E40M Charge, Current, Voltage and Electrical Circuits KCL, KVL, Power & Energy Flow. M. Horowitz, J. Plummer, R. Howe 1

Similar documents
E40M Charge, Current, Voltage and Electrical Circuits. M. Horowitz, J. Plummer, R. Howe 1

E40M Review - Part 1

Notes on Electricity (Circuits)

Notes on Electricity (Circuits)

Lecture 1. Electrical Transport

Chapter 33 - Electric Fields and Potential. Chapter 34 - Electric Current

Lecture #3. Review: Power

Electric Current. Note: Current has polarity. EECS 42, Spring 2005 Week 2a 1

Electricity Courseware Instructions

Chapter 2. Engr228 Circuit Analysis. Dr Curtis Nelson

Kirchhoff's Laws and Circuit Analysis (EC 2)

Basic Electrical Circuits Analysis ECE 221

Chapter 1: Circuit Variables

Engineering Fundamentals and Problem Solving, 6e

Introduction to Electrical and Computer Engineering. International System of Units (SI)

2. Basic Components and Electrical Circuits

CHARGES IN AN ELECTRIC FIELD

ELECTRONICS E # 1 FUNDAMENTALS 2/2/2011

ECE 1311: Electric Circuits. Chapter 2: Basic laws

ELECTRONICS. EE 42/100 Lecture 2: Charge, Current, Voltage, and Circuits. Revised 1/18/2012 (9:04PM) Prof. Ali M. Niknejad

Discussion Question 6A

ES250: Electrical Science. HW1: Electric Circuit Variables, Elements and Kirchhoff s Laws

In this unit, we will examine the movement of electrons, which we call CURRENT ELECTRICITY.

DE1.3 - Electronics 1

Circuit Analysis I (ENGR 2405) Chapter 1 Review: Charge, Current, Voltage, Power

Electricity. From the word Elektron Greek for amber

Electricity. Prepared by Juan Blázquez, Alissa Gildemann. Electric charge is a property of all objects. It is responsible for electrical phenomena.

Lecture #2 Charge, Current, Energy, Voltage Power Kirchhoff s Current Law Kirchhoff s Voltage Law

CHAPTER ONE. 1.1 International System of Units and scientific notation : Basic Units: Quantity Basic unit Symbol as shown in table 1

ENGR 2405 Class No Electric Circuits I

Chapter 21 Electric Current and Circuits

Section 1 Electric Charge and Force

16.1 Electrical Current

Physics 7B-1 (A/B) Professor Cebra. Winter 2010 Lecture 2. Simple Circuits. Slide 1 of 20

Chapter 18 Electric Currents

Q-2 How many coulombs of charge leave the power supply during each second?

ECE 2100 Circuit Analysis

Charge The most basic quantity in an electric circuit is the electric charge. Charge is an electrical property of the atomic particles of which matter

Outline. Week 5: Circuits. Course Notes: 3.5. Goals: Use linear algebra to determine voltage drops and branch currents.

Direct Current Circuits. February 18, 2014 Physics for Scientists & Engineers 2, Chapter 26 1

What Makes Things Electrical?

Chapter 3: Electric Current and Direct-Current Circuit

Direct Current (DC): In a DC circuit the current and voltage are constant as a function of time. Power (P): Rate of doing work P = dw/dt units = Watts

Test Review Electricity

BFF1303: ELECTRICAL / ELECTRONICS ENGINEERING

Chapter 27. Circuits

1 of 23. Boardworks Ltd Electrical Power

1. Review of Circuit Theory Concepts

An Introduction to Electricity and Circuits

Capacitance. A different kind of capacitor: Work must be done to charge a capacitor. Capacitors in circuits. Capacitor connected to a battery

52 VOLTAGE, CURRENT, RESISTANCE, AND POWER

E40M Capacitors. M. Horowitz, J. Plummer, R. Howe

Science Olympiad Circuit Lab

NATIONAL 5 PHYSICS ELECTRICITY

INTRODUCTION TO ELECTRONICS

Introduction to Electric Circuit Analysis

Physics 1214 Chapter 19: Current, Resistance, and Direct-Current Circuits

Experiment 2: Analysis and Measurement of Resistive Circuit Parameters

A Review of Circuitry

Electricity. Chapter 21

Review of Circuit Analysis

REUNotes08-CircuitBasics May 28, 2008

Phy301- Circuit Theory

Electric Current & DC Circuits

CHARGE AND ELECTRIC CURRENT:

Fundamental of Electrical circuits

EE40 KVL KCL. Prof. Nathan Cheung 09/01/2009. Reading: Hambley Chapter 1

Basic Electricity. Unit 2 Basic Instrumentation

ENGG 225. David Ng. Winter January 9, Circuits, Currents, and Voltages... 5

Unit WorkBook 1 Level 4 ENG U19 Electrical and Electronic Principles 2018 UniCourse Ltd. All Rights Reserved. Sample

Lecture 1. EE70 Fall 2007

Objects usually are charged up through the transfer of electrons from one object to the other.

