# The transfer function of the circuit is given by F(S)=3s+2/s4+6s3+10s2+s . Its final value is

1.  1

2.   2

3.  Zero

4.  Infinity

4

2

Explanation :
No Explanation available for this question

# The transfer function of an electrical RC low-pass filter is

1.  RCS/1+RCS

2.  1/1+RCS

3.  RC/1+RCS

4.  S/1+RCS

4

1/1+RCS

Explanation :
No Explanation available for this question

# The transfer function of an electrical RC high pass filter is

1.  RCS/1+RCS

2.  1/(1+RCS)

3.  RC/(1+RCS)

4.  S/(1+RCS)

4

RCS/1+RCS

Explanation :
No Explanation available for this question

# In a two-port network, the condition for the reciprocity in terms of ‘h’ parameter is

1.  h12=h21

2.  h11=h22

3.  h11=-h22

4.  h12=-h21

4

h12=-h21

Explanation :
No Explanation available for this question

# For the network shown in the given figure Z(0)=3 & Z(∞)=2?. Then values of R1 and R2 will be respectively

1.  2, 1?

2.  1?, 2?

3.  3?, 2?

4.  2?, 3?

4

2, 1?

Explanation :
No Explanation available for this question

# The driving point impedance of the infinite ladder network shown in the figure is given by R1=2 and R2=1.5?

1.  3

2.  3.5?

3.  (3/3.5)?

4.  (3.5/3)?

4

3

Explanation :
No Explanation available for this question

# In a passive two-port network, the opn-circuit impedance matrix is if the input port is interchanged with the output port, then new open-circuit impedance matrix will be

1.

2.

3.

4.  None of these

4

Explanation :
No Explanation available for this question

# Which of the following statements is/are correct 1. Transfer function is reciprocal of the transfer admittance 2. One can derive the transfer function of a network if driving point impedance and admittance is known 3. Driving point impedance of a network is the ratio of laplace transform of voltage and current time functions at the input.

1.  1, 2, 3

2.  1, 2

3.  2, 3

4.  3

4

3

Explanation :
No Explanation available for this question

# If impulse response of a network is show below as Find the transfer function of the network

1.

2.

3.

4.

4

Explanation :
No Explanation available for this question

# The reciprocal of a network function is

1.   An immittance function, If the original function is an immittance function

2.  A transfer function, if the original function is a transfer function

3.  Never a immittance function

4.  Never a transfer function

4