Technology has come a long way. Gone are the days when we had to plug our devices into the wall to power it up. Today, we can use devices on the go with the help of battery packs, and with the introduction of wireless charging, wired charging will become part of the distant past.
Of course, many devices still rely on a wired connection to power up, but for individuals looking to use their laptops, phones, and other mobile devices on the go, it might feel a little nonsensical to carry large battery packs or power bricks to keep their devices powered. Fortunately, there is an answer to this: Gallium Nitride.
What is Gallium Nitride?
Gallium Nitride or GaN is a semiconductor material that can sustain high voltages and allow current to flow into devices quickly. It may sound similar to silicon, as they do the same thing. However, silicon circuitry is heavily outmatched by GaN, which can sustain much higher temperatures and produce even less heat, making it energy efficient and highly effective. Plus, it can hold more charge in smaller sizes, allowing battery packs using GaN to be made smaller.
The uses of Gallium Nitride
GaN has found many uses in the world. For instance, in the solar industry, companies rely on GaN circuitry to produce solar cells that are smaller, lighter, cheaper, and more powerful. These cells can be installed on electric vehicles, powering them as they drive along a sunny highway.
In the battery world, however, GaN is relatively new. Not many products use GaN yet, but there have been a few manufacturers that have produced GaN power bricks and batteries. The most impressive thing about these types of products is not the fact that they are powerful or that they are energy-efficient. It is the small size that can genuinely be mesmerising, as GaN devices pack a lot of power in such a tiny package.
A good example is Hyper's HyperJuice, a GaN 100W GaN charger with the width and height of a credit card. In fact, from a distance, you might think it was a box of a deck of cards. It is that small, but the size does not sacrifice its power. Compared to another charging brick, such as the MacBook Pro's 61W charger, it is much smaller.
On the practical side of things, a GaN charger is advantageous. Even if you are stuck at home, such a charger allows you to easily charge multiple devices at once without running into a problem. The much smaller form factor also makes it a far more portable option.
Conclusion
All in all, GaN-based chargers, batteries, and more are the future of power. With less energy wasted, more power pumped out, and a small form factor, Gallium Nitride has paved the way for more powerful devices. However, there is a catch: these devices are pricier than their non-GaN counterparts.
However, we believe that investing in such technologies is more than worth it. They are going to last years, and you will come to see all the advantages GaN-based products have to offer in such a tiny package. Offering quick charge, increased power, more ports, and a whole host of other benefits, you might find yourself unable to go back to traditional silicon-based devices!
Chargeasap is a consumer electronics startup in Sydney, offering highly innovative mobile phone accessories ranging from power banks to chargers and more. If you are looking for a GaN charger and more, check out our offerings!
