Electronic Devices & Ckt. [Videos, Notes, Tests]

This Electronics Devices and Circuits (EDC) / Solid State Devices course is specially designed for students who want to clear basic to advanced fundamentals of Electronics. It is also helpful for working professionals. It forms the foundation to enter into the fields like Embedded Systems, VLSI, Instrumentations, etc. This course covers almost all universities' syllabus. This Electronics Devices and Circuits (EDC) / Solid State Devices is a unique course in the online marketplace.

Prof. Hitesh Dholakiya is an Electronics Devices and Circuits (EDC) / Solid State Devices with over 15 years of experience in the core Electronics/Electrical domain as well as in the Antenna/RF/Communication field. With a passion for teaching and a wealth of industry knowledge, Prof. Hitesh Dholakiya is dedicated to helping students achieve their academic and professional goals in the Electronics Devices and Circuits (EDC) / Solid State Devices domain.

This course on Electronics Devices and Circuits (EDC) / Solid State Devices applies to many branches of Degree/Diploma/Science. After completing this course on Electronics Devices and Circuits (EDC) / Solid State Devices students will be able to understand basic to advanced-level concepts of electronic devices and various electronic circuits which will be a stepping stone for starting many lucrative career fields.

 

This Electronics Devices and Circuits (EDC) / Solid State Devices course covers the following topics.

 

1. Energy Bands and Semiconductors

2. PN Junction

3. Special Diodes in Electronics

4. BJT

5. BJT AC Analysis

6. MOSCAP

7. MOSFET

8. Electronics Experiments

 

So, go through this entire Electronics Devices and Circuits (EDC) / Solid State Devices course step by step and I am pretty sure that you will get thorough knowledge about this course. Detailed Syllabus of Electronics Devices and Circuits (EDC) / Solid State Devices course is as follows:

 

1. Energy Bands and Semiconductors:

Energy Bands and Classification of Solid Materials, Types of Semiconductor Materials, Drift Current and Diffusion Current, Mass Action Law, Examples of Semiconductor Materials, Examples of Drift Current and Diffusion Current, Examples of Conductivity and Resistivity, Einstein Relation in Semiconductor, Examples of Einstein Relation in Semiconductor, Fermi Dirac Distribution in Semiconductor, Electron Concentration in Conduction band and Holes Concentration in Valance Band, Intrinsic Concentration in Semiconductor, Drift Velocity and Free Velocity, Fermi Energy Level in Intrinsic Semiconductor, Fermi Energy Level in Extrinsic Semiconductor, Hall Effect in Semiconductor, Examples of Hall Effect in Semiconductor, Energy & Wavelength for Generation and Recombination, Examples of Energy & Wavelength for Generation and Recombination, Generation and recombination due to uniform illumination, Examples of Generation and recombination, Energy Band Diagram, Examples of Energy Band Diagram, Continuity Equation, Direct Bandgap and Indirect Bandgap Semiconductor.

2. PN Junction:

PN Junction in Equilibrium, Energy Band Diagram of PN Junction, Cut in Voltage of PN Junction, Electric Field of PN Junction, Depletion Width of PN Junction, Examples of PN Junction, PN Junction under forward bias, PN Junction under reverse bias, Ideal Diode & Practical Diode, Diode Ratings, Diode Testing and Diode Quality Verification, Effect of Temperature in PN Junction, Examples of Diode Circuits, PN Junction Capacitance, Examples of PN Junction Capacitance, PN Junction Switching Characteristics.

3. Special Diodes:

LED - Light Emitting Diode, Examples of LED, Varactor Diode, Tunnel Diode, Examples of Tunnel Diode, Photo Diode, Solar Cell, Examples of Solar Cell.

4. BJT:

BJT Parameters under Equilibrium, BJT Operation Regions, BJT Applications & BJT Base Width, BJT in Active Region, BJT Carrier Distributions in Different Modes, Ebers Moll Model of BJT, Early Effect, Common Base Configuration of BJT, Common Emitter Configuration of BJT, Punch Through in BJT, Examples of BJT.

5. BJT AC Analysis:

Coupling Capacitor with Transistor, AC Analysis of BJT, AC Load Line of BJT, Hybrid Parameters of BJT, re Model of BJT, Hybrid Pi Model of BJT, Common Emitter Amplifier using BJT, Examples of BJT, Darlington Pair of BJT.

6. MOSCAP:

MOSCAP, MOS Capacitor, Ideal MOSCAP, Flat Band Voltage in MOSCAP, MOSCAP under External Bias, MOSCAP under Accumulation Mode, MOSCAP under Depletion Mode, MOSCAP under Inversion Mode, Threshold Voltage of MOSCAP, Inversion Charge of MOSCAP, CV Characteristics of MOSCAP, Examples of MOSCAP.

7. MOSFET:

MOSFET, IV Characteristics of MOSFET, Channel Length Modulation of MOSFET, Small Signal Model of MOSFET, Transconductance and Drain Resistance of MOSFET, Body Effect in MOSFET, Examples of MOSFET, Examples of IC Technology.

8. Electronics Experiments:

Use of Function Generator in MULTISIM, VI Characteristics of PN Junction Diode in MULTISIM, Zener Diode Characteristics in MULTISIM, Half wave Rectifier in MULTISIM, Full wave Rectifier in MULTISIM, Bridge Rectifier in MULTISIM, Logic GATEs in MULTISIM, Clipper Circuits in MULTISIM, Common Emitter Characteristics of BJT in MULTISIM, Frequency Response of Common Emitter Amplifier in MULTISIM, FET Characteristics in MULTISIM

Enroll now and take the first step toward mastering Electronics Devices and Circuits (EDC) / Solid State Devices core concepts! Join Our Community of students who have transformed their careers with our expert-led course on Electronics Devices and Circuits (EDC) / Solid State Devices! 

See you in the Electronics Devices and Circuits (EDC) / Solid State Devices course! You're going to love it!

All the best...