**TSPSC AE, Technical Officer Syllabus 2023 PDF Download**: Candidates Are you preparing for TSPSC AE, Technical Officer Exam 2023 Then this article is for You……….! Here The **TSPSC AE, Technical Officer Syllabus 2023, And Exam Pattern** are available in detail. So the Candidates, who had applied for TSPSC AE, Technical Officer Jobs 2023, and are Searching Online for TSPSC AE, Technical Officer Syllabus 2023, will get complete information here. The Telangana State Public Service Commission recently announced the **TSPSC AE, Technical Officer Exam 2023**.

Contents in this Article

**TSPSC AE, Technical Officer Syllabus 2023 Highlights**

Organization | Telangana State Public Service Commission (TSPSC) |

Exam | Assistant Engineer, Municipal Assistant Engineer, Technical Officer, Junior Technical Officer |

Category | Syllabus |

Selection Process | Written Examination |

Job Location | Telangana |

Official Site | tspsc.gov.in |

**TSPSC AE, Technical Officer Exam Pattern 2023**

Paper (Objective type) | No. of Questions | Time Duration (in minutes) | Maximum Marks |

Paper I : (General Studies and General Abilities) | 150 | 150 | 150 |

Paper II: (Civil Engineering (Diploma Level) OR Mechanical Engineering (Diploma Level) OR Electrical and Electronics Engineering (Diploma Level) | 150 | 150 | 150 |

Total | 300 | 300 minutes | 300 marks |

**Download TSPSC Assistant Engineer, Technical Officer Syllabus 2023 PDF**

So the Applicants who applied for TSPSC AE, Technical Officer Exam must check this article. The **TSPSC AE, Technical OfficerExam** is quite tough to be Qualified and there will be a huge competition for the Examination. So the Contenders should practice Hard. So, to help those candidates we are here with the Updated TSPSC AE, Technical Officer Syllabus, and Exam Structure.

**PAPER – I: GENERAL STUDIES AND GENERAL ABILITIES**

- Current Affairs – Regional, National, and International
- International Relations and Events.
- General Science; India’s achievements in Science and Technology
- Environmental issues and Disaster Management
- The economy of India and Telangana
- Geography of India with a focus on Telangana
- Indian Constitution and Polity with a focus on local self Government
- Society, Culture, Heritage, Arts, and Literature of Telangana
- Policies of Telangana State
- History of Modern India with a focus on the Indian National Movement
- History of Telangana with special emphasis on Movement for Telangana Statehood
- Logical Reasoning, Analytical Ability, and Data Interpretation
- Basic English (8th Class Standard)

**PAPER – II: CIVIL ENGINEERING (DIPLOMA LEVEL)**

1. Surveying: Fundamental concepts; Classification of Surveys; Chain Surveying; Compass Surveying; Levelling and Contouring; Theodolite Surveying; Tacheometry; Curves; Introduction and fundamental concepts of electronic measuring instruments – EDM, Total Station, GIS & GPS.

2. Construction Materials & Practice: Properties and uses of construction materials – Stones, Bricks, Tiles, Sand, Cement, Timber, Plastics, Glass, Asbestos, Paints, Distempers, Enamels, and Varnishes; Preparation of Cement mortar for various works. Classification of Buildings as per NBC, Site investigation for foundation as per NBC -Trial Pit and auger boring, classification of foundations, construction of spread footing and well foundation; Stone and Brick masonry – types and principles of construction; Doors and Windows – types, fittings, and fastenings, types and functions of Lintels, Sunshades and Roofs, Flooring – Construction, and types of material; Types of Stairs; Scaffolding; Types of Plastering, Pointing, Painting, and White / Colour Wash

3. Engineering Mechanics and Strength of Materials: Forces – types of Forces, Parallelogram, Triangle and Polygon Law of Forces, Lami’s theorem; Centre of Gravity and Moment of Inertia; Simple stresses and strains, Hooke’s law stress-strain diagram, working strength, elastic constants, Poisson’s ratio, Relationship between elastic constants, compound rods, temperature stresses, strain energy, proof resilience, impact loading; Shear force, and bending moment diagrams for simply supported, overhanging and cantilever beams, the relation between the intensity of loading, shear force and bending moment; Theory of simple bending, modulus of the section, a moment of resistance, distribution of shear stress in rectangular, circular, and I-Sections; Deflection in cantilever and simply supported beams subjected to simple loading; Columns and struts – Euler’s and Rankine’s formulae, Slenderness ratio, simple built-up columns; Analysis of dams and retaining walls; Simple plane and pin-jointed trusses, Stresses by the method of joints and method of sections.

