E1.1 Analysis Of Circuits
E1.1 Analysis of CircuitsMike BrookesE1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 1 / 16
1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentSources Power Conservation Units and Multipliers SummaryE1.1 Analysis of Circuits (2017-10213)1: IntroductionIntroduction: 1 – 2 / 16
Organization1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentSources Power Conservation Units and Multipliers Summary 18 lectures: feel free to ask questions Buy the textbook: Hayt, Kemmerly & Durbin “Engineering CircuitAnalysis” ISBN: 0071217066 ( 44) or Irwin, Nelms & Patnaik“Engineering Circuit Analysis” ISBN: 1118960637 ( 37) Weekly study group: Problem sheets - KEEP UP TO DATE Fortnightly tutorial: tutorial problems Lecture slides (including animations) and problem sheets answersavailable via Blackboard or from my s/ccts1/ccts1.htm Quite dense: you should understand every word Email me with any errors or confusions in slides or problems/answers Christmas Test in January Exam in June (sample papers solutions available via Blackboard)E1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 3 / 16
Organization1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentSources Power Conservation Units and Multipliers Summary 18 lectures: feel free to ask questions Buy the textbook: Hayt, Kemmerly & Durbin “Engineering CircuitAnalysis” ISBN: 0071217066 ( 44) or Irwin, Nelms & Patnaik“Engineering Circuit Analysis” ISBN: 1118960637 ( 37) Weekly study group: Problem sheets - KEEP UP TO DATE Fortnightly tutorial: tutorial problems Lecture slides (including animations) and problem sheets answersavailable via Blackboard or from my s/ccts1/ccts1.htm Quite dense: you should understand every word Email me with any errors or confusions in slides or problems/answers Christmas Test in January Exam in June (sample papers solutions available via Blackboard)E1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 3 / 16
Organization1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentSources Power Conservation Units and Multipliers Summary 18 lectures: feel free to ask questions Buy the textbook: Hayt, Kemmerly & Durbin “Engineering CircuitAnalysis” ISBN: 0071217066 ( 44) or Irwin, Nelms & Patnaik“Engineering Circuit Analysis” ISBN: 1118960637 ( 37) Weekly study group: Problem sheets - KEEP UP TO DATE Fortnightly tutorial: tutorial problems Lecture slides (including animations) and problem sheets answersavailable via Blackboard or from my s/ccts1/ccts1.htm Quite dense: you should understand every word Email me with any errors or confusions in slides or problems/answers Christmas Test in January Exam in June (sample papers solutions available via Blackboard)E1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 3 / 16
Organization1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentSources Power Conservation Units and Multipliers Summary 18 lectures: feel free to ask questions Buy the textbook: Hayt, Kemmerly & Durbin “Engineering CircuitAnalysis” ISBN: 0071217066 ( 44) or Irwin, Nelms & Patnaik“Engineering Circuit Analysis” ISBN: 1118960637 ( 37) Weekly study group: Problem sheets - KEEP UP TO DATE Fortnightly tutorial: tutorial problems Lecture slides (including animations) and problem sheets answersavailable via Blackboard or from my s/ccts1/ccts1.htm Quite dense: you should understand every word Email me with any errors or confusions in slides or problems/answers Christmas Test in January Exam in June (sample papers solutions available via Blackboard)E1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 3 / 16
Organization1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentSources Power Conservation Units and Multipliers Summary 18 lectures: feel free to ask questions Buy the textbook: Hayt, Kemmerly & Durbin “Engineering CircuitAnalysis” ISBN: 0071217066 ( 44) or Irwin, Nelms & Patnaik“Engineering Circuit Analysis” ISBN: 1118960637 ( 37) Weekly study group: Problem sheets - KEEP UP TO DATE Fortnightly tutorial: tutorial problems Lecture slides (including animations) and problem sheets answersavailable via Blackboard or from my s/ccts1/ccts1.htm Quite dense: you should understand every word Email me with any errors or confusions in slides or problems/answers Christmas Test in January Exam in June (sample papers solutions available via Blackboard)E1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 3 / 16
