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Thread: usbMIDI read of analog values uncooperative while multimeter read voltages OK

1. usbMIDI read of analog values uncooperative while multimeter read voltages OK

I am simply trying to read the value of a linear potentiometer with the Teensy 3.1, and convert this to MIDI.

here is the code
_____________________
int a0 =0;
void setup(){
pinMode(15, INPUT);
}

void loop(){
usbMIDI.sendControlChange(1, a0, 1);
Serial.println(a0);
}

______________________

when I read the voltage of pin 15 - it linearly increases as I slide the pot. as its supposed to.
when I look at the values on the arduino serial monitor - it linearly increases (from 0 -1023) as I slide the pot. as its supposed to.

but the actual MIDI data that is sent is very hectic. It seems as though the slider is scrolling through random numbers 0-127...(except when all the way down it stays at 0, and all the way up, at 127) it isnt linear and is constantly jumping around. the only trend is that i tend to see values>100 mostly when the slider is in the middle of its track

any ideas??

2. I see in another thread you discovered the need to divide the number by 8, so the 0 to 1023 range from analogRead gets mapped into the 0 to 127 range for MIDI.

In case anyone else with the same problem finds this thread, that's the solution.

There are also some helpful examples under File > Examples > Teensy > USB_MIDI

3. Most likely it's because MIDI only allows values from 0-127, and your analog value is in the range of 0-1023. It won't just automatically downscale it for you.

Instead of the line

try

a0 = (analogRead(15) >> 3);

The >> is the binary 'right shift' operator. Basically, if 1023 is (in binary) 1111111111 (ten ones), the right shift operator moves everything to the right by 3, so it becomes 0001111111.

For a better example: 765 in 10 bits is 1011111101 -- you can't represent this in a 7-bit number like MIDI expects. If you lop off the last 3 numbers, so you've got 1011111, you get the decimal number 95. 765/1023 = 0.74780059, while 95/127 = 0.7480315. You lose some accuracy (3 bits, to be precise), but the RATIO is basically the same.

EDIT: Whoops, guess I was writing this at the same time Paul was writing his (much quicker) reply. I still maintain that bitshifting is better than dividing, though...

4. yepyep thanks guys - I'm thinking if I had looked close enough maybe the first 127 numbers of the stream of 0-1023 would have been linear in the MIDI stream, and then crazy after that.

Mushoo - what makes you say that bitshifting is better? In this case aren't they exactly the same? When you take off three bits (8) it is as though you are dividing by 8 - yes?

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