04023C682
SMD MLCC capacitors, 6800pF, 25V, X7R
Manufacturer: avx
series introduction
The 04023C682 Series is a high-performance line of surface-mount multilayer ceramic capacitors (MLCCs) engineered for a variety of electronic applications requiring compactness and reliability. This series is distinguished by its exceptional capacitance values and voltage ratings, making it a prime choice for designers aiming to optimize circuit performance in space-constrained environments. The capacitors utilize X7R dielectric material, which ensures stable capacitance within ±15% across an operating temperature range of -55°C to +125°C, thereby providing consistent electrical performance even under extreme thermal conditions.
Designed with a footprint of 0402 (1.0 mm x 0.5 mm), the 04023C682 Series is ideal for applications where minimizing board space is paramount, such as in mobile phones, tablets, and other portable devices. The series excels in decoupling and filtering applications, providing essential support for high-speed circuits by reducing noise and stabilizing voltage levels. Its small size and lightweight design also make it suitable for use in automotive electronics, medical devices, and industrial equipment, where reliability and performance are critical.
The 04023C682 Series capacitors are manufactured to withstand rigorous operational demands, ensuring durability and longevity in various environments. With a variety of capacitance values available, this series caters to diverse needs in electronic designs, allowing engineers to select the most appropriate component for their specific application. Furthermore, the capacitors are compliant with industry standards, making them a trusted choice for both new designs and upgrades in existing products.
In summary, the 04023C682 Series is an excellent solution for engineers seeking compact, reliable, and high-performance capacitors for a wide range of applications. From consumer electronics to industrial systems, these MLCCs deliver superior performance and resilience, supporting the increasingly complex demands of modern electronic design.
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