Digital Logic (Complete Playlist)
5.0
(1)
7 learners
What you'll learn
This course includes
- 6.5 hours of video
- Certificate of completion
- Access on mobile and TV
Course content
1 modules • 60 lessons • 6.5 hours of video
Digital Logic (Complete Playlist)
60 lessons
• 6.5 hours
Digital Logic (Complete Playlist)
60 lessons
• 6.5 hours
- Lec-1: Digital Logic Syllabus for GATE, UGCNET etc.| Full Playlist for College/University Students 04:40
- Lec-2: Properties of various Logic Gates | Commutative, Associative, Idempotent 08:44
- Lec-3: Types of Logic Gates | Symbols | Truth Tables 08:59
- Lec-4: Implement all Gates using NAND & NOR Gate | Why NAND & NOR are called Universal Gates 05:50
- Lec-5: XOR Gate Properties in Hindi with example | Digital Electronics 06:52
- Lec-6: XNOR Gate Properties in Hindi with example | Digital Electronics 06:13
- Lec-7: Canonical Sum of Product (SOP) with example 06:55
- Lec-8: Duality Theorem | How to find Dual of Any Boolean Expression 06:19
- Lec-9: Self Dual Function | How to find Self Dual Function of Any Boolean Expression with 1 variable 06:40
- Lec-10: How many Boolean functions & Self Dual functions Possible with ‘N’ variables 06:01
- Lec 11: K-Map Minimization Explained | Introduction to Karnaugh Map | Digital Electronics 04:44
- Lec -12: What is K-Map | Design K-Map | 3 Variable K-Map 06:03
- Lec -13: 4 Variable K-Map with examples | Design K-Map | Minimization in Digital Electronics 09:09
- Lec -14: Essential Prime Implicants vs Prime Implicants | K-Map Minimization with examples 07:12
- Lec -15: Half Adder | Combinational Circuits |Digital Electronics 05:45
- Lec -16: Full Adder | Combinational Circuit | Digital Electronics 09:27
- Lec -17: Half Subtractor | Combinational Circuits | Digital Electronics 03:50
- Lec -18: Introduction to Multiplexer | What are Multiplexers | Digital Electronics 05:59
- Lec - 19: Implement Function using Multiplexer | How Multiplexer implement any function 04:40
- Lec -20: How Multiplexers are Functionally Complete | Implement AND, OR & NOT using 2*1 Mux 08:11
- Lec -21: Introduction to Demultiplexers | What are Demultiplexers | Digital Electronics 06:46
- Lec -22: Working of Multiplexers | Inside Block Diagram of Multiplexers 05:17
- Lec -23: Working of Demultiplexers | Digital Electronics 04:02
- Lec -24: What is Cascading Multiplexer? Multiplexers in Digital Electronic 05:01
- Lec -25: Introduction to Encoder and Decoder | Digital Electronics 06:34
- Lec -26: Sequential Circuit Introduction with examples 04:16
- Lec -27: SR Latch using NAND Gate | NAND SR Latch | Digital Electronics 12:12
- Lec - 28: SR flip-flop using NAND gate | Digital Electronics 09:17
- Lec -29: SR Latch using NOR Gate | NOR SR Latch | Digital Electronics 08:15
- Lec -30: SR flip-flop using NOR gate | Digital Electronics 06:44
- Lec - 31: SR flip flop Characteristic & Excitation Table | Sequential Circuits 12:34
- Lec -32: Introduction to JK Flip Flop | JK flip flop full explanation | Digital Electronics 09:13
- Lec -33: Level Trigger vs Edge Trigger Flip Flop | Types of Triggering 08:24
- Lec - 34: JK flip flop Characteristic & Excitation Table | Sequential Circuits | Digital Electronics 09:46
- Lec - 35: Race Around Condition | Race 🏎🏎Condition in JK flip flop 09:02
- Lec -36: Master Slave JK Flip Flop | Digital Electronics 10:59
- Lec -37: Introduction to D Flip Flop | Circuit, Working, Characteristics & Excitation Table 06:34
- Lec -38: Introduction to T Flip Flop | Circuit, Working, Characteristics & Excitation Table 04:13
- Lec -39: Convert SR to D flip flop | Digital Electronics 08:32
- Lec - 40: T flip flop to JK flip flop Conversion | Digital Logic 05:39
- Lec - 41:Introduction to Counters | Digital Electronics 14:18
- Lec - 42: Synchronous vs Asynchronous counter | Digital Electronics 08:05
- Lec- 43: Preset & Clear Inputs in Flip flop | Asynchronous Inputs 06:48
- Lec - 44: UP & Down Counter | Recognize Up & Down Counter 06:05
- Lec - 45: Design Synchronous Counter | How to design Synchronous Counter | Digital Electronics 11:25
- Lec -46: Ring Counter | Synchronous Counters | Digital Electronics 09:13
- Lec - 47: Johnson Counter | Twisted Ring Counter 06:33
- Lec - 48: Shift Registers | SISO, SIPO, PISO, PIPO 08:32
- Lec - 49: Practice question on Shift Register | Digital Electronics 04:54
- Lec - 50: Convert SR to JK Flip Flop | Digital Electronics 07:08
- Lec - 51: Convert JK to SR Flip Flop | Digital Electronics 08:12
- Lec-15: Ranges of Sign Magnitude, 1’s & 2’s Complement | Number System 09:34
- XOR Gate ⚡️Properties #digitalelectronics #computer #gatesmashers #shorts #ytshorts #cbse 00:54
- Universal 🪐 Gates #digitalelectronics #gatesmashers #shorts #ytshorts #computer #binary #cbse 01:01
- Self 🔄Complementary Codes | Digital Electronics #gatesmashers #shorts #shortvideo 01:00
- XNOR 🔘 Gate Properties #digitalelectronics #computer #cbse #gatesmashers #shorts #ytshorts 00:55
- Combinational Circuit & Types #digitalelectronics #computer #cbse #shorts #ytshorts #gatesmashers 00:51
- Half Adder #digitalelectronics #gatesmashers #computer #computerscience #shorts #coaching 00:55
- Lec-17: Binary Addition➕ and Subtraction➖ | Number System 08:46
- Lec - 52: Priority Encoder | Digital Electronics 06:00
