Microwave Engineering Introduction Lecture 1

University of Engineering & Technology Peshawar
Department of Telecommunication Engineering ,Mardan Campus
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04-10-2012 First FYP Presentation,Batch-08
Microwave Engineering

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Grading Policy
12.5% Quizzes
12.5% Assignments
25% Mid Exam
50% Final Exam

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Text/Reference Book
Microwave Engineering 4th Edition by David M. Pozar.
 Foundations for Microwave Engineering, Robert E. Collins , 2nd
Edition.

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Course Learning Outcomes (CLO’s)
COURSE LEARNING OUTCOMES:
Upon successful completion of the course, the student will be able to:
S. No. CLO Domain Taxonomy level PLO
1. Explain the performance of a microwave device by
looking at its s-parameters
Cognitive 2 1
2. Analyze active and passive microwave devices from
given specifications
Cognitive 4 2
3. Explain basic communication link design, signal
power budget, noise evaluation and link carrier to
noise ratio
Cognitive 2 1
4. Design and implement microwave filters for given
specification
Cognitive 6 3

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Lecture Distribution
Lecture Topics CLO Covered
1
Introduction. Introduction to Electromagnetics
Microwave Frequency bands, General Applications of
Microwaves, Advantages and disadvantages of Microwaves
CLO-1
2
Transmission line equation in time and frequency(phasor)
domain, lossless transmission line, Dispersion less TL.
CLO-1
3 TL input impedance, time average power, return and insertion
losses, VSWR
CLO-1
4 Generator and load mismatches on TLs, smith chart CLO-1
5 Transmission line matching using lumped L Networks, Quarter
Wave transformer matching
CLO-1
6 Concept of Mode, Characteristics of TEM, TE and TM Modes
for waveguides. Rectangular Waveguide
CLO-1

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7 Impedance and Admittance matrices,
CLO-1
8 S parameters and scattering matrix CLO-1
9 Transmission (ABCD) Matrix
CLO-1
10 signal flow graphs CLO-1
11 Basic properties of dividers and couplers CLO-2
12 T junction and resistive power dividers CLO-2

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13 Wilkinson power divider
CLO-2
14 Quadrature and rat race hybrid coupler CLO-2
15 Coupled and Lange directional couplers
CLO-2
MID EXAM
17 Klystron, Travelling wave tube and magnetron CLO-2
18 Role of mixer and pre selector filter in heterodyne receiver CLO-2

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19 Active microwave circuits: Two port power gains
CLO-2
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Amplifier Stability
CLO-2
21 Single stage Amplifier: Design for maximum gain
CLO-2
22 Single stage Amplifier: Design for specific Gain CLO-2
23 Microwave Filter design by insertion loss method
CLO-4
24
Scaling of low pass prototype filters, stepped impedance low
pass filter
CLO-4

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25 Stub synthesis, Kuroda’s identities, Stub low pass filters
CLO-4
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High pass and band pass filters CLO-4
27
Microwave Propagation (Propagation modes, Multipath
propagation, Atmospheric attenuation, polarization )
CLO-3
28 Link budget calculations (Transmission power, received power,
EIRP, Noise power, Free space loss)
CLO-3
29 Vector Network Analyzer
FINAL TERM

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Introduction to Microwaves

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ELECTROMAGNETIC SPECTRUM

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Radio waves and Microwaves
• Microwaves are electromagnetic waves with frequencies between
300MHz (0.3GHz) and 300GHz in the electromagnetic spectrum
• Radio waves are electromagnetic waves within the frequencies 30KHz
- 300GHz, and include microwaves. Microwaves are at the higher
frequency end of the radio wave band and low frequency radio waves
are at the lower frequency end.

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Radio Spectrum

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Microwave Frequency Bands
• The microwave spectrum is usually defined as electromagnetic energy ranging
from approximately 1 GHz to 100 GHz in frequency, but older use includes lower
frequencies. Most common applications are within the 1 to 40 GHz range

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Advantages of Microwaves
 Large Bandwidth: The Bandwidth of Microwaves is larger than the common
low frequency radio waves. Thus more information can be transmitted using
Microwaves. It is very good advantage, because of this, Microwaves are
used for Point to Point Communications.
 Better Directivity: At Microwave Frequencies, there are better directive
properties. This is due to the relation that As Frequency Increases,
Wavelength decreases and as Wavelength decreases Directivity Increases
and Beam width decreases. So it is easier to design and fabricate high gain
antenna in Microwaves.
.

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Contd……
 Small Size Antenna: Microwaves allows to decrease the size of antenna. The
antenna size can be smaller as the size of antenna is inversely proportional to
the transmitted frequency. Thus in Microwaves, we have waves of much
higher frequencies and hence the higher the frequency, the smaller the size of
antenna.
 Low Power Consumption: The power required to transmit a high frequency
signal is lesser than the power required in transmission of low frequency
signals. As Microwaves have high frequency thus requires very less power.
 Effect Of Fading: The effect of fading is minimized by using Line Of Sight
propagation technique at Microwave Frequencies. While at low frequency
signals, the layers around the earth causes fading of the signal

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Applications of Microwaves
Following are the other main application areas of Microwaves:
 Communication: Microwave is used in broadcasting and telecommunication transmissions.
As described earlier, they have shorter wavelengths and allows to use smaller antennas.
The cellular networks like GSM, also uses Microwave frequencies of range 1.8 to 1.9 GHz
for communication. Microwaves are also used for transmitting and receiving a signal from
earth to satellite and from satellite to earth. Military or Army also makes use of Microwaves
in their communication system. They uses X or ku band for their communication.
 Remote Sensing: The most common application of Microwave is its use in RADAR (Radio
Detection and Ranging) and SONAR (Sound Navigation and Ranging). RADAR is used to
illuminate an object by using a transmitter and receiver to detect its position and velocity.
.

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Contd…..
 Heating: We uses Microwave Oven to bake and cook food. It is
very convenient electronic machine which performs the heating task
very cleanly and in a very less time.
 Medical Science: Microwave's heating properties are also used in
Medical Science.
Microwave also have Medical Applications such as it is used in
diagnosis and various therapies.

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Disadvantages of Microwaves
Line-of-sight will be disrupted if any obstacle, such as new buildings,
are in the way
Signal absorption by the atmosphere. Microwaves suffer from
attenuation due to atmospheric conditions.
Towers are expensive to build.

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Any Question…?

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Have A Nice

Microwave Engineering Introduction Lecture 1

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