34-ST-11-14F - Honeywell Process Solutions
Contents
1. SMV Status SFC Display Message Possible Cause What to Do 5 4 STATUS TAG NO Transmitter is simulating input Exit Input mode INPU ODE PV1 Tete Press sHiFT INPUT and CLR keys 5 5 STATUS NO Transmitter is simulating input Exit Input mode INPU ODE PV2 OPENS Press SHIFT INPUT and CLR keys 5 6 STATUS NO Transmitter is simulating input Exit Input mode INPU ODE PV3 Press sHiFT INPUT and CLR keys 5 7 STATUS TAG NO Transmitter is simulating input Exit Input mode INPU ODE PV4 Tore Press sHiFT INPUT and CLR keys 2 0 STATUS TAG NO Sensor temperature is too high Take steps to insulate meter body B OVERTEMP 2125 Accuracy and life from temperature source span may decrease if it remains high 2 7 STATU TAG NO Failed DAC Replace electronics module NO DAC TEMPCOMP 6 4 ATUS TAG NO Analog transmitter is operating Exit Output Mode OUTPU ODE PV1 as a current source for PV1 Press ourpur and keys output 6 5 ATUS TAG NO Analog transmitter is operating Exit Output Mode OUTPU ODE PV2 as a current source for PV2 Press OUTPUT and keys output 6 6 ATUS TAG NO Analog transmitter is operating Exit Output Mode OUTPU ODE PV3 as a current source for PV3 Press2. 24 Changing Communications Mode sse 28 Configuring the Elements of the DE Communications Mode Single PV Transmitter sese 30 Configuring the Elements of the DE Communications Mode Multiple PV Transmitter seen 31 Adjusting the Damping Time Value eee 33 Displaying Setting and Calibrating the Lower Range Value 34 Displaying Setting and Calibrating the Upper Range Value 35 Displaying and Changing the 36 Displaying and Changing the Upper 37 Correcis ReSel c uu de due eet dede Ra ne dra Yann nire dvd 38 Displaying Setting and Clearing the Current Output 39 Displaying and calibrating the Current Input 40 Displaying the SFI Diagnostic 41 Software Version MT 41 Writing Data in Scratch Pad 42 STS103 Junction Box and IS 48 STS103 ST 3000 Connections sess 49 Adjusting the ST 3000 Damping Time 53 C
3. 13 2 2 Functioris i aste detener niii 14 2 3 Display Funectlolis 3o tree e n tee tenido e tens 15 2 4 Prompt Character Definitions sss 16 2 5 Function Keys Data enn 17 2 6 Configuration Key Data Entry enne 19 2 7 Other Key einen 21 SECTION 3 STS103 tnnn nn nna n sna sn nnn ennnen 23 3 1 GC M ERE 23 3 2 Power Up pm EM 24 3 3 Diagnostics and SFC Messages sse 25 3 4 Common Key Sequences and 28 3 5 Using the Transmitter as a Current 43 3 6 Disconnecting the SF liiis iaaii denis iiia iei ieas 45 SECTION 4 ST 3000 PRESSURE 47 4 1 s eC oe itp Ree eti ev o Pants aep tees 47 4 2 48 4 3 Im 50 4 4 GonfigUf oder Eve dag 62 4 5 Output Calibration 64 4 6 supp TER 67 4 7 Diagnostics and SFC Messages sse 71 4 8 iTro ble
4. tables message categories Table 7 29 lists Critical status diagnostic messages Table 7 30 Non critical status messages Table 7 31 Communications status messages Table 7 32 Informational status messages Table 7 33 SFC Diagnostic messages Table 7 29 Critical Status Diagnostic Message Table SMV Status SFC Display Message Possible Cause What to Do 7 0 STATUS TAG NO A D circuit for PV3 input has failed Cycle transmitter power A D FAILURE PV3 OFF ON e Replace electronics module 7 1 STATUS NO Characterization data for PV3 is e Cycle transmitter power CHAR FAULT 089 OFF ON e Replace electronics module 1 1 STATUS TAG NO Characterization data is bad Replace PROM with an identical PROM Verify PROM serial GHAR E ROM number Press CONF and A NEXT keys 1 3 STATUS TAG NO DAC temperature compensation is Replace electronics module DAC COMP FAULT out of range 1 4 STATUS TAG NO PV1 nonvolatile memory fault Replace electronics module NVM FAULT 1 5 STATUS TAG NO RAM has failed Replace electronics module RAM FAULT 1 6 STATUS TAG NO PROM has failed Replace PROM PROM FAULT 1 7 STATUS TAG NO PAC circuit has failed Replace electronics module PAC FAULT Continued on next page 4 99 STS103 Operating Guide 245 7 6 Diagnostic message Diagnostics and SFC Messages continued Table 7 29 tables continued Critical Status Diagnostic Message
5. PV4 URL and LRL The Lower Range Limit LRL and Upper Range Limit URL identify the minimum and maximum flow rates for the given 4 calculation The LRL is fixed at zero to represent a no flow condition The URL like the URV depends on the calculated rate of flow that includes a scaling factor as well as pressure and or temperature compensation It is expressed as the maximum flow rate in the selected volumetric or mass flow engineering units This means you can use the derived volume or mass flow equation to determine the URL by plugging in values for the scaling factor static pressure process temperature and differential pressure for your unique process at design and flow conditions Setting URL and You can set the URL LRV and URV for calculated flow rate PV4 output range values for PV4 keying in the desired values through the SFC keyboard ATTENTION If you use CUSTOM units for PV4 calculation be sure to use appropriate engineering units conversions in flow equations Continued on next page 4 99 STS103 Operating Guide 227 7 3 Configuration continued Setting URL for PV4 Table 7 23 gives the steps for setting URL for the PV4 calculation Table 7 23 Setting URL for PV4 Step Press Key Read Display or Action Description 1 IsIMIvE T T T Jeltl bloh Initiate shift key selection LET
6. 158 MagneW 3000 Digital to Analog Current Output Signal Calibration 159 MagneW 3000 Operating Data 168 Diagnostic Messages for SFC and MagneW 3000 172 4 99 STS103 Operating Guide Table 7 1 Table 7 2 Table 7 3 Table 7 4 Table 7 5 Table 7 6 Table 7 7 Table 7 8 Table 7 9 Table 7 10 Table 7 11 Table 7 12 Table 7 13 Table 7 14 Table 7 15 Table 7 16 Table 7 17 Table 7 18 Table 7 19 Table 7 20 Table 7 21 Table 7 22 Table 7 23 Table 7 24 Table 7 25 Table 7 26 Table 7 27 Table 7 28 Table 7 29 Table 7 30 Table 7 31 Table 7 32 Table 7 33 Table 7 34 Keying in Tag Number ssssseeeeeeenene eene nnne 182 Selecting Output Conformity sse 184 Adjusting Damping Time 185 Selecting Engineering Units for PV1 and 2 188 Selecting Engineering Units for PV3 189 Selecting Engineering Units for PV4 191 Selecting Engineering Units for Design Density for PVA 192 Identifying Probe 193 Selecting Source of CJ 195 Selecting Inpu
7. pressures full scale pressure for a running process Table 7 20 Setting LRV and for PV2 to Applied Pressures Step Press Key Read Display or Action Description 1 Apply known static pressure for transmitter that represents LRV for 096 4 mAdc output 2 E FIRIVETeTE T T TSTe 1 TT Present LRV setting for PV2 y 2 eie e o P s Pressure for 4 mAdc 0 output 3 If display in Then Step 2 is for PV2 go to Step 5 not for PV2 go to Step 4 4 DE CONF TNTUTM Calls up current PV number display MENU Icju R R EINIT Repeatedly press MENU ITEM key ITEM to step through PV number CO selections 1 2 3 and 4 Stop T PIMEN when PV2 is on display T Pele TEL T ET ATTENTION You can also use left lt and right 5 arrow keys to step forward and backward through PV number selections p VOL 12 1 1 Returns to previous display which is ENTER 12 Pisi updated to reflect PV2 as current PV number selection 5 G J2 T F Prompt asks if you want to set LRV SET 1 to applied pressure If you don t want to set LRV press CLR key to exit function Otherwise go to Step 6 6 NON VOL T2 T T Message exchange is working ENTER 5 Fj C fff es 2 FIT 3101111 Applied LRV setting stored in till
8. Table 7 24 Keying in LRV and for PV4 Step Press Key Read Display or Action Description 1 E FI REVETAT T T TSIe ET Present LRV setting for PV4 Flow ite 2 e o o O m 3 h _ rate for 4 mAdc 0 output 2 If display in Then Step 1 is for PV4 go to Step 4 not for PV4 go to Step 3 Continued on next page 4 99 STS103 Operating Guide 229 7 3 Configuration Continued Keying in LRV and URV for PV4 continued Table 7 24 Keying in LRV and URV for PV4 Continued Step Press Key Read Display or Action Description 3 P V MENU ITEM DE CONF T MENU elui RIRIEJNJT eive ITEM DE CONF TEN FEETNSINETTEREBBBED ay NEL TRR FEIVETNSINETTEREBBBED NEL BIETET NON VOL Hor Ce ELT Be ives eieje e Calls up current PV number display Repeatedly press MENU ITEM key to step through PV number selections 1 2 3 and 4 Stop when 4 is on display ATTENTION You can also use left and right arrow keys to step forward and backward through PV number selections Returns to previous display which is updated to reflect PV4 as current PV number selection 4 V T T Ep T islet T Key in 170 as desired LRV setting 1 LI for
9. 141 MagneW 3000 Failsafe Condition Configuration 143 MagneW 3000 Digital Input Output Configuration 145 MagneW 3000 Totalizer Menu 147 MagneW 3000 Pulse Output 148 MagneW 3000 Pulse Config sss 150 MagneW 3000 Set Trip Value sse 151 Save Restore Data sess enne enne enne 152 MagneW 3000 Calibration Set up 155 MagneW 3000 Calibration Menu 161 MagneW 3000 Excitation Current Check 162 MagneW 3000 Excitation Current Calibration 164 MagneW 3000 Gain Calibration 165 MagneW 3000 DI DO Check sssseseeeeeennenen 166 MagneW 3000 Troubleshooting 175 STS103 Junction Box and IS 178 STS103 SMV 3000 Connections seen 179 viii STS103 Operating Guide 4 99 Tables Table 1 1 Table 1 2 Table 1 3 Table 1 4 Table 2 1 Table 2 2 Table 2 3 Table 2 4 Table 2
10. Call up configuration function Note CONF Sy FTC w oR Ki NIS T that first display may or may not appear depending upon previous keystroke action which may require 2 AP Until display reads Calls up next configuration menu NEXT item via jCJOINIF 3 NON VOL LITT TT TS Access PV4 equation configuration ENTER SFe WOR K NISI selections es Bad o M Ez d d RE M SERES Viel 4 DE 4 TeTO NTFT TG TALIS T Calls up next PV4 equation HdltI T8pa s M a s s F i e _ selection Repeatedly press MENU ITEM ITEM key to step through equation for Sesion 2 as jSjujejHiS tim MiF Ijo B d volumetric flow Idl Gas Vol Flo gas mass flow Idl Gas Mass Flo compensated superheated steam mass flow SupHStm MFlo as well as Algorithm 4 to Algorithm 8 which are not valid selections at this time they are for future use only Stop when desired equation selection is on display Continued on next page 4 99 STS103 Operating Guide 205 7 3 Configuration Continued Setting selections for PV4 equation definition continued Table 7 13 Setting Selections for PV4 Equation Definition continued Step Press Key Read Display or Action Description 5 NON VOL PPT YT 4
11. transmitter s working memory 7 Apply known static pressure for transmitter that represents URV for 100 20 mAdc output 8 F 12 T T TFT 1 Present URV setting for PV2 mil P s Pressure for 20 mAdc 100 output Continued on next page 222 STS103 Operating Guide 4 99 7 3 Configuration continued Setting range values for PV2 to applied pressures continued Table 7 20 Setting LRV and for PV2 to Applied Pressures continued Step Press Key Read Display or Action Description 9 G uR v 2 T T F TSTe T3 Prompt asks if you want to set URV SET jsfet to applied pressure If you don t want to set URV press CLR key to exit function Otherwise go to Step 10 10 NON VOL T2T T T TH Message exchange is working ENTER PS FC WjOIJRIKL Nie es 2 FIT 30111 Applied URV setting stored in Ekde pere ppp qup p transmitter s working memory 11 27 T T FOI T3le T Initiates shift key selection SHIFT E NON VOL ENTER Yes d ty HH b el plahi PS Fic wlo rik 2111 vio LL Ier Saves data in transmitter s non volatile memory This takes approximately 8 seconds Setting range values for PV3 ATTENTION You c
12. Continued on next page 4 99 STS103 Operating Guide 187 7 3 Selecting Units of Configuration Continued Measurement continued Table 7 4 Selecting Engineering Units for PV1 and PV2 IF you want URV LRV etc for PV1 THEN call up desired parameter or PV2 displayed in display and sequentially press D key until display shows PV number for current units selection 1 PV1 2 PV2 YIN Ts 1 rj 9 F inches of water at 39 2 F 4 C H2O 39F inches of water at 68 F 20 C H2O 68F millimeters of mercury at 0 32 F mmHg 0C pounds per square inch PSI kilopascals Kpa megapascals Mpa millibar mBAR bar BAR grams per square centimeter g cm 2 kilograms per square centimeter Kg cm 2 inches of mercury at 32 F 0 inHg 32F millimeters of water at 4 39 2 F mmH20 4C meters of water at 4 39 2 F mH2O 4C normal atmospheres ATM inches of water at 60 F 15 6 C 20 _60F Continued on next page 188 STS103 Operating Guide 4 99 7 3 Configuration continued Selecting Units of Measurement continued You can choose to have the PV3 measurements displayed in one of the preprogrammed engineering unitsshown in Table 7 5 in the SFC depending upon output characterization configuration You can also choose to have cold junction temperature readings displayed in one of t
13. ay Calls up URL display a Imi E IET T T 2 If display in Then Step 1 is for PV4 go to Step 4 not for PV4 go to Step 3 3 DE CONF Plv TNIUIMI T Calls up current PV number display MENU PIV Repeatedly press MENU ITEM key to step through PV number DE CONF selections 1 2 3 and 4 Stop l sloji when PV4 is on display YEN CURES ATTENTION You can also use left lt and right arrow keys to step forward and backward through PV number selections roe Returns to previous display which is ENTER 1 9 updated to reflect PV4 as current PV Yes number selection 4 N T4 T T T TSTeTSTAT Key in 750 as desired URL setting 2 17 msivin for PV4 It is not necessary to key in a decimal point and zeros for a E 4 Fit 30111 whole number tet sy thy TTT es puri 4 FIT lonji 7 5 5 NON VOL T4T T T 312171 Message exchange is working ENTER 5 K es 4 T ble 3 New URL setting for PV4 stored in 1215 01 1010 transmitter s working memory Continued on next page 228 STS103 Operating Guide 4 99 7 3 Configuration Continued Setting URL for PV4 continued Table 7 23 Setting URL for continued Step Press Key Rea
14. Step 7 If you do not want to download change press CLR key to return to Step 2 prompt 7 NON VOL IPIVIST CONFI Ie T T T T T Message exchange is working This ENTER w oR action only applies when a Yes configuration parameter is changed Otherwise the message NO CHANGES MADE appears LL sse Creuse Parameter change is loaded into pepe s en op HE E FE T transmitter s working memory Press S NEXT key to access another configuration function or CLR key to exit function Continued on next page 200 STS103 Operating Guide 4 99 7 3 Configuration continued Defining equation for PV4 calculation About flow calculation ATTENTION Dynamic compensation flow equations ATTENTION Using the SFC you can define simple equations for measuring the flow rate of a gas or superheated steam However if you are using the SMV 3000 for flow measurement with dynamic compensation you must use the SCT 3000 software Release 150 or greater instead of an SFC to configure the transmitter The SMV 3000 includes configurable simple equations for measuring the flow rate of a gas or superheated steam as it flows through an orifice plate in a pipe line It bases the gas flow rate calculation on Bernoulli s theorem and the ideal gas law The superheated steam equation uses the measurements of steam pressure and temperature to determine the actual specific volume of the flowing steam Note that the superh
15. Continued on next page 218 STS103 Operating Guide 4 99 7 3 Configuration continued Setting range values for PV1 to applied pressures continued Table 7 18 Setting LRV and for PV1 to Applied Pressures continued Step Press Key Read Display or Action Description 4 DE CONF TPT Vv TNTUIM T Teloia Calls up current PV number display MENU Icju R R EINIT PIV Repeatedly press MENU ITEM key ITEM to step through PV number selections 1 2 3 and 4 Stop when PV1 is on display ATTENTION You can also use left and right gt arrow keys to step forward and backward through NON VOL PV number selections pub Heathers Returns to previous display which is updated to reflect PV1 as current PV number selection 5 G FERE VE HT T T TFEIT T3par 7 Prompt asks if you want to set LRV SET I isle to applied pressure If you don t want to set LRV press CLR key to exit function Otherwise go to Step 6 6 NON VOL FLTREVE PE T T FIT TSESESEAT Message exchange is working ENTER WOIRIKIIINIS es LIFT 1314411 Applied LRV setting stored in tzl lels 7 7 H d 3 9 F transmitters working memory 7 Apply known input pressure to transmitter that represents URV for 100 20 mAdc output 8 F TTE T T F soso 7 Present URV setting Pressure for nm e
16. Following are examples for connecting to all these places Use the one you need The STS103 connects to MagneW flowmeters IS Panels and junction boxes through a pair of wires with alligator clips on the ends The STS103 communications terminal end of the wires has a stereo phone jack connection that is inserted into the communications terminal The other end of the wires are clipped onto terminals in the junction box or IS barrier panel or directly to the flowmeter The red SFC lead connects to the junction box or SFI positive terminal the black lead to the negative terminal Figure 6 1 shows the STS103 connected to a junction box or an IS barrier panel Figure 6 1 STS103 Junction Box and IS Connection Transmitter Junction Box IS Panel ISISISISISJS ISISISISIS S e 20723 Continued on next page 116 STS103 Operating Guide 4 99 6 2 Wiring Continued STS103 MagneW connections Im STS103 charging terminal Figure 6 2 shows the STS103 connected directly to the positive and negative terminals on the MagneW The STS103 can connect to only one MagneW at a time Figure 6 2 STS103 MagneW Connections MagneW 3000 Smart Magnetic Flowmeter STATUS STATUS OUT IN 20743 When the junction box cover on the transmitter is removed the housing is NOT explosion proof The NiCd battery pack is charged through a battery charger that
17. Selecting Input Filter Frequency for PV3 continued Table 7 10 Selecting Input Filter Frequency Continued Step Press Key Read Display or Action Description 4 AP CJO NJF G _ Calls up next configuration NEXT JEL parameter 5 AP CJO NJF G _ Calls up next configuration NEXT el blelelo elc 1117 parameter ECJT only appears when CJ EXTERNAL 6 AP Calls up next configuration NEXT jtjTJEJR jejojHiz parameter 7 DE F TL T T T T T Calls up next frequency selection MENU ri sayz Repeatedly press MENU ITEM key ITEM to toggle between two selections Stop when desired selection is on display 8 NON VOL PIMs TETOTNTFDUTSL T T T T T Enters change in SFC and calls up NjrjeR E D jSjFj G next parameter es iP vis THC jFjAjutt T 9 o IPTVIST TOeTOINTFT TEL TT T T T Prompt asks if change entered in No Io oiwiNt o A D c H A SFC is to be downloaded to transmitter If you want to download change go to Step 10 If you do not want to download change press CLR key to exit function This action only applies when parameter in Step 6 is changed Otherwise this keystroke returns you to Step 2 prompt 10 NON VOL IPTIVIST CONFIG T T T T T Message exch
18. 36 STS103 Operating Guide 4 99 3 4 Common Key Sequences and Displays continued Displaying and Figure 3 10 is a general view of the key presses required to read or change changing the upper the Upper Range Limit on most SFIs range limit of the device Figure 3 10 Displaying and Changing the Upper Range Limit SFI Type TAG NO READY SHIFT URL URLx TAG NO XXX UNITS Du to change value URL x TAG NO NEW VALUE UNITS URL x TAG NO NEW VALUE UNITS 20734 Continued on next page 4 99 STS103 Operating Guide 37 3 4 Common Key Sequences and Displays continued Resetting the SFI The sequence below commonly known as Corrects Reset shows how to reset most devices to their factory default setting Corrects Reset is performed when you need to reset and recalibrate the SFI The MagneW 3000 default settings are in the calibration hierarchy called shipping data See the device section for the procedure Figure 3 11 is a general view of the key presses required to reset to factory default settings on most SFIs Figure 3 11 Corrects Reset SFI Type TAG NO READY TAG NO RESET CORRECTS TAG NO SFC WORKING TAG NO CORRECTS RESET 20735 Continued on next page 38 STS103 Operating Guide 4 99 3 4 Common Key Sequences and Displays continued Displaying
19. KEYBOARD TEST ROW COLUMN You can test each key on the keyboard For example If you press INPUT J OUT PUT the display will read KEYBOARD TEST ROW 3 COLUMN 2 to clear Access the scratch pad message SHIFT ER then SCR PAD D SCR PAD XXXX SFC WORKING then SCRATCH PAD 1 XXXXXXXXXXXXXXXX Displays the scratch pad message Press the NEXT key to switch from SCRATCH PAD 1 to SCRATCH PAD 2 170 STS103 Operating Guide 4 99 6 7 Diagnostics and SFC Messages Introduction OK Status Critical status Non critical status Low battery voltage The MagneW 3000 and the STS103 both run continuous self diagnostics This means that they are constantly testing the communications the loop and themselves Any time you want results of these diagnostics press the key The SFC displays its report in the form of messages which identify diagnostic conditions Diagnostic conditions are broken down into three categories e condition e acritical condition e anon critical condition An OK condition means no problem exists and the display looks like this STATUS tag no STATUS CHECK OK A critical condition means that the flowmeter is not functioning properly When this occurs the flowmeter goes into upscale burnout and maintains an output of 21 8 mA or into downscale burnout and maintains an output of less than 3 9 mA This messag
20. NOTE 3 Pressing ENTER forces DO into identified state Seige 166 STS103 Operating Guide 4 99 6 6 Overview Operation The STS103 displays all the operating data for the MagneW 3000 This data includes Flowmeter I D Damping value Upper range value span Configuration elements for Digital Communications DE mode Input value Output Value Span value Upper range limit Engineering units Operation Status Software Version Number Failsafe Direction Zero Point adjustment Display and Keyboard Test Read Scratch Pad messages Refer to Table 6 16 for Operating Data access instructions Continued on next page 4 99 STS103 Operating Guide 167 6 6 Operating data Operation Continued Table 6 18 shows you what key to press and what the associated displays will be when you access each of the operating data Table 6 18 MagneW 3000 Operating Data Operating Data Press Displays Result Displays are examples Flowmeter I D PETRAM SFI Type TAG No Analog Communications Mode A Mag SR Single Range TRIPS SECURED ANALOG 8 Mag DR Dual Range NON VOL MAG XX TAG NO ENTER 12345678 YES or DIGITAL Digital Communications Mode 12345678 Lower Display is the device 1 0 or tag no Damping Value Damping Time is displayed in seconds or DE READ A ID C DAMP 1 tag no X X SECONDS Upper Range U
21. R PAD SCR PAD tag no SFC WORKING then SCRATCH PAD 1 XXXXXXXXXXXXXXXX Displays the scratch pad message Press the NEXT key to switch from SCRATCH PAD 1 to SCRATCH PAD 2 Alarm Latching Status NEXT STT CONFIG CHANGE CONFIG then STT CONFIG LATCHING CONFIG Displays the change configuration message Press the ENTER key to change the Alarm Latching mode Write Protect Write Protect Password NEXT z Q c Q F gt 2 2 o gt z ro Be 2 Ij 2 m NTE 2 m I _ z m gt lt STT CONFIG CHANGE CONFIG then STT CONFIG WRITE PROTECT WRITE PROTECT CHG WRITE PROT WRITE PROTECT CHANGE PASSWORD Displays the change configuration message Press the ENTER key to change the Write Protect switch A password is needed to change the write protect switch to OFF Press the NEXT key to access the display to change the password Press the ENTER key to change the password for the write protect switch 108 STS103 Operating Guide 4 99 5 7 Diagnostics and SFC Messages Introduction OK Status Critical status Non critical status Low battery voltage The STT 3000 and the STS103 both run continuous self diagnostics This means that they are constantly testing the communications the loop and themselves Any time you want results of these diagnostics press the
22. Refer to the individual device User s Manual for transmitter operating and installation information The STS103 operations given here are more or less the same for every SFI See the individual device sections in this manual for operations specific to your particular SFI This section gives you the keystrokes and displays that are specific for SFC communications with the Smart Field Instruments What s in this section This section contains the following topics Topic See Page 3 1 Overview 23 3 2 Power up 24 3 3 Diagnostics and SFC Messages 25 3 4 Common Key Sequences and Displays 28 3 5 Using the Transmitter as a Current Source 43 3 6 Disconnecting the SFC 45 4 99 STS103 Operating Guide 23 3 2 Power Up Power up key and display sequences After connecting the leads directly to the transmitter or through the junction box or IS panel and the STS103 is turned on the key and display sequences depend on whether your SFI is an Analog or Digital mode instrument Figure 3 1 shows the displays and key presses for both modes Figure 3 1 Power Up Sequence Analog Mode PUT LOOP IN MAN Digital Mode DE XMTR PRESS ID TAG NO SFC WORKING DE XMITTER TAG NO XXXXXXXX TAG No TRIPS SECURED TAG NO SFC WORKING SFI Type TAG NO XXXXXXXX 20727 When the key is pressed the ID of the device is read in For Analog devices the datab
23. STS103 Operating Guide 43 3 5 Using the Transmitter as a Current Source continued Procedure Connect an ammeter to read the output of the SFI and connect the STS103 Smart Field Communicator to the SFI Follow the procedure listed in Table 3 4 to use the SFI as a constant current source Table 3 4 Using the SFI as a Constant Current source Step Press Display Example Result or Action 1 cid OUTP1 TAG NO TENE an to this with output SFC WORKING displayed and it will update every 6 seconds then Remember when you re ready to press the next key to wait for the updated display 32 4 96 SW VER i i i 2 w x OUTP1 TAG NO Key in output you want For this example we will SFC WORKING Use 30 then The display will show the output with a decimal point OUTP1 TAGNO and two zeros Also the SFC adds a ff character a 30 00 non critical status indicator on the right side of the display to remind you that in this case you are in the NON VOL output mode It will stay on the display as long as Wes your SFI is being used as a current source 3 Check the output reading and see that it reads 8 8 mA which is equal to a 30 output If your meter shows a different reading or no character appears on the display go back to the beginning of this procedure and start over Try a few different percentages and check your meter with the list below Key in this value Your meter reads
24. SUSPECT INPUT The input process data seems to be wrong This could be a process problem but it could also be a meterbody or pressure transmitter or electronics problem Put the transmitter into the output mode and press the STAT key The message will identify where the problem is In the absence of any other diagnostic messages the condition is most likely meterbody related Check the installation and if the condition persists replace the meter body TYPE MISMATCH On a database restore the transmitter types are not the same None SFC tried to restore as much of the database as possible UNKNOWN Selection is unknown Have the software in your SFC updated 74 STS103 Operating Guide 4 99 4 8 Troubleshooting Introduction If you suspect a problem in the transmitter check the transmitter configuration operation and output Use the procedure shown in Figure 4 9 Refer to Section 4 7 for diagnostic messages and corrective action Troubleshooting procedure Check the parameters listed in Figure 4 9 to confirm proper configuration operation and output Figure 4 9 ST 3000 Troubleshooting Procedure Verify Configuration be sure the transmitter is configured to the proper values For Digital Transmitters Verify Transmitter Operation verify that the transmitter is diagnosing itself and is operating properly Verify Loop be sure that
25. sss 100 Write Protect and Password 101 STT 3000 Troubleshooting 114 STS103 Junction Box and IS 116 STS103 MagneW Connections sss 117 Adjusting the MagneW 3000 Damping Time Value 122 4 99 STS103 Operating Guide vii Figures Figure 6 4 Figure 6 5 Figure 6 6 Figure 6 7 Figure 6 8 Figure 6 9 Figure 6 10 Figure 6 11 Figure 6 12 Figure 6 13 Figure 6 14 Figure 6 15 Figure 6 16 Figure 6 17 Figure 6 18 Figure 6 19 Figure 6 20 Figure 6 21 Figure 6 22 Figure 6 23 Figure 6 24 Figure 6 25 Figure 6 26 Figure 7 1 Figure 7 2 Selecting the MagneW 3000 Units in which to Display Values 124 Changing Communications Mode sese 125 Configuring the MagneW 3000 DE Communications Mode 127 Changing the MagneW 3000 Upper Range Value Span 128 MagneW 3000 Prompt hierarchy seen 130 MagneW 3000 Units Key Configuration 132 MagneW 3000 Range Configuration 137 MagneW 3000 Detector Data 139 MagneW 3000 Alarm Setting Configuration
26. Figure 6 16 MagneW 3000 Pulse Output Configuration to go to Press PREV READ TOTAL NEXT to go to Press PULSE CONFIG From Figure 6 15 TOTALIZE MENU PULSE OUTPUT PULSE OUTPUT 99 096 PLS X NOTE 2 use set an Output Simulation Value PULSE OUTPUT O1 PLS 2 NOTE 1 PULSE RANGE 2 valid if RANGE AUTODUAL or EXT DUAL NOTE 2 ACTIVE PULSE OUTPUT X 1 or 2 read every 4 seconds PULSE OUTPUT PULSE RANGE 2 NOTE 1 20314 Continued on next page 148 STS103 Operating Guide 4 99 6 4 Configuration continued Pulse Configure This configuration sub group of parameters are the elements required to configure the parameters for the type of pulse card that is installed in your MagneW Pulse Configure The elements of Pulse Configure configuration are listed in Table 6 13 Selections may be limited Refer to Table 6 7 for restrictions elements Table 6 13 MagneW 3000 Pulse Configure Elements Element Definition PULSE Selects a built in counter function ADD Simple addition PRESET Simple addition with preset DIFF Algebraic addition that uses negative values for reverse flow Type of pulse This is a READ ONLY The type of pulse is determined by the pulse card installed Pulse unit Pulse weight unit of measure The available selections are I p Liters per pulse cc p Cubic centimeters per pulse BRL p Barrels per pulse Kgal
27. Only appears with Full Compensation and AP Comp Only selections Continued on next page 4 99 STS103 Operating Guide 211 7 3 Configuration Continued Setting parameters for PV4 equation continued Table 7 14 Setting Parameters for PV4 Equation continued Step Press Key Read Display or Action Description 5 NON VOL HATRIM Enters pressure reference value into ENTER E N T El RED s Fio SFC memory This is only valid if you Yes make a change in Step 4 Otherwise must press s NEXT key to call up next selection 6 Example for parameter set to default value of Use number keys to key in desired NaN process temperature reference value to be used for parameter Tref in jR AN GE K J derivation of flow equation for PV4 Example for parameter with entered value Quation You M engineering units by pressing UNITS key until desired engineering 1218 ilsi teik units is displayed and then press ENTER key to return to this display Only appears with Full Compensation and PT Comp Only selections 7 NON VOL ire T T T Enters temperature reference value ENTER RElo IIN select into SFC memory This is only valid if Yes you make a change in Step 6 Otherwise must press s NEXT key to call up next selection 8 Example for parameter se
28. changes automatically to compensate for any changes in the LRV and maintain the present span URV LRV If you must change both the LRV and URV always change LRV first Table 7 17 Keying in LRV and for PV1 Step Press Key Read Display or Action Description 1 E SOS 7 Present LRV setting for PV1 Ge Ga ao H 2 o 3 s F Pressure for 4 mAdc 0 output 2 If display in Then Step 1 is for PV1 go to Step 4 not for PV1 go to Step 3 3 DE CONF PIV TFI Calls up current PV number display MENU Icju R R EINIT PIV Repeatedly press MENU ITEM key ITEM to step through PV number selections 1 2 3 and 4 Stop when PV1 is on display ATTENTION You can also use left and right arrow keys to step forward and backward through NON VOL PV number selections e EE Returns to previous display which is updated to reflect PV1 as current PV number selection Continued on next page 4 99 STS103 Operating Guide 217 7 3 Seiting range values for Configuration Continued PV1 continued Table 7 17 Keying in LRV and for PV1 continued Step Press Key Read Display or Action Description 4 5 LIR VI Jt T FIT spa 1 13 Key in desired LRV setting It is not 5 5 13 necessary to key in
29. CLR key to exit function This action only applies when parameter in Step 5 and or Step 8 is changed Otherwise this keystroke returns you to Step 1 prompt 11 NON VOL IPIVIST TETOTNTFT TGL T T T T T Message exchange is working ENTER WOIRIK inje 111 es simiy Parameter change is loaded into c ojln F i c transmitters working memory Press S NEXT key to access another configuration function or CLR key to exit function Selecting Input Filter You must the frequency of the input filter for PV3 so it matches the Frequency for PV3 frequency of the power line for the power supply Table 7 10 gives the steps for selecting the input filter frequency Table 7 10 Selecting Input Filter Frequency Step Press Key Read Display or Action Description 1 B I TTTTSIMIVI Call up configuration function Note PS FL c W oj RK T INIGI that first display may or may not appear depending upon previous ystroke action that ay require a 1 F o R M jT Y database update 2 Until display reads Calls up next configuration menu NEXT item lsiMIv Je olvjr o rie 3 NON VOL Access Probe Configuration P T 3 8 9 D selections es Continued on next page 196 STS103 Operating Guide 4 99 7 3 Configuration continued
30. ECJT or CJT C and press CONF key to return to ECJT or CJT display degrees Fahrenheit ECJT or CJT F and press CONF key to return to ECJT or CJT display Kelvin ECJT or CJT K and press CONF key to return to ECJT or CJT display degrees Rankine ECJT or CJT R and press CONF key to return to ECJT or CJT display Table 7 9 for details about selecting cold junction temperature source Continued on next page 190 STS103 Operating Guide 4 99 7 3 Configuration continued Selecting Units of Measurement continued Table 7 6 Selecting Engineering Units for 4 You can choose to have the PV4 calculated flow rate measurements displayed in one of the preprogrammed engineering units shown in Table 7 6 in the SFC depending upon type of flow measurement configuration IF you want URV LRV etc displayed in And type of flow measurement UNITSMODE configuration is THEN call up desired parameter display and sequentially press D key until display shows PV number for current units selection 4 PV4 4 reir RRA RRC cubic meters per hour VOLUME FLOW m3 h gallons per hour VOLUME FLOW gal h liters per hour VOLUME FLOW cubic centimeters per hour VOLUME FLOW cc h cubic meters per minute VOLUME FLOW m3 min gallons per minute VOLUME
31. In the absence of any other diagnostic messages the condition is most likely meterbody related Check the installation and if the condition persists replace the meter bogy TYPE MISMATCH On a database restore the transmitter types are not the same None SFC tried to restore as much of the database as possible 4 99 STS103 Operating Guide 27 3 4 Common Key Sequences and Displays Changing the communications mode The Smart Field Instruments operate in either an Analog mode or a Digital communications DE mode You can quickly change from one mode to another using the SFC See Section 1 4 STS103 SFI Communication for format descriptions Figure 3 3 is a graphic view of the key presses required to change the communication mode Changing Communications Mode SFI Type TAG NO READY SFI Type TAG NO READY MD A ora From Analog Mode AIDE TAG NO CHNG TO DE From Digital Mode A DE TAG NO CHNG TO ANALOG AIDE TAG NO ARE YOU SURE AIDE TAG NO SFC WORKING AIDE TAG NO ANALOG XMTR AIDE TAG NO DE XMTR 20302 Continued on next page 28 STS103 Operating Guide 4 99 3 4 Common Key Sequences and Displays continued Selecting configuration You determine how the Digital PV data is handled by configuring the DE configuration elements shown in Table 3 2 data f
32. Low battery voltage The ST 3000 and the STS103 both run continuous self diagnostics This means that they are constantly testing the communications the loop and themselves Any time you want results of these diagnostics press the STAT key The SFC displays its report in the form of messages which identify diagnostic conditions Diagnostic conditions are broken down into three categories e OK status e critical status a non critical condition An OK condition means no problem exists and the display looks like this STATUS tag no STATUS A critical condition means that the transmitter is not functioning properly When this occurs the transmitter goes into upscale burnout and maintains an output of 21 8 mA or into downscale burnout and maintains an output of less than 3 9 mA The message CRITICAL STATUS interrupts your operation and is followed by the message PRESS STATUS After the PRESS STATUS message you press the STAT key to find out what problem exists You will receive one or more messages Take whatever corrective action necessary to solve the problem Remember that the transmitter will stay in upscale or down scale burnout until the condition is corrected If the transmitter sends more than one message each message will be displayed in the order of importance for about 5 seconds If you need to see them again press the STAT key again A non critical condition means that
33. PS FL C wW o RK T INIGI that first display may or may not appear depending upon previous keystroke action that may require 2 A Until display reads Calls up next configuration menu item L simiy JOJUITJP U TI 3 NON VOL I ICIeINIFI Access analog output configuration ENTER selections es N A 1 JOjU T P UT Pf Jj Continued on next page 4 99 STS103 Operating Guide 215 7 3 Configuration Continued Selecting PV to represent analog output continued Table 7 16 Selecting PV to Represent Analog Output continued Step Press Key Read Display or Action Description DE CONF 4 gt TLToTe Jolut Pon T T Calls up next analog output MENU Plvj2 lA B sio L u r E P selection Repeatedly press MENU ITEM ITEM key to step through these selections p jPjRJOIC TIEMP py1DELTAP e PV2 ABSOLUTE P joju T P UT py3 PROC TEMP CJA LICIUILIAITIED _ CALCULATED Stop when desired PV selection is on display 5 NON VOL Jolo Plon T T Enters change in PV selection in ENTER E N T ElR EID siFic SFC and prompt asks if change Yes entered in SFC is to be downloaded Joju T P UIT to transmitter
34. PV number selections NON VOL PUR vy J2 7 Jetty a o 1 1 Returns to previous display which is ENTER Yes ji2ej ejleje e P s 1 updated to reflect PV2 as current PV number selection 4 W LR v 12 TF T l Key in desired LRV setting It is not 2 st LLL L necessary to key in a decimal point and zeros for a whole number 5 NON VOL l2 T T 31217 Message exchange is working ENTER PS Fic WORK ING 1 11 PLIR V j2 FIT New LRV setting for PV2 stored in 2e j eje e e transmitters working memory 6 F 12 T T TFT 13191111 Present URV setting for PV2 nd 7 5 2 9 0 PIs T TT T TI Pressure for 20 mAdc 10096 output 7 V T2T T T FIT Bla Key in 150 as desired URV setting Liu Lir Pest p Eo lg S 2 5 E eisi n 2 ett loni 8 NON VOL 2 T T FIT Blan Message exchange is working ENTER PS Fic WORK 2 New URV setting for PV2 stored in pep transmitter s working memory Continued on next page 4 99 STS103 Operating Guide 221 7 3 Configuration Continued Setting range values for PV2 to applied Table 7 20 gives the procedure for setting LRV and URV to applied static pressures This procedure assumes that you can safely simulate zero and
35. SFC WORKING XX96 then F S DIR tag no F SAFE DOWNSCALE Displays the Failsafe Burnout direction upscale or downscale for analog devices Read Meter Body in until display reads Displays temperature of transmitter meter A body in the selected engineering units SMV CONFIG READ M B TEMP NON VOL WES M B TEMP 16 296 Table Continued on next page 4 99 STS103 Operating Guide 241 7 5 Operating data continued Table 7 28 Operation Continued ST 3000 Operating Data continued Operating Data Press Displays Displays are examples Result Read Cold until display reads Displays the temperature of the cold junction Junction reference in selected engineering units PV3 READ CJT YES SMV CONFIG 76 160 F CJT High Low PV until display reads Displays the highest and lowest PV3 values z z 22 9 2 z 2 2 lt x mic x TAJO 1 DJo rc YES Ij SMV CONFIG READ Hi Low PV3 SMV CONFIG 37 564 F Lo in selected engineering units since the last time they were displayed by the SFC SINGLE RANGE A SMV CONFIG NEXT 428 45 F Hi Lower Range A until display reads Displays the lower range limit of the current Limit NEXT PV LRL PVno CONFIG 400 00 H2O 39F PROM Serial A until display reads Displays the 10 digit serial number assigned Number NEXT to t
36. STT3000 connection 79 80 Trouble shooting Procedure 714 Upper range value URV 90 SFC switch and terminals 7 U Upper Range Limit 37 Upper Range Value URV 55 User Interface functions and guidelines 73 4 99 STS103 Operating Guide 257 READER COMMENTS Honeywell s IAC Automation College welcomes your comments and suggestions to improve future editions of this and other publications You can communicate your thoughts to us either by mail using this form or a toll free telephone call BY TELEPHONE the U S A use our toll free number 1 800 822 7673 available in the 48 contiguous states except Arizona in Arizona dial 1 602 863 5558 BY MAIL Use this form detach fold tape closed and mail to us We would like to acknowledge your comments please include your complete name and address Title of Publication Smart Field Communicator Model STS103 Operating Guide Publication Number 34 ST 11 14 Issue Date 4 99 Writer Dave Taunton COMMENTS RECOMMENDATIONS NAME DATE TITLE COMPANY ADDRESS CITY STATE ZIP If returning by mail please tape closed Postal regulations prohibit use of staples Communications concerning technical publications should be directed to Automation College Industrial Automation and Control Honeywell Inc 2820 West Kelton Lane Phoenix Arizona 85023 BUSINESS REPLY MAIL PERMIT NO 4332
37. Selecting configuration You determine how the Digital PV data is handled by configuring the DE data for the digital DE configuration elements as shown in Table 4 3 communications mode Table 4 3 The ST 3000 DE Configuration Elements Element Selections And Definitions Type of Transmitter This element selects the type of transmitter operation The selections are Single Range Working range PV PVw for STDC card or STI module Single Range W SV Working Range PV PVw with sensor temperature for STDC card or STI Module Dual Range STDC Full range PV PVt and Working range PV PVw For STDC only Message Format This element is the message format The selections are w o DB 4 Byte 4 Byte message format PV or SV only without database information W DB 6 Byte 6 Byte message format PV or SV with database information Failsafe Mode for Digital Control System This element is the Failsafe mode You configure the transmitter to tell the control system via the ST DC card which failsafe mode to assume when the card detects a critical failure condition A critical fault can be due to a critical status indication from the transmitter or an extended loss of PV data The selections are F S B O Lo Burnout low drives the PV value to the downscale limit e F SzB O Hi Burnout high drives the PV value to the upscale limit LKG Last known good PV value F SZFSO B O Lo Freeze sl
38. UNITS For example consider an SFI that may analyze up to four components Each time the MENU key is pressed the display will step through the available Process Variables PVs CURRENT PV 1 CURRENT PV 2 CURRENT PV 3 CURRENT PV 4 If PV 2 were selected and SPAN key pressed SPAN 2 the span for input 2 would be displayed Continued on next page 4 99 STS103 Operating Guide 17 2 5 Function Keys Data Entry Continued Function key sequence Most of the common operating parameters are numerical values which may be altered by the operator To display and or change these values follow the key sequence procedure in Table 2 4 Table 2 4 Function Key Sequence Step Action 1 Press the desired Function key The display will show the current setting or value of the selected parameter A numerical value may be changed only if the first digit of the currently displayed value is underlined 2 Enter a new value by pressing the appropriate number keys For some values such as Damping the a and v keys may be used to step through a menu of permitted selections 3 Press the ENTER yes key to store the new data in the STS103 ATTENTION i the operator exits the display using any other key the data will not be downloaded to the SFI 4 The key may be used at any time to return to the normal operating display without making any changes 18 STS103 Operating Guide 4
