Explore our initial segment of heavy-duty power supplies, custom UAV cells, high-pitch connectors, and critical sub-assembly components built to global standards.
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Multi-rotors require immense peak current (high discharge C-rate) during takeoff, gust stabilization, and sudden vertical maneuvers. Custom chemistry solutions must deliver up to 25C continuous and 50C burst discharge speeds without risking voltage sag or thermal instability.
Every gram matters. By focusing on silicon-anode development and semi-solid-state designs, we push structural cell energy density past 270 Wh/kg. This translates to an immediate 15% to 30% increase in airborne hover times compared to standard off-the-shelf lithium-ion cells.
Industrial flight controllers rely on accurate fuel gauge readouts (SMBus, I2C, or CANbus protocols). Our custom-engineered Battery Management Systems offer real-time health diagnostics, cycle tracking, single-cell voltage monitoring, and safe storage discharge capabilities.
Dynalink is committed to pushing the boundaries of UAV energy storage. Our technical roadmap details our milestones in migrating from conventional high-discharge LiPo chemistry to solid-state flight platforms.
Optimizing battery internal resistance (IR) via advanced tab welding and pairing them with our high-reliability gold-plated connectors (such as the VPX and 80X series) to minimize system-level voltage drops and maximize motor power transfer.
Incorporating nanostructured silicon into graphite anodes. This step increases theoretical capacity by 20%, resulting in longer flight times for delivery and mapping drones operating at 12S/14S and high voltage configurations.
Transitioning from liquid organic electrolytes to gel and semi-solid polymer matrices. This technological shift virtually eliminates the risk of thermal runaway and fire hazards in critical aerospace environments.
Achieving energy densities exceeding 400 Wh/kg with a stable solid electrolyte. This development provides next-generation eVTOL platforms, military reconnaissance drones, and robotics with long-lasting battery life.
We provide high-quality power systems, energy storage capacitors, and connectors, backed by a comprehensive customized development system and full-lifecycle support.
Our products ensure efficient battery charging and discharging, high peak-current distribution, and the overall stability of high-voltage drone flight control computers.
Our high-speed connectors and stable backplane power systems ensure low-loss transmission of massive amounts of data and the reliable operation of network servers.
Connectors with high ingress protection (IP ratings) and precision power supplies provide robust support for robotic automation and control equipment operating in harsh industrial environments.
Using our proprietary, self-developed intelligent design platform, we quickly turn customized battery form factors, cell chemistries, and custom BMS layouts from design files into physical prototypes.
We continuously invest in solid-state battery R&D, push the energy limits of high-voltage compensation capacitors, and design micro-pitch, high-current board-to-board connectors.
Our logistics support handles everything from UN38.3 testing and MSDS documentation to safe transport box packaging and global door-to-door lithium battery logistics.
Our production and design facilities undergo regular ISO and third-party audits to ensure all products comply with international standards.
Find answers to technical questions about customizing, importing, and integrating our industrial quadcopter drone battery packs and high-power connectors.
Explore the rest of our product range, featuring jump starters, high-pitch connectors, self-healing capacitors, and home energy storage systems.
Dynalink Electronic
