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Laboratories Data List of Experiments

1 Computer & System Simulation Lab

1.1 Computer Fundamentals

List of Experiments

Experiment 1: Computation of number systems

Experiment 2: Introduction to the Microsoft office and its different tools

Experiment 3: Structure of C++ programming

Experiment 4: Different operators used in programming techniques

Experiment 5: Arithmetic operation

Experiment 6: if Statement

Experiment 7: if/else selection Statement

Experiment 8: The nested conditional structures

Experiment 9: Logical operators

Experiment 10: Loop Statements

Experiment 11: The do-while loop

Experiment 12: Functions

1.2 Object Oriented Programming

List of Experiments

Experiment 1: To display a message (on console, on dialog box)

Experiment 2: To take input on dialog box

Experiment 3: How to create object (instance) of class.

Experiment 4: Use of Arithmetic operator

Experiment 5: Use of if-else selection structure.

Experiment 6: Use of escape sequence

Experiment 7: Use of Loops

Experiment 8: Switch

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Experiment 9: Arrays (Addition of integer values stored in arrays, Searching maximum

and minimum number)

Experiment 10: Constructor (How to make constructor, How to initialize values, Passing

parameters to constructor, Constructor Overloading, Default copy constructor)

Experiment 11: Constructor (How to make constructor, How to initialize values, Passing

parameters to constructor, Constructor Overloading, Default copy constructor)

Experiment 12: Static variable & Static method (Static variable, Static method)

Experiment 13: Inheritance (Use of Inheritance, Inheritance from object class)

Experiment 14: GUI

Experiment 15: Exception Handling

Experiment 16: Files and Streams (Reading Text Files, Writing Text Files)

1.3 Introduction to Power Engineering

List of Experiments

Experiment 1: To study the voltage regulation of a transmission line under different

loads(simulation)

Experiment 2: To study the effect of line parameters on voltage

regulation(simulation)

Experiment 3: To observe Ferranti effect in a high voltage transmission line and its

shunt inductor compensation(simulation)

Experiment 4: To study shunt capacitive compensation in a transmission

line(simulation)

Experiment 5: To study series capacitive compensation in a transmission

line(simulation)

Experiment 6: Measurement of power factor of a single phase AC load

Experiment 7: Measurement of 3phase active power by two wattmeter method

Experiment 8: Measurement of 3phase reactive power by one wattmeter

Experiment 9: Synchronization of an alternator with bus bar

Experiment 10: Power factor improvement

Experiment 11: Murray loop test to locate earth fault

Experiment 12: (Tentative) Introduction to ETAP software

Experiment 13: (Tentative) Study of one line diagram of 3phase power system in ETAP.

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1.4 Mobile & Wireless Communication

Experiment 1: Introduction to SIMULINK (To get familiar with basic components of

SIMULINK)

Experiment 2: Multipath fading and delay spread (Impulse on a channel, Tones through

a channel, and Interference patterns through a channel)

Experiment 3: Introduction to SIMULINK error control (Frames and frame-based

processing, Building a channel noise model)

Experiment 4: Simulating amplitude modulation and demodulation (Creating a DSB-SC

AM modulator and De-modulator)

Experiment 5: Simulating Frequency modulation and demodulation.

Experiment 6: Amplitude Shift Keying & Phase Shift Keying

Experiment 7: Diversity and Channel Coding, Speech coading.

Experiment 8: FDMA, TDMA, Spread Spectrum, CDMA and SDMA.

Experiment 9: Wireless network radio channel design.

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2 Computer Architecture Lab:

2.1 Digital Signal Processing

List of Experiments

Experiment 1: Introduction to Matlab, Representation of Discrete Time Signals

Experiment 2: Normalized Frequency and Integrations using Summations

Experiment 3: Energy and Average Power of D.T signals, moving average filter

Experiment 4: Quantization, Signal to Quantization noise ratio

Experiment 5: LTI Systems, Convolution

Experiment 6: Frequency Analysis and Parsevals Theorem

Experiment 7: Frequency Response, Phase Response, Fourier Domain and Convolution

Experiment 8: FIR filter design

Experiment 9: Applied DSP, Audio Signal Processing

Experiment 10: Multi-dimensional Signal Processing

2.2 Computer Communication Networks

List of Experiments

Experiment 1: Introduction to Opnet IT Guru

Experiment 2: Operation of the Ethernet network

Experiment 3: Implementation of a token ring network

Experiment 4: Implementation of Switched local area networks

Experiment 5: To design & plan a Network with Different Users, Hosts, and services

