ELECTRICIAN Learning Outcome

The Electrician Craft Instructor Training Scheme (CITS) is designed to develop competent instructors who can effectively teach electrical trades in Industrial Training Institutes (ITIs) and vocational training centers. The learning outcomes defined in this curriculum represent the knowledge, skills, and professional competencies that trainees must achieve by the end of the course. These outcomes ensure that trainees are capable of performing electrical tasks and transferring technical knowledge to students in a structured and effective manner. :contentReference[oaicite:1]{index=1}

Learning outcomes serve as a guide for both instructors and trainees throughout the training program. They help identify the specific competencies that trainees must demonstrate in areas such as electrical installation, testing, maintenance, troubleshooting, and instructional methods. Assessment of trainees is also conducted based on these learning outcomes to ensure that they meet the required standards of vocational training.

Implementation of Safety Practices

One of the key learning outcomes of the Electrician CITS course is the ability to implement safe working practices in electrical environments. Trainees learn about occupational safety, environmental regulations, and workplace housekeeping practices.

They develop the ability to identify electrical hazards, follow safety procedures, and use personal protective equipment while performing electrical work. Trainees also learn fire safety methods and the proper use of fire extinguishers. In addition, they are trained to provide basic first aid in case of electrical shock or workplace accidents.

Verification and Measurement of Electrical Circuits

Another important learning outcome is the ability to verify and measure different characteristics of electrical circuits. Trainees gain a strong understanding of electrical fundamentals such as Ohm’s law, Kirchhoff’s laws, and the behavior of electrical components in series and parallel circuits.

Students learn to measure voltage, current, resistance, and other electrical parameters using instruments such as multimeters, voltmeters, ammeters, and wattmeters. They also develop the ability to analyze electrical circuits and identify faults in electrical systems.

Installation and Maintenance of Batteries and Solar Cells

Trainees learn how to install, test, and maintain batteries and solar cells used in electrical systems. They study the construction and working principles of different types of batteries and learn the procedures for battery charging and maintenance.

In addition, trainees understand the operation of solar cells and photovoltaic systems. They learn how to connect solar cells in series and parallel to meet specific power requirements.

Electrical Wiring Systems and Installation

A major learning outcome of the course is the ability to estimate, assemble, install, and test various electrical wiring systems. Trainees learn different types of wiring methods such as conduit wiring, casing and capping wiring, and other installation techniques used in residential, commercial, and industrial buildings.

They also learn how to install protective devices such as fuses, MCBs, ELCBs, and RCCBs. In addition, trainees develop the ability to measure earth resistance and implement proper earthing systems to ensure electrical safety.

Understanding Magnetic Effects and Electrical Machines

Trainees gain knowledge of the magnetic effects of electric current and the working principles of electrical machines such as DC generators and DC motors. They learn about electromagnetic induction, magnetic circuits, and various types of capacitors.

Students also study the construction, operation, and performance characteristics of DC machines. They learn how to test these machines and analyze their performance under different operating conditions.

Testing and Maintenance of Transformers

Another important learning outcome is the ability to evaluate the performance and maintenance of transformers. Trainees learn the principles of transformer operation, including voltage transformation and electromagnetic induction.

They perform tests such as open circuit and short circuit tests to determine transformer efficiency and voltage regulation. Students also learn about transformer cooling methods, protective devices, and troubleshooting techniques.

Electrical Measuring Instruments and Illumination Systems

Trainees develop the ability to monitor and calibrate electrical measuring instruments such as PMMC and moving iron meters. They also learn about the operation of instruments used for measuring current, voltage, resistance, and insulation resistance.

In addition, trainees study electrical illumination systems used in residential and commercial applications. They learn how to install different types of lamps and lighting systems, including fluorescent lamps, high-pressure mercury lamps, and LED lighting systems.

Construction of Electronic Circuits

The Electrician CITS course also includes basic electronic training. Trainees learn to construct simple electronic circuits and test them for proper functioning. They study semiconductor devices such as diodes, transistors, and operational amplifiers.

Students also learn to use instruments such as cathode ray oscilloscopes (CRO) for analyzing electrical waveforms and testing electronic circuits.

Operation of AC Motors and Alternators

Trainees develop skills in planning, installation, and testing of various AC motors and alternators. They study the working principles of single-phase and three-phase motors and learn different methods of motor starting and speed control.

Students also learn about alternators and MG sets, including their installation, commissioning, and performance evaluation.

Troubleshooting Electrical Equipment

Another important learning outcome is the ability to detect and troubleshoot faults in electrical equipment such as inverters, voltage stabilizers, and uninterruptible power supplies (UPS).

Trainees learn systematic fault-finding techniques and maintenance procedures that help ensure reliable operation of electrical systems.

Domestic and Industrial Electrical Systems

Trainees also learn how to estimate, test, service, and repair components used in domestic and industrial electrical systems. They gain practical knowledge of electrical control panels, protective devices, and industrial wiring systems.

Students learn how to assemble control circuits for electrical machines and maintain domestic appliances such as fans, heaters, mixers, and washing machines.

Power Generation and Distribution Systems

The course also provides knowledge of conventional and non-conventional power generation systems. Trainees learn about thermal, hydro, nuclear, and renewable energy sources such as solar and wind power.

They also study power transmission and distribution systems, including substations, protective relays, and circuit breakers.

Engineering Drawing and Workshop Science

Another important learning outcome is the ability to read and interpret engineering drawings used in electrical installations and equipment design. Trainees also apply mathematical and scientific principles required for performing practical electrical operations.

These skills help trainees analyze technical problems and develop solutions in electrical engineering applications.

Conclusion

The learning outcomes of the Electrician CITS course ensure that trainees acquire a comprehensive set of technical and instructional skills required for vocational training and industrial work. By achieving these outcomes, trainees become capable of teaching electrical trades effectively while also performing advanced electrical operations in industrial environments.

Through a combination of theoretical knowledge, practical training, and instructional development, the Electrician CITS program prepares skilled instructors who contribute to the growth of the vocational training system and the electrical industry.