Difference between revisions of "Controls/Spring 2012/Test 1/RSR"
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\(\begin{align}
T&=\frac{G_{eq}}{1+G_{eq}}\\
G_{eq}&=\frac{N_G}{D_G}\\
T&=\frac{N_G}{D_G+N_G}
\end{align}\)
Line 1: | Line 1: | ||
+ | This is the equations page for [[http://pundit.pratt.duke.edu/wiki/Controls/Spring_2012/Test_1]] | ||
==== Approved ==== | ==== Approved ==== | ||
Here is a link to a draft of the equation sheet: [http://www.duke.edu/~mrg/Controls/Equations/eqns1s12.pdf Equation Sheet] | Here is a link to a draft of the equation sheet: [http://www.duke.edu/~mrg/Controls/Equations/eqns1s12.pdf Equation Sheet] |
Revision as of 18:52, 16 February 2012
This is the equations page for [[1]]
Approved
Here is a link to a draft of the equation sheet: Equation Sheet The draft includes the following:
Chapter 2
- Motor equation (2.153, p. 81)
- Motor transfer function constants (2.159, 2.162 & 2.163, p. 82)
Chapter 4
- 1st Order Rise Time (4.9, p. 167)
- 1st Order Settling Time (4.10, p. 167)
- 2nd Order Peak Time (4.34, p. 179)
- 2nd Order %OS (4.38, p. 180)
- 2nd Order Damping Ratio (4.39, p. 180)
- 2nd Order Settling time (4.42, p. 181)
- 2nd Order Damped Frequency (in 4.44, p. 182)
- 2nd Order Normalized Rise Time (footnote 5, p. 181)
Other
- T from Geq for unity feedback
Denied / Must Memorize / Not Needed
- Laplace Transform Table (Table 2.1, p. 36)? - not needed
- Op amp general gains (2.97, p. 59 and 2.103, p.60) - must memorize inverting/non-inverting paradigms and gains
- Mechanical rotation and translation impedances (Table 2.4 on p.62 and Table 2.5 on p. 70) - must memorize
- General 2nd order transfer function (4.22, p. 174) - need to memorize - note that to be truly general there needs to be a multiplicative constant \(K\) in front of all that.
- Mason's Rule (5.28, p. 252) - need to memorize that and what the terms mean.