Jitter & Crosstalk Analyses Using Real-Time Oscilloscopes

Webinar available on-demand
Duration: 1 hour
Summary

To characterise high-speed serial buses, jitter measurements are key to determine the quality of the signal being transmitted and provides a quick view of the bit error ratio (BER). The measurement of jitter is a sophisticated process taking into account receiver clock recovery, knowledge of phase locked loops (PLLs), jitter decomposition techniques, effects of crosstalk and waveform statistics in order to produce a fairly accurate jitter decomposition model for the real-world designs. We will review the details and considerations for making advanced jitter measurements to increase your confidence level in your jitter separation results.

Crosstalk is a huge challenge in today's high-speed serial design because it can corrupt the data transmission, closes the eye-opening as well as adding jitter into your design. Crosstalk can come from various aggressor sources such as adjacent high-speed bus, power supply, phase lock loop and reference clock. You will learn how to debug and remove crosstalk issues with a real-time oscilloscope.

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Speakers
Vitaly Morarenko
Vitaly Morarenko
Solutions Engineer
High-Speed Digital and Photonics Test
Keysight Technologies
Vitaly Morarenko is an Solutions Engineer for Digital and Photonics Applications. He received his Engineer’s degree from the leading engineering university of Russia, Bauman Moscow State Technical University (BMSTU), and specialised in electrical engineering, laser and optoelectronic devices and systems. Vitaly joined the Electronic Measurement Group of Agilent in Moscow in 2013 and gained wide and deep theoretical knowledge and practical experience in the implementation of digital debug tools and optical solutions in solving customers’ measurement tasks. He is currently based in Boeblingen, Germany.




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