4. Hydraulics: Properties of fluids, fluid pressure and its measurement; Types of flows, energies in fluid motion, Bernoulli’s theorem and its applications – venture metre, pitot tube; Orifice and mouthpiece; Notches and weirs; Flow through pipes, hydraulic gradient line and total energy line, laminar and turbulent flow in pipes – Reynolds number, measurement of velocity; open channels; Water turbines – classification, centrifugal and reciprocating pumps; Layout of the hydroelectric power plant.

5. Quantity Surveying: Abstract estimate, detailed estimate – centreline and long & short wall method, various items of Civil Engineering works as per Indian Standards; General Specifications – earth work, brick/stone masonry in cement mortar, RCC, plastering in cement mortar, Floor finishes with ceramic tiles and marbles, whitewashing, colour washing; Standard schedule of rates, lead and lift, preparation of lead statement; Computation of earthwork – Midordinate, Mean Sectional area, Trapezoidal method, Prismoidal Rule; Approximate estimate Plinth area and cubic rate estimate.

6. Design of Structures (RCC and Steel): RCC structures: Design philosophies – principles and concepts of working stress method and limit state method, loads and permissible stresses, IS specifications, analysis and design – rectangular beam, slab, T-beam, column, footing and staircase. Steel Structures: Properties of steel sections, loads and permissible stresses IS specifications, Analysis and design – welded joints, beam, column, column base, tension member; Design of roof truss.

7. Irrigation Engineering: Definitions, duty, delta, base period, rainfall and its measurement, factors affecting runoff, methods of computing maximum flood discharge; Classification of head works, component parts of a weir and barrage, factors influencing selection of site – reservoirs and dams; Classification of canals, canal lining, cross drainage works; Soil erosion, water logging, soil water plant relationship; Necessity of irrigation – advantages and disadvantages, irrigation methods.

8. Environmental Engineering: Basics of ecosystem, water supply scheme; Sources of water; Conveyance of water – pipes, joints and laying; Testing of water, drinking water standards; Treatment of water; Distribution of water; Water supply connection to a building. Quantity of sewage, surface drains, design of sewers running half full, limiting velocities; Laying of sewers, sewer appurtenances; Collection of sewage samples, characteristics of domestic and industrial sewage – BOD, COD; Sewage treatment, septic tank & soak pit, sewage disposal – dilution and sewage farming; House drainage arrangements in buildings; Solid waste – collection and disposal; Air Pollution – sources, effects and controlling methods.

9. Transportation Engineering: Alignment of roads – plain and hilly terrain, surveys; Cross section of road structure, width of pavement, Camber, Gradient, Super elevation, Transition curves, horizontal and vertical alignment; Pavement marking, traffic signs, traffic islands. Types of soil, classification of soil – Textural, IS Classification, physical properties – plasticity, cohesion, consolidation, compaction, permeability, compressibility, soil moisture content, specific gravity, density; Bearing capacity of soil.

**PAPER-II: MECHANICAL ENGINEERING (DIPLOMA LEVEL)**

1. Thermal Engineering: Thermodynamics: Thermodynamic systems and properties – Zeroth law of thermodynamics – First law of thermodynamics – Second law of thermodynamics – Steady flow energy equation – Laws of perfect gases – Characteristics gas equation – Universal gas equation. Thermodynamic processes – Entropy – Air stand cycles – Carnot cycle – Otto cycle – Diesel cycle. Properties of steam – Sensible heat – Latent heat – Degree of super heat – Dryness fraction – Simple calculations on enthalpy of steam without using steam tables and Mollier chart. Refrigeration and Air conditioning – Fundamentals of refrigeration – Definition and meaning of refrigeration – Unit of refrigeration – COP – Carnot Refrigeration cycle and Bell column refrigeration cycle. Fuels – Types of fuels – Calorific values – Bomb calorimeter and Junker gas calorimeter.

