The present invention relates to a dual stage power supply device and more particularly to a device to generate high voltage and high amperage without sacrificing large amount of input power from the supplying source.
This invention has two independent stages operating at different frequencies. During operation, the voltage stage, generate the high voltage which is determine by the turn ratio of the high frequency transformer T-100. Also, the figures shows a circuit used to generate amp pulse. This amp pulse is connected to T-100 high frequency through several different configuration. It should be noted the amperage circuit is inserted directly into the secondary winding of the transformer T-100 center top.
The letters (F) and (S) on the transformer indicate the transformer winding starting point (S) and the finishing point (F). The letters indicate the transformer center-top for connecting the amperage pulse circuit.
This two-stage concept enables the design to operate at extremely high voltage and amperage without sacrificing large amount of input power source. To achieve its objective, both circuits operate independently, and its only contact is during insertion of the amperage pulse, into the secondary winding of the high frequency transformer T-100.
This connection allows small amount of amperage pulse, to produce large amount of wattage due to the high voltage. Both elements are then amplified and filtered using today's know technology and configuration. The frequency used to drive each circuit can be variable from high to low and low to high. However, operating both circuit at the same frequency may work, but not recommended.
It should be noted condensers C-6, C-7, Coil-1 and Coil-2 are critical components, they are used to sense the amp pulse and connect to the high voltage transformer T-100. Care should be taken when selecting all these components. The condensers operating voltage should be hundredth of volts high while the coil core should be monitored for extremely high temperature and adjusted.
The current design in not limited to the present configuration and a more complex or simpler design maybe possible. Example,
Number | Name | Date | Kind |
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20080190906 | Aigner | Aug 2008 | A1 |
20160218618 | Yin | Jul 2016 | A1 |
Number | Date | Country | |
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20200358364 A1 | Nov 2020 | US |
Number | Date | Country | |
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62920522 | May 2019 | US |