Power amplification device

What is claimed is: 1. A power amplification device, comprising: a first amplification branch; a second amplification branch; a harmonic injection circuit coupled to the first amplification branch and the second amplification branch; and a first output matching circuit coupled to the harmonic injection circuit, wherein the first amplification branch comprises a first amplifier supporting a first frequency, wherein the second amplification branch comprises a second amplifier supporting the first frequency and a second frequency, wherein the second amplifier is turned off for an input signal of the first frequency that has a power value lower than an enabling threshold, wherein the second frequency is N times the first frequency, wherein N is an integer greater than 1, wherein the harmonic injection circuit comprises: a first input terminal (I 1 ); a second input terminal (I 2 ); a first output terminal (O 1 ); and a second output terminal (O 2 ), and wherein the first output matching circuit comprises a third input terminal (I 3 ) and a fourth input terminal (I 4 ), wherein an output terminal of the first amplification branch is connected to the I 1 , wherein an output terminal of the second amplification branch is connected to the I 2 , wherein the O 1 is connected to the I 3 , wherein the O 2 is connected to the I 4 , wherein the harmonic injection circuit injects an input signal of the second frequency input from the I 2 to an input signal of the first frequency input from the I 1 to obtain an input signal of the first frequency that has undergone harmonic injection, wherein the O 1 is turned on for the input signal of the first frequency input from the I 1 , wherein the O 2 is turned on for a signal of the first frequency input from the I 2 , wherein the O 1 and the O 2 are open for the input signal of the second frequency, and wherein the first output matching circuit is configured to: combine signals input from the I 3 and the I 4 ; and output a combined signal. 2. The power amplification device according to claim 1 , wherein the first frequency is a fundamental frequency, and wherein the second frequency is an N th order harmonic frequency. 3. The power amplification device according to claim 1 , wherein the harmonic injection circuit comprises: a harmonic injection subcircuit; a first matching subcircuit; and a second matching subcircuit, wherein a first terminal of the harmonic injection subcircuit is separately connected to the I 1 and one terminal of the first matching subcircuit, wherein a second terminal of the harmonic injection subcircuit is separately connected to the I 2 and one terminal of the second matching subcircuit, wherein the harmonic injection subcircuit is open for the input signal of the first frequency and turned on for the input signal of the second frequency input from the I 2 , wherein the other terminal of the first matching subcircuit is connected to the O 1 , wherein the first matching subcircuit is turned on for the input signal of the first frequency and open for the input signal of the second frequency, wherein the other terminal of the second matching subcircuit is connected to the O 2 , and wherein the second matching subcircuit is turned on for the input signal of the first frequency input from the I 2 and open for the input signal of the second frequency input from the I 2 . 4. The power amplification device according to claim 3 , wherein the harmonic injection subcircuit comprises a quarter-wave line corresponding to the first frequency, wherein the first matching subcircuit comprises a first quarter-wave line corresponding to the second frequency and a second quarter-wave line corresponding to the second frequency, wherein one terminal of the first quarter-wave line is connected to the first terminal of the harmonic injection subcircuit, wherein the other terminal of the first quarter-wave line is separately connected to the O 1 and one terminal of the second quarter-wave line, wherein the other terminal of the second quarter-wave line is open, wherein the second matching subcircuit comprises a third quarter-wave line corresponding to the second frequency and a fourth quarter-wave line corresponding to the second frequency, wherein one terminal of the third quarter-wave line is connected to the second terminal of the harmonic injection subcircuit, wherein the other terminal of the third quarter-wave line is separately connected to the O 2 and one terminal of the fourth quarter-wave line, and wherein the other terminal of the fourth quarter-wave line is open. 5. The power amplification device according to claim 1 , wherein the second amplification branch further comprises a second output matching circuit, and wherein an input terminal of the second output matching circuit is connected to an output terminal of the second amplifier. 6. The power amplification device according to claim 5 , wherein the second output matching circuit comprises: an inductance element; and a capacitance element connected in parallel to the inductance element. 7. The power amplification device according to claim 1 , wherein the first output matching circuit comprises: a first branch matching subcircuit; a second branch matching subcircuit; and a combination matching subcircuit, wherein one terminal of the first branch matching subcircuit is connected to the I 3 , wherein the other terminal of the first branch matching subcircuit is connected to the combination matching subcircuit, wherein one terminal of the second branch matching subcircuit is connected to the I 4 , and wherein the other terminal of the second branch matching subcircuit is connected to the combination matching subcircuit. 8. The power amplification device according to claim 1 , further comprising a signal processing circuit, wherein output terminals of the signal processing circuit are respectively connected to an input terminal of the first amplification branch and an input terminal of the second amplification branch, and wherein the signal processing circuit is configured to: input a first input signal of the first frequency to the first amplification branch; and input a second input signal to the second amplification branch, and wherein the second input signal comprises a first signal component of the first frequency and a second signal component of the second frequency. 9. The power amplification device according to claim 8 , wherein the signal processing circuit comprises: a power divider; and a filter, wherein an output terminal of the power divider is connected to an input terminal of the filter; wherein the other output terminal of the power divider is connected to the input terminal of the second amplification branch, and wherein an output terminal of the filter is connected to the input terminal of the first amplification branch. 10. The power amplification device according to claim 8 , wherein a power value of the first signal component is lower than a power value of the second signal component, and wherein the power value of the second signal component is greater than or equal to the enabling threshold. 11. The power amplification device according to claim 1 , further comprising a third amplification branch, wherein the third amplification branch comprises a third amplifier supporting the first frequency, wherein the first output matching circuit further comprises a fifth input terminal (I 5 ), and wherein an output terminal of the third amplification branch is connected to the I 5 . 12. The power amplification device according to claim 8 , wherein the first input signal of the first f