参考文献
| [1] | Zhou G,Xu J,Jin Y.Improved digital peak current predictive control for switching DC-DC converters.IET Power Electron,2011,4(2):227 |
| [2] | Najafi E,Vahedi A,Mahantar A,et al.A new controlling method based on peak current mode (PCM) for PFC.IEEE 2nd International Power and Energy Conf,Johor Bahru,Malaysia,2008:1103 |
| [3] | Wong K.Energy-efficient peak-current state-machine control with a peak power mode.IEEE Trans Power Electron,2009,24(2):489 |
| [4] | Kanaan H Y,Sauriol G,Al-Haddad K.Small-signal modeling and linear control of a high efficiency dual boost single-phase power factor correction circuit.IET Power Electron,2009,2(6):665 |
| [5] | Shu F L,Khambadkone A M.A simple digital DCM control scheme for Boost PFC operating in both CCM and DCM.IEEE Trans Industry Applications,2011,47(4):1802 |
| [6] | Spangler J,Behera A.A comparison between hysteretic and fixed frequency Boost converters used for power factor correction.IEEE Applied Power Electronics Conf and Expo,San Diego,USA,1993:281 |
| [7] | Rahman K M.Variable-band hysteresis current controllers for PWM voltage-source inverters.IEEE Trans Power Electron,1997,12(6):964 |
| [8] | Brown R,Soldano M.One cycle control IC simplifies PFC design.Twentieth Annual IEEE Applied Power Electronics Conf and Expo,Austin,USA,2005,2:825 |
| [9] | Tao J,Peng M,Shaojun X.Analysis and improvement on input current of one-cycle controlled PFC converter.The 5th IEEE Conf on Industrial Electronics and Applications,Taiwan,China,2010:2094 |
| [10] | Jappe T K,Mussa S A.Discrete-time one cycle control technique applied in single-phase PFC boost converter.IEEE International Symposium on Industrial Electronics,Gdansk,Poland,2011:1555 |
| [11] | Stéphane B,Hua J.Time delay compensation of digital control for DC switch mode power supplies using prediction techniques.IEEE Trans Power Electron,2000,15:835 |
| [12] | He M,Xu J,Zhou G,et al.Algorithm to overcome time delay in digital controller of switching DC-DC converters.IEEE Conf on Industrial Electronics and Applications,Harbin,China,2007:2305 |
| [13] | Zhao J,Sato T,Nabeshima T,et al.Steady-state and dynamic analysis of a buck converter using a hysteretic PWM control.IEEE 35th Annual Power Electron Spec Conf,Aachen,Germany,2004,5:3654 |
| [14] | Yousefzadeh V,Babazadeh A,Ramachandran B,et al.Proximate time-optimal digital control for synchronous buck DC-DC converters.IEEE Trans Power Electron,2008,23:2018 |
| [15] | Feng G,Meyer E,Liu Y F.A new digital control algorithm to achieve optimal dynamic response performance in DC-to-DC converters.IEEE Trans Power Electron,2007,22(4):1489 |
| [16] | Meyer E,Zhang Z,Liu Y F.An optimal control method for buck converters using a practical capacitor charge balance technique.IEEE Trans Power Electron,2008,23(4):1802 |
| [17] | Li Yani,Yan Yintang,Zhu Zhangming.Low-power variable frequency PFC converters.Journal of Semiconductors,2010,31 (1):015008 |
| [18] | Ghosh R,Narayanan G.A simple method to improve the dynamic response of single-phase PWM rectifiers.IEEE Trans Industrial Electronics,2008,55(10):3627 |
| [19] | Tahami F,Abedi M R,Rezaei K.Optimum nonlinear model predictive controller design for Flyback PFC rectifiers.IEEE Symposium on Industrial Electronics & Applications,Penang,Malaysia,2010:70 |
| [20] | Moon S,Corradini L,Maksimovic D.Autotuning of digitally controlled boost power factor correction rectifiers.IEEE Trans Power Electron,2011,26(10):3006 |
| [21] | Lim S F,Khambadkone A M.A multimode digital control scheme for boost PFC with higher efficiency and power factor at light load.IEEE Applied Power Electronics Conf and Expo,Orlando,USA,2012:291 |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%