Gate Syllabus for Electrical Engineering

The Indian Institute of Technology, Kanpur, will administer the GATE 2023 exam. Along with the GATE 2023 syllabus for electrical engineering, candidates should review the GATE 2023 exam pattern for preparation purposes. While preparing for GATE, candidates should consult the EE syllabus. The GATE 2023 Electrical Engineering syllabus can help candidates improve their preparation by familiarizing them with the topics covered in the exam.

Candidates taking the GATE Exams can review the GATE syllabus for electrical engineering in this article as well as the online mode on the official website. The GATE Electrical Syllabus 2023 will provide an overview of all the topics and concepts covered in the GATE Electrical Engineering Paper. GATE 2023 will take place on February 4, 5, 11, and 12. Read on to learn more about the GATE 2023 Syllabus for Electrical Engineering.

Gate Syllabus for Electrical Engineering

About GATE Exam

The Graduate Aptitude Test in Engineering is a national test that is authorized and administered in eight regions across the country. The GATE Committee, faculty members from IISc, and seven other IITs administer the exam on behalf of the Ministry of Human Resources Development, National Coordinating Board, and Department of Education.

The GATE exam is intended to assess students' knowledge of engineering and science subjects. A number of PSUs (Public Sector Undertakings) use the GATE scorecard to recruit candidates for prestigious jobs at Indian Oil, GAIL, and Hindustan Petroleum, among others. The exam pattern for GATE EE 2023 -

Particulars Details
Mode of Exam Online
Number of Questions 65
Duration of Exam 3 hours
Pattern of Questions
  • Multiple Choice Questions (MCQs)
  • Numerical Answer Type Questions (NAT)
Marking Scheme
  • For MCQs -Test Paper carry 1 mark and 2 marks

for questions with 13 and 23 negative marking

for incorrect answers respectively.

  • For NAT - No negative marking.
Number of Sections
  • Section 1- General Aptitude
  • Section 2 - Engineering Mathematics

and Branch-specific Questions.

Topic wise weightage
  • General Aptitude – 15%
  • Engineering Mathematics – 13%
  • Branch-specific Questions – 72%


Candidates must be familiar with the GATE Electrical Engineering Syllabus 2023 to prepare for the exam. The GATE 2023 syllabus for Electrical Engineering is available in the table below.

General Aptitude (GA)

Important Topics Contents
Verbal Ability
  • English Grammar
  • Sentence Completion
  • Word Groups
  • Verbal Analogies
  • Critical Reasoning
Numerical Ability
  • Numerical Computation
  • Numerical Reasoning
  • Data Interpretation

Engineering Mathematics

Important Topics Contents
Linear Algebra
  • Linear dependence and independence
  • Vector space
  • Matrix algebra, Eigenvalues, and Eigenvectors
  • Solution of linear equations- existence and uniqueness
  • Rank.
  • Mean value theorems
  • Theorems of integral calculus
  • Evaluation of definite and improper integrals
  • Partial derivatives, maxima, and minima
  • Multiple integrals, line, surface, and volume integrals
  • Taylor series
Differential Equations
  • First-order equations (linear and nonlinear)
  • Higher-order linear differential equations
  • Cauchy's and Euler's equations
  • Methods of solution using a variation of parameters
  • Complementary function and particular integral
  • Partial differential equations Variable separable method
  • initial and boundary value problems
Vector Analysis
  • Vectors in plane and space
  • Vector operations
  • Gradient, divergence, and curl
  • Gauss's, Green's, and Stokes’ theorems.
Complex Analysis
  • Analytic functions
  • Cauchy’s integral theorem
  • Cauchy’s integral formula, sequences, series, and convergence tests
  • Taylor and Laurent series, residue theorem.
Probability & Statistics
  • Mean, median, mode, standard deviation
  • Combinatorial probability
  • Probability distributions
  • Binomial distribution
  • Poisson distribution
  • Exponential distribution
  • Normal distribution
  • Joint and conditional probability.

