ALUMINUM ELECTROLYTIC CAPACITORS NC Screw Terminal Type, 85°C Smaller-sized Higher ripple current series Suited for use in industrial power supplies for inverter circuritry, etc. Load life 5000 hours application of ripple current at 85°C. Smaller sized / High ripple current than NX, NK series. Coped with loading of high speed charge-discharge. Suited for high frequency regenerative voltage for AC servomotor, general inverter. speed Compliant to the RoHS directive (2002/95/EC). QR High charge-discharge NX NK Smaller High ripple NC Specifications Item Performance Characteristics Category Temperature Range Rated Voltage Range Rated Capacitance Range – 40 to +85°C Capacitance Tolerance ± 20% at 120Hz, 20°C Leakage Current After 5 minutes' application of rated voltage, leakage current is not more than 3 CV (µA) or 5 mA, whichever is smaller (at 20°C). [C : Rated Capacitance(µF), V : Voltage ( V ) ] Tangent of loss angle (tan δ) 0.20MAX. (120Hz, 20°C) 350 to 500V 1000 to 22000µF Rated voltage (V) Stability at Low Temperature Measurement frequency : 120Hz 350 to 500 Z – 40°C / Z+20°C 8 Impedance ratio ZT/Z20(MAX.) Insulation Resistance Voltage proof The insulation resistance shall be more than 100MΩ at DC 500V application between terminal and bracket. There is no abnormality during AC 2500V 1 minute's application between terminal and bracket. Endurance The specifications listed at right shall be met when the capacitors are restored to 20°C after D.C. bias plus rated ripple current is applied for 5000 hours at 85°C, the peak voltage shall not exceed the rated voltage. Capacitance change tan δ Leakage current Within ±20% of the initial capacitance value 200% or less than the initial specified value Less than or equal to the initial specified value Shelf Life After storing the capacitors under no load at 85°C for 1000 hours and then performing voltage treatment based on JIS C 5101-4 clause 4.1 at 20°C, they shall meet the reguirements listed at right. Capacitance change tan δ Leakage current Within ±20% of the initial capacitance value 200% or less than the initial specified value Less than or equal to the initial specified value Endurance of chargedischarge behavior After an application of charge-discharge voltage for 50million times (charge-discharge voltage difference(∆V)=rated voltage × 0.3, cycle 3Hz)capacitors shell meet the characteristics requirement listed at right. Marking Printed with white color letter on black sleeve. Drawing Hexagenal headed bolt Bottom plate 0° 12 Capacitance change tan δ Leakage current Within ±20% of the initial capacitance value 200% or less than the initial specified value Less than or equal to the initial specified value Type numbering system (Example : 400V 10000µF) Sleeve 1 Pressure relief vent 2 3 4 5 6 7 8 9 