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    Researchers Demonstrated High Energy Ceramic Capacitors Stable in Wide Temperature Range

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    Qualification of Commercial Supercapacitors for Space Applications

    Experimental Evaluation of Wear Failures in SMD Inductors

    Resonant Capacitors in High-Power Resonant Circuits

    a Schematic diagram of the BNT-based components constructed based on the entropy-increase strategy. b Digital photograph, cross-sectional SEM image, and EDS mappings of the MLCCs. c Unipolar P-E loops of MLCCs as a function of applied E. d Wrec and η of the MLCCs as a function of applied E. The comparison of (e) Wrec and η, (f) η and UF of the MLCCs with those of other recently reported state-of-the-art MLCCs. source: Nature Communications

    Researchers Proposed Enhanced Energy Storage MLCC

    Littelfuse Releases First Reflow-Compatible Illuminated Tactile Switch

    Vishay Unveils 5W Power Metal Strip Resistor in Compact 1206 Case Size

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    Researchers Demonstrated High Energy Ceramic Capacitors Stable in Wide Temperature Range

    Stackpole Offers High Voltage Plate Resistors up to 40KV

    How to Manage Supercapacitors Leakage Current and Self Discharge 

    Qualification of Commercial Supercapacitors for Space Applications

    Experimental Evaluation of Wear Failures in SMD Inductors

    Resonant Capacitors in High-Power Resonant Circuits

    a Schematic diagram of the BNT-based components constructed based on the entropy-increase strategy. b Digital photograph, cross-sectional SEM image, and EDS mappings of the MLCCs. c Unipolar P-E loops of MLCCs as a function of applied E. d Wrec and η of the MLCCs as a function of applied E. The comparison of (e) Wrec and η, (f) η and UF of the MLCCs with those of other recently reported state-of-the-art MLCCs. source: Nature Communications

    Researchers Proposed Enhanced Energy Storage MLCC

    Littelfuse Releases First Reflow-Compatible Illuminated Tactile Switch

    Vishay Unveils 5W Power Metal Strip Resistor in Compact 1206 Case Size

    Trending Tags

    • Ripple Current
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    • Tantalum vs Ceramic
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    Efficient Power Converters: Duty Cycle vs Conduction Losses

    Ripple Steering in Coupled Inductors: SEPIC Case

    SEPIC Converter with Coupled and Uncoupled Inductors

    Coupled Inductors in SEPIC versus Flyback Converters

    Non-Linear MLCC Class II Capacitor Measurements Challenges

    Percolation Phenomenon and Reliability of Molded Power Inductors in DC/DC converters

    Root Causes and Effects of DC Bias and AC in Ceramic Capacitors

    How to Calculate the Output Capacitor for a Switching Power Supply

    Switched Capacitor Converter Explained

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Advancing Energy Solutions: The Technical Landscape of VINATech Supercapacitor Modules

17.6.2025
Reading Time: 3 mins read
A A

VINATech has been working with some of the world’s biggest technological giants to develop the ultimate supercapacitor pack solutions which include the world’s most cutting-edge software and hardware systems such as Supercapacitor Cell Management and Control Systems applicable for hundreds of thousands of supercapacitor cells.

Having the 1st comer’s advantage, VINATech has already started testing its new supercapacitor module technology systems in fuel cell hydrogen vehicles, FR ESS systems, AGVs, etc., collaborating with the world’s biggest companies with the mission to lead our world towards a safe and eco-friendly future.

RelatedPosts

VINATech Supercapacitors Enhance Automotive Safety with Reliable E-Latch Emergency Power

VinaTech Supercapacitors: Enhancing Smart Meter Reliability and Efficiency

Supercapacitors, also known as ultracapacitors, are advanced energy storage devices that store electric charge through physical adsorption and desorption mechanisms, contrasting traditional chemical-based batteries. This results in environmentally friendly, durable, and high-power energy solutions.

Key Characteristics:

  • Eco-Friendly Composition: Utilizes activated carbon electrodes without harmful chemicals.
  • High Power Density: Delivers over 50 times the power output of conventional batteries.
  • Extended Lifespan: Capable of 500,000 to 1 million charge-discharge cycles.
  • Wide Temperature Range: Operates efficiently from -40°C to 85°C.

Supercapacitor Modules by VINATech

VINATech designs and manufactures various supercapacitor modules, combining cells in series or parallel configurations to meet specific application needs.

Module Types:

  1. PCP Board Assembly Type: Features automated assembly for high productivity.
  2. Cylindrical Busbar Type: Offers low internal resistance and superior vibration resistance, ideal for automotive use.
  3. Pouch Type: Maximizes energy density relative to volume, suitable for space-constrained applications.

Applications of VINATech Supercapacitor Modules

Supercapacitors are integral in applications requiring rapid power delivery and high efficiency:

  • Automotive: Supports peak power demands during vehicle start-up and as auxiliary power in hydrogen fuel cell cars.
  • Industrial Systems: Enhances AGV systems for logistics, pitch control in wind turbines, and power backup for servers.
  • Energy Storage: Complements lithium batteries in FR-ESS to stabilize frequency in large-scale energy systems.

Technical Innovations

VINATech applies cutting-edge technologies to enhance module performance:

  • Ultra-Low Resistance Assembly: Achieves efficient power flow through advanced busbar welding techniques.
  • Thermal Management: Ensures optimal performance under varying environmental conditions.
  • Hybrid Module Control: Integrates battery and supercapacitor management for balanced power delivery.

Future Outlook

VINATech is committed to advancing eco-friendly mobility and energy solutions:

  • Short-Term Goals (by 2025): Delivery of hydrogen fuel cell auxiliary modules and FR-ESS projects.
  • Long-Term Vision: Development of standard modules for drones, trams, UAMs, and hybrid control circuits.

Conclusion

VINATech’s dedication to research and development in supercapacitor and fuel cell technologies positions it at the forefront of the green energy revolution. By continuously innovating, VINATech aims to contribute significantly to sustainable energy solutions globally.

Related

Source: VinaTech

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a Schematic diagram of the BNT-based components constructed based on the entropy-increase strategy. b Digital photograph, cross-sectional SEM image, and EDS mappings of the MLCCs. c Unipolar P-E loops of MLCCs as a function of applied E. d Wrec and η of the MLCCs as a function of applied E. The comparison of (e) Wrec and η, (f) η and UF of the MLCCs with those of other recently reported state-of-the-art MLCCs. source: Nature Communications

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