Motor drive unit of a DC electric motor

The invention claimed is: 1. A motor drive unit for driving a direct current electric motor comprising a stator and a moving part equipped with permanent magnets, the motor drive unit comprising: a power supply source for providing a supply voltage to the motor drive unit, the supply voltage having a value Vbat relative to a reference voltage node; a switch circuit comprising a set of switches between the power supply source and the reference voltage node; an inductor circuit forming the stator and connected through the switch circuit to the power supply source and to the reference voltage node; a capacitor circuit comprising N capacitors, N being a positive integer greater than zero, each of the capacitors being arranged between the reference voltage node and a respective inductor circuit facing node connected through the switch circuit to the inductor circuit; and a control circuit for controlling opening and closing of the switches; wherein the control circuit is configured to selectively open and close the switches to allow the motor drive unit to generate successive series of drive voltage pulses each comprising N+1 successive drive voltage pulses having each a given duration and triggered at a given time instant, so that each drive voltage pulse causes a voltage drop across the inductor circuit which is greater than an induced voltage across the inductor circuit during this drive voltage pulse; and wherein the control circuit is configured to generate each series of drive voltage pulses such that: first, the power supply source is connected through the inductor circuit to a first capacitor for generating a first drive voltage pulse; then, if N>1, the inductor circuit is connected between an (n−1):th capacitor and an n:th capacitor, n being a positive integer between 2 and N, for generating an n:th drive voltage pulse; and finally, the inductor circuit is connected between an N:th capacitor and the reference voltage node for generating a last drive voltage pulse. 2. The motor drive unit according to claim 1 , wherein each one of the N capacitors is characterised by a capacitance value, and wherein the durations of the N+1 drive voltage pulses of each series are all substantially the same and the capacitance values of the N capacitors are all substantially the same such that, in a steady operational state of the motor drive unit, the voltage drop across the inductor circuit substantially equals Vbat/(N+1) for each one of the N+1 drive voltage pulses. 3. The motor drive unit according to claim 1 , wherein the supply voltage is at least twice as high as a maximum induced voltage across the inductor circuit in a normal functioning mode of the motor. 4. The motor drive unit according to claim 2 , wherein the supply voltage is at least twice as high as a maximum induced voltage across the inductor circuit in a normal functioning mode of the motor. 5. The motor drive unit according to claim 2 , wherein the supply voltage value Vbat divided by a maximum induced voltage across the inductor circuit, in a normal functioning mode of the motor, is greater than N+1; and wherein the control circuit is configured to selectively open and close the switches such that each drive voltage pulse is generated when the induced voltage across the inductor circuit is substantially at an absolute maximum. 6. The motor drive unit according to claim 1 , wherein the control circuit is configured to selectively open and close the switches such that the drive voltage pulses in a given series follow substantially immediately each other. 7. The motor drive unit according to claim 1 , wherein the control circuit is configured to selectively open and close the switches such that the drive voltage pulses in a given series are separated from each other by a given time delay. 8. The motor drive unit according to claim 7 , wherein the time delay corresponds to a half a period of an induced voltage in the inductor circuit multiplied by a positive integer. 9. The motor drive unit according to claim 1 , wherein the reference voltage node is at zero electric potential. 10. The motor drive unit according to claim 1 , wherein the motor drive circuit comprises 7+(2×N) switches. 11. The motor drive unit according to claim 1 , wherein the inductor circuit comprises two inductors which can be connected in series configuration during the drive voltage pulses. 12. The motor drive unit according to claim 11 , wherein the motor drive unit comprises a measurement circuit for measuring a difference between two induced voltages respectively across the two inductors and a polarity of one of these two induced voltages. 13. The motor drive unit according to claim 12 , wherein the two inductors are separated by a switch which is controlled so as to be non-conductive during measurement periods of the measurement circuit. 14. The motor drive unit according to claim 11 , wherein the measurement circuit comprises a first comparator for measuring the difference between two induced voltages and a second comparator for measuring the polarity of one of these two induced voltages. 15. The motor drive unit according to claim 12 , wherein the measurement circuit comprises a first comparator for measuring the difference between two induced voltages and a second comparator for measuring the polarity of one of these two induced voltages. 16. An electromechanical watch comprising the motor drive unit according to claim 1 , wherein the motor comprises a continuous rotation rotor which can be driven by the motor drive unit. 17. An electromechanical watch comprising the motor drive unit according to claim 2 , wherein the motor comprises a continuous rotation rotor which can be driven by the motor drive unit. 18. An electromechanical watch comprising the motor drive unit according to claim 5 , wherein the motor comprises a continuous rotation rotor which can be driven by the motor drive unit. 19. A method of operating a motor drive unit for driving a direct current electric motor comprising a rotor configured to rotate continuously and equipped with permanent magnets, the motor drive unit comprising: a power supply source for providing a supply voltage to the motor drive unit, the supply voltage having a value Vbat relative to a reference voltage node; a switch circuit comprising a set of switches between the power supply source and the reference voltage node; an inductor circuit electromagnetically coupled to the rotor, this inductor circuit being connected through the switch circuit to the power supply source and to the reference voltage node; a capacitor circuit comprising N capacitors, N being a positive integer greater than zero, each of the capacitors being arranged between the reference voltage node and a respective inductor circuit facing node connected through the switch circuit to the inductor circuit; and a control circuit for controlling opening and closing of the switches; wherein, in a normal functioning mode, the supply voltage is higher than a maximum induced voltage across the inductor circuit; wherein the control circuit is configured to selectively open and close the switches to allow the motor drive unit to generate successive series of drive voltage pulses each comprising N+1 successive drive voltage pulses having each a given duration and triggered at a given time instant, each drive voltage pulse causing a desired voltage drop across the inductor circuit which is greater than an induced voltage of the inductor circuit during this drive voltage pulse; and wherein the method comprises for each se