Battery pack and charge circuit therefor
First Claim
1. A battery pack for supplying electric energy to a portable terminal device, comprising:
- a solar panel unit which converts light energy into electric energy;
a battery which is rechargeable with the electric energy;
an interface between said battery pack and said portable terminal device which supplies the electric energy to said portable terminal device;
an energy supplier being connected to said solar panel unit, said battery and said interface, which supplies the electric energy from said solar panel unit to said interface when said portable terminal device is in operation, while supplying the electric energy from said battery to said interface or charging said battery with part of the electric energy from said solar panel unit in accordance with the amount of electric energy to be used by said portable terminal device.
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Accused Products
Abstract
A battery pack comprises a solar panel, a battery, a connector, and a charge/discharge circuit. The solar panel converts light energy into electric energy. The battery is charged with the electric energy from the solar panel. The connector supplies the electric energy to a portable terminal device. The charge/discharge circuit supplies the electric energy from the solar panel to the connector, and supplies the electric energy from the battery to the connector or charges the battery with part of the electric energy from the solar panel, in accordance with the amount of electric energy to be used by said portable terminal device, while the portable terminal device is in operation.
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Citations
20 Claims
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1. A battery pack for supplying electric energy to a portable terminal device, comprising:
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a solar panel unit which converts light energy into electric energy;
a battery which is rechargeable with the electric energy;
an interface between said battery pack and said portable terminal device which supplies the electric energy to said portable terminal device;
an energy supplier being connected to said solar panel unit, said battery and said interface, which supplies the electric energy from said solar panel unit to said interface when said portable terminal device is in operation, while supplying the electric energy from said battery to said interface or charging said battery with part of the electric energy from said solar panel unit in accordance with the amount of electric energy to be used by said portable terminal device. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
said external power supply interface accepts connection with an AC adapter which obtains commercial electric energy, said energy supplier supplies the electric energy from said AC adapter when said portable terminal device is in operation, while supplying the electric energy from said battery to said interface or charging said battery with part of the electric energy from said AC adapter in accordance with the amount of electric energy to be used by said portable terminal device. -
4. The battery pack according to claim 2 further comprising a regulator between said solar cells and said external power supply interface.
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5. The battery pack according to claim 1 further comprising a discharge circuit which arbitrarily discharge residual energy in said battery.
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6. The battery pack according to claim 2 further comprising a discharge circuit which arbitrarily discharge residual energy in said battery.
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7. The battery pack according to claim 1, wherein
said energy supplier comprises: -
a variable resistance element which transmits the electric energy supplied from said solar panel unit to said interface; and
a controller circuit which controls residence of said variable resistance element, said controller circuit controls the residence of said variable resistance element so that said battery is charged with a constant charge current.
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8. The battery pack according to claim 2, wherein
said energy supplier comprises: -
a variable resistance element which transmits the electric energy supplied from said solar panel unit to said interface; and
a controller circuit which controls residence of said variable resistance element, said controller circuit controls the residence of said variable resistance element so that said battery is charged with a constant charge current.
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9. The battery pack according to claim 5, wherein
said energy supplier comprises: -
a variable resistance element which transmits the electric energy supplied from said solar panel unit to said interface; and
a controller circuit which controls residence of said variable resistance element, said controller circuit controls the residence of said variable resistance element so that said battery is charged with a constant charge current.
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10. The battery pack according to claim 7, wherein
said variable resistance element comprises a MOSFET whose one end of a current path is connected to said external power supply interface via an anti-reverse circuit, the other end of the current path is connected to said interface, and a gate is connected to said controller circuit, said controller circuit controls a voltage to be applied to the gate of said MOSFET so that a constant electric current flows in said battery while said battery is being charged. -
11. The battery pack according to claim 8, wherein
said variable resistance element comprises a MOSFET whose one end of a current path is connected to said external power supply interface via an anti-reverse circuit, the other end of the current path is connected to said interface, and a gate is connected to said controller circuit, said controller circuit controls a voltage to be applied to the gate of said MOSFET so that a constant electric current flows in said battery while said battery is being charged. -
12. The battery pack according to claim 9, wherein
said variable resistance element comprises a MOSFET whose one end of a current path is connected to said external power supply interface via an anti-reverse circuit, the other end of the current path is connected to said interface, and a gate is connected to said controller circuit, said controller circuit controls a voltage to be applied to the gate of said MOSFET so that a constant electric current flows in said battery while said battery is being charged. -
13. The battery pack according to claim 7, wherein
said controller circuit is activated by the electric energy supplied from said external power supply interface, said battery is substantially connected to a resistance element in series, said controller circuit measures voltage drop at said resistance element, and controls a voltage to be applied to the gate of said MOSFET so as to regulate the voltage drop to be constant. -
14. The battery pack according to claim 8, wherein
said controller circuit is activated by the electric energy supplied from said external power supply interface, said battery is substantially connected to a resistance element in series, said controller circuit measures voltage drop at said resistance element, and controls a voltage to be applied to the gate of said MOSFET so as to regulate the voltage drop to be constant. -
15. The battery pack according to claim 9, wherein
said controller circuit is activated by the electric energy supplied from said external power supply interface, said battery is substantially connected to a resistance element in series, said controller circuit measures voltage drop at said resistance element, and controls a voltage to be applied to the gate of said MOSFET so as to regulate the voltage drop to be constant. -
16. The battery pack according to claim 10, wherein
said controller circuit is activated by the electric energy supplied from said external power supply interface, said battery is substantially connected to a resistance element in series, said controller circuit measures voltage drop at said resistance element, and controls a voltage to be applied to the gate of said MOSFET so as to regulate the voltage drop to be constant. -
17. The battery pack according to claim 11, wherein
said controller circuit is activated by the electric energy supplied from said external power supply interface, said battery is substantially connected to a resistance element in series, said controller circuit measures voltage drop at said resistance element, and controls a voltage to be applied to the gate of said MOSFET so as to regulate the voltage drop to be constant. -
18. The battery pack according to claim 12, wherein
said controller circuit is activated by the electric energy supplied from said external power supply interface, said battery is substantially connected to a resistance element in series, said controller circuit measures voltage drop at said resistance element, and controls a voltage to be applied to the gate of said MOSFET so as to regulate the voltage drop to be constant.
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19. A circuit for charging a battery for a portable terminal device comprising:
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a controller which controls electric energy from a solar panel unit;
a transistor which is activated and inactivated under a control of said controller; and
a current detector resistance element which detects electric current flowing through said battery, wherein said controller activates said transistor to supply electric currents to said battery and said current detector resistance element, and controls said transistor to be activated or inactivated so that a voltage between both ends of said current detector resistance element is regulated at a constant voltage, thus said battery is charged with the electric energy supplied to said controller, while said portable terminal device is resting, and said controller activates said transistor to supply the electric energy from said solar panel unit to said portable terminal device, and supplies the electric energy from said battery to said portable terminal device or charges said battery with part of the electric energy from said solar panel unit, in accordance with the amount of electric energy to be used by said portable terminal device, while said portable terminal device is in operation. - View Dependent Claims (20)
one end of said current detector resistance element is connected to a cathode of said battery and said controller, and the other end of said current detector resistance element is grounded.
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Specification