Hey, Currently I am pursuing masters in Electrical Engineering. In my curriculum
ID: 2072783 • Letter: H
Question
Hey, Currently I am pursuing masters in Electrical Engineering. In my curriculum I am having one project. I request you to help me for that project. I look forward your positive response as soon as possible.
Given ;-Switching frequency : f s = 140 kHz; Carrie peak voltage: Vs = 15 V
Input Voltage: Vin = 45 V
Output Voltage: Vo = 18 V
Load: R L = 4 W
Inductance : L = 110 mH
Inductance Resistance: R=0.01 W
Sensing Resistance: Rt = 0.1 W
Capacity : C = 6 mF; Rc = 0.04 W
This is a DC-DC converter system similar to that in Project 1, but with different parameters.
Modeling:
1-Derive the transfer function from the duty cycle d(t) to the inductor current.
2-Derive the transfer function from the inductor current to the load voltage.
3-Design by using the root locus method:
3.1-Design an inner loop control for the current, using a P controller, such that the inner loop has a damping ratio larger than 0.7. Discuss the tradeoff among the rising time, peak time, and steady-state error.
3.2-Design an outer loop control for the load voltage, using a PI controller, such that the outer loop has an overshoot smaller than 20%. Discuss the tradeoff among the rising time, peak time, and steady-state error.
4-Design by using the frequency domain method:
4.1- Inner Loop Design: Design an inner loop control as in Part 3.1.
4.2-Design an outer loop control for the load voltage, using a PI controller, such that the outer loop has a phase margin at least 90 degree. Discuss the tradeoff between bandwidth of the (outer) closed-loop system and phase margin.
5-Simulate the overall closed-loop system, in its transfer function form, with your designed controllers (using Matlab or Simulink).
6-Simulate the overall closed-loop system, in its circuit form, with your designed controllers (using PSIM or the Matlab/Simulink toolbox). In your simulation, you may use a transfer function for your controller, rather than an operational amplifier.
S1 D A Vin Rt. Cfi Rfi PWM VS AL Rc Ri SetExplanation / Answer
PART 1 ANSWER: W.K.T., diL/dt=((1-D)T)V0/L
For a DC-DC CONVERETR.
Hence transfer function if we apply Laplace transform is:
[1-D(S)]/ IL(S)=S2L/V0
PART 2: LdIL/dt=TV0-DV0T
IL(S)/V0(S)=L[1-D]/S2
PART 3: LT[OUTPUT]/LT[INPUT]>0.7
LT=LAPLACE TRANSFORM
0.7<L2/[1-D]
DESIGN A P CONTROLLER WITH DUTY CYCLE
D>0.983
PART 3.2
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