Technical Specification FLUXUS® F608**-F2
Contents
1. material FEP outer diameter in 0 2 color black shield x HLLLL EEEEE DWR1NZ7 FERI SEAN 18 TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 Technical Specification FLUXUS F608 F2 TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 19 FLUXUS F608 F2 Technical Specification FLEXIM FLEXIM AMERICAS Corporation Edgewood NY 11717 USA Tel 631 492 2300 Fax 631 492 2117 internet www flexim com e mail usinfo flexim com 1 888 852 7473 Subject to change without notification Errors excepted FLUXUS is a registered trademark of FLEXIM GmbH TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 202. ladder chain mounting accessory LM transducer frequency M Q chain length 30 78 in outer pipe diameter max 24 in portable Variofix VP and chains optional material stainless steel 304 301 303 dimensions 16 3 x 3 7 x 2 99 in chain length 6 ft transducer box WL for Wavelnjector transducer box and adapter see Technical Specification TSWavelnjectorVx x 14 TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 Technical Specification FLUXUS F608 F2 Coupling Materials for Transducers normal temperature range extended temperature range Wavelnjector WI 400 4th character of transducer order 4th character of transducer order code N code E lt 212 F lt 338 F lt 302 F lt 392 F lt 536 F 536 to 752 F coupling compound coupling compound coupling compound coupling compound coupling foil type A coupling foil type B type N type E type E type E or H and coupling foil and coupling foil type VT type VT Technical Data type order code ambient temperature material remark E coupling compound 990739 1 22 266 mineral grease paste type N coupling compound 990739 2 22 392 silicone paste type E coupling compound 990739 3 22 482 fluoropolymer paste type H coupling foil type VT 990739 0 14 392 fluoroelastomer for transducers with transducer frequency G
3. FLEXIM Technical Specification FLUXUS F608 F2 Portable Ultrasonic Flow Measurement of Liquids in Hazardous Areas Portable instrument for non intrusive quick ultrasonic flow measurement with clamp on technology for all types of piping Features Precise bi directional and highly dynamic flow measure ment with the non intrusive clamp on technology High precision at fast and slow flow rates high tem perature and zero point stability Portable easy to use flow transmitter with 2 flow chan nels multiple inputs an integrated data logger with a serial interface Extremely resistant carbon fiber housing Covered by FM class Div 2 certification Compact and very lightweight allowing the measuring system to be easily carried as personal luggage e g for offshore visits Water tight resistant against oil many liquids and dirt Li lon battery provides up to 14 hours of measurement operation Automatic loading of calibration data and transducer detection for a fast and easy set up less than 5 min providing precise and long term stable results User friendly design Transducers available for a wide range of inner pipe diameters 0 25 to 256 i and fluid temperatures 40 to 752 F Rugged transducers FM Class 1 Div 2 resistant to rough environments and humidity Robust water tight NEMA 4 transport case with com prehensive accessories HybridTrek automatically switches between transit time and NoiseTrek m
4. 40 40 40 p max F 257 257 257 m marking NI CI IIL 1MW Div 2 lt gt NICI LILM Div 2 NI CI 11LIH Div 2 mia GP A B C D E F G Temp Codes dwg 3860 non incendive TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 11 FLUXUS F608 F2 Technical Specification Shear Wave Transducers extended temperature range type of protection ma GP A B C D E F G Temp Codes dwg 3860 non incendive technical type CDM1E51 CDQ1E51 order code FSM EF2NL FSQ EF2NL transducer frequency MHz 1 4 inner pipe diameter d min extended in 2 0 39 min recommended in 3 9 0 98 max recommended in 78 7 5 9 max extended in 133 9 15 7 pipe wall thickness min in max in material housing stainless steel 304 stainless steel 304 contact surface Sintimid Sintimid degree of protection NEMA 4 NEMA 4 transducer cable type 1699 1699 length ft 13 9 dimensions length in 2 36 1 67 width b in 1 18 0 71 height h in 1 32 0 85 dimensional drawing e TON Tin T g EN 00 2 Ja 6 J ambient temperature min F 22 22 max F 392 392 temperature X x compensation explosion protection explosion protection temperature min F 40 40 p max F 374 374 m marking NI CI 1 11 1M Div 2 NI CI LILM Div
