Radial aluminum electrolytic capacitors with 47uF capacity
Manufacturer: vishay
The 672D476H Series is a high-performance line of aluminum electrolytic capacitors designed to meet the demanding requirements of modern electronic applications. Characterized by their robust construction and impressive capacitance values, these capacitors are engineered to provide exceptional reliability and efficiency in various environments. With a capacitance range of up to 47μF and voltage ratings typically reaching 50V, the 672D476H Series is well-suited for power supply circuits, filtering applications, and energy storage.
One of the standout features of the 672D476H Series is its advanced electrolyte formulation, which enhances the capacitor's longevity and thermal stability. This design characteristic ensures stable performance even under high-temperature conditions, with a rated temperature range of -40°C to +105°C. Consequently, these capacitors maintain their electrical characteristics over extended periods, reducing the risk of failure in critical applications. Furthermore, the series is constructed with a low equivalent series resistance (ESR), which contributes to improved efficiency and lower heat generation during operation.
The 672D476H Series is particularly well-suited for use cases in consumer electronics, automotive systems, and industrial machinery. In consumer electronics, they find applications in audio equipment, power amplifiers, and switched-mode power supplies, where high capacitance and low ESR are essential for optimal performance. In automotive applications, these capacitors are employed in engine control units and powertrain systems, where their reliability under extreme conditions is paramount. Additionally, the series is widely used in industrial equipment for smoothing and filtering applications, ensuring stable power delivery and minimizing voltage fluctuations.
In summary, the 672D476H Series aluminum electrolytic capacitors offer a unique combination of high capacitance, excellent thermal stability, and low ESR, making them an ideal choice for a variety of demanding applications. Their robust design and reliability under harsh conditions position them as a preferred solution for engineers and designers seeking efficient and durable capacitor options in their electronic circuits.