scope of electronics now days
The major driving force for the present day Information Technology revolution is the development in Electronics Engineering. The advancements in microelectronics, satellite and optical fibre technology, analog and digital in communication techniques have resulted in developing complex electronics devices, circuits and equipments capable of implementing fast and efficient telecommunication systems. Real time transfer of audio and video signals is now possible with recent trends in broad band technologies. Penetration of electronics has now revolutionalised other areas like health care, instrumentation, automation, remote sensing, signal processing etc.
The basic principles and performance of electronic devices and circuits are introduced in the course. Design and analysis of different analog and digital circuits are considered in detail. Different analog and digital modulation techniques used for communication, equipments and systems involved in wireless communications, satellite and optical communication technologies, computer communication and networking, design and development of microelectronic circuits for computation and processing, components and systems for electronic instrumentation and control etc,. form major content of the course. The course also covers the study of hardware and interfacing of computer systems, programming skills and application of computers in signal processing and communication.
Graduates in Electronics Engineering have opportunities in Government and private companies for installation, operation and maintenance of electronics equipments and systems. Defence, space and other large research organisations employ electronics engineers in design and development of complex devices and systems for signal processing and telecommunication. Industries involved in design and fabrication of devices, integrated circuits, embedded systems, electronic equipments etc have also provide large scale placements for engineers with this specilisation. Installation and maintenance of electronic equipments used for health care in hospitals, equipments & systems for instrumentation and control in process industries automation systems of assembly line in production industries, etc are also handled by electronics engineers.
Knowledge of computer hardware, networking equipments and communication systems enables electronics engineering graduate helped them to annexe an edge in the IT job market. The skills and understanding developed in the course enable them to be preferred, as software professionals by IT companies.
The basic principles and performance of electronic devices and circuits are introduced in the course. Design and analysis of different analog and digital circuits are considered in detail. Different analog and digital modulation techniques used for communication, equipments and systems involved in wireless communications, satellite and optical communication technologies, computer communication and networking, design and development of microelectronic circuits for computation and processing, components and systems for electronic instrumentation and control etc,. form major content of the course. The course also covers the study of hardware and interfacing of computer systems, programming skills and application of computers in signal processing and communication.
Graduates in Electronics Engineering have opportunities in Government and private companies for installation, operation and maintenance of electronics equipments and systems. Defence, space and other large research organisations employ electronics engineers in design and development of complex devices and systems for signal processing and telecommunication. Industries involved in design and fabrication of devices, integrated circuits, embedded systems, electronic equipments etc have also provide large scale placements for engineers with this specilisation. Installation and maintenance of electronic equipments used for health care in hospitals, equipments & systems for instrumentation and control in process industries automation systems of assembly line in production industries, etc are also handled by electronics engineers.
Knowledge of computer hardware, networking equipments and communication systems enables electronics engineering graduate helped them to annexe an edge in the IT job market. The skills and understanding developed in the course enable them to be preferred, as software professionals by IT companies.
Electronics and Communication Engineering and today’s world:
Electronics, particularly computer usage coupled with recent space age, endeavours has by this time already crept into every sphere of human activities. Every industry, institution & organization feels the need of an Electronics Engineer and a Computer specialist.
Today’s world is very much for and of the Electronics & Communication Engineers. Advanced countries in the world have gone to such depths of Electronics today that an Electronics Engineer is indispensable in every front. Opportunity in this highly sophisticated and advanced branch of engineering is just immense.
Electronics is now a part of our every day life, from your pocket FM radio to televisions, computers, mobile phones and even the high-end satellites that process and sends images.
Career prospects:
Today, technology is growing at a rapid pace. In the coming future there is bound to be huge demand for competent engineers in electronic industry to cope this demand in technology. These engineers would be involved in creating and sustaining cutting edge technology to stay ahead in competition.
An electronic engineer can find job in Consumer electronics manufacturing organisation, Telecommunication industry, IT industries, Health care equipment manufacturing industry, Mobile communication, Internet technologies, Power Electronics, and Other industries like steel, petroleum and chemical industry, directing control and testing production process.
Some Trends in Electronics & Communications Engineering Research
- Radio Communication Engineering
- Software-Defined Radio Technology
- Intelligent (Cognitive) Radio Design
- Cognitive Radio Architecture
- User-Friendly Operator Interfaces
- Multiple Access Techniques
- Protocols Performance Evaluation
- Trunked Radio Systems
- Digital Voice Radio
- Encrypted Radio
- Rf Interference Analysis
- Public Safety Dispatch Center Design
- Dispatch Staffing Analysis
- Simulcast Radio Systems
- Microwave
- Rf Propagation
- Spectrum Management/Allocation
- Automatic Vehicle Location (Avl)
- Telecom Engineering
- Organic Light-Emitting Diodes
- Wireless Technology
- Wi-Fi
- 3g
- Wimax
- Wi-Fi Mesh Technology
- Wap
- Gprs
- 2.5g
- Edge
- Voip
- Video Conferencing
- Web Conferencing
- Instant Messaging
- Adsl2+
- Vdsl
- Pen-Based Computing
- Pencentral Software
- Handwriting Recognition Capability
- Drawing User Interface (Dui)
- Embedded Security Subsystem (Ess)
- Multiple Data Capture Options
- Rfid
- Hf-Iso
- Voice Recognition
- Ultra Mobile Pc (Umpc)
- Embedded Hsdpa
- Mobile Broadband Capability
- Cdma Ev-Do Technology
- Multicarrier Cdma
- Ofdm (Orthogonal Frequency Division Multiplexing)
- Handsmart Enhancing Mobile Engineering
- Software-Defined Radio Technology
- Intelligent (Cognitive) Radio Design
- Cognitive Radio Architecture
- User-Friendly Operator Interfaces
- Multiple Access Techniques
- Protocols Performance Evaluation
- Trunked Radio Systems
- Digital Voice Radio
- Encrypted Radio
- Rf Interference Analysis
- Public Safety Dispatch Center Design
- Dispatch Staffing Analysis
- Simulcast Radio Systems
- Microwave
- Rf Propagation
- Spectrum Management/Allocation
- Automatic Vehicle Location (Avl)
