Table of Contents
Preparing for the Kerala PSC Foreman (Electrical) Exam 2025? Cracking it requires a smart study plan aligned with the latest syllabus. Here’s a detailed 4-month, day-by-day schedule covering all key topics—from Electric Circuits to Transducers—ensuring systematic preparation, conceptual clarity, and effective revision. Explore Kerala PSC Foreman Study Plan now!
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Kerala PSC Foreman Notification 2025 Highlights
| Particulars | Details |
| Name of recruiting organization | Kerala Public Service Commission (PSC) |
| Name of department | Kerala State Water Transport |
| Name of post | Foreman |
| Category Number | 98/2025 |
| Number of vacancies | As per Notification |
| Notification Release Date | June 17, 2025 |
| Apply Date | June 17, 2025 |
| Last Date to Apply | July 16, 2025 |
| Mode of recruitment | Direct Recruitment |
| Mode of application | Online |
| Official website | keralapsc.gov.in |
Kerala PSC Foreman 2025 Syllabus PDF
1: Between the period of 1858-1947, how many Viceroys ruled over India?
Before getting into the study plan, it’s essential to go through the latest Kerala PSC Foreman (Electrical) syllabus to ensure your preparation is aligned with the official topics. Click the link below to download the detailed foreman syllabus PDF.
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Join NowKerala PSC Foreman Previous Question Papers
| Question Paper Category | |
| 075/2022 | |
| 122/2017 | |
| 109/2017 | |
| 148/2016 | |
| 236/2015 | |
| 154/2015 | |
| 134/2015 |
Kerala PSC Foreman Study Plan 2025: Detailed
To help you succeed in the Kerala PSC Foreman Electrical Exam 2025, we’ve crafted a structured 4-month study plan based on the latest syllabus. Go through the study plan and start preparing now!
Month 1: Electric Circuits, Magnetic Circuits, and DC Machines
| Day | Topics to Study |
|---|---|
| 1 | Kirchoff’s laws, Ohm’s Law, Simple circuit problems |
| 2 | Maximum power transfer theorem, Numericals |
| 3 | Star/Delta transformation with examples |
| 4 | Capacitor & Inductor energy storage, Theory + Formulas |
| 5 | Coupled circuits – Basics and dot convention |
| 6 | Sinusoidal steady state analysis |
| 7 | Generation of AC voltages & currents, RMS, Average value |
| 8 | Peak factor, Form factor, Numericals |
| 9 | AC through series RLC circuits, Resonance concepts |
| 10 | Resonant power, Bandwidth, Parallel resonance |
| 11 | Magnetic circuits: Basics, permeability |
| 12 | Magnetic field strength, magnetic potential |
| 13 | Series & Parallel magnetic circuits |
| 14 | Composite materials in magnetic circuits |
| 15 | Faraday’s laws, Lenz’s Law |
| 16 | Statically and dynamically induced EMF |
| 17 | DC generators: construction, working principle |
| 18 | Types of DC generators, EMF equation |
| 19 | Power stages, Efficiency condition |
| 20 | DC Motors: Working, Armature & field control |
| 21 | Single phase transformers: Working, Losses |
| 22 | Equivalent circuit, Efficiency |
| 23 | Three phase transformer – Construction, Difference with Distribution Transformer |
| 24 | Alternators – Construction, Principle |
| 25 | Synchronous motors – Working, Starting methods |
| 26 | Synchronous condenser – applications |
| 27 | 3-phase Induction motor – working, construction |
| 28 | Slip, torque equations |
| 29 | Torque-speed curve + Revision |
| 30 | Full-length practice test on Month 1 topics |
Month 2: Digital Electronics and Power Systems
| Day | Topics to Study |
| 1 | Number systems: Binary, Octal, Hexadecimal conversions |
| 2 | ASCII code, Excess-3 code, Gray code |
| 3 | Combinational circuits: Half Adder, Full Adder |
| 4 | Multiplexers and Demultiplexers |
| 5 | Flip-flops: SR, JK, D, T types |
| 6 | Registers: Types and uses |
| 7 | Counters: Asynchronous, Synchronous |
| 8 | DAC and ADC: Basics, types |
| 9 | Microprocessor 8085 Architecture |
| 10 | Functional block diagram of 8085 |
| 11 | Instruction Set: Classification |
| 12 | Addressing Modes |
| 13 | Status Flags and Machine Cycles |
