CN107861267A - A kind of adjustable multicast and exchange photoswitch of splitting ratio and method - Google Patents

Abstract

The present invention relates to a kind of multicast and exchange photoswitch and method, belong to technical field of photo communication, and in particular to a kind of adjustable multicast and exchange photoswitch side of splitting ratio and method.The switch and method are using the adjustable luminous-power distributor of splitting ratio, single chip integrated multicast and exchange photoswitch, based on the damp refractive index for obtaining interferometer structure, changing waveguide using thermo-optic effect, electrooptic effect of Mach, so as to realize the regulation of splitting ratio.

Description

A kind of adjustable multicast and exchange photoswitch of splitting ratio and method

Technical field

The present invention relates to a kind of multicast and exchange photoswitch and method, belong to technical field of photo communication, and in particular to Yi Zhongfen Light is than adjustable multicast and exchange photoswitch side and method.

Background technology

Dense wavelength division multiplexing system (DWDM) is current most common photosphere networking technology, can by multiplexing demultiplexing device To realize tens of ripples even transfer capability of ripples up to a hundred, but current wavelength-division multiplex system, it is substantially or a point arrives The line system of point, the optical link system constructing that most of photosphere networkings can only be realized by terminal station (TM).Occur later on Optical add/drop multiplexer (OADM), evolution of the networking from point to points to looped network is gradually stepped.But due to function limited OADM, The optical channel of upper and lower fixed number and wavelength is typically only capable to, does not realize flexible photosphere networking really.Therefore, anticipated from certain Said in justice, the wavelength-division multiplex system of early stage does not have the photosphere networking realized truly, it is difficult to meets business network IPization With the requirement of packetizing, such as the traffic scheduling ability of network, reliability, maintainability, scalability, manageability etc..This Kind situation is just improved until the appearance of ROADM (ROADM).In order to meet the needs of IP network, basis The construction of bearer network gradually adopts a kind of photosphere reconfiguration technique using ROADM as representative, based on the construction of bearer network provide Brand-new thinking.2004~2005 years, ROADM rose in Japan, and as the emphasis of most of operators concern.2006~ 2007, ROADM was in the ground extensive use such as North America, Europe and Japan.ROADM application also from initial metropolitan area, starts Develop to LAN and backbone network.

Road port is restricted ROADM equipment in terms of flexibility up and down, this to be limited in two-dimentional ROADM equipment applications In it is prominent not enough, but in multidimensional ROADM equipment networks will extreme influence photosphere scheduling feature performance, be embodied in industry Circuit node and photoelectricity light (OEO) regeneration node need substantial amounts of manual intervention up and down for business, can not realize real end-to-end configuration. Therefore, ROADM is not as operator wishes always restructural.Preferable platform should enable operator exist with any frequency (or straight-through) any wavelength, simple and easy above and below any direction, is not required to execute-in-place.Realizing the condition of this target includes： Without color (being suitable for any wavelength), non-directional (can in any direction enter, exit node), Lothrus apterus (exchange frame Structure can prevent to produce conflict between wavelength in reconstructing path), without grid (channel plan and wavelength interval can be changed to adapt to Guard band or modulation format change, increase channel density etc.).Systems provider is intended to support all above-mentioned characteristics.Quan Guang Exchange is following developing direction, is faced the future development, and new optical-fiber network networking technology is all being called in technology and market.Through excessive The progressively improvement of year technology, function and aspect of performance, CDC-F ROADM (i.e. colourless directionless Lothrus apterus and the flexible grid of support The reconfigurable optical bifurcated multiplexer of ability) it is ripe, it is by automating out ingress, realizing the dynamic wave of all nodes Long function, and simplifying operation of equipment.These technologies can also be in the regeneration before intermediate node realizes that wavelength enters optical fiber, and can be used for Wavelength convert.So as to substantially solve many problems that photosphere networking is run into.2015, Verizon announced to use Ciena Carry out disposing CDC-F ROADM technologies with Cisco packet optical transport platform, transmitted first in metropolitan area 100G and ultra long haul light It is commercial that scale is obtained in net.

Multicast and exchange photoswitch are one of key devices in current ROADM and following CDC-F ROADM equipment, are A kind of unrelated optical device of wavelength, it input signal can will be divided into multiple-channel output optical signal all the way, transmit to different ports. Multicast and exchange photoswitch and wavelength-selective switches are used cooperatively, and can meet colourless ROADM systems, undirected, Lothrus apterus, flexible lattice The functional requirement of grid, all there is very important effect for increasing the flexibility of networking, reducing cost.

