Advanced Hardware And Pcb Design Masterclass 20... Hot! (UHD)
Based on the title "Advanced Hardware and PCB Design Masterclass" (likely referring to the popular course by FEDEVEL Academy or a similar high-level professional curriculum), here are the standout "good features" that distinguish it from standard beginner tutorials.
1. Design Requirements
- Microcontroller: STM32H743 (Cortex-M7, 480 MHz)
- External memory: 256 MB DDR3L (1.35V, 16-bit data bus)
- Power rails: 3.3V (I/O), 1.35V (DDR3), 1.8V (PLL/analog), 0.9V (VREF for DDR)
- Board size: 50 mm × 70 mm, 4 layers
- Target impedance: 50 Ω ±10% (single-ended), 100 Ω differential (clocks/DQS)
TL;DR: If you’ve already designed 2-layer Arduino shields and want to move to DDR3, USB 3.0, or low-noise analog, this is worth it. If you’re a beginner, skip it – you’ll drown. Advanced Hardware and PCB Design Masterclass 20...
: Implementing JTAG (Boundary Scan), ICT access points, and flying probe strategies. EMI/EMC Mitigation Based on the title "Advanced Hardware and PCB
Option 2: Reddit (r/PrintedCircuitBoard or r/ECE – Community/Technical Deep Dive)
Title: Just finished the "Advanced Hardware & PCB Design Masterclass 20" – Here's my honest review (and what they actually teach) TL;DR: If you’ve already designed 2-layer Arduino shields
Frequency Domain Analysis:
- Separating analog/digital grounds (Splitting planes correctly)
- Impedance-controlled routing (50Ω, 90Ω, 100Ω)
- Via stitching and shielding techniques
- Partitioning methodology: allocate functions across silicon, modules, and PCBs; minimize cross-domain coupling.
- Interface selection: high-speed SERDES vs. parallel buses; standards (PCIe, USB4, Ethernet, DDRx) and implications.
- Modular design: mezzanine cards, FPCs, shielded RF modules; partition for manufacturability and serviceability.
- Redundancy and fault containment: power-rail isolation, supervision, watchdog design, failover mechanisms.
Course Code: EHW-PCB401
Duration: 5 Days (40 Hours) | Level: Advanced