Squawk is a minimalistic 8-bit software synthesizer & playroutine library for Arduino.
The approach to generating sound is very simple - much akin to 80's game consoles.
It follows that Squawk sounds very much like an old-school 8-bit video game (http://youtu.be/sFPqoVnI8sY).
Why? Because simple is also fast.
The library is designed to play music in the background - simply tell Squawk to start playing, then go about your business and do whatever else you want your sketch to do. The music will keep playing until you tell it to stop.
Depending on the sample rate (quality), Squawk will use between 10% and 40% of the average Arduino CPU time.
That leaves you with plenty of room to run your other tasks.
Contributors:
- Niklas "Salkinitzor" Ström - music
- Philip "Rubberhands" Linde - mod conversion, music
- Davey Taylor - the rest
Thanks to:
- Xun Yang
- Fredrik Ericsson
- Linus Åkesson
- David Cuartielles
Music is made using a tracker that can handle ProTracker files.
- A tracker is a type of music composing software.
- ProTracker is a tracker that was popular on the Amiga 500.
If you are unfamiliar with trackers, you will need to refer to the manual for the tracker you choose.
There are many modern trackers that are capable of composing music in this format. These are a few:
- OpenMPT http://openmpt.org/
- MilkyTracker http://www.milkytracker.org/
When tracking your music, start with template/template.mod
, and follow a few additional rules.
- Do not modify the template instruments/samples
- Only use instrument/sample 1 in channel 1, 2 in ch. 2, and so on
- Only use even numbers for parameters on volume related commands
- Don't use advanced looping (regular jumps/breaks are ok)
- Don't change tempo (changing speed is ok)
- Put no more than 64 patterns in your pattern list
Have a look at the music in convert/music
for example well-formed ProTracker modules.
Squawk requires your ProTracker files to be converted into Squawk melodies.
Melodies come in two flavors:
- As data you put in your sketch to download with your code.
sketches/Squawk_player
- As a file on an SD card connected to your Arduino.
sketches/SquawkSD_player
Both formats can be generated by converter in the convert/
directory.
If you have an SD card connected to your Arduino, you can also have the Arduino convert your files directly on the SD card.
sketches/SquawkSD_convert
The simplest way of testing things out is to connect a piezo speaker between GND and the chosen output pin (default 3).
The sketches/Squawk_player
sketch is tuned to frequencies suitable for a small boxed piezo speaker.
It is also possible to connect output to a speaker system, but this requires a few additional components:
PIN 3 ____/\/\/\________| |____ AUDIO OUT
1kΩ _|_ | | 1µF
20nF___
GND ______________|__________ AUDIO GND
This is a first order ~8kHz low-pass filter to "smooth out" the PWM carrier frequency.
The maximum PWM frequency for 8-bit output on a 16MHz Arduino is 62.5kHz.
This is relatively close to audible frequencies (0-20kHz) which makes it difficult to filter out.
There is also some distortion due to interference between the sample rate and carrier frequency.
Both of these problems can be alleviated by using an R-2R resistor ladder.
See http://en.wikipedia.org/wiki/Resistor_ladder for more information.
At this time, this is supported on ATmega168 & ATmega328 devices only.
AUDIO OUT __| |_________ 2kΩ
1µF | | 1kΩ |___________/\/\/\__ PIN 7
2kΩ _/\/\/\_| 1kΩ
PIN 6 __/\/\/\_|___________/\/\/\_ 2kΩ
1kΩ _________|_/\/\/\__ PIN 5
2kΩ _/\/\/\_| 1kΩ
PIN 4 __/\/\/\_|___________/\/\/\_ 2kΩ
1kΩ _________|_/\/\/\__ PIN 3
2kΩ _/\/\/\_| 1kΩ
PIN 2 __/\/\/\_|___________/\/\/\_ 2kΩ
1kΩ _________|_/\/\/\__ PIN 1
2kΩ _/\/\/\_| 2kΩ
PIN 0 __/\/\/\_|___________/\/\/\__ GND +AUDIO GND
This will give you a cleaner signal, with very crisp treble.
To configure your Squawk sketch for this set-up, use the line
SQUAWK_CONSTRUCT_ISR(SQUAWK_RLD_PORTD)
Digital output from a microcontroller is usually not perfectly clean:
- Glitches - differences in switching time between pins
- Ringing - swings in output voltage following level transition
Therefore it is not a bad idea to add low-pass filtering even when using a resistor ladder.
Any noise in the power supply or from the microcontroller itself will propagate to the audio output.
This can be reduced by using a clean power supply.
Producing a perfectly clean output signal is not covered by this project, but basically involves:
- Having a separate clean power supply for...
- ...buffering the digital outputs
- Careful filtering of the analog output