The best fast chargers for 2024


Meanwhile, as one of the rare 140-watt power adapters on the market, Apple’s brick is super quick and did an expectedly great job of refilling the MacBook Pro. However, I should mention that it’s the only power brick in this segment that comes with a single port, which kind of feels like a missed opportunity for the Apple ecosystem. For those who need extra flexibility, wireless charging options are worth considering, though they might not offer the same speed as wired connectors.

So for anyone that wants a charger that can top up an ultraportable laptop quickly while still having juice to spare, I prefer Razer’s 130-watt GaN adapter. It’s the best charger in this category, as well as the smallest and most expensive at $180. On top of that, it comes with two international wall adapters (for UK and EU outlets) and a braided 100-watt USB-C cable, all of which you don’t get from any others in this category. If you need a reliable power bank or fast charger on the go, this could be a good investment.

Our top picks for the three power output ranges are the Anker 711, Anker 715 and the Razer 130-watt GaN charger. Our top picks for the three power output ranges are the Anker 711, Anker 715 and the Razer 130-watt GaN charger.

Sam Rutherford/Engadget

Obviously, there are a lot more than just 14 super fast chargers on the market, and sadly I don’t have the time to test them all. These days, discharging a phone from 100 percent battery to dead can take upwards of 15 hours, so depending on the device, I can only test one USB phone charger per day. Just gathering all this data took the better part of two months. And unfortunately, while I was running this test, Anker came out with a new generation of power adapters that I haven’t had the chance to evaluate just yet.

That said there are still some important takeaways. First, in order to ensure optimal charging speeds, you should pay attention to the charging standards of your device and the fast charger; make sure your charger can supply the proper amount of power. Manufacturers typically list a device’s max charging speeds, while power adapters clearly label their USB types and outputs. And when in doubt, you can look at the fine text on the charger itself, though you might have to do some math. Just remember, watts equals volts times amps. Furthermore, in the case of adapters with multiple ports, you’ll check to see how its total wattage is split when connected to multiple devices.

Then there are other factors like size and weight you’ll want to consider, with newer gallium nitride adapters (GaN) often featuring more compact designs and better power efficiency. And if you’re ever truly in doubt, you can simply opt for a fast charger made by the same company as your Android phone, iPhone, laptop or other gadgets, something that’s especially true for devices like the OnePlus 10T that feature speedy proprietary charging protocols.

The methodology for my fast charging experiment is intended to be as straightforward as possible. I drained each device to 10 percent battery, plugged in a power brick and then recorded the amount of charge added every 10 minutes for an hour. Each adapter was plugged directly into a standard 120-volt outlet (without the use of a power strip or any extension cords), and when possible I used the cable that either came included with the battery charger or one made by the same manufacturer as the device. If that wasn’t an option, I used certified 100-watt USB-C cables made by Anker, Apple and others.

Because the charging rate for devices varies depending on how much juice you have, I wanted to measure how well each adapter was able to match each gadget’s optimal charging speed. Generally, charging is slower between zero and 20 percent before speeds ramp up until the battery hits 80 percent, at which point things slow down again to protect and preserve the health and longevity of the power cell. For charging stations with multiple ports, I always selected the port with the highest power output while also not having multiple devices connected.

The five devices we used to test the chargers are the iPhone 13, a Galaxy S22 Ultra, a Nintendo Switch (a launch model from 2017), a 2021 Dell XPS 13 and a 16-inch M1 Max MacBook Pro.The five devices we used to test the chargers are the iPhone 13, a Galaxy S22 Ultra, a Nintendo Switch (a launch model from 2017), a 2021 Dell XPS 13 and a 16-inch M1 Max MacBook Pro.

Sam Rutherford/Engadget

As for the devices themselves, I selected an Apple iPhone 13, a Samsung Galaxy S22 Ultra, a Nintendo Switch (a launch model from 2017), a 2021 Dell XPS 13 and a 16-inch M1 Max MacBook Pro. This assortment was chosen to cover a wide range of specs and power draws from 20 watts (iPhone 13) all the way up to 140 watts (M1 Max MBP). Also, every system was tested while idle (i.e. no additional apps or games running) in order to ensure consistent results.

One important thing to note is that while the USB Implementers Forum has approved support for USB Power Delivery (USB-PD) charging at up to 240 watts, adapters that actually support that power output don’t exist yet. Additionally, while there are a handful of cables that can handle more than 100 watts of juice, they are somewhat rare or hard to get.

When looking for chargers, you may notice that some are marked as GaN, which stands for gallium nitride. This is an important distinction because, compared to older adapters that use silicon switches, GaN-based devices support increased power efficiency and output, allowing manufacturers to create more compact chargers that run cooler and support higher wattages. Depending on the specific power output, GaN chargers can be 30 to 50 percent smaller and lighter than silicon-based alternatives. That might not sound like much, but when they’re sitting in a bag alongside a laptop, phone and any other accessories you might have, cutting down on excess bulk and weight can go a long way.

With so many different chargers of varying power outputs to test, I broke things down into three categories. There are the 30-watt and under chargers, which are primarily designed for smartphones and other small mobile devices. Then we move up to 45 to 65-watt chargers (give or take a watt or two) that can handle things like phones along with a number of thin and light laptops. Finally, we have chargers that output 100 watts or more, which are good for pretty much anything besides the biggest and most power-hungry gaming laptops. Many of these higher wattage adapters also feature multiple ports, so can you top up additional devices at full speed. However, because not every power brick supports multi-device charging, I didn’t include that as a testing metric.

You can see a full list of the chargers we tested below:



Source link

About The Author

Scroll to Top