ANNA UNIVERSITY :: CHENNAI  600 025
MODEL QUESTION PAPER(VSEMESTER)
B.E. ELECTRONICS AND COMMUNICATION ENGINEERING
EC335  TRANSMISSION LINES AND NETWORKS
Time: 3hrs
Max
Marks: 100
Answer all Questions
PART  A (10 x 2 = 20 Marks)
1. Why frequency and phase distortion occur in transmission line? Write the condition of no distortion in terms of line parameters.
2. What is meant by reflection loss and insertion loss in a transmission line?
3. An airfilled coaxial transmission line has outer and inner conductor radii equal to 6 cm and 3cm, respectively. Calculate the values of a) inductance per unit length, b) capacitance per unit length and c) characteristic impedance of the line.
4. A loss less transmission line with Z_{0} = 50 ohm is terminated in an impedance equal to 50+j50 ohm. What is the reflection coefficient and VSWR on the line.
5. A 100ohm load is to be matched to a 50ohm line. Determine the characteristic impedance of a quarter wavelength matching section
6. State the reasons, which necessitate the use of stub matching in practice.
7. What is the function of the mderived section in a composite filter?
8. Sketch the variation of characteristic impedance of a lowpass constant K filter as a function of frequency.
9. What is the function of delay equalizer? Where it is used.
10. Show under what condition a symmetrical lattice network with series arm impedances Z1 and diagonal impedances Z2 will be a constant resistance network.
PART  B (5 x 16 = 80 Marks)
11. Derive the expressions for the voltage and current at any point on the transmission line in terms of propagation constant, length and characteristic impedance of the line. Hence deduce an expression for input impedance in terms of reflection coefficient.
12.a) What are the special considerations of radio frequency lines? A radio frequency line with Z_{0} = 70 ohm is terminated by Z_{L} = 115  j80ohm at attentuation constant = 2.5m. Find the VSWR & the maximum and minimum line impedances. Derive the formula used.
(OR)
12.b) A loss less line has a standing wave ratio of 4. The Ro is 150 ohm and the maximum voltage measured on the line is 135 V. Find the power being delivered to the load. Derive the equation used.
13.a) A loss less line with Z_{0} = 300 ohm in operated at 200 MHz. The line is terminated with a load Z_{L} to produce VSWR = 4.48, the first voltage minimum occurs at 6cm from the load end. Determine two stubbing positions nearest to the load and the corresponding lengths of shortcircuited stubs having a characteristic impedance of 300 ohm for matching.
(OR)
13.b) A 50 ohm line feeds an inductive load Z = 35+j35 ohm. Design a double stub tuner to match this load to the line (make use of a Smith's chart).
14.a) Design a composite lowpass filter with a cutoff frequency of 10KHz for a load resistance of 500 ohm. It should have high attenuation at 10.65 KHz.
(OR)
14.b) Design a composite highpass filter with a cutoff frequency of 10KHz for a load resistance of 500 ohm with high attenuation at 9.39 KHz.
15.a) Design a symmetrical 600ohm bridged  T resistance attenuator to have an attenuation of 20dB.
15.b) A length of telephone cable is driven from a 600 ohm resistance. The measured insertion loss in dB is tabulated:
f(Hz) > 30 100 500 1000 2000 4000 6000
loss(dB) > 3.8 3.8 4.6 6.6 10.5 16.4 20.7
Design a lattice network to equalize the cable within 2dB from 30 to 4000 Hz. The overall insertion loss of the cable and equalizer must not exceed 20dB.
