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Operating Instructions ULTRASONIC FLOWMETER KATflow 120 !"# ! $% Katronic Technologies Ltd. 23 Cross Street Leamington Spa Warwickshire CV32 4PX United Kingdom Tel. 0870 3000 110 (UK), +44 1926 882954 (International) Fax 0870 3000 111 (UK), +44 1926 338649 (International) E-mail [email protected] Web www.katronic.co.uk &% ' ())*+,*-++./ 2 &3 4 ! $% ! &3 " 5 0 01 !"# 6 3 7 ( &' & 2 ' 3 18 !"# 3 % 6 6 9 & 3 6 0 ' <: !"# ' 3 %3 3 1 8/ : 9 &' 18 ' ' = ?' 18 ' : !"# ' ; > 1 INTRODUCTION .................................................................................................................................. 4 1.1 REGARDING THIS MANUAL ................................................................................................................ 4 1.2 SAFETY PRECAUTIONS ..................................................................................................................... 4 1.3 W ARRANTY ...................................................................................................................................... 4 2 THE FLOWMETER .............................................................................................................................. 6 2.1 OVERVIEW ....................................................................................................................................... 6 2.2 MEASURING PRINCIPLE .................................................................................................................... 6 2.3 APPLICATIONS.................................................................................................................................. 7 3 HANDLING........................................................................................................................................... 9 3.1 FIRST INSPECTION............................................................................................................................ 9 3.2 GENERAL PRECAUTIONS................................................................................................................... 9 3.3 MAINTENANCE ................................................................................................................................. 9 3.4 CLEANING ........................................................................................................................................ 9 3.5 USE OF TRANSDUCERS IN EXPLOSIVE ATMOSPHERE .......................................................................... 9 4 INSTALLATION OF KATFLOW 120 ................................................................................................. 11 4.1 LOCATION ...................................................................................................................................... 11 4.2 MOUNTING ..................................................................................................................................... 11 4.3 CONNECTION OF THE TRANSDUCERS (KL1)..................................................................................... 12 4.4 CONNECTION OF THE POWER SUPPLY (KL3) ................................................................................... 15 4.5 PROCESS OUTPUTS (KL2).............................................................................................................. 16 4.6 PROCESS INPUTS ........................................................................................................................... 17 4.7 SERIAL INTERFACE ......................................................................................................................... 20 4.8 SENSOR MODULE (SENSPROM)................................................................................................... 20 5 GETTING STARTED.......................................................................................................................... 21 5.1 INSTRUMENT START-UP ................................................................................................................. 21 5.2 THE KEYBOARD.............................................................................................................................. 21 5.3 THE TRANSDUCERS........................................................................................................................ 23 5.4 SERIAL NUMBER ............................................................................................................................ 23 5.5 THE MENUS ................................................................................................................................... 23 5.6 HOTCODES .................................................................................................................................... 24 5.7 SELECTING THE LANGUAGE ............................................................................................................ 24 5.8 LEDS (NOT ON KATFLOW 120) .................................................................................................... 25 5.9 INTERRUPTION OF POWER SUPPLY ................................................................................................. 25 6 SELECTION OF THE MEASURING POINT...................................................................................... 26 6.1 ACOUSTIC PROPAGATION ............................................................................................................... 26 6.2 UNDISTURBED FLOW PROFILE ........................................................................................................ 28 7 BASIC MEASUREMENT ................................................................................................................... 30 7.1 INPUT OF THE PIPE'S PARAMETER ................................................................................................... 30 7.2 INPUT OF THE MEDIUM'S PARAMETERS ............................................................................................ 32 7.3 OTHER PARAMETERS ..................................................................................................................... 34 7.4 SELECTION OF THE MEASURING CHANNELS ..................................................................................... 35 7.5 SELECTION OF THE SOUND PATH FACTOR ....................................................................................... 35 7.6 MOUNTING AND POSITIONING THE TRANSDUCERS ............................................................................ 36 7.7 STARTING THE MEASUREMENT ....................................................................................................... 43 7.8 RECOGNITION OF FLOW DIRECTION ................................................................................................ 43 7.9 STOPPING THE MEASUREMENT ....................................................................................................... 43 8 DISPLAYING THE MEASURED VALUES ........................................................................................ 44 8.1 SELECTION OF THE PHYSICAL QUANTITY ......................................................................................... 44 8.2 TOGGLING BETWEEN THE CHANNELS............................................................................................... 45 8.3 CONFIGURATION OF THE DISPLAY ................................................................................................... 46 ) 8.4 THE STATUS LINE........................................................................................................................... 47 9 ADVANCED MEASURING FUNCTIONS .......................................................................................... 50 9.1 THE DAMPING FACTOR ................................................................................................................... 50 9.2 FLOW TOTALIZERS ......................................................................................................................... 50 9.3 UPPER LIMIT FOR FLOW VELOCITIES ............................................................................................... 52 9.4 CUT-OFF FLOW .............................................................................................................................. 53 9.5 UNCORRECTED FLOW VELOCITY ..................................................................................................... 54 9.6 MEASUREMENT OF TRANSIENT PROCESSES (FASTFOOD MODE) ...................................................... 54 9.7 CALCULATION CHANNELS ............................................................................................................... 56 9.8 LIMIT VALUES FOR THE TRANSDUCER PARAMETERS ........................................................................ 59 9.9 PROTECTION AGAINST INTERRUPTION ............................................................................................. 59 10 STORAGE AND OUTPUT OF MEASURED VALUES.................................................................... 61 10.1 MEASURING WITH THE STORAGE FUNCTION .................................................................................. 61 10.2 OUTPUT OF THE MEASURED VALUES............................................................................................. 