So now that that physical build is complete (minus the GPS) It's time to start setting everything up. I'll focus only on the elements unique to long range build beacuse I'll assume that anyone building a long range build is capable of setting up betaflight and BL Heli to their liking for basic quadcopter flight.
Crossfire and the X-lite
TBS Crossfire is new to me and was more of a learning curve than I was expecting having started with Flysky then moving to FRSKY a little over a year ago. My current transmitter is the TaranisX-Lite which I've reviewed here. In order to run crossfire on this I needed to purchase and adaptor that allowed the module to physically fit on the back of the x-lite and interfact electronically. This was easier than expected using a JR port adapter which I reviewed and streamlined in this blog.
Crossfire firmware update
Once connected, I set up a new model that disable the internal antenna (i.e. FRSKY protocol) and enable the crossfire module in the external module. Before anything else I used the TBS agent to update the crossfire micro transmitter module to the very latest firmware which allows it to run up to 250mW of power. This is a very worthy upgrade given this was only just bumped up from 50mW. TBS agent can be found here and is very easy to use:
Crossfire transmitter and receiver setup
Once updated, power on your module and bind to you receiver (crossfire nano receiver for me). To do this follow the instructions below:
Once bound, your crossfire transmitter will update you receiver to the latest software automatically using the telemetry function. Very nice and a much better option that flashing physically like with frsky receivers!
By now you should be able to set the ideal settings using the crossfire lua script. Basic settings are: Use 868MHz if in Europe, 915MHz everywhere else; CRSF TX on output 1, CRSF RX on output 2. Your preference on maximum output power and whether dynamic power is on but I chose a fixed power of 100mW for stable and consistent link
Crossfire Betaflight Setup
Setup of in betaflight is simple - toggle serial RX on for the UART you wired the RX and TX wires into and then choose CRSF protocol as the serial based receiver type. Make sure you turn telemetry on as all crossfire receivers and transmitters support this function.
Crossfire antenna mounting
In terms of mounting your antenna the easiest option is the mount along the underside of an arm such that the elements on you immortal T antenna run perpindicular to the arm, parallel with the prop line. I chose my location as much for aesthetics as anything else.
I'm quite happy that this location keeps the antenna away from harm but does a reasonable job of keeping the active elements away from the frame - good enough for what I'm after.
GPS connection and mouning
Luckily for me GPS setup was mostly a simply excercise I chose the Betian BN-180 GPS unit which is cheap and runs the popular GLONASS protocol. Connect the RX and TX ports on the GPS to the TX and RX ports respectively of a spare UART (of which the Omnibus V6 has 5!) and then ground and 5v power from your FC. Mount the GPS 'upside down' so that the ceramic encase antenna is facing upwards towards GPS satelites in Earth orbit. MAKE SURE THE ANTENNA IS COMPLETELY IN THE OPEN. This was my biggest mistake on this build. I found a spot on top of the quad between the aluminium cage sides where there was good visibility from above but didn't realise the sides of the GPS antenna also need to be exposed. As soon as I figured this out I started getting satellite lock. It's now on an uglier but altogether more functional spot on the rear left arm. Of course it's easy writing about this now but being my first install it took me a good fewhours of troubleshooting! Other clever locations I've seen is the top of a go-pro mount or on top of a battery strap if a top-mount battery is used.
Top of the arm is a good location regardless of whether battery is top or bottom mount
GPS Betaflight setup
Setup on betaflight 3.5.3 (and later) was a dream - and I'll assume that you are using and F4 or greater processor in your flight controller because betaflight no longer has GPS support for F3 and older processors. Moving on, here are the step to set up GPS in betaflight:
GPS OSD options
With GPS now set up, you'll probably want to enable the features in betaflight OSD. personally I've used:
Given the extra data that is provided by GPS I'm tempted to pick up some more units for all my 5" and larger quads.
GPS rescue mode
One of the latest and greatest features of betaflight 3.5and up is GPS rescue mode where the quad will climb to a set altitude, yaw towards the home locations and then fly at a set angle towards home when you are more than 100m out. This is a great panic function if you are a long way out and suddenly loose video or something. Note, it won't get you home by itself but it will automatically get you back to a closey location where you may be able to recover video feed and then take back manual control. I'd recommend the official betaflight guide to GPS recue here to set this up.
Unfortunately this is probably the most boring but conversely hopefully the most useful section of my long range build series because I know it was certainly the most time consuming for me because I learnt as I went. Hopefully what this does mean though it that I've shared as I've learnt meaning it should be able to help someone in the same position as me. Obviously with the machine now set up I've been flying this big quad with a screen full of OSD and it's quite a unique experience - I've had up to 8 minutes flight on a 6s 1000mah battery. I've only been about 600m out so far but I plan to push it as time and space allows. Once I've pushed out further I plan to wrap up my build series with a reiview covering the performance of the quad and my findings.
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