Aluminum electrolytic snap-in capacitors
Manufacturer: epcos
The B43514K827M Series is a robust line of aluminum electrolytic capacitors designed for demanding applications requiring high reliability and efficiency. This series is characterized by its radial leaded construction, which provides excellent performance in a compact form factor. With a capacitance value of 82 µF and a voltage rating of 25 V, the B43514K827M capacitors are ideal for various power supply and energy storage applications.
One of the standout features of the B43514K827M Series is its long lifespan, rated for up to 2000 hours at 85°C, which makes it suitable for use in environments where durability is essential. The capacitors are designed with a low equivalent series resistance (ESR), allowing for efficient energy delivery and minimizing power loss, thus enhancing overall circuit performance. Additionally, the series exhibits excellent ripple current capabilities, making it a preferred choice for applications with varying load conditions.
The design of the B43514K827M capacitors incorporates a non-solid electrolyte, which contributes to their ability to withstand high temperatures and voltage fluctuations. This feature is particularly beneficial in applications such as power supply circuits, audio equipment, and consumer electronics where reliability is paramount. The series is also compliant with RoHS regulations, ensuring that it meets environmental standards while maintaining high performance.
Typical applications of the B43514K827M Series include power supplies, DC-DC converters, and energy storage systems in industrial machinery and consumer products. Their versatility and performance make them an excellent choice for both new designs and retrofitting existing systems. Moreover, their compact size allows for easy integration into space-constrained environments, such as compact electronic devices and automotive applications.
In summary, the B43514K827M Series offers a reliable, high-performance solution for a wide range of applications, combining longevity, efficiency, and adaptability to meet the rigorous demands of modern electronic systems.