Experiment 6: The effect of ATM adaptation layers and service classes on the

performance of the network

Experiment 7: To configure and analyze the performance of the Routing information

Protocol (RIP) model

Experiment 8: To configure and analyze the performance of the Open Shortest path First

(OSPF) routing protocol

Experiment 9: To demonstrate the congestion control algorithms implemented by the

Transmission Control Protocol (TCP)

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Experiment 10: To examine the effect of different queuing disciplines on packet delivery

and delay for different services

Experiment 11: To study the Resource Reservation Protocol (RSVP) for providing

Quality of service (QOS) to individual applications

Experiment 12: To study the role of firewalls and Virtual Private Networks (VPNs)

Experiment 13: To analyze the performance of an Internet application protocol

2.3 Computer Hardware & FPGA List of Experiments

Experiment 1: Introduction to Xilinx ISe Webpack Software

Experiment 2: Design of Half/Full Adder

Experiment 3: Design of 8-bit Adder-Subtractor

Experiment 4: Design of 8-bit Ripple Carry Adder

Experiment 5: Design of Decode/Encoder

Experiment 6: Design of MUX/DeMUX

Experiment 7: Design of Comparator

Experiment 8: Design of 8x8-bit Multiplier

Experiment 9: Design of Up-Down Counter

Experiment 10: Design of Arithmetic & Logic Unit

Experiment 11: Design of 8-bit Register

Experiment 12: Design of 16x16 tap tap FIR Filter

Experiment 13: Design of 8x8-bit SRAM

Experiment 14: Design of 3Layer Neural Network

2.4 Embedded System Design

List of Experiments

Microcontroller (Assembly language programming for 8051)

Experiment 1: (a) Write a program to load the accumulator with value 55H and

compliment the accumulator 100 times. (b) Write a program to clear the accumulator

and the add 3 to the accumulator 10 times.

Experiment 2: Write a code that toggles the pin of Port 0, 1 and 2 after sometimes

delay.

Experiment 3: (a) Write a program to perform the following.

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1. Keep monitoring P1.2 until it becomes high.

2. When P1.2 becomes high write value 45H on P0.

3. Sent a high to low pulse to P2.3

(b) A switch is connected to P1.7. Write a program to check the status of switch

and perform the following:

1. If switch = 0, send letter N to P2

2. If switch = 1, send letter Y to P2

Experiment 4: (a) Write a program which creates a square wave of 50% duty cycle on

P1.5. Use Timer 0 to generate the time delay of Mode 1. (b)Write a program which

generates a square wave on pin P1.0. Use Timer 1 in Mode 2.

Experiment 5: (a) Write a program for the 8051 to transfer letter A Serially,

continuously. (b) Write a program for the 8051 to transfer the message YES serially.

Do this continuously. (c) Program the 8051 to receive bytes of data serially, and put

them in P1.

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3 Workshop

3.1 Work Shop Practice

List of Experiments

Experiment 1: Assembling a simple circuit on bread board

Experiment 2: Fabricating simple electronics circuit on vero-board

Experiment 3: Fabrication of PCB with drilling and etching process

Experiment 4: Assembling and soldering components on a PCB

Experiment 5: Implementation and Manufacturing of signal sided boards printed circuit

board

Experiment 6: Use of software tool for PCB Design

Experiment 7: Electric wiring drawing and practice in simple wring and testing methods

(Types of cable including switches and plug)

Experiment 8: Semester project on single side Printed circuit board

Experiment 9: Cutting and squaring of steel strips

Experiment 10: Drilling and marking of steel strips

Experiment 11 Welding of steel plates

Experiment 12: Preparation of wooden electric box using carpentry shop

Experiment 13: Preparation of specimen using different operation at Lathe machine

Experiment 14: Soldering of electric wires

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4 Communication Systems Lab:

4.1 Digital Communication

List of Experiments

Experiment 1: ASK Modulator

Experiment 2: ASK demodulator ASK asynchronous detector

Experiment 3: ASK demodulator ASK synchronous detector

Experiment 4: FSK modulator

Experiment 5: FSK demodulator

Experiment 6: PSK demodulator

Experiment 7: PSK modulator

Experiment 8: QPSK modulator

Experiment 9: Signal squarer and PLL

Experiment 10: QPSK demodulator

Experiment 11: Uni-polar and bipolar NRZ signal decoder

Experiment 12: Uni-polar and bipolar RZ signal decoder

Experiment 13: AMI signal decoder

Experiment 14: Manchester signal decoder

Experiment 15: PCM modulator

Experiment 16: PCM demodulator

4.2 Wave Propagation & Antennas

List of Experiments

Experiment 1: Familiarization with antenna trainer

Experiment 2: Study of antenna polarization, axial ratio and tilt angle of circularly

polarized antenna.

