Video lectures from IIT Professors - Electronics and Communications Engineering
1. Basic Electronics - Prof. Chitralekha Mahanta
2. Solid State Devices - Prof. S. Karmalkar
3. Digital Circuits and Systems - Prof. S. Srinivasan
4. Communication Engineering - Prof. Surendra Prasad
5. Digital Signal Processing - Prof. S.C. Dutta Roy
6. VLSI Circuits - Prof. S. Srinivasan
7. Transmission Lines and EM Waves - Prof. R.K. Shevgaonkar
8. Broadband Networks: Concepts and Technology - Prof. Abhay Karandikar
9. High Speed Devices and Circuits - Prof. K.N. Bhat
10. Probability and Random Processes - Prof. Mrityunjoy Chakraborty
11. Digital Image Processing - Prof. P.K. Biswas
12. Adaptive Signal Processing - Prof. Mrityunjoy Chakraborty
13. Digital Voice & Picture Communication - Prof. Sabyasachi Sengupta
14. Wireless Communication - Prof. Ranjan Bose
15. MEMS and Microsystems - Prof. Santiram Kal
16. Digital Communication - Prof. Bikash Kumar Dey
17. Electronics for Analog Signal Processing - I - Prof. K. Radhakrishna Rao
18. Electronics for Analog Signal Processing - II - Prof. K. Radhakrishna Rao
19. Digital Systems Design - Prof. D. Roychoudhury
20. VLSI Technology - Dr. Nandita Dasgupta
21. Neural Networks and Applications - Prof. Somnath Sengupta
22. Digital Computer Organization - Prof. P.K. Biswas
2. Solid State Devices - Prof. S. Karmalkar
3. Digital Circuits and Systems - Prof. S. Srinivasan
4. Communication Engineering - Prof. Surendra Prasad
5. Digital Signal Processing - Prof. S.C. Dutta Roy
6. VLSI Circuits - Prof. S. Srinivasan
7. Transmission Lines and EM Waves - Prof. R.K. Shevgaonkar
8. Broadband Networks: Concepts and Technology - Prof. Abhay Karandikar
9. High Speed Devices and Circuits - Prof. K.N. Bhat
10. Probability and Random Processes - Prof. Mrityunjoy Chakraborty
11. Digital Image Processing - Prof. P.K. Biswas
12. Adaptive Signal Processing - Prof. Mrityunjoy Chakraborty
13. Digital Voice & Picture Communication - Prof. Sabyasachi Sengupta
14. Wireless Communication - Prof. Ranjan Bose
15. MEMS and Microsystems - Prof. Santiram Kal
16. Digital Communication - Prof. Bikash Kumar Dey
17. Electronics for Analog Signal Processing - I - Prof. K. Radhakrishna Rao
18. Electronics for Analog Signal Processing - II - Prof. K. Radhakrishna Rao
19. Digital Systems Design - Prof. D. Roychoudhury
20. VLSI Technology - Dr. Nandita Dasgupta
21. Neural Networks and Applications - Prof. Somnath Sengupta
22. Digital Computer Organization - Prof. P.K. Biswas
24. Adv. Digital Signal Processing - Multirate and wavelets - Prof. V.M. Gadre
25. Advanced Optical Communication - Prof. R.K. Shevgaonkar
VIDEO LECTURES
1. VLSI Devices : Modeling & Simulation
2. Digital Image Processing
3. CMOS Analog & Mixed Signal Design
4. Materials for Electronics
5. Electronic Devices
6. Digital Communications
7. CMOS Mixed Signal VLSI Design
8. Operating Systems
9. Optoelectronic Materials & Devices
10. Analog IC Design
11. Mixed Signal Electronics & Mixed Signal Circuit Design
12. PLA Minimization and Testing
13. High Performance Computer Architecture
14. Introduction to Electronic circuits
15. Basic Electronics
16. VLSI Broadband Communications
17. VLSI Data Conversion Circuits
18. Analog VLSI Design & CAD
19. Embedded Signal Processing (Real Time)
20. VLSI Technology
21. Active Filter Design
22. Oversampling of ADCs (International Conference)
23. Digital Hardware Design
24. Microprocessors & Microcontrollers
25. Digital Electronic Circuits
26. Analog Integrated Circuits
27. Analog Integrated Circuit Design
28. MATLAB and Computational Methods for Engineers & Scientists
29. First Course on VLSI Design & CAD
30. Analog Circuits
31. RF Integrated Circuit Design
32. Testing & Verification of ICs
33. VLSI Device Modeling
34. UCANDO series
