High Speed Digital Fundamentals Webinar Series

High Speed Digital Fundamentals Webinar Series

High-Speed Digital (HSD) standards are evolving quickly, and each generational change introduces new test challenges for your digital designs.

During this webinar series we can help you to understand how to anticipate fundamental test challenges such as transmitter testing with a high-speed oscilloscope, probing, jitter, crosstalk analyses and receiver testing using a BERT (Bit Error Rate Tester).

Register now and learn more from our measurement experts:

On-demand: Oscilloscope Measurement Fundamentals
On-demand: Probing Signals in High-Speed Digital Designs
On-demand: Jitter & Crosstalk Analyses Using Real-Time Oscilloscopes
On-demand: Receiver Testing Using a Bit Error Rate Tester (BERT)
On-demand: Power Integrity and Sequencing Test

Oscilloscope Measurement Fundamentals
Available On-demand

In order to make accurate and repeatable measurements, it is critical to understand the key fundamentals of your oscilloscope. Several factors can influence your measurement results.

In this webinar we will discuss:
Time vs Frequency Domain, Sampling Rates & Modes, Bandwidth & Aliasing, Oscilloscope Architectures, Triggering: Basics and Advanced, Memory Depth and Methods, Waveform Visualisation Tools, Probing Architecture, and Tips and Tricks
Jason Ruskin

Probing Signals in High-Speed Digital Designs
Available On-demand
Vitaly Morarenko
Probing is often an underestimated part of your measurement system, but making the right connection, with the right probe is critical to making accurate and repeatable measurements.
This webinar will cover key considerations in probing high-speed digital signals such as DDR, PCIe, MIPI, USB, HDMI etc. 

We will discuss the following important probing topics: 
Where to Probe, Probing Fundamentals, Beware of Uncontrolled Input Leads,
Probe Loading Considerations, Probe Response Corrections, and Probing in Extreme Conditions

Jitter & Crosstalk Analyses Using Real-Time Oscilloscopes
Available On-demand
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.

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.
Vitaly Morarenko

Receiver Test Using a BERT
Available On-demand
Dr. Thomas Kirchner
Bit Error Rate Test Solutions are required for Characterisation and Compliance Tests of high-speed digital receivers in many digital interfaces (PCIe, USB, SATA, Display Port, Thunderbolt etc.) and in Data Centers with electrical and optical interconnects.

In this webinar we will discuss what needs to be tested inside a receiver using a Bit Error Rate Tester (BERT), from fundamentals to more advanced topics like: Introducing Impairments (Stress Testing), Receiver Sensitivity Test, Jitter Tolerance Test, Crosstalk Aggressors, Making BER Measurements, and Characterising Serial Data Links

Power Integrity and Sequencing Test
Available On-Demand
 
Keysight’s Power Integrity Lead Kenny Johnson discusses the importance of power integrity related measurements like PDN impedance, power rail integrity, PMIC Power Sequencing, PSRR, control loop response, static/dynamic loads (current), and radiated emission.
Kenny Johnson

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