Organization1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentSources Power Conservation Units and Multipliers Summary 18 lectures: feel free to ask questions Buy the textbook: Hayt, Kemmerly & Durbin “Engineering CircuitAnalysis” ISBN: 0071217066 ( 44) or Irwin, Nelms & Patnaik“Engineering Circuit Analysis” ISBN: 1118960637 ( 37) Weekly study group: Problem sheets - KEEP UP TO DATE Fortnightly tutorial: tutorial problems Lecture slides (including animations) and problem sheets answersavailable via Blackboard or from my s/ccts1/ccts1.htm Quite dense: you should understand every word Email me with any errors or confusions in slides or problems/answers Christmas Test in January Exam in June (sample papers solutions available via Blackboard)E1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 3 / 16
Organization1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentSources Power Conservation Units and Multipliers Summary 18 lectures: feel free to ask questions Buy the textbook: Hayt, Kemmerly & Durbin “Engineering CircuitAnalysis” ISBN: 0071217066 ( 44) or Irwin, Nelms & Patnaik“Engineering Circuit Analysis” ISBN: 1118960637 ( 37) Weekly study group: Problem sheets - KEEP UP TO DATE Fortnightly tutorial: tutorial problems Lecture slides (including animations) and problem sheets answersavailable via Blackboard or from my s/ccts1/ccts1.htm Quite dense: you should understand every word Email me with any errors or confusions in slides or problems/answers Christmas Test in January Exam in June (sample papers solutions available via Blackboard)E1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 3 / 16
Organization1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentSources Power Conservation Units and Multipliers Summary 18 lectures: feel free to ask questions Buy the textbook: Hayt, Kemmerly & Durbin “Engineering CircuitAnalysis” ISBN: 0071217066 ( 44) or Irwin, Nelms & Patnaik“Engineering Circuit Analysis” ISBN: 1118960637 ( 37) Weekly study group: Problem sheets - KEEP UP TO DATE Fortnightly tutorial: tutorial problems Lecture slides (including animations) and problem sheets answersavailable via Blackboard or from my s/ccts1/ccts1.htm Quite dense: you should understand every word Email me with any errors or confusions in slides or problems/answers Christmas Test in January Exam in June (sample papers solutions available via Blackboard)E1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 3 / 16
Organization1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentSources Power Conservation Units and Multipliers Summary 18 lectures: feel free to ask questions Buy the textbook: Hayt, Kemmerly & Durbin “Engineering CircuitAnalysis” ISBN: 0071217066 ( 44) or Irwin, Nelms & Patnaik“Engineering Circuit Analysis” ISBN: 1118960637 ( 37) Weekly study group: Problem sheets - KEEP UP TO DATE Fortnightly tutorial: tutorial problems Lecture slides (including animations) and problem sheets answersavailable via Blackboard or from my s/ccts1/ccts1.htm Quite dense: you should understand every word Email me with any errors or confusions in slides or problems/answers Christmas Test in January Exam in June (sample papers solutions available via Blackboard)E1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 3 / 16
What are circuits?1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and Current A circuit consists of electrical or electronic componentsinterconnected with metal wires Every electrical or electronic device is a circuitSources Power Conservation Units and Multipliers SummaryE1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 4 / 16
What are circuits?1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and Current A circuit consists of electrical or electronic componentsinterconnected with metal wires Every electrical or electronic device is a circuitSources Power Conservation Units and Multipliers SummaryE1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 4 / 16
What are circuits?1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and Current A circuit consists of electrical or electronic componentsinterconnected with metal wires Every electrical or electronic device is a circuitSources Power Conservation Units and Multipliers SummaryBreadboardE1.1 Analysis of Circuits (2017-10213)PrintedIntegratedIntroduction: 1 – 4 / 16
What are circuits?1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and Current A circuit consists of electrical or electronic componentsinterconnected with metal wires Every electrical or electronic device is a circuitSources Power Conservation Units and Multipliers SummaryBreadboardPrintedIntegrated The function of the circuit is determined by which components areused and how they are interconnectedE1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 4 / 16
