Jitter separation is required by digital standards and is of great importance for debugging when identifying the jitter root cause. This webinar introduces a new approach for achieving consistent results with jitter decomposition and bit error rate (BER) estimation.
With a reference to a detailed breakdown into components, attendees will learn a new signal model-based method that takes into an account all signal information, delivers in-depth analysis and is committed to a tight result correlation.
- Learn a new approach for receiving consistent results with jitter decomposition
- Discover a new signal model-based method that takes into account all signal information
- Understand the importance of Rohde & Schwarz oscilloscopes for this method
Guido Schulze has more than 20 years of experience in high-speed digital testing. For the last 10 years, he has worked as a product manager for the oscilloscope product division at Rohde & Schwarz. He specializes in high-end models and their respective applications.
Dr. Mathias Hellwig develops, verifies and supports test and measurement solutions for time-domain applications at Rohde & Schwarz. His focus is on testing digital designs. He achieved deep technical expertise in theory and practice when finishing his Ph.D. in ADC design at the Ruhr-University Bochum and while working on system architectures in various roles before joining Rohde & Schwarz in 2012.