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BLOCK II OPERATIONAL AMPLIFIERS Department of Physics Uttarakhand Open University, Haldwani Dr. Meenakshi Rana Unit 11 : Operational Amplifier Linear Applications Unit 12 : Operational Amplifier Non-Linear Applications Unit 13 : Operational Amplifier Wave form generators

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Page 1: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance

BLOCK – II OPERATIONAL AMPLIFIERS

Department of Physics

Uttarakhand Open University, Haldwani

Dr. Meenakshi Rana

Unit –11 : Operational Amplifier – Linear Applications

Unit –12 : Operational Amplifier – Non-Linear Applications

Unit –13 : Operational Amplifier – Wave form generators

Page 2: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance

Applications of Op-Amps

LINEAR APPLICATIONS

• Adder

• Subtractor

• Voltage follower

• Current to voltage converter

• Voltage to current converter

• Integrator

• Differentiator

• Active filters

NON-LINEAR APPLICATIONS

• Comparators

• Logarithmic amplifiers

• Exponential amplifiers

• Peak detectors

• Precision rectifiers

• Waveform generators

• Clippers & clampers

Page 3: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 4: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 5: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 6: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 7: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 8: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 9: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 10: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 11: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 12: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 13: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 14: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 15: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 16: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance

INTEGRATORS AND DIFFERENTIATORS

Page 17: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 18: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 19: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 20: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 21: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 22: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 23: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 24: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 25: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 26: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 27: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 28: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 29: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 30: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 31: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 32: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 33: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 34: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 35: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 36: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 37: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 38: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 39: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 40: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 41: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 42: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 43: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 44: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 45: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 46: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 47: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance

Comparison between Schmitt Trigger and Comparator

Page 48: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 49: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 50: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 51: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 52: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 53: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 54: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance
Page 55: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance

Some useful link

https://www.youtube.com/watch?v=k9zQjEaKtfk

https://www.youtube.com/watch?v=7FYHt5XviKc

https://www.youtube.com/watch?v=ojARM2gdGEY

https://www.youtube.com/watch?v=HJKFXmJVwaA

https://www.youtube.com/watch?v=5-ohKRWeod4

https://www.studyelectronics.in/linear-and-nonlinear-applications-of-op-amp/

https://www.youtube.com/watch?v=nGBw0bMSaHw

Page 56: Department of Physics Uttarakhand Open University, Haldwani...Non-inverting Summing Amplifier Therefore, using the superposition theorem, the voltage V 2 = VI Vb & V = 0. Net resistance

Thanks


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