Snap-in aluminum electrolytic capacitors, 560UF 420V
Manufacturer: epcos
The B43504A0567 series is a cutting-edge range of aluminum electrolytic capacitors designed to meet the rigorous demands of modern electronic applications. These capacitors are engineered with an emphasis on high capacitance values and superior voltage ratings, making them an ideal choice for power supply units, energy storage, and smoothing applications in various electronic devices. With a capacitance range reaching up to 1000 µF, the B43504A0567 series offers exceptional performance for both decoupling and filtering tasks.
One of the standout features of the B43504A0567 series is its robust construction, which includes a long operational life of up to 5000 hours at rated voltage and maximum temperature. This reliability is further enhanced by the series' low equivalent series resistance (ESR), which minimizes energy losses and improves overall system efficiency. The capacitors are designed to withstand wide temperature variations, operating effectively in environments ranging from -40°C to +105°C, making them suitable for both consumer and industrial applications.
The design characteristics of the B43504A0567 series align with the increasing trend towards miniaturization in electronic components. The compact footprint allows for efficient use of space on printed circuit boards (PCBs), an essential factor in today’s high-density electronic designs. The capacitors come with a standard lead spacing that facilitates easy integration into existing designs, providing flexibility for engineers and designers.
Typical applications for the B43504A0567 series include power supplies, audio equipment, automotive electronics, and renewable energy systems, such as solar inverters and wind turbine controllers. Their ability to handle high ripple currents while maintaining stable performance makes them particularly valuable in switch-mode power supplies and other high-frequency applications.
In summary, the B43504A0567 series aluminum electrolytic capacitors stand out for their high capacitance, long life, and reliability under various operating conditions, making them an essential component for engineers seeking effective solutions for power management and energy storage in advanced electronic systems.