Multilayer ceramic capacitors at 50V 220pF
Manufacturer: avx
The 04025A221 Series is a premier line of surface-mount multilayer ceramic capacitors (MLCCs) that excel in a wide range of electronic applications, particularly where size and reliability are paramount. Designed with a focus on high performance and compactness, these capacitors utilize advanced C0G (NP0) dielectric technology, ensuring temperature stability and low loss characteristics. The 04025A221 Series maintains a capacitance value of 220 pF, with an impressive voltage rating of 50V, making it suitable for various demanding environments.
A key feature of the 04025A221 Series is its exceptional thermal stability, which enables consistent performance across a broad temperature range. This series guarantees capacitance retention within ±5% over temperatures from -55°C to +125°C, making it an ideal choice for applications subjected to fluctuating thermal conditions. Additionally, the capacitors exhibit minimal voltage coefficient changes, contributing to their reliability in precision circuits that require stable electrical performance.
The design of the 04025A221 Series emphasizes a compact footprint, with a 0402 package size (1.0 mm x 0.5 mm) that allows for effective utilization of space in densely populated circuit boards. This miniaturization is particularly beneficial in modern consumer electronics, such as smartphones, tablets, and wearables, where size constraints are critical. Furthermore, these capacitors are well-suited for high-frequency applications, making them an excellent option for RF circuits, signal processing, and filtering tasks.
Industries such as telecommunications, automotive, and industrial automation frequently incorporate the 04025A221 Series into their designs, leveraging the capacitors’ reliability and performance to enhance system efficiency and longevity. Whether used in power management circuits, decoupling applications, or high-frequency signal coupling, the 04025A221 Series stands as a reliable component that meets the rigorous demands of contemporary electronic designs.
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