TM3C475M020CBA

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Tantalum capacitors are one of the most widely used electronic components in the world, and the TM3C475M020CBA is no exception. This device, in particular, is a part of the series of standard Tantalum capacitors manufactured by Murata. It is equipped with a range of features and is suitable for a number of applications in many different sectors.

The TM3C475M020CBA can be used as a general-purpose capacitor for power supply decoupling, or as a bypass or charge/discharge capacitor. It features a wide operating temperature range (-55 to +125 °C) that makes it suitable for even the harshest conditions. It also boasts low dielectric absorption and low ESR (Equivalent Series Resistance) characteristics that make it an efficient choice for a variety of applications.

The capacitance of the TM3C475M020CBA is 470 µF, and it has a maximum rated working voltage of 20 VDC. It comes in a compact C-size package, with a maximum leakage current of 0.8mA and a lifetime of up to 2000 hours. The device also has an insulation resistance of 12.5K ohms (minimum) and a minimum capacitance of 460 µF (at 20 Hz -20dB A).

The TM3C475M020CBA is easy to use, as it does not require any special components to be installed in order to function. It does not require heat sinks, and its low current draw also makes it ideal for applications where power saving is essential.

The device is also designed to be reliable and long-lasting - even in the most extreme conditions. Its operating temperature range ensures that it remains stable in high humidity environments. It is also designed to withstand a wide range of vibrations in its environment, as well as large temperature fluctuations. This makes it the perfect choice for a number of industries, including automotive, industrial, medical, and aerospace.

The TM3C475M020CBA works on the principle of electrical capacitance, which is the ability to store electrical charge. It is composed of two plates, one of them is made of a metal foil (usually aluminium or copper) that acts as the anode. The other plate is composed of an insulating material that acts as the cathode. The plates are separated by a dielectric material. When electrical charge is applied to the anode and cathode, charge accumulates on the plates and this creates a potential difference or voltage.

When a DC voltage is applied to the two plates, positive charge accumulates on the anode and negative charge accumulates on the cathode. Whenever the potential difference between the two plates reach the rated voltage of the device, the capacitance is then said to have been reached. This is known as charge storage and it is what gives the capacitor its name.

The TM3C475M020CBA has many advantages and is a popular choice for a wide range of applications. Its wide operating temperature range ensures it works reliably even in harsh environments. It also has a low current draw, which makes it ideal for applications where power saving is essential. Lastly, its low ESR ensures that it is an efficient choice for power supply decoupling and switching.

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