10 11 12 13 14 L NC 2 G 1 0 3 M S E H W±1 D +2MAX. Mounting bracket (φ 51 to φ 90) Case dia. code Configuration S P±2 h B H±1 U A±2 Rated capacitance (10000µF) U S Series name Type P T B 3-leg brackets for φ90 capacitors have different hole shapes from the ordinary ones illustrated below. P Configuration SE TE standard specifications stud mount type 5 Please refer to page 293 for schematic of dimensions. Please contact to us if PVC less products are required. 7 Pressure relief vent Note) The terminal bolts and mounting brackets will be delivered 30° Dimension of terminal pitch (W) and length (R) and Nominal dia.of bolt φD 51 63.5 76.2 90 100 Code less 3-leg brackets 2-leg brackets BB No brackets BN Rated voltage (400V) ±1 MAX. A±2 L+ Capacitance tolerance (±20%) T φD Code F 51 63.5 G 76.2 H J 90 W 22.0 28.6 31.8 31.8 41.5 R 6 6 6 6 10 α 3 3 3 3 4 (mm) Nominal dia. of bolt M5 M5 M5 M5 M8 Dimensions of mounting bracket Leg shape 3--Leg φD Symbol P A T S U ° H h 51 33.2 40 6.0 4.5 14 30 25 15 63.5 40.5 46.5 7.0 4.5 14 30 35 20 76.2 46.5 53 6.0 4.5 14 30 35 20 (mm) 2--Leg 90 53 59 6.0 4.5 14 30 35 20 51 32.5 38.5 7.5 5.0 12 60 20 15 63.5 38.1 43 8.0 5.0 14 60 25 20 76.2 44.5 49.2 7.0 5.0 14 60 30 24 90 50.8 58.5 8.0 5.0 18 60 35 25 Dimension table in next page. CAT.8100Z-2 ALUMINUM ELECTROLYTIC CAPACITORS NC series Dimensions Cap. (µF) 1000 350V(2V) Size Rated ripple tan δ φD × L(mm) (Arms) 8.4 0.20 51 × 55 1.77 LNC2V102MSEF Cap. (µF) 1000 Leakage Current (mA) Code 400V(2G) Size Rated ripple tan δ φD × L(mm) (Arms) 8.6 0.20 51 × 60 Leakage Current Code (mA) 1.90 LNC2G102MSEF 1200 51 × 60 8.6 0.20 1.94 LNC2V122MSEF 1200 51 × 65 9.3 0.20 2.08 LNC2G122MSEF 1500 51 × 65 9.3 0.20 2.17 LNC2V152MSEF 1500 51 × 80 10.8 0.20 2.32 LNC2G152MSEF 1800 51 × 75 10.3 0.20 2.38 LNC2V182MSEF 1800 51 × 85 12.0 0.20 2.55 LNC2G182MSEF 2200 51 × 85 11.9 0.20 2.63 LNC2V222MSEF 51 × 100 13.0 0.20 2.81 LNC2G222MSEF 51 × 95 13.3 0.20 2.92 LNC2V272MSEF 63.5 × 70 12.8 0.20 2.81 LNC2G222MSEG 63.5 × 70 13.7 0.20 2.92 LNC2V272MSEG 63.5 × 80 14.5 0.20 3.12 LNC2G272MSEG 13.6 0.20 3.22 LNC2V332MSEF 76.2 × 65 14.3 0.20 3.12 LNC2G272MSEH 63.5 × 80 14.0 0.20 3.22 LNC2V332MSEG 63.5 × 90 14.9 0.20 3.45 LNC2G332MSEG 63.5 × 85 14.9 0.20 3.50 LNC2V392MSEG 76.2 × 70 15.3 0.20 3.45 LNC2G332MSEH 76.2 × 70 14.3 0.20 3.50 LNC2V392MSEH 63.5 × 100 16.5 0.20 3.75 LNC2G392MSEG 63.5 × 100 16.4 0.20 3.85 LNC2V472MSEG 76.2 × 80 17.1 0.20 3.75 LNC2G392MSEH 76.2 × 80 15.7 0.20 3.85 LNC2V472MSEH 63.5 × 120 18.8 0.20 4.11 LNC2G472MSEG 63.5 × 115 18.1 0.20 4.20 LNC2V562MSEG 76.2 × 90 18.3 0.20 4.11 LNC2G472MSEH 76.2 × 90 17.6 0.20 4.20 LNC2V562MSEH 63.5 × 135 20.9 0.20 4.49 LNC2G562MSEG 63.5 × 135 20.3 0.20 4.63 LNC2V682MSEG 76.2 × 100 20.2 0.20 4.49 LNC2G562MSEH 76.2 × 100 19.7 0.20 4.63 LNC2V682MSEH 