JP4554571B2 - Method and apparatus for stabilizing optical output of optical switch - Google Patents

Description

  The present invention provides an optical switch that continuously reflects a light beam input from an arbitrary input port between a plurality of input / output ports by a plurality of MEMS (Micro Electric Mechanical System) mirrors and outputs the light beam to an arbitrary output port. The present invention relates to an optical output stabilization method and apparatus for an optical switch that adjusts the angles of a plurality of MEMS mirrors that determine an output path of an optical beam and stabilizes output light intensity at an output port.

  FIG. 7 shows a configuration example of the optical switch. In FIG. 7, the optical switch has a configuration in which two collimator arrays 1 and 2 in which a plurality of collimators are two-dimensionally arranged and two MEMS mirror arrays 3 and 4 in which a plurality of mirrors are two-dimensionally arranged. An input optical fiber array in which a plurality of optical fibers are two-dimensionally arranged corresponding to each collimator (input port) is connected to the input-side collimator array 1, and each collimator array 2 is connected to the output-side collimator array 2. An output optical fiber array in which a plurality of optical fibers are two-dimensionally arranged corresponding to (output port) is connected. In addition, the angle of each mirror is controlled by MEMS technology, and any input / output optical fiber can be connected (switching the output path) by a combination of mirrors reflected by the two MEMS mirror arrays 3 and 4. .

Here, as an adjustment of the optical switch for performing the connection between the input and output optical fibers, it is necessary to adjust the angle of each mirror so that the optimum output light intensity can be obtained for each output port. As a conventional adjustment method, there is a method in which the output light intensity of each output port of an optical switch is detected and the angle of each mirror is adjusted so that the output light intensity is optimized (Patent Document 1). For example, in the differential drive method, a light intensity differential value is obtained from the mirror drive (rotation) amount when the mirror to be adjusted is finely driven (rotated) and the light beam intensity at the drive position, and this light intensity differential value is obtained. Then, the next moving target position is calculated from the predetermined step amount, and the mirror is adjusted to the optimum position by sequentially moving the mirror to the target position. In the circular drive method, the mirror is driven so that the light beam reflected from the mirror draws an annular trajectory, and the intensity of the light beam at an arbitrary angle during the circular drive is detected. The angle at which the intensity is detected is calculated, and the procedure for adjusting the mirror to that angle is sequentially repeated to adjust the mirror to a position where the light beam is maximized.
JP 2004-271977 A

  By the way, in the method of detecting the output light intensity of the output port of the optical switch and adjusting the mirror angle, when each mirror is in the initial setting state, sufficient light intensity for adjusting the mirror angle is obtained. Is not limited. Thus, when the output light intensity of the output port is not sufficient, it cannot be determined in which direction the angle of the mirror is shifted, and it takes time for the light to be coupled to the predetermined output port.

  For example, as shown in FIG. 8 (1), when the light beam of the input port 21 is coupled to the output port 23, the mirror 31 corresponding to the input port 21 is controlled, and the light beam reflected by the mirror 31 is output. Control is performed so as to be reflected by the mirror 33 corresponding to the port 23 and coupled to the output port 23. At this time, if the mirror control is appropriate, only the output light intensity detected at the output port 23 exceeds the intensity detection threshold at the output port 23 and the adjacent output ports 22 and 24 as shown in FIG. The angle of the mirror is adjusted to show the maximum value. Note that the light beam has a predetermined spread, and when the optical path at the center of the light beam is indicated by a solid arrow, the broken line indicates the optical path of the peripheral part (bottom part) of the light beam.

  On the other hand, even if the mirrors 32 to 34 corresponding to the output ports 22 to 24 are controlled to predetermined angles, respectively, if there is a deviation in the initial setting angle of the mirror 31 corresponding to the input port 21, for example, FIG. As shown, the center of the light beam reflected by the mirror 33 corresponding to the output port 23 is shifted from the output port 23 toward the output port 24. Furthermore, a part of the light beam may be coupled to the output port 24 via the adjacent mirror 34, and the output light intensity of the adjacent output port 24 may be larger than the original output port 23. At this time, if only the output light intensity of the original output port 23 is monitored, the output light intensity is not detected and mirror angle control becomes difficult. If the original light beam is output to the output port 24 via another mirror, the output light intensity at the output port 24 is different from the original value and the angle control becomes inaccurate. If the mirror array and collimator array of the optical switch are two-dimensionally arranged, the above problem similarly occurs between output ports adjacent in the two-dimensional direction.

