Power converting apparatus, control device, and method for controlling power converting apparatus

What is claimed is: 1. A power converting apparatus for converting electric power between a power source and a load, comprising: a power converter configured to output a voltage to the load; and a controller configured to output a PWM signal which is generated in response to a voltage command to the power converter, wherein the power converter includes a plurality of switching elements driven based on the PWM signal, wherein the controller is configured to generate the PWM signal such that a first period during which a zero voltage is outputted and a second period during which a non-zero voltage is outputted are adjusted according to the voltage command, wherein the controller is configured to output the PWM signal which is set such that one first period and one or more second periods exist within an updating cycle of the voltage command, to the power converter, wherein the controller includes a PWM signal generator configured to generate the PWM signal, wherein the PWM signal generator is configured to alternately output the PWM signal having a first pattern and the PWM signal having a second pattern to the power converter, the first pattern being set such that one first period and one second period exist within the updating cycle and the first period is followed by the second period, the second pattern being set such that one first period and one second period exist within the updating cycle and the second period is followed by the first period, wherein the controller is configured to be operable in any one of a first mode and a second mode, wherein, in the first mode, the PWM signal generator repeatedly outputs, for each updating cycle of the voltage command, a PWM signal having a third pattern to the power converter, the third pattern being set to sequentially cause the first period, the second period, and the first period in that order, wherein, in the second mode, the PWM signal generator alternately outputs, for each updating cycle of the voltage command, the PWM signal having the first pattern and the PWM signal having the second pattern to the power converter, and wherein the PWM signal generator includes a mode switcher configured to switch the first mode and the second mode based on a preset condition. 2. The power converting apparatus of claim 1 , wherein the voltage outputted by the power converter is an AC voltage having one or more phases, wherein the voltage command includes one or more phase voltage commands respectively corresponding to said one or more phases, wherein the controller further includes a command generator configured to generate said one or more phase voltage commands, and wherein the PWM signal generator includes: a carrier signal generator configured to generate a carrier signal; a comparator configured to compare each phase voltage command with the carrier signal and generate the PWM signal for each phase based on a result thereof; and a shifter configured to relatively shift said phase voltage commands which are to be compared by the comparator, said phase voltage commends being relatively shifted with respect to the carrier signal generated from the carrier signal generator, based on one of a peak value and a bottom value of the carrier signal. 3. The power converting apparatus of claim 2 , wherein the shifter is configured to shift the phase voltage commands such that a greatest one among the phase voltage commands becomes a peak value of the carrier signal or such that a smallest one among the phase voltage commands becomes a bottom value of the carrier signal. 4. The power converting apparatus of claim 3 , wherein the power converter is configured as a multilevel output, wherein the command generator is configured to generate a first phase voltage command and a second phase voltage command with respect to each of the phases and output a plurality of first phase voltage commands and a plurality of second phase voltage commands, and wherein the shifter is configured to shift the first phase voltage commands such that the greatest one among the first phase voltage commands becomes the peak value of the carrier signal and shift the second phase voltage commands such that the smallest one among the second phase voltage commands becomes the bottom value of the carrier signal. 5. The power converting apparatus of claim 1 , wherein the power converter is configured to selectively output one of the zero voltage and the non-zero voltage to the load. 6. The power converting apparatus of claim 1 , wherein the controller is configured to output, for each updating cycle of the voltage command, the PWM signal which causes said one first period and said one or more second periods which are combined within said each updating cycle of the voltage command. 7. A control device for controlling the power converter of claim 1 , comprising: a command generator configured to generate the voltage command; and a signal generator configured to generate the PWM signal such that the first period and the second period are adjusted according to the voltage command, and output the PWM signal to the power converter, wherein the signal generator is configured to output the PWM signal which is set such that one first period and one or more second periods exist within the updating cycle of the voltage command, to the power converter. 8. A method for controlling the power converting apparatus of claim 1 , comprising: a command generating process for generating the voltage command; and a signal generating process for generating the PWM signal such that the first period and the second period during which a non-zero voltage is outputted are adjusted according to the voltage command, and outputting the PWM signal to the power converter, wherein the signal generating process includes outputting the PWM signal which is set such that one first period and one or more second periods exist within the updating cycle of the voltage command. 9. The method of claim 8 , wherein, in the signal generating process, the PWM signal is outputted for each updating cycle of the voltage command, the PWM signal being set to cause said one first period and said one or more second periods which are combined within said each updating cycle. 10. The power converting apparatus of claim 1 , wherein the controller further includes a command generator configured to generate the voltage command, and wherein the PWM signal generator includes: a selector configured to select a combination of two or more zero voltage vectors and one or more non-zero voltage vectors from a plurality of voltage vectors based on the voltage command; a calculator configured to calculate output periods of the voltage vectors selected by the selector; a changer configured to change the output periods of said two or more zero voltage vectors such that the output periods of said two or more zero voltage vectors among the output periods calculated by the calculator are replaced by an output period of one zero voltage vector corresponding to a total sum of the output periods of said two or more zero voltage vectors; and a generator configured to generate the PWM signal which is set such that the output period of said one zero voltage vector is used as said one first period and the output periods of said one or more non-zero voltage vectors are used as said one or more second periods. 11. A power converting apparatus for converting electric power between a power source and a load, comprising: a power converter configured to output a voltage to the load; and a controller configured to output a PWM signal which is generated in response to a voltage command to the power converter, wherein the power converter includes a p