39. detects critical status for PV2 input and PV4 output will be driven upscale or downscale per failsafe direction configuration 10 NON VOL PIa TATPT TOTO MIPPT T T T T Enters absolute pressure failsafe ENTER N T E R E D N s F c selection into SFC memory and calls Yes up next configuration selection Go to Step 11 or 13 as applicable 11 4 elt clom Pl T TT Present process temperature PV3 failsafe configuration selection corr elt clom P Calls up next process temperature ear OIN _ failsafe selection Repeatedly press MENU ITEM key to toggle between selections OFF and ON An OFF selection means that PV4 output would be flagged for non critical status when transmitter detects critical status for PV3 input and temperature term Tyef Ta or Ta Tref is set equal to one in derived gas flow equation An ON selection means that PV4 output would be flagged for critical status when transmitter detects critical status for PV3 input and PV4 output will be driven upscale or downscale per failsafe direction configuration Continued on next page 4 99 STS103 Operating Guide 207 7 3 Configuration Continued Setting selections for PV4 equation definition continued Table 7 13 Setting Selections for PV4 Equation Definition conti
40. least 250 Ohms resistance in the loop NACK RESPONSE The SFI sent a negative acknowledgment because one or more of the commands could not be processed by the SFI Check the configuration and try again Table continued on next page 4 99 STS103 Operating Guide 173 6 7 Diagnostic Messages continued Table 6 19 Diagnostics and SFC Messages continued Diagnostic Messages for SFC and MagneW 3000 continued Message Problem Corrective Action NO HW FAILSAFE Connected transmitter does not support a hardware jumper for failsafe direction NO XMTR RESPONSE No response from the flowmeter It may be a flowmeter or loop problem Try communicating again Press the STAT key and do any corrective action required Check that the flowmeter s loop integrity has been maintained and that the SFC is connected NVM FAULT The non volatile memory of the converter is corrupted Turn the converter OFF then ON Replace the main printed circuit board if necessary NVM ON SEE MAN The SFC s CPU is misconfigured Replace the SFC OPTION MISMATCH On a database restore one or more options do not match None SFC tried to restore as much of the database as possible PLS WEIGHT ERROR Pulse frequency is too high or low Check the pulse weight span and type of pulse PLS WIDTH gt 70 Pulse width is too large Duty ratio i
41. then SFI Type TAG NO READY 4 Be sure the STS103 is disconnected from the Smart Field Instrument before returning the loop to the automatic operating mode 4 99 STS103 Operating Guide 45 Section 4 ST 3000 Pressure Transmitter 4 1 Overview Introduction This section contains all the information you will need to know in order to wire set up configure operate calibrate and troubleshoot the ST 3000 Pressure Transmitter using the STS103 Smart Field Communicator Refer to the ST 3000 User s Manual for transmitter operating and installation information Make sure you have become familiar with the STS103 operations that are more or less the same for every transmitter This section gives you the keystrokes and displays that are specific for SFC communications with the ST 3000 Pressure Transmitter What s in this section This section contains the following topics Overview Wiring Set up Configuration Output Calibration Operation Diagnostics and SFC Messages Troubleshooting 4 99 STS103 Operating Guide 47 4 2 Wiring Overview Connecting the STS103 to junction boxes and IS panels Establish communications with the ST 3000 by connecting the SFC leads to the 4 20 mA line of the transmitter Your choices are either at a junction box somewhere along the 4 20 mA line on the field side of the intrinsic safety barrier panel in the control room or at the transm
42. you will need the following equipment STS103 Smart Field Communicator A digital voltmeter DVM 24 Vdc power supply Model KIZ006 MagneW Calibrator This calibrator is designed for the precise calibration of all models of MagneW flowmeters The calibrator generates a simulated flow velocity signal which is synchronized with the excitation current of the flowmeter The simulated signal is applied to the converter to be calibrated This signal is adjustable for a flow velocity equivalent range of 0 10 00 m sec 0 30 ft sec in 0 01 m sec steps for highly accurate calibration of individual flow spans Continued on next page 154 STS103 Operating Guide 4 99 6 5 Calibration continued Calibration setup Figure 6 20 is the calibration set up for KIX model using the SFC Refer to this figure and follow the procedure in Table 6 12 to set up for calibration Figure 6 20 MagneW 3000 Calibration Set up Switch Settings CP44 45 Smart Converter tatus tatus in 250 Ohms Blk 20325 Continued on next page 4 99 STS103 Operating Guide 155 6 5 Calibration continued Calibration set up procedure Table 6 14 is the procedure to set up to calibrate the MagneW using the Smart Field Communicator Refer to Figure 6 20 for terminal locations Be sure the converter power is turned OFF before making electrical connections for calibration Table 6 14 MagneW 3000 Calibrati
43. 0 4 0mA 25 8 0 mA 50 12 0 mA 6096 13 6 mA 80 16 6 mA 100 20 0 4 This clears the output mode SFC WORKING Notice that the character disappeared then ATTENTION it you do not press the key READY and press another key you will not exit the output mode This means that you cleared the display but are still in the output mode 44 STS103 Operating Guide 4 99 3 6 Disconnecting the SFI Check list Before you disconnect the STS103 from the Smart Field Instrument refer to Table 3 5 and follow the Check List given Table 3 5 Disconnect Check List Check Press Display Example Result or Action 1 Be sure the SFI is not in the Output mode or any other error condition The SFC displays a character on the upper right side of the display indicating the output mode or other non critical status 2 This clears the output mode OUT SFC WORKING Notice that the character disappeared then SFI Type TAG NO ATTENTION you press the key without READY pressing the OUTPUT key the character stays on the display This means that you cleared the display but are still in the output mode 2 2 20 95 3 SFI TAG NO SFC WORKING will be displayed as long as eight SHIFT READY seconds then h The data is copied from the Working memory into the then Non Volatile memory NON VOL ENTER SFI Tyoe TAG NO YES DATA NONVOLATILE
44. 235 Operaio M coos ii ter bean 239 Diagnostics and SFC Messagges ssssssssseeeeeeneens 244 253 vi STS103 Operating Guide 4 99 Figures Figure 1 1 Figure 1 2 Figure 1 3 Figure 1 4 Figure 1 5 Figure 1 6 Figure 1 7 Figure 2 1 Figure 3 1 Figure 3 2 Figure 3 3 Figure 3 4 Figure 3 5 Figure 3 6 Figure 3 7 Figure 3 8 Figure 3 9 Figure 3 10 Figure 3 11 Figure 3 12 Figure 3 13 Figure 3 14 Figure 3 15 Figure 3 16 Figure 4 1 Figure 4 2 Figure 4 3 Figure 4 4 Figure 4 5 Figure 4 6 Figure 4 7 Figure 4 8 Figure 4 9 Figure 5 1 Figure 5 2 Figure 5 3 Figure 5 4 Figure 5 5 Figure 5 6 Figure 5 7 Figure 5 8 Figure 5 9 Figure 5 10 Figure 5 11 Figure 5 12 Figure 5 13 Figure 5 14 Figure 5 15 Figure 6 1 Figure 6 2 Figure 6 3 Smart Field Communicator 515103 3 575103 Keypad and LCD Display see 4 STS103 Switch and Terminals sess 7 575108 eid ae etaed og 8 STS103 Junction BOX beso fen reta rta nnn andre nn E ara 9 Typical Analog Data Exchange eee 11 Typical Digital Data Exchange 12 STS103 Keypad Color Groups essseseeeeenenerennnennn 14 Power Up Sequence ssssssssssssssseeeennene enne snnt nene 24 Read Digital
45. 3 T T F TSTe T 7 Present LRV setting for PV3 Input o Heale H for 4 mAdc 0 output Continued on next page 4 99 STS103 Operating Guide 225 7 3 Setting range values for Configuration continued PV3 to applied input signals continued Table 7 22 Setting LRV and for PV3 to Applied Input Signals continued g pp g Step Press Key Read Display or Action Description 3 If display in Then Step 2 is for PV3 go to Step 5 not for PV3 go to Step 4 4 DE CONT PIV TNTUIM TFTTT Calls up current PV number display MENU cju R R IEINITI 1 Repeatedly press MENU ITEM key ITEM to step through PV number CO selections 1 2 3 and 4 Stop jl ES VES felo when PV3 is on display BUGEE IPIE TRE T ET DE CONF ATTENTION You can also use left lt and right gt arrow keys to CJUJRIR EINIT Pivi 3 step forward and backward through PV number selections NON VOL ENTER Rv s FT 3011 Returns to previous display which is Yes Hgg o HF updated to reflect as current PV number selection 5 G 3 7 Prompt asks if you want to set LRV SET for PV3 to applied input signal If you don t want to set LRV press CLR key to exit function Otherwise go to Step 6 6 NON VOL T T
46. 4 Byte W DB 6 Byte Message Format This element is the message format The selections are 4 Byte message format PV or SV only without database information 6 Byte message format PV or SV with database information The selections are F S B O Lo F S B O Hi LKG F S FSO B O Lo F SZFSO B O Hi F S LKG Failsafe Mode for This element is the Failsafe mode You configure the transmitter to tell the Digital Control System control system via the ST DC card which failsafe mode to assume when the card detects a critical failure condition A critical fault can be due to a critical status indication from the transmitter or an extended loss of PV data Burnout low drives the PV value to the downscale limit Burnout high drives the PV value to the upscale limit Last known good PV value Freeze slot output and burnout low ST DC card tells the controller to hold the memory block output at the preset value and drives input to the controller downscale to trip alarms Freeze slot output and burnout high ST DC card tells the controller to hold the memory block output at the preset value and drives input to the controller upscale to trip alarms Freeze slot output and last known good PV ST DC tells the controller to hold the memory block output at the present value and provides the last known good PV value as the input to the controller Continued on next page 4 99 STS103 Op
47. 7 3 Configuration Continued Procedure continued Table 7 8 Identifying PV3 Probe Type continued Step Press Key Read Display or Action Description 6 NON VOL IPTVIST ICSNFAL TG T T T TL T Enters change in SFC and calls up ENTER Ej o 1 Spel E a es is action only applies if selection is PIM changed Otherwise must press pe E En MET CLR key to exit function or s NEXT key to call up next parameter 7 m IPTVIST TOeTOINTFT TE TT T T T Prompt asks if change entered in No dE SFC is to be downloaded to transmitter If you want to download change go to Step 8 If you do not want to download change press CLR key to exit function This action only applies when Step 6 is valid Otherwise this keystroke returns you to Step 3 prompt 8 NON VOL PEINE TL T T T T T Message exchange is working ENTER s F c inje 1 Yes LLL ILL LISIMV Rim T Ye Parameter change is loaded into transmitter s working memory Press s NEXT key to access another configuration function or CLR key to exit function Selecting CJ Source If a thermocouple is used for process temperature PV3 input you must select if the cold junction CJ compensation will be supplied internally by the transmitter or externally from a user supplied isothermal block If you configur
48. 99 2 6 Configuration Key Data Entry Configuration key Configuration key Press the CONF key to access SFI specific configuration menus SFI configuration is divided into two or three levels Level 1 contains list of configuration categories which is unique to each SFI Level 2 contains list of configuration parameters for each of the level 1 categories two level configuration or a sub level of categories which pertains to the level 1 categories three level configuration Level 3 contains a list of configuration parameters for each of the level 2 categories To display and or change configuration follow the key sequence sequence procedure in Table 2 5 Table 2 5 Configuration Key Sequence Step Action 1 Press the CONF key Configuration level 1 is accessed 2 Press the NEXT or PREV keys if necessary to reach the desired category The prompt at the end of each selection indicates the key will access configuration level 2 or 3 e the key will exit the current configuration level and will return the STS103 display to the next higher level 3 Press the ENTER yes key when the desired category is displayed Configuration level 2 or 3 is accessed for 3 level configuration repeat steps 2 and 3 to access level 3 Table continued on next page 4 99 STS103 Operating Guide 19 2 6 Configuration Key Data Entry continued Configuration
49. A non critical condition means that although a problem exists the transmitter is still operating When a non critical condition occurs a character appears on the right side of the display along with whatever you re displaying at the time This character means press the STAT key because some type of a problem exists Again one or more messages will appear on the display for about five seconds each 99499 When the battery voltage becomes low a colon will appear in the middle of the display It stays on the display until you either charge or replace the batteries Continued on next page 244 STS103 Operating Guide 4 99 7 6 Diagnostic Messages Diagnostic message Diagnostics and SFC Messages continued The diagnostic text messages that can be displayed on the SFC model STS103 are listed in the following tables A description of the probable cause and suggested action to be taken are listed also to help in troubleshooting error conditions The SMV Status column provides the location of the SMV status If you are using an SFC that contains an earlier software version you may see the diagnostic messages displayed as these SMV Status numbers The SFC Display Message column shows text that appears when the SFC is connected to the SMV control loop and the STAT key is pressed The diagnostic messages are grouped in tables according to the status
50. FLOW gal min liters per minute VOLUME FLOW l min cubic centimeters per minute VOLUME FLOW cc min cubic meters per day VOLUME FLOW m3 day gallons per day VOLUME FLOW gal day kilogallons per day VOLUME FLOW Kgal day barrels per day VOLUME FLOW bbl day cubic meters per second VOLUME FLOW m3 sec cubic feet per minute VOLUME FLOW CFM kilograms per minute MASS FLOW kg min pounds per minute MASS FLOW Ib min kilograms per hour MASS FLOW kg h pounds per hour MASS FLOW Ib h kilograms per second MASS FLOW kg sec pounds per second MASS FLOW Ib sec tonnes per hour MASS FLOW t h tonnes per minute MASS FLOW t min tonnes per second MASS FLOW t sec Continued on next page 4 99 STS103 Operating Guide 191 7 3 Configuration continued Selecting Units of Measurement continued Table 7 6 Selecting Engineering Units for PV4 continued IF you want URV LRV etc And type of flow THEN call up desired parameter displayed measurement UNITS MODE display and sequentially press configuration is D key until display shows grams per hour MASS FLOW g h grams per minute MASS FLOW g min grams per second MASS FLOW g sec tons per hour MASS FLOW ton h tons per minute MASS FLOW ton min tons per seconds MASS FLOW ton sec user selected units CUSTOM Units are entered as CUSTOM part of PV4 equation configuration Selecting density Preprogrammed engineering units for displaying design densi
51. Function elements Figure 5 11 STT 3000 Probe Configuration CONF STT CONFIG CHANGE CONFIG PROBE CONFIG PROBE CONFIG PROBE CONFIG PROBE CONFIG PROBE TYPE ENTERED IN SFC ENTERED IN SFC ENTERED IN SFC NEXT p NEXT PROBE CONFIG PROBE CONFIG CJ INTERNAL FILTER 60 Hz ae PROBE CONFIG PROBE CONFIG CJ EXTERNAL FILTER 50 Hz PROBE CONFIG XXXXX F ECJT NOTE2 PROBE CONFIG TC FAULT DET ON PROBE CONFIG TC FAULT DET OFF PROBE CONFIG ENTERED IN SFC PROBE CONFIG OP LINEAR PROBE CONFIG OP NONLINEAR PROBE CONFIG ENTERED IN SFC PROBE CONFIG DOWNLOAD CHANGE PROBE CONFIG SFC WORKING PROBE CONFIG NO CHANGES MADE 20324 NOTE 1 See Table 5 8 for available probe types Press MENU key until the selection is made NOTE 2 Use numbered yellow keys to key in EXTERNAL C J VALUE Continued on next page 98 STS103 Operating Guide 4 99 5 4 Configuration continued Save Restore data Figure 5 12 is a graphic view of the key presses required to Save data from the transmitter to the SFC or Restore data from the SFC to the transmitter Figure 5 12 Save Restore Data SAVE RESTORE RESTORE DATA CLR RESTORE DATA ARE YOU SURE SFC WORKING SFC WORKING SAVE DATA RESTORE DATA DATA RESTORED 20744 Continued on next page 4 99 STS103 Operating Guide 99 5 4 Configuration continued Alarm Latching Open Input Fai
52. L P PULSE CONFIG PULSE CONFIG PULSE PRESET MAG DRIVE VOLT PULSE CONFIG NOTE 1 or Kgal P PULSE CONFIG PULSE CONFIG PULSE DIFF MERCURY RELAY c CONFIG NOTE 1 Gall PULSE CONFIG mGal P PULSE CONFIG Me P CLR CLR PULSE CONFIG PULSE CONFIG PULSE CONFIG 1000 MP rtu P WIDTH 0 3MS P DROPOUT 02 g NOTE 2 NOTE 3 up to up to use PULSE CONFIG PULSE CONFIG thru P WIDTH 100MS P DROPOUT 10 NOTE 3 PULSE CONFIG te hae DOWNLOAD CHANGE Pulse Weight NOTE 1 Selections may be limited Refer to Table 6 7 for restrictions PULSE CONFIG SFC WORKING NOTE 2 PULSE WIDTH LIST 0 3 0 5 1 0 7 0 10 15 30 50 100MS You can select Pulse Width using yellow number keys but MagneW will select closest NOTE 3 PULSE DROPOUT LIST INTEGER VALUES between 2 and 10 20313 Continued on next page 150 STS103 Operating Guide 4 99 6 4 Configuration continued Set Trip Value This parameter allows you to change the preset value of the counter When the counter reaches trip value Dig Out is toggled This will only appear if parameter RANGE FUNCTION SINGLE EXT DUAL or EXT and PULSE PRESET The display shows the existing preset counter value Notice the cursor under the first number Use the numbered yellow keys to select a new value Set Trip Value graphie presses COQUITCOHO set Configuration graphic value Figure 6 18 MagneW 3000 Set
53. MAG XX TAG NO READY Continued on next page 4 99 STS103 Operating Guide 121 6 3 Set up Continued Adjusting the damping time Figure 6 3 Damping time sets the unit of time for the damping constant which establishes the upper limit of frequency response and the response time characteristics of the flowmeter This is used to reduce the electrical noise effect on the output signal Using the SFC you can adjust the damping by selecting a value on the SFC and send that value to the flowmeter The minimum value is 0 0 seconds no damping The maximum value is 100 0 seconds Figure 6 3 is a graphic view of the key presses required to adjust the damping time value and also gives you the selections available You can also key in a value using the numbered yellow keys Adjusting the MagneW 3000 Damping Time Value NOTE 1 Available Damping Settings are 0 0 0 5 1 0 2 0 3 0 4 0 5 0 10 0 50 0 100 0 seconds MAG XX TAG NO READY DAMP 1 TAG NO DAMP TAGNO SECONDS SFC WORKING to key in value NOTE 1 DA VIP A NO NEW VALUE DAMP 1 TAG NO SFC WORKING DAMP 1 TAG NEW VALUE Value Stored Value Stored 20303 Continued on next page 122 STS103 Operating Guide 4 99 6 3 Set up Continued Selecting the units in which to display values There are three groups of units that can b
54. NEXT twice to display the PROM serial number CORRECTS RESET Recalibration is required to obtain the required accuracy Calibrate the upper range value ELECTRONIC FAULT A component of the transmitter electronics module is not functioning properly Replace the electronics module in the transmitter Do not SAVE the data in the transmitter memory since it may not be correct ENTRY gt SENS RNG The number entered is beyond 1 5 times the upper range limit of the sensor Press the key check the parameter and start again EXCESS ZERO CORR The ZERO correction factor is outside the acceptable limits for accurate operation Check the input and be sure it matches the calibrated range value Check the meter body on the pressure transmitter EXCESS SPAN CORR The SPAN correction factor is outside the acceptable limits for accurate operation Check the input and be sure it matches the calibrated range value Check the meter body on the pressure transmitter EXCESSIVE OUTPUT The requested output percent in the output mode is too high or too low The limits are 1 25 to 105 Press the key check the parameter and start again FAILED COMM CHK The SFC failed a communication diagnostic check This could be a SFC electronics problem or a faulty or dead communication loop Try communicating again Press the STAT key If a loop fault message appears do the
55. OUTPUT and keys output 6 7 ATUS TAG NO Analog transmitter is operating Exit Output Mode OUTPU ODE Pv4 as a current source for PV4 Press ourpur and keys output 3 7 For R250 Laminar Flow Check the value of every PV transmitters only Asserted against the ranges in the Laminar when a PV is not within the Flow equation E C In fie Redefine the equation if q necessary 9 7 The high or low Reynolds Verify high or low Reynolds number limit was exceeded number limit Calculate Reynolds number for flow conditions causing the message 8 7 SAVE RESTORE Number of wires selected does Check sensor wiring and type TYPE MISMATCH not match number of sensor wires physically connected to the transmitter Continued on next page 4 99 STS103 Operating Guide 249 7 6 Diagnostics and SFC Messages continued Diagnostic message Table 7 31 tables continued Communication Status Message Table SMV Status SFC Display Message Possible Cause What to Do TAG NO Communications aborted Retry aborted operation COMM ABORTED Pressed CLR key during communications operation TAG NO Communications unsuccessful e Check loop wiring and SMV SFC END AROUND ERR connections If error persists replace transmitter electronics module SAVE RESTORE Database restore or download C
56. PHOENIX ARIZONA POSTAGE WILL BE PAID BY Honeywell Industrial Automation and Control 2820 West Kelton Lane Phoenix Arizona 85023 Attention Manager Quality NO POSTAGE NECESSARY IF MAILED IN THE USA Sjuouruio euonrppy Cut Along Line Honeywell Industrial Automation and Control Honeywell Inc 16404 N Black Canyon Highway Phoenix Arizona 85023
57. S ISISISISIS JO ISISISISIS o 2 2 Q 2 oo y 20723 Continued on next page 178 STS103 Operating Guide 4 99 7 2 Wiring Continued STS103 SMV 3000 Figure 7 2 shows the STS103 connected directly to the positive and connection negative signal terminals on a typical SMV 3000 transmitter The STS103 can connect to only one transmitter at a time Figure 7 2 STS103 SMV 3000 Connections SMV 3000 When the end on the transmitter is removed the housing is NOT explosion proof STS103 charging The NiCd battery pack is charged through a battery charger that plugs into terminal the charging terminal The charger inputs 110 or 220 Vac 50 60 Hz and outputs 7 Vdc 180 mA to the NiCd battery pack The connector of the battery charger is inserted into the charging terminal on left side of the STS103 near the ON OFF switch 4 99 STS103 Operating Guide 179 7 3 Configuration Uploading the SMV 3000 If your SMV 3000 transmitter is already configured follow the steps database below to upload the database Please note that The database for a transmitter in the Analog mode is automatically read or uploaded to the SFC when you press ENTER in response to the TRIPS SECURED prompt The database for a transmitter in the Digital mode is read or uploaded when you press the SHIFT keys After the database is loaded into the SFC memory you can vie
58. SFI See Note 1 UNITS The green UNITS key displays the SFI s currently selected engineering units The units may be changed by repeatedly pressing the key until the desired units appear See Note 1 B z m vo T The green LRV 0 key displays the SFI lower range value LRV in the COR RECT 8 LRV engineering unit selected by the UNITS Key 0 See Note 1 F The green URV 100 key displays the SFI upper range value URV in the URV engineering unit selected by the UNITS key 100 See Note 1 DE CONF The green MENU ITEM DE CONF key selects the current PV from multi PV devices The DE CONF second function displays the current Digital DE MENU configuration Allows the selection of one data item from a series of grouped ITEM functions in the configuration mode G The orange SET key sets the function of the key pressed immediately before this SET key in the SFI For example setting the URV or LRV to the applied PV H L The orange NEXT and PREV keys set the damping constant change the engineering units increase and decrease numeric values during NEXT PREV output D A calibrations and displays the next previous units in the unit selection These keys also select the next or previous configuration element in an SFI s unique setting mode INPUT The orange OUTPUT INPUT key displays the currently selected transmitted J output in percent The second function displays the SFI
59. STT memory into the Non Volatile memory DATA NONVOLATILE ENTER YES then STT TAG NO READY Continued on next page 4 99 STS103 Operating Guide 83 5 3 Set up Continued Adjusting the damping time Figure 5 5 Damping time sets the unit of time for the damping constant which establishes the upper limit of frequency response and the response time characteristics of the transmitter This is used to reduce the electrical noise effect on the output signal Using the SFC you can adjust the damping by selecting a value on the SFC and send that value to the transmitter e The minimum value is 0 0 seconds no damping The maximum value is 102 3 seconds Figure 5 5 is a graphic view of the key presses required to adjust the damping time value and also gives you the selections available Adjusting the STT 3000 Damping Time Value STT XX TAG NO READY DAMP 1 TAG NO SECONDS DAMP 1 TAG NO SFC WORKING DAMP 1 TAG NO NEW VALUE Value Stored NOTE 1 Available Damping Settings are 0 0 0 3 0 7 1 5 3 1 6 3 12 7 25 5 51 1 102 3 seconds 20323 Continued on next page 84 STS103 Operating Guide 4 99 5 3 Set up Continued Setting the units in which to display values Table 5 2 Upon power up the SFC always displays units in degrees C for any STT 3000 transmitter You may want temperature shown in anot
60. Single Range W SV Working Range PV PVw with sensor temperature for STDC card or STI Module Dual Range STDC Full range PV PVt and Working range PV PVw For STDC only Message Format This element is the message format The selections are w o DB 4 Byte 4 Byte message format PV or SV only without database information W DB 6 Byte 6 Byte message format PV or SV with database information Failsafe Mode for This element is the Failsafe mode You configure the flowmeter to tell the Digital Control System control system via the ST DC card which failsafe mode to assume when the card detects a critical failure condition A critical fault can be due to a critical status indication from the flowmeter or an extended loss of PV data The selections are F S B O Lo Burnout low drives the PV value to the downscale limit e F SzB O Hi Burnout high drives the PV value to the upscale limit LKG Last known good PV value F SZFSO B O Lo Freeze slot output and burnout low ST DC card tells the controller to hold the memory block output at the preset value and drives input to the controller downscale to trip alarms F S FSO B O Hi Freeze slot output and burnout high ST DC card tells the controller to hold the memory block output at the preset value and drives input to the controller upscale to trip alarms F SZLKG Freeze slot output and last known good PV ST DC tells the controller to hold the memory
61. Step Press Key Read Display or Action Description 1 B IIT TT Call up configuration function Note S FL Cy thatfirst display may or may not appear depending upon previous simy keystroke action which may require Continued on next page 4 99 STS103 Operating Guide 199 7 3 Configuration Continued Selecting Output Characterization continued Table 7 12 Selecting Output Characterization continued Step Press Key Read Display or Action Description 2 A Until display reads Calls up next configuration menu item simiy PY vis J 3 NON VOL IClOINIFFIUG T T T T T Access Probe Configuration ENTER P Rjoj e e jJejT 1 e o b selections es 4 A Until display reads Calls up next configuration NEXT parameter Pi vis FOr grt Jt JNIEJATRI DE CONF 5 Pe coN e Calls up next output characterization MENU selection Repeatedly press MENU ITEM ITEM key to toggle between two selections Stop when LINEAR is on display 6 NON VOL IPTVIST TETONFT TG T T T T T Enters change in SFC and prompt ENTER E N r E R E D iN sel cl asks if change entered in SFC is to Yes be downloaded to transmitter If you BEER UR want to download change go to WN C H ANN G Ej
62. T T T T T Enters change in SFC and calls up ENTER 1 SjrjG next parameter es 11 mm IPTVIST coN F TEL TT T T T Prompt asks if change entered in No o HjA Nd SFC is to be downloaded to transmitter If you want to download change go to Step 12 If you do not want to download change press CLR key to exit function This action only applies when parameter in Step 8 is changed Otherwise this keystroke returns you to Step 3 prompt 12 NON VOL IPIVIST TCTOTNTFT TGL T T T T T Message exchange is working ENTER strc ff JSIVIV C ONIF G parameter change is loaded into PPI vis CJONNIF T G transmitters working memory Press S NEXT key to access another configuration function or CLR key to exit function Selecting Output You can have the transmitter provide a linear output which is linearized to Characterization temperature for PV3 input or a nonlinear output which is proportional to resistance for an RTD input or millivolt or volt input for T C input Also if you do switch from linear to non linear or vice versa be sure you verify the LRV and URV settings after you enter the configuration data Table 7 12 gives the steps for selecting the output characterization for the process temperature PV3 input Table 7 12 Selecting Output Characterization
63. Table continued SMV Status SFC Display Message Possible Cause What to Do 2 4 STATUS TAG NO Pressure input is two times Wait for PV2 range to return to M B OVERLOAD greater than URL for PV2 normal OR Meter body may have been damaged Check the transmitter for accuracy 2 5 STATUS TAG NO and linearity Replace meter body center and recalibrate if needed METERBODY FAULT 8 3 STATUS TAG NO Temperature input TC or RTD Replace the thermocouple or RTD INPUT OPEN py3 OPE 1 2 OUTP 1 TAG NO PV1 and PV2 or sensor Cycle transmitter power OFF ON E temperature input data seems TE PF SUSPECT INPUT wrong Could be a process T N m problem but it could also be a cum dide su d x meter body or electronics Mapas ias n module problem pro S Sni iS ero adele Bienes Mata message is given condition is most likely meter body related Check installation and replace meter body center section If condition persists replace electronics module 3 1 OUTP 1 NO PV2 Input data seems wrong Cycle transmitter power OFF ON Could be a process problem dr iv SUPE NEUEN but it could also be a meter A NE s mode body or electronics module Stals Diagnostic messages should identify problem where problem is If no other diagnostic message is given condition is most likely meter body related Check installation and rep
64. block output at the present value and provides the last known good PV value as the input to the controller Continued on next page 126 STS103 Operating Guide 4 99 6 3 Set up Continued Selecting configuration Figure 6 6 is a graphic view of the key presses required to configure the data for the digital DE elements for DE communications mode communications mode continued Figure 6 6 Configuring the MagneW 3000 DE Communications Mode SFI Type TAG NO READY NOTE 1 ENTER or NEXT DECONF TAG NO DOWNLOAD CHANGE DECONF DECONF TAG NO SFC WORKING JMP ENTER or NEXT DECONF TAG NO SINGLE RANGE DECONF TAG NO W O DB 4 BYTE DECONF TAG NO F S B OLO DECONF TAG NO DECONF TAG NO SINGLE RANGE W S W DB 6 BYTE DECONF TAG NO F S DECONF TAG NO AG NO DUAL RANGE STDC DECONF TAG NO F S LKG DECONF TAG NO F S FSO B O LO Note 1 You must press ENTER to store your selection in the SFC Press NEXT to move to the next element without storing the previous selection DECONF TAG NO F S FSO B O HI DECONF TAG NO F S FSO LKG 20304 Continued on next page 4 99 STS103 Operating Guide 127 6 3 Set up Continued Keying in the upper range value Span ATTENTION You can change the URV
65. conditions causing determined the flow to be invalid the other diagnostic message e Check all flow configuration parameters Table 7 30 Non Critical Status Diagnostic Message Table SMV Status SFC Display Message Possible Cause What to Do 9 3 STATUS TAG NO Problem with absolute gauge Verify that absolute gauge BAD AP COMP PV4 pressure input PV2 or input pressure input is correct for processing circuitry for PV2 selected flow equation e If error persists replace transmitter 9 4 STATUS TAG NO Problem with process temperature Verify that process temperature input PV3 input processing input is correct SAP EN COME DS circuitry for PV3 or PV4 algorithm m Idefecti parameter data erify open defective temperature sensor Correct process temperature measurement e Check for temperature limits exceeded in viscosity or density configuration Check design temperature value for PV4 standard gas algorithm 2 6 STATUS TAG NO All calibration CORRECTS were Recalibrate PV1 DP range CORRECTS RST PV1 deleted and data was reset for PV1 range 4 6 STATU TAG NO All calibration CORRECTS were Recalibrate PV2 SP range CORRECTS RST PV2 deleted and data was reset 8 6 STATUS TAG NO Process temperature PV3 has Nothing or do a reset corrects been calibrated and is now CORR ee MS different than factory default uncalibrated 9 6 STATUS TAG NO Calculated flow rate PV4 has been Nothing or do a r
66. configuration This configuration group of parameters lets you select Failsafe condition settings The elements of Failsafe configuration are listed in Table 6 10 See Figure 6 13 for key presses elements Table 6 10 MagneW 3000 Failsafe Config Elements Element Definition 4 20 mA F S The 4 20 mA output status HIGH Upscale burnout LOW Downscale burnout HOLD Hold at existing value PULSE OUT Pulse output status LOW Pulse output clamped at low state HOLD Pulse output held in last good value Continued on next page 142 STS103 Operating Guide 4 99 6 4 Configuration continued Failsafe Config Figure 6 13 is a graphic view of the key presses required to configure the graphic Failsafe condition settings Figure 6 13 MagneW 3000 Failsafe Condition Configuration to go to ALARM CONFIG or ree DETECTOR until CONFIG Press CONF SFM CONFIG SFM CONFIG SFM CONFIG Poss nex to go to SFC WORKING UNITS KEY FAILSAFE CONFIG DIGITAL I O MAG SR XXXXXXX READY FAILSAFE CONFIG SFC WORKING F S SETUP PULSEOUT HOLD NOTE 1 FAILSAFE CONFIG PULSEOUT LOW NOTE 1 FAILSAFE CONFIG 4 20MA F S LOW FAILSAFE CONFIG 4 20MA F S HOLD NOTE 1 Selection valid only if PULSE CARD is installed 20310 Continued on next page 4 99 STS103 Operating Guide 143 6 4 Configuration continued Digital 1 0 This configuration grou
67. configuration data and retains that data even after the unit is turned off This prevents having to reconfigure the transmitter every time it is turned off Table 3 3 shows you the key presses and displays for storing non volatile memory Table 3 3 Storing Data in Non volatile Memory Press Displays will Read Result A SHIFT then NON VOL ENTER YES SEI Type TAG NO SFC WORKING will be displayed as long SEG WORKING as eight seconds The data is copied from the Working memory into the Non Volatile memory then SFI Tyoe TAG NO DATA NONVOLATILE then SFI Type TAG NO READY Continued on next page 32 STS103 Operating Guide 4 99 3 4 Common Key Sequences and Displays continued Damping current constant ATTENTION Damping time sets the unit of time for the damping constant which establishes the upper limit of frequency response and the response time characteristics of the transmitter This is used to reduce the electrical noise effect on the output signal Using the SFC you can adjust the damping by selecting a value on the SFC and send that value to the transmitter Figure 3 6 is a general view of the key presses required to adjust the damping time value and also gives you the selections available REFER TO THE INDIVIDUAL DEVICE SECTIONS FOR THE MINIMUM AND MAXIMUM DAMPING VALUES ALLOWED FOR YOUR SFI AND A MORE DEFINITIVE ENTRY PROCEDURE Fig
68. corrective action and try again If the Comm error continues replace the SFC Table continued on next page 72 STS103 Operating Guide 4 99 4 7 Diagnostic Messages continued Table 4 9 Diagnostics and SFC Messages continued Diagnostic Messages for SFC and ST 3000 continued Message Problem Corrective Action HI RES LOW VOLT Either there is too much resistance in the loop open circuit the voltage is too low or both Check the wiring connections and the power supply There must be 11 Volts minimum at the transmitter to permit operation H W MISMATCH Hardware mismatch Part of Save Restore function None SFC tried to restore as much of the database as possible ILLEGAL RESPONSE SFC received an illegal response from the SFI Try communicating again INVALID DATABASE The database of the transmitter was not correct at power up Try communicating again Verify the database re calibrate the transmitter and then manually update the non volatile memory INVALID REQUEST The transmitter is being asked to correct or set its URV to a value that results in too low a span or being asked to correct its LRV or URV while in the output mode The given key function is not valid for the associated transmitter Check that the proper calibrated URV input is being applied to the transmitter or that the transmitter is not in the output mod
69. exchange When the STS103 communicates with an analog transmitter 26 mA wake up pulse is sent to the transmitter to put the device into the communication mode The pulse also causes the current drawn by the device to drop to 4 mA Data is then exchanged in an analog fashion 4 20 mA between the STS103 and SFI Figure 1 6 shows a typical analog data exchange using the STS103 Figure 1 6 Typical Analog Data Exchange SFC103 Smart Transmitter Request Receive Data Send Request Wake up Signal and Message Identify Request Keypad Action Response Process Information Message l Display Message Send Response Wake Bus Data and St 26 mA i 20 mA Analog PV ANALE 10 mA 4mA Turn O urn On Data and 20724 Turn Off Parity Continued on next page 4 99 STS103 Operating Guide 11 1 4 STS103 SFI Communication continued Digital dataexchange Data exchanges between the STS103 and digital devices are in ASCII The exchange starts off with the STS103 requesting the transfer and the SFI then responds Figure 1 7 shows a typical digital data exchange using the STS103 and Table 1 4 Describes the sequence of events Figure 1 7 Typical Digital Data Exchange No of Bytes 4 4 4 4 14 4 4 4 delle PV and PV PV PV Response PV PV Request and 20725 Message Digital data exchange Table 1 4 describes the sequence of events in a
70. in Figure 5 11 to confirm proper configuration operation and output Figure 5 15 STT 3000 Troubleshooting Procedure Verify Configuration be sure the transmitter is configured to the proper values For Digital Transmitters Verify Transmitter Operation verify that the transmitter is diagnosing itself and is operating properly Verify Loop be sure that the transmitter is connected to the proper control room instrument and able to output the proper values Return to Normal Operation Press Confirm Press Confirm Probe Damping Value ex C J Internal External Lower Range Value External Cold Junction Value C J EXTERNAL only Power Supply Filter Frequency T C Fault Detection unv Upper Range Value z z m m x x 3 Span URV LRV Upper Range Limit Output Linear non linear a 4 z Units of Measure CLR Lower Range Limit READ CJT enter Internal or External C J Temperature CLR Transmitter type READ Message format Hi Low PV Low PV Value Hi PV Value PROM Serial Number Save Restore Data stat Repeat this procedure CLR periodically throughout the troubleshooting procedure to update the diagnosis See 5 7 for Diagnostic Messages and Corrective Actions T kl amp EEJ Jie ZS 2 2 52 m 5 NEXT Failsafe Mode Press Confirm Enter the output mode and observe the transmitter s mA
71. in Table 7 26 outlines the steps for checking message format selection for example purposes only The default selection is 6 Byte and you can not change it Table 7 26 Selecting Message Format Step Press Key Read Display or Action Description 1 FT IsIMvI FIT laldia Initiate shift key selection SHIRE DE CONF PE CONT Calls up DE CONFIG menu PV1 e 12101 jw ore riw o selection appears ITEM FT felo PIVI 1 2 A ole 1 1 Calls up next DE CONFIG menu NEXT Piv 2 TT TTT item PV2 selection appears 3 A Ple 1 11 Calls up next DE CONFIG menu NEXT Piv 3 TL T T TTT item PV3 selection appears 4 A ole 1 11 Calls up next DE CONFIG menu NEXT Piv 4 TT TTT item PV4 selection appears 5 A ore 1111 Calls up next DE CONFIG menu NEXT e item Message format selection appears 6 DE M Ple ea Calls up next message format MENU Iw lo DiB 4 Bl vitieD selection While the 4 Byte selection ITEM appears you can not select it Be sure w DB 6 Byte selection is on display 7 CLR sivi felt 1 i Exits function without saving any NO jRjejApelv changes 234 STS103 Operating Guide 4 99 7 4 Output Calibration About SMV 3000
72. in each device section Figure 3 15 is a view of the key presses required to display the SFI s software version Use the sequence to call up the software version of the STS103 and connected SFI If the STS103 is not connected to an SFI only the software version of the STS103 is displayed Figure 3 15 Software Version SW VER X 2 SFI Type TAG NO SFC 5 0 XMTR 3 0 H R NEXT PREV SFI Type TAG NO 05 03 1993 10 04 20739 Continued on next page 4 99 STS103 Operating Guide 41 3 4 Common Key Sequences and Displays continued Writing data in the scratch pad area Procedure A unique feature of Smart Field Instruments is their ability to store user messages in the scratch pad area of its non volatile memory This feature allows you to enter write a message or messages consisting of a total of 32 characters in two groups of 16 each Scratch Pad 1 and Scratch Pad 2 Use the procedure in Figure 3 16 to enter the scratch pad area and step the cursor through each scratch pad display The following are some rules to remember when entering data Use the key to switch between alpha and numeric characters Use the Or to step forward and backward through the text for editing For spaces use the key when in the alpha mode Figure 3 16 Writing Data in Scratch Pad Area SCR PAD A SFI TAG NO SFC WORKIN
73. into the SFC WORKING SFC The display indicates the percent of the database being loaded until it reaches 10096 then DE READ then A MAG XX TAG NO ID New ID Continued on next page 120 STS103 Operating Guide 4 99 6 3 Set up Continued Copying data into non volatile memory When setting up or configuring a MagneW 3000 whether you are changing one element or a full database you must copy all configuration data into the flowmeter s Non Volatile Memory This is the flowmeter s permanent memory If the flowmeter were to lose power the values for the database will be saved here The flowmeter also contains a working memory that loses its contents if the power goes off and when power is restored the flowmeter copies the contents of the non volatile memory into the working memory There is a failsafe procedure Thirty seconds after a value is changed the flowmeter automatically copies it into the non volatile memory But if you change an element and power goes down before this runs you will still lose the data in the working memory Therefore whenever you make any changes in the flowmeter always end your procedure as follows Press Displays will Read Result A MAG XX TAG NO SFC WORKING will be displayed as long SHIRT SFC WORKING as eight seconds then then The data is copied from the Working Wee memory into the Non Volatile memory DATA NONVOLATILE ENTER
