Fundamental Of Basic Electronics @ 45 Days

Basic Electronics Engineering Bachelor of Engineering(BE) videos According to syllabus of Institute of Engineering(IoE), Tribhuvan University (TU)

Advanced 5 (3 Reviews ) 359 Students enrolled
Last updated Wed, 09-Oct-2024 Nepali
What will I learn?

Curriculum for this course
207 Lessons 16h 55m
1. Introduction to Course
1 Lessons
  • 1. Marking Schemes.mp4 00:01:36
  • 1. Active and Passive components.mp4 00:07:42
  • 2. Kirchhoff's Law.mp4 00:01:50
  • 3. Signal Sources.mp4 00:02:45
  • 4. Controlled Source.mp4 00:04:15
  • 5. Superposition Theorem.mp4 00:09:44
  • 6. Superposition Theorem Example 2.mp4 00:11:33
  • 7. Superposition Example 3.mp4 00:06:52
  • 8. Thevenin's theorem.mp4 00:08:14
  • 9. Thevenin's example 2.mp4 00:05:56
  • 10. Thevenin's Example 3.mp4 00:06:46
  • 11. Norton's Theorem.mp4 00:07:07
  • 12. Norton Example2.mp4 00:07:04
  • 13. Filter.mp4 00:03:52
  • 14. Low Pass Filter.mp4 00:05:02
  • 15. RC High pass Filter.mp4 00:03:15
  • 16. Gain Transconductance and Transimpedance.mp4 00:04:20
  • 1. Diode.mp4 00:04:09
  • 2. Diode biasing.mp4 00:05:33
  • 3. IV characterstics of diode.mp4 00:04:53
  • 4. load line concept.mp4 00:05:43
  • 5. Small Signal Model.mp4 00:07:06
  • 6. large Signal Model.mp4 00:02:38
  • 7. Clamper Circuit.mp4 00:08:28
  • 8. Clamper example 2.mp4 00:07:28
  • 9. clippers example 1.mp4 00:07:53
  • 10. clipper example 2.mp4 00:07:09
  • 11. Clipper Example 3.mp4 00:04:01
  • 12. Zener diode.mp4 00:03:50
  • 13. zener diode numerical 1.mp4 00:11:20
  • 14. zener diode example 2.mp4 00:06:00
  • 15. Half Wave Rectifier.mp4 00:04:11
  • 16. Full Wave Rectifier(Central Tapped).mp4 00:03:55
  • 17. Full-Wave Bridge Rectifier.mp4 00:05:06
  • 18. LED and varactor diode.mp4 00:02:33
  • 19. Photo diode and tunnel diode.mp4 00:04:19
  • 20. Piecewise linear model.mp4 00:02:14
  • 1. BJT.mp4 00:02:23
  • 2. working of bjt.mp4 00:02:56
  • 3. fixed bias configuration.mp4 00:04:31
  • 4. Emitter bias configuration.mp4 00:05:53
  • 5.Emitter bias numerical1.mp4 00:07:31
  • 6. Collector feedback biasing.mp4 00:05:23
  • 7. Collector feedback numerical.mp4 00:05:58
  • 8. voltage divider bias numerical.mp4 00:10:12
  • 9. voltage divider numerical.mp4 00:07:58
  • 10. Common base configuration.mp4 00:10:46
  • 11. Common emitter configuration.mp4 00:08:40
  • 12. Common collector configuration.mp4 00:02:22
  • 13. Loadline in BJT.mp4 00:09:11
  • 14. Transistor Modeling.mp4 00:04:07
  • 15. Small signal analysis( Hybrid pi model).mp4 00:05:36
  • 16. T-model.mp4 00:04:05
  • 17. Differential amplifier.mp4 00:03:48
  • 18. BJT as not gate.mp4 00:02:05
  • 19. BJT as NAND.mp4 00:03:26
  • 20. BNJT as NOR.mp4 00:03:08
  • 21. Enhancement MOSFET.mp4 00:07:22
  • 22. Depletion type MOSFET.mp4 00:05:45
  • 23. NMOS and PMOS.mp4 00:11:19
  • 24. CMOS.mp4 00:04:27
  • 25. CMOS as NAND and NOR.mp4 00:09:58
  • 26. operating point numerical.mp4 00:06:25
  • 1. Introduction.mp4 00:02:50
  • 2. Properties of ideal op amp.mp4 00:02:20
  • 3. Virtual Ground.mp4 00:02:39
  • 4. Inverting amplifier.mp4 00:04:41
