NCE0125K_NCEP01T18T 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.

The power mos used on electric vehicles is a three-dimensional structure. Low-power mos is a planar structure. The mos tube we have seen is actually composed of thousands of small mos tubes in parallel. You may think that one or a few bad moss should easily appear in thousands of small mos. In fact, it is not that easy. , the current manufacturing process basically guarantees the high consistency of various parameters of these small units.

NCE0125K_NCEP01T18T

NCE6005AS

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. .

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.

What do the three capacitance parameters represent in the body of the tube? How did it form? . There are three parasitic capacitance parameters in the MOS tube specification, namely: input capacitance Ciss, output capacitance Coss, and reverse transfer capacitance Crss.

. For these two enhanced MOS tubes, NMOS is more commonly used. As for why not to use depletion-type MOS tubes, it is not recommended to get to the bottom of it.

NCE0125K_NCEP01T18T

NCE30P15S

The N-channel enhancement mode MOS transistor uses a low-doped P-type semiconductor as the substrate, and forms two heavily doped N+ regions on the substrate by a dispersed method, and then generates a very thin one on the P-type semiconductor. A silicon dioxide insulating layer, and then photolithography is used to etch away the silicon dioxide layer on the upper end of the two heavily doped N+ regions, exposing the N+ regions, and finally on the outer surface of the two N+ regions and the two between them. The surface of silicon oxide is sprayed with a layer of metal film by evaporation or sputtering. These three metal films constitute the three electrodes of the MOS tube, which are called source (S), gate (G) and drain (D) respectively. .

On the one hand, the three electrodes of the low-power MOSFET are on one plane, the channel cannot be made very short, and the channel resistance is large. On the other hand, the conductive channel is composed of surface induced charges, and the channel current is the surface current. To increase the current capacity, it is necessary to increase the chip area. Such a structure is unlikely to achieve a large current. . The structure of the MOSFET shown in the figure is not suitable for use in high-power applications for two reasons.

NCE4612SP NCE30H32VD NCE3402 NCE3402A NCE30H21.

Variable resistance area (UDS In this area, when UDS increases, ID increases linearly. When the low UDS splitting and pinch-off voltage is large, the MOS tube is equivalent to a resistance, and this resistance decreases with the increase of UGS. Cut-off area (UGS). When the conductive channel is close to the pinch off, the growth slows down. Figure MOS tube drain output characteristics The output characteristics of field effect transistors can be divided into four regions: variable resistance region, cut-off region, breakdown region and constant current zone.

NCE0125K_NCEP01T18T

NCE30TD120UT NCE40TD120UT NCE40TD120VT NCE30TD120BP NCE25TD120BT.

. MOS tube NCE3401 is a -30V drain-source voltage, 4.2A current, P-channel MOS tube in SOT-23 package.

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