公开(公告)号：US09160169B2

公开(公告)日：2015-10-13

申请号：US12915011

申请日：2010-10-29

申请人： Carl J. Hanks ,  James W. Fonda

发明人： Carl J. Hanks ,  James W. Fonda

IPC分类号： H02J3/00 ,  H02J3/38

CPC分类号： H02J3/008 ,  H02J3/381 ,  H02J3/382 ,  H02J3/383 ,  H02J3/386 ,  Y02E10/563 ,  Y02E10/763 ,  Y04S50/10

摘要： A power utilization scheduling system and methods are disclosed. A prioritized energy consumption schedule is determined based on a prioritized energy consumption. A per-process energy consumption model is determined based on an energy consumption model, and an operation is scheduled based on the prioritized energy consumption schedule and the per-process energy consumption model.

摘要翻译： 公开了一种电力利用调度系统和方法。 基于优先的能量消耗确定优先的能量消耗计划。 基于能量消耗模型确定每过程能量消耗模型，并且基于优先排序的能量消耗计划和每过程能量消耗模型来调度操作。

公开(公告)号：US08994511B2

公开(公告)日：2015-03-31

申请号：US13229767

申请日：2011-09-12

申请人： Carl J. Hanks ,  James W. Fonda

发明人： Carl J. Hanks ,  James W. Fonda

IPC分类号： H04Q5/22 ,  G06K19/077 ,  G06K19/04

CPC分类号： G06K19/07743 ,  G06K19/04 ,  Y10T29/49117

摘要： An electronic identification package and methods are disclosed. The electronic identification package comprises an electronic identifier operable to provide an identification. A ground conductive contact is coupled to the electronic identifier and is operable to conductively couple to a conductive body. An insulator is operable to insulate the electronic identifier from the conductive body, and a reader conductive contact is coupled to the electronic identifier and is operable to electronically couple to an electronic identification reader.

摘要翻译： 公开了电子识别包和方法。 电子识别包包括可用于提供识别的电子识别器。 接地导电触点耦合到电子标识符，并且可操作地导电地耦合到导电体。 绝缘体可操作以将电子标识符与导电体绝缘，并且读取器导电触点耦合到电子标识符，并且可操作以电子耦合到电子识别读取器。

公开(公告)号：US20120109392A1

公开(公告)日：2012-05-03

申请号：US12915011

申请日：2010-10-29

申请人： Carl J. Hanks ,  James W. Fonda

发明人： Carl J. Hanks ,  James W. Fonda

IPC分类号： G06F1/26

CPC分类号： H02J3/008 ,  H02J3/381 ,  H02J3/382 ,  H02J3/383 ,  H02J3/386 ,  Y02E10/563 ,  Y02E10/763 ,  Y04S50/10

摘要： A power utilization scheduling system and methods are disclosed. A prioritized energy consumption schedule is determined based on a prioritized energy consumption. A per-process energy consumption model is determined based on an energy consumption model, and an operation is scheduled based on the prioritized energy consumption schedule and the per-process energy consumption model.

摘要翻译： 公开了一种电力利用调度系统和方法。 基于优先的能量消耗确定优先的能量消耗计划。 基于能量消耗模型确定每过程能量消耗模型，并且基于优先排序的能量消耗计划和每过程能量消耗模型来调度操作。

公开(公告)号：US20130063254A1

公开(公告)日：2013-03-14

申请号：US13229767

申请日：2011-09-12

申请人： Carl J. Hanks ,  James W. Fonda

发明人： Carl J. Hanks ,  James W. Fonda

IPC分类号： G06K7/01 ,  H01R43/00 ,  G06K19/077

CPC分类号： G06K19/07743 ,  G06K19/04 ,  Y10T29/49117

摘要： An electronic identification package and methods are disclosed. The electronic identification package comprises an electronic identifier operable to provide an identification. A ground conductive contact is coupled to the electronic identifier and is operable to conductively couple to a conductive body. An insulator is operable to insulate the electronic identifier from the conductive body, and a reader conductive contact is coupled to the electronic identifier and is operable to electronically couple to an electronic identification reader.

