Qualcomm just refined the term "blowout" here at Mobile World Congress. It's obviously a critical show for the wireless supplier, and while the 2.5GHz Snapdragon CPU is the undisputed highlight, there's quite a bit of chipset action worth paying attention to if you'd prefer that your next handset / mobile hotspot be capable of handling the world's most advanced network technologies. First off, there's the Gobi3000 modules, which Qualcomm just announced were shipping en masse. Compared to the Gobi2000 that has been infiltrating laptops and MiFi devices for the past year, this one doubles the HSPA downlink speed and enhances the Gobi common application programming interface (API) functionality for enterprise applications. The design supports single-mode (UMTS) and multi-mode designs (CDMA / UMTS), and should be popping up soon in devices from Huawei, Novatel Wireless, Option, Sierra Wireless and ZTE.
Next up are the MDM9625 and MDM9225 chipsets, which are designed to support LTE data rates as high as 150Mbps within mobile broadband devices. These guys are fabricated using the 28nm technology node, and are backwards compatible with previous generations of LTE and other wireless broadband standards, giving consumers using USB modems powered by the MDM9625 or MDM9225 chipsets an uninterrupted broadband data connection on nearly any network around the world. These are being launched alongside the MDM9615 and MDM8215, which are similar chips designed to support multi-mode LTE and dual-carrier HSPA+, respectively. As for the MDM8225? That's being released today to support HSPA+ Release 9 (the latest version, obviously), which will support 84Mbps on the downslope (not to mention dual-carrier HSUPA operation) and should fit into at least a couple of T-Mobile USA devices by 2012. Finally, Qualcomm has nailed down a deal that'll enable all future Snapdragon-powered Android devices to "have access to instant streaming of TV shows and movies from Netflix." Just sounds like a pre-loaded installation to us, but hey, we'll take all the optimization we can get when it comes to streaming video on the mobile.