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    • 22. 发明授权
    • Integrated pulse oximetry sensor
    • 集成脉搏血氧饱和度传感器
    • US08315682B2
    • 2012-11-20
    • US11720887
    • 2005-12-05
    • Olaf SuchJosef LauterRobert PinterJens Muehlsteff
    • Olaf SuchJosef LauterRobert PinterJens Muehlsteff
    • A61B5/1455
    • A61B5/14552A61B5/6826A61B5/6838G01N21/3151G01N21/35G01N2021/3133G01N2021/3144G01N2201/062G01N2201/0623G01N2201/0625G01N2201/0627
    • In a medical pulse oximetry sensor (10) at least two light emitting diodes (16, 18) are disposed to emit red light and infrared light through a portion of a subject's anatomy with a typically high oxygenated blood throughput. Typically, this area is also relatively narrow, to allow the light to pass through the area with acceptable attenuation, such as a finger or an earlobe. Light emitted from the LEDs (16, 18) is incumbent upon an integrated circuit (22) printed from a single CMOS substrate (21). The integrated circuit (22) includes all preprocessing and post-processing elements needed to convert the detected light signals into a pulse oximetry measurement. These elements include a photodetector (20), a photo pre-amplifier (40), a sampler/holder (42), an analog to digital converter (44), a microprocessor (46) a rangefinder (48), a timing control circuit (50) and an LED control circuit (52). By integrating all pre and post processing functions into the carriage housing (12), the system becomes more efficient, less expensive to manufacture, and more robust to ambient light and x-ray radiation.
    • 在医疗脉搏血氧饱和度传感器(10)中,设置至少两个发光二极管(16,18)以通过具有典型高氧合血液吞吐量的受试者解剖结构的一部分发射红光和红外光。 通常,该区域也相对较窄,以允许光以可接受的衰减(例如手指或耳垂)穿过该区域。 从LED(16,18)发射的光在由单个CMOS衬底(21)印刷的集成电路(22)上。 集成电路(22)包括将检测到的光信号转换成脉搏血氧测量测量所需的所有预处理和后处理元件。 这些元件包括光电检测器(20),光前置放大器(40),采样器/保持器(42),模数转换器(44),微处理器(46)测距仪(48),定时控制电路 (50)和LED控制电路(52)。 通过将所有前后处理功能集成到滑架壳体(12)中,系统变得更加高效,制造成本更低,并且对环境光和x射线辐射更加坚固。
    • 25. 发明申请
    • Patient Monitoring System and Method
    • 患者监护系统及方法
    • US20080208063A1
    • 2008-08-28
    • US11915751
    • 2006-06-01
    • Andreas BrauersOlaf SuchJens MuehlsteffHarald Reiter
    • Andreas BrauersOlaf SuchJens MuehlsteffHarald Reiter
    • A61B5/0408A61B5/113
    • A61B5/6892A61B5/04085A61B5/113A61B2562/0209A61B2562/046A61B2562/182
    • The present invention relates to a patient monitoring system for monitoring cardio pulmonary performance or the like by means of capacitive measurement. Further the invention relates to a method for monitoring cardio pulmonary performance or the like by means of a capacitive measurement. In order to provide a reliable technique for monitoring cardio pulmonary performance or the like, which technique is particularly suitable for home use, a patient monitoring system (1) for monitoring cardio pulmonary performance or the like by means of capacitive measurement is suggested, said system (1) comprising a number of electrodes (2) arranged in the form of a matrix (3), said electrodes (2) being adapted to be integrated with a bed (4) or the like, each electrode (2) being individually selectable, means (5) for determining a number of electrodes (2) depending on the position of the patient on the bed (4) or the like, said means (5) being adapted to determine the number of electrodes (2) by determining the capacitance of a number of electrodes (2), and means (5) for selecting a number of said determined electrodes (2) for carrying out a capacitive measurement.
    • 本发明涉及通过电容测量来监测心肺功能等的患者监视系统。 此外,本发明涉及一种通过电容测量来监测心肺功能等级的方法。 为了提供用于监测心肺功能等的可靠技术,该技术特别适合于家庭使用,建议通过电容测量来监测心肺功能等的患者监视系统(1),所述系统 (1)包括以矩阵(3)的形式布置的多个电极(2),所述电极(2)适于与床(4)等集成,每个电极(2)可单独选择 ,用于根据患者在床(4)等上的位置来确定电极(2)的数量的装置(5),所述装置(5)适于通过确定电极(2)的数量来确定电极 多个电极(2)的电容和用于选择用于进行电容测量的所述确定的电极(2)的数量的装置(5)。
    • 27. 发明申请
    • Garment Comprising At Least One Dry Electrode
    • 至少包含干电极的服装
    • US20080208029A1
    • 2008-08-28
    • US11817925
    • 2006-03-01
    • Jeroen ThijsOlaf SuchJens MuehlsteffRalf Schmidt
    • Jeroen ThijsOlaf SuchJens MuehlsteffRalf Schmidt
    • A61B5/048
    • A61B5/04085A61B5/6804
    • It is an object of the invention to provide a user-friendly monitoring system with improved measurement quality, which is suitable for home use. This object is achieved according to the invention by a garment (1) comprising at least one dry electrode (2, 3, 4) for use with a monitoring system for monitoring physiological parameters of a recipient, the electrode (2, 3, 4) having a working surface which is to be brought into contact with the recipient's skin, characterized in that the working surface is automatically positioned at a point of close skin contact with a natural sweat layer present, if the garment (1) is worn by the recipient. The basic principle underlying the invention is that the position of the electrodes (2, 3, 4) on the body has an impact on the acquired signal quality. Therefore, it is an idea of the invention to arrange dry electrodes in positions of the garment (1) where close body contact is automatically obtained and a natural sweat layer is present, if the garment is worn. Because a natural sweat layer is already present around the armpit, the operability of the electrode (2, 3, 4) is given automatically, if it is located in the armpit area (10).
    • 本发明的目的是提供一种适合家庭使用的,具有改进的测量质量的用户友好的监控系统。 根据本发明,该目的通过包括至少一个干电极(2,3,4)的衣服(1)实现,所述干电极用于与用于监测接受者的生理参数的监视系统一起使用,所述电极(2,3,4) 具有与受体的皮肤接触的工作表面,其特征在于,如果服装(1)被接受者佩戴,则工作表面自动地定位在与存在的天然汗水层紧密皮肤接触的点处 。 本发明的基本原理是电极(2,3,4)在机体上的位置对所获取的信号质量有影响。 因此,本发明的目的在于,如果服装被穿着,则将干燥电极放置在衣服(1)的位置,其中自动获得亲密的身体接触并且存在自然的汗液层。 因为腋窝周围已经存在天然的汗液层,所以如果位于腋窝区域(10)中,则电极(2,3,4)的可操作性被自动地给予。