公开(公告)号：US07933689B2

公开(公告)日：2011-04-26

申请号：US12752837

申请日：2010-04-01

Applicant: Donald Warren ,  John Smith

Inventor： Donald Warren ,  John Smith

IPC: G05D3/12 ,  G05D5/00 ,  G05D9/00 ,  G05D11/00 ,  G05D17/00 ,  G06F1/00 ,  H02J1/10 ,  H02J3/14 ,  H02J7/00

CPC classification number: H02J9/06 ,  Y10T307/344 ,  Y10T307/391 ,  Y10T307/615 ,  Y10T307/62

Abstract: A method for controlling at least one load connected to a primary and a backup power supply having sensor for sensing a voltage on the primary power supply with a first voltage sensor; sensor for sensing a voltage on the backup power supply with a second voltage sensor and implementing a control algorithm in a controller to augment power from said primary power supply with power from the backup power supply in response to an input from the first and second voltage sensors and an input from at least one external sensor wherein the algorithm controls a switch between the at least one load and the primary and backup power supplies.

Abstract translation: 一种用于控制连接到具有用于利用第一电​​压传感器感测主电源上的电压的传感器的主电源和备用电源的至少一个负载的方法; 传感器，用于利用第二电压传感器感测备用电源上的电压，并且在控制器中实施控制算法，以响应于来自第一和第二电压传感器的输入，从来自备用电源的功率增加来自所述主电源的电力 以及来自至少一个外部传感器的输入，其中所述算法控制所述至少一个负载与所述主电源和备用电源之间的切换。

公开(公告)号：US07720576B2

公开(公告)日：2010-05-18

申请号：US11943721

申请日：2007-11-21

Applicant: Donald Warren ,  John Smith

Inventor： Donald Warren ,  John Smith

IPC: G05D3/12 ,  G05D5/00 ,  G05D9/00 ,  G05D11/00 ,  G05D17/00 ,  G05B9/02 ,  G06F1/26 ,  G06F1/32 ,  H02P27/00 ,  G08B1/00

CPC classification number: H02J9/06 ,  Y10T307/344 ,  Y10T307/391 ,  Y10T307/615 ,  Y10T307/62

Abstract: An intelligent auxiliary power supply system for supplying power to a load such as a furnace or air handler using a rechargeable power source. An intelligent controller determines appropriate periods for switching to auxiliary power, thus allowing the user to realize increased energy related cost savings. A plurality of sensors including a current transducer, an indoor and outdoor temperature sensor, and a clock transmit information to the intelligent controller. Implementing user configured algorithms, the intelligent controller continuously compares information transmitted from said sensors and said load, to information inputted by the user via an electronic device to determine the appropriate power configuration. A remote electronic device may also be connected to the system, allowing the user to control the system while not in close proximity to said system and also allowing the user's energy provider to send requests to switch to auxiliary power.

Abstract translation: 一种智能辅助电源系统，用于使用可充电电源向诸如炉子或空气处理器的负载供电。 智能控制器确定切换到辅助电源的适当周期，从而允许用户实现增加的能源相关成本节省。 多个传感器，包括电流传感器，室内和室外温度传感器，以及时钟发送信息到智能控制器。 实施用户配置的算法，智能控制器将从所述传感器发送的信息和所述负载连续地比较由用户通过电子设备输入的信息，以确定适当的功率配置。 远程电子设备也可以连接到系统，允许用户在不与所述系统非常接近的情况下控制系统，并且还允许用户的能量提供者发送切换到辅助电源的请求。

公开(公告)号：US07389159B2

公开(公告)日：2008-06-17

申请号：US11371751

申请日：2006-03-09

Applicant: Donald Warren ,  John Smith

Inventor： Donald Warren ,  John Smith

IPC: G06F19/00 ,  G05D23/00 ,  G05D11/00

CPC classification number: G05D23/1924

Abstract: A method for controlling fossil fuel fired heating systems according to an improved adaptive cyclical control method when operating on backup (auxiliary DC) electrical power. Battery life is prolonged when used in conjunction with such improved method. Operating characteristics of the heating equipment and home or building being heated are monitored and stored in electronic memory during normal periods of operation when grid power is available. These characteristics are used to create control algorithms that are in turn specific to the system, as defined by the heating equipment and conditioned space. When the grid power is lost the control algorithms select the optimal heating mode, determine optimal cycle duration, and estimate the time to exhaustion of the remaining backup power.Operation is divided into sequential modes. When a prolonged low voltage period is detected, the backup power control initiates a short-term preliminary energy conservation mode. As the outage persists, the control transitions to intermediate and long-term energy conservation modes until the backup power is exhausted or grid power is restored.

