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

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.

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

A boost converter has an input voltage Vin= 10 V, switching frequency fs= 100 kHz, duty ratio d=50%, load resistance RL= 20 Ω, inductance 100 μH, and capacitance 680 μF. Qualitatively describe the effect on Io, Δi_L, and Δv_C if you: a) Increase the duty ratio b) Increase the switching frequency c) Increase the load resistance

Problem 2: A photovoltaic module is used to supply constant 12 V that needed by a...

Problem 2: A photovoltaic module is used to supply constant 12 V that needed by a Tablet. Depending on insolation from the Sun, the photovoltaic module’s output voltage is changing between 18 V to 36 V (dc). Thus, a buck converter is used between the netbook and the photovoltaic module. 1) What is the duty ratio range of the dc/dc converter? 2) If the inductance of the buck converter inductor is 40 uH, what is the minimum switching frequency to...

Design a buck converter that steps down a 12V to a 5V. load such that the...

Design a buck converter that steps down a 12V to a 5V. load such that the power consumption of the load is 0.2 mW Load current ripple must be under 5% Load voltage ripple must be under 5% Assume no forward voltage on switch and diode Assume any information, you need.

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.

A dc-dc converter is needed to provide power for a video camera pack from an automobile....

A dc-dc converter is needed to provide power for a video camera pack from an automobile. In normal operation, the car electrical system varies between 10 V and 15 V. The video camera requires an accurate 10.2 V supply for proper operation and battery charging. The power level is 20 W. Isolation is recommended to avoid any issues about ground connections. At this power level, a switching frequency of 200 kHz should be feasible. Draw a circuit that can perform...

A dc-dc converter is needed to provide power for a video camera pack from an automobile....

A dc-dc converter is needed to provide power for a video camera pack from an automobile. In normal operation, the car electrical system varies between 10 V and 15 V. The video camera requires an accurate 10.2 V supply for proper operation and battery charging. The power level is 20 W. Isolation is recommended to avoid any issues about ground connections. At this power level, a switching frequency of 200 kHz should be feasible. Draw a circuit that can perform...

Design a DC power supply that will deliver 100mA of current to a load with a...

Design a DC power supply that will deliver 100mA of current to a load with a ripple of 5%. Use a full wave rectifier and a 17 Peak Voltage Source with F= 60 Hz. Load resistance = 1k So Basically you just need to find the capacitance of the filtering capacitor. Please tell me how. This is what I did, but I think I'm wrong. The Vripple I got is (.05)*17 = .85 V. Then according to my manual, C...