| 14 | T States, Fetch and Execute Cycles, Timing Diagram |
| 15 | Power System: Line parameters (R, L, C) |
| 16 | Insulators, String Efficiency |
| 17 | Corona: Formation, Factors |
| 18 | Circuit Breakers: Types, SF6 CB |
| 19 | Relays: Types, working principles |
| 20 | Per Unit Quantities – Basics |
| 21 | Symmetrical Components: Theory and application |
| 22 | Faults: Symmetrical and Unsymmetrical |
| 23 | Power System Stability: Steady state and Dynamic |
| 24 | Transient stability and Power angle curve |
| 25 | Revision: Digital Electronics – Core topics recap |
| 26 | Practice questions: Digital Electronics |
| 27 | Revision: Power Systems – Core topics recap |
| 28 | Practice questions: Power Systems |
| 29 | Mixed subject test – Digital Electronics + Power Systems |
| 30 | Full-length test: Month 2 syllabus |
Month 3: Control Systems and Power Electronics
| Day | Topics to Study |
| 1 | Control System basics, Types of systems |
| 2 | Transfer functions of LTI systems |
| 3 | Block diagram reduction |
| 4 | Signal flow graph and Mason’s gain formula |
| 5 | Time domain specifications of transient response |
| 6 | Time domain specifications of steady state response |
| 7 | Impulse and step responses of 1st order systems |
| 8 | Impulse and step responses of 2nd order systems |
| 9 | Static error coefficients for Type 0, 1, 2 systems |
| 10 | Routh’s stability criterion |
| 11 | Frequency domain specs: Bandwidth, resonance, etc. |
| 12 | Polar plot – basics and construction |
| 13 | Bode plot – basics and interpretation |
| 14 | Gain margin and phase margin |
| 15 | Stability analysis using Bode and Polar plots |
| 16 | Power Electronics: SCR – Structure, static characteristics |
| 17 | Half controlled bridge rectifier – working with R, RL, RLE loads |
| 18 | Fully controlled bridge rectifier – analysis |
| 19 | Voltage Source Inverters – 1-phase half bridge |
| 20 | Voltage Source Inverters – 1-phase full bridge |
| 21 | PWM technique in inverters |
| 22 | Chopper types – Single, Two and Four quadrant |
| 23 | Operational amplifier: Basic differential amplifier |
| 24 | Modes of Op-amp operation |
| 25 | Op-amp characteristics – gain, CMRR, slew rate |
| 26 | Revision: Control Systems |
| 27 | Practice: Control Systems questions |
| 28 | Revision: Power Electronics |
| 29 | Practice: Power Electronics questions |
| 30 | Full-length test: Month 3 syllabus |
Month 4: Measurements, Signals and Systems, and Transducers
| Day | Topics to Study |
| 1 | Measurement standards, Types of errors |
| 2 | Types of instruments: Indicating, Integrating, Recording |
| 3 | Ammeters & Voltmeters: Moving coil and Moving iron |
| 4 | Wattmeter: Dynamometer type, 3-phase power measurement |
| 5 | Energy meters: Single phase, Digital, TOD meters |
| 6 | CRO: Working principle, vertical & horizontal systems |
| 7 | Signals: Classification, Elementary signals |
| 8 | Signal operations: Continuous and discrete time signals |
| 9 | System concepts: LTI systems, Classification, Properties |
| 10 | Time invariance, Causality, Memory, Stability |
| 11 | Sampling process, Impulse train sampling |
| 12 | Sampling theorem, Aliasing effect |
| 13 | Zero and First order hold circuits |
| 14 | Transducers: Classification, LVDT, Angular displacement |
| 15 | Hall effect transducers |
| 16 | Batteries: Primary & secondary cells, battery ratings |
| 17 | Grouping of cells, Wiring systems |
| 18 | Domestic wiring rules, Earthing systems |
| 19 | Rules of earthing, Types of earthing |
| 20 | Illumination: Laws of illumination |
| 21 | Electric lamps: Types |
| 22 | Revision: Measurements & Instrumentation |
| 23 | Practice questions: Measurements & Instrumentation |
| 24 | Revision: Signals and Systems |
| 25 | Practice questions: Signals and Systems |
| 26 | Revision: Transducers and Illumination |
| 27 | Practice questions: Transducers + Batteries + Illumination |
| 28 | Mock Test – Full syllabus part 1 |
| 29 | Mock Test – Full syllabus part 2 |
| 30 | Final Revision & Exam Strategy |
