Category: Design

Learn Decoupled Capacitor placement mistakes in high-frequency PCB design and how better layout improves EMI, power integrity, and RF stability.

Compare microstrip vs stripline for RF PCB design. Learn the differences in impedance, loss, shielding, and when to use each structure.

Learn how to calculate trace width for high-frequency PCB design using impedance, stackup, and routing structure. This guide covers 50-ohm traces, microstrip, stripline, and key factors that affect signal integrity.

Learn the essentials of PCB accelerometer design, including sensor placement, footprint rules, routing, soldering, and validation. This guide shows how to reduce stress, heat, and vibration effects for more accurate and reliable motion sensing.

Learn the main HDI PCB types, from Type I to Type VI, and understand how stackup structures, microvias, x[C]x notation, and HDI design rules affect routing density, manufacturability, and real-world PCB design.

What is an HDI PCB? Learn how microvias improve routing density, save space, and support better performance in modern electronic designs.

Learn the most common EMI shielding methods in electronics, including EMI shield cans and conductive coatings for PCB and plastic enclosure design.

Learn how PCB EMI shielding works, from shielding types and materials to gaps, grounding, and shielding effectiveness for better PCB design.

EMI shielding helps electronic devices reduce interference, protect signal integrity, and meet EMC requirements. This article explains how electromagnetic shielding works, the difference between EMI and EMC, and how to choose the right shielding approach for more reliable electronic design.