1. PCB design

A summary of key principles in PCB design

Key considerations in PCB design to enhance reliability, focusing on grounding methods, electromagnetic compatibility (EMC), component placement, and heat dissipation to ensure optimal performance and minimize interference in electronic systems.

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What are the applications of serpentine routing in PCB design?

In PCB design, serpentine lines, often found in high-speed boards, can cause confusion among novices despite their practical applications, as they can affect signal transmission and routing efficiency if not properly managed.

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SMT Processing Technology Requirements for PCB Design

The quality of SMT processing is closely tied to effective PCB design, which includes uniform component distribution, proper orientation, and adequate spacing to enhance manufacturability and minimize issues during soldering and testing.

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Designing PCBs for High-power Applications

This article provides comprehensive guidelines for designing high-power PCBs, emphasizing the importance of precautions, trace width and thickness considerations, strategic PCB layout, component placement techniques, thermal management strategies, and material selection criteria.

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