Efficiency-optimised high-frequency power amplifier

What is claimed is: 1. An amplifier according to the principle of load modulation for the amplification of an input signal with a first push-pull amplifier, comprising a first transistor and a second transistor, a second push-pull amplifier and a balanced hybrid coupler, wherein the first push-pull amplifier is configured as a main amplifier and generates a balanced main amplifier signal, wherein the second push-pull amplifier is configured as an auxiliary amplifier and generates a balanced auxiliary amplifier signal, wherein outputs of the first push-pull amplifier and of the second push-pull amplifier are connected to the balanced hybrid coupler in such a manner that the balanced hybrid coupler combines the balanced main amplifier signal and the balanced auxiliary amplifier signal to form a balanced output signal, wherein the balanced hybrid coupler comprises two pairs of coupled lines, wherein an output of the first transistor of the first push-pull amplifier and an output of the first transistor of the second push-pull amplifier are connected to a first pair of coupled lines of said two pairs of coupled lines, and wherein output of the second transistor of the first push-pull amplifier and an output of the second transistor of the second push-pull amplifier are connected to a second pair of coupled lines of said two pairs of coupled lines. 2. The amplifier according to claim 1 , wherein the first push-pull amplifier is connected directly to the balanced hybrid coupler, and wherein the second push-pull amplifier is connected directly to the balanced hybrid coupler. 3. The amplifier according to claim 1 , wherein the amplifier does not provide a balun between the first push-pull amplifier and the balanced hybrid coupler, and wherein the amplifier does not provide a balun between the second push-pull amplifier and the balanced hybrid coupler. 4. The amplifier according to claim 1 , wherein the amplifier provides a first matching network between the first push-pull amplifier and the balanced hybrid coupler, and wherein the amplifier provides a second matching network between the second push-pull amplifier and the balanced hybrid coupler. 5. The amplifier according to claim 1 , wherein the amplifier provides a first balun which is connected to the balanced hybrid coupler, and wherein the first balun is embodied to convert the balanced output signal into an unbalanced output signal. 6. The amplifier according to claim 1 , wherein isolation terminals of the balanced hybrid coupler are terminated in each case with a reflecting element. 7. The amplifier according to claim 1 , wherein two ports of the balanced hybrid coupler are guided by means of a second balun to a common reflecting element. 8. The amplifier according to claim 6 , wherein the at least one reflecting element is an ohmic resistor, an open circuit, a short-circuit, a capacitor, a line element, an inductance or a combination of at least two of the previously named elements. 9. The amplifier according to claim 1 , wherein the input signal is a balanced input signal, wherein the amplifier provides a further balanced hybrid coupler, which is configured: to generate from the balanced input signal a balanced main-amplifier input signal and to supply the latter at least indirectly to the first push-pull amplifier, and to generate from the balanced input signal a balanced auxiliary amplifier input signal and to supply the latter at least indirectly to the second push-pull amplifier, and wherein the further balanced hybrid coupler is embodied to generate the balanced auxiliary-amplifier input signal phase-shifted by 90° relative to the balanced main-amplifier input signal. 10. The amplifier according to claim 1 , wherein the input signal is an unbalanced input signal, wherein the amplifier provides an unbalanced hybrid coupler, which is embodied to generate from the unbalanced input signal an unbalanced main-amplifier input signal and an unbalanced auxiliary-amplifier input signal phase-shifted by 90° relative to the latter, wherein the amplifier provides a third balun, which is connected to the unbalanced hybrid coupler and at least indirectly to the first push-pull amplifier and is embodied to generate from the unbalanced main-amplifier input signal a balanced main-amplifier input signal and to supply the latter to the first push-pull amplifier, and wherein the amplifier provides a fourth balun, which is connected to the unbalanced hybrid coupler and at least indirectly to the second push-pull amplifier and is embodied to generate from the unbalanced auxiliary-amplifier input signal a balanced auxiliary-amplifier input signal and to supply the latter to the second push-pull amplifier. 11. The amplifier according to claim 10 , wherein the amplifier provides a third matching network between the third balun and the first push-pull amplifier, and wherein the amplifier provides a fourth matching network between the fourth balun and the second push-pull amplifier. 12. The amplifier according to claim 1 , wherein the balanced hybrid coupler is embodied as a printed line structure on a two-sided printed circuit board or multi-layer printed circuit board. 13. The amplifier according to claim 1 , wherein the balanced hybrid coupler comprises two unbalanced hybrid couplers. 14. The amplifier according to claim 1 , wherein the first balun and/or the second balun and/or the third balun and/or the fourth balun is or respectively are realized as a printed line, a Marchand balun, separate modules, a line balun with or without ferrite core, a voltage balun or a current balun. 15. The amplifier according to claim 1 , wherein the first push-pull amplifier and the second push-pull amplifier are arranged in each case in their own housing or are built up from separate individual transistors.