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    • 3. 发明申请
    • AUTONOMOUS FILTER ELEMENT
    • 自动过滤器元件
    • US20100237013A1
    • 2010-09-23
    • US12699996
    • 2010-02-04
    • Aaron BurkeAnthony DiLeoTimothy O'Brien
    • Aaron BurkeAnthony DiLeoTimothy O'Brien
    • B01D61/22B01D35/18B01D35/14B01D35/143
    • B01D53/22B01D61/22B01D63/08B01D65/02B01D65/08B01D2311/103B01D2311/16B01D2313/22B01D2321/40G01F1/6888G01F1/69G01F15/125
    • An autonomous filter device and a method for improving the filter life and performance is disclosed. The filter element is equipped with one or more sensors, adapted to measure one or more characteristics or parameters of the fluid, such as temperature, pressure, or flow rate. In response to the measured characteristic or parameter, the control logic within the filter element is able to determine an appropriate response. For example, the control logic may determine that a sudden, but temporary, blockage has occurred in the filter membrane. In response to this, the control logic may initiate a specific response designed to alleviate the blockage. This response may be a temperature change, a vibration, a change in fluid flow path, or some other action. The control logic will then determine the success of the response, based monitoring any change in the fluid characteristics. Based thereon, the control logic may alert the operator that the filter element must be replaced. Alternatively, if the response was successful in correcting the blockage, the control logic need not notify the operator, as the filter element is back to normal operating operation.
    • 公开了一种自主的过滤装置和用于提高过滤器寿命和性能的方法。 过滤元件配备有一个或多个传感器,适于测量流体的一个或多个特性或参数,例如温度,压力或流速。 响应于测量的特性或参数,滤波器元件内的控制逻辑能够确定适当的响应。 例如,控制逻辑可以确定在过滤膜中已经发生突然而暂时的堵塞。 响应于此,控制逻辑可以发起旨在减轻阻塞的特定响应。 该响应可能是温度变化,振动,流体流动路径的变化或某些其他动作。 然后,控制逻辑将确定响应的成功,基于监测流体特性的任何变化。 基于此,控制逻辑可以警告操作者必须更换过滤元件。 或者,如果响应成功地纠正堵塞,则控制逻辑不需要通知操作者,因为过滤器元件已经回到正常的操作操作。
    • 5. 发明申请
    • Autonomous Filter Element
    • 自动过滤元件
    • US20120318738A1
    • 2012-12-20
    • US13584032
    • 2012-08-13
    • Aaron BurkeAnthony DiLeoTimothy O'Brien
    • Aaron BurkeAnthony DiLeoTimothy O'Brien
    • B01D65/08B01D35/18G08B21/00B01D35/14
    • B01D53/22B01D61/22B01D63/08B01D65/02B01D65/08B01D2311/103B01D2311/16B01D2313/22B01D2321/40G01F1/6888G01F1/69G01F15/125
    • An autonomous filter device and a method for improving the filter life and performance is disclosed. The filter element is equipped with one or more sensors, adapted to measure one or more characteristics. In response to the measured characteristic, the control logic within the filter element is able to determine an appropriate response. For example, the control logic may determine that a sudden, but temporary, blockage has occurred in the filter membrane. In response, the control logic may initiate a specific response designed to alleviate the blockage. The control logic will then determine the success of the response, based monitoring any change in the fluid characteristics. Based thereon, the control logic may alert the operator that the filter element must be replaced. Alternatively, if the response was successful in correcting the blockage, the control logic need not notify the operator, as the filter element is back to normal operating operation.
