17695959. CHARGER CAPABLE OF BIDIRECTIONAL POWER TRANSFER simplified abstract (Hyundai Motor Company)
CHARGER CAPABLE OF BIDIRECTIONAL POWER TRANSFER
Organization Name
Inventor(s)
Dong Gyun Woo of Hwaseong-si (KR)
Hyun Wook Seong of Hwaseong-si (KR)
CHARGER CAPABLE OF BIDIRECTIONAL POWER TRANSFER - A simplified explanation of the abstract
This abstract first appeared for US patent application 17695959 titled 'CHARGER CAPABLE OF BIDIRECTIONAL POWER TRANSFER
Simplified Explanation
The abstract describes a charger that can transfer power bidirectionally. It includes a power factor compensation circuit, a bidirectional DC converter, and a controller.
- The power factor compensation circuit converts multi-phase AC voltage into DC voltage using inductors and switching elements.
- The DC voltage is then applied to a DC link capacitor.
- The bidirectional DC converter can adjust the voltage between the DC link capacitor and a battery.
- In DC power supply mode, the controller controls the bidirectional DC converter to convert the battery voltage and output it through a terminal.
Potential Applications
- Electric vehicle charging stations
- Renewable energy systems
- Energy storage systems
Problems Solved
- Enables bidirectional power transfer between a battery and a DC link capacitor
- Efficiently converts multi-phase AC voltage into DC voltage
- Provides a controlled DC power supply
Benefits
- Allows for efficient charging and discharging of batteries
- Enables integration of renewable energy sources into the power grid
- Provides a stable and reliable power supply
Original Abstract Submitted
Disclosed herein is a charger capable of bidirectional power transfer. A power factor compensation circuit converts a multi-phase AC voltage into a DC voltage and includes a plurality of inductors and a plurality of switching elements. The DC voltage converted by the power factor compensation circuit is applied to a DC link capacitor. A bidirectional DC converter bidirectionally converts the magnitude of a voltage between the DC link capacitor and a battery. In DC power supply mode, a controller controls the bidirectional DC converter to convert a magnitude of a voltage of the battery to apply the voltage of the battery to the DC link capacitor and controls the plurality of switching elements to generate a DC supply voltage by converting the magnitude of the DC voltage of the DC link capacitor and output the DC supply voltage through a terminal through which the multi-phase AC voltage is input.