  • 5. Non inverting amplifier.mp4 00:05:09
  • 6. Adder.mp4 00:04:10
  • 7. Integrator.mp4 00:05:29
  • 8. Differentiator.mp4 00:03:35
  • 9. Numerical example.mp4 00:04:12
  • 10. Positive and negative feedback.mp4 00:04:40
  • 11. Barkhausen Criteria.mp4 00:07:26
  • 12. Square wave generator(Part 1).mp4 00:09:27
  • 13.. Square wave generator (part 2).mp4 00:04:43
  • 14.Triangular wave generator.mp4 00:11:55
  • 15. Wein Bridge Oscillator.mp4 00:13:07
  • 16. Concept of stability.mp4 00:02:09
  • 1. Introduction.mp4 00:03:14
  • 2. Block diagram of communication System.mp4 00:03:57
  • 3. Em wave and propagation.mp4 00:04:18
  • 4. Antenna.mp4 00:05:12
  • 5. Modulation.mp4 00:03:56
  • 6. Broadcasting and communication.mp4 00:02:47
  • 7. internet vs Intranet.mp4 00:02:15
  • 8. Optical fibre.mp4 00:03:33
  • 1. Number System.mp4 00:09:20
  • 2. Binary to other number system.mp4 00:08:28
  • 3. Octal to other number system.mp4 00:06:35
  • 4. Hexadecimal to other number system.mp4 00:06:08
  • 5. Basic Gate.mp4 00:03:16
  • 6. Universal Gates.mp4 00:02:39
  • 7. Ex-OR and Ex-NOR gate.mp4 00:03:18
  • 8. NAND as universal gate.mp4 00:04:30
  • 9. NOR as universal gate.mp4 00:03:14
  • 10. Multiplexer.mp4 00:10:04
  • 11. Demultiplexer.mp4 00:09:01
  • 12. Encoder.mp4 00:04:13
  • 13. Decoder.mp4 00:07:00
  • 14. Combinational circuit.mp4 00:05:51
  • 15. Minterms and maxterms.mp4 00:00:00
  • 16. K-MAP theory.mp4 00:09:21
  • 17. K-MAP Example 1.mp4 00:11:44
  • 18. K-MAP Example 2.mp4 00:19:12
  • 19. K-MAP Example 3.mp4 00:08:10
  • 20. SR flipflop.mp4 00:11:02
  • 21. D flipflop.mp4 00:04:22
  • 22. jk flipflop.mp4 00:07:57
  • 23. master-slave jk.mp4 00:03:20
  • 24. T Flipflop.mp4 00:04:22
  • 25. Register.mp4 00:03:19
  • 26. SISO register.mp4 00:08:24
  • 27. SIPO register.mp4 00:07:09
  • 28.PISO register.mp4 00:10:29
  • 29. PIPO register.mp4 00:03:12
  • 30. Counter.mp4 00:06:43
  • 1. Instrumentation system.mp4 00:04:41
  • 2.Transducer.mp4 00:02:08
  • 3.1 Strain gauge.mp4 00:03:07
  • 3.2. Data logger.mp4 00:03:21
  • 3.3 DMM.mp4 00:02:49
  • 4. Oscilloscope.mp4 00:03:43
  • 5. Regulated power supply.mp4 00:02:52
  • 6. Remote Control.mp4 00:04:31
  • 7. character display.mp4 00:04:17
  • 8. Clock counter measurement.mp4 00:04:44
  • 9. Audio video system.mp4 00:03:33
  • 2073 Bhadra|Q. 1.mp4 00:04:13
  • 2073 Bhadra|Q. 2.mp4 00:11:31
  • 2073 Bhadra|Q. 3.mp4 00:04:07
  • 2073 Bhadra|Q. 4.mp4 00:04:08
  • 2073 Bhadra|Q. 5.mp4 00:11:49
  • 2073 Bhadra|Q. 6.mp4 00:01:59
  • 2073 Bhadra|Q. 7.mp4 00:00:38
  • 2073 Bhadra|Q. 8.mp4 00:03:37
  • 2073 Bhadra|Q. 9.mp4 00:00:48
  • 2073 Bhadra|Q. 10.mp4 00:00:45
  • 2073 Bhadra|Q. 11.mp4 00:01:14
  • 2073 Bhadra|Q. 12.mp4 00:00:48
  • 2073 Bhadra|Q. 13.mp4 00:00:56
  • 2073 Bhadra|Q. 14.mp4 00:00:43
  • 2073 Bhadra|Q. 15.mp4 00:00:38
  • 2073 Bhadra|Q. 16.mp4 00:03:13
  • 2073 Magh|Q, 1.mp4 00:06:48
  • 2073 Magh|Q. 2.mp4 00:00:44
  • 2073 Magh|Q. 3.mp4 00:04:50
  • 2073 Magh|Q. 4.mp4 00:09:45
  • 2073 Magh|Q. 5.mp4 00:00:58
  • 2073 Magh|Q. 6.mp4 00:01:35
  • 2073 Magh|Q. 7.mp4 00:04:24
  • 2073 Magh|Q. 8.mp4 00:00:55
