Top 10 Disadvantages of Wireless Charger for iPhone: Wireless charging is beneficial in a variety of circumstances, but it isn’t always necessary. We’ll discuss the drawbacks of wireless iPhone charging in this article.
Nearly five years have passed since Apple first revealed that its iPhones would support wireless charging. Apple tsaddic were excited by the news. Although Apple wasn’t the first company to incorporate wireless charging to smartphones, they did garner a lot of attention because they are the most recognizable smartphone manufacturer in the world. Purchasing a wireless charger for your iPhone has many benefits, but there are also many drawbacks. The following are drawbacks of wireless iPhone charging in comparison to wired charging.
Disadvantages of Wireless Charger for iPhone
1. You can’t use your iPhone while it’s charging: “Yes, one thing, just one thing.” According to Apple, the iPhone must be placed on a fixed wireless charging board in order to use wireless charging. This is also the “main force,” in my opinion, behind the current complaints about wireless charging.
The majority of available wireless iPhone chargers are flat and require proximity to the iPhone. You can hardly use your phone while it is charging in this position. While it’s flat on the charger, you aren’t allowed to move it, pick it up, or do anything with it aside from use it. You can use your iPhone continuously while it charges using a standard wired charger. I enjoy having a long cable and wired charger in my living room because it enables me to scroll Twitter while I watch TV. A wired charger allows you to continue using your iPhone even at the end of a long day, so long as you are close enough to an outlet. A 10-foot Lightning cable should allow you to reach any outlet without having to be right next to the wall, which is especially true for long cables.
2. Metal back covers are incompatible with wireless charging: The connection between your phone and a wireless charger will undoubtedly be hampered if your phone has a metal case. Although aluminum phone cases are strong and resilient, they are not suitable for wireless charging devices. This is the reason the new iPhone models from Apple do not have an aluminum body. Instead, they provide a sturdy glass back that improves charge conductivity. It’s not just about aesthetics, in other words.
3. Slow wireless charging: Without a doubt, Qi wireless chargers are slower than wired chargers.
We typically plug in devices to charge them for a reason. Simply put, transmitting energy over a wire is faster and more effective.
In our testing, the fastest chargers recharged a fully discharged iPhone 13 to only 50% battery capacity in an hour, which is roughly half as fast as a wired charger. Still, any wireless charger can provide a full night’s charge for any phone. I have one on my bedside table as a result. I don’t have to be concerned about waking up my partner when I’m fumbling to plug my phone back in if I wake up in the middle of the night and want to check my phone (bad habit, I know).
I was unaware that the MagSafe Charger charges much more slowly than a lightning connection. It doesn’t quite charge as quickly as I had anticipated because of the magnetic alignment. An iPhone 13 can be charged to 50% battery capacity in about an hour using the MagSafe Charger’s maximum 15W charging power. That’s a lot slower when you consider that a lightning-connected 20W adapter can charge an iPhone 13 to 50% in just 28 minutes.
Stick with a wired charger if you value charging your iPhone as quickly as possible, such as in the precious few minutes between arriving home from work and having to dash back out the door.
4. Electromagnetic radiation is present: By using electromagnetic induction to charge mobile devices wirelessly, the charger continuously produces electromagnetic waves. The frequency of this electromagnetic wave typically falls between tens and hundreds of MHz. Even though it might not seriously harm a person, wireless charging is still much more harmful than wired charging.
5. It’s wasteful: The average person may not be concerned, but wireless charging is a fundamentally inefficient method of power transfer. (Use the following example as an exaggeration: a wired charger will transfer, say, 80% of the power it receives at the wall to the phone. so it will require 1,250ma to charge a 1000ma battery in theory. If a comparable wireless charger can transfer 40% of the energy to the phone, charging a phone at the wall will require 2,500 ma. Heat is produced from this surplus energy.) The environment and our energy grid suffer as a result of this energy waste.
6. Inauthentic wireless: People immediately assume that they can move around fairly freely when they hear the term “wireless.” Unfortunately, wireless charging does not work like this. A charging pad is necessary for wireless charging. It is necessary to plug in the charging pad. Already less wireless-like. To receive a (trickled down) charge, the iPhone must be perfectly positioned on top of the charging pad. In other words, your iPhone isn’t getting charged when you lift it off the charging pad to use it.
If there was truly wireless charging, the device would receive power in the form of a beam from a distance away. The power source magically locates every appliance in the space and squirts microwave fuel into each one.
This kind of genuine wireless power is covered by a number of patents. However, the problem with the stray microwave could be problematic. No one wants to wake up with a half-cooked face, even if their devices magically recharge at their bedside.
Perhaps the biggest drawback, which is frequently disregarded by people, is the requirement to charge your phone more frequently. This is due to the fact that you either have to get the iPhone perfectly centered or purchase a $50 or more pad with multiple coils. After that, you STILL need to center the iPhone perfectly. Additionally, the charging pad still has a wire attached to it, so it won’t really reduce the amount of wire clutter. Therefore, it is a problem seeking a solution.
7. The iPhone usually overheats when wireless charging is used: Many people who have started charging their iPhones wirelessly are debating whether or not “wireless charger heat harms your battery.” Compared to traditional cable charging, wireless charging typically produces some waste heat and can even cause the iPhone battery to overheat. Every time the battery of your iPhone is exposed to high temperatures, some of that wasted power turns into heat, which accelerates the aging of the battery by adding to wear and tear.
8. Cable chargers are more expensive than wireless charging pads: Compared to a typical USB wall charger power supply and cord, the charging pad is significantly more complicated. They are consequently more expensive.
When you compare the prices of cables and wireless chargers on Amazon, the majority of cables are less than $10, while a wireless charger typically costs $20 more or less. That represents a sizable difference.
For instance, I might require a second charging station at my workplace. Do I really want to carry around one charging pad? No. Do I want to purchase numerous, pricey charging cradles or pads? No. When compared to setting a phone on a pad, plug-in cords are significantly less expensive and require only an additional 3 seconds of connection and disconnection time.
9. Portable wireless chargers are less convenient: They are not only more expensive, but also less portable. They need a surface to rest on, ideally one that is flat and level. For instance, I can’t consistently use a charging pad in my car because there isn’t a place that is both flat and level. I could probably find a cradle that securely holds the phone, but it wouldn’t be useful outside of my car.
10. Suitability: Despite the fact that different Apple devices can use the same charging stations, some users have reported a problem. There have been instances where people claim to have had issues with charging a variety of Apple devices.
Additionally, there have been issues with some iPhones not being able to attract power from the power station.