摘要:
A far infrared sensor package includes a package body and a plurality of far infrared sensor array integrated circuits. The plurality of far infrared sensor array integrated circuits are disposed on a same plane and inside the package body. Each of the far infrared sensor array integrated circuits includes a far infrared sensing element array of a same size.
摘要:
A semiconductor product comprising: a semiconductor substrate and a test structure, the test structure comprising: a thermopile and at least one temperature sensitive element, the at least one temperature sensitive element being located in the substrate, or between the substrate and the thermopile.
摘要:
A jack (10) of the invention includes a holding body (9) having an insertion hole (15) into which an optical plug is able to be inserted, a window material (6) through which infrared radiation passing through the insertion hole (15) is transmitted, and a light reception unit (2) which detects infrared radiation of 6 μm or more and 15 μm or less transmitted through the window material (6). The window material (6) is provided in the holding body (9) so as to prevent water from intruding into the light reception unit (2), and arranged at a bottom of the insertion hole (15). Thereby, it is possible to give a waterproof property to an element which receives infrared radiation without limitation to design or aesthetic appearance of an electronic apparatus.
摘要:
An infrared detector includes a detecting element, a first electrode, a second electrode, and a covering structure. The detecting element defines an absorbing part and a non-absorbing part. The detecting element includes a first end and a second end opposite with the first end. The first end is disposed in the absorbing part. The second end is disposed in the non-absorbing part. The first electrode is electrically connected with the first end. The second electrode is electrically connected with the second end. The covering structure covers the non-absorbing part. The detecting element further includes a carbon nanotube layer. The carbon nanotube layer includes a plurality of carbon nanotubes disposed uniformly.
摘要:
The invention relates to a device (1) for detecting the position of the face (2) of a person, in particular of a motor vehicle driver, wherein said device includes: a thermal sensor (4) configured for determining the heat generated from a target area (6) likely to be occupied by a person, in the form of a dot (10) matrix (8), each dot (10) in said matrix (8) representing the heat generated by a portion of said target area (6), processing means for analyzing a value acquired through a physical quantity for the dots (10) of said matrix (8) in order to detect at least one piece of adjustment information (12) that is representative of the position of said face (2) within said target area (6). The invention also relates to a corresponding detection method and display, in particular a head-up display, provided with said device.
摘要:
In some embodiments, apparatus and systems, as well as methods, may operate to receive radiation at an active detector of a pair of radiation detectors to provide a first signal proportional to an intensity of the radiation, to receive none of the radiation at a blind detector of the pair of radiation detectors to provide a second signal proportional to the reception of no radiation, and to combine the first signal and the second signal to provide an output signal representing the difference between the first signal and the second signal. The pair of radiation detectors may comprise thermopile detectors. Combination may occur via differential amplification. Additional apparatus, systems, and methods are disclosed.
摘要:
An infrared imaging device, including: connection wiring portions arranged in matrix form on a substrate which is mounted in a package; first and second infrared detecting portions configured to convert intensity of absorbed infrared radiation into respective first and second signals, the second infrared detecting portion being smaller in thermal conductance than the first infrared detecting portion; and a lid member attached to the package so as to define an air-tight gap with the substrate, the connection wiring portions, the first and second infrared detecting portions being accommodated within the gap; wherein a degree-of-vacuum is measured within the gap and a warning issued based on the measured degree-of-vacuum.
摘要:
Environmental sensors and other bodies, together with associated lead wires, are mounted to a oxidizable substrate for high temperature applications by means of a reacted borosilicate mixture (RBM) that secures the body relative to the substrate via of an oxide interface formed between the RBM and substrate during a high temperature reaction process. An oxide interface is also formed with oxidizable bodies to provide further mounting strength. The RBM is a B2O3—SiO2 mixture, with the B2O3 portion a function of the reaction temperature and desired bonding strength and viscosity.
摘要翻译:环境传感器和其他物体以及相关联的引线通过反应的硼硅酸盐混合物(RBM)安装到可氧化的基底上,用于高温应用,反应的硼硅酸盐混合物(RBM)通过形成在RBM和 底物在高温反应过程中。 氧化物界面也形成有可氧化体以提供进一步的安装强度。 RBM是B 2 O 3 -SiO 2 N 2混合物,其中B 2 O 3 SUB>部分是反应温度和所需粘合强度和粘度的函数。
摘要:
A sensor device includes a circuit chip, an adhesion film, and a sensor chip mounted on the circuit chip through the adhesion film. The sensor chip includes a substrate having foreside and backside surfaces, a concavity disposed on the backside surface of the substrate, and a membrane disposed on the foreside surface of the substrate so that the membrane covers the concavity. The adhesion film is disposed between the sensor chip and the circuit chip so as to form a passage for connecting between the concavity and an outside of the concavity.
摘要:
A thermally differentiable pattern such as hot melt adhesive is monitored in a production line system. An electrical output from a thermopile radiation sensor is applied to a detection circuit which processes the sensor electrical output to perform an inverse to the sensor transfer function and to perform a differentiation which provides a pulsed output at rising and falling edges of the sensor signal. Comparators provide respective output pulse signals representing the respective rising and falling edges. An adjustable amplifier in the circuit adjusts pulse threshold relative to sensed radiation.