  • 2073 Magh|Q. 9.mp4 00:03:52
  • 2073 Magh|Q. 10.mp4 00:00:44
  • 2073 Magh|Q. 11.mp4 00:03:43
  • 2073 Magh|Q. 12.mp4 00:00:39
  • 2073 Magh|Q. 13.mp4 00:05:13
  • 2073 Magh|Q. 14.mp4 00:00:46
  • 2073 Magh|Q. 15.mp4 00:00:46
  • 2074 Bhadra|Q. 1.mp4 00:02:04
  • 2074 Bhadra|Q. 2.mp4 00:03:10
  • 2074 Bhadra|Q. 3.mp4 00:05:15
  • 2074 Bhadra|Q. 4.mp4 00:00:57
  • 2074 Bhadra|Q. 5.mp4 00:09:27
  • 2074 Bhadra|Q. 6.mp4 00:02:04
  • 2074 Bhadra|Q. 7.mp4 00:07:18
  • 2074 Bhadra|Q. 8.mp4 00:00:45
  • 2074 Bhadra|Q. 9.mp4 00:00:51
  • 2074 Bhadra|Q. 10.mp42074 Bhadra| 00:02:04
  • 2074 Bhadra|Q. 11.mp4 00:03:05
  • 2074 Bhadra|Q. 12.mp4 00:01:25
  • 2074 Bhadra|Q. 13.mp4 00:03:41
  • 2074 Bhadra|Q. 14.mp4 00:04:34
  • 2074 Bhadra|Q. 15.mp4 00:03:07
  • 2074 Bhadra|Q. 16.mp4 00:03:13
  • 2075 Baisakh|Q. 1.mp4 00:05:54
  • 2075 Baisakh|Q. 2.mp4 00:00:59
  • 2075 Baisakh|Q. 3.mp4 00:02:37
  • 2075 Baisakh|Q. 4.mp4 00:05:06
  • 2075 Baisakh|Q. 5.mp4 00:12:27
  • 2075 Baisakh|Q. 6.mp4 00:05:40
  • 2075 Baisakh|Q. 7.mp4 00:03:17
  • 2075 Baisakh|Q. 8.mp4 00:00:40
  • 2075 Baisakh|Q. 9.mp4 00:04:56
  • 2075 Baisakh|Q. 10.mp4 00:08:44
  • 2075 Baisakh|Q. 11.mp4 00:02:04
  • 2075 Baisakh|Q. 12.mp4 00:02:29
  • 2075 Baisakh|Q. 13.mp4 00:01:36
  • 2075 Baisakh|Q. 14.mp4 00:05:12
  • 2075 Baisakh|Q. 15.mp4 00:00:40
  • 2075 Baisakh|Q. 16.mp4 00:04:14
  • 2077 Chaitra|Q. 1.mp4 00:02:29
  • 2077 Chaitra|Q. 2.mp4 00:05:01
  • 2077 Chaitra|Q. 3.mp4 00:00:52
  • 2077 Chaitra|Q. 4.mp4 00:05:02
  • 2077 Chaitra|Q. 5.mp4 00:04:44
  • 2077 Chaitra|Q. 6.mp4 00:00:44
  • 2077 Chaitra|Q. 7.mp4 00:09:31
  • 2077 Chaitra|Q. 8.mp4 00:03:37
  • 2077 Chaitra|Q. 9.mp4 00:04:24
  • 2077 Chaitra|Q. 10.mp4 00:10:17
  • 2077 Chaitra|Q. 11.mp4 00:00:39
  • 2077 Chaitra|Q. 12.mp4 00:01:21
  • 2077 Chaitra|Q. 13.mp4 00:08:29
  • 2077 Chaitra|Q. 14.mp4 00:11:00
  • 2077 Chaitra|Q. 15.mp4 00:04:48
  • 2077 Chaitra|Q. 16.mp4 00:04:22
Requirements
  • Students are required to have knowledge of Electronics, based on syllabus of IoE
Description

The videos herein are strictly based on syllabus of Institute of Engineering Tribhuwan University, Nepal promoting "e-Learning in Nepal" and are made with intention to provide guidance to the "Bachelor in Engineering(BE) appearing students", for securing good results. The course tries to cover all the basics of Flip Flop (RS, JK, T, D), Fixed DC Biasing, Emitter Feedback Biasing & Collector Feedback Biasing and Voltage Divider Biasing. This course also comprises De-Morgan's Theorem, Boolean Laws & Theorem, Logic Gates and Realization and Karnaugh Map(K-Map) with most frequently asked questions in final exam of BE along with fundamental theories and numerical solutions. We strongly believe that, viewers will be benefited from these videos and the thirst of curiosity of viewers will be quenched! Feedbacks and suggestion to improve are always welcome and highly appreciated!

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Includes:
  • 16+ Hours On demand videos
  • 207 Lessons
  • 45 Days Subscription
  • Access On Mobile And Web

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