Patent application number | Description | Published |
20120139663 | Susceptance - Mode Inductor - A Susceptance-Mode Inductor with infinite order resonance cavity which includes an inductor section is formed by a physical inductor coil wound about a permanent magnetic materials, with both ends of the coil connecting to a electric damper and a capacitor of the infinite order resonance cavity; thereby that power is coupled into the incoming end of the infinite order resonance cavity through a radio frequency (RF) radiation electric field and the outgoing end thereof is electrically connected to a set of resonance power storage section, or alternatively the incoming end is connected to electric charge and the outgoing end is connected to the load; accordingly, the resonance of the infinite order resonance cavity, thus allowing to convert the current or electron flow at the magnetic field end into charge output by means of Lorenz force. | 06-07-2012 |
20120181794 | MAGNETOELECTRIC COGENERATOR - A magnetoelectric cogenerator uses a magnetic fuel cell stack to convert renewable energy for outputting, and works basing on the first law of thermodynamics to covert potential into kinetic energy through the known Hall Effect and enables out-coupling of electric energy. For DC output, the magnetic fuel cell stack is an inductance-type high-frequency transformer; and for AC output, a DC permanent-magnet motor and a permanent-magnet self-excited generator enable forming of the cell stack, i.e. to combine with a power storage module to form the magnetoelectric cogenerator. A damper absorbs or eliminates anti-electromotive force (EMF) or eddy current from time to time for the DC permanent-magnet motor to always maintain in an optimal state for normal operation to reduce power consumption. The magnetoelectric cogenerator is able to stably generate power without producing any emission to thereby solve the problems of power supply and environmental protection in the electric energy application fields. | 07-19-2012 |
20120268071 | MAGNETIC FUEL CELL-BASED BATTERY - A magnetic fuel cell-based battery includes a buffer battery unit; a static magnetic field unit including permanent magnets for amplifying electric energy; a potential to kinetic energy converting unit for generating an electrical resonance effect of oscillating eddy current to replace magnetic field shifting; a magnetic fuel cell stack forming unit including a magnetoresistance element constituted by a Hall element and achieving Hall Effect and forming a cell stack through amplification by a magnetic field effect of the permanent magnets of the static magnetic field unit; and a rectifying and charging unit for rectifying and charging the cell stack formed by the magnetic fuel cell stack forming unit to the buffer battery unit to form a permanent battery. Therefore, the magnetic fuel cell-based battery is a permanent battery formed by combining a buffer battery unit with a magnetic fuel cell stack forming unit that uses permanent magnets as fuel body. | 10-25-2012 |
20120313436 | RENEWABLE ENERGY ENHANCED APPARATUS - A renewable energy enhanced apparatus includes a rechargeable buffer battery unit; a renewable energy generation unit for generating electric energy in the form of a cell; a rectifying and charging unit for converting AC into DC and charging the DC into the buffer battery unit; a power conversion and energy multiplication unit for converting electric energy into electric power, so as to couple out electric power and upgrade the power efficiency of a renewable energy power plant; and an electric power output unit for converting the electric power into low-frequency normal electric power for use. The renewable energy enhanced apparatus also includes an electrical damper for absorbing and recycling any anti-electromotive force and eddy current produced due to a load effect, in order to form another renewable energy for reuse, so as to upgrade the power efficiency of a renewable energy power plant. | 12-13-2012 |
20130088184 | Battery device utilizing oxidation and reduction reactions to produce electric potential - A battery device utilizing oxidation and reduction reactions to produce electric potential includes a battery jar unit, an electrocatalytic unit, a buffer battery unit, and a rectifying and charging unit. The battery jar unit includes a salt solution as electrolyte, an anode formed of a metal not chemically reacting with the electrolyte, and a cathode formed of an electrically conductive carbon material having breathing pores, so that the carbon material breathes air and releases negative hydroxide ions when the air dissolves in the electrolyte. The electrocatalytic unit provides an electrochemical damping effect that catalyzes generation of electricity in the battery jar unit, and the rectifying and charging unit converts the generated AC current into DC current and charges the same to the buffer battery unit, so that an electricity-generating battery based on electrical resonance effect is formed. With these arrangements, a poison-free, waste-heat-free, noise-free and zero-emission self-power-generating battery is achieved. | 04-11-2013 |
20140265947 | DRIVER CIRCUIT AND THREE PHASE DIRECT CURRENT BRUSHLESS MOTOR - A driver circuit for a three phase direct current (DC) brushless motor include: three bridge arms each having a first switch, a second switch, and a first diode and a second diode respectively and electrically coupled with the first switch and the second switch in parallel, and three capacitor arms each having a first capacitor and a second capacitor to electrically couple a center tap of a corresponding phase coil of the DC brushless motor to a respective on of positive and negative terminals of a DC power supply. | 09-18-2014 |
20150280552 | MAGNETOELECTRIC DEVICE CAPABLE OF STORING USABLE ELECTRICAL ENERGY - A magnetoelectric device includes at least one reluctance component, at least one damping capacitor, and a switching circuit. The reluctance component includes a capacitive and inductive magnetic core unit having a loop-shaped first segment and a second segment connected to the first segment, and at least one coil wound around and loosely coupled to the magnetic core unit. The damping capacitor cooperates with the coil to forma resonant circuit. The switching circuit makes and breaks electrical connection between the coil and a DC power source so that an eddy current flowing through the resonant circuit may be generated for storing energy in the damping capacitor. | 10-01-2015 |
20150372528 | DAMPING CHARGING DEVIDE - A damping charging device includes a power output unit connectable to an electrical energy generating device to regulate a voltage of electrical energy output by the electrical energy generating device and then output a voltage-regulated electric power; a control circuit maintaining the electric power output by the power output unit in a constant-current and constant-voltage state; a damping inductor connected to an anode of a capacitor battery to be charged; and a high-frequency oscillation switch connected to a cathode of the capacitor battery. The damping inductor includes a silicon steel core having inductance that increases with increased frequency and an amorphous silicon core having inductance that increases with decreased frequency. The actuated high-frequency oscillation switch causes the damping inductor to store and release electrical energy alternately at high frequency, and the damping inductor releases electrical energy having frequency response to offset capacitive reactance and charge the capacitor battery efficiently. | 12-24-2015 |