Spectrum Analyzer sound widget is a precise sound level meter with multichannel harmonic analysis and sound visualizer. This useful audio frequency analyzer suits for sound measurement.
And Spectrum Analyzer sound widget shows the most accurate data among other noise detector sound tools. Understandable sound visualizer makes this sound meter app really indispensable. The sound analyzer audio tool captures slightest sound waves. Then the app demonstrates these sound waves with the help of sound visualizer.
Spectrum Analyzer sound widget sound meter app FEATURES: sound level meter;- harmonic SOUND analyzer;- adjustable graphics;- sound visualizer. No doubt that it is the best noise detector among other sound tools.
SOUND LEVEL METER- precise acoustic decibel meterHARMONIC SOUND ANALYZER- multichannel audio frequency analysis;- graphical sound visualizer. ADJUSTABLE GRAPHICS- various graphics and diagram types;- zoom of selected chart areas. Try Spectrum Analyzer sound widget decibel meter audio tool for measurement of sound waves.
WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 SCHEME OF INSTRUCTION & EXAMINATION B.E IV/IV (REGULAR) ELECTRONICS & COMMUNICATION ENGINEERING Semester-I Scheme of Instruction Periods/week L Microwave Engineering Verilog HDL Electronic Instrumentation Mobile Cellular Communication Elective-I Industrial Administration and Financial Management Microwave Lab Verilog HDL Lab Project Seminar Total ELECTIVES Sl. 1 2 3 4 5 6 CODE EC 405 EC 406 EC 407 EC 408 EC 409 EC 410 ELECTIVE I Data Communication & Computer Networks Embedded Systems Digital Image Processing VLSI Design Optical Fiber Communication Multi Rate Signal Processing D/T SCHEME OF EXAMINATION Duration in Hours 3 3 3 3 3 3 3 3 Max. Sessional Exam 75 75 75 75 75 75 50 50 550 25 25 25 25 25 25 25 25 25 225Sl. No.Syllabus Reference No.Subject1.
9.EC 401 EC 402 EC 403 EC 404 ME 472 EC 431 EC 432 EC 433THEORY 4 4 4 4 4 4 -PRACTICALS 3 3 3 24 9-1-WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 EC 401 MICROWAVE ENGINEERING Instruction Duration of University Examination University Examination Sessional 4 Periods per week 3 Hours 75 Marks 25 MarksUNIT - I GUIDED WAVES: Propagation of TE, TM and TEM waves between parallel planes. Velocity of propagation, wave impedance, attenuation in parallel plane guides. Elements of strip lines, micro strip lines, slot lines and finlines. UNIT - II Wave Guides: TE and TM waves in rectangular and circular wave-guides, Wave Impedance, Characteristic Impedance, Attenuation and Q of wave-guides. Cavity resonators, resonant frequency and Q, Applications of cavity resonator. UNIT - III Microwave Circuits and Components: Concept of Microwave circuit, Normalized voltage and current, Introduction to scattering parameters and their properties, Derivation of S Matrix for reciprocal and Nonreciprocal components- magic Tee, Directional coupler, E and H Plane Tees and their properties, Attenuators, Phase Shifters, Isolators and circulators. UNIT - IV Microwave Tubes: High frequency limitations of conventional tubes, Bunching and velocity modulation, mathematical theory of bunching, principles and operation of two cavity, multi cavity, Reflex Klystron, TWT and BWO.
Theory of crossed field interaction; principles and operation of magnetrons and crossed field amplifiers. UNIT V Microwave Solid State Devices: Principles of operation, characteristics and applications of Varactor, PIN diode, GUNN diode and IMPATT diode. SuggestedRreading: 1. Jordan & Keith G. Balmain, Electromagnetic Waves and Radiating Systems, 2/e, Pearson Education, 2006 2. Liao, Microwave Devices and Circuits, 3/e, Pearson Education, 2003. Collins, Foundations for Microwave Engineering, 2/e, John Wiley & Sons, 2003.
Pozar, Microwave Engineering, 2/e, John Wiley & Sons, 1999. Peter A Rizzi, Microwave Engineering, Prentice Hall India, 1998.-2-WITH EFFECT FROM THE ACADEMIC YEAR 2009 - 2010EC 402 VERILOG HDL Instruction Duration of University Examination University Examination Sessional 4 Periods per week 3 Hours 75 Marks 25 MarksUNIT I Introduction to HDLs, Simulation, Capabilities of Verilog, Basic concepts, Data Types, System tasks and compiler directives, modules, ports, Gate level modeling, Gate types, Gate delays, Examples. UNIT II Dataflow modeling, continuous assignments, Delays, Expressions, Operators, Operands, Operator types, Examples, Writing Test Bench.
