Integrità di segnale
Signal Integrity
To accurately measure your systems behavior requires an understanding of factors impacting your acquisition system like loading, noise, and instrument setup.
Advanced Concepts like Signal Integrity, Math, and Advanced Analysis are covered in our advanced lab guide and curriculum.
Advanced Lab Guide.pdf
Probing Basics
Making connection to your device under test is critical to accurate measurements. Learn the basics parts of the probing system and what they do.
Probe Compensation
In order to insure system signal fidelity it is critical that probes be compensated to the instrument. Over or under compensated probes can cause distortions of your measurements and bad results.
Signal Acquisition Techniques
Provide an explanation three main data acusition techniques: Auto Triggering, Normal Triggering, and Single Shot Triggering and explore why you would use each.
High Impedance vs. 50 Ohm Impedance
Explains why 50 Ohm impedance inputs can improve signal fidelity on high speed signals by removing reflections caused by capacitance or inductance
AC/DC Coupling
AC Coupling removes the DC portion of a signal making it easier to analyze waveforms that have a large DC offset
To accurately measure your systems behavior requires an understanding of factors impacting your acquisition system like loading, noise, and instrument setup.
Advanced Concepts like Signal Integrity, Math, and Advanced Analysis are covered in our advanced lab guide and curriculum.
Advanced Lab Guide.pdf
Probing Basics
Making connection to your device under test is critical to accurate measurements. Learn the basics parts of the probing system and what they do.
Probe Compensation
In order to insure system signal fidelity it is critical that probes be compensated to the instrument. Over or under compensated probes can cause distortions of your measurements and bad results.
Signal Acquisition Techniques
Provide an explanation three main data acusition techniques: Auto Triggering, Normal Triggering, and Single Shot Triggering and explore why you would use each.
High Impedance vs. 50 Ohm Impedance
Explains why 50 Ohm impedance inputs can improve signal fidelity on high speed signals by removing reflections caused by capacitance or inductance
AC/DC Coupling
AC Coupling removes the DC portion of a signal making it easier to analyze waveforms that have a large DC offset