Method for manufacturing and assembling liquid crystal electro-optical devices at wafer level
An electro-optical device and liquid crystal technology, applied in the field of liquid crystal electro-optical device manufacture and wafer-level assembly, can solve problems such as pollution
Active Publication Date: 2020-03-31
LENSVECTOR
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Problems solved by technology
[0006] In view of the above state of the art, there is a need to develop another approach to wafer-level fabricated LCL optical devices to allow simpler assembly and address contamination issues
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[0030] The above problems can be solved according to the proposed solution, where:
[0031] The fabrication of LCL optics is delicate and, in particular, more complex than fabrication of conventional all-solid-state integrated circuits. Referring to Fig. 1, an LCL wafer 10 is a 2D array of several thousand LCL optical devices 12, which, due to the liquid nature of the LC layer(s) employed, must contain a large number of liquid reservoirs. In the context of this patent application, "wafer" may refer to a substrate of any shape (eg round, rectangular, etc.) and of any type (eg glass, silicon, sapphire).
[0032] For simplicity of illustration, the LC material is birefringent and the figures show polarization-dependent LCL optics (one layer of LC on a single wafer). For example, referring to FIG. 2, each final (cut from wafer) LCL optical device 12 includes a substrate 16, 18, and an LC reservoir 22 containing a working fluid separated by a (viscous) reservoir wall 20 which can ...
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A method of manufacturing and assembling liquid crystal optical devices at the wafer level is disclosed. An electro-optical device having at least one liquid crystal cell for providing spatially variable control of light is also described. The electro-optical device comprises: a pair of opposing substrates sandwiching a liquid crystal layer; a pair of electrodes applying an electric field therebetween, each electrode being deposited on a corresponding substrate; and a liquid crystal storage wall to define the liquid crystal layer between the substrates. Horizontal range. The storage wall includes: a first bottom barrier edge deposited on a bottom substrate of the pair of substrates; and a second curable top barrier edge deposited on the top substrate outside the first barrier edge. The first barrier edge and the second uncured barrier edge are configured to contact fuse to retain the liquid crystal material within the storage wall until the second barrier edge is cured.
Description
[0001] This application claims priority to US Provisional Application No. 61 / 988,522, filed May 5, 2014. technical field [0002] The present invention relates to liquid crystal electro-optic devices, in particular to the manufacture and wafer-level assembly of liquid crystal electro-optical devices. Background technique [0003] Wafer-level manufacturing processes are used in technologies such as manufacturing integrated circuits, image sensors, microlens arrays, etc. This parallel wafer-level fabrication uses limited processing steps to obtain thousands of such devices simultaneously, thereby reducing their manufacturing costs. However, fabrication and assembly of arrays for wafer-scale fabricated liquid crystal lens devices still has some of the most challenging processing steps. A method that must be specially tuned for each specific manufacturing process. [0004] Electrically controllable (tunable), gradient index, liquid crystal lenses (TLCLs) are well known in the ...
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IPC IPC(8): G02F1/1333C09K19/02
CPCG02F1/1333G02F1/133377G02F1/1337G02F1/133351G02F1/13394G02F1/1341G02F1/134309G02F1/13439G02F1/13415
Inventor 迪格兰·加尔斯蒂安阿拉姆·巴格拉姆亚恩阿米尔·图尔克大卫·尹谢尔盖·雅科文科
Owner LENSVECTOR