Behavioral modeling, Structured procedures, Procedural Assignments, Timing controls, Conditional Statements, Multiway Branching, Loops, Sequential and parallel blocks, Generate Blocks, Examples. UNIT III Tasks, Functions, Procedural continuous assignments, Overriding parameters, Conditional compilation and execution, timing scales, System tasks, Timing and delays, Types of delay models, Path delay modeling, Timing checks, Switch level modeling, Switch modeling elements, Examples.
UNIT IV User defined primitives, Uses of programming language interface.Finite state machines: Mealy and Moore state Models, Design of FSM using Verilog HDL. UNIT V Logic synthesis, Impact of logic synthesis, HDL Synthesis, Synthesis design flow, Verification of the GateLevel Net list, Modeling tips for logic Synthesis, Examples of synthesis. Suggested Reading 1.
Samir Palnitkar, Verilog HDL: A Guide to Digital Design and Synthesis, 2/e, Pearson Education,2005. M.Morris Mano & Michael D.Ciletti, Digital Design, 4/e, Pearson Education. Stephen Brown & Zvonko Vranesic, Fundamentals of Digital Logic with Verilog Design, Tata McGraw-Hill, 2002.
Bhasker, A Verilog HDL Primer, 2/e, BS Publications,2001. Ciletti, Advanced Digital Design with the Verilog HDL, PHI, 2005.-3-WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 EC 403 ELECTRONIC INSTRUMENATION Instruction Duration of University Examination University Examination Sessional 4 Periods per week 3 Hours 75 Marks 25 MarksUNIT-I Accuracy, Precision, Resolution and Sensitivity.
Errors and their types. Standards of measurement, classification of standards, IEEE standards, Elements of ISO 9001, Quality management standards. UNIT -II Transducers: classification, factors for selection of a transducer, transducers for measurement of velocity, acceleration, force, radio activity, Hot wire anemometer.
Passive electrical transducers- Strain gauges and strain measurement, LVDT and displacement measurement, capacitive transducer and thickness measurement. Active electrical transducers: Piezo electric, photo conductive, photo voltaic and photo emissive transducers. UNIT-III Characteristics of sound, pressure, power and loudness measurement. Microphones and their types. Temperature measurement, resistance wire thermometers, semiconductor thermometers and thermocouples. Humidity measurement, resistive capacitive, aluminum oxide and crystal Hygrometer types. Magnetic tape recorders, direct recording, FM recording and digital recording.
UNIT-IV Block diagram, specification and design considerations of different types of DVMs. Digital LCR meters, Spectrum analyzers. The lEEE488 or GPIB Interface and protocol.
Delayed time, base oscilloscope digital storage oscilloscope, and mixed signal oscilloscope. Introduction to virtual instrumentation SCADA. Data acquisition system block diagram UNIT-V Biomedical Instrumentation: Human physiological systems and related concepts. Bio-potential electrodes Biopotential recorders - ECG, EEG, EMG, X- ray machines and CT scanners, magnetic resonance and imaging systems, Ultrasonic Imaging systems. Suggested Reading: 1. D, and Cooper W. D, Modern Electronic Instrumentation and Measurement Techniques, PHI, 1994.
Robert A Witte, Electronic Test Instruments: Analog and Digital Measurements, 2/e, 2002. Nakra B.C, and Chaudhry K.K., Instrumentation, Measurement and Analysis, TMH, 2004 4. R.S.,Handbook of Bio-Medical Instrumentation, TMH, 2003.
