The "standard" FR4 multilayer board is reaching its limits. Advanced designs are increasingly utilizing technologies:
The electronics landscape in 2026 demands unprecedented performance. Consumer devices require blazing-fast data transfer rates. Industrial automation relies on ultra-low latency. Artificial intelligence demands massive computing power at the edge.
: Deep-diving into datasheets to select PMICs, Ethernet PHYs, and high-density processors while managing power budget and PDN (Power Distribution Network) analysis. Tool Agnostic Mastery : While many courses use Altium Designer Advanced Hardware and PCB Design Masterclass 20...
: Identifying and selecting internal and external SDRAM (up to DDR5/LPDDR5 ), pin mapping, and creating schematics from scratch. Power Management (PMIC) : Detailed selection and schematic design of Power Management ICs and external LDO/DC-DC converters. Storage & Connectivity : Integration of
The of your target audience (e.g., intermediate layout designers or senior hardware architects) The "standard" FR4 multilayer board is reaching its limits
Courses from are known for bridging theory and practice. The instructor teaches from a real engineer's perspective, guiding students through the design process to help them personally experience which core aspects require the most consideration in the field. The value of "procedures" (a set procedure for component selection) is emphasized over theoretical concepts alone. A review on the Chinese blog CourseGraph highlights that the course's biggest advantage is its depth and breadth, breaking down the entire hardware design process into 13 clear chapters.
The Advanced Hardware and PCB Design Masterclass 2023 is a comprehensive training program that focuses on the latest advancements in hardware and PCB design. The masterclass is designed to provide participants with a deep understanding of the principles, techniques, and best practices involved in designing high-performance hardware and PCBs. The program covers a wide range of topics, from fundamental design principles to advanced techniques, and is suitable for engineers and designers of all levels. Industrial automation relies on ultra-low latency
Place decoupling and bypass capacitors as close to the IC power pins as physically possible. Minimize loop inductance by using via-in-pad technology.
Rigorously calculate trace width and spacing using field solvers rather than relying on generic online calculators.