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A circuit shown in the figure has a dc input voltage of 30 V, a 1 : 1 transfer and an ideal MOSFET. The inductor value is 100 μH and the switching frequency is 50 kHz. Assume that the output capacitor is large enough to hold the load voltage constant. The converter is required to deliver 4 A into a 3 Ω resistive load. The ripple current magnitude. (in A)Correct answer is between '1.4,1.5'. Can you explain this answer? for GATE 2024 is part of GATE preparation. The Question and answers have been prepared
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the GATE exam syllabus. Information about A circuit shown in the figure has a dc input voltage of 30 V, a 1 : 1 transfer and an ideal MOSFET. The inductor value is 100 μH and the switching frequency is 50 kHz. Assume that the output capacitor is large enough to hold the load voltage constant. The converter is required to deliver 4 A into a 3 Ω resistive load. The ripple current magnitude. (in A)Correct answer is between '1.4,1.5'. Can you explain this answer? covers all topics & solutions for GATE 2024 Exam.
Find important definitions, questions, meanings, examples, exercises and tests below for A circuit shown in the figure has a dc input voltage of 30 V, a 1 : 1 transfer and an ideal MOSFET. The inductor value is 100 μH and the switching frequency is 50 kHz. Assume that the output capacitor is large enough to hold the load voltage constant. The converter is required to deliver 4 A into a 3 Ω resistive load. The ripple current magnitude. (in A)Correct answer is between '1.4,1.5'. Can you explain this answer?.
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Here you can find the meaning of A circuit shown in the figure has a dc input voltage of 30 V, a 1 : 1 transfer and an ideal MOSFET. The inductor value is 100 μH and the switching frequency is 50 kHz. Assume that the output capacitor is large enough to hold the load voltage constant. The converter is required to deliver 4 A into a 3 Ω resistive load. The ripple current magnitude. (in A)Correct answer is between '1.4,1.5'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
A circuit shown in the figure has a dc input voltage of 30 V, a 1 : 1 transfer and an ideal MOSFET. The inductor value is 100 μH and the switching frequency is 50 kHz. Assume that the output capacitor is large enough to hold the load voltage constant. The converter is required to deliver 4 A into a 3 Ω resistive load. The ripple current magnitude. (in A)Correct answer is between '1.4,1.5'. Can you explain this answer?, a detailed solution for A circuit shown in the figure has a dc input voltage of 30 V, a 1 : 1 transfer and an ideal MOSFET. The inductor value is 100 μH and the switching frequency is 50 kHz. Assume that the output capacitor is large enough to hold the load voltage constant. The converter is required to deliver 4 A into a 3 Ω resistive load. The ripple current magnitude. (in A)Correct answer is between '1.4,1.5'. Can you explain this answer? has been provided alongside types of A circuit shown in the figure has a dc input voltage of 30 V, a 1 : 1 transfer and an ideal MOSFET. The inductor value is 100 μH and the switching frequency is 50 kHz. Assume that the output capacitor is large enough to hold the load voltage constant. The converter is required to deliver 4 A into a 3 Ω resistive load. The ripple current magnitude. (in A)Correct answer is between '1.4,1.5'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice A circuit shown in the figure has a dc input voltage of 30 V, a 1 : 1 transfer and an ideal MOSFET. The inductor value is 100 μH and the switching frequency is 50 kHz. Assume that the output capacitor is large enough to hold the load voltage constant. The converter is required to deliver 4 A into a 3 Ω resistive load. The ripple current magnitude. (in A)Correct answer is between '1.4,1.5'. Can you explain this answer? tests, examples and also practice GATE tests.