Abstract translation: 根据备用（辅助DC）电力运行时的改进的自适应循环控制方法，控制化石燃料燃烧加热系统的方法。 当与这种改进的方法结合使用时，电池寿命延长。 供电设备和被加热的家庭或建筑物的运行特性在电力可用时的正常运行期间被监控并存储在电子存储器中。 这些特征用于创建控制算法，这些控制算法又依赖于由加热设备和空调空间定义的系统特定的控制算法。 当电网电源丢失时，控制算法选择最佳加热模式，确定最佳循环持续时间，并估计耗尽剩余备用电源的时间。 操作分为顺序模式。 当检测到长时间的低电压周期时，备用电源控制启动短期的初步节能模式。 随着停电仍然存在，控制转变为中期和长期节能模式，直到备用电力耗尽或电网电力恢复。

公开(公告)号：US20070213876A1

公开(公告)日：2007-09-13

申请号：US11371751

申请日：2006-03-09

Applicant: Donald Warren ,  John Smith

Inventor： Donald Warren ,  John Smith

IPC: G05D23/00

CPC classification number: G05D23/1924

Abstract: A method for controlling fossil fuel fired heating systems according to an improved adaptive cyclical control method when operating on backup (auxiliary DC) electrical power. Battery life is prolonged when used in conjunction with such improved method. Operating characteristics of the heating equipment and home or building being heated are monitored and stored in electronic memory during normal periods of operation when grid power is available. These characteristics are used to create control algorithms that are in turn specific to the system, as defined by the heating equipment and conditioned space. When the grid power is lost the control algorithms select the optimal heating mode, determine optimal cycle duration, and estimate the time to exhaustion of the remaining backup power. Operation is divided into sequential modes. When a prolonged low voltage period is detected, the backup power control initiates a short-term preliminary energy conservation mode. As the outage persists, the control transitions to intermediate and long-term energy conservation modes until the backup power is exhausted or grid power is restored.

Abstract translation: 根据备用（辅助DC）电力运行时的改进的自适应循环控制方法，控制化石燃料燃烧加热系统的方法。 当与这种改进的方法结合使用时，电池寿命延长。 供电设备和被加热的家庭或建筑物的运行特性在电力可用时的正常运行期间被监控并存储在电子存储器中。 这些特征用于创建控制算法，这些控制算法又依赖于由加热设备和空调空间定义的系统特定的控制算法。 当电网电源丢失时，控制算法选择最佳加热模式，确定最佳循环持续时间，并估计耗尽剩余备用电源的时间。 操作分为顺序模式。 当检测到长时间的低电压周期时，备用电源控制启动短期的初步节能模式。 随着停电仍然存在，控制转变为中期和长期节能模式，直到备用电力耗尽或电网电力恢复。

公开(公告)号：US20100191387A1

公开(公告)日：2010-07-29

申请号：US12752837

申请日：2010-04-01

Applicant: Donald Warren ,  John Smith

Inventor： Donald Warren ,  John Smith

IPC: H02J4/00

CPC classification number: H02J9/06 ,  Y10T307/344 ,  Y10T307/391 ,  Y10T307/615 ,  Y10T307/62

Abstract: An intelligent auxiliary power supply system for supplying power to a load such as a furnace or air handler using a rechargeable power source. An intelligent controller determines appropriate periods for switching to auxiliary power, thus allowing the user to realize increased energy related cost savings. A plurality of sensors including a current transducer, an indoor and outdoor temperature sensor, and a clock transmit information to the intelligent controller. Implementing user configured algorithms, the intelligent controller continuously compares information transmitted from said sensors and said load, to information inputted by the user via an electronic device to determine the appropriate power configuration. A remote electronic device may also be connected to the system, allowing the user to control the system while not in close proximity to said system and also allowing the user's energy provider to send requests to switch to auxiliary power.

