Basic Electronics Lab

LIST OF MAJOR EQUIPMENTS IN THE LAB

Sl No Name of The Equipment Quantity Make Model Specification
1 Cathode Ray Oscilloscope 12

 

Scientific SM410 30 MHZ
2 Function Generator 12

 

Scientific SM5071 3 MHz function Generator counter
3 Universal Trainer Board 12

 

AQUILA AET-205A DC(0-30v)

(+15v &-15v)

AC (5V/10V/20V)

Function Generator &  7 Segment Display

4 Digital Multimeter 01 Mastch MAS830L
5 Digital Multimeter 01 Excel DT9505A
6 Digital Multimeter 01 UNI-T DT9205A

List of Experiments

Sl. No. Topic
1. Familiarization of electronic components and devices.
2. To study the use of oscilloscope and signal generator to view waveforms and measure amplitude and frequency of a given waveform.
3. To study V-I characteristics of semiconductor diode and determining its DC and AC resistance.
4. To study half-wave and full-wave rectifier circuits.
5. To study V-I characteristic of an n-p-n/p-n-p transistor.

DC biasing the transistor in common-emitter configuration and determination of its operating point(i.e., various voltage and currents)

6. Study of various logic gates(AND,OR,NOT,EX-OR)etc using ICs
 

BEYOND SYLLABUS EXPERIMENTS

 

7 Study of positive & negative clamper circuits.

 

8 Study of positive & negative clipper circuits.

 

Analog Electronics Circuits Lab

LIST OF MAJOR EQUIPMENTS IN THE LAB

Sl No Name of The Equipment Quantity Make Model Specification
1 Cathode Ray Oscilloscope 14

 

Scientific SM430 30 MHZ
2 Cathode Ray Oscilloscope 1

 

Scientech CADDO-920 30MHZ
3 Function Generator 10

 

Scientific SM5071 3 MHz function Generator counter
4 Function Generator 2

 

Scientific SM5074 3 MHz function Generator counter
5 Function Generator 2

 

Scientific HM-5030-4 3 MHz function Generator  Digital
6 Universal Trainer Board 14

 

AQUILA AET-205A DC(0-30v)

(+15v &-15v)

AC (5V/10V/20V)

Function Generator &  7 Segment Display

7 Digital Multimeter 08

 

Mastch MAS830L

List of Experiments

Sl. No. Topic
1. Design and simulate BJT bias circuit and the results Compare.
2. Design and simulate JFET bias circuit and compare the results.
3. Design and simulate BJT common emitter circuit and compare DC and AC performance.
4. Determining the frequency response of a common emitter amplifier:low frequency, high frequency and mid frequency response and compare with simulated result.
5. Differential Amplifier circuit:DC bias and AC operation without and with current source.
6. Study of Darlington connection and current mirror circuits.
7. OP-Amp Frequency response and compensation.
8. Application of OP-Amp as differentiator, integrator and square wave generator.
9 Obtain the band width of BJT using square wave testing of an amplifier.
10 Design and simulate Wien –Bridge Oscillator circuit using         OP-Amp.
 

BEYOND SYLLABUS EXPERIMENTS

 

11 Design, assemble and test of narrow band pass filter and its frequency response.
12 Design, assemble and test of active Notch filter.

Digital Electronics Circuits Lab

LIST OF MAJOR EQUIPMENTS IN THE LAB

Sl No Name of The Equipment Quantity Make Model Specification
1 Universal Trainer Board 14

 

AQUILA AET-205A DC(0-30v)

(+15v &-15v)

AC (5V/10V/20V)

Function Generator &  7 Segment Display

2 Cathode Ray Oscilloscope 14

 

Scientific SM430 30 MHZ
3 Function Generator 2

 

Scientific SM5074 3 MHz function Generator counter
4 Digital Multimeter 08

 

Mastch MAS830L

List of Experiments

Sl. No. Topic
1. Digital Logic Gates: Investigate logic behavior of AND, OR, NAND, NOR, EX-OR, EX-NOR, Invert and Buffer gates, use of Universal NAND Gate.
2. Gate-level minimization: Two level and multi level implementation of Boolean functions.
3. Combinational Circuits: design, assemble and test: adders and subtractors, code converters, gray code to binary and 7 segment display.
4. Design, implement and test a given design example with (i) NAND Gates only (ii) NOR Gates only and (iii) using minimum number of Gates.
5. Design with multiplexers and de-multiplexers
6. VHDL simulation and implementation of Adders,Substructors,Code convertors(Gray code to Binary code) and 7 segment Display using xling software
7. VHDL simulation and implementation of a given design example with (i)NAND gates only(ii)NOR gates only.
8. VHDL simulation and implementation of Multiplexers and De-multiplexers.
9 Flip-Flop: assemble, test and investigate operation of SR, D & J-K flip-flops.
10 Counters: Design, assemble and test various ripple and synchronous counters – decimal counter, Binary counter with parallel load.
 

