Question (1)
A driving point impedance function is given by :
a)Plot the poles and zeroes of the function in the S-plane and give the type of the
network it represents .
b)Synthesize three circuits to realize the function Z(S) and give their circuit
connections .
Question (2)
A driving-point admittance function is given by :
a)Plot the poles and zeros of the function in the S-plane and give the type of the
elements used to realize it .
b)Using a suitable type of scaling , synthesize two possible circuits to realize this
function.
Question (3)
Given the following driving point impedance functions :
Choose an RC impedance function and synthesize three possible circuits to realize it .
Question (4)
A driving-point impedance function is given by :
a)Plot the poles and zeros of the function in the S-plane and give the type of the
elements used to realize it .
b)Using a suitable type of scaling , synthesize three possible circuits to realize this
function.
Question (5)
A driving-point admittance function is given by :
a)Plot the poles and zeros of the function in the S-plane and give the type of the
elements used to realize it .
b)Using a suitable type of scaling , synthesize three possible circuits to realize this
function.
Question (6)
Given the driving point impedance functions :
a)Which of the functions is not an LC impedance ? Give reasons .
b)Choose an LC impedance function and synthesize two of its possible Foster and
Cauer circuits .