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Consider the circuit shown in below figure,
Given that: μnCax = 100μA/V2, W/L = 1, VT = 1V
In the figure above,VG jumps from 0 to 2V at t=0 . The capacitor voltage is zero at t = 0-. The time at which the MOS transistor enters triode region is ______ (inμsec ). (correct upto 2 decimal places).
    Correct answer is '100'. Can you explain this answer?
    Most Upvoted Answer
    Consider the circuit shown in below figure,Given that: μnCax = 100μA/...
    We know as we will increase VG from 0 to 2V.
    MOSFET will start conducting.
    MOSFET will be in triode for under region when,
    VGS>VT and VDS< />GS-VT
    So, as question is about when will enter in triode region it means device initially will be in saturation. You can also see as t = 0+, VC(0) = 0 so, VD = 6V.
    So, VDS > VGS -VT (Saturation)
    6 > 2 - 1
    ∴ So device is in saturation initially.
    Now, for linear VDS < />GS -VT
    So switching voltage,
    VDS = VGS -VT
    VD = 1V
    Vc = 5V
    We know,
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    Community Answer
    Consider the circuit shown in below figure,Given that: μnCax = 100μA/...
    We know as we will increase VG from 0 to 2V.
    MOSFET will start conducting.
    MOSFET will be in triode for under region when,
    VGS>VT and VDS< />GS-VT
    So, as question is about when will enter in triode region it means device initially will be in saturation. You can also see as t = 0+, VC(0) = 0 so, VD = 6V.
    So, VDS > VGS -VT (Saturation)
    6 > 2 - 1
    ∴ So device is in saturation initially.
    Now, for linear VDS < />GS -VT
    So switching voltage,
    VDS = VGS -VT
    VD = 1V
    Vc = 5V
    We know,
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    Consider the circuit shown in below figure,Given that: μnCax = 100μA/V2, W/L = 1, VT = 1VIn the figure above,VG jumps from 0 to 2V at t=0 . The capacitor voltage is zero at t = 0-. The time at which the MOS transistor enters triode region is ______ (inμsec ). (correct upto 2 decimal places).Correct answer is '100'. Can you explain this answer?
    Question Description
    Consider the circuit shown in below figure,Given that: μnCax = 100μA/V2, W/L = 1, VT = 1VIn the figure above,VG jumps from 0 to 2V at t=0 . The capacitor voltage is zero at t = 0-. The time at which the MOS transistor enters triode region is ______ (inμsec ). (correct upto 2 decimal places).Correct answer is '100'. Can you explain this answer? for Electrical Engineering (EE) 2024 is part of Electrical Engineering (EE) preparation. The Question and answers have been prepared according to the Electrical Engineering (EE) exam syllabus. Information about Consider the circuit shown in below figure,Given that: μnCax = 100μA/V2, W/L = 1, VT = 1VIn the figure above,VG jumps from 0 to 2V at t=0 . The capacitor voltage is zero at t = 0-. The time at which the MOS transistor enters triode region is ______ (inμsec ). (correct upto 2 decimal places).Correct answer is '100'. Can you explain this answer? covers all topics & solutions for Electrical Engineering (EE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Consider the circuit shown in below figure,Given that: μnCax = 100μA/V2, W/L = 1, VT = 1VIn the figure above,VG jumps from 0 to 2V at t=0 . The capacitor voltage is zero at t = 0-. The time at which the MOS transistor enters triode region is ______ (inμsec ). (correct upto 2 decimal places).Correct answer is '100'. Can you explain this answer?.
    Solutions for Consider the circuit shown in below figure,Given that: μnCax = 100μA/V2, W/L = 1, VT = 1VIn the figure above,VG jumps from 0 to 2V at t=0 . The capacitor voltage is zero at t = 0-. The time at which the MOS transistor enters triode region is ______ (inμsec ). (correct upto 2 decimal places).Correct answer is '100'. Can you explain this answer? in English & in Hindi are available as part of our courses for Electrical Engineering (EE). Download more important topics, notes, lectures and mock test series for Electrical Engineering (EE) Exam by signing up for free.
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