IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0098703
(2011-05-02)
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등록번호 |
US-8525503
(2013-09-03)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
Weaver Austin Villeneuve & Sampson LLP
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인용정보 |
피인용 횟수 :
0 인용 특허 :
14 |
초록
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A hybrid voltage rectifier enables a switch mode DC-DC power converter to safely power an external dynamic load by way of a substantially lossless conductive coupling between an output filter of the converter and the load. The rectifier is controlled so as to permit net average current through an in
A hybrid voltage rectifier enables a switch mode DC-DC power converter to safely power an external dynamic load by way of a substantially lossless conductive coupling between an output filter of the converter and the load. The rectifier is controlled so as to permit net average current through an inductor of the output filter to be approximately equal to, but not less than, zero by permitting very low loss conduction in the first quadrant and, selectively, cycle by cycle, in the third quadrant during load operation. The converter has a first switch, an output filter, a second switch, and a controller. The output filter is conductively coupled with the first switch, and has an inductor in series with the load. The controller sets state conditions of the second switch, such that the inductor operates in a continuous current mode.
대표청구항
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1. A switch mode DC-DC power converter, comprising: a first switch, an output filter, and a hybrid rectifier;the output filter being conductively coupled with the first switch, and comprising an inductor in series with an external load;the hybrid rectifier comprising a controller and a second switch
1. A switch mode DC-DC power converter, comprising: a first switch, an output filter, and a hybrid rectifier;the output filter being conductively coupled with the first switch, and comprising an inductor in series with an external load;the hybrid rectifier comprising a controller and a second switch, the controller being configured to: (i) set state conditions of the second switch such that the inductor operates in a continuous current mode; and(ii) on a cycle by cycle basis, selectively allow reverse current to flow through the inductor such that a net average current through the inductor is approximately equal to, and not less than, zero; andthe DC-DC power converter being configured to deliver power to the external load by way of a substantially lossless conductive coupling between the output filter and the load. 2. The switch mode DC-DC power converter of claim 1, wherein the controller comprises: a logic circuit that sets a first state and a second state of the second switch, the second switch, in the first state, permitting substantially lossless current flow through the second switch in both a forward and a reverse direction, and, in the second state, permitting forward current flow while blocking substantially all reverse current flow through the second switch, wherein,the controller is configured to: set the first state when the first switch is open and a voltage difference across the second switch exceeds a first threshold value; andset the second state when either (i) the first switch is closed; or (ii) the voltage difference across the second switch is less than a second threshold value. 3. The switch mode DC-DC power converter of claim 1, wherein the second switch comprises an active electronic switch in parallel with a passive rectifier configured to block reverse current flow. 4. The switch mode DC-DC power converter of claim 3, wherein the active electronic switch comprises a MOSFET. 5. The switch mode DC-DC power converter of claim 3, wherein the passive rectifier comprises a Schottky diode. 6. An apparatus comprising: a controller that sets a state of an active electronic switch, the switch having a first terminal and a second terminal;the controller being configured to: receive a first input carrying a timing input signal, and a second input signal, the second input signal being indicative of a voltage difference between the first terminal and the second terminal;set the active electronic switch to an ON state when the timing input signal is in an enable condition and the second input signal indicates the voltage difference between the first terminal and the second terminal exceeds a first threshold quantity; andset the active electronic switch to an OFF state, when either: (i) the timing input signal is in a disable condition; or (ii) the second input signal indicates the voltage difference between the first terminal and the second terminal is less than a second threshold value. 7. The apparatus of claim 6, wherein the controller is an element of a switch mode DC-DC power converter, the power converter comprising: a first switch;an output filter conductively coupled with the first switch, and comprising an inductor in series with an external load, and a capacitor in parallel with the external load; anda second switch comprising the active electronic switch and having a first output conductively coupled with a terminal of the inductor and a second output conductively coupled with a terminal of the capacitor. 8. The apparatus of claim 7 wherein the inductor is operable in continuous current mode. 9. The apparatus of claim 7 wherein a net average current through the inductor is approximately equal to, and not less than, zero. 10. The apparatus of claim 7, wherein the switch mode DC-DC power converter delivers power to the external load by way of a substantially lossless conductive coupling between the output filter and the external load. 11. The apparatus of claim 7, wherein the active electronic switch is in parallel with a passive rectifier configured to block reverse current flow. 12. The apparatus of claim 11, wherein the active electronic switch comprises a MOSFET. 13. The apparatus of claim 11, wherein the passive rectifier comprises a Schottky diode. 14. A switch mode DC-DC power converter, comprising: a first switch;an output filter conductively coupled with the first switch, and comprising an inductor in series with an external load, and a capacitor in parallel with the external load;a second switch having a first terminal conductively coupled with the inductor and a second terminal conductively coupled with the capacitor;a controller for the second switch, the controller comprising: a logic circuit that sets a first state and a second state of the second switch, the second switch, in the first state, permitting substantially lossless current flow through the second switch in both a forward and a reverse direction, and, in the second state, blocking substantially all reverse current flow through the second switch, wherein,the controller is configured to: set the first state when the first switch is open and a voltage difference across the second switch exceeds a first threshold value; andset the second state when either (i) the first switch is closed; or (ii) the voltage difference across the second switch is less than a second threshold value. 15. The switch mode DC-DC power converter of claim 14 wherein the inductor is operable in continuous current mode. 16. The switch mode DC-DC power converter of claim 15 wherein a net average current through the inductor is approximately equal to, and not less than, zero. 17. The switch mode DC-DC power converter of claim 14, wherein the switch mode DC-DC power converter is configured to deliver power to the external load by way of a substantially lossless conductive coupling between the output filter and the load. 18. The switch mode DC-DC power converter of claim 14, wherein the second switch comprises an active electronic switch in parallel with a passive rectifier configured to block reverse current flow. 19. The switch mode DC-DC power converter of claim 18, wherein the active electronic switch comprises a MOSFET. 20. The switch mode DC-DC power converter of claim 18, wherein the passive rectifier comprises a Schottky diode. 21. A photovoltaic system, comprising a plurality of PV substrings, and at least one switch mode DC-DC converter, disposed between at least one of the plurality of PV substrings and an external load, the DC-DC converter comprising: a first switch, an output filter, a second switch, and a controller;the output filter being conductively coupled with the first switch, and comprising an inductor in series with the external load;the controller being configured to: (i) a set state conditions of the second switch such that the inductor operates in a continuous current mode; and(ii) on a cycle by cycle basis, selectively allow reverse current to flow through the inductor such that a net average current through the inductor is approximately equal to, and not less than, zero; andthe DC-DC power converter being configured to deliver power to the external load by way of a substantially lossless conductive coupling between the output filter and the load.
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