BEYOND SYLLABUS EXPERIMENTS

 

11 Design of Running light using 555 Timer.
12 Design, assemble and testing of Ring Counter.

Analog Communication Lab

LIST OF MAJOR EQUIPMENTS IN THE LAB

Sl No Name of The Equipment Quantity Make Model Specification
1 Active  Filter     (High Pass And Low ) 01

 

SCIENTECH AB-51
2 Band Pass  Filter 01 SCIENTECH  AB-52
3 Amplitude Modulation  And  De-Modulation 01

 

VI -Micro System VCT-03 Modulating signal Freq -300Hz to 3KHz, Freq Amp -5vpp.Carrier Freq-10KHz to 50KHz ,Amplitude -10vpp
4 Cathode Ray

Oscilloscope

05 SCIENTECH CADDO-920 25MHz
5 Cathode Ray

Oscilloscope

07 SCIENTIFIC SM410 30 MHz
6 DSB/SSB Transmitter  Kit 01

 

SCIENTIFIC ST-2201 Audio Soc (300HZ-3.4khZ),Carrier Freq-1MHz  Crystal controlled, power supply -220v+/10%,50Hz
7 DSB/SSB-AM Receiver Kit 01

 

SCIENTIFIC ST-2202
8 DSBSC-Mod-De- Modulation 01

 

VI -Micro System

 

VCT-47 MODULATING SIGNAL:-A:-50KHz to 100KHz,  B:-Amplitude Range =5V.CARRIER  SIGNAL(A):-1MHz frequency( B ):-  Amplitude range:-2V SUPPLY RANGE:-+12V,-12V,GND.
9 Function Generation 03 SCIENTIFIC SM-5071 3MHz
10 FM Communication Kit 02

 

VI-MICRO

SYSTEM

  VCT-11  Sine wave FREQ-200Hz to 1.2 KHz   Direct FM, Low  freq -20KHz, high freq-358KHz,Amp-5v
11 FM Generation Kit 01

 

VI-MICRO

SYSTEM

VCT-44 Carrier Signal (Balanced  Modulator)  :-Frequency:-10KHz to200KHz. .Amplitude:-3V POWER SUPPLY:- GND ,+5V,+12V,-12V.
12 Pre-Emphasis Kit 01 VI-MICRO

SYSTEM

TBET-83
13 De-Emphasis Kit 01 VI-MICRO

SYSTEM

TBET-83
14 Passive Filter Kit 01

 

TECH LAB ELECTRONICS TPFT-46
15 Pulse Code  Mod/De-Mod Kit 01 VI-MICRO

SYSTEM

VCT-07 Sine wave generator:-200Hz, Variable DC Source , Sampling  Frequency :-32KHz
16 Sampling Trainer  Kit 02

 

SCIENTECH AND             VI-MICRO SYSTEM ST-2101

VTC-23

17 SSB-SC Trainer  Kit 01 VI-MICRO SYSTEM VCT-42  MODULATING SIGNAL   :-Frequency range -10KHz to 200KHz.Amplitude  -0V to 4V.CARRIER SIGNAL:-Frequency  Range :-350KHZ to 800KHz.
18 Spectrum  Analyzer 04

 

INTO-X

APLAB

IN-SA10

SA3011

Frequency Rang -0.15MHz to1050MHz, 4 Digit  Display, -100 to 13dBm Amplitude range,. Tracking    Generators   Freq range :0.15 MHz to1050 MHz  .Out  put  voltage ;+1 dBm to 50dBm
19 VSB Mod &De-Mod Kit 02

 

 

VI-MICRO SYSTEM VCT-45 Modulating Signal:-700KHz to200KHz.Amplitude Range :-5v.Carrier input:-700KHz to 1.2MHz.Amplitude range -2.4v.AC 220v&50HZ . DC-12,GHN
21 Pulse-Amp -Mod Kit 02

 

VI-MICRO SYSTEM VCT-01 Power Amplifier   1wMono ,Sine wave frequency -500Hz,1KHz(fixed)

List of Experiments

Sl. No.  

