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This book provides leading platform for GATE aspirants to practice and hone their skills required to gain the best score in the examination. It includes more than 28 previous years GATE questions segregated topic-wise supported by detailed step-wise solutions for all. Besides, the book presents the exam analysis at the beginning of every unit which will enable better understanding of the subject. The questions in the chapters are divided according to their marks, hence emphasizing on their importance. This, in turn, will help the students to get an idea about the pattern and weightage of these questions that appeared in the GATE exam every yearFeatures:• Includes around 28 years' GATE questions arranged chapter-wise • Detailed solutions for better understanding • Includes the latest GATE solved question papers with detailed • analysis • Comprehensively revised and updatedTable of Contents:Preface Syllabus: Electrical Engineering Important Tips for GATE Preparation Unit 1: Signals and Systems Chapter 1: CT and DT Signals Chapter 2: LTI Systems (CT and DT) Chapter 3: Periodic Signal: Fourier Series Chapter 4: Signal Fourier Transform Chapter 5: Sampling TheoremChapter 6: Signal: Laplace Transform Chapter 7: DT Signal: Z-Transform Chapter 8: Miscellaneous Unit 2: Analog Electronics Chapter 1: Diode Circuit Chapter 2: BJT and FET Biasing Chapter 3: Small Signal Modeling and AnalysisChapter 4: Frequency Response Chapter 5: Operational Amplifiers and Applications Chapter 6: Feedback Amplifiers and Oscillators Chapter 7: Function Generator and 555 Timer Unit 3: Digital Electronics and Microprocessors Chapter 1: Number Systems and Code Conversions Chapter 2: Boolean Algebra Chapter 3: Logic Gates Chapter 4: Combinational Digital Circuits Chapter 5: Sequential Digital Circuits Chapter 6: Semiconductor Memories Chapter 7: Logic Gate Families Chapter 8: A/D and D/A Converters Chapter 9: Microprocessors Unit 4: Electric Circuits and Fields Chapter 1: Network Elements Chapter 2: Network Graph Chapter 3: Network Theorems Chapter 4: Transient Response Chapter 5: Sinusoidal Steady State Analysis Chapter 6: Three-phase Circuits Chapter 7: Two Port Networks Chapter 8: Miscellaneous Chapter 9: FieldsUnit 5: Electric Machines Chapter 1: DC Machines Chapter 2: Transformers Chapter 3: Induction Motors Chapter 4: Synchronous Machines Unit 6: Power Electronics and Drives Chapter 1: Basics and Power Semiconductor Devices Chapter 2: ACDC Converters Chapter 3: DCDC Converters Chapter 4: DCAC Converters Chapter 5: ACAC Converters Chapter 6: Fundamentals of Drives Unit 7: Electrical and Electronics Measurements Chapter 1: Fundamentals and Error Analysis Chapter 2: Indicating Instruments Chapter 3: Measurement of Voltage and Current Chapter 4: Measurement of Resistance Chapter 5: Bridge Measurement, Measurement of Induction and Capacitance Chapter 6: Extension of Instrument Ranges Chapter 7: Potentiometer Chapter 8: Measurement of Power and Energy Chapter 9: Measurement of Phase and Frequency Chapter 10: Potentiometric Recorders and Q-Meter Chapter 11: Oscilloscope Chapter 12: Electronic Multimeters and Digital Voltmeters Chapter 13: Instrument Transformer Unit 8: Power Systems Chapter 1: Transmission and Distribution Chapter 2: Economics of Power Generation Chapter 3: Symmetrical Components and Faults Chapter 4: Power System Stability Chapter 5: Protection Chapter 6: Circuit BreakerChapter 7: Generating Stations Chapter 8: Load Flows Chapter 9: HVDC Chapter 10: Per Unit System Unit 9: Control Systems Chapter 1: Basic Control Systems Chapter 2: Signal Flow Graph and Block Diagram Chapter 3: Stability Chapter 4: Time Response Analysis Chapter 5: Root Locus Diagram Chapter 6: Frequency Response Analysis Chapter 7: Controllers (or) Compensators Chapter 8: State Space Analysis