Unit 1 Lecture-1.pptx

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UNIT 1:
DC CIRCUITS
Content:
1. Electrical Circuit
2. Network Components
3. Resistance
4. Capacitance
5. Inductance
6. HW Problems
1. Electrical
Circuit
 Charge and
Charg
Current
Charge is an
property
e: of the atomic
electrical
particles of a matter.
S.I Unit: Coulomb (C)
Symbol: Q
Current: Rate of change of
charge.
OR
Continuous o
flow electrons in an f
electrical circuit.
S.I Unit:
Ampere (A)
Symbol: I
 Charge and
Current
𝑑 𝑡
Mathematica
𝐼 𝑄 𝑜𝑟 𝑄 = ∫
𝑑
lly,
= 𝐼. 𝑑𝑡
Or, in simple 𝑡 𝑡0

𝐼

terms:

=
So, 1 Ampere = 1

coulomb/ 1 second.

 Volta
ge
It is the energy (Work)
required to move a unit
charge through an
element.
S.I Unit: Volt
(V) Symbol:
V
 Power and
Energy
Power: Rate at which the work is
done.
OR
Time rate of absorbing or
supplying energy
S.I Unit: Watts

𝑃 =𝑑𝑡 𝑑=𝑞.
𝑑𝑊 𝑑𝑊 𝑑𝑞
(W) Symbol: P

= 𝑉.𝐼
𝑑𝑡
Mathematically,

𝑃=
𝑉. 𝐼
Implie
s,
 Power and
Energy
Energy: Capacity of
doing work.
S.I Unit:

Energy (E):
E = P * t Joules(J)
E = V * I * t Symbol: E
 2. Network
Components

Active Passive

Batte
ry Resistance
(R)
Transistor,
Capacitance
Op-amp, (C)
Diode Inductance
VS and CS (L)
Generators Transformer
s
 3.
Resistance
Resistance: It is an opposition to the flow
of current.
S.I Unit: Ohm (Ω)
Symbol: R
 The units of resistance is Ohms, which is indicated by Ω omega.
The formula for resistance is
R = V/I

It would really be difficult to manufacture the resistors with each and
every value.
Few values are chosen and the resistors of such values are only
manufactured. These are called as “Preferred Values”.
Tolerance is the range of value up to which a resistor can withstand without getting
destroyed. This is an important factor.
Resistor Color Code
The power rating is not indicated in the
resistor color code and must be determined
by experience using the physical size of the
resistor as a guide.

For resistors with 5% or 10% tolerance, the
color code consists of 4 color bands.

For resistors with 1% or 2% tolerance, the
color code consists of 5 bands.
 4-Band Resistors
The resistor nominal value is encoded in the color code in
Powers of Ten Notation. The template for determining the
nominal value and tolerance of a resistor with 4 color bands is
given below:

1st Band = 2nd Band = 3rd Band = 4th Band =
1st Significant Digit 2nd Significant Digit Multiplier Tolerance

___ ___  10    ____ %
How do we know which color corresponds to which
number?
Answer: Using the Resistor Color Code Table
 Example 1. Determine the nominal resistance value and the
tolerance for the resistor shown below.

Solution:
Brown =1 Black =0 Red =2 Gold = 5%

2
1___ 0___  10    ____5%

Nominal value = 10102
= 1,000

Tolerance = 5%.
 It is typical to express the resistance value in:
k if the resistance  1,000
M if the resistance  1,000,000.

To convert from  to k,  to M, or vice-versa, use the table
below:

In the previous example we would say the resistor has a nominal
value of: 1,000W
=1kW
1,000
Example 2. a) Determine the nominal value and tolerance for the
resistor below.
b) What is the minimum resistance value this resistor
can actually have?
c) What is the maximum resistance value this resistor
can actually have?

Yellow =4 Violet =7 Orange =3 Gold = 5%
Solution:
3
4___ 7___  10   ____ 5%

Resistor nominal value = 47103
= 47,000
= 47k.
Tolerance = 5%
Solution: continued
Minimum resistance value:
Multiply the nominal value by the tolerance and then subtract
this from the nominal value:
nominal value – nominal value * tolerance

= 47kW- 47kW*0.05
= 47kW- 2.35kW
= 44.65kW
Maximum resistance value:
Multiply the nominal value by the tolerance and then add this to
the nominal value:
nominal value + nominal value * tolerance
47k  47k * 0.05
47k  2.35k
49.35k
5-Band Resistors
For resistors with 1% or 2% tolerance, the color code consists
of 5 bands.
The template for 5-band resistors is:

1st Band = 2nd Band = 3rd Band = 4th Band = 5th Band =
1st Significant 2nd Significant 3rd Significant Multiplier Tolerance
Digit Digit Digit

___ ___ ___  10    ____ %
Example 4. Determine the nominal resistance and tolerance for the resistor shown below.

Solution:

Brown = 1 Black =0 Black = 0 Brown = 1 Red =  2%

1
1 ___ 0 ___0 ___  10    ____2%

Resistor nominal value = 100101
= 1,000
= 1k.
Tolerance = 2%
Which side of a resistor do I read from?
A question that often arises when reading the color
code of real resistors is: how do I determine which
side of a resistor do I read from?