Topic

1. Analyze and plot the spectrum of following signals with aid of spectrum analyzer: Sine wave, square wave, triangle wave, saw-tooth wave of frequencies 1KHz, 10Khz, 50Khz, 100KKz and 1 MHz.
2. Analyze the process of frequency division multiplexing and frequency division de-multiplexing.
3. Study and design of AM modulator and demodulator. (Full AM, SSB, DSBSC, SSBSC)
4. Study of FM modulation and Demodulation Techniques.
5. Observer the process of PAM, quantization and determination of quantization noise.
6. Multiplex 2-4 PAM/ PPM and PWM signals.
7. Using MATLAB/ SCILAB generate a carrier and a modulating signal. Modulate the carrier using AM. Show the waveform in time domain and analyze its frequency spectrum. Repeat the simulation for modulating signal being square, triangular and other forms waveform.
8 Using MATLAB/ SCILAB generate a carrier and a modulating signal. Modulate the carrier using FM. Show the waveform in time domain and analyze its frequency spectrum. Repeat the simulation for modulating signal being square, triangular and other forms waveform.
9 Using Lab-View software simulate AM modulation and demodulation system.
10 Using Lab-View software simulate FM modulation and demodulation system.
11 Design a receiver to demodulate and receive the signal from an AM radio station.
12 Design a receiver to demodulate and receive the signal from the local FM radio station.
13  

BEYOND SYLLABUS EXPERIMENTS

 

14 Generation of VSB

Digital Communication Lab

LIST OF MAJOR EQUIPMENTS IN THE LAB

Sl No Name of The Equipment Quantity Make Model Specification
1 LAN Trainer 01

 

VI MICROSYSTEMS VILAN-03 Topology:3types

Hard Ware Networking:ARM 7

And Fpga Combinati

On

Cable:

Parallel Cable-JTAG

Serial Cable-ARM7-RS232

RJ 45 Cable

Cross Cable

Length Cable

Category-

1.Built In Ethernet Based

2.OSI  LAN Trainer

No.of NIC-03

Software:

XILINX&VIRTISIM

2 ISDN Trainer 01

 

VI MICROSYSTEMS VCT -ISDN Master And Slave Arrangement Type

Cable-JTAG

Data Transfer-Voice, Graphics and Data

3 ASK Modulation And Demodulation 02

 

VI MICROSYSTEMS VCT-17 Carrier Signal Frequency-

17KHZ

Amplitude-3Vpp

Max Data Frequency-2000hz

Min Data Frequency-830 HZ

Amplitude-3V

4 Delta/Sigma Modulation And De Modulation 02

 

 

VI MICROSYSTEMS VCT-50 Internal Frequency

Signal

-500Mhz & 1000hz

Sampling

Internal Clock-8KHZ,16KHZ,32KHZ,400KHZ,& 800KHZ

Filter-Butterworth Low Pass

 

5 DPSK Modulation And Demodulation 02

 

VI MICROSYSTEMS VCT-59 Clock Data:

Freq-2.5khz

Amp-5v

Carrier Signal:

Freq-10khz

Amp-5v

Modulator-Balanced Modulation

6 FSK Modulation And Demodulation 02

 

VI MICROSYSTEMS VCT-18 Modulating Signal:

Freq-22hz

Amp-5v

Carrier :

Freq-1070hz & 1270hz

Amp-5v

7 MSK Modulation And Demodulation 02

 

VI MICROSYSTEMS VCT-46 Data-Binary Data

Modulator-VCO

De Modulator-PLL

LPF & Comparator

 

8 Noise Signal Generator 02

 

 

VI MICROSYSTEMS VCT-58 Digital Type-

PNS Generator

Analog Type-

White Noise Generator

Semiconductor Noise Generator

9 PSK  Modulation And Demodulation 02

 

VI MICROSYSTEMS VCT-21 Modulating Signal:

Binary Data

Freq-50khz

Amp-5vpp

Carrier Signal:

Freq-200khz

Amp-2vpp

Modulator-Balanced Modulator

10 Pulse Code Modulation 02

 

 

 

VI MICROSYSTEMS VCT-07 Crystal Frequency-6.14Mhz

Sampling Frequency-32Mhz

Filter-Butterworth

11

 

QPSK Modulation And De Modulation 02

 

VI MICROSYSTEMS VCT-29 Signal:

