In this work a sub-step of the fabrication of an absolute capacitive pressure sensor MEMS on top of a CMOS substrate is discussed. Especially for low pressure applications membrane diameters of more than 100 μm are required. A vapour phase etching of a sacrificial layer by side openings is assumed to be inappropriate due to the addressed diameters. To apply an isotropic HF-vapour phase etching process successfully, openings in the structural layer of the MEMS-structure to get access to the sacrificial layer have been utilized. Different designs of possible etch accesses are simulated regarding their impact on stress. It is shown that a diameter minimisation of vertical etch access tunnels is beneficial with respect to stress (under applied ...
This paper describes a feasibility study on design and fabrication of piezoresistive pressure sensor...
Introduction The futher miniaturization of MEMS sensors (micro-electro-mechanical system) opens up a...
© Author(s) 2014. Implantable MEMS sensors are an enabling technology for diagnostic analysis and t...
In this work a sub-step of the fabrication of an absolute capacitive pressure sensor MEMS on top of ...
This paper presents a two step sacrificial layer etching technique used for the fabrication of surfa...
A Microelectromechanical (MEMS) pressure sensor was designed, fabricated, and tested. Photomasks wer...
The pressure has a major impact when it comes to control of chemical processes. A method for integra...
itvro ering lgium 3001, struc kaging iment afer s a CF4 117 A receiv cial etch channels. For exampl...
A maskless etching technique for fabrication of 3D MEMS structures has been presented. The technique...
In the early phase of MEMS development piezoresistive pressure transducers were dominating due to th...
Processing issues for the fabrication of capacitive micromachined ultrasonic transducer (cMUT) array...
This paper presents a pressure sensor based on a variable capacitor formed by a movable polysilicon ...
[[abstract]]This paper proposed a new direction for the miniaturization of silicon bulk-machined sen...
Abstract: This article reports on the design of a capacitive pressure sensor fabricated in non-silic...
[[abstract]]This paper proposed a new direction for the miniaturization of silicon bulk-machined sen...
This paper describes a feasibility study on design and fabrication of piezoresistive pressure sensor...
Introduction The futher miniaturization of MEMS sensors (micro-electro-mechanical system) opens up a...
© Author(s) 2014. Implantable MEMS sensors are an enabling technology for diagnostic analysis and t...
In this work a sub-step of the fabrication of an absolute capacitive pressure sensor MEMS on top of ...
This paper presents a two step sacrificial layer etching technique used for the fabrication of surfa...
A Microelectromechanical (MEMS) pressure sensor was designed, fabricated, and tested. Photomasks wer...
The pressure has a major impact when it comes to control of chemical processes. A method for integra...
itvro ering lgium 3001, struc kaging iment afer s a CF4 117 A receiv cial etch channels. For exampl...
A maskless etching technique for fabrication of 3D MEMS structures has been presented. The technique...
In the early phase of MEMS development piezoresistive pressure transducers were dominating due to th...
Processing issues for the fabrication of capacitive micromachined ultrasonic transducer (cMUT) array...
This paper presents a pressure sensor based on a variable capacitor formed by a movable polysilicon ...
[[abstract]]This paper proposed a new direction for the miniaturization of silicon bulk-machined sen...
Abstract: This article reports on the design of a capacitive pressure sensor fabricated in non-silic...
[[abstract]]This paper proposed a new direction for the miniaturization of silicon bulk-machined sen...
This paper describes a feasibility study on design and fabrication of piezoresistive pressure sensor...
Introduction The futher miniaturization of MEMS sensors (micro-electro-mechanical system) opens up a...
© Author(s) 2014. Implantable MEMS sensors are an enabling technology for diagnostic analysis and t...