Electronic Technology is an on-going process of developing, building, testing and selling electronic systems. These systems are used to help people and industries in a variety of ways. Electronic technologies have developed since the Second World War. It is now a global business. The electronic age which started with radio and television has touched every aspect of our lives.
Electrical Engineering Technology deals with the practical application of electricity within the human body, structure and environment. It mainly deals with the supply of energy and how it is distributed. The major areas of concentration of this field are communication systems, power supply and control, electronic control systems and electrical engineering. The other meaning and definition implied above are more descriptive not be used as legal and medical terms.
Computer Engineering deals with the design, creation and operation of computer systems. The main areas of concentration are software engineering, software development and software manufacturing. Telecommunication is mostly involved in the creation, construction and operation of telecommunication networks and transmission lines. Transportation and Logistics are mostly involved in the movement of materials, supplies and labor. Medical and Therapeutic Electronics are also specialized areas.
Industrial and Manufacturing Electronics deals with the manufacturing of products and processes using electrical technology and machines. It uses transistors, integrated circuits, printed circuit boards (PCBs), computer hardware and electronic machines. The development, manufacture, management and sale of these products and processes are done through various channels. It is a combination of science and art. Industrial and Manufacturing electronics is a very important sector in any country.
Medical and Therapeutic Electronics are specialized electronic devices. They are used in the diagnosis, prevention and treatment of diseases. These devices and technology are developed for specific purposes only. These devices should be reliable and efficient to carry out the work.
Light Emitting Diode (LED) and Light Emitting Photoconductor (LED) are popularly used in personal computers, mobile phones, DVD players and other electronic devices. LED is a source of energy using less power. Its electricity is conducted on semiconductor diodes and produces light. On the other hand, LED’s are semiconductor diodes that produce light when they are excited by an electric current. Electrons in the electric currents flow between positive and negative poles. Light Emitting Diode’s use electrons instead of protons to produce current.
Vacuum electronics mainly deals with devices which require no electrical conductivity. Some examples include ultrasound, radio waves and light waves. Vacuum electronics mainly uses vacuum tubes to generate electricity. It is very similar to resistive, capacitive and ultrasonic technologies.
Electronic technology has played an important role in our lives. It has enabled us to make better and more efficient use of our environment and also make our lives more comfortable and easy. Nowadays, electronic devices are used in almost everything that we do. From personal computers to cars and trucks to baby toys to medical equipment, electronics are an indispensable part of our lives. The growth in this field has been rapid and significant over the years.
As a result of rapid industrialization, the development of electronics has brought along with it numerous issues related to manufacturing. One of the most important issues concerned is integration of electronic devices. In fact, electronics have provided a great platform for research in many fields including biomedical, biotechnological and other medical areas. This is due to the interrelated functions that electronic devices play. They are instruments for gene manipulation, genetic engineering, diagnosing and preventing diseases, for blood purification and many more. There are several issues involved in manufacturing electronics and one of these is integration of circuit boards.
Integration refers to the act of integrating circuits in a system without changing their function. However, in the case of electronics, this is done only with the use of electronic devices that are manufactured to operate in conjunction with each other. It is often used in digital technology. Digital electronics refer to electronic devices that carry out digital functions and are integrated with one another. Analog electronics, on the other hand, refer to those electronic devices that carry out analog functions and are integrated with one another.
In electronic control systems and manufacturing processes, integration occurs when electronic devices are introduced into the production process. Electronic control systems refers to the set up of an algorithm that is followed to control the processes of production. The processes may include any number of steps and in most cases include the addition of one or more electronic devices. In this case, the electronic devices are integrated with one another or with analog devices to form a complete system.
Manufacture of electronic components requires certain technologies that are specific to the type of electronic components being manufactured. These technologies ensure reliability and performance of the final product. Some of the common technologies used in the manufacture of electronic components are capacitors, resistors, inductors and other electrical components. Capacitors, resistors and inductors, among others, are known for their special abilities and properties that cannot be obtained from other electrical components.
In the modern world of integrated electronics, integration is a key factor in the creation of electronic systems. Integrating components according to their functionality and performance is called integration. Integration of Components in Electronic Technology covers various areas like field of electronic engineering, electrical engineering and the integration of electronic systems.
Integration of Components in Electronic Technology has a wide range of applications. It includes integration of integrated circuits, microprocessors, automated control systems and digital devices. Integration of Components in Electronic Technology assists in the process of circuit design, integration and testing. It enables higher reliability and flexibility, reliability and security for your electronic products.
There are two types of integration processes. The first one is the process of mechanical interconnection, which involves the interconnection of the mechanical and electronic parts by means of metal seals. The second one is the process of thermal integration, which involves thermal contacts and thermal insulation to form the mechanical linkages. Integration of Components in Electronic Technology assists to create electronic systems that work efficiently. These systems perform better than the single-parts systems.
Integration of Components in Electronic Technology assists to develop electronic products, which are more efficient, durable and reliable. These products can run at maximum capacity. Integrated systems have many applications in various fields. They can be used in home appliances, automobiles, medical equipment, electronics, industrial and transportation systems, computer systems and communication systems. In the field of electronic manufacturing, integration plays an important role.
Integration process of Components in Electronic Technology can be performed in three phases. The first phase of the integration process refers to the physical preparation of the systems. This includes tools for testing and layout drawing. The second phase of the integration process helps in designing the electronic parts. This includes electronic tools, test durations and production control.
Integration of Components in Electronic Technology has become more popular among the end users. The third and last phase of the integration process makes sure that the electronic parts fit to the electronic system. Integration of Components in Electronic Technology enhances the performance and efficiency of an electronic device or equipment. They ensure better functioning, less maintenance and compatibility with other electronic equipment. It also ensures safety.
Integration of Components in Electronic Technology has become more popular among the end users. With numerous options and designs available in electronic component markets, integration of electronic components has become easier. Now it is possible to integrate lightweight electronic components, which are easier to handle than heavy ones.
Integration of Components in Electronic Technology has helped to realize a number of modern day gadgets. It has contributed in making electronic devices for water and dust proof, maintenance free and energy saving. It also allows devices to perform better.
Some of the most common electronic components used in the integration of electronic systems are Resistive and Capacitive touch screen, Optical data reader, capacitive automatic switch and infrared scanner. These are integrated in electronic devices to provide a better user interface. Capacitive touch screen is embedded with tiny capacitors that respond to the pressure applied on it. Optical data reader is used for inputting data into the computer. Capacitive automatic switch handles various electrical tasks such as switching off the power supply, switching on and off lights etc.
Integration of Components in Electronic Systems has made life much simpler. It has provided the facility to control various electrical equipment at a remote location. It also has made the distribution of power easy. These equipments are very light in weight and do not require too much space.
Integration of Components in Electronic Systems has become much easier over the years. This process is quite simple. It is a fact that without Integration of Components in Electronic Systems; devices may fail to perform the desired task because of lack of compatibility between them. In addition to that, integration has provided the facility to replace the damaged component with any other of the same quality and type. Due to this reason, the failure rate of Integrated Components in electronic devices has also declined dramatically.
Integration of Components in Electronic Systems allows you to save a lot of money. You do not need to have a dedicated staff to do this job for you. This way, Integrated Components can be integrated directly by using software applications in low-cost processes. As a result, you will be able to reduce the cost of manufacturing your products.