What are circuits?1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and Current A circuit consists of electrical or electronic componentsinterconnected with metal wires Every electrical or electronic device is a circuitSources Power Conservation Units and Multipliers SummaryBreadboardPrintedIntegrated The function of the circuit is determined by which components areused and how they are interconnected: the physical positioning ofthe components usually has hardly any effect.E1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 4 / 16
Circuit Diagrams1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentA circuit diagram shows the way in which the components are connectedSources Power Conservation Units and Multipliers SummaryE1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 5 / 16
Circuit Diagrams1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentA circuit diagram shows the way in which the components are connected Each component has aspecial symbolSources Power Conservation Units and Multipliers SummaryE1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 5 / 16
Circuit Diagrams1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentA circuit diagram shows the way in which the components are connected Each component has a special symbolThe interconnecting wires areshown as linesSources Power Conservation Units and Multipliers SummaryE1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 5 / 16
Circuit Diagrams1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentA circuit diagram shows the way in which the components are connected Each component has a special symbolThe interconnecting wires areshown as linesSources Power Conservation Units and Multipliers SummaryA node in a circuit is all the points that are connected together via theinterconnecting wires. One of the four nodes in the diagram is coloured red.E1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 5 / 16
Circuit Diagrams1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentA circuit diagram shows the way in which the components are connected Each component has a special symbolThe interconnecting wires areshown as linesSources Power Conservation Units and Multipliers SummaryA node in a circuit is all the points that are connected together via theinterconnecting wires. One of the four nodes in the diagram is coloured red.Assumption: Interconnecting wires have zero resistance so everywherealong a node has the same voltage.E1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 5 / 16
Circuit Diagrams1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentA circuit diagram shows the way in which the components are connected Each component has a special symbolThe interconnecting wires areshown as linesSources Power Conservation Units and Multipliers SummaryA node in a circuit is all the points that are connected together via theinterconnecting wires. One of the four nodes in the diagram is coloured red.Assumption: Interconnecting wires have zero resistance so everywherealong a node has the same voltage.Indicate three meeting wireswith a and crossoverswithout one.JunctionE1.1 Analysis of Circuits (2017-10213)CrossoverBadBetterIntroduction: 1 – 5 / 16
Circuit Diagrams1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentA circuit diagram shows the way in which the components are connected Each component has a special symbolThe interconnecting wires areshown as linesSources Power Conservation Units and Multipliers SummaryA node in a circuit is all the points that are connected together via theinterconnecting wires. One of the four nodes in the diagram is coloured red.Assumption: Interconnecting wires have zero resistance so everywherealong a node has the same voltage.Indicate three meeting wireswith a and crossoverswithout one.JunctionCrossoverBadBetterAvoid having four meeting wires in case the disappears; stagger the wiresinstead.E1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 5 / 16
Charge1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentCharge is an electrical property possessed by some atomic particlesSources Power Conservation Units and Multipliers SummaryE1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 6 / 16
Charge1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentCharge is an electrical property possessed by some atomic particlesCharge is measured in Colombs (abbreviated C)An electron has a charge 1.6 10 19 C, a proton 1.6 10 19 CSources Power Conservation Units and Multipliers SummaryE1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 6 / 16
