Apple could reportedly ditch the Lightning port and introduce USB-C on the iPhone 15 series next year. According to analyst Ming-Chi Kuo, this will improve wired data transfer speeds.
Currently, the most affordable iPhone models top out at USB 2.0 transfer speeds of 60MB/s. This would make transferring large files a bit of a chore.
Increased Data Transfer Speeds
The iPhone 15 is slated to be Apple’s first USB-C iPhone model, and this change could result in a significant boost in wired data transfer rates. That’s according to Apple analyst Ming Chi Kuo, who says the iPhone 15 Pro and iPhone 15 Pro Max will support either USB 3.2 or Thunderbolt 3 speeds, which can deliver up to 40 GBPS.
Kuo notes that the standard iPhone 15 models will continue to offer Lightning port speeds, which currently cap at 480 Mbps. This means the iPhone 15 Pro’s new USB-C ports will have an advantage over the regular models, further reinforcing the line’s ‘Pro’ branding.
Kuo also predicts that the iPhone 15 Pro and Pro Max will feature larger displays. He believes the 6.1-inch iPhone Pro will increase to 6.3 inches, while the 6.5-inch Pro will get up to 6.9 inches. This larger screen will result in a wider aspect ratio, which should make for better video playback. In addition, Kuo says the Pro models will feature a new dual-band Wi-Fi chip based on Apple supplier TSMC’s next-generation 7nm process. This could lead to improved performance and reduced power consumption.
Refined Design Aesthetics
Apple is known for prioritizing design aesthetics, and the iPhone 15 is no exception. The device is expected to feature slimmer bezels resulting in a larger edge-to-edge display that immerses users in a visually stunning experience. Additionally, the iPhone 15 is rumored to include new colors that will appeal to a wide range of consumers.
The iPhone 15 is also rumored to ditch the Lightning port in favor of USB-C, a change that makes sense considering how quickly the company has moved to adopting the connection on its laptops and tablets. However, this move may be delayed to the next year’s iPhone release.
Another key change that’s been tipped for the iPhone 15 is a redesign of the buttons on the sides of the phone. This is reportedly set to include a new Action button that can be used in combination with the Side and Volume buttons to power down or restart the smartphone. In addition, the mute switch is rumored to be replaced by a dedicated haptic engine. According to ShrimpApple Pro, the iPhone 15 will use titanium for the first time, a move that will likely make the devices much more durable. The rumors also suggest that the iPhone 15 will feature a new frosted premium finish on its back, replacing this year’s glossy rear panel.
5nm Manufacturing Process
One of Apple’s most important iPhone 15 features is a new 5nm chip. The A17 Bionic processor, which will power this year’s iPhone Pro and Pro Max models, is expected to run up to four dies each supporting 10 compute cores, resulting in a titanic 40-core chip capable of handling most resource-intensive apps. The A17 will also reportedly support built-in ray tracing technology for advanced graphics processing.
The TSMC-made chipset is expected to offer up to 35% less power consumption than the previous A14 Bionic chip, further improving the battery life of the iPhone 15. Moreover, the new process will allow more transistors to be ip 15 moi shoehorned into each chip, which should lead to enhanced functionality in the future.
Finally, rumor has it that the A17 chip will feature an image sensor from Sony that doubles the saturation signal of each pixel to cut down on overexposure and underexposure issues. This could mean better photos in harsh lighting conditions.
As for the non-Pro iPhones, CAD files show that the Dynamic Island — the pill-shaped camera cutout found on iPhone 14 Pro models — will be a permanent fixture on this year’s iPhone 15 lineup. This change should make it easier for users to launch apps or perform other actions with the screen off. Additionally, the iPhone 15 is expected to include a USB-C port that supports Qi2 standards for wireless charging.
