	US 12,439,186 B2
	Optical transmission system and optical matrix
Lung-Chang Chen, New Taipei (TW)
Assigned to ACON OPTICS COMMUNICATIONS INC., New Taipei (TW)
Filed by ACON OPTICS COMMUNICATIONS INC., New Taipei (TW)
Filed on Dec. 28, 2021, as Appl. No. 17/564,167.
Claims priority of application No. 110129452 (TW), filed on Aug. 10, 2021; application No. 110129453 (TW), filed on Aug. 10, 2021; and application No. 110129454 (TW), filed on Aug. 10, 2021.
Prior Publication US 2023/0053020 A1, Feb. 16, 2023
Int. Cl. H04Q 11/00 (2006.01); H04B 10/50 (2013.01)

CPC H04Q 11/0005 (2013.01) [H04B 10/501 (2013.01); H04Q 2011/0039 (2013.01); H04Q 2011/0058 (2013.01)]

14 Claims

1. An optical transmission system, comprising:

a first optical transmitter comprising a first serializer receiving a first video electrical signal corresponding to a first video standard, wherein the first serializer converts the first video electrical signal corresponding to the first video standard into a first electrical serialized data signal, and the first optical transmitter converts the first electrical serialized data signal into a first optical signal at a specified transmission rate;

an optical matrix connected to the first optical transmitter, and used to receive and forward the first optical signal, wherein the optical matrix comprises:

a plurality of input ends, wherein a first input end of the plurality of input ends is connected to the first optical transmitter, and receives the first optical signal at the specified transmission rate from the first optical transmitter;

a plurality of output ends, wherein the plurality of output ends comprise a first output end;

a controller, wherein a first corresponding relationship is configured between the first input end and the first output end, and the controller, based on the first corresponding relationship, directly outputs the first optical signal at the specified transmission rate to a first optical receiver through the first output end corresponding to the first input end, wherein the first output end is connected to the first optical receiver; and

the first optical receiver comprising a first deserializer connected to the optical matrix, receiving the first optical signal at the specified transmission rate forwarded by the optical matrix, wherein the first optical receiver converts the first optical signal at the specified transmission rate into a second electrical serialized data signal, and the first deserializer of the first optical receiver converts the second electrical serialized data signal into a second video electrical signal corresponding to a second video standard.