Data network having at least three line branches, which are connected to one another via common star node as well as a motor vehicle and operating method for the data network

The invention claimed is: 1. A data network having at least three line branches connected to one another via a common star node in order to distribute message signals from one of the line branches onto other line branches, wherein connected to at least one of the line branches is at least one bus-user device each configured to generate in a corresponding transmit mode by a corresponding transmit unit at least one of the message signals, wherein the corresponding bus-user device, the transmit unit thereof has a current source circuit which, in generating the message signal ( 16 ), is configured to inject an electric current into electrical lines of the line branch to which the bus-user device is connected, wherein via the current source circuit the lines are connected to an internal impedance value that in transmit mode is constantly greater than 10 times the value of characteristic impedance of the line branch. 2. The data network as claimed in claim 1 , wherein in at least one bus-user device which is connected to a line end of one of the line branches, its transmit unit has a termination circuit connected in parallel with the current source circuit, and the termination circuit connects the electrical lines at the line branch to which the bus-user device is connected, and has an impedance value equal to a characteristic impedance of the line branch. 3. The data network as claimed in claim 1 , wherein in at least one bus-user device which is connected between a line end of one of the line branches and the star node, this bus-user device has an open-circuit, which, at least in an event that the current source circuit is inactive, or else continuously, electrically isolates the lines of the line branch. 4. The data network as claimed in claim 1 , wherein each of the at least one bus-user devices has a receive circuit, which is configured to receive as a receive signal from the corresponding line branch to which the bus-user device is connected at least one message signal from another bus-user device, wherein the receiver circuit comprises a compensation filter, which is configured such that when the transmit unit of an associated bus-user device is in transmit mode, it superimposes with a time offset an associated message signal emitted by the transmit unit negatively on the receive signal and in a weighted manner, wherein a time offset of the negative superposition equals a signal travel time from the bus-user device to the star node and back to the bus-user device, which signal travel time arises in the line branch. 5. The data network as claimed in claim 4 , wherein the compensation filter is implemented based on at least one analog delay line and at least one amplifier circuit. 6. The data network as claimed in claim 5 , wherein each of the at least one bus-user devices is configured to emit by the transmit unit an interference signal during a receive mode of an associated receive circuit. 7. The data network as claimed in claim 4 , wherein each of the at least one bus-user devices is configured to emit by the transmit unit an interference signal during a receive mode of an associated receive circuit. 8. The data network as claimed in claim 1 , wherein in the corresponding bus-user device, the transmit unit thereof has a four-quadrant controller comprising an H-bridge circuit, which is configured to switch the current source circuit with alternating polarity between the lines of the line branch. 9. The data network as claimed in claim 1 , wherein in the at least one bus-user device, the corresponding transmit unit is configured to inject its corresponding message signal as a differential voltage level into the lines of the line branch. 10. A motor vehicle having a data network as claimed in claim 1 . 11. The data network as claimed in claim 1 , wherein the internal impedance value of the current source circuit in transmit mode is constantly greater than 500 Ohms. 12. A method for operating a data network having at least three line branches connected to one another via a common star node in order to distribute message signals from one of the line branches onto other line branches, wherein connected to at least one of the line branches is at least one bus-user device in each case, which is configured to generate in a corresponding transmit mode by means of a corresponding transmit unit at least one of the message signals, characterized in that in the corresponding bus-user device, the transmit unit thereof has a current source circuit which, in generating the corresponding message signal, injects an electric current into electrical lines of the line branch to which the bus-user device is connected, wherein via the current source circuit the lines are connected to an internal impedance value of the current source circuit that in transmit mode is constantly greater than 10 times the value of characteristic impedance of the line branch. 13. The method for operating a data network as claimed in claim 12 , wherein the internal impedance value of the current source circuit in transmit mode is constantly greater than 500 Ohms.