Linear Integrated Circuits MCQ (Multiple Choice Questions)

Our 1000+ Linear Integrated Circuits MCQs (Multiple Choice Questions and Answers) focuses on all chapters of Linear Integrated Circuits covering 100+ topics. You should practice these MCQs for 1 hour daily for 2-3 months. This way of systematic learning will prepare you easily for Linear Integrated Circuits exams, contests, online tests, quizzes, MCQ-tests, viva-voce, interviews, and certifications.

Linear Integrated Circuits Multiple Choice Questions Highlights

- 1000+ Multiple Choice Questions & Answers (MCQs) in Linear Integrated Circuits with a detailed explanation of every question.
- These MCQs cover theoretical concepts, true-false(T/F) statements, fill-in-the-blanks and match the following style statements.
- These MCQs also cover numericals as well as diagram oriented MCQs.
- These MCQs are organized chapterwise and each Chapter is futher organized topicwise.
- Every MCQ set focuses on a specific topic of a given Chapter in Linear Integrated Circuits Subject.

Who should Practice Linear Integrated Circuits MCQs?

– Students who are preparing for college tests and exams such as mid-term tests and semester tests on Linear Integrated Circuits.
- Students who are preparing for Online/Offline Tests/Contests in Linear Integrated Circuits.
– Students who wish to sharpen their knowledge of Linear Integrated Circuits Subject.
- Anyone preparing for Aptitude test in Linear Integrated Circuits.
- Anyone preparing for interviews (campus/off-campus interviews, walk-in interview and company interviews).
- Anyone preparing for entrance examinations and other competitive examinations.
- All - Experienced, Freshers and College / School Students.

Linear Integrated Circuits Chapters

Here's the list of chapters on the "Linear Integrated Circuits" subject covering 100+ topics. You can practice the MCQs chapter by chapter starting from the 1st chapter or you can jump to any chapter of your choice.

1. Operational Amplifier

The section contains muliple choice questions and answers on operational amplifier internal circuit, differential amplifier and circuit configuration.

Differential Amplifier and Circuit Configuration Operational Amplifier Internal Circuit – 1 Operational Amplifier Internal Circuit – 2

Operational Amplifier Internal Circuit – 3 Operational Amplifier Internal Circuit – 4

2. IC Fabrication

The section contains questions and answers on integrated circuits, types and manufacturers design, ic chip size and circuit complexity, basic planar process, active and passive components of ic, fet fabrication, thin and thick film technology.

Integrated Circuits, Types & Manufacturer’s Design – 1 Integrated Circuits, Types & Manufacturer’s Design – 2 IC Chip Size and Circuit Complexity Basic Planar Process – 1 Basic Planar Process – 2 Basic Planar Process – 3

Active and Passive Components of IC – 1 Active and Passive Components of IC – 2 Active and Passive Components of IC – 3 Thin Film and Thick Film Technology Fabrication of FET

3. Operational Amplifier Characteristics

The section contains MCQs on integrated circuit package type, pin configuration, data sheets interpreting, ideal operational amplifier, open loop op-amp configuration, block diagram representation, voltage series and shunt feedback amplifiers, differential amplifiers with multiple op-amp.

Integrated Circuit Package Type, Pin Configuration and Temperature Range – 1 Integrated Circuit Package Type, Pin Configuration and Temperature Range – 2 Interpreting of Data Sheets – 1 Interpreting of Data Sheets – 2 Ideal Operational Amplifier Open Loop Op-Amp Configuration

Block Diagram Representation of Feedback Configurations Voltage Series Feedback Amplifier – 1 Voltage Series Feedback Amplifier – 2 Voltage Shunt Feedback Amplifier Differential Amplifiers with Multiple Op-Amp – 1 Differential Amplifiers with Multiple Op-Amp – 2

4. Operational Amplifier Fundamentals

The section contains multiple choice questions and answers on input offset voltage and current, input bias current, thermal drift, variation effect in power supply voltage on offset voltage.

