ...d if desired A change in efficiency will affect calibration span CUMULA TIVE OFFSET CHANGE PROCESS BENCH NEWSENSOR INPUT SOURCE ENTER NEW DESIRED READING SAMEOR NEW SENSOR mV SOURCE CALCULA TED EFFICIENCY ENTER LOW HIGH mVV ALUES ENTER LOW HIGH mVV ALUES TP30219A CALIBRA TION COMPLETE C A L I B R A T E CALCULA TED SENSOR OFFSET APPL Y LOW HIGH mVVALUES APPL Y LOW HIGH mVVALUES CALI BRATE OUTPUT WI...

Page 133: ...ENSOR OFFSET CAL CULATED EFFICIENCY are calculated and CUMULA TIVE OFFSET CHANGE is set to 0 00 mV NOTE mV SOURCE selection is covered in Bench Cali bration mV Low default value 1000 mV High default value 1000 mV Enter low mV value and press Enter high mV value Key Display Comments ENTER CALCULATED SENSOR OFFSET nnn nn pH HIT ENTER ENTER CUMULATIVE OFFSET CHANGE n nn pH HIT ENTER ENTER CONFIG ID R...

Page 134: ...t source Value from last calibration If new sensor efficiency will be 98 This value is recalculated during each calibration This value shows the offset change over time for a particu lar sensor Value resets to 0 00 mV if installing a new sen sor Calibration complete Key Display Comments ENTER APPLY nn nn mV nn nn HIT ENTER WHEN STABLE ENTER APPLY nn nn mV nn nn HIT ENTER WHEN STABLE ENTER CALCULAT...

Page 135: ...Enter high mV value Displays low mV calibration value and the uncali brated mV values determined from the input source Displays high mV calibration value and the uncali brated mV values determined from the input source Calibration complete Key Display Comments ENTER CALIBRATION PROCESS CAL BENCH CAL D TO A ADJUST ENTER INPUT SOURCE SAME SENSOR NEW SENSOR mV SOURCE ENTER ENTER LO mV CAL nn nn mV EN...

Page 136: ...maximum level of change is reached By chang ing direction you will return to the smallest increment of change This adjustment technique speeds up the adjust ment process without affecting fine adjustment Use the arrow keys to adjust the 20 mA signal Key Display Comments PROCEED NO YES ENTER CALIBRATION D TO A ADJUST BENCH CALIB ENTER ADJUST TO 4 mA THEN HIT ENTER ENTER ADJUST TO 20 mA THEN HIT ENT...

Page 137: ...nt 6 _____ Point 6 _____ Point 7 _____ Point 7 _____ Point 8 _____ Point 8 _____ Point 9 _____ Point 9 _____ Point 10 _____ Point 10 LOW RANGE VALUE _____ Specified LRV _____ LRV HIGH RANGE VALUE _____ Specified HRV _____ HRV VALVE STUCK ALARM Yes No PRESSURE UNITS psi bars PID PARAMETERS _____ Kp _____ Ki _____ Kd INPUT SIGNAL Normal act Reverse act DAMPING ______ sec 0 001 to 5 00 sec ALARMS ___...

Page 138: ... 4 _____ Point 5 _____ Point 0 _____ Point 1 _____ Point 2 _____ Point 3 _____ Point 4 _____ Point 5 OUTPUT ACTION Normal1 Reverse DAMPING ______ sec 0 001 to 32 00 sec ENGINEERING UNITS iH2O1 mmHG cmH2O psi MPA KPA BARS mBARS kgcm2 LOW RANGE VALUE _____ Specified LRV UPPER RANGE VALUE _____ Specified URV INITIALIZE MODE2 Low High FAIL MODE2 Low High Last SECONDARY UNITS ______ Secondary LRV _____...

Page 139: ...Output Yes No _____ Point 1 _____ Point 2 _____ Point 3 _____ Point 4 _____ Point 5 _____ Point 1 _____ Point 2 _____ Point 3 _____ Point 4 _____ Point 5 OUTPUT ACTION Normal1 Reverse DAMPING ______ sec 0 001 to 32 00 sec ENGINEERING UNITS2 Celsius Fahrenheit Kelvin LOW RANGE VALUE ______ Specified LRV ______ LRV UPPER RANGE VALUE ______ Specified URV ______ URV INITIALIZE MODE3 Low High FAIL MODE...

Page 140: ...ut Yes No _____ Point 1 _____ Point 2 _____ Point 3 _____ Point 4 _____ Point 5 _____ Point 1 _____ Point 2 _____ Point 3 _____ Point 4 _____ Point 5 OUTPUT ACTION Normal Reverse DAMPING ______ sec 0 00 to 32 00 sec LOW RANGE VALUE ______ Specified LRV ______ LRV UPPER RANGE VALUE ______ Specified URV ______ URV INITIALIZE MODE2 Low High FAIL MODE2 Low High Last SECONDARY UNITS ______ Secondary LR...

