Presentation is loading. Please wait.

Presentation is loading. Please wait.

See online explanation at AC Circuits.

Published byClaire Thomas Modified over 8 years ago

Similar presentations

Presentation on theme: "See online explanation at AC Circuits."— Presentation transcript:

1 See online explanation at http://www.physclips.unsw.edu.au/jw/AC.html AC Circuits

2 Total Energy Total energy of the system is the sum of the electric and magnetic field energy. CL I B CL ++++  E

3 RLC Circuit After the switch is closed Kirchoff’s rules gives Solution: Critical Damping: CL I ++++   + R

4 AC Source The voltage of the power supply follows that of a cosine function. Represent the source as a vector rotating in the complex plane. Real component of vector is the instantaneous voltage. Im Re v VmVm  t VmVm -V m  t v

5 AC & Resistors Voltage and current are in phase,  = 0. vR v i Im Re v VmVm  t i From Kirchoff

6 Power Power used by a resistor is Average power is Effective voltage and current are

7 AC & Inductors Voltage leads current by 90°,  =  /2. Im Re v VmVm  t i v L v i  From Kirchoff Reactance

8 AC & Capacitors Voltage lags current by 90°,  = -  /2. Im Re v VmVm  t i vC From Kirchoff Reactance v i 

9 LRC Circuits & AC C L R v Re Im vLvL vCvC vRvR i In a series circuit current is the same everywhere, so add voltages as phasors. Phasors are rotating vectors in the complex plane. Assume we are at t = 0s.

10 Impedance Re Im vSvS vLvL vCvC vRvR   Express voltage as current times impedance.

11 ELI the ICE man At resonance,  0, X L =X C and  = 0. For  <  0, the circuit is capacitive and current leads voltage. Also  < 0. For  >  0, the circuit is inductive and voltage leads current. Also  > 0.

12 Quality Factor As the AC frequency approaches resonance,  0, the current increases. Quality factor indicates how sharp the current peak is around resonance. 00 ImIm Low Q High Q

13 Transformers A transformer consists of two sets of coils which share the same magnetic flux. AC current through the primary generates a changing magnetic flux, which generates a changing voltage on the secondary. RLRL v PrimarySecondary

14 Power Lines Ex. How much power is lost if 120V is delivered through a 10  transmission line to a 10  load? Compare that to transmission at 12,000 V and then stepped down to 120V at the load. RLRL 120V 12,000V RTRT RLRL 120V RTRT

15 Power Transmission Long Distance: 230 kV To Home: 240 V Through Town: 20 kV Less resistive loss at low current.

Download ppt "See online explanation at AC Circuits."

Similar presentations

AC & Capacitors Does Kirchoffs Voltage Law apply to AC Circuits? V R =6.0V V C = 8.0VV s = 10.0V.

AC & Capacitors Does Kirchoffs Voltage Law apply to AC Circuits? V R =6.0V V C = 8.0VV s = 10.0V.
AC CIRCUITS Every slide contains valuable and need-to-know information that has to be understood and retained before proceeding. Throughout this PowerPoint.

AC CIRCUITS Every slide contains valuable and need-to-know information that has to be understood and retained before proceeding. Throughout this PowerPoint.
Magnetism Alternating-Current Circuits

Magnetism Alternating-Current Circuits
Electromagnetic Oscillations and Alternating Current

Electromagnetic Oscillations and Alternating Current
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.
Q31.1 A resistor is connected across an ac source as shown. Which graph correctly shows the instantaneous current through the resistor and the instantaneous.

Q31.1 A resistor is connected across an ac source as shown. Which graph correctly shows the instantaneous current through the resistor and the instantaneous.
AC power. Resonance. Transformers.

AC power. Resonance. Transformers.
Alternating Current Circuits

Alternating Current Circuits
Lecture 20-1 Alternating Current (AC) = Electric current that changes direction periodically ac generator is a device which creates an ac emf/current.

Lecture 20-1 Alternating Current (AC) = Electric current that changes direction periodically ac generator is a device which creates an ac emf/current.
AC Review Discussion D12.2. Passive Circuit Elements i i i + -

AC Review Discussion D12.2. Passive Circuit Elements i i i + -
Capacitor Load The capacitive reactance of a capacitor

Capacitor Load The capacitive reactance of a capacitor
Copyright R. Janow – Spring 2015 Electricity and Magnetism Lecture 13 - Physics 121 Electromagnetic Oscillations in LC & LCR Circuits, Y&F Chapter 30,

Copyright R. Janow – Spring 2015 Electricity and Magnetism Lecture 13 - Physics 121 Electromagnetic Oscillations in LC & LCR Circuits, Y&F Chapter 30,
Lesson 20 Series AC Circuits. Learning Objectives Compute the total impedance for a series AC circuit. Apply Ohm’s Law, Kirchhoff’s Voltage Law and the.

Lesson 20 Series AC Circuits. Learning Objectives Compute the total impedance for a series AC circuit. Apply Ohm’s Law, Kirchhoff’s Voltage Law and the.
Copyright © 2009 Pearson Education, Inc. Lecture 10 – AC Circuits.

Copyright © 2009 Pearson Education, Inc. Lecture 10 – AC Circuits.
ECE 201 Circuit Theory I1 Passive elements in the frequency domain Consider a resistor, R, in the time domain + v - i.

ECE 201 Circuit Theory I1 Passive elements in the frequency domain Consider a resistor, R, in the time domain + v - i.
As the frequency supplied by the generator drops lower, (1) bulb A brightens, bulb B dims. (2) bulb A brightens, bulb B remains unchanged. (3) bulb A dims,

As the frequency supplied by the generator drops lower, (1) bulb A brightens, bulb B dims. (2) bulb A brightens, bulb B remains unchanged. (3) bulb A dims,
Chapter 32A – AC Circuits A PowerPoint Presentation by

Chapter 32A – AC Circuits A PowerPoint Presentation by
Consider a long solenoid of cross-sectional area A, with number of turns N, and of length l. The flux is The magnitude of B is given by: Therefore, The.

Consider a long solenoid of cross-sectional area A, with number of turns N, and of length l. The flux is The magnitude of B is given by: Therefore, The.
1 My Chapter 21 Lecture Outline. 2 Chapter 21: Alternating Currents Sinusoidal Voltages and Currents Capacitors, Resistors, and Inductors in AC Circuits.

1 My Chapter 21 Lecture Outline. 2 Chapter 21: Alternating Currents Sinusoidal Voltages and Currents Capacitors, Resistors, and Inductors in AC Circuits.
Lab 8: AC RLC Resonant Circuits Only 4 more labs to go!! DC – Direct Current time current AC – Alternating Current time current When using AC circuits,

Lab 8: AC RLC Resonant Circuits Only 4 more labs to go!! DC – Direct Current time current AC – Alternating Current time current When using AC circuits,

Similar presentations

Ads by Google