LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Inverter-use screw terminal, 85C RWY Low price version High ripple capability Endurance with ripple current : 5,000 hours at 85C RWG RWF RWE Wide range of case sizes from F50 to F100 Downsized Longer life RoHS Compliant SPECIFICATIONS Items Characteristics Category -25 to +85C Temperature Range Rated Voltage Range 350 to 450Vdc Capacitance Tolerance P20% (M) (at 20C, 120Hz) Leakage Current I=0.02CV or 5mA, whichever is smaller. Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V) (at 20C after 5 minutes) Dissipation Factor 0.25 max. (tane) (at 20C, 120Hz) Low Temperature Capacitance change C(-25C)/C(+20C) 0.7 Characteristics (at 120Hz) Insulation Resistance When measured between the terminals that are connected to each other and to the mounting clamp on the insulating sleeve covering the case by using an insulation resistance meter of 500Vdc, the insulation resistance shall not be less than 100MO. Insulation When a voltage of 2,000Vac is applied for 1 minute between the terminals that are connected to each other and to the mounting clamp Withstanding Voltage on the insulating sleeve covering the case, there shall not be electrical damage. Endurance The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated ripple current is applied for 5,000 hours at 85C. Capacitance change P20% of the initial value D.F. (tanE) 200% of the initial specified value Leakage current The initial specified value Shelf Life The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 500 hours at 85C without voltage applied. Before the measurement, the capacitor shall be preconditioned by applying voltage according to Item 4.1 of JIS C 5101-4. Capacitance change P20% of the initial value D.F. (tanE) 200% of the initial specified value Leakage current The initial specified value DIMENSIONS (Screw-Mount) mm Terminal Code : LG Mounting Clamp Code : B Mounting Clamp Code : C 360 AP1 <Screw speci cations> 3 WP1 F50 to F89 Sleeve (Pb-free PVC : Black) Plus hexagon-headed screw : M5B0.8B10 45P5 Maximum screw tightening torque : 6 3.23Nm 30P5 F100 8 L+4max. GP1 Cross-recessed head (phillips) J Plastic disk screw : M8B1.25B16 fD A B W F fD E K F J Spring washer 50 78.0 64.0 68.0 22.4 50 32.5 37.0 22.4 14.0 F50 & F63.5 : G=6 63.5 90.0 76.0 80.0 28.0 63.5 38.1 43.5 28.0 14.0 Washer F76.2 & F89 : G=5 76.2 104.5 90.0 93.5 31.5 76.2 44.5 50.0 31.5 14.0 Maximum screw tightening torque : F100 : G=10 89 50.8 56.5 31.5 16.0 6.31Nm 100 56.5 63.4 41.5 18.0 * The screw and the mounting clamp are separately supplied and not attached to the product. PART NUMBERING SYSTEM 132645178910 11213 14 15 16 17 18 E R W F A A A L G N A A A M A A A M Supplement code Size code Capacitance tolerance code Capacitance code (ex. 6,800MF:682, 12,000MF:123) Mounting clamp code (N, B, C) Terminal code Voltage code (ex. 350V:351, 400V:401) Series code Category Please refer toProduct code guide (screw-mount terminal type (1/2) CAT. No. E1001K FP1 FD+1.8max. 4.5 BP1 KP1 EP1 4.5LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Inverter-use screw terminal, 85C STANDARD RATINGS Rated ripple Rated ripple WV Cap Case size