EMBSI 8 G Carrying rail housing MBS/SP Application The transducer EMBSI 8 G (Fig. ) measures the power factor between current and voltage of a single or 3-phase balanced network having a sine wave form. The output signal, in the form of a load independent DC current or voltage, is proportional to the power factor between the measured quantities current and voltage. The transducer fulfi ls all the important requirements and regulations concerning electromagnetic compatibility EMV and Safety (IEC 00 resp. E 6 00). It was developed and is manufactured and tested in strict accordance with the quality assurance standard ISO 00. Features / Benefits Measuring input: Sine, rectangular or distorted wave forms of input quantities with dominant fundamental wave Measured variables ominal input current ominal input voltage Measuring range limits Power factor 0. to 6 A 0 to 60 V Min. span 0 el Max. span 360 el Measuring output: Unipolar, bipolar or live zero output variables Measuring principle: Measurement of the zero crossing interval AC/DC power supply / Universal Alternatively as marine version per Lloyd s Register of Shipping Table : Base versions ominal frequency of inputs: 0 Hz Measuring range: 0. cap ind 0. cosϕ Output: Proportional cosϕ Power supply: 8 30 V/DC or 0 00 Hz The following transducer versions are available as base versions. It is only necessary to quote the Order o.: Inputs 30 V/- und A/L 00 V/- and A/ Application Singlephase AC 3 or -wire 3-phase balanced load Output signal Response time Periods of the input frequency Order o. 0 0 ma 7 68 0 ma 7 66 0 0 ma 7 66 0 ma 7 67 Please complete the Order Code 8 G-M........ acc. to Table 3: Specifi cation and Ordering Information for other versions. Fig.. Transducer EMBSI 8 G in housing MBS/SP clipped onto a top-hat rail. Technical data General Measured quantity: Measuring principle: Measuring input Power factor between current and voltage Measurement of the zero crossing interval Examples of measuring ranges with cosϕ-linear output - - 0. 0 0. 0. 0-0. - [cosϕ] inductive (lag) capacitive (lead) inductive (lag) capacitive (lead) Generator (outgoing) ominal frequency f : ominal input voltage U : Response sensitivity: 0.6 0.7 0.8 0. Motor (incoming) 0.-cap- -ind-0. 0.8-cap--ind-0 0.-cap--ind-0. -0. ind 0 cap ind 0 cap -0. Generator (outgoing) 6 /3 00 Hz 0 60 V (max. 30 V with power supply from voltage measuring input) 0 0% U MBS Data sheet 8 G DB 0-08
EMBSI 8 G ominal input current I : Response sensitivity: 0. to 6.0 A < % I.AE 0.AA AE A bipolar Own consumption: < 0. VA per current path U. ma per voltage path Overload capacity: Input variables I.U umber of applications Duration of one application. x I continuously 0 x I 0 s 00 s. x U continuously x U 0 s 0 s Interval between two successive applications But max. 6 V with power supply from voltage measurement Measuring output Load-independent DC current: Burden voltage: Load-independent DC voltage: Load capacity: Voltage limit under R ext = : Current limit under overload: Residual ripple in output current: ominal value of response time: Other ranges: Output characteristic.ae AE AA = 0 A EA unipolar EE.EE 0.EA E 0 to 0 0 ma resp. live-zero to 0 ma ± to ± 0 ma + V, resp. V 0 to 0 0 V resp. live-zero 0. to 0 V ± to ± 0 V Max. ma V Approx. 30 ma < 0.% p.p. periods of the nominal frequency, 8 or 6 periods of the nominal frequency.ae 0.AA AE AA = 0.AE 0 A EA live-zero EE.EE 0.EA E 0.EA 0.EE EA AA 0.AA.AE EE.EE 0.EA Accuracy (acc. to E 60 688) Reference value: Δcosϕ = 0. Basic accuracy: Class 0. E Legend: E = Input EA = Input start value EE = Input end value A = Output AA = Output start value AE = Output end value Reference conditions Ambient temperature 30 C Input current 0.8. I Input voltage 0.8. U Frequency f ± 0% Wave forms Sine wave Power supply At nominal range Output burden Δ R ext max. Additional errors (maxima): Voltage infl uence between 0. and. U ± 0.3% Current infl uence between 0. and. I ± 0.3% between 0. and. I ± 0.% Safety Protection class: II (protection isolated, E 6 00) Housing protection: IP 0, housing (test wire, E 60 ) IP 0, terminals (test fi nger, E 60 ) Contamination level: Overvoltage category: III Rated insulation voltage (against earth): 30 V resp. 00 V, inputs 30 V, power supply 0 V, output Test voltage: 0 Hz, min. acc. to E 6 00-3700 resp. 0 V, inputs versus all other circuits as well as outer surface Data sheet 8 G DB 0-08 MBS
