FUJI Motor FSH/FSW/FLY Manual
Contents
1. I BARE PY PRECAUTION viec II CAUTION ONINSTAELATION LOCATION deve eu eai ea dede aa edo ive e exe eher ceto IV I PRODUCT OOUTEUDND rendra d eimi i 1 RE RE 1 PL Measurement DEDDICIDIG oot 1 delivered S 3 1 5 Checking fy pe and SDOCLHCQUOTIS puta stie Ced uta FR neus bre FORM 4 LA INames or cach s me ue to Mol eS DF ERA S UEM UU ES 7 2 SELECTING INSTALLATION LOCATION e Too a E EE 0O duode eoa NEU cO E Eee 9 AUIS MMIC e T 9 MN NE OO S NOUO 10 22 1 Letgthi or strare he SECON Ol PIP o esee teo ti te hee ee ae ae ee m 11 2 4 NTOUTILITIP ee 12 22S VIOUS THO SENS 13 3 INSTALLATION AND BEFORE START OF OPERATION cccccsssssssssscssssssssssssccssssssssscccsssssssssssscssssssssseees 14 ome ON 72 1893 A EM UM UM UE 14 35 2 Insta2. C Condition 2 is the same as the case of DO1 output in 1 above Consequently the settable range of the total rate is found to be as follows based on the result of calculations B and 10 L lt Total rate Operation When starting integration with total rate set to 100 and pulse width 1 set to 100 msec example Display Display TOTAL MODE TOTAL MODE TOTAL TOTAL STOP Select TOTAL TOTAL RATE 0 000 m3 Enter numeric value enter mode enter TOTAL RATE ENTER 1 ENTER gt ENTER o o ENTER 100 using ten keys and press ENTER 100 000 m3 A t v Select PULSE WIDTH 1 PULSE WIDTH 1 50 msec Enter select enter mode select 100 and PULSE WIDTH 1 ENTER or ENTER gt gt NR LA ESC Return to TOTAL MODE TOTAL MODE TOTAL STOP Enter select enter mode select RESET TOTAL MODE ENTER or ENTER gt gt E la OAE Display the measurement reflecting the ESC setting Measurement display screen 64 INF TN1FSH E 4 4 9 3 Total preset Description Total preset value can be set as follows Reset the total mode and the preset value is restored e F Total preset Total preset value in forward direction e Total preset Total preset value in reverse direction Setting range 0 to 9999999999 999 Note Set the total preset value in a state where the total mode is set to stop Total valu
3. 123 FINES CROWD IM T OO o 125 ADS MAY Se atin OI ERE 126 TA PA n a S ate 27 TM ISI mU DR 128 Pulse Doppler Measurement cass denned atna o Con 129 7 14 1 Detailed setting optional TUNCUON nate a value onbowemoaaneesdseonssonsuasendasdebeweswaaedsadaduebeentans 129 7 14 2 Flow velocity profile optional 131 or Sat CLE tes me 133 PAS Lime Drbrerence Meas reme Mtoto omo ted a PELA t deep 135 1 15 I Detailed Setin optional MICHON fedem petri bete meshes 135 T 35 2 Re cetyedipmal optOnal MACION hossa reste don dba redes ied tero 137 715 4 PEL aL OM o OI osos mono 138 M EET E CODO 140 TREE EN MORE D 142 HTC stad 142 78 Y si id Dio BJ 143 6 94 143 S I S PECIFIC ALI ONS 143 Messa OM MOUNT AU O
4. W ENTER RE RESET and press ENTER ESC Display the measurement reflecting the n setting Measurement display screen 3 7 Zero adjustment Description Close the valves on upper and lower streams of the flowmeter to stop the flow completely and then perform zero adjustment Note 1 If no valves are provided or the flow cannot be stopped select Clear when performing Zero adjustment Note that zero point may deviate slightly in this case Note 2 ZERO Press Zero to perform zero adjustment in a state where the flow is stopped completely CLEAR Press Clear to perform zero adjustment in a state where the flow cannot be stopped Operation example When performing zero adjustment in still state Display FUNC ZERO Display zero adjustment ZERO ADU ET ENTER A v Enter select enter mode and select ZERO ZERO v ENTER While calibration is in progress elapsed time 1s ZERO ADJUSTMENT displayed in lower stage When calibration is successfully completed ZERO ZERO ADJUSTMENT is displayed When it is unsuccessfully completed ZERO CLEAR is displayed in lower stage Display the measurement reflecting the setting Measurement display screen CAUTION e If Clear is selected and executed at this time the zero adjustment value currently stored is cleared to Zero 98 INF TN1FSH E 4 SETTING PARAMETERS 4 1
5. j 4 Status information direction integration unit method 2 3 Error information HL information QT ie EX 7 Flow rate 0006 1 11 Number of decimal places 3 H 2 Time difference 1 Pulse Doppler method 2 Operation range H 2 Single range 0 Auto 2 range 1 Bi directional range 2 Bi directional auto 2 range 3 H 20 5 Status information information Riu information 1 Data type MDV Data type that represents positive negative numeric values with decimal point or is used as a leading character which is followed by a numeral ASCII with decimal point included in between in some cases H Hexadecimal 0 to 9 A to F ASCII data Decimal data in the case of numerals INF TN1FSH E 145 8 1 5 Error code table Number of bytes BCC ERROR 9 error BCC ERROR 9 characters FORMAT ERROR Format error FORMAT ERROR 12 characters MANAGE ERROR Management error MANAGE ERROR 12 characters REQUEST ERROR Request error REQUEST ERROR 13 characters 8 1 6 Cable connection specifications RS 232C Control board terminal block PC 15 m or shorter Flowmeter 146 INF TN1FSH E 8 2 Specifications Operational specifications System configuration The system is composed of one two detectors Model FSW and one Flow transm
6. eda nee ae 78 ene Ne Men OT 79 Da EE eee a ea Ri 80 dos Ie DOC anne E A ec 81 Z4 KAO sys CH TAMING oboe 5 hs 82 25 20 Stalls Or Me ast CMe 83 dod CUM wh eo sens po 83 1120 86 20 3 setine patate LOLS iudicet ed tarts 90 1 4 20 4 Contrmattonmbt software ud cerent Est eue a ua acaba 90 MAINEE NANCE AND INSPEC LION ves ve ecce a adeo ei deeds 91 ENTORNO E TET E T NU 91 3 2 Periodic nade d 91 91 52 2Cahbratme nt durs 91 Callbtatine temperature Sensor CIEGO rtu pesto i bes 91 Ai Measuring Trsuldtton Tesis upon 92 2 9 TUS as 93 Te ese TE E A VTE E EOT T 94 nE M iB eie TE 95 TROUBE
7. Be sure to turn off the power before opening the cover of the flow transmitter The power terminals N L and the output terminals Iout SERIAL DOI to DO3 are provided with an arrester as standard To measure the insulation resistance between the power terminal and the grounding terminal remove the earth plate of the power terminal block as shown by the following figure To measure the insulation resistance between each output terminal described above and the grounding terminal remove the ground wire of the measurement board terminal block and the control board terminal block The insulation resistance performance of the equipment is 100 500 V Be sure to return the earth plates and ground wire in position after the measurement is completed Measurement method 1 Between power terminal and grounding terminal In the case of AC power Between L N batch and outer earth terminal In the case of DC power Between batch and outer earth terminal 2 Between output terminal and grounding terminal Between Iout batch and outer earth terminal Between SERIAL batch and outer earth terminal Between batch and outer earth terminal Between batch and outer earth terminal Between batch and outer earth terminal Refer to 3 3 5 for the outer earth terminal Control board terminal block Power supply board terminal block 14 5 6 7 8
8. FULL SCALE 2 112 64 m h FULL SCALE 2 100 00 m h HYSTERESIS 10 00 HYSTERESIS 5 00 Measurement display screen 4 4 4 2 Output limit Description The upper limit and the lower limit of analog output can be set within the range from 0 8 mA to 23 2 mA 20 to 120 Analog output Upper limit Lower limit Flow rate 0 100 120 EE 0 8mA Operation Lower limit 21096 2 4 mA upper limit 110 21 6 mA example Display RANGE Display RANGE UNIT RANGE UNIT m h A or V Select OUTPUT LIMIT Lo OUTPUT LIMIT Lo 2096 o Enter numeric value enter mode enter 10 OUTPUT LIMIT Lo using ten keys and press ENTER 10 v Select OUTPUT LIMIT Hi OUTPUT LIMIT Hi 12096 o Enter numeric value enter mode enter OUTPUT LIMIT Hi 110 using ten keys and press ENTER 110 ESC Display the measurement reflecting the pomme setting Measurement display screen INF TN1FSH E 55 4 4 4 3 How to set analog output at error BURNOUT Description Output burnout is a function of setting the analog output to specific values shown below when the measurement status becomes abnormal Set the duration until burnout processing is performed with the burnout timer Setting contents e Hold Holds measurement value e Upper Sets the analog output to the upper limit of the output limit e Lower Sets the analog output to the lower limit of the output limit e
9. a 110 6 34 Measures against hardware Tallufe eet eite redu e dubbio 110 LOADER SOFTWARE C Sorani Eoia uks opao 111 MOY PUG this SO 111 111 DEMIS CC 111 VS NE Ct 111 3 2 Memory Capacity Nt O 111 DIETI CO 111 JE MO c r 111 Tb T stalliip ot SoP Wb edendo a eil aks dae A data inl eden ee s te 112 TS Wat uly PC a 115 Vl INF TN1FSH E ToS bos COPIE HG di LORS oe LI Lr A een tb ce se E 116 FRU MA ye D c 117 DES es T E 117 N an E edicere 117 E 118 E RII CUE CIOL 118 Teg TS PANTS T TET 119 Te RANO SE I 121 CIS
10. and the loader is terminated without saving the setting 7 18 Uninstalling of Software Select Addition and Deletion of Application from Control Panel of Windows and click Change and Deletion to uninstall the software 142 INF TN1FSH E 8 APPENDIX 8 1 External communication specifications 8 1 1 Communication specifications Item Specifications Communication interface RS 485 Communication distance 1 Communication method Communication procedure Communication speed Communication mode Start bit 1 bit Data Hexadecimal ASCII representation 8 bits Parity None Odd Even Stop bit 1 2 bits BCC Station Data format 8 1 2 Message configuration 8 1 2 1 Receiving Measurement U Polling system CR 0Dh End mark LF 8 1 2 2 Response STX 02h station No SLV 01 to 31 Mode type Measurement system P Function code F_CD Refer to the function code table Daa Data Refer to the function code table CR 0Dh End mark LF INF TN1FSH E 143 8 1 2 3 Error response Modeltype 2 Measurement U Polling system P Function code F CD End mark Receive format F_CD B BCC ERR BCC Response format Error response format 8 1 3 Error check EX OR even horizontal parity from STX side of each byte excluding STX BCC CR and LF Operation is performed by bytes
11. gt e Perform analog output calibration analog output do not coincide The output dies not Hardware failure Contact us change even if analog output adjustment is performed 106 INF TN1FSH E 6 3 Checking received waveform The unit has high voltage part Be sure to ask our service personnel for the work described below 6 3 1 Method by oscilloscope Open the cover and connect an oscilloscope to the check pin on the printed board according to the following figure The unit has high voltage part Be careful not to touch the parts other than those specified below en TK a E SIG ADO TXS a CH3 or EXT TRIG Oscilloscope INF TN1FSH E 107 6 3 2 Checking signal waveform TRANSIT TIME Monitor signals and check the state of signals Window and signals 5OHS s 20 CH i CHI 1 V div 5 V div TRIG CH30r EXT TRIG E DGE En 500 mV to 4V RWIN CH1 ADN Noise level deb d i sean ERES Transmission interferance wave peer eet en Generated synchronized with trigger Point 1 Check that signals exist within the HIGH zone window of RWIN of CH2 If it is found to deviate check piping parameters 2 The amplitude of signals is about 2 4 Vpp 1 When it is smaller than 2 4 Vpp Receive sensitivity is low Take measures referring to the section that The reading does no
12. ENGLISH METRIC 1648 Fig 30 Maintenance screen 1 Analog output There are two options 4 to 20 mA adjustment and confirmation Select one by pressing the option button e Adjustment 1 Select either 4 mA or 20 mA read current setting at right column by clicking the READ button once Then set value 1 to 65535 at right column and click the Setting button and then click the Save button When setting 15 completed setting value is redisplayed at right column Click READ button and selected setting values of 4 mA and 20 mA appear on the right column e Confirmation 2 Selecting a value in the range from 20 to 120 and click the Setting button when setting 1s completed and setting value is redisplayed Click the READ button and the setting value appears 2 DO output Select one from the following option buttons output confirmation DO2 output confirmation and output confirmation DO output confirmation 1 Set DO Output Confirmation check box to ON Then select either ON or OFF from setting combo box and click the Setting button to change the selected value of DOI output Click the READ button and the setting value appears 140 INF TN1FSH E e DO2 output confirmation 2 Set DO2 Output Confirmation check box to ON Then select either ON or OFF from setting combo box and click the Setting button to change to the selected value of DO2 ou
13. 1 Select sensor type by the model of the sensor to be used in combination 5 digits 2 In sensor constant set the sensor constant calculated based on actual current calibration performed as part of the delivery test at the factory Set the sensor constant for each of the sensor units mounted to the pipe The sensor constant appears as the DF value marked on the nameplate of the sensor unit The setting need not be changed normally Make the setting when the detector or the flow transmitter 1s replaced It appears as the DF P value on the nameplate of the sensor unit if the sensor is mounted on a plastic pipe It appears as the DF M value on the nameplate of the sensor unit if the sensor is mounted on a metal pipe Pipe material Plastic Pipe PVC FRP PEEK PVDF Acrylic Others Metal Pipe Carbon steal Stainless steel Copper Cast iron Aluminium Ductile iron Refer to 1 3 Checking type and specifications for sensor unit 3 The sensor constant value is for the sensors in the following figure Converter N 7 N 7 NA N a Direction of flow Sensor 4 Sensor constant line 1 F Sensor 1 Sensor constant line 1 R Sensor 2 Sensor constant line 2 F Sensor 3 Sensor constant line 2 R Sensor 4 4 Perform sensor constant only when the sensor type is FSW12 FSW21 FSW40 or FSW50 INF TN1FSH E 19 Operation example When Z method as sensor mount FSW12 as sensor type 102 for se
14. 88 INF TN1FSH E Operation example 65 V ENTER or ENTER V ENTER A or L ENTER v ENTER 3 5 0 0 ENTER or V ENTER A Y ENTER or V ENTERJ 6 5 ENTER ESCJ ENTER A or ENTER A or V ENTERJ 6 5 ENTER INF TN1FSH E Display VERSION INF Select PULSE DOPPLER Enter select enter mode select SETTING and press ENTER Select REPETITION FREQ Enter select enter mode select SETTING and press ENTER Select REPETITION FREQ Enter numeric value enter mode enter 3500 using ten keys and press ENTER Select LINE SELECT Enter select enter mode select LINE 1 F and press ENTER Select 1 SUCCESS RATE Enter numeric value enter mode enter 65 using ten keys and press ENTER Press ESC enter select enter mode select LINE 1 R and press ENTER Select 1 R SUCCESS RATE Enter numeric value enter mode enter 65 using ten keys and press ENTER Display the measurement reflecting the setting 89 When setting repetition frequency to 3500Hz manually and the success rate of line 1 F and line 1 R to Display VERSION INF SKIP PULSE DOPPLER SKIP WEDGE S V AUTO REPETITION FREQ AUTO REPETITION FREQ MANUAL REPETITION FREQ 2000 Hz REPETITION FREQ 3500 Hz LINE SELECT LINE 1 F
15. Response time Pulse Doppler method 0 2 sec depending on pipe diameter and measuring condition Transit time method 0 5 sec Power consumption 20 W or less Short term thermal stability 140 C 30 min FSWS12 100 C 30 min FSWS21 FSWS40 FSWS50 Functional specifications Analog output 4 to 20 mAdc 1 point Max load resistance 1 k ohm Digital output total total alarm acting range flow switch or total switch arbitrarily selectable Mechanical relay contact 1 point with socket replaceable Normally closed open selectable Capacity 240 Vac 30 Vdc 1A Total pulse less than 1 p s Pulse width 50 100 or 200 ms selectable Transistor open collector 2 points Capacity 30 Vdc 0 1A Normally off on selectable Total pulse less than 1000 p s Pulse width 0 5 1 2 5 10 20 50 100 or 200 ms selectable Communication interface RS 232C equivalent RS 485 selectable Number of connectable units one RS 232C up to 31 RS 485 Baud rate 9600 19200 38400 bps selectable Parity none odd even selectable Stop bit 1 or 2 bits selectable Distance up to 15 m RS 232C up to 1k m RS 485 Data velocity flow rate total total status standard velocity profile option Display device Graphic LCD number of pixels 240 x 64 with back light Display language Japanese English French German or Spanish selectable Velocity Flow rate display Display of velocity and or flow rate with flow direction Data up
16. hin Sends the setting of the selected item check box set to ON reflecting response value on the setting Note that only when STOP mode is selected the setting of other items is reflected READ Reads the setting of the selected item check box set to ON reflecting the response value together with the unit on the setting hzupe Reflects the setting sent by pressing the Setting button on the flowmeter flow transmitter Check ON OFF Set the check box to ON to select all the items to set all the check boxes to ON Set the check box to OFF O to release the selection of all the items to set all the check boxes to OFF INF TN1FSH E 123 Table 11 lt Total Setting gt Item Content TOTAL MODE Select from TOTAL STOP TOTAL RUN TOTAL RESET TOTAL UNIT Select from mL L m mBBL BBL and kBBL ft kgal gal mBBL BBL kBBL and Of which unit is in case of inch system OUTPUT BURNOUT Select from NOT USED and HOLD BURNOUT TIMER Enter in the range of 0 to 900 sec PULSE WIDTH 1 Select from 50 msec 100 msec and 200msec PULSE WIDTH 2 Select from 0 5 msec 1 msec 2 msec 5 msec 10 msec 20 msec 50 msec 100 msec 200 msec Note When unit is changed each unit indication of constant F total preset F total switch R total preset R total switch are changed if Read 15 executed No
17. amp AUTO L 147 7 5 kHz RECEPTIVE WAIT TIME e AUTO MANUAL JT REPETITION FREQUENCY GAIN G AUTO MANUAL CHANNEL AUTO STARTGAN 15 END GAIN 65 T REFERENCE COUNT Judge LINE 1 LINE 1 R LINE2 F SUCCESSRATE 70 POWER LINE2 R 4 DEVIATION FSHIOPA PULSE DOPPLER ENGLISH METRIC To select an item to be set or read set the relevant check box to ON the relevant check box to OFF 0 while setting ON with check box of setting lateral line lines INF TN1FSH E Fig 23 Detail setting screen transmitter Not to select or to reset the selection set As to judgment it can obtain with setting success ratio set power and deviation However when read it disregard selection of multiple lateral Sends the setting of the selected item check box set to ON reflecting the response value on the setting Reads the setting of the selected item check box set to ON M reflecting the response value on the setting Reflects the setting sent by pressing the Setting button on the flowmeter flow Set the check box to ON to select all the items to set all the check boxes to ON Set the check box to OFF O to release the selection of all the items to set all the check boxes to OFF 129 Table 16 lt Pulse and
18. 1 F POWER 4 00 E 1 F SUCCESS RATE 70 00 1 F SUCCESS RATE 65 00 1 R POWER 4 00 E 1 R SUCCESS RATE 70 00 1 R SUCCESS RATE 65 00 Measurement display screen 4 4 20 3 Initializing setting parameters Description Setting parameters stored in a memory can be initialized as follows Setting contents e NOT INITIALIZE Does not initialize the parameter e FACTORY SETTING Initializes those other than the adjusted values such as current output sensor constant etc e PARAMETER SAVE Overwrite the initial data with the current setting parameter N CAUTION e This parameter is intended for our service personnel e Do not attempt to initialize the setting parameters Otherwise measurement is disabled Operation When setting parameters to factory set values example Key operation Description Display DETAIL Display VERSION INF VERSIS a or 4 Select SETTING DATA SETTING DATA NOT INITIALIZE Enter select enter mode and then select SETTING DATA ENTER or ENTER FACTORY SETTING FACTORY SETTING and the converter is reset Display the measurement Measurement display screen 4 4 20 4 Confirmation of software version Description The software version of the measurement board and control board can be displayed Operation The software version can be checked as follows example Display Display VERSION INF VERSION INF DETAIL SKIP Enter
19. To install in this folder click Mest install to different new or existing folder enter below ar click Browse Folder ox Program Files Duasonics ENG Browse can install the software on the following drives Disk Siz 1261 B48 7 ME E Disk Cost Cancel Previous Volume Fig 6 lt Select installation folder screen gt 112 INF TN1FSH E 4 Screen is displayed to confirm installation Click the Next button to execute the installation Click the Previous button to return to the previous screen Click the Cancel button to cancel the installation Duosonics ENG Contirm Installation Fig 7 lt Installation confirmation screen gt 5 Execution of Installation Duosonics ENG Installing Duosonics_ENG Previous Fig 8 lt Installing screen gt INF TN1FSH E 113 6 The Installation Complete screen is displayed Click the Close button to exit the installation screen de Duosonics ENG Installation Complete Previous Fig 9 lt Installation complete screen gt 7 After installation the start menu and the application Duosonics ENG that has been installed in the disktop are created 114 INF TN1FSH E 7 5 Startup Method Start Duosonics ENG from the start menu to start up the loader Fig 10 lt Start screen gt Information related to system name measuring method language and unit can
20. UNIT amp LANGUAGE COMMUNICATION MAINTENANCE MEASURE METHOD SENSOR SPACING MEASUREMENT MODE AO DEFINITION SENSOR TYPE SENSOR CONSTANT TRANS VOLTAGE BACKLIGHT KEY LOCK SYSTEM NAME SKIP SETTING SKIP SETTING SKIP AO 1 DO 1 DO 2 DO 3 WEDGE TEMP TEST MODE HYBRID TRANSIT TIME Z METHOD V METHOD 1 PATH 2 PATH LINE 1 LINE 2 AVERAGE FLW11 FLW41 FLW12 FLD12 FLD22 FLW32 FLW50 FLW51 FSW12 FSW 1 FSW40 FSW50 SKIP SETTING 4 Note Displayed when 2 PATH is selected for MEASUREMENT MODE Note Displayed when 2 PATH is selected for MEASUREMENT MODE UNIT LANGUAGE COM SPEED PARITY STOP BIT SERIAL METHOD STATION NO AO 1 ADJUST AO 1 CHECK DO 1 CHECK DO 2 CHECK DO 3 CHECK ADJUST TEMP CHECK TEMP NOT USE SETTING METER INCH JAPANESE ENGLISH GERMAN FRENCH SPANISH 9600 bps 19200 bps 38400 bps NONE EVEN ODD 1 BIT 2 BITS RS232C RS485 4mA 20 mA OFF ON OFF ON OFF ON CLEAR ADJUST INPUT DATA TRACKING TIME Note In the case of types FLW11 to FLW51 displayed when TIME DIFFERENCE is selected for MEASURE METHOD LINE 1 F METAL PIPE LINE 1 R METAL PIPE LINE 1 F PLASTIC PIPE LINE 1 R PLASTIC PIPE LINE 1 P LINE 2 F METAL PIPE LINE 2 R METAL PIPE LINE 2 F PLASTIC PIPE LINE 2 R PLASTIC PIPE LINE 2 P PASSWORD 160 Note Displayed when 2
21. VERSION INFO CONTROL BOARD MEASUREMENT BOARD READ FSH1MMITOP Save 2005 05 31 16 33 43 Reading of a detailed setup was completed FSH10PA PULSE DOPPLER ENGLISH METRIC 16 33 2 Fig 21 lt System setting screen gt To select an item to be set or read set the relevant check box to ON Not to select to reset the selection set the relevant check box to OFF However system name and version information can only be read When changing unit restart the loader to reflect the unit change Pia M Sends the setting of the selected item check box set to ON reflecting response value on the setting A Reads the setting of the selected item check box set to ON reflecting the response value on the setting SAVE m Reflects the setting sent by pressing the Setting button on the flowmeter flow transmitter Check ON OFF Set the check box to ON to select all the items to set all the check boxes ON II Set the check box to OFF 0 to release the selection of all the items to set all the check boxes to OFF Table 14 System Setting Language is available in JAPANESE ENGLISH GERMAN FRENCH and SPANISH INF TN1FSH E 127 7 13 Measurement Click the MEASURE button on the Menu screen and the following screen appears MEASURE loj x Moment Value TOTAL PULSE C TOTAL 1 FLOW RATE FLOW
22. value 60 80 20 40 Vpp 80 Vpp 160 Vpp Key lock Off Password Numeral 4 digits 0000 Transmission 128 count control control Saturation 32 level Measurement Method 2 method balance Transmission Burst 3 Burst 1 Burst 2 Burst 3 Burst 4 pattern Burst 5 Chirp 4 Chirp 8 AGC gain Auto Auto Manual Signal peak 3071 2048 3071 4096 5120 Trans wait 1 to 30 msec 5 msec time msec Wedge S V Auto Pipe S V Auto Lining S V Auto Fluid S V Auto Transmission Auto frequency pulse No frequency Receipt wait Auto time frequency count No of channels Auto Measurement F radius range Phase angle Normal 2 shift Gain Auto it Power 4 008 0 50 Success rate 70 00 Line No a ON Measurement mode 8 System Ne Sensor On Off 4 digit numeral 8 16 32 64 128 256 BO C S e lt Auto Manual Auto Manual Method 1 Method 2 Method 3 Auto Manual Auto Manual Auto Manual Auto Manual Auto Manual 0 1 2 4 8 16 32 64 gt c oO gt N C N e gt oO oO E gt N e S be E e e oO D ax Auto Manual Auto Manual Auto Manual Select Auto Manual F radius N radius Diameter Normal 1 Normal 2 Positive Negative Auto Manual 44 INF TN1FSH E 4 4 Setting parameters Th
23. 7 FORWAR C BEVJVERS C BEVERS RATE VELOCITY FORWARD EVERSE FORWARD REVERSE RAS Normal Scale START Stop 1151775 Y Scale Max 1500 Min 1000 Save As emin XScale Cycle sec Point 50 CSV L min 2005 05 31 16 18 12 It is display acquisition data FSHO6TA PULSE DOPPLER ENGLISH METRIC 16 18 2 Fig 22 lt Measure screen gt Select one from instantaneous value total pulse total value or flow rate first Next in case of moment value select either flow rate or flow velocity In case of total pulse select either normal direction or reverse direction In case of total value select either normal direction or reverse direction In case of trend the read measurement value and RAS columns are updated in specified cycles Also it is displayed in trend X axial displays collection time The oldest is deleted and time is shifted to make the latest value to be seen when specified points are reached The vertical axial it displays with Y scale specifed The grid line represents Pulse Doppler in blue and transit time difference in green Start vcssissessoosssorsssovsevness Starts measuring Stop e Stops measuring Save as CSV Saves the measurement result in a file in CSV format Click the button and you are prompted to enter the name of a file to which the data is to be saved Specify the destination to save
