TE1304.2

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Aluminum electrolytic capacitors are one of the oldest and most reliable types of capacitors available in the market today. TE1304.2 is an improved version of the conventional aluminum electrolytic capacitor which offers significantly better performance than the previously available models. This article will discuss the application field and working principle of the TE1304.2.

One of the primary application fields of the TE1304.2 is for power electronics, such as motor control, inverters, or power supplies. These capacitors are especially useful in high-power applications where the high ripple current rating, high capacitance, and long-term stability of the TE1304.2 is desirable. TE1304.2 is also used in automotive, industrial, and medical equipment as well as audio electronics.

The working principle of the TE1304.2 is based on a series of electrochemical cells. This is accomplished by sandwiching a thin foil of aluminum between a thicker and conductive anode and a cathode, with the dielectric being held by these electrodes. This configuration allows for the creation of a charge separation in the capacitor, allowing it to store energy. When a voltage is applied to the capacitor, electrons are released from the anode and transferred to the cathode.

When the voltage is applied, an ionic gas is created between the electrodes, which allows for a current exchange between the two. This ionic gas further increases the capacitance of the capacitor, allowing for a much larger charge to be stored without any significant increase in the size of the capacitor. The electrolytic capacitors are then able to store a voltage for an extended period of time without any significant loss, and thus can be used in applications where a large capacitance is desired.

The TE1304.2 has a number of distinct advantages over other aluminum electrolytic capacitors. It has a much higher rated voltage than conventional electrolytic capacitors and is able to handle up to 32V, whereas the capacitance remains relatively constant regardless of the voltage applied. This makes it ideal for high voltage applications, such as motor control or power supplies. The rated capacitance is also significantly higher than other aluminum electrolytic capacitors, which allows for much higher levels of energy storage.

Furthermore, the TE1304.2 features a much longer life than other aluminum electrolytic capacitors, with up to 10 years expected life for a full charge/discharge cycle. This makes the TE1304.2 well suited for applications where long term stability is important, such as in medical or industrial applications. Finally, it is able to operate at temperatures up to 125°C (257°F), which makes it ideal for high temperature applications that require a reliable and durable capacitor.

The TE1304.2 is an improved version of the conventional aluminum electrolytic capacitor which provides superior performance than previous models. Its higher ripple current rating, higher capacitance, and longer life make it ideal for use in a wide variety of applications, including power electronics, automotive, industrial, and medical equipment, as well as audio electronics. The TE1304.2 is able to operate at higher voltages and temperatures than conventional aluminum electrolytic capacitors and provides superior reliability for a wide range of applications.

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