Power-distribution system for an aircraft on the ground

The invention claimed is: 1. A power distribution system for an aircraft on the ground, comprising: a preconditioned air unit, operably coupleable to the aircraft on the ground and configured to receive at least a first portion of a predetermined maximum input power provided by a power supply; at least one ground power unit, electrically coupleable to the aircraft on the ground and configured to receive at least a second portion of the predetermined maximum input power provided by the power supply, and a controller, adapted to monitor at least one parameter of the power consumed by any one of the preconditioned air unit and the at least one ground power unit, and control the power consumption of at least the preconditioned air unit so that the total power consumption of the preconditioned air unit and the at least one ground power unit does not exceed the predetermined maximum input power; wherein the predetermined maximum input power is provided via a single power line between the power supply and an input port of the preconditioned air unit, wherein the predetermined maximum input power is a maximum acceptable power consumption. 2. The power distribution system according to claim 1 , wherein the preconditioned air unit (PCA) is configured to provide air at a predetermined temperature to the aircraft on the ground. 3. The power distribution system according to claim 1 , wherein the at least one parameter is an input current from the predetermined maximum input power provided to any one of the preconditioned air unit and the at least one ground power unit. 4. The power distribution system according to claim 1 , further comprising at least one third electrical load, configured to receive at least a third portion of the predetermined maximum input power provided by the power supply. 5. The power distribution system according to claim 4 , wherein the controller is adapted to control the power consumption of the at least one third electrical load so that the total power consumption of the preconditioned air unit, the at least one ground power unit and the at least one third electrical load does not exceed the predetermined maximum input power. 6. The power distribution system according to claim 4 , wherein the at least one third electrical load is a battery-powered Ground Power Unit (GPU) chargeable with at least the third portion of the predetermined maximum input power. 7. The power distribution system according to claim 6 , wherein the controller is adapted to control a charging current of the battery-powered GPU so that the total power consumption of any one of the preconditioned air unit, the at least one ground power unit and the at least one third electrical load does not exceed the predetermined maximum input power. 8. The power distribution system according to claim 7 , wherein the charging current is controlled stepless via wireless communication or by selectively switching the charging current on and off. 9. The power distribution system according to claim 6 , wherein the battery-powered GPU is electrically coupleable to any one of the preconditioned air unit, the power supply via any one of a pre-fused power outlet of the power supply and a splitter box, and the ground power unit. 10. The power distribution system according to claim 1 , wherein the maximum acceptable power consumption is a maximum power rating of the power supply. 11. The power distribution system according to claim 1 , further comprising a control interface adapted to control the predetermined maximum input power provided by the power supply from a remote location. 12. The power distribution system according to claim 10 , wherein the first electrical load is a preconditioned air unit (PCA) configured to provide air at a predetermined temperature to the aircraft on the ground. 13. The power distribution system according to claim 12 , wherein the controller is adapted to control the power consumed by the preconditioned air unit (PCA). 14. A power distribution system for an aircraft on the ground, comprising: a first electrical load, operably coupled to the aircraft on the ground and configured to receive at least a first portion of a predetermined maximum input power provided by a power supply; at least one second electrical load, electrically coupleable to the aircraft on the ground and configured to receive at least a second portion of the predetermined maximum input power provided by the power supply, and a controller, adapted to monitor at least one parameter of the power consumed by any one of the first electrical load and the at least one second electrical load, and control the power consumption of at least the first electrical load so that the total power consumption of the first electrical load and the at least one second electrical load does not exceed the predetermined maximum input power, wherein the at least one parameter is an input current from the predetermined maximum input power provided to any one of the first electrical load and the at least one second electrical load; wherein the predetermined maximum input power is provided via a single power line between the power supply and an input port of the first electrical load. 15. The power distribution system according to claim 14 , wherein the controller is adapted to control the power consumed by the preconditioned air unit (PCA). 16. The power distribution system according to claim 14 , wherein the at least one second electrical load is a Ground Power Unit (GPU). 17. A power distribution system for an aircraft on the ground, comprising: a first electrical load, operably coupled to the aircraft on the ground and configured to receive at least a first portion of a predetermined maximum input power provided by a power supply; at least one second electrical load, electrically coupleable to the aircraft on the ground and configured to receive at least a second portion of the predetermined maximum input power provided by the power supply, and a controller, adapted to monitor at least one parameter of the power consumed by any one of the first electrical load and the at least one second electrical load, and control the power consumption of at least the first electrical load so that the total power consumption of the first electrical load and the at least one second electrical load does not exceed the predetermined maximum input power; wherein the predetermined maximum input power is provided via a single power line between the power supply and an input port of the first electrical load, wherein the predetermined maximum input power is a maximum power rating of the power supply.