Operating Instructions Programmable multidtransducer SINEAX M 563
Contents
1. Safety Protection class Il protection isolated IEC 1010 Enclosure protection IP 40 housing test wire IEC 529 IP 20 terminals test finger IEC 529 Pollution degree 2 Installation category Ill with lt 300 V II with gt 300 V Insulation test Inputs 300 V 600 V d Power supply 230 V Outputs 40 V Power supply O AC DC power pack DC or 50 60 Hz Rated voltage Tolerance 24 60VDC AC DC 15 to 33 85 230 V DC AC AC 15 Power consumption Option lt 5 W resp lt 7 VA Power supply from measuring input self powered gt 24 60 V AC or 85 230 V AC A Please note the max and min measuring input voltage Type label Input voltage Tolerance Power inscription range supply acc to appli internal power connec cation N or U2 supply range tion Self powered by U1 24 60 V AC int 24 60 V Internal 15 measuring Self powered input by U1 85 230 V AC int 85 230 V 2 Overvoltage category Ill 9 Overvoltage category Il 29 Programming connector on transducer The programming connector on the transducer is connected by the programming cable PRKAB 560 to the RS 232 inter face on the PC The electrical insulation between the two is provided by the programming cable Ambient conditions Nominal range of use for temperature 0 15 30 45 C usage group Il Operating temperature 10 to 55 C St2. 1 0 1 Ur lt U lt 1 2 Ur 0 5c AC voltage AC current current averages 0 1 Ir lt I lt 1 2 Ir 0 5 c 0 1 Ur lt U lt 1 2 Ur System frequency resp 0 15 0 03 c power 0 5Sr lt S lt 1 5 Sr 05c X2 XO 2 0 5Sr lt S lt 1 5 Sr 10c 1 lt X2 X0 lt 2 i 0 5Sr lt S lt 1 5 Sr Power factor 0 5 lt X2 X0 lt 1 2 0 c active power and reactive power 0 1Sr lt S lt 0 5Sr 10c X2 XO 2 0 1Sr lt S lt 0 5Sr 20c 1 lt X2 X0 lt 2 0 1Sr lt S lt 0 5Sr 40c 0 1 Ir lt I lt 1 2 Ir 1 Basic accuracy 1 0 c for applications with phase shift Duration of the measurement cycle Approx 0 6 to 1 6 s at 50 Hz depending on measured variable and programming Response time 1 2 times the measurement cycle Factor c the highest value applies Linear characteristic Yo 1 c So orc 1 j Xo X2 Bent characteristic XO lt X lt X1 ee orc 1 x1 X0 Y2 Y1 Y2 x1 x2 X1 lt X lt X2 c orc 1 YA pee his toe VEERE oX0 YO e X2 Y2 l X i gt I i I i I RETURN EEE Kessel Limit of the Limit of the output range output range Fig 3 Examples of settings with linear characteristic Fig 4 Examples of settings with bent characteristic System response inversely configurable Influencing quantities and permissible variations Acc to IEC 688
3. 4 wire 3 phase asymmetric load 3 single pole insulated voltage transformers in high voltage system 26 Measuring input System Terminal application erminals 4 wire 3 phase asymmetric load Li Open Y L2 connection L3 N 2 single pole insulated voltage transformers Low voltage system in high voltage system 5 Commissioning 5 1 Technical data Prior to starting check that the connection data of the transducer agrees with the sys tem data see type label The power supply to the transducer can then be switched on and the signals applied to the measuring inputs SINEAX M 563 Ord 125931 1006319 CPA LF 1 0 5 0 C amp gt B P 0 500 1100MW 0 5 20mA 0 10mA GC 0 2500A 20 0 5mA 57 74V 1A 50Hz 440KV 57 74V 25001A A tw ceg 50 60Hz 7VA N Measuring input Measuring output Rated value of the Output signal input voltage Ur gt Power supply Rated value of the p 1 Manufacturer input current Ir The figures in brackets 2 Works No are the ratios of the main 3 Test and conformity v t s and c t s referred mark to Ur and Ir 4 Terminals Nominal frequency Input quantities and System power supply e g AC current 5 Terminals Output quantities Fig 2 Declaration to type label Symbols Symbols Meaning x Measured variable XO Lower limit of the measured variable X1 Br
