Find the base resistance in the circuit below, if \(\beta_{DC} =90\) and \(V_{BE}=0.7~V.\)
1. 83
2. 41 k
3. 83 k
4. 41
For transistor action, which of the following statements is correct?
1. | Base, emitter, and collector regions should have the same size. |
2. | Both emitter junction, as well as the collector junction, are forward biased. |
3. | The base region must be very thin and lightly doped. |
4. | Base, emitter, and collector regions should have the same doping concentrations. |
When a transistor is used in a common emitter mode as an amplifier:
1. | the base-emitter junction is forward biased. |
2. | the base-emitter junction is reverse biased. |
3. | the base-collector junction is forward biased. |
4. | the input is connected in series with voltage applied across the base-collector junction. |
In an NPN transistor, 108 electrons enter the emitter in s. If 1% electrons are lost in the base, the fraction of current that enters the collector and the current amplification factor are, respectively:
1. 0.7 and 50
2. 0.9 and 90
3. 0.8 and 49
4. 0.99 and 99
An transistor having A.C. current gain of 50 is to be used to make an amplifier of voltage gain 6. What will be the power gain in the amplifier?
1. 300
2. 600
3. 750
4. 400
A transistor circuit in a common emitter configuration is shown. The current gain is 100. If \(V_{BE}\approx 0,\) then \(V_{CE}\) is given by:
1. 6 V
2. 5 V
3. 4 V
4. 3 V
In an amplifier, an npn-transistor is used in common-emitter mode. If =25, then what will be the collector current if emitter current is 13 mA?
1. 13.5 mA
2. 12.5 mA
3. 11 mA
4. 10.5 mA
The variation of output potential with input potential in a transistor in CE-mode can be best represented as:
1. | 2. | ||
3. | 4. |
A n-p-n transistor operates in a common emitter mode as shown. The value of \(R_{L}\) is:
\(\small\left ( \text{Given,}I_{C}=4 mA,~V_{CE}=4~V,V_{BE}=0.6~V~\text{and}~\beta _{dc}=100 \right )\\\)
1. 1 k
2. 2 k
3. 3 k
4. 4 k
If the current gain in the transistor is 50, then is equal to:
1. 2 V
2. 3 V
3. 4 V
4. 6 V