Energy supply unit for a traveling wave tube

The invention claimed is: 1. An energy supply unit for a traveling wave tube: wherein the energy supply unit is configured to transform a first voltage present at a low voltage interface into a second voltage which is providable at a high voltage interface, wherein the second voltage is greater than the first voltage and wherein the second voltage corresponds to a required operating voltage of the traveling wave tube, wherein the energy supply unit is configured to receive a signal pattern via a signal input interface and to output a control signal via a control interface to the traveling wave tube for operating the traveling wave tube based on the signal pattern, wherein the energy supply unit is configured to stepwisely adapt the control signal to the signal pattern present at the signal input interface when changing an operating mode of the traveling wave tube, and wherein the energy supply unit is configured to stepwisely adapt an amplitude of the control signal to a nominal amplitude predetermined by the signal pattern present at the signal input interface when changing an operating mode of the traveling wave tube. 2. The energy supply unit of claim 1 , wherein the energy supply unit is configured to stepwisely adapt the duration of a pulse of the control signal to the duration of a pulse of the signal pattern present at the signal input interface when changing the operating mode of the traveling wave tube. 3. The energy supply unit of claim 1 , wherein the energy supply unit is configured to stepwisely adapt the control signal to the signal pattern present at the signal input interface when switching on the traveling wave tube by increasing a power provided to the traveling wave tube in accordance with the control signal after switching on and during a signal alignment phase. 4. An energy supply unit for a traveling wave tube: wherein the energy supply unit is configured to transform a first voltage present at a low voltage interface into a second voltage which is providable at a high voltage interface, wherein the second voltage is greater than the first voltage and wherein the second voltage corresponds to a required operating voltage of the traveling wave tube, wherein the energy supply unit is configured to receive a signal pattern via a signal input interface and to output a control signal via a control interface to the traveling wave tube for operating the traveling wave tube based on the signal pattern, wherein the energy supply unit is configured to stepwisely adapt the control signal to the signal pattern present at the signal input interface when changing an operating mode of the traveling wave tube, and wherein the energy supply unit is configured to stepwisely reduce the control signal when switching off the traveling wave tube by reducing a power provided to the traveling wave tube until the provided power lowers down to zero after switching off and during a signal alignment phase. 5. The energy supply unit of claim 4 , wherein the energy supply unit is configured to stepwisely adapt the duration of a pulse of the control signal to the duration of a pulse of the signal pattern present at the signal input interface when changing the operating mode of the traveling wave tube. 6. The energy supply unit of claim 4 , wherein the energy supply unit is configured to stepwisely adapt an amplitude of the control signal to a nominal amplitude predetermined by the signal pattern present at the signal input interface when changing an operating mode of the traveling wave tube. 7. The energy supply unit of claim 4 , wherein the energy supply unit is configured to stepwisely adapt the control signal to the signal pattern present at the signal input interface when switching on the traveling wave tube by increasing a power provided to the traveling wave tube in accordance with the control signal after switching on and during a signal alignment phase. 8. A traveling wave tube amplifier, comprising: an energy supply unit; and a traveling wave tube, wherein the energy supply unit is configured to transform a first voltage present at a low voltage interface into a second voltage which is providable at a high voltage interface, wherein the second voltage is greater than the first voltage and wherein the second voltage corresponds to a required operating voltage of the traveling wave tube, wherein the energy supply unit is configured to receive a signal pattern via a signal input interface and to output a control signal via a control interface to the traveling wave tube for operating the traveling wave tube based on the signal pattern, wherein the energy supply unit is configured to stepwisely adapt the control signal to the signal pattern being present at the signal input interface when changing an operating mode of the traveling wave tube, wherein the energy supply unit is configured to stepwisely adapt an amplitude of the control signal to a nominal amplitude predetermined by the signal pattern present at the signal input interface when changing an operating mode of the traveling wave tube, and wherein the traveling wave tube is coupled with the control interface and with the high voltage interface of the energy supply unit, so that a power received via the high voltage interface is drawn in accordance with a control signal received via the control interface. 9. The traveling wave tube amplifier of claim 8 , wherein the traveling wave tube amplifier is a pulsed traveling wave tube amplifier. 10. The traveling wave tube amplifier of claim 8 , wherein the energy supply unit is configured to stepwisely adapt the duration of a pulse of the control signal to the duration of a pulse of the signal pattern present at the signal input interface when changing the operating mode of the traveling wave tube. 11. The traveling wave tube amplifier of claim 8 , wherein the energy supply unit is configured to stepwisely adapt the control signal to the signal pattern present at the signal input interface when switching on the traveling wave tube by increasing a power provided to the traveling wave tube in accordance with the control signal after switching on and during a signal alignment phase. 12. The traveling wave tube amplifier of claim 8 , wherein the energy supply unit is configured to stepwisely reduce the control signal when switching off the traveling wave tube by reducing a power provided to the traveling wave tube until the provided power lowers down to zero after switching off and during a signal alignment phase.