MurthyD.V: S, Transducers and Instrumentation, PHI, 2003.-4-WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 EC 404 MOBILE CELLULAR COMMUNICATIONS Instruction Duration of University Examination University Examination Sessional 4 Periods per week 3 Hours 75 Marks 25 MarksUNIT-I Introduction to wireless communication systems:Evolution of Mobile radio communication, paging systems, cordless telephone system Cellular telephone systems,1G,2G,3G, WLL,WLAN,Bluetooth and PAN, Trends in Radio & Personnel Communication. UNIT-II The cellular concept system design fundamentals:-Basic Cellular system its operation, frequency reuse, handoff strategies, interference & system capacity-co channel interference, adjacent channel interference, nearend far-end effect, crosstalk, trunking & grade of service, Improving coverage and capacity in cellular systems, frequency management, Setup channels, channel assignment: Fixed & Non- Fixed channel assignment. UNIT-III Mobile radio propagation:-Free space propagation Model, three basic propagation mechanisms, practical link budget design using path loss models, outdoor propagation models-Okumura and Hata models, Indoor propagation models- partition loss, Ericson multiple break point model, small scale multipath propagation, parameters of mobile multipath channels, types of small scale fading. UNIT-IV Multiple access techniques for wireless communications:-FDMA, TDMA, Spread spectrum multiple access (SSMA), space division multiple access (SDMA), packet radio protocols, carrier sense multiple access (CSMA), reservation protocols.
Shoot & edit your images with superior mobile presets & advanced camera controls. Publish your work to your VSCO profile, and explore content from the. Is there vsco cam for mac. VSCO Film will work for both platforms. When you go into your My Downloads section of your VSCO account you will find two different.
UNIT-V Wireless systems and standards:-Advanced phone systems(AMPS),ETACS,GSM,CDMA Digital cellular standard (IS-95),DECT, personal access communication systems(PACS),Future public land mobile telecommunication systems(FPLMTS),UMTS & IMT-2000: UMTS relieases and standardization, UMTS system architecture, UMTS radio interface. Suggested Reading 1. Theodore.S.Rappaport, Wireless Communications: Principles and Practice, 2/e, Pearson Education, 2003. Simon Haykin & Michael Moher, Modern Wireless Communications, 1/e, Pearson Education, 2005. William.C.Y.Lee, Mobile Cellular Telecommunications: Analog and Digital Systems, 2/e, Mc-Graw Hill, 1995.-5-WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 ME 472 INDUSTRIAL ADMINISTRATION & FINANCIAL MANAGEMENT Instruction Duration of University Examination University Examination Sessional 4 Periods per week 3 Hours 75 Marks 25 MarksUNIT I Industrial Organization: Types of various business organisations, Organisation structures and their relative merits and demerits. Functions of management. Plant Location and Layouts: Factors affecting the location of plant and layout.
Types of layouts and their merits and demerits. UNIT II Work Study: Definitions, objectives of method study and time study. Steps in conducting method study. Symbols and charts used in method study. Principles of motion economy.
Calculation of standard time by time study and work sampling. Performance rating factor. Types of ratings. Jobs evaluation and performance appraisal. Wages, incentives, bonus, wage payment plans. UNIT III Inspection and Quality Control: Types and objectives of inspection S.Q.C., its principles. Quality control by chart and sampling plans.
Quality circles, introduction to ISO. UNIT IV Optimisation: Introduction to linear programming and its graphical solutions. Assignment problems.
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Project Management: Introduction to CPM and PERT.Determination of critical path. Material Management: Classification of materials, Materials planning.Duties of purchase manager. Determination of economic ordering quantities. Types of materials purchase. UNIT V Cost Accounting: Elements of cost. Various costs. Types of overheads.
Breakeven analysis and its applications. Methods of calculating depreciation fund.
Nature of financial management. Time value of money.Techniques of capital budgeting and methods. Cost of Capital, Financial leverage. Suggested Reading 1. Pandey I.M., Elements of Financial Management, Vikas Publications House, New Delhi, 1994.
Khanna O.P., Industrial Engineering and Management, Dhanapat Rai & Sons. Everrete E.Adama & Ronald J. Ebert, Production & Operations Management Prentice Hall of India, 5th Edition,2005. Chary, Production and Operations Management Tata McGraw Hill,3rd Edition,2006.
Paneer Selvam Production and Operations Management Person Eduction,2007.-6-WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 EC 431 MICROWAVE LAB Instruction Duration of University Examination University Examination Sessional List of Experiments 3 Periods per week 3 Hours 50 Marks 25 Marks1. Characteristics of Reflex Klystron oscillator, finding the mode numbers and efficiencies of differentmodes.2.
Characteristics of Gunn diode oscillator, Power Output Vs Frequency, Power Output Vs Bias Voltage. Measurement of frequency and Guide wavelength calculation:i.
Verification of the relation between Guide wavelength, free space wavelength and cutoff wavelength of X- band rectangular waveguide. Verification of the straight line relation between (1/g)2 and (1/0)2 and finding the dimension of the guide.4.
