• Electronic Devices and Circuits Laboratory
  • Linear and Digital ICs Lab
  • Sensors and Transducers Lab
  • Microprocessors and Microcontrollers Laboratory
  • Process Control Lab
  • Modern Electronic Instrumentation Lab
  • Industrial Automation Lab
  • Simulation Lab

Electronic Devices And Circuits Laboratory

The basic working principles of electronic instruments such as CRO, Function generator , single and dual power supply, multimeters and components such as IC’s , diodes, transistors, resistors are studied in this lab. The characteristics of electronic devices, amplifiers and oscillators are tested and verified. The operating principle and applications of electronic circuits and devices like amplifier, oscillator, switching circuits, wave shaping circuits and multivibrators are analysed. Various electronic circuits have been designed to know the performance of the electronic devices.

Objectives

  • To understand the basic working principle of electronic devices
  • To specify various active and passive electronic components and devices and identify the terminals and to draw the symbols for different electronic components
  • To investigate , test and verify the characteristics of electronic devices, amplifiers and oscillators

Scope

  • Gaining knowledge about instruments such as CRO, Function generator , single and dual power supply, multimeter, and to analyze the characteristics of components such as diodes, transistors, resistors, capacitors, inductors , LEDs, etc

List of Experiments / Exercises

  1. PN Junction diode and Zener diode
  2. Rectifier with and without filters (Full wave & Half wave)
  3. FET characteristics
  4. Measurement of h parameters of transistor in CB, CE, CC configurations
  5. CE Amplifier and CC amplifiers
  6. Single stage R-C coupled Amplifier
  7. FET amplifier (Common Source)
  8. Wien Bridge and RC Phase Shift Oscillators
  9. Hartley and Colpitts Oscillators
  10. SCR, DIAC and TRIAC characteristics
  11. Clippers and clampers
  12. RC wave shaping circuits

Equipments Details

Sl. No Name of the Equipment Make Quantity
1 Spectrum Analyzer model SA 3010 Aplab Ltd., Chennai. 1
2 Pre regulated Bench power supply 15V-300V/1A (Model H0310) Aplab Ltd., Chennai. 1
3 Dual Trace Oscilloscope 20 MHz model 3305S,30 MHz model SM410,20 MHz model 3305S ScientificMes – Technik Pvt. Ltd, Chennai 1,2,7
4 Dual Trace Oscilloscope 20 MHz model 3305S 30 MHz model SM410 20 MHz model 3305S Aplab Ltd., Chennai. 1, 2, 7
5 Adaptable Regulated Dual output Power Supply 0-32/0-2ª (Model LD 3202) Aplab Ltd., Chennai. 11
6 CROMPTON DC Potentiometer Lab tech electronics, Chennai. 1
7 DC Volt ratio box 300v,150v,100v,5v o/p 2v Best Match, Chennai. 1
8 Adaptable Regulated Power Supply O/P 0-32/0-2A (Model L3202) Aplab Ltd., Chennai. 5
9 Fixed Output Dual Tracking DC preset Power supply +/- 15V (Model FD 1502) Aplab Ltd., Chennai. 10
10 Function Generator 1 MHz model FG1M Function Generator 3 MHz modelFG3MD Aplab Ltd., Chennai. 7, 4
11 Digital IC Power supply 5 Volts (Model FL0502) Aplab Ltd., Chennai. 3
12 Decade Inductance box 1 mH – 10 H Decade Inductance Box- 5 dial Asian Engg, Chennai. 4
13 Autotransformer 2 A 4A Delcon auto transformer Asian Engg, Chennai. 2
14 Decade Capacitance Box 100 pf – 11 µF Decade Capacitance Box- 5 dial Asian Engg, Chennai. 4
15 Wattmeter 1 phase 300 V / 10 A Asian Engg, Chennai. 1
16 Decade Resistance Box Asian Engg, Chennai. 8
17 Stereo Socket Head phone Asian Engg, Chennai. 11
18 Ammeter Asian Engg, Chennai. 37
19 Micro Ammeter Asian Engg, Chennai. 21
20 Energy meter 2 wire 10 A 50 Hz Praveen sales & services 1
21 Voltmeter MC Asian Engg, Chennai. 43
22 Hays bridge Asian Engg, Chennai. 1
23 Anderson bridge Asian Engg, Chennai. 1
24 Galvanometer 30-0-30g Asian Engg, Chennai. 3
25 Rheostat Asian Engg, Chennai. 7
26 ELECTRONIC CIRCUITS KIT Asian Engg, Chennai. 8
27 TACHOMETER (digital) Asian Engg, Chennai. 1
28 Digital multimeter Best mach, Chennai. 9
29 Digital IC Tester (Microprocessor based Digital IC tester (40 pin) with 16 digit display 24 keys key board. VI microsystem, Chennai. 1
30 Loading Resistance bank 20A 230V AC in wheel mounted mesh enclosure Best mach, Chennai. 1
31 General Purpose Power Supply _ DC O/P:2*30V/3A(variable),1*5V/3A;Digital display for Voltage current ScientificMes – TechnikPvt. Ltd, Chennai. 1
32 Digital Multi meter V I Microsystem, chennai. 7
33 Digital IC trainer V I Microsystem, Chennai. 1
34 1Ph 4 A 240V/0-270V Varriac /Auto transformer Enclosed Type V I Microsystem, Chennai. 1
35 Voltmeter Oxford. 20
36 Ammeter Oxford 25
37 Micro Ammeter Oxford. 15
38 LVDT Trainer kit LAB tech electronics. 1

