Digital Hardware, Design Process, Design of Digital HardwareVariables & Functions Logic gates & Networks synthesis, SOP, POS forms, Introduction to VHDL.
Strategy for minimization, Incompletely specified functions, Multiple output circuits, Multilevel synthesis & Analysis Building Block of combinational circuits, Multiplexers Decoders, Encoders Code Converters.
Basic Design Steps, Mealy state Model, Design of FSM,
Analysis, Synthesis, State Reduction, State Assignment, Hazards.
Fault Model, Path sensitizing, Random testing, Circuits with Tree Structure.
Introduction to Logic Design – MARCOVITZ – (Text )
Engineering Digital Design – TINDER
An Engineering Approach to Digital Design – FLETCHER
Logic and Computer Design Fundamentals – MANO
Review of Digital Signal Processing: Review of discrete–time sequences and systems, Linear Shift Invariant (LSI) systems. Causality and Stability Criterion, FIR & IIR representations, Z-Transform, Digital structures, Fast Fourier Transform, Discrete Fourier Transform (DFT), Fast Fourier Transform (FFT) algorithms using decimation in time and decimation in frequency techniques, Chirp Z- Transform, Hilbert Transform and applications.
Digital Filter design: FIR filter design, IIR filter design from analog filters, digital filter design based on least square method.
Multirate Digital Signal Processing: Decimation & Interpolation, Sampling rate conversion, Filter design and implementation for sampling rate conversion, applications of multirate signal processing
Filter Banks: QMF, M-Channel uniform and non-uniform filter banks, transmultiplexers.
Wavelets: Introduction, the short-time Fourier transform, the wavelet transform, discrete- time orthonormal wavelets, continuous-time orthonormal wavelets.
J.G.Proakis & D.G.Manolakis, “Digital Signal Processing, Principles, Algorithms and Applications”, PHI
P.P.Vaidyanathan, “Multirate Systems and Filter Banks”, Pearson
S.K. Mitra, “Digital Signal Processing”, TMH
Intelligent versus Dumb instruments, A historical perspective of instrumentation systems. Review of digital transducers. Interfacing micro computers. Computer ports to high power devices. Optical shaft encoder communication standards. Concepts of Real Time system and its application.
Details of Data Acquisition systems (DAS) Logic control systems, Continuous & Batch modes, Single and multi loop controller. Details of Data logger and its application.
Architecture of Virtual instrument and its relation to operating system. Software overview: LABVIEW, Graphical User Interface (GUI), Control and indicators: G programming- Data type, Data flow programming editing and running a virtual instrument.
G Programming details in LABVIEW, G Programming tools and libraries. Programming structure: For loop, While loop. CASE structure, Sequence Structure arrays and clusters. Array operations- Bundle/Unbundled String and file I/O. High level and low level I/Os. Attribute nodes, Local and global variables.
Software development for Temperature (Low and High), Level, Speed, pressure etc.
Barney G C, Intelligent Instrumentation : Micro processor application in measurement and control, Prentice Hall, Engle Wood Cliff NJ.
H S Store, Micro Computer Interfacing, Addison Wesley, Reading, MA
Rathore T S, Digital Instrumentation, TMH
Interfacing sensors to the IBM PC, Prentice Hall, Engle Wood Cliff NJ.
Garry M. Johnson " LAB view Graphical Programming", TMH.
Lisa K. Wells "Labview for Every one, PHI.
Barry Paton, "Sensor, Transducers and Labview", Prentice Hall.
David E Simon, “ An embedded software Primer” Pearson education Asia.
John B Peat man “ Design with Micro controller” Pearson education Asia.
Jonartthan W. Valvano Brooks/cole “ Embedded Micro Computer Systems. Real time Interfacing”, Thomson learning
Introduction to Chemical instrumental analysis, advantages over classical methods, Classification: Spectral, electro analytical and separative methods, Laws of photometry (Beer and Lambert's law), Basic Components of analytical instruments.
Chromatography: Classification, Gas chromatography: principle, constructional details, GC detectors, Estimation of oxygen, hydrogen, methane, carbon dioxide, CO, etc. in binary or complex gas mixtures. Zirconia-probe oxygen analyser. Paramagnetic oxygen meters.
Colorimeters, spectrophotometers (UV-Visible), monochromators, filters, grating, prism, dual wavelength and double monochromator systems, rapid scanning spectrophotometers, IR spectrophotometers.
Flame Photometry: Principle, constructional details, flue gases, atomizer, burner, optical system, recording system. Atomic absorption spectrophotometers: Theoretical concepts, instrumentation: hollow cathode lamps, burners and flames, plasma excitation sources, optical and electronic system
Measurement of pH, Conductivity, particle counting, detection on the basis of scattering- Nephalometer, Laboratory Instruments: Centrifuge, oven, waterbath, Incubators, stirrers, Densitometer,
Mass Spectrometer (MS): Principle, ionization methods, mass analyzer types - magnetic deflection type, time of flight, quadruple, double focusing, detectors for MS, applications X- ray spectrometry: Instrumentation for X-ray spectrometry, X-ray diffractometer.
Instrumental Methods of Analysis, Willard, Merritt, Dean, Settle, CBS Publishers & Distributors, New Delhi, Seventh edition.
Handbook of Analytical Instruments, R. S. Khandpur, Tata McGraw–Hill Publications, 3rd edition
Instrumental Methods of Chemical Analysis, Galen W. Ewing, McGraw-Hill Book Company, Fifth edition.
