Presentation is loading. Please wait.

Presentation is loading. Please wait.

ECE 201 Circuit Theory I1 Impedance and Reactance In general, Resistance Inductance Capacitance Z = Impedance.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "ECE 201 Circuit Theory I1 Impedance and Reactance In general, Resistance Inductance Capacitance Z = Impedance."— Presentation transcript:

1 ECE 201 Circuit Theory I1 Impedance and Reactance In general, Resistance Inductance Capacitance Z = Impedance

2 ECE 201 Circuit Theory I2 Definitions for Impedance Impedance in the frequency domain is analogous to resistance, capacitance, and inductance in the time domain The imaginary part of the impedance is called the “Reactance” The units of Impedance and Reactance are Ohms

3 ECE 201 Circuit Theory I3 Impedance and Reactance Values Circuit Element Resistance Inductance Capacitance Impedance Reactance R -------------- jωL ωL j(-1/ωC) -1/ωC

4 ECE 201 Circuit Theory I4 Assessment Problem #9.3 The current in a 20 mH inductor is 10cos(10,000t+30  )mA. Calculate the inductive reactance ωL = (10,000)(20X10 -3 ) = 200 Ω Calculate the impedance of the inductor jωL = j200 Ω Calculate the phasor voltage V V = (200  90  )(10X10 -3  30  ) = 2  (120  )

5 ECE 201 Circuit Theory I5 Assessment Problem #9.3 (continued) Calculate the steady-state expression for the inductor voltage v(t) v(t) = 2cos(10,000t+120  ) volts

Download ppt "ECE 201 Circuit Theory I1 Impedance and Reactance In general, Resistance Inductance Capacitance Z = Impedance."

Similar presentations

REVIEW OF COMPLEX NUMBERS

REVIEW OF COMPLEX NUMBERS
RL-RC Circuits & Applications SVES Circuits Theory

RL-RC Circuits & Applications SVES Circuits Theory
Passive Circuit Elements in the Frequency Domain

Passive Circuit Elements in the Frequency Domain
Lecture 211 Phasor Diagrams and Impedance. Lecture 212 Set Phasors on Stun 1.Sinusoids-amplitude, frequency and phase (Section 8.1) 2.Phasors-amplitude.

Lecture 211 Phasor Diagrams and Impedance. Lecture 212 Set Phasors on Stun 1.Sinusoids-amplitude, frequency and phase (Section 8.1) 2.Phasors-amplitude.
Capacitor: Let us consider the following circuit consisting of an ac voltage source and a capacitor. The current has a phase shift of +  /2 relative to.

Capacitor: Let us consider the following circuit consisting of an ac voltage source and a capacitor. The current has a phase shift of +  /2 relative to.
ENGR-43_Prob_5-80_Dual-Src_Complex-Pwr_Solution_.pptx 1 Bruce Mayer, PE Engineering 43: Electrical Circuits & Devices Bruce Mayer,

ENGR-43_Prob_5-80_Dual-Src_Complex-Pwr_Solution_.pptx 1 Bruce Mayer, PE Engineering 43: Electrical Circuits & Devices Bruce Mayer,
Department of Electronic Engineering BASIC ELECTRONIC ENGINEERING Steady-State Sinusoidal Analysis.

Department of Electronic Engineering BASIC ELECTRONIC ENGINEERING Steady-State Sinusoidal Analysis.
Lecture 211 Impedance and Admittance (7.5) Prof. Phillips April 18, 2003.

Lecture 211 Impedance and Admittance (7.5) Prof. Phillips April 18, 2003.
Lecture 11 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

Lecture 11 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.
Copyright © 2008 Pearson Education, Inc., publishing as Pearson Addison-Wesley Chapter 36. AC Circuits Today, a “grid” of AC electrical distribution systems.

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Addison-Wesley Chapter 36. AC Circuits Today, a “grid” of AC electrical distribution systems.
ECE 201 Circuit Theory I1 Instantaneous Power. ECE 201 Circuit Theory I2 Reference for t = 0 Call t = 0 when the current is passing through a positive.

ECE 201 Circuit Theory I1 Instantaneous Power. ECE 201 Circuit Theory I2 Reference for t = 0 Call t = 0 when the current is passing through a positive.
ECE201 Lect-61 Series and Parallel Resistor Combinations (2.5, 8.5) Dr. Holbert February 6, 2006.

ECE201 Lect-61 Series and Parallel Resistor Combinations (2.5, 8.5) Dr. Holbert February 6, 2006.
Phasors Complex numbers LCR Oscillator circuit: An example Transient and Steady States Lecture 18. System Response II 1.

Phasors Complex numbers LCR Oscillator circuit: An example Transient and Steady States Lecture 18. System Response II 1.
Series-Parallel Combinations of Inductance and Capacitance

Series-Parallel Combinations of Inductance and Capacitance
ECE201 Lect-51 Phasor Relationships for Circuit Elements (8.4); Impedance and Admittance (8.5) Dr. Holbert February 1, 2006.

ECE201 Lect-51 Phasor Relationships for Circuit Elements (8.4); Impedance and Admittance (8.5) Dr. Holbert February 1, 2006.
AC i-V relationship for R, L, and C Resistive Load Source v S (t)  Asin  t V R and i R are in phase Phasor representation: v S (t) =Asin  t = Acos(

AC i-V relationship for R, L, and C Resistive Load Source v S (t)  Asin  t V R and i R are in phase Phasor representation: v S (t) =Asin  t = Acos(
Lecture 221 Series and Parallel Resistors/Impedances.

Lecture 221 Series and Parallel Resistors/Impedances.
R,L, and C Elements and the Impedance Concept

R,L, and C Elements and the Impedance Concept
Example 10.5 1ECE 201 Circuit Theory 1. A load having an impedance of 39 + j26 Ω is fed from a voltage source through a line having an impedance of 1.

Example ECE 201 Circuit Theory 1. A load having an impedance of 39 + j26 Ω is fed from a voltage source through a line having an impedance of 1.
Lesson 19 Impedance. Learning Objectives For purely resistive, inductive and capacitive elements define the voltage and current phase differences. Define.

Lesson 19 Impedance. Learning Objectives For purely resistive, inductive and capacitive elements define the voltage and current phase differences. Define.

Similar presentations

Ads by Google