00.511.522.533.5401234567Tempo (s)Campionamento ideale (T=0.1 e T=0.4) della funzione gs=25/((s+1)

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(2) . . !"$#&%(')+*-,/.0!21'3,$4&5(,/%768,9')+':68,/;=<>68,/;@?A#B"$#&%76C2%-5(#ED FHG0IKJML. IQPSR. N/O. ITR. N. O. &,9')E*E+'3"/.U,V6C+WXW7<@YZ5(,$':6<\[]5-%(WQ+#&%(,^576C21_+WXW7<-%(*-#21`?A,/.0+#*-#a*EE"b<-;@?c+#&%K<-;d,/%768# e Lgf&hji ')k#K6l6C+,/%(,B1m<9[]5-%(WQ+#&%(,cn F. GpoJMLgqsrtFHG0IKJvuwEx . L. y+. f&hji/iXz/zAo>R{f&hjiXf/|&i o P}. i/h2~/~(-o>R{f&h&iXA~. 6C21_+WXW7<-%(*-# 2%7Q,$"$,21

(3) ?A,/.0+#*-#{*E"b<-;@?c+#&%K<-;d,/%768#. L e. f&ht. ')#K6l6C+,/%(,1m<. '3,$4&5(,/%768,=[]5-%(WQ+#&%(,cn F P. GpoJMLgqsrtFHG0IKJvuwEx. y . L. i/htcz/Mo>Ri/hji/i) o P}. f&h|/Qo>R{f&ht/c|/. +'V?A#A':6<\<-14&.<(*E2%(#5-%c6<K.0+#*-,/11,\[]5-%(WQ+#&%c FHG0IKJCF . GpoJ ,. FHG N. JVGpoJ n. Campionamento ideale (T=0.1 e T=0.4) della funzione gs=25/((s+1)2+4) 7. 6. Funzioni gs, gz1 e gz2. 5. 4. 3. 2. 1. 0. 0. 0.5. 1. 1.5. 2 Tempo (s). 2.5. 3. 3.5. 4. !>%(#K6C=12t,$'<76l6<"$#k2%("K+*-,/%(W7<{*-,/11,g.0+'V?A#A':68,<-14&.<(*E2%(#%(,$4&1_=+':6<-%76C*E "b<-;@?c+#&%K<-;d,/%768#Z.

(4) P. . . ). T 9j ). . . . C . !"$#&%(')+*-,/.0!21'3,$4&5(,/%768,9')+':68,/;=<n FHG0IKJML. N/O IkG0ITRi$JVG0IRgiXfAJ. !Z;d,V6l6<9< "$#&%b[].U#&%768#B[]5-%(WQ+#&%(,=*E .0+'V?A#A':6<<K.v;d#&%c+"b< *-,K '3,$4&5(,/%76Ck@')+':68,/; n.

(5) 1')+':68,/;=<. FHG0IKJ n. G J 1X')+':68,/;=< . . G J. . FHG0IKJ. . . e. . . 1')+':68,/;=<. "!$# %&. FHG0IKJ. . . #K6l68,/%-5768#. G J -,. FHGpo. e J^L. qsr. FHG0IKJ. '3#A':6C6)5(,/%(*-#1m<@"b<('3"b<76<*-,/1"b<-;@?c+#&%K<768#-.U, "$#&%. !$# %& . G J . FHGpoJ. ,d*-,/1Z.0+"$#A':6).v576l68#-.U,>*E #-.U*E2%(,=WX,/.U# ?A,/.0+#*-#*Ek"b<-;@?c+#&%K<-;d,/%768# e n. *)A<[]5-%(WQ+#&%(,+. . G0IKJ . . . G J . G0IKJFHG0IKJvu #K6l68,/%-5768#92%('3,/.U,/%(*-#5-%"b<-;@?c+#&%K<768#-.U, 5-%a.0+"$#A':6).v576l68#-.U, E * &#-.U*E2%(,9WX,/.U# 2%@"b<('3"b<76<\<-1 ')+':68,/;=< FHG0IKJ n. ,. FHGpoJMLgqsr. . 5-%.06<K.U*-#H?-5-.U#. . FHG0IKJ. /.. G0IKJFHG0IKJvu " (,. "!$# %&. ('. ?K<K.0k<B;d,V6 <=*-,/1. G J . *E+'3"/.U,V6C+WXW7<-%(*-# 21 G0IKJ , ')+':68,/;=< FHG0IKJ ?A#A':68# 2%"b<('3"b<76< "$#&% 21 .0+"$#A':6).v576l68#-.U,\*E #-.U*E2%(,BWX,/.U# []5-%(WQ+#&%(,9*-,/1 ?A,/.0+#*-#*E&"b<-;@?c+#&%K<-;d,/%768# e . ') #K6l6C+,/%(,. 0. '.

