Quasi real-time oscilloscope using Arduino

Arduino Quasi real time oscilloscope

Recently I was reviewing one of my oldest project, and decided to “refresh” previous design by taking full advantage of the new arduino Leonardo board.  Based on AtMega32U4, which include PGA (programmable gain amplifier), oscilloscope’s  analog front end doesn’t require external OPA this time, end could be build in 1-2 hours on prototype board, using 5 resistors, 5 capacitors and one IC. Short specification:

Arduino Quasi real time oscilloscope

  • Four channels.
  • Switchable gain settings 1x, 10x, 40x, 200x.

As you can see on drawings above, inputs are AC coupled with caps, and biased with 1.25V generated by LM317. Connector for other two inputs not installed yet.

Software.

Project keeps almost same  structure of commands (CLI – command line interface) as its ancestor, with only two new for channel and gain selection. Read comments, it explains how to use them. One more things, I removed “r” – re-print option from the list of available commands.

Have fun!.

Link to arduino Leonardo sketch:  Oscilloscope_Leonardo.

********************************************* Version 4*********************************************

Well, even posted above sketch has low complexity, and its good for beginning, nevertheless it’s quite limited as measuring device. The most important feature for oscilloscope, except V/div,  is T/div, or timing, that has to be as much precise as possible.   This is why “standard” timing options based on TIMER1 were add to next version of software. There are 9 time settings Time/div (10 samples):

50ms, 20ms, 10ms, 5ms, 2ms, 1ms, 500us, 200us, 100usec

corresponding to

200Hz, 500Hz, 1kHz, 2kHz, 5kHz, 10kHz, 20kHz, 50kHz, 100kHz

sampling rate. You can choose any of of this in the same manner, entering a digit 1-9 and letter d (display). Zero would skip capture, and just do whatever next letter request. Basically, 0 should be used to print channels data from memory. Combination: 9d0i – capture at 100 kHz rate, print chart and info-table,
4c2g7d – select 4-th channel, set gain to 10, select 20 kHz sampling rate and display.

I also add multichannel sampling capability. Commands 2m, 3m or 4m would configure oscilloscope for 2, 3 or 4 channels simultaneously capturing input waveform.   As arduino has only 1 ADC, switching in multichannel mode would reduce sampling rate proportionally to number of channels, and this changes would be reflected in right top corner of the display. What more, arduino would automatically change vertical resolution per channel, to fit all 2 – 4 charts on one screen!

Known caveats:

  • Sampling rate 9, or 100 usec per division (10 usec per sample) could not be selected in multichannel mode, should be in use for single channel only (1m, 1c – 2c – 3c – 4c).
  • There is a “shift” in channel number, signal  presented at input 1 would show up on screen 2, and so on. This happens on time settings 7 (occasionally), 8 and 9 in 4x multichannel mode due delay in MUX registers switching. Shouldn’t be an issue for 2x channel mode, or when you have an “overview” of the signals shape in single channel mode (1m) before switching to 4x, so you would know what to expect at each input port.

Link to arduino Leonardo sketch:  Oscilloscope_LeonardoV4

********************************************* Version 5*********************************************

New updated version. I was thinking how to improve simplest ever oscilloscope, and have made some structural changes in the code, mostly related to sampling in multichannel mode.

Quasi real time oscilloscope schematic

 

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