Cart
{{cartCount}}
你当前的浏览器版本过低或不支持。请升级或更换浏览器。推荐浏览器 Chrome Edge。
Electrolytic capacitors, as the core passive components in electronic circuits, mainly undertake functions such as filtering, energy storage, and coupling. Their performance directly affects the stability and efficiency of electronic devices. With the rapid development of consumer electronics, industrial power supplies, new energy vehicles and other fields, the electrolytic capacitor market continues to grow, with a global scale exceeding 10 billion US dollars. Different brands have their own emphasis on technology routes, application scenarios, and product features. The following is a classification and sorting based on brand positioning and technological advantages:
The installation method of electrolytic capacitors mainly depends on their packaging type, application scenarios, and circuit design requirements. The following are several common installation methods and their characteristics:
The classification of electrolytic capacitors is mainly based on factors such as material, structure, and electrolyte morphology. The following are common classification methods and their characteristics:
As a commonly used energy storage component in electronic circuits, the performance parameters of electrolytic capacitors directly affect the reliability and stability of circuit design. The following are the core parameters and detailed analysis of electrolytic capacitors:
Electrolytic capacitor is a common electronic component, belonging to a type of capacitor. Its characteristics and working principle are as follows:
Filter capacitors play a very important role in switching power supplies, and how to correctly select filter capacitors, especially the selection of output filter capacitors, is a concern for every engineering and technical personnel. On the power filtering circuit, we can see various capacitors with different capacitance values, such as 100uF, 10uF, 100nF, 10nF, etc. How are these parameters determined? In the future, don't see capacitors with 0.1uF capacitance placed in everything. In some high-speed systems, these 0.1uF capacitors simply won't work.
