Device for controlling a polyphase inverter

1 . A device for controlling a polyphase inverter for supplying power from a direct current source to a double three-phase rotating electrical machine, said device comprising: means for generating switching signals controlling switching elements to obtain a reduction of losses in said switching elements and a reduction in an rms current in a decoupling capacitor of said direct current source, said double three-phase rotating electrical machine comprising three first phase windings and three second phase windings forming a first three-phase system and a second three-phase system with separate neutral points offset angularly by a predetermined offset angle, and said first and second phase windings being connected to three first and three second power arms, respectively, formed by said switching elements of said polyphase inverter; means for storing a set of at least two control strategies determining said switching signals; means for acquiring a rotation speed and a power factor of said machine; and means for selecting a current strategy from said set of control strategies as a function of said rotation speed and said power factor. 2 . The device as claimed in claim 1 for controlling a polyphase inverter, wherein said set of control strategies includes a strategy comprising applying to said first three-phase system a first centered vectorial pulse width modulation offset by a common delay from a second centered vectorial pulse width modulation with the same period applied to said second three-phase system. 3 . The device as claimed in claim 1 for controlling a polyphase inverter, wherein said set of control strategies includes a strategy comprising in applying to said first three-phase system a first vectorial pulse width modulation offset by a common delay from a second vectorial pulse width modulation with the same period applied to said second three-phase system and blocking one of said three first arms and/or one of said three second arms, said common delay being substantially equal to 25% of said period. 4 . The device as claimed in claim 1 for controlling a polyphase inverter, wherein said set of control strategies includes a strategy comprising applying to said first three-phase system a first generalized discontinuous pulse width modulation offset by a common delay from a second generalized discontinuous pulse width modulation with the same period applied to said second three-phase system, said common delay being substantially equal to 30% of said period. 5 . The device as claimed in claim 1 for controlling a polyphase inverter, wherein said set of control strategies includes a strategy comprising: applying to said first three-phase system a first centered vectorial pulse width modulation and to said second three-phase system a second centered vectorial pulse width modulation having the same period and the same time origin; blocking one of said three first arms and one of said three second arms; and offsetting the first, second and third delays relative to said time origin of the switching fronts of three of said three first arms and said three second arms that are not blocked. 6 . The device as claimed in claim 3 for controlling a polyphase inverter wherein said strategy is applied if: a rotation speed of said machine is less than a first predetermined speed representative of an end of starting of said machine, or said rotation speed is between said first predetermined speed and a second predetermined speed representative of an end of functioning at constant torque of said machine, greater than said first predetermined speed, and a power factor of said machine is less than or equal to a predetermined coefficient substantially equal to 0.7. 7 . The device as claimed in claim 4 for controlling a polyphase inverter wherein said strategy is applied if: a rotation speed of said machine is between a first predetermined speed representative of an end of starting of said machine and a second predetermined speed, representative of an end of functioning of said machine at constant torque, greater than said first predetermined speed, and a power factor of said machine is greater than a predetermined coefficient substantially equal to 0.7, or said rotation speed is between said second predetermined speed and a third predetermined speed, representative of operation of said machine at constant power greater than said second predetermined speed. 8 . A double three-phase rotating electrical machine comprising an integrated inverter provided with a control device as claimed in claim 1 .