63 10.3 DELETION OF THE STORED DATA .................................................................................................. 65 10.4 SETTINGS OF THE STORAGE FUNCTION ......................................................................................... 65 10.5 AVAILABLE MEMORY..................................................................................................................... 67 11 WORKING WITH PARAMETER RECORDS................................................................................... 69 11.1 ENABLING/DISABLING PARAPOOL ................................................................................................. 69 11.2 LOADING AND EDITING SHORT RECORDS ...................................................................................... 69 11.3 SAVING PARAMETERS IN A SHORT RECORD ................................................................................... 70 12 LIBRARIES ...................................................................................................................................... 74 12.1 EDITING THE SELECTION LISTS ..................................................................................................... 74 12.2 DEFINING NEW MATERIALS AND MEDIA ......................................................................................... 76 13 SETTINGS........................................................................................................................................ 86 13.1 SETTING THE INTERNAL CLOCK ..................................................................................................... 86 13.2 SETTINGS FOR THE DIALOGUES AND MENUS.................................................................................. 87 13.3 MEASUREMENT SETTINGS ............................................................................................................ 89 13.4 SETTING THE CONTRAST .............................................................................................................. 91 13.5 INSTRUMENT INFORMATION ........................................................................................................... 91 14 SUPERUSER MODE ....................................................................................................................... 93 14.1 ACTIVATING/DEACTIVATING .......................................................................................................... 93 14.2 TRANSDUCER PARAMETERS ......................................................................................................... 93 14.3 MALFUNCTIONS IN SUPERUSER MODE .......................................................................................... 94 15 MEASURING THE SOUND VELOCITY OF THE MEDIUM.............................................................. 95 15.1 PREPARATION .............................................................................................................................. 95 15.2 MEASUREMENT ............................................................................................................................ 95 15.3 POSITIONING OF THE TRANSDUCERS ............................................................................................. 96 15.4 NEXT ITERATION STEP.................................................................................................................. 97 15.5 STORAGE..................................................................................................................................... 97 16 CONCENTRATION MEASUREMENT............................................................................................. 99 16.1 PRINCIPLE OF MEASUREMENT....................................................................................................... 99 16.2 ENABLING THE CONCENTRATION MEASUREMENT ......................................................................... 100 16.3 SETTING THE PARAMETERS ........................................................................................................ 100 16.4 MEASUREMENT .......................................................................................................................... 101 16.5 SAVING THE MEASURED CONCENTRATION ................................................................................... 101 17 HEAT FLOW RATE AND HEAT QUANTITY ................................................................................ 104 17.1 SETTINGS .................................................................................................................................. 104 17.2 MOUNTING AND CONNECTING ..................................................................................................... 105 17.3 MEASURING ............................................................................................................................... 106 17.4 TEMPERATURE CORRECTION ...................................................................................................... 107 17.5 STEAM OPTION .......................................................................................................................... 108 - 18 PROCESS INPUTS........................................................................................................................ 110 18.1 LINKING THE TEMPERATURE INPUTS TO THE CHANNELS ............................................................... 110 18.2 LINKING OTHER INPUTS TO THE CHANNELS ................................................................................. 111 18.3 ACTIVATION OF THE PROCESS INPUTS ......................................................................................... 112 19 PROCESS OUTPUTS.................................................................................................................... 114 19.1 INSTALLATION OF A PROCESS OUTPUT ........................................................................................ 114 19.2 DEFINING THE ERROR VALUE DELAY ........................................................................................... 119 19.3 ACTIVATION OF AN ANALOGUE OUTPUT ....................................................................................... 119 19.4 ACTIVATION OF A PULSE OUTPUT................................................................................................ 121 19.5 ACTIVATION OF AN ALARM OUTPUT ............................................................................................. 122 19.6 OPERATION OF THE ALARM OUTPUTS.......................................................................................... 125 19.7 DEACTIVATING THE OUTPUTS ..................................................................................................... 127 20 TROUBLESHOOTING ................................................................................................................... 128 20.1 PROBLEMS WITH THE MEASUREMENT .......................................................................................... 129 20.2 CORRECT SELECTION OF THE MEASURING POINT ........................................................................ 129 20.3 MAXIMAL ACOUSTIC CONTACT .................................................................................................... 130 20.4 FREQUENT PROBLEMS ............................................................................................................... 130 20.5 MEASUREMENT DATA SUBSTANTIALLY DIFFER FROM THE EXPECTED VALUE ................................. 131 20.6 PROBLEM WITH THE TOTALIZERS................................................................................................. 131 A SPECIFICATIONS........................................................................................................................... 132 B OVERVIEW OF THE FIRMWARE .................................................................................................. 139 C TABLES........................................................................................................................................... 143 D CERTIFICATES............................................................................................................................... 148 @ ! !3 ! 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( 3 ' & 3 3 C' ' ' 3 3 2 -8 4 2 3 3 & &5 '6 - , & ( 6 5 ' 2 !3 - % 5 " !"# 3 3 " &5 ! ' & ' 6 " " &' & '6 - ( : % # ≥ -1 ( : % # ≥ A+ ( - ! & &3 2 ' ' -- ' ' 3 '6 : % # ≥ )+ -H ' " " 2 ' C' & ( - ' ! - 2 ;: C 5 5 / ' ' 3 - % ' % " M 5 5 2 3 6/ C ' -- G@ ' #≥1 5 G@ ' #≥1 ' &3 ' & < ' #≥1 . 5 ' 6'66 6 5 & 3 G@ 5 ' & 6 % &5 & 3 ! 6 .-( </ : % # ≥ 1+ ( @ : % # ≥ @+ ( : % # ≥ )+ ( : % # ≥ A+ (. . : % # ≥ 1+ ( ' # ≥ )+ ' #≥1 ' #≥1 ' # ≥ )+ - -, D> # - 3 ' ' 6 !3 2 3 D & 3 !3 6 ( 3 ' 6 62 2 " & !3 6 B& 3 3 5 ./ 3 6 Outer Diameter 1100.0 MAXIMUM ' ( & 3 & 5 2 ' 3 ' & 3 ( %$% D / 6 % 3 6& 3 2 3 62 3 !"# 5 ' J% D 2 ' ' 6 2 3 / ' 2 3 ())++ + 3 N 3 3 3 !"# 3 2 ' 3 PARAMETER & 6 5 ' ' 1+ / 3 3 6 2 % 3 PARAMETER 3 Parameter For Channel A: ' 3 2 PARAMETER FROM 6 ' & 3 E ' 3 '6= 3 )) & ' 62 3 & 3 & 6 3 ' 3 3 3 2 ' 3 ' : - ( !3 2 2 2 ' ' 3 3 6 C' ' ' 3 H ' & 3 3 2 ' ' ' ' & " 3 Outer Diameter 100.0 mm ' 3 2 ' 2 3 2 5 ' 62 ' % 3 ' ' @+ 6 &5 ' >PAR< mea opt sf Parameter D & #$ 2& 3 PARAMETER !3 % 3 6 !3 5 ' ( 3 3 5 2 5 6 ' & 3 PARAMETER & 2 & 8 1/ 6 && 3 <6 A+++ 6 ( & % !3 6 3 & )@ - )/ & + ' 3 6 % 3 ' 3 DIAMETER 2 3 ' D 3 ' !"