1 김미영, "The Analysis of Active Power Control Requirements in the Selected Grid Codes for Wind Farm" 대한전기학회 10 (10): 1408-1414, 2015
2 F. L. Tofoli, "Survey on non-isolated high-voltage step-up dc-dc topologies based on the boost converter" 8 (8): 2044-2057, 2015
3 Mohamed Arbi Khlifi, "Study and Control of Photovoltaic Water Pumping System" 대한전기학회 11 (11): 117-124, 2016
4 O. Abutbul, "Step-up switching-mode converter with high voltage gain using a switched-capacitor circuit" 50 (50): 1098-1102, 2003
5 Y. Deng, "Single-switch high step-up converters with built-in transformer voltage multiplier cell" 27 (27): 3557-3567, 2012
6 B. Liu, "Photovoltaic DCbuilding-module-based BIPV system-concept and design considerations" 26 (26): 1418-1429, 2011
7 H. Liu, "Overview of High-Step-Up Coupled-Inductor Boost Converters" 4 (4): 689-704, 2016
8 Y. -P. Hsieh, "Novel high step-up DC-DC converter with coupledinductor and switched-capacitor techniques" 59 (59): 998-1007, 2012
9 K. B. Park, "Non isolated high step-up boost converter integrated with SEPIC converter" 25 (25): 2266-2275, 2010
10 Q. Zhao, "High-efficiency, high step-up dc-dc converters" 18 (18): 65-73, 2003
1 김미영, "The Analysis of Active Power Control Requirements in the Selected Grid Codes for Wind Farm" 대한전기학회 10 (10): 1408-1414, 2015
2 F. L. Tofoli, "Survey on non-isolated high-voltage step-up dc-dc topologies based on the boost converter" 8 (8): 2044-2057, 2015
3 Mohamed Arbi Khlifi, "Study and Control of Photovoltaic Water Pumping System" 대한전기학회 11 (11): 117-124, 2016
4 O. Abutbul, "Step-up switching-mode converter with high voltage gain using a switched-capacitor circuit" 50 (50): 1098-1102, 2003
5 Y. Deng, "Single-switch high step-up converters with built-in transformer voltage multiplier cell" 27 (27): 3557-3567, 2012
6 B. Liu, "Photovoltaic DCbuilding-module-based BIPV system-concept and design considerations" 26 (26): 1418-1429, 2011
7 H. Liu, "Overview of High-Step-Up Coupled-Inductor Boost Converters" 4 (4): 689-704, 2016
8 Y. -P. Hsieh, "Novel high step-up DC-DC converter with coupledinductor and switched-capacitor techniques" 59 (59): 998-1007, 2012
9 K. B. Park, "Non isolated high step-up boost converter integrated with SEPIC converter" 25 (25): 2266-2275, 2010
10 Q. Zhao, "High-efficiency, high step-up dc-dc converters" 18 (18): 65-73, 2003
11 K. C. Tseng, "High stepup converter with three-winding coupled inductor for fuel cell energy source applications" 30 (30): 574-581, 2015
12 K. I. Hwu, "High Step-Up Converter with Hybrid Structure Based on One Switch" 대한전기학회 10 (10): 1566-1577, 2015
13 T. J. Liang, "Analysis of integrated boost-flyback step up converter" 152 (152): 217-225, 2005
14 Y. P. Hsieh, "Analysis and implementation of a novel singleswitch high step-up dc-dc converter" 5 (5): 11-21, 2012
15 D. Novaes, "A new quadratic, three-level, dc/dc converter suitable for fuel cell applications" 601-607, 2007
16 X. Hu, "A high voltage gain DC-DC converter integrating coupled-Inductor and diodecapacitor Techniques" 29 (29): 789-800, 2014
17 Thangavel. S, "A Simple Power Management Scheme with Enhanced Stability for a Solar PV/Wind/Fuel Cell Fed Standalone Hybrid Power Supply using Embedded and Neural Network Controller" 대한전기학회 9 (9): 1454-1470, 2014
18 C. Krishnakumar, "A New Random PWM Technique for Conducted-EMI Mitigation on Cuk Converter" 대한전기학회 10 (10): 916-924, 2015
19 E. H. Ismail, "A Family of single-switch PWM converters with high step-up conversion ratio" 55 (55): 1159-1171, 2008
20 J. C. Rosas-Caro, "A DC-DC multilevel boost converter" 3 (3): 129-137, 2010