The amount ’Skew’ may be different between any two selected probes with respect to the frequency selected. I would say that the set of probes showing absence of any Skew at one frequency may show bothersome Skew on other frequencies. Because the lengths of no two or more probes be guaranteed to be the same hence resulting in Skew development. I suppose De-Skewing may be warranted again when frequency shift occurs? Please let me know if I'm at fault. I've never used an Oscilloscope yet. Thank you!
You should be able to use any of our fixtures, such as the RT-ZF20 (a video on this fixture is coming out later today). The deskewing process is the same, with one end of the differential probe connected to signal and one end connected to ground.
The amount ’Skew’ may be different between any two selected probes with respect to the frequency selected. I would say that the set of probes showing absence of any Skew at one frequency may show bothersome Skew on other frequencies. Because the lengths of no two or more probes be guaranteed to be the same hence resulting in Skew development. I suppose De-Skewing may be warranted again when frequency shift occurs?
Please let me know if I'm at fault. I've never used an Oscilloscope yet.
Thank you!
How do you de-skew an active differential probes? Does R&S have a fixturing?
You should be able to use any of our fixtures, such as the RT-ZF20 (a video on this fixture is coming out later today). The deskewing process is the same, with one end of the differential probe connected to signal and one end connected to ground.