(c) non-minimum phase function & The transfer function of the system having the Bode plot as shown above is given by 100 100 (a) jol + j0.50)(1+ j0.10) (b) jox2+ jw)(10+ j@) 10 10 (c) jo (1+2jw)(1+10 j@) llos (d) Je(1+ j0.5) (1+0.1 jo)

Control system

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(c) non-minimum phase function The transfer function of the system having the Bode plot as shown above is given by 8. 100 100 (a) jo(1+ j0.5@) (1+ j0.1@) (b) jo(2+ ja)(10+ jw) (14 10 10 (d) JO(1+ j0.50) (1+0.1 ja) llos (c) jo (1+2 jm)(1+10 jo) ollosos liogost () الم مسوحة ضوئيا ب CamScan ner Bode Plot bns yosiT amadeye lotnoo 427 -(00aoitanui Gain dB holgn ad ni olg abot qale sT a vatod S -20 dB/decade aoldb (s) vaboldb a) 10 1 100 -40 dB/decade - 60 dB/decade solal Fig. 3 9. A system with transfer function G(s) = s/(1 + s) is subjected to a sinusoidal input r(t) = sin or. In steady state, the phase angles of the output relative to the input at o = 0 and o = 00 will be, respectively, (a) 0° and – 90° 10. A system has 14 poles and 2 zeros. The slope of its highest frequency asymptote in its magnitude plot is (a) - 40 dB/ decade (b) 0° and 0° (c) 90° and 0° (d) 90° and 0° (b) - 240 dB/decade (c) - 280 dB/ decade (d)- 320 dB/ decade I1. The function corresponding to the Bode plot shown below is i of thepte + dB 341 POLAR PLOT OF STNDARD FUNCTONS 1411 G(s) 1/ 6dB/octave O dB Fig. 4 (b) A = 1/(-if,lf ) (a) A=if, 12. For a type-3 system, the asymptote at a lower frequency will have a slope of (a) -6 dB/decade 13. The open-loop transfer function of a unity feedback control system is 10/(s+5)'. The gain margin of the system will be (a) 20 dB 14. If a transfer function has one or more zeros in the S plane, it is called (a) all pass transfer function (c) minimum phase transfer function 15. A decade frequency range is specified by (c) A= 1/(1+iflf) (d) A=1+iflf, (b) – 12 dB/decade (c) - 18 dB/decade (d) - 40 dB/decade (b) 40 dB (c) 60 dB (d) 80 dB (b) non-minimum phase transfer function (d) none of these (a) = 2 (b) = 10 (c) =3 (d) = 6