Multicast and exchange photoswitch include optical power divider (splitter) and photoswitch (optical switch), both Discrete scheme can be used, is connected with optical fiber, but as the increase of port number, assembly difficulty and volume can all increase；Light Power splitter and photoswitch can also use single chip integrated scheme, using the splitter of multiple different splitting ratios, such as In 8 × 8 multicast and exchange photoswitch, to use splitting ratio is 1：1、1：2、1：3、1：4、1：5、1：6 and 1：7 splitter.The accuracy of splitting ratio determines that the performances such as the insertion loss of device, Insertion Loss uniformity and its extinction ratio refer to Mark.High splitting ratio required precision, the high-precision requirement of particularly small splitting ratio, waveguide chip manufacture craft tolerance is proposed Strict requirements, meanwhile, high tolerances necessarily affect yield rate and the cost of chip.Therefore, in production application, An urgent demand splitter splitting ratio is adjustable, so as to reduce process allowance requirement and production cost.The present invention is exactly to drop Low chip cost, improve chip yield, so as to propose it is a kind of with adjustable light splitting than splitter, single chip integrated more Broadcast exchange photoswitch.

The content of the invention

The process allowance that the present invention mainly solves present in prior art requires higher, the technical problems such as yield rate is low, Propose a kind of adjustable multicast and exchange photoswitch of splitting ratio and method.The switch and method use the adjustable luminous power of splitting ratio Distributor, single chip integrated multicast and exchange photoswitch, based on Mach-Ze get interferometer structures, using thermo-optic effect, electrooptic effect To change the refractive index of waveguide, so as to realize the regulation of splitting ratio.

The above-mentioned technical problem of the present invention is mainly what is be addressed by following technical proposals：

A kind of adjustable multicast and exchange photoswitch of splitting ratio, including：Waveguide type luminous-power distributor, based on Mach-Ze get Interferometer framework, at least one in the different multiple interfere arms of its optical path length set having heaters.

Preferably, a kind of above-mentioned adjustable multicast and exchange photoswitch of splitting ratio, the interfere arm both sides are provided with orientation Coupler.

Preferably, the above-mentioned adjustable multicast and exchange photoswitch of a kind of splitting ratio, the heater heat for metallic film Device.

Preferably, the above-mentioned adjustable multicast and exchange photoswitch of a kind of splitting ratio, in addition to a Waveguide-type optical switch, with institute Waveguide type luminous-power distributor is stated to be integrated in same optical waveguide substrates.

Preferably, the above-mentioned adjustable multicast and exchange photoswitch of a kind of splitting ratio, the Metal Membrane Heater material bag Include the one or more in Al, Ti, W, Ni, Cr.

Preferably, the above-mentioned adjustable multicast and exchange photoswitch of a kind of splitting ratio, including：

First One In and Two Out photoswitch, its input are connected with input waveguide, and output end connects the second One In and Two Out respectively The input of the input of photoswitch and the first luminous-power distributor；

Second One In and Two Out photoswitch, its output end connect the input and the 3rd 1 of the first luminous-power distributor respectively Enter scene 2 photoswitch input；

Second luminous-power distributor, its input connect the input of the first luminous-power distributor and the 3rd 1 entered respectively The output end of scene 2 photoswitch；

3rd luminous-power distributor, the output end of its first via input the second luminous-power distributor of connection；Its second road is defeated Enter and be connected by singly entering singly to go out photoswitch with the output end of the 3rd One In and Two Out photoswitch；Its output end and waveguide output end phase Even.

Preferably, the above-mentioned adjustable multicast and exchange photoswitch of a kind of splitting ratio, first luminous-power distributor are 1：1 Luminous-power distributor；Second luminous-power distributor is 1：2 luminous-power distributor；3rd luminous-power distributor is 1：3 luminous-power distributor.

Preferably, the above-mentioned adjustable multicast and exchange photoswitch of a kind of splitting ratio, the two-way input of each luminous-power distributor Respectively from different input waveguides.

A kind of adjustable multicast of splitting ratio exchanges light method, including：

Waveguide type luminous-power distributor is constructed based on Mach-Ze get interferometers framework；

Change between two interfere arms of the waveguide type luminous-power distributor θ of phase difference 2 to realize different splitting ratios.