Sine Wave, Cosine Wave

Freq-10khz

Amp-5vpp

Clock Freq:

Channel-1  -5khz

Channel-2  -2.5khz

Amp-5vpp

12 QAM  Modulation And De Modulation 02

 

 

VI MICROSYSTEMS VCT-49 Data:

Freq-780hz

Amp-+5v

Carrier:

Freq-5Khz

Amp-+2v

13 Time Division Multiplexing 02

 

VI MICROSYSTEMS VCT-02 Crystal Frequency-

6.4Mhz

No. Of Channel-4

Filter Type-Butterworth, Low Pass

14 CRO 12

 

SCIENTIFIC SM-410 30Mhz

Dual Channel

 

15

Function Generator 03

 

 

SCIENTIFIC SM-5071 3Mhz
16 Spectrum  Analyzer 04

 

InTRX

Aplab

INSA 10 0.15-1050Mhz
17 ADC 8 Channel 02

 

VI MICROSYSTEMS VSTM-03 8 Bit Resolution

8 Channel Multiplexer

Method-Successive Approximation

18 DAC 8 Channel 02

 

VI MICROSYSTEMS VSTM-02A 8 Bit Resolution

8 Channel Multiplexer

Method-Successive Approximation

19 Level Converter 02

 

VI MICROSYSTEMS VCT-40 Clock Frequency Range-

120hz To 2khz

TTL Output

Symbol 1-15v

Symbol 0-0v

List of Experiments

Sl. No. Topic
1.  Study the functioning  of  PCM and Delta modulator,demonstrate the process of PCM modulation and Delta modulation.

 

2. Modulation generation and detection signal generator CRO.
3. To study Time Division Multeplexing.
4. To study the different channel coding and decoding techniques

 

5. Generation and reception of different types of signals like ASK, PSK, FSK.

 

6. To transmit and received three separate signals audio, video and tone simultaneously through satellite link .

 

7 To transmit PC data through satellite link using a satellite communication demonstration unit.

 

8 To compare different forms of BPSK, QPSK, OQPSK (experimentally) and analyze their spectrum analyzer.

 

9 Spreading  and de-spreading using additive white Gaussian noise

 

10 To transmit different types of signals using ISDN system

 

11 To analyze the process of data communication in LAN using LAN trainer and compare the performance of different media Access techniques

 

 

BEYOND SYLLABUS EXPERIMENTS

 

12 To study DPSK Modulator

 

 

13 To study MSK Modulator

 

Elecromagnetic Engineering Lab

LIST OF MAJOR EQUIPMENTS IN THE LAB

Sl No Name of The Equipment Quantity Make Model Specification
1 Computer System (PC) 27

 

DELL OPTIPLEX 330 Intel® Core™ 2 Duo CPU E4500 @2.20GHz, 775 LGA socket,L2 Catch 2048KB,Chipset Intel G31, DDR2 1GB RAM 333MHz Frequency, Dell Monitor
2 Computer System (PC) 06

 

LENOVO Think Center Intel®  Pentium® Dual CPU E2160 @1.80GHz, 775 LGA socket,L2 Catch 1024KB,Chipset Intel G31, DDR2 1GB RAM 333MHz Frequency, 3 Dell Monitor and 3 Lenovo Monitor
3 MATLAB

 

Standalone MATHWORKS 2007a Matlab  main module with link to CCS, embedded TI c6000 simulink tool
4 HFSS 14 Standalone ANSYS 14 Standalone License

List of Experiments

SL.No. TOPICs
1  Wave-propagation in conductors and dielectrics using HFSS/CST/MATLAB.
2 Current and charge flow of electromagnetic wave in a rectangular waveguide using HFSS/CST/MATLAB.
3 Uniform Plane Wave Propagation in an Arbitrary Direction
4 Transverse Electric Waves in a Parallel-Plate Waveguide
5 To calculate Dispersion and Group Velocity
6 To design Rectangular Waveguide
7 To design cavity Resonator
8  To show the modes of a rectangular waveguide using HFSS.
9 To show azimuth and elevation patterns
10  To show the input and output impedance
11 SWR measurements of rectangular waveguide
12 Reflection of plane waves

Signals And Systems Lab

LIST OF MAJOR EQUIPMENTS IN THE LAB

Sl No Name of The Equipment Quantity Make Model Specification
1 Computer System (PC) 27

 

