MSBTE Electronics & Telecommunications Engineering 3rd Semester Micro Project Topics

MSBTE Electronics & Telecommunications Engineering 3rd Semester Micro Project Topics & Ideas MSBTE Diploma I Scheme Projects 

22320 Digital Techniques

a.   Build a Digital  IC tester circuit.

b.   Build a 4bit parity generator and parity checker circuit. 

c.   Build a circuit to implement a 4-bit adder.

d.   Build a circuit to test 7 segment display.

e.   Build a circuit to implement debounce the switch.

f.    Build a circuit for the LED flashers.

g.   Build a circuit for LED BAR display

h.   Design and analyze digital arithmetic circuits

22329 Applied Electronics

a.  Construct a doorbell using a transistor.

b.  Using transistor construct a clap switch.

c.  Construct an audio amplifier using. (IC810 or’ equivalent  IC).

d.  Construct a power amplifier for FM receiver output.

e.  Drive a 4D speaker’  using a class A amplifier that is directly coupled and test its performance parameters.

f.  Using Class AB push-pull amplifier drive (4ohms/8ohms) speaker, test its performance parameters.

g.  IC regulators: Build a circuit of Digital regulated power supply on general-purpose PCB to obtain +/- 15 V. 500inA  using IC 78XX & 79XX series.

h.  IC regulators: Build a regulated  power  supply on general-purpose  PCB to obtain

+ 5V, 500iiiA  using IC 78XX series. Drive suitable load with regulated output.

i.   IC regulators: Build a regulated power supply on general-purpose  PCB to obtain -20V, 500f1JA  using IC 79XX series. Use a suitable Heat sink. Drive suitable load with regulated output.

22330 Electric Circuits and Networks

a.   Single  Phase  A.C.  series and  parallel  Circuits:  Prepare  series  and  parallel  circuit using variable  R, L and C combination  on  the bread  board.  Measure the response and draw vector  diagram.  Also calculate  power  factor  for  the  circuit. Write  report on  the same.

b.   Resonance  in series and  Parallel Circuits:  Prepare series  RLC circuit  using variable R, L and C combination  on the breast  board.  Tune the circuit  for resonance condition. Measure the  responses  and  calculate  haunt  width  and  Q-factor  for  the  circuit.  Write report on the same.

c.   Resonance  in   Series  and   parallel  Circuits:   Prepare   parallel  RLC  circuit   

using variable  R,  L  and  C  combination  on  the   board.  Tune  the circuit  for   resonance condition.  Measure  the response anti calc dilate  banal  width and Q-factor  for the circuit. Write report on the same.

d.   Principles    of    circuit    analysis:    Prepare    power    point    presentations  on   source transformation,    star   delta    transformation.   mesh   and    nodal    

analysis   and    give presentation  in the class room.

e.    Network  Theorems: Select  suitable components  for  the given circuit and prepare  the same  on  the  bread   boar d.  Verify  the  following  network  theorem theoretically  and practically.

i.  Superposition Theorem

ii.   Maximum  power transfer  Theorem

iii.  Thevenin's theorem

iv.  Norton’s theorem.

f.    Two Port Networks: Design and  prepare two port network  on   bread  board  for given values of open circuit Z parameter.

g.   Two Port  Networks:  Design  and  prepare two port  network  on   bread  board  for given values of short circuit  Y parameter

 

22333 Electronics Measurements and  Instrumentation

a.     Analog  and  digital  meters:  Build  and test  voltmeter  (0-10V,  I mA, 500ohms) using PMMC.

b.     Analog and digital meters: Build and test ammeter (0-100 mA)using  PMMC.

c.     Signal conditioning:  Design  D.C.Signal  conditioning  circuit  using Wheatstone  bridge and implement that on PCB.

d.     Function  Generator:  Build  and  Test  function  generator   using  IC  8038(sine  wave,  square wave, triangular  wave upto 100 khz) on the PCB.

e.     Oscilloscope  Function  generator, Spectrum  analyzer: Survey of different electronic instruments.

f.    (Use structure and  other features of  ' Measurements and  Instrumentation'   to develop above listed applications.

22334 Principles of Electronics Communication

a.  Modulation:  Build  a  circuit  for  modulation  using  IC  MC149G/8038  on general  purpose PCB and prepare the report.

b.  FM  transmitter:  Build  a  circuit  on  general  purpose  PCB  for  FM  transmitter  using   IC 8038/ transistor BF549 and prepare a report.

c.  Find different channels frequencies associated  with Am and  FM stations.

d.   Antenna:   Simulate  a  microstrip   patch   antenna   for  frequency  2.4GLlz  frequency   using  HFSS (high frequency  structure simulator) software.

e.  Tuning of IFT: Build a circuit on general-purpose PCD for tuning  lFT at 455KHz

MSBTE Diploma All Branch Project Ideas

MSSBTE has suggested small projects in MSBTE I scheme. A student plans to undertake only one micro-project which should be assigned to him at the beginning of the semester. The first four semesters are group-based micro-projects. However, in the fifth and sixth semesters, the problem-solving skills and confidence of each student should be taken as individually as possible so that he can contribute to the projects of the industry. In some situations where groups have to be formed for small-scale projects, the number of students in the group should not exceed three.

Area of Projects Micro-projects can be industry-based, Internet-based, workshop-based, laboratory-based, or field-based. Each micro-project should include two or more COs which are actually a combination of Pro, UO and ADO. Each student must keep a dated work diary of personal contributions to the project work and present his / her seminar before submitting it.

MSBTE Diploma All Branch Projects:

1. Computer Engineering 
2. Information Technology 
3. Civil Engineering 
4. Electrical Engineering
5. Mechanical Engineering  
6. Electronic Engineering

1.  You can suggest us projects please let us know in our comment section.
2. Format is  1.Name: ******* 2.Branch: ******* 3.Semester: ****** 4.Project Topic: *****