# 3 > ' 3 & 5 2 ' 5 3 PIPE CIRCUMFER. ' 3 ' 2 + (9 2 % 2 ' 3 / 3 OUTER 3 ' & " 8 3 Wall Thickness 3.0 mm 3 5 ' ( !3 3 ' 5 ' #$ 2& 3 & 6 ' @+ 3 & ' 62 ' 3 3 SPECIAL FUNCTION ( 6 6 ! 8 7 8 $ ' #$ 2& 3 : D *& D; # !3 5 3 6 3 3 !"# 3 ' 5 62 ( 5 2 !3 ' ' 3 3 2 3 % 3 OTHER MATERIAL Pipe Material Carbon Steel ' ' 3 2 & 2 ' 3 3 2 & ' ' : c-Material 3230.0 m/s OTHER MATERIAL 3 ' 5 2 0 ' * % 2 ' 3 5 C' 3 2 ' 5 2 3 .++ + .11@ 1 & ' (! 6 ) &5 3 ' !"# 3 6 62 5 2 / - ) A 6 7 <44 K @) D 2& / ! !3 Lining no >YES< % ' YES 3 NO 2 ' ( 3 MATERIAL Lining Bitumen ' 3 !"# 8 ) 1/ 3 & 3 2 OTHER 3 & & ' 62 ( % 3 & ' 62 ' : c-Material 3200.0 OTHER MATERIAL 3 ' 5 2 0 ' % 2 ' 3 5 C' 3 2 ' 5 2 3 .++ + .11@ 1 * m/s 3 6 & ' 62 (! 6 !"# ) &5 3 ' 5 2 / 3 Liner Thickness 3.0 mm ' ( 3 5 ' 3 & ' 62 #$ 2& 3 8 8 8 ' @+ 6 . 8 ! ! 7 $ D 3& !3 !" '&3 ' / !3 3 3 6' ' 6 ' 6 2 ROUGHNESS ' " 3 3 5 ' 5 ' 3 5 ' 6 C' 3 3 Roughness 0.4 3 % 2 ' & 3 !3 @- ' (! 6 3 -B & '&& C' !"# ' - 5 ' 0 ' & ' - & 3 2 & 1+ mm 3 6 '&3 3 " # 2 '3 5 ' 3 62 D C' '&3 3 ' & 6 ' 5 ' 3 ++ +) • • • • 3 3 3 3 ' 5 3 2 2 ' ! 6 ' 3 ' ( ' 2 3 5 2 ' 3 3 ' MASS FLOW ' ' @ &5 5 5 3 ' Medium Water ' 3 6 ( ( D !"# 8 - A/ % 2 ' 3 5 ' 5 2 3 =' & ' &3 3 OTHER MEDIUM 5 2 3 2 !"# & 3 3 ' C' 3 2 3 ' 5 3 6 & & 3 3 ' 5 2 (c-medium MIN 3 ' 5 2 3 ' 5 ' 3 &5 2 ' ' ' 3 2 % ' 5 ' 3 & ( 2 & 3 ' ' 5 2 3 ' ' E ' ' c-medium MAX/ ' ' MIN m/s 3 2 0 ' ' 3 ;44 4 D 2 ' ' ' 2 ' 2 3 3 3 * @1++ + ' */ * & ' 62 C' !"# ' 3 5 ' 3 3 3 !"# (P 5 ' 3 ( ' . Kinem.Viscosity 1.00 mm2/s *: 5 ' 2 ' 1++ + 3 ' % 3 )1 % 5 5 9 ' ' & & 6 3 K - !3 3 5 ' ' 3 ' 3 2 ' ( 6 ' 6 3 6 6 & 5 5 3 & 2 &5 & ' 8 . 1/ % 3 ' ' &3 6 6 !"# ' 3 ' 5 2 c-Medium 1400.0 D 3 ' : !"# ' 2 OTHER MEDIUM 3 ' $ % 3 ' ' 2 ' 62 ' ' / & 3 % 3 5 ' 6 + +) 62 5 2 @+ +++ ++ - 3 * ' 0 ' & ' % 3 2 ' 3 3 3 ' !3 5 ' 2/ ' & 3 @@ ' ( ' . % 3 &* Density 1.00 g/cm3 D 2# - 5 3 ( 3 5 !"# ' ' & 6 3 0 ' 6 + )+ & ' 62 3 ' ' '&& 3 6 & 2 3 3 6 3 3 ' 5 2 ( ' ' ' & 3 3 3 ' ' ' ' ' & 3 ' )H/ 3 / % 3 ' 3 5 ' & ' 3 2' ' !3 3 6 & 3 ' & 3 ' ' 3 ' ' 6 3 ' 3 3 Medium Temperat. 20 C 3 3 ' 5 ' ' & & 5 ' ' ' 6 !3 -+G & ' 62 ' ' @ - !"# ' 2 2 3 -+ ++ &* @ ( D* " & D* & % - ' ' 2 '3 5 2 & 9 3 ' 3 ' 5 3 3 & !"# 2 ' TransducerType Standard 5 STANDARD SPECIAL ' ( 6 / ' ' 3 6 & ' 62 ) 3 VERSION ' ' < #$ 2& 3 8 1 Transd. Data 35.99 @A 1 % 2 '3 5 3 ' & ' 3 SPECIAL VERSION !"# 3 5 ' 3 . &5 62 3 ' ' 2 62 & ' D* !" !"# 3 Additional cable 65.0 m 3 6 ' 3 6 6 =' & 3 3 " # ! % 3 MEASURING 3 ' 3 5 CHANN: A B>Y>Z Measur √ - . . • D 3 2 O- 5 3 3 ' & 6 3 32 ' 3 MEASURING, ' 3 2 2 ' ' X−X 3 3 (2 ' 5 3 PARAMETER & 3 !3 2 O+ 3 6 3 2 3 $ 3 6 6 & 5 ' & 3 & 3 & & 3 % 3 ' 3 3 ' ' par >MEA< opt sf NO DATA ! 3 3 & ' % 3 3 3 6 6 &3 3 " par >MEA< opt sf Measuring X√X X•X 3 2 3 &3 3 / 62 D2$ &3 ' & 3 ' & 3 3 5 3 / & 3 O ON • 7 2 5 5 3 3 6 ' ' 7 ' 5 3 3 3 & 3 ' & 3 ' 3 & 3 ( $ 6 PARAMETER 8 7 3 ' !"# 3 6 & 3 D3$ • ' ' 3 3 ' 3 3 3 ' 6 3 ' 3 3 3 / 3 & 3 ' ' 3 3 ' 6 3 ' 5 32 ( 3 3 ' 6 )+ & ", ' X+X (9 & 3 " $ !"# 3 '&3 3 • ' 5 ! . / 2 ' 3 5 ' 6 ( 3 ( "& 8 )/ ' - 3 / 2 ' ' 3 5 @1 ' 6 3 5 3 ' ' % 3 ' & 3 & &2 ' 3 ' & ( ' 3 &3 3 ' 3 ' # D ! 3 3 !"# ' ' P P P ' & 3 M 5 ' 3 6 3 3 6 & 3 3 ' 3 3 ' 3 & ' ' ' 6 3 3 3 3 3 ' 6 ' &5 3 3 & 3 & 5 ' "& 8 ) & ( #$ 2& 3 > 6*7 @. ' !3 " 6 ' & ! " Transd.Distance A: 54 mm Diago YRefleW YDiagoW 3 3 62 & : A 3 3 ' ( A:Sound Path 5 NUM D 2 ' ' 6 2 2 ' : 67 67 $ . .* . . 6 3 (3 1A 3 ' " 3 / !3 5 2 6 D & ) ) ) ) ) ) / / ) $ 6 $ $7 ' ! ! 8 2 3 ' 3 3 3 ' ' & ! 6 ( - ) • D ' *# %+ ' ' # )& " ) & ! , ! ' # + # # &' ! . '. # '+ '+ & ' )'+ # #!"3 ' & ! , #'+ . ' ! &'"3 . # )'+ ! * ! + && ! ! " " ( L !* ' "& 8 ' &5 " + & 3 .) # +" ' # " 1 2 # &!& +" , % )'( + ' +" # !3 3 0 ' ' '. ! ) !) "'+ !" "' " . # &!& & !' ' # ' ' ! * &'! • && . ' "'+ !" "'+& ! * "')&'+ *# ! ' # "' " + " ' # +" , • & 3 3 3 & 5 & > ' 3 " + ' &!& # , +" # '' 3 , $ <4 . #$ %& "'( . #$ %& "'( • ' 3 3 L >4 &3( ' 3 O )1+ / @8 # ! " " 8 • ' 3 (-/ 3 2 ()/ 3 ' ' - >* & "& 8 @ !3 ' 6 3 (-/ 3 ) : " !" " " 8 • 7' 3 3 '&3 3 3 ("& 8 A/ 6 3 • B' (-/ 6 3 3 3 '&3 & 5 3 3 3 3 ' >0 & • 7 3 3 8 3 3 =' 3 ("& 8 1/ 3 • M 2 ' # 2 ' 3 ' & ' 3 3 3 3 3 '&3 7' & & 3 3 ' & 3 &3 6 3 3 (-/ ()/ 2 3 3 3 3 3 3 ' & 2 ' & 3 >< & ) " % " 5 ! 8 • 3 3 - ' &3 ' ( 3 % 3 3 #$ 2& 3 . • ' • 7 ' 3 • D ' @H 3 & ( ' ' ' =' 5 3 2 3 3 ' 2 !3 3 ' 3 6 6 '&& 62 !"# ' # ! " " ' - ): " • 7' " " - 3 3 '&3 3 ()/ 3 8 ./ 6 3 ("& 6 3 >= !" • !3 3 3 '&3 3 (@/ 8. #$ %& "'( • B' & & "& 3 3 3 '&3 3 3 3 5 ' • 7 3 3 ' 8 8/ !3 2 3 3 =' 2 ' # 2 3 ' 3 3 3 ("& & (@/ 3 ' 3 >> #$ %& "'( • M ()/ 3 & 3 3 ' 3 - )" • 3 ' 3 ( 3 ' 7' 3 & 3 3 2 ' " ! ;*< - ' 3 3 & & 3 3 & % 3 - 3 3 3 &3 6 % 3 '&3 3 2 3 ' ! 5 " & &3 3 (-/ & 3 #$ 2& 3 . • • 7 ' ' 3 3 ' ' 3 2 3 2 !3 3 ' 6 6 ' @, • D & ' ' =' ( D 3 ' 3 '&& !"# 5 2# ! " • % 3 " ' 3 ' 3 & 2 % 3 ' '&& 6 ' !' 3 3 5 3 3 62 " 3 ' !"# 3 ' • 7 3 • ! ' ' 3 • # 2 3 *' ( "& 8 H/ ' 3 62 & 3 ' ( 62 ,+G & & ' 3 3 3 3 =' 3 3 3 . 3 3 6 ' ' >; M ' 62 3 ' 3 & 3 6 3 3 3 #$ 2& 3 . • 7' 3 3 2 • " 3 ' 3 " > " D 3 2 5 ! 6 3 D 3 3 !3 3 -F 3 3 & " 3 A+ ' 2 6 ' 3 & 3 3 3 3 3 & 6 ' 6 3 3 & 3 Transd.Distance A: 54 mm ! 3 3 ' 9 ' ' 62 ' & ' 3 !3 6 S= A: & 3 (XS=X/ & 5 < > =54 mm! =' 3 6 % 3 2 ' ' 62 &3 & 5 ' 3 5 & 3 3 6 & 62 3 ' % 3 5 & 3 62 3 &3 2 3 3 & # 3 3 ' ' 3 &3 2 ' & =' Z 3 3 # 3 & 7 S= Q= 2 3 3 DISP 2 3 C' 3 6 3 6 3 & 2 ' 2 3 ' ' & (XQ=X/ % UNDEF 3 & 3 DISP trans. Q= ' 94.0 ( 3 ' 3 6 & 3 3 & 3 6 & 3 3 C' 2 3 & 2 3 (Xtrans.X/ 7 µs 2 0 ! !)&' &' !. B 6 2 ' # ' ) + ) +" ! " 4 #' # # !* ! !) 5! + ) , 3 (XS=X/ 3 ' (XQ=X/ !)+) !# # #' ± . #$ 2& 3 ' . 8 >== 3 ' ( #$ 2& 3 : % " % 2 '3 5 6 3 2 ' 5 2 < 3 ' 3 ' & ' ' D & '&& Transd.Distance? 53.9 mm * ' ' & 2 ( / =' 3 ' 3 2 5 ' 62 0 8 & 3 3 ' 3 ' 3 PARAMETER & 2 ' ' 2 3 ' L=(50.0) 54.0 mm 54.5 m3/h & 2 ' 3 6 ' 3 62 & 3 2 DISP 3 ' ' 1A + 2 ' ( 62 3 ' 3 3 2 ' 3 5 3 3 3 3 1+ + / ' (3 ' 3 / A) !3 2 ' ' 3 6 % 3 3 62 !"# 3 X X ' '&& 62 !"# 6 3 3 PARAMETER & % S= A: ' 3 3 3 ' 6 ' 3 3 3 E ' & % 3 6 ' 3 3 & 3 3 ' 9 3 ' ' ' 6 3 3( & & 2 C' 2 2 DISP DISP ' ' ) & 3 3 3 5 ' ' 3 3 ' =' ) 3 5 =50 mm! 3 & ' < > ' 6 3 / & 6 8.1 ' 7 Transd.Distance? 54.0 mm 3 & ' 3 ' ' 3 TRANSD. DISTANCE? 2 ' 7 Transd.Distance? 50.0 mm L=(51.1) 50.0 mm 54.5 m3/h 3 & 3 62 6 3 ' 3 DISP 3 ' & 3 ' 3 ' 3 ) 2 2 9 ' 2 " ) D " $ ' & 2 DISP 6 ' % 2 '3 5 3 A- 3 & ' 3 3 ' 3 '&3 3 3 3 ' 3 3 2 ' 9 < 3 E ' $ 3 ' 5 5 ' 2( ' 5 2 9 2 & 3 3 ' ' ' 62 ' !"# & 3 3 PARAMETER )- -/ 3 ' 62 3 PARAMETER 6 3 & & 8.. ' 3 [2 ' ' ' & 6 3 USER MEDIUM DD$ ! " # 3 3 6 ' 3 6 - ' 2 3 81 6 8. 3 3 3 3 32 ' 3 ' 3 6 ' ' 5 ' E ' & 3 2 A: Volume Flow 54.5 m3/h !"# 3 3 3 ' ) 3 3 5 ' ' ' & ' & !3 3 ' 3 3 3 & ' 3 5 & 3 C' ' 3 3 !3 %B $ # # & 2 3 !3 3 6 3 ' % &3 3 3 ' ' & 6 ' 3 3 ) ( 6 7 . 6 D =7 ' ' & 3 !3 H )/ ' ' 3 5 & H 2 3 ' ' 2 5 ' 6 3 ' & ' DE , 3 ' & ' 3 • !3 1A 1 3 3 @ • !3 ( ' *3/ ' & @ 1A 1 $ 3 ) ' H @ 6 3 ' *3 2 ' ' 2 3 ( & 3 3 ' ' , 6 62 3 & 9 & 5 & 3 3 3 3 3 3 2 3 3 3 3 2 X0 ' " X ' 5 2 3 &( & 5 & *3/ ! " # E ' 3 : 3 =' & 3 5 ' 6 ! !3 D ' ' 2 & 3 5 ' & 3 2 62 &> $% A@ E: % ! " # !3 32 OPTIONS & 3 3 3 C' C' 2 6 & 6 3 3 ' ' 2 3 ' 6 3 % 6 E 6 3 3 5 5 • 5 • 5 ' • • 3 • ' 5 • 3 ' 3 2 2 - 3 5 ' 5 2 !"# 62 H @/ 3 & 2 3 7 % 2 ' 3 & C' ' C' ' 3 & 3 C' Output Options For Channel A: ' !3 3 ' 3 ' & 3 3' 62 3 6 ' 3 ' ' 5 ' 3 2 C' 3 3 ' 2 5 ' 5 2 !"# 3 2 ' 6 2 3 ' 3 % 3 OPTIONS 3 3 ' ' 6 ' ' 3 62 3 & 3 & 6 3 OUTPUT 3 32 ' & ' 62 ( !3 2 7 ' ' ' 3 Physic. Quant. Volume Flow !3 5 ' 3 3 % par mea >OPT< sf Output Options AA 3 H -/ 3 6 3 5 2 3 3 3 3 2 3 ' 5 ' ' !3 3 ' . 6 !"# )1 2 ( OUTPUT 3 ' " 3 % 2 ' 3 2 3 ' 2 2 ' 62 ' 2 & 3 ' 2 & 3 5 ' 3 5 ' 3 3 3 3 ' 3 ' 6 3 6 3 5 ' 2 ' C' 2( 3 C' 5 % 2 ' 2 ' ' 6 & & 3 3 ' # & H) 3 6 " &"% & ' !3 ' 6 2 C' 3 $ 6 ' 2 2 ' ' ' & 3 C' & ' 2 ' 3 3 5 3 ' 3 3 2 Volume in: m3/h 3 5 ' ' E !! 3 5 ! 2 3 D 2 && MUX E ' 6 32 !3 ' ' 3 " !"# & > ' 62 3 ' ' C' ' 3 32 ' 2 2 & ' 62 E ' ' OUTPUT OPTIONS ' ' 7 / 6 2 3 & ' ' ( 6 3 && " &5 ' 3 3 5 6 3 A 6 # 5# % ' ' 3 ' 2 !"# 3( ' 3 3 & 6 ' 9 2 2 3 2 3 H )/ 3 9 2 ' 3 3 3 3 ' 5 ' ' & &' ' 3 3 A: Volume Flow 54.5 m3/h E 0 - % M' ' !3 3 3 3 2( I / " 3 OUTPUT OPTIONS 3 3 2 B: Flow Velocity 1.25 m/s # 5# ' !"# 2 3 3 ' 3 5 !"# 3 ' A: Volume Flow 54.5 m3/h 5 ' 2 3 ' 3 2 3 3 ' & ' 3 2( 3 ' & 3 I / NEXT 7 2 3 !"# 2 3 H )/ 3 ( E * 5 3 5 - 2 &' 3 OUTPUT OPTIONS & 6 3 5 2 3 3 3 01 @+ ' & ' 5 2)1 3 &3 / 3 ' 3 2 % !3 26 3 5 5 " 5 3 3 2 & & 5 ' 3 2 ' ' (!3 % 6 3 # !"# 3 E ' " (!3 % 5 / % 6 !"# 3 2 5 2 3 3 01 @+ ' 5 & ' ' & 3 3 &3 / 3 ( 5 2) 1 ' ' & A1 E* ' ! " : & 3 ' ' ' 2 E ' 3 6 3 3 & !3 ' 3 3 % 3 5 2 3 2 5 ' 3 5 ' & 5 ' 32 2 3 3 ' 3 9 C' 2 & 3 3 & & ' 5 ' 3 & 3 , ! • - % & • ! 3 C' 9 5 ' ( • # • 3 • 3 • 3 • 3 • 3 • 3 2 5 " ' ' 3 ( 3 3 3 2 2 & ' 6 ' ' / ' & ' ' 3 ' ' ' ( 8 . ./ 5 &' 3 ' 3 6 26 %( / ' ' " & 2 ( ' ' ' 5 3 2 3 < ), ./ , ! - • " 5 2 % " " %( • • 0 ' • M • ' • # ' 3 ( 2 ' ' / DISP D 2 D 2 DISP 3 '&3 3 2 3 ' 3 '&3 3 2 3 !3 3 A: Volume Flow * 2.47 m/s ' ( • J6 'G7J • ' 3 3 XR RX 2/ (3 & ' 3 5 ' ' 3 5 ' & 3 3 2 & & 5 ' (3 C' 2 / . JN@"5A J ! , JO@"5A OJ • A. $ . 8 E2 " $ !3 C' ' 2 / &5 5 ' 3 3 2 2 3 / % 3 2 ' =' & ' C' 3 ( & ' 2 & 3 3 DISP ' ' & 3 & ! 2 3 ' 3 ' 3 2( 2 / ' √ A:S8 Q5 c RT F E ($! " $! $ $! 3 ' 6 3 C' 26 & 3 ' & 3 3 & K 1U Q P ,+U 7 $! 