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An amplifier (with DC gain = 100 V/V, input resistance of 100 kΩ and output resistance of 1 kΩ ) is capacitively coupled (0.1 μF) to a 10 kΩ source, and it drives a parallel RC load of 1 kΩ and lnF. This is shown in the figure below. a) By inspection, what are the gains at DC and at very high frequency? What type of magnitude response is it (LP, HP or BP)? b) Derive the transfer function VoVs(s) c) Sketch the transfer function. Calculate and show the frequencies (in Hz ) and magnitudes (in dB ) of interest.

An amplifier (with DC gain = 100 V/V, input resistance of 100 kΩ and output resistance of 1 kΩ ) is capacitively coupled (0.1 μF) to a 10 kΩ source, and it drives a parallel RC load of 1 kΩ and lnF. This is shown in the figure below. a) By inspection, what are the gains at DC and at very high frequency? What type of magnitude response is it (LP, HP or BP)? b) Derive the transfer function VoVs(s) c) Sketch the transfer function. Calculate and show the frequencies (in Hz ) and magnitudes (in dB ) of interest.

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An amplifier (with DC gain = 100 V / V , input resistance of 100 k Ω and output resistance of 1 k Ω ) is capacitively coupled ( 0.1 μ F ) to a 10 k Ω source, and it drives a parallel RC load of 1 k Ω and lnF . This is shown in the figure below. a) By inspection, what are the gains at DC and at very high frequency? What type of magnitude response is it (LP, HP or BP)? b) Derive the transfer function V o V s ( s ) c) Sketch the transfer function. Calculate and show the frequencies (in H z ) and magnitudes (in d B ) of interest.

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