Course Name: Digital control Systems
C421.1 Analyze the Frequency Domain
Characteristics Of Hold Circuits. (Analyzing)
PO
NO
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Justification
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PO1
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Students
get the knowledge of Hold Circuits
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PO2
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Students
get the knowledge to analyze the Frequency Domain
Characteristics Of Hold Circuits
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PSO1
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Students get
the knowledge of Signals And Their Reconstruction.
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PSO3
|
Students
analyze the Frequency Domain Characteristics Of Hold Circuits using
Matlab/Simulink.
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PO
NO
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Justification
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PO1
|
Students apply thez
and inverse z transforms to solve pulse transfer function.
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PO2
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Students analyze the open loop and closed loop responses of a digital control system.
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PSO1
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Students analyze the open loop and closed loop responses of a digital control system.
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PSO3
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Students solve
pulse transfer function using Matlab/Simulink.
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C411.2: Solve
pulse transfer functions to find open loop and closed loop responses. (Applying)
C411.3: Test the controllability and observability of
discrete time systems. (Creating)
PO
NO
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Justification
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PO1
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Students
get the knowledge of state space analysis of control system
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PO2
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Students
test the controllability and observability of discrete time systems.
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PO3
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Students
develop the state space model of discrete time systems.
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PSO1
|
Students
test the controllability and observability of discrete time systems.
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PSO3
|
Students
solve the state space equations of control system using Matlab/Simulink.
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C411.4 : Analyze
the stability of a given discrete time systems.(Analyzing)
PO
NO
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Justification
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PO1
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Get
the knowledge of fundamentals of stability conditions.
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PO2
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Students
solve and analyze the stability problems of a given discrete time system.
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PSO1
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Students
solve the stability problems of a given discrete time system.
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PSO3
|
Students
analyze the stability problems of a given discrete time system using
Matlab/Simulink.
|
C411.5:
Design of discrete–time control systems
by Root locus technique.(Creating)
PO
NO
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Justification
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PO1
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Students
get the knowledge of Z- plane.
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PO2
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Students
apply the conventional methods to analyze the stability of a discrete time
system.
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PO3
|
Students
design the discrete time control system using Root locus technique
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PSO1
|
Students design the discrete time control system
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PSO3
|
Students design the discrete time control system
using Matlab/Simulink.
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C411.6: Design of state feedback controller.(Creating)
PO
NO
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Justification
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PO1
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Get
the knowledge of feedback of a control system.
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PO2
|
Students
design the state feedback controller.
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PO3
|
Students
design the state feedback controller.
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PSO1
|
Students design the state feedback controller.
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PSO3
|
Students design the state feedback controller
using Matlab/Simulink.
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