GPS is one of those science fiction technologies whose use is effortless for the end user and endlessly challenging for the engineers who design it. It’s now at the heart of modern life: everything from Amazon package deliveries to our cars and trucks to our walks through national parks are centered around a pin on a map that monitors us down to a few meters.

Yet, GPS technology is decades old, and it’s going through a much-needed modernization. The U.S., Europe, China, Japan and others have been installing a new generation of GNSS satellites (GNSS is the generic name for GPS, which is the specific name for the U.S. system) that will offer stronger signals in what is known as the L5 band (1176 MHz). That means more accurate map pinpoints compared to the original generation L1 band satellites, particularly in areas where line-of-sight can be obscured like urban areas. L5 was “designed to meet demanding requirements for safety-of-life transportation and other high-performance applications,” as the U.S. government describes it.

It’s one thing to put satellites into orbit (that’s the easy part!), and another to build power-efficient chips that can scan for these signals and triangulate a coordinate (that’s the hard part!). So far, chipmakers have focused on creating hybrid chips that pull from the L1 and L5 bands simultaneously. For example, Broadcom recently announced the second-generation of its hybrid chip.

OneNav has a totally different opinion on product design, and it placed it right in its name. (Read more...)