  The present invention relates to a method and an apparatus for stabilizing the optical output of an optical switch that can control the angle of the mirror so that the output light intensity at each output port of the optical switch becomes an optimum value, and can obtain a stable output light intensity at high speed. The purpose is to provide.

In the first invention, two mirror arrays are arranged between a plurality of input / output ports, a light beam input from an arbitrary input port is continuously reflected by two mirrors of each mirror array, and an arbitrary output port is provided. It is applied to the optical switch that outputs to each output port, detects the output light intensity at each output port, adjusts the angle of the two mirrors in the path of each light beam according to the output light intensity of each output port, and outputs each output In an optical output stabilizing device for an optical switch that stabilizes the output light intensity of a port, a light source that generates control light input to the optical switch and one input port among a plurality of input ports of the optical switch are selected and controlled. A first selection optical switch for inputting light, a plurality of light intensity detectors for measuring output light intensity of each control light output from a plurality of output ports of the optical switch, and a first selection As detect the output light intensity of the output ports A and the output port thereof adjacent corresponding to the input port selected by the switch becomes greater than the output light intensity of the output port an output light intensity of the output port A are adjacent, Control means for adjusting the angle of the mirror on the input port side of the two mirrors in the path of the light beam with respect to the output port A.

  A second invention includes a plurality of sets of the light source and the first selection light switch in the first invention, and a plurality of output ports corresponding to a plurality of input ports to which control light is input and output ports adjacent to each other are mutually connected. In this configuration, a plurality of input ports for inputting control light are selected by a plurality of first selection light switches so as not to overlap.

In the third invention, two mirror arrays are arranged between a plurality of input / output ports, a light beam input from an arbitrary input port is continuously reflected by two mirrors of each mirror array, and an arbitrary output port is provided. It is applied to the optical switch that outputs to each output port, detects the output light intensity at each output port, adjusts the angle of the two mirrors in the path of each light beam according to the output light intensity of each output port, and outputs each output In an optical output stabilization device for an optical switch that stabilizes the output light intensity of a port, multiple light sources that generate control light and input to multiple input ports of the optical switch and output from multiple output ports of the optical switch Control light among a plurality of light intensity detectors for measuring the output light intensity of each control light and control light input from a plurality of light sources to a plurality of input ports of the optical switch, respectively. Stop input of the control light to be output to the output port adjacent to the output port A of the elephant, detects an output port A and the output light intensity of the adjacent output port thereof, the output light intensity of the output port A is adjacent outputs Control means for adjusting the angle of the mirror on the input port side of the two mirrors in the path of the control light output to the output port A so as to be larger than the output light intensity of the port.

  4th invention replaces with the some light intensity detector in 1st-4th invention, 2nd selection which switches and outputs the some control light output from each output port of an optical switch one by one An optical switch and one light intensity detector that measures the output light intensity of the control light sequentially output from the second selection light switch.

  According to a fifth aspect of the present invention, two mirror arrays are arranged between a plurality of input / output ports, a light beam input from an arbitrary input port is continuously reflected by two mirrors of each mirror array, and an arbitrary output port It is applied to the optical switch that outputs to each output port, detects the output light intensity at each output port, adjusts the angle of the two mirrors in the path of each light beam according to the output light intensity of each output port, and outputs each output In the optical output stabilization method of an optical switch for stabilizing the output light intensity of a port, the step of inputting control light to one of the input ports, the output light intensity of the output port A corresponding to the input port and the adjacent output port And the light beam path to the output port A so that the output light intensity of the output port A is larger than the output light intensity of the adjacent output port. And a step of adjusting the angle of the input port side mirror of the mirrors.

  In a sixth aspect of the present invention, two mirror arrays are arranged between a plurality of input / output ports, a light beam input from an arbitrary input port is continuously reflected by two mirrors of each mirror array, and an arbitrary output port It is applied to the optical switch that outputs to each output port, detects the output light intensity at each output port, adjusts the angle of the two mirrors in the path of each light beam according to the output light intensity of each output port, and outputs each output In the optical output stabilization method of an optical switch that stabilizes the output light intensity of a port, a plurality of output ports corresponding to a plurality of input ports to which a plurality of control lights are respectively input and output ports adjacent to each other do not overlap each other As described above, the steps of inputting the plurality of control lights to the corresponding input ports, the plurality of output ports A corresponding to the plurality of input ports, and the adjacent output ports, respectively. A step of measuring the output light intensity of the port, and a path of each light beam for the plurality of output ports A so that the output light intensity of each of the plurality of output ports A is larger than the output light intensity of each of the adjacent output ports. Adjusting the angle of the mirror on the input port side of the two mirrors.

