I had some open issue, that the LyraT Mini Audio Board was not working with my AudioTools and AudioDrivers library, so I was digging into this board a bit deeper. Here are the main two differences to the regular supported LyraT or AudioKit boards: It uses a ES8311 codec chip which supports only mono to manage the amplifer and aux output. My driver library was supporting this chip, so I had the audio output working Read more…
In order to test the USB functionality of the ESP32-S3, I bought the following camera/microphone board: Before testing the USB I implemented and executed the following test cases for each hardware component: Testing the user button Testing the LED Testing the Color LED Testing the SD Testing the SDMMC Testing the PSRAM Testing the Camera Testing the Microphone Here is a summary of the limitations/issues that I have found: I could not make the 4 Read more…
MP3 files can contain metadata that stores information about the title, the author etc. If you send an MP3 stream with metadata to a decoder, the logic is usually resilient enough to skip this automatically. However there can be some cases where the codec can’t cope and is crashing. One way to deal with this, is to remove the metadata from the file. But a more flexible solution is to just filter out the metadata Read more…
In my last blogs, I described how I managed to extend TinyUSB to provide an simple USB Audio device in Arduino. So far I have been using some randon numbers to generate noise. This is not very helpful to check if we lost some samples. A SawTooth wave is much more convinient. We can use the AudioTools to generate this. Here is the example sketch, that also shows how we can define an Arduino Stream Read more…
There are quite a few popular TTS libraries for Arduino but most of them suffer from the same problem: The TTS function is not properly separated from the output function. Architechture In a properly architected solution we would have a A TTS function which produces platfrom independent PCM data An output function or library to process the PCM data. In Arduino we have the abstact Print class which is used by everything to which you Read more…
In the last blog, I described how I managed to provide an USB Audio device for a Speaker and a Microphone and the bumpy journey to it. I also wanted the Headset sceanario to work where both the input and output of audio is supported. I was searchig very long why my first implementation did not work until I realized, that actually it did when Serial (CDC) was deactivated! The symptoms were like this: Activating Read more…
When I first had a look at implementing an Audio USB device for the RP2040 with TinyUSB, I could make things work, but taking up the task to make this work in Arduino was too big. Then Adafruit released their TinyUSB for Arduino that was quite nicely integrated into the RP2040 Arduino core of Earle Phil Hower. I was hoping that Adafruit would provide some audio implementation with examples. Since this did not happen, I Read more…
I finally managed to release the 1.0 version of my Arduino AudioTools library. It contains all the functionality that I have initially planned for and compared to the 0.9.9 release consists of a major restructuring of the source code directory. I was conducting a poll, to confirm if I should go ahead with this change and a majority of users agreed to have this implemented. Here is the new directory structure: All the core functionality Read more…
In my last blogs, I introduced you to the powerfull STM32H743VIT6 microcontroller and demonstrated the analog and PWM audio output using the Arduino Audio Tools library. I finally managed to extend the stm32-i2s library and so it the time now that I can demonstrate that we can also use I2s as well: I am using the demo sketch from the AudioTools w/o any changes: #include “AudioTools.h” AudioInfo info(44100, 2, 16); SineWaveGenerator<int16_t> sineWave(32000); GeneratedSoundStream<int16_t> sound(sineWave); I2SStream Read more…
In my last blog, I described the analog audio output using the Arduino Audio Tools library: The STM32H743VIT6 microcontroller is quite powerful but we only have max 2 DAC pins available! This restriction falls when we use PWM: We use a PWM frequency above the hearing range (30khz) and modulate the PWM Duty Cycle with the audio signal. Compared to the demo pwm sine example, I increased the sample rate to 44100 and the channels Read more…