(6) . . . < 4&.<-;@; *E ( QYZ5c+':6=*-,K')+':68,/; FHG0IKJ r+f&hji `f&h `f&h f&ht `f&h u n N O. /,. ,. ,. ,. -,. . FHGpo. "! # % &. e J ,. FHG0IKJ. ?A,/. e. . .. 5-%. Diagramma di Nyquist al variare di T = [0.1:0.1:0.5] s. 0.2. 0. Im[G(j*w)]. −0.2. −0.4. −0.6. −0.8. −1. −2. !%(#K6C"$#&;d, <-5-;d,/%768#. −1.5. −1 Re[G(j*w)]. −0.5. 0. *-,/11#. '8[p<('<-;d,/%768#?K.U,$'3,/%768,. . <-112 2%768,/.v%(#. ('. *-,/1')+':68,/;=<. ,. /.. . .0+*Z5(WQ+#&%(,9*-,K!;=<K.U4k2%c*E&':6< c21_6 <. M<c . QYZ5c+':6 '3#&?K.<.02?A#-.6<76C. *E <(4&.<-;@;%c. WQ+#&%c1m<. "b<('3"b<76<. A,/%. ,$'3'3,/.U,. e. . . '. ,V-+*-,/%768,. YZ5c2%(*E5-%K<.

(7) . " (,a?A,/. K<('3'3,a?-5-1'<. . G0IKJ . . . kG J. . . ?-5-.U#Zn. . ! ;d,V6l6<9#-.<B<"$#&%b[].U#&%768#21')+':68,/;=< G J. ,. ') K<. *-,/1 "b<-;@?c+#&%K<768#-.U,,*-,/1M.0+"$#A':6).v576l68#-.U,*E #-.U*E2%(,WX,/.U#?-5 #. <-?-?K.U#A'3')2;=<76<*<^5-%a.06<K.U*-#. . e. <-112<-5-;d,/%76<K.U,*-,/1?A,/.0+#*-#{*E "b<-;@?c+#&%K<-;d,/%768#. G0IKJ. . !$# % &. .U,V6).U#-<(WQ+#&%K<768#. . 68,/;@?A#B"$#&%76C2%-5(#Zn. FHG0IKJ. G J . '.

(8) "$#&%21"$#-.v.0+'V?A#&%(*-,/%768,')+':68,/;=<>68,/;@?A#. . GSJ. . . . kGSJ. *E+'3"/.U,V68#Zn. . GpoJ. GSJ. . . FHGpoJ. . G0IKJ. . . G J . FHG0IKJ. . e. . F. 5-%(WQ+#&%c&*E 6).<('8[,/.02;d,/%768# F . G0IKJ L. iR. . . G0IKJ ,. G0IKJ FHG0IKJ. F. G0IKJFHG0IKJ. ,. . . GpoJ *-,Kk*Z5(,9')+':68,/; .U,V6).U#-<(WQ+#&%K<76C n F . GpoJML. . iR. -, e. FHGpo +'V?A#A':6<<-1 & 4 .<(*E2%(# *-,K')+':68,/; FHG0IKJ , r+f&hji `f&h `f&h f&ht `f&h u Z 5-%c6<K.0 <^?A,/. e Y 5K<-%(*-# N O. . /,. ,. ,. ,. J. GpoJGpo J. FHGpoJ. . FHGpoJ. . ?A#A':6C 2% U. ,V6).U#-<(WQ+#&%(, G0IKJ L GpoJ L i n. Risposta al gradino al variare di T = [0.1:0.1:0.5] s 1.8. 1.6. 1.4. Uscita y(t). 1.2. 1. 0.8. 0.6. 0.4. 0.2. 0. 0. 5. 10. 15. Tempo (s). 112<-5-;d,/%76<K.U,=*-,/1`?A,/.0+#*-#^*E&"b<-;@?c+#&%K<-;d,/%768# '3,/;@?K.U,. .. ') K<-%-%(#.0+'V?A#A':68,@<-14&.<(*E2%(#. ;d,/%(#B'V;d#-.UW7<768,=,="$#&%a5-%K<\'3#K .<(,/1#&%(4-<(WQ+#&%(,9'3,/;@?K.U,. '. ?c 5\,/1,V/<76<.

