MCQOPTIONS
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MCQOPTIONS
This section includes 11 Mcqs, each offering curated multiple-choice questions to sharpen your Linear Integrated Circuit knowledge and support exam preparation. Choose a topic below to get started.
| 1. |
THE_DETAILS_OF_LOW_PASS_FILTER_SECTIONS_ARE_GIVEN_AS_FH_=10KHZ,_AF=_2_AND_F=1.2KHZ._FIND_THE_VOLTAGE_GAIN_MAGNITUDE_OF_FIRST_ORDER_WIDE_BAND-PASS_FILTER,_IF_THE_VOLTAGE_GAIN_MAGNITUDE_OF_HIGH_PASS_FILTER_SECTION_IS_8.32DB.?$ |
| A. | 48.13dB |
| B. | 10.02dB |
| C. | 14.28dB |
| D. | 65.99dB |
| Answer» D. 65.99dB | |
| 2. |
The_quality_factor_of_a_wide_band-pass_filter_can_be$ |
| A. | 12.6 |
| B. | 9.1 |
| C. | 14.2 |
| D. | 10.9 |
| Answer» C. 14.2 | |
| 3. |
The advantage of narrow band-pass filter is |
| A. | f<sub>c</sub> can be changed without changing gain |
| B. | f<sub>c</sub> can be changed without changing bandwidth |
| C. | f<sub>c</sub> can be changed without changing resistors |
| D. | All of the mentioned |
| Answer» E. | |
| 4. |
If_the_gain_at_center_frequency_is_10,_find_the_quality_factor_of_narrow_band-pass_filter |
| A. | 1 |
| B. | 2 |
| C. | 3 |
| D. | None of the mentioned |
| Answer» D. None of the mentioned | |
| 5. |
Compute the quality factor of the wide band-pass filter with high and low cut-off frequencies equal to 950Hz and 250Hz? |
| A. | 0.278 |
| B. | 0.348 |
| C. | 0.696 |
| D. | 0.994 |
| Answer» D. 0.994 | |
| 6. |
When a second order high pass filter and second order low pass sections are cascaded, the resultant filter is a |
| A. | ±80dB/decade band-pass filter |
| B. | ±40dB/decade band-pass filter |
| C. | ±20dB/ decade band-pass filter |
| D. | None of the mentioned |
| Answer» C. ¬¨¬®¬¨¬±20dB/ decade band-pass filter | |
| 7. |
Find out the voltage gain magnitude equation for the wide band-pass filter. |
| A. | A<sub>Ft</sub>√ó( f/f<sub>L</sub>)/‚àö[(1+(f/f<sub>h</sub>)<sup>2</sup>]√ó[1+(f/f<sub>L</sub>)<sup>2</sup>]. |
| B. | A<sub>Ft</sub>/ ‚àö{[1+(f/f<sub>h</sub>)<sup>2</sup>]√ó[1+(f/f<sub>L</sub>)<sup>2</sup>]} |
| C. | A<sub>Ft</sub>/ ‚àö{[1+(f/f<sub>h</sub>)<sup>2</sup>]/[1+(f/f<sub>L</sub>)<sup>2</sup>]} |
| D. | [A<sub>Ft</sub>/(f/f<sub>L</sub>)]/ ‚àö{[1+(f/f<sub>h</sub>)<sup>2</sup>]/[1+(f/f<sub>L</sub>)<sup>2</sup>]} |
| Answer» B. A<sub>Ft</sub>/ ‚Äö√Ñ√∂‚àö‚Ć‚àö‚àÇ{[1+(f/f<sub>h</sub>)<sup>2</sup>]‚Äö√†√∂‚àö‚â•[1+(f/f<sub>L</sub>)<sup>2</sup>]} | |
| 8. |
Find the center frequency of wide band-pass filter |
| A. | f<sub>c</sub>= ‚àö(f<sub>h</sub> √óf<sub>L</sub>) |
| B. | f<sub>c</sub>= ‚àö(f<sub>h</sub> +f<sub>L</sub>) |
| C. | f<sub>c</sub>= ‚àö(f<sub>h</sub> -f<sub>L</sub>) |
| D. | f<sub>c</sub>= ‚àö(f<sub>h</sub> /f<sub>L</sub>) |
| Answer» B. f<sub>c</sub>= ‚Äö√Ñ√∂‚àö‚Ć‚àö‚àÇ(f<sub>h</sub> +f<sub>L</sub>) | |
| 9. |
A band-pass filter has a bandwidth of 250Hz and center frequency of 866Hz. Find the quality factor of the filter? |
| A. | 3.46 |
| B. | 6.42 |
| C. | 4.84 |
| D. | None of the mentioned |
| Answer» B. 6.42 | |
| 10. |
Narrow band-pass filters are defined as |
| A. | Q < 10 |
| B. | Q = 10 |
| C. | Q > 10 |
| D. | None of the mentioned |
| Answer» D. None of the mentioned | |
| 11. |
Which filter attenuates any frequency outside the pass band? |
| A. | Band-pass filter |
| B. | Band-reject filter |
| C. | Band-stop filter |
| D. | All of the mentioned |
| Answer» B. Band-reject filter | |