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MKPg-Druck_fürweb.qxp 13.09.2012 09:26 Seite 8 MKPg-Druck_fürweb.qxp 13.09.2012 09:26 Seite 6 MKPc™ FK-Dr™ 400…440V 400V 50Hz 50Hz (type S only) MKPc™ Gas-filled Power Capacitors for non-detuned use in mains of 400V, 415V and 440V 50Hz or for detuned systems at 400V 50HzReactors for 7% detuning (f R = 189Hz) in 400V 50Hz mains Contactors Contactors recommended order code m Design capacitor Q C LC output @ U mains I N order no. D 1 × L 1 winding L N order no. I eff pcs box L × W × H order C N I max power (kvar) (kvar @ 400V 50Hz) (A) (A) (mm) materia /box FB discharge code (μF) (kg)l U N 400V 50Hz U max 440V U BB 950V AC/2s U BG 3600V AC/2s 17237.004-... 17237.004-... 2.5kvar 400V 2.5 3 × 17 3 × 6 3 × 9 60 × 164 0.4 Z available on request 10 8 3Y300k, 0.2W ...-12.5 277.625-401700 5kvar 400V 5 3 × 33 3 × 12 3 × 18 65 × 164 0.5 Z available on request 10 8 3Y240k, 0.2W ...-12.5 277.635-403300 10kvar 400V 10 3 × 68 3 × 15 425.093-40D2x0 Cu 1.1 Z 3 × 3.57 10 10 190 × 82 × 165 ...-12.5 10.8 ...-12.5 277.639-406800 18.2 3 × 30 65 × 280 3Y120k, 0.4W 277.646-408200 22.6 75 × 230 13.3 3 × 31 3Y100k, 0.5W 12.5kvar 400V 12.5 3 × 82 3 × 18 428.094-40D2x0 Cu 1 Z 3 × 2.88 5 9 190 × 92 × 165 ...-20.0 ...-12.5 15kvar 400V 15 3 × 100 3 × 22 433.095-40D2x0 Cu 1.3 Z 3 × 2.38 5 10 190 × 102 × 165 ...-20.0 ...-20.0 3Y82k, 0.7W 75 × 280 3 × 33 16.1 277.649-410000 27.3 277.649-411000 16.6kvar 400V 16.6 3 × 110 3 × 24 3 × 38 75 × 280 1.3 Z available on request 5 10 3Y68k, 0.8W ...-20.0 20kvar 400V 20 3 × 133 3 × 29 440.124-40D2x0 Cu 1.5 Z 3 × 1.76 5 10 240 × 121 × 215 ...-25.0 ...-20.0 3Y62k, 0.9W 85 × 280 21.5 3 × 38 277.659-413300 36.4 25kvar 400V 25 3 × 166 3 × 36 444.625+40D3x0 2 Al S 3 × 1.43 3 10 240 × 131 × 215 ...-33.4 277.769-516600 45.5 26.9 ...-25.0 3 × 56 3Y47k, 1.1W 95 × 280 50kvar 400V 50 3 × 332 3 × 72 458.758+40D3x0 Al 3 × 0.71 91 300 × 180 × 190 ...-50.7 (2×) 277.769-516600 see above for details 53.8 see above for details ...-50.0 75kvar 400V 75 3 × 498 3 × 108 468.659+40D3x0 Al 3 × 0.48 136.6 300 × 192 × 265 ...-60.1 see above for details ...-50.7 (3×) 277.769-516600 see above for details 80.6 100kvar 400V 100 3 × 664 3 × 144 4H0.660+40D3x0 Al 3 × 0.36 182.1 300 × 203 × 265 ...-60.1 see above for details (4×) 277.769-516600 see above for details available on request 107.5 U N 415V 50Hz U max 440V U BB 950V AC/2s U BG 3600V AC/2s 5kvar 415V 5 3 × 31 3 × 7 3 × 12 65 × 164 0.5 Z available on request 10 8 3Y240k, 0.2W ...-12.5 277.635-403100 10kvar 415V 10 3 × 62 3 × 14 425.093-4032x0 Cu 1 Z 3 × 3.84 10 12 190 × 82 × 165 ...-12.5 3 × 27 65 × 245 3Y120k, 0.5W 277.638-406200 17.5 10 ...-12.5 75 × 230 3 × 27 3Y100k, 0.6W ...-12.5 12.5kvar 415V 12.5 3 × 77 3 × 19 428.094-4032x0 Cu 1 Z 3 × 3.07 5 9 290 × 92 × 165 ...-12.5 12.5 277.646-407700 21.9 75 × 230 ...-20.0 3 × 31 13.3kvar 415V 13.3 3 × 82 3 × 19 428.094-40D2x0 Cu 1 Z 3 × 2.88 5 9 190 × 92 × 165 ...-20.0 3Y100k, 0.6W 13.3 277.646-408200 22.6 3 × 33 16.6kvar 415V 16.6 3 × 100 3 × 23 433.095-40D2x0 Cu 1.3 Z 3 × 2.38 5 10 190 × 102 × 165 ...-20.0 ...-20.0 75 × 280 277.649-410000 27.3 16.1 3Y82k, 0.7W 20kvar 415V 20 3 × 123 3 × 28 440.124-4032x0 Cu 1.5 S 3 × 1.92 5 240 × 121 × 215 ...-20.0 12 277.758-412300 35.1 85 × 245 20 3 × 42 ...-20.0 3Y62k, 0.9W 25kvar 415V 25 3 × 154 3 × 35 444.625+4033x0 Al 1.6 S 3 × 1.54 3 12 240 × 131 × 215 ...-25.0 ...-25.0 3Y47k, 1.2W 277.768-415400 43.8 3 × 53 95 × 245 25 50kvar 415V 50 3 × 308 3 × 70 458.758+4033x0 Al 3 × 0.77 87.6 300 × 180 × 190 ...