PORTABLE WIRELESS CHARGER
First Claim
1. A portable wireless charger, comprising:
- a body having a first surface, a second surface and a DC input port;
a charging unit arranged in the body, having a microprocessor and related electronic components for outputting a charging current and an end thereof electronically connected to the DC input port;
an power storing unit provided for storing the charging current as electrical energy;
a wireless power transmitter coupled with the power storing unit and having a controller, a driver, a first coil and a sensor for converting the electrical energy into a AC signal and transmitting the AC signal to a receptor of an mobile device by the first coil;
whereinthe power storing unit arranged in the body is composed of a multiple of nickel-hydrogen batteries in series;
each of the nickel-metal hydride batteries has an anti-adverse-current element at a positive terminal thereof and a terminal voltage detection point arranged between the anti-adverse-current element and the positive terminal of the nickel-hydrogen battery is couple with the microprocessor;
each of the nickel-metal hydride batteries has a switch at a negative terminal thereof for each of the nickel-hydrogen batteries forming a separate charging circuit;
when the power storing unit is at a LOW voltage level, the switches are turned off for the adjacent batteries being non-conductive so that the charging unit outputs the charging circuit to each of the nickel-hydrogen batteries to form a plurality of charging loop and a parallel-connected separated detection charging mode;
when each of the nickel-hydrogen batteries is fully charged and the microprocessor detects a high voltage level, the switches are turned on and the parallel separate charge of the nickel-hydrogen batteries is converted to a series-connected combined discharging mode; and
a DC TO AC output control unit coupled with the power storing unit and converting a discharging current into an output power with a predetermined voltage level and at least a first output power coupled with the wireless power transmitter;
whereby the power storing unit switches the “
parallel-connected separated charging mode” and
“
series-connected combined discharging mode”
to conduct charging and discharging and combine with the DC TO AC output control to provide stable high efficiency of the output power to the wireless power transmitter.
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Accused Products
Abstract
The invention relates to a portable wireless charger, particularly to the secondary batteries of the nickel-hydrogen batteries and nickel-cadmium batteries having the parallel-connected separated detection charging mode and series-connected combined discharging mode to achieve highest efficiency of power release. The present invention also provide a DC TO AC output control unit coupled with the power storing unit and converting a discharging current into an output power with a predetermined voltage level and a wireless power transmitter having stable high efficiency of the output power. Whereby the present invention provides the slim portable wireless charging platform for charging mobile devices with built-in wireless inductive receiver without electrical contacts to enhance ease of use and safety effect.
24 Citations
7 Claims
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1. A portable wireless charger, comprising:
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a body having a first surface, a second surface and a DC input port; a charging unit arranged in the body, having a microprocessor and related electronic components for outputting a charging current and an end thereof electronically connected to the DC input port; an power storing unit provided for storing the charging current as electrical energy; a wireless power transmitter coupled with the power storing unit and having a controller, a driver, a first coil and a sensor for converting the electrical energy into a AC signal and transmitting the AC signal to a receptor of an mobile device by the first coil; wherein the power storing unit arranged in the body is composed of a multiple of nickel-hydrogen batteries in series;
each of the nickel-metal hydride batteries has an anti-adverse-current element at a positive terminal thereof and a terminal voltage detection point arranged between the anti-adverse-current element and the positive terminal of the nickel-hydrogen battery is couple with the microprocessor;
each of the nickel-metal hydride batteries has a switch at a negative terminal thereof for each of the nickel-hydrogen batteries forming a separate charging circuit;
when the power storing unit is at a LOW voltage level, the switches are turned off for the adjacent batteries being non-conductive so that the charging unit outputs the charging circuit to each of the nickel-hydrogen batteries to form a plurality of charging loop and a parallel-connected separated detection charging mode;
when each of the nickel-hydrogen batteries is fully charged and the microprocessor detects a high voltage level, the switches are turned on and the parallel separate charge of the nickel-hydrogen batteries is converted to a series-connected combined discharging mode; anda DC TO AC output control unit coupled with the power storing unit and converting a discharging current into an output power with a predetermined voltage level and at least a first output power coupled with the wireless power transmitter; whereby the power storing unit switches the “
parallel-connected separated charging mode” and
“
series-connected combined discharging mode”
to conduct charging and discharging and combine with the DC TO AC output control to provide stable high efficiency of the output power to the wireless power transmitter. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification