摘要:
A tight-fitting garment comprising a dipole resonator which is adapted to vary its length and/or shape in conformity with the length and/or shape variations of a person wearing the garment. The length and/or shape of the resonator determines the resonance frequency which can be detected by a reflection analyzer. The dipole resonator comprises at least one elastic core around which a conductive wire is wound. The dipole resonator is further suitable to elastically deform along with the tight-fitting garment.
摘要:
A tight-fitting garment comprising a dipole resonator which is adapted to vary its length and/or shape in conformity with the length and/or shape variations of a person wearing the garment. The length and/or shape of the resonator determines the resonance frequency which can be detected by a reflection analyser. The dipole resonator comprises at least one elastic core around which a conductive wire is wound. The dipole resonator is further suitable to elastically deform along with the tight-fitting garment.
摘要:
The present invention relates to an illumination system for use in a stereolithography apparatus. The illumination system includes a plurality of light-emitting diodes (LEDs), each LED having at least a first light-emitting surface and a second surface, at least one of the first and the second surface being substantially flat. The illumination further includes a plurality of electrical pathways, selectively connected to the respective LEDs, such that each LED can be individually controlled and a leveling surface. The leveling surface is substantially flat and in leveling contact with the at least one substantially flat surface of each LED, such that a two-dimensional array of LEDs extends in a plane parallel to the leveling surface.
摘要:
An illumination system (30), comprising: a plurality of light-emitting diodes (LEDs) (34), each LED having at least a first, light-emitting surface (36) and a second surface (37), at least one of the first and the second surface being substantially flat; a plurality of electrical pathways (56), selectively connected to the respective LEDs, such that each LED can be individually controlled; and a levelling surface (46, 52), wherein the levelling surface is substantially flat and in levelling contact with the at least one substantially flat surface (37, 36) of each LED, such that a two-dimensional array of LEDs extends in a plane parallel to the levelling surface.