06031A4R0
Multilayer ceramic capacitors for 100V applications
Manufacturer: avx
series introduction
The 06031A4R0 Series is a distinguished lineup of surface-mount ceramic capacitors, tailored for high-performance applications where space and efficiency are paramount. These capacitors are designed with advanced dielectric materials and robust engineering processes that ensure exceptional reliability and stability in a variety of operating environments. One of the standout features of the 06031A4R0 Series is its low equivalent series resistance (ESR), which minimizes power loss and enhances the overall efficiency of electronic circuits.
With a capacitance value of 4.0 μF and a voltage rating that caters to a broad spectrum of applications, the 06031A4R0 Series provides designers with flexibility in circuit design. Its compact 0603 package size (1.6 mm x 0.8 mm) is particularly advantageous in applications where real estate on printed circuit boards (PCBs) is limited, making it ideal for modern electronic devices that prioritize miniaturization without compromising performance.
The design characteristics of the 06031A4R0 Series include a wide temperature range, allowing these capacitors to maintain their performance in extreme conditions, from -55°C to +125°C. This resilience makes them suitable for automotive, industrial, and consumer electronics applications, where reliability is crucial. Additionally, their compatibility with various soldering techniques, including reflow soldering, ensures that they can be integrated seamlessly into automated assembly processes.
Typical applications of the 06031A4R0 Series include power supply circuits, signal coupling and decoupling, and filtering in high-frequency environments. These capacitors are extensively employed in smartphones, tablets, and wearables, as well as in automotive electronics and telecommunications equipment, where they contribute to enhanced signal integrity and energy efficiency. By integrating the 06031A4R0 Series into their designs, engineers can achieve optimal performance while adhering to stringent space and efficiency constraints that characterize contemporary electronic systems.
Images for reference
Ceramic 0603
T2A_0603
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