Proper transfer function: Difference between revisions
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Proper in controll theory |
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== Proper in control theory == |
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'''Proper''' denotes a transfer function where the degree of the nominator does not exceed the degree of the denominator. |
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=== Example === |
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The following transfer function is proper |
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:<math> \textbf{G}(s) = \frac{\textbf{N}(s)}{\textbf{D}(s)} = \frac{s^{4} + n_{1}s^{3} + n_{2}s^{2} + n_{3}s + n_{4}}{s^{4} + d_{1}s^{3} + d_{2}s^{2} + d_{3}s + d_{4}}</math> |
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because |
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:<math> deg(\textbf{N}(s)) = 4 \leq deg(\textbf{D}(s)) = 4 </math>. |
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== Other possible meanings == |
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[[Category:Control theory]] |
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Revision as of 18:01, 16 December 2004
Proper in control theory
Proper denotes a transfer function where the degree of the nominator does not exceed the degree of the denominator.
Example
The following transfer function is proper
because
- .
