engr 12 engineering circuits
DESCRIPTION
ENGR 12 Engineering Circuits. Tom Rebold. Lecture 1A: Basic Concepts. Today. Why this stuff matters What is voltage and current physics vs common sense Ideal Circuit Element And some real ones: Resistors, Capacitors, Inductors Power and Energy Voltage and Current Sources. - PowerPoint PPT PresentationTRANSCRIPT
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ENGR 12Engineering Circuits
Tom Rebold
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Lecture 1A: Basic Concepts
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Today Why this stuff matters What is voltage and current
physics vs common sense Ideal Circuit Element
And some real ones: Resistors, Capacitors, Inductors
Power and Energy Voltage and Current Sources
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Later This Week…
Ohms Law Network Topology Kirchoff’s Circuit Laws
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Circuit Theory is a Pre-requisite for
Analog and digital circuits Amplifiers, Power System, Integrated Circuits
Communication systems design Filters, Modulation theory, Signal Processing
Computer architectures Control of electro-mechanical systems
Feedback, stability analysis
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Solid State
Devices Transistors Diodes (LED’s, Laser diodes) Photodetectors
Miniaturization of electrical devices Integration of many devices on a single chip
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Digital Logic Based on logic gates, truth tables, and
combinational and sequential logic circuit design
Uses Boolean algebra and Karnaugh maps to develop
minimized
logic circuits.
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Power Systems
Generation of electrical energy Storage of electrical energy Distribution of electrical energy Rotating machinery-generators, motors
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Communications/Signal Processing Transmission of information electrically and
optically Modification of signals
enhancement compression noise reduction filtering
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Controls
Changing system inputs to obtain desired outputs
Feedback Stability
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Introduction to Electric CircuitsIntroduction to Electric Circuits
Here we are going to remind what are:
•Voltage
•Current
•Current flow
•Voltage Sources
•Voltmeter (Multimeter)
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What is Voltage?
V = “Electrical pressure” - measured in volts.
H2O
High Pressure Low Pressure
Figure 1.1
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A battery in an electrical circuit plays the same role as a pump in a water system.
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What Produces Voltage?
V = “Electrical pressure”
A Battery
Electric Power Plant
Lab Power Supply
Nerve Cell
1.5 V
9 V
13,500 V13,500 V
A few Volts
Solar Cell
A few millivoltswhen activated bya synapse
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Other Symbols Used for Other Symbols Used for Specific Voltage Sources Specific Voltage Sources
+_
+
_
Battery
~
Time-varyingsource
Solar Cell
. Generator (power plant)
These are all…
Voltage Sources Figure 1.2
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A Typical Voltage SourceA Typical Voltage Source
Lab Power Supply
Remember: A voltage is measured between two points
This supply goes upto 10 V
The red (+) and black (-) terminals emulate the twoends of a battery.
The voltage is adjustablevia this knob
The white terminal is The white terminal is connected to earth groundconnected to earth groundvia the third prong of the via the third prong of the power cordpower cord
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I COM V
volts
We can measure voltage between two points with a metermeter
Measuring VoltagesMeasuring Voltages
• Connect the V of the meter to power supply red
• Connect COM (common) of the meter to power supply black
• Read the Voltage white
+2.62
•Set the meter to read Voltage
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The power supply is changed to 3.2 V. What does the meter read?
Exercise
I COM V
What’s the answer?
–3.2 V
Answer: –3.2 V
Find out
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What is “Ground”
“Ground” refers to the reference terminal to which all other voltages are measured
+_V1 +_V2 +_V3
Point of Reference
Figure 1.3
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Most people choose the earth as the reference ground when a connection to it is available.
A ground connection to earth is often made via the third prong of a power cord.
The earth is really just one big ground node.
+_V2
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+_V1 +_V2 +_V3
Ground Symbol
V4 +_
Positive relative to ground
Negative relative to ground
Figure 1.4
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Voltage Relative to Ground
+
The red terminal is positive with respect to “ground”
The white terminal is connected to earth ground
Connect the black terminal to ground
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The black terminal is negative with respect to ground.