DELL OPTIPLEX 330 Intel® Core™ 2 Duo CPU E4500 @2.20GHz, 775 LGA socket,L2 Catch 2048KB,Chipset Intel G31, DDR2 1GB RAM 333MHz Frequency, Dell Monitor
2 Computer System (PC) 06

 

LENOVO Think Center Intel®  Pentium® Dual CPU E2160 @1.80GHz, 775 LGA socket,L2 Catch 1024KB,Chipset Intel G31, DDR2 1GB RAM 333MHz Frequency, 3 Dell Monitor and 3 Lenovo Monitor
3 MATLAB

 

Standalone MATHWORKS 2007a Matlab  main module with link to CCS, embedded TI c6000 simulink tool

List of Experiments

Sl.No. TOPIC
1.        Write a program to generate the discrete sequences (i) unit step (ii) unit impulse (iii)ramp (iv) periodic sinusoidal sequences. Plot all the sequences.
2.        Find the Fourier transform of a square pulse .Plot its amplitude and phase spectrum.
3.        Write a program to convolve two discrete time sequences. Plot all the sequences. Verify the result by analytical calculation.
4.        Write a program to find the trigonometric Fourier series coefficients of a rectangular periodic signal. Reconstruct the signal by combining the Fourier series coefficients with appropriate weightings.
5.        Write a program to find the trigonometric and exponential Fourier series coefficients of a periodic rectangular signal. Plot the discrete spectrum of the signal.
6.        Generate a discrete time sequence by sampling a continuous time signal. Show that with sampling rates less than Nyquist rate, aliasing occurs while reconstructing the signal.
7.        The signal x (t) is defined as below. The signal is sampled at a sampling rate of 1000 samples per second. Find the power content and power spectral density for this signal.
8.         Write a program to find the magnitude and phase response of first order low pass and high pass filter. Plot the responses in logarithmic scale.
9.        Write a program to find the response of a low pass filter and high pass filter, when a speech signal is passed through these filters.
10.    Write a program to find the autocorrelation and cross correlation of sequences.
11.    Generate a uniformly distributed length 1000 random sequence in the range (0,1). Plot the histogram and the probability function for the sequence. Compute the mean and variance of the random signal.
12.    Generate a Gaussian distributed length 1000 random sequence. Compute the mean and variance of the random signal by a suitable method.
13.    Write a program to generate a random sinusoidal signal and plot four possible realizations of the random signal.
14.    Generate a discrete time sequence of N=1000 i.i.d uniformly distributed random numbers in the interval (-0.5,-0.5) and compute the autocorrelation of the sequence.
15.    Obtain and plot the power spectrum of the output process when a white random process is passed through a filter with specific impulse response

High Frequency Engineering Lab

LIST OF MAJOR EQUIPMENTS IN THE LAB

Sl No Name of The Equipment Quantity Make Model
1 Klystron Power supply 02

 

Microwave Technology INC MTI KP-503

MTI-1001,1005

2 Klystron MOUNT 02

 

Microwave Technology INC MTI-1001,1005
3 Klystron Tube 02

 

Microwave Technology INC MTI-1001,1005
4 Isolator 03

 

Microwave Technology INC MTI-1001,1005,1002
5 Frequency meter 03

 

Microwave Technology INC MTI-1001,1005,1002
6 Variable attenuator 03

 

Microwave Technology INC MTI-1001,1005,1002
7 Slotted section 03

 

Microwave Technology INC MTI-1001,1005,1002

List of Experiments

Sl. No. Topic
1

2

3

4

5

6

7

8

9

10

11

 

 

 

12

13

 

Study of microwave components and instruments.

Measurement of crystal characteristics and proof of the square law characteristics of the diode.

Measurement of klystron characteristics.

Measurement of VSWR and standing wave ratio.

Measurement of Dielectric constants.

Measurement of Directivity and coupling coefficient of a directional coupler.

Measurement of Q of a cavity.

Calibration of the attenuation constant of an attenuator.

Determination of the radiation characteristics and gain of an antenna.

Determination of the phase-shift of a phase shifter.

Determination of the standing wave pattern on a transmission line and finding the

length and position of the short circuited stub.