9 % 3 3 & K 1U Q P ,+U $ . % !3 ( ' ' 3 ' 5 2 ' & 62 3 6 3 5 2 ' 3 ' 6 ' 3 ' ' / & -+U 3 5 ' 3 5 ' I -+U J 3 ' 5 ' 6 ' , % 6 ' 3 6 & 2 < ' 6 ' 2 ' 6' 3 3 / '2 J ' , , . & 6 6 ' % 3 ' 5 3 5 2 3 &3 3 5 2 9 3 I J ' 6' ' 2 3 3 3 3 3 2 ' ' ' ( 5 '6 C' 2 / 5 2 5 2 3 & 3 ' & 3 & 6 ' A8 5 - ( $ ( ( $E 3 & 73 ' H+U & C' 2 1+U I , !3 ' ' 3 & AH 5 "' 2 ' 6' 2 " 5 3 2 ' ' A, . # " : 3 3 5 ' 5 ' 3 &3 ' !, !, 5 ' 3 5 & )+ !3 2 2 62 3 3 3 C' ' 2 3 & ' & 3 OUTPUT OPTIONS 2 ' 3 '&3 3 2 ' 3 3 DAMPING ' ' ! E ' 3 3 ' 3 5 ' ' !3 & & & & 6 3 3 3 & 3 s , 3 32 ' 3 2 & & ' 62 & 0 ' 6 ) 3 62 & ' ' 3 " &> ' 62 F !"# 9 3 . 3 ' !3 - - 3 9 % & 3 '&3 3 & 6' 9 9 & 5 3 3 9 & 5 !3 ' 3 C' ' 2 5 2 ' 3 &3 ' ' 9 ( 5 ' 3 5 ' 3 ' 3 9 ' )) 3 3 ' @ &' 3 !3 ' 9 & ' & ' C' 6 3 2 3 5 3 3 ' ' 2 6 5 3 ! 3 5 3 9 9 5 2 3 5 3 9 & 2 5 7 2 7 2 7 2 ' & ' O+ O- OON ! 3 9 ! 5 9 & 9 7 @ 2 7 @ 2 OOFF ' 2 3 9 5 O ON ! 1+ ' H )/ A: Volume Flow 54.5 m3/h ! ' 62 ' )++ ' & & ) ) 5 ' &2 ' ' & 3 Damping 30 5 3 9 2 3 9 2 O ON ' ( 3 <0 . 8 OOFF ) !3 A: NO COUNTING ! 3.5 m/s ' ( ' ( & 9 3 2 C' 6 3 ' 2 ' 2 3 5 3 5 2 !3 5 2 9 ) $8 8 ) ' ) . ) A: 32.5 54.5 $ ' 8 3 3 3 3 3 m3 m3/h ! " ( $ 3 2 (3 3 ' 9 & 3 5 9 5 ' 3 5 ' 5 / 9 3 & 3 5 ' 6 9 ' &3 3 SPECIAL FUNCTIONS \ % 3 MEASURING QUANT. ON C' 2 3 5 ' ' HEAT+FLOW 3 3 ' &3 3 ' ' 9 9 ' 3 6 3 SPECIAL FUNCTION \ SYSTEM SETTINGS \ MEASURING Quantity recall off >ON< % 5 3 ) heat+flow quant. off >ON< 3 8 F 6 ' ' 6 3 3 3 ' !3 & 6 5 SYSTEM SETTINGS \ MEASURING 6 9 3 3 % !3 6 3 5 3 & 8 8 % 3 MEASURING RECALL % 2 ' 6 3 2 ' 6 3 ON 3 9 3 ' OFF 3 6 3 ' ' 9 6 3 5 ' 3 ' 2 2 9 2 % 3 SPECIAL FUNCTION \ SYSTEM SETTINGS \ STORING 3 QUANTITY STORAGE 2 5 ' 3 ' 6 5 ' & 6 QUANTITY 3 9 ' % 9 3 3 1) Quantity Storage one >BOTH< ONE 2 9 3 3 !"# 9 5 ' ( $ 3 5 ' 6 & ) . " , !3 ' 2 BOTH 3 & ' 62 ' 3 ' F 9 • 3 ' 5 )+@H !3 5 ' 26 • 3 5 !3 ' 5 ' 3 5 ' 6 2 9 !3 ' 9 ' (±) +++++ )+/ 3 2 !3 9 2 9 ' 2 ±,,,,,,,,,, 9 3 ( / % 2 3 2 !3 9 & SETTINGS \ MEASURING !3 6 & 6 3 3 & 9 ' 2 3 SPECIAL FUNCTION \ SYSTEM 6 3 QUANT. WRAPPING Quant. wrapping off >ON< ' ON • ( 3 ) . . ) PΣM E7 6 6 • & , ' 62 3 3 ' ' ' ' & % 5 ' ( ' 6 3 3 3 & ) M @$" 'I /- 6 52 7 '6 ' ' & 5 1- C' ' 3 3 3 5 ' ' 3 6 ' ' 6 &/ ' & ' 5 6 && 3 ' ' (X 5 ' 5 ' X/ !3 ' 3 5 2 6 3 SPECIAL FUNCTION \ SYSTEM SETTINGS \ MEASURING !3 5 (5 5 & % 3 & 6 3 SPECIAL FUNCTION \ SYSTEM SETTINGS \ MEASURING 3 3 ' 5 2 VELOCITY LIMIT 0 ' 6 +) -1 1 * & X+X 3 3 ' 62 ' ) ) . B& 25 & Velocity limit 0.0 m/s 3 3 3 3 3 ' . • *4 OFF 5 5 2 2 % 3 Q + + */ 5 2 5 2 6 && & ' ' 3 5 3 2 6 • !3 5 • !3 # 2 3 • !3 3 ( 2 3 ) 2 !3 X 5 5 XZ 3 ' & C' 6 6 / 3 YFW 6 3 3 ' ' (% ' @ 2 Y / ! , ' ' 5 ' 5 3 & 2 & 3 5 ' 3 3 6 !3 ' 5 ' MEASURING !3 ' 2 3 )- 8 6 & ' 5 2 !3 5 C' 2 ' ' 9 !3 1 5 ' 3 & !3 5 ' 3 ' ABSOLUTE 3 ' 3 & 2 3 ' 5 ' 5 ' SIGN 3 3 & & 5 % 2 ' ' & 5 -Cut-off Flow -5.0 cm/s 5 ' 3 3 5 ' ' !3 3 2 9 ' 3 5 ' 5 ' 3 5 ' 2 ' ' 5 5 ' + * 3 3 3 C' ' 6 5 3 6 5 ' & & 5 2 5 2 ' ' 3 3 5 ' 3 C' 2 5 ' 5 5 ' ' 6 5 + 3 * 5 9 2 ' 5 ' 6 ' 2 6 6 !"# 3 ' 5 ' CUT-OFF FLOW \ ABSOLUTE !3 6 5 6 & ' 3 3 5 ' ' 2 ' CUT-OFF FLOW \ SIGN 3 ' 2 & 3 6 FACTORY 1 * USER +Cut-off Flow 5.0 cm/s Cut-off Flow 5.0 cm/s ' 5 62 5 ' 2 & 2 & 3 ' ! 5 ' 2 5 ' 3 SPECIAL FUNCTION \ SYSTEM SETTINGS \ 6 % 2 ' Cut-off Flow factory >USER< &6 ' * !3 * % 2 ' Cut-off Flow absolute >SIGN< % 2 ' 3 5 Y\W . 9 % 2 '3 5 W 5 ' 3 3 ' ' 6 & 3 1@ 34 , " % 3 % 3 6 & 3 ' 5 2 &3 6 3 SPECIAL FUNCTIONS \ SYSTEM SETTINGS \ MEASURING 2 ' 3 5 2 !3 & 6 6 & 3 3 FLOW VELOCITY 3 ' ' UNCORR. 5 3 ' % Flow Velocity >NORMAL< uncorr. 2 5 6 " 3 3 3 NO 6 3 3 3 2 ' 2 A: FLOW VELOCITY 2.60 m/s ' & 3 ' A: PROFILE CORR. no >YES< 2 ' 5 5 ' 2 ' M ' ( # !3 " ' ' 3 " !3 3 & ' 3 3 ' 5 2 7 ;, 3 5 ' ' 3 3 5 2 5 C' 1A 2 3 , & / !3 3 3 ' # 3 3 &3 2 ' ' ' & < & 5 ' ' & & 3 2 2 9 3 3 3 ' " ' ' 3 5 & / !3 DISP ' ( ' & 3 62 6J@"( & %%J & 6 6 3 2 2( 2 62 XDX 8 3 9 & ' 3 & ' ' ' 2 ' 3 3 " 8+ 5 6 @ ( & C' 3 YES !"# ' 3 ' 3 32 C' 2 FLOW VELOCITY 3 !"# OUTPUT OPTIONS 3 32 C' (5 ' / 3 3 5 2 ' & FLOW VELOCITY 6 2 & 3 3 2 62 A: Volume Flow *U 54.5 m/s 6 6 2 !3 6 & C' ' 2 % 2 ' 5 2 3 5 6 3 MEASURING 2 3 3 ' 3 3 & !"# % NORMAL 2 2 & ' 62 A: PROFILE CORR. >NO< yes 2 3 2 5 ' 6 '/ & 3 ' !"# 3 6 3 PARAMETER ( 3 6 '' !3 ' 3 ' & ' ' ' ' ' ' 6 ' ' !3 " " 3 6 !H: 6 5 ! " , , # 3 Enable FastFood no >YES< D M YES 6 62 6 $ ! " , , 3 3 !"# 6 3 " 3 3 3 3 ' 5 3 " ' " ' & . 6 ' ( & ! " , , OUTPUT & 6 OPTIONS 6 & .A & ' 62 ! H: " NO & !3 " & . " " & ' " # Storage Rate 70 ms * 3 # ' 3 3 6 3 ' !"# 3 3 / ! A: Volume Flow 30.5 m3/h 5 3 " 3 " 2 0 ' &5 ' 3 5 3 ' & !"# A:Mode=FastFood 30.5 m3/h &5 ' 3 " & ' 3 & 3 2 " !3 2 ' ' 5 3 6 ' 2 62 &> % 3 & 5 ' 3 ' ' ' ' 5 ' !3 ( 3 3 3 3 A:Mode=TransTime 30.5 m3/h ) 5 & 2> / " 5 2 ' " 3 " 0 & 3 ' & " !"# 6 5 3 3 3 3 3 5 ' & • • 8 $ 11 D " ' ( ( % 3 ' 3 2 3 ' ' !3 Y 6 ' ' 3 ' 5 ' W C' 5 3 3 ' ' ' & D • % 32 2 & ' ( 3 E V/ !3 ' & ' 3 5 ' 3 I / 3 Y 3 " 3 ' • ' 6 " & 6 " ( ' 6 3 • E ' 6 5 ' ' 3 ' ' ' ' & 3 & 3 ( ' 3 62 5 ' 3 & 3 ' 2 3 E ' 3 5 & 3 ' 2 3 3 ' 5 ' 6 2 ' 5 ' 3 3 5 ' 3 ' 3 !"# 3 3 5 23 & 3 9 !3 ' ' ' 3 " 3 PARAMETER 2 ' / 3 ' 3 2 & 3 Y5 ' W 3 & 3 ( ' 5 ' W 5 ' ' 3 3 5 ' ' ' 5 ' / ' 3 ' ' 3 6 3 C' !3 ' 3 ' 6' 3 5 5 ' 3 3 3 & ' ' ' 5 ' 3 3 C' ' 5 ' 2 & 9 2 • ' ' D & 3 5 5 ' 5 ' 6 3 - F 3 5 5 " % Parameter For Channel Y: 3 ' & 3 !"# 2 2 !3 >CH1<funct ch2 A B 3 PARAMETER V/ 62 6 (E & ' Calculation: Y= A - B 2 3 3 ' ' ' ' &' • CH1 • CH2 3 2 3 3 3 3 ' 3 3 ' 3 &' O+ 7 2 3 • FUNCT 1. ' 5 ' ' & ' ' 3 2 O- !3 3 2 D 3 3 ' 6 !3 ch1>FUNCT<ch2 |A |(+)/2 |B | & 3 2 ' • • 6 Y= (CH1 + CH2)/2 & ' 62 " % 3 ' & 3 ' 3 & ' 32 ' C' 3 2 C' 2 6 ' & ' 62 3 3 ' 6 3 OUTPUT OPTIONS 6 3 62 Physic. Quant. Mass Flow ' 6 ' 3 ' ' ' ! 6 3 C' ,) 3 3 3 6 (# !9 !9 % % , " & % " "% " " 0 9 % ; 0 < 0 ' " 2 J - , , 5 3 Y = CH1 + CH2 ' Output Options For Channel Y: , ' Y = CH1 − CH2 D* 0 3 6 ' 2 ' # 3 '&3 OOFF ' & 3 ' 5 ' • (O/*- # " " 3 O ON >CH1<funct ch2 |A | |B | " & "% 9 % " ; 0 < " M " " " 0 J J J J J J J 2 0 ' " J M J J J J J J J J J J J J ) I $ H " " J , $ . , H , 6 $9 - Q H9 7 . $ , H 18 3 Mass in: kg/h ' & ' 62 ! ' 5 ' 6 !3 ' 5 ' 3 C' 2 3 3 +Cut-off Flow 1.00 kg/h &' ' +CUT-OFF FLOW 6 9 -Cut-off Flow -2.00 kg/h -CUT-OFF FLOW 3 ' 3 ' 3 ' 5 3 ' 3 5 ' 6 & 3 5 3 ' 3 5 ' 6 & 3 & 6 5 9 % 2 ' ' Store Meas. Data >NO< yes D2# ! 3 2 ' & 5 2 ' " 3 & 5 6 32 % WARNING! CHANNEL B:INACTIVE! 3 3 5 3 3 Y: Volume Flow -53.41 m3/h Y: A - B -53.41 1H m3/h ' ' 3 5 3 ( 3 2 8 )/ & ' 2 ' W 3 '&3 2 ' 3 5 ' 5 32 ' 3 & 3 3 & 3 MEASURING 6 & ' 62 2 & ' 62 62 CHANN: A B>Y>Z Measur √ √ √ - ' & " par>MEA<opt sf Measuring 7 3 & ' & 62 5 32 3 3 !3 ' ' 3 ' !"# ' 3 6 & & 2 3 5 2 ' 3 ' 3 32 ' 3 ! 2 3 7 2 3 3 / 6 M' ( ' 3 ' 3 3 ' ' ' NEXT 3 2 3 3 6 5 ' ' 3 5 ' ( 3 2 2 ' 2 3 H -/ % 2 ' & ' DISP 3 E/% " 6 2 & 2 3 5 ' ' !3 - 3 62 D 3 M DNmin Q-Sensor 25 mm 3 2 !"# 6 @ / 3 0 ' & ' ! !3 SET PROGRAM CODE & & ' ' 62 2 ' ' % 6 ( N 3 ' .@ 3 5 ' 62 & !"# & ' 3 & 2 3 3 6 2 ) 5 3 ' 3 3 SPECIAL FUNCTION 3 SET PROGRAM CODE & 26 !"# Program Code ------ ' 3 62 !3 & 5 INVALID CODE ! 909049 !3 ' 3 # ' ' ' & 6 3 &3 6 / Special Funct. Set program code !"# ' 6 W 3 ' XPROGRAM CODE IS ACTIVEX & % ! Y & 6 2> & 3 & !3 ' ' 6 / 5 ' 2 ' & 2 ' ( M & 6 3 . 3 & 3 & 5 5 & ' 2 ' 3 5 &' & & 3 ' 2 - 3 & ' 3 6 2 3 ' 2 3 3 & & 1, : . ! & ! & Program Code ------ 2 62 ' 3 & 3 3 (SPECIAL % 2 ' 2 ' .+ 6 2 FUNCTION 3 ' 3 & \ 2 PROGRAM CODE SET PROGRAM CODE/ !"# F $ ! ! 3 5 ' • • • • • • • • • • • • • • • # 3 ' 62 3 ' )+ ) ) " 6 ! % 7 3 ' 3 & && 5 3 & 6 & ' ! ' ' 3( ! & / ' & & N' D 2 ' 0 ' 0 ' ' ' 5 ' 3 3 !3 % 9 5 ' ( 6 7 6 ' 3 ' E ' ' 3 !3 5 & ( )+ - )/ ' 7 ' ( 6 6 ' 3 ) 2/ 2< 2 2 ' & 3 )+ 1 . #$ 2& 3 . # ! . " " $ !H: . 40= ! , ! " $ ! , 3 3 ' Output Options For Channel A: OUTPUT OPTIONS 3 3 2 ' ' 3 ( !3 2 3 6 3 62 MEAS. DATA Store Meas. Data no >YES< YES 62 $ & & 3 ' & 3 ! " $ 3 ' E ' ' )+ ) - !"# ' ' ' ' & 6 5 3 3 & 3 & ' 62 !3 / )+ - - 2 2 ' ' ' & 3 2 & ' 2 5 ' 3 2 ' & 3 3 3 & STORE ' & ' 3 & 6 ! C' 2 3 3 3 3 ' 5 ' 6 % ' 3 2 .) ' ( ' ' ( ' / . . #$ 2& 3 OUTPUT OPTIONS R STORAGE RATE ' ( , 63 . 7 OUTPUT OPTIONS 3 32 ' 3 3 Output Options For Channel A: % Storage Rate once per 10 sec. !3 2 3 " # 6 & & ' ( 3 SPECIAL FUNCTION ( 2 ' ' 3 ' & 3 STORAGE RATE 2 & % 3 EXTRA ' & ' 2 0 ' 6 ()- 3 ' / 3 3 '&& ) < 3 A@-++ & !3 & ' !& !"# ' 3 & 2 62 * 6 & ' 62 $ 3 & 3 2 ' ] 7 -+F]/ )H +1 +./ !3 ' )@ - @/ ' ( 6 3 Meas.Point No.: ( ) 2 3 ' ' % 3 3 & 6 * 3 & 3 2 ' 6 % & %% ' 3 6 3 6 & ' 62 3 3 ' ' & 2# & 3 !"# ' 3 3 3 3 5 ! 3 ' & & 3 5 & ' 3 2 3 & 62 & ' #$ 2& 3 ' #$ 2& 3 .- 3 - DATA MEMORY OVERFLOW ( & 5 ' 6 / . & DATA MEMORY OVERFLOW . 7 . " # ' ' 3 ' ' • 3 ' 5 ' 3 3 3 • %% ' 2 !3 6 !"# & ( & B 3 SPECIAL FUNCTION & 2 ' 3 3 PRINT MEAS VAL ' 6 3 / 3 & ' 3 62 2 ' 3 '&3 3 & ' 62 Special Funct. Print Meas.Val. !3 & NO DATA ! Print Meas.Val. ' & ' 62 !"# ' Send HEADER 01 ................ 5 ' 6 3 7 ' ' 3 2 !3 & !3 & 7 ' 5 ' 3 3 3 3 3 3 SERIAL ERROR ! Print Meas.Val. 5 ' ' 3 6 ' 62 ' ' & 3 3 3 ' 2 5 !3 3 ................ 2 6 ' ' !"# & 3 2 ' 3 3 & 3 6 )+ - @ !3 ' ' ' ' <6 5 ' ' !"# 3 7 3 62 & ' 2 ' 3 '&3 3 2 ' 3 3 SERIAL OUTPUT 2 2 ' 3 6 9 2 5 / & ' & ' ' !3 3 OUTPUT OPTIONS & 6 3 3 32 ' 5 3 ' ' 2 62 & ' ' 3 & 3 YES Serial Output no >YES< 2( 3 ' 3 5 & 3 ( 3 62 ' ' & ' % 2 ' )+ ) -/ 3 6 ' 3 < ' .@ !"# )+ - @ !3 5 2 3 ' ' & C' 2 ' 5 ' *, !3 62 5 / ' 5 5 5 ' A ( & 3 )+ ) )/ 5 6 ' 6 & )+ A ./ " 3 6 & 3 ' & & 5 ' & 3 3 & (3 !3 5 6 & 3 3 3 5 (3 6 3 ' 3 6 ' & 2 3 3 X* ! X ' 5 ' !3 6 <\\\< 5 ' 2 3 6 . 