Ηλεκτρονικά Κυκλώματα και Συστήματα για Έλεγχο, Ανάκτηση και Επεξεργασία Σήματος - (Προηγούμενος τιτλος μαθήματος) Ηλεκτρονικές πλατφόρμες οδήγησης, ελέγχου, ανάκτησης και επεξεργασίας σήματος (ΕΟΗ-06)
Ευάγγελος Δερματάς
Το μάθημα έχει το ακόλουθο περιεχόμενο
Electrical Quantities, Units. Energy and Electrical Power. Passive and Active Elements. Voltage-Current Relations. Resistance-Inductance-Capacitance. Circuit
Diagrams. Nonlinear Resistors. Kirchhoff?s Voltage and Current Law. Circuit Elements in Series and Parallel. Voltage and Current Division. The Branch and Mesh Current Method. The Node Voltage Method. Network Reduction. Input and Output Resistance. Transfer Resistance. Superposition. Th?venin?s and Norton?s Theorems, Maximum Power Transfer. Two-Terminal Resistive Circuits and Devices.
Amplifiers. Feedback in Amplifier Circuits. Operational and instrumentational Amplifiers. Analysis of Circuits Containing Ideal Op Amps, Inverting and non-Inverting Circuits. Summing Circuit, Voltage Follower, Differential and Difference Amplifiers. Circuits Containing Several Op Amps. Integrator and Differentiator Circuits. Analog Computers. Low-Pass and High Pass Filters. Real Op Amps. Comparators. Analog-to-Digital Converters.
Periodic Signals. Sinusoidal Signals. Time Shift and Phase Shift. Combinations of Periodic Functions. The Impulse and the Unit Step Signal. The Exponential Signal. Damped Sinusoids and Random Signals. Capacitor Discharge in a Resistor. The Source-Free RL Circuit. Complex First-Order RL and RC Circuits. Response of First-Order Circuits to a Pulse. Impulse Response of RC and RL Circuits. Summary of Step and Impulse Responses in RC and RL Circuits to Exponential Excitations, Sinusoidal Excitations. First-Order Active Circuits. Series RLC Circuit. Parallel RLC Circuit. Two-Mesh Circuit. Complex Frequency.Generalized Impedance (R, L, C) in s-Domain. Magnitude and Frequency responce. Higher-Order Active Circuits
Sinusoidal Steady-State Circuit Analysis. Elements Responses. Phasors . Impedance and Admittance. Voltage and Current Division in the Frequency Domain. The Mesh Current and Node Voltage Method Th?venin?s and Norton?s Theorems. Superposition of AC components. Power in Sinusoidal Steady State. Average or Real Power. AC Power in R, L, and C. Exchange of Energy between an Inductor and a Capacitor. Complex Power, Apparent Power, and Power Triangle. Parallel-Connected Networks. Maximum Power Transfer. Superposition of Average Powers
Frequency Response. High-Pass and Low-Pass Networks. Half-Power Frequencies. Generalized Two-Port, Two-Element Networks. The Frequency Response and Network Functions. Frequency Response from Pole-Zero Location. Ideal and Practical Filters. Passive and Active Filters. Bandpass Filters and Resonance. RLC Series and parallel Circuit and Resonance. Practical LC Parallel Circuit. First and Second Order Filters. Filter Specifications; Bandwidth, Delay, and Rise Time. Filter Approximations: Butterworth Filters. Filter Design.
The Laplace Transform. Convergence of the Integral. Initial-Value and Final-Value Theorems. Partial-Fractions Expansions. Circuits in the s-Domain. The Network Function and Laplace Transforms. Trigonometric Fourier Series. Exponential Fourier Series. Waveform Synthesis. Effective Values and Power. Applications in Circuit Analysis. Properties of the Fourier Transform
Λιγότερα
Το μάθημα έχει το ακόλουθο περιεχόμενο
Electrical Quantities, Units. Energy and Electrical Power. Passive and Active Elements. Voltage-Current Relations. Resistance-Inductance-Capacitance. Circuit
Diagrams. Nonlinear Resistors. Kirchhoff?s Voltage and Current Law. Circuit Elements in Series and Parallel. Voltage and Current Division. The Branch and Mesh Current Method. The Node Voltage Method. Network Reduction. Input and Output Resistance. Transfer Resistance. Superposition. Th?venin?s and Norton?s Theorems, Maximum Power Transfer. Two-Terminal Resistive Circuits and Devices.
Amplifiers. Feedback in Amplifier Circuits. Operational and instrumentational Amplifiers. Analysis of Circuits Containing Ideal Op Amps, Inverting and non-Inverting Circuits. Summing Circuit, Voltage Follower, Differential and Difference Amplifiers. Circuits Containing Several Op Amps. Integrator and Differentiator Circuits. Analog Computers. Low-Pass and High Pass Filters. Real Op Amps. Comparators. Analog-to-Dig
Το μάθημα έχει το ακόλουθο περιεχόμενο
Electrical Quantities, Units. Energy and Electrical Power. Passive and Active Elements. Voltage-Current Relations. Resistance-Inductance-Capacitance. Circuit
Diagrams. Nonlinear Resistors. Kirchhoff?s Voltage and Current Law. Circuit Elements in Series and Parallel. Voltage and Current Division. The Branch and Mesh Current Method. The Node Voltage Method. Network Reduction. Input and Output Resistance. Transfer Resistance. Superposition. Th?venin?s and Norton?s Theorems, Maximum Power Transfer. Two-Terminal Resistive Circuits and Devices.
Amplifiers. Feedback in Amplifier Circuits. Operational and instrumentational Amplifiers. Analysis of Circuits Containing Ideal Op Amps, Inverting and non-Inverting Circuits. Summing Circuit, Voltage Follower, Differential and Difference Amplifiers. Circuits Containing Several Op Amps. Integrator and Differentiator Circuits. Analog Computers. Low-Pass and High Pass Filters. Real Op Amps. Comparators. Analog-to-Dig
Ηλεκτρισμός, τάση, ρευμα, Ισχύς. Ηλεκτρικά στοιχεία δύο, τριών και τεσσάρων ακροδεκτών. Αντίσταση, πηνίο, πυκνωτής.
Νόμοι του kirchhoff. μέθοδος των κόμβων και νόμος των βρόχων. Σύνδεση σε σειρά και παράλληλα. Θεωρήματα Thevenin και Norton. Μιγαδικοί αριθμοί. Μιγαδική αντίσταση,
Ανάλυση κυκλωμάτων - Θεώρημα υπέρθεσης. Φάσορες. Παθητικά φίλτρα.
Δίοδος, Zenner, δίοδος Schottky. Εφαρμογές: Διακόπτης, ανορθωτής, συλλέκτης υπερτάσεων, σταθεροποίηση και ανύψωση τάσης. Τρανζίστορ BJT. Χαρακτηριστική λειτουργίας. Το τρανζίστορ σαν διακόπτης και ενισχυτής. DC και AC ανάλυση. Εφαρμογές
