Method for operating an electric synchronous machine

The invention claimed is: 1. A method for operating an electric synchronous machine, the method comprising: generating centered pulse-width-modulated switching signals for switching elements (T 1 . . . T 6 ) of a plurality of half bridges, wherein in each case for each of the plurality of half bridges, a first switching element and a second switching element of the switching elements (T 1 . . . T 6 ) are connected to one half bridge, wherein the second switching elements (T 4 . . . T 6 ) of each one half bridge of the plurality of half bridges are controlled in a complementary manner to the first switching elements (T 1 . . . T 3 ) of each one half bridge when a sufficient minimum measurement duration (T M ) is provided during which the switching signals of switching elements (T 1 . . . T 6 ) of two half bridges of the plurality of half bridges are at different potentials; otherwise: generating pulse-width-modulated switching signals for the switching elements (T 1 . . . T 6 ) of the half bridges which deviate at least so far from being centered that a sufficient minimum measurement duration (T M ) is provided, wherein forming, when at least two switching signals of the first switching elements (T 1 , T 3 , T 5 ) have a defined largely different duty cycle and proportions of the switching signals change during a transition from one switching cycle to the next, the switching signals such that 1-shunt current measurements are, in each case, carried out at alternating edges of the switching signals; and carrying out a 1-shunt current measurement within the minimum measurement duration (T M ) provided. 2. The method as claimed in claim 1 , wherein when the switching signals of the first switching elements (T 1 , T 3 , T 5 ) have a defined similar duty cycle, rising edges of the three switching signals of the first switching elements (T 1 , T 3 , T 5 ), at which the 1-shunt current measurement is carried out, are fixed in their chronological sequence relative to one another and are formed in such a way that the minimum measurement duration (T M ) is provided between the switching signals of the first switching elements (T 1 , T 3 , T 5 ), wherein the 1-shunt current measurement is carried out at rising edges of the switching signals of the first switching elements (T 1 , T 3 , T 5 ) in the first half of the PWM period. 3. The method as claimed in claim 1 , wherein when the switching signals of the first switching elements (T 1 , T 3 , T 5 ) have a defined similar duty cycle, falling edges of the three switching signals of the first switching elements (T 1 , T 3 , T 5 ), at which the 1-shunt current measurement is carried out, are fixed in their chronological sequence relative to one another and are formed in such a way that the minimum measurement duration (T M ) is provided between the switching signals of the first switching elements (T 1 , T 3 , T 5 ), wherein the 1-shunt current measurement is carried out at falling edges of the switching signals of the first switching elements (T 1 , T 3 , T 5 ) in the second half of the PWM period. 4. The method as claimed in claim 2 , wherein the duty cycles of the three switching signals of the switching elements (T 1 , T 3 , T 5 ) is similar and the difference in the duty cycles of the three switching signals is smaller than approximately 20% up to approximately 30%. 5. The method as claimed in claim 1 , wherein the difference in the duty cycle is greater than approximately 25% up to approximately 100%. 6. The method as claimed in claim 1 , wherein the method is carried out for a permanently excited or for a separately excited synchronous machine. 7. A device ( 200 ) for operating an electric synchronous machine, the device comprising: a generating means ( 210 ) for generating centered pulse-width-modulated switching signals for switching elements (T 1 . . . T 6 ) of a plurality of half bridges, wherein in each case for each of the plurality of half bridges, a first switching element and a second switching element of the switching elements (T 1 . . . T 6 ) are connected to one half bridge, wherein second switching elements (T 4 . . . T 6 ) of each one half bridge of the plurality of half bridges are controlled in a complementary manner to first switching elements (T 1 . . . T 3 ) of each one half bridge when a sufficient minimum measurement duration (T M ) is provided during which the switching signals of switching elements (T 1 . . . T 6 ) of two half bridges of the plurality of half bridges are at different potentials, otherwise: for generating pulse-width-modulated switching signals for the switching elements (T 1 . . . T 6 ) of the half bridges which deviate at least so far from being centered that a sufficient minimum measurement duration (T M ) is provided; wherein, by means of the generating means ( 210 ), when at least two switching signals of the first switching elements (T 1 , T 3 , T 5 ) have a defined largely different duty cycle and proportions of the switching signals change during a transition from one switching cycle to the next, the switching signals are formed such that 1-shunt current measurements are, in each case, carried out at alternating edges of the switching signals; and a measuring means ( 220 ) for carrying out a 1-shunt current measurement, wherein, by means of the switching signals of the switching elements (T 1 . . . T 6 ), a defined minimum measurement duration (T M ) is provided during which two switching signals of a half bridge are at different potentials. 8. A non-transitory, computer-readable medium containing machine-readable instructions that when executed by a computer cause the computer to operate an electric synchronous machine ( 200 ) by generating centered pulse-width-modulated switching signals for switching elements (T 1 . . . T 6 ) of a plurality of half bridges, wherein in each case for each of the plurality of half bridges, a first switching element and a second switching element of the switching elements (T 1 . . . T 6 ) are connected to one half bridge, wherein the second switching elements (T 4 . . . T 6 ) of each one half bridge are controlled in a complementary manner to first switching elements (T 1 . . . T 3 ) of each one half bridge when a sufficient minimum measurement duration (T M ) is provided during which the switching signals of switching elements (T 1 . . . T 6 ) of two half bridges of the plurality of half bridges are at different potentials; otherwise: generating pulse-width-modulated switching signals for the switching elements (T 1 . . . T 6 ) of the half bridges which deviate at least so far from being centered that a sufficient minimum measurement duration (T M ) is provided, wherein the switching signals of the switching elements (T 1 . . . T 6 ) are formed when at least two switching signals of the first switching elements (T 1 , T 3 , T 5 ) have a defined largely different duty cycle and proportions of the switching signals change during a transition from one switching cycle to the next such that 1-shunt current measurements are, in each case, carried out at alternating edges of the switching signals; and carrying out a 1-shunt current measurement within the minimum measurement duration (T M ) provided. 9. The method of claim 1 , the method further comprising, when the 1-shunt current measurement on a positive switching edge and two switching signals from different switching elements (T 1 , T 2 , T 3 ) have a similar duty cycle, shifting the switching signal of the switching element (T 1 , T 2 , T 3 ) with a larger duty cycle to the left, and shifting the switching signal of the switching element (T 1 , T 2 , T 3 ) with a smaller duty cycle to the right. 10. The method of claim 1 , the method