Presentation is loading. Please wait.

Presentation is loading. Please wait.

Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 EE 1106 : Introduction to EE Freshman Practicum Lecture-Lab: Introduction to signals and systems,

Published byIrene Bell Modified over 9 years ago

Similar presentations

Presentation on theme: "Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 EE 1106 : Introduction to EE Freshman Practicum Lecture-Lab: Introduction to signals and systems,"— Presentation transcript:

1 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 EE 1106 : Introduction to EE Freshman Practicum Lecture-Lab: Introduction to signals and systems, RLC dynamical circuit

2 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Signals and Systems –Signal: Any time dependent physical quantity Constant – DC, Variable - AC Electrical, Optical, Mechanical –System: Object in which input signals interact to produce output signals. Linear System has some have fundamental properties that make it predictable: –Sinusoid in, sinusoid out of same frequency (when transients settle) –Double the amplitude in, double the amplitude out (when initial state conditions are zero)

3 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 System Modeling Building mathematical models based on observed data, or other insight for the system. –Parametric models (analytical): ODE, PDE –Non-parametric models: graphical models - plots, look-up cause-effect tables –Mental models – Driving a car and using the cause-effect knowledge –Simulation models – Many interconnect subroutines, objects in video game

4 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Types of Models White Box –derived from first principles laws: physical, chemical, biological, economical, etc. –Examples: RLC circuits, MSD mechanical models (electromechanical system models). Black Box –model is entirely derived from measured data –Example: regression (data fit) Gray Box – combination of the two

5 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 White Box Systems: Electrical Defined by Electro-Magnetic Laws of Physics: Ohm’s Law, Kirchoff’s Laws, Maxwell’s Equations Example: Resistor, Capacitor, Inductor

6 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Physics of an Inductor Truncated hollow cylinder of permeability,  area, A, and length l m. Coil of N turns Flux linkage, Core flux,  Coil current, i

7 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Voltage Drop Across Inductor Note Passive Sign Convention

8 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Energy in an Inductor Stored Energy

9 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Physics of a Capacitor Plate separation distance, g Plate area, A Current, i, and Charge, q. Dielectric material of permittivity, . Voltage across plates

10 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Physics of a Capacitor Current: Capacitance: Note Passive Sign Convention:

11 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Energy in a Capacitor Stored Energy:

12 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Inductors in Series

13 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Capacitors in Parallel

14 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Inductors in Parallel

15 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Capacitors in Series

16 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 RLC Circuit as a System Kirchoff’s Voltage Law (KVL):

17 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 INPUT SYSTEM OUTPUT RC Circuit as an Example of First order Linear Time Invariant System from http://www.electronics-tutorials.ws/rc/rc_1.html with modificationshttp://www.electronics-tutorials.ws/rc/rc_1.html

18 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 SYSTEM INPUT OUTPUT INPUT RC Circuit as an Example of First order Linear Time Invariant System from http://www.electronics-tutorials.ws/rc/rc_3.html with modificationshttp://www.electronics-tutorials.ws/rc/rc_3.html OUTPUT

19 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 SYSTEM INPUT OUTPUT INPUT RC Circuit as an Example of First order Linear Time Invariant System from http://www.electronics-tutorials.ws/rc/rc_3.html with modificationshttp://www.electronics-tutorials.ws/rc/rc_3.html OUTPUT

20 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 SYSTEM INPUT OUTPUT INPUT RC Circuit as an Example of First order Linear Time Invariant System from http://www.electronics-tutorials.ws/rc/rc_3.html with modificationshttp://www.electronics-tutorials.ws/rc/rc_3.html OUTPUT

21 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Integrator and Low Pass Filter from http://www.electronics-tutorials.ws/rc/rc_3.htmlhttp://www.electronics-tutorials.ws/rc/rc_3.html

22 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Differentiator and High Pass Filter from http://www.electronics-tutorials.ws/rc/rc_3.htmlhttp://www.electronics-tutorials.ws/rc/rc_3.html

23 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Lab 9 Circuits

24 Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 Next Time: MSP 430, Bring Computer and Install Code Composer 24

Download ppt "Dan O. Popa, Intro to EE, Freshman Practicum, Spring 2015 EE 1106 : Introduction to EE Freshman Practicum Lecture-Lab: Introduction to signals and systems,"

Similar presentations

E E 2315 Lecture 10 Natural and Step Responses of RL and RC Circuits.

