APTRANSCO AEE Syllabus 2026: Exam Pattern, Subject-Wise Topics & PDF Download
Prepare effectively for the APTRANSCO AEE 2026 exam with our complete guide, covering the latest syllabus, exam pattern, marking scheme, and an official PDF download link.
APTRANSCO AEE Syllabus Overview
| Particulars | Details |
|---|---|
| Post Name | Assistant Executive Engineer (AEE) |
| Exam Mode | Online/Computer-Based Test |
| Question Type | Multiple Choice Questions (MCQs) |
| Total Questions | 100 Questions |
| Total Marks | 100 Marks |
| Exam Duration | 2 Hours |
| Core Subject Weightage | 70 Marks |
| Aptitude Weightage | 30 Marks |
| Negative Marking | No Negative Marking Expected |
APTRANSCO AEE Exam Pattern 2026
The official Exam Pattern for APTRANSCO AEE 2026 is detailed in the table below. Review this section to understand the marking scheme and subject weightage across all engineering disciplines.
| Post | AEE (Electrical) | AEE (Telecom) | AEE (Civil) |
| Core | 60 | 60 | 60 |
| Fundamentals of the Other Two Engineering Branches | 5+5 | 5+5 | 5+5 |
| General Intelligence & Reasoning | 5 | 5 | 5 |
| General Awareness | 5 | 5 | 5 |
| English | 5 | 5 | 5 |
| Quantitative Aptitude | 8 | 8 | 8 |
| Computer | 7 | 7 | 7 |
| Total Marks | 100 | 100 | 100 |
Minimum Qualifying Marks
| Category | Minimum Marks |
| Open Competition (OC) | 40 % |
| Backward Classes (BC) | 35 % |
| SC / ST | 30 % |
| PH (Physically Handicapped) | 30 % |
APTRANSCO AEE Syllabus 2026 Detailed
The APTRANSCO AEE syllabus is categorized into two key sections: Core Subjects and Non-technical subjects. Explore the specific technical syllabus for Electrical, Telecom, and Civil Engineering, alongside the comprehensive non-technical curriculum provided here.
Download Official APTRANSCO AEE Syllabus 2026 PDF – Click Here
Assistant Executive Engineer (Electrical) Syllabus 2026
| Subject | Topics |
| Electric Circuits | Network graph, KCL, KVL, node and mesh analysis, star/delta transformation, electromagnetic induction, mutual induction, AC fundamentals, harmonics, transient response of DC and AC networks, sinusoidal steady-state analysis, resonance, ideal current and voltage sources. Thevenin’s, Norton’s, Superposition, and Maximum Power Transfer theorems, two-port networks, three-phase circuits, and power measurement. |
| Electrical Machines | Single-phase transformer (equivalent circuit, phasor diagram, tests, regulation, and efficiency), three-phase transformer connections, parallel operation, and auto-transformer. DC machines (types, windings, generator/motor characteristics, armature reaction, and commutation, starting, and speed control of motors). Three-phase induction motors (principles, types, performance characteristics, starting, and speed control), single-phase induction motors, and synchronous machines (performance, regulation, parallel operation of generators, motor starting, characteristics, and applications). |
| Power Systems | Basic power generation concepts, transmission line models and performance, underground cables, string insulators, corona, distribution systems, per-unit quantities. Bus impedance and admittance matrices, load flow, voltage control, power factor correction, economic operation, symmetrical components, and fault analysis. Principles of over-current, differential, and distance protection, protection of alternators, transformers, and transmission lines, neutral earthing, solid-state relays, digital protection, circuit breakers, system stability concepts, swing curves, and the equal area criterion. |
| Utilization & Control Systems | Principles of feedback, transfer functions, block diagrams, steady-state errors, Routh and Nyquist techniques, Bode plots, root loci, lag, lead, and lead-lag compensation. Heating (resistance, induction, dielectric), welding (spot, seam, and butt), electric traction (speed-time curves, tractive effort). |
| Measurements | Bridges and potentiometers, PMMC, moving iron, dynamometer, and induction-type instruments. Measurement of voltage, current, power, energy, and power factor, digital voltmeters, multimeters, phase, time, and frequency measurement, Q-meters, and oscilloscopes. |
| Analog and Digital Electronics | Characteristics of diodes, BJT, FET, biasing amplifiers, equivalent circuits, frequency response, oscillators, and feedback amplifiers. Combinational and sequential logic circuits, multiplexers, Schmitt triggers, A/D and D/A converters, 8-bit microprocessor basics, architecture, programming, and interfacing. |
| Power Electronics and Drive | Semiconductor power diodes, transistors, thyristors, triacs, GTOs, MOSFETs, and IGBTs (static characteristics, principles of operation, and triggering circuits). Phase-controlled rectifiers, fully controlled and half-controlled bridge converters, principles of choppers and inverters, and basic concepts of adjustable-speed DC and AC drives. |
Assistant Executive Engineer (Telecom) Syllabus 2026
| Subject | Topics |
| Network Analysis & Signals | Kirchhoff’s Laws, RC, RL & RLC circuits (initial conditions, energy, power, instantaneous, max, average, and RMS values of alternating currents, phasor representation, transient, steady-state, and total response). Network analysis using Laplace transforms and properties. |
| Fourier Series | Continuous and discrete Fourier transforms, z-transforms, applications to signal analysis, convolution, network theorems, and two-port parameters (Series, Parallel, Cascade connections, Z, Y, ABCD parameters, network functions, poles, and zeros). Driving point and transfer functions, image parameters, conventional LP, HP, BP, and band-stop filters, composite filters, T, $\pi$, & lattice networks, attenuators, and equalizers. |
| Electronic Devices & Circuits | PN Junction, PNP, NPN transistors, biasing, tunnel diodes, FET, UJT, and SCR characteristics. Analysis and performance of various CB, CE, and CC transistor amplifiers, RC-coupled and push-pull amplifiers, compensation techniques, feedback, negative feedback, oscillator circuits, and phase-shift oscillators. Digital Circuits: Wave shaping, multivibrators, sweep generators, counters, logic gates and circuits, number systems, codes, and error detection/correction. Sequential circuits, integrated circuit OP-Amps & applications, IC comparator circuits, and A/D and D/A converters. |
