In this post we research an RF discharge generation idea effective at generating a powerful RF electrical discharge in the air which can possess the possibilities of paralyzing all electronic systems in the close surrounding area
.
The offered idea of fusing a bulb filament by means of a wireless magnetic field does not need to seem to be possible, however it could possibly be used utilizing a very powerful RF discharge, such as from an extremely high voltage capacitor.
The concept might be offered as presented in the following justification:
A high current low voltage is first stepped up to many kilovolts, then accumulated inside equivalently rated high voltage capacitors and finally discharged by producing a short circuit across the high voltage capacitor leads.
The resultant discharge will produce an incredible amount RF electricity in the zone which can possess the potential of fusing the filament of a bulb or lighting a fluorescent tube briefly.
Warning: The discharge could possibly generate disastrous influence on all electronic equipment positioned within the range of the discharge.
Parts List
R4,R5 = 100 OHMS, 1 WATT
D1, D2, D3, D4 = 1N4007
C1 = 100uF/500V,
SCR = BT151
TR1/TR2 = 220V/0-12V/1AMP TRANSFORMERS.
Talking about the diagram above, the establish demonstrates a fundamental capacitive discharge method. The circuit consisting the diodes, C1 along with the SCR form a capacitor charge/discharge switching phase that could be powered from a stimulated AC utilizing a few mains transformers.
TR1/ and TR2 transformers are combined with each other such that the low voltage TR2 winding links with the TR1's low voltage winding.
When mains is used on TR2 primary, the exact 220V (low current) is triggered across the upper winding of TR1.
This voltage is utilized for charging the high voltage capacitor C1 in the circuit via a switching SCR stage that could be activated by means of the 50Hz low voltage input from TR2 via D2.
The switched C1 discharge is carried out on the primary of a car ignition coil, which steps up this voltage to a staggering 40,000V or higher.
This voltage is kept dangling across a thin filament position within a surely dimensioned conical shaped aluminum radiator.
When the presented push button is pressed, the high voltage attempts to force its path by means of the filament producing an enormous arc and explosion across the points.
This produces a rigorous RF disturbance in the region that may be further magnified and propagated by the cone to the target which is here a small electrical bulb.
If the discharge is adequately powerful might generate a temporary lighting of the bulb filament after which fusing as a result of the created RF electricity.
.
The offered idea of fusing a bulb filament by means of a wireless magnetic field does not need to seem to be possible, however it could possibly be used utilizing a very powerful RF discharge, such as from an extremely high voltage capacitor.
The concept might be offered as presented in the following justification:
A high current low voltage is first stepped up to many kilovolts, then accumulated inside equivalently rated high voltage capacitors and finally discharged by producing a short circuit across the high voltage capacitor leads.
The resultant discharge will produce an incredible amount RF electricity in the zone which can possess the potential of fusing the filament of a bulb or lighting a fluorescent tube briefly.
Warning: The discharge could possibly generate disastrous influence on all electronic equipment positioned within the range of the discharge.
Parts List
R4,R5 = 100 OHMS, 1 WATT
D1, D2, D3, D4 = 1N4007
C1 = 100uF/500V,
SCR = BT151
TR1/TR2 = 220V/0-12V/1AMP TRANSFORMERS.
Talking about the diagram above, the establish demonstrates a fundamental capacitive discharge method. The circuit consisting the diodes, C1 along with the SCR form a capacitor charge/discharge switching phase that could be powered from a stimulated AC utilizing a few mains transformers.
TR1/ and TR2 transformers are combined with each other such that the low voltage TR2 winding links with the TR1's low voltage winding.
When mains is used on TR2 primary, the exact 220V (low current) is triggered across the upper winding of TR1.
This voltage is utilized for charging the high voltage capacitor C1 in the circuit via a switching SCR stage that could be activated by means of the 50Hz low voltage input from TR2 via D2.
The switched C1 discharge is carried out on the primary of a car ignition coil, which steps up this voltage to a staggering 40,000V or higher.
This voltage is kept dangling across a thin filament position within a surely dimensioned conical shaped aluminum radiator.
When the presented push button is pressed, the high voltage attempts to force its path by means of the filament producing an enormous arc and explosion across the points.
This produces a rigorous RF disturbance in the region that may be further magnified and propagated by the cone to the target which is here a small electrical bulb.
If the discharge is adequately powerful might generate a temporary lighting of the bulb filament after which fusing as a result of the created RF electricity.
Your music is amazing. You have some very talented artists. I wish you the best of success.
ReplyDeletedoorknob capacitor
Not working I will tried but not working
ReplyDelete