Difference between revisions of "DSP experiments"

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{{Project
 
{{Project
 
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|Members=Coolepascal, Danny Witberg
 
|Description=Digital Signal Processing with a microcontroller and DAC
 
|Description=Digital Signal Processing with a microcontroller and DAC
 
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This time i also did connect an electret microphone to one of the analog inputs, as wel as some variable resistors residing on an MIDI interface shield.
 
This time i also did connect an electret microphone to one of the analog inputs, as wel as some variable resistors residing on an MIDI interface shield.
 
I fairly quickly was able to record sound and play it back on an faster or slower rate (adjustable by one of the variable resistors)
 
I fairly quickly was able to record sound and play it back on an faster or slower rate (adjustable by one of the variable resistors)
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In succession of these awesome DSP expiriments, the microchip platform offers several fast microcontrollers suitable for DSP tasks. Interfacing include I²S bus over SPI port, with a 64 bit frame, and LRCK output on the \Slave Select port. Also, an USB interface can act as an soundcard device for audio input and output. This new PIC platform has a RISC MIPS4K core, and DSP capabilities include a 32 bit single cycle multiply-accumulator.
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As a start of this new Microchip platform, a reasonable powerful PIC32MX250F128B is chosen, because of the SDIP28 package, for breadbord-friendly testing, and later on we can opt for a dedicated PCB with even more CPU power.

Revision as of 16:54, 22 April 2013

Project: DSP experiments
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Members Coolepascal, Danny Witberg
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Description Digital Signal Processing with a microcontroller and DAC
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To try out some DigitalAnalogConverters for some DigitalSignalProcessing experiments, i added an MCP4822 dual 12bits dac to my leaflabs Maple board. The Maple board is an Arduino compatible board with an 72MHz Arm Cortex 3 processor.

DSP-Experiments0142b.jpg

One of the first experiments was an DirectDigitalSynthesiser with both Sine en Cosine output. Lacking an dual channel osciloscope in out space i decided to use X/Y inputs, which of course would result into an circle on the scope screen.

As Psychic was amazed by this picture i came to the idea to make some fun demo's using this Y/X inputs on the scope whith the folowing result:

Continuing with this sucses i also came to some memory issues on the Maple so i tried the same on the chipKit MAX32 board, which in fact is an Arduino Mega compatible using an PIC32 processor. Initialy basicly copieing the code with some slight adjustments due to difference in hardware and libraries. This time i also did connect an electret microphone to one of the analog inputs, as wel as some variable resistors residing on an MIDI interface shield. I fairly quickly was able to record sound and play it back on an faster or slower rate (adjustable by one of the variable resistors)


In succession of these awesome DSP expiriments, the microchip platform offers several fast microcontrollers suitable for DSP tasks. Interfacing include I²S bus over SPI port, with a 64 bit frame, and LRCK output on the \Slave Select port. Also, an USB interface can act as an soundcard device for audio input and output. This new PIC platform has a RISC MIPS4K core, and DSP capabilities include a 32 bit single cycle multiply-accumulator.

As a start of this new Microchip platform, a reasonable powerful PIC32MX250F128B is chosen, because of the SDIP28 package, for breadbord-friendly testing, and later on we can opt for a dedicated PCB with even more CPU power.