Method of monitoring short circuits in torque motors

The invention claimed is: 1. A method of monitoring an actuator system comprising a control device, a torque motor having a voltage Umc across terminals of the torque motor and actuating a servo-valve, and an actuator controlled by the servo-valve, the control device being suitable for delivering to the torque motor a control current Icmd as a function of a current setpoint I_c and of a measured current Imes, the monitoring method comprising: comparing, using the control device, the control current Icmd with a predetermined threshold current Iinhib; inhibiting any signaling of a servo-valve failure, only when the control current Icmd is less than or equal to the predetermined threshold current Iinhib; comparing, using the control device, the voltage Umc measured across the terminals of the torque motor with a predetermined threshold voltage Vthresh, only when the control current Icmd is greater than the predetermined threshold current Iinhib; and raising an alarm and indicating a failure of the servo-valve, only when the voltage Umc measured across the terminals of the torque motor is less than or equal to the predetermined threshold voltage Vthresh, wherein the predetermined threshold current is determined using the following formula: Iinhib=dUmc/Zmin+dIcmd with Zmin being a minimum impedance of the torque motor, and dUmc and dIcmd being inaccuracies in the respective measurements of the voltage Umc across the terminals of the torque motor and the current Icmd. 2. The monitoring method according to claim 1 , wherein the predetermined threshold voltage is obtained by the following formula: Vthresh<Zmin*(Icmd−dIcmd)−dUmc with Zmin being a minimum impedance of the torque motor and dUmc and dlcmd being inaccuracies in the respective measurements of the voltage Umc across the terminals of the torque motor and the control current Icmd. 3. A non-transitory computer readable storage medium storing a computer program including instructions for executing steps of the monitoring method according to claim 1 . 4. A monitoring device for monitoring an actuator system comprising a control device, a torque motor having a voltage Umc across terminals of the torque motor and actuating a servo-valve, and an actuator controlled by the servo-valve, the control device being suitable for delivering to the torque motor a control current Icmd as a function of a current setpoint I_c and of a measured current Imes, the monitoring device comprising: comparator means for comparing the control current Icmd with a predetermined threshold current Iinhib; inhibiting means for inhibiting any signaling of a servo-valve failure, which means are activated only when the control current Icmd is less than or equal to the predetermined threshold current Iinhib; comparator means for comparing the voltage Umc measured across the terminals of the torque motor with a predetermined threshold voltage Vthresh, which means are activated only when the control current Icmd is greater than the predetermined threshold current Iinhib; and means for raising an alarm and signaling a failure of the servo-valve, which means are activated only when the voltage Umc across the terminals of the torque motor is less than or equal to the predetermined threshold voltage Vthresh, wherein the predetermined threshold current is determined using the following formula: Iinhib=dUmc/Zmin+dIcmd with Zmin being a minimum impedance of the torque motor, and dUmc and dIcmd being inaccuracies in the respective measurements of the voltage Umc across the terminals of the torque motor and the current Icmd. 5. The monitoring device according to claim 4 , wherein said actuator system is a fuel metering valve and said control device includes a proportional-integral-derivative regulator.