| Linear Control Systems | Open-loop and closed-loop systems, signal flow graphs, stability via Routh-Hurwitz and Nyquist criteria, Bode plots, gain-phase margins, and lead-lag compensation techniques. |
| Transmission Lines, Antennas & Waves | Transmission line equation, primary and secondary parameters, propagation constants, open and short-circuited lines, standing waves, reflection coefficients, VSWR, line as a circuit element, and impedance matching. Maxwell’s equations, electromagnetic laws, plane waves, boundary conditions, concept of radiation, half-wave dipoles, antenna arrays, and communication antennas. Waveguides, reciprocal/non-reciprocal waveguide components, couplers, tees, microwave sources, and microwave link design. |
| Processors & Communication Systems | Architecture, assemblers, and memory devices for microprocessors & microcontrollers. All modulation techniques, SNR, analog & digital communication, multiplexers, demodulators, radio receivers/transmitters, fiber optics communication, and satellite communication systems. |
AEE (Civil) Detailed Syllabus 2026
| Subject | Topics |
| Strength of Materials | Simple stresses and strains, Hooke’s law, mild steel stress-strain curves, elastic constants, compound bars, temperature stresses, strain energy, resilience, and impact loading. SFD and BMD for simple cantilever and overhanging beams. Centre of gravity, moment of inertia, bending and shear stress distributions. Pure torsion theory, helical springs, thin/thick cylinders, truss analysis (method of joints and sections), combined direct and bending stresses, columns/struts, and beam deflection methods. |
| Reinforced Concrete | Basic reinforcing materials, tests on cement/aggregates, structural concrete grades, workability, and mix design. Working stress design for rectangular, flanged, singly, and doubly reinforced beams. Shear bond, development length, torsion in beams, one-way/two-way slabs, axially/eccentrically loaded columns, isolated/combined footings, and limit state design applications. |
| Soil Mechanics & Foundation Engineering | Physical properties, classification, permeability, capillarity, seepage, compaction, shear strength, earth pressure, and slope stability. Stress distribution, bearing capacity, settlement analysis, pile foundations, coffer dams, caissons, dewatering, excavation bracing, site investigations, Newmark charts, and machine foundations. |
| Steel Structures | Steel grades, design of simple/compound beams, riveted and welded joints/connections, eccentric framed/seated connections, compound columns, slab/gusseted bases, grillage foundations, roof trusses, plastic analysis (theorems, shape factor, bending of beams), and analysis of fixed/propped cantilever beams. |
| Fluid Mechanics & Machinery | Fluid properties, manometers, pressure measurements, forces on surfaces, center of pressure, buoyancy, stability of floating/submerged bodies, metacenter, and flow kinematics. Equations of continuity, Euler, and Bernoulli, impulse-momentum, flow measurement (orifices, mouthpieces, notches, weirs), pipe flow, open channel flow, and impact of jets (turbines, pumps, and machinery). |
Non-Technical Syllabus 2026
| Subject | Topics |
| Reasoning and General Intelligence | Semantic/Symbolic/Figural Analogy, Trends, Space Orientation, Semantic/Symbolic/Number/Figural Classification, Venn Diagrams, Drawing Inferences, Punched hole/pattern folding & unfolding, Semantic/Number/Figural Series, Critical Thinking, Problem Solving, Emotional & Social Intelligence, Word Building, and Coding/Decoding. |
| General Awareness | Testing everyday observations and scientific applications to society. Current events and updates relating to India and its neighboring countries, specifically mapping History, Culture, Geography, Economic Scenes, General Policy, and Scientific Research. |
| Quantitative Aptitude | Ability to use number sense appropriately: Computation of whole numbers, decimals, fractions, relationships between numbers, order of magnitude, estimation or prediction of computational outcomes, translating numerical names, and solving real-life arithmetical concepts. |
| English Language and Comprehension | Vocabulary, grammar, sentence structures, synonyms, antonyms, correct usage, Spot the Error, Fill in the Blanks, Spellings/misspelt words, Idioms & Phrases, One-word substitution, Sentence improvement, Active/Passive Voice, Direct/Indirect narration, and Sentence/Passage shuffling. Comprehension features two or more paragraphs (one story/book-based and one based on a current affairs editorial/report). |
| Computer Knowledge / Proficiency | CPU organization, input/output devices, memory organization, backup devices, ports, Windows Explorer, and keyboard shortcuts. Software & Applications: Windows OS and Microsoft Office utilities (MS Word, MS Excel, PowerPoint). Internet Operations: Web browsing, searching, downloading, uploading, managing email accounts, and e-banking. Networking & Cyber Security: Networking devices, protocols, and identification/prevention of threats like hacking, viruses, worms, and Trojans. |
FAQs
The APTRANSCO AEE selection process features a written exam comprising 100 objective-type questions, with a total of 100 marks and a strict 2-hour time limit.
Currently, there is no provision for negative marking in the APTRANSCO AEE recruitment examination, allowing candidates to attempt all questions.
The examination structure typically allocates 70 marks to the Core Engineering section, while the Analytical Aptitude and Reasoning section carries a weightage of 30 marks.
Candidates can conveniently download the latest APTRANSCO AEE Syllabus PDF directly from the official portal or by using the direct link provided within this article.