Introduction
Online
₹ 3,499
Quick facts
particular | details | |
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Medium of instructions
English
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Mode of learning
Self study
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Mode of Delivery
Video and Text Based
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Course overview
An analog circuit combines an analog signal with a signal that is constantly changing. An analog circuit transforms an analog signal in some sense while working on it. The original signal can be converted into another form, such as a digital signal, using an analog circuit. J P - A Survivor & Instructor created the Analog Circuits With LT Spice - Complete Course (33+ Hours) online certification offered through Udemy.
Analog Circuits With LT Spice - Complete Course (33+ Hours) online training has been designed for those with a background in telecommunications and electronics engineering who want to learn about the functions of analog circuits. Analog Circuits With LT Spice - Complete Course (33+ Hours) online classes includes more than 33.5 hours of extensive learning resources which involves a range of concepts and tools used in the study of analog circuits including transistors, diodes, opamps, MOSFETs, capacitance, semiconductors, frequency response, oscillators, filters, differential amplifiers, voltage multipliers and more.
The highlights
- Certificate of completion
- Self-paced course
- 33.5 hours of pre-recorded video content
- Learning resources
Program offerings
- Online course
- Learning resources. 30-day money-back guarantee
- Unlimited access
- Accessible on mobile devices and tv
Course and certificate fees
Fees information
certificate availability
certificate providing authority
What you will learn
After completing the Analog Circuits With LT Spice - Complete Course (33+ Hours) certification, individuals will acquire a foundational understanding of the functionalities associated with analog circuits as well as a comprehensive comprehension of the principles related to analog electronics using LT spice. Individuals will evaluate the characteristics of diodes, transistors, MOSFETs, and Opamps, among other electrical components. Individuals will learn about the intrinsic and extrinsic features of semiconductors, as well as how to use voltage multipliers, oscillators, filters, and differential amplifiers. Individuals will also learn about capacitance, JFETs, frequency response, and current mirror circuits, among other topics.
Who it is for
The syllabus
Introduction
Diode Circuits
- Brief Intro of Semiconductors
- Intrinsic Semiconductor
- Extrinsic Semiconductor
- Unbiased Diode
- Diode Forward Bias
- Diode Reverse Bias
- Diode Equation
- Diode Characteristics and Equivalent Circuit
- Short Circuit test
- Open Circuit Test
- Few more Examples on Testing
- Clippers (1)
- Clippers (2)
- Series Clippers
- Output Following Input
- Attenuator
- Clamper
- Peak Detector
- Voltage Multiplier
- Voltage Multiplier (n Times)
- Rectifier (Intro)
- HWR (1)
- HWR (2)
- FWR
- BWR
- A Note about Tr
- Filters Intro and HWR with filter
- FWR with Capacitor Filter
- Another Imp Point
- Ripple Factor HWR and FWR
- Extra
- Inductor Filter
- LC-CLC Filter
- Voltage Regulator Intro
- Zener Diode
- Voltage Regulator Example
- More on Zener Diode
- Small Signal Model for Zener Diode
- Zener + Normal Diode
- Junction Capacitance
- Transition Capacitance
- Diffusion Capacitance
- Everything is Connected (Simulation)
Bipolar Junction Transistor
- Transistor Intro
- Transistor Regions
- Depletion Region Formation
- Current Components in Transistor
- Base Width Modulation
- Input Output Characteristics
- Common Base Input Characteristics
- Common Base Output Characteristics
- Transistor Biasing Intro
- Collector to Base Bias
- Fixed Bias
- Voltage Bias
- Transistor Biasing Examples
- Bias Compensation
Jfets
- Fet Characteristics
- Fet Biasing
- Fet Biasing Examples
- P Type Jfet
- P Type Jfet Example
- Linear Region
Mosfets
- Intro
- N Type E-Mosfet
- N Type D-Mosfet
- P Type E And P Type D Mosfets
- Plots
- Current Equations
- Few Note Points
- Example Nmos E Type
- Example Pmos E Type
- Pmos Another Example
- Another Way Of Looking At Pmos Characteristics
- Example On 1st Quadrant Characteristics Of Pmos
Frequency Response Bjts
- Frequency Response As General
- Bjt Amplifier
- Analysis Of Amplifier
- Simplified Or Approximate Model
- Ce Amplifier
- Ce With Re Amplifier
- Ce With Bypass Capacitor
- Miller Theorem
- Cb Amplifier
- Common Collector
- Why Ce Amplifier?
