Bidirectional wireless charging/discharging device
First Claim
1. A bidirectional wireless charging/discharging device, comprising:
- a first receiver/transmitter device, which comprises;
a first power storage/supply device, which supplies a first electrical power and converts the first electrical power into a first frequency modulation signal, and also receives a fourth frequency modulation signal and converts the fourth frequency modulation signal into a fourth electrical power for storage, anda first resonant circuit device, which is in electrical connection with the first power storage/supply device, whereby the first resonant circuit device, when set in an activated state, receives and converts the first frequency modulation signal into first resonance energy, and, when set in a deactivated state, receives and converts second resonance energy into the fourth frequency modulation signal; and
a second receiver/transmitter device, which is arranged to correspond to the first receiver/transmitter device, the second receiver/transmitter device comprising;
a second resonant circuit device, which is arranged to correspond to the first resonant circuit device, whereby the second resonant circuit device, when set in a deactivated state, receives and converts the first resonance energy into a third frequency modulation signal, and, when set in an activated state, receives and converts a second frequency modulation signal into the second resonance energy, anda second power storage/supply device, which is in electrical connection with the second resonant circuit device, the second power storage/supply device receiving the third frequency modulation signal and converting the third frequency modulation signal into a third electrical power for storage, and supplying a second electrical power and converting the second electrical power into the second frequency modulation signal.
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Accused Products
Abstract
A bidirectional wireless charging/discharging device includes: a first receiver/transmitter device and a second receiver/transmitter device. The first receiver/transmitter device includes a first power storage/supply device that supplies and converts a first electrical power into a first frequency modulation signal. A first resonant circuit device, when set in an activated state, receives and converts the first frequency modulation signal into first resonance energy. The second receiver/transmitter device is arranged to correspond to the first receiver/transmitter device. The second receiver/transmitter device includes a second resonant circuit device, which when set in a deactivated state, receives and converts the first resonance energy into a third frequency modulation signal. A second power storage/supply device receives the third frequency modulation signal, and converts the third frequency modulation signal into a third electrical power for storage. When the first resonant circuit device is set in a deactivated state and the second resonant circuit device is in an activated state, the second power storage/supply device supplies and converts a second electrical power into a second frequency modulation signal, which is received and converted by the second resonant circuit device into second resonance energy. The first resonant circuit device receives and converts the second resonance energy into a fourth frequency modulation signal. The first power storage/supply device receives and converts the fourth frequency modulation signal into a fourth electrical power for storage. As such, a function of bidirectional wireless charging and discharging is realized.
12 Citations
9 Claims
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1. A bidirectional wireless charging/discharging device, comprising:
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a first receiver/transmitter device, which comprises; a first power storage/supply device, which supplies a first electrical power and converts the first electrical power into a first frequency modulation signal, and also receives a fourth frequency modulation signal and converts the fourth frequency modulation signal into a fourth electrical power for storage, and a first resonant circuit device, which is in electrical connection with the first power storage/supply device, whereby the first resonant circuit device, when set in an activated state, receives and converts the first frequency modulation signal into first resonance energy, and, when set in a deactivated state, receives and converts second resonance energy into the fourth frequency modulation signal; and a second receiver/transmitter device, which is arranged to correspond to the first receiver/transmitter device, the second receiver/transmitter device comprising; a second resonant circuit device, which is arranged to correspond to the first resonant circuit device, whereby the second resonant circuit device, when set in a deactivated state, receives and converts the first resonance energy into a third frequency modulation signal, and, when set in an activated state, receives and converts a second frequency modulation signal into the second resonance energy, and a second power storage/supply device, which is in electrical connection with the second resonant circuit device, the second power storage/supply device receiving the third frequency modulation signal and converting the third frequency modulation signal into a third electrical power for storage, and supplying a second electrical power and converting the second electrical power into the second frequency modulation signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification