Abstract: An induction power system configured to drive a load includes a primary side circuit (PSC) and a secondary side circuit (SSC). The PSC has a main inductor configured to generate a current-induced magnetic field. The SSC has an induction electrification unit (IEU) and a power distribution unit (PDU). The IEU has a first inductor and a second inductor connected in series, and is adjacent to the main inductor to generate an induced AC. The PDU has a first capacitor, a second capacitor, and a switching device. The first capacitor and the first inductor are connected in series and generate a series resonance to supply a control power. The second capacitor is connected in parallel with the first inductor, the second inductor, and the first capacitor, and generates a parallel resonance, to provide a load power. When the switching device is turned on, the load power is supplied to the load.
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.