Systems and methods for controlling energy consumption of AC-DC adapters
First Claim
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1. A method for operating an AC-DC adapter, said method comprising:
- providing the AC-DC adapter, said AC-DC adapter being configured to convert AC power to DC power and to provide said DC power to a DC-powered device at a DC power output of said AC-DC adapter, said AC-DC adapter being further configured to receive load-indicative signals from the DC-powered device;
providing AC power to an AC input of said AC-DC adapter;
monitoring for the presence of load-indicative signals communicated from the DC-powered device to said AC-DC adapter while providing said AC power to said AC input of said AC-DC adapter; and
controlling energy consumption of said AC-DC adapter by;
operating said AC-DC adapter so as to provide a first level of DC power at said DC power output that is sufficient for powering the DC-powered device while load-indicative signals are being communicated to said AC-DC adapter from the DC powered device,operating said AC-DC adapter so as to provide a second level of DC power at said DC power output while load-indicative signals are not being communicated to said AC-DC adapter from the DC powered device, andoperating said AC-DC adapter so as to provide said second level of DC power by producing recurring voltage pulses separated by intervals of no voltage at said DC power output of said adapter while load-indicative signals are not being communicated to said AC-DC adapter from the DC powered device;
wherein said second level of DC power is less than said first level of DC power.
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Abstract
An AC-DC adapter is provided with an auto-sensing capability to sense when no DC load is present at the output (secondary side) of the adapter by monitoring for absence of load-indicative signals, such as power supply identifier (PSID) signals communicated to the adapter from a coupled DC-powered device. Upon detection of a no load condition, the adapter enters a no load mode during which the adapter output is turned off in order to reduce energy consumption by the adapter, and only produces short recurring voltage pulses (hiccups) at the adapter output. Upon detection of load-indicative signals communicated to the adapter from a coupled DC-powered device, the adapter output enters normal mode and provides its normal regulated power value to the adapter output for powering the coupled DC-powered device.
44 Citations
22 Claims
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1. A method for operating an AC-DC adapter, said method comprising:
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providing the AC-DC adapter, said AC-DC adapter being configured to convert AC power to DC power and to provide said DC power to a DC-powered device at a DC power output of said AC-DC adapter, said AC-DC adapter being further configured to receive load-indicative signals from the DC-powered device; providing AC power to an AC input of said AC-DC adapter; monitoring for the presence of load-indicative signals communicated from the DC-powered device to said AC-DC adapter while providing said AC power to said AC input of said AC-DC adapter; and controlling energy consumption of said AC-DC adapter by; operating said AC-DC adapter so as to provide a first level of DC power at said DC power output that is sufficient for powering the DC-powered device while load-indicative signals are being communicated to said AC-DC adapter from the DC powered device, operating said AC-DC adapter so as to provide a second level of DC power at said DC power output while load-indicative signals are not being communicated to said AC-DC adapter from the DC powered device, and operating said AC-DC adapter so as to provide said second level of DC power by producing recurring voltage pulses separated by intervals of no voltage at said DC power output of said adapter while load-indicative signals are not being communicated to said AC-DC adapter from the DC powered device; wherein said second level of DC power is less than said first level of DC power. - View Dependent Claims (2, 3)
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4. A method for operating an AC-DC adapter, said method comprising:
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providing the AC-DC adapter, said AC-DC adapter being configured to convert AC power to DC power and to provide said DC power to a DC-powered device at a DC power output of said AC-DC adapter, said AC-DC adapter being further configured to receive load-indicative signals from the DC-powered device; providing AC power to an AC input of said AC-DC adapter; monitoring for the presence of load-indicative signals communicated from the DC-powered device to said AC-DC adapter while providing said AC power to said AC input of said AC-DC adapter; and controlling energy consumption of said AC-DC adapter by; operating said AC-DC adapter so as to provide a first level of DC power at said DC power output that is sufficient for powering the DC-powered device while load-indicative signals are being communicated to said AC-DC adapter from the DC powered device, and operating said AC-DC adapter so as to provide a second level of DC power at said DC power output while load-indicative signals are not being communicated to said AC-DC adapter from the DC powered device; wherein said second level of DC power is less than said first level of DC power; and wherein said monitoring for the presence of load-indicative signals communicated from the DC-powered device to said AC-DC adapter comprises storing charge produced by said load-indicative signals communicated to said AC-DC adapter from the DC powered device; and
monitoring for the presence of said stored charge. - View Dependent Claims (5, 6, 7)
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8. An AC-DC adapter, comprising:
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AC to DC conversion circuitry configured to receive AC current and to convert said AC current to DC current; power switching circuitry coupled between said AC to DC conversion circuitry and a DC power output of said AC adapter that is configured for coupling to supply DC power to a DC-powered device, said power switching circuitry being configured to regulate DC power provided from said AC to DC conversion circuitry to said DC power output; switch control circuitry coupled to said power switching circuitry, said switch control circuitry being configured to control operation of said power switching circuitry; load-indicative signal generating circuitry configured to receive load-indicative signals from the DC-powered device; and auto-sensing circuitry coupled to said load-indicative signal generating circuitry, said auto-sensing circuitry configured to monitor for the presence of load-indicative signals communicated from the DC-powered device to said load-indicative signal generating circuitry of said AC-DC adapter; wherein said auto-sensing circuitry is configured to provide a signal to said switch control circuitry that is indicative of the presence of load-indicative signals communicated from the DC-powered device to said load-indicative signal generating circuitry of said AC-DC adapter; wherein said switch control circuitry is configured to control energy consumption of said AC-DC adapter by; controlling said power switching circuitry so as to provide a first level of DC power at said DC power output that is sufficient for powering the DC-powered device while load-indicative signals are being communicated to said AC-DC adapter from the DC powered device, controlling said power switching circuitry so to provide a second level of DC power at said DC power output while load-indicative signals are not being communicated to said AC-DC adapter from the DC powered device, and controlling said power switching circuitry so as to provide said second level of DC power by producing recurring voltage pulses separated by intervals of no voltage at said DC power output of said adapter while load-indicative signals are not being communicated to said AC-DC adapter from the DC powered device; and wherein said second level of DC power is less than said first level of DC power. - View Dependent Claims (9, 10)
