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 Page 1


Introduction
• Nyquist plots are the continuation of polar
plots for finding the stability of the closed loop
control systems by varying ? from -8 to 8.
• Nyquist plots are used to draw the complete
frequency response of the open loop transfer
function.
• The Nyquist stability criterion determines the
stability of a closed-loop system from its open-
loop frequency response and open-loop poles.
Page 2


Introduction
• Nyquist plots are the continuation of polar
plots for finding the stability of the closed loop
control systems by varying ? from -8 to 8.
• Nyquist plots are used to draw the complete
frequency response of the open loop transfer
function.
• The Nyquist stability criterion determines the
stability of a closed-loop system from its open-
loop frequency response and open-loop poles.
The Nyquist Criterion can be expressed as,
Z = P + N
where Z = number of zeros of 1 + G(s)H(s) on the
right-half s-plane
N = net encirclements around the point (-1+j0).
(clockwise encirclements are taken as
positive and anticlockwise encirclements
are negative)
P = number of poles of G(s)H(s) in the
right-half of s-plane
Page 3


Introduction
• Nyquist plots are the continuation of polar
plots for finding the stability of the closed loop
control systems by varying ? from -8 to 8.
• Nyquist plots are used to draw the complete
frequency response of the open loop transfer
function.
• The Nyquist stability criterion determines the
stability of a closed-loop system from its open-
loop frequency response and open-loop poles.
The Nyquist Criterion can be expressed as,
Z = P + N
where Z = number of zeros of 1 + G(s)H(s) on the
right-half s-plane
N = net encirclements around the point (-1+j0).
(clockwise encirclements are taken as
positive and anticlockwise encirclements
are negative)
P = number of poles of G(s)H(s) in the
right-half of s-plane
The stability of linear control systems using the Nyquist 
stability criterion, three possibilities can occur:
1. There is no encirclement of the (–1+j0) point. This
implies that the system is stable if there are no poles
of G(s)H(s) in the right-half of s- plane; otherwise, the
system is unstable.
2. There are one or more counterclockwise
encirclements of the (–1+j0) point. In this case the
system is stable if the number of counterclockwise
encirclements is the same as the number of poles of
G(s)H(s) in the right-half of s- plane; otherwise, the
system is unstable.
3. There are one or more clockwise encirclements of the
(–1+j0) point. In this case the system is unstable.
Page 4


Introduction
• Nyquist plots are the continuation of polar
plots for finding the stability of the closed loop
control systems by varying ? from -8 to 8.
• Nyquist plots are used to draw the complete
frequency response of the open loop transfer
function.
• The Nyquist stability criterion determines the
stability of a closed-loop system from its open-
loop frequency response and open-loop poles.
The Nyquist Criterion can be expressed as,
Z = P + N
where Z = number of zeros of 1 + G(s)H(s) on the
right-half s-plane
N = net encirclements around the point (-1+j0).
(clockwise encirclements are taken as
positive and anticlockwise encirclements
are negative)
P = number of poles of G(s)H(s) in the
right-half of s-plane
The stability of linear control systems using the Nyquist 
stability criterion, three possibilities can occur:
1. There is no encirclement of the (–1+j0) point. This
implies that the system is stable if there are no poles
of G(s)H(s) in the right-half of s- plane; otherwise, the
system is unstable.
2. There are one or more counterclockwise
encirclements of the (–1+j0) point. In this case the
system is stable if the number of counterclockwise
encirclements is the same as the number of poles of
G(s)H(s) in the right-half of s- plane; otherwise, the
system is unstable.
3. There are one or more clockwise encirclements of the
(–1+j0) point. In this case the system is unstable.
Consider the closed-loop system shown in Fig. 
The closed-loop transfer function is
C(s)
R(s)
= 
G(s)
1 + G(s)H(s)
The characteristic equation is 1 + G(s)H(s) = 0
For stability, all roots of the characteristic 
equation must lie in the left-half of s- plane. 
Page 5


Introduction
• Nyquist plots are the continuation of polar
plots for finding the stability of the closed loop
control systems by varying ? from -8 to 8.
• Nyquist plots are used to draw the complete
frequency response of the open loop transfer
function.
• The Nyquist stability criterion determines the
stability of a closed-loop system from its open-
loop frequency response and open-loop poles.
The Nyquist Criterion can be expressed as,
Z = P + N
where Z = number of zeros of 1 + G(s)H(s) on the
right-half s-plane
N = net encirclements around the point (-1+j0).
(clockwise encirclements are taken as
positive and anticlockwise encirclements
are negative)
P = number of poles of G(s)H(s) in the
right-half of s-plane
The stability of linear control systems using the Nyquist 
stability criterion, three possibilities can occur:
1. There is no encirclement of the (–1+j0) point. This
implies that the system is stable if there are no poles
of G(s)H(s) in the right-half of s- plane; otherwise, the
system is unstable.
2. There are one or more counterclockwise
encirclements of the (–1+j0) point. In this case the
system is stable if the number of counterclockwise
encirclements is the same as the number of poles of
G(s)H(s) in the right-half of s- plane; otherwise, the
system is unstable.
3. There are one or more clockwise encirclements of the
(–1+j0) point. In this case the system is unstable.
Consider the closed-loop system shown in Fig. 
The closed-loop transfer function is
C(s)
R(s)
= 
G(s)
1 + G(s)H(s)
The characteristic equation is 1 + G(s)H(s) = 0
For stability, all roots of the characteristic 
equation must lie in the left-half of s- plane. 
Example 1
G(s)H(s) = 
(?? +1)(?? +2)
?? (?? +3)
Open loop zeros: -1, -2
Open loop poles:  0, -3
The characteristic equation is 1 + G(s)H(s) = 0
1+ 
(s+1)(s+2)
s(s+3)
= 0
(?? +0.38)(?? +2.62)
?? (?? +3)
= 0  
Roots of the system:  - 0.38, - 2.62
Closed-loop system  T.F =  
G(s)
1 + G(s)H(s)
= 
(?? +1)(?? +2)
(?? +0.38)(?? +2.62)
Closed-loop poles: - 0.38, - 2.62  [zeros of 1 + G(s)H(s)]
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Document Description: Nyquist Plot Overview for Electrical Engineering (EE) 2024 is part of Control Systems preparation. The notes and questions for Nyquist Plot Overview have been prepared according to the Electrical Engineering (EE) exam syllabus. Information about Nyquist Plot Overview covers topics like and Nyquist Plot Overview Example, for Electrical Engineering (EE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises and tests below for Nyquist Plot Overview.
Introduction of Nyquist Plot Overview in English is available as part of our Control Systems for Electrical Engineering (EE) & Nyquist Plot Overview in Hindi for Control Systems course. Download more important topics related with notes, lectures and mock test series for Electrical Engineering (EE) Exam by signing up for free. Electrical Engineering (EE): Nyquist Plot Overview | Control Systems - Electrical Engineering (EE)
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