Measurement of low and high VSWRs: VSWR of different components like matched terminals, capacitiveand inductive windows, slide screw tuner for different heights of the tuning posts etc.5. Measurement of impedance.To find the parameters and scattering matrices of different microwave components like: 6. Directional coupler.7. Tees: E plane, H plane and Magic Tee. Measurement of radiation patterns for basic microwave antennas like horn and parabolic reflectors in Eplane and H-plane.
Also to finding the gain, bandwidth and beam width these antennas.10. Study of various antennas like dipoles, loops, Yagi antenna, log periodic antenna and their radiationpattern.11. Mini Project:i. To design microwave components such as: Directional couplers, circulators and Hybrid junctions using MATLAB software.To design antenna arrays such as: Binomial, Chebyshev, using MATLAB.
Design of a receiver at 2GHz with some bandwidth, porting it on to FPGA and to test using a microwave bench setup. Microwave link design. Note: Simulation software like Ansys with electromag / Ans of may be procured for microwave and antenna system design.-7-WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 EC - 432 Verilog HDL LAB Instruction Duration of University Examination University Examination Sessional Write the Code (using VERILOG), Simulate and Synthesize 1. Basic Logic Gates. Realization of a four variable function. Arithmetic Units (Adders, Subtractors). 8 - bit parallel adder using 4 - bit tasks and functions.
Multiplexers, Demultiplexers. Encoders, Decoders, Priority encoder. Four bit Digital Comparator. Arithmetic Logic Unit with 8 Instructions. Waveform generators 10. Sequence detector using Mealy and Moore type state machines. All the programs should be simulated using test benches.
Mini Project: 3 Periods per week 3 Hours 50 Marks 25 Marksi) ii) iii) iv) v)8 bit CPU Generation of different waveform using DAC. RTL code for Booths algorithm for signed binary number multiplication.
Development of HDL code to control speed, direction of DC/Stepper motor. Development of HDL code for MAC unit and realization of FIR Filter.-8-WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 EC 433 PROJECT SEMINAR Instruction Sessional 3 Periods per week 25 MarksOral presentation is an important aspect of engineering education. The objective of the seminar is to prepare the student for a systematic and independent study of the state of the art topics in a broad area of his / her specialization. Project seminar topics may be chosen by the student with advice and approval from the faculty members. Students are to be exposed to the following aspects of seminar presentation. Literature Survey Organization of the material Presentation of OHP slides / PC presentation Technical writingEach student is required to: 1.
Submit a one-page synopsis before the seminar talk for display on the notice board. Give a 20 minutes presentation through OHP, PC, Slide project followed by a 10 minutes discussion. Submit a report on the seminar topic with list of references and slides used.
WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 SCHEME OF INSTRUCTION & EXAMINATION B.E IV/IV (REGULAR) ELECTRONICS & COMMUNICATION ENGINEERING Semester-I Scheme of Instruction Periods/week L Microwave Engineering Verilog HDL Electronic Instrumentation Mobile Cellular Communication Elective-I Industrial Administration and Financial Management Microwave Lab Verilog HDL Lab Project Seminar Total ELECTIVES Sl. 1 2 3 4 5 6 CODE EC 405 EC 406 EC 407 EC 408 EC 409 EC 410 ELECTIVE I Data Communication & Computer Networks Embedded Systems Digital Image Processing VLSI Design Optical Fiber Communication Multi Rate Signal Processing D/T SCHEME OF EXAMINATION Duration in Hours 3 3 3 3 3 3 3 3 Max.
Sessional Exam 75 75 75 75 75 75 50 50 550 25 25 25 25 25 25 25 25 25 225Sl. No.Syllabus Reference No.Subject1. 9.EC 401 EC 402 EC 403 EC 404 ME 472 EC 431 EC 432 EC 433THEORY 4 4 4 4 4 4 -PRACTICALS 3 3 3 24 9-1-WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 EC 401 MICROWAVE ENGINEERING Instruction Duration of University Examination University Examination Sessional 4 Periods per week 3 Hours 75 Marks 25 MarksUNIT - I GUIDED WAVES: Propagation of TE, TM and TEM waves between parallel planes. Velocity of propagation, wave impedance, attenuation in parallel plane guides. Elements of strip lines, micro strip lines, slot lines and finlines. UNIT - II Wave Guides: TE and TM waves in rectangular and circular wave-guides, Wave Impedance, Characteristic Impedance, Attenuation and Q of wave-guides. Cavity resonators, resonant frequency and Q, Applications of cavity resonator.
