Battery powered electronic system with an improved power management
First Claim
1. A switching apparatus, comprising:
- a first input terminal receiving a first power from a first power supply;
an output terminal outputting an output power;
a first diode having a first anode and a first cathode, said first anode being coupled with said first input terminal, said first cathode being coupled with said output terminal;
a second diode having a second anode and a second cathode said second diode being coupled in parallel with said first diode, said second anode being coupled with said first input terminal, said second cathode being coupled with said output terminal;
a first transistor having a control electrode, a first electrode of a principal electrically conducting channel connected to said first input terminal and said first and second anodes, and a second electrode of said principal electrically conducting channel connected to said output terminal and said first and second cathodes, a drop voltage across said first and second electrodes being lower than a drop voltage across said first diode;
a voltage detector detecting when a voltage of said first power is higher than a reference voltage and generating a detection signal as a result of said detecting; and
a first controller receiving said detection signal and controlling said first transistor in response to said detection signal, said first controller switching said first transistor on and said first power being conveyed to said output terminal via said first transistor when said voltage of said first power is higher than said reference voltage.
1 Assignment
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Accused Products
Abstract
Disclosed herein is a battery powered computer system which comprises a switch circuit and a battery charging circuit. In the switch circuit, a field-effect transistor (FET) is provided which is connected in parallel with a diode for preventing a current back flow from a battery to an alternating current (AC) adaptor. When the alternating current adaptor is supplying power, the field-effect transistor is turned on so that most of a current from the alternating current adaptor is delivered to a power supply line through the transistor instead of the diode. Similarly, in the battery charging circuit, a field-effect transistor is implemented which is connected in parallel with a diode for preventing a current back flow from the battery to the alternating current adaptor. When the battery is charged, the field-effect transistor is turned on so that most of a charging current is transferred to the battery through the transistor instead of the diode. According to the above-described arrangement of the switch and battery charging circuits, because the current from the alternating current adaptor passes through the respective transistors of the circuits, power dissipation and loss by the switch and battery charging circuits can be reduced, and no heat is generated by the diodes.
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Citations
20 Claims
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1. A switching apparatus, comprising:
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a first input terminal receiving a first power from a first power supply; an output terminal outputting an output power; a first diode having a first anode and a first cathode, said first anode being coupled with said first input terminal, said first cathode being coupled with said output terminal; a second diode having a second anode and a second cathode said second diode being coupled in parallel with said first diode, said second anode being coupled with said first input terminal, said second cathode being coupled with said output terminal; a first transistor having a control electrode, a first electrode of a principal electrically conducting channel connected to said first input terminal and said first and second anodes, and a second electrode of said principal electrically conducting channel connected to said output terminal and said first and second cathodes, a drop voltage across said first and second electrodes being lower than a drop voltage across said first diode; a voltage detector detecting when a voltage of said first power is higher than a reference voltage and generating a detection signal as a result of said detecting; and a first controller receiving said detection signal and controlling said first transistor in response to said detection signal, said first controller switching said first transistor on and said first power being conveyed to said output terminal via said first transistor when said voltage of said first power is higher than said reference voltage. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A computer system, comprising:
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a system load including a memory; an alternating current unit outputting a first power; a battery outputting a second power; a power supply line being coupled to said system load, and supplying a voltage to said system load; a first diode being coupled to said power supply line, said first diode having a first anode and a first cathode, said first anode being coupled to said alternating current unit, said first cathode being coupled to said power supply line; a second diode having a second anode and a second cathode, said second diode being coupled in parallel with said first diode, said second anode being coupled to said alternating current unit, said second cathode being coupled to said power supply line; a first transistor having a control electrode, a first electrode of a principal electrically conducting channel connected to said alternating current unit, and a second electrode of said principal electrically conducting channel connected to said power supply line, a drop voltage across said first and second electrodes being lower than a drop voltage across said first diode; a voltage detector detecting when a voltage of said first power is higher than a reference voltage and generating a detection signal as a result of said detecting; a first controller receiving said detection signal and controlling said first transistor in response to said detection signal, said first controller switching said first transistor on and said first power being conveyed to said power supply line via said first transistor when said voltage of said first power is higher than said reference voltage; a second transistor coupling said battery to said power supply line; and a second controller receiving said detection signal and controlling said second transistor in response to said detection signal, said second controller switching said second transistor off and said second power not being conveyed to said power supply line via said second transistor when said voltage of said first power is higher than said reference voltage. - View Dependent Claims (11, 12, 13, 14)
