Analog Electronics
Semiconductor Diode
Diode Circuits
Transistor At Low Frequencies
Transistor Biasing
Transistor At High Frequencies
Field Effect Transistors
Regulated Power Supplies
- Ideal diode
- Semiconductor materials- Resistivity.
- Semiconductor materials Ge and Si
- Energy levels
- Extrinsic materials n-Type
- Extrinsic materials p-Type
- Electron versus Hole Flow
- Majority and Minority Carriers
- Semiconductor diode
- P-N junction with no external bias
- P-N junction with Reverse-Bias Condition
- P-N junction with Forward-Bias Condition
- Silicon semiconductor diode characteristics
- Zener Region
- General characteristics of a semiconductor diode
- Temperature Effects Silicon Doide
- DC or Static Resistance
- AC or Dynamic Resistance
- Average AC Resistance
- Diode equivalent circuits-Piecewise-Linear Equivalent Circuit
- Simplified equivalent circuit for the silicon semiconductor diode
- Transition and diffusion capacitance
- Reverse recovery time
- Light-emitting diodes
- Load-line analysis
- Diode approximations
- Series diode configurations with dc inputs
- Half-wave rectifier
- Effect of VT on half-wave rectified signal
- Peak Inverse Voltage PIV (PRV).
- Full-wave rectification-Bridge Network
- Peak Inverse Voltage PIV-Bridge Network
- Center-Tapped Transformer
- Center-Tapped Transformer-PIV
- Series-Clippers
- Parallel-biased clipper
- Clampers
- Zener diodes
- Zener diodes- Fixed Vi, Variable RL
- Zener diodes- Fixed RL, Variable Vi
- Halfwave-Voltage Doubler
- Full-wave-Voltage Doubler
- Voltage Tripler and Quadrupler
- Biploar transistor
- Biploar transistor-Junction Baising
- Relation between different currents in a transistor
- BJT-Common Base Configuration
- BJT-Common Base Configuration-Output Characteristics
- BJT-Common Base Configuration- Input Characteristic
- Equivalent circuit of a transistor: (Common Base)
- Common Base Amplifier
- Common Base Amplifier-AC equivalent circuit
- BJT-Common Emitter Configuration
- BJT- Common Emitter Configuration- Input Characteristic
- BJT-Common Emitter Configuration-Output Characteristic:
- Common Emitter Configuration-Large Signal Current Gain
- Small Signal CE Amplifiers
- Analysis of CE amplifier
- CE amplifier-Phase Inversion
- Common Collector Amplifier-Voltage gain
- Swamped Amplifier
- Common Collector Amplifier
- Analysis of CE amplifier- Voltage gain
- Analysis of CE amplifier-AC Load line::
- Darlington Amplifier
- Bandwidth of an amplifier
- Frequency curve of an RC coupled amplifier
- h-Parameters
- Hybrid model for a transistor amplifier
- h parameters determination-CE
- Analysis of a transistor amplifier using h-parameters
- Analysis of a multistage amplifier using h-parameters
- Simplified common emitter hybrid model
- CE amplifier with an emitter resistor
- Miller's theorem
- Introduction to Transistor Biasing
- Proper zero signal collector current
- Proper minimum base-emitter voltage
- Proper minimum VCE at any instant
- Operating point
- Stabilization.
- Stability Factor
- Transistor Biasing-Base Resistor Method
- Transistor Biasing- Emitter Bias Circuit
- Emitter Bias Circuit-Collector current (IC).
- Emitter Bias Circuit-Collector-emitter voltage (VCE).
- Emitter Bias Circuit-Stability
- Biasing with Collector Feedback Resistor
- Voltage Divider Bias Method.
- Voltage Divider Bias Method-Circuit analysis
- Voltage Divider Bias Method- Stabilisation and Stability factor
- Stability Factor for Potential Divider Bias
- Design of Transistor Biasing Circuits
- Mid-Point Biasing
- Silicon Versus Germanium
- Instantaneous Current and Voltage Waveforms
- Bias compensation methods- Diode compensation for VBE
- Bias compensation methods- Diode compensation for ICO .
- Introduction to Field Effect Transistor
- Operation of FET
- JFET-Transductance Curves
- FET Biasing-Gate Bias:
- FET Biasing-Self Bias:
- FET Biasing-Voltage Divider Bias
- FET Biasing-Current Source Bias
- FET Biasing-Current Source Bias- Using One power supply::
- FET-Transconductance
- FET-Common source amplifier
- FET circuit technology
- FET types
- FET configuration basics
- JUNCTION FET (JFET)
- JFETS-Physical Operation
- N-Channel JFET i -v Characteristics
- The p-Channel JFET
- The JFET Small-Signal Model
- Basic structure n-Channel Depletion-type MOSFET
- E-MOSFET
- E-MOSFET Operation
- Characteristics of an EMOSFET
- DEMOSFET
- Characteristics of DEMOSFET
- Operation of DEMOSFET
- VMOS
- CMOS
- FET as a Voltage Variable Resistor-(VVR)
- Zener Voltage Regulator
- Emitter Follower Regulator
- Series Voltage Regulator Design
- Series regulator with Current Pre-regulator
- Power Supply Using IC Regulator (Three-Terminal Regulator)
- Series Voltage Regulator
- Capacitor based and Inductor based switch mode regulation
- Buck converter or regulator
- Switch Mode Power Supply
- Switch Mode Regulator