Preferably, a kind of adjustable multicast of above-mentioned splitting ratio exchanges light method, including：By heating the waveguide type light One interfere arm of power divider changes the θ of phase difference 2 between two interfere arms.

Therefore, the invention has the advantages that：

1st, using with adjustable light splitting than splitter, independent of process allowance, greatly improve chip yield；

2nd, using integrated micro metal thin film heater, splitter light splitting is realized using the thermo-optic effect of waveguide Than adjustable；

3rd, process allowance is reduced, significantly improves yield rate, suitable for commercialization application, is had inexpensive, highly reliable The advantages of property.

Brief description of the drawings

Fig. 1 is the structural representation of 4 × 4 multicast and exchange photoswitch；

Fig. 2 is the structural representation of the nonadjustable luminous-power distributor of splitting ratio；

Fig. 3 is the dichroism figure of the nonadjustable luminous-power distributor of splitting ratio；

Fig. 4 is the structural representation of the adjustable luminous-power distributor of splitting ratio proposed by the present invention.

Wherein：

1-1 × 2 photoswitches；2-1 × 1 photoswitch；3-splitting ratio is 1：1 luminous-power distributor；4-splitting ratio is 1：2 luminous-power distributor；5-splitting ratio is 1：3 luminous-power distributor；6-form the first of Mach-Ze get interferometers Directional coupler；Second directional coupler of 7-composition Mach-Ze get interferometers；8-integrated Metal Membrane Heater；

101st, 4 input waveguides of 102,103,104-4 × 4 multicast and exchange photoswitch；201、202、 203、204—4 4 output waveguides of × 4 multicast and exchange photoswitch；

The coefficient of coup of-directional coupler 1 and the product of coupling length；The coupled systemes of-directional coupler 2 The product of number and coupling length；Phase difference between 2 θ-interfere arm of Mach-Ze get interferometers two.

Embodiment

Below by embodiment, and with reference to accompanying drawing, technical scheme is described in further detail.

Embodiment：

The present embodiment is by taking 4 × 4 multicast and exchange photoswitch as an example, to illustrate that a kind of splitting ratio proposed by the present invention is adjustable Single chip integrated multicast and exchange photoswitch.

4 × 4 multicast and exchange photoswitch as shown in Figure 1 include 12 2 × 2 photoswitches, 41 × 2 photoswitches, 4 points Light ratio is 1：1 luminous-power distributor, 4 splitting ratios are 1：2 luminous-power distributor and 4 splitting ratios are 1：3 luminous power Distributor.101st, 102,103,104 be 4 input ports of multicast and exchange photoswitch, 201,202,203,204 be multicast exchange 4 output ports of photoswitch.From the optical signal of any input port (such as 101) input, by the control of multiple photoswitches System, can the either output port selectively output (such as 201) from 4 output ports；1：1、 1：2、1：The design of 3 splitting ratios, So that being inputted from any input port, there is identical loss from the optical signal of either output port output.

The splitting ratio of the luminous-power distributor of prior art is fixed, and immutable, its structure is as shown in Fig. 2.In this reality Apply in example and illustrate by taking the Mach-Ze get interferometers comprising two directional couplers as an example.Mach-Ze get interferometers shown in Fig. 2 Including directional coupler 6, directional coupler 7 and different two interfere arms of optical path length.By designing directional coupler 6Directional coupler 7And the θ of phase difference 2 between the interfere arm of Mach-Ze get interferometers two, as can be seen from Figure 3：It is different 's Mach-Ze get the interferometers of 2 θ design loads will have different splitting ratios, once2 θ are determined Afterwards, the splitting ratio of luminous-power distributor will immobilize.High splitting ratio required precision, the high accuracy of particularly small splitting ratio will Ask, strict requirements are proposed to waveguide chip manufacture craft tolerance, meanwhile, high tolerances necessarily affect yield rate and core The cost of piece.Therefore, in production application, an urgent demand splitter splitting ratio is adjustable, so as to reduce process allowance It is required that and production cost.

Therefore, the present invention improves chip yield, adjustable light splitting is carried so as to propose one kind to reduce chip cost The splitter of ratio, single chip integrated multicast and exchange photoswitch.

