Dear Readers, Welcome to Control Systems Objective Questions have been designed specially to get you acquainted with the nature of questions you may encounter during your Job interview for the subject of Control Systems MCQs. These objective type Control Systems questions are very important for campus placement test and job interviews. As per my experience good interviewers hardly plan to ask any particular question during your Job interview and these model questions are asked in the online technical test and interview of many IT companies.
(a) Output is independent of control input
(b) Output is dependent on control input
(c) Only system parameters have effect on the control output
(d) None of the above
Ans: a
(a) Less expensive
(b) Recalibration is not required for maintaining the required quality of the output
(c) Construction is simple and maintenance easy
(d) Errors are caused by disturbances
Ans: b
(a) Closed loop system
(b) Semiclosed loop system
(c) Open system
(d) None of the above
Ans: a
(a) decrease
(b) increase
(c) be unaffected
(d) any of the above
Ans: a
(a) Field controlled D.C. motor
(b) Ward leonard control
(c) Metadyne
(d) Stroboscope
Ans: a
(a) Input command is the sole factor responsible for providing the control action
(b) Presence of non-linearities causes malfunctioning
(c) Less expensive
(d) Generally free from problems of non-linearities
Ans: b
(a) the control action depends on the size of the system
(b) the control action depends on system variables
(c) the control action depends on the input signal
(d) the control action is independent of the output
Ans: d
(a) Open loop system
(b) Closed loop system
(c) Both (a) and (b)
(d) Neither (a) nor (b)
Ans: b
(a) good stability
(b) slow response
(c) good accuracy
(d) sufficient power handling capacity
Ans: b
(a) Clutch
(b) Eyes
(c) Needle of the speedometer
(d) Steering wheel
(e) None of the above
Ans: c
(a) Transient response
(b) Error response
(c) Dynamic response
(d) Either of the above
Ans: a
(a) computer control system
(b) digital data system
(c) stochastic control system
(d) adaptive control system
Ans: c
(a) open
(b) closed
(c) partially closed
(d) any of the above
Ans: a
(a) feedback
(b) stimulus
(c) signal
(d) gain control
Ans: b
(a) Servomechanism
(b) Feedback
(c) Output pattern
(d) Input pattern
Ans: b
(a) Digestive system
(b) Perspiration system
(c) Ear
(d) Leg movement
Ans: b
(a) Brain
(b) Hands
(c) Legs
(d) Eyes
Ans: d
(a) Auto-pilot for an aircraft
(6) Direct current generator
(c) Car starter
(d) Electric switch
Ans: a
(a) Vernistats
(b) Microsyns
(c) Resolvers
(d) Any of the above
Ans: d
(a) The gain of the system should be decreased
(b) The gain of the system should be increased
(c) The number of poles to the loop transfer function should be increased
(d) The number of zeros to the loop transfer function should be increased
Ans: b
(a) Integrator
(b) Differentiator
(c) Phase lead compensator
(d) Phase lag compensator
Ans: a
(a) two phase induction motor
(b) Three phase induction motor
(c) direct current series motor
(d) universal motor
Ans: a
(a) Band width
(b) Overall gain
(c) Distortion
(d) Instability
Ans: a
(a) oscillations
(b) step input
(c) negative sign
(d) positive sign
Ans: d
(a) reference and output
(b) reference and input
(e) input and feedback signal
(d) output and feedback signal
Ans: a
(a) Ward Leonard control
(b) Field controlled D.C. motor
(c) Stroboscope
(d) Metadyne
Ans: b
(a) saturation in amplifying stages
(b) loss of gain
(c) vibrations
(d) oscillations
Ans: a
(a) input reference signal is zero
(b) zero stored energy
(c) ne initial movement of moving parts
(d) system is at rest and no energy is stored in any of its components
Ans: d
(a) The order of the system
(b) The time constant
(c) The output for any given input
(d) The steady state gain
Ans: c
(a) remains unaffected
(b) decreases by the same amount as the gain increase
(c) increases by the sane saaaajajt as the gain decrease
(d) decreases by the same amount as the gain decrease
