Singapore University of Social Sciences

Advanced Electronic Circuit Design 1

Advanced Electronic Circuit Design 1 (ENG331)

Applications Open: To be confirmed

Applications Close: To be confirmed

Next Available Intake: To be confirmed

Course Types: To be confirmed

Language: English

Duration: 6 months

Fees: To be confirmed

Area of Interest: Science and Technology

Schemes: To be confirmed

Funding: To be confirmed

School/Department: School of Science and Technology


Synopsis

This advanced course in electronic circuit design delves into the intricacies of creating highperformance electronic systems. Building upon foundational electronics knowledge, this course accentuates the essential techniques and methodologies required for sculpting complex circuits ubiquitous in modern electronic devices and systems. From delving into CMOS circuit design to mastering CMOS combinational logic and sequential logic designs and FPGA prototyping, students will navigate a spectrum of topics. Additionally, students will learn chip testing methodologies and performance evaluation techniques. Through a blend of theoretical discourse, immersive laboratory sessions, and project-based learning, students will cultivate the skills indispensable for designing, testing, and evaluating sophisticated electronic circuits across diverse applications.

Level: 3
Credit Units: 5
Presentation Pattern: EVERY JULY

Topics

  • Introduction to Integrated Circuit Design
  • CMOS Circuit Design
  • Chip Design and Implementation
  • CMOS Combinational Logic Design
  • CMOS Sequential Logic Design
  • FPGA Architecture and Design Methodologies
  • Prototyping Electronic Circuits with FPGAs
  • Chip Testing Techniques and Methodologies
  • Performance Evaluation and Optimisation Strategies
  • Design Verification and Validation Techniques
  • Advanced Simulation Tools for Circuit Design
  • Case Studies in Advanced Electronic Circuit Design

Learning Outcome

  • Demonstrate the standard integrated circuit (IC) design techniques and chip implementation
  • Discuss the fundamental working principles of MOS devices for CMOS circuit design
  • Apply hierarchical design concept in CMOS circuit design and the physical implementation
  • Design CMOS combinational logic and sequential logic circuits
  • Implement the digital design functions using FPGA
  • Evaluate advanced semiconductor design problems on area optimisation, speed/delay trade-offs and low power design techniques
  • Assess semiconductor reliability issues and the failure mechanisms
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