GaN-Powered Efficiency: MAGIX 20W PD Charger
Experience the future of high-speed charging with the MAGIX 20W USB-C PD Charger, driven by the prowess of GaN technology. With its potent 20W output and PD 3.0 technology, this charger ensures efficient device replenishment. For example, witness the magic as the iPhone 14 reaches 60% charge from 0% in just 30 minutes.
Powered by cutting-edge GaN Technology, this charger embodies innovation in a compact form. Enjoy enhanced performance with a 20% increase in operating frequency and an upgraded circuit board structure.
Universal Compatibility, Limitless Possibilities
Our MAGIX 20W USB-C GaN Charger takes compatibility to a whole new level.
With support for a wide range of devices, you can effortlessly charge your iPhone 14/13/12 series, iPad Pro, AirPods Pro, Galaxy S23/S22, Google Pixel 7/6/5, and even Magsafe wireless chargers. Whether it's your trusty Macbook 13", MacBook Air, Macbook Pro 13, or iPad Air 5, this charger covers it all.
Enjoy the convenience of charging all your essential devices with a single, versatile power source.
Charge your devices up to 3 times faster, all thanks to the efficiency of GaN. Witness your battery levels soar with remarkable speed and efficiency, making everyday charging a breeze.
Embrace the power of GaN and elevate your charging experience like never before.
Meticulously designed with an array of multi-protection features, this charger functions as a vigilant guardian, shielding against over-charging, over-heating, over-current, over-voltage, and even short-circuiting.
This comprehensive defense mechanism ensures that every charging session is a secure and worry-free experience. With our charger by your side, you can confidently power up your devices, knowing that their safety and integrity are safeguarded at all times.
Compared to older models, this charger offers exceptional power in a remarkably compact design. Say goodbye to bulky chargers and hello to streamlined, pocket-friendly power.
Embrace the convenience of modern charging without sacrificing space or performance.