24. SENSOR CALIBRATION v v HYBRID IV LINE1F METAL 100 00 SENSOR MOUNT 2 METHOD Iv LINE1R METAL 100 00 LINE2F METAL 100 00 MEASURE MODE tells IV LINE2R METAD 100 00 pg Iv AO DEFINITION LINE1 I LINETF PLASTIO mm 99 77 7 TRANSMIT VOLTAGE 80 Vbp 1 RI PLASTIC 100 12 LINE2F PLASTIC 10000 pg SENSOR LINE2RCPLASTIC 100 00 sg LINETP 100 00 SENSOR TYPE FSW12 V LINE2P 100 00 2005 08 20 15 35 45 Reading of a detailed setup was completed FSH03AA HYBRID ENGLISH METRIC 15 36 Z Fig 16 Establish setting screen To select an item to be set or read set the relevant check box to ON Not to select to reset the selection set the relevant check box to OFF 0 If Other is selected as pipe material pipe sound velocity becomes valid If Other is selected as fluid type fluid sound velocity and dynamic viscous coefficient become valid Seting Sends the setting of the selected item check box set to ON reflecting response value on the setting Reads the setting of the selected item check box set to ON M reflecting the response value on the setting oy eae euis Reflects the setting sent by pressing the Setting button on the flow transmitter Check ON OFF Set the check box to ON to select all the item
25. Temperature sensor Resistor Note Use a resistor having the accuracy of 0 1 Operation When performing calibration of resistance of wedge temperature measurement example Description Display SYSTEM UNIT amp LANGUAGE SYSTEM IF A or V Select MAINTENANCE MAINTENANCE SKIP Enter select enter mode select WEDGE ADJUST TEMP ENTER A W ENTER TEMP and press ENTER ENTER Select ADJUST and press ENTER SET 1000 Set the resistor to 1000 ENTER Set the resistor to 100 Q and press ENTER ADJUSTING 1009 Elapsed time is displayed on the lower row EHENNN while adjustment is in progress On completion of 100 adjustment ADJUSTING 1000 screen prompting you to perform 140 adjustment appears Set the resistor to 140Q ENTER Set the resistor to 140 Q and press ENTER ADJUSTING 1400 Elapsed time is displayed on the lower row SERRE while adjustment 15 in progress ADJUST is displayed if the adjustment 15 successfully completed and CLEAR 15 ADJUST displayed when the adjustment 15 unsuccessfully completed Display the measurement reflecting the setting Measurement display screen INF TN1FSH E 4 4 16 4 Checking temperature sensor Description Check the wedge temperature measurement as follows Connect a resistor to temperature sensor terminals as shown by the figure in 4 4 16 3 When connecting 100 resistor and checking that the wedge tempe
26. When Hybrid is selected as measurement method and 1 path is selected as measurement mode Description Display SYSTEM or V ENTER A or ENTER v ENTER A or W ENTER v ENTER A or W ENTER v select MEAS METHOD Enter select enter mode select HYBRID and press ENTER Select SENSOR MOUNT Enter select enter mode select Z METHOD and press ENTER Select SENSOR TYPE Enter select enter mode select FSW12 and press ENTER Select SENSOR CONSTANT Enter select enter mode select SETTING and press ENTER ENTER A or ENTER ENTER 1 0 2 ENTER V ENTER 1 0 1 ENTER Enter numeric value enter mode enter 102 using ten keys and press ENTER Select LINE 1 R Enter numeric value enter mode enter 101 using ten keys and press ENTER ESC Return to SENSOR CONSTANT v ENTER A or W ENTER Select TRANS VOLTAGE Enter select enter mode select 160 and press ENTER Display the measurement reflecting the setting Measurement display screen ESC 48 INF TN1FSH E 4 4 2 Pipe specifications Description Pipe data required for measurement can be set as follows The sensor spacing 1s automatically calculated CAUTION Be sure to make the following parameter setting before mounting the sensors to the pipe Mount the sensors obse
27. 2 Temporarily place the mounting jig option on the remove it out of the frame frame Mounting jig Let the screws run through INF TN1FSH E 23 3 Fasten the mounting jig to the frame using the 6 Let the shaft run through the mounting jig on the butterfly nut and the screw opposite side Butterfly nut 7 Place the frame between the pipes 4 Mount the mounting jig on the opposite side of the frame 8 Let the shaft run through the holes at the bottom of 5 Let the shaft run through the mounting jig E Note Pay attention when letting the shaft run through the jig so that the scale unit of the frame coincides with that of the shaft Select the same scale mm inch Mounting jig 24 INF TN1FSH E 9 Wrap the stainless belt around the frame end 12 Fasten both ends of the frame with the stainless belt Frame end 13 Remove the mounting jig 10 Lift the screw of the stainless belt to let the tip of the Remove the shaft first and then remove the belt run through it mounting jig 11 Fasten the screw wrapping the stainless belt around the frame end INF TN1FSH E 25 2 How to mount the frame not using a jig Gage paper is required to mount the frame by this method See 8 7 Making gauge paper for details 2 1 How to determine the mounting position 1 Align the edge of the gauge paper to the place 100mm from of the
28. CET 148 INF TN1FSH E 8 3 Outline diagram Flow transmitter Type FSH lt With waterproof gland gt INF TN1FSH E 49 lt With union gland gt 150 INF TN1FSH E Detecter Type FSWS12 21 BNC connector Sensor unit Absorber unit with temp sensor Temp sensor Cursor OO Qo Y e eC Sensor unit without temp sensor PIPE SIZE MASS APPROX FSWS12 040 to 2200 1 7 FSWS21 Detecter Type FSWS40 BNC connector Sonsorunit Temp sensor with temp sensor M oy gt MX e a AN Sensor unit without temp sensor 2100 to 9400 Absorber unit INF TN1FSH E 151 1 9 85 Detecter Type FSWS50 Sensor unit BNC Connector with temp sensor Absorber unit Temp sensor Sensor unit without temp sensor 152 INF TN1FSH E signal cable Type FLY6 signal cable Type FLY 7 621 5 Sara Im Connector Li 15 BNC Connector E 07 3 06 9 E E l iN oun 9 46 6 L According to the designation of
29. Display range unit RANGE UNIT F RANGE play rang Enter select enter mode select m h and RANGE UNIT ENTER Or ENTER gt gt ENTER 4 W ENTER S NIE M v Select RANGE TYPE RANGE TYPE SINGLE Enter select enter mode select 1 RANGE TYPE ENTER or ENTER gt directional range and press ENTER BI DIR Select FULL SCALE 1 FULL SCALE 1 56 32 m h Enter numeric value enter mode enter 100 FULL SCALE 1 ENTER 1 ENTER gt D o EA using ten keys and press ENTER 100 0 m h Select FULL SCALE 2 FULL SCALE 2 112 64 m h Enter numeric value enter mode enter FULL SCALE 2 ENTER 1 ENTER gt 00 _100 using ten keys and press ENTER 100 m h Select RANGE HYS RANGE HYS 10 00 Enter numeric value enter mode enter 5 RANGE HYS ENTER 5 ENTER gt using ten keys and press ENTER 5 00 ENTER 1 o ENTER ENTER 0 ENTER ENTER A or W ENTER v INF TN1FSH E Select OUTPUT LIMIT Lo OUTPUT LIMIT Lo 20 Enter numeric value enter mode enter 10 OUTPUT LIMIT Lo using ten keys and press ENTER 10 Select OUTPUT LIMIT Hi OUTPUT LIMIT Hi 120 Enter numeric value enter mode enter 110 OUTPUT LIMIT Hi using ten keys and press ENTER 110 Select OUTPUT BURNOUT OUTPUT BURNOUT HOLD Enter select enter mode select LOWER OUTPUT BURNOUT and press ENTER LOWER Select BURNOUT TIMER BURNOUT TIME
30. Measured Wind indow open andon Trigger Sensor send on l Sensor receive on 7 downstream side Sensor receive on 777 downstream side upstream side Sensor send on Ultrasonic upstream side signal SIG A Send signal Transmission interval Magnified view of A VIEW OLE Peak of received wave Send signal Signal Detection point 2V Transmission Trigger level Y voltage N A444 d lll V Send pattern Example burst 3 Note Make the setting following the description in 6 3 Checking received waveform CAUTION e This parameter is intended for our service personnel e Do not change the setting since the parameter affects the flow rate measurement If the setting is changed measurement may be disabled e Make the setting when the factory set value poses problems in flow rate measurement If no problem arises with the factory set value the setting is not necessary Enter data for each item see the following table according to the display Input method Function and range or menu Transmission The number of transmission of ultrasonic signals per flow rate signal output count Factory set value 128 Selection e 8 16 32 64 128 256 Trigger control Control method setting of the trigger level detection point of ultrasonic signals Factory set value AUTO Selection e AUTO e MANUAL Select the detection point according to the rate against the pea
31. relay contact Select one from the following 50 msec 100 msec 200 msec e Pulse width 2 Pulse width of DO1 transistor open collector Select one from the following 0 5 msec 1 0 msec 2 0 msec 5 0 msec 10 0 msec 20 0 msec 50 0 msec 100 0 msec 200 0 msec Note If the total rate 15 set to 0 the total pulse is not output Note Set the total pulse in a state where the total mode is in total stop state Limitation in setting The following limitations are imposed on the total pulse output Frequency range of pulse output DO output port ai fall acale flow Pulse width DOI DO2 1000 pulses sec or lower 0 5 msec 1 0 msec 2 0 msec 5 0 msec Transistor open collector 10 0 msec 20 0 msec 50 0 msec 100 0 msec 200 0 msec DO3 Relay contact 1 pulse sec or lower 50msec 100 msec 200 msec The maximum output frequency is limited depending on the pulse width setting Set the total rate and the pulse width so that the following conditions 1 and 2 are satisfied Otherwise proper operation may not be assured Condition 1 Elow rate span m s 1000 Hz and DO2 ondition 1 lt 1 Hz DO3 Total rate Fl p i 2 8 1000 ow rate span m s 2 Total rate m 2 Total pulse width ms Full scale 1 or full scale 2 whichever is larger in the case of auto 2 range bi directional range and bi directional auto 2 range setting The limitation of the maximum output frequ
32. 000 to 43 Same as output type Normal Reverse 16 40 ft s in terms of flow velocity 200 00 100 00 mL L km Mm mBBL BBL kBBL ft kgal gal mBBL BBL kBBL ACRF 8 Unit F Total SW 8 Unit R Total preset 8 Unit R Total SW 8 Unit TET Hold Burnout timer 10 sec Pulse width 1 0 5 1 0 2 0 5 0 10 0 20 0 50 0 100 0 200 0 Flow sw low In terms of flow velocity 0 00 m s 19 Unit 0 00 to 232 00 m s 0 00 to 0 00 ft s 104 98 ft s Flow sw high In terms of flow velocity 4 00 m s 19 Unit 0 00 to 32 00 m s 0 00 to 13 12 ft s 104 98 ft s Flow sw HYS Output DO 1 Not used Signal error F Total pulse R Total pulse F Total alarm R Total alarm F Total overflow R Total overflow Flow SW high Flow SW Low Full scale2 AO range over Pulse range over R Flow direction Device error Normal Reverse Normal Reverse same as DOI output type 0 00 m s 0 00 ft s 19 Unit System unit Spanish 5 calibration value value Settable range Settable value Hybrid Hybrid Transit time 55 Measurement 2 menus Depends on 1 Path 2 Path mode the detector specification AO definition 3 menus Depends on Average Line 1 Line 2 the detector specification Z Method V Method Z Method FSW12 FSW12 FSW21 FSW40 FSW50 Calibration 0 00 to 300 00 Calibrated
33. Description of display setting unit 4 1 1 Description of display Turn on the power and the following display appears The meaning of displayed numeric values and symbols are as follows Measurement screen Measurement method WOM RAS display 0 000 ms 0 m s 1992 Measurement display Direction of flow If the fluid is flowing in reverse direction or the upstream and the downstream of the sensor connection are reversed appears For decimal point setting of the measurement display refer to 4 4 7 Display setting 4 1 2 Description of keys Press the 2 key and functions displayed above the ten keys can be executed INF TN1FSH E 39 Table 1 Description of keys Used to enter numeric values for data and piping specifications Press this key to set the numeric data entered using keys or items selected by dialog In the case of entry by dialog the next item to be set appears Used to move the cursor when changing numeric values Press 4 to move the selection to left and press gt to move the selection to right Press 4 to go to the next menu and press W to go back to the previous menu Used to select the menu item displayed during dialog ESCAPE Cancellation Cancellation a ERI umm Used to cancel the dialog to cancel the dialog FUNCTION Press this key to execute the function displayed above each key ten keys Enter the outer per
34. Doppler Measurement Detailed Setting gt Item Content VELOCITY column in the range of numeric 1000 to 3700 m s PIPE SOUND VELOCITY With selection of AUTO MANUAL in case of MANUAL input right side column in the range of numeric 1000 to 3700 m s VELOCITY column in the range of numeric 1000 to 3700 m s VELOCITY column in the range of numeric 500 to 2500 m s FREQUENCY column in the range of numeric 0 1 to 5 MHz SAMPLING With selection of AUTO MANUAL in case of MANUAL select numeric at right FREQUENCY side column RECEPTIVE WAIT TIME With selection of AUTO MANUAL in case of MANUAL select numeric at right side column REPETITION With selection of AUTO MANUAL in case of MANUAL input right side FREQUENCY column in the range of numeric 100 to 8000 Hz CHANNEL With selection of AUTO MANUAL in case of MANUAL select from numeric 16 32 48 64 80 96 112 and 128 at right side column REFRENCE COUNT TRANSMIT PULSE NO MEASUREMENT Select from F RADIUS N RADIUS and DIAMETER RANGE PHASE ANGLE SHIFT GAIN With selection of AUTO MANUAL in case of MANUAL select numeric 0 to 18 in each column of START GAIN END GAIN Table 17 lt Pulse and Doppler Measurement Judgment Setting gt Item SUCCESS RATIO Enter in the range of 0 to 100 POWER Enter in the range of 0 00 to 100 00 DEVIATION Enter in the range of 0 00 to 1 00 130 INF TN1FSH E 7 14 2 Flow velocity profile optional function Click Flo
35. FSW12 FSW21 FSW40 and FSW50 SENSOR CALIB LINE 1F METAL Enter in the range from 0 00 to 300 00 SENSOR CONSTANT LINE IR METAL Enter in the range from 0 00 to 300 00 LINE 2F METAL Enter in the range from 0 00 to 300 00 120 INF TN1FSH E 7 8 Range Setting Click the RANGE button on the Menu screen and the following screen appears Duosonics Loader RANGE B x Communication Setting Version x MEASURE PULSE DOPPLER TRANSIT TIME MAINTENANCE SYSTEM ESTABLISH mw TOTAL STATUS DISPLAY End RANGE RANGE UNIT mis z OUTPUT LIMIT HIGH 120 pg OUTPUT LIMIT LOW 10 189 FULL SCALE 5 56 mis OUTPUT BURNOUT NOT USEL 042 imei BURNOUT TIMER READ FULL SCALE 42 mig RATE LIMIT 0 00 M HYSTERISIS 2 00 1 RATE LIMIT TIMER O Setting RANGE TYPE DAMPING CUT OFF Save r DAMPING 0 0 CUT OFF FLOW SWITCH CALIBRATION FLOW SW HIGH 0 00 ZERO 0 00 FLOW SW LOW 0 00 SPAN 100 00 1861 HYSTERISIS sg 2005 05 31 16 30 35 Reading of a detailed setup was completed FSH10PA PULSE DOPPLER ENGLISH METRIC 16 30 Z Fig 17 Range setting screen To select an item to be set or read set the relevant check box to ON Not to select to reset the selection set the relevant check box to
36. G d uci IM 61 2 4 9 Iie OP All OM disco UG 62 INF TN1FSH E ze REO CUORE SE DESIRED UE 62 4 4 92 Setting Total pulse otal tate pulse Width n Uere eS tie eens e ns Us esu en Eben des 63 Re De eRe en 6 65 2097 SM 66 4 4 9 5 Determining how to dispose of total at error ccc 67 AAs WO D 68 69 eoe a 71 AA TO T TENOR T2 AA TA vstemIanpudpe sele COD SR ansia RSS Con nsu s uU stantia RENE 73 4 4 15 Setting serial communication 232 5485 74 AA eNO Wine BAIE epos emet san ades trot cope a 75 4 4 16 1 Analog output adjustment and 75 44 16 2 STARTS 76 4 4 16 3 Calibrating temperature 8 080 17 AA 64 Checking temperature
37. GAIN 0 to 18 Fluid sound Setting of fluid sound velocity Factory set value AUTO velocity Selection e AUTO e MANUAL Numeric value e PIPE S V 500 m s to 2500 m s Power Setting of threshold value of echo wave power Factory set value 4 0 E A measurement error occurs if the value becomes lower than the threshold The power measured in 6 1 2 3 Measurement data information can be checked Numeric value e 0 00 to 99 99 Deviation Setting of threshold value of standard deviation of Doppler shift Factory set value 0 5 A success rate error occurs if the threshold is exceeded The deviation measured in 6 1 2 3 Measurement data information can be checked Numeric value e 0 00 to 1 00 Success rate Setting of success rate of power and standard deviation per 1 flow rate signal output Factory set value 70 A success rate error occurs if the value becomes lower than the threshold The success rate can be checked following the description in 6 1 2 3 Measurement data information Numeric value 0 to 100 1 A sensor transmits ultrasonic waves and the same sensor receives the echo waves coming from the reflector The transmission path is divided Doppler shift fluctuation of frequency of the reflector that runs through each area channel is measured by performing send receive for two or more times reference count and the flow velocity distribution 1s found based on the transmission speed of each part
38. OFF 0 e Type in case of single range Display Valid Full scale Display Invalid Full scale 1 full scale 2 and histeresis e Type in case of automatic 2 range forward and reverse range forward and reverse automatic 2 range Display Valid Full scale 1 full scale 2 and histeresis Display Invalid Full scale Sends the setting of the selected item check box set to ON M reflecting the response value on the setting Reads the setting of the selected item check box set to ON reflecting the response value on the setting Reflects the setting sent by pressing the Setting button on the flowmeter flow transmitter Check ON OFF Set the check box to ON to select all the items to set all the check boxes to ON Set the check box to OFF 0 to release the selection of all the items to set all the check boxes to OFF L1 INF TN1FSH E 121 Table 6 lt Range Setting gt Item Content Select from m s L s L min L h 1 4 kL d ML d m s m h m d km d Mm d BBL s BBL min BBL h BBL d kBBL d MBBL d ft s ft s fC h ft d kft d Mft d gal s gal min gal h gal d kgal d Mgal d BBL s BBL min BBL h BBL d kBBL d MBBL d Of which unit is in case of inch system FULL SCALE Enter 0 0 3 to 32 m s fitting value comply with range unit Enter 0 0 3 to 32 m s fitting value comply with range uni
39. RS232C 5485 Station No Select one from 01 to 31 If communication method is RS232C no selection is allowed fixed with 00 Select one from 9600BPS 19200BPS and 38400BPS Wait time 116 INF TN1FSH E 7 5 2 Setting Click Setting on the menu bar on the Menu screen and either Save setting or Read setting can be selected 7 5 2 1 Save setting Click Save setting and the following screen appears Specify saving location and file name and setting content is saved by clicking Save button Click the Cancel button not to save the setting File format is ini file Bm TO 31 xl Loader 20041212 e BMF Ir IL 6 FADI a 4 wr 74 Ives LAS MEE ES Pr DRR FAT Initial valuet ini 4 Fig 13 lt Save setting select save screen gt Note Please be careful not to rewrite the setting file for loader Hybrid USF ini 7 5 2 2 Read setting Click Read setting and the following screen appears Specify the location and the name of the file saved previously Click the Open button to read the setting Click the Cancel button not to read the setting File format is ini file 22851 2 xl Prd J4D3RPIQ Loader 20041212 EDP Ib SS a 4 LEIA 4 MEE of BAKO Pr 80 initial value ini 9901 97
40. Reads operation information in batch Saves the measurement result in a CSV format file CONDITION F RADIUS FORWARD 16 36 4 Click the button and you are prompted to enter the name of a file to which the data is to be saved Specify the destination to save and enter the file name and a CSV file 15 created 133 Table 18 lt Operation Information gt Y becomes 1 with Line 1 and 2 with Line 2 WEDGE SOUND VELOCITY WEDGEANGLE gt ANGLEINMPE LINING SOUND m s ft s s o MP PANGLEINLINING e C F displaying with in case of measurement abnormal TRANSMIT PULSE No REFERENCE COUNT J No OF CHANNELS _____ STARTGAN S PEND GAIN MEASURE MODE 1 F DEVIATION MODEI F SUCCESS RATE al MODEI R POWER MODEI R DEVIATION MEASURE 96 MODEI R SUCCESS RATE 134 INF TN1FSH E 7 15 Transit Time Difference Measurement Click the TRANSIT TIME button on the Menu screen and the following screen appears receiving waveform tab and operation information tab when necessary Detailed Setting tab and Receiving Waveform tab are optional functions 7 15 1 Detailed Setting optional function N CAUTION change the setting by yourself Otherwise measurement may be disabled e Make the detailed setting only when a problem should arise in flow rate measurement with factory default settings The setting need not be made i
41. Select RAS RAS or V SKIP Set to Select input mode select RAS RAS SETTING ENTERJ Y ENTER 1 111111 1111 11 SETTING and press ENTER E1 DEVICE ERROR Set the selected anomaly to 0 RAS SETTING gt ENTER Valid 1 Invalid 0 switched with ENT 1 111111 1111 11 E1 TMP SENSOR ERR Display the measurement ESC ESC Esc Esc Measurement display screen INF TN1FSH E 99 6 1 2 2 Status information Description Check the operation status in STATUS The composition is shown below PTT EL Operation In case of range over example Occurring 1 Not occurring 0 MEASUREMENT ERROR F TOTAL PULSE R TOTAL PULSE F TOTAL SW R TOTAL SW F TOTAL OVERFLOW R TOTAL OVERFLOW FLOW SW HIGH FLOW SW LOW FULL SCALE 2 AO RANGE OVER PULSE RANGE OVER R FLOW DIRECTION RESERVE DEVICE ERROR RESERVE RESERVE RESERVE RESERVE RESERVE Display Display RAS information in CHECK Display status information in CHECK Select multiple error items if any by pressing 4 or gt Display the measurement 100 RAS INFORMATION 00000000000000000000 STATUS INFORMATION 10000000000000000000 MEASUREMENT ERROR Measurement display screen INF TN1FSH E 6 1 2 3 Measurement data information Description The information of data measured by time difference and pulse Doppler methods can
42. Setting of number of times of taking in per 1 flow rate signal output Factory set value 256 Selection e 4to 512 No of channels Setting of number of division number of channels of transmission path Factory set value AUTO Selection e AUTO e MANUAL Set the number of channels Numeric value e Number of channels 16 32 48 64 80 96 112 128 Measurement Setting of measurement range within pipe Factory set value F radius range Selection e F radius Radius farther viewed from the sensor that has made transmissions e N radius Radius nearer viewed from the sensor that has made transmissions e Diameter Total area on diameter of transmission path Phase angle shift Setting of measurement range of Doppler shift phase angle Factory set value NORMAL 2 Selection e NORMAL 1 Flow in positive negative direction z to 0 to e NORMAL 2 Flow in positive negative direction to 0 to e POSITIVE Flow in positive direction 0 to 27 e NEGATIVE Flow in negative direction 2 to 0 INF TN1FSH E er Input method Function and range or menu Setting of control method of demodulated wave gain Factory set value AUTO The peak of demodulated waves within measurement window 15 controlled not to exceed 3 2 Vpp Selection e AUTO e MANUAL Make the setting so that the peak of demodulated waves within measurement window does not exceed 3 2 Vpp START GIN lt END GAIN Numeric value e START GAIN 0 to 18 e END
43. and the result of operation is transmitted received as 2 digit ASCII code BCC data BCC creation procedure 1 EX OR operation is performed with the data after the start mark STX 2 The result of the operation is converted to ASCII representation Example When the result of operation if 05h ASCII representation 30h 35h AA INF TN1FSH E 8 1 4 Function code table Response data part No Name F code Data type Eo 1 Instantaneous Velocity 0000 1 Instantaneous 11 Number of decimal places 3 m s value velocity 2 Measurement H 2 Time difference 1 Pulse Doppler method 2 3 Error information 4 Status information 2 Flow 0001 1 Instantaneous Number of decimal places 3 When rate velocity range unit is flow rate Range unit Other cases m s Measurement Time difference 1 Pulse Doppler method 2 3 Error information J X4 o Status information 3 Total pulse Forward 0002 1 Number of MDV 11 No decimal point direction forward direction E total pulse method 2 3 Error information Status information 4 Reverse 0003 1 Number of reverse MDV 11 No decimal point direction direction total hand pulse method 2 3 Error information j 4 Status information direction integration unit method 2 3 Error information
44. be checked The following table lists the data information Time difference Wedge SV mi Wedge angle Theoretical value Pipe S V mis Theoretical value Angle in pipe 7 Theoretical valu Lining S V mis Theoretical value Angle in lining iusereceal value Fluid S V mis Theoretical value t Wedge temperature C Wedge temperature Angle in fluid Theoretical value Angle in fluid Theoretical value Total time us Theoretical value Transmission frequency MHz Window open us Theoretical value Line 1 Total time us 1 Forward time us Repetition frequency Hz C 5 Hz I Reverse time ys 1 Time difference ns 1 Delay time us No of channels 1 Fluid S V m s 1 Angle in fluid Phase angle shift 1 Raynolds No 1 Velocity m s 1 Signal power F Line 1 F 1 Signal power R Vo 1 Trigger level F 96 1 Trigger level 1 Signal peak F 1 Signal peak R Line 2 Same as Line 1 INF TN1FSH E 101 Operation When checking the signal power of line 2 in Transit time method example When checking the success rate of line 1 R in pulse Doppler method Display RAS information in CHECK RAS INFORMATION a 00000000000000000000 A t v Select TRANSIT TIME TRANSIT uc Enter select enter mode select CHECK and WEDGE S V ENTER A or 7 ENT
45. be obtained by communicating with the flow transmitter If error occurs during communications an error message is displayed to continue communication select Continue To stop communication select Cancel on the menu screen that appears check the setting for Communication Duosonics Loader O x Communication Setting Version MEASURE PULSE DOPPLER TRANSIT TIME MAINTENANCE SYSTEM ESTABLISH RANGE STATUS DISPLAY End FSHO6TA TRANSIT TIME ENGLISH METRIC 16 21 Z Fig 11 Menu screen Click the menu bar and each function button to execute a desired function INF TN1FSH E 115 7 5 1 Communications Click Communication on the menu bar on the Menu screen and the following setup screen appears F Set up for Serial Communication nl x Fort Serial Method 5232 station o8 Speed 38400BPS Farity NONE x Stop bit H Walt time 5000 1 Retry 5 Setting Cancel Fig 12 lt Serial communication setup screen gt Click the Setting button and setting content is reflected communications are executed with the flow transmitter and information related to system name measurement method language and unit is obtained Click the Cancel button to invalidate the setting Table 2 lt Measurement and Detailed Setting gt Port No Select either from COMI COM2 COM3 COMA and 5 Serial Method Select either