    • 公开了一种自主的过滤装置和改善过滤器寿命和性能的方法。 过滤器元件配备有适于测量一个或多个特性的一个或多个传感器。 响应于测量的特性,滤波器元件内的控制逻辑能够确定适当的响应。 例如,控制逻辑可以确定在过滤膜中已经发生突然而暂时的堵塞。 作为响应,控制逻辑可以启动旨在减轻阻塞的特定响应。 然后,控制逻辑将确定响应的成功,基于监测流体特性的任何变化。 基于此,控制逻辑可以警告操作者必须更换过滤元件。 或者,如果响应成功地纠正堵塞,则控制逻辑不需要通知操作者,因为过滤器元件已经回到正常的操作操作。
    • 6. 发明授权
    • Biocontainer with integrated temperature sensor
    • 具有集成温度传感器的生物容器
    • US08955340B2
    • 2015-02-17
    • US12685952
    • 2010-01-12
    • Aaron BurkeMichael FeloBrian PereiraElias NoukasDennis Wong
    • Aaron BurkeMichael FeloBrian PereiraElias NoukasDennis Wong
    • F25D25/00B65B63/08F25D3/08F25D29/00A01N1/02
    • F25D29/00A01N1/0263F25D2331/802F25D2400/28F25D2400/30F25D2600/06F25D2700/12Y10T29/53
    • The biocontainer of the present invention provides a low cost, simple solution of many of the problems encountered during shipping, freezing and thawing of biopharmaceutical materials. The present invention enables a user to monitor the temperature profile of each biopharmaceutical container during the cryogenic process, so as to ensure the integrity of materials within each biocontainer by using a pre-installed and pre-sterilized temperature sensor. In some embodiments, the sensor assembly includes a wireless transmitter and is capable of transmitting information regarding the measured reading. In other embodiments, the sensor assembly includes a processing unit, which determines whether the temperature profile is acceptable. In a further embodiment, an indicator is included, such that the processing unit may indicate whether the biopharmaceutical material has been properly frozen. In other embodiments, the sensor assembly also includes a storage element, which is capable of storing various parameters during the freezing process.
    • 本发明的生物容器提供了在生物药物材料的运输,冷冻和解冻期间遇到的许多问题的低成本,简单的解决方案。 本发明使得用户能够在低温过程期间监测每个生物药物容器的温度曲线,以便通过使用预先安装和预灭菌的温度传感器来确保每个生物容器内的材料的完整性。 在一些实施例中,传感器组件包括无线发射器,并且能够发送关于测量读数的信息。 在其他实施例中,传感器组件包括处理单元,其确定温度分布是否可接受。 在另一实施例中,包括指示器,使得处理单元可以指示生物药物材料是否已被适当地冷冻。 在其他实施例中,传感器组件还包括存储元件,其能够在冷冻过程期间存储各种参数。
    • 9. 发明授权
    • Antenna gasket for process housings
    • 工艺外壳天线垫圈
    • US07969380B2
    • 2011-06-28
    • US13020914
    • 2011-02-04
    • Aaron BurkeMichael Joens
    • Aaron BurkeMichael Joens
    • H01Q1/42
    • H01Q9/16B01D29/52B01D46/4245B01D46/429B01D2201/34B01D2201/56B01D2271/02H01Q1/22H01Q1/2216H01Q1/40H01Q1/50
    • A method and apparatus for providing wireless communication and optionally power to the interior of a housing assembly is disclosed. In one embodiment, an antenna is molded within a gasket material, such as silicon, so as to be completely encapsulated. The gasket preferably includes at least one support arm, which holds the antenna toward the middle of the housing, so as to minimize interference from the metal housing. In further embodiments, an inductive coil is encapsulated in the gasket. An alternating current is passed through this coil to create a changing magnetic field, which can then be used to create electrical power in physically separate components, such as filtering elements. In certain embodiments, multiple loops are molded to correspond to multiple filtering elements within the housing.
    • 公开了一种用于向壳体组件的内部提供无线通信和可选地供电的方法和装置。 在一个实施例中,将天线模制在衬垫材料(例如硅)内,以便被完全封装。 垫片优选地包括至少一个支撑臂,其将天线朝向壳体的中间保持,以便最小化来自金属壳体的干扰。 在另外的实施例中,感应线圈封装在垫圈中。 交流电流通过该线圈以产生变化的磁场,其然后可用于在物理上分离的部件(例如过滤元件)中产生电力。 在某些实施例中,模制多个环以对应于壳体内的多个过滤元件。