TDC104M050NSE

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Tantalum capacitors are some of the most popular electronic storage components used in many small electronic devices. The TDC104M050NSE is a tantalum capacitor specifically designed for applications that require high performance and reliability. This capacitor has a variety of advantages, such as high capacitance values, low leakage current, excellent voltage stability, and wide temperature range. These features make it the optimal choice for applications such as power management, medical instrumentation, embedded systems, and more.

The TDC104M050NSE capacitor is composed of tantalum powder, which is composed of many small particles. The particles are mixed with a binder such as silicone and then heated. This process forms a solid block called a pellet, which is then pressed and die-cut into a disc shape. The disc is then dipped in a solution that contains electrolytes such as manganese dioxide. The electrolytes increase the capacitance of the disc when it is charged, and decreases when it is discharged.

The TDC104M050NSE capacitor is designed to operate at temperatures between -55°C and +125°C, making it suitable for use in a wide variety of high temperature and low temperature applications. It has an operating voltage of 4.5V and a capacitance of 0.50µF. The life expectancy of the TDC104M050NSE is typically 1,000,000 charge/discharge cycles at room temperature, increasing up to 5,000,000 cycles when operated in cryogenic temperatures.

In addition, the TDC104M050NSE capacitor has a low ESR of 10mΩ, making it extremely efficient in applications where low equivalent series resistance is desired. This is because the lower the ESR, the lower the total power dissipation in the circuit, resulting in less heat being generated and higher operating efficiency. The TDC104M050NSE is also RoHS compliant, making it an ideal choice for environmentally conscious applications.

The working principle of the TDC104M050NSE capacitor is based on the principle of electrical charges. When the capacitor is charged, the positive and negative terminals of the capacitor develop an electrical potential, which is known as electrical potential energy. This energy is stored in the form of the electrical charges on the capacitor, which are known as electric fields, and the amount of charge stored in the capacitor is determined by the size of the capacitor. When a circuit is connected to the terminals of the capacitor, the electric field forces a current through the circuit, thus allowing electrical energy to be stored in the capacitor.

When the capacitor is discharged, the electric fields that are formed by the charge on the capacitor slowly dissipates. This results in the electrons of the circuit slowly discharging from the capacitor, allowing the capacitor to slowly discharge energy from the circuit. The amount of electricity stored on the capacitor is determined by the size and capacitance of the capacitor and is measured in Farads. The TDC104M050NSE capacitor has a capacitance of 0.50µF, making it ideal for applications requiring a high degree of capacitance.

The TDC104M050NSE capacitor is the perfect choice for applications that require high performance, excellent voltage stability, and wide temperature range. It is also RoHS compliant, making it an ideal choice for environmentally conscious applications. The TDC104M050NSE capacitor is a reliable and efficient choice for a wide variety of applications, from power management to medical instrumentation.

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