 

BEYOND SYLLABUS EXPERIMENTS

To study the cavity resonator

Measurement of Dielectric constant of a low loss solid dielectric

 

Microprocessor Lab

LIST OF MAJOR EQUIPMENTS IN THE LAB

Sl No Name of The Equipment Quantity Make Model Specification
1 8085 Microprocessor 13

 

Vi Microsystems M-85 EB(LED & LCD) 8-BIT
2 8086 Microprocessor 14

 

Vi Microsystems M-86 EB 16-BIT
3 8051 Microcontroller 08

 

Vi Microsystems M-51 EB 8-BIT
4 CRO 04

 

SCIENTIFIC SM-410 30MHZ
5 Digital To Analog Converter 05

 

Vi Microsystems VBMB-002 8/16 BIT
6 Elevator Simulator 08

 

Vi Microsystems VBMB-022 8/16 BIT
7 8279 Interface Board 05

 

Vi Microsystems VBMB-001 16 BIT
8 8255 Interface Board 07

 

Vi Microsystems VBMB-008 8/16 BIT
9 Stepper Motor Kit 12

 

Vi Microsystems VBMB-13A 8/16 BIT
11 Traffic Light Controller 08

 

Vi Microsystems 8/16 BIT

List of Experiments

Sl. No. Topic
1. Introduction to 8086 Micro Processor Kit.
2. Addition, Subtraction, Multiplication and Division of 16-bit numbers using microprocessor kit.
3. Transfer of data from one memory location to another memory location.
4. Gray-to-Binary and Binary-to-Gray conversion and BCD-to-Binary and Binary-to-BCD conversion.
5. Add a series of unsigned 8-bit data. Extend the experiment to add signed number and multi byte numbers.
6. Finding out the 10’s complement of a 4-Digit BCS number.
7. Add a series of Decimal numbers.
8. Division of 8-bit unsigned numbers by two. Division of unsigned numbers by two.
 

BEYOND SYLLABUS EXPERIMENTS

9 Generate a square wave and rectangular wave of given frequency at the output pin of 8255 chip.
10 Generation of different types of analog signal using DAC.
11 Study of Stepper Motor.
12 Study of Elevator Simulator.

Digital Signal Processing Lab

LIST OF MAJOR EQUIPMENTS IN THE LAB

Sl No Name of The Equipment Quantity Make Model Specification
1 Computer System (PC) 27

 

DELL OPTIPLEX 330 Intel® Core™ 2 Duo CPU E4500 @2.20GHz, 775 LGA socket,L2 Catch 2048KB,Chipset Intel G31, DDR2 1GB RAM 333MHz Frequency, Dell Monitor
2 Computer System (PC) 06

 

LENOVO Think Center Intel®  Pentium® Dual CPU E2160 @1.80GHz, 775 LGA socket,L2 Catch 1024KB,Chipset Intel G31, DDR2 1GB RAM 333MHz Frequency, 3 Dell Monitor and 3 Lenovo Monitor
3 DSP Trainer Kit 05

 

VI Micro System VSK-6713 TMS320C6713, Clock Cycle 225MHz, AIC23 Codec, 12 Bit Dual ADC, 12 Bit four DAC Channel, 16 MB SDRAM, 512KB Nonvolatile flash memory, RS232 interface, 4 user accessible LEDs and DIP switches
4 Cathode Ray Oscilloscope 01 Scientific SM430 30 MHZ
5 Function Generator 01

 

Scientific SM5071 3 MHz function Generator counter
6 MATLAB

 

Standalone MATHWORKS 2007a Matlab  main module with link to CCS, embedded TI c6000 simulink tool
7 VI Debugger For 6713 Standalone VI Microsystems Debugger with c code and ASM interface

List of Experiments

Sl. No. Topic
1. (i) Introduction to MATLAB software and study of its important commands.

(ii) Familiarization with the architecture of a standard DSP kit (Preferably TMS 320C6XXX DSP kit of Texas Instruments)

2. (a) Introduction to MATLAB software and study of its important commands.

(b)Generation of various types of waveforms (sine, cosine, square, triangular etc.) using MATLAB and DSP kit

3. Linear convolution of sequences (without using the inbuilt conv. function in MATLAB) and verification of linear convolution using DSP kit.
4. Circular convolution of two sequences and comparison of the result with the result obtained from linear convolution using MATLAB and DSP kit.
5. (a) Computation of autocorrelation of a sequence, cross correlation of two sequences using MATLAB.

(b) Computation of the power spectral density of a sequence using MATLAB also implementing the same in a DSP kit.

6. Finding the convolution of a periodic sequence using DFT and IDFT in MATLAB.
7. (i) Implementation of FFT algorithm by decimation in time and decimation in frequency using MATLAB.

(ii) Finding the FFT of a given 1-D signal using DSP kit and plotting the same.