(9) . C $ X. . a > > = Q ` . M. . . !"$#&%(')+*-,/.0!21'3,$4&5(,/%768,9')+':68,/;=<n FHG0IKJML ,. N/O IkG0ITRi$JVG0IRgiXfAJ. ]<-%76C+"K2?K<76).0+"$, . ?A,/.S,$'3'3#B')!?K.U#A4A,V6l6C`5-%K<@#&?-?A#-.6)5-%K<H.U,V68, "$#-.v.U,V6l6).0+"$,. . iR. iR. G0IKJ L. /.. . P. I. iMR{f&h/f/zI L. I. n. iMR{f&hji/i$~MI. " (, ;+4&1_+#-.0A1m<>.0+'V?A#A':6<<-1X4&.<(*E2%(#>*-,/1$"$#-.v.0+'V?A#&%(*-,/%768,')+':68,/;=< .U,V6).U#-<(WQ+#&%K<768#Z. *)A<[]5-%(WQ+#&%(,*E6).<('8[,/.02;d,/%768# . '. G0IKJ ?-5 #^,$'3'3,/.U,=*E+'3"/.U,V6C+WXW7<76<576C21_+WXW7<-%(*-#. Q,/.U') ;d,V68#*E&<-?-?K.U#A'3')2;=<76C n.

(10) *E ,/.U,/%(WX,<-112 2%(*E+,V6).U#. . n. . GpoJML. . *E ,/.U,/%(WX,<-112<7/<-%76C n. . . . P.

(11) x & #. G0IKJ. . GpoJML.

(12) x & #. G0IKJ. c21_2%(,b<K.U, n GpoJML G0IKJ

(13) . e. L. R R e. L. . P. }. . }. P. }. RgG e }. . RgG e }. RgG e }. . !. JZo P. . !. JZo . . ! o. P. RgG e. . ! o. . *E. . 6).<('8[#-.v;=<(WQ+#&%(,. & x # % . "$#-.v.0+'V?A#&%(*-,/%(W7<H?A#&1_ ]WX,/.0 n. *-#KQ,. . G0IKJ. . L. . L. GpoJML. ! # ,. e. R e. R. N N. . . }. P. }. N N. }. P. . JZo. !. G:i }. J }. G:i }. JZo. G:i. J. G:i. JZo. . L. !. JZo. . ! . . ! . ! #%. GpoJ !%(#K6C "/.(,21.U,$4A#&1m<768#-.U, ,\ ' ':6< c21,'3#&1#HYZ5K<-%(*-# e ! P <-1 6).0&H.U,$4A#&1m<768#-.0&'3#&%(#':6< c21_ ?A,/. YZ5K<-15-%(YZ5(, /<-1#-.U, *E e#". N. f . . P ;d,/%76).U,94&1_.

