Are you looking for innovative electronics projects to dive into? Look no further than Takeoff Edu Group! Here, you'll find a wide variety of projects that are perfect for students of all skill levels. Our projects are perfect for makers and hobbyists who are eager to learn and create something new.
Project Code: TVMABE365
Project Title:Combinational and Sequential Design Logic for Ternary SystemView DetailsProject Code: TVMABE360
Project Title:Design and Comparative Analysis of Half and Full Adders Using CMOS and Pass Transistor Logic StylesNano Technology| Transistor Logic
View DetailsProject Code: TVMABE357
Project Title:Comparative Study of Transistor Logic Families in Half Adder Circuit DesignNano Technology| Transistor Logic
View DetailsProject Code: TVMABE354
Project Title:Comparative Analysis of XOR Implementation using CMOS Logic, Domino Logic - Keeper TechniqueView DetailsProject Code: TVMABE352
Project Title:Design Considerations of High- Frequency-Reference Fractional- N PLL: Architecture and NonidealitiesCadence EDA| Nano Technology| Transistor Logic
View DetailsProject Code: TVMABE346
Project Title:Stacked Ring Oscillators with Fractional Injection LockView DetailsProject Code: TVMABE345
Project Title:Design and Simulation of a Carry Save Adder (CSA) using NAND Gate in CMOS 180nm TechnologyCadence EDA| Nano Technology| Transistor Logic
View DetailsProject Code: TVMABE369
Project Title:Adept Domino Logic for Modified Schmitt Trigger CircuitsView DetailsProject Code: TVMABE367
Project Title:A Low-Power Low-Voltage Binary Search Analog-to-Digital ConverterView Details S.no | Project Code | Project Name | Action |
|---|---|---|---|
| 1 | TVMABE365 | Combinational and Sequential Design Logic for Ternary System | |
| 2 | TVMABE360 | Design and Comparative Analysis of Half and Full Adders Using CMOS and... | |
| 3 | TVMABE357 | Comparative Study of Transistor Logic Families in Half Adder Circuit D... | |
| 4 | TVMABE354 | Comparative Analysis of XOR Implementation using CMOS Logic, Domino Lo... | |
| 5 | TVMABE352 | Design Considerations of High- Frequency-Reference Fractional- N PLL: ... | |
| 6 | TVMABE346 | Stacked Ring Oscillators with Fractional Injection Lock | |
| 7 | TVMABE345 | Design and Simulation of a Carry Save Adder (CSA) using NAND Gate in C... | |
| 8 | TVMABE371 | A Low-Dropout, High-Current LDO Design | |
| 9 | TVMABE369 | Adept Domino Logic for Modified Schmitt Trigger Circuits | |
| 10 | TVMABE367 | A Low-Power Low-Voltage Binary Search Analog-to-Digital Converter |
Project Code: TVMABE365
Project Title:Combinational and Sequential Design Logic for Ternary SystemView DetailsProject Code: TVMABE360
Project Title:Design and Comparative Analysis of Half and Full Adders Using CMOS and Pass Transistor Logic StylesNano Technology| Transistor Logic
View DetailsProject Code: TVMABE357
Project Title:Comparative Study of Transistor Logic Families in Half Adder Circuit DesignNano Technology| Transistor Logic
View DetailsProject Code: TVMABE354
Project Title:Comparative Analysis of XOR Implementation using CMOS Logic, Domino Logic - Keeper TechniqueView DetailsProject Code: TVMABE352
Project Title:Design Considerations of High- Frequency-Reference Fractional- N PLL: Architecture and NonidealitiesCadence EDA| Nano Technology| Transistor Logic
View DetailsProject Code: TVMABE346
Project Title:Stacked Ring Oscillators with Fractional Injection LockView DetailsProject Code: TVMABE345
Project Title:Design and Simulation of a Carry Save Adder (CSA) using NAND Gate in CMOS 180nm TechnologyCadence EDA| Nano Technology| Transistor Logic
View DetailsProject Code: TVMABE369
Project Title:Adept Domino Logic for Modified Schmitt Trigger CircuitsView DetailsProject Code: TVMABE367
Project Title:A Low-Power Low-Voltage Binary Search Analog-to-Digital ConverterView Details S.no | Project Code | Project Name | Action |
|---|---|---|---|
| 1 | TVMABE365 | Combinational and Sequential Design Logic for Ternary System | |
| 2 | TVMABE360 | Design and Comparative Analysis of Half and Full Adders Using CMOS and... | |
| 3 | TVMABE357 | Comparative Study of Transistor Logic Families in Half Adder Circuit D... | |
| 4 | TVMABE354 | Comparative Analysis of XOR Implementation using CMOS Logic, Domino Lo... | |
