A. Lead-compensation
B. Lag-compensation
C. Lead-lag compensation
D. None of the above
A. is independent of frequency
B. is inverseh’proportional to frequency
C. increases linearly with frequency
D. decreases linearly with frequency
A. pressure signal to electric signal
B. pressure signal to position change
C. electric signal to pressure signal
D. position change to pressure signal
F. none of the above
A. provide larger settling lime
B. delay the response
C. reduce steady state error
D. any of the above
F. none of the above
A. Bode-Nyquist stability methods
B. Transfer functions
C. Root locus design
D. State model representatives
A. Induction relay
B. Thermocouple
C. LVDT
D. Any of the above
F. None of the above
A. system stability
B. system gain
C. system stability and gain
D. none of the above
A. Systems having complexities and non-linearities
B. Systems having stability problems
C. Systems having multiple input disturbances
D. All of the above
A. small bandwidth
B. negative time constant
C. large negative transfer function pole
D. none of the above