4 4 ,/ + - " - !. " 4 ' ' ... ' & 3 \*MEASURE ###000000.00 N' Q_POS +00000000.00 0 ' 3 9 3 Q_NEG -00000000.00 0 ' 3 9 3 FQ_POS FQ_NEG T1 ###000.0 2 C' 0 ' 3 5 ' HEAT FLOW C' ! ###000.0 ! 9 9 3 2 5 ( ' / & 5 ' / ( C' ' / ' !- ( HEAT FLOW 3 6 3 ' C' 2 ' / 3 ' 3 2 !) ( HEAT FLOW 3 6 3 $ SSPEED 5 ' ' ... 5 & 0 ' 3 5 ' HEAT FLOW ' T2 OUTPUT OPTIONS ' 5 2 ' 2 3 ' KNZ AMP & ; % $#%$ ' !' ' !3 5 6 - 6 - ' !3 6 3 2 3 ' & C' 3 3 9 2Y 2 6 ' ' ' 3 5 2W . ' 6 ' & 26 & N ^7 ' < ' N ^$ B & 5 ' 3 - -@- ,.++ 6 H #" & 3 -11 3 .A C' N ^$ B 6 6 & ""#%$ 5 6 !"# < & N ^7 ; % - 9 5 ' ' 6 %% 5 2 - 6 ( ! * ! / 3 9 ' 2$ ! " & 3 ' ' 6 \ SYSTEM SETTINGS \ SERIAL TRANSMIS !3 & 3 3 3 6 & 7 ($ ! 3 & 3 SPECIAL FUNCTION 2 ' 3 ' ' 6 6 " 1 (& 3 3 SER:kill spaces off >ON< 1 ( 5 $ "" 6 % 3 6 9 ' ( 5 ' 6 2 3 3 5 ' 3 62 3 / ( SER:decimalpoint '.' >','< / 3 & SER:col-separat. ';' >'TAB'< 3 7 *: " $ 3 3 FUNCTION ' & ' ' 3 6 ' ' ( 6' / 3 C' & TAB & 6 2 3 ( 3 ' 2 ' 3 3 5 SPECIAL DEL MEAS !"# ' 2 ' 2 3 5 ' 2 ' & ' 62 ! , & & ' 3 3 SPECIAL FUNCTION & SETTINGS 3 7 ' ' 6' 3 ' " $ 3 3 & ' 62 ! 5 3 3 VAL Really Delete? no >YES< 5 6 3 6 3 '&3 3 ! 5 & 5 ' & ' 3 62 Special Funct. Delete Meas.Val. 2$ & & : 3 6 6 2 ' 6 6 3 9 3 3 62 3 STORING & & ' 3 ' ' 3 SYSTEM 3 $ .1 2 $ ! # 3 Storage Mode >SAMPLE< average & SAMPLE ' 5 ' % !"# & AVERAGE 3 & % AVERAGE/ (SAMPLE ' ' 3 !"# 5 ' ' ' 2 ' ' ' ' ' 3 & ' 5 & ' 62 • !3 & 5 • % ' & ' ' AVERAGE ' 2 3 • % 2 2 2 $ % ! 6 !3 ' ' 2 5 ' & C' & 3 ' 5 ' ' 6 ' 3 5 ' 3 ' 5 ' ]???] ' ]?UNDEF] 2 ' 5 ' 5 AVERAGE 3 C' 3 3 & ( & " 3 5 & 3 5 3 & 5 6 5 5 ' 5 3 3 3 5 5 ' !3 % 6 2 5 ' 3 ' %% 3 5 ' F 5 ' 3 ' 2 2 9 3 & ONE Quantity Storage one >BOTH< ' !"# BOTH 3 62 & ' 9 5 ' & 3 ' 6 2 6 3 3 3 & 3 2 9 ( • !"# • !3 3 3 3 & ! 2 3 2 ' 5 62 3 3 & 3 " ' 6 ' 6 SPECIAL FUNCTION.#$ 2& 3 ) ' . .444 ' 2*$ 9 9 2 && 6 A ' ' 5 ' 4.444 .*.*** - % 3 SPECIAL FUNCTION \ SYSTEM SETTINGS \ STORING AMPLITUDE 2 .. ' 5 % 3 SPECIAL FUNCTION \ SYSTEM SETTINGS \ STORING QUANTITY STORAGE 2 - ' / & 6 3 3 STORE ON & 3 % 2 ' ' Store Amplitude off >ON< 3 & !"# 3 3 ' ! " $ % " # ! & ON % 2 ' ' 5 5 ' 3 5 2 6 3 STORE 3 3 ' 3 ' 3 3 & 3 ' 5 ' ' & ' " # % 3 SPECIAL FUNCTION \ SYSTEM SETTINGS \ STORING CONCENTR. 2 % 2 ' Store Concentr. off >ON< & 3 & 6 3 STORE 3 ON !"# 3 3 ' ' 5 ' 3 5 ' ' 3 3 5 & ' 62 2 5 !"# 3 62 23$ 3 3 - % 3 SPECIAL FUNCTION \ SYSTEM SETTINGS \ STORING C-MEDIUM 2 Store c-Medium off >ON< ' 5 ' & ' 62 22$ 3 ' 5 ' $! 7 ' ' & 6 5 2 ' 5 ' 7 !3 & 6 5 3 BEEP ON STORAGE FUNCTION \ SYSTEM SETTINGS \ STORING & 6 3 ' 3 2 6 ' ' 5 ' 3 3 3 2 & ON ' & 3 2 3 2 5 - ! ' !3 5 ' 3 5 6 3 ' 3 6 ' ' 3 3 '&3 3 ' 3 & ' 6 3 3 6 ' 3 3 2 ' DISP 7 - 5- 3 ' 6 !"# 7 & ' !3 6 & . 62 3 SPECIAL # - % FULL=26.01/07:39 54.5 m3/h C' 5 3 5 Beep on storage >OFF< on 3 . OFF 2 3 5 9 6 2 - ' 2 5 6 & .8 SPECIAL FUNCTION \ INSTRUM. INFORM. 62 & ' Special Funct. Instrum. Inform. !3 ADMXXXX-00000999 FREE: 18327 2 !3 3 6 7 FUNCTION .H & &5 ' 2 3 5 6 )H @-8 M & 2 ' 6 2 ' 3 ' 6 ' ' 3 & &5 5 ' 3 SPECIAL + % 3 8 ! "& 7 7 ' & 6 3 PARAMETER 6 6 (3 62 ' 3 3 5 ' 6 ' 5 & & 3 !3 3 3 & & & ( ( 3 &/ &/ '&3 ' 3 3 & ' ( 3 ' $ 6 3 3 ' !& D M ' 6 3 7 7 7 7 2 6 YES & ' 62 2 ! )) -/ !3 )) @/ ENABLE PARAMPOOL 3 7 7 NO 3 6 !3 / ( C' 2 Enable ParamPool no >YES< 5 7 & % ' & !3 2 6 ( 6 !H: !3 )- 3 & !3 6 & 3 ' 3 3 & ' 3 ' 2 / 3 3 3 3 3 3 3 3 3 3 3 H+ & 3 & 3 • • • • • • • • • - & 7 3 7 62 3 6 7 6 & & 3 7 7 ! $" 5 3 ' 6 6 3 2 6 ' ' 3 >PAR< mea opt sf Parameter Parameter For Channel & 3 PARAMETER & ' 62 3 3 6 3 3 32 ' 3 ' A: ., !3 6 Parameter from: Current Record 2 2 % & ' 62 3 % Measur.Params. load from Nr #03 ' 6 3 () 2 & ' 3 3 !"# EDIT 3 2 ' ' ' 6 % ' 6 2 3 3 3 3 % () ' 6 H+/ % 2 5 2 ' 3 !"# YES 5 3 % ' 6 3 3 5 3 NO & ' 62 3 3 & ' 62 !3 ' 6 5 ' 3 ( % : * *$ . !& 3 & ' 62 - * $" 3 >PAR< mea opt sf Parameter 8+ 3 ' & ' 62 % 2 '3 5 ' AGAIN ' 6 EDIT 2 ' MEASURE Input name #01: 6 3 ' 62 #01:Overwrite no >YES< 3 5 3 #01:ABC(41) edit >MEASURE< 3 3 2 #03:INVALID DATA >AGAIN< contin Save Meas.Params as Nr. #01 H+/ & ' 62 % 3 5 CURRENT RECORD. 3 & 62 6 & ' 3 PARAMETER Parameter For Channel 3 7 7 3 3 3 2 ' 5 A: Parameter from: Par.Record 09 !3 3 5 6 2 2 & % 2 ' 3 & 5 3 3 3 CURRENT RECORD 3 !3 2 2 ' 3 5 5 ' 6 5 & 3 Edit parameters no >YES< 3 5 2 2 ' 3 3 5 3 3 5 3 % ' ' 6 !3 6 % 2 ' 3 5 ' 2 5 3 3 0 % YES NO 3 ' % 3 Measur.Params. load from Nr #03 ' 3 3 2 3 3 ' 3 3 3 2 #03:INVALID DATA >AGAIN< contin ' ' 3 5 AGAIN 3 ' ' 6 CONTIN. % 2 ' 2 3 !"# ' 6 62 3 3 3 % () 2 5 2 ' 3 !"# YES 5 3 % ' 6 62 !3 ' 6 ' 6 3 & ' 3 3 5 3 NO & ' 3 Input name #01: 3 H+/ % 62 5 & ' 3 2 ' ' ' 6 % #01:Overwrite no >YES< ' 6 62 Save Meas.Params as Nr. #03 3 3 & ' 5 ' 3 % 8) ' ( : * 8- * 8@ / !3 ( ' 6 3 ' 3 &/ 3 3' 2 ' / E ' 2 ' 3 A+ 3 ( & & 2 3 % 3 & 2 ' )- )/ 6 / 2 ' (' 3 -+ 6 3 3 PARAMETER ( ' & 3 3 % 3 ' 6 2 !3 & )- - 6 ' ' ! " $ !3 ' 6 3 ' ( ' 2 ' 6 3 3 3 3 @ PARAMETER % Special Funct. SYSTEM settings SYSTEM settings Libraries 3 3 & 6 3 SPECIAL FUNCTION SYSTEM SETTINGS ' % 3 SYSTEM SETTINGS LIBRARIES ' MATERIAL LIST MEDIUM LIST Libraries Material list GO BACK 3 3 62 FACTORY 6 3 ' 2 & 2 5 Material list factory >USER< USER % USER 3 6 2 ' & ' * 3 6' 3 ' & ' 6 3 6 2 ' !3 )- ) ) END OF EDIT Material list >End of Edit 3 6 5 62 Material list >Show list 3 3 SYSTEM SETTINGS ' 2 ' 8A " / 3 3 & 3 5 )- ) 1 ' 3 3 Save list no ' ( ' : YES NO ? >YES< $% $ 3 & 3 ' . SHOW LIST !3 3 ' 2 ' 7 3 3 ' 3 ' 5 3 # H# - 6 3 ! 2 D ' * ' ' " / * ' 3 ' ADD MATERIAL ADD MEDIUM Material list >Add Material & ' 62 !"# 2 * >Add Material Rubber ' *: 2 3 & PARAMETER Current list= >Other Material ( ' 3 ' Current list= >Carbon Steel ' 5 & / Material list >Show list ! 3 ' & ' 62 , % ! 5 3 5 3 !3 3 3 3 * * 3 ' ' ' 6 3 K ! # H# - - " ! Material list >Remove Material / 5 REMOVE MATERIAL ' 3 REMOVE MEDIUM 81 !"# ( @ 2: ! ( H# - " !3 6 H# " # 8. ALL ' 3 (X' ' 6 ' * ( )- - )/ !3 ' 3 PARAMETER !3 & 5 5 3 ' 3 6 6 X & (X' 3 % 3 #6 X' 6 X/ 3 3 * & 3 3 ' 5 & ' 2 ' 5 5 ' 2 ' ' #6 2 ' 5 2 6 ( ' ( ' 5 5 E ' )- - - 2 ' 2 2 2 3 3 ! " 4 ' ' & 3 ( 3 ' 3 ' 5 ' 2 3 X/ ' & • I • I • M • • 5 # 6 ' 3 !3 5 D ' / 3 ' ' ' 3 ' !3 6 2 / ADD * !3 2 !3 6 '&3 3 ! 6 6 5 6 # !' 6 ' REMOVE ALL * Material list >Add all % ' * K ! : * ! # @ 3 ' K Material list >Remove all ' 3 3 3 !3 ' ' 2 * >Remove Materia Rubber & 3 '&3 5 & / 2 2/ 2 !3 ' 6 ( % 3 3 & &5 ! 6 )- ) " # 5- - ! % " K M )@ ,8 )@ ,1 -, ,H ), ,1 )A ,H ( 5 - " ' - M @ @ 1 1 1 - @ 1 A @ @ H @ )- - - @ - @ + - - @ - @ + - @ - ) E D K Libraries Format USER-AREA % 3 SPECIAL FUNCTIONS \ SYSTEM SETTINGS \ LIBRARIES & 6 3 3 2 FORMAT USER-AREA & ' 62 % 3 & ' 6 ' 5 MAXIMAL : 13 ! Materials: 15 3 Format USER-AREA Materials: 03 6 2 3 ' 6 2 3 ' ' ' & ' 62 3 ' 6 3 M 3 2 ' 3 2 & ' 3 26 ' C' 3 C' 3 ' ' & ' 62 3 Format USER-AREA Steam-Coeffs: 03 & ' 6 62 Format USER-AREA Media: 03 Format USER-AREA Heat-Coeffs: 03 D ' 6 26 3 2 ' ' ' ' 62 & ' 88 3 Format USER-AREA Concentrat.: 03 ' 6 26 3 3 ' ' !"# 3 ' 2 3 !: !"# ' !3 3 ! !"# ' !3 < #6 2 ' 2 ' ' -@! 6 )- @ & 5 % " 3 ' 2 ' 7 S 4* 8 5 3 ' 3 & 3 3 26 3 ( ' 6 ' SPECIAL FUNCTIONS & 3 2 3 5 5 3 3 " " . 8 B . 6 % ' 3 ! ' & & # C' 3 / A 8H 6 ' 6 & 3 AH1 S4 3 3 & D ' %, !3 36 * = $ < 2 6 !"# 2 S 4< I / 2 ' 3 2 < S 40 5 3 H I A ' " 4 & 3 ' A 8 3 ' 3 & 3 FORMAT USER-AREA !, - & & ' 62 Libraries Format USER-AREA 2 3 & YES FORMATTING... ... ' 3 !"# Format NOW? no >YES< C' & ' 62 USER-AREA: 96% used 2 ' ' 3 2 8 . *( # - & I " % & % % ' ' 5 5 2 ( %$ J/ ' 2 3 2 5 2 ' ' 3 3 ' 3 ' 3 ' I 5 ' & ' 5 ' 2 ' 2 '&3 !3 2 5 5 2 3 A 62 ' 6 ' ' ' 2 ' ' / 9 2 3 5 ( 3 C' ' " 3 3 2 " & % 3 ' * % 6 % 2 6 5 5 ' 3 32 6 ' & & 2 ' &2 3 2 ( 3 5 2 3 ' 6 ' 3 ' ' 9 C' + ' ' 3 ' * ' 3 & 5 ' ' ' 6 ' 2 62 2 3 '&3 ' $ ' & 3 5 / 2 - 3 ' & 3 ' 3 ! 8 F ' 9 (2P (! // ' ' 2 2 62 2 XBasics:Y=f(x,z)X/ ' 3 3 9 ' ( 6 " Libraries Extended Library - F % 3 SPECIAL FUNCTIONS \ SYSTEM SETTINGS & 6 3 3 2 \ LIBRARIES EXTENDED LIBRARY & ' 62 ON Extended Library off >ON< !"# 3 2 ' * OFF E ' 3 ' 6 3 6 3 2 6 ' #6 2 ' !3 ' * 2 6 C' 6 62 & ' 2 ' !3 2 5 0@ 8, * # 5 % 2 ' 6 2 ' ' H# %, / 3 3 ' & " ' 6 6 " ' )- - -/ !3 ( ' ' ' 3 3 3 % 3 & 6 3 SPECIAL FUNCTION INSTALL MATERIAL INSTALL MEDIUM ' Special Funct. Install Material USER Material NOT FORMATTED & ' & 3 ' & 2 ' ! EDIT 2 ' ' % 3 ( 5 3 3 ' )- - )/ ' Install Material >EDIT< delete 3 USER MATERIAL #01:--not used-- EDIT TEXT( USER MATERIAL ' ( D< $:( ''! 67L U V W X = ' MATERIAL NX ' 6 !3 6 , # ' XUSER MEDIUM NX & 6 . . ' 3 N . T N JF ! . < K ' 3 3 3 XUSER & 3 ) /( c-Material 1590.0 !"# ! 6 m/s 3 ) 0 ' * 62 H+ 2 Y 7 EDIT TEXT( Polystyrene 6 & ' 62 ) 1 5 & ' ' 5 &5 6 2 3 3 ' 5 .++ + .11@ 1 3 Roughness 0.4 '&3 3 &5 2 mm & ! 6 5 ' - & ' 62 , 3 3 '&3 # : ( 3 c-Medium 1400.0 ' 5 ' ' 2 ' @1++ * 3 H++ + MIN m/s 3 c-Medium 1550.0 MAX m/s ' @1++ H++ ' 5 ' 2 ' * 3 Kinem.Viscosity 1.01 mm2/s 2 # %, / ' 3 #6 Special Funct. Install Material USER Material NOT FORMATTED 2 " " 2 ' 5 ' ' 5 0 ' 2( 6 */ - 3 * ' 0 ' 3 ' 5 ( )- - -/ % 3 & 6 3 SPECIAL FUNCTIONS INSTALL MATERIAL ' & ' ! 3 & ' 62 & */ & ' 62 g/cm3 2( 6 5 2 @+ +++ ++ + +) 3 Density 1.00 5 0 ' & ' 62 6 ' ' & ' 62 3 3 % 2 ' 3 ( 2 ' 3 3 ' )- - )/ 5 & 3 ' & H) 3 3 3 Edit Material Basics:Y=const. 3 ' • 3 • 3 ' XY=const X XY=m*X +nX 3 ' • 3 3 3 ' XY=PolynomX 3 2 y = k 0 + k1 ⋅ x + k 2 ⋅ x 2 + k 3 ⋅ x 3 + k 4 ⋅ x 4 • XY=f(x,z)X ' & 3 3 62 GO BACK 2 ' 3 ' XUSER MATERIAL NX ' 6 USER MATERIAL #02:--not used-- C' & 3 5 % 2 ' 6 3 5 & ' ' 3 2 !"