Power control apparatus, power supply system, and method for controlling power supply system

The invention claimed is: 1. A power control apparatus for controlling connection between a storage battery and a power generation apparatus generating DC power, the power control apparatus comprising: an inverter; a first power converter between a storage battery and the inverter; a second power converter between a power generation apparatus and the inverter; a switch on a side of the first power converter that is opposite the storage battery, wherein the switch is configured to switch between a first electrical path which connects to a first side of the second power converter between the second power converter and the inverter, such that the power generation apparatus is connected to the storage battery via both the first power converter and the second power converter, and a second electrical path which connects to a second side of the second power converter between the power generation apparatus and the second power converter, such that the power generation apparatus is connected to the storage battery via the first power converter but not the second power converter; and a controller configured to, when surplus power is generated from the power generation apparatus, control the switch to select the second electrical path and charge the storage battery with the surplus power. 2. The power control apparatus of claim 1 , wherein the controller discharges the storage battery by controlling the switch to select the first electrical path when voltage of the storage battery is equal to or greater than a threshold and select the second electrical path when voltage of the storage battery falls below the threshold. 3. The power control apparatus of claim 2 , wherein the controller performs control so that a first output voltage from the first power converter when selecting the first electrical path and a second output voltage from the first power converter when selecting the second electrical path differ. 4. The power control apparatus of claim 3 , wherein when selecting the second electrical path, the controller controls a step-up ratio of the first power converter so that a third output voltage from the power generation apparatus and the second output voltage match. 5. The power control apparatus of claim 1 , wherein the controller calculates an expected time taken to charge the storage battery based on an interval of constant power of the storage battery and charges the storage battery with the surplus power when the expected time is within a preset length of time. 6. The power control apparatus of claim 1 , further comprising the storage battery, and the power generation apparatus, wherein the power generation apparatus generating DC power. 7. The power supply system of claim 6 , wherein the controller calculates an expected time taken to charge the storage battery based on an interval of constant power of the storage battery and charges the storage battery with the surplus power when the expected time is within a preset length of time. 8. A power supply system comprising a storage battery, a power generation apparatus generating DC power, and a power control apparatus configured to control connection between the storage battery and the power generation apparatus; wherein the power control apparatus comprises a controller configured to select between a first electrical path in which the storage battery is connected to an inverter via a first power converter and the power generation apparatus is connected to the inverter via a second power converter, and a second electrical path in which the power generation apparatus is connected to the inverter via the second power converter and the storage battery is connected to an intermediate point between the power generation apparatus and the second power converter via the first power converter; and when surplus power is generated from the power generation apparatus, the controller selects the second electrical path and charges the storage battery with the surplus power, wherein the controller lengthens an interval of constant power of the storage battery by adjusting generated power of the power generation apparatus to reduce the surplus power. 9. A method for controlling a power supply system, the power supply system comprising a storage battery, a power generation apparatus generating DC power, an inverter, a first power converter between the storage battery and the inverter, a second power converter between the power generation apparatus and the inverter, a switch on a side of the first power converter that is opposite the storage battery, wherein the switch is configured to switch between a first electrical path which connects to a first side of the second power converter between the second power converter and the inverter, such that the power generation apparatus is connected to the storage battery via both the first power converter and the second power converter, and a second electrical path which connects to a second side of the second power converter between the power generation apparatus and the second power converter, such that the power generation apparatus is connected to the storage battery via the first power converter but not the second power converter, the method comprising, by a controller, when surplus power is generated from the power generation apparatus: controlling the switch to select the second electrical path; and charging the storage battery with the surplus power. 10. The method for controlling a power supply system of claim 9 , further comprising: calculating an expected time taken to charge the storage battery based on an interval of constant power of the storage battery; wherein in the charging, the storage battery is charged with the surplus power when the expected time is within a preset length of time. 11. A method for controlling a power supply system, the power supply system comprising a storage battery, a power generation apparatus generating DC power, and a power control apparatus configured to control connection between the storage battery and the power generation apparatus, the power control apparatus being configured to select between a first electrical path in which the storage battery is connected to an inverter via a first power converter and the power generation apparatus is connected to the inverter via a second power converter, and a second electrical path in which the power generation apparatus is connected to the inverter via the second power converter and the storage battery is connected to an intermediate point between the power generation apparatus and the second power converter via the first power converter, the method comprising: selecting the second electrical path when surplus power is generated from the power generation apparatus; charging the storage battery with the surplus power; and lengthening an interval of constant power of the storage battery by adjusting generated power of the power generation apparatus to reduce the surplus power.