Inverting Amplifier U1 6 OUT R1 2 ost + V1 UA741 RL R2 Fig 3. Inverting Amplifier R1 = 10k2, R2 = 100k2, RL = 1 Connect +Vs (ports 7 and 4) to ±12 V. Port 7 goes to +12V DC and port 4 goes to -12V DC. Leave ports 1 and 5 to be open|| Procedure: (1) Connect the circuit as shown in Fig. 3. Use a 2 kHz sinusoidal signal with amplitude of 0.1 V as the source (V1). Display both input and output waveforms vs time. Increase the amplitude of input voltage continuously until the output waveform is clamped (meaning the sinusoidal signal at the output starts becoming flat at the maximum or minimum values unlike normal sinusoidal signals). When this happens, increase Vs from ±12 V to ±15 V. (11) Use a 2 kHz sinusoidal signal with amplitude of 0.1 V as the source. Change RL from 10 kQ to 1 MQ in a few different steps. 5.

Inverting Amplifier U1 6 OUT R1 2 ost + V1 UA741 RL R2 Fig 3. Inverting Amplifier R1 = 10k2, R2 = 100k2, RL = 1 Connect +Vs (ports 7 and 4) to ±12 V. Port 7 goes to +12V DC and port 4 goes to -12V DC. Leave ports 1 and 5 to be open|| Procedure: (1) Connect the circuit as shown in Fig. 3. Use a 2 kHz sinusoidal signal with amplitude of 0.1 V as the source (V1). Display both input and output waveforms vs time. Increase the amplitude of input voltage continuously until the output waveform is clamped (meaning the sinusoidal signal at the output starts becoming flat at the maximum or minimum values unlike normal sinusoidal signals). When this happens, increase Vs from ±12 V to ±15 V. (11) Use a 2 kHz sinusoidal signal with amplitude of 0.1 V as the source. Change RL from 10 kQ to 1 MQ in a few different steps. 5.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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