Vehicle electric system, device for controlling a vehicle electric system, and vehicle with a device

What is claimed is: 1. A vehicle electrical system for a vehicle, the vehicle electrical system comprising: a power source supplying current, a first vehicle electrical distribution system branch connecting the power source to a first, dynamic electrical consumer having a need for power supplied at irregular intervals, a second vehicle electrical distribution system branch connecting the power source to a second, sensitive electrical consumer having a requirement for protection against fluctuating voltages, a first controllable switching device arranged between the first and second vehicle electrical distribution system branches and configured to switch between: a first switching state that unidirectionally conducts current only in a first current flow direction from the first vehicle electrical distribution system branch to the second vehicle electrical distribution system branch, and a second switching state that bidirectionally conducts current both in the first current flow direction and in a second current flow direction from the second vehicle electrical distribution system branch to the first vehicle electrical distribution system branch; a DC-to-DC converter; and a second controllable switching device between the first vehicle electrical distribution system branch and the second vehicle electrical distribution system branch, the DC-to-DC converter and second controllable switching device connected in series with each other and connected in parallel with the first switching device, wherein the first vehicle electrical distribution system branch has a first energy store, wherein the DC-to-DC converter is configured to charge the first energy store of the first vehicle electrical distribution system branch with current from the second vehicle electrical distribution system branch, and wherein the second switching device is implemented to switch between: a first switching state that unidirectionally conducts current only in a first current flow direction from the second vehicle electrical distribution system branch to the first vehicle electrical distribution system branch, and a second switching state that bidirectionally conducts current both in the first current flow direction and in a second current flow direction from the first vehicle electrical distribution system branch to the second vehicle electrical distribution system branch; a third vehicle electrical distribution system branch, and a third controllable switching device between the DC-to-DC converter and the third vehicle electrical distribution system branch and configured to switch between: a first switching state that unidirectionally conducts current only in a first current flow direction from the third vehicle electrical distribution system branch to the DC-to-DC converter, and a second switching state that bidirectionally conducts current both in the first current flow direction and in a second current flow direction from the DC-to-DC converter to the third vehicle electrical distribution system branch; wherein the first branch is connected to the first switching device at a first current terminal and the second branch is connected to the second switching device at a second current terminal and the third branch in connected to the third switching device at a third current terminal and the first branch, the second branch, and the third branch are not connected in any way other than through the switching devices. 2. The vehicle electrical system of claim 1 , wherein: the third vehicle electrical distribution system branch has a third energy store, and the DC-to-DC converter is configured to at least one of: charge the first energy store of the first vehicle electrical distribution system branch with current from the third energy store of the third vehicle electrical distribution system branch, and charge the third energy store of the third vehicle electrical distribution system branch with current from the first energy store of the first vehicle electrical distribution system branch. 3. The vehicle electrical system of claim 1 , wherein at least one of the first switching device, the second switching device, and the third switching device comprises a semiconductor transistor and a diode connected in parallel with one another. 4. The vehicle electrical system of claim 3 , wherein the at least one switching device comprises a MOSFET switch having a body diode. 5. The vehicle electrical system of claim 1 , wherein the first consumer comprises a starter for starting an internal combustion engine of the vehicle. 6. The vehicle electrical system of claim 1 , wherein the DC-to-DC converter comprises a controllable bidirectional DC-to-DC converter. 7. A device for controlling a vehicle electrical distribution system of a vehicle, the device comprising: a first current terminal connecting a power source to a first vehicle electrical distribution system branch feeding a dynamic electrical consumer having a need for power supplied at irregular intervals, a second current terminal connecting a power source to a second vehicle electrical distribution system branch feeding a sensitive electrical consumer having a requirement for protection against fluctuating voltages, a first controllable switching device arranged between the first and the second current terminal and configured to switch between: a first switching state that unidirectionally conducts current only in a first current flow direction from the first current terminal to the second current terminal, and a second switching state that bidirectionally conducts current both in the first current flow direction and in a second current flow direction from the second current terminal to the first current terminal; a DC-to-DC converter and a second controllable switching device arranged between the first and the second current terminals, the DC-to-DC converter and the second controllable switching device connected in series to each other and connected in parallel with the first switching device, wherein the second switching device is configured to switch between: a first switching state that unidirectionally conducts current only in a first current flow direction from the second current terminal to the first current terminal, and a second switching state that bidirectionally conducts current both in the first current flow direction and in a second current flow direction from the first current terminal to the second current terminal, a third current terminal configured for electrical connection to a third vehicle electrical distribution system branch, and a third controllable switching device between the DC-to-DC converter and the third current terminal and configured to switch between: a first switching state that unidirectionally conducts current only in a first current flow direction from the third current terminal to the DC-to-DC converter, and a second switching state that bidirectionally conducts current both in the first current flow direction and in a second current flow direction from the DC-to-DC converter to the third current terminal; wherein the first branch, the second branch, and the third branch are not connected in any way other than through the current terminals. 8. The device of claim 7 , wherein the DC-to-DC converter comprises a controllable bidirectional DC-to-DC converter. 9. The device of claim 7 , wherein at least one of the first switching device, the second switching device, and the third switching device comprises a semiconductor transistor and a diode connected in parallel with one another. 10. The device of claim 9 , wherein the at least one switching device comprises a MOSFET switch having a body diode. 11. Th