INDUCTION POWER SYSTEM
First Claim
1. An induction power system, configured to connect and drive a load, comprising:
- a primary side circuit, comprising at least one main inductor configured to generate a current-induced magnetic field; and
a secondary side circuit, comprising;
an induction electrification unit, comprising a first inductor and a second inductor, wherein the first inductor and the second inductor are electrically connected in series, and the induction electrification unit is adjacent to the primary side circuit and is configured to generate an induced alternating current (AC); and
a power distribution unit, comprising;
a first capacitor, wherein the first capacitor and the first inductor are electrically connected in series, and the first capacitance value matches the first inductance value to generate a series resonance, thereby providing a control power; and
a second capacitor, wherein the second capacitor is electrically connected in parallel with the first capacitor, the first inductor, and the second inductor, and the second capacitance value matches the second inductance value to generate a parallel resonance, thereby providing a load power.
1 Assignment
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Accused Products
Abstract
An induced power system for being connected with and driving loads (300) includes a primary circuit (100) and a secondary circuit (200). The primary circuit (100) is provided with a primary inductor (110) for generating current induced magnetic filed. The secondary circuit (200) is provided with an induce generation portion (210) and a power distribution portion (220). The induce generation portion (210) is provided with a first inductor (211) and a second inductor (212) connected in series with each other and adjacent with the primary inductor (110), for generating induced alter current. The power distribution portion (220) is provided with a first capacitor (221), a second capacitor (222) and a switching device (225), in which the first capacitor (221) is connected with the first inductor (211) in series to generate series resonance, thus to provide a control power supply. The second capacitor (222) is connected with the first, the second inductors (211, 212) and the first capacitor (221) in parallel to generate parallel resonance, thus to provide a load power supply. When the switching device (225) is on, the load power supply is provided to the loads (300).
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Citations
4 Claims
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1. An induction power system, configured to connect and drive a load, comprising:
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a primary side circuit, comprising at least one main inductor configured to generate a current-induced magnetic field; and a secondary side circuit, comprising; an induction electrification unit, comprising a first inductor and a second inductor, wherein the first inductor and the second inductor are electrically connected in series, and the induction electrification unit is adjacent to the primary side circuit and is configured to generate an induced alternating current (AC); and a power distribution unit, comprising; a first capacitor, wherein the first capacitor and the first inductor are electrically connected in series, and the first capacitance value matches the first inductance value to generate a series resonance, thereby providing a control power; and a second capacitor, wherein the second capacitor is electrically connected in parallel with the first capacitor, the first inductor, and the second inductor, and the second capacitance value matches the second inductance value to generate a parallel resonance, thereby providing a load power. - View Dependent Claims (2, 3, 4)
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Specification