Add to ORKGThis paper presents the different processing steps of a new generic surface micromachining module for MEMS hermetic packaging at temperatures around 180°C based on nickel plating and photoresist sacrificial layers. The advantages of thin film caps are the reduced thickness and area consumption and the promise of being a low-cost batch process. Moreover, sealing happens by a reflow technique, giving the freedom of choosing the pressure and atmosphere inside the cavity. Sacrificial etch holes are situated above the device allowing shorter release times compared to the state-of-the-art. With the so-called over-plating process, small etch holes can be created in the membrane without the need of expensive lithography tools. The etch holes in the...
Novel processes were developed that resulted in a self-packaged device during the system integration...
Abstract—A thin-film encapsulation process, featuring low-temperature steps, hermetic sealing (preli...
Unlike CMOS chips, chips containing MEMS devices cannot be directly packaged in a plastic or ceramic...
This paper presents the different processing steps of a new generic surface micromachining module fo...
This thesis describes the development of wafer-level, low temperature thin film packages. Two packag...
This thesis describes the development of wafer-level, low temperature thin film packages. Two packag...
A low-cost, low-temperature packaging concept is proposed for localized sealing and control of the a...
Many micro electromechanical systems (MEMS) require a vacuum or controlled atmosphere encapsulation ...
This paper reports a novel and inherently simple fabrication process, so-called advanced MEMS (aMEMS...
Many micro electromechanical systems (MEMS) require a vacuum or controlled atmosphere encapsulation ...
Many micro electromechanical systems (MEMS) require a vacuum or controlled atmosphere encapsulation ...
Many micro electromechanical systems (MEMS) require a vacuum or controlled atmosphere encapsulation ...
AbstractThis paper reports on a novel temporary 0-level packaging process for MEMS (Micro Electro Me...
The past thirty years have seen rapid growth in products and technologies based on microelectromecha...
A completely foundry compatible chip-scale package for surface micromachines has been successfully d...
Novel processes were developed that resulted in a self-packaged device during the system integration...
Abstract—A thin-film encapsulation process, featuring low-temperature steps, hermetic sealing (preli...
Unlike CMOS chips, chips containing MEMS devices cannot be directly packaged in a plastic or ceramic...
This paper presents the different processing steps of a new generic surface micromachining module fo...
This thesis describes the development of wafer-level, low temperature thin film packages. Two packag...
This thesis describes the development of wafer-level, low temperature thin film packages. Two packag...
A low-cost, low-temperature packaging concept is proposed for localized sealing and control of the a...
Many micro electromechanical systems (MEMS) require a vacuum or controlled atmosphere encapsulation ...
This paper reports a novel and inherently simple fabrication process, so-called advanced MEMS (aMEMS...
Many micro electromechanical systems (MEMS) require a vacuum or controlled atmosphere encapsulation ...
Many micro electromechanical systems (MEMS) require a vacuum or controlled atmosphere encapsulation ...
Many micro electromechanical systems (MEMS) require a vacuum or controlled atmosphere encapsulation ...
AbstractThis paper reports on a novel temporary 0-level packaging process for MEMS (Micro Electro Me...
The past thirty years have seen rapid growth in products and technologies based on microelectromecha...
A completely foundry compatible chip-scale package for surface micromachines has been successfully d...
Novel processes were developed that resulted in a self-packaged device during the system integration...
Abstract—A thin-film encapsulation process, featuring low-temperature steps, hermetic sealing (preli...
Unlike CMOS chips, chips containing MEMS devices cannot be directly packaged in a plastic or ceramic...