  The present invention relates to an optical switch that switches an optical path using reflections of a plurality of mirrors, and adjusts a mirror angle that optimizes an output light intensity of an output port. The output light intensity is detected and controlled so that the output light intensity of the corresponding output port is greater than the output light intensity of the adjacent output port. Thereby, the adjustment of the mirror angle that optimizes the output light intensity of each output port of the optical switch can be performed efficiently and at high speed.

(First Embodiment of Optical Output Stabilizing Device for Optical Switch of the Present Invention)
FIG. 1 shows a first embodiment of an optical output stabilizing device for an optical switch according to the present invention. In the figure, the control light output from the light source 11 is input to one of n input ports of the MEMS optical switch 10 via the 1 × n optical switch 12. Light intensity detectors 12-1 to 12-n are connected to n output ports of the MEMS optical switch 10, respectively, and output light intensity at each output port is measured.

  Here, the output light intensity of the control light input to the input port of the MEMS optical switch 10 selected by the 1 × n optical switch 12 is adjacent to the light intensity detector 13-2 connected to the predetermined output port. Detection is performed by light intensity detectors 13-1 and 13-3 connected to the output ports. In the figure, the output light intensity is output in a total of nine output ports including a predetermined output port and eight adjacent output ports when the output ports are two-dimensionally arranged. Is detected.

  A switch control circuit (not shown) is configured to control the mirror on the input port side of the MEMS optical switch 10 so that the output light intensity at the predetermined output port is maximized according to the output light intensity at the predetermined output port and the adjacent output port. Adjust the angle. For example, if it is in the state of FIG. 8 (2), it will be in the state of FIG. 8 (1) by adjusting the angle of the mirror 31. FIG.

(Second Embodiment of Optical Output Stabilizing Device for Optical Switch of the Present Invention)
FIG. 2 shows a second embodiment of the optical output stabilizing device for an optical switch of the present invention. In this embodiment, in the configuration of the first embodiment shown in FIG. 1, an n × 1 optical switch 14 is connected to each output port of the MEMS optical switch 10, and each output port is sequentially switched by the n × 1 optical switch 14. The measurement is performed by one light intensity detector 13. In the case of this configuration, the output light intensity of the predetermined output port and the adjacent output port is stored, and the mirror on the input port side of the MEMS optical switch 10 is set so that the output light intensity at the predetermined output port is maximized. Adjust the angle.

  In the present embodiment, as long as the n × 1 optical switch 14 and the light intensity detector 13 can be operated at high speed, it is not always necessary to detect the output light intensity of a plurality of output ports in parallel as in the structure of FIG. However, the angle of the mirror can be adjusted efficiently.

(Third Embodiment of Optical Output Stabilizing Device for Optical Switch of the Present Invention)
FIG. 3 shows a third embodiment of the optical output stabilizing device of the optical switch of the present invention. In this embodiment, a plurality of m sets of the light source 11 and 1 × n optical switch 12 shown in the first embodiment are provided, and a plurality of output ports corresponding to a plurality of input ports to which control light is input and outputs adjacent to the respective output ports. A plurality of input ports for inputting control light are selected by the 1 × n optical switches 12-1 to 12-m so that the ports do not overlap each other.

  Here, the control light output from the light sources 11-1 and 1 × n optical switch 12-1 is transmitted to a light intensity detector 13-2 connected to a predetermined output port of the MEMS optical switch 10 and an adjacent output port. The output light intensity is detected by the connected light intensity detectors 13-1 and 13-3. Similarly, the control light output from the light sources 11-2 and 1 × n optical switch 12-2 is adjacent to the light intensity detector 13-(n−1) connected to a predetermined output port of the MEMS optical switch 10 and adjacent. The output light intensity is detected by the light intensity detectors 13- (n-2) and 13-n connected to the output port. Similarly, the control light output from the light source 11-m, 1 × n optical switch 12-m is transmitted to a light intensity detector 13-5 connected to a predetermined output port of the MEMS optical switch 10 and an adjacent output port. The output light intensity is detected by the connected light intensity detector 13-4.

  As described above, according to the number of input / output ports of the MEMS optical switch 10, the mirror angles of a plurality of paths can be adjusted simultaneously by the number of combinations in which predetermined output ports and adjacent output ports can be arranged so as not to overlap each other. .

