Control Systems Jntu Model Paper{Www.Studentyogi.Com}

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Code No: R05220205
Set No. 1
II B.Tech II Semester Regular Examinations, Apr/May 2008
CONTROL SYSTEMS
( Common to Electrical & Electronic Engineering, Electronics &
Communication Engineering, Electronics & Instrumentation Engineering,
Electronics & Control Engineering, Electronics & Telematics and
Electronics & Computer Engineering)
Time: 3 hours Max Marks: 80
Answer any FIVE Questions
All Questions carry equal marks

1. (a) Explain the tra c control system concepts using open loop as well as closed
loop system.
(b) Why is negative feedback invariably preferred in closed loop systems? [8+8]

2. (a) Reduce the given block diagram ( gure 2a)and hence obtain the transfer func-
R(s)
tion C(s) .

Figure 2a
(b) Explain the need of signal ow graph representation for any system. [10+6]

3. (a) What is meant by time response? Explain about
i. Steady- state response
ii. Transient response
(b) A unity feed-back system is characterized by an open lo op T.F ( ) = K
s(s+10)
Determine the gain K so that the system will have a damping ratio of 0.5. For
this value of K , determine s, p and p for a unit step input. [6+10]

4. (a) De ne the term root locus and state the rule for nding out the root locus on
the real axis?
(b) Calculate the angle of asymptotes and the centroid for the system having
( ) ( ) = K(s+3)
s(s+2)(s+4)(s+5)
(c) For ( ) ( ) = K s(s+1)(s+3), nd the intersection point of the ro ot lo cus with
the j - axis? [4+6+6]


Code No: R05220205
Set No. 1
5. Sketch the Bode plots for a system
( ) = 15(s+5)
s(s2 +16s+100)
Hence determine the stability of the system. [16]

6. Write short notes:

(a) Comparision of polar & Nyquist plots
(b) Applications of Nyquist criterion.
[8+8]

7. (a) What is compensation? what are the di erent types of compensators?
(b) What is a lag compensator, obtain the transfer function of lag compensator
and draw pole-zero plot?
(c) Explain the di erent steps to be followed for the design of compensator using
Bode plot? [3+3+10]

8. Obtain the two di erential state representation for the system with transfer func-
tion.
y(s) [16]
u(s) = 2 S3 +6S2 +11S+6.


Code No: R05220205
Set No. 2
CONTROL SYSTEMS

1. (a) De ne transfer function and what are its limitations? [6+10]
(b) Find the transfer function of the following system: Shown in gure 1b.

Figure 1b
2. (a) Reduce the given block diagram ( gure 2a) and hence obtain the transfer
function C(s)
R(s)

Figure 2a
(b) Explain the working principle of synchro receiver with neat sketch. [10+6]

3. (a) What are generalized error constants? State the advantages of generalized
error coe cients?
(b) For a rst order system, nd out the output of the system when the input
applied to the system is unit ramp input? Sketch the r(t) and c(t) and show
the steady state error. [8+8]

4. (a) What are the necessary conditions to have all the roots of the characteristic
Equation in the left half of s-plane?
(b) What are the di culties in RH stability crititerion? Explain ,how you can
over come them? [4+12]

5. (a) State the advantages & limitations of frequency domain analysis


Code No: R05220205
Set No. 2
(b) Sketch the Bode plot s of

s(1+s)(1+0.1s)
( ) = 28.5e- 0 .1 s
Hence nd gain cross over frequency. [6+10]

6. (a) What is “Nyquist Contour”?
(b) A system is given by
( ) = 4s+1 s2 (s+1)(2s+1) Sketch the Nyquist plot & hence determine the stability
of the system. [2+14]

and draw pole-zero plot?
Bode plot? [3+3+10]

8. Obtain the two di erential state representation for the system with transfer func-
tion.
y(s) [16]
u(s) = 2 S3 +6S2 +11S+6.


Code No: R05220205
Set No. 3
CONTROL SYSTEMS

1. (a) Write the important di erences between open loop and closed loop systems
with suitable examples.