Ideally, target design value2 θ can obtain the splitting ratio of target, but under actual conditions, by It is actual in process allowance2 θ and design load always have certain deviation, and splitting ratio pair 2 θ are very sensitive.Therefore, the actual splitting ratio of luminous-power distributor differs larger with design object value, so that multicast exchanges light The yield rate of switch is very low.In order to meet industrialization demand, it is necessary to take certain measure to correct process allowance.The present invention adopts With in two interfere arms of Mach-Ze get interferometers integrated metal thin film heater correct the deviation of splitting ratio, such as Fig. 4 institutes Show.Metal Membrane Heater has certain resistance, after making alive, will generate heat, so that the waveguide temperature liter under it It is high.Because waveguide material has thermo-optic effect, the change of temperature will bring the change of refractive index, therefore, the phase between two interfere arms Potential difference 2 θ, 2 θ change can realize the adjustable of splitting ratio.To in two interfere arms of Mach-Ze get interferometers plus different electricity Pressure, makes the temperature in two interfere arms at waveguide different, due to the thermo-optic effect of waveguide material, refractive index caused by different temperatures Change it is different, it is achieved thereby that 2 θ phase differences between two interfere arms.By principle of interference it is recognised that out of phase difference causes horse Splitting ratio between the output port of He-Ze get interferometers two is inconsistent.The voltage obtained according to measuring in advance and splitting ratio relation, can With according to the different luminous voltage more different than setting.

Specific embodiment described herein is only to spirit explanation for example of the invention.Technology belonging to the present invention is led The technical staff in domain can be made various modifications or supplement to described specific embodiment or be replaced using similar mode Generation, but without departing from the spiritual of the present invention or surmount scope defined in appended claims.

Claims (10)

1. A kind of 1. adjustable multicast and exchange photoswitch of splitting ratio, it is characterised in that including：Waveguide type luminous-power distributor, is based on Mach-Ze get interferometer frameworks, at least one in the different multiple interfere arms of its optical path length set having heaters.
2. A kind of 2. adjustable multicast and exchange photoswitch of splitting ratio according to claim 1, it is characterised in that the interfere arm Both sides are provided with directional coupler.
3. 3. the adjustable multicast and exchange photoswitch of a kind of splitting ratio described in as requested 1, it is characterised in that the heater is gold Belong to thin film heater.
4. 4. the adjustable multicast and exchange photoswitch of a kind of splitting ratio described in as requested 1, it is characterised in that also including a waveguide type Photoswitch, it is integrated in the waveguide type luminous-power distributor in same optical waveguide substrates.
5. 5. the adjustable multicast and exchange photoswitch of a kind of splitting ratio described in as requested 1, it is characterised in that the metallic film adds Hot equipment material includes the one or more in Al, Ti, W, Ni, Cr.
6. A kind of 6. adjustable multicast and exchange photoswitch of splitting ratio described in as requested 1, it is characterised in that including：

   First One In and Two Out photoswitch, its input are connected with input waveguide, and output end connects the second One In and Two Out light and opened respectively The input of the input of pass and the first luminous-power distributor；

   Second One In and Two Out photoswitch, its output end connect the input of the first luminous-power distributor and the 3rd 1 enter two respectively Light extraction switch input terminal；

   Second luminous-power distributor, its input connect the input and the 3rd One In and Two Out of the first luminous-power distributor respectively The output end of photoswitch；

   3rd luminous-power distributor, the output end of its first via input the second luminous-power distributor of connection；The input of its second tunnel is logical Cross and singly enter singly to go out photoswitch and be connected with the output end of the 3rd One In and Two Out photoswitch；Its output end is connected with waveguide output end.
7. A kind of 7. adjustable multicast and exchange photoswitch of splitting ratio described in as requested 5, it is characterised in that first luminous power Distributor is 1：1 luminous-power distributor；Second luminous-power distributor is 1：2 luminous-power distributor；3rd light Power divider is 1：3 luminous-power distributor.
8. A kind of 8. adjustable multicast and exchange photoswitch of splitting ratio described in as requested 5, it is characterised in that each luminous-power distributor Two-way input respectively from different input waveguides.
9. 9. a kind of adjustable multicast of splitting ratio exchanges light method, it is characterised in that including：

   Waveguide type luminous-power distributor is constructed based on Mach-Ze get interferometers framework；

   Change between two interfere arms of the waveguide type luminous-power distributor θ of phase difference 2 to realize different splitting ratios.
10. 10. the adjustable multicast of a kind of splitting ratio according to claim 1 exchanges light method, it is characterised in that including：Pass through An interfere arm of the waveguide type luminous-power distributor is heated to change the θ of phase difference 2 between two interfere arms.