TM3D226M016CBA

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Tantalum capacitors are generally composed of a tantalite dielectric material. The dielectric material is most commonly an oxide such as Ta2O5, preferably about 90% by weight of Ta2O5, which is amorphous and soaked in an electrolytic solution of an aqueous liquid, such as sulfuric acid, or a carbonate solution, such as potassium hydroxide. The electrolytic solution is usually constituted of a polymeric resin or an ion exchange resin.

TM3D226M016CBA is a high-performance tantalum electrode capacitor with a wide range of application fields, such as wave filters, power supply circuits, and signal transmission lines. It is suitable for AC/DC safety filters, high-frequency amplifier circuits, DC blocking circuits, and active dampers.

The working principle of TM3D226M016CBA includes three stages. The first stage is the formation of the oxide layer on the tantalum electrode, which will act as the dielectric medium between the anode and the cathode. This oxide layer is stable and it does not change even if the voltage is applied to the terminal. The second stage is the formation of an electrolyte, which will be filled into the space between the anode and the cathode. Finally, the voltage will be applied to the terminal to form an electric field. The electric field will cause the electrons on the anode and the cathode to move in opposite directions, thereby forming an electric double layer.

In addition, TM3D226M016CBA features high-stability capacitance, high-insulation, and low-leakage currents. It is widely accepted owing to its reliability and uniformity in a wide range of temperatures. Its temperature-compensated capacitance and extremely low ESR makes it suitable for use in many harsh environments. It is also resistant to geometric distortion, which makes it a good choice for applications with tight space requirements.

TM3D226M016CBA is highly recommended for its unique and dependable performance in the fields of electronic components, aerospace, automotive, and military industry. Its broad applications in AC/DC safety filters, high-frequency amplifier circuits, DC blocking circuits, and active dampers make it one of the best choices for capacitors. Its high reliability, its performance in a wide range of temperatures, and its geometric distortion resistance make it an excellent choice for use in applications with demanding requirements.

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