Fun cube pro1/15/2024 ![]() ![]() It turns and maneuvers like a much smaller board. Rest assured the Cube 87L never felt too big. I was nervous that the 87L was going to be too big for my typical 4.7m2 sessions where the wind can be super gusty but my trusted Quatro confidant assured me the 87L was the choice. Initially before purchase, I had the mental screen freeze when choosing between the 82L and the 87L. Every new iteration leaves me dumb founded on how there can be massive leaps forward when you would think it would only be a slight evolution. ![]() I sail mostly in side-on shore to side shore conditions with waist to head high waves ±40 days a year. Quatro's relentless pursuit of excellence once again manifests itself in boards that are at once both attainable and aspirational. Please let me know if you have any other questions or if there is anything that we can help with. You could move up to 16.5cm or 17cm since you are 83kg, but I would first try to get used to the smaller fins placed back if any. If it is too much, just move the fins back. So just put the side covers on it and see how it rides. Twin will work even better for your conditions as the board slides more and becomes more unpredictable = + Fun. Many thanks and best regards fron Hamburg, If yes what will be your recommendation for the fins type and size. My question is dose the board work as an twinzer fins ? Sailrange will be 4.7 to 5.3 rider weight 83kg age 58J The conditions are mostly onshore with mushy small waves and therefore I do not need a quart set up. Hello I have a cube 87l and like to use a twinzer fin setup for the usage in Germany at the Baltic Sea. We figured it’s a worthy trade off, as our love for windsurfing and the planet only grows.Īvailable in 75, 82, 87, 93, 98, 106 liters.Ĭomes with the latest generation MFC footstraps. Keeping your planet, our planet, one step cleaner. The new Quatro Windsurfing boards now come packed in recycled cardboard and paper tape only. In larger waves, the Cube Pro’s grip aids holding your line when the slightest chop could otherwise throw you off.” Quad fin setup provides grip in any type of wave section, regardless of the angle you put the board in to hit it. Tail outline and rocker allows you to transition this speed into rapid tight turns, redirecting when and where you need to at a moment’s notice. ![]() The latest iteration features a fuller outline to increase early planing and acceleration to top speed. The Cube continues to thrive in side-onshore, onshore, and bump & jump conditions. *Uploading to the warehouse requires registration with the FUNcube Data warehouse.Īll the code for the telemetry decoder, and the scripts to build the Docker images, are now published online at the FUNcube-Dev GitHub account – under a GPL Open Source License.Keith Teboul: “More speed, more drive, more snap. *Both modes, when connected to the internet, will upload the received data to the FUNcube Data Warehouse and the totals displayed on the Ranking Page in the normal manner. This mode allows for the automatic restarting of the telemetry decoder after a shutdown or reboot of the Raspberry Pi, therefore making it suitable for a remote deployment situation. “Background Mode” allows the telemetry decoder to run as a Docker image in the background where it operates much like any other background service on Linux. “Interactive Mode” is when the Telemetry Decoder operates in the foreground, when FUNcube compatible telemetry is received, the corresponding hex data is displayed on the terminal screen. The Pi decoder receiving telemetry from JY1Sat in Interactive mode The decoder and warehouse uploader run as a Docker container for convenience shell scripts have been provided to launch the container in one of two modes: The Telemetry Decoder is configured with five active decoders operating concurrently so it can deal with situations where more than one of the spacecraft are overhead at the same time. The software will tune a dongle to search for and track all three FUNcube compatible spacecraft currently operational. The Linux implementation is suitable for use on Raspberry Pi versions from 2B+ to 4 and with a FUNcube dongle (Pro or Pro+). This led us to evolve the code such that it would run on a Raspberry Pi. Late 2019, we had the opportunity to develop a low power/low impact ground station, based on Docker containers, for use at the Neumayer III Antarctic base at DP0GVN. We had planned to opensource the Telemetry Decoder and provide an implementation on Linux, but several new missions after the original FUNcube-1 delayed our plans somewhat. The original FUNcube telemetry decoder and Dashboard was designed to run on Windows devices and we did publish the telemetry format in accordance with the Amateur Satellite Service traditions and requirements. The FUNcube Raspberry Pi Telemetry Decoder. ![]()
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