Energy generator systems with a voltage-controlled switch
First Claim
1. An energy generating system comprising:
- a pair of output terminals to which a load is connected;
a power generator configured to generate a pulse of electrical energy, the power generator including a ferromagnetic generator comprising;
a pulse generating coil,an explosive charge, anda ferromagnetic element configured to generate a magnetic field, the ferromagnetic element positioned within the pulse generating coil and in proximity to the explosive charge, such that detonation of the explosive charge decreases the magnetic field and induces electrical energy in the pulse generating coil; and
a voltage-controlled switch coupled to the power generator, wherein the voltage-controlled switch closes when the generated electrical energy pulse reaches a breakdown level and the switch transfers electrical energy to the output terminals, the voltage-controlled switch including;
a first output terminal and a second output terminal configured to couple the voltage-controlled switch to at least one component,a first electrode and a second electrode coupled to the first output terminal and the second output terminal, respectively, and configured to possess a voltage therebetween, anda dielectric film positioned between the first electrode and the second electrode and configured to become electrically conductive when the voltage between the first electrode and the second electrode reaches the breakdown level.
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Accused Products
Abstract
A first energy generating system comprises a ferromagnetic generator coupled to a voltage controlled switch. The ferromagnetic generator includes a ferromagnetic element generating a magnetic field and positioned within a pulse generating coil and near an explosive charge. Detonation of the explosive charge decreases the magnetic field and induces a pulse of electric energy in the pulse generating coil. When the magnitude of the electric energy reaches a certain level, the voltage controlled switch closes. A second energy generating system comprises a flux compression generator coupled to a voltage controlled switch. The flux compression generator includes a inductance coil generating a magnetic field within a metallic armature that includes an explosive charge. Detonation of the explosive charge changes the magnetic field and induces a pulse of electric energy in the inductance coil. When the magnitude of the electric energy reaches a certain level, the voltage controlled switch closes.
13 Citations
11 Claims
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1. An energy generating system comprising:
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a pair of output terminals to which a load is connected; a power generator configured to generate a pulse of electrical energy, the power generator including a ferromagnetic generator comprising; a pulse generating coil, an explosive charge, and a ferromagnetic element configured to generate a magnetic field, the ferromagnetic element positioned within the pulse generating coil and in proximity to the explosive charge, such that detonation of the explosive charge decreases the magnetic field and induces electrical energy in the pulse generating coil; and a voltage-controlled switch coupled to the power generator, wherein the voltage-controlled switch closes when the generated electrical energy pulse reaches a breakdown level and the switch transfers electrical energy to the output terminals, the voltage-controlled switch including; a first output terminal and a second output terminal configured to couple the voltage-controlled switch to at least one component, a first electrode and a second electrode coupled to the first output terminal and the second output terminal, respectively, and configured to possess a voltage therebetween, and a dielectric film positioned between the first electrode and the second electrode and configured to become electrically conductive when the voltage between the first electrode and the second electrode reaches the breakdown level. - View Dependent Claims (2, 3, 4, 5)
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6. An energy generating system comprising:
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a power generator configured to generate a pulse of voltage between a pair of output terminals, the power generator including— an explosively activated element, an explosive charge, and a detonator coupled with the explosive charger, wherein the detonator is configured to detonate the explosive charge to generate a shock wave that propagates at least partially through the explosively activated element to generate the voltage across the output terminals; a first voltage-controlled switch that is connected to one of the output terminals of the power generator, wherein the voltage-controlled switch closes when the generated voltage pulse reaches a breakdown level, the voltage-controlled switch including; a first output terminal and a second output terminal configured to couple the voltage-controlled switch to at least one component, a first electrode and a second electrode coupled to the first output terminal and the second output terminal, respectively, and configured to possess a voltage therebetween, and a dielectric film positioned between the first electrode and the second electrode and configured to become electrically conductive when the voltage between the first electrode and the second electrode reaches the breakdown level; and a second voltage-controlled switch connected with the pair of output terminals, wherein closing of the first voltage-controlled switch transfers a first pulse of electrical energy to the output terminals and closing of the second voltage-controlled switch transfers a second pulse of electrical energy to the output terminals. - View Dependent Claims (7)
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8. An energy generating system comprising:
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a pair of output terminals to which a load is connected; a power generator configured to generate a pulse of electrical energy; a first voltage-controlled switch connected between the power generator and one of the output terminals, wherein the voltage-controlled switch closes when the generated electrical energy pulse reaches a breakdown level and the switch transfers electrical energy to the output terminals, the voltage-controlled switch including; a first output terminal and a second output terminal configured to couple the voltage-controlled switch to at least one component, a first electrode and a second electrode coupled to the first output terminal and the second output terminal, respectively, and configured to possess a voltage therebetween, and a dielectric film positioned between the first electrode and the second electrode and configured to become electrically conductive when the voltage between the first electrode and the second electrode reaches the breakdown level; and a second voltage-controlled switch connected with the pair of output terminals, wherein closing of the first voltage-controlled switch transfers a first pulse of electrical energy to the output terminals and closing of the second voltage-controlled switch transfers a second pulse of electrical energy to the output terminals. - View Dependent Claims (9, 10, 11)
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Specification