46. changed from OFF to ON AUTO the backlight is set to ON when the change is made If the setting 1s changed from ON AUTO to OFF the backlight 1s set to OFF when the change is made Operation When setting the backlight to AUTO example Display Display SYSTEM UNIT amp LANGUAGE FUNC SYSTEM ED or 4 Select DISPLAY BACKLIGHT DISPLAY BACKLIGHT ON ENTER A or ENTER Enter select enter mode select AUTO DISPLAY BACKLIGHT and press ENTER AUTO ESC Set the backlight to OFF when the measurement display screen appears Measurement display screen 80 INF TN1FSH E 4 4 18 Key lock Description A password can be set for the input on the setting screen Select a 4 digit numeric value as a password entered 4 times as a password is regarded as a valid password Note If you forget the password enter 4 times to reset the key lock Operation When enabling the key lock and setting 1234 as a password example Key operation Description Display Display SYSTEM UNIT amp LANGUAGE SYSTEM aie Select KEY LOCK KEY LOCK a or V OFF Enter select enter mode select ON and KEY LOCK ENTER Or ENTER gt gt T ec EER V Select PASSWORD PASSWORD SKIP Enter select enter mode select SETTING SET PASSWORD ENTER Or ENTER gt gt ENTER Md ENTER and press ENTER 0000 Enter numeric value enter mode enter 1 PASSWORD ENTER 1 ETER using ten
47. edges treated for mounting and wrap it around the pipe keeping the line on the gauge paper in parallel with the 00 DD axis of the pipe Fasten with tape to prevent it from being dislocated Keep the edge of the gauge paper at specified position Keep the line in position 2 Write straight line A on the pipe extending the line written on the gauge paper 3 Write a line along one edge of the gauge paper Let the point of intersection of that line and line A be Ao B Bo Straight line B 4 Measure the circumference beginning from Ao using a 4 Peel off the gauge paper measure Determine the points that equally divide the measure the sensor spacing from circumference and let them be Bo and 1 respectively Ao and draw a line that intersects Draw a line connecting these two points straight line with straight line A at right angles Find Az Example When L 100mm 100mm g Jat From Ao to A is defined Bo as the mounting position SL S Ao B2 Bo 5 Mark point Bo and then peel off the gauge paper Measure the sensor spacing from Bo and draw a line that intersects with straight line B at right angles Find Bz From Ao to Bz is defined as the mounting position 26 INF TN1FSH E 2 2 Mounting the Frame 1 Checking the mark off line the case of 1 measurement line In the case of 2 measurement lines Draw horizont
48. gt To 6 3 4 Measures against hardware failure Random display Ambient temperature is low Increase temperature less than 20 C When temperature cannot be gt Adjust the contrast of the LCD increased The LCD has come to the end Replace the LCD of its service life Ambient temperature is high Decrease temperature 50 C or higher When temperature cannot be gt Adjust the contrast of the LCD decreased Pale display Nothing happens if key entry is e Hardware failure gt 6 3 4 Measures against hardware failure made Specific keys do not respond Keys do not operate according to definition INF TN1FSH E 103 6 2 3 Measurement value error The reading appears with e Connection between main unit and Connect properly minus sensor Upstream sensor and downstream sensor are reversed e The fluid is flowing as shown by the reading The reading fluctuates e The length of linear pipe section is Move the sensor to the place where the length abnormally even if the flow insufficient of 10D can be assured on upstream side and rate is kept constant 5D on downstream side e There is an object nearby that Mount the sensor keeping the distance of at interferes with the flow such as a pump least 30D or valve e The flow 15 actually pulsing Increase the response time by damping setting The reading does not change Ultrasound waves cannot be transmi
49. keys and move to the second O00 digit gt Enter 2 and move to the third digit PASSWORD 1700 gt Enter 3 and move to the fourth digit PASSWORD 12 0 Enter 4 and press ENTER PASSWORD ENTER 1237 Display the measurement Measurement display screen Operation When resetting the key lock set as shown above example To go back to SYSTEM Display Display password input screen a Measurement display screen Enter 1 a Measurement display screen a a Enter 2 UN Measurement display screen Enter 3 Measurement display screen Enter 4 E Measurement display screen SYSTEM Enter SYSTEM to display SYSTEM UNIT amp 1 If a wrong password is entered initial screen appears INF TN1FSH E 01 4 4 19 Checking system name Description The system name can be displayed Operation Check the system name as follows example Display Display SYSTEM UNIT amp LANGUAGE FUNC SYSTEM ae A v Select SYSTEM NAME SYSTEM NAME or FSH Check the system name Measurement display screen 82 INF TN1FSH E 4 4 20 Details of measurement 4 4 20 1 Transit time Description The data required for time difference measurement can be set as follows Signal processing outline drawing Forward direction ultrasonic total time measurement Reverse direction ultrasonic total time measurement Send start TXS
50. m s WEDGE ANGLE deg PIPE SOUND VELOCITY m s ANGLE IN PIPE deg LINING SOUND VELOCITY m s ANGLE IN LINING deg FLUID SOUND VELOCITY m s WEDGE TEMPERATURE degC ANGLE IN FLUID deg TRANSMIT FREQUENCY MHz SAMPLING FREQUENCYT K Hz RECEPTIVE WAIT TIME us REPETITION FREQUENCY Hz TRANSMIT PULSE No REFERENCE COUNT No OF CHANNELS MEASURE RANGE PHASE ANGLE SHIFT START GAIN END GAIN START DIST mm CHANNEL WIDTH mm START CHANNEL END CHANNEL VELOCITY COEFF MEASURE MODE1 F POWER SI IDE 1 ENEI ATION Velocity Profile F RADIUS FORWARD 8 8 22 T 0 246 6 104 0 31 341 2005 05 31 16 36 07 CONDITION MEASURE MODE2 Readind FSHIOPA C LINE2 Item of Collection WEDGE SOUND VELOCITY m s WEDGE ANGLE deg PIPE SOUND VELOCITY m s ANGLE IN PIPE deg LINING SOUND VELOCITY m s ANGLE IN LINING deg FLUID SOUND VELOCITY m s WEDGE TEMPERATURE degC ANGLE IN FLUID deg TRANSMIT FREQUENCY MHz SAMPLING FREQUENCY KHz RECEPTIVE WAIT TIME us REPETITION FREQUENCY Hz TRANSMIT PULSE No REFERENCE COUNT No OF CHANNELS MEASURE RANGE PHASE ANGLE SHIFT START GAIN END GAIN START DIST mm CHANNEL WIDTH mm START CHANNEL END CHANNEL VELOC COEFF MEASURE MODE2 F POWER SI IDE MANE EME PULSE DOPPLER ENGLISH METRIC Fig 26 lt Operation Information screen gt Select either Line 1 or Line 2 first READ INF TN1FSH E
51. r TAR EPOXY MORTAR r RUBBER TEFLON PYREX GLASS PCV OTHERS LINING S V Note Displayed when OTHERS is selected from the lining materials LINING T Note Displayed when those other than NO LINING are selected r KIND OF FLUID WATER r SEAWATER DISTILLED WATER AMMONIA r ALCOHOL BENZENE r BRIMIDE r ETHANOL r GLYCOL KEROSENE MILK r METHANOL r TOLUENE OIL r FUEL OIL r PETROL OTHERS FLUID S V Note Displayed when 5 is selected as kind of fluid VISCOSITY SENSOR SPACING INF TN1FSH E 157 OUTPUT SETTING FUNC RANGE DAMPING RANGE UNIT T RANGE TYPE T OUTPUT LIMIT LOW OUTPUT LIMIT HIGH BURNOUT rao BURNOUT TIMER RATE LIMIT RATE LIMIT TIMER FUNC DAMP L DAMPING ZERO ADJUSTMENT FUNC gt ZERO L m s L s L min L h L d kL d ML d m s m min m h m d km d Mm d BBL s BBL min BBL h BBL d kBBL d MBBL d SINGLE RANGE AUTO 2 RANGE BI DIR RANGE BI DIR AUTO 2 RANGE NOT USED HOLD UPPER LOWER ZERO Note Displayed when those other than NOT USED are selected DISPLAY SETTING FUNC DISP ZERO ADJUSTMENT ZERO CLEAR r 1 DISPLAY KIND TOTAL FORWARD TOTAL REVERSE F TOTAL PULSE R TOTAL PULSE FLOW RATE 96 VELOCITY FLOW RATE Pars FULL SCALE FULL SCALE 1 FULL SCALE 2 HYSTERESIS Same as AUTO 2 RANGE Same as AUTO 2 RANGE 1 DISP
52. s AGC LEVEL R 2048 3071 4096 5120 16 32 48 64 80 96 112 128 INF TN1FSH E INF TN1FSH E MEAS RANGE PHASE ANGLE SHIFT GAIN LINE SELECTION 163 F RADIUS N RADIUS DIAMETER NORMAL 1 NORMAL 2 POSITIVE NEGATIVE AUTO MANUAL LINE 1 F LINE 1 R LINE 2 F LINE 2 R START GAIN END GAIN POWER DEVIATION SUCCESS RATE Same as LINE 1 F Same as LINE 1 F Same as LINE 1 F 8 6 Piping data Stainless steel pipe for pipe arrangement JIS G3459 1988 Mors diameter E S 105 208 40 80 120 160 Galvanized steel pipe for city water SGP W _ 15 G3442 1988 Ist type 2nd type Outer Thickness Soft pipe Hard pipe ele diameter mm Thickness Weight Thickness Weight mm mm mm kg m 5 2 164 INF TN1FSH E Asbestos cement pipe for city water JIS A5301 1971 2nd type 3rd type 4th type Thickness Outer Thickness Outer Thickness Outer Thickness Outer Nominal PAN of diameter of of diameter of of diameter of of diameter of connected connected connected connected connected connected connected connected mm part part part part part part part part Outer diameter diameter of pipe Nomina diameter 13 25 diameter 30 3 5 3 5 4 0 4 5 5 8 7 0 7 5 8 5 Hi vinyl chloride pipe conduit size Nominal Outer Thickness diameter diameter of pipe 28 35 41 52 65 78 INF TN1FSH E 165 Vertic
53. the 5th 6th the 7th digits of the Code Symbols Loader cable ZZP TK4H6253 34 Connector To personal computer 3 2 0 2 m To Flow transmitter Terminal cap Yellow Terminal cap Black Red Yellow Black i din a SS RS 232C INF TN1FSH E 8 4 to be specified at placement of an order 1 Type of detector 2 of flow transmitter 3 Type of signal cable 4 Tag No When tag plate is specified only 5 Parameter setting table When parameter setting is specified only Initial value No Setting item Settable range Settable value 10 00 to 6200 00 mm 0 393 to 244 100 inch 2 Pipe material 12 menus PVC Pipe S V 1000 to 3700 m s 3280 to 12140 ft s 0 10 to 100 00 mm 0 003 to 3 940 inch ini 8 menus Lining material Lining S V 1000 to 3700 m s 3280 to 12140 ft s 60 00 mm mm inch 2 362 inch Carbon steel Stainless steel PVC Copper Cast iron Aluminum FRP Ductile iron PEEK PVDF Acrylic Others Sound velocity m s ft s 4 00 mm mm inch 0 157 inch No lining Tar epoxy Mortar Rubber Teflon Pyrex glass PVC Others Sound velocity m s ft s c Lining thickness 0 01 to 100 00 mm mm inch 0 000 to 3 940 inch Kind of Fluid 17 menus Water Water Seawater DIST water a Fluid S V 500 to 2500m s Ammonia Alcohol Benzene 1641 to 8203 ft s Bromide Ethanol Glycol amp Viscos
54. the flow switch is exceeded 10 FLOW SW LOW Outputs when the flow rate becomes lower than the lower limit setting of the flow switch 11 FULL SCALE 2 Outputs when analog output operation range 15 full scale 2 12 AO RANGE OVER Outputs when the value exceeds the upper limit setting or becomes lower than the lower limit setting of the range 13 PULSE RANGE OVER Outputs when the total pulse output exceeds the maximum output frequency value 14 FLOW DIRECTION Outputs when the flow is in reverse direction 15 DEVICE ERROR Outputs when devices become abnormal 2 Mode The mode of status output pulse can be set as follows 1 NORMAL Normal off DO1 DO2 or normal open DO3 2 REVERSE Normal on 001 002 or normal close 003 CAUTION e Ifthe mode is set to REVERSE DO output is provided when the power is turned on Check if DO output can be modified before setting Note DO output specifications DOI DO2 Transistor open collector Contact capacity 30V DC 0 1A When total pulse output is selected Note See 4 4 9 2 1000 pulse s or lower at full scale flow rate Pulse width 0 5 1 0 2 0 5 0 10 0 20 0 50 0 100 0 or 200 0 ms DO3 Relay contact contact capacity 220V AC 30V DC 1A Service life 200 000 times under rated load Can be replaced if provided with a socket When total pulse output is selected Note See 4 4 9 2 pulse s or lower at full scale flow rate Pulse width 50 100 or 200ms I
55. to 10 digits decimal point to be counted as 1 digit Unit Metric English system selectable English system Velocity m s fts Flow rate L s L min L h L d kL h ft s ft min ft h Mft d ML d m s m min m h gal s gal min m d km d Mm d BBL s Mgal d BBL s BBL min BBL min BBL h KBBL d BBL h BBL d kBBL d MBBL d MBBL d Note gal means US gal Total display Display of forward or reverse total Data up to 10 digits decimal point to be counted as 1 digit Unit Metric English system selectable English system Total ft gal kgal mBBL BBL kBBL mBBL BBL kBBL ACRf Configuration Fully configurable on keyboard by menu driven software Zero adjustment Set zero Clear available transit time method Damping 0 to 100 s every 0 1 s configurable for analog output and display Low flow cut off 0 to 5 m s configurable Alarm Hardware fault process fault can be tied to digital output Burnout Analog output Hold Upper limit Lower liinit Zero Not used selectable Total Hold Count selectable Timer 0 to 900 s every 1 s configurable 147 Bi directional range Forward and reverse ranges configurable independently Hysteresis 0 to 20 of working range configurable Working range applicable to digital output Auto 2 ranges Forward 2 ranges configurable independently Hysteresis 0 to 20 of working range configurable Working range applicable to di
56. 0 or higher for Method 1 Transmission Setting of transmission pattern of ultrasonic signals Factory set value Burst pattern 3 Selection e Burst 1 Burst 2 Burst 3 Burst 4 Burst 5 Chirp 4 Chirp 8 AGC gain Setting of control method of signal AGC gain Factory set value Auto Signal peak is controlled to be kept at 2 4Vpp Selection e AUTO e MANUAL Make the setting so that the signal peak in both forward and reverse directions is kept at 2 4 Vpp Numeric value e Gain in forward direction 1 00 to 99 00 e Gain in reverse direction 1 00 to 99 00 Signal peak Setting of signal peak threshold value per 1 flow rate signal output Used as the threshold value for judging the error status of signals A signal error occurs if the value becomes lower than the specified value Factory set value 3071 e 5120 1 0Vop or equivalent e 4096 0 8Vop or equivalent e 3071 0 6Vop or equivalent e 2048 0 4Vop or equivalent TRANS Numeric value Setting of transmission interval of ultrasonic signals WAIT TIME e to 30 msec Forward direction signals are taken in with forward total time measurement while reverse direction signals are taken in with reverse total time measurement They are conducted alternately for the transmission count Forward and reverse signal data is added for the transmission count and averaged The result is 1 output of signal in forward reverse direction 84 INF TN1FSH E Operation When setting windo
57. 0 using ten keys and then press ENTER v Select PIPE MATERIAL PIPE MATERIAL PVC INF TN1FSH E 921 ENTER 4 W ENTER v ENTER 6 ENTER v ENTER A or W ENTER v ENTER 1 2 5 ENTER v ENTER A or V v v ENTER 1 1 2 9 ENTER ESC ESC Enter select enter mode select CARBON STEEL and then press ENTER Select WALL THICKNESS Enter numeric value enter mode enter 6 using ten keys and press ENTER Select LINING MATERIAL Enter select enter mode select TAR EPOXY and press ENTER Select LINING THICKNESS Enter numeric value enter mode enter 1 25 using ten keys and press ENTER Select KIND OF FLUID Enter select enter mode select OTHERS and press ENTER Select FLUID S V Enter numeric value enter mode enter 1388 using ten keys and press ENTER Select VISCOSITY Enter numeric value enter mode enter 1 129 using ten keys and press ENTER Select SENSOR SPACING Display the measurement reflecting the setting PIPE MATERIAL CARBON STEEL WALL THICKNESS 4 50 mm WALL THICKNESS 6 00 mm LINING MATERIAL NO LINING LINING MATERIAL TAR EPOXY LINING THICKNESS 0 01 mm LINING THICKNESS 1 25 mm KIND OF FLUID Water KIND OF FLUID OTHERS FLUID S V 1440 m s FLUID S V 1388 m s VISCOSITY 1 0038 E m s VISCOSITY 1 1290 E m s SE
58. 1 16 19 36 is display acquisition data FSHO6TA TRANSIT TIME ENGLISH METRIC 16 19 Fig 28 lt Received signal gt Select either Line 1 or Line 2 first Then select one from forward direction received wave reverse direction received wave forward direction filter reverse direction filter and correlation waveform Depending on measurement method method 1 method 2 and method 3 items which can be selected vary as shown below Trigger level is also displayed Left click the mouse while pressing the shift key to specify the screen range and the selected range is magnified Press the R key to return to original status e Method 1 One from forward direction reverse direction and correlation waveform can be selected e Method 2 One from forward direction reverse direction forward direction filter and reverse direction filter can be selected e Method 3 One from forward direction reverse direction forward direction filter and reverse direction filter can be selected e Starts reading 1 idicated cycle SLOP Stops reading Save As CSV Saves the measurement result in a file in CSV format Click the button and you are prompted to enter the name of a file to which the data is to be saved Specify the destination to save and enter the file name and a CSV file is created INF TN1FSH E 137 7 15 3 Operation Information Click CONDITION and the f
59. 1250 0 4 to 0 5 1460 1 004 20 C Note T Temperature density V sound velocity v viscosity INF TN1FSH E 171 8 7 Making gauge paper 1 Provide a sheet of paper or vinyl having the length of 4D and width of 200 mm D if possible or longer with long sides parallel to each other 4D or more O 5 S A Q 2 Parallel D Pipe diameter 2 Draw a line that intersects with the long sides at right angles at a place about 100 mm from one end About 100 mm 172 INF TN1FSH E Fuji Electric Systems Co Ltd Sales Div Ill Intemational Sales Group Global Business Group Gate City Ohsaki East Tower 11 2 Osaki 1 chome Shinagawa ku Tokyo 141 0032 Japan http www fesys co jp eng http www fic net jp eng Phone 81 42 585 6201 6202 Fax 81 42 585 6187
60. 226 2 OUMU SCELTE hes os ree oe DE LE 37 Bos TO DUSCHE LIE mM MA EE 38 A SELDTINGPARANIETENS a 39 4 1 WES CHIP MOD display net 39 Z IT Description or 39 E NOE 39 SO Lc 41 43 Patameler Specification table 42 d Oy A AMIN E 5 E 45 Measurement method and SIS OM coL Guia IM Led 47 SC MPIC AUN ONS ed 49 4 4 3 Measurement mode Measurement mode AO definition sese 51 2 44 OWN SEN T a 52 4 4 4 1 Range range unit range type full scale hysteresis 52 55 4 4 4 3 How to set analog output at error 56 I OU THU doeet iw nlc clei aaa inc E Di UE 57 24 5 DAmptit M E 58 EE e 59 LES VE inp erm 60 2 2 d pulis DUM cua aac Ge M Deis E DIEI prp
61. 23 Earth cable Connects the arrestor of the output terminal See 5 2 4 Measuring insulation resistance 8 INF TN1FSH E 2 SELECTING INSTALLATION LOCATION Select an installation location that satisfies the following conditions with ease of maintenance and inspection service life of the instrument and assurance of reliability taken into consideration N CAUTION 1 Aplace where ambient temperature and humidity are as follows Flow transmitter FSH 10 to 50 C 90 RH or lower Detector FSW 20 to 80 C 100 RH or lower 2 A place not subject to direct sunlight or weather 3 A place provided with space for daily inspection and wiring work 4 not subject to radiant heat from a heating furnace etc 5 Aplace not in an atmosphere of corrosive or explosive gas 6 A place not subject to flooding A place not subject to vibration dust or moisture 2 1 Flow transmitter Allow space of 100 mm or more between the flow transmitter and the surrounding walls Allow sufficient space for opening of the front cover for maintenance Allow sufficient space for wiring at the bottom of the case 348mm 100mm gt lt or more INF TN1FSH E 9 2 2 Detector The mounting position of the detector in other words the state of the piping where the flow rate 15 to be measured affects the accuracy of measurement to a great extent Select a place that sati
62. 457 2 508 0 609 6 711 2 812 8 914 4 1016 0 1117 6 1219 2 1371 6 1524 0 Nominal diameter A 80 4 00 Thickness 1000 7 1 7 9 6 7 10 3 11 1 11 9 127 Ped Eum ma INF TN1FSH E Coated steel pipe for city water STW JIS G3443 1987 Symbol for type Symbol for type STW 41 STW 400 STW 38 Nominal thickness Nominal thickness B Nominal Outer diameter diameter Centrifugal nodular graphite cast iron pipe for city water Centrifugal nodular graphite cast iron pipe for city water A type JWWA G 105 1971 K type SWWA G 105 1971 Actual Actual Nominal outer Nominal outer diameter diameter diameter diameter 7 5 INF TN1FSH E 167 Arc welded large diameter stainless steel pipe for pipe arrangement JIS G3468 1988 Outer Schedule Schedule Schedule Muse m Thickness Thickness Thickness Thickness 2 8 3 4 5 0 val 3 4 4 0 6 5 9 3 Ductile iron specials Dimensions of centrifugal sand mold cast iron pipe IS G5522 mm mm High Normal HA Actual 75 8 5 Nominal pressure pressure pressure outer 8 5 diameter pipe pipe pipe diameter 168 INF TN1FSH E Dimensions of centrifugal mold cast iron pipe Cast iron pipe for waste water JIS G5525 JIS G5523 1977 Actual Actual High Normal Thickness inner outer Nominal pressure pressure Actual outer Nominal of pipe diameter diamete
63. 7 1 Jc lU CBE 2 Fig 14 lt Read setting select read file screen gt INF TN1FSH E 117 7 5 3 Version Click Version on the menu bar on the Menu screen and the following screen appears ERSION IMFO x Huoson rcs f oader aad fgg Fig 15 lt Version screen gt Click the OK button to close the screen 7 6 Structure of Function Functions with loader are as follows MEASURE Displays trend of flow rate etc PULSE DOPPLER Displays graphs on Pulse Doppler detailed setting and operation information and flow rate distribution etc TRANSIT TIME Displays graphs on detailed setting of transit time difference operation information and received waveform etc MAINTENANCE Executes AO adjustment AO and DO tests etc 118 INF TN1FSH E 7 7 Establish Setting Click the ESTABLISH button on the Menu screen and the following screen appears Duosonics Loader ESTABLISH Communication Setting Version MEASURE E PIPE Setting M SENSOR SPACING STOU Imm v LINING MATERIAL NOLINNG OUTER DIAMETER 11459 LINING THICKNESS 001 fmi Iv PIPE MATERIAL PVC LINING SOUND VELOCITY 1000 mis gl Iv WALL THICKNESS amp 5 mm KIND OF FLUID PIPE souno veLocrry 1000 me M FLUID SOUND VELOCITY 1000 Iv VISCOSITY 0038 qE 6mais SYSTEM SENSOR eee
64. 9 Power supply termimal AC SERIAL SERIAL Cable Cable Cable Qum reen To Temp sensor 6 SHILD COM Measurement board terminal block 211213141516 7 UP STR DOWN STR UPSTR DOWN STR L L _ Relay contact LINE 1 LINE 2 Open colledtor Use LINE 1 terminals in case of single path Ground wire Earth plate 92 INF TN1FSH E 5 3 Replacing fuse CAUTION Be sure to turn off the power before replacing fuse The specifications of the fuse 15 as follows 1 AC power supply 100 V and 200 V 5 2 mm diameter x 20 mm length 250 V 2A Example 0218 002 XP by Littelfuse 2 DC power supply 5 2 mm diameter x 20 mm length 250 V 3A such as UL CSA FGMT 250 V3 A by Fuji Tanshi Kougyo 1 Turn off the power and open the cover Loosen the 4 screws on the front face of the flow transmitter and open the cover 2 Replacement of fuse Remove the fuse holder on the left side of the terminal block of the power supply board using a flat blade screwdriver and replace the fuse Then return the fuse holder back in position 3 Close the cover Close the cover and fasten the 4 screws N CAUTION Be sure to close the cover before turning on the power INF TN1FSH E 93 5 4 Replacing relay is a relay contact whose service life is 200 000 times under rated load Replace the relay before its service life expires paying at
65. Display the measurement reflecting the ESC setting Measurement display screen Display TOTAL MODE TOTAL MODE TOTAL TOTAL STOP A or v Select OUTPUT BURNOUT OUTPUT BURNOUT NOT USED Enter select enter mode select HOLD OUTPUT BURNOUT ENTER or ENTER ENTER 4 W ENTER Select BURNOUT TIMER BURNOUT TIMER 10 sec Enter numeric value enter mode enter 30 BURNOUT TIMER ENTER 3 ENTER gt D ENTER using ten keys and press ENTER 30 sec ESC Return to TOTAL MODE TOTAL MODE TOTAL STOP INF TN1FSH E 67 4 4 10 Flow switch Description 1 The flow switch is actuated when the instantaneous flow rate exceeds the specified value Set the flow switch high and low values when selecting FLOW SW HIGH or FLOW SW LOW in status output setting Setting range 0 to 32 m s in velocity Enter absolute value Relation between status output and setting Upper limit setting and FLOW SW HIGH Lower limit setting and FLOW SW LOW 32m s Om s 32m s 32m s Om s 32m s ON ON ON ON OFF OFF OFF OFF Upper limit Lower limit set value S set value gt lt Hysteresis 7 Hysteresis 2 Setting hysteresis Switching hysteresis can be provided in the following range Set it in the range from 0 to 20 of the setting range Hysteresis is a ratio to the operation range Operation example Display Enter numeric v
66. E 9 Connect the ultrasonic signal cable to the BNC connector being careful not to reverse the upstream and the downstream wiring Downstream side Ultrasonic signal cable Temperature sensor cable Ultrasonic signal cable Upstream side 29 3 5 4 Mounting the sensor unit by Z method using a frame 2 measurement lines 1 Mounting the frame Two pairs of frames are required 1 Draw a mark off line at an angle 45 from the horizon See 3 5 5 1 how to draw a mark off line Mark off line 2 Align the center of the end frame so that it comes over the make off line and temporarily fasten it using cloth belt etc not on the frame ends but on the frame 3 Then wrap a stainless steel belt around the frame end to fasten it securely Follow the description in 3 5 3 to fasten the stainless steel belt 2 Mounting the sensor unit Two pairs of sensor units and two pairs of absorbers in the case of a metal pipe are required for mounting Mount the sensor units following the same procedure as 3 5 3 3 How to mount the sensor unit Mount each pair of frames to install the sensor unit 30 INF TN1FSH E 3 5 5 Mounting the sensor unit to a large diameter pipe 1 How to determine the mounting position Do not use a mounting jig to install the sensor unit to a pipe of diameter of 500 A or more Mount the sensor with wire in such cases Do not use a frame Perform the following to determine th
