Current control of a pulse width modulated power converter

The invention claimed is: 1. A method for current control of a pulse width modulated power converter for an electrical machine, in particular a pulse width modulated inverter for the electrical machine, wherein the power converter and the electrical machine comprise multiple phases (u, v, w), and wherein the current control is carried out by a control loop, wherein the control loop comprises means for calculation of switching times for generating a pulse width modulated voltage for each phase (u, v, w), the method comprising: a) detecting a first actual current value (I −1 ) of the electrical machine in a first interval (T −1 ); b) calculating a predictive first set of switching times (t u p , t v p , t w p ) for signals for generating the pulse width modulated voltage of each phase (u, v, w) in a present interval (T 0 ) following the first interval based at least on the detected first actual current value (I −1 ), a predictive actual current value (Ip) and a current nominal value (I S0 ), wherein the predictive actual current value (I p ) is determined based at least on the detected first actual current value (I −1 ); c) providing the first set of switching times (t u p , t v p , t w p ) in the present interval (T 0 ); d) detecting a present actual current value (I 0 ) of the electrical machine in the present interval (T 0 ); e) calculating a second set of switching times (t u r , t v r , t w r ) for signals for generating the pulse width modulated voltage of each phase (u, v, w) in the present interval (T 0 ) based at least on the detected present actual current value (I 0 ) and the current nominal value (I S0 ); f) determining whether at a calculation time (t r ) at which the calculation of the second set of switching times (t u r , t v r , t w r ) is completed, none of the switching switching times (t u r , t v r , t w r , t u p , t v p , t w p ) from the first and second set of switching times occurred prior to the calculation time (tr) (t u p >t r , t v p >t r , t w p >t r , t u r >t r , t v r >t r , t w r >t r ); wherein g) if it is determined that, at the calculation time (t r ) in the present interval (T 0 ), none of the switching times (t u r , t v r , t w r , t u p , t v p , t w p ) from the first and second set of switching times occurred prior to the calculation time (t r ) the second set of switching times (t u r , t v r , t w r ) is used for signals for generating the pulse width modulated voltage of each phase (u, v, w) in the present interval (T 0 ); or h) if it is determined that, at the calculation time (t r ) in the present interval (T 0 ), at least one of the switching times (t u r , t v r , t w r , t u p , t v p , t w p ) from the first or second set of switching times occurred prior to the calculation time (t r ), the first set of switching times (t u p , t v p , t w p ) is used for signals for generating the pulse width modulated voltage of each phase (u, v, w) in the present interval (T 0 ). 2. The method according to claim 1 , wherein the first and the present interval are each a period or a half period of the pulse width modulated voltage. 3. The method according to claim 1 wherein the detection of the actual current value takes place in the context of a discrete-time control at discrete sampling times, wherein the detection of the actual current value preferably takes place at the beginning of each interval. 4. The method according to claim 1 , wherein the determination, whether at the calculation time (t r ) in the present interval (T 0 ) none of the switching times (t u r , t v r , t w r , t u p , t v p , t w p ) from the first and second set of switching times occurred prior to the calculation time (tr), is carried out after and preferably immediately after the calculation of the second set of switching times. 5. The method according to claim 1 , wherein when it has been determined that at the calculation time (t r ) in the present interval (T 0 ) none of the switching times (t u r , t v r , t w r , t u p , t v p , t w p ) from the first and second set of switching times occurred prior to the calculation time (t r ) the provided first set of switching times (t u p , t v p , t w p ) is overwritten by the second set of switching times (t u r , t v r , t w r ) in a memory. 6. The method according to claim 1 , wherein when it has been determined that at the calculation time (t r ) in the present interval (T 0 ) at least one of the switching times (t u r , t v r , t w r , t u p , t v p , t w p ) from the first or second set of switching times occurred prior to the calculation time (t r ) the second set of switching times (t u r , t v r , t w r ) is discarded. 7. The method according to claim 1 , wherein the predictive actual current value (I p ) is generated by adding the detected first actual current value (I −1 ) with an actual current value change (ΔI −1 ) determined by current prediction. 8. The method according to claim 1 , wherein the calculation of the predictive first set of switching times (t u p , t v p , t w p ) is further based on an older actual current value (I −2 ) of the electrical machine, wherein the older actual current value (I −2 ) was detected in a previous interval (T −2 ). 9. The method according to claim 1 , further comprising calculating, during the present interval (T 0 ) or a later interval, a predictive third set of switching times (t u p′ , t v p′ , t w p′ ) for signals for generating the pulse width modulated voltage of each phase (u, v, w) in a future interval (T +1 ) or a further future interval following the present interval based at least on the detected present actual current value, a predictive future actual current value and a current nominal value, and to calculate the predictive future actual current value at least on the detected present actual current value. 10. A device for current control of a pulse width modulated power converter for an electrical machine, in particular a pulse width modulated inverter for the electrical machine, wherein the power converter and the electrical machine comprise multiple phases (u, v, w), comprising: a) a modulator for pulse width modulation of a voltage of each phase (u, v, w); b) a detection module adapted to detect an actual current value of the electrical machine; c) a calculation module adapted to calculate, preferably during a first interval (T −1 ) or a later interval, a predictive first set of switching times (t u p , t v p , t w p ) for signals for generating the pulse width modulated voltage of each phase (u, v, w) in a present interval (T 0 ) following the first interval (T −1 ) based at least on a first actual current value (I −1 ) detected in the first interval (T −1 ), a predictive actual current value (I p ) and a current nominal value (I S0 ), wherein the calculation module is adapted for determining the predictive actual current value (I p ) based at least on the first actual current value (I −1 ) and for calculating, during the present interval (T 0 ) or a later interval, a second set of switching times (t u r , t v r , t w r ) for signals for generating the pulse width modulated voltage of each phase (u, v, w) in the present interval (T 0 ) based at least on a present actual current value (I 0 ) detected in the present interval (T 0 ) and a current nominal value (I S0 ), wherein a decider of the modulator is adapted to determine whether up to a calculation time (t r ), at which the calculation of the second set of switching times (t u r , t v r , t w r ) in the present interval (T 0 ) is complete, none of switching times (t u r , t v r