The biggest difference between Gan chargers and regular chargers is that they use different technologies and materials, which can have a significant impact on charging efficiency, charging speed, volume, and temperature.
Firstly, Gan chargers use Gan semiconductor technology as the main material, while ordinary chargers use silicon semiconductor technology. Gan semiconductors have the characteristics of low loss, high conversion efficiency, and high electron migration speed, so Gan chargers can work more efficiently than ordinary chargers at the same power.
Secondly, the Gan charger is compact and has better heat dissipation performance. Due to the larger margin left by Gan semiconductors, heat dissipation can be better handled. Therefore, compared to regular chargers, Gan chargers can use smaller heat sinks or do not require heat sinks, while also reducing the size of components such as power supplies.
Thirdly, the temperature of the Gan charger increases more slowly. Due to the high efficiency and low loss of Gan chargers, the temperature rise during battery charging is relatively slow, thereby extending their service life.
Finally, the Gan charger has a faster charging speed. Due to its high efficiency, Gan chargers can charge devices in a short period of time, thereby improving user charging efficiency and experience.
In summary, compared to ordinary chargers, Gan chargers have higher charging efficiency, faster charging speed, compact size, and better temperature control, and will have more extensive application space in the future.