74. is charged through a battery charger that plugs into the charging terminal The charger inputs 110 or 220 Vac 50 60 Hz and outputs 7 Vdc 180 mA to the NiCd battery pack The connector of the battery charger is inserted into the charging terminal on left side of the STS103 near the ON OFF switch 4 99 STS103 Operating Guide 49 4 3 Overview Keying in the I D and Set up Setting up the ST 3000 Pressure Transmitter consists of Keying in the I D and loading the Database Adjusting the Damping time Selecting the units in which to display values Selecting the ST 3000 s communication mode Selecting the type of configuration for the transmitter in the Digital Communications DE Mode Keying in the Lower Range value and Upper Range value Span using the keyboard Keying in the Lower Range value and Upper Range value Span using applied pressure The procedure listed in Table 4 1 gives you the steps required to key in uploading the database an ID and upload the database for the ST 3000 ATTENTION Table 4 1 You will note in the procedure that The database for an Analog transmitter is automatically read or uploaded to the SFC when you press ENTER in response to the TRIPS SECURED prompt The database for a Digital transmitter is read or uploaded when you press the SHIFT 1D keys Keying in the ST 3000 ID and Uploading the Database Procedure Step Press SFC Display
75. is not correct you can do a Digital to Analog Current Output Signal Calibration With this procedure you can calibrate the digital to analog current output zero and span Use the procedure in Table 5 9 to enter the Output mode check the 0 and 10046 output values and if necessary do a digital to analog current output signal calibration Table 5 9 STT 3000 Digital to Analog Current Output Signal Calibration Step Press SFC Display will Read Result 1 Connect a precision volt or ammeter at the appropriate connection point on your system or use the control room display to monitor the output signal 2 OUTP1 TAG No The SFC is ready to calibrate 096 output or 10096 SFC WORKING output PUT then OUTP1 TAG No 0 00 3 OUTP1 TAG No To select 096 output 0 4 OUTP1 TAG No an M a the transmitter is in the NES SFC WORKING uput Mods then OUTP1 TAG No 0 00 RNG1 5 Check the DVM If the value on the DVM is 4 mA 1 00 volt go to step 9 100 calibration If the value on the DVM is not 4 mA 1 00 volt go to step 6 to correct DAC zero Table continued on next page 102 STS103 Operating Guide 4 99 5 5 Output Calibration continued Do a DAC calibration continued Table 5 9 STT 3000 Digital to Analog Current Output Signal Calibration continued Step Press SFC Display will Read Result 6 OUTP 1 tag no Allows correcti
76. key The SFC displays its report in the form of messages which identify diagnostic conditions Diagnostic conditions are broken down into three categories e condition e acritical condition e a non critical condition An OK condition means no problem exists and the display looks like this STATUS tag no STATUS A critical condition means that the transmitter is not functioning properly When this occurs the transmitter goes into upscale burnout and maintains an output of 21 8 mA or into downscale burnout and maintains an output of less than 3 9 mA The message CRITICAL STATUS interrupts your operation and is followed by the message PRESS STATUS After the PRESS STATUS message you press the STAT key to find out what problem exists You will receive one or more messages Take whatever corrective action necessary to solve the problem Remember that the transmitter will stay in upscale or down scale burnout until the condition is corrected If the transmitter sends more than one message each message will be displayed in the order of importance for about 5 seconds If you need to see them again press the STAT key again A non critical condition means that although a problem exists the transmitter is still operating When a non critical condition occurs a character appears on the right side of the display along with whatever you re displaying at the time This character mean
77. key sequence continued Table 2 5 Configuration Key Sequence continued Step Action 4 At this point you may press the MENU key to step through the menu of allowable settings for the displayed parameter or press the or keys to step forward or backward through the menu settings or enter a numerical value Numbered entries allowed when the first digit of the current numerical value is underlined press the ENTER YES key to enter a new value or setting The new data is stored in the SFC and ENTERED IN SFC is displayed ATTENTION you use any other key to exit the new value or setting display the data will not be changed press the NEXT or PREV keys to reach other configuration parameters within the selected category press the NO key to exit the current configuration level and return to the next higher level When any configuration values or settings in a given category have been updated the SFC will display the prompt DOWNLOAD CHANGES before returning to level 1 You e press the ENTER YES key to download the new settings to the SFI or press the NO key to exit configuration level 1 without downloading the new settings to the SFI Configuration values in the SFC will also revert to their original setting 20 STS103 Operating Guide 4 99 2 7 Other Key Sequences Other keys Table 2 6 lists several
78. output and control room display to confirm ENTER proper operation Adjust the output if required see Output Signal Calibration Procedure CLR Exit Output Mode 20328 114 STS103 Operating Guide 4 99 Section 6 MagneW 3000 Electromagnetic Flowmeter 6 1 Overview Introduction This section contains all the information you will need to know in order to wire set up configure operate and calibrate the MagneW 3000 Magnetic Flowmeter using the STS103 Smart Field Communicator Refer to the MagneW 3000 User s Manual for Flowmeter operating and installation information Make sure you have become familiar with the STS103 operations that are more or less the same for every transmitter This section gives you the keystrokes and displays that are specific for SFC communications with the MagneW 3000 Flowmeter What s in this section This section contains the following topics Overview Wiring Set up Configuration Calibration Operation Diagnostics and SFC Messages Troubleshooting 4 99 STS103 Operating Guide 115 6 2 Wiring Overview Connecting the STS103 to junction boxes and IS panels Establish communications with the MagneW 3000 by connecting the SFC leads to the 4 20 mA line of the flowmeter Your choices are either at a junction box somewhere along the 4 20 mA line on the field side of the intrinsic safety barrier panel in the control room or at the flowmeter itself
79. p Kilogallons per pulse Gal p Gallons per pulse mGal p 1073 gallons per pulse m3 p Cubic meters per pulse Pulse weight Pulse weight numerical value One output pulse is generated each time the selected amount of process material pulse weight passes through the detector Use the numbered yellow keys to select the pulse weight numerical value you want P WIDTH Pulse Width The actual pulse duration in milliseconds Usually selected to match requirements of external totalizer The pulse width range of setting is from 0 3 milliseconds to 100 0 milliseconds See Figure 6 17 for list of available Pulse Widths P DROPOUT Pulse Dropout Pulse output will drop to 096 when pulse output rate falls below the pulse dropout setting The pulse dropout range of setting is from 2 up to 1096 Use the numbered yellow keys to select the Pulse Dropout value you require Continued on next page 4 99 STS103 Operating Guide 149 6 4 Configuration continued Pulse Config Figure 6 17 is a graphic view of the key presses required to configure the configuration graphic Pulse Config elements Figure 6 17 MagneW 3000 Pulse Config B to go to ress PREV PULSE OUTPUT to go to From TOTALIZER MENU eser SET TRIP Figure 6 15 PULSE CONFIG VALUE EXT ENTER PULSE CONFIG ENTERED IN SFC Read only PULSE CONFIG PULSE CONFIG CC P PULSE ADD COLLECTOR NO or LSE CONFIG
80. the low range measurement is automatically transferred to the high range Transfer between the two ranges can be with hysteresis as illustrated in the figure below The flow signal must always be accompanied by the range status signal Analog Output istrange 4to 20 mAdc 2nd range 4to 20 mAdc When pulse output is provided The pulse weight of both 1st and 2nd ranges are the same Contact output Range status signal The instrument comes from the 4 factory with its range status signal set as follows 1st range Open 2nd range Closed Setting reverse of the above is also possible Output 20 mA ist range Input Adjustable by 0 20 Direct Direction Automatic double range transfer hysteresis EXT DUAL Direct Direction Dual Range External Selection The ranges can be changed from an external range select command signal contact signal It is also possible to deliver a range status signal in synchronization to the range select signal Analog Output 1st range 4 to 20 mAdc 2nd range 4 to 20 mAdc When pulse output is provided The pulse weight of both 1st and 2nd ranges are the same Contact output Range select command signal 1st range Open 2nd range Closed Contact Output optional The instrument comes from the factory with its range status signal set as follows 1st range Open 2nd range Closed Setting in reverse of the above is also possible Table continued on next page 134 S
81. to configure the probe type parameter individually you can access all SMV Configuration parameters serially ATTENTION Configuration Note without exiting the function once you call up the SMV CONFIG function H NEXT Just use the L and keys to step through the parameter selections Table 7 8 Identifying PV3 Probe Type Step Press Key Read Display or Action Description 1 B Call up configuration function CONF PP JcjoNjrjo RIM T T Y 2 AP I TT T ISIMIV Calls up next configuration menu NEXT R EJAJD Mj TJEMPIs 3 A ISIMY Calls up next configuration menu NEXT PH vis J tem 4 NON VOL IPTvIST TeToINIFT Te T T T T T Access Probe Configuration ENTER P R o B E PiT 1 e oe p selections If selection is correct Yes press NEXT key to call up next parameter or CLR key to return to Step 3 prompt 5 DE con Pive clon F ie T T T T T Calls up next probe type selection Eersporar ep DE CONF Je o N F IG Repeatedly press MENU ITEM key k to step through all probe selections ITEM VTI3T TC FTTITG listed in sequence Stop when desired probe is on display PIR osje ITIY PIE 11 PIYE Ieo e S EE 6 Continued on next page 4 99 STS103 Operating Guide 193
82. version may be displayed through these keys White Black The white and black keys enter the alpha or numeric modes and enable the STS103 s second functions to be activated CLR no key takes you to a previous function level Olive The olive keys allow backspacing or advancing in certain modes switching from analog to digital modes for communicating with different SFIs and viewing the status of SFIs Allows viewing of Span and Upper Range Limit 14 STS103 Operating Guide 4 99 2 3 Display Functions LCD display The STS103 uses a two line display Table 2 2 lists the data that may appear on each line of the display and some examples of each Table 2 2 LCD Display Functions Line Display Data Examples Upper Type of transmitter MAG SR LIN DP STT etc Tag Name User defined ID name A label that identifies the value LRV1 OUTPT2 SPT CONFIG message or sub level title on etc the lower line Configuration sub level title for RANGE CONFIG which the menu selections or PROBE CONFIG settings are shown on the lower CONFORMITY etc line The non critical status indicator The low battery indicator 1 Lower Alpha numeric string for ID user defined name or message name or Scratch Pad entries The numerical value and units 53 99 23 121 C 28 763 Gal hr for the parameter defined on the etc upper line Configuration sub level title wi
83. 00 ENTER loo A 111101 16 RESET TTP Ja 1 WA Calibrate output to 100 K folate ur Check that milliammeter or voltmeter reading is 20mA or 5V If reading is Then correct go to Step 20 lower than go to Step 18 20mA or 5V higher than go to Step 19 20mA or 5V Continued on next page 4 99 STS103 Operating Guide 237 7 4 Output Calibration continued Procedure continued Table 7 27 Calibrating Output Signal for Transmitter in Analog Mode continued Step Press Key Read Display or Action Description 18 den F oTu r TP T4T T TFT TSTe 1 T8 Gradually raise output to 20mA or 1 clo uin Ts 5V reading Repeat this Step as 799 NICJRJEJA SIEJ D 21 that you can repeatedly press 4 T T3Te 1T ye NEXT key to raise output by more p alc s PlA N than one count at a time 19 w Ty eT J4 T 3 1 Gradually decrease output to 20mA 1 JeleluiN s or SV reading Repeat this Step as ITT 9e D ENC RIE AS EJ D 2 Note that you can repeatedly press J4 T T3Te 1 qi NEXT key to decrease output by p alc S P ATN more than one count at a time 20 4 T Islet 4 Initiate shift key selection NONEVOL 14
84. 00 Operating Card 34 ST 11 15 STT 3000 User s Manual 34 ST 25 12 Model STT350 STT 3000 Series STT250 Operator Manual EN11 6190 STT 3000 Operating Card 34 ST 11 16 MagneW 3000 User s Manual 36 25 01 3000 Operating Card 34 ST 11 17 SCM 3000 Smart Coriolis Mass Flowmeter User s Manual 34 CM 25 01 SGC 3000 Smart Gas Chromatograph User s Manual 34 GC 25 01 SMV 3000 Smart Multivariable Transmitter User s Manual 34 SM 25 02 xii STS103 Operating Guide 4 99 Section 1 Smart Field Communicator STS103 Overview 1 1 Introduction Function Smart Field Instruments ATTENTION Operation The hand held Smart Field Communicator SFC Model STS103 is a battery powered device which establishes two way communications between Honeywell s Smart Field Instruments SFIs and an operator over the existing SFI signal lines The operator can send data to and receive data from the SFI s microprocessor through the STS103 when connected to the SFI s signal lines at any accessible location from the control room to the Smart Field Instrument There are many current SFIs with which the STS103 communicates The STS103 is designed for expansion and will be used with other new SFIs as they become available The current Honeywell smart field instruments with which the STS103 may be used are listed below e Smart Pressure Transmitter ST 3000 e Smart Temperature Transmitter STT 3000 Magnetic Mass Flowmeter MagneW 3
85. 00 Operating Data Operating Data Press Displays Displays are examples Result Transmitter 1 0 SFI Type TAG No Analog Communications Mode ITEM CURRENT PV 1 DE READ A ANALOG ID TRIPS SECURED NON VOL XXX Transmitter Type SMV YES 12345678 Lower Display is the device 1 0 or or Digital Communications Mode DIGITAL PEREA ae 7 DE XMTR TAG NO Transmitter in DE Communication Mode ID 12345678 Lower Display is the device 1 0 Current PV DEICONE PV NUM tag no The current PV is displayed Press MENU ITEM key repeatedly to step through PV selections 1 2 3 4 Damping Value DAMP 1 tag no Damping Time of current PV displayed in seconds o c gt 2 E 30 c 28 c D Q m m m A RECT z m z 2 lt Djo YES INPUT 1 tag no 0 0000 PSI INPUT 1 tag no ZERO INPUT INPUT 1 tag no INPUT ZEROED X X SECONDS Upper Range URV1 tag no Upper Range Value span of the current PV Value 100 value Units This is the value of Input which will generate 10096 Output Lower Range Lave LRV1 tag no Lower Range Value zero of the current PV Value 0 value Units This is the value of Input which will generate 096 Output Zero Point Procedure to adjust transmitter zero Adjustment SHIFT measurement point Request to Zero Input Press to Exit A physical input equival
86. 000 Smart Coriolis Mass Flowmeter SCM 3000 Smart Gas Chromatograph SGC 3000 and Smart Multivariable Transmitter SMV 3000 The specific instructions for using the SFC with SCM 3000 and SGC 3000 are contained in User s Manual for that specific instrument You can use the STS103 to e Select the Communications Mode Command the SFI to transmit its output signal in either an Analog 4 20 mA mode or in the Digital Communications DE mode e Configure Enter the desired operating parameters For example LRV URV Damping Failsafe Mode Configuration Parameters into the Smart Field Instrument e Diagnose Access the SFI self diagnostic capabilities to troubleshoot suspected operation or communication problems e Calibrate The SFC provides a simplified procedure for calibrating Smart Field Instruments thus maintaining excellent accuracy with significantly reduced maintenance requirements e Display Readout all the configured operating parameters from the SFI as well as other data such as PROM Serial Number Device ID Scratch pad memory Sensor Temperature Input values in selected Engineering Units and others Continued on next page 4 99 STS103 Operating Guide 1 1 1 Introduction continued Operation continued Checkout Put the SFI in the Output mode and command the SFI to transmit a precise signal selectable from 0 to 100 full scale to assist you in verifying loop operation loop
87. 128 Operating Data 168 Prompt hierarchy 130 Pulse Configure configuration elements 749 Pulse Output configuration 148 Range Config configuration elements 133 Ranging function 134 Selecting a parameter 131 4 99 STS103 Operating Guide 255 MagneW3000 cont d Selecting the units 723 Set Trip Value configuration 151 STS103 MagneW connections 117 Totalizer Menu elements 146 Trouble shooting Procedure 175 Units key 132 Multiple process variables 17 N Non critical status 25 O OK Status 25 Operation SFC Changing the span of the device 36 Changing the upper range limit 37 Constant current source 43 Diagnostic Messages 26 Displaying the SFI diagnostic status 4 Displaying the software version 47 Introduction 23 Output mode see section 3 5 39 Resetting the SFI 38 Self diagnostics 25 Software version 47 Writing data in the scratch pad 42 Output characterization PV3 Selecting 201 output mode 39 P Physical description 3 Power up key and display sequences 24 Probe config 95 Probe types 97 Ranging functions 134 Scratch pad 42 SMV 3000 Adjusting the damping time 786 Algorithm selection for PV4 207 SMV 3000 cont d Defining flow equation for PV4 203 Output characterization for PV3 201 PV1 priority 183 Selecting engineering units 788 Tag number 183 Entering a sample tag number 183 Thermocouple fault detection for PV3 200 Algorithm par
88. 25 CE Conformity 3 Charging terminal 8 Communications Analog 10 Digital 70 How data is transferred 0 Types of 10 Communications mode 28 Configuration key 19 Configuration key sequence 19 Connections IS panels 9 Smart field instrument 9 Constant current source 44 Corrects Reset 38 Critical status 25 D Damping current constant 33 Diagnostic messages SFC display 256 Diagnostics 6 Digital Communication Mode 10 Digital data exchange 12 Disconnect the STS103 45 Displaying and calibrating the current Input 40 E EMC classification 3 Exit configuration 62 Function Function key sequence 8 Function keys 7 Key functions 5 Keypad 4 Keypad color groups 14 LCD display 15 Low battery voltage 25 Lower Range Value LRV 34 M MagneW 3000 Magnetic Flowmeter 115 MagneW3000 Alarm Config configuration elements 740 Calibration menu hierarchy 761 Calibration setup 155 Changing the communications mode 125 configure the elements for DE Communications mode 127 Copying data into non volatile memory 121 DAC calibration 159 DE configuration elements 726 Detector Config configuration element 738 DI DO check 166 Digital I O configuration elements 144 Excitation current calibration 163 Excitation current check 62 Failsafe Config configuration elements 142 Gain calibration 165 Keying in the I D and uploading the database 1 8 Keying in the upper range value Span
89. 4 2 Selecting the ST 3000 Units Step Press SFC Display will Read Result 1 D Display shows the currently selected PV number NITS X TAG NO for example UNITS 1 and the currently selected unit The example display shows PSI 2 A UNITS X TAG NO Press this key until you see the required unit in NEXT KPa the lower display The available selections are or shown above 3 UNITS X tag no The SFC will now display the values for LRV ENTER READY URV SPAN URL and INPUT in the unit YES selected Continued on next page 54 STS103 Operating Guide 4 99 4 3 Set up Continued Changing the The ST 3000 transmitter operates in either an Analog mode or a Digital communications mode mode DE communications mode You can quickly change from one mode to another using the SFC See Section 1 4 STS103 SFI Communication for format descriptions Figure 4 4 is a graphic view of the key presses required to change the communication mode Figure 4 4 Changing the ST 3000 Communications Mode SFI Type TAG NO READY MD A or From Analog Mode AIDE TAG NO CHNG TO DE From Digital Mode A DE TAG NO CHNG TO ANALOG AIDE TAG NO ARE YOU SURE Device ID TAG NO READY AIDE TAG NO SFC WORKING AIDE TAG NO ANALOG XMTR AIDE TAG NO DE XMTR 20302 Continued on next page 4 99 STS103 Operating Guide 55 4 3 Set up Continued
90. 5 Table 2 6 Table 3 1 Table 3 2 Table 3 3 Table 3 4 Table 3 5 Table 4 1 Table 4 2 Table 4 3 Table 4 4 Table 4 5 Table 4 6 Table 4 7 Table 4 8 Table 4 9 Table 5 1 Table 5 2 Table 5 3 Table 5 4 Table 5 5 Table 5 6 Table 5 7 Table 5 8 Table 5 9 Table 5 10 Table 5 11 Table 6 1 Table 6 2 Table 6 3 Table 6 4 Table 6 5 Table 6 6 Table 6 7 Table 6 8 Table 6 9 Table 6 10 Table 6 11 Table 6 12 Table 6 13 Table 6 14 Table 6 15 Table 6 16 Table 6 17 Table 6 18 Table 6 19 Model 575103 Specifications sse 2 STS103 Key Functions are eere en turo ea eontra nn aan 5 Communication Format Description 10 Typical Digital Data Exchange Sequence of Events 12 STS103 Key Color Group 14 LCD Display F nctions rerit 15 STS103 LCD Character Definitions and General Rules 16 Function Key 18 Configuration Key Sequence sse 19 Other Key 21 Diagnostic Messages for SFC sse 26 DE Configuration Elements 29 Storing Data in Non volatile memory eeeeeeeene 32 Using the SFI as a Constant Current source 44 Disconnect Check List eene 45 Key
91. 6 NOTE 3 GAIN CALIBRATION GAIN CAL 10 M S AIN CA ONZ CLR GAIN MODE BRA GAIN CALIBRATION SFC WORKING XX NOTE 1 Connect a DVM across the 250 ohm resistor and set the DVM to the volts mode See Figure 6 20 NOTE 2 Apply an input from the MagneW calibrator to match the value on the SFC display and wait until the DVM value stabilizes NOTE 3 Gain calibration for each value takes approximately 35 seconds XX indicates percent of gain process complete for example SFC WORKING 52 20311 Continued on next page 4 99 STS103 Operating Guide 165 6 5 DI DO check Calibration continued DI DO Digital Input Digital Output check lets you verify the OPEN or CLOSED state of the digital input and output and physically switch the DO state Figure 6 25 gives you the key presses displays and rules notes required to do a DI DO check Figure 6 25 MagneW 3000 DI DO Check from Figure 6 21 CALIBRATE MENU DI DO CHECK DI DO CHECK DI OPEN DO XXXX NOTE 2 DI DO CHECK DO CLOS NOTE 3 DI DO CHECK DO OPEN NOTE 3 DI DO CHECK CLR DI DO MODE DI DO CHECK SFC WORKING DI DO CHECK SFC WORKING DI DO CHECK SFC WORKING NOTE 1 Reads the actual ststus of the DIGITAL INPUT DIGITAL OUTPUT displays every 6 seconds NOTE 2 XXXX can read DO OPEN or DO CLOS change selection next display DI can also be open or closed
92. 6 11 is a graphic view of the key presses required to configure the configuration graphic Detector Data elements Figure 6 11 MagneW 3000 Detector Data Configuration to go Press RANGE CONFIG to go Press NEXT ALARM CONFIG MAG SR XXXXXXX READY until you see SFM CONFIG DETECTOR CONFIG Press SFM CONFIG SFM CONFIG SFC WORKING UNITS KEY DETECTOR CONFIG ENTER SFC WORKING DETECTOR CONFIG 2000 DETECTOR CONFIG wens DETECTOR CONFIG TYPE KID gu DIAMETER 2 5 upto NOTE 1 up to DETECTOR CONFIG DETECTOR CONFIG DETECTOR CONFIG 399 9 MA EX TYPE NNM DIAMETER 700 0 NOTE 3 use to change excitation DETECTOR CONFIG TYPE NNK DUMMY 0 DETECTOR CONFIG YPE NNK DUMMY 9 NOTE 2 DETECTOR CONFIG CLR LR em DOWNLOAD CHANGE NOTE 1 Select KID type when using Smart MagneW 3000 DETECTOR CONFIG SFC WORKING NOTE 2 NUMBER OF DUMMIES integer values 0 to 9 NOTE 3 Diameter list 2 5MM 5MM 10MM 15 MM 25MM 40MM 50MM 80MM 100MM 20305 150MM 200MM 250MM 300MM 350MM 400MM 500MM 600MM 700MM Continued on next page 4 99 STS103 Operating Guide 139 6 4 Configuration continued Alarm Config Alarm Config configuration This configuration group of parameters lets you set high and low alarm point settings based on the detected flowrate percentage Selections may be limited Refer to Table 6 7 for re
93. CD display A new keypad with improved key responsiveness Direct key access for the most used functions Configuration key access for SFI specific configuration and lesser used functions This section contains the following topics Topic See Page 2 1 Overview 13 2 2 Keypad Functions 14 2 3 Display Functions 15 24 Prompt Character Definitions 16 2 5 Function Key Data Entry 17 2 6 Configuration Key Data Entry 19 2 7 Other Key Sequences 21 4 99 STS103 Operating Guide 13 2 2 Keypad Functions Keypad color groups Key color group description The keypad keys are grouped in several different colors that correspond to specific functions Figure 2 1 shows the grouping of the STS103 keys Figure 2 1 STS103 Keypad Color Groups Green Orange Olive Yellow NUM CLR Wm ij NO Orange Tem White Black 20726 Table 2 1 describes the key color grouping on the STS103 Table 2 1 STS103 Key Color Group Description Key Color Description Green The green keys are used to enter and verify SFI configuration data Orange The orange keys are keys the operator uses to control the actions of the STS103 and SFls These keys also select and set parameters for the SFls Yellow The primary function of the yellow keys is to enter numeric data into the STS103 Data may be entered into the scratch pad memory of certain SFls and the software
94. CONE em SPT CONFIG CONFORMITY SPT CONFIG ENTER CONFORMITY CONFORMITY LINEAR SPT CONFIG SFC WORKING SPT CONFIG SFC WORKING SAVE DATA DATA SAVED RESTORE DATA DATA RESTORED SPT CONFIG REPEAT LIST NOTE 1 Updated every 8 seconds NOTE 2 Press UNITS KEY to change F K R Then press ENTER to return to Sensor Temperature update NOTE 3 Displays PROM Number 20326 4 99 STS103 Operating Guide 63 4 5 Output Calibration Introduction Do a DAC calibration To calibrate the output of an Analog transmitter connect a precision volt or ammeter at the appropriate connection point on your system or use the control room display to monitor the output signal If the or 100 output is not correct you can do a Digital to Analog Current Output Signal Calibration With this procedure you can calibrate the digital to analog current output zero and span Use the procedure in Table 4 7 to enter the Output mode check the 0 and 10046 output value and if necessary do a digital to analog current output signal calibration Table 4 7 ST 3000 Digital to Analog Current Output Signal Calibration Step Press SFC Display will Read Result 1 Connect a precision volt or ammeter at the appropriate connection point on your system or use the control room display to monitor the output signal 2 OUTP 1 tag SFC is ready to calibra
95. Data x pendiente ter n rte needs 240 Critical Status Diagnostic Message 245 Non Critical Status Diagnostic Message Table 247 Communication Status Message 250 Informational Status Message 251 SFC Diagnostic Message Table 252 Accessing SMV 3000 Diagnostic Information using the SFC 253 STS103 Operating Guide 4 99 Acronyms Did cR Absolute Pressure Bom ERN Digital to Analog Digital Communications see CEU Digital Input Digital Output B DEEP Differential Pressure BERE Dual Range Bu Digital Voltmeter epe Ground Em Gauge Pressure EE Input Output a ia Liquid Crystal Display ve dp er epe certa Process Variable SEG i is verbose eed tot o ou Rega ash ed vu done ga Smart Field Communicator DEL pM Smart Field Instrument lem EXE Single Range Parameters BR Pi iniu ADHERE Aa EDU ED Barrels per pulse ge EM Cubic centimeters per pulse DAME siio iunior ie niai ideo iu ets Damping value J Engineering units FS DIB du Erie ficca eate Eder dete aeo Failsafe Direction Clu
96. Digital mode DE communications mode Model STT25M operates in analog mode only You can quickly change from one mode to another using the See Section 1 4 STS103 SFI Communication for format descriptions Figure 5 6 is a graphic view of the key presses required to change the communication mode Changing the STT 3000 Communications Mode Device ID TAG NO READY SFI Type TAG NO READY MD A or From Analog Mode AIDE TAG NO CHNG TO DE From Digital Mode A DE TAG NO CHNG TO ANALOG AIDE TAG NO ARE YOU SURE AIDE TAG NO SFC WORKING AIDE TAG NO ANALOG XMTR AIDE TAG NO DE XMTR 20302 Continued on next page 86 STS103 Operating Guide 4 99 5 3 Set up Continued Selecting configuration You determine how the Digital PV data is handled by configuring the DE data for the digital DE configuration elements shown in Table 5 3 communications mode Table 5 3 STT 3000 DE Configuration Elements Element Selections And Definitions Single Range Type of Transmitter This element selects the type of transmitter operation The selections are Single Range W SV Working Range PV PVw with sensor temperature Dual Range STDC Full range PV PVt and Working range PV PVw Working range PV PVw for STDC card or STI module for STDC card or STI Module For STDC only w o DB
97. EC MAG XX tag no ay READY Continued on next page 158 STS103 Operating Guide 4 99 6 5 Do a DAC calibration Calibration continued With this procedure you can calibrate the digital to analog current output zero and span ANALOG FLOWMETERS ONLY Use the procedure in Table 6 17 to do a digital to analog current output signal calibration Table 6 17 MagneW 3000 Digital to Analog Current Output Signal Calibration Step Press SFC Display will Read Result 1 Connect a DVM across the 250 ohm resistor as shown in Figure 6 20 Calibration Set up 2 cid OUTP1 tag The SFC is ready to calibrate 0 output or 100 SFC WORKING output PUT then OUTP 1 tagno 10 000 RNG 1 3 OUTP1 tag no To select 096 output 0 RNG1 4 dac OUTP 1 tag no in display indicates the transmitter is in the put SFC WORKING Output mode then OUTP1 tagno 0 00 RNG1 5 Check the DVM If the value on the DVM is 1 00 volt go to step 9 100 calibration If the value on the DVM is not 1 00 volt go to step 6 to correct DAC zero 6 OUTP 1 tag no Allows correction of DAC zero SFC WORKING RECT then OUTP1 tag no CORRECT DAC ZERO 7 A OUTP1 tag no To adjust the value on the DVM to 1 00 volt bp INCREASED 4 When 1 00 volt is shown on the DVM go to step v or 8 OUTP1 tag no DECREASED 4 MA then OUTP1 tag no CORRECT DAC ZER
98. EXT key to call up next configuration parameter 2 NON VOL TeTO N FTOTRIMTITTTVT T Present output conformity for PV1 is ENTER linear es 1 Te o N FToTRIMI TTIV T Present output conformity for PV1 is jSJQjUJAJR E square root 3 DE CONF ISToINIFIOTRIMHTTIVEL T T T TL T Change output conformity to square MEM jsjoju A n E RjoJo T P vI4T Tefo NTFTo RIM UTTTIV T Change output conformity to linear 4 NON VOL TeTo N FTOTRIM TTTY T Conformity change is entered in ENTER jslo u A R E riod SFC es Prompt asks if you want to download Jo m A NEGET change to transmitter If you want to download change go to Step 5 If you do not want to download change press CLR key to return to initial prompt in Step 1 5 NON VOL ISTOoINIFIOTRIMHTTIVL T T T TL T Message exchange is working ENTER SjF c INIGI J E Output conformity is changed in IIT TT T TSIMIVI transmitter Press s NEXT key to PP Vit clolN Flo RM TIT Y next parameter or CLR to exit function 184 STS103 Operating Guide 4 99 7 3 Adjusting Damping Configuration Continued You can adjust the damping time individually for these process variables Time to reduce the output noise Differential Pressure PV1 and Sta
99. FETTE Message exchange is working ET T st Applied LRV setting stored in 12121 olo TAF c I ij transmitter s working memory 7 Apply known input signal to transmitter that represents URV for PV3 for 10096 20 mAdc output 8 Js T Present URV setting for PV3 Input Tage 7 7 2 0 AF for 20 mAdc 100 output 9 G Js T loia Prompt asks if you want to set URV SET isis to applied pressure If you don t want to set URV press CLR key to exit function Otherwise go to Step 10 Continued on next page 226 STS103 Operating Guide 4 99 7 3 Configuration Continued Setting range values for PV3 to applied input signals continued Table 7 22 Setting LRV and URV for PV3 to Applied Input Signals continued Step Press Key Read Display or Action Description 10 NON VOL T Message exchange is working ENTER S F C j Yes j3 FIT aloji Applied URV setting stored in HF transmitter s working memory 11 TST T T TFPEIT eN Initiates shift key selection TST eS Ie Wd s F c I w o R K INIG Saves data in transmitter s FURPVETST T T STEHT d nonvolatile memory This takes N O N LE approximately 8 seconds shiv
100. G SCRATCH PAD1 1 SCRATCH PAD1 2 XXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXX NUM ALPHA tO Switch between Alpha and numeric mode A lt gt DE y Q to step forward and backward through text DE READ thru to enter Alpha characters B 7 to enter numbers Example SCRATCH PAD 1 A wv THIS IS TEST 001 _ NEXT PREV SCRATCH PAD 2 THIS IS TEST 001 NON VOL ENTER YES SFI Type TAG NO READY 20740 42 STS103 Operating Guide 4 99 3 5 Using the Transmitter as a Current Source Introduction One of the unique features of a Smart Field Instrument is its ability to be used as a constant current source This feature allows you to use it for calibrating other instruments in the loop such as recorders controllers and positioners As you know the output of the SFI ranges from 4 to 20 milliamps where 4 mA 0 output and 20 mA 100 output Using the STS103 you can tell the SFI to change its output to any value between 0 and 10096 and maintain that output Then you can use this output as a calibration input source to the other instruments in the loop Note that the current output mode overrides all other PV data from the SFI including the burnout data in the Digital Communications mode When you use the SFI as a current source it no longer acts as a SFI Make sure to clear this output mode when you are finished Continued on next page 4 99
101. Honeywell Smart Field Communicator Model STS103 Operating Guide 34 ST 11 14F 4 99 Tetal Plant Copyright Notices and Trademarks Copyright 1995 by Honeywell Inc Revision F 4 99 While this information is presented in good faith and believed to be accurate Honeywell disclaims the implied warranties of merchantability and fitness for a particular purpose and makes no express warranties except as may be stated in its written agreement with and for its customer In no event is Honeywell liable to anyone for any indirect special or consequential damages The information and specifications in this document are subject to change without notice This document was prepared using Information Mapping methodologies and formatting principles Information Mapping is a registered trademark of Information Mapping Inc ST 3000 and SFC are U S registered trademarks of Honeywell Inc Honeywell Industrial Automation and Control Automation College 2820 West Kelton Lane Phoenix Arizona 85023 STS103 Operating Guide 4 99 About This Publication This manual provides operating instructions for the STS103 The operating instructions cover the use of the SFC with the Smart Pressure Transmitter ST 3000 the Smart Temperature Transmitter STT 3000 Models STT350 STT25D STT25M STT302 and STT300 the Magnetic Flowmeter MagneW 3000 and the Smart Multivariable Transmitter SMV 3000 The operating instructions for usin
102. ING STT CONFIG UNIT CJT STT CONFIG UNIT CJT STT CONFIG STT CONFIG STT CONFIG READ HI LOW PV XX XXX UNIT LO NEXT UNIT HI NEXT STT CONFIG SER XXXXXXXXXX READ ONLY STT CONFIG ENS SAVE RESTORE Enters SAVE RESTORE Data JM See Figure 5 12 STT CONFIG REPEAT LIST NTER goes to STT CONFIG CHANGE CONFIG CLR goes to STT TAG NO NOTE 1 Changes UNITS selection each time it is pressed NOTE 2 Returns LRL display with new unit and associated value displayed NOTE 3 CJT internal C J ECJT external C J at an isotherm block Display is determined by selecting Internal or External C J in PROBE CONFIG See Figure 5 11 20327 Continued on next page 94 STS103 Operating Guide 4 99 5 4 Configuration continued Probe config This configuration subgroup of parameters lets you select the Probe function elements Probe config elements The elements of Probe Config are listed in Table 5 7 Table 5 7 STT 3000 Probe Configuration Elements Element Definition PROBE This selects the probe or actuation type to be accepted as input to the transmitter There are 21 selections from which to choose Refer to Table 5 8 for selections and applicable range and span data for each probe type This selects the source of the cold junction temperature for thermocouple inputs INTERNAL The C J temperature is sensed internally
103. If you want to c ciel download change go to Step 6 If you do not want to download change press CLR key to exit function 6 NON VOL T T Message exchange is working This ENTER STFC W O R R N 8 action only applies when a Yes configuration parameter is changed Otherwise the message NO CHANGES MADE appears Parameter change is loaded into SIMIv c olNiFT lG H xhde s oae sr transmitter s working memory Press S NEXT key to access another configuration function or CLR key to exit function 216 STS103 Operating Guide 4 99 7 3 Configuration Continued Setting range values for PV1 ATTENTION You can set the Lower Range Value LRV and Upper Range Value for the differential pressure input PV1 by either keying in the desired values through the SFC keyboard or applying the corresponding LRV and URV pressures directly to the transmitter Table 7 17 gives the procedure for keying in the range values for a sample 5 to 45 inH5 O at 39 2 F 4 C range e We factory calibrate SMV 3000 Smart Multivariable Transmitters with inches of water ranges using inches of water pressure referenced to a temperature of 39 2 F 4 C e For a reverse range enter the upper range value as the LRV and the lower range value as URV For example to make a 0 to 50 inH2O range a reverse range enter 50 as the LRV and 0 as the URV The
104. KING UNITS KEY TOTALIZER MENU Enter Totalizer Menu TOTALIZER MENU SFC WORKING TOTALIZE MENU NOTE 1 NO PULSE CARD 4 TOTALIZE MENU READ TOTAL or cLR READ TOTAL 000000 COUNTS NOTE 2 Ay Y TOTALIZE MENU ENTER PULSE OUTPUT Read Pulse Output See Figure 6 16 PULSE OUTPUT AvV TOTALIZE MENU i i 2 PULSE CONFIG PULSE CONFIG Configure Pulse Elements See Figure 6 17 AVV TOTALIZE MENU ENTER SET TRIP VALUE enren SET TRIP VALUE Change Preset value of counter See Figure 6 18 NOTE 3 AV a m TOTALIZE MENU ENTER RESET TOTALIZE ENTER RESET TOTALIZE RESET TOTALIZE 112233 RESET TOTAL RESET AYY TOTALIZE MENU REPEAT LIST TOTALIZE MENU NO PULSE CARD CLR NOTE 1 Displayed if Pulse Card not installed other selections not valid NOTE 2 Read Total Counts every 6 seconds NOTE 3 Valid only if Pulse Configuration Preset 20318 Continued on next page 4 99 STS103 Operating Guide 147 6 4 Configuration continued Pulse Output Pulse output can be for a Single or Dual Range selection The active pulse output 1 or 42 is read every four seconds You can simulate an output value on range 1 or 2 if RANGE AUTO DUAL or EXT DUAL has been selected by selecting a value using the 0 through 9 keys Pulse Output A Figure 6 16 is a graphic view of the key presses required to read the Pulse configuration graphic Output Range percent
105. MP 1 tag no X X SECONDS Upper Range R URV1 tag no Upper Range Value span Value 100 value Units The value of Input which will generate 100 Output Lower Range ave LRV1 tagno Lower Range Value zero Value 0 value Units The value of Input which will generate 0 Output Digital Communications Mode then i i DE CONF ursus tagno Type of Transmitter operation SINGLE RANGE A DE CONF tag no Broadcast Message Format NEXT w o DB 4byte H DE CONF tag no Burnout Mode F S B O Lo Input Value A SHIFT then INPUT INPUT 1 Indicates the temperature in an engineering OUT PUT EH 0 0000 C or F unit of measure Table continued on next page 106 STS103 Operating Guide 4 99 5 6 Operating data continued Table 5 10 Operation Continued STT 3000 Operating Data continued Operating Data Press Displays Displays are examples Result Output Value INPUT OUT PUT a8 OUTP 1 tag no 0 00096 Indicates the percent output Currently URE SPAN 1 tag no Span is the URV LRV or the range of input Running Span 100 00 F corresponding to a full range 0 100 of output Upper Range Limit SHIFT then URL 1 tag no The URL is the maximum measuring range of 100 00 F the selected Thermocouple as per the Table in section 5 8 Engineering UNITS TAG NO The present selection of
106. N oN V O approximately 8 seconds is MIvL 9 FUTRTIVT 47 T T TFT slept I Initiates shift key selection ENTER Yes irejoj FL ET TT B DE configuration You must configure these additional parameters for a transmitter in the parameters DE mode of operation PVs for Broadcast Message Format This section and the next cover how to configure these parameters individually However once you enter the DE configuration function you can access all DE configuration parameters serially without exiting the function NEXT PREV Just use the and keys to step through the parameter selections Selecting PVs for You can select which transmitter Process Variables PVs are to be broadcast broadcast as part of the transmitter s digital transmission including PV1 with or without the secondary variable The procedure in Table 7 25 outlines the steps for selecting PVs for broadcast You can only turn PVs ON in sequence If you turn ON PV2 you can turn ON PV3 If you turn ON PV2 and PV3 you can turn ON PVA If you turn OFF PV2 you must turn OFF PV3 and PV4 Likewise if you turn OFF PV3 you must turn OFF PV4 Continued on next page 4 99 STS103 Operating Guide 231 7 3 Configuration Continued Selecting PVs for broadcast continued Table 7 25 Selecting PVs for Broadcast Step Press Key Read Display or Action Descripti
107. NO The ID and database are loaded YES SFC WORKING then STT TAG NO New ID DIGITAL TRANSMITTERS 4 DE READ A ID TAG NO SFC WORKING Then DE XMTR TAG No XXXXXXXX The top line indicates that the transmitter is configured for DE Communications mode Notice the line under the first character of the ID on the bottom line This is the cursor and indicates where you can key in an ID Alpha numeric entries of up to 8 characters are permitted If the STT 3000 was not given an ID the line will be blank with a cursor 5 NUM E until you see STT TAG NO Or STT TAG NO An indicates that the prompt is looking for an alpha character The letters are located in the upper right corner of the keys A E indicates the prompt is looking for a number The numbers are on the yellow keys Press NUM ALPHA key to change from Alpha to Numeric mode or vice versa One of the symbols appears on the display and in place of the first character of the old ID The rest of the old ID disappears Key in your ID using the NUM ALPHA key the letters and numbers on the keys 82 STS103 Operating Guide 4 99 5 3 Set up Continued Keying in the ID and uploading the database continued Table 5 1 Keying in the STT 3000 ID and Uploading the Database Procedure continued Step Press SFC Display will Read Result DIGITAL
108. O Table continued on next page 4 99 STS103 Operating Guide 159 6 5 Calibration continued Do a DAC calibration continued Table 6 17 MagneW 3000 Digital to Analog Current Output Signal Calibration continued Step Press SFC Display will Read Result 8 CLR OUTP1 tag 0 output calibrated go to step 9 100 NO 0 00 RNG 1 calibration 9 a OUTP1 tag This selects 100 output 100 00 RNG 1 in display indicates the transmitter is in the L5 Output mode 10 PONO OUTP1 tag no Check the DVM pub SEC WORKING If the value on the DVM is 5 000 volts go to step 13 then If the value on the DVM is not 5 000 volts go to OUTP1 tag step 11 to correct DAC span 100 00 RNG 1 11 OUTP 1 tag no Allows correction of DAC span SFC WORKING then OUTP1 tag no CORRECT DAC SPA 12 OUTP1 tag no To adjust the value on the DVM to 5 00 volts o INCREASED MA When 5 000 volts is shown on the DVM go to step 13 v PREV OUTP1 tag no DECREASED 20 MA then OUTP 1 tag no CORRECT DAC SPA INPUT i i i 13 m OUTP1 tag Exits DAC calibration mode UT 100 00 RNG 1 Exits current output mode CLR MAG SR tag no then 9 READY Continued on next page 160 STS103 Operating Guide 4 99 6 5 Calibration menu hierarchy Calibration continued The Calibrate Menu prompts are reached on the SFC through the CONF key Figur
