My ZOHD Nano Talon is a cursed one… Crashed, then rebuild, then smoked a GPS, then smoked an ESC…. But I hope I've finally done it. Glass fiber reinforced tape and carbon strips, as well as UHU Por, makes wonders. Plus, I've made V-tail not detachable anymore. Let's see how that is going to work
If you really really want, you can solder without flux. But it is a painful experience. Almost all modern solders have flux integrated into its core. And as long as you do not try to solder anything big, it's enough. Of course, sometimes it is not enough and you have to help yourself with additional flux.
My favorite solution lately is a flux pen. Like Stannol x32-10i
This is one of the most frequently reported things about every new version of INAV Configurator: from time to time, it starts minimized and it can not be made visible. It is a bugger connected with a fact that INAV Configurator does not have an installer. It's just "download and run" and after releasing a new version, we can not delete stored data during install. Since there is no install process.
This is one of the most useful INAV functions for fixed wings! Servo autotrim solves the problem of trimming the airplane for level flight. Yes, flight controller does is “automatically” in stabilized flight modes, but for good Manual flight performance, you just have to have trimmed control surfaces. A long time ago you had to use some tricks and “adjustments” but for quite some time, INAV can do trimming for you.
After a maiden, I’m not very happy… Nano Talon is quiet, efficient and small. But flight performance is not overwhelming. Even quite far good. Let’s say it’s OK. But the worst thing is that I crashed mine due to hardware failure. ZOHD, where is quality control? This should not happen.
Details for halfwave dipole for an 868MHz band are quite simple:
- two 0.8mm copper wires (used for welding) cut to 77mm and solder to the end of coax cable. Here I've used RG174
- put that thing into a 3D printed casing
- put antenna tubes around wires. I got mine from here: https://goo.gl/HrWNcY
- glue everything together
- you are done!
Moxon antenna in layman terms, it's probably a simplest linearly polarized directional antenna. It's like a bent halfwave dipole with a bent reflector in a back. Think about it as a very simplified Yagi antenna. It does not have much gain but has very good backward rejection. And thank's to a simplicity, Moxon is super easy to build at home. And I'm proud of radio carrying handle snap mount. I think I did a good job over here.
I've built mine with some 3D printed parts, 0.8mm copper welding wire, 22cm of RG174 coax and RP-SMA plug. And some glue of course! Result? It's definitely directional 🙂 I'm not using it very often, but it's small enough to be taken everywhere where I take my X10S.
No idea how accurate it is, but surely results are plausible. Bluetooth with iENV Android application also works, but instructions how to set it up were not clear. The secret is that you do not have to bind UT363BT with a phone. Just open the iENV app, enable Bluetooth in UT363BT and connect. No pairing required!
Small, light, quite well thought through. Here is how I've built my ZOHD Nano Talon, small FPV airplane using following components:
- Airplane: ZOHD Nano Talon PNF
- Flight controller: Matek F405-Wing
- Radio: FrSky R9 Slim long range receiver
- Motor: T-Motor F80 1900KV
- FPV transmitter: AKK X2-Ultimate 1200mW
- Camera: RunCam Eagle 2
- GPS: Beitian BN-880
- Software: INAV 2.0
First flight, quite soon. And I have quite a lot of expectations about this plane. Maybe even too much. But let's see how it will handle itself in the air.
FPV, right? Long range maybe? With a 5.8GHz system, it’s really hard to call it a long-range but what if you put a ridiculous amount of power on transmitter module? 500mW? 800mW? Nope, not enough. Let’s go big and have a practical look at AKK X2-Ultimate which says it does 1200mW of RF output power! 1.2W put into the aether. Wow…