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Kindly Don't Spàm!
Thank uh !:)

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Kindly Don't Spàm! Thank uh !:) \\ \\ \\ \\ ​-example-1
User Brian Clifton
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2 Answers

8 votes

.


\: \underline{ \boxed{ { \color{gray}\frak{\huge \: Answer : }}}}

Collector Current at Saturation :


  • \sf \large {I_(C(SAT)) = ( V_(CC) )/(R_C) }


\: \:


  • \sf \large {I_(C(SAT)) = (12)/(2.2 * 10 ^(3) ) }


\: \:


  • \bold{ \bf \large {I_(C(SAT)) =5.45mA }}


\: \:

________________________________

Value Of Cut - off Voltage :


  • \sf \large \: V_(CS(cut-off)) = V_(CC)


\: \:

Therefore ,


\: \:


  • \bf \large \: V_(CS(cut-off)) = \: 12v


\: \:

________________________________


{ \bf\large \: Base \: Current , I_B = (V_(CC))/(R_C) }


  • \sf \large \: I_B ={ (12)/(2.2 * 10 ^(3) ) }


\: \:


  • \bf \large \: I_B = 50μA


\: \:

_______________________________

Collector Current ,


  • \sf \large \: I_C = β * I_B


\: \:


  • \sf \large \: I_C = 50 * 50 * 10^(-6)


\: \:


  • \bf \large \: I_C = 2.5mA


\: \:

________________________________

Collector to emitter Voltage :


  • \sf \large \: V_(CE) = V_(CC) - ( I_C * R_C )


\: \: \:


  • \sf \large \: V_(CE) = 12 - ( 2.5 * 10-³ * 2.2 * 10³ )


\: \:


  • \bf \large \: V_(CE) = 6.5v

________________________________

Q - point are :


  • \sf \large \: I_(CEQ) = 2.5mA


\: \:


  • \sf \large \: V_(CEQ) = 6.5v

________________________________

Q - point located on the DC load line as shown in fig ~

________________________________

Hope Helps!:)


\: \: \: \:

Kindly Don't Spàm! Thank uh !:) \\ \\ \\ \\ ​-example-1
User Haja
by
5.0k points
10 votes

Answer:

  • Ibq ≈ 47.1 μA
  • Icq ≈ 2.35 mA
  • Vcq ≈ 6.82 V

Step-by-step explanation:

Q-point values will be determined by the base current and the transistor gain.

Base Current

The current supplied to the base of the transistor is the current through resistor Rb. That current is given by the equation ...


I_B=(V_(CC)-V_B)/(R_B)=(12-0.7)/(.24\cdot10^6)\approx 47.08\quad\mu\text{A}

Collector Current

The collector current is the base current multiplied by the transistor beta.


I_C=\beta* I_B=50*47.08\text{ $\mu$A}=2.354\text{ mA}

Collector Voltage

The collector voltage will be the supply voltage less the voltage drop across the collector resistor due to the collector current.


V_C=V_(CC)-I_C* R_C=12-2.354\cdot10^(-3)*2.2\cdot10^3\\\\V_C=12-5.179\approx 6.82\quad\text{V}

The Q-point values are approximately ...

  • Ibq ≈ 47.1 μA
  • Icq ≈ 2.35 mA
  • Vcq ≈ 6.82 V
User Cornelis
by
5.3k points
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