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00) Course Introduction
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00) Course Introduction
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01) Diode Family
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1-a) Clipper Circuit
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1-b) Shunt Clipper Circuit
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1-c) Clipper Circuit using Reference Voltages
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1-d) Numerical on Clipper Circuit
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1-e) Clipping Circuit using Zener Diode
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1-f) Back to Back Connected Zener Diode Clipper Circuit
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1-g) Determining the ON OFF State of Diode
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1-h) Numerical on State of Diode
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1-i) Double Diode Clipper Circuit
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1-j) AC and DC Equivalent Circuit of Diode
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1-k) Numericals on AC & DC Equivalent of Diode Circuit
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1-l) Line Regulation
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1-m) Load Regulation
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1-n) Clamper Circuit
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1-o) Peak Detector Circuit
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1-p) Voltage Multiplier Circuit
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1-q) Numerical
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02)
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2-a) Basics of OPAMP
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2-b) Examples on Basics of OPAMP
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2-c) Numericals on OPAMP
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2-d) Non Inverting Amplifier
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2-e) Inverting Amplifier
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2-f) Different types of converter using OPAMP
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2-g) Adder Subtractor Circuit with Numerical
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2-h) Schmitt Trigger Circuit
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2-i) OPAMP with Zener Diodes
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2-j) Astable Multivibrator
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2-k) Monostable Multivibrator
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2-l) Integrator Circuits
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2-m) Numerical on Integrator
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2-n) Differentiator circuit
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2-o) Numerical on Differentiator
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2-p) All Pass Filter
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2-q) Identification of Filter Part 1
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2-r) Identification of Filter Part 2
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2-s) Numerical on filter
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2-t) Frequency Response of OPAMP
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2-u) Numerical on Frequency Response
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2-v) 2nd Order Filter
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2-w) Logarithmic Amplifier
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2-x) Anti Logarithmic Amplifier
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2-y) Precision Half Wave Rectifier
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2-z) Precision Full Wave Rectifier
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2-aa) Miscellaneous Numerical Part 1
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2-ab) Miscellaneous Numerical Part 2
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2-ac) Miscellaneous Numerical Part 3
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2-ad) DC Parameters of OPAMP
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2-ae) DC Parameters of OPAMP
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2-af) AC Parameters of OPAMP
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2-ag) AC Parameters of OPAMP
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2-ah) Miscellaneous Examples
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03) DC Analysis of BJT
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3-a) Introduction to DC Analysis of BJT
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3-b) Examples of DC Analysis of BJT
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3-c) Numericals on DC Analysis of BJT
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3-d) Procedure to find the Region of Operation of BJT
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3-e) Numericals on Region of Operation of BJT
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3-f) Current Mirror Circuit
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3-g) Numerical on Current Mirror Circuit
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04) AC Analysis of BJT Amplifier
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4-a) Basics of BJT Amplifier
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4-b) BJT as 2 Port Network
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4-c) Internal Parameters of BJT
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4-d) Approximate Analysis of CE Amplifier
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4-e) Approximate Analysis of Cc Amplifier
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4-f) Approximate Analysis of CB Amplifier
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4-g) r_emodel of CE part 1
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4-h) r_e model of CE part 2
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4-i) r_e model of CC
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4-j) Numerical
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4-k) Multistage Amplifier
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4-l) Cascode Amplifier
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4-m) Darlington Pair
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4-n) Frequency Response of Multistage Amplifier
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4-o) High Frequency Amplifier Part 1
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4-p) High Frequency Amplifier Part 2
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05) MOSFET Amplifier
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5-a) Common Source Amplifier without Rs
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5-b) Common Source Amplifier with Rs
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5-c) Common Drain Amplifier
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5-d) Common Gate Amplifier
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5-e) Numerical on MOSFET Amplifier
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06) Feedback Amplifiers
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6-a) Types of Amplifiers
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6-b) Feedback Amplifier
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6-c) Feedback Topologies
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6-d) Identification of Feedback Topology and Numericals
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