公开(公告)号：US20140145281A1

公开(公告)日：2014-05-29

申请号：US14093172

申请日：2013-11-29

Applicant: Infineon Technologies AG

Inventor： Thomas BEVER ,  Henning FEICK ,  Dirk OFFENBERG ,  Stefano PARASCANDOLA ,  Ines UHLIG ,  Thoralf KAUTZSCH ,  Dirk MEINHOLD ,  Hanno MELZNER

IPC: H01L31/0352 ,  H01L31/18

CPC classification number: H01L31/035272 ,  G01S7/4914 ,  H01L27/14806

Abstract: Embodiments related to controlling of photo-generated charge carriers are described and depicted. At least one embodiment provides a semiconductor substrate comprising a photo-conversion region to convert light into photo-generated charge carriers; a region to accumulate the photo-generated charge carriers; a control electrode structure including a plurality of control electrodes to generate a potential distribution such that the photo-generated carriers are guided towards the region to accumulate the photo-generated charge carriers based on signals applied to the control electrode structure; a non-uniform doping profile in the semiconductor substrate to generate an electric field with vertical field vector components in at least a part of the photo-conversion region

Abstract translation: 描述和描绘与光电荷载体的控制相关的实施例。 至少一个实施例提供了包括光转换区域以将光转换成光生电荷载流子的半导体衬底; 用于积累光生电荷载流子的区域; 控制电极结构，其包括多个控制电极，以产生电位分布，使得所述光生载流子基于施加到所述控制电极结构的信号而被引导到所述区域以累积所述光生电荷载流子; 在半导体衬底中的不均匀掺杂分布，以在光转换区域的至少一部分中产生具有垂直场矢量分量的电场

公开(公告)号：US20250091858A1

公开(公告)日：2025-03-20

申请号：US18822580

申请日：2024-09-03

Applicant: Infineon Technologies AG

Inventor： Theresa LUTZ ,  Malika BELLA ,  Stephan Gerhard ALBERT ,  Andre BROCKMEIER ,  Mohanraj SOUNDARA PANDIAN ,  Thomas BEVER

IPC: B81B3/00 ,  B81C1/00

Abstract: A microelectromechanical system (MEMS) mirror device includes a frame that defines a frame cavity; a suspension assembly; and a mirror body coupled to the frame by the suspension assembly such that the mirror body is suspended over the frame cavity. The mirror body comprises a sandwich structure that includes a front plate, a back plate, and a hollow core assembly arranged between the front plate and the back plate. The front plate and the back plate define a thickness dimension of the mirror body. The hollow core assembly includes a plurality of support structures that extend between the front plate and the back plate and define a plurality of cavities between the front plate and the back plate.

公开(公告)号：US20190323819A1

公开(公告)日：2019-10-24

申请号：US15957117

申请日：2018-04-19

Applicant: Infineon Technologies AG

Inventor： Jürgen ZIMMER ,  Thomas BEVER

IPC: G01B7/30 ,  G01D5/12 ,  G01R35/00

Abstract: Some aspects described herein involve a multi-turn counter (MTC) system that includes a first MTC sensor configured to sense a rotating magnetic field coupled to a rotatable object. The first MTC sensor may have a first sense of rotation detection. The MTC system may include a second MTC sensor may be configured to sense the rotating magnetic field. The second MTC sensor may have a second sense of rotation detection which is opposite to the first sense of rotation detection, and the second MTC sensor is configured to sense the rotating magnetic field according to the second sense of rotation.

公开(公告)号：US20170358697A1

公开(公告)日：2017-12-14

申请号：US15688356

申请日：2017-08-28

Applicant: Infineon Technologies AG

Inventor： Thomas BEVER ,  Henning Feick ,  Dirk Offenberg ,  Stefano Parascandola ,  Ines Uhlig ,  Thoralf Kautzsch ,  Dirk Meinhold ,  Hanno Melzner

IPC: H01L31/0352 ,  G01S7/491 ,  H01L27/148

CPC classification number: H01L31/035272 ,  G01S7/4914 ,  H01L27/14806

Abstract: Embodiments related to controlling of photo-generated charge carriers are described and depicted. At least one embodiment provides a semiconductor substrate comprising a photo-conversion region to convert light into photo-generated charge carriers; a region to accumulate the photo-generated charge carriers; a control electrode structure including a plurality of control electrodes to generate a potential distribution such that the photo-generated carriers are guided towards the region to accumulate the photo-generated charge carriers based on signals applied to the control electrode structure; a non-uniform doping profile in the semiconductor substrate to generate an electric field with vertical field vector components in at least a part of the photo-conversion region