Exam Details
| Subject | Nano - Electronics | |
| Paper | ||
| Exam / Course | Diploma In Electronics And Communication Engineering (DECVI)/ Advanced Level Certificate Course In Electronics And Communication Engineering (ACEVI)/ | |
| Department | School of Engineering & Technology (SOET) | |
| Organization | indira gandhi national open university | |
| Position | ||
| Exam Date | December, 2016 | |
| City, State | new delhi, |
Question Paper
No. of Printed Pages IBIELE-007! .
B.Tech. -VIEP -ELECTRONICS AND COMMUNICATION ENGINEERING· (BTECVI) Term-End Examination . LJ0272 December, 2016
BIELE·007 NANO-ELECTRONICS
Time: 3 hours Maximum Marks: 70
Note: Attempt any seven questions. All questions carry .equal marks. Missing data, if any, may be suitably assumed and stated.
1. Define the following terms: 4 x 2 1/2=10
Velocity saturation
Hot-electron effect
Threshold voltage scaling
Interconnect issues
2. Explain the operation of the following 5+5=10
Multigate MOSFETs
FinFETs
3. With reference to quantum structures, explain the relevance of the following: 5+5=10
Quantum Wires
Quantum Dots
4. Explain the concept of charge quantization and energy quantization. 5+5=10
5. Give the energy band diagram of a Si-Ge heterostructure and explain its operation using the energy band structure. 10
6. Draw the energy band structures of the following: 5+5=10
III compounds
II -VI compounds
7. Explain the operation of a resonant tunneling transistor. 10
8. What are strained Si devices Explain their operation and give their characteristics. 10
9. Write short technical notes on any two of the following: 5+5=10
CNFET
Coulomb Staircase
Single Electron Devices
Vertical MOSFETs
B.Tech. -VIEP -ELECTRONICS AND COMMUNICATION ENGINEERING· (BTECVI) Term-End Examination . LJ0272 December, 2016
BIELE·007 NANO-ELECTRONICS
Time: 3 hours Maximum Marks: 70
Note: Attempt any seven questions. All questions carry .equal marks. Missing data, if any, may be suitably assumed and stated.
1. Define the following terms: 4 x 2 1/2=10
Velocity saturation
Hot-electron effect
Threshold voltage scaling
Interconnect issues
2. Explain the operation of the following 5+5=10
Multigate MOSFETs
FinFETs
3. With reference to quantum structures, explain the relevance of the following: 5+5=10
Quantum Wires
Quantum Dots
4. Explain the concept of charge quantization and energy quantization. 5+5=10
5. Give the energy band diagram of a Si-Ge heterostructure and explain its operation using the energy band structure. 10
6. Draw the energy band structures of the following: 5+5=10
III compounds
II -VI compounds
7. Explain the operation of a resonant tunneling transistor. 10
8. What are strained Si devices Explain their operation and give their characteristics. 10
9. Write short technical notes on any two of the following: 5+5=10
CNFET
Coulomb Staircase
Single Electron Devices
Vertical MOSFETs
Other Question Papers
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Subjects
- Advance Microprocessor And Architecture
- Analog And Mixed Mode Vlsi Design
- Analog Communication
- Analog Electronic Circuits
- Analog Integrated Circuits Design
- Antennas And Propagation
- Applied Electronics
- Audio and Video Engineering
- Basic Telematics
- Basics Of Electronics Engineering
- Bio Informatics
- Circuits and Networks
- Computer Architecture
- Computer Communication Networks
- Control Engineering
- Data Communication And Network
- Data Structures
- Device Modelling For Circuit Simulation
- Digital Communication
- Digital Electronics
- Digital Signal Processing
- Digital System Design
- Dip- ECE PCB Design & Testing
- Electromagnetic Field Theory
- Electronic Measurement And Instrumentations
- Electronic Measurement and Instruments
- Electronic Product Design
- Electronic Switching Circuits
- Embedded System Design
- Industrial Electronics
- Information Theory And Coding
- Linear Integrated Circuits
- Maintenance Of Electronic Equipment
- Micro Controller
- Micro Controllers
- Microelectronics Technology
- Microprocessor
- Microprocessor And Its Applications
- Microwave And Radar Engineering
- Modeling And Testing Of Digital Systems
- Multirate Systems
- Nano - Electronics
- Optical Fiber Communication
- Opto Electronics Communication Systems
- Power Electronics
- Principles of Communication Engineering
- Quantum Communication
- Rf Circuits
- Satellite And Tv Engineering
- Signal Compression
- Signals And Systems
- Technical English
- Television Engineering
- Wireless Communication