In this case, by mousing over the plot, you'll find that it's about \$2 \ \text\Omega\$ in the pass band:įor output impedance, we need to modify the circuit slightly, just by adding a test current source connected to the output. Input impedance is easy: we can just take the same circuit above and instead plot the expression MAG(V(V1.nA)/I(V1.nA)), which looks at the small-signal current relative to the small-signal voltage on source V1 and plots their ratio, an impedance. (If you need to recreate this on your own, there's a step-by-step tutorial on how to draw a circuit and get the voltage gain Bode Plot here.) Input Impedance If you open the circuit above and run the simulation, you'll get the following Bode Plot showing approximately 30 dB of gain in the pass band: Simulate this circuit – Schematic created using CircuitLab I've quickly drawn your circuit and set it up to get the Bode plot of voltage gain, setting up a frequency domain simulation with V1 as the source and DB(MAG(V(out))) and PHDEG(V(out)) as the plot outputs: I don't use Multisim, but it's easy to find an amplifier's voltage gain and input and output impedances with the CircuitLab circuit simulator.
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