A boost converter has an input voltage Vin= 10 V, switching frequency fs= 100 kHz, duty...

A buck-boost converter has an input voltage V_in= 10 V, switching frequency fs= 100 kHz, duty...

A buck-boost converter has an input voltage V_in= 10 V, switching frequency fs= 100 kHz, duty ratio d= 30%, load resistance R_L= 20Ω, inductance =100 μH, and capacitance= 680 μF. 1) Calculate the following values, and include units in your answers: a) Average output voltage,V_o b) Average output current,I_o c) Average input current,I_in d) Average current through the inductor in steady-state e) Peak-to-peak current ripple through the inductor, Δ_iL f) Average inductor current that will cause the converter to enter...

A buck converter has an input voltage V in = 24 V, switching frequency f s...

A buck converter has an input voltage V in = 24 V, switching frequency f s = 100 kHz, duty ratio d = 50%, load resistance R L = 10 Ω , inductance 100 μH, and capacitance 680 μF. 1) Calculate the following values, and include units in your answers : a) Average output voltage, V_o b) Average output current, I_o c) Peak - to - peak current ripple, Δi_L d) Output current that will cause the converter to enter...

In a buck converter, consider all components to be ideal. Assume an input voltage of 100V...

In a buck converter, consider all components to be ideal. Assume an input voltage of 100V and an average voltage of 50 V, fs = 20 kHz, and an output power of 250 W. Determine: (a) The duty ratio (b) The average current in the inductor (c) Determine the value of the inductance to limit the peak inductor current to 6.25 A and plot the inductor current.

Design a Boost Converter with the following characteristics: Vg = 100V, V = 200V, load power...

Design a Boost Converter with the following characteristics: Vg = 100V, V = 200V, load power 800W, switching frequency 100 kHz. For the design consider all elements to be ideal. 1) What is the duty cycle, D? 2) What is the inductor average current, IL? 3) Design the inductor and capacitor so that the peak-to-peak inductor current ripple is 40% of IL and the capacitor peak-to-peak voltage ripple is 2.5 % of V. 4) Draw the waveforms of voltage and...

A Buck and Boost converter supplies a 28V DC load. The source voltage varies between 24...

A Buck and Boost converter supplies a 28V DC load. The source voltage varies between 24 and 32 V DC. The load current varies from 7 to 10A. Determine is minimum inductance needed for continuous current. The switching frequency is 10kHz.

Q1. A buck-boost converter has parameters Vs=12V, D=0.6, R=10 Ω, L=10 μH, C= 20μF, and a...

Q1. A buck-boost converter has parameters Vs=12V, D=0.6, R=10 Ω, L=10 μH, C= 20μF, and a switching frequency of 200 kHz. (a). Draw and label neatly the following: i. the buck-boost converter. [3 marks] ii. the waveforms for VL IL ID IC

Consider an ideal down converter supplying load resistance of 80 Ω from a voltage source rated...

Consider an ideal down converter supplying load resistance of 80 Ω from a voltage source rated 9 V and 250 mA. The converter operates at 70-kHz and is designed for 5% voltage ripple and 10% current ripple with a duty time of 60%. A) Calculate the output voltage, the output voltage ripple, output current and output current ripple. B) Calculate the cycle period, ton and toff C) Calculate the required inductance and capacitance values D) Calculate the output voltage as...

An L-R-C series circuit has a source with voltage amplitude 35.0 V and angular frequency 1.30×103rad/s.1.30 ...

An L-R-C series circuit has a source with voltage amplitude 35.0 V and angular frequency 1.30×103rad/s.1.30 × 103 rad/s. The resistance is 275 ΩΩ, the inductance is 82.3 mH, and the capacitance is 1.10 μF1.10 μF. Find (a) the inductive and capacitive reactances, (b) the phase angle, and (c) the power factor.