Electrical engineering
Electrical engineering plays a vital role in society. Technicians are responsible for the design and development of electrical systems including a wide range of devices and components. These engineers can work across various technologies, from wiring of buildings to household appliances to larger systems such as power transmission. Electrical engineering also serves many industries, for example, renewable energy and telecommunication.
Work in this field requires extensive physics and mathematics knowledge, with precision and accuracy being key to these projects. Standards provide recommended testing methods, safety & quality requirements and more to provide the guidance and framework needed to execute projects in this field.
Work in this field requires extensive physics and mathematics knowledge, with precision and accuracy being key to these projects. Standards provide recommended testing methods, safety & quality requirements and more to provide the guidance and framework needed to execute projects in this field.
- 29/29.020 Electrical engineering in general
- 29/29.030 Magnetic materials
- 29/29.035 Insulating materials
- 29/29.040 Insulating fluids
- 29/29.045 Semiconducting materials
- 29/29.050 Superconductivity and conducting materials
- 29/29.060 Electrical wires and cables
- 29/29.080 Insulation
- 29/29.100 Components for electrical equipment
- 29/29.120 Electrical accessories
- 29/29.130 Switchgear and controlgear
- 29/29.140 Lamps and related equipment
- 29/29.160 Rotating machinery
- 29/29.180 Transformers. Reactors
- 29/29.200 Rectifiers. Converters. Stabilized power supply
- 29/29.220 Galvanic cells and batteries
- 29/29.240 Power transmission and distribution networks
- 29/29.260 Electrical equipment for working in special conditions
- 29/29.280 Electric traction equipment