8. The feedback gain, Gain3, is varied from =8 to a value of C, which is 1.8. The upper response is in green and the pink response is for the lower system. As the feedback gain is decreased, what happens to the steady state error: A. IT INCREASES B. IT DECREASES c. IT IS THE SAME AS WE ARE NOT LOOKING AT THE STEADY STATE RESPONSE D. THESE FIGURES ARE ONLY SHOWING THE TRANSIENT RESPONSE

Transcribed Image Text:

Problem # 8 The scope sclickable &draable. More bere Each figure to the left shows two systems, an upper unity feedback gain and lower system which has an adjustable feedback gain. Both systems in each case (three cases) have a forward gain, Gain1, set always to 5 which is constant. Tme domaia plet Tme.demain.alot Sirpi Ietrgret ti Integrat 8. The feedback gain, Gain3, is varied from =8 to a value of C, which is 1.8. The upper response is in green and the pink response is for the lower system. As the feedback gain is decreased, what happens to the steady state error: T The scope is elikkatle&draggable. More here Time demain plet Intrgrat Cal Sempel A. IT INCREASES B. IT DECREASES Ca latrgrat Seepel c. IT IS THE SAME AS WE ARE NOT LOOKING AT THE STEADY STATE RESPONSE D. THESE FIGURES ARE ONLY SHOWING THE TRANSIENT RESPONSE Cala i h L N Lie Te Transfer Function Bode plot OrvOf Time Domain Scope Ovo Dewnear The scope s clickable & draatle. More here Time domain plot Call Iiegret Sepel ligrat Sp Cala Scape C3N L L N Te Read Downward