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Curriculum | M.Sc. (Physics) | Subject: Electronics II | Paper Code: 09020404

Subject: Electronics II
Paper Code: 09020404

S No.

Topic

Learning Objective

Teaching Guidelines

Methodology

Time
(Hrs)

1

  • Silicon planar process, Crystal growth, Wafer production
  • Thermal oxidation, high pressure oxidation
  • Concentration enhanced oxidation, chlorine oxidation
Students will be able to learn about crystal growth, importance of oxidation in IC Fabrication. To Cover several techniques to form oxide layers. Black board teaching

Online lectures

Power point presentations

3

2

  • Lithography & pattern transfer
  • Etching process, factors affecting the etching process
  • HF-HNO3 system, dopant addition
 Students will be able to learn process used in micro fabrication to pattern parts of a thin film or the bulk of a substrate. To cover different steps involved in lithography like depositing thin films on substrate, etching etc and HF-HNO3 etchant. Black board teaching

Online lectures

Power point presentations

4

3

  • Ion implantation, diffusion
  • Diffusion in concentration gradient
  • Fick’s Laws, diffusivity variation, Segregation
  • CVD, epitaxial and non-epitaxial films.
 Students will be able to learn methods by which impurity is introduced into silicon to change its resistivity. To cover basic concepts concerning Ion implantation and diffusion. Black board teaching

Online lectures

Power point presentations

3

4

  • Monolithic IC technology
  • BJT Fabrication
  • PNP transistor
  • Multi-emitter Schottky transistor
  • Superbeta transistor fabrication
  • Fabrication of FET/NMOS enhancement
  • FET/NMOS depletion transistor
  • Fabrication of CMOS devices
  • Monolithic diodes
  • Clean rooms & their classifications.
Students will be able to learn about the basic components of a circuit like transistors, diodes and their fabrication. To cover the fabrication techniques involved in transistors and diodes. Black board teaching

Online lectures

Power point presentations

10

5

  • Metal semiconductor contacts
  • Ideal MS contacts
  • Schottky barriers and ohmic contacts
  • Oxide and interface charges, Origin of oxide charges
  • MOS structure
  • Effect of bias voltage Capacitance of MOS system
Students will be able to learn MOS systems To cover MOS structure, operation and characteristics Black board teaching

Online lectures

Power point presentations

5

6

  • Introduction to electrical computer simulation
  • SPICE and its evaluations
  • Electrical circuit specifications
  • The SPICE DC analysis.
Students will be able to use program in  integrated circuit and board-level design to check the integrity of circuit designs and to predict circuit behavior To cover program features and structure of SPICE Black board teaching

Online lectures

Power point presentations

5

7

  • Adders and their use as Substractors
  • Ripple counters, Sequential logic design
  • Shift registers, Application of shift registers as delay line
  • Serial to parallel converter, parallel to serial converter
  • Ring counter, twisted ring counter
  • Sequence generator
  • Synchronous counter design, up-down counter
  • Asynchronous versus synchronous sequential circuits
  • Applications of Asynchronous sequential circuits
  • Asynchronous sequential machine modes, Asynchronous sequential circuit design.
Students will be able to learn Combinational logic design using IC. To cover concepts and theory about Adders, Ripple counters, Shift registers, Synchronous and Asynchronous counters and their applications in circuits. Black board teaching

Online lectures

Power point presentations

10