Experiment 3: Study of dipole antenna and its radiation pattern.

Experiment 4: Study of horn antenna and its radiation pattern.

Experiment 5: Measurement of the gain of horn antenna using.

Experiment 6: Study of yagi antenna and its radiation pattern.

Experiment 7: Study of helical antenna and its radiation pattern.

Experiment 8: Study of para-boloidal reflector antenna and its radiation pattern.

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Experiment 9: Study of four element rectangular patch antenna.

Experiment 10: Study of double dipole array antenna.

Experiment 11: Study of slotted line and measurement of wavelength and frequency.

Experiment 12: Measurement of VSWR using slotted line.

Experiment 13: Measurement of unknown impedance.

4.3 Communication Systems

Communication Systems

List of Experiments

Experiment 1: RF Oscillators Colpitts oscillators

Experiment 2: RF Oscillators Hartley oscillators

Experiment 3: Second order low-pass filters

Experiment 4: Second order high-pass filters

Experiment 5: Second order band-pass filters

Experiment 6: AM Modulator Diode detector of amplitude demodulator

Experiment 7: AM Modulator Product detector of amplitude demodulator

Experiment 8: FM Modulator The basic characteristics measurement of LM565PLL

Experiment 9: FM Modulator The characteristics of voltage and frequency conversion

of LM565PLL

Experiment 10: Phase looked loop frequency demodulator

Experiment 11: FM and AM conversion frequency demodulator

Experiment 12: ADC 0804 analog to digital convertor

Experiment 13: ADC 0809 analog to digital convertor

Experiment 14: DAC 0800 unipolar voltage output

Experiment 15: DAC 0800 bipolar voltage output

Experiment 16: uA741 Pulse Width Modulator

Experiment 17: LM55 Pulse Width Modulator

Experiment 18: PWM modulator

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4.4 Microwave Devices

List of Experiments

Experiment 1: Introduction to microwave VCO source and detector and action of a 3-

PORT circulator (Measurement of transmission power, Measurement of power

transmitter to decoupled/isolated port, Measurement of PORT 3 with power reflected at

PORT 2, Measurement of transmission power P1 with circulator)

Experiment 2: Measurement of insertion loss characteristics of low pass filter and band

pass filter (Insertion loss of low pass filter, Insertion loss of band pass filter)

Experiment 3: Properties of directional coupler (Investigate directional properties,

coupling directivity and insertion loss of directional coupler, Coupling, directivity and

insertion loss)

Experiment 4: Measurement of return loss, reflection co efficient and VSWR

(Measurement of return loss, Measurement of reflection coefficient, Measurement of

VSWR)

Experiment 5: Matching investigation (Impedance of unknown resistive load, Matching

by transformer and shunt stub technique)

Experiment 6: Properties of power divider and rat race hybrid coupler (Power divider

unit PD investigation, RAT-RACE hybrid ring coupler)

Experiment 7: Measurement of electric, dielectric constant using ring resonator (Ring

resonator, Unit RR investigation)

Experiment 8: DC biasing and MMIC amplifier (DC biasing, amplifier investigation)

Experiment 9: Properties of quadrature branch line coupler (Branch line coupler

investigation)

Experiment 10: Microwave radio link and patch antenna (Antenna gain)

4.5 Satellite Communication

List of Experiments

Experiment 1: Understanding basic concepts of satellite communication.

Experiment 2: Establishing a direct communication link between uplink transmitter and

down link receiver using tone signal.

Experiment 3: Setting up an active satellite link and demonstrate link fail operations.

Experiment 4: Establishing an audio-video satellite link between transmitter and

receiver.

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Experiment 5: Communicating voice signal through satellite link.

Experiment 6: Changing different combinations of uplink and downlink frequencies and

to check the communication link.

Experiment 7: Transmitting and receiving three separate signals (audio, video, tone)

simultaneously through satellite link.

Experiment 8: Transmitting & receiving Function Generator Waveforms through

Satellite Link.

Experiment 9: Transmitting & receiving PC Data through Satellite Link.