Heat Engines: Internal Combustion Engines – Components of IC engines – Working principle – Valve and Port timing diagrams – Working of simple carburetor – Cooling system – Ignition system – Governing and Super charging of IC engines. Air compressors – Type of

compressors – Single stage compressor – Multi stage Compressor – Rotary compressors. Gas turbines – Classification – Working of Constant Pressure (Open, closed and Semi closed) gas turbines – Applications and limitations of gas turbines. Steam Boilers Classification – Working and differences between fire tube and water tube boilers – Mountings and Accessories – Performance of Boiler. Steam nozzles &Turbines – Flow through steam nozzles – Velocity and discharge through steam nozzles – Critical pressure ratio – Classification of turbines – Working principle of impulse and reaction turbines – Expression for Axial thrust, Tangential thrust, Work done and efficiencies – Methods of compounding – Governing of turbines. Automobile Engineering: Identify of the various components of an Automobile – Functions of basic structure, power plant, transmission system, auxiliaries, Control of the Automobile – Concept of total resistance.

2. Manufacturing Technology: Methods of manufacturing processes: Foundry – Mechanical working of metals – Powder metallurgy – Welding, soldering and brazing – Lathe and Lathe work – Drilling machines – Shaper, Slotter and Planer – Broaching Machines – Milling and Grinding machines – Modern machining processes – USM, AJM, EDM and LBM Processes – Plastics and Plastic processing – Press tools – Jigs and Fixtures. Metrology: Linear and Angular measurements – Comparators – Measurement of surface roughness – Collimators – Interferometer.

3. Engineering Mechanics & Strength of Materials: Statics: Scalar and Vector quantities – Force – System of forces – Composition and resolution of forces – Resultant of forces – Parallelogram law of forces – Moment of a force – Law of moments – Varignon’s principle – Parallel forces and their resultant – Couples and moment of a couple – Equilibrium and equilibriant – Conditions for equilibrium – Triangle and Polygon law of forces – Lami’s theorem. Friction – Simple machines – Centre of gravity – Moment of Inertia. Dynamics: Linear Motion – Motion under gravity – Newton’s laws of motions –Impulse – Law of Conservation of momentum and Recoil of gun – Work, Power and Energy – Circular motion –Centripetal force – Motion of a vehicle on level circular track – Super elevation – Simple Harmonic motion – Applications of SHM.

Strength of Materials: Simple stresses and strains – Stress and strain diagram – Hooke’s law – Elastic constants – Poisson’s ratio – Relationship between elastic constants – Temperature stresses – Strain energy – Shear force and bending moment diagrams – Type of beams – Types of loads -SF and BM diagrams with Point load and uniformly distributed loads for Cantilever and Simply supported beam – Theory of simple bending – Bending equation – Bending stress – Modulus of section – Deflection and slope of Cantilever and simply supported beam with Point load and uniformly distributed load – Torsion of shafts – Springs – Thin cylindrical shells.

4. Machine Design: Design factors – Factor of safety – Limits, tolerances and fits – Conventional symbols of Materials and machine components – Welding symbols – Surface roughness values and symbols – Specifications of materials and standard components – Bolts, Nuts and screws – Shafts, keys and couplings – Belt, chain and Gear drives – Cams – Fly wheel – Governors.

5. Engineering Materials: Mechanical properties of engineering materials – Testing and structure of materials – Production of iron and steel – Iron/carbon equilibrium diagram – Heat treatment of steels – Ferrous and non ferrous metals and their alloys.

6. Hydraulics and Hydraulics Machinery:Hydraulics: Properties of fluids – Fluid pressure and its measurement – Types of fluid flow – Reynolds’s Number – Equation of Continuity – Energy of fluids – Bernoulli’s theorem – Venturimeter – Pitot tube – Hydraulic Co-efficients. Flow through pipes: Concept of loss of head in pipes due to friction – Darcy’s and Chezy’s formulae – Hydraulic gradient line and total energy line – Power transmission through a pipe – Syphon – Transmission efficiency – Condition for max. power transmission through a pipe.

Hydraulics Machines: Impact of jets – Water turbines: Classification of turbines – Pelton wheel – Francis turbine – Kaplan turbine – Expressions for Work, Power, and Efficiencies of Pelton wheel, Francis Turbine and Kaplan Turbine – Differences between turbines – Governing of turbines. – Hydroelectric power plant and its Layout. Pumps: Classification of pumps – Construction and working of Reciprocating single-acting/ double-acting pumps – Expressions for discharge, slip, Work and Power – Air vessel. Centrifugal pumps: Construction and working of Centrifugal pumps – Expression for Work, Power, Manometric head and Efficiencies – Differences between Pumps – Priming – Foot Valve and strainer – Cavitation.

