communication course: Frequency modulation Demodulation
MohammedAlAnsi10
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Aug 12, 2024
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About This Presentation
Communication
Slide Content
Dr. Ali Muqaibel
What are Frequency demodulators ?
They produce output voltage whose instantaneous amplitude is
directly proportional to the instantaneous frequency of the input
FM wave.
Methods:
1.Frequency Discriminator followed by an envelope
detector.
Slope Circuit
signal differentiation method
2.Phase locked loop demodulator.
3.Zero-crossing detector.
4.Ratio-detector. (old)
They produce output voltage whose instantaneous amplitude is
directly proportional to the instantaneous frequency of the input
FM wave.
Methods:
1.Frequency Discriminator followed by an envelope
detector.
Slope Circuit
signal differentiation method
2.Phase locked loop demodulator.
3.Zero-crossing detector.
4.Ratio-detector. (old)
First, transfer the information from the angle to the magnitude
For example: derivate of a sinusoid results in multiplying the
magnitude of the sinusoid by the derivate of its angle, the
derivative of the above FM signal becomes
form
( ) cos ( )
FM c f
g t A t k m d
( )
( ) sin ( )
FM
c f c f
dg t
A k m t t k m d
dt
Is this signal amplitude or
frequency modulated?
For example: derivate of a sinusoid results in multiplying the
magnitude of the sinusoid by the derivate of its angle, the
derivative of the above FM signal becomes
form
( ) cos ( )
FM c f
g t A t k m d
( )
( ) sin ( )
FM
c f c f
dg t
A k m t t k m d
dt
Is this signal amplitude or
frequency modulated?
Because the information is also contained in
the amplitude we can use AM demodulation
Envelope
Detector
(and DC Blocker)
m(t)
()d
dt
Signal Differentiation Frequency Demodulator
gFM(t)
( ) sin ( )
c f c f
A k m t t k m d
Envelope detector can be used because
The message is always represented by the positive term
of the envelope.
the amplitude we can use AM demodulation
Envelope
Detector
(and DC Blocker)
m(t)
()d
dt
Signal Differentiation Frequency Demodulator
gFM(t)
( ) sin ( )
c f c f
A k m t t k m d
Envelope detector can be used because
The message is always represented by the positive term
of the envelope.
( ) cos ( )
PM c p
g t A t k m t
( ) ( )
sin ( )
PM
c p c p
dg t dm t
A k t k m t
dt dt
The same idea can be used for PM demodulation. A PM signal has the form
If this signal is passed through an envelope detector, the output will be proportional to
the derivative of the message signal. An integrator will solve the problem
Envelope
Detector
(and DC Blocker)
m(t)
()d
dt
Signal Differentiation PM Demodulator
gPM(t)
( )
sin ( )
c p c p
dm t
A k t k m t
dt
()
t
d
( )dm t
dt
PM c p
g t A t k m t
( ) ( )
sin ( )
PM
c p c p
dg t dm t
A k t k m t
dt dt
The same idea can be used for PM demodulation. A PM signal has the form
If this signal is passed through an envelope detector, the output will be proportional to
the derivative of the message signal. An integrator will solve the problem
Envelope
Detector
(and DC Blocker)
m(t)
()d
dt
Signal Differentiation PM Demodulator
gPM(t)
( )
sin ( )
c p c p
dm t
A k t k m t
dt
()
t
d
( )dm t
dt
What if the amplitude A is not constant because of channel
noise? i.e. A(t)
At the output of the differentiator, we will have other terms d/dt
(A(t))
The use of bandpass limiter also suppresses the
channel noise when the noise is small.
noise? i.e. A(t)
At the output of the differentiator, we will have other terms d/dt
(A(t))
The use of bandpass limiter also suppresses the
channel noise when the noise is small.
Linear Region
of Response
c
G
FM
c
c
c
S
c
c
H()
Envelope
Detector
(and DC Blocker)
m(t)
Signal Differentiation Frequency Demodulator
g
FM
(t)
( ) cos ( )
c f c f
A Ck m t t k m d
of Response
c
G
FM
c
c
c
S
c
c
H()
Envelope
Detector
(and DC Blocker)
m(t)
Signal Differentiation Frequency Demodulator
g
FM
(t)
( ) cos ( )
c f c f
A Ck m t t k m d
Narrowband
LPFX
Voltage Controlled
Oscillator
(VCO)
A sin(
c
t+
i
)
B cos(
c
t+
o
)
x(t) y(t) z(t)
•PLLs when fed with an FM signal directly
produce an output signal that is proportional to
the message signal.
•PLL has low cost and superior performance
even at low SNR (signal-to-noise ratio)
•Where do we take the output? Compare with
the case of carrier acquisition.
LPFX
Voltage Controlled
Oscillator
(VCO)
A sin(
c
t+
i
)
B cos(
c
t+
o
)
x(t) y(t) z(t)
•PLLs when fed with an FM signal directly
produce an output signal that is proportional to
the message signal.
•PLL has low cost and superior performance
even at low SNR (signal-to-noise ratio)
•Where do we take the output? Compare with
the case of carrier acquisition.
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