Method and equipment for controlling the idling speed of an internal combustion engine

1. A method for the feedback control of the idling speed of an internal combustion engine which is supplied, in operation, with air through a duct including a throttle valve;

• the method comprising the following steps;
  
  a) detecting the speed of the engine and the air pressure in the duct of the engine;
  
  b) calculating the difference or error between the engine speed detected and a predetermined target speed and the difference or error between the air pressure detected and a predetermined reference pressure;
  
  c) calculating the integral of the engine speed error;
  
  d) selecting from a pre-calculated matrix of gain coefficients, the values of the coefficients which correspond to the instantaneous values assumed by four predetermined variables relating to the state of the engine;
  
  the matrix correlating the variations in the quantity of air to be supplied to the engine and the variations in the ignition advance with the instantaneous values assumed by the speed error, by the integral of that error, by the pressure error and by a further state variable relating to the internal state of a differential operator which acts on the value of the advance variation;
  
  the values of the coefficients of the gain matrix being calculated beforehand on the basis of a linear system of fourth-order equations which, in accordance with the characteristics of a predetermined linear mathematical model of the engine, functionally correlate the aforesaid state variables with the quantity of air supplied to the engine and with the ignition advance and on the basis of the calculation of a performance index predefined as a function of the state variables, of the quantity of air supplied to the engine, and of the ignition advance;
  
  e) differentiating, by means of the differential operator, the advance variation value corresponding to the values of the gain coefficients selected from the matrix; and
  
  f) determining the quantity of air to be supplied to the engine and the ignition advance to be applied to the engine in dependence on the value supplied by the differential operator and on the coefficients selected from the gain matrix.