Linear Integrated Circuits and Digital Design Lab

This laboratory helps the students to acquire skills of designing and testing integrated circuits. The main objectives of the lab are to analyze and design various applications of Op-Amp, Designing and constructing the waveform generation circuits, using op-amps and timers. The logic gate functions can be studied and combinational logic circuits, sequential logic circuits are designed and analyzed.

Objectives

  • To learn about the linear and non-linear applications of operational amplifiers
  • To learn applications of analog multipliers and PLL
  • To learn application of ADC and DAC
  • To introduce the concepts of waveform generation and some special function ICs
  • To design combinational logic circuits using digital IC’s

Scope

  • Gaining knowledge about usage of ADC , DAC, timing circuit and amplifier circuit in the mini and major projects

List of Experiments / Exercises

Part A (IC Application Lab)

    1. OP AMP Applications – Adder, Subtractor, Integrator and Differentiator Circuits using IC 741.
    2. Active Filter Applications – LPF, HPF (first order).
    3. IC 741 Oscillator Circuits – Phase Shift and Wien Bridge Oscillators.
    4. Function Generator using OP AMPs.
    5. IC 555 Timer – Monostable and Astable Operation Circuit.
    6. IC 565 – PLL Applications, IC 566 – VCO Applications.
    7. Voltage Regulator using IC 723.
    8. Three Terminal Voltage Regulators – 7805, 7809, 7912.
    9. 4 bit DAC using OP AMP.

Part B (IC Application Lab)

    1. D Flip-Flop 7474 and shift registers-7495
    2. Decade counter-7490
    3. 3-8 Decoder -74138
    4. 4 bit Comparator-7485
    5. 8 x 1 Multiplexer -74151 and 2×4 Demultiplexer-74155
    6. RAM (16×4)-74189 (Read and Write operations)
    7. Decoder drives for LED

Equipments Details

Sl. No. Name of the Equipment Make Quantity
1 30 MHz cathode Ray oscilloscope Scientific Mes – Technik Pvt Ltd, Chennai. 6
2 Fixed Output Dual Tracking DC preset Power supply +/- 15V (Model FD 1502) Aplab Ltd., Chennai. 10
3 3Mhz Signal / function generator Scientific Mes – Technik Pvt.Ltd, Chennai. 6
4 Phase Locked Loops V.I.Microsystem Pvt. Ltd, Chennai. 1
5 3A dual power supply MODEL PSD 3203 Scientific Mes – Technik Pvt Ltd, Chennai. 6
6 Logic IC Trainer V.I.MicrosystemPvt Ltd. Chennai. 10