8. Design and implementation of FIR (low pass and high pass) Filters using windowing techniques (rectangular window, triangular window and Kaiser window) in MATLAB and DSP kit
9. Design and implementation of IIR (low pass and high pass) Filters (Butterworth and Chebyshev) in MATLAB and DSP kit.
10. (i) Convolution of long duration sequences using overlap add, overlap XXXXX using MATLAB.

(ii) Implementation of noise cancellation using adaptive filters on a DSP kit.

11. Envelop detector using MATLAB
12. Signal Reconstruction using MATLAB

Communication Engineering Lab

LIST OF MAJOR EQUIPMENTS IN THE LAB

Sl No Name of The Equipment Quantity Make Model Specification
01

 

System 02

 

DELL OPTIFLEX

330

Core2 Duo Processor,1GB Ram,160GB HDD, Monitor, Keyboard, Mouse
02 CRO 05

 

SCIENTIFIC

 

SM410 30MHZ
03 Antenna Trainer Kit 01

 

SCIENTECH ST2261 On Board RF & Tone generators
04 Satellite Communication Trainer 01

 

SCIENTECH ST2271 1100-1300MHZ

PPL MICROWAVE

OPERATION

05 Fiber Optics 01

 

SCIENTECH ST2502 Two channel with

Transmitter & Receiver

06 Colour TV 02

 

BESTA VISION

/SUMSUNG

Passion Both manual & Remote
07 DVD 01

 

BESTA VISION Bv 6800 Both manual & Remote

List of Experiments

Sl. No. Topic
1. Radiation pattern of Dipole, Yagi, Helical and Slot Antenna.
2. Study of different blocks of colour TV receiver such as RF amplifier, IF amplifier, sync separator, vertical oscillator, colour picture tube etc and measurement of various voltage signal waveform.
3. Polarization Detection of Dipole, Yagi, Helical and Slot Antenna.
4. Measurement of Refractive Index profile, Numerical Aperture.
5. Attenuation and bending loss/dispersion in a multimode optical fiber.
6. Measurement of Gain of a fiber communication link using (a) optical fiber, (b) free space.
7. Establishing and testing an optical Fiber analog and digital Link.
8. Simulation of a pn sequence generator using MATLAB.
9 Simulation of direct sequence spread spectrum technique using MATLAB.
10 Simulation of TDM and WDM using Matlab.
 

BEYOND SYLLABUS EXPERIMENTS

 

11 To establish a direct communication link between uplink transmitter and downlink receiver using tone signal.
12 To set up an active satellite link and demonstrate link fail operation.

Advance lab-1(VLSI & Embedded System Lab)

LIST OF MAJOR EQUIPMENTS IN THE LAB

Sl No Name of The Equipment Quantity Make Model Specification
1 Computer System (PC) 36

 

DELL OPTIPLEX 330 Intel® Core™ 2 Duo CPU E4500 @2.20GHz, 775 LGA socket,L2 Catch 2048KB,Chipset Intel G31, DDR2 1GB RAM 333MHz Frequency, Dell Monitor, Dell Keyboard, Dell Mouse
2 UPS 36

 

DELTA / APC DELTA –

GES601V20DO35

APC-

BR600CI

O/P –  230V, 2.6A, 50/60 MHz,  600VA, 360W
3 Printer 01

 

Canon LBP2900B Black and White
4 FPGA Trainer KIT 10

 

VI Micro System XC3S500E Family – Spartan 3E

Device – XC3S500E

Package – FT256

Speed – -4

16 nos of digital inputs using slide switches, 16 nos of digital outputs using discrete LEDs

5 Xilinx Standalone Vi Micro System 10.1i Xilinx ISE series.
6 Tanner Tools 15 L-Edit, S-Edit,

T-Spice, W-Edit

7 UNIVERSAL PROGRAMMER 01 TOP WIN TOP2008 USB connected For OS window7/XP/2000/
8 Raspberry Pi2 03 Raspberry Pi2 2003 Ethernet connected
9 Arduino 03 Arduino USB Connected
10 Tool kit(Soldering Iron, Disordering Pump, cutter, Tweezers, solder, flux, Multimeter 06

 

soldron 25 watt, Digital multimeter, Auto power off
11 KEIL 5 with ARM7 Add ons 36 KEIL KEIL Standalone
12 PROTEUS 7.7 36 Proteus Proteus Standalone
13 PSPICE 9.1 36 PSPICE PSPICE Standalone