摘要翻译： 公开了电子识别包和方法。 电子识别包包括可用于提供识别的电子识别器。 接地导电触点耦合到电子标识符，并且可操作地导电地耦合到导电体。 绝缘体可操作以将电子标识符与导电体绝缘，并且读取器导电触点耦合到电子标识符，并且可操作以电子耦合到电子识别读取器。

公开(公告)号：US09057686B2

公开(公告)日：2015-06-16

申请号：US13298325

申请日：2011-11-17

申请人： James W. Fonda ,  Christopher S. Huskamp

发明人： James W. Fonda ,  Christopher S. Huskamp

IPC分类号： G01N29/04 ,  G01N29/265 ,  G01N29/22

CPC分类号： G01N29/226 ,  A61B8/4281 ,  A61B8/4455 ,  G01N29/04 ,  G01N29/265 ,  G01N2291/044

摘要： A non-destructive inspection apparatus, system and associated method are provided to facilitate the inspection of a workpiece. The non-destructive inspection apparatus includes an ultrasonic sensor configured to be placed in operable contact with the workpiece. The ultrasonic sensor is configured to emit ultrasonic signals into the workpiece and to receive return signals from the workpiece. The non-destructive inspection apparatus also includes a grip operably connected to the ultrasonic sensor such that the grip and the ultrasonic sensor are movable in concert. The grip is configured to support an operator's palm, such as a majority of the operator's palm, such that force applied to the ultrasonic inspection apparatus by the operator is transferred via the grip to the ultrasonic sensor. The non-destructive inspection system may also include a computer in communication with the non-destructive inspection apparatus to receive information relating to the return signals received by the ultrasonic sensor.

摘要翻译： 提供了非破坏性检查装置，系统和相关联的方法以便于检查工件。 非破坏性检查装置包括被配置为与工件可操作地接触的超声波传感器。 超声波传感器被配置为向工件发射超声信号并且从工件接收返回信号。 非破坏性检查装置还包括可操作地连接到超声波传感器的把手，使得把手和超声波传感器可以一起移动。 手柄被构造成支撑操作者的手掌，例如操作者手掌的大部分，使得由操作者施加到超声波检查装置的力被转移到超声波传感器。 非破坏性检查系统还可以包括与非破坏性检查装置通信的计算机，以接收与由超声波传感器接收的返回信号有关的信息。

公开(公告)号：US20110071774A1

公开(公告)日：2011-03-24

申请号：US12565116

申请日：2009-09-23

申请人： James W. Fonda ,  Raymond J. Slesinski

发明人： James W. Fonda ,  Raymond J. Slesinski

IPC分类号： G06F19/00 ,  H02K7/18

CPC分类号： F04B51/00 ,  F01D15/10 ,  F04B2205/04 ,  F15B19/005 ,  G01D21/00 ,  G01L9/00 ,  G01L19/0007 ,  H02S10/20

摘要： A method and apparatus for monitoring a pneumatic system. A number of parameters are monitored using a monitoring device connected to the pneumatic system, an energy harvesting unit configured to generate electrical energy from a gas in the pneumatic system, and a controller. The monitoring device comprises a number of sensors configured to detect the number of parameters. The controller is in communication with the number of sensors and the energy harvesting unit and is configured to process measurements for the number of parameters detected by the number of sensors and control operation of the energy harvesting unit. The number of sensors and the controller are powered by the energy harvesting unit. The monitoring device is powered using the electrical energy generated by the energy harvesting unit.

摘要翻译： 一种用于监测气动系统的方法和装置。 使用连接到气动系统的监测装置来监测多个参数，能量收集单元被配置为从气动系统中的气体产生电能，以及控制器。 监控设备包括多个传感器，其被配置为检测参数的数量。 控制器与传感器和能量收集单元的数量通信，并且被配置为处理由传感器的数量检测的参数的数量和能量收集单元的控制操作的测量。 传感器和控制器的数量由能量采集单元供电。 监测装置使用能量采集装置产生的电能供电。

公开(公告)号：US09356218B1

公开(公告)日：2016-05-31

申请号：US12618616

申请日：2009-11-13

申请人： James W. Fonda ,  John H. Belk

发明人： James W. Fonda ,  John H. Belk

IPC分类号： H01L35/30 ,  H02N3/00

CPC分类号： H01L35/30 ,  G21H1/103 ,  H01L31/028 ,  H01L31/0304 ,  H01L35/02 ,  H01L35/20 ,  H01L35/32 ,  H01L35/34 ,  H02N3/00 ,  H02S40/40 ,  Y02E10/40

摘要： A system and method are disclosed for internally heated concentrated solar power (CSP) thermal absorbers. The system and method involve an energy-generating device having at least one heating unit. At least one heating unit preheats the energy-generating device in order to expedite the startup time of the energy-generating device, thereby allowing for an increase in efficiency for the production of energy. In some embodiments, the energy-generating device is a CSP thermal absorber. The CSP thermal absorber comprises a housing, a thermal barrier, a light-transparent reservoir containing a liquid alkali metal, at least one alkali metal thermal-to-electric converter (AMTEC) cell, an artery return channel, and at least one heating unit. Each heating unit comprises a heating device and a metal fin. The metal fin is submerged into the liquid alkali metal, thereby allowing the heating device to heat the liquid alkali metal via the fin.

