Difference Between PAM, PWM
and PPM
PAM,
PWM and PPM all three are analog pulse modulation techniques. The major
difference between PAM, PWM and PPM lies in the parameter of a pulsed carrier
that varies according to the modulating signal.
In PAM, the amplitude of the pulsed carrier signal is varied according to the
amplitude of analog modulating signal. In PWM, the width of the pulses of the
carrier wave is varied according to the modulating signal. As against, in PPM,
the position of the pulses shows variation according to the modulating signal.
These are known as
analog pulse modulation techniques because a pulsed carrier is varied according
to analog message signal.
Here, in this
article, we will discuss other important factors that differentiate the three.
But before that look at the contents to be discussed in this article.
Content: PAM Vs PWM Vs PPM
1.
Comparison Chart
2.
Definition
3.
Key Differences
4.
Conclusion
Comparison
Chart
|
Basis for
Comparison |
PAM |
PWM |
PPM |
|
Varying parameter |
Amplitude |
Width |
Position |
|
Immunity towards
noise |
Low |
High |
High |
|
Signal to noise
ratio |
Low |
Moderate |
Comparitively high |
|
Need of
synchronization pulse |
Not exist |
Not exist |
Exist |
|
Bandwidth
dependency |
On pulse width |
On rise time of
pulse |
On rise time of
pulse |
|
Transmission power |
Variable |
Variable |
Constant |
|
Bandwidth
requirement |
Low |
High |
High |
|
Similarity of
implementation |
Similar to AM |
Similar to FM |
Similar to PM |
|
Synchronization
between Transmitter and Receiver |
Not needed |
Not needed |
Needed |
Definition
of PAM
PAM stands for pulse
amplitude modulation. It is a modulation technique in which the amplitude of
the pulsed carrier signal is changed according to the amplitude of the message
signal.
The figure given
below represents a PAM signal:
As we can see in the
figure shown above that the amplitude of the pulses is varying with respect to
the amplitude of analog modulating signal, like in case of amplitude
modulation. But the major difference is that unlike AM, here the carrier wave
is a pulse train rather than continuous wave signal.
Definition of PWM
PWM is an acronym
used for pulse width modulation. In PWM the width of the pulses is varied
according to the amplitude of the message signal.
The figure below shows the pulse width modulated signal:
As we can see that
unlike PAM, in this technique the amplitude of the signal is constant and only
the width is varying. PWM technique is similar to frequency modulation because,
by the variation in the width of the pulses, the frequency of the pulses in the
PWM signal shows variation.
Definition of PPM
PPM is used for
pulse position modulation. It is a technique in which the position of the
pulses is changed in accordance with the amplitude of the modulating signal.
The figure below
shows the PPM signal:
Here the pulse
amplitude and the pulse width are the two constant that does not show variation
with the amplitude of the modulating signal but only the position shows
variation.
It is to be noted
here that the position of the pulse changes according to the reference pulses.
And these reference pulses are nothing but PWM pulses.
Basically, the falling edge of PWM pulses acts as the starting of the PPM
pulses.
Key Differences Between PAM, PWM and PPM
1.
A factor that generates a key
difference between PAM, PWM and PPM, is that in PAM amplitude of the pulse
shows proportionality with the amplitude of modulating signal.
In PWM width of the pulses shows proportionality with the amplitude of the
message signal. Whereas in PPM the position of the pulses is proportional to
the amplitude of analog modulating signal.
2.
PAM technique shows low immunity towards the noise. As
against PWM and PPM has low noise interference factor because their noise
immunity is high.
3.
In PAM and PWM techniques transmitter
and receiver, synchronization is not required.
But PPM technique needs synchronization between transmitter and receiver
section.
4.
The SNR is low in case of
pulse amplitude modulated signals while it is moderate in case of pulse width
modulated signals and highest in case of pulse position modulated signals.
5.
The transmission power in case
of PAM and PWM is variable due to variation in amplitude and width
respectively.
However, it is constant in case of PPM because both amplitude and width are
constant in case of PPM.
6.
In PAM, transmission channel bandwidth relies on the
pulse width. But in case of PWM and PPM, rise time of the pulse is a factor on
which the transmission channel bandwidth depends.
7.
As the position of the pulses is
changed in PPM, therefor it requires synchronization pulses. While both PAM and PWM do
not require synchronization pulses.
8.
All PAM, PWM and PPM show similarity
in implementation with AM, FM and PM respectively.
9.
The bandwidth requirement is
low in case of PAM but is comparatively high in case of PWM and PPM.
Conclusion
Also, PAM systems
are complex in implementation as compared to PWM and PPM systems.