109. OWMETERS 4 DE READ TAG NO The top line indicates that the flowmeter is m SFC WORKING configured for DE Communications mode Th Notice the line under the first character of the ID en on the bottom line This is the cursor and indicates where you can key in an ID Alpha numeric entries of up to 8 characters are permitted If the MagneW was not given an ID the line will be blank with a cursor Table continued on next page 4 99 STS103 Operating Guide 119 6 3 Set up Continued Keying in the ID and uploading the database continued Table 6 1 Keying in the MagneW 3000 ID and Uploading Database Procedure continued Step Press SFC Display will Read Result DIGITAL FLOWMETERS continued 5 VT UEC ARENO An indicates that the prompt is looking for an alpha character The letters are located in the upper right corner of the keys or until you A E indicates the prompt is looking for a number see The numbers are on the yellow keys Press NUM ALPHA key to change from Alpha to Numeric mode or vice versa One of the symbols appears on the display and in place of the first character of the old ID The rest of the old ID disappears Key in your ID using the NUM ALPHA key the letters and numbers on the keys 6 plea ig MAG XX TAG NO The ID is loaded into the flowmeter pol SFC WORKING then MAG XX TAG NO New ID 7 MAGXX TAGNO This loads the Digital flowmeter database
110. PHA key toggles between the alpha mode or numeric mode ALPHA for the STS103 In the alpha mode the capital letter or character in the upper right hand corner of the keys is input when that key is pressed In the numeric mode the number is input or the indicated first function is performed The black SHIFT key enables the second function above certain keys to be SHIFT performed When shifted functions are enabled the word SHIFT is displayed on line two of the display The second function desired must be selected immediately after the Shift key is pressed The Shift key upper right hand character the caret character is input when in the alpha mode The white CLR NO key cancels the current function or task when pressed and CLR backs out to its previous operating state The NO or negative response function NO is used in response to questions in the LCD display or decisions NON VOL The orange ENTER YES NON VOL key is used to send a write set command to the RAM memory in an SFI or to answer Yes to prompts The NON VOL NES second function writes data into the non volatile memory of an SFI DE READ The Alpha keys A Z input the alpha character in the upper right hand corner when the alpha mode is activated The alpha mode is available to enter an ID name or to use the Scratch Pad The cursor is replaced by a character when the alpha mode is activated gt M D e s N The yellow Numeric keys 0 9 input t
111. PV4 It is not necessary to key in a decimal point and zeros for a N 4 riv 211 whole number Patz tT o p nis tty TT 2 fs oy 5 NON VOL 4 32111 Message exchange is working pani rst Flo WORK Ne Yes ee aT Teele Now loreem le o mlh T transmitter s working memory 6 F FUTRTVE 4 T T TSTe T3 Present URV setting for PV4 Flow Io Pat fey mel rate for 20 mAdc 100 output Note that this value was automatically compensated for previous change in LRV value 7 T4T T T loi Key in 650 as desired URV setting 6 del II I misih I LL 815 gmsjzin DREDGE ejsjo o n H for PV4 Continued on next page 230 STS103 Operating Guide 4 99 7 3 Configuration Continued Keying in LRV and URV for PV4 continued Table 7 24 Keying in LRV and for PV4 continued Step Press Key Read Display or Action Description 8 NON VOL FuIRT VE T4T T Message exchange is working ENTER ste 6 woe k Niel fy T Yes 3 New setting for 4 stored in e 5jo 2 2 imi3j7jn I transmitter s working memory SHIFT ma s F C K Saves data in transmitter s TOAD T4T nonvolatile memory This takes
112. PX TAG NO SFC WORKING DAMPX TAG NO NEW VALUE NOTE 1 Available Damping Settings are 0 0 0 2 0 3 0 5 1 0 2 0 4 0 8 0 16 0 20322 32 0 seconds Continued on next page 4 99 STS103 Operating Guide 53 4 3 Selecting the units in which to display values Set up Continued Although the most common units for measuring pressure are inches of water or pounds per square inch you may want it shown in another unit The SFC Model STS103 Software Rev 3 2 and up can display the values for LRV URV SPAN URL and INPUT in one of thirteen pre programmed units These are PSI Pounds per square inch KPa Kilopascals MPa Megapascals mBAR Millibar BAR Bar G em2 Grams per square centimeter Kg cm2 Kilograms per square centimeter inHg at 32F Inches of mercury at 32 F mmH20 at 4C Millimeters of water at 4 C mH20 at 4C Meters of water at 4 C inH20 at 39F Inches of water at 39 2 F inH20 at 68F Inches of water at 68 F mmHg at 0C Millimeters of mercury at 0 C ATTENTION The Honeywell factory standard for the calibration of inches of water transmitters is to use inches of water referenced to a temperature of 39 2 F When a unit is changed the SFC automatically performs a calculation for the new value and displays the new value in whichever unit you have selected Table 4 2 shows you what keys to press to select a particular unit Table
113. Press Key Read Display or Action Description 6 F 13 T T TFT Present URV setting for PV3 Tage 7 4 2 9 HF 1 Temperature for 20 mAdc 100 output Note that this value was automatically compensated for previous change in LRV value 7 T T Key 600 as desired URV setting a PE dp qu 3 1 1 lejoi I 2 3 lel jd 8 NON VOL s T T Message exchange is working ENTER sifle JWOJRIKITINIGI J purely st story New URV setting for PV3 stored in jsiejep transmitter s working memory 9 TSIe T 3T Initiates shift key selection SHIRI NON VOL s F T 30111 Saves data in transmitter s ENTER is F c nonvolatile memory This takes Yes TST T TSTeP3ET approximately 8 seconds LEE lelt Setting range values for PV3 to applied Table 7 22 gives the procedure for setting LRV and URV to sample applied input signals input signals Table 7 22 Setting LRV and URV for PV3 to Applied Input Signals Step Press Key Read Display or Action Description 1 Apply known input signal to transmitter that represents LRV for PV3 for 0 4 mAdc output 2 E FLTRTVE
114. RES LOW VOLT Either there is too much resistance in the loop open circuit the voltage is too low or both Check the wiring connections and the power supply There must be 11 Volts minimum at the flowmeter to permit operation HYSTERESIS ERROR Hysteresis is too large Reset to lower value of Hysteresis H W MISMATCH Hardware mismatch Part of Save Restore function None SFC tried to restore as much of the database as possible ILLEGAL RESPONSE Failure of communication between the SFC and the flowmeter Check the wiring load resistance etc IN LOCAL MODE Converter model KIX is operating in the Local mode None INVALID DATABASE The database of the flowmeter was not correct at power up Try communicating again Verify the database re calibrate the flowmeter and then manually update non volatile memory INVALID REQUEST The flowmeter is being asked to correct or set its URV to a value that results in too low a span or being asked to correct its URV while in the output mode Check that the proper calibrated URV input is being applied to the flowmeter or that the flowmeter is not in the output mode 4 20MA OUTPUT MODE The transmitter is operating as a current source Press the OUTPUT and keys if you want to exit the output mode LOW LOOP RES Not enough resistance in series with the communication loop Check the sensing resistor and verify at
115. RESTORE Hardware mismatch Part of None SFC tried to restore as H W MISMATCH Save Restore function much of database as possible STATUS TAG NO SFC s CPU is misconfigured Replace SFC NVM ON SEE MAN SAVE RESTORE On a database restore one or more None SFC tried to restore as OPTION MISMATCH options do not match much of database as possible STATUS TAG NO Selection is unknown Be sure SFC software is latest UNKNOWN version TAG NO Not enough resistance in series Check sensing resistor and OW LOOP RES with communication loop increase resistance to at least 2500 TAG NO SFC is operating incorrectly Try communicating again If error SFC FAULT still exists replace SFC URV 1 TAG NO SFC Value calculation is greater Press clr key and start again Be SRANGE H20 39F than display range sure special units conversion factor is not greater than display range 252 STS103 Operating Guide 4 99 7 7 Troubleshooting Diagnostics Troubleshooting Tools ATTENTION ATTENTION The SMV 3000 transmitter is constantly running internal diagnostics to monitor sensor and transmitter functions The SFC when connected to the SMV control loop monitors the transmitter functions the status of the control loop and the communications link When a diagnostic failure is detected a status is generated by the SMV The SFC will interpret the transmitter status into messages that can be viewed through the SFC display Correct
116. RKING NOTE 3 EX CALIBRATION HIGH CAL 350 0 MA LOW CAL 350MA oF SFC WORKING OTE EX CALIBRATION ENTER EX CALIBRATION CLR CAL MODE SFC WORKING pm NOTE 1 Connect a DVM across terminals CP44 and CP45 on the main Printed Circuit Board See Figure 6 20 for location NOTE 2 INCREMENT DECREMENT LIST 0 03 0 10 0 50 1 00 5 00 MA Select one NOTE 3 DVM Reading will be increased or decreased by INC DEC value selected Repeat until DVM Reading is correct 20308 Continued on next page 164 STS103 Operating Guide 4 99 6 5 Calibration continued Gain calibration Gain calibration consists of calibrating the internal gain coefficients zero point 0 0 m s 0 4 m s 1 2 m s 2 6 m s and 10 m s Gain calibration Connect a digital voltmeter across the 250 ohm resistor as shown in procedure Figure 6 20 and set the DVM to volts mode Press and verify span is set to 10 00 m sec Refer to Table 6 16 if the value is incorrect Figure 6 24 gives you the key presses displays and rules notes required to calibrate the internal gain coefficients Figure 6 24 MagneW 3000 Gain Calibration CLR from Figure 6 21 NOTE 1 GAIN CALIBRATION SFC WORKING XX 96 GAIN CALIBRATION SFC WORKING XX 96 GAIN CALIBRATION SFC WORKING XX 96 GAIN CALIBRATION GAIN CAL 1 2 M S GAIN CALIBRATION SFC WORKING XX 96 NOTE 3 GAIN CALIBRATION SFC WORKING XX 9
117. RV URV1 tag no Range 1 The value of Input which will 100 value Units generate 100 Output ange Upper Range URV2 tag no URV 2 1 is the value for range 2 of PV1 Value value Units URV 2 1 is the value of input which Range 2 corresponds to 100 output when MagneW is then measuring flow based on the second range of a dual range setup URV Digital Communications SMIET Mode then i i DE CONF Type of Flowmeter operation SINGLE RANGE ry DE CONF tag no Broadcast Message Format NEXT w o DB 4byte H A DE CONF tag no Burnout Mode F S B O Lo Input Value A SHIFT then INPUT 7 INPUT 1 tag Indicates the instantaneous flow rate a 0 0000 Kg h user selected engineering unit of measure Table continued on next page 168 STS103 Operating Guide 4 99 6 6 Operating Data Operation Continued continued Table 6 18 3000 Operating Data continued Operating Data Press Displays Result Displays are examples Output Value MEE OUTP 1 tag no Indicates in percent the instantaneous flow our rate represented by the 4 20 mA signal and PUT 0 000 RNG X the range number RNG 1 Range 1 RNG 2 Range 2 Currently i SPAN 1 tag no Span is the URV LRV or the range of input Running Span 0 0000 Kg h corresponding to a full range 0 100 of output Upper Range Limit SHIFT then URL 1 tag no The highest valu
118. STS103 Operating Guide 4 99 1 2 STS103 Physical and Functional Description STS103 physical description EMC classification CE Conformity Europe The STS103 is a hand held unit that has a 2 line by 16 character digital liquid crystal display LCD and a keypad The STS103 connects to the SFI by way of a cable connected to the SFI junction box terminals A NiCd battery pack allows the STS103 to be used in the field without the need for input power The STS103 is shown in Figure 1 1 Figure 1 1 Smart Field Communicator STS103 Industrial Control Equipment Group 1 Class A ISM Equipment ref EN 55011 This product is in conformity with the protection requirements of European Council Directive 89 336 EEC the EMC Directive Conformity of this product with any other CE Mark Directive s shall not be assumed Deviation from the operating conditions specified may invalidate this product s conformity with the EMC Directive ATTENTION The emission limits of EN 50081 2 are designed to provide reasonable protection against harmful interference when this equipment is operated in an industrial environment Operation of this equipment in a residential area may cause harmful interference This equipment generates uses and can radiate radio frequency energy and may cause interference to radio and television reception when the equipment is used closer than 30 meters 98 feet to the antenna e In spe
119. T 11 NON VOL TAT LG PLATRIM Kjulsjelr Enters change in scaling factor value ENTER 1 sfelcl SFC and prompt asks if change Yes entered in SFC is to be downloaded A pp to transmitter This is only valid if you WIN CjHJAJNIG EI i make a change in Step 10 Otherwise must press s NEXT key to call up next selection DOWNLOAD CHANGE If you want to download change go to Step 12 If you do not want to download change press CLR key to exit function 12 NON VOL Teo NIFT Te T T T T T Message exchange is working This ENTER SFE 8 X7 WS action only applies when a Yes configuration parameter is changed Otherwise the message NO CHANGES MADE appears Parameter change is loaded into SIMIVT c transmitter s working memory Press s NEXT key to access another configuration function or CLR key to exit function Continued on next page 4 99 STS103 Operating Guide 213 7 3 Configuration Continued Setting low flow cutoff Table 7 15 gives the steps for setting the low and high limits for low flow limits for PV4 cutoff for PV4 output Note that values used in this procedure are for reference purposes only Table 7 15__ Setting Low and High Limits for Low Flow Cutoff Step Press Key Read Display or Action Description 1 B II TTTTSIMIVI Ca
120. T TFT 14 Saves data in transmitter s ENTER wolk T nonvolatile memory This takes approximately 8 seconds 4 F T TIAL deity 21 ALLAR T4T TSTe i 4 Present output signal level in OUT Higo oo Percent PUT 22 CLR IsIMvI T T Ilohi Exit constant current source mode NO III 238 575103 Operating Guide 4 99 7 5 Operation Overview The STS103 displays all the operating data for the SMV 3000 Multivariable Transmitter This data includes Transmitter I D Current PV number selection Damping value Upper range value span Configuration elements for Digital DE Communications mode Input value Output Value e Span value Upper range limit Engineering units Operation Status Failsafe Direction Sensor meter body temperature Cold Junction temperature High Low PV Lower range limit PROM serial number Software Version Number Zero Point adjustment Display and Keyboard Test Read Scratch Pad messages Refer to Table 4 5 for Operating Data access instructions Continued on next page 4 99 STS103 Operating Guide 239 7 5 Operating data Table 7 28 Operation Continued Table 7 28 shows you what key to press and what the associated displays will be when you access each of the operating data ST 30
121. TE 3 Selection valid if RANGE AUTO or AUTODUAL RANGE CONFIG DISPLAY RANGE CONFIG DISP FLOWRATE Hysteresis values selectable from 00 to 20 in 1 increments RANGE CONFIG DISP TOTAL RANGE CONFIG NO DISPLAY NOTE 5 m CLR MagneW 7 memory Value can also be keyed in using Alphanumeric keys NOTE 4 CUT OFF VALUES selectable from 0095 to 10 in 196 increments NOTE 5 Will appear if no Local Setting Card or Display Card is installed RANGE CONFIG SFC WORKING 20315 Continued on next page 4 99 STS103 Operating Guide 137 6 4 Configuration continued Detector Config This configuration group of parameters let you select the Detector Data elements Detector Config The elements of Detector Config are listed in Table 6 8 See Figure 6 11 configuration elements for key presses Table 6 8 MagneW 3000 Detector Config Elements Element Definition EXCITATION CURRENT The excitation coil current setting should be set to match the value stamped on the nameplate of the detector connected to the transmitter DETECTOR TYPE Always select KID type when using Smart MagneW 3000 DETECTOR SIZE Selects the diameter of the detector you are using See Figure 6 11 for a list of available diameters Continued on next page 138 STS103 Operating Guide 4 99 6 4 Configuration continued Detector Config Figure
122. TEES Grams per square centimeter Gal P et ebat due ect Gallons per pulse ee eniin eti eid atico mo eie ipo IER Liters per pulse jp Transmitter lle Inches of mercury eel M Kilograms per square centimeter IKgal B ceti epit ite eter OA eta Kilogallons per pulse enn I eaten Kilopascals M ES Linear re Lower Range Value A EE Millibar mQOML P a e tatit a uci lods 10 3 gallons per pulse ajo EI Inches of water mbl20 i te Ede detur eee ded atate ccm e feio ias Meters of water Muse ERE Millimeters of water Meet ER Millimeters of mercury Gh E E E E E E utente E hated acta ad deena ead ce tee es Megapascals ote ie oderit Perret ea Sioa tek Non volatile memory chan ieee haat A debut find fedet Ede buda mts Pounds per square inch Kiel np Ir Square Root SWVER aue nit aia ied tte uc ariete Pede perea Male Software Version Number URE steuert n eet eee ea a ea a Upper Range Limit UBM aha tatit dea eee ee eae Upper Range Value 4 99 STS103 Operating Guide 1 References Publication Publication Title Number SFC Information Card 34 ST 10 01 ST 3000 User s Manual 34 ST 25 11 for Series 100e and Series 900 Transmitters ST 3000 User s Manual for Release 300 Transmitters 34 ST 25 14 ST 30
123. TERS For Digital Transmitters see step 4 1 DE READ TAG NO TRIPS SECURED NON VOL TAG NO The database is loaded into the SFC at this point SEC WORKING for analog transmitters YES Then STT on the top line identifies that it is a STT TAGNO Temperature Transmitter XXXXXXXX Notice the line under the first character of the ID on the bottom line This is the cursor and indicates where you can key in an ID Alpha numeric entries of up to 8 characters are permitted If the STT 3000 was not given an ID the line will be blank with a cursor Table continued on next page 4 99 STS103 Operating Guide 81 5 3 Set up Continued Keying in the ID and uploading the database continued Table 5 1 Keying in the STT 3000 ID and Uploading the Database Procedure continued Step Press SFC Display will Read Result 2 NUM TAGNO An indicates that the prompt is looking for an a i alpha character The letters are located in the upper right corner of the keys until you A E indicates the prompt is looking for a number see STT TAGNO The numbers are on the yellow keys Press NUM ALPHA key to change from Alpha to Numeric mode or vice versa One of the symbols appears on the display and in place of the first character of the old ID The rest of the old ID disappears Key in your ID using the NUM ALPHA key the letters and numbers on the keys NON VOL 3 STT
124. TOTOTNTFT T6 Enters PV4 equation selection into ENTER E N T EJRIE D IIN S F o SFC memory and calls up equation Yes compensation configuration V 4 F G C OM LIBE SEC E een EN ep peroprmpepepnpesp aper ern ATTENTION The Full Compensatn selection is the only one available when the equation selection is for compensated superheated steam mass flow 6 DE TeloIN F Te coop ey Calls up next compensation MENU Flui iCjoimipieinisial tin selection Repeatedly press MENU ITEM ITEM key to step through these four Mena Selections Are erie DL LLL No Compensation Compensatn jejojm e Fon Comp Only PT Comp Only No Compensation means that PV4 equation calculations include neither pressure nor temperature compensation Full Compensatn means that calculations include both pressure and temperature compensation AP Comp Only means that calculations include pressure compensation only PT Comp Only means that calculations include temperature compensation only Stop when desired compensation selection is on display 7 NON VOL TPT V 4 TCTO NTFTITG C OIMI T Enters compensation selection into ENTER E IN T EIRIED IIN SiF c SFC memory and calls up next Yes configuration selection If PV4 CONFIG Then COMP is No Compensation go to Step 13 Gas flow only Full Compen
125. TRANSMITTERS continued 6 The ID is loaded into the transmitter amp SFC WORKING then STT TAG NO New ID 7 A STT TAG NO This loads the Digital Transmitter database to the SHIFT SFC WORKING XX SFC then then The display indicates the percent of the database DE READ being loaded until it reaches 100 A STT TAG NO ID New ID Copying data into When setting up or configuring a ST 3000 whether you are changing one non volatile memory element or a full database you must copy all configuration data into the transmitter s non volatile memory This is the transmitter s permanent memory If the transmitter were to lose power the values for the database will be saved here The transmitter also contains a working memory that loses its contents if the power goes off and when power is restored the transmitter copies the contents of the non volatile memory into the working memory There is a failsafe procedure Thirty seconds after a value is changed the transmitter automatically copies it into the non volatile memory But if you change an element and power goes down before this runs you will still lose the data in the working memory Therefore whenever you make any changes in the transmitter always end your procedure as follows Press Displays will Read Result SFC WORKING will be displayed as lon Ser STT TAGNO 9 SFC WORKING ght seconds then then The data is copied from the Working
126. TS103 Operating Guide 4 99 6 4 Configuration continued Ranging function continued Table 6 6 Ranging Function Definitions continued Function Definition AUTO As the flow directions change the measuring ranges are automatically changed Direct Reverse The transfer section of the two ranges can be overlapped to provide a hysteresis Direction feature as illustrated in the figure shown below Dual Range Analog Output Auto Selection Direct direction 4 to 20 mAdc Reverse direction 41020 mAdc When pulse output is provided The signal is delivered regardless of the flow direction The pulse weight remains the same regardless of the flow direction Heverse piis When display is provided For the flow in the reverse direction a minus sign appears on the readout When the pulse output is provided MER Wi Tesis the direct reverse differential flow to direct to reverse totalization function is also available direction range direction range Contact output by Direct Reverse flow direction status signal The instrument comes from Direct Reverse transfer hysteresis the factory with its status signal set as follows Direct direction Open Reverse direction Closed Setting reverse of the above is also possible 20 mA Output direction direction EXT The Direct Reverse ranges can be selected by means of an external direct Direct Reverse reverse range select command signal It is also possib
127. TT CONFIG WRITE PROTECT WRITE PROTECT SFC WORKING WRITE PROTECT WRITE PROT OFF To switch Write Protect ON MENU WRITE PROTECT WRITE PROT ON WRITE PROTECT SFC WORKING WRITE PROTECT WRITE PROT ON OR WRITE PROTECT WRITE PROT ON To switch Write Protect OFF WRITE PROTECT WRITE PROT OFF NTER Js WRITE PROTECT ENT PWD To change Write Protect Password WRITE PROTECT WRITE PROT OFF See NOTE 1 WRITE PROTECT SFC WORKING CHANGE PASSWORD OLD PWD See NOTE 2 CHANGE PASSWORD NEW PWD m z E m D STT CONFIG WRITE PROTECT NOTE 1 Password can be changed only when WRITE PROTECT OFF NOTE 2 Any new user Passwords must be numeric or UPPER CASE alpha characters WRITE PROTECT CHANGE PASSWORD NOTE Any new user passwords must be numeric or upper case alpha characters The fallback password is an algorithm based on the units s serial number If the password is lost contact your regional Technical Assistance Center TAC with the unit serial number 4 99 STS103 Operating Guide 101 5 5 Output Calibration Introduction Do a DAC calibration To calibrate the output of an Analog transmitter connect a precision volt or ammeter at the appropriate connection point on your system or use the control room display to monitor the output signal If the or 100 output
128. Trip Value to go to Press PULSE to go to essen RESET TOTALIZER TOTALIZER MENU from Figure 6519 SET TRIP VALUE TRIP VALUE 000001 COUNTS use to set a new Trip Value count TRIP VALUE SFC WORKING 20317 Continued on next page 4 99 STS103 Operating Guide 151 6 4 Configuration continued Save Restore data Figure 6 19 is a graphic view of the key presses required to Save data from the flowmeter to the SFC or Restore data from the SFC to the flowmeter Figure 6 19 Save Restore Data SAVE RESTORE RESTORE DATA CLR RESTORE DATA ARE YOU SURE SFC WORKING SFC WORKING SAVE DATA RESTORE DATA DATA RESTORED 20744 Continued on next page 152 STS103 Operating Guide 4 99 6 4 Configuration continued Copying data into non The last step when configuring a MagneW 3000 whether you are volatile memory changing one element or a full database is to copy all that data into the flowmeter s Non Volatile Memory This is the flowmeter s permanent memory If the flowmeter were to lose power the values for the database will be saved here The working memory loses its contents if the power goes off and when power is restored the flowmeter copies the contents of the non volatile memory into the working memory There is a failsafe procedure Thirty seconds after a value is changed the flowmeter automatically copies it into the non vol
129. Upper Range Value Span of a single or dual range flowmeter 1 is Range 1 of a single or dual range flowmeter URV 2 1 is used for and Dual range applications Press SHIFT then keys to get the displays URV 2 1 means Upper Range Value or Span for the second range of PV1 For ranges it would be the negative range For Dual ranges it would be the second range Refer to Section 6 4 Table 6 5 for setting up ranging On the Magnetic Flowmeter the 0 output point LRV 4 mA point cannot be changed The 0 output point means that the measured process fluid is stationary Locate the key on the keyboard and press Figure 6 7 is a graphic view of the key presses required to change the Upper Range Value Span Figure 6 7 Changing the MagneW 3000 Upper Range Value Span URV 1 URV 2 SFI Type TAG NO SFI Type TAG NO READY READY URV TAG NO XX X UNITS Ee to change value URV 2 1 TAGNO XX X UNITS 20 to change value URV TAG NO NEW VALUE UNITS URV 2 1 TAG NO NEW VALUE UNITS URV TAG NO SFC WORKING URV TAG NO NEW VALUE UNITS URV 2 1 TAG NO SFC WORKING URV 2 1 TAG NO NEW VALUE UNITS 20312 128 STS103 Operating Guide 4 99 6 4 Configuration Overview Prompts Restrictions Prompt hierarchy Exit configuration Configuration is
130. Volts minimum at the SFI to permit operation H W MISMATCH Hardware mismatch Part of Save Restore function None SFC tried to restore as much of the database as possible ILLEGAL RESPONSE SFC received an illegal response from the SFI Try communicating again INVALID DATABASE The database of the SFI was not correct at power up Try communicating again Verify the database recalibrate the SFI and then manually update non volatile memory INVALID REQUEST The SFI is being asked to correct or set its URV to a value that results in too low a span or being asked to correct its LRV or URV while in the output mode The given key function is not valid for the associated SFI Check that the proper calibrated URV input is being applied to the SFI or that the SFI is not in the output mode Check that the key function is applicable for your particular SFI Table continued on next page 26 STS103 Operating Guide 4 99 3 3 Diagnostic Messages continued Table 3 1 Diagnostics and SFC Messages continued Diagnostic Messages for SFC continued Message Problem Corrective Action IN OUTPUT MODE The SFI is operating as a current source Press the OUTPUT and keys if you want to exit the output mode LOW LOOP RES Not enough resistance in series with the communication loop Check the sensing resistor and verify at least 250 Ohms r
131. X1 A 3 X 1 2 B 3 3 AUTO X X 1 2 2 A X 1 2 4 2 X 1 2 4 2 EXT X 3 X 1 2 A 3 X 1 2 B 3 3 3 X 1 2 Selection Codes X Pulse not X Not Used X Not Used installed 1 0 Lock 1 Alarm A Normal Add 2 Ext Auto Zero 2 Range ID B Preset Match 3 Ext Range 3 Preset Match C Dir Rev differ 42Counter Reset Note Totalizing functions and pulse settings are unavailable for functionality selection without pulse board Continued on next page 136 STS103 Operating Guide 4 99 6 4 Configuration continued Range Config A Figure 6 10 is a graphic view of the key presses required to configure the configuration graphic range configuration function elements Figure 6 10 MagneW 3000 Range Configuration Graphic to go to press UNITS KEY SFM CONFIG SFM CONFIG SFM CONFIG to go to CONF NEXT NEXT SFC WORKING UNITS KEY RANGE CONFIG Press DETECTOR CONFIG No MAG SR XXXXXXX READY RANGE CONFIG RANGE CONFIG SFC WORKING ENTERED IN SFC RANGE CONFIG HYSTERESIS 00 ENTER RANGE CONFIG RANGE SINGLE RANGE CONFIG RANGE AUTODUAI RANGE CONFIG RANGE EXT DUAL RANGE CONFIG CUTOFF ON 00 N RANGE CONFIG HYSTERESIS 20 RANGE CONFIG RANGE AUTO NOTE 1 RANGE CONFIG RANGE EXT NO CLR NOTE 1 Selection only valid if DIGITAL OUTPUT RANGE ID NOTE 2 Selection only valid if DIGITAL OUTPUT EXT RANGE NO
132. XXXXX UNITS change or blink since the SFC updates it every 6 then seconds INPUT ou DO NOT PRESS THE NEXT KEY until the BT display changes so you are not trying to communicate with the transmitter when it s updating the SFC reading 3 URV1 tag no Displays the Upper Range Value URV 100 XX XXX UNITS then 8 URV 1 tag no The SFC asks if you want to set the Upper SET SET URV Range Value URV to this input 4 URV 1 tag no Answers Yes YES SFC WORKING The SFC displays SFC WORKING while it sets then the URV to that reading URV 1 tag no XX XXX UNITS ar 1 tag no Answers No OR ROS UNITS SFC displays updated pressure value Repeat the procedure until you enter the URV you want 5 URV1 tag no The URV data is entered into non volatile d SFC WORKING Memory then NON VOL then ENTER URV 1 tag no YES DATA NONVOLATILE then SFI Type TAG No READY 4 99 STS103 Operating Guide 61 4 4 Overview Configuration Configuration of the ST 3000 transmitter lets you Under configuration prompt CONFORMITY select the Output form for the transmitter Linear or Square Root Read the Sensor temperature and change the unit of measurement to F C K or C Read the PROM serial number e Save data to the SFC or Restore data to the transmitter Selecting a parameter Table 4 6 shows you what key to press in order to scroll through the configuration groups
133. ZERO correction factor is outside the acceptable limits for accurate operation Check the input and be sure it matches the calibrated range value EXCESS SPAN CORR The SPAN correction factor is outside the acceptable limits for accurate operation Check the input and be sure it matches the calibrated range value EXCESSIVE OUTPUT The requested output percent in the output mode is too high or too low The limits are 1 25 to 105 Press the key check the parameter and start again FAILED COMM CHK The SFC failed a communication diagnostic check This could be a SFC electronics problem or a faulty or dead communication loop Try communicating again Press the STAT key If a loop fault message appears do the corrective action and try again If the Comm error continues replace the SFC HI RES LOW VOLT Either there is too much resistance in the loop open circuit the voltage is too low or both Check the wiring connections and the power supply There must be 11 Volts minimum at the transmitter to permit operation H W MISMATCH Hardware mismatch Part of Save Restore function None SFC tried to restore as much of the database as possible Table continued on next page 110 STS103 Operating Guide 4 99 5 7 Diagnostic Messages continued Table 5 11 Diagnostics and SFC Messages continued Diagnostic Messages for SFC and STT 3000 c
134. a decimal point and zeros for a whole number 5 NON VOL TTE T T IEFETTE TSESESEAT Message exchange is working ENTER is Fjc wiof RIK IINIGE j1 FIT Jagi New LRV setting for PV1 stored in 5 d e e e H 2 9 s F transmitters working memory 6 F PT T T TFT slog Present URV setting for PV1 Tage 1 9 5 9 Pressure for 20 mAdc 100 output 7 R Vv PT T T TFET slog Key in 45 as desired URV setting 4 i 5 PtH 21 8 NON VOL TTE T T 14 7 Message exchange is working ENTER Yes 5 415 21 2 4 13 fF New URV setting for PV1 stored in transmitter s working memory Setting range values for PV1 to applied pressures Table 7 18 Table 7 18 gives the procedure for setting range values to sample applied pressures Setting LRV and for PV1 to Applied Pressures Step Press Key Read Display or Action Description 1 Apply known input pressure to transmitter that represents LRV for PV1 for 096 4 mAdc output LRV 0 151 901010 2 j3jeF Present LRV setting for PV1 Pressure for 4 mAdc 096 output If display in Then Step 2 is for PV1 not for PV1 go to Step 5 go to Step 4
135. a dedicated operation where you use straightforward keystroke sequences to select and establish configure pertinent flowmeter data best suited for your application To assist you in this process there are prompts that appear in the SFC s display that let you know what group of configuration data you are working with and also the specific parameters associated with each group Before you start your configuration be aware that all of the parameters do not appear all the time The prompt hierarchy that appears in Figure 6 8 gives you an overall view of the configuration parameter groups that can appear Their appearance is sometimes restricted due to other selections particularly in the Menu Items selections Those that are restricted will be referenced in the individual graphic presentations that are given for entering those configuration parameter groups The Prompt Hierarchy in Figure 6 8 gives you an overall view of the configuration parameters that will appear It will help you to get to where you want to go more quickly Refer to each parameter and accompanying figure indicated for specific settings and menu selections for each element of the configuration parameters You can exit configuration at any time Press until this display appears READY or press SHIFT Continued on next page 4 99 STS103 Operating Guide 129 6 4 Configuration continued Prompt hierarchy Figure 6 8 MagneW 3000 P
136. acceptable limits for accurate operation Check the input and be sure it matches the calibrated range value EXCESSIVE OUTPUT The requested output percent inthe Press the key check the output mode is too high or too low The limits are 1 25 to 105 parameter and start again EXCIT CHECK MODE Excitation current is being checked None EXCIT COIL FAULT Electrical discontinuity of the Detector Coil circuit Check the connections Measure the CAL resistance Check the converter EXT ZERO ACTIVE In External Zero Percent Lock mode None Table continued on next page 172 STS103 Operating Guide 4 99 6 7 Diagnostic Messages continued Table 6 19 Diagnostics and SFC Messages continued Diagnostic Messages for SFC and MagneW 3000 continued Message Problem Corrective Action FAILED COMM CHK The SFC failed a communication diagnostic check This could be a SFC electronics problem or a faulty or dead communication loop Try communicating again Press the STAT key If a loop fault message appears do the corrective action and try again If the Comm error continues replace SFC FIXED PULSE MODE In Pulse Output Check mode None GAIN CORRECT MODE Checking and calibrating the MagneW input gain constant HIGH LOW ERROR High setting is less than low setting Change setting to high greater than low HI
137. although a problem exists the transmitter is still operating When a non critical condition occurs a character appears on the right side of the display along with whatever you re displaying at the time This character means press the STAT key because some type of a problem exists Again one or more messages will appear on the display for about five seconds each 99499 When the battery voltage becomes low a colon will appear in the middle of the display It stays on the display until you either charge or replace the batteries Continued on next page 4 99 STS103 Operating Guide 71 4 7 Diagnostic messages Diagnostics and SFC Messages continued Table 4 9 is a list of all the diagnostic messages that can appear when using the STS103 with a ST 3000 Pressure Transmitter They are listed in alphabetical order along with the problem associated with the message and the corrective action to take when the message appears Table 4 9 Diagnostic Messages for SFC and ST 3000 Message Problem Corrective Action SFC FAULT SFC communication is not possible Press STAT kev to obtain other or due to a detected SFC problem 1 FAILURE messages Replace the SFC CHAR PROM FAULT The characterization PROM is not functioning correctly Replace the characterization PROM with an identical PROM or if needed replace the entire meter body and PROM with a matching spare unit Press CONF and
138. ameters for PV4 215 Basic gas flow equation 204 Calculated flow rate PV4 simple equation parameters 214 Calibrate output signal analog mode 245 Calibration 245 Cold junction CJ compensation selection 195 Communication Status Messages 261 Copying data into non volatile memory 182 CUSTOM units 206 DE configuration parameters 240 Design density units for PV4 193 Diagnostic Messages 256 Dynamic compensation flow equations 203 Engineering units for PV1 and PV2 189 Engineering units for PV3 190 Engineering units for PV4 192 Flow calculation 206 Gas Kuser quick calculation 204 Input filter frequency selection for PV3 197 Low flow cutoff limits for PV4 279 Message Format DE mode 244 Operating data 257 Output conformity 185 Probe type identification for PV3 794 PV4 URL and LRL 235 PVs for broadcast DE mode 240 Range values LRV and for PV1 222 Range values LRV and URV for PV2 226 Range values LRV and URV for PV3 229 Range values LRV and for PV4 237 Selecting the PV for analog output 220 Setting range values LRV and URV using applied pressure for PV1 223 Setting range values LRV and URV using applied input signals for PV3 232 Setting range values LRV and URV using applied pressure for PV2 228 Setting range values for PV1 222 Setting range values for PV2 226 256 STS103 Operating Guide 4 99 Index SMV 3000 cont d Setting ran
139. an set the LRV and URV for PV3 by either keying in the desired values through the SFC keyboard or applying the corresponding LRV and URV input signals directly to the transmitter Table 7 21 gives the procedure for keying in the range values for a sample 100 to 600 F range e For a reverse range enter the upper range value as the LRV and the lower range value as the URV For example to make a 0 to 500 F range a reverse range enter 500 as the LRV and 0 as the URV The URV changes automatically to compensate for any changes in the LRV and maintain the present span URV LRV f you must change both the LRV and URV always change the LRV first However if the change in the LRV would cause the URV to exceed the URL you would have to change the URV to narrow the span before you could change the LRV Continued on next page 4 99 STS103 Operating Guide 223 7 3 Configuration Continued Setting range values for PV3 continued Table 7 21 Keying in LRV and URV for PV3 Step Press Key Read Display or Action Description 1 E LIRI V 13 T Present LRV setting for PV3 leoleo Temperature for 4 mAdc 0 output 2 If display in Then Step 1 is for PV3 go to Step 4 not for PV3 go to Step 3 3 DE Plv T TFITT Calls up current PV number display MENU icju R R IEINIT 1 Repeatedly
140. and select a parameter Table 4 6 Scrolling through the ST 3000 Parameters Press Result A Display goes to next parameter NEXT y Display goes to previous parameter PREV Enters that particular configuration parameter and allows ENTER menu selections See figure that follows Also enters YES Saad menu item selection into SFC memory NOTE Under CONFORMITY group there is an element entitled DOWNLOAD DATA No newly selected menu item will be entered into ST 3000 memory until the ENTER key is pressed while DOWNLOAD DATA is being displayed DE CONF Scrolls through the values or selections available for a particular parameter ITEM OR RUNE Press ENTER key after selection is made to enter 3 information into the SFC memory OR E M Exits the Configuration mode and puts the SFC into a NO READY mode CLR Clears from parameter to beginning of group NO Exit configuration You can exit configuration at any time Press until this display appears SFI Type TAG No READY or press SHIFT 62 STS103 Operating Guide 4 99 4 4 Configuration continued Configuration Figure 4 8 is a graphic view of the key presses required to configure the procedure Figure 4 8 ST 3000 transmitter Follow this procedure referring to the notes that accompany it Configuring the ST 3000 Transmitter SPT TAG NO READY TO
141. ange is working ENTER sjF c w ofri K 1 1 Yes parameter change is loaded into Vist transmitter s working memory Press S NEXT key to access another configuration function or CLR key to exit function Continued on next page 4 99 STS103 Operating Guide 197 7 3 Activating Sensor Fault Detection Configuration Continued You can turn the transmitter s temperature sensor fault detection function ON or OFF through configuration With the detection ON the transmitter will drive its output upscale or downscale as determined by the failsafe jumper on the PCB in the event of an open RTD or T C lead condition These same conditions will result for an open RTD sensing lead or any T C lead in a transmitter with the detection OFF But an open RTD compensation lead will automatically be reconfigured to operate without the compensation lead that avoids a critical status condition This means a 4 wire RTD would be reconfigured as 3 wire RTD if possible The procedure in Table 7 11 outlines the steps for activating the sensor fault detection function Table 7 11 Activating Sensor Fault Detection Step Press Key Read Display or Action Description 1 B TT I configuration function Note CONF PS FL C Wo RIK INIG that first display may or may n
142. ase is also read in along with the ID For digital devices the second function of the key reads in the database of the digital transmitter Figure 3 2 shows an example of the key presses and display that may appear Figure 3 2 Read Digital Database DE READ A A SHIFT fm TAG No WORKING SFI Type TAGNO XXXXXXXX 20728 24 STS103 Operating Guide 4 99 3 3 Diagnostics and SFC Messages Introduction OK Status Critical status Non critical status Low battery voltage The STS103 and the SFIs both run continuous self diagnostics This means that they are constantly testing the communications the loop and themselves Any time you want results of these diagnostics press the STAT key The SFC displays its report in the form of messages which identify diagnostic conditions Diagnostic conditions are broken down into three categories an OK condition acritical condition e a non critical condition An OK condition means no problem exists and the display looks like this STATUS XXXX STATUS A critical condition means that the SFI is not functioning properly When this occurs the SFI goes into upscale burnout and maintains an output of 21 8 mA or into downscale burnout and maintains an output of less than 3 9 mA This message CRITICAL STATUS interrupts your operation and is followed by the message PRESS STATUS After the PRESS STATUS message you pres
143. ata sse 106 Diagnostic Messages for SFC and STT 3000 110 Keying in the MagneW 3000 ID and Upload Database Procedure 118 List of the MagneW 3000 Units by 123 MagneW 3000 DE Configuration Elements 126 Scrolling through the MagneW 3000 Parameters 131 MagneW 3000 Range Config 133 Ranging Function Definitions seen 134 Function Selection 136 MagneW 3000 Detector Config 138 MagneW 3000 Alarm Config 140 MagneW 3000 Failsafe Config 142 MagneW 3000 Digital 1 0 144 MagneW 3000 Totalizer Menu 146 MagneW 3000 Pulse Configure 149 MagneW 3000 Calibration Set up Procedure 156 Set the MagneW 3000 Units to M SEC 157 Set the MagneW 3000 Span to 10 001
