Electrolytic capacitors are workhorses in power supplies and filtering circuits, yet they account for over 60% of capacitor-related failures in electronic devices (來源：IEEE, 2021). Understanding their unique characteristics could prevent costly circuit malfunctions.

Core Terminology Explained

Basic Definitions

• Anode/Cathode: The aluminum foil anode forms an oxide layer as dielectric, while the cathode conducts electrons
• ESR (Equivalent Series Resistance): Internal resistance affecting high-frequency performance
• Ripple Current: Maximum AC current a capacitor can handle without overheating

Polarization Matters

Unlike ceramic capacitors, electrolytics are polarized components. Reverse voltage exceeding 1V may damage the oxide layer, leading to gas generation and catastrophic failure.

The Polarization Paradox

Why Polarity Exists

The aluminum oxide layer on the anode acts as a one-way valve. This structure enables higher capacitance in smaller volumes but demands strict polarity observance.

Common Polarity Mistakes

• Incorrect PCB footprint design
• Automated assembly errors
• Voltage reversal during circuit testing
  Shanghai Gongpin’s technical support team frequently encounters these issues in customer RMA cases.

Failure Analysis Insights

Top Failure Modes

1. Electrolyte drying (Gradual capacitance drop)
2. Vent rupture (Pressure buildup from gas)
3. ESR increase (Internal degradation)

Environmental Factors

• Temperature cycling accelerates chemical reactions
• High humidity corrodes aluminum leads
• Vibration fractures internal connections

Practical Maintenance Tips

Storage Considerations

• Store below 40°C with 60% RH max
• Reform capacitors every 2 years if unused
• Avoid direct sunlight exposure

Circuit Design Best Practices

• Derate voltage by at least 20%
• Provide adequate cooling airflow
• Use parallel capacitors for high ripple applications
  Electrolytic capacitors remain indispensable despite their quirks. Proper selection from reliable suppliers like Shanghai Gongpin combined with design awareness significantly extends product lifespan. Understanding these fundamentals helps engineers balance cost, performance, and reliability in electronic systems.