The problem of harmonic pollution has brought wide attention with the increase of power customers. The adoption of the technology of active power factor correction (APFC) with advanced high frequency power converter i...The problem of harmonic pollution has brought wide attention with the increase of power customers. The adoption of the technology of active power factor correction (APFC) with advanced high frequency power converter is a more efficient solution to the problem of harmonic pollution. A single stage isolated high power factor AC/DC converter, which features wide range DC output, high power factor, lower harmonic pollution in input current, and phase shift PWM full bridge circuit can achieve soft switching. The principle of the circuit topology and the reasons of voltage surges across the power switch are analyzed. Experiment results illustrate that this circuit has the advantages of high power factor and lower harmonic distortion.展开更多
A simple single-stage AC/DC converter circuit with active clamp is presented. The operation theory and state are analyzed. The experimental results show that the voltage across main switch can be clamped to a certain ...A simple single-stage AC/DC converter circuit with active clamp is presented. The operation theory and state are analyzed. The experimental results show that the voltage across main switch can be clamped to a certain value,and zero voltage switching (ZVS) can be achieved. The voltage stress and switching loss are both decreased. In range of the whole load,power factors can be always more than 97%,and the highest efficiency can reach 88%.展开更多
With the use of this novel average model for Single Stage Flyback PFC + Flyback DC/DC converter, voltage control mode, peak current control mode and average current control mode can be simulated easily by changing the...With the use of this novel average model for Single Stage Flyback PFC + Flyback DC/DC converter, voltage control mode, peak current control mode and average current control mode can be simulated easily by changing the model's parmneters. It can be used to do various analysis not only for small signal and static behavior but also for large signal and dynamic behavior of the converter. By using this average model the simulation speed can be improved by 2 orders of rrmgnitude above that obtained by using the conventional switched model. It can be applied to optimize the trade-off between high power factor, voltage stress, current stress and good output performance while designing this kind of single stage PFC converter. A 60W single stage power factor corrector was built to verify the proposed model. The modeling principle can be applied to other Single Stage PFC topologies.展开更多
A single-stage single-switch high- frequency electronic ballast topology is presented. The circuit topology is the integration of a buck power- factor-correction (PFC) converter and a class E resonant inverter with ...A single-stage single-switch high- frequency electronic ballast topology is presented. The circuit topology is the integration of a buck power- factor-correction (PFC) converter and a class E resonant inverter with only one active power switch. The buck converter is operated in discontinuous conduction mode and at a fixed switching frequency, and constant duty cycle to achieve high power factor and it can be controlled easily. Detailed analysis of the operation and characteristics of the circuit is provided. Simulation results satisfy present standard requirements.展开更多
基于无桥升压功率因数校正(power factor correction,PFC)的单级无线电能传输(wireless power transfer,WPT)电源与传统多级WPT电源相比具有体积小、成本低、效率高及可靠性高的优点,但其存在着发射端直流环节电压升高,难以通过补偿网...基于无桥升压功率因数校正(power factor correction,PFC)的单级无线电能传输(wireless power transfer,WPT)电源与传统多级WPT电源相比具有体积小、成本低、效率高及可靠性高的优点,但其存在着发射端直流环节电压升高,难以通过补偿网络实现恒流与恒压等问题。为此,提出了一种不对称调制方式及该调制方式对应的补偿网络,解决该单级WPT变换器中发射端直流环节的电压升高问题,并且使得该单级式WPT电源通过补偿网络切换实现了与负载无关的恒流恒压输出。仿真和实验验证了提出的不对称调制方法及其补偿网络的正确性,为无桥升压PFC的单级WPT电源走向应用打下了基础。展开更多
文摘The problem of harmonic pollution has brought wide attention with the increase of power customers. The adoption of the technology of active power factor correction (APFC) with advanced high frequency power converter is a more efficient solution to the problem of harmonic pollution. A single stage isolated high power factor AC/DC converter, which features wide range DC output, high power factor, lower harmonic pollution in input current, and phase shift PWM full bridge circuit can achieve soft switching. The principle of the circuit topology and the reasons of voltage surges across the power switch are analyzed. Experiment results illustrate that this circuit has the advantages of high power factor and lower harmonic distortion.
文摘A simple single-stage AC/DC converter circuit with active clamp is presented. The operation theory and state are analyzed. The experimental results show that the voltage across main switch can be clamped to a certain value,and zero voltage switching (ZVS) can be achieved. The voltage stress and switching loss are both decreased. In range of the whole load,power factors can be always more than 97%,and the highest efficiency can reach 88%.
文摘With the use of this novel average model for Single Stage Flyback PFC + Flyback DC/DC converter, voltage control mode, peak current control mode and average current control mode can be simulated easily by changing the model's parmneters. It can be used to do various analysis not only for small signal and static behavior but also for large signal and dynamic behavior of the converter. By using this average model the simulation speed can be improved by 2 orders of rrmgnitude above that obtained by using the conventional switched model. It can be applied to optimize the trade-off between high power factor, voltage stress, current stress and good output performance while designing this kind of single stage PFC converter. A 60W single stage power factor corrector was built to verify the proposed model. The modeling principle can be applied to other Single Stage PFC topologies.
文摘A single-stage single-switch high- frequency electronic ballast topology is presented. The circuit topology is the integration of a buck power- factor-correction (PFC) converter and a class E resonant inverter with only one active power switch. The buck converter is operated in discontinuous conduction mode and at a fixed switching frequency, and constant duty cycle to achieve high power factor and it can be controlled easily. Detailed analysis of the operation and characteristics of the circuit is provided. Simulation results satisfy present standard requirements.
文摘基于无桥升压功率因数校正(power factor correction,PFC)的单级无线电能传输(wireless power transfer,WPT)电源与传统多级WPT电源相比具有体积小、成本低、效率高及可靠性高的优点,但其存在着发射端直流环节电压升高,难以通过补偿网络实现恒流与恒压等问题。为此,提出了一种不对称调制方式及该调制方式对应的补偿网络,解决该单级WPT变换器中发射端直流环节的电压升高问题,并且使得该单级式WPT电源通过补偿网络切换实现了与负载无关的恒流恒压输出。仿真和实验验证了提出的不对称调制方法及其补偿网络的正确性,为无桥升压PFC的单级WPT电源走向应用打下了基础。