1 數位控制(三). 2 z transform z transformation transforms linear difference equation into...
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數位控制(三)
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z transform z transformation transforms linear difference e
quation into algebraic in s. Laplace transformation transforms linear time-i
nvariant differential equation into algebraic in z.
G
H
x y+
- GHG
sxsy
1)()(
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G(s)
H(s)
x(s) y(s)+
- )()(1
)(
)(
)(
sHsG
sG
sx
sy
x(t) H(t) y(t)
0)()(y(t)
summationnsconvolutio
)()(y(t)
)()(y(t)
:integralnconvolutio
kkTthkTx
dhtxor
dthx
In time domain
In s domain
![Page 4: 1 數位控制(三). 2 z transform z transformation transforms linear difference equation into algebraic in s. Laplace transformation transforms linear time- invariant](https://reader036.vdocuments.net/reader036/viewer/2022062320/56649d5d5503460f94a3b995/html5/thumbnails/4.jpg)
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The z transform method allows Conventional analysis and design techniques
Root-locus Frequency response analysis (convert z to w) Z transformed characteristic equation allows
Simple stability test
![Page 5: 1 數位控制(三). 2 z transform z transformation transforms linear difference equation into algebraic in s. Laplace transformation transforms linear time- invariant](https://reader036.vdocuments.net/reader036/viewer/2022062320/56649d5d5503460f94a3b995/html5/thumbnails/5.jpg)
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0
1
21
0
)()]([)(
transformLaplace
delay step timeone :
)()2()()0()(
)()]([)]([)(
transformz
dtetftfLsF
Z
zkTxzTxzTxxzX
zkTxkTxZtxZzX
st
k
k
k
![Page 6: 1 數位控制(三). 2 z transform z transformation transforms linear difference equation into algebraic in s. Laplace transformation transforms linear time- invariant](https://reader036.vdocuments.net/reader036/viewer/2022062320/56649d5d5503460f94a3b995/html5/thumbnails/6.jpg)
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Elementary Functions
Unit-step Unit-ramp Polynomial Exponential Sinusoidal Table of z transforms (Ogata p-29)
1)](1[)(
0
zz
ztZzXk
k
20 )1(
][)(
z
TzkTztZzX
k
k
)(][)(
0 azz
zaaZzXk
kkk
)(][)(
0aT
k
kakTat
ez
zzeeZzX
1cos2
sin)](
21
[][sin)(2
Tzz
Tzee
jZtZzX tjtj
![Page 7: 1 數位控制(三). 2 z transform z transformation transforms linear difference equation into algebraic in s. Laplace transformation transforms linear time- invariant](https://reader036.vdocuments.net/reader036/viewer/2022062320/56649d5d5503460f94a3b995/html5/thumbnails/7.jpg)
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Important properties Multiplication by a constant Linearity of z transform Multiplication by ak
Shifting theorem
Complex translation theorem Initial value theorem Final value theorem
)()]([)]([ zaXtxaZtaxZ
)()()]()([ zGzFkgkfZ
)()]([ 1zaXkxaZ k
)()]([ zXznTtxZ n
1
0])()([)]([
n
k
kn zkTxzXznTtxZ
)()]([ atat zeXtxeZ
)(lim)0( zXxz
)]()1[(lim)(lim 1
1zXzkx
zk
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Poles and Zeros in the z plane
x(k). of sticscharacteri the
determine X(z) of zeros and poles theof locations The
)())(()())((
)(
)(
21
210
11
110
n
m
nnn
mmm
pzpzpzzzzzzzb
zX
or
azaz
bzbzbzX
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Exercise 1 Ogata
B-2-1 B-2-2