4. raussendung EN 50 081 2 1993 Emission St rfestigkeit Immunity IEC 1000 4 2 IEC 1000 4 3 EN 50 082 2 1994 IEC 1000 4 4 IEC 1000 4 5 IEC 1000 4 6 IEC 1000 4 11 Richtlinie Directive 73 23 EWG Elektrische Betriebsmittel zur Verwendung innerhalb bestimmter Spannungs grenzen Niederspannungsrichtlinie CE Kennzeichnung 95 73 23 EEC Electrical equipment for use within certain voltage limits Low Voltage Direc tive Attachment of CE mark 95 EN Norm Standard IEC Norm Standard EN 61 010 1 1993 IEC 1010 1 1990 A1 1992 Ort Datum Place date Unterschrift pice Signature Diese Erkl rung bescheinigt die bereinstimmung mit den genannten Richtlinien beinhaltet jedoch keine Zusicherung von Eigenschaften Die Sicherheitshinweise der mitgelieferten Produktdokumentationen sind zu beachten Wohlen den 26 Mai 2000 M Ulrich Leiter Entwicklung This declaration certifies compliance with the above mentioned directives but does not include a property assurance The safety notes given in the product documentations which are part of the supply must be observed 32
5. 60VAC Internal from 69 V AC measurin 85 230 VAC input 9 264 AG e Selection possible for frequency measurement via voltage or current e Possibility to reset the slave pointer of the output quantity involved e Parameter setting of outputs A to C input of measured quantity upper limits limitation of upper limits and re sponse time per output possible up to max 30 s e Graphics display of the set system behaviour of each output Eo 21 gt a 0 8295 A Minimum 47 74 1 08 20 09 00 Maximum 0 21 6 Scale 0 00 57 74 ss 20 04 00 Ter as 4774W Basten EINAR yian Maoh d 39 dans Con me BO PF Catapa setma Fig 6 Displaying recording and evaluation of measurements TRUCA nr Provision is also made for the following ancillary functions e Displaying recording and evaluation of measurements on aPC e The simulation of the outputs for test purposes e Printing of nameplates 6 Reconfiguring the analogue outputs The alternative configurations for the analog outputs can be Information text Meoserana ssitage 387 3 Estscant ion text 30 cbarectera J ipet GT 63 06 5 N tatar 09 r 4 Limitation 4 00 Rend vee mes oe 7 1b a eitape LL T E misina dowerted Corvest zon ong EE mh P e 36 3 Freguracy gt some on he Somat Em p R B feo 5 1 Frequency measurement t
6. A 10 1s 100s 120A 5 3s 5min 250 A 1 1s 1 hour Voltage circuit 480 V 831 V contin 600 V 1040 V 10 10s 10s 800 V 1386 V 10 1s 10s 1 Maximum 264 V across the power supply when it is obtai ned from the measured variable with a power supply unit for 85 230 V DC AC and maximum 69 V with a power supply unit for 24 60 V DC AC Analog outputs O For the outputs A B and C Output Impressed Impressed variable Y DC current DC voltage Full scale Y2 1 lt sY2 lt 20mA 5 lt sY2 lt 10V Limits of output signal for input overload and or R 0 1 2 Y2 40 mA R gt 30 V 1 2Y2 Rated useful eV EM 2 Ve nn ofoutput yo Y2 2mA 1mA AC component of output signal lt 0 02 Y2 lt 0 02 Y2 peak to peak The outputs A B and C may be either short or open circuited They are electrically insulated from each other and from all other circuits floating All the full scale output values can be reduced subsequently using the programming software but a supplementary error results System response Accuracy class the reference value is the full scale value Y2 Measured Condition Accuracy variable class System 0 5 lt X2 Sr lt 1 5 0 5cC 0 3 lt X2 Sr lt 0 5 1 0c Active reactive and apparent power Phase Active reactive and apparent 0 167 lt X2 Sr lt 0 5 0 5c 0 1 lt X2 Sr lt 0 167 1 0c 0 5 lt X2 X0 lt
7. the output circuit may not over range the current output value 15V lan MA I4y Current output value R max KQ lt and not underrange the voltage output value Unn MV 1 mA U y voltage output value R min KQ the measurement output cables should be twisted pairs and run as far as possible away from heavy current cables In all other respects observe all local regulations when selecting the type of electrical cable and installing them 23 7 f power supply is taken from the measured voltage Function Connect internal connections are as follow Measuring input AC current IL1 1 3 IL2 4 6 Application system Internal connection IL3 7 9 Terminal System AC voltage UL 2 UL 5 Single phase AC current 2 11 1 N UL3 8 4 wire 3 phase 2 11 LI N N 11 symmetric load Outputs Analog All other apart from 2 5 D ex 4 feature 9 lines E F and J Gra _ Q 17 A B C Z io a RS 232 19 Gc F 20 Power supply AC 13 15 16 17 18 19 20 N SOOOOS DC 13 1 a RS 232 C interface OOODOOOOOOODOOOOO 123456 7 8 91011121314 ra li lo l3 Un Ur WE Urs l3 n O N Measuring inputs acc to measuring mode Measuring inputs System Tertia Application erminals Single phase AC system L1 N 4 wire
