![]() Calculate C B, C C, C E to have f L = 500 Hz. Simulate the circuit to verify your result, and adjust the value of C F if necessary.Ħ. Calculate the value of C F to have f H = 50 kHz. Remember that the equation gives you the radian frequency and you need to convert to Hz.ĥ. Calculate f H using the equation from section 1.3 and compare it with the simulation result obtained in Step 3. Determine Cp, Cµ and r b of the transistor from the simulated operating point data, (refer to your simulator's documentation on how to obtain operating point data). Using the LTSpice simulator, find the higher 3- dB frequency (f H) while C F = 0.Ĥ. Also provide the circuit schematic with DC bias points annotated.ģ. ![]() Submit all necessary simulation plots showing that the specifications are satisfied. Verify your results using the LTSpice circuit simulator. Show all your calculations, design procedure, and final component values.Ģ. Peak-to-peak unclipped output swing > 3 Vġ. Assuming C B = C C = C E = 1 Farad and C F = C Π = C µ = 0, and using a 2N3904 transistor, design a common-emitter amplifier with the following specifications:
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