NCE0275T_NCEP12T11 Introduction

Their various switching actions are almost the same. Of course, when they burn out, there must be a small tube that can't bear it first. So the stability of the tube is inseparable from the manufacturing process, and poor workmanship may result in the inconsistency of the parameters of these small tubes.

In simple terms, the motor is driven by the output current of the MOS tube such as NCE80H12. The larger the output current (in order to prevent overcurrent from burning the MOS tube, the controller has limited current protection), the motor torque is strong and the acceleration is powerful, so MOS Tubes play a very important role in electric vehicle controllers.

NCE0275T_NCEP12T11

NCEB301Q

The conductive channel of the MOS tube can be formed during the production process or by turning on an external power supply. When the gate voltage is equal to zero, there is a channel (that is, formed during production), which is called depletion mode. When an external voltage is applied The one that forms the channel later is called the enhancement type. .

There is parasitic capacitance between the three pins of the MOS tube, which is not what we need, but is caused by the limitation of the manufacturing process.

MOS tube 3306 product features 1. RDS(on)=7mΩ@VGS=10V 2. Lead-free green equipment 3. Low resistance switch to reduce conduction loss 4. High avalanche current.

The following describes the principle of the MOS transistor with the structure of an N-channel enhancement type low-power MOSFET. . However, in terms of structure, there is a big difference between them. In order to better understand the mechanism of power MOSFET, we must first recall the mechanism of low-power FET. Working principle of power MOS tube Power MOS tube is developed from low-power MOS tube.

NCE0275T_NCEP12T11

NCE30P12S

Power MOSFETs are used in power conversions such as switching power supplies and inverters, and they work in two regions, the cut-off region and the breakdown region. The breakdown region is in the region of considerable drain-source voltage UDS, and the drain current is approximately constant. . When the UDS increases to a certain value, the drain PN junction breaks down, the leakage current increases rapidly, and the curve turns upward and enters the breakdown region. The full area (UDS>UGS-UT) guarded in the above three areas is the full area, also known as the constant current area or the amplification area.

Another technique is to intermittently improve the structure of the MOSFET and use a straight V-groove structure. FIG. 3 is a cross-sectional view of the structure of a V-channel MOSFET. In order to avoid the problems of too small current-carrying capacity and large on-resistance of MOSFET, two techniques are generally used in high-power MOSFETs. One is to connect millions of low-power MOSFET unit cells in parallel to improve the current-carrying capacity of MOSFET. .

When the applied forward voltage increases, the concentration of unbalanced minority carriers increases and the concentration gradient also increases, and when the applied voltage decreases, the change is opposite. Diffusion capacitance: When a forward voltage is applied, the non-equilibrium minority carrier concentration near the interface of the depletion layer is high, far from the non-equilibrium minority carrier concentration is low, and the concentration gradually decays from high to 0 until it reaches zero. The process of charge accumulation and release in this phenomenon is the same as that of capacitor charging and discharging, which is called diffusion capacitance.

NCE3008M NCE3010S NCE3011E NCE30D0808J NCE3018AS.

NCE0275T_NCEP12T11

NCE8205B NCE8205 NCE8205i NCE8205E NCE9926.

NCE25TD135LT NCE15TD135LT NCE15TD120LP NCE15TD135LP NCE25TD120LP.

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