7. Industrial Engineering and Management: Management: Principles and functions of management – Organization structure and organizational behavior – Production Management – Material management – Marketing and sales. Industrial Engineering: Work study – Wages and incentives – Fundamentals of estimation – Depreciation – Elements of Costing.

**PAPER-II: ELECTRICAL AND ELECTRONICS ENGINEERING (Diploma Level)**

1. BASIC ELECTRICAL ENGINEERING & BATTERIES: Basics of Electrical Engineering – Ohms law _ Laws of resistance – Resistances in series & parallel – Work, Power, Energy – Heating effects of Electric current – Magnetic Effects of Electric current – Electromagnetic induction – Electrostatics – conducting, Insulating, Semiconductor materials – Special purpose materials – Basics of Batteries – construction, working principle, Efficiencies, charging methods, Applications of batteries.

2. ELECTRICAL CIRCUITS: D.C.Circuits, Network Theorems with reference to D.C., A.C. Circuits and fundamentals of A.C – Series circuits, Parallel circuits, resonance Q-factor, Polyphase circuits, Relation between phase value and line value in star and delta circuits, measurement of 3-phase Power with 2-watt meter method.

3. DC MACHINES: Basics of D.C.Generators – Theory, Construction, working, Classification, EMF Equation, Losses & Efficiency, Armature Reaction, Commutation, Characteristics, Parallel operation & Applications of D.C Generators – Basics of D.C Motors – Theory, Construction, Working, Classification, Back EMF, Torque, Characteristics, Applications, Speed control of DC Motors – Starters for D.C Motors – Testing of DC Motors.

4. MEASURING INSTRUMENTS Basic of measuring instruments – Theory, Construction, Working, Errors, Advantages, Disadvantages & Applications, of M.C, M.I, Dynamometer & Induction meters, single phase and three phase Energy Meters, PF Meter, Weston frequency meter, Weston Synchroscope, Trivector meter. Measurement of resistance – Potentiometers – Various types of Transducers and Sensors –Various types Electronic & digital measuring instruments.

5. AC MACHINES: Transformers: Principle, construction working, classifications, EMF Equations, theory of transformers, Equivalent circuit, regulation, losses, efficiency, All-day efficiency testing – Auto transformer – 3-phase transformers – Instrument transformers – parallel operation; Alternator – Principle, construction, working, EMF Equation, Armature reaction, voltage regulations, testing parallel operation

6. ELECTRONICS ENGINEERING: Basic semiconductor devices and their characteristics – power supplies – amplifiers – oscillators – CRO – IC Timers – special devices; Number systems – Basic logic gates – Boolean algebra – adders – subtractors – A/D, D/A converters – Flip Flops – Registers – counters & memories; Architecture of 8051 micro controller – instruction set – programming concepts

7. POWER SYSTEMS: Conventional & Non Conventional Energy sources. Construction, working, maintenance & suitability of thermal, hydro and nuclear power stations – Energy auditing – Gas power station – principle & working, combined operation & Economics of power stations; Switch Gear – Theory of electric are and its quenching – circuit breakers – reactors and short circuit KVA calculations. Relays – over current, directional, impedance and distance relays; Protection of alternators & transformers.

8. ELECTRICAL INSTALLATION & ESTIMATION: Estimation of lighting & power loads – OH Lines & Earthing, departmental tests, REC & Electrical act-2013, Maintenance of electrical machines.

9. UTILISATION & TRACTION: Principle of lighting – types of lamps – construction & Working – laws of illumination – illumination calculation. Heating, Welding; Electric drives – Load curves – motors for different applications; Electric braking for D.C& A.C motors. Electric traction – Speed time curves – Co-efficient of adhesion – over head equipment – supply system

10. POWER ELECTRONICS: Basics of power electronic devices – Construction, Working, theory, Characteristic, Advantages, Disadvantages, Applications & mechanism of protection of SCR, TRIAC, DIAC, GTO, UJT, IGBT, converters, inverters, AC regulators, Choppers, Cycloconverters – Speed control of AC& DC Motors using Power electronic devices – Applications of power electronic devices.