8. tion against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is like to cause harmful interference in which case the user will be required to correct the interference at his own expense 31 12 Declaration of conformity Document No Hersteller Manufacturer Anschrift Address Produktbezeichnung Product name E S C EG KONFORMITATSERKLARUNG SEE DECLARATION OF CONFORMITY SET M Dokument Nr M563 Camille Bauer AG Switzerland Aargauerstrasse 7 CH 5610 Wohlen Programmierbarer Multi Messumformer Programmable Multi Transducers Typ Type SINEAX M 563 Das bezeichnete Produkt stimmt mit den Vorschriften folgender Europ ischer Richtlinien berein nachgewiesen durch die Einhaltung folgender Normen The above mentioned product has been manufactured according to the regulations of the following European directives proven through compliance with the following standards Richtlinie Directive 89 336 EWG Elektromagnetische Vertr glichkeit EMV Richtlinie 89 336 EEC Electromagnetic compatibility EMC directive Messverfahren Measurement methods EN 55011 1992 EMV Fachgrundnorm EMC Generic Standard St
9. Operating Instructions Programmable multi transducer SINEAX M 563 Contents Read first and then een Brief desceripti n aasekenh en ee s MOUNN aicise iaeei Ba Electrical COnNNeCtioNS essiri oinnia s COMMISSIONING resinen 2 ee seve cue 7 5 1 Technical datassa 5 2 Programming the transducer Reconfiguring the analog outputs Notes of maintenance uunsessnersneeerenene nenn Releasing the transducer Dimensional drawing 10 Satety notes n a nn noaiden ia laden eu 11 Instrument admission rssurmnssnenrsnnnnnnnnnnna 12 Declaration of conformity 2uusenenennnnnnnnnnnnnnn OPODPD oo ON OD 1 Read first and then The proper and safe operation of the device assumes that the Operating Instructions are read and the safety warnings given in the sections 3 Mounting 4 Electrical connections 5 Commissioning 10 Safety notes are observed The device should only be handled by appropriately trained personal who are familiar with it and authorized to work in electrical installations Unauthorized repair or alteration of the unit invalidates the warranty 2 Brief description SINEAX M 563 is a programmable transducer with a RS 232 C interface It supervises any 3 variables of an electrical power system simultaneously and generated 3 electrically insulated analog output signals The transducers ar
10. e 3 phase 12 symmetric L3 load N l L1 Connect the voltage according to the following table for current measurement in L2 or L3 Current transf Terminals 2 11 L2 1 3 L2 N L3 1 3 L3 N 24 Measuring inputs System application Terminals L1 3 wire L2 3 phase L3 symmetric SE Connect the voltage according to the following table for current measurement in L2 or L3 Current transf Terminals 2 5 8 L2 1 3 L2 L3 L1 L3 1 3 L3 L1 L2 owe L1 L1 L1 3 phase i symmetric L2 u Phase shift Er L2 Connect the voltage according to the following table for current measurement in L2 or L3 Current transf Terminals 2 5 L2 1 3 L2 L3 L3 1 3 L3 L1 3 wire 3 phase symmetric 1 N load L2 L2 Phase shift L3 L3 U L38 L1 lA Connect the voltage according to the following table for current measurement in L2 or L3 Current transf Terminals 8 2 L2 1 3 Bi L2 L3 i 3 L2 L3 25 Measuring inputs System application Terminals 3 wire 3 phase symmetric load Phase shift U L2 L3 I LA L1 L2 L3 Connect the voltage according to the following table for current measurement in L2 or L3 Current transf Terminals 5 8 L2 1 3 L3 L1 L3 1 3 L1 L2 3 wire 3 phase asymmetric load