Microprocessor Lab

This laboratory is to give the knowledge and skills are necessary to design a system that makes use of an embedded processor. Understanding the microprocessor and its peripherals, dealing with interrupts, programming timer/counters, serial communication using the UART and analog to digital and digital to analog converters are studied. Microprocessors also control the logic of almost all digital devices, DC motor, Temperature control fuel-injection systems for automobiles.

Objectives

The main focus of this laboratory is to make our student aware of assembly language programming with the help of 8085 instruction sets. This microprocessor (8085) can be interfaced with number of peripherals like LED module, 7-segment display module, stepper motor & servo motor module etc

Scope

  • Students should be able to write assembly language programs, assemble into machine a cross assembler utility and download and run their program on the training boards.
  • Students should be able to design electrical circuitry to the Microprocessor I/O ports in order to interface the processor to external devices.
  • Students should be able to write assembly language programs and download the machine code that will provide solutions real-world control problems such as fluid level control, temperature control, and batch processes.

List of Experiments / Exercises

  1. Programming 8085 microprocessor kit
  2. Programming 8086 microprocessor kit
  3. Interfacing programmable interrupt controller
  4. Interfacing of switches and display devices
  5. Interfacing of D/A and A/D converters
  6. Interface of key board and display using programmable controllers
  7. Interface of programmable timer
  8. Stepper motor control using microprocessor
  9. Interfacing of 8251 and 8257
  10. Study of MASM and DEBUG utilities

Equipment details

Sl. No. Name of the Equipment Make Quantity
1 8237 Interface board Vi-Microsystems Pvt., Ltd., Chennai 02
2 Interface board Vi-Microsystems Pvt., Ltd., Chennai 04
3 8255 Interface board Vi-Microsystems Pvt., Ltd., Chennai 04
4 8259 Interface board Vi-Microsystems Pvt., Ltd., Chennai 04
5 8279 Interface board Vi-Microsystems Pvt., Ltd., Chennai 04
6 ADC Interfacing Vi-Microsystems Pvt., Ltd., Chennai 02
7 DAC Interfacing Vi-Microsystems Pvt., Ltd., Chennai 02
8 DC Motor speed measurement Vi-Microsystems Pvt., Ltd., Chennai 01
9 Elevator simulator interface Vi-Microsystems Pvt., Ltd., Chennai 02
10 LCD Interfacing Vi-Microsystems Pvt., Ltd., Chennai 01
11 Microcontroller trainer kit Vi-Microsystems Pvt., Ltd., Chennai 05
12 Microprocessor trainer kit Vi-Microsystems Pvt., Ltd., Chennai 02
13 Microprocessor trainer kit Vi-Microsystems Pvt., Ltd., Chennai 23
14 Printer interfacing Vi-Microsystems Pvt., Ltd., Chennai 02
15 Stepper motor controller with motor Vi-Microsystems Pvt., Ltd., Chennai 02
16 Traffic light controller Vi-Microsystems Pvt., Ltd., Chennai 02
17 Digital PID Controller Vi-Microsystems Pvt., Ltd., Chennai 01

Process Control Lab

The Practice of automated process control is essential for the effective and efficient operation of today’s chemical processes.The Process Control Laboratory provides exposure to feedback control of various process operations such as surge tanks and heaters, as well as to the dynamics of process components such as temperature sensors and pneumatic valves.

Objectives

The purpose of the laboratory is to demonstrate ideas such as

  • The concept of feedback.
  • How simple feedback systems work.
  • Effects of disturbances and measurement errors.
  • When a control problem is easy.
  • Process modeling.
  • Various control design techniques.

