NTB35N15G

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Transistors are devices used to control the flow of current from one point to another. They can be used to switch a current on or off or amplify signals. Field-effect transistors (FETs) are a type of transistor that rely on electric fields instead of current for their operation. The NTB35N15G is a super-junction metal-oxide-semiconductor field-effect transistor (MOSFET) typically used in consumer, computing, industrial, and automotive applications. This article will discuss the application field of the NTB35N15G MOSFET and explain its working principle.

Application

The NTB35N15G is a product of ON Semiconductor, an American global semiconductor manufacturer. The NTB35N15G is designed for integrated applications, consumer, computing, industrial, and automotive applications that require an efficient power switching device. It has a maximum drain-source voltage of 300V, a maximum drain current of 15A and a threshold voltage of 1.7V. The NTB35N15G also features a low gate-charge characteristic, making it ideal for use in high-frequency switching applications such as motor control. It also has low power consumption and is capable of operating efficiently under extreme environmental conditions. The NTB35N15G is available in a TO-220 package.

Working Principle

MOSFETs are transistors that rely on electric fields instead of current to control the flow of current from one point to another. The NTB35N15G is a type of MOSFET known as a super-junction MOSFET. This type of MOSFET has two independent, parallel channels. Each channel is made of an array of thin-film electrodes, each with its own gate. This structure allows multiple gates to be used to regulate the flow of electrical current.

The NTB35N15G MOSFET works by placing a voltage between the source and the drain. This voltage is used to create an electric field, which is then used to control the flow of electrons from the source to the drain. The gate, which is connected to the source, is used to regulate the flow of electrons by using an electric field to open or close the channel. The voltage between the gate and the source determines the state of the channel and thus the current flowing through it.

The NTB35N15G has the benefit of being able to operate efficiently over a narrow voltage range, making it ideal for use in applications where accuracy and low power consumption are essential. Its low threshold voltage also makes it easier to switch on, making it suitable for high-frequency switching applications. In addition, the NTB35N15G is capable of operating at temperatures as low as -55°C, making it suitable for use in extreme environmental conditions.

In summary, the NTB35N15G is a super-junction MOSFET typically used for integrated applications, consumer, computing, industrial, and automotive applications. It has a maximum drain-source voltage of 300V, a maximum drain current of 15A, and a threshold voltage of 1.7V. The NTB35N15G operates by using a voltage between the source and the drain to create an electric field, which is then used to open or close the channel. The low threshold voltage and the ability to operate efficiently under extreme environmental conditions make the NTB35N15G an ideal choice for applications where accuracy and low power consumption are essential.

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