TM3D107M6R3HBA

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Tantalum capacitors are widely used in many applications, including military, aerospace, and other commercial purposes. They are specialized electronic elements built with a tantalum electrolytic material, providing low leakage currents, low volume, and low-voltage characteristics. A common example is the TM3D107M6R3HBA from the T Series manufactured by Vishay. This capacitor is designed for industrial or commercial applications.

The TM3D107M6R3HBA solution, being a tantalum capacitor, is based on a tantalum anode and an electrolyte solution. The anodes are made of metal oxide, most often tantalum pentoxide, and the electrolyte is typically a potassium hydroxide or a corrosive aqueous solution. The anode can also contain other materials such as lanthanum and aluminum, depending on the desired performance specifications. Applied voltage at the terminals of the electrolyte damages the anodes, which then need to be safeguarded by an appropriately selected anode material.

The purpose of this capacitor is to store electrical energy. It is composed of two conductive plates or electrodes spaced apart by a dielectric material, most often tantalum pentoxide. When an electrical potential is applied across the terminals of the capacitor, the electrolyte solution charges up and a charge builds up on the capacitor’s plates. This is known as the “capacitance.” The capacitance is determined by the size, shape, dielectric constant, and distance between the plates. The TM3D107M6R3HBA offers a maximum capacitance of 10µF.

The TM3D107M6R3HBA is mainly designed to be used in high frequency applications as its impedance remains low and more consistent across a broader range of frequencies. Building upon its desirable combination of volumetric efficiency and reliability, this device is suitable for ripple current rated conditions in low profile, surface mount applications, such as LED drivers, motor control systems, power supply applications, and amplifier circuits. Its thermal resistance capability and low profile make it suitable for use in battery powered circuits. Furthermore, this capacitor also is used in a broad range of military and space applications.

The TM3D107M6R3HBA is an impure tantalum capacitor with a solid manganese dioxide cathode. For these types of capacitors, the cathode is a porous sintered structure. This structure, which consists of interconnected pores, allows for the electrolyte solution to be evenly distributed. The electrolyte solution is then responsible for the alteration of impedance of the capacitor, providing high reliability over time and working temperature. In this type of capacitor, the cathode plates are slightly thicker than the anode plates.

The main advantage of the TM3D107M6R3HBA is that it provides excellent low leakage current characteristics, owing to its solid manganese dioxide cathode. The low leakage current is maintained by the electrolyte solution and the wire-bond electrodes. The wire-bond electrodes also reduce noises and improve the ripple current capability of the capacitor. Finally, the capacitor voltage derating provides for a wide range of both high and low temperature performance.

In conclusion, the TM3D107M6R3HBA is a reliable and efficient low profile tantalum capacitor. It is capable of sustaining a wide range of temperatures and humidity levels while providing exceptional performance in high frequency applications. Its low leakage current enables its use in battery powered circuits while its low profile design is ideal for use in LED driver, motor control systems, power supply applications, and amplifier circuits. Furthermore, it is also suitable for a range of military and space applications. This capacitor is a reliable, efficient, and cost-effective solution for the majority of modern electronic applications.

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