Advanced Hardware And Pcb Design Masterclass 20... _hot_ Now
Many designers treat ground fills as an afterthought. This masterclass teaches the "image plane" theory: When a high-speed signal travels over a reference plane, the return current flows directly underneath it. Disruptions in the plane (slits, splits, or missing vias) cause common-mode noise and radiated emissions.
Impedance mismatches cause signal reflections, which distort waveforms and create data errors. Implement source-series termination for point-to-point topologies, or parallel/Thevenin termination for high-frequency clocks and multidrop buses.
Offered on , this masterclass focuses on the full, end-to-end design of a complex, real-world hardware project : a COB (Computer on Module) based on the Rockchip RK3399 processor . With 5,398 enrolled learners , 23 hours of on-demand video broken into 61 lectures across 14 sections , and a project containing over 10,000 interconnects , it is designed to be a deep, project-based immersion into the professional electronics lifecycle. Advanced Hardware and PCB Design Masterclass 20...
: Step-by-step Power Delivery Network (PDN) analysis, including decoupling capacitor selection and plane islands. Differential Pair Routing
Symmetrical differential pairs with less than 0.5mm length mismatch. Ground plane references must remain completely unbroken beneath traces. Conclusion Many designers treat ground fills as an afterthought
Modern processors, FPGAs, and RF chipsets require massive amounts of current at incredibly low voltages. Designing a clean Power Distribution Network (PDN) is critical to prevent system resets and jitter.
Connect an outer layer to an inner layer without penetrating the entire board thickness. With 5,398 enrolled learners , 23 hours of
A high-performance hardware design must pass strict regulatory testing (such as FCC or CE) on the first revision to prevent costly launch delays.
Avoid routing high-speed traces over splits or gaps in power/ground planes. Doing so forces the return current to take a massive detour, creating a loop antenna that radiates EMI.
D. Glossary of Terms