144. atile memory But if you change an element and power goes down before this runs you will still lose the data in the working memory Therefore whenever you make any changes in the flowmeter always end your procedure as follows Press Displays will Read Result A SFC WORKING will be displayed as long MAG XX then then The data is copied from the Working memory into the Non Volatile memory NON VOL ENTER MAG XX tag no YES DATA NONVOLATILE then MAG XX tag no READY 4 99 STS103 Operating Guide 153 6 5 Calibration Introduction Calibration topics Equipment needed The calibration prompts that you will use to calibrate the MagneW are a subset of prompts under the Calibrate Menu There are some set up instructions and preliminary procedures to follow before going into the CALIBRATE MENU These are given at the beginning of this section The following topics are covered under CALIBRATION Topic See Page Equipment needed 154 Calibration set up 155 e Set units to m s meters per second 157 e Set span to 10 001 m s meters per second 158 e Doa DAC Digital to Analog Current output signal calibration 159 Calibration Menu hierarchy and procedures 161 Excitation current check 162 Excitation current calibration 163 Gain Calibration 165 DI DO check 166 In order to calibrate a MagneW 3000 Magnetic Flowmeter using an STS103 Smart Field Communicator
145. ation changes can be made ON Unable to change configuration without jumper STT350 or password STT25D STT25M 96 STS103 Operating Guide 4 99 5 4 Configuration continued Probe types Table 5 8 lists all the probe types and applicable range data that are available under selection PROBE Table 5 8 STT 3000 Probe Types and Ranges Input Type Range T C B 200 to 1820 392 to 3308 C W5Wog 0 to 2300 32 to 4172 D W3W25 0 to 2300 32 to 4172 E 200 to 1000 328 to 1832 J 200 to 1200 328 to 2192 K 200 to 1370 328 to 2498 N Nicrosil Nisil 200 to 1300 328 to 2372 R 50 to 1760 58 to 3200 S 50 to 1760 58 to 3200 T 250 to 400 418 to 752 NiNiMoly 0 to 1300 32 to 2372 RH Radiamatic 420 to 1800 788 to 3272 RTD Pt100 J 200 to 640 328 to 1184 Pt100 D 200 to 850 328 to 1562 PT200 200 to 850 328 to 1562 Pt500 200 to 850 328 to 1562 Cu10 20 to 250 4 to 482 Cu25 20 to 250 4 to 482 Ni500 80 to 150 112 to 302 Millivolts 1000 to 1000 mV Ohms 3 wire 0 to 40000 Not available with Models STT25D or STT25M Continued on next page 4 99 STS103 Operating Guide 97 5 4 Configuration continued Probe Config Figure 5 11 is a graphic view of the key presses required to configure the configuration graphic
146. ation parameter Yes This action only applies if selection is D E F T 3 1 1 changed Otherwise must press s key to exit function or s NEXT key to call up next parameter 6 DE CONF DJE COUNT FT FIT 3 211 7 Calls up next PV3 selection MERE Piv s TL T T T T Repeatedly press MENU ITEM key ITEM to toggle between PV 3 ON and PV 3 selections Select PV 3 OFF if you don t want PV3 broadcast to control system Stop when desired selection is on display Continued on next page 232 STS103 Operating Guide 4 99 7 3 Configuration continued Selecting PVs for broadcast continued Table 7 25 Selecting PVs for Broadcast continued Step Press Key Read Display or Action Description 7 NON VOL TOE JclolN F 13 9 1 Enters change in SFC and calls up ENTER NI TIE R E D iN s F C next DE configuration parameter Yes This action only applies if selection is D E cjoiN F riT 1 1 changed Otherwise must press 4 1 Cir key to exit function or s NEXT key to call up next parameter 8 DE CONF DJE Calls up next PV4 selection Piv 4 TT TL T I Repeatedly press MENU ITEM key ITEM to toggle between PV 4 ON and PV 4 OFF selections Select PV 4 OFF if you don t want PV4 broadcast to co
147. ations are e VELOCITY e VOLUME FLOW MASS FLOW The choice of application determines the Units selections available when the UNITS key is pressed for LRV URV Input Span and URL If you select the Mass Flow application a selection for specific gravity automatically appears Figure 6 9 is a graphic view of the key presses required to configure the UNITS key Figure 6 9 MagneW 3000 Units Key Configuration SFC WORKING i UNITS KEY exit configuration Units NO ENTER YES MASS FLOW ITEM VELOCITY ITEM VOLUME FLOW NO ENTER ENTER YES YES UNITS KEY 1 0000 SpecGr ENTERED IN SFC CLR NO thru to change Specific Gravity SFC WORKING Continued on next page 132 STS103 Operating Guide 4 99 6 4 Configuration continued Range Config This configuration group of parameters lets you select the range function elements Table 6 5 lists the Range Configuration Elements Table 6 6 explains the Ranging Functions Table 6 7 is a list of possible Function Selection Combinations Range Config The elements of Range Config are listed in Table 6 5 configuration elements Table 6 5 MagneW 3000 Range Config Elements Element Definition RANGE The type of range required See Table 6 6 for ranging function definitions SINGLE Single range AUTO DUAL Forward flow direction automatic selection dual range EXT DUAL Forward flow direction externally set dual range AUTO F
148. battery pack is charged through a battery charger that plugs into the charging terminal The charger inputs 110 or 220 Vac 50 60 Hz and outputs 7 Vdc 180 mA to the NiCd battery pack The connector of the battery charger is inserted into the charging terminal on left side of the STS103 by the ON OFF switch When the STS103 is turned on it automatically runs diagnostics on its functions Upon successful completion of the diagnostics the message PUT LOOP IN MAN analog communications or DE XMTR PRESS ID digital communications appears If an error occurs the message CRITICAL STATUS appears Refer to Section 3 for a description of the STS103 errors or the individual device sections for device specific error messages STS103 Operating Guide 4 99 1 3 Connections Connecting the STS103 to junction boxes and IS panels The STS103 connects to SFIs IS panels and junction boxes through a pair of wires with alligator clips on the ends The STS103 communications terminal end of the wires has a stereo phone jack connection that is inserted into the communications terminal The other end of the wires are clipped onto terminals in the junction box or IS barrier panel or directly to the transmitter The red SFC lead connects to the junction box or SFI positive terminal the black lead to the negative terminal Figure 1 5 shows the STS103 connected to a junction box and an IS barrier panel Figure 1 5 STS103 Junction Box a
149. ble 7 14 Setting Parameters for PV4 Equation Step Press Key Read Display or Action Description 1 B TT T TTTTSIMIVI ie Call up configuration function Note PS FL c WO RIK T NIG that first display may or may not appear depending upon previous felon fe keystroke action which may require 2 A Until display reads Calls up next configuration menu NEXT item simiy JAjtjG JPJAJRIAMISI 3 NON VOL IIT TT I Access PV4 equation parameter ENTER WORI selections es If PV4 CONFIG Then COMP is No Compensation go to Step 10 Gas flow only Full Compensatn go to Step 4 and for gas flow equation skip Steps 8 amp 9 Full Compensatn go to Step 8 for superheated steam flow equation AP Comp Only go to Step 4 Gas flow only and skip Steps 6 7 8 and 9 PT Comp Only go to Step 6 Gas flow only and skip steps 8 and 9 4 Example for parameter set to default value of Use number keys to key in desired NaN absolute pressure reference value to B deli Tl be used for parameter Pyer in R A N e E K Pla derivation of flow equation for PV4 Example for parameter with entered value eguation YOU can change displayed engineering units by pressing lA L a PlA R M UNITS key until desired engineering tlgh sys Ik Pla I units is displayed and then press ENTER key to return to this display
150. broadcast 4 or 6 bytes Table 1 3 describes the communication formats used Table 1 3 Communication Format Description Format Description Analog Analog communication uses a half duplex variable length Communication message with a wake up pulse for on demand requests and Mode responses While the messages travel back and forth the transmitter s output varies between 4 20 mA therefore the control loop must be in manual so the data exchange does not interfere with the control loop Digital DE Digital communication also uses a half duplex variable Communication length message with no wake up pulse for on demand Mode requests and responses not including data uploads The data is piggybacked on the process variable data being sent on the control loop DE READ n broadcast 4 byte format is rarely used because no m database protection can be performed when used in the TDC 3000 system This mode is only used when faster PV update rates are required One byte is for transmitter status and configuration data the other three are for process data The broadcast 6 byte format is used for uploading the transmitter s database to the STS103 s hold memory The bytes are similar to the 4 byte format but it includes two additional bytes of transmitter database information Continued on next page 10 STS103 Operating Guide 4 99 1 4 STS103 SFI Communication continued Analog data
151. calibration Transmitter analog output calibration The SMV 3000 Smart Multivariable Transmitter does not require recalibration at periodic intervals to maintain accuracy In fact we do not recommend recalibrating the temperature PV3 and calculated rate of flow PV4 measurement ranges in the field If recalibration of the differential pressure PV 1 and or static pressure PV2 measurement range is required we recommend that you do a bench calibration with the transmitter removed from the process and located in a controlled environment to get the best accuracy If the transmitter will be operating in the analog mode you must calibrate its output signal before you calibrate the transmitter s measurement ranges using the SFC While it is not required to calibrate the output signal first for transmitter s operating in the DE mode you can do it by using another SFC to read the output in percent You can calibrate the transmitter s analog output circuit at its 0 and 10096 levels by using the transmitter in its constant current source mode It is not necessary to remove the transmitter from service The procedure in Table 7 27 shows the steps for calibrating the output signal for a transmitter in the analog mode Note that the procedure is similar for a transmitter in the DE mode but the SFC must be used to read the output in percent in place of the milliammeter or voltmeter readings Table 7 27 Calibra
152. calibration or troubleshooting Specifications The STS103 s specifications are listed in Table 1 1 Table 1 1 Model STS103 Specifications Operating Conditions Operating Limits Transportation and Storage Ambient Temperature 10 to 50 20 to 60 F 14 to 122 4 to 140 Humidity 10 to 90 RH 5 to 95 RH Vibration Maximum Acceleration G 0 2 0 5 Frequency Hz 0 to 100 0 to 100 Amplitude mm to peak 0 75 Shock Maximum Acceleration G 5 15 Duration ms 50 11 Minimum load resistance 250 Ohms 9 24 Vdc Supply Voltage Performance Safety Approvals FM Intrinsic Safe Class Il Ill Div 1 GP A G Outdoor Nonincendive Class 1 Div 2 GP A G Outdoor CE Conformity Europe 89 336 EEC the EMC Directive Display Character Physical Dimensions Overall 102 mm x 42 mm x 206 mm 4 In x 1 7 in x 8 in Keypad 86 mm x 136 mm 3 4 x 5 4 in Weight 470 g 1 Ib LCD Display 2 lines x 16 characters 5 x 7 dots with line for cursor Keyboard Type Tactile feedback embossed membrane 4 by 8 matrix 32 keys Lead Connectors Easy hook and alligator clips Battery Charger Input Power Output Power Time to charge Time between charges 108 120 Vac 200 240 Vac 50 60 Hz 7 Vdc 180 mA 16 hours minimum 24 hours minimum a colon battery power in the eighth character position indicates low
153. cial cases when highly susceptible apparatus is used in close proximity the user may have to employ additional mitigating measures to further reduce the electromagnetic emissions of this equipment Continued on next page 4 99 STS103 Operating Guide 3 1 2 STS103 Physical and Functional Description continued 2 line by 16 character LCD display STS103 keypad The LCD display provides prompts and displays values keypad input statuses and alarms Each character on the display is in a 5 X 7 dot matrix with a line below the character for the cursor The STS103 is multi lingual and can display parameters and statuses in engineering or metric units The desired language is selected through menus as is the desired parameter format Through the STS103 s keypad the parameters and characteristics of each SFI may be viewed and changed In several instances several keys are used together to perform certain functions Figure 1 2 shows the STS103 keypad and LCD display Figure 1 2 STS103 Keypad and LCD Display Honeywell ABCDEFGHIJKLMNOPQR STUVWXYZ1234567890 UM 1 US 20720 Continued on next page STS103 Operating Guide 4 99 1 2 STS103 key functions STS103 Physical and Functional Description continued Table 1 2 describes the use and function of the STS103 keypad keys Table 1 2 STS103 Key Functions Key Function NUM The white NUM AL
154. ck for defective or misapplied capacitive or inductive devices filters Continued on next page 250 STS103 Operating Guide 4 99 7 6 Diagnostics and SFC Messages continued Diagnostic message tables continued Table 7 31 Communication Status Message Table continued SMV Status SFC Display Message Possible Cause What to Do TAG NO No response from transmitter Try communicating again NO MIR BESEONSE OU De IransmiIS Check that transmitter s loop failure VES integrity has been maintained that SCT or SFC is connected properly and that loop resistance is at least 2500 Press ID key and do any corrective action required and try again Table 7 32 Informational Status Message Table SMV Status SFC Display Message Possible Cause What to Do 6 3 STATUS NO PV3 input is being provided by Nothing Information only However 2 WIRE TC PV3 2 wire Thermocouple T C this may indicate a problem if sensor type type does not match the sensor physically connected to transmitter 6 0 STATUS TAG NO PV3 input is being provided by Nothing Information only However 2 WIRE RTD PV3 2 wire RTD type this may indicate a problem if number of wires displayed does not match number of RTD leads physically connected to transmitter or if sensor type should be thermocouple 6 1 STATUS NO PV3 input is b
155. cters Continued on next page 208 STS103 Operating Guide 4 99 7 3 Configuration continued Setting selections for PV4 equation definition continued Table 7 13 Setting Selections for PV4 Equation Definition continued Step Press Key Read Display or Action Description 16 NUM eIvT4T Telu s r o M Keying in cubic feet per hour as ALPHA I desired custom unit name for example purposes only i P V 4 eju s T o M 100 E ES e u s r o M NUM P V 4 eju s T o M ALPHA BERBER 55 e u s rjo M EpL E ES EE ES SES NUM P V 4 eju s T o M ALPHA LLL III gr rp EE shy Tt LLL ILL IL A gt e u s r o M LLL LL TL JHIRI 17 NON VOL TeTU S IT Enters custom unit name in SFC ENTER 14 sie memory 18 IPIvI4T Te T T T T T Prompt asks if change entered in c H A N G E SFC is to be downloaded to transmitter This is only valid if you made a configuration change in previous Steps Otherwise must CAUTION i you are downloading an press s NEXT key to call up next equation type change or this is the initial selection DOWNLOAD CHANGE configuration for a new tra
156. d Display or Action Description 6 Ja T FIT T 3T Initiates shift key selection NON VOL LL IH 3 ENTER is F C w o R Saves data in transmitter s nonvolatile memory This takes NLOIN V O C A T TUE approximately 8 seconds feit Setting range values Setting the LRV determine the zero and span points for your for PV4 ATTENTION calculated flow measurement range The default engineering units for volumetric flow rate is cubic meters per hour and tonnes per hour is the default engineering units for mass flow rate The URV changes automatically to compensate for any changes in the LRV and maintain the present span URV LRV f you must change both the LRV and URV always change the LRV first Keying in LRV and Table 7 24 gives the procedure for keying in the LRV and for 4 URV for PV4 ATTENTION for a sample volumetric flow measurement range of 170 to 650 cubic meters per hour Note that LRV is normally set to 0 and we are using an LRV of 170 for example purposes only in this procedure Be sure that you set the PV4 Upper Range Limit URL to desired value before you set PV4 range values We suggest that you set the PV4 URL to equal two times the maximum flow rate
157. d in the SFC you must substitute values with matching engineering units into the Kyser scaling factor equation as well as compatible units for temperature and pressure in the derived volume or mass flow equation Example If volumetric flow rate was to represent cubic feet per hour we would substitute pounds per cubic feet for the density measurement and feet for the pipe and orifice I D measurements in the scaling factor equation as well as substituting psi for pressure measurements and degrees Fahrenheit for temperature measurements in the derived volume flow equation Note that differential pressure measurement is always in SI units of Pascals It is absolutely critical that you use units that match your custom one when calculating the scaling factor Before you enter the values to define the equation for PV4 flow calculation you should have already determined the equation parameters for your flow application The following list provides the parameters that should be entered under the PV4 ALG CONFIG prompt If this transmitter has been previously configured at the factory or by you and is providing a calculated PV4 output changing the equation type selection and downloading it to the transmitter will trigger a PV4 failsafe condition and critical status message until you enter configuration values for the applicable PV4 equation parameters identified in the next row of this Table This also applies for new transmitters that have not
158. e Check that the key function is applicable for a pressure transmitter IN OUTPUT MODE The transmitter is operating as a current source Press the OUTPUT and keys if you want to exit the output mode LOW LOOP RES Not enough resistance in series with the communication loop Check the sensing resistor and verify at least 250 Ohms resistance in the loop M B OVERLOAD or METERBODY FAULT The pressure input is greater than two times the upper range limit of the transmitter Check the process value to determine if the appropriate transmitter model is installed The meterbody may have been damaged Do a complete performance check NACK RESPONSE The SFI sent a negative acknowledgment because one or more of the commands could not be processed by the SFI Check the configuration and try again NO DAC TEMP COMP R 250 electronics board has been used in a series 600 transmitter and subsequently in a series 100 transmitter Coefficients for a special temperature compensation algorithm unique to series 100 R 250 have been wiped from memory No corrective action possible Effect will be a minor degradation of ambient temperature influence specifications Table continued on next page 4 99 STS103 Operating Guide 73 4 7 Diagnostic Messages continued Table 4 9 Diagnostics and SFC Messages continued Diagnostic Messages for SFC and ST 3000 cont
159. e 6 21 shows you how to get to the Calibrate Menu and the hierarchy of the prompts required to calibrate the MagneW The hierarchy will lead you to the specific procedures required to do the calibration Figure 6 21 MagneW 3000 Calibration Menu Hierarchy until you see Press MAG SR tag no READY CLR CLR CALIBRATE MENU CHECK D DO CHECK ARE YOU SURE SEDES CLR EEG MENU INIT DATA RECOV Llerena RECOV g INIT DATA RECOV INIT DATA ARE YOU SURE SFC WORKING INIT DATA RECOV WARNING NOTE 1 CLR CLR ear MENU ENTER ISHIP DATA RECOV ENTER SHIP DATA RECOV ISHIP DATA RECOV SHIP DATA ARE YOU SURE SFC WORKING ISHIP DATA RECOV WARNING NOTE 2 AYV CLR CALIBRATE MENU ENTER SHIP DATA SAVE ENTER SHIP DATA SAVE SHIP DATA SAVE CLR SHIP DATA SAVE ARE YOU SURE SFC WORKING SHIP DATA SAVE EXCIT CUR CHECK CLR WARNING NOTE 1 If you press ENTER the initial data that was configured is moved from ROM to working RAM and NVM You will have to reconfigure and recalibrate the MagneW NOTE 2 SHIP DATA RECOV reinstalls the data that was configured prior to shipment NOTE 3 Do a save only if you have done a SHIP DATA RECOV 20301 Continued on next page 4 99 STS103 Operating Guide 161 6 5 Calibration continued Excitation current Make sure the excitation current agrees with what is on the nameplate check Figure 6 22 gives you the key pr
160. e CJ source as external you must tell the transmitter what cold junction temperature to reference by keying in the temperature as a configuration value For internal cold junction configuration the transmitter measures the cold junction temperature internally The procedure in Table 7 9 outlines the steps for selecting the source of the cold junction compensation Continued on next page 194 STS103 Operating Guide 4 99 7 3 Configuration continued Selecting CJ Source continued Table 7 9 Selecting Source of CJ Compensation Step Press Key Read Display or Action Description 1 B TT T TTTTSIMIVI clol ie Call up configuration function Note PS wW OIJRIKLTINIGI that first display may or may not appear depending upon previous felon fe keystroke action that may require 2 A Until display reads Calls up next configuration menu item PY vis 3 NON VOL IClOINFFIUG T T T T T Access Probe Configuration ENTER P RjojB e Je T 1 e o b selections 4 AP TPT V 3 CJO NJF G _ Calls up next configuration NEXT Ei T parameter 5 DE con IPTVIST F ie T T T T T Calls up next CJ source selection MENU clu E x r EIRIN A L Repeatedly press MENU ITEM key ITEM to toggle between two selections Stop whe
161. e CRITICAL STATUS interrupts your operation and is followed by the message PRESS STATUS After the PRESS STATUS message you press the STAT key to find out what problem exists You will receive one or more messages Take whatever corrective action necessary to solve the problem Remember that the flowmeter will stay in upscale or down scale burnout until the condition is corrected If the flowmeter sends more than one message each message will be displayed in the order of importance for about 5 seconds If you need to see them again press the STAT key again A non critical condition means that although a problem exists the flowmeter is still operating When a non critical condition occurs a character appears on the right side of the display along with whatever you re displaying at the time This character means press the STAT key because some type of a problem exists Again one or more messages will appear on the display for about five seconds each 99499 When the battery voltage becomes low a colon will appear in the middle of the display It stays on the display until you either charge or replace the batteries Continued on next page 4 99 STS103 Operating Guide 171 6 7 Diagnostic Messages Diagnostics and SFC Messages continued Table 6 19 is a list of all the diagnostic messages that can appear when using the STS103 with a MagneW 3000 Magnetic Flowmeter They are listed in alp
162. e displayed on the SFC for the MagneW The group that will be displayed depends on the application that you select when you configure the UNITS KEY display See CONFIGURATION UNITS KEY Section 6 4 Table 6 2 is a list of units in which you can display the values for LRV URV SPAN URL and INPUT Table 6 2 List of the MagneW 3000 Units by Application VELOCITY VOLUME FLOW MASS FLOW m sec m 3 h Kg min ft sec Ib min Kg h cc h Ib h m3 min KOBER i Ib sec gal min l min t min cc min t sec m3 day g h gal day g min Kgal day g sec bbl day ton h m sec ton min ton sec Continued on next page 4 99 STS103 Operating Guide 123 6 3 Set up Continued Selecting the units in which to display values continued Figure 6 4 is a graphic view of the key presses required to select the desired units in which to display values When a Unit is selected it is saved in the MagneW as user preferred and is automatically recalled and displayed whenever the SFC is connected Press the UNITS key and use A v to change selection Figure 6 4 Selecting the MagneW 3000 Units in which to Display Values MAG XX TAG NO READY to Figure 6 9 to change application UNITS 1 TAG NO UNIT SELECTION NOTE 1 Make selection from Table 6 2 UNITS 1 TAG NO UNIT N UNITS 1 TAG NO SFC WORKING NOTE 1 N total
163. e of the measured variable 0 0000 Kg h that a device can be adjusted to measure Engineering UNITS 1 tag no The present selection of engineering units Units Kg h Operation Status STATUS tag no STATUS CHECK OK Momentary Display Indicates the status of operation at the present time Failsafe Direction me 2 5 5 STAT F S DIR tag no SFC WORKING XX then F S DIR tag no F SAFE DOWNSCALE Displays the Failsafe Burnout direction upscale or downscale for analog devices Software Version gt o ac 2 Wa x S W No tag no SFC X XXMTR X X Displays the STS103 and MagneW software version numbers Table continued on next page 4 99 STS103 Operating Guide 169 6 6 Operation Continued Operating Data continued Table 6 18 MagneW 3000 Operating Data continued Operating Data Press Displays Result Displays are examples Zero Point Adjustment SHIFT then INPUT J INPUT 1 tag no The detector must be filled with stationary 0 0000 Kg h fluid flow velocity is not faster than 0 2 m s INPUT 1 tag no ZERO INPUT Request to Zero Input Press to Exit NON VOL INPUT 1 tag no ENTER INPUT ZEROED Pu E S Zero adjustment is automatically done within approximately 20 seconds after pressing the ENTER key Display and DISPLAY TEST Display test indication Keyboard Test CLR NO DISPLAY OK then
164. eated steam equation also works for saturated steam applications The actual specific volume is the reciprocal of the fluid density in steam flow calculations The gas flow rate can be expressed as a volumetric flow rate in fluid volume per unit time or as a mass flow rate in fluid mass per unit of time The mass flow rate also applies for a volumetric flow rate at standard conditions such as Standard Cubic Feet per Minute SCFM The steam flow rate is expressed as a mass flow rate in fluid mass per unit of time Additional configurable equations are available that provide flow measurement with dynamic compensation for changes due to temperature and pressure These equations use density viscosity Reynolds number discharge coefficient thermal expansion factor and gas expansion factor to calculate mass and volume flowrate However due to the complexity of these flow equations you must use the Smart Configuration Toolkit SCT 3000 software program to configure the SMV 3000 for dynamic compensated flow measurement Continued on next page 4 99 STS103 Operating Guide 201 7 3 Configuration Continued Basic gas flow equation Kuser Pret Gas Kyser quick calculation ATTENTION The SMV 3000 uses this basic gas flow equation to calculate PV4 flow rate Kuser y Pcomp Tcomp e Pap Where Gas Flow Rate You select Ideal Gas Volume or Mass Flow type as a configuration entry The d
165. ection This section contains the following topics Topic See Page 7 1 Overview 177 7 2 Wiring 178 7 3 Configuration 180 7 4 Output Calibration 235 7 5 Operation 239 7 6 Diagnostics and SFC Messages 244 7 7 Troubleshooting 253 4 99 STS103 Operating Guide 177 7 2 Wiring Overview Establish communications with the SMV 3000 by connecting the SFC leads to the 4 20 mA line of the transmitter Your choices are either at a junction box somewhere along the 4 20 mA line on the field side of the intrinsic safety barrier panel in the control room or at the transmitter itself Following are examples for connecting to all these places Use the one you need Connecting the The STS103 connects to SMV 3000 transmitters IS Panels and junction STS103 to junction boxes through a pair of wires with alligator clips on the ends The STS103 boxes and IS panels communications terminal end of the wires has a stereo phone jack connection that is inserted into the communications terminal The other end of the wires are clipped onto terminals in the junction box or IS barrier panel or directly to the transmitter The red SFC lead connects to the junction box or SFI positive terminal the black lead to the negative terminal Figure 7 1 shows the STS103 connected to a junction box or an IS barrier panel Figure 7 1 STS103 Junction Box and IS Connection Transmitter Junction Box IS Panel
166. ection in the SFC Press NEXT to move to the next element without storing the previous selection DECONF TAG NO F S FSO B O HI DECONF TAG NO F S FSO LKG 20304 Continued on next page 30 STS103 Operating Guide 4 99 3 4 Common Key Sequences and Displays continued Selecting configuration Figure 3 5 is a graphic view of the key presses required to configure the data for the digital elements for DE Communications mode of a Multiple PV transmitter communications mode Multiple PV Transmitters Figure 3 5 Configuring the Elements of the DE Communications Mode Multiple PV Transmitter SFI Type tag no READY DE CONF XXXXXXXX DOWNLOAD CHANGE1 DE CONF XXXXXXXX PV 1 ON DE CONF XXXXXXXX SFC WORKING DE CONF XXXXXXXX PV 2 ON DE CONF XXXXXXXX W O DB 4 BYTE DE CONF XXXXXXXX F S B O LO DE CONF XXXXXXXX PV 3ON DE CONF XXXXXXXX W DB 6 BYTE DE CONF XXXXXXXX F S B O HI DE CONF XXXXXXXX F S LKG DE CONF XXXXXXXX PV 4ON DE CONF XXXXXXXX F S FSO B O LO DE CONF XXXXXXXX F S FSO B O HI DE CONF XXXXXXXX F S FSO LKG 20729 Continued on next page 4 99 STS103 Operating Guide 31 3 4 Common Key Sequences and Displays continued Storing data into The following sequence downloads data into the SFI s non volatile non volatile memory memory Non volatile memory stores
167. edures listed in the figures that follow ATTENTION ALWAYS KEY IN THE LOWER RANGE VALUE FIRST Keying in the lower Change the LRV Lower Range Value of a transmitter as follows range value LRV Locate the key on the keyboard and press Figure 5 8 is a graphic view of the key presses required to change the Lower Range Value LRV Figure 5 8 Changing the STT 3000 Lower Range Value LRV SFI Type TAG NO READY LRV TAG NO XXX UNITS LJL to change value LRV I TAG NO NEW VALUE UNITS LRV TAG NO SFC WORKING LRV TAG NO NEW VALUE UNITS 20321 Continued on next page 4 99 STS103 Operating Guide 89 5 3 Set up Continued Keying in the upper range value URV Change the URV Upper Range Value of a transmitter as follows Locate the key on the keyboard and press Figure 5 9 is a graphic view of the key presses required to change the Upper Range Value URV Figure 5 9 Changing the STT 3000 Upper Range Value URV SFI Type TAG NO READY URV TAG NO XX X UNITS DID to change value URV TAG NO NEW VALUE UNITS URV TAG NO SFC WORKING URV TAG NO NEW VALUE UNITS 20312 Continued on next page 90 STS103 Operating Guide 4 99 5 3 Setting the upper and lower range values of the transmitter using an applied t
168. ee 20 mAdc 100 output 9 G FUR v PTT T Prompt asks if you want to set URV SET uRivi to applied pressure If you don t want to set URV press CLR key to exit function Otherwise go to Step 10 10 NON VOL FUR vE TE T T3EAESETT Message exchange is working ENTER sifle jw o RIK IINIGI J es j1 FIT 3 a4 Applied URV setting stored in _ 5 5 4 8 2 2 _ 3 9 transmitter s working memory Continued on next page 4 99 STS103 Operating Guide 219 7 3 Configuration Continued Setting range values for PV1 to applied pressures continued Table 7 18 Setting LRV and for PV1 to Applied Pressures continued Step Press Key Read Display or Action Description 11 Fu 1 D39 T 1 Initiates shift key selection SMIET NON VOL 1 JFT 3 1 5 ioo Saves data in transmitter s non sj w o R k f volatile memory This takes approximately 8 seconds LE ENTER Yes Setting range values You can set the LRV for the static pressure input PV2 by either for PV2 keying inthe desired values through the SFC keyboard or applying the corresponding LRV and pressures directly to the transmitter Table 7 19 gives the procedure for keying inthe range values for a sam
169. efault selection is for Ideal Gas Volume Flow A scaling factor you determine based on the dynamics of your process Note that the SCT 3000 software includes an easy to use Kuser calculation function Pref Pressure compensation for Volume Flow Or Pref Pressure compensation for Mass Flow or Volume Flow adjusted to Standard Temperature and Pressure Absolute pressure of the process at design conditions You enter design pressure as a configuration value The default configuration value is actually not a number NaN which forces the PV4 output to a failsafe condition until a value is entered Measured absolute pressure of the process Transmitter s PV2 input Ta Tref Temperature compensation for Volume Flow Or Tref 2 Ta Temperature compensation for Mass Flow or Volume Flow adjusted to Standard Temperature and Pressure Measured absolute temperature of the process Transmitter s PV3 input Absolute temperature of the process at design conditions You enter nominal operating temperature as a configuration value The default configuration value is actually not a number NaN which forces the PV4 output to a failsafe condition until a value is entered Measured Differential pressure of process Transmitter s PV1 input The quickest way to calculate the Gas Kyser value is to solve the gas flow equation for Kyser in terms of Pap Qrow and To do this calculation you only need to obtain the proce
170. eing provided by Nothing Information only However 3 WIRE RTD PV3 3 wire RTD type this may indicate a problem if number of wires displayed does not match number of RTD leads physically connected to transmitter or if sensor type should be thermocouple 6 2 STATUS NO PV3 input is being provided by Nothing Information only However 4 WIRE RTD PV3 4 wire RTD type this may indicate a problem if number of wires displayed does not match number of RTD leads physically connected to transmitter or if sensor type should be thermocouple 4 3 Sensor type for the current Nothing Information only SMV is absolute pressure 4 4 Sensor type for the current Nothing Information only SMV is gauge pressure A URV 1 TAG NO The value could not be written The hardware jumper within the device WRITE PROTECTED because the transmitter is must be repositioned in order to permit write protected write operations Continued on next page 4 99 STS103 Operating Guide 251 7 6 Diagnostic message tables continued Diagnostics and SFC Messages continued Table 7 33 SFC Diagnostic Message Table SMV Status SFC Display Message Possible Cause What to Do ALGPARM Kuser Applicable PV4 algorithm Enter and download desired value gt RANGE parameter is set to default value of to transmitter database not a number NaN SAVE
171. emperature Set up Continued On some applications you may want to set the lower and upper range values to the actual corresponding process values The STT 3000 can set the lower and upper range values to these values Follow the procedures given to set the LRV and URV using applied temperature If you are working on a transmitter in a process use the actual temperature value from the process If you are working on a set up with a input source simulate the temperatures values Setting the lower range Table 5 4 is the procedure for setting the lower range value using applied value using an applied temperature temperature Table 5 4 Setting the STT 3000 Lower Range Value Using Applied Temperature Step Press SFC Display will Read Result displays are examples 1 Apply the input to the transmitter that will be used as the lower range value LRV 2 INPUT 1 tag no This reads the input temperature The reading SHIFT XXXXX UNITS will change or blink since the SFC updates it then every 6 seconds cid DO NOT PRESS THE NEXT KEY until the display changes so you are not trying to x communicate with the transmitter when it s updating the SFC reading 3 LRV1 tag no Displays the Lower Range Value LRV as XX XXX UNITS then T The SFC asks if you want to set the Lower SET tag Range Value LRV to this input SET LRV 4 LRV 1 tag no Answers Yes YES SFC WORKING The SFC display
172. engineering units Units i F Operation Status m o g 2 STATUS tag STATUS CHECK OK Momentary Display Indicates the status of operation at the present time See section 5 7 Failsafe Direction n d g me Do 25 4 gt dg F SDIR tag no SFC WORKING XX then F S DIR tag no F SAFE DOWNSCALE Displays the Failsafe Burnout direction upscale or downscale for analog devices Based on the position of the hardware jumper Software Version 2 d ct gt lt 5 E x 2 ijo2 z m gt lt S W No tag SFC X X XMTR X X S WNo tag no DD MM YY HH MM Displays the STS103 and STT 3000 software version numbers date and time stamp Table continued on next page 4 99 STS103 Operating Guide 107 5 6 Operating data Operation Continued continued Table 5 10 STT 3000 Operating Data continued Operating Data Press Displays Result Displays are examples Display and DISPLAY TEST Display test indication Keyboard Test DISPLAY then un CLR NO then KEYBOARD TEST ROW COLUMN You can test each key on the keyboard For example INPUT J If you press the display will read KEYBOARD TEST ROW 3 COLUMN 2 to clear Access the scratch pad message N n d o 95 5
173. ent to 0 must be applied before pressing the ENTER key Zero adjustment is automatically done within approximately 20 seconds after pressing the ENTER key Table Continued on next page 240 STS103 Operating Guide 4 99 7 5 Operating data continued Table 7 28 Operation Continued ST 3000 Operating Data continued Operating Data Press Displays Displays are examples Result Input Value ER Indicates the input value in an engineering PSI SHIFT unit of measure of the current PV then INPUT J INPUT 1 tag no OUT 0 0000 PSI Output Value OUTP 1 tag no Indicates the percent output of the current 0 000 PV This value is displayed and updated every 5 seconds Currently URE SPAN 1 tag no Span of the current PV Span is the URV Running Span 100 00 PSI LRV or the range of input corresponding to a full range 0 100925 of output Upper Range The highest value of the measured variable of Limit SHIET the current PV that a device can be adjusted then to measure URL Y URL 1 tag no 100 00 PSI Engineering m UNITS 1 tag no The present selection of engineering units of Units the current PV Operation Status m o g E STAT STATUS tag no STATUS CHECK OK Momentary Display Indicates the status of operation at the present time Failsafe Direction STAT T c a 2 2 I 7 gt WZEZ F SDIR tag no
174. erating Guide 87 5 3 Set up Continued Selecting configuration Figure 5 7 is a graphic view of the key presses required to configure the data for the digital DE elements for DE communications mode communications mode continued Figure 5 7 Configuring the STT 3000 DE Communications Mode SFI Type TAG NO READY DECONF DECONF TAG NO SINGLE RANGE DECONF TAG NO SINGLE RANGE W S DECONF TAG NO gu W O DB 4 BYTE DECONF TAG NO W DB 6 BYTE Note 1 You must press ENTER to store your selection in the SFC Press NEXT to move to the next element without storing the previous selection DECONF TAG NO DUAL RANGE STDC ENTER DECONF TAG NO DOWNLOAD CHANGE DECONF TAG NO SFC WORKING ENTER or NEXT NOTE 1 NEXT DECONF TAG NO F S B OLO DECONF TAG NO F S B O HI DECONF TAG NO F S LKG DECONF TAG NO F S FSO B O LO DECONF TAG NO F S FSO B O HI DECONF TAG NO F S FSO LKG 20304 Continued on next page 88 STS103 Operating Guide 4 99 5 3 Set up Continued Keying in the lower You can re range a transmitter by changing the transmitter s Lower Range and upper range values Value LRV and Upper Range Value URV You can re range the transmitter to whatever values you require within the Lower Range Limit LRL and the Upper Range Limit URL Use the proc
175. eset corrects CORR ACTIVE py4 Calibrated Continued on next page 4 99 STS103 Operating Guide 247 7 6 Diagnostics and SFC Messages continued Diagnostic message Table 7 30 tables continued Non Critical Status Diagnostic Message Table continued SMV Status SFC Display Message Possible Cause What to Do 3 6 Either the temperature PV3 or the Check to see if the PV pressure PV2 is not within the measurement is correct boundaries of SMV steam equation The SMV steam equation is defined for pressures between 8 and 3000 psia and temperature between saturation and 1500 F except above 2000 psia 2 2 STATUS NO SPAN correction factor is outside Verify calibration acceptable limits for PV1 range Could be that transmitter was in ane sea CN input or output mode during a MIMBOTISSSUBBOFE CORRECT procedure 4 2 STATUS NO SPAN correction factor is outside Verify calibration 2 acceptable limits for PV2 range Rec REI COR PVS Could be that transmitter was in Moped input or output mode during Sens SEPP Ole CORRECT procedure 8 2 STATUS TAG NO SPAN correction factor is outside Verify calibration EX SPAN COR PV3 acceptable limits for PV3 range If error persists call the Solutions Support Center 9 2 STATUS TAG NO SPAN correction factor i
176. esistance in the loop NACK RESPONSE The SFI sent a negative acknowledgment because one or more of the commands could not be processed by the SFI Check the configuration and try again NO XMTR RESPONSE No response from the SFI It may be a SFI or loop problem Try communicating again Press the STAT key and do any corrective action required Check that the flowmeter s loop integrity has been maintained and that the SFC is connected NVM FAULT Non volatile memory fault Replace the transmitter NVM ON SEE MAN The SFC s CPU is misconfigured Replace the SFC OPTION MISMATCH On a database restore one or more options do not match None SFC tried to restore as much of the database as possible gt RANGE The value to be displayed is over the range of the display Press the key and start again RESTORE FAILED Part of the Save Restore function Check the transmitter and try again SENSOR TEMP FAIL The ST 3000 temperature sensor has failed Replace the transmitter SFC FAULT A component of the SFC is not operating properly Try communicating again If the condition still exists replace the SFC STATUS UNKOWN Your SFC has an older version of software that cannot decode a new diagnostic message from a more recent transmitter Put the SFI into the output mode and press the STAT key The message will identify where the problem is
177. esses displays and rules notes required to do an excitation current check or turn the excitation current off Figure 6 22 MagneW 3000 Excitation Current Check EX CURRENT CHK 3000 EX X gt Y EX CURRENT CHK 3000 EX Y gt X EX CURRENT CHK 300 0 EX OFF AV 20309 Continued on next page 162 STS103 Operating Guide 4 99 6 5 Calibration continued Excitation current calibration The low excitation current should read 250 mA and the high excitation current should read 350 mA If the excitation current needs calibrating you can select an increment or decrement value of 0 03 0 10 0 50 1 00 or 5 00 mA to use during calibration that will bring the excitation current to the proper value more quickly For example If the high excitation current value reads 340 you can select INC DEC 5 00 mA and the DVM will increase 5 mA each time you press the A key Press A twice to increase to 350 Continued on next page 4 99 STS103 Operating Guide 163 6 5 Calibration continued Excitation current Figure 6 23 gives you the key presses displays and rules notes required calibration procedure calibrate the excitation current Figure 6 23 MagneW 3000 Excitation Current Calibration from Figure 6 21 CALIBRATE MENU ENTER EX CALIBRATION EXCIT CUR CAL ARE YOU SURE be NOTE 1 EX CALIBRATION LOW CAL 250MA LOWCAL 250MA _ er SFC WO
178. for PV4 go to Step 7 receiver instrument is configured to not for PV4 go to Step 6 match PV4 output range 6 DE CONF Plv Tao Calls up current PV number display MENU Icju R R EINIT PIV Repeatedly press MENU ITEM key ITEM to step through PV number DE CONF selections 1 2 3 and 4 Stop l PI when PV4 is display STU TRTRTE INTE ely ESL LET DE CONF ATTENTION You can also use 3011 left and right gt arrow keys to CJUJRIRIEJNIT 3 step forward and backward through PV number selections MENU r T ITEM ja NON VOL 4 sTe 1 1 Returns to previous display which is Yes updated to reflect PV4 as current PV number selection 7 Z rou 4 TFITT in 0 zero as desired output i lili fx illl signal level in percent 8 NON VOL T4T T Flt la qa Put transmitter into constant current ENTER L1 i11 lol olol el T1 1111 source mode as noted by sign in Yes display and set output to 096 9 RESET T4T T FT loia Calibrate output signal to 0 7 121199 10 Check that milliammeter voltmeter reading is 4mA or 1V If reading is Then correct go to Step 13 lower than go to Step 11 4mA or 1V higher tha