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5 Electronic Devices & Circuits Lab:

5.1 Electrical Circuits I

List of Experiments

Experiment 1: Introduction to Laboratory Instruments

Experiment 2: Measurements of Waveforms and Fundamental Quantities

Experiment 3: Resistors and Ohms Law

Experiment 4: Series Resistive Circuits

Experiment 5: Parallel Resistive Circuits

Experiment 6: Series Parallel Resistive Circuits

Experiment 7: Verification of Kirchhoffs Laws

Experiment 8: Voltage Divider Circuits

Experiment 9: Op-Amp Circuits Introduction

Experiment 10: Instrumentation Amplifier

Experiment 11: Study of Natural Response of RC Circuit

5.2 Electronic Devices & Circuits I

List of Experiments

Experiment 1: Introduction to solderless bread board, electrical symbols, digital

multimeter, CRO (Cathode Ray Oscilloscope).

Experiment 2: To study the characteristics of silicon and germanium diodes.

Experiment 3: To study the characteristics of Zener diode and the voltage regulation in

Zener diode regulation circuit.

Experiment 4: To calculate and draw the DC output voltages of half-wave rectifier

Experiment 5: To calculate and draw the DC output voltages of full-wave bridge

rectifier

Experiment 6: To obtain the characteristics of Light emitting diode (LED).

Experiment 7: Given a DC power supply VCC, generate a DC supply voltage VOUT

having:

VOUT 2VCC (voltage doubler)

Experiment 8: To check the effect of filter capacitance on pulsating DC of Half Wave

Rectifier

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Experiment 9: To study the waveforms of series unbiased clipper and its waveforms.

Experiment 10: To develop an idea of Parallel Clipping action

Experiment 11: To study the operation of unbiased clamper

Experiment 12: To study the operation of unbiased clamper

Experiment 13: To graph the collector characteristics of a transistor using experimental

methods

Experiment 14: To Study and verify biasing techniques of BJT

Experiment 15: To measure AC and DC voltages in a common-emitter amplifier

5.3 Electrical Circuits II

List of Experiments

Experiment 1: To verify Thevenins theorem in a DC network

Experiment 2: To verify Maximum Power Transfer theorem in a DC network

Experiment 3: To study the Pulse Response of a series RC network

Experiment 4: To study the Pulse Response of a series RL network

Experiment 5: To show the frequency response of an RLC network and verify its

mathematical relation

Experiment 6: To study the sinusoidal response of an RLC circuit

Experiment 7: To plot the magnitude and phase response of a simple Low Pass RC filter

Experiment 8: To plot the magnitude and phase response of a simple High Pass RC filter

Experiment 9: To study the frequency characteristics of a simple Low pass filter circuit

and to understand the behavior of the circuit with respect to the pole zero location

Experiment 10: To study the frequency characteristics of a simple High pass filter

circuit and to understand the behavior of the circuit with respect to the pole zero location

Experiment 11: To plot the magnitude and phase response of a series resonant band pass

filter

Experiment 12: To plot the magnitude and phase response of a series resonant band stop

filter

Experiment 13: To verify principle of superposition using AC and DC sources

Experiment 14: To plot the overdamped, underdamped, critically damped and

oscillatory response

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5.4 Electronic Devices & Circuits II

List of Experiments

Experiment 1: BJT Base-Biasing Circuit

Experiment 2: BJT Emitter-Biasing Circuit

Experiment 3: BJT Collector Feedback-Biasing Circuit

Experiment 4: BJT Voltage Divider-Biasing Circuit

Experiment 5: Common-Emitter Amplifier

Experiment 6: Common-Base Amplifier

Experiment 7: Common Collector Amplifier

Experiment 8: To study the Operation of Inverting Operational Amplifiers

Experiment 9: To investigate the Operation of Inverting Integrator

Experiment 10: To investigate the Operation of BJT Current Mirror

Experiment 11: JFET: Characteristics

Experiment 12: Cascaded Transistor Amplifier: Direct Coupled

Experiment 13: Cascaded Transistor Amplifier: RC Coupled

5.5 Power Electronics

List of Experiments

Experiment 1: Single phase half wave uncontrolled rectifier with resistive and inductive

load

Experiment 2: Single phase full-wave uncontrolled rectifier with resistive and inductive

load

Experiment 3: Single phase half wave controlled rectifier with resistive triggering

Experiment 4: Single phase half wave controlled rectifier with RC triggering (Part I)

Experiment 5: Single phase half wave controlled rectifier with RC triggering (Part II)

Experiment 6: Single phase full wave controlled rectifier with resistive triggering

