Explore the world of electronics with our exciting collection of electronic circuit projects! Our projects are perfect for students, hobbyists, and makers of all skill levels. Whether you're just starting out or have been working with electronics for years, you'll find projects here that will challenge and inspire you.
Project Code: TVMABE179
Project Title:A Reliable Low Standby Power 10T SRAM Cell with Expanded Static Noise MarginsView DetailsProject Code: TVMABE201
Project Title:A Unified NVRAM and TRNG in Standard CMOS TechnologyView DetailsProject Code: TVMABE212
Project Title:High-Speed Grouping and Decomposition Multiplier for Binary MultiplicationView DetailsProject Code: TVMABE229
Project Title:Design and performance analysis of 4-bit Nano-Processor design for low area, low power and minimum delay using 32nm CMOS technology.View DetailsProject Code: TVMABE136
Project Title:Transmission Gate -Based 8T SRAM Cell For Bio Medical ApplicationsCadence EDA| Tanner EDA| Cadence EDA
View DetailsProject Code: TVMABE215
Project Title:Design of Full Adder and Parity Generator Based on Reversible LogicView DetailsProject Code: TVMABE133
Project Title:Novel Memristor-based Nonvolatile D Latch and Flip-flop DesignsView DetailsProject Code: TVMABE134
Project Title:Ultra-Efficient Nonvolatile Approximate Full-Adder with Spin-Hall-Assisted MTJ Cells for In-Memory Computing ApplicationsView DetailsProject Code: TVMABE132
Project Title:Improved High Speed or Low Complexity Memristor-based Content Addressable Memory (MCAM) CellView Details S.no | Project Code | Project Name | Action |
---|---|---|---|
1 | TVMABE181 | Low Power 3-Bit Encoder Design using Memristor | |
2 | TVMABE179 | A Reliable Low Standby Power 10T SRAM Cell with Expanded Static Noise ... | |
3 | TVMABE201 | A Unified NVRAM and TRNG in Standard CMOS Technology | |
4 | TVMABE212 | High-Speed Grouping and Decomposition Multiplier for Binary Multiplica... | |
5 | TVMABE229 | Design and performance analysis of 4-bit Nano-Processor design for low... | |
6 | TVMABE136 | Transmission Gate -Based 8T SRAM Cell For Bio Medical Applications | |
7 | TVMABE215 | Design of Full Adder and Parity Generator Based on Reversible Logic | |
8 | TVMABE133 | Novel Memristor-based Nonvolatile D Latch and Flip-flop Designs | |
9 | TVMABE134 | Ultra-Efficient Nonvolatile Approximate Full-Adder with Spin-Hall-Assi... | |
10 | TVMABE132 | Improved High Speed or Low Complexity Memristor-based Content Addressa... |
Project Code: TVMABE179
Project Title:A Reliable Low Standby Power 10T SRAM Cell with Expanded Static Noise MarginsView DetailsProject Code: TVMABE201
Project Title:A Unified NVRAM and TRNG in Standard CMOS TechnologyView DetailsProject Code: TVMABE212
Project Title:High-Speed Grouping and Decomposition Multiplier for Binary MultiplicationView DetailsProject Code: TVMABE229
Project Title:Design and performance analysis of 4-bit Nano-Processor design for low area, low power and minimum delay using 32nm CMOS technology.View DetailsProject Code: TVMABE136
Project Title:Transmission Gate -Based 8T SRAM Cell For Bio Medical ApplicationsCadence EDA| Tanner EDA| Cadence EDA
View DetailsProject Code: TVMABE215
Project Title:Design of Full Adder and Parity Generator Based on Reversible LogicView DetailsProject Code: TVMABE133
Project Title:Novel Memristor-based Nonvolatile D Latch and Flip-flop DesignsView DetailsProject Code: TVMABE134
Project Title:Ultra-Efficient Nonvolatile Approximate Full-Adder with Spin-Hall-Assisted MTJ Cells for In-Memory Computing ApplicationsView DetailsProject Code: TVMABE132
Project Title:Improved High Speed or Low Complexity Memristor-based Content Addressable Memory (MCAM) CellView Details S.no | Project Code | Project Name | Action |
---|---|---|---|
1 | TVMABE181 | Low Power 3-Bit Encoder Design using Memristor | |
2 | TVMABE179 | A Reliable Low Standby Power 10T SRAM Cell with Expanded Static Noise ... | |
3 | TVMABE201 | A Unified NVRAM and TRNG in Standard CMOS Technology | |
4 | TVMABE212 | High-Speed Grouping and Decomposition Multiplier for Binary Multiplica... | |
5 | TVMABE229 | Design and performance analysis of 4-bit Nano-Processor design for low... | |
6 | TVMABE136 | Transmission Gate -Based 8T SRAM Cell For Bio Medical Applications | |
7 | TVMABE215 | Design of Full Adder and Parity Generator Based on Reversible Logic | |
8 | TVMABE133 | Novel Memristor-based Nonvolatile D Latch and Flip-flop Designs | |
9 | TVMABE134 | Ultra-Efficient Nonvolatile Approximate Full-Adder with Spin-Hall-Assi... | |
10 | TVMABE132 | Improved High Speed or Low Complexity Memristor-based Content Addressa... |
Our electronic circuit projects are designed to provide hands-on learning opportunities for students and hobbyists. Each project includes detailed instructions, diagrams, and videos, so you can follow along step-by-step. You'll gain practical experience with a wide range of electronic components and techniques, and you'll be able to build projects that you can use and enjoy for years to come.
We believe that the best way to learn about electronics is by doing, and our projects give you the chance to put your skills to the test. You'll be able to build and experiment with real-world circuits, and you'll develop a deep understanding of how electronics work.
Our collection of electronic circuit projects covers a wide range of skill levels, from beginner-friendly projects to advanced circuits that will challenge even the most experienced makers. Our beginner projects are designed to help you get started with electronics and build a solid foundation in the basics. Our more advanced projects are perfect for students who have already built a few projects and are ready to take their skills to the next level.
We're here to help you every step of the way! Our site includes a wealth of free resources to help you with your projects, including articles, videos, and FAQs. Our friendly and knowledgeable community is always here to answer any questions you may have.
Ready to get started? Browse our collection of electronic circuit projects today and start your electronics adventure! You'll find projects that are perfect for students, hobbyists, and makers of all skill levels. So what are you waiting for? Contact Us Today!