Method for detecting a malfunction of a voltage-limiting circuit and control system for implementing said malfunction-detecting method

The invention claimed is: 1. A method ( 50 ) for detecting a malfunction of a voltage-limiting circuit ( 11 ) of a control circuit ( 10 ) for controlling a capacitive actuator ( 20 ) of a motor vehicle, said capacitive actuator being connected to an output port ( 13 ) of said control circuit, said control circuit being controlled to charge/discharge said capacitive actuator, an output voltage on the output port being, in the absence of a malfunction of the voltage-limiting circuit, equal to or lower than a theoretical maximum value (V MAX ), wherein, the capacitive actuator ( 20 ) being, between the output port and electrical ground, arranged in series with a commutator ( 21 ) suitable for being placed in a closed state and in an open state, and the control circuit ( 10 ) including a capacitor ( 18 ) arranged between the output port ( 13 ) and the electrical ground, said method ( 50 ) comprising the steps of: ( 51 ) placing the commutator ( 21 ) in the open state, ( 52 ) controlling the control circuit ( 10 ) to charge said capacitor for a predefined period to make it possible, in the absence of a malfunction of the voltage-limiting circuit, for the output voltage to reach the theoretical maximum value, ( 53 ) measuring the output voltage on the output port ( 13 ), ( 54 ) evaluating a criterion for detecting a malfunction of the voltage-limiting circuit ( 11 ) as a function of the measured output voltage, a malfunction of the voltage-limiting circuit ( 11 ) being detected when the criterion is verified. 2. The method ( 50 ) as claimed in claim 1 , wherein evaluating the criterion for detecting a malfunction of the voltage-limiting circuit ( 11 ) includes comparing the measured output voltage to a predefined first threshold value (Vsi) lower than the theoretical maximum value of the output voltage, a malfunction being detected when said measured output voltage is lower than said predefined first threshold value. 3. The method ( 50 ) as claimed in claim 2 , wherein evaluating the criterion for detecting a malfunction of the voltage-limiting circuit ( 1 1 ) includes comparing the measured output voltage to a predefined second threshold value (Vs 2 ) higher than the theoretical maximum value of the output voltage, a malfunction being detected when said measured output voltage is higher than said predefined second threshold value. 4. The method ( 50 ) as claimed in claim 2 , wherein the voltage-limiting circuit ( 11 ) includes one or more Zener diodes ( 111 ). 5. The method ( 50 ) as claimed in claim 2 , wherein the capacitive actuator ( 20 ) is a piezoelectric injector. 6. A non-transitory computer-readable medium on which is stored a computer program which, when executed by a motor vehicle computer, performs the method of claim 2 . 7. The method ( 50 ) as claimed in claim 1 , wherein evaluating the criterion for detecting a malfunction of the voltage-limiting circuit ( 11 ) includes comparing the measured output voltage to a predefined second threshold value (Vs 2 ) higher than the theoretical maximum value of the output voltage, a malfunction being detected when said measured output voltage is higher than said predefined second threshold value. 8. The method ( 50 ) as claimed in claim 7 , wherein the voltage-limiting circuit ( 11 ) includes one or more Zener diodes ( 111 ). 9. The method ( 50 ) as claimed in claim 7 , wherein the capacitive actuator ( 20 ) is a piezoelectric injector. 10. A non-transitory computer-readable medium on which is stored a computer program which, when executed by a motor vehicle computer, performs the method of claim 7 . 11. The method ( 50 ) as claimed in claim 1 , wherein the voltage-limiting circuit ( 11 ) includes one or more Zener diodes ( 111 ). 12. The method ( 50 ) as claimed in claim 11 , wherein the capacitive actuator ( 20 ) is a piezoelectric injector. 13. The method ( 50 ) as claimed in claim 1 , wherein the capacitive actuator ( 20 ) is a piezoelectric injector. 14. A motor vehicle computer, comprising means configured to implement the method ( 50 ) as claimed in claim 1 . 15. A system for controlling a capacitive actuator ( 20 ) of a motor vehicle, comprising a control circuit ( 10 ) including a voltage-limiting circuit ( 11 ) and an output port ( 13 ) connected to said capacitive actuator, an output voltage on the output port being, in the absence of a malfunction of the voltage-limiting circuit, equal to or lower than a theoretical maximum value (V MAX ), wherein, the capacitive actuator ( 20 ) being, between the output port and electrical ground, arranged in series with a commutator ( 21 ) suitable for being placed in a closed state and in an open state, said system further comprising a capacitor ( 18 ) arranged between the output port ( 13 ) and the electrical ground and the motor vehicle computer as claimed in claim 14 . 16. The system as claimed in claim 15 , wherein the voltage-limiting circuit ( 11 ) includes one or more Zener diodes ( 111 ). 17. A motor vehicle, comprising a capacitive actuator ( 20 ) and the system as claimed in claim 16 . 18. A motor vehicle, comprising a capacitive actuator ( 20 ) and the system as claimed in claim 15 . 19. The motor vehicle as claimed in claim 18 , wherein the capacitive actuator ( 20 ) is a piezoelectric injector. 20. A non-transitory computer-readable medium on which is stored a computer program which, when executed by a motor vehicle computer, performs the method of claim 1 .