The issue you are seeing is that on the 200mV and lower ranges the input amplifiers are saturating and they will take time to recover. You can try using the graph zooming function on the 500mV or higher ranges to see more detail, potentially using some Resolution Enhancement on the Channel DSP tab t...
If using 10x on the probe it is worth setting the software to the same, although this will only reflect in the correct voltages being displayed in the graph.
We can't give any timescales as to when we will be able to provide arm64 drivers, however we are currently working on some technical backend work that we need to complete and test before we can start this work. So it is in the plan of upcoming work.
Do you get the same effect if you try channels B to D ? You will note that as you change from 500mV to 200mV a relay will click inside the unit as the input stage is switched to handle the smaller level signals. This will mean that the overvoltage near 10V signal you have at the input connector is s...
Can you post a psdata file so that we can see exactly what data you have.
It can be possible to create a math channel related to the repeat frequency of the ignition signal, and then using the X-Y Instrument replace the X-axis with this math channel.
That does look strange when changing the voltage range from +/-500mV to +/-200mV, it would be useful to know how high a voltage overrange there is, so changing from the +/-500mV range to +/-20V range would be interesting to see.
The OP was after 5 to 15 PicoScopes which is an unusual request. Most cases for adding multiple scopes are unique so we prefer to advise people in relation to their specific needs which is why we will often ask people to email in to support@picotech.com Can you give more detail on exactly why you ar...