A device including a light source, an image sensor, and a holder defining two positions between the light source and the image sensor. Each position is able to receive an object with a view to its observation. An optical system is placed between the two positions. Thus, when an object is placed in a first position, it may be observed, through the optical system, via a conventional microscopy modality. When an object is placed in the second position, it may be observed via a second lensless imagery modality.

A modular testing device includes a base unit and an expansion unit that communicates with the base unit. The expansion unit includes a housing, a receptacle in which a sample holder containing a biological sample and reagent mixture can be placed, and an optical assembly positioned in the housing. The optical assembly is configured to amplify and detect a signal from the biological sample and reagent mixture. Data that is collected in the optical assembly is communicated to the base unit.

Description according to the present disclosure relates to an apparatus for inspecting a welding tip of a spot welding gun, and more particularly, to an apparatus for inspecting a welding tip of a spot welding gun, the apparatus enabling a user to replace a camera module swiftly and conveniently.

A light source module for use in an analytical instrument for analyzing at least one sample is disclosed. The light source module includes at least one light-emitting diode and at least one light guiding rod adapted to guide and shape light emitted by the light-emitting diode. The light source module further includes at least one memory device. The memory device has stored therein at least one driving parameter set, for driving the light-emitting diode in such a way that desired emission properties of light provided by the light source module are generated.

Systems and methods are provided for sample processing. A device may be provided, capable of receiving the sample, and performing one or more of a sample preparation, sample assay, and detection step. The device may be capable of performing multiple assays. The device may comprise one or more modules that may be capable of performing one or more of a sample preparation, sample assay, and detection step. The device may be capable of performing the steps using a small volume of sample.

A fluorescence lifetime sensor module comprises an opaque housing having a first chamber and a second chamber which are separated by a light barrier. An optical emitter is arranged in the first chamber and configured to emit through a first aperture. Emission of pulses of light of a specified wavelength is arranged to optically excite a fluorescent probe to be positioned in front of the sensor module. A detector is arranged in the second chamber and configured to detect through a second aperture received photons from the fluorescent probe. A measurement block is configured to determine respective difference values representative of an arrival time of one of the received photons with respect to the emission pulses. A histogram block is configured to accumulate the difference values in a histogram. A processing circuit is configured to compute time-of-flight values based on an evaluation of the histogram, compute a fluorescence lifetime from the time-of-flight values and generate an output signal being indicative of the fluorescence lifetime of the fluorescent probe. A control unit is configured to initiate pulsed emission of the optical emitter.

The application discloses using sensors on eartips and/or earphones to monitor biometrics of a user and/or the ambient environment.

Apparatus and methods for analyzing samples, including for example, samples containing nucleic acids, antibodies, and/or antigens are described. The apparatus may include a frame having a cartridge receiver, two optical devices, thermal cycler, lysis assembly, hybridization heater, and sample transfer assembly. In use, the apparatus may perform multiple sample preparation and analysis processes within the same disposable cartridge including, for example, performing a PCR assay and immunoassay in the same cartridge.

Systems and methods are provided for sample processing. A device may be provided, capable of receiving the sample, and performing one or more of a sample preparation, sample assay, and detection step. The device may be capable of performing multiple assays. The device may comprise one or more modules that may be capable of performing one or more of a sample preparation, sample assay, and detection step. The device may be capable of performing the steps using a small volume of sample.

A spectroscopic measurement device emits light to a measurement target and measures the measurement light output from the measurement target in accordance with the light emission. A spectroscopic measurement device includes: a first housing having a light shielding property and configured to house a light source that emits light and having a first opening through which the light emitted from the light source passes; a second housing having a light shielding property and having a second opening through which the measurement light passes and configured to house a spectrometer that receives the measurement light that has passed through the second opening; and a junction configured to join the first housing and the second housing such that relative positions of the first housing and the second housing can be changed.