(14) . QYZ5c+':6. +'V?A#A':68,<-1T4&.<(*E2%(# *-,/1

(15) ')+':68,/;=< .U,V6).U#-<(WQ+#&%K<768# ,*E <(4&.<-;@;T*E YZ5K<-%(*-# e Lgf&h ,B576C21_+WXW7<-%(*-# /<K.0 ;d,V68#*E*E&*E+'3"/.U,V6C+WXW7<(WQ+#&%(,cn Discretizzazione: all’indietro (r),all’avanti(m), bilineare (b), poli−zeri (g).T=0.3. Nyquist: all’indietro (r),all’avanti(m), bilineare (b), poli−zeri (g).T=0.3. 1.5. 0.2. 0. 1. Imag]. Im[G(j*w)]. −0.2. 0.5. −0.4. −0.6. −0.8. −1. 0. 0. 1. 2. 3 Tempo (s). 4. 5. 6. +'V?A#A':68,9<-14&.<(*E2%(#, *E <(4&.<-;@; *E. −1.5. −1. QYZ5c+':6YZ5K<-%(*-#. −0.5 Real. Discretizzazione: all’indietro (r),all’avanti(m), bilineare (b), poli−zeri (g).T=0.25. Lgf&h e. 0. 0.5. n. N/O. Nyquist: all’indietro (r),all’avanti(m), bilineare (b), poli−zeri (g).T=0.25. 1.5. 0.2. 0. 1. Imag]. Im[G(j*w)]. −0.2. 0.5. −0.4. −0.6. −0.8. −1. 0. 0. 1. 2. 3 Tempo (s). 4. 5. 6. +'V?A#A':68,9<-14&.<(*E2%(#, *E <(4&.<-;@; *E. −1.5. −1. QYZ5c+':6YZ5K<-%(*-#. Discretizzazione: all’indietro (r),all’avanti(m), bilineare (b), poli−zeri (g).T=0.15. e. −0.5 Real. Lgf&hji O. 0. 0.5. n. Nyquist: all’indietro (r),all’avanti(m), bilineare (b), poli−zeri (g).T=0.15. 1.5. 0.2. 0. 1. Imag]. Im[G(j*w)]. −0.2. 0.5. −0.4. −0.6. −0.8. −1. 0. 0. 1. 2. 3 Tempo (s). 4. 5. 6. −1.5. −1. −0.5 Real. 0. 0.5.

(16) +'V?A#A':68,9<-14&.<(*E2%(#, *E <(4&.<-;@; *E. QYZ5c+':6YZ5K<-%(*-#. Discretizzazione: all’indietro (r),all’avanti(m), bilineare (b), poli−zeri (g).T=0.05. Lgf&hf e. n O. Nyquist: all’indietro (r),all’avanti(m), bilineare (b), poli−zeri (g).T=0.05. 1.5. 0.2. 0. 1. Imag]. Im[G(j*w)]. −0.2. 0.5. −0.4. −0.6. −0.8. −1. 0. 0. 1. 2. 3 Tempo (s). 4. 5. 6. +'V?A#A':68,9<-14&.<(*E2%(#, *E <(4&.<-;@; *E. −1.5. −1. QYZ5c+':6YZ5K<-%(*-#. Discretizzazione: all’indietro (r),all’avanti(m), bilineare (b), poli−zeri (g).T=0.005. e. −0.5 Real. Lgf&hf/f. 0. 0.5. n O. Nyquist: all’indietro (r),all’avanti(m), bilineare (b), poli−zeri (g).T=0.005. 1.5. 0.2. 0. 1. Imag]. Im[G(j*w)]. −0.2. 0.5. −0.4. −0.6. −0.8. −1. 0. 0. 1. 2. 3 Tempo (s). 4. 5. E,/.M?A,/.0+#*E&*E&"b<-;@?c+#&%K<-;d,/%768# . 6. ' . −1.5. −1. −0.5 Real. .. 0. "$#A' !?c+"$"$#&1_!`.U,$4A#&1m<768#-.0&*E+'3"/.U,V6C K<-%-%(#. 5-%@"$#&;@?A#-.6<-;d,/%768#B'3#A':6<-%(WQ <-1;d,/%768,>,$YZ5c/<-1,/%768,c. 0.5. 6)576l6C.

(17) . '3,/.U"K+WQ+#Zn "$#&%76).U#&11#*E!5-%\*-#&?-?c+#2%768,$4&.<768#-.U,. *)5(#A4A#*-,/11,B.<(*E+"KE<-1-/<K.0 <K.U,=*-,/1k4&5K<(*<(4&%(# . . . G0IKJ. . . . . i. . . n. IQP. 1$')+':68,/;=<d.U,V6).U#-<(WQ+#&%K<768# , ' '3,/;@?-1_+"$,/;d,/%768,':6< c21, ?A,/.&6)576l6CAX/<-1#-.0b*E . ". f . Risposta al gradino. Luogo delle radici. 2. 20. 1.8 15. 1.6 10. 1.4. 1.2 Uscita y(t). Imag. 5. 0. 1. 0.8. −5. 0.6 −10. 0.4 −15. −20 −1. 0.2. −0.8. −0.6. −0.4. −0.2. 0 Real. 0.2. 1')+':68,/;=<B?-5 # ' ,$'3'3,/.U, . . 0.4. 0.6. . 0.8. 0. 1. . G0IKJ. . . . cfEG0ITR-J G0ITRiXfAJ. *)5(#A4A#*-,/11,B.<(*E+"Kk,B.0+'V?A#A':6<. 1.4. 10. 1.2. 5. 1 Uscita y(t). 15. 0. 0.6. −10. 0.4. −15. 0.2. −6. −5 Real. −4. 10 Time [s]. 12. 14. 16. 18. 20. 5-%K<a.U,V68,9<-%76C+"K2?K<76).0+"$,cn. . i. . 0.8. −5. −7. 8. Risposta al gradino 1.6. −8. 6. <-1 4&.<(*E2%(#*-,/1k')+':68,/;=<B.U,V6).U#-<(WQ+#&%K<768#Zn. Luogo delle radici. −9. 4. IQP. 20. −20 −10. 2. ':6< c21_+WXW7<768#H576C21_+WXW7<-%(*-#. . Imag. 0. −3. −2. −1. 0. 0. 0. 1. 2. 3 Time [s]. 4. 5. 6.