63.5 × 165 23.8 0.20 4.95 LNC2G682MSEG 76.2 × 115 22.2 0.20 5.00 LNC2V822MSEH 76.2 × 120 23.1 0.20 4.95 LNC2G682MSEH 90 × 90 24.2 0.20 5.00 LNC2V822MSEJ 90 × 90 26.3 0.20 4.95 LNC2G682MSEJ 76.2 × 135 25.2 0.20 5.00 LNC2V103MSEH 76.2 × 145 26.1 0.20 5.00 LNC2G822MSEH 90 × 100 27.1 0.20 5.00 LNC2V103MSEJ 90 × 105 29.5 0.20 5.00 LNC2G822MSEJ 76.2 × 155 28.2 0.20 5.00 LNC2V123MSEH 76.2 × 165 29.5 0.20 5.00 LNC2G103MSEH 90 × 120 30.1 0.20 5.00 LNC2V123MSEJ 90 × 120 33.2 0.20 5.00 LNC2G103MSEJ 15000 90 × 145 35.4 0.20 5.00 LNC2V153MSEJ 12000 90 × 145 37.1 0.20 5.00 LNC2G123MSEJ 18000 90 × 165 39.2 0.20 5.00 LNC2V183MSEJ 15000 90 × 185 42.9 0.20 5.00 LNC2G153MSEJ 22000 90 × 205 43.4 0.20 5.00 LNC2V223MSEJ 18000 90 × 205 48.2 0.20 5.00 LNC2G183MSEJ 2700 3300 3900 4700 5600 6800 8200 10000 12000 Cap. (µF) 1000 51 × 115 450V(2W) Size Rated ripple tan δ φD × L(mm) (Arms) 9.3 0.20 51 × 70 2200 2700 3300 3900 4700 5600 6800 8200 10000 2.01 LNC2W102MSEF Cap. (µF) 1000 Leakage Current (mA) Code 500V(2H) Size Rated ripple tan δ φD × L(mm) (Arms) 10.3 0.20 51 × 85 Leakage Current Code (mA) 2.12 LNC2H102MSEF 1200 51 × 80 9.9 0.20 2.20 LNC2W122MSEF 1200 63.5 × 70 10.4 0.20 2.32 LNC2H122MSEG 1500 51 × 90 10.4 0.20 2.46 LNC2W152MSEF 1500 63.5 × 80 11.6 0.20 2.60 LNC2H152MSEG 51 × 105 11.5 0.20 2.70 LNC2W182MSEF 1800 63.5 × 90 12.7 0.20 2.85 LNC2H182MSEG 63.5 × 70 11.9 0.20 2.70 LNC2W182MSEG 2200 63.5 × 100 14.2 0.20 3.15 LNC2H222MSEG 63.5 × 85 12.3 0.20 2.98 LNC2W222MSEG 2700 76.2 × 90 15.8 0.20 3.49 LNC2H272MSEH 76.2 × 65 12.5 0.20 2.98 LNC2W222MSEH 3300 76.2 × 105 17.8 0.20 3.85 LNC2H332MSEH 63.5 × 90 13.7 0.20 3.31 LNC2W272MSEG 3900 76.2 × 120 19.9 0.20 4.19 LNC2H392MSEH 76.2 × 75 13.7 0.20 3.31 LNC2W272MSEH 4700 90 × 105 23.6 0.20 4.60 LNC2H472MSEJ 63.5 × 115 15.6 0.20 3.66 LNC2W332MSEG 5600 90 × 120 26.4 0.20 5.00 LNC2H562MSEJ 76.2 × 85 15.5 0.20 3.66 LNC2W332MSEH 6800 90 × 145 30.0 0.20 5.00 LNC2H682MSEJ 63.5 × 135 17.3 0.20 3.97 LNC2W392MSEG 8200 90 × 165 33.7 0.20 5.00 LNC2H822MSEJ 76.2 × 90 17.0 0.20 3.97 LNC2W392MSEH 10000 90 × 205 38.3 0.20 5.00 LNC2H103MSEJ 63.5 × 145 19.2 0.20 4.36 LNC2W472MSEG 76.2 × 115 19.2 0.20 4.36 LNC2W472MSEH 63.5 × 165 21.4 0.20 4.76 LNC2W562MSEG 76.2 × 135 21.6 0.20 4.76 LNC2W562MSEH 90 × 95 24.2 0.20 4.76 LNC2W562MSEJ 76.2 × 145 23.8 0.20 5.00 LNC2W682MSEH 1800 2200 2700 3300 3900 4700 5600 6800 90 × 115 27.5 0.20 5.00 LNC2W682MSEJ 76.2 × 185 27.2 0.20 5.00 LNC2W822MSEH 90 × 135 30.5 0.20 5.00 LNC2W822MSEJ 10000 90 × 155 34.1 0.20 5.00 LNC2W103MSEJ 12000 90 × 185 38.2 0.20 5.00 LNC2W123MSEJ 15000 90 × 215 43.1 0.20 5.00 LNC2W153MSEJ 8200 Rated ripple current (Arms) at 85°C 120Hz Frequency coefficient of rated ripple current Frequency (Hz) Coefficient 50 0.80 60 0.82 120 1.00 360 1.20 1k 1.35 10k or more 1.40 CAT.8100Z-2