Overview of C1608X7R1H474K080AC by TDK Corporation
The C1608X7R1H474K080AC by TDK Corporation is a multilayer ceramic capacitor (MLCC) with a capacitance of 0.47 µF and a rated DC voltage of 50V. It features a tolerance of ±10% and operates over a wide temperature range, from -55°C to +125°C, thanks to its X7R dielectric characteristic. The X7R dielectric is well-suited for applications requiring stable capacitance across temperature fluctuations, with a temperature coefficient of 15% ppm/°C. This capacitor is housed in a compact 0603 package (1.6mm x 0.8mm), making it ideal for space-constrained applications. The C1608X7R1H474K080AC is RoHS compliant and employs a surface mount technology (SMT) for its mounting feature, with terminals finished in a matte tin (Sn) – with nickel (Ni) barrier for enhanced solderability and resistance to oxidation.
Industry Applications for C1608X7R1H474K080AC
The versatile features of the C1608X7R1H474K080AC enable its use across a wide range of industries. These potential applications are conceptual and require further verification by engineering teams to ensure compliance with industry standards and specific requirements:
- Consumer Electronics: Devices such as smartphones, tablets, and laptops might utilize the C1608X7R1H474K080AC for its compact size and stable capacitance in temperature-variable environments. This capacitor could potentially serve in power management circuits or as a decoupling capacitor close to high-speed microprocessors.
- Industrial Automation: In automated production lines or robotics, where stability and reliability are crucial, the temperature stability and reliability of X7R capacitors might be beneficial. The C1608X7R1H474K080AC could potentially find its application in sensor interfaces or actuator control electronics.
- Telecommunications: Telecommunication equipment, including base stations and network routers, which require stable performance over varying temperature ranges, might incorporate this component for signal processing or power stabilization purposes.
- Computing and Data Storage: Servers and data storage units that operate in environments with fluctuating temperatures could possibly benefit from the C1608X7R1H474K080AC’s stable electrical characteristics and compact form factor for bypass and filtering applications.
- Aerospace and Defense: While specific military or aerospace standards are not listed for this component, similar types of capacitors with the required certifications might be used in this sector for their reliability and performance in extreme conditions.
Note: The potential industry applications listed are illustrative and conditional upon thorough analysis and verification by engineering and design teams to confirm compliance with relevant standards and specific application needs.
About TDK Corporation
TDK Corporation is a leading manufacturer of electronic components, with a rich history in the development and production of various capacitor types, including Ceramic Capacitors. The company stands out in the electronics industry for its innovation, quality, and broad product range. TDK’s portfolio of ceramic capacitors demonstrates their commitment to advancing capacitor technology, catering to a wide array of applications from consumer electronics to industrial and automotive applications. The C1608X7R1H474K080AC is an example of TDK’s emphasis on product reliability and performance, embodying the company’s dedication to meeting the stringent demands of the electronics industry.
Where to Find C1608X7R1H474K080AC by TDK Corporation
For procurement specialists and engineers looking to source the C1608X7R1H474K080AC, findchips.com offers a comprehensive platform to check current stock levels and pricing across multiple distributors. When researching where to purchase this MLCC or looking for alternative Ceramic Capacitors, Findchips provides up-to-date information from reputable distributors including Perfect Parts Corporation, New Advantage Corporation, Mouser Electronics, and DigiKey. However, availability can fluctuate, so it’s recommended to visit Findchips directly to get the most current data.