(Fourth Embodiment of Optical Output Stabilizing Device for Optical Switch of the Present Invention)
FIG. 4 shows a fourth embodiment of the optical output stabilizing device for an optical switch of the present invention. In the present embodiment, the light sources 11 in the first embodiment are prepared by the number of input ports of the MEMS optical switch 10 so that control light can be input to each input port independently. However, in order to prevent the plurality of output ports corresponding to the plurality of input ports to which the control light is input and the output ports adjacent to each other from overlapping each other, the input port to which the control light is input is m as in the third embodiment. Limit to

  Here, the control light output from the light source 11-3 is a light intensity detector 13-2 connected to a predetermined output port of the MEMS optical switch 10 and a light intensity detector 13- connected to an adjacent output port. The output light intensity is detected at 1, 13-3. Similarly, the control light output from the light source 11-5 is the light intensity detector 13- (n-1) connected to a predetermined output port of the MEMS optical switch 10 and the light intensity connected to the adjacent output port. The output light intensity is detected by the detectors 13- (n-2) and 13-n. Similarly, the control light output from the light source 11- (n-1) is the light intensity detector 13-5 connected to a predetermined output port of the MEMS optical switch 10 and the light intensity connected to the adjacent output port. The output light intensity is detected by the detector 13-4. Other light sources stop outputting control light. Alternatively, an optical attenuator is disposed at the input stage of each input port, and control is performed to reduce the attenuation amount of the optical attenuator corresponding to the input port to which the control light is input.

(Another embodiment of the optical output stabilizing device of the optical switch of the present invention)
A combination of the configurations of the third embodiment and the second embodiment, or a combination of the fourth embodiment and the second embodiment is possible. That is, the n × 1 optical switch 14 and the light intensity detector 13 are provided on the output port side of the MEMS optical switch 10.

  In the configuration described above, the mirror angle on the input port side of the MEMS optical switch 10 is adjusted. However, when adjusting the mirror angle on the output port side, the same processing may be performed by replacing the input / output ports.

(First Embodiment of Optical Output Stabilization Method for Optical Switch of the Present Invention)
FIG. 5 shows a first embodiment of the optical output stabilization method of the optical switch of the present invention. The present embodiment corresponds to the apparatus configuration shown in FIGS. 1 to 2, and includes step S <b> 1 for inputting control light to one of the input ports, the output port A corresponding to the input port, and the adjacent output ports. Step S2 of measuring the output light intensity, and the input of the two mirrors in the path of the light beam to the output port A so that the output light intensity of the output port A is larger than the output light intensity of the adjacent output port. It consists of step S3 which performs angle adjustment of the port side mirror.

(Second Embodiment of Optical Output Stabilization Method for Optical Switch of the Present Invention)
FIG. 6 shows a second embodiment of the optical output stabilization method of the optical switch of the present invention. The present embodiment corresponds to the apparatus configuration shown in FIGS. 3 to 4, and a plurality of output ports corresponding to a plurality of input ports to which a plurality of control lights are respectively input and output ports adjacent to each other are mutually connected. Step S11 for inputting a plurality of control lights to the corresponding input ports so as not to overlap each other, Step S12 for measuring the output light intensities of the plurality of output ports A corresponding to the plurality of input ports and the adjacent output ports, The mirror on the input port side of the two mirrors in the path of each light beam with respect to the plurality of output ports A so that the output light intensities of the plurality of output ports A are larger than the output light intensities of the adjacent output ports. Step S13 is performed to adjust the angle respectively.

  When adjusting the angle of the mirror according to the output light intensity of the predetermined output port A and the adjacent output port, when the output light intensity of the predetermined output port A exceeds a predetermined value, the predetermined output port You may move to the angle adjustment of the mirror according to only the output light intensity of A.

The figure which shows 1st Embodiment of the optical output stabilization apparatus of the optical switch of this invention. The figure which shows 2nd Embodiment of the optical output stabilization apparatus of the optical switch of this invention. The figure which shows 3rd Embodiment of the optical output stabilization apparatus of the optical switch of this invention. The figure which shows 4th Embodiment of the optical output stabilization apparatus of the optical switch of this invention. The flowchart which shows 1st Embodiment of the optical output stabilization method of the optical switch of this invention. The flowchart which shows 2nd Embodiment of the optical output stabilization apparatus of the optical switch of this invention. The figure which shows the structural example of an optical switch. The figure explaining the relationship between the output light intensity of the output port of an optical switch, and a mirror.