# & ' 62 5 2 2 ' 3 3 ' ' 2 3 !3 5 5 C' 3 5 ' 3 3 2 6 ' ' 5 3 (TRANS/ 2' 3 H- ' 7 3 3 mm Save changes no >YES< DELETE ' 3 3 & 5 NO ' 3$ 3 3 3 & YES ' 3 3 Default soundsp. long. >TRANS.< Roughness 0.4 ' $% / ' 3 5 ' 3 ' 3 3 2 ' ' XUSER MEDIUM NX 3 3 #2:Input Name: USER MATERIAL 2 6 ! % 2 ' 3 5 2 !"# EDIT 3 3 2 EDIT MATERIAL USER MATERIAL 2 >EDIT< delete E ' * 2 ' ' 3 ' 3 ( 3 ' 62 & ' 2 '&3 62 & ' YES 5 & 62 5 3 & ' 3 NO 5 3 # %, / ' 3 -& #6 2 ' 5 5 ( )- - -/ % 3 & 6 INSTALL MEDIUM Special Funct. Install Medium USER Medium NOT FORMATTED " " 3 SPECIAL FUNCTIONS ' & ' ! % 3 2 ' 3 3 ' • 3 • 3 ' & 3 ' XY=const X ' 3 • 5 & 3 3 ' )- - )/ ( 3 Edit Medium Basics:Y=const. 2 ' 3 3 XY=m*X +nX 3 ' XY=PolynomX 2 3 3 y = k 0 + k1 ⋅ x + k 2 ⋅ x 2 + k 3 ⋅ x 3 + k 4 ⋅ x 4 • XY=f(x,z)X 3 ' ( ' & 3 ! $% / HEAT FLOW COEFFS 3 3 ' !3 < 6 2 2 ' ' C' 3 ' ' STEAM COEFFS 3 ' !3 < 6 2 2 ' ' C' 3 ' ' CONCENTRATION COEFFS 3 ' !3 < 6 2 2 ' ' C' 3 ' ' 3 62 • • • USER MEDIUM #01:--not used-- USER MEDIUM 1 >EDIT< delete ' 3 5 ' ' GO BACK 2 ' 3 ' 3 ' 3 3 2 ' ' ' ' XUSER MATERIAL NX XUSER MEDIUM NX 3 ' 6 % 2 '3 5 ' 26 !"# 3 EDIT DELETE 3 2 ' 3 EDIT MEDIUM 3 3 3 5 3 ' H@ 3 E ' - */ ' ' ' 62 6 3 C' 3 2 ( &* 3 !"# & ' @ / 3 ' ' 2 ' ' 5 ' 7 2( */ 3 & & 2 5 5 3 & YES 5 5 & NO NO & ' 62 , # #$ 2& 3 5 $ % Edit Medium Heat-flow coeffs 3 3 SPECIAL FUNCTION INSTALL MEDIUM & Heat-flow coeffs NOT FORMATTED ! 3 ' & 3 Heat-Coeffs for BEER & 3 3 % 3 2 ' 3 2 3 2 ' ( ' 5 & 3 3 ' )- - )/ 3 3 2 ' 3 3 D 2 3 Select index 02(--not used--) 6 & ' 62 !3 EDIT MEDIUM HEAT-FLOW COEFFS 62 & ' HA 2 3 ( ) 2( 3 3 3 5 ' % 2 ' 3 ' 6 YES 3 ' 5 Save changes no >YES< 0 & 3 & ' 3 C' 3 5 ' 62 2 ' 3 3 2 ' 3 #1:Input Name: USER MEDIUM 1 62 3 6 & ' 3 % 3 ' 5 6 3 3 ) 3 ' 3 - % ' 3 Heat-flow coeffs 0.0 a0 )+ 3 & 3 3 3 3 Heat-flow coeffs Save? no >YES< D D $ ) ' 2 ' ( + & ' 62 3 A/ !"# 3 3 2 ' A + 3 & & ' 62 - , 5 7 3 F #$ 2& 3 $ E D , 5 7 ) #$ 2& 3 : ! ) ! 4 $ # ' Install Material edit >DELETE< 4 # - ' % 3 & 6 3 SPECIAL FUNCTION, INSTALL MATERIAL INSTALL MEDIUM ' DELETE 3 ' USER MATERIAL #01:Polystyrene 62 & ' 62 ' & ' YES !"# Really Delete? no >YES< 6 2 ' 62 NO. & ' H1 *$ * ! $ ! " !"# ' 8 6 2 6' ' & ' 3 ' 2 3 * $ ! " % SYSTEM settings Set Clock TIME ok 11:00 >NEW< TIME Set Time 11:0 0 ! 3 & 6 3 SPECIAL FUNCTION 3 SYSTEM SETTINGS & ' 62 !3 NEW ' & ' 62 D 2 O- O D $ 6 2 3 & & ' & 62 3 NEW 3 2 & OK 3 DATE NEW 3 2 & ' 62 ! " : 3 DATE ok 3 O OFF !3 * & ON 2 11:11 new 3 O+ 2 ' TIME >OK< OK 2 3 25.01.2002 >NEW< DATE 25.01.2002 Set Date ! 3 OK 62 D 2 & ' O- O D 6 3 O+ & 6 ON 2 3 & O OFF 2 ' !3 DATE >OK< 26.01.2002 new 2 3 H. 3 OK & 62 & ' & 62 & ' 2 NEW 3 * $ ! " : ! # % SYSTEM settings Dialogs/Menus ' ( 3 3 & 6 3 SPECIAL FUNCTION SYSTEM SETTINGS 3 3 DIALOGS/MENUS DIALOG/MENUS #$ 2& 3 ' . * " & ON 6 2 ' 3 3 PARAMETER Pipe circumfer. off >ON< !3 !3 CIRCUMFERENCE ON 3 ' 3 6 3 PARAMETER M 5 2 ' 3 CIRCUMFERENCE 2 62 & + (9 / & ' 2 & 3 ' ' ' 3 3 3 & 3 ' & 3 PARAMETER 3 ' ' ' / 3 '&3 3 & ' 6 )H+ 6 & / 3 A 9 44 8 " , 3 3 2 @ )A- P 18 @ ( 2 ' / ' (!3 6 !"# CIRCUMFERENCE 2 5 ' 3 π P @)A 3 (" * 3 )++ E ' A 3 3 PIPE (" Outer Diameter 57.3 mm 6 & ' 3 5 ' ' Pipe Circumfer. 314.2 mm Pipe Circumfer. 180 mm & & 3 !"# & 3 Outer Diameter 100.0 mm ' 3 62 ' / 8 ! 7. . . 9 * ; DD D & ' 3 2 ' ' H8 3 FLUID PRESSURE 2 5 3 ' ' C' 2 6 3 PARAMETER !3 ' 6 ) .++ 6 ON 3 ' % Fluid pressure off >ON< OFF ' % 2 ' )+6 * * - " # !& : !"# ' 3 ' ! X)-@AX 2 ' ' & 2 ' 6 Meas.Point No.: >1234< ( ) ' 2 ' & ' X X & 3 2 3 3 2 ' 3 ' & 3 3 %% ' & ' & ( 1 -/ * 2: % " / : TRANSDUCER 2 ' !"# Transd. Distance auto >USER< DISTANCE\USER 3 3 & 3 5 ' 3 " " " ' % - - % - ! Transd.Distance? (50.8) 50.0 mm % 3 '&& ' 2 3 3 3 3 5 ' 3 62 3 '&& ' Transd.Distance? 50.8 mm * 3$ % 2 ' '&& 3 -- TRANSDUCER DISTANCE\AUTO 2 3 ' 6 2 & ' " ! " ! " ! ON 2 ' - Steam in inlet >OFF< on 3 & 3 STEAM IN INLET 6 3 PARAMETER Inlet pressure 10.0 bar HH 6 3 5 3 6 2 ' " 3 ' & ' 2 3 ' C' 2 5 6 6 ' C' 3 3 3 ' 3 3 3 )8 1 * - @ ! -- # ON Time-progr.Meas. off >ON< * D ON E @ : & 6 ' 6 ' % ' 5 ' )8 A/ ( 6 2 ' EDIT 5 ' 2 3 5 ' 6 ' 5 ' DAMPING !"# ' 5 ' 2 3 6 3 5 6 6 : 2 ' 3 3 % Error-val. delay damping >EDIT< * 3 6 - Tx Corr. Offset off >ON< * 6 OFF & " ), ) !"# 5 ' 2 !3 3 3 ' ' 3 5 5 6 % 2 ' 3 5 ' 3 & ), ' 5 ' - B$ ON 5 3 2 3 < ' & ' SHOW RELAIS STAT off >ON< ), 1 3 ' ' ' ( **# #$ 2& 3 - $ ! % SYSTEM settings Measuring ' ( #$ 2& 3 3 & 6 3 SPECIAL FUNCTION 3 SYSTEM SETTINGS 3 3 MEASURING MEASURING ' . Enable Concentr. no >YES< YES NO 6 6 / ' 3 ( / ). ' H, YES ' 2 Compare c-fluid >NO< yes 2 ' ' 5 ' 3 62 3 3 3 !"# 3 ' 3 5 5 2 3 ∆ = c meas − c stored 6 6 3 5 3 5 6 2 ' & 3 2 3 ' 3 ' 6 D 2 3 OFF 62 3 3 ' DISP ' c stored 3 ' ∆ 2 & ' SKYDROL Korrect >OFF< on NORMAL 2 3 5 3 6 5 ' 2 ' ' UNCORR. 5 ' 3 ' ' ' & !3 & ,1 6 ' 3 Flow Velocity >NORMAL< uncorr. & ' 62 Cut-off Flow >ABSOLUTE< sign E ' 3 3 5 2 ,A Cut-off Flow factory >USER< Velocity limit 24.0 m/s Heat Quantity >[J]< [Wh] E ' ( 3 ' , @/ 0 ' 6 & X+X 5 3 S_T ,+ 5 -1 1 3 2 * 2 3 C' 3 6 2( 9 3 ' S 3T ON heat+flow quant. off >ON< 3 +) 3 9 3 ' ' ' 3 ' ' 3 / _ ' 3 3 3 C' 2 ' & 5 ' 3 3 3 ,-- Quant. wrapping off >ON< 3 QUANTITY RECALL 3 3 3 5 ' ' % Quantity recall off >ON< ' ( *2$ 5 9 OFF 3 2 ' 3 3 3 9 3 9 2 5 ' ' ON 3 6 2 ' 9 ' SYSTEM SETTINGS #$ 2& 3 ! " % SPECIAL FUNCTION \ SYSTEM SETTINGS MISCELLANEOUS ' SYSTEM settings Miscellaneous E ' 3 & 3 2' & 3 2 O+ SETUP DISPLAY < CONTRAST O- > OOFF P ' P O ON ' ( J P - ' J . *3 ' 3 J J B ( <* 666 - Special Funct. Instrum. Inform. 6 SPECIAL FUNCTION \ INSTRUM. INFORM. 6 ' 3 • 3 2 & 3 ' 6 2 ' ' • 3 2 5 6 & • 3 5 3 3 ' !3 ADMXXXX-00000999 FREE: 18327 2 ' & +++++,,, !3 3 6 & &5 P ! 2 5 M 3 3 "JJJJ 6 )H @-8 ' 6 2 ' M !2 ' 6 P ' & &5 5 ' 3 ' ,) !3 ADMXXXX-00000999 v 5.xx 11.11.00 2 & &5 ' !3 5 M 3 ' ,- 3 ' 6 2 ' 3 0 01 &5 ))*))*-+++ 3 2$ !3 4 ' , # D &5 2 ' 3 ' 2 ( • !3 3 ' • !3 • ' 6 2 3 • !3 % 5 & 3 !"# • !3 6 6 3 ' 5 ' 2 3 2 2 3 ' . 2 6 5 ' 3 ' !H: D 3 M 5 ' 3 &5 62 32 5 ' 6 2 & 2 3 62 & 3 . 2 ' ' D !"# ,H ! 5 3 ' D !"# 5 SUPERUSER MODE *IS ACTIVE NOW * 3 & ' 62 3 ' D !3 ' & D 3 M 2 & 5 3 ' D !"# SUPERUSER MODE IS PASSIVE NOW 3 3 3 ' D 5 62 & ' !3 ' & E ' 5 3 2 % ' & ' D 3 '&3 3 D 62 3 & !"# - 3 TRANSDUCER TYPE ' 2 & 9 3 62 3 3 Transducer Type Q2E-314 2 ' 3 ' SPECIAL VERSION 62 Transd. Data 35.99 1 % 2 '3 5 3 ' ' 5 ' 2 ' 3 2 (3 N - @)A/ % 2 ' 3 3 & ' ' SPECIAL VERSION !"# 3 5 ' 3 . &5 3 ' & 3 2 3 ' ,@ 2*# 3 $ ' 4 D # 3 ' ' 3 & 2 ' 3 / + (9 2 ' 3 ' 6 ' 6 2 3 3 3 ' 3 2 ' 2 +) % ' 3 % 3 3 2 ' ,A ( ! 3 : $ & ' 62 & & 5 2 > 3 ' D ' : ' @ ' 2 !3 ' 2 ' ' ' 3# ! " $ ! 3 ' 3 , ' 3 C' 5 3 3 C' % 5 ' 2 " # 3 5 ' 2 3 '&3 3 3 ' ' 5 3 ' !3 2 ' ' & - . " 3 3( % 3 & 2 ' 3 Physic. Quant. Sound velocity 5 6 2 62 3 ' 62 !3 2 ' 3 & 6 3 3 3 5 2 & ' & 6 3 3 33 ' 3 ' 5 2 3 MEASUREMENT ' 3 " !" ( % Special Funct. Find soundspeed 3 SPECIAL FUNCTION 3 FIND SOUNDSPEED & 6 3 & ' 62 3 Find soundspeed On channel A # 2 3 ' 3 3 2 ' 62 & ' ' . C' 3 OUTPUT OPTIONS ' ' 3 - 3 OUTPUT OPTIONS ' ' 3 & ' ' CHANN: A B>Y>Z Measur √ - . . 3 - 3 3 32 ' ' 3 ' & ' 62 - A:c-Medium ca. ? 1475 m/s !"# 5 2 @1++ * 3 62 A:Reflection Mod no >YES< & 3 3 ' H++ & ' YES ' 5 ' 5 ' 6 ' NO ' & 3 & B 2 3 ' ,1 3*& ! " !"# A:Transd. Distan 24.7 mm Reflecti ' 3 3 '&& ' ( !"# 3 3 3 ' ' 3 ' 2 ' 62 3 3 '&& 5 ' 3 & " ' 3 ' 2 3 - 5- ;" & - & ' 5 ' / 3 3 3 ' 3 & 3 ' !3 ' 6 & 3 5 ' 3 6 & " " " - < 7 3 ' 6 5 MOVE TRANSDUCER! 2 3 ' 6 ' " ! & " 3 ' ) 5 ' Transd.Distance? 25.5 mm (% 3 3 % 3 3 ' 5 2 2 !3 ' 3 ' 7 3 5 ' 3 Sound velocity c= 1488.1 m/s ,. ' 3 ' !"# 2 5 7 ( 5 ' 5 ' 3 & Curr.Trans.Dist. L= 25.5 mm ' 5 ' 3 % / & ' & ESTIMATED VALUE TOO SMALL ! ( -1 1 / ' 62 ESTIMATED VALUE TOO LARGE ! ' 2 DISP ' 2 ' & 5 6 2 2 !3 ' & ' &/ 3 2 2 ;/< !3 ' Better distance (L*= 25.2) mm 7 2 ( & DISP ' 3 5 2 % | #R # | 1 9 2 /L// 6 3 3 3 ' !3 5 ' ' ' 2 ' 3 5 2 5 ' 6 ' DISP t= c= 94.51 µs 1488.1 m/s 32' 5 7 ;< @ ( 3 ' 2 / 3 5 ! 3 - $ ' 7 Search again ? no >YES< & !"# 2 ' 3 & 3 ' | #R # | % C' 1 3 NO YES 3 2 3 )1 @ !3 C' 33$ 6 ' 5 3 ' 6 ' 3 !3 6 3 ' & /L 3 2 5 2 % 2 ! YES Store data ? no >YES< % 3 c-Medium is: 1488.1 m/s 3 ' ' 5 ' 2 3 ' &2 2 ' < ' & ' 3 3 % 6 3 2 < ' !3 3 3 ' 5 2 3 3 ' 5 ' 3 OTHER MEDIUM & ' 2 2 6 ' ' & ' ' 5 & ' 62 % 2 ' 6 ' ' 3 & ' ' 3 ' 5 2( USER MEDIUM )- -/ &3 3 3 ,8 ,H # % !"# 6 C' - 3 3 3 ' & ' ' 0 3 !"# ' 5 6 3 6 !3 ' !3 ' 3 ' 3 6 & 6 ' 6' 3 6 ' ' ' 5 5 6 3 3 3 C' • C' '/ 3 5 ' 5 ' 3 ' !3 ' 2 ' ' & ' 5 ' 3 5 & ' 3 3 ' 3 3 ' 5 3 ' 6 ' 2 3 2 ' 2 ' " ' 3 ' ' 3 3 2 3 3 C' 5 2 & • ' 3 3 5 C' • 7 )++ 5 5 ' (5 ' ' # 3 ' 3 6 ' ( 5 ' 5 3 3 / ' ' 3 &5 '6 ( ' 6' / 3 ' ( / • ' • C' ' • C' 3 3 & C' & 3 ' % & • 5 " 3 ' ' 2 5 '6 32 2 3 3 3 3 3 3 & 5 & 6 5 2 & && & ' 5 2 3 3 3 ' ' 3 6 & 3 ' ' 5 && & 3 6 3 3 ' 3 2 ' 3 5 5 2 2 ' 3 3 ' ' & ' 3 !3 2 3 5 6 & 6 3 ' c measured − ( K 0 F 1 + K1F 1 ⋅ T ) K 0 F 2 + K1F 2 ⋅ T 3# 3 !3 3 2 ' ' K= ' ( / #4 26 ' 5 ' ' 3 ' 2 2 3 # * 3 6 3 ' 3 6 !3 5 G ' 2 ' 3 ' ,, ! " # - SYSTEM settings Measuring Enable Concentr. no >YES< 3 ENABLE CONCENTRATION 6 3 & ' - 3 ' ' 3 * ' ' 5 2 & 3 62 2 ' 3 & 3 PARAMETER ' 6 3 3 3 5 6 - & 3 5 2 3 3 & % !3 YES 2 ' 3 62 ! " & \ & ' 62 % *$ 3 SPECIAL FUNCTION 3 MEASURING % 3 & 6 SYSTEM SETTINGS 2 & 3 6 2 3 3 6 !3 3 ' ' % 3 6 ' 62 ! $% 6 6 3 ' ' 5 2 c = cmeas + K 0 + K1 ⋅ T + K 2 ⋅ T 2 + K 3 ⋅ T 3 + K 4 ⋅ T 4 3 3 ' ' G 5 2 * K 0 , K1 , K 2 , K 3 , K 4 % E ' 3 c-Calibr. 