IEC 60384-22-6:2019, also known as "Fixed capacitors for use in electronic equipment - Part 22-6: Blank detail specification: Fixed aluminium electrolytic capacitors with conductive polymer solid electrolyte," is an international standard developed by the International Electrotechnical Commission (IEC).
Scope and Purpose
The scope of IEC 60384-22-6:2019 is to provide specifications for fixed aluminium electrolytic capacitors with conductive polymer solid electrolyte. These capacitors are primarily used in electronic equipment, such as power supplies, telecommunications devices, and computer systems.
The purpose of this standard is to ensure the reliability, performance, and compatibility of these capacitors across different products and manufacturers. It establishes uniform testing procedures and parameters that help manufacturers design and produce high-quality capacitors.
Key Features
IEC 60384-22-6:2019 defines several key features and characteristics of fixed aluminium electrolytic capacitors with conductive polymer solid electrolyte:
Rated voltage: The maximum voltage that a capacitor can withstand without experiencing permanent damage.
Nominal capacitance: The designed capacitance value specified by the manufacturer.
Temperature range: The range of temperatures within which the capacitor can operate effectively.
Endurance: The ability of the capacitor to withstand repeated charge and discharge cycles.
Leakage current: The amount of undesired current that flows through the capacitor when it is not connected to a circuit.
Tolerance: The permissible deviation from the nominal capacitance value.
Conclusion
IEC 60384-22-6:2019 plays a crucial role in ensuring the quality and reliability of fixed aluminium electrolytic capacitors with conductive polymer solid electrolyte. By establishing consistent specifications and testing procedures, it enables manufacturers to design and produce capacitors that meet the requirements of different electronic devices. Compliance with this international standard ensures compatibility and interchangeability of these components, leading to improved performance and longevity of electronic equipment.