APM9922KC-TRL_9962SS Introduction

A few days ago, Vishay Intertechnology, Inc. announced that it has expanded its TNPU e3 series of automotive-grade high-precision thin-film flat chip resistors with new devices with a temperature coefficient (TCR) as low as 2 ppm/K, in 0603, 0805 and 1206 form factors.

Xinjie, behind this FET NCE80H12, utilizes its own technical advantages to work closely with 8-inch wafer foundries, packaging and testing foundries, and has a complete quality management system to ensure continuous product quality and stable supply.

APM9922KC-TRL_9962SS

SSM9926EM

. 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.

BYC4322 BYM4310 BYM4322 BYM4316 BYC4312 BYM438 BYS441 BYN4458 BYE4625Z BYM4612 .

Barrier capacitance: In power semiconductors, when the N-type and P-type semiconductors are combined, the electrons of the N-type semiconductor will partially diffuse into the holes of the P-type semiconductor due to the concentration difference, so they will form on both sides of the junction surface. Space charge area (the electric field formed by the space charge area will resist the diffusion movement, and finally make the diffusion movement reach equilibrium);

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

APM9922KC-TRL_9962SS

IRF7351TRPBF

Another technique is to intermittently improve the structure of the MOSFET and use a straight V-groove structure. 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. . FIG. 3 is a cross-sectional view of the structure of a V-channel MOSFET.

BYP31036 BYD31010A BYD31024A BYP31017 BYS31018 BYF3104 BYH3108 BYF3109 BYM31032 BYN31333A .

The structure of the MOSFET shown in the figure is not suitable for use in high-power applications for two reasons. 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. .

For example, electronic fuel injection system, anti-lock brake control, anti-skid control, traction control, electronically controlled suspension, electronically controlled automatic transmission, electronic power steering, etc. The electronic device that can be used independently in the environment has no direct relationship with the performance of the car itself. .

APM9922KC-TRL_9962SS

NCE8205B NCE8205 NCE8205i NCE8205E NCE9926.

NCE25TD135LT NCE15TD135LT NCE15TD120LP NCE15TD135LP NCE25TD120LP.

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