I was wondering if the Agilent E5339A probe would be able to capture higher voltages than
the ones inside its -3V..+3V voltage threshold range possibly with the help of the used logical analyzer.
I would also want to know if you could remap the signals, including the ground pads, captured
from a Mictor or Samtec PCB test connector footprint. I know that there are FPGA dynamic probe
systems from Altera and Xilinx, e.g. B4655A and B4656A, but I would like to know if I can do this manually
using the Logic Analyzer.
the ones inside its -3V..+3V voltage threshold range possibly with the help of the used logical analyzer.
I would also want to know if you could remap the signals, including the ground pads, captured
from a Mictor or Samtec PCB test connector footprint. I know that there are FPGA dynamic probe
systems from Altera and Xilinx, e.g. B4655A and B4656A, but I would like to know if I can do this manually
using the Logic Analyzer.
You can reorder the signal pins within a footprint, or even across footprints. You can use 'clock' signals as data. Ground signals will always be grounds and should not be connected to signals, ever.
Al