NE681M13-A

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The NE681M13-A is an RF transistor designed for use in radio frequency (RF) devices, including amplifiers and oscillators. The NE681M13-A is a N-channel enhancement mode MOSFET transistor featuring a surface-mount p-type drain and n-type source. It offers high performance in a variety of applications, including high frequency and gain linearity, low distortion, and low power consumption.

The NE681M13-A is, in a sense, an electronic switch. When switched on, the transistor allows current to flow from the source to the drain. The amount of current that can flow through the transistor is determined by the amount of voltage applied to the gate. Increasing the gate voltage increases the amount of current that can flow through the transistor, allowing for more precise control of current than with other types of transistors.

The NE681M13-A is typically used in RF devices such as amplifiers, oscillators, and mixer circuits. In amplifiers and oscillators, the NE681M13-A can be used to increase or decrease the gain or frequency, respectively. In mixer circuits, the NE681M13-A can be used to mix two frequencies together to create new frequencies. The NE681M13-A can also be used as an oscillator in its own right, amplifying a signal or providing feedback in order to produce an oscillation.

The NE681M13-A is designed to operate over a wide range of voltages and frequencies, making it ideal for use in various applications. Its low power consumption and wide-band operation make it suitable for a range of mobile and wireless communication applications, from low-power Bluetooth to high-powered mobile phones. Additionally, its low distortion and high linearity over a wide frequency range makes it suitable for use in commercial and military radios and other communication systems.

The NE681M13-A is a highly-reliable and versatile transistor that can be used in a variety of applications. Its wide operating range, low power consumption, low distortion and high linearity make it ideal for use in radio frequency applications, from consumer electronics to military communications.

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