I’ve described my Dropship Glider Project here. Previous weekend I finally tested its ability to glide when dropped from a drone 50m above the ground. And well… to be honest, I failed hard this time. Just see this short video from FPV camera:
Dropship survived two drops. After second one, AIO camera/transmitter combo got damaged. Continue reading “Project “Dropship glider” – failure #1” »
Recently released INAV 1.7.2 introduced new hardware support: analog airspeed sensors. I’ve written new but it is new only to INAV. Analog airpseed sensors aka APM Pitot Tubes aka Ardupilot Airspeed Meter and one the market for years. And they are cheap. By cheap, I mean below $30. And until recently they were usable only in APM world.
Continue reading “How to connect APM Airspeed Sensor (Pitot Tube) to INAV” »
I just finished first test flights with laser rangefinder VL53L0X and well, I'm disappointed. Before I will show any data, let's review test conditions:
And it looks like this:
Solid readout ended at more less 80cm. Above that, valid readout appeared only from time to time. So I have to assume, that everything above 1m is absolutely not reliable and useful range is max. 75cm. Probably much less over different surfaces.
And that means it will have rather limited usefulness. Landing detection probably. Or low altitude flights with terrain following. I tried that too and it worked as long as quadcopter was not higher as 20 or 30cm above ground.
Oh well… I had high hopes for VL53L0X. Next attempts will be with hybrid approach: US-100 sonar and Sharp optical (IR) GP2Y0A710K0F (up to 5 meters) data fusion.
When I saw this video from rctestflight I knew I will build something like that for myself. A voila, few months later it is done. Here is Dropship Glider.
It is 29cm long with 20cm wingspan. Weights 97g AUW and has 21g/dm^2 wing loading. So, in theory, should glide. Somehow… If I got center of gravity right. And did not made ailerons too big. Or…
Delta 6mm Depron "wing" is attached to 6mm carbon fiber rod and has some quite big dihedral: 15 degrees.
The biggest problem was radio link and mixer for ailerons. I could not use my Taranis: I need that for a carrier and only radio control link I had was EM-16 with PPM output only and no way to setup any kind of mixer. The radio just has no "features" like that…
So, took one Arduino Pro Mini and wrote short program that acts as PPM decoder and mixer for ailerons.
First flight, or rather drop, tomorrow. There will be a video from the event of course…
My GPS Racer is less and less fun project. For last few weeks it acts as sensor platform for my attempts to bring rangefinders and terrain following modes back to INAV. This time in a way that will work.
Two weeks ago it was carrying HC-SR04 sonar (crappy device). Week ago it was carrying US-100 (much better device). This week it is carrying both US-100 sonar and VL53L0X lidar!
DigitalEntity apparently had too much spare time and he finally wrote (ported) a driver for VL53L0X and starting from version 1.8 (probably) INAV will be able to use this cheap lidar.
Yes, VL53L0X is cheap and that means it's not state-of-the art device. First of all, it has limited range. 2m is all it can do in a room. No idea how it will behave in sunlight. Hard to guess, but I'm afraid that 1m will be all it will able to do in real life conditions… But we will see in a next few days.
I have a news for all INAV pilots using Naze32, Flip32 and other boards compatible with NAZE target. You might call it a bad news, but reality is that it is not that bad and was long anticipated. It is official: INAV 1.7.2 was the last INAV release with NAZE target. That means the following: INAV 1.8 will not be available for Naze32, Flip32 and other boards compatible with that target.
You might was "why?". Quite simple: not enought flash memory, no way for new features to fit in. There was even not enought flash memory for bugfixes. And to be honest, I do not remember last time when NAZE users really got a new feature. Almost all new things were disabled for them. For more than a year, compiling NAZE target after adding something new was quite a challenge.
Does that mean that you can not use Nazes any more? Absolutely not. They are good boards and INAV 1.7.2 works on them just fine. You only will not be able to upgrade to INAV 1.8. And trust me, it is really worth it to invest in something better like F3 board. They are not that expensive after all…
By the way, CC3D is the next thing to be removed. Not yet, it still fits flash. Barely, but fits…
More than a year a published a post called Generate PPM signal with Arduino. Today it's time for part two: How to read PPM signal with Arduino?. Strange thing: internet does not gives very useful information on this topic. Strange, right? Some links to pages that does it either very very wrong or in not simple way.
There is a one almost good solution. It's an example code by Hasi123. Short, efficient and actaully works almost out of the box. But it has 2 problems:
Timer1 and that means, that many other things stops to work: PMW output, Servo library or anything else that uses Timer1. Crap…So, I've invested some of my time and, based on that code, I've created Arduino library called PPMReader. Advantages?
Example code, that reads PPM signal connected to Pin 2 of Arduino Uno or Pro Mini (and other using ATmega328) and prints decoded channels over serial port would look like this:
#include "PPMReader.h"
// PPMReader(pin, interrupt)
PPMReader ppmReader(2, 0);
void setup()
{
Serial.begin(115200);
}
void loop()
{
static int count;
while (ppmReader.get(count) != 0) { //print out the servo values
Serial.print(ppmReader.get(count));
Serial.print(" ");
count++;
}
count = 0;
delay(500);
}
The only required configuration is a decission of a pin and interrupt. Not all pins have hardware interrupts, so on many boards this is limited to:
pin 2 / interrupt 0 or pin 3 / interrupt 1pin 3 / interrupt 0, pin 2 / interrupt 1, pin 0 / interrupt 1, pin 1 / interrupt 3, pin 7 / interrupt 4 PPMReader Arduino library can be downloaded from GitHub.
You just know a great project when you see one. Like, for example, large BiCopter made from wood and running INAV and flight controller software that kermets has built.
BiCopters might look strange, but the idea is quite simple. Instead of 4 motors, we have 2 motors and 2 servos tilting the motors. Like a one step further from a tricopter.
Similar idea (not the same, only similar) is used on large helicopters like Boeing CH-47 Chinook
Let's say I have almost a good news about sonar support in INAV: yesterday I flew terrain following mode with experimental INAV code. And did not crashed when shooting video below. I did crashed next code version, but that is only a minor detail, right?
Chasing airplanes with drones is cool. Do not try to argue 🙂 But airplanes are cool too. So here is a short video my friend shoot some time ago:
Drone pilot: Krystian
Flying wing pilot: me (I had no idea I was chased)
