Lectures:
- Introduction to computer simulation and modeling of automotive electronic systems.
- Fundamentals of mathematical modeling. Experimental Identification Procedures.
- Realization of mathematical models Procedures of model design.
- Methods of modeling and simulation of electronic circuits.
- Methods of modeling and simulation of sensors and actuators.
- Methods of modeling and simulation of continuous and digital controllers (P, PI, PID, PS, PSD controllers).
- Methods of modeling and simulation of automotive communication buses.
- Methods of modeling and simulation of selected blocks of engine control unit.
- Methods of modeling and simulation of selected control algorithms of the engine control unit.
- Simulation of selected blocks of ABS / ASR / ESP control unit.
- Methods of modeling and simulation of actuators of mechatronic systems - electric motors.
- Simulation of energy management elements of automotive onboard networks.
- Methods of modeling the environment of automotive applications.
Exercise Content:
- Introduction - Safety instructions, introductions to the semester, conditions for passing the course, introduction to the laboratory.
- Assignment of semester project (hereinafter referred to as SP) - specification of assignment, procedure of solution.
- Introduction to the program MATLAB/Simulink (according to project orientation), basic properties, toolboxes, models, blocks, libraries.
- Design of simulation models of electronic circuits.
- Design of simulation models of automotive sensors.
- Design of simulation models of control structures.
- Design of simulation model of selected motor control circuit.
- Design of simulation model of selected driving stability control circuit.
- Design of simulation model of electric drive.
- Creation of simulation model for FPGA application.
- Solution of semester project.
- Credit test + Solution and presentation of semester project.
- Introduction to computer simulation and modeling of automotive electronic systems.
- Fundamentals of mathematical modeling. Experimental Identification Procedures.
- Realization of mathematical models Procedures of model design.
- Methods of modeling and simulation of electronic circuits.
- Methods of modeling and simulation of sensors and actuators.
- Methods of modeling and simulation of continuous and digital controllers (P, PI, PID, PS, PSD controllers).
- Methods of modeling and simulation of automotive communication buses.
- Methods of modeling and simulation of selected blocks of engine control unit.
- Methods of modeling and simulation of selected control algorithms of the engine control unit.
- Simulation of selected blocks of ABS / ASR / ESP control unit.
- Methods of modeling and simulation of actuators of mechatronic systems - electric motors.
- Simulation of energy management elements of automotive onboard networks.
- Methods of modeling the environment of automotive applications.
Exercise Content:
- Introduction - Safety instructions, introductions to the semester, conditions for passing the course, introduction to the laboratory.
- Assignment of semester project (hereinafter referred to as SP) - specification of assignment, procedure of solution.
- Introduction to the program MATLAB/Simulink (according to project orientation), basic properties, toolboxes, models, blocks, libraries.
- Design of simulation models of electronic circuits.
- Design of simulation models of automotive sensors.
- Design of simulation models of control structures.
- Design of simulation model of selected motor control circuit.
- Design of simulation model of selected driving stability control circuit.
- Design of simulation model of electric drive.
- Creation of simulation model for FPGA application.
- Solution of semester project.
- Credit test + Solution and presentation of semester project.