0402 SMD/SMT multilayer ceramic capacitors
Manufacturer: ['wtc', 'walsin']
The 0402N100 Series represents a cutting-edge range of surface-mount multilayer ceramic capacitors (MLCCs) that are engineered for exceptional performance in a variety of electronic applications. With a compact 0402 package size (1.0 mm x 0.5 mm), this series is particularly suited for modern high-density circuitry where space is at a premium. These capacitors have been meticulously designed to provide reliable and stable capacitance values, making them ideal for critical functions such as decoupling, filtering, and energy storage.
One of the standout features of the 0402N100 Series is its utilization of high-grade dielectric materials, which ensures capacitance stability across a broad temperature range. This series is capable of maintaining performance within ±10% over temperatures from -55°C to +125°C, thereby guaranteeing reliability even in the most demanding environments. Additionally, the capacitors are characterized by low equivalent series resistance (ESR) and low equivalent series inductance (ESL), which contribute to their superior filtering capabilities and overall performance in high-frequency applications.
Designed with versatility in mind, the 0402N100 Series offers a wide selection of capacitance values and voltage ratings, enabling designers to select the optimal component for their specific application needs. This flexibility makes them suitable not only for consumer electronics but also for automotive, telecommunications, and industrial applications. They are particularly useful in mobile devices, laptops, and wearables, where performance and size constraints are paramount.
In summary, the 0402N100 Series is an exceptional choice for engineers looking to integrate reliable, space-efficient capacitors into their designs. With their robust construction, stable electrical characteristics, and adaptability across various applications, these MLCCs set a new standard in the realm of electronic components, ensuring that they meet the rigorous demands of today's advanced technological landscape.