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(Aktu Btech) Control System Important Unit-2 Time Response Analysis

Master Control Systems Using Aktu’s Quantum Notes. Access critical insights and frequently asked questions to ace your B.Tech studies. Your journey to success begins here! Unit-2 Time Response Analysis

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Q1. Explain various standard test signals, and also find relation between them.

Ans. A. Standard test signals: 

1. Unit step signal: 

  • i. Signals which start at time t = 0 and have magnitude of unity are called unit step signals. 
  • ii. They are represented by a unit step function u(t).
Explain various standard test signals, and also find relation between them. Control System
  • iii. They are defined mathematically as:
Explain various standard test signals, and also find relation between them.

2. Unit ramp signal: 

  • i. Signals which start from zero and are linear in nature with a constant slope m are called unit ramp signals.
  • ii. They are represented by a unit ramp function r(t). 
  • iii. They are defined mathematically as:
Explain various standard test signals, and also find relation between them. Aktu

3. Unit impulse signal: 

  • i. Signals which act for very small time but have large amplitude are called unit impulse functions. 
  • ii. They are represented by δ(t). 
  • iii. They are defined mathematically as,
Explain various standard test signals, and also find relation between them. Btech

4. Unit parabolic signal : The continuous-time unit parabolic function p(t), also called acceleration signal starts at t = 0, and is defined as:  

Explain various standard test signals, and also find relation between them. Aktu Btech

B. Relation between standard test signals: 

1. Relation between impulse and step signal :

Explain various standard test signals, and also find relation between them.

2. Relation between step and ramp Signal:

Explain various standard test signals, and also find relation between them.

3. Relation between ramp and parabolic signal:  

Explain various standard test signals, and also find relation between them.

Q2. Derive the time response of first order system.

Ans. 1. Consider a first order system with unity feedback.

Derive the time response of first order system. Control System

3. Response to unit step input:

Derive the time response of first order system. Aktu

Taking inverse Laplace transform, we have

Derive the time response of first order system. Btech

4. Response to unit impulse input :

Derive the time response of first order system. Aktu Btech

5. Response to unit ramp input: 

Derive the time response of first order system. Control System Akru Btech

Taking inverse Laplace transform, we have 

Derive the time response of first order system.

Q3. The open loop transfer function of a unity feedback control system is given by G(s) = 9/s (s + 3). Find the natural frequency of response, damping ratio, damped frequency and time constant.

Ans. 1. Transfer function of closed loop system, 

The open loop transfer function of a unity feedback control system is given by G(s) = 9/s (s + 3). Control System

2. Comparing eq. (2.6.1) by standard second order characteristic equation, ‘

The open loop transfer function of a unity feedback control system is given by G(s) = 9/s (s + 3). Btech

5. Damped frequency,

Btech

Q4. Define the following term: 

i. Rise time 

ii. Peak time 

iii. Peak overshoot 

iv. Settling time

Ans. 1. Delay time (td): It is the time required for the response to reach 50 % of the final value in first time.

Delay time Control System

2. Rise time (tr): It is the time required for the response to rise from 10% to 90 % of its final value for overdamped system and 0 to 100 % for underdamped systems. 

Rise time Control System

3. Peak time (tp): The peak time is the time required for the response to reach the first peak of the time response or first peak overshoot.  

Peak time Control System

4. Maximum overshoot (Mp): It is the normalized difference between the peak of the time response and steady output. “The maximum percent overshoot is defined as 

Maximum overshoot Control System

5. Settling time (ts): The setting time is the time required for the response to reach and stay within the specified range (2 % to 5 %) of its final value. 

Settling time Control System

Q5. The unity feedback system is characterized by an open loop transfer function is G(S)= K/s(s + 20). Determine the gain K, so that the system will have a damping ratio of 0.6. For this value of K, determine unit step response, time domain specifications: settling time (2 % criterion), peak overshoot, rise time, penk time, delay time for a unit-step input. 

Ans. 

The unity feedback system is characterized by an open loop transfer function is G(S)= K/s(s + 20). Control System
The unity feedback system is characterized by an open loop transfer function is G(S)= K/s(s + 20). Btech
The unity feedback system is characterized by an open loop transfer function is G(S)= K/s(s + 20). Aktu

Q6. Write a short note on proportional control. Also write its advantages and disadvantages.

Ans. A. Proportional control: 

  • 1. In proportional control, the error signal serves as the actuating signal for the control action in the control system.
  • 2. The error signal is the difference between the feedback signal acquired from the output and the reference input signal.
  • 3. The system described in Fig. is a proportional control system because the actuating signal is proportional to the error signal.
  • 4. Take into account a second order system where the mistake itself serves as the controller input and the proportional constant is K=1.
Write a short note on proportional control. Also write its advantages and disadvantages. Control System
Write a short note on proportional control. Also write its advantages and disadvantages. Aktu Btech

B. Advantages: 

  • 1. Steady state error is reduced hence the system becomes more stable. 
  • 2. Easy to implement. 
  • 3. Relative stability is improved. 

C. Disadvantages: 

  • 1. Due to the presence of these controllers, we get some offsets in the system.
  • 2. Proportional controllers also increase the maximum overshoot of the system. 
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