Scope

  • From this lab the students are benefitted by learning mathematical modeling of various processes and obtaining the tuning parameters to control the process.
  • It enables the students community to acquire industry compatible knowledge on control valves and commanding knowledge can definitely open up many doors for the students and it is real shot in the arm when they seek an employment.

List of Experiments / Exercises

  1. Modeling of single capacity level process from experimental Reactive curve. Obtain PID Turing parameters from the model.
  2. Modeling of Two capacity level process.
  3. Modeling of two capacity interacting level process by semi log method.
  4. Modeling of Thermal process from reaction curve and obtain tuning parameters from the model.
  5. Modeling of Thermal process.
  6. Closed loop control of flow process.
  7. Closed loop control of level process.
  8. Closed loop control of Thermal Process.
  9. Closed loop control of Pressure process.
  10. Inherent and Installed characteristic study of linear, equal percentage and quick opening valves.

Equipments Details

Sl. No. Name of the Equipment Make Quantity
1 Pressure Process Analyzer VI.Microsystem Pvt. Ltd, Chennai. 1
2 Temperature Process Analyzer VI.Microsystem Pvt. Ltd, Chennai. 1
3 Temperature control trainer Apex Innovations Pvt.Ltd, Sangli. 1
4 Level Process Analyzer using PID controller (stand-alone) VI.Microsystem Pvt. Ltd, Chennai. 1
5 Level control trainer Apex Innovations Pvt.Ltd, Sangli. 1
6 Flow Process Analyzer V.I.Microsystem Pvt. Ltd, Chennai. 1
7 Flow control trainer Apex Innovations Pvt.Ltd, Sangli. 1
8 Air Compressor: 170 Tank Capacity liters Apex Innovations Pvt.Ltd, Sangli. 1
9 Interfacing Tank Level control VI.Microsystem Pvt. Ltd, Chennai. 2
10 Non Interfacing Tank Level control (VINIT 02) VI.Microsystem Pvt. Ltd, Chennai. 2
11 Non Interfacing Tank (Level transmitter) VI.Microsystem Pvt. Ltd, Chennai. 2
12 Control valve characteristics (linear + equal% +quick pening) Valve Positioner for PSP318 VApex Innovations Pvt.Ltd, Sangli. 2
13 Personal computers C&D Systems, Pondicherry. 8

Sensors and Transducers Lab

In this lab the students acquire knowledge on various transducers. Apart from transducers the students also gets experience in working with sensors for various process measurements. This imparts the students with the knowledge and working with transducers and sensors for various industrial applications. Also the students used to know the calibration of measuring device and the process variables can be measured using various sensors.

Objectives

  • Understand the need for conversion between electrical and mechanical (acoustic) energies
  • Understand the mechanism of electromechanical transducers
  • To calibrate transducers and transmitters
  • To Determine characteristics of transducers and transmitters
  • To know about Signal conditioning: Wheatstone bridge, Cold junction for thermocouples, amplifiers
  • To study different Calibration technique for sensitivity, hysteresis, accuracy, reproducibility, etc…

Scope

  • Describe methods to measure different physical quantity such as temperature, pressure, acceleration, vibration, rotation etc…
  • Explain procedures to calibrate standard measuring systems.

List of Experiments / Exercises

  1. Characteristic of Temperature transducers (RTD, Thermistor and Thermocouple).
  2. Measurement of Displacement using capacitive transducer, LVDT, inductive transducer and Potentiometric transducer.
  3. Measurement of strain, Load and Level using strain gauges.
  4. Measurement of torque and Pressure using strain gauges.
  5. Measurement of Voltage, current and power using Hall Effect transducer.
  6. Characteristics of Optical Transducers (LDR, Phototransistor, Photovoltaic and photoconductive cells).
  7. Measurement of speed using Magnetic and photo electric pickup transducers.
  8. Ramp response characteristic of filled in system thermometer.
  9. Online Modeling of RTD and thermocouple using Data loggers.
  10. Characteristics of P/I and I/P converters.
  11. Measurement of Pressure and Temperature using ICs (LM 335, and AD 590).
  12. Measurement of Position using synchro Transmitter and receiver.

