Analog Electronic Circuits

Features

• This Free unique application is for all students across the world. It covers 147 topics of Analog Electronic Circuits in detail. These 147 topics are divided in 6 units.
• Each topic is around 600 words and is complete with diagrams, equations and other forms of graphical representations along with simple text explaining the concept in detail.
• This USP of this application is "ultra-portability". Students can access the content on-the-go from anywhere they like.
• Basically, each topic is like a detailed flash card and will make the lives of students simpler and easier.
• Some of topics Covered in this application are:
• 1. Oscillators
• 2. Sinusoidal Oscillators
• 4. Sinusoidal Oscillators operating frequency
• 5. Harmonic Oscillator
• 6. The RC Phase Shift Oscillator
• 7. Transistor Phase Shift Oscillator
• 8. Wien Bridge Oscillator:
• 9. Wien Bridge Oscillator-Operation
• 10. Tuned Oscillator
• 11. The Colpitts Oscillator
• 12. Crystal Oscillator
• 13. Analog Inverter and Scale Changer
• 14. Inverting summer
• 15. Non-Inverting summer
• 16. Differential Amplifier:
• 17. OPAMP-Integrator
• 18. Voltage to current converter
• 19. OPAMP-Differentiator
• 20. Grounded Load
• 21. Current to voltage converter:
• 22. First Order Low Pass Filter:
• 23. Low pass filter with adjustable corner frequency
• 24. Second Order Low-Pass Butterworth filter
• 25. First Order High Pass Butterworth filter
• 26. Precision Diodes
• 27. Active Clippers
• 28. Active Half Wave Rectifier
• 29. Axis Shifting of the Half Wave Rectifier
• 30. OPAMP-Comparators
• 31. Schmitt Trigger
• 32. Non-inverting Schmitt trigger
• 33. Relaxation Oscillator
• 34. Triangular Wave Generator
• 35. Bridge Amplifier
• 36. AC Voltage Follower
• 37. DC Voltage Follower
• 38. Logarithmic amplifiers
• 39. Logarithmic amplifiers
• 40. Antilog Amplifier
• 41. Differential Amplifiers
• 42. Differential Amplifiers-D.C. Analysis.
• 43. Dual Input, Balanced Output Difference Amplifier.
• 44. A.C. Analysis-Differential Amplifier
• 45. Differential Input and output Resistance
• 46. Inverting & Non - inverting Inputs
• 47. Common mode Gain
• 48. Dual Input, Unbalanced Output Differential Amplifier
• 49. Differential amplifier with swamping resistors
• 50. Biasing of Differential Amplifiers-Constant Current Bias
• 51. Current Mirror Circuit
• 52. Operational amplifier
• 53. Level Translator
• 54. Parameters of OPAMP
• 55. Parameters of OPAMP-Gain Bandwidth Product, Slew Rate and Input Offset Voltage and Current Drift: :
• 56. Ideal OPAMP and Equivalent Circuit of OPAMP
• 57. Ideal Voltage Transfer Curve
• 58. Emitter Coupled Differential Amplifier
• 59. Open loop-Differential Amplifier
• 60. Inverting Amplifier
• 61. Non-inverting amplifier
• 62. Closed Loop Amplifier
• 63. Voltage series feedback
• 64. Input Resistance with Voltage series Feedback
• 65. Output Resistance with Voltage series Feedback
• 66. Output Offset Voltage
• 67. Voltage Follower
• 68. Voltage shunt Feedback
• 69. Input Resistance with Voltage Shunt Feedback
• 70. Output Resistance with Voltage Shunt Feedback
• 71. Bandwidth with Feedback
• 72. Non-linear Distortion Reduction
• 73. Introduction-Power Amplifiers
• 74. Amplifier Efficiency
• 75. Types of Coupling
• 76. Ranges of Frequency.
• 77. Two Load Lines
• 78. SERIES-FED CLASS A AMPLIFIER
• 79. Series-fed class A amplifier-AC operation
• 80. Series-fed class A amplifier-OUTPUT POWER
• 81. Series-fed class A amplifier-Efficiency and Maximum Efficiency
• 82. Emitter-Follower Power Amplifier
• 83. Transformer-coupled class A amplifier
• 84. Signal swing and output ac power-Transformer Coupled Power Amplifier
• 85. Efficiency and Maximum theoretical efficiency-Transformer Coupled Power Amplifier
• 86. Class B amplifier-Input (DC) Power and Output (AC) Power
• 87. Class B amplifier operation
• 88. Class B amplifier-Efficiency
• 89. Maximum Power Considerations
• 90. Class B amplifier circuits
• 91. Transformer-Coupled Push-Pull Circuits

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