T6W2NR-F

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

Film capacitors are a general category of electrochemical capacitors, which consist of two electrodes typically sandwiching an organic polymer film, formed by ionic overlayer deposition. The film is typically made from polypropylene, and the electrodes are typically made from aluminum and/or steel.

The T6W2NR-F film capacitor is a surface-mounted capacitor manufactured by Nichicon Corp. It is designed specifically for resonant circuit applications, and is part of a popular family of Nichicon film capacitors that feature low DC leakage currents, fast results and excellent heat resistance.

The main advantage of this capacitor is its superior capacitance-ripple properties. The T6W2NR-F has a capacitance range from 0.47 to 5.6nF and a capacitance tolerance of 1%. It also has a DC insulation resistance of 200Mohm or greater, and a low dielectric loss of 0.1dB at 1kHz. The T6W2NR-F has a maximum working voltage of 250VDC.

The T6W2NR-F is typically used in circuits requiring both superior resonant frequency characteristics and high frequency decoupling capabilities. Typical applications include:

• High frequency switching regulators
• AC/DC and DC/DC converters
• AC/DC motor control
• Power conditioners
• Power supply interfaces
• Disk drive and PC motherboard timing circuits
• Audio amplifiers
• Noise filters

The working principle of the T6W2NR-F is based on charge-and-discharge cycles. The capacitor stores electrical energy as an electrostatic field between two metal plates, which also act as electrodes for the capacitor. As the voltage between the plates increases, so does the stored energy. When the stored energy reaches its peak, a discharge is initiated. This occurs when the capacitor is connected to a load, and the electrons stored in the capacitor are released in order to meet the load\'s current demands.

When the capacitor is discharged, the voltage across its plates decreases, which in turn decreases the stored energy. As the voltage drops, the current flow will be proportional to the voltage until it reaches zero. At this point, the capacitor is once again ready to charge. The cycle then repeats until the capacitor eventually fails due to age or excessive temperatures.

The combination of superior resonant frequency characteristics, low voltage losses, and quick charging and discharging cycles make the T6W2NR-F an excellent choice for many applications. It features high reliability and long life, and is suitable for use in a variety of environments, including high humidity, dust, and extreme temperatures.

The specific data is subject to PDF, and the above content is for reference