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Test: IIR System Structures - Electrical Engineering (EE) MCQ


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10 Questions MCQ Test - Test: IIR System Structures

Test: IIR System Structures for Electrical Engineering (EE) 2024 is part of Electrical Engineering (EE) preparation. The Test: IIR System Structures questions and answers have been prepared according to the Electrical Engineering (EE) exam syllabus.The Test: IIR System Structures MCQs are made for Electrical Engineering (EE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: IIR System Structures below.
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Test: IIR System Structures - Question 1

 If M and N are the orders of numerator and denominator of rational system function respectively, then how many multiplications are required in direct form-I realization of that IIR filter?

Detailed Solution for Test: IIR System Structures - Question 1

Explanation: From the direct form-I realization of the IIR filter, if M and N are the orders of numerator and denominator of rational system function respectively, then M+N+1 multiplications are required.

Test: IIR System Structures - Question 2

If M and N are the orders of numerator and denominator of rational system function respectively, then how many additions are required in direct form-I realization of that IIR filter?

Detailed Solution for Test: IIR System Structures - Question 2

Explanation: From the direct form-I realization of the IIR filter, if M and N are the orders of numerator and denominator of rational system function respectively, then M+N additions are required.

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Test: IIR System Structures - Question 3

If M and N are the orders of numerator and denominator of rational system function respectively, then how many memory locations are required in direct form-I realization of that IIR filter?

Detailed Solution for Test: IIR System Structures - Question 3

Explanation: From the direct form-I realization of the IIR filter, if M and N are the orders of numerator and denominator of rational system function respectively, then M+N+1 memory locations are required.

Test: IIR System Structures - Question 4

 In direct form-I realization, all-pole system is placed before the all-zero system.

Detailed Solution for Test: IIR System Structures - Question 4

Explanation: In direct form-I realization, all-zero system is placed before the all-pole system.

Test: IIR System Structures - Question 5

If M and N are the orders of numerator and denominator of rational system function respectively, then how many memory locations are required in direct form-II realization of that IIR filter?

Detailed Solution for Test: IIR System Structures - Question 5

Explanation: From the direct form-II realization of the IIR filter, if M and N are the orders of numerator and denominator of rational system function respectively, then Max[M,N] memory locations are required.

Test: IIR System Structures - Question 6

The basic elements of a flow graph are branches and nodes.

Detailed Solution for Test: IIR System Structures - Question 6

Explanation: A signal flow graph provides an alternative, but an equivalent graphical representation to a block diagram structure that we have been using to illustrate various system realization. The basic elements of a flow graph are branches and nodes.

Test: IIR System Structures - Question 7

 Which of the following is true for the given signal flow graph?

Detailed Solution for Test: IIR System Structures - Question 7

Explanation: The equivalent filter structure of the given signal flow graph in the direct form-II is given by as
Thus from the above structure, the system has two zeros and two poles.

Test: IIR System Structures - Question 8

What are the nodes that replace the adders in the signal flow graphs?

Detailed Solution for Test: IIR System Structures - Question 8

Explanation: Summing node is the node which is used in the signal flow graph which replaces the adder in the structure of a filter.

Test: IIR System Structures - Question 9

 The output signal of a system is extracted at a sink node.

Detailed Solution for Test: IIR System Structures - Question 9

Explanation: The input to a system originates at a source node and the output signal is extracted at a sink node.

Test: IIR System Structures - Question 10

If we reverse the directions of all branch transmittances and interchange the input and output in the flow graph, then the resulting structure is called as:

Detailed Solution for Test: IIR System Structures - Question 10

Explanation: According to the transposition or flow-graph reversal theorem, if we reverse the directions of all branch transmittances and interchange the input and output in the flow graph, then the system remains unchanged. The resulting structure is known as transposed structure or transposed form.

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