5. H K 990739 6 for shear wave transducers with transducer frequency M P 990739 14 for shear wave transducers IP68 and Lambwave transducers with transducer frequency M P 990739 5 for transducers with transducer frequency Q TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 15 FLUXUS F608 F2 Technical Specification Connection Systems connection system NL gt gt fo e e 5 lt o Tom w Fes e _ Tm E IJL transducer frequency G H K M P Q 3d character of transducer order code x y I x y l x y l y l N cable length ft 6 9 lt 32 J6 6 lt 32 6 3 lt 32 3 lt 32 L cable length option LC ft 6 22 lt 32 22 6 lt 32 26 3 lt 32 x y transducer cable length max length of extension cable Transducer Cable Technical Data transducer cable extension cable type 1699 1750 standard length ft see table above 16 32 ambient temperature F 67 to 392 lt 144 sheath material stainless steel 304 stainless steel 304 outer diameter in 0 31 0 35 cable jacket material PTFE PE outer diameter in 0 11 0 24 thickness in 0 01 0 02 color brown black shield x x 16 TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 Technical Specification FLUXUS F608 F2 Clamp on Temperature Probe optional
6. 4 5 Ah operating time without inputs and backlight gt 14 h power consumption lt 6W number of flow measuring channels 2 signal attenuation 0 to 100 s adjustable measuring cycle 1 channel response time 1 s 1 channel option 70 ms 100 to 1000 Hz housing material PA TPS PC Polyester stainless steel degree of protection NEMA 4 dimensions see dimensional drawing weight 4 2 lb fixation QuickFix pipe mounting fixture ambient temperature 14 to 140 F display 2 x 16 characters dot matrix backlight menu language explosion protection English German French Dutch Spanish F marking M NI CI I Div 2 gt GP A B C D T5 Ta 60 C APPROVED measuring functions physical quantities volumetric flow rate mass flow rate flow velocity heat flow if temperature inputs are installed totalizer volume mass optional heat quantity calculation functions average difference sum diagnostic functions sound speed signal amplitude SNR SCNR standard deviation of amplitudes and transit times data logger loggable values all physical quantities totalized values and diagnostic values capacity gt 100 000 measured values communication interface RS232 USB 1 for transit time difference principle reference conditions and v gt 0 49 ft s 2 reference uncertainty lt 0 2 TSFLUXUS_F60
7. BTU and heat measurements inputs temperature input 2 accessories transport case x x power supply unit mains cable x x battery x x QuickFix pipe mounting fixture x x for transmitter serial data kit x x measuring tape x x user manual x x safety instructions Quick Start Guide connector board at the upper side of the transmitter Adapters optional input adapter transducers transducers measuring channel A inputs measuring channel B power supply unit battery charging unit TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 FLUXUS F608 F2 Technical Specification Transducers Transducer Selection transducer order code FSK 255 9 FSM 133 9 FSQ FSS 0 24 0 2 0 4 2 4 20 40 200 inner pipe diameter in A recommended possible TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 Technical Specification FLUXUS F608 F2 Transducer Order Code 1 2 3 4 5 6 7 8 9 to 11 12 13 no of character description 2 Q gt 5 5 S 88 28 53 l S D 70 QO 2 c a 28 2g 835 e g E E S 2 52 EA 2 5 5E va jon 10 FS set of ultrasonic flow transducers for liquids measurement shear wave K 0 5 MHz M 1 MHz Q 4 MHz S 8 MHz normal temperature range E extended temperature range shear wave transducers with trans ducer frequency M Q F2 FM Class Div 2 NL with Lemo connector XXX cab
8. 2 mica GP A B C D E F G Temp Codes dwg 3860 non incendive 12 TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 Technical Specification FLUXUS F608 F2 Transducer Mounting Fixture Order Code 3 N A oa 9 7to9 no of character description transducer mounting fixture transducer measurement arrangement size fixation outer pipe diameter n mn mounting frames transducers with transducer frequency S LM ladder chain mounting accessory lt U portable Variofix WL transducer box for Wavelnjector all transducers transducers with transducer frequency K transducers with transducer frequency M transducers with transducer frequency Q 0 FAR gt transducers with transducer frequency S D reflect arrangement or diagonal arrangement direct mode R reflect arrangement S small M medium C chains N without fixation L08 0 5 to 8 in L22 0 5 to 22 in 010 0 39 to 3 9 in 025 0 39 to 9 8 in 055 0 39 to 21 7 in example VP A D M C 055 portable Variofix and chains ye lO Ja transducer frequency S e N material stainless steel 304 301 303 dimensions 8 27 x 1 26 x 1 73 in chain length 1 ft outer pipe diameter max 5 9 in rem TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 13 FLUXUS F608 F2 Technical Specification
