公开(公告)号：US5434396A

公开(公告)日：1995-07-18

申请号：US974131

申请日：1992-11-10

申请人： William H. Owen ,  James M. Jaffe

发明人： William H. Owen ,  James M. Jaffe

IPC分类号： G06K7/00 ,  G06K7/08 ,  G06K19/077 ,  G06K5/00

CPC分类号： G06K19/07779 ,  G06K19/07749 ,  G06K19/07783 ,  G06K7/0008 ,  G06K7/10336

摘要： A wireless communication system for communicating between a host system and a stand-alone device through an electromagnetic coupling medium is disclosed. The communication system has the capabilities of bi-directional data communications between the host and the stand-alone device and of powering the stand-alone device with energy pulses coupled through the electromagnetic coupling medium from the host. The electromagnetic medium is capable of supporting the bi-directional flow of energy pulses and energy transitions thereof between the host and stand-alone device. In one embodiment, bi-directional communication is provided by transmitting and detecting predetermined numbers of consecutive energy transitions coupled through the medium. Resting durations immediately precede and follow each predetermined number of consecutive energy transitions. In a preferred embodiment of the present invention, the host communicates a first binary value to the stand-alone device by coupling a first predetermined number of consecutive energy transitions to the device and a second binary value to the device by coupling a second predetermined number of consecutive energy transitions. Additionally, the host system receives data from the stand-alone device by first coupling a third predetermined number of consecutive energy transitions to the stand-alone device. The stand-alone device then responds by coupling a predetermined number of energy transitions to the medium during the resting duration following the host's transmission of the third predetermined number of consecutive energy transitions. The number of energy transitions sent by the stand-alone device during this resting duration is related to the value of the data digit being sent to the host.

摘要翻译： 公开了一种用于通过电磁耦合介质在主机系统和独立设备之间进行通信的无线通信系统。 通信系统具有在主机和独立设备之间进行双向数据通信的能力，并且通过从主机通过电磁耦合介质耦合的能量脉冲为独立设备供电。 电磁介质能够支持主机和独立设备之间的能量脉冲及其能量转换的双向流动。 在一个实施例中，通过发送和检测通过介质耦合的预定数量的连续能量跃迁来提供双向通信。 休息持续时间紧接在每个预定数量的连续能量转换之前。 在本发明的优选实施例中，主机通过将第一预定数量的连续能量转换耦合到装置并将第二二进制值耦合到装置，通过将第二预定数量的 连续能量转换。 此外，主机系统通过首先将第三预定数量的连续能量转换耦合到独立装置来从独立设备接收数据。 独立设备然后通过在主机传输第三预定数量的连续能量转换之后的静止持续时间期间将预定数量的能量转换耦合到介质来进行响应。 在该静止时间期间由独立设备发送的能量转换的数量与发送到主机的数据数据的值有关。

公开(公告)号：US5587573A

公开(公告)日：1996-12-24

申请号：US432628

申请日：1995-05-02

申请人： William H. Owen ,  James M. Jaffe

发明人： William H. Owen ,  James M. Jaffe

IPC分类号： G06K7/00 ,  G06K7/08 ,  G06K19/077 ,  G06K5/00

CPC分类号： G06K19/07779 ,  G06K19/07749 ,  G06K19/07783 ,  G06K7/0008 ,  G06K7/10336

摘要： A wireless communication system for communicating between a host system and a stand-alone device through an electromagnetic coupling medium is disclosed. The communication system has the capabilities of bi-directional data communications between the host and the stand-alone device and of powering the stand-alone device with energy pulses coupled through the electromagnetic coupling medium from the host. The electromagnetic medium is capable of supporting the bi-directional flow of energy pulses and energy transitions thereof between the host and stand-alone device. In one embodiment, bi-directional communication is provided by transmitting and detecting predetermined numbers of consecutive energy transitions coupled through the medium. Resting durations immediately precede and follow each predetermined number of consecutive energy transitions. In a preferred embodiment of the present invention, the host communicates a first binary value to the stand-alone device by coupling a first predetermined number of consecutive energy transitions to the device and a second binary value to the device by coupling a second predetermined number of consecutive energy transitions. Additionally, the host system receives data from the stand-alone device by first coupling a third predetermined number of consecutive energy transitions to the stand-alone device. The stand-alone device then responds by coupling a predetermined number of energy transitions to the medium during the resting duration following the host's transmission of the third predetermined number of consecutive energy transitions. The number of energy transitions sent by the stand-alone device during this resting duration is related to the value of the data digit being sent to the host.

