Just going to show you my Speed Addict 210 build, with the most popular setup (used to) Cobra motors, Littlebee 20A Naze32 Rev6, SBUS.
If you missed my review of the Speed Addict 210 mini quad frame, please check it out first.
- Speed addict 210 frame (including PDB)
Naze32 Rev6XRacer F3
- X4R-SB Receiver
- FVT Littlebee 20A ESC
- Cobra 2204 2300KV motor
- Gemfan 5045 Props (non Bullnose)
- Hawkeye 200mW VTX
- Micro MinimOSD
- HS1177 FPV camera
Originally I was going to use the FPVModel X-Racer F3 flight controller, but I accidentally damaged the buzzer pins as well as the diode on the USB 5V. While I am waiting for a replacement I had to use the Naze Rev6 because I wanted to use SBUS without any mod.
Latest video on this quad
Let the build begins
Motors and ESC’s
To save weight and keep the build tidy, remove all the unnecessary wires, and wolder the motor wires directly on the ESC’s.
PDB and XT60 connector
I measured how long I want my LiPo battery XT60 connector cable to be, and made sure it fits in the frame before soldering (important).
The way we solder the XT60 cable on the PDB is different from how we normally do it. This is due to space limitation on the frame, the cable has to be soldered on the PDB vertically. It was actually easier to do than I thought.
Motor bolts are provided as part of the frame. These are the same light weight blue aluminium bolt used on the frame. I am only using 2 to save weight. (A bit risky though)
I mounted the motors, ESC’s, and PDB on the frame.
I passed the power wires from the ESC through the gaps, reach the bottom side of the PDB, and soldered them there.
Once the ESC’s are done, I put the bay guard on.
FPV Setup: Camera, OSD and VTX
The FPV camera mount provided in the frame is specifically deisgned for this camera i think. I unscrewed the backplate, put the 3D printed mask on with provided silver screws.
The minimOSD will be getting all the flight data from the flight cotnroller, so the solder is minimal on the OSD. I am using a servo lead for the Video in and Video out, which can be plugged into the PDB directly. header pins for the TX, RX, 5V and GND. The extra header pins is the DRT which is used for flashing firmware.
I found a perfect location for my Hawkeye 200mW video transmitter. I think this is a great match.
Before I went on, I first tested the 5V and 12V power from the PDB with a multimeter, confirmed I was getting the expected voltages. Then I plugged in all my FPV gear, to check if I was getting video feed.
Again, due to frame space limitation, the motor pins on the FC has to be soldered underneath the board. Some people prefer to solder ESC directly on the flight controller, not only saving weight but also space. That’s entirely up to you.
For the SBUS RX input, rather than soldering header pins, I use a servo lead instead. That’s easier because SBUS uses pin 4 which is not next to 5V and GND.
If you are going to race with other pilots, you have to install some sort of LED’s.
I strongly recommend this simple mono colour LED bars. The come in 4 bars in a pack (only $1.5), each with different colour (white, blue, green, red). Most importantly they can be powered directly from 4S! Making the wiring much simpler. I use them on all my builds.
They are super bright too.
This is the recommended place for your RX either X4R-SB or D4R-II. it’s a perfect fit.
As I pointed out in the review, the blue plastic tubes are just too long, making it difficult to fit in my case and backpack. So I decided to cut them shorter, and flipped the excessive antenna around and secured it with heatshrink.
I would probably have kept it longer, to get a better radio reception and less chance of having the signal blocked by Carbon fibre frame. But flew it a couple of times now no signal issues so far.
We have installed all the guts, so it’s time to put the top plate on.
As well as installing the FPV camera.
I really like this way of mounting the camera. The tilt angle on the camera can be changed by hand. Once you found your desired angle, you can fix with 2 screws on both sides. But on mine, there is enough friction between the camera and the frame, it actually holds the angle really well without the screws. Yet I can still move the angle by hand.
And finally, putting the gopro mount on this frame. Very clever design, and nice job on the vibration damping cells.
And there she is :)
I am planning to use Gemfan 5045 non bullnose propellers on this build. A bit less power than the bullnose, or triblades props, but would be a lot more efficient and giving me longer flight time :) But the main reason is that I have too many of those props, and didn’t know what to do with them hehe. :)
And you can see this is really a tight build, literally no space left hehe.
The build weights 350g without LiPo and GoPro. Including LiPo and GoPro it’s around 590g.
A few thoughts after the build:
- The instruction video from Catalyst Machineworks was extremely helpful, make sure you watch it before building yours
- Be very careful with the position of the XT60 wire, it can get tricky if you don’t plan it before hand.
- Also be careful with the header pins on the FC (if you are using header pins), they must be placed underneath, and make sure there is enough space. You might want to consider direct soldering.
- The gopro is very exposed in crashes so I was thinking to mount some sort of GoPro protector on top of the Gopro. I discussed this with Neill (the frame designer), he told me they have zero damaged gopro so far, as the TPU material bends in crashes so the gopro doesn’t take all the impact. However he has agreed to produce this protection mount in near future.
- It would be great to move back lipo strap slot, as lipo tend to be sitting back if having gopro at front.
- I am finding there is too much tilt on the gopro mount. I enjoy free flights, and not so much on racing, so normally i don’t go that fast anyway. So be aware of what you angle you choose when purchasing this frame. the one I have is 35 degree i think? I would prefer 5 to 10 degree less tilt, with the Gopro superview it requires less angle than the FPV camera..
Test Flight and Tuning
Here is my first flight with this quad, still got lots of tuning to do. I am also finding this quad a bit harder to tune than my previous builds. Mind you this is the first time I use a Naze32 Rev6 with Betaflight, so it could be that.
I am seeing lots of vibration in the gyro traces in blackbox, I think some of us in the multirotor community has concluded that the MPU6500 give very noisy gyro data, causing the mini quad harder to tune and lower PID values. (most FC’s use MPU6000 or MPU6050, only the Rev6 and LUX F3 use 6500)
I was using 2Khz mode originally, but it’s just impossible to get rid of the oscillation so I would have to move back to the good old 1Khz and so what happens. Here was the discussion on this issue.
Or it could also be the 3mm bottom plate not being stiff enough, Neill is going to send me the 4mm plate to compare.
Anyway, ultimately I want to get rid of the Rev6 and install the XRacer F3 on this quad.
XRacer F3 Flight Controller Rocks !!!
(27/Feb/2016) So… I swapped out the crap Rev6 and now we are talking! XRacer F3 is great apart from no VBAT… I am using MinimOSD to read voltage at the moment, but apart from that it’s all good!