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Diploma in Semiconductor Technology
Semiconductor technology is the backbone of modern electronics, driving innovations in computing, power systems, and communication. Power Semiconductor Devices focus on high-efficiency switching components essential for power electronics applications. VLSI for Computer Arithmetic explores the design of optimized arithmetic circuits used in processors and digital signal processing. VLSI Design covers Integrated Circuit (IC) design, fabrication, and System-on-Chip (SoC) integration. Analog CMOS VLSI Design emphasizes low-power analog circuits for mixed-signal applications, Introduction to Semiconductor provides fundamental knowledge of semiconductor physics and device operation. Digital Electronics delves into logic circuits, sequential design, and FPGA-based systems. Semiconductor Device Fabrication introduces key manufacturing processes like wafer processing, lithography, and doping. Optoelectronic Devices study light-emitting and sensing components used in communication and imaging technologies. Semiconductor Packaging and Testing ensures the reliability of integrated circuits through advanced packaging techniques and quality control methods. These subjects equip students with the essential skills required for careers in semiconductor design, fabrication, and testing, Shaping the future of electronic technology.
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Deadline to be announced
Applicable deadline
Deadline to be announced
Format
Hybrid
Credits
180
Seats
60
Fee
₹ 25,000
Language
English
Eligibility
Candidates must have passed their 10+2 (or equivalent) examination from a recognized board.
*Tuition Fees may vary depending on the Country/State in which the candidate has passed their qualifying examination.
Why study this program
Be a part of a engaging learning atmosphere that gives you the tools to excel in the career of your choice.
Explain principles and techniques involved in designing, simulating, and testing both analog and digital semiconductor-based circuits, including their components and functionalities,
Describe the key concepts and processes in the design, simulation, and testing of analog and digital semiconductor circuits, recognizing interaction between their components to achieve desired circuit behavior.
Relate the operation and characteristics of semiconductor devices such as diodes, transistors, and MOSFETs, focusing on their behavior, applications, and performance under varying conditions.
Retrieve various testing techniques, such as I-V characterization and failure analysis, used to evaluate the performance and reliability of semiconductor devices.
Examine the key operating principles and characteristics of semiconductor devices, including diodes, transistors, and MOSFETs, and evaluate their performance in different electronic circuits and systems.
What you can become after studying this program?
Semiconductor Design Engineer
VLSI Design Engineer
Process Engineer
Semiconductor Test Engineer
Packaging Engineering
Semiconductor Engineer
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Launch your career with our leading placements
We provide you with leading placement opportunities before you graduate, with the best career training and an exposure to leading recruiters.
4-6 LPA
Average Package
2,200+
Recruiters
60 LPA
Highest Package Offered
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