Question:
The voltage gain and the current amplification factor of a transistor in common emitter configuration are \( 300 \) and \( 60 \) respectively. If the collector resistance is \( 5 k\Omega \), then the base resistance is:
The voltage gain and the current amplification factor of a transistor in common emitter configuration are \( 300 \) and \( 60 \) respectively. If the collector resistance is \( 5 k\Omega \), then the base resistance is:
Show Hint
For common emitter transistors, use:
\[
A_v = \beta \frac{R_C}{R_B}
\]
to determine base resistance.
Updated On: Jun 5, 2025
- \( 5 k\Omega \)
- \( 25 k\Omega \)
- \( 2 k\Omega \)
- \( 1 k\Omega \)
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The Correct Option is C
Solution and Explanation
Step 1: Voltage Gain Formula
The voltage gain \( A_v \) for a transistor in common emitter configuration is:
\[
A_v = \beta \frac{R_C}{R_B}
\]
where:
- \( \beta = 60 \) (current gain),
- \( R_C = 5k\Omega \) (collector resistance),
- \( A_v = 300 \).
Step 2: Solving for \( R_B \)
\[
300 = 60 \times \frac{5000}{R_B}
\]
\[
R_B = \frac{60 \times 5000}{300}
\]
\[
= \frac{300000}{300} = 2000 \Omega = 2 k\Omega
\]
Conclusion
Thus, the correct answer is:
\[
2 k\Omega
\]
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