NCE3404_NCEP3065BQU Introduction

The resistance of this current path is called the internal resistance of the MOS tube, that is, the on-resistance. The size of this internal resistance basically determines how much on-current the MOS tube chip can withstand (of course, it is related to other factors, such as thermal resistance). The smaller the internal resistance, the larger the current (because the heat is small).

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.

NCE3404_NCEP3065BQU

NCE80H14

. 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.

The company's founder, Felix Zandman, is a scientist, inventor and entrepreneur with 71 patents, author of four books and many papers, winner of the American Electronics Industry Medal of Honor, the French Medal of Honor and many other awards. Founded by Dr. Felix Zandman in 1962, Vishay has grown into a Fortune 1000 company listed on the New York Stock Exchange from his own $4,000 savings and funding from his cousin Alfred P. Slaner. .

NCE50TD120WT NCE40TD120T NCE40TD120BT NCE40TD120WT NCE40TD120LT.

Vishay Draloric TNPU e3 series resistors have the proven reliability of TNPW e3 products with improved accuracy, low TCR, tolerances not greater than 0.02 %, and excellent long-term stability—for example, 1,000 hours at rated power P70 The maximum resistance change rate ≤ 0.05 %. This unique technical feature makes this AECQ200-qualified resistor ideal for applications such as op amps and sensor detection circuits in test and measurement, automotive, industrial, medical, and communications equipment.

NCE3404_NCEP3065BQU

NCEP12N12AS

NCE2012 NCE20H10G NCE20H11 NCE3406N NCE2014ES.

These two factors make Vishay's MELF resistors the choice for high-end audio applications with low noise requirements. Vishay's MELF resistors are produced using an advanced vacuum sputtering process that deposits a layer of a proprietary nickel-chromium alloy of extremely high microstructural quality on a very smooth aluminum substrate in an ultra-high vacuum chamber. This sophisticated internal structure provides the ideal foundation for low-noise performance, which is further enhanced by the cylindrical shape of the resistor. With a 3.14 times larger surface area than flat chip resistors for the same pad size, these devices can produce much higher aspect ratios, resulting in very low field strengths along the resistors. Be aware that the local electric field strength is the main source of current noise. Compared to thick film resistors, this typically provides a spectral density improvement of about -40 dB V/Hz, a figure of about -10 dB V/Hz in the case of thin film resistors, as shown in Figure 2.

NCE3008M NCE3010S NCE3011E NCE30D0808J NCE3018AS.

Applications ● Power switching applications ● Hard switching and high frequency circuits ● Uninterruptible power supplies.

NCE3404_NCEP3065BQU

NCE20ND06 NCE2008N NCE2312 NCE2312A NCE8205A.

The performance parameters of NCE3401 are still good, suitable for load switching or pulse width modulation applications, and the impedance value is relatively low, and the new clean energy MOS tube has the characteristic process technology of shielded gate power and super junction power MOSFET. The parameter performance and sample delivery performance can be almost the same as foreign MOS tubes, such as the same used in lithium battery protection boards, NCE3401, AO3401, IRLML5203TR, DMP3098L-7, I think the functions can be satisfied in comparison, and the price is moderate NCE3401 is more suitable.

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