Power conversion system suppressing reduction in conversion efficiency

What is claimed is: 1. A power conversion system comprising: a DC-DC converter electrically connected to an electrical load and a power storage apparatus, the power storage apparatus supplying power to the electrical load, the DC-DC converter converting a voltage of a DC power supplied to the DC-DC converter with a conversion efficiency and outputting power to the electrical load and the power storage apparatus; a voltage detector that detects an output voltage of the power storage apparatus as a voltage detection value; a current detector that detects an output current of the DC-DC converter as a current detection value; and a controller that controls the DC-DC converter such that the DC-DC converter starts outputting the power when the voltage detection value detected by the voltage detector is below a predetermined voltage and stops outputting the power when the current detection value detected by the current detector is below a reference current that corresponds to the conversion efficiency being larger than or equal to a predetermined conversion efficiency, wherein the reference current is determined as a current value at which the conversion efficiency is decreased to be lower than the predetermined conversion efficiency when the output current exceeds the current value in response to an increase in the output current and the controller includes a limiting means configured to limit the output current not to exceed the reference current while the DC-DC converter is outputting the power. 2. The power conversion system according to claim 1 , wherein the controller sets a command value that enables an increase in the output current to exceed the reference current when the DC-DC converter starts outputting the power, as an initial command value; and the limiting means is configured to start to limit the output current when the output current increases in response to the power outputted by the DC-DC converter based on the initial command value. 3. The power conversion system according to claim 1 , wherein the reference current has a range specified by an upper limit value and a lower limit value; the controller stops an output of the DC-DC converter when the current detection value is lower than the lower limit value of the reference current; and the limiting means is configured to limit, after the DC-DC converter starts outputting the power, the output current of the DC-DC converter to be the upper limit value of the reference current when the current detection value reaches the upper limit value of the reference current. 4. The power conversion system according to claim 2 , wherein the reference current has a range specified by an upper limit value and a lower limit value; the controller stops an output of the DC-DC converter when the current detection value is lower than the lower limit value of the reference current; and the limiting means is configured to limit, after the DC-DC converter starts outputting the power, the output current of the DC-DC converter to be the upper limit value of the reference current when the current detection value reaches the upper limit value of the reference current. 5. The power conversion system according to claim 1 , wherein the controller includes a variable setting unit that sets the reference current to be variable. 6. The power conversion system according to claim 2 , wherein the controller includes a variable setting unit that sets the reference current to be variable. 7. The power conversion system according to claim 3 , wherein the controller includes a variable setting unit that sets the reference current to be variable. 8. The power conversion system according to claim 1 , wherein the controller changes, based on a current required by the electrical load, an operation mode of the DC-DC converter between a limiting mode that limits the output current and a disabled-limiting mode that disables limiting the output current. 9. The power conversion system according to claim 2 , wherein the controller changes, based on a current required by the electrical load, an operation mode of the DC-DC converter between a limiting mode that limits the output current and a disabled-limiting mode that disables limiting the output current. 10. The power conversion system according to claim 3 , wherein the controller changes, based on a current required by the electrical load, an operation mode of the DC-DC converter between a limiting mode that limits the output current and a disabled-limiting mode that disables limiting the output current. 11. The power conversion system according to claim 4 , wherein the controller changes, based on a current required by the electrical load, an operation mode of the DC-DC converter between a limiting mode that limits the output current and a disabled-limiting mode that disables limiting the output current. 12. The power conversion system according to claim 1 , wherein the power conversion system includes a main battery and a sub battery as a storage power apparatus, the power conversion system being adapted to a plug-in hybrid vehicle; and the limiting means is configured to limit the output current under a condition that the plug-in hybrid vehicle is plug-in charging and power is supplied from the sub battery to the electrical load to perform the plug-in charging.