PREAMBLE
This examination syllabus has been evolved from the Senior Secondary School Electricity curriculum. It is designed to test candidates’ knowledge and understanding of electrical and electronic principles, maintenance and repair of domestic and industrial equipment and safe working procedures. The examination syllabus does not replace the curriculum.
OBJECTIVES
The objective of the syllabus is to test candidates:
(1) Knowledge and understanding of the basic concepts and principles of Basic Electricity/Applied Electricity;
(2) Ability to use tools and equipment in the maintenance and repair of electrical/electronic devices;
(3) Understanding of the principle of operation and the application of simple electrical/electronic devices;
(4) Understanding of safe working procedures and safety precautions in domestic and industrial installation.
EXAMINATION SCHEME
There will be three papers – Papers 1, 2 and 3 all of which must be taken. Papers 1 and 2 will be a composite paper to be taken at one sitting.
PAPER 1 - Will consist of fifty multiple-choice objective questions to be answered 1 hour for 50 marks. PAPER 2 - Will be made up of three sections, Sections A, B and C and will consist of ten short-answer questions drawn from Sections I, II and III of the syllabus. Candidates will be required to answer a total of five questions in 1 hour for a total of 50 marks as follows: SECTION A - Will consist of four questions out of which candidates will answer three. SECTION B - Will consist of three questions out of which candidates will be required to answer two.
SECTION C - Will consist of three questions out of which candidates will be required to answer two.
All candidates will be required to answer questions from Section A and from either
Section B or Section C, (but not from both sections).
PAPER 3 - Will be a practical paper of two experiments both of which are to be carried out by candidates within 3 hours for 100 marks.
DETAILED SYLLABUS SECTION I TOPIC NOTES 1. DIRECT CURRENT CIRCUIT THEORY Structure of matter Qualitative treatment of the structure of atoms in relation to electric current. Resistors Types of resistors. Resistor colour code. Resistors in series and parallel. Power rating of resistors. Conductors and insulators. Definition, examples and characteristics. Ohm’s law and Kirchhoff’s laws Qualitative treatments only. Power and energy Treatment should include calculations. 2. MAGNETIC FIELD AND ELECTROMAGNETISM Fundamentals of magnetism Types of magnet. Magnetic properties of materials: magnetic flux, magnetic flux density, permeability, magnetomotive force and reluctance. Concept of Electric field Electric field and properties: electric flux, electric flux density, electric field strength, permittivity and dielectric constant, potential gradient. Comparison between magnetic and electric circuits Capacitors Types of capacitor. Capacitance and dielectric. Charge on capacitor, relationship between charge and applied voltage of a capacitor. Application of capacitors. Voltage rating.
Electromagnetic field
Self and Mutual Induction
MEASURING INSTRUMENTS Moving-coil instrument Moving-iron instrument Digital instrument
4. DIGITAL ELECTRONICS Binary number Logic gates
5. ALTERNATING CURRENT Series and parallel connection.Energy stored in 2a capacitor(E = QV= CV ): simple calculations.
Magnetic field around a current-carrying conductor.
Fleming’s Right Hand Rule
Force on a current-carrying conductor in a magnetic field (F = BILsin ).
Lenz’s law and Faradays law.
Emf induced in a coil (E = BLVsin ) Simple calculations involving force and e.m.f. only.
Qualitative treatment of self and mutual
induction. 2 Energy stored in a coil (E = LI ).
Application of electromagnetism as found in electric bell, security alarm system, solenoid,
loudspeaker, buzzer, moving-coil instruments etc.
Construction, advantages and disadvantages. Conversion of moving-coil instrument to ammeter and voltmeter.Calculations of shunts and multipliers.
Construction, principles of operation, advantages and disadvantages.
Multimeter, voltmeter, ammeter etc. Advantages and disadvantages.
Conversion of decimal numbers to binary numbers and vice versa.
Series connection of switches - AND gate, parallel connection of switches - OR gate and inverter - NOT gate.
Truth table for logic gates.
General symbols for AND, OR, NOT, NAND and NOR gates.
Boolean expression.
CIRCUIT THEORY
Generation of e.m.f. in a single turn coil
A.C. quantities
RLC circuits
TRANSFORMERS
Types of transformer
Principles of operation of a transformer
Losses and temperature rise in transformers
Efficiency of transformers Cooling of transformers
7. POWER SUPPLY Power supply units
Rectification
8. ELECTRICAL MACHINES A.C. motors (Single phase)
Alternators
A.C. motors (Three phase)
Plotting of labelled sinusoidal waveform for a complete cycle.
