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Introduction COURSE OBJECTIVE:
To develop a set of principles and techniques for predicting circuit behavior Circuit – an interconnection of electrical elements, and “manipulates” electrical energy (generation, amplification, modulation, detection, conversion, etc.). Behavior – current and voltage are the variables of interest.
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SYSTEMS OF UNITS: Basic Quantities: Derived Quantities: Length (m)
Mass (kg) Time (s) Charge (C) : + or - Temperature (K) Luminous intensity (cd) Derived Quantities: Area, vol, density, vel, accel, etc. Force, (Newton: 1 N = 1 kg-m/s2) Work/Energy, (Joule: 1 J = 1 N-m) Power, (Watt: 1 W = 1 J/s) Current, (Ampere: 1 A = 1 C/s) Voltage, (Voltage: 1 V = 1 J/C) Decimal multiples and submultiples of SI units
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A. FORCES Electrostatic Force – force due charges at rest
Electrodynamic Force – due to charges in motion
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B. CURRENT Current flow through a conductor Charge transport
flow of electric charges: the amount of charge passing by a given point on a conductor per unit time Units:
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Convention for direction: the direction of positive charge movement
Positive ions Negative ions
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The total charge entering a terminal is given to be
Example1 The total charge entering a terminal is given to be mC. Calculate the current at s. Answer: mA
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Example 2. The current flowing through an element is
Calculate the charge entering the element from 0 to 2 s. Answer: C
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C. VOLTAGE The voltage,ab, between points a and b is the work done (or change in energy) by the elecrical system in moving a unit charge from a to b. 1V = 1J/C The plus (+) and minus (-) signs are used to define reference direction or voltage polarity. The voltage can be interpreted in two ways: point a is at a potential of ab higher than b, or the potential at point a with respect to b is ab. Note:
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Analogy in Mechanical Systems
Potential Energy (per unit mass) due to Gravity
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D. POWER and ENERGY Power is the time rate of expending or absorbing energy. For electrical systems Passive Sign Convention: positive: power is being delivered to or absorbed by the element negative: power is being supplied by the element.
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Passive Sign Convention:
When current arrow enters through the positive terminal of the element: use p = iv When current arrow enters through the negative terminal of the element: use p = -iv Both i and v can be + or – values. If p > 0 the element is absorbing power from circuit If p < 0 the element is delivering power to circuit i + – v i + – v p = +vi p = –vi
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active or passive? Energy: absorbing or delivering? show pos current show higher V
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The law of conservation of energy:
The algebraic sum of power in a circuit at any time must be zero Energy is the capacity to do work, measured in joules (J). Energy absorbed or supplied by an element from to to t:
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Example 3. An energy source forces a constant current of 2 A for 10 s to flow through a lightbulb. If 2.3 kJ is given off in the form of light and heat energy, calculate the voltage drop across the bulb. Answer: 115 V Example 4. How much energy does a 100-W bulb consume in two hours? Answer: 720 kJ, or 200 W-h
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E. CIRCUIT ELEMENTS Active element – capable of generating electrical energy Passive element – can not generate energy Active Elements: Ideal Independent Source an active element that provides a specified voltage or current that is completely independent of other circuit elements.
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1. Independent Voltage Source
- delivers a voltage independent of the current - symbols are shown (a) for d.c., and (b) for either a.c. or d.c. v-i Characteristics (a) (b)
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2. Independent Current Source
- delivers a specified current that is independent of the voltage across the source - symbol is as shown for either a.c. or d.c. v-i Characteristics
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Ideal Dependent (or Controlled) Source
an active element in which the value of the source is controlled by another voltage or current. There are four types: A voltage-controlled voltage source (VCVS) A current-controlled voltage source (CCVS) A voltage-controlled current source (VCCS) A current-controlled current source (CCCS) Dependent sources are useful in modeling elements such as transistors, operational amplifiers and integrated circuits.
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Dependent Sources (con’t)
The figure below shows the four types of dependent sources: VCVS, CCVS, VCCS, and CCCS. The controlling variables c and ic are voltages and currents that appear elsewhere in the circuit.
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Passive Elements: 1. RESISTOR Connect a copper wire to a generator.
Vary voltage, and observe current. Ohm’s Law: =Ri R = resistance in ohms (Ω) 1 Ω = 1 V/A What happens? The application of voltage creates an electric field. Electrons try to accelerate, but collide with copper atoms and get scattered. But there is a net directed motion or “drift” of electrons to create the current. The higher the voltage, the higher the electric field, the higher the drift and current.
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Resistance What determines R? depends on resistivity, length and cross-sectional area. ρ = resistivity in Ω-m (small for conductors, big for insulators) (1.72 X 10-8 for Cu, 6.4 X 102 for Silicon;1012 for glass) Mechanical Analogy: Fluid flow through a pipe
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Conductance Conductance: i=G; G = 1/R = conductance in mhos or Siemens (S) Resistance of an element is a measure of its ability to resist the flow of electric current. Look at the v-i characteristic. v and i are proportional to each other.
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Limiting Cases: Short Circuit and Open Circuit
Short Circuit Open Circuit
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2. Capacitor Take two flat copper plates separated by air as insulator. Apply a voltage; accumulates + and – charges. Measure the charge stored: q=C; C = capacitance in Farads (F); 1F = 1C/V
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3. Inductor Take a coil wound around an iron core. Magnetic flux:
L is the inductance in Henry (1 H = 1V-s/A) The voltage induced in a coil proportional to the rate of change of the magnetic flux.
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Circuit Elements: Summary
Active Elements Passive Elements A dependent source is an active element in which the source quantity is controlled by another voltage or current. They have four different types: VCVS, CCVS, VCCS, CCCS. Independent sources Dependent sources
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