67. ER Demo press ENTER a or Select LINE SELECT NO LINE SELECT NO LINE 1 Enter select enter mode select LINE 2 and 2 TOTAL TIME W ENTER SN press ENTER A or Select SIGNAL POWER R and check the 2 SIGNAL POWER R data 56 23 Go back to TIME DIFFERENCE TIME DIFFERENCE BUS A 4 Select PULSE DOPPLER PULSE DOPPLER SKIP Enter select enter mode select CHECK and WEDGE S V W ENTER icai press ENTER a or Select LINE SELECT NO LINE SELECT NO LINE 1 F Enter select enter mode select LINE 1 R 1 R POWER ENTER A 7 ENTER and press ENTER or 4 Select SUCCESS RATE and check the data 1 R SUCCESS RATE 95 77 Display the measurement Measurement display screen 102 INF TN1FSH E 6 2 Faults and remedies 6 2 1 Display error e Power is not turned on e Power supply voltage is low e Blown fuse e LCD failure 6 3 4 Measures against hardware failure Nothing is displayed e Reverse polarity of DC power supply Power supply voltage is low Reverse polarity of DC power supply LCD failure gt 6 3 4 Measures against hardware failure Effect of noise from outside Left or right side appears black gt Ground the grounding terminal on the flow transmitter case e Hardware failure
68. ESHOQO LING eiie ee aoa eco eU deasceseehadessssvedwasudessoosssevaedaetersadsuesssaesteesecsdecsdalsev eacaudasesssdinieeca duende 96 oO How0 contiturmDormalopetallOPsss ecc oras pedi 96 MN CMe Kime on LE 96 Checkine measurement StAtUs 11 OLMAtL OM sott ete o pP b 97 6 1 2 1 Checkine and setting of pei o pete 97 MOMMA OM 100 61 2 5 Meas re 101 and Te uoce ia oio Pisae CU ON 103 2 VB tn tt tus ED dicatas On tatu tias 103 2 2 Rc Tc Tx Tp 103 62 3 Measure ment Valie siete cione ostii a ostia uomo ect ena aug 104 OULDUECIEOE mates nta ia Ov tat ub te oan onte oda tan ONT eu NEE t 106 69 Checki g received Wave FOEDE ios me teste dea en aa 107 Method Dy oscilloscope sos amne itis Mas 107 6 3 2 Checkmg signal waveform IRANSIT TIME ii eset e t ete tr Ruhe e x eno da ttr Rn pude de 108 6 3 3 Checking demodulated waves Pulse Doppler
69. FLY as a signal cable between the detector FSW and the flow transmitter FSH Do not join cable in the middle 2 Be sure to let the signal cables installed between the detector and the flow transmitter run through a metal conduit tube The signal cables for upper and the lower streams can be made to run through the conduit tube together However do not let the power cable run through the conduit tube together with the signal cables to avoid induction problems 3 Use shielded cables for output signals as far as possible 4 To prevent noise from coming in avoid installing wiring in a duct together with the power cable 5 Directly ground the power cable that includes a ground lead 6 The flowmeter is not equipped with a power switch Mount one separately 7 Tightly seal the unused wiring ports with supplied sealing caps 3 3 2 Applicable wires Use the following cables e Power cable 3 wire or 2 wire cabtyre cable Nominal sectional area 0 75 mm or more Finished outer diameter 11 mm e Output signal cable 2 wire or multi wire cabtyre cable as required Finished outer diameter 11 mm e Cable between detector and flow transmitter Cable for ultrasonic wave signals High frequency coaxial double shield cable with characteristic impedance of 50 O With waterproof BNC connector provided on one side Finished outer diameter 7 3 mm Cable for temperature sensor 3 wire shielded cable With waterproof connector provided on one
70. IA A or v ENTER and press ENTER 9600 bps v Select COM PARITY COM PARITY NONE Enter select enter mode select EVEN COM PARITY ENTER or ENTER gt gt EY ENTER and press ENTER EVEN Select STOP BIT COM STOP BIT 1 BIT Enter select enter mode select 2 BITS COM STOP BIT ENTER or ENTER gt gt ENTER A or W ENTER 7 S ES aie Select SERIAL METHOD SERIAL METHOD RS232C Enter select enter mode select RS485 SERIAL METHOD ENTER or ENTER ENTER 4 or V ENTER S Heppa Select STATION NO STATION No No 1 Enter select enter mode select 45 and STATION No ENTER ENTER or No 5 press ENTER Display the measurement reflecting the ESC setting Measurement display screen 4 INF TN1FSH E 4 4 16 Maintenance 4 4 16 1 Analog output adjustment and check Description Adjust the analog output so that the output becomes 4 mA when flow rate is 0 and 20 mA when it 15 in full scale Check that each output value in the range from 20 to 120 becomes 0 8 mA to 23 2 mA Connect an ammeter to the IOUT terminal to perform the adjustment Operation example Key operation or V ENTER or ENTER AJ Increase or Decrease gt Increase or 4 Decrease AJ Increase or Decrease gt Increase or 4 Decrease INF TN1FSH E lout Displ
71. ITY r LINE 1 R Same LINE 1 r LINE2 F Same as LINE 1 LINE 2 R Same as LINE 1 MAX RANGE INF TN1FSH E 161 DETAIL Note FUNC DETAIL VERSION INF SKIP CHECK MEASUREMENT BOARD CONTROL BOARD SETTING DATA NOT INITIALIZE FACTORY SETTING PARAMETER SAVE RAS XT SKIP r RAS DETAIL RAS SETTING TRANSIT TIME SKIP SETTING LINE SELECTION LINE 1 T LINE2 PULSE DOPPLER SKIP SETTING WEDGE S V se r PIPE S V T LINING S V Drs r FLUID S V zs 162 Intended for our service personnel only H TRANS FREQUENCY r TRANS PULSE NO ID r SAMPLING FREQ e RECEPT WAIT TIME r REPETITION FREQ E r REFERENCE COUNT S OF CHANNELS T TRANS COUNT TRIGGER CONTROL WINDOW CONTROL SATURATION MEAS METHOD SIGNAL BALANCE TRANS PATTERN AGC GAIN SIGNAL PEAK TRANS WAIT TIME Same as LINE 1 AUTO MANUAL AUTO MANUAL AUTO MANUAL AUTO MANUAL AUTO MANUAL AUTO MANUAL AUTO MANUAL AUTO MANUAL 4 512 AUTO MANUAL L 8 16 32 64 128 256 AUTO MANUAL L amp TRIGGER LEVEL AUTO MANUAL b OPEN TIME F L OPEN TIME METHOD 1 METHOD 2 METHOD 3 BURST 1 BURST 2 BURST 3 BURST 4 BURST 5 CHIRP 4 CHIRP 8 RESERVE AUTO MANUAL b AGC LEVEL F L
72. L PULSE MODE DO 1 REVERSE MODE DO 1 NORMAL Measurement display screen When performing integration holding output burnout with total pulse output set to 100 m for 1 pulse burnout timer set to 15 sec and pulse width 1 set as 100msec TOTAL Display Total mode ENTER A or W ENTER A or V ENTER A or W ENTER A or V ENTER 1 0 0 ENTER A or V ENTER A or W ENTER A or V A or V INF TN1FSH E Enter select enter mode select TOTAL STOP and press ENTER Setting 15 allowed Select TOTAL UNIT Enter select enter mode select m and press ENTER Select TOTAL RATE Enter numeric value enter mode enter 100 using the ten key and press ENTER Select OUTPUT BURNOUT Enter select enter mode select HOLD and press ENTER Select BURNOUT TIMER Enter numeric value enter mode enter 15 using ten keys and press ENTER Select PULSE WIDTH 1 2i Display TOTAL MODE TOTAL RUN TOTAL MODE TOTAL STOP TOTAL UNIT mL TOTAL UNIT E TOTAL RATE 10 000 m TOTAL RATE 100 000 m OUTPUT BURNOUT NOT USED OUTPUT BURNOUT HOLD BURNOUT TIMER 10 sec BURNOUT TIMER 15 sec PULSE WIDTH 1 50 msec Enter select enter mode select 100 and PULSE WIDTH 1 EATER press ENTER A Ge v Select TOTAL MODE TOTAL MODE TOTAL STOP Enter select enter mode select TOTAL TOTAL MODE
73. LAY UNIT 2 DISPLAY KIND Same as 1 DISPLAY KIND 158 L s L min L h L d kL d ML d m s m min m h km d Mm d BBL s BBL min BBL h BBL d kBBL d MBBL d INF TN1FSH E CUT OFF FUNC CUT OFF L CUT OFF INTEGRATION FUNC TOTAL TOTAL MODE STOP START RESET TOTAL UNIT o mL D L m F km F Mm mBBL BBL kBBL TOTAL RATE t F TOTAL PRESET r TOTAL SW TOTAL PRESET r R TOTAL SW r BURNOUT NOT USED HOLD BURNOUT TIMER Note Displayed when HOLD is selected for BURNOUT PULSE WIDTH 1 sr 50 t 100 200 PULSE WIDTH 2 212 039 r 1 0 r 2 0 5 0 r 10 0 r 20 0 r 50 0 100 0 200 0 FLOW SWITCH FUNC FLOW SW L FLOW SW LOW FLOW SW HIGH HYSTERESIS STATUS OUTPUT FUNC STATUS SELECT STATUS DO 1 OUTPUT DO 1 NOT USED SIGNAL ERROR TOTAL PULSE r TOTAL PULSE r TOTAL SW TOTAL SW F TOTAL OVERFLOW r TOTAL OVERFLOW FLOW SW HIGH r FLOW SW LOW t FULL SCALE 2 RANGE OVER PULSE RANGE OVER FLOW DIRECTION DEVICE ERROR MODE DO 1 T NORMAL REVERSE 00 2 OUTPUT DO 2 Same as DO 1 MODE DO2 Same as DO 1 DO 3 4 OUTPUT DO 3 DO 1 MODE DO 3 Same as DO 1 OUTPUT CALIBRATION FUNC gt CAL ZERO SPAN INF TN1FSH E 159 SYSTEM FUNC SYSTEM
74. LN 143 SN D T 143 143 ENOCE SPONS ae acct a 144 ol MS SM 3 an eer ee 144 MOM COGS 145 B OCI AN 146 connection Speciricdtionsq 5 232 corsa bit e ep egi ettet i beds 146 D 2 SDECITCOHODS ee un ne Rebus dedu ant cu E 147 O9 Outline ard P td duas ated tubas Oti atu uen nda I Tue 149 8 4 Items to be specified at placement of an order sssssssssssssseeeenenneeeneneenen nennen nennen nennen nennen 154 0 9 COIRDOSIHOR OL key operation seseo o a n asd atta o e redi eL eed esee tu Led 157 io eas en pdt uas hut tat in adis 164 oL Makiha paupe etti vetant dan itus o pna tu E Do Eee tse Tue LE 172 INF TN1FSH E Vil 1 PRODUCT OUTLINE 1 1 Outline This high precision flowmeter is the world s first clamp on type ultrasonic flowmeter that adopts the pulse Doppler method and the transit time method as its measurement principles The ultrasonic flowmeter for industrial use employs the pulse Doppler method whi
75. NF TN1FSH E 69 Operation When setting DO2 output to total pulse in forward direction and mode to reverse example Display Display SELECT STATUS SELECT STATUS FUNC STATUS B A or Y Select DO 2 and press ENTER SELECT STATUS Display OUTPUT DO 2 OUTPUT DO 2 NOT USED Enter select enter mode select F TOTAL OUTPUT DO 2 ENTER or Y ENTER F TOTAL PULSE PULSE and press ENTER Display MODE DO 2 MODE DO 2 or V NORMAL Enter select enter mode select MODE DO 2 ENTER Or ENTER gt ENTER A or W ENTER evans Display the measurement reflecting the setting Measurement display screen 70 INF TN1FSH E 4 4 12 Output calibration Description Measurement value can be calibrated arbitrarily Zero point and span adjustment can be made The adjustment range is as follows Zero point 5 m s in velocity Span 200 Measurement value and analog output value can be calculated using the following expression Measurement value x Span setting 96 Zero point Output 100 Output Output 6 gt Flow rate 0 Flow rate Calibration of zero point Calibration of span Operation When adjusting zero point to 0 5 m h and span to 105 example Key operation Display Display CAL ZERO CAL ZERO 0 00 m h Enter numeric value enter mode enter CAL ZERO ENTER 5 ENTER lL 0 5 using ten keys and press ENTER 0 50 m h A or v
76. NSOR SPACING 39 16 mm Measurement display screen SENSOR lt Set piping data and then mount detector at dimensions displayed 5227 s INF TN1FSH E 3 5 Installing Detector 3 5 1 Outline of detector installation procedure 1 Treatment of mounting surface of the detector 2 1 Mounting small diameter and small medium size sensor 1 How to mount the frame using a jig 2 How to mount the frame not using a jig 2 1 How to determine the mounting position 2 2 How to mount the frame 3 How to mount the sensor unit 2 2 Mounting a large sensor 1 Mounting position 2 How to mount the sensor 3 5 2 Treatment of mounting surface Using thinner and sand paper remove rust pitch and irregularities if any on the surface of the piping to which the detector 15 to be mounted over the length of the frame to be used Note 1 If the pipe is wrapped with jute remove the jute wrapping over the entire circumference in width of frame length L 200 mm and then perform surface treatment described above Jute wrapping Pipe 200 mm CAUTION careful not to cut your hand with the stainless steel belt when mounting the frame e Mount the sensor unit equipped with a temperature sensor on the upstream side 3 5 3 Mounting the detector by Z method using the frame 1 How to mount the frame using a jig 1 Remove the butterfly nut of the retainer plate and
77. O e MANUAL Numeric value e PIPES V 1000m s to 3700m s Transmission Setting of transmission frequency of the sensor Factory set value AUTO frequency Selection e AUTO e MANUAL Numeric value Transmission frequency 0 100MHz to 5 000MHz Note The transmission frequency setting range varies depending on the sensor FSWI2 1 59 MHz to 2 25 MHz Fundamental frequency 2 0 MHz FSW21 0 81 MHz to 1 23 MHz Fundamental frequency 1 0 MHz FSW40 FSW5S0 0 45 MHz to 0 55 MHz Fundamental frequency 0 5 MHZ Transmission Setting of transmission pulse of the sensor Factory set value 4 pulse No Selection e 0 1 2 4 8 16 32 64 sampling Setting of control method of sampling frequency for taking in demodulated frequency waves Factory set value AUTO Selection e AUTO e MANUAL Set sampling frequency Numeric value e Sampling frequency 31 3 kHz to 8000 kHz Receipt wait time Setting of control method of measurement window for taking in modulated waves Factory set value AUTO Selection e AUTO e MANUAL Set the time to start taking in demodulated waves time from the start of transmission to the startup of window signals Numeric value e Receipt wait time 0 12 us to 2104 75 us Repetition Setting of frequency control method in intervals of send receive of frequency reference count Factory set value AUTO Selection e AUTO e MANUAL Set repetitive frequency Numeric value Repetitive frequency 100 Hz to 8000 Hz Reference count
78. PATH is selected SKIP SETTING PASSWORD SETTING SET 1000 SET 1400 INF TN1FSH E CHECK FUNC CHECK RAS INFORMATION fe Loman Meaning of error symbol L TIME DELTA SKIP E1 Device error CHECK WEDGE S V E2 Time difference method error WEDGE ANGLE E3 Pulse Doppler method error PIPE S V E4 Range over I ANGLE IN PIPE LINING S V ANGLE IN LINING r FLUID S V t WEDGE TEMP ANGLE IN FLUID r TOTAL TIME t WINDOW OPEN LINE SELECT NO LINE 1 r TOTAL TIME r 34 FORWARD TIME r 34 REVERSE TIME r TIME DIFFERENCE 3 DELAY TIME 3 FLUID S V t 4 ANGLE IN FLUID r 4 REYNOLDS NO VELOCITY SIGNAL POWER F r SIGNAL POWER R r TRIG LEVEL r TRIG LEVEL R SIGNAL PEAK SIGNAL PEAK LINE 2 Same as LINE 1 Note Represents LINE No PULSE DOPPLER SKIP CHECK WEDGE S V WEDGE ANGLE PIPE S V ANGLE IN PIPE LINING S V ANGLE IN LINING r FLUID S V r WEDGE TEMP r ANGLE IN FLUID r TRANS FREQUENCY r SAMPLING FREQ r RECEIPT WAIT TIME REPETITION FREQ r TRANS PULSE NO r REFERENCE COUNT NO OF CHANNELS t MEAS RANGE PHASE ANGLE SHIFT START GAIN t END GAIN t START DIST r CHANNEL WIDTH START CHANNEL END CHANNEL t VELOCITY COEFF r LINE SELECT LINE 1 F 4 POWER DEVIATION SUCCESS RATE 4 VELOC
79. Pc Instruction Manual HYBRID ULTRASONIC FLOWMETER Duosonics gt TYPE FSH Flow transmitter FSW Detector FLY Signal cable Fuji Electric Systems Co Ltd INF TN1FSHa E PREFACE We thank you very much for purchasing Fuji s ultrasonic flowmeter The instruction manual concerns the installation operation checkup and maintenance of the Flow transmitter FSH and Detector FSW of ultrasonic flowmeter Read it carefully before operation Before using be sure to read this instruction manual carefully to ensure correct installation operation and maintenance of the flowmeter Note that incorrect handling may lead to trouble or personal injury The specifications of this flowmeter are subject to change for improvement without prior notice Do not attempt to modify the flowmeter without permission Fuji is not responsible for any trouble caused by modification without permission If it becomes necessary to modify the flowmeter contact our office in advance This instruction manual should always be kept on hand by the operator After reading be sure to keep this manual in a place where it can easily be seen by the operator Make sure that this manual is presented to the end user If the instruction manual has been lost request another one with charge to our local business office Manufacturer Fuji Electric Instrumentation Co Ltd Type Shown on nameplate of Flowmeter Date of manufacture Shown on nameplate of Flowmet
80. Pipe material Select Carbon steel stainless steel PVC copper cast iron aluminum FRP ductile iron PEEK PVDF acrylic and others Pipe S V 1000 m s to 3700 m s Wall thickness 0 10 mm to 100 00 mm No lining tar epoxy mortar rubber Teflon pyrex glass PVC and others Lining S V 1000 m s to 3700 m s Lining thickness 0 01 mm to 100 00 mm Kind of fluid Select Water seawater dist water ammonia alcohol benzene bromide ethanol glycol kerosene milk methanol toluol lube oil fuel oil petrol and others Fluid S V 500 m s to 2500 m s 0 0010E m s to 999 9999E m s Wall thickness Outer diameter Wee ee Lining thickness 1 When others is selected as pipe material only 2 When others is selected as lining material only 3 In the cases other than No lining only 4 When others 15 selected for the kind of fluid only Operation When outer diameter of the pipe is 114 3 mm pipe material is carbon steel wall thickness is 6 0 mm example lining material 15 tar epoxy lining thickness 15 1 25 mm kind of fluid 15 heavy water sound velocity is 1388 m s and kinematic viscosity is 1 129E m s When the sensor is mounted by Z method sensor type 15 FSW12 Display Display sensor spacing SENSOR SPACING 9 17 mm Select OUTER DIAMETER OUTER DIAMETER 60 00 mm Enter numeric value enter mode enter OUTER DIAMETER ENTER Ge 114 3
81. R 10 sec 2 35 i ENTER 3 0 ENTER v v ESC Enter numeric value enter mode enter 30 using ten keys and press ENTER Select RATE LIMIT Enter numeric value enter mode enter 5 and press ENTER Select RATE LIMIT TIMER Enter numeric value enter mode enter 15 using ten keys and press ENTER Display the measurement reflecting the setting 36 BURNOUT TIMER 30 sec RATE LIMIT 0 00 m h RATE LIMIT 5 00 RATE LIMIT TIMER 0 sec RATE LIMIT TIMER 15 sec Measurement display screen INF TN1FSH E 3 6 2 Total pulse output setting Description Make the setting to perform pulse output of the total measurement value flow rate The following is an example of operation Key operation Description Refer to 4 4 9 and 4 4 11 for details of the setting Display Definition of total pulse to DO When is output as total pulse output in forward direction example ENTER A or V ENTERJ A W ENTER or V ENTERJ A W ENTER Total setting example Display Status select DO 1 Display OUTPUT DO 1 Enter select enter mode select F TOTAL PULSE and press ENTER Display DO 1 Enter select enter mode select NORMAL and press ENTER Display the measurement reflecting the setting SELECT STATUS DO 1 SELECT STATUS DO 1 OUTPUT DO 1 NOT USED OUTPUT DO 1 F TOTA
82. Select CAL SPAN CAL SPAN ENTER Enter numeric value enter mode enter CAL SPAN ENTER 1 5 ENTER gt O 105 using ten keys and press ENTER 105 00 ESC Display the measurement reflecting the pum setting Measurement display screen INF TN1FSH E 271 4 4 13 Measurement unit Description Measurement unit can be selected from metric system and English system Setting contents e Meter Metric system Unit of length mm Unit of velocity S V m s Unit of flow rate L s L min L h L d kL d ML d m s m min m h m d km d Mm d BBL s BBL min BBL h BBL d kBBL d MBBL d Tolal umb en mL L m km mBBL BBL kBBL Unit of viscosity E m s Unit of temperature Note Set units in a state where the total mode is set to stop Operation When changing the unit system to metric system example Key operation Description Display Display SYSTEM A or Select SETTING Display system unit v ind pres ENTER MERIC the measurement reflecting the 72 INF TN1FSH E 4 4 14 System language selection Description The system language to be displayed at the time of setting can be selected from the following 5 English Japanese German French and Spanish Operation When selecting English example Key operation D
83. The following table lists factory settings not applicable to the type with parameter settings Settable range Settable value 1 Outer diameter 10 00 to 6200 00 mm 60 00 mm mm inch 0 393 to 244 100 inch 2 362 inch 2 Pipe material 12 menus PVC Carbon steel Stainless steel PVC Copper Cast iron Aluminum FRP Ductile iron PEEK PVDF Acrylic Others Wall thickness 0 10 to 100 00 mm 4 00 mm mm inch 0 003 to 3 940 inch 0 157 inch m Lining material 8 menus No lining No lining Tar epoxy Mortar Lining S V 1000 to 3700 Rubber Teflon Pyrex glass PVC m s 3280 to 12140 ft s Others Sound velocity m s ft s Lining thickness 0 01 to 100 00 mm mm inch 0 000 to 3 940 inch Kind of Fluid 17 menus Water Water Seawater DIST water Fluid S V 500 to 2500m s Ammonia Alcohol Benzene 1641 to 8203 ft s Bromide Ethanol Glycol Viscosity 0 001 to Kerosene Milk Methanol Toluol 999 9999 x 10 m7 s Lube oil Fuel oil Petrol Others 0 0107 to 10763 9088 x Sound velocity m s ft s 10 117 5 Viscosity x 10 m s ft s Range unit 19 menus m s ft s m s L s L min L h L d kL d ML d m s m min m h m d km d Mm d BBL s BBL min BBL h BBL d KBBL d MBBL d ft s ft s ft min ft h 2 4 kft d gal s gal min gal h gal d kgal d Mgal d BBL s BBL min BBL h BBL d kBBL d MBBL d Range type Single Auto 2 Bi dir Bi dir Auto 2 Full scale or Full In
84. Total unit 8 menus mL ft mL L m km Mm mBBL BBL kBBL ft kgal gal mBBL BBL kBBL ACRF 0 NO NO NO o 4 Total rate F Total preset S SW 8 Unit Total preset R Total SW Output burnout Burnout timer Pulse width 1 Pulse width 2 9 menus 50 0 ms 0 5 1 0 2 0 5 0 10 0 20 0 50 0 100 0 200 0 Flow sw low In terms of flow velocity 0 00 m s 19 Unit 0 00 to 32 00 m s 0 00 to 0 00 ft s 104 98 ft s 34 Flow sw high In terms of flow velocity 4 00 m s 19 Unit 0 00 to 32 00 m s 0 00 to 13 12 ft s 104 98 ft s 35 Flow sw HYS Output DO 1 15 menus Not used Not use Signal error F Total pulse R Total pulse F Total alarm R Total alarm F Total overflow R Total overflow Flow SW high Flow SW Low Full scale2 AO range over Pulse range over R Flow direction Device error Mode DO 1 Normal Reverse Normal Reverse Output DO 2 15 menus Not used Not use Signal error F Total pulse R Total pulse F Total alarm R Total alarm F Total overflow R Total overflow Flow SW high Flow SW Low Full scale2 AO range over Pulse range over R Flow direction Device error Mode DO 2 Output DO 3 15 menus Not used Not used Signal error F Total pulse R Total pulse F Total alarm R Total alarm F Total overflow R Total overflow Flow SW high Flow SW Low Full scale2 AO range over Pu
85. WN STR UPSTR DOWN STR L a Relay contact LINE1 LINE2 Open collector Use LINE1 terminals in case of single path Details of wiring of ultrasonic signal cables UP STR DOWN STR To detector To detector on upper stream on lower stream side side Note 1 All screws of the terminal block are M3 5 Use solderless terminals with external diameter of 07 2 or less that are for M 3 5 Note 2 Both the terminal block in the power supply board and the external earth terminal have grounding terminals Be sure to ground Class D grounding one of these 18 INF TN1FSH E 3 4 Setting piping parameters and calculating the sensor spacing Make the setting to calculate the sensor spacing as follows 3 4 1 Selecting sensor type mounting the sensor setting the sensor constant Description The data of the sensor required for measurement can be set as follows If the sensor mounting method or sensor type is changed the sensor spacing in piping specifications 1s also changed Enter the data for each item according to the display see the table shown below Refer to 4 4 1 for details of the setting FLWII FLW41 FLWI2 FLD12 FLD22 FLW32 FLW50 FLW51 FSW12 FSW21 FSW40 FSW50 Sensor constant Line F METAL PIPE Numeric value 0 00 to 300 00 Line R METAL PIPE Numeric value 0 00 to 300 00 Line F PLASTIC PIPE Numeric value 0 00 to 300 00 Line R PLASTIC PIPE Numeric value 0 00 to 300 00 Line No
86. Zero Sets the analog output to 0 4 mA e Not used Burnout is not used Setting range of burnout timer 0 to 900 sec The burnout processing 1s performed as follows l EC Dinie The measurement on the LCD changes with the analog output Operation When output burnout is set to the lower limit value and the burnout timer is set to 30 sec example Key operation Description Display FUNC RANGE Display RANGE UNIT RANGE or Select OUTPUT BURNOUT OUTPUT BURNOUT HOLD Enter select enter mode select LOWER 1 BURNOUT ENTER or ENTER gt gt ENTER A or L J ENTER a 1 v Select BURNOUT TIMER BU bue bue Sec Enter numeric value enter mode enter 30 BU und EN TIMER ENTER 3 ENTER gt ENTER o ENTER using ten keys and press ENTER uad sec Display the measurement reflecting the ESC setting display screen 56 INF TN1FSH E 4 4 4 4 Rate limit Description Spike noise input by slurry fluid etc can be cut before output Rate limit 0 to 5 m s in velocity Enter absolute value Rate limit timer 0 to 900 sec Note 1 If the input exceeding the limit value continues for more than the limit time it is regarded as valid signals and output Note 2 If the limit time 15 set to 0 this function does not work Operation When rate limit is set to 5 and rate limit timer is set to 15 sec example Key operation Displ
87. al cast iron pipe JIS G5521 Thickness Actual outer T Normal Low diameter pressure pressure D1 Nominal diameter D pip pip 10 9 80 15 0 95 90 1690 100 94 10 0 374 0 75 200 220 0 400 425 6 700 271 6 10 2 322 8 40 60 154 130 6308 70 15 138 730 90 195 155 930 100 220 1040 100 235 1440 i 1200 250 12460 1350 275 1400 150 300 15540 Hard vinyl chloride pipe JIS K6741 1984 Actual Actual Thickness outer outer Thickness diameter diameter ON Go Go 4 22 48 76 8 76 166 Carbon steel pipe for pipe arrangement JIS G3452 1988 Actual outer diameter mm 21 7 21 2 34 0 42 7 48 6 60 5 76 3 89 1 101 6 114 3 139 8 165 2 190 7 216 3 241 8 267 4 318 5 355 6 406 4 457 2 508 0 Nominal diameter Thickness 20 3 4 25 32 114 40 112 50 mm O oe 28 o NO 2112 3 1 2 2 3 3 3 3 4 4 4 4 8 2 5 8 2 2 2 9 9 100 25 40 65 200 225 400 GN U NO 2 J J 2 3 4 5 7 1 1 1 1 1 0 2 4 6 8 0 Coated steel pipe for city water PTPW JIS G3443 1968 Actual outer diameter mm 89 1 114 3 139 8 165 2 216 3 267 4 318 5 355 6 406 4
88. al mark off line that Draw a mark off lines at an angle 45 includes the center point of the cross from the horizon sectional view of the pipe Mark off li Mark off line ark off line Mark off line 2 Wrap the stainless belt around the pipe 4 Place the frame so that the marking line and the V mark on the frame end are aligned and then fasten it with a band Marking line 3 Lift the screw of the stainless belt and let the tip of the belt run through it Z Dus the y mark with the marking line INF TN1FSH E 27 3 How to mount the sensor unit Mount the sensor unit comprising of two sensors facing opposite to each other keeping the spacing displayed after the piping parameter setting is completed See 2 2 3 Mounting the sensor for details Note Mount the sensor unit equipped with a temperature sensor on the upstream side If plastic piping is used the absorber unit is not required Skip the description of the absorber unit If metal piping is used the absorber unit is required Perform the operation in accordance with the description of the absorber unit 1 Temporarily mount the sensor unit and absorber unit 3 Loosen the butterfly nuts of the thread part of the on the retainer plate Mount the sensor unit on the side with the V shaped portion and the absorber unit on the side without the V shaped portion frame Place the notches of the retainer
