Power conditioner

What is claimed: 1. A power conditioner that interconnects with a power system that includes a single-phase three-wire system having first, second and third electric wires, the power conditioner comprising: a power converter configured to convert power received from a power generation apparatus to direct-current power; an inverter configured to convert the direct-current power into alternating-current power that is output to the power system; and a control unit configured to generate an error signal that indicates a mounting error of at least one of a first current sensor for detecting a current value of the first electric wire and a second current sensor for detecting a current value of the second electric wire, wherein the control unit generates the error signal based on the respective current values detected by the first and second current sensors, and wherein, when the direct-current power output from the inverter varies by or more than a first threshold value during a first predetermined time period, the control unit outputs the error signal if at least one of the detected current values detected by the first and second current sensors, respectively, does not vary with a variation of the direct-current power output from the inverter during a second predetermined time period. 2. The power conditioner according to claim 1 , wherein the third electric wire of the single-phase three-wire system is a neutral line. 3. The power conditioner according to claim 1 , wherein the second predetermined time period is longer than the first predetermined time period. 4. The power conditioner according to claim 1 , wherein, during non-operation of the inverter, the control unit is configured to output the error signal based on a measured first system power based on the current value detected by the first current sensor and to output the error signal based on a measured second system power based on the current value detected by the second current sensor. 5. The power conditioner according to claim 4 , wherein, during the non-operation of the inverter, the control unit is configured to output the error signal if one of the measured first and second system powers is greater than or equal to zero and the other of the measured first and second system powers is less than zero. 6. The power conditioner according to claim 4 , wherein, during the non-operation of the inverter, when the measured first and second system powers are both greater than or equal to zero or are both less than zero and the output from the inverter varies by or more than the first threshold value during the first predetermined time period, the control unit outputs the error signal if at least one of the measured first and second system powers does not vary with the variation of the direct-current power output from the inverter during the second predetermined time. 7. The power conditioner according to claim 1 , wherein the control unit is configured to output the error signal if at least one calculated power values based on at least one of the detected current values detected by the first and second current sensors, respectively, varies less than a second threshold during the second predetermined time period. 8. The power conditioner according to claim 7 , wherein the second threshold is less than the first threshold. 9. A power conditioner that interconnects with a power system that includes a single-phase three-wire system having first, second and third electric wires, the power conditioner comprising: a power converter configured to convert power received from a power generation apparatus to direct-current power; an inverter configured to convert the direct-current power into alternating-current power that is output to the power system; and a control unit configured to generate at least one mounting error of at least one of a first current sensor for detecting a current value of the first electric wire and a second current sensor for detecting a current value of the second electric wire, wherein the control unit calculates a first system power based on the current value detected by the first current sensor and a voltage between the first and third electric wires, wherein the control unit calculates a second system power based on the current value detected by the second current sensor and a voltage between the second and third electric wires, wherein the control unit generates the at least one mounting error when at least one of the calculated first and second system powers is less than zero, with the generated at least one mounting error indicating at least one of the first and second current sensors is mounted incorrectly to the single-phase three-wire system. 10. The power conditioner according to claim 9 , wherein the control unit generates a first mounting error of the at least one mounting error when the calculated first system power is less than zero and the calculated second system power is greater than or equal to zero, with the first mounting error indicating that the first current sensor is mounted incorrectly to the single-phase three-wire system. 11. The power conditioner according to claim 9 , wherein the control unit generates a second mounting error of the at least one mounting error when the calculated first system power is greater than or equal to zero and the calculated second system power is less than to zero, with the second mounting error indicating that the second current sensor is mounted incorrectly to the single-phase three-wire system. 12. The power conditioner according to claim 9 , wherein the control unit generates a third mounting error of the at least one mounting error when both the calculated first and second system powers are less than zero, with the third mounting error indicating that the first and second current sensors are mounted incorrectly to the single-phase three-wire system. 13. A method for detecting a mounting of first and second current sensors for a power conditioner interconnected with a power system that includes a single-phase three-wire system having first, second and third electric wires, the method comprising: converting, by a power converter, power received from a power generation apparatus to direct-current power; converting, by an inverter, the direct-current power into alternating-current power that is output to the power system; generating, by a control unit, an error signal that indicates a mounting error of at least one of the first current sensor for detecting a current value of the first electric wire and the second current sensor for detecting a current value of the second electric wire; generating, by the control unit, the error signal based on respective power values calculated from the current values detected by the first and second current sensors; and when the direct-current power output from the inverter varies by or more than a first threshold value during a first predetermined time period, outputting, by the control unit, the error signal if at least one of the calculated power values does not vary with a variation of the direct-current power output from the inverter during a second predetermined time period. 14. The method according to claim 13 , wherein the third electric wire of the single-phase three-wire system is a neutral line. 15. The method according to claim 13 , wherein the second predetermined time period is longer than the first predetermined time period. 16. The method according to claim 13 , further comprising, during non-operation of the inverter, outputting, by the control unit, the error signal based on a measured first system power based on the cur