![]() ![]() So if your goal is to charge your laptop using a solar panel, buffer battery and car power adapter is probably the way to go. Just sticking a converter cable into a power source will most probably be not enough. The lower it is than 14.5V x 2A (or 20V x 2.25A, or whatever your device expects at minimum) the less likely it becomes.īut note that you will probably need a specially-made USB-C cable or a custom adapter to enable it because Type-C cables are active (have a chip in them) and power delivery mode is only enabled when a certain coded signal is sent. If you get the right laptop, you might be able to charge it with a phone charger while it's off or sleeping.Īlthough charging anything directly from a solar panel without a buffer battery is never recommended, depending on implementation in a particular device it might be theoretically possible however unlikely to charge it with power and current lower than it usually expects. If the laptop prefers a high wattage but accepts lower wattage, then it will take steps to make sure that it can maintain itself, such as draining the battery or slowing itself down. Most laptops need 20V at a certain level of wattage, but some don't. In conclusion, it really depends on the laptop. but if it is put under any moderate load, then it will severly downclock itself to avoid draining the battery, which is actually very annoying, but at least I can charge the laptop when I'm not using it. If I plug it into a 30 watt compact anker charger I have, it'll charge too. If I provide it with a 60W macbook charger, it'll charge fine without issues. It wants 45 watts to support its power demands, but it can also accept 30 watt chargers. ![]() It supports USB-C charging, but it only works with 20V chargers, so I cannot use phone chargers or the Nintendo switch chargers. If this happens, then the Macbook drains the battery (albeit at a slower rate than when unplugged) in order to keep up with the demand.Īnother example is a Dell (which I currently use). However, remember that a phone charger can only provide 15 watts, and a macbook may need more (e.g. It can accept power from any phone charger (5V 3A), and it'll do its best to keep itself powered and charge the battery. So if you have one of those laptops, then you can't use a 30W charger that may have come with a different laptop Many of them also require a certain minimum wattage, such as 60W. Phone chargers definitely don't provide 20V, which means most laptops cannot be charged by phone chargers. These chargers aren't very commonly found unlike phone chargers. Therefore, most of them require a USB-PD charger that does 20V. Most laptops that support USB-C charging require a 20V source, probably this voltage is what laptops have been using for several years with regular bricks, even before USB-C (technically, it's around 19V which is pretty close), and new laptops tend to reuse older designs. So it can do around 39 watts which is theoretically enough for many laptops, however there's a caveat. However, if you look at the specs of a Nintendo Switch Charger in the picture above, then it says that it does 5V 3A and 15V 2.6A. So it can do a maximum of 20V at 3 amps, which is 60 watts, and can charge many laptops. For example, if we look at the description of the Anker Powerport Atom PD 2, it has the following in its spec list: Output: 5V ⎓ 3A / 9V 3A / 15V ⎓ 3A / 20V ⎓ 3A. For 20V, it can go up to 100 watts.Įvery charger has a list of voltages and currents that it can be capable of providing over USB-C. ![]() 9V and 15V is what phones can use for quick charging their batteries. It cannot give more than 27W for 9V, and it cannot give more than 45 watts for 15V. It cannot give more than 15 watts for 5V sources. ![]() USB-PD has limits on wattage for certain voltages. Laptop chargers on the other hand typically push out more power, so they need higher voltages such as 20V. You can calculate the wattage by multiplying voltage and ampereage. Your typical USB-C phone charger (not the quick charging stuff) does a maximum of 5V at 3A. In this example, we're using the latest USB-PD standard 2.0/3.0 table provided by Wikipedia: It supports multiple voltages (5V, 9V, 15V, and 20V) and currents, negotiated between the device and the charger. USB-PD is the standard that USB-C uses to allow charging on modern devices. In order to explain this, it's important to understand USB-PD and what it offers. Support for USB-C charging depends mainly on the laptop and what voltages and wattages it individually supports, as well as what charger is plugged in. ![]()
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