Operating circuit for coupling a synchronous machine with a voltage network and method for operating it

What we claim is: 1. An operating circuit for coupling a synchronous machine with a voltage network, with a converter circuit that can be controlled by a control unit having a converter input connected to the synchronous machine and a converter output connected to the voltage network, whereby the converter circuit has a plurality of converter switches that can be controlled by the control unit and a switching arrangement that can be controlled by the control unit, whereby the converter circuit is switched by means of the switching arrangement between a direct converter configuration and a start converter configuration, whereby the control unit is adapted to control the converter circuit in the direct converter configuration depending on a voltage profile at the converter input in order to set an alternating voltage with a preset frequency at the converter output wherein the converter circuit comprises at least two converter branches, each having a first output terminal and a second output terminal of the respective converter branch and respectively a first input terminal, a second input terminal and a third input terminal of the respective converter branch, and wherein two output terminals of different converter branches are connected to one another directly. 2. The operating circuit according to claim 1 , wherein the control unit is adapted to control the converter circuit in the direct converter configuration depending on the voltage profile at the converter input in order to set an AC voltage with a preset voltage value at the converter output. 3. The operating circuit according to claim 1 , wherein the control unit is adapted to control the converter circuit in the start converter configuration such that the frequency of the voltage at the converter input is controlled. 4. The operating circuit according to claim 3 , wherein the control device is adapted to control the converter circuit in the start converter configuration such that the frequency of the AC voltage at the converter input is continuously increased up to an operating frequency. 5. The operating circuit according to claim 1 , wherein the converter circuit in the direct converter configuration forms a direct converter or cycloconverter. 6. The operating circuit according to claim 1 , wherein the converter circuit in the start converter configuration being connected to the voltage network and the synchronous machine, thereby forms a network-communicated and load-communicated converter. 7. The operating circuit according to claim 1 , wherein the converter circuit in the start converter configuration has at least one DC voltage intermediate circuit or DC intermediate circuit. 8. The operating circuit according to claim 7 , wherein the control device is adapted to control the converter switch such that the voltage at the converter output is first rectified into a direct current or a DC voltage and is then inverted into an alternating current or an AC voltage at the converter input. 9. The operating circuit according to claim 1 , wherein the control device is adapted to control the converter circuit in the direct converter configuration such that an alternating voltage with a preset frequency is applied at the converter output. 10. The operating circuit according to claim 1 , wherein each converter branch comprises a bridge circuit with four controllable converter switches for each input terminal, whereby a first bridge point is connected via a first converter switch to the first output terminal and is connected via a second converter switch to the second output terminal, and whereby a second bridge point is connected via a third converter switch to the first output terminal and is connected to the second output terminal via a fourth converter switch. 11. The operating circuit according to claim 1 , wherein each converter branch has a first choke coil connected directly to the first converter switch and the third converter switch, and each converter branch has a second choke coil that is connected directly to the second converter switch and the fourth converter switch. 12. The operating circuit according to claim 11 , wherein each choke coil in the start converter configuration of the converter circuit is arranged in a DC intermediate circuit. 13. The operating circuit according to claim 11 , wherein, in the direct converter configuration of the converter circuit, the first choke coil is connected to the first output terminal and the second choke coil is connected to the second output terminal. 14. A method for operating a synchronous machine by means of an operating circuit according to claim 1 , comprising: switching of the converter circuit to the start converter configuration by means of the switching arrangement, increasing of the speed of the synchronous machine until an AC voltage at the converter input reaches an operating frequency, and switching of the converter circuit to the direct converter configuration by means of the switching arrangement.