89. alue enter mode enter 20 FLOW SW LOW v When setting lower limit flow rate to 20 m h upper limit flow rate to 180 m h and hysteresis to 5 using ten keys and press ENTER Select FLOW SW HIGH FLOW SW HIGH 112 64 m h 0 Enter numeric value enter mode enter FLOW SW HIGH v 180 using ten keys and press ENTER 180 00 m h Select FLOW SW HYS FLOW SW HYS 1096 Enter numeric value enter mode enter 5 FLOW SW HYS ENTER ENTER gt ESC using ten keys and press ENTER Display the measurement reflecting the setting Measurement display screen 68 INF TN1FSH E 4 4 11 Status output Description 1 Output Total pulse and status measurement error or flow rate switch output can be set as follows common for DOI DO2 DO3 1 NOT USED Contact output is not used 2 SIGNAL ERROR Outputs when measurement error occurs 3 F TOTAL PULSE Outputs flow rate total pulse in forward direction 4 R TOTAL PULSE Outputs flow rate total pulse in reverse direction 5 F TOTAL ALARM Outputs when flow rate total alarm in forward direction is exceeded 6 R TOTAL ALARM Outputs when flow rate total alarm in reverse direction is exceeded 7 F TOTAL OVERFLOW Outputs when flow rata total value in forward direction overflows 8 R TOTAL OVERFLOW Outputs when flow rate total value in reverse direction overflows 9 FLOW SW HIGH Outputs when the upper limit setting of
90. ame to measurement piping When using a frame for mounting Mounting of sensor unit Be careful not to mount the unit with wrong dimension Setting of measurement range Not required if measurement range is specified by parameter setting provided Zero point adjustment Before performing zero point adjustment check that the pipe is filled with fluid the fluid is in still state and that the measurement status is normal Start of measurement Flow transmitter wiring Before operation Entering piping specifications Measurement method and sensor Installing detector Checking received waveform Output specification setting System setting Total specification setting Total alarm setting Measurement display specification setting Dumping setting Low flow rate cut setting Output correction setting Status output setting Composition of key operation Chapter 5 MAINTENANCE AND INSPECTION 14 INF TN1FSH E 3 2 Installing the flow transmitter The flow transmitter can be mounted on a wall or on a panel Use four M8 bolts to mount the flow transmitter on a wall or a panel Drill holes according to the mounting hole dimensions shown below and fasten the flow transmitter using the M8 bolts 3 Mounting plate 352 eu INF TN1FSH E 15 3 3 Flow transmitter wiring 3 3 1 Cautions in wiring N CAUTION 1 Use a dedicated cable
91. and enter the file name and a CSV file is created Table 15 Measurement and Detailed Setting Select either FLOW RATE or VELOCITY TOTAL PULSE Select either FORWARD or REVERSE FLOWRATE O REANA Enter Cycle and Point 128 INF TN1FSH E Click the PULSE DOPPLER button on the Menu screen and the following screen appears 7 14 Pulse Doppler Measurement tab flow speed distribution tab and or operation information tab when necessary The detailed setting tab and flow speed distribution tab are optional functions 7 14 1 Detailed setting optional function settings Click Detailed setting and the following screen appears PULSE DOPPLER N CAUTION Do not change the setting by yourself Otherwise measurement may be disabled e Make the detailed setting only when a problem should arise in flow rate measurement with factory default The setting need not be made in other cases 2005 05 31 16 34 54 Reading of a detailed setup was comple Velocity Profile T WEDGE SOUND VELOCITY LINING SOUND VELOCITY GC AUTO MANUAL 2485 mmis G AUTO MANUAL 000 ms Click detailed setting A 151 CONDITION PIPE SOUND VELOCITY FLUID SOUND VELOCITY G AUTO MANUAL 290 AUTO TRANSMIT FREQUENCY TRANSMIT PULSE No G AUTO MANUAL 0 500 MHz 4 PULSE I SAMPLING FREQUENCY MEASURE RANGE
92. ange range unit range type full scale hysteresis setting Description SS 4 ees Make output setting to output measured value flow rate or velocity within specified range from 4 to 20 mA Measurement contents 1 Selecting range unit Select one from the following units metric system m s L s L min L h L d kL d ML d m s m min m d km d Mm d BBI s BBL min BBL h BBL d kBBL d MBBL d 2 Selecting range type e Single e Auto 2 e Bi directional e Bi directional auto 2 Analog output Analog output Flow rate SIDA Flow rate Base scale Full scale Base scale Full Full scale 1 scale 2 Hysteresis a Single range b Auto 2 range Analog output Analog output 20mA x 20mA ra N Pw Full Full N A Hysteresis le 2 le 1 4mA A Flow rate 5884 Base scale 889 Ful Ful Base Ful Ful Hysteresis scale4 scale 3 scale scale 1 scale 2 c Bi directional range d Bi directional auto 2 range 3 Setting range Set the full scale by range type Set the following depending on the range type The based scale is fixed to 0 5 ce bed single range only e Full scale 1 and 2 Auto 2 range bi directional range bi directional auto 2 4 Setting hysteresis When AUTO 2 BI DIRECTIONAL or BI DIRECTIONAL AUTO 2 is selected as range type switching hysteresis can be provided The hysteresis can be set in the ran
93. ar Use Clear when the flow cannot be stopped Clears the value adjusted Operation When zero adjustment is performed in a state where the flow is stopped example Key operation Description Display Display ZERO ADJUSTMENT ZERO ADJUSTMENT EO CLEAR ENTER A ar v Enter select enter mode and select ZERO ZERO ADJUSTM ENT ZEROv Adjustment is performed ZERO ADJUSTMENT ENTER Elapsed time is displayed in the lower row while adjustment is in progress When adjustment is completed successfully ZERO ZERO ADJUSTMENT is displayed and when it is completed unsuccessfully ZERO CLEAR is displayed on the lower row ESC Display the measurement reflecting the setting Measurement display screen e If CLEAR is selected and executed currently stored zero adjustment value is cleared INF TN1FSH E 59 4 4 7 Display setting Description Measurement value to be displayed in display unit and display kind can be selected from the following 1 Selection Measurement value to be displayed can be selected from the following Velocity Instantaneous velocity m s Total forward Total value in forward direction Total reverse Total value in reverse direction Total pulse Total pulse in forward direction Total pulse Total pulse in reverse direction Flow rate Percentage of analog output to the range Flow rate Instantaneous flow rate If flow rate is selecte
94. at Click the button and you are prompted to enter the name of a file to which the data is to be saved Specify the destination to save and enter the file name and a CSV file is created 138 INF TN1FSH E Table 20 lt Operation Information gt Item Content WEDGE SOUND m s ft s VELOCITY WEDGE ANGLE S gt m s ft s PANGLEINPIPE 9 ANGLEINLINING e WEDGE TEMPERATURE C F displaying with in case of measurement abnormal is TOTAL TIME u FLUID SOUND VELOCITY u ANGLE IN FLUID e INF TN1FSH E 139 7 16 Maintenance Click the MAINTENANCE button on the Menu screen and the following screen appears Note If Setting and Read are executed on this screen the instrument is in the Maintenance mode for flow rate measurement Be sure to reset the Maintenance mode of flow meter by clicking the Release button Duosonics Loader MAINTENANCE ali xj Communication Setting Version 81 x MEASURE PULSE DOPPLER TRANSIT TIME SYSTEM ESTABLISH RANGE TOTAL STATUS DISPLAY End Setting us i HEC 4 95002 H 9 CHECK CHECK DO 2 CHECK C CHECK READ TEST MODE INPUT DATA 100 pg Save TRACKING TIME y TEST Cancell 2005 05 31 16 48 40 Reading of a detailed setup was completed e
95. ay RANGE Display RANGE UNIT RANGE ur A at v Select RATE LIMIT RATE LIMIT ME h Enter numeric value input mode enter 5 RATE LIMIT 5 ENTER es using ten keys and press ENTER v Select RATE LIMIT TIMER RATE LIMIT TIMER sec Enter numeric value enter mode enter 15 RATE LIMIT TIMER using ten keys and press ENTER Display the measurement reflecting the setting Measurement display screen ESC INF TNT1FSH E 57 4 4 5 Damping Description Damping is used to suppress the fluctuation of measurement Set it by time constant response time of about 63 Setting range 0 0 to 100 0 63 Flow rate Time Response time Operation When set value is 20 sec example Display Display DAMPING DAMPING Enter numeric value enter mode enter 20 DAMPING ENTER 2 ENTER gt ENTER 2 o ENTER using ten keys and press ENTER 20 0 sec Display the measurement reflecting the ESC setting Measurement display screen 58 INF TN1FSH E 4 4 6 Zero adjustment Description The zero point of the measured value by time difference measurement can be adjusted as follows Setting contents Zero Perform zero adjustment in a state where the flow is stopped The measurement status at the specified time is set as 0 Note Perform adjustment in a state where the flow 15 stopped Note Perform adjustment in normal measurement status Cle
96. ay SYSTEM select MAINTENANCE Enter select enter mode select AO 1 and press ENTER Display 4 mA adjustment Perform fine adjustment Perform coarse adjustment Adjust so that the ammeter indicates 4 mA Exit 4 mA adjustment and go to 20 mA adjustment Perform fine adjustment Perform coarse adjustment Adjust so that the ammeter indicates 20 mA Exit 20 mA adjustment and go to AO 1 CHECK Enter numeric value enter mode enter 75 using ten keys and press ENTER Check 75 16 mA output Display the measurement reflecting the setting 75 Adjusting 4 mA and 20 mA outputs and checking 75 output 16 mA AO 1 ADJUST 20 mA AO 1 CHECK 096 AO 1 CHECK 19 Measurement display screen 4 4 16 2 Checking status output Description Check the ON OFF operation of the status output as follows Setting contents ON Closes the contact OFF Opens the contact N CAUTION e Check if DO output can be changed before operation Connect voltmeters to DO1 DO2 and DO3 terminals Note Refer to 4 4 11 Status output of DO output specifications DO2 DO3 Open Open Relay collector collector contact c Receiving instrument Voltmeter a eee ad Voltmeter d i i 1 When used with AC power supply Note Relay may be disconnected and ON OFF can be checked with a tester Operation When checki
97. ch directly measures flow distribution thus easing straight pipe conditions and allowing measurement of flows that have not grown into eddy or laminar flow Combined use of the transit time method allows the hybrid ultrasonic flowmeter to be used for measuring a significantly wide range of liquids The pulse Doppler method which uses echoes coming from reflectors in a liquid to be measured is ideal for the measurement of liquids that contain air bubbles and particles On the other hand the transit time method which allows ultrasonic waves to pass through for measurement is ideal for the measurement of clean liquids The new hybrid technique employing both the pulse Doppler and the transit time methods allows the flowmeter to be used for wider range of applications In addition our self developed switching algorithm ensures automatic switching between the two methods depending on the conditions of a liquid to be measured such as mixing status of air bubbles or particles and flow rate thus facilitating measurement 1 1 1 Measurement principle lt Pulse Doppler method gt e The pulse Doppler method measures flow distribution and flow rate based on the fact that Doppler frequency of the echo coming from reflectors such as air bubbles and particles in liquids changes with fluctuation of flow rate Sensor 2 Air bubble o Reflection Sensor 1 Flow velocity Flow velocity distribution 2 distribution 1 Pipe wall Center Pipe
98. ck piping parameters and the mounting status of the detector by referring to the section that The reading does not change even if the flow rate changes error display on LCD of 6 2 3 Measurement value error The peak amplitude does not fluctuate If the peak fluctuates vertically air bubbles may be mixed in Take measures by referring to the part of mixing in of air bubbles in the section that The reading does not change even if the flow rate changes error display on LCD The time base does not fluctuate If time base fluctuates the signals may be affected by turbulent flow or drift current Take measures by referring to the section that The reading fluctuates abnormally even if the flow rate 15 kept constant of 6 2 3 Measurement value error INF TN1FSH E 109 6 3 3 Checking demodulated waves Pulse Doppler Monitor the waveforms and check the state of demodulated waves Window and demodulated wave 5095 5 ar Ma ira 1 T CH 1 500mV div CH2 5V div ice en a saute HE SEDGE RUNE EROR c TI M z 500 mV to 4V ld Amplitude Doppler signal Point 1 The amplitude of demodulated wave amplitude due to Doppler signals within the HIGH zone window of RWN of CH2 15 kept within 3 2 Vpp 1 When amplitude is small Echo sensitivity is low See the following figure 2 When amplitude is larger than 3 2 Vpp Th
99. ct TOTAL SW F TOTAL SW or V 0 000 m 3 Enter numeric value enter mode enter F TOTAL SW ENTER 5 ENTER gt 5 5000 using ten keys and press ENTER 0000 000 m Return to TOTAL MODE TOTAL MODE TOTAL STOP ESC Enter select enter mode select TOTAL TOTAL MODE ENTER A W ENTER RESET and press ENTER ESC Display the measurement reflecting the setting Measurement display screen 66 INF TN1FSH E 4 4 9 5 Determining how to dispose of total at error BURNOUT Description Output burnout is a function of setting the total output to hold when measurement state becomes abnormal Set the duration until burnout processing 1s performed with the burnout timer Setting contents e Hold Holds the total value e Not used Burnout is not used Output burnout processing is performed as follows Iu unn nemus Holds the total measurement value 2 Total pulse output Stops output 3 Internal calculation Stops integration Note Set output burnout in a state where total mode is set to total stop Integration is continued until output burnout processing is started Operation When setting output burnout to hold and burnout timer to 30 sec example Display Enter select enter mode select TOTAL TOTAL MODE W ENTER LUE RESET and press ENTER
100. cted item check box set to ON reflecting the response value on the setting Reflects the setting sent by pressing the Setting button on flowmeter flow transmitter Check Set the check box to ON to select all the items to set all the check boxes to ON Set the check box to OFF 0 to release the selection of all the items 10 set all the check boxes to OFF L1 Table 13 Display Setting DISPLAY 1 KIND Select from VELOCITY FLOW RATE TOTAL FORWARD TOTAL 5 F TOTAL PULSE R TOTAL PULSE FLOW RATE Select from L s L min L h 1 4 kL d ML d m s m min m h m d Flow Unit 7 km d Mm d BBL min BBL h BBL d kBBL d MBBL d ft s ft s ft min fth f d kft d Mft d gal s gal min gal h gal d kgal d Mgal d BBL s BBL h BBL d kBBL d MBBL d Of which unit is in case of inch system DISPLAY 2 DISPLAY KIND Same as the selection of DISPLAY 1 Flow Unit Flow Unit Same as the unit of DISPLAY 1 126 INF TN1FSH E 7 12 System Setting Click the SYSTEM button on the Menu screen and the following screen appears F Duosonics Loader SYSTEM Communication Setting Version 18 x MEASURE PULSE DOPPLER TRANSIT TIME MAINTENANCE ESTABLISH RANGE TOTAL STATUS LANGUAGE UNIT SYSTEM Setting
101. d select the unit of flow rate from the following L s L min L h L d kL d ML d m s m min m h m d km d Mm d BBL s BBL min BBL h BBL d kBBL d MBBL d The unit of Total forward Reverse forward 1s the unit of Total See 4 4 9 1 Total unit 2 Setting of decimal point position of numeric value display Measurement data is displayed in the range of 10 including decimal point The number of decimal places can be set arbitrarily within the display range Operation When displaying instantaneous flow rate of display 1 in unit of m h and display 2 in unit of flow example rate Display 1 aes 1 DISPLAY KIND DISP Display 1 DISPLAY KIND 5 STG 3 v Select 1 DISPLAY UNIT 1 DISPLAY UNIT m h ENTER a or v ENTER Enter select enter mode select m h and 2 DISPLAY icy press ENTER v select 2 DISPLAY KIND 2 DISPLAY KIND VELOCITY Enter select enter mode select FLOW 2 DISPLAY KIND ENTER A W ENTER EUG WBATERUS RATE and press ENTER ESC Display the measurement reflecting the pou setting Measurement display screen Operation When displaying display 1 up to the third decimal places and not displaying the digits to the right of example the decimal point of display 2 Key operation Display DISPLAY SETTING 100 00 112 63 m h Display 4 gt on both sides of the value 100 00 of display 1 4 112 63 m h The value of display 1
102. e Preset value Time Operation When setting forward direction to 1000m and reverse direction to 2000m example Display Display TOTAL MODE TOTAL MODE TOTAL TOTAL STOP A or v Select TOTAL PRESET F TOTAL PRESET 0 000 m 3 Enter numeric value enter mode enter F TOTAL PRESET emm Wis TE 3 1000 using ten keys and press ENTER 3 v Select R TOTAL PRESET R TOTAL PRESET 0 000 m 3 Enter numeric value enter mode enter R TOTAL PRESET Emm T 2000 using ten keys and press ENTER ESC Return to TOTAL MODE TOTAL MODE TOTAL STOP Enter select enter mode select TOTAL TOTAL MODE ENTER A W ENTER TOTALES RESET and press ENTER Display the measurement reflecting the ESC setting Measurement display screen INF TN1FSH E 65 4 4 9 4 Total SW Description This is a function of providing contact output when the total value reaches the set value Set the total SW when selecting TOTAL SW or TOTAL SW in status output setting e F Total SW Total SW value in forward direction e R Total SW Total SW value in reverse direction Setting range 0 to 9999999999 999 Note Set the total preset value in a state where the total mode is set to stop Total Set value Status output Operation When setting total switch setting in forward direction to 5000 m example Display Display TOTAL MODE TOTAL MODE eee TOTAL STOP Sele
103. e DF M value on the nameplate of the sensor unit if the sensor is mounted on a metal pipe Pipe material Plastic Pipe PVC FRP PEEK PVDF Acrylic Others Metal Pipe Carbon steal Stainless steel Copper Cast iron Aluminium Ductile iron Refer to 1 3 Checking type and specifications for sensor unit 3 The following table lists the sensor constant value for each measurement method Each sensor constant value applies to the sensors in the following figure Measurement method Sensor constant of line 1 Sensor constant of line 2 Pulse Doppler Line 1 F Forward direction sensor Line 2 F Forward direction sensor Sensor 1 Sensor 3 Line 1 R Reverse direction sensor Line 2 R Reverse direction sensor Sensor 2 Sensor 4 Line 1 P Sensor pair Line 2 P Sensor pair The sensor constant value for line 2 need not be set in 1 path measurement mode The sensor constant value need not be set in transit time measurement mode in general Leave the setting to 100 0 INF TN1FSH E 47 Sensor 2 Transmitter N N 7 NA N NUES Direction of flow Sensor 4 2 path system Z method 4 Select sensor constant when the sensor type is selected from FSW12 FSW21 FSW40 and FSW50 Operation When hybrid is selected as measurement method Z method as sensor mount FSW12 as sensor type example 102 for sensor constant line 1 F METAL 101 for 1 R METAL and 160Vpp as transmission voltage
104. e flow transmitter may be defective Inform us of the details of the error When there are no Doppler signals SONS gt gt 1 T Demodulated wave No doppler signals If there are no reflectors such as air bubbles and particles within the measured fluid sufficient amount of Doppler signals cannot be obtained resulting in measurement error 6 3 4 Measures against hardware failure If hardware failure is detected by performing maintenance and inspection and troubleshooting in Chapters 5 and 6 inform us of the details of the failure and the messages in RAS information 110 INF TN1FSH E 7 PC LOADER SOFTWARE 7 1 Copyright of this software The copyright of this software belongs to Fuji Electric Systems Co Ltd No part of this software may be reproduced or transmitted in any form 7 2 Outline Using this software you can set read and display relevant graphs of the hybrid ultrasonic flow meter on your PC with ease Your data can be easily edited with Microsoft Excel because you can save your data in CSV file format Note Microsoft Excel is the registered Trademark of the Microsoft Corporation in the United States 7 3 PC to be used 7 3 1 Computer AT compatible type with CPU Pentium IV 1 GHz Celeron 1 GHz or more installed display resolution of 1024 x 768 and use of small font recommended 7 3 2 Memory capacity 128 MB or more 256 MB o
105. e mounting position Gauge paper is required for the work See 8 7 Making gauge paper for details 1 Align the edge of the gauge paper to the place 100mm from one of the edges treated for mounting and wrap it around the pipe keeping the line on the gauge paper in parallel with the axis of the pipe Fasten with tape to prevent it from being dislocated Keep the edge of the gauge paper at specified position Keep the line in position 2 Write straight line A on the pipe extending the line written on the gauge paper 3 Write a line along one edge of the gauge paper Let the point of intersection of that line 091 3 and line A be Ao EY V method Sooo 4 Zmethod Example When L 200mm Ao Straight line B 4 Measure the circumference beginning from Ao using a measure Determine the points that equally divide the circumference and let them be Bo and B respectively Draw a line connecting these two points straight line B 4 Peel off the gauge paper measure the sensor spacing from Ao and draw a line that intersects with straight line A at right angles Find Az Example When L 100mm gt uu 100mm From Ao to Az is defined B Bo as the mounting position 8 Ac The mounting V method can be adopted only when the transit time see Section 4 4 1 is used as a measuring method 5 Mark point Bo and then peel off the gauge paper Measur
106. e units are displayed in metric or English system Description Parameters can be set by entering numeric values or by selection Setting item Input method Numeric Direct input Outer diameter of pipe specifications etc can be entered directly value input Values cannot be entered exceeding the number of digits in the input range If negative values are not included in the input range a symbol key is ignored Use symbols that are displayed If 12 is entered in a state where symbol is displayed it is interpreted as 12 Change input Specific numeric values only in outer diameter etc of pipe specifications can be changed Selection Item selection Lining materials etc of pipe specifications can be selected Numeric Numeric values such as transmission voltage of the system can be selected selection Direct input When entering outer diameter 114 3 mm example Display Select OUTER DIAMETER OUTER DIAMETER 60 00 mm Enter numeric value enter mode UTER DIAMETER 60 008 mm Enter 114 3 using ten keys OUTER DIAMETER 114 38mm Press ENTER OUTER DIAMETER 114 3 mm Change input When changing outer diameter 114 3 mm to 115 3 mm example Display Select OUTER DIAMETER OUTER DIAMETER 114 30 mm Enter numeric value enter mode OUTER DIAMETER 114 308mm Move the cursor to left The value 0 on which OUTER DIAMETER the cursor is placed can be changed 114 38 mm Move the cursor
107. ect OUTER DIAMETER OUTER DIAMETER 60 00 mm Enter numeric value enter mode enter OUTER DIAMETER ENTER 1 1 4 3 ENTER 114 30 mm 114 3 using ten keys and press ENTER v Select PIPE MATERIAL PIPE MATERIAL PVC Enter select enter mode select CARBON PIPE MATERIAL ENTER A or ENTER E DENM STEEL and press ENTER v Select WALL THICKNESS WALL THICKNESS 4 50 mm Enter numeric value enter mode enter 6 WALL THICKNESS ENTER 6 ENTER AE using ten keys and press ENTER INF TN1FSH E 49 v Select LINING MATERIAL LINING MATERIAL NO LINING Enter select enter mode select TAR LINING MATERIAL ENTER or ENTER gt Select LINING THICKNESS LINING THICKNESS 0 01 mm Enter numeric value enter mode enter LINING THICKNESS ENTER GIG ines 1 25 using ten keys and press ENTER Select KIND OF FLUID KIND OF FLUID WATER Enter select enter mode select OTHERS KIND OF FLUID ENTER or ENTER gt ENTERJ A or W ENTER 7 ERINI R AE Select FLUID S V FLUID S V 1440 m s Enter numeric value enter mode enter FLUID S V 1388 m s 1388 using ten keys and press ENTER v Select VISCOSITY VISCOSITY 1 0038 E m s Enter numeric value enter mode enter VISCOSITY CENTER CIRC ENTER e 1 129 using ten keys and press ENTER Display SENSOR SPACING SENSOR SPACING 39 16 mm ESC Display t
108. ect enter mode select and TOTAL UNIT ENTER or ENTER ENTER A or W ENTER I ESC Return to TOTAL MODE TOTAL MODE TOTAL STOP Enter select enter mode select TOTAL TOTAL MODE W ENTER RESET and press ENTER ESC Display the measurement reflecting the setting Measurement display screen The following total modes are available TOTAL STOP Stops integration If integration is not stopped setting cannot be changed TOTAL RUN Starts integration Used to start integration from stopped state TOTAL RESET Starts integration making the total value to total preset value If power is restored after power failure etc operation is started from the total mode state before the power failure 62 INF TN1FSH E 4 4 9 2 Setting total pulse Total rate pulse width Description The measurement value flow rate can be integrated in response to the total pulse output from an integrating meter etc as follows 1 Total rate When total volume reaches the value specified by the total rate the total pulse value on measurement screen is added and 1 pulse is output for total pulse volume Setting range 0 to 999999 999 2 Pulse width The pulse width can be selected with the connected counters DO1 DO2 and Set the pulse width when F TOTAL PULSE or R TOTAL PULSE is used in status output setting e Pulse width 1 Pulse width of DO3
