公开(公告)号：US20120163409A1

公开(公告)日：2012-06-28

申请号：US13166540

申请日：2011-06-22

Applicant: Kevin LIN ,  Allen Lo

Inventor： Kevin LIN ,  Allen Lo

IPC: G01J5/00

CPC classification number: G02B27/20 ,  G01J5/0265 ,  G01J5/089

Abstract: The present invention discloses a laser-aiming device for a radiant thermometer, which comprises a laser adjustment seat, a laser device, and a prism having two inclined faces. The laser adjustment seat is arranged on a temperature detection device of the radiant thermometer. The laser device and the prism are arranged on the laser adjustment device. The laser device generates a laser beam. The prism is located at the illuminated side of the laser beam and coaxial with the laser device, refracting the laser beam into two laser beams that generate two laser spots designating the detectable area of the radiant thermometer.

Abstract translation: 本发明公开了一种用于辐射温度计的激光瞄准装置，其包括激光调节座，激光装置和具有两个倾斜面的棱镜。 激光调节座设置在辐射温度计的温度检测装置上。 激光装置和棱镜布置在激光调节装置上。 激光装置产生激光束。 棱镜位于激光束的照明侧并与激光装置同轴，将激光束折射成两个激光束，该激光束产生指定辐射温度计的可检测区域的两个激光点。

公开(公告)号：US20140165723A1

公开(公告)日：2014-06-19

申请号：US13720876

申请日：2012-12-19

Applicant: Qing MA ,  Feras EID ,  Kevin LIN ,  Johanna M. SWAN ,  Weng Hong TEH ,  Valluri R. RAO

Inventor： Qing MA ,  Feras EID ,  Kevin LIN ,  Johanna M. SWAN ,  Weng Hong TEH ,  Valluri R. RAO

IPC: G01C19/5635

CPC classification number: G01C19/56 ,  G01C19/5776

Abstract: This invention relates to inductive inertial sensors employing a magnetic drive and/or sense architecture. In embodiments, translational gyroscopes utilize a conductive coil made to vibrate in a first dimension as a function of a time varying current driven through the coil in the presence of a magnetic field. Sense coils register an inductance that varies as a function of an angular velocity in a second dimension. In embodiments, the vibrating coil causes first and second mutual inductances in the sense coils to deviate from each other as a function of the angular velocity. In embodiments, self-inductances associated with a pair of meandering coils vary as a function of an angular velocity in a second dimension. In embodiments, package build-up layers are utilized to fabricate the inductive inertial sensors, enabling package-level integrated inertial sensing advantageous in small form factor computing platforms, such as mobile devices.

Abstract translation: 本发明涉及采用磁驱动和/或感测架构的感应惯性传感器。 在实施例中，平移陀螺仪利用在第一维度中制成的导电线圈作为在存在磁场的情况下驱动通过线圈的时变电流的函数。 感应线圈记录在第二维度上作为角速度的函数变化的电感。 在实施例中，振动线圈使得感测线圈中的第一和第二互感器作为角速度的函数彼此偏离。 在实施例中，与一对曲折线圈相关联的自感量作为第二维度中的角速度的函数而变化。 在实施例中，使用封装积层来制造感应惯性传感器，使得能够在诸如移动设备的小尺寸计算平台中有利的封装级集成惯性感测。

公开(公告)号：US20140076051A1

公开(公告)日：2014-03-20

申请号：US13618003

申请日：2012-09-14

Applicant: Qing MA ,  Valluri RAO ,  Feras EID ,  Kevin LIN ,  Weng Hong TEH ,  Johanna SWAN ,  Robert SANKMAN

Inventor： Qing MA ,  Valluri RAO ,  Feras EID ,  Kevin LIN ,  Weng Hong TEH ,  Johanna SWAN ,  Robert SANKMAN

IPC: G01P15/097

CPC classification number: G01P15/097 ,  G01P15/105 ,  G01P15/18

Abstract: An accelerometer includes a mass, suspended by a beam, and associated conductive paths. Each conductive path is subjected to a magnetic field, such that, when a time varying signal is applied to the conductive paths, a characteristic resonant frequency is produced, and when the mass experiences an acceleration, a respective change in the resonant frequency is produced that may be interpreted as acceleration data. Embodiments include methods of manufacturing an accelerometer and systems and devices incorporating the accelerometer.

Abstract translation: 加速度计包括由梁悬挂的质量块和相关联的导电路径。 每个导电路径受到磁场的影响，使得当对导电路径施加时变信号时，产生特性谐振频率，并且当质量经历加速度时，产生谐振频率的相应变化， 可以解释为加速度数据。 实施例包括制造加速度计的方法和结合有加速度计的系统和装置。

公开(公告)号：US20100032447A1

公开(公告)日：2010-02-11

申请号：US12497200

申请日：2009-07-02

Applicant: Shawn YU ,  Kevin LIN

Inventor： Shawn YU ,  Kevin LIN

IPC: B65H1/04 ,  G01K1/08

CPC classification number: G01J5/02 ,  G01J5/021

Abstract: The present invention discloses a probe cover dispenser, which comprises a base having a probe cover basin; a probe cover cartridge receiving probe covers; a gravitational member applying gravity to the probe covers; and a feeder assembly arranged between the base and the probe cover cartridge. The gravitational member makes a probe cover fall from the probe cover cartridge onto the base, and a feeder pushes the gravitationally released probe cover to the probe cover basin. Then, the user inserts a probe of an infrared thermometer into the probe cover inside the probe cover basin to sleeve the probe with the probe cover. Via the present invention, the user can fit a probe cover onto a probe without using his hands. Thus, the present invention can effectively reduce the pollution of probe covers and the infection of testees.

Abstract translation: 本发明公开了一种探针盖分配器，其包括具有探针盖盆的底座; 接收探头盖的探头盖盒; 将重力施加到探针盖的重力部件; 以及布置在基座和探针盖盒之间的馈送器组件。 引力构件使探头盖从探头盖板落到基座上，并且进给器将重力释放的探针盖推向探头盖盆。 然后，用户将红外线温度计的探头插入探头盖盆内的探针盖中，用探头盖套住探头。 通过本发明，用户可以将探头盖安装在探针上，而不用他的手。 因此，本发明可以有效地减少探针盖的污染和受试者的感染。