会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • ADJUSTABLE LENS SYSTEM FOR REAL-TIME APPLICATIONS
    • 可调镜头系统实时应用
    • WO2009077939A1
    • 2009-06-25
    • PCT/IB2008/055205
    • 2008-12-10
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.SUIJVER, Jan, F.HALL, Christopher, S.FERNANDEZ, Anna, T.KUIPER, SteinSHI, Yan, S.
    • SUIJVER, Jan, F.HALL, Christopher, S.FERNANDEZ, Anna, T.KUIPER, SteinSHI, Yan, S.
    • G02B3/14
    • G02B3/14
    • An adjustable fluid type lens system is provided that allows e.g. ultrasound imaging through the lens during adjustment of the lens. The lens includes a container enclosing two immiscible fluids, e.g. water and oil, being in contact with each other at an interface. Incoming waves are then refracted at this interface. The shape of the interface, and thereby the refraction property, is adjustable by adjusting a voltage applied to the lens. The two fluids are selected such that they together exhibit a mechanical damping which is critical or near critical. A control circuit generates the electric voltage for adjusting the refraction from one value to another, the control circuit being arranged to change the electric voltage such that a rate of voltage change is limited to avoid oscillation of the interface, thereby adjusting refraction of incoming waves at the interface in a continuous manner. This makes it possible to use the lens while it is during adjustment from one refraction value to another, since the interface shape will at all time during the adjustment have a controlled shape. The voltage can be either a continuous voltage or a discrete stepwise (digital) voltage which is just controlled with respect to step size and temporal extension of the steps. The lens system has a number of applications e.g. within the medical field, e.g. for 'on the fly' high speed ultrasound imaging, or for ultrasound ablation applications where ablation can be performed during adjustment of the lens to follow a pre-defined trajectory.
    • 提供了一种可调节流体型透镜系统, 超声波成像通过透镜在调整镜片期间。 透镜包括容纳两个不混溶流体的容器,例如 水和油在界面处彼此接触。 然后在这个界面折射出来的波。 通过调节施加到透镜上的电压来调节界面的形状以及由此的折射特性。 选择两种流体使得它们一起显示出关键或近临界的机械阻尼。 控制电路产生用于将折射率从一个值调整到另一个值的电压,控制电路被布置成改变电压,使得电压变化率被限制以避免界面的振荡,由此调节入射波的折射 界面以连续的方式。 这使得可以在从一个折射值到另一个折射值的调整期间使用透镜,因为在调节期间的所有时间的界面形状都具有受控的形状。 电压可以是连续电压或离散的逐步(数字)电压,其仅仅相对于步长的步长和时间延长而被控制。 透镜系统具有许多应用,例如, 在医疗领域内。 用于“飞行”高速超声成像,或用于超声消融应用,其中可以在镜片调整期间执行消融以遵循预定轨迹。
    • 2. 发明申请
    • METHODS AND APPARATUSES OF APERTURE CONTROL AND MULTIPLEXING WITH ADJUSTABLE FLUID LENSES
    • 孔径控制和可调节流体镜的多路复用方法与装置
    • WO2008135896A1
    • 2008-11-13
    • PCT/IB2008/051626
    • 2008-04-28
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.FERNANDEZ, Anna, T.HALL, Christopher, S.SUIJVER, Jan, F.
    • FERNANDEZ, Anna, T.HALL, Christopher, S.SUIJVER, Jan, F.
    • G10K11/30
    • G10K11/30
    • An acoustic imaging system (1300) includes: an acoustic transducer (40); a plurality of variably-refracting acoustic lens elements (10) coupled to the acoustic transducer, a controller (1326) adapted to generate a plurality of control signals for electrodes (250, 260) of the variably-refracting acoustic lens elements (10); a multiplexer (1322) adapted to multiplex the control signals for the electrodes of the variably-refracting acoustic lens elements (10) to produce a multiplexed control signal; a decoder (1312) adapted to demultiplex the multiplexed control signal to produce the plurality of control signals for the electrodes (250, 260) of the variably-refracting acoustic lens elements (10); and a cable (1330) adapted to provide the multiplexed control signal from the multiplexer (1322) to the decoder (1312). The variably-refracting acoustic lens elements (10) are adapted, in response to control signals applied thereto, to adjust an effective aperture of the acoustic transducer (40) to have a selected aperture size.
    • 声学成像系统(1300)包括:声换能器(40); 耦合到声换能器的多个可变折射声透镜元件(10),适于产生可变折射声透镜元件(10)的电极(250,260)的多个控制信号的控制器(1326)。 多路复用器(1322),其适用于多路复用用于可变折射声透镜元件(10)的电极的控制信号以产生多路复用的控制信号; 解码器(1312),适于对多路复用控制信号进行解复用以产生用于可变折射声透镜元件(10)的电极(250,260)的多个控制信号; 以及适于将多路复用器(1322)的复用控制信号提供给解码器(1312)的电缆(1330)。 响应于施加到其上的控制信号,可变折射声透镜元件(10)适于调节声换能器(40)的有效孔径以具有所选择的孔径尺寸。
    • 4. 发明申请
    • ULTRASONIC ASSEMBLY WITH ADJUSTABLE FLUID LENS
    • 超声波组件与可调节流体镜
    • WO2009007900A2
    • 2009-01-15
    • PCT/IB2008/052716
    • 2008-07-07
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.HALL, Christopher, S.FERNANDEZ, Anna, T.SUIJVER, Jan, F.