109. ection of all the items to set all the check boxes to OFF Table 12 Status output setting OUTPUT DO 1 Select from NOT USED SIGNAL ERROR F TOTAL PULSE R TOTAL PULSE F TOTAL SW R TOTAL SW F TOTAL OVERFLOW R TOTAL OVERFLOW FLOW SW HIGH FLOW SW LOW FULL SCALE 2 AO RANGE OVER PULSE RANGE OVER R FLOW DIRECTION and DEVICE ERROR Select either NORMAL or REVERSE INF TN1FSH E 125 7 11 Display Setting Click the DISPLAY button on the Menu screen and the following screen appears F Duosonics Loader DISPLAY loj Communication Setting Version 8 MEASURE PULSE DOPPLER TRANSIT TIME MAINTENANCE SYSTEM 7 ESTABLISH RANGE TOTAL STATUS End DISPLAY 1 L min M Setting DISPLAY KIND DISPLAY 2 DISPLAY KIND READ Save FSH10PA PULSE DOPPLER ENGLISH METRIC 16 33 Z 2005 05 31 16 33 04 Reading of a detailed setup was completed Fig 20 Display setting screen To select an item to be set or read set the relevant check box to ON Not to select or to reset the selection set the relevant check box to OFF 0 If Flow rate is select in the selection items flow rate unit becomes valid Sends the setting of the selected item check box set to ON reflecting the response value on the setting ISP Reads the setting of the sele
110. ed as standard Works on PC AT compatible machines Operation on PC98 series machines NEC cannot be guaranteed Operation on self made PCs or shop brand PCs cannot be guaranteed Major functions Setting changing of various parameters for the main unit If no flow velocity profile output is selected the following functions are not available Detailed setting and flow velocity profile display in pulse Doppler measurement Detailed setting and receved signal display in Transit time measurement O S Windows 2000 XP Memory requirement 128MB or more Disk unit Windows 2000 XP compatible CD ROM drive Hard disk drive capacity Free space of 52MB or more Note PC loader communication cable type ZZP TK4H6253 Specifications D sub 9 pin receptacle cable length 3m is separately required Detector frame installation fixture Installation fixture is provided to facilitate the positioning of the frame to the piping Select a desired type from the following according to the detector to be used Type Applicable detector ZZP TK7M7071C1 FSWS12 ZZP TK7M7071C2 FSWS21 ZZP TK7M7071C3 FSWS40 Note The installation fixture cannot be used for detector type FSWS50 which is not provided with a frame When stainless steel is selected as pipe material nominal wall thickness is Sch20s and the fluid is water Maximum measurable flow velocity pnm EE 100A 39 7235 Unit m s 1000A
111. eld cable for temperature sensor Two path system Two pairs of RF co axial cables for ultrasound signals and a three core shield cable for temperature sensor Maximum cable length 150m Temperature range 80 C Environment Non explosive environment without direct sunlight corrosive gas and heat radiation Ambient temperature 10 to 50 C for flow transmitter 20 to 80 C for detector Ambient humidity 95 RH or less for flow transmitter 100 RH or less for detector Grounding Class D less than 100 ohm Arrester Surge absorbers for outputs and power supply incorporated as standard Performance specifications Accuracy Pulse Doppler method Pipe size inside diameter 40mm to 50mm or less 1 5 m s to Max 1 0 of rate Detector FSWS12 Velocity Note 1 5 m s to Max Velocity Note 0 015m s 50 to 200mm 0 5 of rate Detector FSWS12 0 m s to 1 5 m s 0 0075m s 100mm to 1000 1 m s to Max 1 0 of rate Detector FSWS21 40 50 Velocity Note Note Maximum velocity is depend on a pipe diameter For maximum measurement range in Hybrid mode refer to the next page 0 01m s INF TN1FSH E Transit time method Pipe size inside diameter Velocity Accuracy 40mm to 50mm or less 2 m s to 32 m s 1 5 of rate 0 m s to 2 m s 0 03m s 590mm to 300mm or less 2 m s to 32 m s 1 0 of rate 0 m s to 2 m s 0 02m s 300mm to 1000 1 m s to 32 m s 1 0 of rate 0 m s to 1 m s 0 01m s
112. ency of each DO output port 15 applicable when the flow rate exceeds the set range Consequently if the setting is made so that the maximum frequency is obtained at 100 flow rate the flow rate exceeding 100 does not allow the total pulse output to follow Ifthe over range continues for a long time accurate total value may not be obtained If there is a possibility that the flow rate may exceed 100 review the range and the total rate and make the setting so that the maximum frequency is kept below the limit Example of calculation Find the total rate settable range under the following range and pulse width When the range and the pulse width settings are as follows Full scale 36 m h 70 01 m s Pulse width 50 ms 1 Inthe case of DOI DO2 From condition 1 Flow rate span m s 0 01 m s 3 Total rate Total rate m 1000 Hz gt 0 00001 m 0 01 L From the above 0D EJ A INF TN1FSH E 63 From condition 2 2 x Total pul idth ms 2 x 50 Total rate gt Full scale m s x mI 0 01 m s x 220101 0 001 m 1 1 The settable range of the total rate that satisfies both condition 1 and condition 2 15 found to be as follows based on the result of calculations A and B 1 L Total rate ii In the case of From condition 1 Full scale m s 0 01 m Total rate 2 THz SES 0 01 m 10 L
113. er Product nationality Japan OFuji Electric Systems Co Ltd 2005 Issued in July 2005 Rev 1st edition May 2008 NOTICE It is strictly prohibited to reproduce any part or the whole of this instruction manual The contents of this manual may be changed without prior notice INF TN1FSH E sj SAFETY PRECAUTION Before using read the following safety precaution to ensure correct handling of the flowmeter e The following items are important for safe operation and must be fully observed These items are Classified into DANGER and CAUTION Incorrect handling may lead to a risk of death or heavy injury Incorrect handling may lead to a risk of medium or light injury or to a risk of physical damage e The items noted under CAUTION may also result in serious trouble depending on circumstances items are important and must be fully observed This product has not an explosion proof structure Do not use it in a place with explosive gases otherwise it can result in serious accidents such as explosion fire etc The unit should be installed in a place conforming with the installation requirements noted in this instruction manual Installation in an improper location may lead to a risk of electric shocks fire malfunction etc The unit should be installed as noted in the manual Improper installation will cause falling trouble or malfunction of the unit During installation make sure that
114. escription Display Display SYSTEM UNIT amp LANGUAGE SYSTEM S Select SETTING UNIT amp LANGUAGE ENTER Md SETTINGY Display SYSTEM UNIT SYSTEM UNIT EM METRIC A or v Display SYSTEM LANGUAGE SYSTEM LANGUAGE JAPANESE Enter select enter mode select ENGLISH SYSTEM LANGUAGE ENTER Or ENTER gt gt ENTER A or Y ENTER d press ENTER ice Display the measurement reflecting the setting Measurement display screen INF TN1FSH E 3 4 4 15 Setting serial communication RS232C RS485 Description Communication setting can be made as follows when using transmission function Setting contents COM SPEED COM PARITY COM STOP BIT SERIAL METHOD STATION NO Setting range COM SPEED 9600bps 19200bps 38400bps COM PARITY NONE ODD EVEN COM STOP BIT 1 BIT 2 BITS SERIAL METHOD 5232 or RS485 STATION NO 1 to 31 Note See 8 1 External communication specifications for details of communication specifications Operation When setting communication speed to 9600 bps parity to even stop bit to 2 bits serial method to ps parity p example RS485 and station No to 5 Display SYSTEM UNIT amp LANGUAGE SYSTEM Sn Select SERIAL COM SERIAL COM or Enter select enter mode and select SERIAL COM ENTER A or V SETTING SETTING Display COM SPEED COM SPEED SALER 38400 bps Enter select enter mode select 9600 bps COM SPEED TER
115. et side of the pump e Upstream side of the valve nr 1 INF TN1FSH E 104 O Turbidity is high Pipe is old and scale is attached on inner side e Move the sensor to a place in the same line where pipe diameter 15 shorter O O Thick lining e Move the sensor to other places or to Mortar lining of thickness of different piping 10 mm Peeling of lining There is a gap between the lining and the pipe Sensor is attached to flow elbow or Mount it to a straight pipe taper tube O 3 Effect of noise from outside e Keep the cable between the main unit and the sensor as short as possible e There is a radio broadcast station e Ground the main unit and the piping nearby e Measurement is taken near the place where traffic is heavy cars and trains 4 Hardware failure gt Refer to 6 3 4 Measures against hardware failure The reading does not appear Convection of fluid within pipe as 0 even if the flow is stopped Zero adjustment is performed Perform zero adjustment in a state flow is completely stopped If the flow is stopped the fluid does not fill the pipe or the pipe becomes empty The reading error is Entered piping specifications differ Difference of internal diameter of 1 observed from actual specifications causes 3 error e Enter properly The pipe 15 old and scale is e Enter scale as linin
116. f composition of key operation Measurement screen Piping specifications FUNC PIPE Output setting FUNC RANGE Damping LFUNC DAMP Zero adjustment FUNC ZERO Display setting FUNC Low flow rate cutout FUNC CUT OFF Integration FUNC TOTAL Flow switch FUNC FLOW SW Status output FUNC STATUS Output calibration FUNC CAL System FUNC SYSTEM Range unit range type full scale E Output limit BURNOUT Rate limit Total unit Total pulse Total rate pulse width Total preset Total switch BURNOUT System unit System language Serial communication Calibration and check of analog output Check of status output Calibration of wedge temperature Check of wedge temperature Test mode Measurement method Sensor Mounting method type constant transmission voltage Measurement mode LCD backlight Key lock Details of measurement 1 Transit time FUNC DETAIL m Pulse Doppler Initialization 1 Intended for our service personnel INF TN1FSH E 41 s 4 4 2 4 4 4 4 4 4 2 4 4 4 3 4 4 4 4 4 4 5 4 4 6 4 4 7 4 4 8 4 4 9 4 4 9 2 4 4 9 3 4 4 9 4 4 4 9 5 4 4 10 4 4 11 4 4 12 4 4 13 4 4 14 4 4 15 4 4 16 1 4 4 10 2 4 4 16 3 4 4 16 4 4 4 16 5 4 4 4 4 4 4 3 4 4 17 4 4 18 4 4 20 1 4 4 20 2 4 4 20 3 4 3 Parameter specification table
117. flow velocity gt lt Maximum measurable flow rate gt Unit Lp ss esr pu o M 100A 369 725 125A 308 608 Jie _ 150A i Jw e ic i J La ss ia Jo amp 268 MENO EUN MESSEN ___ p po n La gu HEN SENE Ss pu p p Operation When selecting bi directional for range 100 m h for full scale 1 100 m h for full scale 2 and 5 example for hysteresis Display RANGE Display RANGE UNIT RANGE Lm ENTER a or ENTER Enter select enter mode select m h and RANGE UN press ENTER v Select RANGE TYPE RANGE TYPE SINGLE Enter select enter mode select BI DIR RANGE TYPE ENTER A TR and press ENTER Select FULL SCALE 1 FULL SCALE 1 56 32 m h Enter numeric value enter mode enter FULL SCALE 1 uds 100 using ten keys and press ENTER INF TN1FSH E 53 v ENTER J t o 0 ENTER v ESC select FULL SCALE 2 Enter numeric value enter mode enter 100 using ten keys and press ENTER Select HYSTERESIS Enter numeric value enter mode enter 5 using ten keys and press ENTER Display the measurement reflecting the setting
118. for ultrasonic sensor and 3 wire cable for temperature sensor is provided with waterproof gland G3 8 female screw Parameter setting Tag plate 12th digit None With setting With setting Tag plate Tag plate Ultrasonic Flow Meter Type Output DC4 20mA Power Supply 100 240 50 60Hz LJDC20 30V Ser No Mfd Fuji Electric Systems Co Ltd Made in Japan x A INF TN1FSH E lt Detector FSW gt Type 4th digit Standard Kind of detector 5th and 6th digit Small diameter detector 40 to 200 mm Small size detector 100 to 400 mm Middle size detector 200 to 500 mm Large size detector 6 500 to 1000 mm Use 7th digit Watertight type IP67 Modification No 8th digit Mark 1 Signal cable 9th digit None Acoustic coupler 10th digit None Silicone compound Option 11th digit None Tag Plate Ser No Fuji Electric Systems Co Ltd C in Japan Sensor unit Sensor unit The numeric value marked on the DF field of the nameplate of the sensor unit represents the sensor constant which is determined by actual current calibration performed as part of the delivery test at the factory F Ultrasonic Flow Meter Sensor constant for plastic pipe Sensor constant for metal pipe INF TN1FSH E 5 lt Signal cable FLY gt Kind of cable 4th digit Coaxial cable for ultrasonic sensors 1 pair 2 pcs Three core cable for tem
119. g attached Insufficient linear pipe length 10D Find another mounting place Mount it or more for upstream and 50D or upstream of an object causing interference more for downstream Make sure that there 1s no object that interferes with the flow within 30D upstream of the sensor Make sure that no pumps valves or junction pipes nearby e Mount the sensor in various angle against the cross sectional area of the pipe and find a place where average value 15 obtained The pipe 15 not filled with fluid or The smaller the cross sectional area the sediment has accumulated within larger the sedimentation the pipe e Move the sensor to a straight piping section INF TN1FSH E 105 6 2 4 Analog output error Specified current output Improper range setting e Set the range properly cannot be obtained Even if the reading 150 Analog output calibration deviation e Perform analog output calibration the output does not become 4 mA The output is 0 mA Break of the cable The output exceeds 20 OVER FLOW appears on the LCD Range over mA e Set the analog output range data once again The output becomes UNDER FLOW appears on the Reverse flow lower than 4 mA LCD e Set upper lower stream properly The reading changes but The output load is or more e Set it to lower than 1 the analog output stays the same The reading and the Analog output calibration deviation
120. ge from 0 to 20 of the span Auto 1 range Hysteresis for full scale 1 or 2 whichever is smaller Bi directional range Hysteresis for operation range Bi directional auto 2 range Hysteresis for the span of full scale 1 and 2 and that of full scale 3 and 4 whichever is smaller 1 The flow rate or velocity of cut off flow switch output correction rate limit changes with the selection of range unit 2 If full scale 1 and 2 are set full scale 3 and 4 are automatically set The following relation holds between full scale 1 and 3 and full scale 2 and 4 Full scale 1 Full scale 3 Full scale 2 Full scale 4 52 INF TN1FSH E 3 Maximum measurement range in hybrid mode In the case of pulse Doppler method the measurable range varies depending on the piping specifications and the type of sensors used If the measurement is to be made by hybrid method set the full scale within the range that does not exceed the measurement range If the full scale exceeds the measurement range select the time difference method for measurement After selecting the piping specifications and the sensor type check the measurement range within the maximum measurement data information range See 6 1 2 3 for details of checking The following table lists the maximum range in the case where stainless steel is selected as piping material Schedule 20S as nominal wall thickness and water as fluid to be measured Example lt Maximum measurable
121. gital output Flow switch Lower and upper switching points configurable independently Acting point applicable to digital output Total switch total switching point configurable Acting point applicable to digital output Physical specifications Enclosure protection Flow Transmitter IP67 Detector IP67 Mounting Flow Transmitter wall mount Detector Clamped on pipe surface Acoustic coupler Silicon compound RTV Material Flow Transmitter aluminum alloy Detector PBT for housing aluminum alloy for frame and SS for fastening belt Sensor cable FLY6 RF coaxial cable double shielded External sheath Black flame resistant vinyl External diameter About 7 3 mm Terminal treatment Water resistant BNC connector detector side M3 5 amplifier terminal Flow Transmitter side Mass About 90 g m Temperature sensor cable FLY7 3 core shield cable External sheath Gray flame resistant vinyl External diameter About 6 9 mm Terminal treatment Round waterproof connector detector side M3 5 amplifier terminal Flow Transmitter side Mass About 56 g m Dimensions Flow Transmitter H240 x W247 x D134 mm Detector H70 x W57 x L360 mm H72 x W57 x L540 mm H90 x W85 x L640 mm H82 x W71 x L258 mm FSWS12 FSWS21 FSWS40 FSWS50 Maximum measurement range in hybrid mode Mass Flow Transmitter 5 kg Detector 1 7 kg FSWSI2 1 9 kg FSWS2l 5 kg FSWS40 1 5 kg FSWS50 Loader software for PCs Equipp
122. he measurement reflecting the ESC setting Measurement display screen 50 INF TN1FSH E 4 4 3 Measurement mode Measurement mode AO definition Description Measurement can be taken using either 1 sensor 1 path or a pair of sensors 2 path When a pair of sensors is used one from average line 1 and line 2 can be selected for measurement calculation such as flow rate Input method Range or menu I path 2 path AO definition Average line 1 line 2 1 If 1 path is selected AO definition is for line 1 only Function block diagram Line 1 velocity Average imis Output velocity Rate limit unb correction Total Line 2 Status output velocity Flow rate calculation AO definition selector SW 2 For 2 path mode only Operation When selecting 2 path mode and setting AO definition to average example Display Display SYSTEM UNIT amp LANGUAGE SYSTEM avi A Bi v Select MEAS MODE MEAS Enter select enter mode select 2 PATH MEAS MODE A W ENTER AA and press ENTER Select AO DEFINITION AO DEFINITION LINE 1 Enter select enter mode select AO DEFINITION ENTER A W ENTER AVERAGE and press ENTER ESC Display the measurement reflecting the setting Measurement display screen INF TN1FSH E 51 4 4 4 Output setting 4 4 4 1 R
123. he state of output of input value is held until the power is turned off e If START RESET is selected as TOTAL MODE the total value also changes Select STOP not to make the total value change Operation When setting target value to 100 and making it to be reached in 15 seconds example Display Display SYSTEM UNIT amp LANGUAGE SYSTEM aun A or V Select MAINTENANCE MAINTENANCE SKIP Enter select enter mode select TEST TEST MODE ENTER A or V ENTER none MODE and press ENTER Enter select enter mode select SETTING TEST MODE ENTER TER gt gt or d and press ENTER SETTING ENTER Display INPUT DATA HERD Enter numeric value enter mode enter INPUT DATA ENTER CI o ENTER 100 using ten keys and press ENTER A or V Select TRACKING TIME TRACKING TIME 0 sec Enter numeric value enter mode enter 15 TRACKING TIME using ten keys and press ENTER 15 sec Artificially enter the flow rate to be TEST MODE e measured in SETTING of the test mode SETTING Display the measurement by artificial input Measurement display screen INF TN1FSH E 79 4 4 17 LCD backlight Description The LCD backlight of the displayed screen can be selected from ON OFF and AUTO If AUTO is selected the backlight is set to ON when values are entered from the keyboard and it 1s set to OFF on the measurement display screen If the setting is
124. here it contacts the piping 32 INF TN1FSH E silicon rubber evenly over entire 5 Apply ultrasonic transmission surface and the contact surface of the temperature sensor piping being careful not to let air bubbles mix in Clean the surface of the piping and then mount the sensor unit Separate the wire rope apart from each other place the sensor unit closely contacted to the piping and engage the wire rope in the grooves at the front and the rear of the sensor 6 9 7 Align the match mark of the sensor unit and the marking line Marking line Matching mark INF TN1FSH E 33 8 Apply silicon rubber evenly The absorber unit is not required for resin piping Proceed to 11 in this case The absorber unit is used for metal piping Proceed to 8 in this case over the entire installation surface of the absorber unit Clean the surface of the piping and then mount the absorber unit Separate the wire rope apart from each other place the absorber unit closely contacted to the piping so that 1t contacts the front face of the sensor unit and then lay the wire rope Position the sensor by making the guides on the absorber unit side sandwich the Sensor 10 Adjust the position by aligning the match mark of the absorber unit and the sensor unit with the marking line Marking line Marking line Match mark 11 After mounting the sensor on the up
125. ing method If the transit time is Measure the sensor spacing from Bo and draw a line that used the absorber unit 1s not required intersects with straight line B at right angles Find Bz From Ao to Bz is defined as the mounting position INF TN1FSH E 3f 2 Mounting the sensor Use sensor FSW50 for large diameter pipes Note Mount the sensor unit equipped with a temperature sensor on the upstream side 1 Checking the mark off line the case of 1 measurement line In the case of 2 measurement lines Draw horizontal mark off line that Draw a mark off lines at an angle 45 includes the center point of the cross from the horizon sectional view of the pipe Mark off li Mark off line ark off line Mark off line Mark off line 2 Provide a wire rope for the sensor unit on the 4 Loosen the screws of the guide plates mounted to the upstream and downstream sides and the absorber front and the rear of the sensor unit keep the guide unit Allow the length of the wire rope to be the plates protruded as far as possible and make the same or longer than the pipe diameter sensor unit closely contact the piping In a state where the guide plate contacts the piping fasten it with the screws Guide plate Guide plate Front Hear 3 Lay the wire rope around the pipe on the upstream side Then hang the spring for mounting on the wire rope Fasten the guide plate at the position w
126. iphery of the pipe and press this key and the n outer diameter is displayed valid only when outer pipe diameter 1s selected PIPE Piping specificano FUN FUNC PIPE Used to enter the dimensions material etc of the pipe to which the sensor is to be mounted RANGE Output setting RAN RANGE Used to set the analog output conditions unit range limit burnout rate limit DAMP Damping to set Used to set damping ZERO Zero adjustment FUNC ZERO Used to set zero adjustment DISP Display setting DISP Man set items and units that appear on the measurement er UP ee CUT OFF Used to set low flow rate cutout TOTAL Integration TOTAL Used to set the conditions of flow rate integration unit rate 5 preset value total switch pulse width FLOW SW Flow switch FLOW SW to set the upper lower limit switch of the measurement Used to set the conditions of status output total pulse CAL Output calibration Used to calibrate the reading of zero point and 100 point Used to switch measurement unit systems and languages and check or calibrate analog output CHECK CHECK renee m 5 measurement status in case an error DETAIL Details of Used to display the version of software or perform detailed Left arrow key Right arrow key Up arrow key Down arrow key 40 INF TN1FSH E 4 2 Setting item list Refer to Appendix 8 5 Composition of key operation for details o
127. itter Model FSH realizing single path two path measurement Hybrid mode or transit time mode is selectable In case of hybrid mode either Pulse Doppler method or transit time method is automatically selected depending on conditions of measured liquid and magnitude of velocity Application Uniform liquid in which ultrasonic waves can propagate Air bubble quantity Pulse Doppler method 0 02 to 15 of volume at 1 m s Transit time method 0 to 12 of volume at 1 m s Fluid temperature 40 to 100 C FSW12 40 to 80 C FSW21 FSW40 FSW50 Type of flow Pulse Doppler method axisymmetric flow in a filled pipe Transit time method well developed turbulent or laminar flow in a filled pipe Applicable flow pipe Material Plastics PVC FRP etc or Metals carbon steel SS copper aluminum etc Pipe size 40 to 1000 mm inside diameter Liner Tar epoxy mortar etc Straight pipe length Typically 10D for upstream and 5D for downstream Refer to JEMIS 032 in detail Note JEMIS Japan Electric Measuring Instruments Manufactures Associations Standard Velocity Hybrid mode 0 to 0 3 xMaximum Velocity depending on pipe diameter Note For maximum measurement range in Hybrid mode refer to the next page Transit time mode 0 to 0 3 32 m s Power supply 100 to 240 Vac 10 15 50 60Hz or 20 to 30 Signal cable Single path system A pair of RF co axial cables for ultrasound signals and a three core shi
128. ity 0 001 to Kerosene Milk Methanol Toluol E 999 9999 x 10 5m s Lube oil Fuel oil Petrol Others 0 0107 to 10763 9088 x Sound velocity m s ft s 10 ft s Viscosity x 10 m s ft s Range unit 19 menus m s ft s m s L s L min L h L d kL d ML d m s m h km d Mm d BBL s BBL min BBL h BBL d KBBL d MBBL d ft s ft s ft min 9 4 kft d gal s gal min gal h gal d kgal d Mgal d BBL s BBL min BBL h BBL d kBBL d MBBL d Range type Single Auto 2 Bi dir Bi dir Auto 2 Full scale or Full In terms of flow velocity 2 00 m s 19 Unit scale 1 0 00 0 30 to 32 00m s 6 56 ft s 0 00 0 98 to 104 98 ft s 0 Full scale 2 In terms of flow velocity 4 00 m s 19 Unit 0 00 0 30 to 32 00m s 13 12 ft s 5 0 00 0 98 to 104 98 9 ft s Sh 0 00 to 20 00 Rate limit 0 00 to 5 00m s 0 00 to 0 00m s 19 Unit velocity 0 to 900sec 8 Damping 154 INF TN1FSH E No Settable range Settable value 1 Display kind 7 menus Flowrate Velocity Flowrate Total forward m3 s Total reverse F Total pulse R Total pulse Flow rate 90 2 Display kind 7 menus Velocity Velocity Flowrate Total forward m s Total reverse F Total pulse R Total pulse Flow rate Low flow cut 0 00 to 5 00m s 0 00 to 0 01 m s 19 Unit 16 40 ft s in terms of flow 0 03 ft s velocity Total mode
129. k of receiving wave regarded as 100 Numeric value e Trigger level 10 to 90 INF TN1FSH E 83 Window Setting of control method of measurement window that takes in signals control Factory set value AUTO Selection e AUTO e MANUAL Set the time of starting taking in signals period from the start of transmission until the startup of window signals Numeric value e Open time F 1 us to 16383 us Numeric value e Open time R 1 us to 16383 us Note F Forward direction R Reverse direction Select F and R in manual mode Saturation The number of times that the amplitude of received signals fluctuates and exceeds 1 6V saturation per 1 flow rate signal output Used asa threshold value for judgment of signal error A signal error occurs if the specified number of times are exceeded Factory set value 32 times Numeric value e 0 to 256 Measurement Setting of measurement method for measuring transit time Factory set value method Method 2 Selection e Method 1 method strong against interference e Method 2 Controls triggers on the plus side of the direction of voltage of received signals e Method 3 Controls triggers on the minus side of the direction of voltage of received signals Signal balance Setting of threshold value used for judging the existence of transit time A signal error occurs if the specified value is exceeded Factory set value 25 Numeric value e 0 to 100 Note Set to 5
