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2. Syllabus Detailing and Learning objectives
Module Chapter Detailed Content Syllabus Detailing Learning Objectives
Module 1 Fundamentals of Operational Amplifier
CH 1 Opamp parameters
Ideal Op Amp, characteristics of op-amp, op-amp parameters, high frequency effects on op-amp gain and phase, slew rate limitation, practical determination of op-amp parameters, single supply versus dual supply op-amp .
Purpose: To make students understand fundamentals of opamp . To study their applications & features.
1. To define opamp parameters.(R) 2. Describe various parameters and
their effects(U). 3. Draw response plots for different
types(R) 4. List types of configurations (R) 5. Describe usefulness (U) 6. Comprehend concept of
amplification(U) 7. Evaluate different parameters of
amplifier(R)
Scope – 1. Academic Aspects- Understanding opamp function used in analog circuits. To study their features. 2. Technology Aspect- NA 3. Application Aspect- Explore use of these circuits in various applications
Students Evaluation – 1. Theory Questions to be asked on Opamp basics 2. Corresponding viva questions can be asked for working and application related points
CH 2 Open loop & Closed loop Configurations
Operational amplifier open loop and closed loop configurations, Inverting and non-inverting amplifier
Purpose – This chapter gives detailed insight of closed loop and open loop configuration of opamp and its importance. Design of these amplifiers for practical purpose.
Scope – 1. Academic Aspects: Study
need for opampand use in amplifier circuits.
2. Learn parameters and performance of amplifier
2. Technology Aspect-Study of amplifier using P-SPICE 3. Application Aspect- Use of amplifiers in various systems
Students Evaluation 1. Questions on types of amplifier performance and parameters can be asked 2. Study of biasing and amplifiers should be done by students in labs.
Module 2
Applications of Operational Amplifier
Chapter 3 DC Circuit Analysis:
Amplifiers: Adder, subtractor, integrator, differentiator, current amplifier, difference amplifier, instrumentation amplifier and application of Op-Amp in transducer measurement system with detail design procedure, single supply DC biasing techniques for
Purpose: To make students understand use of opamps in linear applications & features. Scope – 1.Academic Aspects: Study different linear applications of opamps, , its types and use in various applications. Learn parameters and performance of amplifier 2. Technology Aspect-Study of applications using P-SPICE /texas Kits 3. Application Aspect- Use of different circuits in various systems
1.List various linear applications and state
parameters
2.Define different parameters associated
with linear applications of opamp
3.Describe working of amplifiers
4.Distinguish performance of various
circuits based on parameters
5.Apply different concepts to circuits and
inverting, non-inverting and differential amplifiers Converters: Current to voltage and voltage to current converters, generalized impedance converter
Students Evaluation 1. Questions on performance and parameters can be asked 2. Study of applications should be done by students in labs.
solve numericals
6.Apply relevant criteria for selection of
proper circuit(A)
Chapter 4 AC Analysis:
Active Filters: First order filters, second order active finite and infinite gain low pass, high pass, band pass and band reject filters Sine Wave Oscillators: RC phase shift oscillator, Wien bridge oscillator, Quadrature oscillator
Purpose: To make students understand use of opamps in filtering techniques and generation of sine waves. Scope – 1.Academic Aspects: Study analysis of different types of filters and oscillators 2.Learn parameters and performance filters 3.Draw graphs and analyze performance 2. Technology Aspect-Study of these circuits using P-SPICE 3. Application Aspect- Use of filters and oscillators in various systems
Students Evaluation 1. Questions on types of filters ,its analysis and design can be asked 2. Study of filters and oscillators should be done by students in labs.
