Samsung does it. So do Huawei, Google, OnePlus and now even Apple. Packaging a fast charger inside your new phone box is an increasingly common practice, at least for high-end devices. But do we pay a price for the convenience of charging our phones with a quick charger?
Battery life has become a primary concern for phone owners. As we do more with our phones over more hours, the importance of all-day battery life on a single charge has become one of the key features that an average buyer looks for, after screen size. Battery life is even more important than an excellent camera, according to Kantar’s Worldpanel ComTech Q3 2019 study. The same concern applies to battery longevity over the entire lifetime of your device.
The growing emphasis on battery life is one reason why fast chargers are so ubiquitous. If the battery threatens to drain before the end of the day, refilling the battery fast is the next best thing. A 10-minute charge could make the difference between having to go into an austere power-saving mode or losing power completely before you get home.
Now that fast charging is so readily available for phones, we have questions: What does a high-capacity charger do to a phone’s battery and is there a chance that rapid charging can degrade your phone’s power-storing capability over time?
And while we’re asking, we’d like to know what else we’re doing when we charge our phones that might cause unnecessary wear and tear on your phone’s battery over time.
To discover the answers to our questions, we spoke with several battery researchers and engineers about the effects of quick charging on your phone’s battery life. Here’s what we learned.
Your phone battery isn’t changing anytime soon
All mobile phones — and most personal electronics and electric vehicles — use lithium-ion (li-ion) rechargeable batteries. It’s a tough slog to create batteries that last longer, because battery technology hasn’t changed in decades. Instead, much of the recent progress in battery life has come from power-saving features built into devices and from making the software that manages charging and discharging more efficiently, so you sip power rather than guzzle it.
Unfortunately for mobile phones, the focus on extending battery life is generally on cars, satellites and your home’s power system, areas where industrial batteries need to function far beyond the two or three years we expect from our mobile devices.
Another force working against our phones is their battery size. Compared to an electric car battery, a phone’s power source is minute. For example, the Tesla 3’s rechargeable battery has a battery capacity over 4,000 times greater than the iPhone 11 Pro Max.
The math gets a little complex because phone batteries are measured in milliampere-hours, while electric vehicle batteries are measured in watt-hours. But it’s possible to draw equivalents. For instance, the Pixel 4 has a 2,800-mAh battery (or 10.6 Wh), and the iPhone 11 Pro Max reportedly comes with a 3,969-mAh battery (15.04 Wh). Meanwhile, the Chevy Volt uses an 18,400-Wh battery and a midrange Tesla Model 3 flaunts a 62,000-Wh battery.
That matters because the larger a battery is, the more battery-saving tricks there are to extend its life. For example, as you charge a battery, the voltage rises, putting it under stress, especially during the last 20% of the charge. To avoid this stress, electric car makers may charge new batteries just to 80%. Because of that larger battery capacity, the electric car still can still go an acceptable distance, while avoiding the stress of higher voltages. This can double the total lifetime of the car’s battery.
Larger phone batteries can give you an all-day run time from a charge, but typically only at the full 100%. And while that lets the battery last for an acceptable time between charges, it also puts the battery under more stress from the higher voltage required to top it off.
Short of a major breakthrough in battery technology, improvements to our phone batteries will come from making the devices more energy-thrifty overall. (Here’s a more detailed look at what’s holding up the battery revolution.)
Fast-charging won’t damage your battery
A conventional charger has an output of 5 to 10 watts. A faster charger can improve that by up to eight times. For example, the iPhone 11 Pro and Pro Max come with an 18-watt fast charger, the Galaxy Note 10 and Note 10 Plus have 25-watt chargers in their boxes. Samsung will sell you an extra-speedy 45-watt charger for $50.
Unless there’s some technical flaw with your battery or charger electronics, however, using a fast charger won’t do your phone’s battery any long-term damage.
Here’s why. Fast-charging batteries work in two phases. The first phase applies a blast of voltage to the empty or nearly empty battery. This gives you that blazing charge of from 50 to 70% in the first 10, 15 or 30 minutes. That’s because during the first phase of charging, batteries can absorb a charge quickly without major negative effects on their long-term health.
For instance, Samsung promises its 45-watt charger can go from zero to a 70% charge in half an hour. Apple says the fast charger that comes with its iPhone 11 Pro can hit a 50% charge in 30 minutes.
You know how it seems to take as long to fill up that last 20 or 30% of the battery as it does to charge the first 70 or 80%? That last part is the second charging phase, where phone-makers have to slow down and carefully manage the charging speed or else the charge process actually could damage the battery.
Arthur Shi, a tear-down engineer at the DIY repair site iFixit, suggests to imagine a battery as a sponge. When you first pour water onto a dry sponge, it absorbs liquid quickly. For a battery, this is the fast-charging phase.
