Smartphone stabilizers (aka gimbals) for smartphones allow you take much better videos while on the move, as they smooth the shaking that occurs when you walk, run, or bike. Stabilizers are currently available, such as KumbaCam or other white brand stabilizers, are sold for $250 to $400, but Navin, a Taiwanese company, has designed a cheap video stabilizer for smartphones with ProView S3 that starts at $125 + shipping via Indiegogo. ProView S3 3-axis stabilizer can handle larger size smartphones, features orientation sensors, precision motors, and stabilization algorithms to provide smooth video recording. Some of ProView S3 specifications and features include: Adjustable mount from 67mm to 78 mm width Wind resistant thanks to algorithms and mechanical design Connectivity – Bluetooth 4.0 for wireless firmware updates Dual IMU sensors with tilt, roll, and pan motors. Underslung shot- You can take videos upside down too… 4 operational modes – Full Lock (no […]
$15 and Up NavSpark is a tiny GPS / GNSS Arduino Software Compatible Board (Crowdfunding)
[Update: I’ve been told the project is actually launched by SkyTraq. But later, after Indiegogo perks are shipped, they expect to have our customer NAVIN handle later orders and manufacturing, the non-engineering development side of things. Updated post accordingly] Navin, a Taiwanese start-up specialized in location products, SkyTraq, a fabless semiconductor company, which develops GPS chipset for consumer navigation and tracking applications, has recently launched an Indiegogo campaign for NavSpark, their low cost GPS / GNSS board with a 32-bit LEON3 SPARC V8 MCU that can be programmed with the Arduino IDE. Two other models are available: NavSpark-BD for GPS/Beidou, and NavSpark-GL for GPS/GLONASS. NavSpark NavSpark specifications: GSP Receiver – SkyTraq Venus 822 LEON3 Sparc-V8 MCU @ 100MHz with IEEE-754 Compliant FPU, 1024KB Flash Memory, 212KB RAM. GPS – quad-GNSS engine capable of handling 34 GPS / GLONASS/ Beidou / Galileo signals in parallel I/Os – 1x full duplex asynchronous […]