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11. An AC-DC adapter, comprising:
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AC to DC conversion circuitry configured to receive AC current and to convert said AC current to DC current; power switching circuitry coupled between said AC to DC conversion circuitry and a DC power output of said AC adapter that is configured for coupling to supply DC power to a DC-powered device, said power switching circuitry being configured to regulate DC power provided from said AC to DC conversion circuitry to said DC power output; switch control circuitry coupled to said power switching circuitry, said switch control circuitry being configured to control operation of said power switching circuitry; load-indicative signal generating circuitry configured to receive load-indicative signals from the DC-powered device; and auto-sensing circuitry coupled to said load-indicative signal generating circuitry, said auto-sensing circuitry configured to monitor for the presence of load-indicative signals communicated from the DC-powered device to said load-indicative signal generating circuitry of said AC-DC adapter; wherein said auto-sensing circuitry is configured to provide a signal to said switch control circuitry that is indicative of the presence of load-indicative signals communicated from the DC-powered device to said load-indicative signal generating circuitry of said AC-DC adapter; and wherein said switch control circuitry is configured to control energy consumption of said AC-DC adapter by; controlling said power switching circuitry so as to provide a first level of DC power at said DC power output that is sufficient for powering the DC-powered device while load-indicative signals are being communicated to said AC-DC adapter from the DC powered device, and controlling said power switching circuitry so to provide a second level of DC power at said DC power output while load-indicative signals are not being communicated to said AC-DC adapter from the DC powered device; wherein said second level of DC power is less than said first level of DC power; and wherein said auto-sensing circuitry is further configured to monitor for the presence of load-indicative signals communicated from the DC-powered device to said AC-DC adapter by storing charge produced by said load-indicative signals communicated to said AC-DC adapter from the DC powered device, and monitoring for the presence of said stored charge. - View Dependent Claims (12, 13, 14)
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15. A method of powering a DC-powered device, comprising:
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providing the DC-powered device; providing an AC-DC adapter; providing AC power to an AC input of said AC-DC adapter; coupling said AC-DC adapter to said DC-powered device to provide DC power to said DC-powered device, and to provide load-indicative signals from said DC-powered device to said AC-DC adapter; providing a first level of DC power to said DC-powered device from said AC-DC adapter, said first level of DC power being sufficient for powering said DC-powered device, including powering the generation of load-indicative signals from said DC-powered device to said AC-DC adapter; monitoring for the presence of said load-indicative signals communicated from said DC-powered device to said AC-DC adapter; and controlling energy consumption of said AC-DC adapter by; operating said AC-DC adapter so as to provide said first level of DC power to said DC-powered device as long as said load-indicative signals are being communicated to said AC-DC adapter from said DC powered device, operating said AC-DC adapter so as to provide a second level of DC power to said DC-powered device when said load-indicative signals are no longer being communicated to said AC-DC adapter from said DC powered device, and operating said AC-DC adapter to provide said second level of DC power to said DC-powered device by producing recurring voltage pulses separated by intervals of no voltage when said load-indicative signals are no longer being communicated to said AC-DC adapter from said DC powered device; wherein said second level of DC power is less than said first level of DC power. - View Dependent Claims (16, 17, 18)
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19. A method of powering a DC-powered device, comprising:
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providing the DC-powered device; providing an AC-DC adapter; providing AC power to an AC input of said AC-DC adapter; coupling said AC-DC adapter to said DC-powered device to provide DC power to said DC-powered device, and to provide load-indicative signals from said DC-powered device to said AC-DC adapter; providing a first level of DC power to said DC-powered device from said AC-DC adapter, said first level of DC power being sufficient for powering said DC-powered device, including powering the generation of load-indicative signals from said DC-powered device to said AC-DC adapter; monitoring for the presence of said load-indicative signals communicated from said DC-powered device to said AC-DC adapter; and controlling energy consumption of said AC-DC adapter by; operating said AC-DC adapter so as to provide said first level of DC power to said DC-powered device as long as said load-indicative signals are being communicated to said AC-DC adapter from said DC powered device, and operating said AC-DC adapter so as to provide a second level of DC power to said DC-powered device when said load-indicative signals are no longer being communicated to said AC-DC adapter from said DC powered device; wherein said second level of DC power is less than said first level of DC power; and wherein said monitoring for the presence of load-indicative signals communicated from said DC-powered device to said AC-DC adapter comprises storing charge produced by said load-indicative signals communicated to said AC-DC adapter from said DC powered device; and
monitoring for the presence of said stored charge. - View Dependent Claims (20, 21, 22)
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Specification
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Current AssigneeDell Products LP (Dell Technologies Inc.)
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Original AssigneeDell Products LP (Dell Technologies Inc.)
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InventorsLittle, Daniel B., Kasprzak, Keith J.
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Primary Examiner(s)Laxton; Gary L
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Application NumberUS12/284,144Publication NumberTime in Patent Office915 DaysField of Search363/146, 323/349, 323/351, 307/126, 307/140US Class Current363/146CPC Class CodesH02M 1/0032 Control circuits allowing l...H02M 3/335 using semiconductor devices...Y02B 70/10 Technologies improving the ...
