I mean, the "goal" is 5 miles radius, knowing that maybe some areas I simply couldn't go due to interference/topography(I would manually drive around checking areas with a map, making "green routes" which are areas where the signal is strong enough to go). because I'd assume if I'm trying to control an RC car a mile, or 5 miles away, there would be hills in the way which might eat the signal(but I'm not sure how well 1.2ghz would work to combat that).Īlso, can someone explain why people don't just use Cell Phones with Cameras, or why companies don't make 4G cameras that can be used, which would have basically unlimited range? What am I missing? Also curious how necessary transmitting from a higher point is, and whether I can/should put an antennae up high somehow. Should I be expecting 1 mile away in a neighborhood/forest? 5 miles? 10miles? Half a mile? Not even being able to penetrate a few houses/trees or a hill possibly, and I lose connection within 0.25 miles? I just have no real perspective and it's hard to find posts/content about people using this 1.2GHZ video system for ground RC cars. Like, for instance, I don't know what I should be expecting at all. ![]() Certainly willing to learn and spend a bit of money within reason, if it'd be worth doing. Still in the information gathering stage here, to see what is possible, and if it'd be worth doing or not. Also, if anyone has experience doing this(or even things like flying Plane/Quad really far away really low, which might be comparable), so I can get an estimate of how well/spotty this system would be, that'd be awesome.Īlso if anyone has any other suggestions as an alternative, that'd be cool as well. Also I'm confused about what it outputs to, and how(can I have it just output to my computer monitor somehow, or my iphone/ipad, or do I NEED a FPV goggle set, etc).Ĭould someone just go through what I would practically need to do to make this work? I think the bigger wave system would be sort of needed because it'd need to be going through things like houses, trees, etc. And for controls Crossfire.Ĭan anyone go into any detail about this system(1.2 ghz Matek), what it would require me to do? I hear a lot of people talk about things like relay stations, separating noise from 900mz control link, and I don't really know what any of this means. But, as of now I'm thinking of doing the 1.2 ghz Matek VRX/VTX combo. it sort of depends on how well it works out. And really I don't know what that means yet. ![]() So, what does the future hold for Spektrum users? Design, refinement, and testing continue today and will provide even more technological advances and breakthroughs in the future.I've been doing a bit of research trying to figure out what kind of setup would be best for a Long Range RC Car. Smart RC batteries discharge automatically-a feature you won't find anywhere else. However, Smart chargers recognize the Smart battery's charging parameters as soon as they are connected, making the process safe and fast. ![]() Safety is always a big concern when charging RC batteries. RC enthusiasts receive all-in-one telemetry to see temperature, RPM, voltage, and more. Spektrum Smart products work seamlessly together-batteries, chargers, and ESCs. The latest innovation is the Smart ecosystem. Rough terrain, slick surfaces, loose dirt-drivers have full-throttle freedom whatever is down the road. ![]() With an AVC system, drivers can literally dial in extra stability as needed with their RC transmitter to carve corners or nail jumps without having to back off the power. On the surface side, one of the most innovative technologies developed has been Spektrum AVC (Active Vehicle Control).
0 Comments
Leave a Reply. |