FPGA/SoC configuration and DDR3 memory routing with fly-by topology and length matching. Peripherals
This course is designed for engineers and advanced hobbyists who want to move beyond simple microcontrollers to complex system-on-chip (SoC) and FPGA-based designs.
Layer stack-up design, controlled impedance, and signal integrity (SI) basics. Power (PDN) FPGA/SoC configuration and DDR3 memory routing with fly-by
While the full FEDEVEL course requires a purchase for certification and private materials, you can find equivalent high-level training through these free channels:
Although many tutorials use Altium Designer or KiCad, the principles taught—such as high-speed routing and power distribution—apply to any ECAD software. Power (PDN) While the full FEDEVEL course requires
Power Distribution Network design, including VRMs, decoupling capacitors, and plane sizing. High-Speed Memory
Gigabit Ethernet PHY layout and USB 2.0 High-Speed/eMMC memory implementation. Manufacturing Manufacturing System-level architecture
System-level architecture, part selection, and creating future-proof schematic symbols. PCB Fundamentals
The course is divided into 12 primary lessons that mirror a professional hardware development lifecycle: Focus Area Key Topics Covered System & Schematics
It assumes prior experience with basic PCB design and focuses on professional-grade manufacturing and reliability. Core Curriculum Breakdown
FPGA/SoC configuration and DDR3 memory routing with fly-by topology and length matching. Peripherals
This course is designed for engineers and advanced hobbyists who want to move beyond simple microcontrollers to complex system-on-chip (SoC) and FPGA-based designs.
Layer stack-up design, controlled impedance, and signal integrity (SI) basics. Power (PDN)
While the full FEDEVEL course requires a purchase for certification and private materials, you can find equivalent high-level training through these free channels:
Although many tutorials use Altium Designer or KiCad, the principles taught—such as high-speed routing and power distribution—apply to any ECAD software.
Power Distribution Network design, including VRMs, decoupling capacitors, and plane sizing. High-Speed Memory
Gigabit Ethernet PHY layout and USB 2.0 High-Speed/eMMC memory implementation. Manufacturing
System-level architecture, part selection, and creating future-proof schematic symbols. PCB Fundamentals
The course is divided into 12 primary lessons that mirror a professional hardware development lifecycle: Focus Area Key Topics Covered System & Schematics
It assumes prior experience with basic PCB design and focuses on professional-grade manufacturing and reliability. Core Curriculum Breakdown