Modulation Types and Amplitude Modulation PDF

Summary

This document is a presentation on Modulation Types and Amplitude Modulation. It covers various aspects of modulation, including different communication types, modulation techniques, and amplitude modulation applications. The presentation also discusses the need for modulation and its different types.

Full Transcript

UNIT 7
Modulation Types and Amplitude Modulation

PROF. THUSHARA WEERAWARDANE
Outcomes

 Define Types of Communication

 Differentiate Modulation Techniques

 Discuss Amplitude Modulation and Applications

 Study Transmitter and Receiver Techniques

 Analyze Different Amplitude modulation schemes and Their Usage
Type of Communication

Baseband Communication Carrier Communication
Baseband Communication
Frequency
Domain

P2P Transmission
Ethernet
coaxial
twisted-pair

fiber-optic (broadband)
Carrier Communication

High power transmission
Modulation?

Modulation is a process of modification of carrier signal with respect to
modulating (message) signal
𝐴𝑠𝑖𝑛(𝜔𝑡 + 𝜙) or 𝐴𝑐𝑜𝑠(𝜔𝑡 + 𝜙)

 We send the information by changing some fundamental characteristics of
the carrier wave
 Amplitude
 Frequency and
 Phase

 The faster we can change the carrier, the more information we can transmit
 Plank constant

Why Modulation is needed Energy
𝐸 = ℎ𝜈

 Height of the Antenna frequency

 Compare antenna height for 3kHz signal
and 3 GHz Signal
(𝐶 = 𝑓𝛌, 𝐴𝑛𝑡𝑒𝑛𝑛𝑎 𝐻𝑒𝑖𝑔ℎ𝑡 𝛌/4)
 Radiated power by Antenna
 Power transmitted 𝜶 (1Τ𝛌2 )

 Reduce Interference
 Same frequency bands are overlapping
 Different carrier frequency can be used
for multiplexing

 High Bandwidth
 High frequency results in High Bandwidth
 Type of Modulation

Analog Modulation Digital Modulation

Continuous Wave Modulation AM – Amplitude Modulation ASK – Amplitude Shift Keying
FM – Frequency Modulation FSK – Frequency Shift Keying
PM – Phase Modulation PSK – Phase Shift Keying
Carrier signal

Pulse Modulation PAM – Pulse Amplitude Modulation PCM – Pulse Code Modulation
PWM – Pulse Width Modulation (Delta Modulation and Adaptive
Carrier signal
PPM – Pulse Position Modulation delta Modulation)
𝐴𝑐𝑜𝑠(𝜔𝑡 + 𝜙)
Example of Amplitude Modulation
Example of Frequency Modulation
Example of Phase Modulation
Pulse Modulations (PAM, PWM, PPM and PCM)
PWM – Pulse Width Modulation

PAM – Pulse Amplitude Modulation

PPM – Pulse Position Modulation

PCM – Pulse Code Modulation
Digital Modulation Schemes
ASK FSK

PSK
Example of ASK, FSK and PSK

ASK FSK PSK
AMPLITUDE MODULATION
Amplitude Modulation
 In amplitude modulation, the amplitude of
the carrier wave is varied in proportion to
that of the message signal, such as an audio
signal.
 AM is used in broadcasting transmission (Radio
and television) over the short, medium and long
wavebands.
 AM is used in the VHF transmissions for many
airborne applications such as ground-to-air radio
communications or two-way radio links for
ground staff personnel.
 Since AM is easy to demodulate, radio receivers
for amplitude modulation are therefore easier
and cheaper to manufacture.
 However, amplitude modulation is sensitive to
noise and electromagnetic interference. Modulating Index, 𝜇 =
𝐴𝑚
𝐴𝑐
Double Sides Full Carrier (DSBFC) System

X(𝜔) - Fourier transform of x(t)  Important Aspects AM
 Information is located in
sidebands
 Carrier is only operating
frequency
C(𝜔) - Fourier transform of c(t)
 Bandwidth of AM signal is
twice of the maximum
frequency of modulating
signal (2𝜔m )

Power transmitted
𝑃𝑡𝑜𝑡𝑎𝑙 = 𝑃𝑐 + 𝑃𝑈𝑆𝐵 + 𝑃𝐿𝑆𝐵

S(𝜔) - Fourier transform of s(t) 𝜇2 𝜇2
𝑃𝑡𝑜𝑡𝑎𝑙 = 𝑃𝑐 + 𝑃𝑐 + 𝑃𝑐
4 4

𝜇2
𝑃𝑡𝑜𝑡𝑎𝑙 = 𝑃𝑐 + 𝑃𝑐
2
𝜔c- 𝜔m 𝜔c+ 𝜔m
Amplitude Modulation Cont.

Under Modulated

𝜇1 mathematical convenience only.

