Controls/Fall 2015/Test 2
Post questions or requests for clarification to the discussion page.
Contents
Previous Tests
Previous ECE 382 and Controls tests are available at Dr. G's Big Box of Random.
IMPORTANT NOTE!
Test 2 this year is closed-book and will not have a computational component to it.
Equation Sheet
The class will come up with an equation sheet. Post the equation that you would like to the discussion page of this article; I will generate the list of approved and disapproved equations at Controls/Fall 2015/Test 2/RSR each day until Noon on Friday before the test, at which time the equation sheet will be set. The actual equation sheet will be available by 11:59PM the Friday before the test; a copy will be handed out with the test as well - you do not need to bring your own and cannot use your own.
Test 2 Fall 2015 Coverage
This test comes primarily from Chapters 1-7, excepting Chapter 3. Material from Homework 1-6 will be covered. The focus will be on Chapters 4-7.
Similar to Test 2's from 2007-2010 and Test 1's from 2011-2012
- Determine characteristics of the step response for a first-order system or design a system to achieve those characteristics. Specifically, rise time and settling time.
- Determine the characteristics of the step response for a second-order system or design a system to achieve those characteristics. Specifically for a second-order underdamped system: rise time, peak time, %OS, settling time, damping, natural frequency, and damped frequency.
- Know when extra poles and zeros interfere with the assumptions of a dominant pair of poles.
- Translate a block diagram into a signal flow graph.
- Determine the transfer function of a signal flow graph.
- Generate a Routh array for a transfer function and determine regions of stability. Be sure to know how to handle rows with all zeros and rows with leading zeros.
- Find the value of one or more free parameters to obtain marginal stability and the frequency of oscillation for marginal stability.
Similar to Test 2's from 2011-2012
- Determine system type for a unity feedback system and for a general system.
- Determine steady state error for step, ramp, parabolic inputs
- Determine steady state error due to disturbances
Specifically Not On The Test
- Root Locus
- Differential equations using "classical" methods
- Maple
- MATLAB
- State Space