Y5V ceramic capacitors for general use
Manufacturer: ['fenghua', 'wtc', 'walsin']
The 0402F104Z Series is an advanced line of surface-mount multilayer ceramic capacitors (MLCCs) engineered for applications requiring high capacitance in a remarkably compact form factor. With a footprint of just 0.4 mm x 0.2 mm, these capacitors are designed to meet the growing demands of modern electronic devices, where space optimization is paramount without compromising performance or reliability.
One of the key features of the 0402F104Z Series is its utilization of high-quality dielectric materials, which ensures stable electrical characteristics under varying environmental conditions. These capacitors exhibit a capacitance value of 100,000 pF (or 0.1 µF) and are rated for voltages up to 50V. This makes them ideal for a diverse range of applications, including decoupling, filtering, and bypassing in high-frequency circuits. The X7R dielectric used in this series provides a capacitance stability of ±15% across a temperature range of -55°C to +125°C, offering exceptional reliability for critical applications.
The design of the 0402F104Z Series also emphasizes thermal stability and low equivalent series resistance (ESR), which are essential for minimizing power loss and ensuring efficient performance in demanding environments. These attributes make the capacitors particularly suitable for use in RF applications, automotive electronics, and power management systems, where performance consistency is crucial.
Typical applications for the 0402F104Z Series span consumer electronics, such as smartphones and tablets, where real estate on the PCB is limited, as well as industrial control systems and IoT devices that require compact yet robust components. Additionally, their reliability makes them a preferred choice in medical devices and automotive systems, where safety and performance are non-negotiable.
In summary, the 0402F104Z Series offers an optimal solution for engineers and designers seeking high-performance capacitors that do not compromise on space, making them an essential component in the ever-evolving landscape of electronic design.