An ultraviolet measurement system includes a measurement device that is configured to be portable by a user, and measures ultraviolet information regarding an ultraviolet ray, and a display device that can perform communication with the measurement device, in which one of the measurement device and the display device includes a position acquisition unit that acquires position information indicating a position of either of the user and the measurement device, and a storage unit that stores the ultraviolet information measured by the measurement device in correlation with measurement position information which is position information of when the ultraviolet information is measured by the measurement device among pieces of position information acquired by the position acquisition unit, and in which the display device displays information based on the ultraviolet information and the measurement position information.

A radiation measuring device for measuring electromagnetic radiation originating from an external source. The radiation measuring device includes, a spectrometer, a pyranometer, a pyrgeometer, a diffuser, and a control unit. The spectrometer and a pyranometer are positioned in a sensor zone of a housing of the radiation measuring device. The spectrometer measures visible shortwave radiation and near-infrared shortwave radiation received at the sensor zone. The pyranometer measures shortwave radiation received at the sensor zone. The pyrgeometer is positioned in another sensor zone of the housing and measures longwave radiation received at the other sensor zone. The control unit receives radiation measurements from the spectrometer, pyranometer, and pyrgeometer. A corrected amount of radiation received at the sensor zones of the radiation measuring device is determined from the received radiation measurements. Other embodiments are described and claimed.

An optical package assembly can include: a first circuit board; a second circuit board and a first structure arranged on the first circuit board, where the second circuit board is adjacent to the first structure; and a second structure arranged on the second circuit board, where a thickness of the first structure is equal to a combined thickness of the second circuit board and the second structure.

A light sensing device for a vehicle. A housing defines a light sensor cavity and a lens cover. A light sensor is positioned in the light sensor cavity and is surrounded by a gasket assembly. A manifold is configured to receive and store a fluid. A first fluid dispensing assembly extends from the manifold through the gasket assembly. The first fluid dispensing assembly is juxtapositioned above the lens cover and is configured to trickle the fluid downwardly over the manifold at a predetermined flow rate. A second fluid dispensing assembly extends from the manifold through the gasket assembly. The second fluid dispensing assembly is juxtapositioned laterally adjacent to the lens cover and is configured to expel fluid that blows across the lens cover as the vehicle moves.

A photocell cover, including a jacket that defines a jacket cavity and a jacket opening, that is operable to be used by the user at any time of day and in any level of ambient light. The invention achieves this object by providing a photocell cover to cover a photocell and its housing, blocking any ambient light from reaching the photocell, in order to provide an environment in which the photocell can be tested. The jacket cavity and jacket opening receive a housing of a photocell and simulate a low level of ambient light in the area surrounding the photocell in order to test the functionality of the photocell. The method of using the photocell cover allows the user to test the photocell during any time of day or night, including from a ground level position.

A 3D imaging optoelectronic module intended to be fixed to an image-forming device comprises: an optoelectronic sensor comprising a package with a chip electrically connected to a stack of at least one printed circuit board, the sensor and stack assembly moulded in a resin and having faces according to Z with electrical interconnection tracks of the printed circuit boards. It comprises a thermally conductive rigid cradle in the form of a frame having a reference surface according to X, Y and: on a top surface: reference points intended to centre and align the image-forming device in relation to the reference surface, fixing points to allow the fixing of the image-forming device, and an inner bearing surface having bearing points of the sensor adjusted to centre and align the chip in relation to the reference surface.

Disclosed are an ultraviolet measuring device, a photodetector, an ultraviolet detector, an ultraviolet index calculation device, and an electronic device or portable terminal including the same. In one aspect, an ultraviolet measuring is provided to comprise: a substrate on which an electrode is formed; a readout integrated circuit (ROTC) unit electrically connected with the electrode; and an aluminum gallium nitride (AlGaN) based UVB sensor electrically connected with the readout integrated circuit unit and formed on an insulating substrate, wherein the read-out integrated circuit converts a photocurrent input from the UV sensor into a digital signal including UV data.

An earphone includes an audio transmitter, a housing, a sound passage pipe, a radiator, and a light receiver. The audio transmitter transmits sound. The housing has an internal space for containing the audio transmitter. The sound passage pipe guides sound produced at the audio transmitter into an external auditory canal. The radiator radiates light into the external auditory canal. The light receiver is disposed in the internal space of the housing. The light receiver converts the light into a signal, the light having been reflected off the external auditory canal and passed through an internal space of the sound passage pipe. The housing, the sound passage pipe, and the radiator are disposed in this order.

A complex optical proximity sensor includes a substrate, a light emitter coupled to the substrate, an application-specific integrated circuit chip coupled to the substrate and embedded in a proximity sensor, a barrier disposed between the application-specific integrated circuit chip and the light emitter, and an ambient light detection chip manufactured in advance and then coupled to the application-specific integrated circuit chip thereon with a pre-determined height. The elements are disposed within a limited area of an aperture and, with a manufacturing method of the complex optical proximity sensor, the detection angle of the ambient light is thereby maximized and the detection angle of the proximity sensor is thereby minimized.

An electronic apparatus equipped with an eye sensor holding structure that is capable of preventing erroneous detection of an eye sensor without increasing the number of members and of improving an appearance without increasing stray light. An eye sensor that detects an eye-contact state is implemented on a circuit board. A protection window is provided so as to cover a front of the eye sensor and is held in a state where the circuit board is positioned thereto. The protection window is fitted and positioned to an exterior member that has an opening through which the protection window is exposed to external appearance. An elastic member generates energization force for pushing the eye sensor so as to be contact with the protection window and for pushing the protection window so as to be contact with the exterior member.