Overview of 6TPE330MAP by Panasonic Electronic Components
The 6TPE330MAP is a tantalum capacitor, characterized by its solid polymer tantalum dielectric material. Specifically designed for surface mounting on printed circuit boards, it encapsulates high reliability and efficiency in a compact rectangular 2917 chip package, typically known for its robust performance under various environmental conditions. This component, with a capacity of 330 µF and rated voltage of 6.3 V, is particularly noted for its compliance with RoHS, making it suitable for applications with stringent environmental compliance requirements.
Furthermore, its electrical characteristics, such as a ±20% tolerance, a maximum operating temperature range from -55°C to 105°C, and low Equivalent Series Resistance (ESR) of 25 mΩ, enhance its suitability for high-performance applications that require reliable voltage handling and frequency stability. The component is polarized, which means it has a positive and a negative terminal and must be installed in the correct orientation to function properly. The tantalum (solid polymer) used as a dielectric in 6TPE330MAP capacitors offers improved performance over other types, including higher ripple current ratings of 2400 mA and a leakage current of only 0.2079 mA.
Industry Applications for 6TPE330MAP
The properties of the 6TPE330MAP hold potential for a variety of industry applications, although it should be noted that these potential applications require thorough analysis and verification by professional engineering and design teams to ensure compliance with specific industry standards and requirements.
- Consumer Electronics: Devices such as smartphones, cameras, or laptops might utilize this capacitor for its ability to operate efficiently across a wide range of temperatures and its compact design, which is crucial for fitting into the increasingly miniaturized spaces of modern electronic gadgets.
- Telecommunications: High reliability and low ESR make the 6TPE330MAP a good candidate for telecommunications equipment, including base stations and networking gear where stable voltage and ripple current capacity can help in maintaining uninterrupted service and signal integrity.
- Industrial Automation: The high-temperature range and robustness of 6TPE330MAP capacitors make them potentially suitable for industrial machinery and robotics that operate under harsh conditions and require components that can withstand high operational stresses while ensuring reliability and long service life.
- Computing and Data Storage: With its solid polymer tantalum makeup, this capacitor could potentially be used in servers and storage systems that demand durable and stable components to cope with high rates of data processing and power management challenges.
Please note that these industry applications are conceptual/illustrative and must be validated for specific use cases.
About Panasonic Electronic Components
Panasonic is a well-regarded manufacturer in the electronics sector, especially noted for its wide range of capacitors, including tantalum capacitors. Panasonic’s tantalum capacitors are designed to provide superior performance in electronic circuits by offering low ESR and excellent durability. The 6TPE330MAP is a fine example of the company’s commitment to high-quality electronic components that meet stringent specifications for various applications. In addition to the specific part discussed, Panasonic manufactures a broad array of similar parts that find applications across many sectors of the electronics industry.
Where to Find 6TPE330MAP by Panasonic Electronic Components
To procure the 6TPE330MAP, it is advisable to utilize findchips.com. This website aggregates supply information from multiple distributors to help you compare availability and pricing. Historically, the part has been available at distributors such as TTI, Mouser Electronics, Digi-Key, and Future Electronics. However, for current stock levels and the most favorable pricing options, visiting Tantalum Capacitors on findchips.com will yield up-to-date information and potentially reveal additional suppliers.