9. 8xx F2V1 5 1US_Lus 2014 03 20 5 FLUXUS F608 F2 Technical Specification FLUXUS F608 F2 serial data kit software all Windows versions FluxData download of measurement data graphical presentation conversion to other formats e g for Excel FluxKoef creating medium data sets FluxSubstanceLoader upload of medium data sets cable RS232 adapter RS232 USB transport case dimensions 19 7 x 15 7 x 7 5 in inputs The inputs are galvanically isolated from the transmitter number max 4 accessories input adapter if number of inputs gt 2 temperature input type Pt100 Pt1000 connection 4 wire range 238 to 1040 F resolution 0 01 K accuracy 0 01 of reading 0 03 K Dimensions N m N A SS FLEXIM O CHANNEL A CHANNEL BO oO 2 8 9 lt gt in inch TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 Technical Specification FLUXUS F608 F2 Standard Scope of Supply F608 Standard F608 Energy order code FLUXUS F608ST F22 3N NN NN NN NN NN FLUXUS F608ST F22 3N TT NN NN NN NN application flow measurement on liquids 2 independent measuring channels temperature compensated calculation of mass flow rate integrated heat flow computer for monitoring of energy flows including energy calculator for
10. TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 3 FLUXUS F608 F2 Technical Specification Number of Sound Paths The number of sound paths is the number of transits of the ultrasonic signal through the medium in the pipe Depending on the number of sound paths the following methods of installation exist reflect arrangement The number of sound paths is even Both of the transducers are mounted on the same side of the pipe Correct positioning of the transducers is easier diagonal arrangement The number of sound paths is odd Both of the transducers are mounted on opposite sides of the pipe direct mode Diagonal mode with 1 sound path This should be used in the case of a high signal attenuation by the medi um pipe or coatings The preferred method of installation depends on the application While increasing the number of sound paths increases the accuracy of the measurement signal attenuation increases as well The optimum number of sound paths for the parameters of the application will be determined automatically by the transmitter As the transducers can be mounted with the transducer mounting fixture in reflect arrangement or diagonal ar rangement the number of sound paths can be adjusted optimally for the application a e Vm a transducer distance Reflect arrangement number of sound paths 2 a YAW E Diagonal arrangement number of sound paths 3 a
11. Technical Data technical type PT13N PT13N PT13F PT13F order code 670413 1 670412 1 670413 2 670412 2 design short response time type Pt1000 2x Pt1000 matched Pt1000 2x Pt1000 matched according to EN 1434 1 according to EN 1434 1 connection 4 wire 4 wire measuring range SF 22 to 482 58 to 482 accuracy T 0 27 F 2 103 T F 32 F class A 0 27 F 2 10 T F 32 F class A accuracy AT s 0 1 K 3K lt AT lt 6 K s 0 1 K 3K lt AT lt 6 K more corresponding to more corresponding to EN 1434 1 EN 1434 1 response time s 50 8 housing aluminum PEEK stainless steel 304 copper degree of protection NEMA 4 NEMA 4 weight without Ib 0 6 1 1 0 7 1 4 connector fixation clamp on clamp on accessories thermal conductivity x x paste 392 F thermal conductivity x x foil 482 F plastic protection plate x insulation foam dimensions length in 0 59 0 55 width b in 0 59 1 18 height h in 0 79 1 06 dimensional drawing A B extension cable i B gt h Connection Temperature Probe red blue red white blue white Connector pin cable of temperature probe extension cable 1 white blue blue 2 red blue gray 3 4 5
