{[ promptMessage ]}

Bookmark it

{[ promptMessage ]}

Lab7_Report - 3.5.4 If we are to design an ampliFer with...

Info iconThis preview shows pages 1–2. Sign up to view the full content.

View Full Document Right Arrow Icon
Report 7: Frequency Response Name: Lab Section: 3.4.3 What are the respective values of I BIAS and V OUT (the DC voltage at the output)? I BIAS = V OUT = 3.4.4 Sketch the waveforms of v IN and v OUT . 3.4.5 At 1 kHz, what are the magnitude and phase of v out /v in as measured from the oscilloscope? | v out /v in | dB = v out /v in = 1
Background image of page 1

Info iconThis preview has intentionally blurred sections. Sign up to view the full version.

View Full Document Right Arrow Icon
2 3.4.6 Attach the Bode plots to the lab report. 3.4.7 What is the frequency at which the gain drops by 3 dB? What is the phase at this frequency? Is the phase consistent with the magnitude? f - 3 dB = v out /v in | f - 3 dB = 3.5.2 Attach the Bode plots to the lab report. 3.5.3 How does the dominant pole of this amplifier compare to the respective poles of the previous two amplifiers? Is this result agreeable?
Background image of page 2
This is the end of the preview. Sign up to access the rest of the document.

Unformatted text preview: 3.5.4 If we are to design an ampliFer with high bandwidth, is a transistor with large C μ desirable? 3.6.2 Attach the Bode plots to the lab report. 3.6.3 How does the dominant pole of this ampliFer compare to the respective poles of the previous two ampliFers? Is this result agreeable? 3.7.3 Attach the Bode plots to the lab report. 3.7.4 How does the bandwidth of this ampliFer compare to the respective bandwidths of the previous ampli-Fers? Note: If you could not measure the dominant pole, a qualitative answer is suFcient (i.e. smaller, larger, much larger)....
View Full Document

{[ snackBarMessage ]}