11. e also equipped with an RS 232 serial interface to which a PC with the corresponding software can be connected for programming or accessing and The usual methods of connection the types of measured vari ables their ratings the transfer characteristic for each output etc are the main parameters that can be programmed The ancillary functions include displaying recording and evaluation of measurements on a PC the simulation of the outputs for test purposes and a facility for printing name plates 3 Mounting The transducer SINEAX M 563 can be mounted on a top hat rail Note Environmental conditions in Section 5 1 Technical data when determining the place of installation Simply clip the device onto the top hat rail EN 50 022 see Fig 1 AR NISSSSSSIY Fig 1 Mounting on top hat rail 35x15 or 35x7 5 mm 4 Electrical connections Connect the electric conductors acc to the instructions on type label Note that the direction of energy and the phase sequence are adhered to Make sure that all cables are not live when making the connections Impending danger by high input voltage or high power supply voltage O Note that the data required to carry out the prescribed measurement must correspond to those mar ked on the nameplate of the SINEAX M 563 A measuring input Q measuring output and gt power supply see Fig 2 the resistance in
12. e system Q Q1 Q2 Q3 Reactive power phase 1 phase to neutral L1 N Reactive power phase 2 phase to neutral L2 N Reactive power phase 3 phase to neutral L3 N Apparent power of the system Apparent power phase 1 phase to neutral L1 N Apparent power phase 2 phase to neutral L2 N Apparent power phase 3 phase to neutral L3 N Rated value of the apparent power of the system Active power factor coso P S Active power factor phase 1 P1 S1 Active power factor phase2 P2 S2 Active power factor phase3 P3 S3 Reactive power sin Q S Reactive power factor 1 Q1 S1 Reactive power factor 2 Q2 S2 Reactive power factor 3 Q3 S3 Power factor of the system LF sgnQ 1 PF Power factor phase 1 sgnQ1 1 PF1 Power factor phase 2 sgnQ2 1 PF2 Power factor phase 3 sgnQS3 1 PF3 Factor for the intrinsic error Output load Rated burden Power supply Rated value of the power supply c t ratio v t ratio Measuring input amp Waveform Sinusoidal Rated frequency 50 or 60 Hz 28 Consumption VA with external power supply Voltage circuit U 400 kQ Current circuit lt I 0 01 Q Thermal rating of inputs Input variable Number Duration Interval of of between two inputs overload overloads Current 400 V single phase AC system circuit 693 V three phase system 12A continu 120
13. eak point of the measured variable X2 Upper limit of the measured variable Y Output variable YO Lower limit of the output variable Y1 Break point of the output variable Y2 Upper limit of the output variable Hardware Y2 SW Programmed upper limit of the output variable U Input voltage Ur Rated value of the input voltage U 12 Phase to phase voltage L1 L2 U 23 Phase to phase voltage L2 L3 U 31 Phase to phase voltage L3 L1 UIN Phase to neutral voltage L1 N U2N Phase to neutral voltage L2 N USN Phase to neutral voltage L3 N Input current 1 AC current L1 12 AC current L2 13 AC current L3 Ir Rated value of the input current IM Average value of the currents l1 12 13 3 IMS Average value of the currents and sign of the active power P IB RMS value of the current with wire setting range bimetal measuring function IBT Response time for IB BS Slave pointer function for the measurement of the RMS value IB 27 BST Fn P1 P2 P3 Q1 Q2 Q3 S1 S2 S3 Sr PF PF1 PF2 PF3 QF QF1 QF2 QF3 LF LF1 LF2 LF3 Rn Hn CT Response time for BS Phase shift between current and voltage Frequency of the input variable Rated frequency Active power of the system P P1 P2 P3 Active powerphase 1 phase to neutral L1 N Active power phase 2 phase to neutral L2 N Active power phase phase to neutral L3 N Reactive power of th