公开(公告)号：US5502295A

公开(公告)日：1996-03-26

申请号：US420347

申请日：1995-04-11

申请人： William H. Owen ,  James M. Jaffe

发明人： William H. Owen ,  James M. Jaffe

IPC分类号： G06K7/00 ,  G06K7/08 ,  G06K19/077 ,  G06K5/00

CPC分类号： G06K19/07779 ,  G06K19/07749 ,  G06K19/07783 ,  G06K7/0008 ,  G06K7/10336

摘要： A wireless communication system for communicating between a host system and a stand-alone device through an electromagnetic coupling medium is disclosed. The communication system has the capabilities of bi-directional data communications between the host and the stand-alone device and of powering the stand-alone device with energy pulses coupled through the electromagnetic coupling medium from the host. The electromagnetic medium is capable of supporting the bi-directional flow of energy pulses and energy transitions thereof between the host and stand-alone device. In one embodiment, bi-directional communication is provided by transmitting and detecting predetermined numbers of consecutive energy transitions coupled through the medium. Resting durations immediately precede and follow each predetermined number of consecutive energy transitions. In a preferred embodiment of the present invention, the host communicates a first binary value to the stand-alone device by coupling a first predetermined number of consecutive energy transitions to the device and a second binary value to the device by coupling a second predetermined number of consecutive energy transitions. Additionally, the host system receives data from the stand-alone device by first coupling a third predetermined number of consecutive energy transitions to the stand-alone device. The stand-alone device then responds by coupling a predetermined number of energy transitions to the medium during the resting duration following the host's transmission of the third predetermined number of consecutive energy transitions. The number of energy transitions sent by the stand-alone device during this resting duration is related to the value of the data digit being sent to the host.

公开(公告)号：US08293378B2

公开(公告)日：2012-10-23

申请号：US12315529

申请日：2008-12-04

申请人： William H. Owen ,  A. Michael Horton ,  James Weber

发明人： William H. Owen ,  A. Michael Horton ,  James Weber

IPC分类号： B32B15/04 ,  B32B15/08 ,  B32B15/18 ,  B32B15/20 ,  F16L9/147 ,  B05D1/00 ,  B05D1/02 ,  B05D1/10 ,  B05D3/00 ,  B05D7/14 ,  B05D7/16 ,  B05B1/08

CPC分类号： F16L58/1072 ,  C09D5/08 ,  C23C4/02 ,  C23C24/04 ,  C23C28/00 ,  C23F13/06 ,  C23F13/14 ,  C23F2213/32 ,  F16L58/08 ,  Y10T428/12014 ,  Y10T428/12049 ,  Y10T428/12549 ,  Y10T428/12569 ,  Y10T428/12757 ,  Y10T428/12799 ,  Y10T428/12951 ,  Y10T428/12972 ,  Y10T428/12979 ,  Y10T428/12986 ,  Y10T428/13 ,  Y10T428/24967 ,  Y10T428/26 ,  Y10T428/31678

摘要： A protective coating for a metal substrate is provided that is light, durable, galvanically protective, and easily applied at the site of manufacture. The coating has at least two layers, one of which is a galvanizing layer and one of which is a micro-composite of a galvanic metal and a non-conducting material, such as polymer. Such coatings are useful for example to protect pipes or other metal surfaces in corrosive environments. Methods of producing the coating are provided, including methods that use advanced spraying techniques to provide very thin but consistent layers. Using the advanced spraying methods the composite layer can be created by co-spraying the galvanic metal and the nonconductive material onto the surface of the galvanic coating. Optionally, an outer coat of insulating material can be applied to provide further protection to the surface.

摘要翻译： 提供了用于金属基材的保护涂层，其具有轻，耐久，电流保护，并且在制造现场容易应用。 涂层具有至少两层，其中之一是镀锌层，其中之一是电偶金属和非导电材料如聚合物的微复合材料。 这种涂层可用于例如在腐蚀性环境中保护管道或其它金属表面。 提供了生产涂层的方法，包括使用先进喷涂技术提供非常薄但一致的层的方法。 使用先进的喷涂方法，可以通过将电偶金属和非导电材料共同喷涂到电镀层的表面上来产生复合层。 可选地，可以施加绝缘材料的外涂层以对表面提供进一步的保护。

公开(公告)号：US20120049463A1

公开(公告)日：2012-03-01

申请号：US13216523

申请日：2011-08-24

申请人： William W. Holmes, IV ,  William H. Owen

发明人： William W. Holmes, IV ,  William H. Owen

IPC分类号： F16L21/02 ,  F16L21/03

CPC分类号： F16L37/0845

摘要： Gaskets for use with a bell and spigot coupling system are disclosed herein. The gasket comprises an elastomeric member having a front edge, a first section, and a second section. Axial forces generated by the insertion of the spigot to the first section of the elastomeric member displace the first section of the elastomeric member in an axial and radial direction.

