Method and circuit to output adaptive drive voltages within information handling systems
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02J-001/00
H02J-009/04
출원번호
UP-0741202
(2007-04-27)
등록번호
US-7755215
(2010-08-02)
발명자
/ 주소
Zhu, Guangyong
Breen, John J.
Luo, Shiguo
출원인 / 주소
Dell Products, LP
대리인 / 주소
Larson Newman & Abel, LLP
인용정보
피인용 횟수 :
2인용 특허 :
11
초록▼
A method and circuit to output adaptive drive voltages within information handling systems is disclosed. According to one aspect of the disclosure, a method of outputting power within an information handling system can include sensing a load current of a power output stage operable to employ more th
A method and circuit to output adaptive drive voltages within information handling systems is disclosed. According to one aspect of the disclosure, a method of outputting power within an information handling system can include sensing a load current of a power output stage operable to employ more than one drive voltage level. The method can also include comparing the load current to a threshold current setting, and selecting a first output drive voltage from a plurality of input drive voltages in response to comparing the load current to the threshold current setting. The method can also include coupling the first output drive voltage to the power output stage.
대표청구항▼
What is claimed is: 1. A power circuit within an information handling system, the power circuit comprising: a drive voltage selector operable to select at least one of a plurality of input voltage sources to output as a first selected drive voltage, wherein the plurality of input voltage sources co
What is claimed is: 1. A power circuit within an information handling system, the power circuit comprising: a drive voltage selector operable to select at least one of a plurality of input voltage sources to output as a first selected drive voltage, wherein the plurality of input voltage sources comprises: a first power rail at a first voltage level; and a second power rail at a second voltage level maintained at a higher voltage level than the first voltage level; a first threshold current detection circuit operable to sense a first load current, the first threshold current detection circuit operably coupled to the drive voltage selector; a first power output stage coupled to the drive voltage selector and the first threshold current detection circuit, the first power output stage operable to: regulate the first selected drive voltage to provide a first regulated voltage at a third voltage level maintained at a different voltage level from the first and second voltage levels, the first regulated voltage being operable to drive the first load current; and couple the first load current to the first threshold current detection circuit; and wherein the first selected drive voltage is selected in response to comparing the first load current to a first threshold current setting, such that: when the first load current is lower than the first threshold current setting, the first power rail is selected; and when the first load current is higher than the first threshold current setting, the second power rail is selected. 2. The power circuit of claim 1, wherein the drive voltage selector includes logic operable to: select the first power rail when the first load current is lower than the first threshold current setting; select the second power rail when the first load current is higher than the first threshold current setting; and couple the selected input voltage source to a drive unit operable to output the first selected drive voltage to the first power output stage. 3. The power circuit of claim 1, wherein: the drive voltage selector is further operable to select at least one of the plurality of input voltage sources to output as a second selected drive voltage; the power circuit further comprising: a second threshold current detection circuit operable to sense a second load current, the second threshold current detection circuit operably coupled to the drive voltage selector; a second power output stage coupled to the drive voltage selector and the second threshold current detection circuit, the second power output stage operable to: regulate the second selected drive voltage to provide a second regulated voltage at a fourth voltage level maintained at a different voltage level from the first, second, and third voltage levels, the second regulated voltage being operable to drive the second load current; and couple the second load current to the second threshold current detection circuit; and wherein the second selected drive voltage is selected in response to comparing the second load current to a second threshold current setting, such that: when the second load current is lower than the second threshold current setting, the first power rail is selected; and when the second load current is higher than the second threshold current setting, the second power rail is selected. 4. The power circuit of claim 1, further comprising a regulator controller including the drive voltage selector and the first threshold current detection circuit. 5. The power circuit of claim 4, wherein the regulator controller includes the first power output stage. 6. The power circuit of claim 1, wherein the first power output stage comprises a synchronous buck voltage regulator. 7. The power circuit of claim 1, wherein the first power rail comprises a five (5) volt voltage rail. 8. The power circuit of claim 7, wherein the second power rail comprises a twelve (12) volt voltage rail. 9. A method of outputting power within an information handling system, the method comprising: sensing a first load current of a power output stage operable to receive a first drive voltage; comparing the first load current to a first threshold current setting; in response to determining that the first load current is higher than the first threshold current setting: selecting a first power rail from a plurality of power rails, the first power rail being maintained at a first voltage level; and supplying the first power rail as the first drive voltage for the power output stage; in response to determining that the first load current is lower than the first threshold current setting: selecting a second power rail from the plurality of power rails, the second power rail being maintained at a second voltage level that is lower than the first voltage level; and supplying the second power rail as the first drive voltage for the power output stage; and regulating at the power output stage the first drive voltage to provide a first regulated voltage at a third voltage level different from the first and second voltage levels, the first regulated voltage being operable to drive the first load current. 10. The method of claim 9, further comprising: sensing a second load current of the power output stage, wherein the power output stage is further operable to receive a second drive voltage; comparing the second load current to a second threshold current setting; in response to determining that the second load current is higher than the second threshold current setting: selecting the first power rail; and supplying the first power rail as the second drive voltage for the power output stage; in response to determining that the second load current is lower than the second threshold current setting: selecting the second power rail; and supplying the second power rail as the second drive voltage for the power output stage; and regulating at the power output stage the second drive voltage to provide a second regulated voltage at a fourth voltage level different from the first, the second, and the third voltage levels, the first regulated voltage being operable to drive the second load current. 11. The method of claim 9, wherein: sensing the first load current includes coupling the first load current from a portion of the power output stage to a threshold current detection circuit; the first threshold current setting is configured to enable selection of the first drive voltage relative to a power requirement; the first power rail comprises a five (5) volt drive voltage; and the second power rail comprises a twelve (12) volt drive voltage. 12. The method of claim 9, further comprising: outputting the first drive voltage to the power output stage using a drive unit; and outputting the second drive voltage to the power output stage using the drive unit. 13. An information handling system comprising: a drive voltage selector operable to select at least one of a plurality of input voltage sources to output as a selected drive voltage to a drive unit, the plurality of input sources including: a five (5) volt voltage input source coupled to the drive voltage selector; and a twelve (12) volt voltage input source coupled to the drive voltage selector; a threshold current detection circuit operable to sense a load current, the threshold current detection circuit operably coupled to the drive voltage selector; a power output stage coupled to the drive voltage selector and the threshold current detection circuit, the power output stage operable to: regulate the selected drive voltage to provide a first regulated voltage maintained at a third voltage level different than the five (5) and twelve (12) volt voltage input sources, the first regulated voltage being operable to drive the load current; and couple the load current to the threshold current detection circuit; and wherein the selected drive voltage coupled to the drive unit, the selected drive voltage is further selected in response to comparing the load current to a threshold current setting, such that when the load current is lower than the threshold current setting, the five (5) volt voltage input source is selected; and when the load current is higher than the threshold current setting, the twelve (12) volt voltage input source is selected. 14. The information handling system of claim 13, further comprising a regulator controller including the drive selector, the current sensing circuit, and the drive unit. 15. The information handling system of claim 14, wherein the regulator controller further includes logic operable to: output the five (5) volt voltage input to the drive unit when the load current is lower than the threshold current setting; and output the twelve (12) volt voltage input to the drive unit when the load current is higher than the threshold current setting.
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이 특허에 인용된 특허 (11)
Bryson Stephen W., Dual adjustable voltage regulators.
Arimilli, Ravi Kumar; Seminaro, Edward Joseph; Covi, Kevin Robert; Fahr, Gerald J.; Barus, Daniel James, Power conversion, control, and distribution system.
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