12. gt 0 lt gt y O ON Y Direct mode number of sound paths 1 Direct mode number of sound paths 1 negative transducer distance Typical Measurement Setup npn transducers transmitter temperature inputs Example of a measurement setup in reflect arrangement TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 Technical Specification FLUXUS F608 F2 Flow Transmitter Technical Data FLUXUS F608 F2 design portable FM class Div 2 measurement measurement principle transit time difference correlation principle automatic NoiseTrek selection for measurements with high gaseous or solid content temperature compensation flow velocity 0 03 to 82 ft s repeatability 0 15 of reading 0 03 ft s medium all acoustically conductive liquids with lt 10 gaseous or solid content in volume corresponding to the recommendations in ANSI ASME MFC 5 1 2011 transit time difference principle accuracy with standard calibration with advanced calibration optional with field calibration 11 6 of reading 0 03 ft s 11 2 of reading 0 03 ft s 10 5 of reading 0 03 ft s flow transmitter power supply 100 to 240 V 50 to 60 Hz power supply unit outside of explosive atmosphere 10 5 to 15 V DC socket at transmitter with power adapter optional integrated battery battery Li lon 7 2 V
13. kird ee N V NER VE en n xeq bke lee E a n be k EA EAEE 7 TLansduUCerS nenna id a dl da kad 8 TUS UC e rada dad 8 Transducer Order CoOod t s coyuntic du bekal dee esdedisctet delata dali besek dbn debia he bav ka k n be nen bele dken 9 Technical Data nena T EOE wa ee d rade doe yed R n Sets wae hs Srnec anc chet aad cn ont stun Ran ayan ee ban oi carmona 10 Transducer Mounting Fixture L kk kk kk k kak kek Keke k k K KAK KAK KK kr K kK kK A REEERE KAK KA KK KA 13 Coupling Materials for TranSdUCcers L EEE kk ek Ek KEK KK A KAKE KAK KAKE KAK KA KA KRA KAKA KA KA 15 Connection Systems N sen A he eects i eee n 16 Transducer E o A A ETE TAE AS E td dt ek a AN Se Ef ete al 16 Clamp on Temperature Probe optional kk kk k k kk kk KAK KK KK KAK KK 17 Wall Thickness Measurement optional EEE kk ek kk kk kk E KAK KA KAKA KA KRA KA 18 2 TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 Technical Specification FLUXUS F608 F2 Function Measurement Principle Transit Time Difference Principle In order to measure the flow of a medium in a pipe ultrasonic signals are used employing the transit time dif ference principle Ultrasonic signals are emitted by a transducer installed on the pipe and received by a sec ond transducer These signals are emitted alternately in the flow direction and against it As the medium in which the signals propagate i
14. le length in m for max length of extension cable see page 16 LC long transducer cable only FSK example FS M N F2 NL 010 shear wave transducer 1 MHz normal temperature range FM Class Div 2 connection system NL with Lemo connector and extension cable 10 m TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 FLUXUS F608 F2 Technical Specification Technical Data Shear Wave Transducers ad GP A B C D E F G Temp Codes dwg 3860 technical type CDK1N51 CLK1N51 order code FSK NF2NL FSK NF2NL LC transducer frequency MHz 0 5 0 5 inner pipe diameter d min extended in 3 9 3 9 min recommended in 7 9 7 9 max recommended in 141 7 141 7 max extended in 255 9 255 9 pipe wall thickness min in max in material housing PEEK with stainless steel PEEK with stainless steel cap 304 cap 304 contact surface PEEK PEEK degree of protection NEMA 6 NEMA 6 transducer cable type 1699 1699 length ft 16 29 dimensions length in 4 98 4 98 width b in 2 01 2 01 height h in 2 66 2 66 dimensional drawing ambient temperature min F 40 40 max F 266 266 temperature x x compensation explosion protection explosion protection temperature min F 40 40 p max F 257 257 m marking NI CI l II llI Div 2 NI CI 1 11 111 Div 2 ica GP A B C D E F G Tem
15. not connected 6 red red 7 white white 8 not connected Cable cable of temperature probe extension cable type 4 x 0 25 mm black or white LIYCY 8 x 0 14 mm gray standard length ft 9 16 32 82 max length ft 328 cable jacket PTFE PVC TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 17 FLUXUS F608 F2 Technical Specification Wall Thickness Measurement optional The pipe wall thickness is an important pipe parameter which has to be determined exactly for a good mea surement However the pipe wall thickness often is unknown The wall thickness probe can be connected to the transmitter instead of the flow transducers and the wall thickness measurement mode is activated automatically Acoustic coupling compound is applied to the wall thickness probe which then is placed firmly on the pipe The wall thickness is displayed and can be stored directly in the transmitter Technical Data technical type DWR1NZ7 measuring range in 0 04 to 9 8 resolution in 0 0004 accuracy 1 0 004 in medium temperature F 4 to 392 short time peak max 932 explosion protection cable type 2616 length ft 4 1The measuring range depends on the attenuation of the ultrasonic signal in the pipe For strongly attenuating plastics e g PFA PTFE PP the measuring range is smaller Cable type 2616 ambient temperature F lt 392 cable jacket