NAME PERIOD GUIDESHEET UNIT 2 WORK SUBUNIT - WORK IN ELECTRICAL SYSTEMS ACTIVITY LESSON DESCRIPTION SCORE/POINTS

Lecture 24 Chapter 22 Electrostatics II Electric Field & Potential. Chapter 23 Electric Current. From last time--

Electrostatics and Charge. Creating Electric Fields

FE Review 2/2/2011. Electric Charge. Electric Energy ELECTRONICS # 1 FUNDAMENTALS

Have out the 22 vocabulary and write the number completed over 11. Get the ch. 22 study guide from the brown table and do the first 11.

I depicted in Figure 1. When a current of I amps (A) flows through the resistor, a voltage drop V AB volts (V) appears across the terminals A and B.

ENGR 40M course notes. June 3, 2018

Chapter 3: Electric Current And Direct-Current Circuits

Note on Posted Slides. Flow of Charge. Electricity/Water Analogy: Continuing the Analogy. Electric Current

Relating Voltage, Current and Resistance

Electric Current & DC Circuits How to Use this File Electric Current & DC Circuits Click on the topic to go to that section Circuits

10/14/2018. Current. Current. QuickCheck 30.3

Electrical measurements:

Basics of Network Theory (Part-I)

Circuits. Electric Current & DC Circuits. Slide 1 / 127. Slide 2 / 127. Slide 3 / 127. Slide 4 / 127. Slide 5 / 127. Slide 6 / 127

Come & Join Us at VUSTUDENTS.net

Electric Current. Chapter 17. Electric Current, cont QUICK QUIZ Current and Resistance. Sections: 1, 3, 4, 6, 7, 9

Direct-Current Circuits. Physics 231 Lecture 6-1

Electric Currents. Resistors (Chapters 27-28)

B: Know Circuit Vocabulary: Multiple Choice Level 1 Prerequisites: None Points to: Know Circuit Vocabulary (Short Answer)

LESSON 5: ELECTRICITY II

Revision checklist SP10. SP10 Electricity and Circuits. SP10a Electric circuits. SP10b Current and potential difference

ELECTRICITY. Electric Circuit. What do you already know about it? Do Smarty Demo 5/30/2010. Electric Current. Voltage? Resistance? Current?

Coulomb s constant k = 9x10 9 N m 2 /C 2

Review. Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.

Chapter 17. Current and Resistance. Sections: 1, 3, 4, 6, 7, 9

1.1. Unit 1. Circuit Basics KVL, KCL, Ohm's Law LED Outputs Buttons/Switch Inputs

Electrical Circuits. Sources of Voltage

Transcription:

E40M Charge, Current, Voltage and Electrical Circuits KCL, KVL, Power & Energy Flow M. Horowitz, J. Plummer, R. Howe 1

Reading For Topics In These Slides Chapter 1 in the course reader OR A&L 1.6-1.7 - Two terminal elements Voltage source; resistor; wires A&L 2.1-2.2 Circuit Laws KCL & KVL M. Horowitz, J. Plummer, R. Howe 2

Understanding the Solar Charger Lab Project #1 We need to understand how: 1. Current, voltage and power behave in circuits 2. Electrical devices constrain current and voltage 3. Diodes including solar cells work 4. Voltage converter works (later in the quarter). M. Horowitz, J. Plummer, R. Howe 3

What Does It Do? Takes energy from sun light Stores it Provides that energy later To charge your cellphone Create reading light, flashlight How does it do that? M. Horowitz, J. Plummer, R. Howe 4

How Our Solar Charger Works Converts some energy from sunlight into an electrical signal That electrical signal connects to a rechargeable battery So energy flows from solar cell to battery Another electrical signal connects the battery to the USB port So energy can flow to the USB, and charge your phone So we need to understand electrical signals M. Horowitz, J. Plummer, R. Howe 5

Fluidic Circuits Electrical Circuits Flow Current: i Reservoir Pump Generator 5 V Voltage Source Device Pond M. Horowitz, J. Plummer, R. Howe 6

