Add to ORKGTodays microsystems (MEMS) are mostly characterized by high reliable but cost intensive processes. The base material used for MEMS elements is very often silicon with its well known characteristics but also with its costly production steps. Therefore, many good ideas for interesting products cannot be realized because of high development and production costs and small number of units. For a broader application of MEMS elements, new materials and easier techniques are required. In following sections, we will show some new concepts, which offer the possibility for low cost production
Microsystems are key enabling technologies, with applications found in almost every industrial field...
Recently there is a rapid growth in micro-manufacturing technology especially in the areas of biomed...
Recently there is a rapid growth in micro-manufacturing technology especially in the areas of biomed...
During the past few years, remarkable afforts have been made for the ralization of microscale sensor...
During the past few yers, remarkable affords have been made for the realization of microscale system...
This paper presents low cost techniques for the fabrication of microstructures using a limited set o...
MEMS technology allows the significant miniaturisation and integration of products based on diverse ...
Moving Mechanical Assemblies could be considered a type of microelectromechanical systems (MEMS) an...
Moving Mechanical Assemblies could be considered a type of microelectromechanical systems (MEMS) an...
Microsystem technology and miniaturization are becoming increasingly important in the automotive and...
Microsystems are key enabling technologies, with applications found in almost every industrial field...
In this paper, we outline the process leading from technologies to successful products in the MEMS (...
Silicon sensors date back to before 1960 with early Hall and piezoresistive devices. These used simp...
AbstractThis paper studies on micro fabrication methods for MEMS. Silicon micromachining has been a ...
MEMS (micro electro-mechanical systems) are often expected to take a development as microelectronics...
Microsystems are key enabling technologies, with applications found in almost every industrial field...
Recently there is a rapid growth in micro-manufacturing technology especially in the areas of biomed...
Recently there is a rapid growth in micro-manufacturing technology especially in the areas of biomed...
During the past few years, remarkable afforts have been made for the ralization of microscale sensor...
During the past few yers, remarkable affords have been made for the realization of microscale system...
This paper presents low cost techniques for the fabrication of microstructures using a limited set o...
MEMS technology allows the significant miniaturisation and integration of products based on diverse ...
Moving Mechanical Assemblies could be considered a type of microelectromechanical systems (MEMS) an...
Moving Mechanical Assemblies could be considered a type of microelectromechanical systems (MEMS) an...
Microsystem technology and miniaturization are becoming increasingly important in the automotive and...
Microsystems are key enabling technologies, with applications found in almost every industrial field...
In this paper, we outline the process leading from technologies to successful products in the MEMS (...
Silicon sensors date back to before 1960 with early Hall and piezoresistive devices. These used simp...
AbstractThis paper studies on micro fabrication methods for MEMS. Silicon micromachining has been a ...
MEMS (micro electro-mechanical systems) are often expected to take a development as microelectronics...
Microsystems are key enabling technologies, with applications found in almost every industrial field...
Recently there is a rapid growth in micro-manufacturing technology especially in the areas of biomed...
Recently there is a rapid growth in micro-manufacturing technology especially in the areas of biomed...