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Active soft switch semi-bridge method

A soft-switching and diode technology, applied in the field of active soft-switching half-bridges, can solve problems such as insufficient effective range of boundary conditions, damaged and easily affected half-bridge power electronic switches, etc. The effect of improvement and reliability improvement

Inactive Publication Date: 2012-08-08
深圳市美吉星集成科技有限公司
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  • Claims
  • Application Information

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Problems solved by technology

However, because the effective range of the boundary conditions for forming LLC resonant soft switching is not wide enough, it is easily affected by disturbances such as power fluctuations, load changes, and temperature changes. Once the soft switching fails, the half-bridge power electronic switch enters a vicious cycle of hard switching and is damaged.

Method used

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  • Active soft switch semi-bridge method
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  • Active soft switch semi-bridge method

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Embodiment Construction

[0017] Below in conjunction with accompanying drawing and embodiment the technical scheme of the present invention is described in further detail:

[0018] Such as figure 1 As shown, for the load RO, the main switches VS1 and VS2 and the magnetic integration Lr, Lo1 and Lo2 are two BUCKs to form a half-bridge push-pull topology, C1 and C2 form a capacitive half-bridge, and the AC load RO is connected in series with the AC current-limiting inductor Lr , connected between the middle point P of the capacitor half-bridge and the output terminal O of the main switch half-bridge. Before the main switch is not in push-pull mode, CZV1 and CZV2 respectively store half of the UH voltage, and the auxiliary switch VS11 (synchronized with the main switch VS1) and the auxiliary switch VS21 (synchronized with the main switch VS2) respectively store energy in the capacitors of CZV1 and CZV2 through the main The switch and Lo1 Lo2 recycle energy, merge with the current of the main switch in t...

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Abstract

The invention provides an active soft switch half bridge method, which is characterized in that: a push-pull type BUCK topology is adopted and connected in series in a main circuit of a half bridge topology through two inductors Lo1 and Lo2; auxiliary switches VS11 and VS12 are used for respectively carrying out CUK to actively realize the zero-voltage disconnection of ZVS soft switch; main switches VS1 and VS2 are respectively connected in series with the small magnetic integrated inductors Lo1 and Lo2 to form zero-current conducting of ZCS soft switch; passing through a load RO, output alternating current is then connected in series with a current-limiting inductor Lr and reaches a middle point P of half bridge capacitors C1 and C2, to form a push-pull type BUCK half bridge topology. The active soft switch half bridge can eliminate the straight-through dangers in the traditional half bridge circuits, effectively improve the reliability and electrical efficiency and reduce EMC interference levels, and can be widely used in LED lamps, HID lamps, single-phase, two-phase or three-phase flicker free fluorescent lamps, single-phase, two-phase or three-phase power electronic transformers and brushless direct current motors or frequency transformers of two-phase and three-phase motors and the like.

Description

technical field [0001] The invention relates to a half-bridge topology of a switching power supply, in particular to an active soft-switching half-bridge method. Background technique [0002] The traditional half-bridge topology is widely used in power electronic switching power supply products, for example, in electronic fluorescent lamp ballasts, energy-saving lamps and electronic transformers. [0003] When the upper and lower switching tubes of the traditional half-bridge are switched, due to the response time delay of the power electronic switching element itself, and the influence of various harmonics and parasitic parameters inside the product, there is a hazard of half-bridge through-through, which often burns out in an instant Half-bridge power switch tube. [0004] When each power electronic switching element of the half-bridge switches from (OFF) to conduction (ON), the front peak of the conduction current ΔiON and the tail of the switching voltage ΔuoN exist at ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02M7/44H02M7/523
CPCY02B70/1491Y02B70/10
Inventor 申莉萌王希天
Owner 深圳市美吉星集成科技有限公司
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