Small ceramic capacitors for electronics
Manufacturer: ['walsin', 'wtc']
The 0402N471 Series represents a distinguished line of surface-mount multilayer ceramic capacitors (MLCCs) designed to meet the demands of high-performance electronic applications. Renowned for their small footprint and exceptional electrical characteristics, these capacitors are ideal for engineers looking to optimize space without compromising performance. The 0402 package size (1.0 mm x 0.5 mm) offers an effective solution for applications requiring compact components, making them perfect for modern electronics where real estate is at a premium.
One of the key features of the 0402N471 Series is its use of advanced dielectric materials, which provide a stable capacitance of 470 pF with a capacitance tolerance of ±10%. This ensures dependable performance across a broad range of operational conditions and enhances the reliability of electronic devices. Additionally, these capacitors are designed to operate effectively within a temperature range of -55°C to +125°C, which makes them suitable for a variety of environments, from consumer electronics to industrial applications.
The 0402N471 capacitors are particularly well-suited for decoupling, filtering, and timing applications in high-density circuit designs. Their ability to minimize voltage fluctuations and noise enhances the performance of sensitive electronic components, making them ideal for use in RF applications, telecommunications, and automotive systems. Furthermore, their robust construction allows them to withstand the rigors of soldering and assembly processes, ensuring longevity and reliability in the final product.
In summary, the 0402N471 Series combines compact design with high reliability and exceptional performance, making it an indispensable choice for engineers and designers in various industries. Whether employed in smartphones, tablets, wearables, or automotive electronics, these capacitors deliver outstanding performance and contribute to the advancement of modern technology, enabling the development of smaller, more efficient electronic devices.