16. ode of measurement when high partic ulate flows are encountered QuickFix for fast mounting of the flow transmitter in diffi cult conditions Applications Designed for the following industries Upstream on and offshore Midstream and downstream pipelines and refineries Chemical industry Energy sector e g HVAC geothermal power plants TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 FLUXUS F608 supported by handle Measurement with transducers mounted by the portable Variofix VP Measurement with the flow transmitter fixed to the pipe by the QuickFix pipe mounting fixture FLUXUS F608 F2 Technical Specification Table of Contents FUT eqa lel j PEND sce eae tee ees sleet id lotes 3 Measurement Principle lt lt i E creed ad dees ib 3 Calculation of Vol metric Flow Rate c xu 2 d xana b Pak ta Daf a ded OW ae WW an W 3 Numb er of Sound PalllSs xl asayi a keba Re DA bel Dn lav y ne Sev neces aaa et 4 TipiGal Measurement S et D 442 eertain Kiss k y HE ni kar ne AR RR RR RR nn nn rr nn kl ne YA Ta ake bA 4 Flow Transmitter 2 2 4 0 2 3254 ds a La Cae dd fee da 5 Technical Datel i xenlfn dnd e Ked beanie 5 BT a nz pS lel RNN N N il tea AE EE A ERTS 6 Standard Scope Of SUPPlY seipinn hele dihi Kan n k ne nina xaneka da daa an PEN DAKA wena sa patin E 7 A A selle n yaji 341 5555415525464 kk s WOR
17. p Codes dwg 3860 type of protection non incendive non incendive 10 TSFLUXUS_F608xx F2V1 5 1US_Lus 2014 03 20 Technical Specification FLUXUS F608 F2 Shear Wave Transducers type of protection pia GP A B C D E F G Temp Codes dwg 3860 non incendive m n GP A B C D E F G Temp Codes dwg 3860 non incendive technical type CDM1N51 CDQ1N51 CDS1N51 order code FSM NF2NL FSQ NF2NL FSS NF2NL transducer frequency MHz 1 4 8 inner pipe diameter d min extended in 2 0 39 0 24 min recommended in 3 9 0 98 0 39 max recommended in 78 7 5 9 2 8 max extended in 133 9 15 7 2 8 pipe wall thickness min in max in material housing stainless steel 304 stainless steel 304 stainless steel 304 contact surface PEEK PEEK PEI degree of protection NEMA 6 NEMA 6 NEMA 6 transducer cable type 1699 1699 1699 length ft 13 9 6 dimensions length in 2 36 1 67 0 98 width b in 1 18 0 71 0 51 height h in 1 32 0 85 0 67 dimensional drawing 2 E ji d mn F lt I I LO al CT ambient temperature min F 40 40 22 max F 266 266 266 temperature x x x compensation explosion protection explosion protection temperature min F
18. s flowing the transit time of the ultrasonic signals in the flow direction is shorter than against the flow direction The transit time difference At is measured and allows the flowmeter to determine the average flow velocity along the propagation path of the ultrasonic signals A flow profile correction is then performed in order to ob tain the area averaged flow velocity which is proportional to the volumetric flow rate Two integrated microprocessors control the entire measuring process This allows the flowmeter to remove disturbance signals and to check each received ultrasonic wave for its validity which reduces noise HybridTrek If the gaseous or solid content in the medium increases occasionally during measurement a measurement with the transit time difference principle is no longer possible NoiseTrek mode will then be selected by the flowmeter This measurement method allows the flowmeter to achieve a stable measurement even with high gaseous or solid content The transmitter can switch automatically between transit time and NoiseTrek mode without any changes to the measurement setup to t t ol Path of the ultrasonic signal Transit time difference At Calculation of Volumetric Flow Rate V ke Aka At 2 ty where V volumetric flow rate kRe fluid mechanics calibration factor cross sectional pipe area ka acoustical calibration factor At transit time difference tr transit time in the medium
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