List of Experiments

VLSI Experiment List:

 

Sl.No TOPIC
1.      Design of schematic and simple layout for CMOS Inverter & perform parasitic extraction and simulation
2.      Design of schematic and simple layout for CMOS NAND gate & perform parasitic extraction and simulation
3.      Design of schematic and simple layout for CMOS NOR gate & perform parasitic extraction and simulation.
4.      Plotting of VTC curve of CMOS inverter using p-SPICE
5.      Modelling and transient analysis of 2-inputs NAND & NOR gates using p-SPICE.
6.      Design & implementation of 16-bit Arithmetic & Logic unit using VHDL.
Embedded Systems Experiment list:

 

7.      Study of ARM7 & ARM9 Bit Processor Architecture and Pin Diagram.
8.      Study of Interrupt structure in ARM Processors
9.      Write ARM Processor program to Flash LED
10.    Interfacing of an LCD Display.
11.    Write a program to interface an ADC.
12.    Write a program to control a Stepper Motor
13.    Write a program to control the speed of DC motor.
14.     Interface relays and write a program to control them.
15.    Interface ZIGBEE with ARM to control more external devices.
16.    Interfacing RFID module with ARM Microcontroller.

Project Lab

LIST OF MAJOR EQUIPMENTS IN THE LAB

Sl No Name of The Equipment Quantity Make Model Specification
1 COMPUTER SYSTEM (PC) 20

 

DELL OPTIPLEX 330 Intel® Core™ 2 Duo CPU E4500 @2.20GHz, 775 LGA socket,L2 Catch 2048KB,Chipset Intel G31, DDR2 1GB RAM 333MHz Frequency, Dell Monitor
2 COMPUTER SYSTEM (PC) 03

 

LENOVO Think Center Intel®  Pentium® Dual CPU E2160 @1.80GHz, 775 LGA socket,L2 Catch 1024KB,Chipset Intel G31, DDR2 1GB RAM 333MHz Frequency, 3 Dell Monitor and 3 Lenovo Monitor
3 UPS 23 APC BX600C-IN APC Back-UPS 600, 230V without auto shutdown software
4 PRINTER 01

 

HP LASERJET

P1007

Printer type:

Monochrome Printer

Functions: Print

Speed ppm:

14 ppm

Paper sizeA4

Duty cycle (Monthly) pages5000 pages

Processor266 MHz

RAM2 MB

5 DSO 01

 

APLAB D36060C 60mhz two channel

line voltage range

ac 100-240v

fuse rating

ac 250v t2a slow

power max 50w, 65va Freq. 45-65hz

6 DSO 03

 

SCIENTIFIC SMO1060 Two channel 60Mhz

USB ,RS 232c connected

Rating: 50va max 99v ac to 242 v, 47hz 440vhz

7 CRO 03

 

SCIENTIFIC SM-410 30Mhz
8 UNIVERSAL PROGRAMMER 01

 

TOP WIN TOP2008 USB connected

For OS window7/XP/2000/

2003

9 DAQ 01

 

NI USB6000 12 bit

10 KS/S

Multifunction I/O

10 Raspberry Pi2 03 Raspberry Ethernet connected
11 Arduino 03

 

Arduino USB Connected
12 Tool kit(Soldering Iron, Disordering Pump, cutter, Tweezers, solder, flux, Multimeter 06

 

soldron 25 watt, Digital multimeter, Auto power off

MEMS Design Lab

A National MEMS Design Centre (NMDC) has been established at our Institution, Trident Academy of Technology, Bhubaneswar in collaboration with IISc, Bangalore under the NPMASS Program in the year 2012. Thus our Institution is one of the proud institutions in eastern region of India to have a National MEMS Design Centre to carry out research work on MEMS and Nanotechnology.

LIST OF MAJOR EQUIPMENTS IN THE LAB

Sl No Name of The Equipment Quantity Software Available          Model        Specification
1 Computer Systems(PC) 10 COMSOL, Intellisuite ,Coventorware DELL(OPTIPLEX 330) Core 2 Duo Processor,1 GB RAM,160 GB HDD, Keyboard, Mouse, LCD Monitor(Lenovo/Delta), UPS(Delta /APC)
3 UPS 10 APC ,BX600C-IN APC Back-UPS 600, 230V without auto shutdown software
  • Perpetual licensed softwares such as COMSOL, Coventorware, Intellisuite provided by IISC, Bangalore.
  • Full licensed version of MATLAB.