B43510A6397
Aluminum electrolytic capacitors with snap-in pins
Manufacturer: epcos
series introduction
The B43510A6397 Series is a distinguished line of aluminum electrolytic capacitors designed to meet the demanding requirements of modern electronic applications. Characterized by their robust construction and high capacitance values, these capacitors are specifically engineered for reliability and performance in a variety of environments. With an impressive voltage range and a broad selection of capacitance values, the B43510A6397 Series is ideal for a multitude of applications, from consumer electronics to industrial machinery.
One of the key features of the B43510A6397 Series is its long operational life, which is a result of advanced manufacturing techniques and high-quality materials. These capacitors exhibit a rated voltage of up to 400V, providing ample flexibility for use in power supply circuits, energy storage systems, and filtering applications. The series also boasts a low equivalent series resistance (ESR), which enhances their efficiency and thermal stability, making them well-suited for applications that require rapid charge and discharge cycles.
In terms of design characteristics, the B43510A6397 capacitors are available in various form factors, allowing for easy integration into compact circuit designs. Their cylindrical shape, combined with a robust aluminum case, ensures mechanical stability and minimizes the risk of failure due to environmental factors. Additionally, the capacitors feature a temperature range of -40°C to +105°C, making them versatile for use in both harsh and standard operating conditions.
Typical applications for the B43510A6397 Series include power supply filtering, energy conversion systems, and motor drive circuits. They are extensively utilized in automotive electronics, renewable energy systems, and telecommunications equipment, where high performance and durability are paramount. The series is particularly beneficial in applications requiring high ripple current handling and reliable long-term performance, thereby making it a favored choice for engineers and designers seeking quality and efficiency in their electronic designs.
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