130. lling he flow CE sisis riri eaten 15 3 5 16 EO aici OUR ME 16 S dS 6 UNE 16 5s Treatment or XVIEITIS DOLL fac EA ote mai ete DN EDS AL 16 3 3 4 Removing and mounting the cover and the shield 17 os WNE SAC 5 ETT T TER 18 3 4 Setting piping parameters and calculating the sensor spacing 19 3 4 1 Selecting sensor type mounting the sensor setting the sensor 8 19 3 42 Entering piping SDOOTEICAUOTIS c peu panas tutu o dene quU on sau PCENA NE o oU n US EFE SUBE EO 21 S T stalling Dele 23 O tlme of detector mstallatt t DEOCOQUEG 23 3o 2 Teamen mounino SULLACC esos be obe 23 3 5 3 Mounting the detector by Z method using the 23 3 5 4 Mounting the sensor unit by Z method using frame 2 measurement 30 3 5 5 Mounting the sensor unit to a large diameter 3l 3 6 Selling analog output tange and total ueste arae nmt E em bra a repu opea o te Pemex Ha c RR hens 35 505 T malos output ranee esu ie indt ELE 35
131. lse range over R Flow direction Device error Mode DO 3 UJ 4 OO nN NO Status output Flow switch INF TN1FSH E 155 Settable range Settable value 2 3 45 48 Note 1 System unit Metric English Language 5 menus English Japanese English German French Spanish Measurement 2 menus Depends on 1 Path 2 Path mode the detector specification AO definition 3 menus Depends on Average Line 1 Line 2 the detector specification When total pulse output is selected for DO1 DO2 DO3 specify the total rate and the total pulse width that satisfy conditions 1 and 2 shown below Flow rate span m s 1000 Hz and DO2 Contidion 1 E T lt 1 Serial com Measurement Total rate m Hz DO3 m Flow rate span m s Condition 2 Total rate 2x Total pulse width ms In the case of 2 range setting calculate the total rate and the total pulse width using the value of full scale 1 or full scale 2 whichever is larger 156 INF TN1FSH E 8 5 Composition of key operation PIPING SPECIFICATIONS FUNC PIPE OUTER DIAMETER r PIPE MATERIAL CARBON STEEL STAINLESS STEEL PVC COPPER r CAST IRON ALUMINUM r r DUCTILE IRON r PEEK r PVDF r ACRYLIC OTHERS PIPE S V Note Displayed when OTHERS is selected from the pipe materials r WALL THICKNESS LINING MATERIAL NO LINING
132. mal condition to Valid or Invalid When set to Valid If an abnormal condition occurs it is displayed as RAS information at the upper left of the measurement screen When set to Invalid Even if an abnormal condition occurs it is not displayed as RAS information at the upper left of the measurement screen Operation 1 E2 In case of checking no signals example Display FUNC CHECK Display RAS information in CHECK RAS INFORMATION oe 000000 0000000000000 E2 NO SIGNAL 4 f Select multiple error items if any by pressing 4 or ENTER Check the contents of the error selected RAS INFORMATION If multiple error items are selected is E2 NO SIGNAL displayed PIPE IN DATA CHECK A ot v Check contents RAS INFORMATION E2 NO SIGNAL SENSOR MOUNT Display the measurement Measurement display screen 1 Composition of RAS information DR Occurring 1 Not occurring gt 0 E1 DEVICE ERROR E1 TEMPERATURE SENSOR ERROR RESERVE RESERVE E2 DATA COLLECTION ERROR E2 WINDOW SCAN E2 NO SIGNAL E2 SIGNAL ERROR E2 SIGNAL RANGE OVER E2 CALCULATION ERROR RESERVE RESERVE E3 DATA COLLECTION ERROR E3 SIGNAL ERROR E3 FREQUENCY CALCULATION ERROR E3 SUCCESS RATE RESERVE RESERVE E4 RANGE OVER E4 TEMPERATURE SPECIFICATION ERROR 98 INF TN1FSH E Operation 2 El When Temperature sensor anomaly is invalid example DETAIL VERSION oe
133. mitter Check ON OFF Set the check box to ON to select all the items to set all the check boxes to ON Set the check box to OFF O to release the selection of all the items to set all the check boxes to OFF 135 Table 19 lt Detailed Setting gt Item Content Select from BURST 1 BURST 2 BURST 3 BURST 4 BURST 5 CHIRP 4 and TRANSMIT PATTERN CHIRP 8 TRANSMIT COUNT Select from 8 16 32 64 128 and 256 MEASURE METHOD Select from METHOD 1 METHOD 2 and METHOD 3 TRIGGER LEVEL With selection of AUTO MANUAL in case of MANUAL input range of numeric 10 00 to 90 00 at right column WINDOW CONTROL With selection of AUTO MANUAL case of MANUAL input range of numeric 1 to 16383 in each column of OPEN TIME F OPEN TIME R AGC GAIN With selection of AUTO MANUAL in case of MANUAL input range of numeric 0 00 to 100 00 in each column of FORWARD REVERSE TRANS WAIT TIME Enter in the range of numeric to 30 msec 136 INF TN1FSH E 7 15 2 Received Signal optional function Click RECEIVED SIGNAL and the following screen appears TRANSIT TIME SETTING RECEIVED SIGNAL MEASURE MODE START Stop amp LINE1 C LINE2 Kind of Collection RECEIVED DATA F FILTER F C CORRELATION Save As CSV RECEIVED DATA R FILTER R save aac Signal waveform Trigger level iy Hi 0 1000 1100 2005 05 3
134. n on the power 8 Check that the LCD display and key operation are normal N CAUTION e The unit has high voltage section Be sure to turn off the power before opening the cover Flat cable connector LCD unit M3 screw x 4 INF TN1FSH E 95 6 TROUBLESHOOTING 6 1 How to confirm normal operation 6 1 1 Checking on LCD If the following display does not appear press the ESC key Displayed symbol El Device error backup memory wedge temperature measurement circuit OoOo EBR Measurement error transit time error Measurement error pulse Doppler error Re B Range over wedge temperature measurement error D Measurement by pulse Doppler method Measurement method Displayed symbol Operation status Flow in positive direction ERE Flow in negative direction 96 INF TN1FSH E 6 1 2 Checking measurement status information 6 1 2 1 Checking and setting of RAS information Description 1 Checking of RAS information Check the details of error status The following table lists the RAS information displayed on the upper left corner of the measurement screen If an error 1s detected take measures according to 6 2 Faults and remedies snl RAS information Displayed contents E1 Device error e Backup memory error e Hardware error e Measurement circuit error 1 Temperature sensor error e Check cable connection e Break of cable e Temperature circui
135. n other cases Click SETTING and the following screen appears TRANSIT TIME lal xl SETTING RECEIVED SIGNAL CONDITION MEASURE MODE LINE1 C LINE2 Click detailed setting tab TRANSMIT PATTERN TRANSMIT COUNT MEASURE METHOD BURST 3 126 METHOD 2 1 WINDOW CONTROL AUTO OPEN TIME F OPEN TIME R MANUAL us Select either Line 1 or Line 2 first INF TN1FSH E us 3258 25 35 3071 SATURATION w AGC GAIN AUTO SIGNAL BALANCE C MANUAL 70 00 31 7000 X ms SIGNAL PEEK FORWARD REVERSE 25 pa TRANS WAIT TIME v TRIGGER LEVEL AUTO C MANUAL 2005 08 20 10 32 31 CONDITION MEASURE MODE1 Readind was 1 FSH03AA HYBRID ENGLISH METRIC 10 32 Fig 27 Detailed information screen As to selected Lateral line select the items to be set and read Set the check box items to be set to M Set the check box of the items not to be selected to reset the selection to OFF L1 Sends the setting of the selected item check box set ON reflecting the response value on the setting 0 Reads the setting of the selected item check box set to ON reflecting the response value on the setting Reflects the setting sent by pressing the Setting button on the flowmeter flow trans
136. ng digital output DO 1 example Description Dily SYSTEM Display SYSTEM A oi V Select MAINTENANCE ae A or V Enter select enter mode select DO 1 and press ENTER O O F Enter select enter mode select ON and DO 1 CHECK press ENTER Check of status output DO 1 ON Enter select enter mode select OFF and DO 1 CHECK F press ENTER F Check of status output DO 1 OFF Display the measurement reflecting the setting Measurement display screen 1 The status output is affected by 2 Mode Normal Reverse of 4 4 11 Status output 6 INF TN1FSH E 4 4 16 3 Calibrating temperature sensor Description The resistance of the wedge temperature measurement can be calibrated as follows Setting contents Calibrate Calibrates resistance value 1000 wedge temperature 0 C and resistance value 140Q wedge temperature 100 C Clear Displayed under uncalibrated state or when calibration error has occurred The uncalibrated state cannot be restored after calibration Note Temperature sensor specifications Measurement range 40 to 100 C Sensor Built into resistance bulb for wedge temperature measurement Built in resistor JIS C1604 Class B or equivalent Transformer Built into resistance temperature conversion circuit Connection 3 wire Connect a resistor to temperature sensor terminals as shown below
137. nsor constant line 1 F METAL 101 for 1 R METAL Display FUNC SYSTEM Display System UNIT amp E ee hd Select SENSOR MOUNT SENSOR MOUNT V METHOD Enter select enter mode select Z SENSOR MOUNT W ENTER ne op METHOD and press ENTER Select SENSOR TYPE SENSOR TYPE or V FSW21 Enter select enter mode select FSW12 SENSOR TYPE 7 and press ENTER v select SENSOR CONSTANT SENSOR CONSTANT SKIP ENTER A or W ENTER Enter select enter mode select Setting LINE 1 F METAL and press ENTER 100 0096 ENTER 1 0 2 ENTER Enter numeric value enter mode enter LINE 1 F METAL 102 using ten keys and press ENTER 102 0076 A or v Select LINE 1 R LINE 1 R ene ENTER 1 0 1 ENTER Enter numeric value enter mode enter LINE 1 R METAL 101 and press ENTER 101 00 ESC Return to SENSOR CONSTANT SENSOR CONSTANT SKIP Display measurement reflecting setting Measurement display screen 20 INF TN1FSH E 3 4 2 Entering piping specifications m Description By setting the conditions of the piping where measurement is to be taken the sensor spacing to be mounted can be calculated The sensor spacing 15 calculated automatically Enter data for each item listed in the following table according to the display Input method 10 00 mm to 6200 00 mm
138. observing the sensor spacing measurement error increases e Orreceive wave error may result e Select the sensor constant of the applicable unit as sensor constant value Otherwise the measurement error may increase Enter data for each item see the following table according to the display Range or menu Sensor type Selection FLWII FLW41 FLW12 FLDI2 FLD22 FLW32 FLW50 A Sensor constant Line F METAL PIPE Numeric value 0 00 to 300 00 Line R METAL PIPE Numeric value 0 00 to 300 00 Line F PLASTIC PIPE Numeric value 0 00 to 300 00 Line R PLASTIC PIPE Numeric value 0 00 to 300 00 Line No 20 40 Vpp 80 Vpp 160 Vpp 1 If hybrid is selected as measurement method select sensor type from FSW12 FSW21 FSW40 FSW50 If hybrid method is selected sensor type can be selected only from FSW12 FSW21 FSW40 and FSW50 2 In sensor constant set the sensor constant calculated based on actual current calibration performed as part of the delivery test at the factory Set the sensor constant for each of the sensor units mounted to the pipe The sensor constant appears as the DF value marked on the nameplate of the sensor unit The setting need not be changed normally Make the setting when the detector or the flow transmitter 1s replaced It appears as the DF P value on the nameplate of the sensor unit if the sensor is mounted on a plastic pipe It appears as th
139. ollowing screen appears 7 TRANSIT TIME SETTING RECEIVED SIGNAL CONDITION C LINE2 Item of Collection Item of Collection WEDGE S V m s WEDGE S V m s WEDGE ANGLE deg WEDGE ANGLE deg PIPE S V m s PIPE S V m s ANGLE IN PIPE deg ANGLE IN PIPE deg LINING S V m s LINING S V m s ANGLE IN LINING deg ANGLE IN LINING deg FLUID S V m s FLUID S V m s WEDGE TEMP degF WEDGE TEMP degF ANGLE IN FLUID deg ANGLE IN FLUID deg TOTAL TIME us TOTAL TIME us WINDOVW OPEN us WINDOW OPEN us TOTAL TIME us TOTAL TIME us FORWARD TIME us FORWARD TIME us REVERSE TIME us REVERSE TIME us TRANSIT TIME ns TRANSIT TIME ns DELAY TIME us DELAY TIME us FLUID S V us FLUID S V us ANGLE IN FLUID deg ANGLE IN FLUID deg REYNOLDS No us REYNOLDS No us K K VELOCITY m s VELOCITY m s SIGNAL POWER F SIGNAL POVWER F SIGNAL POVWER R SIGNAL POVVER R leis TRIG LEVEL F TRIG LEVEL R TRIG LEVEL R SIGNAL PEEK F SIGNAL PEEK F SIGNAL PEEK R SIGNAL PEEK R 4 2005 05 31 16 47 12 CONDITION MEASURE MODE2 Readind was 1 FSHIOPA TRANSIT TIME ENGLISH METRIC 16 47 Fig 29 lt Operation Information screen gt Select either Line 1 or Lline 2 first Reads operation information in batch Save As CSV Saves Operation Information in file with CSV form
140. or FSWS12 21 a 72 E cL Stainless steel belt Detector FSWS50 Detector main unit FSWS50 er 1 set Absorber unit ee RO E RR RU o SL RU D UR 1 set Wire 1 set Spring for mounting ee ee ee IR RR 1 set Signal cable FLY Cable for ultrasonic signals 78 pair 2 pcs Signal cable FLY 7 Cable for temperature SCNSOL 9M 1 CD ROM Instruction manual and Loader software Detector FSWS50 Frame Sensor unit Absorber unit Sensor unit rame Sensor unit Signal cable FLY 7 Cable for temperature sensor INF TN1FSH E 1 3 Checking type and specifications The specification plates attached to the flow transmitter and the detector list the type and specifications of the product Check that they represent the type you ordered referring to the following code symbols lt Flow transmitter FSH gt 12345 6 7 8 9 1011 12 Type 4th digit Standard Japanese Standard English Velocity profile output 5th digit None Available Use 6th digit Single path or Changeover two path Note Note 2 sets of detectors and coaxial cables FLY6 needed for two path system Power supply 7th digit 100 to 240VAC 50 60Hz to 30VDC Conduit connection 10th digits G1 2 and G3 8 female screw with waterproof gland G1 2 female screw with union gland for plica Note The wiring port for coaxial cable
141. perature sonsor 00 0 1 0 1 02 02 03 03 04 04 05 05 06 06 07 07 08 08 09 09 10 1 4 12 1 3 14 15 6 INF TN1FSH E 1 4 Names of each part and functions raa 5 EIESUESUSEEELI 19 20 Wiring connection port for power cable Wiring port for power cable cable sensor cable 2 3 Wiring connection port for DO output Wiring port for for DO output cable cable Display and setting unit Displays flow rate etc Used for various setting operations Displays flow rate and various settings Setting key Used for making settings Connect power cable to this terminal 9 I O terminal Connect power output cable communication cable and temperature sensor cable to this terminal INF TN1FSH E B 15 Used for fastening the sensor by pressing it against the piping 16 BNC connector for ultrasonic signal cable Transmits ultrasonic send receive signals 17 Water tight connector for temperature Transmits temperature sensor signals sensor cable 18 Stainless steel belt Used for fastening the sensor frame to the piping 19 Ultrasonic wave transmission surface Transmits ultrasonic waves to the fluid to be measured or receives them through the piping 20 Temperature sensor piping contact surface Makes the temperature sensor contact the piping 21 Protects the unit from contact with high voltage section 22 Shield plate Shields the input terminal 10
142. plane in the case of horizontal pipe run Mount it at an arbitrary position on the outer periphery in the case of vertical pipe run Pipe 45 Horizon 45 3 Avoid mounting the flowmeter 1 a position where the pipe is deformed or on a flange or welded part Welded part Overlaid on welded part Not overlaid on welded part 219 INF TN1FSH E 2 2 3 Mounting the sensor The detector can be mounted Z method as shown in Fig 1 As shown in Fig 2 the center of the cap screw of the sensor is a reference The mounting spacing of the two sensors corresponds to the V shaped portion in Fig 3 INF TN1FSH E Z method Retainer plate Sensor on downstream side Sensor on upstream side Sensor mounting spacing Flow direction gt Fig 1 Mounting of sensor Attaching screw Reference Fig 2 Reference surface of sensor Retainer plate V shaped portion Fig V shaped portion on the retainer plate 13 3 INSTALLATION AND BEFORE START OF OPERATION 3 1 Before operation 1 2 3 4 5 6 7 8 9 Selection of installation location of flow transmitter and detector Installation and wiring of flow transmitter Power ON Check the power supply specifications and wiring before turning on the power Entering of piping parameters and calculation of the sensor spacing Check the sensor spacing if parameter setting is provided Mounting of fr
143. plate to the thread parts of the frame and make the retainer plate contact tightly with the frame In this procedure fully fasten the screws of the retainer plate so that the sensor unit and absorber unit contact with the retainer plate as tightly as possible Butterfly nut Retainer plate 4 Fix the retainer plate with the butterfly nuts Subsequently fasten the cap screws so that the sensor unit and absorber unit contact with the piping tightly portion 2 Before mounting the sensor unit to the frame apply silicon rubber evenly over the entire ultrasonic transmission surface of the sensor unit and the surface of the temperature sensor that is to contact the pipe being careful not to let air bubbles mix in Before mounting the absorber unit apply silicon rubber evenly over the entire installation surface of the absorber unit 28 INF TN1FSH E 5 Fix the absorber unit with the cap screws so that the absorber unit comes in contact with the sensor unit Bm The absorber unit comes in contact The absorber unit does not come in contact with the with the sensor sensor unit unit 6 Mount the opposed sensor units paying attention to the spacing of the sensors 7 Mount the two sensors so that their front faces face each other Mount only one sensor to one frame 8 Connect the temperature sensor cable to waterproof connector for the temperature sensor cable INF TN1FSH
144. r diameter i i diameter diameter Nominal diameter A Hard vinyl chloride pipe for city water JIS K6742 1975 diameter diameter of pipe 13 18 2 5 20 26 3 0 PVDF HP ae T nhe 510 PNIO 510 PNI6 58 20 mm mm mm mm 20 1 9 1 9 29 1 9 1 9 INF TN1FSH E 169 a Velocity of sound subject to change f temperature of water 0 to 100 C 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Note Temperature V Velocity of sound 1402 74 1407 71 1412 57 1417 32 1421 98 1426 50 1430 92 1435 24 1439 46 1443 58 1447 59 1451 51 1455 34 1459 07 1462 70 1466 25 1469 70 1473 07 1476 35 1479 55 1482 66 1485 69 1488 63 1491 50 1494 29 1497 00 1499 64 1502 20 1504 68 1507 10 1509 44 1511 71 1513 91 1516 05 1518 12 1520 12 1522 06 1523 93 1525 74 1527 49 1529 18 1530 80 1532 37 1533 88 1535 33 1536 72 1538 06 1539 34 1540 57 1541 74 1542 87 170 1543 93 1544 95 1545 92 1546 83 1547 70 1548 51 1549 28 1550 00 1550 68 1551 30 1551 88 1552 42 1552 91 1553 35 1553 76 1554 11 1554 43 1554 70 1554 93 1555 12 1555 27 1555 37 1555 44 1555 47 1555 45 1555 40 1555 31 1555 18 1555 02 1554 81 1554 57 1554 30 1553 98 1553 63 1553 25 1552 82 1552 37 1551 88 1551 35 1550 79 1550 20 1549 58 1548 92 1548 23 1547 50 1546 75 1545 96 1545 14 1544 29 1543 41 INF TN1FSH E b Sound velocity and densit
145. r more recommended 52 MB memory or more for free space required 7 3 3 Interface RS232C port or RS485 port 7 3 4 OS Windows 2000 XP INF TN1FSH E 7 4 Installing of Software 1 Insert the setup disk into the drive and double click Duosonics ENG msi Fig 4 lt File Installation gt 2 Setting wizard will start up Click the Next button Click the Cancel button to cancel the installation im Duosonics ENG Welcome to the Duosonics ENG Setup Wizard The installer will quide you through the steps required to install Duasonics ENG on your computer Click Nest to continue WARNING This computer program is protected by copyright law and intermational treaties Unauthorized duplication or distribution of this program or any portion of it may result in severe ar criminal penalties and will be prosecuted to the maximum extent possible under the law Cancel Previous Fig 5 lt Setup wizard screen gt 3 There is a query about selection of installation folder Click the Next button to install the software in that folder To specify a folder click the Browse button and select or enter directly To return to the previous screen click the Previous button Click the Cancel button to cancel the installation im Dunosonics ENG 1501 Select Installation Folder The installer will install Duosonics ENG in the following folder
146. rature becomes 0 C example Display Display SYSTEM UNIT amp LANGUAGE FUNC SYSTEM an v select MAINTENANCE MAINTENANCE SKIP Enter select enter mode select WEDGE ADJUST TEMP or W ENTER TEMP and press ENTER or Select CHECK TEMP CHECK m ENTER Update the temperature display CHECK i m ESC Display the measurement Measurement display screen About 4 seconds after the resistance value of the wedge temperature 1s changed the temperature of the changed resistance value is displayed The temperature display during that period is not constant 2 The accuracy of the wedge temperature 15 1 5 C The accuracy depends also on the accuracy of the resistor 78 INF TN1FSH E 4 4 16 5 Test mode Description In the test mode flow rate is artificially input to check the state of integration and the operation of the flow rate switch etc Set the target value as full scale and the period until the target value 1s reached tracking time can be arbitrarily set Input data setting range 0 to 120 Tracking time setting range 0 to 900 sec Output Output data Base scake Time Tracking time N CAUTION e By performing the operation the output of analog outputs DO1 DO2 and DO3 varies depending on the setting Check if each output can be changed beforehand sure to return the setting to NOT USE after the test is completed If not t
147. rving the specified sensor spacing If sensors are mounted not by strictly observing the sensor spacing measurement error increases Or receive wave error may result Enter data for each item see the following table according to the display Input method Range or menu 10 00 mm to 6200 00 mm Pipe material Selection Carbon steel stainless steel PVC copper cast iron aluminum FRP ductile iron PEEK PVDF acrylic and others No lining tar epoxy mortar rubber Teflon pyrex glass PVC and others Kind of fluid Selection Water seawater dist water ammonia alcohol benzene bromide ethanol glycol kerosene milk methanol toluol lube oil fuel oil petrol and others Fluid S V 500 m s to 2500 m s 0 0010E m s to 999 9999E 1 Set the sound velocity when pipe material is others only 2 Set the sound velocity when lining material 15 others only 3 Set the lining thickness when lining material is No lining only 4 Set the sound velocity when the kind of fluid is others only Operation When outer diameter is 114 3 mm pipe material is carbon steel wall thickness is 6 0 mm lining example material is tar epoxy lining thickness is 1 25 mm kind of fluid is heavy water sound velocity is 1388m s and viscosity is 1 129 E m s When sensor mount 15 Z method sensor type is FSW12 Display Display SENSOR SPACING SENSOR SPACING ias 9 17 mm Sel
148. s to set all the check boxes to ON II Set the check box to OFF 0 to release the selection of all the items to set all the check boxes to OFF 0 INF TN1FSH E 119 Table 3 lt Piping Specifications gt Item Content PIPE MATERIAL Select from carbon steel stainless steel PVC Copper Cast iron aluminum FRP ductile iron peek PVDF acrylic and others Enter in the range from 1000 to 3700 m s if piping material is Others LINING MATERIAL Select from no lining tar epoxy mortar rubber Teflon pyrex glass PVC and others LINING SOUND Enter in the range from 1000 to 3700 m s if lining material is Others VELOCITY LINING THICKNESS Enter in the range from 0 01 to 100 00 mm if lining material is other than No Lining KIND OF FLUID Select for water seawater dist water ammonia alcohol benzene bromide ethanol glycol kerosene milk methanol toluol lube oil fuel oil petrol and others FLUID S V Enter in the range from 500 to 2500 m s if fluid type is Others VISCOSITY Enter in the range from 0 0010 to 999 9999 x 107 m s if fluid type is Others SENSOR SPACING Read only is valid Table 4 System AO DEFINITION Select from average line and line 2 Line 1 only when 1 path is selected as measurement mode TRANSMIT VOLTAGE Select from 20 40 80 and 160Vpp Table 5 Sensor SENSOR TYPE Select from FLW11 FLW41 FLWI2 FLD12 FLD22 FLW32 FLWS51
149. select enter mode select CHECK and VERSION INF ENTER A or 7 ENTER press ENTER Check the version of MEASUREMENT MEASUREMENT BOARD BOARD FSH1MES A or V Select CONTROL BOARD Check the version of CONTROL BOARD FSH1MMI Display the measurement Measurement display screen 90 INF TN1FSH E 5 MAINTENANCE AND INSPECTION 5 1 Daily inspection Visually check the following e Check the screw of the flow transmitter cover for looseness Fasten e Check the cable gland for looseness Fasten e Check the stainless belt of the detector for sag Stretch e Check the LCD for error display measurement error Check that the state of detector mounting or wiring is normal Check that the pipe is filled with fluid Decrease air bubbles or foreign substances if contained in the fluid too much 5 2 Periodic inspection 5 2 1 Checking zero point Stop the flow of the fluid fill the pipe with fluid and check zero point Refer to 4 4 6 Zero adjustment 5 2 2 Calibrating current output circuit Adjust the 4 mA and 20 mA analog outputs Refer to 4 4 16 1 Analog output adjustment and check 5 2 3 Calibrating temperature sensor circuit Adjust the resistances 100 Q and 140 Q of wedge temperature measurement Refer to 4 4 16 3 Calibrating temperature sensor INF TN1FSH E 91 5 2 4 Measuring insulation resistance N CAUTION
