Busy. Please wait.
Log in with Clever
or
show password
Forgot Password?
Don't have an account?  Sign up 
Sign up using Clever
or
Username is available taken
show password


Make sure to remember your password. If you forget it there is no way for StudyStack to send you a reset link. You would need to create a new account. Your email address is only used to allow you to reset your password. See our Privacy Policy and Terms of Service.

Already a StudyStack user? Log In

Reset Password
Enter the associated with your account, and we'll email you a link to reset your password.

definitions 5 & review

Quiz yourself by thinking what should be in each of the black spaces below before clicking on it to display the answer.
        Help!  

Question
Answer
What are the rules for plotting a negative (0 degree) root locus? (Part1)   Rule 1- The n branches of the locus leave the poles and m approach the zeros and n-m approach asymptotes to infinity Rule 2- The locus is on the real axis to the left od an even number of real poles plus zeros Rule 3- The asymptotes are described by  
🗑
What are the rules for plotting a negative (0 degree) root locus? (part2)   R.4-Departure angles from poles & arrival angles to zeros are found by searching in the near neighborhood of the pole or zero where the phase of L(s) is 0, so that q(phi)=sum omega – sum phi – 180 – 360(l-1) & q(omega)=sum phi – sum omega + 180 + 360(1-1)  
🗑
What are the rules for plotting a negative (0 degree) root locus?   Rule 5- The locus crosses the imaginary axis where either letting s=jw or applying Routh’s criterion shows a change between stability and instability Rule 6- The equation has multiple roots at points on the locus where b(da/ds)-a(db/ds)=0  
🗑
Give a summary of Bode plot rules (pp. 329-330). (part 1)   1.Manipulate the transfer function into the bode form 2. determine the value of n for the K0(jw)^n term 3. Complete the composite magnitude asymptotes 4. Sketch in the approximate magnitude curve  
🗑
Give a summary of Bode plot rules (pp. 329-330). (part 2)   5. plot the low-frequency asymptote of the phase curve 6. sketch in the approximate phase curve 7. locate the asymptotes for each individual phase curve 8. graphically add each phase curve  
🗑
What is root locus?   Rules for plotting the paths of the roots  
🗑
Who developed this method?   W. R. Evans  
🗑
What are the applications? (pp. 230-231)   Used to study the effect of loop gain variations. Used to plot the roots of any polynomial with respect to any one real parameter  
🗑
Describe Evan's method for root-locus (p. 232)   Suggested that we plot the locus of all possible roots of 1+KL(s)=0 as K varies from zero to infinity and then use the resulting plot to aid us in selecting the best value of K.  
🗑
What is the "root locus"?   The graph of all possible roots of 1+KL(s)=0 relative to parameter K  
🗑
the root-locus forms?   1+KL(s)=0, 1+K[b(s)/a(s)]=0, a(s)+Kb(s)=0,  
🗑
What is breakaway point (p. 235)?;   where roots move away from the real axis  
🗑
breakin point (p. 236)?   the point of multiple roots where two or more roots come into the real axis  
🗑
State the formal definitions of a root locus (p. 237).   Set of values of s for which 1+KL(s)=0 is satisfied as the real parameter K varies from 0 to infinity  
🗑
positive or 180 degree locus?;   when K is real and positive  
🗑
negative or 0 degree locus?   when K is real and negative  
🗑
Lead compensation   approximates the function of PD control and acts mainly to speed up a response  
🗑
Lag compensation   approximates the function of PI control an is usually used to improve the steady-state accuracy of the system  
🗑
Zero and pole of a lead   zero is placed in the neighborhood of the closed-loop w and the pole is located at a distance 5 to 20 times the value of the zero location  
🗑
analog and digital implementations.   Lead compensation can be implemented using analog electronics, but digital computers are preferred  
🗑


   

Review the information in the table. When you are ready to quiz yourself you can hide individual columns or the entire table. Then you can click on the empty cells to reveal the answer. Try to recall what will be displayed before clicking the empty cell.
 
To hide a column, click on the column name.
 
To hide the entire table, click on the "Hide All" button.
 
You may also shuffle the rows of the table by clicking on the "Shuffle" button.
 
Or sort by any of the columns using the down arrow next to any column heading.
If you know all the data on any row, you can temporarily remove it by tapping the trash can to the right of the row.

 
edit
Embed Code - If you would like this activity on your web page, copy the script below and paste it into your web page.

  Normal Size     Small Size show me how
Created by: delafuente
Popular Science sets