Electrical Charge Current: i In electrical systems current is carried by charges, usually electrons 5 V Voltage Source wire Device Charge is measured in Coulombs 1 coulomb is a lot of charge Each electron has a charge of -1.6 x 10-19 Coulombs Charge can flow (move) in a material that conducts wires, devices (power is dissipated if they have resistance) Like magnets, opposite charges attract; like charges repel. M. Horowitz, J. Plummer, R. Howe 7

Electrical Current Current: i Moving charge is called current Current is the flow of charge per second Past some measured point 5 V Voltage Source Device Its unit is the Ampere, usually called amps and abbreviated A 1 A = 1 Coulomb/sec = 1 Cs -1 The symbol for current is usually i M. Horowitz, J. Plummer, R. Howe 8

Electrical Current is Continuous i = 1 A i =? The current flow in a wire remains the same along it, since there are no leaks of charge out of the wire 5 V Voltage Source Device The current flows in one terminal of the device and out the other i =? i =? The wires and the device are neutral (zero charge), even though current is flowing through them M. Horowitz, J. Plummer, R. Howe 9

Circuits with Branches: Constraints on Currents (KCL) i = 1 A i = 1 A The black dot is an electrical connection between the wires i = 1 A What is the value of the current i 2? i 1 = 0.3 A i 2 =? M. Horowitz, J. Plummer, R. Howe 10

If You Think of Charge as a Fluid Current: i Current is then fluid flow Current constraints are then about fluid conservation 5 V Voltage Source Device The fluid in any object is constant But we know that a fluid doesn t move unless it is pushed What pushes charge to make it move? A Voltage Source M. Horowitz, J. Plummer, R. Howe 11

Electrical Voltage Current: i Voltage is a measure of the potential energy per unit charge It is measured in Volts Which has the units of Joules per Coulomb. 5 V Voltage Source Device The charge on the higher energy side will move through an external path (a wire) to neutralize the negative charge on the other side of the device. This causes the charge to flow in the wire, as well as through the device. M. Horowitz, J. Plummer, R. Howe 12

What is a Battery? It is a chemical pump for electrons! There is a pair of chemical reactions that pump electrons from anode to cathode Actually, a battery absorbs electrons at the anode and creates electrons at cathode (with ions moving through the middle), but it has exactly the same effect The battery voltage is the potential energy given to electrons as a result of this pump. The voltage of the battery depends on chemicals Generally either 1.5 V, or multiples Or around 3.5 V (lithium) M. Horowitz, J. Plummer, R. Howe 13

Energy and Power Current: i The battery or power supply provides power to the device. (P = i V) Since energy is conserved, the device does something with this power 5 V Voltage Source Device Resistor turns it into heat LED turns it into light Logic circuit computes something Motor turns it into mechanical energy Pump turns it into potential energy by pumping water uphill....... M. Horowitz, J. Plummer, R. Howe 14

Electrical Devices Current: i We ll learn about many different electrical devices. 5 V Voltage Source Device Resistors Diodes Inductors Capacitors Light Emitting Diodes Motors Transistors M. Horowitz, J. Plummer, R. Howe 15

Electrical Devices Current: i Each electrical device responds differently to the voltage and current provided to it. 5 V Voltage Source Device Electrical engineers combine these devices to do interesting and useful things. You ll build and demonstrate several interesting examples in E40M. M. Horowitz, J. Plummer, R. Howe 16

Electrical Devices Some Properties Current: i Charge neutral; i.e., charge entering = charge leaving i IN Batteries or power supplies separate charge but the overall device is still charge neutral 5 V Voltage Source Device i OUT The net current into any device is always zero, so i IN = i OUT Current that flows into one end of a wire must flow out the other Often called KCL (Kirchhoff s Current Law) Dissipate power (P = i V) M. Horowitz, J. Plummer, R. Howe 17

Electrical Circuit Terminology Current - i Node Device Device 5 V Voltage Source Device Device Devices in Parallel Device Device Wire or Lead Devices in Series M. Horowitz, J. Plummer, R. Howe 18

Electrical Circuit Terminology Connected Not Connected Example: M. Horowitz, J. Plummer, R. Howe 19

Kirchhoff s Current and Voltage Laws (KCL & KVL) V 1 - i 1 i 2 i 3 V 3 - V 2 - Kirchhoff s Current Law (KCL) states that the current flowing out of any node must equal the current flowing in. So, for example, i 1 = i 2 i 3 Kirchhoff s Voltage Law (KVL) states that the algebraic sum of the voltages around any closed path must be zero. So, for example, V1 V 2 V 3 = 0 M. Horowitz, J. Plummer, R. Howe 20