Experiment 7: Single phase full wave controlled rectifier with RC triggering

Experiment 8: Gate driver circuit for N-channel MOSFET

Experiment 9: Gate driver circuit for P-channel MOSFET

Experiment 10: PWM generation for sampling purposes

Experiment 11: Series Voltage Regulator

Experiment 12: Use of Regulators ICs

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6 Microprocessor Lab:

6.1 Microprocessor Based Systems

List of Experiments

Experiment 1: 8255A Interface (LED & 7-Segment)

Experiment 2: Dot-Matrix LED (Dot-Matrix LED Display, Dot-Matrix LED Interface,

SPEAKER Interface)

Experiment 3: 8251A Interface

Experiment 4: LCD Display (LCD, LCD Interface)

Experiment 5: Keyboard Interface (Keyboard Interface)

Experiment 6: D/A Converter (D/A Converter Specification, D/A Converter Interface,

D/A Converter Experiment)

Experiment 7: A/D Converter (A/D Converter Specification, A/D Converter Interface,

A/D Converter Experiment)

Experiment 8: Stepping Motor Control (Stepping Motor Specification, Stepping Motor

Interface, Stepping Motor Experiment)

Experiment 9: C LANGUAGE (LED.C, FND.C, MATRIX.C, DAC.C, ADC.C,

LCD.C, D8251A.C, D8253.C, I8259.C, STEPMO.C)

6.2 Optical Fiber Communications

List of Experiment

Experiment 1: Introduction of Fiber Optical Communication

Experiment 2: Design receiver Amplifier Design

Experiment 3: Transmission of signal in simplex digital communication, through

optical fiber using (TX170 & RX198 modules)

Experiment 4: Setting up fiber optic analog link

Experiment 5: Setting up fiber optic digital link

Experiment 6: Intensity modulation system using analog input signal

Experiment 7: Intensity modulation system using digital input signal

Experiment 8: Frequency modulation system

Experiment 9: Pulse width modulation system

Experiment 10: Study of Propagation loss in optical fiber

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Experiment 11: Study of bending loss

Experiment 12: Measurement of optical power using Optical power meter

Experiment 13: Measurement of Numerical Aperture

Experiment 14: Characteristics of E-O converter using OPM characteristics

6.3 Digital Logic Design

List of Experiment

Experiment 1: Familiarization with the AT-700 Portable Analog/Digital Laboratory

Trainer (digital logic design prospective) and ICs of all logic gates. Verification of truth

tables of all logic gates.

Experiment 2: Construction of all Logic Gates by using universal gates, NAND gate and

NOR gate, and verifying their results.

Experiment 3: Design and implementation of HALF-ADDER, FULL-ADDER, 4-BIT

Parallel Adder circuit.

Experiment 4: Design and implementation of HALF-SUBTRACTOR, FULL-

SUBTRACTOR 4-BIT Parallel SUBTRACTOR circuit.

Experiment 5: Design and implementation of Gray to BCD converter.

Experiment 6: To check the operation of 2-to-4 line Decoder and 3-to-8 line Decoder.

Using the 74LS139 IC, design a Binary Code Decimal to the seven segment decoder.

Experiment 7: Designing Binary Code Decimal encoder, its understanding and its

analysis. Design of octal to binary encoder and decimal to binary encoder.

Experiment 8: Designing of 2-to-1, 4-to-1 line multiplexer and a quadruple 2-to-1 line

MUX. Also implement 1-to-4 line demultiplexer.

Experiment 9: Designing of 4-BIT Magnitude comparator and magnitude comparison

using 74LS85 IC.

Experiment 10: Introduction, design and testing of Basic flip flop circuits SC or SR,

JK, D and T-Flip Flops using NAND gate. Also with IC7476 and IC7474.

Experiment 11: Designing of SISO, SIPO, PISO and PIPO shift register using D FF.

Experiment 12: Designing of simple ring counter circuits and Johnson counter circuits.

Experiment 13: Introduction and Designing of synchronous Up and Down counter and

its implementation of using J-K flip flop IC.

Experiment 14: Analysis of Pre-settable counters.