| 5 | TVMABE352 | Design Considerations of High- Frequency-Reference Fractional- N PLL: ... | |
| 6 | TVMABE346 | Stacked Ring Oscillators with Fractional Injection Lock | |
| 7 | TVMABE345 | Design and Simulation of a Carry Save Adder (CSA) using NAND Gate in C... | |
| 8 | TVMABE371 | A Low-Dropout, High-Current LDO Design | |
| 9 | TVMABE369 | Adept Domino Logic for Modified Schmitt Trigger Circuits | |
| 10 | TVMABE367 | A Low-Power Low-Voltage Binary Search Analog-to-Digital Converter |
Project Code: TVMABE365
Project Title:Combinational and Sequential Design Logic for Ternary SystemView DetailsProject Code: TVMABE360
Project Title:Design and Comparative Analysis of Half and Full Adders Using CMOS and Pass Transistor Logic StylesNano Technology| Transistor Logic
View DetailsProject Code: TVMABE357
Project Title:Comparative Study of Transistor Logic Families in Half Adder Circuit DesignNano Technology| Transistor Logic
View DetailsProject Code: TVMABE354
Project Title:Comparative Analysis of XOR Implementation using CMOS Logic, Domino Logic - Keeper TechniqueView DetailsProject Code: TVMABE352
Project Title:Design Considerations of High- Frequency-Reference Fractional- N PLL: Architecture and NonidealitiesCadence EDA| Nano Technology| Transistor Logic
View DetailsProject Code: TVMABE346
Project Title:Stacked Ring Oscillators with Fractional Injection LockView DetailsProject Code: TVMABE345
Project Title:Design and Simulation of a Carry Save Adder (CSA) using NAND Gate in CMOS 180nm TechnologyCadence EDA| Nano Technology| Transistor Logic
View DetailsProject Code: TVMABE369
Project Title:Adept Domino Logic for Modified Schmitt Trigger CircuitsView DetailsProject Code: TVMABE367
Project Title:A Low-Power Low-Voltage Binary Search Analog-to-Digital ConverterView Details S.no | Project Code | Project Name | Action |
|---|---|---|---|
| 1 | TVMABE365 | Combinational and Sequential Design Logic for Ternary System | |
| 2 | TVMABE360 | Design and Comparative Analysis of Half and Full Adders Using CMOS and... | |
| 3 | TVMABE357 | Comparative Study of Transistor Logic Families in Half Adder Circuit D... | |
| 4 | TVMABE354 | Comparative Analysis of XOR Implementation using CMOS Logic, Domino Lo... | |
| 5 | TVMABE352 | Design Considerations of High- Frequency-Reference Fractional- N PLL: ... | |
| 6 | TVMABE346 | Stacked Ring Oscillators with Fractional Injection Lock | |
| 7 | TVMABE345 | Design and Simulation of a Carry Save Adder (CSA) using NAND Gate in C... | |
| 8 | TVMABE371 | A Low-Dropout, High-Current LDO Design | |
| 9 | TVMABE369 | Adept Domino Logic for Modified Schmitt Trigger Circuits | |
| 10 | TVMABE367 | A Low-Power Low-Voltage Binary Search Analog-to-Digital Converter |
Why Choose Takeoff Edu Group for Electronics Projects?
We have projects for students of all skill levels, from beginners to advanced makers. Our electronics projects are designed specifically for students and hobbyists. They're easy to follow, with step-by-step instructions, diagrams, and videos. You'll find projects that range from simple, beginner-friendly projects to more complex and advanced projects that will challenge even the most experienced maker. With step-by-step instructions, detailed explanations, and comprehensive guides, you'll be able to complete each project with confidence.
Our electronics projects come with all the components and materials you'll need, so you can get started right away. Whether you're new to electronics or an experienced pro, our projects are sure to inspire you and challenge your skills.
So why wait? Start exploring our electronics projects today and unleash your creativity! At Takeoff Edu Group, you'll find a wealth of free resources to help you with your projects, including articles, videos, and FAQs. Our knowledgeable and friendly community is always here to help, so if you have any questions, just ask!
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Disclaimer - Takeoff Edu Group Projects are not associated or affiliated with IEEE in any way. The IEEE Projects mentioned here are mentioned in the context of student projects, whose ideas are derived from IEEE publications, not projects of or by IEEE.
