Hybrid solar power generation system

What is claimed is: 1. A hybrid solar power generation system, the power generation system comprising: at least one solar panel ( 10 ); at least one first switch ( 20 ) electrically connected to the solar panel ( 10 ); a rectifying control unit ( 30 ) electrically connected to the first switch ( 20 ); at least one rechargeable battery ( 40 ) electrically connected to the first switch ( 20 ); a DC to AC inverter ( 50 ) electrically connected to the rectifying control unit ( 30 ); at least one second switch ( 60 ) electrically connected to the DC to AC inverter ( 50 ), a utility grid (UG) and an AC load (AL); a DC to DC charging unit ( 70 ) parallelly connected to the solar panel ( 10 ), the rechargeable battery ( 40 ) is charged by the DC to DC charging unit ( 70 ); and a system control unit ( 80 ), the system control unit ( 80 ) controls the first switch ( 20 ), the rectifying control unit ( 30 ), the DC to AC inverter ( 50 ), the second switch ( 60 ) and the DC to DC charging unit ( 70 ); wherein the system control unit ( 80 ) controls the first switch ( 20 ) and the second switch ( 60 ) to form either a grid-tied path (PU) or a first standalone path (P 1 ), the solar panel ( 10 ) supplies power to the utility grid (UG) by the grid-tied path (PU) or to the AC load (AL) by the first standalone path (P 1 ), wherein an Aux power (Auxiliary power) unit ( 81 ) is parallel connected to the solar panel ( 10 ) and the rechargeable battery ( 40 ); at least one unidirectional diode ( 84 ) is disposed between the rechargeable battery ( 40 ) and the Aux power unit ( 81 ), therefore the rechargeable battery ( 40 ) and the Aux power unit ( 81 ) conducts current only in one direction; when the solar panel ( 10 ) is generating power, the Aux power unit ( 81 ) transforms the power which is generated from the solar panel ( 10 ), therefore the Aux power unit ( 81 ) supplies power to the system control unit ( 80 ); when the solar panel ( 10 ) is not generating power, the Aux power unit ( 81 ) transforms the partial power of the rechargeable battery ( 40 ), therefore the Aux power unit ( 81 ) supplies power to the system control unit ( 80 ). 2. The hybrid solar power generation system of claim 1 , wherein the first switch ( 20 ) has a first contact ( 21 ), a second contact ( 22 ) and a third contact ( 23 ); the first contact ( 21 ) is electrically connected to the solar panel ( 10 ), the second contact ( 22 ) is electrically connected to the rectifying control unit ( 30 ), the third contact ( 23 ) is electrically connected to the rechargeable battery ( 40 ); the second switch ( 60 ) has a fourth contact ( 64 ), a fifth contact ( 65 ) and a sixth contact ( 66 ); the fourth contact ( 64 ) is electrically connected to the DC to AC inverter ( 50 ), the fifth contact ( 65 ) is electrically connected to the utility grid (UG), the sixth contact ( 66 ) is electrically connected to the AC load (AL). 3. The hybrid solar power generation system of claim 2 , wherein the grid-tied path (PU) is beginning from the solar panel ( 10 ), and then through the first contact ( 21 ), the second contact ( 22 ) which is connected to the first contact ( 21 ), the rectifying control unit ( 30 ), the DC to AC inverter ( 50 ), the fourth contact ( 64 ), and the fifth contact ( 65 ) which is connected to the fourth contact ( 64 ); the first standalone path (P 1 ) is beginning from the solar panel ( 10 ), and then through the DC to DC charging unit ( 70 ), the rechargeable battery ( 40 ), the third contact ( 23 ), the second contact ( 22 ) which is connected to the third contact ( 23 ), the rectifying control unit ( 30 ), the DC to AC inverter ( 50 ), the fourth contact ( 64 ), and the sixth contact ( 66 ) which is connected to the fourth contact ( 64 ). 