High-efficiency high-voltage difference ratio bi-directional converter
First Claim
1. A high efficiency high voltage gain bi-directional converter, comprising:
- a low voltage circuit including a low voltage switch and first winding of a coupled inductor;
depending on the switch'"'"'s on and off state, storing or releasing energy in the first winding of the coupled inductor;
a median voltage circuit including second winding of the coupled inductor and a median voltage capacitor between the low voltage circuit and a high voltage circuit, mainly utilizing the median voltage capacitor to raise voltage boosting ratio or bear part of voltage during step down;
a clamping circuit including a clamping inductor, a clamping capacitor, a first clamping diode, a second clamping diode and a third clamping diode, mainly to absorb leakage induction energy of the coupled inductor, protect the low voltage switch and release the absorbed energy to output end;
the high voltage circuit including a high voltage switch, providing a passage for bi-directional energy transfer between the high voltage circuit and the low voltage circuit.
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Abstract
The aim of this invention focuses on the development of a high-efficiency bidirectional converter for power sources with great voltage diversity. In traditional bidirectional converters, the circuit topology with transformer form is the common usual. Moreover, the soft-switching techniques including zero-voltage-switching (ZVS) or zero-current-switching (ZCS) are usually used for alleviating the corresponding switching losses. However, there are four and upward power semiconductor switches in these circuit schemes. By this way, it will result in the increase of production cost, and the degeneration of conversion efficiency. The coupled-inductor bidirectional scheme in the proposed converter only adopts three power semiconductor switches to accomplish the objective of bidirectional current control. Under the situation of non-isolation circuit topology, it still possesses the protection of electric safety for operators. Due to the characteristics of high step-up and step-down ratio, the battery module with low voltage could be injected into a high-voltage dc bus for the later utilization, e.g., high-voltage load, front-end of inverter. Since the techniques of voltage clamping, synchronous rectification and soft switching are manipulated in this circuit topology, and the corresponding device specifications are adequately performed, it can achieve the goal of high-efficiency bidirectional power conversion for power sources with great voltage diversity.
64 Citations
6 Claims
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1. A high efficiency high voltage gain bi-directional converter, comprising:
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a low voltage circuit including a low voltage switch and first winding of a coupled inductor;
depending on the switch'"'"'s on and off state, storing or releasing energy in the first winding of the coupled inductor;a median voltage circuit including second winding of the coupled inductor and a median voltage capacitor between the low voltage circuit and a high voltage circuit, mainly utilizing the median voltage capacitor to raise voltage boosting ratio or bear part of voltage during step down; a clamping circuit including a clamping inductor, a clamping capacitor, a first clamping diode, a second clamping diode and a third clamping diode, mainly to absorb leakage induction energy of the coupled inductor, protect the low voltage switch and release the absorbed energy to output end; the high voltage circuit including a high voltage switch, providing a passage for bi-directional energy transfer between the high voltage circuit and the low voltage circuit. - View Dependent Claims (2, 3)
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4. A High-efficiency high voltage gain bi-directional converter, comprising:
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a low voltage circuit including a low voltage switch and first winding of a coupled inductor;
depending on the switch'"'"'s on or off state, storing or releasing energy in the first winding of the coupled inductor;a median voltage circuit including second winding of the coupled inductor and a median voltage capacitor between the low voltage circuit and a high voltage circuit, mainly utilizing the median voltage capacitor to raise voltage boosting ratio or bear part of voltage during step down; a clamping circuit including a clamping capacitor, a first clamping diode and a second clamping diode, mainly to absorb leakage induction energy of the coupled inductor, protect the low voltage switch and release the absorbed energy to output end; the high voltage circuit including a high voltage switch, providing a passage for bi-directional energy transfer between the high voltage circuit and the low voltage circuit. - View Dependent Claims (5, 6)
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Specification