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
    • 32. 发明授权
    • Microneedle drug delivery device
    • 微针药物输送装置
    • US07226439B2
    • 2007-06-05
    • US10454973
    • 2003-06-04
    • Mark R. PrausnitzMark G. AllenInder-Jeet Gujral
    • Mark R. PrausnitzMark G. AllenInder-Jeet Gujral
    • A61M31/00
    • A61M37/0015A61B5/14514A61B5/14532A61B5/150022A61B5/150969A61B5/150984A61B17/205A61B2090/0814A61M5/422A61M2037/0023A61M2037/003B33Y80/00
    • Simple microneedle devices for delivery of drugs across or into biological tissue are provided, which permit drug delivery at clinically relevant rates across or into skin or other tissue barriers, with minimal or no damage, pain, or irritation to the tissue. The devices include a substrate to which a plurality of hollow microneedles are attached or integrated, and at least one reservoir, containing the drug, selectably in communication with the microneedles, wherein the volume or amount of drug to be delivered can be selectively altered. The reservoir can be formed of a deformable, preferably elastic, material. The device typically includes a means, such as a plunger, for compressing the reservoir to drive the drug from the reservoir through the microneedles. In one embodiment, the reservoir is a syringe or pump connected to the substrate.
    • 提供用于在生物组织中或在生物组织中递送药物的简单微针装置,其允许以临床相关的速率穿过或进入皮肤或其它组织屏障的药物递送,对组织进行最小的或没有损伤,疼痛或刺激。 所述装置包括多个中空微针连接或整合到其上的基底,以及容纳药物的至少一个储存器,可选择地与微针连通,其中可以选择性地改变要递送的药物的体积或量。 储存器可以由可变形的,优选弹性的材料形成。 该装置通常包括用于压缩储存器以通过微针从储存器驱动药物的装置,例如柱塞。 在一个实施例中,储存器是连接到基板的注射器或泵。
    • 36. 发明授权
    • System, method, and sensors for sensing physical properties
    • 用于感应物理特性的系统,方法和传感器
    • US06278379B1
    • 2001-08-21
    • US09454748
    • 1999-12-06
    • Mark G. AllenJennifer M. English
    • Mark G. AllenJennifer M. English
    • G08B2100
    • G01L9/0075B60C23/0408G01D5/48
    • Several sensors are provided for determining one of a number of physical roperties including pressure, temperature, chemical species, and other physical conditions. In general, the sensors feature a resonant circuit with an inductor coil which is electromagnetically coupled to a transmitting antenna. When an excitation signal is applied to the antenna, a current is induced in the sensor circuit. This current oscillates at the resonant frequency of the sensor circuit. The resonant frequency and bandwidth of the sensor circuit is determined using an impedance analyzer, a transmitting and receiving antenna system, or a chirp interrogation system. The resonant frequency may further be determined using a simple analog circuit with a transmitter. The sensors are constructed so that either the resonant frequency or bandwidth of the sensor circuit, or both, are made to depend upon the physical properties such as pressure, temperature, presence of a chemical species, or other condition of a specific environment. The physical properties are calculated from the resonant frequency and bandwidth determined.
    • 提供了几个传感器用于确定包括压力,温度,化学物质和其他物理条件在内的许多物理性能中的一种。 通常,传感器具有电感线圈的谐振电路,其电磁耦合到发射天线。 当激励信号被施加到天线时,在传感器电路中感应出电流。 该电流以传感器电路的谐振频率振荡。 传感器电路的谐振频率和带宽由阻抗分析仪,发射和接收天线系统或啁啾询问系统确定。 可以使用具有发射机的简单模拟电路进一步确定谐振频率。 传感器被构造成使得传感器电路的谐振频率或带宽或两者都被制成取决于诸如压力,温度,化学物质的存在或特定环境的其他状况的物理性质。 物理性质由谐振频率和带宽确定。
    • 38. 发明授权
    • Magnetic relay system and method capable of microfabrication production
    • 具有微加工生产能力的磁继电器系统及方法
    • US5847631A
    • 1998-12-08
    • US723300
    • 1996-09-30
    • William P. TaylorMark G. Allen
    • William P. TaylorMark G. Allen
    • H01H51/22B81B5/00H01H50/00
    • H01H50/005H01H2001/0042Y10T29/49105
    • A magnetic relay system is implemented to act as a relay driven by a magnetic flux yet capable of production through micromachining. The magnetic relay system has an electromagnet, a movable plate, and conductive contacts. The contacts are connected to the circuits of outside electrical systems that are to be controlled by the switching of the relay system. The plate is movable allowing it to engage both contacts and allow current flow between the contacts or to disengage both contacts and prevent current flow between the contacts. The electromagnet provides a sufficient magnetic flux at desired times to move the movable plate and thereby controls whether the movable plate is engaged with the contacts. The electromagnet, movable plate, and the conductive contacts may be formed on a substrate capable of construction using microfabrication techniques.
    • 磁继电器系统被实现为作为由磁通量驱动并且能够通过微机械加工生产的继电器。 磁继电器系统具有电磁铁,可动板和导电触头。 触点连接到将由继电器系统的切换控制的外部电气系统的电路。 板是可移动的,允许其接合两个触点并且允许电流在触点之间流动或者使两个触点脱离并防止触点之间的电流流动。 电磁铁在期望的时间提供足够的磁通量以移动可移动板,从而控制可动板是否与触点接合。 电磁体,可动板和导电触点可以形成在能够使用微细加工技术构造的基板上。
    • 40. 发明授权
    • Method and apparatus for the quantitative measurement of adhesion of
thin films
    • 用于定量测量薄膜粘附的方法和装置
    • US4899581A
    • 1990-02-13
    • US351330
    • 1989-05-04
    • Mark G. AllenStephen D. Senturia
    • Mark G. AllenStephen D. Senturia
    • G01N3/00G01N3/02G01N19/04
    • G01N19/04G01N2203/0091G01N2203/0298
    • A device for quantitatively measuring adherence of thin films provides a first substrate having an upper surface and a second substrate having a surface coplanar therewith. The second substrate is spaced on all sides from the first substrate by a cavity. The thin film is suspended over the cavity and adhered to the surfaces of the two substrates. A characteristic length of the area of the surface of the second substrate to which the film is adhered is made small relative to the characteristic length of the cavity. A pressure differential is applied across the thickness of the film such that the film debonds from the surface of the second substrate. Mechanical characteristics of the debonding of the film are observed and measured. The characteristics are thereafter related to provide a quantitative measurement of adherence of the thin film to the second substrate. A measurement of relative adherence between different films is obtained by testing a multilayered film structure. Other layers of various materials may be used to define a smaller area of adherence to which the film may be adhered.
    • 用于定量测量薄膜粘附性的装置提供具有上表面的第一基底和具有与其共面的表面的第二基底。 第二基板通过空腔与第一基板的所有侧面间隔开。 薄膜悬挂在空腔上并粘附到两个基板的表面上。 相对于空腔的特征长度,薄膜附着的第二基板的表面的面积的特征长度变小。 在膜的厚度上施加压差,使得膜从第二基板的表面剥离。 观察并测量薄膜脱粘的机械特性。 此后的特征涉及提供薄膜对第二基底的粘附的定量测量。 通过测试多层膜结构获得不同膜之间的相对粘附度的测量。 可以使用各种材料的其它层来限定薄膜附着的更小的粘附面积。