SMT film capacitors for microwave applications
Manufacturer: avx
The 02013J3R0 Series is a distinguished collection of precision multilayer ceramic capacitors (MLCCs) engineered for high-performance applications across various industries. This series is particularly notable for its exceptional stability, low equivalent series resistance (ESR), and remarkable capacitance values, which make it a preferred choice for engineers seeking reliability and efficiency in their designs. Utilizing a Class 3 dielectric material, these capacitors maintain their capacitance within ±20% across a wide temperature range from -55°C to +125°C, ensuring consistent performance even in challenging environments.
One of the key features of the 02013J3R0 Series is its compact 0201 package size (0.6 mm x 0.3 mm), which allows for seamless integration into high-density circuit boards. This miniaturization is essential for modern electronic devices, where space is at a premium. Offering a variety of capacitance values up to 3.0 μF and rated voltage options, the series is versatile enough to cater to a wide array of applications, including decoupling, noise filtering, and signal coupling.
Designed for use in mobile devices, consumer electronics, telecommunications equipment, and automotive applications, the 02013J3R0 Series excels in environments where size, weight, and performance are critical. Its low ESR characteristics contribute to efficient power management, making it ideal for power supply circuits and energy storage systems. Furthermore, these capacitors are suitable for high-frequency applications, where signal integrity is paramount.
In summary, the 02013J3R0 Series stands out as a reliable solution for engineers and designers looking to enhance the performance of their electronic devices. With its robust design, versatile application range, and superior electrical characteristics, this series is an invaluable asset in the realm of advanced electronic component technology, serving a broad spectrum of demanding industrial requirements.