Branch-Specific Subjects

Subjects Content
Electric circuits
  • Ideal voltage
  • Current sources
  • Dependent sources
  • R, L & C elements
  • KCL & KVL
  • Node & Mesh analysis
  • Thevenin’s Theorems
  • Norton’s Theorems
  • Superposition Theorems
  • Maximum Power
  • Transfer theorem Transient response of dc & ac networks
  • Sinusoidal steady-state analysis
  • Resonance
  • Two port networks
  • Balanced three-phase circuits
  • Star-delta transformation
  • Complex power & power factor in ac circuits
Electromagnetic Fields
  • Coulomb’s Law,
  • Electric Field Intensity
  • Electric Flux Density
  • Gauss’s Law
  • Divergence
  • Electric field & potential due to point, line, plane, and spherical charge distributions
  • Effect of a dielectric medium
  • The capacitance of simple configurations,
  • Biot-Savart’s law
  • Ampere’s law
  • Curl Faraday’s law
  • Lorentz force
  • Inductance
  • Magnetomotive force
  • Reluctance Magnetic circuits
  • Self & Mutual inductance of simple configurations.
Signals and Systems
  • Representation of continuous & discrete-time signals
  • Shifting & scaling properties
  • Linear time-invariant & causal systems
  • Fourier series representation of continuous time periodic signals
  • Fourier series representation of discrete-time periodic signals
  • Sampling theorem
  • Applications of Fourier Transform for continuous-time signals
  • Applications of Fourier Transform for discrete-time signals
  • Laplace Transform
  • Z transform
Electrical Machines
  • Single phase transformer
  • Equivalent circuit
  • Phasor diagram
  • Open circuit tests
  • Short circuit tests
  • Regulation and efficiency
  • Three-phase transformers
  • Connections
  • Vector groups
  • Parallel operation
  • Auto-transformer
  • Electromechanical energy conversion principles
  • DC machines
  • Separately excited
  • Series & shunt
  • Motoring & generating mode of operation & their characteristics
  • Speed control of dc motors
  • Three-phase induction machines
  • Principle of operation
  • Types
  • Performance
  • Torque-speed characteristics
  • No-load & blocked-rotor tests
  • Equivalent circuit
  • Starting & speed control
  • Operating principle of single-phase induction motors
  • Synchronous machines
  • Cylindrical & salient pole machines
  • Performance & characteristics
  • Regulation & parallel operation of generators
  • Starting of synchronous motors
  • Types of losses & efficiency calculations of electric machines
Power Systems
  • Basic concepts of electrical power generation
  • AC and DC transmission concepts
  • Models and performance of transmission lines & cables
  • Economic Load Dispatch (with & without considering transmission losses)
  • Series & shunt compensation
  • Electric field distribution
  • Insulators
  • Distribution systems
  • Per-unit quantities
  • Bus admittance matrix
  • Gauss-Seidel & Newton-Raphson load flow methods
  • Voltage & Frequency control
  • Power factor correction
  • Symmetrical components
  • Symmetrical & unsymmetrical fault analysis
  • Principles of over-current, differential, directional & distance protection
  • Circuit breakers
  • System stability concepts
  • Equal area criterion.
Control Systems
  • Mathematical modeling & representation of systems
  • Feedback principle
  • Transfer function
  • Block diagrams
  • Signal flow graphs
  • Transient of linear time-invariant systems
  • Steady-state analysis of linear time-invariant systems
  • Stability analysis
  • Using Routh-Hurwitz
  • Using Nyquist criteria
  • Using Bode plots
  • Using Root loci
  • Lag, Lead & Lead-Lag compensators
  • P, PI & PID controllers
  • State space model
  • Solution of state equations of LTI systems.
Electrical and Electronic Measurements
  • Bridges & Potentiometers
  • Measurement of voltage & current
  • Measurement of power, energy & power factor
  • Instrument transformers
  • Digital voltmeters & multimeters
  • Phase, Time & Frequency measurement; Oscilloscopes
  • Error analysis.
Analog and Digital Electronics
  • Clipping, clamping & rectifiers
  • Amplifiers
  • Biasing
  • Equivalent circuit
  • Frequency response
  • Oscillators
  • Feedback amplifiers
  • Operational amplifiers: characteristics & applications
  • Single-stage active filters
  • Active Filters
  • Sallen Key
  • Butterworth
  • VCOs Timers
  • Digital Circuit
  • Combinatorial logic circuit
  • Sequential logic circuits
  • Multiplexers
  • Demultiplexers
  • Schmitt triggers
  • Sample and hold circuits
  • Analog toDigital Converter
  • Digital to Analog converter
Power Electronics
  • Static V-I characteristics & firing/gating circuits
  • Thyristor
  • IGBT
  • DC to DC conversion
  • Buck
  • Boost
  • Buck-Boost Converters
  • Single & three-phase configuration of uncontrolled rectifiers
  • Voltage & Current commutated Thyristor based converters
  • Bidirectional ac to dc voltage source converters
  • Magnitude & Phase of line current harmonics for uncontrolled & thyristor-based converters
  • Power factor of ac to dc converters
  • Distortion Factor of ac to dc converters
  • Single-phase & three-phase voltage and current source inverters
  • Sinusoidal pulse width modulation


In this article, we have discussed the EE GATE Syllabus. Candidates can also examine key topics from previous GATE papers. Although this technique will take time, candidates can use it to prepare for the GATE 2023 exam. GATE aspirants can achieve a high score in the GATE exam by planning ahead of time and solving previous papers.

Frequently Asked Questions (FAQs)

Q1. Where can I get the GATE 2023 syllabus for Electrical Engineering?

Ans. The official GATE 2023 EE syllabus has been published on the IIT Kanpur website. The official GATE syllabus for Electrical Engineering is available for download on the website.

Q2. What exactly is the GATE Syllabus for Electrical Engineering?

Ans. The GATE EE Syllabus 2023 covers all of the topics covered in the exam. Electric Circuits, Electromagnetic Fields, Signals and Systems, Electrical Machines, Power Systems, Control Systems, Electrical and Electronic Measurements, Analog and Digital Electronics, and Power Electronics are the subjects covered in the GATE Electrical Engineering syllabus.

Q3. How many questions are there in each section of the GATE EE syllabus?

Ans. The general aptitude section of the GATE EE syllabus will have 15 questions, and the electrical engineering section will have 50 questions.

Q4. How to Complete the GATE 2023 Electrical Engineering Syllabus

Ans. Students preparing for the exam and wishing to complete the GATE 2023 syllabus for Electrical Engineering should begin their preparation as soon as possible. Plan your study strategy based on the importance of the topics in the Electrical Engineering syllabus.

Q5. What was the level of the exam based on the GATE Electrical Syllabus?

Ans. According to the most recent information based on candidate and expert experience, the GATE exam is considered fairly difficult. The exam questions are solely based on the GATE Electrical syllabus.

Q6. What are the advantages of taking the GATE exam?

Ans. The GATE exam has numerous advantages. If you pass the GATE exam, you will be able to apply for Master’s programs at prestigious institutions such as IITs, IISC, and others, as well as jobs in PSUs.

Q7. Where can we obtain sample papers for the GATE EE examination?

Ans. Mock tests are available for all sections of the GATE EE syllabus at GATE Wallah. You can enroll and begin your studies right away.

Q8.How do you get your hands on the GATE 2023 syllabus for Electrical Engineering?

Ans. The syllabus will be made available on the GATE Exams official website by IIT Kanpur. The topics are also listed on the website.

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