UNIT - III Microwave Circuits and Components: Concept of Microwave circuit, Normalized voltage and current, Introduction to scattering parameters and their properties, Derivation of S Matrix for reciprocal and Nonreciprocal components- magic Tee, Directional coupler, E and H Plane Tees and their properties, Attenuators, Phase Shifters, Isolators and circulators. UNIT - IV Microwave Tubes: High frequency limitations of conventional tubes, Bunching and velocity modulation, mathematical theory of bunching, principles and operation of two cavity, multi cavity, Reflex Klystron, TWT and BWO. Theory of crossed field interaction; principles and operation of magnetrons and crossed field amplifiers. UNIT V Microwave Solid State Devices: Principles of operation, characteristics and applications of Varactor, PIN diode, GUNN diode and IMPATT diode. SuggestedRreading: 1. Jordan & Keith G. Balmain, Electromagnetic Waves and Radiating Systems, 2/e, Pearson Education, 2006 2.
Michael brandenburg bitcoin trader for mac. Liao, Microwave Devices and Circuits, 3/e, Pearson Education, 2003. Collins, Foundations for Microwave Engineering, 2/e, John Wiley & Sons, 2003. Pozar, Microwave Engineering, 2/e, John Wiley & Sons, 1999.
Peter A Rizzi, Microwave Engineering, Prentice Hall India, 1998.-2-WITH EFFECT FROM THE ACADEMIC YEAR 2009 - 2010EC 402 VERILOG HDL Instruction Duration of University Examination University Examination Sessional 4 Periods per week 3 Hours 75 Marks 25 MarksUNIT I Introduction to HDLs, Simulation, Capabilities of Verilog, Basic concepts, Data Types, System tasks and compiler directives, modules, ports, Gate level modeling, Gate types, Gate delays, Examples. UNIT II Dataflow modeling, continuous assignments, Delays, Expressions, Operators, Operands, Operator types, Examples, Writing Test Bench. Behavioral modeling, Structured procedures, Procedural Assignments, Timing controls, Conditional Statements, Multiway Branching, Loops, Sequential and parallel blocks, Generate Blocks, Examples. UNIT III Tasks, Functions, Procedural continuous assignments, Overriding parameters, Conditional compilation and execution, timing scales, System tasks, Timing and delays, Types of delay models, Path delay modeling, Timing checks, Switch level modeling, Switch modeling elements, Examples. UNIT IV User defined primitives, Uses of programming language interface.Finite state machines: Mealy and Moore state Models, Design of FSM using Verilog HDL.
UNIT V Logic synthesis, Impact of logic synthesis, HDL Synthesis, Synthesis design flow, Verification of the GateLevel Net list, Modeling tips for logic Synthesis, Examples of synthesis. Suggested Reading 1. Samir Palnitkar, Verilog HDL: A Guide to Digital Design and Synthesis, 2/e, Pearson Education,2005. M.Morris Mano & Michael D.Ciletti, Digital Design, 4/e, Pearson Education. Stephen Brown & Zvonko Vranesic, Fundamentals of Digital Logic with Verilog Design, Tata McGraw-Hill, 2002. Bhasker, A Verilog HDL Primer, 2/e, BS Publications,2001.
Ciletti, Advanced Digital Design with the Verilog HDL, PHI, 2005.-3-WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 EC 403 ELECTRONIC INSTRUMENATION Instruction Duration of University Examination University Examination Sessional 4 Periods per week 3 Hours 75 Marks 25 MarksUNIT-I Accuracy, Precision, Resolution and Sensitivity. Errors and their types. Standards of measurement, classification of standards, IEEE standards, Elements of ISO 9001, Quality management standards. UNIT -II Transducers: classification, factors for selection of a transducer, transducers for measurement of velocity, acceleration, force, radio activity, Hot wire anemometer. Passive electrical transducers- Strain gauges and strain measurement, LVDT and displacement measurement, capacitive transducer and thickness measurement. Active electrical transducers: Piezo electric, photo conductive, photo voltaic and photo emissive transducers.
