Measure and record the actual corner frequencieson the curves (hint: the magnitude of the frequency response at the corner frequenciesis equal to 1/2 )5. Screen shot of the AC sweep result (two curves: one is for magnitude, and one is forphase of the frequency response). Screenshot of your bandpass filter design (the circuit in Multisim Live) withcalculation details (provide the R1, R2, C1, C2 values that you use to derive the twocorner frequencies: 450Hz and 12kHz)V11Vpk1kHz0C1R211nF12kR130kC21105pF4. Strengthen understanding of frequency response of circuits and Bode plots.2 Equipment Web browser Search Multisim Live in google, enter the first link in the search results Login with your NI account (register one if you have not done so) On the top right corner, click create circuit3. Learn to use NI Multisim Live Online Circuit Simulator. I have designed the experiments around student familiarization with usage of specialized instruments such as the Bode Plotter, Spectrum Analyzer and Network. After the schematic design is captured, Multisim provides you with an interactive oscilloscope, bode plotter, logic analyzer, power supply, multimeter, function. Learn to use Multisim circuit simulation software. Then using Vout and Vin, which is given as 5, calculate the. Students will make adjustments to external bias resistors to determine the relationship between gain and frequency in op-amp circuits. This plot will allow for a determination of the range of frequencies for which an op-amp circuit operates optimally. The cursor is set to the critical frequency on the Bode plotter so that.
#Bode plot multisim how to#
Lab 2: Bandpass Filter and Frequency Response1 Objectives Get familiar with computer-based instruments. Figure 2: Bode Plotter in Multisim Using the oscilloscope find Vout to fill in Table 1 below. The purpose of this lab is to demonstrate how to use Multisim in order to produce Bode Plots via AC Analysis. Figure shows the circuit in Multisim with an oscilloscope display and Bode plotter.