The iPhone 17 Pro has leaked once again, and with it comes a significant shift in its design. The latest renders have revealed an unexpected yet bold design change that could reshape the look of Apple’s flagship phones.
Along with a major camera housing upgrade that spans the full width of the phone, a newly adjusted MagSafe design is now visible in the leaked images. The updated render, shared by famous leaker Majin Bu, shows the Apple logo now positioned lower on the back of the device, accompanied by an altered MagSafe ring.
Until now, MagSafe magnets had a full circle above the vertical dash line, but this new design features an opening in the ring. This is to accommodate the repositioned Apple logo, which sits lower than before. According to Majin Bu, this move ensures that the Apple logo is fully visible when a MagSafe case is applied, as the previous placement would have been partially obstructed by the case. Despite this aesthetic shift, the iPhone 17 Pro will maintain compatibility with older MagSafe accessories, ensuring that your current MagSafe cases and chargers will still work.
As for charging speeds, there’s a rumor suggesting that the iPhone 17 Pro will have faster charging, but it’s important to note that this improvement is related to the charger itself, not the design of the MagSafe ring. The design tweak seems largely visual, focusing on aligning the camera housing with the rest of the iPhone’s back panel, which creates a ripple effect across the phone’s overall aesthetic.
When it comes to design, opinions are subjective. Some users may find the new changes appealing, while others might find the offset logo and incomplete MagSafe ring strange at first glance. It’s certainly a departure from the iPhones we’ve seen recently, with the last major design overhaul taking place with the iPhone 11. Ultimately, holding the iPhone 17 in hand and using it with a MagSafe case will be the best way to judge whether this new look works. Only time will tell if this design grows on us or remains a controversial point.