FN.Q3 – In the emitter-stabilized bias configuration of figure, the values of Vcc=18V, the resistances Rg=330k2, R=1,2kQ, Rz-0,95kQ and ß=120 are given (VBE=0,7V). Determine in the circuit: a) IBQ Vcc...

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FN.Q3 – In the emitter-stabilized bias configuration of figure, the values of Vcc=18V, the resistances Rg=330k2,<br>R=1,2kQ, Rz-0,95kQ and ß=120 are given (VBE=0,7V). Determine in the circuit:<br>a) IBQ<br>Vcc<br>b) IcQ<br>c) VCEQ<br>Rc<br>d) ICMAX<br>RB<br>Ico<br>e) VBCQ<br>+<br>oVE<br>RE<br>VBCQ =<br>ICMAX =<br>IcQ =<br>IBQ =<br>

Extracted text: FN.Q3 – In the emitter-stabilized bias configuration of figure, the values of Vcc=18V, the resistances Rg=330k2, R=1,2kQ, Rz-0,95kQ and ß=120 are given (VBE=0,7V). Determine in the circuit: a) IBQ Vcc b) IcQ c) VCEQ Rc d) ICMAX RB Ico e) VBCQ + oVE RE VBCQ = ICMAX = IcQ = IBQ =

Jun 11, 2022

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FN.Q3 – In the emitter-stabilized bias configuration of figure, the values of Vcc=18V, the resistances Rg=330k2, R=1,2kQ, Rz-0,95kQ and ß=120 are given (VBE=0,7V). Determine in the circuit: a) IBQ Vcc...

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