(b) Obtain the transfer function X0 (s) X1 (s) of the following system. Shown in gure 1b.
[8+8]

Figure 1b
2. (a) State and explain mason’s gain formula for the signal ow graph.
(b) What are di erences between block diagram reduction and signal ow graph
reduction? [8+8]

3. (a) How steady ?state error of a control system is determined? How it can be
reduced?
(b) Determine the error coe cients and static error for ( ) = 1
s(s+1)(s+10)
()=+2. [8+8]

4. (a) What are the necessary conditions to have all the roots of the characteristic
Equation in the left half of s-plane?
(b) What are the di culties in RH stability crititerion? Explain ,how you can
over come them? [4+12]

5. (a) De ne frequency response.


Code No: R05220205
Set No. 3
(b) Discuss the advantages & disadvantages of frequency response analysis.
(c) Bring out the correlation between time response & frequency response and
hence show that the correlation exists for the range of damping ratio 0 0 707
[2+6+8]

6. (a) What is “Nyquist Contour”?
(b) A system is given by
( ) = 4s+1 s2 (s+1)(2s+1) Sketch the Nyquist plot & hence determine the stability
of the system. [2+14]

7. Design a lead compensator for unity feed back system whose open loop transfer
function G(S) = K S(S+1)(S+5) to satisfy the following speci cations.

(a) velo city error constant V = 50
(b) Phase margin = 200.
[16]

8. (a) Obtain the state mo del of the system whose transfer function is given as.
Y (s)
V (s) = 10 S3 +4S2 +2S+1

(b) Consider the matrix A compute At? [8+8]

=01
-2 - 3


Code No: R05220205
Set No. 4
CONTROL SYSTEMS

1. (a) Explain the basic components of control systems?
(b) Find the transfer function for the system given gure 1b:

Figure 1b
where, M is the mass of the system. [6+10]
K is the spring de ection
B is the co e cient of viscous damping.

2. (a) Reduce the given block diagram ( gure 2a) and hence obtain the transfer
function C(s)
R(s)


Code No: R05220205
Set No. 4

Figure 2a
(b) Explain the need of Mason’s gain formula for any system reduction. [10+6]

3. (a) De ne type and order of a control system and hence nd the type and order
of the following systems?

i. ( ) ( ) = 100
s(s2 +4s+200)

ii. ( ) ( ) = 200
s2 (s2 +10s+200)

iii. ( ) ( ) = 4(s2 +10s+100)
s(s+3)(s2 +2s+10)

iv. ( ) ( ) = 200
(1+01s)(1+0.5s)
(b) The unit step response of a second order linear system with zero initial state
is given by ( ) = 1 + 1 25 -6t (8 - tan-1 1 333). Determine the damping
ratio, un damped natural frequency of oscillations and peak overshoot? [8+8]

4. (a) De ne the the following terms
i. absolute stability
ii. marginal stability
iii. conditional stability
(b) By means of RH criterion determine the stability of the system represented
by the characteristic equation 4 + 2 3 + 8 2 + 4S + 3 = 0
(c) State the advantages of RH Stability criterion? [6+6+4]

5. (a) Derive the expressions for resonant peak & resonant frequency and hence
establish the correlation between time response & frequency response.
(b) Given = 0.7 & n = 10 r/s nd resonant peak, resonant frequency & Band-
width. [10+6]

6. (a) With respect to a function q(s) “Every s-plane contour which does not pass
through any singular points of q(s) has a corresponding contour in q(s) plane”
Elaborate.
(b) What is the e ect of adding a zero at origin to the to the open loop transfer
function on polar plot? [8+8]



Code No: R05220205
Set No. 4
Bode plot? [3+3+10]

8. (a) The system is represented by the di erential equation
¨+5 +6=
Find the transfer from state variable representation.
(b) Consider the RLC network shown in gure 8b. Write the state variable rep-
resentation. [16]

Figure 8b

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