Microprocessors and Microcontroller Paper code: BSE-21 Unit 1: 10hr Introduction to 8-bit Microprocessor History of Microprocessor, 8085 Microprocessor architecture, buses, register, flags, 8085 pin configuration and function of each pin. Fetch, decode and execute operations. Op-code fetch, execute cycle, T state, Machine cycle. Addressing modes of 8085. Unit 2: 30hr Intel 8085 Microprocessor Instruction Set and Programming Data transfer, Arithmetic, Logical, Rotate, Branch and machine control instructions. Development of 8085 assembly language programs, time delays. 8085 interrupts, RST, SIM, RIM instructions. Subroutine and conditional call instruction. Peripheral Devices 8255-Programmable peripheral Interface, 8253- Programmable Interval Timer, 8259- Priority Interrupt Controller, 8279-Programmable Keyboard/Display Interface, 8251- USART, 8237/8257- Programmable DMA Controller. Unit 3: Introduction of advance Microprocessor Intel 8086 Microprocessor architecture, Addressing modes, 8086 pin configuration and function of each pin. 8086 programming using Data movement instructions, Arithmetic and logic instructions, Program control instructions. 8086 interrupt instructions, operation of real mode and protected mode interrupt, interrupt flag bits, Hardware interrupts. Unit 4: 10hr Other Microprocessors- Introduction to 80186/286/386/486 and Pentium Microprocessors. An introduction to Microcontrollers- Advantages and Applications of 8051 Microcontrollers
Suggested reading 1. Introduction to microprocessors by Aditya P Mathur. 3 rd edition Tata Macrgew Hills 2. The 8085 Microprocessor: Architecture, Programming and Interfacing, 1/e pearson 3. Microprocessor Architecture, Programming & Applications with 8085 4th edition Ramesh Gaonkar,2 ND ed,2009.. 4. Advanced Microprocessors and Peripherals by A. K. Ray & K M Bhurchadi; Tata McGraw Hill.2 nd Ed., 13th Reprint 2009. 5. Microprocessor 8085 and Its Interfacing by Sunil Mathur; 2 nd Ed., Reprint 2011. 6. Microprocessor & Microcontroller; A.P. Godse, D.A. Godse; Technical Publication Pune.
Microwave Theory Paper code: BSE-22 Unit -1: Introduction - Frequency spectrum, Micro wave bands, Applications of microwaves in different fields. Guided waves - wave guides, Introduction, rectangular wave guides, TE and TM waves, Transverse electromagnetic waves. Unit-2: 12hr Transmission lines and wave guides - Review of transmission lines Impedance matching, strip transmission lines, microwave guides, propagation through wave guides, cut off frequency, wave and group velocity, cavity resonators. Unit-3: Microwave tubes - Introduction, Multicavity Klystron, Velocity modulation and beam bunching, reflex klystron, magnetron, working of magnetron, travelling wave tubes, Other micro wave tubes. Unit-4: 10hr Microwave Semiconductor devices - Schottky diodes, Point contact diodes, Varactor diodes, IMPATTT, TRAPATT, Gunn diode, Applications. Unit-5: 8hr Radar systems - Basic principles, Fundamentals, performance factor, Antennas and scanning, display methods, pulsed radar systems, MTI, Beacons, CW Doppler radar, CW. Suggested Reading 1. Microwave Theory and Applications by Stephen Adam.
Photonics and Optoelectronics Devices Paper code: BSE-23 Unit-1: LASER: 12hr Basic concepts of energy-level, manifolds in gain media, population inversion and saturation effects,conditions for oscillator stability in laser resonator configurations and transverse and longitudinal cavity mode descriptions,amplitude and phase modulation, frequency switching, Q- switching, cavity dumping and mode locking,laser amplifiers including continuous-wave. Unit-2: DISPLAYS AND NON-LINEAR OPTICS: 13hr Concepts of optoelectronic display devices. Semiconducting polymers - photoluminescence and electroluminescence. Factors determining efficiency; light-emitting diodes and field effect transistors. Liquid crystals - nematic, smectic and cholosteric phases; director and orderparameter; operation of twisted nematic display. Unit-3: FIBRE OPTICS COMMUNICATIONS: 20hr Fibre optic attenuation: modal effects; absorption; scattering, Fibre optic dispersion, Fibre optic refractive index profile, Chirp, dispersion management. Numerical aperture. Optical time domain reflectometry. Optical transmitters. Optical receivers. Fibre amplifiers: EDFA, PDFA & Raman. Digital systems. Analogue systems. Coherent systems. Public communication network. WDM and Filters: dielectric, AWG and fibre grating devices Nonlinear fibres: SPM, CPM, MI, FWM, SBS, SRS. Unit-4: MODERN OPTICS: Geometrical Optics : Ray sketching, y-u trace, y-nu trace, cardinal points of lens, chromatic aberrations, third-order aberrations, analysis of optical systems, aberration correction techniques. Fourier Optics : Fourier Analysis, Convolution Theory, Fourier transforming in lens systems, Frequency analysis of imaging systems, Coherent and incoherent imaging, Spatial filtering and optical information processing. Modulators: Crystal optics, Electro-optic effect, Acousto-optic effect; application of these effects in optical modulators.
Suggested book: 1. Fundamentals of photonics by B.A.Saleh 2. Optical Communication by M.M. Rao; University Press India Ltd. 3. The Handbook of Optical Communication Networks by Mohammad Ilyas Ilyas, Hussein T. Mouftah; Taylor and Francis e- Library publication. Microprocessor Lab Paper code: BSE-24 1. Write program for Addition of 8 bit and16 bit 2. Write program for Subtraction of 8 bit and 16 bit 3. Write program for Multiplication 4. Write program for Array addition (multibyte) 5. Write program for Logical operators AND, OR NOT 6. Write program for Decimal to ASCII and ASCII to Decimal conversion 7. Write program for Decimal to Hexa and Hexa to Decimal conversion Suggested book: Microprocessor Architecture, Programming & Applications with 8085, 4th edition, by Ramesh S. Gaonkar ; Prentice Hall of India.
Microwave Test Benches Paper code: BSE-25 1. Study of the characteristics of Klystron tube and to determine its electronics tuning range. 2. To determine the Standing Wave Ratio and Reflection Co-efficient. 3. To study VI characteristics of Gunn Diode. 4. Study of Magic Tee. 5. Study of Circulator/Isolator. 6. To study the attenuators (Fixed and variable types).