EMBSI 8 G Test voltage (continuation): Power supply 30 V, input circuits versus each other 3700 V, power supply versus output as well as outer surface 0 V, output versus outer surface AC/DC power pack (DC or 0 00 Hz) Table : Rated voltages and permissible variations Rated voltage Tolerance 8 30 V DC, AC DC + 33% 60 V DC, AC AC ± % or Power supply from voltage measuring input: 60 V AC or 8 30 V AC Option: Connect to the low tension to terminals and 3 V AC or 60 V DC Power consumption: Approx. W resp. VA Installation data Mechanical design: Material of housing: Mounting: Mounting position: Weight: Housing MBS/SP Lexan 0 (polycarbonate), fl ammability Class V-0 acc. to UL, self-extinguishing, non-dripping, free of halogen For rail mounting Any Approx. 0. kg Connecting terminals Connection element: Permissible cross section of the connection leads: Environmental conditions Screw-type terminals with indirect wire pressure.0 mm single wire or x. mm fi ne wire Operating temperature: 0 to + C Storage temperature: 0 to + 70 C Relative humidity of annual mean: 7% Altitude: 000 m max. Indoor use statement! Ambient tests E 60 068--6: Acceleration: Frequency range: umber of cycles: E 60 068--7: Vibration ± g 0 0 0 Hz, rate of frequency sweep: octave/minute 0, in each of the three axes Shock Acceleration: 3 0 3 shocks each in 6 directions E 60 068--/-/-3: Cold, dry heat, damp heat IEC 000--/-3/-/-/-6 E 0: Electromagnetic compatibility Table 3: Specification and ordering information Description *Blocking code no-go with blocking code Article o./ Feature EMBSI 8 G Order Code 8 G - xxxx xxxx xx 8 G Features, Selection. Mechanical design Housing MBS/SP for rail mounting M. Measuring mode For power factor (cosϕ-linear) MBS Data sheet 8 G DB 0-08 3
EMBSI 8 G Description *Blocking code no-go with blocking code Article o./ Feature EMBSI 8 G Order Code 8 G - xxxx xxxx xx 8 G Features, Selection 3. Application Single-phase AC U: & I: 3 or -wire 3-phase balanced load U: & I: 3 or -wire 3-phase balanced load 3 U: & I: 3 or -wire 3-phase balanced load U: & I: 3 or -wire 3-phase balanced load U: & I: 3 or -wire 3-phase balanced load 6 U: & I: 3 or -wire 3-phase balanced load 7 U: & I: 3 or -wire 3-phase balanced load A U: & I: 3 or -wire 3-phase balanced load B U: & I: 3 or -wire 3-phase balanced load C. ominal input frequency 0 Hz 60 Hz on-standard [Hz] 0 to 00 Hz With power supply from measuring input min. 0 Hz. ominal input voltage U = 00 V C U = 30 V C on-standard [V] 0 to 60 V With power supply from measuring input min. V, max. 30 V, see feature, lines 3 and 3-phase system: Input voltage = phase to phase voltage 6. ominal input current A A on-standard [A] 0. to 6.0 A 7. Measuring range cosϕ 0. cap ind 0. on-standard [cosϕ] Measuring range within ind 0 cap ind 0 cap 8. Output signal 0 0 ma 0 ma on-standard 0.00 to 0 < 0, [ma].00 0.00 to 0 0 0 (symmetrical) to < ( 0) (AA / AE = / ) 0 0 V A on-standard 0.00 to 0 < 0, [V].00 0.00 to 0 0 0 (symmetrical) Z 0. to 0 (AA / AE = / ) AA = Output start value, AE = Output end value Data sheet 8 G DB 0-08 MBS
EMBSI 8 G Description *Blocking code no-go with blocking code Article o./ Feature EMBSI 8 G Order Code 8 G - xxxx xxxx xx 8 G Features, Selection. Power supply 8 30 V DC, AC 60 V DC, AC Internal from measuring input ( 60 V AC) C 3 Internal from measuring input (8 30 V AC) C Connect to the low tension V AC / 60 V DC 0. Response time periods of the input frequency (standard) periods of the input frequency 8 periods of the input frequency 3 6 periods of the input frequency * Lines with letter(s) under no-go cannot be combined with preceding lines having the same letter under SCODE. Application notes Current connection in phase Voltage connection between & & & & & & Vector diagrams Current connection in phase Voltage connection between L & & & L & Vector diagrams I U MBS Data sheet 8 G DB 0-08
EMBSI 8 G Electrical connections + + + ( )(+) 0 3 0 3 0 3 = Measuring input = Measuring output 3 6 7 8 3 6 7 8 3 6 7 8 = Power supply U I ( )(+) U I U I Fig.. Power supply connected to terminals 8 and. Fig. 3. Power supply internal from measuring input, without separated power supply. Fig.. Power supply connected to the low tension terminal side and 3. Measuring inputs Application Terminal allocation Application Terminal allocation single-phase AC network // 3 or -wire 3-phase network U: & I: 3 or -wire 3-phase network U: & I: 3 or -wire 3-phase network U: & I: Power factor measurement in 3 or -wire 3-phase network U: & I: 3 or -wire 3-phase network U: & I: 3 or -wire 3-phase network U: & I: 3 or -wire 3-phase network U: & I: 6 Data sheet 8 G DB 0-08 MBS
EMBSI 8 G Measuring inputs Application Terminal allocation Application Terminal allocation 3 or -wire 3-phase network U: & I: 3 or -wire 3-phase network U: & I: Dimensional drawing Standard accessories Operating instructions in three languages: German, French, English 70 70 Fig.. Housing MBS/SP clipped onto a top-hat rail (3 x or 3 x 7. mm, acc. to E 0 0). MBS AG Eisbachstraße 7 Sulzbach-Laufen Sulzbach Messwandler Phone: + 7 76-8 -0 Fax: + 7 76-8 -0 Email: mbs@mbs-stromwandler.de Subject to change without notice Edition 0.08 Data sheet 8 G DB