Quasi-broadband amplifier according to the Doherty principle

The invention claimed is: 1. An amplifier comprising: a first amplifier circuit, a second amplifier circuit, a hybrid-coupler circuit and a termination, wherein the hybrid-coupler circuit includes an output port and an isolation port, and wherein the termination is connected to the isolation port of the hybrid-coupler circuit, and wherein the termination includes a first switch, and a first capacitor and a first inductance, and wherein the first switch selectively connects the first capacitor to the first inductance. 2. The amplifier according to claim 1 , wherein, the termination includes either at least a second capacitor or at least a second inductance, where the termination includes at least two capacitors, the first switch selectively connects one of the two capacitors to the first inductance, and where the termination includes at least two inductances, the first switch selectively connects one of the two inductances to the first capacitor. 3. The amplifier according to claim 2 , wherein the termination includes a second switch and one or more of a third capacitor and a third inductance directly connected to the isolation port, and wherein the second switch selectively connects the isolation port to the one or more of the first inductance and the first capacitor. 4. The amplifier according to claim 3 , wherein, the termination includes the second capacitor, the second switch and the third capacitor, the third capacitor and the second switch are directly connected to the isolation port, the first inductance is connected to a terminal of the second switch remote from the isolation port, the first switch is connected to a terminal of the first inductance remote from the second switch, and the first capacitor and the second capacitor are connected to a terminal of the first switch remote from the first inductance. 5. The amplifier according to claim 3 , wherein, the termination includes the second inductance, the second switch and the third inductance, the third inductance and the second switch are directly connected to the isolation port, the first capacitor is connected to a terminal of the second switch remote from the isolation port, the first switch is connected to a terminal of the first capacitor remote from the second switch, and the first inductance and the second inductance are connected to a terminal of the first switch remote from the first capacitor. 6. An amplifier comprising: a first amplifier circuit, a second amplifier circuit, a hybrid-coupler circuit and a termination, wherein the hybrid-coupler circuit includes an output port and an isolation port, wherein the termination is connected to the isolation port of the hybrid-coupler circuit, wherein the termination includes a first ohmic resistor, a second ohmic resistor, a first capacitor, a first inductance and a second inductance, wherein the first capacitor and the first inductance are connected to the isolation port, and wherein the second inductance is connected to a terminal of the first capacitor remote from the isolation port, wherein the first ohmic resistor is connected in series to the first inductance, and the second ohmic resistor is connected in series to the second inductance. 7. The amplifier according to claim 6 , wherein, the termination includes the first inductance, a second inductance, the first capacitor, a second ohmic resistor and a third ohmic resistor, the first capacitor and the first inductance are connected to the third ohmic resistor, which is connected to the isolation port, the second inductance is connected to a terminal of the first capacitor remote from the isolation port, the first ohmic resistor is connected in series to the first inductance, the second ohmic resistor is connected in series to the second inductance, and the third ohmic resistor is connected in series to the first capacitor. 8. The amplifier according to claim 6 , wherein, the termination includes the first inductance, the first capacitor, a second capacitor and a second ohmic resistor, the first capacitor and the first inductance are connected to the isolation port, the second capacitor is connected to a terminal of the first inductance remote from the isolation port, the first ohmic resistor is connected in series to the first capacitor, and the second ohmic resistor is connected in series to the second capacitor. 9. An amplifier comprising: a first amplifier circuit, a second amplifier circuit, a first hybrid-coupler circuit and a termination, wherein the first hybrid-coupler circuit includes an output port and an isolation port, wherein the termination is connected to the isolation port of the first hybrid-coupler circuit, wherein the termination includes a second hybrid-coupler circuit, and wherein the second hybrid-coupler circuit is terminated at its isolation port with a first capacitor, and the second hybrid-coupler circuit is terminated at one output port with a second capacitor. 10. The amplifier according to claim 9 , wherein the second hybrid-coupler circuit is terminated at an input terminal with a capacitor. 11. The amplifier according to claim 9 , wherein the second hybrid-coupler circuit is configured to act as an adjustable phase shifter. 12. The amplifier according to claim 9 , wherein one or more of the first capacitor and the second capacitor are adjustable. 13. The amplifier according to claim 10 , wherein the capacitor is adjustable.