(18) e. ! <. ). Lgf&hf/I A<*E+'3"/.U,V6C+WXW7<(WQ+#&%(,=*-,/1!.U,$4A#&1m<768#-.U,. . '. ?-5 #,$'3'3,/.U,>[p<76l6<576C21_+WXW7<-%(*-#.

(19) . . . ;d,V68#*-#. ;d,V68#*-#. ;d,V68#*-#. cfEG0ITR-J. G0IKJ L. G0ITRiXfAJ. /<K.0!;d,V68#*E n. *-,/11, *E ,/.U,/%(WX,<-112 2%(*E+,V6).U# n. . *-,/11m<. . *-,/11m<. . . . GpoJML.

(20) x & #. G0IKJ. Zhtc } L. c21_2%(,b<K.U, n. o. f&hjiX }. f&hjio. &htc }. ~kh. !. . ! . 6).<('8[#-.v;=<(WQ+#&%(, GpoJ. L P. .

(21) x % & # . G0IKJ. L. f&h } N. !. o. O N / f&hji$~ o. !. . "$#-.v.0+'V?A#&%(*-,/%(W7<a?A#&1_ ]WX,/.0 n w z&hzA~ } h Mo / i } o L N O GpoJ L w i } o i } f&2h ~(cf/Mo . !. . +'V?A#A':6<*-,/1')+':68,/;=<. "!. !. !. !. !. .U,V6).U#-<(WX#k2%K<768#^<-1 4&.<(*E2%(#5-%c6<K.0+#Zn Discretizzazione: all’indietro (r), bilineare (b), poli−zeri (g).T=0.03. 1.8. 1.6. 1.4. Im[G(j*w)]. 1.2. 1. 0.8. 0.6. 0.4. 0.2. 0. 0. 0.5. 1. 1.5. 2. 2.5 Tempo (s). 3. 3.5. 4. 4.5. 5.

(22) 0. *)5(#A4A#*-,/11, . 576C21_+WXW7<. . .<(*E+"KM,. .0+'V?A#A':6< <-1 & 4 .<(*E2%(#*-,/1 ')+':68,/;=<.U,V6).U#-<(WQ+#&%K<768#'3, G0IKJ L : n 1m<^.U,V68,="$#-.v.U,V6l6).0+"$, 0. &. &. '). Risposta al gradino. Luogo delle radici 20. 1.4. 15. 1.2. 10. 1. Uscita y(t). Imag. 5. 0. 0.8. 0.6. −5. 0.4 −10. 0.2. −15. −20 −10. −9. −8. −7. −6. −5 Real. −4. −3. −2. −1. 0. 0. 0. 1. 2. 3 Time [s]. 4. 5. /.. +'V?A#A':68,<-1$4&.<(*E2%(#>" (, ')7#K6l68,/%(4A#&%(#=*E+'3"/.U,V6C+WXW7<-%(*-#1m<>.U,V68, "$#-.v.U,V6l6).0+"$, , 576C21_+WXW7<-%(*-# 21 ?A,/.0+#*-#*E&"b<-;@?c+#&%K<-;d,/%768# e Lgf&hf/ '$n Discretizzazione: all’indietro (r), bilineare (b), poli−zeri (g).T=0.03 1.4. 1.2. Im[G(j*w)]. 1. 0.8. 0.6. 0.4. 0.2. 0. 0. 0.5. 1. 1.5. 2 Tempo (s). 2.5. 3. 3.5. 4. . 6. G0IKJ.

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