Examples of 'microelectronic devices' in a sentence
Meaning of "microelectronic devices"
microelectronic devices ~ are electronic devices or circuits that operate on a microscopic scale. These devices are made using microfabrication techniques and are commonly found in modern electronic devices, such as smartphones, computers, and medical devices. They typically incorporate integrated circuits or components on a small chip or substrate
How to use "microelectronic devices" in a sentence
Basic
Advanced
microelectronic devices
Coatings for microelectronic devices and substrates.
This standard is intended to apply only to microelectronic devices.
Many microelectronic devices require packaging in order to function.
It is also very difficult to produce such microelectronic devices.
Many of the microelectronic devices are metallized with aluminum.
Conductors other than metal are available in microelectronic devices.
It also relates to microelectronic devices comprising one or several electroactive actuators.
Physical fundamentals of microelectronic devices.
The microelectronic devices manufactured according to the present invention thus have improved performance.
Reducing the consumption of microelectronic devices is also a continual aim.
Application to electrical capacitances and redistribution layers for microelectronic devices.
Solar cells of high efficiency and microelectronic devices are fabricated using crystalline silicon.
But the invention is not limited however to microelectronic devices.
However, there now exist microelectronic devices for which these mechanical properties are important.
This thus reduces the cost related to encapsulation of microelectronic devices.
See also
The invention relates to the field of microelectronic devices equipped with double-gate transistors.
It also aims to provide a process adapted to the manufacturing of specific microelectronic devices.
In certain applications it is sometimes sought to produce microelectronic devices including different semiconductor materials.
Substrates comprising an alternation of layers of semiconductor materials enable formation of advanced microelectronic devices.
The microstructured surface including the microelectronic devices may be formed in several ways.
The problem is raised of improving on the formation of assembly structures for microelectronic devices.
Today 's silicon-based microelectronic devices have a minimum size between electrical components of about a tenth of a micron.
These particularly costly substrates are slowing the technological and commercial development of such microelectronic devices.
Abstract, Nowadays, microelectronic devices are omnipresent in our everyday life.
DMSO is finding increased use in manufacturing processes to produce microelectronic devices.
Abstract, Miniaturization of microelectronic devices is mandatory for cost, space and performance benefits.
Today, most calculators are hand held microelectronic devices.
Currently, over 90% of microelectronic devices and services produced in Canada are destined for the US.
The role, significance and history modeling of microelectronic devices.
FIGS . 1 a and 1 b summarise steps of manufacturing microelectronic devices according to the method of the invention.
The invention relates to the transformation of electronic devices, preferably microelectronic devices.
Thus, the conductive tracks of several microelectronic devices are made.
The invention concerns the field of maintaining a vacuum in cavities, particularly for microelectronic devices.
Generally speaking, increasing the density of components in microelectronic devices is a continual aim.
It includes lowcost opto-electronic and micro-optic components and integration with microelectronic devices.
Poly ( quinoxalines ) are especially useful as insulators in microelectronic devices and components.
The present invention relates to the field of microelectronics and, more specifically, light-emitting microelectronic devices.
The cutting-out step enables the collective manufacture of several microelectronic devices on a same substrate ;.
These factors can significantly affect the performance and lifetime of nitride-based optoelectronic and microelectronic devices.
Large number of applications exist for the mechanically autonomous microelectronic devices 10.
We report on microscopy tools for the in-situ analysis of TiN in microelectronic devices.
Single crystal silicon is used to manufacture most Si-based microelectronic devices.
The use of 3D transistors could significantly increase the power of microelectronic devices.
Optomec 's M3D system is used in the development and fabrication of next generation microelectronic devices.
Abstract, Stress measurements by Raman spectroscopy have been performed on microelectronic devices.
You'll also be interested in:
Examples of using Devices
Show more
I have never seen devices such as these
Devices or features having a strong influence on emissions
To connect safety devices other than photocells
Examples of using Microelectronic
Show more
Microelectronic machinery and apparatus and microsystems
Employment and the new microelectronic technology
Microelectronic and optical applications are also contemplated
