Click Run Frequency-Domain Simulation and a plot window appears: This is a classic Bode plot, magnitude and phase subplots, with a logarithmically-scaled x-axis. These are the key ingredients of a Bode plot. Consider Vin = 5V XF02 T.9 Filter type (a) f.(a) L2 C1 100mH HH 0.01F Filter type (b) LR2 10Ka f(b) circuit (a) XFG3 R3 COM 10KQ C2 0. The second is PHDEG(V(out)), which asks for the phase in degrees. Use Bode Plot to draw the bode plot curve, measure & record the following values at the table (T.9). Consider Vin = 5V XF02 T.9 Filter type (a) f.(a) L2 C1 100mH HH 0.01F Filter type (b) LR2 10Ka f(b) circuit (a) XFG3 R3 COM 10KQ C2 0.01FĬonnect the circuits at Figure-9 below by using Multisim simulator. Consider Vin = 5VĬonnect the circuits at Figure-9 below by using Multisim simulator. Use Bode Plot to draw the bode plot curve, measure & record the following values at the table (T.9). Use Bode Plot to draw the bode plot curve, measure & record the following values at the table (T.9). Multisim then displays the Bode plot of that.

Connect the circuits at Figure-9 below by using Multisim simulator. Bode plots are obtained by performing an AC analysis on a circuit and plotting a voltage or current.