GENERAL TECHNICAL DATA ELECTRICAL DATA DIMENSION (mm) CAPACITANCE VALUE

ELECTRICAL DATA Nominal voltage(Vn) : 63 Vdc-100Vdc-250Vdc-400Vdc Category voltage(Vc) : Up to 105°C V = Vn For temperature between 105°C and +120°C a decreasing factor of 1.25% per degree °C on the nominal voltage Vn has to be applied. Capacitance range : 0.001 µF to 1 µF Capacitance values : Values in compliance with IEC 63 Norm. E6 series Capacitance tolerances (at 1KHz) : ±5%, ±10%, ±20% Total self inductance : ∫∫ 7nH Dissipation factor(DF) : tgδ± x 10-4 at +25°C ±5°C  KHz C<0.1µF C>0.1µF 1 <100 <100 10 <150 <150 100 <300   Insulation resistance : Temperature Test condition : +25°C ±5°C Voltage charge time : 1 minute Votage charge : 50 Vdc for Vn 100 Vdc, 100Cdc for Vn=100Vdc 10,000MΩ for C 0.1µF(5.104MΩ) (*) F 1,000sec. for C 0.1µF(5,000sec.) (*) Test voltage between terminals : 1.6 x Vn applied for 2sec. at +25°C ±5°C(*) Typical value Maximum pulse rise time(dv/dt) : Vn C(pF) (V/ x µsec. 100Vdc C≤3300 30   3300≤C≤6800 15   C>6800 10 63Vdc   8 50Vdc   4 If the working voltage(V) is lower than nominal voltage(Vn), the capacitor can work at higher dv/dt. In this case the maximum valur allowed is obtained by multiplying the above value(see table) with the ratio Vn / V Soldering : Test Condition Performance Soldering temperature +260°C ±5°C Capacitance change ¥ÄC/C ±2% Soldering duration 5sec. ±1sec. DF change ¥Ä tg¥ä 30·10-4 at 10KHz     Insulation resistance limit value Damp heat test : Test Condition Performance Temperature +40°C Capacitance change ¥ÄC/C ±5% Relative humidity 93% ±2% Dissipation factor change¥Ä tg¥ä 50·10-4 at 1KHz Test duration 21 days Insulation resistance 50% of limit value Lift test : Test Condition Performance Temperature +105°C Capacitance change ¥ÄC/C ±5% Test duration 1000 Hours DF change ¥Ä tg¥ä 50·10-4 at 1KHz Voltage applied 1.25 x Vn Insulation resistance 50% of limit value Long term stability : Test Condition Performance Storage Standard environmental conditions Capacitance change ¥ÄC/C ±3%