High-reliability power cells and circular interconnect systems optimized for extreme duty cycles.
Supercapacitors rated at 10,000 Farads (10000F) represent the pinnacle of high-rate energy discharge. Operating on the principles of Electrochemical Double-Layer Capacitance (EDLC), these energy cells utilize advanced carbon-based electrodes. They leverage electrostatic fields to store energy dynamically rather than using chemical reactions, which are prone to degradation.
Compared to conventional lead-acid or lithium-ion batteries, a 10000F supercapacitor offers an almost unlimited cycle life (often exceeding 1,000,000 cycles) and operates reliably in extreme temperature environments ranging from -40°C to +85°C. This makes them crucial for peak power shaving, heavy industrial regenerative braking, and mission-critical backup power infrastructure.
By drastically reducing Equivalent Series Resistance (ESR), our engineered cells optimize efficiency. This design ensures instant power delivery when milliseconds count, bridging the critical gap between high-power demands and traditional long-term storage energy systems.
Why industrial procurement departments choose Dynalink Electronic Technology Co., Ltd.
Our proprietary organic electrolyte formulations limit internal resistance. This minimizes heat generation and maximizes efficiency during high-rate charging and discharging cycles.
Built-in active BMS modules continuously monitor cell voltage across stack configurations. This prevents localized overvoltage conditions and extends module lifespan.
Engineered for endurance, our 10000F units withstand more than one million duty cycles. This design offers a low total cost of ownership (TCO) compared to chemical batteries.
Dynalink Electronic Technology Co., Ltd (DL), established in 2007, currently has a workforce of over 800 employees, among which more than 200 are technical staff. We are a technology-driven design and manufacturing company specializing in power supplies, energy storage capacitors, and connectors.
With continuous investment in research and development and strong innovation capabilities, the company has built a complete industrial chain. This encompasses materials research and development, product design, and precision manufacturing.
Thanks to the advantages of high reliability and excellent performance, its products are widely used in key fields. These include aviation, aerospace, shipping, railways, new energy vehicles, the medical industry, drones, and robots, providing customized solutions for global customers.
Seamless integration of raw materials, automated manufacturing, and competitive pricing.
We source high-purity activated carbon and specialized electrolytes directly from regional suppliers. This vertical integration keeps costs low and mitigates global shipping risks.
Our facility operates state-of-the-art winding, laser welding, and automated inspection lines. This ensures consistent cell properties and helps prevent unexpected failures in the field.
We adapt our manufacturing systems to construct custom modules. This allows us to scale cells into configurations optimized for specific voltage and footprint requirements.
Leveraging years of technical experience to deliver integrated, high-reliability system solutions.
In the field of drones, our power systems and advanced connectors ensure efficient battery charging and discharging, supporting stable flight operations under dynamic loads.
For data centers, high-speed connectors and stable power supply components ensure low-loss transmission of massive amounts of data and reliable operation of hardware infrastructure.
In industrial automation scenarios, connectors with high protection performance and precision power systems provide solid support for equipment operating in complex environments.
Relying on our self-developed intelligent design platform, we quickly respond to customer requests, delivering integrated solutions that span from individual components to complex systems.
Looking ahead, Dynalink remains committed to continuous technological innovation. We aim to drive industry upgrades by integrating advanced power management into diverse technical fields.
We research new active carbon materials, testing hybrid electrochemical designs to increase the energy density limits of modern double-layer capacitors.
How we maintain quality standards across our technical design and manufacturing teams.
We aim to empower life with technology and create a sustainable future. We focus on practicing integrity, innovation, collaboration, and mutual growth.
We foster a supportive, unified working atmosphere. We support professional growth with structured training programs and career development paths.
Focused on batteries, capacitors, and connectors, we push technological boundaries, researching solid-state batteries and high-precision connection systems.
Strict compliance with global quality, environmental, and occupational safety frameworks.
ISO14001:2015 Environmental System
ISO9001:2015 Quality System
ISO45001:2018 Health & Safety
Compliance Certificate A
Compliance Certificate B
Ensuring cross-border compliance, efficient delivery, and seamless integration with localized technical assistance.
Our products comply with RoHS, REACH, CE, and UL810A. We handle international trade documentation, customs clearance, and hazardous material classification for supercapacitor electrolytes, ensuring smooth delivery to your destination.
We provide localized technical assistance through engineering centers in the United States, Europe, and Southeast Asia. These offices offer integration support, troubleshooting, and active balancing system calibration.
We maintain buffer inventories at major regional ports. This allows us to offer short lead times for replacement modules, supporting your just-in-time manufacturing schedules.
The global demand for large energy storage systems is shifting from chemical battery storage to hybrid models. Integrating supercapacitors with lithium-ion setups reduces thermal stress on battery chemistries, extending operational life.
Additionally, green energy mandates require wind turbine pitch control systems to replace hydraulic power with electric systems. Here, 10000F supercapacitors provide high energy density and reliability in sub-zero offshore environments.
As microgrids expand, supercapacitors are increasingly used to stabilize localized voltage dips caused by fluctuations in solar and wind power generation, supporting grid stability.
Large OEM buyers prioritize custom physical dimensions and termination options, such as M12 threaded studs or laser-weldable tabs. Choosing a manufacturer that offers tailored housing designs simplifies system integration.
Our engineering services specialize in custom busbar designs and structural enclosures with IP67 sealing. This makes them suitable for harsh industrial conditions, marine systems, and mining environments.
Additionally, we supply complete diagnostic reports, including galvanostatic charge-discharge (GCD) curves and ESR tests, for every production batch. This ensures full traceability for quality audits.
Answers to common engineering and procurement questions regarding double-layer capacitors.
Single EDLC cells generally operate between 2.7V and 3.0V. To support higher-voltage applications (such as 24V, 48V, or 125V systems), we connect cells in series within a module. This configuration includes an active balance management system (BMS) to ensure even voltage distribution across all cells.
Our supercapacitors use advanced organic electrolytes that operate reliably from -40°C to +65°C, with custom variants supporting up to +85°C. Operating at high temperatures accelerates aging, whereas lower temperatures increase internal resistance (ESR). We mitigate this through thermal-isolating enclosures and active ventilation designs.
We measure Equivalent Series Resistance (ESR) using both AC impedance (at 1 kHz) and DC discharge methods under controlled thermal conditions. This ensures that every shipped cell matches our low-resistance specifications, supporting high-current efficiency.
Custom prototypes generally require 4 to 6 weeks for design approval and cell matching. Mass production and shipment takes an additional 6 to 8 weeks. We offer air freight options for critical engineering prototypes to help accelerate your project timelines.
Yes, they should be processed through standard battery recycling channels, even though they contain no heavy metals like lead or cadmium. Our materials are fully compliant with RoHS and REACH standards to ensure safe end-of-life disposal.
Our manufacturing facilities operate under strict ISO9001:2015 control guidelines. We utilize automated optical inspection (AOI), online helium leak detection, and computerized cell matching. This ensures that every module has uniform electrical properties.
High-performance circular interfaces and energy storage units for harsh operating environments.
Dynalink Electronic