iPhone 14 Pro and iPhone 14 Pro Max Get Wider mmWave Support Instead of Qualcomm’s Newest 5G Modem.
In addition to offering fast downlink and uplink rates, Qualcomm recently unveiled the Snapdragon X70 5G modem, which thanks to its production on a cutting-edge design will not aggressively consume battery life. Unfortunately, a new disassembly video of the iPhone 14 Pro and iPhone 14 Pro Max reveals that Qualcomm’s most recent baseband processor is not present in Apple’s most recent flagship devices.
The most recent iPhones from Apple use Qualcomm’s Snapdragon X65, the company’s first smartphone modem to support 10Gbps 5G.
a YouTube channel with the name
The disassembly was carried out by WekiHome, revealing Qualcomm’s Snapdragon X65 5G modem as a component of the internals, indicating that both the iPhone 14 Pro and iPhone 14 Pro Max continue to support mmWave networks in the United States, just as earlier iterations. The iPhone 14 and iPhone 14 Plus might share a 5G modem, even though this isn’t confirmed, unless Apple goes above and beyond to distinguish between the four versions.
The Snapdragon X70 was probably not available from Qualcomm when Apple needed it, and even if it had been, the increased cost would have prevented it from being used in the iPhone 14 Pro and iPhone 14 Pro Max. Contrary to the majority of its rivals, Apple does not frequently upgrade to the most recent cellular standards, which is actually a wise move given the diminishing returns and additional cost of employing Qualcomm’s most recent and finest baseband processor.
The Snapdragon X65 and Snapdragon X70, for instance, both support mmWave networks and have a 10Gbps theoretical download speed cap. The iPhone 14 Pro Max outlasted the iPhone 13 Pro Max in a previous battery test, despite the most recent flagship having a smaller battery than its predecessor. This would be consistent with the assumption that there are fewer power-saving variations between the two CPUs.
There are advantages to adopting a variety of power-efficient components, including the Snapdragon X65. The A16 Bionic and the addition of LPDDR5 would both contribute to increasing that battery life.
Consider seeing a different teardown.
First iPhone 14 Pro Max Teardown Shows How Apple Achieved Its Dynamic Island by Arranging Components That Take up Less Space