Typical applications include critical timing, tuning, circuits requiring low loss, circuits with pulse, high current, decoupling, bypass, filtering, transient voltage suppression, blocking and energy storage.
Compared with the aluminum electrolytic capacitors: higher insulation resistance and breakdown voltage, higher reliability; No polarity, easy installation; External pin, heat conduction; good heat dissipation, while reducing the impact of negative stress (environmental, mechanical stress, etc.), improve the reliability of use.
Compared with the aluminum electrolytic capacitors: higher insulation resistance and breakdown voltage, higher reliability; No polarity, easy installation; External pin, heat conduction; good heat dissipation, while reducing the impact of negative stress (environmental, mechanical stress, etc.), improve the reliability of use.
Compared with the aluminum electrolytic capacitors: higher insulation resistance and breakdown voltage, higher reliability; No polarity, easy installation; External pin, heat conduction; good heat dissipation, while reducing the impact of negative stress (environmental, mechanical stress, etc.), improve the reliability of use.
Compared with the aluminum electrolytic capacitors: higher insulation resistance and breakdown voltage, higher reliability; No polarity, easy installation; External pin, heat conduction; good heat dissipation, while reducing the impact of negative stress (environmental, mechanical stress, etc.), improve the reliability of use.
Compared with the aluminum electrolytic capacitors: higher insulation resistance and breakdown voltage, higher reliability; No polarity, easy installation; External pin, heat conduction; good heat dissipation, while reducing the impact of negative stress (environmental, mechanical stress, etc.), improve the reliability of use.