M39003/09-0309H Datasheet/PDFApplication Field and Working Principle of M39003/09-0309H Tantalum Capacitors
Introduction
M39003/09-0309H are one kind of tantalum capacitors, which is mainly used for telephone, miniature and portable electronic equipment. It is suitable for construction and maintenance in the various industrial environments. Because of its high capacitance performance and small size, M39003/09-0309H is compact and light-weight, making it an attractive option in many industries.
Application Field
M39003/09-0309H is mainly used for pocket radio, portable calculators, telephone headsets and digital watches. Its works relatively stable and operates safely under high temperatures (up to +85°C). It can also be widely used in communication technology, instrumentation, aviation and navigation equipment, medical equipment, and computers.
Working Principle
M39003/09-0309H tantalum capacitors work according to the same principle as other capacitors. Its conducting plates are joined with a dielectric layer. When voltage is applied, an electric field is generated across the dielectric material and positive charges are attracted to one plate, while negative charges are attracted to the other plate. This creates an electric potential difference between the two plates, storing energy and providing the capacitor with a capacitance rating.
Advantage
M39003/09-0309H has several advantages when compared to other capacitors. One advantage is its small size, which enables it to be used in a wide variety of applications, from cell phones to medical equipment. Additionally, this type of capacitor has a larger capacitance rating than many other capacitors, allowing for higher energy-density storage and more efficient electricity use. The unique dielectric materials used in M39003/09-0309H also make for a low leakage current, reducing heat buildup and self-discharging when in use.
Conclusion
M39003/09-0309H are a type of tantalum capacitor that has been designed to meet the specific needs of the electrical and electronics industries. Its small size, high capacitance, and low leakage make it an ideal choice for uses ranging from medical to high-power electronics. Its higher energy-density rating also enables it to be used in many applications where power-saving is essential.