E E 2315 Lecture 10 Natural and Step Responses of RL and RC Circuits.
First Order Circuit Capacitors and inductors RC and RL circuits.

First Order Circuit Capacitors and inductors RC and RL circuits.
TOC 1 Physics 212 and 222 Circuit Elements and Electric Power Resistors Capacitors Inductors.

TOC 1 Physics 212 and 222 Circuit Elements and Electric Power Resistors Capacitors Inductors.
Capacitors and Inductors 1 svbitec.wordpress.com Vishal Jethva.

Capacitors and Inductors 1 svbitec.wordpress.com Vishal Jethva.
Lesson 14 – Capacitors & Inductors. Learning Objectives Define capacitance and state its symbol and unit of measurement. Predict the capacitance of a.

Lesson 14 – Capacitors & Inductors. Learning Objectives Define capacitance and state its symbol and unit of measurement. Predict the capacitance of a.
CAPACITANCE AND INDUCTANCE Introduces two passive, energy storing devices: Capacitors and Inductors LEARNING GOALS CAPACITORS Store energy in their electric.

CAPACITANCE AND INDUCTANCE Introduces two passive, energy storing devices: Capacitors and Inductors LEARNING GOALS CAPACITORS Store energy in their electric.
ELE1110C – Tutorial 2 20-9-2006 Luk Chun Pong Outline -Basic concepts of Capacitors -RC circuits (DC) -Examples.

ELE1110C – Tutorial Luk Chun Pong Outline -Basic concepts of Capacitors -RC circuits (DC) -Examples.
Circuits Resistors, Capacitors and Inductors 1 Resistors Capacitors Inductors.

Circuits Resistors, Capacitors and Inductors 1 Resistors Capacitors Inductors.
AC Review Discussion D12.2. Passive Circuit Elements i i i + -

AC Review Discussion D12.2. Passive Circuit Elements i i i + -
Circuit Theory What you will use this for –Power management –Signals between subsystems –Possible analog data types How the knowledge will help you –Understanding.

Circuit Theory What you will use this for –Power management –Signals between subsystems –Possible analog data types How the knowledge will help you –Understanding.
Measurements &Testing (1)a CSE 323a 1. Grading Scheme 50Semester work 50Lab exam 50Final exam 150Total Course webpage

Measurements &Testing (1)a CSE 323a 1. Grading Scheme 50Semester work 50Lab exam 50Final exam 150Total Course webpage
Inductors. Energy Storage Current passing through a coil causes a magnetic field  Energy is stored in the field  Similar to the energy stored by capacitors.

Inductors. Energy Storage Current passing through a coil causes a magnetic field  Energy is stored in the field  Similar to the energy stored by capacitors.
Chapter 22 Alternating-Current Circuits and Machines.

Chapter 22 Alternating-Current Circuits and Machines.
ES250: Electrical Science

ES250: Electrical Science
Electrical Engineering for Civil Engineer Dr. Basim Zafar Spring 2013 EE for CE Course Outlines MID TERM I Dr. Basim Zafar.

Electrical Engineering for Civil Engineer Dr. Basim Zafar Spring 2013 EE for CE Course Outlines MID TERM I Dr. Basim Zafar.
Electrical Circuits Dr. Sarika Khushalani Solanki

Electrical Circuits Dr. Sarika Khushalani Solanki
Overview of ENGR 220 Circuits 1 Fall 2005 Harding University Jonathan White.

Overview of ENGR 220 Circuits 1 Fall 2005 Harding University Jonathan White.
Passive components and circuits

Passive components and circuits
Lecture 10 - Step Response of Series and Parallel RLC Circuits

Lecture 10 - Step Response of Series and Parallel RLC Circuits
Fundamentals of Electric Circuits Chapter 7

Fundamentals of Electric Circuits Chapter 7

Similar presentations

Ads by Google