Hence, we can say that the modulating signal contains
Over Modulated frequencies from 0 to fm or simply the bandwidth of modulating
signal is fm.
 AM Radio Transmitter (Simplified)
The crystal oscillator generates the high frequency carrier The modulator is the place where the
wave which is sent to the buffer which isolates the RF power superposition of the carrier wave and the signal
amplifier keeping the frequency of the crystal-controlled generated takes place.
oscillator constant. Further the modulator mixes the carrier wave
and the AF signal, which is fed to the antenna
for transmission.

Signal is generated through the
microphone. The magnitude of energy of
the signal is very poor and hence, it is fed
to the AF amplifier. This signal is further
powered up by the AF power amplifier and
sent to the modulator.
AM Radio Transmitter (Simplified)  The AM radio transmitter
consists of two sections.
 Audio Frequency (AF) section
and
 Radio Frequency section.
 The signal basically gets
generated in the AF section
and modulated in the RF
section.
 Main components
 Preamplifier
 RF Oscillator
 AM modulator
 Power Amplifier
 Antenna
AM Radio Receiver ✓ Receiving antenna - converts the received signal into electrical form.
✓ Amplifier is used to amplify the signal before processing.
✓ This is passed through an IF stage where the frequency band is
translated down from the carrier frequency to the intermediate
frequency.

✓ Detector translates the frequency down to
the original frequency and demodulation
occurs.
✓ A standard envelope detector used for
demodulation.
✓ It consists of a parallel RC circuit which
captures the envelope of the AM signal and
hence demodulates the AM signal.
✓ Value of RC should neither be too large, nor
too small for efficient demodulation.
✓ Finally, the demodulated signal is passed
through an amplifier for large amplification.
 Double sideband with full carrier
modulation (AM)

Types of Double sideband-suppressed carrier
modulation (DSB-SC)
Amplitude
Modulation
Single Sideband Modulation (SSB)

Vestigial Sideband Modulation (VSB)
Double sideband-suppressed carrier modulation (DSB-SC)

 DSB-SC is the analog modulation techniques in which carrier is suppressed to save power
(66% of power saved compared to AM) and only the sidebands are transmitted
 Coherent detection is needed to maintain the local oscillator in perfect synchronisation for
DSB-SC: obtaining the carrier phase is biggest challenges in all demodulators.

Coherent detection increases the
complexity of the receiver and increased
the cost.

This is in fact the price one has to pay for
suppressing the carrier at wave to save
transmit power
Single sideband-suppressed
carrier modulation (SSB-SC)
In radio communications, single-
sideband modulation (SSB) or single-
sideband suppressed-carrier
modulation (SSB-SC) is a type of
modulation used to transmit
information, such as an audio signal, by
radio waves. A refinement of amplitude
modulation,
SSB uses less transmitter power,
therefore power efficient
SSB is transmitted only single Band
which has the information, therefore
bandwidth efficient.
Vestigial Sideband Modulation (VSB)

Vestigial Sideband Modulation (VSB) refers to the
process where the “vestige” part of a signal is
modulated alongside one sideband.
A guard band of very small width is laid on either side
of VSB in order to avoid the interferences. BW = fm + fv
It is a highly efficient modulation technique used for
wave transmission.
This VSB modulation is mostly used in television
transmissions.
It reduces the bandwidth utilization.
The filter characteristics do not need to be highly
accurate thus making its design simple.
It easily transmits low-frequency components and
possesses good phase characteristics.
Application is transmission of TV signal
Comparison of DSB-SC, SSB-SC and VSB-SC
DSB-SC SSB-SC VSB-SC

Advantages Lower power consumption Better management of It is compromise between DSB
Modulation system is frequency spectrum and SSB. Therefore, it is easier
simple Low power consumption to generate than VSB-SC

Disadvantages Complex detection Complex detection, Generation Demodulation system is still
(coherent receiver with of exact SSB is rather difficult complex
synchronization) (exact filter design and coherent Its bandwidth is about 25%
receiver) greater than SSB-SC

Applications Analog TV systems: to two-way radio (audio) Std for Analog TV broadcast
transmission of color transmission – Prefer long system and wideband data
information distance transmission of voice transmission
signal
ANY QUESTION??
THANK YOU!!
Double sideband-suppressed
carrier modulation (DSB-SC)
DSB-SC is the analog modulation
techniques in which carrier is
suppressed to save power (66% of
power saved compared to AM) and
only the sidebands are transmitted
Coherent detection is needed to
maintain the local oscillator in
perfect synchronisation for DSB-SC:
obtaining the carrier phase is
biggest challenges in all
demodulators.
This increases the complexity of the
receiver and increased the cost.
This is in fact the price one has to
pay for suppressing the carrier at
wave to save transmit power