2024-03-28 16:26:02 -04:00
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# Notes
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## Plan
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2024-04-13 13:49:15 -04:00
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- [x] Test speaker without Arduino
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2024-03-28 16:26:02 -04:00
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- can be done by using a function generator and 3.3V square wave
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with variable frequency
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- [ ] Write AVR C code to generate a square wave of varying frequency
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via Timer1
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- Timer1 is used so that a pre-scalar and its calculations don't
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need to be done
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- [ ] Use a table/array that stores frequencies and the indices correspond to
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the buttons on the sound board
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- [ ] Create buffers to add recording/saving/playing functionality
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- the buffers are a sequence of notes (which are the indices of the previous
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table) that is terminated by some other byte
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2024-04-13 13:49:15 -04:00
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- [x] Figure out how the LCD in the starter kit is programmed
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- we did this in lab 10 on April 10 and are allowed to use that code
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2024-03-28 16:26:02 -04:00
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- [ ] Show the current and surrounding notes in the currently selected buffer
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(or the note of the soundboard button that was just pressed)
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- [ ] Add a menu on the second row to select the memory buffer (maybe 1-5)
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- it is controlled by left and right buttons
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## 2024-03-28
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2024-03-30 13:00:44 -04:00
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## 2024-03-30
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- the speaker was tested with a function generator (from the
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EspoTek Labrador) outputting a square wave of varying frequency
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- it is painful above a frequency of 12 kHz and just creates clicks
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below 30 Hz
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- it is louder at certain frequencies and quieter at others, and this
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is not a linear relationship
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- the speaker's datasheet has a graph of this which can be used to
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adjust the speaker's volume at the problematic frequencies
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2024-04-03 23:35:16 -04:00
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## 2024-04-03
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- other speakers sold on DigiKey have more stable frequency response
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graphs where the volume does not fluctuate very much compared to the
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speaker included in the kit
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- those speakers however use sine waves instead of square waves, so our
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first step should be focused on figuring out how to send sine waves at
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certain frequencies, perhaps with fast PWM
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2024-04-09 15:54:45 -04:00
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## 2024-04-09
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- Asked Sam how to use PWM to handle no use of DAC.
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- Test the new speaker on Friday without DAC to see if it sounds okay enough.
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- Lets Try and talk to Rashid or other EE professors.
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- I think we should also try and get a DAC from the Lab!
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- We looked into how to use the shift register to handle the fact that we have to many
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buttons for the pins on the Uno.
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- We can ask same for a shift register.
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- We looked into how to use the LCD display and got some Pseudo code from GPT to help.
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2024-04-13 13:49:15 -04:00
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## 2024-04-12
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- tested new speaker and it works very well with square waves
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- so sine waves via Fast PWM+RC filter no longer needs to be done
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- soldered speaker to a solderboard
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## 2024-04-13
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- started working on the project's poster
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## 2024-04-14
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- since we don't know if we can even get the shift registers on time,
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it's possible to make our own via another Arduino that has all the buttons
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connected to it and it sends the data over USART to the speaker Arduino
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