Lab Report 4

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University of Miami *

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MISC

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Electrical Engineering

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Apr 3, 2024

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docx

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3

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Your Name: C-Number: Partner(s) Name: Lab-Section: Lab 4 Tristan Loftus C23782283 Jasem & Abdulaziz TD Part 1 Non-Inverting Amplifier Part 1.c Resistor Nominal Resistance ( Ω ) Measured Resistance ( Ω ) R 1 1 k 1.056 k R f 10 k 9.962 k Part 1.e through 1.h Voltage V 1 (V) Nominal Voltage V O (V) Exact Voltage V O (V) Measured Voltage V O (V) 1 11 10.4 11.784 2 22 20.9 11.873 Does the non-inverting amplifier equation hold? Does the amplifier operate as a linear circuit? Why? Why not? Justify your answer. - The non-inverting amplifier equation is held based off the calculated values. The amplifier does not operate as a linear circuit because the power supply is set between +15V and -15V. This is why the measured Voltage is peaking around 11.8 for both V 1 values(1V and 2V). The nominal voltages do increase in a linear fashion.
Your Name: C-Number: Partner(s) Name: Lab-Section: Lab 4 Part 2 Inverting Amplifier Part 2.c Resistor Nominal Resistance ( Ω ) Measured Resistance ( Ω ) R 1 1 k 0.99 k R f 47 k 45.73 k Part 2.d through 2.i Amplitude V 1 (mV) Nominal Amplitude Voltage V O (V) Exact Amplitude Voltage V O (V) Measured Amplitude Voltage V O (V) 200 -9.4 -9.2 10.8 V 500 -23.5 -23.1 24.8 V Part 2.f Waveforms
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