Tag Archives: PCB Design
The Complete Guide to High Current PCB Design
Learn how to design reliable high current PCBs with the right copper thickness, trace width, thermal management, materials, and components for production.
Arduino Uno-Based Traffic Light Project
This Arduino Uno-based traffic light project recreates a real signal cycle, showing how red, green, and yellow LEDs can be controlled with simple timing logic.
Practical High-Speed PCB Design Guide for Real Manufacturing
High-speed PCB design is often associated with advanced materials, but material choice is only part of the story. This article explains why practical layout design matters just as much for reliable manufacturing.
LattePanda Mu Carrier Board Design Guide (Intel N305)
This guide explains how to design a custom carrier board around the LattePanda Mu, turning an x86 SOM into a reliable hardware platform for embedded, industrial, and edge computing applications.
Radar PCB Design Guide
Learn how to design radar PCBs for 24 GHz, 60 GHz, and 77–81 GHz systems, from laminate and stackup selection to RF routing, antenna integration, via design, and manufacturability review.
8-Layer PCB Stackup Design Guide
Learn how to design an 8-layer PCB stackup for real-world manufacturing, covering layer planning, impedance control, PDN optimization, DDR4 and PCIe routing, via structures, and DFM review.
PCB Power Supply Design Guide
Learn practical PCB power supply design methods for stable power delivery, including regulator selection, EMI filtering, current paths, thermal control, and power integrity testing.
Microvia Design Rules for Reliable HDI PCB Manufacturing
Learn key microvia design rules for HDI PCB manufacturing, including aspect ratio, capture pads, copper filling, stacked microvia reliability, impedance control, and DFM review.
5G PCB Design Guide for Real-World Manufacturing
Learn key 5G PCB design considerations for RF and mmWave performance, including material loss, impedance control, via design, PDN stability, EMI risks, and manufacturing reliability.
DDR4 Design Guide for Stable High-Speed PCB Layout
Learn key DDR4 PCB layout practices, including DQ/DQS timing, fly-by routing, clock pairs, Vref noise control, stackup design, power integrity, and crosstalk reduction.
Multilayer PCB Design Guide for Better Performance
A practical multilayer PCB design guide covering stackup design, via types, impedance control, high-speed routing, and DFx guidelines to improve performance and manufacturability.
Industrial PCB Design Guide
Learn the key principles of industrial PCB design, including thermal management, vibration resistance, humidity protection, corrosion control, and manufacturability for long-term reliability.
What Is Stitching Via in PCB Design and Do You Need It
Learn what stitching via in PCB design is, how it affects EMI, signal integrity, and thermal performance, and when you actually need it in a real PCB layout.
How to Design a PCB in CircuitMaker
Learn how to design a PCB in CircuitMaker step by step, from schematic creation to routing, design rule checks, and manufacturing-ready files.
PCB Thermal Relief Design Guide
Learn PCB thermal relief design, including spoke patterns, key rules, and when to use or avoid it. Improve solderability and reduce assembly issues.
How to Design a PCB in OrCAD
Learn how to design a PCB in OrCAD step by step. This beginner-friendly guide covers schematic capture, layout, routing, DRC, and preparing files for manufacturing.
Microwave PCB Design Tutorial for Real-World Engineering
Learn how to design microwave PCBs for real-world applications. This guide covers transmission lines, impedance control, material selection, and layout best practices for high-frequency and RF designs.
Automotive PCB Design Tutorial for Real-World Conditions
A practical guide to automotive PCB design, covering EMI/EMC, power integrity, signal routing, environmental challenges, and key standards for reliable performance.
How to Design a PCB in EasyEDA
Learn how to design a PCB in Proteus in 11 steps, from schematics and component placement to routing and design rule checks.
How to Design a PCB in Proteus
Learn how to design a PCB in Proteus in 11 steps, from schematics and component placement to routing and design rule checks.