Negative Polarity Relative to
Ground
+
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What is Current?
• Current is the flow of charge from a voltage source• 1 Ampere (“Amp”) = Flow of 1 Coulomb/sec
+++
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How Does Current Flow?
Current can only flow through conductors
+++
Metal wires (conductors)
Currentflow
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When Does Current NOT Flow?
+++
Plastic material (insulators)
Current cannot flow through insulators
No currentflow
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Note that Air is an Insulator
+++Air
Current cannot flow through insulators
No current flow
That’s why a battery doesn’t discharge if left on its own.
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What is Current?
• Electricity flows when electrons travel through a conductor.
• Only some materials have free electrons inside.
Conductors: YES!
Insulators:
NO!
No free electrons = No current
• We call this flow “current.”
silver copper gold aluminium iron steel brass bronze mercury graphite dirty water concrete
glass rubber oil asphalt fiberglass porcelain ceramic quartz (dry) cotton (dry) paper (dry) wood plastic air diamond pure water
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CurrenCurrentt
Current is the amount of electric charge (coulombs) flowing past a specific point in a conductor over an interval of one second.
1 ampere = 1 coulomb/second
Electron flow is from a lower potential (voltage) to a higher potential (voltage).
-ee e+
Wire
e
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Current For historical reasons, current is
conventionally thought to flow from the positive to the negative potential in a circuit.
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Formal Definition of Current Flow
• Rate of flow of “positive” charge
1 Ampere = 1 Coulomb of electrons flowing by per second in the wire
• Measured in Coulombs per second of charge
• (It’s really the electrons flowing in the opposite direction)
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- --
--
-- -
--
-- - -
--
-- - -
--
--
electron motion
positive current direction
Sign Convention for Current Flow
• Electrons carry negative charge
• Positive current flow is in opposite direction
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Textbook Definitions Charge: bipolar (+/-), basic unit 1.6e-19 C
Effects from separation (volt) and flow (current)
Voltage: the energy needed to separate +/-charges by a certain distance Not unlike the energy needed to lift an object in a
gravity field V = dw/dq = delta energy / delta charge
W is in Joules, q is in coulombs Unit: 1 V = 1 Joule/ Coulomb
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Current: rate of flow of electrical charges I = dq/dt = delta charge /delta time
q is in Coulombs, t in seconds Unit: 1 Amp is a flow of 1 Coulomb / sec
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The Ideal Circuit Element
Could be battery, resistor, capacitor, etc. Defined by a mathematical model Polarity is arbitrary
We choose the “passive sign convention” Voltage “drop” from terminal 1 to 2 Positive charge flowing from term 1 to 2
1
2
+
v
-
i
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Power and Energy
Often more useful quantities in understanding a circuit How many kilowatt-hours did you use last month? Many circuits have power limits
Beyond which, you “fry” the circuit!
Power is the time rate of expending or absorbing energy p = dw/dt Unit: 1 W = 1Joule / second
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Power Flow
+V
i
P = V iIf the physical current is positive Power flows into the element)
The current variable i is defined as positive into the (+) terminal of the element
The current variable i is defined as positive into the (+) terminal of the element
+_ +V
iP = V i
Here the physical current is negativePower flows out of the source
“Passive” sign convention
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Voltage and Current Sources
Ideal Voltage Source Maintains voltage regardless of current
Ideal Current Source Maintains current regardless of voltage
+
-vs
is
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Dependent (Controlled) Sources Controlled by a voltage or current elsewhere
in the circuit Voltage controlled voltage source Voltage controlled current source Current controlled voltage source Current controlled current source
vs =kvx
+
-
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Example 1.1
Which
interconections
are valid/invalid?
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Example 1.2 p 13 valid/invalid?? Which interconections are valid/invalid?
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Summary
Circuits are foundational for many of the most exciting engineering topics
Voltage is like water pressure, current is like water flow
“Ideal Element” follows “Passive Sign Convention”
Ideal Sources can provide
constant voltage or current, or
can depend on some other part of circuit
1
2
+
v
-
i