The iPhone 17 Pro Max is set to be unveiled in September, marking it as the premium offering in Apple’s upcoming smartphone lineup. Recent insights from a source indicate that the device may feature a significant battery enhancement compared to its predecessor, the iPhone 16 Pro Max. The anticipated upgrade could see the battery capacity reach a remarkable 5,000mAh, potentially making it the first iPhone model to achieve this milestone.
Battery Enhancement for iPhone 17 Pro Max
In a recent post on Weibo, tech tipster Instant Digital shared information regarding the iPhone 17 Pro Max’s battery specifications. The reported capacity is expected to reach the 5,000mAh threshold, which would be a groundbreaking feat for Apple.
Historically, Apple has chosen to highlight screen time over battery capacity in its marketing. For instance, the current flagship, iPhone 16 Pro Max, features a 4,676mAh battery, boasting up to 33 hours of video playback and approximately 105 hours of audio playback on a single charge.
With a larger battery in the prospective iPhone 17 Pro Max, users can anticipate improved usage duration. If these claims are verified, this model would surpass all previous iPhone iterations in terms of battery capacity.
In addition to battery advancements, previous reports have indicated that Apple plans to incorporate a new vapour chamber cooling system in the iPhone 17 Pro models, moving away from the graphite sheets that have been utilized for heat management. This change is prompted by the reported heat generation of the new A19 SoC during demanding tasks such as gaming or AI processing.
Moreover, a considerable increase in performance is expected within the forthcoming iPhone series. Leaked Geekbench performance benchmarks for both the iPhone 17 Pro and iPhone 17 Pro Max indicate impressive single-core and multi-core scores exceeding 4,000 and 10,000, respectively. These models are anticipated to be powered by the A19 Pro chip, complemented by 12GB of RAM, and may utilize TSMC’s third-generation 3nm process known as N3P for fabrication.
