1. If we add a Zero into a system: I. The gain slop will be increased by 20db/decade at its corner frequency. II. The gain slop will be decreased by 20db/decade at its corner frequency. III. Gain will not be affected. IV. None of the above. 2. If we add a Pole into a system: I. The phase will be increased by 90 degrees. II. The phase will decrease by 90 degrees. III. Phase will not be affected. IV. None of the above. 3. In systems, the Integrator add slop to the system gain equal to: I. 20 db/decade. II. -20 db/decade. III. 0 db/decade. IV. None of the above
1. If we add a Zero into a system:
I. The gain slop will be increased by 20db/decade at its corner frequency.
II. The gain slop will be decreased by 20db/decade at its corner frequency.
III. Gain will not be affected.
IV. None of the above.
2. If we add a Pole into a system:
I. The phase will be increased by 90 degrees.
II. The phase will decrease by 90 degrees.
III. Phase will not be affected.
IV. None of the above.
3. In systems, the Integrator add slop to the system gain equal to:
I. 20 db/decade.
II. -20 db/decade.
III. 0 db/decade.
IV. None of the above
4. The purpose of the Lag Compensator is:
I. Improve the study state response of the close system.
II. Speed up the transit response.
III. All the above.
IV. None of the above.
5. In the Lead Compensator:
I. Z > P.
II. Z < P.
III. Z = P.
IV. None of the above.
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