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Engineering
Electrical Engineering
PCB Design
1. Introduction to Printed Circuit Boards
2. Electrical Fundamentals for PCB Design
3. PCB Materials and Construction
4. PCB Design Tools and Software
5. Schematic Design and Capture
6. PCB Layout Fundamentals
7. Power Distribution Design
8. Signal Routing Techniques
9. High-Speed Design Principles
10. Electromagnetic Compatibility Design
11. Thermal Management in PCB Design
12. Design for Manufacturing
13. Design for Assembly
14. Design for Test
15. PCB Design Verification and Validation
16. Manufacturing File Generation and Documentation
17. Advanced PCB Design Topics
18. Quality and Reliability
8.
Signal Routing Techniques
8.1.
Digital Signal Routing
8.1.1.
Logic Family Considerations
8.1.1.1.
TTL Routing
8.1.1.2.
CMOS Routing
8.1.1.3.
LVDS Routing
8.1.2.
Clock Signal Routing
8.1.2.1.
Clock Distribution
8.1.2.2.
Clock Skew Management
8.1.2.3.
Clock Isolation
8.1.3.
Bus Routing
8.1.3.1.
Address Bus Routing
8.1.3.2.
Data Bus Routing
8.1.3.3.
Control Signal Routing
8.2.
Analog Signal Routing
8.2.1.
Analog Circuit Isolation
8.2.2.
Sensitive Signal Protection
8.2.3.
Ground Guard Techniques
8.2.4.
Shielding Implementation
8.3.
Mixed Signal Design
8.3.1.
Analog and Digital Separation
8.3.2.
Ground Plane Splitting
8.3.3.
Signal Crossing Techniques
8.3.4.
Component Placement Strategy
8.4.
Differential Pair Routing
8.4.1.
Differential Signal Principles
8.4.2.
Impedance Control
8.4.3.
Length Matching
8.4.4.
Spacing Requirements
8.4.5.
Via Usage in Differential Pairs
8.5.
High-Speed Routing Considerations
8.5.1.
Transmission Line Effects
8.5.2.
Impedance Matching
8.5.3.
Termination Strategies
8.5.4.
Layer Transitions
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7. Power Distribution Design
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9. High-Speed Design Principles