urce voltage from Channel 1 output of oscilloscope and VR(t) and VL(t) voltages from Channel 2 output are desired to be observed by applying TTL signal to a series RL circuit with inductance value RL=270 mH, series R resistance 2.6 K and inductance internal resistance Rin=430 Ω. . The settings for the oscilloscope are as follows.   Channel 1 Volt/div adjustment 2V Channel 2 Volt/div adjustment 2V Time/div=0.1ms   Since the time t=5τ is 4.4 square units,   a) If VL(t) voltage is desired to be observed from Channel 2, draw the required circuit diagram with oscilloscope channel connections. b) Plot the VR(t) and VL(t) waveforms to scale according to the 4V TTL source condition, showing the 5τ and τ times. Compare the τ value you obtained with the τ value you will theoretically calculate. c) If the unit square number of the peak value on the vertical axis at the end of t=5τ of the VR(t) voltage seen in Channel 2 is 1.4, find the current passing through the series RL circuit. d) Explain why the inductance behaves in a steady state in direct current.

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ISBN:9780133923605
Author:Robert L. Boylestad
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Source voltage from Channel 1 output of oscilloscope and VR(t) and VL(t) voltages from Channel 2 output are desired to be observed by applying TTL signal to a series RL circuit with inductance value RL=270 mH, series R resistance 2.6 K and inductance internal resistance Rin=430 Ω. . The settings for the oscilloscope are as follows.

 

Channel 1 Volt/div adjustment 2V

Channel 2 Volt/div adjustment 2V

Time/div=0.1ms

 

Since the time t=5τ is 4.4 square units,

 

a) If VL(t) voltage is desired to be observed from Channel 2, draw the required circuit diagram with oscilloscope channel connections.

b) Plot the VR(t) and VL(t) waveforms to scale according to the 4V TTL source condition, showing the 5τ and τ times. Compare the τ value you obtained with the τ value you will theoretically calculate.

c) If the unit square number of the peak value on the vertical axis at the end of t=5τ of the VR(t) voltage seen in Channel 2 is 1.4, find the current passing through the series RL circuit.

d) Explain why the inductance behaves in a steady state in direct current.

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