Abstract:
A sensor device configured to be attached to a drug delivery device and configured to illuminate the drug delivery device when attached, the sensor device having an OLED having a transparent first electrode, a transparent second electrode and a central layer disposed between the first and second electrodes, the central layer comprising at least one organic layer, the at least one organic layer configured to emit light through the transparent first electrode, and an optical sensor arranged to receive light reflected from a surface of the drug delivery device, wherein the central layer of the OLED has a region without the at least one organic layer and wherein the optical sensor is arranged, when the sensor device is attached to the drug delivery device, to view a predetermined area of the surface of the drug delivery device through the region without the at least one organic layer.
Abstract:
A method of inspecting a lateral pipe extending from a manhole, the method comprising: (a) extending an imaging head into the manhole using a positioning system, the imaging head comprising an imaging device and at least one lamp capable of producing a light beam, the positioning system comprising an elongated member and a targeting fixture operatively connected thereto, the imaging head being attached to one end of the elongated member, the targeting fixture having a distal end biased outwardly from the imaging head; (b) placing the distal end on a rigid surface proximate to the lateral pipe; (c) pushing down on the elongated member such that the distal end resiliently moves toward the imaging head, thereby allowing the light beam to be centered approximately in the lateral pipe; and (d) imaging a target located within the lateral pipe.
Abstract:
Disclosed herein is an apparatus for providing passive correction for thermal effects on a mounted mechanical component. Further disclosed is a wafer inspection system employing the passive thermal effect correction apparatus.
Abstract:
The invention relates to a device (1) for FTIR absorption spectroscopy, comprising an ATR sensor (5) and at least one ultrasonic transmitter (10) for generating an ultrasonic field in the manner of a standing wave, wherein the ATR sensor (5) and the ultrasonic transmitter (10) are connected to a mounting (4), which is equipped for attachment in a wall (2) or cover of a reactor (3) and which is equipped to hold the ATR sensor (5) and the ultrasonic transmitter (10) in the freely protruding manner into the inside of the reactor (3) in the mounted state.
Abstract:
An object of this invention is to provide a body fluid sample analyzer that analyzes a body fluid sample based on a light transmission characteristics of a reaction liquid produced by reaction of the body fluid sample and the reagent. The body fluid sample analyzer improves an accuracy of measurement and a performance of cleaning with a simple and compact arrangement wherein air bubbles are difficult to accumulate. The body fluid sample analyzer comprises a reaction cell 2 that stands vertically and that has an insertion bore 21 for the body fluid sample and the reagent, a discharge/suction apparatus 4 that is connected to a bottom part of the reaction cell 2 through a tube 3 and that reciprocates and agitates the body fluid sample and the reagent between the reaction cell 2 and the tube 3 by repeating a discharging and sucking movement, and an optical measurement device 5 that measures a light transmission characteristics of the reaction liquid produced by agitating the body fluid sample and the reagent, wherein the optical measurement device 5 is arranged on the reaction cell 2.
Abstract:
Wearable apparatus for monitoring various physiological and environmental factors are provided. Real-time, noninvasive health and environmental monitors include a plurality of compact sensors integrated within small, low-profile devices, such as earpiece modules. Physiological and environmental data is collected and wirelessly transmitted into a wireless network, where the data is stored and/or processed.
Abstract:
A sensor mounting system having a suction cup array is disclosed. In one application, the system eases the initial positioning of the colorimeter on the screen to be measured, minimizes the force applied to the screen upon which it is mounted, and minimizes the distortion in the mounted area of the screen surface. In addition, the mounting system can be configured so that the distance from the colorimeter sensor to the screen will not significantly change over time. Such positional stability operates to improve SNR. The mounting system is further adapted for ease of removal from the screen upon which it is mounted. Applications not only include a mount for low to high accuracy colorimeters, but also for other measurement devices that can benefit from advantages of the present invention. Injection molding manufacturing techniques can be employed in fabrication of the system.
Abstract:
기판이 대형화되어도 차량에 의한 수송과 수송한 곳에서의 조립이 용이하게 되어 수송비의 저감을 도모한다. 기판의 반송 방향에 대하여 직교하는 검사 라인을 검사하는 검사 헤드와, 이 검사 헤드를 지지하는 갠트리 및 기판을 일정한 높이로 부상시키는 검사용 부상 스테이지부를 검사 베이스에 일체로 내장한 검사 유닛과, 갠트리의 각부와 검사용 부상 스테이지부 사이의 검사 베이스에 착탈 가능하도록 장착하여 조립되고, 기판을 반송하는 반송로의 일측 에지를 따르도록 검사 유닛에 대하여 T 자형으로 배치되고, 기판을 유지하여 반송 방향으로 이동시키는 반송 유닛을 구비하고, 차량에 의한 수송 시에, 반송 유닛과 검사 유닛을 유닛 단위로 분해하여 수송 가능한 기판 검사 장치를 제공한다.
Abstract:
Various embodiments of a light detection device and a method of using the device are disclosed. In one or more embodiments, the light detection device can include a housing that extends along a housing axis between top and bottom surfaces. The device can also include a port that is adapted to receive a sample, and a door connected to the housing. The door can include an actuator portion adapted to selectively move the door between a closed position and an open position, and a cover portion connected to the actuator portion and adapted to close the port when the door is in the closed position and open the port when the door is in the open position to allow external access to the port.