Given the plant transfer function G(s) = $²+9s+20 s3+6s²+11s+6 1) The state equation in diagonal canonical form x = 2) The output equation in diagonal canonical form_y=[ 3) The simulation diagram is x+ HE ]x+[ ]u.
Given the plant transfer function G(s) = $²+9s+20 s3+6s²+11s+6 1) The state equation in diagonal canonical form x = 2) The output equation in diagonal canonical form_y=[ 3) The simulation diagram is x+ HE ]x+[ ]u.
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Author:Robert L. Boylestad
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![Given the plant transfer function G(s)=-
$2+9s+20
$3+6s²+11s+6
1) The state equation in diagonal canonical form x=
2) The output equation in diagonal canonical form y = [
3) The simulation diagram is
x+
]x + [ ]u .](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Feb24b2bf-9e41-4e00-b032-41f57a30a294%2F7e655b3a-129e-4f8f-bb22-71f8265d8d48%2Fg3z5jq_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Given the plant transfer function G(s)=-
$2+9s+20
$3+6s²+11s+6
1) The state equation in diagonal canonical form x=
2) The output equation in diagonal canonical form y = [
3) The simulation diagram is
x+
]x + [ ]u .
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Step 1: Summarize the data.
VIEWStep 2: 1. Determine the partial fractions of the transfer function.
VIEWStep 3: Determine the diagonal canonical form of state space representation.
VIEWStep 4: 2. Write the output equation in diagonal canonical form.
VIEWStep 5: 3. Draw the simulation diagram.
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