What’s the Difference between EMI, EMS and EMC?
Master EMI control, EMS resilience & EMC compliance for robust IoT/5G devices. Essential design practices to eliminate electromagnetic failures
What is SMA in PCB?
SMA connectors enable 5G reliability with 18 GHz frequency handling, military-grade durability, and precise 50-ohm impedance control in PCBs.
What Are the Common Problems of Copper Plating Technology in PCB?
Solve PCB copper defects—pitting, voids, dendrites—via current control, adaptive waveforms, and alkaline pretreatment for HDI reliability.
What Do You Know About PCB Microstrip Line Design?
Avoid high-frequency PCB failures: master microstrip design through substrate selection, impedance control, and rigorous signal integrity testing.
What is Heat Transfer Printing?
Discover how heat transfer printing revolutionizes vivid galaxy patterns on fabrics/metals with low-cost, detailed small-batch customization
What Is PCB Prepreg?
PCB prepreg’s Tg, Dk, and CTE impact thermal stability, signal integrity, and reliability. Wrong choice causes delamination, impedance mismatch, failures.
What Are PCB Step Holes and Slots?
Step holes revolutionize 5G PCBs: laser-drilled microvias enhance GHz signal integrity, thermal paths, and multilayer density in high-frequency circuits.
How to Clean PCBs After Surface Mount Soldering?
Proper PCB cleaning removes flux residues, prevents corrosion & ensures reliability using solvent, ultrasonic, or vapor methods. Storage in dry environments maintains performance.
How to Reduce Harmonic Distortion in PCB Design?
PCB harmonic distortion stems from nonlinear current paths & ground issues. Fix with λ/8 capacitor placement, star grounding & GaN FETs to achieve 72dBc suppression.
How to Recycle PCB Waste?
PCB recycling transforms toxic e-waste into profit, recovering gold/copper while preventing pollution. Compliant, eco-friendly solution with 20%+ ROI potential.