179. g the SFC with the SCM 3000 Smart Coriolis Mass Flowmeter the SGC 3000 Smart Gas Chromatograph and the Model STT350 STT 3000 Smart Temperature Transmitter are presented in the User s Manual for that specific instrument Chapters 1 2 and 3 in this manual contain information relating to the common information for the SFC The specific operating information for using the SFC with ST 3000 STT 3000 MagneW 3000 and SMV 3000 is contained in separate chapters in this manual The format of this manual is completely different than the STS102 Operating Guide The key sequences are graphically laid out to aid you in learning how to use the SFC for the first time as well as reminding experienced users how to perform operations you have not done in a while The format of this manual is designed to make finding reading and understanding the information presented easier than ever before 4 99 STS103 Operating Guide STS103 Operating Guide 4 99 Table of Contents SECTION 1 SMART FIELD COMMUNICATOR 75103 OVERVIEW 1 1 1 Introd UCtiOn ue de ote e ete et eua 1 1 2 STS103 Physical and Functional Description 3 1 3 GONMCCHIONS a i tete AAG ei Ee d Eo eM ces 9 1 4 STS103 SFI Communication sees 10 SECTION 2 STS103 INSTALLATION eeeeeeeeeeeene enne nennen nnn nnn nnn nnn nennen nnn 13 2 1
180. g will XX XXX UNITS change or blink since the updates it every then seconds INPUT DO NOT PRESS THE NEXT KEY until the display changes so you are not trying to PUT communicate with the transmitter when it s updating the SFC reading 3 trvE LRV1 tag no Displays the Lower Range Value LRV XX XXX UNITS then c LRV1 tag no The SFC asks if you want to set the Lower SET SET LRV Range Value LRV to this input 4 1 tag no Answers Yes YES SFC WORKING The SFC displays SFC WORKING while it sets then the LRV to that reading LRV 1 tag no Next set the Upper Range Value URV OR XX XXX UNITS CLR LRV1 tag no Answers No NO XX XXX UNITS SFC displays updated pressure value Repeat the procedure until you enter the LRV you want 5 STE LRV1 tag no The LRV data is entered into non volatile SFC WORKING memory then NON VOL then ENTER LRV 1 tag no YES DATA NONVOLATILE then SFI Type TAG No READY 60 STS103 Operating Guide 4 99 4 3 Set the upper range value Set up Continued Table 4 5 is the procedure for setting the upper range value using applied pressure Table 4 5 Setting the ST 3000 Upper Range Value Using Applied Pressure Step Press SFC Display will Read Result 1 Apply to the transmitter the pressure that will be used as the upper range value URV 2 INPUT 1 tag no This reads the input pressure The reading will SHIFT
181. ge values for PV3 229 Setting URL and range values for PV4 235 SFC Diagnostic Messages 263 Span 222 226 229 237 STS103 SMV3000 connection 179 Superheated steam flow equation 205 Uploading the database 780 SMV 3000 Multivariable Transmitter 77 Span 36 Specifications 2 ST3000 Adjusting the damping time 53 Changing the communications mode 55 Configuration procedure 63 Copying data into non volatile memory 52 DE configuration elements 56 Diagnostic Messages 72 Do a DAC calibration 64 Keying in the I D and uploading the database 50 Lower Range Value LRV 58 Operating Data 68 Selecting a parameter 62 Selecting the units 54 Set the lower range value 60 Set the upper range value 61 Setting the upper and lower range values of the transmitter using an applied pressure 60 STS103 ST3000 connection 49 Upper Range Value URV 58 ST3000 Pressure Transmitter 47 Steam Kuser quick calculation 205 Storing data 32 STT3000 Adjusting the damping time 84 Configuration procedure 94 DE Communications mode 88 DE configuration elements 87 Diagnostic Messages 10 Keying in the I D and uploading the database 87 Keying in the upper and lower range values 89 lower range value LRV 89 Operating Data 106 Probe config elements 95 96 Probe Configuration 98 Probe types 97 Selecting the units 85 Set the lower range value using applied value 97 Set the upper range value using applied value 92 STS103
182. ges Refer to Table 4 5 for Operating Data access instructions Continued on next page 4 99 STS103 Operating Guide 67 4 6 Operating data Operation Continued Table 4 8 shows you what key to press and what the associated displays will be when you access each of the operating data Table 4 8 ST 3000 Operating Data Operating Data Press Displays Result Displays are examples Transmitter 1 0 DEREAD A Analog Communications Mode ANALOG iD SFI Type TAG No J TRIPS SECURED Nm Puit SQRT Square Root ENTER YYYY XX TAG NO YES XX Type of Transmitter DP Differential Pressure AP Absolute Pressure GP Gauge Pressure or DIGITAL Digital Communications Mode 12345678 Lower Display is the device 1 0 Damping Value Damping Time is displayed in seconds or DE READ A ID C DAMP 1 tag no X X SECONDS Upper Range URV1 tag no Upper Range Value span Value 100 value Units The value of Input which will generate 100 Output Lower Range ave LRV1 tag no Lower Range Value zero Value 0 value Units The value of Input which will generate 0 Output Digital A Communications SHIRT Mode then e tagno Type of Transmitter operation SINGLE RANGE A DE CONF tag no Broadcast Message Format NEXT w o DB 4byte H DE CONF tag no Burnout Mode F S B O Lo Input Value SHIFT then a INPUT 1 tag no Indicates the p
183. habetical order along with the problem associated with the message and the corrective action to take when the message appears Table 6 19 Diagnostic Messages for SFC and MagneW 3000 Message Problem Corrective Action SFC FAULT SFC communication is not possible press STAT key to obtain other Or due to a detected SFC problem SFC FAILURE ox Replace the SFC AC POWER LOSS Displayed briefly when the MagneW loses AC power A D FAULT Analog Digital converter of converter is abnormal Turn the converter power OFF then ON Replace the main printed circuit board if message still appears BAD CONFIG DATA Configuration data is incorrect Check for a wrong setting Step through the MagneW configuration and check values and selections COMM ABORTED Communication aborted by user CORRECT RESET Rec calibration is necessary to Calibrate the Upper Range Value span obtain the required accuracy DO OUTPUT MODE Checking the contact input output None status EMPTY PIPE Detector is empty None ENTRY gt SENS RNG The number entered is beyond 1 125 times the upper range limit of the sensor Press the key check the parameter and start again EXCESS ZERO CORR The ZERO correction factor is outside the acceptable limits for accurate operation Check the input and be sure it matches the calibrated range value EXCESS SPAN CORR The SPAN correction factor is outside the
184. hanging the ST 3000 Communications Mode 55 Configuring the ST 3000 DE Communications Mode 57 Changing the ST 3000 Lower Range Value LRV 58 Changing the ST 3000 Upper Range Value URV 59 Configuring the ST 3000 Transmitter 63 ST 3000 Troubleshooting Procedure 75 575103 Junction Box and IS 78 575103 Connections to Model STT350 Transmitter 79 STS103 Connections to Model STT25D and STT25M Transmitters 79 STS103 Connections to Model STT300 and STT302 Transmitters 80 Adjusting the STT 3000 Damping Time 84 Changing the STT 3000 Communications Mode 86 Configuring the STT 3000 DE Communications Mode 88 Changing the STT 3000 Lower Range Value LRV 89 Changing the STT 3000 Upper Range Value URV 90 STT 3000 Temperature Transmitter Configuration 94 STT 3000 Probe Configuration ssssseeeeme 98 Save Restore Dala ne tones tin teases denina anki Ear e TERRE 99 Alarm Latching Open Input Failsafe
185. have become familiar with the STS103 operations that are more or less the same for every transmitter This section gives you the keystrokes and displays that are specific for SFC communications with the following STT 3000 Smart Temperature Transmitter models e STT350 e STT302 e STT300 e STT25D e STI25M This section contains the following topics Topic See Page 5 1 Overview 77 5 2 Wiring 78 5 3 Set up 80 5 4 Configuration 93 5 5 Output Calibration 102 5 6 Operation 105 5 7 Diagnostics and SFC Messages 109 5 8 Troubleshooting 114 4 99 STS103 Operating Guide 77 5 2 Wiring Overview Connecting the STS103 to junction boxes and IS panels Establish communications with the STT 3000 by connecting the SFC leads to the 4 20 mA line of the Transmitter Your choices are either at a junction box somewhere along the 4 20 mA line on the field side of the intrinsic safety barrier panel in the control room or at the transmitter itself Following are examples for connecting to all these places Use the one you need The STS103 connects to STT 3000 transmitters IS Panels and junction boxes through a pair of wires with alligator clips on the ends The STS103 communications terminal end of the wires has a stereo phone jack connection that is inserted into the communications terminal The other end of the wires are clipped onto terminals in the junction box or IS barrie
186. he preprogrammed temperature engineering units independent of the other sensor measurements Table 7 5 Selecting Engineering Units for PV3 etc IF you want URV LRV etc for PV3 displayed in And Output Characterization configuration is THEN call up desired parameter display and sequentially press D key until display shows PV number for current units selection 3 PV3 UIN 3 E33 4 EO Pepe ne EE TEE d degrees Celsius LINEAR degrees Fahrenheit LINEAR F Kelvin LINEAR K degrees Rankine LINEAR R ohms RTD sensor NON LINEAR volts Thermocouple sensor NON LINEAR V millivolts Thermocouple sensor NON LINEAR MV When Output Characterization configuration for is NON LINEAR input readings can only be displayed in millivolts mV or volts V for thermocouple T C inputs or in ohms for RTD inputs Continued on next page 4 99 STS103 Operating Guide 189 7 3 Configuration Continued Selecting Units of Measurement continued Table 7 5 Selecting Engineering Units for PV3 etc continued IF you want cold junction temperature displayed in And Output Characterization configuration is THEN call up CJT or ECJT display and sequentially press D key until display shows r Preassigned ID number 7 E PET TTT Ty Pie degrees Celsius
187. he key presses required to display and calibrate the input value The sequence below is followed when viewing and or calibrating most SET s input value This function is not available for STT 3000 devices Figure 3 13 Displaying and calibrating the Current Input Value SFI Type READY TAG NO A SHIFT INPUT OUT PUT INPUT1 TAG NO SFC WORKING CLR INPUT 1 TAG NO NO value units INPUT 1 TAG NO ZERO INPUT NOTE 1 NON VOL INPUT 1 TAG NO SFC WORKING INPUT 1 TAG NO INPUT ZEROED Note 1 A Zero equivalent input must be applied at this point for the Correct to work 20737 Continued on next page 40 STS103 Operating Guide 4 99 3 4 Common Key Sequences and Displays continued Displaying the SFI diagnostic status Displaying the software version Figure 3 14 is a view of the key presses required to display the SFI s diagnostic status Figure 3 14 Displaying the SFI Diagnostic Status F S DIR U STAT SFI Type TAG NO WORKING No Errors Any Errors Example SFI Type TAG NO IN OUTPUT MODE SFI Type TAG NO STATUS CHECK OK SFI Type TAG NO CORRECTS RESET us When any errors are detected each error is displayed for 2 seconds The message received as a response from the SFI may then be looked up under the specific status messages for that SFI which are shown
188. he number character when the number mode is activated When in the numeric mode the cursor is shown as a blinking E o O gt The yellow decimal point SCR PAD key inputs a decimal point when in the number mode and a space in the alpha mode The SCR PAD second function displays data in the SFl s scratch pad memory L5 T 4 The yellow positive negative key functions as follows e When entering an ID name or using the Scratch Pad function the ALPHA NUM key toggles to allow hyphen NUM mode or a slash ALPHA mode to be entered using the key e In the configuration mode use the key to enter a positive or negative symbol when entering a value The NUM ALPHA key toggles between and DE READ The green ID DE READ key reads and displays the device s tag name ID when pressed In analog devices the database is also read The DE READ second function reads the digital enhanced SFI s database along with the tag name Continued on next page 4 99 STS103 Operating Guide 5 1 2 575103 Physical and Functional Description continued Key functions continued Table 1 2 STS103 Key Functions Continued Key Description The green CONF key starts each SFI s configuration mode The unique settings are the parameters and characteristics that are configured into the SFI The green DAMP key displays the damping constant of the
189. he transmitter PROM SMV CONFIG SER 9317304637 Digital A Communications SHIFT Mode then i i DE CONF am DECONF tagno Type of Transmitter operation MENU ITEM _ z m gt lt DE CONF tag w o DB 4byte Broadcast Message Format Table Continued on next page 242 STS103 Operating Guide 4 99 7 5 Operating data continued Table 7 28 Operation continued ST 3000 Operating Data continued Operating Data Press Displays Displays are examples Result Software Version ER SHIFT S R X then W VE then H A NEXT S W No tag no SFC X X XMTR X X S W No tag SFC Version X XX Displays the STS103 and SMV 3000 software version numbers SFC Version X XX Display and Keyboard Test A SHIFT then i DISPLAY TEST DISPLAY OK then KEYBOARD TEST ROW COLUMN Display test indication You can test each key on the keyboard For example If you press INPUT J PUT the display will read KEYBOARD TEST ROW 3 COLUMN 2 O to clear Access the SCR PAD tag no Displays the scratch pad message scratch pad A SFC WORKING message then then Press the NEXT key to switch from pulley SCRATCH PAD 1 SCRATCH PAD 1 to XXXXXXXXXXXXXXXX SCRATCH PAD 2 4 99 STS103 Operating Guide 243 7 6 Diagnostics and SFC Messages Introduction OK Status Critical s
190. heck transmitter and try again RESTORE FAILED function failed due to a problem with the current configuration or a communications error TAG NO The transmitter did not respond Try communicating again ILLEGAL RESPONSE properly since the response was not recognizable The message was probably corrupted by external influences Transmitter sent illegal response to SFC URV 3 TAG NO Requesting transmitter to correct Check that correct URV INVALID REQUEST or set its URV to a value that calibration pressure is being results in too small a span or applied to transmitter or that correct its LRV or URV while in transmitter is not in input or input or output mode output mode Keystroke is not valid for given Check that keystroke is applicable transmitter for given transmitter STATUS TAG NO Transmitter sent a negative Check configuration and try again NACK RESPONSE response because it could not process one or more commands TAG NO SFC failed a communications Check polarity and try again 5 diagnostic check Could be an SFC electronic problem or a diss cd p p tr faulty or dead communication y loop again Check communication loop Replace SFC TAG NO Either there is too much Check polarity wiring and power HI RES LO VOLT resistance in loop open circuit supply There must be 11 volts _ voltage is too low or both minimum at transmitter to permit operation Che
191. hen OUTP 1 tag no CORRECT DAC ZERO 13 cid SFI Type TAG No Exits DAC calibration mode BEAU Exits OUTPUT mode then CLR NO 104 STS103 Operating Guide 4 99 5 6 Overview Operation The STS103 displays all the operating data for the STT 3000 Temperature This data includes Transmitter I D Damping value Lower range value Upper range value span Configuration elements for Digital Communications mode Input value Output Value e Span value Upper Range limit Engineering units Operation Status Software Version Number Failsafe Direction Zero Point adjustment Display and Keyboard Test Read Scratch Pad messages Write Protection Alarm Latching Refer to Table 5 5 for Operating Data access instructions Continued on next page 4 99 STS103 Operating Guide 105 5 6 Operating data Operation Continued Table 5 10 shows you what key to press and what the associated displays will be when you access each of the operating data Table 5 10 STT 3000 Operating Data Operating Data Press Displays Result Displays are examples Transmitter 1 0 DEREAD Analog Communications Mode ANALOG SFI Type TAG No TRIPS SECURED NON VOL ENTER STT TAG NO YES 12345678 or or Digital Communications DE Mode 12345678 Lower Display is the device 1 0 or Tag No Damping Value Damping Time is displayed in seconds DE READ A ID C DA
192. her unit The SFC can display the values for LRV URV SPAN URL LRL Hi Lo PV and INPUT in one of several pre programmed units These are e F degrees Fahrenheit e C degrees Celsius R degrees Rankine K degrees Kelvin In the case of non linear inputs Configuration selection O P NON_LINEAR See Section 5 4 MV Millivolts eQ Ohms When a unit is changed the SFC automatically performs a calculation for the new value and displays the new value in whichever unit you have selected Table 5 2 shows you what keys to press to select a particular unit Selecting the STT 3000 Units Step Press SFC Display will Read Result 1 D UNITS Display shows the currently selected unit The UNITS 1 TAG NO example display shows degrees Fahrenheit F H NEXT or D UNITS Press this key until you see the required unit in the lower display The available selections are shown above UNITS 1 TAG NO The SFC will now display the values in the unit selected ATTENTION You can also separately select units for the ECJT External Cold Junction Temperature by pressing the Units key while in Probe Config display showing ECJT See Section 5 4 Configuration for details Continued on next page 4 99 STS103 Operating Guide 85 5 3 Set up Continued Changing the communications mode The STT 3000 transmitter operates in either an Analog mode or a
193. iew of the key presses required to configure the to go to Press PREV FAILSAFE T Config you see lo go to m SFM CONFIG Press NEXT TOTALIZER DIGITAL 1 0 Menu sais No onfigurt MAG SR XXXXXXX READY Press conr p SFM CONFIG SFM CONFIG SFC WORKING UNITS KEY Digital 1 0 DIGITAL SFC WORKING ENTER 9 DIGITAL DIGITAL VO DIGITAL VO d DI NOT USED K DO NOT USED E DO NORM OPEN DIGITAL VO DIGITAL VO piata vo DI 0 LOCK DO ALARM DO NORM CLOS DIGITAL I O DIGITAL l O DI AUTO ZERO DO RANGE ID DIGITAL I O DIGITAL l O DI CNTR RESET DO PRESET MTCH NOTE 1 DIGITAL I O DI EXT RANGE NOTE 1 CLR CLR CLR NOTE 1 Selections may be limited Refer to Table 6 7 for restrictions 20307 Continued on next page 4 99 STS103 Operating Guide 145 6 4 Configuration continued Totalizer Menu Totalizer Menu This configuration group and subset groups of parameters let you select Pulse configuration functions and Totalizer functions Before starting your configuration be aware that all of the parameters do not appear all the time and that some are READ ONLY The elements of Totalizer Menu are listed in Table 6 12 Selections may elements be limited Refer to Table 6 7 for restrictions Table 6 12 MagneW 3000 Totalizer Menu Elements Element Definition NO PULSE CARD This is displayed if pulse card
194. iguring a ST 3000 whether you are changing one non volatile memory element or a full database you must copy all configuration data into the transmitter s non volatile memory This is the transmitter s permanent memory If the transmitter were to lose power the values for the database will be saved here The transmitter also contains a working memory that loses its contents if the power goes off and when power is restored the transmitter copies the contents of the non volatile memory into the working memory There is a failsafe procedure Thirty seconds after a value is changed the transmitter automatically copies it into the non volatile memory But if you change an element and power goes down before this runs you will still lose the data in the working memory Therefore whenever you make any changes in the transmitter always end your procedure as follows Press Displays will Read Result SFI Type TAG No SFC WORKING will be displayed as long SHIFT SFC WORKING as eight seconds then then The data is copied from the Working SFI Type TAG No memory into the Non Volatile memory Paid DATA NONVOLATILE ENTER YES then SFI Type TAG No READY Continued on next page 4 99 STS103 Operating Guide 181 7 3 Configuration Continued Entering Transmitter Tag Number and Broadcast Priority The procedure in Table 7 1 shows how to enter a sample tag number of FT 3011 into the transmitte
195. ing in the ST 3000 ID and Uploading the Database 50 Selecting the ST 3000 Units ssssssssseeeeeeees 54 The ST 3000 DE Configuration 56 Setting the ST 3000 Lower Range Value Using Applied Pressure 60 Setting the ST 3000 Upper Range Value Using Applied Pressure 61 Scrolling through the ST 3000 62 ST 3000 Digital to Analog Current Output Signal Calibration 64 ST 3000 Operating Data nene 68 Diagnostic Messages for SFC and ST 3000 72 Keying in the STT 3000 ID and Database 81 Selecting the STT 3000 85 STT 3000 DE Configuration 87 Setting the STT 3000 Lower Range Value Using Applied Temperature 91 Setting the STT 3000 Upper Range Value Using Applied Temperature 92 Scrolling through the STT 3000 93 STT 3000 Probe Configuration Elements 95 STT 3000 Probe Types and Ranges 97 STT 3000 Digital to Analog Current Output Signal Calibration 102 STT 3000 Operating D
196. ing units for display of design density value entered in equation parameters configuration See Selecting Density Units in this section Table 7 4 Table 7 5 and Table 7 6 list the preprogrammed units for the selected process variable and show how to select them Be sure desired PV number is currently selected for display when selecting applicable units Press MENU ITEM to display the current PV IF Current PV in the SFC display THEN is for the desired PV e goto Table 7 4 to select measurement units for PV1 and PV2 e goto Table 7 5 to select measurement units for PV3 or e goto Table 7 6 to select measurement units for PV4 is not for the desired PV press MENU ITEM key to call up PV NUM display and press MENU ITEM key to change current PV selection to match desired PV number Then go to Table 7 4 7 5 or 7 6 as applicable The engineering units shown in Table 7 4 for PV1 and PV2 are only available in an SFC with software version 4 2 or greater The selections are similar in earlier software versions but may not include temperature references and additional engineering units of inches of water at 60 F 15 6 and 68 F 20 and atmospheres Be sure number of PV in units display matches PV number for which units are to be selected Note that inches of water ranges for differential pressure input are factory calibrated using pressure referenced to a temperature of 39 2 F 4 C
197. inued Message Problem Corrective Action NO H W FAILSAFE Connected transmitter does not support a hardware jumper NO XMTR RESPONSE No response from the transmitter It may be a transmitter or loop problem Try communicating again Press the key and do any corrective action required Check that the transmitter s loop integrity has been maintained and that the SFC is connected NVM FAULT Non volatile memory fault Replace the transmitter NVM ON SEE MAN The SFC s CPU is misconfigured Replace the SFC OPTION MISMATCH On a database restore one or more options do not match None SFC tried to restore as much of the database as possible gt RANGE The value to be displayed is over the range of the display Press the key and start again RESTORE FAILED Part of the Save Restore function Check the transmitter and try again SENSOR OVER TEMP The meter body temperature is too high Accuracy and life span may decrease if it remains too high See the pressure transmitter Installation section of the Product Manual for temperature limits and suggested protections against over temperature SENSOR TEMP FAIL The ST 3000 temperature sensor has failed Replace the transmitter SFC FAULT A component of the SFC is not operating properly Try communicating again If the condition still exists replace the SFC
198. is 20 mA 5 000 volts then go to step 13 A If the value on the DVM is not 20 mA 5 000 100 0 5 volts go to step 11 to correct DAC span 11 OUTP 1 tag no Allows correction of DAC span SFC WORKING RECT then OUTP 1 tag no CORRECT DAC ZERO Table continued on next page 4 99 STS103 Operating Guide 65 4 5 Do a DAC calibration Output Calibration continued continued Table 4 7 ST 3000 Digital to Analog Current Output Signal Calibration continued Step Press SFC Display will Read Result 12 A OUTP 1 tag no Repeat increments or decrements to adjust the NEXT INC 1 COUNTS value on the DVM to 20 mA 5 00 volts a or When 20 mA 5 000 volts is shown on the DVM OUTP 1 tag no go to step 13 DEC 1 COUNTS then OUTP 1 tag no CORRECT DAC ZERO 13 mo SFI Type TAG No Exits DAC calibration mode READY Exits OUTPUT mode then CLR NO 66 STS103 Operating Guide 4 99 4 6 Overview Operation The STS103 displays all the operating data for the ST 3000 Pressure Transmitter This data includes Transmitter I D Damping value Lower range value Upper range value span Configuration elements for Digital Communications mode Input value Output Value e Span value Upper range limit Engineering units Operation Status Software Version Number Failsafe Direction Zero Point adjustment Display and Keyboard Test Read Scratch Pad messa
199. is charged through a battery charger that plugs into terminal the charging terminal The charger inputs 110 or 220 Vac 50 60 Hz and outputs 7 Vdc 180 mA to the NiCd battery pack The connector of the battery charger is inserted into the charging terminal on left side of the STS103 near the ON OFF switch 80 STS103 Operating Guide 4 99 5 3 Set up Overview Setting up the STT 3000 Temperature Transmitter consists of Keying in the I D and Uploading the Database Adjusting the Damping time e Selecting the units in which to display values e Selecting the STT 3000 s communication mode Selecting the type of configuration for the transmitter in the Digital Communications Mode Keying in the Lower Range value and Upper Range value Span using the keyboard Keying in the Lower Range value and Upper Range value Span using applied Temperature Keying in the I D The procedure listed in Table 5 1 gives you the steps required to key in pU ME the an ID and upload the database for the STT 3000 atabase ATTENTION You will note in the procedure that The database for an Analog transmitter is automatically read or uploaded to the SFC when you press ENTER in response to the TRIPS SECURED prompt The database for a Digital transmitter is read or uploaded when you press the SHIFT 1D keys Table 5 1 Keying in the STT 3000 ID and Database Procedure Step Press SFC Display will Read Result ANALOG TRANSMIT
200. is not installed All other selections are not valid READ TOTAL Used to check the accumulated output pulse count which is calculated from the total flow PULSE OUTPUT Pulse output is read every 4 seconds PULSE CONFIG Pulse configure elements PULSE Built in counter function TYPE OF PULSE Read only determined by the pulse card installed PULSE UNIT Pulse weight unit of measure PULSE WEIGHT Pulse weight numerical value P WIDTH Usually selected to match requirements of external totalizer Measured in MS P DROPOUT When the Pulse Output rate decreases below the pulse dropout setting the pulse output will drop to 096 SET TRIP VALUE This parameter lets you change the preset value of the counter RESET TOTALIZER This is used to reset the built in counter to zero Continued on next page 146 STS103 Operating Guide 4 99 6 4 Configuration continued Totalizer Menu The prompt hierarchy listed in Figure 6 15 gives you an overall view of hierarchy the Pulse configuration parameters that will appear It will help you get to where you want to go more quickly Refer to the tables and figures indicated for specific settings and menu selections for each element of the configuration parameters Figure 6 15 MagneW 3000 Totalizer Menu Hierarchy to go to Press PREV DIGITAL 1 0 to go to Press NEXT CALIBRATE MENU MAG SR XXXXXXX READY until you see Press SFM CONFIG SFM CONFIG SFM CONFIG SFC WOR
201. itter itself Following are examples for connecting to all these places Use the one you need The STS103 connects to ST 3000 transmitters IS Panels and junction boxes through a pair of wires with alligator clips on the ends The STS103 communications terminal end of the wires has a stereo phone jack connection that is inserted into the communications terminal The other end of the wires are clipped onto terminals in the junction box or IS barrier panel or directly to the transmitter The red SFC lead connects to the junction box or SFI positive terminal the black lead to the negative terminal Figure 4 1 shows the STS103 connected to a junction box or an IS barrier panel Figure 4 1 STS103 Junction Box and IS Connection Transmitter Junction Box IS Panel ISISISISIS IO ISISISISIS IO 2 oo M 20723 Continued on next page 48 STS103 Operating Guide 4 99 4 2 Wiring Continued STS103 ST 3000 connection WARNING STS103 charging terminal Figure 4 2 shows the STS103 connected directly to the positive and negative signal terminals on a typical ST 3000 transmitter The STS103 can connect to only one ST 3000 at a time Figure 4 2 STS103 ST 3000 Connections ST 3000 Smart Pressure Transmitter Housing m di End Cap When the junction box cover on the transmitter is removed the housing is NOT explosion proof The NiCd battery pack
202. ive actions then can be taken to clear transmitter fault conditions The SFC can be used to check transmitter status and identify diagnostic messages IMPORTANT However the SFC does not support the advanced configuration parameters for the SMV 3000 dynamic compensation flow equations You must use the SCT 3000 to fully view the transmitter configuration parameters Use the SCT also to verify the transmitter s configuration data and check to be sure your process is operating correctly Refer to the SMV 3000 User s Manual 34 SM 25 02 and the SCT 3000 on line manual and help topics for more information on using the SCT 3000 for troubleshooting When critical status forces PV output into failsafe condition record the messages before you cycle transmitter power OFF ON to clear the failsafe condition Table 7 34 Accessing SMV 3000 Diagnostic Information using the SFC Step Action 1 Connect the SFC to the SMV control loop and establish communications 2 Press Status key to display a listing of the Status messages 3 Refer to the Status message tables in subsection 7 6 for descriptions of the status messages and corrective actions to clear faults 4 99 STS103 Operating Guide 253 254 STS103 Operating Guide 4 99 Index A Algorithm definition PV4 setting 207 Analog Communication Mode 70 Analog data exchange B Battery charger 8 Battery pack location 8 Battery voltage
203. lace meter body center section If condition persists replace electronics module 7 2 OUTP 1 TAG NO PV3 Input data seems wrong Cycle transmitter power OFF ON SUSPCT INPUT PV3 Sensor reading is extremely erratic Could be a process problem Check sensor leads for weak area that but it could also be a may be ready to break or loose temperature sensor or connection electronics module problem 3 0 TAG NO Transmitter database was Try communicating again INVALID DATABASE NOUS at power up Verify database configuration and then manually update non volatile memory 7 4 STATUS TAG NO PV3 nonvolatile memory fault Replace electronics module NVM FAULT PV3 Continued on next page 246 STS103 Operating Guide 4 99 7 6 Diagnostic message Diagnostics and SFC Messages continued Table 7 29 tables continued Critical Status Diagnostic Message Table continued SMV Status SFC Display Message Possible Cause What to Do 8 4 STATUS TAG NO Process temperature exceeds PV3 Check process temperature OVERRANGE PV3 range Reduce temperature if required Replace temperature sensor if needed 9 0 STATUS NO Configuration for selected equation Check the flow configuration using ALGPARM INVALID is not complete the SCT flow compensation wizard 3 3 An algorithm diagnostic has Resolve the
204. le to deliver a direct reverse Direction range status signal contact signal in synchronization to the select command Dual Range signal External Selection Analog Output Direct direction 4 to 20 mAdc Reverse direction 41020 mAdc When pulse output is provided The signal is delivered regardless of the flow direction The pulse weight remains the same regardless of the flow direction When display is provided For the flow in the reverse direction a minus sign appears on the readout When the pulse output is provided the direct reverse differential flow totalization function is also available Contact output Direct Reverse flow direction status signal The instrument comes from the factory with its status signal set as follows Direct direction Open Reverse direction Closed Setting reverse of the above is also possible Continued on next page 4 99 STS103 Operating Guide 135 6 4 Configuration continued Ranging function Table 6 7 is a list of possible Function Selection Combinations Refer to continued this table when making your range function selection for possible restrictions Table 6 7 Function Selection Combinations Configuration Range Config Pulse Config Digital I O Digital 1 0 Parameter Parameter Element Range Function Pulse Out DI DO Selection Code SINGLE X X 1 2 X 1 Restrictions A X 1 2 4 X1 B X 1 2 4 3 AUTODUAL X X 1 2 2 A X 1 2 4 2 EXT DUAL X 3
205. ll up configuration function Note CONF PS FL Cy thatfirst display may or may not appear depending upon previous keystroke action which may require 2 A Until display reads Calls up next configuration menu NEXT item JSIMIV COURGCOUACUUCEGA 3 NON VOL Llo FL ow Access Low Flow Cutoff ENTER m i n configuration selections Value Yes shown is for example purposes only Default value is 0 zero Also you can use UNITS key to select other engineering units 4 S L o F Key in 55 l min as low limit value for 5 Isi E EF elite ET low flow cutoff for PV4 Note that it is not necessary to enter zeros for 5 PEYOTE th M 0 whole numbers lsisi EE 5 NON VOL TL Tow Loy Enters low limit value into SFC ENTER s FiG and calls up next parameter 6 V TEToIw Change high limit value for low flow 1 maia cutoff for PV4 to 165 l min Note that itis not necessary to enter zeros for i iL ojF jow E TIM tity whole numbers dlelt I E tilimi ATENTON ATTENTION Be sure the high 5 5 COLS S OU ELLE limit value is greater than the low imit value 7 NON VOL Enters change in high limit value in ENTER E N T EIR E D S F c SFC and
206. lsafe Figure 5 13 Models STT350 STT25D and STT25M can be configured with an alarm latching mode When the latching mode is on a critical status open input message is displayed when the transmitter detects an open input or high impedance The message will clear only after the sensor wires are fixed and the status flag is cleared using the SFC When latching mode is off the open input message clears when the sensor wires are fixed Figure 5 13 is a graphic view of the key presses required to configure the latching mode feature SFC software version 5 3 is needed to access this feature Alarm Latching Open Input Failsafe LATCHING CONFIG SFC WORKING LATCHING CONFIG LATCHING OFF LATCHING CONFIG LATCHING ON LATCHING CONFIG SFC WORKING LATCHING CONFIG LATCHING ON R Y ENTER Write Protect Models STT25D and STT25M have a Write Protect feature which is software configurable and accessible through a four digit password Figure 5 14 is a graphic view of the key presses required to access Write Protect SFC software version 5 3 is needed to access this feature Continued on next page 100 STS103 Operating Guide 4 99 5 4 Configuration Continued Write Protect continued Figure 5 14 Write Protect and Password gt WRITE PROTECT CHG WRITE PROT STT CONFIG CHANGE CONFIG iun until S
207. m proper procedure configuration operation and output Figure 6 26 MagneW 3000 Troubleshooting Procedure Verify Configuration be sure the flowmeter is configured to the proper values URL SHIFT For Digital Flowmeters MEN Verify Flowmeter Operation verify that the flowmeter is diagnosing itself and is operating properly Verify Loop be sure that OUT the flowmeter is connected to the proper control room instrument and able to PUT output the proper values OUT Return to Normal Operation Confirm Press Confirm I D Units Key gt Flow Measurement Damping Value Range Config PV Range Setup Engineering Units Detector Config gt Excitation Coil Current Upper Range Value detection size amp type Range 1 Alarm Config Alarm Point Settings Upper Range Value Td 2 Failsafe Config gt Failsafe Condition Settings Span 1 Span for PV1 range 1 Digital gt Contact Input and Output Functions Upper Range Limit Totalizer Menu Totalizer amp Pulse Config Functions Calibrate Menu Calibration Parameters Save Restore gt Save or Restore Data Transmitter type Broadcast format Failsafe Mode Repeat this procedure periodically throughout the troubleshooting procedure to update the diagnosis See 6 7 for Diagnostic Messages and Corrective Actions Confirm Enter the output mode and observe the flowmeter s mA output and control room displa
208. mple purposes only PV number 1 is correct for initial pass through this procedure Continued on next page 4 99 STS103 Operating Guide 185 7 3 Configuration Continued Procedure continued Table 7 3 Adjusting Damping Time continued Step Press Key Read Display or Action Description 4 A T3 T TFlT Message exchange is working NEXT strc S inje EL GL Poy ay My Py 1 T slo 3 Next highest damping time value in 12 3 2 SJE CJONNID S seconds ATTENTION The s NEXT key raises the setting while the t PREV key lowers the setting Or you can key in a number that will be converted to closest valid damping value 5 Repeat Step 4 until display shows Transmitter s damping time is now Set to two seconds for PV1 lel g JSIE C O NU S ATTENTION You do not need to press the ENTER key to store the damping time in the transmitter s memory 6 Return to Step 3 select PV2 as current PV number and repeat Steps 4 and 5 to set damping value for PV2 Then repeat this Step for PV3 and PV4 damping value settings Continued on next page 186 STS103 Operating Guide 4 99 7 3 Configuration continued Selecting Units of You can choose to have the measurements for the selected process variable Measurement displayed in one of the preprogrammed engineering units in the SFC You can also choose preprogrammed engineer
209. n desired selection is on display 6 If CJ Sourceis Then INTERNAL go to Step 9 EXTERNAL go to Step 7 7 NON VOL PIV coN F TS T T T T T Enters change in SFC and calls up ENTER j SjF C next parameter es Pi vis 15 010 0 0 P C JEJC J T 8 W IPIvisT clol F Te T T T 7 Key in 2 5 as external cold 2 2 elec junction temperature for example purposes only SCR PAD ATTENTION if you want to c Jelclu T E est HIESERESESIEIOIHETEA change engineering units for ECJT repeatedly press UNITS key until 5 Pme SPF Te 1111 desired unit F amp or R is 5 2 5 Plc displayed and press CONF key to return to this display with ECJT displayed in selected unit Continued on next page 4 99 STS103 Operating Guide 195 7 3 Configuration continued Selecting CJ Source continued Table 7 9 Selecting Source of CJ Compensation continued Step Press Key Read Display or Action Description 9 NON VOL PIMs SONA Ua T T TT TI Enters change in SFC and calls up ENTER ED JIN jSjE G J next parameter es Te TT TTT 1 ele 10 zm IPTVIST coN F TET T T T T1 Prompt asks if change entered in No c H AN alej SFC is to be downloaded to transmitter If you want to download change go to Step 11 If you do not want to download change press
210. n go to Step 12 4mA or 1V Continued on next page 236 STS103 Operating Guide 4 99 7 4 Output Calibration continued Procedure continued Table 7 27 Calibrating Output Signal for Transmitter in Analog Mode continued Step Press Key Read Display or Action Description 11 A T4T T TFT 14 Gradually raise output to 4mA or 1V NEXT 1 clol uin Ts reading Repeat this Step as oT ee 894 0 PN CRE ASIE D 4 Note that you can repeatedly press Poul Ty PY 4 1 8 NEXT key to raise output by more plac z e R9 than one count at a time 12 Ty eT Ja 13 1 Gradually decrease output to 4mA or PREV oleje Ts 1V reading Repeat this Step as 894 0 D E D 41 Note that you can repeatedly press Fou T4T T FIT da NEXT key to decrease output by Icio R R Elo T 2 Ra more than one count at a time 13 NU T4T T TFT 14 Present output signal level in OUT f let lojo Percent PUT 14 V 4 T ep slots 1 Key in 100 as desired output level in 1 E111 1114 1 1 Percent m o u T P 4 FIT pieni Fuer PETEPLBEDUDS 15 NON VOL 14 T 13 911 e Set output to 1
211. n parameter and allows ENTER menu selections See figure that follows PES Also enters menu item selection into SFC memory NOTE Under PROBE CONFIG group there is an element entitled DOWNLOAD DATA No newly selected menu item will be entered into STT 3000 memory until the ENTER key is pressed while DOWNLOAD DATA is being displayed DE CONF Scrolls through the values or selections available for a particular parameter ITEM OR Press ENTER key after selection is made to enter OR information into the SFC memory M Exits the Configuration mode and puts the SFC into a ES NO READY mode CLR Clears from parameter to beginning of group NO Exit configuration You can exit configuration at any time Press until this display appears STT TAG NO READY or press SHIFT CLR 4 99 STS103 Operating Guide 93 5 4 Configuration continued Configuration Figure 5 10 is a graphic view of the key presses required to configure the procedure STT 3000 transmitter Follow this procedure referring to the notes that accompany it Figure 5 10 STT 3000 Temperature Transmitter Configuration Press CONF toenter the STT configuration mode EL STT CONFIG NTER P Enters PROBE CONFIGURATION See Figure 5 11 CHANGE CONFIG LRLI CONFIG UNITS 1 Tag NO XXX XX IUNIT UNITS UNIT T NOTE 1 ENTER NOTE 2 STT CONFIG NTER STT CONFIG READ CJT SFC WORK
212. n the keyboard and press Figure 4 7 is a graphic view of the key presses required to change the Upper Range Value URV Figure 4 7 Changing the ST 3000 Upper Range Value URV SFI Type TAG NO READY TAG NO X UNITS URV TAG NO NEW VALUE UNITS URV TAG NO SFC WORKING URV TAG NO NEW VALUE UNITS 20312 Continued on next page 4 99 STS103 Operating Guide 59 4 3 Setting the lower and upper range values of the transmitter using an applied pressure Set the lower range value Set up Continued On some applications there may be two unknown pressures for example liquid level that represent a full and empty tank that you would want to use The ST 3000 can set the lower and upper range values to these pressures Follow the procedures given to set the LRV and URV using applied pressure If you are working on a transmitter in a process use the actual pressure from the process If you are working on a set up with a pressure source simulate the pressure Table 4 4 is the procedure for setting the lower range value using applied pressure Table 4 4 Setting the ST 3000 Lower Range Value Using Applied Pressure Step Press SFC Display will Read Result 1 Apply to the transmitter the pressure that will be used as the lower range value LRV 2 sane INPUT 1 tag no Nos iig dad guid se readin
213. nalog transmitters NES Then MAG XX TAG NO MAG XX on the top line identifies that it is a X MagneW Flowmeter XX SR Single Range DR Dual Range Notice the line under the first character of the ID on the bottom line This is the cursor and indicates where you can key in an ID Alpha numeric entries of up to 8 characters are permitted If the MagneW was not given an ID the line will be blank with a cursor Table continued on next page 118 STS103 Operating Guide 4 99 6 3 Set up Continued Keying in the ID and uploading the database continued Table 6 1 Keying in the MagneW 3000 ID and Database Procedure continued Step Press SFC Display will Read Result ANALOG FLOWMETERS continued 2 NUM NO An indicates that the prompt is looking for an a alpha character The letters are located in the upper right corner of the keys or until you A _ indicates the prompt is looking for a number see The numbers are on the yellow keys Press NUM ALPHA key to change from Alpha to Numeric mode or vice versa One of the symbols appears on the display and in place of the first character of the old ID The rest of the old ID disappears Key in your ID using the NUM ALPHA key and the letters and numbers on the keys 3 MAG TAG NO The ID and database loaded TES SFC WORKING then MAG XX TAG NO New ID DIGITAL FL