Abstract translation: 一种智能辅助电源系统，用于使用可充电电源向诸如炉子或空气处理器的负载供电。 智能控制器确定切换到辅助电源的适当周期，从而允许用户实现增加的能源相关成本节省。 多个传感器，包括电流传感器，室内和室外温度传感器，以及时钟发送信息到智能控制器。 实施用户配置的算法，智能控制器将从所述传感器发送的信息和所述负载连续地比较由用户通过电子设备输入的信息，以确定适当的功率配置。 远程电子设备也可以连接到系统，允许用户在不与所述系统非常接近的情况下控制系统，并且还允许用户的能量提供者发送切换到辅助电源的请求。

公开(公告)号：US20090127932A1

公开(公告)日：2009-05-21

申请号：US11943721

申请日：2007-11-21

Applicant: Donald Warren ,  John Smith

Inventor： Donald Warren ,  John Smith

IPC: H02J9/00

CPC classification number: H02J9/06 ,  Y10T307/344 ,  Y10T307/391 ,  Y10T307/615 ,  Y10T307/62

Abstract: An intelligent auxiliary power supply system for supplying power to a load such as a furnace or air handler using a rechargeable power source. An intelligent controller determines appropriate periods for switching to auxiliary power, thus allowing the user to realize increased energy related cost savings. A plurality of sensors including a current transducer, an indoor and outdoor temperature sensor, and a clock transmit information to the intelligent controller. Implementing user configured algorithms, the intelligent controller continuously compares information transmitted from said sensors and said load, to information inputted by the user via an electronic device to determine the appropriate power configuration. A remote electronic device may also be connected to the system, allowing the user to control the system while not in close proximity to said system and also allowing the user's energy provider to send requests to switch to auxiliary power.

Abstract translation: 一种智能辅助电源系统，用于使用可充电电源向诸如炉子或空气处理器的负载供电。 智能控制器确定切换到辅助电源的适当周期，从而允许用户实现增加的能源相关成本节省。 多个传感器，包括电流传感器，室内和室外温度传感器，以及时钟发送信息到智能控制器。 实施用户配置的算法，智能控制器将从所述传感器发送的信息和所述负载连续地比较由用户通过电子设备输入的信息，以确定适当的功率配置。 远程电子设备也可以连接到系统，允许用户在不与所述系统非常接近的情况下控制系统，并且还允许用户的能量提供者发送切换到辅助电源的请求。

公开(公告)号：US20140174847A1

公开(公告)日：2014-06-26

申请号：US14139030

申请日：2013-12-23

Applicant: John Smith

Inventor： John Smith

IPC: H04R1/02

CPC classification number: H04R1/02 ,  H04R1/026 ,  H04R1/2846 ,  H04R1/2884

Abstract: A speaker enclosure and method of building same is provided for redirecting standing waves outside the enclosure. The enclosure includes an exterior and an interior comprised of a body having six interior surfaces defining the interior. One of the surfaces has a speaker opening and another of the surfaces has a tuned port opening and defines four corners opposite the speaker opening. An element having an acoustically reflective surface faces the interior and is positioned in a plane that intersects and is inclined with respect to each of the interior surfaces that form the corner. A handle system that includes an attachment means is mounted to the exterior of the enclosure. A rotatable and detachable handle is mounted to the attachment means.