Equipments Details

Sl. No Name of the Equipment Make Quantity
1 AC Synchro Transmitter & receiver Labtech Electronics Pvt. Ltd, Chennai 1
2 Capacitive Transducer Labtech Electronics Pvt. Ltd, Chennai 1
3 Data logger USB based data acquisition system 12 bit ADC 14 bit DAC VI Microsystems Pvt. Ltd, Chennai 1
4 Load Measurement Trainer Labtech Electronics Pvt. Ltd, Chennai 1
5 Level Measurement Trainer using strain gauge Labtech Electronics Pvt. Ltd, Chennai 1
6 LDR/ PHOTO DIODE / PHOTO TRANSMITTER TRAINER VI Microsystems pvt. Ltd, Chennai 1
7 Measurement of Speed using magnetic pick up Labtech Electronics Pvt. Ltd, Chennai 1
8 Measurement of voltage, power, current using HALL effect transducer Labtech Electronics Pvt. Ltd, Chennai 1
9 Pressure Measurement Transducers with Pressure applying setup & sensor Labtech Electronics Pvt. Ltd, Chennai 1
10 Ramp response char of field system thermometer Labtech Electronics Pvt. Ltd, Chennai 1
11 Study of Smart Transducer Labtech Electronics Pvt. Ltd, Chennai 1
12 Strain gauge Trainer Labtech Electronics Pvt. Ltd, Chennai 1
13 Speed Measurement Trainer using photo electric pick up Labtech Electronics Pvt. Ltd, Chennai 1
14 Temperature Measurement using Thermo couple Labtech Electronics Pvt. Ltd, Chennai 1
15 Temperature Measurement using RTD Labtech Electronics Pvt. Ltd, Chennai 1
16 Temperature Measurement using Thermistor Labtech Electronics Pvt. Ltd, Chennai 1
17 Temperature Measurement using PC based data acquisition Labtech Electronics Pvt. Ltd, Chennai 1
18 Torque measurement transducer with Sensor Labtech Electronics Pvt. Ltd, Chennai 1
19 LVDT trainer & Sensor ScientechTechnologies Pvt. Ltd, Chennai. 1
20 Thermocouple module VI Microsystems Pvt. Ltd, Chennai 1
21 Thermistor Module VI Microsystems Pvt. Ltd, Chennai 1
22 Hall Effect Transducer VI Microsystems Pvt. Ltd, Chennai 1
23 Filled System Thermometer VI Microsystems Pvt. Ltd, Chennai 1

Industrial Automation Lab

Technological advancements in process monitoring, control and industrial automation over the past decades have contributed greatly to improve the productivity of virtually all manufacturing industries throughout the world. Through this Industrial Automation lab the students get exposed to Distributed Control Systems, Programmable Logic Controller, Batch Control, PID, Advanced Control, Measurement, Human Machine Interface HMI, Process Control OPC, Measurement, Process Instrument and Industrial Automation Training.

Objectives

  • This course introduces you to practical methods of automatic control of machines, processes and systems.
  • All major parts of a modern industrial control system will be described and their principles explained. These include the Programmable Logic Controller (PLC), as the system brain, various field devices, which allow the system to sense and affect the controlled environment, and communication between the system components.
  • The principles of developing PLC programs and practical examples of control systems will be also presented.

Scope

  • To develop a PLC program for an automatic control system of a medium degree of complexity.
  • To select the right hardware for a given application.
  • To connect the field devices to the PLC to create a complete control system.
  • To consider basic aspects of the automation system such as network communication, human machine interface, safety and protection against interference.
  • To program typical industrialPLC hardware.
  • Computer control of process lab.