Ans: c
(a) Frequency
(b) Loop gain
(c) Forward gain
(d) All of the above
Ans: d
(a) rises slowly
(b) rises quickly
(c) decays slowly
(d) decays quickly
Ans: d
(a) The time constant of the system
(b) Damping of the system
(c) The gain of the system
(d) The time constant and suppress the oscillations
(e) None of the above
Ans: d
(a) All the co-efficients can have zero value
(6) All the co-efficients are always non-zero
(c) Only one of the static error co-efficients has a finite non-zero value
(d) None of the above
Ans: c
(a) The system is relatively stable
(b) The system is highly stable
(c) The system is highly oscillatory
(d) None of the above
Ans: c
(a) It leads to slow speed of response
(b) It leads to low relative stability
(c) Noise is proportional to band width
(d) None of the above
Ans: c
(a) Underdamping
(b) Overdamping
(c) Poor stability at reduced values of open loop gain
(d) Low-level oscillations
Ans: d
(a) Error detector
(b) Final control element
(c) Sensor
(d) Oscillator
Ans: d
(a) final control element
(b) amplifier
(c) comparator
(d) sensor
(e) none of the above
Ans: a
(a) sensor
(b) clipper
(c) comparator
(d) amplifier
Ans: c
(a) Servo signal
(b) Desired variable value
(c) Error signal
(d) Sensed signal
Ans:
(a) digital
(b) linear
(c) non-linear
(d) discontinuous
Ans:
(a) momentum
(b) velocity
(c) displacement
(d) mass
Ans: d
(a) voltage
(b) current
(c) capacitance
(d) charge
(e) none of the above
Ans: a
(a) velocity
(b) pressure
(c) air flow
(d) air flow rate
Ans: d
(a) head
(b) liquid flow
(c) liquid flow rate
(d) none of the above
Ans: a
(a) charge
(b) resistance
(c) reciprocal of inductance
(d) reciprocal of conductance
(e) none of the above
Ans: b
(a) current
(b) charge
(c) inductance
(d) capacitance
Ans: a
(a) heat flow
(b) reciprocal of heat flow
(c) reciprocal of temperature
(d) temperature
(e) none of the above
Ans: d
(a) charge
(b) current
(c) inductance
(d) resistance
Ans: c
(a) inertia forces
(b) internal forces
(c) stored energy
(d) friction
Ans: c
(a) Input
(b) Actuating
(c) Feedback
(d) Reference
Ans: b
(a) disturbance
(b) command
(c) control element
(d) reference input
Ans: a
(a) Linear and time-in variant systems
(b) Linear and time-variant systems
(c) Linear systems
(d) Non-linear systems
(e) None of the above
Ans: a
(a) Signal flow graph
(b) Analogous table
(c) Output-input ratio
(d) Standard block system
(e) None of the above
Ans: a
(a) Manipulated variable
(b) Zero sequence
(c) Actuating signal
(d) Primary feedback
Ans: c
(a) servomotors
(b) induction relays
(c) gear trains
(d) any of the above
Ans:
(a) system stability
(b) sensitivity
(c) gain
(d) effects of disturbing signals
Ans: a
(a) Ramp input signal
(b) Sinusoidal input signal
(c) Unit impulse input signal
(d) Exponentially decaying signal
Ans: c
(a) The system is at rest and no energy is stored in any of its components
(b) The system is working with zero stored energy
(c) The system is working with zero reference signal
Ans: a
(a) reduced velocity lag error
(b) increased velocity lag error
(c) increased speed of response
(d) reduced time constant of the system
Ans: a
(a) amplidyne set
(b) resistance-capacitance parallel circuit
(c) motor-generator set
(d) any of the above
Ans:
(a) capacitance
(b) reciprocal of capacitance
(c) current
(d) resistance
Ans: b
(a) Laplace Transform and Fourier Integral
(b) Laplace Transform
(c) Fourier Integral
(d) Either (b) or (c)
Ans: a
(a) smaller damping ratio
(b) larger damping ratio
(c) constant damping ratio
(d) none of the above
Ans: a
(a) acceleration
(b) velocity
(c) position
(d) all of the above
Ans: d
(a) low frequencies
(b) reduced values of open loop gain
(c) increased values of open loop gain
(d) none of the above
Ans: b
(a) no pole
(b) net pole
(c) simple pole
(d) two poles
(e) none of the above
Ans: a
(a) no pole
(b) net pole
(c) simple pole
(d) two poles
Ans: c
(a) no net pole
(b) net pole
(c) simple pole
(d) two poles
Ans: d
(a) constant, constant
(b) constant, infinity
(c) zero, constant
