EEE Dept Engineering Topics List

Voltage Regulator Characteristics

Operating working principle, Features, Functional Block Diagram, Performance factors

Subject and UNIT: Linear Integrated Circuits: Unit V: Application ICs

A power supply is an important element of any type of electronic circuit. It provides the supply for the proper operation of the circuit. The successful operation of the circuit depends on the proper functioning of the power supply.

AD623 Instrumentation Amplifier IC

Operating working principle, Features, Functional Block Diagram, Pin Diagram, Application, Circuits Diagram

Subject and UNIT: Linear Integrated Circuits: Unit V: Application ICs

The AD623 is instrumentation amplifier IC which can work on single or dual supply. It has single gain set resistor programming. It has 8 pins. Its gain can be varied from 1 to 1000. With no external resistance, it can be configured as unity gain amplifier.

Application ICs

Linear Integrated Circuits

Subject and UNIT: Linear Integrated Circuits: Unit V: Application ICs

Linear Integrated Circuits: Unit V: Application ICs : Syllabus, Contents

University Questions with Answers (Long Answered Questions)

Special ICs | Linear Integrated Circuits

Subject and UNIT: Linear Integrated Circuits: Unit IV: Special ICs

Linear Integrated Circuits : Unit IV: Special ICs : University Questions with Answers (Long Answered Questions)

Two Marks Questions with Answers

Special ICs | Linear Integrated Circuits

Subject and UNIT: Linear Integrated Circuits: Unit IV: Special ICs

Linear Integrated Circuits : Unit IV: Special ICs : Two Marks Questions with Answers

AD633 Multiplier IC

Operating working principle, Features, Functional Block Diagram, Pin Diagram, Application Circuits

Subject and UNIT: Linear Integrated Circuits: Unit IV: Special ICs

The IC AD633 is a multiplier IC by analog devices. It is low cost, 8 pin, 4 quadrant multiplier IC. The various features of AD633 are,

Four Quadrant Variable Transconductance Multiplier Circuit

Operating working principle

Subject and UNIT: Linear Integrated Circuits: Unit IV: Special ICs

The heart of the four quadrant variable transconductance multiplier circuit is the linearized transconductance multiplier and the differential V-I converter. Let us study these two circuits in brief.

Analog Multiplier IC

Characteristics, Symbol, Block Diagram, Pin Diagram, Performance Parameters, Applications

Subject and UNIT: Linear Integrated Circuits: Unit IV: Special ICs

Monolithic Integration has lowered the cost of multiplier ICs considerably. Such an IC is not only useful as multiplier but can be used as a simple and direct solution to complex signal processing problems.

Analog Voltage Multiplier Circuit

Circuit Diagram, Operating working principle, Derivation

Subject and UNIT: Linear Integrated Circuits: Unit IV: Special ICs

Using log and antilog amplifiers, the circuit can be built to obtain the output proportional to the product of the two input voltages. The circuit is called analog voltage multiplier.

Analog Voltage Divider Circuit

Circuit Diagram, Operating working principle, Derivation

Subject and UNIT: Linear Integrated Circuits: Unit IV: Special ICs

Using log and antilog amplifiers, the circuit can be built to obtain the output proportional to the product of the two input voltages. The circuit is called analog voltage multiplier.

565 PLL Applications

with Block Diagram, Operating working principle

Subject and UNIT: Linear Integrated Circuits: Unit IV: Special ICs

1. Frequency Multiplier 2. Frequency Synthesizer 3. FM Demodulator 4. Frequency Shift Keying (FSK) Demodulator 5. AM Detection 6. Frequency Translation

Monolithic Phase Locked Loop IC 565

Operating working principle, Block Diagram, Pin Diagram, Functions of Pins, Working functions, Solved Example Problems

Subject and UNIT: Linear Integrated Circuits: Unit IV: Special ICs 3. Derivation of Capture Range

These ICs are differ mainly in operating frequency range, power supply requirements, and frequency and bandwidth adjustment ranges. IC 565 PLL is most commonly used and hence discussed in this section.