- Negative Feedback Amplifier
- Why Nfb Amplifier More Stable?
- Problems
- Procedure To Find Configuration Of Negative Feedback
- Parameter In Low Frequency Response
- An Example On Low Frequency Response
- High Frequency Response
- High Frequency Model
- All Models
- Calculating High Cut Off Frequency
- Example Fh
- Short Circuit Current Gain
- Common Base High Frequency
- Common Base Low Frequency
- Clarification
- Common Collector Low Cut Off Frequency
- Common Collector High Cut Off Frequency
- Simulation
Frequency Response Fets
- Small Signal Model For Fets
- Common Source
- Common Source With Source Resistance
- Common Source With Rs (Rin And Rout)
- Common Drain
- Common Gate
- Common Source Low Frequency
- Common Drain Low Frequency
- Common Gate Low Frequency
- Common Source High Frequency
- Common Drain High Frequency
- Common Gate High Frequency
- Mosfets Frequency Response
- Unity Gain Frequency For Mosfets/Jfets
- Common Source (Simulation)
- Miller Example
Op Amp
- Opamp Characteristics
- Inverting And Non-Inverting Amplifier
- Summing And Subtracting Amplifier
- Voltage Limiter
- Differentiator Integrator
- V2i And I2v Converter
- Lograthmic Amplifier
- Instrumentation Amplifier
- Opamp Probs
- Opamp Probs (2)
- Half Wave Precision Rectifier (Simulation)
- Full Wave Precision Rectifier (Simulation)
Differential Amplifiers
- Differential Pairs Intro
- Differential Signals
- Why Rejecting Vcm?
- Differential Pairs
- Dc Analysis
- Various Configurations
- Recap
- Differential Gain
- Common Mode Gain
- Summary Dual Input
- Summary Single Input
- Input Resistance (Common Mode)
- Input Resistance (Differential Mode)
- Output Resistance
- Cmrr
- Mos Differential Pair
- Ri, Ro, Cmrr Of Mos Pair
- Mos Dc Analysis
- Various Other Configurations
- 741 Datasheet
- Differential Amplifier (Simulation)
- Differential Amplifier Simulation (Single Input)
Current Mirror Circuit (Bjt)
- Intro (Current Mirror)
- Current Mirror Analysis
- Example On Current Mirror
- Repeater Circuit
- Base Compensated Current Mirror
- Emitter Degenerated Current Mirror
- Cascode Current Mirror
- Basic Current Mirror (Rout)
- Base Compensated (Rout)
- Emitter Degenerated (Rout)
- Wildar Motivation
- Wildar Current Mirror
- Wildar Example
- Widlar (Rout)
- Wilson Current Mirror
- Wilson And Cascode Current Mirror (Rout)
- Comparison
- Basic Current Mirror (Simulation)
- Base Compensated (Simulation)
- Emitter Degenerated (Simulation)
- Widlar (Simulation)
- Wilson (Simulation)
- Cascode Current Mirror (Simulation)
Mos Current Mirror
- Basic Current Mirror With Simulation
- Wilson
- Cascode
Oscillators
- Monostable Multivibrator
- Astable Multivibrator
- Astable Multivibrator Example
- Schmitt Trigger (Inverting)
- Schmitt Trigger (Non Inverting)
- Sinusoidal Oscillators
- Rc Phase Shift
- Wein Bridge Oscillator
- Lc Oscillator
Ic 555 Timer
- Monostable With 555 Ic
- Astable With 555 Ic
Active Filters
- Low Pass Filter
- High Pass Filter
- Band Pass Filter
- Band Stop Filter
- All Pass Filter
- Problems
Lt Spice Tutorials (Optional)
- Lt Spice Xvii Installation (Free)
- About The Bars
- Operating Point And Transient Analysis
- Ac Analysis, Dc Sweep And Cursors
Last Section
Thank You Note!
Instructors
Mr J P
instructor
Airports Authority o...
Diploma, B.E /B.Tech, M.E /M.Tech.