When you’re on the hunt for a new USB power adaptor, you may come across a few options with gallium nitride (GaN) technology. These charging bricks tend to be a bit expensive. But due to their reduced size and increased charging ability, a GaN charger may be your ideal purchase. It could even help you save money in the long run.
Most USB chargers use silicon semiconductors. Gallium nitride (GaN) is simply a power-efficient alternative to silicon. It allows a charger to achieve small size without a reduction in charging speed or thermal performance. A GaN charger is ideal for travelling or powering several high-wattage devices, such as laptops.
With more and more laptops charging through USB-C, and more phones making use of ultra-fast charging, you’ll start to notice that the silicon based chargers can get really hot during charging these devices.
Instead of buying a large silicon-based charger that only has two ports (with a shared throughput), you can buy a GaN charger with four, five, or even six high-speed charging ports.
#technology #chargers #GaN
This technology is cool. My only problem with it is that it’s going to incentivize even more power-hungry devices.
I came across this post by the framework company a few days ago. They were boasting about their new 240W adapter. My question was: do we really want 240W laptops? Shouldn’t we make them smaller and more efficient instead?
Well, certainly on phones those ultra-high charging rates are not doing the batteries much good - I keep mine on slow charge. But laptops do max out the USB-C on many chargers (if you have the right cables) and I’ve felt my USB-C charger get pretty hot.
IMO It’s relative
My current laptop (edit: used for for studio apps, 3D modeling and rendering, and AI stuff) draws 240W but I’d say it’s an improvement over the 500W+ I would be drawing from a desktop that would have been in it’s place. The performance isn’t that competitive with desktop parts but the Perf/Watt definitely better.
Most people are just going to be using their phones and tablets to browse the web and watch videos anyway, with the odd Ultrabook here and there which are still pretty good in a Perf/Watt sense.
Jevons paradox does come to mind though.
Some people use laptops for doing mobile work, and in some cases that work requires computing power and possibly external peripherals which might require power from the computer. And, of course, games are power hungry.
Higher wattage chargers can also charge the battery faster. Lithium batteries, regardless of their size, can be charged to full in one hour (but it’s recommended for full charge to take about 1.5 to 2 hours to not wear down the battery). The bigger the battery the more wattage you need to charge it that fast. Especially if you are using the computer at the same time.
We have laptops with two chargers for a while but those are usually very high end machines with top of the line CPUs and GPUs or desktop parts. I guess this technology will make it more convenient.
The framework laptop will have different gpu modules, for most of them (4050, 60 and 70) 125W will be more than enough.
How many ports are on that charger? I have a group that plays D&D using a VTT even when playing in person. A 240 watt charger could power 3 or 4 laptops, greatly reducing cable clutter.