Input Offset Voltage – 1 Input Offset Voltage – 2 Input Offset Voltage – 3 Input Bias Current

Input Offset Current and Total Output Offset Voltage Thermal Drift Effect of Variation in Power Supply Voltage on Offset Voltage

5. Practical Limitations of Op Amp Circuits

The section contains questions and answers on noise, common mode configuration and rejection ratio, frequency response, open loop voltage gain as a function of frequency, closed loop frequency response and slew rate.

Noise Common Mode Configuration and Rejection Ratio Frequency Response and Compensating Networks Frequency Response of Internally Compensating and Non-Compensating Op-Amp Open-Loop Voltage Gain as a Function of Frequency – 1

Open-Loop Voltage Gain as a Function of Frequency – 2 Closed-Loop Frequency Response and Circuit Stability Slew Rate – 1 Slew Rate – 2

6. Operational Amplifier Applications

The section contains MCQs on dc and ac amplifiers, ac amplifiers with single supply voltage, peaking amplifier, summing, scaling and averaging amplifier, instrumentation amplifier, high frequency op-amp equivalent circuit, voltage to current and current to voltage converter, very high input impedance circuit, log and antilog amplifier, multiplier and divider, integrator and differentiator.

DC and AC Amplifiers AC Amplifiers with Single Supply Voltage Peaking Amplifier Summing, Scaling & Averaging Amplifier – 1 Summing, Scaling & Averaging Amplifier – 2 Instrumentation Amplifier – 1 Instrumentation Amplifier – 2 Instrumentation Amplifier – 3 High Frequency Op-Amp Equivalent Circuit Voltage to Current Converter with Floating and Grounded Load – 1

Voltage to Current Converter with Floating and Grounded Load – 2 Current to Voltage Converter Very High Input Impedance Circuit Log and Antilog Amplifier Multiplier and Divider – 1 Multiplier and Divider – 2 Integrator – 1 Integrator – 2 Differentiator

7. Active Filters

The section contains multiple choice questions and answers on active filters, first and second order low pass butterworth filter, higher order filters, band pass filter, band reject and all-pass filters.

Active Filters – 1 Active Filters – 2 First Order Low Pass Butterworth Filter Second Order Low Pass Butterworth Filter

First & Second-Order High Pass Butterworth Filter and Higher Order Filters Band Pass Filter Band-Reject and All-Pass Filters

8. Comparators and Waveform Generators

The section contains questions and answers on sine wave oscillator principles, square wave generator, triangular and sawtooth wave generator, comparator, voltage limiter and schmitt trigger, high speed and precision type comparator.

Basic principles of Sine Wave Oscillator – 1 Basic principles of Sine Wave Oscillator – 2 Basic principles of Sine Wave Oscillator – 3 Basic principles of Sine Wave Oscillator – 4 Square Wave Generator

Triangular and Sawtooth Wave Generator Comparator Voltage Limiter and Schmitt Trigger High Speed and Precision Type Comparator

9. D-A and A-D Converters

The section contains MCQs on dac techniques, a to d converter, dac and adc specifications.

Basic DAC Techniques – 1 Basic DAC Techniques – 2 A to D Converter – 1

A to D Converter – 2 DAC / ADC Specification

10. APPLICATIONS OF OPAMP

The section contains multiple choice questions and answers on peak detector, sampling, hold circuit, clippers and clampers.

Clippers and Clampers

Peak Detector, Sampling & Hold Circuit and Absolute-Value Output Circuit

11. 555 Timer

The section contains questions and answers on 555 timer as a monostable and astable multivibrator.

555 Timer as a Monostable Multivibrator

555 Timer as an Astable Multivibrator

12. Phase Locked Loops

The section contains MCQs on phase locked loops principles, phase detector, voltage controlled oscillator, pll applications, ic voltage regulator, monotholic phase locked loop, switching regulator and power amplifiers.

Basic Principles of Phase-Locked Loops Phase Detector / Comparator Voltage Controlled Oscillator PLL Applications

IC Voltage Regulator Switching Regulator Monolithic Phase-Locked Loop Power Amplifiers

If you would like to learn "Linear Integrated Circuits" thoroughly, you should attempt to work on the complete set of 1000+ MCQs - multiple choice questions and answers mentioned above. It will immensely help anyone trying to crack an exam or an interview.

Wish you the best in your endeavor to learn and master Linear Integrated Circuits!