As you continue to pour water onto the increasingly wet sponge at the same rate, the liquid will bead up on the surface as it fights to soak into the saturated sponge. For a battery, this unabsorbed charge can result in shorts and other issues that could potentially damage the battery.
Damage is rare if everything’s well-managed inside. A battery’s management system closely monitors the two charge phases and drops the charging speed during the second phase to give the battery time to absorb the charge and avoid issues, which is why it can take 10 minutes to get those last few percentage points.
The case of the Samsung Galaxy Note 7’s tragically exploding battery resulted from battery design flaws rather than from the phone software’s battery management techniques.
You can’t overcharge your phone battery
Overcharging used to cause anxiety among phone owners. The fear was that keeping a phone constantly plugged in could charge a battery beyond its capacity, making the battery unstable, which could degrade overall battery life or build up too much internal heat and cause the battery to burst or catch fire.
According to the experts we spoke with, however, a battery’s management system is designed to shut off the electrical charge once a battery reaches 100%, before it can overcharge.
“Unless something goes wrong with the battery circuitry, you can’t overcharge a modern phone,” said Venkat Srinivasan, a battery researcher at the Argonne National Laboratory and director of the Argonne Collaborative Center for Energy Storage Science. “They have protection built in to exactly stop that from happening.”
Remember that you can, however, put a battery under strain as you head to a 100% charge, as detailed above. (It’s why electronic-vehicle makers cut off the charge on new batteries around 80%.)
Apple takes a clever approach to this problem in the iPhone’s iOS 13 software that charges your iPhone battery to 100% without doing long-term damage.
If you frequently keep your iPhone plugged in during the day or while you sleep, you can turn on an iOS 13 battery setting called Optimized Battery Charging that will monitor your charging schedule and hold your iPhone’s battery charge at 80%, keeping it out of the stress zone. After that point, it’ll top off the charge to 100% right before you regularly unplug your phone. This works best for people who have a regular charging pattern.
For a manual approach, you can also unplug your phone when it hits an 80% charge, but the trade-off is you might miss out on additional hours of use that you’d get from a fully charged phone.
You shouldn’t let your battery drain to zero
At one time, you may have wanted to let your phone discharge all the way down once in a while to help the battery recalibrate its state of charge. But that’s not so much of a problem with modern phone batteries.
In fact, discharging a battery all the way down can cause chemical reactions that over time can shorten a battery’s life. To avoid a complete discharge, a battery’s management system includes safety features that power down a phone when it reaches an energy level safely above empty. You only think you’ve hit zero when you see that last low-battery warning.
If you want to take a more active hand in your battery’s health, plug in your phone when its battery level gets down around 30%, well above the stressfully low battery levels.
High temperatures can damage your battery
Heat is a true enemy to your battery. High temperatures are known to reduce a battery’s lifespan over time.
You’ll want to keep your phone out of strong sun, away from window sills and off the dashboard of your car to prevent overheating, which can make the battery less efficient over time. In extreme cases, an overheated battery could explode.
Temperatures as high as 86 degrees Fahrenheit (30C) can decrease a battery’s effectiveness, said Isidor Buchmann, founder and CEO of battery-technology company Cadex Electronics and its companion Battery University education website.
Does that mean you want to store your phone in an ice chest? No. But as much as you can, keep it away from high temperatures. If you’re out in the sun for long periods of time, try draping a towel or T-shirt over it, or put it in a bag along with your cool water bottle. The idea is to keep the phone’s internal temperature from rising.
Mismatched chargers and cables won’t harm your battery
Unless you’re using counterfeit or damaged chargers and cables, mixing and matching cables and chargers is not going to harm your battery. However, you may not be charging up quickly as possible as when you use the ones that came with your device.
Some phones, such as those from Huawei and OnePlus, use a proprietary charging design — with part of the circuitry responsible for rapid charging built into the charger. To take full advantage of the device’s proprietary fast charging, you need to use its compatible charger.
Other phone makers, such as Samsung and Apple, stick closer to industry-standard rules for fast charging and let you fast-charge effectively with a variety of compatible cables and chargers.
The safest bet is to use the chargers and cables that come in the box, because when mixing and matching chargers and cables with your phone, the device could default to the lowest possible charging speed.
How else can I conserve my phone’s battery power?
To squeeze more life out of your battery, you can use the usual energy-saving tricks to conserve your battery’s power, such as dimming your display’s brightness, turning off Wi-Fi and Bluetooth when you’re not using them, restricting background data usage through settings and keeping an eye on apps that use GPS.
But the truth is, no matter how careful we are, our phone batteries will last only so long. The trick is to get as many months as we can from our battery without being in a constant state of anxiety about its charge.