iPad 16:41 29% Q3. The current gain of the following transistor ranges from 40 to 100. Calculate the variation in Vce and show this on a DC load line (Vc against Ic) [8.12V, 0V] 260kΩ 4kΩ 20V OPENING...
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First, we need to calculate the variation in Vce. Vce is the voltage between the collector and emitter of the transistor. The variation in Vce can be calculated by subtracting the minimum value from the maximum value. Vce variation = Maximum Vce - Minimum Vce Show more…
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(II) Suppose that the current gain of the transistor in Fig. 43 is $\beta=i_{C} / i_{B}=85 .$ If $R_{C}=4.3 \mathrm{k} \Omega$ , calculate the ac output voltage for an ac input current of 2.0$\mu \mathrm{A} .$
(II) Suppose that the current gain of the transistor in Fig. 29-41 is $\beta = i_C/i_B = 85$. If $R_C = 3.8 \mathrm{k}\Omega$, calculate the ac output voltage for an ac input current of 2.0 $\mu$A.
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Transistors: Bipolar and MOSFETs
Suppose that the current gain of the transistor in Fig. $40-43$ is $\beta=i_{\mathrm{C}} / i_{\mathrm{B}}=85 .$ If $R_{\mathrm{C}}=4.3 \mathrm{k} \Omega,$ calculate the ac output voltage for an ac input current of $2.0 \mu \mathrm{A}$.
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