(d) zero, zero
Ans: c
(a) parabolic
(b) ramp
(c) impulse
(d) step
Ans: b
(a) unity
(b) infinity
(c) zero
(d) 10
Ans: b
(a) not necessarily stable
(b) stable
(c) unstable
(d) always unstable
(e) any of the above
Ans: a
(a) Root locus
(b) Bode plot
(c) Nyquist plot
(d) None of the above
Ans: a
(a) Frequency response
(b) Absolute stability
(c) Relative stability
(d) Time response
Ans: c
(a) Lead-compensation
(b) Lag-compensation
(c) Lead-lag compensation
(d) None of the above
Ans: b
(a) Nyquist Criterion
(b) Quasi linearization
(c) Functional analysis
(d) Phase-plane representation
Ans: a
(a) Phase-lead
(b) Phase-lag
(c) Both (a) and (b)
(d) Either (a) and (b)
(e) None of the above
Ans: a
(a) is independent of frequency
(b) is inverseh'proportional to frequency
(c) increases linearly with frequency
(d) decreases linearly with frequency
Ans: c
(a) Low-level oscillations
(b) High-level oscillations
(c) Conditional stability
(d) Overdamping
Ans:
(a) Acceleration
(b) Speed
(c) Speed and acceleration
(d) Displacement
(e) None of the above
Ans: b
(a) Control valve
(b) Potentiometer
(c) Electro-pneumatic converter
(d) Servomotor
Ans: b
(a) The range of air output as measured variable varies from maximum to minimum
(b) The range of measured variables from set value
(c) The range of measured variables through which the air output chan¬ges from maximum to minimum
(d) Any of the above
(e) None of the above
Ans: c
(a) pressure signal to electric signal
(b) pressure signal to position change
(c) electric signal to pressure signal
(d) position change to pressure signal
(e) none of the above
Ans: b
(a) Differential bellows and straingauge
(b) Selsyn
(c) Strain gauge
(d) Strain gauge and potentiometer
Ans: a
(a) Microsyn
(b) Selsyn
(c) Synchro-resolver
(d) Synchro-transformer
Ans: c
(a) provide larger settling lime
(b) delay the response
(c) reduce steady state error
(d) any of the above
(e) none of the above
Ans: c
(a) Root locus
(b) Bode
(c) Nyquist
(d) Nichols
Ans: a
(a) lag at all frequencies
(b) lag at high frequencies and lead at low frequencies
(c) lag at low frequencies and lead at high frequencies
(d) none of the above
Ans: c
(a) Static friction
(b) Backlash
(c) Saturation
(d) None of the above
Ans: c
(a) Bode-Nyquist stability methods
(b) Transfer functions
(c) Root locus design
(d) State model representatives
Ans: d
(a) at rest without any energy stored in it
(b) working normally with reference input
(c) working normally with zero reference input
(d) at rest but stores energy
Ans: d
(a) Induction relay
(b) Thermocouple
(c) LVDT
(d) Any of the above
(e) None of the above
Ans: c
(a) reduces damping
(b) reduces the gain margin
(c) increases input noise
(d) increases error
Ans: c
(a) oscillatory
(b) critically damped
(c) overdamped
(d) underdamped
(e) none of the above
Ans: d
(a) increases
(b) minimizes
(c) does not have any effect on
(d) any of the above
Ans: b
(a) system stability
(6) system gain
(c) system stability and gain
(d) none of the above
Ans: b
(a) Constant current
(b) Constant voltage
(c) Constant current as well as constant voltage
(d) Constant current, constant voltage and constant power
(e) None of the above
Ans: d
(a) Displacement
(b) Velocity
(c) Acceleration
(d) Any of the above
Ans: d
(a) Thermocouple
(b) Potentiometer
(c) Gear train
(d) LVDT
(e) None of the above
Ans: a
(b) Systems having stability problems
(c) Systems having multiple input dis¬turbances
(d) All of the above
Ans: d
(a) Alternating current
(b) Direct current
(c) A.C. voltage
(d) D.C. voltage
(e) None of the above
Ans: d
(a) universal motor
(b) single phase induction motor
(c) two phase induction motor
(d) three phase induction motor
Ans: c
(a) small bandwidth
(b) negative time constant
(c) large negative transfer function pole
(d) none of the above
Ans: c
(a) The poles of the transfer function for a set of parameter values
(b) The bandwidth of the system
(c) The response of a system to a step input
(d) The frequency response of a system
(e) None of the above
Ans: a