Labeling (Measuring) Voltage and Current Labels alone don t indicate current direction. It is a combination of the label and the sign You can pick any polarity and direction you want (you ll get the right answer), but convention is the green choices. Answers may be positive or negative. M. Horowitz, J. Plummer, R. Howe 21

Example #1: Kirchhoff s Voltage Law (KVL) V 4 V 2 V 3 - - - V 5 V 1 - V 7 - - V6 - V 1 V 2 - V 3 - V 4 V 6 V 7 = 0 V 1 V 2 - V 3 V 7 = 0 V 4 V 6 = 0 (Check for consistency) Quiz: What can you say about V 4 and V 5? M. Horowitz, J. Plummer, R. Howe 22

Example #2: Kirchhoff s Current Law (KCL) i 3 i 1 i 2 i 6 i 4 i 7 i 8 i 5 i 10 i 9 i 1 = i 2 = i 10 i 2 = i 3 i 4 i 5 i 3 = i 6 and i 4 = i 7 i 8 = i 9 = i 10 i 5 M. Horowitz, J. Plummer, R. Howe 23

Using KCL and KVL Find the current, and voltages for the circuit below M. Horowitz, J. Plummer, R. Howe 24

Getting Back to the Solar Charger: Energy and Power Look inside: See a number of different devices wired together in a circuit: Need to move energy around And that is done with voltage and current M. Horowitz, J. Plummer, R. Howe 25

Electrical Power and Energy Voltage is electrical potential energy Volt = Joule/Coulomb Means moving 1 Coulomb of charge up 1V requires 1J Remember definition of an amp? Coulomb/sec i 1V - Power consumed/provided in the electrical component (i)*(v) = 1A * 1V = 1 Joule/sec = 1 Watt of power Often the lost energy is converted to heat Power is the rate of energy transfer i.e. Power = Energy/sec or Energy transferred = (Power)(time) M. Horowitz, J. Plummer, R. Howe 26

Getting a Feeling for a Watt Quick physics review Unit of energy Joule = Coulomb Volt Unit of power Watt = Joule/sec = A V If those mean nothing to you You probably know about calories Another unit of energy Calorie = 4 kj (a little c-calorie is only 4 J) 2000 Calories = 10 MJoules 10 MJ/day = 10 7 /(24 60 60) ~ 100W (power you put out) 30% is your brain, so your brain uses around 30W M. Horowitz, J. Plummer, R. Howe 27

Energy Flow The power associated with the red box is: 1A 5V = 5 W Is the box generating or consuming this power? Every charge that enters, also leaves Charge neutral Does the charge leave with more or less potential energy? More is higher voltage, less is lower voltage If it leaves from the Lower voltage lead energy was lost; The box consumed some energy Higher voltage lead energy was gained; The box supplied energy 1 A 5V - M. Horowitz, J. Plummer, R. Howe 28

Energy Flow What generate/dissipates energy The 5 V voltage supply 1 A 5 V The red box - M. Horowitz, J. Plummer, R. Howe 29

Find the Power Dissipated In Each Device First figure out which lead has the higher voltage Then figure out whether current flows into or out of that lead 1 A -1 A 1 A 1 A - 5V 2V -5V 1V - - - M. Horowitz, J. Plummer, R. Howe 30

Standard Prefixes for SI Units Example, if the unit is a meter M. Horowitz, J. Plummer, R. Howe 31

Learning Objectives Charge, Current, Voltage, Electrical Circuits Understand that charge is what makes components electrical Moving charge is called current, and often represented by i Measured in Amps = Coulombs/sec Understand that all components and wires are charge neutral This means that the net charge flowing into an object is 0 KCL - The sum of the currents into an device or wire = 0 The energy that causes the charge to move is called Voltage Measured in Volts = Joules/Coulomb Voltage is a potential energy difference Measured between two nodes M. Horowitz, J. Plummer, R. Howe 32

Learning Objectives KCL, KVL, Energy Flow Sum of voltage drop around any loop of devices is always 0 (KVL); sum of currents into any node is always 0 (KCL). The power consumed by a device is always: The current flowing into the terminal multiplied by The voltage across the device. A voltage source is an electrical device where V = V source and the current is determined by the rest of the circuit Learn SI prefixes M. Horowitz, J. Plummer, R. Howe 33

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback