![]() This device IRF1010E falls under the category of N-channel MOSFET where electrons flow as the charge carriers in contrast to P-channel MOSFETs where holes are the major charge carriers. ![]() There are two types of MOSFET available in the market i.e.While when voltage is applied, it results in increasing the conductance. Here when there is no voltage, there is no conductance across the channel. While, on the other hand, the enhancement mode works exactly opposite to the depletion region.However, when the voltage is applied across the gate terminal, it results in decreasing the channel conductivity. During depletion mode, when no voltage is applied across the gate terminal, there is maximum conductance across the channel. The MOS capacitor is the key component that plays a crucial role in the functionality of the device. The main principle of this device is based on controlling the voltage and current between drain and source terminals.And the channel width is handled by the voltage on the gate terminal. The gate terminal stands between the source and drain terminals.The gate terminal in IRF1010E is used for the biasing of the device while the source terminal is the area from where electrons enter the channel while the drain terminal is the area from where electrons leave the channel. ![]() It is a voltage-controlled device as opposed to a bipolar junction transistor that is a current controlled device and comes with terminals base, collector, and emitter. ![]() This chip is a three-terminal device with terminals drain, source, and gate.The IRF1010E is an N-channel power MOSFET mainly employed for fast switching applications.I suggest you buckle up as I’ll detail the complete Introduction to IRF1010E covering datasheet, pinout, features, and applications. The maximum power dissipation of this device is 170W and the pulsed drain current is quite high i.e. The IRF1010E is an N-channel power MOSFET that comes with low turn-on resistance and is mainly used in fast switching applications. In this post today, I’ll walk you through the Introduction to IRF1010E.
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