214. nd IS Connection Transmitter Junction Box IS Panel ISISISISIS ISISISISIS ISISISISISIS ISISISISISIS EN S Connecting the STS103 to a smart field instrument SFI The STS103 connects directly to the positive and negative terminals on the SFI The STS103 can connect to only one SFI at a time REFER TO THE INDIVIDUAL DEVICE SECTIONS IN THIS MANUAL for instructions on how to wire the STS103 to your particular device SFI 4 99 STS103 Operating Guide 1 4 STS103 SFIl Communication How data is transferred Types of communication Sending and receiving data to and from an SFI is done over the transmitter s 4 20 mA wires When the STS103 is connected to a transmitter and turned on it automatically determines what type of transmitter it is communicating with When data is sent to a transmitter a request is sent to the transmitter and a response is sent back to the STS103 When the STS103 and SFI are communicating the message SFC Working is displayed on the STS103 The message handling routines are transparent to you The way the request and response messages are handled depend on whether the transmitter is an analog only model or an analog digital model and the mode configuration Analog communications uses half duplex communication data can be sent in one direction at a time to the transmitter or to the STS103 while the digital communication uses half duplex with or without
215. nge Value URV to this input 4 URV 1 tag no Answers Yes YES SFC WORKING The SFC displays SFC WORKING while it sets then the URV to that reading URV 1 tag no XX XXX UNITS URV 1 tag no Answers No XX XXX UNITS SFC displays updated temperature value Repeat the procedure until you enter the URV you want 5 m URV 1 tag no The URV data is entered into non volatile SFC WORKING then NON VOL then ENTER URV 1 tag no YES DATA NONVOLATILE then 92 STS103 Operating Guide 4 99 5 4 Configuration Overview The STT 3000 Temperature configuration mode lets you Change the probe configuration select the probe type select internal or external Cold Junction C J and set the external C J value when selected select the input filter frequency enable or disable fault detection select linear or non linear operation View the lower range limit LRL and change the engineering units used to display values Read the actual C J temperature Read the high and low PV values Read the PROM serial number Selecting a parameter Table 5 6 shows you what key to press in order to scroll through the configuration groups and select a parameter Table 5 6 Scrolling through the STT 3000 Parameters Press Result A Display goes to next parameter NEXT y Display goes to previous parameter PREV Enters that particular configuratio
216. nsmtiter PV4 If you want to download change go output will be forced into failsafe to Step 19 If you do not want to condition and critical status ALGPARM download change press CLR key INVALID Will appear until PV4 to exit function parameters are configured for the selected equation Continued on next page 4 99 STS103 Operating Guide 209 7 3 Setting selections for Configuration continued PV4 equation definition continued Table 7 13 Setting Selections for PV4 Equation Definition continued Step Press Key Read Display or Action Description 19 NON VOL IST T T T T TI Message exchange is working This ENTER Yes action only applies when a configuration parameter is changed Otherwise the message NO CHANGES MADE appears Parameter change is loaded into transmitter s working memory Press S NEXT key to access another configuration function or CLR key to exit function ISIMIv jejojNjFjrigj Calculated flow rate PV4 simple equation parameters ATTENTION Once you define the PV4 equation you must enter the reference pressure reference temperature reference design density and scaling factor parameter values to match your process requirements as applicable PV4 CONFIG ALG SFC Prompt Selections Pressure reference value ALGPARAM Pref U
217. ntrol system Stop when desired selection is on display 9 NON VOL DJE ICLOUNTF 3 211 3 Enters change in SFC and calls up ENTER N T E N s F C next DE configuration parameter Yes This action only applies if selection is D E cloiN IF riT i3 g 1 1 changed Otherwise must press tle CLR key to exit function or s NEXT key to call up next parameter 10 CLR D e Te o N F FIT Prompt asks if change entered in NO D OIWINILIO A D CIH AINIG EI SFC is to be downloaded to transmitter If you want to download change go to Step 11 If you do not want to download change press CLR key to exit function This action only applies when change has been entered in SFC Otherwise this keystroke exits DE CONF function 11 NON VOL D e 3 91 i Message exchange is working ENTER 5 S ff lelt 301111 Parameter change is loaded in JRjEJADIY 1 1D 1 1 transmitter SFC is ready for next function Continued on next page 4 99 STS103 Operating Guide 233 7 3 Configu ration continued Message Format for While there are two message format selections you can only select the DE Mode 6 Byte type to provide database protection through the control system 4 Bytetype Invalid Selection for SMV 3000 transmitter 6 Byte type The procedure
218. nued Step Press Key Read Display or Action Description 12 NON VOL Plt clom T T T Enters compensation selection into ENTER E N T E R E D 1 j siF c SFO memory and calls up next Yes configuration selection 13 ty Present units mode configuration eisim selection DE CONF Calls up next units mode selection PEU E TT Repeatedly press ITEM to toggle between mode selections CUSTOM and VOLUME FLOW or MASS FLOW depending on PV4 IP vi4 equation selection of volume or IMIAISIS mass respectively This determines engineering units that are selectable for displaying PV4 related values Note that volume flow selection is only available for gas volume flow equation Note that CUSTOM means you have chosen an engineering unit that is not one of the preprogrammed units stored in the SFC In this case you must use comparable units in the scaling factor equation to solve for Kuser See the About CUSTOM units paragraph in this section for details 14 NON VOL 4 TT SIM OTDTE Enters units mode selection into NJ SF icy SFC memory es If UNITSMODE Then is CUSTOM go to Step 15 VOLUME or go to Step 18 MASS FLOW 15 Te u sr o w u N 7 You can key in desired custom unit L TL T TL name consisting of up to eight chara
219. number of selections given for application 20818 Continued on next page 124 STS103 Operating Guide 4 99 6 3 Set up Continued Changing the communications mode The MagneW 3000 flowmeter operates in either an Analog mode or a Digital mode DE communications mode You can quickly change from one mode to another using the SFC See Section 1 4 STS103 SFI Communication for format descriptions Figure 6 5 is a graphic view of the key presses required to change the communication mode Changing Communications Mode Device ID TAG NO READY SFI Type TAG NO READY MD A or From Analog Mode AIDE TAG NO CHNG TO DE From Digital Mode A DE TAG NO CHNG TO ANALOG AIDE TAG NO ARE YOU SURE AIDE TAG NO SFC WORKING AIDE TAG NO ANALOG XMTR AIDE TAG NO DE XMTR 20302 Continued on next page 4 99 STS103 Operating Guide 125 6 3 Set up Continued Selecting configuration You determine how the Digital PV data is handled by configuring the DE data for the digital DE configuration elements shown in Table 6 3 communications mode Table 6 3 MagneW 3000 DE Configuration Elements Element Selections And Definitions Type of Transmitter This element selects the type of transmitter operation The selections are Single Range Working range PV PVw for STDC card or STI module
220. o the controller downscale to trip alarms Freeze slot output and burnout high ST DC card tells the controller to hold the memory block output at the preset value and drives input to the controller upscale to trip alarms Freeze slot output and last known good PV ST DC tells the controller to hold the memory block output at the present value and provides the last known good PV value as the input to the controller Continued on next page 4 99 STS103 Operating Guide 29 3 4 Common Key Sequences and Displays continued Selecting configuration Figure 3 4 is a graphic view of the key presses required to configure the data for the digital elements for DE Communications mode of a Single PV transmitter communications mode Single PV Transmitters Figure 3 4 Configuring the Elements of the DE Communications Mode Single PV Transmitter SFI Type TAG NO READY NOTE 1 ENTER or NEXT DECONF TAG NO DOWNLOAD CHANGE DECONF DECONF TAG NO SFC WORKING ENTER or NEXT DECONF TAG NO SINGLE RANGE DECONF TAG NO W O DB 4 BYTE DECONF TAG NO F S B O LO DECONF TAG NO DECONF TAG NO SINGLE RANGE W S W DB 6 BYTE DECONF TAG NO F S B O HI DECONF TAG NO AG NO DUAL RANGE STDC DECONF TAG NO F S LKG DECONF TAG NO F S FSO B O LO Note 1 You must press ENTER to store your sel
221. on 1 IsIMIvE T T T FECI bloh Initiate shift key selection TE T SIHF DE CONF DE Te o N F Flt sj Calls up DE CONFIG menu PV1 s ric w K G selection appears MENU ITEM POLE FT 8 O 1 1 Pivi Hi pde p E Eg 2 DE CONF D e 3 27 Calls up next PV1 selection EAU af Repeatedly press MENU ITEM key ITEM to toggle between PV 1 ON and PV 1 ON W SV selections For PV1 ON only PV1 value is broadcast but secondary variable meter body temperature as well as PV1 are broadcast when PV 1 ON W SV is selected Stop when desired selection is on display 3 NON VOL DJE ICON FT 3 2 1 7 Enters change in SFC and calls up ENTER E NITE RE b Jt iN 5 cl next DE configuration parameter Yes This action only applies if selection is clon F 7 3 1 changed Otherwise must press 2 CLR key to exit function or s NEXT key to call up next parameter 4 DE CONF D e COUNT A 3 97 Calls up next PV2 selection IPIv e LT T T T I Repeatedly press MENU ITEM key ITEM to toggle between PV 2 ON and PV 2 OFF selections Select PV 2 OFF if you don t want PV2 broadcast to control system Stop when desired selection is on display 5 NON VOL DJE ICON FT 3 211 7 Enters change in SFC and calls up ENTER E NT E Jt iN S F C next DE configur
222. on Set up Procedure Step Action 1 Connect one end of the output signal cable to the signal output terminal of the calibrator and the other end to terminals A B and C of the converter RED A WHITE B BLACK C 2 Connect one end of the excitation current cable to the EXCITATION CURRENT INPUT terminal of the calibrator and the other end to the X and Y terminals of the converter RED X BLUE Y 3 Connect the GND Ground terminal of the calibrator to that of the converter and ground the GND terminal 4 Make sure the switches on the converter are set 5 Connect the Smart Field Communicator terminals 1 RED and 1 BLACK of the converter 6 Connect a digital voltmeter DVM across the 250 ohm resistor or terminals CP44 and CP45 Continued on next page 156 STS103 Operating Guide 4 99 6 5 Calibration continued Set units to m sec meters per second Use the procedure in Table 6 15 to set the Units key for a velocity application then select m sec on the Units key Table 6 15 Set the MagneW 3000 Units to m sec Step Press SFC Display will Read Result 1 SFM CONFIG The SFC enters Configuration mode and shows SFC WORKING the first configuration parameter which is UNITS KEY then SFM CONFIG UNITS KEY NON VOL i i i 2 E Enters into UNITS KEY configuration YES MASS FLOW 3 DE PON UNITS KEY The flow measuremen
223. on of DAC zero SFC WORKING RECT then OUTP 1 tag no CORRECT DAC ZERO 7 A OUTP 1 tag no Repeat increments or decrements to adjust the NEXT INC 1 COUNTS value on the DVM to 4 mA 1 00 volt 2 or When 4 mA 1 00 volt is shown on the DVM go OUTP 1 tag no to step 8 DEC 1 COUNTS then OUTP 1 tag no CORRECT DAC ZERO 8 OUTP 1 tag no 096 output calibrated go to step 9 10096 SFC WORKING calibration PUT then OUTP 1 tag no 0 000 9 C OUTP 1 tag no This selects 100 output 100_ it in display indicates the transmitter is in the Go Output mode 10 OUTP1 tag no Check the DVM ENTER YES SFO WORKING If the value on the DVM is 20 mA 5 000 volts then go to step 13 A If the value on the DVM is not 20 mA 5 000 100 0 5 volts go to step 11 to correct DAC span 11 OUTP 1 tag no Allows correction of DAC span SFC WORKING RECT then OUTP 1 tag no CORRECT DAC ZERO Table continued on next page 4 99 STS103 Operating Guide 103 5 5 Do a DAC calibration Output Calibration continued continued Table 5 9 STT 3000 Digital to Analog Current Output Signal Calibration continued Step Press SFC Display will Read Result 12 A OUTP 1 tag no Repeat increments or decrements to adjust the NEXT INC 1 COUNTS value on the DVM to 20 mA 5 00 volts or When 20 mA 5 000 volts is shown on the DVM OUTP 1 tag no go to step 13 DEC 1 COUNTS t
224. ontinued Message Problem Corrective Action ILLEGAL RESPONSE SFC received an illegal response from the SFI Try communicating again IN OUTPUT MODE The transmitter is operating as a current source Press the OUTPUT and keys if you want to exit the output mode INPUT OPEN Open input or high impedance Check the input terminals Remove one input lead and check sensor for continuity INVAL CAL DATA Factory calibration database is corrupted Data not user accessible Return to factory for re calibration INVALID DATABASE The database of the SFI was not correct at power up Try communicating again Verify the database recalibrate the SFI and then manually update non volatile memory INVALID REQUEST The transmitter is being asked to correct or set its URV toa value that results in too low a span or being asked to correct its LRV or URV while in the output mode The given key function is not valid for the associated transmitter Check that the proper calibrated URV input is being applied to the transmitter or that the transmitter is not in the output mode Check that the key function is applicable for a temperature transmitter INVAL USER DATA User database is corrupted Reconfigure and re calibrate the transmitter If the transmitter does not require calibration Press SHIFT CORRECT to restore factory calibration I P OUT OF SPEC In
225. ontinued Keying in the ST 3000 ID and Database Procedure continued Step Press SFC Display will Read Result DIGITAL TRANSMITTERS continued 6 NON VOL ENTER YES SFI Type TAG No The ID is loaded into the transmitter SFC WORKING then SFI Type TAG No New ID 7 SHIFT then DE READ A ID This loads the Digital Transmitter database to the SFC The display indicates the percent of the database being loaded until it reaches 10096 SFI Type TAG No SFC WORKING XX then SFI Type TAG No New ID Copying data into non volatile memory When setting up or configuring a ST 3000 whether you are changing one element or a full database you must copy all configuration data into the transmitter s non volatile memory This is the transmitter s permanent memory If the transmitter were to lose power the values for the database will be saved here The transmitter also contains a working memory that loses its contents if the power goes off and when power is restored the transmitter copies the contents of the non volatile memory into the working memory There is a failsafe procedure Thirty seconds after a value is changed the transmitter automatically copies it into the non volatile memory But if you change an element and power goes down before this runs you will still lose the data in the working memory Therefore whenever you make any changes in the tran
226. or the digital communications mode Table 3 2 DE Configuration Elements Element Selections And Definitions Type of Transmitter Single Range This element selects the type of transmitter operation The selections are Working range PV PVw for STDC card or STI module Single Range W SV Working Range PV PVw with sensor temperature for STDC card or STI Module Dual Range STDC Full range PV PVt and Working range PV PVw For STDC only Message Format W DB 6 Byte This element is the message format The selections are w o DB 4 Byte 4 Byte message format PV or SV only without database information 6 Byte message format PV or SV with database information Failsafe Mode for Digital Control System The selections are F S B O Lo F S B O Hi LKG F S FSO B O Lo F S FSO B O Hi F S LKG This element is the Failsafe mode You configure the flowmeter to tell the control system via the ST DC card which failsafe mode to assume when the card detects a critical failure condition A critical fault can be due to a critical status indication from the flowmeter or an extended loss of PV data Burnout low drives the PV value to the downscale limit Burnout high drives the PV value to the upscale limit Last known good PV value Freeze slot output and burnout low ST DC card tells the controller to hold the memory block output at the preset value and drives input t
227. orward reverse automatic range selection EXT Forward reverse externally set HYSTERESIS The transfer between ranges can be with hysteresis Range is from 0 to 20 The amount of overlap desired between the two ranges when RANGE is configured For AUTO DUAL or AUTO only CUT OFF Low flow cutoff point locks the output signal to 0 when PV decreases below cut off percentage of active span Range is from 0 to 10 DISP Local flow display mode of the MagneW meter NO DISPLAY Without local display card DISP Percent display of instantaneous flow rate DISP FLOWRATE Engineering units display of instantaneous flow rate DISP TOTAL Integrated amount of flow Continued on next page 4 99 STS103 Operating Guide 133 6 4 Ranging function Configuration Continued Table 6 6 lists the definitions of the ranging functions that are available under Range Config Element RANGE Table 6 6 Ranging Function Definitions Function Definition SINGLE For Flow measurement in the direct direction with a single range When the flow Single Range direction is reverse the outputs are as follows Analog Output Down to approximately 22 596 0 4 mA Pulse Output Not delivered Display Minus sign is displayed AUTODUAL Direct Direction Dual Range Auto Selection Measurement is with two ranges 1st range and 2nd range When the measured value has exceeded 100 of
228. ot appear depending upon previous ER HER LESE ERE ES LG ERES keystroke action which may require 2 AP IT T TTTTSIMIVI TeTOIN F UTG Calls up next configuration menu NEXT R EJAJD Mj JB TJEMPIs Item 3 A I TT T TSIMIVI Calls up next configuration menu NEXT Pjvjs J tem 4 plea PTV 3 Access Probe Configuration ENTER JejT 1 e o b selections 5 AP IPTvVIsST Calls up next configuration NEXT Lice I LIEDXIIE RIN AN parameter 6 A CJO NJF G _ Calls up next configuration NEXT j2 s 2 9 elc 1117 parameter ECJT only appears when CJ EXTERNAL 7 AP _ Calls up next configuration NEXT F T EJR jejojH z parameter 8 AP _ Calls up next configuration NEXT TiC jF u L T parameter 9 DE IPTVIST Calls up next sensor fault detection MENU TiC T p E T o F F selection Repeatedly press MENU ITEM ITEM key to toggle between ON OFF selections Stop when ON is on display Continued on next page 198 STS103 Operating Guide 4 99 7 3 Configuration Continued Activating Sensor Fault Detection continued Table 7 11 Activating Thermocouple Sensor Fault Detection continued Step Press Key Read Display or Action Description 10 NON VOL PIV CONF Ta
229. ot output and burnout low ST DC card tells the controller to hold the memory block output at the preset value and drives input to the controller downscale to trip alarms F S FSO B O Hi Freeze slot output and burnout high ST DC card tells the controller to hold the memory block output at the preset value and drives input to the controller upscale to trip alarms F SZLKG Freeze slot output and last known good PV ST DC tells the controller to hold the memory block output at the present value and provides the last known good PV value as the input to the controller Continued on next page 56 STS103 Operating Guide 4 99 4 3 Set up Continued Selecting configuration Figure 4 5 is a graphic view of the key presses required to configure the data for the digital DE elements for DE communications mode communications mode continued Figure 4 5 Configuring the ST 3000 DE Communications Mode SFI Type TAG NO READY NOTE 1 ENTER or NEXT DECONF TAG NO DOWNLOAD CHANGE DECONF DECONF TAG NO SFC WORKING JMP ENTER or NEXT DECONF TAG NO SINGLE RANGE DECONF TAG NO W O DB 4 BYTE DECONF TAG NO F S B OLO DECONF TAG NO DECONF TAG NO SINGLE RANGE W S W DB 6 BYTE DECONF TAG NO F S DECONF TAG NO AG NO DUAL RANGE STDC DECONF TAG NO F S LKG DECONF TAG NO Note 1 You mus
230. other keys that are available on the keyboard and how they are used for data entry Table 2 6 Other Key Sequences Key s Usage Td When entering an ID name or using the Scratch Pad the right and left arrow keys move the cursor within any alphanumeric or string lt gt DE These keys are also used to step forward or backward through the parameter menus in configuration levels 2 and 3 see Configuration Key Method NUM This key toggles the keys of the SFC keyboard between the ALPHA function number printed on the key and the alpha characters which are printed in the upper right hand corner of each key Use this key to enter letters numbers space A when entering an ID name and when using the Scratch Pad Pressing the SHIFT key followed by a second key selects the function printed above the second key hrs The CLR NO key clears the current display and returns it to the main READY display See Function Key Method or clears the current display to the next highest configuration level see Configuration Key Method or Clears a typed in numerical value before it has been entered LENTER key 4 99 STS103 Operating Guide 21 22 STS103 Operating Guide 4 99 Section 3 STS103 Operation 3 1 Overview This section contains all the information you will need to know in order to operate the STS103 Smart Field Communicator with a Smart Field Instrument
231. p of parameters lets you select Digital Input Output functions Dry contact input allows an independently powered loop to be connected for remote activation of database options with a switch or pushbutton Dry contact output allows an independently powered loop to be connected for activation of other devices when predetermined conditions occur For example the activation of a solenoid to close a control valve when the preset total value on the built in counter is reached Digital 1 0 The elements of Digital I O configuration are listed in Table 6 11 See configuration Figure 6 14 for key presses Selection may be limited Refer to Table 6 7 elements for restrictions Table 6 11 MagneW 3000 Digital I O Elements Element Definition Dl Dry contact input functions NOT USED Without the function 0 LOCK External 0 lock AUTO ZERO External automatic zero activation CNTR RESET External counter reset EXT RANGE External range selection DO Dry contact output functions NOT USED Without the function ALARM Hi Lo alarm contact RANGE ID Range identification contact PRESET MTCH Totalize counter reset reached DO NORM Contact output status CLOS normally closed OPEN normally open Continued on next page 144 STS103 Operating Guide 4 99 6 4 Configuration continued Digital configuration graphic Digital Input Output contact functions Figure 6 14 MagneW 3000 Digital Input Output Configuration Figure 6 14 is a graphic v
232. plays the upper range limit URL value of the SFI o z lt m 2 The yellow 3 SW VER key second function displays the software version of the STS103 when not communicating with an SFI or the software versions of the STS103 and SFI when connected to an SFI 575103 switch and Figure 1 3 shows the STS103 ON OFF switch and the terminals on the terminals sides of the unit Figure 1 3 STS103 Switch and Terminals Charging ON OFF Terminal Switch Left Side Communications Terminal Right Side 20721 Continued on next page 4 99 STS103 Operating Guide 7 1 2 575103 Physical and Functional Description continued Battery pack location The battery pack is located behind the LCD display and is accessed through a back panel Two hex screws need to be removed to access the battery pack Figure 1 4 shows the location of the battery pack and how it fits into the STS103 Figure 1 4 STS103 Battery Pack Charging the batteries STS103 charging terminal Self diagnostics The battery pack is charged by plugging the battery charger into an outlet and inserting the lead into the charging terminal of the STS103 The battery pack takes a minimum of 10 hours to charge and the STS103 may be used continuously for up to 24 hours before the battery pack needs recharging A colon will be appear in the middle of the top line on the LCD display when the battery pack needs charging The
233. ple 2 to 150 psi range for PV2 ATTENTION The range for PV2 is absolute pressure The usual reference pressure is i 14 696 psia 101 33 KPa for standard atmospheric pressure at sea level The URV changes automatically to compensate for any changes in the LRV and maintain the present span URV LRV f you must change both the LRV and URV always change the LRV first Table 7 19 Keying in LRV and URV for PV2 Step Press Key Read Display or Action Description 1 mm E FIRIVET2E T T 1 Present LRV setting for 0 Pis Pressure for 4 0 output 2 If display in Then Step 1 is for PV2 go to Step 4 not for PV2 go to Step 3 Continued on next page 220 STS103 Operating Guide 4 99 7 3 Configuration continued Setting range values for PV2 continued Table 7 19 Keying in LRV and for PV2 continued Step Press Key Read Display or Action Description 3 DE CONF Plv Nom T TF T Teloia Calls up current PV number display MENU Icju R R EINIT PIV Repeatedly press MENU ITEM key ITEM to step through PV number DE CONF selections 1 2 3 and 4 Stop l PI Nem soi when PV2 is on display repo NIE Terral OD ATTENTION You can also use left lt and right 5 arrow keys to step forward and backward through
234. plugs into the charging terminal The charger inputs 110 or 220 Vac 50 60 Hz and outputs 7 Vdc 180mA to the NiCd battery pack The connector of the battery charger is inserted into the charging terminal on left side of the STS103 near the ON OFF switch 4 99 STS103 Operating Guide 6 3 Set up Overview Setting up the MagneW 3000 Flowmeter consists of Keying in the I D and Uploading the Database Adjusting the Damping time e Selecting the units in which to display values Selecting the MagneW s communication mode Selecting the type of configuration for the flowmeter in the Digital Communications Mode Keying in the Upper Range value Span Keying in the 1 0 and The procedure listed in Table 6 1 gives you the steps required to key in uploading the an ID and upload the database for the MagneW database ATTENTION You will note in the procedure that The database for an Analog transmitter is automatically read or uploaded to the SFC when you press ENTER in response to the TRIPS SECURED prompt The database for a Digital transmitter is read or uploaded when you press the SHIFT keys Table 6 1 Keying in the MagneW 3000 ID and Upload Database Procedure Step Press SFC Display will Read Result ANALOG FLOWMETERS For Digital Flowmeters see step 4 1 DE READ TAG NO e TRIPS SECURED xc d The database is loaded into the SFC at this point eo for a
235. press MENU ITEM key ITEM to step through PV number DE CONF selections 1 2 3 and 4 Stop l Nom when PV3 is on display DE CONF ATTENTION You can also use HERE 3jo t left lt and right gt arrow keys to EM CJUJRIR IEINIT Pivi 3 step forward and backward through MORS PV number selections R s JET 3 0 1 1 Returns to previous display which is Yes 1 1010 010 8 HF updated to reflect as current PV number selection 4 7 TIFT Key 1 00 as desired LRV setting 7 BF 11 for PVs It is not necessary to key in a decimal point and zeros for a V TFT 3o whole number 1 2 DEGREE i 2 2 1L IRR GL II GI LG Z V s FIT 3 9 4 4 0 5 NON VOL T T 3a 7 Message exchange is working s F c w K G Wel BGR we ERO esea New LRV setting stored in rLyR Vv T T FIT TsTe 1 3 transmitter s working memory Note 1 BF ifchange in LRV causes the URV to exceed the URL you must change the URV to narrow the span before you can change the LRV Continued on next page 224 STS103 Operating Guide 4 99 7 3 Configuration continued Setting range values for PV3 continued Table 7 21 Keying in LRV and for continued Step
236. prompt asks if change Yes entered in SFC is to be downloaded pe opermio FIF to transmitter If you want to D OW NJLJOJAJ D C HJA NIG EI download change go to Step 8 If you do not want to download change press CLR key to exit function Continued on next page 214 STS103 Operating Guide 4 99 7 3 Configuration Continued Seiting low flow cutoff limits for PV4 continued Table 7 15 Setting Low and High Limits for Low Flow Cutoff continued Step Press Key Read Display or Action Description 8 NON VOL Message exchange is working This ENTER S F C 1110 action only applies when a Yes configuration parameter is changed Otherwise the message NO CHANGES MADE appears Parameter change is loaded into transmitter s working memory Press s NEXT key to access another configuration function or CLR key to exit function LLL simy r t ojw Selecting PV to represent analog When a transmitter is operating in its analog mode you can select which PV is to represent the transmitter output Table 7 16 gives the steps for output selecting the PV to represent the analog output 5 8 Table 7 16 Selecting PV to Represent Analog Output Step Press Key Read Display or Action Description 1 B IIT TT Call up configuration function Note
237. put is lower than LRL or higher than URL Check the input sensor T C type etc If the process requires broader limits change sensor type and reconfigure LOW LOOP RES Not enough resistance in series with the communication loop Check the sensing resistor and verify at least 250 Ohms resistance in the loop MEASURE HW FAIL Electronic component failure on isolated input side of the transmitter Replace the transmitter MODE SWITCH Failure to change the write Enter the correct write protect password FAILED protect mode when prompted to do so Table continued on next page 4 99 STS103 Operating Guide 111 5 7 Diagnostic Messages continued Table 5 11 Diagnostics and SFC Messages continued Diagnostic Messages for SFC and STT 3000 continued Message Problem Corrective Action NACK RESPONSE The SFI sent a negative acknowledgment because one or more of the commands could not be processed by the SFI Check the configuration and try again NO HW FAILURE Connected transmitter does not support a hardware jumper for failsafe direction NO XMTR RESPONSE No response from the transmitter It may be a transmitter or loop problem Try communicating again Press the STAT key and do any corrective action required Check that the flowmeter s loop integrity has been maintained and that the SFC is connected NVM FAULT Non volatile memory faul
238. r s configuration database and set PV1 as the number 1 priority in the DE broadcast transmission Up to eight characters for tag number Enter slash as eighth character in tag number to set PV1 as priority PV in DE digital data broadcast if all four PVs are turned ON Note that the transmission rate for the various PVs depends on the number of PVs that are turned ON When more than one PV is turned ON the priority PV is sent every other broadcast cycle Normally PV1 has the number 1 priority unless all four PVs are turned ON Then PV4 has the number 1 priority PV1 is second PV2 is third and PV3 is fourth However you can set PV1 to have the top priority and PV4 to be second by entering a as the eighth character in the Tag number Table 7 1 Keying in Tag Number Step Press Key Read Display or Action Description 1 DE malc Nol T T TT TT TI Be sure any switches that may trip P s s E c u R E b alarms or interlocks associated with analog loop are secured or turned off This prompt only appears for transmitters in analog mode 2 NON VOL mlale Confirm that TRIPS are secured ENTER Is F c IwJo R K e and establish transmitter Yes communications Ismiy Tlale IIR TI ESSE TT ET T ATTENTION This procedure also applies for transmitters in DE mode The prompt may show DE XMTR instead of output fo
239. r panel or directly to the transmitter The red SFC lead connects to the junction box or SFI positive terminal the black lead to the negative terminal Figure 5 1 shows the STS103 connected to a junction box or an IS barrier panel Figure 5 1 STS103 Junction Box and IS Connection Transmitter Junction Box IS Panel o o o o ISISISISIS ISISISISISIS S 20723 Continued on next page 78 STS103 Operating Guide 4 99 5 2 Wiring Continued STS103 STT 3000 Figures 5 2 5 3 and 5 4 show the STS103 connected directly to the connection positive and negative terminals of various STT 3000 transmitters The STS103 can connect to only one STT 3000 at a time Figure 5 2 STS103 Connections to Model STT350 Transmitter d STT350 hy Temperature Transmitter 250 Ohms Figure 5 3 STS103 Connections to Model STT25D or STT25M Transmitters STT25D or STT25M Smart Temperature 250 Ohms Transmitter Continued on next page 4 99 STS103 Operating Guide 79 5 2 Wiring Continued STS103 STT 3000 connection continued Figure 5 4 STS103 Connections to Model STT300 and STT302 Transmitters STT 3000 Smart Temperature Transmitter sel BEA 250 20742 WARNING When the junction box cover on the transmitter is removed the housing is NOT explosion proof 575103 charging The NiCd battery pack
240. ressure in an engineering unit 0 0000 PSI of measure Table continued on next page 68 STS103 Operating Guide 4 99 4 6 Operating Data continued Table 4 8 Operation Continued ST 3000 Operating Data continued Operating Data Press Displays Displays are examples Result Output Value INPUT J OUT PUT OUTP 1 tag no 0 00096 Indicates the percent output The value is displayed and updated every 5 seconds PSI Currently URE SPAN 1 tag no Span is the URV LRV or the range of input Running Span 100 00 PSI corresponding to a full range 0 100946 of output Upper Range Limit SHIFT then m URL 1 tag no The highest value of the measured variable 100 00 PSI that a device can be adjusted to measure Engineering UNITS 1 tag no The present selection of engineering units Units Operation Status STATUS tag no STATUS Momentary Display Indicates the status of operation at the present time Failsafe Direction me Do 25 4 gt ag F S DIR tag no SFC WORKING XX then F S DIR tag no F SAFE DOWNSCALE Displays the Failsafe Burnout direction upscale or downscale for analog devices Software Version gt o z5 E lt 0 EE e x 2 5 z m gt lt S W No SFC X X XMTR X X S W No tag no DD MM YY HH MM Display
241. rm and transmitter type in top row if you have not established communications as previously described in this manual 3 NUM FT ISIMIVE T lale TNIG T Put SFC keyboard into alpha mode ALPHA HERE Activates alphabetic characters in upper right hand corner of keys Continued on next page 182 STS103 Operating Guide 4 99 7 3 Configuration continued Entering Transmitter Tag Number and Broadcast Priority continued Table 7 1 Keying in Tag Number Step Press Key Read Display or Action Description 4 F T TISIMIVET T TrTAIGT TNIOI T Key in F T and space as first SOUS EBEBNHEENGGESESEREBE characters in tag number T Ismiy Tlale Njo PET TT Ty Fett tT TT SCRPAD 5 NUM FT ISIMIVE T tlale Take SFC keyboard out of alpha ALPHA d dL d FIT et Jg mode and put it into numeric mode 6 I T ISIMIVE T T lale Key in 3011 as numbers in Tag PET TET TT 13121111 number 7 This is only applicable for Do you want to Then transmitters operating in the DE set PV1 priority micas Yes go to Step 8 No go to Step 9 8 NUM TIS LIAS Activate Alpha mode ALPHA 20111 EE 7 T TSIwIVE T INO Key in slash in eighth character m LT T TL T T TL TL dr ile position to set PV1 as number 1 priority in DE broadcast transmission if all PVs are
242. rompt hierarchy Press to enter the Smart Flowmeter configuration mode NON VOL to enter the particular configuration parameter group SFM CONFIG UNITS KEY UNITS KEY Selections for type of Flow measurement gt Figure 6 9 A SFM CONFIG See Table 6 5 RANGE CONFIG PV Range Setup gt m A FM CONFIG ua See Table 6 6 CTOR CONFIG DETECTOR CONFIG Excitation coil current detector size and type See Figure 6 11 FM CONFIG pee ee 57 ALARM CONFIG ALARM CONFIG Alarm point settings See Figure 6 12 FM CONFIG FAILSAFE CONFIG Failsafe condition settings for current See Table 6 8 SAFE CONFIG and pulse outputs p See Figure 6 13 6 9 DIGITAL I O Contact input and output functions gt See Figure 6 14 i See Table 6 10 TOTALIZER MENU Totalizer and Pulse configuration functions See Figure 6 15 CALIBRATE MENU Calibration Parameters EE Section M SCR SERIAL Read only Aly READONLY SFM CONFIG SAVEBESTORE SAVE RESTORE Save data from or Restore data to flowmeter mS A Y NON VOL SFM CONFIG GOES TO REPEAT LIST SFM CONFIG UNITS KEY EXITS CONFIGURATION TO 20387 MAG SRXXXXXXX READY NOTE 1 Alarm configuration appears only if a single or external range is configured and Digital Outp
243. s 7096 or more Check the pulse weight pulse width and span gt RANGE The value to be displayed is over Hie range ohe display Press the key and start again RAM FAULT RAM of converter is not normal Turn the converter OFF then ON Replace the main printed circuit board if necessary RESTORE FAILED Part of the Save Restore function Check the transmitter and try again ROM FAULT ROM of converter is not normal Turn the converter OFF then ON Replace the main printed circuit board if necessary SENSOR TEMP FAIL The ST3000 temperature sensor has failed Replace the transmitter SPAN OVER ERROR Span setting is 12 m s or more Check the span size and type of detector TYPE DIA ERROR Mismatching between size and type of detector Check the size and type of detector TYPE MISMATCH On a database restore the transmitter types are not the same None SFC tried to restore as much of the database as possible UNKNOWN Selection is unknown Have the software in the SFC updated 174 STS103 Operating Guide 4 99 6 8 Troubleshooting Introduction If you suspect a problem in the flowmeter check the flowmeter configuration operation and output Use the procedure shown in Figure 6 26 Refer to Section 6 7 for diagnostic messages and corrective action Troubleshooting Check the parameters listed in Figure 6 26 to confir
244. s SFC WORKING while it sets then the LRV to that reading LRV1 tag no Next set the Upper Range Value URV UNITS CLR LRV 1 tag no Answers No OR XX XXX UNITS SFC displays updated temperature value Repeat the procedure until you enter the LRV you want 5 LRV1 tag no The LRV data is entered into non volatile SFC WORKING memory then NON VOL then ENTER LRV 1 tag no YES DATA NONVOLATILE Continued on next page 4 99 STS103 Operating Guide 91 5 3 Set up Continued Setting the upper range Table 5 5 is the procedure for setting the upper range value using applied value using an applied temperature temperature Table 5 5 Setting the STT 3000 Upper Range Value Using Applied Temperature Step Press SFC Display will Read Result 1 Apply the input to the transmitter that will be used as the upper range value URV 2 INPUT 1 tag no This reads the input temperature The reading SHIFT XXXXX UNITS will change or blink since the SFC updates it then every 6 seconds INPUT vut DO NOT PRESS THE NEXT KEY until the PUT display changes so you are not trying to communicate with the transmitter when it s updating the SFC reading 3 Displays the Upper Range Value URV URV 100 F g 2 Tj URV 1 tag no XX XXX UNITS The SFC asks if you want to set the Upper STT TAGNO READY m URV 1 tag no oe SETURV Ra
245. s currently selected input OUT in the active engineering units PUT RESET The orange CORRECT RESET key is used to make on line zero corrections and to calibrate output signal and range values The RESET second function returns the ST and STT transmitters to their original factory calibration states Resetting the MagneW transmitter is done through the calibration menus Note 1 For Multi PV SFI s the STS103 displays the value for the currently selected PV Continued on next page STS103 Operating Guide 4 99 1 2 575103 Physical and Functional Description continued Key functions continued Table 1 2 STS103 Key Functions Continued Key Description A DE The olive cursor keys move the cursor forward or backward one M Q position while the cursor is displayed In the number mode the cursor m back key performs a backspace function The A lt gt DE second function of the cursor back key toggles the SFI output mode between analog and digital enhanced communication F S DIR The olive STAT F S DIR key sequentially displays the result of an SFI s diagnostics The second function displays the failsafe direction Hi or Lo for analog SFls The failsafe direction is hard wired in the analog SFI and determines the direction the SFI output goes in burnout SFI failure The olive SPAN URL key displays the span in Engineering units selected by the UNITS key The second function dis
246. s outside e Verify calibration EX SPAN COR PV4 acceptable limits for PV4 range If error persists call the Solutions Support Center 2 1 STATUS NO ZERO correction factor is outside Verify calibration acceptable limits for PV1 range EX ZE RO CORSEVI Could be that transmitter was in X Cm input or output mode during a GUNNS SUPpON Lener CORRECT procedure 4 1 STATUS TAG NO ZERO correction factor is outside Verify calibration acceptable limits for PV2 range f EX ZE x Bo ones Could be that transmitter was in ce xcu dere input or output mode during a e HBBOIE S SEMEL CORRECT procedure 8 1 STATUS TAG NO ZERO correction factor is outside Verify calibration EX ZERO COR PV3 acceptable limits for PV3 range If error persists call the Solutions Support Center 9 1 STATUS NO ZERO correction factor is outside Verify calibration EX ZERO COR PV4 acceptable limits for PV4 range if error persists call the Solutions Support Center 9 5 STATUS TAG NO Calculated flow rate is within Nothing wait for flow rate to IN CUTOFF PV4 high limits for exceed configured high limit Verify that flow rate is in cutoff Continued on next page 248 STS103 Operating Guide 4 99 7 6 Diagnostic message tables continued Diagnostics and SFC Messages continued Table 7 30 Non Critical Status Diagnostic Message Table continued
247. s press the STAT key because some type of a problem exists Again one or more messages will appear on the display for about five seconds each 99499 When the battery voltage becomes low a colon will appear in the middle of the display It stays on the display until you either charge or replace the batteries Continued on next page 4 99 STS103 Operating Guide 109 5 7 Diagnostic messages Diagnostics and SFC Messages continued Table 5 11 is a list of all the diagnostic messages that can appear when using the STS103 with a STT 3000 Temperature Transmitter They are listed in alphabetical order along with the problem associated with the message and the corrective action to take when the message appears Table 5 11 Diagnostic Messages for SFC and STT 3000 Message Problem Corrective Action SFC FAULT SFC communication is not Press STAT key to obtain other or possible due to a detected SFC y SFC FAILURE problem messages Replace the SFC AMB TEMP HI LO Transmitter internal temperature is beyond specified limits of 40 to 85 C Possible process of transmitter mounting problem Condition will cause inaccuracies or potential failure if not corrected COMM ABORTED Communication aborted by user ENTRY gt SENS RNG The number entered is beyond 2 times the upper range limit of the sensor Press the key check the parameter and start again EXCESS ZERO CORR The
248. s the STAT key to find out what problem exists You will receive one or more messages Take whatever corrective action necessary to solve the problem Remember that the SFI will stay in upscale or down scale burnout until the condition is corrected If the SFI sends more than one message each message will be displayed in the order of importance for about 5 seconds If you need to see them again press the STAT key again A non critical condition means that although a problem exists the SFI is still operating When a non critical condition occurs a character appears on the right side of the display along with whatever you re displaying at the time This character means press the STAT key because some type of a problem exists Again one or more messages will appear on the display for about five seconds each 66 When the battery voltage becomes low a colon will appear in the middle of the display It stays on the display until you either charge or replace the batteries Continued on next page 4 99 STS103 Operating Guide 25 3 3 Diagnostic Messages ATTENTION Diagnostics and SFC Messages continued Table 3 1 is a list of all the diagnostic messages that are common to the STS103 when used with a Smart Field Instrument SFI They are listed in alphabetical order along with the problem associated with the message and the corrective action to take when the message appears Refer to
