The typical iPhone hardware refresh that used to happen in June has come and gone, and many now expect the next-generation iPhone to arrive in September. There’s still evidence and debate over what the handset will look like, but we already know it will run on iOS 5, which adds notable new features even an Android owner can appreciate. What we don’t know is if the newest iPhone will be available in a single model that supports various 4G networks.
Aside from the materials cost bump, the Thunderbolt has separate chips for the 3G and 4G radios, which can drain the battery faster than a chip that integrates all of the radios together, for example. More radios mean the phone could run hotter and also require more space. Apple has been shrinking the circuit boards in the iPhone line over time and isn’t likely to make the next iPhone bigger by using multiple radio chips. It’s rare that Apple adds a feature to hardware that isn’t fully baked, so I don’t expect LTE support in the next iPhone.
Need another reason? Widespread LTE networks aren’t yet available in the U.S.: Verizon is leading the way with LTE coverage in around 75 markets, with plans to light up 145 total regions by the end of this year. AT&T however, expects to launch LTE in just 5 markets this summer and an additional 10 by year end, covering an expected 70 million people. The amount of LTE network coverage just doesn’t warrant Apple moving to LTE for the iPhone yet. And unlike HSPA, a 3G technology used in the current iPhone, not all LTE networks around the world use the same 700 MHz frequency that Verizon and AT&T have built their networks upon. In contrast, the iPhone works on the majority of UMTS/HSPA networks that use frequencies of 850, 900, 1900, and 2100 MHz. LTE frequencies are always likely to be an issue, but the short story here is: LTE is still maturing and evolving.
Depending on your definition of 4G, I would expect the next iPhone to have faster mobile broadband speeds due to the use of HSPA+ technology. T-Mobile currently uses HSPA+ that offers theoretical network speeds of up to 42 Mbps. AT&T is in the process of upgrading its own network to support faster HSPA+ speeds, although not at 42 Mbps. So it’s logical to expect a bump in the mobile broadband capabilities of the new iPhone, not to mention a dual-core processor for faster response. The A5 chip with two processing cores used in the iPad is likely to find a home in Apple’s newest handset.
Given this network situation, it’s far more likely to me that the new iPhone have the iPhone 4S name since it would mainly see a speed bump in the processor. When LTE becomes more widespread and easier to support with integrated chipsets, an iPhone 4GS would likely follow in this scenario, just as the iPhone 3GS followed the 3G, although the model with faster network support arrived before the phone gained much more processing power.
The only caveat to this line of reasoning is: what if the new iPhone was delayed from its yearly refresh to give Apple just a little more time to work out efficient LTE support? Will Strauss at Forward Concepts doesn’t think the timing would work: Baseband chip makers are still too far behind, but perhaps they’ve made more progress than we know. The network coverage problem would still exist, but would disappear over time as Verizon and AT&T continue to build out the infrastructure for fast 4G support. And Apple’s iPhone would already be ready to take advantage of the faster speeds: Possible, but I still think unlikely. We’ll know in the next six to eight weeks, unless someone leaves a test unit of the new iPhone in a bar, that is.
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