14. et El Je mg Fir vettage a Linktetion 4 0 24 00 C heas eyete 0 07 sormal der Kiminin imertee gt air system asgrewtricat Ieire system asgmmwtrical area Aewire systen acprewtrical 0prs Y Weasevand active pour a Amire systra Deleced loot Ipet B56 r 7 po Fahre system Datoneet loot c atpet 0 00 B Sieghe Line system Ian d aewire system balanced Inad 012 11 Linktetion 24 00 ates wire system balonced Lone U21 11 mar opate 0777 mrmi a wire system Dalamcee tose UE3 19 rer ATE seen from Table 1 Table 1 Action Procedure Change the current full 20 mA to 10 mA scale value from for example Reconfigure the software Mrajis M Dearden d Feat ean gien con eeno FESAT ae Fig 5 Presentation of all programmation parameters in the main menu 30 a hardware setting always thas to be made when changing from a lower to a higher value but do not change the hardware setting Accuracy is reduced Unauthorized repair of alteration of the unit invalidates the warranty 7 Notes of maintenance No maintenance is required 8 Releasing the transducer Release the transducer from a top hat rail as shown in Fig 7 Fig 7 9 Dimensional drawing 112 5 BEEZ 15 16 17 18 19 20 O00000 ke 69 1 0000000000000 12345678 9 1011121314 HHHHHHHHHHHHHH 105 je gt Fig 8 Ho
15. orage temperature 40 to 85 C Annual mean relative humidity lt 75 Altitude 2000 m max Indoor use statement 5 2 Programming the transducer A The transducers SINEAX M 563 have an integrated RS 232 C interface SCI The existing programmation can be matched conveniently to a changed situation and stored via the Configuration software for M 560 Order number 146 557 For this purpose the RS 232 output of the transducer must be connected to a PC via the RS 232 C SCI programming cable Order number 147 779 and 143 587 and the trans ducer must be supplied with power supply The configuration software has an easy to operate clear menu structure which allows for the following functions to be performed e Reading and displaying the programmed configuration of the transducer e Clear presentation of the input and output parameters e Transmission of changed programmation data to the transducer and for archiving of a file e Protection against unauthorized change of the program mation by entry of a password e Configuration ofall the usual methods of connection types of power system a RAY Se 2 e Easy change of input and output parameters WARNING Watch for maximum input voltage on transdu cers with internal power supply connection from measuring input Maximum input voltage across the power supply Power supply Power supply connection 24
16. using P20 105 clipped onto a top hat rail 85 x15 mm or 35x7 5 mm acc to EN 50 022 10 Safety notes Before you start the device check for which power supply it is built Verify that the connection leads are in good condition and that they are electrically dead while wiring the device When it must be assumed that safe operation is no lon ger possible take the device out of service eventually disconnect the power supply and the input voltage This can be assumed on principle when the device shows obvious signs of damage The device must only be used again after troubleshooting repair and a final test of calibration and dielectric strength in our factory or by one of our service facilities When opening the cover live parts may be ex posed Calibration maintenance or repair with the device open and live must only be performed by a qualified person who understands the danger involved Capa citors in the device may still be charged even though the device has been disconnected from all voltage sources 11 Instrument admission s CSA approved for USA and Canada file nr 204 767 Cc US FCC Compliance and Canadian DOC Statement This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to both part 15 of the FCC Rules and the radio interference regu lations of the Canadian Department of Communications These limits are designed to provide reasonable protec
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