Students Evaluation – 1.Questions based on Filter analysis,design ,oscilltor analysis 2. Comparison of different filters and oscllators
Module 3
Non-Linear Applications of Operational Amplifier
Chapter 5 -
Comparators: Inverting comparator, non-inverting comparator, zero crossing detector, window detector and level detector Schmitt Triggers: Inverting Schmitt trigger, non-inverting Schmitt trigger with adjustable threshold levels
Purpose: To make students understand use of opamps in non linear applications & features. Scope – 1.Academic Aspects: Study different nonlinear applications of opamps, , its types and use in various applications. Learn parameters and performance of amplifier 2. Technology Aspect-Study of applications using P-SPICE /texas Kits 3. Application Aspect- Use of different circuits in various systems
1.List various non-linear applications and
state parameters (R)
2.Define different parameters associated
with non- linear applications of opamp(R)
3.Describe working of circuits based on
nonlinear applications)U)
4.Distinguish performance of various
circuits based on parameters(U)
5. draw corresponding graphs(R,A)
6.Apply relevant criteria for selection of
proper circuit(A)
7.Evaluate different parameters(E)
Students Evaluation 1. Questions on types of comparators, Schmitt triggers and their usefulness and parameters can be asked 2. Study of these circuits on HW/SW platform
Chapter 6 -
Waveform Generators: Square wave and triangular wave generator with duty cycle modulation Precision Rectifiers: Half and full wave precision rectifiers and their applications Peak detectors, sample and hold circuits, voltage to frequency converter, frequency to voltage converter, logarithmic converters and antilog converters
Purpose: To make students understand use of opamps for waveform generation ,rectifications detection & it’s features. Scope – 1.Academic Aspects: Study different waveform generators using opamps, , its types and use in various applications. Learn parameters and performance 2. Technology Aspect-Study of applications using P-SPICE 3. Application Aspect- Use of different circuits in various systems
Students Evaluation 1. Questions on types of waveform generators,rectifiers,converters and their usefulness. 2. Study of these circuits on HW/SW platform
Module 4
Data Converters
Chapter 7
ADC Performance parameters of ADC, single ramp ADC, ADC using DAC, dual slope ADC, successive approximation ADC, flash ADC, ADC0808/0809 and its interfacing Performance parameters of ADC,
Purpose: To make students understand concept of ADC, it’s features and parameters Scope – 1.Academic Aspects: Study different types of ADCs and use in various applications. Learn parameters and performance 2. Technology Aspect-Study of ADCs in different applications (use in Mp/MC kits)
1.List various types of ADCs and DACs and
state parameters(R)
2.Define different parameters associated
with types of ADCs and DACs (R)
3.Describe working of ADCs and DACS
4.Distinguish performance of various
circuits based on parameters(u)
single ramp ADC, ADC using DAC, dual slope ADC, successive approximation ADC, flash ADC, ADC0808/0809 and its interfacing
3. Application Aspect- Use of different ADCs in various systems
5.Analyse circuits and draw corresponding
graphs(A,R)
6.Apply relevant criteria for selection of
proper ADC /DAC(A)
7.Compare performance of different
types(U)
Students Evaluation 1. Questions on types of ADCs .its working and their usefulness. 2. Study of these circuits on HW/SW platform
Chapter 8 DAC
Performance parameters of DAC, binary weighted register DAC, R/2R ladder DAC, inverted R/2R ladder DAC, DAC0808 and its interfacing
Purpose: To make students understand concept of DAC, it’s features and parameters Scope – 1.Academic Aspects: Study different types of DACs and use in various applications. Learn parameters and performance 2. Technology Aspect-Study of DACs in different applications (use in Mp/MC kits) 3. Application Aspect- Use of different DACs in various systems
Students Evaluation 1. Questions on types of DACs .its working and their usefulness. 2. Study of these circuits on HW/SW platform
Purpose: To make students understand concept of DAC, it’s features and parameters
Scope – 1.Academic Aspects: Study different types of DACs and use in various applications. Learn parameters and performance 2. Technology Aspect-Study of DACs in different applications (use in Mp/MC kits) 3. Application Aspect- Use of different DACs in various systems
Module 5
Special Purpose Integrated Circuits
Chapter 9
Timer 555
Functional block diagram, working, design and applications of Timer 555.
Purpose: To make students understand concept of Timer, it’s features and parameters Scope – 1.Academic Aspects: Study timer IC and use in various applications. Learn parameters and performance 2. Technology Aspect-Study of Timers in different applications 3. Application Aspect- Use of timer 555 in various systems
1.List various timer applications and state
parameters(R)
2.Define different parameters associated
with Timers,PLL and VCO (R)
3.Describe working of Multivibrator circuits
using IC555(U)
4. Describe working of PLL ,VCO (U)
5.Draw functional diagram of different
ICS(R)
6.Distinguish performance of various
multivibrators based on parameters(u)
Students Evaluation 1. Questions on basics of Timer,.its working and usefulness. 2. Study of these circuits on HW/SW platform
Chapter 10
Specvial purpose ICS
Functional block diagram, working and applications of VCO 566, PLL 565,
Purpose – The concept of VCO,PLL ,power amplifier and its implementation , used in analog system design is studied in this chapter.