Introduction to Instrumental Analysis, Robert D. Braun, McGraw-Hill Book Company
Digital Hardware, Design Process, Design of Digital HardwareVariables & Functions Logic gates & Networks synthesis, SOP, POS forms, Introduction to VHDL.
Strategy for minimization, Incompletely specified functions, Multiple output circuits, Multilevel synthesis & Analysis Building Block of combinational circuits, Multiplexers Decoders, Encoders Code Converters.
Basic Design Steps, Mealy state Model, Design of FSM,
Analysis, Synthesis, State Reduction, State Assignment, Hazards.
Fault Model, Path sensitizing, Random testing, Circuits with Tree Structure.
Introduction to Logic Design – MARCOVITZ – (Text )
Engineering Digital Design – TINDER
An Engineering Approach to Digital Design – FLETCHER
Logic and Computer Design Fundamentals – MANO
Review of Digital Signal Processing: Review of discrete–time sequences and systems, Linear Shift Invariant (LSI) systems. Causality and Stability Criterion, FIR & IIR representations, Z-Transform, Digital structures, Fast Fourier Transform, Discrete Fourier Transform (DFT), Fast Fourier Transform (FFT) algorithms using decimation in time and decimation in frequency techniques, Chirp Z- Transform, Hilbert Transform and applications.
Digital Filter design: FIR filter design, IIR filter design from analog filters, digital filter design based on least square method.
Multirate Digital Signal Processing: Decimation & Interpolation, Sampling rate conversion, Filter design and implementation for sampling rate conversion, applications of multirate signal processing
Filter Banks: QMF, M-Channel uniform and non-uniform filter banks, transmultiplexers.
Wavelets: Introduction, the short-time Fourier transform, the wavelet transform, discrete- time orthonormal wavelets, continuous-time orthonormal wavelets.
J.G.Proakis & D.G.Manolakis, “Digital Signal Processing, Principles, Algorithms and Applications”, PHI
P.P.Vaidyanathan, “Multirate Systems and Filter Banks”, Pearson
S.K. Mitra, “Digital Signal Processing”, TMH
Intelligent versus Dumb instruments, A historical perspective of instrumentation systems. Review of digital transducers. Interfacing micro computers. Computer ports to high power devices. Optical shaft encoder communication standards. Concepts of Real Time system and its application.
Details of Data Acquisition systems (DAS) Logic control systems, Continuous & Batch modes, Single and multi loop controller. Details of Data logger and its application.
Architecture of Virtual instrument and its relation to operating system. Software overview: LABVIEW, Graphical User Interface (GUI), Control and indicators: G programming- Data type, Data flow programming editing and running a virtual instrument.
G Programming details in LABVIEW, G Programming tools and libraries. Programming structure: For loop, While loop. CASE structure, Sequence Structure arrays and clusters. Array operations- Bundle/Unbundled String and file I/O. High level and low level I/Os. Attribute nodes, Local and global variables.
Software development for Temperature (Low and High), Level, Speed, pressure etc.
Barney G C, Intelligent Instrumentation : Micro processor application in measurement and control, Prentice Hall, Engle Wood Cliff NJ.
H S Store, Micro Computer Interfacing, Addison Wesley, Reading, MA
Rathore T S, Digital Instrumentation, TMH
Interfacing sensors to the IBM PC, Prentice Hall, Engle Wood Cliff NJ.
Garry M. Johnson " LAB view Graphical Programming", TMH.
Lisa K. Wells "Labview for Every one, PHI.
Barry Paton, "Sensor, Transducers and Labview", Prentice Hall.
David E Simon, “ An embedded software Primer” Pearson education Asia.
John B Peat man “ Design with Micro controller” Pearson education Asia.
Jonartthan W. Valvano Brooks/cole “ Embedded Micro Computer Systems. Real time Interfacing”, Thomson learning
Introduction to Chemical instrumental analysis, advantages over classical methods, Classification: Spectral, electro analytical and separative methods, Laws of photometry (Beer and Lambert's law), Basic Components of analytical instruments.
Chromatography: Classification, Gas chromatography: principle, constructional details, GC detectors, Estimation of oxygen, hydrogen, methane, carbon dioxide, CO, etc. in binary or complex gas mixtures. Zirconia-probe oxygen analyser. Paramagnetic oxygen meters.
Colorimeters, spectrophotometers (UV-Visible), monochromators, filters, grating, prism, dual wavelength and double monochromator systems, rapid scanning spectrophotometers, IR spectrophotometers.
Flame Photometry: Principle, constructional details, flue gases, atomizer, burner, optical system, recording system. Atomic absorption spectrophotometers: Theoretical concepts, instrumentation: hollow cathode lamps, burners and flames, plasma excitation sources, optical and electronic system
Measurement of pH, Conductivity, particle counting, detection on the basis of scattering- Nephalometer, Laboratory Instruments: Centrifuge, oven, waterbath, Incubators, stirrers, Densitometer,
Mass Spectrometer (MS): Principle, ionization methods, mass analyzer types - magnetic deflection type, time of flight, quadruple, double focusing, detectors for MS, applications X- ray spectrometry: Instrumentation for X-ray spectrometry, X-ray diffractometer.
Instrumental Methods of Analysis, Willard, Merritt, Dean, Settle, CBS Publishers & Distributors, New Delhi, Seventh edition.
Handbook of Analytical Instruments, R. S. Khandpur, Tata McGraw–Hill Publications, 3rd edition
Instrumental Methods of Chemical Analysis, Galen W. Ewing, McGraw-Hill Book Company, Fifth edition.
Introduction to Instrumental Analysis, Robert D. Braun, McGraw-Hill Book Company