Active clamp for power converter and method of operation thereof
First Claim
1. For use with a power converter couplable to a source of electrical energy, said power converter having a power switch that conducts intermittently to transfer energy from said source to an inductive element, and a freewheeling diode that alternately conducts with said power switch to transfer energy to an output of said power converter, an active clamp, comprising:
- an inductor coupled in series with said freewheeling diode, a capacitor not directly coupled across said power switch, and a clamping switch series-coupled to said capacitor, said clamping switch and said capacitor coupled in parallel with said inductor and in series with said freewheeling diode, said active clamp mitigating adverse effects of reverse recovery currents associated with said freewheeling diode and enabling substantially zero voltage switching of said power and clamping switches.
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Accused Products
Abstract
For use with a power converter couplable to a source of electrical energy, the converter having a power switch that conducts intermittently to transfer energy from the source to an inductive element, and a freewheeling diode that alternately conducts with the power switch to transfer energy to an output of the converter, an active clamp and a method of operating the active clamp. In one embodiment, the active clamp includes: (1) an inductor, coupled in series with the freewheeling diode, and (2) a series-coupled capacitor and clamping switch, coupled in parallel with the inductor, that cooperate therewith to mitigate adverse effects of reverse recovery currents associated with the freewheeling diode and enable substantially zero voltage switching of the power and clamping switches.
79 Citations
20 Claims
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1. For use with a power converter couplable to a source of electrical energy, said power converter having a power switch that conducts intermittently to transfer energy from said source to an inductive element, and a freewheeling diode that alternately conducts with said power switch to transfer energy to an output of said power converter, an active clamp, comprising:
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an inductor coupled in series with said freewheeling diode, a capacitor not directly coupled across said power switch, and a clamping switch series-coupled to said capacitor, said clamping switch and said capacitor coupled in parallel with said inductor and in series with said freewheeling diode, said active clamp mitigating adverse effects of reverse recovery currents associated with said freewheeling diode and enabling substantially zero voltage switching of said power and clamping switches. - View Dependent Claims (2, 3, 4, 5, 6, 7)
a non-isolated boost converter, a non-isolated buck converter, a non-isolated buck-boost converter, a non-isolated capacitive-coupled buck-boost converter, a non-isolated Sepic converter, and a non-isolated Zeta converter.
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6. The clamp as recited in claim 1 wherein said power converter further comprises a controller, coupled to said power and clamping switches, that controls conduction intervals of said power and clamping switches.
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7. The clamp as recited in claim 6 wherein said controller monitors an output voltage of said power converter and controls said power and clamping switches in response thereto.
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8. For use with a power converter couplable to a source of electrical energy, said power converter having a power switch that conducts intermittently to transfer energy from said source to an inductive element, and a freewheeling diode that alternately conducts with said power switch to transfer energy to an output of said power converter, a method of actively clamping energy of said power converter, comprising:
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mitigating adverse effects of reverse recovery currents associated with said freewheeling diode with an active clamp having a series-coupled capacitor and clamping switch coupled in parallel with an inductor, said active clamp coupled in series with said freewheeling diode and said capacitor not directly coupled across said power switch; and
enabling, with said active clamp, substantially zero voltage switching of said power and clamping switches. - View Dependent Claims (9, 10, 11, 12, 13, 14)
a non-isolated boost converter, a non-isolated buck converter, a non-isolated buck-boost converter, a non-isolated capacitive-coupled buck-boost converter, a non-isolated Sepic converter, and a non-isolated Zeta converter.
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13. The method as recited in claim 8 further comprising controlling conduction intervals of said power and clamping switches.
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14. The method as recited in claim 13 wherein said controlling comprises monitoring an output voltage of said power converter and controlling said power and clamping switches in response thereto.
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15. A power converter couplable to a source of electrical energy, comprising:
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a power switch that conducts intermittently to transfer energy from said source to an inductive element, a freewheeling diode that alternately conducts with said power switch to transfer energy to an output of said power converter, an active clamp, including;
an inductor coupled in series with said freewheeling diode, a capacitor not directly coupled across said power switch, and a clamping switch series-coupled to said capacitor, said clamping switch and said capacitor coupled in parallel with said inductor and in series with said freewheeling diode, said active clamp mitigating adverse effects of reverse recovery currents associated with said freewheeling diode and enabling substantially zero voltage switching of said power and clamping switches, and a controller, coupled to said power and clamping switches, that controls conduction intervals of said power and clamping switches. - View Dependent Claims (16, 17, 18, 19, 20)
a non-isolated boost converter, a non-isolated buck converter, a non-isolated buck-boost converter, a non-isolated capacitive-coupled buck-boost converter, a non-isolated Sepic converter, and a non-isolated Zeta converter.
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20. The power converter as recited in claim 15 wherein said controller monitors an output voltage of said converter and controls said power and clamping switches in response thereto.
Specification