Complex z plane X(z)=∑x[]z Region of Convergence (ROC) n=-00 ∮m Z-plane unit circle Z= ≤<元 gRe 2021/2/6 Zhongguo Liu_ Biomedical Engineering_shandong Univ
7 2021/2/6 Zhongguo Liu_Biomedical Engineering_Shandong Univ. Complex z plane ( ) =− − = n n X z x n z jw unit circle Z = e − w Z = 1 Region Of Convergence (ROC)
Review periodic sampling T: sampling period St-nT fs-1/T: sampling rate; n=-00 Q2s=2T/T: sampling rate x(t)=x()s() ()∑8(t-n7)=∑x(m)5(t-m7 n=-00 x[n]=x (t)len=x nr) 2T-T0T 2T -4-3-2-101234n 8
8 periodic sampling [ ] ( ) | ( ) c t nT c x n x t x nT = = = T:sampling period; fs=1/T: sampling rate; Ωs=2π/T: sampling rate ( ) ( ) =− = − n s t t nT x t x t s t s c ( ) = ( ) ( ) Review ( ) ( ) =− = − c n ( ) ( ) x nT t nT =− = − c n x t t nT
Review Relation between Laplace Transform and Z-transform Continuous Laplace transform X Time domain X(s)= x(teat Complex frequency domain e已 S=σ+jg2 ijS2 S-pla ane C2=2丌 O Region Of Convergence(roc)
9 Continuous Time domain: x(t) Complex frequency domain: − − X s = x t e dt s t ( ) ( ) Laplace transform s = + j = 2f s- plane j 0 Relation between Laplace Transform and Z-transform Review Region Of Convergence (ROC) = st j e e e − − −
Laplace transform and fourier transform X(s)= x(t)e sdt, st Since s=σ+g2 0 s-plane S frequency domain X(iQ)= x(te dt Fourier transform Fourier Transform is the laplace transform when s have the value only in imaginary axis, s=iQ
10 − − X j = x t e dt j t ( ) ( ) Fourier Transform frequency domain : j 0 − Fourier Transform is the Laplace transform when s have the value only in imaginary axis, s=jΩ Since s = + j So = 0 s j = ( ) ( ) st X s x t e dt − − = , Laplace Transform and Fourier transform s- plane = st j e e e − − −
For sampling signal x()=x()∑(t-n)=∑x(nT)6(t-n) n=-00 n=-00 the laplace transform LIx,(t)=x,(t)e"dt S=+ jQ2 ∑x:(n)」(-mT) if s=jQ2, =Q2T =∑x(n)em=X(e)=X(e n=-00 Jon z-transform 令zae ,(0+19)7 of discrete x[n]z=X(z) e T time signal n=-0o