최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
---|---|
국제특허분류(IPC7판) |
|
출원번호 | US-0962383 (2015-12-08) |
등록번호 | US-9715157 (2017-07-25) |
발명자 / 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 0 인용 특허 : 469 |
A voltage controlled optical directional coupler (VCODC) having a coupling ratio that can be adjusted to any desired value through voltage tuning is disclosed. The VCODC may include a first optical hybrid coupler and a second optical hybrid coupler, which may be coupled with each other via one or mo
A voltage controlled optical directional coupler (VCODC) having a coupling ratio that can be adjusted to any desired value through voltage tuning is disclosed. The VCODC may include a first optical hybrid coupler and a second optical hybrid coupler, which may be coupled with each other via one or more voltage controlled optical elements having a variable transparency depending on a voltage applied to the one or more voltage controlled optical elements. The VCODC may be configured to divert a portion of optical power received to a trunk input of the VCODC to a tap output of the VCODC based on the variable coupling ratio of the VCODC, which may be dependent on the variable transparency of the one or more voltage controlled optical elements.
1. A voltage controlled optical directional coupler, comprising: a first optical hybrid coupler comprising a trunk input;a second optical hybrid coupler coupled with a tap output; andone or more voltage controlled optical elements configured to couple the first optical hybrid coupler to the second o
1. A voltage controlled optical directional coupler, comprising: a first optical hybrid coupler comprising a trunk input;a second optical hybrid coupler coupled with a tap output; andone or more voltage controlled optical elements configured to couple the first optical hybrid coupler to the second optical hybrid coupler, the one or more voltage controlled optical elements having a variable transparency depending on a voltage applied to the one or more voltage controlled optical elements;wherein the voltage controlled optical directional coupler is configured to divert a portion of optical power received to the trunk input to the tap output based on a variable coupling ratio of the voltage controlled optical directional coupler, the variable coupling ratio being dependent on the variable transparency of the one or more voltage controlled optical elements; wherein a first output of the second optical hybrid coupler is coupled to the tap output, a second output of the second hybrid optical coupler is coupled to an optical termination, and the voltage controlled optical directional coupler is configured to pass through to a trunk output of the first hybrid optical coupler a remaining portion of optical power received to the trunk input and not diverted to the tap output. 2. The voltage controlled optical directional coupler of claim 1, wherein the one or more voltage controlled optical elements comprise one or more voltage controlled optical reflectors. 3. The voltage controlled optical directional coupler of claim 1, further comprising: a control loop configured to adjust the variable coupling ratio of the voltage controlled optical directional coupler to achieve a target optical power at the tap output (POPT TAP) by tuning the voltage applied to the one or more voltage controlled optical elements in an instance in which an observed POPT TAP is not equal to the target POPT TAP. 4. The voltage controlled optical directional coupler of claim 3, wherein the control loop comprises: a sensor configured to generate a correction signal indicative of the observed POPT TAP; anda voltage controller configured to tune the voltage applied to the one or more voltage controlled optical elements based at least in part on the correction signal. 5. The voltage controlled optical directional coupler of claim 4, wherein the correction signal comprises a correction voltage, and wherein the voltage controller is configured to tune the voltage applied to the one or more voltage controlled optical elements based at least in part on a relationship between the correction voltage and a threshold voltage corresponding to the target POPT TAP. 6. The voltage controlled optical directional coupler of claim 5, wherein the voltage controller comprises a loop filter. 7. The voltage controlled optical directional coupler of claim 4, wherein the sensor comprises a photodiode, the photodiode being positioned to be illuminated by output from the tap output and being configured to generate a correction voltage based on illumination from the tap output, and wherein the correction signal comprises the correction voltage generated by the photodiode. 8. The voltage controlled optical directional coupler of claim 3, wherein the control loop is configured to tune the voltage applied to the one or more voltage controlled optical elements to increase transparency of the one or more voltage controlled optical elements in an instance in which the observed POPT TAP is less than the target POPT TAP. 9. The voltage controlled optical directional coupler of claim 3, wherein the control loop is configured to tune the voltage applied to the one or more voltage controlled optical elements to decrease transparency of the one or more voltage controlled optical elements in an instance in which the observed POPT TAP is greater than the target POPT TAP. 10. The voltage controlled optical directional coupler of claim 1, wherein the one or more voltage controlled optical elements comprises a plurality of voltage controlled optical elements. 11. The voltage controlled optical directional coupler of claim 1, wherein the second optical hybrid coupler is coupled to a separate optical coupler, which is configured to provide the tap output. 