UNIT-III Characteristics of sound, pressure, power and loudness measurement. Microphones and their types. Temperature measurement, resistance wire thermometers, semiconductor thermometers and thermocouples. Humidity measurement, resistive capacitive, aluminum oxide and crystal Hygrometer types. Magnetic tape recorders, direct recording, FM recording and digital recording. UNIT-IV Block diagram, specification and design considerations of different types of DVMs. Digital LCR meters, Spectrum analyzers.
The lEEE488 or GPIB Interface and protocol. Delayed time, base oscilloscope digital storage oscilloscope, and mixed signal oscilloscope. Introduction to virtual instrumentation SCADA.
Data acquisition system block diagram UNIT-V Biomedical Instrumentation: Human physiological systems and related concepts. Bio-potential electrodes Biopotential recorders - ECG, EEG, EMG, X- ray machines and CT scanners, magnetic resonance and imaging systems, Ultrasonic Imaging systems. Suggested Reading: 1. D, and Cooper W. D, Modern Electronic Instrumentation and Measurement Techniques, PHI, 1994. Robert A Witte, Electronic Test Instruments: Analog and Digital Measurements, 2/e, 2002.
Nakra B.C, and Chaudhry K.K., Instrumentation, Measurement and Analysis, TMH, 2004 4. R.S.,Handbook of Bio-Medical Instrumentation, TMH, 2003. MurthyD.V: S, Transducers and Instrumentation, PHI, 2003.-4-WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 EC 404 MOBILE CELLULAR COMMUNICATIONS Instruction Duration of University Examination University Examination Sessional 4 Periods per week 3 Hours 75 Marks 25 MarksUNIT-I Introduction to wireless communication systems:Evolution of Mobile radio communication, paging systems, cordless telephone system Cellular telephone systems,1G,2G,3G, WLL,WLAN,Bluetooth and PAN, Trends in Radio & Personnel Communication. UNIT-II The cellular concept system design fundamentals:-Basic Cellular system its operation, frequency reuse, handoff strategies, interference & system capacity-co channel interference, adjacent channel interference, nearend far-end effect, crosstalk, trunking & grade of service, Improving coverage and capacity in cellular systems, frequency management, Setup channels, channel assignment: Fixed & Non- Fixed channel assignment.
UNIT-III Mobile radio propagation:-Free space propagation Model, three basic propagation mechanisms, practical link budget design using path loss models, outdoor propagation models-Okumura and Hata models, Indoor propagation models- partition loss, Ericson multiple break point model, small scale multipath propagation, parameters of mobile multipath channels, types of small scale fading. UNIT-IV Multiple access techniques for wireless communications:-FDMA, TDMA, Spread spectrum multiple access (SSMA), space division multiple access (SDMA), packet radio protocols, carrier sense multiple access (CSMA), reservation protocols. UNIT-V Wireless systems and standards:-Advanced phone systems(AMPS),ETACS,GSM,CDMA Digital cellular standard (IS-95),DECT, personal access communication systems(PACS),Future public land mobile telecommunication systems(FPLMTS),UMTS & IMT-2000: UMTS relieases and standardization, UMTS system architecture, UMTS radio interface. Suggested Reading 1. Theodore.S.Rappaport, Wireless Communications: Principles and Practice, 2/e, Pearson Education, 2003. Simon Haykin & Michael Moher, Modern Wireless Communications, 1/e, Pearson Education, 2005.
William.C.Y.Lee, Mobile Cellular Telecommunications: Analog and Digital Systems, 2/e, Mc-Graw Hill, 1995.-5-WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 ME 472 INDUSTRIAL ADMINISTRATION & FINANCIAL MANAGEMENT Instruction Duration of University Examination University Examination Sessional 4 Periods per week 3 Hours 75 Marks 25 MarksUNIT I Industrial Organization: Types of various business organisations, Organisation structures and their relative merits and demerits. Functions of management. Plant Location and Layouts: Factors affecting the location of plant and layout. Types of layouts and their merits and demerits. UNIT II Work Study: Definitions, objectives of method study and time study. Steps in conducting method study.
Symbols and charts used in method study. Principles of motion economy.
Calculation of standard time by time study and work sampling. Performance rating factor. Types of ratings. Jobs evaluation and performance appraisal. Wages, incentives, bonus, wage payment plans.
UNIT III Inspection and Quality Control: Types and objectives of inspection S.Q.C., its principles. Quality control by chart and sampling plans. Quality circles, introduction to ISO. UNIT IV Optimisation: Introduction to linear programming and its graphical solutions. Assignment problems. Project Management: Introduction to CPM and PERT.Determination of critical path. Material Management: Classification of materials, Materials planning.Duties of purchase manager.
