BI-DIRECTIONAL INVERTER-CHARGER
First Claim
1. An inverter charger for providing a bi-directional energy flow between an alternating current source and a direct current chargeable voltage source, the inverter charger comprising:
- an H-bridge rectifier inverter circuit coupled with an alternating current voltage source;
a direct current voltage to direct current voltage converter (DC-to-DC converter) coupled between the H-bridge inverter circuit and a direct current chargeable voltage source having a direct current voltage, the DC-to-DC converter switchable between a charge configuration and an inverter configuration;
the charge configuration including a boost circuit operably coupled with the H-bridge, the H-bridge rectifier providing a full wave rectified output signal to the boost circuit, the boost circuit configured to up convert the full wave rectified output signal, the charge configuration further including a buck circuit operably coupled with the boost circuit, the buck circuit configured to provide a regulated charge current to the direct current chargeable voltage source; and
the inverter configuration including the boost circuit operably coupled with the direct current chargeable voltage source, the boost circuit configured to up convert the direct current voltage of the direct current chargeable voltage source, and the buck circuit configured to provide a full wave rectified signal wave form to the H-bridge, the H-bridge configured to tie an alternating current voltage waveform to the alternating current voltage source.
0 Assignments
0 Petitions
Accused Products
Abstract
A bi-directional inverter-charger including a bridge rectifier and DC-to-DC conversion components. The inverter-charger may be connected between an alternating current source, e.g., an AC line, and a direct current source, e.g., a battery pack. The DC-to-DC conversion components may include boost and buck circuits that are switchably configured between a charge mode and an inverter mode such that common components are used in both charge and inverter configurations. In the charge configuration, a full wave rectified signal from the H-bridge is up converted by the boost circuit, and the buck circuit controls charge current to the direct current source. In the inverter configuration, the boost circuit up converts the direct current voltage source, and the buck circuit controls the current and its form to the bridge circuit so that the bridge circuit may be Connected directly with the AC source.
-
Citations
8 Claims
-
1. An inverter charger for providing a bi-directional energy flow between an alternating current source and a direct current chargeable voltage source, the inverter charger comprising:
-
an H-bridge rectifier inverter circuit coupled with an alternating current voltage source; a direct current voltage to direct current voltage converter (DC-to-DC converter) coupled between the H-bridge inverter circuit and a direct current chargeable voltage source having a direct current voltage, the DC-to-DC converter switchable between a charge configuration and an inverter configuration; the charge configuration including a boost circuit operably coupled with the H-bridge, the H-bridge rectifier providing a full wave rectified output signal to the boost circuit, the boost circuit configured to up convert the full wave rectified output signal, the charge configuration further including a buck circuit operably coupled with the boost circuit, the buck circuit configured to provide a regulated charge current to the direct current chargeable voltage source; and the inverter configuration including the boost circuit operably coupled with the direct current chargeable voltage source, the boost circuit configured to up convert the direct current voltage of the direct current chargeable voltage source, and the buck circuit configured to provide a full wave rectified signal wave form to the H-bridge, the H-bridge configured to tie an alternating current voltage waveform to the alternating current voltage source. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
Specification