Doherty amplifier with additional delay element

The invention claimed is: 1. An amplifier comprising: two amplifier circuits; and a power splitter, wherein: the power splitter is embodied to split a signal to be amplified and to generate a first phase displacement of approximately 90° between two resulting partial signals with a given rated frequency, the amplifier circuits are embodied, in each case, to amplify a signal derived from one of the partial signals, the amplifier contains at least one first delay element which is connected between the power splitter and one of the amplifier circuits, the first delay element is embodied to charge one of the signals to be amplified by the amplifier circuits with an additional, second phase displacement, the amplifier contains a first switching element, the first switching element is configured to: selectively bridge the first delay element and selectively set the second phase displacement equal to zero, or selectively switch between the first delay element and a second delay element, wherein the second delay element is configured to generate an alternative second phase displacement, the amplifier is configured to operate, at least at times, as a Doherty amplifier, the first amplifier circuit is configured to operate as a main amplifier, and the second amplifier circuit is configured to operate as an auxiliary amplifier, the first switching element is configured to connect the first delay element or the second delay element between the power splitter and the respective amplifier circuit, the amplifier is configured to operate, at least at times, as a broadband amplifier, and the switching elements are then configured to bridge the delay elements. 2. The amplifier according to claim 1 , wherein the second phase displacement is 5° -50° and a total phase displacement of the partial signals, as a sum of the first phase displacement and the second phase displacement is 95° -140°. 3. The amplifier according to claim 2 , wherein the second phase displacement is 20° -30° and a total phase displacement of the partial signals, as a sum of the first phase displacement and the second phase displacement is 110° -120°. 4. The amplifier according to claim 1 , wherein the amplifier further comprises a coupler circuit which is configured to combine resulting signals of the amplifier circuits to form an output signal, and to compensate the first phase displacement between the partial signals. 5. The amplifier according to claim 4 , wherein the coupler circuit comprises a hybrid coupler circuit. 6. The amplifier according to claim 1 , wherein: the first delay element is connected between the power splitter and a first amplifier circuit, and the first delay element is an inductance connected to ground. 7. The amplifier according to claim 1 , wherein: the first delay element is connected between the power splitter and a second amplifier circuit, and the first delay element is a delay line connected in series. 8. The amplifier according to claim 1 , wherein: the first delay element is connected between the power splitter and a second amplifier circuit, and the first delay element is a capacitor connected to ground. 9. The amplifier according to claim 1 , wherein: the amplifier comprises a second switching element and a third delay element, the third delay element is connected between the power splitter and the amplifier circuit which is not connected to the first delay element, the third delay element is configured to charge one of the signals to be amplified by the amplifier circuits with an additional third phase displacement, the second switching element is configured selectively to bridge the third delay element and selectively to set the third phase displacement equal to zero, and/or selectively to switch between the third delay element and a fourth delay element, wherein the fourth delay element is configured to generate an alternative third phase displacement. 10. The amplifier according to claim 9 , wherein: the amplifier is configured to operate, at least at times, as an inverted Doherty amplifier, the first amplifier circuit is embodied to operate as an auxiliary amplifier, and the second amplifier circuit is embodied to operate as a main amplifier, the first switching element is configured to bridge the first delay element and/or the second delay element, and the second switching element is configured to connect the third and/or fourth delay element between the power splitter and the respective amplifier circuit.