Teaching plan and lab plan of MSBTE subjects : Applied Electronics - 22329

Teaching plan and lab plan of MSBTE subjects Applied Electronics - 22329

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RATIONALE

Enhanced  use  of  electronic  gadgets  has  made  electronics  engineers  to  deal  with  the  various types  of  electronic  circuits  which  generate  the  required  analog/digital  output.  Transistor  has remarkably  expanded  the  utility  of  electronic  equipment.  Discrete  components  are  widely used  in  amplifiers  and  other  electronic  systems  which  the  engineering  diploma  holders  (also called  as  technologist)   have  to  use  or  maintain.  The  learning  of  basic  operating  principles  of electronic  circuits  will  help  the  students  to  use  the  basic  electronic  equipment.  This  course  is developed  in  such  a  way  that,  students  will  be  able  to  apply  the  knowledge  of  basic  electronic circuit  working  to  solve  broad  based  electronic  engineering  application  problems.

COURSE  OUTCOMES  (COs)

a.   Use  transistor  as   low  Power  amplifier.

b.   Use   BJT  as  high  Power  amplifier.

c.   Use   BJT   as   feedback  amplifier.

d.   Use  BJT  as  waveform  generator.

e.   Maintain  IC  voltage  regulator  and  SMPS. 

Chapter 1: Low  Power Amplifiers                                                                       Unit outcome la.   Explain  with  sketches  the Low  Power working  principle  of  the  given Amplifiers type           of  amplifier. lb.   Calculate  gain  and  bandwidth of  the  given  low  power amplifier. lc.   Compare  performance parameters  of  the  given  types of  amplifier  coupling. ld.   Select  relevant  tuned  amplifier for  the  given  frequency  band with  justification. le.   Describe  the  environment employed  for  the  given simulation  work  with          justification. Topics  and  Sub-topics 1.1   Classification of Amplifiers, BJT as an amplifier. 1.2  Single stage CE amplifier, frequency response, gain,   bandwidth 1.3  Multistage amplifier: General Multistage amplifier BJT based. 1.4   Type  of  BJT  amplifier  coupling: Circuit diagram, operation, frequency response               and applications  of  RC, transformer  and  direct  coupling 1.5   FET Amplifier: Common Source amplifier, working principle  and applications  1.6   Tuned Amplifier: Need of tuned amplifier, basic tuned circuit, circuit diagram, operating principle          and  frequency response of Single, double & stagger tuned amplifiers

Chapter 2: High Power Amplifiers

                                                                  Unit outcome

     2a. Explain  with  sketches  the working  of  the  given  type  of power  amplifier.

     2b.  Select  the  relevant  power amplifier  for  the  given application  with  justification. 

     2c. Calculate  efficiency  of  the given  power  amplifier.

     2d.  Compare  the  performance parameters  of  the  given  types of  power  amplifiers.

     2e. Prepare  the  specifications  of the  given  type  of  amplifier.

                                       Topics  and  Sub-topics

2.1      Power Amplifier: Comparison between small signal amplifier and power amplifier,            performance parameter of power  amplifier  like  :  bandwidth,  gain, frequency  band,                  efficiency 2.2    Classification: Class A; Class B, Class AB and Class C 2.3     Circuit, operation, input/output waveforms, efficiency and Power equations of Single            Stage Class A, Class  B,  Class AB and Class C Power amplifier. Chapter 3: Feedback Amplifiers                                                                  Unit outcome 3a.   Calculate  the  gain  of  the amplifier  for  the  given  type of  feedback  amplifier. 3b.   Explain  effect  of  negative feedback  on  the  given  type  of amplifier  performance. 3c.   Calculate  Gain,  Bandwidth, Input  and  Output  resistance of  the  given  feedback          amplifier. 3d. Compare  the  performance  of given  types  of  negative feedback  amplifiers                                      Topics  and  Sub-topics 3.1    Principle of feedback Amplifier 3.2  Types of feedback: negative and positive  feedback,       advantages and disadvantages         of negative  feedback 3.3 Types  of  feedback  connections,  voltage shunt,  voltage  series,  current  series  and current         shunt:  block  diagram, circuit diagram,  and  operation Chapter 4: Wave form Generators                                                                  Unit outcome      4a.  Calculate  frequency  of oscillation  for  the  given  type of  oscillator  circuit.      4b. Select  the  relevant  oscillator to  obtain  the  given  range  of frequency  with              justification.       4c. Choose  the  relevant  sweep generator  to  obtain  the specified  saw  tooth waveform                   with  justification.      4d. Prepare  the  specifications  of the  given  oscillator                                       Topics  and  Sub-topics 4.1      Oscillators:  Need,  oscillator  and amplifier 4.2 Condition  for  oscillation  (Barkhausen's criteria), classification  of  oscillators 4.3  Sine wave Oscillator: RC Phase shift oscillator and crystal oscillator, concept working          and  applications      4.4    Sweep  generator:  Miller sweep, Bootstrap circuit, current      time  base generator Chapter 5: IC  Voltage Regulators IC and  SMPS                                                                  Unit outcome      5a. Explain  with  sketches  the working  principle  of  given type  of  voltage  regulator  IC.      5b.  Compare  the  working  of  the given  types  of  regulators.       5c. Design  voltage  regulator  for the specified  output  voltage.       5d. Interpret  the  working  of given block                                              Topics  and  Sub-topics 5.1     Types of IC Voltage Regulator: Fixed & variable: 78XX, 79XX, specification, series            and LM723, LM3l7, line and load regulation. 5.2    SMPS: Block diagram, working principle, specifications, special features, advt,           disadvantages & applications.       5.3       Use of heat sink for regulated power supply.

Name of Experiment/ Assignment/Sheet/Job/Project Activity

Build/test the performance of single stage CE emitter amplifier.

Simulate/test output Wave form of single stage common emitter (CE) amplifier using simulation software

Simulate/test output waveform of single stage CS FET amplifier using simulation  software

Build/test  the  performance  of  single  stage  Common source  FET amplifier.

Build/test  the  performance of  two  stage  RC  Coupled  common emitter  amplifier  using  transistor

Build and/or test  the transistorized two stage DC coupled amplifiers performance

Build/Test the performance of TC amplifier (part-1

Build/Test the performance of TC amplifier (part-2)

Build and/or test the transistor based single tuned amplifier performance

Build/test performance of double tuned CE amplifier part-1

Build/test performance of double tuned common Emitter amplifier (part-2)

Build/test  performance  parameters  of  single  stage  class  A  power amplifier 

Build/test performance parameters  of  class  B  Push  pull amplifier

Build/test performance of Audio Power amplifier.

Use  transistor  to  build/  test  voltage  series  Feedback  amplifier parameters  with  and  without  feedback.

Use transistor to built/test voltage shunt Feedback  amplifier parameters with and without feedback.

Test the effect of positive & negative feedback on given amplifier Part-I

Test the effect of positive & negative feedback on given amplifier Part-II

Build  RC  phase  shift  oscillator  and  measure  the  generated frequency  using  CRO

Build Crystal oscillator & measure generated freq. using CRO

Simulate Hartley oscillator using relevant simulation software.

Simulate dual voltage regulator using IC78XXand  79XX for the specified regulated output voltage

Build low voltage regulator using IC723 for given regulated output voltage. (2V  to7V )

Build high voltage regulator using IC723 for the given regulated output  voltage.(7V to 37V)

Test  the  performance  parameters  of  voltage  regulator  using  IC LM317

Applied Electronics 22329 Teaching plan	Link to download teaching plan 22329
Applied Electronics 22329 Teaching plan	Link to download lab plan 22329