List of Experiments / Exercises

(Any five experiments has to be done from each part) Part – A

  1. Calibration of Pressure gauge using Dead weight Tester
  2. Calibration of manometers
  3. Calibration of Control valves
  4. Calibration of I to P and P to I converters
  5. Calibration of Pressure Switch
  6. Calibration of RTD and Thermocouple

Part – B

  1. PLC and Distributed Control System
  2. Study of basic programming of PLC
  3. Analog operation in PLC
  4. Arithmetic operation, Timer, Counter operation using PLC
  5. Annunciator design using PLC
  6. Application using PLC PC based programming (Level control, Temperature control, Speed Control)
  7. Study and Demonstration of DCS
  8. Developing control logic using DCS
  9. Application of DCS(Level control, Pressure control)
  10. Application of DCS(Boiler Control, Distillation column control)Virtual DCS

Equipments Details

Sl. No. Name of the Equipment Make Quantity
1 CRO Trainer Scientech Technologies Pvt. Ltd, Chennai 1
2 Calibration of I to P and P to I converter. Calibration of I to P and P to I converter. 1
3 Level measurement using D/P transmitter Chemin Controls Instrumentation Pvt. Ltd, Pondicherry 1
4 Measurement of viscosity using saybolt viscometer VI Microsystems Pvt. Ltd, Chennai. 1
5 Redwood Viscometer The United Scientific Company, Chennai. 1
6 Say bolt viscometer The United Scientific Company, Chennai. 1
7 UV vis Digital Spectrophotometer The United Scientific Company, Chennai. 1
8 Vacuum Measurement Chemin Controls Instrumentation Pvt. Ltd, Pondicherry 1
9 Calibration of DP transmitter used for flow measurement. Chemin Controls Instrumentation Pvt. Ltd, Pondicherry 1
10 Calibration of Pressure gauge using Dead weight tester VI Microsystems Pvt. Ltd, Chennai. 1
11 Power Supply Trainer Scientech Technologies Pvt. Ltd, Chennai 1
12 SMPS Trainer Scientech Technologies Pvt. Ltd, Chennai 1
13 Multimedia computer trainer Scientech Technologies Pvt. Ltd, Chennai 1
14 Proto Type Process control using PLC VI Microsystems Pvt. Ltd, Chennai. 1
15 PLC Real time application trainer VI Microsystems Pvt. Ltd, Chennai. 1
16 PLC Real time application trainer for DOL starter. VI Microsystems Pvt. Ltd, Chennai. 1
17 PLC Real time application trainer VI Microsystems Pvt. Ltd, Chennai. 2
18 PLC Real time application trainer VI Microsystems Pvt. Ltd, Chennai. 1

Simulation Lab

Objectives

Simulation lab offers opportunities for students to work on a wide range of advanced software packages that include

  • Math CAD
  • MATLAB, Simulink, Toolboxes (Communication, Signal Processing, Image Processing) Blocksets (Communication, DSP, Fuzzy, Wavelet CDMA basic reference)
  • Multisim
  • Xilinx ISE 6.1
  • Real Time Kernel
  • Labview 8.5 for 50 users

This lab enables the student to

  • Design and analysis of application of electronic devices such as amplifier, oscillator, filters etc and testing its behavior in virtual environment.
  • Mathematical modeling of electrical and mechanical system and testing their behavior in virtual environment.

Scope

  • This lab gives knowledge to develop proto type model of a specific system functionality.
  • It reduce time needed for development of entire system by reducing debugging time through study of virtual behavior of the system.

List of Experiments / Exercises

C++ and Data Structures Lab

    1. Programming using keywords of C++: public, Private, Protected.
    2. Programming using keywords of C++: Inline, new and delete.
    3. Programming examples for the following: function over loading.
    4. Programming examples for the following: Operator over loading.
    5. Programming using information hiding.
    6. Programming using polymorphism.
    7. Programming using inheritance.
    8. Programming using object interface.
    9. Programming to illustrate (i) String (ii) linked list.
    10. Programming to illustrate (i) Stack (ii) Queues (iii) Trees.

