Solar energy pulse charge device
First Claim
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1. A solar energy pulse charging device comprising:
- a solar-powered panel used as a power source of the solar energy charging device;
a charging unit electrically connected to the solar-powered panel, the charging unit including a battery parallel connected to a light dependent resistor and a charging switch, a first transistor switch electrically connected to the control unit, the charging unit collecting the power form the solar-powered panel in a maximum efficiency and save the power in the battery;
a control unit electrically connected to the charging unit and driving the charging unit to charge due to the first transistor switch and the charging switch, the control unit including a system-on-chip (SOC) and a first integrated circuit (IC), the SOC having multiple pins respectively electrically connected to that of the first IC, the first IC transforming voltage signals from the light dependent resistor into frequency signals that are transmitted to the SOC for the SOC to execute formula procedures;
a flyback circuit electrically connected to the charging unit, the flyback circuit including a second transistor switch and a closed switching regulator, wherein the SOC of the control unit controls the second transistor switch and the second transistor switch controls the closed switching regulator, the second transistor switch closing the closed switching regulator when receiving the signals from the SOC, the second transistor switch and the closed switching regulator executing a discharge control to the charging unit, the flyback circuit is further electrically connected to a load and providing multiple independent power sources each having a unique reference potential;
a feedback voltage regulator circuit electrically connected to the flyback circuit, the feedback voltage regulator circuit including a second IC for measuring the voltage of the load and controlling the flyback circuit to make the load in a constant voltage; and
a cyclic start circuit electrically connected to the feedback voltage regulator circuit, the cyclic start circuit transmitting back the frequency signals from the first IC to the SOC that controls the cyclic start circuit for starting controlling the feedback voltage regulator circuit and the flyback circuit.
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Abstract
A solar energy pulse charge device includes a solar-powered panel and a charging unit connected to the solar-powered panel for saving the energy from the solar-powered panel. A control unit is electrically connected to the charging unit for controlling the charging unit to charge or discharge. A flyback circuit is electrically connected to the charging unit for providing multiple independent power sources each having a unique reference potential. A feedback voltage regulator circuit is electrically connected to the flyback circuit for control the flyback circuit in a constant voltage and a cyclic start circuit.
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Citations
11 Claims
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1. A solar energy pulse charging device comprising:
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a solar-powered panel used as a power source of the solar energy charging device; a charging unit electrically connected to the solar-powered panel, the charging unit including a battery parallel connected to a light dependent resistor and a charging switch, a first transistor switch electrically connected to the control unit, the charging unit collecting the power form the solar-powered panel in a maximum efficiency and save the power in the battery; a control unit electrically connected to the charging unit and driving the charging unit to charge due to the first transistor switch and the charging switch, the control unit including a system-on-chip (SOC) and a first integrated circuit (IC), the SOC having multiple pins respectively electrically connected to that of the first IC, the first IC transforming voltage signals from the light dependent resistor into frequency signals that are transmitted to the SOC for the SOC to execute formula procedures; a flyback circuit electrically connected to the charging unit, the flyback circuit including a second transistor switch and a closed switching regulator, wherein the SOC of the control unit controls the second transistor switch and the second transistor switch controls the closed switching regulator, the second transistor switch closing the closed switching regulator when receiving the signals from the SOC, the second transistor switch and the closed switching regulator executing a discharge control to the charging unit, the flyback circuit is further electrically connected to a load and providing multiple independent power sources each having a unique reference potential; a feedback voltage regulator circuit electrically connected to the flyback circuit, the feedback voltage regulator circuit including a second IC for measuring the voltage of the load and controlling the flyback circuit to make the load in a constant voltage; and a cyclic start circuit electrically connected to the feedback voltage regulator circuit, the cyclic start circuit transmitting back the frequency signals from the first IC to the SOC that controls the cyclic start circuit for starting controlling the feedback voltage regulator circuit and the flyback circuit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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Specification