Overview of C0805C106K4PACTU by KEMET Corporation
The C0805C106K4PACTU by KEMET Corporation is a multilayer ceramic capacitor (MLCC) with a capacitance value of 10 µF and a rated voltage of 16V. It exhibits a ±10% tolerance, operates within the temperature range of -55ºC to +85ºC, and adheres to the X5R temperature coefficient specifications. This MLCC is designed in an 0805 package (2mm length x 1.25mm width x 1.25mm height), making it compatible with surface-mount technology. It is RoHS compliant, indicating that it is manufactured with no harmful substances, and features a lead-free matte tin over nickel terminal finish for improved solderability and environmental safety. Additionally, the capacitor’s dielectric material is ceramic, and it is characterized by an operating temperature coefficient of 15% ppm/°C. The part is supplied in a tape and reel packaging format, specifically on a 7-inch reel that is embossed plastic, which is ideal for automated assembly processes.
Industry Applications for C0805C106K4PACTU
The C0805C106K4PACTU capacitor by KEMET Corporation finds its applications across multiple industry sectors due to its general-purpose nature, reliability, and diverse operational capabilities. Here are several potential industry applications and examples where this component could be beneficial:
- Energy and Power Systems: MLCCs are crucial in the energy sector, especially in power conversion electronics, renewable energy inverters, and smart grid infrastructure. The high capacitance value and voltage rating of the C0805C106K4PACTU make it suitable for smoothing and filtering applications in power supplies and DC-DC converters.
- Telecommunications: In the telecommunications industry, this capacitor might be employed in the manufacturing of RF modules, base stations, and networking devices such as routers and switches. Its compact size and compatibility with high-frequency applications contribute to its utility in these areas.
- Consumer Electronics: Given its surface-mount capability and general-purpose nature, the C0805C106K4PACTU is ideal for a myriad of consumer electronics including smartphones, tablets, laptops, and wearables. It could potentially be used for decoupling, filtering, or as a bypass capacitor in these devices.
Note that these potential applications are conceptual/illustrative and require thorough analysis and verification by engineering and design teams to ensure suitability and optimal performance in the specific use case.
About KEMET Corporation
KEMET Corporation is a leading global supplier of electronic components, particularly known for its extensive range of capacitor technologies. The company’s portfolio includes tantalum, ceramic, aluminum, film, and paper capacitors, serving industries such as automotive, industrial, consumer electronics, telecommunications, and aerospace. KEMET’s emphasis on innovation and quality has positioned it as a key player in the capacitors market, particularly within the sector of Ceramic Capacitors. The C0805C106K4PACTU is part of KEMET’s comprehensive ceramic capacitor offering. This particular MLCC is designed not only to meet the general requirements of various electronic circuits but also to comply with environmental standards, as highlighted by its RoHS compliance.
Where to Find C0805C106K4PACTU by KEMET Corporation
To find the C0805C106K4PACTU for procurement, findchips.com is the most reliable and comprehensive platform. Here, engineers and procurement professionals can obtain current stock levels and pricing from a broad network of authorized distributors. While the part has historically been available through distributors such as Avnet Asia, Sensible Micro Corporation, TME, TTI, Quest Components, Bristol Electronics, Mouser Electronics, Avnet Americas, and Newark, availability can vary. To explore alternate parts or more from KEMET Corporation, use the Ceramic Capacitors link on findchips.com. It is recommended to always verify the most current availability and pricing information directly through findchips to ensure procurement decisions are made based on the most accurate and up-to-date data.