I’ve been using an iPhone 8 Plus for exactly 3 years and have been using the usb 5W wall charger that came with the box. I’ve never used any other charger, and has always charged by phone with 5V/1A. However, the phone seems to be charging more slowly over time, and I’m thinking to buy a replacement.

I have iOS 14 installed, and battery health is at 80% after 3 years. (~7% decrease per year)

Will suddenly using a third-party 12W wall charger (5V/2.4A); or any higher wattage charger of other brands; cause my 3 year-old battery to decrease in battery health at a faster rate? Should I get a battery replacement before switching to a faster charger? Also, will my phone be overheating as a result of higher wattage and amperage, and will that be a concern for an iPhone 8 Plus?

Thank you in advance for your time and answers.

  • Can you update us on what happened? Because according to the chart posted by the second poster, it seems that the answer would be Yes, since it shows the iPhone drawing more than 1 Amp for the first one-and-half hour of a charge. And if a charger can only supply 1A, then that means that this first hour-and-half the battery is being more conserved. Presumably you got this higher-wattage charger, and can now tell us whether the battery life indeed went down quicker than with the original?
    – Alex
    Commented Oct 31, 2022 at 2:41

2 Answers 2



The power rating of a charger has no bearing on the life of the battery nor the consumption of power by the device. A higher wattage charger only means it can supply up to the specified amount of current, not that it will push that amount of current to the device.

Current is drawn, not pushed.

Regardless if this is an "intelligent" charger like a USB charger that conforms to the Power Delivery specification (USB-3.1 or higher) or an "old fashioned" charger, it's the device that draws the current from the adapter.

Chargers and power adapters are rated in watts which are calculated by multiplying the voltage (how much) by amperage (how strong).

enter image description here

For instance, a "quick charge" USB phone charger outputs 5V @ 2.4A, or 12W. If you use a laptop charger like the USB-C charger for the MacBook Pro rated at 96W, it will only draw 12W of current because that's all the phone can pull. However, if you connect the same phone rated at 12W and connect it to a charger that only supplies 5W, either it will charge slowly or it may damage your charger and possibly your phone.

This is where the "intelligence" comes with with respect to USB-C and Power Delivery. The new USB-C chargers will negotiate with the devices as to what can be supplied. In the simpliest sense, the device "asks" for power and the charger "responds" with what it can deliver. This way, the device won't draw more than the charger can supply.

On the old fashioned devices (non-intelligent), there's no negotiation. The device will attempt to draw the power it needs. If the charger has the appropriate capacity, it will supply it. If it doesn't it might pull more current than it can handle, potentially burning up the charger and/or damaging the device itself.

Further Reading

Various forms of this question has been asked previously. Below is a small sampling for additional reading.

  • Quote: either it will charge slowly or it may damage your charger and possibly your phone. --- charging at a lower wattage will NOT damage the phone. Worst case scenario the phone won't have enough power to charge, and will discharge while the charging icon is flashing. But this is pretty extreme, and usually happens between 0.2 and 0.4A, exact number depending on the model.
    – Alex
    Commented Oct 31, 2022 at 2:46
  • @Alex, just to close the loop here, the second answer is incorrect. To say that the charger has any effect on the device would violate ohms law which is governed by the resistance of a circuit (which remains constant). V=I/R since voltage is constant (5V for a regular charger) and resistance is static at (example) 1ohm, then I=1A. That is all the circuit will allow. Your charger could have 10KA available, it would make no difference. Ohms law still applies
    – Allan
    Commented Jun 12, 2023 at 21:48
  • The resistance is, in fact, not constant, but depends on the voltage. In your hypothetical example, we would have I=5A. But if the charger can only provide 3A, then the voltage would have to drop to 3V in order to do the charging (assuming the R is constant). This will lead to slower charging, which will conserve the battery life better.
    – Alex
    Commented Aug 8, 2023 at 22:48

Your iPhone contains technology that is designed to control the flow of current from a charger into your battery. The charger itself - as long as it meets some generic requirements for voltage regulation and current capacity - has little or nothing to do with how your battery performs over time and usage cycles. Apple refers to their technology as "Optimized Battery Charging".

This technology is implemented using a combination of hardware and software. The hardware may be sourced by one of the large electronics manufacturing companies; Texas Instruments and Analog Devices both offer a wide variety of integrated circuits designed specifically for charging batteries. These ICs meter out the voltages and currents needed to effect optimal charging of various battery chemistries. Some of these ICs also include serial bus interfaces for communication of telemetry and commands with the "outside world". Ultimately, however, it is Apple's software that makes all the "final decisions" wrt battery management.

Apple has chosen the Lithium-Ion battery chemistry for their devices. All battery chemistries offer trade-offs; finicky charging requirements are one of the significant ones for Lithium-Ion batteries. At the risk of over-simplifying, charging a Li-Ion battery is a two-stage process: there is a constant-current charge phase, and at some point that transitions to a constant-voltage charge phase. This article offers a more detailed description of the charging process. Still more details are offered in this Technical Handbook on Lithium Ion Rechargeable Batteries. Here's an overview of the charging process:

enter image description here

AFAIK, Apple does not publish exact figures for their batteries, but batteries in late-model iPhones are said to be 1.8 Amp-Hours. This is relevant to the OP's question because there are recommended limits to charging rates for Li-Ion batteries. Charging rates are generally quoted in terms of the battery capacity (C) in amp-hours; a charging rate of 1C would mean a charging rate of 1.8 Amps for the typical iPhone battery.

Most recommendations for Li-Ion batteries call for a maximum charge rate of 1C. It is also frequently stated that charging below this 1C rate improves the battery longevity, reduces battery temperature, etc. I was unable to find a specifc recommendation for iPhone batteries, but it seems quite likely they would also benefit from a charge rate below 1C. One source stated:

For safety reasons, most batteries should be charged at between 0.5C and 0.7C.

If this is applied to a 5-volt wall-charger, then the most current that should be drawn is:

Imax ≤ 1.8 A-h × 0.7C = 1.2A

And so anything more is likely to be unused. Whether or not it's possible to get 1.2A from a 5W wall charger will depend on its design and construction. If it's a simple transformer-rectifier, you will almost certainly be able to draw 1.2A. However, if the charger output voltage is regulated, you may or may not be able to draw that additional 200 mA. However, in either case, the only implication is that a 1.0 A limit may delay time required to reach a full charge by a small amount.

In Conclusion:

And so, the answer to the question "Will using higher wattage chargers degrade iPhone battery more quickly?" is this:

Under a safe charging strategy - not much. And we don't know exactly what Apple's charging strategy is, so only Apple can answer that question definitively. However, it can be said if Apple's charging strategy is aggressive (fast-charging), then it is possible that a higher wattage charger would enable Apple to deliver greater charging currents that may be deleterious to the battery's longevity.

Another thing to consider (Warning: Apple supplicants may be triggered):

Batteries are complex devices - chargers are not (relatively speaking at least). The veracity of this statement is underscored by Apple's mis-steps - past and present. One of the world's largest technology companies with virtually unlimited resources, and years of experience with Li-Ion battery technology has recently announced another significant battery issue:

This recent report in Forbes magazine will make anyone think twice about "upgrading" to iOS 14:

...the company states the only fix is to “erase all content and settings from your iPhone”

What's an Apple customer to do??? On one hand, Apple's advice for Maximizing Battery Life and Lifespan states the following:

Update to the latest software

But now we see that isn't necessarily the best advice!

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