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I am using the APM 2 for both my quads and it is tricky to get the barometer covered to avoid errant airflow since it is below the daughterboard. To solve this, I ended up pretty much filling up my stack cover with breathable foam. But once that was done, I could barely see the on-board LED indicators.

Fortunately, the current code supports remote indicators without too much trouble.

If you look at the pin-out images on the Wiki, you will see that the AN pins are labeled Motor LEDs. They really don’t have a lot to do with the motors – but they do serve as pretty handy indicators.

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If you look in the code, you will find defines for these pins as follows:

AN4 – Motor or Aux LED

AN5 – Motor or Beeper

AN6 – Motor or GPS

AN7 – Motor

AN8 – Motor

For my purposes, I focused on AN5 for the Beeper, AN6 for GPS indicator and AN7 as an Armed indicator.

The default seems to be to have the beeper enabled and the LEDs on. That is easy to change however. The different possibilities are set using bit masks to build the LED_mode parameter. A bit mask (if you already know, feel free to skip ahead) is simply a way of packing a bunch of on/off settings into one byte of data. A Byte is 8 bits, so you can have 8 different switches in one byte.  If you look at the following table, you will see a single bit is set to ‘1’ and the rest to ‘0’ in each row. To build the mask, you just add all the rows together and convert to a decimal number (or convert then add).

Bit Number

7              6              5              4              3              2              1              0

0              0              0              0              0              0              0              1      =      1              Motor LEDs On/Off

0              0              0              0              0              0              1              0      =      2              GPS On/Off

0              0              0              0              0              1              0              0      =      4              AUX Function On/Off

0              0              0              0              1              0              0              0      =      8              Beeper On/Off

0              0              0              1              0              0              0              0      =      16            Low Battery Flash – fast/slow

0              0              1              0              0              0              0              0      =      32            Motor LEDs NAV blink On/Off

0              1              0              0              0              0              0              0      =      64            GPS LEDs Nav Blink On/Off

1              0              0              0              0              0              0              0      =      128          Not used

 

Note that the NAV settings cause the LEDs (either the motor LEDs, the GPS LED, or both) to blink 3 times when you hit a waypoint in AUTO flight.

The low battery flashing defaults to fast flash so setting that bit to 1 will enable slow flash. 

 

I really only want the beeper, the GPS and the Motor LEDs on, so I set the mode to decimal value 11 (which is binary 00001011). This should equate to: GPS Nav blink off, Motor LED Nav blink off, low battery flash fast, beeper on, AUX off, GPS on, Motor LEDs on..

 

The way you set this to be the value used is through the Mission Planner.

 

Establish a connection with the APM and the Mission Planner software. Go to the parameters list and find LED_Mode. It should be set to something like 9. Change that to 170 (or whatever you decide to use) and write the settings to the APM.


The outputs on the APM are 5V, so for most LEDs, you’ll need a resistor on the positive lead (the longer leg of the LED). In my case, the blue LED I was using required a 100 Ohm resistor and the red one required a 150 Ohm resistor (note – not going to explain it here, but there are a ton of online resources and calculators to figure out the resistor values needed for a given LED). I soldered up the resistors and LEDs to leads and cemented them at the edge of my stack cover’s base. For the beeper, I just used a 5V piezo beeper I happened to have lying around. Radio shack sells one that will work, but it isn’t very loud. If you want volume, you may need to shop around,

 

When you connect to the AN outputs, you need to run the negative lead to the ground pin (the one nearest the edge of the board) and the positive lead goes to the signal pin (the one farthest from the edge of the board). The middle pin is always 5 Volts so if you plugged in there, the LED or beeper would be always on.

 

Beeper goes to AN5, GPS to AN6 and the ARMED light goes to any other motor LED output, but I chose to just use AN7.

 

That’s all there is to it. When you turn on the APM, you the LEDs will stay off until it is booted, then will flash the same as the on-board ones. When a GPS lock is achieved, the GPS LED will stay lit. When the bird is armed, the red LED will blink out and once it is fully armed, it will light a solid red. The beeper will beep twice on arming, and once on disarm.

 

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Comments

  • Developer

    Just looked with 1.2.88 MP and 1.2.93 MP, On Full Parameter List there is LED_MODE just below INS_ACC* and LAND_SPEED values. Locations is about 1/3 rd from top.

  • by the way I'm in MP version 1.2.90 build 1.1.5100.32953 you might ask.

  • What I did is reflashed the software, but I have another problem! The "Copter LED Mode" drop down isn't there again?!

    Isn't it that it's in Mission Planner’s CONFIG/TUNING > Standard Params ?

  • I use "find" function but still it's not there.

  • Developer

    It is in Full parameter list. LED_Mode, just look more careful and you find it :)

  • is it just me??:( I can't seem to find in the parameter list the LED_MODE. I already scroll down one-by-one the standard params, advance params & the full parameter list but now where to find? :( will this only became active upon putting on the LED?

  • I know that the APM COPTER LED page says that if you want to control the LEDs directly, they must not exceed 40mA, but I thought that was if you connect LEDs directly to the APM. I've driven LEDs by connecting them directly to the pins on the APM in this fashion.

    I thought that the entire purpose of a darlington transistor array is to be able to switch higher currents, and so you'd be limited by the collector current pair, in the case of the 2803 it would be 500mA per pair, or even higher if you combine the pairs together. Look at the datasheet for the 2803 at SparkFun https://www.sparkfun.com/products/312

    If I'm wrong about how the uln2803 is supposed to work, I'd like how it's supposed to work explained to me..  

    Wim.

    Darlington Driver 8-Channel ULN2803 DIP
    8 Darlington Arrays in 18-Pin DIP Package part # ULN2803A. Perfect for running relays and high-power devices up to 500mA and up to 50V!
  • It's here in APM Copter, APM Copter External LEDs , 40mA.

  • Thats one of my auctions.  There is a fully built one as well.

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