Abstract: A system for refrigerant leakage detection includes one or more sensors configured to detect one or more parameters of a building system including a refrigerant. The system further includes one or more storage devices storing instructions thereon that, when executed by one or more processors, cause the one or more processors to receive sensor data from the one or more sensors; apply the sensor data to a long short-term memory (LSTM) model to generate predicted sensor data corresponding to the one or more sensors; receive subsequent sensor data from the one or more sensors; compare the predicted sensor data to the subsequent sensor data; determine that the building system has a refrigerant leakage based on the comparison of the predicted sensor data to the subsequent sensor data; and, responsive to determining that the building system has the refrigerant leakage, take an action to address the refrigerant leakage.

Abstract: A deorbit-sail deployment device for forming a deorbit sail that drives a satellite to deorbit is disclosed. The deorbit-sail deployment device comprises a non-folding sail and a folding sail that are rotatably connected to each other to form the deorbit sail The folding sail comprises at least one first skeleton that folds the sail body in the folded state and supports the sail body in the unfolded state. The folding sail can be folded to a compact size before launch.

Abstract: A chip for sample detection includes a substrate, an upper covering plate disposed above the substrate and a lower covering plate disposed under the substrate. A gap between an upper end face of the substrate and the upper covering plate is sealed, a gap between a lower end face of the substrate and the lower covering plate is sealed, and the substrate is provided with a via hole penetrating the upper end face and the lower end face.

Abstract: A chip for sample detection includes a substrate and a covering plate, the substrate and the covering plate are sealed by an adhesive layer located therebetween, light-transmitting holes are disposed in the adhesive layer, detection grooves are disposed in the substrate, and the light-transmitting holes correspond to the detection grooves.

Abstract: The present invention discloses a high performance quick terminal assembly for optical fiber, comprising a ferrule and an inner bore inside the ferrule. The inner bore is exposed after part of the cylinder body of the ferrule is cut away, forming a connecting platform. Pre-embedded optical fiber and connecting optical fiber are connected in the inner bore of the connecting platform, and the connecting platform is disposed with a pressing device to compress the connecting point of the two optical fibers. The invention uses high precision inner bore of the ceramic ferrule to replace the existing V-shaped groove. It can be easily, efficiently and effectively installed and is cost saving. Meanwhile excellent optical performance and high reliability are achieved. The problem related to various failure or badness of the prior art are resolved in the present invention.

Abstract: A ceramic ferrule made of a complex Zircornium oxide base material which blends with a rare element, such as Yuttrium, Cerium, etc, is provided. The ceramic ferrule can increase the phase transition resistivity of the Zircornium oxide material. It has a precise construction, and the reliability of products is enhanced. A movable connector of field-assembled optical fiber which adapts the present ceramic ferrule not only achieves co-axial joint of the optical fibers better surface smoothness as compared with plastic ceramic ferrule, but also overcomes the problem of scratching easily incurred during connection between plastic materials. The present invention has characters of good aging resistance, low insertion lose on jointing of optical fibers, high return loss and good connection quality.

Abstract: The present invention discloses a high performance quick terminal assembly for optical fiber, comprising a ferrule and an inner bore inside the ferrule. The inner bore is exposed after part of the cylinder body of the ferrule is cut away, forming a connecting platform. Pre-embedded optical fiber and connecting optical fiber are connected in the inner bore of the connecting platform, and the connecting platform is disposed with a pressing device to compress the connecting point of the two optical fibers. The invention uses high precision inner bore of the ceramic ferrule to replace the existing V-shaped groove. It can be easily, efficiently and effectively installed and is cost saving. Meanwhile excellent optical performance and high reliability are achieved. The problem related to various failure or badness of the prior art are resolved in the present invention.