Power amplifier and power amplification method

What is claimed is: 1 . A power amplifier comprising a Doherty amplifier, the Doherty amplifier comprising a carrier amplifier unit and a peak amplifier unit and amplifying an input signal, wherein one of or both the carrier amplifier unit and the peak amplifier unit comprises: a plurality of dividing units, signals propagating between first input ports and second output ports and between second input ports and first output ports of the respective plurality of dividing units having phases shifted by 90° from phases of signals propagating between the first input ports and the first output ports and between the second input ports and the second output ports of the respective plurality of dividing units; a plurality of amplifiers that receive signals that have been obtained by dividing the input signal, amplify the divided input signals that are in phase, and output the amplified input signals respectively to the first input ports of the plurality of dividing units; a combining unit that outputs a combined signal, the combined signal being obtained by combining a signal input to a third input port and a signal input to a fourth input port; a first combining and dividing unit that outputs a first combined signal to the third input port of the combining unit, the first combined signal being obtained by combining signals from the first output ports of the respective plurality of dividing units; a second combining and dividing unit that outputs a second combined signal to the fourth input port of the combining unit, the second combined signal being obtained by combining signals from the second output ports of the respective plurality of dividing units; and a plurality of transmission lines that connect the plurality of amplifiers respectively to the first and second combining and dividing units by the same line length. 2 . The power amplifier according to claim 1 , wherein the dividing unit is a 3 dB 90° hybrid coupler including two inputs and two outputs. 3 . The power amplifier according to claim 1 , wherein a resistor is connected between the second input port of the dividing unit and a ground voltage. 4 . The power amplifier according to claim 1 , wherein the input signal is equally divided, and equally divided input signals are input respectively to the plurality of amplifiers. 5 . The power amplifier according to claim 1 , wherein the first combining and dividing unit divides a first reflected signal from an output of the combining unit and outputs divided first reflected signals respectively to the first output ports of the plurality of dividing units, and the second combining and dividing unit divides a second reflected signal from the output of the combining unit and outputs divided second reflected signals respectively to the second output ports of the plurality of dividing units. 6 . The power amplifier according to claim 5 , wherein in the combining unit, phases of signals propagating between the third input port and a fourth output port and between the fourth input port and a third output port are shifted by 90° from phases of signals propagating between the third input port and the third output port and between the fourth input port and the fourth output port. 7 . The power amplifier according to claim 6 , wherein the combining unit is a 3 dB 90° hybrid coupler having two inputs and two outputs. 8 . The power amplifier according to claim 5 , wherein the first combining and dividing unit equally divides the first reflected signal and outputs equally divided first reflected signals respectively to the first output ports of the plurality of dividing units, and the second combining and dividing unit equally divides the second reflected signal and outputs equally divided second reflected signals respectively to the second output ports of the plurality of dividing units. 9 . The power amplifier according to claim 1 , wherein the plurality of transmission lines each has a line length of a ¼ waveform of a signal to be transmitted therethrough. 10 . The power amplifier according to claim 1 , wherein the plurality of the amplifiers have the same gain. 11 . The power amplifier according to claim 1 , further comprising: an impedance converter that is provided between one outputs of the carrier amplifier unit and the peak amplifier unit and an output terminal; and a first transmission line that is provided between other outputs of the carrier amplifier unit and the peak amplifier unit and the impedance converter and has a line length of a ¼ wavelength of a signal to be transmitted therethrough, wherein the input signal having a phase shifted by 90° is input to one of the carrier amplifier unit and the peak amplifier unit, an output of which is not connected to the first transmission line. 12 . A power amplification method comprising steps of: inputting an input signal to a Doherty amplifier, the Doherty amplifier comprising a carrier amplifier and a peak amplifier; in one of or both the carrier amplifier and the peak amplifier, dividing the input signal and inputting divided input signals respectively to the plurality of amplifiers; combining, by a first combining and dividing unit, signals respectively from the first output ports of the plurality of dividing units, and outputting a first combined signal to a third input port of the combining unit from the first combining d and dividing unit; and combining, by a second combining and dividing unit, signals respectively from the second output ports of the plurality of dividing units, and outputting a second combined signal to a fourth input port of the combining unit from the second combining d and dividing unit, wherein signals are input respectively from the plurality of amplifiers via a plurality of transmission lines having the same line length to the first and second combining and dividing units.