TM3C106K020EBA

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Tantalum capacitors are capacitors with a tantalum atom as its anode and are widely used in consumer electronics and other industries. The TM3C106K020EBA is one such capacitor among many that are available. It is a surface mounted capacitor with a variety of characteristics such as very low equivalent series resistance (ESR) and high ripple current ratings that make it ideal for use in power supplies, DC to DC converters, portable computers, and other similar applications. In this article, we will take a look at the application field and working principle of the TM3C106K020EBA.

TM3C106K020EBA Application Field

The TM3C106K020EBA is a surface mounted tantalum capacitor which is designed for use in applications that demand high reliability and long life. It has a wide operating temperature range of -55°C to +125°C and is rated for an operating voltage range of 6.3V to 16V. This makes it well suited for use in a variety of applications where a reliable, low ESR capacitor is needed. These applications include high performance power supplies, DC to DC converters, portable computing devices, UPS circuits, and other similar installations.

The TM3C106K020EBA is also designed to handle temperatures above 125°C, making it an ideal choice for use in high temperature environments such as automotive applications, DC-DC converters, and aerospace systems. The device also features an excellent capacitance retention even in conditions where the voltage and temperature are cycled constantly, making it well suited for use in high-end computing systems such as motherboards and servers.

The TM3C106K020EBA also features an internal ESR rating of 0.36Ω, which is exceptionally low for tantalum capacitors and makes it well suited for use in power supplies, drivers, and other applications where the voltage and frequency can be varying rapidly. This feature is complemented by the capacitor’s high surge current capability, which allows it to handle higher peak current loads without failure or poor performance.

TM3C106K020EBA Working Principle

The working principle of the TM3C106K020EBA is fairly simple and is based on the basic principles of capacitance. A capacitor is essentially two conductors that are separated by a dielectric material. When a voltage is applied across the capacitor, an electric field is created between the conductors, causing charges to move between them. This movement of charges creates an electric current that is proportional to the applied voltage, and this is the principle upon which a capacitor functions.

The internal design of the TM3C106K020EBA consists of a solid tantalum anode and cathode electrodes divided by a thin layer of dielectric material. When the device is exposed to an applied voltage, an electric field is created between its anode and cathode electrodes, causing electric charge to be stored. As these electric charges build up, they form an electric field within the device that creates a capacitor effect that is able to store energy in the form of an electric field.

The techniques used to manufacture the TM3C106K020EBA, such as the use of low-temperature cathode deposition and porous tantalum electrodes, allow for a more robust capacitor that is capable of withstanding greater voltages and temperatures. The capacitor is also designed to have a very low internal ESR rating, which is beneficial in applications that require the device to be able to handle high ripple current ratings and reduce power losses due to its lower resistance.

Conclusion

The TM3C106K020EBA is a high-reliability, low-ESR tantalum surface-mounted capacitor that is well suited for use in a variety of power- and signal-related applications. Its wide operating temperature range and low ESR rating make the device ideal for use in power supplies, DC-DC converters, portable computing devices, and other similar applications. The TM3C106K020EBA is designed to be able to handle high peak currents without failure and its internally low resistance rating makes it well suited for use in applications where the voltage and frequency can be varying rapidly. With its robust construction and excellent capacitance retention, the TM3C106K020EBA is an ideal choice for any application that demands reliable performance and long life.

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