Power conversion apparatus, phase current detection apparatus, and phase current detection method

What is claimed is: 1. A power conversion apparatus, comprising: a power converter comprising circuitry configured to generate a plurality of voltage vectors, detect a DC-side current and convert power between DC power and three-phase AC power; and a controller comprising processing circuitry configured to control the circuitry of the power converter such that an order of outputting a plurality of voltage vectors from the power converter is opposite in a first half and a second half of a carrier period, calculate one phase current among three phase currents based on the DC-side current detected by the circuitry of the power converter at a detection timing, and alternately switch the detection timing between a first-half timing and a second-half timing, wherein the detection timing is selected from the first-half timing and the second-half timing of the carrier period at which a same kind of voltage vector of the plurality of voltage vectors is output. 2. The power conversion apparatus according to claim 1 , wherein the processing circuitry is configured to calculate the one phase current among the three phase currents based on the DC-side current detected by the circuitry of the power converter at the detection timing for every carrier period. 3. The power conversion apparatus according to claim 1 , wherein the processing circuitry is configured to detect the DC-side current detected by the circuitry of the power converter, as a detection value of the one phase current corresponding to a kind of the voltage vector output from the power converter or as a polarity-inverted value of the detection value. 4. The power conversion apparatus according to claim 1 , wherein the processing circuitry is configured to alternately switch the detection timing between the first-half timing and the second-half timing in a period that is n times the carrier period where n is a natural number. 5. The power conversion apparatus according to claim 4 , wherein the processing circuitry is configured to generate a voltage command vector, and stop switching the detection timing, when a region decided based on the voltage command vector is changed, before and after the region is changed, based on a relation between the region before changed and the region after changed. 6. The power conversion apparatus according to claim 5 , wherein the processing circuitry is configured to determine a region held between two kinds of fundamental voltage vectors with a phase difference of 60° having the voltage command vector therebetween, and stop switching the detection timing, when a region determined is changed, before and after the region is changed, based on a relation between the region before changed and the region after changed. 7. The power conversion apparatus according to claim 1 , wherein the processing circuitry is configured to determine a central timing of a period for which the voltage vector is output in the detection timing, and acquire a detection result of the DC-side current detected by the circuitry of the power converter at the central timing determined. 8. The power conversion apparatus according to claim 1 , wherein the processing circuitry is configured to calculate the one phase current among the three phase currents based on the DC-side current detected by the circuitry of the power converter for every carrier period at the detection timing in a first detection, calculate one phase current among the three phase currents, which is different from the phase current detected by the first detection, based on the DC-side current detected by the circuitry of the power converter at a timing corresponding to at least one of peak and valley of a carrier in the carrier period in a second detection, and calculate one phase current among the three phase currents, which is different from the phase currents detected by the first detection and the second detection, based on a detection result of the first detection and a detection result of the second detection in a third detection. 9. The power conversion apparatus according to claim 2 , wherein the processing circuitry is configured to detect the DC-side current detected by the circuitry of the power converter, as a detection value of the one phase current corresponding to a kind of the voltage vector output from the power converter or as a polarity-inverted value of the detection value. 10. The power conversion apparatus according to claim 2 , wherein the processing circuitry is configured to alternately switch the detection timing between the first-half timing and the second-half timing in a period that is n times the carrier period where n is a natural number. 11. The power conversion apparatus according to claim 10 , wherein the processing circuitry is configured to generate a voltage command vector, and stop switching the detection timing, when a region decided based on the voltage command vector is changed, before and after the region is changed, based on a relation between the region before changed and the region after changed. 12. The power conversion apparatus according to claim 11 , wherein the processing circuitry is configured to determine a region held between two kinds of fundamental voltage vectors with a phase difference of 60° having the voltage command vector therebetween, and stop switching the detection timing, when a region determined is changed, before and after the region is changed, based on a relation between the region before changed and the region after changed. 13. The power conversion apparatus according to claim 2 , wherein the processing circuitry is configured to determine a central timing of a period for which the voltage vector is output in the detection timing, and acquire a detection result of the DC-side current detected by the circuitry of the power converter at the central timing determined. 14. The power conversion apparatus according to claim 2 , wherein the processing circuitry is configured to detect the one phase current among the three phase currents based on the DC-side current detected by the circuitry of the power converter for every carrier period at the detection timing in a first detection, detect one phase current among the three phase currents, which is different from the phase current detected by the first detection, based on the DC-side current detected by the circuitry of the power converter at a timing corresponding to at least one of peak and valley of a carrier in the carrier period in a second detection, and detect one phase current among the three phase currents, which is different from the phase currents detected by the first detection and the second detection, based on a detection result of the first detection and a detection result of the second detection in a third detection. 15. A phase current detection apparatus, comprising: processing circuitry configured to control a circuitry of a power converter such that an order of outputting a plurality of voltage vectors from the power converter is opposite in a first half and a second half of a carrier period, calculate one phase current among three phase currents based on a DC-side current detected by the circuitry of the power converter at a detection timing, and alternately switch the detection timing between a first-half timing and a second-half timing, wherein the detection timing is selected from the first-half timing and the second-half timing of the carrier period at which a same kind of voltage vector of the plurality of voltage vectors is output. 16. The phase current detection apparatus according to claim 15 , wherein the processing circuitry is configured to calculate th