This paper proposes a zer o current and zero voltage switching (ZCZVS) PWM Boost full bridge (FB) conve rter. With series inductors, the leading switches can realize zero current swit ching (ZCS) in a wide load ra...This paper proposes a zer o current and zero voltage switching (ZCZVS) PWM Boost full bridge (FB) conve rter. With series inductors, the leading switches can realize zero current swit ching (ZCS) in a wide load range using the energy of the output capacitor. Ma king use of parasitic capacitors of the lagging switches and parallel auxiliary i nductance with the primary winding of the transformer, the lagging switches can realize zero voltage switching (ZVS) under any load. Compared with the ZCS PWM Boost FB converter, the new converter has no current duty cycle loss. Operat ional principle and parameter design are analyzed. Experimental results verify the effectiveness of the proposed converter.展开更多
Phase shifted converter realizes zero voltage switching (ZVS) with the use of leakage inductance of the main transformer, however, the realization of ZVS for lagging bridge leg is difficult. This paper proposes a c...Phase shifted converter realizes zero voltage switching (ZVS) with the use of leakage inductance of the main transformer, however, the realization of ZVS for lagging bridge leg is difficult. This paper proposes a current enhanced principle, and based on the principle, a novel phase shifted converter is proposed, which adds an auxi liary resonant net to the conventional full bridge converter to help the lagging bridge leg to realize ZVS. The principle and the design of the novel converter are analyzed, and the simulational and experimental results verify the principle.展开更多
随着宽禁带功率半导体器件的广泛使用,更高开关频率的双有源桥(dual active bridge,DAB)变换器带来了更大的开关损耗,对于软开关技术提出更高要求。为了进一步拓展零电压开通(zero-voltage switching,ZVS)范围,文中对ZVS精确模型和传统...随着宽禁带功率半导体器件的广泛使用,更高开关频率的双有源桥(dual active bridge,DAB)变换器带来了更大的开关损耗,对于软开关技术提出更高要求。为了进一步拓展零电压开通(zero-voltage switching,ZVS)范围,文中对ZVS精确模型和传统电感电流全局最优条件方法进行分析,提出一种结合励磁电流运行的移相调制策略,该策略可实现DAB变换器全功率范围内所有开关管的ZVS运行(8-ZVS运行)。在考虑开关管非线性特性和死区时间限制基础上得到更精确的ZVS模型,并推导引入励磁电流的ZVS模型。此外,所提出的控制方案具有无缝模式转换的特点,电感电流的有效值也可以达到准最佳状态。最后,搭建6kW/150kHz的高频DAB变换器样机以验证模型有效性。实验结果表明,该控制算法可以在任意模式和工况下实现8-ZVS运行,从而提升系统在轻载和中载工况下运行效率。展开更多
A soft switching three-transistor push-pull(TTPP)converter is proposed in this paper. The 3rd transistor is inserted in the primary side of a traditional push-pull converter. Two primitive transistors can achieve zero...A soft switching three-transistor push-pull(TTPP)converter is proposed in this paper. The 3rd transistor is inserted in the primary side of a traditional push-pull converter. Two primitive transistors can achieve zero-voltage-switching (ZVS) easily under a wide load range, the 3rd transistor can also realize zero-voltage-switching assisted by leakage inductance. The rated voltage of the 3rd transistor is half of that of the main transistors. The operation theory is explained in detail. The soft-switching realization conditions are derived. An 800 W with 83.3 kHz switching frequency prototype has been built. The experimental result is provided to verify the analysis.展开更多
双有源桥(Dual Active Bridge,DAB)在需要高效能量双向流动的工作场景有广泛的应用。在高开关频率工作时,变换器开关器件结电容充放电时间无法忽略,导致扩展移相控制下DAB零电压开通(Zero Voltage Switching,ZVS)范围断续。通过分析扩...双有源桥(Dual Active Bridge,DAB)在需要高效能量双向流动的工作场景有广泛的应用。在高开关频率工作时,变换器开关器件结电容充放电时间无法忽略,导致扩展移相控制下DAB零电压开通(Zero Voltage Switching,ZVS)范围断续。通过分析扩展移相控制下双有源桥DC-DC变换器工作模态,建立高开关频率工况下DAB变换器数学模型,提出一种利用磁化电流扩宽ZVS范围的方法。在此基础上,结合电感电流应力优化算法,提出一种适用于高频工况应用的电流应力优化下的软开关控制策略。采用该控制策略,可以有效减小导通损耗,消除开关损耗,显著提升高开关频率下的变换器效率。搭建400 kHz实验样机,验证控制策略有效性。展开更多
零电压开通变频控制(variable frequency controlled zero-voltage-switching,VF-ZVS)可在无辅助电路条件下实现零电压开通(zero-voltage-switching,ZVS),进一步提升碳化硅MOSFET逆变器的功率密度。但在三相有源中点钳位逆变器(active-n...零电压开通变频控制(variable frequency controlled zero-voltage-switching,VF-ZVS)可在无辅助电路条件下实现零电压开通(zero-voltage-switching,ZVS),进一步提升碳化硅MOSFET逆变器的功率密度。但在三相有源中点钳位逆变器(active-neural-point-converter,ANPC)中,全功率器件ZVS会大幅增加输出电感电流纹波,改变ANPC逆变器的电流续流路径,影响SiC器件损耗分布特征。论文建立电流纹波关于矢量作用时间的分段数学表达式,提出计及电流纹波的SiC器件损耗建模方法,表征VF-ZVS控制下电流纹波对开关管损耗特性的影响规律。进一步,分析VF-ZVS控制下2SiC、4SiC I和4SiC II 3种典型混合ANPC拓扑的新增工作模态特性;利用所提出的损耗模型,评估在不同调制度、全功率等级下上述3种混合拓扑的开关损耗、通态损耗和损耗分布均衡度,并通过6kW SiC实验平台,在不同功率等级下实验验证了SiC器件损耗模型和3种混合拓扑损耗评估结果的正确性。展开更多
The zero-voltage quasi-resonant boost switching DC-DC converter has been inves-tigated by using the time averaging equivalent circuit approach of periodically switching linearnetworks.The DC steady state and AC small ...The zero-voltage quasi-resonant boost switching DC-DC converter has been inves-tigated by using the time averaging equivalent circuit approach of periodically switching linearnetworks.The DC steady state and AC small signal characteristics of the converter are also given.展开更多
文摘This paper proposes a zer o current and zero voltage switching (ZCZVS) PWM Boost full bridge (FB) conve rter. With series inductors, the leading switches can realize zero current swit ching (ZCS) in a wide load range using the energy of the output capacitor. Ma king use of parasitic capacitors of the lagging switches and parallel auxiliary i nductance with the primary winding of the transformer, the lagging switches can realize zero voltage switching (ZVS) under any load. Compared with the ZCS PWM Boost FB converter, the new converter has no current duty cycle loss. Operat ional principle and parameter design are analyzed. Experimental results verify the effectiveness of the proposed converter.
