摘要:
Apparatus and methods for non-contact testing of electronic components printed on a substrate (3) are provided. Test circuits (11) are printed on the substrate (3) at the same time as the desired electronic component. The test circuits (11) are all optical and include a first portion (13) for providing electrical energy for the test circuit (11) and a second portion (15) for generating a detectable optical signal that is indicative of at least one electrical property of the electronic component. The test circuits are used in real time and minimize the production of unusable scrap in the printing of such products as ePaper.
摘要:
Apparatus and methods for non-contact testing of electronic components printed on a substrate (3) are provided. Test circuits (11) are printed on the substrate (3) at the same time as the desired electronic component. The test circuits (11) are all optical and include a first portion (13) for providing electrical energy for the test circuit (11) and a second portion (15) for generating a detectable optical signal that is indicative of at least one electrical property of the electronic component. The test circuits are used in real time and minimize the production of unusable scrap in the printing of such products as ePaper.
摘要:
A print press system and a method are described herein that print an electronic circuit onto a material (e.g., glass substrate, plastic film, plastic film-glass substrate laminate). In exemplary applications, the print press system can print an electronic circuit onto a material to form, for instance, a flexible Liquid Crystal Display, a retail point of purchase sign and an e-book.
摘要:
A print press system and a method are described herein that print an electronic circuit onto a material (e.g., glass substrate, plastic film, plastic film-glass substrate laminate). In exemplary applications, the print press system can print an electronic circuit onto a material to form, for instance, a flexible Liquid Crystal Display, a retail point of purchase sign and an e-book.
摘要:
A technique for passive alignment of an opto-electronic device, such as laser, by alignment fiducials to a silicon wafer board utilizes a tilted notch in the opto-electronic device. This system overcomes limitations using standard etched notches for previous passive alignment systems. Specifically, the tilted notch presents a range of offset distances between the edge of the notch and the active light-emitting spot of the laser. Depending on the location at which the wafer is diced or cleaved, the distance from the notch on the laser to the laser stripe can be adjusted after the laser wafer is fabricated.
摘要:
An optical bidirectional link comprising: a module having a lower surface and an upper surface. The upper surface having disposed thereon a submodule having an optical transmitter and detector mounted thereon. Circuitry mounted on the upper surface. The circuitry having electronic components for effecting bidirectional communication via the optical transmitter and detector. A cover disposed over the upper surface of the module, wherein the submodule further comprises a silicon substrate having an optical fiber disposed in v-groove, a laser, reflective surfaces, and a holographic plate disposed on an upper surface of the silicon substrate.
摘要:
A lenticular system for autostereoscopic display devices in which a transparent polymeric lenticular array is embedded between two glass sheets and the gap between the polymeric lenticular array and the outer cover is filled with a transparent polymeric filling having a refractive index different than the refractive index of the polymeric lenticular array to reduce glare.
摘要:
A lenticular system for autostereoscopic display devices in which a transparent polymeric lenticular array is embedded between two glass sheets and the gap between the polymeric lenticular array and the outer cover is filled with a transparent polymeric filling having a refractive index different than the refractive index of the polymeric lenticular array to reduce glare.
摘要:
A process comprising: (a) applying a stop etch mask to a substrate, the mask defining the location on the substrate of a groove for receiving a waveguide and one or more fiducials for positioning the optical device on the substrate relative to the waveguide; and (b) etching the substrate to define the fiducials and the groove, the groove being dimensioned to receive at least a portion of a waveguide and the fiducials enabling the optical device to be positioned on the substrate such that it is optically aligned with the waveguide.
摘要:
An apparatus for coupling an optical fiber to an optical device comprises a substrate and a passive alignment member. The substrate having a top surface and a bottom surface. The top surface having a fist groove disposed thereon for holding an optical fiber, and a second groove disposed on the top surface. The second groove being substantially orthogonal to the first groove. The passive alignment member disposed in the second groove. The passive alignment member having selectively etched forward and side pedestals for aligning the optical device to the optical fiber disposed in the first groove.