A da-da circuit is required to increase the 75 V battery voltage to 100 V. is heard. The converter inductance is 200 µH and the load resistance is 2.2 Ω. Power switch has a transmission time of 50 µs and operates in continuous transmission. According to this; a) Write the name of the da-da converter used. b) Draw the gate sign (vgs), switch voltage (vds), diode voltage (vD), and inductance current (iL). c) Find the switching frequency and the transmission time of the diode. c) Find the average value of the input current and the output current. e) Find the minimum and maximum values of the input current.
A da-da circuit is required to increase the 75 V battery voltage to 100 V. is heard. The converter inductance is 200 µH and the load resistance is 2.2 Ω. Power switch has a transmission time of 50 µs and operates in continuous transmission. According to this; a) Write the name of the da-da converter used. b) Draw the gate sign (vgs), switch voltage (vds), diode voltage (vD), and inductance current (iL). c) Find the switching frequency and the transmission time of the diode. c) Find the average value of the input current and the output current. e) Find the minimum and maximum values of the input current.
Electricity for Refrigeration, Heating, and Air Conditioning (MindTap Course List)
10th Edition
ISBN:9781337399128
Author:Russell E. Smith
Publisher:Russell E. Smith
Chapter12: Electronic Control Devices
Section: Chapter Questions
Problem 3RQ: Diodes and rectifiers allow current to _________.
flow in one direction only
flow in both...
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A da-da circuit is required to increase the 75 V battery voltage to 100 V. is heard. The converter inductance is 200 µH and the load resistance is 2.2 Ω. Power switch has a transmission time of 50 µs and operates in continuous transmission. According to this; a) Write the name of the da-da converter used. b) Draw the gate sign (vgs), switch voltage (vds), diode voltage (vD), and inductance current (iL). c) Find the switching frequency and the transmission time of the diode. c) Find the average value of the input current and the output current. e) Find the minimum and maximum values of the input current.
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