摘要翻译： 本文公开了一种用于钟形和插口连接系统的垫圈。 垫圈包括具有前边缘，第一部分和第二部分的弹性体部件。 通过将插口插入到弹性体构件的第一部分而产生的轴向力在弹性体构件的轴向和径向方向上移动第一部分。

公开(公告)号：US07345523B2

公开(公告)日：2008-03-18

申请号：US11525792

申请日：2006-09-22

申请人： William H. Owen

发明人： William H. Owen

IPC分类号： H03L5/00

CPC分类号： G11C16/10 ,  G11C7/062 ,  G11C7/067 ,  G11C7/14 ,  G11C2207/2254 ,  H03K5/08 ,  H03K5/2481

摘要： A floating gate circuit having a floating gate and a level shift circuit. A first tunneling device formed between a first and second tunnel electrode is included for removing electrons from the floating gate. Electrons are injected onto the floating gate without the use of a tunneling device, e.g., using avalanche injection. A first circuit is coupled to the floating gate for generating an output voltage at an output terminal. The level shift circuit has a second tunnel device coupled between the output terminal and the first tunnel electrode. The second tunnel device is for tracking changes in the characteristics of the first tunneling device connected to the floating gate. The level shift circuit level shifts the output of the floating gate circuit to a voltage that enables the tunnel device coupled to a floating gate to precisely set the floating gate to a desired voltage during a set mode.

摘要翻译： 具有浮动栅极和电平移位电路的浮动栅极电路。 包括形成在第一和第二隧道电极之间的第一隧穿装置，用于从浮动栅极去除电子。 电子注入到浮动栅上，而不需要使用隧道装置，例如使用雪崩注入。 第一电路耦合到浮动栅极，用于在输出端产生输出电压。 电平移位电路具有耦合在输出端子和第一隧道电极之间的第二隧道装置。 第二隧道装置用于跟踪连接到浮动栅极的第一隧道装置的特性的变化。 电平移位电路电平将浮动栅极电路的输出移动到使得能够在设定模式期间使与浮动栅极耦合的隧道器件将浮动栅极精确地设置为期望电压的电压。

公开(公告)号：US07207606B2

公开(公告)日：2007-04-24

申请号：US10827159

申请日：2004-04-19

申请人： William H. Owen ,  William W. Holmes, IV ,  Daniel A. Copeland

发明人： William H. Owen ,  William W. Holmes, IV ,  Daniel A. Copeland

IPC分类号： F16L19/06 ,  F16L19/08

CPC分类号： F16L21/04 ,  F16L21/08 ,  F16L47/12 ,  Y10S285/91

摘要： A mechanical pipe joint, restraining gasket, and method for restraining pipe spigots within adjacent bell sockets. The restraining gasket is composed of two axially-separate components: a sealing portion and a restraining portion made of a plurality of arcuate locking members. The restraining gasket and a gland surround an outer surface of the pipe spigot. The mechanical pipe joint is formed as the pipe spigot is inserted into the bell socket and the gland is axially attached to the bell socket so that the restraining gasket is held between: the gland, an inner surface of the bell socket, and the outer surface of the pipe spigot, so as to provide a fluid seal in the joint and urge the locking members into contact with the outer surface of the pipe spigot, axially restraining the pipe spigot within the bell socket.

摘要翻译： 机械管接头，限制垫圈，以及在相邻的喇叭口内限制管接头的方法。 限制垫片由两个轴向分离的部件组成：密封部分和由多个弓形锁定部件制成的约束部分。 限制垫圈和密封套围绕着管接头的外表面。 机械管接头形成为管插头插入钟形插座，并且压盖轴向地安装在钟形插座上，使得限制垫圈保持在：压盖，喇叭口的内表面和外表面之间 以在接头中提供流体密封，并且促使锁定构件与管接头的外表面接触，从而轴向地限制钟罩内的管接头。

公开(公告)号：US06867622B2

公开(公告)日：2005-03-15

申请号：US10338196

申请日：2003-01-07

申请人： William H. Owen

发明人： William H. Owen

IPC分类号： G11C16/10 ,  G11C27/00 ,  H01L21/8247 ,  H01L27/115 ,  H01L29/423 ,  H01L29/788 ,  H03K5/153 ,  H03K5/22

CPC分类号： H01L27/11521 ,  G11C16/10 ,  G11C27/005 ,  H01L27/115 ,  H01L27/11517 ,  H01L27/11558 ,  H01L29/42328 ,  H01L29/7883

摘要： A method and apparatus for setting a floating gate in a floating gate circuit using dual conduction of Fowler-Nordheim tunnel devices is disclosed. In one embodiment, the present invention comprises a floating gate circuit having a single floating gate. During a set mode, the charge level on the floating gate is modified until it is set to a predetermined charge level that is a function of an input set voltage. In another embodiment, the floating gate circuit comprises two floating gates. During a set mode the charge level on each of the floating gates is modified until the difference in charge level between the two floating gates is a predetermined function of an input set voltage that is capacitively coupled to one of the floating gates during the set mode.

