ECET 220
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Chapter# 3: 2, 8, 14, 22, and 34 (pp. 158–160)
Chapter# 4:2, 4, and 14 (pp. 233–236)
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Objectives:
To analyze a normally biased BJT circuit comprising of a BJT and resistors and measure the circuit voltages between emitter, common, base, and collector.
To theoretically calculate and verify the circuit using Ohm’s law or Kirchhoff’s law, which were learned in previous classe.....

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Chapter 5: Problems 1, 7, 8, and 12
5.1 a. What is the expected amplification of a BJT transistor amplifier if the dc supply is set to zero volts? 0
What will happen to the output ac signal if the dc level is insufficient? Sketch the effect on the waveform. It will b.....

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Objectives:
To analyze a BJT Amplifier Classes Amplifier comprising of two capacitors (C) and resistors (R) and measure voltage drops and currents at different locations.
To theoretically calculate and verify the circuit using Ohm’s law and Kirchhoff’s law, which were learned in pre.....

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# 2 (e book, Qn.# 2, pg.# 416 & Hard Cover Ed., Qn.# 2, pg.# 418)
Using the characteristics of Fig. 11, determine ID for the following levels of VGS(with VDS > VP):
# 6 (e Book, pg.# 416417) Hard Cover Ed. Prob.# 7, pg.# 419
a.&.....

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Objectives:
To calculate and verify the commonsource JFET Amplifier circuit of Figure 1. Determine the voltages (VS, VG, VD) with respect to the circuit common. Simulate and measure the circuit using Multisim 11 software. Construct the circuit using a prototyping board and necess.....

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Chapter 10 Questions 1, 2, 4, 5, 6, 9, 12.
What is the output voltage in the circuit of Fig. 62.
What is the range of the voltagegain adjustment in the circuit of Fig. 63.
What is the range of the output voltage in the circuit of Fig. 65 if the input can vary from 0.1 to 0.5 V?
W.....

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Objectives: To analyze the characteristics of the inverting and noninverting Operational Amplifier.
To calculate gain as well as expected output voltages in accordance with the input voltages.
To design a simulation as well as construct the proto board to test and analyze all theories.
.....

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Chapter 10
8. Calculate the output voltage developed by the circuit of Fig.68 for Rf= 330kΩ.
13. Calculate the output voltages V2 and V3 in circuit Fig.72
16. Calculate the total offset voltage for the circuit Fig.75 for an opamp with specified values of input offset voltage Vio= 6mV.....

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Objectives:
Demonstrate the operation of a summing amplifier inverting, noninverting using theoretical calculations and constructed circuits. Also demonstrate the operation of an instrumentation amplifier using theoretical calculations and constructed circuits.
Results:
During the re.....

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Ch. 10
10. Sketch the output waveform resulting in Fig. 69.
Ch. 11
2. Calculate the output voltage of the circuit of Fig. 48 for an input of 150 mV rms
5. Show the connection of two opamp stages using an LM358 IC to provide outputs that are 15 and—30 times larger than the input. .....

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Objectives:
To demonstrate the operation of a differentiator
To demonstrate the operation of an integrator
Design a practical differentiator circuit similar to what is shown in Figure 2 for a frequency range of 1 kHz to 10 kHz using the formulas provided in the PRELAB.
.....

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Chapter 13: LinearDigital ICs
Problems 1, 2, 4, 9, and 10
Draw the diagram of a 741 opamp operated from ±15V supplies with Vi(−) = 0 V and Vi(+) = +5 V. Include terminal pin connections.
Sketch the output waveform for the circuit of Fig. 40.....

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Objectives:
Construct and take measurements of a Differential (Difference) Amplifier.
Construct and take measurements of an audio amplifier.
Results:
The measurements of the Vout of the constructed differential amplifiers yielded comparable result to the theoretical calculati.....
