PHOTO VOLTAIC POWER GENERATION SYSTEM
To provide a connection device, a PV module, and a photovoltaic power generation system that enable Maximum Power Point Tracking (MPPT) control for each module.SOLUTION: Each of connection devices 10 is configured to: turn on a first semiconductor switch 6 and a second semiconductor switch 7 simulta...
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| Format | Patent |
| Language | English Japanese |
| Published |
16.12.2022
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| Abstract | To provide a connection device, a PV module, and a photovoltaic power generation system that enable Maximum Power Point Tracking (MPPT) control for each module.SOLUTION: Each of connection devices 10 is configured to: turn on a first semiconductor switch 6 and a second semiconductor switch 7 simultaneously to set a voltage of a capacitor 4 to zero; immediately after that, turn off the first semiconductor switch 6 and the second semiconductor switch 7 simultaneously to recharge the capacitor 4; meanwhile, calculate generated power of a PV module 1, using a predetermined formula based on a voltage measured by a voltage sensor 5; and scan the voltage to determine and store, as a new maximum power point voltage, a voltage at a point where the generated power being calculated is maximum; and perform step-down DC/DC conversion on the PV module 1, so as to control each PV module so that the voltage of the PV module reaches the maximum power point. A number of PV modules are connected with each other in series to form a string, and connected to a system through voltage-type DC/AC inverse conversion after step-up DC/DC conversion of current thereof or directly through current-type inverse conversion.SELECTED DRAWING: Figure 1
【課題】モジュール毎にMPPT制御を可能とする接続装置、PVモジュール及び太陽光発電システムを提供する。【解決手段】第1の半導体スイッチ6と第2の半導体スイッチ7を同時にオンして一旦コンデンサ4の電圧をゼロにした直後、第1の半導体スイッチ6と第2の半導体スイッチ7を同時にオフしてコンデンサ4を再充電しつつ、電圧センサ5にて計測した電圧に基づいて所定の計算式によりPVモジュール1の発電電力を算出し、算出した発電電力が最大となる点の電圧をスキャンして新たな最大電力点電圧)として記憶し、PVモジュール1に降圧型DC/DC変換する接続装置10によって、各PVモジュールが最大電力点の電圧になるように制御して、多数直列接続してストリングとなし、その電流を昇圧型DC/DC変換した後に電圧型DC/AC逆変換若しくは直接に電流型逆変換により系統に連系する。【選択図】図1 |
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| AbstractList | To provide a connection device, a PV module, and a photovoltaic power generation system that enable Maximum Power Point Tracking (MPPT) control for each module.SOLUTION: Each of connection devices 10 is configured to: turn on a first semiconductor switch 6 and a second semiconductor switch 7 simultaneously to set a voltage of a capacitor 4 to zero; immediately after that, turn off the first semiconductor switch 6 and the second semiconductor switch 7 simultaneously to recharge the capacitor 4; meanwhile, calculate generated power of a PV module 1, using a predetermined formula based on a voltage measured by a voltage sensor 5; and scan the voltage to determine and store, as a new maximum power point voltage, a voltage at a point where the generated power being calculated is maximum; and perform step-down DC/DC conversion on the PV module 1, so as to control each PV module so that the voltage of the PV module reaches the maximum power point. A number of PV modules are connected with each other in series to form a string, and connected to a system through voltage-type DC/AC inverse conversion after step-up DC/DC conversion of current thereof or directly through current-type inverse conversion.SELECTED DRAWING: Figure 1
【課題】モジュール毎にMPPT制御を可能とする接続装置、PVモジュール及び太陽光発電システムを提供する。【解決手段】第1の半導体スイッチ6と第2の半導体スイッチ7を同時にオンして一旦コンデンサ4の電圧をゼロにした直後、第1の半導体スイッチ6と第2の半導体スイッチ7を同時にオフしてコンデンサ4を再充電しつつ、電圧センサ5にて計測した電圧に基づいて所定の計算式によりPVモジュール1の発電電力を算出し、算出した発電電力が最大となる点の電圧をスキャンして新たな最大電力点電圧)として記憶し、PVモジュール1に降圧型DC/DC変換する接続装置10によって、各PVモジュールが最大電力点の電圧になるように制御して、多数直列接続してストリングとなし、その電流を昇圧型DC/DC変換した後に電圧型DC/AC逆変換若しくは直接に電流型逆変換により系統に連系する。【選択図】図1 |
| Author | SHIMADA RYUICHI |
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| Snippet | To provide a connection device, a PV module, and a photovoltaic power generation system that enable Maximum Power Point Tracking (MPPT) control for each... |
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| SubjectTerms | CONTROLLING PHYSICS REGULATING SYSTEMS FOR REGULATING ELECTRIC OR MAGNETIC VARIABLES |
| Title | PHOTO VOLTAIC POWER GENERATION SYSTEM |
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