专利汇可以提供PHOTOELECTRIC CONVERTER专利检索,专利查询,专利分析的服务。并且A photoelectric converter for optical signals includes a laser diode for emitting the optical signals, an optical transmission module for transmitting the optical signals, and a photo diode for converting the optical signals to electrical signals. The optical transmission module includes lenses oriented at ninety degrees from each other, with total internal reflection between the lenses, and optical fibers coupled with the lenses. The photoelectric converter has a high coupling precision between the lenses and the optical fibers, and the loss of optical signals is minimized.,下面是PHOTOELECTRIC CONVERTER专利的具体信息内容。
What is claimed is:
1. Technical Field
The present disclosure relates generally to photoelectric conversion, especially to a photoelectric converter.
2. Description of Related Art
A photoelectric converter may include a laser diode for emitting optical signals, a first optical transmission assembly, a second optical transmission assembly coupled with the first optical transmission assembly, and a photo diode. The optical signals emitted from the laser diode can enter the first optical transmission assembly, and be transmitted through the second optical transmission assembly to the photo diode, and finally can be converted into electrical signals by the photo diode.
The first optical transmission assembly includes a plurality of lenses and the second optical assembly includes a plurality of optical fibers for coupling the lenses with the optical fibers to allow optimum signal transmittance. The first optical transmission assembly has to be mechanically and precisely engaged and configured with the second optical transmission assembly via a plurality of positioning holes and positioning posts to ensure the lenses are precisely aligned with the optical fibers. However, the alignment between the positioning holes and the positioning posts is difficult to achieve consistently, which may result in lowered coupling precision between the lenses and the optical fibers, and result in poor optical signals transmittance.
Therefore, there is room for improvement within the art.
The components in the drawings are not necessarily drawn to scale, the emphasis instead placed upon clearly illustrating the principles of the present disclosure. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the several views.
Referring to
Referring to
Referring to
The second surface 233 defines a reflection notch 235 and a recess 237. The reflection notch 235 is located at a middle of the second surface 233 corresponding to the line in which the first lenses 24 are arranged along. The reflection notch 235 is substantially a long groove or notch, triangular in cross-section across the width of the groove or notch as shown in
The recess 237 is substantially cuboid, and is located near the second side surface 2353. The recess 237 includes a bottom surface 2371 and a side surface 2373 facing opposite from the second side surface 2353. The second lenses 25, which are also aspherical and convex, are formed on the side surface 2373 arranged in a line corresponding to the first lenses 24. Optical signals reflected by the second side surface 2353 are converged by the second lenses 25. In the illustrated embodiment, the side surface 2373 is parallel to the first side surface 2351.
A block 2375 protrudes out from the bottom surface 2371, and is located at a side of the bottom surface 2371 away from the side surface 2373. The block 2375 defines a plurality of V-section grooves 2377 on a surface of the block 2375 adjacent to the bottom surface 2371. The optical fibers 26 are received in the grooves 2377, and affixed to the grooves 2377 via adhesive (not shown) or other appropriate means. An end surface of each optical fiber 26 facing each of the second lenses 25 is precisely located at a focal point of one second lens 25 to which the end surface of an optical fiber 26 is exposed. Therefore, the optical fibers 26 are precisely coupled with the lenses 25, respectively, for transmitting optical signals, and thus signal loss is minimized. The grooves 2377 may be in any other shape in cross-section, for example trapezoid, so long as the optical fibers 26 can be received and secured therein.
In the illustrated embodiment, providing that the second side surface 2353 is in place and functioning, a plurality of intersections of the optical axis of the second lenses 25 and the optical axis of the corresponding first lenses 24 are configured and arranged in a straight line in all respects. The number of the first lenses 24 is four and that of the second lenses 25 is four.
In using the photoelectric converter 100, the laser diode 10 emits optical signals towards the optical transmission module 20. The optical signals are converged by the first lenses 24 and enter into the optical transmission body 23, and are reflected by the second side surface 2353 towards the second lenses 25; the optical signals are then converged by the second lenses 25 onto the optical fibers 26. The optical fibers 26 output the optical signals to the photo diode 30 for the conversion to electrical signals.
The coating of the second side surface 2353 with a reflecting film or the mounting thereon of a reflecting mirror ensures the total internal reflection of the optical signals by the second side surface 2353.
In the photoelectric converter 100, since the optical transmission body 23 defines the recess 237 in which the optical fibers 26 are fixed into, and the design and manufacture of the optical transmission body 23 allows the optical fibers 26 to be received and fixed in the grooves 2377 of the block 2375 so as to be precisely coupled with the second lenses 25. The photoelectric converter 100 has a high coupling precision between the second lenses 25 and the optical fibers 26, and the loss of signals under normal working conditions is thereby insignificant.
It is believed that the present embodiments and their advantages will be understood from the foregoing description, and it will be apparent that various changes may be made thereto without departing from the spirit and scope of the disclosure or sacrificing all of its material advantages.
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