1 c-Calibr. c-Calibr. Save? no )++ 6 3 ' ) [m/s] >YES< ' 6 TYPE 2 YES 2 2 K 0 , K1 , K 2 , K 3 , K 4 3 ' 35 ' YES 5 ' 3 5 ' 2 ' 2 & ' 62 [m/s] 0.0 K0 3 & ' 62 2 6 Fluid c-Calibr. 6 2 3 3 Fluid c-Calibr. Edit? no >YES< 3 5 NO 3 3 6 <6 2 5 2 5 % 3 * 5 3 26 62 5 & 5 ' ( / & 6 3 !"# Concentr.Correc. 1.0 M% 6 3 PARAMETER 3 5 ' 3 2 ' 3 & 3 6 3 5 ' & ' 62 2# 2 ' - 3 ' 26 ' 3 2 3 & 6 6 3 3 MEASUREMENT 6 ( / K=Concentration A:K= 82.4 M% % K=Concentration A:K=FAIL_20 M% ( ) A 2 3 X" %#^JJX 3 " 3 !"# & ( - * % 5 ) + $' ) + + ! ) + + + ) + + + + + + + + + ' - ' & ' 3 & ' ' ! ' ' 5 6 " ) 6 3 3 JJ / 3 & ' 2 5 $'2O 49 3 3 5 6 6 6 BAG 4 9 5A( = 9 H'" 44447 $'2O 4 9 : $'2O40 9 $'2O4( 9 3$ . ! " # SYSTEM settings Storing % 3 & 6 SYSTEM SETTINGS 62 3 SPECIAL FUNCTION \ 3 STORING & ' )+) % Store Concentr. off >ON< 3 STORE CONCENTR. 3 ON 3 6 ' & % 2 ' & OFF 3 5 ' ' 5 6 2 ' )+- ' 62 & ' 3 2 3 % 2 ' 3 )+@ D0 3 ' , C' 0 3 3 !"# / !3 ' &2 3 C' / 3 3 " 3 ' 3 3 7 2 3 ' ' 62 3 % ' 3 ' 3 ' ' (7 )++ C' 2(3 9 3 5 5 ' 3 3 6 ' 3 3 !"# ' 3 ' ' 3 ' !3 ' 3 2 ' ' , • % 3 ' ' • ' !"# ' 2 )+ 3 ' 3 ( !3 6 ' & 3 & 3 ' !"# • ' 6 3 5 ' ( / !3 3 ' & 6 ' 3 6 !3 2 3 ' I / 3 3 ' 6 6 3 ' ' ( 6 ' C' 2 )8 1 )8 A/ • % 3 ' 3 3 ' 2 - 3 " • H " &' • !"# 3 3 3 • 7 ' ' • 3 6 ' ' D $ 3 %6 ' 3 3 • ' 9 ' ' 3 3 3 ( C' 5 ' / 3 2 ( 6 )H ) ) ' 2( )- - ./ )8 ) 6 6 3 ' 3 6 )8 - )8 @ ! par mea >OPT< sf Output Options % 3 OPTIONS ' 3 ' Output Options For Channel A: ' 3 3 ' 3 ' ( !3 2 62 & 6 3 ' 3 OUTPUT 3 3 2 ' (3 / 3 3 3 3 & ' 2 2 ' ' HEAT FLOW Physic. Quant. Heat Flow & 3 62 )+A *3 & 3 C' & ' 2 ' ' !3 ' ' 3 3 C' 2 6 3 & 6 3 SPECIAL FUNCTIONS \ SYSTEM SETTINGS \ MEASURING SYSTEM settings Measuring MEASURING 3 3 HEAT QUANTITY Heat Quantity >[J]< [Wh] 3 ' S 3T / !3 heat+flow quant. off >ON< 3 ' # • ' • ' (_ ' S_T 3 ' & 6 3 3 2 5 ' ON 2 ' 9 3 3 ' ' 3 9 ! 3 2 ' & ' & ' 62 D ' & 62 % ' 3 2 ! ' 3 ' ' 6 6 3 8. 3 INLET ' 6 "& )8 ) OUTLET Inlet temperature Flow rate measurement at the outlet measurement Outlet temperature measurement FLUXUS ADM ULTRASONIC FLO WME TER TINLET TOUT LET SIGNAL READY INIT RESTART > ( ) ) % . )+1 >* > • % 3 • 3 2 • ! 3 3 ' & 3 3 5 2 3 6 3 3 ' ' 3 6 3 6 6 3 3 3 6 • # 2 3 • 3 ' 3 3 ' 3 ' 3 & 3 2 6 3 3 3 ( 3 3 / >0 D*# 3 . ! ' '' & 5 Heat Flow *INVALID MEDIUM* 3 6 !"# T1= T2= )+. 6 90.2 C 70.4 C 7 ' 3 2 3 2 ' 2 3 3 ' ' ' ' % ' 6 T1=?UNDEF C T2= 70.4 C 6 2 % ' % 2 '3 5 ' ' & ' !"# FIXED VALUE &' 3 2 ' 3 ' 5 ' ( . 8 . " ' ' ' '& 3 7 )++ 6 ' 2 2 ' (XMANUALX/ A:T1 manual FIX 10.0 C ' A:Heatflow 0.0 D2 % 2 ' 5 kW 8 6 3 3 !"# ' 5 ' 3 2 5 ' 6 3 6 3 % 3 3 3 5 6 2 3 & 3 ( 9 3 C' , -/ 2 - % 6 5 ' 3 6 ' 3 5 ' ( 6 ' 3 5 ' ' 5 ' / 2 '5 ' D2 3 ' ' 3 ' % ' ' 3 3 ' ' ' . 3 !H: . ! " 3 3 5 ' ' 3 - 3 Tx Corr. Offset off >ON< ' #$ 2& 3 62 6 ' % ( 6 & !3 ' 6 5 FUNCTIONS \ SYSTEM SETTINGS ` DIALOGS/MENUS ' ' ' & ' 62 !3 • • ( & 3 7 )++ 5 / X?UNDEFX !) 6 ' T1 manual FIX 0.0 C ' ' 6 5 3 3 TX CORR.OFFSET ' & 2 OFF 3 SPECIAL 6 ON 5 OFF. 5 B ! D2 !3 • " ' ' 3 3 6 ' ' C' 3 ' ' ' & 3 ' & 5 )+8 • • 3 3 ' ' 6 ' 5 3 T1 Corr. Offset 0.3 C • $ 2 ' 3 & ' 62 & • ) . . 44 • J ! J ' & ' 5 ' ' T1= 90.5 C(COR) 0.00 kW D3$ 5 ' 2 ' 62 3 ' ]COR] ' 2 3 - % 3 ' ' 3 !"# ' 3 !"# ' 3 3 3 3 3 5 ' ( C' ' ' 3 *3 6 2 C' 2 3 / 3 ' 3 ) 3 . 3 . , !3 3 ' 6 D3 . ! H: SYSTEM settings Dialogs/Menus ' 3 ' & 3 . ! " $ !"# 2 6 - % 3 & 6 3 SPECIAL FUNCTIONS \ SYSTEM SETTINGS \ DIALOGS/MENUS 3 STEAM IN INLET ON 5 ' 3 3 Steam in inlet off >ON< OFF 5 2 )+H !3 # 3 !"# 3 ' 3 ' 3 !3 6 C' 3 3 & !3 ' 3 3 Inlet pressure 10.0 bar 6 STEAM IN INLET 3 3 PARAMETER 3 3 6 ( D3 STEAM IN INLET B . : % " $ 2 ' & & ' 62 ' 5 3 ' ' , DISP ' & ' ' 2 3 3 3 ' 2 2 !3 Inlet=FLUID 426.23 Inlet=STEAM 9565.23 & 2 3 3 3 ' 3 C' kW !3 ' & 3 2 ' 3 5 kW !3 & 3 3 Inlet=BOILING ! 7895.78 kW 3 6 ' 6 3 & 3 ' 3 3 3 3 3 ' 2 3 " & 3 6 ' !"# kW 3 ' & / % 3 ( 6 C' ' !"# ' 3 3 HEAT FLOW 7895.78 3 5 2 & 3 7%! # # !! & ' 3 6 2 & 9 3 C' 2 " ' 3 ±@G & 3 3 & 62 ' )+, E& ' ( 5 & 3 & 6 3 ' 6 / • ' • 2 • ' • 5 • 2 2 5 !"# 2 6 ' C' ' ' )H @/ 6 ( ' 3 6 ' ' ' 6 ' ' 6 ' ( ' !3 5 ' ' & 3 & 3 ! 3 &' ' 3 5 ' ' ' 3 ' 5 3 - ' ' & ' , X! % 6' HEAT FLOW , " # 2 3 ' & 3 '' 2 ' ( 3 X X! 6 C' ' # % " ' ' ! ' M C' 3 3 ' ))+ 2 !' ' &' ' 3 ' ' 6 )H ) -/ !3 8 ! - 2 X ( OUTPUT OPTIONS E ( 5 - 6%A:A ' & 3 ' & 3 " 0 3 ' 5 & M- - !3 )H -/ & &' " M& / 8 ! " 5 % 3 & 6 3 SPECIAL FUNCTIONS SYSTEM SETTINGS 3 PROCESS INPUTS & 3 ' 2 ' !"# 3 & 3 # , Link temperature # 3 Link others # ' 3 ...go back ' 3 E )H ) ' . #$ 2& 3 SYSTEM settings Proc. inputs E 62 3 & "7 ' E ( &5 ( 2 3 & ' A 62 3 " / 8 !) !- ( " # % - - " ' ' 6 &5 ! 6 )H ' 2 !3 ' I 6' 6 2 M > / 8 2 !' ' !A 6 3 ' 62 !' ' ( 5 ' ! ' C' - ' 6 ' 6 3 E / 8 ! " % 3 & 6 3 SPECIAL FUNCTIONS SYSTEM SETTINGS 3 PROCESS INPUTS SYSTEM settings Proc. inputs % 3 PROCESS INPUTS LINK TEMPERATURE Proc. inputs Link temperature 3 3 A:T-Inlet Input T1 3 3 ' ' 2 ' ' FIXED INPUT VALUE 3 3 ' 6 ' 2 6 3 ' ' NO MEASURING ' 3 3 ' !(A/ 3 3 3 3 ( 2 3 3 ' 3 ' < & ' 62 !"# !(@/ 2 ' ' 3 ' 3 6 6 3 3 ! ' 3 #$ 2& 3 I E / 8 ! " " SYSTEM settings Proc. inputs " % 3 & 6 3 SPECIAL FUNCTIONS select SYSTEM SETTINGS 3 PROCESS INPUTS & ' 62 % 3 PROCESS LINK OTHERS Proc. inputs Link others 3 A:ext.Input(1) Input I1 !"# ' 3 3 ( ' 3 ' 3 6 2 3 & 3 3 3 ' 2 NO MEASURING 3 2 3 3 3 3 3 3 ' ' 2 ' ' 62 3 INPUTS 3 2 ' < 3 & ' ' 3 ' 6 3 #$ 2& 3 I ))) E* ' . " & ( OUTPUT OPTIONS #$ 2& 3 , 8 E* ' . - ( ! ' ' HEAT FLOW, #$ 2& 3 , ' ' 6 5 ' ' 3 3 3 3 5 2 * 3 2 ' ' 2 ' 3 & % Temperature T1 no >YES< 3 5 ' 3 ' ' 2 3 YES 2 6 ' 3 ' ' 3 3 ' 3 5 5 3 2 ' ( E* . 7 ' 3 3 ' ' " ' 3 6 5 ' 2 ' 3 INPUT no ( I1 >YES< ' 5 ' 6 2 * 5 ' % ))- 6 ' ' 6 ' 3 3 6 3 OUTPUT OPTIONS 3 32 ' 5 3 !3 ' ' 2 ' 3 & 3 !3 6 YES 6 3 OUTPUT OPTIONS 3 32 ' 5 ' ' 2 3 3 ' 2 ' 3 3 3 5 5 3 ))@ & % 2 ' ' 6 3 2 C' 3 !3 ' ' • & & • ' & 3 ' 3 3 ' 3 6 ( ' 5 ' & & 3 6 3 5 3 3 ' ' ' 6 5 3 & 3 3 • ' ' 6 ' 3 3 3 / & ' ' ' ' ' 6 & 3 '&3 3 ' ' 3 3 ' 5 ' 5 ( 5 ' ' ' ( ' 5 / 6 6 3 OUTPUT OPTIONS) 6 5 6 3 ' ' & 5 ' ' 3 2 & !3 3 ' ' SETTINGS \ PROCESS OUTPUTS & ' ( 3 6 SPECIAL FUNCTION SYSTEM #$ 2& 3 ' $% . % 3 Install Output Current I1 ( / 3 ' ' 2 ' 3 ' 2 5 3 26 !3 2 2 >YES< 3 YES ' ' ' 2 YES & 6 3 ' ' 3 & ' ' 3 ' 3 ( !3 2 NO 5 ' 6 3 3 3 3 3 2 ' 5 ' 2 & ' 62 ' 3 & ' & ' 62 I1 Source chan. Channel A: ' ' 62 &' yes ' ' 3 ' ' 3 6 % 3 I1 disable >NO< !3 6 & ' 62 I1 enable no / SPECIAL FUNCTION \ SYSTEM SETTINGS 6 3 3 PROCESS OUTPUTS 62 & ' 3 & SYSTEM settings Proc. outputs ))A \ 3 2 2 ' ' & 3 ' 3 ( $ ! Flow ' 6 &' & IMPULSE " - . Flow Heat flow Q+ ' ' 3 ' & C' 3 OUTPUT OPTIONS ' ' C' 2 3 ' ' C' 2 3 3 ' ' 3 • Actual measure Flow * Heat flow 2 ' LIMIT ' ' 2 3 ' & 3 OUTPUT OPTIONS & 6 2 3 ' & 3 OUTPUT OPTIONS . 9 3 & 3 ' ' 3 & 6 3 ' ' • Actual measure 2 ' ' 3 C' 2 OPTIONS • Q- 3 3 9 ' ' 3 C' 2 OPTIONS 9 ' ' 3 9 Heat flow • ' ' 3 3 9 R Flow R Heat flow Temperature - 3 • 3 ' ' • ' ' ' ' T-Inlet (T1) T-Outlet • 9 9 3 3 9 5 ' ' !% ' & 3 OUTPUT 3 & 3 ' ' 6 9 ' ' 3 C' 2 OPTIONS • ' & 3 OUTPUT 3 & R ' ' 6 . • Actual measure ' & 3 OUTPUT 9 ! 3 Flow ΣQ 6 9 R R !3 & 9 • * R 6 3 / ! Actual measure * & C' 2 3 ' 3 ' ' ( ' 3 &' 3 6 6 % 2 ' ' 2 3 L 6 Quantity ' 3 ' 5 6 I1 Source item Flow !3 3 2 3 3 (T2) • ! T(3)=Input T3 • "' 3 ' ' 5 ' T(4)=Input T4 • "' 3 ' ' 5 ' Ti(=T1)-To(=T2) • 3 6 ' ' Ti(=T1)-T3 • 6 ' !(@/ To(=T2)-T3 • 6 ' ' !(@/ Ti(=T1)-T4 • 6 ' !(A/ To(=T2)-T4 • 6 ' 6 !(@/ ' !(A/ T3-T4 • !(A/ ))1 Limit R1 ' ' & ( ' ' )/ R2 ' ' & ( ' ' -/ & ( ' ' @/ R3 Impulse ; % ' ' ' from x > 0 % ' ' ' from x < 0 % ' ' ' 3 ' & 5 & ' 5 5 ' ' 5 ' B< Miscellaneous L ;L ' ' From abs (x) Soundspeed fluid ' ' 3 Concentration K ' ' 3 Signal ' ' 3 3 ' 5 2 3 ' ( ' 3 3 )./ & ' & " . % HEAT + FLOW QUANTITY " SPECIAL FUNCTIONS \ SYSTEM SETTINGS \ MEASURING.< " ! - ! % 2 ' &' 2 ' I1:Output range 4/20 mA & !3 3 -+ &' ' ' 3 % 3 ( . 32 ' & ' ' !"# 2 3 (OUTPUT MAX/ 6 5 ' (OUTPUT MIN/ 2 ' 6 ' ' ' 3 5 ' ' 3 3 !"# 3 OTHER RANGE & 6 X ' 3 ' 5 & (% J % / % 3 3 ' ' %$ ≥ - ' ' &3 3 & 3 6 6'66 5 ' X . Minimum ' ' 3 Hold last value 6 ' ' 3 Maximum ' ' 3 3 &3 Other value ' ' 5 ' )). ' 3 ' ' & / 5 ' 6 6 5 ' ( 5 ' (' 3 3 3 32 ' ' 3 )+U 3 ' ' 5 ' ' ' 3 3 !"# " ' & ' ' 3 !"# 3 ' 35 ' I1:Output MAX 12.0 MINIMAL ' 3 ' ' % 2 '3 5 OTHER RANGE ' ' 5 ' (OUTPUT MIN/ 3 5 ' (OUTPUT MAX/ I1:Output MAX 11.0 mA 3 ' &' & ' ' 3 ' ' ' 2 3 I1:Output MIN 10.0 mA % & 3 & / ' ' & 6 3 )& . 0K 4 $. !3 ) ' 6 3 & 5 \ 3 5 ' ' & 3 3 ' 6 ' ' v [m3/h] 5 + ' & 3 ??? ) t0 D *( $ t t1 A . . ! I [mA] 20 Error-value Minimum (4.0mA) td 4 t I [mA] 20 Error-value Hold last value 4 t I [mA] 20 Error-value Maximum (20.0mA) td 4 t Error-value Other value ... I [mA] 20 td Error-value: 2.00 4 mA t ))8 Error-value Minimum (4.0mA) 5 ' & ' 62 32 & ' 62 ( OTHER VALUE ' 6 3 3 % 2 ' 3 5 5 ' !3 5 ' 3 ' ' Error-value: ... ' 3 #$ 2& 3 !3 ' ' 5 I1 active loop Terminal:P1+,P1- *, " " 2 2 ' 2 '3 5 3 6 ' 2 ' / 62 & ' 3 (3 7)O 3 3 7) 8 ' ' 3 ' ' 3 & 3 ' ' ! / !3 I1:Output Test 4 mA 3 3 6 ' ' ' ' ' & & ' 62 !3 I1= 4.0 mA Again? no >YES< 5 ' ( ' 5 ' 3 ' ' ' 2 3 2 3 ' & ' 5 ' YES SYSTEM SETTINGS NO 3 ' 3 & ' 62 % % OUTPUT TEST &9 3 3 B1:Output Test Reed-Relais OFF & ' 62 $ ' 3 ' 6 YES B1= OFF Again? no >YES< ))H 62 OFF ' ' & ' & 3 ' ' 3 3 OUTPUT TEST &9 3 ' ' % B1:Output Test Reed-Relais ON B1= ON Again? : !3 !3 6 5 ' 2 3 ' 3 3 5 ' !"# 5 ' 3 3 ' ' 3 C' 2 3 < DAMPING 2 ' 3 3 & 5 ' 2( ' &/ 5 3 5 ' 2 C' 2 " !"# 3 5 ' & 6 3 OUTPUT OPTIONS ' . 