|AT01||An Integrated Boost Resonant Converter for Photovoltaic Applications||2013-14||IEEE|
|AT02||Bridgeless SEPIC Converter With a Ripple-Free Input Current||2013-14||IEEE|
|AT03||An Advanced Power Electronics Interface for Electric Vehicles Applications||2013-14||IEEE|
|AT04||A High-Efficiency Solar Array Simulator Implemented by an LLC Resonant DC–DC Converter||2013-14||IEEE|
|AT05||A Novel Reduced Switching Loss Bidirectional AC/DC Converter PWM Strategy with Feed-Forward Control for Grid-Tied Micro Grid Systems||2013-14||IEEE|
|AT06||Coordinated Control and Energy Management of Distributed Generation Inverters in a Microgrid||2013-14||IEEE|
|AT07||A New ZVS DC/DC Converter With Three APWM Circuits||2013-14||IEEE|
|AT08||Analysis and Implementation of a Single Stage Flyback PV-Micro Inverter with Soft Switching||2013-14||IEEE|
|AT09||A Bridgeless Boost Rectifier for Low-Voltage Energy Harvesting Applications||2013-14||IEEE|
Electrical engineering is a field of engineering that generally deals with the study and application of electricity, electronics, and electro magnetism. This field first became an identifiable occupation in the later half of the 19th century after commercialization of the electric telegraph, the telephone, and electric power distribution and use. Subsequently, broad casting and recording media made electronics part of daily life. The invention of the transistor, and later the integrated circuit, brought down the cost of electronics to the point they can be used in almost any household object.
Electrical engineering has now subdivided into a wide range of sub fields including electronics, digital computers, power engineering, tele communications, control systems, radio-frequency engineering, signal processing, instrumentation, and microelectronics. Many of these sub disciplines overlap and also overlap with other engineering branches, spanning a huge number of specializations such as hardware engineering, power electronics, electro magnetics & waves, microwave engineering, nanotechnology, electro chemistry, renewable energies, mechatronics, electrical materials science, and many more.
Electrical engineers typically hold a degree in electrical engineering or electronic engineering. Practicing engineers may have professional certification and be members of a professional body. Such bodies include the Institute of Electrical and Electronics Engineers (IEEE) and the Institution of Engineering and Technology (professional society) (IET).
Electrical engineers work in a very wide range of industries and the skills required are likewise variable. These range from basic circuit theory to the management skills required of a project manager. The tools and equipment that an individual engineer may need are similarly variable, ranging from a simple voltmeter to a top end analyzer to sophisticated design and manufacturing software.