12. The voltage controlled optical directional coupler of claim 1, wherein at least one of the first optical hybrid coupler and the second optical hybrid coupler comprises four ports, a second port and a third port of the four ports having identical reflectors having reflection coefficient Γ, and wherein, when an optical power with a magnitude of P is injected to a fourth port, an optical power at a second port will be one half of the input power and with an angle of 180 degrees, and the optical power at a third port will be one half of the input power with an angle of 270 degrees, and a same amount of optical power will be reflected from the second port and the third port. 13. A method for operating a voltage controlled optical directional coupler comprising: a first optical hybrid coupler comprising a trunk input; anda second optical hybrid coupler coupled with a tap output of the voltage controlled optical directional coupler, the first optical hybrid coupler being coupled with the second optical hybrid coupler via one or more voltage controlled optical elements having a variable transparency depending on a voltage applied to the one or more voltage controlled optical elements, the method comprising:setting a target optical power at the tap output (POPT TAP) for the voltage controlled optical directional coupler, wherein a portion of optical power received to the trunk input is diverted to the tap output based on a variable coupling ratio of the voltage controlled optical directional coupler, the variable coupling ratio being dependent on the variable transparency of the one or more voltage controlled optical elements;observing an actual POPT TAP;determining whether the actual POPT TAP is equal to the target POPT TAP; andadjusting the variable coupling ratio of the voltage controlled optical directional coupler to achieve the target POPT TAP by tuning the voltage applied to the one or more voltage controlled optical elements in an instance in which the actual POPT TAP is not equal to the target POPT TAP; and passing through to a trunk output of the first hybrid optical coupler a remaining portion of optical power received to the trunk input and not diverted to the tap output. 14. The method of claim 13, wherein adjusting the variable coupling ratio of the voltage controlled optical directional coupler comprises: tuning the voltage applied to the one or more voltage controlled optical elements to increase transparency of the one or more voltage controlled optical elements in an instance in which the actual POPT TAP is less than the target POPT TAP; andtuning the voltage applied to the one or more voltage controlled optical elements to decrease transparency of the one or more voltage controlled optical elements in an instance in which the actual POPT TAP is greater than the target POPT TAP. 15. The method of claim 13, wherein: observing the actual POPT TAP comprises a sensor detecting the actual POPT TAP and generating a correction signal indicative of the actual POPT TAP; andadjusting the variable coupling ratio of the voltage controlled optical directional coupler comprises a voltage controller tuning the voltage applied to the one or more voltage controlled optical elements based at least in part on the correction signal. 16. The method of claim 15, wherein the correction signal comprises a correction voltage, and wherein adjusting the variable coupling ratio of the voltage controlled optical directional coupler comprises the voltage controller tuning the voltage applied to the one or more voltage controlled optical elements based at least in part on a relationship between the correction voltage and a threshold voltage corresponding to the target POPT TAP. 17. The method of claim 13, wherein: setting the target POPT TAP comprises providing a target voltage corresponding to the target POPT TAP to a control loop; andadjusting the variable coupling ratio of the voltage controlled optical directional coupler comprises the control loop tuning the voltage applied to the one or more voltage controlled optical elements. 18. The method of claim 13, wherein setting the target POPT TAP comprises processing circuitry setting the target POPT TAP for the voltage controlled optical directional coupler. 19. A system comprising: a voltage controlled optical directional coupler comprising: a first optical hybrid coupler comprising a trunk input;a second optical hybrid coupler coupled with a tap output; andone or more voltage controlled optical elements configured to couple the first optical hybrid coupler to the second optical hybrid coupler, the one or more voltage controlled optical elements having a variable transparency depending on a voltage applied to the one or more voltage controlled optical elements;wherein the voltage controlled optical directional coupler is configured to divert a portion of optical power received to the trunk input to the tap output based on a variable coupling ratio of the voltage controlled optical directional coupler, the variable coupling ratio being dependent on the variable transparency of the one or more voltage controlled optical elements;a control loop configured to adjust the variable coupling ratio of the voltage controlled optical directional coupler to achieve a target optical power at the tap output (POPT TAP) by tuning the voltage applied to the one or more voltage controlled optical elements in an instance in which an observed POPT TAP is not equal to the target POPT TAP; andprocessing circuitry configured to set the target POPT TAP; wherein a first output of the second optical hybrid coupler is coupled to the tap output, a second output of the second hybrid optical coupler is coupled to an optical termination, and the voltage controlled optical directional coupler is configured to pass through to a trunk output of the first hybrid optical coupler a remaining portion of optical power received to the trunk input and not diverted to the tap output. 20. The system of claim 19, wherein the control loop is configured to: tune the voltage applied to the one or more voltage controlled optical elements to increase transparency of the one or more voltage controlled optical elements in an instance in which the observed POPT TAP is less than the target POPT TAP; andtune the voltage applied to the one or more voltage controlled optical elements to decrease transparency of the one or more voltage controlled optical elements in an instance in which the observed POPT TAP is greater than the target POPT TAP. 21. The system of claim 19, wherein the control loop comprises: a sensor configured to generate a correction signal indicative of the observed POPT TAP; anda voltage controller configured to tune the voltage applied to the one or more voltage controlled optical elements based at least in part on the correction signal. 22. The system of claim 21, wherein the correction signal comprises a correction voltage, and wherein: the processing circuitry is configured to set a threshold voltage corresponding to the target POPT TAP; andthe voltage controller is configured to tune the voltage applied to the one or more voltage controlled optical elements based at least in part on a relationship between the correction voltage and the threshold voltage. 23. The system of claim 22, wherein the sensor comprises a photodiode, the photodiode being positioned to be illuminated by output from the tap output and being configured to generate the correction voltage based on illumination from the tap output.
Copyright KISTI. All Rights Reserved.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.