TH3B335K035C3500

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Tantalum capacitors are an important type of passive components used in many electronic circuits. They are constructed out of metallic oxide and have been used in a variety of applications. The TH3B335K035C3500 is a specific type of tantalum capacitor produced by Panasonic. This particular capacitor is uniquely suited for applications requiring very high capacitance levels in a limited space. This article will explore the application fields and working principle of the TH3B335K035C3500.

Application Field of the TH3B335K035C3500

The TH3B335K035C3500 is primarily used in energy storage and filtering applications. In terms of energy storage, this capacitor is often used to provide transient protection or to back up a circuit as a “safety net”. The high capacitance levels of the TH3B335K035C3500 also make it suitable for power supply decoupling and snubber applications.

In filtering applications, the capacitor is often used to provide DC bypass or EMI/RFI noise reduction. The high capacitance levels of the device along with its small size make it an ideal solution for these types of applications. In addition, the TH3B335K035C3500 can be used in a variety of other applications such as audio amplification, pulse power circuits, and military applications.

The Working Principle of the TH3B335K035C3500

Tantalum capacitors are constructed out of two layers of metallized Ta2O5 (tantalum pentoxide). The two layers are separated by a thin dielectric layer of tantalum pentoxide. This type of capacitor utilizes a combination of dielectric and electrostatic principles to store electrical energy. The dielectric layer of the capacitor is comprised of a combination of positive ions and negative electrons that hold a charge. When the capacitor is connected to a voltage source, the electrons and ions in the dielectric layer move in opposite directions and store potential energy. When the capacitor is discharged, the electrons and ions move back to their original positions, releasing the stored energy.

Unlike other types of capacitors, the TH3B335K035C3500 utilizes a conductive polymer electrolyte to achieve higher capacitance levels. This type of electrolyte has a larger surface area than traditional electrolytes, which allows the capacitor to store more energy in the same amount of space. The use of conductive polymer also makes the capacitor more resistant to shock and vibration and provides higher insulation resistance.

Conclusion

The TH3B335K035C3500 is a unique type of tantalum capacitor that is well-suited for energy storage and filtering applications. Its high capacitance levels and small size make it an ideal solution for a variety of applications. The working principle of the device involves a combination of dielectric and electrostatic principles, along with the use of a conductive polymer electrolyte. With its wide range of applications, the TH3B335K035C3500 has become an important component in many modern electronic circuits.

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