Analysis and verification of routing effects on signal integrity for high-speed digital stripline interconnects in multi-layer PCB designs / Analys och verifiering av ledardragningens betydelse för signalintegriteten hos digitala höghastighetsanslutningar på flerlagermönsterkort

Frejd, Andreas

January 2010

The way printed circuit board interconnects for high-speed digital signals are designed ultimately determines the performance that can be achieved for a certain interface, thus having a profound impact on whether the complete communication channel will comply with the desired standard specification or not. Good understanding and methods for anticipating and verifying this behaviour through computer simulations and practical measurements are therefore essential. Characterization of an interconnect can be performed either in the time domain or in the frequency domain. Regardless of the domain chosen, a method for unobstrusively connecting to the test object is required. After various different attempts it could be concluded that frequency domain measurements using a vector network analyzer together with microwave probes will provide the best measurement fidelity and ease of use. In turn, this method requires the test object to be prepared for the measurement. Advanced computer simulation software is available, but comes with the drawback of dramatically increasing the requirements on computational resources for improved accuracy. In general, these simulators can be configured to show good agreement with measurements at frequencies as high as ten gigahertz. For ideal interconnects, the simplest and, thus, fastest methods will provide good enough accuracy. These simple methods should be complemented with the results from more accurate simulations in cases where the physical structure is complex or in other ways deviates from the ideal. Several practical routing situations were found to introduce severe signal integrity issues. Through appropriate use of the methods developed in this thesis, these can be identified in the design process and thereby avoided.

Signal integrity

PCB

digital interconnect

high-speed

microwave probing

EM field solver