WO2012001696A1

WO2012001696A1 - Electrons enhancement circuit

Info

Publication number: WO2012001696A1
Application number: PCT/IN2010/000470
Authority: WO
Inventors: Kamalabai Russeel Rajeev
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-06-28
Filing date: 2010-07-14
Publication date: 2012-01-05
Anticipated expiration: 2012-12-28

Abstract

An electrons enhancement circuit includes capacitors M4 and M2, and rectifying diodes F2 and J2. Rectifying diodes F2 and J2 convert input AC to output DC. The output voltage produced will be higher than the input AC voltage. The difference between degree of angle of electrons pressure variance and degree of angle of electrons flow is increased. The resultant electricity is used to charge the capacitors. The discharge of the capacitors results in the production of enhanced power at output with reduced difference between degree of angle of electrons pressure variance and degree of angle of electrons flow.

Description

ELECTRONS ENHANCEMENT CIRCUIT

FIELD OF INVENTION

The present invention will revolutionize the electronic power scenario in the world and reduce drastically the electric power mismatch between the supply and demand.

BACKGROUND ART

This device will enhance the output from the given input.

The output can be increased at any level

Extra electrons will be produced which results in more voltage

Production cost very less

Components easily available in the market

No sound pollution or atmospheric pollution

OBJECTS OF THE PRESENT INVENTION

Diodes with different ON-OFF time variations can be made

Zinar diodes can be used instead of diodes

Instead of electrolytic capacitor, non-electrolytic capacitor can be used

Components can be added to input and output systems of the circuit with multiple variations

Peak to peak current waves can be modified such that they can made equal or variable.

Power flow time can be made variable at input and output phase

Input current flow time and output current flow time can be made equal.

The circuit with different input frequencies can be made.

Circuit with multiple voltage ratings for both input and output can be made and current carrying capacities can be made.

Different circuits can be added to the existing circuit at different stages to increase the efficiency in different desired levels. SUMMARY OF THE INVENTION

Capacitance of the ,M4 and M2 capacitors will act with less capacitance in the designed circuit which increase voltage and current phase angle differences in input.

Input electrons flow time will become less than the discharge time of the capacitors.

The capacitance of the 4 capacitor can be reduced to the capacitance of the M2 capacitor in the circuit so that the output power can be enhanced.

The rectifying diodes F2 and J2 converts input AC to output DC

Enhanced DC power generated at the B6 output stage will contain more AC power content with switching having differential ON/OFF time

In stage 1 and 2 enhanced DC power is generated

If phase of AC power supply is connected to Pin I of the input, the circuit will function in very stable way.

The output voltage produced will be higher than the input AC voltage.

The more capacity components used to produce higher output voltage, makes the circuit stable and sustainable.

The more capacity components used in the circuit prevent overheating of the circuit even if more than the output voltage is produced.

The positive terminal of the F2 diode is connected to the negative terminal of J2 diode, so that the circuit is working in serial.

Positive terminal of the capacitors is connected to positive terminal of diode's and make it as a full wave rectifier circuit.

The difference between degree angle of electrons pressure variance and degree angles of electrons flow is increased and the resultant electricity is used to charge capacitors and hen discharging which results in the production of enhanced power at output with reduced difference of degree of angle of pressure variance of electrons and degree of angles of electrons flow. DESCRIPTION IN RELATION TO ACCOMPANYING FIGURES

The details of the invention, its objects and advantages are explained hereunder in greater details in relation to non-limiting exemplary embodiments of the device as per accompanying figures wherein:

STAGE 1

DC filter circuit F2 rectifying diode converts AC to DC and produces electrons pressure differences.

M2 Electrolytic capacitor filters DC power output.

Negative terminal of M2 capacitor is connected to one terminal of input and positive terminal is connected to junction between J2 and F2 diodes.

STAGE 2

The Negative terminal of J2 diode is connected to positive terminal of F2 and positive terminal of M2 capacitor is also connected at this junction.

DC Power outflow is in output B4 terminals of the circuit.

DC Power with greater AC Power content is generated in the output B6 terminals of the circuit.

Claims

I CLAIM

1. The circuit can be increased or decreased.

2. The AC current flows through input at differential frequencies

3. The AC current flows through input irrespective of the polarity

4. By connecting input phase to Negative terminal of the diode, the circuit is made stable.

5. The circuit is made function effectively by the combination of diodes and capacitors.

6. DC power output flow is ensured in output terminals of the circuit and DC power with greater AC power content is generated in the other output terminal's of the circuit.

7. Differential enhanced output power is generated in the same time from the circuit at the different times.

8. The circuit can be modified by adding/connecting additional diodes /capacitors

9. The circuit can be made with capacitors of different capacitance ratings and voltage ratings

10. The circuit can be made with diodes of differential On/Off time and differential voltage ratings.

11. The circuit can be made with electrolytic capacitors or non-electrolytic capacitors.

12. The capacitance of the capacitors will function with less capacitance in the circuit

13. The output discharge time of the capacitors will be more than the input current flow time

14. The output DC power will depend on the differential capacitance value of the capacitors in the circuit in the both stages.

15. The difference between degree angle of electrons pressure variance and degree angles of electrons flow is increased and the resultant electricity is used to charge capacitors and hen discharging which results in the production of enhanced power at output with reduced difference of degree of angle of pressure variance of electrons and degree of angles of electrons flow.

16. The output voltage can be either equal to the input voltage or more than the input voltage in the circuit.

17. The AC power with differential voltage phase angle and current phase angle can be used in input.

18. The circuit can be made with different switching components and charging and discharging components.

19. Input Electrons flow time will become less than the discharge time of the capacitors.

20. Capacitance of the capacitors will act with less capacitance in the circuit this will increase voltage and current phase angle differences in input.

21. As the stages of circuit increases, the negative connection of output and also capacitances changes.

22. The circuit is functioning because of the Alternate electrons flow.