Charge1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentCharge is an electrical property possessed by some atomic particlesCharge is measured in Colombs (abbreviated C)An electron has a charge 1.6 10 19 C, a proton 1.6 10 19 CUnlike charges attract, like charges repelSources Power Conservation Units and Multipliers SummaryE1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 6 / 16
Charge1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentCharge is an electrical property possessed by some atomic particlesCharge is measured in Colombs (abbreviated C)An electron has a charge 1.6 10 19 C, a proton 1.6 10 19 CUnlike charges attract, like charges repel: the force is fantastically hugeSources Power Conservation Units and Multipliers SummaryE1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 6 / 16
Charge1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentCharge is an electrical property possessed by some atomic particlesCharge is measured in Colombs (abbreviated C)An electron has a charge 1.6 10 19 C, a proton 1.6 10 19 CUnlike charges attract, like charges repel: the force is fantastically hugeTwo people 384, 000 km apartEach with 1% extra electronsSources Power Conservation Units and Multipliers SummaryE1.1 Analysis of Circuits (2017-10213)Introduction: 1 – 6 / 16
Charge1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage and CurrentSources Power Conservation Units and Multipliers SummaryCharge is an electrical property possessed by some atomic particlesCharge is measured in Colombs (abbreviated C)An electron has a charge 1.6 10 19 C, a proton 1.6 10 19 CUnlike charges attract, like charges repel: the force is fantastically hugeTwo people 384, 000 km apartEach with 1% extra electronsForce 2
E1.1 Analysis of Circuits (2017-10213) Introduction: 1 – 5 / 16 A circuit diagram shows the way in which the components are connected Each component has a special symbol. Circuit Diagrams 1: Introduction Organization What are circuits? Circuit Diagrams Charge Current Potential Energy Voltage Resistors Cause and Effect Resistor Power Dissipation Voltage .
Contemporary Electric Circuits, 2nd ed., Prentice-Hall, 2008 Class Notes Ch. 9 Page 1 Strangeway, Petersen, Gassert, and Lokken CHAPTER 9 Series–Parallel Analysis of AC Circuits Chapter Outline 9.1 AC Series Circuits 9.2 AC Parallel Circuits 9.3 AC Series–Parallel Circuits 9.4 Analysis of Multiple-Source AC Circuits Using Superposition 9.1 AC SERIES CIRCUITS
Lab Experiment 7 Series-Parallel Circuits and In-circuit resistance measurement Series-Parallel Circuits Most practical circuits in electronics are made up combinations of both series and parallel circuits. These circuits are made up of all sorts of components such as resistors, capacitors, inductors, diodes, transistors and integrated circuits.
1 Introduction to RL and RC Circuits Objective In this exercise, the DC steady state response of simple RL and RC circuits is examined. The transient behavior of RC circuits is also tested. Theory Overview The DC steady state response of RL and RC circuits are essential opposite of each other: that is, once steady state is reached, capacitors behave as open circuits while inductors behave as .
/ Voltage Divider Circuits Voltage Divider Circuits AC Electric Circuits Question 1 Don’t just sit there! Build something!! Learning to mathematically analyze circuits requires much study and practice. Typically, students practice by working through lots of samp
circuits, all the current flows through one path. In parallel circuits, current can flow through two or more paths. Investigations for Chapter 9 In this Investigation, you will compare how two kinds of circuits work by building and observing series and parallel circuits. You will explore an application of these circuits by wiring two switches .
CIRCUITS LABORATORY EXPERIMENT 1 DC Circuits – Measurement and Analysis 1.1 Introduction In today's high technology world, the electrical engineer is faced with the design and analysis of an increasingly wide variety of circuits and systems. However, underlying all of these systems at a fundamental level is the operation of DC circuits. Indeed,
Lesson 1: DC Series Circuits 1-1 Practice Exercise 1-29 Answer Key and Feedback 1-34 Lesson 2: Series-Parallel Circuits 2-1 Part A: Series Circuits Connected in Parallel 2-2 Part B: Parallel Circuits Connected in Series 2-15 IT0334 ii
Introduction to Analog Circuits Prerequisites: PHYS 102 or PHYS 108. Introduction to analog electronics. Theory, design, and application of circuits using passive and active components. or how to understand and design circuits like these Small print: If you haven’t had some circuits in an introductory physics course