摘要翻译： 公开了用于内部加热的集中太阳能（CSP）热吸收器的系统和方法。 该系统和方法包括具有至少一个加热单元的能量产生装置。 至少一个加热单元预热能量产生装置，以加快能量产生装置的启动时间，从而允许提高能量产生的效率。 在一些实施例中，能量产生装置是CSP热吸收器。 CSP热吸收器包括壳体，热障壁，含有液态碱金属的光透明容器，至少一个碱金属热电转换器（AMTEC）单元，动脉回流通道和至少一个加热单元 。 每个加热单元包括加热装置和金属翅片。 金属翅片浸入液态碱金属中，从而允许加热装置经由翅片加热液态碱金属。

公开(公告)号：US09146141B2

公开(公告)日：2015-09-29

申请号：US12565116

申请日：2009-09-23

申请人： James W. Fonda ,  Raymond J. Slesinski

发明人： James W. Fonda ,  Raymond J. Slesinski

IPC分类号： G01D21/00 ,  H02S10/20 ,  F15B19/00

CPC分类号： F04B51/00 ,  F01D15/10 ,  F04B2205/04 ,  F15B19/005 ,  G01D21/00 ,  G01L9/00 ,  G01L19/0007 ,  H02S10/20

摘要： A method and apparatus for monitoring a pneumatic system. A number of parameters are monitored using a monitoring device connected to the pneumatic system, an energy harvesting unit configured to generate electrical energy from a gas in the pneumatic system, and a controller. The monitoring device comprises a number of sensors configured to detect the number of parameters. The controller is in communication with the number of sensors and the energy harvesting unit and is configured to process measurements for the number of parameters detected by the number of sensors and control operation of the energy harvesting unit. The number of sensors and the controller are powered by the energy harvesting unit. The monitoring device is powered using the electrical energy generated by the energy harvesting unit.

摘要翻译： 一种用于监测气动系统的方法和装置。 使用连接到气动系统的监测装置来监测多个参数，能量收集单元被配置为从气动系统中的气体产生电能，以及控制器。 监控设备包括多个传感器，其被配置为检测参数的数量。 控制器与传感器和能量收集单元的数量通信，并且被配置为处理由传感器的数量检测的参数的数量和能量收集单元的控制操作的测量。 传感器和控制器的数量由能量采集单元供电。 监测装置使用能量采集装置产生的电能供电。

公开(公告)号：US20130125657A1

公开(公告)日：2013-05-23

申请号：US13298325

申请日：2011-11-17

申请人： James W. Fonda ,  Christopher S. Huskamp

发明人： James W. Fonda ,  Christopher S. Huskamp

IPC分类号： G01N29/04

CPC分类号： G01N29/226 ,  A61B8/4281 ,  A61B8/4455 ,  G01N29/04 ,  G01N29/265 ,  G01N2291/044

摘要： A non-destructive inspection apparatus, system and associated method are provided to facilitate the inspection of a workpiece. The non-destructive inspection apparatus includes an ultrasonic sensor configured to be placed in operable contact with the workpiece. The ultrasonic sensor is configured to emit ultrasonic signals into the workpiece and to receive return signals from the workpiece. The non-destructive inspection apparatus also includes a grip operably connected to the ultrasonic sensor such that the grip and the ultrasonic sensor are movable in concert. The grip is configured to support an operator's palm, such as a majority of the operator's palm, such that force applied to the ultrasonic inspection apparatus by the operator is transferred via the grip to the ultrasonic sensor. The non-destructive inspection system may also include a computer in communication with the non-destructive inspection apparatus to receive information relating to the return signals received by the ultrasonic sensor.

摘要翻译： 提供了非破坏性检查装置，系统和相关联的方法以便于检查工件。 非破坏性检查装置包括被配置为与工件可操作地接触的超声波传感器。 超声波传感器被配置为向工件发射超声信号并且从工件接收返回信号。 非破坏性检查装置还包括可操作地连接到超声波传感器的把手，使得把手和超声波传感器可以一起移动。 手柄被构造成支撑操作者的手掌，例如操作者手掌的大部分，使得由操作者施加到超声波检查装置的力被转移到超声波传感器。 非破坏性检查系统还可以包括与非破坏性检查装置通信的计算机，以接收与由超声波传感器接收的返回信号有关的信息。