Explanation of symbols

1, 2 Collimator array 3, 4 MEMS mirror array 10 MEMS optical switch 11 Light source 12 1 × n optical switch 13 Light intensity detector 14 n × 1 optical switch

Claims (7)

An optical switch in which two mirror arrays are arranged between a plurality of input / output ports, and a light beam input from an arbitrary input port is continuously reflected by two mirrors of each mirror array and output to an arbitrary output port. Applied, the output light intensity at each output port is detected, the angle of the two mirrors in the path of each light beam is adjusted according to the output light intensity at each output port, and the output light intensity at each output port is In the optical output stabilization device of the optical switch to stabilize,
A light source for generating control light input to the optical switch;
A first selection optical switch that selects one input port among a plurality of input ports of the optical switch and inputs the control light;
A plurality of light intensity detectors respectively measuring output light intensity of each control light output from a plurality of output ports of the optical switch;
The output light intensity of the output port A corresponding to the input port selected by the first selection light switch and its adjacent output port is detected, and the output light intensity of the output port A is determined from the output light intensity of the adjacent output port. And a control means for adjusting the angle of the mirror on the input port side of the two mirrors in the path of the light beam with respect to the output port A so that the optical output of the optical switch is stabilized. apparatus. In the optical output stabilization device of the optical switch according to claim 1,
A plurality of sets of the light source and the first selection light switch, and the plurality of output ports corresponding to the plurality of input ports to which the control light is input and the output ports adjacent thereto are not overlapped with each other. An optical output stabilization device for an optical switch, wherein the first selection optical switch is configured to select a plurality of input ports for inputting the control light. An optical switch in which two mirror arrays are arranged between a plurality of input / output ports, and a light beam input from an arbitrary input port is continuously reflected by two mirrors of each mirror array and output to an arbitrary output port. Applied, the output light intensity at each output port is detected, the angle of the two mirrors in the path of each light beam is adjusted according to the output light intensity at each output port, and the output light intensity at each output port is In the optical output stabilization device of the optical switch to stabilize,
A plurality of light sources that generate control light and respectively input to a plurality of input ports of the optical switch;
A plurality of light intensity detectors respectively measuring output light intensity of each control light output from a plurality of output ports of the optical switch;
Out of the control lights respectively input to the plurality of input ports of the optical switch from the plurality of light sources, the control light output to the output port adjacent to the output port A to be controlled is stopped, and the output port A and Two light beams in the path of the control light output to the output port A so that the output light intensity of the adjacent output port is detected and the output light intensity of the output port A is larger than the output light intensity of the adjacent output port And a control means for adjusting the angle of the mirror on the input port side among the mirrors. In the optical output stabilization device of the optical switch according to claim 3,
There is a plurality of output ports A in a range in which output ports adjacent to the output port A to be controlled do not overlap each other, and the angle of the corresponding mirror is adjusted for each output port A. Light output stabilization device. In the optical output stabilization apparatus of the optical switch in any one of Claims 1-4,
Instead of the plurality of light intensity detectors,
A second selection optical switch that switches and outputs a plurality of control lights output from each output port of the optical switch one by one;
An optical output stabilization device for an optical switch, comprising: one optical intensity detector that measures the output optical intensity of control light sequentially output from the second selective optical switch. An optical switch in which two mirror arrays are arranged between a plurality of input / output ports, and a light beam input from an arbitrary input port is continuously reflected by two mirrors of each mirror array and output to an arbitrary output port. Applied, the output light intensity at each output port is detected, the angle of the two mirrors in the path of each light beam is adjusted according to the output light intensity at each output port, and the output light intensity at each output port is In the optical output stabilization method of the optical switch to be stabilized,
Inputting control light to one of the input ports;
Measuring output light intensity of an output port A corresponding to the input port and an adjacent output port;
The angle adjustment of the mirror on the input port side of the two mirrors in the path of the light beam with respect to the output port A is performed so that the output light intensity of the output port A is larger than the output light intensity of the adjacent output port. And a step of performing the optical output stabilization method of the optical switch. An optical switch in which two mirror arrays are arranged between a plurality of input / output ports, and a light beam input from an arbitrary input port is continuously reflected by two mirrors of each mirror array and output to an arbitrary output port. Applied, the output light intensity at each output port is detected, the angle of the two mirrors in the path of each light beam is adjusted according to the output light intensity at each output port, and the output light intensity at each output port is In the optical output stabilization method of the optical switch to be stabilized,
A plurality of output ports corresponding to a plurality of input ports to which a plurality of control lights are respectively input, and a step of inputting the plurality of control lights to the corresponding input ports so as not to overlap each other; and
Measuring output light intensities of a plurality of output ports A and adjacent output ports corresponding to the plurality of input ports;
The input port side of the two mirrors in the path of each light beam with respect to the plurality of output ports A so that the output light intensities of the plurality of output ports A are larger than the output light intensities of the adjacent output ports, respectively. Adjusting the angle of each of the mirrors, and a method for stabilizing the optical output of the optical switch.

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