TURBINE SHOVEL CONTROL SYSTEM WITH VARIABLE GEOMETRY WITH LEARNING AND LINEARIZATION FUNCTIONS

摘要

1. The control system of the blades of a turbine with a variable geometry that feeds the internal combustion engine of a vehicle, characterized in that it contains a subtractor (5), configured to determine the difference between the set value of the boost pressure and the measured boost pressure, proportional-integral-differential controller (4) made with the possibility of issuing at the output of a command signal intended for turbine blades with variable geometry, cartography (3) of preliminary positioning, complete with the ability to determine a given position of the blades depending on the engine speed and a given torque, and means (1) for determining the learning conditions, made with the possibility of issuing a logical command signal intended for means (2) of training the drive, while means (2) the drive training is configured to output a command signal correction to the turbine blades with variable geometry depending on the signals obtained from the cartography (3) of the preliminary position Hovhan and the regulator (4), the means (2) learning actuator configured to store pre-positioning signals when receiving a signal from the means (1) determining obucheniya.2 conditions. The control system according to claim 1, wherein the means (1) for determining learning conditions includes means (1a) for determining stability conditions and means (1b) for determining condition conditions associated with the logical operator And (1c) at the output. 3. The control system according to claim 1, wherein the drive training means (2) comprises a signal adder (2b) of the integral part of the controller (4)