Download AKTU (Dr. A.P.J. Abdul Kalam Technical University (AKTU), formerly Uttar Pradesh Technical University (UPTU) B-Tech 3rd Semester (Third Semester) 2015-2016 EEC 304 Fundamentals Of Network Analysis And Synthesis Question Paper
(Following Paper ID and Roll No. to be filled in your
Answer Book)
Roll No.
B. TECH.
(SEM. III) THEORY EXAMINATION, 2015-16
FUNDAMENTALS OF NETWORK ANALYSIS AND
SYNTHESIS ?
[Time:3 hours] [Total Marks: 100]
?2200
Section-A
Attempt all parts. All parts carry equal ma_rks. Write
answer of each part in short: (2x10=20)
(a) De?ne ?initial vallie? and ??nal Ivalue? theorem.
(1)) De?ne reciprocal network.
(c) List three pr0perties of positive real function.
((1) Enlist the two important properties to recognize
an R-C impedance'in synthesis.
(6). Explain an exponential ?mction.
(1) . P.T.O.
(t) Write-the condition of symmetry in termson, Y,
h and T parameters.
(g) Differentiate between active and passive ?lters.
, (h) Show that the described by the transfer function
1
H s =
( ) (sz +0.76536s+1)(s2+l.84776s+1)
is a
- Low Pass Filter.
(i) Determine the range of constant ?K? for the
polynomial to be Hurwitz
P(s)=s?+3sz+23+K
(j) ? Write the properties of transfer functions.
Section-B
Note: Attempt any ?ve questions from this section :
2.
2200
(10x5=50)
Explain the concept of reciprocity and symmetry. Deritle
the above conditions for h and ABCD parameters.
(2) EEC-304
3. Determine the equivalent Norton Network at the
terminals a and b of the circuit shown in ?gure-l -,
34+
4.
cf
1
n? .2?
?1
a
09'
4. The switch K shown in ?gure-Z is in the steady state in
position a for _oo<; <0; At t = 0, it is connected to
position b. Find iL(t), t 20
R - _
V1 c1 :2? E I
l L law)
R] ' Tc
~ I
Figure.2 -
220? ? (3) P.T.O.
2200
Find
(a) The r.m.s. value of the square-wave shown in ?gure?
3.
(b) The average power for the circuit having
Zin=l .05_-0.67 j 9 when the driving-current is 40-
3jA.
\
v
(volt? ? .
5 "??
' ?
0 0.1 0.2 0.3 0.4 ?Q
? Figure.3
s3+252+3s+1
Determine whether the ftmction F (S ) = _?3?-?2?????
s + s + 2s +1
is positive real or not.
Synthesize a ladder network whose driving point
255 +12s3 +165
. - - ' ZS =?-?-??"
unpedancefunctlonlsglvenby ( ) S4+452+3
(4)
EEC-304
us 4~A~.A...__?_ _., , .
E?
Synthesize an LC network terminated in IQ given that
Z S =???-???-??-
2'() s3+3s2+4s+2
9; Showthatthevoltageratio trensf?r function oftheladder
network shown in ?gure-4 is given by
V2(S)_ 8s2
V1(S) 1232+123+l
11 2F 21!
V1 2;; ' '11? 219 ?72
' Figure.4
Section-C
Note : Attempt any two questions from this section.
(15x2=30)
2200 (5) P.T.O.
10.
ll.
12.
2200 "
Express the impedance Z(s) for the network shown in.
?gure-S in the form :
N (s)
Z(S )= KD(3)
Plot its poles and zeros. F mm the pole-zero plot, what
can you infer about the stability of the system ?
12
1H' t . 3?H
? 166?
%
._.... 1 ._._.
Figure.5
2o+na+3
Consider the system function Z (S) = (S + 2X3 + 6) -
Synthesize :
(a) An R-L network
(b) An R-C network
Find the poles of system functions for low pass ?lter
with n=3 and n=4 Butterworth characteristics. (Do not
use the tables)
??X?..
(6) . _ EEC-304
This post was last modified on 29 January 2020