共查询到18条相似文献,搜索用时 140 毫秒
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为达到功率因数校正(PFC)的目的;采用单周期的控制方法,来控制开关变换器的开关管使交流输入电流波形跟踪交流输入电压波形,从而实现交流电流波形正弦化。应用Matlab软件对设计的电路进行仿真实验,实验结果表明单周期控制的无桥功率因数校正电路具有很好的校正效果,而且该电路具有开关器件少,功耗低,电路体积小和控制电路简单的优点。 相似文献
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单周期控制无桥Boost PFC电路分析和仿真 总被引:5,自引:1,他引:4
传统有源功率因数校正电路中导通器件多,通态损耗大,不适于中大功率场合应用。新颖的单相功率因数校正电路——无桥Boost拓扑,其结构简单,效率高。文中基于无桥Boost电路,提出一种单周期控制方法,它不需要检测输入电压信号且不需使用乘法器就能实现功率因数校正。单周期控制电路简单可靠,又降低了成本。文中分析了无桥Boost电路及单周期控制的工作原理,并导出了控制系统的稳定性条件。 相似文献
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利用单周期控制(One-Cycle Control,OCC)的功率因数校正器,无需传统功率因数校正电路所需的模拟乘法器、输入电压采样、固定斜波发生器。因此,大大简化了功率因数校正(Power Factor Correction,PFC)电路的设计,缩小了装置体积。文章对OCC PFC原理进行了详细的分析,并研制了一台基于ICE2PCS02的500W PFC校正器,验证了其有效性。 相似文献
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单周期功率因数校正(Power Factor Correction,PFC)技术无需采样输入电压和乘法器,具有动态响应速度快、抗电源扰动能力强的特点。在分析单周期控制Boost PFC变换器工作原理的基础上,给出了单周期PFC技术的数字实现方案以及控制方程。基于动态逻辑库(Dynamic Link Library,DLL)模块建立数字控制PFC系统模型并应用Psim软件完成仿真验证,再以TMS320F28027为控制核心,搭建Boost PFC变换器的实验平台进行实验。仿真和实验均表明数字控制方案可以较好地实现PFC,证明了所提方案的优良性能。实验电路测试获得的功率因数达到0.99以上,输入电流THD值小于11%。 相似文献
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功率因数校正电路的一个重要发展方向是进一步提高转换效率。Totem-Pole Boost功率因数校正电路由于省略了整流桥,理论上可获得更高的效率。文中分析了其工作原理,提出了一种运用现有传统Boost PFC控制芯片实现该拓扑的简单方法。通过计算机仿真和试验验证,证明该方案的可行性。并依据试验结果,指出该拓扑的主要缺陷,展望其应用前景。 相似文献
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A parallel-connected single phase power factor correction approach with improved efficiency 总被引:1,自引:0,他引:1
In this paper, a new parallel-connected single phase power factor correction (PFC) topology using two flyback converters is proposed to improve the output voltage regulation with simultaneous input power factor correction and control. This approach offers lower cost and higher efficiency by parallel processing of the total power. Flyback converter-I primarily regulates output voltage with fast dynamic response and processes 55% of the power. Flyback converter-II with ac/dc PFC stage regulates input current shaping and PFC, and processes the remaining 45% of the power. This paper presents a design example and circuit analysis for 200 W power supply. A parallel-connected interleaved structure offers smaller passive components, less losses even in continuous conduction inductor current mode, and reduced volt-ampere rating of dc/dc stage converter. TI-DSP, TMS320LF2407, is used for implementation. Simulation and experimental results show the performance improvement. 相似文献
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Single phase three-level power factor correction circuit with passive lossless snubber 总被引:3,自引:0,他引:3
Hongyang Wu Xiangning He 《Power Electronics, IEEE Transactions on》2002,17(6):946-953
Multilevel conversion techniques, power factor correction (PFC) techniques and soft switching techniques are the three research hot points of power electronics. The paper proposes a single phase three-level PFC circuit with passive lossless snubbers which embodies these trends. Firstly, the three-level buck and boost topologies are derived from one bridge leg of the traditional diode clamped three-level inverters. Then, a single phase three-level PFC circuit is presented based on the three-level boost topology, and the principle and implementation approaches of the three-level PFC circuit are described. To realize the soft switching of the main switches and freewheeling diodes, two passive lossless snubber cells are added to the circuit. The operating principle and design considerations of the new circuit are discussed in detail. Finally, a 2 kW prototype of the single phase three-level PFC with the passive lossless snubber is built and tested. The simulated and experimental results indicate that the proposed circuit can realize the function of three-level PFC, increase system efficiency and have no over-voltage stresses on main power switches. Moreover, the power factor of the proposed circuit with the passive lossless snubber is higher than that of the circuit without the snubber. 相似文献
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单相两级有源功率因数校正变换器的研究 总被引:1,自引:0,他引:1
文中对两级有源功率因数校正变换器进行研究,设计了一台510W两级式开关电源。该电源前级采用平均电流控制的Boost型PFC电路,实现功率因数校正;后级采用不对称半桥型DC/DC变换器,实现开关管的零电压开关。控制电路采用PFC/PWM复合控制芯片ML4824,缩小电源体积。通过实验证实该开关电源具有高功率因数与高效率的特点。 相似文献
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Yu-Lung Ke Ying-Chun Chuang 《Circuits and Systems II: Express Briefs, IEEE Transactions on》2006,53(2):115-119
This paper presents a novel method of power-factor correction (PFC) using a high-frequency resonant energy tank for the dc-link inverter. The proposed approach has advantages over conventional PFC techniques in terms of a lower current stress and lower switching losses. The developed PFC circuit is implemented on a series-load resonant inverter for illustrative purposes. The experimental results validate the theoretical analyses. The PFC circuit can achieve a power factor of almost one with a very low harmonic distortion. 相似文献
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传统的开关电源均存在功率因数低的问题,改善开关电源的功率因数始终是学术界的热点。文章阐述了单级功率因数校正电路的发展历史,比较了两级PFC与单级PFC电路的结构,列举了几种常用的单级功率因数校正电路,并对单级隔离式PFC变换器的控制方案做了简单探讨。 相似文献
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为解决传统三相单开关功率因数校正器输入电流谐波较大的问题,设计了一种新型拓扑结构的三相单开关升压型PFC(Power Factor Correction)电路。通过在Boost电感和整流桥之间插入合适电容构成二阶滤波器,虽然控制算法不变,但可以在保证功率因数不变的前提下优化输入电流THD(Total Harmonic Distortion)。基于对电路原理的简要分析,建立Matlab仿真模型,再以TMS320F28335为控制核心,搭建Boost PFC 变换器的实验平台。仿真和实验均表明该方案可行,实验电路测试的输入电流THD值小于10%,具有实际应用价值。 相似文献