The AirPods Pro come with a Lightning to USB-C cable for a specific reason. Apple made the decision to include this cable because they wanted to provide a convenient charging solution for users who have MacBooks or other devices that use USB-C ports.
One of the main advantages of USB-C is its versatility. It is a universal standard that is becoming increasingly popular in the tech industry. Many new laptops, including Apple’s MacBook lineup, have adopted USB-C as the primary port for charging and data transfer.
By including a Lightning to USB-C cable with the AirPods Pro, Apple ensures that users can easily charge their wireless earbuds using the same cable they use for their MacBook or other USB-C devices. This eliminates the need for multiple cables and adapters, streamlining the charging process and enhancing convenience for users.
Additionally, USB-C offers faster charging speeds compared to the older USB-A standard. With the Lightning to USB-C cable, users can take advantage of the faster charging capabilities of USB-C to quickly charge their AirPods Pro. This is especially useful for those who are always on the go and need their AirPods to be ready to use in a short amount of time.
Moreover, USB-C is also capable of delivering more power, which could potentially benefit future AirPods Pro models. While the current AirPods Pro may not require the higher power delivery capabilities of USB-C, Apple may have chosen to include the USB-C cable in anticipation of future product developments.
In my personal experience, having a MacBook with USB-C ports and using AirPods Pro, I find it incredibly convenient to charge my AirPods Pro using the same cable that I use for my MacBook. It simplifies my charging setup, and I don’t have to worry about carrying multiple cables or adapters when I’m traveling.
To sum up, the AirPods Pro come with a Lightning to USB-C cable because it allows for convenient charging using the same cable as newer MacBook models and other USB-C devices. It takes advantage of USB-C’s versatility, faster charging speeds, and potential future power delivery capabilities.