249. s the STS103 and ST 3000 software version numbers date and time stamp Table continued on next page 4 99 STS103 Operating Guide 69 4 6 Operating Data continued Table 4 8 Operation Continued ST 3000 Operating Data continued Keyboard Test NO DISPLAY OK then KEYBOARD TEST ROW COLUMN Operating Data Press Displays Result Displays are examples Zero Point A Adjustment SHIFT then INPUT J INPUT 1 tag OUT 0 0000 PSI RESET gt INPUT 1 tag no Request to Zero Input Press to Exit ZERO INPUT A physical input equivalent to 0 must be A INPUT 1 tag no applied before pressing the ENTER key ENTER INPUT ZEROED YES Zero adjustment is automatically done within approximately 20 seconds after pressing the ENTER key Display and DISPLAY TEST Display test indication You can test each key on the keyboard For example If you press INPUT J OUT PUT the display will read KEYBOARD TEST ROW 3 COLUMN 2 to clear Access the scratch pad message SHIFT ER then SCR PAD D SCR PAD tag no SFC WORKING then SCRATCH PAD 1 XXXXXXXXXXXXXXXX Displays the scratch pad message Press the NEXT key to switch from SCRATCH PAD 1 to SCRATCH PAD 2 70 STS103 Operating Guide 4 99 Diagnostics and SFC Messages Introduction OK Status Critical status Non critical status
250. satn go to Step 8 AP Comp Only go to Step 8 Gas flow only and skip Steps 11 and 12 PT Comp Only go to Step 11 Gas flow only Continued on next page 206 STS103 Operating Guide 4 99 7 3 Configuration Continued Setting selections for PV4 equation definition continued Table 7 13 Setting Selections for PV4 Equation Definition continued Step Press Key Read Display or Action Description 8 fale T TT Present absolute pressure PV2 IFIA T LISIA FIE A failsafe configuration selection 9 DE clom P T TT 1 Calls up next absolute pressure MENU failsafe selection Repeatedly press ITEM MENU ITEM key to toggle between selections OFF and ON An OFF selection means that PV4 For steam flow the output would be flagged for non Failsafe action selection for PV2 and critical status when transmitter PV3 must be the same If PV2 Failsafe is detects critical status for PV2 input ON then PV3 Failsafe must be ON and pressure term P Pa or Pa Pr is Likewise if PV2 Failsafe is OFF then set equal to one in derived gas flow PV3 must be OFF also If they are not equation An ON selection means configured alike you will get an INVALID that PV4 output would be flagged for REQUEST message when you try to critical status when transmitter download the configuration selections
251. ser must enter value Pref gt RANGE Kpa For gas flow only Temperature reference ALGPARAM Tref User must enter value value Tref gt RANGE K For gas flow only Design density value for ALGPARAM dDensity User must enter value equation P ges gt RANGE 1b ft3 For steam flow only Scaling factor for eqaution ALGPARAM Kuser User must enter value Kuser gt RANGE To ensure the accuracy of the PV4 calculated output the default values for the following PV4 equation parameters are actually set as not a number NaN This forces the PV4 output into a failsafe condition and initiates the critical status message ALGPARM INVALID whenever you change the equation type configuration This also applies for new transmitters without factory entered PV4 parameter configuration You must enter your configuration values for the applicable PV4 parameters and download them to the transmitter to clear the ALGPARM INVALID critical status and return the PV4 output to a calculated value 210 STS103 Operating Guide 4 99 7 3 Setting parameters for Configuration Continued Table 7 14 gives the steps for setting the PV4 equation parameters that PV4 equation determine the compensation and scaling factor values to be used in the flow calculation to represent the PV4 output Note that values used in this procedure are for reference purposes only Ta
252. setting and clearing the The OUTPUT key has four uses current output View the output of the transmitter in percent of span Putthe transmitter in the current output mode see Section 3 5 Clear the current output mode and Correct 096 value of the DAC and the span of the DAC 100 value Figure 3 12 is a general view of the key presses required to display and set the output value and clear the current output mode The sequence on the left shows how to display the output value and set the output mode The sequence on the right shows how to clear the output mode REFER TO THE INDIVIDUAL DEVICE SECTIONS FOR ZERO AND SPAN DAC CORRECTIONS Figure 3 12 Displaying Setting and Clearing the Current Output Display Set Output Value INPUT OUT PUT Clear Output Mode INPUT OUT PUT OUTP1 TAGNO SFC WORKING OUTP1 TAGNO SFC WORKING OUTP1 TAG Note 1 OUTP1 TAGNO XX XX XX XX OUTP1 TAGNO SFC WORKING OUTP1 TAGNO 100 00 SFI TAG NO READY Note 1 sign indicates a non critical status In this case it indicates that the SFI is in the Output Mode OUTP1 TAG NO SFC WORKING OUTP1 100 00 20736 Continued on next page 4 99 STS103 Operating Guide 39 3 4 Common Key Sequences and Displays continued Displaying and calibrating the current input value Figure 3 13 is a view of t
253. shootlng tee tes diesen ee 75 SECTION 5 STT 3000 TEMPERATURE 77 5 1 OVGIVIOW s deste ode eat loan as the ost sen 77 5 2 E PAA 78 5 3 aee dM de acce tenor epe T 80 5 4 Gonlfiguratiort 93 5 5 Qutput Calibration iiia tere te e Reg ei Rag 102 5 6 OperatioD seres teer rio ecc oh cle 105 5 7 Diagnostics and SFC Messages sse 109 5 8 Troubleshooting i 3 ete deti ua teda dee 114 SECTION 6 MAGNEW 3000 ELECTROMAGNETIC FLOWMETER 115 6 1 OVEWIOW M EE 115 6 2 116 6 3 Seb Ups ederet 5 118 6 4 G nfiguration ieii ainssi c 129 6 5 Calibration 8 a eta Ded v Ped aga 154 6 6 Operation x oou Ia Ep que s duae do duce Ree eer Vaga e v pae ree renee 167 6 7 Diagnostics and SFC Messages sse 171 6 8 Troubleshooting 1 a a iaai eetet k eee 175 4 99 STS103 Operating Guide Table of Contents SECTION 7 SMV 3000 MULTIVARIABLE TRANSMITTER 177 ONTA A cute i Ni Ret er LS ad Eee 177 TERR EIC LOTO LR LL CL 178 Gola ite T c lol DELE 180 OUTPUT Calor ation ss cies nicer te aa e E E
254. smitter always end your procedure as follows Press Displays will Read Result SFI Type TAG No SFC WORKING will be displayed as long SHIFT SFC WORKING as eight seconds then then The data is copied from the Working SFI Type TAG No memory into the Non Volatile memory ONT DATA NONVOLATILE ENTER YES then SFI Type TAG No READY Continued on next page 52 STS103 Operating Guide 4 99 4 3 Set up Continued Adjusting the damping time Damping time sets the unit of time for the damping constant This constant establishes the upper limit of frequency response and the response time characteristics of the transmitter This is used to reduce the electrical noise effect on the output signal Using the SFC you can adjust the damping by selecting a value on the SFC and send that value to the transmitter The minimum value is 0 0 seconds no damping The maximum value is 32 0 seconds Figure 4 3 is a graphic view of the key presses required to adjust the damping time value and also gives you the settings available You can also key in a value using the numbered yellow keys but the value will default to the closest value listed Figure 4 3 Adjusting the ST 3000 Damping Time Value SFI Type TAG No READY DAMPX TAG NO DAMPX TAG NO X X SECONDS thru SFC WORKING NOTE 1 to key in value DAMPX TAG NO NEW VALUE DAM
255. ss design data that lists the differential pressure Pay corresponding to the maximum flow Qflow along with the flowing pressure and temperature If you use a standard mass flow or volume flow engineering unit be sure you convert the Qgo value to the base engineering unit of tonnes per hour for mass flow or cubic meters per hour for volume flow before solving for Kiser However this is not required when you use a custom engineering unit in this case you must use the custom unit See CUSTOM units below Continued on next page 202 STS103 Operating Guide 4 99 7 3 Configuration continued Superheated steam flow equation Kuser DPact Pact Pdes Steam Kyser quick calculation ATTENTION The SMV 3000 uses this superheated steam flow equation to calculate PV4 flow rate Pact xd Kuser Vy DPac z I Pdes Where Superheated Steam Mass Flow Rate You select this equation as a configuration entry The default equation selection is for Ideal Gas Volume Flow A scaling factor you determine based on the dynamics of your process Note that the SCT 3000 software includes an easy to use Kyser calculation function Measured Differential pressure of process at actual density Transmitter s PV 1 input Actual density based on measured absolute pressure and temperature of the process Transmitter s PV2 and PV3 inputs respectively Design density based on absolute pressure and tempera
256. strictions The MagneW alarm occurs when the output dry contact closure is activated There is no internal audible alarm but an independently powered loop may be connected to provide an external alarm The elements of Alarm Config are listed in Table 6 9 See Figure 6 12 for key presses elements Table 6 9 MagneW 3000 Alarm Config Elements Element Definition HI AL M High alarm setpoint Range is 125 to 125 Output Flowrate LO ALM Low alarm setpoint Range is 125 to 125 Output Flowrate Continued on next page 140 STS103 Operating Guide 4 99 6 4 Configuration continued Alarm Config A Figure 6 12 is a graphic view of the key presses required to configure the configuration graphic high and low alarm setpoints Figure 6 12 MagneW 3000 Alarm Setting Configuration to go to Press DETECTOR until CONFIG Press ou see Beste SFM CONFIG SFM CONFIG SFM CONFIG CONF NEXT NEXT FAILSAFE SFC WORKING UNITS KEY c ALARM CONFIG Press S CONFIG N la MAG SR XXXXXXX READY Yes ENTER ENTER ENTER ALARM CONFIG ALARM CONFIG ALARM CONFIG 100 HI ALARM 25 LO ALARM DOWNLOAD CHANGE use use to change to change High Alarm Low Alarm Point Point CLR CLR Yes ALARM CONFIG SFC WORKING 20300 Continued on next page 4 99 STS103 Operating Guide 141 6 4 Configuration continued Failsafe Config Failsafe Config
257. t Replace the transmitter NVM ON SEE MAN The SFC s CPU is misconfigured Replace the SFC NVM WRITE FAIL Last configuration calibration item written to was not correctly stored Repeat last configuration calibration command Press SHIFT ENTER Replace the transmitter OPTION MISMATCH On a database restore one or more options do not match None SFC tried to restore as much of the database as possible gt RANGE The value to be displayed is over the range of the display Press the key and start again RESTORE FAILED Part of the Save Restore function Check the transmitter and try again SELF TEST FAIL Power up self test failed Replace the transmitter SENSOR TEMP FAIL The STT 3000 temperature sensor has failed Replace the transmitter TYPE MISMATCH On a database restore the transmitter types are not the same None SFC tried to restore as much of the database as possible UNCERTAIN CJC Low quality reading of CJ inconsistent input Possible internal communications failure Check input for noise intermittent connection Table continued on next page 112 STS103 Operating Guide 4 99 5 7 Diagnostic Messages continued Table 5 11 Diagnostics and SFC Messages continued Diagnostic Messages for SFC and STT 3000 continued Message Problem Corrective Action UNCERTAIN RDING The
258. t Filter Frequency 196 Activating Sensor Fault Detection 198 Selecting Output Characterization ssessssssseeeese 199 Setting selections for PV4 Equation Definition 205 Setting Parameters for PV4 211 Setting Low and High Limits for Low Flow 214 Selecting PV to Represent Analog 215 Keying in LRV and URV for PV1 ssesesseeeenn m 217 Setting LRV and URV for PV1 to Applied Pressures 218 Keying LRV and URV for 2 220 Setting LRV and URV for PV2 to Applied Pressures 222 Keying in LRV and URV for 224 Setting LRV and URV for to Applied Input Signals 225 Setting URL for 4 enne 228 Keying in LRV and URV for 4 229 Selecting PVs for 232 Selecting Message 234 Calibrating Output Signal for Transmitter in Analog Mode 235 ST 3000 Operating
259. t press ENTER to store your selection in the SFC F S FSO B O LO Press NEXT to move to the next element without storing the previous selection DECONF TAG NO F S FSO B O HI DECONF TAG NO F S FSO LKG 20304 Continued on next page 4 99 STS103 Operating Guide 57 4 3 Set up Continued Keying in the lower ATTENTION Keying in the lower range value LRV You can re range a transmitter by changing the transmitter s Lower Range and upper range values Value LRV and Upper Range Value URV You can re range the transmitter to whatever values you need Use the procedures listed in the figures that follow ALWAYS KEY IN THE LOWER RANGE VALUE FIRST Change the LRV Lower Range Value of a transmitter as follows Locate the key on the keyboard and press Figure 4 6 is a graphic view of the key presses required to change the Lower Range Value LRV Figure 4 6 Changing the ST 3000 Lower Range Value LRV SFI Type TAG NO READY LRV TAG NO XXX UNITS DID to change value LRV TAG NO NEW VALUE UNITS LRV TAG NO SFC WORKING LRV TAG NO NEW VALUE UNITS 20321 Continued on next page 58 STS103 Operating Guide 4 99 4 3 Set up Continued Keying in the upper Change the URV Upper Range Value of a transmitter as follows range value URV Locate the key o
260. t selections are shown in MENU VELOCITY this step ITEM until you see 4 NON VOL UNITS KEY Velocity measurement is selected and entered ENER ENTERED IN SFC into the SFC The SFC then prompts you to PE ten download this change to the MagneW UNITS KEY DOWNLOAD CHANGE 5 HONOR UNITS KEY Data is downloaded and the SFC returns to the pin SFC WORKING initial display then SFM CONFIG UNITS KEY 6 CLR MAG SR tag no Exits configuration mode READY 7 UNITS 1 tag no If display does not read m sec press NEXT m sec key until it does 8 NONVOE UNITS 1 tag no m sec entered into MagneW memory ENTER YES SFC WORKING then MAG SR tag no READY Continued on next page 4 99 STS103 Operating Guide 157 6 5 Calibration continued Set span to 10 001 Use the procedure in Table 6 16 to set the span to 10 001 m sec meters m sec meters per per second second Table 6 16 Set the MagneW 3000 Span to 10 001 m sec Step Press SFC Display will Read Result 1 nV URVi tag no The display will show the current value in 100 SFC WORKING m sec The cursor will be under the first digit then URV1 tag no X XXXX M SEC 2 You have selected 10 001 meters per second URV1 tag no 10 001 M SEC DDODDUOD on yellow keys NON VOL i 3 URV1 tag no The span is now set at 10 meters per second SFC WORKING TER ATTENTION i Ry zero will always read 0 The SFC will not allow change URV1 tag no 10 001 M S
261. t to default value of Use number keys to key in desired NaN design density reference value to be Al t alol enl s used for parameter ges in derivation l gt IRIAN Ronee of steam flow equation for PV4 Example for parameter with entered value equation You can change displayed Fa Te TeTop els TAY engineering units by pressing trast UNITS key until desired engineering units is displayed and then press ENTER key to return to this display Only appears with Cmp SupHStm MFlo equation selection 9 NON VOL TAT LT G PIAJRIM Ta P e nisT iTt Y Enters design density reference ENTER E N T E RIE D s F c value into SFC memory This is only Yes valid if you make a change in Step 8 Otherwise must press s NEXT key to call up next selection Continued on next page 212 STS103 Operating Guide 4 99 7 3 Configuration continued Setting parameters for PV4 equation continued Table 7 14 Setting Parameters for PV4 Equation continued Step Press Key Read Display or Action Description 10 Example for parameter set to default value of Use number keys to key in desired NaN scaling factor value to be used for TN used parameter Kyser in derivation of gas jRANNIGIEL I UIT I or steam flow equation for PV4 Example for parameter with entered value equation jA r e P A jit II
262. tatus Non critical status Low battery voltage The ST 3000 and the STS103 both run continuous self diagnostics This means that they are constantly testing the communications the loop and themselves Any time you want results of these diagnostics press the STAT key The SFC displays its report in the form of messages which identify diagnostic conditions Diagnostic conditions are broken down into three categories e OK status critical status e a non critical condition An OK condition means no problem exists and the display looks like this STATUS tag no STATUS A critical condition means that the transmitter is not functioning properly When this occurs the transmitter goes into upscale failsafe and maintains an output of 21 8 mA or into downscale failsafe and maintains an output of less than 3 9 mA The message CRITICAL STATUS interrupts your operation and is followed by the message PRESS STATUS After the PRESS STATUS message you press STAT key to find out what problem exists You will receive one or more messages Take whatever corrective action necessary to solve the problem Remember that the transmitter will stay in upscale or down scale failsafe until the condition is corrected If the transmitter sends more than one message each message will be displayed in the order of importance for about 5 seconds If you need to see them again press the key again
263. te 0 output or 100 SFC WORKING output PUT then OUTP 1 tagno 10 000 3 OUTP 1 tag no To select 0 output 0 4 MORENO OUTP 1 tag no in display indicates the transmitter is in the pub SFC WORKING Output mode then OUTP 1 tag no 0000 5 Check the DVM If the value on the DVM is 4 mA 1 00 volt go to step 9 100 calibration If the value on the DVM is not 4 mA 1 00 volt go to step 6 to correct DAC zero Table continued on next page 64 STS103 Operating Guide 4 99 4 5 Output Calibration continued Do a DAC calibration continued Table 4 7 ST 3000 Digital to Analog Current Output Signal Calibration continued Step Press SFC Display will Read Result 6 OUTP 1 tag no Allows correction of DAC zero SFC WORKING RECT then OUTP 1 tag no CORRECT DAC ZERO 7 A OUTP 1 tag no Repeat increments or decrements to adjust the NEXT INC 1 COUNTS value on the DVM to 4 mA 1 00 volt 2 or When 4 mA 1 00 volt is shown on the DVM go OUTP 1 tag no to step 8 DEC 1 COUNTS then OUTP 1 tag no CORRECT DAC ZERO 8 sl OUTP 1 tag no 0 output calibrated go to step 9 100 SFC WORKING calibration PUT then OUTP 1 tag no 0 000 9 C OUTP 1 tag no This selects 100 output 100_ it in display indicates the transmitter is in the Go Output mode 10 OUTP1 tag no Check the DVM ENTER YES SFO WORKING If the value on the DVM
264. th CONFORMITY a indicating that the next RANGE CONFIG configuration level may YES TOTALIZER MENU etc or may not NO be selected for viewing Pre set or menu selectable CURRENT PV 1 configuration values F SAFE UPSCALE Configuration level 2 or 3 VELOCITY for MagneW UNITS KEY etc STS103 processor status SFC WORKING messages READY ENTERED IN SFC etc STS103 communication status NO TRANSMITTER RESPONSE messages IN OUTPUT etc 4 99 STS103 Operating Guide 15 2 4 Prompt Character Definitions Definitions and general Certain characters on the LCD display indicate to you which type of response is permitted rules Table 2 3 shows these characters and the rules and what the STS103 is looking for in the way of input Table 2 3 STS103 LCD Character Definitions and General Rules Character Display Example Requested Action When the display contains a cursor for example LRV 1 22 The STS103 is asking you to enter a numerical value at the cursor point Type in a new value and press the ENTER key to store the value Numeric entries are also allowed in the ID name and Scratch Pad messages When the display shows an item after an equal sign for example F S B O Lo The STS103 is asking for a selection after the equal sign Your selection can be made using the key or the or keys from a pre defined list of values or selec
265. the individual device sections for a comprehensive list of error messages and troubleshooting procedures specific to that particular device Table 3 1 Diagnostic Messages for SFC Message Problem Corrective Action SFC FAULT SFC communication is not Press STAT key to obtain other or possible due to a detected SFC _ roblem Replace the SFC COMM ABORTED Communication aborted by user ENTRY gt SENS RNG The number entered is beyond 1 5 times the upper range limit of the sensor Press the key check the parameter and start again EXCESS ZERO CORR The ZERO correction factor is outside the acceptable limits for accurate operation Check the input and be sure it matches the calibrated range value EXCESS SPAN CORR The SPAN correction factor is outside the acceptable limits for accurate operation Check the input and be sure it matches the calibrated range value FAILED COMM CHK The SFC failed a communication diagnostic check This could be a SFC electronics problem or a faulty or dead communication loop Try communicating again Press the STAT key If a loop fault message appears do the corrective action and try again If the Comm error continues replace the SFC HI RES LOW VOLT Either there is too much resistance in the loop open circuit the voltage is too low or both Check the wiring connections and the power supply There must be 11
266. the symbols appears on the display and in place of the first character of the old ID The rest of the old ID disappears Key in your ID using the NUM ALPHA key the letters and numbers on the keys 3 SFI Type TAG No The ID is loaded into the transmitter SES SFC WORKING then SFI Type TAG No New ID DIGITAL TRANSMITTERS 4 DEREAD TAG NO The top line indicates that the transmitter is e SFC WORKING configured for DE Communications mode Th Notice the line under the first character of the ID en on the bottom line This is the cursor and DE XMTR No indicates where you can key in an ID XXXXXXXX Alpha numeric entries of up to 8 characters are permitted If the ST 3000 was not given an ID the line will be blank with a cursor 5 NUM SFI Type TAG No An indicates that the prompt is looking for an E alpha character The letters are located in the m upper right corner of the keys e SFI Type TAG No A W indicates the prompt is looking for a number The numbers are on the yellow keys Press NUM ALPHA key to change from Alpha to Numeric mode or vice versa One of the symbols appears on the display and in place of the first character of the old ID The rest of the old ID disappears Key in your ID using the NUM ALPHA key and the letters and numbers on the keys Table continued on next page 4 99 STS103 Operating Guide 51 4 3 Keying in the ID and database continued Table 4 1 Set up C
267. the transmitter is connected to the proper control room instrument and able to output the proper values Return to Normal Operation Press Confirm Press Confirm s E Jed omne Damping Value CONFIG Lower Range Value Sensor Temperature Upper Range Value PROM Serial Number Span URV LRV SPT CONFIG Save Data or Restore Data Upper Range Limit 2 lt c a z lt Units of Measure Transmitter type MEN ITEM Message format Failsafe Mode Repeat this procedure periodically throughout the troubleshooting procedure to update the diagnosis See 4 7 for Diagnostic Messages and Corrective Actions Press Confirm ENTER Enter the output mode and observe the transmitter s mA output and control room display to confirm proper operation Adjust the output if required see Output Signal Calibration Procedure CLR Exit Output Mode 20329 4 99 STS103 Operating Guide 75 76 STS103 Operating Guide 4 99 Section 5 STT 3000 Temperature Transmitter 5 1 Overview Introduction What s in this section This section contains all the information you will need to know in order to wire set up configure operate troubleshoot and calibrate STT 3000 Smart Temperature Transmitters using the STS103 Smart Field Communicator Refer to the STT 3000 transmitter user s manual for operating and installation information Make sure you
268. tic Pressure PV2 Process Temperature PV3 Calculated Flow Rate PV4 We suggest that you set the damping to the smallest value that is reasonable for the process Damping values are displayed in seconds The procedure in Table 7 3 outlines the keystrokes used to adjust the damping time to two seconds for PV1 and PV2 one and a half seconds for PV3 and four seconds for PV4 as an example Table 7 3 Adjusting Damping Time Step Press Key Read Display or Action Description 1 FoTATMTP Tt T Present damping time in seconds for aeee P71 2 If display in Then Step 1 is for desired PV go to Step 4 not for desired PV goto Step 3 3 DE CONF Plv TNIUIMI T Calls up current PV number display MENU Icju R R EINIT Repeatedly press MENU ITEM key ITEM to step through PV number co selections 1 2 3 and 4 Stop ul ENUM when desired PV number is on MENU CJUJRJRIEINIT Pivi displ ITEM ISplay DE CONF ATTENTION voi can also use CJUJRJRIEJNIT s left e and right gt arrow keys to EEN step forward and backward through PV number selections MENU ITEM cjujR RjE N T elv NON VOL ENTER D A M P s F T slol 7 Returns to previous display which is Yes l l s SIEICJONNDISIJ updated to reflect current PV number selection PV number 3 is shown for exa
269. ting Output Signal for Transmitter in Analog Mode Step Press Key Read Display or Action Description 1 Connect SFC across loop wiring and turn ATTENTION it on Connect a precision milliammeter 9 Be sure the or voltmeter 0 03 accuracy or better accuracy of the resistor is 0 03 or in loop to check readings better for current measurements made by voltage drop 2 DE READ male INJO T T T T TE TT T Be sure any switches that may trip Ir Ri P s s E c u R E D or interlocks associated with analog loop are secured or turned off 3 NON VOL FT TSIMIVE Confirm that TRIPS are secured ENTER L 111 and establish communications with Yes sample transmitter FT 3011 4 INPUT Tay T sla q Display shows current transmitter n js 4 4 111 I output level and it will update every PUT Six seconds displayed value blinks when value is updated Be sure to time your next key press with an updated display Continued on next page 4 99 STS103 Operating Guide 235 7 4 Output Calibration continued Procedure continued Table 7 27 Calibrating Output Signal for Transmitter in Analog Mode continued Step Press Key Read Display or Action Description 5 You can only calibrate analog output If display in Then for PV4 So be sure PV4 is current Step 4 is PV number We assume that
270. tions ir v When the display shows an item with a question mark after the item for example Range Config The STS103 is asking if you want to enter a particular group of configuration parameters If the parameters are what you desire press the key Press the key to cancel from the current configuration level and return the SFC display to the next highest configuration level Press NEXT or PREV to go on to the next or previous group of parameters ce When the display shows an item with for example ABC The STS103 is asking you to enter an alpha character This prompt is used only when entering an ID name or Scratch Pad messages Continued on next page 16 STS103 Operating Guide 4 99 2 5 Function Keys Data Entry Function keys To access the basic functions or parameters which are common to all SFIs press any one of the labeled function keys These common items are ID e SPAN LRV URV URL NPUT OUTPUT INPUT and OUTPUT CORRECTS e LRV and URV CORRECTS and SETS RESET CORRECTS STATUS UNITS e DAMPING e FAILSAFE DIRECTION DEOPERATIONS SW VERSION SCRATCH PAD Multiple process In some cases more than one Process Variable is available Press the DER key to select which PV will be referenced when the following operating parameters are displayed e SPAN LRV URV URL LRL e NPUT OUTPUT DAMP
271. ture of the process at design conditions You must enter the design density value for your process as a configuration value since the default is NaN Note that most engineering handbooks include tables showing properties of saturated and superheated steam at given pressure and temperature from which you can derive the density value The quickest way to calculate the Steam Kyser value is to solve the steam flow equation for steam Kyser in terms of Pact ANd To do this calculation you only need to obtain the process design data that lists the differential pressure corresponding to the maximum flow Qflow along with the actual density based on the operating pressure and temperature and the design density based on the design pressure and temperature If you use a standard mass flow or volume flow engineering unit be sure you convert the Qgo value to the base engineering unit of tonnes per hour for mass flow or cubic meters per hour for volume flow before solving for Kiser However this is not required when you use a custom engineering unit in this case you must use the custom unit See CUSTOM units below Continued on next page 4 99 STS103 Operating Guide 203 7 3 About using CUSTOM units Calculated flow rate PV4 simple equation configuration Configuration Continued If you want the PV4 calculation to represent an engineering unit that is not one of the preprogrammed units store
272. turned ON Otherwise PV4 is priority 1 and PV1 is second 9 NON VOL FT TSIMIVE IAT Message exchange is working ENTER Isi w oR Kiini a Loads tag number into transmitter s Yes working memory Ismiy Njo EEBNENBEBELUNECEEN Continued on next page 4 99 STS103 Operating Guide 183 7 3 Configuration Continued Output Conformity The PV1 output is normally set for a straight linear calculation since square root is performed for PV4 However You can select the transmitter s PV1 output to represent a square root calculation for flow measurement Thus we refer to the linear or the square root selection as the output conformity or the output form for PV1 Selecting Output The procedure in Table 7 2 shows how to select the desired output Conformity conformity NOTE For differential pressure PV1 variable you can configure output form to represent one of these selections Note that calculated flow rate PV4 process variable includes a square root operation that is not affected by this selection Table 7 2 Selecting Output Conformity Step Press Key Read Display or Action Description 1 B TT T TTTTSIMIvI TeToIN F UTG Prompt asks if you want to access leloiN F ojRIM I T Y configuration parameter called conformity If you want to access it go to Step 2 If you do not want to access it press CLR key to exit function or s N
273. ty value can units be selected when you enter at the ALGPARM dDensity configuration prompt With ALGPARM dDensity prompt on display press UNITS key to select desired engineering unit then press ENTER key to return to the configuration prompt The available density prompts are listed in Table 7 7 below Table 7 7 Selecting Engineering Units for Design Density for PV4 IF you want density displayed in THEN call up ALGPARM dDensity display and sequentially press key until display shows pound per cubic foot Ib ft3 pound per gallon Ib gal specific gravity at 4 SG 4 specific gravity at 60 F SG 60 specific gravity at 68 F SG 68 F specific gravity at 59 F SG 59 grams per cubic centimeter gm cm3 kilograms per liter kilograms per cubic meter Kg m3 192 STS103 Operating Guide 4 99 7 3 Configuration continued Specify Probe Type for PV3 You must identify the type of probe that is connected to the transmitter as its input for process temperature PV3 This sets the appropriate LRL and URL data in the transmitter Table 7 8 gives the procedure for identifying the probe type as part of the transmitter s configuration function Whenever you connect a different probe as the transmitter s input you must also change the probe typeconfiguration to agree Otherwise range setting errors may result ATTENTION While this procedure covers how
274. typical digital data sequence of events exchange The steps correspond to the numbers in Figure 1 7 Table 1 4 Typical Digital Data Exchange Sequence of Events Step Occurrence 1 The STS103 waits at least 100 msec for any digital communications 2 The STS103 detects the transmitter message length and gap location 3 The STS103 synchronizes its operation with the next transmitter message 4 The STS103 transmits a request and message during the next inter message gap 5 The transmitter halts broadcasting process variable PV data when the request is detected 6 After receipt of a complete message the transmitter returns to its configured broadcast mode and processes a response message 7 After completion of processing the transmitter sends the response message in half duplex protocol after the next PV data broadcast 8 Upon completion of the data transfer the transmitter returns to its configured broadcast mode within 100 msec 12 STS103 Operating Guide 4 99 Section 2 STS103 User Interface Guidelines 1 2 STS103 Overview Introduction What s in this section This section describes the User Interface functions and guidelines for the STS103 Smart Field Communicator SFC There are several features of the STS103 that will make communicating with a Smart Field Instrument SFT easier to accomplish They are e Common operation for all Smart Field Instruments A two line L
275. unit has an uncertain or inconsistent input reading Check the transmitter input Replace the transmitter UNKNOWN Selection is unknown action Have the software in your SFC updated USER CORR ACTIVE Inconsistent or step input Possible internal communications failure Check input for noise intermittent connection etc Ignore if transmitter recovers quickly and message does not repeat USER CORR ACTIVE User has implemented LRV CORRECT URV CORRECT LRV SET or URV SET None required unless to correct unintended re calibration A sign will be displayed continuously and USER CORR ACTIVE will be displayed when the STAT key is pressed unless user returns to factory calibration via the SHIFT CORRECTS Reset procedure WRITE PROTECTED The transmitter configuration and calibration data is write protected The write protect mode is ON Change the write protect mode WRONG PASSWORD The password entered was incorrect Enter the correct password when prompted to do so 4 99 STS103 Operating Guide 113 5 8 Troubleshooting Introduction Troubleshooting procedure If you suspect a problem in the transmitter check the transmitter configuration operation and output Use the procedure shown in Figure 5 15 Refer to Section 5 7 for diagnostic messages and corrective action Check the parameters listed
276. ure 3 6 Adjusting the Damping Time Value SFI Type TAG NO READY DAMPX TAG NO X X SECONDS TAG NO SFC WORKING DAMPX TAG NO NEW VALUE Note 1 See the individual device sections for available damping settings 20730 Continued on next page 4 99 STS103 Operating Guide 33 3 4 Common Key Sequences and Displays continued Displaying setting Figure 3 7 is a general view of the key presses required to display set or and calibrating the calibrate the Lower Range Value LRV on most SFIs lower range value REFER TO THE INDIVIDUAL DEVICE SECTIONS FOR A MORE DEFINITIVE ENTRY PROCEDURE Figure 3 7 Displaying Setting and Calibrating the Lower Range Value SFI Type TAG NO READY LRVX TAG XXX UNITS LRVX TAG NO XXX UNITS LRVX TAG NO XXX UNITS DiS to change value LRVX TAG NO SET LRV LRVX TAG NO CORRECT LRV NON VOL LRVX TAG NO NON VOL NEW VALUE UNITS ENTER YES YES LRVX TAG NO LRVX TAG NO SFC WORKING SFC WORKING LRVX NO LRVX TAG NO VALUE UNITS VALUE UNITS LRVX TAG NO NEW VALUE UNITS 20731 Continued on next page 34 STS103 Operating Guide 4 99 3 4 Common Key Sequences and Displays continued Displaying setting Figure 3 8 is a general
277. ut Alarm Error Continued on next page 130 STS103 Operating Guide 4 99 6 4 Configuration continued Selecting a parameter Table 6 4 shows you what key to press in order to scroll through the configuration groups and select a parameter Table 6 4 Scrolling through the MagneW 3000 Parameters Press Result A Display goes to next parameter NEXT wv Display goes to previous parameter PREV NONEVOE Enters that particular configuration parameter and allows ENTER menu selections See figures that follow YES Also enters menu item selection into SFC memory NOTE Under each parameter group there is an element entitled DOWNLOAD DATA No newly selected menu item will be entered into MagneW memory until the ENTER key is pressed while DOWNLOAD DATA is being displayed DE CONF Scrolls through the values or selections available for a particular parameter ITEM OR OR Press ENTER key after selection is made to enter information into the SFC memory M Exits the Configuration mode and puts the SFC into a Eli NO READY mode CLR Clears from parameter to beginning of group NO Continued on next page 4 99 STS103 Operating Guide 131 6 4 Configuration continued Units key This configuration parameter lets you select the type of Flow measurement for your application Available flow measurement applic
278. view of the key presses required to display set or and calibrating the calibrate the Upper Range Value URV on most SFIs upper range value REFER TO THE INDIVIDUAL DEVICE SECTIONS FOR A MORE DEFINITIVE ENTRY PROCEDURE Figure 3 8 Displaying Setting and Calibrating the Upper Range Value SFI Type TAG NO READY URVX TAG NO XXX UNITS URVX TAG NO URVX TAG NO XXX UNITS XXX UNITS RESET COR RECT URVX TAG NO CORRECT URV ERES to change value URVX TAG NO SET URV NON VOL ENTER YES URVX TAG NO NEW VALUE UNITS URVX TAG NO URVX TAG NO SFC WORKING SFC WORKING URVX TAG NO URVX TAG NO VALUE UNITS VALUE UNITS URVX TAG NO NEW VALUE UNITS 20732 Continued on next page 4 99 STS103 Operating Guide 35 3 4 Common Key Sequences and Displays continued Displaying and changing the span of the device Figure 3 9 is a general view of the key presses required to read or change the span between the upper and lower measuring limits on most SFIs Figure 3 9 Displaying and Changing the Span SFI Type TAG NO READY URL SPANx TAG XXX UNITS oB to change value SPANx TAG NEW VALUE UNITS PAN x A NO NEW VALUE UNITS 20733 Continued on next page
279. w the database check transmitter status make changes to the configuration parameters if desired and then download the changes to the transmitter Configuration Overview If you need to configure the SMV 3000 transmitter the tables in the following pages provide procedures to set up the transmitter database that contains the configuration parameters Setting up the SMV 3000 Multivariable Transmitter consists of Keying in the I D and loading the Database Selecting output conformity Adjusting the Damping time Selecting the units in which to display values Select PV3 probe type and other parameters for temperature measurement Define PV4 flow measurement equation Select PV4 flow equation parameters Set low flow cutoff limits for PV4 output Select PV output for transmitter operating in analog mode Keying in the Lower Range value and Upper Range value Span using the keyboard Keying in the Lower Range value and Upper Range value Span using applied pressure Selecting the SMV 3000 s communication mode Selecting the PVs for broadcast and message format for a transmitter in the Digital Communications DE Mode ATTENTION Since the SFC is compatible with other Honeywell Smartline transmitters be sure all configuration data applies to a multivariable transmitter Continued on next page 180 STS103 Operating Guide 4 99 7 3 Configuration continued Copying data into When setting up or conf
280. which sets the value to the temperature of the terminal block EXTERNAL The C J temperature is sensed externally at an isothermal block You can enter the ECJT value when you select CU EXTERNAL FILTER This selects the frequency of the input filter Make sure you select the value that matches the power line frequency 50Hz 50 Hertz 60Hz 60 Hertz TC FAULT DET This selection enables or disables the thermocouple fault detection for open circuit inputs ON Enable T C fault detection OFF Disable T C fault detection Continued on next page 4 99 STS103 Operating Guide 95 5 4 Configuration continued Probe config elements continued Table 5 7 STT 3000 Probe Configuration Elements continued Element Definition OP This selects linear or non linear operation Note This selection has no effect on millivolt ranges LINEAR The output will always read in C R or K and selected by the UNITS key NONLINEAR The output will read in millivolts for the thermocouple inputs and in Ohms for RTD inputs When configured for NON LINEAR you can only select MV or Q through the UNITS key LATCHING This selects latching method of open input OFF Critical status message will automatically clear when sensor is fixed ON Critical status message appears until verify that sensor wires fixed WRITE PROTECT This selects secure configuration changes OFF Configur
281. will Read Result ANALOG TRANSMITTERS For Digital Transmitters see step 4 1 DE READ A ID NON VOL ENTER YES TAG NO TRIPS SECURED TAG NO The database is loaded into the SFC at this point SFC WORKING for analog transmitters Then The top line identifies the type of pressure SFI Type TAG No transmitter and the Output form for example XXXXXXXX LIN DP Linear output Differential Pressure Notice the line under the first character of the ID on the bottom line This is the cursor and indicates where you can key in an ID Alpha numeric entries of up to 8 characters are permitted If the ST 3000 was not given an ID the line will be blank with a cursor Table continued on next page 50 STS103 Operating Guide 4 99 4 3 Set up Continued Keying in the ID and uploading the database continued Table 4 1 Keying in the ST 3000 ID and Uploading the Database Procedure continued Step Press SFC Display will Read Result ANALOG TRANSMITTERS continued 2 NUM SFI Type TAG No An indicates that the prompt is looking for an woy alpha character The letters are located in the e upper right corner of the keys until you SFI Type TAG No A W indicates the prompt is looking for a number SES The numbers are on the yellow keys Press NUM ALPHA key to change from Alpha to Numeric mode or vice versa One of
282. y to confirm proper operation Adjust the output if required see Output Signal Calibration Procedure Exit Output Mode 20336 4 99 STS103 Operating Guide 175 176 STS103 Operating Guide 4 99 Section 7 SMV 3000 Multivariable Transmitter 7 1 Overview Introduction This section contains all the information you will need to know in order to wire set up configure operate calibrate and troubleshoot the SMV 3000 Multivariable Transmitter using the STS103 Smart Field Communicator Refer to the SMV 3000 User s Manual 34 SM 25 02 for transmitter installation and additional operating information Make sure you have become familiar with the STS103 operations that are more or less the same for every transmitter This section gives you the keystrokes and displays that are specific for SFC communications with the SMV 3000 Multivariable Transmitter IMPORTANT If your SMV contains Release 250 firmware or greater and you are using the SMV 3000 for flow measurement with dynamic compensation you must use the SCT 3000 software Release 150 or greater instead of an SFC to configure the transmitter The SFC does not support the advanced configuration parameters for the SMV 3000 dynamic compensation flow equations Refer to the SMV 3000 User s Manual document 34 SM 25 02 for more details and also follow the SCT 3000 on line help and on line documentation to configure the transmitter s database What s in this s
283. yet been configured PV4 CONFIG ALG SFC Prompt Selections PV4 CONFIG ALG Idl Gas Vol Flow Idl Gas Vol Flow Idi Gas Mass Flow Cmp SupHStm MFlo Equation type PV4 CONFIG ALG No Compensation No Compensation Full Compensatn Equation compensation AP Comp Only PT Comp Only Absolute pressure PV2 PV4 AP COMP ON failsafe interaction FAILSAFE OFF OFFd PV4 AP Comp Continued on next page 204 STS103 Operating Guide 4 99 7 3 Configuration Continued Calculated flow rate PV4 simple equation configuration continued PV4 CONFIG ALG SFC Prompt Selections Process temperature PV3 4 PT COMP ON failsafe interaction FAILSAFE OFF OFFA PV4 PT Comp Engineering Units Mode PV4 UNITSMODE Volume Flow4 for Measurement Display VOLUME FLOW Mass Flow CUSTOM CUSTOM Units PV4 CUSTOM UNIT Up to eight character XXXXXXXX units tag If equation type is Cmp SupHStm MFlo Full Compensation is only valid selection Setting selections for Table 7 13 gives the steps for setting the PV4 equation selections that PV4 equation define the flow calculation to represent the PV4 output Note that values used in this procedure are for reference purposes only Table 7 13 Setting selections for PV4 Equation Definition Step Press Key Read Display or Action Description 1 B TT TT
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