A three-level half-bridge soft-switching converter circuit, control system and control method thereof

A technology of three-level half-bridge and soft switching, which is applied in the direction of high-efficiency power electronic conversion, conversion of AC power input to DC power output, electrical components, etc., and can solve problems such as poor soft switching effect, complicated circuit, and reduced system reliability. , to achieve the effect of midpoint potential balance, dynamic voltage clamping, and simple and convenient control

Active Publication Date: 2022-03-29
JINING AOTAI ELECTRICAL
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In the prior art, although there is a topology in which the converter circuit adopts soft switching, each switching tube is hard-off when it is turned off, and can only achieve zero-voltage conduction, and the soft-switching effect is poor, or a passive auxiliary network is used. Realize the zero-voltage switch of the three-level half-bridge circuit, but the auxiliary network increases the complexity and cost of the system, or uses the auxiliary hardware circuit to realize the potential balance of the midpoint of the input capacitor, but the circuit is more complicated, which reduces the reliability of the system, or through the detection The capacitor voltage corrects the modulation wave to achieve the potential balance of the midpoint of the input capacitor, but it needs to increase the voltage detection circuit, and the control algorithm is also more complicated

Method used

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  • A three-level half-bridge soft-switching converter circuit, control system and control method thereof
  • A three-level half-bridge soft-switching converter circuit, control system and control method thereof
  • A three-level half-bridge soft-switching converter circuit, control system and control method thereof

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Embodiment 1

[0057] This embodiment discloses a three-level half-bridge soft-switching converter circuit. like figure 1As shown, a three-level half-bridge soft-switching converter circuit includes input capacitor group 1, input capacitor group 2, three-level half-bridge inverter circuit, saturated inductor Lx1, voltage equalizing inductor Lx2, and DC blocking capacitor Cx , transformer T and output circuit, the input capacitor group 1, the input capacitor group 2 are connected in parallel with the three-level half-bridge inverter circuit, after the saturated inductance, the DC blocking capacitor and the primary side of the transformer are connected in series, one end thereof is connected to the three-level The midpoint of the bridge arm of the half-bridge inverter circuit is connected to the midpoint of the input capacitor group 1 at the other end, and the embedded diode connection midpoint of the three-level half-bridge inverter circuit is connected to the midpoint of the input capacitor ...

Embodiment 2

[0081] like figure 2 As shown, Embodiment 2 of the present invention is based on the three-level half-bridge soft-switching converter circuit of Embodiment 1, and capacitors are connected in parallel at both ends of each switch tube of the bridge arm of the three-level half-bridge inverter circuit. It is used to further reduce the turn-off loss of the switch tube. However, after the capacitors are connected in parallel, an additional circuit needs to be added to ensure that the parallel capacitors will not be directly discharged through the switch tube under no-load or light-load conditions. Or it is applied in occasions where there is basically no no-load or light-load state, which limits the application environment of the converter circuit. Or the capacitance value of the parallel capacitor is small, and the effect of soft switching is limited.

[0082] The other structures and working principles of the circuit in this embodiment are the same as those in Embodiment 1, and...

Embodiment 3

[0084] like image 3 As shown, the third embodiment of the present invention is based on the three-level half-bridge soft-switching converter circuit of the first embodiment, and the flying capacitor Cs1 is connected in parallel at both ends of the switching tube clamping circuit to realize the upper and lower bridge arms The one-to-one voltage switching of the switching tube realizes the dynamic voltage clamping of the switching tube under the premise of using a simpler control method, but it will increase the complexity of the circuit.

[0085] The other structures and working principles of the circuit in this embodiment are the same as those in Embodiment 1, and will not be repeated here.

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Abstract

The present disclosure proposes a three-level half-bridge soft-switching converter circuit, a control system and a control method thereof, including: a first input capacitor group, a second input capacitor group, and a three-level half-bridge inverter circuit connected in parallel; And the first inductance, the DC blocking capacitor, the transformer and the output circuit; wherein, after the primary side of the first inductor, the DC blocking capacitor and the transformer are connected in series, one end thereof is connected to the midpoint of the bridge arm of the three-level half-bridge inverter circuit, and the other One end is connected to the midpoint of the first input capacitor group, the midpoint of the embedded diode connection of the three-level half-bridge inverter circuit is connected to the midpoint of the second input capacitor group circuit, and the secondary side of the transformer is connected to the output circuit. Each switch tube can be in a soft switching state when it is turned on and off. And realize the neutral point potential balance of the input capacitor.

Description

technical field [0001] The disclosure belongs to the technical field of DC-AC-DC converter circuits, and in particular relates to a three-level half-bridge soft-switch converter circuit and a control method thereof. Background technique [0002] The statements in this section merely provide background information related to the present disclosure and do not necessarily constitute prior art. [0003] The traditional two-level converter circuit has the advantages of simple topology and easy control, and is widely used in various DC-AC-DC converter circuits. However, the two-level converter circuit also has problems such as high requirements for the withstand voltage of the switching tube, large switching stress, and difficulty in increasing the frequency, which are greatly restricted in high-voltage input applications. The three-level half-bridge inverter circuit has half the withstand voltage of the switch tube as that of the two-level inverter circuit, the switch stress is ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02M7/5387H02M1/088
CPCH02M7/53871H02M1/088Y02B70/10
Inventor 张光先张甫国李昊张延河张海林吕金建
Owner JINING AOTAI ELECTRICAL
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