150. sfies the conditions described in 2 2 1 Length of straight section of pipe Assure sufficient working space for installation and maintenance referring to the figures shown below SS SS O V O _ Ceper 29 N 2 Se SS N 600 600 D 1200 or more or more D or more a lt gt lt P D Pipe diameter Space required for mounting of detector 10 INF TN1FSH E 2 2 1 Length of straight section of pipe To assure the accuracy of flow rate measurement allow sufficient length of the straight section of the pipe on the upper lower stream side referring to straight pipe conditions shown below D Inside diameter of pipe Classification Upstream side z L 10D Detector 90 bend Tee 10D or more Various Valve In case that flow control valve exists on In case that flow control valve exists on upstream side downstream side Stop valve Check valve j Note The source EMIS 032 INF TN1FSH E 44 2 2 2 2 Mounting position The instrument can be mounted horizontally or in any other position However pay attention to the following 1 Allow fluid to fill the pipe and keep it flowing at all times The pipe may not be filled with fluid Air tends to pile up 5 d The pipe may not be filled with fluid Pump Good 2 Mount the flowmeter within 45 from the center
151. shifts to left 100 00 112 639 m h Display 4 gt on both sides of the value 100 00 gt of display 2 112 639 m h The value of display 2 shifts to right 4 100 gt 112 639 m h Reflect the setting 10096 112 639 m h 60 INF TN1FSH E 4 4 8 Cut off Description The output can be cut when the flow rate 15 low This flowmeter may display flow rate even when the fluid within the pipe is moving due to convection etc even if the valve is closed Set the cut off value as required Setting range 0 to 5 m s in velocity Enter absolute value Output Flow rate Cut off setting Operation When the cut off point is set to 10 m h example Display Display CUT OFF CUT OFF 3 h Enter numeric value enter mode enter 10 usin CUT OFF sagen o ENTER ten keys and press ENTER 10 00 m ESC Display the measurement reflecting the setting Measurement display screen INF TN1FSH E 61 4 4 9 Integration 4 4 9 1 Total unit Description The measurement value flow rate can be integrated as follows 1 Total unit Select one from the following total units mL L km mBBL BBL kBBL Note Set the total mode to total stop state to make the setting Operation When starting integration using as total unit example Display Display TOTAL MODE TOTAL MODE EIST RAEN TOTAL STOP v Select TOTAL UNIT TOTAL UNIT mL Enter sel
152. side Finished outer diameter 6 9 mm 3 3 3 Treatment of wiring port The casing of the flow transmitter 1s of watertight type IP67 However to prevent entry of moisture and occurrence of condensation airtight processing of wiring ports is required Be sure to take measures against entry of water using the waterproof glands supplied with the instrument Tightly seal unused glands using the supplied sealing caps N CAUTION Do not install the flow transmitter in a place subject to the occurrence of flooding 16 INF TN1FSH E 3 3 4 Removing and mounting the cover and the shield plate Before installing wiring loosen the 2 M4 screws and remove the cover A lt lt lS Screw Cover Shield plate Screw On completion of wiring work be sure to mount the shield plate and the cover CAUTION e Besure to mount the cover before turning on the power e Ifthe shield plate is not mounted malfunction may result INF TN1FSH E 2347 3 3 5 Wiring to each terminal Install wiring according to the layout shown below Power board terminal block Power supply terminal AC ccce ec caes fi e Outer earth terminal Signal terminal Control board terminal block SERIAL Cable Cable Cable SERIAL Black Black Yellow Green To Temp sensor 4 15 6 7 GND GND GND UP STR DO
153. stream side along with the absorber unit in the case of metal piping mount the sensor on the downstream side along with the absorber unit in the case of metal piping in the same manner Upstream side p Downstream side 24 12 Connect the temperature sensor cable to the waterproof connector for the temperature sensor cable 13 Connect the ultrasonic signal cable to BNC connector of the sensor unit being careful not to reverse the wiring on upstream and downstream sides Upstream side n E 2 p Downstream side Note Do not pull the cable at this time Otherwise the sensor unit may move thus causing problems in measurement INF TN1FSH E 3 6 Setting analog output range and total pulse The following table lists the analog output and total pulse settings 3 6 1 Analog output range setting Description Make the setting as shown below when outputting the measured value flow rate or flow velocity in specified range within 4 to 20 mA The following is an example of operation Refer to 4 4 4 for details of the setting Key operation Operation In the case of Bi directional range and full scale 1 set to 100 m h full scale 2 to 100 m h range example hys to 5 lower limit to 10 2 4 mA upper limit to 110 21 6 mA output burnout to the lower limit value burnout timer to 30 seconds rate limit to 5 m h and rate limit timer to 15 sec Description Display
154. t Enter 0 0 3 to 32 m s fitting value comply with range unit Table 7 lt Damping gt Item Content DAMPING Enter in the range of 0 0 to 100 0 sec Table 8 lt Low Flow Rate Cut gt Item Content CUT OFF Enter 0 to 5 m s fitting value comply with range unit Table 9 lt High and Low Limit Switch gt FLOW SW LOW Enter 0 to 32 m s fitting value comply with range unit FLOW SW HIGH Enter 0 to 32 m s fitting value comply with range unit HYSTERESIS Enter in the range of 0 to 20 Table 10 lt Output Correction gt ZERO Enter 0 to 5 m s fitting value comply with range unit SPAN Enter in the range of 0 to 200 122 INF TN1FSH E 7 9 Total Setting Click the TOTAL button on the Menu screen and the following screen appears Duosonics Loader TOTAL l zimiz Communication Setting Version x MEASURE PULSE DOPPLER TRANSIT TIME MAINTENANCE SYSTEM ESTABLISH RANGE STATUS DISPLAY End TOTAL OUTPUT Setting TOTAL RATE BURNOUT BURNOUT TIMER sec PRESET PULSE WIDTH 1 msec T FTOTAL SW 5 VEHEITELZ msec RTOTAL PRESET RTOTAL SW TRANSITTIME ENGLISH METRIC Fig 18 Total setting screen To select an item to be set or read set the relevant check box to ON Not to select to reset the selection set the relevant check box to OFF 0
155. t change even if the flow rate changes error display on LCD of 6 2 3 Measurement value error 2 When it is larger than 2 4 Vpp The flow transmitter may be defective Inform us of the details of the error 3 Check that overall noise level is kept at 0 48 Vpp or lower If the noise level is higher than that value possible causes are as follows Failure of dedicated cable Check continuity and insulation resistance Reverse polarity of terminals connected Check connection Detector mounting failure degradation of Take measures by referring to the section that The reading S N does not change even if the flow rate changes error display Effect of noise from outside on LCD of 6 2 3 Measurement value error Mounting surface of the detector is insecure Remove the detector and remount it securely Imperfect wiring work Check that the dedicated signal cable runs through metal conduit tube and that it does not run through the tube together with power cables and power lines Contact failure 108 INF TN1FSH E Magnified view of signals 100MS sz i10psAlw 0 Time base Ito 2 Peak fluctuation CH TMaanified signals m and time base Fluctuation of time axis Point 1 Startup is kept within 3 to 5 waves If startup of signals is not good piping parameters may not be entered properly or the mounting status of the detector may not be good Che
156. t error e Hardware error E2 E2 Data collection error e Check sensor type e Hardware error e Turn on the power again OFF OFF E2 No signal e Check receive sensitivity e Ultrasound waves cannot e Check pipe input data be propagated into pipe e Check sensor mounting dimensions e Check sensor type e Check cable connection e Check that the pipe is filled with fluid E2 Signal error e Check receive sensitivity Receive sensitivity is low e Check mixing in of air Receive signal waveform bubbles is improper e Check mixing in of foreign substances e Check zero point status E2 Signal range over e Check pipe input data Receive signals do not fall e Check sensor mounting within measurement dimensions window E2 Calculation error e Check pipe input data Improper pipe e Check receive sensitivity specifications e Turn on the power again OFF ON E3 E3 Data collection error e Check sensor type Parameter setting error e Turn on the power again Hardware error OFF gt ON e Check receive sensitivity reflector E3 Frequency calculation e Check pipe input data e The difference in flow rate error e Check sensor type measured with the reverse direction sensor and the forward direction sensor 15 large from reflector is low e Check integration INF TN1FSH E 97 2 Setting of RAS information Set the RAS information 1 to E4 which display abnor
157. te When setting is changed it should be executed with the mode stop 124 INF TN1FSH E 7 10 Status Output Setting Click the STATUS button on the Menu screen and the following screen appears 5 Duosonics Loader STATUS ml x Communication Setting Version 18 x MEASURE PULSE DOPPLER TRANSIT TIME MAINTENANCE SYSTEM ESTABLISH RANGE TOTAL seus DISPLAY End STATUS XOT MODE DO 1 Setting T OUTPUT DO 2 MODE DO 2 aT MODE DO 3 READ Save 2005 05 31 16 32 17 Reading of a detailed setup was completed FSH10PA PULSE DOPPLER ENGLISH METRIC 16 32 2 Fig 19 lt Status output setting screen gt To select an item to be set or read set the relevant check box to ON Not to select to reset the selection set the relevant check box to OFF 0 Sep RR Sends the setting of the selected item check box set to ON reflecting the response value on the setting ERT Ac OR Reads the setting of the selected item check box set to ON reflecting the response value on the setting Reflects the setting sent by pressing the Setting button on the flowmeter flow transmitter Check ON OFF Set the check box to ON to select all the items to set all the check boxes to ON Set the check box to OFF O to release the sel
158. tention to the number of times of contact operation Card relay type RB104 DY Fuji Electric Replacement procedure 1 Turn off the power and open the cover 2 As shown by the following photo pull out the card relay on the measurement board located under the power supply board from the socket 3 Set anew card relay into the socket Push the card relay securely until the nail of the relay engages in position 4 Close the cover and turn on the power 5 Check the ON OFF operation in status output check in maintenance Refer to 4 4 16 2 Checking status output N CAUTION e The unit has high voltage section Be sure to turn off the cover before opening the cover Power supply board Measurement board 94 INF TN1FSH E 5 5 Replacing LCD The nominal service life of the LCD is 10 years The contrast gradually deteriorates with time Replace the LCD when 5 to 6 years have passed since the start of use Replacement procedure 1 Turn off the power and open the cover 2 Open the setting section of the display unit 3 Remove the flat cable connector 4 Remove the screws fastening the LCD unit 4 positions 5 Mount a new LCD unit see parts list Insert the operation key into the hole of the cover properly paying attention not to let the operation key to be pressed against or caught by the cover 6 Insert the flat cable connector Insert it securely 7 Close the cover and tur
159. terms of flow velocity 2 00 m s 19 Unit 0 00 0 30 to 32 00m s 6 56 ft s 0 00 0 98 to 104 98 ft s PiPing specification scale 1 Full scale 2 In terms of flow velocity 4 00 m s 19 Unit si 0 00 0 30 to 32 00m s 13 12 ft s 0 00 0 98 to 104 98 9 ft s Sp 0 00 to 20 00 Rate limit 0 00 to 5 00m s 0 00 to 0 00m s 19 Unit 16 40 ft s in terms of flow velocity 0 to 900sec 8 unadjusted 1 Display kind 7 menus Flowrate Velocity Flowrate Total forward m3 s Total reverse F Total pulse R Total pulse Flow rate 90 2 Display kind 7 menus Velocity Velocity Flowrate Total forward m s Total reverse F Total pulse R Total pulse Flow rate 90 42 INF TN1FSH E NO UA NN Mn a Settable range Settable value 22 Low flow cut off 0 00 to 5 00m s 0 00 to 0 01 m s 19 Unit 16 40 ft s in terms of flow 0 03 ft s velocity Total Uo U Go WW Status output Flow switch c c E gt gt BRR BW UJ 4 ON CA I INF TN1FSH E F Total preset Pulse width 2 Mode DO 1 Output DO 2 Mode DO 2 Output DO 3 Mode DO 3 CAL zero CAL span t i 0 000 to 999999 999 0 000 8 Unit 0 000 to 9999999999 999 0 000 0 00 to 5 00 m s
160. the inside of the unit 15 free from cable chips and other foreign objects to prevent fire trouble malfunction etc The items under Caution on Installation noted in the manual must be fully observed Careless installation may result in trouble or malfunction of the unit ii INF TN1FSH E N CAUTION N CAUTION INF TN1FSH E Caution on Wiring When performing wiring termination to prevent output trouble caused by moisture dew condensation or water leak follow Section 3 3 Flow transmitter wiring described in this manual Before performing the wiring work be sure to turn OFF the main power to prevent electric shocks Do not perform wiring work outdoors in rainy days to prevent insulation deterioration and dew condensation Otherwise it can result in trouble malfunction etc Be sure to connect a power source of correct rating Connection of a power source of incorrect rating may lead to a risk of fire The unit must be earthed as specified to prevent electric shocks or malfunction The analog output signal cable should be wired as far away as possible from high voltage lines to prevent entry of noise signals as it will cause malfunction of the unit To prevent malfunction of the unit the analog output signal cable and power cable should be wired using separate conduits Caution on Maintenance Inspection The unit should be inspected everyday to always obtain good results of measurements When measuring the insula
161. tion resistance between the power output terminal and the case follow Section 5 2 4 Measuring insulation resistance described in this manual If the fuse is blown detect and eliminate the cause and then replace the fuse with a spare If there are no spares replace the fuse with the one specified in this manual that must be prepared by customer Use of a fuse other than specified or its short circuit may cause an electric shock or fire The fuse should be replaced according to Section 5 3 Replacing fuse described in this manual CAUTION ON INSTALLATION LOCATION N CAUTION 1 Sufficient space for daily inspection wiring etc 2 Aplace not exposed to direct sunshine or weathering 3 Isolation from vibration dust and moisture 4 Aplace not subjected to radiated heat from a heating furnace etc b not subjected to explosive gas and corrosive atmosphere 6 Aplace not submerged 7 A place remote from electrical devices motor transformer etc which generate electromagnetic induction noise electrostatic noise etc A place not subjected to excessive fluid pulsation pump discharge side A place that provides enough place for the length of the straight pipe 10 where ambient temperature and humidity are 10 to 50 C and 90 RH or less for flow transmitter FSH and 20 to 80 C and 100 RH or less for detector FSW iv INF TN1FSH E Contents PREFACE rentis
162. tition cycle n start Repetition cycle Measurement window Window RWIN Signal wait time Echo wave A Send signal Demodulated wave ADN ADO Sampling Within 3 2 Vpp frequency Number of channels Magnified view of A Transmission signal Trans mission voltage Transmission DD pulse Transmission frequency Note Make the setting following the description in 6 3 Checking received waveform N CAUTION e This parameter is intended for our service personnel e Do not change the setting since the parameter affects the flow rate measurement If the setting is changed measurement may be disabled e Make the setting when the factory set value poses problems in flow rate measurement If no problem arises with the factory set value the setting 1s not necessary Enter data for each item see the following table according to the display Input method Function and range or menu Wedge sound Setting of wedge sound velocity of the sensor Factory set value AUTO velocity Selection e AUTO e MANUAL Numeric value e WEDGE S V 1000m s to 3700m s Pipe sound Setting of pipe sound velocity Factory set value AUTO velocity Selection e AUTO e MANUAL Numeric value e PIPE S V 1000m s to 3700m s 06 INF TN1FSH E Input method Function and range or menu Lining sound Setting of pipe sound velocity Factory set value AUTO velocity Selection e AUT
163. to ON NN RP Starts reading in indicated cycle SOD RR Stops reading Save As CSV Saves measurement results in file with CSV format Click the button and you are prompted to enter the file name to which the data 1s to be saved INF TN1FSH E 131 PULSE DOPPLER SETTING Velocity Profile CONDITION m MEASURE MODE Cycle START Stop LINE1 LINE2 1 sec Save Collection Moment FILE Repeat C Moment amp Moving Average 1000 97 RAS Normal m s Internal pipe wall of upper stream 2 70 gine Tas Me MESA Internal pipe wall sensor of down stream sensor eee eee ee ee ee ee ee ee ee ee ee ee ee eer eer EEEE REEE eee r of pipin Cente 0 00 8 42 16 85 25 27 33 69 42 12 50 54 58 96 67 39 75 81 84 23 92 66 101 08 The distance from the incident wall mm 2005 05 31 16 16 30 It is display acquisition data FSHO6TA PULSE DOPPLER ENGLISH METRIC 16 16 Fig 25 lt Flow Velocity Distribution screen gt 132 INF TN1FSH E 7 14 3 Operation Information Click Operation Information and the following screen appears Execute this operation with Pulse doppler setting in the measurement method SETTING LINE1 Item of Collection WEDGE SOUND VELOCITY
164. to left The value 4 on which OUTER DIAMETER the cursor is placed can be changed 116 30 mm Enter 5 using ten keys OUTER DIAMETER 119 30 mm Press ENTER OUTER DIAMETER 115 30 mm INF TN1FSH E 45 Item selection When selecting carbon steel as pipe material example Display Select PIPE MATERIAL PIPE MATERIAL STAINLESS STEEL Enter select enter mode PIPE MATERIAL STAINLESS STEEL Select CARBON STEEL PIPE MATERIAL CARBON STEEL Press ENTER PIPE MATERIAL CARBON STEEL Item selection When changing trans voltage 80 Vpp to 160 Vpp example Display Select TRANS VOLTAGE TRANS VOLTAGE 80 Vpp Enter select enter mode TRANS VOLTAGE 80 Vpp Select 160 TRANS VOLTAGE 80 Vpp TRANS VOLTAGE 160 Vpp Note The setting change is reflected on the measurement after the measurement display screen is displayed 46 INF TN1FSH E 4 4 1 Measurement method and sensor Measurement method sensor mount sensor type sensor constant transmission voltage Description Measurement method and sensor data required for measurement can be set as follows If the sensor mount or the type of sensor is changed the sensor spacing in 4 4 2 Pipe specifications 1s also changed N CAUTION Be sure to make the following parameter setting before mounting the sensors to the pipe Mount the sensors observing the specified sensor spacing e If sensors are mounted not by strictly
165. tput Click the READ button and the setting value appears output confirmation 3 Set DO3 Output Confirmation check box to ON Then select either ON or OFF from setting combo box and click the Setting button to change the selected value of DO3 output Click the READ button and setting value is displayed 3 Test mode Set input data and tracking time and click the Setting button and you can enter the test mode Click the Read button to read the values in each column of the test mode Release button Resets analog output each DO output and Test mode Note Make sure to press the Release button when maintenance 1s completed INF TN1FSH E 144 7 17 End Click the End button on the Menu screen and the following screen appears Duosonics Loader E iae x Communication Setting Version MEASURE PULSE DOPPLER TRANSIT TIME MAINTENANCE SYSTEM ESTABLISH RANGE TOTAL STATUS DISPLAY Does it save the setting value of the loader FSH10PA TRANSIT TIME ENGLISH METRIC 17 03 A Fig 31 lt Menu screen Click either the End button or the 1 button and a message asking you whether you want to save the loader setting appears To save setting value select Yes On the file designation window that appears select a file and setting is saved in the file Then the loader is terminated Not to save setting value select
166. tted which causes the measurement to be held even if the flow rate changes Error display on 1 Improper installation LCD e Improper piping specifications Check and remove the sensor apply silicon e Sensor is mounted on welded filling material again and mount the sensor section in a position slightly deviated from the e Improper sensor spacing original position e Insufficient filling of silicon at the time of sensor mounting e Improper connection of sensor cable Improper sensor mounting e Mount the sensor allowing sufficient e Spacing sensor spacing in parallel with the pipe e The sensor is coming off the pipe e Attach the sensor firmly on the pipe 2 Problem of piping and fluid O Pipe is not filled with fluid Find a place in the same piping line where the pipe is filled with fluid and attach the sensor there e Mount the sensor at the place lowest in the piping line O Air bubbles are mixed in If the reading becomes normal when Prevent air bubbles from mixing in the fluid 1s stopped the cause is e ncrease the level of the pump well mixing in of air bubbles e Check the sealing of pump shaft e Fasten the negative piping flange If the sensor is mounted immediately e Take measures to prevent the fluid from after the valve cavitation induces falling down into the pump well the same phenomenon as mixing in Move the sensor to a place where the fluid of air bubbles does not contain air bubbles e Inl
167. w Rate Distribution and the following screen appears PULSE DOPPLER P loj x SETTING Velocity Profile CONDITION MEASURE MODE Cycle START Stop LINE1 C LINE2 1 Save As CSV DEMO feature Collection Moment 1000 E FRATE C VEL 1184 131 Lmin RAS Normal C Moment Moving Average FILE Rep 8 42 16 85 25 27 33 69 42 12 50 54 58 96 67 39 75 81 84 23 92 66 191 08 The distance from the incident wall mm 2005 05 31 16 16 30 It is display acquisition data FSHO6TA PULSE DOPPLER ENGLISH METRIC 16 16 Z Fig 24 Flow Rate Distribution screen Select either Moment or Moving Average first and then enter the range for reading from 1 to 60 sec If Moving average 1s selected set the number of times Then select either Line 1 or Line 2 The line displays flow velocity distribution measured by upper flow side sensor in green and flow speed distribution measured by down flow side sensor in red Collection Displays data by each read Moving Average Displays data in moving average with the number of times set by channel in each read data Moment Flow velocity flow rate Displays flow velocity or flow rate with each read ios e res Displaying RAS with each read Demonstration function Displays read flow velocity distribution with Save As CSV file Displays repeatedly by setting check box
168. w control of line 2 to manual open time F R to 150us and measurement method example to method A Or v Select TRANSIT TIME TRANSIT E Enter select enter mode select SETTING LINE SELECT NO ENTER A W ENTER NE and press ENTER ENTER A or v ENTER Enter select enter mode select LINE 2 2 TRANS COUNT and press ENTER a or 4 Select 2 WINDOW CONTROL 2 WINDOW CONTROL AUTO NO Enter select enter mode select 2 WINDOW CONTROL ENTER A W ENTER DAT MANUAL and press ENTER v Select 2 OPEN TIME F 2 OPEN TIME F 0 us Enter numeric value enter mode enter 2 OPEN TIME F CENTER i S S ENTER 150 using ten keys and press ENTER v Select 2 OPEN TIME R 2 OPEN TIME R us Enter numeric value enter mode enter 2 OPEN TIME R ENTERS ENTER Em 150 using ten keys and press ENTER A or V Select 2 MEAS METHOD 2 MEAS METHOD METHOD 2 Enter select enter mode select METHOD 2 MEAS METHOD A W ENTER ELLOS 1 and press ENTER Display the measurement reflecting the Measurement display screen setting INF TN1FSH E 85 4 4 20 2 Pulse Doppler Description The data required for pulse Doppler measurement can be set as follows Outline drawing of signal processing Reference count AAA SSS ee Transmissio Repetition frequency 1 repe
169. wall Transit time method e Under the transit time method ultrasonic pulses are propagated slanted from both upstream and downstream sides and time difference of flows are detected to measure the flow rate Sensor 2 Sensor 1 Send Receive Sensor 1 gt 2 Sensor 2 2 1 bhi Time difference AT gt INF TN1FSH E zT Configuration 1 1 measurement line method Z method Cable Power supply Detector 4 to 20 mA Contact 3 points max Temperature sensor cable 2 2 measurement line method Z method Detector 4 to 20 mA DC Contact 3 points max Temperature sensor cable INF TN1FSH E 1 2 Checking delivered items Flow transmitter FSH Flow transmitter main unit 1 set Waterproof gland Built into the main set Wall mount fittings Built into main unit set Detector FSWS12 21 40 Detector main unit FSWS12 21 nnm set Detector main unit FSWS40 E 1 set Absorber unit eee ee 1 set Stainless steel belt m 1 set Fittings SEED EUIS RE GR INE set Silicon rubber 1 pc Flow transmitter FSH 4 Absorber unit Detector FSWB40 Absorber unit Silicon rubber Signal cable FLY6 Cable for ultrasonic signals Detector FSWS12 21 40 Detect
170. y of various ae pym Vms Acetone 0 7905 1190 Iron Aniline 1 0216 1659 Steel Alcohol 20 0 7893 1168 Ether 20 0 7135 1006 en Ethylene glycol 20 1 1131 1666 n Octane 20 0 7021 1192 p ce o Xylol 20 0 871 1360 Copper Chloroform 20 1 4870 1001 Lead Chlorobenzene 20 1 1042 1289 Aluminum Glycerin 20 1 2613 1923 Brass Acetic acid 20 1 0495 1159 Polyvinyl chloride Methyl acetate 20 0 928 1181 Acrylic Ethyl acetate 20 0 900 1164 FRP Cyclohexane 20 0 779 1284 Dioxane 20 1 033 1389 Heavy water 20 1 1053 1388 epoxy Carbon tetrachloride 20 1 5942 938 Polyethylene Mercury 20 13 5955 1451 Teflon Nitrobenzene 20 1 207 1473 Note V sound velocity Carbon bisulfide 20 1 2634 1158 Bromoform 20 2 8904 931 n propyl alcohol 20 0 8045 1225 n pentane 20 0 6260 1032 n hexane 20 0 654 1083 c Sound velocity by piping material Diesel oil Transformer oil 32 5 0 859 1425 Spindle oil 32 0 905 1342 Petroleum 34 0 825 1295 Gasoline 34 0 803 1250 Water 13 5 1 1460 Seawater 16 1 1510 Salt content 3 5 Note T temperature p density V sound velocity d Dynamic viscosity coefficient of various liquids ee ee ee Acetone Aniline Ether Ethylene glycol Chloroform Glycerin Acetic acid Methyl acetate Ethyl acetate Heavy water Carbon tetrachloride Mercury Nitrobenzene Carbon bisulfide n pentane n hexane Spindle oil 32 0 905 1324 15 7 Gasoline 34 0 603
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FUJI Motor FSH/FSW/FLY Manual