Understanding signal integrity basics is critical for engineers striving to create high-performance electronic systems. With a foundation in signal integrity basics, engineers can move forward in ...

In Part 1, we explored the basic characteristics governing high-speed SerDes channels. This article focuses on real-world issues, such as parasitics and impedance mismatches, that require additional ...

To achieve gains in power, performance, area, and cost, 3D-IC architectures are pushing electronics design to new limits. Silicon integration technology and associated devices have undergone an ...

Considerations for dividing analog and digital blocks. Decoupling techniques. Breaking down the board layers. How best to deal with grounding. Similar to building a house, it’s essential to create a ...

Signal integrity is a critical design consideration in modern electronic systems, particularly those that depend on high-speed interconnects. As data rates climb and interconnect geometries become ...

In Part 2 we related the impact on signal quality to some possible real-world basic signal and shield grounding choices (both the good and the bad). But, even in that brief discussion, it is clear ...

With more connections being packed into backplanes, signal integrity becomes a concern. However, misconceptions have arisen around solving this problem. Elma Electronic's Ovidiu Mesesan sets the ...