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A boost regulator has an input voltage of Vs = 5V. The average output voltage Va=...
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...
A boost converter has an input of 5 V and an output of 25 W at...
A boost converter has an input of 5 V and an output of 25 W at 15 V. The minimum inductor current must be no less than 50 percent of the average. The output voltage ripple must be less than 1 percent. The switching frequency is 300 kHz. Determine the duty ratio, minimum inductor value, and minimum capacitor value.
Design a boost converter power stage to the following specification: Input voltage Output voltage: Output voltage...
Design a boost converter power stage to the following specification: Input voltage Output voltage: Output voltage ripple:max 20mV Load power: Switching frequency: 15kHz 110-125V 300V 1.5kW Calculate: (i) Maximum duty cycle (ii) Minimum duty cycle (iii) Average diode current (iv) Assuming the Rds(on) of the MOSFET is 0.01 Ω, and the diode forward voltage is 0.8V, calculate the approximate efficiency of the circuit. 2. A switching power supply shown in the circuit below has its switch driven by a signal...
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.
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...
Power Electronics and Drive Systems a) A boost converter is required to have an output voltage of 8 V and supply a l...
Power Electronics and Drive Systems
a) A boost converter is required to have an output voltage of 8 V and supply a load current of 1 A. The input voltage varies from 2.7 to 4.2 V. A control circuit adjusts the duty ratio to keep the output voltage constant. Select the switching frequency. Determine a value for the inductor such that the variation in inductor current is not more than 40 percent of the average inductor current for all operating...
2. Renewable energy system requires a boost converter with input voltage variation of 18 V to 42 ...
2. Renewable energy system requires a boost converter with input voltage variation of 18 V to 42 V (de) and gives output of 120 V at 0.6 kW. For the converter the switching frequency is set at 50 kHz. a) Find the operating duty cycle range for each switch of the converter0 marks b) 196 What is the inductor value which should keep inductor current variation below under all input voltages [30 marks] c) Find the capacitor value which should...
The boost converter of Figure below has the following parameters: Vs- 20V, duty cycle K- 0.6,...
The boost converter of Figure below has the following parameters: Vs- 20V, duty cycle K- 0.6, R-12.5 Ohm, L-65 μΗ, C-200 μF and switching frequency f-40 kHz. Assume ideal components Determine: a) Output voltage b) Average, maximum, and minimum inductor current cOutput voltage ripple d) Average current in the diode Extra credit 2: provide simulation using any tool available to you. Compare results of simulation using ideal components and realistic ones and make meaningful conclusions (10%) ic V, Vo
Problems,,,,,
1 2
+
–
i(t)
C R
L
iT i(t)
iD
+
–
L C R
1. Analysis and design of a buck-boost converter: A buck-boost converter is illustrated in Fig. 1(a),
and a practical implementation using a transistor and diode is shown in Fig. 1(b).
+
(a)
Vg
v
Figure 1 Buck–boost converter
of Problem 1: (a) ideal converter
circuit, (b) implementation using
MOSFET and diode.
–
Q1
D1
(b) +
Vg
v
Page 2
iL
(t) + vL...
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,...
Design a boost converter power stage to the following specification: Input voltage Output voltage: Output voltage ripple:max 20mV Load power: Switching frequency: 15kHz 110-125V 300V 1.5kW Calculate: (i) Maximum duty cycle (ii) Minimum duty cycle (iii) Average diode current (iv) Assuming the Rds(on) of the MOSFET is 0.01 Ω, and the diode forward voltage is 0.8V, calculate the approximate efficiency of the circuit. 2. A switching power supply shown in the circuit below has its switch driven by a signal...
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...
Power Electronics and Drive Systems
a) A boost converter is required to have an output voltage of 8 V and supply a load current of 1 A. The input voltage varies from 2.7 to 4.2 V. A control circuit adjusts the duty ratio to keep the output voltage constant. Select the switching frequency. Determine a value for the inductor such that the variation in inductor current is not more than 40 percent of the average inductor current for all operating...
2. Renewable energy system requires a boost converter with input voltage variation of 18 V to 42 V (de) and gives output of 120 V at 0.6 kW. For the converter the switching frequency is set at 50 kHz. a) Find the operating duty cycle range for each switch of the converter0 marks b) 196 What is the inductor value which should keep inductor current variation below under all input voltages [30 marks] c) Find the capacitor value which should...
The boost converter of Figure below has the following parameters: Vs- 20V, duty cycle K- 0.6, R-12.5 Ohm, L-65 μΗ, C-200 μF and switching frequency f-40 kHz. Assume ideal components Determine: a) Output voltage b) Average, maximum, and minimum inductor current cOutput voltage ripple d) Average current in the diode Extra credit 2: provide simulation using any tool available to you. Compare results of simulation using ideal components and realistic ones and make meaningful conclusions (10%) ic V, Vo
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,...
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