Determination of economic ordering quantities. Types of materials purchase. UNIT V Cost Accounting: Elements of cost. Various costs. Types of overheads. Breakeven analysis and its applications. Methods of calculating depreciation fund.
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Nature of financial management. Time value of money.Techniques of capital budgeting and methods.
Cost of Capital, Financial leverage. Suggested Reading 1. Pandey I.M., Elements of Financial Management, Vikas Publications House, New Delhi, 1994.
Khanna O.P., Industrial Engineering and Management, Dhanapat Rai & Sons. Everrete E.Adama & Ronald J. Ebert, Production & Operations Management Prentice Hall of India, 5th Edition,2005.
Chary, Production and Operations Management Tata McGraw Hill,3rd Edition,2006. Paneer Selvam Production and Operations Management Person Eduction,2007.-6-WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 EC 431 MICROWAVE LAB Instruction Duration of University Examination University Examination Sessional List of Experiments 3 Periods per week 3 Hours 50 Marks 25 Marks1. Characteristics of Reflex Klystron oscillator, finding the mode numbers and efficiencies of differentmodes.2. Characteristics of Gunn diode oscillator, Power Output Vs Frequency, Power Output Vs Bias Voltage. Measurement of frequency and Guide wavelength calculation:i. Verification of the relation between Guide wavelength, free space wavelength and cutoff wavelength of X- band rectangular waveguide.
Verification of the straight line relation between (1/g)2 and (1/0)2 and finding the dimension of the guide.4. Measurement of low and high VSWRs: VSWR of different components like matched terminals, capacitiveand inductive windows, slide screw tuner for different heights of the tuning posts etc.5. Measurement of impedance.To find the parameters and scattering matrices of different microwave components like: 6. Directional coupler.7. Tees: E plane, H plane and Magic Tee. Measurement of radiation patterns for basic microwave antennas like horn and parabolic reflectors in Eplane and H-plane. Also to finding the gain, bandwidth and beam width these antennas.10.
Study of various antennas like dipoles, loops, Yagi antenna, log periodic antenna and their radiationpattern.11. Mini Project:i. To design microwave components such as: Directional couplers, circulators and Hybrid junctions using MATLAB software.To design antenna arrays such as: Binomial, Chebyshev, using MATLAB. Design of a receiver at 2GHz with some bandwidth, porting it on to FPGA and to test using a microwave bench setup. Microwave link design. Note: Simulation software like Ansys with electromag / Ans of may be procured for microwave and antenna system design.-7-WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 EC - 432 Verilog HDL LAB Instruction Duration of University Examination University Examination Sessional Write the Code (using VERILOG), Simulate and Synthesize 1. Basic Logic Gates.
Realization of a four variable function. Arithmetic Units (Adders, Subtractors). 8 - bit parallel adder using 4 - bit tasks and functions. Multiplexers, Demultiplexers. Encoders, Decoders, Priority encoder. Four bit Digital Comparator.
Arithmetic Logic Unit with 8 Instructions. Waveform generators 10. Sequence detector using Mealy and Moore type state machines. All the programs should be simulated using test benches. Mini Project: 3 Periods per week 3 Hours 50 Marks 25 Marksi) ii) iii) iv) v)8 bit CPU Generation of different waveform using DAC. RTL code for Booths algorithm for signed binary number multiplication. Development of HDL code to control speed, direction of DC/Stepper motor.
Development of HDL code for MAC unit and realization of FIR Filter.-8-WITH EFFECT FROM THE ACADEMIC YEAR 2009-10 EC 433 PROJECT SEMINAR Instruction Sessional 3 Periods per week 25 MarksOral presentation is an important aspect of engineering education. The objective of the seminar is to prepare the student for a systematic and independent study of the state of the art topics in a broad area of his / her specialization.
Project seminar topics may be chosen by the student with advice and approval from the faculty members. Students are to be exposed to the following aspects of seminar presentation. Literature Survey Organization of the material Presentation of OHP slides / PC presentation Technical writingEach student is required to: 1. Submit a one-page synopsis before the seminar talk for display on the notice board.
Audio Analyser/measurement Tool For Mac Download
Give a 20 minutes presentation through OHP, PC, Slide project followed by a 10 minutes discussion. Submit a report on the seminar topic with list of references and slides used.
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