Digital devices, like phones and laptops, have evolved significantly over the years, adapting in size, shape, and specifications to provide the best user experience possible. However, there is one problem that has been quite difficult for manufacturers to overcome, and that has something to do with the battery.
Batteries have grown much larger in terms of capacity as technology continues to get better. However, this does not bode well for charge times, as the more capacity a battery has, the longer it will take to charge. While there are many technologies now that take advantage of fast charging, this still is not fast enough for some people.
Are you one of those individuals who seem to be chained down by slow battery charge times, looking for a speedier solution than what you currently have? If so, then consider picking up a GaN charger!
What are GaN Technology chargers?
There are many types of charging protocols out there, some of which you may be familiar with, such as Qualcomm Quick Charge and Power Delivery. However, the power they can pump out is proportional to the size of the charger, meaning that you would need to buy a really large charger if you want it to charge quickly. This is because they use silicon in their construction. This is a problem that GaN Tech does not face, as it does not use silicon but Gallium Nitride.
GaN (short for Gallium Nitride) chargers are the new alternative to silicon, allowing chargers to be far superior to silicon-based chargers while still being smaller. It is a type of charger that utilizes Gallium Nitride in its construction. This provides it with a list of advantages, from smaller components to higher reliability and efficiency.
What are the advantages of GaN chargers over silicon chargers?
When it comes to charging, the most significant advantage of GaN chargers is that they require much fewer components compared to silicon chargers. This means that a GaN charger can be built to be much smaller than any silicon charger.
Another massive advantage GaN has over silicon is efficiency. This is because the material has a much larger bandgap, allowing it to continue working efficiently at much higher voltages and, as a result, temperatures. Other than that, GaN chips can be built to be much smaller yet still faster than silicon chips, all the while being cheaper to make as well.
Conclusion
GaN is simply better in every way compared to silicon, paving the way to a future where silicon is a thing of the past, especially in the world of charging. Since GaN is still a relatively new technology, silicon chargers will still be dominating the market. As time passes, however, we believe that silicon will soon be replaced by GaN due to its capabilities and cheaper manufacturing costs.
Cheaper and better—that is the name of the game for most, if not all, consumers. With GaN chargers, people can have access to more powerful and more compact chargers that can charge their devices in no time at all. Plus, due to the cheaper manufacturing cost, the price of buying a GaN charger may also be much more affordable, making this piece of technology accessible to everyone.
Chargeasap is an electronic startup in Sydney, pumping out innovative mobile phone accessories such as power banks, chargers, and more. If you are interested in buying GaN travel adapters and more, check out our offerings!
