For the circuits of figure 4, transistors have \beta =100,|V_(BE)|=0.7V and V_(CEsat )=0.3V. (a) Determine V_(o) for the circuit of figure 4 when: (i) V_(i)=0V; (ii) V_(i)=10V Indicate the operation of the circuit. Figure 4
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7$ V and $V_{CEsat} = 0.3$ V. (a) Determine $V_o$ for the circuit of figure 4 when: (i) $V_i = 0$ V; (ii) $V_i = 10$ V Indicate the operation of the circuit. $+ 10$ V $1$ k$\Omega$ $V_o$ $5$ k$\Omega$ $V_i$ $100$ k$\Omega$ $- 10$ V Figure 4 Show more…
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Sikandar B.
For the transistor circuit of Fig. 3.108 , find $I_{B}, V_{C E}$ and $v_{o} .$ Take $\beta=200, V_{B E}=0.7 \mathrm{V}$.
12. A base current of 50 μA is applied to the transistor in Figure 4–53, and a voltage of 5 V is dropped across RC. Determine the βDC of the transistor. 13. Calculate αDC for the transistor in Problem 12. 14. Assume that the transistor in the circuit of Figure 4–53 is replaced with one having a βdc of 200. Determine IB, IC, IE, and VCE given that VCC = 10 V and VBB = 3 V. 15. If VCC is increased to 15 V in Figure 4–53, how much do the currents and VCE change? 29. Determine IC(sat) for the transistor in Figure 4–58. What is the value of IB necessary to produce saturation? What minimum value of VIN is necessary for saturation? Assume VCE(sat) = 0 V.
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