Abstract: Quantitative Accelerated Life Testing (QALT) is a solution for assessing the reliability of Micro Electro Mechanical Systems (MEMS). A procedure for QALT is shown in this paper and an attempt to assess the reliability level for a batch of MEMS accelerometers is reported. The testing plan is application-driven and contains combined tests: thermal (high temperature) and mechanical stress. Two variants of mechanical stress are used: vibration (at a fixed frequency) and tilting. Original equipment for testing at tilting and high temperature is used. Tilting is appropriate as application-driven stress, because the tilt movement is a natural environment for devices used for automotive and aerospace applications. Also, tilting is used by...
International audienceThis paper addresses an innovative solution to develop a circuit to perform ac...
Microelectromechanical systems (MEMS) offer numerous ap-plications thanks to their miniaturization, ...
Micro-Electro-Mechanical Systems (MEMS) are today widespread in many industrial and consumer applica...
Quantitative Accelerated Life Testing (QALT) is a solution for assessing thereliability of Micro Ele...
Quantitative Accelerated Life Testing (QALT) is a solution for assessing the reliability of Micro E...
peer reviewedAn attempt to assess the reliability of a batch of MEMS accelerometers is presented. Th...
In many different technological and industrial fields microelectronic device reliability is rising u...
This dissertation proposes a novel accumulative test method for MEMS-based, commercial off-the-shelv...
Microelectromechanical systems in MEMS is one of the fastest growing technologies in microelectronic...
In the present work, the reliability assessment of capacitive MEMS accelerometers of 3 different sup...
The basic analysis methodology of micromachined accelerometer reliability are developed. The reliabi...
Nowadays, the Micro Electro-Mechanical Systems (MEMS) are widely employed in both consumer and indus...
The current technological process has mainly interested in integrating MEMS devices in most technolo...
International audienceThis paper addresses an innovative solution to develop a circuit to perform ac...
Microelectromechanical systems (MEMS) offer numerous ap-plications thanks to their miniaturization, ...
Micro-Electro-Mechanical Systems (MEMS) are today widespread in many industrial and consumer applica...
Quantitative Accelerated Life Testing (QALT) is a solution for assessing thereliability of Micro Ele...
Quantitative Accelerated Life Testing (QALT) is a solution for assessing the reliability of Micro E...
peer reviewedAn attempt to assess the reliability of a batch of MEMS accelerometers is presented. Th...
In many different technological and industrial fields microelectronic device reliability is rising u...
This dissertation proposes a novel accumulative test method for MEMS-based, commercial off-the-shelv...
Microelectromechanical systems in MEMS is one of the fastest growing technologies in microelectronic...
In the present work, the reliability assessment of capacitive MEMS accelerometers of 3 different sup...
The basic analysis methodology of micromachined accelerometer reliability are developed. The reliabi...
Nowadays, the Micro Electro-Mechanical Systems (MEMS) are widely employed in both consumer and indus...
The current technological process has mainly interested in integrating MEMS devices in most technolo...
International audienceThis paper addresses an innovative solution to develop a circuit to perform ac...
Microelectromechanical systems (MEMS) offer numerous ap-plications thanks to their miniaturization, ...
Micro-Electro-Mechanical Systems (MEMS) are today widespread in many industrial and consumer applica...