Lectures:
Introduce of the OrCAD software, basic characteristics, types of analysis, models, blocks, libraries and materials
Simulation methods of basic analog circuits (passive elements circuits, basic transistors and operation amplifier circuits) in OrCAD software.
Design, simulation and characteristics of the filters (low and high pass, bandpass and bandstop filter) in OrCAD software.
Simulation of digital circuits (sequential and combinational logical basic circuits) in OrCAD software.
Modeling and simulation of power electronic circuits (controlled and uncontrolled rectifier) in OrCAD software.
Modeling and simulation of power electronic circuits (basic inverter circuits, PWM) in OrCAD software.
Methods of difficult simulation (design division, block creation) in OrCAD software.
MATLAB/SIMULINK software introduction, basic features, toolbox, models, blocks and libraries.
Modeling and simulation methods of controlled and uncontrolled, nonreversible and reversible rectifier in MATLAB/SIMULINK software. Modeling and simulation of pulse converter.
Modeling and simulation methods of pulse converter in MATLAB/SIMULINK software. One-quadrant, two-quadrants and four-quadrants connection. Unipolar, bipolar control.
Modeling and simulation methods of frequency converter with voltage-source inverted by and without PWM in MATLAB/SIMULINK software.
Modeling and simulation methods of mechatronic system actuators - electric motors in MATLAB/SIMULINK software.
Modeling and simulation methods of analog and digital regulators (P, PI, PID, PS, PSD regulators) in MATLAB/SIMULINK software.
Modeling and simulation methods of sensors in MATLAB/SIMULINK software. Current sensors, voltage sensors, speed sensors, angle rotor sensors (speed-voltage generator, incremental sensor)
Projects:
Semestral 2 projects elaboration:
- Modeling and simulation of equipment (individual task) in OrCAD software (10 h).
- Modeling and simulation of equipment (individual task) in MATLAB/SIMULINK software (10 h).
Computer labs:
Project creation, scheme entry, material libraries in OrCAD software.
Basic electronic simulation (amplifier, rectifier, limiter) in OrCAD software.
Filters design and simulation (up and down-pass, bandpass and bandstop) in OrCAD software.
Sequential and combinational logical basic circuits design and simulation in OrCAD software.
Simulation of controlled and uncontrolled rectifiers in OrCAD software.
Simulation of one and three phase inverter in OrCAD software.
Simulation of difficult connections (block creation procedure) in OrCAD software.
Simulation of direct voltage semiconductor convertors (controlled, uncontrolled rectifier, pulse converters) in MATLAB/SIMULINK software.
Simulation of controlled and uncontrolled rectifier, pulse convertors in connection with direct current motor in MATLAB/SIMULINK software.
Simulation of semiconductor alternate voltage converter - indirect frequency converter with voltage inverter - in MATLAB/SIMULINK software.
Simulation of indirect frequency converter with voltage inverter in connection with induction motor in MATLAB/SIMULINK software.
Simulation of regulators and sensors in MATLAB/SIMULINK software (P, PI, PS, PID, PSD regulators, incremental sensors).
Simpler regulation structure simulation in MATLAB/SIMULINK software.
More difficult regulation structure simulation in MATLAB/SIMULINK software.
Introduce of the OrCAD software, basic characteristics, types of analysis, models, blocks, libraries and materials
Simulation methods of basic analog circuits (passive elements circuits, basic transistors and operation amplifier circuits) in OrCAD software.
Design, simulation and characteristics of the filters (low and high pass, bandpass and bandstop filter) in OrCAD software.
Simulation of digital circuits (sequential and combinational logical basic circuits) in OrCAD software.
Modeling and simulation of power electronic circuits (controlled and uncontrolled rectifier) in OrCAD software.
Modeling and simulation of power electronic circuits (basic inverter circuits, PWM) in OrCAD software.
Methods of difficult simulation (design division, block creation) in OrCAD software.
MATLAB/SIMULINK software introduction, basic features, toolbox, models, blocks and libraries.
Modeling and simulation methods of controlled and uncontrolled, nonreversible and reversible rectifier in MATLAB/SIMULINK software. Modeling and simulation of pulse converter.
Modeling and simulation methods of pulse converter in MATLAB/SIMULINK software. One-quadrant, two-quadrants and four-quadrants connection. Unipolar, bipolar control.
Modeling and simulation methods of frequency converter with voltage-source inverted by and without PWM in MATLAB/SIMULINK software.
Modeling and simulation methods of mechatronic system actuators - electric motors in MATLAB/SIMULINK software.
Modeling and simulation methods of analog and digital regulators (P, PI, PID, PS, PSD regulators) in MATLAB/SIMULINK software.
Modeling and simulation methods of sensors in MATLAB/SIMULINK software. Current sensors, voltage sensors, speed sensors, angle rotor sensors (speed-voltage generator, incremental sensor)
Projects:
Semestral 2 projects elaboration:
- Modeling and simulation of equipment (individual task) in OrCAD software (10 h).
- Modeling and simulation of equipment (individual task) in MATLAB/SIMULINK software (10 h).
Computer labs:
Project creation, scheme entry, material libraries in OrCAD software.
Basic electronic simulation (amplifier, rectifier, limiter) in OrCAD software.
Filters design and simulation (up and down-pass, bandpass and bandstop) in OrCAD software.
Sequential and combinational logical basic circuits design and simulation in OrCAD software.
Simulation of controlled and uncontrolled rectifiers in OrCAD software.
Simulation of one and three phase inverter in OrCAD software.
Simulation of difficult connections (block creation procedure) in OrCAD software.
Simulation of direct voltage semiconductor convertors (controlled, uncontrolled rectifier, pulse converters) in MATLAB/SIMULINK software.
Simulation of controlled and uncontrolled rectifier, pulse convertors in connection with direct current motor in MATLAB/SIMULINK software.
Simulation of semiconductor alternate voltage converter - indirect frequency converter with voltage inverter - in MATLAB/SIMULINK software.
Simulation of indirect frequency converter with voltage inverter in connection with induction motor in MATLAB/SIMULINK software.
Simulation of regulators and sensors in MATLAB/SIMULINK software (P, PI, PS, PID, PSD regulators, incremental sensors).
Simpler regulation structure simulation in MATLAB/SIMULINK software.
More difficult regulation structure simulation in MATLAB/SIMULINK software.