| Patent application number | Description | Published |
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| 20100126579 | SOLAR CELL HAVING REFLECTIVE STRUCTURE - A solar cell having a reflective structure is provided, which includes a front contact, a P layer, an I layer, an N layer, and a back contact that are stacked together. The solar cell having the reflective structure is characterized in that the N layer is a layer of low refraction index, and a refraction index of the layer of low refraction index is lower than that of the I layer. Furthermore, the N layer may be a multi-layer structure consisting of several films in which films with low refraction indexes and films with high refraction indexes are stacked alternately. The film in contact with the I layer in the multi-layer structure is a film of low refraction index. A refraction index of the film of low refraction index is lower than that of the I layer. | 05-27-2010 |
| 20100154881 | TRANSPARENT SOLAR CELL MODULE AND METHOD OF FABRICATING THE SAME - A transparent solar cell module is provided. The transparent solar cell module includes a transparent substrate, a first transparent electrode on the transparent substrate, a p-type layer on the first transparent electrode, an intrinsic layer on the p-type layer, an n-type stacked layer on the intrinsic layer, and a second transparent electrode on the n-type stacked layer. The n-type stacked layer includes at least two n-type material layers with different refractive indexes. | 06-24-2010 |
| 20110109607 | DISPLAY MODULE AND APPLICATIONS OF THE SAME - A display module is provided, which includes a first and a second substrates, a transparent type solar cell, a display device, an electric power storage device, a driving circuit and a power supply transfer switch. In the display module, the first substrate, the transparent type solar cell, the display device and the second substrate are successively arranged according to an incident direction of a light source. The transparent type solar cell has a visible light transmittance of 10%-40% and a color temperature (Tc) larger than 2400K. The electric power storage device is connected to the transparent type solar cell for storing electric power there from, and the driving circuit is connected to the display device for driving the same. The power supply transfer switch is used for transferring the electric power into the electric power storage device or the driving circuit. | 05-12-2011 |
| 20110132758 | STRUCTURE FOR INCREASING UTILIZATION RATE OF TARGET - A structure for increasing utilization rate of target is disclosed, which comprises: a magnetic base, capable of moving relative to a target in a reciprocating manner; and two magnetic conductors, disposed respectively at two motion limits with respect to the reciprocating range of the magnetic base. Thereby, when the magnetic base is moved to a position close to any one of magnetic conductors, the surface magnetic field intensity of the target that is caused by the magnetic base is reduced so that the ion bombardment happening at the two ends of the target will be eased off for increasing the utilization rate of the target. | 06-09-2011 |
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| 20100113109 | Electromagnetic sliding mechanism and electronic device - An electromagnetic sliding mechanism and an electronic device are provided. The sliding mechanism includes a fixing base, a sliding piece, and an elastic piece. The fixing base and the sliding piece are respectively provided with an electromagnetic element and the two electromagnetic elements correspond to each other. The sliding piece can slide between a first position and a second position with respect to the fixing base. One end of the elastic piece is pivotally connected to the fixing base, and the other end thereof is pivotally connected to the sliding piece to slide synchronously therewith. Via a repulsive magnetic force generated by electro-magnetizing the two electromagnetic elements, the sliding piece slides automatically from the first position to the second position. When the electromagnetic sliding mechanism is applied to the electronic device, two opposite casings of the electronic device can slide with respect to each other. | 05-06-2010 |
| 20100124953 | Electronic device with a sliding and rotating cover - An electronic device with a sliding and rotating cover is provided. The electronic device comprises a fixed member, a rotating member pivoted with the fixed member, an elastic member disposed between the rotating member and the fixed member, a sliding member installed at the rotating member and may slide relatively to the rotating member, a casing connected with the fixed member, and a cover connected with the sliding member. Via this arrangement, the cover slides with the sliding member. The sliding member can rotate with the rotating member by the elastic member. Thus, the cover can rotate relatively to the casing. | 05-20-2010 |
| 20110007395 | SLIDING COVER STRUCTURE AND AN ELECTRONIC APPARATUS - A sliding cover structure and an electronic apparatus are disclosed. The sliding cover structure is used for covering a lens, and includes a base, a first cover, a second cover and a swing part. The first cover slides forwards and backwards on the base, and slides between an opening position that does not cover the lens and a closing position that covers the lens. The second cover moves upwards and downwards on the base. The swing part is pivoted with the base and has a first contact end and a second contact end. The pivoting position of the swing part and the base is located between the first contact end and the second contact end so that the swing part can perform a seesaw operation. The first contact end is located below the second cover so that the first contact end drives the second cover to move upwards. | 01-13-2011 |
