Electronic Devices-Amplifier Frequency Response
Electronic Devices-Amplifier Frequency Response
1. Doubling the voltage gain causes a ________ dB ________.
- 10, increase
- 6, increase
- 10, decrease
- 6, decrease
2. ________ frequencies are values of frequency at which the RC circuits reduce the voltage gain to 70.7% of its midrange value.
- Critical
- Cutoff
- Corner
- all of the above
3. A roll-off of 20 dB per decade is equivalent to a roll-off of ________ per octave.
- 3 dB
- 13 dB
- 12 dB
- 6 dB
4. Each RC circuit causes the gain to drop at a rate of ________ dB/decade.
- 20
- 10
- 6
- none of the above
5. The phase shift through the input of an RC circuit approaches ________° as the frequency approaches zero.
- 0
- 45
- 180
- 90
6. A certain amplifier has a bandwidth of 22.5 kHz with a lower cutoff frequency of 600 Hz. What is the value of fcu?
- 600 Hz
- 22.5 kHz
- 23.1 kHz
- 21.9 kHz
7. Internal transistor junction capacitances affect the high-frequency response of amplifiers by
- reducing the amplifier's gain.
- introducing phase shift as the signal frequency increases.
- having no effect.
- reducing the amplifier's gain and introducing phase shift as the signal frequency increases.
8. What is the method that can be used to determine the values of fcl and fcu of an amplifier?
- five time constants
- step-response
- sinusoidal
9. An amplifier has an input signal voltage of 0.054 mV. The output voltage is 12.5 V. The voltage gain in dB is
- 53.6 dB.
- 107.3 dB.
- 231 dB.
- 116 dB.
10. The lower critical frequency is also known as the
- break frequency.
- cutoff frequency.
- corner frequency.
- all of the above