Develop a Multisim model based on the block diagram above. (Screenshot of Multis
ID: 2248494 • Letter: D
Question
Develop a Multisim model based on the block diagram above.
(Screenshot of Multisim in needed only)
Signal generators: Generate three sine wave signals of 0.1V peak amplitude and zero offsets. The frequency of each generator is obtained as follows. Add the last four digits of your 800 number and multiply this times 2k to get the frequency of signal generator 2. The frequency of signal generator 1 is one-third that of the signal generator 2, and the frequency of signal generator 3 is three times that of the signal generator 2.
Summing Amplifier: Use a 741 op amp and set up the gain for 10 using the input and feedback resistors. (You can use the information in the 2161 experiment guide for active devices).
Filters: Construct an RLC bandpass and an RLC band stop filter. Set the band center frequency to match the frequency of signal generator 2. You need to select components to give a narrow band for these filters. See the Quick Guide to Selective Passive Filters on Moodle. A useful site for this homework is the Okawa Electric filter calculator found on the web. With these calculators, you can preview your filters.
Measurements: Add spectrum analyzers and an oscilloscope as shown in the diagram.
SIGNAL GENERATOR 1 BAND PASS FILTER SIGNAL GENERATOR 2 741 SUMMING AMPLIFIER BAND STOP FILTER SIGNAL GENERATOR 3Explanation / Answer
1) session layer
2) digital signal
3) f=1/t, so in 8 sec, the frequency will be 8 HZ
4) 1 (one)
5) the problem for the pulsation takes
1) true
2) false
3) false
4) true
5) true
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