Simulation Lab

List of Experiments / Exercises

  • Step response of first and second order system
  • Bibo stability
  • Compensation of closed loop system
  • Root locus
  • Bode plot
  • Nyquist plot
  • Time domian analysis using simulink
  • Transistor biasing
  • Analysis of transistor amplifier circuit
  • Design and analysis of feedback amplifier
  • Design and analysis of cascade amplifier
  • Design and analysis of fet amplifier
  • Design and analysis of filters resonant circuits

System Design Using Microcontroller Lab

Objectives

This laboratory introduces the student to embedded systems using Microcontroller. Emphasis is on Programming using 8051 microcontroller. Practical demonstration of the programming concepts done in classrooms will enhance the understanding of the students. The experiments included in the curriculum covers all the concepts of programming studied in theory.

Scope

Upon completion of this Lab, students will be able to

  • Develop system software in C or assembly language.
  • Control/use peripherals, devices, and buses.
  • Program and debug microcontroller devices.
  • Characterize the timing/ performance behavior of interfaces

List of Experiments / Exercises

First Cycle

  • 8 bit operation
  • Multi byte addition and subtraction
  • Series generation
  • Largest and smallest number in the array
  • Arranging numbers in ascending order

Second Cycle

  • Parallel port interfacing using 8051
  • Real time clock using segment display
  • Single channel data acquisition system using 8051
  • Interrupt programming using 8051
  • Multiprocessor communication
  • PC interface with 8051
  • PWM motor control using PIC microcontroller

Modern Electronic Instruments Lab

Objectives

This lab gives potential for using simulated instruments in the laboratory. These graphical programs will let you to obtain data from outside the computer and incorporate it into your program design. In contrast to the more common text-based languages, LABVIEW uses a graphical programming language. students can learn the logic of graphical programming during the course of this lab.

Scope

From this lab, student can able to design virtual environment for data acquisition system, monitoring system and controlling system for various instrumentation process parameters.

List of Experiments / Exercises

  • Graphical Programming using LabVIEW
  • SCPI – Instrument interfacing using GPIB communication
  • RS232 communication for Instrument Interfacing
  • Design of Programmable Digital Voltmeter Hardware
  • Design of Programmable Digital Function Generator Hardware
  • Design of Distributed Measurement using Ethernet by LabVIEW
  • Design of Digital Filters using LabVIEW
  • Design of Virtual Voltmeter and Function Generator
  • Design of Digital Virtual Frequency meters
  • Design of Programmable Motion Drives

Equipment Details C++ Data Structures Lab

Sl. No. Name of the Equipment Make Quantity
1

HP Proliant ML 110G5 Server Dual Core Xeon Processor 3040 (1.86 GHz, 1066 MHz FSB), 2 GB PC2-5300 DDR2 SDRAM, HP 160 GB SATA HDD+HP 500 GB SATA HDD, HP 15 CRT Monitor

 HP 1
2

HP DX2480 Desktop (Intel Core 2 Duo Processor (2.80 GHz, 1066 MHz FSB), 2 GB DDR2 RAM, 160 GB SATA HDD, HP 18.5Wide LCD Monitor

 HP 41
3

HP PRO 3090 MT Desktop Intel Core 2 Duo Processor (2.93 GHz, 1066 MHz FSB), 2 GB DDR2 RAM, 320 GB SATA HDD, HP 18.5Wide LCD Monitor

 HP 11
4

Dell Optiplex 390 MICRO Intel Core 2 Duo Processor (2.93 GHz, 1066 MHz FSB), 2GB DDR2 RAM, 320 GB SATA HDD, HP 18.5Wide LCD Monitor

