TM3C476K016CBA

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Tantalum capacitors are a type of capacitor that is used in a variety of electrical applications. They are materials made primarily from a combination of tantalum and metal oxides, that when subjected to either electricity or mechanical stress can become conducting bridges. This makes them ideal for applications that require large current conductivity at high temperatures, as high as 800C. The TM3C476K016CBA is a popular choice of tantalum capacitor for many of these types of applications.

The TM3C476K016CBA is a surface mount type capacitor. It has a maximum operating temperature of 155 degrees Celsius, and can provide up to 10uF of capacitance. It is a polarized capacitor, which means it must be connected properly in order to get the correct electrical current. It is made with a combination of both tantalum and metal oxides, allowing it to have the required current carrying capacity.

The TM3C476K016CBA has a few key features that make it a useful tool for many applications. It has low ESR, which stands for Equivalent Series Resistance, meaning it is able to handle extremely high currents without affecting its performance too greatly. It is also highly resistant to vibration, which is useful for applications that require stability. In addition, it has a wide temperature range and is non-flammable, making it safe for use in various environments.

The most common applications for the TM3C476K016CBA are as a decoupling capacitor, which is used to reduce the voltage ripple of a system, and also as an energy storage device. In both applications, the capacitor can provide high power over a short period of time, as it is able to store energy effectively and then release it when needed. This makes it useful in a variety of applications, from consumer electronics to automotive and medical electronics.

The working principle of the TM3C476K016CBA is based on a few key concepts. It consists of two metal plates, one of which is connected to the power source, and the other to ground. When these two plates are connected together, a voltage is created across them. This voltage is then stored in the capacitor via a charge. When the two plates are disconnected, the stored energy is released and can be used to power a device.

The TM3C476K016CBA can come in various form factors, including vertical, horizontal, axial, and radial. The main difference between these is the direction of the electrical field created by the voltage. For example, in a radial capacitor the field will be emanating outward, and in an axial capacitor, the field will be close to the root of the terminal. Depending on the application, different form factors are generally chosen.

In conclusion, the TM3C476K016CBA is a highly popular choice of tantalum capacitor due to its combination of high current capability, low ESR, vibration resistance, wide temperature range, and non-flammability. Its working principle is based on the two metal plates, one connected to the power source and one to ground, creating a voltage that is stored in the device. This stored voltage can then be released when needed, making the capacitor a useful tool in many applications ranging from consumer electronics to automotive and medical electronics.

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