-50.0 (2×) 277.768-415400 see above for details ...-50.0 see above for details 50 75kvar 415V 75 3 × 462 3 × 105 468.659+4033x0 Al 3 × 0.51 116.8 300 × 192 × 265 ...-50.7 (3×) 277.768-415400 see above for details see above for details ...-50.7 75 100kvar 415V 100 3 × 616 3 × 140 4H0.660+4033x0 Al 3 × 0.38 175 300 × 203 × 265 ...-60.1 see above for details 100 ...-60.1 (4×) 277.768-415400 see above for details U N 440V 50Hz U max 440V U BB 950V AC/2s U BG 3600V AC/2s 2.5kvar 440V 2.5 3 × 14 3 × 3.3 3 × 5.6 60 × 164 0.4 Z available on request 10 8 3Y300k, 0.2W ...-12.5 277.625-401400 5kvar 440V 5 3 × 28 3 × 6.6 3 × 12 60 × 164 0.4 Z available on request 10 8 3Y270k, 0.2W ...-12.5 277.625-402800 10kvar 440V 10 3 × 55 3 × 14 3 × 25 60 × 280 0.9 Z available on request 10 10 3Y120k, 0.5W ...-12.5 277.629-405500 10.8 ...-20.0 3Y120k, 0.5W 3 × 30 65 × 280 12.5kvar 440V 12.5 3 × 68 3 × 16 425.093-40D2x0 Cu 1.1 Z 3 × 3.57 10 10 190 × 82 × 165 ...-12.5 277.639-406800 18.2 15kvar 440V 15 3 × 82 3 × 20 428.094-40D2x0 Cu 1 Z 3 × 2.88 5 9 190 × 92 × 165 ...-20.0 3Y82k, 0.8W ...-20.0 277.646-408200 22.6 75 × 230 13.3 3 × 31 20kvar 440V 20 3 × 110 3 × 27 3 × 38 75 × 280 1.3 Z available on request 5 10 3Y68k, 0.9W ...-20.0 277.649-411000 25kvar 440V 25 3 × 137 3 × 33 440.124-40D2x0 Cu 1.5 S 3 × 1.76 5 10 240 × 121 × 215 ...-25.0 21.5 ...-25.0 3Y56k, 1.2W 85 × 280 3 × 47 277.759-413700 36.4 30kvar 440V 30 3 × 166 3 × 40 444.625+40D3x0 2 Al S 3 × 1.43 3 10 240 × 131× 215 ...-33.4 3 × 56 ...-33.4 95 × 280 3Y47k, 1.4W 26.9 277.769-516600 45.5 Rated Voltage U N Root mean square of the max. permissible value of sinusoidal AC voltage in continuous operation. The rated voltage must not be exceeded even in cases of malfunction. Bear in mind that capacitors in detuned equipment are exposed to a higher voltage than that of the rated mains voltage; this is caused by the connection of detuning reactor and capacitor in series. Consequently, capacitors used with reactors must have a voltage rating higher than that of the regular mains voltage. Rated Power Q C Reactive power resulting from the ratings of capacitance, frequency, and voltage. Current Rating I N LC output @ U mains: RMS value of the current at rated voltage and frequency, excluding harmonic distortion, switching transients, and capacitance tolerance. The series combination of detuning reactor (L) and capacitor (C) causes a voltage rise at the capacitor terminals. The capacitor then produces more kvar than under “normal” circumstances. This value states the kvar output delivered by the LC-set into the mains. Maximum RMS Current Rating I max Maximum rms value of permissible current in continuous operation. In accordance with EN 60831 all ELECTRONICON capacitors are rated at least 1.3xI N, allowing for the current I eff: rise from permissible voltage and capacitance tolerances as well as harmonic distortion. Continuous currents that exceed these values will lead to a build-up of heat in the Permitted current load on the reactor in permanent operation, caused by the fundamental wave plus harmonics in the system. For all data given in this catalogue, capacitor and - as a result - reduced lifetime or premature failure. Permanent excess current may even result in failure of the capacitor’s safety mechanisms, i.e. bursting or fire. we are assuming a 10% increase of the fundamental current, resulting from voltage tolerances as permitted by DIN EN 50160. 6 8
