In the following buck converter, let the switching frequency be 50 kHz. Determine if the converter...
In the following buck converter, let the switching frequency be 50 kHz.
- Determine if the converter is in CCM or DCM
- Compute the average inductor current, peak-peak current ripple
- Average transistor current, average diode current
- Peak current in the transistor
- Peak-peak ripple in the output voltage
f.Power delivered by the input 12V source
Vd=12 ,Vo=8V ,R=4ohm, L=20uH ,C=50uF
Homework Answers
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In the following buck converter, let the switching frequency be
50 kHz.
Determine if the converter...
In the following buck converter, let the switching frequency be 50 kHz. Determine if the converter is in CCM or DCM ...
In the following buck converter, let the switching frequency be 50 kHz. Determine if the converter is in CCM or DCM Compute the average inductor current, peak-peak current ripple Average transistor current, average diode current Peak current in the transistor Peak-peak ripple in the output voltage f.Power delivered by the input 12V source Vd=12 ,Vo=8V ,R=4ohm, L=20uH ,C=50uF
2.9 To reduce the switching harmonics present in the input current of a certain buck converter,...
2.9 To reduce the switching harmonics present in the input current of a certain buck converter, an input filter consisting of inductor Li and capacitor Ci is added as shown in Fig. 2.32. Such filters are commonly used to meet regulations limiting conducted electromagnetic interference (EMI). For this problem, you may assume that all inductance and capacitance values are sufficiently large, such that all ripple magni- tudes are small CI Fig. 2.32 Addition of L-C input filter to buck converter,...
A buck converter is used to have low output voltage from the high input source to...
A buck converter is used to have low output voltage from the high input source to low output voltage. The estimated power output is at 25 kW with the switching frequency of 25 kHz. Design the buck converter as by finding and following specifications consider the ripple of the output is set at 1% (i) Calculate the duty ratio of the buck converter (1 mark) (ii) Determine the minimum requirement for the inductor and the capacitor (5 marks) (iii) Determine...
+ VDS Consider the Buck DC-to-DC converter shown above. Assume it is operated at a switching...
+ VDS Consider the Buck DC-to-DC converter shown above. Assume it is operated at a switching frequency, f 25 KHz, with a duty cycle, D- 0.4 a) Given the sketch of the inductor current, i(t), shown below, sketch the waveforms for the input current, (t), the output current, i(t), the diode current, ip(), and the capacitor current, ict).Also, compute their average, RMS and peak values. (Note: Some useful formulas are provided on the last page) 10 5 t (s) (b)...
1) (6 points) It is desired to design a 50 W buck-boost converter to regulate its...
1) (6 points) It is desired to design a 50 W buck-boost converter to regulate its output voltage at 26V from a solar panel whose output voltage varies between 20 and 40 V. The desired switching frequency is 20 kHz. The ripple current in the inductor should remain within +/-0.1 A, and the output voltage ripple should not exceed +/- 2%. a. Determine the duty cycle range for operating this converter. b. Design this buck-boost converter by finding lower limits...
A Buck-boost converter has an output voltage 100 V, output power 60 W and input voltage...
A Buck-boost converter has an output voltage 100 V, output power 60 W and input voltage 12 V. Switching frequency is 15 kHz. Calculate duty ratios for the switch and the diode. Find values for the inductor L and capacitor C, when the allowed output voltage ripple is ±0.15 % and the inductor current ripple is ±1 % (of the average value). If the on-time of the switch has an inaccuracy of ±50 ns, what is the new output voltage...
Design a buck converter which has an output of 12V from an input of 18V. The...
Design a buck converter which has an output of 12V from an input of 18V. The output power is 10W. The output voltage ripple must be no more than 100mV peak to peak. Specify the duty ratio, switching frequency is 500kHz, ton, and inductor and capacitor values. Design for continuous inductor current. Assume ideal conditions, and assume the output current is symmetric
A buck converter has the following properties: D = 0.68, frequency = 200 kHz Load power...
A buck converter has the following properties: D = 0.68, frequency = 200 kHz Load power = 14 Watts. Input voltage 20 V. For the buck converter above, if the inductor L=24 uH calculate the ripple current. Report your answer in amps to three decimal places, without units.
A buck-boost converter has input voltage of 12V and operates with a duty cycle of 0.6...
A buck-boost converter has input voltage of 12V and operates with a duty cycle of 0.6 at a frequency of 50kHz and a load current of 5A average. Assuming sufficiently large L, and C = 500uF, calculate the peak-peak output voltage ripple and the rms current rating for the capacitor and inductor.
Design a high efficiency 3.3 V, 5A d.c.to d.c. power converter from a 4 to 5.5 Vdc source. The maximum allowable inductor current ripple and output voltage ripple are 0.1A and 20 mV, respectively. Assume a switching frequency of 20 kHz.
Design a high efficiency 3.3 V, 5A d.c.to d.c. power converter from a 4 to 5.5 Vdc source. The maximum allowable inductor current ripple and output voltage ripple are 0.1A and 20 mV, respectively. Assume a switching frequency of 20 kHz.a) Design a suitable converter power circuit using a MOSFET switch, showing all calculation of inductor and capacitor values and drawing a circuit diagram of the final design including component values. Indicate the peak inverse voltage and forward current rating...
2.9 To reduce the switching harmonics present in the input current of a certain buck converter, an input filter consisting of inductor Li and capacitor Ci is added as shown in Fig. 2.32. Such filters are commonly used to meet regulations limiting conducted electromagnetic interference (EMI). For this problem, you may assume that all inductance and capacitance values are sufficiently large, such that all ripple magni- tudes are small CI Fig. 2.32 Addition of L-C input filter to buck converter,...
A buck converter is used to have low output voltage from the high input source to low output voltage. The estimated power output is at 25 kW with the switching frequency of 25 kHz. Design the buck converter as by finding and following specifications consider the ripple of the output is set at 1% (i) Calculate the duty ratio of the buck converter (1 mark) (ii) Determine the minimum requirement for the inductor and the capacitor (5 marks) (iii) Determine...
+ VDS Consider the Buck DC-to-DC converter shown above. Assume it is operated at a switching frequency, f 25 KHz, with a duty cycle, D- 0.4 a) Given the sketch of the inductor current, i(t), shown below, sketch the waveforms for the input current, (t), the output current, i(t), the diode current, ip(), and the capacitor current, ict).Also, compute their average, RMS and peak values. (Note: Some useful formulas are provided on the last page) 10 5 t (s) (b)...
1) (6 points) It is desired to design a 50 W buck-boost converter to regulate its output voltage at 26V from a solar panel whose output voltage varies between 20 and 40 V. The desired switching frequency is 20 kHz. The ripple current in the inductor should remain within +/-0.1 A, and the output voltage ripple should not exceed +/- 2%. a. Determine the duty cycle range for operating this converter. b. Design this buck-boost converter by finding lower limits...
Design a buck converter which has an output of 12V from an input of 18V. The output power is 10W. The output voltage ripple must be no more than 100mV peak to peak. Specify the duty ratio, switching frequency is 500kHz, ton, and inductor and capacitor values. Design for continuous inductor current. Assume ideal conditions, and assume the output current is symmetric
A buck converter has the following properties: D = 0.68, frequency = 200 kHz Load power = 14 Watts. Input voltage 20 V. For the buck converter above, if the inductor L=24 uH calculate the ripple current. Report your answer in amps to three decimal places, without units.
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