    • HALL, Christopher, S.FERNANDEZ, Anna, T.SUIJVER, Jan, F.
    • A61B17/22
    • A61N7/022A61B2017/00243A61N2007/0056G10K11/30
    • An ultrasonic assembly suited for attachment to a catheter, e.g. for medical treatment. The ultrasonic assembly includes an adjustable ultrasonic focus mechanism arranged in connection with the ultrasonic transducer to adjust focus of ultrasonic waves generated by the transducer. The ultrasonic focus mechanism includes a fluid focus lens with at least two fluids separated by an interface such that ultrasonic waves are substantially reflected at the interface. At least two electrodes are arranged in connection with the fluid focus lens so as to allow adjustment of the interface shape, e.g. a curvature of the interface, when a voltage is applied to the electrodes. In preferred embodiments the electrodes are arranged so as to allow adjustment of the fluid focus lens in an elevation direction as well as in a radial direction. In simple embodiments with rotational symmetric geometry with the transducer positioned in the centre of the fluid focus lens, ultrasonic waves can be focused in an annular ring. This is e.g. suitable for ablative or coagulative necrotic treatment of human tissue, e.g. for atrial fibrillation treatment. In some embodiments, the assembly has a number of separate individually adjustable fluid focus lens compartments allowing a more detailed control of the ultrasonic focus pattern.
    • 适于附接到导管的超声波组件,例如 用于治疗。 超声波组件包括与超声波换能器连接布置的可调超声波聚焦机构,以调节由换能器产生的超声波的焦点。 超声波聚焦机构包括流体聚焦透镜,其中至少两个流体被界面分开,使得超声波在界面处被大体上反射。 至少两个电极被布置成与流体聚焦透镜相关联,以便允许调节界面形状,例如, 当向电极施加电压时,界面的曲率。 在优选实施例中,电极被布置成允许在高度方向以及径向方向上调整流体聚焦透镜。 在具有旋转对称几何形状的简单实施例中,换能器定位在流体聚焦透镜的中心,超声波可以聚焦在环形环中。 这是例如 适用于人体组织的消融或凝血坏死治疗,例如 用于心房颤动治疗。 在一些实施例中,组件具有许多单独可单独调节的流体聚焦透镜隔室,允许对超声波聚焦图案进行更详细的控制。
    • 10. 发明申请
    • HYDROGEL BASED SENSOR PROBE FOR DETECTING AN ENVIRONMENTAL STATE
    • 用于检测环境状态的基于HYDROGEL的传感器探测器
    • WO2008146212A1
    • 2008-12-04
    • PCT/IB2008/052019
    • 2008-05-22
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.HENDRIKS, Bernardus, H., W.DELADI, SzabolcsKURT, RalphSUIJVER, Jan, F.
    • HENDRIKS, Bernardus, H., W.DELADI, SzabolcsKURT, RalphSUIJVER, Jan, F.
    • G01N21/77
    • G01N21/7703A61B5/0084A61B5/14539G01N2021/772G01N2021/7723G01N2021/773G01N2021/7779
    • The invention relates to a sensor probe (100,110,120,130,140,150) for detecting an environmental state within a bodily lumen. The sensor probe (100,110,120,130,140,150) having an elongated body (9) comprises an optical guide (1) having an outcoupling surface (11),which is part of an end surface (3) of the elongated body (9), facing a reflective surface of an overhanging part (22,42,52,62), a photodetector which detects a property of light which is composed of light (32) in the optical guide (1) that is reflected from the outcoupling surface (11) of the optical guide (1) and of light (33) in the optical guide (1) that is reflected from the overhanging part (22,42,52,62), and a hydrogel material(2) of which a property changes when getting into contact with an environmental material and/or when detecting an environmental change, and which is provided between the end surface (3) of the elongated body (9)and the overhanging part (22,42,52,62). In this way a sensor probe (100,110,120,130,140,150) is provided that, because of its compactness, can be applied inside the bodily lumen for detecting and characterizing parameters that are vital indicators for the state of the human or animal body, and to which the hydrogel material (2) is responsive.
    • 本发明涉及一种用于检测体腔内的环境状态的传感器探针(100,110,120,130,140,​​150)。 具有细长主体(9)的传感器探针(100,110,130,140,​​150)包括具有外耦合表面(11)的光导(1),该外耦合表面(11)是细长主体(9)的端表面(3)的一部分,面向反射表面 突出部分(22,42,52,62)的光检测器,其检测由光导(1)中的光(32)组成的光的属性,所述光从光耦合表面(11)反射 在导光体(1)中从突出部分(22,42,52,62)反射的导光体(1)和光(33)以及在接触时性质发生变化的水凝胶材料(2) 和环境材料和/或当检测到环境变化时,并且设置在细长体(9)的端面(3)与伸出部分(22,42,52,62)之间。 以这种方式,提供传感器探针(100,110,120,130,140,​​150),由于其紧凑性,可以在身体内部施加以检测和表征作为人或动物体状态的重要指标的参数,并且将水凝胶材料 (2)有反应。