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7 Power Engineering Lab:

7.1 Electrical Machines

List of Experiments

Experiment 1: Voltage regulation of a single phase transformer

Experiment 2: Magnetic characteristics of DC generator

Experiment 3: Load characteristics of DC generator

Experiment 4: Load characteristics of DC series motor

Experiment 5: Speed control of DC motor

Experiment 6: Voltage drop components in DC shunt generator

Experiment 7: Synchronization of an alternator with infinite bus bar

Experiment 8: Open circuit test and short circuit test of transformer

Experiment 9: Load characteristics of induction motor

Experiment 10: Circle diagram of induction motor

Experiment 11: V-curves of synchronous motor

Experiment 12: Load test of single phase motor

7.2 Introduction to Power Engineering

List of Experiments

Experiment 1: To study the voltage regulation of a transmission line under different

loads(simulation)

Experiment 2: To study the effect of line parameters on voltage

regulation(simulation)

Experiment 3: To observe Ferranti effect in a high voltage transmission line and its

shunt inductor compensation(simulation)

Experiment 4: To study shunt capacitive compensation in a transmission

line(simulation)

Experiment 5: To study series capacitive compensation in a transmission

line(simulation)

Experiment 6: Measurement of power factor of a single phase AC load

Experiment 7: Measurement of 3phase active power by two wattmeter method

Experiment 8: Measurement of 3phase reactive power by one wattmeter

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Experiment 9: Synchronization of an alternator with bus bar

Experiment 10: Power factor improvement

Experiment 11: Murray loop test to locate earth fault

Experiment 12: (Tentative) Introduction to ETAP software

Experiment 13: (Tentative) Study of one line diagram of 3phase power system in ETAP.

7.3 Instrumentation & Measurements

List of Experiments

Experiment 1: Platinum RTD resistance transducer

Experiment 2: Photovoltaic cell

Experiment 3: A photoconductive cell

Experiment 4: The construction and circuit arrangement of an LVDT

Experiment 5: Construction of a strain gauge transducer

Experiment 6: The construction of a reflective opto-transducer, consisting of an infrared

LED and phototransistor

Experiment 7: Hall Effect Transducer

Experiment 8: Ultrasonic transmitter/receiver for sound measurement

Experiment 9: Describe the characteristics of Servo Potentiometer and Taco generator.

Experiment 10: Describe the characteristics of a voltage to frequency converter (V/F).

Experiment 11: Investigate control techniques by applying to a position control system.

Experiment 12: Variation of output with setting of rotary potentiometer

Experiment 13: Variation of output with setting of slide potentiometer

Experiment 14: Resistance measurement wheatstone bridge

Experiment 15: Thermistor

Experiment 16: Thermocouple

Experiment 17: Filament lamp

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8 Applied Physics Lab:

8.1 Applied Physics

MECHANICS SECTION:

1. To determine the moment of inertia of a fly wheel.

2. To determine the viscosity of glycerine.

3. Verify the Newtons law of cooling.

4. To determine the value of g (acceleration due to gravity) by a compound

pendulum (bar with hole) and calculate its radius of gyration and moment of

inertia.

5. Determination of electrochemical equivalent of copper.

ELECTRICTY SECTION

6. To determine the resistance of the galvanometer using half deflection

method.

7. Conversion of a galvanometer into an ammeter.

8. Conversion of a galvanometer into a voltmeter

9. Calibration of voltmeter and ammeter with the help of potentiometer.

10. To determine an unknown low resistance using carey-foster bridge

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9 Control & Instrumentation Lab:

9.1 Linear Control System

List of Experiments

Experiment 1: Introduction to MATLAB basics in Control system

Experiment 2: Mathematical Models (To learn how to define a polynomial, to find roots

of polynomial, to multiply two polynomials, to evaluate a polynomial at a value of

independent variable)

Experiment 3: LTI Models (To learn how to find the transfer function of a system, to

compute the step response, to compute the Impulse response)

Experiment 4: LTI Models - Using block diagram (To learn how to compute the transfer

function from the block diagram of a system, to compute the step response, to compute

the impulse response

Experiment 5: State Variable Models (To learn how to convert the transfer function of a

system into a state variable representation and vice versa, To learn how to simulate a

system expressed in state variable form).

Experiment 6: Control Systems Characteristics (To explore the Steady state error of

Control system, to explore the sensitivity of control system)

Experiment 7: Root Locus Analysis (To explore the root-locus analysis of a control

system)

Experiment 8: Introduction to SIMULINK basics

Experiment 9: Solving first order differential equations using SIMULINK

Experiment 10: Introduction to process simulator

Experiment 11: Open-loop control of linear system (using process simulator trainer)

Experiment 12: Closed loop system (using process simulator trainer)

Experiment 13: Motor speed input/torque characteristics (using advanced servo and dc

control trainer)

Experiment 14: Basic closed loop control & simple speed control with increased gain

(using advanced servo and dc control trainer)