current WV Cap Case size current tane Part No. tane Part No. (Vdc) (mF) fDbL(mm) (Arms/ (Vdc) (mF) fDbL(mm) (Arms/ 85c,120Hz) 85c,120Hz) 1,200 50B 60 0.25 4.90 ERWF351LGC122MC60M 5,600 63.5B 190 0.25 18.2 ERWF401LGC562MDK0M 1,800 50B 75 0.25 6.50 ERWF351LGC182MC75M 5,600 76.2B 130 0.25 16.9 ERWF401LGC562MED0M 2,200 50B 85 0.25 7.50 ERWF351LGC222MC85M 6,800 76.2B 155 0.25 20.2 ERWF401LGC682MEF5M 2,200 50B 96 0.25 7.70 ERWF351LGC222MC96M 8,200 76.2B 170 0.25 22.8 ERWF401LGC822MEH0M 400 2,700 50B 115 0.25 9.30 ERWF351LGC272MCB5M 10,000 89B 155 0.25 26.6 ERWF401LGC103MFF5M 3,300 50 130 0.25 10.8 ERWF351LGC332MCD0M 12,000 89 170 0.25 30.0 ERWF401LGC123MFH0M B B 3,900 63.5 115 0.25 12.1 ERWF351LGC392MDB5M 15,000 100 190 0.25 33.7 ERWF401LGC153MGK0M B B 4,700 63.5 130 0.25 14.0 ERWF351LGC472MDD0M B 18,000 100B 220 0.25 37.4 ERWF401LGC183MGN0M 5,600 63.5B 155 0.25 16.6 ERWF351LGC562MDF5M 820 50B 60 0.25 4.00 ERWF451LGC821MC60M 350 5,600 76.2B 115 0.25 16.1 ERWF351LGC562MEB5M 1,000 50B 75 0.25 4.80 ERWF451LGC102MC75M 6,800 63.5B 190 0.25 20.0 ERWF351LGC682MDK0M 1,200 50B 85 0.25 5.60 ERWF451LGC122MC85M 6,800 76.2B 130 0.25 18.6 ERWF351LGC682MED0M 1,200 50B 96 0.25 5.70 ERWF451LGC122MC96M 8,200 76.2B 155 0.25 22.2 ERWF351LGC822MEF5M 1,500 50B 96 0.25 6.30 ERWF451LGC152MC96M 10,000 76.2B 170 0.25 25.2 ERWF351LGC103MEH0M 1,800 50B 115 0.25 7.60 ERWF451LGC182MCB5M 12,000 89B 155 0.25 29.1 ERWF351LGC123MFF5M 2,200 50B 130 0.25 8.80 ERWF451LGC222MCD0M 15,000 89B 190 0.25 35.7 ERWF351LGC153MFK0M 2,700 63.5B 115 0.25 10.1 ERWF451LGC272MDB5M 18,000 100B 190 0.25 36.9 ERWF351LGC183MGK0M 3,300 63.5B 130 0.25 11.7 ERWF451LGC332MDD0M 22,000 100B 250 0.25 46.1 ERWF351LGC223MGR0M 450 3,900 63.5B 155 0.25 13.8 ERWF451LGC392MDF5M 1,000 50B 60 0.25 4.40 ERWF401LGC102MC60M 3,900 76.2B 115 0.25 13.4 ERWF451LGC392MEB5M 1,500 50B 75 0.25 5.90 ERWF401LGC152MC75M 4,700 63.5B 190 0.25 16.7 ERWF451LGC472MDK0M 1,800 50 85 0.25 6.80 ERWF401LGC182MC85M 4,700 76.2 130 0.25 15.5 ERWF451LGC472MED0M B B 1,800 50 96 0.25 7.00 ERWF401LGC182MC96M 5,600 76.2 155 0.25 18.3 ERWF451LGC562MEF5M B B 2,200 50B 105 0.25 8.00 ERWF401LGC222MCA5M 6,800 76.2B 170 0.25 20.7 ERWF451LGC682MEH0M 400 2,700 50B 130 0.25 9.80 ERWF401LGC272MCD0M 8,200 89B 155 0.25 24.1 ERWF451LGC822MFF5M 3,300 63.5B 115 0.25 11.1 ERWF401LGC332MDB5M 10,000 89B 170 0.25 27.8 ERWF451LGC103MFH0M 3,900 63.5B 130 0.25 12.7 ERWF401LGC392MDD0M 12,000 100B 190 0.25 29.3 ERWF451LGC123MGK0M 4,700 63.5B 155 0.25 15.2 ERWF401LGC472MDF5M 15,000 100B 250 0.25 37.0 ERWF451LGC153MGR0M 4,700 76.2B 115 0.25 14.7 ERWF401LGC472MEB5M RATED RIPPLE CURRENT MULTIPLIERS Frequency Mul ti pli ers Frequency (Hz) 50 120 300 1k 3k Coefficient 0.8 1.0 1.1 1.3 1.4 Note : The endurancce of capacitors is reduced with internal heating produced by ripple current at the rate of halving the lifetime with every 5 to 10C rise. When long life performance is required in actual use, the rms ripple current has to be reduced. Also, for the RWF series capacitors, using them at operating voltage less than their rated voltage can extend their lifetime. For details, please contact a rep re sen ta tive of Nippon Chemi-Con. (2/2) CAT. No. E1001K