6 EDIT 2 3 & ! OUTPUT OPTIONS $ 3 3 Output Options For Channel A: Current Loop I1: no >YES< 62 " 5 & 5 6 3 ' ' 3 & ' ( !3 2 YES $ OUTPUT OPTIONS 3 32 ' 62 ' 3 2 ' 3 5 3 3 5 ' / 3 3 3 % 3 SPECIAL FUNCTION \ SYSTEM SETTINGS \ DIALOGS/MENUS & 6 3 3 ERRORVAL. DELAY !3 * 3 OUTPUT OPTIONS & 6 3 SPECIAL FUNCTION % 2 ' &5 ' 3 6 & 3 Error-val.delay 10 s ( ' 6 6 3 NO 3 % 5 5 ' Error-val.delay >DAMPING< edit ' & & ' 62 : 5 ' 2 5 ' 2 5 3 2 !"# * 6 YES SYSTEM SETTINGS ! " 5 ' 5 3 ' no >YES< 3 & ' 62 ' ON 2 2 ' ' ' & 3 3 2 3 ' ' 6 5 & ' ! &' ' ' 5 ' 3 ' & 3 ' 5 ' MEAS.VALUES 2 ' 3 E ' 3 & 6 3 OUTPUT OPTIONS !"# ' @ 5 ' 3 3 ' ' 5 ' ( ' 5 & C' 2 2 3 ' 5 ' 3 ' 6 )), 3 ' 3 & 3 ' ' !3 ZERO-SCALE VALUE FULL-SCALE 3 & ' 5 ' 3 3 6 3 32 & 3 5 ' & 3 3 ' 5 ' 3 ' ' 5 ' 6 3 ' ' 5 ' (XOUTPUT MAX"/ " 5 ' 3 3 9 5 ' 3 5 ' (XOUTPUT MIN"/ 6 ' ' !3 9 ' 5 ' 6 & 5 5 !3 & ' 5 ' 6 2 3 VALUE ' ' " % 5 ' 5 ' 3 3 9 3 3 &3 5 ' 2 ' 3 ' & 5 ' % 2 ' 6 3 & 3 ' 5 ' ' 6 3 3 MEAS.VALUES 3 ' & 5 5 ' 3 )& 5 + &+ 3 * 7 ) 8 '9 " ( + : ) 7# Meas.values/absolut. 4 *K + ' + 9 " 4 ( + : ) 7# $ ! 4 ( + * K + &+ ( + flow (m /h) 10 output (mA) 20 3 0 t -10 0 t With Meas.values/sign. ! 4 *K 4 *K . 5 + &+ 3 * 7 ) 8 '9 " 4 4 ( + : 9 Meas.values/sign. 4 $ 4 *K + ' $ $ 4 * 4 ) 7# + 9 " ( + : $ K ' ) 7# * ! 4 ( + . K + &+ ( + flow (m 3/h) 10 output (mA) 20 0 t -10 0 t 3 Meas.values/absolut. ! 4 4 $ " ) 8 '9 " * K 4 4 * K 4 $ * K. $ 8 5 + &+ 3 * Meas.values/sign. 4 $ D4 *K + )-+ 7 ' ( + ( + : 9 4 ) 7# + 9 " ( + : ; ) 7# $ * ! 4 ) $ + &+ ( + K 4 $ output (mA) 20 flow (m 3/h) 90 10 0 -10 0 t t SIGN Meas. Values absolute >SIGN< ' ' ' 3 3 3 C' & ' 3 ' 5 ' ' ' ABSOLUTE 3 ' 3 ' ' ZERO-SCALE VALUE 3 5 ' !3 2 ' & ' 3 ' 3 ' 3 ' ' !3 ZERO3 ' 5 ' & SCALE VALUE 3 3 ' ' & ), ) ) 5 ' Full-Scale Val. 300.00 m3/h . & 3 6 Zero-Scale Val. 0.00 m3/h 2 3 6 3 FULL-SCALE VALUE 3 3 &3 !3 FULL-SCALE VALUE ' 5 ' & 3 ' ' ' & ), ) ) ' 3 & & & ' ' 3 2 3 ( ' C' 3 3 & 2 ' 3 3 ' 5 ' 3 ' &5 5 ' (PPULSE VALUE) !3 % & 3 ' ' PULSE OUTPUT OUTPUT OPTIONS OUTPUT OPTIONS 3 32 ' 3 3 Output Options For Channel A: !3 2 2 3 2 3 5 ' ' 6 2 5 3 & ' ' & ' ' 3 3 3 & 3 3 62 % Pulse Output NO COUNTING! 3 ' ' 2 ' ' YES Pulse Output B1: no >YES< 6 & ' 62 $ 3 & 5 ' ' 6 9 3 C' 2 6 5 2 !3 ' ' 2F )-) PULSE ' 3 9 5 ' ' !"# VALUE 3 ' ' & C' 6 3 2 Pulse Value 0.01 Pulse Width 100 !"# 3 5 ' 3 < ' 3 5 ' 62 & !3 ! 3 • 3 ' 6 3 &5 ' ' ' 3 & 3 ' ' /1 3 ' 2 ' 3 ' ' 2 % ' 3 H+ 2 2 3 )+++ ' 6 3 ' 6 ' ' 3 % 3 3 3 ' ' ' 3 5 ' ' & C' 3 ' 2 3 PULSE WIDTH 0 ' 6 !3 & 3 3 ( & ' 9 7# / 3 3 3 3 ' ' ' ms 2 3 ' 0 ' < 3 3 ' 6 ' ) 3 ' m3 3 3 ' ' 5 ' 3 !C /. ' ' O ON • 3 5 3 ' 3 & . 9 2 - ( ALARM OUTPUT ' !3 3 3 ' ' 6 ' ' OUTPUT OPTIONS & 2 ' ' 3 3 3 ' ' ' $ ! " E ' / 2( ,4' ; " ! < 3 3 & 3 3 2 ' ' !3 6 6 ' 3 & (3 6 3 & & C' (3 3 & &6 3 5 6 / 3 3 % . ! : # N 3 3 3 ' 5 ' # ' A @ @ 3 3 3 3 5 ' / 3 3 ' 3 5 ' & 3 3 A ' 74 ' O 9 3 3 3 ,, O& ;" ! " . < 3 -& 3 &9 )-- 3 ' ' '@0 /: $ ' 3 9 & ' 3 & 3 & 3 6 & ' 2 3 ( & 5 ' 3 ) ' 0 /: 3 ' 6 5 2 5 3 3 & 3 3 & ' 2 # ; : - ' @ !F < &9 &9 3 &9 3 ' ( 3 3 ($ P &9 3 #$ 2& 3 3 ($ P Alarm Output no >YES< 2 7 ' ) • FUNC 2 3 & 5 6 3 ' ' ' ' 6 5 3 3 3 & 3 • TYP . & ' 2 3 3 & & 3 3 • MODE D 3 62 !3 ' / & ' YES O- 3 & 2 OUTPUT OPTIONS 3 32 ' 62 R1=FUNC<typ mode Function: MAX ' / ! 3 Output Options For Channel A: 2 3 . 3 D 3 & 2 &6 3 5 & 3 &9 3 O+ O ON % 3 OOFF & 3 " 3 3 - 3 3 ) & & & ' 3 6 ' 5 2 2 3 ' 3 3 ' R1 Input: Volume Flow ' 3 INPUT 6 ' • 3 • 3 & • 3 ' 5 $ 2 6' 3 3 32 5 6 ' C' ' 2 3 3 C' 2 2 ' & ' 62 3 C' ! " /- !"# 3 5 ' 3 3( / - . , : % - - 8 )-@ MAX !3 High Limit: -10.00 m3/h ' !3 F A B 3 * !D D / 3 * 9 ! 44 5 ' Q ' ' 5 ' ' & K K F * < . K . 3 3 ! * 4 K & MIN !3 Low Limit: -10.00 2 3 ! * 4 / 3 K K ! * < . K . 3 3 6 * 9 ! 44 5 ' K ' ' 5 ' ' F A m3/h ' !3 & * !D D K & 3; B< !"# QUANTITY Quantity Limit: 1.00 m3 !3 ' ' 3 9 ' ( 3 3 3 3 3 5 / . - 3 3 9 % 2 ' 6 & 5 3 !3 & 5 9 & 5 % 2 ' 6 5 3 9 5 ' 5 ' ≥ 9 3 ( 5 ' ! . 3 3 6 9 3 3 2 & 3 3 6 . , , K ' . 6A I =4 4 * K 4 3*: ! % ' ' K I 0% ' !3 ; % 3 D< K : A =4 4 * K < 3 5 32 6 3 * K. , 7 32 ' 3 !3 5 )-A * 6 !3 , ) && 5 ' K 2 3 &5 ' & 3 & 3 ' 6 ' &5 ' 62 3 ' & 5 ' ' ' 3 3 ' ' 3 3 ' 3 3 *4 K . *4 K *4 < / K & & 3 3 R1 Hysteresis 1 m/s !"# 6 3 3 ' " ' - 9 5 ' 3 3 2 2 M 5 ' 5 ' !3 &3 ' ' ' 2 3 & 3 ' 5 ' ( 6 6 3 3 / % 3 3 & 3 &3 3 3 ' 2 3 2 F " ' ' ; - 6 32 M ) 2 3 & &> ' 9 !3 2 * " !" < 5 D - " & 3 ' C' 5 2 3 3 ' ' 3 6 3 & & 3 & 3 3 2 3 2 HOLD 3 3 ' 3 3 3 & ' & 3 & ' 6 &' ! 3 ' 3 3 3 3 - &' 3 ' ' 3 SPECIAL FUNCTION/ !3' 3 2 ' 6 & 2 '6 2 3 & &9 3 3 2 F . 3 5 3 !3 6 3 2 - 6 " !"# 3 & 3 3 3 OFF NON HOLD NO CONT. 0.00 % 3 7 3 < " 6 FUNC: TYPE: MODE: LIMIT: 2 ' 5 ' 3 ($ / - % 3 X+X (9 & ' 62 " : 5 ' 32 3 6 & ' ( ' ' & 6 3 ! (6 & 3 2/ 3 ' 2 3 HOLDING ' ' 3 3 ' 3 & 3 ' & % 2 ' & 5 ' ' 3 & 3 2 ' ' ' ' & E ' 3 & 6 3 3 3 3 6 3 3 3 3 3 2 ' 62 & 2 3 ' & & - <3' & & 3 3 5 3 6 3 & &<( 3 !# MAX MIN 2 ' ' & ' !3 3 & 3 2 6 ' ' 5 ' ' 3 2 && & / )-1 NON-HOLD 2 3 5 ' 9 3 3 5 6 ' ) QUANTITY 3 3 & 3 2 + 3 3 3 3 3 & 5 3 3 Flow 0 3 3 & O O ( & 3 & / 2 NON-HOLD 3 3 5 6 ' ) 3 2 3 & . - Alarm Type: NON HOLDING approx. 1 s Alarm Type: HOLDING ( & 3 3 & / 3 3 & 2 5 6 3 6 O HOLD 3 3 2 3 62 O 3 3 & !3 2 & 3 2 Manual deactivation of the alarm 3 D 3 ' ' ' '6 3 3 5 ' 5 ' 5 ERROR (3 # 3 & ' & % 3 6 (3 # 3 ' 3 3 &9 3 5 / !3 6'66 ' 62 ' NON-HOLD 3 2 &3 & / 3 ' % 3 ' 2 3 3 3 OFF 3 & 2 3 & & 3 H ' 3 5 &3 & ' 2 6 3 6 & 26 & 3 3 6 3 NO CONT. !3 3 - B$ ' ( % 6 5 !3 3 5 & 3 6 3 2 ' & ' !3 ' 6 3 SPECIAL FUNCTION \ SYSTEM SETTINGS \ DIALOGS/MENUS & 3 5 SHOW RELAIS STAT off >ON< 3 SHOW RELAIS STAT 2 3 < ON DISP ' & ' 3 2 2 ' 2 ' 3 3 3 < 2 !3 JP )-. < 2 3 3 & & ( )P / D( & ! - $ " -B % "' !2 3 & ' P ) ' $ $M # $ ( 2 - J M # $ ( 2 @ %$ # / 7 $ / O O N D $!%!E D: % 2 ' 5 . ! 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RRRR ' 5 ' ' 5 5 6 ' 3 !"# b ) 6 P + A1@1,-@8 & )@1 $ ' - ! - ;- < Volume flow DN DN DN 10 4 gal/min m3/h l/min l/s Volume flow 00 10 0 5 80 10 0 60 0 50 DN 0 0 4 DN 0 30 N D 250 10 4 D N 00 2 DN 0 15 DN 10 5 10 3 10 3 10 4 100 DN 10 3 10 DN 10 6 10 5 0 10 3 80 10 DN 5 6 DN 50 DN 100 bbl/d , 30 10 4 100 10 10 3 100 1 10 1 100 10 0,1 1 0,1 1 10 Flow velocity (m/s) )@. $ < 00 10 DN 800 DN 0 60 N 0 D 50 DN 0 40 DN 0 30 DN 250 10 5 DN 200 DN 0 15 DN l/min bbl/d gal/min Volume flow 10 5 10 6 10 4 0 10 DN 0 8 DN 65 DN 10 5 10 3 DN DN 10 4 Volume flow l/s ' - ! -;- m3/h , 10 4 10 3 10 3 10 4 100 50 30 100 10 3 10 100 10 10 3 100 1 10 1 100 10 0,1 1 10 1 10 100 10 Flow velocity (ft/s) )@8 $ )@H . . > . . " , - ( " & ! - " , - "& ! % % . ) # Channel 3 3 3 3 2 ' 3 Parameter from: 3 Outer diameter 3 Wall Thickness 3 Pipe material ' 6 3 3 3 c-Material 3 ' 5 ' 2 Liner YES Liner material 5 2 3 XOTHER MATERIALX !3 2 2 2 '3 5 5 2 3 XOTHER MATERIALX !3 2 2 2 '3 5 3 3 c-Material 3 ' 5 ' 2 Liner thickness 3 Roughness 3 Medium 3 3 '&3 3 3 ' c-Medium MIN 2 2 '3 5 2 ' ' & 5 ' 3 5 ' 2 c-Medium MAX ' 5 ' 3 5 ' 2 2 2 '3 5 5 2 3 XOTHER MEDIUMX ' ' 5 2 3 XOTHER MEDIUM X !3 ' 2 !3 2 Kin. viscosity !3 2 2 2 '3 5 5 ' 2 XOTHER MEDIUM X Density !3 2 2 2 '3 5 5 ' 2 XOTHER MEDIUM X Temperature 3 Pressure Sensor type & ! - ' !3 2 OUTPUT OPTIONS "# 3 ' 2 2 '3 5 & 6 3 XSPECIAL VERSIONX 3 ' 2 3 2 ' & 3 3 & 3 ' $4 '1 Time-prog. Meas. Meas. Point No. !3 ( & 2 6 & % 3 3 & 3 XSPECIAL FUNCTIONX/ & 3 3 & ' & ' & 3 6 !3 ' & YES 5 & 3 6 5 3 2 '3 5 6 ' 3 3 3 ' & Profile corr.? !3 2 3 & ' & Sound Path Transd. Distance 3 2 3 XFLOW VELOCITY"-"UNCORRX 3 6 6 3 XSPECIAL FUNCTIONX YES 3 5 2 3 ' 3 3 6 ' 6 3 !3 2 & 3 3 3 3 ' & 3 3 ' 3 3 6 =' 6 3 ' )@, . . & ! - " 4 &4 & " , - '$ Channel 3 3 Physical Quantity 3 32 Volume/Mass/Velocity in Temperature T1 Temperature T2 3 3 ' ' C' 3 ' !3 !3 Damping 2 ' 6 ' 3 3 3 2 YES 2 2 YES 2 3 2 ' & C' 5 3 ' 5 3 ' 3 & ' & ' 3 2 3 ' ' ' 3 ' ' !) 6 ' ' ' 3 ' ' !- 6 3 ' YES 2 5 3 & 3 ' & Serial Output No/Yes YES 5 3 5 3 ' ' 3 ' & % 3 & ' & 3 3 Current Loop I# 5 !3 YES Zero-Scale Val. 3 Full-Scale Val. 2 5 !3 6 5 Full-Scale Val. 6 5 Frequency Output F1 3 3 &3 ' ' 6 5 6 5 Error-value delay 2 5 ' !3 3 6 3 !3 5 3 3 5 ' ' 3 3 5 3 5 & ' ' 3 ' ' Dc & 2 5 6 !"# ' &5 ' 6 6 5 !3 YES 2 5 2 ' ' 3 3 ' ' 3 3 3 & 3 3 3 MODE: 3 3 R1 Input 3 3 6 c &6 3 5 &9 32 C' 2 6 ( High Limit 3 3 ' 3 C' Low Limit 3 3 3 C' 3 3 Quantity limit E ' 5 ' ' ' !3 YES 2 5 3 3 3 & 2 3 9 32 ' 3 ' ' 5 ' (5 ' 3 ' 3 0 ' 2 ' & C' 5 2 5 ( 3 )A+ 3 6 )/ 2 3 2 3 62 )/ ' ' ' 3 ' ' I) 3 2 6 9 3 3 H+ )+++ / Pulse Width 3 ' 6 C' 2 ' ' 3 C' 2 ' ' "c 3 TYPE: Pulse Value 3 6 ' &5 ' FUNC: Pulse Output 3 & 2 2 YES Full-Scale Val. Hysterese 7 6 5 !3 Zero-Scale Val. Alarm Output R# ' ' ' 3 ' ' %c ' & 3 5 6 3 ' ' &5 ' 2 5 Zero-Scale Val. Error-value delay 3 5 ' 3 6 !3 YES 6 & 5 & 3 5 Voltage Output U# 2 3 ' ' 3 Error-value delay 3 ' & 2 3 & Store Meas. Data No/Yes Storage Rate 6 ' ' 6 . . & ! - " $& / ,4' " , - ' System Settings Proc. Outputs Type of Output Source channel 3 3 3 35 ' Source item 3 3 Error-value 3 6 3 5 6 ' & C' 2 ' ' 6 ' ' Storing Storage Mode & Quantity Storage & 5 ' 5 6 3 & 5 ' 9 Store Amplitude 5 * 5 3 & 3 Store c-Medium 5 * 5 3 & 3 ' Serial Transmiss. kill spaces ' ' 3 decimalpoint XX col-separat. XZX 3 ' XX 6 Libraries Material list 3 2 ' Medium list 3 2 ' Format USER-AREA Materials: $' 6 ' Media: $' 6 ' Heat-Coeffs: $' 6 3 33 Steam-Coeffs: $' 6 6 3 3 Concentrat: $' 6 6 3 3 Extended Library Off/On OFF/ON 5 6 * 5 3 6 2 ' Dialogs/Menus Pipe Circumfer. Off/On ON 2 ' & Fluid Pressure Off/On Meas. Point No. 1234/<--> Sound Path Auto/User Transd. 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