35. Electronics
36. Signals & Systems
37. Low Power VLSI Circuits & Systems
38. Engineering Electromagnetics
39. Database Management Systems (DBMS)
40. Bioelectrical Signal Processing in Cardiac and Neurological Applications
41. Bioelectromagnetism
42. Computational Modelling of Cardiovascular System
43. Transcranial Magnetic Stimulation
44. Biomechanical Modelling of Bone and Cartilage
45. Biomedical Optics
46. Introduction to Biomedical Signal Analysis
47. Biomedical Signal Analysis
48. Bioelectrical Signal Processing in Cardiac and Neurological Applications
49. Biomedical Image Analysis
50. Classical Field Theory
51. Semiconductor Device Modeling
2. Analog Electronics
3. Principles of VLSI Design
4. Analog IC Design
5. Electronics : Basics to Advanced
6. Solid State Circuits
7. Integrated Microelectronic Devices
8. Mixed Signal Electronics and Mixed Signal Circuit Design
9. Mixed Signal VLSI Design (workshop by IIT)
10. Introduction to Electrical & Electronic Circuits
11. Power Electronics
12. Introduction to VLSI Design
13. CAD for VLSI Design – I
14. CAD for VLSI Design – II
15. Digital Circuit Design
16. Control Engineering using MATLAB
17. CAD based Logic Design
18. Digital Systems
19. Mobile Computing
20. Digital Image Processing
21. Microelectronics : An Integrated Approach
22. Speech Signal Processing
23. Complex Digital Systems
24. Theory of Parallel Hardware
25. Digital Electronics - I
26. Digital Electronics - II
27. Digital System Design
28. Advanced Digital System Design
29. Real-Time Digital Signal Processing with TMS320C6000
30. Advanced Digital System Design with FPGAs
31. Modeling and Synthesis of digital systems using Verilog
32. Advanced Digital Logic Design
33. Digital Electronics - II (Revised)
34. VLSI Design Verification & Test
35. MCQs, FAQs and Problems with Solutions on "Elelctronics"
36. Integrated Filter Design
37. VLSI Design Techniques for Analog and Digital Circuits
38. Introduction to Integrated Circuit Design
39. Assignments with Solutions on Introduction to Integrated Circuit Design
40. Digital System Design
41. Digital Logic
42. Computer Organization
43. Mechatronics
44. Pulse width Modulation for Power Electronic Converters
45. Analog and Digital Electronics : Basics to Advanced
46. Basic Electronics
47. Mixed signal Integrated Circuit Design
48. Mixed Signal Integrated Circuit Design (Assignments & Solutions)
49. Analog Integrated Circuit Design
50. Electronic Circuits
51. Electronic Circuits(Assignments & Solutions)
52. Radio Frequency Filter Design
53. Radio Frequency Filter Design (Assignments & Solutions)
1. VLSI Devices : Modeling & Simulation
2. Digital Image Processing
3. CMOS Analog & Mixed Signal Design
4. Materials for Electronics
5. Electronic Devices
6. Digital Communications
7. CMOS Mixed Signal VLSI Design
8. Operating Systems
9. Optoelectronic Materials & Devices
10. Analog IC Design
11. Mixed Signal Electronics & Mixed Signal Circuit Design
12. PLA Minimization and Testing
13. High Performance Computer Architecture
14. Introduction to Electronic circuits
15. Basic Electronics
16. VLSI Broadband Communications
17. VLSI Data Conversion Circuits
18. Analog VLSI Design & CAD
19. Embedded Signal Processing (Real Time)
20. VLSI Technology
21. Active Filter Design
22. Oversampling of ADCs (International Conference)
23. Digital Hardware Design
24. Microprocessors & Microcontrollers
25. Digital Electronic Circuits
26. Analog Integrated Circuits
27. Analog Integrated Circuit Design
28. MATLAB and Computational Methods for Engineers & Scientists
29. First Course on VLSI Design & CAD
30. Analog Circuits
31. RF Integrated Circuit Design
32. Testing & Verification of ICs
33. VLSI Device Modeling
34. UCANDO series
35. Electronics
36. Signals & Systems
37. Low Power VLSI Circuits & Systems