multiplier 534, waveform generator XR 2206, power amplifier LM380 Functional block diagram, working, design
Scope – 1. Academic Aspects- Student will study concept of VCO,PLL , its implementation used in analog system design, the factors involved in implementation and the challenge areas. Use this knowledge for successful deployment in lab environment. 2. Technology Aspect- Various types of ICs used in analog design 3. Application Aspect- Use of special ICS in analog domain
7.Draw corresponding waveforms(R)
8.Apply relevant criteria for selection of
proper Timer(A)
9.Compare performance of different
types(U)
Student Evaluation - 1. Explain working of bit multiplication 2. Give scheme for implementing different types of multipliers 3. Students can be asked to implement this skill for different digital circuits 5. students should explain concept of multiplication
Module 6 Voltage Regulators
Chapter 11 IC78XX
Functional block diagram, working and design of three terminal fixed (78XX, 79XX series) and three terminal adjustable (LM 317, LM 337) voltage regulators Functional block diagram, working and design of three terminal fixed (78XX, 79XX series) and three terminal adjustable (LM 317, LM 337) voltage regulators
Purpose – The concept of voltage regulation and its implementation , used in analog system design is studied in this chapter. Concept of low power ,high voltage regulator design is also discussed.
1.List various types of voltage regulators
and state parameters(R)
2.Define different parameters associated
with regulators (R)
3.Describe working of regulator circuits
using different ICS(U)
4..Draw functional diagram of different
ICS(R)
5.Distinguish performance of various
multivibrators based on parameters(u)
6. Draw waveforms for different types of
timer applications (R)
8.Apply relevant criteria for selection of
proper regulator IC(A)
9.Design regulator circuit(A)
10.Describe need for protection circuitry(u)
Scope – 1. Academic Aspects- Student will study concept of voltage regulation and its implementation used in analog l system design, the factors involved in implementation and the challenge areas. Use this knowledge for successful deployment in lab environment. 2. Technology Aspect- Various types of Voltage regulator ICS used in analog systems Different schemes for Low voltage/high voltage design. 3. Application Aspect- List the challenges faced and the design strategy. Explain the concept of protection circuits Explain advantages of low power /low voltage design.
Student Evaluation - 1. Explain working of voltage reguator 2. Give scheme for implementing 3. Students can be asked to implement this skill for different
analog circuits 5. students should explain concept of regulation and low power design.
IC 723 Functional block diagram, working and design of general purpose 723 (LVLC, LVHC, HVLC and HVHC) with current limit and current fold-back protection, Switching regulator topologies, functional block diagram and working of LT1070 monolithic switching regulator
Purpose – The concept of voltage regulation and its implementation , used in analog system design is studied in this chapter. Concept of low power , high voltage regulator design is also discussed.
Scope – 1. Academic Aspects- Student will study concept of voltage regulation and its implementation used in analog system design, the factors involved in implementation and the challenge areas. Use this knowledge for successful deployment in lab environment. 2. Technology Aspect- Various types of Voltage regulator ICS used in analog systems Different schemes for Low voltage/high voltage design. 3. Application Aspect- List the challenges faced and the design strategy. Explain the concept of protection circuits Explain advantages of low power /low voltage design.
Student Evaluation - 1. Explain working of voltage reguator 2. Give scheme for implementing 3. Students can be asked to implement this skill for different analog circuits 5. students should explain concept of regulation and low power design. 6.Protection circuits to be used for regulators
3. CO and PO Mapping
PO
CO
PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12
CO1 √ √ √ - √ - - - √ √ √ √
CO2 √ √ √ - √ - - - - - - √
CO3 √ √ √ √ √ √ - - - - √ --
CO4 √ √ √ √ √ √ - - - - - -
CO5 √ √ - - - - - - √ √ √ -
CO6 √ √ - - - - - - √ √ √ -
4. Module and Learning Levels Mapping
LL-> LL 1 LL 2 LL 3 LL 4 LL 5 LL 6
Modules Remember Understand Apply Analyze Evaluate Create
Module-I √ √
Module-II √ √ √
Module-III √ √ √ √
Module-IV √ √ √ √
Module-V √ √ √ √
Module-VI √ √ √