摘要翻译： 公开了一种使用Fowler-Nordheim隧道装置的双重传导来设置浮动栅极电路中的浮动栅极的方法和装置。 在一个实施例中，本发明包括具有单个浮动栅极的浮动栅极电路。 在设定模式期间，浮动栅极上的充电电平被修改直到其被设置为作为输入设定电压的函数的预定充电电平。 在另一个实施例中，浮动栅极电路包括两个浮动栅极。 在设定模式期间，修改每个浮动栅极上的电荷电平，直到两个浮置栅极之间的电荷电平差异是在设定模式期间电容耦合到浮动栅极之一的输入设定电压的预定函数。

公开(公告)号：US06847551B2

公开(公告)日：2005-01-25

申请号：US10353403

申请日：2003-01-28

申请人： William H. Owen

发明人： William H. Owen

IPC分类号： G11C16/04 ,  G11C16/34 ,  G11C27/00 ,  H01L20060101

CPC分类号： G11C16/3468 ,  G11C16/0408 ,  G11C27/005

摘要： An apparatus for using feedback to set a floating gate to a desired voltage during a set mode is disclosed. The apparatus includes a floating gate, a first and second tunnel device formed respectively between the floating gate and a first and second electrode, a first circuit coupled to the floating gate for comparing the voltage on the floating gate to a third voltage and for generating an output voltage at an output terminal, and a feedback circuit coupled between the output terminal and the floating gate. The feedback circuit includes the first tunnel device and a third tunnel device for causing the floating gate voltage to be modified as a function the output voltage until the floating gate voltage, the third voltage and the output voltage are approximately equal.

摘要翻译： 公开了一种在设定模式期间使用反馈来将浮动栅极设置为期望电压的装置。 该装置包括浮动栅极，分别形成在浮动栅极和第一和第二电极之间的第一和第二隧道装置，耦合到浮动栅极的第一电路，用于将浮动栅极上的电压与第三电压进行比较， 输出端子处的输出电压，以及耦合在输出端子和浮动栅极之间的反馈电路。 反馈电路包括第一隧道装置和第三隧道装置，用于使浮动栅极电压作为直到浮置栅极电压，第三电压和输出电压近似相等的输出电压的函数来修改。

公开(公告)号：US5161157A

公开(公告)日：1992-11-03

申请号：US802005

申请日：1991-11-27

申请人： William H. Owen ,  John Caywood ,  Joseph Drori ,  James Jaffe ,  Isao Nojima ,  Jeffrey Sung ,  Ping Wang

发明人： William H. Owen ,  John Caywood ,  Joseph Drori ,  James Jaffe ,  Isao Nojima ,  Jeffrey Sung ,  Ping Wang

IPC分类号： G06F11/00 ,  G11C29/00

CPC分类号： G11C29/789 ,  G06F11/006 ,  G11C29/835 ,  G11C29/838

摘要： A field-programmable redundancy apparatus for integrated circuit semiconductor memory arrays is disclosed. The present invention allows the user to replace a defective memory cell with a redundant memory cell while the integrated circuit memory array is in the field. The user communicates with the redundancy apparatus over standard signal paths of the integrated circuit semiconductor memory array and with standard voltage levels. The redundancy apparatus detects a predetermined code sequence on one or more of the address and data lines of the memory array to enter a special redundancy-reconfiguration mode. In the reconfiguration mode, the redundancy apparatus provides information on the availability and functionality of the redundant memory cells and enables the user to replace a defective memory cell with a selected redundant memory cell. The field-programmable redundancy apparatus may comprise nonvolatile memory means, such as EEPROM's, to store the replacements of primary memory cells with redundant memory cells. In the reconfiguration mode, detection of a second predetermined code sequence causes the reconfiguration mode to be exited.

摘要翻译： 公开了一种用于集成电路半导体存储器阵列的现场可编程冗余装置。 本发明允许用户在集成电路存储器阵列处于现场时用冗余存储器单元替换有缺陷的存储单元。 用户通过集成电路半导体存储器阵列的标准信号路径与标准电压电平与冗余设备进行通信。 冗余设备在存储器阵列的一个或多个地址和数据线上检测预定的代码序列，以进入特殊的冗余重新配置模式。 在重新配置模式中，冗余设备提供关于冗余存储器单元的可用性和功能的信息，并且使得用户能够用所选择的冗余存储器单元来替换有缺陷的存储器单元。 现场可编程冗余设备可以包括非易失性存储器装置，例如EEPROM，用于存储具有冗余存储器单元的主存储器单元的替换。 在重新配置模式中，第二预定代码序列的检测导致重新配置模式被退出。