Answer:

For 4-band resistors a gold or silver band is always
the last band.

If the resistor has 5 bands or if there is no tolerance
band (20%), then the first band is the one located
closest to a lead.
 Capacita
Capacitance is the ability of a device to store
nce
electrical energy in an electrostatic field.
A capacitor is a device that stores energy
in the form of an electrical field..
A capacitor is made of two conductors
separated by a dielectric.
S.I Unit: Farad (F)
Symbol: C
Two important Properties:
1. No current flows through the capacitor, if the
voltage remains constant.
2. Voltage across a capacitor cannot
change instantaneously.
 Inductan
ce
Inductance is the characteristic of an
electrical conductor that opposes a change in
current flow.
An inductor is a device that stores energy
in a
magnetic
Whenfield.a current flows through a
magnetic field builds up around the
conductor,
field contains
conductor. This energy and is
the foundation for
inductance.
S.I Unit: Henry (H)
Symbol: L
Two important Properties:
1. No voltage appears across an inductor, if
the current through it remains constant.
2. The current through an inductor cannot
change
instantaneously.
 Capacitance and
Inductance
𝑄 𝑉 = 𝐿
= 𝐶𝑉 𝑑
L: Inductance (Henry)

𝐼 = 𝐶𝑉 =
𝑑𝑄 𝑑 𝑑𝑉 𝑑𝐼
𝐸 =
1𝑡 2
u: Permeability of the

𝑑𝑡 𝑑𝑡
= 1 2 𝐶
𝑑𝑡
material (Henry/meter)

2
𝐸 𝐿𝐼 𝜇 𝑁2
N: Number of turns in a coil

𝐿 𝐴
A: Cross-sectional area of
2
= 𝐶𝑉 𝗅(length of coil)
the coil (meter^2)

𝐶 =
l: Length of the coil (meter)

=

𝐴∈

ε (epsilon) is the permittivity of the material between the
plates of the capacitor. It is a measure of how easily an
electric field can be established in the material. Permittivity is
measured in Farads per meter (F/m).
 Active devices can also be used as_________
a) Amplifiers
b) Choppers
c) Converters
d) Inverters
 Series
SERIES Connection
CONNECTION: Two or more elements are
in series if they exclusively share a single node and
consequently carry the same current.
Point to Remember for Series
Circuits
 Parallel
Connection
PARALLEL CONNECTION: Two or more elements are
in parallel if they are connected to the same two
nodes and consequently have the same voltage
across them
Battery Voltage In Series
And Parallel
Note: Resistors in series behave as a single resistor whose resistance is
equal to the sum of the resistances of the individual resistors.
Resistors in
Parallel.
How to find Equivalent
Resistance for Series-
Parallel Combinations
find 𝑹𝒆𝒒
Example: To
 HW QUICK QUIZ (Poll 1)
1 Coulomb is
same as:
A. Watt /sec
B. Ampere/sec
C. Joule-sec
D. Ampere-sec
 QUICK QUIZ
The total charge entering the terminal is 5𝑠𝑖𝑛4𝜋𝑡 𝑚𝐶.
(Poll 2)
Calculate current at t= 0.5 sec.:
A. 31.2 A
B. 31.2 mA
C. 62.8 mA
D. 62.8 A
 QUICK QUIZ
(Poll 3)
Calculate the current ratings of 100 Watt
incandescent bulb and 15 Watt LED lamp operated
with the domestic supply of 220 Volt?
A. Bulb = 0.068 A and LED = 0.45 A
B. Bulb = 0.45 A and LED = 0.068 A
C. Bulb =0.50 A and LED = 0.068 A
D. Bulb = 0.50 and LED = 0.68 A
 QUICK QUIZ
(Poll 4)
From the previous question, it can be
inferred that:
A. LED consumes 5 times more current
than Bulb.
B. Bulb consumes 5 times more current
than LED..
C. LED consumes 6.6 times more current
than Bulb.
D. Bulb consumes 6.6 times more current
than LED.
 QUICK QUIZ
(Poll 5)
Identify the passive
element
A. Battery
B. Transformer
C. Transistor
D. OP-amp
 QUICK QUIZ
(Poll 6)
Find the value of capacitance if the value of voltage
increases linearly from 0 to 100 V in 0.1 s causing a
current flow of 5 mA?
A. 10 µF
B. 5 F
C. 10 F
D. 5 µF
 QUICK QUIZ
(Poll 7)
Find Equivalent Resistance in
Ohms?

A. 5
B. 10
C. 15
D. 20
 QUICK QUIZ
(Poll 8)
Find Equivalent Resistance in
Ohms?

A. 12
B. 17
C. 19
D. 29