 DELL 12
5 LENOVO Thinkcentre MICRO TOWER NTEL Core i3-2100 @ 3.30 GHZ, 2 GB PC3-10600 DDR3 1330 MHZ DIMM MEMORY , 500 GB SATA @ 7200 RPM HDD, LENOVO 18.5 LCD MONITOR LENOVO 7

System Design using Microcontroller Lab

Sl. No Name of the Equipment Make Quantity
1

HP Proliant ML 110G5 Server Dual Core Xeon Processor 3040 (1.86 GHz, 1066 MHz FSB), 2 GB PC2-5300 DDR2 SDRAM, HP 160 GB SATA HDD+HP 500 GB SATA HDD, HP 15 CRT Monitor

 HP 1
2

HP DX2480 Desktop (Intel Core 2 Duo Processor (2.80 GHz, 1066 MHz FSB), 2 GB DDR2 RAM, 160 GB SATA HDD, HP 18.5Wide LCD Monitor

 HP 41
3

HP PRO 3090 MT Desktop Intel Core 2 Duo Processor (2.93 GHz, 1066 MHz FSB), 2 GB DDR2 RAM, 320 GB SATA HDD, HP 18.5Wide LCD Monitor

 HP 11
4

Dell Optiplex 390 MICRO Intel Core 2 Duo Processor (2.93 GHz, 1066 MHz FSB), 2GB DDR2 RAM, 320 GB SATA HDD, HP 18.5Wide LCD Monitor

 DELL 12
5

LENOVO Thinkcentre MICRO TOWER NTEL Core i3-2100 @ 3.30 GHZ, 2 GB PC3-10600 DDR3 1330 MHZ DIMM MEMORY , 500 GB SATA @ 7200 RPM HDD, LENOVO 18.5 LCD MONITOR

 LENOVO 7

Modern Electronic Instrumentation Lab

Sl. No. Name of the Equipment Make Quantity
1 HP Proliant ML 110G5 Server Dual Core Xeon Processor 3040 (1.86 GHz, 1066 MHz FSB), 2 GB PC2-5300 DDR2 SDRAM, HP 160 GB SATA HDD+HP 500 GB SATA HDD, HP 15 CRT Monitor HP 1
2 HP DX2480 Desktop (Intel Core 2 Duo Processor (2.80 GHz, 1066 MHz FSB), 2 GB DDR2 RAM, 160 GB SATA HDD, HP 18.5Wide LCD Monitor HP 41
3 HP PRO 3090 MT Desktop Intel Core 2 Duo Processor (2.93 GHz, 1066 MHz FSB), 2 GB DDR2 RAM, 320 GB SATA HDD, HP 18.5Wide LCD Monitor HP 11
4 Dell Optiplex 390 MICRO Intel Core 2 Duo Processor (2.93 GHz, 1066 MHz FSB), 2GB DDR2 RAM, 320 GB SATA HDD, HP 18.5Wide LCD Monitor DELL 12
5 LENOVO Thinkcentre MICRO TOWER NTEL Core i3-2100 @ 3.30 GHZ, 2 GB PC3-10600 DDR3 1330 MHZ DIMM MEMORY , 500 GB SATA @ 7200 RPM HDD, LENOVO 18.5 LCD MONITOR LENOVO 7
6 Labview Licensed Software 50 users kit National Instruments 1
7 NI cDAQ-9172 Hardware National Instruments 1
8 NI 9205 DAQ Card National Instruments 1
9 NI 9211 DAQ Card National Instruments 1
10 NI 9263 DAQ Card National Instruments 1

Department Library Details

Instrumentation and Control Engineering department Library comprises of text books, reference books, NTPL Course materials, E-Books, E-Journals, Gate materials and Lecture notes in order to meet the needs and to facilitate the learning, teaching and research of faculty members and students. The details of our department library are as follows

No. of Books 280
No. of NPTEL CDs 19
No. of Project Reports 101
No. of Project CDs 141
No. of Lecture Notes 60