A.C quantities (r.m.s., peak and average values, form factor, cycle, period and frequency)
Solution of problems involving RL, RC and RLC series circuits.
Conditions for resonance.Phasor diagram of series resonance.
Transformer construction
Type based on (i) construction (shell and core) and (ii) function (current and voltage).
Operation and transformation ratio
Transformer losses (copper and iron) Effect of losses and temperature rise in a transformer. Qualitative treatment only.
Losses and efficiency of transformer
Methods of cooling. Need for cooling.
Power supply units: dry cell, solar cell, cadium cell and accumulator.
Block diagram of d.c. power supply. Functions of blocks of power supply.
Half-wave and full-wave rectifications. Filtration and stabilization.
Types of single phase motor: split-phase, capacitor-start, capacitor-run. Application of single-phase motors.
Principles of operation, parts and types. Relationship of speed, number of poles and
frequency f = (Hz)
Principles of operation, parts, type and application
D.C. generators
D.C. motors
9. ELECTRICAL ENERGY SUPPLY
Generating station
10. ELECTRICAL WIRING Electrical installation
Wiring
Protection
Earthing
Maintenance, Fault diagnosis and Repairs Testing of an installation General Workshop Safety
Methods of starting: direct-on-line, star delta and auto transformer.
Principles of operation, parts and methods of connecting field windings.
Principles of operation, parts, types (shunt, compound, series) and application.
Methods of generating electrical power: diesel engine, steam engine, hydro-electric, nuclear, gas turbine.
Types of wiring: surface, conduit, trunking, ducting.
Selection of materials, tools and accessories. Application of IEE wiring regulation regarding domestic installation.
Cables and accessories. Current-carrying capacity of cable. Wiring of lighting and socket outlets and connection of plugs.
Conduit, surface, trunking and ducting installations.
Protective devices
Fuses and circuit breakers Discrimination of protective devices
Reasons for earthing. Methods of earthing. Earth loop impedance.
Types of fault: short circuit, open circuit and earth leakage.
Methods of diagnosing and repair of faults in an installation and equipment such as fluorescent fitting, electric iron, electric fan, blender etc.
Continuity test, insulation resistance test, earth leakage test and polarity test.
Application of electrical safety regulations.
SECTION II
For candidates in Ghana only
TOPIC NOTES 11. ELECTRON EMISSION Electron emission Methods of emitting electrons: Thermionic emission, photo emission, secondary emission and field emission. Thermionic emission Functions of electrodes, parameters and application. Cathode Ray Tube(CRT) Functions of electrodes in CRT. 12. SEMICONDUCTOR Theory Properties of semiconductor materials. Differences between n-type and p-type semiconductor materials. Diode Circuit symbol. PN junction diode. Barrier potential. Forward and reverse bias for a pn junction diode. Characteristics of a pn diode. Application of pn junction diode. Transistor Bipolar transistor: two pn junction devices (npn and pnp). Configuration of bipolar transistor: CC, CB and CE. Principles of operation and mode of connection of the three configurations of a transistor. Characteristics of an npn transistor (common emitter). Unipolar transistor: p-channel and n-channel of field effect transistor (JFET). Principles of operation of JFET. Semiconductor devices and their application: diac, triac, SCR, LED and zener diode. Application of a photo transistor Integrated circuits: simple integrated circuits and their uses. 13. COMMUNICATION Electromagnetic waves Characteristics of radio waves. Modulation Amplitude and frequency modulation and their waveforms. Advantages of frequency modulation (F.M.) over amplitude modulation (A.M.). Amplifiers Classifications: class A, class B, class AB and class C. Application and efficiency of an amplifier. Operational amplifiers Properties and construction of an ideal operational amplifier. Inverting and non-inverting op-amp.
SECTION III
For candidates in Nigeria, Sierra Leone and The Gambia
TOPIC NOTES 14. ELECTRICITY TRANSMISSION AND DISTRIBUTION TRANSMISSION Layout diagram of high voltage overhead transmission system. Treatment of main components (towers, insulators and conductors) and functions. Detailed treatment of components not required. Operating voltage levels for transmission lines (132 kV and 330 kV) and the need for high voltage system should be emphasized. DISTRIBUTION OF Layout diagram and main components of ELECTRICITY electricity distribution. Functions of substation components (transformers, feeders etc.) 15. MAINTENANCE AND REPAIR OF VARIOUS ELECTRICAL APPLIANCES Maintenance Types (predictive, preventive and corrective) Maintenance and repair of electrical Common faults that occur in electrical appliances appliances (blender, electric iron, electric kettle, toaster, fluorescent lamps etc) such as short circuit, open circuit, earth fault etc.