Home work 1-2 QI: Derive the transfer function V.(s) V4s) for the electrical circuit shown in figure (1) R Figure(1)

Transcribed Image Text:

10:24 0 184% Home work 1-... Home work 1-2 Ql: Derive the transfer function V(s)/V:(s) for the electrical circuit shown in figure (1) ww R Figure(1) V I. R V. Q2: Obtain the transfer function O(sVE, (s) of the field-controlled de motor shown in figure (2). In the system, that J=0.5 Ib-fl-sec, f=0.2 Ib-f/rad/sec, and K2 = motor torque constant =27.4 Ib-ft/amp. 120 chms ww. ww -4= const 12 omperes 20 henrys Figure (2) Q3:For the electtrical circuit shown in Fig(3). Derive the transfer function V,(s/V,(s). Figure(3) v, R I. Q4:Derive the transfer function V(sV,(s) for the electrical circuit shown in figure (4) ww R L. R V. V. Figure(4) R Q5:Derive the transfer function V.(s)/V,(s) for the electrical circuit shown in figure (5) Ww -OD00 R R Figure (5) Q6: Obtain the transfer function O(s)/E (s) of the field-controlled de motor shown in Figure (6). In the system, that e is the output displacement of the de motor, J=0.41 Ib-ft-sec, f-0.11 Ib-ft'rad/sec, K2 = motor torque constant =23 Ib-ft/amp. R = 80 ohm, Lf = 16 henrys, and i, = constant = 8 amperes. R Figure (6) Field controlled de motor Q7: For the open loop servo system shown in figure (7). 0(s) (a) Derive the transfer function where 0 is the output displacement of the E (s) de motor, and E, is the input voltage to the de motor.