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15. A battery charging apparatus, comprising:
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a first terminal being coupled to an external power supply; a second terminal being coupled to a battery; a first diode coupling said first terminal to said second terminal, said first diode preventing a current back flow from said battery to said external power supply, said first diode having a first anode and a first cathode, said first anode being coupled to said first terminal, said first cathode being coupled to said second terminal; a first switch coupling said first terminal to said second terminal, said first switch having a drop voltage lower than a drop voltage of said first diode, said first switch being coupled with said first diode, said first switch further comprising; a second diode having a second anode and a second cathode, said second diode being coupled in parallel with said first diode, said second anode being coupled to said first terminal, said second cathode being coupled to said second terminal; and a first transistor having a control electrode, a first electrode of a principal electrically conducting channel connected to said first terminal and to said first and second anodes, and a second electrode of said principal electrically conducting channel connected to said second terminal and to said first and second cathodes; a current detector detecting a charging current output from said external power supply and generating a detection signal as a result of said detecting; and a first switch controller receiving said detection signal and controlling said first switch in response to said detection signal, said first switch controller switching said first switch on and said charging current being conveyed from said external power supply to said battery via said first switch when said charging current is detected. - View Dependent Claims (16, 17)
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18. An electrical apparatus, comprising:
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a first unit outputting a first power; a battery outputting a second power; a charging circuit supplying a charging current from said first unit to said battery; and a switch unit receiving said first power from said first unit and receiving said second power from said battery, said switch unit further comprising; a first input terminal receiving said first power from said first unit; a second input terminal receiving said second power from said battery; an output terminal outputting a power selected from among said first and second powers; a first diode being coupled between said first input terminal and said output terminal; a first switch being coupled in parallel with said first diode, said first switch having a drop voltage lower than a drop voltage of said first diode; a voltage detector detecting when a first voltage of said first power is higher than a reference voltage, and generating a detection signal corresponding to said detecting; and a first switch controller receiving said detection signal and controlling said first switch in response to said detection signal, said first switch controller switching said first switch on and said first power being conveyed to said output terminal via said first switch when said first voltage of said first power is higher than said reference voltage;
said charging circuit further comprising;an input connector being coupled to said first unit; an output connector being coupled to said battery; a second switch having a first end being coupled to said input connector and a second end being coupled to said output connector, said second switch coupling said input connector to said output connector, a voltage drop between said first and second ends corresponding to a first voltage drop; a second diode having an anode and a cathode, said diode being coupled to prevent a current back flow from said battery to said first unit, a voltage drop between said anode and said cathode corresponding to a second voltage drop, said first voltage drop being lower than said second voltage drop; a current sensor sensing when said charging current from said first unit is provided, and generating a sensor signal corresponding to said sensing; and a second switch controller receiving said sensor signal and controlling said second switch in response to said sensor signal, said second switch controller switching said second switch on and said charging current being conveyed from said first unit to said battery via said second switch when said charging current is sensed;
said switch unit further comprising;a third switch coupling said output terminal to said battery; and a third switch controller receiving said detection signal and controlling said third switch in response to said detection signal said third switch controller switching said third switch off and said second power not being conveyed to said output terminal via said third switch when said first voltage of said first power is higher than said reference voltage. - View Dependent Claims (19, 20)
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Specification