Abstract translation: 提供一种扬声器外壳及其构造方法，用于将驻波重定向在外壳外部。 外壳包括外部和内部，其由具有限定内部的六个内表面的主体构成。 一个表面具有扬声器开口，另一个表面具有调谐端口开口，并且限定与扬声器开口相对的四个角。 具有声反射表面的元件面向内部并且位于与形成角部的每个内表面相交并相对于每个内表面倾斜的平面中。 包括附接装置的把手系统安装在外壳的外部。 可旋转和可拆卸的手柄安装到附接装置。

公开(公告)号：US08618798B2

公开(公告)日：2013-12-31

申请号：US12935202

申请日：2009-03-27

Applicant: Samuel Somasundaram ,  Andreas Jakobsson ,  Michael Rowe ,  John Smith ,  Naveed Razzaq Butt ,  Erik Gudmundson ,  Kaspar Althoefer

Inventor： Samuel Somasundaram ,  Andreas Jakobsson ,  Michael Rowe ,  John Smith ,  Naveed Razzaq Butt ,  Erik Gudmundson ,  Kaspar Althoefer

IPC: G01V3/00

CPC classification number: G01R33/441 ,  G01N24/08 ,  G01N24/10 ,  G01R33/4616 ,  G01R33/4625 ,  G01R33/5608

Abstract: A method of testing a sample comprising the steps of: applying an excitation to the sample; detecting a response signal from the sample; processing a first part and a second part of the response signal; and determining from the second part of the response signal information with which to enhance the first part of the response signal.

Abstract translation: 一种测试样品的方法，包括以下步骤：向样品施加激发; 检测来自样品的响应信号; 处理响应信号的第一部分和第二部分; 并从响应信号的第二部分确定用于增强响应信号的第一部分的信息。

公开(公告)号：US08574000B1

公开(公告)日：2013-11-05

申请号：US13455252

申请日：2012-04-25

Applicant: John Smith

Inventor： John Smith

IPC: H01R13/58

CPC classification number: H01R13/562 ,  H01R13/501 ,  H01R24/64

Abstract: A protective sleeve disposed around a cable and a connector which are connected includes a cable sleeve and a plurality of resilient elements. The cable sleeve includes a bushing, a first ring, and a second ring. The front of the bushing is connected to the connector. The first ring and the second ring are disposed around the cable. The resilient elements are formed by extending the second ring and spaced apart from each other to form an opening for penetration by the cable. The caliber of the opening is less than the caliber of the second ring. Accordingly, the resilient elements are conducive to the positioning of the cable while the cable is penetrating the rings.

Abstract translation: 连接在电缆和连接器周围的保护套包括电缆套和多个弹性元件。 电缆套管包括衬套，第一环和第二环。 衬套的前部连接到连接器。 第一环和第二环设置在电缆周围。 弹性元件通过延伸第二环并彼此间隔开以形成用于穿过电缆的开口而形成。 开口的口径小于第二圈的口径。 因此，当电缆穿透环时，弹性元件有利于电缆的定位。

公开(公告)号：US07897049B2

公开(公告)日：2011-03-01

申请号：US11749448

申请日：2007-05-16

Applicant: Rajat S. Ghosh ,  Dennis Fulmer ,  Kevin Kitzman ,  John Smith

Inventor： Rajat S. Ghosh ,  Dennis Fulmer ,  Kevin Kitzman ,  John Smith

IPC: C02F1/62 ,  C02F1/70 ,  C02F101/18 ,  C02F101/22

CPC classification number: C02F1/705 ,  C02F1/283 ,  C02F1/286 ,  C02F2101/103 ,  C02F2101/18 ,  C02F2101/22 ,  C02F2103/16 ,  C02F2209/04 ,  Y10S210/904 ,  Y10S210/911 ,  Y10S210/912 ,  Y10S210/913

Abstract: Systems and associated methods for treating contaminant-containing wastewater are provided. The systems generally include a reducing zone for reducing the oxidation-reduction potential of the water and a clean-up zone comprising zero valent iron for removing at least a portion of the contaminant from the contaminant-containing water. The systems are operable to remove one or more contaminants from the contaminant-containing water and are operable for extended durations without clogging due to the formation of iron hydroxides.

Abstract translation: 提供了处理含污染废水的系统和相关方法。 该系统通常包括用于降低水的氧化还原电位的还原区和包含用于从含污染物的水中去除至少一部分污染物的零价铁的净化区。 该系统可操作以从含污染物的水中除去一种或多种污染物，并且由于氢氧化铁的形成而可延长持续时间而不堵塞。