公开(公告)号：US07239685B2

公开(公告)日：2007-07-03

申请号：US10805828

申请日：2004-03-22

Applicant: Scott W. Petrick ,  Donald F Langler ,  Paul R. Granfors ,  Ken S. Kump ,  Aaron A. Haen ,  Jibril Odogba ,  Jason R. Ertel ,  David C. Neumann ,  John R. Lamberty ,  Ping Xue ,  Habib Vafi

Inventor： Scott W. Petrick ,  Donald F Langler ,  Paul R. Granfors ,  Ken S. Kump ,  Aaron A. Haen ,  Jibril Odogba ,  Jason R. Ertel ,  David C. Neumann ,  John R. Lamberty ,  Ping Xue ,  Habib Vafi

IPC: H05G1/58

CPC classification number: G01T1/2985

Abstract: Systems and methods are provided for managing power consumption of a medical imaging detector by the use of triggering signals, environmental condition data, and/or determination of a variable time interval triggering event that is unique for each power consumption state. Systems and methods are provided for managing power and temperature of a device, after receiving a request for a function to be performed by the device determining an “on” trigger component, an “off” trigger component, associated circuits for performing the received function, providing power to the associated circuits upon the occurrence of the “on” trigger component, and removing power to the associated circuits upon the occurrence of the “off” trigger component. Further, an instruction is described for determining and displaying a variable time interval that is indicative of a time to change from one state to a desired state.

Abstract translation: 提供了用于通过使用触发信号，环境条件数据和/或确定每个功耗状态唯一的可变时间间隔触发事件来管理医疗成像检测器的功耗的系统和方法。 提供了用于管理设备的功率和温度的系统和方法，在接收到要由所述设备执行的功能的确定“接通”触发组件，“关闭”触发组件，用于执行接收功能的相关电路， 在发生“接通”触发组件时向相关联的电路供电，以及在发生“关闭”触发组件时去掉相关电路的电力。 此外，描述了用于确定和显示指示从一种状态改变到期望状态的时间的可变时间间隔的指令。

公开(公告)号：US07409564B2

公开(公告)日：2008-08-05

申请号：US10805753

申请日：2004-03-22

Applicant: Ken S. Kump ,  John R. Lamberty ,  Aaron A. Haen ,  Paul R. Granfors ,  Jason R. Ertel ,  Jibril Odogba ,  David C. Neumann ,  Donald F Langler ,  Ping Xue ,  Habib Vafi ,  Scott W Petrick

Inventor： Ken S. Kump ,  John R. Lamberty ,  Aaron A. Haen ,  Paul R. Granfors ,  Jason R. Ertel ,  Jibril Odogba ,  David C. Neumann ,  Donald F Langler ,  Ping Xue ,  Habib Vafi ,  Scott W Petrick

IPC: G06F1/00 ,  G06F1/32 ,  H04N5/225

CPC classification number: G06F1/3203 ,  A61B6/548 ,  G01T1/17 ,  G06F1/206 ,  Y02D10/16

Abstract: Systems and methods are provided for managing power consumption of a medical imaging detector by the use of triggering signals, environmental condition data, and/or determination of a variable time interval triggering event that is unique for each power consumption state. Systems and methods are provided for managing power and temperature of a device, after receiving a request for a function to be performed by the device determining an “on” trigger component, an “off” trigger component, associated circuits for performing the received function, providing power to the associated circuits upon the occurrence of the “on” trigger component, and removing power to the associated circuits upon the occurrence of the “off” trigger component. Further, an instruction is described for determining and displaying a variable time interval that is indicative of a time to change from one state to a desired state.

Abstract translation: 提供了用于通过使用触发信号，环境条件数据和/或确定每个功耗状态唯一的可变时间间隔触发事件来管理医疗成像检测器的功耗的系统和方法。 提供了用于管理设备的功率和温度的系统和方法，在接收到要由所述设备执行的功能的确定“接通”触发组件，“关闭”触发组件，用于执行接收功能的相关电路， 在发生“接通”触发组件时向相关联的电路供电，以及在发生“关闭”触发组件时去掉相关电路的电力。 此外，描述了用于确定和显示指示从一种状态改变到期望状态的时间的可变时间间隔的指令。

公开(公告)号：US07117588B2

公开(公告)日：2006-10-10

申请号：US10063432

申请日：2002-04-23

Applicant: Habib Vafi ,  David C. Neumann ,  Scott W. Petrick ,  Jeffrey A. Kautzer

Inventor： Habib Vafi ,  David C. Neumann ,  Scott W. Petrick ,  Jeffrey A. Kautzer

IPC: H05K3/00

CPC classification number: H01L27/14658 ,  Y10T29/49117 ,  Y10T29/49124 ,  Y10T29/49126 ,  Y10T29/4913 ,  Y10T29/49133 ,  Y10T29/49144 ,  Y10T29/49169 ,  Y10T29/49789

Abstract: The present technique provides a multi-tile detector and a process for assembling the multi-tile detector using a flexible structure and intermediate electrical connections. The present technique minimizes edge gaps between adjacent detector tiles by coupling the detector tiles to the flexible structure and then flexing the flexible structure to close the edge gaps. Intermediate electrical connections, such as interlayer solder bumps, also may be used to minimize visible artifacts associated with tiling of the detector tiles. The present technique also may use a plurality of soldering materials having different melting temperatures to facilitate multiple soldering steps that are nondestructive of previous soldering steps.

公开(公告)号：US6073343A

公开(公告)日：2000-06-13

申请号：US218259

申请日：1998-12-22

Applicant: Scott W. Petrick ,  Robert F. Kwasnick ,  Rowland F. Saunders ,  Habib Vafi ,  David C. Neumann

Inventor： Scott W. Petrick ,  Robert F. Kwasnick ,  Rowland F. Saunders ,  Habib Vafi ,  David C. Neumann

IPC: G09F9/30 ,  H01L27/02 ,  H01L27/146 ,  H01L31/02 ,  H01R43/00

CPC classification number: H01L31/02002 ,  H01L27/0248 ,  H01L27/14601 ,  Y10T29/49117

Abstract: A method is provided for maximizing substrate usage in the fabrication of flat panel displays or detectors, while also maximizing electrostatic protection for the displays or detectors. Initially, at least two detectors are positioned on the substrate, with each of the detectors having a guard ring of a certain width. At least a section of the guard ring width of one detector is approximately adjacent to a section of the guard ring width of another detector. The approximately adjacent guard ring width sections are then positioned such that a maximum overlap of the adjacent guard ring width sections is achieved, while still providing each display or detector with electrostatic discharge protection. Each of the detectors is separated from the other detectors and the remainder of the substrate by the process of scribing partially through the substrate and breaking at the scribe mark or by sawing.

Abstract translation: 提供了一种用于在平板显示器或检测器的制造中使衬底使用最大化的方法，同时还使显示器或检测器的静电保护最大化。 最初，至少两个检测器位于基板上，每个检测器具有一定宽度的保护环。 一个检测器的保护环宽度的至少一部分大致邻近另一检测器的保护环宽度的一部分。 然后将大致相邻的保护环宽度部分定位成使得相邻的保护环宽度部分的最大重叠实现，同时仍然为每个显示器或检测器提供静电放电保护。 每个检测器通过划线部分地穿过基板并在划线标记处或通过锯切断开的过程与其它检测器和基板的其余部分分离。