Electronics is based on the movements of electrons within a material and the design of circuits with various components based on the movement of electrons and thus the flow of charge. Microelectronics is electronics on a micro scale.
The applications of microelectronics are many, with a few of them being CAD (Computer Aided Design), CAM (computer Aided Manufacture), NCMTS (Numerically Controlled Machine Tools) and robotics. NCMTS is widely used today in the manufacture of clothing and in various operations in the field of engineering.
With the focus of the global market being on increasing the speed of operation and decreasing the size of machines and the overall cost of operation, microelectronics is at the front end of the technology boom. Today, ICs(Integrated Circuits) which are another name for the microelectronic circuits or microchips can hold millions of electronic components like inductors, resistors, capacitors etc., all fabricated onto a wafer made of semiconducting material, as one single unit. Silicon, with its semiconducting properties is the most used material to make microchips.
Besides the microchips, MEMs are also used worldwide today. MEMs are Micro electromechanical devices which can have moving parts in them. They are also called ‘micro machines’ and can have various elements like sensors, actuators, mechanical and electrical elements, on a common silicon substrate. They have the advantage of being extremely tiny and hence they consume less power and are cheaper to use. The application of MEMs are many. Some examples of where MEMs are used are from measuring blood pressure in the human body to inflating car airbags in the event of an accident to shock sensing and earthquake sensing.
Microelectronics is certainly a rapidly developing field with high competition among the companies involved. This calls for added precision in every step along the way. We are here to provide you with advice on the steps you can take to improve your labs or factories resources and hence give you the extra push you need to jump to the forefront.
Studies on microelectronic circuits involve work on various delicate interconnections and the accurate soldering of joints. We can provide you with anti vibration tables that are suited to resist vibrations from the environment so that you can continue your work unhindered by outside disturbances. We realize that each lab has unique needs and so we can help you by coming up with antivibration techniques specifically suited for your work environment. We at www.antivibrationtables.com offer you a customized solution to your problem.
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