On the outside, Apple’s new AirTag looks like a ho-hum product that we have all seen before. It’s a disc-shaped tracking gadget that can be attached to items like house keys to help you find them. But inside, the story gets far more interesting. The airbag, whichintroduced last week, is one of the first consumer electronics to support a new wireless technology, ultrawideband, which lets you detect precise proximity between objects. Using ultrawideband, your iPhone can sense whether an AirTag is an inch or dozens of feet away from it. It’s so accurate that its app will even show an arrow pointing you toward the airbag. That’s far better than other , an older wireless technology that can only roughly guess an item’s proximity. (More on how this all works later.)
Using an ultrawideband to find lost items is just one early example of what the technology can do. Because of its pinpoint-precise ability to transfer data quickly between devices, ultrawideband could become thestandard that succeeds Bluetooth. It could lead to better wireless earphones, keyboards, controllers — you name it. “This is the tip of the iceberg,” Frederic Nabki, chief technology officer of Spark Microsystems, a Montreal firm , said of trackers like the airbag. “It sends its data fast.” I tested Apple’s $29 AirTag, released on Friday, for about a week. I used the tracker to find house keys, locate my dogs, and track a backpack. I with Tile, a $25 tracker that relies on Bluetooth and has been around for about eight years. Last week, Tile complained that Apple had copied its at a disadvantage in an antitrust hearing. My tests comparing AirTag and Tile found that Ultrawideband was far superior to Bluetooth for finding items. What’s more, the that is worth getting excited about. Here’s what you .
How ultrawideband and Bluetooth work
Ultrawideband has been developing for over 15 years, but it was built into chips for iPhones and other smartphones only in the phone pushes out a continuous signal in search of it. The farther you it, the stronger it becomes. This technique tells you roughly how far away you are from the tracker.. Using an ultrawideband to find a tracker works similarly to sonar, which detects objects underwater. You ping the tag, and the title bounces back to your phone. The time it takes for the ping to return is used to calculate the distance between the two objects. But when you use Bluetooth to find a tracker, your
Tile vs. AirTag
So, what do the two underlying wireless technologies mean in practice? Tile uses Bluetooth technology to find items with both app access to their location to help find other people’s lost items. If a Tile-owning Samaritan is near your Tile, that person’s device will with the Tile network, showing where it was last spotted on a map.phones. Open the Tile app, select a thing, and hit the “find” button. The to connect, making the tracker play a melody. If the signal connection is weak, it will tell you to move around until the movement strengthens. If your phone can’t find a Tile because it is outside its range, you can put it in “lost mode.” The tracker will search for other Tile owners who have granted the Tile
, both new and old. More recent devices (the iPhone 11 and 12 series) can utilize Ultrawideband’s special locator abilities. You open the Find My app, select an item, and tap Find to find a thing. From there, the app will form a connection with the airbag. The app combines with the phone’s camera, sensors, and ultrawideband chip to direct you to the tag, using an arrow to point you to it. can track AirTags with Bluetooth using a method similar to Tiles. Like Tile, when an airbag is lost, and outside the range of your phone, you can put it in lost mode and allow other Apple phones to find the AirTag to help you see where the item was last spotted on a map.
The benefits of ultrawideband could easily be seen in a few tests. For one experiment, I asked my wife to hide several AirTags and Tiles throughout our home and how long it took me to find them. She suppressed anto my motorcycle key in our bedroom in one test. After rummaging through the covers and peeking under the bed, I found the AirTag crammed under the mattress. used an arrow to point me toward the mattress, and I pressed a button to make the tag play a sound. It took about 90 seconds.
Next, I had to find a Tile attached to my house key. I opened the Tile worked when they were too far from my phone, I attached a Tile and an AirTag to both of my dogs’ collars and put the tags in lost mode when my wife took them for a walk. Nearby smartphones eventually helped me locate both trackers to show me where the dogs were in the neighborhood.the Find button. The app said the signal was weak and suggested I walk around for a stronger connection. As I moved downstairs, I could hear the Tile’s melody, and the app said the signal was getting stronger. I a bin in a garage locker. It took about a minute. The toughest was an AirTag hidden inside a book. Apple’s Find My app pointed toward the correct shelf, but I couldn’t precisely tell which book the tag was shoved inside. After , I found the AirTag inside a cookbook. This provided my wife with three minutes of entertainment. Separately, to test how the trackers
Even though the airbag is an impressive demonstration of ultrawideband technology, it isn’t the best tracker for everyone. Because of AirTag’s compatibility with Android phone. The airbag is also far from perfect. I wish they were louder — they are reticent compared with Tiles — so playing sound wasn’t very helpful for finding them. I also did not love that the , like a key ring, to hold the tracker for most purposes. In contrast, the Tile has a hole punched into its corner to attach to a key ring or zipper head. (The $29 of the AirTag is eclipsed by Apple’s $35 leather key ring.), I would give an AirTag to an iPhone owner. But I would provide a Tile to a person with an
Still, ultrawideband gives AirTag a significant advantage — even Tile thinks so. Last week, CJ Prober, Tile’s chief executive, said that This month, it announced it would soon release a plan for other companies to use the ultrawideband technology inside Apple devices. I’m happy to wait for those using this neat wireless technology. Because of its greater efficiency at transmitting data, ultrawideband could improve future wireless devices, Mr. Nabki said. For example, he cited cord-free earphones that connect instantly, use very little battery, and sound as good as wired ones. That sounds much cooler than finding house keys.his company access to the iPhone’s ultrawideband chip to make the trackers that work with it. “They launched a competing product, and they’re leveraging that technology that allows it to do things that our product can’t,” Mr. Prober said in an interview. “We competition should be fair. Fair competition leads to better outcomes for consumers.” Apple said in a statement that it had to protect the privacy of iPhone users’ location data, adding that it embraced competition.