Amplifying device

What is claimed is: 1 . An amplifying device comprising: a signal splitter configured to split an input signal to a plurality of signals having a phase difference between the plurality of signals fluctuating in accordance with an absolute value of an amplitude of the input signal; a plurality of amplifiers configured to amplify the plurality of signals respectively; a combiner configured to combine a plurality of signals amplified by the plurality of amplifiers to generate an output signal; a selector configured to select one of the output signal whose phase is inverted and the output signal whose phase is non-inverted; and a switch controller configured to control the signal splitter so that phases of the plurality of signals are non-inverted, and to control the selector so that the selector selects one of the output signal whose phase is inverted and the output signal whose phase is non-inverted, in accordance with a first point of time when the absolute value of the amplitude of the input signal becomes a minimum or a second point of time deviated from the first point of time by a predetermined time period. 2 . The amplifying device according to claim 1 , wherein the selector includes a first path including a phase shifter configured to shift a phase of the output signal generated by the combiner by 180×(2n−1) degrees to invert a phase of the output signal, wherein “n” is a positive integer, a second path configured to be arranged in parallel to the first path, the second path not having the phase shifter, and a switch configured to switch a connection destination of the combiner to the first path or the second path. 3 . The amplifying device according to claim 2 , wherein the first path further includes first and second transmission lines whose line lengths are λ/4 and that are connected in series to an input end and an output end, respectively, of the phase shifter, wherein “λ” is a wavelength of the input signal, wherein the second path includes third and fourth transmission lines whose line lengths are λ/4 and that are connected in series to each other, wherein the switch includes a first switch configured to switch between a connection and no connection between a ground and a connection portion between the first transmission line and the input end of the phase shifter, a second switch configured to switch between a connection and no connection between a ground and a connection portion between the second transmission line and the output end of the phase shifter, and a third switch configured to switch between a connection and no connection between a ground and a connection portion between the third transmission line and the fourth transmission line, and wherein the switch controller sets the first switch and the second switch to no connections and sets the third switch to a connection so as to switch the connection destination of the combiner to the first path, and sets the first switch and the second switch to connections and sets the third switch to no connection so as to switch the connection destination of the combiner to the second path. 4 . The amplifying device according to claim 2 , wherein the phase shifter is a transmission line whose line length is λ/2×(2n−1), wherein “λ” is a wavelength of the input signal. 5 . The amplifying device according to claim 1 , wherein the selector includes a circulator configured to include a first port connected to the combiner, a second port, and a third port, the circulator outputting the output signal input to the first port to the second port, and outputting a signal input to the second port to the third port, a transmission line whose line length is λ/4, connected to the second port, wherein “λ” is a wavelength of the input signal, and a switch connected to the transmission line and a ground, and configured to switch a connection and no connection between the transmission line and the ground, wherein, when the switch is controlled to switch to the no connection between the transmission line and the ground, the output signal output from the second port and reflected by a connection portion between the transmission line and the switch is input to the second port, a phase of the output signal reflected by the connection portion between the transmission line and the switch being inverted, and wherein, when the switch is controlled to switch to the connection between the transmission line and the ground, the output signal output from the second port and reflected by a connection portion between the transmission line and the second port is input to the second port, a phase of the output signal reflected by the connection portion between the transmission line and the second port being not inverted.