News Center
process for high voltages

process for high voltages

This application is a divisional application of U.S. patent application Ser. No. 11/318,873, filed Dec. 27, 2005, currently pending, which claims priority to U.S. Provisional Patent Application No. 60/639,241, filed Dec. 27, 2004, entitled "Process for High Voltage Superjunction Termination." BACKGROUND OF THE INVENTION

[email protected]
News Detail
  • High Voltage Power Process - Nuvoton

    2021-3-1To meet the needs of a variety of voltage applications, 0.6um CDMOS/UHV and 0.35um BCD’s power management and high-voltage processes provide voltages ranging 5V, 12V, 16V, 20V, 25V, 30V, 40V, 60V, 80V, 500V and 700V, while Nuvotons’s 0.35um BCD process uses Epi to provide isolation higher

    Get Price
  • A Self-Aligned Process for High-Voltage, Short

    2019-6-13for blocking voltages in the 600–1800 V range. In this paper, we describe a robust self-aligned process for producing short-channel DMOSFETs in 4H-SiC, and report the first short-channel (0.5 m) 4H-SiC power DMOSFETs. These devices exhibit record low specific on-resistances for blocking voltages in the

    Get Price
  • A Product Development Process For High Voltage Power

    The process for high voltage power supply design described here operates under the umbrella of the ISO9000 quality system. Specifically, this process was required to be proceduralized to sections 4.3, Contract Review, 4.4, Design Control, and 4.5, Documentation and Data Control, of the ISO9001 International Standard.

    Get Price
  • Two Steps to High Voltages | Analog Devices

    2021-3-16Boost topology for generating a high voltage from a low voltage. In order for this interplay to function, there must be enough time both for the charging and for the discharging of the inductor. Through the control loop, this can be imagined as follows: When more energy is required at the output, more energy must be

    Get Price
  • High-Voltage CMOS Process Technology - Fujielectric

    2008-8-19The process enables high voltage devices of 30V, 60V and 120V to use the CMOS oxide isolation process. 2. Outline of the Process Table 1 shows an outline of three processes. One advantage is a simple process based on the logical 1µm rule and another is the possible mounting of the highFile Size: 220KB

    Get Price
  • PROCESS FOR HIGH VOLTAGE SUPERJUNCTION

    This application is a divisional application of U.S. patent application Ser. No. 11/318,873, filed Dec. 27, 2005, currently pending, which claims priority to U.S. Provisional Patent Application No. 60/639,241, filed Dec. 27, 2004, entitled “Process for High Voltage Superjunction Termination.” BACKGROUND OF THE INVENTIONCited by: 78

    Get Price
  • Models for high-voltage transistors in a standard CMOS

    The advantage of such a process is that it enables the integration of high performance analog circuits, embedded flash memory, microcontroller, high-density digital logic and high voltage circuits on a single chip. But for this to be completely effective, models of high-voltage transistors have to be developed for this purpose.

    Get Price
  • Techniques to Generate High Voltages - UKEssays.com

    In order to obtain very high voltages at the output, the voltage doubler technique is cascaded on top of each other which becomes the Cockcroft-Walton multiplier. Where it enables you to add n amount of stages required to get the desire output voltage, however there is a limit.

    Get Price
  • High Voltage PCB Design Considerations - VSE

    2020-10-1Voltage spikes are most often introduced by external power supply connections due to inline power fluctuations and/or inadequate protection circuitry and can cause surface tracking, where an alternative current path is created from the source to another conductive element. High voltage can mean high power and

    Get Price
  • Parylene Dielectric Properties: Designing for High Voltages

    For this reason, chemical vapor deposition (CVD) lends itself to the excellent electrical properties of Parylene. With the CVD process, the dimer is heated into a vapor that deposits deep into the crevices of printed circuit board assemblies, providing consistent, even 3D coverage free of pinholes and imperfections.

edge-iconRelated News
toTop
Click avatar to contact us
Chat Online