文摘Phase shifted converter realizes zero voltage switching (ZVS) with the use of leakage inductance of the main transformer, however, the realization of ZVS for lagging bridge leg is difficult. This paper proposes a current enhanced principle, and based on the principle, a novel phase shifted converter is proposed, which adds an auxi liary resonant net to the conventional full bridge converter to help the lagging bridge leg to realize ZVS. The principle and the design of the novel converter are analyzed, and the simulational and experimental results verify the principle.
文摘随着宽禁带功率半导体器件的广泛使用,更高开关频率的双有源桥(dual active bridge,DAB)变换器带来了更大的开关损耗,对于软开关技术提出更高要求。为了进一步拓展零电压开通(zero-voltage switching,ZVS)范围,文中对ZVS精确模型和传统电感电流全局最优条件方法进行分析,提出一种结合励磁电流运行的移相调制策略,该策略可实现DAB变换器全功率范围内所有开关管的ZVS运行(8-ZVS运行)。在考虑开关管非线性特性和死区时间限制基础上得到更精确的ZVS模型,并推导引入励磁电流的ZVS模型。此外,所提出的控制方案具有无缝模式转换的特点,电感电流的有效值也可以达到准最佳状态。最后,搭建6kW/150kHz的高频DAB变换器样机以验证模型有效性。实验结果表明,该控制算法可以在任意模式和工况下实现8-ZVS运行,从而提升系统在轻载和中载工况下运行效率。
文摘A soft switching three-transistor push-pull(TTPP)converter is proposed in this paper. The 3rd transistor is inserted in the primary side of a traditional push-pull converter. Two primitive transistors can achieve zero-voltage-switching (ZVS) easily under a wide load range, the 3rd transistor can also realize zero-voltage-switching assisted by leakage inductance. The rated voltage of the 3rd transistor is half of that of the main transistors. The operation theory is explained in detail. The soft-switching realization conditions are derived. An 800 W with 83.3 kHz switching frequency prototype has been built. The experimental result is provided to verify the analysis.
文摘双有源桥(Dual Active Bridge,DAB)在需要高效能量双向流动的工作场景有广泛的应用。在高开关频率工作时,变换器开关器件结电容充放电时间无法忽略,导致扩展移相控制下DAB零电压开通(Zero Voltage Switching,ZVS)范围断续。通过分析扩展移相控制下双有源桥DC-DC变换器工作模态,建立高开关频率工况下DAB变换器数学模型,提出一种利用磁化电流扩宽ZVS范围的方法。在此基础上,结合电感电流应力优化算法,提出一种适用于高频工况应用的电流应力优化下的软开关控制策略。采用该控制策略,可以有效减小导通损耗,消除开关损耗,显著提升高开关频率下的变换器效率。搭建400 kHz实验样机,验证控制策略有效性。
文摘零电压开通变频控制(variable frequency controlled zero-voltage-switching,VF-ZVS)可在无辅助电路条件下实现零电压开通(zero-voltage-switching,ZVS),进一步提升碳化硅MOSFET逆变器的功率密度。但在三相有源中点钳位逆变器(active-neural-point-converter,ANPC)中,全功率器件ZVS会大幅增加输出电感电流纹波,改变ANPC逆变器的电流续流路径,影响SiC器件损耗分布特征。论文建立电流纹波关于矢量作用时间的分段数学表达式,提出计及电流纹波的SiC器件损耗建模方法,表征VF-ZVS控制下电流纹波对开关管损耗特性的影响规律。进一步,分析VF-ZVS控制下2SiC、4SiC I和4SiC II 3种典型混合ANPC拓扑的新增工作模态特性;利用所提出的损耗模型,评估在不同调制度、全功率等级下上述3种混合拓扑的开关损耗、通态损耗和损耗分布均衡度,并通过6kW SiC实验平台,在不同功率等级下实验验证了SiC器件损耗模型和3种混合拓扑损耗评估结果的正确性。
文摘The zero-voltage quasi-resonant boost switching DC-DC converter has been inves-tigated by using the time averaging equivalent circuit approach of periodically switching linearnetworks.The DC steady state and AC small signal characteristics of the converter are also given.