Page 141: ...our DENSITY FACTOR __________ RANGE VALUE 1 _____ Units RANGE VALUE 2 _____ Units FAIL MODE2 Low High SELECT TOTALIZER EU 1 m3 User Defined PULSE FACTOR __________ PULSE WIDTH __________ LOW FLOW CUTOFF ______ DIGITAL FILTER ON OFF RESPONSE TIME Normal Fast RANGE CONFIGURATION 2 FWD 1 FWD 1 REV FLOW DIRECTION FWD and REV FWD only UPPER PV ALARM _____ Units LOWER PV ALARM _____ Units NOTES 1 Defaul...

Page 142: ...nt 1 _____ Point 2 _____ Point 3 _____ Point 4 _____ Point 5 OUTPUT ACTION Normal1 Reverse DAMPING ______ sec 0 001 to 32 00 sec ENGINEERING UNITS iH2O1 mmHG cmH2O psi MPA KPA BARS mBARS kgcm2 LOW RANGE VALUE _____ Specified LRV UPPER RANGE VALUE _____ Specified URV INITIALIZE MODE2 Low High FAIL MODE2 Low High Last SECONDARY UNITS ______ Secondary LRV ______ Secondary URV TEMPERATURE ALARM ______...

Page 143: ... 99 9 µS cm 0 9 99 µS cm TEMPERATURE COMP Input Manual 3 01K Balco TEMP COMP TYPE STANDARD 0 15 NaOH 0 20 NaOH DAMPING ______ sec 0 001 to 32 00 sec LOW RANGE VALUE ______ Specified LRV ______ LRV UPPER RANGE VALUE ______ Specified URV ______ URV INITIALIZE MODE2 Low High FAIL MODE2 Low High Last DIAG SPIKE OUTPUT NO YES NOTES 1 Default parameters 2 Select to maintain safe operation during start u...

Page 144: ... Output Yes No _____ Point 1 _____ Point 2 _____ Point 3 _____ Point 4 _____ Point 5 _____ Point 1 _____ Point 2 _____ Point 3 _____ Point 4 _____ Point 5 OUTPUT ACTION Normal1 Reverse DAMPING ______ sec 0 001 to 32 00 sec LOW RANGE VALUE ______ Specified LRV ______ LRV UPPER RANGE VALUE ______ Specified URV ______ URV INITIALIZE MODE2 Low High FAIL MODE2 Low High Last SECONDARY UNITS ______ Secon...

Page 145: ...nt 1 _____ Point 2 _____ Point 3 _____ Point 4 _____ Point 5 OUTPUT ACTION Normal1 Reverse DAMPING ______ sec 0 001 to 32 00 sec LOW RANGE VALUE ______ Specified LRV ______ LRV UPPER RANGE VALUE ______ Specified URV ______ URV INITIALIZE MODE2 Low High FAIL MODE2 Low High Last SECONDARY UNITS ______ Secondary LRV ______ Secondary URV NOTES 1 Default parameters 2 Select to maintain safe operation d...

Page 146: ...re H 10 D A H 11 Process H 6 TBN581 I 4 A D I 9 Bench mV I 8 Bench ORP pION I 6 Process I 5 Calibration flowcharts AVS A 6 BCN B 6 EQN C 5 EQS D 6 MagFlow E 6 PTS F 6 TBN480 G 6 TBN580 H 6 TBN581 I 5 Cancel fix output 4 11 Cartridge Installation 3 2 Specifications 1 6 Changing working configuration procedure 4 10 Charging STT03E 3 1 Cleaning STT03E 6 1 Communication FSK 2 1 Point to point 2 1 Conf...

Page 147: ...on AVS A 6 BCN B 6 EQN C 5 EQS D 6 MagFlow E 6 PTS F 6 TBN480 G 6 TBN580 H 6 TBN581 I 5 Configuration AVS A 2 BCN B 2 EQN C 2 EQS D 2 MagFlow E 2 PTS F 2 TBN480 G 2 TBN580 H 2 TBN581 I 2 Frequency shift keying 2 1 FSK communication 2 1 Function groupings 4 2 Functional operation 2 1 G Get configuration procedure 4 6 Glossary 1 4 H How to use instruction book 1 2 I Initial start up 4 4 Installation...

Page 148: ...nfiguration PTS 4 12 Special handling 7 1 Standard configuration PTS 4 12 Status check 4 16 STC installation 3 2 STT03E Charging 3 1 Cleaning 6 1 Description 1 1 Disassembly 7 2 Reassembly 7 5 Support services 8 1 T TBN480 Calibration procedures G 5 Configuration process G 1 Reset to factory configuration G 11 TBN580 Calibration procedures H 5 Configuration procedure H 1 TBN581 Calibration procedu...

Page 149: ...hone 39 10 6584 943 Telefax 39 10 6584 941 Germany Borsigstrasse 2 63755 Alzenau Germany Telephone 49 6023 943 0 Telefax 49 6023 943 Asia Pacific 539 Yishun Industrial Park A Singapore 768740 Telephone 65 756 7655 Telefax 65 753 6549 Americas 125 East County Line Road Warminster PA USA 18974 Telephone 1 215 674 Form WBPEEUI110501A0 Litho in U S A 596 Copyright 1996 by Elsag Bailey Process Automati...

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