04023C331
Multilayer ceramic capacitors for SMD/SMT applications
Manufacturer: avx
series introduction
The 04023C331 Series is a premium line of surface-mount multilayer ceramic capacitors (MLCCs) engineered to meet the rigorous demands of contemporary electronic applications. These capacitors are characterized by their robust construction and exceptional performance, making them ideal for use in high-frequency and high-stability circuits. Featuring a C0G dielectric, the 04023C331 Series ensures a capacitance stability of ±1% across a wide temperature range, from -55°C to +125°C, thereby guaranteeing performance reliability in extreme conditions.
Designed with a compact 0402 footprint (1.0 mm x 0.5 mm), this series excels in scenarios where real estate on printed circuit boards is at a premium. The small size, combined with a variety of capacitance values and voltage ratings, allows for versatile applications including decoupling, filtering, and timing circuits in both analog and digital systems. This makes the 04023C331 Series particularly well-suited for consumer electronics such as smartphones, tablets, and laptops, where space-saving design is critical without compromising functionality.
Moreover, the 04023C331 Series caters to a diverse range of industries, including automotive, telecommunications, and industrial automation. In automotive applications, these capacitors can be utilized in power management systems, sensor applications, and infotainment units, benefiting from their high reliability and temperature stability. In telecommunications, the capacitors play a crucial role in RF signal processing, ensuring clean signal integrity for communication devices.
In summary, the 04023C331 Series stands out as a highly versatile and reliable component for modern electronic designs. Its combination of miniaturization, stable capacitance, and robust performance in a wide temperature range makes it an invaluable choice for engineers and designers aiming to enhance the reliability and efficiency of their electronic products while adhering to stringent space constraints.
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