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Polymer Hybrid Capacitors

The Unchanging Values Pursued by Vina Enesol

Products

Polymer Hybrid Capacitors

Conductive Polymer
Hybrid Aluminum Electrolytic
Capacitors

Vina Enesol’s hybrid capacitor (EneCap™) utilizes a solid electrolyte based on conductive polymer.
Thanks to this structure, EneCap™ fundamentally overcomes the chronic issues of liquid electrolyte systems such as high internal resistance, poor low-temperature performance, short lifespan, leakage, and explosion risks.

Catalog 2024_All

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Seriesrestart_alt Rated Voltage (V)restart_alt Capacitance(㎌)restart_alt Ripple Current (mArms)restart_alt ESR(mΩ)restart_alt Category temperature range(℃)restart_alt Endurancerestart_alt
Body shaperestart_alt Product diameter(mm)restart_alt Product height(mm)restart_alt Leakage Current[µA, max.]restart_alt Tangent of Loss Angel[max.]restart_alt Ripple Freq.restart_alt Vibration-proofrestart_alt
Part Number Series Rated Voltage (V) Capacitance(㎌) Ripple Current (mArms) ESR(mΩ) Category temperature range(℃) Endurance(hrs) DataSheet Product Inquiry
Body shape Product diameter(mm) Product height(mm) Leakage Current[µA, max.] Tangent of Loss Angel[max.] Ripple Freq. Vibration-proof

  • Applications

    A hybrid capacitor built for durability and reliability EneCap™

    Ideal for automotive components where safety and performance are critical, its high voltage, high temperature, high capacitance, and long lifespan characteristics make it highly expandable to various fields requiring durability and reliability such as industrial equipment and LED applications

    Product Features


    Excellent Ripple Noise Suppression with Low ESR at High Frequencies

    Through the electron conduction mechanism of conductive polymer, Vina Enesol’s polymer capacitors achieve significantly low ESR even in high-frequency ranges above 100kHz, enabling outstanding noise suppression and promoting PCB miniaturization.

    Fast High-Current Charge/Discharge Performance

    Meets the demands of high-current applications such as CPUs, DC/DC converters, and BMS circuits.

    Superior Heat Resistance

    EneCap™, based on solid electrolyte, offers excellent heat resistance and supports eco-friendly soldering methods, making it fully compatible with high-temperature reflow soldering environments.

    Long Lifespan, High Reliability, and Eco-Friendliness

    Guaranteed operation for 2,000 to 50,000 hours at 105–150°C

    Delivers stable and consistent performance across a wide temperature range (-55°C to 150°C)

    Free from organic solvents and rare metals, making it environmentally friendly

    비No Voltage Derating
    No Capacitance Derating

    Compared to tantalum capacitors, stable temperature characteristics result in no voltage derating and no ignition risk

    Compared to MLCCs, stable bias characteristics result in no capacitance derating