Solar energy utilization system

The invention claimed is: 1. A solar energy utilization system comprising: a solar panel that outputs electric power output which varies depending at least on sunlight conditions, the electric power output having a corresponding output voltage; a motor driven by the electric power output from the solar panel; a motor drive circuit operatively coupled to the solar panel and the motor and configured as an inverter that receives the electric power output from the solar panel and supplies a driving voltage to the motor; a solar voltage monitor that monitors the output voltage from the electric power output; and a controller operatively coupled to the motor drive circuit and the solar voltage monitor, wherein the controller monitors the output voltage from the solar panel that is received by the motor drive circuit and monitors the driving voltage supplied by the motor drive circuit; wherein the controller detects if the monitored output voltage of the electric power output is equal to or greater than a maximum power point voltage, wherein the maximum power point voltage is an output voltage at which the electric power output reaches a peak value, wherein when the controller detects that the monitored output voltage of the electric power output is equal to or greater than the maximum power point voltage, the controller operates a control mode in which the motor drive circuit is controlled such that the driving voltage to the motor is maintained at a voltage higher than the maximum power point voltage, and wherein in the control mode, the controller controls a rotation speed of the motor such that the rotation speed of the motor is changed repeatedly at predetermined timings. 2. The solar energy utilization system according to claim 1 , wherein the motor is an inverter control motor, and the motor drive circuit is an inverter circuit, and a DC-DC converter is disposed between the inverter circuit and the solar panel. 3. The solar energy utilization system according to claim 2 , wherein the DC-DC converter includes a primary side switch, a transformer, and a secondary side rectifier including a MOSFET, and wherein in the control mode, the primary side switch performs switching with a substantially fixed duty, and the secondary side rectifier performs synchronous rectification in a complementary manner with the primary side switch. 4. The solar energy utilization system according to claim 3 , wherein the transformer includes a tertiary winding, and the controller receives driving power supplied from the tertiary winding. 5. The solar energy utilization system according to claim 1 , wherein the control mode is executed by the controller when an input voltage of the inverter circuit is equal to or greater than a predetermined value.