38. Engineering Electromagnetics
39. Database Management Systems (DBMS)
40. Bioelectrical Signal Processing in Cardiac and Neurological Applications
41. Bioelectromagnetism
42. Computational Modelling of Cardiovascular System
43. Transcranial Magnetic Stimulation
44. Biomechanical Modelling of Bone and Cartilage
45. Biomedical Optics
46. Introduction to Biomedical Signal Analysis
47. Biomedical Signal Analysis
48. Bioelectrical Signal Processing in Cardiac and Neurological Applications
49. Biomedical Image Analysis
50. Classical Field Theory
51. Semiconductor Device Modeling
Lecture Notes or PPTs or Lecture Material on Microelectronic Devices and Circuits " from MIT
- Microelectronic Devices and Circuits
Lecture
|
Table of Contents
| |
overview
| ||
intro to semiconductors: electrons and holes, donors and acceptors
| ||
carrier transport: drift and diffusion
| ||
electrostatics in semiconductors; the "60 mV rule"
| ||
p-n junction electrostatics in thermal equilibrium
| ||
Introduction to MOS, MOS Capacitor
| ||
MOS capacitor under bias
| ||
MOSFET: I-V Characteristics
| ||
MOSFET: backgate and saturation
| ||
MOSFET: small signal model
| ||
Digital Logic Concepts
| ||
NMOS/Current Source Load
| ||
CMOS inverter: propagation delay
| ||
p-n junction diode I-V characteristics
| ||
p-n junction: short base approximation
| ||
p-n junction: static model
| ||
Intro to BJT
| ||
BJT electrostatics
| ||
single-stage amplifiers: common source/emitter
| ||
single-stage amplifiers: common base/gate and common collector/drain
| ||
frequency domain analysis
| ||
voltage gain frequency response, Miller approx
| ||
Open Circuit Time Constants: CG and CD
| ||
Multistage amplifiers
| ||
DC coupling, voltage/current sources and current sinks
| ||
analyzing complex circuits, Wrap-up
|
2. Analog Electronics
3. Principles of VLSI Design
4. Analog IC Design
5. Electronics : Basics to Advanced
6. Solid State Circuits
7. Integrated Microelectronic Devices
8. Mixed Signal Electronics and Mixed Signal Circuit Design
9. Mixed Signal VLSI Design (workshop by IIT)
10. Introduction to Electrical & Electronic Circuits
11. Power Electronics
12. Introduction to VLSI Design
13. CAD for VLSI Design – I
14. CAD for VLSI Design – II
15. Digital Circuit Design
16. Control Engineering using MATLAB
17. CAD based Logic Design
18. Digital Systems
19. Mobile Computing
20. Digital Image Processing
21. Microelectronics : An Integrated Approach
22. Speech Signal Processing
23. Complex Digital Systems
24. Theory of Parallel Hardware
25. Digital Electronics - I
26. Digital Electronics - II
27. Digital System Design
28. Advanced Digital System Design
29. Real-Time Digital Signal Processing with TMS320C6000
30. Advanced Digital System Design with FPGAs
31. Modeling and Synthesis of digital systems using Verilog
32. Advanced Digital Logic Design
33. Digital Electronics - II (Revised)
34. VLSI Design Verification & Test
35. MCQs, FAQs and Problems with Solutions on "Elelctronics"
36. Integrated Filter Design
37. VLSI Design Techniques for Analog and Digital Circuits
38. Introduction to Integrated Circuit Design
39. Assignments with Solutions on Introduction to Integrated Circuit Design
40. Digital System Design
41. Digital Logic
42. Computer Organization
43. Mechatronics
44. Pulse width Modulation for Power Electronic Converters
45. Analog and Digital Electronics : Basics to Advanced
46. Basic Electronics
47. Mixed signal Integrated Circuit Design
48. Mixed Signal Integrated Circuit Design (Assignments & Solutions)
49. Analog Integrated Circuit Design
50. Electronic Circuits
51. Electronic Circuits(Assignments & Solutions)
52. Radio Frequency Filter Design
53. Radio Frequency Filter Design (Assignments & Solutions)
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