ELE204-MT1(2006-7) - I. Show all of your steps in detail...

Info iconThis preview shows pages 1–9. Sign up to view the full content.

View Full Document Right Arrow Icon
Background image of page 1

Info iconThis preview has intentionally blurred sections. Sign up to view the full version.

View Full DocumentRight Arrow Icon
Background image of page 2
Background image of page 3

Info iconThis preview has intentionally blurred sections. Sign up to view the full version.

View Full DocumentRight Arrow Icon
Background image of page 4
Background image of page 5

Info iconThis preview has intentionally blurred sections. Sign up to view the full version.

View Full DocumentRight Arrow Icon
Background image of page 6
Background image of page 7

Info iconThis preview has intentionally blurred sections. Sign up to view the full version.

View Full DocumentRight Arrow Icon
Background image of page 8
Background image of page 9
This is the end of the preview. Sign up to access the rest of the document.

Unformatted text preview: I. Show all of your steps in detail and I 2.’ Write your name on al 01, For the circuit given in Fig.1, a) Using the circuit topology, obtain the state equations for the state variables. Show all the matrices clearly in the s ' ‘ Q2. Consider the circuit given in Fig. 2. a) Calculate the real, reactive and apparent power dissipated on the 100 Q resistor. b) Assume that a capacitor is connected to the terminals of the 100 Q resistor. Find the value of this capacitor so that the power factor becomes 0.98. 200635 2000!; V 9 Q3. For the circuit given in Fig. 3, assume that the resistances connected immediately to the linear transformer represent the internal resistances of the windings. a) What should the number of turns in N; be so that maximum average power is delivered to the load? b) Find the maximum average power delivered to the load. . c) What percentage of the total average power generated by the source is dissipated in the linear transformer? Q4. For the circuit given in F ig.4, a) What is the coupling factor defined between 1H and 4H inductors? b) -What is the value of RL for the maximum average power transfer to RL? c) Find the maximum average power delivered to RL, (1) What is the current i(t) when the maximum average power is transferred to RL? \ Z .a, OH . I “(0 «it? .2: (mg +[Lr Z‘ -O é _. l m g 11 A 2 "—-—-— ' O l :1 3" ‘S \Q _. ._.V Q -— ,__. C b C Jr C) I _. .. Q A6. > —--- ? ”% \é — “A Q 9%: A (“A b— \2— L a g— \, x; 5% 5% 1’14th A20 g“ C \E M: .2, 3 12,54 a he —. QUZ’ jam: : __. k (302 (Ad-mum‘k jar C) ‘92—. 1i 55:2906 . 3:60.” “)4‘50‘52“ : X 'jA;jV%An4,i;A 4 H ‘ I 1400' '-jpoq ,Avleo JTZQQ . * A~>4+¢°Q9SJM37<+V¢=.O:.=9;.;-:V.5f-Vff??? ‘ .. , .. V *, = IL _..lo©)2-.;f16qooo' a, I. N"... ' Lb) : f,I3,36tIkaj-io); 3M I — a. 1;. s:1,621.;43iflw * ‘ ‘ V . s 3 “2.3. 3 . . ‘3 I m Qw- { £43 + (mm)? ‘ 2%: RAM“; Q rip:— —Q—é—-—’ a > QL :- 30}??? R > A ..10 ._ , 10' I = W“ = 4M; gym—CE; 3" 5“" ’ $1 ' 3 j: r.- i= 3-95" [435309 v AéLt tflé? ‘ 1,00 2' \g 5 C223 —\ {453°} \4 , \isf’. yrs C .3..-°Z§ \N PM)‘ 7: J. I .2, ...
View Full Document

Page1 / 9

ELE204-MT1(2006-7) - I. Show all of your steps in detail...

This preview shows document pages 1 - 9. Sign up to view the full document.

View Full Document Right Arrow Icon
Ask a homework question - tutors are online