Aluminum electrolytic snap - in capacitors
Manufacturer: epcos
The B43601C9397 Series is a distinguished line of aluminum electrolytic capacitors engineered for high-performance applications requiring superior reliability and efficiency. These capacitors are characterized by their robust construction and excellent capacitance stability, making them ideal for demanding environments in various industries. Designed with a radial lead configuration, the B43601C9397 Series provides ease of installation and enhances circuit design flexibility.
One of the key features of the B43601C9397 Series is its wide capacitance range, which allows for versatile applications in both power supply circuits and signal processing. The series is built to operate effectively under a broad temperature range, ensuring stable performance from -40°C to +105°C, which is crucial for applications subjected to extreme thermal conditions. Furthermore, these capacitors are designed to withstand high ripple currents, which is essential for filtering and energy storage in power electronics.
The design of the B43601C9397 Series incorporates advanced electrolyte technology, resulting in low equivalent series resistance (ESR) and extended lifespan, making them a reliable choice for long-term applications. Their compact dimensions also contribute to space-saving designs, essential for modern electronic devices where real estate is at a premium.
Typical applications of the B43601C9397 Series include power supply circuits in telecommunications equipment, automotive electronics, and industrial machinery, where efficiency and reliability are paramount. They are also well-suited for use in renewable energy systems, such as solar inverters, where stable performance is critical for energy conversion and storage.
In summary, the B43601C9397 Series aluminum electrolytic capacitors stand out for their high capacitance, thermal stability, and robust design, making them a preferred choice for engineers and designers looking to enhance the performance and reliability of their electronic systems across a wide array of applications.