National university CEE420L Microelectronics Lab Lab XXXXXXXXXXpoints Week 8 Learning Outcomes After completing this Lab-8 you will be able to explain or/and perform the following activities: a-...

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National university CEE420L Microelectronics Lab Lab-8 110 points Week 8 Learning Outcomes After completing this Lab-8 you will be able to explain or/and perform the following activities: a- Observe the behavior of an OP-AMP b- Learn about different configurations of OP-AMP c- Experiment with a couple of commonly used applications of OP-AMP Reading: Electronic Devices, Floyd, 10th Edition, Chapter 12 Lab report format: Same as this document, report your results after each experiment, both word or PDF are acceptable Required hardware and software 1- a computer with installed NI Multisim 14.2 Note: Always make sure your circuit is correctly implemented then connectvoltage supplies. Experiment 1(Building an OP-AMP circuit ) 30 points With an MC1741 op-ampand the circuit below: a- Checking with the datasheet how much is the op-amp input resistance b- Checking with the datasheet how much is the op-amp input resistance c- What is the configuration: inverting or noninverting, why? d- What is the gain (calculated) Implement the circuit on multisim apply a sinusoidal wave with 2 volt peak amplitude and frequency of 1 KHz and apply a 20 mV rms, 5 KHz, SW (sinusoidal) to the input. VCC = 15 V. RL = 12 kΩ e- measure the output rms voltage and calculate the gain f- Compare your result with the theoretical result g- Comment on the input and output signal phases https://4donline.ihs.com/images/VipMasterIC/IC/ONSM/ONSMS01796/ONSMS01796-1.pdf?hkey=EF798316E3902B6ED9A73243A3159BB0 Experiment 2(Employing OP-AMPin one of commonly used configuration) 20 points Implement the circuit below on multisim two +/- 12 V voltage supplies and 1.2 kΩ load a- What is the configuration: inverting or noninverting, why? b- Calculate the gain c- apply a 500 mV DC voltage at the input and measure the output and calculate the gain and compareit with b d- Explain the circuit property Experiment 3(Employing OP-AMP in another commonly used configuration) 20 points Implement the circuit on multisim with MC1741 and with one +12 V voltage supply and 1.2 kΩ load a- What is the configuration: inverting or noninverting, why? b- Calculate the gain c- apply a sinusoidal wave of 2 volt peak and frequency of 1 KHz and apply a 10 mV rms, 5 KHz, SW (sinusoidal) to the input. d- measure the output rms and calculate the gain e- Compare your results with the theoretical result f- Comment on the input and output signal phases g- Replace Rf with a 10 kΩ resistor and repeat c-f Experiment 4(Experimenting with another application of OP-AMP )20 Points Implement the circuit on multisim with one +12 V voltage supply and 1.2 kΩ load a- What is the configuration: inverting or noninverting, why? b- Calculate the gain c- Measure the gain d- Explain what function can this configuration do Experiment 5 (Employing OP-AMP in the third commonly used configuration) 20 Points Implement the circuit on multisim with one +12 V voltage supply and 1.2 kΩ load: a- What is the configuration: inverting or noninverting, why? apply a sinusoidal wave with 2 volt peak amplitude and frequency of 1 KHz and apply a 20 mV rms, 5 KHz, SW (sinusoidal) to the input. Calculate the gain b- Measure the gain c- Explain what function can this configuration do