4. The hybrid solar power generation system of claim 2 , wherein the system control unit ( 80 ) controls a second standalone path (P 2 ) which is formed by the first switch ( 20 ) and the second switch ( 60 ); the rechargeable battery ( 40 ) supplies power to the AC load (AL) by the second standalone path (P 2 ); the second standalone path (P 2 ) is beginning from the rechargeable battery ( 40 ), and then through the third contact ( 23 ), the second contact ( 22 ) which is connected to the third contact ( 23 ), the rectifying control unit ( 30 ), the DC to AC inverter ( 50 ), the fourth contact ( 64 ), and the sixth contact ( 66 ) which is connected to the fourth contact ( 64 ). 5. The hybrid solar power generation system of claim 2 , wherein the system control unit ( 80 ) is selected from a DSP (Digital Signal Processor) or a MCU (Microcontroller Unit), the rectifying control unit ( 30 ) has a MPPT (Maximum Power Point Tracking) controller ( 31 ) and a rectifying circuit ( 32 ); the MPPT controller ( 31 ) is electrically connected to the second contact ( 22 ), the rectifying circuit ( 32 ) is electrically connected to the DC to AC inverter ( 50 ); a V-bus (bus voltage) terminal ( 35 ) is located between the rectifying control unit ( 30 ) and the DC to AC inverter ( 50 ), the V-bus terminal ( 35 ) is electrically connected to an electric capacitor ( 36 ). 6. The hybrid solar power generation system of claim 1 , wherein the Aux power unit ( 81 ) electrically connects at least one USB (Universal Serial Bus) port ( 83 ); a communication unit ( 85 ) is disposed between the system control unit ( 80 ) and the USB port ( 83 ), therefore the USB port ( 83 ) supplies power to charge an external device. 7. A hybrid solar power generation system, the power generation system comprising: at least one solar panel ( 10 ); at least one first switch ( 20 ) electrically connected to the solar panel ( 10 ); a rectifying control unit ( 30 ) electrically connected to the first switch ( 20 ); at least one rechargeable battery ( 40 ) electrically connected to the first switch ( 20 ); a DC to AC inverter ( 50 ) electrically connected to the rectifying control unit ( 30 ); at least one second switch ( 60 ) electrically connected to the DC to AC inverter ( 50 ), a utility grid (UG) and an AC load (AL); a DC to DC charging unit ( 70 ) parallelly connected to the solar panel ( 10 ), the rechargeable battery ( 40 ) is charged by the DC to DC charging unit ( 70 ); and a system control unit ( 80 ), the system control unit ( 80 ) controls the first switch ( 20 ), the rectifying control unit ( 30 ), the DC to AC inverter ( 50 ), the second switch ( 60 ) and the DC to DC charging unit ( 70 ); an Aux power unit ( 81 ) parallelly connected to the solar panel ( 10 ) and the rechargeable battery ( 40 ); at least one third switch ( 88 ), the third switch ( 88 ) is disposed between the rechargeable battery ( 40 ) and the Aux power unit ( 81 ); wherein the Aux power unit ( 81 ) transforms power from at least one of the rechargeable battery ( 40 ) and the solar panel ( 10 ) and supplies the power transformed by the Aux power unit ( 81 ) to the system control unit ( 80 ), the third switch ( 88 ) switches the connection of the rechargeable battery ( 40 ) and the Aux power unit ( 81 ), the system control unit ( 80 ) controls the first switch ( 20 ), the second switch ( 60 ) and the third switch ( 88 ) to form one of a grid-tied path (PU), a first standalone path (P 1 ) or a second standalone path (P 2 ), and the solar panel ( 10 ) supplies power either to the utility grid (UG) by the grid-tied path (PU) or to the AC load (AL) by the first standalone path (P 1 ). 8. The hybrid solar power generation system of claim 7 , wherein the first switch ( 20 ) has a first contact ( 21 ), a second contact ( 22 ) and a third contact ( 23 ); the first contact ( 21 ) is electrically connected to the solar panel ( 10 ), the second contact ( 22 ) is electrically connected to the rectifying control unit ( 30 )