External Versatile Battery with Power Saving Mode
First Claim
Patent Images
1. A system comprising a power supply and first and second connectors, each of the first and second connectors disposed to connect with the power supply and with external equipment;
- each of said first and second connectors having at least a first, second, and third conductor connecting with the power supply;
each of said first and second connectors having a respective capacitor between the second and third conductors;
the capacitor in the first connector having a capacitance differing from that of the capacitor in the second connector;
the power supply having first, second and third conductors disposed to mate with the first, second, and third conductors of one of the connectors;
the system further comprising an oscillator connected with the second and third conductors of the power supply;
the oscillator disposed to oscillate at either of two frequencies depending on which of the two capacitances is connected thereto by means of the second and third conductors of the power supply;
the power supply disposed to supply either of two voltages at the first and third conductors of the power supply depending on which of the two frequencies is developed at the oscillator;
each connector providing a connection from its first and third conductors to the external equipment;
the power supply and the oscillator contained within a single housing.
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Abstract
A versatile external battery system has a built-in charger. Using particular plugs containing capacitors, the system can connect to many makes and models of notebook computer. The capacitor configures an oscillator which controls a DC-to-DC converter. In this way, disconnecting the plug turns off the oscillator and eliminates power leakage.
29 Citations
20 Claims
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1. A system comprising a power supply and first and second connectors, each of the first and second connectors disposed to connect with the power supply and with external equipment;
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each of said first and second connectors having at least a first, second, and third conductor connecting with the power supply; each of said first and second connectors having a respective capacitor between the second and third conductors; the capacitor in the first connector having a capacitance differing from that of the capacitor in the second connector; the power supply having first, second and third conductors disposed to mate with the first, second, and third conductors of one of the connectors; the system further comprising an oscillator connected with the second and third conductors of the power supply; the oscillator disposed to oscillate at either of two frequencies depending on which of the two capacitances is connected thereto by means of the second and third conductors of the power supply; the power supply disposed to supply either of two voltages at the first and third conductors of the power supply depending on which of the two frequencies is developed at the oscillator; each connector providing a connection from its first and third conductors to the external equipment; the power supply and the oscillator contained within a single housing. - View Dependent Claims (2, 3, 4)
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5. A system comprising a power supply having first, second and third conductors disposed to mate with first, second, and third conductors an external connector;
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the system further comprising an oscillator connected with the second and third conductors of the power supply; the oscillator disposed to oscillate at either of two frequencies depending on which of two capacitances is connected thereto by means of the second and third conductors of the power supply; the power supply disposed to supply either of two voltages at the first and third conductors of the power supply depending on which of the two frequencies is developed at the oscillator; the power supply and the oscillator contained within a single housing. - View Dependent Claims (6, 7, 8)
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9. A system comprising a power supply and first and second connectors, each of the first and second connectors disposed to connect with the power supply and with external equipment;
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each of said first and second connectors having at least a first, second, third and fourth conductor connecting with the power supply; each of said first and second connectors having a combination of jumpers between the second and fourth conductors and third and fourth conductors; the jumper combination in the first connector differing from that of the jumper combination in the second connector; the power supply having first, second, third and fourth conductors disposed to mate with the first, second, third and fourth conductors of one of the connectors; the power supply connected with the second, third and fourth conductors of the power supply; the power supply disposed to supply either of two voltages at the first and fourth conductors of the power supply depending on which of the two combinations of jumpers is present; each connector providing a connection from its first and fourth conductors to the external equipment. - View Dependent Claims (10, 11, 12)
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13. A system comprising a power supply;
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the power supply having first, second, third and fourth conductors disposed to mate with first, second, third and fourth conductors of an external connectors; the power supply disposed to supply either of two voltages at the first and fourth conductors of the power supply depending on which of two combinations of jumpers is present at the second, third, and fourth connectors. - View Dependent Claims (14, 15, 16)
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17. A method for use with a system for powering external equipment, the method comprising the steps of:
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connecting a connector between the system and the external equipment, the connector having first, second, and third conductors connecting with respective first, second and third conductors at the system, the connector having a capacitor connected between the second and third conductors, the capacitor having a capacitance; oscillating within an oscillator within the system, the oscillating taking place at a frequency that is dependent upon the capacitance of the capacitor; generating a voltage at a power supply within the system, the voltage dependent upon the frequency of oscillation; and supplying the voltage by means of the first and third conductors to the external equipment. - View Dependent Claims (18, 19)
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20. A method for use with a system for powering external equipment, the method comprising the steps of:
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connecting a connector between the system and the external equipment, the connector having first, second, third and fourth conductors connecting with respective first, second, third and fourth conductors at the system, the connector having a combination of jumpers connected between the second and fourth and third and fourth conductors; generating a voltage at a power supply within the system, the voltage dependent upon a connected combination of jumpers; and supplying the voltage by means of the first and fourth conductors to the external equipment.
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Specification