Almost a week after the iPhone 4's launch, questions remain overwhen gripping the phone in a particular way.
Apple has called this a "iPhone 4.," despite users being able to repeatedly reproduce the problem. In the meantime, it's been suggested that it might be a problem that with a software update. Others have said, and Apple has suggested, that users buy a case to prevent fingers from coming in direct contact with the antennas built into the metal band surrounding the
Brian Klug and Anand Shimpi at tech blog Anandtech have conducted their own hands-on experiments comparing different smartphones and their reception when the antennas are covered. They sum up their findings this way: "At the end of the day, Apple should add an insulative coating to the stainless steel band, or subsidize bumper cases. It's that simple."
The bumper case is a rubber holder that just surrounds the exterior of the device, and that Apple started selling the same day as the iPhone 4 for $29. Apple has already said. It's not clear why the company wouldn't do that, especially when the problem has been reproduced by many people, though it varies by place and person.
They conclude that Apple's design choice of putting the antenna directly into the metal band where a user normally holds the phone does improve signal strength. But when the user's hand cups the phone, the signal is markedly decreased. The signal is "very sensitive to direction, ambient conditions, and cell breathing," they write.
"The results are pretty self explanatory," they add. "Inside a case, the iPhone 4 performs slightly better than the Nexus One. However, attenuation gets measurably worse depending how you hold the phone. Squeezing it really tightly, you can drop as much as 24 dBm. Holding it naturally, I measured an average of 20 dBm."
It happens in most phones,on the matter last week. But those other phones do not have the antenna built directly into the phone's case, and that doesn't mean the problem can be avoided, Klug and Shimpi conclude.
"There's nothing Apple nor anyone else can do to get around physics, plain and simple. It's something which demonstrably affects every phone's cellular reception."