Throttle valve body assembly with compensated control

The invention claimed is: 1 . A throttle body for a machine having a combustion engine, said throttle body comprising: an air circulation duct; a throttle valve mounted on an axis of rotation in said air circulation duct; a DC electric motor configured to command an opening or a closing of the throttle valve via a geartrain, the DC electric motor comprising a rotor having a cogging torque that oscillates with a predefined period when said rotor is driven in rotation, a position sensor configured to measure the position of said throttle valve, and an electronic control unit configured to: receive position values of the throttle valve measured by the sensor, calculate a compensation angle value for the throttle valve of between zero and a predefined period value corresponding to the predefined period of the cogging torque from a measured opening angle of the throttle valve, the predefined period value of the cogging torque, and a predetermined angle correction value for the throttle valve to correct, determine a value for a command signal for the electric motor from a predetermined correspondence table and the calculated compensation angle value for the throttle valve, and command the electric motor based on the determined command signal value. 2 . The throttle body as claimed in claim 1 , wherein the electronic control unit comprises a memory area and is configured to command the rotation of the rotor of the electric motor for a plurality of revolutions, to identify and store, in the memory area, the position of the throttle valve that corresponds to a maximum value for the command signal sent to the electric motor and to calculate the average of the position values stored that corresponds to the angle correction value for the throttle valve. 3 . The throttle body as claimed in claim 2 , wherein the electronic control unit is configured to command the electric motor based on a pulse width modulated signal. 4 . A machine comprising: a combustion engine comprising the throttle body as claimed in claim 2 . 5 . A method for commanding the DC electric motor of the throttle body as claimed in claim 2 of the machine having the combustion engine, the method comprising: using the position sensor to measure the opening angle of the throttle valve; using the electronic control unit to calculate the compensation angle value for the throttle valve of between zero and the predefined period value corresponding to the predefined period of the cogging torque from the measured opening angle of the throttle valve, the predefined period value of the cogging torque, and the predetermined angle correction value for the throttle valve; using the electronic control unit to determine the value for the command signal for the electric motor from the predetermined correspondence table and the calculated compensation angle value for the throttle valve; and using the electronic control unit to command the electric motor based on the determined command signal value. 6 . The throttle body as claimed in claim 1 , wherein the electronic control unit is configured to command the electric motor based on a pulse width modulated signal. 7 . A machine comprising: a combustion engine comprising the throttle body as claimed in claim 6 . 8 . A method for commanding the DC electric motor of the throttle body as claimed in claim 6 of the machine having the combustion engine, the method comprising the following steps: using the position sensor to measure the opening angle of the throttle valve; using the electronic control unit to calculate the compensation angle value for the throttle valve of between zero and the predefined period value corresponding to the predefined period of the cogging torque from the measured opening angle of the throttle valve, the predefined period value of the cogging torque, and the predetermined angle correction value for the throttle valve; using the electronic control unit to determine the value for the command signal for the electric motor from the predetermined correspondence table and the calculated compensation angle value for the throttle valve; and using the electronic control unit to command the electric motor based on the determined command signal value. 9 . A machine comprising: a combustion engine comprising the throttle body as claimed in claim 1 . 10 . The machine as claimed in claim 9 , wherein said machine is one of a tractor vehicle, a lawnmower, an electricity generator having a combustion engine, and a motorcycle vehicle. 11 . A method for commanding the DC electric motor of the throttle body as claimed in claim 1 of the machine having the combustion engine, the method comprising: using the position sensor to measure the opening angle of the throttle valve; using the electronic control unit to calculate the compensation angle value for the throttle valve of between zero and the predefined period value corresponding to the predefined period of the cogging torque from the measured opening angle of the throttle valve, the predefined period value of the cogging torque, and the predetermined angle correction value for the throttle valve; using the electronic control unit to determine the value for the command signal for the electric motor from the predetermined correspondence table and the calculated compensation angle value for the throttle valve; and using the electronic control unit to command the electric motor based on the determined command signal value. 12 . The method as claimed in claim 11 , further comprising, prior to using the position sensor to measure the opening angle of the throttle valve: commanding the rotation of the rotor of the electric motor for a plurality of revolutions; identifying and storing a position of the throttle valve that corresponds to a maximum value for the command signal sent to the electric motor; and calculating the average of the position values stored that corresponds to the angle correction value for the throttle valve. 13 . The method as claimed in claim 12 , wherein the maximum position value and a minimum position value are removed before the average is calculated. 14 . The method as claimed in claim 13 , wherein the electronic control unit commands the electric motor based on a pulse width modulated signal. 15 . A non-transitory medium on which is stored a computer program comprising a set of program code instructions stored on a medium readable by an electronic control unit that implements the method of claim 13 when said program is run on said electronic control unit. 16 . The method as claimed in claim 12 , wherein the electronic control unit commands the electric motor based on a pulse width modulated signal. 17 . A non-transitory medium on which is stored a computer program comprising a set of program code instructions stored on a medium readable by an electronic control unit that implements the method of claim 12 when said program is run on said electronic control unit. 18 . The method as claimed in claim 11 , wherein the electronic control unit commands the electric motor based on a pulse width modulated signal. 19 . A non-transitory medium on which is stored a computer program comprising a set of program code instructions stored on a medium readable by an electronic control unit that implements the method of claim 18 when said program is run on said electronic control unit. 20 . A non-transitory medium on which is stored a computer program comprising a set of program code instruction