Add to ORKGWhile the electronic properties of silicon are widely utilized in high-volume IC manufacturing, the use of its mechanical as well as its other properties is still lagging behind. Recent advances in IC-compatible micromachining techniques, however, have created the technological basis for constructing miniature, high-precision, mechanical structures in and on silicon. Thus microsensors and microactuators can be merged together with sophisticated microelectronics to create microsystems. This tutorial shows that besides lowering manufacturing costs, the silicon integration of both sensors and electronics offers several other significant advantages
Sensors play an important role in most of the common activities that occur in our daily lives. They ...
Micromachining and related technologies are needed to develop a large variety of sensors and actuato...
Micro-electro-mechanical systems (MEMS) or Microsystems technology (MST) is a fascinating and exciti...
While modern microelectronic fabrication processes allow monolithic integration of millions and mill...
Recent developements in silicon technology allow the implementation of nonelectrical functions and C...
Progress in semiconductor technology has been very fast in the latest years. Silicon devices are ava...
System integration is often by the incompatibility of technology used for the fabrication of signal ...
Silicon sensor technology originated from the main-stream fabrication of integrated circuits. From t...
Silicon sensors date back to before 1960 with early Hall and piezoresistive devices. These used simp...
Due to the process in semiconductor technology in the last years, silicon devices are available havi...
As silicon microelectronics continues its remarkable evolution, the technology is simultaneously sca...
This contribution presents recent advances in CMOS electronics for silicon and silicon-based sensors...
Microelectromechanical systems (MEMS) are integratedmicrodevices or systems combining electrical and...
Microsensors and MEMS (micro-electro-mechanical systems) are revolutionising the semiconductor indus...
The technology of silicon micromechanics for the fabrication of sensors and actuators offers the uni...
Sensors play an important role in most of the common activities that occur in our daily lives. They ...
Micromachining and related technologies are needed to develop a large variety of sensors and actuato...
Micro-electro-mechanical systems (MEMS) or Microsystems technology (MST) is a fascinating and exciti...
While modern microelectronic fabrication processes allow monolithic integration of millions and mill...
Recent developements in silicon technology allow the implementation of nonelectrical functions and C...
Progress in semiconductor technology has been very fast in the latest years. Silicon devices are ava...
System integration is often by the incompatibility of technology used for the fabrication of signal ...
Silicon sensor technology originated from the main-stream fabrication of integrated circuits. From t...
Silicon sensors date back to before 1960 with early Hall and piezoresistive devices. These used simp...
Due to the process in semiconductor technology in the last years, silicon devices are available havi...
As silicon microelectronics continues its remarkable evolution, the technology is simultaneously sca...
This contribution presents recent advances in CMOS electronics for silicon and silicon-based sensors...
Microelectromechanical systems (MEMS) are integratedmicrodevices or systems combining electrical and...
Microsensors and MEMS (micro-electro-mechanical systems) are revolutionising the semiconductor indus...
The technology of silicon micromechanics for the fabrication of sensors and actuators offers the uni...
Sensors play an important role in most of the common activities that occur in our daily lives. They ...
Micromachining and related technologies are needed to develop a large variety of sensors and actuato...
Micro-electro-mechanical systems (MEMS) or Microsystems technology (MST) is a fascinating and exciti...